Sep.

2017 SH-01A/SH-01A-RD/SH-01A-BU

SERVICE NOTES
-RD Issued by RJA
-BU

SH-01A-RD

SH-01A

SH-01A-BU

Revise Information
Nov.14, 2018 p. 5 Corrected errors

Copyright © 2017 Roland Corporation

All rights reserved. No part of this publication may be reproduced in any form without the written permission
of Roland Corporation.
17057130E0 CC-OKN
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Table of Contents Cautionary Notes

Cautionary Notes ..............................................................2
Specifications .....................................................................2 Before beginning the procedure, please read
Location of Controls .........................................................4 through this document. The matters described may
Location of Controls Parts List........................................5 differ according to the model.
Exploded View ..................................................................6
Exploded View Parts List.................................................7
Plain View ..........................................................................8 Back Up User Data!
Plain View Parts List.........................................................8
User data may be lost during the course of the procedure. Refer to Data
Disassembly Procedure ....................................................9
Backup and Restore Operations (p. 14) in the Service Notes and save the
Important Notes on Assembly ........................................9 data. After completing the procedure, restore the backed-up data to the
Block Diagram/Wiring Diagram..................................10 product.
Parts List ...........................................................................12
Verifying the Version .....................................................14
Virus Check......................................................................14
Data Backup and Restore Operations ..........................14
Part Replacement
Performing a Factory Reset............................................14 When replacing components near the power-supply circuit or a heat-
Updating the System ......................................................14 generating circuit (such as a circuit provided with a heat sink or including a
cement resistor), carry out the procedure according to the instructions with
Test Mode .........................................................................15
respect to the part number, direction, and attachment position (mounting so as
Circuit Board (Main Board) ...........................................22 to leave an air gap between the component and the circuit board, etc.).
Circuit Diagram (Main Board: 1/4)..............................24
Circuit Diagram (Main Board: 2/4)..............................26
Circuit Diagram (Main Board: 3/4)..............................28
Circuit Diagram (Main Board: 4/4)..............................30
Parts List
Circuit Board (Panel, Sensor Board).............................32 A component whose part code is ******** will not be supplied as a service part
Circuit Diagram (Panel Board: 1/6) .............................34 because one of the following reasons applies.

Circuit Diagram (Panel Board: 2/6) .............................36 • Because it is supplied as an assembled part (under a different part code).
• Because a number of circuit boards are grouped together and supplied as
Circuit Diagram (Panel Board: 3/6) .............................38
a single circuit board (under a different part code).
Circuit Diagram (Panel Board: 4/6) .............................40
• Because supply is prohibited due to copyright restrictions.
Circuit Diagram (Panel Board: 5/6) .............................42 • Because reissuance is restricted.
Circuit Diagram (Panel Board: 6/6) .............................44 • Because the part is made to order (at current market price).
Circuit Diagram (Sensor Board)....................................46 • Because it is carried in electronic data on the Roland web site.
• Because it is a package or an accessory irrelevant to the function
maintenance of the main body.
• Because it can be replaced with an article on the market. (battery or etc.)

Circuit Diagram
In the circuit diagram, “NIU” is an abbreviation for “Not in Use,” and
“UnPop” is an abbreviation for “Unpopulated.” They both mean non-mounted
components. The circuit board and circuit board diagram show silk-screened
indications, but no components are mounted.

There are cases that the circuit diagrams are omitted. This omission will
happen to the highly integrated digital circuit boards (e.g. Main Board etc) that
are virtually impossible to repair nor analyze.

Roland Japan Warranty

Please send the problem report with followings when the defect occurred
within one year from production and within one month from the first
customer’s purchase.

• Model name:
• Serial number:
• Version:
• Purchase date by the first customer: yyyy/mm/dd
• Symptom:
• Frequency: always, sometimes or seldom
• Confirmed the symptom at your service dept: Yes/No

Please send the problem report to rjasc@roland.co.jp.

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Specifications

Roland SH-01A: Sound Module

Sound Generator Section SEQUENCER/ARPEGGIO section:

1/LOAD switch and indicator
Maximum Polyphony: 4 voices 2/PLAY switch and indicator
Assign Mode: MONO/UNISON/POLY/CHORD 3/DOWN switch and indicator
4/U&D switch and indicator
User Memory 5/UP switch and indicator
6/HOLD switch and indicator
Sound Patch: 64
7/KEY TRANSPOSE switch and indicator
Sequencer Pattern: 64
8 switch and indicator

Controllers Power switch

VOLUME knob
Ribbon controllers C1, C2 Step Sequencer
100 steps
LFO section:
4 notes (Polyphonic)
RATE indicator and slider
WAVE FORM select knob
Arpeggio
VCO section: DOWN/U&D/UP
MOD depth slider 1 OCT/2 OCT
RANGE select knob
PULSE WIDTH slider
LFO/MAN/ENV select switch
Display
7 segments, 4 characters (LED)
SOURCE MIXER section:
PULSE level slider Connectors
SAW level slider
SUB OSC level slider CV OUT jack: mono miniature phone type

SUB OSC select slider GATE OUT jack: mono miniature phone type

NOISE level slider EXT CLK IN jack: mono miniature phone type
PHONES jack: stereo miniature phone type
OUTPUT jack: stereo miniature phone type
VCF section:
MIX IN jack: stereo miniature phone type
FREQ: cutoff frequency slider
MIDI (IN, OUT) connectors
RES: resonance slider
USB port: Micro-B type (Audio, MIDI)
ENV: envelope depth slider
MOD: modulation depth slider
KYBD: key follow slider Power Supply
Rechargeable Ni-MH battery (AA, HR6) x 4
VCA section:
Alkaline battery (AA, LR6) x 4
ENV/GATE select switch
USB bus power

ENV section:
GATE+TRIG/GATE/LFO select switch
Current Draw
A: attack time slider 500 mA (USB bus power)
D: decay time slider
S: sustain level slider
R: release time slider
Expected battery life under continuous use
Rechargeable Ni-MH battery: Approx. 6 hours
Controller section: * This can vary depending on the specifications of the batteries, capacity of the
TRANSPOSE switch (L/M/H) batteries, and the conditions of use.
VCO BENDER sens slider
VCF BENDER sens slider
LFO MOD slider
PORTAMENTO select switch (AUTO/OFF/ON)
PORTAMENTO time knob

MENU switch and indicator

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Dimensions
300 (W) x 128 (D) x 46 (H) mm
11-13/16 (W) x 5-1/16 (D) x 1-13/16 (H) inches

Weight (including batteries)

965 g
2 lbs 3 oz

Accessories
Owner’s Manual (#5100056959, #5100056960)
Leaflet “USING THE UNIT SAFELY” (#********)
Alkaline battery (AA, LR6) (#********) x 4

Options (sold separately)

Keyboard Unit: K-25m
Boutique Dock: DK-01

* Printed matters will not be supplied after the end of the production. Then,
download the electronic file from the Roland web site.
* In the interest of product improvement, the specifications and/or appearance of
this unit are subject to change without prior notice.

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Location of Controls
fig.panel.eps

1 3 2 1 2 4 2

7
8

14 9 13 15 16 17 10 12 11 10 3

22 18 19 20 21

Location of Controls Parts List

No. Part Code Part Name Description Q’ty
1 5100055857 SLIDE POTENTIOMETER C2080G1BV1B103BC50BF 5
5100056847 S-KNOB DWG/GRN 5
2 5100055857 SLIDE POTENTIOMETER C2080G1BV1B103BC50BF 11
5100056846 S-KNOB DWG/ORG 11
3 5100056850 LED COVER RED 10
4 02894112 SLIDE SWITCH SSSF012100 1
5100052913 HIMELON SLIDE SW 1
5 5100010448 SWITCH SSSF025100 3
5100052913 HIMELON SLIDE SW 3
6 03122212 3.5MM JACK YKB21-5157V 3
7 5100036842 ROTARY POTENTIOMETER XV09223NPV20F1B10KCC/I 1
5100056910 R-KNOB S DWG 1
5100056848 R-KNOB B DWG/ORG 1
8 03122134 ROTARY ENCODER EC12E2420802 1
5100056848 R-KNOB B DWG/ORG 1
5100056910 R-KNOB S DWG 1
9 5100044343 ROTARY POTENTIOMETER XV09213YNPV20F0B10K-6PC-4783/I 2
5100056849 R-KNOB M DWG/ORG 2
10 5100046575 SWITCH EVQP2202M 4
5100056845 KEYTOP MX1H SLV 4
11 5100046575 SWITCH EVQP2202M 3
5100056843 KEYTOP MX3H SLV 1
12 5100046575 SWITCH EVQP2202M 2
5100056844 KEYTOP MX2H SLV 1
13 5100051363 SWITCH SL10020F-0203-12PA-SN 2
5100052914 HIMELON TOGGLE SW 2
14 5100047003 SENSOR LED COVER 2
5100047004 DIFFUSION SHEET 2
5100047706 POSITION SENSOR FSLP 75MM 2
5100047002 LED ESCUTCHEON 1
15 5100055858 SLIDE POTENTIOMETER V1020GOAV1B103CA0000 3
16 5100037884 DISPLAY COVER 1
17 5100036841 ROTARY POTENTIOMETER XV09223NPV20F1B10K/I 1
5100056849 R-KNOB M DWG/ORG 1
18 5100048112 USB CONNECTOR 105017-0001 1
19 5100047382 ROTARY POTENTIOMETER RV09AF-21-15K-B50K 1
20 5100037105 3.5MM JACK LJE0393-7 3
21 02892878 DIN(MIDI) JACK 2DJ-00600003 2
22 5100036799 SWITCH SKI-22H07-G9-TS 1

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Exploded View
fig.bunkai.eps

1 2
1
2
3
4
5 w1
Vie
6
36

8
36
7

9 37

10 34
35
10
36

14
11
12 15
33
13 16
17

19

18

21
View 4

38

20
22 a

23
View 3

25 24

31

28
30
26
27
29 28

31
View 2

32

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Exploded View Parts List

No. Part Code Part Name Description Q’ty

1 5100056847 S-KNOB DWG/GRN 5
2 5100056846 S-KNOB DWG/ORG 11
3 5100056849 R-KNOB M DWG/ORG 3
4 5100056848 R-KNOB B DWG/ORG 1
5 5100056910 R-KNOB S DWG 1
6 5100056840 TOP PANEL for SH-01A 1
5100059206 TOP PANEL for SH-01A-RD 1
5100059208 TOP PANEL for SH-01A-BU 1
7 5100056850 LED COVER RED 10
8 5100037884 DISPLAY COVER 1
9 5100056841 PANEL ESCUTCHEON for SH-01A 1
5100059207 PANEL ESCUTCHEON for SH-01A-RD 1
5100059209 PANEL ESCUTCHEON for SH-01A-BU 1
10 5100047003 SENSOR LED COVER 2
11 5100047004 DIFFUSION SHEET 2
12 5100047706 POSITION SENSOR FSLP 75MM 2
13 5100047002 LED ESCUTCHEON 1
14 5100052913 HIMELON SLIDE SW 4
15 5100056845 KEYTOP MX1H SLV 4
16 5100056844 KEYTOP MX2H SLV 1
17 5100056843 KEYTOP MX3H SLV 1

5100056125 PANEL SHEET ASSY 1

* This unit includes the following parts.
18 ******** PANEL BOARD 1
19 ******** SENSOR BOARD 1

20 5100048644 LEAF 1
21 5100057880 INSULATING SHEET 1
22 5100047007 SPEAKER HOLDER 1
23 5100047316 SPEAKER KDMG36008-10B 1
24 5100047006 SPEAKER CUSHION 1
25 5100047001 MODULE CASE 1
26 5100047005 HINGE PIN R 1
27 5100046998 COILED SPRING 1
28 5100047009 BATTERY TERMINAL ± 3
29 5100047010 BATTERY TERMINAL + 1
30 5100047011 BATTERY TERMINAL - 1
31 5100047012 FOOT 4
32 5100047008 BATTERY COVER 1
33 40122612 ACETATE TAPE NITTO #5 BLACK W10MM 30M 20P -
34 40122490 DOUBLE-FACED TAPE #500 W5MM 20M 40P -
35 5100052914 HIMELON TOGGLE SW 2
36 40122534 DOUBLE-FACED TAPE #500 W3MM 20M 136P -
37 40345056 DOUBLE-FACED TAPE #500 W10MM 20M 20P(CM) -
38 5100056123 MAIN BOARD ASSY 1

a 40011312 SCREW 3X8 BINDING TAPTITE P FE BZC 2

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Plain View
fig.heimen.eps

View 1 View 2 a

View 3 View 4
a a a

39

b a

Plain View Parts List

View 1
No. Part Code Part Name Description Q’ty
a 40011312 SCREW 3X8 BINDING TAPTITE P FE BZC 3

View 2
No. Part Code Part Name Description Q’ty
a 40011312 SCREW 3X8 BINDING TAPTITE P FE BZC 6
c 40012956 SCREW M3X8 PAN MACHINE W/SW+PW FE BZC 2

View 3
No. Part Code Part Name Description Q’ty
39 40122645 FILAMENT TAPE NITTO #3883 W19MM 50M 60P (CM) -

a 40011312 SCREW 3X8 BINDING TAPTITE P FE BZC 4

View 4
No. Part Code Part Name Description Q’ty
a 40011312 SCREW 3X8 BINDING TAPTITE P FE BZC 11
b 40011267 SCREW 3X6 BINDING TAPTITE P FE ZC 1

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Disassembly Procedure
1. Remove all screws (x 8) securing the Module Case from underneath. (Plain View (p. 8), a and c in View 2)

2. Lift the Module Case and disconnect the connectors (x 2).

3. Detach the Module Case.

Now the Main Board, Panel Board and Sensor Board can be detached.

4. Remove all screws (x 3) securing the Module Case from the rear side. (Plain View (p. 8), a in View 1)
Now the Panel Escutcheon can be detached.

Important Notes on Assembly

When shaping the battery wirings, give attention to the following points. Secure the flat cables (#5100057483, #5100052581) with the acetate tape
(#40122812).
1. Lead out two wirings to the rear side of the unit (in the direction of the
fig.assemble-4.eps
allow as shown in the figure).
fig.assemble-1.eps

2. Fix them at two locations with acetate tape (#40122812).

* Make sure that the wirings do not touch the terminal of the battery.
fig.assemble-2.eps

fig.assemble-3.eps

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Block Diagram/Wiring Diagram

fig.block-SH.eps@L

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.block-SH.eps@R

No. Part Code Part Name Description Q’ty

1 5100048245 WIRING W1 (BATTERY) 1
2 5100010891 WIRING W2 1
3 5100057483 FLAT CABLE SML2CD-20X170-BDX6(BL)-P0.5-S4 1
4 5100052581 FLAT CABLE SML2SC-10(2)X200-BDX6(BL)-P0.5 1
5 05012456 WIRING J-2 1

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Parts List
fig.-part1-e.eps

Safety Precautions: Due to one or more of the following reasons, parts with parts code ******** cannot be supplied
The parts marked have as service parts.
safety-related characteristics. Use • Supply is prohibited due to copyright restrictions. • Reissuance is restricted.
only listed parts for replacement. • It is carried in electronic data on the Roland web site. • It is supplied as an assembled part
• The part is made to order (at current market price). (under a different part code).
• It can be replaced with an article on the market. (battery or etc.)
• It is a package or an accessory irrelevant to the function maintenance of the main body.
• A number of circuit boards are grouped together and supplied as a single circuit board (under a different part code).

Note: The parts marked # are new. (initial parts) The description “Q’ty” means a necessary number of the parts per one product.

CASING
# 5100056840 TOP PANEL for SH-01A 1
5100059206 TOP PANEL for SH-01A-RD 1
5100059208 TOP PANEL for SH-01A-BU 1
5100047001 MODULE CASE 1
5100047008 BATTERY COVER 1

CHASSIS
# 5100056841 PANEL ESCUTCHEON for SH-01A 1
5100059207 PANEL ESCUTCHEON for SH-01A-RD 1
5100059209 PANEL ESCUTCHEON for SH-01A-BU 1
5100047002 LED ESCUTCHEON 1
5100047007 SPEAKER HOLDER 1

KNOB, BUTTON
# 5100056848 R-KNOB B DWG/ORG 1
# 5100056849 R-KNOB M DWG/ORG 3
# 5100056910 R-KNOB S DWG 1
# 5100056847 S-KNOB DWG/GRN 5
# 5100056846 S-KNOB DWG/ORG 11
# 5100056845 KEYTOP MX1H SLV 4
# 5100056844 KEYTOP MX2H SLV 1
# 5100056843 KEYTOP MX3H SLV 1

SWITCH
5100046575 SWITCH EVQP2202M 9
5100036799 SWITCH SKI-22H07-G9-TS 1
5100051363 SWITCH SL10020F-0203-12PA-SN 2
5100010448 SWITCH SSSF025100 3
02894112 SLIDE SWITCH SSSF012100 1

JACK, EXT TERMINAL

5100037105 3.5MM JACK LJE0393-7 3
03122212 3.5MM JACK YKB21-5157V 3
02892878 DIN(MIDI) JACK 2DJ-00600003 2
5100048112 USB CONNECTOR 105017-0001 1

SPEAKER, BUZZER
5100047316 SPEAKER KDMG36008-10B 1

PWB ASSY
# 5100056123 MAIN BOARD ASSY 1

# 5100056125 PANEL SHEET ASSY 1

* This unit includes the following parts.
******** PANEL BOARD 1
******** SENSOR BOARD 1

POTENTIOMETER
5100047382 ROTARY POTENTIOMETER RV09AF-21-15K-B50K 1
5100044343 ROTARY POTENTIOMETER XV09213YNPV20F0B10K-6PC-4783/I 2
5100036841 ROTARY POTENTIOMETER XV09223NPV20F1B10K/I 1
5100036842 ROTARY POTENTIOMETER XV09223NPV20F1B10KCC/I 1
# 5100055857 SLIDE POTENTIOMETER C2080G1BV1B103BC50BF 16
# 5100055858 SLIDE POTENTIOMETER V1020GOAV1B103CA0000 3

ENCODER
03122134 ROTARY ENCODER EC12E2420802 1

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

WIRING, CABLE
# 5100057483 FLAT CABLE SML2CD-20X170-BDX6(BL)-P0.5-S4 1
5100052581 FLAT CABLE SML2SC-10(2)X200-BDX6(BL)-P0.5 1
05012456 WIRING J-2 1
5100048245 WIRING W1 (BATTERY) 1
5100010891 WIRING W2 1

PICK UP, SENSOR

5100047706 POSITION SENSOR FSLP 75MM 2

SCREWS
40012956 SCREW M3X8 PAN MACHINE W/SW+PW FE BZC 2
40011267 SCREW 3X6 BINDING TAPTITE P FE ZC 1
40011312 SCREW 3X8 BINDING TAPTITE P FE BZC 26

MISCELLANEOUS
5100037884 DISPLAY COVER 1
# 5100056850 LED COVER RED 10
5100047003 SENSOR LED COVER 2
5100047012 FOOT 4
5100047005 HINGE PIN R 1
5100048644 LEAF 1
5100046998 COILED SPRING 1
5100047010 BATTERY TERMINAL + 1
5100047011 BATTERY TERMINAL - 1
5100047009 BATTERY TERMINAL ± 3
12199599 GRAND TERMINAL M3 2
5100047006 SPEAKER CUSHION 1
5100047004 DIFFUSION SHEET 2
# 5100057880 INSULATING SHEET 1
5100052913 HIMELON SLIDE SW 4
5100052914 HIMELON TOGGLE SW 2
40122645 FILAMENT TAPE NITTO #3883 W19MM 50M 60P (CM) -
40122612 ACETATE TAPE NITTO #5 BLACK W10MM 30M 20P -
40122812 ACETATE TAPE NITTO #5 BLACK W15MM 30M -
40122534 DOUBLE-FACED TAPE #500 W3MM 20M 136P -
40122490 DOUBLE-FACED TAPE #500 W5MM 20M 40P -
40345056 DOUBLE-FACED TAPE #500 W10MM 20M 20P(CM) -

ACCESSORIES (Standard)
# 5100056959 OWNER’S MANUAL EN/JP/DE/FR 1
# 5100056960 OWNER’S MANUAL IT/ES/PT/NL 1

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Verifying the Version Performing a Factory Reset

* The version can be verified also in the Test Mode (p. 15). 1. Make sure the power to the unit is turned off, and connect the computer

1. Make sure the power to the unit is turned off, and connect the computer to the connector.

to the connector. * When driving by batteries, it is not necessary to connect the computer.

* When driving by batteries, it is not necessary to connect the computer. 2. Hold down 2 and turn on the power.

2. Hold down 1 and turn on the power. MENU flashes and FACT appears on the 7-segment LED display.

The version appears on the 7-segment LED display. 3. To execute the factory reset, press MENU. To cancel it, turn off the power.

3. Turn off the power. 1–8 light up in sequence.

When all LEDs flash, the factory reset has finished.

4. Turn off the power.

Virus Check
Before repair or inspection, carry out a virus check on the SH-01A. Updating the System
If it has been infected by a virus, format it after obtaining permission
from the end user. For the formatting procedure, refer to Performing a
Factory Reset (p. 14). Items Required
To display the SH-01A on the screen of the computer, hold down MENU
and turn on the power to the unit. • Computer
• USB cable (type-A <-> type-micro B)
• Update program (obtained via Service Net)

Data Backup and Restore

Procedure
Operations 1. Make sure the power to the unit is turned off, and connect the computer
to the connector.
Items Required 2. Hold down 8 and turn on the power.
• Computer 8 flashes, 1–7 light up and S0 -> S1 appears on the 7-segment LED
display. And the SH-01A drive appears on the screen of the computer.
• USB cable (type-A <-> type-micro B)
3. Copy the update program (BQ3_UPD.BIN) to the root directory of the
SH-01 drive.
Backup Procedure
4. Eject the SH-01 drive on the computer.
1. Make sure the power to the unit is turned off, and connect the computer
5. Press 8.
to the connector.
The update starts, and the progress (%) is displayed on the 7-segment
2. Hold down MENU and turn on the power. LED display.
* Continue to hold down MENU until - - - - appears on the 7-segment LED When 1–8 flash and OK appears on the 7-segment LED display, the
display. update has finished.
1–8 light up in sequence, then MENU flashes at the end. 6. Reset the power in normal mode.
3. Open the SH-01A drive on the screen of the computer. * Sometimes the 7-segment LED display may not light up in about 20 seconds
4. Copy all folders in the BACKUP folder of the SH-01A drive to the during startup. Wait for a while as it is.
computer. The RATE LED flashes slowly and 120 appears on the 7-segment LED
display.
5. Eject the SH-01A drive on the computer.
7. Turn off the power.
6. Turn off the power.

Restore Procedure
1. Make sure the power to the unit is turned off, and connect the computer
to the connector.

2. Hold down MENU and turn on the power.

* Continue to hold down MENU until - - - - appears on the 7-segment LED
display.
1–8 light up in sequence, then MENU flashes at the end.

3. Open the SH-01A drive on the screen of the computer.

4. Copy all folders which have been backed up to the RESTORE folder of
the SH-01A drive.

5. Eject the SH-01A drive on the computer.

6. Press MENU.
1–8 and MENU flash and the restore operation is executed.
When 1–8 light up and dOnE appears on the 7-segment LED display, the
restore operation has finished.

7. Turn off the power.

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Test Mode Quitting the Test Mode

Set the POWER switch to OFF to turn off the power.

Items Required
Moving (forced) Between Test Items
• Computer (running Windows)
• USB cable (type-A <-> type-micro B) Hold down MENU and turn the TEMPO knob to display the number of
the test item on the 7-segment LED display and release MENU.
• MIDI cable
• Audio cable (stereo miniature <-> stereo miniature)
• Audio cable (monaural miniature <-> monaural miniature) Test Items
• K-25M
1. Battery AD Check (p. 15)
• Amp-equipped monitor speaker
2. Version Check (p. 15)
• Noise meter
3. Device Check (p. 16)
• Tester
4. LED Check (p. 16)
• Stabilized power supply unit
5. Push Button Check (p. 16)
• Headphones
6. Slide Volume Check (p. 16)

• K-Meter 7. Rotary Volume Check (p. 16)

8. Rotary Volume (w/Center Click) Check (p. 17)
* Obtain via Service Net, and copy it in any folder on the computer described
9. 6-position Rotary Volume Check (p. 17)
above.
10. Encoder Check (p. 17)
• USB driver 11. Slide Switch Check (p. 17)

* Obtain this from the following web page, and install it on the computer described 12. Ribbon Controller Calibration (p. 17)
above. 13. Ribbon Controller Check (p. 18)
https://www.roland.com/global/ 14. Keyboard Check (p. 18)
15. Jack Sense Check (p. 18)
16. GATE/TRIGGER IN Check (p. 18)
Entering the Test Mode 17. CV Calibration (p. 19)
When Executing “1. Battery AD Check” 18. Audio Check (p. 19)
19. Factory Reset (p. 21)
Use the stabilized power supply unit for power supply.
20. Pop Noise Check (p. 21)
* Do not connect the computer because the USB bus power is not used.

* Test item 20 is executed in the normal mode.

1. Using the stabilized power supply unit, add about 5 V to terminals
shown in the figure.
fig.battery-case.eps 1. Battery AD Check
This checks whether consumption of the batteries are judged correctly.

MENU flashes and 1 appears on the 7-segment LED display.

1. Press MENU.
Corresponding to the voltage of the battery terminal, one of the LEDs of
1–8 flashes.

2. While measuring the voltage of the battery terminal using tester, adjust
the output voltage of the stabilized power supply unit so that the voltage
2. Hold down 6 and 7 and turn on the power. becomes to 3.8 V.
The unit enters the Test Mode, and MENU flashes and 1 appears on the 3. Verify that one of the LEDs of 5–7 lights up.
7-segment LED display.
4. Turn off the power.
3. Press MENU.

2. Version Check
When Executing Other Test Items
The version appears on the 7-segment LED display.
Use the USB bus power for power supply.
1. Before entering the next test item (3. Device Check), connect the MIDI IN
* Even if the batteries are set, the USB bus power take precedence. And when the connector to the MIDI OUT connector using the MIDI cable.
USB cable is disconnected, the power is turned off. The unit does not move into
2. Press MENU to advance to the next test item.
the battery drive.

1. Connect K-25M.
* When 14. Keyboard Check (p. 18) is not executed, it is not necessary to
connect this.

2. Make sure the power to the unit is turned off, and connect the computer
to the connector.

3. Hold down 6 and 7 and turn on the power.

The unit enters the Test Mode, and MENU flashes and 1 appears on the
7-segment LED display.

4. Press MENU.
At this time, the first test item (1. Battery AD Check) is selected.

5. Follow Moving (forced) Between Test Items (p. 15) and select the
desired test item.

15
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

3. Device Check 6. Slide Volume Check

This checks the operation of each device automatically. This checks whether the slide volumes detect the minimum and
* Before entering this test item, verify that the computer is connected using the maximum value correctly.
USB cable and the MIDI IN connector is connected to the MIDI OUT connector * Before entering this test item, set all knobs to the minimum positions. If any
using the MIDI cable. knobs are not set to the minimum positions, 1–8 flash rapidly.
* When the amp-equipped monitor speaker is connected to the OUTPUT jack,
If no error occurs, execution automatically advances to the next test item. audio sound can be monitored. Adjust the sound volume by the volume knob on
Disconnect the MIDI cable. the monitor speaker. The VOLUME knob on the unit does not function.

If some errors occur, corresponding LEDs flash rapidly as follows. Sound is produced from the monitor speaker. Also, 1 flashes.
FLASH ROM error: 1 flashes rapidly. 1. As shown in the figure, move the knobs to the lower end, upper end and
SDRAM error: 2 flashes rapidly. then lower end in sequence of arrow.
MIDI error: 4 flashes rapidly. The value displayed on the 7-segment LED display changes as 0 -> 255
USB error: 5 flashes rapidly. -> 0. Also, pitch of the sound heard from the monitor speaker changes
corresponding to the location of the knob.
* 3 is a blank. It does not flash. When the knob is returned to the lower end, the LED (1–8)
corresponding to the next knob flashes.
fig.test-6.eps
4. LED Check
This checks whether each LED lights up correctly.

1
MENU flashes, all LEDs except MENU and all segments of the 7-segment
LED display light up.
2
1. Lift the rear side of the product to a height of approximately 5 cm, then
allow it to fall freely five times, and verify that the LEDs and the
7-segment LED display remains lighted.

2. Press MENU. * When the wrong knob is moved, or the lower end or upper end is not detected,
After all LEDs except MENU go dark, the following a through c are the lighted LED flashes rapidly and execution cannot advance to the next
repeated. volume. In this case, return the knob on the volume to be tested to the lower end
and restart the inspection.
a. Each segment in the leftmost digit of the 7-segment LED display lights
up and goes dark as shown in the figure below. When the operations of all slide volumes are successfully verified, MENU
fig.test-4.eps flashes.

2. Press MENU to advance to the next test item.

7. Rotary Volume Check

This checks whether the rotary volume detects the minimum and
maximum value correctly.
b. In the same way, each segment in the second, the third and the
* Before entering this test item, set the VOLUME knob on the rear panel and the
rightmost digit lights up and goes dark in the sequence as shown in
PORTAMENTO knob to the minimum position and the TUNE knob to the
the figure above.
side.
c. All segments of the four characters light up and go dark.
If any knobs are not set to the minimum position or the side, 1–3 flash rapidly.
3. Press MENU to advance to the next test item.

Sound is produced from the monitor speaker. Also, 1 flashes.

5. Push Button Check 1. Turn the VOLUME knob on the rear panel clockwise and
counterclockwise. And then, in the sequence of the PORTAMENTO and
This checks whether the push buttons operate correctly.
TUNE knobs, turn them clockwise and counterclockwise.
The indication of the 7-segment LED display changes as 0 -> 255 -> 0
1. Press the button of the lighted LED in sequence. corresponding to the location of the knob and pitch of the sound heard
* If the wrong button is pressed, the lighted LED and - - - - displayed on the from the monitor speaker changes.
7-segment LED display flash rapidly. In this case, follow Moving (forced) When the knob is returned to the original position, the LED (2 or 3)
Between Test Items (p. 15) and enter this test item again. corresponding to the next knob flashes.
When all buttons except MENU have been pressed, MENU flashes. * When the wrong knob is turned, the lighted LED flashes rapidly. In this case,
2. Press MENU to advance to the next test item. return the knob to be tested to the minimum or the side and restart the
inspection.
When the operations of all rotary volumes are successfully verified,
MENU flashes.

2. Press MENU to advance to the next test item.

16
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

8. Rotary Volume (w/Center Click) Check 11. Slide Switch Check

This checks whether the rotary volume with center click detect the center This checks whether the slide switch detects each position correctly.
position correctly. * Before entering this test item, set all slide switches to the lower end or left side.
If any slide switches are not set to the lower end or left side, - - - - appears on the
Sound is produced from the monitor speaker. 7-segment LED display and 1–6 flash rapidly.
1. Set the TUNE knob to the center click position.
- - - - appears on the 7-segment LED display and MENU flashes. When Sound is produced from the monitor speaker. Also, 1 flashes.
the center value is detected successfully, sound stops. 1. In the sequence shown in the figure, move the knobs at the upper row to
2. Press MENU to advance to the next test item. the lower end, upper end and then lower end. And then, move the knobs
at the lower row to the left, right and then left.
The indication of the 7-segment LED display changes corresponding to
9. 6-position Rotary Volume Check the location of the knob and pitch of the sound heard from the monitor
This checks whether the 6-position rotary volumes detect each position speaker changes.
correctly. When the knob is returned to the lower end or left side, the LED (2–6)
corresponding to the next knob flashes.
* Before entering this test item, turn the RANGE and WAVE FORM knobs all
the way counterclockwise. If any knobs are not turned all the way * When the wrong knob is moved, or each position is not detected, the lighted LED
counterclockwise, - - - - appears on the 7-segment LED display and 1 and 2 flash flashes rapidly. In this case, return the knob to be tested to the lower end or left
rapidly. side and restart the inspection.
fig.test-11.eps

Sound is produced from the monitor speaker. Also, 1 flashes.

3
1. Turn the RANGE knob all the way clockwise and all the way 1
counterclockwise. 2
The indication of the 7-segment LED display changes as 0 -> 5 -> 0 and
pitch of the sound heard from the monitor speaker changes. When the 4
knob is turned all the way counterclockwise, 2 flashes.
* When the wrong knob is turned, or each position is not detected, the lighted LED 5 6
flashes rapidly. In this case, return the knob to be tested all the way
counterclockwise and restart the inspection.
When the operations of all slide switches are successfully verified, - - - -
2. For the WAVE FORM knob, execute step 1. appears on the 7-segment LED display and MENU flashes.
When the operations of each 6-position rotary volume are successfully
2. Press MENU to advance to the next test item.
verified, - - - - appears on the 7-segment LED display and MENU flashes.

3. Press MENU to advance to the next test item.

12. Ribbon Controller Calibration
This makes calibration of the ribbon controllers.
10. Encoder Check
This checks whether the encoder operates correctly. The upper end of the LED bar next to the left ribbon controller flashes.
Also, - - - - appears on the 7-segment LED display and 1 flashes.
1. Turn the TEMPO knob clockwise and set the value on the 7-segment LED 1. While pressing the upper end of the left ribbon controller with your
display to 48. finger, press 1.
It is no problem even if the value gets over 48. The upper end of the LED bar changes to lighting, and the lower end
2. Turn the TEMPO knob counterclockwise and set the value to 0. flashes.
MENU flashes. 2. While pressing the lower end of the left ribbon controller with your
finger, press 1.
3. Press MENU to advance to the next test item.
The lower end of the LED bar changes to lighting, and the upper end of
the LED bar next to the right ribbon controller flashes.

3. While pressing the upper end of the right ribbon controller with your
finger, press 1.
The upper end of the LED bar changes to lighting, and the lower end
flashes.

4. While pressing the lower end of the right ribbon controller with your
finger, press 1.
The lower end of the LED bar changes to lighting, and MENU flashes.

5. Verify that the upper and lower ends of the LED bars next to the left and
right ribbon controllers are lighted, and press MENU.
The calibration values are stored and execution automatically advances
to the next test item.

17
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

13. Ribbon Controller Check 15. Jack Sense Check

This verifies whether the ribbon controllers detect the finger position This checks whether inserting and removing the plug at the jack are
correctly. detected correctly.
* When sliding on the ribbon controller, slide slowly without releasing your * Before entering this test item, verify that nothing is connected to any jacks.
finger. Put a nail on the ribbon controller and rub it lightly, then inspection may
succeed. All LEDs go dark.
* When the LED bar next to the ribbon controller flashes rapidly, it is an error. 1. Insert and remove the plug (stereo miniature) at the MIX IN jack.
In this case, follow Moving (forced) Between Test Items (p. 15) and enter
1 lights up.
this test item again.
2. Insert and remove the plug (stereo miniature) at the OUTPUT jack.
The LED bar next to the left ribbon controller flashes.
2 lights up.
1. Press the center of the left ribbon controller with your finger.
3. Insert and remove the plug (stereo miniature) at the PHONES jack.
Sound is produced from the monitor speaker and flashing of the LED bar
3 lights up.
changes to lighting at the lower half.
4. Insert and remove the plug (monaural miniature) at the CV OUT jack.
2. Without releasing your finger as it is, slide slowly to the lower end.
4 lights up.
The LED bar lights up tracking the movement of finger and when the
lighting reaches to the lower end, 1 lights up. 5. Insert and remove the plug (monaural miniature) at the GATE OUT jack.
5 lights up.
3. Without releasing your finger as it is, slide slowly to the upper end.
The LED bar lights up tracking the movement of finger and when the 6. Insert and remove the plug (monaural miniature) at the EXT CLK IN jack.
lighting reaches to the upper end, 2 lights up. 6 lights up and MENU flashes.

4. Without releasing your finger as it is, slide slowly to the lower end. 7. Press MENU to advance to the next test item.
The LED bar lights up tracking the movement of finger and when the
lighting reaches to the lower end, 3 lights up.
16. GATE/TRIGGER IN Check
5. Release your finger.
This checks whether the gate out and trigger in operate correctly.
The LED bar next to the right ribbon controller flashes.

6. Press the center of the right ribbon controller with your finger. 1 flashes.
Flashing of the LED bar changes to lighting at the lower half.
1. Connect the oscilloscope to the GATE OUT jack (monaural).
7. Without releasing your finger as it is, slide slowly to the lower end.
2. Verify that a signal like the following is output from the GATE OUT jack.
The LED bar lights up tracking the movement of finger and when the
fig.test-16.eps
lighting reaches to the lower end, 4 lights up.
100 ms
8. Without releasing your finger as it is, slide slowly to the upper end.
The LED bar lights up tracking the movement of finger and when the
lighting reaches to the upper end, 5 lights up. 20 ms
9. Without releasing your finger as it is, slide slowly to the lower end.
The LED bar lights up tracking the movement of finger and when the
lighting reaches to the lower end, 6 lights up. 12±0.5V
10. Release your finger.
MENU flashes.

11. Press MENU to advance to the next test item.

14. Keyboard Check

This checks whether the unit operates correctly when the keyboard is
3. Detach the oscilloscope.
connected.
4. Connect the GATE OUT jack to the EXT CLK IN jack using the audio
cable (monaural miniature <-> monaural miniature).
1 flashes.
1 lights up and 2 flashes.
1. Press key shown in the figure in numerical order.
fig.test-14.eps 5. Press 2.
1 2 4 6 When the result is OK, 2 lights up and MENU flashes after approximately
one seconds. If the result is not OK, 2 flashes rapidly.

6. Disconnect the audio cable.

7. Press MENU to advance to the next test item.

3 5 7 8
1–8 light up in sequence.
* If the wrong key is pressed, the flashed LED flashes rapidly. In this case, press
the correct key to restart the inspection.
When all keys until the rightmost key are detected successfully, MENU
flashes.

2. Press MENU to advance to the next test item.

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

17. CV Calibration The Audio Settings dialog box appears.

3. Set as follows.
This adjusts the voltage of the CV signal.
Audio device type: ASIO
device: Boutique SH-01A
MENU flashes and 1 lights up.
fig.test-18-2.eps

1. Connect the tester to the CV OUT jack.

2. Press 1.

3. Turn the VALUE knob to adjust the output voltage of the CV OUT jack to
0±0.002 V.

4. Press 2.

5. Turn the VALUE knob to adjust the output voltage of the CV OUT jack to
3±0.002 V. Boutique SH-01A

6. Press MENU to advance to the next test item.

18. Audio Check

This checks the noise and the output level of the OUTPUT jack and the
PHONES jack.

When this test item is enabled, 1 lights up. This means that the test
4. Click x at the right upper corner to close the dialog box.
executing currently is the first test. As shown in the table below, each test
is assigned to the respective buttons, and pressing the button executes 5. Click the buttons (Normal, RMS and Peaks) to set as shown in the figure.
the corresponding test. * Make sure to click the Reset button before starting measurement.
fig.test-18-3.eps

Button Test name

1 Noise Test
2 Level Test for 100 Hz, LEFT
3 Level Test for 100 Hz, RIGHT Normal
4 Level Test for 1 kHz, LEFT
5 Level Test for 1 kHz, RIGHT
6 Level Test for 10 kHz, LEFT
7 Level Test for 10 kHz, RIGHT
RMS
8 Speaker Test

Setting of K-Meter
Peaks
1. Start K-Meter (Stereo).exe on the computer.

2. In the K-Meter (Stereo) window, click the options button and select
Audio Settings....
fig.test-18-1.eps

18-1. Noise Test

1. Press 1.

2. Connect a noise meter to the OUTPUT jack (stereo), and verify that noise
levels are as the values shown below.
OUTPUT L: -90 dBm or lower (DIN-Audio, RMS)
OUTPUT R: -90 dBm or lower (DIN-Audio, RMS)

3. Connect the noise meter to the PHONES jack (stereo), and verify that
noise levels are as the values shown below.
PHONES L: -90 dBm or lower (DIN-Audio, RMS)
PHONES R: -90 dBm or lower (DIN-Audio, RMS)

4. Detach the noise meter.

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Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

18-2. OUTPUT Level Test 18-3. PHONES Level Test

1. Connect the MIX IN jack to the OUTPUT jack using the audio cable (stereo 1. Connect the MIX IN jack to the PHONES jack using the audio cable (stereo
miniature <-> stereo miniature). miniature <-> stereo miniature).
By this connection, the output signal from the OUTPUT jack goes to the By this connection, output signal from the PHONES jack goes to the MIX
MIX IN jack and flows to the computer via a USB cable, and then the level IN jack and flows to the computer via a USB cable, and then it can be
of the signal can be measured on K-Meter. measured on K-Meter.
* Use an audio cable that L and R are shielded separately. 2. Press 2.
2. Press 2. 100-Hz signal is output from the PHONES jack (L).
100-Hz signal is output from the OUTPUT jack (L). 3. Click the Reset button on K-Meter and verify that the output levels of the
3. Click the Reset button on K-Meter and verify that the output levels of the PHONES jack are as follows.
OUTPUT jack are as follows. PHONES L: -8.0 to -6.0 dBm
OUTPUT L: -9.0 to -7.0 dBm PHONES R: -65 dBm or lower
OUTPUT R: -55 dBm or lower 4. Press 3.
4. Press 3. 100-Hz signal is output from the PHONES jack (R).
100-Hz signal is output from the OUTPUT jack (R). 5. Click the Reset button on K-Meter and verify that the output levels of the
5. Click the Reset button on K-Meter and verify that the output levels of the PHONES jack are as follows.
OUTPUT jack are as follows. PHONES L: -65 dBm or lower
OUTPUT L: -55 dBm or lower PHONES R: -8.0 to -6.0 dBm
OUTPUT R: -9.0 to -7.0 dBm 6. Press 4.
6. Press 4. 1-kHz signal is output from the PHONES jack (L).
1-kHz signal is output from the OUTPUT jack (L). 7. Click the Reset button on K-Meter and verify that the output levels of the
7. Click the Reset button on K-Meter and verify that the output levels of the PHONES jack are as follows.
OUTPUT jack are as follows. PHONES L: -8.0 to -6.0 dBm
OUTPUT L: -9.0 to -7.0 dBm PHONES R: -65 dBm or lower
OUTPUT R: -55 dBm or lower 8. Press 5.
8. Press 5. 1-kHz signal is output from the PHONES jack (R).
1-kHz signal is output from the OUTPUT jack (R). 9. Click the Reset button on K-Meter and verify that the output levels of the
9. Click the Reset button on K-Meter and verify that the output levels of the PHONES jack are as follows.
OUTPUT jack are as follows. PHONES L: -65 dBm or lower
OUTPUT L: -55 dBm or lower PHONES R: -8.0 to -6.0 dBm
OUTPUT R: -9.0 to -7.0 dBm 10. Press 6.
10. Press 6. 10-kHz signal is output from the PHONES jack (L).
10-kHz signal is output from the OUTPUT jack (L). 11. Click the Reset button on K-Meter and verify that the output levels of the
11. Click the Reset button on K-Meter and verify that the output levels of the PHONES jack are as follows.
OUTPUT jack are as follows. PHONES L: -8.0 to -6.0 dBm
OUTPUT L: -9.0 to -7.0 dBm PHONES R: -65 dBm or lower
OUTPUT R: -55 dBm or lower 12. Press 7.
* If the audio cable that L and R are shielded together is used, output level may not 10-kHz signal is output from the PHONES jack (R).
be -55 dBm or lower. 13. Click the Reset button on K-Meter and verify that the output levels of the
12. Press 7. PHONES jack are as follows.
10-kHz signal is output from the OUTPUT jack (R). PHONES L: -65 dBm or lower
PHONES R: -8.0 to -6.0 dBm
13. Click the Reset button on K-Meter and verify that the output levels of the
OUTPUT jack are as follows. 14. Disconnect the audio cable.
OUTPUT L: -55 dBm or lower
OUTPUT R: -9.0 to -7.0 dBm
18-4. Speaker Test
* If the audio cable that L and R are shielded together is used, output level may not
be -55 dBm or lower. 1. Press 8.
A sweep sound from 400 Hz to 2 kHz is heard form the internal speaker.

2. Verify that no noise is heard with the sound and no abnormal sound is on
the unit.

3. Press MENU to advance to the next test item.

20
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

19. Factory Reset

This returns the settings to their factory defaults.

FACT appears on the 7-segment LED display and 1 flashes.

1. Press 1.
1–8 light up in sequence.
When 1–8 flash, the factory reset has finished.

2. Turn off the power.

20. Pop Noise Check

This checks the pop noise when the power is turned on or off.

1. Turn the VOLUME knob on the rear panel to the maximum and set the
TUNE knob to the center.

2. Set the other knobs to the minimum.

3. Set all slide switches to the lower end or left side.

4. Connect the amp-equipped monitor speaker to the OUTPUT jack.

5. Verify that no abnormal sound is heard from the speaker when the power
is turned on or off.
* Wait three seconds or more between on and off.

6. Detach the amp-equipped monitor speakers.

7. Connect the headphones to the PHONES jack.

8. Verify that no abnormal sound is heard from the headphones when the
power is turned on or off.
* Wait three seconds or more between on and off.

Initial Settings
Before returning the product to the customer, set the knobs and switches
as shown below.
fig.settings.eps

8’

TUNE

* Set the VOLUME knob on the rear panel to the minimum.

21
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Board (Main Board)

fig.b-main-1.eps

22
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.b-main-2.eps

23
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Main Board: 1/4)

fig.d-main-1.eps@L
D+3.3V
R13 47
TP58

R67 47
XAMUTE

EXB28V103JX
1 8 XMIDI-RST

8
7
6
5
RA25 2 7 XDAC-RST

RA23
CN2 UnPop D+3.3V

R61
100k
3 6 N33_ON
14FLT-SM2-TB (LF)(SN) EXB28V220JX 4 5 D5_ON

1
2
3
4
1 RA19 22 1 8 AOUT5_ON
2 TRCD3-1 PU C20 H19 PD-6N RXD5 PB8 2 7 RA24 5DCDC_ON
3 TRCD2-1 4 5 PU D20 K18 PD-6N TXD5 PB7 3 6 DCDC_AMP-EN
4 TRCD1-1 3 6 PU E19 K19 PD-6N RXD4 PB6 4 5 STANDBY-ON
5 TRCD0-1 1 2 7 PU F19 M18 PD-6L BUCK/TXD4 PB5
6 UnPop TRCCKO-1 1 8 PU G20 M19 PD-6L BUSXL PB4
7 R35 0 R49 22 L20 PD-6L BUDO-3 PB3
8 L21 PD-6L BUDO-2 PB2 D1(15:0)
9 M20 PD-6L BUDO-1 PB1
10 XTRST-1 RA21 22 B19 M21 PD-6L BUDO-0 PB0 A1(15:14,12:0)
11 TCK-1 1 8 C21 EXB28V680JX
4 5 53 DQ1(15) 1 8 D1(15)
12 TMS-1 2 7 B20 Y15 PU-6N MA1(15) 3 6 RA13 A1(15) 20 DQ15 51 2 7 RA9
13 3 6 A20 AA15 A1(14) DQ1(14) D1(14)
TDI-1 PU-6N MA1(14) 2 7 22 A1(14) A1(15) 21 BA0 DQ14 50 DQ1(13) 3 6 68 D1(13)
14 TDO-1 4 5 B21 W16 PU-6N 1 1 8 R86 36 BA1 DQ13 48 4 5
V17 MA1(12) 47 A1(12) A1(12) DQ1(12) D1(12)
PU-6N
A1(11) 35 NC DQ12 47 DQ1(11) 1 8 D1(11)
U18 PU-6N MA1(11) RA22 4 5 A1(11) 22 A11 DQ11 45 2 7 RA12
D+3.3V XRESET-RST D+1.2V AA14 PU-6N MA1(10)
A1(10) DQ1(10) D1(10)
DGND 3 6 A1(10) 34 A10/AP DQ10 44 3 6 68
0 R47 C18 AA19 PU-6N MA1(9)
A1(9) DQ1(9) D1(9)
2 7 A1(9) 33 A9 DQ9 42 4 5

D1(15:0)
R16 22 Y19 1 1 A1(8) DQ1(8) D1(8)
PU-6N MA1(8) 8 22 A1(8) A8 DQ8
A1(7) 32 13 DQ1(7) 1 8 D1(7)

0.1uF
AA18 MA1(7) 4 5 A1(7) A7 DQ7

1uF
C48

C37
PU-6N
D+3.3V A1(6) 31 11 DQ1(6) 2 7 RA7 D1(6)
0.1uF

4 1 V16 PU-6N MA1(6) 3 6 A1(6) 30 A6 DQ6 10 3 6 68

VDD OE B18 V14 MA1(5) 2 22 A1(5)
A1(5)
A5 DQ5
DQ1(5) D1(5)
PU-6N 7 A1(4) 29 8 DQ1(4) 4 5 D1(4)
W14 PU-6N MA1(4) 1 8 RA16 A1(4) 26 A4 DQ4 7 1 8
AA12 A1(3) DQ1(3) D1(3)
DGND PU-6N MA1(3) 4 5 A1(3) 25 A3 DQ3 5 2 7 RA11
R50 22 A1(2) DQ1(2) D1(2)
C33

2 3 48MHZ-1-CLK A19 Y13 MA1(2) 3 6 A1(2) A2 DQ2

R65
GND OUT
PU-6N
A1(1) 24 4 DQ1(1) 3 6 68 D1(1)

10k
AA13 PU-6N MA1(1) 2 7 22 A1(1) 23 A1 DQ1 2 4 5
Y14 MA1(0) 1 1 A1(0) DQ1(0) D1(0)
IC6 PU-6N 8 RA18 A1(0) A0 DQ0
DGND DSO321SR 48.000MHZ 50PPM D+3.3V
R31 B3 P19 MD1(15) 4 5 D1(15)
0
PU-6N
XSDRAM1-CS 19 27
C4 P18 PU-6N MD1(14) 3 6 D1(14) 18 _CS VDD 14
XSDRAM1_RAS-CLK
C3 100pF
C2 100pF
C195100pF
C291100pF
C292100pF
C293100pF

B6 T19 MD1(13) 2 7 22 D1(13) _RAS VDD

0.1uF
PU-6N
XSDRAM1_CAS-CLK 17 1
T18 MD1(12) 1 1 8 RA14 D1(12) _CAS VDD D+3.3V
C23

PU-6N
XSDRAM1_WE-CLK 16 49
0.1uF V20 MD1(11) 4 5 D1(11) _WE VDDQ
C22
PU-6N
SDRAM1_UDQM-CLK 39 43
V19 PU-6N MD1(10) 3 6 D1(10) 15 UDQM VDDQ 9
D5 U20 MD1(9) SDRAM1_LDQM-CLK
PU-6N 2 7 RA17 D1(9) SDRAM1-CLK R34 0 38 LDQM VDDQ 3
A6 U19 PU-6N MD1(8) 1 1 8 22 D1(8) 37 CLK VDDQ
C7 T21 MD1(7) D1(7) SDRAM1_CKE-CLK
DGND PU-6N 4 5 40 CKE

0.1uF
T20 MD1(6) D1(6) FS1 NC

10uF
3 6

C36
PU-6N

C54
R21 PU-6N MD1(5) 2 7 22 D1(5) 52 25V 25V 25V 25V 25V 25V 25V
A3 R20 PU-6N MD1(4) 1 1 8 RA15 D1(4) VSSQ 46
INPUT_JK-DET R304 22 B4 P21 MD1(3) 4 5 D1(3) VSSQ
R303 22
PU-6N
12

C29 0.1uF
C40 0.1uF
C28 0.1uF
C27 0.1uF
C31 0.1uF
C41 0.1uF
C30 0.1uF
HP_JK-DET C5 P20 PU-6N MD1(2) 3 6 D1(2) VSSQ 6
LINE_JK-DET R115 22 D6 N21 MD1(1) 2 7 22 D1(1) VSSQ
R255 22
PU-6N
54
OUT_VOL-AD A4 N20 PU-6N MD1(0) 1 1 8 RA20 D1(0) VSS 41
MODEL_SEL-AD R6 22 B5 VSS DGND
R30 22 R1 22 28
VBAT_AD C6 E18 PU-6L VBUS_OC /SCKo5 SCKi7 STM-BOOT VSS
A5 H18 PU-6L VBUSPWR /SCKo4
R2 22 XSTM-RST
SUB_SCL-CLK IC5
SUB_SDA-CLK M12L64164A-7TG2Y(60NM)

2.2k
D+3.3V C51 10pF DGND A13

2.2k
R3
R58 4.7k 3.3V
C50 10pF R22 0 F21 B13
R59 4.7k DGND
PU

R4
D+3.3V PU F20
R56 4.7k R36 0
R57 4.7k C14 DGND
D+3.3V SCL-CLK R21 0 PU TXD7 E21
SDA-CLK PU RXD7 E20 D13
C53 10pF R33 0
C13
C52 10pF B16
R46

DGND B14
0

6 SFI_CLK1-CLK R52 22 PU-8N H21 B12

8 SCLK 5 SFI_DO1-CLK R48 22 PU-6N K21 A16
VCC SI/SIO0 R51 22
1uF

2 SFI_DIN1-CLK PU-6N K20 A14

SO/SIO1 R54 22
C43

0.1uF

H20 A12
C32

PU-6N
1 XCS_SFI1-CLK XHOLD1_SFI R55 22 PU-6N J20
10V 4 _CS 3 B15
GND _WP 7
_HOLD
DGND IC2 SDRAM1-CLK R38 100 PU-8N V21 DGND
MX25L3206EM2I-12G D+3.3V XSDRAM1-CS R44 100 Y16 D14
R64

PU-6N
3.3k

XSDRAM1_WE-CLK R41 100 PU-6N AA17

3.6V SDRAM1_CKE-CLK R39 100 PU-6N Y20 A15
SDRAM1_UDQM-CLK R40 100 PU-6N W17
SDRAM1_LDQM-CLK R42 100 PU-6N Y18 D15 VBUS+5V JK1
XSDRAM1_CAS-CLK R43 100 PU-6N Y17 105017-0001 60
XSDRAM1_RAS-CLK R45 100 PU-6N AA16 50
PU-6N W18 40
FS2 C15 30

TP55
R62 1uF
100k C45
R60

10
20
D+3.3V

1
2
3
4
5
DGND 180k BLM21PG300SN1D
F3 C19 L2
F2 L1 DGND 1 2 DGND
C2 ACM2012-900-2P-T002
A8 USBF-D+ USBF_JK-D+
D+3.3V UnPop 3 2 USBF_JK-D-
22 B8 USBF-D-
R53 PD B1 4 1
D10
Y1 D+1.2V
C24 10pF

PD
D+3.3V
C25 10pF
UnPop
R66

A7
10k

UnPop

PD B2 0 0
D9 R19 R32
C9
D+3.3V B9
DGND
0.1uF

0.1uF

A2 B11
C35

C44
1uF

C26

C49
1uF

PD
C16 B7
D+3.3V XRESET-RST C12 A11 10V
25V 10V DGND
UnPop 25V
R68 10k
UnPop

D16 A9
IC4 D8
S-80930CNMC-G80T2G UnPop 0
22 C8 D+3.3V
2 1 XRESET-RST C10 R37 DGND
C55 0.1uF

VDD OUT
UnPop

DGND
R69
0.1uF

3 4
C39

C46
1uF

VSS NC
CD

TP2 SIGS1(2) AA2

TP3 SIGS1(1) AA20 B10 25V 10V
TP1 SIGS1(0) Y21 R17 12k D (0.5%)
5

DGND A10 D+1.2V

0 DGND
C34
0.1uF

UnPop

D11 0.1uF R18

C38 0.1uF

UnPop
DCDC_PG33 A17 25V
C56

C47
1uF

R29 R63 25V 10V

0 1k C11
1000pF

DGND
C42

IC3 DGND
MB8AA4181(ESC2)

DGND

DAC_LRCK_FS
DAC_BCLK_64FS
DAC_MCLK
D+3.3V D+3.3V D+3.3V D+3.3V D+3.3V D+3.3V D+3.3V D+3.3V D+3.3V
C270

C262

C263

C264

C265

C266

C267

C268

C269
0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

DGND DGND DGND DGND DGND DGND DGND DGND DGND

D+3.3V
C276 0.1uF

C277
10uF 16V
1
1 2
2 3
3 4
4 5
5 6
6 7
7 8
8 9
9 10
10
CN9
10FLT-SM2-TB (LF)(SN)

50V DGND

24
 Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-main-1.eps@R

D+1.2V

C60 0.1uF W15 AA5

10
W6 AA3

10uF
C70
C58 0.1uF V15 Y3
LEAF1 16V V6 W21
OGSC-756030 C68 0.1uF M4 W20
20 M3 W19
DGND C69 0.1uF L19 W13
L18 W8
LEAF1 C61 0.1uF D19 W4
DGND OGSC-756030 D18 V18
C66 0.1uF D4 V13
V8
D+3.3V V4
DGND U21
P4
Y10 P3
C67 0.1uF W10 P1
V10 N19

10uF
C71
C57 0.1uF T4 N18
16V T3 K4
C63 0.1uF R19 K3
R18 J21
DGND C62 0.1uF G19 J19
G18 J18
C65 0.1uF G4 G21
G3 F18
C59 0.1uF D17 F4
D7 F1
C64 0.1uF E4
D21
D12
D1
DGND C17
AA21 C3
AA1 B17
A21 A18
A1

P14 H8
P13 H9
P12 H10
P11 H11
P10 H12
P9 H13
P8 H14
N9 J8
N8 J9
N14 J10
N13 J11
N12 J12
N11 J13
N10 J14
M14 K8
M13 K9
M12 K10
M11 K11
M10 K12
M9 K13
M8 K14
L14 L8
L13 L9
L12 L10
L11

IC7 IC7 IC3

SN74AHCU04PWR
SN74AHCU04PWR UnPop MB8AA4181(ESC2)
1 2 3 4 R96 22 DSP-CLK DGND DGND
11 10 9 8 R99 22 CKUDLE-CLK

IC7 IC7
R5
0

SN74AHCU04PWR UnPop
R95 SN74AHCU04PWR
R98
1M 1M
R94

UnPop

5 6
R97
1k

C79 1k

1 3 DGND UnPop
10pF 50V

C76

IC7 1 3
UnPop
C80 10pF 50V

DGND SN74AHCU04PWR 13 12
50V UnPop

X1 X2
2
4

2
4
10pF
50V

D+3.3V IC7
10pF
C77

DGND SN74AHCU04PWR
DSX321G 16.9344MHZ
DGND
DGND DSX321G 18.432MHZ
0.1uF

VCC
14

IC7
SN74AHCU04PWR
C78

GND
7

DGND
RA26 EXB28V103JX
4
3
2
1

DGND
5
6
7
8

D+1.2V
BUDO-3
D3 Y4 xx-6L 1 8 UnPop EA13
Y5 xx-6L BUDO-2 2 7 RA30 EA12
0.1uF

W5 BUDO-1 3 6 47 EA11
C74
1uF

C72

xx-6L
V5 PU-6L BUDO-0 4 5 EA14
10V 25V D2 W3 BUCK 1 8 UnPop EA10
PU-6L
U4 PU-6L BUSXL 2 7 RA27 EA9
DGND V3 3 6
PU-6L 47 EA8 53 1 8 UnPop
DSP-CLK C1 U2 4 5 EA7 DQ15 ED15
U1
PU-6L
1 8 EA13 20 51 2 7 RA5 ED14
D+1.2V PU-6L SDC-CMD UnPop EA6 EA14 21 BA0 DQ14 50 3 6 47 ED13
U3 xSDCWRP 2 7 RA28 EA5 BA1 DQ13
E2 T1
PU-6L
3 6 EA12 36 48 4 5 ED12
PU-6L SDCDET 47 EA4 EA11 35 NC DQ12 47 1 8 UnPop
V1 4 5 EA3 ED11
PU-6L SDCDo3
EA10 22 A11 DQ11 45 2 7 RA6 ED10
0.1uF

V2 SDCDo2 1 8 UnPop EA2 A10/AP DQ10

C75
1uF

C73

W1
PU-6L
2 7 EA9 34 44 3 6 47 ED9
PU-6L SDCDo1 RA29 EA1 33 A9 DQ9 42 4 5
10V 25V E3 W2 3 6 47
EA8 ED8
PU-6L SDCDo0 EA0 EA7 32 A8 DQ8 13 1 8 UnPop ED7
4 5 A7 DQ7
DGND EA6 31 11 2 7 RA8 ED6
CKUDLE-CLK EA5 30 A6 DQ6 10 3 6 47 ED5
R89 0 E1 A5 DQ5
V12 1 8 EA4 29 8 4 5 ED4
PU-6L RXD7/ADMPX2 UnPop ED13 EA3 26 A4 DQ4 7 1 8 UnPop ED3
DGND W12 2 7 RA1 ED12 A3 DQ3
R80 47
PU-6L TXD7/ADMPX1
EA2 25 5 2 7 RA10 ED2
MIDI-IN-SIG RXD3 H4 V11 3 6 47 ED15 A2 DQ2
R79 47
SDo11
ADMPX2
PU-6L
H3 W11
PU-6L RXD6/ADMPX0
4 5 EA1 24 4 3 6 47 ED1
MIDI-OUT-SIG TXD3 TXD0/3 PU-6L PU-6L TXD6 ED14 23 A1 DQ1 2 4 5
AK_CSN-CS R78 47 ADMPX1
J4 V9 1 8 EA0 ED0
PK9 RXD2/ENC1B PU-6L PU-6L RXD5 TXD5 Scko5 UnPop ED9 A0 DQ0
AK_CCLK-CLK PK8 R77 47 ADMPX0
TXD1/2/ENC1A PU-6L J3 W9 PU-6L TXD5 2 7 RA2 ED8
AK_CDTI-DAT PK7 R84 47 G2 V7 RXD4 TXD4 3 6 47 ED11
R83 47
SCKio3 PU-6L PU-6L
19 27
TOSUB_USART_CLK-CLK SCKio2 G1 W7 TXD4 4 5 ED10 _CS VDD
R10 47
SCKio2 PU-6L
H2 AA8
PU-6L
1 8 18 14
SW-MAIN TXD3 PU-6L PU-6L RXD3 TXD3 UnPop ED4 17 _RAS VDD 1
TOSUB_USART-CLK TXD2 R70 47 H1 Y8 TXD3 2 7 RA3 ED5 _CAS VDD D+3.3V
R92 47
TXD2 PU-6L
J2 AA9
PU-6L
16 49
FROM_SUB_USART-CLK RXD2 RXD2 PU-6L PU-6L RXD2 TXD2 3 6 47 ED6 39 _WE VDDQ 43
WM_CSN-CS PK2 R91 47 J1 Y9 TXD2 4 5 ED7 UDQM VDDQ
R90 47
SDo2 PU-6L
K2 AA10
PU-6L
1 8 UnPop 15 9
AD_SD-CLK SD1 SDo1 PU-6L PU-6L SCKo5 TXD1 UnPop ED0 R28 38 LDQM VDDQ 3
DAC_SD-CLK SD0 R85 47 K1 Y11 SCKo4 TXD1 2 7 RA4 ED1 CLK VDDQ
SDo0 PU-6L
AA11
PU-6L
3 6 37
PU-6L SCKo3/RXD0 47 ED2 40 CKE
0.1uF

Y12 4 5 ED3 NC
10uF

SCKo2/TXD0
C18

PU-6L
R87 47
UnPop C21

SP_AMP-ON PF15 L3
R9 47
SCKo1 PU-6L
L2 52 25V 25V 25V 25V 25V 25V 25V
TXD1 PU-6L
DGND VSSQ 46
-CLK LRCKo0 R72 47 L1 VSSQ
R7 0
PU-6L
R20 47 UnPop 12
UnPop C15 0.1uF
UnPop C19 0.1uF
UnPop C14 0.1uF
UnPop C13 0.1uF
UnPop C17 0.1uF
UnPop C20 0.1uF
UnPop C16 0.1uF

-CLK PF12 L4 AA6 SCKo4/i0-7 ECS VSSQ

UnPop

R8 47
SCKo0/2/RXD1 PU-6L
M2 Y6
PU-6L
R23 47 UnPop 6
-CLK SCKo1/3/RXD0 PU-6L PU-6L SCKo3/i3 ERAS-CLK VSSQ 54
BCKo0 R71 47 M1 AA7 SCKo2/i2 R24 47 UnPop ECAS-CLK VSS
R11 0
BCKo0 PU-6L
N3 Y7
PU-6L
R25 47 UnPop 41
(TMOC9) SCKo0 PU-6L PU-6L SCKo1/i1/EXTIRQ2 EWE-CLK VSS 28 DGND
(TMOC8) R12 47 TXD0 PU-6L N2 Y2 PU-6L SCKo0/i0/EXTIRQ1 R26 47 UnPop ECKE-CLK VSS
MCK0 R75 47 MCK0 ADMPX2 PU-6L N1 AA4 PU-8N
R27 47 UnPop ECK-CLK
XVBUS-OFF PF6 R73 47 SYNC ADMPX1 PU-6L N4 IC1
XVBAT-OFF PF5 R102 47 ADMPX0 PU-6L R4 M12L64164A-7TG2Y(60NM)
PU-6L R3
ADMPX1

FS3 UnPop
XPOWER_KEY-OFF PF3 R101 47 LRCKi6 ADMPX2 PU-6L T2 3.3V
PF2 R100 47 BCKi6 PU-6L P2
KSCPU_UPD PF1 R81 47 PD-6L R2
KSCPU-RST PF0 R76 47 PD-6L R1

IC3 MB8AA4181(ESC2)

ESC2_TXD1-CLK
ESC2_RXD1-CLK
ESC2_SCKO1-CLK
ESC2_PF9_TIM9
ESC2_PF8_TIM8
ESC2_PF2

25
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Main Board: 2/4)

fig.d-main-2.eps@L
D+5V
16V
10uF
16V 10uF C114
C117 0.1uF
D+5V C116 0.1uF

R118

1608
D+5V

0
C115 0.1uF
C113 0.1uF C118 0.1uF

2.2k
DGND

2.2k
10k

61
33
18
1

41
DGND

R119
UnPop

10k

UnPop
28 DSX321G 16.000MHZ 30PPM

X3
VCC
VCC
VCC
VCC
AVCC
PE0/MD1 29 C121 10pF

R116
R104

R105
5SCL-CLK R121 0 58 MD0
DGND

3
5SDA-CLK R122 0 59 P62/SCK5_0/ADTG_3 31
C120 10pF 60 P61/SOT5_0/TIOB2_2 PE3/X1 R126 0
P60/SIN5_0/TIOA2_2/INT15_1 4
C119 10pF 52 2
DGND DGND
50 P03/TMS/SWDIO 30 C122 10pF DGND

1
R123 0 P01/TCK/SWCLK PE2/X0
R120 UnPop UnPop
D+5V 63 100 D+5V
P81 62 R128
P80 10k

10k

10k
4 R127 100
P52/INT02_0/ZIN0_2/SCK3_1 3

R125

R124

3
P51/INT01_0/BIN0_2/SOT3_1 2 C123 1000pF
P50/INT00_0/AIN0_2/SIN3_1 1 KSCPU_UPD
Q6
27 D+5V DGND
P4E/TIOB5_0/INT06_2/SIN7_1/ZIN1_2 26 DTC114EUAT106(PB FREE)

2
P4D/TIOB4_0/SOT7_1/BIN1_2 25 1 8
P4C/TIOB3_0/SCK7_1/AIN1_2 KSC6
24 RA31 2 7 KPR6 DGND
P4B/TIOB2_0/ZIN0_1 23 3 6
P4A/TIOB1_0/BIN0_1 22 KSC5
22 4 5 KPR5
P49/TIOB0_0/AIN0_1 20 R129 22 KSC4
P47/X1A 19 R130 22 KPR4
P46/X0A
15
P3F/RTO05_0/TIOA5_1 14
P3E/RTO04_0/TIOA4_1 13
P3D/RTO03_0/TIOA3_1 12 1 8 KT7
P3C/RTO02_0/TIOA2_1 11 2 7
P3B/RTO01_0/TIOA1_1 RA32 KT6
10 22 3 6 KT5
P3A/RTO00_0/TIOA0_1 9 4 5 KT4
P39/DTTI0X_0/ADTG_2 8 1 8 KT3
P33/INT04_0/TIOB3_1/SIN6_1/ADTG_6 7 RA33 2 7 KT2
P32/ZIN0_0/TIOB2_1/SOT6_1/INT05_2 6 3 6
22 KT1
P31/BIN0_0/TIOB1_1/SCK6_1/INT04_2 5 4 5 KT0
D+5V P30/AIN0_0/TIOB0_1/INT03_2
D+3.3V
46 R133 0 UnPop
P23/SCK0_0/TIOA7_1 47 R132 0 UnPop
R146 100k

D+5V P22/SOT0_0/TIOB7_1 48 R131 0

D+3.3V C94 0.1uF P21/SIN0_0/INT06_1 DGND
100k
R145

42 45 R136 22 KPR0
AVRH P19/AN09/SCK2_2 R135 22
0.1uF 25V

25V 44 KSC7
C93 0.1uF P18/AN08/SOT2_2 40 R134 22 KPR7
0.01uF

DGND P17/AN07/SIN2_2/INT04_1
C131

C130

50V

25V 39
P15/AN05/IC03_2 38
2

P14/AN04/INT03_1/IC02_2 37
DGND P13/AN03/SCK1_1/IC01_2
R147

R148

36
2.2k

2.2k

P12/AN02/SOT1_1/IC00_2
VREF1

VREF2

0 0 35
DGND P11/AN01/SIN1_1/INT02_1/FRCK0_2 34
SDA-CLK R144 4 5 R142 5SDA-CLK P10/AN00
3 SDA1 SDA2 6
SCL-CLK SCL1
5SCL-CLK 57 1 8
SCL2 P0F/NMIX/CROUT_1 KSC3
R143 R141 56 RA34 2 7 KPR3
C91 10pF

P0C/SCK4_0/TIOA6_1
C92 10pF

0 0 55 22 3 6 KSC2
UnPop

8 P0B/SOT4_0/TIOB6_1 54 4 5
GND

EN KPR2
UnPop

P0A/SIN4_0/INT00_2 53 R138 22 KSC1

IC10 P04/TDO/SWO 51 R139 22
PCA9306DCUR P02/TDI KPR1
49 R137 22 KSC0
1

P00/TRSTX
DGND C129 4.7uF 17 21
AVSS
VSS
VSS
VSS

DGND C INITX
25V IC8
DGND
64
32
16
43

MB9AF111LAPMC1-G-106JNE2

D+5V
DGND R117
D+3.3V 10k

R140
1000pF
2.2k
R314

C128

100
3

KSCPU-RST 1
Q5
DTC114TUAT106 DGND
2

DGND

D+3.3V To PANEL
C197 25V LED+4_+7V
TP13
TP61
TP63

0.1uF
C247 10uF 16V
TP4
TP5
TP6
TP7
TP8

DGND
C246 0.1uF
1 21
2 1 21 22
3 2 22 23
3 23 LED_DGND
STM-BOOT L49 4 24
5 4 24 25
SW-MAIN L50 5 25 D+3.3V
XSTM-RST L51 6 26
TP14

7 6 26 27
7 27 C249 0.1uF
SUB_SDA-CLK L52 8 28
9 8 28 29
SUB_SCL-CLK L53 9 29 C250
10 30
11 10 30 31 VREF+3.3V 10uF 16V
TOSUB_USART-CLK L54 11 31
TP15

FROM_SUB_USART-CLK L55 12 32
13 12 32 33 DGND
TOSUB_USART_CLK-CLK L56 13 33
14 34
15 14 34 35
MODEL_SEL-AD L57 15 35 C248 0.1uF VREF+3.3V
16 36
17 16 36 37
17 37 C12
18 38 DGND 0.1uF
19 18 38 39
20 19 39 40 TP64
20 40
TP10
TP11
TP12

TP62
TP9

CN8
WR-40SB-VFH30-N1 AD_GND
DGND AD_GND
C1 1000pF

UnPop C4 1000pF
UnPop C5 1000pF
UnPop C6 1000pF
C7 1000pF
C8 1000pF
C9 1000pF
C10 1000pF
C11 1000pF

DGND
LED+4_+7V

C251 0.1uF

DGND LED_DGND C196

0.1uF
25V LED_DGND
C252 0.1uF
DGND LED_DGND

C253 0.1uF

DGND LED_DGND

26
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-main-2.eps@R

1SS362FV

1SS362FV

1SS362FV
D+5V

D25

D26

D27
1 4
2 3
2

2
TER1
3 3 3 M1699
DGND DGND
1 4
2 3
1

1
TER2
DGND DGND M1699 DGND

200V

HIF3FC-16PA-2.54DS(71)
CN4
KSC3 L12 16 TP16
KPR3 L13 15 16 TP17
KSC4 L14 14 15 TP18
KPR4 L15 13 14 TP19
KSC5 L16 12 13 TP20
KPR5 L17 11 12 TP21
KSC6 L18 10 11 TP22
KPR6 L19 9 10 TP23
D+5V 8 9 TP24
BLM15BD102SN1D 7 8 TP25
6 7 TP26
5 6 TP27
1SS362FV

1SS362FV

1SS362FV

1SS362FV

1SS362FV

4 5
2

TP28
3 3 3 3 3 3 4 TP29
2 3 TP30
1 2 TP31
D22

D23

D24

D28

D29

1
100pF C100
100pF C101
100pF C103
100pF C95
100pF C96
100pF C97
100pF C98
100pF C99
1

DGND
D+5V
DGND
1SS362FV

1SS362FV

1SS362FV

1SS362FV

1SS362FV

1SS362FV

1SS362FV

1SS362FV
2

3 3 3 3 3 3 3 3
D37

D35

D36

D30

D31

D32

D33

D34
1

DGND
KT7 L20
KT6 L21
KT5 L22
KT4 L23
KT3 L24
KT2 L25
KT1 L26
KT0 L27

D+5V

KSC7 R74 10k

KPR7 R82 10k
100pF C102
100pF C104
100pF C106
100pF C108
100pF C110
100pF C112
100pF C125
100pF C127

KSC6 R88 10k

KPR6 R93 10k
DGND KSC5 4 5
KPR5 3 6
KSC4 10k 2 7
KPR4 RA36 1 8
KSC3 R259 10k
KPR3 R280 10k
KSC2 R281 10k
KPR2 R282 10k
KSC1 1 8
KPR1 2 7
KSC0 3 6
KPR0 4 5
RA38
10k

D+5V
C90
D+3.3V 100uF 6.3V
TP43
TP44

C82 10uF16V
C81
R113

0.1uF L8 10
560

9
VCC

BLM18BD601SN1D
6

R109 120 1
2DJ-00600003

1 4
MIDI-IN-SIG R110 470 5
MIDI IN
R108 100 2
3
1000pF

5
L9 3
JK2

IC9 BLM18BD601SN1D
GND

2
2

C84
4

QCPL-M614-500E C83 EZJZ0V800AA

C88

3 EZJZ0V800AA
1SS361FV

1
1
D1

DGND DGND
2

DGND
1SS355 TE-17(PB FREE)

D+5V
DTA114EMT2L

TP40
TP41
TP42
Q4

DTC114EUAT106(PB FREE)
A D3 K
2

10
UnPop

1 L3 BLM18BD601SN1D
Q3 9
3

L5 BLM18BD601SN1D 1
1

2DJ-00600003

XMIDI-RST 1 R111 220 DGND 4

3

R112 220
R316 0 2
5 MIDI OUT
2

10uF

3
C89

C85

JK3

6.3V
1000pF

1000pF

DGND
D+5V
1000pF

DGND
3

D+5V
C86

C87

1 2
DTC114EUAT106(PB FREE) D2
R114

1SS362FV
10k

Q2 DGND
3

DTC114EUAT106(PB FREE)
DGND
1
Q1
3

MIDI-OUT-SIG 1
2

DGND
2

DGND

27
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Main Board: 3/4)

fig.d-main-3.eps@L
D+3.3V

2
VR2
RV09AF-21-15K-B50K

OUT_VOL-AD 3 VR2
VR2 RV09AF-21-15K-B50K

0.1uF
RV09AF-21-15K-B50K

1
C237
DGND

10

20
DGND

DGND DGND

A+5V
10uF 10V
C148 NOJA106M010R R168 4.7k
4.7k
2 1 R165 C152 470pF
C149 0.1uF R169 50V VE-100M1CTR-0305
180 2 16V 10uF C157

3300pF
1

C151
50V
3 IC14 R199 R200
AGND

14
NJM8080G(TE2) 4.7k 4.7k

R177

3
10k
R166 4.7k
R212 22 R170 R193 1
AK_CSN-CS 6 16

VDD

UnPop
C161 100pF
R213 22 7 CSN DZFL 15 180 2.2k Q12
AK_CCLK-CLK

470pF
CCLK DZFR

R167

C153
R215 22

50V
AK_CDTI-DAT 8

4.7k
AGND

2
CDTI 12 2SC4213-A(TE85L.F)
DAC_LRCK_FS-CLK R216 22 4 AOUTL+
DAC_BCLK_64FS-CLK R217 22 2 LRCK 11
DAC_SD-CLK R218 22 3 BICK AOUTL- AGND AGND
SDTI 10
R164 100 AOUTR+
XDAC-RST 5 R174 4.7k
1 PDN 9
C147
R171 4.7k

VSS
1000pF MCLK AOUTR- C155 470pF
IC13 R175 50V VE-100M1CTR-0305
AK4385ET 180 6

13
DGND C158

3300pF
7

C154
R219 22

50V
DAC_MCLK-CLK C150 0.1uF 5 16V
IC14 10uF R196 R198

R178
NJM8080G(TE2) 4.7k 4.7k

3
10k
R172 4.7k
R194 1
DGND AGND R176

UnPop
C163 100pF
180 2.2k Q13

R284

R283

470pF
R173

C156
50V
4.7k
AGND

2
2SC4213-A(TE85L.F)
AOUT+5V

0
AGND AGND
R257 0

C160 0.1uF R258 0

V+
8

IC14
NJM8080G(TE2)

AGND
V-
4

C162 0.1uF

A-5.5V

C257 0.1uF C254 0.1uF C240 0.1uF C242 0.1uF C244 0.1uF

PH_AGND AGND PH_AGND AGND PH_AGND AGND R160 R161

DGND AGND DGND AGND 5.1k 5.1k
C245 0.1uF

3
C258 0.1uF C255 0.1uF C241 0.1uF C243 0.1uF
R154 1

UnPop
C141 100pF
PH_AGND AGND 2.2k Q17
PH_AGND AGND PH_AGND AGND

2
DGND AGND DGND AGND
C259 0.1uF C256 0.1uF

2SC4213-A(TE85L.F)
DGND AGND DGND AGND

V_SRC+4_+7V
RB021VAM90TR

R157 R159
5.1k 5.1k
D8

3
V_SRC+4_+7V R155 1

UnPop
C142 100pF
V_SRC+4_+7V C326 47uF 16V 2.2k Q18

2
C170 47uF 16V
R184
10k
R183
10k

Q16 2SC4213-A(TE85L.F)
R211 AGND
2SA1037AKT146(PB FREE)
3

2.2k
1
AMUTE
3

Q11
1
2SC2412K T146 R(PB FREE)

XAMUTE
C181
2

R214

0.1uF
47k

Q10
2

DTC114EUAT106(PB FREE) AGND

AGND AGND
A-5.5V

R153 3.3k

R256 3.3k

1800pF50V

1800pF
C239
C238

AGND AGND

D+3.3V

AIN+3.3V D+3.3V AIN+3.3V

R310 100 TMCP0J106MTRF
R305

C295
10k

16V10uF 1uF 10V MBIAS R309 100 10uF

C300 C301
6.3V INPUT_JK-DET TP46 SP_AMP-ON
2

1000pF

C297 0.1uF R306

C299 0.1uF AIN+3.3V AIN+3.3V AIN+3.3V AIN+3.3V 100
D18 D16 D19 D17
1

C294

C298 1SS362FV 1SS362FV 1SS362FV 1SS362FV

AGND
2.2k

R308 2.2k

0.1uF C296 2 1 2 1 2 1 2 1
15
14

4
3

AGND 0.1uF R297 10k DGND

R307

DGND AGND R298 10k

INPUT
AVDD
MVDD

DCVDD
DBVDD

AGND AGND AGND

TP32

TP33

AK_CCLK-CLK 2 21 R291UnPop10k AGND

32 SCLK LINPUT1 20 R295 10k 4
AK_CDTI-DAT
31 SDIN RINPUT1 22 R290 100 BLM18BD601SN1D 2
WM_CSN-CS CSB LINPUT2
D (0.5%)

DAC_MCLK-CLK 7 19 R292 100 UnPop 10

MCLK RINPUT2 C126 R301 L6
R289 23 3.3k 3
LINPUT3 18 10uF16V 5
D+3.3V
R299

22 RINPUT3
5.1k
10k

11 6
EZJZ1V330GA

EZJZ1V330GA
R294

1000pF

1000pF
10k

MODE
R296

UnPop R287

C107

C109

13 1
MICBIAS
JK5
R285
10k

26 LJE0393-7
R286

VMID AGND
0.1uF

C282
DAC_LRCK_FS-CLK 10 27 10uF
8 ADCLRC VREF
DAC_BCLK_64FS-CLK 6.3V BLM18BD601SN1D
2

2
0.1uF

BCLK
TMCP0J106MTRF

AD_SD-CLK 9 28
10uF 6.3V

ADCDAT VREFP
L7
C283

C285

D (0.5%)

R103 C278 R302

C284

22 29 3.3k C105
1

VREFN 10uF16V AGND DGND

TMCP0J106MTRF 0.1uF
R300
5.1k

25
1000pF

1000pF

LACIN AGND
UnPop R288

C111

C124

1 24
6 NC LACOUT 16 C281 2.2uF
NC RACIN 17 C280 2.2uF
10k

RACOUT AGND
AGND
AGND

DGND
PAD

IC24
WM8737CLGEFL/R C139
12
30

33

AGND DGND
5

0.1uF

C279
0.1uF

AGND DGND

28
 Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-main-3.eps@R

D+3.3V

TP45
R181
10k
LINE_JK-DET

1000pF
R182
100
AOUT+5V D6 C145
R197 10k 1SS362FV(TPL3)
2 1
C174 100pF

TP47

TP48
A-5.5V DGND
3

2 GRM32DR61E106KA12L 4
1 L31 BLM18BD601SN1D 2
3 10
C175
10uF
R209
680
R205
330 3 OUTPUT

EZJZ1V330GA
5
EZJZ1V330GA
3

IC15 25V
D (0.5%)

6
1000pF

1000pF

NJM8080G(TE2) R206 1
R203

C177

C179
50V

50V

1
10k

R201

2.2k Q14 JK4

R202

LJE0393-7
2

2SC4213-A(TE85L.F)
C138 DGND
R195 10k AOUT+5V D7 AGND 0.1uF
C173 100pF 1SS362FV(TPL3)
2 1
L32
6 GRM32DR61E106KA12L A-5.5V BLM18BD601SN1D
3

7
5 R210 R207
C176
IC15 10uF 680 330
3

NJM8080G(TE2) 25V
D (0.5%)

R208
1000pF

1000pF

1
R204

C178

C180
50V

50V
10k

2.2k Q15
2

2SC4213-A(TE85L.F)
AOUT+5V

C182 0.1uF D+3.3V

V+
8

TP49

IC15
NJM8080G(TE2)
R162
10k
V-
4

AGND HP_JK-DET
C183 0.1uF
1000pF

R163
100
A-5.5V AOUT+5V D4
C146

R158 10k 1SS362FV(TPL3)

2 1
C144 100pF
TP50

TP51

A-5.5V DGND
3

2 EEEFK1C221AP R187 10 R191 10 L29 4

1 BLM18BD601SN1D 2
3
C164
220uF
0.5W
0.5W
10
3 PHONES
5
3

IC12 16V R188

D (0.5%)

6
R179 EZJZ1V330GA

R180 EZJZ1V330GA
0.01uF

0.01uF

NJM4556AM(TE2) 1
R185

C166

C168

1
10k

2.2k Q8 JK6
LJE0393-7
2

2SC4213-A(TE85L.F)

R156 10k AOUT+5V D5

C143 100pF 1SS362FV(TPL3)
2 1
C159 DGND
L30 PH_AGND 0
6 EEEFK1C221AP 0.5W A-5.5V BLM18BD601SN1D
3

7
5 R189 R192
C165
220uF 10 10 0.5W
3

IC12 16V
D (0.5%)

R190
0.01uF

0.01uF

NJM4556AM(TE2) 1
R186

C167

C169
10k

2.2k Q9
AOUT+5V
2SC4213-A(TE85L.F)
2

10V10uF C302
NOJA106M010R
1 2
C171 0.1uF
VDD
8

IC12
NJM4556AM(TE2)
VEE

PH_AGND
4

C172 0.1uF
C303
2 1 10uF 10V NOJA106M010R
A-5.5V
VPA+3.7V
C135 10uF10V
2 1 NOJA106M010R
TP52
TP53

25V 150k C136 0.1uF

C133 0.1uF R152 4 6
IN- VDD
3 VP_DGND
IN+ 8 L28 1 2 BLM21PG300SN1D 2
C134 0.1uF R151 VO- 2 CN5 SM02B-SRSS-TB (LF)(SN)
25V 150k L33 1 50V
2 BLM21PG300SN1D
1 5 1 CN5 SPEAKER
50V

_SHUTDOWN VO+ 1
SM02B-SRSS-TB (LF)(SN)
C137 1000pF

C140 1000pF

50V
2 7
NC GND
PG

IC11
TPA2005D1DGNR
10

5V

VP_DGND VP_DGND

R150 100

VPA+3.7V VPA+3.7VVPA+3.7VVPA+3.7V VPA+3.7V

C1321000pF
2.2k
R149

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

DGND DGND
C271

C272

C273

C274

C275

VP_DGND VP_DGND VP_DGND VP_DGND VP_DGND

29
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Main Board: 4/4)

fig.d-main-4.eps@L

C189 1uF 10V

SSM3J332R
VBUS+5V

R234 100k
F1

Q24
ERBRG1R00V RB160M-40TR
1 2 1 2
1 2 2 3 D14

R249
100k
R236

1SS361FV
DGND

1k
RN1911FE

RB160M-40TR

D15
1
D13
3

6
R228

2
Q22
1.5k

5 2 XVBUS-OFF

2
Q22

R318 2.2k
100k

1
RN1911FE
R253

1
DGND DGND

C193 0.1uF
DGND

R254
TP54

47k
C190 1uF 10V

QS8J2TR
VBAT+7V

100k

Q25
F2

R235
ERBRG1R00V 8 DGND
1 1 2 1 2 1 7 6
1 3 1 2 L36 5 3

1uF 10V
3

2
CN6 BLM21PG300SN1D Q25

4
CONNECTOR S2(3)B-XH-A (LF)(SN) QS8J2TR
R231
1.5k

C191
250V DGND R250 1k

R243
D+3.3V

0.1uF
1 2

10k
D11

UnPop C192
1SS361FV R227 1k

1k
3

R248
SKI-22H07-G9-TS

10k
1
3

DGND

R251
6
4 5
100k

VSW+4V XPOWER_KEY-OFF
SW1

DGND

C290 0.1uF
R252
SKI-22H07-G9-TS
2

R312

SW1 100
DGND
D+3.3V SW1
UDZV TE-17 4.7B
2

SKI-22H07-G9-TS DGND
D12

IC22 30V
1

7
10k

RN1911FE
TC7WH74FU
10k

10
20

30
40
2 5
_PR

DGND D Q
R226

1
R315

CK
3

UnPop
3

Q26

Q26

R221 100 3 5 2 DGND

Q21

5 P-ON XVBAT-OFF
_CR

DCDC_PG33 _Q
R233
R317 2.2k

100
0.5%
4

5.5V
4

6
RN1911FE

R232 47k
VSW+4V DGND DGND
DGND C188 RN1911FE
6

1uF DGND DGND

1

10V
Q21

STANDBY-ON 2
3
8
1SS361FV
1

RN1911FE

VCC
D38
2

0.1uF

DGND
C194
GND

IC22
4

TC7WH74FU
DGND 5.5V

L41 4.7uH
LQM2HPN4R7MG0L
C213 1uF 10V

QS8J2TR

D+3.3V 1 2
100k

Q19

IC19
CUS02
R265

6 RP401N551C-TR-FE
D+5.5V
3 5 3 5 1 2
VIN LX A D9 K
C221 10uF16V

1 4
4

GND

CE VOUT
0.1uF 25V
R270
C214 0.1uF
0.1uF 25V

16V
R267 100k

C223

10uF

10uF

220k
16V
C222

C224
2
R266

C231
25V
UnPop
R272
1k

DGND
0

DGND DGND DGND

3

5DCDC_ON 5
Q20
R264
D5_ON
RN1911FE 0
4

C220 0.1uF
100k

Q19
DGND QS8J2TR
R268

8
0 1 7 2 1 1 2
IN OUT
R273 L43
16V 100uF

5
C230

UnPop
2

1uF
10V

1uF
10V

3 CFLY+ LQM2HPN4R7MG0L
A-5.5V
16V

CFLY- 4.7uH
R271

10uF
16V

GND
470k

C327 10uF
C226

C228

C229
10V

IC20
TPS60403DBVR AGND
1uF

4
C227
R269

DGND DGND DGND DGND

DGND
1k
6

N33_ON 2
Q20
1

DGND
RN1911FE

30
 Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-main-4.eps@R
IC25 AIN+3.3V
NJM2882F33-TE1
1 5
VIN VOUT
3 4

1uF
10V
GND
CTRL N-BP

C289 1uF
0.1uF
25V

25V

10V
0.1uF
C286

C287

C288
R293 0

2
2012
DGND
AGND
DGND
LQM2HPN4R7MG0L IC18 VREF+3.3V
L46 4.7uH NJM2882F33-TE1
1 2 1 5
VIN VOUT

0.1uF 25V
100uF
3 4
16V

C218 1uF
10V
GND
CTRL N-BP

C219 1uF
25V

10V
0.1uF
C216
C215

C217
R15 0

2
2012
DGND DGND
DGND AD_GND

D+1.2V
L34 L35 2.2uH
BLM21PG300SN1D LQM31PN2R2M00L R240 0
1 2 2 7 1 2 V_SRC+4_+7V
VIN SW
2012
0.1uF 25V

47k
10uF 25V

6
R241

0.1uF
VOS
C236

22uF 6.3V
R242

25V
0

D+3.3V D+1.2V
C235

V_SRC+4_+7V 3 5

UnPop
EN FB

C184

R239
R238
UnPop
0.1uF

100k

10k

10k
8

R237

C186
PG 47k

R245

R247
47k

10k
3 DGND DGND 0.5%
DCDC33-EN
47uF

C187
2
2

AGND
PGND

EPAD
VBAT_AD
47uF
C206

R244

3
16V

10V

DGND Q23
IC16 DCDC_PG12 2 5
C325

DGND Q23
1
1

TPS62170DSGR
10

R246
RN1911FE
4
1

RN1911FE

10k
DGND
NOJC476M010R

4
DGND
DGND

D+3.3V
LQH43PN2R2M26L
L37
2.2uH
11 3 1 2 R224
12 PVIN SW 2
L44 4A PVIN SW 1 2012
UnPop

BLM21PG300SN1D SW BLM21PG300SN1D
R223

10
AVIN 14 0.1uF

22uF
0

VOS
DCDC33-EN 13 4

6.3V
EN PG
UnPop
25V
UnPop
0.1uF

D+3.3V
C203

C198
5
0.1uF

FB
R222
C211 10uF

9 6 47k
SS/TR AGND
C209

0.01uF 50V
C212

8 17
R225

DEF ETPGND R220 3.3k

16
C207

PGND 0
DGND 7 15
FSW PGND
DCDC_PG33
IC17 TPS62132

DGND
D+5.5V

R279 UnPop
0 LED+4_+7V

L45 4.7uH
1 2
LQM2HPN4R7MG0L
100uF
C208

16V

R229 0 D+3.3V
2012
DGND LED_DGND
UnPop

VPA+3.7V
R275

L39 L40 2.2uH

For AMP
0

BLM21PG300SN1D LQM31PN2R2M00L 0
1 2 2 7 1 2 R276 1 2
VIN SW
2
0.1uF 25V

L38
10uF 25V

NOJC476M010R 47uF
UnPop

6
10V
R274

C199
0.1uF

VOS LQM2HPN4R7MG0L
C205

22uF 6.3V

47k
25V
0

3 5 R261 4.7uH
C204

EN FB
C200

R262
C202 0.1uF

10k

8
R260

C201

PG
12k

DGND DGND VP_DGND

UnPop

AGND
PGND

EPAD

DCDC_AMP-EN R14 0
DGND 2012
IC23
DGND TPS62170DSGR DGND
10

VP_DGND
4
1

DGND
NOJC476M010R

C210 1uF 10V

SSM3J134TU

A+5V AOUT+5V
100k
47uF 10V

IC21 D+5V
NJM2882F05-TE1
R277

Q28

1 5 1 2
VIN VOUT S D
2 3
2

L42
0.1uF 25V

3 4
C225
1uF
10V
GND

CTRL N-BP LQM2HPN4R7MG0L

C234 1uF

4.7uH
10V

1
C232

C233

G
2

R278

AGND

R263 UnPop
1k

DGND R230 0
2012
3

AOUT5_ON 1 DGND
DGND AGND Q29 PH_AGND
DTC114TUAT106
A+5V
2

C260 0.1uF
AGND
2

DGND AGND
1SS422

3
UnPop
D10

COM C261 0.1uF

AGND
1

DGND AGND
A-5.5V AOUT+5V
AGND
V_SRC+4_+7V V_SRC+4_+7V V_SRC+4_+7V V_SRC+4_+7V V_SRC+4_+7V
25V

D+5V V_SRC+4_+7V V_SRC+4_+7V V_SRC+4_+7V V_SRC+4_+7V V_SRC+4_+7V

C322

D+1.2V D+5V D+5V D+5V D+5V

R311

0.1uF

AOUT+5V
22

AGND
0.1uF C304

0.1uF C305

0.1uF C306

0.1uF C307

0.1uF C308

0.1uF C309

0.1uF C310

0.1uF C311

0.1uF C312

0.1uF C313

0.1uF C314

0.1uF C315

0.1uF C316

0.1uF C317

0.1uF C318

0.1uF C319

R313
25V
0.1uF

0.1uF

22

AOUT+5V
C320

C321

C323
25V

25V

25V

25V

25V

25V

25V

25V

25V

25V

25V

25V

25V

25V

25V

25V

25V

25V

0.1uF
C324 0.1uF

DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND
25V

AGND AGND A-5.5V A-5.5V

AGND

31
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Board (Panel, Sensor Board)

fig.b-panel-1.eps

32
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.b-panel-2.eps

33
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Panel Board: 1/6)

fig.d-panel-1.eps@L
D+3.3V

C18 10uF 16V

C15 0.1uF
C19 0.1uF
C16 0.1uF
VREF+3.3V C20 0.1uF C21 0.1uF
C17 0.1uF

DGND DGND

1
L1

50
75
100
28
11
C11 C12 C13
BLM18PG181SN1D 10uF 1uF 0.1uF
22 13

VBAT

VDD1
VDD2
VDD3
VDD4
VDD5
2
21 VDDA OSC_OUT
VREF+
R26

16V
47
20 12
19 VREF- OSC_IN
P_VR_D-AN R159 22 AD6 VSSA
P_VR_C-AN R160 22 AD7 DGND
P_VR_B-AN R149 22 AD8 23
P_VR_A-AN R150 22 AD9 24 ADC1_IN0/PA0-WKUP/WKUP/USART2_CTS/TIM_CH1_ETR 9 PC15
P_FSLP_LOC_AD0 1 8 AD10 25 ADC1_IN1/PA1/USART2_RTS/TIM2_CH1 P15-OSC32_OUT
P_FSLP_LOC_AD1 2 7 AD11 26 ADC1_IN2/PA2/USART2_TX/TIM2_CH3/TIM15_CH1
P_FSLP_PRESS_AD0 3 6 AD12 29 ADC1_IN3/PA3/USART2_RX/TIM2_CH4_TIM15_CH2
ADC1_IN4/PA4/SPI1_NSS/USART2_CK/DAC1_OUT PC14
P_FSLP_PRESS_AD1 4 5 AD13 30 8
AD6 31 P14-OSC32_IN
ADC1_IN5/PA5/SPI1_NSS/USART2_CK_DAC2_OUT
RA3 AD7 32 ADC1_IN6/PA6/SPI1_MISO/TIM3_CH1
22 AD8 35 ADC1_IN7/PA7/SPI1_MOSI/TIM3_CH2
AD9 36 ADC1_IN8_PB0/TIM2_CH3
AD10 15 ADC1_IN9/PB1/TIM3_CH4
AD11 16 ADC1_IN10/PC0 70
C4 C6 C8 AD12 17 ADC1_IN11/PC1 PA11/USART1_CTS/TIM1_CH4 71
100pF 100pF 100pF AD13 18 ADC1_IN12/PC2 PA12/USART1_RTS/TIM1_ETR
DGND ADC1_IN13/PC3
C5 C7 C9 33
100pF 100pF 100pF 34 ADC1_IN14/PC4
ADC1_IN15/PC5
63 90
R7 64 PC6 PB4/NJTRST 89
D+3.3V UnPop P_FSLP_R0_1_GPIO R16 22 65 PC7 PB3/JTDO 77
P_FSLP_R0_0_GPIO R17 22 66 PC8 PA15/JTDI 76
P_FSLP_VCC R18 22 78 PC9 PA14/JTCK/SWCLK 72
R8 79 PC10 PA13/JTMS-SWDIO
10k 80 PC11
R158 PC12
UnPop R9 7 93
10k PC13-TAMPER-RTC I2C1_SDA/PB7/TIM4_CH1N_TIM16_CH2 92
PE3 0 1 2 I2C1_SCL/PB6/TIM4_CH1/TIM16_CH1N
--------------- R4 UnPop 97 91
R5 UnPop 98 PE0/TIM4_ETR I2C1_SCL/PB5/TIM16_BKIN
RPG25 0 1 1 0 R6 10k PE1
1
RPG26 0 1 1 1 R157 10k 2 PE2/TRACECLK
RPG27 1 0 0 0 DGND
P_VR_SEL-A 1 8 3 PE3/TRACED0 73
P_VR_SEL-B RA6 2 7 4 PE4/TRACED1 NC
P_VR_SEL-C 22 3 6 5 PE5/TRACED2
4 5 38 PE6/TRACED3
P_BUDO_1-CLK 1 8 39 PE7
P_BUDO_0-CLK RA2 2 7 40 PE8
P_BUCK-CLK 3 6 41 PE9 96
22 PE10 PB9/TIM4_CH4/TIM17_CH1
DGND 4 5 42 95
P_BUSEL3 1 8 43 PE11 PB8/TIM4_VH3/TIM16_CH1/CEC
P_BUSEL2 2 7 44 PE12
RA7
P_BUSEL1 22 3 6 45 PE13
P_BUSEL0 4 5 46 PE14
PE15
GATE_JK-DET R1 22 81
CV_JK-DET R2 22 82 PD0
TRIG_JK-DET R3 22 83 PD1
MENU_SW R197 22 84 PD2
85 PD3
86 PD4
1 8 87 PD5
C131 C2 SW-DATA3 PD6
SW-DATA2 RA11 2 7 88 69
0.1uF 0.1uF 3 6 55 PD7 PA10/USART1_RX/TIM1_CH3/TIM17_BKIN 68
SW-DATA1 22
C1 C3 4 5 56 PD8 PA9/USART1_TX/TIM1_CH2/TIM17_BKIN 67
0.1uF 0.1uF SW-DATA0 PD9 PA8/USART_CK/MCO/TIM1_CH1
57
58 PD10 54
59 PD11 PB15/SPI2_MOSI/TIM1_CH3N/TIM15_CH1N 53
DGND 60 PD12 PB14/SPI2_MISO/TIM1_CH2N/USART3_RTS 52
R194 22 61 PD13 PB13/SPI2_SCK_TIM1_CH1N/USART3_CTS 51
SW-SCAN1 R195 22 PD14 I2C2_SMBA/PB12/SPI2_NSS/TIM1_BKIN/ISART3_CK
SW-SCAN0 62 48
PD15 I2C2_SDA/PB11/USART3_RX 47
I2C2_SCL/PB10/USART3_TX
8
7
6
5

RA4 R152 R153 R25 0 37

10k 94 BOOT1/PB2
10k 10k BOOT0
DGNDR24 0
1
2
3
4

14
VSS1
VSS2
VSS3
VSS4
VSS5

NRST
D+3.3V
D+3.3V IC1
99

DGND R28
49
74
27
10

R27 STM32F100VBT6B
UnPop UnPop
3.6V
STM-BOOT
DGND
XSTM-RST DGND
R13
100 C14
4700pF

DGND

34
 Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-panel-1.eps@R

X1
DSX321G 16.000MHZ 30PPM
C23 12pF

R29
3

100
4
2 DGND
1

C24 12pF

D+3.3V
UnPop
C26 0.1uF

1
2 1
DGND 3 2
4 3
ENC_B 5 4
ENC_A 6 5
7 6
JTCK 8 7
UnPop 9 8
RA10 JTMS 10 9
22 JTDI 11 10
1 8 SPI1_SCK JTDO 12 11
2 7 13 12
3 6 XSTM-RST 14 13
4 5 14
CN1
14FLT-SM2-TB (LF)(SN)
R161 22 DGND 50V
A-3.3V_ON
R21 22 12V_ON UnPop
R20 22 TRIG+12V_EN

R162 22 VREF_ON

R30 22 TOSUB_USART-CLK
R31 22 FROM_SUB_USART-CLK
R32 22 TOSUB_USART_CLK-CLK

D+3.3V

R38 R39
2.2k 2.2k
R36 22 SUB_SDA-CLK
R37 22 SUB_SCL-CLK

C22 C25
10pF 10pF
50V 50V

DGND

35
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Panel Board: 2/6)

fig.d-panel-2.eps@L

LFO VCO

RATE MOD RANGE(6P) PULS

VREF+3.3V VREF+3.3V VREF+3.3V

VR18 VR19 VR1

13

13

3
C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF XV09213YNPV20F0B10K-6PC-4783/I
P_VR7A-AN P_VR6A-AN P_VR5A-AN P_VR
12 12 2

11

11
C29 C31 C45

1
0.1uF 0.1uF 0.1uF

R19 47 DGND DGND

P_VR_A-AN 3 4 DGND
COM 7 2
VREF+3.3V 6 5
5 1
16 4 12
VCC 3 15
2 14
C27 1
0.1uF 13
8 0
GND 9 R41 0
C 10 R42 0
B 11 R43 0 VR1 VR1
L

L
7 A 6 XV09213YNPV20F0B10K-6PC-4783/I XV09213YNPV20F0B10K-6PC-4783/I
22

22
GND INH
DGND 21 23 21 23
IC2
TC74VHC4051AFK L L L L
VR18 VR19

10

20
5.5V C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF
P_VR_SEL-A
P_VR_SEL-B
P_VR_SEL-C DGND

MIXER
OctDoun NOISE FREQ RES
VREF+3.3V
12
11 13
15 14
R52 SW31
10k SSSF025100 VREF+3.3V VREF+3.3V VREF+3.3V

22 R11 VR24 VR25 VR26

13

13

13
21 23 10k C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF
25 24 P_VR6B-AN P_VR5B-AN P_VR4B-AN P_VR3B-AN
SW31 12 12 12
SSSF025100
11

11

11
C32 C33 C35 C37
C30 0.1uF 0.1uF 0.1uF 0.1uF
0.1uF

DGND DGND DGND DG

R40 47
P_VR_B-AN 3 4 DGND
COM 7 2
VREF+3.3V 6 5
5 1
16 4 12
VCC 3 15
C28 2 14
0.1uF 1 13
8 0
GND 9 R44 0
C 10 R45 0
B 11 R46 0
L

7 A 6 SW31 SW31
22

22

22

GND INH SSSF025100 SSSF025100

DGND 21 23 21 23 21 23 21
IC7
TC74VHC4051AFK L L L L L L L
VR24 VR25 VR26 VR27
5.5V C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF C208
10

20

P_VR_SEL-A
P_VR_SEL-B
P_VR_SEL-C
DGND

36
 Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-panel-2.eps@R

MIXER

SE WIDTH LFO/MAN/ENV | |__ | SUB OSC

VREF+3.3V
22
21 23
R51 25 24
10k SW11
VREF+3.3V SSSF025100 VREF+3.3V VREF+3.3V VREF+3.3V

VR20 12 R105 VR21 VR22 VR23

13

13

13

13
C2080G1BV1B103BC50BF 11 13 10k C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF
R4A-AN 15 14 P_VR2A-AN P_VR1A-AN P_VR0A-AN C2080G1BV1B103BC50BF
12 SW11 12 12 12
SSSF025100
11

11

11

11
C36 C41 C42 C44
0.1uF C38 0.1uFDGND 0.1uF 0.1uF
0.1uF

DGND DGND DGND DGND

DGND

SW11 SW11
L

L
SSSF025100 SSSF025100
22

22

22

22
21 23 21 23 21 23 21 23
L L L L L L L L
VR20 VR21 VR22 VR23
10

20

C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF

DGND

VCF

ENV MOD KYBD ENV/GATE

VREF+3.3V

VREF+3.3V VREF+3.3V VREF+3.3V R53

10k

VR27 VR28 VR29

13

13

13

C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF 1

P_VR2B-AN P_VR1B-AN 2 3
12 12 12 SW32
SSSF012100
11

11

11

C39 C40
0.1uF 0.1uF C43 DGND
0.1uF

GND DGND DGND

DGND

SW32 SW32
SSSF012100 SSSF012100
L

L
22

22

22

23 21 23 21 23
L L L L L
10

20

VR28 VR29
0G1BV1B103BC50BF C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF

DGND

37
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Panel Board: 3/6)

fig.d-panel-3.eps@L

ENV

TRIG/GATE/LFO A D S
VREF+3.3V
22
21 23
R116 25 24
10k SW1 VREF+3.3V VREF+3.3V VREF+3.3V
SSSF025100

12 R117 VR30 VR31 VR32

13

13

13
11 13 10k C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF C2080G1BV
P_VR7C-AN 15 14 P_VR6C-AN P_VR5C-AN P_VR4C-AN
12 12 12
SW1

11

11

11
SSSF025100 C53 C56

C54
0.1uF
C51 0.1uF 0.1uF
0.1uF

DGND DGND DGND

R58 47 DGND
P_VR_C-AN 3 4
COM 7 2
6 5
VREF+3.3V 5 1
16 4 12
VCC 3 15
C49 2 14
0.1uF 1 13
8 0

L
GND 9 R62 0
SW1 SW1

22

22

22
C 10 R63 0
B SSSF025100 SSSF025100 21 23 21 23 21 23
11 R64 0
7 A 6 L L L L L L
GND INH
DGND VR30 VR31 VR32
IC3 C2080G1BV1B103BC50BF C2080G1BV1B103BC50BF C2080G1BV1B103BC5
10

20
TC74VHC4051AFK

5.5V
P_VR_SEL-A DGND
P_VR_SEL-B
P_VR_SEL-C

LFO BANDER LFO

WAVEFORM(6P) VCO VCF MO

VREF+3.3V

VR2 VREF+3.3V VREF+3.3V VREF

3

XV09213YNPV20F0B10K-6PC-4783/I
P_VR7D-AN
2 VR34 VR35
13

13
V1020GOAV1B103CA0000 V1020GOAV1B103CA0000
C47
1

P_VR6D-AN P_VR5D-AN P_VR4D-AN

0.1uF
12 12 12
11

11
C52 C55 C57
0.1uF 0.1uF 0.1uF
DGND

R57 47 DGND DGND DGND

P_VR_D-AN 3 4
COM 7 2
VREF+3.3V 6 5
5 1
16 4 12
VCC 3 15
C48 2 14
0.1uF 1 13
8 0
GND 9 R59 0
C 10 R60 0 XV09213YNPV20F0B10K-6PC-4783/I
B 11 R61 0 VR2 VR2
23

23

7 A 6 XV09213YNPV20F0B10K-6PC-4783/I
GND INH VR34 VR35
DGND 22 V1020GOAV1B103CA0000 22 V1020GOAV1B103CA0000 22
IC4
21

21

TC74VHC4051AFK
10

20

5.5V VR34 VR35 V

V1020GOAV1B103CA0000 V1020GOAV1B103CA0000 V
P_VR_SEL-A
P_VR_SEL-B
P_VR_SEL-C DGND
VR34 VR34 VR34 VR35 VR35 VR35
10

20

30

40

10

20

30

40

10

DGND DGND DGND

38
 Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-panel-3.eps@R

R TUNE(CC)

VREF+3.3V VREF+3.3V

VR33 VR13
13

V1B103BC50BF C2080G1BV1B103BC50BF XV09223NPV20F1B10KCC/I

P_VR3C-AN P_VR2C-AN
12 2
11

C58 C60
1

0.1uF 0.1uF

DGND DGND

VR13
L

VR13 XV09223NPV20F1B10KCC/I
22

21 23 XV09223NPV20F1B10KCC/I
L L
VR33
50BF C2080G1BV1B103BC50BF
10

20

DGND

D PORTAMENTO TRANSPOSE PORTAMENTO

L/M/H AUTO/OFF/ON
SW34 SW35
SL10020F-0203-12PA-SN SL10020F-0203-12PA-SN
VREF+3.3V 23 VREF+3.3V 23
22 21 NO 22 21 NO
COM 24 NC COM 24 NC
+3.3V VREF+3.3V NO NO
R65 SW34 R163 SW35
VR36 VR17 10k SL10020F-0203-12PA-SN 10k SL10020F-0203-12PA-SN
3

V1020GOAV1B103CA0000 XV09223NPV20F1B10K/I 13 13
P_VR3D-AN P_VR2D-AN 12 11 P_VR1D-AN 12 11
2 14 R66 14 R164
C59 10k 10k
1

0.1uFDGND C50 C62

0.1uF 0.1uF

DGND

DGND DGND

VR17
VR17 XV09223NPV20F1B10K/I SW34 SW35
23

XV09223NPV20F1B10K/I SL10020F-0203-12PA-SN SL10020F-0203-12PA-SN

VR36
V1020GOAV1B103CA0000
21

10

20

10
20

30
40

10
20
30
40

VR36
V1020GOAV1B103CA0000
DGND DGND DGND

VR36 VR36 VR36

20

30

40

39
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Panel Board: 4/6)

fig.d-panel-4.eps@L
D1 D3
1SS360 1SS360
3 4 3 4 3 4
3 1 2 41 2 3
1 2 4 3 1 2 41 2
1 SW3 2 1 SW5 2 1 SW7 2
EVQP2202M EVQP2202M EVQP2202M

3
SW-SCAN1

D2 D4
1SS360 1SS360
3 4 3 4 3 4 3 4
3 1 2 41 2 3
1 2 4 3 1 2 41 2 3
1 2 4
1 SW4 2 1 2 1 2 1 2
SW6 SW8 SW9 3 4
EVQP2202M EVQP2202M EVQP2202M EVQP2202M 3 4

3
SW-SCAN0 1 2
1 2
SW2
EVQP2202M
DGND

[8] (to ESC

SW-DATA0
SW-DATA1
SW-DATA2 3 4
3 1 2 4
SW-DATA3 1 2
SW10
EVQP2202M
DGND
MENU
SW- LOAD SW- DOWN SW- UP SW- N.C.
SW- PLAY SW- U&D SW- HOLD SW- KEY TRANSPOSE

D+3.3V

C65 10uF 16V

P_LED+4_+7V
C64 0.1uF

16
PLED_DGND
C63 10uF 16V

VDD
C61 0.1uF 15 R77 470
Q11 14 R78 470
R67 22 2 Q10 13 R79 470
PLED_DGND P_BUDO_0-CLK DATA Q9 12 R80 470
R68 22 3 Q8 11 R69 470
P_BUSEL0 RN1911FE P_BUCK-CLK CLOCK Q7 10 R70 470
Q6
2

Q1 9 R71 470
1

Q5 8 R72 470
1 6 2 Q4 7 R73 470
Q3 Q3 6 R74 470
KRA225S Q2 5 R75 470
3

P_BUSEL0-7V Q1 4 R76 470

VSS

Q0
P_BUSEL1
IC5
5

Q1 Q8 BU2090FS-E2
1

4 3 KRA225S 2

RN1911FE
PLED_DGND
3

P_BUSEL1-7V
P_BUSEL2 RN1911FE

11

7
4

2
2

Q2
1

B
C
1 6 2
Q9
KRA225S
3

P_BUSEL2-7V
P_BUSEL3 Q10
KRA225S
5

Q2
1

4 3 2
DIG1-A

RN1911FE DIG2-A
3

P_BUSEL3-7V
12

P_BUSEL0-7V
PLED_DGND
P_BUSEL1-7V

P_BUSEL2-7V
P_BUSEL3-7V

40
 Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-panel-4.eps@R

D+3.3V

R192 R193 EN1

10k 10k EC12E2420802

1
2
3
ENC_A
SW-MAIN
ENC_B

DGND
C2) C128
1000pF
C129
1000pF
EN1
EN1 EC12E2420802
EC12E2420802
MENU_SW
DGND
10

20

DGND
1
10

3
D

E
F

G
DP

LED7 LED6 LED5 LED4 LED3 LED2 LED9 LED8 LED10 LED11
K

K
A

A
DIG3-A

DIG4-A

LED1
8

A-364SRD-B/W

KPTD-1608SURCK KPTD-1608SURCK KPTD-1608SURCK

KPTD-1608SURCK KPTD-1608SURCK KPTD-1608SURCK
KPTD-1608SURCK KPTD-1608SURCK KPTD-1608SURCK KPTD-1608SURCK

1 2 3 4 5 6 7 8 MENU LFO

41
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Panel Board: 5/6)

fig.d-panel-5.eps@L
D+3.3V D+3.3V
D5
1SS362FV
R83 2 1 D+3.3V
10k D+3.3V

3
DGND

0 R85 TRIG_JK-DET
CVGATE+12V IC12
R91 NJM2746RB1-TE1
D6 R198
TP38 10k 6 R181 0
1SS362FV
TRIGGER IN
TP1 TP39 UnPop 7
2 1 5
IC12 1608
NJM2746RB1-TE1

3
AGND

3
L2 2 R90 0
JK1 BLM18BD601SN1D 1 1 R180
R87 0 R88 47k
YKB21-5157V 2 3 1608 Q11 100k
3 1608 1608 47k DTC144EMT2L 1608
R86 1608

2
1 47k
EZJZ1V330GA
2

33V C67 R89

R84 100k AGND
0.1uF C66 EZJZ1V330GA 1000pF
1608
1

AGND
DGND AGND DGND AGND
AGND AGND
50V

5V -> 3.4V
12V -> 8.2V
15V -> 10.2V

D+3.3V
IC11
NJM2865F3-15 (TE1)(Pb Free)
5 4 VREF+1.5V
VIN VOUT
UnPop
CVGATE+12V R185 1 3

GND
CTRL NC
C119 C118
CVGATE+12V R187 4.7uF
0.1uF 1.5k 25V

2
C132
0.1uF AGND AGND AGND AGND VR
8

IC12 IC6 R186

NJM2746RB1-TE1 NJM4580R(TE2) 0
C121
0.1uF
VREF_ON
AGND C120
4

0.1uF 0.5% 0.5% 0.5% R184

R94 10k R95 10k R82 10k

C70 100pF
AGND A-3.3V
AGND
IC6
NJM4580R(TE2) R81 U
2
1
PWM_CV-CLK 3 R166
R92 R93 10k
10k 10k 0.
0.5%
C68
0.5%
C69 [A=3]
0.022uF 0.022uF
50V 50V

AGND AGND

PWM -> 0.5

UnPop L22 22uH

LED+4_+7V
LQH44PN220MP0L C110 C111
R34 1 2 0.1uF 4.7uF
Q15 L12 25V 25V
RZR020P01TL BLM21PG300SN1D RB160M-40TR
1 2 6 4 1 2 1
VIN SW A D11 K
2 3 R130 L23
5 1 0
R33 C82 C113 C84 C85 CTRL FB R129 LQM2HPN4R
R125 82k R127
1

100k 1uF 0.1uF 4.7uF 0.1uF 2 3 100k 4.7uH

25V 25V 25V COMP GND 0.5% 5.6k
R124 0.5%
10 10k
R121 PAD DGND DGND DGND
R35 10k 0.5%
1k DGND DGND IC8
TPS61170DRVR
DGND
3

C86 R200 Un
12V_ON 1 680pF R199 Un
TRIG+12V_EN 50V
Q14 R118
DTC114EUAT106(PB FREE)
2

1k DGND AGND DGND

DGND C83 0.1uF

AGND DGND

42
 Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-panel-5.eps@R
D+3.3V D+3.3V
D9
1SS362FV
2 1 R174
10k

3
D7 CVGATE+12V DGND
1SS362FV
2 1 CVGATE+12V R172 0
GATE_JK-DET
3

AGND
R167 Q13 TP41
TRIG_IN 4.7k DTA114EUAT106 (PB FREE) TP42 TP40
UnPop

2
1
Q12 L3
BLM18BD601SN1D JK3
3

DTC114EUAT106(PB FREE) 1608 R10 0

2 YKB21-5157V
3
R96 0
GATE OUT
GATE_CTRL 1 R179 R168 1608 3
10k 0 470 R170 1

2
10k C71 EZJZ1V330GA
2

C73
1000pF 1000pF R177 C116 0.1uF
EZJZ1V330GA

1
AGND AGND
R178 AGND AGND AGND DGND
UnPop DGND

AGND
C34 0.1uF

AGND DGND

C108 0
C109 0
D+3.3V D+3.3V

D10
AGND DGND 1SS362FV
REF = 1.5V 2 1 R176
10k
3

DGND

CV_JK-DET R173 0
0.5% 0.5% CVGATE+12V
10k R183 10k
D8
C117 100pF 1SS362FV TP44
2 1 TP45 TP43

IC6
3

NJM4580R(TE2) L9
A-3.3V BLM18BD601SN1D
UnPop 6 R12 0 1608 JK2
7 2 YKB21-5157V
5 R169
47
1608 2 1
R171
3
1 CV OUT
2

C72 C114
EZJZ1V330GA
5% 100pF UnPop R175
R182 1608 1608 C115 0.1uF
10k EZJZ1V330GA
1

0.5%
AGND DGND
AGND AGND AGND DGND

AGND
C80 0.1uF C46 0.1uF

AGND DGND AGND DGND

8.5V CVOUT=-1.0 7.0V

R190 UnPop
D+3.3V
Q16 L24
RZR020P01TL BLM21PG300SN1D 2 1
IN OUT
2 3 R191
C112 CVGATE+12V C127 5 0
R165 C130 C124 3 CFLY+ C125 C126
4.7uF 1uF R189
1

100k 0.1uF 1uF CFLY- 1uF 10uF

GND

25V 10V 470k 25V 10V A-3.3V

2 C123 10V 16V
1uF IC13
R151 10V TPS60403DBVR
C122
4

7MG0L UnPop 4.7uF

H DGND
25V R188 DGND DGND
1k DGND

AGND AGND AGND

3

1
A-3.3V_ON Q17
nPop DTC114EUAT106(PB FREE)
nPop
2

DGND

43
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Panel Board: 6/6)

fig.d-panel-6.eps@L
R99 0 P_FSLP_VCC R

R122 470 P_FSLP_PRESS_AD0

P_DRIVE_1-1 P_DRIVE_1-2
P_DRIVE_2-1 P_DRIVE_2-2
P_SENSE-1 R108 0 R123 100k P_FSLP_LOC_AD0 P_SENSE-2

R115 C79
1M UnPop R13
R101 R103 47k
47k 5.1k 0.
0.5% 0.5%
DGND DGND
P_FSLP_R0_0_GPIO

MAIN (CN9,10pin) <-> PANEL(CN3,10pin)

P_LED+4_+7V
D+3.3V

From SENSOR BOARD

C74
0.1uF
C10 0.1uF STM-BOOT
SW-MAIN
1 C76 10uF XSTM-RST
2
TP2 3 16V
SUB_SDA-CLK
TP3 4 L5 P_BUDO_1-CLK 1 SUB_SCL-CLK
TP4 5 L6 P_BUCK-CLK DGND TP36
2
TP5 6 L7 P_BUSEL0 3 TOSUB_USART-CLK
TP6 7 L8 P_BUSEL1 GATE_CTRL L4 TP15 FROM_SUB_USART-CLK
4
TP7 8 5 TOSUB_USART_CLK-CLK
9 TP16 6
TP8 10 R109 0 P_DRIVE_1-1 MODEL_SEL
R110 0 7
TP9 11 P_DRIVE_2-1 8
TP10 12 R111 0 L11
P_SENSE-1 TRIG_IN L10 9 TP17
TP11 13 R112 0 P_DRIVE_1-2 PWM_CV-CLK TP18
R113 0 10
TP12 14 P_DRIVE_2-2 TP37
TP13 15 R114 0 P_SENSE-2 R97 R98 R104
16 56 56 56 10FLZ-SM2-TB (LF)(SN)
17 CN3
TP14 18
19
20 DGND
C77 C78 C81
CN2 10pF 10pF 10pF
20FLZ-SM2-TB (LF)(SN)

50V C75
0.1uF
D+3.3V DGND

PLED_DGND

44
 Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

fig.d-panel-6.eps@R
131 0 P_FSLP_VCC

R142 470 P_FSLP_PRESS_AD1

R138 0 R143 100k P_FSLP_LOC_AD1

R139 C87
1M UnPop
3 R135
5.1k
5% 0.5%
DGND DGND
P_FSLP_R0_1_GPIO

R128 0
R126 0

DGND AD_GND

LED+4_+7V P_LED+4_+7V
TP31
TP32
TP33

To MAIN
16V R146 1
C100 10uF
C105
TP19
TP20
TP21
TP22
TP23
TP24
TP25
TP26
TP27

C104
C99 0.1uF 220uF 220uF
1 21 16V 16V
2 1 21 22
3 2 22 23
L13 4 3 23 24
4 24 PLED_DGND
L14 5 25 PLED_DGND D+3.3V
L15 6 5 25 26
7 6 26 27 C103 0.1uF
L16 8 7 27 28
L17 9 8 28 29 C106
10 9 29 30 10uF16V
K L18 11 10 30 31 VREF+3.3V
K L19 12 11 31 32
13 12 32 33 TP34 DGND
L20 13
14 33 34
L21 15 14 34 35
16 15 35 36 C102 0.1uF
17 16 36 37
17 37 AD_GND
18 38
19 18 38 39
20 19 39 40 TP35
20 40
TP30
CN4
WR-40PB-VF-N1 AD_GND D+3.3V
C89 C91 C93 C95 C97 DGND
1000pF 1000pF 1000pF 1000pF 1000pF DGND
C90 C92 C94 C96
1000pF 1000pF 1000pF 1000pF D+3.3V
2
2

C107 TCTAS0J107M8R
100uF
TP28
TP29

D+3.3V
6.3V
R144
1
1

LED+4_+7V
C98 UnPop
0.1uF C101 DGND
MODEL_SEL
25V R145 UnPop
10k
PLED_DGND

DGND
DGND

45
Sep. 2017 SH-01A/SH-01A-RD/SH-01A-BU

Circuit Diagram (Sensor Board)

fig.d-sensor.eps
SB_LED+4_+7V

C306 10uF 16V

C303 0.1uF

SB_BUSEL0 RN1911FE SBLED_DGND

SB_BUSEL1

2
Q301

1
1 6 2 Q302 2 Q303
SB_D+3.3V KRA225S KRA225S
16V
10uF

5
Q301

3
C302
4 3
RN1911FE
C301 0.1uF
16

SBLED_DGND
SBLED_DGND UnPop UnPop
LED301 SMLE13WBC8W K A K A LED313 SMLE13WBC8W
VDD

R320 330
15
Q11 14
R301 22 2 Q10 13 LED302 SMLE13WBC8W K A K A LED314 SMLE13WBC8W
SB_BUDO_0-CLK R309 330
DATA Q9 12
SB_BUCK-CLK R302 22 3 Q8 11
CLOCK Q7 10 LED303 SMLE13WBC8W K A K A LED315 SMLE13WBC8W
Q6 R310 330
9
Q5 8
Q4 7 LED304 SMLE13WBC8W K A K A LED316 SMLE13WBC8W
Q3 R311 330
6
Q2 5
Q1 4 LED305 SMLE13WBC8W K A K A LED317 SMLE13WBC8W
R312 330
VSS

Q0
IC301
BU2090FS-E2 LED306 SMLE13WBC8W K A K A LED318 SMLE13WBC8W
R313 330
1

LED307 SMLE13WBC8W K A K A LED319 SMLE13WBC8W

SBLED_DGND R314 330

LED308 SMLE13WBC8W K A K A LED320 SMLE13WBC8W

R315 330

LED309 SMLE13WBC8W K A K A LED321 SMLE13WBC8W

R316 330

LED310 SMLE13WBC8W K A K A LED322 SMLE13WBC8W

R317 330

LED311 SMLE13WBC8W K A K A LED323 SMLE13WBC8W

R318 330

LED312 SMLE13WBC8W K A K A LED324 SMLE13WBC8W

R319 330

BEND/WHEEL
EZJZ1V330GA

EZJZ1V330GA
EZJZ1V330GA

To MAIN BOARD
SB_LED+4_+7V
1 SB_DRIVE_1-1
SB_DRIVE_2-1 20FLZ-SM2-TB (LF)(SN)
2
3 SB_SENSE-1 C305
0.1uF CN303 50V
4 20
CN301 19
R303

R305
R307

CONNECTOR 52030-0429 18 TP301

SBLED_DGND SB_BUDO_0-CLK 17 TP302
50V
SB_BUCK-CLK 16 TP303
SB_BUSEL0 15 TP304
SB_BUSEL1 14 TP305
SBLED_DGND 13
12
SB_DRIVE_1-1 11 TP306
EZJZ1V330GA

EZJZ1V330GA
EZJZ1V330GA

SB_DRIVE_2-1 10 TP307
SB_SENSE-1 9 TP308
SB_DRIVE_1-2 8 TP309
SB_DRIVE_2-2 7 TP310
SB_SENSE-2 6 TP311
SB_DRIVE_1-2 5 TP312
1 SB_DRIVE_2-2 4
2 SB_SENSE-2 3
3 SB_D+3.3V 2
4 1 TP313
CN302 C304
R304
R306

R308

CONNECTOR 52030-0429
50V SBLED_DGND
0.1uF

SBLED_DGND SBLED_DGND

46