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Service Manual: e-STUDIO195/225/245 e-STUDIO195i/225i/245i

manual de servicio e studio toshiba 225

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0% found this document useful (0 votes)
161 views562 pages

Service Manual: e-STUDIO195/225/245 e-STUDIO195i/225i/245i

manual de servicio e studio toshiba 225

Uploaded by

Eder Sánchez
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
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SERVICE MANUAL

MULTIFUNCTIONAL DIGITAL SYSTEMS


e-STUDIO195/225/245
e-STUDIO195i/225i/245i

Model: DP-1950/2250/2450
Publish Date: August 2011
File No. SME11001700
R110421J5100-TTEC
Ver00_2011-08
Trademarks
• The official name of Windows 2000 is Microsoft Windows 2000 Operating System.
• The official name of Windows XP is Microsoft Windows XP Operating System.
• The official name of Windows Vista is Microsoft Windows Vista Operating System.
• The official name of Windows 7 is Microsoft Windows 7 Operating System.
• Microsoft, Windows, Windows NT, Windows Vista and the brand names and product names of other
Microsoft products are trademarks or registered trademarks of Microsoft Corporation in the U.S.
and/or other countries.
• Apple, AppleTalk, Macintosh, and Mac are trademarks of Apple Computer, Inc. in the U.S. and other
countries.
• PostScript is a trademark of Adobe Systems Incorporated.
• NOVELL, NetWare, and NDS are trademarks or registered trademarks of Novell, Inc.
• Mylar is a registered trademark of DuPont Teijin Films U.S. Limited Partnership.
• Molykote is a registered trademark of Dow Corning Corporation.
• FLOIL is a registered trademark of Kanto Kasei Ltd. CORPORATION.
• TopAccess is a trademark of Toshiba Tec Corporation.
• iCLASS is a trademark of HID Corporation.
• MIFARE is a trademark of Royal Philips Electronics.
• Other company names and product names in this manual are the trademarks of their respective
companies.

© 2011 TOSHIBA TEC CORPORATION All rights reserved


Under the copyright laws, this manual cannot be reproduced in any form without prior written permission
of TOSHIBA TEC CORPORATION.
GENERAL PRECAUTIONS REGARDING THE SERVICE FOR
e-STUDIO195/225/245
The installation and service shall be done by a qualified service
technician. e-STUDIO195/225/245 and e-STUDIO195i/225i/245i are the
same models.

1. Transportation/Installation
- When transporting/installing the equipment, remove the drawer, employ two persons and be sure
to hold the positions as shown in the figure.
The equipment is quite heavy and weighs approximately 34 kg (74.96 lb.), therefore pay full
attention when handling it.

- Be sure not to hold the movable parts or units (e.g. the control panel, ADU or RADF) when
transporting the equipment.
- Be sure to use a dedicated outlet with AC 110 V / 13.2 A, 115 V or 127 V / 12 A, 220-240 V or 240
V / 8 A for its power source.
- The equipment must be grounded for safety.
- Select a suitable place for installation. Avoid excessive heat, high humidity, dust, vibration and
direct sunlight.
- Provide proper ventilation since the equipment emits a slight amount of ozone.
- To insure adequate working space for the copying operation, keep a minimum clearance of 10
cm (4”) on the left, 80 cm (32”) on the right and 10 cm (4”) on the rear.
- The equipment shall be installed near the socket outlet and shall be easily accessible.
- Be sure to fix and plug in the power cable securely after the installation so that no one trips over
it.
- When the equipment is used after the option is removed, be sure to install the parts or the covers
which have been taken off so that the inside of the equipment is not exposed.
2. General Precautions at Service
- Be sure to turn the power OFF and unplug the power cable during service (except for the service
should be done with the power turned ON).
- Unplug the power cable and clean the area around the prongs of the plug and socket outlet once
a year or more. A fire may occur when dust lies on this area.
- When the parts are disassembled, reassembly is the reverse of disassembly unless otherwise
noted in this manual or other related documents. Be careful not to install small parts such as
screws, washers, pins, E-rings, star washers in the wrong places.
- Basically, the equipment should not be operated with any parts removed or disassembled.
- The PC board must be stored in an anti-electrostatic bag and handled carefully using a antistatic
wrist band since the ICs on it may be damaged due to static electricity.
Caution: Before using the antistatic wrist band, unplug the power cable of the
equipment and make sure that there are no charged objects which are not
insulated in the vicinity.
- Avoid expose to laser beam during service. This equipment uses a laser diode. Be sure not to
expose your eyes to the laser beam. Do not insert reflecting parts or tools such as a screwdriver
on the laser beam path. Remove all reflecting metals such as watches, rings, etc. before starting
service.
- Be sure not to touch high-temperature sections such as the exposure lamp, fuser unit, damp
heater and areas around them.
- Be sure not to touch high-voltage sections such as the chargers, developer, high-voltage
transformer and power supply unit. Especially, the board of these components should not be
touched since the electric charge may remain in the capacitors, etc. on them even after the
power is turned OFF.
- Make sure that the equipment will not operate before touching potentially dangerous places (e.g.
rotating/operating sections such as gears, belts pulleys, fans and laser beam exit of the laser
optical unit).
- Be careful when removing the covers since there might be the parts with very sharp edges
underneath.
- When servicing the equipment with the power turned ON, be sure not to touch live sections and
rotating/operating sections. Avoid exposing your eyes to laser beam.
- Use designated jigs and tools.
- Use recommended measuring instruments or equivalents.
- Return the equipment to the original state and check the operation when the service is finished.

3. Important Service Parts for Safety


- The breaker, door switch, fuse, thermostat, thermofuse, thermistor, batteries, IC-RAMs including
lithium batteries, etc. are particularly important for safety. Be sure to handle/install them properly.
If these parts are short-circuited and their functions become ineffective, they may result in fatal
accidents such as burnout. Do not allow a short-circuit and/or do not use the parts not
recommended by Toshiba TEC Corporation.
4. Cautionary Labels
- During servicing, be sure to check the rating plate and cautionary labels to see if there is any dirt
on their surface and if they are properly stuck to the equipment.

[1]

[2]

[3]

[4]

[4]

[1] Certification label


[2] Explanatory label
[3] Rating plate
[4] Warning for high temperature area
5. Disposal of the Equipment, Supplies, Packing Materials, Used Batteries and IC-RAMs
- Regarding the recovery and disposal of the equipment, supplies, packing materials, used
batteries and IC-RAMs including lithium batteries, follow the relevant local regulations or rules.

Caution:
Dispose of used batteries and IC-RAMs including lithium batteries according to this manual.
Attention:
Se débarrasser de batteries et IC-RAMs usés y compris les batteries en lithium selon ce manuel.
Vorsicht:
Entsorgung der gebrauchten Batterien und IC-RAMs (inclusive der Lithium-Batterie) nach diesem Handbuch.
ALLEGEMEINE SICHERHEITSMASSNAHMEN IN BEZUG
AUF DIE WARTUNG FÜR e-STUDIO195/225/245
Die Installation und die Wartung sind von einem qualifizierten Service-
Techniker durchzuführen. e-STUDIO195/225/245 und e-STUDIO195i/225i/
245i sind die selben Modelle.

1. Transport/Installation
- Zum Transportieren/Installieren des Gerätes werden 2 Personen benötigt. Die Kassette zuerst
herausnehmen und nur an den in der Abbildung gezeigten Stellen tragen.
Das Gerät ist sehr schwer und wiegt etwa 34 kg; deshalb muss bei der Handhabung des Geräts
besonders aufgepasst werden.

- Beim Transportieren des Geräts nicht an den beweglichen Teilen oder Einheiten halten.
- Eine spezielle Steckdose mit Stromversorgung von AC 110 V / 13.2 A, 115 V oder 127 V / 12 A,
220-240 V / 8 A als Stromquelle verwenden.
- Das Gerät ist aus Sicherheitsgründen zu erden.
- Einen geeigneten Standort für die Installation wählen. Standorte mit zuviel Hitze, hoher
Luftfeuchtigkeit, Staub, Vibrieren und direkter Sonneneinstrahlung sind zu vermeiden.
- Für ausreichende Belüftung sorgen, da das Gerät etwas Ozon abgibt.
- Um einen optimalen Kopierbetrieb zu gewährleisten, muss ein Abstand von mindestens 10 cm
links, 80 cm rechts und 10 cm dahinter eingehalten werden.
- Das Gerät ist in der Nähe der Steckdose zu installieren; diese muss leicht zu erreichen sein.
- Nach der Installation muss das Netzkabel richtig hineingesteckt und befestigt werden, damit
niemand darüber stolpern kann.
2. Allgemeine Sicherheitsmassnahmen in bezug auf die Wartung
- Während der Wartung das Gerät ausschalten und das Netzkabel herausziehen (ausser Wartung,
die bei einem eingeschalteten Gerät, durchgeführt werden muss).
- Das Netzkabel herausziehen und den Bereich um die Steckerpole und die Steckdose die
Umgebung in der Nähe von den Steckerzacken und der Steckdose wenigstens einmal im Jahr
reinigen. Wenn Staub sich in dieser Gegend ansammelt, kann dies ein Feuer verursachen.
- Wenn die Teile auseinandergenommen werden, wenn nicht anders in diesem Handbuch usw
erklärt, ist das Zusammenbauen in umgekehrter Reihenfolge durchzuführen. Aufpassen, dass
kleine Teile wie Schrauben, Dichtungsringe, Bolzen, E-Ringe, Stern-Dichtungsringe,
Kabelbäume nicht an den verkehrten Stellen eingebaut werden.
- Grundsätzlich darf das Gerät mit enfernten oder auseinandergenommenen Teilen nicht in
Betrieb genommen werden.
- Das PC-Board muss in einer Anti-elektrostatischen Hülle gelagert werden. Nur Mit einer
Manschette bei Betätigung eines Armbandes anfassen, sonst könnte es sein, dass die
integrierten Schaltkreise durch statische Elektrizität beschädigt werden.
Vorsicht: Vor Benutzung der Manschette der Betätigung des Armbandes, das Netzkabel
des Gerätes herausziehen und prüfen, dass es in der Nähe keine geladenen
Gegenstände, die nicht isoliert sind, gibt.
- Setzen Sie sich während der Wartungsarbeiten nicht dem Laserstrahl aus. Dieses Gerät ist mit
einer Laserdiode ausgestattet. Es ist unbedingt zu vermeiden, direkt in den Laserstrahl zu
blicken. Keine reflektierenden Teile oder Werkzeuge, wie z. B. Schraubendreher, in den Pfad des
Laserstrahls halten. Vor den Wartungsarbeiten sämtliche reflektierenden Metallgegenstände, wie
Uhren, Ringe usw., entfernen.
- Auf keinen Fall Hochtemperaturbereiche, wie die Belichtungslampe, die Fixiereinheit, die
Heizquelle und die umliegenden Bereiche, berühren.
- Auf keinen Fall Hochspannungsbereiche, wie die Ladeeinheiten, die Entwicklereinheit, den
Hochspannungstransformator, und das Netzgerät, berühren. Insbesondere sollten die Platinen
dieser Komponenten nicht berührt werden, da die Kondensatoren usw. auch nach dem
Ausschalten des Geräts noch elektrisch geladen sein können.
- Vor dem Berühren potenziell gefährlicher Bereiche (z. B. drehbare oder betriebsrelevante
Bereiche, wie Zahnräder, Riemen, Riemenscheiben, Lüfter und die Laseraustrittsöffnung der
optischen Lasereinheit) sicherstellen, dass das Gerät sich nicht bedienen lässt.
- Beim Entfernen von Abdeckungen vorsichtig vorgehen, da sich darunter scharfkantige
Komponenten befinden können.
- Bei Wartungsarbeiten am eingeschalteten Gerät dürfen keine unter Strom stehenden, drehbaren
oder betriebsrelevanten Bereiche berührt werden. Nicht direkt in den Laserstrahl blicken.
- Ausschließlich vorgesehene Werkzeuge und Hilfsmittel verwenden.
- Empfohlene oder gleichwertige Messgeräte verwenden.
- Nach Abschluss der Wartungsarbeiten das Gerät in den ursprünglichen Zustand zurück
versetzen und den einwandfreien Betrieb überprüfen.

3. Sicherheitsrelevante Wartungsteile
- Der Leistungsschutzschalter, der Türschalter, die Sicherung, der Thermostat, die
Thermosicherung, der Thermistor, Batterien, die IC-RAMs einschließlich der Lithiumakkus usw.
sind besonders sicherheitsrelevant. Sie müssen unbedingt korrekt gehandhabt und installiert
werden. Wenn diese Teile kurzgeschlossen und funktionsunfähig werden, kann dies zu
schwerwiegenden Schäden, wie einem Abbrand, führen. Kurzschlüsse sind zu vermeiden, und
es sind ausschließlich Teile zu verwenden, die von der Toshiba TEC Corporation empfohlen sind.
4. Warnetiketten
- Im Rahmen der Wartung unbedingt das Leistungsschild und die Etiketten mit Warnhinweisen
überprüfen, um sicherzustellen, dass sie nicht verschmutzt sind und korrekt am Gerät
angebracht sind.

[1]

[2]

[3]

[4]

[4]

[1] Klassifizierungsetikett
[2] Erklarungsetikett
[3] Erkennungsetikett
[4] Warnung fur Bereiche mit hohen Temperaturen
5. Entsorgung des Geräts, der Verbrauchs- und Verpackungsmaterialien, alter Akkus und IC-
RAMs
- In Bezug auf die Entsorgung und Wiederverwertung des Geräts, der Verbrauchs- und
Verpackungsmaterialien, alter Akkus und IC-RAMs, einschließlich Lithiumakkus, sind die
einschlägigen nationalen oder regionalen Vorschriften zu befolgen.

Caution:
Dispose of used batteries and IC-RAMs including lithium batteries according to this manual.
Attention:
Se débarrasser de batteries et IC-RAMs usés y compris les batteries en lithium selon ce manuel.
Vorsicht:
Entsorgung der gebrauchten Batterien und IC-RAMs (inclusive der Lithium-Batterie) nach diesem Handbuch.
• Laseremissionseinheit

Diese Einheit besteht aus der Laserdiode, dem Fokussierungsobjektiv, der Blende und dem
Zylinderobjektiv.

- Laserdiode
Diese Laserdiode zeichnet sich durch eine geringe Regeldifferenz, eine kleine Laservariation und einen
niedrigen Schwellenstrom aus.
Die Blende der Laseremissionseinheit ist unter dem Fokussierobjektiv angeordnet, um die Form der
Laserstrahlen in der primären und sekundären Scanrichtung festzulegen.
Die Laserdiode gibt Laserstrahlen als Reaktion auf die Signale der Laseremissionssteuerung (ein/aus)
von der Lasertreiber-PC-Platine (LDR) aus. Die durch das Fokussierobjektiv
geführten Laserstrahlen werden auf die Trommeloberfläche fokussiert.

- Vorsichtsmaßnahmen im Zusammenhang mit Lasern


Dieses Gerät enthält eine Laserdiode, die einen unsichtbaren Laserstrahl emittiert.
Da man diesen Laserstrahl nicht sehen kann, ist bei der Handhabung der Komponenten der optischen
Lasereinheit, bei der Durchführung von Arbeiten und bei der Justierung des
Laserstrahls äußerste Vorsicht geboten. Arbeiten dürfen niemals anhand anderer
als den vorgeschriebenen Anleitungen durchgeführt werden; andernfalls kann es zu
einer Schädigung Exposition durch Laserstrahlung kommen.
Die Lasereinheit ist vollständig mit einer Schutzabdeckung versiegelt. Solange ausschließlich die
Arbeitsschritte der vorgeschriebenen Anleitungen durchgeführt werden, tritt der
Laserstrahl nicht aus, und es besteht keine Gefahr, der Laserstrahlung ausgesetzt
zu werden.

Das folgende Laser-Warnetikett ist an der Abdeckung vorne rechts angebracht.

• Warnhinweise:
- Setzen Sie sich während der Wartungsarbeiten nicht dem Laserstrahl aus.
Dieses Gerät ist mit einer Laserdiode ausgestattet. Es ist unbedingt zu vermeiden, direkt in den
Laserstrahl zu blicken. Keine reflektierenden Teile oder Werkzeuge, wie z. B.
Schraubendreher, in den Pfad des Laserstrahls halten. Vor den Wartungsarbeiten
sämtliche reflektierenden Metallgegenstände, wie Uhren, Ringe usw., entfernen.
- Bei Wartungsarbeiten am eingeschalteten Gerät dürfen keine unter Strom stehenden, drehbaren
oder betriebsrelevanten Bereiche berührt werden. Nicht direkt in den Laserstrahl blicken.
- Im Rahmen der Wartung unbedingt das Leistungsschild und die Etiketten mit Warnhinweisen
überprüfen [z. B. „Unplug the power cable during service“ („Netzkabel vor Beginn der
Wartungsarbeiten abziehen“), „CAUTION. HOT“ („VORSICHT, HEISS“), „CAUTION. HIGH
VOLTAGE“ („VORSICHT, HOCHSPANNUNG“), „CAUTION. LASER BEAM“ („VORSICHT,
LASER“) usw.], um sicherzustellen, dass sie nicht verschmutzt sind und korrekt am Gerät
angebracht sind.
CONTENTS
e-STUDIO195/225/245

1. FEATURE...................................................................................................................... 1-1
1.1 Main Feature of e-STUDIO195/225/245 ........................................................................... 1-1
2. SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES ................................... 2-1
2.1 Specifications .................................................................................................................... 2-1
2.2 Accessories....................................................................................................................... 2-5
2.3 Options.............................................................................................................................. 2-6
2.4 Supplies ............................................................................................................................ 2-7
2.5 System List........................................................................................................................ 2-8
3. OUTLINE OF THE MACHINE ....................................................................................... 3-1
3.1 Sectional View................................................................................................................... 3-1
3.2 Electric Parts Layout ......................................................................................................... 3-4
3.3 Symbols and Functions of Various Components ............................................................ 3-11
3.4 Copy Process.................................................................................................................. 3-15
3.4.1 General description of copying process........................................................... 3-15
3.4.2 Comparison with e-STUDIO230/280 ............................................................... 3-16
3.5 General Operation........................................................................................................... 3-17
3.5.1 Overview of operation ...................................................................................... 3-17
3.5.2 Description of operation ................................................................................... 3-17
3.5.3 Detection of abnormality .................................................................................. 3-20
3.6 Control Panel .................................................................................................................. 3-26
3.6.1 General description ......................................................................................... 3-26
3.6.2 Items shown on the display panel.................................................................... 3-27
3.6.3 Relation between equipment state and operation ........................................... 3-29
3.7 Scanner........................................................................................................................... 3-30
3.7.1 General description.......................................................................................... 3-30
3.7.2 Construction..................................................................................................... 3-31
3.7.3 Functions ......................................................................................................... 3-32
3.7.4 Description of operation ................................................................................... 3-34
3.7.5 Process of detection of original size ................................................................ 3-35
3.8 Laser Optical Unit............................................................................................................ 3-36
3.8.1 General description.......................................................................................... 3-36
3.8.2 Laser precautions ............................................................................................ 3-37
3.9 Drive Unit ........................................................................................................................ 3-38
3.9.1 General description.......................................................................................... 3-38
3.9.2 Configuration ................................................................................................... 3-39
3.9.3 Functions ........................................................................................................ 3-40
3.10 Paper Feeding System.................................................................................................... 3-41
3.10.1 General description.......................................................................................... 3-41
3.10.2 Configuration ................................................................................................... 3-42
3.10.3 Functions ......................................................................................................... 3-43
3.10.4 Operation ......................................................................................................... 3-45
3.11 Drum Related Section ..................................................................................................... 3-50
3.11.1 General description.......................................................................................... 3-50
3.11.2 Configuration ................................................................................................... 3-51
3.11.3 Functions ......................................................................................................... 3-52
3.12 Development System ...................................................................................................... 3-54
3.12.1 General description.......................................................................................... 3-54
3.12.2 Construction..................................................................................................... 3-55
3.12.3 Functions ......................................................................................................... 3-56
3.13 Fuser / Exit Unit............................................................................................................... 3-60
3.13.1 General description.......................................................................................... 3-60
3.13.2 Configurations.................................................................................................. 3-61
3.13.3 Functions ......................................................................................................... 3-62
3.13.4 Operation ......................................................................................................... 3-64
© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245
CONTENTS
1
3.13.5 Fuser unit control circuit................................................................................... 3-65
3.14 Automatic Duplexing Unit (ADU) (OPTION: MD-0103)................................................... 3-68
3.14.1 General description.......................................................................................... 3-68
3.14.2 Construction..................................................................................................... 3-70
3.14.3 Functions ......................................................................................................... 3-71
3.14.4 Drive of ADU.................................................................................................... 3-72
3.14.5 Description of operation ................................................................................... 3-73
3.15 Power Supply Unit........................................................................................................... 3-75
3.15.1 Construction..................................................................................................... 3-75
3.15.2 Operation of DC output circuit ......................................................................... 3-76
3.15.3 Output channel ................................................................................................ 3-77
3.15.4 Fuse................................................................................................................. 3-78
4. DISASSEMBLY AND REPLACEMENT........................................................................ 4-1
4.1 Disassembly and Replacement of Covers ........................................................................ 4-1
4.1.1 Front cover......................................................................................................... 4-1
4.1.2 Inner tray............................................................................................................ 4-1
4.1.3 Left cover ........................................................................................................... 4-2
4.1.4 Tray rear cover .................................................................................................. 4-2
4.1.5 Front right cover................................................................................................. 4-2
4.1.6 Front upper cover .............................................................................................. 4-3
4.1.7 ADU cover ......................................................................................................... 4-3
4.1.8 Right front cover ................................................................................................ 4-4
4.1.9 Right rear cover ................................................................................................. 4-4
4.1.10 Rear cover ......................................................................................................... 4-4
4.2 Control Panel .................................................................................................................... 4-5
4.2.1 Control panel unit............................................................................................... 4-5
4.2.2 Control panel PC board (HPNL) ........................................................................ 4-5
4.2.3 LCD PC board (LCD) ......................................................................................... 4-6
4.3 Scanner............................................................................................................................. 4-7
4.3.1 Original glass ..................................................................................................... 4-7
4.3.2 Scanner top cover.............................................................................................. 4-8
4.3.3 Automatic original detection sensor (APS sensor) ............................................ 4-9
4.3.4 Scan motor (M1) ................................................................................................ 4-9
4.3.5 CIS home position sensor (S1) ........................................................................ 4-11
4.3.6 Platen sensor (S2) ........................................................................................... 4-11
4.3.7 CIS unit (CIS)................................................................................................... 4-12
4.3.8 CIS case .......................................................................................................... 4-14
4.3.9 CIS unit drive belt-1 ........................................................................................ 4-15
4.3.10 CIS unit drive belt-2 ......................................................................................... 4-16
4.4 Laser Optical Unit............................................................................................................ 4-17
4.4.1 Laser optical unit.............................................................................................. 4-17
4.5 Drive Unit ........................................................................................................................ 4-18
4.5.1 Main motor (M3) .............................................................................................. 4-18
4.5.2 Toner motor (M2) ............................................................................................. 4-18
4.5.3 Main motor drive unit ....................................................................................... 4-19
4.6 Paper Feeding System.................................................................................................... 4-21
4.6.1 Bypass unit ...................................................................................................... 4-21
4.6.2 Bypass tray ...................................................................................................... 4-22
4.6.3 Bypass separation pad ................................................................................... 4-22
4.6.4 Bypass roller unit ............................................................................................. 4-23
4.6.5 Bypass pickup roller ........................................................................................ 4-25
4.6.6 Bypass feed roller ........................................................................................... 4-25
4.6.7 Bypass paper sensor (S8) ............................................................................... 4-25
4.6.8 Bypass pickup solenoid (SOL1)....................................................................... 4-26
4.6.9 Bypass pickup clutch / Bypass feed clutch ...................................................... 4-27
4.6.10 Damp heater unit (DH3) / Dummy plate .......................................................... 4-29
4.6.11 Paper empty sensor (S7) ................................................................................. 4-29
4.6.12 Main feed roller / Sub feed roller ..................................................................... 4-30
e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved
CONTENTS
2
4.6.13 Separation pad ............................................................................................... 4-31
4.6.14 Registration clutch (CLT1) ............................................................................... 4-31
4.6.15 Pickup clutch (CLT2) ....................................................................................... 4-32
4.6.16 Registration roller (rubber) ............................................................................... 4-33
4.6.17 Registration roller (metal) ................................................................................ 4-33
4.6.18 Feed gear unit.................................................................................................. 4-34
4.6.19 Drawer detection switch (SW5) ....................................................................... 4-34
4.6.20 Registration sensor (S4) .................................................................................. 4-35
4.7 Drum Related Section ..................................................................................................... 4-37
4.7.1 Process unit ..................................................................................................... 4-37
4.7.2 Drum cleaner unit ............................................................................................ 4-39
4.7.3 Discharge LED (ERS) ...................................................................................... 4-40
4.7.4 Main charger.................................................................................................... 4-41
4.7.5 Main charger grid ............................................................................................ 4-41
4.7.6 Main charger cleaner ....................................................................................... 4-42
4.7.7 Needle electrode ............................................................................................. 4-42
4.7.8 Drum ............................................................................................................... 4-43
4.7.9 Drum cleaning blade ....................................................................................... 4-43
4.7.10 Drum separation finger ................................................................................... 4-43
4.7.11 Recovery blade ............................................................................................... 4-44
4.7.12 Transfer/Separation charger ............................................................................ 4-44
4.7.13 Charger wire ................................................................................................... 4-45
4.7.14 Transfer unit..................................................................................................... 4-46
4.7.15 Ozone filter ..................................................................................................... 4-47
4.7.16 Exhaust fan (M5) ............................................................................................. 4-48
4.7.17 Temperature/humidity sensor (S3) .................................................................. 4-49
4.7.18 Toner cartridge interface PC board (CTIF) ...................................................... 4-50
4.8 Development System ...................................................................................................... 4-51
4.8.1 Developer unit.................................................................................................. 4-51
4.8.2 Developer material .......................................................................................... 4-52
4.8.3 Filling developer unit with developer material .................................................. 4-53
4.8.4 Auto-toner sensor (S6) .................................................................................... 4-54
4.8.5 Drum thermistor (THMS4) ............................................................................... 4-54
4.8.6 Guide roller / Developer sleeve ....................................................................... 4-54
4.8.7 Mixer ................................................................................................................ 4-58
4.8.8 Replacement of oil seal ................................................................................... 4-60
4.9 Fuser / Exit Unit............................................................................................................... 4-61
4.9.1 Fuser / Exit unit ................................................................................................ 4-63
4.9.2 Pressure roller unit / Fuser roller unit............................................................... 4-63
4.9.3 Exit roller .......................................................................................................... 4-64
4.9.4 Exit sensor (S5) .............................................................................................. 4-65
4.9.5 Separation finger ............................................................................................ 4-67
4.9.6 Center heater lamp / Side heater lamp (LAMP1/LAMP2) ................................ 4-68
4.9.7 Fuser roller ...................................................................................................... 4-69
4.9.8 Pressure roller ................................................................................................ 4-69
4.9.9 Center thermistor / Side thermistor /
Edge thermistor (THMS1/THMS2/THMS3) ..................................................... 4-71
4.9.10 Fuser thermostat (THMO1).............................................................................. 4-71
4.9.11 Exit motor (M7): Option.................................................................................... 4-72
4.10 Automatic Duplexing Unit (ADU) (OPTION: MD-0103)................................................... 4-73
4.10.1 Automatic duplexing unit (ADU)....................................................................... 4-73
4.10.2 ADU driving PC board (ADU) .......................................................................... 4-74
4.10.3 ADU motor (M8)............................................................................................... 4-74
4.10.4 Upper transport roller....................................................................................... 4-75
4.10.5 Lower transport roller....................................................................................... 4-75
4.10.6 Paper guide ..................................................................................................... 4-76

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


CONTENTS
3
4.11 Removal and Installation of Options ............................................................................... 4-77
4.11.1 MR-2020 (Automatic document feeder (ADF)) /
MR-3023 (Reversing automatic document feeder (RADF))............................. 4-77
4.11.2 MY-1038 (Paper feed unit (PFU)) .................................................................... 4-79
4.11.3 KD-1022 (Paper feed pedestal (PFP))............................................................. 4-84
5. SELF-DIAGNOSTIC MODE .......................................................................................... 5-1
5.1 Overview ........................................................................................................................... 5-1
5.2 Adjustment Mode (05)....................................................................................................... 5-3
5.3 Setting Mode (08).............................................................................................................. 5-6
5.4 Function Test .................................................................................................................. 5-15
5.5 AUTO TEST .................................................................................................................... 5-28
5.6 INDIVIDUAL TEST.......................................................................................................... 5-29
5.7 TEST RESULT LIST ....................................................................................................... 5-30
5.8 FUNCTION TEST ........................................................................................................... 5-31
5.9 MAINTENANCE .............................................................................................................. 5-32
5.10 SERVICE LIST................................................................................................................ 5-35
5.11 FUNCTION (Jam counter ROM ver.) .............................................................................. 5-38
5.12 RAM Clear....................................................................................................................... 5-40
5.13 Country/Region Code...................................................................................................... 5-42
6. ADJUSTMENT .............................................................................................................. 6-1
6.1 Image related adjustment Order ....................................................................................... 6-1
6.2 Adjustment of the Auto-Toner Sensor............................................................................... 6-2
6.3 Image Dimensional Adjustment ........................................................................................ 6-4
6.3.1 General description............................................................................................ 6-4
6.3.2 Paper alignment at the registration roller ........................................................... 6-6
6.3.3 Printer related adjustment.................................................................................. 6-8
6.3.4 Scanner related adjustment ............................................................................. 6-12
6.4 Image Quality Adjustment (Copying Function)................................................................ 6-19
6.4.1 Density adjustment .......................................................................................... 6-19
6.4.2 Gamma slope adjustment ................................................................................ 6-20
6.4.3 Sharpness adjustment ..................................................................................... 6-21
6.4.4 Setting range correction................................................................................... 6-22
6.4.5 Setting range correction (Adjustment of background peak)............................. 6-22
6.4.6 Setting range correction (Adjustment of text peak).......................................... 6-23
6.4.7 Adjustment of smudged/faint text .................................................................... 6-23
6.4.8 Adjustment of image density............................................................................ 6-24
6.5 Image Quality Adjustment (Printing Function)................................................................. 6-25
6.5.1 Adjustment of smudged/faint text .................................................................... 6-25
6.5.2 Adjustment of image density............................................................................ 6-26
6.5.3 Gamma balance adjustment ............................................................................ 6-28
6.6 Image Quality Adjustment (Scanning Function).............................................................. 6-29
6.6.1 Density adjustment .......................................................................................... 6-29
6.6.2 Sharpness adjustment ..................................................................................... 6-30
6.6.3 Setting range correction................................................................................... 6-31
6.6.4 Setting range correction (Adjustment of background peak)............................. 6-31
6.6.5 Setting range correction (Adjustment of text peak).......................................... 6-32
6.7 Adjustment of High-Voltage Transformer........................................................................ 6-33
6.7.1 Adjustment ....................................................................................................... 6-33
6.7.2 Precautions...................................................................................................... 6-39
6.8 Adjustment of the Scanner Section................................................................................. 6-41
6.8.1 CIS unit ............................................................................................................ 6-41
6.8.2 CIS unit drive belt-1 ......................................................................................... 6-41
6.8.3 Scan motor (CIS unit drive belt-2) ................................................................... 6-42
6.9 Adjustment of the Paper Feeding System....................................................................... 6-43
6.9.1 Sheet sideways deviation caused by paper feeding ........................................ 6-43
6.10 Adjustment of Developer Unit ......................................................................................... 6-44
6.10.1 Doctor-to-sleeve gap ....................................................................................... 6-44

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


CONTENTS
4
6.11 Adjustment of the ADF/RADF (MR-2020/3023) .............................................................. 6-46
6.11.1 Adjustment of ADF/RADF position .................................................................. 6-46
6.11.2 Adjustment of ADF/RADF height ..................................................................... 6-51
6.11.3 Adjustment of skew.......................................................................................... 6-53
6.11.4 Adjustment of the leading edge position.......................................................... 6-56
6.11.5 Adjustment of horizontal position ..................................................................... 6-58
6.11.6 Adjustment of copy ratio .................................................................................. 6-59
6.11.7 Adjustment of ADF/RADF opening/closing sensor .......................................... 6-60
7. PREVENTIVE MAINTENANCE (PM)............................................................................ 7-1
7.1 General Descriptions for PM Procedure ........................................................................... 7-1
7.2 Operational Items in Overhauling...................................................................................... 7-2
7.3 Preventive Maintenance Checklist .................................................................................... 7-3
7.4 PM Kit.............................................................................................................................. 7-13
7.5 Jig List ............................................................................................................................. 7-14
7.6 Grease List...................................................................................................................... 7-15
7.7 Precautions for Storing and Handling Supplies............................................................... 7-16
7.7.1 Precautions for storing TOSHIBA supplies ...................................................... 7-16
7.7.2 Checking and cleaning of photoconductive drum ............................................ 7-17
7.7.3 Checking and cleaning of drum cleaning blade ............................................... 7-18
7.7.4 Checking and cleaning of fuser roller and pressure roller ............................... 7-18
8. ERROR CODE AND TROUBLESHOOTING ................................................................ 8-1
8.1 General Descriptions......................................................................................................... 8-1
8.1.1 If a problem continues even after performing all troubleshooting ...................... 8-1
8.2 Error Code List .................................................................................................................. 8-2
8.2.1 Jam .................................................................................................................... 8-2
8.2.2 Service call ........................................................................................................ 8-4
8.3 Diagnosis and Prescription for Each Error Code .............................................................. 8-5
8.3.1 Paper transport jam ........................................................................................... 8-5
8.3.2 Paper misfeeding ............................................................................................. 8-11
8.3.3 Cover open jam ............................................................................................... 8-17
8.3.4 Transport jam (ADF) ........................................................................................ 8-19
8.3.5 Drive system related service call ..................................................................... 8-22
8.3.6 Paper feeding system related service call ....................................................... 8-24
8.3.7 Scanning system related service call............................................................... 8-26
8.3.8 Fuser unit related service call .......................................................................... 8-27
8.3.9 ADF related service call ................................................................................... 8-31
8.3.10 Laser optical unit related service call ............................................................... 8-31
8.3.11 Service call for others ...................................................................................... 8-32
8.3.12 Optical communication related service call...................................................... 8-34
8.4 Troubleshooting for the Image ........................................................................................ 8-35
9. REPLACEMENT OF PC BOARDS............................................................................... 9-1
9.1 Disassembly and Replacement of PC Boards .................................................................. 9-1
9.1.1 MAIN board (MAIN) ........................................................................................... 9-1
9.1.2 SRAM board (SRAM) ........................................................................................ 9-2
9.1.3 Fuse PC board (FUS) ........................................................................................ 9-2
9.1.4 Paper feed controller PC board (PFC)............................................................... 9-3
9.1.5 Switching regulator unit (PS) ............................................................................. 9-4
9.1.6 Switching regulator cooling fan (M6) ................................................................. 9-6
9.2 Caution in Replacing the MAIN board............................................................................... 9-7
9.3 Caution in Replacing the SRAM board ............................................................................. 9-7
10. REMOTE SERVICE..................................................................................................... 10-1
10.1 Service Notification ......................................................................................................... 10-1
10.1.1 Outline ............................................................................................................. 10-1
10.1.2 Setting.............................................................................................................. 10-2
10.1.3 Items to be notified .......................................................................................... 10-4
10.2 Supply Notice .................................................................................................................. 10-6

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


CONTENTS
5
10.2.1 Outline ............................................................................................................. 10-6
10.2.2 Setting.............................................................................................................. 10-6
11. FIRMWARE UPDATING ............................................................................................. 11-1
11.1 Firmware Updating with Download Jig............................................................................ 11-1
11.1.1 PWA-DWNLD-350-JIG .................................................................................... 11-3
11.1.2 Writing the data to the download jig (PWA-DWNLD-350-JIG)......................... 11-7
11.1.3 K-PWA-DLM-320 ............................................................................................. 11-9
11.2 Firmware Updating with USB Media (When GA-1192/GA-1202 is installed)................ 11-10
11.3 Firmware Updating with Software Update Tool............................................................. 11-15
11.3.1 General description........................................................................................ 11-15
11.3.2 System requirements..................................................................................... 11-15
11.3.3 Preparation and precaution ........................................................................... 11-15
11.3.4 Update procedure .......................................................................................... 11-15
12. EXTERNAL COUNTERS ............................................................................................ 12-1
12.1 Outline............................................................................................................................. 12-1
12.2 Signal .............................................................................................................................. 12-1
12.2.1 Pin layout ......................................................................................................... 12-1
12.2.2 Details of the signals........................................................................................ 12-2
12.3 Notices ............................................................................................................................ 12-3
12.3.1 Setting code..................................................................................................... 12-3
12.3.2 Setting value change and restrictions
when using the totalizer (DocuLyzerNW) ........................................................ 12-3
12.3.3 Setting value change and restrictions when using the coin controller ............. 12-3
12.3.4 Simultaneous installation of external counters ................................................ 12-3
13. WIRE HARNESS CONNECTION................................................................................ 13-1
13.1 AC Wire Harness ............................................................................................................ 13-1
13.2 DC Wire Harness .................................................................................................... Appendix
13.3 Electric Parts Layout ............................................................................................... Appendix

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


CONTENTS
6
1. FEATURE

1.1 Main Feature of e-STUDIO195/225/245 1

• This is a compact MFP which adopts long-life consumables and does not produce waste. Users
whose printing amount is small can operate it substantially without maintenance.

• A large-diameter roller is adopted as the feed roller in the drawer.

• The copy speed is improved.


(e-STUDIO182/212/242: 18/21/24 ppm -> e-STUDIO195/225/245: 19/22/24 ppm)

• The GDI driver can be easily installed. (just by connecting the equipment and following the
guidance)

• The various options for e-STUDIO182/212/242 can be used.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


FEATURE
1-1
e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved
FEATURE
1-2
2. SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES

2.1 Specifications

2
When the value is different among e-STUDIO195, 225 and 245, the value for
e-STUDIO225 is shown by [ ] and the value for e-STUDIO245 is shown by { }.

Copy process Indirect electrophotographic process (dry)


Type Desktop type
Original table Fixed type (the left rear corner used as guide to place originals)
Accepted originals Sheet, book and 3-dimensional object. The automatic document feeder
(ADF) and reversing automatic document feeder (RADF), only accepts paper
which are not pasted or stapled. (Single-sided originals: 50 to 127 g/m2/13 to
34 lb. Bond) Carbon paper are not acceptable either.
Maximum size: A3/LD

Copy speed (Copies/min.)


e-STUDIO195
Bypass feed PFP
Paper size Drawer Size Size not PFU Upper Lower
specified specified drawer drawer
A4, B5, LT 19 16 11 16 16 16
A5-R, ST-R – 16 11 – 16 16
A4-R, B5-R, LT-R 15.5 15.5 11 15.5 15.5 14
B4, LG, FOLIO, 13 13 11 13 13 12
COMPUTER
A3, LD 11 11 11 11 11 10.5

e-STUDIO225
Bypass feed PFP
Paper size Drawer Size Size not PFU Upper Lower
specified specified drawer drawer
A4, B5, LT 22 22 13 22 22 22
A5-R, ST-R – 22 13 – 22 22
A4-R, B5-R, LT-R 17.5 17.5 13 17.5 17.5 16
B4, LG, FOLIO, 15 15 13 15 15 13.5
COMPUTER
A3, LD 13 13 13 13 13 12

e-STUDIO245
Bypass feed PFP
Paper size Drawer Size Size not PFU Upper Lower
specified specified drawer drawer
A4, B5, LT 24 23 13 23 23 23
A5-R, ST-R – 23 13 – 23 23
A4-R, B5-R, LT-R 17.5 17.5 13 17.5 17.5 16
B4, LG, FOLIO, 15 15 13 15 15 13.5
COMPUTER
A3, LD 13 13 13 13 13 12

* “–” means “Not acceptable”.


* The copy speed in the above table are available when originals are manually placed for single side,
multiple copying.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES
2-1
* When the ADF and RADF are used, the copy speed of 19 [22] {24} sheets per minute is only
available under the following conditions:
• Original/Mode: Single side original/A4/LT size. APS/automatic density are not selected.
• Number of sheets: 19 [22] {24}
• Reproduction ratio: 100%

Copy speed for thick paper (Copies/min.)


e-STUDIO195/225/245

Thick 1 (81 g/m2 to 105 g/m2, 21.3 lb. Bond to 28 lb. Bond): Bypass feed on a sheet by sheet baisis
only

Thick 2 (106 g/m2 to 163 g/m2, 28 lb. Bond to 90 lb. Index): Bypass feed on a sheet by sheet baisis only

Copy paper
Drawer PFU PFP ADU Bypass copy Remarks
Size A3, A4, A4-R, B4, B5, B5-R, A3 to A5-R, LD to ST-R,
A5-R (Only for PFP), LD, LG, LT, LT-R, FOLIO, COMPUTER, 13"LG,
ST-R (Only for PFP), FOLIO, COMPUTER, 8.5" x 8.5", 8K, 16K, 16K-R
13"LG, 8K, 16K, 16K-R (Non-standard or user-
specified sizes can be set.)
Weight 64 to 80 g/m2, 17 lb. Bond to 21.3 lb. Bond 50 to 163 g/m2
(Single paper feeding)
64 to 80 g/m2
(Continuous feeding)
Special – Tracing paper, labels, OHP film These special papers
paper (thickness: 80 µm or thicker), recommended by
Toshiba Tec
First copy time ..................... e-STUDIO195
Approx. 7.6 sec. (A4, 100%, original placed manually)
Approx. 7.7 sec. (LT, 100%, original placed manually)
e-STUDIO225/245
Approx. 7.1 sec. (A4/LT, 100%, original placed manually)

Warming-up time.................. Approx. 25 sec. (temperature: 20°C)

Multiple copying ................... Up to 999 copies; Key in set numbers

Reproduction ratio ............... Actual ratio: 100±0.5%


Zooming: 25 to 200% in increments of 1%

Resolution/Gradation ........... Scanning: 600 dpi x 600 dpi


Printing: Equivalent to 2400 dpi x 600 dpi
Gradation: 256 steps

Eliminated portion ................ Leading edges: 3.0±2.0 mm, Side/trailing edges: 2.0±2.0 mm (copy)
Leading / trailing edges: 5.0±2.0 mm, Side edges: 5.0±2.0 mm (print)

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES
2-2
Paper feeding ......................... Standard drawer:
1 drawer (stack height 28 mm, equivalent to 250 sheets; 64 to 80 g/m2
(17 to 22 lb. Bond))

Bypass feeding:
Stack height 11.8 mm: equivalent to 100 sheets; 64 to 80 g/m2 (17 to 2
22 lb. Bond)

Paper Feed Unit (PFU):


Option (One drawer: stack height 28 mm, equivalent to 250 sheets; 64
to 80 g/m2 (17 to 22 lb. Bond))

Paper Feed Pedestal (PFP):


Option (One drawer or two: stack height 60.5 mm, equivalent to 550
sheets; 64 to 80 g/m2 (17 to 22 lb. Bond))

Capacity of originals in the ADF/RADF (Option)


.................................................. A3 to A5-R, LD to ST-R:
100 sheets / 80 g/m2 (Stack height 16 mm or less)

Automatic duplexing unit (ADU: Option)


.................................................. Stackless, Switchback type

Toner supply ........................... Automatic toner density detection/supply


Toner cartridge replacing method (There is a recovered toner supply
mechanism.)

Density control ..................... Automatic density mode and manual density mode selectable in 7
steps

Weight.................................. Approx. 32.2 kg ( 70.99 lb.) (for NAD and MJD)


Approx. 34.2 kg ( 75.40 lb.) (for CND)
Approx. 34.3 kg ( 75.62 lb.) (for others)

Power requirements...AC 110 V / 13.2 A, 115 V or 127 V / 12 A


220-240 V or 240 V / 8 A (50/60 Hz)
* The acceptable value of each voltage is ±10%.

Power consumption ...1.5 kW or less (100 V series)


1.5 kW or less (200 V series)
* The electric power is supplied to the ADF/RADF, PFU, PFP and ADU through the equipment.

Total counter ..............Electronical counter

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES
2-3
Dimensions of the equipment .................. W 600 x D 658.6 x H 462.5 (mm): See the figure below

W
Fig. 2-1

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES
2-4
2.2 Accessories

Unpacking/setup instruction 1 set


Operator’s manual 1 pc.
Operator’s manual pocket 1 pc. (for NAD) 2
Power cable 1 pc.
CD-ROM 2 pcs.
Rubber cap 6 pcs. (for MJD, ASD, ASU and SAD)
2 pcs. (for NAD, CND, AUD, TWD and ARD)
Transfer charger wire cleaner 1 pc.
(installed inside of the transfer cover)
Drum (installed inside of the equipment) 1 pc.
Developer material 1 pc.
Nozzle 1 pc. (for NAD)
Toner cartridge 1 pc.
Warranty sheet 1 pc. (for NAD and CND)
Setup report 1 set (for NAD, MJD and CND)
Customer satisfaction card 1 pc. (for MJD)
Packing list 1 pc. (for CND)
Customer survey sheet 1 pc. (for CND)
Certificate of conformance 1 pc. (for CND)
* Machine version
NAD: North America
ASD: Hong Kong
AUD: Australia
MJD: Europe
ASU: Asia / Saudi Arabia
SAD: Saudi Arabia
ARD: Argentina and 220-volt South America
CND: China
TWD: Taiwan
JPD: Japan

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES
2-5
2.3 Options

Platen Cover KA-1640PC


Automatic Document Feeder (ADF) MR-2020/C
Reversing Automatic Document Feeder (RADF) MR-3023/C
Paper Feed Unit (PFU) MY-1038/C
Paper Feed Pedestal (PFP) KD-1022/C
Paper Feed Controller (PFC) GH-1060/C
Drawer Module MY-1028/C
Automatic Duplexing Unit (ADU) MD-0103/C
Fax Kit GD-1221NA/EU/AU/TW/CN
External Keyboard GJ-1160/C/EU/TW
Network Printer Kit GA-1192/C/TW
Scanner Upgrade Kit GA-1202/C/TW
Operator’s manual pocket KK-1660/C
Damp Heater MF-1640U/E
Harness Kit GQ-1130
Desk MH-1640
UnimessageP3fax+ocr GB-1292/C

Notes:
• When the paper feed pedestal (KD-1022) or automatic duplexing unit (MD-0103) is installed,
the paper feed controller (GH-1060) is also required to be installed.
• The external keyboard (GJ-1160) is necessary for the installation of the fax kit (GD-1221) and
the scanner upgrade kit (GA-1202).

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES
2-6
2.4 Supplies

Drum OD-1600 (except for China)


OD-2320 (for China)
Toner cartridge PS-ZT2450U (1) (for North America)
PS-ZT2450A (1) (for 220-volt South America) 2
PS-ZT2450D (1) (for Asia)
PS-ZT2450D5k (1) (for Asia)
PS-ZT2450CS10k (1) (for China)
PS-ZT2450CS5k (1) (for China)
PS-ZT2450T (1) (for Taiwan)
PS-ZT2450T5k (1) (for Taiwan)
PS-ZT2450E (1) (for Europe)
PS-ZT2450E5K (1) (for Europe)
Developer material D-2320 (except for China)
D-2320C (for China)

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES
2-7
2.5

Automatic Reversing Automatic


Document Feeder Document Feeder
Platen Cover (ADF) (RADF)
KA-1640PC MR-2020/C MR-3023/C

e-STUDIO195/225/245
System List

Operator's External
manual pocket Keyboard
KK-1660/C GJ-1160/C/EU/TW

Harness Kit Damp Heater


GQ-1130 MF-1640U/E Automatic
Duplexing Unit

SPECIFICATIONS / ACCESSORIES / OPTIONS / SUPPLIES


(ADU)
MD-0103/C

Paper Feed

2-8
Fax Kit Network Controller

Fig. 2-2
GD-1221NA/EU/AU/ Printer Kit (PFC)
TW/CN GA-1192/C/TW GH-1060/C

Scanner Paper Feed Unit


Upgrade Kit (PFU)
GA-1202/C/TW MY-1038/C

Paper Feed
Drawer Module Pedestal Desk
MY-1028/C (PFP) MH-1640
KD-1022/C

© 2011 TOSHIBA TEC CORPORATION All rights reserved


3. OUTLINE OF THE MACHINE

3.1 Sectional View


1. Front side
A2 A3 A4 A1 A7 A5 A6

3
K5
J3
J6 J7 J5 J4 J8
J9
J1
K4 K2 I5 I9 F3 F2 F1 J2
H2 H3 L3
L1
I7
H4
H5
H1
G2
G1
G3
L3
I1
I2
C6
L2
E2
E1 E5

K3 B2 B1 K1 F4 I8 I4 I11 I10 I3 I6 C4 C1 C2 C3 C5 E3 E4
Fig. 3-1

A1 Original glass
A2 ADF original glass
A3 Contact image sensor unit (CIS)
A4 Scanner damp heater (Left side) DH1
A5 Scanner damp heater (Right side) DH2
A6 Scanner damp heater thermostat THMO2
A7 Automatic original detection sensor S9-S13
B1 Laser optical unit
B2 Polygonal motor M4
C1 Main paper feed roller
C2 Sub paper feed roller
C3 Separation pad
C4 Paper empty sensor S7
C5 Registration sensor S4
C6 Registration roller
E1 Bypass pickup roller
E2 Bypass feed roller
E3 Bypass separation pad

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


OUTLINE OF THE MACHINE
3-1
E4 Bypass paper sensor S8
E5 Bypass tray
F1 Needle electrode
F2 Main charger
F3 Main charger grid
F4 Toner cartridge
G1 Transfer charger wire
G2 Separation charger wire
G3 Transfer guide roller
H1 Drum
H2 Discharge LED
H3 Drum cleaning blade
H4 Recovery blade
H5 Drum separation finger
I1 Developer sleeve (Magnetic roller)
I2 Mixer-1
I3 Mixer-2
I4 Mixer-3
I5 Doctor blade
I6 Auto-toner sensor S6
I7 Toner recovery auger
I8 Toner recycle auger
I9 Drum thermistor THMS4
I10 Drum damp heater DH3
I11 Drum damp heater thermostat THMO3
J1 Fuser roller
J2 Pressure roller
J3 Fuser roller separation finger
J4 Center heater lamp LAMP1
J5 Side heater lamp LAMP2
J6 Center/Side/Edge thermistor THMS1/2/3
J7 Fuser thermostat THMO1
J8 Exit roller
J9 Exit sensor S5
K1 Front cover opening/closing switch SW4
K2 Front cover opening/closing interlock switch SW3
K3 Temperature/humidity sensor S3
K4 Switching regulator
K5 ADU cover opening/closing interlock switch SW2
L1 ADU upper transport roller
L2 ADU lower transport roller
L3 ADU paper guide

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


OUTLINE OF THE MACHINE
3-2
2. Rear side
M1 M5 M7 M2 S2 S1

M8

SOL1 CLT1 CLT2 SW5 M3 M6


Fig. 3-2

M1 Scan motor
M2 Toner motor
M3 Main motor
M5 Exhaust fan
M6 Switching regulator cooling fan
M7 Exit motor (Option)
M8 ADU motor (Option)
S1 CIS home position sensor
S2 Platen sensor
SW5 Drawer detection switch
CLT1 Registration clutch
CLT2 Pickup clutch
SOL1 Bypass pickup solenoid

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


OUTLINE OF THE MACHINE
3-3
3.2 Electric Parts Layout
[A] Scanner, control panel

M1

S13 S12
S11
DH2
S1
THMO2
S2

CIS LCD

HPNL

LT series models

S13

S12 S10

S11 S10
S9
DH1

Fig. 3-3

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OUTLINE OF THE MACHINE
3-4
[B] Power supply section, switches

3
SW3

SW2
PS

SW4
SW1

S3 M6

Fig. 3-4

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OUTLINE OF THE MACHINE
3-5
[C] Laser optical unit, fuser unit, toner cartridge section

M7
S5
M2

CTIF

CTRG

LAMP1

LAMP2

SNS THMO1

THMS1
LDR
THMS2
M4 THMS3

Fig. 3-5

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OUTLINE OF THE MACHINE
3-6
[D] Developer unit section

3
ERS
M5

S6

THMS4

FUS

THMO3
DH3

Fig. 3-6

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OUTLINE OF THE MACHINE
3-7
[E] Driving section

CLT1
M3
SRAM

MAIN

PFC

CLT2 S4

Fig. 3-7

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OUTLINE OF THE MACHINE
3-8
[F] Drawer section

3
SW5
S7

Fig. 3-8

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


OUTLINE OF THE MACHINE
3-9
[G] Bypass unit, automatic duplexing unit

M8
ADU

S8

SOL1

Fig. 3-9

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OUTLINE OF THE MACHINE
3 - 10
3.3 Symbols and Functions of Various Components
The column "P-I" shows the page and item number in the parts list.
1. Motors
Symbol Name Function Remarks P-I
M1 SCAN-MOT Driving the CIS Fig. 3-3 10-1
Scan motor
M2 TNR-MOT Supplying the toner Fig. 3-5 12-15
Toner motor 3
M3 MAIN-MOT Driving the drum, developer unit, Fig. 3-7 12-2
Main motor registration roller, Pickup roller, feed
roller, cleaner unit
M4 M/DC-POL Driving the polygonal mirror Fig. 3-5 5-13
Polygonal motor
M5 EXT-FAN-MOT Exhausting ozone and cooling down Fig. 3-6 11-23
Exhaust fan the equipment inside
M6 PS-FAN-MOT Cooling down the switching regulator Fig. 3-4 5-11
Switching regulator cooling fan
M7 EXIT-MOT Driving the fuser unit and exit roller Fig. 3-5 MD-0103
Exit motor * Option 2-2
M8 ADU-MOT Driving the automatic duplexing unit Fig. 3-9 MD-0103
ADU motor * Option 1-23

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OUTLINE OF THE MACHINE
3 - 11
2. Sensors and switches
Symbol Name Function Remarks P-I

S1 HOME-SNR Detecting CIS home position Fig. 3-3 10-106


CIS home position sensor

S2 PLTN-SNR Detecting the opening/closing of platen Fig. 3-3 9-101


Platen sensor cover or RADF

S3 TEMP/HUMI-SNR Detecting the temperature and humidity Fig. 3-4 5-16


Temperature/humidity sensor inside the equipment

S4 RGST-SNR Detecting the transporting paper at the Fig. 3-7 15-107


Registration sensor registration roller section

S5 EXIT-SNR Detecting the transporting paper at the Fig. 3-5 24-8


Exit sensor exit section

S6 ATTNR-SNR Detecting the density of toner in the Fig. 3-6 21-46


Auto-toner sensor developer unit

S7 EMP-SNR Detecting presence/absence of paper Fig. 3-8 15-107


Paper empty sensor in the drawer

S8 SFB-SNR Detecting presence/absence of paper Fig. 3-9 13-101


Bypass paper sensor on the bypass tray

S9-13 APS 1-3, APS-C, APS-R Detecting original size Fig. 3-3 9-9,
Automatic original detection sensor * S9: only for A4 series models 9-19

SW1 MAIN-SW Turning ON/OFF of the equipment Fig. 3-4 5-4


Main switch

SW2 ADU-COV-INTLCK-SW Controlling cutoff and supply of the 24V Fig. 3-4 6-8
ADU cover opening/closing interlock voltage by opening/closing of the ADU
switch cover

SW3 FRNT-COV-INTLCK-SW Controlling cutoff and supply of the 24V Fig. 3-4 1-5
Front cover opening/closing interlock voltage by opening/closing of the front
switch cover

SW4 FRNT-COV-SW Detecting the opening/closing of the Fig. 3-4 1-101


Front cover opening/closing switch front cover

SW5 CST-SW Detecting presence/absence of the Fig. 3-8 16-110


Drawer detection switch drawer

3. Electromagnetic clutch
Symbol Name Function Remarks P-I

CLT1 RGST-CLT Driving the registration roller Fig. 3-7 16-21


Registration clutch

CLT2 PKU-CLT Driving the paper feed roller Fig. 3-7 12-113
Pickup clutch

4. Solenoids
Symbol Name Function Remarks P-I

SOL1 SFB-SOL Controlling the power transmission of Fig. 3-9 14-15


Bypass pickup solenoid the bypass pickup roller

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OUTLINE OF THE MACHINE
3 - 12
5. PC boards
Symbol Name Function Remarks P-I

MAIN PWA-F-MAIN Controlling the whole system and Fig. 3-7 7-1
Main PC board (MAIN board) image processing

SRAM PWA-F-SRAM Storing the setting information of the Fig. 3-7 7-33
SRAM PC board (SRAM board) equipment

LDR PWA-F-LDR Driving the laser diode Fig. 3-5 5-13


Laser driving PC board (LDR board) 3
SNS PWA-F-SNS Detecting the laser beam position Fig. 3-5 5-13
H-sync signal detection PC board
(SNS board)

HPNL PWA-F-HPNL Detecting the button entry and Fig. 3-3 4-20
Control panel PC board controlling LED and LCD on the control
(HPNL board) panel

CTIF PWA-F-CTIF Interface for detecting the toner Fig. 3-5 7-30
Toner cartridge interface PC board cartridge
(CTIF board) (Detecting the CTRG board)

CTRG PWA-F-CTRG Storing the status of the toner cartridge Fig. 3-5 103-3
Toner cartridge PC board
(CTRG board)

FUS PWA-F-FUS Supplying power to each damp heater Fig. 3-6 7-12
Fuse PC board (FUS board) * Optional for NAD/MJD/CND model,
standard for other models

PFC PWA-F-PFC Controlling the automatic duplexing unit Fig. 3-7 7-35
Paper feed controller PC board and paper feed pedestal
(PFC board) * Option

ADU PWA-F-ADU Controlling the automatic duplexing unit Fig. 3-9 MD-0103
ADU driving PC board (ADU board) * Option 1-13

6. Lamps and heaters


Symbol Name Function Remarks P-I

LAMP1 CNTR-LAMP Heating the center section of the fuser Fig. 3-5 23-12
Center heater lamp roller

LAMP2 SIDE-LAMP Heating the section of both sides of the Fig. 3-5 23-13
Side heater lamp fuser roller
ERS LP-ERS Removing the residual charge from the Fig. 3-6 20-13
Discharge LED drum surface

DH1 SCN-DH-L Preventing condensation in the Fig. 3-3 9-17


Scanner damp heater (Left) scanner unit
* Optional for NAD/MJD/CND model,
standard for other models

DH2 SCN-DH-R Preventing condensation in the Fig. 3-3 9-18


Scanner damp heater (Right) scanner unit
* Optional for NAD/MJD/CND model,
standard for other models

DH3 DRM-DH Preventing condensation of the drum Fig. 3-6 8-6


Drum damp heater * Optional for NAD/MJD/CND model,
standard for other models

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OUTLINE OF THE MACHINE
3 - 13
7. Thermistors and thermostats
Symbol Name Function Remarks P-I

THMS1 THMS-C-HTR Detecting the surface temperature at Fig. 3-5 23-6


Center thermistor the center of the fuser roller (for
controlling the center heater lamp)

THMS2 THMS-S-HTR Detecting the surface temperature at Fig. 3-5 23-6


Side thermistor the rear side of the fuser roller (for
controlling the side heater lamp)

THMS3 THMS-EDG-HTR Detecting the surface temperature at Fig. 3-5 23-6


Edge thermistor the edge of the rear side of the fuser
roller (for preventing overheating)
THMS4 THMS-DRM Detecting the temperature on the drum Fig. 3-6 21-49
Drum thermistor surface

THMO1 THERMO-FSR Preventing overheating in the fuser unit Fig. 3-5 23-5
Fuser thermostat

THMO2 THERMO-SCN-DH Preventing overheating in the scanner Fig. 3-3 9-20


Scanner damp heater thermostat damp heater
* Optional for NAD/MJD/CND model,
standard for other models
THMO3 THERMO-DRM-DH Preventing overheating in the drum Fig. 3-6 8-7
Drum damp heater thermostat damp heater
* Optional for NAD/MJD/CND model,
standard for other models

8. Others
Symbol Name Function Remarks P-I

CIS CIS Reading originals Fig. 3-3 9-8


Contact image sensor unit

PS PS-ACC • Generating DC voltage and Fig. 3-4 5-2


Switching regulator supplying it to each section of the
equipment
• Generating high voltage and
supplying it to the main charger,
developer, transfer and separation
units
• Supplying AC power to the heater
lamp

LCD LCD Displaying each information Fig. 3-3 4-19


LCD panel

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OUTLINE OF THE MACHINE
3 - 14
3.4 Copy Process

3.4.1 General description of copying process

Paper exit

(8) Fusing 3
Lamp heating method
(9)

(10) Cleaning
(2) Data reading(scanning) Discharging
Blade method
CIS Discharge LED (red)

(1) Charging

Image processing

(3) (7) Separation


Data writing
Semiconductive laser

(6) Transfer

(5)
Transfer bias
(4) Development
Magnetic roller Bypass feeding
Toner
(100 sheets)
Carrier Drawer feeding
(250 sheets)
PFU
(250 sheets)

Fig. 3-10

(1) Charging: Applies negative charge on the (7) Separation: Separates paper with the toner
surface of the photoconductive drum. image from the photoconductive drum.

(2) Data reading: The images on the original (8) Fusing: Fuses the toner image onto the
are converted into electrical signals. paper by applying heat and pressure.

(3) Data writing: The electrical signals are (9) Cleaning: Scrapes off the residual toner
converted into light signal (laser emission) from the drum.
which exposes the surface of the
photoconductive drum.

(4) Development: Negatively-charged toner (10) Discharging: Eliminates the residual


adheres to the photoconductive drum and negative charge from the surface of the
forms visible image. photoconductive drum.

(5) Transfer bias: Improves transfer efficiency.

(6) Transfer: Transfers the visible toner image


on the photoconductive drum onto paper.

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OUTLINE OF THE MACHINE
3 - 15
3.4.2 Comparison with e-STUDIO230/280

Process e-STUDIO230/280 e-STUDIO195/225/245


1. Photoconductive drum OD-1600 (OPC ø30) OD-1600, OD-2320 (OPC ø30)
• Sensitivity Highly sensitized/durable drum 
2. Charging Scorotron method 
3. Data writing
• Light source Semiconductor laser 
(Adjustment not required)
4. Development
• Magnetic roller One magnetic roller 
• Auto-toner Magnetic bridge-circuit method 
• Toner supply Toner cartridge 
• Toner-empty detection Density detection method 
• Toner T-2320, T-2320E, T-2320D, T-2320C, PS-ZT2450U (1), PS-ZT2450A (1),
T-2320T PS-ZT2450D (1), PS-ZT2450D5k (1),
PS-ZT2450CS10k (1),
PS-ZT2450CS5k (1), PS-ZT2450T (1),
PS-ZT2450T5k (1), PS-ZT2450E (1),
PS-ZT2450E5K (1)
• Developer material D-2320, D-2320C 
• Developer bias DC- Adjustable output DC- Adjustment output
(during printing) (during printing)
AC (Adjustment not required, during AC (Adjustment not required, during
printing) printing)
DC+ Fixed (others) No DC+ (positive) output
5. Transfer Adjustable output (Constant current) 
6. Separation Adjustable output 
(Constant current)
7. Discharge
• Discharging position Exposure after cleaning 
• Discharge LED Red LED 
8. Cleaning
• Method Cleaning blade 
• Recovered toner Reuse (There is the recovered toner 
supply mechanism.)
9. Fusing
• Method Long-life fuser roller method 
Fuser roller: 
Thin roller coated with fluoroplastic
(ø30)
Pressure roller: Pressure roller:
PFA tube roller (ø30) PFA tube roller (ø25)
• Cleaning Cleaning roller for pressure roller (ø16) None
• Heater Heater lamp 
Turned ON/OFF by thermistor

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OUTLINE OF THE MACHINE
3 - 16
3.5 General Operation

3.5.1 Overview of operation


Operation of equipment Operation during initializing, pre-running and ready
Drawer feed copying by [START] button
Copying operation Bypass feed copying
Interrupt copying 3

3.5.2 Description of operation

[ 1 ] Warming-up
1. Initialization
Power ON
→ Heater lamp ON
→ “Please wait” is displayed
→ Fan motors ON
→ Initialization of scanning system
- The CIS unit moves to the home position.
- The CIS unit moves to the peak detection position.
- The LED of CIS is turned ON.
- Peak detection (white color is detected by the shading correction plate)
- The LED of CIS is turned OFF.
- The CIS unit moves to the home position.
→ “READY (WARMING UP)” is displayed

2. Pre-running operation (Only when the temperature is at 16 °C or less)


The pre-running operation is started when the temperature of the fuser roller surface reaches a
certain temperature.
→ The main motor is turned ON
- Fuser roller rotated.
- Drum rotated.
→ Pre-running operation stops after 15 seconds

3. When the surface temperature of the fuser roller becomes sufficient for fusing,
→ “READY” is displayed

[ 2 ] Ready state (ready for copying)


Buttons on the control panel enabled
→ When no button is pressed for a certain period of time,
- Set number “1” is displayed. Equipment returns to the normal ready state.

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OUTLINE OF THE MACHINE
3 - 17
[ 3 ] Drawer feed copying
1. Press the [START] button
→ “READY” → “COPYING”
→ CIS LED ON
→ Scan motor ON → CIS unit move forward
→ Polygonal motor rotates in high speed
→ Main motor and exit motor ON
- The drum, fuser unit, developer unit and exit roller are driven.

2. Drawer paper feeding


→ Main charger, developer bias and discharge LED ON. Fans are rotated in high speed. Pickup
clutch ON.
- Paper feed roller start to rotate.
→ Paper reaches the registration roller
- The registration sensor is turned ON and aligning is performed.
→ Pickup clutch OFF

3. After the scanning operation:


→ Registration clutch ON after a certain period of time paper is transported to the transfer area
→ Copy counter operates

4. After the registration clutch is turned ON:


→ Transfer charger ON after a certain period of time
→ Copy counter operates

5. Completion of scanning
→ Scan motor OFF
→ CIS LED OFF
→ Registration clutch OFF (after the trailing edge of the paper passed the registration roller)
→ Ready state

6. Paper exit
→ Exit sensor detects the trailing edge of the paper
→ Main charger, developer bias and discharge LED OFF
→ Polygonal motor, main motor and exit motor OFF
→ Drum, fuser unit and developer unit stop
→ Fans return to the ready rotation
→ “READY” is displayed and the equipment enters the ready state

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OUTLINE OF THE MACHINE
3 - 18
[ 4 ] Bypass feed copying
1. Insert a sheet of paper into the bypass tray.
→ Bypass paper sensor ON
- Bypass feed priority state.

2. Press the [START] button


→ “READY” Æ “COPYING”
→ CIS LED ON
→ Scan motor ON → CIS unit move forward 3
→ Polygonal motor rotates in high speed
→ Main motor and exit motor ON
- The drum, fuser unit, developer unit and exit roller are driven.

3. Bypass feeding
→ Main charger, developer bias and discharge LED ON. Fans are rotated in high speed.
→ Bypass pickup solenoid ON
- The bypass pickup roller start to rotate.
- The bypass pickup roller is lowered.
- The bypass feed roller start to rotate.
→ Paper reaches the registration roller
→ Aligning operation
→ After a certain period of time, the bypass pickup solenoid OFF

4. Hereafter, the operation 3) through 6) of P.3-18 "[ 3 ] Drawer feed copying" is repeated.

[ 5 ] Interruption copying
1. Press the [INTERRUPT] button
→ LED “INTERRUPT” ON
→ Copying operation in progress is temporarily stopped. CIS unit return to appropriate positions
→ “Job interrupted” is displayed
→ Automatic density and reproduction ratio 100% are set (The set number remains the same)

2. Select the desired copy condition

3. After the interruption copying is finished:


→ LED “INTERRUPT” OFF by pressing the [INTERRUPT] button
→ “READY to resume job” is displayed

4. Press the [START] button


→ The copying operation before the interruption is resumed

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OUTLINE OF THE MACHINE
3 - 19
3.5.3 Detection of abnormality
When something abnormal has occurred in the equipment, the symbols corresponding to the type of
abnormality are displayed.

[ 1 ] Types of abnormality
1. Abnormality cleared without turning OFF the door switch
(A) Add paper
(B) Pick-up failure in bypass

2. Abnormality not cleared without turning OFF the door switch


(C) Misfeed in equipment
(D) Replace the toner cartridge
(E) Developer unit not installed properly

3. Abnormality not cleared without turning OFF the main switch


(F) Call for service

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OUTLINE OF THE MACHINE
3 - 20
[ 2 ] Description of abnormality
(A) Add paper
[In cases of the equipment drawer or the PFU / PFP drawer] (When drawer is not installed)
• Drawer empty sensor detects the presence or absence of paper.
No drawer detected

“Add paper” is displayed


3
The LED on the control panel corresponding to the drawer blinks (When the drawer is selected)

[START] button disabled

[In cases of the equipment drawer or the PFU drawer] (When the drawer is installed)
Drawer detected

Paper empty sensor OFF

“Add paper” is displayed


The LED on the control panel corresponding to the drawer blinks (When the drawer is selected)

[START] button disabled

[In case of the PFP drawer] (When the drawer is installed)


• When the power is turned ON or the drawer is installed
PFP starts initialization

The detection of paper existence starts


Tray-up motor ON – Tray is raised
At this time, the tray-up sensor and paper empty sensor are OFF
When the tray-up sensor is not turned ON in a fixed period of time
Tray abnormality “Add paper” is displayed regardless of the existence of paper
Cleared by turning the power ON and then OFF
The tray-up sensor is turned ON in a fixed period of time
- The tray-up motor is stopped.
At this time, if the paper empty sensor is ON: It is judged that there is paper
OFF: It is judged that there is no paper

The lamp on the control panel


corresponding to the drawer blinks
(When the drawer is selected)

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OUTLINE OF THE MACHINE
3 - 21
• When paper becomes almost empty as they fed out during copying,
The tray-up sensor is turned OFF.
The tray-up motor is turned ON – the tray is raised.
The tray-up sensor is turned ON.
The tray-up motor is stopped.

• When the paper empty sensor is turned OFF even if the tray-up sensor is ON during copying,

The sensor is detecting that no paper exists.

The lamp on the control panel corresponding to the drawer blinks (When the drawer is
selected)

Copying is stopped

(B) Pick-up failure in bypass


• During bypass feeding
Bypass pickup solenoid ON

Registration sensor is not turned ON in a fixed period of time

“Misfeed in bypass“ is displayed : E12

Copying operation is disabled

Solution: The bypass paper sensor is turned OFF by removing the paper from the bypass tray.

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OUTLINE OF THE MACHINE
3 - 22
(C) Misfeed in equipment
• Exit sensor detects jamming of the leading edge of paper.

Registration clutch ON
ON
Less than regulation time Registration clutch

Exit sensor ON ON
If the exit sensor is not turned ON after
Exit sensor 3
regulation time
Timer
0 Regulation time

Paper jam (E01) The copying operation is


stopped. Paper jam (E01)
Fig. 3-11

• Exit sensor detects jamming of the tailing edge of paper.

Registration clutch OFF Registration clutch


OFF
Less than regulation time
Exit sensor
Exit sensor OFF ON
If the exit sensor is not turned OFF after
regulation time
Timer
0 Regulation time
Paper jam (E02) The copying operation is
stopped.
Paper jam (E02)
Fig. 3-12

• Immediately after the power ON

Any of all sensors on paper transport path detects paper (ON)

Paper jam (E03)

• Front cover is opened during copying

Paper jam (E41)

• The registration sensor (S4) is not turned ON in a fixed period of time when paper is fed out of the
ADU.

Paper jam (E11)

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OUTLINE OF THE MACHINE
3 - 23
• The ADU sensor (on the ADU board) does not detect paper in a fixed period of time when the
paper is transported within the ADU.

Paper jam (E51)

• Registration sensor detects jamming of the leading edge of paper:


Registration sensor is not turned ON in a fixed period of time after the feeding starts.

Paper jam (E12, E13, E21, E30 and E33)


(The error code differs depending on the paper source. Refer to the error code table in Service
Handbook.)

• The PFU paper feed sensor is not turned ON in a fixed period of time after the pickup clutch is
turned ON.

Paper jam (E14)

• The PFP upper drawer feed sensor is not turned ON in a fixed period of time after the paper feed
clutch is turned ON when paper is fed out of the PFP.

Paper jam (E15 and E36)

• The PFP lower drawer feed sensor is not turned ON in a fixed period of time after the paper feed
clutch is turned ON when paper is fed out of the PFP.

Paper jam (E16)

• The PFU feed sensor is not turned ON in a fixed period of time after the paper feed clutch is turned
ON when paper is fed out of the PFP.

Paper jam (E32 and E35)


(The error code differs depending on its paper source. Refer to the error code list in the Service
Handbook.)

(D) Replace the toner cartridge


• Toner density becomes low

Auto-toner sensor detects the absence of the toner

Control circuit The toner lamp brinks: the copying operation disabled
Solution: Open the front cover and replace the toner cartridge with a new one.
Toner is supplied copying operation enabled.

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OUTLINE OF THE MACHINE
3 - 24
(E) Developer unit not installed properly
• Disconnection of the connectors of the developer unit

“Set process unit” is displayed.


[START] button disabled.

3
Solution: Connect the connectors of the developer unit and close the front cover.

(F) Call for service


Check the error code displayed on the control panel when “Call for service” appears, and deal with
the abnormality referring to the error code table.
P.8-2 "8.2 Error Code List"

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OUTLINE OF THE MACHINE
3 - 25
3.6 Control Panel

3.6.1 General description


The control panel consists of button switches to operate the equipment and select various modes, and
LEDs and an LCD to display codes, values and the states (including each mode) of the equipment. The
button switches, the LEDs and an LCD are mounted on the control panel PC board (HPNL) and are
installed the inside of the control panel.
When the operator’s attention is required, graphic symbols appear with messages explaining the
condition of the equipment in the LCD panel.

Fig. 3-13

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OUTLINE OF THE MACHINE
3 - 26
3.6.2 Items shown on the display panel

[ 1 ] Display
1. Basic display
Displays buttons and messages.

READY
1 3
100% NONSORT
ZOOM FINISHING EDIT
Fig. 3-14

2. Paper jam display


Displays error code, paper jam position and paper jam release guidance.
Misfeed in copier E41
Open side cover
of the copier.
1/ 6
Fig. 3-15

3. Service call display


Displays error code and service call symbol.
Call for service C01

Fig. 3-16

4. When input values can be changed by the up or down button in the self-diagnosis mode, the LED in
the center of the up, down, left and right buttons is lit.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


OUTLINE OF THE MACHINE
3 - 27
[ 2 ] Message

No. Message Condition of machine Notes


1 Wait warming up Being warmed up -
• Displayed after the main switch is
turned ON up until the machine
becomes ready for copying
2 READY Standby for copying • Copy quantity indicator shows "1"
• The machine is ready for copying When a digital key is pressed, that
and operator's instructions on number indicates the set quantity
copying conditions can be input • The set quantity can be cleared to
• Returns to the default condition if "1" by pressing the CLEAR/ STOP
no key is pressed for the setting key
time of auto clear timer • Bypass copying is possible
3 COPYING Now copying After completion of copying, the copy
• Displayed by pressing the START quantity indicator returns to the initially
key set number
• Copy quantity indicator becomes
"ex. 3→ 2 → 1→ 3" and copying is
completed
4 Saving energy Energy saver conditions Reset by pressing the any key
(ENERGY SAVER / COPY / PRINTER
/ SCAN / FAX / START key)
5 Select original size Platen sort copying standby state When using original cover
6 - Timer off -
• No message is displayed in the
display panel
7 Cassette * empty Indication of lack of paper • Supply paper to the selected
• Indicates when there is no paper in cassette
cassette • Select another cassette
• Bypass copying is possible
8 Toner empty Indication of lack of toner Reset after the toner is supplied and
• The toner in the toner cartridge the front cover is closed
becomes empty
• When this message is displayed, it
is not possible to copy
9 Misfeed in bypass Bypass paper jamming (SFB) The machine returns to normal
• Paper jams at the bypass tray conditions automatically when the
paper out is pulled from the bypass tray
10 Misfeed in copier Paper jammed in the machine Remove the paper jammed in the
(Copier machine) copier by following the messages
11 Misfeed in doc. Feeder Original jammed Open the ADF jam access cover and
(ADF) • An original is jammed in the ADF the ADF unit, and remove the jammed
original
12 Misfeed in duplexer Paper jammed in the ADU Remove the paper jammed in the
(ADU) copier by following the message
13 Call for service Some part of the mechanism, motors, Turn OFF the machine, remove the
switches or sensors is abnormal cause of the fault and turn the machine
back ON
14 Time for maintenance Indication of PM cycle Maintenance and inspection by a
• Displayed when it is time for qualified service technician
preventive maintenance and
inspection
• Capable of copying

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OUTLINE OF THE MACHINE
3 - 28
3.6.3 Relation between equipment state and operation

[START] [CLEAR [FUNCT [INTER [ENER [COPY] [PRINT] [SCAN] [FAX] Other
/STOP] ION RUPT] GY *1 *2 *3 buttons/
CLEAR] SAVER] keys
Waiting Starts Clears Clears Enters Enters --- Enters Enters Enters Operati
copying copy each into into into into into on
quantity setting interrupt energy print job SCAN FAX accepta
ing saving list screen screen ble
copy mode or screen 3
sleep
mode
Warming Reserve Clears Clears --- --- --- --- --- --- Operati
up s auto copy each on
start job quantity setting accepta
ble
Copying --- Pauses --- Enters --- --- Enters --- --- ---
copy into into
job interrupt print job
ing list
copy screen
Pausing Resume Cancels Clears Enters --- --- Enters --- --- ---
copy job s copy copy each into into
job job setting interrupt print job
ing list
copy screen
Downloadi --- --- --- --- --- --- --- --- --- ---
ng
firmware
In energy --- --- --- --- Enters Enters Enters Enters Enters ---
saving (low into into into into into
power) waiting waiting print job SCAN FAX
mode state state list screen screen
screen
In sleep Enters Enters Enters Enters --- Enters Enters Enters Enters Enters
mode into into into into into into into into into
waiting waiting waiting waiting waiting print job SCAN FAX waiting
state state state state state list screen screen state
screen
Interrupting Starts Clears Cancels Cancels --- --- Enters --- --- Operati
copy job interrupt copy interrupt interrupt into on
ing copy quantity ing ing print job accepta
copy copy list ble
screen
Cover open --- Clears Clears --- --- --- --- --- --- Operati
copy each on
quantity setting accepta
ble
Toner --- --- --- --- --- --- --- --- --- Operati
empty on
accepta
ble
Paper jam --- --- --- --- --- --- --- --- --- ---
Service call --- --- --- --- --- --- --- --- --- ---

Note:
*1 [PRINTER] button: This button is enabled when GA-1192 is installed and disabled when it is
not installed.
*2 [SCAN] button: This button is enabled when GA-1192 and GA-1202 are installed, and
disabled when they are not installed.
*3 [FAX] button: This button is enabled when GD-1221 is installed and disabled when it is
not installed.

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OUTLINE OF THE MACHINE
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3.7 Scanner

3.7.1 General description


In the scanning section, this equipment uses a CIS (Contact Image Sensor) for scanning the image.
The surface of an original is irradiated with light from the LED array mounted on the CIS unit and the
reflected light is scanned by the CMOS sensor where the optical image data are converted into an
analog electrical signal, and then transmitted to the MAIN board. After the binarization and the various
image processing operations necessary for image formation are performed on the MAIN board, the
data are transmitted to the writing section.

Original glass Original glass


ADF original glass ADF original glass

Scan motor Scan motor

Automatic original detection sensor

Automatic original detection sensor CIS home position sensor

CIS home position sensor Damp heater Damp heater


CIS unit
CIS unit Automatic original detection sensor Automatic original detection sensor
Damp heater Damp heater

A4 series LT series

Fig. 3-17

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OUTLINE OF THE MACHINE
3 - 30
3.7.2 Construction

Scanning section
Original glass Original glass
ADF Original glass
CIS unit (CIS) CMOS
RGB light guiding tube (two lights)
3
Rod-lens array
Drive section Scan motor (M1)
Automatic original detection sensor
(S9-S13)
CIS home position sensor (S1)
Others Damp heater (DH1, DH2)

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OUTLINE OF THE MACHINE
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3.7.3 Functions

1. Original glass
This is a glass for placing original. Original (image) placed on the original glass is scanned by the
CIS. The ADF original glass is used when original is read with the Automatic Document Feeder.
Original is transported on the ADF original glass by the Automatic Document Feeder, and the
transported original is read under the ADF original glass by the CIS. Do not use such solvents as
alcohol when cleaning the surface of the ADF original glass, because it is coated so as not to be
scratched by originals.

2. CIS unit (CIS)


The CIS unit (CIS) is a sensor unit which consists of an LED array, lens array and CMOS sensor
array of the same length as that of the original width in the primary scanning direction closely
attached and unified. The original is irradiated at one time with the LED light source which consists
of LEDs of RGB colors (one for each color), light guiding tube (two lights) to lead each light to the
original, and then the reflected light is scanned by the CMOS sensor.
In the CCD method (reduction optical method), the reflected light of the exposure lamp is LED
through mirrors, lens and slit to the CCD where the optical-to-electrical conversion for scanned data
is performed. In contrast, in the CIS method (close-contact sensor method), those operations are
processed only by the CIS unit. The CIS has characteristics of shallow depth of focus and high light-
sensitivity.

[3]
[2] [4]

[1] [5]

[6] [7] [6]

Fig. 3-18

[1] CIS unit [2] ADF original glass [3] Rod-lens array [4] Shading correction plate
[5] Original glass [6] RGB light guiding tube [7] CMOS

- CMOS sensor
Scans the light reflected from an original and converts it to an electrical signal.
In order to realize the same-to-scale optical system of A3 width and 7344 image pixels, the
equipment uses 17 CMOS sensors (each CMOS sensor has 432 image pixels per line) to make
up a CMOS sensor of 600x600 dpi resolution for scanning.

- RGB light guiding tube


A light from the LED array mounted on the CIS unit (CIS) goes through the original glass and
lights the original. Then, the reflected light from the original is scanned by the CMOS sensor. By
adjusting each amount of R, G and B-LED light, it is possible to attain a light color which has
nearly the same color effect as that of the YG xenon light for the light sensitivity of the CMOS
sensor.

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3. Scan motor (M1)
This is a two-phase stepping motor which drives the CIS unit (CIS). The rotation of the motor is
transmitted to the CIS unit through the timing belt to move the unit in the secondary scanning
direction.

4. CIS home position sensor (S1)


This sensor detects if the CIS unit is at its home position.

5. Automatic original detection sensor (S9-S13) 3


The size of an original placed on the glass is instantly detected using the APS sensors fixed on the
base frame.

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OUTLINE OF THE MACHINE
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3.7.4 Description of operation

[ 1 ] Scanning operation
• Scanning an original on the original glass
The rotation of the scan motor (M1) is transmitted to the CIS unit through the timing belt to move the
unit to the home position. The home position is detected when the actuator installed on the CIS case
passes the CIS home position sensor (S1).

When the [START] button is pressed, the CIS unit starts scanning the original.

• Scanning an original on the ADF/RADF


The CIS unit (CIS) stops and stays at the shading position during the shading correction, and at the
scanning position during the scanning operation.

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OUTLINE OF THE MACHINE
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3.7.5 Process of detection of original size
Reflection type photosensors are placed on the base frame of the scanner unit as shown in the figure
below. Each sensor consists of an infrared Light Emitting Diode (LED) on the light emitting side, and a
phototransistor on the light receiving side.
When there is an original on the original glass, light beams from the LEDs are reflected by the original
and led to the phototransistors. This means that the presence of the original is detected by the
presence of reflection (when scanning black image).

Sensor detection points 3


[A4 Series]

A5 B5 A4
APS-R

APS-C

A5-R

B5-R

APS-3 A4-R

APS-1 B4

APS-2
A3
Fig. 3-19

[LT Series]

ST LT
APS-R

APS-C

ST-R

APS-3
LT-R LG

APS-2

LD

Fig. 3-20

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OUTLINE OF THE MACHINE
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3.8 Laser Optical Unit

3.8.1 General description


The laser optical unit radiates the laser beam onto the photoconductive drum responding to the digital
image signals transmitted from the MAIN board. to create the latent image. Image signal is converted
into the light emission signal of the laser diode on the laser driving PC board (LDR), then radiated on
the drum through the optical elements such as cylinder lenses, polygonal mirror and fθ lens.
The unit must not be disassembled in the field as they are very sensitive to dust and finely adjusted at
the factory.

[1]

Fig. 3-21

[1] Polygonal motor

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OUTLINE OF THE MACHINE
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3.8.2 Laser precautions
A laser diode is used for this equipment and radiates an invisible laser beam.
Since it is not visible, be extremely careful when handling the laser optical unit components, performing
operations or adjusting the laser beam. Also never perform the procedure with other than the specified
manuals because you could be exposed to the laser radiation.
The laser optical unit is completely sealed with a protective cover. As long as only the operations of
specified manuals are performed, the laser beam is not leaked and you are in no danger of being
exposed to laser radiation.
The following cautionary label for the laser is attached to the front right cover (inside of the front cover). 3

Fig. 3-22

Cautions:
• Avoid expose to laser beam during service. This equipment uses a laser diode. Be sure not to
expose your eyes to the laser beam. Do not insert reflecting parts or tools such as a screwdriver
on the laser beam path. Remove all reflecting metals such as watches, rings, etc. before starting
service.
• When servicing the equipment with the power turned ON, be sure not to touch live sections and
rotating/operating sections. Avoid exposing your eyes to laser beam.
• During servicing, be sure to check the rating plate and cautionary labels such as "Unplug the
power cable during service", "CAUTION. HOT", "CAUTION. HIGH VOLTAGE", "CAUTION.
LASER BEAM", etc. to see if there is any dirt on their surface and if they are properly stuck to the
equipment.

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OUTLINE OF THE MACHINE
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3.9 Drive Unit

3.9.1 General description


The main motor drives the drum, developer unit, cleaner unit, fuser unit and transport rollers which
transport paper (bypass feed roller, bypass pickup roller, registration roller and paper feed roller).
The main motor (M3) is a brushless motor and is installed in the drive unit. The drive unit consists of
gears and timing belts, and transmits the driving force of the main motor (M3) to each unit. The toner
motor (M2) which drives the toner cartridge is also installed in the drive unit.
The exit roller is driven by the main motor (M3). However, when the automatic duplexing unit (ADU:
optional) is installed, it is driven by the exit motor (M7).

[5]
[6]

[4]
[7]

[3]

[8]

[9]
[2]

[10]

[11]

[1]

[13] [12]

Fig. 3-23

[1] Main motor


[2] Mixer
[3] Toner motor
[4] Drive unit
[5] Exit motor
[6] Exit roller
[7] Fuser roller
[8] Toner recovery auger
[9] Drum
[10] Bypass feed roller
[11] Bypass pickup roller
[12] PFU drive gear
[13] Paper feed roller

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OUTLINE OF THE MACHINE
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3.9.2 Configuration

Unit to be driven Drive transmission


Main motor (M3) Drum Gears
Developer unit (Mixer) Gears
Cleaner unit (Toner recovery auger) Timing belt, gears
Fuser unit (Fuser roller) Timing belt, gears
3
Rollers (Paper feed roller, Bypass feed Timing belt, gears
roller, Bypass pickup roller and PFU)
Toner motor (M2) Toner cartridge Gears

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OUTLINE OF THE MACHINE
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3.9.3 Functions
1. Main motor (M3)
The main motor is a brushless motor which is controlled by control signals output from the MAIN
board. The driving force of the main motor is transmitted to the drum, developer unit, cleaner unit,
fuser unit and the rollers which transport the paper, via gears and timing belts.

2. Toner motor (M2)


The main motor is a DC motor which is controlled by control signals output from the MAIN board.
The driving force of the toner motor is transmitted to the toner cartridge via gears.

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OUTLINE OF THE MACHINE
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3.10 Paper Feeding System

3.10.1 General description


The purpose of this system is to pick up a sheet of paper from the drawer or bypass tray and transport
it to the transfer position. The paper feeding system mainly consists of the paper feed roller, registration
roller, bypass paper sensor, paper empty sensor, registration sensor and the drive system for these
components.
3

[9]

[1]

[2]
[5]

[4]

[3] [8] [7] [6]


Fig. 3-24

[1] Paper feed roller (Main paper feed roller / Sub paper feed roller)
[2] Paper empty sensor
[3] Separation pad
[4] Bypass pickup roller
[5] Bypass feed roller
[6] Bypass paper sensor
[7] Bypass separation pad
[8] Registration roller
[9] Registration sensor

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OUTLINE OF THE MACHINE
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3.10.2 Configuration

Paper feeding system


Drawer Main paper feed roller Periodic replacement part
Sub paper feed roller
Separation pad Periodic replacement part
Pickup clutch
Paper empty sensor (S7)
Bypass unit Bypass pickup roller Periodic replacement part
Bypass feed roller Periodic replacement part
Bypass separation pad Periodic replacement part
Bypass paper sensor (S8)
Bypass pickup solenoid (SOL1)
Bypass pickup clutch
Bypass feed clutch
Registration roller
Registration clutch (CLT1)
Registration sensor (S4)
Drawer detection switch (SW5)

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OUTLINE OF THE MACHINE
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3.10.3 Functions
1. Paper feed roller
The paper feed roller consists of 1 main roller and 4 sub rollers, and paper fed by the former is
prevented from skewing by the latter. One rotation of the feed roller can transport a sheet of paper to
the registration roller.

2. Pickup clutch (CLT2)


This is an electromagnetic clutch which drives the feed roller. When the pickup clutch (CLT2) is
turned ON, the driving force from the main motor (M3) is transmitted to the feed roller in the drawer 3
to rotate it.

3. Paper empty sensor (S7)


This is a transmissive-type sensor and detects the availability of paper in the drawer. When there is
no paper in the drawer, the actuator blocks the light path of the sensor, and the sensor determines
that there is no paper.

4. Bypass pickup roller


Draws out a sheet of paper from the bypass tray, and transports it to the bypass feed roller. The
roller goes down and starts rotating when the drive is transmitted.

5. Bypass feed roller


Transports the paper from the bypass pickup roller to the registration roller.

6. Bypass separation pad


When two or more sheets of paper are transported from the bypass pickup roller, since the
resistance force of the separation pad is larger than the frictional force between the sheets, the
lower sheets are not transported any further.

7. Bypass paper sensor (S8)


Detects whether paper is set in the bypass tray or not. When paper is set in the bypass tray, bypass
feeding is performed in preference to drawer feeding. And it also detects whether paper has been
transported from the bypass tray or not (i.e. whether the leading/trailing edge of the paper has
passed the bypass feed roller or not.). The sensor is also used to detect jams such as paper
missending in the bypass unit.

8. Bypass pickup solenoid (SOL1)


Starts transmission of the drive to the bypass pickup clutch and bypass feed clutch. The driving
force is not transmitted to the bypass pickup clutch and bypass feed clutch when the bypass pickup
solenoid (SOL1) is turned OFF, and is transmitted to move down the pickup roller and rotate the
bypass pickup roller and bypass feed roller when it is turned ON.

9. Bypass pickup clutch


This is a spring-type mechanical one-way clutch used to transmit the drive from the main motor (M3)
to the cam which moves the bypass pickup roller up and down. When the bypass pickup solenoid
(SOL1) is turned OFF, the spring tension of the one-way clutch decreases so that the bypass pickup
roller moves to the upper position (standby position), and moves to the lower position (operation
position) when the solenoid is turned ON.

10.Bypass feed clutch


This is a spring-type mechanical one-way clutch used to transmit the drive from the main motor (M3)
to the bypass feed roller and bypass pickup roller. When the bypass pickup solenoid (SOL1) is
turned OFF, the spring tension of the one-way clutch decreases to cut off the drive.

11. Registration roller


Paper transported from the pickup roller or bypass feed roller is pushed against the registration
roller which aligns the leading edge of the paper. Then, the registration rollers rotate to transport the
paper to the transfer position.

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OUTLINE OF THE MACHINE
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12.Registration clutch (CLT1)
This is an electromagnetic clutch which drives the registration roller. When the registration clutch
(CLT1) is turned ON, the drive is transmitted from the main motor (M3) to rotate the registration
roller.

13.Registration sensor (S4)


It is used to detect that the leading edge of the paper has reached the registration roller and to
control the aligning amount of the paper (the amount of the paper bend before it is transported to the
registration roller). Also, it is used to detect the trailing edge of the paper has passed the registration
roller.

14.Drawer detection sensor (SW5)


The switch to detect whether the drawer is fully inserted or not.

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OUTLINE OF THE MACHINE
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3.10.4 Operation

[ 1 ] Drawer

[A] Operation of the feed roller


When the drawer is inserted into the equipment, the lock located in the center of the drawer is released,
and the tray in the drawer is lifted up by the spring. This makes the paper in the tray contact the feed
roller when it is rotated.
The driving force of the main motor (M3) is transmitted through the pickup clutch (CLT2) to the feed 3
roller. The feed roller is rotated by this driving force to pull out a sheet of paper from the drawer. When
multiple sheets of paper are fed, the pickup clutch is turned ON at each rotation. The feed roller
consists of 1 main roller and 4 sub rollers, and paper fed by the former is prevented from skewing by
the latter. One rotation of the feed roller can transport a sheet of paper to the registration roller.
This feeding system has no mechanism specific for detecting the transported paper. Therefore, whether
the paper has been transported to the registration sensor (S4) within a specified period of time or not is
substituted for the paper jam detection.

[1]

[3]

[2]

[3]

Fig. 3-25

[1] Pickup clutch


[2] Main paper feed roller
[3] Sub paper feed roller

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OUTLINE OF THE MACHINE
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[B] Paper separation
This model is equipped with a separation pad which works to prevent multiple paper feeding.
The separation pad is pushed to the main paper feed roller by the spring force.
When two or more sheets of paper are fed, since the friction between two sheets of paper is smaller
than that between a sheet and the separation pad, the lower sheets are not transported any further
while the uppermost one is transported by the main paper feed roller.

[1]

B [2]

Fig. 3-26

[1] Main paper feed roller


[2] Separation pad

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OUTLINE OF THE MACHINE
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[ 2 ] Bypass tray

[A] Operation of drawer pickup roller


When the paper is set on the bypass tray, the bypass paper sensor (S8) detects it and judges that there
is paper on the bypass tray, and the bypass feeding is performed in preference to drawer feeding.
When the bypass pickup solenoid (SOL1) is turned ON, the driving force of the main motor (M3) is
transmitted to the bypass pickup clutch and bypass feed clutch. The bypass pickup roller is shifted
down by the drive from the bypass pickup clutch. And then, the bypass pickup roller, as well as the
bypass feed roller, is rotated by the drive from the bypass feed clutch to transport the paper on the 3
bypass tray to the bypass feed roller.

Bypass feed clutch


Bypass pickup clutch

Bypass feed roller Bypass feed clutch


Bypass pickup clutch
Bypass separation pad

Bypass pickup solenoid

Bypass pickup roller

Fig. 3-27

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OUTLINE OF THE MACHINE
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[B] Paper separation
This model is equipped with a separation pad which works to prevent multiple paper feeding. The
separation pad is pushed to the bypass feed roller by the spring force. The bypass feed roller is rotated
synchronously with the bypass pickup roller. When two or more sheets of paper are fed from the bypass
pickup roller, since the friction between two sheets of paper is smaller than that between a sheet and
the separation pad, the lower sheets are not transported any further while the uppermost one is
transported by the feed roller.
The paper transported by the bypass feed roller reaches the registration roller. After the paper is
aligned by the registration roller, the bypass pickup solenoid (SOL1) is turned OFF to stop the bypass
pickup roller and bypass feed roller, and the bypass pickup roller returns to its original position.

Bypass feed clutch


Bypass pickup clutch
Bypass feed roller
Bypass feed roller

Bypass separation pad

Spring
Bypass separation pad Bypass pickup roller

Fig. 3-28

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[ 3 ] General operation

[A] From power ON to standby status


• If the drawer is not completely inserted when the equipment is turned ON, it is judged by the drawer
detection switch (SW5) that the drawer has not been inserted. Paper detection in the drawer cannot
be performed unless the drawer is fully inserted.
• When the equipment is turned ON, if the paper empty sensor (S7) is turned OFF (L), it is judged that
there is no paper in the drawer. With the sensor (S7) being ON (H), it is judged that there is paper in
the drawer. 3
• If either of the sensors; registration sensor (S4) or exit sensor (S5) is ON (meaning there is paper on
the transport path) when the equipment is turned ON, it is determined that a paper jam has occurred
and no operation is enabled until the jammed paper is removed.

[B] Standby status


• After the availability of paper is checked as described above, the equipment enters the standby
state.

[C] Drawer feeding


• When the pickup clutch (CLT2) is turned ON, the driving force of the main motor (M3) is transmitted
to rotate the paper feed roller. A sheet of paper is then fed and transported to the registration roller.
• The leading edge of the paper turns ON the registration sensor (S4), and then the paper stops at the
registration roller.
• The registration clutch (CLT1) is turned ON and the paper aligned by the registration roller is
transported to the transfer unit.

[D] Bypass feeding


• The bypass paper sensor (S8) detects the availability of paper.
• When the bypass pickup solenoid (SOL1) is turned ON, the bypass pickup clutch arm and bypass
feed clutch arm are pulled away from each clutch.
• The driving force of the main motor (M3) is transmitted to the bypass pickup clutch and bypass feed
clutch to rotate the bypass pickup roller and bypass feed roller. At this time, the bypass pickup roller
rotates and goes down simultaneously.
• Feeding starts and a sheet of paper is transported to the registration roller. The leading edge of the
paper turns ON the registration sensor (S4), and then the paper stops at the registration roller.
• The bypass pickup solenoid (SOL1) is turned OFF, and the bypass pickup clutch arm and bypass
feed clutch arm come in contact with each clutch. The drive for the bypass pickup roller and bypass
feed roller is cut off, and the bypass pickup roller unit is lifted up.
• The registration clutch (CLT1) is turned ON and the paper aligned by the registration roller is
transported to the transfer unit.

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3.11 Drum Related Section

3.11.1 General description


This chapter explains about the area around the drum, drum itself, image processing, their parts and
control circuits.

Cleaning blade
Discharge LED Toner recovery auger
Main charger
Recovery blade
Drum thermistor
Post-Transfer guide

Exhaust fan

Separation charger

Transfer charger

Transfer guide roller

Pre-Transfer guide

Ozone filter
Drum
Fig. 3-29

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3.11.2 Configuration

Drum related section

Drum cleaner unit Drum PM parts

Drum separation finger PM parts

Drum cleaning blade PM parts


3
Recovery blade PM parts

Drum thermistor (THM4)

Discharge LED (ERS)

Main charger Needle electrode PM parts

Main charger grid PM parts

Transfer unit Transfer/Separation charger Transfer charger wire PM parts

Separation charger wire PM parts

Exhaust fan (M5)

Ozone filter PM parts

Transport guide

Temperature/humidity sensor (S3)

Switching regulator (PS)

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OUTLINE OF THE MACHINE
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3.11.3 Functions
1. Drum
The drum is made of a cylindrical aluminum base coated with thin film of organic photoconductive
substance.
The photoconductive object becomes insulative (the electrical resistance is high) when it is not
exposed to the light and electrically conductive (the electrical resistance is low) when it is exposed to
the light. This object is called a photoconductor.

2. Main charger
The main charger in this equipment consists of a metal rod with U-shaped section, insulated blocks
at both ends of the rod and a needle electrode attached between them.
When a high voltage is applied to the needle electrode, the air around it is charged (ionized). The
ionized air then flows into the drum causing it to be charged. This phenomenon is called “corona
discharge”. At the same time, a control bias is applied to the main charger grid to control the
charging amount.
In a dark place, negative charge is evenly applied onto the drum surface by the corona discharge
and this grid. In addition, a cleaner is installed to clean up the dust attached on the needle electrode.
- Needle electrode
The needle electrode has aligned needles and their points perform the corona discharge. These
points (electrodes) discharge toward the drum in one direction to realize the more efficient
discharging comparing to the charger wire which discharges in a radial direction. Therefore, the
needle electrode enables to reduce the ozone amount.

Main charger

Needle electrode

Charge

Fig. 3-30

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OUTLINE OF THE MACHINE
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3. Drum cleaner
- Cleaning blade
This blade is pressed against the drum surface and scrapes off the residual toner from the drum
surface.
- Recovery blade
This blade catches the toner scraped off by the cleaning blade.
- Toner recovery auger
This auger carries the residual toner scraped off to the developer unit and reuses the toner.
3
4. Transfer/Separation charger
- Transfer guide
This guide leads the paper transported from the feeding unit to the transfer section.
Positive (+) bias voltage is applied to the registration roller and post-transfer guide to prevent the
transferability from being lowered under conditions such as high humidity.
- Transfer charger
The transfer charger applies a charge (positive (+) charge) which is contrary to the charging
polarity of the toner to the back of the paper. The toner image is transferred electrostatically on
the paper by performing this corona discharge.
- Separation charger
After the transfer process, the corona discharge applies a negative charge (DC) on the back of
the paper to separate the paper adhering to the drum surface by an electrostatic force.

5. Exhaust fan (M5)


The exhaust fan (M5) cools down the inside of the equipment. The air to exhaust includes the ozone
generated by the corona discharge, and this ozone is removed by the ozone filter. The exhaust fan
(M5) also helps the paper separation by absorbing the paper to post-transfer guide.

6. Discharge LED (ERS)


Discharging is a process to decrease or eliminate the electrical potential of the drum surface.
The electrical resistance of the photosensitive layer is decreased by the light irradiation, and the
residual charge on the drum surface is neutralized and eliminated. The electrical potential of the
drum surface is fixed to a certain amount before the drum is charged.

7. Drum thermistor (THMS4)


The drum thermistor (THMS4) detects the drum surface temperature, and thus the rotation speed of
the exhaust fan (M5) is controlled when the equipment is in the ready status.

8. Switching regulator (PS)


This is a board to generate the output control voltage of the main charger, main charger grid,
transfer charger, separation charger, developer bias and pre/post-transfer guide bias.

9. Temperature/Humidity sensor (S3)


This sensor and drum thermistors (THMS1,THMS2) detect the temperature and humidity inside of
the equipment since the drum, developer material and paper are affected by environmental
elements such as temperature or humidity. Thus the main charger grid, transfer/separation charger,
transfer guide bias, developer bias, laser output and auto-toner output are controlled to be at their
optimum states.

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3.12 Development System

3.12.1 General description


Development is the process of converting electrostatic latent images into visible images. The developer
material is supplied onto the photoconductive drum surface by the developer sleeve (magnet roller).
Then the toner in the developer material adheres to this drum surface to form images. This process is
performed in the developer unit.
This chapter explains about the units, parts and control circuits related to development.
The developer unit in this equipment has a recovered toner supply mechanism which recycles the
recovered toner scraped off by the drum cleaning blade. The developer unit is driven by the main motor
(M3) to rotate the mixers and the developer sleeve.

Drum thermistor Drum

Doctor blade

Toner recycling auger

Mixer-3

Mixer-2 Auto-toner sensor Mixer-1 Developer sleeve


Fig. 3-31

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3.12.2 Construction

Development system

Developer unit Developer material Periodic replacement required

Mixers-1, -2 and -3

Developer sleeve (Magnet roller)


3
Doctor blade

Auto-toner sensor S6

Drum thermistor THMS4

Recovered toner supply mechanism


(Toner recycling auger)

Toner cartridge Toner cartridge PC board CTRG

Toner cartridge interface PC board CTIF

Toner motor M2

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3.12.3 Functions

[ 1 ] Function of each unit

[ 1-1 ] Developer unit


• Developer material
This consists of carrier and toner. The carrier is electrically conductive ferrite whose particle size is
approx 65 µm, and the toner is resin whose particle size is approx 12.5 µm. The developer material
requires a periodic replacement since it deteriorates with long-term use.

• Mixers-1, -2 and -3
Mixing the developer material generates a friction of the carrier and the toner. The carrier is then
positively charged and the toner is negatively charged, and the charged carrier and toner adhere on
the drum surface by their static electricity. The mixer-3 is mounted exclusively for the recovered
toner to mix it in a sufficient period of time.

• Developer sleeve (Magnet roller)


This aluminum roller includes a magnet inside. The developer sleeve absorbs the developer
material using this magnet to form a magnetic brush. The magnet is fixed therefore the only sleeve
is rotated. This rotation makes the magnetic brush of the developer sleeve sweep over the drum
surface, and thus development is performed.

• Doctor blade
This controls the amount of the developer material transported from the developer sleeve so that the
magnetic brush of the developer material can properly contact with the drum surface.

• Auto-toner sensor (S6)


To print out normal images, a constant ratio of the carrier and the toner in the developer material (=
toner density) must be maintained. The auto-toner sensor (S6) detects the content ratio of the toner
in the developer material with its magnetic bridge circuit. When this sensor detects the insufficient
status of the toner, it drives the toner motor (M2) to supply the toner from the toner cartridge.

• Drum thermistor (THMS4)


This is installed in the developer unit to detect the ambient temperature of the drum.

• Recovered toner supply mechanism (Toner recycling auger)


The recovered toner, transported from the drum cleaner, is then transported into the developer unit
by the toner recycling auger mounted on the front side of this unit. The drive of the toner recycling
auger is transmitted from the mixer-3.

[ 1-2 ] Toner cartridge


This is filled with the toner and this supplies the toner to the developer unit by the drive of the toner
motor (M2). The toner cartridge in this equipment mounts the toner cartridge PC board (CTRG), and
the data identifying recommended TOSHIBA toner cartridges and the counter values determining that
the cartridge is nearly empty are written in this board. These data are read out by the toner cartridge
interface PC board (CTIF) in this equipment, and data related to toner supply are also written in the
toner cartridge PC board (CTRG). The toner cartridge interface PC board (CTIF) also detects whether
the toner cartridge is installed or not.

[ 1-3 ] Toner motor (M2)


This drives the toner cartridge with gears.

[ 2 ] Functions of the toner cartridge PC board (CTRG)


An IC chip is embedded in this board. Data such as identification information for the recommended
TOSHIBA toner cartridge, thresholds to determine if the cartridge is nearly empty, and controlling data
for the image quality to be optimal according to the toner characteristics are written in this chip.

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To measure the amount of toner remaining in the cartridge, when the value of counter for period of
toner cartridge rotation time (08-1410) is updated, this equipment writes the updated value into the
toner cartridge PC board (CTRG).

These data written in the toner cartridge PC board (CTRG) enable the functions below, and accordingly
this equipment operates as shown below. Data reading is performed every time the power of this
equipment is turned ON and the front cover is closed.

[Data read by the toner cartridge PC board (CTRG)] 3


• Data to identify recommended TOSHIBA toner cartridges
• Thresholds to determine if the toner cartridge is nearly empty
• Value of counter for period of toner cartridge rotation time
• Data for optimizing image quality

[Functions]
• Cartridge detecting function
This function checks whether the toner cartridge is inserted correctly or not, and whether the
recommended toner cartridge is used or not.
• Toner remaining check function
This function notifies the user of the near-empty status of toner. Normally, the message “Toner is
low” is displayed when the toner is running out, and “Toner empty” when the toner cartridge is
empty.
• Toner remaining check notification function
Upon detecting the near-empty status of toner, this function automatically notifies your service
representative.

• Image optimization function


This function controls the quality of images to be optimal according to the characteristics of the toner
used.

[Operations]
Recommended cartridge
Toner cartridge Recommended cartridge Non-recommended cartridge
refilled with new toner
Cartridge detecting Enabled Enabled Disabled
function “Toner not recognized” is “Toner not recognized” is “Toner not recognized” is
displayed when no cartridge displayed when no displayed even when the
is installed. cartridge is installed. cartridge is installed.
Toner remaining Enabled Disabled Disabled
check function “Toner near Empty” is “Toner near Empty” is This function does not
displayed when the displayed even when a operate.
cartridge is nearly empty. new cartridge is installed.
Toner remaining Enabled Disabled Disabled
check notification
function
Image optimization Enabled Enabled Disabled
function

A sign of the status that the toner cartridge is nearly empty (= the behavior of the toner lamp) appears
when the value of counter for period of toner cartridge rotation time has exceeded the thresholds
previously written in the toner cartridge PC board (CTRG). When a used cartridge refilled with new
toner is used, that is the value of counter for period of toner cartridge rotation time in the toner cartridge
PC board (CTRG) had already exceeded the threshold to determine the near-empty status of the toner
at this moment, the sign of the near-empty status appears immediately after the installation of this
cartridge. When a non-recommended toner cartridge is used, the equipment may stop normal
operations. The toner remaining check function, automatic remote supply order to TOSHIBA sales
representatives and image optimization function may also be disabled.
The toner near-empty status threshold setting (08-971) is provided to adjust the timing for displaying
the toner near-empty status as follows.

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The toner near-empty status threshold setting (08-971)
0: The period from the appearance of the toner near-empty sign to the actual complete
consumption of the toner is set long.
1: Normal (Default)
2: The period from the appearance of the toner near-empty sign to the actual complete
consumption of the toner is set short.
3: The sign of the status that the cartridge is nearly empty does not appear.
Note that the shorter the period described above is set, the more frequently the toner in the cartridge
may run out before the sign of the near-empty status of the toner appears because the way the toner
remains in the cartridge differs every time.

When the value of the toner near-empty status threshold setting (08-971) is set at “3”, the toner
remaining check function is disabled.

Image optimization function


Data for controlling the image quality according to the toner characteristics are written in the toner
cartridge PC board (CTRG) so that images can be optimally printed.
Also there is a function that sets the image controlling level as required (08-500).
0: Controlling amount - Medium (default)
1: Controlling amount - Small
2: Controlling amount - Large

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[ 3 ] Recovered toner supply mechanism
The toner scraped off by the drum cleaning blade is transported by the toner recovery auger and the
toner recycling auger to be recycled, and then returned into the developer unit. Then the recovered
toner in the developer unit is mixed by the developer material using the mixer-3. The mixer-3 is
mounted exclusively for the recovered toner to mix it in a sufficient period of time. On the other hand,
the (fresh) toner transported from the toner cartridge into the developer unit is mixed by the mixer-2.
Then the (fresh) toner and the recovered toner are mixed together and further transported to the mixer-
1. They are further mixed by the mixer-1 and transported to the developer sleeve.
3

Drum cleaner

Mixer-1
Mixer-2 Toner recovery auger

Mixer-3

Toner cartridge

Fresh toner
Recovered toner

Toner recycling auger

Fig. 3-32

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3.13 Fuser / Exit Unit

3.13.1 General description


In the equipment, the fuser unit which fuses toner on the paper and the paper exit section (exit roller)
which outputs the paper with the fused toner to the inner tray are combined together to make up the
fuser/exit unit.
In the fuser unit, toner is fused by applying heat and pressure on the transferred image on the
transported paper. The paper is then transported to the exit tray after the completion of fusing. The
fuser/exit unit is driven by the main motor (M3), and the heat roller and exit roller are rotated by the
main motor (M3).
When the automatic duplexing unit (ADU: optional) is installed, it is driven by the exit motor (M7).
Other than the above rollers, the fuser/exit unit consists of the heater lamps, separation fingers,
thermistors (THMS1/THMS2/THMS3), fuser thermostat (THMO1), paper transport guide and the exit
sensor which detects the status of the paper transport, etc.

Fuser separation finger


Exit roller

Exit sensor

Center heater lamp

Side heater lamp


Pressure roller

Fuser thermostat

Center/Side/Edge thermistor Fuser roller

Fig. 3-33

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3.13.2 Configurations

Fuser / exit unit


Pressure roller unit Pressure roller PFA tube sponge roller (φ25)
Periodic replacement part
Exit sensor (S5)
Fuser roller unit Fuser roller Fluoro-plastic coated roller (φ30)
Periodic replacement part 3
Heater lamp (LAMP1, LAMP2) 564W+564W
Thermistor (THM1, 2, 3)
Fuser thermostat (THMO1) Non-contact type (170ºC)
Separation finger Periodic replacement part
Exit roller
Exit motor (M7) Stepping motor: option

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3.13.3 Functions
1. Pressure roller
The pressure roller is a sponge roller which assures the nip amount of the fuser roller. The pressure
from the spring presses the paper onto the fuser roller to fuse toner onto the paper efficiently.

2. Exit sensor (S5)


The exit sensor detects if the leading or trailing edge of the paper is passing through the pressure
roller and the fuser roller. This sensor is used for the detection of paper jams in the fuser/exit unit as
well.

3. Fuser roller
The fuser roller applies heat onto the paper and is heated by the heater lamps installed inside of the
fuser roller. The heat from this roller fuses toner onto the paper. The fuser roller in this equipment is
a thin roller which enhances heat conduction, and thus the warming-up time is shortened.

4. Heater lamp (LAMP1/LAMP2)


The heater lamps are halogen lamps to apply heat to the fuser roller. The fuser unit in this
equipment has 2 heater lamps (564W+564W) with different functions each other. One has a coil
wound up on its center and this part generates heat. The other one has coils wound up on its both
ends and these parts generate heat. The one has a coil on its center is called the center heater lamp
(LAMP1) and the one has coils on its both ends is called the side heater lamp (LAMP2).
The heater lamps are fixed on the inside of the fuser roller to heat it up. The heater lamps do not
rotate even when the fuser roller is rotating.

5. Sensor thermistor (THMS1) / Side thermistor (THMS2)


This thermistor detects the temperature of the fuser roller to maintain it in a certain temperature
range (actually around 170°C) between the lower limit causing the poor fusing and the upper limit
causing the high temperature offsetting. When the temperature of the fuser roller is lower than the
preset temperature, it turns ON the power supply to the heater lamps, and when it is higher than the
preset temperature, it cuts off the supply.
The center thermistor (THMS1) detects the temperature of the center part of the fuser roller, and the
side thermistor (THMS2) detects the temperature of one side of fuser roller and control the both
sides.

6. Edge thermistor (THMS3)


Both the ends of the fuser roller may be overheated without heat absorption by the paper since it
does not pass through this area. The edge thermistor (THMS3) detects any temperature
abnormality of this area caused by overheating of the fuser roller. Therefore this thermistor is not
used for temperature control of the fuser roller.

7. Fuser thermostat (THMO1)


The fuser thermostat (THMO1) cuts off the power supply to the heater lamps (LAMP1/LAMP2) by
opening itself if the fuser roller becomes abnormally hot as a result of the problem such as
thermistor malfunction. The fuser thermostat (THMO1) for this equipment is used to prevent
abnormal operation. When the fuser thermostat (THMO1) detects any abnormality, it must be
replaced as well as the other damaged parts in the fuser unit.

8. Separation finger
Five separation fingers are installed above the fuser roller, in order to separate paper adhering to
each roller.

9. Exit roller
The exit roller, which transports the paper to the inner tray, is driven by the main motor (M3). It is
driven by the exit motor (M7) when the ADU (optional) is installed.

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10.Exit motor (M7)
The exit motor is a stepping motor which drives the exit roller. This motor rotates reversely to
switchback the exit roller when the paper is transported to the ADU. Install this exit motor (M7) when
the ADU (optional) is installed.

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3.13.4 Operation
The fuser roller is pressed by the pressure roller with the spring force. The fuser roller is rotated by the
main motor drive, and the pressure roller is rotated by the rotation of the fuser roller. In addition, the
heater lamps in the fuser roller do not structurally rotate.
2 heater lamps having different functions are installed; one applies heat to the center part of the fuser
roller and the other applies heat to both ends of the roller. In this equipment, the surface temperature of
the fuser roller at any paper size can be maintained by controlling the turning ON/OFF of the 2 heater
lamps. The thermistors control the temperature of the fuser roller and detect temperature abnormalities.
If the temperature becomes excessively high, the thermostat is opened to stop the power supply to the
heater lamps.
Then the paper transported to the fuser unit is held between the fuser roller and pressure roller, and
toner is fused on the paper with heat and pressure. After this, the separation fingers separate the paper
from the fuser roller. Then the paper is transported to the inner tray through the exit roller. The paper
transport status of the fuser/exit unit is detected by the exit sensor.

When the power is turned ON, the warming up of the fuser unit is started: the heater lamps are turned
ON. If the temperature of the fuser roller does not reach or exceeds a specified temperature within a
specified period of time, it is judged that the heater is abnormal. When the specified temperature has
been reached normally, the equipment goes into the ready state.
When printing is not performed within a specified period of time during ready, the equipment enters the
Auto Power Save Mode and turns the 2 heater lamps OFF or lowers the control temperature to save
power consumption. And if printing is not performed within another specified period of time after the
equipment has entered the Auto Power Save Mode, the equipment then enters the Auto Shut Off mode
to turn OFF the 2 heater lamps.

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3.13.5 Fuser unit control circuit

[ 1 ] Configuration
In this equipment, the surface temperature of the fuser roller is controlled by turning ON/OFF 2 heater
lamps (center and side) which have different heat-generating positions with the command from the SoC
on the MAIN board. The surface temperature of the fuser roller is detected by 3 thermistors (center,
side and edge) and then the information of the temperature is transmitted to the SoC and each control
circuit. Based on the detected temperature, the SoC transmits the control signal of the heater lamp to
the control circuit (TRC: Triac) of each heater lamp on the switching regulator. The power supply to 3
each fuser roller is thus controlled by driving TRC. The SoC detects the overheating of the fuser roller.
In case that the surface temperature of the fuser roller has exceeded the specified temperature, the
SoC turns the heater lamp OFF.
If the SoC does not function for some reason and the fuser roller is abnormally overheated as the
result, a forcible power-OFF circuit transmits a relay-OFF signal to the switching regulator to shut off the
power supply to the heater lamp by opening the relay. In addition, if these control circuits do not
function with thermistor abnormality or other reasons and the fuser roller is abnormally overheated as
the result, thermostat shut off the power supply to the heater lamps to protect the equipment.

Fuser unit Switching regulator

Fuser thermostat L
Noise
Front Rear N
Center heater lamp filter
Fuser roller control circuit
Center heater lamp (TRC1)

Main switch
Side heater lamp
Side heater lamp
control circuit
(TRC2)
Relay
Center Side Edge
thermistor thermistor thermistor

Center heater lamp


control signal

A/D SoC
converter Side heater lamp
control signal

AC line
DC line
Forcible power-off Relay-OFF signal
circuit
MAIN board

Fig. 3-34

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[ 2 ] Temperature detection section
To maintain the surface temperature of the fuser roller at a certain level, 3 thermistors (center, side and
edge) detect the surface temperature of the fuser roller to turn ON/OFF and control 2 heater lamps
(center and side).

1. Fuser unit error status counter control

- To enhance the safety of the fusing section unit, SoC provides the following protection: When the
third [C41] error has occurred after two consecutive [C41] errors, the heater lamp is not turned
ON and error [C41] is displayed immediately even if an operator turns OFF the power and back
ON. However, if the equipment goes into a ready state normally with the fuser unit error status
counter “1” or below, the counter is cleared to “0”.

- If the error codes [C41] to [C45] are displayed and still not cleared even though the thermistor,
thermostat and heater lamp have been repaired (and the power ON/OFF does not clear the
error), check the Setting Mode (08-400) to set the fuser unit error status counter to “0”.

Remark:
The fuser unit error status counter (Setting Mode (08-400)) never has values other than 0-19.
• If the heater lamp does not turn ON and the service call [C41] is displayed immediately after
the power is ON, ensure the fuser unit error status counter is “2” or over. If it is “2” or over, be
sure to check the thermistor, thermostat and heater lamp. Reset the counter to “0” after
repairing them, then turn ON the power.

• If the fuser unit error status counter is “20” or over (e.g., 31), the data in SRAM or SRAM itself
may possibly have been ruined due to causes such as leakage from the chargers. Check the
bias, high-voltage transformers and charge wires to see if any of them is defective, and also
look through all the data in the SRAM.

• When the thermistors detect overheating, the SoC decides the error code and counter value
of the fuser unit error status, and turns OFF each output (the heater lamp, control panel
display, motors and so on) to protect the fuser unit.

Error code: C44 ([CLEAR/STOP] and [8])


Counter value of the fuser unit error status: 9 (08-400)

Thermistors continue detecting the abnormal temperature even after the error codes and
counter values are decided. Even if the power is turned ON immediately, the heater lamp is
automatically turned OFF again when the surface temperature of the fuser roller is still higher
than the abnormal temperature detected.
Wait until the surface temperature of the fuser roller is lowered enough, and turn ON the
power to check the counter value. After confirming that it is the fuser unit abnormality, correct
the abnormality and reset the counter value (08-400) to “0” to start up the equipment normally.

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2. Temperature detection configuration
Thermistor is a device whose resistance decreases as it detects a higher temperature. Thus its input
voltage to A/D converter changes and then SoC judges whether this change is normal or abnormal.
If one of the fuser roller thermistors is broken, the control circuit judges that the fuser roller
temperature is extremely low and keeps turning the heater lamp ON. As a result, the fuser roller
temperature rises, and possibly activates the thermostat which is a safety protection device. To
prevent this in advance, SoC works to detect whether each thermistor is broken or not.
Also, the thermistors constantly check the temperature of heater lamp to prevent it from excessive
heating by MAIN circuit abnormality or thermistor abnormality. The thermistors automatically turn 3
OFF the power when the temperature of heater lamp exceeds the specified temperature.

3. Abnormality detection by the thermistors


The following table shows the conditions judging the fuser roller temperature abnormality and
detecting timing.

Temperature judged Error-


Checking Error
Priority Center Side Edge judging
timing code
thermistor thermistor thermistor timing
On usual 1 230°C or above - - On usual C44
- 230°C or above -
- - 230°C or above
Detecting 40°C 1 40°C or below - - Specified C41
- 40°C or below - time
Detecting 100°C 1 100°C or below - - Specified C44
- 100°C or below - time
2 40°C or below 150°C or above - On usual C43
150°C or above 40°C or below -
Detecting 1 Warming-up temp. - - Specified C44
warming-up or below time
temperature - Warming-up temp. -
or below
2 40°C or below 150°C or above - On usual C43
150°C or above 40°C or below -
- 150°C or above 40°C or below
During ready 1 40°C or below 150°C or above - On usual C43
status 150°C or above 40°C or below -
- 150°C or above 40°C or below
2 40°C or below - - C44
- 40°C or below -
During copying 40°C or below - - On usual C44
1
- 40°C or below -
2 - - 40°C or below C45
* The figures in the “priority” section denote the priority of error checking.

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3.14 Automatic Duplexing Unit (ADU) (OPTION: MD-0103)

3.14.1 General description


The Automatic Duplexing Unit (ADU) is a unit to reverse a sheet of paper at duplex copying.
A switchback method using the exit roller is adopted for the ADU of this equipment. Immediately after
the printing of one side (fusing process) is completed, the paper is switchbacked by the exit roller. The
paper being reversed is then transported to the registration roller for the printing of the other side.
The ADU mainly consists of the transport rollers and their drive section, the paper guides and the ADU
driving PC board (ADU).

Exit motor Exit roller

ADU motor

Upper transport roller

Paper guide

ADU sensor
ADU driving PC board

Lower transport roller

Fig. 3-35

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[ 1 ] Specifications of MD-0103

Item Specification Remarks

Reversal method Stackless switchback method

Paper size A3, A4, A4-R, A5-R, B4, B5, B5-R,


FOLIO, LD, LG, LT, LT-R, ST-R,
COMPUTER, 13” LG, 8.5”x8.5” SQ, 8K,
16K, 16K-R 3
Paper weight 64 to 80g/m 2
17 to 22 lb. Bond

Dimensions W466 x D55 x H244 (mm) Paper guide (outside)


W307 x D50 x H200 (mm) Paper guide (inside)
W61 x D50 x H101 (mm) Motor unit

Weight Approx. 1.2 kg Total weight of paper guide (outside), paper


Approx. 2.65 lb. guide (inside) and motor unit

Power supply DC 24V, DC 5V Supplied from the equipment

Bundled Unpacking instruction 1 pc


Paper guide (outside) 1 pc
Paper guide (inside) 1 pc
Motor unit 1 pc
Wire harness 1 pc
Screws (M3 x 8) 5 pcs
Screw (M3 × 6) 1 pc

Option Paper feed controller (GH-1060) MD-0103 and GH-1060 are to be installed
together.

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3.14.2 Construction

Automatic Duplexing Unit (ADU)


ADU motor (M8) Stepping motor
ADU driving PC board (ADU)
ADU sensor Mounted on the ADU driving PC
board (ADU)
Upper transport roller
Lower transport roller

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3.14.3 Functions
1. ADU motor (M8)
This motor drives the ADU transport rollers (upper and lower).

2. ADU driving PC board (ADU)


The sensor on this board drives the ADU motor and detects paper being transported within the ADU.

3. ADU sensor
This sensor is mounted on the ADU driving PC board to detect paper being transported within the 3
ADU.

4. Upper transport roller / Lower transport roller


These rollers transport paper within the ADU.

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3.14.4 Drive of ADU
When the ADU motor (M8) rotates in the direction A, the transport rollers (upper and lower) rotate to
transport paper through the drive of the gear and the belt.

ADU motor

Upper transport roller


ADU sensor

ADU driving PC board

Lower transport roller

Fig. 3-36

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3.14.5 Description of operation
The back side printing (recording data of the back side of paper) is performed first by selecting duplex
printing mode and pressing the [START] button. When the trailing edge of the paper passes the exit
gate, the paper is switchbacked by the exit roller and transported into the ADU.
The front side printing (recording data of the front side of paper) is performed at the registration section.
The paper passes through the exit gate again and is transported to the inner tray to complete duplex
printing.
The detection of paper jam is performed in two methods. In one method the paper jam is judged by
whether the ADU sensor is turned ON or not within a specified period of time after the paper started to 3
be switchbacked to the ADU (error code: E51), and in another method, it is judged by whether the
registration sensor (S4) is turned ON or not within a specified period of time after the paper started to
be fed out of the ADU to the equipment (error code: E11).
ADU open jam (error code: E43) occurs when the ADU is opened during the duplex printing and thus
the ADU motor is stopped.
The equipment is never to be stopped during printing by interruption in any case except paper jam or
service call.

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3 - 73
1. Single-paper circulation
With the paper larger than A4/LT size, duplex printing (back-side printing front-side printing) is
performed for one sheet at a time as shown below.

(1) (2) (3)

(4) (5) (6)

(7) (8) (9)

Fig. 3-37

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OUTLINE OF THE MACHINE
3 - 74
3.15 Power Supply Unit

3.15.1 Construction
The power supply unit consists of the AC filter, insulated-side DC output circuit, high-voltage output
circuit, and heater lamp control circuit.

1. AC filter
Eliminates noise from the outside and prevents the noise generated by the equipment from leaking 3
to the outside.

2. DC output circuit (Low-voltage output circuit)


Converts AC voltage input from outside to DC voltage and supplies it to each electric part. The DC
voltage is divided into the following two lines.

a.Main switch line: Power supply used in the entire equipment during the image forming
process. Six kinds of voltage (+5V, +5VB, +12V, -12V, +24V and +24VDF)
are output when the main switch of the equipment is turned ON.

b.Cover switch line: Power supply used in the entire equipment during the image forming
process. It is supplied via the cover switch. This voltage (+24VCOV-OFF)
is output only when both the main switch of the equipment and the cover
interlock switches are turned ON (when the front and ADU covers are
closed).

* When the equipment is in Energy Saving Mode (Auto Shut Off Mode), only the +5VB for the main
switch line is supplied.

3. High-voltage output circuit


Generates the output currents/voltages for the charger, developer, transfer and separation biases,
based on the +24V voltage which is generated by the DC output circuit.

4. Heater lamp control circuit


TRC (Triac) is driven by the heater control signal (HTON1B/HTON2B) from the MAIN board and
then AC power is supplied to each heater lamp (center and side) in the fuser unit. For details of the
heater lamp control circuit, see the following.
P.3-65 "3.13.5 Fuser unit control circuit"

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OUTLINE OF THE MACHINE
3 - 75
3.15.2 Operation of DC output circuit

1. Starting line output


When the power of the equipment is turned ON, all the voltages start being supplied. However, they
start being supplied only when both the front cover and the ADU cover are closed.

2. Stopping line output


When the power of the equipment is turned OFF, the power-OFF (PWRDWN-1) signal is output after
the end of the instantaneous outage insurance time (20 ms or more), and then the supply of each
voltage stops. If the supply of voltage of the +5VB line stops earlier than the 24V line does, it may
cause damage to the electron device on each control circuit. To prevent this, the supply of the +5VB
voltage stops after the power-OFF signal is output and the minimum retaining time (50 ms or more)
has elapsed.

3. Output protection
Each output system includes an overcurrent and overvoltage protection circuit (a fuse and internal
protection circuit). This is to prevent defects (damage or abnormal operation of the secondary
circuit) which may be caused by an overcurrent due to a short circuit or an overvoltage resulting
from short-circuiting between different voltages. If the protection circuit is activated (except when the
fuse is blown), repair the causes such as short-circuiting. Turn ON the power again 1 minute later to
clear the overcurrent protection.

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OUTLINE OF THE MACHINE
3 - 76
3.15.3 Output channel
The following are 6 output channels for the main switch line.

1. +5V
+5V: CN104 Pin 3
Output to the MAIN board

+5V: CN112 Pins 3 and 4


Output to the PFC board, ADU (via PFC board), PFP (via PFC board) 3

+5VB: CN104 Pin 8


Output to the FUS board

+5VB: CN104 Pins 9 and 10


Output to the MAIN board

2. +12V
+12V: CN110 Pin 3
Output to the FAX unit

3. -12V
-12V: CN104 Pin 2
Output to the control panel (via MAIN board)

-12V: CN110 Pin 2


Output to the FAX unit

4. +24V
+24V: CN104 Pins 19 and 20
Output to the MAIN board, PFU (via MAIN board)

+24V: CN112 Pins 1 and 2


Output to the PFC board, ADU (via PFC board), PFP (via PFC board)

+24VDF: CN104 Pins 17 and 18


Output to the RADF/ADF (via MAIN board)

The following is an output channel for the cover switch line.

1. +24V
+24VCOV-OFF: CN104 Pins 23 and 24
Output to the MAIN board

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OUTLINE OF THE MACHINE
3 - 77
3.15.4 Fuse
When the power supply secondary fuse is blown out, confirm that there is no abnormality with each part
using the following table.
Voltage Board/Unit Part Fuse type
+24V MAIN board Scan motor M1 F203: 4A
Polygonal motor M4
Switching regulator cooling fan M6
Registration clutch CLT1
Pickup clutch CLT2
Bypass pickup solenoid SOL1
Contact image sensor unit CIS
PFC board Exit motor M7
ADU board ADU motor M8
PFU
PFP
+24VDF ADF
+24VCOV-OFF MAIN board Toner motor M2 F201: 4A
Main motor M3
Exhaust fan M5
Auto-toner sensor S6
Discharge LED ERS
Coin controller

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OUTLINE OF THE MACHINE
3 - 78
4. DISASSEMBLY AND REPLACEMENT

4.1 Disassembly and Replacement of Covers

4.1.1 Front cover

(1) Open the front cover.


(2) Release the upper hinge. Front cover
(3) Take off the front cover while lifting it up.
4

Fig. 4-1

4.1.2 Inner tray

(1) Remove 2 screws and take off the Inner tray.

Inner tray

Fig. 4-2

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DISASSEMBLY AND REPLACEMENT
4-1
4.1.3 Left cover

(1) Take off the Inner tray.


P.4-1 "4.1.2 Inner tray"
(2) Remove 4 screws and take off the left cover.

Left cover
Fig. 4-3

4.1.4 Tray rear cover

(1) Take off the left cover.


P.4-2 "4.1.3 Left cover"
(2) Take off the tray rear cover.

Tray rear cover

Fig. 4-4

4.1.5 Front right cover

(1) Take off the front cover.


P.4-1 "4.1.1 Front cover" Front right cover
(2) Pull out the toner cartridge.
(3) Open the ADU cover.
(4) Remove 2 screws and take off the front right
cover.

Fig. 4-5

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DISASSEMBLY AND REPLACEMENT
4-2
4.1.6 Front upper cover

(1) Remove 1 screw and take off the front upper


cover.

Front upper cover


Fig. 4-6

4.1.7 ADU cover

(1) Open the bypass tray.


(2) Open the ADU cover. ADU stopper ADU stopper
(3) Open the transfer unit and release the ADU
stopper on the front side.
(4) Remove 1 screw and take off the ADU
stopper on the rear side.
Note:
Be careful not to fall off the ADU cover when
the screws are removed from the ADU
stopper.

Fig. 4-7

(5) Take off the ADU cover while sliding it toward


the right. ADU cover

Fig. 4-8

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DISASSEMBLY AND REPLACEMENT
4-3
4.1.8 Right front cover

(1) Take off the front cover.


P.4-1 "4.1.1 Front cover"
(2) Open the ADU cover.
(3) Pull out the drawer.
(4) Remove 2 screws and take off the right front
cover.

Right front cover


Fig. 4-9

4.1.9 Right rear cover

(1) Open the ADU cover.


(2) Remove 1 screw and take off the ADU
stopper on the rear side.
(3) Take off the 2 screw and take off the right
rear cover.

Right rear cover


Fig. 4-10

4.1.10 Rear cover

(1) Remove 5 screws and take off the rear


cover.

Rear cover
Fig. 4-11

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DISASSEMBLY AND REPLACEMENT
4-4
4.2 Control Panel

4.2.1 Control panel unit

(1) Remove 3 screws.

Fig. 4-12

(2) Take off the control panel unit while lifting it


up. Connector
(3) Disconnect 2 connector.
Note:
When installing the control panel unit, be
sure not to have the harness being caught by
the front right cover and the unit.

Control panel unit


Fig. 4-13

4.2.2 Control panel PC board (HPNL)

(1) Take off the control panel unit.


P.4-5 "4.2.1 Control panel unit"
(2) Remove 2 screws and take off the cover
while sliding it.

Cover
Fig. 4-14

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DISASSEMBLY AND REPLACEMENT
4-5
(3) Take off 2 brackets by removing 2 screws
each. Bracket

Fig. 4-15

(4) Remove 11 screws, disconnect 1 connector,


and then take off the control panel PC board.
Control panel PC board

Connector

Fig. 4-16

4.2.3 LCD PC board (LCD)

(1) Take off the control panel pc board.


P.4-5 "4.2.2 Control panel PC board
LCD PC board
(HPNL)"
(2) Remove 2 screws and take off the LCD PC
board.

Fig. 4-17

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DISASSEMBLY AND REPLACEMENT
4-6
4.3 Scanner

4.3.1 Original glass

(1) Remove 2 rubber caps and 2 screws, take off


the original glass holder while sliding it to the Rubber cap
right.
Note:
The rubber caps are not installed in the
equipment for NAD, CND, AUD, TWD, KRD
and ARD.
4

Original glass holder

Fig. 4-18

(2) Remove 2 rubber caps and 2 screws, take off


the original glass. Rubber cap Original glass

Notes:
1. When handling the original glass, take
care not to contaminate the surface with
fingerprints or such.
2. Do not place the original glass directly on
the floor.
3. When installing the original glass, fit 2
guides of the original glass in the groove
of the scanner top cover.
4. The rubber caps are not installed in the
equipment for NAD, CND, AUD, TWD,
KRD and ARD. Fig. 4-19

(3) Take off the ADF original glass.


ADF Original glass

Fig. 4-20

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DISASSEMBLY AND REPLACEMENT
4-7
Notes:
1. Install the ADF original glass so that the
attached Mylar sheet is placed on the
front side.
2. When installing the ADF original glass,
place it between 2 small guides with its Guide
left-hand side pushed to the scanner top
cover. Mylar

Guide
Fig. 4-21

4.3.2 Scanner top cover

(1) Take off the original glass.


P.4-7 "4.3.1 Original glass" Scanner top cover
(2) Take off the front upper cover.
P.4-3 "4.1.6 Front upper cover"
(3) Take off the control panel unit.
P.4-5 "4.2.1 Control panel unit"
(4) Remove 8 screws and take off the scanner
top cover.

Fig. 4-22

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DISASSEMBLY AND REPLACEMENT
4-8
4.3.3 Automatic original detection sensor (APS sensor)
[C-1] A4 series (S9-S13)

(1) Take off the original glass.


P.4-7 "4.3.1 Original glass" Sensor
(2) Disconnect 1 connector and remove 1 screw
for each APS sensor. Take off 5 APS
sensors.
Note:
Connector
When installing the automatic original
detection sensor, connect the connector 4
(yellow) to the connect one.

Connector (Yellow)
Fig. 4-23

[C-2] LT series (S10-S13)

(1) Take off the original glass.


P.4-7 "4.3.1 Original glass" Sensor
(2) Disconnect 1 connector and remove 1 screw
for each APS sensor. Take off 4 APS
sensors.
Note:
When installing the automatic original Connector
detection sensor, connect the connector
(yellow) to the connect one.

Connector (Yellow)
Fig. 4-24

4.3.4 Scan motor (M1)

(1) Take off the scanner top cover.


P.4-8 "4.3.2 Scanner top cover"
(2) Disconnect 1 connector.

Connector

Fig. 4-25

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DISASSEMBLY AND REPLACEMENT
4-9
(3) Remove 2 screws and take off the scan
motor. Scan motor

Fig. 4-26

Notes: A B
When installing the scan motor, be sure to
adjust the tension of the belt using the belt
tension jig. Also, be sure to take off the right
rear cover when performing the adjustment.
( P.4-4 "4.1.9 Right rear cover")
The adjustment procedure is as follows.
1. Temporarily fix screw A and B.

Scan motor
Fig. 4-27

Scan motor
2. Hook the belt tension jig to the motor
bracket and frame.
3. The scan motor is pulled by the belt
tension jig. Fix screw A and then B
at the stopped position.
4. Remove the belt tension jig.

Belt tension jig


Fig. 4-28

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DISASSEMBLY AND REPLACEMENT
4 - 10
4.3.5 CIS home position sensor (S1)

(1) Take off the original glass.


P.4-7 "4.3.1 Original glass"
(2) Remove 1 screw and take off the CIS home
position sensor with the bracket.

Bracket CIS home position sensor


Fig. 4-29

(3) Release 2 latches, take off the CIS home CIS home position sensor
position sensor, release the harness from
Connector
harness clamp and disconnect 1 connector.

Fig. 4-30

4.3.6 Platen sensor (S2)

(1) Take off the scanner top cover.


P.4-8 "4.3.2 Scanner top cover" Bracket
(2) Remove 1 screw and take off the sensor with
the bracket. Connector
(3) Disconnect 1 harness clamp and 1
connector.

Fig. 4-31

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DISASSEMBLY AND REPLACEMENT
4 - 11
(4) Release 2 latches and take off the platen
sensor.
Platen sensor

Fig. 4-32

4.3.7 CIS unit (CIS)

(1) Take off the original glass.


P.4-7 "4.3.1 Original glass" CIS unit
(2) Move the CIS unit to the right most position.

Fig. 4-33

Notes:
• Be sure to hold the CIS unit drive belt-1 to
move the CIS unit.
• When the CIS unit is moved, be sure not
to touch the shaft as the silicon oil is
applied on it.

CIS unit drive belt-1


Fig. 4-34

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DISASSEMBLY AND REPLACEMENT
4 - 12
(3) Remove the seal which fixes the harness.
Note:
Attach the seal by following the procedure Seal
below.
- Place the flat harness along the edge
of the scanner base.
- Align the seal with the two edges of
the scanner base.

Harness 4

Fig. 4-35

(4) Lift up the CIS unit [1], disconnect 1


connector [2] on the bottom of the CIS unit, [1]
and then take off the CIS unit. [2]

Notes:
• Take care not to contaminate the CIS unit
surface with fingerprints, dust or such.
• Be sure to perform "05-310" with the
platen cover or the ADF/RADF closed
after replacing the CIS unit.
• Be sure to unlock the connector before
disconnecting it.

Fig. 4-36

(5) Release 2 latches each to take off 2 original


glass guides [3] from the CIS unit. [3]

Fig. 4-37

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DISASSEMBLY AND REPLACEMENT
4 - 13
Notes:
1. When installing the CIS unit, be sure to Harness holder
pass the flat harness through the harness
holder of the CIS case.

Fig. 4-38

2. Be sure to pull the flat harness so that it is


not warped.

Flat harness
Fig. 4-39

4.3.8 CIS case

(1) Take off the CIS unit.


P.4-12 "4.3.7 CIS unit (CIS)" Belt stopper
(2) Remove 1 screw and take off the belt
stopper.
Note:
When installing the belt stopper, install it so
that the protrusion of the stopper fits in the V-
groove on the inside of the CIS unit drive
belt-1.

CIS unit
drive belt-1

Fig. 4-40

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DISASSEMBLY AND REPLACEMENT
4 - 14
(3) Take off the CIS case.
CIS case

Fig. 4-41

Notes:
1. When installing the CIS case, be sure to
fit the shaft of the equipment in the shaft
guide attached on the bottom of the CIS
case.
2. When installing the CIS case, install it so
that the “L” shaped portion of the bottom L shaped potion
of the CIS case comes under the CIS unit
drive belt-1.

Shaft guide
Shaft
Fig. 4-42

4.3.9 CIS unit drive belt-1

(1) Take off the CIS case.


P.4-14 "4.3.8 CIS case" Tension bracket
(2) Loosen 1 fixing screw of the tension bracket.

Fig. 4-43

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DISASSEMBLY AND REPLACEMENT
4 - 15
(3) Take off the CIS unit drive belt-1.
Note:
When assembling the CIS unit drive belt-1, CIS unit drive belt-1
assemble it while the fixing screw is
loosened. Then tighten the fixing screw of
the tension bracket.

Fig. 4-44

4.3.10 CIS unit drive belt-2

(1) Take off the scanner top cover.


P.4-8 "4.3.2 Scanner top cover" Scan motor
(2) Take off the right rear cover.
P.4-4 "4.1.9 Right rear cover"
(3) Take off the CIS unit drive belt-1.
P.4-15 "4.3.9 CIS unit drive belt-1"
(4) Loosen 2 fixing screws of the scan motor.

Fig. 4-45

(5) Take off the CIS unit drive belt-2.


Note:
When assembling the CIS unit drive belt-2, CIS unit drive belt-2
be sure to perform the tension adjustment for
the scan motor.
P.4-9 "4.3.4 Scan motor (M1)"

Fig. 4-46

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DISASSEMBLY AND REPLACEMENT
4 - 16
4.4 Laser Optical Unit

4.4.1 Laser optical unit

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover" [1]
(2) Disconnect 3 connectors [1] from the MAIN
board.
Note:
Connect the flat harness to the MAIN board
with its erectrode side down. An error “CA2“
4
will be displayed if the connection is
incorrect.

[1]
Fig. 4-47

(3) Take off the switching regulator unit.


P.9-4 "9.1.5 Switching regulator unit (PS)"
(4) Remove 1 screw.
(5) Pull out the laser optical unit [2] while lifting it
up and take it off.

[2]

Fig. 4-48

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DISASSEMBLY AND REPLACEMENT
4 - 17
4.5 Drive Unit

4.5.1 Main motor (M3)

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover"
(2) Disconnect 1 connector, remove 2 screws,
and then take off the main motor.

Connector

Main motor
Fig. 4-49

4.5.2 Toner motor (M2)

(1) Take off the rear cover.


Tonner motor Connector
P.4-4 "4.1.10 Rear cover"
(2) Disconnect 1 connector, remove 1 screw,
take off the toner motor with the bracket, and
then remove 1 bushing and 1 gear.

Bracket Bushing Gear


Fig. 4-50

(3) Remove 2 screws and take off the toner


motor.
Note: Tonner motor
Pay attention to the size (length) of the
screws. If incorrect ones are used, the motor
could be damaged.

Bracket
Fig. 4-51

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DISASSEMBLY AND REPLACEMENT
4 - 18
4.5.3 Main motor drive unit

(1) Take off the Process unit.


Registration roller holder
P.4-37 "4.7.1 Process unit"
(2) Take off the toner motor with the bracket.
(3) Remove 2 screws and take off the
registration roller holder.
Note:
When installing the registration roller holder,
align the arm of the registration clutch with
the rotation stopper of the registration roller 4
holder.

Rotation stopper
Fig. 4-52

(4) Remove 1 clip and take off 1 bushing.

Clip Bushing
Fig. 4-53

(5) Disconnect 1 connector, remove 3 screws


and take off the main motor drive unit.

Connector

Main motor drive unit


Fig. 4-54

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DISASSEMBLY AND REPLACEMENT
4 - 19
(6) Loosen 1 tensioner fixing screw and remove
the tension spring.

Tensioner spring
Fig. 4-55

(7) Take off the gear and timing belt from the
main motor drive unit.
Timing belt

Gear
Gear

Main motor drive unit


Fig. 4-56
Notes:
• Do not apply more tension to the belt of
the main motor drive unit than that Tensioner
produced by the spring force.
• Follow the procedure bellow to perform
tension adjustment when assembling the
main motor drive unit.
- Align the tensioner with the punch
mark and tighten the tensioner fixing 2
screw.
- Hook the tensioner spring.
- Install the main motor drive unit to the 1
equipment. Tensioner spring
- Loosen the tensioner fixing screw.
- Let the spring force produce tension Fig. 4-57
for the belt, and tighten the fixing
screw.

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DISASSEMBLY AND REPLACEMENT
4 - 20
4.6 Paper Feeding System

4.6.1 Bypass unit

(1) Take off the ADU cover.


P.4-3 "4.1.7 ADU cover" Screw
(2) Remove 1 screw and take off the harness
cover.

4
Harness cover

Fig. 4-58

(3) Release the harness from the harness clamp


and disconnect 1 connectors.

Connector
Fig. 4-59

(4) Remove 2 screws, and take off the bypass


unit by lifting it up. Guide
Screw
Note:
When installing the bypass unit, place the
guide behind the transfer unit.

Screw Bypass unit


Fig. 4-60

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DISASSEMBLY AND REPLACEMENT
4 - 21
4.6.2 Bypass tray

(1) Take off the bypass unit.


P.4-21 "4.6.1 Bypass unit"
(2) Release each latch to take off the front and
rear tray arms.
(3) Take off the bypass tray.
Latch

Bypass tray
Fig. 4-61

4.6.3 Bypass separation pad

(1) Take off the bypass unit.


P.4-21 "4.6.1 Bypass unit" Bypass separation pad unit
(2) Remove 2 screws and take off the bypass
separation pad unit.

Fig. 4-62

(3) Remove 1 screw on the bottom of the bypass


separation pad unit, and take off the cover.

Cover

Fig. 4-63

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DISASSEMBLY AND REPLACEMENT
4 - 22
(4) Take off the bypass separation pad while
Bypass separation pad
pinching the mounting bracket.

Fig. 4-64

Note:
When the separation pad is replaced, apply Bypass separation pad
one grain of rice-sized white grease to the
supporting point.

White grease

Fig. 4-65

4.6.4 Bypass roller unit

(1) Take off the bypass unit.


P.4-21 "4.6.1 Bypass unit"
(2) Remove 2 screws, and take off the cover. Cover

Fig. 4-66

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DISASSEMBLY AND REPLACEMENT
4 - 23
(3) Remove 1 spring and 2 screws. Then take
off the bracket. Spring
Notes:
• When installing the bracket, engage the Bracket
U-shaped part of each head on both front
and rear arms with each protrusion on the
bypass roller unit.

Fig. 4-67

• When the bracket is removed, place it as


shown in the figure on the right to prevent
the levers from coming off.

Bracket

Fig. 4-68

(4) Remove 1 clip, and take off the bypass roller


Clip Bypass roller unit
unit while sliding it to the front side.
Note:
When installing the bypass roller unit, insert Coupling
the shaft into the coupling on the rear side.

Shaft

Fig. 4-69

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DISASSEMBLY AND REPLACEMENT
4 - 24
4.6.5 Bypass pickup roller

(1) Take off the bypass roller unit.


P.4-23 "4.6.4 Bypass roller unit"
(2) Take off the bypass pickup roller and the
shaft.

Shaft

Bypass pickup roller


Fig. 4-70

4.6.6 Bypass feed roller

(1) Take off the bypass roller unit.


P.4-23 "4.6.4 Bypass roller unit" Bypass feed roller
(2) Remove 1 clip. Then pull out the shaft.
(3) Take off the bypass feed roller.

Shaft

Clip
Fig. 4-71

4.6.7 Bypass paper sensor (S8)

(1) Remove 1 screw on the bottom of the


equipment.
(2) Take off the bypass paper sensor with the
bracket.

Bracket

Fig. 4-72

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DISASSEMBLY AND REPLACEMENT
4 - 25
(3) Take off the actuator with the spring while
pushing the bracket stays wider. Actuator

Spring

Bracket
Fig. 4-73

(4) Release 2 latches, take off the bypass paper


sensor, and disconnect the connector. Bracket
Connector

Bypass paper sensor

Fig. 4-74

4.6.8 Bypass pickup solenoid (SOL1)

(1) Take off the bypass unit.


P.4-21 "4.6.1 Bypass unit"
(2) Remove 1 screw.

Bypass unit Screw

Fig. 4-75

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DISASSEMBLY AND REPLACEMENT
4 - 26
(3) Release the harness from the harness clamp
and slide the pickup solenoid with the spring
upward to take it off.
Note:
When installing the bypass pickup solenoid,
be sure to place the spring between the arm
and the solenoid.
Spring

4
Bypass pickup solenoid
Fig. 4-76

4.6.9 Bypass pickup clutch / Bypass feed clutch

(1) Take off the bypass unit.


P.4-21 "4.6.1 Bypass unit"
(2) Remove 1 E-ring, 1 bushing and 2 screws.
Then take off the 1 bracket and 2 gears.
Gear

Gear
Bracket
E-ring Bushing
Fig. 4-77

(3) Take off the bypass pickup clutch with its


shaft.

Bypass pickup clutch

Fig. 4-78

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


DISASSEMBLY AND REPLACEMENT
4 - 27
(4) Remove 2 E-rings. Then remove the gear,
cover, spring and cam out of the shaft. Cam E-ring
Spring Shaft
Cover

Gear
E-ring

Hook
Fig. 4-79

Note:
When assembling the bypass pickup clutch, Cam
be sure to adjust the position of the hook of Cover
the spring and cover so that the center slit of
the cover and the center of the cam are
aligned.

Spring

Fig. 4-80

(5) Remove 1 E-ring, and take off the bypass


feed clutch.

E-ring

Bypass feed clutch


Fig. 4-81

(6) Remove the gear, cover, spring and cap.


Cap

Cover

Spring

Gear

Fig. 4-82

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DISASSEMBLY AND REPLACEMENT
4 - 28
4.6.10 Damp heater unit (DH3) / Dummy plate
Notes:
• This damp heater unit is optional for NAD, CND and MJD.
• The dummy plate is attached to the equipment in which the damp heater unit is not installed.
To take it off, perform the procedure from step (3).

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover"
(2) Release the harness from the harness clamp
and disconnect the connector.
4

Connector

Fig. 4-83

(3) Take off the process unit.


P.4-37 "4.7.1 Process unit"
(4) Remove 1 screw and take off the damp
heater unit or dummy plate while sliding it to
the rear side and lifting it up.

Screw

Damp heater unit or


dummy plate
Fig. 4-84

4.6.11 Paper empty sensor (S7)

(1) Take off the drawer.


[2]
(2) Take off the damp heater unit or dummy [1]
plate.
P.4-29 "4.6.10 Damp heater unit (DH3) /
Dummy plate"
(3) Disconnect 1 connector [1], remove 1 screw,
and take off the bracket [2] of the paper
empty sensor.

Fig. 4-85

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DISASSEMBLY AND REPLACEMENT
4 - 29
(4) Release 2 latches and take off the paper
empty sensor [4] from the bracket [3]. [3]

[4]

Fig. 4-86

4.6.12 Main feed roller / Sub feed roller

(1) Take off the drawer.


[2] [1]
(2) Remove 2 clips [1].
(3) Slide the bushings [2] inside.
(4) Slide the feed roller [3] to the rear side, and
[3]
take it off while moving it to the front side.
(5) Remove 2 bushings [2].

[2]

Fig. 4-87

(6) Remove the fingers and take off the sub feed
rollers [4] and the parallel pins [5] (4 places) [5]

[4]

Fig. 4-88

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DISASSEMBLY AND REPLACEMENT
4 - 30
(7) Remove the clip [6].
(8) Take off the main feed roller [7] and the
parallel pin [8].
[8]

[7]

[6]

Fig. 4-89

4.6.13 Separation pad

(1) Take off the drawer.


(2) Take off the main feed roller and sub feed
roller. [1]
P.4-30 "4.6.12 Main feed roller / Sub feed
roller"
(3) Remove the separation pad [1].

Fig. 4-90

4.6.14 Registration clutch (CLT1)

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover" Registration roller holder
(2) Remove 2 screws and take off registration
roller holder.
Note:
When installing the registration roller holder,
engage the arm of the registration clutch with
the rotation stopper of the registration roller
holder.

Rotation stopper
Fig. 4-91

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DISASSEMBLY AND REPLACEMENT
4 - 31
(3) Release the harness from the harness
clamp, disconnect 1 connector and take off Registration clutch
the registration clutch.

Connector

Fig. 4-92

4.6.15 Pickup clutch (CLT2)

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover"
(2) Release the harness from 2 harness clamps
[1], and disconnect 1 connector [2].

[2]

[1]

Fig. 4-93

(3) Turn up the film [3].


(4) Remove the clip [4].
(5) Take off the pickup clutch [5].
Note:
[3]
When the pickup clutch is installed, hook the
rotation stopper of the clutch on the groove
of the frame.
[5]

[4]

Fig. 4-94

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DISASSEMBLY AND REPLACEMENT
4 - 32
4.6.16 Registration roller (rubber)

(1) Take off the transfer/separation charger.


P.4-44 "4.7.12 Transfer/Separation Registration roller (rubber)
charger"
(2) Remove 1 clip and take off 1 gear and the
registration roller (rubber) while sliding them
to the front side.

Clip
Fig. 4-95

(3) Remove 2 washers, 1 E-ring, 1 gear, and 1


pin from the registration roller. Washer

Gear

E-ring
Washer
Pin

Registration roller (rubber)

Fig. 4-96

4.6.17 Registration roller (metal)

(1) Take off the Process unit.


P.4-37 "4.7.1 Process unit" Clip
(2) Take off the transfer unit. Bushing
P.4-46 "4.7.14 Transfer unit"
(3) Take off the registration clutch.
P.4-31 "4.6.14 Registration clutch (CLT1)"
(4) Remove 1 clip, 1 bushing and then take off
the registration roller (metal) while sliding it to
the rear side.

Registration roller (metal)

Fig. 4-97

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DISASSEMBLY AND REPLACEMENT
4 - 33
(5) Remove 1 bushing, 1 E-ring and then take
off 1 gear and 1 pin. E-ring

Gear

Bushing

Pin

Registration roller (metal)

Fig. 4-98

4.6.18 Feed gear unit

(1) Take off the main motor drive unit.


P.4-19 "4.5.3 Main motor drive unit"
(2) Take off the registration clutch.
P.4-31 "4.6.14 Registration clutch (CLT1)"
(3) Remove 2 screws, and then take off the feed
gear unit.

Feed gear unit


Fig. 4-99

4.6.19 Drawer detection switch (SW5)

(1) Take off the damp heater unit or dummy


[1]
plate.
P.4-29 "4.6.10 Damp heater unit (DH3) /
Dummy plate"
(2) Release the latch [1], take off the bracket [2]
while lifting it up, and then disconnect the
connector [3].

[3] [2]

Fig. 4-100

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DISASSEMBLY AND REPLACEMENT
4 - 34
(3) Release the latch and take off the drawer
detection switch [5] from the bracket [4]. [4]

[5] 4

Fig. 4-101

4.6.20 Registration sensor (S4)

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover"
(2) Release the harness from the harness clamp
[1] and disconnect 1 connector [2].

[2]

[1]
Fig. 4-102

(3) Take off the damp heater unit or dummy


plate.
P.4-29 "4.6.10 Damp heater unit (DH3) /
Dummy plate"
(4) Take off the registration roller (metal).
P.4-33 "4.6.17 Registration roller (metal)"
(5) Remove 1 screw [3].

[3]
Fig. 4-103

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DISASSEMBLY AND REPLACEMENT
4 - 35
(6) Take off the registration guide [4] while lifting
it up. Release the latch and take off the
drawer detection switch bracket [5].
Note:
Be careful not to break the harness which
connects the registration guide unit with the
drawer detection switch when taking off the [5]
unit.

[4]

Fig. 4-104

(7) Take off the bracket of paper empty sensor.


P.4-29 "4.6.11 Paper empty sensor (S7)" [7]
(8) Release the harness from the harness
clamp, disconnect the connector [6], remove
3 screws, and then take off the registration
guide [7].

[6]

Fig. 4-105

(9) Remove the seal [8], release 2 latches, and


take off the registration sensor [9].

[9]

[8]

Fig. 4-106

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DISASSEMBLY AND REPLACEMENT
4 - 36
4.7 Drum Related Section

4.7.1 Process unit

(1) Open the ADU cover and transfer unit.


(2) Open the front cover and take off the toner for MJD
cartridge.
(3) Disconnect 1 connector. Loosen 2 screws
and pull out the process unit.

Process unit
Fig. 4-107

except for MJD

Process unit
Fig. 4-108

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DISASSEMBLY AND REPLACEMENT
4 - 37
Notes:
1. When installing the process unit, make
sure that the connector (harness) is not
caught under the developer unit.
2. When closing the drawer of the
equipment, make sure that the connector
(harness) is not caught.

Fig. 4-109

3. Make sure that the harness on the upper


part of the process unit does not contact
the frame of the equipment.

Fig. 4-110

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DISASSEMBLY AND REPLACEMENT
4 - 38
4.7.2 Drum cleaner unit

(1) Take out the process unit.


for MJD
P.4-37 "4.7.1 Process unit"
Connector
(2) Disconnect 2 connectors and remove 2
screws.
(3) Release 1 latch. Then pull out the process
unit front cover and take it off. Latch

Process unit front cover Connector


Fig. 4-111

except for MJD


Connector

Latch

Process unit front cover Connector


Fig. 4-112

Note:
When installing the process unit front cover, Harness
wire the harness correctly in order not to
contact the gears and harness of the process
unit front cover each other.

Process unit
front cover
Fig. 4-113

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DISASSEMBLY AND REPLACEMENT
4 - 39
(4) Lift up the drum cleaner unit and take it off.
Notes: Drum cleaner unit
1. Be careful not to touch or scratch the
drum surface at this time.

Fig. 4-114

2. Do not deform the guide mylar by


touching this.

Guide mylar

Fig. 4-115

4.7.3 Discharge LED (ERS)

(1) Take off the drum cleaner unit.


P.4-39 "4.7.2 Drum cleaner unit"
(2) Release 1 latch and take off the discharge
LED unit.
Note:
Be careful not to touch or scratch the drum
surface at this time.

Discharge LED unit Latch

Fig. 4-116

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DISASSEMBLY AND REPLACEMENT
4 - 40
(3) Release the harness from the harness clamp
and pull out the discharge LED.
Discharge LED

Fig. 4-117

4.7.4 Main charger

(1) Take off the discharge LED unit.


P.4-40 "4.7.3 Discharge LED (ERS)"
(2) Pull out the main charger and take it off by
sliding it to the rear side.
Note:
Be careful not to touch or scratch the drum
surface at this time.

Main charger

Fig. 4-118

4.7.5 Main charger grid

(1) Take off the main charger.


P.4-41 "4.7.4 Main charger"
Main charger grid
(2) Remove the spring and take off the main
charger grid.
Note:
Do not touch the mesh area of the grid.
Spring

Fig. 4-119

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DISASSEMBLY AND REPLACEMENT
4 - 41
4.7.6 Main charger cleaner

(1) Take off the main charger.


P.4-41 "4.7.4 Main charger"
Main charger cleaner
(2) Release the hook of the cleaning shaft. Then
rotate the shaft at 90 degrees to take it off.

Fig. 4-120

4.7.7 Needle electrode

(1) Take off the main charger grid and main


charger cleaner. Terminal cover
P.4-41 "4.7.5 Main charger grid"
P.4-42 "4.7.6 Main charger cleaner"
(2) Take off the terminal covers of both front and
rear sides.

Fig. 4-121

(3) Remove the terminal and spring. Then take


off the needle electrode. Needle electrode
Notes:
1. Do not touch the needle electrode directly
with bare hands.
2. Make sure not to hold or bend the needle Terminal
electrode.

Spring

Fig. 4-122

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DISASSEMBLY AND REPLACEMENT
4 - 42
4.7.8 Drum

(1) Take off the main charger.


P.4-41 "4.7.4 Main charger"
(2) Rotate the lever while pushing its latch and Drum
pull it out.
(3) Take off the drum.
Notes:
1. Be careful not to touch, spit or scratch the
drum surface.
2. Avoid direct light. Place the drum in a 4
dark place immediately after taking off.
3. Be careful not to touch or scratch the Lever
edge of the cleaning blade.

Fig. 4-123

4.7.9 Drum cleaning blade

(1) Take off the drum.


P.4-43 "4.7.8 Drum"
Drum cleaning blade
(2) Remove 2 screws and take off the drum
cleaning blade.
Note:
Be careful not to touch or scratch the edge of
the drum cleaning blade.

Fig. 4-124

4.7.10 Drum separation finger

(1) Take off the drum.


P.4-43 "4.7.8 Drum"
(2) Take off 2 drum separation finger units by
removing 1 screw each.
Note:
When replacing the drum separation fingers,
make sure that the drum has been taken off
first since the fingers may scratch the drum
surface.

Drum separation finger unit

Fig. 4-125

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DISASSEMBLY AND REPLACEMENT
4 - 43
(3) Take off the drum separation finger with the
spring. Drum separation finger
Note:
When the drum separation fingers have been
replaced, check if the pressure movement is
normal by moving them with your hands.

Spring

Fig. 4-126

4.7.11 Recovery blade

(1) Take off 2 drum separation finger units.


P.4-43 "4.7.10 Drum separation finger"
(2) Remove 2 screws, and take off the whole
recovery blade with the bracket.

Recovery blade

Fig. 4-127

4.7.12 Transfer/Separation charger

(1) Open the ADU cover and transfer unit.


Transfer/ Separation charger
(2) Release the latch and take off the transfer
and separation chargers.

Fig. 4-128

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DISASSEMBLY AND REPLACEMENT
4 - 44
4.7.13 Charger wire
* Length: 353 mm (tungsten wire), diameter: 0.06 mm

(1) Take off the transfer/separation charger.


P.4-44 "4.7.12 Transfer/Separation Separation supporter
charger"
(2) Release 9 latches and take off the separation
supporter.

Fig. 4-129

(3) Release 2 latches and take off the terminal


cover on the front side. Terminal cover
(4) Release 2 latches and take off the terminal
cover on the rear side.

Fig. 4-130

(5) Remove the terminal and spring. Then take


off the transfer charger wire. Cushioning material
(6) Remove the cushioning material, disconnect
the terminal and remove the spring. Then
take off the separation charger wire.
Terminal
Notes:
1. Insert the wire securely into the V-
grooves of the front and rear sides.
2. Do not twist the wire.
3. Do not touch the wire directly with bare Separation charger wire
hands. Spring
Transfer charger wire

Fig. 4-131

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DISASSEMBLY AND REPLACEMENT
4 - 45
4.7.14 Transfer unit
Note:
When taking off the transfer unit, take off the process unit first to prevent the drum from light.

(1) Open off the ADU cover.


(2) Take off 2 guides. Guide

Fig. 4-132

(3) Take off the transfer unit while pulling the


lever. Transfer unit

Fig. 4-133

(4) Remove 1 screw and take off the harness


cover. Screw

Harness cover

Fig. 4-134

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DISASSEMBLY AND REPLACEMENT
4 - 46
(5) Disconnect 1 connector.
Connector

Fig. 4-135

(6) Take off the transfer unit while lifting it up.

Transfer unit
Fig. 4-136

4.7.15 Ozone filter

(1) Open the ADU cover.


(2) Release 1 latch and take off the rear side
guide.

Guide
Fig. 4-137

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


DISASSEMBLY AND REPLACEMENT
4 - 47
(3) Remove 1 screw and take off the ozone filter
Ozone filter
cover.
(4) Take off the ozone filter.
Ozone filter cover

Fig. 4-138

4.7.16 Exhaust fan (M5)

(1) Take off the transfer unit.


P.4-46 "4.7.14 Transfer unit" Post transfer guide
(2) Take off the transfer/separation charger.
P.4-44 "4.7.12 Transfer/Separation
charger"
(3) Remove 1 screw and take off the post
transfer guide.

Fig. 4-139

(4) Remove 4 screws.

Fig. 4-140

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DISASSEMBLY AND REPLACEMENT
4 - 48
(5) Remove 1 strap, release the harness from
the harness clamp, and take off the exhaust Duct
fan with the duct.

Fig. 4-141

(6) Release the harness from the harness


clamp, remove the two-sided tape and take
Exhaust fan
off the exhaust fan.

Duct

Fig. 4-142

4.7.17 Temperature/humidity sensor (S3)

(1) Take off the left cover.


P.4-2 "4.1.3 Left cover"
(2) Disconnect 1 connector, remove 1 screw,
and then take off the temperature/humidity Temperature/
sensor. Humidity sensor

Fig. 4-143

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DISASSEMBLY AND REPLACEMENT
4 - 49
4.7.18 Toner cartridge interface PC board (CTIF)

(1) Take off the process unit.


P.4-37 "4.7.1 Process unit"
(2) Take off the inner tray.
P.4-1 "4.1.2 Inner tray" Connector
(3) Disconnect 1 connector, remove 1 screw and
then take off the toner cartridge interface PC
board.

Toner cartridge
interface PC board

Fig. 4-144

Note:
The installation position of the toner cartridge
interface PC board in the models for CND
differs from that of others. Connector

Toner cartridge
interface PC board

Fig. 4-145

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


DISASSEMBLY AND REPLACEMENT
4 - 50
4.8 Development System

4.8.1 Developer unit


Notes:
• Make sure to perform “05-280” and take off the process unit before the developer material is
replaced.
• When installing the developer unit, make sure that the harness on the upper side of the unit
does not touch the equipment.
• When installing the developer unit, make sure that the harness on the front side is not caught
in the drawer.
4

(1) Take off the Process unit.


P.4-37 "4.7.1 Process unit" Drum cleaner unit
(2) Take off the drum cleaner unit from the
process unit so that only the developer unit
will be left.
P.4-39 "4.7.2 Drum cleaner unit"
Notes:
1. Be careful not to touch or scratch the
drum surface at this time.

Developer unit

Fig. 4-146

2. Do not deform the Guide Mylar by


touching this.

Guide mylar

Fig. 4-147

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


DISASSEMBLY AND REPLACEMENT
4 - 51
Notes:
1. When installing the process unit, make
sure that the connector (harness) is not
caught under the developer unit.
2. When closing the drawer of the
equipment, make sure that the connector
(harness) is not caught.

Fig. 4-148

3. Make sure that the harness on the upper


part of the process unit does not contact
the frame of the equipment.

Fig. 4-149

4.8.2 Developer material

(1) Take out the developer unit


P.4-51 "4.8.1 Developer unit". Developer unit upper cover
(2) Remove 2 screws and slide the developer
unit upper cover to the direction of the arrow
and take it off.

Fig. 4-150

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DISASSEMBLY AND REPLACEMENT
4 - 52
Note:
When installing the developer unit upper
cover, make sure that the side seal comes
between the developer unit upper cover and Side seal
rubber seal on the cover.

Rubber seal

Developer unit 4
upper cover
Fig. 4-151

(3) Remove the developer material from rear


side.
Note:
When removing the developer material, be
careful not to drop the developer material on
the gears of the developer unit.

Fig. 4-152

4.8.3 Filling developer unit with developer material

(1) Rotate the gear on the rear side of the


developer unit to the direction of the arrow Lid
while filling the developer unit with the
developer material. Spread out the developer
material over the developer sleeve.

• Attach the nozzle as required.

Nozzle

Fig. 4-153

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DISASSEMBLY AND REPLACEMENT
4 - 53
4.8.4 Auto-toner sensor (S6)

(1) Remove the developer material.


P.4-52 "4.8.2 Developer material" Connector Auto toner sensor
(2) Place the developer unit upside down.
Disconnect 1 connector, release 1 latch, and
then rotate the auto toner sensor counter-
clockwise to take it off.

Fig. 4-154

4.8.5 Drum thermistor (THMS4)

(1) Remove the developer material.


P.4-52 "4.8.2 Developer material" Drum thermistor
(2) Disconnect 1 connector, remove 1 screw and
take off the drum thermistor.

Connector

Fig. 4-155

4.8.6 Guide roller / Developer sleeve

(1) Remove the developer material.


P.4-52 "4.8.2 Developer material"
(2) Remove 2 screws and take off the recovered
toner supply unit. Recovered toner
supply unit

Fig. 4-156

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DISASSEMBLY AND REPLACEMENT
4 - 54
(3) Remove 1 screw. Disconnect 1 connector
while taking off the recovered toner drive
unit. Remove 1 gear.

Connector

Gear
4
Recovered toner drive unit
Fig. 4-157

(4) Remove 2 plate springs fixing the doctor


sleeve on its both ends. Plate spring

Plate spring

Fig. 4-158

(5) Remove 2 screws on both ends of the doctor


sleeve and remove 2 coil springs. Coil spring Coil spring
Note:
When the screws on both ends of the doctor
sleeve are removed, be sure to adjust the
doctor sleeve gap (0.45±0.05 mm) after
assembling.
(Refer to Service Handbook Chap.3.9)

Screw Screw

Fig. 4-159

(6) Remove 1 screw and take off the polarity


adjustment lever.
Note:
Make a note of the position where the
polarity adjustment lever is pointing. (Mark
the position if needed.) When reassembling,
match the polarity adjustment lever with the
previously marked position on the scale.

Polarity adjustment lever

Fig. 4-160

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DISASSEMBLY AND REPLACEMENT
4 - 55
(7) Disconnect 2 connectors, remove 3 screws
and take off the bracket.

Connector

Bracket
Fig. 4-161

(8) Remove 1 E-ring and take off the guide roller


on the front side.

E-ring Guide roller

Fig. 4-162

(9) Remove 1 screw and the gear.

Gear

Fig. 4-163

(10) Remove 3 screws. Take off 1 bearing and the


bracket.
Bearing

Bracket
Fig. 4-164

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DISASSEMBLY AND REPLACEMENT
4 - 56
(11) Take off 4 gears and 1 timing belt.

Timing belt

4
Gear Gear
Fig. 4-165

(12) Remove 1 E-ring, 1 pin and 1 pulley.


(13) Take off the guide roller on the rear side.
Guide roller

Pulley

Pin
E-ring

Fig. 4-166

(14) Remove the seal on the front side. Remove 1


E-ring and 1 bushing. Seal

E-ring Bushing
Fig. 4-167

(15) Take off the developer sleeve.

Developer sleeve

Fig. 4-168

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DISASSEMBLY AND REPLACEMENT
4 - 57
4.8.7 Mixer

(1) Take off the developer sleeve.


P.4-54 "4.8.6 Guide roller / Developer
sleeve" Doctor sleeve
(2) Take off the doctor sleeve.

Fig. 4-169

(3) Remove 1 screw and take off the tensioner


bracket.
(4) Remove 2 screws and take off the holder.
Holder

Tensioner bracket
Fig. 4-170

(5) Remove 2 bushings and 2 oil seals from the


holder.
(Replacement of Oil seal: P.4-60 "4.8.8 Oil seal
Replacement of oil seal")

Bushing

Fig. 4-171

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DISASSEMBLY AND REPLACEMENT
4 - 58
(6) Take off the mixers-2 and -3.

Mixer-3

Mixer-2 4

Fig. 4-172

(7) Remove 2 bushings and 2 oil seals on the


rear side.
(Replacement of Oil seal: P.4-60 "4.8.8
Replacement of oil seal")
Oil seal

Bushing

Fig. 4-173

(8) Remove the end section of the mixer-1.


(9) Remove the bushing and oil seal. End section of mixer-1
(Replacement of Oil seal: P.4-60 "4.8.8
Replacement of oil seal")

Bushing Oil seal


Fig. 4-174

(10) Take off the mixer-1.

Mixer-1

Fig. 4-175

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DISASSEMBLY AND REPLACEMENT
4 - 59
(11) Remove the bushing on the rear side.
(12) Remove the oil seal.
(Replacement of Oil seal: P.4-60 "4.8.8
Replacement of oil seal")

Oil seal
Bushing

Fig. 4-176

4.8.8 Replacement of oil seal

(1) Insert a fine screwdriver into the depression


of the oil seal to take it out.
(2) Push in a new oil seal parallel to the frame or
bushing (shown figure at right). Inside Outside
(3) Apply the grease (Alvania No.2; amount of 2
rice grains) on entire surface of the oil seal
evenly. Grease
Note:
Wipe off the excessive grease.

Oil seal

Fig. 4-177

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


DISASSEMBLY AND REPLACEMENT
4 - 60
4.9 Fuser / Exit Unit
Note:
When disassembling the fuser unit or replacing any parts in it, be sure that the wire harness is
correctly set, and also be careful not to catch it between other parts.

a. Make sure that the terminal of the thermostat harness does not contact the metal plate.
b. Route the harness of the thermostat so that it is hooked on the notches of the rib.
c. Route the harnesses of the thermistor so that they are hooked on the housing as shown below.
d. Route the harnesses of the thermistor so that they are hooked on the housing as shown below.

4
a

c d

Fig. 4-178

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DISASSEMBLY AND REPLACEMENT
4 - 61
e. Route the AC harnesses so that they are hooked on the housing as shown below.

e AC harness

Fig. 4-179

f. When installing the cover of the fuser unit, make sure that the connector (harness) is not caught.

Fig. 4-180

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DISASSEMBLY AND REPLACEMENT
4 - 62
4.9.1 Fuser / Exit unit

(1) Take off the right rear cover.


Connector
P.4-4 "4.1.10 Rear cover"
(2) Lay down the transfer unit.
(3) Disconnect 3 connectors, remove 2 screws,
and then take off the fuser/paper exit unit. Screw
Note:
Be careful because the fuser/paper exit unit
is hot.
4

Fuser/ Paper exit unit Stepped screw


Fig. 4-181

4.9.2 Pressure roller unit / Fuser roller unit

(1) Take off the fuser/paper exit unit.


P.4-63 "4.9.1 Fuser / Exit unit" Spring
(2) Remove 1 spring and 2 screws.
(3) Separate the pressure roller unit from the Pressure roller unit
fuser roller unit.
Note:
If the ADU (optional) is installed, the spring
has already been removed.

Fuser roller unit


Fig. 4-182

Note:
Separate the pressure roller and the heat
roller while pressing the thermistor ground
leaf spring.

Thermistor ground leaf spring


Fig. 4-183

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DISASSEMBLY AND REPLACEMENT
4 - 63
4.9.3 Exit roller

(1) Take off the fuser roller unit.


P.4-63 "4.9.2 Pressure roller unit / Fuser
roller unit"
(2) Release the latch and take off the gear-A.

Gear-A

Fig. 4-184

(3) Take off the gear-B.

Gear-B

Fig. 4-185

(4) Remove the bracket.

Bracket

Fig. 4-186

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


DISASSEMBLY AND REPLACEMENT
4 - 64
(5) Remove 1 clip and 1 bushing.
(6) Take off the exit roller by sliding it to the rear Clip
side. Exit roller

Bushing

Fig. 4-187

4.9.4 Exit sensor (S5)

(1) Take off the fuser/paper exit unit.


P.4-63 "4.9.1 Fuser / Exit unit"
(2) Release the stopper using a flathead
screwdriver.

Stopper

Stopper

Fig. 4-188

(3) Open the guide and slide it to the front side.


Then slide its rear hinge downward.
Note:
Keep the guide being slid to the front side
during the steps (3) and (4).
1 2

Guide

Fig. 4-189

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DISASSEMBLY AND REPLACEMENT
4 - 65
(4) Close the guide, and then take off the guide
by sliding its rear hinge to the right side.

1 2

Fig. 4-190

(5) Remove 1 spring and take off the guide while


the guide is being slid to the rear side.

Guide
Spring
Fig. 4-191

(6) Remove the Mylar.


(7) Disconnect 1 connector, release 2 latches, Exit sensor
and then take off the exit sensor.

Connector

Mylar

Fig. 4-192

Note:
When installing the guide, secure the spring
to the hook of the fuser unit and the other
end of the spring to the guide.

Hook Spring Guide


Fig. 4-193

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DISASSEMBLY AND REPLACEMENT
4 - 66
4.9.5 Separation finger

(1) Take off the fuser roller unit.


P.4-63 "4.9.2 Pressure roller unit / Fuser
roller unit"
(2) Remove 3 screws and take off the sub guide.

4
Sub guide

Fig. 4-194

(3) Remove 5 springs from the hooks.


Fuser roller unit

Spring

Fig. 4-195

(4) Remove 5 drum separation fingers with the


springs.

Separation finger

Spring

Fig. 4-196

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DISASSEMBLY AND REPLACEMENT
4 - 67
4.9.6 Center heater lamp / Side heater lamp (LAMP1/LAMP2)

(1) Take off the fuser roller unit.


P.4-63 "4.9.2 Pressure roller unit / Fuser
roller unit"
(2) Remove 2 screws on each terminal of both
center heater lamp and side heater lamp.

Fig. 4-197

(3) Pull out the center heater lamp and side


heater lamp. Center heater lamp

Side heater lamp


Fig. 4-198

Notes:
Upper side : center heater lamp
• When installing the heater lamps, be sure
not to mix up the upper heater lamp and
the lower heater lamp.
Lower side : side heater lamp
The upper heater lamp has a coil wound
up on its center part, and the lower heater
lamp has coils wound up on its both
edges.
• When installing the heater lamps, be sure
to face up their weld sides.
• Do not touch the lamps directly with your
hands. Weld
• The connector on each end of the
harness which connects to the center Fig. 4-199
heater lamp has a small screw hole. The
connector on each end of the harness
which connects to the side heater lamp
has a big one.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


DISASSEMBLY AND REPLACEMENT
4 - 68
4.9.7 Fuser roller

(1) Take off the center heater lamp and the side
heater lamp.
P.4-68 "4.9.6 Center heater lamp / Side
heater lamp (LAMP1/LAMP2)"
(2) Take off the separation fingers.
P.4-67 "4.9.5 Separation finger"
(3) Take out the fuser roller upward.
Notes:
Fuser roller
• When installing the fuser roller, slide each 4
bushing on both edges of the roller
outward so that the bushings will engage
with the frame and the installation will be
secured.
• Do not apply force onto the roller because Fig. 4-200
it may be deformed.
(4) Remove 1 C-ring and 1 bushing on the front
side of the fuser roller. Bushing
(5) Remove 1 C-ring, 1 gear and 1 bushing on C-ring
the rear side of the fuser roller.

C-ring
Gear
Bushing

Fig. 4-201

4.9.8 Pressure roller

(1) Take off the pressure roller unit.


P.4-63 "4.9.2 Pressure roller unit / Fuser
roller unit"
(2) Remove 3 screws, and then take off the
fuser unit entrance guide.

Fuser unit entrance guide


Fig. 4-202

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DISASSEMBLY AND REPLACEMENT
4 - 69
(3) Remove 2 springs.
Note:
When installing the spring, be sure to hang
the spring on the upper hook.

Spring

Fig. 4-203

(4) Take off each 1 pressure lever on both front


and rear sides.
Pressure lever

Fig. 4-204

(5) Take off 2 bushings and then take off the


pressure roller while sliding the pressure Pressure roller
roller to the rear side.
Notes: Bushing
Bushing
• Do not drop the pressure roller when you
lift it up because it is quite heavy.
• Be sure to install the pressure roller from
the rear side (pressure roller ground plate
side) in order not to deform the pressure
roller ground plate.
Pressure roller
ground plate
Fig. 4-205

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


DISASSEMBLY AND REPLACEMENT
4 - 70
4.9.9 Center thermistor / Side thermistor / Edge thermistor (THMS1/
THMS2/THMS3)

(1) Take off the fuser roller.


P.4-69 "4.9.7 Fuser roller"
(2) Remove each 1 screw of the thermistors,
and then take off each thermistor by
releasing its harness out of the harness
clamp.
Thermistor
4

Fig. 4-206

Note:
When installing the thermistors, do not mix
up the installation positions of the side Edge thermistor
thermistor and the edge thermistor by telling Side thermistor
them apart by the length of their harnesses.

Center thermistor

Fig. 4-207

4.9.10 Fuser thermostat (THMO1)

(1) Take off the fuser roller.


P.4-69 "4.9.7 Fuser roller"
(2) Remove 2 screws and take off the fuser
thermostat. Fuser thermostat

Fig. 4-208

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DISASSEMBLY AND REPLACEMENT
4 - 71
4.9.11 Exit motor (M7): Option

(1) Take off the rear cover.


Bracket Connector
P.4-4 "4.1.10 Rear cover"
(2) Disconnect 1 connector, remove 1 screw,
and then take off the exit motor with the
bracket while sliding it toward the right.

Exit motor Screw


Fig. 4-209

(3) Release the harness from harness clamp,


remove 2 screws, and then takeoff the exit Exit motor
motor.

Bracket
Fig. 4-210

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


DISASSEMBLY AND REPLACEMENT
4 - 72
4.10 Automatic Duplexing Unit (ADU) (OPTION: MD-0103)

4.10.1 Automatic duplexing unit (ADU)

(1) Take off the right rear cover.


P.4-4 "4.1.9 Right rear cover" Connector
(2) Remove 1 screw and 1 ground wire.
(3) Disconnect 1 connector.

Ground wire
Fig. 4-211

(4) Open the transfer unit and release the ADU


stopper. ADU stopper
(5) Take off the ADU cover while sliding it toward
the right.

Fig. 4-212

(6) Remove 4 screws and take off the ADU.


Slit ADU stopper
Note:
ADU
When installing the ADU, be sure to put the
ADU stopper on the rear side through the
rear slit of the ADU.

Fig. 4-213

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DISASSEMBLY AND REPLACEMENT
4 - 73
4.10.2 ADU driving PC board (ADU)

(1) Take off the ADU.


P.4-73 "4.10.1 Automatic duplexing unit Latch
ADU driving PC board
(ADU)"
(2) Disconnect 2 connectors, release the latch
and take off the ADU driving PC board.

Fig. 4-214

4.10.3 ADU motor (M8)

(1) Take off the ADU.


P.4-73 "4.10.1 Automatic duplexing unit Connector
(ADU)"
(2) Disconnect 1 connector, remove 2 screws
and take off the ADU motor with the bracket.

ADU motor Bracket


Fig. 4-215

(3) Remove the gear.


(4) Remove 2 screws and take off the ADU Gear
motor.

ADU motor
Fig. 4-216

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DISASSEMBLY AND REPLACEMENT
4 - 74
4.10.4 Upper transport roller

(1) Take off the ADU.


P.4-73 "4.10.1 Automatic duplexing unit Pin Belt
(ADU)"
(2) Take off the ADU motor. Pulley
P.4-74 "4.10.3 ADU motor (M8)"
(3) Remove 2 E-rings, 2 pulleys and 2 pins, and
then take off the timing belt.

Pulley E-ring
Fig. 4-217

(4) Remove 1 E-ring, 1 gear and 2 bushings,


and then take off the upper transport roller. Upper transport roller
Bushing

E-ring

Gear Bushing
Fig. 4-218

4.10.5 Lower transport roller

(1) Take off the ADU.


P.4-73 "4.10.1 Automatic duplexing unit Pin Belt
(ADU)"
(2) Remove 2 E-rings, 2 pulleys and 2 pins, and Pulley
then take off the timing belt.

Pulley E-ring
Fig. 4-219

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DISASSEMBLY AND REPLACEMENT
4 - 75
(3) Remove 1 clip and 2 bushings, and then take
off the lower transport roller. Lower transport roller Bushing

Bushing
Clip
Fig. 4-220

4.10.6 Paper guide

(1) Open the ADU cover.


(2) Release 1 latch and take off the guide on the
front side.

Guide
Fig. 4-221

(3) Release 1 latch and take off the paper guide


Paper guide
while sliding it toward the font.

Latch

Fig. 4-222

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


DISASSEMBLY AND REPLACEMENT
4 - 76
4.11 Removal and Installation of Options

4.11.1 MR-2020 (Automatic document feeder (ADF)) /


MR-3023 (Reversing automatic document feeder (RADF))

(1) Turn the power OFF and unplug the power


cable.
(2) Remove 1 screw and take off the connector
cover.
4

Fig. 4-223

(3) Remove the ground wire.

Fig. 4-224

(4) Disconnect the connector.

Fig. 4-225

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DISASSEMBLY AND REPLACEMENT
4 - 77
(5) Remove 1 screw on the rear right side.

Fig. 4-226

(6) Remove the cover on the rear right side.

Fig. 4-227

(7) Remove 1 screw and 1 washer on the rear


left side.

Fig. 4-228

(8) Open the ADF/RADF.

Fig. 4-229

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DISASSEMBLY AND REPLACEMENT
4 - 78
(9) Remove 2 screws on the front side.

Fig. 4-230

(10) Slide the ADF/RADF backward and take off


by lifting it up.

Fig. 4-231

4.11.2 MY-1038 (Paper feed unit (PFU))

[D-1] When PFP is not installed

(1) Turn the power OFF and unplug the power


cable.
(2) Remove 1 screw and take off the PFU
connector cover.

Fig. 4-232

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DISASSEMBLY AND REPLACEMENT
4 - 79
(3) Remove the ground wire.

Fig. 4-233

(4) Disconnect the connector.

Fig. 4-234

(5) Install the PFU connector cover.

Fig. 4-235

(6) Take off the rear cover.


P.4-4 "4.1.10 Rear cover"
(7) Disconnect 1 connector (optional damp
heater). Release the harness from the
harness clamp.

Fig. 4-236

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DISASSEMBLY AND REPLACEMENT
4 - 80
(8) Take off the drawer of the equipment and
PFU drawer.

Fig. 4-237

(9) Remove 1 screw and take off 1 fixing bracket


on the front left side.

Fig. 4-238

(10) Remove 1 screw and take off 1 fixing bracket


on the front right side.

Fig. 4-239

(11) Remove 1 screw and take off 1 fixing bracket


on the rear left side.

Fig. 4-240

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DISASSEMBLY AND REPLACEMENT
4 - 81
(12) Remove 1 screw and take off 1 fixing bracket
on the rear right side.

Fig. 4-241

(13) Lift up the equipment and take off the PFU.

Fig. 4-242

[D-2] When PFP is installed

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover"
(2) Remove 1 ground wire and 2 connectors.

Fig. 4-243

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DISASSEMBLY AND REPLACEMENT
4 - 82
(3) Take off the equipment from the PFU.
P.4-79 "[D-1] When PFP is not installed"
(4) Take off the PFP drawer.

Fig. 4-244

(5) Remove 1 screw and take off 1 fixing bracket


on the front left side.

Fig. 4-245

(6) Remove 1 screw and take off 1 fixing bracket


on the front right side.

Fig. 4-246

(7) Remove 1 screw and take off 1 fixing bracket


on the rear left side.

Fig. 4-247

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DISASSEMBLY AND REPLACEMENT
4 - 83
(8) Remove 1 screw and take off 1 fixing bracket
on the rear right side.

Fig. 4-248

(9) Take off the PFU while lifting it up.

Fig. 4-249

4.11.3 KD-1022 (Paper feed pedestal (PFP))

(1) Take off the equipment and the PFU. Then


take off the PFP.
P.4-82 "[D-2] When PFP is installed"

Fig. 4-250

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


DISASSEMBLY AND REPLACEMENT
4 - 84
5. SELF-DIAGNOSTIC MODE

5.1 Overview
Self-diagnosis Modes
Mode For start Contents For exit
Adjustment mode [0]+[5]+ Adjusts various items. [POWER]
[POWER] OFF/ON
Setting mode [0]+[8]+ Sets various items. [POWER]
[POWER] OFF/ON
Function setting mode [1]+[3]+ Conducts OPE. PANEL TEST, PRINT TEST, [POWER]
[POWER] SENSOR TEST, OUTPUT TEST. OFF/ON
RAM clear mode [Specified RAM clear. [POWER]
keys]+ OFF/ON
[POWER]
5
Country/Region mode [0]+[2]+ Country/Region code. -
[POWER]

Test Modes
Mode For start Contents For exit
AUTO TEST Press the Use this mode to diagnose the equipment by READY:
[USER automatically performing a series of tests. Press the
INDIVIDUAL TEST FUNCTIONS] Use this mode to perform a test dialogically and [USER
button while locate a failure from the test result. FUNCTION
TEST RESULT LIST READY is Use this mode to print the results of "AUTO TEST" S] button.
indicated, and and "INDIVIDUAL TEST".
then press the Test Mode
FUNCTION TEST [*], [#], [*], [*] Use this mode to check each function of the Menu:
keys. equipment. Press the [*],
MAINTENANCE Use this mode to perform setups for Memory Clear, [#], [*], [*]
Fax, etc. keys.
SERVICE LIST Use this mode to Print PROTOCOL TRACE, TOTAL
ERROR, etc.
FUNCTION Use this mode to Print FUNCTION LIST.

Note:
To enter the desired mode, turn ON the power while two digital keys designated to each mode
(e.g. [0] and [5]) are pressed simultaneously.

[Power]ON

[0][2] [1][3][*] [0][5] [0][8] [1][3]


Country/Region RAM clear Adjust mode System mode Function test
code

"INT" "INT"

Warming up Test print Power OFF

"INT" : [INTERRUPT] key on.

Standby To user
Fig. 5-1

*1 Turn OFF the power after using the self-diagnosis modes, and leave the equipment to the user.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5-1
Menu map
The menu below can be selected by pressing the USER FUNCTIONS key. (However, the menu in the
broken-dotted box are displayed only when the copier enters the SERVICE MODE.)

Fig. 5-2

<Operation procedure>
• Adjustment mode (05): Refer to P.5-3 "5.2 Adjustment Mode (05)".
• Setting mode (08): Refer to P.5-6 "5.3 Setting Mode (08)".
• FUNCTION TEST (13): Refer to P.5-15 "5.4 Function Test"
• AUTO TEST: Refer to P.5-28 "5.5 AUTO TEST"
• INDIVIDUAL TEST: Refer to P.5-29 "5.6 INDIVIDUAL TEST"
• TEST RESULT LIST: Refer to P.5-30 "5.7 TEST RESULT LIST"
• MAINTENANCE: Refer to P.5-32 "5.9 MAINTENANCE"
• SERVICE LIST: Refer to P.5-35 "5.10 SERVICE LIST"
• FUNCTION: Refer to P.5-38 "5.11 FUNCTION (Jam counter ROM ver.)"
• RAM clear: Refer to P.5-40 "5.12 RAM Clear"
• Country/Region code: Refer to P.5-42 "5.13 Country/Region Code"

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5-2
5.2 Adjustment Mode (05)

Items in the adjustment mode list in the following pages can be corrected or changed in the
adjustment mode (05). Turn ON the power with pressing the digital keys [0] and [5] simultaneously
in order to enter this mode.

Classification List of Adjustment Mode (05)


Classification Adjustment Mode (05)
[Aligning amount] 354, 355
ADF/RADF
[Transporting] 357, 358, 365, 366
[Binarizing] 700, 701, 702
[Printer density] 667-0 to 4, 672-0 to 4, 676-0 to 4, 678-0 to 4
[Image density] 501, 503, 504, 505, 506, 507, 508, 509, 510, 512, 514, 515, 710, 714,
715, 719, 720, 724, 725, 729, 845, 846, 847, 850, 851, 852, 855, 856,
5
857, 860, 861, 862
[Gamma table] 609
[Gamma balance] 596-0 to 2, 597-0 to 2, 598-0 to 2, 599-0 to 2
[Gamma slope] 593, 594, 595
Image
[Background 600, 601, 602, 869, 870, 871
adjustment]
[Sharpness] 620, 621, 622, 623, 865-0 to 2, 866-0 to 2, 867-0 to 2
[Smudged/Faint text] 648, 654, 655
[Tonersaving] 664, 665
[Margin] 430, 431, 432, 433, 434-0 to 1, 435, 436, 437, 438
[Range correction] 532, 533, 534, 535, 536, 537, 570, 571, 572, 693, 694, 695, 820, 821,
822, 825, 826, 827, 830, 831, 832, 835, 836, 837
[Paper pushing 466-0 to 7
amount]
Paper feeding
[Aligning amount] 448-0 to 2, 449-0 to 2, 450-0 to 2, 451-0 to 2, 455-0 to 2, 458-0 to 2,
460-0 to 2, 461-0 to 2, 462-0 to 3, 463-0 to 2, 464-0 to 2, 474-0 to 2
[Exit motor] 424, 425
Drive
[Main motor] 421, 422
[Auto-toner] 200, 201
[Developer bias] 205
Development [Temperature] 270
[Relative humidity] 247
[Drum temperature] 248
[LED] 311, 312, 313, 314, 315, 316
[Position] 305, 306
[Carriage position] 359
Scanner [Shading position] 350, 351
[Reproduction ratio] 340
[Peak] 310, 317-1 to 6, 318-1 to 6
[Image shift] 341
Charger [Main charger bias] 210
Transfer [Transfer bias] 220, 221, 222
Separation [Separation bias] 233, 234, 235
Process [Toner recycle] 280
[Write starting] 410, 411, 440, 441, 442, 443, 444, 445, 498-0 to 1
[Polygonal motor] 401, 405, 1300-0 to 1
Laser
[Laser power] 286
[Sideways deviation] 497-0 to 5

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5-3
Note:
The density LED blinks while performing adjustment for the items which take time.
Be sure not to turn the power OFF nor perform any other operations while the density LED is
blinking.

Procedure 1
Stores
value in RAM
[ENTER]
[0][5] Code(MC) Adjust a value [POWER]
[ENTER]
[POWER] [Digital keys] [Digital keys] * OFF/ON
Does not store
value in RAM
[CANCEL]

* Press [#] to enter minus (-).

Procedure 2
[0][5] Code(MC) Sub code(SC)
[POWER] [ENTER] [ENTER]
[Digital keys] [Digital keys]

Stores
Adjust a value value in RAM
[Digital keys] * [ENTER] [POWER]
OFF/ON
Does not store
value in RAM
[CANCEL]

* Press [#] to enter minus (-).

Procedure 3
[0][5] Code(MC) Value [POWER]
[ENTER] [CANCEL]
[POWER] [Digital keys] displayed OFF/ON

Procedure 5

Stores
value in RAM
[0][5] Code(MC) Automatic [ENTER] [POWER]
[START] adjustment
[POWER] [Digital keys] OFF/ON
Does not store
value in RAM
[CANCEL]

Adjustment
Set manually
[-]/[+]

Note:
The fuser roller temperature control at the adjustment mode is different from that at the normal
state.
Therefore, the problem of fusing efficiency may be occurred in the test copy at the adjustment
mode. In that case, turn ON the power normally, leave the equipment for approx. 3 minutes after
it has become ready state and then start up the adjustment mode again.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5-4
Procedure 6

Error
[CANCEL]
[0][5] Code(MC) Automatic
[ENTER]
[POWER] [Digital keys] adjustment Does not store
value in RAM [POWER]
[CANCEL] OFF/ON

Procedure 7
[0][5] Code(MC) Adjust a value
[POWER] [ENTER] [ENTER]
[Digital keys] [Digital keys] *

5
Stores
Set manually value in RAM
[-]/[+] [ENTER] [POWER]
OFF/ON
Does not store
value in RAM
[CANCEL]

* Press [#] to enter minus (-).

Test print pattern in Adjustment Mode (05)

Procedure

[0][5] Test Code Drawer number [POWER]


[FAX] [START]
[POWER] [Digital keys] [Digital keys] OFF/ON
0: Bypass
1: Drawer
2: PFU
3: PFP upper drawer
4: PFP lower drawer

Test code Types of test pattern Remarks


1 Grid pattern Pattern width: 2 dots,
Pitch: 10mm
4 Solid black pattern (whole area) A3/LD

Refer to "Appendix" in this manual for the codes available in the adjustment mode 05.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5-5
5.3 Setting Mode (08)

The items in the setting code list can be set or changed in this setting mode (08).

Classification List of Setting Mode (08)


Classification Setting Mode (08)
RADF [Duplex copying] 685, 905
[Scanning pages in copier] 312-0 to 16, 327-0 to 2
[Scanning pages in 313-0 to 16, 329-0 to 2
scanning]
[Double count] 345, 346, 347, 348, 349, 352, 353
[Total Counter copy] 388, 389
[Total number of pages] 335-0 to 2
[Toner cartridge] 1410, 1567-0 to 4
[Scanning pages in FAX] 314-0 to 16, 328-0 to 2
Counter
[Transmitted/Received 315-0 to 16, 316-0 to 16, 330-0 to 2, 332-0 to 2
pages in FAX]
[Number of output pages] 305-0 to 16, 306-0 to 16, 307-0 to 16, 308-0 to 16,
320-0 to 2, 321-0 to 2, 322-0 to 2, 323-0 to 2
[External counter] 381
[Paper source] 356, 357, 358, 360, 370, 372, 374
[Fuser unit] 1372,1378,1380,1382
[Media type] 1385,1386,1388,1411
[Control status] 463, 465, 466
Scanner [Transmitting Email] 273
[Memory full] 1144
Data clear [SRAM] 1428
[AppleTalk] 1014, 1015
[Bindery] 1026
[Community] 1065, 1066
[DDNS] 1020
[Directory] 1028, 1029
[DNS] 1017, 1018, 1019
[E-mail] 1097, 1098, 1155, 1156
[Enable server’s] 1989, 1990, 1991, 1993, 1994, 1996
[FTP] 1055
Network
[HTTP] 1030, 1031, 1032
[IP Conflict] 1440
[IP Filter] 1960, 1961, 1962, 1963, 1964, 1965, 1966, 1967, 1968,
1969, 1970, 1971, 1972, 1973, 1974, 1975, 1976, 1977,
1978, 1979
[IP address] 1006, 1007, 1008, 1009, 1010
[IPP] 1078, 1079, 1080, 1081, 1082, 1083, 1084, 1085, 1086,
1087, 1088, 1447, 1448, 1449, 1450, 1451
[IPX] 1011, 1099
[LPD] 1075, 1076, 1077

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5-6
Classification Setting Mode (08)
[MAC address] 1141
[MIB] 1063
[NCP] 1013
[NDS] 1027
[NIC] 1002, 1003
[Novell] 1093, 1094
[NT Domain] 1123
[PCL] 973
[POP Before] 1111
[POP3] 1046, 1047, 1048, 1049, 1050, 1051, 1052
[Raw/TCP] 1073, 1074
[Raw Port] 945 5
[Raw printing] 290, 291, 292, 293, 296, 297, 298, 299, 978, 979
[Rendezvous] 1103
[Search Root] 1095
Network [SMTP] 1037, 1038, 1039, 1040, 1041, 1042, 1100, 1101, 1102
[TRAP] 1069, 1070
[Web data] 260
[WINS] 1024, 1025
[Internet FAX] 274, 1114, 1154
[Off ramp] 1043, 1044, 1045
[Service name] 1105
[Security type] 950, 951
[Direct SMTP] 1152, 1153
[Print queue] 1096
[Frame type] 1012
[Host name] 1112
[Link local host name] 1104
[Workgroup name] 1124
[Maximum data capacity] 265, 266
[Automatic transfer] 660, 661
[FROM] 921, 1951
[PFC] 906
[Controller ROM] 1952, 1954
Version [System] 900
[Scanner ROM] 1953, 1955
[Function data] 922
[Language data] 923
[Automatic transfer] 510
[Paper source] 643, 644, 689
FAX
[Reception display] 506, 692
[Reception setting] 507
[LED] 1913
[Auto-toner] 455
Image processing [Toner recycle] 838
[Drum life correction] 1628-0 to 1
[Temperature/Humidity] 839

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5-7
Classification Setting Mode (08)
[FSMS] 258
[HTTP] 726, 727, 728, 729, 730
[PM counter] 251, 252
[Error history] 253
Maintenance [Telephone number] 250
[Service notification] 702, 703, 707, 715, 716, 717, 718, 719, 720, 721, 723, 767,
769, 770, 771, 772, 773, 774, 775, 776, 780, 781, 782, 783,
784, 785, 786, 787, 788, 789, 790, 796
[Equipment number] 995
[Emergency Mode] 710, 711
[X in 1] 650
[Custom Mode] 631
[Copy volume] 300
[Jobs clear] 246
[Energy saving mode] 970
[Sorting] 641, 649
[Timer] 204, 205, 206
User interface [Template] 691
[File] 209, 219
[Book type] 611
[External counter] 202
[Administrator] 263
[Default setting] 276, 281, 283, 284, 285, 286, 603, 604, 618, 642
[Department management] 617
[Paper size] 261
[Toner] 972
[Polygonal motor] 483, 486
Laser
[Power correction] 872, 873, 875, 876, 877, 883, 884
[Error diffusion / Dither] 502
Image [Default setting] 538, 550
[Wide A4 mode] 1119
[Change of paper source] 481
[Paper setting] 632
[Retry] 482
[Paper feeding] 254, 255
[Default setting] 480
Paper feeding [Paper exit] 698, 699
[Paper size] 224, 225, 226, 227, 228
[Paper dimension] 229-0 to 1, 230-0 to 1, 231-0 to 1, 232-0 to 1, 233-0 to 1,
234-0 to 1, 235-0 to 1, 236-0 to 1, 237-0 to 1, 238-0 to 1,
239-0 to 1, 240-0 to 1, 241-0 to 1, 242-0 to 1, 244-0 to 1,
245-0 to 1, 337-0 to 1, 338-0 to 1, 339-0 to 1, 340-0 to 1,
341-0 to 1, 471-0 to 1
[Auto-toner] 414
Development
[Developer bias] 833, 834, 835, 836, 837, 857, 858, 859, 860, 861, 862, 863

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5-8
Classification Setting Mode (08)
[Enhanced bold] 1149
[Error report] 1143
[All clear] 669
[Copy/FAX screen shift] 986
[Reset] 655
[Database] 684, 686
[Nearly empty] 971
[Partition] 666
General
[Mode setting] 949
[Memory] 615
[Line] 203
[Initialization] 690, 693, 947, 1882 5
[Time differences] 638
[Restriction to 250 sheets 712, 713, 714
exiting]
[Department management] 672
Main charger bias [Main charger bias] 805, 806, 807, 808, 809, 814, 818, 819, 826, 864, 865, 866,
867
[Pre-running] 439, 440, 441, 523, 526
[Temperature] 404-0 to 3, 405-0 to 3, 407, 409, 410, 411, 413, 424-0 to 3,
425-0 to 3, 433-0 to 1, 437, 438, 448, 450, 451, 452, 453,
476-0 to 3, 515, 516, 520, 521, 525-0 to 3, 527-0 to 3,
Fuser
535-0 to 1, 536-0 to 3, 537-0 to 3, 539-0 to 3, 540-0 to 3,
541-0 to 3, 800-0 to 1, 801-0 to 1, 802-0 to 1, 804-0 to 1,
886, 896-0 to 1
[Status counter] 400
Transfer bias [Transfer bias] 830, 868, 869
Separation bias [Separation bias] 831, 870, 871

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5-9
Procedure 1
Stores
value in RAM
[ENTER]
[0][8] Code(MC) Adjust a value [POWER]
[ENTER]
[POWER] [Digital keys] [Digital keys] * OFF/ON
Does not store
value in RAM
[CANCEL]

* Press [#] to enter minus (-).

Procedure 2
[0][8] Code(MC) Sub code(SC)
[POWER] [ENTER] [ENTER]
[Digital keys] [Digital keys]

Stores
Adjust a value value in RAM
[Digital keys] * [ENTER] [POWER]
OFF/ON
Does not store
value in RAM
[CANCEL]

* Press [#] to enter minus (-).

Procedure 3
[0][8] Code(MC) Value [POWER]
[ENTER] [CANCEL]
[POWER] [Digital keys] displayed OFF/ON

Procedure 4

[0][8] Code(MC) Sub code(SC)


[POWER] [ENTER] [ENTER]
[Digital keys] [Digital keys]

Value [POWER]
[CANCEL]
displayed OFF/ON

Procedure 5
[0][8] Code(MC) Automatic [POWER]
[ENTER] processing [CANCEL]
[POWER] [Digital keys] OFF/ON

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 10
* Key in letters according to the letter conversion list below.

Letter Conversion List

Letter Key-code Letter Key-code Letter Key-code Letter Key-code

Fig. 5-3

Refer to "Appendix" in this manual for the codes available in the setting mode 08.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 11
<<PM management setting code>>
• The following items are displayed or set by using sub-codes at PM management setting in the table
below.

<Sub-codes>
0: Present number of output pages
- Means the present number of output pages.
1: Recommended number of output pages for replacement
- Means the recommended number of output pages for replacement.
3: Present driving counts
- Means the present drive counts (1 count = 2 seconds).
4: Recommended driving counts to be replaced
- Means the recommended drive counts for replacement (1 count = 2 seconds).
6: Present output pages for control
- Means the present number of output pages for controlling.
7: Present driving counts for control
- Means the present drive counts for controlling (1 count = 2 seconds).

Notes:
• Sub-code 3 is equivalent to sub-code 7.
When the value of sub-code 3 is changed, the value of sub-code 7 is also updated and vice
versa.
• Sub-code 0 is equivalent to sub-code 6.
When the value of sub-code 0 is changed, the value of sub-code 6 is also updated and vice
versa.
• When “0” is set at one of sub-codes 0, 3, 6 and 7, the rest of them are automatically updated
to “0”.

PM management setting
Items <Procedure 4> *Indicated in Remarks
8 digits
Upper Fuser roller bushing 361-0, 1, 3, 4, 6, 7 <Default values of code 361
(19 cpm / 22 cpm / 24 cpm)>
Sub-code 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Photoconductive drum 1150-0, 1, 3, 4, 6, 7 <Default values of code 1150
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Drum cleaning blade 1158-0, 1, 3, 4, 6, 7 <Default values of code 1158
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Drum separation finger 1172-0, 1, 3, 4, 6, 7 <Default values of code 1172
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Main charger grid 1174-0, 1, 3, 4, 6, 7 <Default values of code 1174
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 12
PM management setting
Items <Procedure 4> *Indicated in Remarks
8 digits
Needle electrode 1182-0, 1, 3, 4, 6, 7 <Default values of code 1182
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Ozone filter 1198-0, 1, 3, 4, 6, 7 <Default values of code 1198
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Developer material 1200-0, 1, 3, 4, 6, 7 <Default values of code 1200
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0 5
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Transfer charger wire 1214-0, 1, 3, 4, 6, 7 <Default values of code 1214
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Separation charger wire 1224-0, 1, 3, 4, 6, 7 <Default values of code 1224
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Fuser roller 1246-0, 1, 3, 4, 6, 7 <Default values of code 1246
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Pressure roller 1250-0, 1, 3, 4, 6, 7 <Default values of code 1250
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Fuser roller separation finger 1268-0, 1, 3, 4, 6, 7 <Default values of code 1268
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000
Sub paper feed roller 1290-0, 1 <Default values of code 1290
(Drawer) (19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 90,000/90,000/90,000
Sub paper feed roller (PFU) 1292-0, 1 <Default values of code 1292
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 90,000/90,000/90,000
Feed roller (Drawer) 1298-0, 1 <Default values of code 1298
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 90,000/90,000/90,000
Feed roller (PFU) 1300-0, 1 <Default values of code 1300
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 90,000/90,000/90,000
Separation pad (Drawer) 1306-0, 1 <Default values of code 1306
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 90,000/90,000/90,000

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 13
PM management setting
Items <Procedure 4> *Indicated in Remarks
8 digits
Separation pad (PFU) 1308-0, 1 <Default values of code 1308
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 90,000/90,000/90,000
Separation roller 1312-0, 1 <Default values of code 1312
(PFP upper drawer) (19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 80,000/80,000/80,000
Separation roller 1314-0, 1 <Default values of code 1314
(PFP lower drawer) (19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 80,000/80,000/80,000
Separation roller 1316-0, 1 <Default values of code 1316
(Bypass unit) (19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 90,000/90,000/90,000
Feed roller 1320-0, 1 <Default values of code 1320
(PFP upper drawer) (19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 80,000/80,000/80,000
Feed roller 1322-0, 1 <Default values of code 1322
(PFP lower drawer) (19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 80,000/80,000/80,000
Feed roller (Bypass unit) 1324-0, 1 <Default values of code 1324
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 90,000/90,000/90,000
Pickup roller 1328-0, 1 <Default values of code 1328
(PFP upper drawer) (19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 80,000/80,000/80,000
Pickup roller 1330-0, 1 <Default values of code 1330
(PFP lower drawer) (19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 80,000/80,000/80,000
Pickup roller (Bypass unit) 1332-0, 1 <Default values of code 1332
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0: 0/0/0
Sub-code 1: 90,000/90,000/90,000
Recovery blade 1336-0, 1, 3, 4, 6, 7 <Default values of code 1336
(19 cpm / 22 cpm / 24 cpm)>
Sub-codes 0, 3, 6, 7: 0/0
Sub-code 1: 81,000/90,000/90,000
Sub-code 4: 180,000/157,000/157,000

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 14
5.4 Function Test
The function test checks each function of the equipment. To enter the function test mode, follow the
procedure below, or enter the Service mode (*,#,*,*) and select the menu for the function test.

<Key used in operation> <Display messages>

1 3 Power ON

or Select test menu

ENTER
5
Fig. 5-4

The following tests can be conducted in the Function test mode.


[A] 01. OPE. PANEL TEST
[B] 02. PRINT TEST
[C] 03. MODEM TEST *1 (Factory test)
[D] 04. SENSOR TEST
[E] 05. SRAM TEST
[F] 06. DRAM TEST
[G] 07. CLOCK IC TEST
[H] 08. SCANNER TEST
[I] 09. CODEC TEST
[J] 10. OUTPUT TEST
[K] 11. PRINTER BOARD TEST *2
[L] 12. USB MEMORY TEST *2
[M] 13. CF TEST *3
*1: When the FAX kit (GD-1221) is not installed, the test is not present.
*2: When the Network Printer kit (GA-1192) is not installed, the test is not present.
*3: When the Scanner Upgrade kit (GA-1202) is not installed, the test is not present.
Remark:
While the function test is being performed, no error message, such as for a service call or paper
jam, will be displayed even though such might have occurred.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 15
[A] 01. OPE PANEL TEST
This test checks the control panel display. When any key other than START and CLEAR/STOP is
pressed during the display test, O and X are displayed alternately in the lower right of the display.

<Key used in operation> <Display messages>

1 3 Power ON

01.OPE. PANEL TEST Select test menu

ENTER All display dots keep


turning on and off alternatery
for one second each.
(All LEDs turn on.)

START The cursor moves (from the


upper left to the lower right).

CLEAR/STOP

Fig. 5-5

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 16
[B] 02. PRINT TEST
The test pattern is printed when a number is entered according to the displayed instructions.

<Key used in operation> <Display messages>

1 3 Power ON

02.PRINT TEST Select test menu

ENTER

5
Digital Keys Enter print code
P=

111
ENTER
Print code

Digital Keys Select paper cassette (C) 111


C=

ENTER
C
0: Bypass
1: Drawer
2: PFU
START 3: PFP upper drawer
4: PFP lower drawer

*1 *1: Be sure to press this key after printing starts.


CLEAR/STOP
(If this key is not pressed, the copier keeps printing)
Fig. 5-6

Refer to "Appendix" in this manual for the codes available in the 02. PRINT TEST mode.

[C] 03. MODEM TEST (Factory test)


Refer to the Service Handbook (GD-1220/1221).

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 17
[D] 04. SENSOR TEST
When the machine enters the SENSOR TEST Mode, the status of each sensor is indicated on the
display. The status can be checked by selecting the corresponding bit. (For items to be checked, refer
to the Sensor Test Items table.)

<Key used in operation> <Display messages>

1 3 Power ON

04.SENSOR TEST Select test menu

Bit
I1 7------0
ENTER

I9
or Display selection

S1

Cancel
P2

Fig. 5-7

• Explanation of status display


When the sensor test is carried out, the
status of each sensor is indicated on the Status display example
display with 0 or 1.
Each signal is divided into 8-bit blocks.
The character on the left edge of the
display indicates as follows: I I1 I2 I3
I: Signal input to the IO port I4 I5 I6
S: Signal from the scanner or R/ADF
P: Signal from the option connected I7 I8 I9
to the PFC

The display is switched using the or key. S S1 S2


S3 S4
P P1 P2

Fig. 5-8

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SELF-DIAGNOSTIC MODE
5 - 18
Example 1:
Confirm whether the front cover is open or
close. The front cover is equipped with the I6 Bit6
24-V ON/OFF switch (Interlock switch) and
the front cover switch. The status of both
switches is 1 when the cover is open, and 0
when it is close. When the status of the one
is 0 and that of the other is 1 as shown in the
example, there is something wrong with
either of these switches. I7 Bit3
Fig. 5-9

Front cover
Open Close
5
I6 bit 6 (Interlock switch) 1 0
I7 bit 3 (Front cover switch) 1 0

Refer to "Appendix" in this manual for the codes available in the 04. SENSOR TEST mode.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 19
[E] 05. SRAM TEST
The read/write test is performed throughout the image memory. The test checks the whole SRAM.
When an error is found, the address of the erroneous portion is displayed and the test is stopped.

<Key used in operation> <Display messages>

1 3 Power ON

05.SRAM TEST Select test menu

ENTER

Cancel

or

Fig. 5-10

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SELF-DIAGNOSTIC MODE
5 - 20
[F] 06. DRAM TEST
The read/write test is performed on the DRAM. When an error is found, the address of the erroneous
portion is displayed and the test is stopped.

<Key used in operation> <Display messages>

1 3 Power ON

06.DRAM TEST Select test menu

ENTER 5

Cancel

or

Fig. 5-11

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 21
[G] 07. CLOCK IC TEST
After programming the fixed date and time on the clock IC, the test reads the programmed date and
time and checks whether or not they are correct.

<Key used in operation> <Display messages>

1 3 Power ON

07.CLOCK IC TEST Select test menu

ENTER

or

Cancel

Fig. 5-12

[H] 08. SCANNER TEST


The read/write test is performed on the RAM built in the image processing LSI.

<Key used in operation> <Display messages>

1 3 Power ON

08.SCANNER TEST Select test menu

ENTER

or

Cancel

Fig. 5-13

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 22
[I] 09. CODEC TEST
The test encodes data of 10 lines using the MH coding, decodes it and compares it with the original
data.

<Key used in operation> <Display messages>

1 3 Power ON

09.CODEC TEST Select test menu

ENTER
5

or

Cancel

Fig. 5-14

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 23
[J] 10. OUTPUT TEST
This test checks the operation of the motor, clutch and fan separately.
This test can check the operations of two or more parts at the same time. For example, the motor is
tuned on while the clutch is on.

<Key used in operation> <Display messages>

1 3 Power ON

10.OUTPUT TEST Select test menu

Cancel
ENTER
C=

Digital Keys Enter test code 267

Cancel Test code

ENTER

C = 267
START Test start

Turn on or off by pressing


CLEAR/STOP Test stop START or CLEAR/STOP, respectively.

Fig. 5-15

Refer to "Appendix" in this manual for the codes available in the 10. OUTPUT TEST mode.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 24
[K] 11. PRINTER BOARD TEST
The test checks whether or not the printer board operates normally, by exchanging simple commands
with the network printer board.
<Key used in operation> <Display messages>

1 3 Power ON

11.PRINTER BOARD TEST Select test menu

ENTER

5
End of test

Cancel

or

Fig. 5-16

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SELF-DIAGNOSTIC MODE
5 - 25
[L] 12. USB MEMORY TEST
This test checks whether or not the USB media connected to the USB port (host) on the GA-1192
control PC board can be used.
<Key used in operation> <Display messages>

1 3 Power ON

12.USB MEMORY TEST Select test menu

ENTER

End of TEST

Cancel

or

Fig. 5-17

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 26
[M] 13. CF TEST
This test checks whether or not the compact flash of the GA-1202 operates normally.
<Key used in operation> <Display messages>

1 3 Power ON

13.CF TEST Select test menu

ENTER

5
End of TEST

Cancel

or

Fig. 5-18

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 27
5.5 AUTO TEST
This mode allows the user to independently diagnose the machine by automatically performing a
series of tests.

<Key used in operation> <Display messages>

USER FUNCTION Press the


USER FUNCTION key

05.TEST MODE Select menu

ENTER

01.AUTO TEST Select test menu

ENTER
It takes about 2 minutes to
finish TEST

End of TEST

Fig. 5-19

Test Items
a) Flash ROM test Calculates and compares the check sums of the firmware, function data and
language information with the previously stored corresponding check sum values.
b) SRAM test Same as Function Test.
c) DRAM test Same as Function Test.
d) MODEM test Same as Function Test.
e) CODEC test Same as Function Test.
f) Printer test Checks each part of the printer (fan, HVPS, polygon, heater, Laser optical unit) and
prints one page of test pattern (not performed when there is no paper).
g) Phonebook data test Calculates and compares the check sum of the phonebook with the previously
stored check sum value.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 28
5.6 INDIVIDUAL TEST
The user can perform a test in interactive mode and locate the faulty point from the test result. The test
result is printed in the form of a report.

<Key used in operation> <Display messages>

USER FUNCTION Press the


USER FUNCTION key

05.TEST MODE Select menu

ENTER
5

02.INDIVIDUAL TEST Select test menu

ENTER

Select item to be tested

Selected test is performed


ENTER

CANCEL

Fig. 5-20

Test Items
a) ADF test Transports and ejects originals to check the transport system. Transports and ejects
a certain number of originals and displays the number of the originals. The tester
checks that this value matches the number of the originals. A transport speed can be
selected with the resolution key.
b) Key test Press all the keys on the operation panel to check if they are detected normally. The
key test ends when the STOP key is pressed in the end. If there is any key which is
not detected when pressed before the STOP key is pressed, it will be judged to be
an error.
c) LED test When the test is performed, all the LEDs will come on. If there is any LED which is
not lit when visually checked, it will be judged to be an error.
d) LCD test All the dots on the display go off (turn black). When the Start key is then pressed, all
the dots light (turn white). If there is any dot which does not light or go off when
visually checked, it will be judged to be an error.
e) Speaker test Check that the volume level from the speaker changes.
f) Sensor test Sensor test.
Open and close the covers by following the guidance appearing on the display.
g) Printer test Checks the printer function by printing two test patterns.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 29
5.7 TEST RESULT LIST
Prints the results of P.5-28 "5.5 AUTO TEST" and P.5-29 "5.6 INDIVIDUAL TEST".

<Key used in operation> <Display messages>

USER FUNCTION Press the


USER FUNCTION key

05.TEST MODE Select menu

ENTER

03.TEST RESULT LIST Select test menu

ENTER

Print TEST RESULT LIST

Fig. 5-21

If there is any NG in the RESULT column, the corresponding test is problematic. An test with an
asterisk (*) cannot be executed unless the corresponding option is installed.

Fig. 5-22

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 30
5.8 FUNCTION TEST
The function test checks each function of the equipment.
<Key used in operation> <Display messages>

USER FUNCTION Press the


USER FUNCTION key

Enter SERVICE MODE

05.TEST MODE Select menu

ENTER 5

04.FUNCTION TEST Select test menu

ENTER

Select item to be tested

Selected test is performed


ENTER

End of TEST

Fig. 5-23

Procedure is same as that of P.5-15 "5.4 Function Test"

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 31
5.9 MAINTENANCE
[A] MEMORY CLEAR
There are two ways to perform memory clear; the power on while pressing the specified keys, and
partial memory clear by selecting items to be cleared from the menu.

<Key used in operation> <Display messages>

USER FUNCTION Press the


USER FUNCTION key

Enter SERVICE MODE

05.TEST MODE Select menu

ENTER

05.MAINTENANCE Select test menu

ENTER

01.MEMORY CLEAR Use or keys

ENTER

Select menu Use or keys

ENTER
After
approx. 2
seconds

Memory is cleared.

Fig. 5-24

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 32
RAM clear table
2. EXCEPT 3. ALL*1 (Same
1. PIX MEMORY
USER MEMORY as [1] + [3] + 4. USER AREA*1
[*]+[POWER]ON)
FUNC/SYSFUNC/UAD etc. Set default value Set default value
Adjustment mode (05)
Setting mode (08) Set default
value*e
Journal report data Clear Clear
Error data on FAX Clear Clear
communication
Protocol trace data Clear
Counter data *a
Drum related data *b 5
Dial data *c Clear Clear
One touch data Clear Clear
Department code data Clear Clear
Secure receive data Clear Clear
Station name Clear Clear
ID number Clear Clear
Password *d Clear Clear
Pending FAX job data Clear Clear Clear Clear
Stored JOB data Clear
*1: RAM clear may take more than 10 seconds. Note that the error (Broken Registration) results if the
power is turned off during RAM clear.
*a: Total Scan, Print jam, Job counter, Counter for each paper size
*b: Total Print, Drum counter, Toner counter, etc.
*c: One touch, Speed, Group etc.
*d: Polling Password
*e: Counter values and Process values of the 08 codes are not reset.

[B] SET FUNCTION


Refer to the Service Handbook (GD-1220/1221).

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 33
[C] MEMORY WRITE
You can refer to and change the data stored at each address in the SRAM and DRAM.
ADDRESS and DATA input it with hex data.
<Key used in operation> <Display messages>

USER FUNCTION Press the


USER FUNCTION key

Enter SERVICE MODE

05.TEST MODE Select menu

ENTER

05.MAINTENANCE Select test menu

ENTER

03.MEMORY WRITE Use or keys

CANCEL ENTER

Input ADDRESS Hex data entry method

ENTER

Input DATA

ENTER

Fig. 5-25

[D] ERR COUNTER SHIFT


Refer to the Service Handbook (GD-122/1221).

[E] PIX MEMORY TRANSFER


Refer to the Service Handbook (GD-1220/1221).

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 34
5.10 SERVICE LIST
This function allows you to print lists. There are four kinds of lists that can be printed.
• PROTOCOL TRACE *1
• TOTAL ERRORS *1
• FUNCTION (FUNC 05, 08 List)
• MEMORY DUMP

*1: To be printed when the FAX Kit (GD-1221) is installed.

<Key used in operation> <Display messages>

USER FUNCTION Press the


USER FUNCTION key
5
Enter SERVICE MODE

05.TEST MODE Select menu

ENTER

06.SERVICE LIST Select test menu

ENTER

Select list to be printed Use or keys

ENTER

Print list

Fig. 5-26

[A] PROTOCOL TRACE


Refer to the Service Handbook (GD-1220/1221).

[B] TOTAL ERRORS


Refer to the Service Handbook (GD-1220/1221).

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 35
[C] FUNCTION (FUNC, 05, 08 List)
This list is printed out with a title of SETTING REPORT FOR MAINTENANCE. It prints a list of present
function settings.

Print Items
• 1st Sheet
COUNTRY/REGION Country/Region code
FUNC 0 to 39 Prints the settings at this point of time in binary format.
PC FUNC 0 to 7
HOME 0 to 2
UAD 0 to 19
EX TYPE 1
ACC DGT 1 to 2

• 2nd Sheet
05 xxx Prints the set values at this point of time.
08 xxx
(xxx is code number.)

Fig. 5-27

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 36
[D] MEMORY DUMP LIST
A list of dumped RAM data is printed. Designate a start address (6-digit) and size (4-digit) and press
SET for printing.

Print Data
ADDRESS Memory dump start address. The last digit is always “0.” *1
HEX The data in memory is printed in hexadecimal. The last digit is always “0.” *2
ASCII Data obtained by converting the data in memory into ASCII code.
Note:
*1: The last digit is discarded when other than “0.”
*2: The last digit is rounded up when other than “0.”

Fig. 5-28

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SELF-DIAGNOSTIC MODE
5 - 37
5.11 FUNCTION (Jam counter ROM ver.)
Press the USER FUNCTIONS key and enter the SERVICE MODE. Then, select LISTS and print a
function list so that the user set information will be printed on the first sheet, and the jam counter on the
second sheet.
The same data as printed in Ch. [C] is printed on the third and fourth sheets.

<Key used in operation> <Display messages>

USER FUNCTION Press the


USER FUNCTION key

Enter SERVICE MODE

02.LISTS Select menu

ENTER

2.FUNCTION Use or keys

ENTER

Print list

Fig. 5-29

Print Data (PAGE:002)


JAM COUNTER Jam information
DOCUMENT Jammed original count
PAPER Total count of TYPE1 to 7
TYPE1 JAM Jam inside the equipment (at or near the paper feeding section)
TYPE2 JAM Jam inside the equipment (at or near the center section)
TYPE3 JAM Jam inside the equipment (at or near the paper exit section)
TYPE4 JAM Jam at the option (paper feed)
TYPE5 JAM Jam between the option and the equipment (at the transport path)
TYPE6 JAM Cover open jam (during copying)
TYPE7 JAM Other paper jams

FLASH ROM Version information


PROGRAM System firmware version <T22xSY0xxxx> and creation date
FUNCTION Function table data version <T22xSY1xxxx> and creation date
LANGUAGE Language data version <T22xSY2xxxx> and creation date
SCANNER Scanner (ADF/RADF) version <Vxxxx>

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 38
5

Fig. 5-30

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 39
5.12 RAM Clear
There are two methods to perform RAM clear: turning the power ON while pressing the specified keys,
and clearing the partial memory by selecting items to be cleared from the menu.

Follow the procedure below to clear the RAM by selecting items to be cleared from the menu,
Refer to P.5-32 "[A] MEMORY CLEAR"

< RAM clear by turning the power ON >


<Key used in operation> <Display messages>

Specified Keys Power ON *

Warming up

READY(Standby)

* : Continue pushing the key until "Please wait" message is displayed.


Moreover, do not turn off the power supply.
Fig. 5-31

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 40
RAM clear table
[START]+
[1]+[3]+[*]+ [1]+[3]+[#]+ [*]+[#]+ [0]+ [2]+ [1]+[2]+[*]+
[STOP]+
[POWER] *1.2 [POWER] *1 [POWER] *1 [POWER] [POWER] *3
[POWER] *1
FUNC/SYSFUNC/ Set default Set default Set default
UAD etc. value value value
Adjustment mode (05)
Setting mode (08) Set default Set default Set default
value*4 value*4 value*4
Journal report data Clear Clear Clear
Error data on FAX Clear Clear Clear
communication
Protocol trace data Clear Clear Clear Clear Clear
*a Clear
Counter data 5
Drum related data *b
Dial data *c Clear Clear Clear
One touch data Clear Clear Clear
Department code data Clear Clear
Secure receive data Clear Clear
Station name Clear Clear
ID number Clear Clear
Password *d Clear Clear
Pending FAX job data Clear Clear Clear
Stored JOB data Clear Clear Clear
*1: When RAM clear is performed, no message is indicated on the LCD.
Once RAM clear has been completed, “Please wait” appears on the LCD.
Note:
In the equipment with the Scanner Upgrade Kit (GA-1202) installed, do not turn the power OFF
within one minute after the message is changed from "Please wait" to "READY" when the RAM
clear is started by turning the power ON while pressing [1], [3] and [*] simultaneously.

*2: RAM clear may take more than 10 seconds. Note that the error (Broken Registration) results if the
power is turned off during RAM clear.
*3: When the TELBOOK board of the external keyboard (GJ-1160) has been installed, clear its RAM.
*4: Counter values and Process values of the 08 codes are not reset.
*a: Total Scan, Print jam, Job counter, Counter for each paper size
*b: Total Print, Drum counter, Toner counter, etc.
*c: One touch, Speed, Group etc.
*d: Polling Password

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


SELF-DIAGNOSTIC MODE
5 - 41
5.13 Country/Region Code
Setting for the country or region code
Input the code according to the following table.

Code (Default)
Model
e-STUDIO195/225/245
NAD 1
AUD 61
ASU/SYD/SAD 65
CND 86
ASD 852
TWD 886
ARD 9998
MJD 44

Important:
When the FAX kit (GD-1220/1221) is not installed, do not input the code except ones in the
above table.

<Key used in operation> <Display messages>

0 2 Power ON

Code No.
Cancel

ENTER
CLEAR/STOP or ( FC used to correct value)
START

Warming up

Fig. 5-32

Note:
When the FAX kit (GD-1220/1221) is installed, refer to the Service Handbook (GD-1220/1221).

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


SELF-DIAGNOSTIC MODE
5 - 42
6. ADJUSTMENT

6.1 Image related adjustment Order


This chapter explains the procedures for image related adjustment. When replacing components which
have other specified instructions for adjustment, those specified instructions are to be obeyed in
priority. In the following diagram, the solid lines with arrow lead to essential adjustments, while the
dotted lines lead to adjustments to be performed if necessary.

Parts to be replaced
Developer material Photoconductive drum Laser optical unit
Main charger grid Drum cleaning blade

Item to be adjusted Code in mode 05


6.2 Adjustment of the auto-toner sensor 200
6

6.3 Image dimensional adjustment


Order Items Code in mode 05
1 6.3.2 Paper
. alignment at the registration roller 450, 451, 458, 460,
461, 462, 463, 464

2 6.3.3 [A] Reproduction ratio of primary scanning direction 401


3 Printer [B] Primary scanning data laser writing start position 411
4 related [C] Reproduction ratio of secondary scanning direction 421
adjustment
5 [D] Secondary scanning data laser writing start position 440, 441, 442
6 6.3.4 [A] Reproduction ratio adjustment of the primary
405
Scanner scanning direction
7 related [B] Image position adjustment of the primary scanning
adjustment direction 306

8 [C] Reproduction ratio adjustment of the secondary


scanning direction 340
9 [D] Image position adjustment of the secondary
305
scanning direction
10 [E] Top margin 430
11 [F] Right margin 432
12 [G] Bottom margin 433

Item to be adjusted Code in mode 05


6.4.2 Gamma slope adjustment 593, 594, 595

Adjust the image quality if necessary. (Chapter 6.3, 6.4, 6.5, 6.6, 6.7 )

END
Fig. 6-1

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ADJUSTMENT
6-1
6.2 Adjustment of the Auto-Toner Sensor
When the developer material is replaced, adjust the auto-toner sensor in the following procedure.

<Procedure> (Adjustment Mode (05-200))

(1) Install the process unit into the equipment.


Note:
Do not install the toner cartridge.

(2) While pressing [0] and [5] simultaneously, turn the power ON.
The following message will be displayed.

[0][5]
[POWER]

Fig. 6-2

(3) Key in code [200] and press the [ENTER] button.


The display changes as follows and the “density LEDs” lights from the left in order.

[2][0][0] [ENTER]

Fig. 6-3

(4) After about 2 minutes, all the “density LEDs” light and a value in the DT column on the display
automatically starts changing.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6-2
6
Fig. 6-4

Note:
The output voltage of the auto-toner sensor (2.30 V in the above case).
The drum, developer unit, etc. are in operation.

(5) After a short time, the value in the DT column on the display becomes stable and all the “density
LEDs” are turned off.

(6) Check if the value in the DT column on the display is within the range of 232 to 248 (i.e. the
output voltage range of the auto-toner sensor is 2.32 V to 2.48 V.).

(7) If the value is not within the range of 232 to 248, press the Up or Down button to adjust the value
manually.

(8) Press the [ENTER] button.


The drum, developer unit, etc. are stopped and the following is displayed.

[ENTER]

Fig. 6-5

(9) Turn the power OFF.

(10) Install the toner cartridge.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6-3
6.3 Image Dimensional Adjustment

6.3.1 General description


There are several adjustment items in the image dimensional adjustment, as listed below. When
adjusting these items, the following adjustment order should strictly be observed.

Item to be adjusted Code in mode 05

1 Paper alignment at the registration roller 450, 451, 448, 449, 455, 474,
458, 460, 461, 462, 463, 464

2 Printer related (a) Reproduction ratio of primary scanning direction 401


adjustment (Fine adjustment of polygonal motor rotation
speed)

(b) Primary scanning data laser writing start position 411

(c) Reproduction ratio of secondary scanning 421


direction
(Fine adjustment of main motor rotation speed)

(d) Secondary scanning data laser writing start 441, 440, 442, 444, 445
position

3 Scanner related (a) Reproduction ratio of primary scanning direction 405


adjustment
(b) Image location of primary scanning direction 306

(c) Reproduction ratio of secondary scanning 340


direction

(d) Image location of secondary scanning direction 305

(e) Top margin 430

(f) Right margin 432

(g) Bottom margin 433

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6-4
[Procedure to key in adjustment values]
In accordance with the procedure described below, make adjustment of each adjustment item so that
the measured values obtained from test copies satisfy the specification.

<Operation keys> <Display>

[0][5]
[POWER]

1
[Digital keys] :Enter the code.

[ENTER] :Current adjustment


value is displayed.

[Digital keys] :Enter adjustment values.


([CLEAR] Use to make corrections) 6
[ENTER]

[INTERRUPT] :Move to the normal


mode.
READY
1
100% NONSORT
ZOOM FINISHING EDIT
Test copy

[INTERRUPT] :Move to the adjustment


mode.

If the test copy does not


satisfy the specified values,
return to step 1 and
repeat the adjustment
procedure.
[Power]
:Exit the Adjustment Mode.
OFF/ON
Fig. 6-6

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6-5
6.3.2 Paper alignment at the registration roller
The aligning amount is adjusted by using the following codes in Adjustment Mode (05).
PFP upper PFP lower
Paper type Weight Drawer PFU ADU Bypass feed
drawer drawer

Plain paper 64-80 g/m2 450 (*1) 451 (*1) 448 (*1) 449 (*1) 455 (*1) 458 (*1)
17-20 lb.

Thick paper 1 81-105g/m2 - - - - 474 (*1) 460 (*1)


21-28 lb.

Thick paper 2 106-163g/m2 - - - - - 461 (*1)


29-43 lb.

Thick paper 3 164-209g/m2 - - - - - 462 (*2)


44-55 lb.

OHP - - - - - - 463 (*3)

Envelope - - - - - - 464 (*4)

Sub-code
(*1) 0: Long size 1: Middle size 2: Short size
(*2) 0: Long size 1: Middle size 2: Short size 3: Post card
(*3) 0: Long size of OHP film 1: Middle size of OHP film 2: Short size of OHP film
(*4) 0: Long size of Envelope 1: Middle size of Envelope 2: Short size of Envelope

Notes:
1. Long size: 330 mm or longer (13.0 inches or longer)
Middle size: 220-239 mm (8.7-12.9 inches)
Short size: 219 mm or shorter (8.6 inches or shorter)
2. The adjustment of “Post card” is for Japan only.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6-6
<Procedure>

(1) Perform the test print according to the following procedure.

[0][5]
[POWER] (Code) [ENTER] (Sub-Code) [ENTER] ( Current
displayed )
value
( Enter
value )
new

[ENTER] [CANCEL] [4] [FAX] [Drawer number] [ENTER] [POWER]


(Stores in memory) < E.g. : C=1 for Drawer > OFF/ON
(Test print) (Exit)

(2) Check if any transfer void is occurring. If


there is a transfer problem, try the values in Transfer void
descending order as “31” “30” “29”···
until the transfer void disappears. At the
same time, confirm if any paper jam occurs.
Also, when the aligning amount has been
increased, this may increase the scraping
noise caused by the paper and the Mylar 6
sheet as it is transported by the registration
roller. If this scraping noise is annoying, try to
m
decrease the value. 00m
-1
mm
50

Fig. 6-7

(3) Perform the same procedure for all paper sources.

Note:
When paper thinner than specified is used, paper jams may occur frequently at the registration
section. In this case, it is advisable to change (or reduce) the aligning amount.
However, if the aligning amount is reduced too much, this may cause the shift of leading edge
position. So, when adjusting the aligning amount, try to choose the appropriate amount while
confirming the leading edge position is not shifted.
* As a tentative countermeasure, the service life of the feed roller can be extended by
increasing the aligning amount.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6-7
6.3.3 Printer related adjustment

[A] Reproduction ratio of primary scanning direction (Fine adjustment of polygonal motor
rotation speed (Printer))
<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment Mode)

(2) Press [1] [FAX] [Drawer number] (Select from 0: bypass, 1: drawer, 2: PFU, 3: PFP upper
drawer or 4: PFP lower drawer.) [START]. (A grid pattern with 10 mm squares is printed out.
Use A3/LD from standard drawer of the equipment.)

(3) Check the grid pattern on the test chart printed out and measure the distance A from the 1st line
to the 21st line of the grid pattern.

(4) Check if the distance A is within 200±0.5 mm.

(5) If not, use the following procedure to change values and measure the distance A again.

(Adjustment Mode) (Key in code [401]) [ENTER]


(Key in a value (acceptable values: 0 to 255))
[ENTER] (Stored in memory) [CANCEL] “MC” is displayed
Press [1] [FAX] Press [Drawer number] [START]
(A grid pattern is printed out.)
* The larger the adjustment value is, the longer the distance A becomes (approx. 0.125 mm/
step).

[B] Primary scanning data laser writing start position (Printer)


<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment Mode)

(2) Press [1] [FAX] [Drawer number] (Select from 0: bypass, 1: drawer, 2: PFU, 3: PFP upper
drawer or 4: PFP lower drawer.) [START]. (A grid pattern with 10 mm squares is printed out.
Use A3/LD from standard drawer of the equipment.)

(3) Check the grid pattern on the test chart printed out and measure the distance B from the left edge
of the paper to the 6th line of the grid pattern.

(4) Check if the distance B is within 52±0.5 mm.

(5) If not, use the following procedure to change values and measure the distance B again.

(Adjustment Mode) (Key in the code [411]) [ENTER]


(Key in a value (acceptable values: 0 to 255))
[ENTER] (Stored in memory) [CANCEL] “MC” is displayed
Press [1] [FAX] Press [Drawer number] [START]
(A grid pattern is printed out.)
* The larger the adjustment value is, the longer the distance B becomes (approx. 0.05 mm/
step).

(6) After the adjustment for the code 411 is completed, apply the same adjustment value for the
code 410.

(Adjustment Mode) (Key in the code [410]) [ENTER]


(Key in the same value in the step 5 above)
Press [ENTER] (Stored in memory).

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ADJUSTMENT
6-8
Note:
Make sure the first line of the grid pattern is printed out since the line is occasionally vanished.

[C] Reproduction ratio of secondary scanning direction (Fine adjustment of main motor
rotation speed (Copier/Printer))
<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment mode)

(2) Press [1] [FAX] [Drawer number] (Select from 0: bypass, 1: drawer, 2: PFU, 3: PFP upper
drawer or 4: PFP lower drawer.) [START]. (A grid pattern with 10 mm squares is printed out.
Use A3/LD from standard drawer of the equipment.)

(3) Check the grid pattern on the test chart printed out and measure the distance C from the 10th
line at the leading edge of the paper to the 30th line of the grid pattern.
* Normally, the 1st line of the grid pattern is not printed.
6
(4) Check if the distance C is within 200±0.5 mm.

(5) If not, use the following procedure to change values and measure the distance C again.

(Adjustment Mode) (Key in code [421]) [ENTER]


(Key in a value (acceptable values: 0 to 255))
[ENTER] (Stored in memory) [CANCEL] “MC” is displayed
Press [1] [FAX] Press [Drawer number] [START]
(A grid pattern is printed out.)
* The larger the adjustment value is, the longer the distance C becomes (approx. 0.125 mm/
step).

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ADJUSTMENT
6-9
[D] Secondary scanning data laser writing start position
This adjustment has to be performed for each paper source. (If there is no paper source, skip this step.)
The following table shows the order of the paper source to be adjusted, code, paper size and
acceptable values.

Order for Acceptable


Paper source Code Paper size Remarks
adjustment value

1 Drawer 440 A3/LD 0 to 40

2 PFU 441 A4/LT 0 to 40

3 PFP 444 A4/LT 0 to 15

4 Bypass feed 442 A4/LT 0 to 15

5 Duplexing 445 A3/LD 0 to 15 Paper fed from the drawer

<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment Mode)

(2) Press [1] [FAX] [Drawer number] (Select from 0: bypass, 1: drawer, 2: PFU, 3: PFP upper
drawer or 4: PFP lower drawer.) [START]. (A grid pattern with 10 mm squares is printed out.)

(3) Check the grid pattern on the test chart printed out and measure the distance D from the leading
edge of the paper to the 6th line of the grid pattern.
* Normally, the 1st line of the grid pattern is not printed.

(4) Check if the distance D is within 50±0.5 mm.

(5) If not, use the following procedure to change values and measure the distance D again.

(Adjustment Mode) (Key in the code shown above) [ENTER]


(Key in an acceptable value shown above)
[ENTER] (Stored in memory) [CANCEL] “MC” is displayed
Press [1] [FAX] Press [Drawer number] [START]
(A grid pattern is printed out.)
* The larger the adjustment value is, the longer the distance D becomes (approx. 0.4 mm/step).

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 10
1 21
A
6
B

D
6
10
Feeding direction

6
C
30

Fig. 6-8 Grid pattern

<Procedure>
[0] [5] [Power ON] [1] [FAX] [Drawer number] [START]
A: 05-401 (Drawer, A3/LD) 200±0.5 mm (0.125 mm/step)
B: 05-411 (Drawer, A3/LD) 52±0.5 mm (0.05 mm/step)
Key in the same value for 05-410.
C: 05-421 (Drawer, A3/LD) 200±0.5 mm (0.125 mm/step)
D: 05-440 (Drawer, A3/LD), 441 (PFU, A4/LT), 444 (PFP, A4/LT), 442 (Bypass feed, A4/LT),
445 (Duplexing, A3/LD) 50±0.5 mm(0.4 mm/step)

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 11
6.3.4 Scanner related adjustment

[A] Reproduction ratio adjustment of the primary scanning direction


<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON (Adjustment Mode)

(2) Place a ruler on the original glass (along the direction from the rear to the front of the equipment).

(3) Press the [INTERRUPT] button to enter the normal mode.

(4) Make a copy at the mode of A3 (LD), 100% and standard drawer of the equipment.

(5) Press the [INTERRUPT] button to enter the adjustment mode.

(6) Measure the distance A from 10 mm to 270 mm of the copied image of the ruler.

(7) Check if the distance A is within the range of 260±0.5 mm.

(8) If not, use the following procedure to change values and repeat the steps (3) to (7) above.

(Adjustment Mode) (Key in the code [405]) [ENTER]


(Key in a value (acceptable values: 0 to 255))
Press the [ENTER] button (stored in memory). [CANCEL] (“MC” is displayed.)
* The larger the adjustment value is, the higher the reproduction ratio and the longer the
distance A become (approx. 0.125 mm/step).
250
200

Copied image of the ruler


150

A
100
50

Feeding direction

Fig. 6-9

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 12
[B] Image position adjustment of the primary scanning direction
<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment Mode)

(2) Place a ruler on the original glass with its leading edge pushed against the rear side and its side
along the original scale on the left.

(3) Press the [INTERRUPT] button to enter the normal mode.

(4) Make a copy at the mode of A3 (LD), 100% and standard drawer of the equipment.

(5) Press the [INTERRUPT] button to enter the adjustment mode.

(6) Measure the distance B from the left edge of the paper to 10 mm of the copied image of the ruler.

(7) Check if the distance B is within the range of 10±0.5 mm.


6
(8) If not, use the following procedure to change values and repeat the steps (3) to (7) above.

(Adjustment Mode) (Key in the code [306]) [ENTER]


(Key in a value (acceptable values: 121 to 136))
Press the [ENTER] button (stored in memory: The density LED blinks.). [CANCEL]
(“MC” is displayed.)
* The smaller the adjustment value is, the more the image is shifted to the left and the distance
B become narrower (0.169 mm/step).
Be sure not to perform any operations while the density LED is blinking.
Copied image of the ruler
200
150
100
50

Feeding direction

Fig. 6-10

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 13
[C] Reproduction ratio adjustment of the secondary scanning direction
<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment Mode)

(2) Place a ruler on the original glass with its leading edge pushed against the original scale on the
left.

(3) Press the [INTERRUPT] button to enter the normal mode.

(4) Make a copy at the mode of A3 (LD), 100% and standard drawer of the equipment.

(5) Press the [INTERRUPT] button to enter the adjustment mode.

(6) Measure the distance C from 200 mm to 400 mm of the copied image of the ruler.

(7) Check if the distance C is within the range of 200±0.5 mm.

(8) If not, use the following procedure to change values and repeat the steps (3) to (7) above.

(Adjustment Mode) (Key in the code [340]) [ENTER]


(Key in a value (acceptable values: 76 to 181))
Press the [ENTER] button (stored in memory: The density LED blinks.). [CANCEL]
(“MC” is displayed.)
* The smaller the adjustment value is, the lower the reproduction ratio becomes (0.189 mm/
step).
Be sure not to perform any operations while the density LED is blinking.
Copied image of the ruler

50 100 150 200 250 300 350 400

Feeding direction

Fig. 6-11

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 14
[D] Image position adjustment of the secondary scanning direction
<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment Mode)

(2) Place a ruler on the original glass with its leading edge pushed against the original scale on the
left.

(3) Press the [INTERRUPT] button to enter the normal mode.

(4) Make a copy at the mode of A3 (LD), 100% and standard drawer of the equipment.

(5) Press the [INTERRUPT] button to enter the adjustment mode.

(6) Measure the distance D from the leading edge of the paper to 10 mm of the copied image of the
ruler.

(7) Check if the distance D is within the range of 10±0.5 mm. 6

(8) If not, use the following procedure to change values and repeat the steps (3) to (7) above.

(Adjustment Mode) (Key in the code [305]) [ENTER]


(Key in a value (acceptable values: 51 to 206))
Press the [ENTER] button (stored in memory: The density LED blinks.). [CANCEL]
(“MC” is displayed.)
* The larger the adjustment value is, the more the image is shifted to the trailing edge (0.064
mm/step).
Be sure not to perform any operations while the density LED is blinking.

Copied image of the ruler

10 20 30 40

Feeding direction

Fig. 6-12

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 15
[E] Top margin
<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment Mode)

(2) Press [4] [FAX] [PAPER FEED] (Select from 0: bypass, 1: drawer, 2: PFU, 3: PFP upper
drawer or 4: PFP lower drawer.) [START] (A solid black pattern (whole area) is printed out.
Print out 2 sheets in A3/LD size.).

(3) Place the paper printed out in step (2) to cover the whole area of the original glass.

(4) Press the [INTERRUPT] button to enter the normal mode.

(5) Make a copy at the mode of A3/LD, 100%, Text/Photo and standard drawer of the equipment.

(6) Press the [INTERRUPT] button to enter the adjustment mode.

(7) Measure the blank area E at the leading edge of the copied image.

(8) Check if the blank area E is within the range of 3 ± 0.5 mm.

(9) If not, use the following procedure to change values and repeat the steps (4) to (8) above.

(Adjustment Mode) (Key in the code [430]) [ENTER]


(Key in a value (acceptable values: 0 to 255))
Press the [ENTER] button (stored in memory). [CANCEL] (“MC” is displayed.)
* The larger the adjustment value is, the wider the blank area becomes (approx. 0.04 mm/
step).

Feeding direction

Fig. 6-13

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 16
[F] Right margin
<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment Mode)

(2) Press [4] [FAX] [PAPER FEED] (Select from 0: bypass, 1: drawer, 2: PFU, 3: PFP upper
drawer or 4: PFP lower drawer.) [START] (A solid black pattern (whole area) is printed out.
Print out 2 sheets in A3/LD size.).

(3) Place the paper printed out in step (2) to cover the whole area of the original glass.

(4) Press the [INTERRUPT] button to enter the normal mode.

(5) Make a copy at the mode of A3/LD, 100%, Text/Photo and standard drawer of the equipment.

(6) Press the [INTERRUPT] button to enter the adjustment mode.

(7) Measure the blank area F at the right side of the copied image. 6

(8) Check if the blank area F is within the range of 2±1.0 mm.

(9) If not, use the following procedure to change values and repeat the steps (4) to (8) above.

(Adjustment Mode) (Key in the code [432]) [ENTER]


(Key in a value (acceptable values: 0 to 255))
Press the [ENTER] button (stored in memory). [CANCEL] (“MC” is displayed.)
* The larger the adjustment value is, the wider the blank area at the right side becomes
(approx. 0.04 mm/step).

Feeding direction

Fig. 6-14

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ADJUSTMENT
6 - 17
[G] Bottom margin
<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON. (Adjustment Mode)

(2) Press [4] [FAX] [PAPER FEED] (Select from 0: bypass, 1: drawer, 2: PFU, 3: PFP upper
drawer or 4: PFP lower drawer.) [START] (A solid black pattern (whole area) is printed out.
Print out 2 sheets in A3/LD size.).

(3) Place the paper printed out in step (2) to cover the whole area of the original glass.

(4) Press the [INTERRUPT] button to enter the normal mode.

(5) Make a copy at the mode of A3/LD, 100%, Text/Photo and standard drawer of the equipment.

(6) Press the [INTERRUPT] button to enter the adjustment mode.

(7) Measure the blank area G at the trailing edge of the copied image.

(8) Check if the blank area G is within the range of 2±1.0 mm.

(9) If not, use the following procedure to change values and repeat the steps (4) to (8) above.

(Adjustment Mode) (Key in the code [433]) [ENTER]


(Key in a value (acceptable values: 0 to 255))
Press the [ENTER] button (stored in memory). [CANCEL] (“MC” is displayed.)
* The larger the adjustment value is, the wider the blank area at the trailing edge becomes
(approx. 0.04 mm/step).

Feeding direction

Fig. 6-15

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 18
6.4 Image Quality Adjustment (Copying Function)

6.4.1 Density adjustment


The center density and the density variation controlled by density adjustment keys can be adjusted as
follows.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

503 501 504 Manual density mode center The larger the value is, the darker the
value image becomes.
Acceptable values: 0 to 255

505 506 507 Manual density mode light The larger the value is, the lighter the
step value light side becomes.
Acceptable values: 0 to 255

508 509 510 Manual density mode dark The larger the value is, the darker the 6
step value dark side becomes.
Acceptable values: 0 to 255

514 512 515 Automatic density mode The larger the value is, the darker the
image becomes.
Acceptable values: 0 to 255

Make a test copy and compare the image obtained with the current settings; if necessary, make
adjustment using the following procedure.

<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON.

(2) Key in a code and press the [ENTER] button.

(3) Key in an adjustment value.


(To correct the keyed-in value, press the [CLEAR] button.)

(4) Press the [ENTER] button to store the value.

(5) Let the equipment restarted and perform copying job.

(6) If the desired image density has not been attained, repeat step (2) to (5).

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 19
6.4.2 Gamma slope adjustment
Gamma slope is adjustable with the following codes.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

593 594 595 Gamma slope adjustment 1 to 9: Select the gamma slope
angle. (The larger the value
is, the larger the angle
becomes.)

<Procedure>
Procedure is same as that of P.6-19 "6.4.1 Density adjustment".

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 20
6.4.3 Sharpness adjustment
If you want to make copy images look softer or sharper, perform the following adjustment.
< Adjustment Mode (05) >
Original mode

Text/ Photo Item to be adjusted Remarks


Photo Text
Photo (Dither)

620 621 622 623 Sharpness adjustment Key in the following values
depending on the original mode.
One’s place
Selecting a filter shape
Ten’s place
0: Use Default value
1 to 9: Change intensity
(The larger the value is, the sharper
the image becomes.)
• Example of value entry in case
the mode is “Text/Photo”.
21
6
Fixed value for Text/
Photo mode
Key in a value 0 to 9
Note:
When the value “0” is keyed
in at the ten’s digit, the value
is not displayed on LCD
screen.

Make a test copy and compare the image obtained with the current settings; if necessary, make
adjustment using the following procedure.

<Procedure>
Procedure is same as that of P.6-19 "6.4.1 Density adjustment".

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 21
6.4.4 Setting range correction
The values of the background peak / text peak in the range correction can be switched to “varied” or
“fixed” in the following codes.
If they are fixed, the range correction is performed with standard values.
The values of the background peak affect the reproduction of the background density and the values of
the text peak affect that of the text density.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

570 571 572 Range correction for original The following are the default values
manually set on the original set for each original mode.
glass Text/Photo: 12, Photo: 12, Text: 22
Each digit stands for:
693 694 695 Range correction for original One’s place: Automatic density mode
set on the ADF Ten’s place: Manual density mode
The setting conditions possible are
as follows:
Background peak Text peak
1: fixed fixed
2: varied fixed
3: fixed varied
4: varied varied

Make a test copy and compare the image obtained with the current settings; if necessary, make
adjustment using the following procedure.

<Procedure>
Procedure is same as that of P.6-19 "6.4.1 Density adjustment".

6.4.5 Setting range correction (Adjustment of background peak)


The levels of the background peak for the range correction can be set at the following codes.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

532 533 534 Background peak for range When the value increases, the
correction background (low density area) of the
image is not output.
Acceptable values: 0 to 255
(Default: Text/Photo: 32, Photo: 22,
Text: 46)

Make a test copy and compare the image obtained with the current settings; if necessary, make
adjustment using the following procedure.

<Procedure>
Procedure is same as that of P.6-19 "6.4.1 Density adjustment".

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 22
6.4.6 Setting range correction (Adjustment of text peak)
The levels of the text peak for the range correction can be set at the following codes.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

535 536 537 Text peak for range correction When the value is increased, text
(high image density part) becomes
lighter.
Acceptable values: 0 to 255
(Default: text/photo: 246, photo: 254,
text: 236)

* The image changes slightly in text mode because it is treated as a simple binary format image.

<Procedure>
Procedure is same as that of P.6-19 "6.4.1 Density adjustment".
6

6.4.7 Adjustment of smudged/faint text


The smudged/faint text can be set at the following codes.

< Adjustment Mode (05) >


Original mode
Item to be adjusted Remarks
Text/Photo

648 Adjustment of smudged/faint When the value increases, the faint text is improved.
spotted text When the value decreases, the smudged text is
improved.
Acceptable values: 0 to 4 (Default: 3)
Note:
Remember the image specifications and life
span of the replacing parts may not meet the
standard when the setting value is changed
from the default value.

Make a test copy and compare the image obtained with the current settings; if necessary, make
adjustment using the following procedure.

<Procedure>
Procedure is same as that of P.6-19 "6.4.1 Density adjustment".

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 23
6.4.8 Adjustment of image density
The image density level can be set at the following codes.
< Adjustment Mode (05) >
Code Item to be adjusted Remarks

667-0 to 4 Adjustment of image density When the value is decreased, text becomes lighter.
Acceptable values: 0 to 63
Notes:
1. Set not to reverse the large and small
number of the setting value corresponding
to the sub code.
Ex.) When the image density level for 667-0,
667-1, 667-2, 667-3, and 667-4 is assumed
to be "A", "B", "C", "D", and "E" respectively,
they should have the following correlation:
A≤B≤C≤D≤E
2. Remember that the image specifications
and life span of the replacing parts may not
meet the standard when the setting value is
changed from the default value.

<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON.

(2) Key in the code “667” and press the [ENTER] button.

(3) Key in the sub code (0, 1, 2, 3 or 4), and press the [ENTER] button.

(4) Key in an adjustment value.


(To correct the keyed-in value, press the [CLEAR] button.)

(5) Press the [ENTER] button to store the value in memory.

(6) For resetting the value, repeat step (2) to (5).

(7) Turn the power OFF and then back ON to perform printing job.

(8) If the desired image density has not been attained, repeat step (2) to (7).

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 24
6.5 Image Quality Adjustment (Printing Function)

6.5.1 Adjustment of smudged/faint text


The smudged/faint text can be set at the following codes.
< Adjustment Mode (05) >
Language
Remarks
PS PCL

654 655 When the value increases, the smudged text is improved. When the value
decreases, the faint text is improved.
Acceptable values: 0 to 9 (Default: 5)

<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON.
6
(2) Key in a code and press the [ENTER] button.

(3) Key in an adjustment value.


(To correct the keyed-in value, press the [CLEAR] button.)

(4) Press the [ENTER] button to store the value in memory.

(5) Turn the power OFF and then back ON to perform printing job.

(6) If the desired text density has not been attained, repeat step (2) to (5).

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 25
6.5.2 Adjustment of image density
The image density level can be set with the following codes.
< Adjustment Mode (05) >
Language
Item to be adjusted Remarks
GDI PS/PCL

672-0 to 4 676-0 to 4 Adjustment of image density When the value is decreased, text becomes
lighter.
Acceptable values: 0 to 63
Notes:
1. Set not to reverse the large and
small number of the setting value
corresponding to the sub code.
Ex.) When the image density
level for 672-0, 672-1, 672-2,
672-3, and 672-4 is assumed to
be "A", "B", "C", "D", and "E"
respectively, they should have the
following correlation:
A≤B≤C≤D≤E
2. Remember that the image
specifications and life span of the
replacing parts may not meet the
standard when the setting value
is changed from the default value.

The image density level of the received FAX printing and List printing can be set with the following
codes.
< Adjustment Mode (05) >
Code Item to be adjusted Remarks

678-0 to 4 Received FAX Printing/List When the value is decreased, text becomes lighter.
printing Adjustment of image Acceptable values: 0 to 63
density Notes:
1. Set not to reverse the large and small
number of the setting value corresponding
to the sub code.
Ex.) When the image density level for 678-0,
678-1, 678-2, 678-3, and 678-4 is assumed
to be "A", "B", "C", "D", and "E" respectively,
they should have the following correlation:
A≤B≤C≤D≤E
2. Remember that the image specifications
and life span of the replacing parts may not
meet the standard when the setting value is
changed from the default value.

<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON.

(2) Key in a code and press the [ENTER] button.

(3) Key in the sub code (0, 1, 2, 3 or 4), and press the [ENTER] button.

(4) Key in an adjustment value.


(To correct the keyed-in value, press the [CLEAR] button.)

(5) Press the [ENTER] button to store the value in memory.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 26
(6) For resetting the value, repeat step (2) to (5).

(7) Turn the power OFF and then back ON to perform printing job.

(8) If the desired image density has not been attained, repeat step (2) to (7).

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 27
6.5.3 Gamma balance adjustment
The gamma balance is adjusted by adjusting the density at the Black Mode. The adjustment is
performed by selecting its density area from the following: low density, medium density and high
density.
< Adjustment Mode (05) >
Language and screen

Photo Text Photo Text Item to be adjusted Remarks


(PS) (PS) (PCL) (PCL)

596-0 597-0 598-0 599-0 Low density The larger the value is, the
density of the item to be
596-1 597-1 598-1 599-1 Medium density adjusted becomes darker.
Acceptable values:
596-2 597-2 598-2 599-2 High density 0 to 255. (Default: 128)

<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON.

(2) Key in the codes to be adjusted (language and screen) and press the [ENTER] button.

(3) Key in the value corresponding to the density area to be adjusted (0, 1 or 2) and press the
[ENTER] button.
0: Low density (L) 1: Medium density (M) 2: High density (H)

(4) Key in the adjustment value. (To correct the value once keyed in, press [CLEAR] button.)

(5) Press the [ENTER] button to store the value in memory.

(6) For resetting the value, repeat step (2) to (5).

(7) Let the equipment restart and perform printing job.

(8) If the image density has not been attained, repeat step (1) to (7).

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 28
6.6 Image Quality Adjustment (Scanning Function)

6.6.1 Density adjustment


Adjusts the center density and the variation of density adjustment button.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

845 847 846 Manual density mode center The larger the value is, the darker the
value image becomes.
Acceptable values: 0 to 255

850 852 851 Manual density mode light The larger the value is, the lighter the
step value light side becomes.
Acceptable values: 0 to 255

855 857 856 Manual density mode dark The larger the value is, the darker the
step value dark side becomes. 6
Acceptable values: 0 to 255

860 862 861 Automatic density mode The larger the value is, the darker the
image becomes.
Acceptable values: 0 to 255

<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON.

(2) Key in a code and press the [ENTER] button.

(3) Key in an adjustment value.


(To correct the keyed-in value, press the [CLEAR] button.)

(4) Press the [ENTER] button to store the value.

(5) Turn the power OFF and then back ON to perform scanning job.

(6) If the desired image density has not been attained, repeat step (2) to (5).

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 29
6.6.2 Sharpness adjustment
If you want to make scan images look softer or sharper, perform the following adjustment.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

865-0 867-0 866-0 Reproduction ratio: Key in the following values


25% to 40% depending on the original mode.
One’s place
865-1 867-1 866-1 Reproduction ratio: Selecting a filter shape
41% to 80% Ten’s place
0: Use Default value
865-2 867-2 866-2 Reproduction ratio: 1 to 9: Change intensity
81% to 400% • The larger the value is, the
sharper the image becomes.)
• Example of value entry in case
the mode is “Text/Photo”.

21
Fixed value for Text/
Photo mode
Key in a value 0 to 9

Note:
When the value “0” is keyed in
at the ten’s digit, the value is
not displayed on LCD screen.

<Procedure>

(1) While pressing [0] and [5] simultaneously, turn the power ON.

(2) Key in a code and press the [ENTER] button.

(3) Key in the sub code (0,1 or 2), and press the [ENTER] button.

(4) Key in an adjustment value.


(To correct the keyed-in value, press the [CLEAR] button.)

(5) Press the [ENTER] button to store the value in memory.

(6) For resetting the value, repeat step (2) to (5).

(7) Turn the power OFF and then back ON to perform scanning job.

(8) If the desired image density has not been attained, repeat step (2) to (7).

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 30
6.6.3 Setting range correction
The values of the background peak / text peak in the range correction can be switched to “varied” or
“fixed” in the following codes.
If they are fixed, the range correction is performed with standard values.
The values of the background peak affect the reproduction of the background density and the values of
the text peak affect that of the text density.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

825 827 826 Range correction for original The following are the default values
manually set on the original set for each original mode.
glass Text/Photo: 12, Photo: 12, Text: 12
Each digit stands for:
830 832 831 Range correction for original One’s place: Automatic density mode
set on the RADF Ten’s place: Manual density mode
The setting conditions possible are
as follows: 6
Background peak Text peak
1: fixed fixed
2: varied fixed
3: fixed varied
4: varied varied

<Procedure>
Procedure is same as that of P.6-29 "6.6.1 Density adjustment".

6.6.4 Setting range correction (Adjustment of background peak)


The levels of the background peak for the range correction can be set at the following codes.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

835 837 836 Background peak for range When the value increases, the
correction background (low density area) of the
image is not output.
Acceptable values: 0 to 255
(Default: text/photo: 32, photo: 16,
text: 46)

<Procedure>
Procedure is same as that of P.6-29 "6.6.1 Density adjustment".

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 31
6.6.5 Setting range correction (Adjustment of text peak)
The levels of the text peak for the range correction can be set at the following codes.
< Adjustment Mode (05) >
Original mode
Item to be adjusted Remarks
Text/Photo Photo Text

820 822 821 Text peak for range correction When the value is increased, text
(high image density part) becomes
lighter.
Acceptable values: 0 to 255
(Default: text/photo: 246, photo: 254,
text: 236)

* The image changes slightly in text mode because it is treated as a simple binary format image.

<Procedure>
Procedure is same as that of P.6-29 "6.6.1 Density adjustment".

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 32
6.7 Adjustment of High-Voltage Transformer
When replacing the high-voltage transformer, checking each output adjustment of main charger,
developer bias, transfer charger and separation charger is needed.

6.7.1 Adjustment

[ 1 ] Preparation

Transfer Separation
Items to check Developer Bias Main Charger
Charger Charger

Process Unit Take off from the equipment. (Not used)

High-Voltage Transformer Jig Install the high-voltage transformer jig in the equipment.
Note:
Connect the green cable of the high-voltage transformer jig to ground on
the equipment frame. Refer to P.6-34 "[A] Installation of the high- 6
voltage transformer jig".

Digital (+) terminal Connect with the black Connect with the red Connect with the red cable
Tester cable of the high- cable (thick line) of the (thin line) of the high-voltage
voltage transformer jig. high-voltage transformer jig.
transformer jig.

(–) terminal Connect with the white cable of the high-voltage transformer jig.

Function switch DC

Full-scale (range) 1000 V 2V

Remarks Use a digital tester with an input resistance of 10 MΩ (RMS value) or higher.

How to turn ON the power Attach the door switch jig and start with the adjustment mode [05] while the front
cover opened. Then press the front cover opening/closing switch.

Note Refer to P.6-36 "[B] Refer to P.6-36 "[C] Refer to P.6-37 "[D]
Connection for Connection for main Connection for transfer/
developer bias charger adjustment". separation charger
adjustment". adjustment".

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 33
[A] Installation of the high-voltage transformer jig

(1) Open the bypass tray, ADU and transfer


cover.
(2) Open the front cover and take off the toner
cartridge.
(3) Disconnect 1 connector. Loosen 2 screws
and pull out the process unit.
Note:
Be careful not to let the connector and the
harness be caught when installing the
process unit after adjustment.

Process unit Connector


Fig. 6-16

(4) Install the high-voltage transformer jig and fix


it with 2 screws.
Note:
Be careful not to let the connector and the
harness be caught.

High-voltage transformer jig


Fig. 6-17

(5) Fix the green cable of the high-voltage


transformer jig to the frame of the equipment. Screw

Green cable
Fig. 6-18

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 34
(6) Install the cover open switch release jig for
Front cover opening/closing switch
service.
(7) Close the transfer cover.

Cover open switch release jig for service


Fig. 6-19

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ADJUSTMENT
6 - 35
[B] Connection for developer bias adjustment

Front cover opening/closing switch

Ground to the
machine frame
(green cable)

(-) terminal: (+) terminal:


Connect with the white cable Connect with the black cable

Fig. 6-20

[C] Connection for main charger adjustment

Front cover opening/closing switch

Ground to the
machine frame
(green cable)

(+) terminal:
(-) terminal: Connect with the
Connect with the white cable red cable (thick line)

Fig. 6-21

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 36
[D] Connection for transfer/separation charger adjustment

Front cover opening/closing switch

Ground to the
machine frame
(green cable)

(+) terminal:
(-) terminal: Connect with the
Connect with the white cable red cable (thin line) 6
Fig. 6-22

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ADJUSTMENT
6 - 37
[ 2 ] Operation
Note:
When adjusting output of high-voltage transformer, make sure to use the high-voltage
transformer jig.

Connect the digital testers as described in “[1] Preparation”, and follow the procedure on the next
page to adjust the output from the main charger, developer bias charger, transfer charger and
separation charger.

<Keys to press> <Display>

[0][5]
[POWER]

Front cover opening/ : Press one time.


closing switch
1
[Digital keys] : Enter the code.

[ENTER] : Current adjustment value is displayed.

[ENTER] : Adjustment start.

: Adjust the value to satisfy the following table.


Developer bias Main charger
Code 205 210
e-STUDIO195: -448±5V
Adjustment value -341±5V e-STUDIO225/245: -454±5V

Transfer charger
Leading edge Center area Trailing edge
area of paper of paper area of paper
Code 220 221 222
Adjustment value 1005±106mV 1086±106mV 845±71mV

Separation charger
Leading edge Center area Trailing edge
area of paper of paper area of paper
Code 233 234 235
Adjustment value -566±54mV -566±54mV -391±36mV
[ENTER] : Adjusted value is stored in memory.

Return to 1 to enter the other adjustment code.

[POWER]
OFF/ON
Fig. 6-23

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 38
6.7.2 Precautions

[ 1 ] Developer bias
Note for adjustment
Adjust the developer bias if fogging occurs over the entire image even though the main charger grid
voltage and toner density are appropriate. However, the following may occur if the developer bias is
lowered too much:
• Image contrast becomes low.
• Image is patchy or blurred.
• The carrier in the developer material adheres to the photoconductive drum, causing scratches
around the cleaner.

[ 2 ] Transfer
Items to check before adjustment
Blotched image or poor transfer can be also caused by matters other than defective adjustment of
transfer output. Check the following items before adjusting the transfer charger. If there is no problem,
adjust the output of the transfer charger. 6
• Is the charger wire incorrectly installed or dirty? Is the transfer guide deformed?
• Is the process unit properly installed? Is the developer magnetic brush in contact with the drum?
Is the process unit worked correctly? Is the toner density low?
• Is the copy paper fed straight? Is the copy paper abnormally moist?
• Is the rotation of the registration roller normal?
• Is the separation output different from the set value?
• Is the developer bias value an appropriate one?
• Are the transfer/separation charger case grounded? Is the high-voltage transformer grounded?

Note for adjustment


When blotched image appear:
• If blotched image appear in halftone areas, lower the transfer output value. Remember that transfer
performance becomes low if the transfer output value is lowered too much.

When poor transfer occurs:


Increase the transfer output value under the following conditions. Remember that blotched image
appear if the transfer output value is increased too much.
• Transfer is poor even though the charger wire is not dirty.
• Thick paper has been frequently used.

The adjustment code varies according to where blotched image and poor transfer occur. Select the
required adjustment code while referring to the following diagram.

Approx. 11mm Approx. 5mm


Adjustment code
"220" "221" "222"
Leading edge Trailing edge
area of paper area of paper
Fig. 6-24

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ADJUSTMENT
6 - 39
[ 3 ] Separation
Items to check before adjustment
Poor paper separation from the drum can be also caused by matters other than defective adjustment of
the separation output. Check the following items before making an adjustment. If there is no problem,
adjust the output of the separation charger.
• Is the charger wire incorrectly installed or dirty?
• Is the process unit installed properly? Is the developer magnetic brush in contact with the drum?
Is the process unit worked correctly? Is the toner density low?
• Is the copy paper fed straight? Is the copy paper abnormally moist?
• Is the rotation of the registration roller normal?
• Is the output of the main charger normal?
• Is the developer bias an appropriate value?
• Is the transfer output different from the set value?
• Is the transfer/separation charger case grounded? Is the high-voltage transformer grounded?
• Is the separation finger in contact with the drum surface?

Note for adjustment


When poor paper separation occurs:
Increase the separation output value under the following conditions. Remember that if the separation
output value is increased too much, blotched image occurs and separation performance becomes low.
• Poor separation occurs even though the charger wire is not dirty.
• Thin paper has been frequently used.

When poor transfer occurs:


• Decrease the separation output value when poor transfer occurs. Remember that the separation
performance becomes low if the separation output value is decreased too much.

The adjustment code varies according to where poor paper separation and poor transfer occur. Select
the required adjustment code while referring to the following diagram.

Approx. 11mm Approx. 35mm Approx. 48mm


Adjustment code
"233" "235" "234" "235"
Leading edge Trailing edge
area of paper area of paper
Fig. 6-25

* Adjustment code 235 performs the adjustment for 2 areas.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 40
6.8 Adjustment of the Scanner Section

6.8.1 CIS unit

[A] Replacing the CIS unit


• The CIS unit must not be readjusted and some part of its components must not be replaced in the
field since the unit is precisely adjusted. If any of the components is defective, replace the whole
unit.
• Handle the CIS unit with care not to contaminate the lens with fingerprints or such.
• Take off 2 original glass guides from the CIS unit, and then install a new CIS unit.
• Be sure to perform "05-310" with the platen cover or the ADF/RADF closed after replacing the CIS
unit.

<Error recovery procedure>


Check the following items and perform "05-310" again.
If an error occurs during the execution of "05-310", the alarm lamp is lit.
6
(1) Check the connection of the harness and connector. Reconnect them if they are not connected
securely.

(2) Check if the harness is open-circuited or damaged. Replace the harness if it is.

(3) Replace the MAIN board.

(4) Replace the CIS unit.

(5) Perform "08-463" and check the control status to see if "0" (normal end) is displayed.

6.8.2 CIS unit drive belt-1


Adjust the tension of the CIS unit drive belt-1 when installing it.

<Procedure>

(1) Install the CIS unit drive belt-1 after the


tension bracket fixing screw are loosened.

(2) Tighten the tension bracket fixing screw.


Tension bracket

Fig. 6-26

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ADJUSTMENT
6 - 41
6.8.3 Scan motor (CIS unit drive belt-2)
When installing the scan motor and CIS unit drive belt-2, adjust the tension of the CIS unit drive belt-2
with the belt tension jig.

<Procedure>

(1) Temporarily fix screws A and B.


A B

Scan motor
Fig. 6-27

(2) Hook the belt tension jig on the motor


bracket and frame. Scan motor

Belt tension jig


Fig. 6-28

(3) Tighten screws A and B where the scan motor pulled by the belt tension jig stops.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 42
6.9 Adjustment of the Paper Feeding System

6.9.1 Sheet sideways deviation caused by paper feeding


<Procedure>
The center of the printed image shifts to the front The center of the printed image shifts to the rear
side. Move the guide to the front side (Arrow side. Move the guide to the rear side (Arrow
(A) direction in the lower figure). (B) direction in the lower figure).

[Rear] [Rear]

Feeding direction Feeding direction


Center Center
6

[Front] [Front]

Fig. 6-29 Fig. 6-30

1. Loosen the screen.


2. Move the entire guide to the front or rear side.
3. Tighten the screw.

(A) (B)

Fig. 6-31

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ADJUSTMENT
6 - 43
6.10 Adjustment of Developer Unit

6.10.1 Doctor-to-sleeve gap


Adjustment tool to use: Doctor-sleeve jig
<Procedure>

(1) Perform the adjustment code “05-280”.

(2) Take out the process unit from the equipment.

(3) Take out the developer unit from the process unit.

(4) Remove 2 screws and take off the developer


unit upper cover and discharge the Developer
developer material. unit upper cover
Note:
Discharge the developer material from the
rear side, being careful not to let it be
scattered on the gear.

Fig. 6-32

(5) Turn the adjustment screw to widen the gap


so that the jig can be inserted in it. Screw
(Turning the screw clockwise widens the
gap)

Fig. 6-33

(6) Insert the gauge with the thickness “0.45” of


Doctor sleeve jig Screw
the doctor sleeve jig into the gap between
the developer sleeve and doctor blade after
lifting up the toner scattering prevention
sheet.
Adjust the screws with the doctor blade to
push the doctor sleeve jig lightly.

Toner scattering
prevention sheet
Fig. 6-34

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 44
(7) Insert the gauge “0.40” of the doctor sleeve
jig into the gap between the developer Doctor sleeve jig
sleeve and doctor blade. Confirm that the jig
moves smoothly to the front and rear side,
and the gauge “0.50” cannot be inserted into
the gap.

Developer
sleeve

Fig. 6-35

(8) Confirm that the side seals are attached on


the toner scattering prevention sheet.
6

Side seal

Toner scattering
prevention sheet

Fig. 6-36

(9) Attach the developer unit upper cover and


tighten 2 screws. Developer
unit upper cover
Note:
After the developer material has been
replaced, adjust the auto-toner sensor.
(See P.6-2 "6.2 Adjustment of the Auto-
Toner Sensor".)

Fig. 6-37

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ADJUSTMENT
6 - 45
6.11 Adjustment of the ADF/RADF (MR-2020/3023)

6.11.1 Adjustment of ADF/RADF position


Perform this adjustment when the ADF/RADF is not installed in the correct position.
Note:
Check if the image adjustment for the equipment is performed properly before this adjustment of
the ADF/RADF.

[A] Checking

(1) Open the ADF/RADF and install 2


positioning pins (the positioning pins are
installed to the back side of the hinge which
is on the left side of the ADF/RADF).

Fig. 6-38

(2) Remove the platen sheet.

Fig. 6-39

(3) Close the ADF/RADF and check if the


positioning pins fit the holes on the ADF/
RADF.

Fig. 6-40

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 46
[B] Adjustment
If the pins cannot be fitted into the holes, perform the adjustment according to the following procedure.

(1) Remove the right-hand hinge screw on the


rear side.

Fig. 6-41
6
(2) Remove 2 screws and take off the bracket on
the rear side.

Fig. 6-42

(3) Loosen the left-hand hinge screw on the rear


side.

Fig. 6-43

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ADJUSTMENT
6 - 47
(4) Loosen the hinge screws on the front side.

Fig. 6-44

(5) Position the pins with the holes on the ADF/


RADF by moving it so that the pins fit into the
holes when the ADF/RADF is closed.

Fig. 6-45

(6) Tighten the left-hand hinge screw at the rear


side.

Fig. 6-46

(7) Attach the bracket.

Fig. 6-47

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 48
(8) Loosen the hole position adjustment screws
on the right hand side.

Fig. 6-48

(9) Match the screw hole positions.

Fig. 6-49

(10) Install the right-hand hinge screw at the rear


side.

Fig. 6-50

(11) Loosen the hinge screws at the front side.

Fig. 6-51

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ADJUSTMENT
6 - 49
(12) Place the platen sheet on the original glass
and align it to the top left corner.
Close the ADF/RADF gently and open it to
check if the platen sheet is attached properly.

Fig. 6-52

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 50
6.11.2 Adjustment of ADF/RADF height
Note:
Check if the image adjustment for the equipment is performed properly before this adjustment of
the ADF/RADF.

[A] Checking

(1) Close the ADF/RADF.


(2) Light the exposure lamp.
• Turn the power ON while pressing [1] and [3] simultaneously.
• Select [10. OUTPUT TEST] from the test menu, press the [ENTER] button.
• Key in [261], press the [ENTER] button, and then press the [START] button. Wait until the CIS
unit stops.
• Key in [267], press the [ENTER] button, and then press the [START] button to turn ON the
exposure lamp.
(3) Visually check the gap between platen guide holder “A” and upper surface of the original glass
“B” from the left hand side of the equipment. If the value is not within the tolerance, perform the 6
adjustment according to the following procedure.

[Tolerance of the gap]


Rear side: 0 - 0.2 mm
Front side: 0 mm
0~0.2mm

0mm

A A

B B

Fig. 6-53

(4) After the adjustment, press the [CANCEL] button to turn OFF the exposure lamp.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 51
[B] Adjustment

(1) Close the ADF/RADF.


(2) Adjust it by turning the adjustment screws on the hinges.
• Adjust the height on the rear side by means of the screw on the hinge on the feed side of the
ADF/RADF.
Turn it clockwise ................. Heightened
Turn it counterclockwise ...... Lowered

Fig. 6-54

• Adjust the gap on the rear side by means of the screw on the hinge on the feed side of the
ADF/RADF.
Turn it clockwise .................. Lowered
Turn it counterclockwise ...... Heightened

Fig. 6-55

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 52
6.11.3 Adjustment of skew
Note:
Check if the image adjustment for the equipment is performed properly before this adjustment of
the ADF/RADF. Also, the ADF/RADF position and height shall be adjusted properly.

[A] Checking
Check the image using the chart (original) with vertical and horizontal lines in the following procedure.

Fig. 6-56 Chart (Original)

Simplex copying (ADF/RADF):

(1) Place the chart provided as an original with its face up on the original tray of the ADF/RADF,
select [1 Sided -> 1 Sided] and press the [START] button.
(2) Superimpose the chart on the copy and check the inclination of the copy image.

Duplex copying (RADF):

(1) Place the chart provided as an original with its face up on the original tray of the RADF, select
[2 Sided -> 2 Sided] and press the [START] button.
(2) Superimpose the chart on the copy and check the inclination of the copy image.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 53
[B] Adjustment
Simplex copying (ADF/RADF):

(1) Shift the aligning plate with the scale as the guide shown in the figure below to adjust the skew.

Fig. 6-57

(2) If the image skew is “C” as shown in the figure below, shift the aligning plate in the direction of
“+”, and if “D”, shift it to “-”.

Fig. 6-58 Fig. 6-59

Shift the aligning plate in the direction of “+”. Shift the aligning plate in the direction of “-”.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 54
Duplex copying (RADF):

(1) Shift the aligning plate with the scale as the guide shown in the figure below to adjust the skew.

Fig. 6-60
6

(2) If the image skew is "C" as shown in the figure below, shift the aligning plate in the direction of "-
", and if "D", shift it to "+".

Fig. 6-61 Fig. 6-62

Shift the aligning plate in the direction of "-". Shift the aligning plate in the direction of "+".

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 55
6.11.4 Adjustment of the leading edge position
Note:
Check if the image adjustment for the equipment is performed properly before this adjustment of
the ADF/RADF. Also, the ADF/RADF position and height shall be adjusted properly.

[A] Checking
Check the image using the chart (original) with vertical and horizontal lines in the following procedure.

Simplex copying (ADF/RADF):

(1) Place the chart provided as an original with its face up on the original tray of the ADF/RADF,
select [1 Sided -> 1 Sided] and press the [START] button.
(2) Superimpose the chart on the copy and check the leading edge E of the chart and F of the copy.

Duplex copying (RADF):

(1) Place the chart provided as an original with its face up on the original tray of the RADF, select
[2 Sided -> 2 Sided] and press the [START] button.
(2) Superimpose the chart on the copy and check the leading edge E of the chart and F of the copy.

E F

Fig. 6-63 Chart (Original)


Fig. 6-64 Copy

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 56
[B] Adjustment
Simplex copying (ADF/RADF)

(1) Turn the power ON while pressing [0] and [5] simultaneously, key in [365] and then press the
[ENTER] button.
(2) Enter the value.
• If the leading edge (F) margin of the copy image is larger than the (E) margin of the chart,
enter a value smaller than the current one.
Note:
Changing one value shifts the copy image by 0.2 mm.

• If the leading edge (F) margin of the copy image is smaller than the (E) margin of the chart,
enter a value larger than the current one.
Note:
Changing one value shifts the copy image by 0.2 mm.

(3) Press the [ENTER] button.


6

Duplex copying (RADF):

(1) Turn the power ON while pressing [0] and [5] simultaneously, key in [366] and then press the
[ENTER] button.

(2) Enter the value.


• If the leading edge (F) margin of the copy image is larger than the (E) margin of the chart,
enter a value smaller than the current one.
Note:
Changing one value shifts the copy image by 0.2 mm.

• If the leading edge (F) margin of the copy image is smaller than the (E) margin of the chart,
enter a value larger than the current one.
Note:
Changing one value shifts the copy image by 0.2 mm.

(3) Press the [ENTER] button.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 57
6.11.5 Adjustment of horizontal position
Note:
Check if the image adjustment for the equipment is performed properly before this adjustment of
the ADF/RADF. Also, the ADF/RADF position and height shall be adjusted properly.

[A] Checking
Check the image using the chart (original) with a center line in the following procedure.

(1) Place the chart provided as an original with its face up on the original tray of the ADF/RADF.
(2) Press the [START] button.
(3) Fold the copy in half and check if the center line is misaligned.

[B] Adjustment

(1) Turn the power ON while pressing [0] and [5] simultaneously.
(2) Key in [358] and then press the [ENTER] button.
• If the center line of the copy image is shifted to the front side of the equipment, enter a value
larger than the current one.
Note:
Changing one value shifts the copy image by 0.169 mm.

Fig. 6-65

• If the center line of the copy image is shifted to the rear side of the equipment, enter a value
smaller than the current one.
Note:
Changing one value shifts the copy image by 0.169 mm.

Fig. 6-66

(3) Press the [ENTER] button.

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ADJUSTMENT
6 - 58
6.11.6 Adjustment of copy ratio
Note:
Check if the image adjustment for the equipment is performed properly before this adjustment of
the ADF/RADF. Also, the ADF/RADF position and height shall be adjusted properly.

[A] Checking
Check the image using the chart (original) with vertical and horizontal lines in the following procedure.

(1) Place the chart provided as an original with its face up on the original tray of the ADF/RADF.
(2) Press the [START] button.
(3) Superimpose the chart on the copy and check the image dimension “I”.

[B] Adjustment

(1) Turn the power ON while pressing [0] and [5] simultaneously.
(2) Key in [357] and then press the [ENTER] button.
• If the copy image dimension “I” is larger than the chart dimension, enter a value smaller than 6
the current one.
• If the copy image dimension “I” is smaller than the chart dimension, enter a value larger than
the current one.

I
Fig. 6-67

(3) Press the [ENTER] button.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ADJUSTMENT
6 - 59
6.11.7 Adjustment of ADF/RADF opening/closing sensor
Adjust the bracket position so that the sensor is turned ON when the height “A” becomes 100 mm or
less (within the empty weight falling limit).

A
Fig. 6-68

Fig. 6-69

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ADJUSTMENT
6 - 60
7. PREVENTIVE MAINTENANCE (PM)

7.1 General Descriptions for PM Procedure


Perform the preventive maintenance in the following timing.
e-STUDIO195:every 81,000 sheets
e-STUDIO225/245:every 90,000 sheets

(1) Preparation
• Ask the user about the current conditions of the equipment and note them down.
• Before starting maintenance, make some sample copies and store them.
• Turn OFF the power and make sure to unplug the equipment.

(2) Perform a preventive maintenance using the following checklist and illustrations. Refer to the
Service Manual if necessary.

(3) Plug in the equipment after the maintenance has been finished. Then turn ON the power and
make some copies to confirm that the equipment is working properly.

(4) After preventive maintenance, set the value of 08-252 (Current value of PM counter Display) to 7
"0".
* This deletes the message "Time for maintenance".

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


PREVENTIVE MAINTENANCE (PM)
7-1
7.2 Operational Items in Overhauling
Overhaul each equipment with the following timing.
e-STUDIO195: When the number of output pages has reached 243,000 or 2.5 years have
passed from the start of use (Whichever is earlier)
e-STUDIO225/245: When the number of output pages has reached 270,000 or 2.5 years have
passed from the start of use (Whichever is earlier)

(1) Replace all the supplies.


(2) Check the components in the drive section (gears, pulleys, timing belts, etc.). Replace them with
new ones if they are damaged.
(3) Check all the adhesives such as tape and Mylar if they are damaged or have become unstuck.
Replace them with new ones if necessary.
(4) Check the performance of all the switches and sensors. Replace them with new ones if
necessary.
(5) Clean inside the equipment thoroughly.
(6) Check if the harnesses, thermistors, fuses, etc. are damaged. Replace them if necessary.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


PREVENTIVE MAINTENANCE (PM)
7-2
7.3 Preventive Maintenance Checklist
Symbols used in the checklist
Cleaning Lubrication/Coating Replacement Operation check

A: Clean with alcohol L: Launa 40 Value: O: After cleaning or


B: Clean with soft pad, SI: Silicon oil Replacement replacement, confirm
cloth or vacuum W1: White grease cycle there is no problem.
cleaner (Molykote EM-30L) (Value x 1000)
W2: White grease R:Replace if
(Molykote HP-300) deformed or
AV: Alvania No.2 damaged
FL: Floil (GE-334C)

[Preventive Maintenance checklist]


Notes:
1. Perform cleaning and lubricating in the following timing.
Exceptionally, the lubrication for the drum unit, main charger, developer unit and transfer unit
must follow the PM cycle of each unit.
e-STUDIO195:every 81,000 sheets
e-STUDIO225/245:every 90,000 sheets
2. Value under “Replacement” indicates the replacement cycle for e-STUDIO195/ 7
e-STUDIO225/245.
3. The replacement cycle of the parts in the feeding section equals to the number of sheets fed
from each paper source.
4. Be careful not to put oil on the rollers, belts and belt pulleys when lubricating.
5. Page-Item (P-I) is described in the column of the Parts list.

A. Scanner
Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>
A1 Original glass B or A P17-I1 *a1
A2 ADF original glass B P17-I2 *a1
A3 Carriage rail B P9-I9
A4 Original glass guide B R
A5 Automatic original B O P9-I19
detection sensor

B. Laser optical unit


Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>
B1 Slit glass B

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


PREVENTIVE MAINTENANCE (PM)
7-3
C. Feed unit
Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>
C1 Main paper feed roller A 90 P25-I7
C2 Sub paper feed roller A P25-I25
C3 Separation pad 90 P25-I28
C4 Paper guide B
C5 Drive gear W1 *c1
(tooth face and shaft)
C6 GCB bushing bearing L
C7 One side of the plastic W1
bushing
C8 Registration roller A R P16-I4
(metal)
C9 Registration roller A R P11-I18
(rubber)

D. ADF (MR-2020)
Cleaning Replacement Operation Parts list
Items to check Lubrication Remarks
(30K) (x 1,000 sheets) check <P-I>
D1 Pickup roller A 90 P5-I1
D2 Separation roller A 90 P4-I10
D3 Feed roller A 90 P5-I1
D4 Registration roller A
D5 Intermediate transfer A
D6 Front read roller A
D7 Rear read roller A
D8 Exit/reverse roller A
D9 Platen sheet B or A

E. Bypass feed unit


Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>
E1 Pickup roller 90 P14-I22
E2 Feed roller 90 P14-I22
E3 Separation pad 90 P13-I22
E4 Bypass tray B
E5 Drive gear W1
(tooth face and shaft)
E6 GCB bushing bearing L
E7 One side of the plastic W1
bushing

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


PREVENTIVE MAINTENANCE (PM)
7-4
F. Main charger
Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(KD) check <P-I>
F1 Main charger case B P18-I1 *f1
F2 Needle electrode 81/90 P18-I2 *f1
F3 Contact point of B
terminals
F4 Main charger wire R P18-I7
cleaner
F5 Main charger grid 81/90 P18-I3

G. Transfer / Separation charger


Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(KD) check <P-I>
G1 Charger case B P19-I2 *g1
G2 Transfer charger wire 81/90 P19-I18 *g1

G3 Separation charger 81/90 P19-I18 *g1 7


wire
G4 Pre-transfer guide B or A
G5 Post-transfer guide B or A
G6 Separation supporter B P19-I17
G7 Terminal cover B P19-I10
G8 Contact point of B
terminals
G9 Transfer guide roller B R P19-I14

H. Drum/Cleaner related section


Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(KD) check <P-I>
H1 Photoconductive drum 81/90 Ch.7.7.2
H2 Discharge LED B
H3 Whole cleaner unit B
H4 Drum cleaning blade 81/90 P20-I5 *h1
H5 Separation finger for 81/90 P20-I17 *h2
drum
H6 Recovery blade B 81/90 P20-I6 *h3
H7 Ozone filter 81/90 P11-I3

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


PREVENTIVE MAINTENANCE (PM)
7-5
I. Developer unit / Toner cartridge related section
Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>

I1 Whole developer unit B

I2 Developer material 81/90 *i1

I3 Front shield B R

I4 Oil seal (6 pcs.) AV 360/450 P21-I11 *i2

I5 Guide roller B or A

I6 Side shield B R

I7 Developer unit lower B


stay

I8 Toner cartridge drive W1


gear shaft

J. Fuser/Paper exit unit


Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>
J1 Fuser roller 81/90 P23-I8
J2 Pressure roller 81/90 P24-I4
J3 Separation finger for 81/90 P23-I14 *j1
fuser roller
J4 Fuser unit entrance A P24-I9
guide
J5 Thermistor (3 pcs.) A R P23-I6 *j2
J6 Drive gear W2 R P23-I22
(tooth face and shaft) P23-I23
J7 Fuser roller gear R P23-I10
J8 Pressure roller 81/90 P23-I30
bushing
J9 Exit roller A R P23-I19

K. PFU (MY-1038)
Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>
K1 Main paper feed roller A 90 P4-I24
K2 Sub paper feed roller A P4-I29
K3 Separation pad 90 P4-I18
K4 PFU feed roller A P3-I8

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


PREVENTIVE MAINTENANCE (PM)
7-6
L. Automatic duplexing unit (MD-0103)
Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>
L1 Transport roller (upper, A R
middle and lower)
L2 One side of the GCB L
busing to which the
shaft is inserted
L3 One side of the plastic W1
busing to which the
shaft is inserted
L4 Paper guide B P1-I19

M. RADF (MR-3023)
Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>
M1 Pickup roller A 90 P5-I1
M2 Separation roller A 90 P4-I10
7
M3 Feed roller A 90 P5-I1
M4 Registration roller A P4-I30
M5 Intermediate transfer A P3-I13
roller
M6 Front read roller A P3-I14
M7 Rear read roller A P3-I1
M8 Reverse registration A P3-I10
roller
M9 Exit/reverse roller A P4-I25
M10 Platen sheet B or A P1-I25

N. PFP (KD-1022)
Replacement Operation Parts list
Items to check Cleaning Lubrication Remarks
(x 1,000 sheets) check <P-I>
N1 Pickup roller (upper/ 80 P5-I20
lower)
N2 Feed roller (upper/ 80 P5-I24
lower)
N3 Separation roller AV, W2 80 P5-I5 *n1
(upper/lower)
N4 Drive gear (tooth face) W1

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


PREVENTIVE MAINTENANCE (PM)
7-7
A2 A4 A1 A5

J3
F1 F4 F2 H2 F5 H4 H6 H3 J5 J1 J9 J8
J2
L4
J4
L1
H5
H7
G5
H1
G3
G1
G2
G9
G4
C8
C9
L1
E2 E4
E1

B1 I1 I2 C1 C2 C3 E3
Fig. 7-1 Front side

D5 D4 D3 D2 D1

D6 D7 D8 D9
Fig. 7-2 Automatic Document Feeder (ADF)

K1 K2 K3 K4

Fig. 7-3 Paper Feed Unit (PFU)

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


PREVENTIVE MAINTENANCE (PM)
7-8
M5 M8 M4 M3 M2 M1

M6 M7 M9 M10
Fig. 7-4 Reversing Automatic Document Feeder (RADF)

N1 N1

7
N2

N3

N2
N3

Fig. 7-5 Paper Feed Pedestal (PFP)

Remarks “*” in the Preventive Maintenance Check List


* a1. Original glass / ADF original glass
Clean both sides of the original glass and ADF original glass.
Make sure that there is no dust after cleaning. Then install the original glass and ADF
original glass.

Note:
Make sure that there is no fingerprints or oil staining on part of the original glass on where the
original scale is mounted since the shading correction plate is located below the scale to be
scanned.

* c1. Drive gears in the paper feeding section (teeth of gears and shafts)
Apply some white grease (Molykote EM-30L) to the teeth of gears and shafts of the drive
gears.
When disassembling the driving section and applying grease at PM, follow the notes as
below.
© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245
PREVENTIVE MAINTENANCE (PM)
7-9
Main motor drive unit
Timing belt
Registration
roller (metal) C

Registration
roller clutch
Leaf spring
Registration roller clutch
Leaf spring
Registration roller clutch

B A

D E

Registration
roller (metal)
approx.50mm

Fig. 7-6

A: Do not apply grease to the installation section of the registration roller clutch. Wipe
off any grease.
B: Do not wipe off the conductive grease applied to the contact section of the leaf
spring and the registration roller (metal).
C: Do not apply grease to gear teeth which contact the registration roller clutch gear.
D: Apply a blob of grease (the size of a rice grain) to the gear teeth of the registration
roller clutch. Be careful not to use too much.
E: Do not apply grease to the side of the registration roller clutch gear. Wipe off any
grease.

Note:
Make sure that oil is not running over or scattered around as the gear is rotated coming into the
clutch after applying Molykote to the gear which is located near the clutch. The quantity of
Molykote should be smaller than that to be applied to the other parts.

* f1. Main charger case / Needle electrode


Clean the main charger case with a cloth soaked in water and squeezed tightly, and then
wipe them with a dry cloth.
Clean the needle electrode only with the main charger cleaner.
Replace the needle electrode with a new one if it is damaged regardless of the number of
output pages which have been mode.
Note:
Do not touch the needle electrode with your bare hand when attaching the needle electrode.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


PREVENTIVE MAINTENANCE (PM)
7 - 10
* g1. Transfer / separation charger case and transfer / separation charger wire
Clean the transfer / separation charger case with a cloth soaked in water and squeezed
tightly, and then wipe them with a dry cloth.
Replace the wire with a new one if it is damaged regardless of the number of output pages
which have been mode.
Notes:
• Do not deform the metal plate of the transfer guide roller.
• Be careful of the following when attaching a new wire (length: 353 mm)
- Insert the wire securely into the V-grooves of the front and rear sides.
- Do not twist the wire.
- Do not touch the wire with your bare hand.

* h1. Drum cleaning blade


Since the edge of the blade is vulnerable and can be easily damaged by factors such as
the adherence of paper dust. Replace the cleaning blade with new ones if poor images are
printed due to the damaged blade regardless of the number of output pages if which have
been made.

* h2. Separation fingers for drum 7


The paper jam may be caused if the tip of the separation finger is damaged or deformed. If
there is any problem with it, replace the finger with a new one regardless of the number of
output pages which have been made.
If any mark which was made by the finger appears on the printed image, clean the tip of
the finger.

Notes:
1. Wipe the tip of the finger lightly with a dry cloth trying not to deform it.
Do not leave the lint on the tip.
2. Apply patting powder to the tip of the fingers and drum surface after replacing or cleaning
them to reduce the load on the drum surface by the finger.

* h3. Recovery blade


Replace the recovery blade regardless the number of output pages if the edge of the blade
get damaged.

* i1. Developer material


Make sure to perform “05-280” and take off the process unit before the developer material
is replaced.
After replacing the developer material, be sure to perform the auto-toner adjustment.
( P.6-2 "6.2 Adjustment of the Auto-Toner Sensor")

* i2. Oil seal (Developer unit)


Mixer unit (Shafts of mixers-1, -2 & -3) 6 pcs.

Note:
Lubricate the oil seal only when the oil seal is replaced.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


PREVENTIVE MAINTENANCE (PM)
7 - 11
During replacement, coat the oil seal with grease (Alvanian No.2).

(1) Push in a new oil seal parallel to the


mounting hole section of the developer frame Developer frame
or outside of the holder. (Nozzle mixer)
* Pay attention to the direction in
which the oil seal is attached. (See figure
Outside
on right.)
(2) Apply an even coat of grease to the inside of
the oil seal.
• Amount: About two small drops Grease
Inside
(3) Wipe off any grease the exudes from the
inside.
Oil seal

Fig. 7-7

* j1. Separation fingers for fuser roller


The paper jam may be caused if the tip of the finger is damaged or deformed. If there is
any problem with it, replace the finger with a new one regardless of the number of output
pages which have been made. Do not damage the tip of the finger during the cleaning.
The finger may be damaged if the toner adhering to the tip of it is scraped off forcibly.
Replace the finger if the toner is sticking to it heavily.

* j2. Thermistor
Clean the thermistor with alcohol if the toner or dirt is sticking to it when the fuser roller is
replaced.
Do not deform or damage the thermistor during the cleaning. Replace the thermistor with a
new one if it is damaged or deformed regardless of degree.

* n1. Separation roller: PFP


Apply an even coat of grease (Alvania No.2) to all round the inside of the spring.
When replacing the separation roller, apply adequate amount of white grease (Molykote
HP-300) on the places of the holder shown in the figure (4 places).
Note:
Make sure that the grease does not adhere to the roller surface. Wipe it off with alcohol if
adhered.

Apply grease on the inner surface


Fig. 7-8 Apply white grease
Fig. 7-9

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


PREVENTIVE MAINTENANCE (PM)
7 - 12
7.4 PM Kit

Item Product name Part name Qty.

DEV-KIT-2340 Developer material D-2320 1

Drum cleaning blade BL-2320D 1

Separation finger for drum SCRAPER-371 2

Recovery blade BLADE-REC 1

Main charger grid GRID-CH-M-371 1

Needle electrode CH-M 1

Transfer charger wire WIRE-CH-060-353-R 1

Separation charger wire WIRE-CH-060-353-R 1

FR-KIT-1640 Ozone filter FILTER-OZON-TRU-371 1

Fuser roller HR-1640-U 1

Pressure roller HR-1640-L 1 7


Separation finger for fuser roller SCRAPER-280 5

Bush for fuser roller BUSH-HR/RLR 2

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


PREVENTIVE MAINTENANCE (PM)
7 - 13
7.5 Jig List

Parts list
Item
Page Item

Door switch jig 101 1

Brush 101 2

Doctor sleeve jig 101 3

Developer material nozzle 101 4

Belt tension jig 101 6

High-voltage transformer jig 101 7

Downloading jig (DLM board) 102 1

Download JIG-2 (6 Flash ROMs) 102 2

Download JIG-1 (2 Flash ROMs) 102 3

ROM writer adapter (For 1881) 102 4

ROM writer adapter (For 1931) 102 5

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


PREVENTIVE MAINTENANCE (PM)
7 - 14
7.6 Grease List

Parts list
Grease name Part name Volume Container
Page Item

SI Silicon oil ASM-SILICONE-1M 100cc Bottle 101 10

L Launa 40 OIL-LAUNA40-100 100cc Oiler 101 11

W2 White grease (Molykote HP-300) ASM-PG-HP300-S 100g Bottle 101 12A

W2 White grease (Molykote HP-300) GREASE-HP300-S 10g Bottle 101 12B

AV Alvania No.2 ASM-PG-ALV2 100g Tube 101 13

W1 White grease (Molykote EM-30L) MOLYKOTE-100 100g Tube 101 14

FL Floil (GE-334C) ASM-PG-GE334C-S 20g Bottle 101 15

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


PREVENTIVE MAINTENANCE (PM)
7 - 15
7.7 Precautions for Storing and Handling Supplies

7.7.1 Precautions for storing TOSHIBA supplies


1. Toner/Developer
Toner and developer should be stored in a place where the ambient temperature is between 10°C to
35°C (no condensation), and should also be protected against direct sunlight during transportation.

2. Photoconductive drum
Like the toner and developer, photoconductive drum should be stored in a dark place where the
ambient temperature is between 10°C to 35°C (no condensation). Be sure to avoid places where
drums may be subjected to high humidity, chemicals and/or their fumes.

3. Drum cleaning blade


This item should be stored in a flat place where the ambient temperature is between 10°C to 35°C,
and should also be protected against high humidity, chemicals and/or their fumes.

4. Fuser roller / Pressure roller


Avoid places where the rollers may be subjected to high humidity, chemicals and/or their fumes.

5. Paper
Avoid storing paper in places where it may be subjected to high humidity.
After a package is opened, be sure to place and store it in a storage bag.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


PREVENTIVE MAINTENANCE (PM)
7 - 16
7.7.2 Checking and cleaning of photoconductive drum
1. Use of gloves
If fingerprints or oil adhere to the drum surface, the property of the photoconductive drum may
degrade, affecting the quality of the print image. So, do not touch the drum surface with your bare
hands.

2. Handling precautions
As the photoconductive drum surface is very sensitive, be sure to handle the drum carefully when
installing and removing it so as not damage its surface.
Be sure to apply “patting powder” (lubricant) to the entire surface of the drum (including both ends of
the drum where OPC is not coated) when replacing the drum. When the drum has been replaced
with a new one, the drum counter (the Setting Mode 08-1150-0,3,6,7) must be cleared to 0 (zero).
Notes:
• Application of patting powder is for reducing the friction between the drum and cleaning blade.
If the application of patting powder is neglected, the drum and cleaning blade may be
damaged.
• When paper fibers or thread adhere to the cleaning blade edge, they may reduce the cleaning
efficiency and, in addition, may damage the blade and the drum. Be sure to remove any fibers
found adhering to the blade.
7
3. Installation of the equipment and storage of drum
Avoid installing the equipment where it may be subjected to high temperature, high humidity,
chemicals and/or their fumes.
Do not place the light drum in a location where it is exposed to direct sunlight or high intensity light
such as near a window. Otherwise the drum will fatigue, and will not produce sufficient image
density immediately after being installed in the equipment.

4. Cleaning the drum


At preventive maintenance calls, wipe the entire surface of the drum clean using the designated
cleaning cotton. Use sufficiently thick cleaning cotton (dry soft pad) so as not to scratch the drum
surface inadvertently with your fingertips or nails. Also, remove your rings and wristwatch before
starting cleaning work to prevent accidental damage to the drum.
Do not use alcohol, selenium refresher and other organic solvents or silicon oil as they will have an
adverse effect on the drum.

5. Scratches on photoconductive drum surface


If the surface is scratched in such a way that the aluminum substrate is exposed, no print image will
be produced on this area. In addition, the cleaning blade will be damaged so replacement with a
new drum will be necessary.

6. Collecting used photoconductive drums


Regarding the recovery and disposal of used photoconductive drums, we recommend following the
relevant local regulations or rules.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


PREVENTIVE MAINTENANCE (PM)
7 - 17
7.7.3 Checking and cleaning of drum cleaning blade
1. Handling precautions
Pay attention to the following points as the cleaning blade life is determined by the condition of its
edge:
- Do not allow hard objects to hit or rub against blade edge.
- Do not rub the edge with a cloth or soft pad.
- Do not leave oil (or fingerprints, etc.) on the edge.
- Do not apply solvents such as paint thinner to the blade.
- Do not allow paper fibers or dirt to contact the blade edge.
- Do not place the blade near a heat source.

2. Cleaning procedure
Clean the blade edge with a cloth moistened with water and squeezed lightly.

7.7.4 Checking and cleaning of fuser roller and pressure roller


1. Handling precautions
- Fuser roller
Do not leave any oil (fingerprints, etc.) on the fuser roller.
Be careful not to allow any hard object to hit or rub against the fuser roller, or it may be damaged,
possibly resulting in poor cleaning.

- Pressure roller
Do not leave any oil (fingerprints, etc.) on the pressure roller.

2. Checking
- Check for stain and damage on the fuser and pressure rollers, and clean if necessary.
- Check the separation guide and fingers and check for chipped tips.
- Check the thermistors for proper contact with the pressure roller.
- Check the fused and fixed condition of the toner.
- Check the gap between the entrance guide and pressure roller.
- Check the fuser roller for proper rotation.

3. Cleaning procedure
When fuser roller and pressure roller become dirty, they will cause jamming. If this happens, wipe
the surface clean with a piece of soft cloth. For easier cleaning, clean the roller white they are still
warm.
Note:
Be careful not to rub the fuser roller and pressure roller surface with your nails or hard objects
because it can be easily damaged. Do not use silicone oil on the fuser roller and pressure roller.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


PREVENTIVE MAINTENANCE (PM)
7 - 18
8. ERROR CODE AND TROUBLESHOOTING

8.1 General Descriptions


This chapter explains the procedures for solving troubles occurring in the equipment.

When a trouble occurs, check if an error code is displayed on the LCD screen of the control panel first.
If displayed, refer to“8.2 Error Code List” to figure out the classification and contents of the error, and
then refer to “8.3 Diagnosis and Prescription for Each Error Code” to remove its cause.
If not displayed and the equipment does not operate properly or images are not printed properly, refer
to “8.4 Troubleshooting for the Image” to remove its cause.

Note:
If unusual odor is detected or if smoke or fire comes out of the equipment, immediately turn the
power OFF.
Even in the cases other than the above, fully observe safety precautions.
If any Main board or SRAM board shall be replaced, refer to P.9-7 "9.2 Caution in Replacing
the MAIN board" or P.9-7 "9.3 Caution in Replacing the SRAM board".

8.1.1 If a problem continues even after performing all troubleshooting


If a problem continues even after performing all troubleshooting and technical tips, report the problem
to the appropriate Toshiba service center along with the following information. This information will help 8
the service center understand your problem and take quick action to find the solution.
1. Serial Number
2. List Print
Refer to P.5-35 "5.10 SERVICE LIST" for the detailed procedure to obtain a List Print.
- FUNCTION (FUNC 05, 08 List)
- TOTAL ERRORS
3. For image-related problems, collect image samples with the problem areas and the feeding direction
marked first. Then provide information about the media type and weight, and the print data / spool
files for duplicating the problem.
4. For abnormal acoustic noise, describe the situation in as much detail as possible.
5. For hardware-related problems, provide photos of any broken parts, paper jams, etc. In case of
paper jams, include the type of paper and its manufacturer.
6. For software-related problems, provide list prints, TopAccess Logs and the detailed procedure
needed to duplicate the problem.
* This is the minimum information required to report a complaint. It would be appreciated if you could
obtain additional information.
* Follow the directions of the service center if they request additional information as each issue is
unique to some degree.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8-1
8.2 Error Code List

8.2.1 Jam

Error code Classification Contents Troubleshooting


E01 Paper exit jam Jam not reaching the exit sensor: The paper which P. 8-5
has passed through the fuser unit does not reach
the exit sensor.
E02 Stop jam at the exit sensor: The trailing edge of the P. 8-5
paper does not pass the exit sensor after its leading
edge has reached this sensor.
E03 Other paper jam Power-ON jam: The paper is remaining on the P. 8-6
paper transport path when power is turned ON.
E09 Jam at the registration area due to registration time- -
out error
E11 Paper misfeeding ADU misfeeding (Paper not reaching the P. 8-11
registration sensor): The paper which has passed
through ADU does not reach the registration sensor
during duplex printing.
E12 Bypass misfeeding (Paper not reaching the P. 8-12
registration sensor): The paper fed from the bypass
tray does not reach the registration sensor.
E13 Drawer misfeeding (Paper not reaching the P. 8-13
registration sensor): The paper fed from the drawer
does not reach the registration sensor.
E14 PFU drawer misfeeding (Paper not reaching the P. 8-14
PFU feed sensor): The paper fed from the PFU
drawer does not reach the PFU feed sensor.
E15 PFP upper drawer misfeeding (Paper not reaching P. 8-15
the PFP upper drawer feed sensor): The paper fed
from the PFP upper drawer does not reach the PFP
upper drawer feed sensor.
E16 PFP lower drawer misfeeding (Paper not reaching P. 8-16
the PFP lower drawer feed sensor): The paper fed
from the PFP lower drawer does not reach the PFP
lower drawer feed sensor.
E21 Paper transport jam PFU drawer transport jam (Paper not reaching the P. 8-7
registration sensor): The paper does not reach the
registration sensor after it has passed the PFU feed
sensor.
E30 PFP upper drawer transport jam (Paper not P. 8-7
reaching the registration sensor): The paper fed
from the PFP upper drawer does not reach the
registration sensor after it has passed the PFP
upper drawer feed sensor.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8-2
Error code Classification Contents Troubleshooting
E32 Paper transport jam PFP upper drawer transport jam (Paper not P. 8-8
reaching the PFU feed sensor): The paper fed from
the PFP upper drawer does not reach the PFU feed
sensor after it has passed the PFP upper drawer
feed sensor.
E33 PFP lower drawer transport jam (Paper not P. 8-7
reaching the registration sensor): The paper fed
from the PFP lower drawer does not reach the
registration sensor after it has passed the PFP
lower drawer feed sensor.
E35 PFP lower drawer transport jam (Paper not P. 8-8
reaching the PFU feed sensor): The paper fed from
the PFP lower drawer does not reach the PFU feed
sensor after it has passed the PFP lower drawer
feed sensor.
E36 PFP lower drawer transport jam (Paper not P. 8-9
reaching the PFP upper drawer feed sensor): The
paper fed from the PFP lower drawer does not
reach the PFP upper drawer feed sensor after it has
passed the PFP lower drawer feed sensor.
E40 Cover open jam Transfer cover open jam: The transfer cover has P. 8-17
opened during printing.
E41 Front cover open jam: The front cover has opened P. 8-17
during printing.
8
E42 PFP cover open jam: The PFP cover has opened P. 8-18
during printing.
E44 PFU cover open jam: The PFU cover has opened P. 8-18
during printing.
E51 Paper transport jam Jam not reaching the ADU sensor: The paper does P. 8-10
(ADU section) not reach the ADU sensor after it is switchbacked in
the exit section.
E71 ADF jam Jam not reaching the original registration sensor: P. 8-19
The original fed from the original feeding tray does
not reach the original registration sensor.
E72 Jam not reaching the read sensor: The original P. 8-19
does not reach the read sensor after it has passed
the registration sensor.
E73 Stop jam at the exit sensor: The trailing edge of the P. 8-20
original does not pass the exit sensor after its
leading edge has reached this sensor.
E74 Stop jam at the reverse sensor: The trailing edge of P. 8-20
the original does not pass the reversal sensor after
its leading edge has reached this sensor. (RADF)
E86 ADF jam access cover open: The ADF jam access P. 8-21
cover has opened during ADF operation.
E87 ADF open jam: ADF has opened during ADF P. 8-21
operation.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8-3
8.2.2 Service call

Error code Classification Contents Troubleshooting


C01 Drive system Main motor abnormality: The main motor is not rotating P. 8-22
related service call normally.
C04 Paper feeding PFP motor abnormality: The PFP motor is not rotating P. 8-24
system related normally.
service call
C08 ADU motor IC overcurrent detection error P. 8-23
C15 Paper feeding PFP upper drawer tray abnormality: The PFP upper P. 8-25
system related drawer tray-up motor is not rotating or the PFP upper
service call drawer tray is not moving normally.
C16 PFP lower drawer tray abnormality: The PFP lower P. 8-25
drawer tray-up motor is not rotating or the PFP lower
drawer tray is not moving normally.
C21 Scanning system CIS unit initialization error P. 8-26
C26 related service call Peak detection error / FPGA configuration error: Lighting P. 8-26
of the exposure lamp (white reference) is not detected
when power is turned ON.
C41 Fuser unit related Thermistor or heater abnormality at power-ON: P. 8-27
service call Abnormality of service call the thermistor is detected
when power is turned ON or the temperature of the fuser
roller does not rise in a specified period of time after
power is turned ON.
C43 Thermistor abnormality during warming up or in ready P. 8-28
status after abnormality judgment
C44 Heater abnormality after abnormality judgment: The P. 8-29
temperature of the fuser roller has exceeded the range of
control (in this case, the main switch turns OFF
automatically) or does not even reach the range.
C45 Thermistor abnormality during printing: Abnormality of the P. 8-30
thermistor is detected during printing.
C55 Optional ADF I/F error: Communication error has occurred P. 8-34
communication between the ADF and the scanner
C56 related service call PFC board I/F error: Communication error has occurred P. 8-34
between the PFC board and the equipment.
C94 Other service call Firmware update error: An error message appears when P. 8-32
either of the following Main PC boards is installed to e-
STUDIO185/225/245.
- The Main PC board for e-STUDIO182
- The Main PC board for e-STUDIO165/167/205/207/237
C97 Process related High-voltage transformer abnormality: Leakage of the P. 8-32
service call main charger is detected.
C99 Other service call PFC microcomputer abnormality P. 8-32
CA1 Laser optical unit Polygonal motor abnormality: The polygonal motor is not P. 8-31
related service call rotating normally.
CA2 H-Sync detection error: H-Sync detection PC board P. 8-31
cannot detect laser beams.
F14 Other service call Invalid backup counter: The value of the total counter is P. 8-33
inconsistent with that of the backup counter.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8-4
8.3 Diagnosis and Prescription for Each Error Code

8.3.1 Paper transport jam


[E01] Leading edge of paper not reaching the exit sensor
[E02] Trailing edge of paper not passing the exit sensor
Classification Contents

Paper transport jam Leading edge of paper not reaching the exit sensor
Trailing edge of paper not passing the exit sensor

Next
Step Check Item Result Measure
Step

1 Open the transfer cover. Is Yes Remove the paper. 2


there any paper on the
transport path? No

2 Is the exit sensor working? Yes 3


(Perform the input check in
the test mode: 13-[04. No 1. Check if the connector of the exit sensor is
SENSOR TEST]) disconnected.
2. Check if the connector CN17 on the MAIN board is
disconnected. 8
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the exit sensor.
6. Replace the MAIN board.

3 Is the registration roller clutch Yes 4


working?
(Perform the output check in No 1. Check if the connector of the registration roller
the test mode: 04-108/158) clutch is disconnected.
2. Check if the connector CN26 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the registration roller clutch.
6. Replace the MAIN board.

4 1. Check the registration roller. Replace it if it is worn


out.
2. Check if the aligning amount is appropriate. (See
P.6-6 "6.3.2 Paper alignment at the registration
roller")
An [E01] error occurs both when the amount is too
large and too small.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8-5
[E03] Paper remaining inside the equipment at power-ON
Classification Contents

Paper transport jam Paper remaining inside the equipment at power-ON

Next
Step Check Item Result Measure
Step

1 Open the cover of the unit/ Yes Remove the paper. 2


area whose picture is blinking
on the control panel. Is there No
any paper on the transport
path? (Refer to the following
table.)

2 Is the sensor in the jamming Yes 3


area working? (Perform the
input check in the test mode: No 1. Check if the connector of the sensor is
refer to the following table.) disconnected.
2. Check if any of the connectors on the MAIN board
is disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the sensor.
6. Replace the MAIN board.

3 Replace the MAIN board.

Relation between the jamming area and the corresponding sensors and covers
(If a jam is occurring in the PFU, check the PFU board.)

Jamming area Cover Sensor Test mode / Input check

Registration area Transfer cover Registration sensor 13-[04. SENSOR TEST]

Exit area Transfer cover Exit sensor 13-[04. SENSOR TEST]

PFU PFU side cover PFU feed sensor 13-[04. SENSOR TEST]

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8-6
[E21] Paper fed from the PFU drawer not reaching the registration sensor
[E30] Paper fed from the PFP upper drawer not reaching the registration sensor
[E33] Paper fed from the PFP lower drawer not reaching the registration sensor
Classification Contents

Paper transport jam Paper fed from the PFU drawer not reaching the registration sensor
Paper fed from the PFP upper drawer not reaching the registration
sensor
Paper fed from the PFP lower drawer not reaching the registration
sensor

Next
Step Check Item Result Measure
Step

1 Open the transfer cover. Is Yes Remove the paper. 2


there paper in front of the
registration sensor? No

2 Is the registration sensor Yes 3


working?
(Perform the input check in No 1. Check if the connector of the registration sensor is
the test mode: 13-[04. disconnected.
SENSOR TEST] 2. Check if the connector CN26 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited. 8
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the registration sensor.
6. Replace the MAIN board.

3 Are the PFU transport Yes 4


clutches (High speed/Low
speed) working? No 1. Check if the connectors of the PFU transport
(Perform the output check in clutches (High speed/Low speed) are
the test mode: 04-203, 205) disconnected.
2. Check if the connector CN4 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the PFU transport clutches (High speed/
Low speed).
6. Replace the MAIN board.
4 1. Check the condition of the pickup roller / paper feed
roller of paper source, and replace it if it is worn out.
2. Check the transport roller. Replace it if it is worn
out.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8-7
[E32] Paper fed from the PFP upper drawer not reaching the PFU feed sensor
[E35] Paper fed from the PFP lower drawer not reaching the PFU feed sensor
Classification Contents

Paper transport jam Paper fed from the PFP upper drawer not reaching the PFU feed
sensor
Paper fed from the PFP lower drawer not reaching the PFU feed
sensor

Next
Step Check Item Result Measure
Step

1 Open the side cover. Is there Yes Remove the paper. 2


paper in front of the PFU feed
sensor? No

2 Is the PFU feed sensor Yes 3


working?
(Perform the input check in No 1. Check if the connector of the registration sensor is
the test mode: 13-[04. disconnected.
SENSOR TEST] 2. Check if the connector CN26 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the registration sensor.
6. Replace the MAIN board.

3 Are the PFU transport Yes 4


clutches (High speed/Low
speed) working? No 1. Check if the connectors of the PFU transport
(Perform the output check in clutches (High speed/Low speed) are
the test mode: 04-203, 205) disconnected.
2. Check if the connector CN4 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the PFU transport clutches (High speed/
Low speed).
6. Replace the MAIN board.

4 Is the PFP transport clutch Yes 5


working? (Perform the output
check in the test mode: 04- No 1. Check if the connector of the PFP transport clutch
225) is disconnected.
2. Check if any of the connectors CN241, CN242 and
CN244 on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the PFP board
and MAIN board are short circuited or open
circuited.
6. Replace the PFP transport clutch.
7. Replace the PFP board.
8. Replace the MAIN board.

5 1. Check the condition of the feed roller, separation


roller and pickup roller of each paper source, and
replace them if they are worn out.
2. Check the transport roller. Replace it if it is worn
out.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8-8
[E36] Paper fed from the PFP lower drawer not reaching the PFP upper drawer feed sensor
Classification Contents

Paper transport jam Paper fed from the PFP lower drawer not reaching the PFP upper
drawer feed sensor

Next
Step Check Item Result Measure
Step

1 Open the PFP side cover. Is Yes Remove the paper. 2


there any paper in front of the
PFP upper drawer feed No
sensor?

2 Is the PFP upper drawer feed Yes 3


sensor working?
(Perform the input check in No 1. Check if the connector of the PFP upper drawer
the test mode: 13-[04. feed sensor is disconnected.
SENSOR TEST]) 2. Check if either of the connectors CN241 or CN243
on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the PFP board
and MAIN board are short circuited or open
circuited. 8
6. Replace the PFP upper drawer feed sensor.
7. Replace the PFP board.
8. Replace the MAIN board.
3 Is the PFP transport clutch Yes 4
working? (Perform the output
check in the test mode: 04- No 1. Check if the connector of the PFP transport clutch
225) is disconnected.
2. Check if any of the connectors CN241, CN242 and
CN244 on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the PFP board
and MAIN board are short circuited or open
circuited.
6. Replace the PFP transport clutch.
7. Replace the PFP board.
8. Replace the MAIN board.

4 1. Check the condition of the feed roller, separation


roller and pickup roller of each paper source, and
replace them if they are worn out.
2. Check the PFP transport roller. Replace it if it is
worn out.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8-9
[E51] ADU transport jam (paper not reaching the ADU sensor
Classification Contents

Paper transport jam ADU transport jam (paper not reaching the ADU sensor

Next
Step Check Item Result Measure
Step

1 Open the ADU. Is there any Yes Remove the paper. 2


paper in front of the ADU
sensor? No

2 Is the ADU sensor working? Yes 3


(Perform the input check in
the test mode: 13-[04. No 1. Check if either of the connectors CN251 on the
SENSOR TEST]) ADU board is disconnected.
2. Check if the connector CN13 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor patterns on the ADU board
and MAIN board are short circuited or open
circuited.
5. Replace the ADU board.
6. Replace the MAIN board.

3 Check the rollers in the ADU. Replace them if they are


worn out.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 10
8.3.2 Paper misfeeding
[E11] ADU misfeeding
Classification Contents

Paper misfeeding ADU misfeeding

Next
Step Check Item Result Measure
Step

1 Open the transfer cover. Is Yes Remove the paper. 2


there any paper in front of the
registration sensor? No

2 Is the registration sensor Yes 3


working?
(Perform the input check in No 1. Check if the connector of the registration sensor is
the test mode: 13-[04. disconnected.
SENSOR TEST]) 2. Check if the connector CN26 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the registration sensor.
6. Replace the MAIN board.
8
3 Check the rollers in the ADU. Replace them if they are
worn out.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 11
[E12] Bypass misfeeding
Classification Contents

Paper misfeeding Bypass misfeeding

Next
Step Check Item Result Measure
Step

1 Open the transfer cover. Is Yes Remove the paper. 2


there any paper in front of the
registration sensor? No

2 Is the registration sensor Yes 3


working?
(Perform the input check in No 1. Check if the connector of the registration sensor is
the test mode: 13-[04. disconnected.
SENSOR TEST]) 2. Check if the connector CN26 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the registration sensor.
6. Replace the MAIN board.

3 Is the bypass pickup solenoid Yes 4


working? (Perform the output
check in the test mode: 04- No 1. Check if the connector of the bypass pickup
204) solenoid and bypass paper sensor are
Is the bypass paper sensor disconnected.
working? 2. Check if the connector CN26 on the MAIN board is
(Perform the input check in disconnected.
the test mode: 13-[04. 3. Check if the connector pins are disconnected and
SENSOR TEST]) the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the bypass pickup solenoid and bypass
paper sensor.
6. Replace the MAIN board.

4 Check the bypass pickup roller. Replace it if it is worn


out.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 12
[E13] Drawer misfeeding (paper not reaching the registration sensor)
Classification Contents

Paper misfeeding Drawer misfeeding (paper not reaching the registration sensor)

Next
Step Check Item Result Measure
Step

1 Open the transfer cover. Is Yes Remove the paper. 2


there any paper in front of the
registration sensor? No

2 Is the registration sensor Yes 3


working?
(Perform the input check in No 1. Check if the connector of the registration sensor is
the test mode: 13-[04. disconnected.
SENSOR TEST]) 2. Check if the connector CN26 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the registration sensor.
6. Replace the MAIN board.

3 Is the pickup clutch working? Yes 4


(Perform the output check in 8
the test mode: 04-201) No 1. Check if the connector of the pickup clutch is
disconnected.
2. Check if the connector CN26 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the pickup clutch.
6. Replace the MAIN board.

4 Check the drawer paper feed roller. Replace it if it is


worn out.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 13
[E14] PFU drawer misfeeding (paper not reaching the PFU feed sensor)
Classification Contents

Paper misfeeding PFU drawer misfeeding (paper not reaching the PFU feed sensor)

Next
Step Check Item Result Measure
Step

1 Open the side cover. Is there Yes Remove the paper. 2


any paper in front of the PFU
feed sensor? No

2 Is the PFU feed sensor Yes 3


working?
(Perform the input check in No 1. Check if the connector of the PFU feed sensor is
the test mode: 13-[04. disconnected.
SENSOR TEST]) 2. Check if the connector CN4 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the PFU feed sensor.
6. Replace the MAIN board.

3 Is the PFU pickup clutch Yes 4


working?
(Perform the output check in No 1. Check if the connector of the PFU pickup clutch is
the test mode: 04-202) disconnected.
2. Check if the connector CN4 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the PFU pickup clutch.
6. Replace the MAIN board.

4 Check the PFU drawer paper feed roller. Replace it if it


is worn out.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 14
[E15] PFP upper drawer misfeeding (paper not reaching the PFP upper drawer feed sensor)
Classification Contents

Paper misfeeding PFP upper drawer misfeeding (paper not reaching the PFP upper
drawer feed sensor)

Next
Step Check Item Result Measure
Step

1 Open the PFP side cover. Is Yes Remove the paper. 2


there any paper in front of the
PFP upper drawer feed No
sensor?

2 Is the PFP upper drawer feed Yes 3


sensor working?
(Perform the input check in No 1. Check if the connector of the PFP upper drawer
the test mode: 13-[04. feed sensor is disconnected.
SENSOR TEST]) 2. Check if either of the connectors CN241 or CN243
on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the PFP board
and MAIN board are short circuited or open
circuited. 8
6. Replace the PFP upper drawer feed sensor.
7. Replace the PFP board.
8. Replace the MAIN board.
3 Is the PFP upper drawer feed Yes 4
clutch working?
(Perform the output check in No 1. Check if the connector of the PFP upper drawer
the test mode: 04-226) feed clutch is disconnected.
2. Check if any of the connectors CN241, CN242 and
CN247 on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the PFP board
and MAIN board are short circuited or open
circuited.
6. Replace the PFP upper drawer feed clutch.
7. Replace the PFP board.
8. Replace the MAIN board.

4 Check the PFP upper drawer feed roller, separation


roller and pickup roller.
Replace them if they are worn out.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 15
[E16] PFP lower drawer misfeeding (paper not reaching the PFP lower drawer feed sensor)
Classification Contents

Paper misfeeding PFP lower drawer misfeeding (paper not reaching the PFP lower
drawer feed sensor)

Next
Step Check Item Result Measure
Step

1 Open the PFP side cover. Is Yes Remove the paper. 2


there any paper in front of the
PFP lower drawer feed No
sensor?

2 Is the PFP lower drawer feed Yes 3


sensor working?
(Perform the input check in No 1. Check if the connector of the PFP lower drawer
the test mode: 13-[04. feed sensor is disconnected.
SENSOR TEST]) 2. Check if either of the connectors CN241 or CN243
on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the PFP board
and MAIN board are short circuited or open
circuited.
6. Replace the PFP lower drawer feed sensor.
7. Replace the PFP board.
8. Replace the MAIN board.
3 Is the PFP lower drawer feed Yes 4
clutch working?
(Perform the output check in No 1. Check if the connector of the PFP lower drawer
the test mode: 04-228) feed clutch is disconnected.
2. Check if any of the connectors CN241, CN242 and
CN248 on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the PFP board
and MAIN board are short circuited or open
circuited.
6. Replace the PFP lower drawer feed clutch.
7. Replace the PFP board.
8. Replace the MAIN board.

4 Check the PFP lower drawer feed roller, separation


roller and pickup roller.
Replace them if they are worn out.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 16
8.3.3 Cover open jam
[E40] ADU cover opened during printing
Classification Contents

Cover open jam ADU cover opened during printing

Next
Step Check Item Result Measure
Step

1 Is the ADU cover open? Yes Remove paper if there is any, then close the cover. 2

No

2 Is the voltage of 24V being Yes 3


supplied from the power
supply unit? No 1. Check if the connector for 24 V power supply is
(Perform the input check in disconnected.
the test mode: 13-[04. 2. Check if the connector CN23 on the MAIN board is
SENSOR TEST]) disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the MAIN board.

3 Replace the MAIN board. 8

[E41] Front cover opened during printing


Classification Contents

Cover open jam Front cover opened during printing

Next
Step Check Item Result Measure
Step

1 Is the front cover open? Yes Close the cover. 2

No

2 Is the front cover opening/ Yes 3


closing switch working?
(Perform the input check in No 1. Check if the connector of the front cover opening/
the test mode: 13-[04. closing switch is disconnected.
SENSOR TEST]) 2. Check if the connector CN3 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the front cover opening/closing switch.
6. Replace the MAIN board.
3 Is the voltage of 24V being Yes 4
supplied from the power
supply unit? No 1. Check if the connector for 24 V power supply is
(Perform the input check in disconnected.
the test mode: 13-[04. 2. Check if the connector CN23 on the MAIN board is
SENSOR TEST]) disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the MAIN board.

4 Replace the MAIN board.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 17
[E42] PFP side cover opened during printing
Classification Contents

Cover open jam PFP side cover opened during printing

Next
Step Check Item Result Measure
Step

1 Is the PFP side cover open? Yes Remove the paper if there is any, then close the cover. 2

No

2 Is the PFP side cover Yes 3


opening/closing switch
working? No 1. Check if the connector of the PFP side cover
(Perform the input check in opening/closing switch is disconnected.
the test mode: 13-[04. 2. Check if either of the connectors CN241 or CN243
SENSORT TEST]) on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the PFP board
and MAIN board are short circuited or open
circuited.
6. Replace the PFP side cover opening/closing
switch.
7. Replace the PFP board.
8. Replace the MAIN board.

3 1. Replace the PFP board.


2. Replace the MAIN board.

[E44] PFU cover opened during printing


Classification Contents

Cover open jam PFU cover opened during printing

Next
Step Check Item Result Measure
Step

1 Is the PFU cover open? Yes Remove the paper if there is any, then close the cover. 2

No

2 Is the PFU cover opening/ Yes 3


closing switch working?
(Perform the input check in No 1. Check if the connector of the PFU cover opening/
the test mode: 13-[04. closing switch is disconnected.
SENSOR TEST]) 2. Check if the connector CN4 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
5. Replace the PFU cover opening/closing switch.
6. Replace the MAIN board.

3 Replace the MAIN board.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 18
8.3.4 Transport jam (ADF)
[E71] Jam not reaching the original registration sensor
Classification Contents

Transport jam (ADF) Jam not reaching the original registration sensor

Next
Step Check Item Result Measure
Step

1 Are the pickup roller, feed Yes Clean the rollers or replace them. 2
roller and separation roller
stained or worn out? No

2 Is the original excessively Yes Flatten and set it again.


curled or folded?
No 3

3 Are the original registration Yes 4


sensor working?
(Perform the input check: 13- No 1. Check if the connectors of the original registration
[04. SENSOR TEST]) sensor are disconnected.
2. Check if the connector CN74 on the ADF board is
disconnected.
3. Check if the connector pins are disconnected or the
harnesses are open circuited.
4. Check if the conductor pattern on the ADF board is 8
short circuited or open circuited.
5. Replace the original registration sensor.
6. Replace the ADF board.

4 Replace the ADF board.

[E72] Jam not reaching the read sensor


Classification Contents

Transport jam (ADF) Jam not reaching the read sensor

Next
Step Check Item Result Measure
Step

1 Are the registration roller and Yes Clean the rollers.


read roller stained?
No 2

2 Is the read sensor working? Yes 3


(Perform the input check: 13-
[04. SENSOR TEST]) No 1. Check if the connector of the read sensor are
disconnected.
2. Check if the connector CN75 on the ADF board is
disconnected.
3. Check if the connector pins are disconnected or the
harnesses are open circuited.
4. Check if the conductor pattern on the ADF board is
short circuited or open circuited.
5. Replace the read sensor.
6. Replace the ADF board.

3 Replace the ADF board.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 19
[E73] Stop jam at the exit sensor
Classification Contents

Transport jam (ADF) Stop jam at the exit sensor

Next
Step Check Item Result Measure
Step

1 Is the exit roller stained? Yes Clean the roller.

No 2

2 Is the exit sensor working? Yes 3


(Perform the input check: 13-
[04. SENSOR TEST]) No 1. Check if the connector of the exit sensor is
disconnected.
2. Check if the connector CN75 on the ADF board is
disconnected.
3. Check if the connector pins are disconnected or the
harnesses are open circuited.
4. Check if the conductor pattern on the ADF board is
short circuited or open circuited.
5. Replace the exit sensor.
6. Replace the ADF board.

3 Replace the ADF board.

[E74] Stop jam at the reverse sensor (RADF)


Classification Contents

Transport jam (ADF) Stop jam at the reverse sensor (RADF)

Next
Step Check Item Result Measure
Step

1 Are the read roller and Yes Clean the rollers.


reverse roller stained?
No 2

2 Is the reverse sensor Yes 3


working? (Perform the input
check: 13-[04. SENSOR No 1. Check if the connector of the reverse sensor is
TEST]) disconnected.
2. Check if the connector CN4 on the RADF board is
disconnected.
3. Check if the connector pins are disconnected or the
harnesses are open circuited.
4. Check if the conductor pattern on the RADF board
is short circuited or open circuited.
5. Replace the reverse sensor.
6. Replace the RADF board.

3 Replace the RADF board.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 20
[E86] ADF jam access cover open
Classification Contents

Transport jam (ADF) ADF jam access cover open

Next
Step Check Item Result Measure
Step

1 Is the ADF jam access cover Yes Remove the original, if any, and close the ADF jam
opened? access cover.

No 2

2 Is the ADF jam access cover Yes 3


switch working?
(Perform the input check: 13- No 1. Check if the connector of the ADF jam access cover
[04. SENSOR TEST]) switch is disconnected.
2. Check if the connector CN75 on the ADF board is
disconnected.
3. Check if the connector pins are disconnected or the
harnesses are open circuited.
4. Check if the conductor pattern on the ADF board is
short circuited or open circuited.
5. Replace the ADF jam access cover switch.
6. Replace the ADF board.

3 Replace the ADF board. 8

[E87] ADF open jam


Classification Contents

Transport jam (ADF) ADF open jam

Next
Step Check Item Result Measure
Step

1 Is the ADF opened? Yes Remove the original, if any, and close the ADF.

No 2

2 Is the ADF opening/closing Yes 3


sensor adjusted within the
specified range? No Adjust the ADF opening/closing sensor.

3 Is the ADF opening/closing Yes 4


sensor working?
(Perform the input check: 13- No 1. Check if the connector of the ADF opening/closing
[04. SENSOR TEST]) sensor is disconnected.
2. Check if the connector CN74 on the ADF board is
disconnected.
3. Check if the connector pins are disconnected or the
harnesses are open circuited.
4. Check if the conductor pattern on the ADF board is
short circuited or open circuited.
5. Replace the ADF opening/closing sensor.
6. Replace the ADF board.

4 Replace the ADF board.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 21
8.3.5 Drive system related service call
[C01] Main motor is abnormal
Classification Contents

Drive system related service call Main motor is abnormal

Next
Step Check Item Result Measure
Step

1 Is the main motor working? Yes 2


(Perform the output check in
the test mode: 04-101/151) No 1. Check if the connector CN1 of the main motor is
disconnected.
2. Check if the connector CN16 on the MAIN board is
disconnected.
3. Check if the connector pins are disconnected and
the harnesses are open circuited.
4. Check if the conductor patterns on the main motor
board and MAIN board are short circuited or open
circuited.
5. Replace the main motor.
6. Replace the MAIN board.

2 Is the LED on the main motor Yes 3


board lit without flickering?
No 1. Check if the connector pins are disconnected and
the harnesses are open circuited.
2. Check if the conductor patterns on the main motor
board and MAIN board are short circuited or open
circuited.
3. Replace the main motor.
4. Replace the MAIN board.

3 1. Check if the PLL lock signal CN305-B8 output from


the MAIN board is always level “L”.
2. Check if the voltage supplied to the CPU input
terminal IC24-12 is always “L”.
3. Replace the MAIN board.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 22
[C08] ADU motor IC overcurrent detection error
Classification Contents

Drive system related service call ADU motor IC overcurrent detection error

Next
Step Check Item Result Measure
Step

1 Is the ADU motor working? Yes 2


(Perform the output check in
the test mode: 04-110/160) No 1. Check if any of the connectors CN251 and CN252
on the ADU board is disconnected.
2. Check if the relay connector between the ADU
board and the PFC board is disconnected.
3. Check if the connector CN246 on the PFC board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the ADU board
and the PFC board are short circuited or open
circuited.
6. Replace the ADU motor.
7. Replace the ADU board.
8. Replace the PFC board.

2 Is the voltage supplied to the Yes 3


driver IC terminal IC1-18 on 8
the ADU board is always at No 1. Check if the voltage supplied to the connector
level "H"? CN251-12 on the ADU board is always at level "H".
2. Check if the voltage supplied to the connector
CN246-6 on the PFC board is always at level "H".
3. Check if the voltage supplied to the CPU input
terminal (IC4-96) on the PFC board is always at
level "H".
4. Replace the PFC board.

3 Replace the ADU board.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 23
8.3.6 Paper feeding system related service call
[C04] PFP motor is abnormal
Classification Contents

Paper feeding system related service PFP motor is abnormal


call

Next
Step Check Item Result Measure
Step

1 Is the PFP motor working? Yes 2


(Perform the output check in
the test mode: 04-109/159) No 1. Check if the signal line connector CN503 of the
PFP motor is disconnected.
2. Check if the power line connector CN502 of the
PFP motor is disconnected.
3. Check if the connector CN246 on the PFP board is
disconnected.
4. Check if the signal line connector CN241 on the
PFP board is disconnected.
5. Check if the power line connector CN242 on the
PFP board is disconnected.
6. Check if the connector CN13 on the MAIN board is
disconnected.
7. Check if the connector pins are disconnected and
the harnesses are open circuited.
8. Check if the conductor patterns on the PFP motor
board, PFP board and MAIN board are short
circuited or open circuited.
9. Replace the PFP motor.
10. Replace the PFP board.
11. Replace the MAIN board.

2 Is the LED on the PFP motor Yes 3


board lit without flickering?
No 1. Check if the connector pins are disconnected and
the harnesses are open circuited.
2. Check if the conductor patterns on the PFP motor
board, PFP board and MAIN board are short
circuited or open circuited.
3. Replace the PFP motor.
4. Replace the PFP board.
5. Replace the MAIN board.

3 1. Check if the PLL lock signal CN246-8 output from


the PFP board is always “L” level.
2. Check if the voltage supplied to the microcomputer
input terminal IC5-17 is always “L” level.
3. Replace the PFP board.
4. Replace the MAIN board.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 24
[C15] PFP upper drawer tray is abnormal
[C16] PFP lower drawer tray is abnormal
Classification Contents

Paper feeding system related service PFP upper drawer tray is abnormal
call PFP lower drawer tray is abnormal

Next
Step Check Item Result Measure
Step

1 Does the tray go up? Yes 2


(Perform the output check in
the test mode: 04-278/280) No 1. Check if the connector of the tray-up motor is
disconnected.
2. Check if any of the connectors CN241, CN242 and
CN244 on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the PFP board
and MIAN board are short circuited or open
circuited.
6. Replace the PFP board.
7. Replace the MAIN board.
8
2 Is the tray-up sensor working? Yes 3
(Perform the input check in
the test mode: 13-[04. No 1. Check if the connector of the sensor is
SENSOR TEST]) disconnected.
2. Check if any of the connectors CN241, CN247 and
CN248 on the PFP board is disconnected.
3. Check if the connector CN13 on the MAIN board is
disconnected.
4. Check if the slit reaches the sensor.
5. Check if the connector pins are disconnected and
the harnesses are open circuited.
6. Check if the conductor patterns on the PFP board
and MAIN board are short circuited or open
circuited.
7. Replace the PFP board.
8. Replace the MAIN board.

3 1. Check if the conductor pattern on the MAIN board is


short circuited or open circuited.
2. Replace the MAIN board.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 25
8.3.7 Scanning system related service call
[C21] CIS unit initialization error
Classification Contents

Scanning system related service call CIS unit initialization error

Next
Step Check Item Result Measure
Step

1 Does the CIS case move to its Yes 1. Check if the CIS home position sensor is installed
home position when the properly.
power is turned ON? 2. Check if any of the connectors is disconnected from
the CIS home position sensor.
3. Check if the connector CN14 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the MAIN board
are short circuited or open circuited.
6. Replace the CIS home position sensor.
7. Replace the MAIN board.

No 2

2 Is there any abnormal sound Yes 1. Check if the CIS unit drive belt-1 or the CIS unit
when the CIS case is drive belt-2 is damaged.
moving? 2. Check if the belt tension of the CIS unit drive belt-1
or the CIS unit drive belt-2 is loose.
3. Check if the joint of the belt stopper and the CIS
unit drive belt-1 is loose.

No 3

3 1. Check if the tension of the CIS unit drive belt-1 or


the CIS unit drive belt-2 is too tight.
2. Check if any of the connectors of the scan motor is
disconnected.
3. Check if the connector CN18 on the MAIN board is
disconnected.
4. Check if the connector pins are disconnected and
the harnesses are open circuited.
5. Check if the conductor patterns on the MAIN board
are short circuited or open circuited.
6. Replace the scan motor.
7. Replace the MAIN board.

[C26] Peak detection error / FPGA configuration error


Classification Contents

Scanning system related service call Peak detection error / FPGA configuration error

Next
Step Check Item Result Measure
Step

1 Does the exposure lamp Yes Replace the CIS unit.


light? (Perform the output
check in the test mode: 04- No 1. Check if the connector of the CIS unit are
267) disconnected.
2. Check the MAIN board if the connector (CN6) is
disconnected and the harness is short circuited or
open circuited.
3. Check if the conductor pattern on the MAIN board is
short circuited or open circuited.
4. Replace the MAIN board.
5. Replace the CIS unit.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 26
8.3.8 Fuser unit related service call

CAUTION
Be sure to turn OFF the power and unplug the power cable beforehand when checking the
heater.
The fuser unit itself or the part of the unit remains heated and the capacitors are still charged
after a while the power cable is unplugged. So make sure the unit is cooled down enough
before checking.

[C41] Thermistor or heater is abnormal at power ON


Classification Contents

Fuser unit related service call Thermistor or heater is abnormal at power ON

Check Item Measure

Check the thermistors • Check if the connectors are disconnected.


• Check if the center, side and edge thermistors are in contact with
the surface of the fuser roller properly.
• Check if the harnesses of the center, side and edge thermistors are
open circuited. 8
Check the heater • Check if the heater is broken.
• Check if the connector of the heater is disconnected.
• Check if the thermostat is blown.

Check the MAIN board • Check if the connectors CN17 are disconnected.
• Check if the conductor pattern on the MAIN board is short circuited
or open circuited.
• Replace the MAIN board.

Check the switching regulator • Check if the connectors CN108 are disconnected.

Clear the status counter After repairing the matter which caused the error [C41], perform the
following:
1. Turn ON the power while [0] and [8] are pressed simultaneously.
2. Key in “400”, then press [ENTER].
3. Change the current status counter value “1” or “2” to “0”, then press
[ENTER] (to cancel [C41]).
4. Turn the power OFF and then back ON. Make sure that the
equipment enters the normal ready state.

Parts to be replaced Remark

MAIN board

Switching regulator

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 27
[C43] Thermistor abnormality during warming up or in ready status after abnormality judgment
Classification Contents

Fuser unit related service call Thermistor abnormality during warming up or in ready status after
abnormality judgment

Check Item Measure

Check the thermistors • Check if the connectors are disconnected.


• Check if the center, side and edge thermistors are in contact with
the surface of the fuser roller properly.
• Check if the harnesses of the center, side and edge thermistors are
open circuited.

Check the heater • Check if the heater is broken.


• Check if the connector of the heater is disconnected.
• Check if the thermostat is blown.

Check the MAIN board • Check if the connectors CN17 are disconnected.
• Check if the conductor pattern on the MAIN board is short circuited
or open circuited.
• Replace the MAIN board.

Check the switching regulator • Check if the connectors CN108 are disconnected.

Clear the status counter After repairing the matter which caused the error [C43], perform the
following:
1. Turn ON the power while [0] and [8] are pressed simultaneously.
2. Key in “400”, then press [ENTER].
3. Change the current status counter value “4” to “0”, then
press [ENTER] (to cancel [C43]).
4. Turn the power OFF and then back ON. Make sure that the
equipment enters the normal ready state.

Parts to be replaced Remark

MAIN board

Switching regulator

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 28
[C44] Fuser is abnormal after abnormality judgment
Classification Contents

Fuser unit related service call Fuser is abnormal after abnormality judgment

Check Item Measure

Check the thermistors • Check if the connectors are disconnected.


• Check if the center, side and edge thermistors are in contact with
the surface of the fuser roller properly.
• Check if the harnesses of the center, side and edge thermistors are
open circuited.

Check the heater • Check if the heater is broken.


• Check if the connector of the heater is disconnected.
• Check if the thermostat is blown.

Check the MAIN board • Check if the connectors CN17 are disconnected.
• Check if the conductor pattern on the MAIN board is short circuited
or open circuited.
• Replace the MAIN board.

Check the switching regulator • Check if the connectors CN108 are disconnected.

Clear the status counter Change the current status counter value (08-400) “5”, “7” or “9” to “0”
for [C44], taking the same procedure as that for [C41].
8
* The status counter value is as follows in the following cases.
Change them to “0” respectively.
• The error occurred during warming-up: “5”
• The error occurred after the equipment has become ready: “7”
• The temperature detected by the center thermistor is 230°C or
higher: “9”
• The temperature detected by the side thermistor is 230°C or
higher: “9”
• The temperature detected by the edge thermistor is 230°C or
higher: “9” only during printing.

Parts to be replaced Remark

MAIN board

Switching regulator

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 29
[C45] Thermistor abnormality during printing
Classification Contents

Fuser unit related service call Fuser is abnormal after abnormality judgment

Check Item Measure

Check the thermistors • Check if the connector is disconnected.


• Check if the edge thermistor is in contact with the surface of the
fuser roller properly.
• Check if the harness of the edge thermistor is open circuited.

Check the MAIN board • Check if the connectors CN17 are disconnected.
• Check if the conductor pattern on the MAIN board is short circuited
or open circuited.
• Replace the MAIN board.

Clear the status counter Change the current status counter value (08-400) “6” to “0”.

Parts to be replaced Remark

MAIN board

Switching regulator

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 30
8.3.9 ADF related service call
No service call for the ADF (MR-2020) and RADF (MR-3023).

8.3.10 Laser optical unit related service call


[CA1] Polygonal motor is abnormal
Classification Contents

Laser optical unit related service call Polygonal motor is abnormal

Next
Step Check Item Result Measure
Step

1 Is the polygonal motor Yes 1. Check if the conductor pattern on the MAIN board is
rotating? short circuited or open circuited.
2. Replace the MAIN board.

No 1. Check if the connector of the harness is


disconnected between MAIN board (CN24) and the
laser optical unit.
2. Check if the harness is open circuited and the
connector pin is disconnected.
3. Check if the conductor pattern on the MAIN board is 8
short circuited or open circuited.
4. Replace the laser optical unit.
5. Replace the MAIN board.

[CA2] H-Sync detection error


Classification Contents

Laser optical unit related service call H-Sync detection error

Next
Step Check Item Result Measure
Step

1 Are the harness open Yes 1. Connect the disconnected connectors.


circuited and the connectors 2. Replace the laser optical unit if the harness is open
disconnected or circuited.
misconnected between the
MAIN board (CN21, CN22) No 1. Replace the MAIN board.
and laser optical unit? 2. Replace the laser optical unit.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 31
8.3.11 Service call for others
[C94] Firmware update error
Classification Contents

Service call for others Firmware update error

Check Item Measure

Check the MAIN board. A C94 error message appears when either of the following Main PC
boards is installed to e-STUDIO195/225/245.
• The Main PC board for e-STUDIO182.
• The Main PC board for e-STUDIO165/167/205/207/237.

[C97] High-voltage transformer abnormality


Classification Contents

Service call for others High-voltage transformer abnormality

Check Item Measure

Check the High-voltage transformer. 1. Is the main charger installed securely?


2. Check if the spring of high-voltage supply contact point is
deformed.
3. Check if the needle electrode is broken or the main charger grid is
deformed.
4. Check if any foreign matters is on the needle electrode or the main
charger grid.
5. Is the transfer/separation charger installed securely?
6. Check if the transfer/separation charger wire is broken or
unhooked.
7. Check if any foreign matter is on the transfer/separation charger
wire.

[C99] PFC microcomputer abnormality


Classification Contents

Service call for others PFC microcomputer abnormality

Check Item Measure


Check the PFC board. 1. Check if the error still occurs when the power is turned OFF and
then back ON.
2. Check if the conductor patterns on the PFC board are short
circuited or open circuited.
3. Replace the PFC board.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 32
[F14] Invalid backup counter
Classification Contents

Service call for others Invalid backup counter

Next
Step Check Item Result Measure
Step

1 Has the MAIN board been Yes Download the counter value of the SRAM board to the
replaced? MAIN board in the setting mode (08-389).

No 2

2 Has the SRAM board been Yes Download the counter value of the MAIN board to the
replaced? SRAM board in the setting mode (08-388).

No 3

3 1. Check if the connector CN2 on the SRAM board


and the connector CN2 on the MAIN board are
securely connected.
2. Replace the SRAM board.
3. Replace the MAIN board.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 33
8.3.12 Optical communication related service call
[C55] ADF I/F error
Classification Contents

Optical communication related service ADF I/F error


call

Check Item Measure

Check the connection. 1. Check if the connector CN71 on the ADF/RADF board is
disconnected.
2. Check if the relay connector between the ADF/RADF board and the
PFC board is disconnected.
3. Check if the connector CN246 on the PFC board is disconnected.
4. Check if the connector pins are disconnected and the harnesses
are open circuited.
5. Check if the conductor patterns on the ADF/RADF board and the
MAIN board are short circuited or open circuited.
6. Replace the ADF/RADF board.
7. Replace the MAIN board.

[C56] PFC board I/F error


Classification Contents

Optical communication related service PFC board I/F error


call

Check Item Measure

Check the connection. 1. Check if the connector CN113 on the MAIN board is disconnected.
2. Check if the connector CN112 on the switching regulator is
disconnected.
3. Check if any of the connectors CN241 and CN242 on the PFC
board is disconnected.
4. Check if the relay connector between the ADU board and the PFC
board is disconnected.
5. Check if the connector pins are disconnected and the harnesses
are open circuited.
6. Check if the conductor patterns on the PFC board and the MAIN
board are short circuited or open circuited.
7. Replace the PFC board.
8. Replace the MAIN board.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 34
8.4 Troubleshooting for the Image
1. Abnormality of image density / Gray balance

Image density Gray balance

Feeding direction

8
Fig. 8-1

Defective area Step Check items Prescription


Density/Gray balance 1 Check the density/gray balance. Adjust the density.
Printer section 2 Check test print image (13- [02. Go to step 4 if there is any problem
PRINT TEST] -113). on image.
Scanner 3 Are the original glass and CIS unit Clean them.
dirty?
Printed image 4 Is the image faded? Perform troubleshooting for faded
image.
5 Is background fogging occurring? Perform troubleshooting for
background fogging.
6 Is there a blotch on the image? Perform troubleshooting for blotched
image.
7 Is the image transferred normally? Perform troubleshooting for
abnormal transfer.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 35
2. Background fogging

Feeding direction

Fig. 8-2

Defective area Step Check items Prescription


Density reproduction 1 Check the reproduction of the image Adjust the density.
density.
Background reproduction 2 Check the background reproduction. Adjust the background.
Printer section 3 Check test print image (13- [02. Go to step 4 if there is any problem
PRINT TEST] -113). on image.
Scanner 4 Are the original glass and CIS unit Clean them.
dirty?
Auto-toner 5 Is the auto-toner sensor normal? Check the performance of the auto-
toner sensor and readjust.
6 Is the toner supplied normally? Check the motor and circuits.
High-voltage transformer 7 Is the high-voltage transformer Adjust the output, or replace the
(Main charger / Developer output defective? transformer.
bias)
Developer unit 8 Is the contact between the drum and Adjust the doctor-sleeve gap and
developer material normal? polarity.
Developer material/Toner/ 9 Using the specified developer Use the specified developer material,
Drum material, toner and drum? toner and drum.
10 Have the developer material and Replace the developer material and
drum reached their PM life? drum.
11 Is the storage environment of the Use the toner cartridge stored in the
toner cartridge 35°C less without environment within specification.
dew?
Drum cleaning blade 12 Is the drum cleaned properly? Check the pressure of the drum
cleaning blade.
Toner dusting 13 Is toner heaped on the seal of the Remove the toner and clean the
developer unit? developer unit.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 36
3. Moire/lack of sharpness
A B

Feeding direction

Fig. 8-3 8

Moire
Defective area Step Check items Prescription

Density reproduction 1 Check the reproduction of the image Adjust the density.
density.

Parameter adjustment 2 Check the image processing Check the adjustment value for
value parameters. sharpness.
Printer section 3 Check test print image (13- [02. When defects occur, perform the
PRINT TEST] -113). corresponding troubleshooting
procedure.

Lack of sharpness
Defective area Step Check items Prescription

Density reproduction 1 Check the reproduction of the image Adjust the density.
density.

Parameter adjustment 2 Check the image processing Check the adjustment value for
value parameters. sharpness.

Printer section 3 Check test print image (13- [02. When defects occur, perform the
PRINT TEST] -113). corresponding troubleshooting
procedure.

4 Check the image processing Check the encircled areas A and B in


parameters. the image, and change the
sharpness intensity in the sharpness
adjustment mode.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 37
4. Toner offset

Approx.94mm

Feeding direction
Fig. 8-4

Toner offset (Shadow image appears approx. 94 mm toward the dark image.)
Defective area Step Check items Prescription

Density 1 Is the density too high? Adjust the density.

Fuser unit 2 Is the pressure of the fuser roller Check the pressure releasing parts
normal? and pressurization mechanism.

3 Is the thermistor in contact with the Contact the thermistor with the fuser
fuser roller? roller.

4 Is there a scratch on the fuser roller Replace the fuser roller.


surface?

5 Has the fuser roller reached its PM Replace the fuser roller.
life?

6 Is the setting temperature of the fuser Check the adjustment values of fuser
roller normal? roller temperature?
08-407, 410, 411, 450, 515, 516

Paper 7 Has the appropriate paper type been Select a proper mode.
selected?

8 Is the setting temperature of the fuser Check the setting and correct it.
roller in each paper type normal? 08-413, 437, 438, 451, 452, 453,
520, 521

9 Using the recommended paper? Use the recommended paper.

Developer material 10 Using the specified developer Use the specified developer material
material? and toner.

Scanner 11 Are the original glass (especially the Clean them.


position of shading correction plate)
and CIS unit dirty?

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ERROR CODE AND TROUBLESHOOTING
8 - 38
5. Blurred image

Feeding direction

Fig. 8-5

8
Defective area Step Check items Prescription

Paper 1 Is the paper in the drawer damp? Change paper. Avoid storing paper in
damp place.

Bedewed scanner 2 Is the scanner bedewed? Clean the scanner.

Drum 3 Is the drum surface wet or dirty? Wipe the drum with a piece of dry
cloth.
* Do not use alcohol or other
organic solvents.

Ozone exhaust 4 Is the exhaust fan operating Check the connection of connector.
properly? Replace the ozone exhaust fan.

5 Is the ozone filter stained or Replace the ozone filter.


damaged?

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 39
6. Poor fusing

Feeding direction

Fig. 8-6

Defective area Step Check items Prescription

Heater electric power 1 Check if the connector contacts Correct it.


properly.

2 Is the heater shorted or broken? Replace the heater.

Pressure between fuser 3 Are the pressure springs working Check and adjust the pressure
roller and pressure roller properly? springs.

Fuser roller temperature 4 Is the temperature of the fuser roller Check the setting and correct it.
normal? 08-407, 410, 411, 450, 515, 516

Developer material/Toner 5 Using the specified developer Use the specified developer material
material and toner? and toner.

Paper 6 Is the paper in the drawer damp? Avoid storing paper in damp place.

7 Is the paper type corresponding to its Use the proper type of paper or
mode? select the proper mode.

8 Is the setting temperature of the fuser Check the setting and correct it.
roller in each paper type normal? 08-413, 437, 438, 451, 452, 453,
520, 521

9 Using the recommended paper? Use the recommended paper.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 40
7. Blank copy

Feeding direction

Fig. 8-7

8
Defective area Step Check items Prescription
Transfer charger wire 1 Is the transfer charger wire cut off? Replace the transfer charger wire.
High-voltage transformer 2 Is the high-voltage transformer Adjust the output, or replace the
(Transfer charger, output defective? transformer.
Developer bias)
3 Are the connectors of the high- Reconnect the harness securely.
voltage harness securely connected? Replace the high-voltage harness.
Is the harness open circuited?
Developer unit 4 Is the developer unit installed Check and correct the engaging
properly? condition of the developer unit gears.
5 Do the developer sleeve and mixers Check and fix the drive system of the
rotate? developer unit.
6 Is the developer material smoothly Remove the foreign matter from the
transported? developer material.
7 Has the magnetic brush phase been Adjust the developer polarity.
shifted?
8 Is the doctor blade positioned Adjust it using the doctor-sleeve jig.
properly?
Drum 9 Is the drum rotating? Check the drive system of the drum.
MAIN, LDR, SNS boards, 10 Are the connectors securely Connect the connectors securely.
CIS unit and harnesses connected? Replace the harness.
Check if the harnesses connecting
the boards are open circuited.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 41
8. Solid copy

Feeding direction

Fig. 8-8

Defective area Step Check items Prescription

Scanner 1 Does the exposure lamp light? Check if the connector contacts with
the MAIN board and CIS unit
terminal.

Bedewed scanner and 2 Is the scanner or drum bedewed? Clean the CIS unit and drum.
drum Keep the power cord plugged in all
trough the day and night.
(For the model with damp heater)

Main charger 3 Is the main charger securely Install it securely.


installed?

4 Is the needle electrode broken? Replace the needle electrode.

High-voltage transformer 5 Is the high-voltage transformer Adjust the output, or replace the
(Main charger) output defective? transformer.

6 Are the connectors of the high- Reconnect the harness securely.


voltage harness securely connected? Replace the high-voltage harness.
Is the harness open circuited?

MAIN, LDR, SNS boards, 7 Are the connectors securely Connect the connectors securely.
CIS unit and harnesses connected? Replace the harness.
Check if the harnesses connecting
the boards are open circuited.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 42
9. White banding (in the feeding direction)

Feeding direction

Fig. 8-9

8
Defective area Step Check items Prescription
Laser optical unit 1 Is there a foreign matter or stain on Remove the foreign matter or stain.
the slit glass?
Main charger grid 2 Is there a foreign matter or dew on Remove the foreign matter.
the charger grid?
Transfer charger wire 3 Is there any foreign matter or stain on Clean the transfer charger wire.
the transfer charger wire?
Developer unit 4 Is the floated lid of the developer Check the lid and place it properly.
bottle blocking the laser light path?
5 Is the developer material transported Remove the foreign matter if there is
properly? any. *1)
6 Is there a foreign matter or dew on Remove the foreign matter or dew.
the drum seal?
7 Is the upper drum seal of the Correct the position of the drum seal
developer unit in contact with the or replace it.
drum?
Drum 8 Is there a foreign matter on the drum Replace the drum.
surface?
Transport path 9 Does the toner image contact with Remove the foreign matter.
any foreign matter before the paper
enters the fusing section after the
separation?
Discharge LED 10 Is any of the discharge LEDS off? Replace the discharge LED.
Scanner 11 Are the original glass (especially the Clean them.
position of shading correction plate)
and CIS unit dirty?
Cleaner 12 Is there any foreign matter, which Remove the foreign matter.
contacts the drum on the cleaner
stay?

*1) Prescription for foreign matter in the doctor sleeve gap


- Pull the doctor blade [1] in the direction of the arrow.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 43
- Rotate the gear [2].
- Remove the foreign matter that has come out on the developer sleeve [3].

[1]

[3]

[2]

Fig. 8-10

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 44
10.White banding (at right angle with the feeding direction)

Feeding direction

Fig. 8-11

8
Defective area Step Check items Prescription

Main charger 1 Is there a foreign matter on the Remove the foreign matter.
charger?

2 Is the connector in proper contact Clean or adjust the terminal.


with the terminal?
Drum 3 Is there any abnormality on the drum Replace the drum.
surface?

Discharge LED 4 Does the discharge LED light Replace the discharge LED or check
normally? the harness and the circuit.
Developer unit 5 Is the developer sleeve rotating Check the drive system of the
normally? developer unit, or clean the sleeve
Is there any abnormality on the surface.
sleeve surface?
Drive system 6 Are the drum and scanner jittering? Check each drive system.

High-voltage transformer 7 Is the high-voltage transformer Adjust the output, or replace the
(Main charger / Developer output defective? transformer.
bias / Transfer charger)

Transfer charger 8 Is any foreign matter such as paper Remove the foreign matter from the
shred sticking to the transfer charger wire.
wire?
Feed system 9 Is the aligning amount proper? Adjust the aligning amount.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 45
11. Skew (inclined image)

Feeding direction

Fig. 8-12

Defective area Step Check items Prescription

Drawers 1 Is the drawer properly installed? Install the drawer properly.

2 Is there too much paper in the Reduce paper to 250 sheets or less.
drawer?

3 Is the corner of the paper folded? Change the direction of the paper
and set it again.

4 Are the side guides of the drawer Adjust the position of the side guides.
properly installed?

Feed roller 5 Is the surface of the feed roller dirty? Clean the feed roller surface with
alcohol, or replace the roller.

Rollers 6 Are the roller and shaft secured? Check and tighten the E-rings, pins,
clips and setscrews.

Registration roller 7 Is the spring detached from the Attach the spring correctly. Clean the
registration roller? roller if it is dirty.

Pre-registration guide 8 Is the pre-registration guide properly Correct it.


installed?

CIS unit 9 Is the CIS unit slanted? Replace the CIS case.

Feed system 10 Is the aligning amount proper? Adjust the aligning amount.

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ERROR CODE AND TROUBLESHOOTING
8 - 46
12.Black banding (in the feeding direction)

Feeding direction

Fig. 8-13

8
Defective area Step Check items Prescription
Shading correction plate 1 Is there dust or stains on part of the Clean the plate.
original glass where the shading
correction plate is placed.
Main charger 2 Is there a foreign matter on the main Remove the foreign matter.
charger grid?
3 Is the main charger grid dirty or Clean or replace the main charger
deformed? grid.
4 Is there a foreign matter on the main Remove the foreign matter.
charger?
5 Is the needle electrode dirty or Clean or replace the needle
deformed? electrode.
6 Is there a foreign matter inside the Remove the foreign matter.
main charger case?
7 Is the inside of the main charger case Clean the inside of the main charger
dirty? case.
Cleaner 8 Is there paper dust sticking to the Clean or replace the cleaning blade.
drum cleaning blade edge?
9 Is the drum cleaning blade working Check the pressurization of the drum
properly? cleaning blade.
10 Has the used toner been recovered Clean the toner recovery auger.
properly?
Fuser unit 11 Is the fuser roller surface dirty or Clean or replace the fuser roller.
damaged?
12 Is the thermistor dirty? Clean the thermistor.
Drum 13 Are there scratches on the drum Replace the drum.
surface?
Laser optical unit 14 Is there a foreign matter or stain on Remove the foreign matter or the
the slit glass? stain.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 47
13.Black banding (at right angle with the feeding direction)

Feeding direction

Fig. 8-14

Defective area Step Check items Prescription

Main charger 1 Is the needle electrode dirty or Clean or replace the needle
deformed? electrode.

Fuser unit 2 Are the fuser roller, separation finger Clean them.
for fuser roller and thermistor dirty?
3 Has the cleaning roller, pressure Replace them.
roller, fuser roller and separation
finger for fuser roller reached their
PM life?

High-voltage transformer 4 Is the high-voltage transformer Adjust the output, or replace the
(Main charger / Developer output defective? transformer.
bias / Transfer charger)
Drum 5 Is there a deep scratch on the drum Replace the drum if the scratch has
surface? reached the aluminum base.

6 Is there thin scratch (drum pitting) on Check and adjust the contact
the drum surface? condition of the cleaning blade and
recovery blade.

Scanner 7 Are the original glass (especially the Clean them.


position of shading correction plate)
and CIS unit dirty?

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 48
14.White spots

Feeding direction

Fig. 8-15

8
Defective area Step Check items Prescription
Developer unit, 1 Is the toner density in the developer Check and correct the auto-toner
Toner cartridge material appropriate? sensor and toner supply operation.
Check if the amount of the toner is
sufficient in the toner cartridge.
2 Is the doctor-sleeve gap proper? Adjust the doctor-sleeve gap.
Developer material, Toner, 3 Using the specified developer Use the specified developer material,
Drum material, toner and drum? toner and drum.
4 Have the developer material and Replace the developer material and
drum reached their PM life? drum.
5 Is the storage environment of the Use the toner cartridge stored in the
toner cartridge 35°C or less without environment with specification.
dew?
6 Is there any dent on the drum Replace the drum.
surface?
7 Is there any film forming on the Clean or replace the drum.
drum?
Main charger 8 Is there any foreign matter on the Remove it.
charger?
9 Is the needle electrode dirty or Clean or replace the needle
deformed? electrode.
High-voltage transformer 10 Is the high-voltage transformer Adjust the output, or replace the
(Main charger / Developer output defective? transformer.
bias / Transfer charger)
Transfer/Separation 11 Is there any foreign matter such as Clean the transfer/separation
charger fiber in the paper transport area of charger.
the transfer/separation charger?

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 49
15.Poor image transfer

Feeding direction

Fig. 8-16

Defective area Step Check items Prescription

Paper 1 Is the paper in the drawer curled? Reinsert the paper with the reverse
side up or change the paper.

2 Is the paper in the drawer damp? Avoid storing paper in damp place.

3 Is the paper type corresponding to its Select the proper mode.


mode?

4 Using the recommended paper? Use the recommended paper.

Transfer charger 5 Is the transfer charger case dirty? Clean the transfer charger case.

6 Is the transfer charger wire dirty? Clean the transfer charger wire.

Registration roller 7 Is there any abnormality related to Clean the roller if it is dirty. Securely
the registration roller or with the roller attach the springs if they are
itself? detached. Replace the clutch if it is
defective. Adjust the rotation speed
of the roller.

High-voltage transformer 8 Is the high-voltage transformer Adjust the output, or replace the
(Transfer charger) output defective? transformer.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 50
16.Uneven image density

Feeding direction

Fig. 8-17

8
Defective area Step Check items Prescription

Main charger 1 Is the main charger dirty? Clean or replace the needle
electrode and main charger grid.

Transfer charger 2 Is the transfer charger dirty? Clean the transfer charger.

3 Is the transfer charger wire dirty? Clean the transfer charger wire.

Laser optical unit 4 Is there any foreign matter or stain on Remove the foreign matter or stain.
the slit glass?

Discharge LED 5 Are the connectors of discharge LED Reconnect the harness securely.
harness securely connected?

6 Is the discharge LED dirty? Clean the discharge LED.

7 Is any of the discharge LEDs off? Replace the discharge LED.

Developer unit 8 Is the magnetic brush in proper Adjust the doctor-sleeve gap.
contact with the drum?

9 Is the developer sleeve Check the mechanism.


pressurization mechanism working?

10 Is the developer material transported Remove foreign matters if there is


normally? any.

Scanner section 11 Is the platen cover or ADF opened? Close the platen cover or ADF.

12 Are the original glass (especially the Clean them.


position of shading correction plate)
and CIS unit dirty?

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 51
17.Faded image (low density, abnormal gray balance)

Feeding direction

Fig. 8-18

Defective area Step Check items Prescription


Toner empty 1 Is “ADD TONER” symbol lit? Replace the toner cartridge.
Auto-toner circuit 2 Is there enough toner in the Check the performance of the auto-
cartridge? toner circuit.
3 Is the toner density in the developer
material too low?
Toner motor 4 Is the toner motor working normally? Check the toner motor and the motor
drive.
Toner cartridge 5 Is there any problem with the toner Replace the toner cartridge.
cartridge?
Developer material 6 Has the developer material reached Replace the developer material.
its PM life?
Developer unit 7 Is the magnetic brush in proper Check the installation of the
contact with the drum? developer unit.
Adjust the doctor-sleeve gap and
polarity.
8 Is the developer sleeve Check the mechanism.
pressurization mechanism working?
Main charger 9 Is the main charger dirty? Clean it or replace the needle
electrode and main charger grid.
Drum 10 Is “film-forming” occurring on the Clean or replace the drum.
drum surface?
11 Has the drum reached its PM life? Replace the drum.
Transfer charger 12 Is the transfer charger wire cut off? Replace the transfer charger wire.
High-voltage transformer 13 Is the setting for the high-voltage Adjust the output from the high-
transformer proper? voltage transformer.
14 Are the connectors of the high- Reconnect the harness securely.
voltage harness securely connected? Replace the high-voltage harness.
Is the harness open circuited?
Discharge LED 15 Are the connectors of discharge LED Reconnect the harness securely.
harness securely connected?

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ERROR CODE AND TROUBLESHOOTING
8 - 52
18.Image dislocation in feeding direction

Feeding direction

Fig. 8-19

8
Defective area Step Check items Prescription

Scanner/Printer 1 Have the printed images been Adjust the position of the leading
adjustment dislocated in the same manner? edge of paper in the Adjustment
Mode.

Registration roller 2 Is the registration roller dirty, or the Clean the registration roller with
spring detached? alcohol.
Securely attach the springs.

3 Is the registration roller working Adjust or replace the gears if they are
properly? not engaged properly.

Registration clutch 4 Is the registration clutch working Check the registration clutch, and
properly? replace them if necessary.

Pre-registration guide 5 Is the pre-registration guide installed Install the guide properly.
properly?

Feed system 6 Is the aligning amount proper? Adjust the aligning amount.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 53
19.Jittering image

Feeding direction

Fig. 8-20

Defective area Step Check items Prescription

— 1 Is the toner image on the drum If normal, perform steps 2 to 4.


normal? Perform step 5 and followings in case
the image is abnormal.

Registration roller 2 Is the registration roller rotating Check the registration roller area and
normally? springs for installation condition.

Fuser roller and pressure 3 Are the fuser roller and pressure Check the fuser roller area.
roller roller rotating normally? Replace the rollers if necessary.

Drum 4 Is there a big scratch on the drum? Replace the drum.


Operation of carriage 5 Is there any problem with the Replace the carriage foot.
carriage foot?

6 Is the tension of the timing belt Adjust the tension.


normal?

7 Is there any problem with the drive Check the drive system of the
system of the carriage? carriage.

Scanner 8 Is the CIS unit secured? Secure it.

Drum drive system 9 Is there any problem with the drive Check the drive system of the drum.
system of the drum? Clean or replace the gears if they
have stains or scratches.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 54
20.Poor cleaning

Feeding direction

Fig. 8-21

8
Defective area Step Check items Prescription

Developer material 1 Using the specified developer Use the specified developer material
material? and toner.

Cleaner 2 Is the cleaning blade in proper Check the cleaning blade.


contact with the drum?
3 Has the cleaning blade been turned Replace the cleaning blade.
up? Check and replace drum if
necessary.

Toner recovery auger 4 Is the toner recovered normally? Clean the toner recovery auger.
Check the pressure of the cleaning
blade.

Fuser unit 5 Is the cleaning roller damaged or has Replace the cleaning roller.
it reached its PM life?

6 Are there bubble-like scratches on Replace the fuser roller. Check and
the fuser roller (94 mm pitch on the adjust the temperature control circuit.
image)?

7 Has the fuser roller reached its PM Replace the fuser roller.
life?

8 Is the pressure of the fuser roller Check and adjust the mechanism.
normal?

9 Is the setting temperature of the fuser Check the setting and correct it.
roller normal? 08-407, 410, 411, 450, 515, 516

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 55
21.Uneven light distribution

Feeding direction

Fig. 8-22

Defective area Step Check items Prescription

Original glass 1 Is the original glass dirty? Clean the original glass.

Main charger 2 Are the needle electrode, main Clean or replace them.
charger grid and main charger case
dirty?
Discharge LED 3 Is the discharge LED dirty? Clean the discharge LED.

4 Is any of the discharge LEDs off? Replace the discharge LED.

Scanner 5 Are the original glass (especially the Clean them.


position of shading correction plate)
and CIS unit dirty?

Exposure lamp 6 Is the CIS unit degraded? Replace the CIS unit.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


ERROR CODE AND TROUBLESHOOTING
8 - 56
22.Blotched image

Feeding direction

Fig. 8-23

8
Defective area Step Check items Prescription

Paper 1 Is the paper type corresponding to its Check the paper type and mode.
mode?

2 Is the paper too dry? Change the paper.

Separation 3 Is the output from the separation Adjust the output, from the
charger too high? separation charger.

Transfer 4 Is the transfer charger case dirty? Clean the transfer charger case.

5 Is the transfer charger wire dirty? Clean the transfer charger wire.

High-voltage transformer 6 Is the output from the high-voltage Adjust the output. Replace the
(Transfer charger) transformer normal? transformer if necessary.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


ERROR CODE AND TROUBLESHOOTING
8 - 57
e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved
ERROR CODE AND TROUBLESHOOTING
8 - 58
9. REPLACEMENT OF PC BOARDS

9.1 Disassembly and Replacement of PC Boards


Notes:
• When the PC board is replaced, refer to the following pages.
P.9-7 "9.2 Caution in Replacing the MAIN board"
P.9-7 "9.3 Caution in Replacing the SRAM board"
• If the PC board has to be replaced due to an operational defect, this may have been caused
by a contact failure of the connector. Before replacing the board, disconnect and then
reconnect the connector to check if this action eliminates the operational defect.

9.1.1 MAIN board (MAIN)

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover"
(2) Disconnect 16 connectors.
Note:
Connect the flat harness to the MAIN board
with its electrode side down. An error “CA2”
will be displayed if the connection is
incorrect.

Fig. 9-1

(3) Remove 6 screws and take off the MAIN


board.
Notes:
1. When replacing the MAIN board, also
attach the SRAM board to the new MAIN
board from the old MAIN board.
2. Be sure to perform “08-389” after the
SRAM board has been replaced.
3. Be sure to perform "05-310" with the
platen cover or the ADF/RADF closed
after replacing the MAIN board.
MAIN board

Fig. 9-2

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REPLACEMENT OF PC BOARDS
9-1
9.1.2 SRAM board (SRAM)

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover"
(2) Release 1 lock support and take off the
SRAM board.
SRAM board
Notes:
1. Be sure to perform “08-388” after the
SRAM board has been replaced.
2. Perform "05-310" with the platen cover
and the ADF/RADF closed after replacing
the SRAM board.

Fig. 9-3

3. Make sure that the direction of the battery


on the SRAM board is correct when SRAM board
replacing it.

Battery

Fig. 9-4

9.1.3 Fuse PC board (FUS)


Note:
This fuse PC board is copacked with the damp heater unit. (The damp heater unit is optional for
NAD, CND and MJD.)

(1) Take off the rear cover.


P.4-4 "4.1.10 Rear cover"
(2) Remove 2 screws and take off the cover.

Cover

Fig. 9-5

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REPLACEMENT OF PC BOARDS
9-2
(3) Disconnect 2 connectors, remove 1 screw,
and then take off the fuse PC board by lifting
it up.

Connector

Fuse PC board
Fig. 9-6

9.1.4 Paper feed controller PC board (PFC)


Note:
This paper feed controller PC board is optional for NAD, CND and MJD.

(1) Take off the rear cover.


Mylar
P.4-4 "4.1.10 Rear cover" Connector (ADU)
(2) Disconnect 2 connectors, remove 4 screws,
and then take off the paper feed controller
PC board and mylar sheet. 9
Notes:
• If the ADU (optional) is installed, Connector (PFP)
disconnect 2 connectors of the ADU with
other connectors at the same time before
taking off the paper feed controller PC
board.
• If the PFP (optional) is installed, Paper feed controller
Connector PC board
disconnect 2 connectors of the PFP with
other connectors at the same time before Fig. 9-7
taking off the paper feed controller PC
board.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


REPLACEMENT OF PC BOARDS
9-3
9.1.5 Switching regulator unit (PS)

(1) Take off the left cover.


P.4-2 "4.1.3 Left cover"
(2) Disconnect 15 connectors.
Note: A
The number of connectors to be B
disconnected is 15 when the following
options are installed.
A: Paper Feed Controller (GH-1060)
B: Fax Kit (GD-1220/1221)

Fig. 9-8

Note:
Connect the connectors to the correct faston F
terminals on the switching regulator board.
Connector Harness
F. Red - Black-thick E
E. Blue - White-thick
D. White - Black-thin D
C. White - Red-thin C
B. White - Red-thick
A. White - White-thick B

Fig. 9-9

(3) Remove 2 screws, slide the switching


regulator unit with the whole case slightly to
the front, and then lift it up to take it off.

Switching regulator unit

Fig. 9-10

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REPLACEMENT OF PC BOARDS
9-4
(4) Disconnect 7 connectors.
(5) Remove 1 screw and 1 ground wire. Connector Connector

Fig. 9-11

Note: Green/Yellow
Make sure that the position is correct when
inserting the connector. Black

White

White Gray
2

1
9
4

Black Brown

Fig. 9-12

(6) Remove 8 screws, release 1 locking support,


and take off the switching regulator board. Locking support

Switching regulator board

Fig. 9-13

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REPLACEMENT OF PC BOARDS
9-5
9.1.6 Switching regulator cooling fan (M6)

(1) Take off the left cover.


P.4-2 "4.1.3 Left cover" Switching regulator cooling fan
(2) Disconnect 1 connector and take off the
switching regulator cooling fan while sliding it
upward.

Connector

Fig. 9-14

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


REPLACEMENT OF PC BOARDS
9-6
9.2 Caution in Replacing the MAIN board
<<CAUTION IN REPLACING the MAIN board>>
The procedure for replacing the MAIN board is as follows.

<After replacing the MAIN board>

(1) Install SRAM board to the new MAIN board (from the old MAIN board).

(2) [If an expansion memory (GC-1240) has already been installed]


Install expansion memory (GC-1240) to the new MAIN board (from the old MAIN board).

(3) Update the version of system ROMs (System Firmware, OS data, UI data) (The ROMs had been
used for the old MAIN board).
See P.11-1 "11. FIRMWARE UPDATING" for the details of System ROM update.

Note:
Be sure to check the version of the firmware after it is updated.

(4) Perform 08-389 (Copying total counter / SRAM board → MAIN board) to recover the total
counter.

(5) Be sure to perform "05-310" with the platen cover or the ADF/RADF closed after replacing the
MAIN board.

9
9.3 Caution in Replacing the SRAM board
<<CAUTION IN REPLACING the SRAM board>>

The procedure for replacing the SRAM board is shown below:


* If the adjustment values in the SRAM can be viewed, print them out in the list print mode before
replacing the SRAM board.

(1) Take off the MAIN board from the equipment.

(2) Take off the SRAM board including the locking support from the equipment.

(3) Remove the socket and the battery from the SRAM board, and install them to the new SRAM
board.

(4) Install the new SRAM board to the MAIN board, and the MAIN board to the equipment.

(5) While pressing [1], [3] and [*] simultaneously, turn the power ON. (RAM clear)

(6) Turn the power OFF and then start with the setting mode (08).

(7) Perform 08-655 (Reset the 05/08 codes).

(8) Perform 08-388 (Copying total counter / MAIN board -> SRAM board) to recover the total
counter.

(9) While pressing [1], [3] and [#] simultaneously, turn the power ON. (RAM clear)

(10) Turn the power OFF.

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REPLACEMENT OF PC BOARDS
9-7
(11) While pressing [0] and [2] simultaneously, turn the power ON. Enter the code for the destination
and press the [ENTER] button. (Refer to P.5-42 "5.13 Country/Region Code".)
(Destination code: NAD: 1, CND: 86, Other destinations: 44)
For the equipment with the Fax Kit (GD-1220/1221) installed, the destination codes different from
those above need to be entered. Refer to the GD-1220/1221 Service Handbook for details.
* After pressing the [ENTER] button, wait until the equipment goes into the ready status as it
starts in the normal mode automatically.

(12) Turn the power OFF and then start with the adjustment mode (05).

(13) Set the adjustment value.


Set the adjustment values of the following codes according to the list printed out in advance.
(If the adjustment values could not be printed out because of the SRAM board damage or any
other reason, enter the values on the list output at the last maintenance. If there is no list, enter
the default values.)
05-201 (Correction of auto-toner sensor)
05-205 (Developer bias DC output adjustment)
05-210 (Main charger grid bias output adjustment)
05-220 (Transfer transformer DC output adjustment (H))
05-221 (Transfer transformer DC output adjustment (C))
05-222 (Transfer transformer DC output adjustment (L))
05-233 (Separation transformer DC output adjustment (H))
05-234 (Separation transformer DC output adjustment (C))
05-235 (Separation transformer DC output adjustment (L))
05-305 (Image location adjustment of secondary scanning direction (scanner section))
05-306 (Image location adjustment of primary scanning direction (scanner section))
05-340 (Reproduction ratio adjustment of secondary scanning direction (scanner section))
05-401 (Adjustment of primary scanning direction reproduction ratio (printer))
05-405 (Adjustment of primary scanning direction reproduction ratio (copy))
05-410 (Adjustment of primary scanning laser writing start position (copy))
05-411 (Adjustment of primary scanning laser writing start position (printer))
05-421 (Adjustment of secondary scanning direction reproduction ratio)
05-440 (Adjustment of secondary scanning laser writing start position (drawer))
05-442 (Adjustment of secondary scanning laser writing start position (bypass tray))
05-430 (Top margin adjustment (blank area at the leading edge of the paper))
05-431 (Left margin adjustment (blank area at the left of the paper along the paper feeding
direction))
05-432 (Right margin adjustment (blank area at the right of the paper along the paper feeding
direction))
05-433 (Bottom margin adjustment (blank area at the trailing edge of the paper))
05-501 (Density adjustment Fine adjustment of "manual density"/Center value (Photo))
05-503 (Density adjustment Fine adjustment of "manual density"/Center value (Text/Photo))
05-504 (Density adjustment Fine adjustment of "manual density"/Center value (Text))
05-512 (Density adjustment Fine adjustment of "automatic density" (Photo))
05-514 (Density adjustment Fine adjustment of "automatic density" (Text/Photo))
05-515 (Density adjustment Fine adjustment of "automatic density" (Text))
Also, set the adjustment values which have been changed for servicing.

(14) Be sure to perform "05-310" with the platen cover or the ADF/RADF closed after replacing the
SRAM board.

(15) Turn the power OFF and then start with the setting mode (08).

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REPLACEMENT OF PC BOARDS
9-8
(16) Set the setting value.
Set the setting values of the following codes according to the list printed out in advance.
(If the adjustment values could not be printed out because of the SRAM board damage or any
other reason, enter the values on the list output at the last maintenance. If there is no list, enter
the default values.)
08-252 (Current value of PM counter Display)
08-361_0 (Upper Fuser roller bushing (Present number of output pages))
08-361_1 (Upper Fuser roller bushing (Recommended number of output pages
for replacement))
08-361_3 (Upper Fuser roller bushing (Present driving counts))
08-361_4 (Upper Fuser roller bushing (Recommended driving counts to be replaced))
08-361_6 (Upper Fuser roller bushing (Present output pages for control))
08-361_7 (Upper Fuser roller bushing (Present driving counts for control))
08-1150_0 (Photoconductive drum (Present number of output pages))
08-1150_1 (Photoconductive drum (Recommended number of output pages for replacement))
08-1150_3 (Photoconductive drum (Present driving counts))
08-1150_4 (Photoconductive drum (Recommended driving counts to be replaced))
08-1150_6 (Photoconductive drum (Present output pages for control))
08-1150_7 (Photoconductive drum (Present driving counts for control))
08-1158_0 (Drum cleaning blade (Present number of output pages))
08-1158_1 (Drum cleaning blade (Recommended number of output pages for replacement))
08-1158_3 (Drum cleaning blade (Present driving counts))
08-1158_4 (Drum cleaning blade (Recommended driving counts to be replaced))
08-1158_6 (Drum cleaning blade (Present output pages for control))
08-1158_7 (Drum cleaning blade (Present driving counts for control))
08-1172_0 (Drum separation finger (Present number of output pages)) 9
08-1172_1 (Drum separation finger (Recommended number of output pages for replacement))
08-1172_3 (Drum separation finger (Present driving counts))
08-1172_4 (Drum separation finger (Recommended driving counts to be replaced))
08-1172_6 (Drum separation finger (Present output pages for control))
08-1172_7 (Drum separation finger (Present driving counts for control))
08-1174_0 (Main charger grid (Present number of output pages))
08-1174_1 (Main charger grid (Recommended number of output pages for replacement))
08-1174_3 (Main charger grid (Present driving counts))
08-1174_4 (Main charger grid (Recommended driving counts to be replaced))
08-1174_6 (Main charger grid (Present output pages for control))
08-1174_7 (Main charger grid (Present driving counts for control))
08-1182_0 (Needle electrode (Present number of output pages))
08-1182_1 (Needle electrode (Recommended number of output pages for replacement))
08-1182_3 (Needle electrode (Present driving counts))
08-1182_4 (Needle electrode (Recommended driving counts to be replaced))
08-1182_6 (Needle electrode (Present output pages for control))
08-1182_7 (Needle electrode (Present driving counts for control))
08-1198_0 (Ozone filter (Present number of output pages))
08-1198_1 (Ozone filter (Recommended number of output pages for replacement))
08-1198_3 (Ozone filter (Present driving counts))
08-1198_4 (Ozone filter (Recommended driving counts to be replaced))
08-1198_6 (Ozone filter (Present output pages for control))
08-1198_7 (Ozone filter (Present driving counts for control))
08-1200_0 (Developer material (Present number of output pages))
08-1200_1 (Developer material (Recommended number of output pages for replacement))
08-1200_3 (Developer material (Present driving counts))
08-1200_4 (Developer material (Recommended driving counts to be replaced))
08-1200_6 (Developer material (Present output pages for control))
08-1200_7 (Developer material (Present driving counts for control))
08-1214_0 (Transfer charger wire (Present number of output pages))
08-1214_1 (Transfer charger wire (Recommended number of output pages for replacement))
08-1214_3 (Transfer charger wire (Present driving counts))

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REPLACEMENT OF PC BOARDS
9-9
08-1214_4 (Transfer charger wire (Recommended driving counts to be replaced))
08-1214_6 (Transfer charger wire (Present output pages for control))
08-1214_7 (Transfer charger wire (Present driving counts for control))
08-1224_0 (Separation charger wire (Present number of output pages))
08-1224_1 (Separation charger wire (Recommended number of output pages for replacement))
08-1224_3 (Separation charger wire (Present driving counts))
08-1224_4 (Separation charger wire (Recommended driving counts to be replaced))
08-1224_6 (Separation charger wire (Present output pages for control))
08-1224_7 (Separation charger wire (Present driving counts for control))
08-1246_0 (Fuser roller (Present number of output pages))
08-1246_1 (Fuser roller (Recommended number of output pages for replacement))
08-1246_3 (Fuser roller (Present driving counts))
08-1246_4 (Fuser roller (Recommended driving counts to be replaced))
08-1246_6 (Fuser roller (Present output pages for control))
08-1246_7 (Fuser roller (Present driving counts for control))
08-1250_0 (Pressure roller (Present number of output pages))
08-1250_1 (Pressure roller (Recommended number of output pages for replacement))
08-1250_3 (Pressure roller (Present driving counts))
08-1250_4 (Pressure roller (Recommended driving counts to be replaced))
08-1250_6 (Pressure roller (Present output pages for control))
08-1250_7 (Pressure roller (Present driving counts for control))
08-1268_0 (Fuser roller separation finger (Present number of output pages))
08-1268_1 (Fuser roller separation finger (Recommended number of output pages
for replacement))
08-1268_3 (Fuser roller separation finger (Present driving counts))
08-1268_4 (Fuser roller separation finger (Recommended driving counts to be replaced))
08-1268_6 (Fuser roller separation finger (Present output pages for control))
08-1268_7 (Fuser roller separation finger (Present driving counts for control))
08-1290_0 (Sub paper feed roller (Drawer) (Present number of output pages))
08-1290_1 (Sub paper feed roller (Drawer) (Recommended number of output pages
for replacement))
08-1292_0 (Sub paper feed roller (PFU) (Present number of output pages))
08-1292_1 (Sub paper feed roller (PFU) (Recommended number of output pages
for replacement))
08-1298_0 (Feed roller (Drawer) (Present number of output pages))
08-1298_1 (Feed roller (Drawer) (Recommended number of output pages for replacement))
08-1300_0 (Feed roller (PFU) (Present number of output pages))
08-1300_1 (Feed roller (PFU) (Recommended number of output pages for replacement))
08-1306_0 (Separation pad (Drawer) (Present number of output pages))
08-1306_1 (Separation pad (Drawer) (Recommended number of output pages
for replacement))
08-1308_0 (Separation pad (PFU) (Present number of output pages))
08-1308_1 (Separation pad (PFU) (Recommended number of output pages
for replacement))
08-1312_0 (Separation roller (PFP upper drawer) (Present number of output pages))
08-1312_1 (Separation roller (PFP upper drawer) (Recommended number of output pages
for replacement))
08-1314_0 (Separation roller (PFP lower drawer) (Present number of output pages))
08-1314_1 (Separation roller (PFP lower drawer) (Recommended number of output pages
for replacement))
08-1316_0 (Separation roller (Bypass unit) (Present number of output pages))
08-1316_1 (Separation roller (Bypass unit) (Recommended number of output pages
for replacement))
08-1320_0 (Feed roller (PFP upper drawer) (Present number of output pages))
08-1320_1 (Feed roller (PFP upper drawer) (Recommended number of output pages
for replacement))
08-1322_0 (Feed roller (PFP lower drawer) (Present number of output pages))
08-1322_1 (Feed roller (PFP lower drawer) (Recommended number of output pages

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


REPLACEMENT OF PC BOARDS
9 - 10
for replacement))
08-1324_0 (Feed roller (Bypass unit) (Present number of output pages))
08-1324_1 (Feed roller (Bypass unit) (Recommended number of output pages
for replacement))
08-1328_0 (Pickup roller (PFP upper drawer) (Present number of output pages))
08-1328_1 (Pickup roller (PFP upper drawer) (Recommended number of output pages
for replacement))
08-1330_0 (Pickup roller (PFP lower drawer) (Present number of output pages))
08-1330_1 (Pickup roller (PFP lower drawer) (Recommended number of output pages
for replacement))
08-1336_0 (Recovery blade (Present number of output pages))
08-1336_1 (Recovery blade (Recommended number of output pages for replacement))
08-1336_3 (Recovery blade (Present driving counts))
08-1336_4 (Recovery blade (Recommended driving counts to be replaced))
08-1336_6 (Recovery blade (Present output pages for control))
08-1336_7 (Recovery blade (Present driving counts for control))
08-1372 (Heater and energizing time accumulating counter Display/0 clearing)
08-1378 (Counter for period of time fuser unit is at ready temperature)
08-1380 (Counter for period of time fuser unit is at printing temperature)
08-1382 (Counter for period of time fuser unit is at energy saving temperature/Counter reset)
08-1385 (Number of output pages (Thick paper 1))
08-1386 (Number of output pages (Thick paper 2))
08-1388 (Number of output pages (OHP film))
08-1410 (Counter for period of toner cartridge rotation time)
08-1411 (Counter for envelope)
Also, set the setting values which have been changed for servicing. 9
(17) Check that the setting value for 08-203 (Line adjustment mode) is "0" (For factory shipment). If it
is "1" (For line), change it to "0".

(18) Start the equipment in the normal mode and set the time and date.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


REPLACEMENT OF PC BOARDS
9 - 11
e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved
REPLACEMENT OF PC BOARDS
9 - 12
10. REMOTE SERVICE
There are the following functions as Remote Service.
Service Notification: This function notifies the service technician of the status of the equipment by
E-mail.
Supply Notice: When “toner near-empty” is detected, this function notifies the service
technician of it by E-mail or FAX.

10.1 Service Notification

10.1.1 Outline
This function automatically notifies the status of the equipment to the service technician by E-mail. The
following two are the items to be notified. GA-1192 and GA-1202 must be installed in order to use this
function.

• Total Counter Transmit


When this function is effective, it notifies each counter information periodically (on the set date and
time every month).

• Service Call Transmission


When this function is enabled, information such as the error code corresponding to the service call
is notified by E-mail.

• PM Counter Transmit
When this function is effective, it notifies that the PM timing has come when the present PM count
has reached to its setting value.
10

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REMOTE SERVICE
10 - 1
10.1.2 Setting

[A] Setting items


Notes:
1. GA-1192 and GA-1202 must be installed in order to use this function.
2. When using this function, it is required that sending and receiving E-mails are available.
Confirm the details to the administrator.

Set the Service Notification setting in the following setting mode(08).


Items 08 code Contents
Service Notification setting 767 0: OFF (Invalid)
1: E-mail
Total Counter Transmit setting 769 0: OFF (Invalid)
1: ON (Valid)
Total counter transmission “day of the week“ setting 770 0: OFF (Invalid)
1: Sunday
2: Monday
4: Tuesday
8: Wednesday
16: Thursday
32: Friday
64: Saturday
Multiple days of the week can be
set by setting the SUM of the
values for the day of the week.
Service notification display 774 Displays “SERVICE
NOTIFICATION” in the INITIAL
SETUP menu. When “1” is set,
operation and setting are made
available for users.
0: OFF
1: ON
Service call transmission 775 When this function is enabled, it
notifies the error code
corresponding to the service call
by E-mail.
0: OFF
1: ON
Total counter transmission interval setting 776 00:00-23:59
(Hour/Hour/Minute/Minute)
PM Counter Transmit setting 771 0: OFF (Invalid)
1: ON (Valid)
Total counter transmission date setting 1 1071 0: OFF (Invalid)
1 to 31: Date
Total counter transmission date setting 2 1072 0: OFF (Invalid)
1 to 31: Date

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REMOTE SERVICE
10 - 2
[B] E-mail address setting

<Operation flow>

Network initializing

E-mail transmission

E-mail address setting Registration Input the address

Modify / Delete
10

Customer name, Tel number and E-mail address setting Registration Input

Modify / Delete

Fig. 10-1

Note:
This menu does not appear unless GA-1192 and GA-1202 are installed.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


REMOTE SERVICE
10 - 3
10.1.3 Items to be notified
The items to be notified are shown below.
1. Total Counter Transmit / PM Counter Transmit by E-mail (XML file attached to E-mail has also the
same format.)
Subject: Counter Notification
(In case of the PM Counter Transmit, it is shown as “Periodical Maintenance Notification”.)

1 Date : 08/19/2007 15:54


2 Machine Model : TOSHIBA e-STUDIO212
3 Serial Number : 1234567890
4 Total Counter : 00300000

5 Customer:

Name: ABCDEFGHIJKLMNOPQRSTUVWXYZA
Tel Number: 123456789012345678901234567
E-Mail: ABCDEFGHIJKLMNOPQRSTUVWXYZA

ChargeCounterFormat:
6 LargeSizeChargeCount 1
7 LargeSizeChargePaperDefinition 1

PMCounterFormat:
8 LargeSizePMCount 1
9 LargeSizePMPaperDefinition 1

Charge Counter:
Large Small
<Print Counter>
10 Copy 00000000 00000000
11 Print 00000000 00000000
(*1)
12 List 00000000 00000000
13 FAX 00000000 00000000

<Scan Counter>
14 Copy Scan 00000000 00000000
15 FAX Scan 00000000 00000000
16 Net Scan 00000000 00000000

<FAX Counter>
17 Transmit 00000000 00000000
18 Receive 00000000 00000000

Periodical Maintenance Counter:

19 Set PM 00000000
20 Current PM 00000000

21 Printer Error History:

Date Time ErrorCode


-----------------------------------------------
08/18/2007 16:44 C01
08/15/2007 22:28 E01
08/15/2007 22:23 E01 (*2)
08/11/2007 22:23 E02
07/25/2007 11:12 C15

Fig. 10-2

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


REMOTE SERVICE
10 - 4
1 Date
2 Machine model name
3 Serial number
4 Total counter value
*1 Total value of 9 to 12
5 Customer information
6 Count setting of large-sized paper (Fee charging system counter) (08-352)
7 Definition setting of large-sized paper (Fee charging system counter) (08-353)
8 Count setting of large-sized paper (PM) (08-346)
9 Definition setting of large-sized paper (PM) (08-347)
10 Number of output pages in the Copier Function (08-320-0 / 08-320-1)
11 Number of output pages in the Printer Function (08-321-0 / 08-321-1)
12 Number of output pages at the List Print Mode (08-322-0 / 08-322-1)
13 Number of output pages in the FAX Function (08-323-0 / 08-323-1)
14 Number of scanning pages in the Copier Function (08-327-0 / 08-327-1)
15 Number of scanning pages in the FAX Function (08-328-0 / 08-328-1)
16 Number of scanning pages in the Network Scanning Function (08-329-0 / 08-329-1)
17 Number of transmitted pages in the FAX Function (08-330-0 / 08-330-1)
18 Number of received pages in the FAX Function (08-332-0 / 08-332-1)
19 PM count setting value (08-251)
20 PM count present value (08-252)
21 History of error
*2 The latest 8 errors are displayed.
10

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


REMOTE SERVICE
10 - 5
10.2 Supply Notice

10.2.1 Outline
“Supply Notice” is a function which automatically notifies users one of “toner near-empty” status for a
cartridge to previously registered fax numbers or E-mail addresses.
If the notice is sent to a fax number, the Fax Kit (GD-1221) must be installed to the equipment. If it is
sent to an E-mail address, the Network Printer Kit (GA-1192), the Scanner Upgrade Kit (GA-1202) and
the Fax Kit (GD-1221) must be installed.

10.2.2 Setting
<Operation flow>

Registering the fax number or E-mail address of the customer (destination)


Registering a fax number
Registering an E-mail address

Setting up the function

Disabling the function


Enabling the function

Registering customer information

Registering a customer number (maximum 20 digits)


Registering the contact name of the customer (maximum 40 letters)
Registering the customer's phone number (maximum 32 digits)
Registering the customer's name (maximum 40 letters)
Registering the customer's address (maximum 84 letters)

Notes:
1. Only a fax number or an E-mail address can be registered for “01. DESTINATION SETUP”.
2. The Supply Notice function is enabled only when “02. AUTO DETECT” is set to “ON”.
3. “02. AUTO DETECT” cannot be set if no fax number or E-mail address is registered for “01.
DESTINATION SETUP”.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


REMOTE SERVICE
10 - 6
11. FIRMWARE UPDATING
When you want to update the firmware above or the equipment becomes inoperative status due to
some defectives of the firmware, updating the firmware is available by the following actions.

• Updating with the download jig


P.11-1 "11.1 Firmware Updating with Download Jig"

• Updating with the USB media (When GA-1192/GA-1202 is installed)


P.11-10 "11.2 Firmware Updating with USB Media (When GA-1192/GA-1202 is installed)"

Note:
Be sure to check the version of the firmware after it is updated.

11.1 Firmware Updating with Download Jig


In this equipment, it is feasible to update the firmware automatically by connecting the download jig
using the dedicated connector and turning ON the equipment.

Firmware Stored Download jig


System ROM Main PC board PWA-DWNLD-350-JIG1(16 MB)
(MAIN board) or
PWA-DWNLD-350-JIG2(48 MB)
Controller ROM GA-1192 control PC board PWA-DWNLD-350-JIG2(48 MB)
(GA-1192)
ADF ROM ADF control PC board
(MR-2020)
K-PWA-DLM-320
RADF ROM RADF control PC board
(MR-3023)

PWA-DWNLD-350-JIG 11

Connector Connector Connector Connector


(for SYS board (for ROM writer (for SYS board (for ROM writer
connection) adapter connection) connection) adapter connection)

Fig. 11-1 Jig board: PWA-DWNLD-350-JIG2(48 MB) Fig. 11-2 Jig board: PWA-DWNLD-350-JIG1(16 MB)

Important:
• The download jig (PWA-DWNLD-350-JIG) has two types having different ROM capacity.
Download jig ROM capacity

PWA-DWNLD-350-JIG2 (48 MB) 8 MB x 6

PWA-DWNLD-350-JIG1 (16 MB) 8 MB x 2

• The download jig (PWA-DWNLD-350-JIG) is the jig in which the Flash ROM is mounted on
the board directly. Therefore, ROM writer adapter (PWA-DL-ADP-350) is required to write the
data to these Flash ROMs. Refer to the following to write the data.
P.11-7 "11.1.2 Writing the data to the download jig (PWA-DWNLD-350-JIG)"
© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245
FIRMWARE UPDATING
11 - 1
K-PWA-DLM-320

Connector Mark for ROM LED


installation direction

ROM

Fig. 11-3 Jig board: K-PWA-DLM-320

Important:
Pay attention to the direction of the ROM.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 2
11.1.1 PWA-DWNLD-350-JIG

[A] Update procedure


Important:
• Turn OFF the power before installing and removing the download jig.
• Do not turn OFF the power during the update. The data could be damaged and not be
operated properly.
• Ensure that the firmware to be updated is for the intended model.
• Be sure to check the version of the firmware after it is updated.
• A C94 error message appears when either of the following Main PC boards is installed to e-
STUDIO195/225245.
- The Main PC board for e-STUDIO182.
- The Main PC board for e-STUDIO165/167/205/207/237.

Be sure not to make a mistake in the combination of the Main PC board and the firmware
since the error message does not appear if there is an incorrect combination.
Refer to the following for each equipment condition according to the combination of the Main
PC board and the firmware.
P.8-32 " [C94] Firmware update error"

<Updating System ROM>

(1) Write the data to the download jig.


P.11-7 "11.1.2 Writing the data to the download jig (PWA-DWNLD-350-JIG)"
(2) Turn OFF the power of the equipment.
(3) Take off the connector cover.

11

Connector cover

Fig. 11-4

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


FIRMWARE UPDATING
11 - 3
(4) Connect the download jig with the connector (CN1) on the MAIN board.

Connector

Fig. 11-5

Note:
In case the external keyboard (GJ-1160) is used, the update must be performed after the
TELBOOK PC board is disconnected from the connector and the download jig is connected.

(5) Turn ON the power.


Downloading starts automatically and the processing status is displayed on the LCD.
1:
1

2:
2

Fig. 11-6

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 4
(6) After the update is completed properly, the LCD blinks.

Fig. 11-7

If an error occurs, the following error number is displayed and the update is interrupted. Turn
OFF the power, and then check the following items. After confirming and clearing the problems,
restart updating from the beginning.

• Is the download jig connected properly?


• Is the updating data written to the download jig properly?
• Do the download jig and the equipment operate properly?

Fig. 11-8

(7) Turn OFF the power, remove the download jig and install the connector cover.

<Updating Controller ROM (GA-1192)>


11
(1) Write the ROM data to be updated to the download jig.
P.11-7 "11.1.2 Writing the data to the download jig (PWA-DWNLD-350-JIG)"

(2) Turn OFF the power of the equipment.

(3) Take off the cover plate.

Cover plate

Fig. 11-9

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


FIRMWARE UPDATING
11 - 5
(4) Connect the download jig with the jig connector on the GA-1192 control pc board.

Connector Download jig


Fig. 11-10

(5) Turn ON the power while [8] button and [9] button are pressed simultaneously.
Updating starts automatically and the LED on the download jig lights.

(6) When the update is completed properly, the LED (LED 7) on the download jig blinks. The LED
starts blinking in approx. 4 minutes. since the update starts. It is assumed that the update is
failed if it does not start blinking even though 5 minutes. has passed. In this case, turn OFF the
power and check the following items. Then, clear the problem and restart updating from the
beginning.
• Is the download jig connected properly?
• Is the ROM installed to the download jig properly?
• Is the updating data written on the ROM of the download jig properly?
• Do the download jig and the equipment operate properly?

(7) Turn OFF the power, remove the download jig and install the cover plate.

(8) Perform the initialization of the updating data.


• Turn ON the power while [0] button and [8] button are pressed simultaneously.
• Key in "947", and then press the [START] button.
• Press the [START] button.

[B] Confirmation of the updated data


After the updating is completed, check each data version in the Setting Mode (08) to confirm that the
data was overwritten properly.

<Updating System ROM>


08-900: System ROM version
08-921: FROM internal program version
08-922: Function table data version
08-923: Language data version

<Updating Controller ROM>


08-1952: Controller ROM version

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 6
11.1.2 Writing the data to the download jig (PWA-DWNLD-350-JIG)
The download jig (PWA-DWNLD-350-JIG) is the jig in which the Flash ROM is mounted on the board
directly. The ROM writer adapter (PWA-DL-ADP-350) is required to write data to these Flash ROMs.
Connect the download jig with the ROM writer via ROM writer adapter to write data.
For the procedure to write data, refer to the download procedure, instruction manual of each ROM
writer, or others.

Download jig
(PWA-DWNLD-350-JIG)

ROM writer adapter


(PWA-DL-ADP-350)

PC
ROM writer
Fig. 11-11

Note:
There are two types of the ROM writer adapter. Use the proper one according to the ROM writer
to be used. Applicable type of the adapter for the ROM writer can be confirmed by the model
name indicated on the board. Confirm that the adapter is available for the ROM writer to be used
before connecting them. If an unapplied adapter is connected, the application of the ROM writer
judges it as an error and writing the data cannot be implemented. Applicable combinations of the
ROM writer and adapter are as follows.

ROM writer ROM writer adapter 11


Minato Electronics MODEL 1881XP/1881UXP PWA-DL-ADP-350-1881
(or equivalent) (model 1881)

Minato Electronics MODEL 1893/1895/1931/1940 PWA-DL-ADP-350-1931


(or equivalent) (model 1931)

model 1881
model 1931
(LV650)

Fig. 11-12 PWA-DL-ADP-350-1881 Fig. 11-13 PWA-DL-ADP-350-1931

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


FIRMWARE UPDATING
11 - 7
[A] Precaution when writing the data
• Set the writing voltage (VID) to 3.3V.
• When writing the data, set the address from 0 to 3FFFFF. The data may not be written correctly if it
is not set.
• The Flash ROM in which the data will be written, on the download jig is selected by switching the
rotary switch on the adapter. Be sure to switch the rotary switch on the adapter depending on the
data (file) to be written.
Important:
When an error such as "Over current detects" appears while the data are being written to the
download jig and the writing cannot be finished, set the writing voltage (VID) to 12 V and then
write them.

System ROM
Rotary Switch File Name Flash ROM
1 rom_H. bin ROM1
2 N/A ROM2
3 N/A ROM3
4 N/A ROM4
5 N/A ROM5
6 N/A ROM6

Controller ROM
Rotary Switch File Name Flash ROM
1 firmImage0.bin ROM1
2 firmImage1.bin ROM2
3 firmImage2.bin ROM3
4 firmImage3.bin ROM4
5 N/A ROM5
6 N/A ROM6

Note:
Be sure not to confuse different ROM Versions since the file name is identical although the ROM
version is different.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 8
11.1.3 K-PWA-DLM-320
It is feasible to update the firmware automatically by connecting the download jig to the ADF control PC
board or the RADF control PC board and turning the power of the equipment ON.

< Procedure >

(1) Turning OFF the power of the equipment and take off the ADF or RADF rear cover.
(2) Connect the download jig with the connector (CN81) on the PC board.
(3) While pressing [0] and [8] simultaneously, turn ON the power. (rewriting data starts)
(4) During the data is rewritten, the LED on the download jig lights. When the data rewriting is
completed, the LED blinks slowly (at an interval of 0.8 sec.). If the LED blinks fast (at an interval
of 0.1 sec.), the rewriting has been failed.
(5) Turn OFF the power of the equipment and remove the download jig.
(6) Install the ADF or RADF rear cover.
* If rewriting data is failed, turn OFF the power and repeat the procedure.

Connector

Fig. 11-14

Note: 11
Be sure to print out the “FUNCTION LIST” to confirm the firmware version for the ADF or RADF.
P.5-38 "5.11 FUNCTION (Jam counter ROM ver.)"

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


FIRMWARE UPDATING
11 - 9
11.2 Firmware Updating with USB Media
(When GA-1192/GA-1202 is installed)
In this equipment, it is feasible to update the firmware by connecting the USB media on which the
firmware data is written to the USB port mounted on the GA-1192 control PC board and turning ON the
power.
The type of firmware which can be updated with this method are as follows in the table below.

Firmware Stored Model specific folder name Sub folder name Data file name
System ROM Main PC board cjH_prog.dgb
(MAIN board)
Function data SYS_JIG cjH_func.dgb
Language data cjH_lang.dgb
Controller ROM GA-1192 control lang.img
PC board rom.img
(GA-1192) rom2.img
e-STUDIO195/225/245: CON_JIG
sysfirm.tz
195_245
uiw.img
vxWorks.st_rom.bin
Scanner ROM Compact Flash Samba.out
(GA-1202) scan.tz
SCN_JIG webdata1.db
webfile.zip
webhelp1.zip

Important:
• Only the USB media which meets the following conditions should be used for updating. Be
careful since updating with any device other than the above is never guaranteed.
- A combination USB media with a flash memory (to be connected directly to the USB port)
and its capacity is between 64 MB to 2 GB.
- A USB media which complies with the following standards regulated by USB-IF (USB
Implementers Forum)
Class number: 8 (=08h) (Mass-storage class)
Sub-class number: 6 (=06h) (SCSI transfer command set)
Protocol number: 80 (=50h) (Bulk-Only)
* Most common USB medias are complied with the specification above and can be used
for updating. However, the operation in all the Multi Functional Digital Color Systems
and Multi Functional Digital Systems is not necessarily guaranteed since the most of
these devices are developed based on the use in PC environment (Windows or
Macintosh). Therefore, confirm thoroughly that the device is operational in the
equipment for which the updating will be performed when purchasing the device.
• The data file (sub folder) for updating is stored in the model specific folder.
Never change the model specific folder name since it is used for discriminating the data file
when the updating data files for multiple models are stored in the USB media.
• Store the model specific folder in the root directory of the USB media.
• The USB media complied with USB1.1 and USB2.0 can be used for updating. However, the
update is performed in the speed of USB1.1 when the device complied with USB2.0 is used.
• Do not update the firmware by any storage device other than a flash memory (such as a USB
connection type memory card reader, CD/DVD drive or hard disk) since it is never
guaranteed.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 10
[A] Update procedure
Important:
• The file system of USB media should be formatted in FAT format. Be careful since the devices
formatted in FAT32 or NTFS format will not be operated. The file system can be confirmed on
the properties in applications such as Explorer of Windows.
• Do not turn OFF the power during the update. The data could be damaged and not to be
operated properly.

(1) Connect the USB media to the PC and write the model specific folder and sub folder in which the
data file is stored.
• Confirm the model specific folder name, sub folder name and data file name before writing the
data
( P.11-10 "11.2 Firmware Updating with USB Media (When GA-1192/GA-1202 is
installed)").
• The file system of USB media should be formatted in FAT format.
• Windows 95 and NT 4.0 do not support USB. Be careful since the data can not be written on
the devices in the PCs with these operating systems.

(2) Turn OFF the power of the equipment.

(3) GA-1192 only: Take off the cover plate.

11

Fig. 11-15

When GA-1202 is installed: Take off the cover and disconnect the dongle from the USB port
(host).

Fig. 11-16

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FIRMWARE UPDATING
11 - 11
(4) Connect the USB media to the USB port (host) on the SYS board.
USB storage device

USB connector(host)
Fig. 11-17

(5) Turn ON the power while [4] button and [9] button are pressed simultaneously.
The items to be updated are highlighted in approx. 20 seconds, and updating starts.
“Install” then “Wait” is displayed next to the item being updated.

Fig. 11-18

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 12
Note:
The items to be updated (highlighted items) vary depending on the types of data written on the
USB media.
Each item is displayed only when each data file is written on the USB media in the following
conditions. The item "Controller Data" is displayed when either or both [CON_JIG] and
[SCN_JIG] sub folders are written.

Condition
Item
Model specific folder name Sub folder name Data file name
SYS_Firm Ware cjH_prog.dgb
SYS_JIG
Func Data cjH_func.dgb
Language Data cjH_lang.dgb
Controller Data lang.img
rom.img
CON_JIG rom2.img
e-STUDIO195/225/245:
sysfirm.tz
195_245
uiw.img
vxWorks.st_rom.bin
Samba.out
scan.tz
SCN_JIG webdata1.db
webfile.zip
webhelp1.zip

If the USB media is not recognized properly in approx. 30 seconds, items are not highlighted. In
this case, turn OFF the power of the equipment, connect the device properly, and then repeat the
procedure from step (5).

11
Fig. 11-19

(6) When the updating is completed properly, “Complete” is displayed next to all the highlighted
items.

Fig. 11-20

Note:
It takes approx. 9 minutes to complete updating all items (SYS_Firm Ware/Func Data/Language
Data/Controller Data). Update time varies approx. ±30% depending on the rotation speed of the
USB media and the status of the Flash ROM in the equipment.

(7) Turn OFF the power and remove the USB media.

(8) GA-1192 only: Install the cover plate.


When GA-1202 is installed: connect the dongle to the USB port (host) and install the cover.

(9) Perform the initialization of the updating data.


• Turn ON the power while [0] button and [8] button are pressed simultaneously.
• Key in "947", and then press the [START] button.
• Press the [START] button.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


FIRMWARE UPDATING
11 - 13
[B] Confirmation of the updated data
After the updating is completed, check each data version in the Setting Mode (08) to confirm that the
data was overwritten properly.

<Updating System ROM>


08-900: System ROM version
08-921: FROM internal program version
08-922: Function table data version
08-923: Language data version

<Updating Controller ROM>


08-1952: Controller ROM version

<Updating Scanner ROM>


08-1953: Scanner ROM version

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 14
11.3 Firmware Updating with Software Update Tool

11.3.1 General description


The software update tool is used for upgrading the version of the system ROM for the equipment. You
can download the system ROM data from a PC to equipment by installing this tool and connecting a PC
with the equipment using a USB cable.

11.3.2 System requirements


Tools introduced in this manual shall be operated under the following systems:
• OS : Windows 2000 SP4, Windows XP SP1, Windows XP SP2
• USB version : USB Ver.2.0 (Recommended)
• USB Cable : USB2.0 Hi-Speed certified cable (USB cable supporting the USB2.0 Hi-Speed mode
(480 Mbps of transfer speed) certified by the USB Implementers Forum.)

11.3.3 Preparation and precaution

(1) Confirm that there is a software updating tool USB driver (created by decompressing
"eST163_PCDL_Inst_Rev210_2.zip") on your PC.

(2) Only installation by hardware wizard can recognize e-STUDIO195/225/245.

11.3.4 Update procedure

(1) Turn OFF the power of the equipment, and connect the equipment and PC with a USB cable.
Note:
Do not connect to the USB port of GA-1192/GA-1202 if GA-1192/GA-1202 is installed.

(2) Turn the power ON while pressing [4] and [9] buttons simultaneously. 11
Notes:
1. The following screen appears on the control panel when the equipment goes into the update
mode.
2. Refer to Note in step (11) for the screen displayed during the update.

Fig. 11-21

(3) Double-click the icon "FirmwareDownload.exe" to start up the Software update tool.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


FIRMWARE UPDATING
11 - 15
(4) The Port Setting window below appears. Select the port and click [OK].
Note:
If the port to be selected does not appear, reboot the PC.

Fig. 11-22

(5) The Download window below appears. Click the folder icon.

Fig. 11-23

(6) Select the firmware data file to be updated on the Local Firmware Data window (in the figure
below, "rom_HJ_V52.bin" is selected). Double-click the file or click [Open (O)] to open it.

Fig. 11-24

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 16
(7) Select the "e-STUDIO165/205/167/207/237" check box in the Product Name field.

Fig. 11-25

(8) Confirm that both the "Program" and the "Function" check boxes in the Download Area field are
cleared, and then click [ALL].

11

Fig. 11-26

Note:
In e-STUDIO195/225/245, the download area has three selections; "Program (program data)",
"Function (function data)" and “Language (language data)”. Updating is available on each area
individually, but it is recommended that you update data on all the areas.

Perform step (8) when you want to update all the data in one go. Perform the following procedure
when you want to update the data individually.

Select the program you want to update. (Select any of the Program, Function and Language
check boxes. The Program and Function check boxes are selected in the following example.)

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


FIRMWARE UPDATING
11 - 17
Fig. 11-27

Click [Selected Area].


The Attention window appears. Click [Yes].

Fig. 11-28

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 18
(9) When updating has started, USB communication data are displayed in the STATUS field, and a
bar indicating the updating status appears at the bottom of the window.

Fig. 11-29

(10) When the program data transmission is completed, the message window shown below appears
on your PC monitor. Click [OK] to finish displaying the status.

Fig. 11-30

(11) Click [Exit] in the Firmware Download window to finish updating. 11


Note:
The display on the control panel of the equipment during the update is as shown below.
“Controller Data” is displayed; however, they are not downloaded.

• Before update

Fig. 11-31
• During the update
During the update, “Wait” is displayed after each item.

Fig. 11-32

• When properly completed


When the update is completed correctly, “Complete” is displayed after each
item.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


FIRMWARE UPDATING
11 - 19
Fig. 11-33
• On an update error
If the update is not completed correctly, “Error” is displayed after each item.

Fig. 11-34

Note:
IF an error occurs, repeat the procedure from the first step to retry updating.

(12) Turn OFF the power of the equipment, and disconnect the USB cable.

(13) Perform the initialization of the update data.


• Turn the power ON while pressing [0] and [8] buttons simultaneously.
• Key in "947", and then press the [START] button.
• Press the [START] button.
Note:
After the updating is completed, check each data version in the Setting Mode (08) to confirm that
the data were overwritten properly.

08-900: System firmware ROM version


08-921: FROM internal program version
08-922: Function table data version
08-923: Language data version

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


FIRMWARE UPDATING
11 - 20
12. EXTERNAL COUNTERS

12.1 Outline
This specification describes the interface between external counters, such as Coin Controller and
Totalizer.

12.2 Signal

12.2.1 Pin layout


• Connector on the MAIN board
Coin
Pin Signal Totali
I/O Function Voltage level Port Remarks Contr
No. name zer
oller
1 Power 24VCOV- 24V line DC24V±10% When cover In use In use
OFF opened:
OFF
2 Out CTRON Total Counter On Open Collector OPAL L: ON In use In use
Signal (TD62308) PL0
3 In KCTRC Counter Connection L=0V, H=DC5V OPAL L: In use In use
Signal PL5 Connected
Connected
to SG with
harness
4 Out MCRUN Ready to Copy Open Collector OPAL L: In use In use
Signal (SN7407) PM4 Operating
5 Out EXTCTR Exit Sensor On Open Collector OPAL L: ON - In use
Signal (SN7407) PM3
6 GND PG Power ground 0V In use In use
7 Out CSTCTR Drawer paper feed Open Collector OPAL L: ON In use -
counter On signal (SN7407) PL1
(Front side of paper
print counter) 12
8 Out ADUCTR ADU paper feed Open Collector OPAL L: ON In use -
counter On signal (SN7407) PL2
(Back side of paper
print counter)
9 GND SG Signal Ground 0V In use In use
10 Out TSIZE3 Paper size Signal Open Collector OPAL L: ON In use -
(SN7407) PL7
11 Out TSIZE2 Paper size Signal Open Collector OPAL L: ON In use -
(SN7407) PL6
12 Out TSIZE1 Paper size Signal Open Collector OPAL L: ON In use -
(SN7407) PL5
13 Out TSIZE0 Paper size Signal Open Collector OPAL L: ON In use -
(SN7407) PL4
14 Power 5V 5V line DC5V±3% In use In use
15 In CTRON-EN Counter enabled L=0V, H=DC5V OPAL L: Enabled In use In use
signal PJ6
16 Out L/S-SIZE Paper size (large/ Open Collector OPAL L: Large - In use
small) signal (SN7407) PM6 size
H: Small
size *
* Definition for large size is changed by the setting of 08-353.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


EXTERNAL COUNTERS
12 - 1
12.2.2 Details of the signals
1. CTRON signal (output signals)
The signal is a count signal synchronized with an electronic counter for the equipment. This signal is
turned to a low level (ON) every time the counter counts up. This output signal also drives each
mechanical counter directly.
If “1” is set for the setting code 08-352 (counter setting for large-sized paper), a sheet of large-sized
paper is counted as two sheets.
The signal is used for both totalizer and coin controllers.

2. KCTRC signal (input signals)


This signal is a connection signal that detects whether each counter is installed or not. The counter
is installed when this signal is at a low level.
When this signal is at a high level, copying with the counter is disabled. This signal is connected to
"SG" with counter harness kit.
The signal is used for both totalizer and coin controllers.

3. MCRUN signal (output signal)


This signal is turned to a low level while the equipment performs copying.
When copying is interrupted due to forcible toner supply or another reason, however, this signal
remains at a high level until the equipment becomes ready for copying again.
The signal is used for both totalizer and coin controllers.

4. EXTCTR signal (output signal)


This signal is turned ON, since it is synchronized with the turning OFF of the exit sensor.
A coin controller counts up the degree of usage of copy cards by means of this signal.
This signal is used only for coin controllers.

5. CSTCTR signal, ADUCTR signal (output signal)


The CSTCTR signal is turned to a low level (ON), since it is synchronized with the CTRON signal
when paper is fed from a drawer or the bypass tray. This signal is for counting print jobs for the front
side of the paper.
The ADUCTR signal is turned to a low level (ON), since it is synchronized with the CTRON signal
when paper is fed from the ADU. This signal is for counting print jobs for the back side of the paper.
This signal is used only for totalizer.

6. TSIZE3, 2, 1, 0 signal (output signal)


These four signals are output in combination corresponding to the size of the copy paper.
This signal is used only for totalizer.

7. CTRON-EN signal (input signal)


This signal enables copying with each counter. Copying is enabled when this signal is at a low level.
Copying is disabled when it is at a high level.
The signal is used for both totalizer and coin controllers.

8. L/S-signal (output signal)


This signal is turned to a low level immediately when large-sized paper is selected or when the
paper size is not specified for bypass feeding. The signal is at a high level in other cases.
The definition of large-sized paper can be set in the setting code 08-353.
This signal is used only for coin controllers.

e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved


EXTERNAL COUNTERS
12 - 2
12.3 Notices

12.3.1 Setting code


Each signal will be enabled by configuring the setting code “08-202” (Counter installed externally).

08-202
0: No external counter (Default)
1: Coin controller
2: Copy key card
3: Key copy counter

12.3.2 Setting value change and restrictions when using the totalizer
(DocuLyzerNW)
1. Setting value
- 08-202 (Counter installed externally): Set to “2” (Copy key card).
- 08-381 (Setting for counter installed externally): It should be charged precisely according to the
usage.
Example: To charge only when copies are made, set to “0”.

2. Restrictions
- 08-352 (Large size double count setting): Set to “0” (Single count).

12.3.3 Setting value change and restrictions when using the coin
controller
1. Setting value
- 08-202 (Counter installed externally): Set to “1” (Coin controller).
- 08-381 (Setting for counter installed externally): It should be charged precisely according to the
usage.
Example: To charge only when copies are made, set to “0”.

2. Restrictions 12
For 08-353 (Large size double count setting), set to “0” when A3 and LD are specified as the large
size, and set to “1” when B4, LG, FOLIO, COMP and 8K are specified as the large size in addition to
A3 and LD.

12.3.4 Simultaneous installation of external counters


It is not allowed to install more than one external counter at the same time. Physically, the multiple
external counters cannot be installed together since the output signals are used in common.

© 2011 TOSHIBA TEC CORPORATION All rights reserved e-STUDIO195/225/245


EXTERNAL COUNTERS
12 - 3
e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved
EXTERNAL COUNTERS
12 - 4
PS-ACC
J551 CN101 CN108
N AC MAIN-N CN31
C 4 HTTRRLYOFF-0
Inlet GND 1 4
B NF Relay SG PWA-F-MAIN
(AC IN) L AC MAIN-L 2 3
A 1
F101
FG
CN107
1
Fuser unit
3 CN106 J555 J557 THERMO-FSR
AC-LAMP-IN(L)
1 2 2 1
J556-1 CNTR-LAMP
AC-LAMP1-IN(N)
MAIN-SW TRC1 3 3 3 1
(Main switch) J556-2
AC-LAMP2-IN(N)
13.1 AC Wire Harness

TRC2 2 1 1 1
CN102
AC-SW-IN(N) SIDE-LAMP
1 2 3

AC-SW-IN(L)
3 4 1

© 2011 TOSHIBA TEC CORPORATION All rights reserved


3 3
1 1

J560
AC-SW-OUT(N)
4
NF AC-DC DC
AC-SW-OUT(L)
2
F102

13 - 1
J559 CN104

Fig. 13-1
+5VB
1 1 8
13. WIRE HARNESS CONNECTION

SG
2 2 7 Scanner unit
THERMO-SCN-DH J573

HL
HN
+5VB
SG
1 1

4
3
1
2

CN431
J561 J572A J572B 2 2
SCN-DH-R
1 1
1 1
Relay 2 2 2 2
SCN-DH-L
J574

CN432
AC(N:SCN-DH) J562 J568
1 AC(N:DRM-DH)
1 1 1
2
AC(L:SCN-DH) THERMO-DRM-DH DRM-DH
3 AC(L:DRM-DH)
AC(N:CST-DH) 2 2 2
4
B A
5
AC(L:CST-DH)
6
PWA-F-FUS CN433 J563
AC(N:PFU-DH)
3 1
2 Not used Not used
AC(L:PFU-DH) NAD/MJD/CND model: Option
1 2
Other models: Standard

e-STUDIO195/225/245
WIRE HARNESS CONNECTION
13
1 2 3 4 5 6 7 8

J521 CN16
+24VCOV-OFF CN21 CN203
1 3 A1
TNR-MOT TNRMOTON-0A +5V
M (M2) 2 2 A2 1 3
NC NC BDIN-1 PWA-F-SNS
3 1 A3 2 2 (SNS
(SNS)
NC SG SNS)
A4 3 1
NC PWA-F-MAIN
A5
NC
A A6 A
Toner cartridge (MAIN)
CN22 CN201
CN233 J580 SG
1 1 +5V 1 1
1 6 1 A7 +5VCOV-OFF
2 2 EEPROMCS-1 2 2
2 5 2 A8 +5VCOV-OFF
EEPROMCK 3 3
PWA-F-CTRG 3 3 PWA-F-CTIF 3 4 3 A9 SG
EEPROMDO 4 4
(CTRG) 4 4 (CTIF) 4 3 4 A10 LPWRA
EEPROMDI 5 5
5 2 5 A11 1 SG
5 5 SG 6 6
6 1 6 A12 2 CN1 CN6 BDIN-1
6 6 FJP model: Standard SG 7 7
13.2 DC Wire Harness

3 1 1 SG
Other models: Option CDIN5 8 8
CND model only CN2 CN2 CN5 CN5 4 2 2 PIDT-1
SG 9 9 PWA-F-LDR
J523 5 3 3 PIDT-0 (LDR)
SRAMRST-0 1 1 1 1 SD[0] CDIN4 10 10
MMTRBK-0A 6 4 4 SG
12 B1 NC 2 2 2 2 SD[2] SG 11 11
+24VCOV-OFF 7 5 5 WRAPC-0
11 B2 SG 3 3 CN261 3 3 SD[4] CDIN3 12 12
+24VCOV-OFF VDD 8 6 6 +5V
10 B3 NC 4 4 1 4 4 SD[6] SG 13 13
PG Battery SG 9 7 7 SHDWN-1
9 B4 SG 5 5 2 5 5 SA[2] CDIN2 14 14
PG 10 8 8 SG
8 B5 +3.3VB
+3.3ZB 6 6 6 6 SA[4] SG 15 15
NC 11 9 9 +5VCOV-OFF
MAIN-MOT 7 B6 SA[5] 7 7 7 7 /MASTER-RESET CDIN1 16 16
M (M3) MMTRPLL-1 12 10 10 +5VCOV-OFF
6 B7 +3.3VB 8 8 8 8 MDMCS-0 SG 17 17
MMTRCCW-1A 13 11 11 SG
5 B8 SA[6] 9 9 CN9 or CN4 9 9 IORDLX CDIN0 18 18
MMTRCKB CN262 14 12 12
4 B9 SA[4] 10 10 10 10 MDM1RST SG
MMTRON-0A 15 CIS 13 13
3 B10 SA[7] 11 11 1 1 TX1 11 11 RESETX +3.3V
SG 16 (CIS) 14 14
B 2 B11 SA[3] 12 12 2 2 RX1 12 12 BTTBUENA CISVR-1 B
+5V 17 15 15
1 B12 SA[8] 13 13 3 3 CML1-1 13 13 NEWFAX-0 TRCLCKA CN24 J520
18 16 16
SA[2] 14 14 4 4 LD1-1 14 14 FAXCNT-0 SG +24V
19 17 17 1 5
MRDX 15 15 5 5 EXTRING-1 15 15 +5V MCLCKA PG
J509 CN17 20 18 18 2 4
SA[1] 16 16 6 6 ATT3DB1-1 16 16 SG SG PMTR-0A M/DC-POL
FUSCNT-1A 21 19 19 3 3 (M4) M
THMS-C-HTR 1 8 1 SD[15] 17 17 7 7 RLADJ11 17 17 +3.3V R1-LEDREM0 PMTRSTS-0
(THMS1) MTH+-1A 22 20 20 4 2
2 7 2 SRAMBHE-0 18 18 8 8 RLADJ21 18 18 SG G1-LEDREM0 PMTRCLKB
MTH-1A 23 21 21 5 1
3 6 3 SD[14] 19 19 9 9 20KHZON-1 19 19 +5VB B1-LEDREM0
STH+-1A CN1 24 22 22
THMS-S-HTR 4 5 4 SD[0] 20 20 10 10 SG 20 20 +3.3V R2-LEDREM0
(THMS2) STH-1A 25 23 23
5 4 5 SD[13] 21 21 11 11 -12V 21 21 SG SD[0] 1 Download jig G2-LEDREM0
ETH+-1A 26 24 24
6 3 6 SD[1] 22 22 12 12 AG 22 22 +3.3VB2 SD[2] 2 B2-LEDREM0
ETH-1A 27 25 25 CN26 J526 J534
THMS-EDG-HTR 7 2 7 SD[12] 23 23 13 13 +12V 23 23 RING/TONE SD[4] 3 +24V
(THMS3) +5V 28 26 26 +24VCOV-OFF
8 1 8 SD[2] 24 24 14 14 +24V 24 24 SPVOL2 SD[6] 4 A1 14 1 1 2 EXT-FAN-MOT
29 VCMFAN-0A (M5) M
SD[11] 25 25 PWA-F-SRAM 15 15 16HZ 25 25 SPKCLKA SD[8] 5 A2 13 2 2 1
J511 J510 NCU board 30 NC NC
SD[3] 26 26 (SRAM) 16 16 AG 26 26 PWRSV-OFF SD[10] 6 A3 12 3
SG 31 J501 CN14 SG
3 1 3 9 SD[10] 27 27 17 17 CI1 27 27 CML1-1 SD[12] 7 A4 11 4
EXIT-SNR EXTSW-1 32 SG NC NC J558 J532
2 2 2 10 SD[4] 28 28 18 18 ANSDET 28 28 EXTRING-1 SD[14] 8 3 1 A5 10 5
(S5) 5VFUSE 33 HOME-SNR HOME-1 NC NC
1 3 1 11 SD[9] 29 29 19 19 REVA1 29 29 PLADJ11 FRMA[20] 9 2 2 A6 9 6 3 1 3
34 (S1) +5V NC NC SFB-SNR
SD[5] 30 30 20 20 REVB1 30 30 20KHZON-1 SA[18] 10 1 3 A7 8 7 2 2 2
35 NC NC (S8)
SD[8] 31 31 21 21 HOOK 31 31 16HZ SA[16] 11 A8 7 8 1 3 1
CN231 J560 J517 36 J502 SG
SD[6] 32 32 22 22 EXTHOOK 32 32 ANSDET SA[14] 12 A9 6 9
37 SG SFBEMP-0
3 1 2 1 2 SRAMBLE-0 33 33 23 23 +5VB 33 33 REVB1-0 SA[12] 13 3 4 A10 5 10
LP-ERS NC J512 CN23 38 PLTN-SNR PLTN-1 +5VFUSE J533
2 2 1 2 1 SD[7] 34 34 24 24 SG 34 34 EXTHOOK-0 SA[10] 14 2 5 A11 4 11
(ERS) ATSCNT-0 FAX board 39 (S2) +5VB +24V
1 1 10 1 SA[9] 35 35 25 25 +5V 35 35 +24V SA[8] 15 1 6 A12 3 12 2 1 SFB-SOL
C ERSLP-0A 40 SFBSOL-0A (SOL1) C
2 9 2 MWRX 36 36 26 26 -12V 36 36 SD[1] SA[6] 16 A13 2 13 1 2
J518 +24VCOV-OFF 41 SFBCNT-0
3 8 3 SA[10] 37 37 27 27 AG 37 37 SD[3] SA[4] 17 A14 1 14
PG 42
1 4 7 4 SA[16] 38 38 28 28 +12V 38 38 SD[5] SA[2] 18
ATS-1A 43 J527
ATTNR-SNR 2 5 6 5 SA[11] 39 39 29 29 +24V 39 39 SD[7] MRDX 19
(S6) +24VCOV-OFF 44 Only for A4 series models +24V
3 6 5 6 SA[15] 40 40 30 30 PG 40 40 SA[1] CS7AX 20 B1 2 1 RGST-CLT
ATSVR-1A 45 CN15 RGTCLT-0B (CLT1)
4 7 4 7 SA[12] 41 41 41 41 SA[3] CS7BX 21 J506 B2 1 2
DRTH-1A 46 SG
8 3 8 SA[14] 42 42 42 42 SA[5] +3.3V 22 3 1
J519 SG 47 APS1 APS1-0 J528
9 2 9 SRAMCS-0A 43 43 43 43 IOWRLX +3.3V 23 (S9) 2 2
SG 48 +5VAPS +24V
THMS-DRM 2 10 1 10 SA[13] 44 44 44 44 MDRRQ1 SG 24 1 3 B3 2 1 PKU-CLT
(THMS4) 49 FEDSOL-0A (CLT2)
1 RTCSCK 45 45 45 45 BTTBUNG-1 SG 25 B4 1 2
50
RTCSO 46 46 46 46 INTMD1 SD[1] 26 J507
CN31 CN263 SG J525 J529
RTCSI 47 47 47 47 MDTRQ1 SD[3] 27 3 4
NC AG APS2 APS2-0 SG
1 RTCCS 48 48 1 48 48 BTTBUCHG SD[5] 28 2 5 B5 8 1 3
NC -12V (S10) +5VAPS CSTEMP-0 EMP-SNR
2 SRAMCNT-0 49 49 2 49 49 +5V SD[7] 29 1 6 B6 7 2 2
NC +12V +5VFUSE (S7)
3 NC 50 50 3 50 50 SG SD[9] 30 FJP model: Standard J505 B7 6 3 1
HTRRLYOFF-0 AG SG SG
4 4 51 51 +3.3V SD[11] 31 Other models: Option 3 7 B8 5 4 J530
APS3 APS3-0 PSTPSW-1
52 52 SG SD[13] 32 CN1 2 8 B9 4 5
(S11) +5VAPS +5V 3
J514 53 53 +5VB SD[15] 33 1 9 B10 3 6 RGST-SNR
+5V 1 CSTOPEN-1 2 (S4)
1 5 54 54 SA[6] SA[19] 34 J504 B11 2 7
HMS-1A 2 SG SG 1
TEMP/HUMI-SNR 2 6 55 55 SG SA[17] 35 3 10 B12 1 8
(S3) SG 3 APS-C APSC-0 NC J522
3 7 56 56 +3.3VB2 SA[15] 36 2 11 B13
TEMP-1A 4 (S12) +5VAPS NC
4 8 57 57 SPVOL1 SA[13] 37 1 12 B14 2 CST-SW
5 (SW5)
58 58 SPVOL0 SA[11] 38 J503 1
J515 6 SG
D 59 59 TONESEL SA[9] 39 3 13 D
FCOV-1 CN264 7 APS-R APSR-0
FRNT-COV-SW 2 9 60 60 FAXIN-0 SA[7] 40 2 14
SG SPK 8 (S13) +5VAPS
(SW4) 1 10 1 61 61 LD1-1 SA[5] 41 1 15
SG 9
2 62 62 ATT3DB1-1 SA[3] 42
J516 10
63 63 PLADJ21 SA[1] 43 Option
+24V 11
PS-FAN-MOT 1 1 11 64 64 16HZON-1 FRMA[21] 44 CN4 CN221
M PSFAN-ON Speaker 12
(M6) 2 2 12 65 65 CI1-0 CS0X 45 PFUCNT-0
13 1 15
66 66 REVA1-0 +3.3V 46 J508 CN18 SG
14 2 14
67 67 HOOK-0 ROMSEL 47 BB +5V
15 1 1 3 13
68 68 PG MWRX 48 +24V PFUSIDECOV-0
CN108 16 2 2 4 12
SG 49 B PFUFEDSW-0
SG 17 SCAN-MOT 3 3 5 11
2 SG 50 M AB PFUCSTSW-0
HTRRLYOFF-0 18 (M1) 4 4 6 10
1 +24V PFUEMP-0
19 5 5 7 9
A NC
20 6 6 8 8 PFU
PFUFEDCLT-L0
CN104 21 9 7
PFUPSOL-0
+24VCOV-OFF 22 10 6
24 PFUFEDCLT-H0
+24VCOV-OFF CN3 23 11 5
23 +24V
NC CN9 24 12 4
22 1 +24V
NC 25 13 3
21 2 1 VBUS TELBOOK board Option PG
+24VDF 26 CN25 14 2
J553 20 3 USB connector 2 D- PG
+24VDF 27 +24VDF 15 1
19 4 (Device) 3 D+ 1
FRNT-COV-INTLCK-SW A +24V 28 +24VDF
(SW3) CN103 18 5 4 SG 2 FG FG
B COV-OP-IN +24V 29 PG
1 17 6 3
E NC PG 30 PG E
2 16 7 4
J554 COV-OP-OUT PG 31 +5V
3 15 8 5
PG 32 +5V
ADU-COV-INTLCK-SW B 14 9 6
(SW2) PG 33 SG
A 13 10 7
PG 34 SG
12 11 8
PG 35 DFAKA
11 12 9
+5VB Option 36 DFSCST
10 13 10 JPD/FJP model: Standard
+5VB 37 RADF / ADF DFRXD
9 14 11 Other models: Option Option
+5VB NC CN285 CN10 38 SG
8 15 12 CN245 J546
SG NC SG 39 DFTXDA
7 16 5 1 13 +24V
SG SG 40 SG 1 5 1
6 17 4 2 14 STEPA
SG D+ 41 DFRAK 2 4 2
5 18 3 3 15 STEPB- EXIT-MOT
SG D- 42 DFRRQ 3 3 3 (M7) M
4 19 2 4 16 STEPA-
+5V VBUS 43 DFRQA 4 2 4
3 20 1 5 17 STEPB
-12V 44 ADFCNT-0 5 1 5
2 21 18
SG CN286 CN32 45 NC
1 22 Network printer kit 19 CN246 J547 CN251 CN252
+5VB 46 NC
1 1 20 ADURST +24V
CN113 +5VB 47 1 17 1 17 1
2 2 ADUVREFA A
PWRDWN-1 SG 48 2 16 2 16 2
5 3 3 ADUM3 -B ADU-MOT
HTON1B CN12 SG 49 3 15 3 15 3 (M8) M
4 4 4 ADUM1 -A
SG PWRDWN-1B 50 4 14 4 14 4
3 1 5 5 ADU-CCW/CW B
HTON2B CTLCNT-0 5 13 5 13 5
2 2 6 6 ADUFLAG
PWRSV-1A 6 12 6 12
Low-voltage section 1 3 ADUM2
7 11 7 11
F 4 PWMCLK2A F
CN105 CN271 CN7 8 10 8 10
High-voltage section 5 CN275 CN274 ADU-FEDL PWA-F-ADU
OUT1 HVSAV-1 SG 9 9 9 9
12 6 SWS0 16 1 +24V (ADU)
(ADU
ADU)
Charger bias (Needle electrode) 1 1 HVTGB-0A 1 1 OPLEDS0A 10 8 10 8
11 7 SWS1 15 2 +24V
OUT2 HVCLK-0B 2 2 OPLEDCLK-1A 11 7 11 7
10 8 SWS2 14 3 PG
Charger bias (Grid) 1 1 HVTVR-1 3 3 OPLEDLTH-0A 12 6 12 6
9 9 SWS3 13 4 PG
OUT3 HVTAC-0A 4 4 OPKEYSI 13 5 13 5
8 10 SWS4 12 5 ADUCNT
Developer bias 1 1 HVSDWN-0 5 5 OPKEYCE-0A 14 4 14 4
7 11 SWS5 11 6 SG
OUT4 PS-ACC HVDTR-1 6 6 BZON-0A 15 3 15 3
6 12 SWC0 10 7 +5V
Transfer bias 1 1 (PS) SG Option 7 7 PWRSVKEY 16 2 16 2
5 13 CN19 SWC1 9 8 ADU-FEDH
OUT5 HVTT-0A 8 8 PWRSVLED 17 1 17 1
4 14 +24VCOV-OFF SWC2 8 9 CN13 CN241
Separation bias 1 1 HVTM-0A 1 OTK board 9 9 +5VB
3 15 CTRON-0A SWC3 7 10 MACK/PFA FG FG
OUT6 HVMVR-1 2 (External
External keyboard
keyboard) 10 10 SG A1 A9
2 16 KCTRC-0 SWC4 6 11 PFTXDA
Transfer guide bias 1 1 HVTSP-0A 3 11 11 +5V A2 A8
1 17 MCRUN-0A SWC5 5 12 MREQ/PF
4 12 12 +5V A3 A7
EXTCTR-0A SWC6 4 13 PFCCNT-0
Transfer guide bias (Registration roller) 1 5 13 13 SG A4 A6
PG SWC7 3 14 PFCBOOT-0A
6 14 14 SG A5 A5
CSTCTR-0A SWC8 2 15 PFUFEDSW-0A Option
Low-voltage section 7 15 15 -12V A6 A4
ADUCTR-0A SWC9 1 16 +5V CN243 CN544
Coin controller / 8 16 16 A7 A3
SG OTKCNT SG NC
Copy key card 9 17 17 CN272 CN30 A8 A2 1 B15
TSIZE3-1A SG PWA-F-HPNL NC NC
10 18 18 SG A9 A1 PWA-F-PFC 2 A1
TSIZE2-1A (HPNL) 18 1 24VONOFFA PFP-MOTS
J559 CN431 11 OD[0] B1 B9 (PFC)
(PFC
PFC) 3 B14
TSIZE1-1A 17 2 PFCRSTA CLK-C
12 OD[1] B2 B8 4 A2
1 1 1 TSIZE0-1A 16 3 PSTPR SCSW-B
13 OD[2] B3 B7 5 B13
2 2 2 PWA-F-FUS NAD/MJD/CND model: Option +5V 15 4 RGTCLT-0A CLK-B
G (FUS) 14 OD[3] B4 B6 6 A3 G
3 Other models: Standard CTRON-EN-0 CN273 14 5 EXTSW-1 RETS-7
AC 15 OD[4] B5 B5 7 B12
4 L/S-SIZEA LED-K 13 6 PSTPSW-1A2 SCSW-C
16 12 1 OD[5] B6 B4 8 A4
LED-A 12 7 PFRXDA RETS-6
11 2 OD[6] B7 B3 9 B11
VO 11 8 PFREQA DRV[7]
10 3 OD[7] B8 B2 10 A5
VEE 10 9 PFACKA RETS-5
9 4 OA[1] B9 B1 11 B10
SG 9 10 DRV[6]
8 5 OA[2] 12 A6
+5V 8 11 RETS-4
LCD 7 6 OA[3] 13 B9
SG 7 12 DRV[5]
(LCD) 6 7 OA[4] 14 A7
CP 6 13 RETS-3
5 8 OPCS0X 15 B8
LOAD 5 14 DRV[4]
CN110 J565 4 9 OPIORDX 16 A8
NC 4 15 RETS-2
AG AG 3 10 OPIOWRX 17 B7
1 1 1 FLM 3 16 DRV[3]
-12V -12V 2 11 OPRESETX 18 A9
2 2 2 D1 2 17 RETS-1 PFP
+12V +12V 1 12 OTKCNT-0 19 B6
3 3 3 1 18 DRV[2]
AG AG 20 A10
4 4 4 RETS-0
21 B5
DRV[1]
22 A11
SIZE-3
23 B4
DRV[0]
24 A12
SIZE-2
25 B3
PFPRST
26 A13
SIZE-1
27 B2
CN112 J566 CN242 +5V
28 A14
+24V +24V +24V SIZE-0
1 1 1 1 29 B1
+24V +24V +24V SG
H 2 2 2 2 30 A15 H
+5V +5V +5V
3 3 3 3
+5V +5V +5V CN244 CN545
4 4 4 4
SG SG SG PG
5 5 5 5 1 4
SG SG SG PG
6 6 6 6 2 3
PG PG PG +24V
7 7 7 7 3 2
PG PG PG +24V
8 8 8 8 4 1

FG FG

1 2 3 4 5 6 7 8
13.3 Electric Parts Layout

[A] Scanner, control panel [B] Power supply section, switches [C] Laser unit, fuser unit, toner cartridge section [D] Developer unit section

M1

S13 S12 M7
SW3 S5 ERS
S11 M2 M5

DH2 SW2 CTIF S6


S1
PS
THMO2
S2 CTRG

CIS LCD
LAMP1

HPNL
LAMP2

LT series models

S13

S12 THMS4
S10 SNS THMO1
S10 SW4 FUS
S11 THMS1
S9 SW1 LDR
THMS2
DH1 THMO3
S3 M6 M4 THMS3 DH3

[E] Driving section [F] Drawer section [G] Bypass unit, automatic duplexing unit

M8
ADU
CLT1
M3 SW5
SRAM S7

MAIN

S8
PFC
SOL1
CLT2 S4

Motors Electromagnetic spring clutch Lamps and heaters


Wire harness Wire harness Wire harness
Symbol Name Figure Symbol Name Figure Symbol Name Figure
location location location
SCAN-MOT RGST-CLT CNTR-LAMP
M1 [A] 6-D CLT1 [E] 8-C LAMP1 [C] AC wire harness
Scan motor Registration clutch Center heater lamp
TNR-MOT PKU-CLT SIDE-LAMP
M2 [C] 1-A CLT2 [E] 8-C LAMP2 [C] AC wire harness
Toner motor Pickup clutch Side heater lamp
MAIN-MOT LP-ERS
M3 [E] 1-B ERS [D] 1-C
Main motor Discharge LED
M/DC-POL Solenoids SCN-DH-L
M4 [C] 8-B
Polygonal motor Wire harness Scanner damp heater (Left)
Symbol Name Figure DH1 [A] AC wire harness
location * Optional for NAD/MJD/CND model, standard
EXT-FAN-MOT
M5 [D] 8-C for other models
Exhaust fan SFB-SOL
SOL1 [G] 8-C
Bypass pickup solenoid SCN-DH-R
PS-FAN-MOT
M6 [B] 1-D Scanner damp heater (Right)
Switching regulator cooling fan DH2 [A] AC wire harness
* Optional for NAD/MJD/CND model, standard
EXIT-MOT for other models
M7 Exit motor [C] 8-F PC boards
DRM-DH
* Option Wire harness
Symbol Name Figure Drum damp heater
location DH3 [D] AC wire harness
ADU-MOT * Optional for NAD/MJD/CND model, standard
M8 ADU motor [G] 8-F PWA-F-MAIN for other models
MAIN [E] 4-A
* Option Main PC board (MAIN board)
PWA-F-SRAM
SRAM [E] 3-C
SRAM PC board (SRAM board) Thermistors and thermostats
Sensors and Switches PWA-F-LDR Wire harness
Wire harness LDR [C] 8-B Symbol Name Figure
Symbol Name Figure Laser driving PC board (LDR board) location
location
PWA-F-SNS THMS-C-HTR
HOME-SNR SNS [C] 8-A THMS1 [C] 1-B
S1 [A] 6-C H-sync signal detection PC board (SNS board) Center thermistor
CIS home position sensor
PWA-F-HPNL THMS-S-HTR
PLTN-SNR HPNL [A] 6-G THMS2 [C] 1-B
Control panel PC board-H (HPNL board) Side thermistor
S2 [A] 6-C
Platen sensor
PWA-F-CTIF THMS-EDG-HTR
TEMP/HUMI-SNR CTIF Toner cartridge interface PC board (CTIF [C] 1-A THMS3 [C] 1-B
S3 [B] 1-D Edge thermistor
Temperature/humidity sensor board)
THMS-DRM
RGST-SNR PWA-F-CTRG THMS4 [D] 1-C
S4 [B] 8-D CTRG [C] 1-A Drum thermistor
Registration sensor Toner cartridge PC board (CTRG board)
THERMO-FSR
EXIT-SNR PWA-F-FUS THMO1 [C] AC wire harness
S5 [E] 1-C Fuser thermostat
Exit sensor Fuse PC board (FUS board) 2-G
FUS [D] THERMO-SCN-DH
* Optional for NAD/MJD/CND model, standard AC wire harness
ATTNR-SNR Scanner damp heater thermostat
S6 [C] 1-C for other models THMO2 [A] AC wire harness
Auto-toner sensor * Optional for NAD/MJD/CND model, standard
PWA-F-PFC for other models
EMP-SNR
S7 [D] 8-D Paper feed controller PC board (PFC board)
Paper empty sensor PFC [E] 7-G THERMO-DRM-DH
* Standard for JPD/FJP model, optional for
SFB-SNR other models Drum damp heater thermostat
S8 [G] 8-C THMO3 [D] AC wire harness
Bypass paper sensor * Optional for NAD/MJD/CND model, standard
PWA-F-ADU for other models
8-F
APS 1-3, APS-C, APS-R ADU ADU driving PC board (ADU board) [G]
6-C AC wire harness
S9-13 Automatic original detection sensor [A] * Option
6-D
* S9: only for A4 series models
Others
MAIN-SW
SW1 [B] AC wire harness Wire harness
Main switch Symbol Name Figure
location
ADU-COV-INTLCK-SW 1-E
SW2 [B] CIS
ADU cover opening/closing interlock switch AC wire harness CIS [A] 6-B
Contact image sensor unit
FRNT-COV-INTLCK-SW 1-E
SW3 [B] PS-ACC 1-F
Front cover opening/closing interlock switch AC wire harness PS [B]
Switching regulator AC wire harness
FRNT-COV-SW
SW4 [B] 1-D LCD
Front cover opening/closing switch LCD [A] 5-G
LCD panel
CST-SW
SW5 [F] 8-D
Drawer detection switch
e-STUDIO195/225/245 © 2011 TOSHIBA TEC CORPORATION All rights reserved
WIRE HARNESS CONNECTION
13 - 2
Print test (Function Test - 02. PRINT TEST)

Code Types of test pattern Remarks Procedure Output from


111 Primary scanning direction Error diffusion 1 MAIN
33 gradation steps
113 Secondary scanning direction Error diffusion 1 MAIN
33 gradation steps
142 Grid pattern Pattern width: 2 dots, 1 MAIN
Pitch: 10 mm
149 Solid black pattern (Whole area) A3/LD 1 MAIN
Sensor test (Function Test - 04. SENSOR TEST)

Display Contents
bit Items to check
position "1" display "0" display
7 - - -
6 - - -
5 Bypass unit connection Not connected Connected
I1 4 Bypass paper sensor No paper Paper present
3 - - -
2 - - -
1 - - -
0 - - -
7 - - -
6 Drawer detection switch Drawer not installed Drawer installed
5 Paper empty sensor No paper Paper present
I2 4 - - -
3 - - -
2 - - -
1 - - -
0 - - -
7 - - -
6 - - -
5 - - -
I3 4 - - -
3 - - -
2 - - -
1 - - -
0 - - -
7 - - -
6 - - -
5 PFU paper empty sensor No paper Paper present
I4 4 - - -
3 - - -
2 - - -
1 - - -
0 - - -
7 - - -
6 PFU drawer detection switch No drawer Drawer present
5 PFU feed sensor Paper present No paper
I5 4 - - -
3 - - -
2 - - -
1 - - -
0 - - -
7 - - -
6 24 V power supply 24V ON 24V OFF
(Front cover opening/closing)
5 PFC board connection Not connected Connected
4 PFU board connection Not connected Connected
I6 3 - - -
Polygonal motor rotation status
2 (Open the platen cover or Abnormal rotation Normal rotation
Motor is rotating at 10 Output test)
1 - - -
0 - - -
7 - - -
6 Registration sensor Paper present No paper
5 Exit sensor Paper present No paper
I7 4 - - -
3 Front cover opening/closing switch Cover opened Cover closed
2 PFU cover opening/closing switch Cover opened Cover closed
1 - - -
0 - - -
7 - - -
6 Externally counter connection Not connected Connected
5 - - -
I8 4 Fuser unit switch Connected Not connected
3 Developer unit switch Not connected Connected
2 - -
1 - - -
0 - - -
7 - - -
6 - - -
5 High-voltage transformer error Normal Error
I9 4 - - -
3 - - -
2 - - -
1 - - -
0 - - -
7 - - -
6 ADF/RADF connection Connected Not connected
5 Platen sensor Cover opened Cover closed
4 CIS home position sensor Home position Other than
S1 home position
3 - - -
2 - - -
1 - - -
0 - - -
7 - - -
6 APS sensor (APS-1) Original present No original
5 APS sensor (APS-2) Original present No original
S2 4 APS sensor (APS-3) Original present No original
3 APS sensor (APS-C) Original present No original
2 APS sensor (APS-R) Original present No original
1 - - -
0 - - -
7 - - -
6 ADF/RADF tray sensor Original present No original
5 ADF/RADF empty sensor Original present No original
4 ADF/RADF opening/closing sensor ADF/RADF ADF/RADF
S3 opened closed
3 ADF/RADF Cover opened Cover closed
cover opening/closing sensor
2 ADF/RADF exit sensor Original present No original
1 RADF reverse sensor Original present No original
0 ADF/RADF read sensor Original present No original
7 - - -
6 ADF/RADF registration sensor Original present No original
5 ADF/RADF original length sensor Original present No original
S4 4 ADF/RADF original tray width sensor-1 Original present No original
3 ADF/RADF original tray width sensor-2 Original present No original
2 RADF original tray width sensor-3 Original present No original
1 RADF original width detection sensor-1 Original present No original
0 RADF original width detection sensor-2 Original present No original
7 - - -
6 PFP upper drawer detection switch Drawer not installed Drawer present
5 - - -
4 PFP upper drawer feed sensor Paper present No paper
P1 3 PFP connection Connected Not connected
2 PFP side cover opening/closing switch Cover opened Cover closed
1 PFP upper drawer empty sensor No paper Paper present
0 PFP upper drawer tray-up sensor Tray at Other than
upper limit position upper limit position
7 - - -
6 PFP lower drawer detection switch Drawer Drawer present
not installed
5 - - -
P2 4 PFP lower drawer feed sensor Paper present No paper
3 PFP lower drawer empty sensor No paper Paper present
2 PFP lower drawer tray-up sensor Tray at Other than
upper limit position upper limit position
1 ADU connection Not connected Connected
0 ADU entrance sensor Paper present No paper
Output test (Function Test - 10. OUTPUT TEST)

Code Function Procedure


101 Main motor ON 1
(operational without developer unit)
102 Toner motor ON (normal rotation) 1
103 Polygonal motor ON (600 dpi) 1
108 Registration clutch ON 1
109 PFP motor ON 1
110 ADU motor ON (low speed) 1
118 Laser ON 1
120 Exit motor ON (normal rotation) 1
121 Exit motor ON (reverse rotation) 1
151 Code No. 101 function OFF 1
152 Code No. 102 function OFF 1
153 Code No. 103 function OFF 1
158 Code No. 108 function OFF 1
159 Code No. 109 function OFF 1
160 Code No. 110 function OFF 1
168 Code No. 118 function OFF 1
170 Code No. 120 function OFF 1
171 Code No. 121 function OFF 1
201 Pickup clutch ON/OFF 1
202 PFU pickup clutch ON/OFF 1
203 PFU transport clutch (high speed) ON/OFF 1
204 Bypass pickup solenoid ON/OFF 1
205 PFU transport clutch (low speed) ON/OFF 1
218 Key copy counter count up 1
225 PFP transport clutch ON/OFF 1
226 PFP upper drawer feed clutch ON/OFF 1
228 PFP lower drawer feed clutch ON/OFF 1
235 Discharge LED ON/OFF 1
236 Exhaust fan ON/OFF (low speed) 1
237 Exhaust fan ON/OFF (high speed) 1
249 Developer bias [-DC] ON/OFF 1
252 Main charger ON/OFF 1
253 Separation bias ON/OFF 1
255 Transfer guide bias ON/OFF 1
256 Transfer transformer ON/OFF 1
261 Scan motor ON (Automatically stops at limit position; 1
speed can be changed with the [ZOOM] button
267 Contact image sensor Unit ON/OFF 1
278 PFP upper drawer tray-up motor ON (tray up) 1
280 PFP lower drawer tray-up motor ON (tray up) 1
281 ADF/RADF feed motor ON/OFF (normal rotation) 1
282 ADF/RADF feed motor ON/OFF (reverse rotation) 1
283 ADF/RADF read motor ON/OFF (normal rotation) 1
284 ADF/RADF reverse motor ON/OFF (normal rotation) 1
285 ADF/RADF reverse motor ON/OFF (reverse rotation) 1
411 Switching regulator cooling fun 1
high speed rotation/low speed rotation
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Process Developm Auto adj. for dev. 200 Automatic - - As the value increases, the sensor output 5
mode ent material supply and adjustment of auto- increases correspondingly.
ATS toner sensor(Fuser The value starts changing approx. 2
heater ON) minutes after this adjustment was started
and is automatically set in the range of 2.35
to 2.45 V.
*Selection is disable when developer unit is
not installed.

05 Adjustment Process Developm ALL 201 Correction of auto- 141 <0-255> M Corrects the control value of the auto-toner 7
mode ent toner sensor(Fuser sensor setup in 05-200.
heater ON) *Selection is disable when developer unit is
not installed.

05 Adjustment Process Developm ALL 205 Developer bias DC 135 <0-255> M As the value increases, the transformer 7
mode ent output adjustment output increases correspondingly. Remove
the developer unit and install the
adjustment jig to make adjustment.

05 Adjustment Process Charger ALL 210 Main charger grid 75 <0-255> M As the value increases, the transformer 7
mode p
bias output p increases correspondingly.
output p g y Remove
adjustment the developer unit and install the
adjustment jig to make adjustment.

05 Adjustment Process Transfer ALL 220 Transfer 117 <0-255> M As the value increases, the transformer 7
mode transformer DC output increases correspondingly. Remove
output adjustment the developer unit and install the
(H) adjustment jig to make adjustment.

05 Adjustment Process Transfer ALL 221 Transfer 128 <0-255> M As the value increases, the transformer 7
mode transformer DC output increases correspondingly. Remove
output adjustment the developer unit and install the
(C) adjustment jig to make adjustment.

05 Adjustment Process Transfer ALL 222 Transfer 101 <0-255> M As the value increases, the transformer 7
mode transformer DC output increases correspondingly. Remove
output adjustment the developer unit and install the
(L) adjustment jig to make adjustment.

1
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Process Separation ALL 233 Separation 65 <0-255> M As the value increases, the transformer 7
mode transformer DC output increases correspondingly. Remove
output adjustment the developer unit and install the
(H) adjustment jig to make adjustment.

05 Adjustment Process Separation ALL 234 Separation 65 <0-255> M As the value increases, the transformer 7
mode transformer DC output increases correspondingly. Remove
output adjustment the developer unit and install the
(C) adjustment jig to make adjustment.

05 Adjustment Process Separation ALL 235 Separation 47 <0-255> M As the value increases, the transformer 7
mode transformer DC output increases correspondingly. Remove
output adjustment the developer unit and install the
(L) adjustment jig to make adjustment.

05 Adjustment Process Developm ALL 247 Relative humidity 50 <0-100> M Displaying of the relative humidity latest 3
mode ent latest value value.
05 Adjustment Process Developm ALL 248 Drum temperature 25 <0-100> M Displaying of the drum temperature latest 3
mode ent latest value value.
05 Adjustment
j Process Developm ALL 270 Temperature
p latest 25 <0-50> M Displaying
p y g of the temperature
p latest value. 3
mode ent value
05 Adjustment Process Process ALL 280 Forced performing − M Perform this adjustment before the 6
mode of idling for toner replacement of the developer material.
recycle (The toner is forcibly removed from the
cleaner.)
During performing this adjustment, the
density LED blinks.

05 Adjustment Process Laser ALL 286 Laser power 19 <0-255> M When the value increases, the laser output 7
mode adjustment cpm: increases correspondingly.
60
22 cpm
/ 24
cpm:
70

2
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Scanner Scanner Image location 305 Image location 146 <51-206> SYS When the value increases by "1", the 1
mode adjustment adjustment of image shifts by approx. 0.0640 mm toward
secondary the trailing edge of the paper.
scanning direction During this adjustment, the density LED
(scanner section) blinks.

05 Adjustment Scanner Scanner Image location 306 Image location 130 <110-147> SYS When the value increases by "1", the 1
mode adjustment adjustment of image shifts by approx. 0.169 mm toward
primary scanning the front side of the paper.
direction (scanner During this adjustment, the density LED
section) blinks.

05 Adjustment Scanner Scanner ALL 310 Forced performing - - Activates the light intensity adjustment 6
mode of peak detection control.
During this adjustment, the density LED
blinks.

05 Adjustment Scanner Scanner ALL 311 LED (R1) current 64 <0-255> SYS Displays total of the initial value and light 1
mode effective value intensity correction value.
setting

05 Adjustment Scanner Scanner ALL 312 LED (G1) current 240 <0-255> SYS Displays total of the initial value and light 1
mode effective value intensity correction value.
setting
05 Adjustment Scanner Scanner ALL 313 LED (B1) current 0 <0-255> SYS Displays total of the initial value and light 1
mode effective value intensity correction value.
setting
05 Adjustment Scanner Scanner ALL 314 LED (R2) current 64 <0-255> SYS Displays total of the initial value and light 1
mode effective value intensity correction value.
setting

05 Adjustment Scanner Scanner ALL 315 LED (G2) current 240 <0-255> SYS Displays total of the initial value and light 1
mode effective value intensity correction value.
setting

05 Adjustment Scanner Scanner ALL 316 LED (B2) current 0 <0-255> SYS Displays total of the initial value and light 1
mode effective value intensity correction value.
setting

3
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Scanner Scanner ALL 317 1 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
black level
adjustment (CH1)

05 Adjustment Scanner Scanner ALL 317 2 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
black level
adjustment (CH2)

05 Adjustment Scanner Scanner ALL 317 3 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
black level
adjustment (CH3)

05 Adjustment Scanner Scanner ALL 317 4 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
black level
adjustment (CH4)

05 Adjustment Scanner Scanner ALL 317 5 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
black level
adjustment (CH5)

05 Adjustment Scanner Scanner ALL 317 6 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
black level
adjustment (CH6)

05 Adjustment Scanner Scanner ALL 318 1 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
white level
adjustment (CH1)

4
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Scanner Scanner ALL 318 2 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
white level
adjustment (CH2)

05 Adjustment Scanner Scanner ALL 318 3 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
white level
adjustment (CH3)

05 Adjustment Scanner Scanner ALL 318 4 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
white level
adjustment (CH4)

05 Adjustment Scanner Scanner ALL 318 5 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
white level
adjustment (CH5)

05 Adjustment Scanner Scanner ALL 318 6 Final result of the 0 <0-32767> SYS Displays the total of the initial value and the 2
mode peak detection peak detection level adjustment value.
white level
adjustment (CH6)

05 Adjustment Scanner Scanner Reproduction ratio 340 Reproduction ratio 125 <76-181> SYS When the value increases by "1", the 1
mode adjustment adjustment of reproduction ratio in the secondary
secondary scanning direction (vertical to paper
scanning direction feeding direction) increases by approx.
(scanner section) 0.0947%.
During this adjustment, the density LED
blinks

5
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Scanner Scanner PPC 341 Solid line erasing 0 <0-60> SYS If copies are made using the ADF with the 1
mode in image shift (right image shift (right margin) function enabled,
margin) black streak lines may appear on the
trailing edge of the copies.To erase this
line, use this code to adjust the scanning
range.When the value increases by "1", the
image scanning range decreases by 0.1
mm.

05 Adjustment Scanner Scanner ALL Original 350 Shading position 128 <118-138> SYS 0.064 mm/step 1
mode glass adjustment During this adjustment, the density LED
blinks.

05 Adjustment Scanner Scanner ALL RADF 351 Shading position 128 <118-138> SYS 0.064 mm/step 1
mode adjustment During this adjustment, the density LED
blinks.

05 Adjustment Scanner ADF/RAD ALL for single 354 Adjustment of 10 <0-20> SYS When the value increases by "1", the 1
mode F sided ADF/RADF paper aligning amount increases by approx. 0.4
original alignment mm.

05 Adjustment Scanner
S ADF/RAD ALL ffor d
double
bl 355 Adjustment
Adj t t off 10 <0 20>
<0-20> SYS When th
Wh the value
l iincreases by
b "1",
"1" th
the 1
mode F sided ADF/RADF paper aligning amount increases by approx. 0.4
original alignment mm.

05 Adjustment Scanner ADF/RAD 357 Fine adjustment of 50 <0-100> SYS When the value increases by "1", the 1
mode F ADF/RADF reproduction ratio of the secondary
transport speed scanning direction when using the
ADF/RADF increases by approx. 0.1%.
During this adjustment, the density LED
blinks.

05 Adjustment Scanner ADF/RAD 358 ADF/RADF 128 <121-136> SYS When the value increases by "1", the 1
mode F sideways deviation image of original fed from the ADF/RADF
adjustment shifts toward the rear side of paper by
approx. 0.169 mm.
During this adjustment, the density LED
blinks.

6
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Scanner ADF/RAD 359 Carriage position 128 <0-255> SYS When the value increases by "1", the 1
mode F adjustment during carriage position when using the
scanning from ADF/RADF shifts by approx. 0.1 mm
ADF/RADF toward the original feeding side.
During this adjustment, the density LED
blinks.

05 Adjustment Scanner ADF/RAD 365 ADF/RADF leading 50 <0-100> SYS When the value increases by "1", the 1
mode F edge position copied image of original fed from the
adjustment (for ADF/RADF shifts toward the trailing edge
single sided of paper by approx. 0.2 mm. During this
original) adjustment, the density LED blinks.

05 Adjustment Scanner ADF/RAD 366 ADF/RADF leading 50 <0-100> SYS When the value increases by "1", the 1
mode F edge position copied image of original fed from the
adjustment (for ADF/RADF shifts toward the trailing edge
double sided of paper by approx. 0.2 mm. During this
original) adjustment, the density LED blinks.

05 Adjustment Printer Laser PPC 401 Fine adjustment of 130 <0-255>


<0 255> M When the value increases by "1"1 , the 1
mode polygonal motor reproduction ratio of primary scanning
rotation direction increases by approx. 0.07%.
speed(adjustment (approx. 0.1 mm/step)
of primary
scanning direction
reproduction ratio)

05 Adjustment Printer Laser PPC 405 Fine adjustment of 128 <0-255> M When the value increases by "1", the 1
mode polygonal motor reproduction ratio of primary scanning
rotation direction increases by approx. 0.07%.
speed(adjustment (approx. 0.1 mm/step)
of primary
scanning direction
reproduction ratio)

7
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Image Adj. of primary scan. 410 PPC 168 <0-255> M When the value increases by "1", the 1
mode laser writing start writing start position shifts to the front side
by approx. 0.0423 mm.
When "1" is set at 08-203, the adjustment
value set at 05-411 will also be reflected to
05-410.

05 Adjustment Printer Image Adj. of primary scan. 411 ALL 168 <0-255> M When the value increases by "1", the 1
mode laser writing start writing start position shifts to the front side
by approx. 0.0423 mm.
When "1" is set at 08-203, the adjustment
value set at 05-411 will also be reflected to
05-410.

05 Adjustment Printer Drive PPC/PRT 421 Adjustment of 125 <0-255> M When the value increases by "1", the 1
mode secondary reproduction ratio of secondary scanning
scanning direction direction increases by approx. 0.04%.
reproduction
ratio(fine
adjustment of main
motor speed)

05 Adjustment Printer Drive FAX 422 Adjustment of 128 <0-255> M When the value increases by "1", the 1
mode secondary reproduction ratio of secondary scanning
scanning direction direction increases by approx. 0.04%.
reproduction
ratio(fine
adjustment of main
motor speed)

05 Adjustment Printer Drive PRT 424 Fine adjustment of 128 <0-255> M When the value increases by "1", the 1
mode exit motor speed rotation becomes faster by approx. 0.05%.

05 Adjustment Printer Drive FAX 425 Fine adjustment of 128 <0-255> M When the value increases by "1", the 1
mode exit motor speed rotation becomes faster by approx. 0.05%.

8
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Image Margin adjustment PPC 430 Top margin 50 <0-255> M When the value increases by "1", the blank 1
mode adjustment(blank area becomes wider by approx. 0.0423
area at the leading mm.
edge of the paper)

05 Adjustment Printer Image Margin adjustment PPC 431 Left margin 50 <0-255> M When the value increases by "1", the blank 1
mode adjustment(blank area becomes wider by approx. 0.0423
area at the left of mm.
the paper along the
paper feeding
direction)

05 Adjustment Printer Image Margin adjustment PPC 432 Right margin 50 <0-255> M When the value increases by "1", the blank 1
mode adjustment(blank area becomes wider by approx. 0.0423
area at the right of mm.
the paper along the
paper feeding
direction)

05 Adjustment Printer Image Margin adjustment PPC 433 Bottom margin 95 <0-255> M When the value increases by "1", the blank 1
mode adjustment(blank area becomes wider by approx. 0.0423
area att the
th trailing
t ili mm.
edge of the paper)

05 Adjustment Printer Image ALL 434 Bottom margin 29 <0-255> M When the value increases by "1", the blank 2
mode adjustment(blank area becomes wider by approx. 0.0423
area at the trailing mm.
edge of the
paper)/Reverse
side at duplexing

05 Adjustment Printer Image ALL 434 Right margin 29 <0-255> M When the value increases by "1", the blank 2
mode adjustment(blank area becomes wider by approx. 0.0423
area at the right of mm.
the paper along the
paper feeding
direction)/Reverse
side at duplexing

9
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Image Margin adjustment PRT 435 Top margin 24 <0-255> M When the value increases by "1", the blank 1
mode adjustment(blank area becomes wider by approx. 0.0423
area at the leading mm.
edge of the paper)

05 Adjustment Printer Image Margin adjustment PRT 436 Left margin 0 <0-255> M When the value increases by "1", the blank 1
mode adjustment(blank area becomes wider by approx. 0.0423
area at the left of mm.
the paper along the
paper feeding
direction)

05 Adjustment Printer Image Margin adjustment PRT 437 Right margin 0 <0-255> M When the value increases by "1", the blank 1
mode adjustment(blank area becomes wider by approx. 0.0423
area at the right of mm.
the paper along the
paper feeding
direction)

05 Adjustment Printer Image Margin adjustment PRT 438 Bottom margin 0 <0-255> M When the value increases by "1", the blank 1
mode adjustment(blank area becomes wider by approx. 0.0423
area att the
th trailing
t ili mm.
edge of the paper)

05 Adjustment Printer Image Adjustment of 440 Drawer 20 <0-40> M When the value increases by "1", the 1
mode secondary scanning image shifts toward the leading edge of the
laser writing start paper by approx. 0.2 mm.
position

05 Adjustment Printer Image Adjustment of 441 PFU 21 <0-40> M When the value increases by "1", the 1
mode secondary scanning image shifts toward the leading edge of the
laser writing start paper by approx. 0.2 mm.
position

05 Adjustment Printer Image Adjustment of 442 Bypass feeding 8 <0-15> M When the value increases by "1", the 1
mode secondary scanning image shifts toward the leading edge of the
laser writing start paper by approx. 0.2 mm.
position

10
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Image Adjustment of 443 LCF 8 <0-15> M When the value increases by "1", the 1
mode secondary scanning image shifts toward the leading edge of the
laser writing start paper by approx. 0.2 mm.
position

05 Adjustment Printer Image Adjustment of 444 PFP 8 <0-15> M When the value increases by "1", the 1
mode secondary scanning image shifts toward the leading edge of the
laser writing start paper by approx. 0.2 mm.
position

05 Adjustment Printer Image Adjustment of 445 Duplex feeding 8 <0-15> M When the value increases by "1", the 1
mode secondary scanning image shifts toward the leading edge of the
laser writing start paper by approx. 0.2 mm.
position

05 Adjustment Printer Paper ALL Long size 448 0 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:14 aligning amount increases by approx. 0.9
22 cpm
at the registration / 24
mm.
section (PFP upper cpm:12 <Paper length>
drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 448 1 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:14 aligning amount increases by approx. 0.9
22 cpm
at the registration / 24
mm.
section (PFP upper cpm:12 <Paper length>
drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Short size 448 2 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:14 aligning amount increases by approx. 0.9
22 cpm
at the registration / 24
mm.
section (PFP upper cpm:12 <Paper length>
drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

11
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Paper ALL Long size 449 0 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:14 aligning amount increases by approx. 0.9
22 cpm
at the registration / 24
mm.
section (PFP lower cpm:12 <Paper length>
drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 449 1 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:14 aligning amount increases by approx. 0.9
22 cpm
at the registration / 24
mm.
section (PFP lower cpm:12 <Paper length>
drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Short size 449 2 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:14 aligning amount increases by approx. 0.9
22 cpm
at the registration / 24
mm.
section (PFP lower cpm:12 <Paper length>
drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Long size 450 0 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:13 aligning amount increases by approx. 0.9
22 cpm
at the registration / 24
mm.
section cpm:12 <Paper length>
(Drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 450 1 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:13 aligning amount increases by approx. 0.9
22 cpm
at the registration / 24
mm.
section cpm:12 <Paper length>
(Drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

12
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Paper ALL Short size 450 2 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:13 aligning amount increases by approx. 0.9
22 cpm
at the registration / 24
mm.
section cpm:12 <Paper length>
(Drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Long size 451 0 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:19 aligning amount increases by approx. 0.9
22 cpm
at the / 24
mm.
registrationsection cpm:17 <Paper length>
(PFU/Plain paper) Long size: 330 mm or longer
Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 451 1 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:19 aligning amount increases by approx. 0.9
22 cpm
at the / 24
mm.
registrationsection cpm:17 <Paper length>
(PFU/Plain paper) Long size: 330 mm or longer
Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Short size 451 2 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:19 aligning amount increases by approx. 0.9
22 cpm
at the / 24
mm.
registrationsection cpm:17 <Paper length>
(PFU/Plain paper) Long size: 330 mm or longer
Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Long size 455 0 Paper aligning 20 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment aligning amount increases by approx. 0.9
at the registration mm.
section (Upper <Paper length>
drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

13
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Paper ALL Middle size 455 1 Paper aligning 20 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment aligning amount increases by approx. 0.9
at the registration mm.
section (Upper <Paper length>
drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Short size 455 2 Paper aligning 20 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment aligning amount increases by approx. 0.9
at the registration mm.
section (Upper <Paper length>
drawer/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Long size 458 0 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 458 1 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Short size 458 2 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Plain Long size: 330 mm or longer
paper) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

14
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Paper ALL Long size 460 0 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 1) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 460 1 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 1) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Short size 460 2 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 1) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Long size 461 0 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 2) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 461 1 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 2) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

15
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Paper ALL Short size 461 2 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 2) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Long size 462 0 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 3) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 462 1 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 3) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Short size 462 2 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 3) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Postcard 462 3 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/Thick Long size: 330 mm or longer
paper 3) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

16
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Paper ALL Long size 463 0 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/OHP film) Long size: 330 mm or longer
Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 463 1 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/OHP film) Long size: 330 mm or longer
Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Short size 463 2 Paper aligning 19 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment cpm:10 aligning amount increases by approx. 1.4
22 cpm
at the registration / 24
mm.
section (Bypass cpm:9 <Paper length>
feeding/OHP film) Long size: 330 mm or longer
Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Long size 464 0 Paper aligning 10 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment aligning amount increases by approx. 1.4
at the registration mm.
section (Bypass <Paper length>
feeding /Envelope) Long size: 330 mm or longer
Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 464 1 Paper aligning 10 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment aligning amount increases by approx. 1.4
at the registration mm.
section (Bypass <Paper length>
feeding /Envelope) Long size: 330 mm or longer
Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

17
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Paper ALL Short size 464 2 Paper aligning 10 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment aligning amount increases by approx. 1.4
at the registration mm.
section (Bypass <Paper length>
feeding /Envelope) Long size: 330 mm or longer
Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Plain paper 466 0 Adjustment of 0 <0-255> M When the value increases by "1", the 2
mode feeding paper pushing driving speed of bypass feed roller
amount/Bypass increases by approx. 0.2 ms when the
feeding paper transport is started from the
registration section.
*Postcard is supported only for JPN model.

05 Adjustment Printer Paper ALL Postcard 466 1 Adjustment of 0 <0-255> M When the value increases by "1", the 2
mode feeding paper pushing driving speed of bypass feed roller
amount/Bypass increases by approx. 0.2 ms when the
feeding paper transport is started from the
registration section
section.
*Postcard is supported only for JPN model.

05 Adjustment Printer Paper ALL Envelope 466 3 Adjustment of 0 <0-255> M When the value increases by "1", the 2
mode feeding paper pushing driving speed of bypass feed roller
amount/Bypass increases by approx. 0.2 ms when the
feeding paper transport is started from the
registration section.
*Postcard is supported only for JPN model.

05 Adjustment Printer Paper ALL Thick paper 466 4 Adjustment of 0 <0-255> M When the value increases by "1", the 2
mode feeding 1 paper pushing driving speed of bypass feed roller
amount/Bypass increases by approx. 0.2 ms when the
feeding paper transport is started from the
registration section.
*Postcard is supported only for JPN model.

18
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Paper ALL Thick paper 466 5 Adjustment of 0 <0-255> M When the value increases by "1", the 2
mode feeding 2 paper pushing driving speed of bypass feed roller
amount/Bypass increases by approx. 0.2 ms when the
feeding paper transport is started from the
registration section.
*Postcard is supported only for JPN model.

05 Adjustment Printer Paper ALL Thick paper 466 6 Adjustment of 0 <0-255> M When the value increases by "1", the 2
mode feeding 3 paper pushing driving speed of bypass feed roller
amount/Bypass increases by approx. 0.2 ms when the
feeding paper transport is started from the
registration section.
*Postcard is supported only for JPN model.

05 Adjustment Printer Paper ALL OHP film 466 7 Adjustment of 0 <0-255> M When the value increases by "1", the 2
mode feeding paper pushing driving speed of bypass feed roller
amount/Bypass increases by approx. 0.2 ms when the
feeding paper transport is started from the
registration section
section.
*Postcard is supported only for JPN model.

05 Adjustment Printer Paper ALL Long size 474 0 Paper aligning 24 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment aligning amount increases by approx. 0.8
at the registration mm.
section (Duplex <Paper length>
feeding/ Thick Long size: 330 mm or longer
paper 1) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Paper ALL Middle size 474 1 Paper aligning 24 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment aligning amount increases by approx. 0.8
at the registration mm.
section (Duplex <Paper length>
feeding/ Thick Long size: 330 mm or longer
paper 1) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

19
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Paper ALL Short size 474 2 Paper aligning 33 <0-63> M When the value increases by "1", the 2
mode feeding amount adjustment aligning amount increases by approx. 0.8
at the registration mm.
section (Duplex <Paper length>
feeding/ Thick Long size: 330 mm or longer
paper 1) Middle size: 220 mm to 329 mm
Short size: 219 mm or shorter

05 Adjustment Printer Image Adjustment of drawer 497 0 Drawer 128 <0-255> M When the value increases by "1", the 2
mode sideways deviation image shifts toward the front side by
0.0423 mm.

05 Adjustment Printer Image Adjustment of drawer 497 1 PFU 128 <0-255> M When the value increases by "1", the 2
mode sideways deviation image shifts toward the front side by
0.0423 mm.

05 Adjustment Printer Image Adjustment of drawer 497 2 PFP upper drawer 128 <0-255> M When the value increases by "1", the 2
mode sideways deviation image shifts toward the front side by
0 0423 mm.
0.0423 mm

05 Adjustment Printer Image Adjustment of drawer 497 3 PFP lower drawer 128 <0-255> M When the value increases by "1", the 2
mode sideways deviation image shifts toward the front side by
0.0423 mm.

05 Adjustment Printer Image Adjustment of drawer 497 5 Bypass feeding 128 <0-255> M When the value increases by "1", the 2
mode sideways deviation image shifts toward the front side by
0.0423 mm.

05 Adjustment Printer Image Adjustment of primary 498 0 Long size 128 <0-255> M When the value increases by "1", the 2
mode scanning laser writing image shifts toward the front side by
start position at 0.0423 mm.
duplex feeding

20
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Printer Image Adjustment of primary 498 1 Short size(A4/LT or 128 <0-255> M When the value increases by "1", the 2
mode scanning laser writing smaller) image shifts toward the front side by
start position at 0.0423 mm.
duplex feeding

05 Adjustment Image Density PPC Density 501 Photo 128 <0-255> SYS When the value increases, the image at the 1
mode Processin adjustment adjustment center step becomes darker.
g Fine
adjustment
of "manual
density"/Ce
nter value

05 Adjustment Image Density PPC Density 503 Text/Photo 128 <0-255> SYS When the value increases, the image at the 1
mode Processin adjustment adjustment center step becomes darker.
g Fine
adjustment
of "manual
density"/Ce
nter value

05 Adjustment Image Density PPC Density 504 Text 128 <0-255> SYS When the value increases, the image at the 1
mode Processin adjustment adjustment center step becomes darker.
g Fine
adjustment
of "manual
density"/Ce
nter value

05 Adjustment Image Density PPC Density 505 Text/Photo 33 <0-255> SYS When the value increases, the image of the 1
mode Processin adjustment adjustment "light" steps becomes lighter.
g Fine
adjustment
of "manual
density"/Lig
ht step
value

21
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Density PPC Density 506 Photo 33 <0-255> SYS When the value increases, the image of the 1
mode Processin adjustment adjustment "light" steps becomes lighter.
g Fine
adjustment
of "manual
density"/Lig
ht step
value

05 Adjustment Image Density PPC Density 507 Text 33 <0-255> SYS When the value increases, the image of the 1
mode Processin adjustment adjustment "light" steps becomes lighter.
g Fine
adjustment
of "manual
density"/Lig
ht step
value

05 Adjustment Image Density PPC Density 508 Text/Photo 33 <0-255> SYS When the value increases, the image of the 1
mode Processin adjustment j
adjustment p becomes darker.
"dark" steps
g Fine
adjustment
of "manual
density"/Dar
k step value

05 Adjustment Image Density PPC Density 509 Photo 33 <0-255> SYS When the value increases, the image of the 1
mode Processin adjustment adjustment "dark" steps becomes darker.
g Fine
adjustment
of "manual
density"/Dar
k step value

22
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Density PPC Density 510 Text 33 <0-255> SYS When the value increases, the image of the 1
mode Processin adjustment adjustment "dark" steps becomes darker.
g Fine
adjustment
of "manual
density"/Dar
k step value

05 Adjustment Image Density PPC Density 512 Photo 128 <0-255> SYS When the value increases, the image 1
mode Processin adjustment adjustment becomes darker.
g Fine
adjustment
of
"automatic
density"

05 Adjustment Image Density PPC Density 514 Text/Photo 128 <0-255> SYS When the value increases, the image 1
mode Processin adjustment adjustment becomes darker.
g Fine
adjustment
of
"automatic
density"

05 Adjustment Image Density PPC Density 515 Text 128 <0-255> SYS When the value increases, the image 1
mode Processin adjustment adjustment becomes darker.
g Fine
adjustment
of
"automatic
density"

05 Adjustment Image Image PPC Text/Photo 532 Range 32 <0-255> SYS When the value increases, the background 1
mode processi correction/Backgro becomes more brightened.
ng und peak
adjustment

23
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Image PPC Photo 533 Range 22 <0-255> SYS When the value increases, the background 1
mode processi correction/Backgro becomes more brightened.
ng und peak
adjustment

05 Adjustment Image Image PPC Text 534 Range 46 <0-255> SYS When the value increases, the background 1
mode processi correction/Backgro becomes more brightened.
ng und peak
adjustment

05 Adjustment Image Image PPC Text/Photo 535 Range 246 <0-255> SYS When the value decreases, the text 1
mode processi correction/Text becomes darker.
ng peak adjustment

05 Adjustment Image Image PPC Text 536 Range 254 <0-255> SYS When the value decreases, the text 1
mode processi correction/Text becomes darker.
ng peak adjustment

05 Adjustment Image Image PPC Photo 537 Range 236 <0-255>


<0 255> SYS When the value decreases,
decreases the text 1
mode processi correction/Text becomes darker.
ng peak adjustment

05 Adjustment Image Image PPC Text/Photo 570 Range correction EUR: <11-14, 21- SYS Sets whether the values of the background 1
mode processi on original 12 24, 31-34, peak and text peak are fixed or not. One's
UC: 12 41-44>
ng manually set on JPN:
place is an adjustment for "automatic
the original glass 22 density" and ten's place is for "manual
density". Once they are fixed, the range
correction is performed with standard
values. The values of the background peak
and text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

24
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Image PPC Photo 571 Range correction 12 <11-14, 21- SYS Sets whether the values of the background 1
mode processi on original 24, 31-34, peak and text peak are fixed or not. One's
41-44>
ng manually set on place is an adjustment for "automatic
the original glass density" and ten's place is for "manual
density". Once they are fixed, the range
correction is performed with standard
values. The values of the background peak
and text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

05 Adjustment Image Image PPC Text 572 Range correction 22 <11-14, 21- SYS Sets whether the values of the background 1
mode processi on original 24, 31-34, peak and text peak are fixed or not. One's
41-44>
ng manually set on place is an adjustment for "automatic
the original glass density" and ten's place is for "manual
density". Once they are fixed
density fixed, the range
correction is performed with standard
values. The values of the background peak
and text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

05 Adjustment Image Image PPC Text/Photo 593 Gamma data slope 5 <1-9> SYS Select the slope of Gamma curve (The 1
mode processi adjustment larger the value is, the larger the slope
ng becomes.)

25
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Image PPC Photo 594 Gamma data slope 5 <1-9> SYS Select the slope of Gamma curve (The 1
mode processi adjustment larger the value is, the larger the slope
ng becomes.)

05 Adjustment Image Image PPC Text 595 Gamma data slope 5 <1-9> SYS Select the slope of Gamma curve (The 1
mode processi adjustment larger the value is, the larger the slope
ng becomes.)

05 Adjustment Image Image PRT Low density 596 0 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi adjustment(PS/Pho the target area becomes higher.
ng to) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT Medium 596 1 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi density adjustment(PS/Pho the target area becomes higher.
ng to) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT High 596 2 Gamma balance 128 <0-255>
<0 255> SYS When the value increases,
increases the density in 2
mode processi density adjustment(PS/Pho the target area becomes higher.
ng to) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT Low density 597 0 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi adjustment(PS/Tex the target area becomes higher.
ng t) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT Medium 597 1 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi density adjustment(PS/Tex the target area becomes higher.
ng t) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT High 597 2 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi density adjustment(PS/Tex the target area becomes higher.
ng t) During this adjustment, the density LED
blinks.

26
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Image PRT Low density 598 0 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi adjustment(PCL/P the target area becomes higher.
ng hoto) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT Medium 598 1 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi density adjustment(PCL/P the target area becomes higher.
ng hoto) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT High 598 2 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi density adjustment(PCL/P the target area becomes higher.
ng hoto) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT Low density 599 0 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi adjustment(PCL/Te the target area becomes higher.
ng xt) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT Medium 599 1 Gamma balance 128 <0-255>
<0 255> SYS When the value increases,
increases the density in 2
mode processi density adjustment(PCL/Te the target area becomes higher.
ng xt) During this adjustment, the density LED
blinks.

05 Adjustment Image Image PRT High 599 2 Gamma balance 128 <0-255> SYS When the value increases, the density in 2
mode processi density adjustment(PCL/Te the target area becomes higher.
ng xt) During this adjustment, the density LED
blinks.

05 Adjustment Image Backgroun Text/Photo 600 Text/Photo 3 <1-9> SYS When the value decreases, the 1
mode processi d background becomes darker.
adjustment
ng When the value increases, the background
becomes lighter.

27
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Backgroun Photo 601 Photo 3 <1-9> SYS When the value decreases, the 1
mode processi d background becomes darker.
adjustment
ng When the value increases, the background
becomes lighter.

05 Adjustment Image Backgroun Text 602 Text 3 <1-9> SYS When the value decreases, the 1
mode processi d background becomes darker.
adjustment
ng When the value increases, the background
becomes lighter.

05 Adjustment Image Image ALL 609 Switching of the 0 <0-4> SYS The larger the value is, the lighter the 1
mode processi scanner Gamma density of the highlight areas becomes.
ng correction table
when paper is fed
from the
RADF/ADF
05 Adjustment Image Sharpness PPC 620 Text/Photo EUR: 1 <0-96> SYS When the value increases, the image 1
mode processi adjustment UC: 1 becomes sharper. When the value
JPN: 0
ng decreases the image becomes softer
decreases, softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape (0 to
6)
Ten's place: Adjustable from 0 to 9
regarding the default value as the standard
(The larger the value is, the sharper the
image becomes.)
*When entering "0" on the ten's place, this
value is not displayed on the entry screen.

28
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Sharpness PPC 621 Photo(Error 0 <0-96> SYS When the value increases, the image 1
mode processi adjustment diffusion) becomes sharper. When the value
ng decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape (0 to
6)
Ten's place: Adjustable from 0 to 9
regarding the default value as the standard
(The larger the value is, the sharper the
image becomes.)
*When entering "0" on the ten's place, this
value is not displayed on the entry screen.

05 Adjustment Image Sharpness PPC 622 Text 0 <0-96> SYS When the value increases, the image 1
mode processi adjustment becomes sharper. When the value
ng decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
p
One's place: Selectingg a filter shape
p (0
( to
6)
Ten's place: Adjustable from 0 to 9
regarding the default value as the standard
(The larger the value is, the sharper the
image becomes.)
*When entering "0" on the ten's place, this
value is not displayed on the entry screen.

29
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Sharpness PPC 623 Photo (Dither) 0 <0-96> SYS When the value increases, the image 1
mode processi adjustment becomes sharper. When the value
ng decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape (0 to
6)
Ten's place: Adjustable from 0 to 9
regarding the default value as the standard
(The larger the value is, the sharper the
image becomes.)
*When entering "0" on the ten's place, this
value is not displayed on the entry screen.

05 Adjustment Image Adjustmen PPC 648 3 <0-4> SYS Adjustment of the smudged/faint text 1
mode processi t of With decreasing the value, the faint text is
smudged/f
ng aint text
suppressed, and with increasing it, the
smudged text is suppressed.

05 Adjustment Image Adjustmen PRT 654 PS 5 <0-9> M Adjustment of the smudged/faint text 1
mode processi t of With decreasing the value, the faint text is
smudged/f
ng aint text
suppressed, and with increasing it, the
smudged text is suppressed.

05 Adjustment Image Adjustmen PRT 655 PCL 5 <0-9> M Adjustment of the smudged/faint text 1
mode processi t of With decreasing the value, the faint text is
smudged/f
ng aint text
suppressed, and with increasing it, the
smudged text is suppressed.

05 Adjustment Image Upper limit PRT 664 PS 136 <0-255> M When the value decreases, the density of 1
mode processi value in the printed text becomes lower.
tonersavin
ng g period

30
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Upper limit PRT 665 PCL 136 <0-255> M When the value decreases, the density of 1
mode processi value in the printed text becomes lower.
tonersavin
ng g period

05 Adjustment Image Adjustmen PPC 667 0 0 <0-63> M Adjustment of the image density 2
mode processi t of copied When the value decreases, the text
image
ng density
becomes lighter.

05 Adjustment Image Adjustmen PPC 667 1 19 <0-63> M Adjustment of the image density 2
mode processi t of copied When the value decreases, the text
image
ng density
becomes lighter.

05 Adjustment Image Adjustmen PPC 667 2 25 <0-63>


<0 63> M Adjustment of the image density 2
mode processi t of copied When the value decreases, the text
image
ng density
becomes lighter.

05 Adjustment Image Adjustmen PPC 667 3 31 <0-63> M Adjustment of the image density 2
mode processi t of copied When the value decreases, the text
image
ng density
becomes lighter.

05 Adjustment Image Adjustmen PPC 667 4 41 <0-63> M Adjustment of the image density 2
mode processi t of copied When the value decreases, the text
image
ng density
becomes lighter.

31
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Adjustmen PRT 672 0 GDI 0 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

05 Adjustment Image Adjustmen PRT 672 1 GDI 19 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

05 Adjustment Image Adjustmen PRT 672 2 GDI 25 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

05 Adjustment Image Adjustmen PRT 672 3 GDI 31 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

05 Adjustment Image Adjustmen PRT 672 4 GDI 44 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

05 Adjustment Image Adjustmen PRT 676 0 PS/PCL 0 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

32
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Adjustmen PRT 676 1 PS/PCL 19 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

05 Adjustment Image Adjustmen PRT 676 2 PS/PCL 25 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

05 Adjustment Image Adjustmen PRT 676 3 PS/PCL 31 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

05 Adjustment Image Adjustmen PRT 676 4 PS/PCL 44 <0-63> M Adjustment of the image density 2
mode processi t of printer When the value decreases, the text
image
ng density
becomes lighter

05 Adjustment Image Received FAX 678 0 0 <0-63> M Adjustment of the image density 2
mode processi FAX When the value decreases, the text
printing/Lis
ng t printing
becomes lighter
Adjustmen
t of image
density

33
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Received FAX 678 1 19 <0-63> M Adjustment of the image density 2
mode processi FAX When the value decreases, the text
printing/Lis
ng t printing
becomes lighter
Adjustmen
t of image
density

05 Adjustment Image Received FAX 678 2 25 <0-63> M Adjustment of the image density 2
mode processi FAX When the value decreases, the text
printing/Lis
ng t printing
becomes lighter
Adjustmen
t of image
density

05 Adjustment Image Received FAX 678 3 31 <0-63> M Adjustment of the image density 2
mode processii FAX Wh th
When the value
l d decreases, the
th ttextt
printing/Lis
ng t printing
becomes lighter
Adjustmen
t of image
density

05 Adjustment Image Received FAX 678 4 44 <0-63> M Adjustment of the image density 2
mode processi FAX When the value decreases, the text
printing/Lis
ng t printing
becomes lighter
Adjustmen
t of image
density

34
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Range PPC 693 Text/Photo EUR: <11-14, 21- SYS Sets whether the values of the background 1
mode processi correction 12 24, 31-34, peak and text peak are fixed or not. One's
on original UC: 12 41-44>
ng set on the JPN:
place is an adjustment for "automatic
ADF/RAD 22 density" and ten's place is for "manual
F density". Once they are fixed, the range
correction is performed with standard
values.
The values of the background peak and
text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

05 Adjustment Image Range PPC Photo 694 Photo 12 <11-14, 21- SYS Sets whether the values of the background 1
mode processi correction 24, 31-34, peak and text peak are fixed or not. One's
on original 41-44>
ng set on the
place is an adjustment for "automatic
ADF/RAD density" and ten's
density ten s place is for "manual
manual
F density". Once they are fixed, the range
correction is performed with standard
values.
The values of the background peak and
text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

35
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Range PPC 695 Text 22 <11-14, 21- SYS Sets whether the values of the background 1
mode processi correction 24, 31-34, peak and text peak are fixed or not. One's
on original 41-44>
ng set on the
place is an adjustment for "automatic
ADF/RAD density" and ten's place is for "manual
F density". Once they are fixed, the range
correction is performed with standard
values.
The values of the background peak and
text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

05 Adjustment Image Adjustmen FAX Center 700 Center value 120 <0-255> SYS When the value increases, the image at the 1
mode processi t of value center step becomes lighter.
binarized
ng threshold(
Text)

05 Adjustment Image Adjustmen FAX Light step 701 Light step value 33 <0-255> SYS When the value increases, the image of 1
mode processi t of value "light" side becomes lighter.
binarized
ng threshold(
Text)

05 Adjustment Image Adjustmen FAX Dark step 702 Dark step value 33 <0-255> SYS When the value increases, the image of 1
mode processi t of value "dark" side becomes darker.
binarized
ng threshold(
Text)

36
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Density FAX 710 Photo 128 <0-255> SYS When the value increases, the image at the 1
mode processi adjustment center step becomes darker.
Fine
ng adjustment
of "manual
density"/C
enter
value

05 Adjustment Image Density FAX 714 Text/Photo 128 <0-255> SYS When the value increases, the image at the 1
mode processi adjustment center step becomes darker.
Fine
ng adjustment
of "manual
density"/C
enter
value

05 Adjustment Image Density FAX 715 Photo 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "light" steps becomes lighter.
Fine
ng adjustment
of "manual
density"/Li
ght step
value

37
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Density FAX 719 Text/Photo 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "light" steps becomes lighter.
Fine
ng adjustment
of "manual
density"/Li
ght step
value

05 Adjustment Image Density FAX 720 Photo 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "dark" steps becomes darker.
Fine
ng adjustment
of "manual
density"/D
ark step
value

05 Adjustment Image Density FAX 724 Text/Photo 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "dark" steps becomes darker.
Fine
ng adjustment
of "manual
density"/D
ark step
value

38
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Density FAX 725 Photo 128 <0-255> SYS When the value increases, the image 1
mode processi adjustment becomes darker.
Fine
ng adjustment
of
"automatic
density"

05 Adjustment Image Density FAX 729 Text/Photo 128 <0-255> SYS When the value increases, the image 1
mode processi adjustment becomes darker.
Fine
ng adjustment
of
"automatic
density"

05 Adjustment Image Range SCN 820 Text/Photo 246 <0-255> SYS When the value decreases, the text 1
mode processi correction/ becomes darker.
Text peak
ng adjustment

05 Adjustment Image Range SCN 821 Text 236 <0-255> SYS When the value decreases, the text 1
mode processi correction/ becomes darker.
Text peak
ng adjustment

05 Adjustment Image Range SCN 822 Photo 254 <0-255> SYS When the value decreases, the text 1
mode processi correction/ becomes darker.
Text peak
ng adjustment

39
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Range SCN 825 Text/Photo 12 <11-14, 21- SYS Sets whether the values of the background 1
mode processi correction 24, 31-34, peak and text peak are fixed or not. One's
on original 41-44>
ng manually
place is an adjustment for "automatic
set on the density" and ten's place is for "manual
original density". Once they are fixed, the range
glass correction is performed with standard
values. The values of the background peak
and text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

05 Adjustment Image Range SCN 826 Text 12 <11-14, 21- SYS Sets whether the values of the background 1
mode processi correction 24, 31-34, peak and text peak are fixed or not. One's
on original 41-44>
ng manually
place is an adjustment for "automatic
set on the density" and ten's place is for "manual
original density". Once they are fixed
density fixed, the range
glass correction is performed with standard
values. The values of the background peak
and text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

40
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Range SCN 827 Photo 12 <11-14, 21- SYS Sets whether the values of the background 1
mode processi correction 24, 31-34, peak and text peak are fixed or not. One's
on original 41-44>
ng manually
place is an adjustment for "automatic
set on the density" and ten's place is for "manual
original density". Once they are fixed, the range
glass correction is performed with standard
values. The values of the background peak
and text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

05 Adjustment Image Range SCN 830 Text/Photo 12 <11-14, 21- SYS Sets whether the value of the background 1
mode processi correction 24, 31-34, peak and text peak are fixed or not. One's
on original 41-44>
ng set on the
place is an adjustment for "automatic
ADF/RAD density" and ten's place is for "manual
F density". Once they are fixed
density fixed, the range
correction is performed with standard
values.
The values of the background peak and
text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

41
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Range SCN 831 Text 12 <11-14, 21- SYS Sets whether the value of the background 1
mode processi correction 24, 31-34, peak and text peak are fixed or not. One's
on original 41-44>
ng set on the
place is an adjustment for "automatic
ADF/RAD density" and ten's place is for "manual
F density". Once they are fixed, the range
correction is performed with standard
values.
The values of the background peak and
text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

05 Adjustment Image Range SCN 832 Photo 12 <11-14, 21- SYS Sets whether the value of the background 1
mode processi correction 24, 31-34, peak and text peak are fixed or not. One's
on original 41-44>
ng set on the
place is an adjustment for "automatic
ADF/RAD density" and ten's
density ten s place is for "manual
manual
F density". Once they are fixed, the range
correction is performed with standard
values.
The values of the background peak and
text peak affect the reproduction of the
background density and text density
respectively.
1: fixed/fixed
2: varied/fixed
3: fixed/varied
4: varied/varied
*Background peak/Text peak

42
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Range SCN 835 Text/Photo 32 <0-255> SYS When the value increases, the background 1
mode processi correction/ becomes more brightened.
Backgroun
ng d peak
adjustment

05 Adjustment Image Range SCN 836 Text 46 <0-255> SYS When the value increases, the background 1
mode processi correction/ becomes more brightened.
Backgroun
ng d peak
adjustment

05 Adjustment Image Range SCN 837 Photo 16 <0-255> SYS When the value increases, the background 1
mode processi correction/ becomes more brightened.
Backgroun
ng d peak
adjustment

05 Adjustment Image Density SCN 845 Text/Photo 128 <0-255> SYS When the value increases, the image at the 1
mode processi adjustment center step becomes darker.
Fine
ng adjustment
of "manual
density"/C
enter
value

43
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Density SCN 846 Text 128 <0-255> SYS When the value increases, the image at the 1
mode processi adjustment center step becomes darker.
Fine
ng adjustment
of "manual
density"/C
enter
value

05 Adjustment Image Density SCN 847 Photo 128 <0-255> SYS When the value increases, the image at the 1
mode processi adjustment center step becomes darker.
Fine
ng adjustment
of "manual
density"/C
enter
value

05 Adjustment Image Density SCN 850 Text/Photo 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "light" steps becomes lighter.
Fine
ng adjustment
of "manual
density"/Li
ght step
value

44
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Density SCN 851 Text 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "light" steps becomes lighter.
Fine
ng adjustment
of "manual
density"/Li
ght step
value

05 Adjustment Image Density SCN 852 Photo 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "light" steps becomes lighter.
Fine
ng adjustment
of "manual
density"/Li
ght step
value

05 Adjustment Image Density SCN 855 Text/Photo 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "dark" steps becomes darker.
Fine
ng adjustment
of "manual
density"/D
ark step
value

45
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Density SCN 856 Text 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "dark" steps becomes darker.
Fine
ng adjustment
of "manual
density"/D
ark step
value

05 Adjustment Image Density SCN 857 Photo 33 <0-255> SYS When the value increases, the image of the 1
mode processi adjustment "dark" steps becomes darker.
Fine
ng adjustment
of "manual
density"/D
ark step
value

05 Adjustment Image Density SCN 860 Text/Photo 128 <0-255> SYS When the value increases, the image 1
mode processi adjustment becomes darker.
Fine
ng adjustment
of
"automatic
density"

46
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Density SCN 861 Text 128 <0-255> SYS When the value increases, the image 1
mode processi adjustment becomes darker.
Fine
ng adjustment
of
"automatic
density"

05 Adjustment Image Density SCN 862 Photo 128 <0-255> SYS When the value increases, the image 1
mode processi adjustment becomes darker.
Fine
ng adjustment
of
"automatic
density"

05 Adjustment Image Sharpness SCN 865 0 Reproduction ratio 0 <0-99> SYS When the value increases, the image 2
mode processi adjustment 40% or smaller becomes sharper. When the value
(Text/Phot
ng o)
decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape
Ten's place: Sharpness intensity (0: Use
default value, 1-9: Filter intensity)

05 Adjustment Image Sharpness SCN 865 1 Reproduction ratio 0 <0-99> SYS When the value increases, the image 2
mode processi adjustment 41-80% becomes sharper. When the value
(Text/Phot
ng o)
decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape
Ten's place: Sharpness intensity (0: Use
default value, 1-9: Filter intensity)

47
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Sharpness SCN 865 2 Reproduction ratio 0 <0-99> SYS When the value increases, the image 2
mode processi adjustment 81% or larger becomes sharper. When the value
(Text/Phot
ng o)
decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape
Ten's place: Sharpness intensity (0: Use
default value, 1-9: Filter intensity)

05 Adjustment Image Sharpness SCN 866 0 Reproduction ratio 0 <0-99> SYS When the value increases, the image 2
mode processi adjustment 40% or smaller becomes sharper. When the value
(Text)
ng decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape
Ten's place: Sharpness intensity (0: Use
default value, 1-9: Filter intensity)

05 Adjustment Image Sharpness SCN 866 1 Reproduction ratio 0 <0-99> SYS When the value increases, the image 2
mode processi adjustment
p 41-80% p When the value
becomes sharper.
(Text)
ng decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape
Ten's place: Sharpness intensity (0: Use
default value, 1-9: Filter intensity)

05 Adjustment Image Sharpness SCN 866 2 Reproduction ratio 0 <0-99> SYS When the value increases, the image 2
mode processi adjustment 81% or larger becomes sharper. When the value
(Text)
ng decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape
Ten's place: Sharpness intensity (0: Use
default value, 1-9: Filter intensity)

48
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Sharpness SCN 867 0 Reproduction ratio 0 <0-99> SYS When the value increases, the image 2
mode processi adjustment 40% or smaller becomes sharper. When the value
(Photo)
ng decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape
Ten's place: Sharpness intensity (0: Use
default value, 1-9: Filter intensity)

05 Adjustment Image Sharpness SCN 867 1 Reproduction ratio 0 <0-99> SYS When the value increases, the image 2
mode processi adjustment 41-80% becomes sharper. When the value
(Photo)
ng decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape
Ten's place: Sharpness intensity (0: Use
default value, 1-9: Filter intensity)

05 Adjustment Image Sharpness SCN 867 2 Reproduction ratio 0 <0-99> SYS When the value increases, the image 2
mode processi adjustment
p g
81% or larger p When the value
becomes sharper.
(Photo)
ng decreases, the image becomes softer. The
smaller the value is, the less the moire
becomes.
One's place: Selecting a filter shape
Ten's place: Sharpness intensity (0: Use
default value, 1-9: Filter intensity)

05 Adjustment Image Backgroun SCN 869 Text/Photo 4 <1-9> SYS When the value decreases, the 1
mode processi d background becomes darker.
adjustment
ng When the value increases, the background
becomes lighter.

05 Adjustment Image Backgroun SCN 870 Photo 6 <1-9> SYS When the value decreases, the 1
mode processi d background becomes darker.
adjustment
ng When the value increases, the background
becomes lighter.

49
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
05 Adjustment Image Backgroun SCN 871 Text 4 <1-9> SYS When the value decreases, the 1
mode processi d background becomes darker.
adjustment
ng When the value increases, the background
becomes lighter.

05 Adjustment Printer Fine FAX 1300 0 16 x 15.4 128 <0-255> M When the value increases by "1", the 2
mode adjustment reproduction ratio of primary scanning
of
polygonal
direction increases by approx. 0.07%.
motor (approx. 0.1 mm/step)
rotation
speed

05 Adjustment Printer Fine FAX 1300 1 15.4 x 16 128 <0-255> M When the value increases by "1", the 2
mode adjustment reproduction ratio of primary scanning
of
polygonal
direction increases by approx. 0.07%.
motor (approx. 0.1 mm/step)
rotation
speed

50
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System User ALL 202 Counter installed 0 <0-3> M 0: No external counter 1
mode interface externally 1: Coin controller
2: Copy key card
3: Key copy counter
08 Setting System General ALL 203 Line adjustment 0 <0-1> M 0: For factory shipment 1
mode mode 1: For line
*Field: "0" must be selected

08 Setting System User ALL 204 Auto-clear timer 3 <0-15> SYS 0: Invalid 1: 15 sec. 1
mode interface setting 2: 30 sec. 3: 45 sec.
4: 60sec. 5: 75 sec.
6: 90 sec. 7: 105 sec.
8: 120 sec.9: 135 sec.
10: 150 sec.
11: 180 sec.
12: 210 sec.
13: 240 sec.
14: 270 sec.
15: 300 sec.
08 Setting System User ALL 205 Auto power save 1 <0-1> SYS 0: Invalid 1
mode
d interface mode
d ti
timer setting
tti 1:
1 Valid
V lid (Time
(Ti is
i sett on panel:l SYSFUNC8)
08 Setting System User ALL 206 Auto Shut Off 1 <0-1> SYS 0: Invalid 1
mode interface Mode timer setting 1: Valid (Time is set on panel: FUNC30)
(Auto Sleep Mode)

08 Setting System User ALL 209 Default setting of 1 <0-1> CTL 0: TIFF (Multi) 1
mode interface filing format when 1: PDF
E-mailing

08 Setting System User SCN 219 Default setting of 0 <0-3> CTL 0: TIFF (Multi) 1
mode interface filing format when 1: PDF
storing files 2: Not used
3: TIFF(Single)

1
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Printer Paper ALL 224 Paper size 14 <0-15> SYS Paper size (Bypass) 1
mode feeding (Bypass) 0:A3
1:A4
2:A4-R
3:A5-R
4:B4
5:B5
6:B5R
7:LETTER
8:LETTER-R
9:LEDGER
10:LEGAL
11:STATEMENT-R
12:COMPUTER
13:FOLIO
14:NON-STANDARD
15:POST CARD
08 Setting Printer Paper ALL 225 Paper size UC:7 <0-13> M Paper size (Drawer) 1
mode feeding (Drawer) Other:1 0:A3
1:A4
2 A4 R
2:A4-R
3:A5-R
4:B4
5:B5
6:B5R
7:LETTER
8:LETTER-R
9:LEDGER
10:LEGAL
11:STATEMENT-R
12:COMPUTER

2
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Printer Paper ALL 226 Paper size (PFU) UC:7 <0-13> M Paper size (PFU) 1
mode feeding Other:1 0:A3
1:A4
2:A4-R
3:A5-R
4:B4
5:B5
6:B5R
7:LETTER
8:LETTER-R
9:LEDGER
10:LEGAL
11:STATEMENT-R
12:COMPUTER
13:FOLIO
08 Setting Printer Paper ALL 227 Paper size (PFP UC:7 <0-13> M Paper size (Drawer) 1
mode feeding upper drawer) Other:1 0:A3
1:A4
2:A4-R
3:A5-R
4 B4
4:B4
5:B5
6:B5R
7:LETTER
8:LETTER-R
9:LEDGER
10:LEGAL
11:STATEMENT-R
12:COMPUTER
13:FOLIO

3
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Printer Paper ALL 228 Paper size (PFP UC:7 <0-13> M Paper size (PFP lower drawer) 1
mode feeding lower drawer) Other:1 0:A3
1:A4
2:A4-R
3:A5-R
4:B4
5:B5
6:B5R
7:LETTER
8:LETTER-R
9:LEDGER
10:LEGAL
11:STATEMENT-R
12:COMPUTER
13:FOLIO
08 Setting Printer Paper ALL feeding 229 0 Paper size (A3) 420 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 229 1 Paper size (A3) 297 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 230 0 Paper size (A4-R) 297 <140-432>
<140 432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 230 1 Paper size (A4-R) 210 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 231 0 Paper size (A5-R) 210 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 231 1 Paper size (A5-R) 148 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 232 0 Paper size (B4) 364 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 232 1 Paper size (B4) 257 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 233 0 Paper size (B5-R) 257 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 233 1 Paper size (B5-R) 182 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 234 0 Paper size (LT-R) 279 <140-432> M 2
mode feeding direction

4
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Printer Paper ALL widthwise 234 1 Paper size (LT-R) 216 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 235 0 Paper size (LD) 432 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 235 1 Paper size (LD) 279 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 236 0 Paper size (LG) 356 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 236 1 Paper size (LG) 216 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 237 0 Paper size (ST-R) 216 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 237 1 Paper size (ST-R) 140 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 238 0 Paper size 356 <140-432> M 2
mode feeding direction (COMPUTER)
08 Setting Printer Paper ALL widthwise 238 1 Paper size 257 <140-432> M 2
mode feeding direction ((COMPUTER))
08 Setting Printer Paper ALL feeding 239 0 Paper size 330 <140-432> M 2
mode feeding direction (FOLIO)
08 Setting Printer Paper ALL widthwise 239 1 Paper size 210 <140-432> M 2
mode feeding direction (FOLIO)
08 Setting Printer Paper ALL feeding 240 0 Paper size (13"LG) 330 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 240 1 Paper size (13"LG) 216 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 241 0 Paper size 216 <140-432> M 2
mode feeding direction (8.5"X8.5")
08 Setting Printer Paper ALL widthwise 241 1 Paper size 216 <140-432> M 2
mode feeding direction (8.5"X8.5")
08 Setting Printer Paper ALL feeding 242 0 Paper size (Non- 432 <105-432> SYS 2
mode feeding direction standard)
08 Setting Printer Paper ALL widthwise 242 1 Paper size (Non- 279 <105-432> SYS 2
mode feeding direction standard)

5
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Printer Paper ALL feeding 244 0 Paper size (8K) 390 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 244 1 Paper size (8K) 270 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 245 0 Paper size (16K-R) 270 <140-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 245 1 Paper size (16K-R) 195 <140-432> M 2
mode feeding direction
08 Setting System User ALL 246 Clearing copy jobs 0 <0-1> M 0: No clearing1: Clearing 1
mode interface at auto clear
08 Setting System Maintenan ALL 250 Service technician 0 <20 digits> SYS A telephone number can be entered up to 3
mode ce telephone number 20 digits.
08 Setting Counter Maintenan ALL 251 Setting value of Refer <8 digits> M <Default> 1
mode ce PM counter to JPN: 0
content
UC, EUR: 81,000 (e-STUDIO195)
90,000(e-STUDIO225/245)

08 Setting Counter Maintenan ALL 252 Current value of 0 <8 digits> M Counts up when the registration sensor is 1
mode ce PM counter ON.
Display/0 clearing

08 Setting System Maintenan ALL 253 Error history - SYS Displaying of the latest 8 errors code 3
mode ce display
08 Setting System Paper PRT 254 LT <-> A4/LD <-> 0 <0-1> CTL Sets whether the data is printed on the 1
mode feeding A3 different but similar size paper or not when
the paper of corresponding size is not
available.
0: Valid (The data is printed on A4/A3
when LT/LD is selected or vice versa.)
1: Invalid (The message to use the
selected paper size is displayed.)

6
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Printer Paper ALL 255 PFP installation 0 <0-4> M 0: Automatic 1
mode feeding 1: PFP single-drawer
type installed
2: PFP dual-drawer type
installed
3: -
4: Not installed
Even when "1" is set, if the PFP dual-
drawer has been installed at power-ON, it
will be automatically changed to "2".

08 Setting System Maintenan ALL 258 FSMS acceptance 0 <0-2> CTL Sets whether the FSMS connection is 1
mode ce accepted or not.
0: Prohibited
1: Single mode (print)
2: Dual mode (print/service)

08 Setting System Network SCN 260 Web data retention 10 <3 digits> CTL When a certain period of time has passed 1
mode period without operation after accessing
TopAccess, the data being registered is
automaticallyy reset. This period
p is set at
this code. (Unit: Minute)

08 Setting System User ALL 261 Fixes the paper 0 <0-1> M Sets whether the bypass feed paper size is 1
mode interface size setting for the fixed or not
bypass tray 0: Size not fixed (The paper size is
returned to the nonstandard size by turning
the power OFF or pressing the reset
button.)
1: Size fixed (The paper size is returned to
the one set in 08-224 by turning the power
OFF or pressing the reset button.)

08 Setting System User ALL 263 Administrator's 123456 <10 digits> CTL The password can be entered in alphabets 1
mode interface password and figures (A-Z, a-z, 0-9) within 10 digits.
(Maximum 10
digits)

08 Setting System Network E-mail 265 Maximum data 30 <2-30> CTL 2 to 30 M bytes 1
mode capacity at E-
mailing

7
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network Internet Fax 266 Maximum data 30 <2-30> CTL 2 to 30 M bytes 1
mode capacity at Internet
FAX

08 Setting System Scanning E-mail 273 Default setting of 0 <0-6> CTL Sets the default value for the partial size of 1
mode partial size when E-mail to be transmitted when creating a
transmitting E-mail template.
0: Not divided
1: 64 2: 128
3: 256 4: 512
5: 1024
6: 2048 (Unit: KB)

08 Setting System FAX Internet Fax 274 Default setting of 0 <0-4> CTL Sets the default value for the page by page 1
mode page by page of Internet FAX to be transmitted when
when transmitting creating a template.
Internet FAX 0: Not divide 1: 256
2: 512 3: 1024
4: 2048 (Unit: KB)

08 Setting System User Default mode setting Default 276 Default setting for 0 <0-9> CTL 0: Automatic density 1
mode interface setting density adjustment 3: Step -3
(SCN) 4: Step -2
5: Step -1
6: Step 0 (center)
7: Step +1
8: Step +2
9: Step +3
(3 to 9: Manual density)
08 Setting System User Default mode setting Default 281 Default setting of 1 <0-4> CTL 0: 150 dpi 1: 200 dpi 1
mode interface setting of resolution 2: 300 dpi 3: 400dpi
resolution 4: 600 dpi
(SCN)

08 Setting System User Default mode setting Default 283 Default setting of 0 <0-2> CTL 0: Text 1
mode interface setting original mode 1: Text/Photo
(SCN) 2: Photo

08 Setting System User Default mode setting Default 284 Default setting of 0 <0-2> CTL 0: Single 1: Book 1
mode interface setting scanning mode 2: Tablet
(SCN)

8
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System User Default mode setting Default 285 Default setting of 0 <0-1> CTL 0: 0 degree 1
mode interface setting rotation angle of 1: 90 degrees
(SCN) original

08 Setting System User Default mode setting Default 286 Default setting of 0 <0, 19> CTL 0: Automatic 1
mode interface setting original paper size 19: Size mixed
(SCN)

08 Setting System Network PRT 290 Raw printing job 1 <0-1> CTL 0: Valid 1: Invalid 1
mode (Duplex)
08 Setting System Network PRT 291 Raw printing job 6 <0-12> CTL 0: LD 1: LG 1
mode (Paper size) 2: LT 3: COMP
4: ST 5: A3
6: A4 7: A5
8: - 9: B4
10: B5 11: FOLIO
12: 13”LG

08 Setting System Network PRT 292 Raw printing job 0 <0-4> CTL 0: Plain paper 1
mode (Paper type) 1: Thick paper 1
2: Thick paper 2
3 -
3:
4: OHP film

08 Setting System Network PRT 293 Raw printing job 0 <0-1> CTL 0: Portrait 1: Landscape 1
mode (Paper direction)
08 Setting System Network PRT 296 Raw printing job 1200 <500- CTL Sets the number of form lines from 5 to 1
mode (Number of form 12800> 128. (A hundredfold of the number of form
lines) lines is defined as the setting value.)

08 Setting System Network PRT 297 Raw printing job 1000 <44-9999> CTL Sets the font pitch from 0.44 to 99.99. (A 1
mode (PCL font pitch) hundredfold of the font pitch is defined as
the setting value.)

08 Setting System Network PRT 298 Raw printing job 1200 <400- CTL Sets the font size from 4 to 999.75. (A 1
mode (PCL font size) 99975> hundredfold of the font size is defined as
the setting value.)

08 Setting System Network PRT 299 Raw printing job 0 <0-79> CTL Sets the PCL font number. 1
mode (PCL font number)

9
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System User PPC 300 Maximum number 0 <0-2> SYS 0: 999 1: 99 1
mode interface of copy volume 2:9
(MAX9)

08 Setting Counter Counter PPC A3 305 0 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC A4 305 1 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC A5 305 2 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
g of large-sized
setting g p p (08-353).
paper ( )

08 Setting Counter Counter PPC A6 305 3 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC B4 305 4 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC B5 305 5 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

10
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PPC FOLIO 305 6 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC LD 305 7 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC LG 305 8 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC LT 305 9 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC ST 305 10 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC COMP 305 11 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

11
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PPC 13"LG 305 12 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC 8.5" x 8.5" 305 13 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC 16K 305 14 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC 8K 305 15 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC Others 305 16 Number of output 0 <8 digits> SYS Counts the output pages in the copier 2
mode pages in copier function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT A3 306 0 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

12
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PRT A4 306 1 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT A5 306 2 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT A6 306 3 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT B4 306 4 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT B5 306 5 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT FOLIO 306 6 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

13
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PRT LD 306 7 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT LG 306 8 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT LT 306 9 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT ST 306 10 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT COMP 306 11 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT 13"LG 306 12 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

14
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PRT 8.5" x 8.5" 306 13 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT 16K 306 14 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT 8K 306 15 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT Others 306 16 Number of output 0 <8 digits> SYS Counts the output pages in the printer 2
mode pages in printer function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PRT A3 307 0 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT A4 307 1 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

15
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PRT A5 307 2 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT A6 307 3 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT B4 307 4 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT B5 307 5 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT FOLIO 307 6 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT LD 307 7 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

16
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PRT LG 307 8 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT LT 307 9 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT ST 307 10 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT COMP 307 11 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT 13"LG 307 12 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT 8.5" x 8.5" 307 13 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

17
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PRT 16K 307 14 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT 8K 307 15 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter PRT Others 307 16 Number of output 0 <8 digits> SYS Counts the output pages at the list print 2
mode pages at list print mode for each paper size according to the
mode setting for the count setting of large-sized
paper (08-352) and the definition setting of
large-sized paper (08-353).

08 Setting Counter Counter FAX A3 308 0 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A4 308 1 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A5 308 2 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

18
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX A6 308 3 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX B4 308 4 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX B5 308 5 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX FOLIO 308 6 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX LD 308 7 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX LG 308 8 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

19
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX LT 308 9 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX ST 308 10 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX COMP 308 11 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 13"LG 308 12 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 8.5" x 8.5" 308 13 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 16K 308 14 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

20
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX 8K 308 15 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX Others 308 16 Number of output 0 <8 digits> SYS Counts the output pages in the FAX 2
mode pages in FAX function for each paper size according to
function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC A3 312 0 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC A4 312 1 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC A5 312 2 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC A6 312 3 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

21
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PPC B4 312 4 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC B5 312 5 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC FOLIO 312 6 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC LD 312 7 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC LG 312 8 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC LT 312 9 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

22
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PPC ST 312 10 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC COMP 312 11 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC 13"LG 312 12 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC 8.5" x 8.5" 312 13 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC 16K 312 14 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC 8K 312 15 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

23
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PPC Others 312 16 Number of 0 <8 digits> SYS Counts the scanning pages in the copier 2
mode scanning pages in function for each paper size according to
copier function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN A3 313 0 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN A4 313 1 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN A5 313 2 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN A6 313 3 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN B4 313 4 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

24
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter SCN B5 313 5 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN FOLIO 313 6 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN LD 313 7 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN LG 313 8 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN LT 313 9 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN ST 313 10 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

25
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter SCN COMP 313 11 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN 13"LG 313 12 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN 8.5" x 8.5" 313 13 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN 16K 313 14 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN 8K 313 15 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter SCN Others 313 16 Number of 0 <8 digits> SYS Counts the scanning pages in the scanning 2
mode scanning pages in function for each paper size according to
scanning function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

26
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX A3 314 0 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A4 314 1 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A5 314 2 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A6 314 3 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX B4 314 4 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX B5 314 5 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

27
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX FOLIO 314 6 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX LD 314 7 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX LG 314 8 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX LT 314 9 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX ST 314 10 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX COMP 314 11 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

28
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX 13"LG 314 12 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 8.5" x 8.5" 314 13 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 16K 314 14 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 8K 314 15 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX Others 314 16 Number of 0 <8 digits> SYS Counts the scanning pages in the FAX 2
mode scanning pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A3 315 0 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

29
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX A4 315 1 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A5 315 2 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A6 315 3 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX B4 315 4 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX B5 315 5 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX FOLIO 315 6 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

30
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX LD 315 7 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX LG 315 8 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX LT 315 9 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX ST 315 10 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX COMP 315 11 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 13"LG 315 12 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

31
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX 8.5" x 8.5" 315 13 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 16K 315 14 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 8K 315 15 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX Others 315 16 Number of 0 <8 digits> SYS Counts the transmitted pages in the FAX 2
mode transmitted pages function for each paper size according to
in FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A3 316 0 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A4 316 1 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

32
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX A5 316 2 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX A6 316 3 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX B4 316 4 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX B5 316 5 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX FOLIO 316 6 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX LD 316 7 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

33
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX LG 316 8 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX LT 316 9 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX ST 316 10 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX COMP 316 11 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 13"LG 316 12 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 8.5" x 8.5" 316 13 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

34
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX 16K 316 14 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX 8K 316 15 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter FAX Others 316 16 Number of 0 <8 digits> SYS Counts the received pages in the FAX 2
mode received pages in function for each paper size according to
FAX function the setting for the count setting of large-
sized paper (08-352) and the definition
setting of large-sized paper (08-353).

08 Setting Counter Counter PPC Large 320 0 Display of number 0 <8 digits> SYS Counts the number of output pages in the 4
mode of output pages in Copier Function according to its size
copier function (large/small)
(large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter PPC Small 320 1 Display of number 0 <8 digits> SYS Counts the number of output pages in the 4
mode of output pages in Copier Function according to its size
copier function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.

35
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PPC Total 320 2 Display of number 0 <8 digits> SYS Counts the number of output pages in the 4
mode of output pages in Copier Function according to its size
copier function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter PRT Large 321 0 Display of number 0 <8 digits> SYS Counts the number of output pages in the 4
mode of output pages in Printer Function according to its size
printer function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter PRT Small 321 1 Display of number 0 <8 digits> SYS Counts the number of output pages in the 4
mode p p
of output g in
pages g to its size
Printer Function according
printer function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter PRT Total 321 2 Display of number 0 <8 digits> SYS Counts the number of output pages in the 4
mode of output pages in Printer Function according to its size
printer function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.

36
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PRT Large 322 0 Display of number 0 <8 digits> SYS Counts the number of output pages at the 4
mode of output pages at List Print Mode Function according to its
list print mode size (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter PRT Small 322 1 Display of number 0 <8 digits> SYS Counts the number of output pages at the 4
mode of output pages at List Print Mode Function according to its
list print mode size (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter PRT Total 322 2 Display of number 0 <8 digits> SYS Counts the number of output pages at the 4
mode p p
of output g at
pages g to its
List Print Mode Function according
list print mode size (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter FAX Large 323 0 Display of number 0 <8 digits> SYS Counts the number of output pages in the 4
mode of output pages in FAX Function according to its size
FAX function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.

37
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX Small 323 1 Display of number 0 <8 digits> SYS Counts the number of output pages in the 4
mode of output pages in FAX Function according to its size
FAX function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter FAX Total 323 2 Display of number 0 <8 digits> SYS Counts the number of output pages in the 4
mode of output pages in FAX Function according to its size
FAX function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter PPC Large 327 0 Display of number 0 <8 digits> SYS Counts the number of scanning pages in 4
mode of scanningg pages
p g p Function according
the Copier g to its size
in copier function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter PPC Small 327 1 Display of number 0 <8 digits> SYS Counts the number of scanning pages in 4
mode of scanning pages the Copier Function according to its size
in copier function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.

38
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter PPC Total 327 2 Display of number 0 <8 digits> SYS Counts the number of scanning pages in 4
mode of scanning pages the Copier Function according to its size
in copier function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter FAX Large 328 0 Display of number 0 <8 digits> SYS Counts the number of scanning pages in 4
mode of scanning pages the FAX Function according to its size
in FAX function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter FAX Small 328 1 Display of number 0 <8 digits> SYS Counts the number of scanning pages in 4
mode of scanningg pages
p g the FAX Function accordingg to its size
in FAX function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter FAX Total 328 2 Display of number 0 <8 digits> SYS Counts the number of scanning pages in 4
mode of scanning pages the FAX Function according to its size
in FAX function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.

39
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter SCN Large 329 0 Display of number 0 <8 digits> SYS Counts the number of scanning pages in 4
mode of scanning pages the Scanning Function according to its size
in scanning (large/small).
function Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter SCN Small 329 1 Display of number 0 <8 digits> SYS Counts the number of scanning pages in 4
mode of scanning pages the Scanning Function according to its size
in scanning (large/small).
function Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter SCN Total 329 2 Display of number 0 <8 digits> SYS Counts the number of scanning pages in 4
mode of scanningg pages
p g the Scanning g Function according
g to its size
in scanning (large/small).
function Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter FAX Large 330 0 Display of number 0 <8 digits> SYS Counts the number of transmitted pages in 4
mode of transmitted the FAX Function according to its size
pages in FAX (large/small).
function Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.

40
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX Small 330 1 Display of number 0 <8 digits> SYS Counts the number of transmitted pages in 4
mode of transmitted the FAX Function according to its size
pages in FAX (large/small).
function Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter FAX Total 330 2 Display of number 0 <8 digits> SYS Counts the number of transmitted pages in 4
mode of transmitted the FAX Function according to its size
pages in FAX (large/small).
function Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter FAX Large 332 0 Display of number 0 <8 digits> SYS Counts the number of received pages in 4
mode p g
of received pages the FAX Function accordingg to its size
in FAX function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter FAX Small 332 1 Display of number 0 <8 digits> SYS Counts the number of received pages in 4
mode of received pages the FAX Function according to its size
in FAX function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.

41
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter FAX Total 332 2 Display of number 0 <8 digits> SYS Counts the number of received pages in 4
mode of received pages the FAX Function according to its size
in FAX function (large/small).
Large: Number of output pages of large-
sized paper defined at 08-353
Small: Number of output pages other than
set as large-sized paper
Total: Total number output pages of all
paper sizes.
08 Setting Counter Counter ALL Large 335 0 Display of total 0 <8 digits> SYS Displays the total number of pages. 4
mode number of pages
08 Setting Counter Counter ALL Small 335 1 Display of total 0 <8 digits> SYS Displays the total number of pages. 4
mode number of pages
08 Setting Counter Counter ALL Total 335 2 Display of total 0 <8 digits> SYS Displays the total number of pages. 4
mode number of pages
08 Setting Printer Paper ALL feeding 337 0 Paper size (#10-R) 241 <105-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 337 1 Paper size (#10-R) 105 <105-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 338 0 Paper size (DL-R) 220 <105-432> M 2
mode feeding direction
08 Setting Printer Paper ALL widthwise 338 1 Paper size (DL-R) 110 <105-432> M 2
mode feeding direction
08 Setting Printer Paper ALL feeding 339 0 Paper size 191 <98-432> M 2
mode feeding direction (Envelope:
Monerch-R)

08 Setting Printer Paper ALL widthwise 339 1 Paper size 98 <98-432> M 2


mode feeding direction (Envelope:
Monerch-R)

08 Setting Printer Paper ALL feeding 340 0 Paper size 235 <105-432> M 2
mode feeding direction (Envelope: CHO-3-
R)

08 Setting Printer Paper ALL widthwise 340 1 Paper size 120 <105-432> M 2
mode feeding direction (Envelope: CHO-3-
R)

42
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Printer Paper ALL feeding 341 0 Paper size 235 <105-432> M 2
mode feeding direction (Envelope: YOU-4-
R)

08 Setting Printer Paper ALL widthwise 341 1 Paper size 105 <105-432> M 2
mode feeding direction (Envelope: YOU-4-
R)
08 Setting Counter Counter ALL 345 Count setting of 1 <0-1> M 0: Counted as 1 1
mode envelope (PM) 1: Counted as 2
08 Setting Counter Counter ALL 346 Count setting of 1 <0-1> M 0: Counted as 1 1
mode large-sized paper 1: Counted as 2
(PM)

08 Setting Counter Counter ALL 347 Definition setting of 1 <0-1> M 0: A3/LD 1


mode large-sized paper 1: A3/LD/B4/LG/FOLIO/COMP
(PM)

08 Setting Counter Counter ALL 348 Count setting of 1 <0-1> M 0: Counted as 1 1


mode thick paper (PM) 1: Counted as 2
08 Setting Counter Counter ALL 349 Count setting of 1 <0-1> M 0: Counted as 1 1
mode OHP film (PM) 1: Counted as 2
08 Setting Counter Counter ALL 352 Count setting of JPN: 0 <0-1> M 0: Counted as 1 1
mode large-sized paper Other: 1: Counted as 2
1
(Fee charging
system counter)

08 Setting Counter Counter ALL 353 Definition setting of 0 <0-1> M 0: A3/LD 1


mode large-sized paper 1: A3/LD/B4/LG/FOLIO/COMP/8K
(Fee charging
system counter)

08 Setting Counter Counter ALL 356 Counter for Drawer 0 <8 digits> M Counts the number of sheets fed from 3
mode feeding Drawer
08 Setting Counter Counter ALL 357 Counter for PFU 0 <8 digits> M Counts the number of sheets fed from PFU 3
mode feeding
08 Setting Counter Counter ALL 358 Counter for bypass 0 <8 digits> M Counts the number of sheets fed from 3
mode feeding bypass feed

43
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter ALL 360 Counter for PFP 0 <8 digits> M Counts the number of sheets fed from PFP 3
mode upper drawer upper drawer
feeding

08 Setting Counter Counter ALL 370 Counter for PFP 0 <8 digits> M Counts the number of sheets fed from PFP 3
mode lower drawer lower drawer
feeding

08 Setting Counter Counter ALL 372 Counter for ADU 0 <8 digits> M Counts the number of output pages of 3
mode duplex printing.
08 Setting Counter Counter ALL 374 Counter for 0 <8 digits> SYS Counts the number of originals fed from 3
mode ADF/RADF ADF/RADF
08 Setting System Counter ALL 381 Setting for counter 1 <0-1> M Selects the job to count up for the external 1
mode installed externally counter.
0: Not selected
1: Copier
08 Setting Counter Counter ALL 388 Copying total - - Copies the total counter value of the MAIN 5
mode counter / MAIN board to the SRAM board.
board → SRAM
board

08 Setting Counter Counter ALL 389 Copying total - - Copies the total counter value of the SRAM 5
mode counter / SRAM board to the MAIN board.
board → MAIN
board

08 Setting Process Fuser ALL 400 Fuser unit error 0 <0-19> M 0: No error 1
mode status counter 1: C41 (Once)
2: C41 (consecutively
occurred)
3: C46 4: C43
5: C44 6: C45
7: C44 8: C45
9: C44 10: C47
11: C47 12: C48
13: C49 14: C47
15: C48 16: C49
17: C47 18: C48
19: C49

44
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL The first 404 0 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting in ready 08-886.
status (Center Setting value x -5°C: from 0°C to -50°C
thermistor)

08 Setting Process Fuser ALL The second 404 1 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting in ready 08-886.
status (Center Setting value x -5°C: from 0°C to -50°C
thermistor)

08 Setting Process Fuser ALL The third 404 2 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting in ready 08-886.
status (Center Setting value x -5°C: from 0°C to -50°C
thermistor)

08 Setting Process Fuser ALL The fourth 404 3 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting in ready 08-886.
status (Center Setting value x -5°C: from 0°C to -50°C
thermistor)

08 Setting Process Fuser ALL The first 405 0 Temperature drop 3 <0-10> M This code is valid only when "20" is set to 2
mode p
drop g in readyy
setting 08-886.
status (Side Setting value x -5°C: from 0°C to -50°C
thermistor)

08 Setting Process Fuser ALL The second 405 1 Temperature drop 3 <0-10> M This code is valid only when "20" is set to 2
mode drop setting in ready 08-886.
status (Side Setting value x -5°C: from 0°C to -50°C
thermistor)

08 Setting Process Fuser ALL The third 405 2 Temperature drop 3 <0-10> M This code is valid only when "20" is set to 2
mode drop setting in ready 08-886.
status (Side Setting value x -5°C: from 0°C to -50°C
thermistor)

08 Setting Process Fuser ALL The fourth 405 3 Temperature drop 3 <0-10> M This code is valid only when "20" is set to 2
mode drop setting in ready 08-886.
status (Side Setting value x -5°C: from 0°C to -50°C
thermistor)

45
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL 407 Fuser roller 6 <0-12> M 0: 140°C 1: 145°C 1
mode temperature in 2: 150°C 3: 155°C
ready status (Side 4: 160°C 5: 165°C
thermistor) 6: 170°C 7: 175°C
8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C

08 Setting Process Fuser ALL 409 Fuser roller EUR : 7 <0-13> M 0: OFF 1: 40°C 1
mode temperature at Other : 2: 50°C 3: 60°C
0
energy saver mode 4: 70°C 5: 80°C
(Center thermistor) 6: 90°C 7: 100°C
8: 110°C 9: 120°C
10: 130°C
11: 140°C
12: 150°C
13: 160°C
08 Setting Process Fuser ALL 410 Fuser roller 6 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing (Center 4: 160°C
160 C 5: 165°C
165 C
thermistor/Plain 6: 170°C 7: 175°C
paper) 8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C
13: 205°C
14: 210°C
08 Setting Process Fuser ALL 411 Fuser roller 6 <0-12> M 0: 140°C 1: 145°C 1
mode temperature on 2: 150°C 3: 155°C
standby (Center 4: 160°C 5: 165°C
thermistor) 6: 170°C 7: 175°C
8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C

46
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL 413 Fuser roller 6 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing (Center 4: 160°C 5: 165°C
thermistor/Thick 6: 170°C 7: 175°C
paper 1) 8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C
13: 205°C
14: 210°C

08 Setting Process Developer ALL 414 Toner density life 0 <0-7> M 0: Unchanged (Default) 1
mode correction 1: Approx. 0.1 wt% lower
switching 2: Approx. 0.2 wt% higher
3: Approx. 0.5 wt% higher
4: Approx. 0.6 wt% lower
5: Approx. 0.8 wt% lower
6: Approx. 1.0 wt% lower
7: Approx. 1.3 wt% lower

08 Setting Process Fuser ALL The first 424 0 Temperature drop 15 <2-60> M This code is valid only when "20" is set to 2
mode drop switching time 08-886.
setting in ready Setting value x 1 min.: from 2 to 60 min.
status (Center later
thermistor)

08 Setting Process Fuser ALL The second 424 1 Temperature drop 15 <2-60> M This code is valid only when "20" is set to 2
mode drop switching time 08-886.
setting in ready Setting value x 1 min.: from 2 to 60 min.
status (Center later
thermistor)

08 Setting Process Fuser ALL The third 424 2 Temperature drop 15 <2-60> M This code is valid only when "20" is set to 2
mode drop switching time 08-886.
setting in ready Setting value x 1 min.: from 2 to 60 min.
status (Center later
thermistor)

47
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL The fourth 424 3 Temperature drop 15 <2-60> M This code is valid only when "20" is set to 2
mode drop switching time 08-886.
setting in ready Setting value x 1 min.: from 2 to 60 min.
status (Center later
thermistor)

08 Setting Process Fuser ALL The first 425 0 Temperature drop 15 <2-60> M This code is valid only when "20" is set to 2
mode drop switching time 08-886.
setting in ready Setting value x 1 min.: from 2 to 60 min.
status (Side later
thermistor)

08 Setting Process Fuser ALL The second 425 1 Temperature drop 15 <2-60> M This code is valid only when "20" is set to 2
mode drop switching time 08-886.
setting in ready Setting value x 1 min.: from 2 to 60 min.
status (Side later
thermistor)

08 Setting Process Fuser ALL The third 425 2 Temperature drop 15 <2-60> M This code is valid only when "20" is set to 2
mode drop switching time 08-886.
setting in ready Setting value x 1 min
min.:: from 2 to 60 min
min.
status (Side later
thermistor)

08 Setting Process Fuser ALL The fourth 425 3 Temperature drop 15 <2-60> M This code is valid only when "20" is set to 2
mode drop switching time 08-886.
setting in ready Setting value x 1 min.: from 2 to 60 min.
status (Side later
thermistor)

08 Setting Process Fuser ALL Center 433 0 Temperature 19 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit cpm: 5 2: 140°C 3: 145°C
22 cpm
(Plain paper/at / 24
4: 150°C 5: 155°C 6: 160°C 7: 165°C
ordinary cpm: 6 8: 170°C 9: 175°C 10: 180°C
temperature) 11: 185°C 12: 120°C

48
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL Side 433 1 Temperature 19 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit cpm: 3 2: 140°C 3: 145°C
22 cpm
(Plain paper/at / 24
4: 150°C 5: 155°C 6: 160°C 7: 165°C
ordinary cpm: 4 8: 170°C 9: 175°C 10: 180°C
temperature) 11: 185°C 12: 120°C

08 Setting Process Fuser ALL 437 Fuser roller 9 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing (Center 4: 160°C 5: 165°C
thermistor /Thick 6: 170°C 7: 175°C
paper 2) 8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C
13: 205°C
14: 210°C
08 Setting Process Fuser ALL 438 Fuser roller 6 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing (Center 4: 160°C 5: 165°C
thermistor/OHP 6: 170°C
170 C 7: 175°C
175 C
film) 8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C
13: 205°C
14: 210°C
08 Setting Process Fuser ALL 439 Pre-running time 10 <0-15> M 0: Invalid 1: 1 sec. 1
mode for first printing 2: 2 sec. 3: 3 sec.
(Thick paper 2) 4: 4 sec. 5: 5 sec.
6: 6 sec. 7: 7 sec.
8: 8 sec. 9: 9 sec.
10: 10 sec.
11: 12 sec.
12: 14 sec.
13: 16 sec.
14: 18 sec.
15: 20 sec.

49
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL 440 Pre-running time 0 <0-15> M 0: Invalid 1: 1 sec. 1
mode for first printing 2: 2 sec. 3: 3 sec.
(Plain paper) 4: 4 sec. 5: 5 sec.
6: 6 sec. 7: 7 sec.
8: 8 sec. 9: 9 sec.
10: 10 sec.
11: 12 sec.
12: 14 sec.
13: 16 sec.
14: 18 sec.
15: 20 sec.

08 Setting Process Fuser ALL 441 Pre-running time 10 <0-15> M 0: Invalid 1: 1 sec. 1
mode for first printing 2: 2 sec. 3: 3 sec.
(Thick paper 1) 4: 4 sec. 5: 5 sec.
6: 6 sec. 7: 7 sec.
8: 8 sec. 9: 9 sec.
10: 10 sec.
11: 12 sec.
12: 14 sec.
13: 16 sec.
sec
14: 18 sec.
15: 20 sec.

08 Setting Process Fuser ALL 448 Fuser roller EUR : 7 <0-13> M 0: OFF 1: 40°C 1
mode temperature in Other : 2: 50°C 3: 60°C
0
Energy Saving 4: 70°C 5: 80°C
Mode (Side 6: 90°C 7: 100°C
thermistor) 8: 110°C 9: 120°C
10: 130°C
11: 140°C
12: 150°C
13: 160°C
08 Setting Process Fuser ALL 450 Fuser roller 6 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing (Side 4: 160°C 5: 165°C
thermistor/Plain 6: 170°C 7: 175°C
paper) 8: 180°C 9: 185°C
10: 190°C 11: 195°C
12: 200°C 13: 205°C 14: 210°C

50
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL 451 Fuser roller 6 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing (Side 4: 160°C 5: 165°C
thermistor/Thick 6: 170°C 7: 175°C
paper 1) 8: 180°C 9: 185°C
10: 190°C 11: 195°C
12: 200°C 13: 205°C 14: 210°C
08 Setting Process Fuser ALL 452 Fuser roller 9 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing 4: 160°C 5: 165°C
(Side 6: 170°C 7: 175°C
thermistor/Thick 8: 180°C 9: 185°C
paper 2) 10: 190°C 11: 195°C
12: 200°C 13: 205°C 14: 210°C
08 Setting Process Fuser ALL 453 Fuser roller 6 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing(Side 4: 160°C 5: 165°C
thermistor/OHP 6: 170°C 7: 175°C
film) 8: 180°C 9: 185°C
10: 190°C 11: 195°C
12: 200°C 13: 205°C 14: 210°C
08 Setting Process Image ALL 455 Toner supply 0 <0-5> M Corrects the supply amount of the fresh 1
mode processing amount toner (driving period of the toner motor)
correction/Toner into the developer unit.
motor control 0: x1.0 1: x0.75 2: x0.5 3: x0.3 4: x2.0 5:
x1.5

08 Setting Scanner Scanner ALL 463 Control status 0 <0-6> SYS 0 : Normal end 1
mode 1 : R1 level abnormality
2 : G1 level abnormality
3 : B1 level abnormality
4 : R2 level abnormality
5 : G2 level abnormality
6 : B2 level abnormality

51
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Scanner Scanner ALL 465 Black level control 0 <0-255> SYS 1 : CH1 black level abnormality 1
mode status 2 : CH2 black level abnormality
4 : CH3 black level abnormality
8 : CH4 black level abnormality
16 : CH5 black level abnormality
32 : CH6 black level abnormality
64 : Time over
08 Setting Scanner Scanner ALL 466 White level control 0 <0-255> SYS 1 : CH1 white level abnormality 1
mode status 2 : CH2 white level abnormality
4 : CH3 white level abnormality
8 : CH4 white level abnormality
16 : CH5 white level abnormality
32 : CH6 white level abnormality
64 : Time over
08 Setting Printer Paper ALL feeding 471 0 Paper size 148 <100-432> M * Postcard is supported only for JPN 10
mode feeding direction (Postcard) model.
08 Setting Printer Paper ALL widthwise 471 1 Paper size 100 <100-432> M * Postcard is supported only for JPN 10
mode feeding direction (Postcard) model.
08 Setting Process Fuser ALL The first 476 0 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode
d drop
d setting
tti during
d i 08-535.
08 535
printing (Center Setting value x -5ºC:from 0ºC to -50ºC
thermistor/ Thick Thick paper: Thick Paper1/Thick
paper) Paper2/OHP/Envelope

08 Setting Process Fuser ALL The second 476 1 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Center Setting value x -5ºC:from 0ºC to -50ºC
thermistor/ Thick Thick paper: Thick Paper1/Thick
paper) Paper2/OHP/Envelope

08 Setting Process Fuser ALL The third 476 2 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Center Setting value x -5ºC:from 0ºC to -50ºC
thermistor/ Thick Thick paper: Thick Paper1/Thick
paper) Paper2/OHP/Envelope

52
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL The fourth 476 3 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Center Setting value x -5ºC:from 0ºC to -50ºC
thermistor/ Thick Thick paper: Thick Paper1/Thick
paper) Paper2/OHP/Envelope

08 Setting Printer Paper PPC 480 Default setting of 0 <0-4> SYS 0: A4/LT 1: Drawer 2: LCF 3: PFP upper 1
mode feeding paper source drawer 4: PFP lower drawer
08 Setting Printer Paper PPC 481 Automatic change 1 <0-1> SYS Sets whether or not changing the drawer 1
mode feeding of paper source automatically to the other drawer with the
paper of the same size when paper in the
selected drawer has run out.
0: OFF 1: ON

08 Setting Printer Paper ALL 482 Feeding retry 0 <0-1> M 0: ON 1: OFF 1


mode feeding setting
08 Setting Printer Laser ALL 483 Pre-running 0 <0-2> SYS Sets whether or not switching the polygonal 1
mode rotation of motor from the standby rotation to the
polygonal motor normal rotation when the original is set on
p
the ADF/RADF or the platen cover is
opened.
0: Valid (when using ADF/RADF and the
original is set manually) 1: Invalid 2: Valid
(when using ADF/RADF only)

08 Setting Printer Laser ALL 486 Timing of auto- 0 <0-2> SYS Switches the polygonal motor to the 1
mode clearing of standby rotation when a certain period of
polygonal motor time has passed from the pre-running. At
pre-running this code, the period to switch the status to
rotation the standby rotation is set.
0: 15 sec. 1: 30 sec. 2: 45 sec.
This setting is effective when "0" or "2" is
set at 08-483.
08 Setting Image Image PPC 502 Error diffusion and 1 <0-1> SYS Sets the image reproduction method at 1
mode processi dither setting at photo mode.
ng photo mode 0: Error diffusion 1: Dither

08 Setting System FAX FAX 510 FAX automatic 1 <0-1> 0:Automatic transmission 1:Do not 1
mode transmission automatic transmission

53
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System FAX FAX 511 Setting for 0 <0-1> SYS 0: Disabled 1: Enabled 1
mode restriction on
registration to
Address Book

08 Setting System FAX FAX 513 Reset - SYS 5


mode administrator
08 Setting Process Fuser ALL 515 d
Temperature 9 <0-14> M 0: 140°C 1: 145°C 1
mode setting of warming- 2: 150°C 3: 155°C
up (Center 4: 160°C 5: 165°C
thermistor) 6: 170°C 7: 175°C
8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C
13: 205°C
14: 210°C

08 Setting Process Fuser ALL 516 Temperature 9 <0-14> M 0: 140°C 1: 145°C 1


mode setting of warming- 2: 150°C 3: 155°C
up (Side 4: 160 C 5: 165°C
160°C 165 C
thermistor) 6: 170°C 7: 175°C
8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C
13: 205°C
14: 210°C

08 Setting Process Fuser ALL 520 Fuser roller 9 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing (Center 4: 160°C 5: 165°C
thermistor/Envelop 6: 170°C 7: 175°C
e) 8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C
13: 205°C
14: 210°C

54
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL 521 Fuser roller 9 <0-14> M 0: 140°C 1: 145°C 1
mode temperature during 2: 150°C 3: 155°C
printing (Side 4: 160°C 5: 165°C
thermistor/Envelop 6: 170°C 7: 175°C
e) 8: 180°C 9: 185°C
10: 190°C
11: 195°C
12: 200°C
13: 205°C
14: 210°C

08 Setting Process Fuser ALL 523 Pre-running time 10 <0-15> M 0: Invalid 1: 1 sec. 1
mode for first printing 2: 2 sec. 3: 3 sec.
(Envelope) 4: 4 sec. 5: 5 sec.
6: 6 sec. 7: 7 sec.
8: 8 sec. 9: 9 sec.
10: 10 sec.
11: 12 sec.
12: 14 sec.
13: 16 sec.
14: 18 sec.
15: 20 sec.
08 Setting Process Fuser ALL The first 525 0 Temperature drop 20 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.: from 0 to 1,000 sec.
printing (Center later
thermistor)
08 Setting Process Fuser ALL The second 525 1 Temperature drop 38 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.: from 0 to 1,000 sec.
printing (Center later
thermistor)
08 Setting Process Fuser ALL The third 525 2 Temperature drop 75 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.: from 0 to 1,000 sec.
printing (Center later
thermistor)

55
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL The fourth 525 3 Temperature drop 75 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.: from 0 to 1,000 sec.
printing (Center later
thermistor)
08 Setting Process Fuser ALL 526 Pre-running time 0 <0-15> M 0: Invalid 1: 0 sec. 1
mode for first printing 2: 2 sec. 3: 3 sec.
(OHP film) 4: 4 sec. 5: 5 sec.
6: 6 sec. 7: 7 sec.
8: 8 sec. 9: 9 sec.
10: 10 sec.
11: 12 sec.
12: 14 sec.
13: 16 sec.
14: 18 sec.
15: 20 sec.
08 Setting Process Fuser ALL The first 527 0 Temperature drop 20 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.: from 0 to 1,000 sec.
p g ((Side
printing later
thermistor)
08 Setting Process Fuser ALL The second 527 1 Temperature drop 30 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.: from 0 to 1,000 sec.
printing (Side later
thermistor)
08 Setting Process Fuser ALL The third 527 2 Temperature drop 48 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.: from 0 to 1,000 sec.
printing (Side later
thermistor)
08 Setting Process Fuser ALL The fourth 527 3 Temperature drop 75 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.: from 0 to 1,000 sec.
printing (Side later
thermistor)

56
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL Plain paper 535 0 Temperature drop 2 <0-20> M 0: None 1: Pattern 1 2: Pattern 2 3: Pattern 2
mode control setting 3 4: Pattern 4 5: Pattern 5 6: Pattern 6 7:
during printing Pattern 7 8: Pattern 8 9: Pattern 9 10:
(Temperature/ Pattern 10 11: Pattern 11 12: Pattern 12
Time) 13: Pattern 13 14: Pattern 14 15: Pattern
15 16: Pattern 16 17: Pattern 17 18:
Pattern 18 19: Pattern 19 20: Manual
adjustment

08 Setting Process Fuser ALL Thick paper 535 1 Temperature drop 12 <0-20> M 0: None 1: Pattern 1 2: Pattern 2 3: Pattern 2
mode (Thick control setting 3 4: Pattern 4 5: Pattern 5 6: Pattern 6 7:
paper1/Thic during printing Pattern 7 8: Pattern 8 9: Pattern 9 10:
k (Temperature/ Pattern 10 11: Pattern 11 12: Pattern 12
paper2/OH Time) 13: Pattern 13 14: Pattern 14 15: Pattern
P/Envelope 15 16: Pattern 16 17: Pattern 17 18:
) Pattern 18 19: Pattern 19 20: Manual
adjustment

08 Setting Process Fuser ALL The first 536 0 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Center Setting value x -5°C: from 0°C to -50°C
th
thermistor)
i t )
08 Setting Process Fuser ALL The second 536 1 Temperature drop 2 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Center Setting value x -5°C: from 0°C to -50°C
thermistor)
08 Setting Process Fuser ALL The third 536 2 Temperature drop 3 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Center Setting value x -5°C: from 0°C to -50°C
thermistor)
08 Setting Process Fuser ALL The fourth 536 3 Temperature drop 3 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Center Setting value x -5°C: from 0°C to -50°C
thermistor)
08 Setting Process Fuser ALL The first 537 0 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Side Setting value x -5°C: from 0°C to -50°C
thermistor)

57
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL The second 537 1 Temperature drop 2 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Side Setting value x -5°C: from 0°C to -50°C
thermistor)
08 Setting Process Fuser ALL The third 537 2 Temperature drop 3 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Side Setting value x -5°C: from 0°C to -50°C
thermistor)
08 Setting Process Fuser ALL The fourth 537 3 Temperature drop 5 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Side Setting value x -5°C: from 0°C to -50°C
thermistor)
08 Setting Image Image ALL 538 Density default in 0 <0-7> SYS 0: AUTO 1: Light 3 2: Light 2 3: Light 1 4: 1
mode processi image quality Center 5: Dark 1 6: Dark 2 7: Dark 3
ng mode

08 Setting Process Fuser ALL The first 539 0 Temperature drop 1 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Side Setting value x -5ºC:from 0ºC to -50ºC
th
thermistor/
i t / Thick
Thi k
paper)

08 Setting Process Fuser ALL The second 539 1 Temperature drop 2 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Side Setting value x -5ºC:from 0ºC to -50ºC
thermistor/ Thick
paper)

08 Setting Process Fuser ALL The third 539 2 Temperature drop 3 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Side Setting value x -5ºC:from 0ºC to -50ºC
thermistor/ Thick
paper)

08 Setting Process Fuser ALL The fourth 539 3 Temperature drop 3 <0-10> M This code is valid only when "20" is set to 2
mode drop setting during 08-535.
printing (Side Setting value x -5ºC:from 0ºC to -50ºC
thermistor/ Thick
paper)

58
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL The first 540 0 Temperature drop 20 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.:from 0 to 1,000
printing (Thick sec.later
paper/Center Thick paper: Thick Paper1/Thick
thermistor) Paper2/OHP/Envelope
08 Setting Process Fuser ALL The second 540 1 Temperature drop 48 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.:from 0 to 1,000
printing (Thick sec.later
paper/Center Thick paper: Thick Paper1/Thick
thermistor) Paper2/OHP/Envelope

08 Setting Process Fuser ALL The third 540 2 Temperature drop 100 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.:from 0 to 1,000
printing (Thick sec.later
paper/Center Thick paper: Thick Paper1/Thick
thermistor) Paper2/OHP/Envelope

08 Setting Process Fuser ALL The fourth 540 3 Temperature drop 100 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.:from 0 to 1,000
printing (Thick sec.later
paper/Center Thick paper: Thick Paper1/Thick
thermistor) Paper2/OHP/Envelope

08 Setting Process Fuser ALL The first 541 0 Temperature drop 20 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.:from 0 to 1,000
printing (Thick sec.later
paper/Side Thick paper: Thick Paper1/Thick
thermistor) Paper2/OHP/Envelope

59
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL The second 541 1 Temperature drop 48 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.:from 0 to 1,000
printing (Thick sec.later
paper/Side Thick paper: Thick Paper1/Thick
thermistor) Paper2/OHP/Envelope

08 Setting Process Fuser ALL The third 541 2 Temperature drop 100 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.:from 0 to 1,000
printing (Thick sec.later
paper/Side Thick paper: Thick Paper1/Thick
thermistor) Paper2/OHP/Envelope

08 Setting Process Fuser ALL The fourth 541 3 Temperature drop 100 <0-200> M This code is valid only when "20" is set to 2
mode drop switching time 08-535.
setting during Setting value x 5 sec.:from 0 to 1,000
printing (Thick sec.later
paper/Side Thick paper: Thick Paper1/Thick
thermistor)) p
Paper2/OHP/Envelope p

08 Setting Image Image PPC 550 Default setting of 0 <0-2> SYS 0: Text/Photo 1
mode processi original mode 1: Photo 2: Text
ng

08 Setting System User PPC 603 Setting for 0 <0-2> SYS 0: Invalid 1: Single-sided to duplex copying 1
mode interface automatic 2: Double-sided to duplex copying
duplexing mode

08 Setting System User PPC 604 Default setting for 0 <0-2> SYS 0: APS (Automatic Paper Selection) 1: 1
mode interface APS/AMS AMS (Automatic Magnification Selection) 2:
Not selected

08 Setting System Paper PPC 609 Bypass tray priority 0 <0-1> M Sets whether the bypass tray or drawer is 1
mode feeding setting used as a priority when copy paper of the
same size as the original is set both on the
bypass tray and the drawer in the
Automatic paper selection mode.
0: Bypass tray priority 1: Drawer, PFU and
PFP priority

60
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System User PPC 611 Book type original 0 <0-1> SYS 0: Left page to right page 1: Right page to 1
mode interface priority left page
08 Setting System General ALL 615 Size information of - CTL Displays the sizes of the main memory. 3
mode main memory Enables to check if main memory is
properly recognized.

08 Setting System User ALL 617 Print setting 1 <0-1> CTL 0: Printed 1: Deleted forcibly 1
mode interface without department
code

08 Setting System User PPC 618 Default setting 0 <0-1> SYS 0: Scanned as all in same size 1
mode interface when mixed size 1: Scanned as each original size (RADF
originals are set on only)
ADF/RADF

08 Setting System User ALL 631 Custom Mode 0 <0-5> - 0: FINISHING 1: DUPLEX 2: 2IN1-4IN1 3: 1
mode interface IMAGE SHIFT 4: DUAL PAGE 5: ID CARD
08 Setting System Paper ALL 632 Pop-up display for UC: 1 <0-1> SYS 0: OFF 1: ON 1
mode feeding paper setting in a Other:
0
drawer

08 S
Setting
tti S t
System General ALL 638 Ti
Time differences
diff EUR: <0-47>
<0 47> CTL 0: +12
0 +12.0h
0h 2
2: +11
+11.0h
0h 1
mode 24 4: +10.0h 5: +9.5h
UC: 40
JPN: 6
6: +9.0h 8: +8.0h
Other: 10: +7.0h 11: +6.5h
0 12: +6.0h 13: +5.5h
14: +5.0h 15: +4.5h
16: +4.0h 17: +3.5h
18: +3.0h 20: +2.0h
22: +1.0h 24: 0.0h
26: -1.0h 28: -2.0h
30: -3.0h 31: -3.5h
32: -4.0h 34: -5.0h
36: -6.0h 38: -7.0h
40: -8.0h 42: -9.0h
44: -10.0h 46: -11.0h
47: -11.5h

08 Setting System User PPC 641 Automatic Sorting 2 <0,2,4> SYS 0: Invalid 2: SORT 4: ROTATE SORT 1
mode interface Mode setting
(ADF/RADF)

61
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System User PPC 642 Default setting of 1 <0,1,5,6> SYS 0: SORT 1: GROUP 5: ROTATE SORT 6: 1
mode interface Sorter Mode MAGAZINE SORT

08 Setting System User PPC 649 Magazine sort 0 <0-1> SYS 0: Left page to right page 1: Right page to 1
mode interface setting left page

08 Setting System User PPC 650 2 in 1/4 in 1 page 0 <0-1> SYS 0: Horizontal 1: Vertical 1
mode interface allocating order
setting

08 Setting System General - 655 Reset the 05/08 - - Returns the set value for the 05/08 code to 5
mode codes its default value.
However, various counter values of the 08
codes are not reset.

08 Setting System Network ALL 660 Auto-forwarding 0 <0-1> CTL 0: Invalid 1: Valid 1
mode setting of received
FAX

08 Setting System Network ALL 661 Auto-forwarding 0 <0-1> CTL 0: Invalid 1: Valid 1
mode setting of recei
received
ed
E-mail

08 Setting System General ALL 666 BOX partition - CTL Initializes the Electronic Filing. 5
mode clearing
08 Setting System General ALL 669 System All-clear - CTL Initializing the system NVRAM realm. 5
mode (Initialization of
system NVRAM
realm)

08 Setting System General - 672 Initialization of - SYS Initializing of the department management 5
mode department information
management *Key in the code and press the [START]
information button to perform the initialization.

08 Setting System General ALL 684 Rebuilding all - CTL Rebuilds all databases. 5
mode databases
08 Setting System RADF PPC 685 Paper feeding by 1 <0-1> - 0: Invalid 1: Valid 1
mode turns at duplex
copying

62
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System General ALL 686 Rebuilding the - CTL Rebuilds the address book database 5
mode address book
database

08 Setting System FAX FAX 689 Adaptation of 0 <0-1> SYS 0: Not subjected for APS judgment 1
mode paper source 1: Subjected for APS judgment
priority selection

08 Setting System General ALL 690 CF formatting - CTL CF formatting 5


mode
08 Setting System User ALL 691 template function 1 <0-1> - 0: Not permitted 1: Permitted 1
mode interface Setting
08 Setting System FAX FAX 692 Fax reception data JPD: 1 <0-1> SYS Displays the message in the copy mode 1
mode presence display Other: screen when Fax received data are in the
0
memory.
0: Not displayed 1: Displayed

08 Setting System General ALL 693 Initialization of NIC - CTL Returns the value to the factory shipping 5
mode information default value.
08 Setting System FAX FAX 694 PIN Number 0 <0-1> M 0: Enables the PIN number addition: 1
mode setting Keypad dialing (direct entry with digital
keys) and others.
1: Enables the PIN number addition: Only
for Keypad dialing (direct entry with digital
keys).

08 Setting System Paper ALL 698 Limit function for 1 <0-1> M 0: OFF 1: ON 1
mode feeding the number of Number set at 08-699 will be set as the
paper exit limit number of paper exit.

08 Setting System Paper ALL 699 Limit number 250 <1-999> M Sets the limit number of paper exit for 08- 1
mode feeding setting for paper 698
exit

08 Setting System Maintenan ALL 702 Remote-controlled 2 <0-2> CTL 0: Valid (Remote-controlled server) 1: Valid 1
mode ce service function (L2) 2: Invalid
08 Setting System Maintenan ALL 703 Remote-controlled - CTL Maximum 256 Bytes 1
mode ce service
HTTP server
URL setting

63
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Maintenan ALL 707 Remote-controlled https:// CTL Maximum 256 Bytes 1
mode ce service device.
mfp-
HTTP initially- support
registered server .com:4
URL setting 43/devi
ce/firstr
egist.as
hx

08 Setting System Maintenan ALL 710 Short time interval 24 <1-48> CTL Sets the time interval to recover from the 1
mode ce setting of recovery Emergency Mode to the Normal Mode.
(Remote)
from Emergency (Unit: Hour)
Mode

08 Setting System Maintenan ALL 711 Short time interval 60 <30-360> CTL Unit: Minute 1
mode ce setting of
(Remote)
Emergency Mode

08 Setting System Maintenan PRT GDI 712 250 sheets 0 <0-1> M After 250 sheets have exited, the 1
mode ce limitation for output equipment stops and prompts you to
pages (function remove the output paper.
flag) 0: OFF 1: ON

08 Setting System Maintenan PRT 713 250 sheets 0 <0-1> M After 250 sheets have exited, the 1
mode ce limitation for output equipment stops and prompts you to
pages (function remove the output paper.
flag) 0: OFF 1: ON

08 Setting System Maintenan FAX 714 250 sheets 0 <0-1> M After 250 sheets have exited, the 1
mode ce limitation for output equipment stops and prompts you to
pages (function remove the output paper.
flag) 0: OFF 1: ON

08 Setting System Maintenan ALL 715 Remote-controlled 1230 CTL 0 (0:00) to 2359 (23:59) 1
mode ce service periodical
polling timing
(Hour/Hour/Minute/
Minute)

64
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Maintenan ALL 716 Remote-controlled 0 <0-1> CTL 0: Prohibited 1: Accepted 1
mode ce service
Writing data of
self-diagnostic
code

08 Setting System Maintenan ALL 717 Remote-controlled 3 <1-30> CTL Unit: Minute 1
mode ce service response
waiting time
(Timeout)

08 Setting System Maintenan ALL 718 Remote-controlled 0 <0-2> CTL 0: OFF 1: Start 2: Only certification is 1
mode ce service initial scanned
registration

08 Setting System Maintenan ALL 719 Remote-controlled - CTL Maximum 10 letters 3


mode ce service tentative
password

08 Setting System Maintenan ALL 720 Status of remote- 0 <0-1> CTL 0: Not registered 1: Registered 1
mode ce controlled service
initial registration
(Display only)

08 Setting System Maintenan ALL 721 Service center call 2 <0-2> CTL 0: OFF 1: Notifies all service calls 2: 1
mode ce function Notifies all but paper jams
08 Setting System Maintenan ALL 723 Service center call - CTL Maximum 256 letters 3
mode ce HTTP server URL
setting

08 Setting System Maintenan ALL 726 HTTP proxy setting 1 <0-1> CTL 0: Valid 1: Invalid 1
mode ce

08 Setting System Maintenan ALL 727 HTTP proxy IP - CTL 000.000.000.000-255.255.255.255 1


mode ce address setting (Default value 000.000.000.000)
08 Setting System Maintenan ALL 728 HTTP proxy port 0 <0-65535> CTL 1
mode ce number setting
08 Setting System Maintenan ALL 729 HTTP proxy ID - CTL Maximum 30 letters 1
mode ce setting
08 Setting System Maintenan ALL 730 HTTP proxy - CTL Maximum 30 letters 1
mode ce password setting

65
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Maintenan ALL 767 Service Notification 0 <0-1> CTL Enables to set up to 3 E-mail addresses to 1
mode ce setting be sent.
(Remote)
0: Invalid 1: Valid (E-mail)

08 Setting System Maintenan ALL 769 Total counter 0 <0-1> SYS 0: Invalid 1: Valid 1
mode ce information
(Remote)
transmission
setting

08 Setting System General ALL 770 Total counter 0 <0-127> CTL Indicates the day of the week using the 1st 1
mode transmission "day bit to the 7th bit in 1byte 00000000 (0) -
of the week" 01111111 (127). Multiple days of the week
setting can be set by setting the SUM of the
values for the day of the week.
0: Not specified
1: Sunday
2: Monday
4: Tuesday
8: Wednesday
16: Thursday
32: Friday
64 S
64: Saturday
t d
08 Setting System Maintenan ALL 771 PM counter 0 <0-1> SYS 0: Invalid 1: Valid 1
mode ce notification setting
(Remote)
08 Setting System Maintenan ALL 772 Dealer's name - CTL Maximum 100 letters 3
mode ce Needed at initial registration
08 Setting System Maintenan ALL 773 Login name - CTL Maximum 20 letters 3
mode ce Needed at initial registration
08 Setting System Maintenan ALL 774 Service notification UC: 1 <0-1> SYS Displays "SERVICE NOTIFICATION" in the 1
mode ce display Other: INITIAL SETUP menu. When "1" is set,
0
operation and setting are made available
for users.
0: Not displayed 1: Displayed

08 Setting System Maintenan ALL 775 Service call 0 <0-1> CTL When a service call occurs, details of the 1
mode ce transmission error are notified by E-mail.
0: Invalid 1: Valid

66
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System General ALL 776 Total counter 0000 <0000〜 CTL 4-digit value indicates HHMM. 1
mode transmission time 2359> E.g: 12:34 is indicated as 1234.
setting

08 Setting System Maintenan ALL 780 Remote-controlled 0 <0-31> CTL 0: OFF 1


mode ce service polling day 1 to 31: 1st to 31st of a month
selection Day-1

08 Setting System Maintenan ALL 781 Remote-controlled 0 <0-31> CTL 0: OFF 1


mode ce service polling day 1 to 31: 1st to 31st of a month
selection Day-2

08 Setting System Maintenan ALL 782 Remote-controlled 0 <0-31> CTL 0: OFF 1


mode ce service polling day 1 to 31: 1st to 31st of a month
selection Day-3

08 Setting System Maintenan ALL 783 Remote-controlled 0 <0-31> CTL 0: OFF 1


mode ce service polling day 1 to 31: 1st to 31st of a month
selection Day-4

08 Setting System Maintenan ALL 784 Remote-controlled 0 <0-1> CTL 0: Invalid 1: Valid 1
mode ce service polling day
selection
l ti S Sunday
d

08 Setting System Maintenan ALL 785 Remote-controlled 0 <0-1> CTL 0: Invalid 1: Valid 1
mode ce service polling day
selection Monday

08 Setting System Maintenan ALL 786 Remote-controlled 0 <0-1> CTL 0: Invalid 1: Valid 1
mode ce service polling day
selection Tuesday

08 Setting System Maintenan ALL 787 Remote-controlled 0 <0-1> CTL 0: Invalid 1: Valid 1
mode ce service polling day
selection
Wednesday

08 Setting System Maintenan ALL 788 Remote-controlled 0 <0-1> CTL 0: Invalid 1: Valid 1
mode ce service polling day
selection Thursday

08 Setting System Maintenan ALL 789 Remote-controlled 0 <0-1> CTL 0: Invalid 1: Valid 1
mode ce service polling day
selection Friday

67
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Maintenan ALL 790 Remote-controlled 0 <0-1> CTL 0: Invalid 1: Valid 1
mode ce service polling day
selection Saturday

08 Setting System Maintenan ALL 796 Remote-controlled 0 <0-1> CTL 0: Invalid 1: Valid 1
mode ce service lengthened
interval polling
(End of month)

08 Setting Process Fuser ALL Center 800 0 Temperature 7 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit 2: 140°C 3: 145°C
(OHP film) 4: 150°C 5: 155°C 6: 160°C 7: 165°C
8: 170°C 9: 175°C 10: 180°C 11: 185°C 12:
120°C

08 Setting Process Fuser ALL Side 800 1 Temperature 5 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit 2: 140°C 3: 145°C
(OHP film) 4: 150°C 5: 155°C 6: 160°C 7: 165°C
8: 170°C 9: 175°C 10: 180°C 11: 185°C 12:
120°C

08 S
Setting
tti Process
P Fuser ALL Center
C t 801 0 Temperature
T t 7 <0 12>
<0-12> M 0: 130°C 1
0 1: 135°C 2
mode thermistor control lower limit 2: 140°C 3: 145°C
(Thick paper 1) 4: 150°C 5: 155°C 6: 160°C 7: 165°C
8: 170°C 9: 175°C 10: 180°C 11: 185°C 12:
120°C

08 Setting Process Fuser ALL Side 801 1 Temperature 5 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit 2: 140°C 3: 145°C
(Thick paper 1) 4: 150°C 5: 155°C 6: 160°C 7: 165°C
8: 170°C 9: 175°C 10: 180°C 11: 185°C 12:
120°C

08 Setting Process Fuser ALL Center 802 0 Temperature 11 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit 2: 140°C 3: 145°C
(Thick paper 2) 4: 150°C 5: 155°C 6: 160°C 7: 165°C
8: 170°C 9: 175°C 10: 180°C 11: 185°C 12:
120°C

68
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL Side 802 1 Temperature 11 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit 2: 140°C 3: 145°C
(Thick paper 2) 4: 150°C 5: 155°C 6: 160°C 7: 165°C
8: 170°C 9: 175°C 10: 180°C 11: 185°C 12:
120°C

08 Setting Process Fuser ALL Center 804 0 Temperature 11 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit 2: 140°C 3: 145°C
(Envelope) 4: 150°C 5: 155°C6: 160°C 7: 165°C
8: 170°C 9: 175°C 10: 180°C 11: 185°C 12:
120°C

08 Setting Process Fuser ALL Side 804 1 Temperature 11 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit 2: 140°C 3: 145°C
(Envelope) 4: 150°C 5: 155°C 6: 160°C 7: 165°C
8: 170°C 9: 175°C 10: 180°C 11: 185°C 12:
120°C

08 Setting Process Charger PRT 805 Main charger bias 98 <0-255> M Corrects the value of the main charger bias 1
mode correction adjustment (05-210).
(Text/Photo/OHP
film)

08 Setting Process Charger PRT 806 Main charger bias 98 <0-255> M Corrects the value of the main charger bias 1
mode correction adjustment (05-210).
(Toner Saving
Mode/OHP film)

08 Setting Process Charger PPC 807 Main charger bias 98 <0-255> M Corrects the value of the main charger bias 1
mode correction adjustment (05-210).
(Text/Photo/OHP
film)

08 Setting Process Charger PPC 808 Main charger bias 98 <0-255> M Corrects the value of the main charger bias 1
mode correction adjustment (05-210).
(Text/OHP film)

08 Setting Process Charger PPC 809 Main charger bias 98 <0-255> M Corrects the value of the main charger bias 1
mode correction adjustment (05-210).
(Photo/OHP film)

69
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Charger PRT GDI 814 Main charger bias 98 <0-255> M Corrects the value of the main charger bias 1
mode correction adjustment (05-210).
(Text/Photo/OHP
film)

08 Setting Process Charger FAX 818 Main charger bias 128 <0-255> - Corrects the value of the main charger bias 1
mode correction adjustment (05-210).
08 Setting Process Charger PRT GDI 819 Main charger bias 128 <0-255> M Corrects the value of the main charger bias 1
mode correction adjustment (05-210).
(Text/Photo)

08 Setting Process Charger PRT 826 Main charger bias 128 <0-255> M Corrects the value of the main charger bias 1
mode correction (Toner adjustment (05-210).
saving mode)

08 Setting Process Transfer ALL 830 Transfer 128 <0-255> M Corrects the value of the transfer 1
mode transformer DC transformer DC output adjustment (05-
correction (C) 221).

08 Setting Process Separation ALL 831 Separation 128 <0-255> M Corrects the value of the separation 1
mode transformer DC transformer DC output adjustment (05-
correction (C) 234)
234).

08 Setting Process Developer PRT 833 Developer bias DC 107 <0-255> M Corrects the value of the developer bias 1
mode correction adjustment (05-205).
(Text/Photo/OHP
film)

08 Setting Process Developer PRT 834 Developer bias DC 107 <0-255> M Corrects the value of the developer bias 1
mode correction (Toner adjustment (05-205).
Saving Mode/OHP
film)

08 Setting Process Developer PPC 835 Developer bias DC 107 <0-255> M Corrects the value of the developer bias 1
mode correction adjustment (05-205).
(Text/Photo/OHP
film)

08 Setting Process Developer PPC 836 Developer bias DC 107 <0-255> M Corrects the value of the developer bias 1
mode correction adjustment (05-205).
(Text/OHP film)

70
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Developer PPC 837 Developer bias DC 107 <0-255> M Corrects the value of the developer bias 1
mode correction adjustment (05-205).
(Photo/OHP film)

08 Setting Process Image ALL 838 Switching of 0 <0-1> M 0: Switched 1: Not switched 1
mode processing recycled toner
saving control

08 Setting Process Image ALL 839 Correction by 0 <0-3> M Sets the correction by 1
mode processing temperature/humidi temperature/humidity.
ty 0: All valid 1: All invalid 2: Valid only in
auto-toner sensor 3: All valid except
transfer and separation

08 Setting Process Developer PRT GDI 840 Developer bias DC 107 <0-255> M Corrects the value of the developer bias 1
mode correction adjustment (05-205).
(Text/Photo/OHP
film)

08 Setting Process Developer FAX 857 Developer bias DC 128 <0-255> M Corrects the value of the developer bias 1
mode correction (Toner adjustment (05-205).
saving mode)

08 Setting Process Developer PRT GDI 858 Developer bias DC 128 <0-255> M Corrects the value of the developer bias 1
mode correction (Normal) adjustment (05-205).

08 Setting Process Developer PRT 859 Developer bias DC 128 <0-255> M Corrects the value of the developer bias 1
mode correction (Toner adjustment (05-205).
saving mode)

08 Setting Process Developer PRT 860 Developer bias DC 128 <0-255> M Corrects the value of the developer bias 1
mode correction (Normal) adjustment (05-205).

08 Setting Process Developer PPC 861 Developer bias DC 128 <0-255> M Corrects the value of the developer bias 1
mode correction adjustment (05-205).
(Text/Photo)

08 Setting Process Developer PPC 862 Developer bias DC 128 <0-255> M Corrects the value of the developer bias 1
mode correction (Text) adjustment (05-205).

71
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Developer PPC 863 Developer bias DC 128 <0-255> M Corrects the value of the developer bias 1
mode correction (Photo) adjustment (05-205).

08 Setting Process Charger PRT 864 Main charger bias 128 <0-255> M Corrects the value of the main charger bias 1
mode correction (Normal) adjustment (05-210).

08 Setting Process Charger PPC 865 Main charger bias 128 <0-255> M Corrects the value of the main charger bias 1
mode correction adjustment (05-210).
(Text/Photo)

08 Setting Process Charger PPC 866 Main charger bias 128 <0-255> M Corrects the value of the main charger bias 1
mode correction (Text) adjustment (05-210).

08 Setting Process Charger PPC 867 Main charger bias 128 <0-255> M Corrects the value of the main charger bias 1
mode correction (Photo) adjustment (05-210).

08 Setting Process Transfer ALL 868 Transfer 128 <0-255> M Corrects the value of the transfer 1
mode transformer DC transformer DC output adjustment (05-
correction
ti (H) 220)
220).

08 Setting Process Transfer ALL 869 Transfer 128 <0-255> M Corrects the value of the transfer 1
mode transformer DC transformer DC output adjustment (05-
correction (L) 222).

08 Setting Process Separation ALL 870 Separation 128 <0-255> M Corrects the value of the separation 1
mode transformer DC transformer DC output adjustment (05-
correction (H) 233).

08 Setting Process Separation ALL 871 Separation 128 <0-255> M Corrects the value of the separation 1
mode transformer DC transformer DC output adjustment (05-
correction (L) 235).

08 Setting Process Laser PRT 872 Laser power 128 <0-255> M Corrects the value of the laser power 1
mode correction (Normal) adjustment (05-286).

08 Setting Process Laser PPC 873 Laser power 128 <0-255> M Corrects the value of the laser power 1
mode correction adjustment (05-286).
(Text/Photo)

72
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Laser PRT 875 Laser power 128 <0-255> M Corrects the value of the laser power 1
mode correction (Toner adjustment (05-286).
saving mode)

08 Setting Process Laser PPC 876 Laser power 128 <0-255> M Corrects the value of the laser power 1
mode correction (Text) adjustment (05-286).

08 Setting Process Laser PPC 877 Laser power 128 <0-255> M Corrects the value of the laser power 1
mode correction (Photo) adjustment (05-286).

08 Setting Process Laser PRT GDI 883 Laser power 136 <0-255> M Corrects the value of the laser power 1
mode correction (Normal) adjustment (05-286).

08 Setting Process Laser FAX 884 Laser power 128 <0-255> M Corrects the value of the laser power 1
mode correction (Normal) adjustment (05-286).

08 Setting Process Fuser ALL 886 Temperature drop 4 <0-20> M 0: None 1


mode control setting in 1: Pattern 1
ready
d status
t t 2 Pattern
2: P tt 2
(Temperature/Time 3: Pattern 3
) 4: Pattern 4
5: Pattern 5
6: Pattern 6
7: Pattern 7
8: Pattern 8
9: Pattern 9
10: Pattern 10
11: Pattern 11
12: Pattern 12
13: Pattern 13
14: Pattern 14
15: Pattern 15
16: Pattern 16
17: Pattern 17
18: Pattern 18
19: Pattern 19
20: Manual adjustment

73
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Fuser ALL Center 896 Temperature 19 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit cpm: 5 2: 140°C 3: 145°C
22 cpm
(Plain paper/Low / 24
4: 150°C 5: 155°C
temperature) cpm: 6 6: 160°C 7: 165°C
8: 170°C 9: 175°C
10: 180°C 11: 185°C 12: 120°C

08 Setting Process Fuser ALL Side 896 Temperature 19 <0-12> M 0: 130°C 1: 135°C 2
mode thermistor control lower limit cpm: 3 2: 140°C 3: 145°C
22 cpm
(Plain paper/Low / 24
4: 150°C 5: 155°C
temperature) cpm: 4 6: 160°C 7: 165°C
8: 170°C 9: 175°C
10: 180°C 11: 185°C 12: 120°C

08 Setting System Version ALL 900 System firmware - - JPN: T222SY0Jxxx 3


mode ROM version UC: T222SY0Wxxx
EUR: T222SY0Xxxx
China: T222SY0Cxxx
08 Setting System RADF PPC 905 Process for last 0 <0-1> - 0: One-side copy 1
mode page (one-sided 1: Double-sided copy (blank paper is added
original) at duplex to as the last even numbered page to
copying output the copy in the same orientation with
previous pages.)
08 Setting System Version ALL 906 PFC firmware - - 3
mode version
08 Setting System Version ALL 921 FROM internal - - VTTxx.xxxx 3
mode program
08 Setting System Version ALL 922 Function table data - - T222SY1xxxx 3
mode version
08 Setting System Version ALL 923 Language data - - T222SY2xxxx 3
mode version
08 Setting System Network ALL 945 Two-way setting of 2 <1-2> CTL 1: Valid 2: Invalid 1
mode RawPort 9100
08 Setting System General ALL 947 Initialization after - CTL Perform this code when the software in this 5
mode software version equipment has been upgraded.
upgrade

74
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process General ALL 949 Automatic 0 <0-100> SYS Sets the automatic interruption page. 1
mode interruption page
setting during
printing

08 Setting System Network ALL 950 Transmission 0 <0-2> SYS 0: Telephone number 1: Password 2: Both 1
mode security type

08 Setting System Network ALL 951 Reception security 0 <0-2> SYS 0: Telephone number 1: Password 2: Both 1
mode type

08 Setting System User ALL 970 Sound setting JPN: 0 <0-1> SYS 0: OFF 1: ON 1
mode interface when switching to Other:
1
Energy Saving
Mode

08 Setting System General ALL 971 Toner near empty 1 <0-3> SYS Performs adjustment for the toner near- 1
mode threshold value empty detection timing.
0: Toner near empty threshold value (long)
p y threshold value
1: Toner near empty
(standard)
2: Toner near empty threshold value (short)
3: Toner near-empty detection disabled

08 Setting System Network PRT 973 PCL line feed code 0 <0-3> CTL Sets the PCL line feed code. 0: Automatic 1
mode setting setting 1: CR=CR, LF=LF 2: CR=CR+LF,
LF=LF 3: CR=CR, LF=CR+LF

08 Setting System General ALL 975 Job handling when 1 <0-1> M Sets whether to pause or stop the printing 1
mode printing is short job if insufficient payment is made when
paid with coin using a coin controller.
controller 0: Pause the job 1: Stop the job

08 Setting System Network PRT 978 Raw printing job 0 <0-4> CTL 0: AUTO1: Drawer 2: PFU 3: PFP upper 1
mode (Paper feeding drawer 4: PFP lower drawer
drawer)

75
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network PRT 979 Raw printing job 0 <0-39> CTL 0: Roman-8 1
mode (PCL symbol set) 1: ISO 8859/1 Latin 1
2: ISO 8859/2 Latin 2
3: ISO 8859/9 Latin 5
4: PC-8,Code Page 437
5: PC-8 D/N, Danish/Norwegian
6: PC-850,Multilingual
7: PC-852, Latin2
8: PC-8 Turkish
9: Windows 3.1 Latin 1
10: Windows 3.1 Latin 2
11: Windows 3.1 Latin 5
12: DeskTop
13: PS Text
14: Ventura International
15: Ventura US
16: Microsoft Publishing
17: Math-8
18: PS Math
19: Ventura Math
20: Pi Font
21: Legal
22: ISO 4: United Kingdom
23: ISO 6: ASCII
24: ISO 11
25: ISO 15: Italian
26: ISO 17
27: ISO 21: German
28: ISO 60: Danish/Norwegian
29: ISO 69: French
30: Windows 3.0 Latin 1
31: MC Text
32: PC Cyrillic
33: ITC Zapf Dingbats
34: ISO 8859/10 Latin 6
35: PC-775
36: PC-1004
37: Symbol
38: Windows Baltic
39: Wingdings

76
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System General ALL 986 Invalidation setting 0 <0-4> SYS 0: No prohibition 1
mode of copy/FAX 1: Shifting to the copy screen is prohibited.
screen shift 2: Shifting to the Fax screen is prohibited.
4: Shifting to the scan screen is prohibited.

Note:
If "2" is selected, set the FAX reception to
"Automatic" and clear Secure Reception.
Since the FAX screen is not displayed,
Manual Reception and Secure Reception
cannot be done.

08 Setting System Version ALL 995 Equipment number 0 <20 digits> SYS The Equipment number can be entered in 3
mode (serial number) alphabets (A-Z=*01-*26) and figures (0-9)
display within 20digits.

08 Setting System Network ALL 1002 Selection of NIC 1 <1-2> CTL 1: Not printed out when the equipment is 1
mode board status restarted
information 2: Printed out when the equipment is
restarted

08 Setting System Network ALL 1003 Communication 1 <1-5> CTL 1: Auto 1


mode speed and settings 2: 10MBPS Half Duplex
of Ethernet 3: 10MBPS Full Duplex
4: 100MBPS Half Duplex
5: 100MBPS Full Duplex

08 Setting System Network ALL 1006 Address Mode 2 <1-3> CTL 1: Fixed IP address 1
mode 2: Dynamic IP address (DHCP)
3: Dynamic IP address (DHCP) without
AutoIP

08 Setting System Network ALL 1007 Domain name - CTL Maximum 96 letters 3
mode
08 Setting System Network ALL 1008 IP address - CTL 000.000.000.000-255.255.255.255 3
mode (Default value 000.000.000.000)
08 Setting System Network ALL 1009 Subnet mask - CTL 000.000.000.000-255.255.255.255 3
mode (Default value 000.000.000.000)
08 Setting System Network ALL 1010 Gateway - CTL 000.000.000.000-255.255.255.255 3
mode (Default value 000.000.000.000)

77
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network ALL 1011 Availability of IPX 1 <1-2> CTL 1: Available 2: Not available 3
mode
08 Setting System Network ALL 1012 Network frame 1 <1-5> CTL 1: Automatic 1
mode type 2: IEEE802.3
3: Ethernet II
4: IEEE802.3SNAP
5: IEEE802.2
08 Setting System Network ALL 1013 Availability of NCP 1 <1-2> CTL 1: Available 2: Not available 1
mode Burst
08 Setting System Network ALL 1014 Availability of 1 <1-2> CTL 1: Available 2: Not available 1
mode AppleTalk
08 Setting System Network ALL 1015 Zone setting of * CTL Maximum 32 letters 3
mode AppleTalk *: Wildcard character
08 Setting System Network ALL 1017 Availability of DNS 1 <1-2> CTL 1: Available 2: Not available 1
mode
08 Setting System Network ALL 1018 IP address to DNS - CTL 000.000.000.000-255.255.255.255 3
mode server (Primary) (Default value 000.000.000.000)
08 Setting System Network ALL 1019 IP address to DNS - CTL 000.000.000.000-255.255.255.255 3
mode
d server (Secondary)
(S d ) (Default
(D f lt value
l 000.000.000.000)
000 000 000 000)
08 Setting System Network ALL 1020 DDNS Desired 3 <1-5> CTL 1: Invalid 1
mode level 2: Via DHCP
3: Insecure DDNS
4: Secure DDNS
5: Multi-secure DDNS

08 Setting System Network ALL 1026 Availability of 1 <1-2> CTL 1: Available 2: Not available 1
mode Bindery
08 Setting System Network ALL 1027 Availability of NDS 1 <1-2> CTL 1: Available 2: Not available 1
mode
08 Setting System Network ALL 1028 Directory service - CTL Maximum 127 letters 3
mode context
08 Setting System Network ALL 1029 Directory service - CTL Maximum 47 letters 3
mode tree
08 Setting System Network ALL 1030 Availability of 1 <1-2> CTL 1: Available 2: Not available 1
mode HTTP server

78
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network ALL 1031 Port number to 80 <1-65535> CTL 1
mode NIC HTTP server
08 Setting System Network ALL 1032 Port number to 8080 <1-65535> CTL 1
mode system HTTP
08 Setting System Network ALL 1037 Availability of 1 <1-2> CTL 1: Available 2: Not available 1
mode SMTP client
08 Setting System Network ALL 1038 FQDN or IP - CTL Maximum 128 Bytes 3
mode address to SMTP
08 Setting System Network ALL 1039 TCP port number 25 <1-65535> CTL 1
mode of SMTP client
08 Setting System Network ALL 1040 Availability of 1 <1-2> CTL 1: Available 2: Not available 1
mode SMTP server
08 Setting System Network ALL 1041 TCP port number 25 <1-65535> CTL 1
mode of SMTP server
08 Setting System Network ALL 1042 E-mail box name to - CTL Maximum 192 letters 3
mode SMTP server
08 Setting System Network ALL 1043 Availability of 2 <1-2> CTL 1: Available 2: Not available 1
mode Offrampp
08 Setting System Network ALL 1044 Offramp security 1 <1-2> CTL 1: Available 2: Not available 1
mode
08 Setting System Network ALL 1045 Printing at Offramp 1 <1-2> CTL 1: Available 2: Not available 1
mode
08 Setting System Network ALL 1046 Availability of 1 <1-2> CTL 1: Available 2: Not available 1
mode POP3 clients
08 Setting System Network ALL 1047 FQDN or IP - CTL Maximum 128 Bytes 3
mode address to POP3
08 Setting System Network ALL 1048 Types of POP3 1 <1-3> CTL 1: Automatic 2: POP3 3: APOP 1
mode server
08 Setting System Network ALL 1049 Login name to - CTL Maximum 96 letters 3
mode POP3 server
08 Setting System Network ALL 1050 Login password to - CTL Maximum 96 letters 3
mode POP3
08 Setting System Network ALL 1051 E-mail reception 5 <0-4096> CTL 1
mode interval (Unit:
Minute)

79
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network ALL 1052 TCP port number 110 <1-65535> CTL 1
mode of POP3 client
08 Setting System Network ALL 1055 TCP port number 21 <1-65535> CTL 1
mode of FTP client
08 Setting System Network ALL 1063 MIB function 1 <1-2> CTL 1: Valid 2: Invalid 1
mode
08 Setting System Network ALL 1065 Setting of read public CTL Maximum 31 letters 3
mode Community
08 Setting System Network ALL 1066 Setting of private CTL Maximum 31 letters 3
mode read/Write
Community

08 Setting System Network ALL 1069 TRAP destination - CTL 000.000.000.000-255.255.255.255 3


mode IP address (Default value 000.000.000.000)
08 Setting System Network ALL 1070 Community setting public CTL Maximum 31 letters 3
mode of TRAP (via IP)
08 Setting System Maintenan ALL 1071 Total counter 0 <0〜31> CTL 0: Invalid 1 - 31: Date 1
mode ce transmission date
(Remote)
g1
setting

08 Setting System Maintenan ALL 1072 Total counter 0 <0〜31> CTL 0: Invalid 1 - 31: Date 1
mode ce transmission date
(Remote)
setting 2

08 Setting System Network ALL 1073 Availability of 1 <1-2> CTL 1: Valid 2: Invalid 1
mode Raw/TCP
08 Setting System Network ALL 1074 TCP port number 9100 <1-65535> CTL 1
mode of Raw
08 Setting System Network ALL 1075 Availability of LPD 1 <1-2> CTL 1: Valid 2: Invalid 1
mode client
08 Setting System Network ALL 1076 TCP port number 515 <1-65535> CTL 1
mode of LPD
08 Setting System Network ALL 1077 LPD queue name - CTL Maximum 31 letters 3
mode
08 Setting System Network ALL 1078 Availability of IPP 1 <1-2> CTL 1: Valid 2: Invalid 1
mode

80
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network ALL 1079 Availability of IPP 1 <1-2> CTL 1: Valid 2: Invalid 1
mode port number "80"
08 Setting System Network ALL 1080 TCP port number 631 <1-65535> CTL 1
mode of IPP
08 Setting System Network ALL 1081 IPP printer name - CTL Maximum 127 letters 3
mode
08 Setting System Network ALL 1082 IPP printer location - CTL Maximum 127 letters 3
mode
08 Setting System Network ALL 1083 IPP printer - CTL Maximum 127 letters 3
mode information
08 Setting System Network ALL 1084 IPP printer - CTL Maximum 127 letters 3
mode information (more)
08 Setting System Network ALL 1085 Installer of IPP - CTL Maximum 127 letters 3
mode printer driver
08 Setting System Network ALL 1086 IPP printer "Make - CTL Maximum 127 letters 3
mode and Model"
08 Setting System Network ALL 1087 IPP printer - CTL Maximum 127 letters 3
mode ( )
information (more)
MFGR

08 Setting System Network ALL 1088 IPP message from - CTL Maximum 127 letters 3
mode operator
08 Setting System Network ALL 1093 Login name to - CTL Maximum 47 letters 3
mode Novell print server
08 Setting System Network ALL 1094 Login password to - CTL Maximum 31 letters 3
mode Novell print server
08 Setting System Network ALL 1095 Name of - CTL Maximum 31 letters 3
mode SearchRoot server
08 Setting System Network ALL 1096 Scan rate setting 5 <1-255> CTL Unit: Second 1
mode of print queue
08 Setting System Network ALL 1097 Page number 5 <1-99> CTL 1
mode limitation for
printing text of
received E-mail

81
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network ALL 1098 MDN return mail 2 <1-2> CTL 1: Valid 2: Invalid 1
mode setting when
receiving E-mail

08 Setting System Network ALL 1099 Trap destination of - CTL Maximum 24 letters (Valid from 0 to 9 and 3
mode IPX from A to F)
08 Setting System Network ALL 1100 Method of SMTP 1 <1-6> CTL 1: Disable 1
mode server 2: Plan
authentication 3: Login
4: CRAM-MD5
5: Digest-MD5
6: Auto

08 Setting System Network ALL 1101 Login name for - CTL Maximum 64 letters 3
mode SMTP server
authentication

08 Setting System Network ALL 1102 Login password for - CTL Maximum 64 letters 3
mode SMTP server
authentication

08 Setting System Network ALL 1103 Rendezvous 1 <1-2>


<1 2> CTL 1: Valid 2: Invalid 1
mode setting
08 Setting System Network ALL 1104 Link local host MFP_s CTL Maximum 127 letters 3
mode name erial The Network-related serial number of the
equipment appears at "serial"

08 Setting System Network ALL 1105 Service name Refer CTL <Default value> TOSHIBA e-STUDIOxxx 3
mode setting to (xxx is number.)
content

08 Setting System Network ALL 1111 POP Before SMTP 2 <1-2> CTL 1: Enabled 1
mode setting 2: Disabled
08 Setting System Network ALL 1112 Host name MFP_s CTL Maximum 127 letters 3
mode erial The Network-related serial number of the
equipment appears at "serial"

08 Setting System Network ALL 1114 Sending mail text 1 <0-1> CTL 0: Invalid (Not sending the mail text) 1
mode of InternetFAX 1: Valid (Sending the mail text)

82
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network ALL 1118 Scan to Windows 1 <1-3> CTL 1: Protects SMB communication using a 1
mode 2003 Files digital signature when the SMB signature
of the SMB server to be communicated is
set to valid.
2: Always performs digital signature for
communication on the client side and
performs SMB communication with the
SMB server. Communication with the SMB
server cannot be performed when the SMB
signature of the SMB server is set to
Invalid.
3: Does not perform digital signature for
communication on the client side and
performs SMB communication with the
SMB server. Communication with the SMB
server cannot be performed when the SMB
signature of the SMB server is set to Valid.
08 Setting System Image PRT 1119 Wide A4 mode (for 0 <0-1> CTL The printing area on A4 paper is widened 1
mode PCL) setting in printing with PCL5.
0: Valid (Printing area: 198 mm x 287 mm)
1 IInvalid
1: lid (printing
( i ti area:201.54
201 54 mm x
288.54 mm)

08 Setting System Network ALL 1123 NT domain 4 <3-4> CTL 3: ON (Domain selected) 1
mode ON/OFF setting 4: OFF (Work group selected)
08 Setting System Network ALL 1124 Workgroup name workgr CTL Maximum 15 letters 3
mode oup

08 Setting System Network ALL 1141 Display of MAC - CTL (**:**:**:**:**:**) 3


mode address The address is displayed as above (6-byte
data is divided by a colon at every 2 bytes).

08 Setting System General ALL 1143 Error report output 1 <0-1> CTL 0: Error report not printed 3
mode setting 1: Error report printed

08 Setting System Scanner ALL 1144 Process when 0 <0-1> CTL 0: Transfers scanned pages 3
mode memory full error 1: Deletes scanned pages
occurs

83
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System General ALL 1148 RDMS error code - CTL Notifies an error, which occurs at the initial 3
mode notification registration to eBR (satellite server), with a
code.
0: Initial value
1: When the initial registration succeeds
5010: MFP setting internal error
5012: Authentication error
5013: Communication error with eBR
5014: No SSL certificate error
5015: Invalid SSL certificate error
5016: Invalid SSL certificate time limit error
5017: Other SSL certificate error
5018: Invalid DNS error
5019: Connection error
501A: Proxy error
501B: Invalid URL character string error
08 Setting System General ALL 1149 Enhanced bold for 0 <0-1> CTL 0: OFF1: ON 1
mode PCL6
08 Setting System Network ALL 1152 Availability of direct 0 <0-1> CTL 0: Not available 1
mode SMTP 1: Available
communication

08 Setting System Network ALL 1153 Availability of 0 <0-1> CTL 0: Not available 1
mode image encryption 1: Available
during direct SMTP
communication

08 Setting System Network ALL 1154 Internet FAX 0 <0-1> CTL 0: Invalid 1: Valid 1
mode transmission
dummy full mode
setting

08 Setting System Network ALL 1155 Number of E-mail 3 <0-14> CTL 0 to 14 times 1
mode transmission
retries

08 Setting System Network ALL 1156 E-mail 1 <0-15> CTL 0 to 15 min. 1


mode transmission retry
interval

84
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System General ALL 1176 Scan Notification 0 <0-1> CTL Sends an error message. 1
mode Events (Error 0: Invalid 1: Valid
information)

08 Setting System General ALL 1177 Scan Notification 0 <0-1> CTL Sends a job completion message. 1
mode Events (Job 0: Invalid 1: Valid
completion
information)

08 Setting Counter Counter ALL 1372 Heater and 0 <8 digits> M Counts up the heater control time 1
mode energizing time accumulated (when power of the
accumulating equipment is ON) but does not count at the
counter Display/0 Sleep Mode.
clearing

08 Setting Counter Counter ALL 1378 Counter for period 0 <8 digits> M Counts up the heater control time 1
mode of time fuser unit is accumulated (when the equipment is at
at ready ready status).
temperature

08 Setting Counter Counter ALL 1380 Counter for period 0 <8 digits> M Counts up the heater control time 1
mode of time fuser unit is accumulated (during printing)
printing).
at printing
temperature

08 Setting Counter Counter ALL 1382 Counter for period 0 <8 digits> M Counts up the heater control time 1
mode of time fuser unit is accumulated (when the equipment is in the
at energy saving Energy Saving Mode).
temperature/Count
er reset

08 Setting Counter Counter ALL 1385 Number of output 0 <8 digits> M Counts up when the registration sensor is 1
mode pages (Thick paper ON.
1)

08 Setting Counter Counter ALL 1386 Number of output 0 <8 digits> M Counts up when the registration sensor is 1
mode pages (Thick paper ON.
2)

08 Setting Counter Counter ALL 1388 Number of output 0 <8 digits> M Counts up when the registration sensor is 1
mode pages (OHP film) ON.

85
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter ALL 1410 Counter for period 0 <8 digits> M Counts up the period of rotation time of the 1
mode of toner cartridge toner cartridge.
rotation time

08 Setting Counter Counter ALL 1411 Counter for 0 <8 digits> M Counts up when the registration sensor is 1
mode envelope ON.
08 Setting System Data ALL 1428 Forcible SRAM - - When this code is performed, the 5
mode overwrite backup data all equipment cannot be started up.
clearing

08 Setting System Network ALL 1440 IP Conflict Detect 1 <1-2> CTL OFF/ON1: Valid2: Invalid 1
mode
08 Setting System Network ALL 1447 IPP administrator - CTL This should be an account which can 3
mode name control all IPP jobs.
08 Setting System Network ALL 1448 IPP administrator - CTL This should be the password of an account 3
mode password which can control all IPP jobs.
08 Setting System Network ALL 1449 IPP authentication 1 <1-4> CTL 1: Disabled 1
mode method 2: Basic
3: Digest
g
4: Basic Digest

08 Setting System Network ALL 1450 User name for IPP - CTL This should be the account at the time IPP 3
mode authentication authentication was performed.

08 Setting System Network ALL 1451 Password for IPP - CTL This should be the password of the 3
mode authentication account at the time IPP authentication was
performed.

08 Setting Counter Counter ALL 1576 0 Toner cartridge 0 <8 digits> SYS Displays the lot number of the currently 2
mode installation history installed cartridge.

08 Setting Counter Counter ALL 1567 1 Toner cartridge 0 <8 digits> SYS Displays the lot number of the 1st cartridge 2
mode installation history before the currently installed one.

08 Setting Counter Counter ALL 1567 2 Toner cartridge 0 <8 digits> SYS Displays the lot number of the 2nd 2
mode installation history cartridge before the currently installed one.

86
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Counter Counter ALL 1567 3 Toner cartridge 0 <8 digits> SYS Displays the lot number of the 3rd cartridge 2
mode installation history before the currently installed one.

08 Setting Counter Counter ALL 1567 4 Toner cartridge 0 <8 digits> SYS Displays the lot number of the 4th cartridge 2
mode installation history before the currently installed one.

08 Setting Process Processing ALL 1626 Development 6 <0-8> M Switches the life correction of the 1
mode contrast life development contrast.
correction 0: Not corrected
switching 1: Initial minus correction amount (Small: -
30 V), Correction period (Short: 0 to 700
sheets)
2: Initial minus correction amount (Middle: -
60 V), Correction period (Short: 0 to 5,000
sheets)
3: Initial minus correction amount (Large: -
90 V), Correction period (Medium: 0 to
11,000 sheets)
4: Initial minus correction amount (Small: -
30 V),
V) Correction
C ti period
i d (M
(Medium:
di 0 tto
5,000 sheets)
5: Initial minus correction amount (Middle: -
60 V), Correction period (Long: 0 to 12,000
sheets)
6: Initial minus correction amount (Large: -
90 V), Correction period (Long: 0 to 13,000
sheets)
7: Initial minus correction amount (Medium:
-60 V), Correction period (Medium: 0 to
10,000 sheets)
8: Initial minus correction amount (Large: -
90 V), Correction period (Short: 0 to 7,000
sheets)
08 Setting Process Processing ALL 1628 0 Drum life 6 <0-15> M 2
mode correction
switching of the
drum reverse
rotation amount

87
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting Process Processing ALL 1628 1 Drum life 9 <0-15> M 2
mode correction
switching of the
normal drum
rotation amount
after the reverse
rotation
08 Setting System General ALL 1882 TopAccess setup - CTL Initializes the setup menu page in 5
mode menu page TopAccess.
initialization

08 Setting System Processing PPC 1913 The function clear 1 <0-1> SYS Blinks when the value is different from the 1
mode LED blinks present default value after copying (until
auto clear or all clear.)
0: Invalid (Always off) 1: Valid

08 Setting System Version ALL 1951 FROM basic - CTL 3


mode section software
version

08 Setting System Version ALL 1952 Controller ROM - CTL T282CN0XXXX 3


mode
d program version
i

08 Setting System Version ALL 1953 Scanner ROM - CTL 3


mode program version

08 Setting System Version ALL 1954 Controller ROM - CTL VTCXX.XXXX 3


mode internal program
version

08 Setting System Version ALL 1955 Scanner ROM - CTL 3


mode internal program
version

08 Setting System Network ALL 1960 IP address range - CTL IP filter minimum area 1 3
mode for IP filter 000.000.000.000-255.255.255.255
(Minimum area 1) (Default value: 000.000.000.000)

08 Setting System Network ALL 1961 IP address range - CTL IP filter maximum area 1 3
mode for IP filter 000.000.000.000-255.255.255.255
(Maximum area 1) (Default value: 000.000.000.000)

88
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network ALL 1962 IP address range - CTL IP filter minimum area 2 3
mode for IP filter 000.000.000.000-255.255.255.255
(Minimum area 2) (Default value: 000.000.000.000)

08 Setting System Network ALL 1963 IP address range - CTL IP filter maximum area 2 3
mode for IP filter 000.000.000.000-255.255.255.255
(Maximum area 2) (Default value: 000.000.000.000)

08 Setting System Network ALL 1964 IP address range - CTL IP filter minimum area 3 3
mode for IP filter 000.000.000.000-255.255.255.255
(Minimum area 3) (Default value: 000.000.000.000)

08 Setting System Network ALL 1965 IP address range - CTL IP filter maximum area 3 3
mode for IP filter 000.000.000.000-255.255.255.255
(Maximum area 3) (Default value: 000.000.000.000)

08 Setting System Network ALL 1966 IP address range - CTL IP filter minimum area 4 3
mode for IP filter 000.000.000.000-255.255.255.255
(Minimum area 4) (Default value: 000.000.000.000)

08 Setting System Network ALL 1967 IP address range - CTL IP filter maximum area 4 3
mode for IP filter 000.000.000.000-255.255.255.255
(M i
(Maximum area 4) (D f lt value:
(Default l 000
000.000.000.000)
000 000 000)

08 Setting System Network ALL 1968 IP address range - CTL IP filter minimum area 5 3
mode for IP filter 000.000.000.000-255.255.255.255
(Minimum area 5) (Default value: 000.000.000.000)

08 Setting System Network ALL 1969 IP address range - CTL IP filter maximum area 5 3
mode for IP filter 000.000.000.000-255.255.255.255
(Maximum area 5) (Default value: 000.000.000.000)

08 Setting System Network ALL 1970 IP address range - CTL IP filter minimum area 6 3
mode for IP filter 000.000.000.000-255.255.255.255
(Minimum area 6) (Default value: 000.000.000.000)

08 Setting System Network ALL 1971 IP address range - CTL IP filter maximum area 6 3
mode for IP filter 000.000.000.000-255.255.255.255
(Maximum area 6) (Default value: 000.000.000.000)

08 Setting System Network ALL 1972 IP address range - CTL IP filter minimum area 7 3
mode for IP filter 000.000.000.000-255.255.255.255
(Minimum area 7) (Default value: 000.000.000.000)

89
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network ALL 1973 IP address range - CTL IP filter maximum area 7 3
mode for IP filter 000.000.000.000-255.255.255.255
(Maximum area 7) (Default value: 000.000.000.000)

08 Setting System Network ALL 1974 IP address range - CTL IP filter minimum area 8 3
mode for IP filter 000.000.000.000-255.255.255.255
(Minimum area 8) (Default value: 000.000.000.000)

08 Setting System Network ALL 1975 IP address range - CTL IP filter maximum area 8 3
mode for IP filter 000.000.000.000-255.255.255.255
(Maximum area 8) (Default value: 000.000.000.000)

08 Setting System Network ALL 1976 IP address range - CTL IP filter minimum area 9 3
mode for IP filter 000.000.000.000-255.255.255.255
(Minimum area 9) (Default value: 000.000.000.000)

08 Setting System Network ALL 1977 IP address range - CTL IP filter maximum area 9 3
mode for IP filter 000.000.000.000-255.255.255.255
(Maximum area 9) (Default value: 000.000.000.000)

08 Setting System Network ALL 1978 IP address range - CTL IP filter minimum area 10 3
mode for IP filter 000.000.000.000-255.255.255.255
(Mi i
(Minimum area 10) (D f lt value:
(Default l 000
000.000.000.000)
000 000 000)

08 Setting System Network ALL 1979 IP address range - CTL IP filter maximum area 10 3
mode for IP filter 000.000.000.000-255.255.255.255
(Maximum area (Default value: 000.000.000.000)
10)

08 Setting System Network ALL 1989 Enable server's IP 1 <1-2> CTL the Domain Name Server option (6) 1
mode address acquired 1: Enabled 2: Disabled
by DHCP *This value is used only when DHCP is
enabled.

08 Setting System Network ALL 1990 Enable server's IP 1 <1-2> CTL the NetBIOS over TCP/IP Name Server 1
mode address acquired option (44) =Primary and Secondary Wins
by DHCP NAME
1: Enabled 2: Disabled
*This value is used only when DHCP is
enabled.

90
Sub Sub- Default Acceptable Proce
05/08 Mode Element Item Subitem Code Details RAM Contents
element code value value dure
08 Setting System Network ALL 1991 Enable server's IP 2 <1-2> CTL the Host Name Vendor Extension option 1
mode address acquired (12)
by DHCP 1: Enabled 2: Disabled
*This value is used only when DHCP is
enabled.

08 Setting System Network ALL 1993 Enable server's IP 2 <1-2> CTL the SmtpServer Option (69) Simple Mail 1
mode address acquired Server Addresses
by DHCP 1: Enabled 2: Disabled
*This value is used only when DHCP is
enabled.

08 Setting System Network ALL 1994 Enable server's IP 2 <1-2> CTL the Pop3Server Option (70) Post Office 1
mode address acquired Server Addresses
by DHCP 1: Enabled 2: Disabled
*This value is used only when DHCP is
enabled.

08 Setting System Network ALL 1996 Enable server's IP 2 <1-2> CTL SNTP Server Option (42) NTP Server 1
mode address acquired Addresses
by DHCP 1: Enabled 2: Disabled
*This value is used only when DHCP is
enabled.

91

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