Harman Kardon Avr - 460
Harman Kardon Avr - 460
AVR 460/230
7 x 65W 7.1 CHANNEL A/V RECEIVER
CONTENTS
ESD WARNING 2 EXPLODED VIEW AND PARTS 12
FRONT AND REAR PANELS 3 ELECTRICAL PARTS LIST 13
REMOTE CONTROLS 5 SEMICONDUCTOR PINOUTS 44
TROUBLESHOOTING GUIDE 8 PCB DRAWINGS 120
PROCESSOR RESET 8 BLOCK DIAGRAM 127
BASIC SPECIFICATIONS 9 WIRING DIAGRAM 128
PACKAGE LISTS AND PARTS 10 AMP BIAS ADJUSTMENT 129
DISASSEMBLY 11 SCHEMATIC DIAGRAMS 130-142
Some semiconductor (solid state) devices can be damaged easily by static electricity. Such components commonly are called
Electrostatically Sensitive (ES) Devices. Examples of typical ES devices are integrated circuits and some field effect transistors and
The following techniques should be used to help reduce the incidence of component damage caused by static electricity.
1. Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any electrostatic charge on
your body by touching a known earth ground. Alternatively, obtain and wear a commercially available discharging wrist strap device,
which should be removed for potential shock reasons prior to applying power to the unit under test.
2. After removing an electrical assembly equipped with ES devices, place the assembly on a conductive surface such as aluminum foil, to
4. Use only an anti-static solder removal device. Some solder removal devices not classified as "anti-static" can generate electrical charges
5. Do not use freon-propelled chemicals. These can generate electrical change sufficient to damage ES devices.
6. Do not remove a replacement ES device from its protective package until immediately before you are ready to install it. (Most replacement
ES devices are packaged with leads electrically shorted together by conductive foam, aluminum foil or comparable conductive material.)
7. Immediately before removing the protective material from the leads of a replacement ES device, touch the protective material to the
CAUTION : Be sure no power is applied to the chassis or circuit, and observe all other safety precautions.
8. Minimize bodily motions when handling unpackaged replacement ES devices. (Otherwise harmless motion such as the brushing together
or your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity sufficient to damage an ES devices.
Components identified with the IEC symbol in the parts list are special significance to safety. When replacing a component identified with
, use only the replacement parts designated, or parts with the same ratings or resistance, wattage, or voltage that are designated in the
parts list in this manual. Leakage-current or resistance measurements must be made to determine that exposed parts are acceptably
insulated from the supply circuit before retuming the product to the customer.
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FRONT-PANEL CONTROLS
KL
OK Navigation
Power indicator Setup Remote IR Sensor Message Display Volume
460
ENGLISH
Set up
MIC
Standby/On Info Audio Surround Modes Back/Exit M N Headphone Jack/ Digital Audio USB Port Analog Audio
Switch Settings Effects Navigation EzSet/EQ™ Inputs Front Inputs
Microphone (Optical and
Resolution Video Modes Input Coaxial Front) Video Front Input
Power Indicator: This LED has three possible modes: Resolution: Press this button to access the AVR’s video output resolution
•• Main Power Off: When the AVR is unplugged or the Main Power setting: 576i, 576p, 720p, 1080i or 1080p.
Switch is off, this LED is off.
IMPORTANT NOTE: If the AVR’s video output resolution is set higher
•• Standby: Amber indicates that the AVR is ready to be turned on. than the capabilities of the actual connection, you will not see a picture.
•• On: When the AVR is turned on, this LED turns white. If the best available video connection from the AVR to the TV is composite
press this button and change the resolution to 576i.
NOTE: If the PROTECT message ever appears, turn off the AVR and unplug
it. Check all speaker wires for a possible short. If none is found, bring the Audio Effects: Press this button to directly access the Audio Effects
unit to an authorized Harman Kardon service center for inspection and submenu, which allows adjustment of the tone and other audio controls. See
repair before using it again. the Initial Setup section for more information.
Video Modes: Press this button for direct access to the Video Modes
Standby/On Switch: This electrical switch turns the receiver on, or places submenu, which contains settings that may be used to improve the picture, if
it in Standby mode for quick turn-on. necessary, after you have adjusted the picture settings using the video display
AVR Settings Button: Press this button to access the AVR’s main menu. or TV.
Info Settings Button: Press this button to directly access the AVR’s Surround Modes: Press this button to select a surround sound (e.g.,
Source Info submenu, which contains the settings for the current source. multichannel) mode. The Surround Modes menu will appear on screen,
and the menu line will appear in the front-panel display. See the Advanced
Functions Manual for more information on surround modes.
Source List: Press this button to select a source device, which is a
component where a playback signal originates, e.g., DVD.
Back/Exit: Press this button to return to the previous menu, or to exit the
menu system.
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REAR-PANEL CONNECTIONS
Remote IR Input
A-BUS IR
Carrier IR Output Output Video Remote IR HDMI 1-4 HDMI Monitor Video Monitor
(AVR 460 only) (AVR 460 only) 1-3 Inputs Output Inputs Output Output 6-/8-Channel Inputs
Component Video 2 Zone 2 Component Video AC Power
Analog 2 & 4 Outputs 1-2 Inputs Output IR Input The Bridge III Monitor Output Input
FM Antenna
AM Antenna
ENGLISH
A-BUS Power Input
A-BUS Port
A-BUS on
AVR 460 only
Zone 2 Audio Outputs Preamp Front Speaker Surround Surround Center Switched AC Main Coaxial 1-2 Digital Audio Inputs
Outputs Outputs Back/Zone 2 Speaker Speaker Accessory Power
(AVR 460 only) Speaker Outputs Outputs Outlet Switch
Subwoofer Outputs Coaxial Digital Optical 1-3 Fan Vents
Analog 1-5
Inputs Output Audio Output Digital Audio
Inputs
(AVR 360: Optical
1-2)
Main Power Switch: This mechanical switch turns the power supply on HDMI Inputs and Output: HDMI (High-Definition Multimedia Interface)
or off. It is usually left on, and cannot be turned on or off using the remote is a connection for transmitting digital audio and video signals between
control. devices. Connect up to four HDMI-equipped source devices to the HDMI inputs
6-/8-Channel Inputs: Connect the multichannel analog audio outputs using a single-cable connection.
of a non-HDMI player (DVD-Audio, SACD™, Blu-ray Disc™ or HD-DVD, or any When you connect the HDMI Output to your video display, the AVR 460/
other external decoder) to these jacks. AVR 360 will automatically transcode analog video signals to the HDMI
Coaxial 1/2 and Optical 1/2/3 Digital Audio Inputs: If a source format, upscaling to as high as 1080p.
has a compatible digital audio output, and if you are not using an HDMI
connection for audio for the device, connect it to one of these jacks to hear NOTES: When connecting a DVI-equipped display to one of the HDMI
digital audio formats, such as Dolby Digital, DTS and linear PCM. Use only one Outputs:
type of digital audio connection for each source. •• Use an HDMI-to-DVI adapter.
Coaxial Digital Audio Output: If a source is also an audio recorder, •• Make sure the display is HDCP-compliant. If it isn’t, do not connect it to
connect the Coaxial Digital Audio Output to the recorder’s matching input for an HDMI Output; use an analog video connection instead.
improved recording quality. Only PCM digital audio signals are available for
•• Always make a separate audio connection.
recording. Both coaxial and optical digital audio signals are available at this
Digital Audio Output.
Analog 1 – 5 Inputs: Connect the left and right analog audio outputs of
Zone 2 Infrared (IR) Input: Connect a remote IR receiver located in the a source device to any of these inputs. These inputs may be paired with any
remote zone of a multizone system to this jack to control the AVR (and any video inputs.
source devices connected to the Remote IR Output) from the remote zone.
Remote Infrared (IR) Input and Output: When the remote IR NOTES:
receiver on the front panel is blocked, connect an optional IR receiver to the The Analog 2 and 4 inputs are each associated with a set of outputs.
Remote IR Input jack. The Remote IR Output may be connected to the Remote Consider using these connectors for an audio or video recorder.
IR Input of a compatible product to enable remote control through the AVR.
You may optionally connect a source to both an analog and digital audio
Remote IR Carrier Output(AVR 460 only): This output is similar in input. This is useful for making recordings, for multizone applications or
function to the Remote IR Output, with the difference that this jack outputs simply as a backup.
the full infrared signal as received by the AVR’s IR sensor or the Remote IR
Input, while the Remote IR Output jack outputs a “stripped” signal that has no
carrier frequency.
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IR Transmitter Lens
AVR Power Off Device Power On
AVR Power On Device Power Off
Source Selectors
ENGLISH
Video Modes
Audio Effects Surround Modes
Alphanumeric Keys
Last Activity
Back/Exit Menu
IR Transmitter
KLM N Navigation
OK
Power Off OFF Mute
Light Disc Menu
Info
Transport Controls OK
Volume Controls
Transport Controls
Record
Info Settings Sleep Settings
Setup SETUP INFO SLEEP
Zone Selector Zone Indicator
LEARN
Zone Selector Learn (AVR 460 only) ZR 60
The AVR 460/AVR 360 remote is capable of controlling 8 devices, including Cable/SAT Source Selector: Cable set-top box or satellite set-top box.
the AVR itself and an iPod docked in The Bridge III. During the installation
process, you may program the codes for your source components into the IMPORTANT NOTE: All of the AVR 460/AVR 360’s audio and video
remote. To operate a component, press its Selector button to change the inputs are independently assignable. Select the inputs to which the device
device mode. is physically connected during Initial Setup. Any device may be connected
Each Source Selector has been preprogrammed to control certain types of to any compatible input and given any name (e.g., DVD or Game).
components, with only the codes specific to each brand and model changing,
depending on which product code is programmed. The AUX and Cable/ Most of the buttons on the remote have dedicated functions, although the
SAT Source Selectors may be used for multiple device types. Other Source precise codes transmitted vary, depending on the device mode. Due to the
Selectors may be reassigned to other device types (see Initial Setup section). wide variety of functions for various source devices, only a few of the most-
often used functions on the remote have been included: alphanumeric keys,
AUX Source Selector: CD player, VCR, HDTV set-top box, PVD or TiVo® transport controls, television-channel control, menu access, and power on
set-top box. Refer to page 23 for details on Source Selection. and off.
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Buttons dedicated to the AVR are available at any time, even in another Surround Modes: Press to directly access the Surround Modes submenu.
device mode: AVR Power On and Off, Audio Effects, Video Modes, Surround Select a Surround Mode category: Auto Select, Virtual Surround, Stereo,
Modes, Volume, Mute and Sleep Settings. Press the AVR Settings Button near Movie, Music or Video Game. The surround mode will change when the menu
the bottom of the remote to return it to AVR mode. line is highlighted.
A button’s function depends on which component is being controlled. See To change the surround mode for the selected category, press the OK Button
Table in the Advanced Functions Manual for listings of the functions for each when the menu line is highlighted, and select one of the available surround
type of component. mode options using the KL Buttons. Press the OK Button, or press the
Back/Exit Button to exit the Surround Modes menu and display the next
IR Transmitter Lens: As buttons are pressed on the remote, infrared higher menu in the hierarchy.
codes are emitted through this lens. See the Advanced Functions Manual for more information on surround
AVR Power On Button: Press to turn on the AVR. The Master Power modes.
Switch on the rear panel must be on. Alphanumeric Keys: Use these buttons to enter numbers for radio
AVR Power Off Button: Press to turn off the AVR. station frequencies or channels, or to select station presets.
Device Power On Button: Press a device’s Source Selector, then press Last Channel: When controlling a cable, satellite or HDTV set-top box or a
this button to turn on the device. TV, press this button to return to the previous station or channel.
Device Power Off Button: Press a device’s Source Selector, then press Activity: With this button, up to 11 Activities may be programmed to
this button to turn off the device. transmit a series of commands with a single press. Execute an Activity by
pressing this button, then the Alphanumeric Key (or the AVR Power On or
Source Selectors: Press one of these buttons to select a source device,
Off Button by themselves) into which it was programmed. See the Advanced
e.g., Blu-ray Player, CS, Cable TV, DVD or satellite tuner. This will also turn on
Functions Manual for more information on Activities.
the receiver and switch the remote’s device mode to operate the source. The
first press of the Radio Selector switches the AVR to the last-used tuner band Back/Exit: Press to return to the previous menu or to exit the menu system.
(AM or FM). Each successive press changes the band. Menu Button: This button is used within the Now Playing menu for the
Audio Effects: Press to directly access the Audio Effects submenu, which tuner, The Bridge III and to display the main menu on some source devices. To
allows adjustment of the AVR’s tone and other audio controls. See the Initial display the AVR’s main menu, press the Setup Button.
Setup section for more information. Navigation (KLM N) and OK Buttons: These buttons are used to
Video Modes: Press for direct access to the Video Modes submenu, which make selections within the menu system and to operate the tuner.
contains picture settings to be used after you have adjusted the picture Light: Press to illuminate the buttons on the remote. Press it again to turn
settings on the video display or TV. See the Advanced Functions Manual for the back light off, or wait 10 seconds after the last button press for the light
more information. to turn off on its own.
Disc Menu: While a DVD is playing, press the DVD Source Selector, then this
button, to display the disc’s menu.
Soft Keys: These buttons are used with some source devices. See Table
A14 in the Advanced Functions Manual for details. They are also used with a
Teletext-capable television if your broadcast, cable or satellite provider offers
Teletext service.
Volume Control: Press to raise or lower the volume.
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Mute Button: Press to mute the AVR’s speaker and headphone outputs. To Zone 2 Remote Control (AVR 460 only)
end the muting, press this button, adjust the volume, or turn off the receiver.
The Zone 2 remote control is used in the remote zone of a multizone system
Channel/Page Control: When the tuner has been selected, this control with an IR receiver connected to the Zone 2 IR Input or an A-BUS device. It
changes a preset radio station. While operating a cable, satellite or HDTV set- may be used to control the power, volume and mute functions or to select
top box or a television, press these buttons to change channels. a source input for the remote zone, and to control a Harman Kardon source
Transport Controls: These buttons are used to control source playback connected to one of the AVR’s Remote IR Outputs or the A-BUS IR Output.
and The Bridge III. The Zone 2 remote may also be used in the main listening room to directly
Record Button: Use this button to make recordings when an audio or control the AVR 460 and Harman Kardon DVD, CD or tape players. When the
video recorder is in use. Zone Selector is pressed to switch the remote to Zone 1 mode (the Zone
Indicator will turn green), the power, volume and mute controls will only
Setup Button: Press to display the AVR’s Main Menu, or to switch the
affect the main listening area. To control operation for the remote zone, press
ENGLISH
remote to AVR device mode.
the Zone Selector so that the Zone Indicator turns red.
Info Settings Button: Press to display the AVR’s Info Menu, which
The Zone 2 remote requires two AAA batteries (included) that are installed
contains the settings for the current source.
in the battery compartment on the back of the remote. Make sure to observe
Sleep Settings Button: Press to activate the sleep timer, which turns proper polarity by matching the + and – symbols on the batteries to the
off the receiver after a programmed period of time of up to 90 minutes. symbols printed inside the compartment.
Each press decreases the timer by 10 minutes, ending with the “Sleep Off”
The following explanations describe the buttons that are not similar in
message.
function to the main remote control, or are found on the Zone 2 remote
Zone Selector: Use this switch to select whether AVR commands will control only. For explanations of all other Zone 2 remote control functions,
affect the main listening area (Zone 1) or the remote zone of a multizone see the descriptions above that cover functions that are common to the two
system (Zone 2). For normal operation, leave the switch in the Zone 1 Remote Controls as well as functions available on the Main Remote Control
position. only.
Learn (AVR 460 only): The AVR remote is capable of “learning” individual Power: Press to turn the AVR 460 on or off. The AVR also turns on its
IR codes from the original remote that came with a source device. See page multizone system automatically when any of the Input Selectors is pressed,
24 in the Installation section. even if the AVR itself is in Standby mode. When in the main listening room,
press any Input Selector or the AVR Selector to turn on the AVR 460.
Zone Selector and Zone Indicator: Each press of the Zone Selector
determines whether the AVR commands will affect the main listening area
(Zone 1) or the remote zone (Zone 2). The Zone Indicator will turn green when
Zone 1 has been selected, and red for Zone 2. The Zone Indicator will also light
briefly whenever any button is pressed.
Instructions for users on removal and The batteries included with your equipment may be Alkaline, Carbon Zinc/
disposal of used batteries. Manganese or Lithium (button cells) type. All types should be disposed of
Specification of included battery types. according to the above instructions.
These symbols shown on the product, the packaging or in the manual or To remove the batteries from your equipment or remote control, reverse the
separate information sheet mean that the product itself, as well as the procedure described for inserting batteries in the Owners Manual.
batteries included or built into the product, should never be thrown away For products with a built-in battery that lasts for the lifetime of the product,
with general household waste. Take them to suitable collection points, where removal may not be possible for the user. In this case, recycling or recovery
proper treatment, recycling and recovery take place, in accordance with centers handle the dismantling of the product and the removal of the
national or local legislation, or European Directives 2002/96/EC and 2006/66/ battery. If, for any reason, it becomes necessary to replace such a battery, this
EC. procedure must be performed by authorized service centers.
Correct handling of the product and batteries to be disposed of helps to
save resources and prevents possible negative effects on the environment or
human health.
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TROUBLESHOOTING GUIDE
ENGLISH
No sound from surround or center •• Incorrect surround mode •• Select a mode other than Stereo
speakers •• Input is monaural •• There is no surround information from mono sources
•• Incorrect configuration •• Check speaker configuration
•• Stereo or Mono program material •• The surround decoder may not create center- or rear-channel
information from nonencoded programs
Unit does not respond to remote •• Weak batteries in remote •• Change remote batteries
commands •• Wrong device selected •• Press the Setup Button
•• Remote sensor is obscured •• Make certain front-panel sensor is in line of sight of remote or connect
an optional remote sensor
Intermittent buzzing in tuner •• Local interference •• Move unit or antenna away from computers, fluorescent lights,
motors or other electrical appliances
Surround Back Speaker settings •• Multizone system has been turned on, and •• Use the menu system to access the Zone 2 menu and reassign the
cannot be accessed, and test tone the surround back channels were reassigned surround back channels to the main room
does not play through Surround to multizone operation
Back Speakers
Unable to activate Program mode •• AVR Settings Button not held for at least 3 •• The selector will light as you initially press it, and go dark as you hold
on remote seconds it down. Continue to hold it and wait 3 seconds for the selector to
light again
Remote buttons light, but AVR •• Remote is in Zone 2 mode •• Slide the Zone Switch at the bottom of the remote to the Zone 1
does not respond position
Additional information on troubleshooting possible problems with your AVR 460/AVR 360, or installation-related issues, may be found in
the list of “Frequently Asked Questions”, which is located in the Product Support section at www.harmankardon.com.
Processor Reset If the receiver does not function correctly after a processor reset, contact an
authorized Harman Kardon service center for assistance. Authorized service
If the unit behaves erratically after a power surge, first turn off the Main centers may be located by visiting the Web site at www.harmankardon.com.
Power Switch and unplug the AC power cord for at least 3 minutes. Plug the
cord back in and turn the receiver on. If this doesn’t help, reset the AVR.
NOTE: After performing a system reset, wait at least 1 minute before
pressing any Source Selectors.
NOTE: A system reset erases all user configurations, including video
resolution, speaker and level settings, and tuner presets. After a reset,
reenter all of these settings from your notes in the appendix worksheets. Memory
If the AVR 460/AVR 360 is unplugged or experiences a power outage, it will
To reset the AVR 460/AVR 360, place it in Standby mode (press the front- retain user settings for up to two weeks.
panel Standby/On Switch so that the Power Indicator turns amber). Then
press the front-panel OK Button for at least 5 seconds until the RESET
message appears.
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TECHNICAL SPECIFICATIONS
ENGLISH
@ < 0.07% THD, 20Hz–20kHz into 8 ohms Power Requirement AC 230-240V/50Hz
Center channel: Power Consumption AVR 360: Standby < 1W,
AVR 360: 50 Watts 540W maximum
AVR 460: 65 Watts
@ < 0.07% THD, 20Hz–20kHz into 8 ohms AVR 460: Standby < 3W,
890W maximum
Surround (L & R Side, Back) channels:
AVR 360: 50 Watts per channel (7 channels driven)
AVR 460: 65 Watts per channel Dimensions (Max)
@ < 0.07% THD, 20Hz–20kHz into 8 ohms Width 440mm
Input Sensitivity/Impedance Height 165mm
Linear (High-Level) 200mV/47k ohms Depth 382mm
Weight net AVR 360 : 14,0 kg
Signal-to-Noise Ratio (IHF-A) 100dB AVR 460 : 14,4 kg
Surround System Adjacent Channel Separation
Analog Decoding 40dB
Depth measurement includes knobs, buttons and terminal connections.
(Pro Logic, etc.)
Dolby Digital (AC-3) 55dB Height measurement includes feet and chassis.
DTS 55dB Features, specifications and appearance are subject to change without notice.
Frequency Response
@ 1W (+0dB, –3dB) 10Hz –130kHz
High Instantaneous Harman Kardon and Logic 7 are trademarks of Harman International Industries,
Current Capability (HCC) ±35 Amps Incorporated, registered in the United States and/or other countries. EzSet/EQ, Designed
to Entertain and The Bridge III logo are trademarks of Harman International Industries,
Transient Intermodulation Incorporated.
Distortion (TIM) Unmeasurable
Apple, iPod, iPhone, iTunes and Macintosh are trademarks of Apple Inc., registered
Rise Time 16µsec in the U.S. and other countries. iPod not included. “Made for iPod” means that an
electronic accessory has been designed to connect specifically to iPod and has
Slew Rate 40V/µsec been certified by the developer to meet Apple performance standards. Apple is not
responsible for the operation of this device or its compliance with safety and regulatory
FM Tuner Section standards.
Frequency Range 87.5–108.0MHz A-BUS is a registered trademark of Leisure Tech Electronics Pty Ltd.
Usable Sensitivity IHF 1.3µV/13.2dBf Audiovox is a registered trademark of Audiovox Corporation.
Signal-to-Noise Ratio Mono/Stereo 70/68dB (DIN) Blu-ray Disc is a trademark of the Blu-ray Disc Association.
Distortion Mono/Stereo 0.2/0.3%
CEA is a registered trademark of the Consumer Electronics Association.
Stereo Separation 40dB @ 1kHz
Selectivity ±400kHz: 70dB Manufactured under license from Dolby Laboratories. Dolby, the double-D symbol and
Pro Logic are registered trademarks of Dolby Laboratories. MLP Lossless is a trademark
Image Rejection 80dB
of Dolby Laboratories.
IF Rejection 90dB
Manufactured under license under U.S. Patent #’s 5,451,942; 5,956,674; 5,974,380;
AM Tuner Section 5,978,762; 6,226,616; 6,487,535; 7,212,872; 7,333,929; 7,392,195; 7,272,567 and other
U.S. and worldwide patents issued and pending. DTS is a registered trademark and the
Frequency Range 522–1620kHz DTS logos, Symbol, DTS-HD and DTS-HD Master Audio are trademarks of DTS, Inc. ©
Signal-to-Noise Ratio 45dB 1996-2008 DTS, Inc. All Rights Reserved.
Usable Sensitivity Loop 500µV EyeConnect is a trademark of Elgato Systems.
Distortion 1kHz, 50% Mod 0.8% Faroudja DCDi Cinema is a trademark of Genesis Microchip Inc.
Selectivity ±10kHz, 30dB
HD-DVD is a trademark of the DVD Format/Logo Licensing Corporation (DVD FLLC).
HDMI, the HDMI logo and High-Definition Multimedia Interface are trademarks or
registered trademarks of HDMI Licensing LLC.
Intel is a trademark of Intel Corporation in the U.S. and other countries.
Please register your AVR 460/AVR 360 at www.harmankardon.com. SACD is a trademark of Sony Corporation.
TiVo is a registered trademark of TiVo Inc.
NOTE: You’ll need the product’s serial number. At the same time, you can
choose to be notified about new products and/or special promotions. Windows Media is a registered trademark of Microsoft Corporation in the United States
and/or other countries.
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74ACT04
HEX INVERTER
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IDT74FCT38072
3.3V CMOS 1-TO-2 CLOCK DRIVER INDUSTRIAL TEMPERATURE RANGE
FEATURES: DESCRIPTION:
• Advanced CMOS Technology The FCT38072 is a 3.3V clock driver built using advanced CMOS
• Guaranteed low skew < 100ps (max.) technology. This low skew clock driver offers 1:2 fanout. The large fanout from
• Very low duty cycle distortion< 350ps (max.) a single input reduces loading on the preceding driver and provides an efficient
• High speed propagation delay< 3ns (max.) clock distribution network. Multiple power and grounds reduce noise. Typical
• Very low CMOS power levels applications are clock and signal distribution.
• TTL compatible inputs and outputs
• 1:2 fanout
• Maximum output rise and fall time < 1ns (max.)
• Low input capacitance: 3pF typical
• VCC = 3.3V ± 0.3V
• Inputs can be driven from 3.3V or 5V components
• Operating frequency up to 166MHz
• Available in SOIC package
O1
VCC 1 8 GND
IN
VCC 2 7 O2
O2
IN 3 6 O1
GND 4 5 GND
SOIC
TOP VIEW
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A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM
ADV7342/ADV7343
S_HSYNC
S_VSYNC
CLKIN_B
GND_IO
TEST5
TEST4
DGND
VDD
S7
S6
S5
S4
S3
S2
S1
S0
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
VDD_IO 1 48 SFL/MISO
PIN 1
TEST0 2 47 RSET1
TEST1 3 46 VREF
Y0 4 45 COMP1
Y1 5 44 DAC 1
Y2 6 43 DAC 2
ADV7342/ADV7343
Y3 7 42 DAC 3
TOP VIEW
Y4 8 (Not to Scale) 41 VAA
Y5 9 40 AGND
VDD 10 39 DAC 4
DGND 11 38 DAC 5
Y6 12 37 DAC 6
Y7 13 36 RSET2
TEST2 14 35 COMP2
TEST3 15 34 PVDD
C0 16 33 EXT_LF1
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
SCL/MOSI
EXT_LF2
ALSB/SPI_SS
PGND
C1
C2
C3
C4
C5
C6
C7
SDA/SCLK
P_VSYNC
CLKIN_A
P_HSYNC
P_BLANK
06399-021
Figure 21. Pin Configuration
Rev. 0 | Page 18 of 88
Page 48 of 142
harman/kardon AVR 460/230 Service Manual
ADV7342/ADV7343
Input/
Pin No. Mnemonic Output Description
36 RSET2 I This pin is used to control the amplitudes of the DAC 4, DAC 5, and DAC 6 outputs. A 4.12 kΩ
resistor must be connected from RSET2 to AGND.
45, 35 COMP1, O Compensation Pins. Connect a 2.2 nF capacitor from both COMP pins to VAA.
COMP2
44, 43, 42 DAC 1, DAC 2, O DAC Outputs. Full and low drive capable DACs.
DAC 3
39, 38, 37 DAC 4, DAC 5, O DAC Outputs. Low drive only capable DACs.
DAC 6
21 SCL/MOSI I Multifunctional Pin: I2C Clock Input/SPI Data Input.
20 SDA/SCLK I/O Multifunctional Pin: I2C Data Input/Output. Also, SPI clock input.
19 ALSB/SPI_SS I Multifunctional Pin: This signal sets up the LSB 2 of the MPU I2C address. Also, SPI slave select.
46 VREF Optional External Voltage Reference Input for DACs or Voltage Reference Output.
41 VAA P Analog Power Supply (3.3 V).
10, 56 VDD P Digital Power Supply (1.8 V). For dual-supply configurations, VDD can be connected to other 1.8 V
supplies through a ferrite bead or suitable filtering.
1 VDD_IO P Input/Output Digital Power Supply (3.3 V).
34 PVDD P PLL Power Supply (1.8 V). For dual-supply configurations, PVDD can be connected to other 1.8 V
supplies through a ferrite bead or suitable filtering.
33 EXT_LF1 I External Loop Filter for On-Chip PLL 1.
31 EXT_LF2 I External Loop Filter for On-Chip PLL 2.
32 PGND G PLL Ground Pin.
40 AGND G Analog Ground Pin.
11, 57 DGND G Digital Ground Pin.
64 GND_IO G Input/Output Supply Ground Pin.
1
ED = enhanced definition = 525p and 625p.
2
LSB = least significant bit. In the ADV7342, setting the LSB to 0 sets the I2C address to 0xD4. Setting it to 1 sets the I2C address to 0xD6. In the ADV7343, setting the
LSB to 0 sets the I2C address to 0x54. Setting it to 1 sets the I2C address to 0x56.
Rev. 0 | Page 19 of 88
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harman/kardon AVR 460/230 Service Manual
Features
• Low-voltage and Standard-voltage Operation
– 2.7 (VCC = 2.7V to 5.5V)
– 1.8 (VCC = 1.8V to 5.5V)
• Internally Organized 128 x 8 (1K), 256 x 8 (2K), 512 x 8 (4K),
1024 x 8 (8K) or 2048 x 8 (16K)
• Two-wire Serial Interface
• Schmitt Trigger, Filtered Inputs for Noise Suppression
• Bidirectional Data Transfer Protocol
• 100 kHz (1.8V) and 400 kHz (2.7V, 5V) Compatibility
•
•
Write Protect Pin for Hardware Data Protection
8-byte Page (1K, 2K), 16-byte Page (4K, 8K, 16K) Write Modes
Two-wire
•
•
Partial Page Writes Allowed
Self-timed Write Cycle (5 ms max)
Serial EEPROM
• High-reliability
– Endurance: 1 Million Write Cycles 1K (128 x 8)
– Data Retention: 100 Years
• Automotive Grade and Lead-free/Halogen-free Devices Available 2K (256 x 8)
• 8-lead PDIP, 8-lead JEDEC SOIC, 8-lead MAP, 5-lead SOT23,
8-lead TSSOP and 8-ball dBGA2 Packages 4K (512 x 8)
• Die Sales: Wafer Form, Waffle Pack and Bumped Wafers
8K (1024 x 8)
Description 16K (2048 x 8)
The AT24C01A/02/04/08A/16A provides 1024/2048/4096/8192/16384 bits of serial
electrically erasable and programmable read-only memory (EEPROM) organized as
128/256/512/1024/2048 words of 8 bits each. The device is optimized for use in many
industrial and commercial applications where low-power and low-voltage operation AT24C01A
are essential. The AT24C01A/02/04/08A/16A is available in space-saving 8-lead PDIP,
8-lead JEDEC SOIC, 8-lead MAP, 5-lead SOT23 (AT24C01A/AT24C02/AT24C04), 8- AT24C02
lead TSSOP, and 8-ball dBGA2 packages and is accessed via a Two-wire serial inter-
face. In addition, the entire family is available in 2.7V (2.7V to 5.5V) and 1.8V (1.8V to AT24C04
5.5V) versions.
8-lead TSSOP 8-lead SOIC
AT24C08A
Table 1. Pin Configuration
Pin Name Function A0 1 8 VCC A0 1 8 VCC
AT24C16A
A1 2 7 WP A1 2 7 WP
A0 - A2 Address Inputs A2 3 6 SCL A2 3 6 SCL
SDA Serial Data GND 4 5 SDA GND 4 5 SDA
A0 1 8 VCC SCL 1 5 WP
A1 2 7 WP GND 2
A2 3 6 SCL SDA 3 4 VCC
GND 4 5 SDA 0180V–SEEPR–8/05
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harman/kardon AVR 460/230 Service Manual
SD_BA1, EXT_A14
SD_BA0, EXT_A13
SD_A10, EXT_A10
EXT_CS1#
SD_RAS#
SD_CAS#
EXT_OE#
EXT_A19
EXT_A18
EXT_A17
EXT_A16
EXT_A15
SD_WE#
RESET#
110 SD_CS#
GNDIO6
105 GNDIO5
120 VDDIO6
GND6
115 GND5
125 VDD6
VDD5
GPIO38, PCP_WR# / DS#, SCP2_CLK 1 SD_A0, EXT_A0
GPIO11, PCP_A3, AS#, SCP2_MISO / SDA SD_A1, EXT_A1
GPIO10, PCP_A2 / A10, SCP2_MOSI 100 VDDIO5
VDDIO7 95 VDD4
GNDIO7 EXT_CS2#
XTI GND3
GND1 45
VDDIO1 50
VDD2 55
SD_D5, EXT_D5 60
GPIO17, DAO1_DATA3 / XMTA
TEST
GPIO22, DAO2_SCLK
DAO2_LRCLK
DAO1_SCLK
DAO1_LRCLK
GPIO19, DAO2_DATA1, HS4
VDD1
GPIO18, DAO2_DATA0, HS3
DAO1_DATA0, HS0
GNDIO1
GND2
GPIO15, DAO1_DATA1, HS1
SD_DQM0
SD_D7, EXT_D7
SD_D6, EXT_D6
SD_D4, EXT_D4
VDDIO2
SD_D3, EXT_D3
SD_D2, EXT_D2
GPIO23,
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CS42528
2. PIN DESCRIPTIONS
SAI_SDOUT
CX_SDOUT
CX_SDIN2
CX_SDIN3
CX_SDIN4
SAI_LRCK
SAI_SCLK
ADCIN1
ADCIN2
OMCK
RMCK
DGND
RXP0
TXP
VLS
VD
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
CX_SDIN1 1 48 RXP1/G PO 1
CX_SCLK 2 47 RXP2/G PO 2
CX_LRCK 3 46 RXP3/G PO 3
VD 4 45 RXP4/G PO 4
DGND 5 44 RXP5/G PO 5
VLC 6 43 RXP6/G PO 6
SCL/CCLK 7 42 RXP7/G PO 7
AD1/CDIN 9 40 AG ND
AD0/CS 10 39 LPFLT
INT 11 38 MUTEC
RST 12 37 AO UTA1-
AINR- 13 36 AOUTA1+
AINR+ 14 35 AOUTB1+
AINL+ 15 34 AO UTB1-
AINL- 16 33 AO UTA2-
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
AOUTA4-
AOUTB2-
FILT+
AOUTB4+
AOUTA4+
AOUTB4-
AOUTB3-
AOUTA3-
AOUTB3+
AOUTA3+
AOUTB2+
AOUTA2+
VA
VQ
REFGND
AGND
DS586PP5 17
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CS42528
AD0/CS 10 Address Bit 0 (I2C)/Control Port Chip Select (SPI) (Input) - AD0 is a chip address pin in I2C mode; CS
is the chip select signal in SPI mode.
INT 11 Interrupt (Output) - The CS42528 will generate an interrupt condition as per the Interrupt Mask register.
See “Interrupts” on page 40 for more details.
RST 12 Reset (Input) - The device enters a low power mode and all internal registers are reset to their default
settings when low.
AINR- 13 Differential Right Channel Analog Input (Input) - Signals are presented differentially to the delta-sigma
AINR+ 14 modulators via the AINR+/- pins.
AINL+ 15 Differential Left Channel Analog Input (Input) - Signals are presented differentially to the delta-sigma
AINL- 16 modulators via the AINL+/- pins.
VQ 17 Quiescent Voltage (Output) - Filter connection for internal quiescent reference voltage.
FILT+ 18 Positive Voltage Reference (Output) - Positive reference voltage for the internal sampling circuits.
REFGND 19 Reference Ground (Input) - Ground reference for the internal sampling circuits.
AOUTA1 +,- 36,37 Differential Analog Output (Output) - The full-scale differential analog output level is specified in the
AOUTB1 +,- 35,34 Analog Characteristics specification table.
AOUTA2 +,- 32,33
AOUTB2 +,- 31,30
AOUTA3 +,- 28,29
AOUTB3 +,- 27,26
AOUTA4 +,- 22,23
AOUTB4 +,- 21,20
VA 24 Analog Power (Input) - Positive power supply for the analog section.
VARX 41
AGND 25 Analog Ground (Input) - Ground reference. Should be connected to analog ground.
40
MUTEC 38 Mute Control (Output) - The Mute Control pin outputs high impedance following an initial power-on con-
dition or whenever the PDN bit is set to a ‘1’, forcing the codec into power-down mode. The signal will
remain in a high impedance state as long as the part is in power-down mode. The Mute Control pin goes
to the selected “active” state during reset, muting, or if the master clock to left/right clock frequency ratio
is incorrect. This pin is intended to be used as a control for external mute circuits to prevent the clicks
and pops that can occur in any single supply system. The use of external mute circuits are not manda-
tory but may be desired for designs requiring the absolute minimum in extraneous clicks and pops.
LPFLT 39 PLL Loop Filter (Output) - An RC network should be connected between this pin and ground.
RXP7/GPO7 42 S/PDIF Receiver Input/ General Purpose Output (Input/Output) - Receiver inputs for S/PDIF encoded
RXP6/GPO6 43 data. The CS42528 has an internal 8:2 multiplexer to select the active receiver port, according to the
RXP5/GPO5 44 Receiver Mode Control 2 register. These pins can also be configured as general purpose output pins,
RXP4/GPO4 45 ADC Overflow indicators or Mute Control outputs according to the RXP/General Purpose Pin Control
RXP3/GPO3 46 registers.
RXP2/GPO2 47
RXP1/GPO1 48
RXP0 49 S/PDIF Receiver Input (Input) - Dedicated receiver input for S/PDIF encoded data.
TXP 50 S/PDIF Transmitter Output (Output) - S/PDIF encoded data output, mapped directly from one of the
receiver inputs as indicated by the Receiver Mode Control 2 register.
VLS 53 Serial Port Interface Power (Input) - Determines the required signal level for the serial port interfaces.
SAI_SDOUT 54 Serial Audio Interface Serial Data Output (Output) - Output for two’s complement serial audio PCM
data from the S/PDIF incoming stream. This pin can also be configured to transmit the output of the inter-
nal and external ADCs.
RMCK 55 Recovered Master Clock (Output) - Recovered master clock output from the External Clock Reference
(OMCK, pin 59) or the PLL which is locked to the incoming S/PDIF stream or CX_LRCK.
18 DS586PP5
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CS42528
CX_SDOUT 56 CODEC Serial Data Output (Output) - Output for two’s complement serial audio data from the internal
and external ADCs.
ADCIN1 58 External ADC Serial Input (Input) - The CS42528 provides for up to two external stereo analog to digital
ADCIN2 57 converter inputs to provide a maximum of six channels on one serial data output line when the CS42528
is placed in One Line mode.
OMCK 59 External Reference Clock (Input) - External clock reference that must be within the ranges specified in
the register “OMCK Frequency (OMCK Freqx)” on page 54.
SAI_LRCK 60 Serial Audio Interface Left/Right Clock (Input/Output) - Determines which channel, Left or Right, is
currently active on the serial audio data line.
SAI_SCLK 61 Serial Audio Interface Serial Clock (Input/Output) - Serial clock for the Serial Audio Interface.
DS586PP5 19
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SD_BA1, EXT_A14
SD_BA0, EXT_A13
SD_A10, EXT_A10
EXT_CS1#
SD_RAS#
SD_CAS#
EXT_OE#
EXT_A19
EXT_A18
EXT_A17
EXT_A16
EXT_A15
SD_WE#
RESET#
110 SD_CS#
GNDIO6
105 GNDIO5
120 VDDIO6
GND6
115 GND5
125 VDD6
VDD5
GPIO38, PCP_WR# / DS#, SCP2_CLK 1 SD_A0, EXT_A0
GPIO11, PCP_A3, AS#, SCP2_MISO / SDA SD_A1, EXT_A1
GPIO10, PCP_A2 / A10, SCP2_MOSI 100 VDDIO5
VDDIO7 95 VDD4
GNDIO7 EXT_CS2#
XTI GND3
GND1 45
VDDIO1 50
VDD2 55
SD_D5, EXT_D5 60
GPIO17, DAO1_DATA3 / XMTA
TEST
GPIO22, DAO2_SCLK
DAO2_LRCLK
DAO1_SCLK
DAO1_LRCLK
GPIO19, DAO2_DATA1, HS4
VDD1
GPIO18, DAO2_DATA0, HS3
DAO1_DATA0, HS0
GNDIO1
GND2
SD_DQM0
SD_D7, EXT_D7
SD_D6, EXT_D6
SD_D4, EXT_D4
VDDIO2
SD_D3, EXT_D3
SD_D2, EXT_D2
GPIO23,
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harman/kardon AVR 460/230 Service Manual
95 GPIO33, SCP1_MOSI
100 GPOI36, SCP1_IRQ#
GPIO35, SCP1_CLK
75 SD_BA0, EXT_A13
SD_BA1, EXT_A14
SD_A10, EXT_A10
GPIO30, XMTB_IN
90 EXT_CS1#
80 SD_RAS#
SD_CAS#
EXT_OE#
EXT_A19
EXT_A18
85 EXT_A17
EXT_A16
EXT_A15
SD_WE#
94 GNDIO6
76 GNDIO5
RESET#
SD_CS#
73 VDDIO5
91 VDDIO6
101 GND6
86 GND5
98 VDD6
83 VDD5
GPIO9, PCP_A1 / A9 109 72 SD_A0, EXT_A0
GPIO8, PCP_A0 / A8 110 SD_A1, EXT_A1
GPIO7, PCP_AD7 / D7 70 SD_A2, EXT_A2
GPIO6, PCP_AD6 / D6 69 GND4
VDDIO7 113 SD_A3, EXT_A3
GPIO5, PCP_AD5 / D5 SD_A4, EXT_A4
GPIO4, PCP_AD4 / D4 115 66 VDD4
GNDIO7 116 65 EXT_CS2#
GPIO3, PCP_AD3 / D3 SD_A5, EXT_A5
GPIO2, PCP_AD2 / D2 63 GNDIO4
VDD7 119 SD_A6, EXT_A6
GPIO1, PCP_AD1 / D1 120 SD_A7, EXT_A7
GPIO0, PCP_AD0 / D0 60 VDDIO4
GND7 122 SD_A8, EXT_A8
XTAL_OUT SD_A9, EXT_A9
XTI 57 GND3
XTO 125 SD_A11, EXT_A11
GNDA 126 CS497xx4 55 SD_A12, EXT_A12
NC 54 VDD3
PLL_REF_RES
144-Pin LQFP SD_CLKEN
VDDA (3.3V) 129 SD_CLKIN
VDD8 130 SD_CLKOUT
GPIO14, DAI1_DATA3, TM3, DSD3 50 SD_DQM1
GPIO13, DAI1_DATA2, TM2, DSD2 SD_D8, EXT_D8
GND8 133 SD_D9, EXT_D9
GPIO12, DAI1_DATA1, TM1, DSD1 47 GNDIO3
DAI1_DATA0, TM0, DSD0 135 SD_D10, EXT_D10
VDDIO8 136 45 SD_D11, EXT_D11
DAI1_SCLK, DSD-CLK 44 VDDIO3
DAI1_LRCLK, DSD4 SD_D12, EXT_D12
GNDIO8 139 SD_D13, EXT_D13
GPIO42, BDI_REQ# , DAI2_LRCLK, PCP_IRQ# / BSY# 140 SD_D14, EXT_D14
GPIO43, BDI_CLK, DAI2_SCLK 40 SD_D15, EXT_D15
BDI_DATA, DAI2_DATA, DSD5 SD_D0, EXT_D0
GPIO27 EXT_WE#
GPIO26 144 37 SD_D1, EXT_D1
10
13
15
18
21
24
25
27
30
33
35
GNDIO2 36
1
9
GPIO20, DAO2_DATA2
VDD1
GPIO28, DDAC
GPIO29, XMTA_IN
DBDA
DBCK
GPIO22, DAO2_SCLK
GPIO23, DAO2_LRCLK
GPIO17, DAO1_DATA3 / XMTA
TEST
DAO1_DATA0, HS0
DAO_MCLK
DAO1_SCLK
DAO1_LRCLK
GND1
VDDIO1
GNDIO1
VDD2
GPIO25, UART_TXD, EE_CS#
GND2
SD_DQM0
SD_D7, EXT_D7
SD_D6, EXT_D6
SD_D5, EXT_D5
SD_D4, EXT_D4
VDDIO2
SD_D3, EXT_D3
SD_D2, EXT_D2
GPIO31, UART_CLK
GPIO24, UART_RXD
Page 56 of 142
harman/kardon AVR 460/230 Service Manual
ESMT F25L004A
PIN CONFIGURATIONS
8-PIN SOIC
CE 1 8 VDD
SO 2 7 HOLD
WP 3 6 SCK
VSS 4 5 SI
8-PIN PDIP
CE 1 8 VDD
SO 2 7 HOLD
WP 3 6 SCK
VSS 4 5 SI
Page 57 of 142
harman/kardon AVR 460/230 Service Manual
ESMT F25L004A
PIN Description
Page 58 of 142
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4. PIN CONFIGURATIONS
4.1 48-pin TSOP
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www.fairchildsemi.com
KA78LXXA/KA78L05AA
3-Terminal 0.1A Positive Voltage Regulator
Features Description
• Maximum Output Current of 100mA The KA78LXXA/KA78L05AA series of fixed voltage
• Output Voltage of 5V, 6V, 8V, 9V,10V, 12V, 15V, 18V and monolithic integrated circuit voltage regulators are suitable
24V for application that required supply current up to 100mA.
• Thermal Overload Protection
• Short Circuit Current Limiting
• Output Voltage Offered in ±5% Tolerance TO-92 SOT-89
GND
1 2
3
123
8-SOP
8
1
VIt
Inpu
3
THERMAL SHUTDOWN
I CIRCUIT
REFERENCE VOLTAGE +
SHORT CIRCUIT
PROTECTION RSC
GND Outpu
V0 t
2 1
Rev. 1.0.5
©2005 Fairchild Semiconductor Corporation
Page 62 of 142
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SEMICONDUCTOR KIA278R05PI~KIA278R15PI
TECHNICAL DATA BIPOLAR LINEAR INTEGRATED CIRCUIT
F
C 2.70 +
suitable for various electronic equipments. E
O
D _ 0.10
0.60 +
Φ3.20 + _ 0.20
It provides constant voltage power source with TO-220 4 terminal E
B
F _ 0.10
3.50 +
lead full molded PKG. The Regulator has multi function such as G 15.70 +_ 0.20
G
H _ 0.10
0.40 +
over current protection, overheat protection and ON/OFF control. S R J 14.3+0.2/-0.1
L V V L K _ 0.10
1.45 +
K L _ 0.10
1.00 +
T U
FEATURES H M 2.54
_ 0.20
N 4.50 +
J
ᴌ2.0A Output Low Drop Voltage Regulator. D O 7.5+_ 0.1
P _ 0.10
1.50 +
ᴌBuilt in ON/OFF Control Terminal. R 5
ᴌBuilt in Over Current Protection, Over Heat M
S 8
T _ 0.1
1.30 +
Protection Function. U _ 0.1
3-1.00 +
V _ 0.1
1.30 +
N
P 1 DC INPUT (V IN )
2 DC OUTPUT (VO )
1 2 3 4
3 GND
4 ON/OFF CONTROL
LINE UP
ITEM OUTPUT VOLTAGE (Typ.) UNIT
TO-220IS-4
KIA278R05PI 5
KIA278R06PI 6
KIA278R08PI 8
KIA278R09PI 9 V
KIA278R10PI 10
KIA278R12PI 12
* KIA278R15PI 15
* Note) * : Under Development.
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ESMT M12L16161A
z JEDEC standard 3.3V power supply The M12L16161A is 16,777,216 bits synchronous high
z LVTTL compatible with multiplexed address data rate Dynamic RAM organized as 2 x 524,288 words by
z Dual banks operation 16 bits, fabricated with high performance CMOS technology.
z MRS cycle with address key programs Synchronous design allows precise cycle control with the
- CAS Latency (2 & 3 ) use of system clock I/O transactions are possible on every
- Burst Length (1, 2, 4, 8 & full page) clock cycle. Range of operating frequencies, programmable
- Burst Type (Sequential & Interleave) burst length and programmable latencies allow the same
z All inputs are sampled at the positive going edge of the device to be useful for a variety of high bandwidth, high
system clock performance memory system applications.
z Burst Read Single-bit Write operation
z DQM for masking ORDERING INFORMATION
z Auto & self refresh
z 32ms refresh period (2K cycle)
Part NO. MAX Freq. PACKAGE COMMENTS
M12L16161A-5TG 200MHz TSOP(II) Pb-free
M12L16161A-7TG 143MHz TSOP(II) Pb-free
M12L16161A-7BG 143MHz VFBGA Pb-free
DQ0 2 49 DQ15
B
DQ1 3 48 DQ14 DQ14 VSSQ VDDQ DQ1
VSSQ 4 47 VSSQ
C DQ13 VDDQ VSSQ DQ2
DQ2 5 46 DQ13
DQ3 6 45 DQ12 D DQ12 DQ11 DQ4 DQ3
VDDQ 7 44 VDDQ
DQ4 8 43 DQ11 E DQ10 VSSQ VDDQ DQ5
DQ5 9 42 DQ10
F DQ9 VDDQ VSSQ DQ6
VSSQ 10 41 VSSQ
DQ6 11 40 DQ9
G DQ8 NC NC DQ7
DQ7 12 39 DQ8
VDDQ 13 38 VDDQ H NC NC NC NC
LDQM 14 37 N.C/RFU
NC UDQM LDQM WE
WE 15 36 UDQM J
CAS 16 35 CLK
K NC CLK RAS CAS
RAS 17 34 CKE
CS 18 33 N.C L CKE NC NC CS
BA 19 32 A9
A10/AP 20 31 A8 M A11 A9 NC NC
A0 21 30 A7
N A8 A7 A0 A10
A1 22 29 A6
A2 23 28 A5
P A6 A5 A2 A1
A3 24 27 A4 50PIN TSOP(II)
VDD 25 26 VSS (400mil x 825mil) VSS A4 A3 VDD
60 Ball VFBGA
R (6.4x10.1mm)
(0.8 mm PIN PITCH) (0.65mm ball pitch)
Page 71 of 142
harman/kardon AVR 460/230 Service Manual
M24C64, M24C32
SUMMARY DESCRIPTION
These I2C-compatible electrically erasable pro- Table 2. Signal Names
grammable memory (EEPROM) devices are orga-
nized as 8192 x 8 bits (M24C64) and 4096 x 8 bits E0, E1, E2 Chip Enable
(M24C32).
SDA Serial Data
VSS Ground
3
Power On Reset: VCC Lock-Out Write Protect
E0-E2 SDA
In order to prevent data corruption and inadvertent
M24C64 Write operations during Power-up, a Power On
SCL M24C32 Reset (POR) circuit is included. At Power-up, the
internal reset is held active until VCC has reached
WC the Power On Reset (POR) threshold voltage, and
all operations are disabled – the device will not re-
spond to any command. In the same way, when
VCC drops from the operating voltage, below the
Power On Reset (POR) threshold voltage, all op-
VSS erations are disabled and the device will not re-
AI01844B spond to any command.
A stable and valid VCC (as defined in Table 9. and
Table 10.) must be applied before applying any
I2C uses a two-wire serial interface, comprising a logic signal.
bi-directional data line and a clock line. The devic-
es carry a built-in 4-bit Device Type Identifier code Figure 3. DIP, SO, TSSOP and UFDFPN
(1010) in accordance with the I2C bus definition.
Connections
The device behaves as a slave in the I2C protocol,
with all memory operations synchronized by the
serial clock. Read and Write operations are initiat-
ed by a Start condition, generated by the bus mas- M24C64
ter. The Start condition is followed by a Device M24C32
Select Code and Read/Write bit (RW) (as de-
scribed in Table 3.), terminated by an acknowl- E0 1 8 VCC
edge bit. E1 2 7 WC
When writing data to the memory, the device in- E2 3 6 SCL
serts an acknowledge bit during the 9th bit time, VSS 4 5 SDA
following the bus master’s 8-bit transmission.
AI01845C
When data is read by the bus master, the bus
master acknowledges the receipt of the data byte
in the same way. Data transfers are terminated by
a Stop condition after an Ack for Write, and after a
NoAck for Read.
Note: See PACKAGE MECHANICAL section for package dimen-
sions, and how to identify pin-1.
4/26
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NJM2391
FEATURES
zOutput Current Io(max.)=1A
zHigh Precision Output Voltage Vo±1%
zLow Dropout Voltage ∆ VI-O =1.1V typ. At Io=1A
zInternal Excessive Voltage Protection Circuit
zInternal Short Circuit Current Limit
zInternal Thermal Overload Protection
zBipolar Technology
zPackage Outline TO-252
PIN CONFIGURATION
2
PIN FUNCTION
1.VIN
2.GND
3.VOUT
1 3
NJM2391DL1
Page 75 of 142
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NJM2581
NJM2581D NJM2581M
■ FEATURES
● Operating Voltage ±4.5 to ±5.5V
● Wide frequency range 50MHz at 0dB typ.
● Internal 6dB Amplifier
● Internal 75ΩDriver Circuit (2-system drive)
● Power Save Circuit
● Bipolar Technology
● Package Outline DIP14, DMP14
■ BLOCK DIAGRAM
VIN1 1 14 V+ 1
6dB 75Ω
AMP Driver
BIAS
VEE1 2 13 VOUT1
VIN2 3 12 V+ 2
6dB 75Ω
AMP Driver
BIAS
VEE2 4 11 VOUT2
VIN3 5 10 V+ 3
6dB 75Ω
AMP Driver
BIAS
VEE3 6 9 VOUT3
Ver.7
-1-
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NJM2595
■ FEATURES
● 5-input 3-output
● Operating Voltage ±4.0 to ±6.5V
● Operating current ±15mAtyp. at Vcc=±5V
● Crosstalk -65dBtyp.
● Internal 6dB Amplifier
● Internal 75Ω Driver
● Bipolar Technology
● Package Outline DIP16,DMP16
+
V SW2 SW1 SW5
16 10 14 2
Vin1 13
S1 S5
Vin2 9 6dB 75Ω
20k Amp Driver 1 Vout1
20k
S2
Vin3 7
20k S4 S6
6dB 75Ω
Vin5 3
20k S7
6dB 75Ω
Amp Driver 11 Vout3
20k
4 6 12 8
-1-
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NJM2845/46
FEATURES
High Ripple Rejection 75dB typ. (f=1kHz,3V Version)
Output Noise Voltage Vno=45µVrms typ. (Vo=3V Version)
Output capacitor with 2.2µF ceramic capacitor (Vo≥2.6V)
Output Current Io(max.)=800mA
High Precision Output Vo ±1.0%
Low Dropout Voltage 0.18V typ. (Io=500mA)
ON/OFF Control (NJM2846)
Internal Short Circuit Current Limit
Internal Thermal Overload Protection
Bipolar Technology
Package Outline TO-252-3 (NJM2845DL1), TO-252-5 (NJM2846DL3)
PIN CONFIGURATION
2 3
1.VIN 1.CONTROL
2.GND 2.VIN
3.VOUT 3.GND
4.Vo
1 3 5.NC
123 45
NJM2845DL1 NJM2846DL3
EQUIVALENT CIRCUIT
GND GND
NJM2845DL1 NJM2846DL3
Ver.2005-01-20 -1-
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R×5VT
PIN CONFIGURATION
• TO-92 • SOT-89 • SOT-23-5
5 4
(mark side)
(mark side) (mark side)
1 2 3 1 2 3
1 2 3
PIN DESCRIPTION
• TO-92 • SOT-89 • SOT-23-5
4 NC
5 NC
Page 81 of 142
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4-3測定回路図
Measurement circuit diagram
2 1 C4
L1
3
7 IN BS SW
EN
8 D1 R1
C1 SS SI-8000Q IO
5 C2
FB
IIN IEN ISS
GND COMP
VFB R2 VO RL
4 6
VIN VEN VSS C3
R3
4-4 ブロックダイアグラム
Block diagram
VIN
SI-8000Q
C1
2
5
IN
Current
Σ
3
OSC Sense
Amp
OCP Boot 1
6
5v_ldo REG
P.REG BS
VREF C4
0.5V
PWM DRIVE
7 EN ON/ 4 L1 VO
3
3 3 LOGIC 4
OFF
OVP SW
5v_ldo D1 C2
TSD 3
R1
5
6 COMP 8
7 0.5V FB
Amp
C3
UVLO R2
R3
GND SS
1 1
4 8
C5
Page 83 of 142
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SiI9135/9135A HDMI Receiver with Enhanced Audio and Deep Color Outputs
Data Sheet
Silicon Image, Inc.
Pin Diagram
Figure 2 shows the pin connections for the SiI9135 receiver in the 144-pin TQFP package. Packaging and pin
assignments are identical for the SiI9135A device.
SN74ALVCH16827
20-BIT BUFFER/DRIVER
WITH 3-STATE OUTPUTS
SCES041C – JULY 1995 – REVISED FEBRUARY 1999
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
FUNCTION TABLE
(each 10-bit section)
INPUTS OUTPUT
OE1 OE2 A Y
L L L L
L L H H
H X X Z
X H X Z
logic symbol†
1 &
1OE1
56 EN1
1OE2
28 &
2OE1
29 EN2
2OE2
55 2
1A1 1 1 1Y1
54 3
1A2 1Y2
52 5
1A3 1Y3
51 6
1A4 1Y4
49 8
1A5 1Y5
48 9
1A6 1Y6
47 10
1A7 1Y7
45 12
1A8 1Y8
44 13
1A9 1Y9
43 14
1A10 1Y10
42 15
2A1 1 2 2Y1
41 16
2A2 2Y2
40 17
2A3 2Y3
38 19
2A4 2Y4
37 20
2A5 2Y5
36 21
2A6 2Y6
34 23
2A7 2Y7
33 24
2A8 2Y8
31 26
2A9 2Y9
30 27
2A10 2Y10
† This symbol is in accordance with ANSI/IEEE Std 91-1984 and IEC Publication 617-12.
TC7MZ4051,4052,4053FK
Pin Assignment (top view)
TC7MZ4051FK TC7MZ4052FK
4 1 16 VCC 0Y 1 16 VCC
6 2 15 2 2Y 2 15 2X
COM 3 14 1 Y-COM 3 14 1X
7 4 13 0 3Y 4 13 X-COM
5 5 12 3 1Y 5 12 0X
INH 6 11 A INH 6 11 3X
VEE 7 10 B VEE 7 10 A
GND 8 9 C GND 8 9 B
TC7MZ4053FK
1Y 1 16 VCC
0Y 2 15 Y-COM
1Z 3 14 X-COM
Z-COM 4 13 1X
0Z 5 12 0X
INH 6 11 A
VEE 7 10 B
GND 8 9 C
Truth Table
Control Inputs “ON” Channel
Inhibit C* B A MZ4051FK MZ4052FK MZ4053FK
L L L L 0 0X, 0Y 0X, 0Y, 0Z
L L L H 1 1X, 1Y 1X, 0Y, 0Z
L L H L 2 2X, 2Y 0X, 1Y, 0Z
L L H H 3 3X, 3Y 1X, 1Y, 0Z
L H L L 4 ¾ 0X, 0Y, 1Z
L H L H 5 ¾ 1X, 0Y, 1Z
L H H L 6 ¾ 0X, 1Y, 1Z
L H H H 7 ¾ 1X, 1Y, 1Z
H X X X None None None
2 2001-10-23
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harman/kardon AVR 460/230 Service Manual
TC74HC4094AP/AF/AFN
TOSHIBA CMOS Digital Integrated Circuit Silicon Monolithic
TC74HC4094AP,TC74HC4094AF,TC74HC4094AFN
8-Bit Shift and Store Register (3-state)
Note: xxxFN (JEDEC SOP) is not available in
Japan.
The TC74HC4094A is a high speed CMOS 8-BIT SHIFT AND
TC74HC4094AP
STROBE REGISTER fabricated with silicon gate C2MOS
technology.
It achieves the high speed operation similar to equivalent
LSTTL while maintaining the CMOS low power dissipation.
It consists of an 8-bit shift register and an 8-bit latch with
3-state output buffers. Data is shifted serially though the shift
register on the positive going transition of the CK input. The
output of the last stage (Qs) can be used to cascade several
devices. Data on the Qs output is transferred to a second output
(Q’s) on the following negative transition of the CK input. The TC74HC4094AF
data in each stage of the shift register is provided to a
corresponding latch, on the negative going transition of the
STROBE input. When STROBE is held high, data propagates
through the latch to a 3-state output buffer. This buffer is
enabled when OUTPUT ENABLE input is set high.
All inputs are equipped with protection circuits against static
discharge or transient excess voltage.
Features
TC74HC4094AFN
• High speed: fmax = 73 MHz (typ.) at VCC = 5 V
• Low power dissipation: ICC = 4 μA (max) at Ta = 25°C
• High noise immunity: VNIH = VNIL = 28% VCC (min)
• Output drive capability: 10 LSTTL loads
• Symmetrical output impedance: |IOH| = IOL = 4 mA (min)
• ∼ tpHL
Balanced propagation delays: tpLH −
• Wide operating voltage range: VCC (opr) = 2 to 6 V
• Pin and function compatible with 4094B
Weight
DIP16-P-300-2.54A : 1.00 g (typ.)
Pin Assignment SOP16-P-300-1.27A : 0.18 g (typ.)
SOL16-P-150-1.27 : 0.13 g (typ.)
1 2007-10-01
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Page 91 of 142
harman/kardon
AVR 460/230 Service Manual
SLOS080J − SEPTEMBER 1978 − REVISED MARCH 2005
V CC+
1OUT
1OUT
4OUT
1IN−
4IN−
NC
NC
NC
NC
NC
NC
NC
NC
3 2 1 20 19 3 2 1 20 19
NC 4 18 NC 1IN+ 4 18 4IN+
3 2 1 20 19 1IN− 5 17 2OUT NC 5 17 NC
NC 4 18 NC NC 6 16 NC VCC+ 6 16 VCC−
IN− 5 17 VCC+ 1IN+ 7 15 2IN− NC 7 15 NC
NC 6 16 NC NC 8 14 NC 2IN+ 8 14 3IN+
IN+ 7 15 OUT 9 10 11 12 13 9 10 11 12 13
NC 8 14 NC
V CC−
2IN−
3IN−
2IN+
2OUT
NC
NC
NC
NC
3OUT
9 10 11 12 13
V CC−
NC
NC
OFFSET N2
NC
NC − No internal connection
symbols
TL071
TL072 (each amplifier)
OFFSET N1 TL074 (each amplifier)
IN+ + IN+ +
OUT OUT
IN− − IN− −
OFFSET N2
Page 3
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TMP92FD28
PF2/SCLK0/CTS0/CLK/TB0OUT0
PF5/SCLK1/CTS1/SPCLK
PN4/HSSO/SDA1/SO1
PN5/HSSI/SCL1/SI1
PN1/SDA0/TA3OUT
PN3/HSCLK/SCK1
PF3/TXD1/SPDO
PN2/SCL0/TA2IN
PF4/RXD1/SPDI
P76/USBPON
P75/USBOC
P77/X1USB
PF0/TXD0/
PF1/RXD0
DVCC3A
DVCC3A
DVSS
DVSS
AM0
PG0
PG1
PG2
PG3
D+
D-
100
95
90
80
85
/RESET 1 75 X1
PC0/INT0 DVSS
PC1/INT1 X2
PC2/INT2/TB1IN0/TB0IN0 AM1
PC3/INT3 5 P83/CS3/WAIT/TA5OUT
DVCC3B 70 P82/CS2
XT1 P80/CS0/TA1OUT/BOOT
XT2 P74/TA0IN
PWE P73/SRLUB
DVSS 10 P72/SRLLB
TMP92FD28FG
DVCC1B 65 P71/SRWR
RVOUT1 P70/RD
LQFP100
RVIN DVCC3A
RVIN DVSS
TOPVIEW
RVOUT2 15 P67/A23
DVCC1A 60 P66/A22
DVSS P65/A21
P00/D0 P64/A20
P01/D1 P63/A19
P02/D2 20 P62/A18
P03/D3 55 P61/A17
P04/D4 P60/A16
P05/D5 P57/A15
P06/D6 P56/A14
50
30
35
45
40
P07/D7 25 P55/A13
P11/D9
P40/A0
P46/A6
P50/A8
DVSS
DVCC3A
DVCC3A
P13/D11
P41/A1
P42/A2
P43/A3
P51/A9
P53/A11
P54/A12
P10/D8
P15/D13
P17/D15
P47/A7
P12/D10
P52/A10
DVSS
P14/D12
P44/A4
P45A5
P16/D14
92FD28-4 2007-01-30
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TMP92FD28
92FD28-6 2007-01-30
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TMP92FD28
92FD28-7 2007-01-30
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TMP92FD28
Note1) In Flash version, the regulator does not built. But supply voltage as DVCC3 power because RVIN
pins are used power supply pins.
Note2) In Flash version, voltage does not output from RVOUT1 and RVOUT2.
Note3) When using MASK version in combination with Flash version, connect RVOUT1 and DVCC1B,
RVOUT2 and DVCC1A.
When using only Flash version, connect DVCC1A and DVCC1B, RVOUT1 and RVOUT2 to VDD3
92FD28-8 2007-01-30
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harman/kardon AVR 460/230 Service Manual
(7 0 Ω ) E
Darlington
Silicon PNP Epitaxial Planar Transistor (Complement to type 2SD2390)
2SB1560 B
Equivalent circuit C
5.0±0.2
VCBO –160 V ICBO VCB=–160V –100max
2.0
1.8
9.6 2.0±0.1
19.9±0.3
4.0
IC –10 A hFE VCE=–4V, IC=–7A 5000min∗ a ø3.2±0.1
b
IB –1 A VCE(sat) IC=–7A, IB=–7mA –2.5max V
PC 100(Tc=25°C) W VBE(sat) IC=–7A, IB=–7mA –3.0max V
2
4.0max
20.0min
Tj 150 °C fr VCE=–12V, IE=2A 50typ MHz
3
Tstg –55 to +150 °C COB VCB=–10V, f=1MHz 230typ pF 1.05 +0.2 0.65 +0.2
-0.1 -0.1
VCC RL IC VBB1 VBB2 IB1 IB2 ton tstg tf Weight : Approx 6.0g
(V) (Ω) (A) (V) (V) (mA) (mA) (µs) (µs) (µs) a. Type No.
–70 10 –7 –10 5 –7 7 0.8typ 3.0typ 1.2typ b. Lot No.
–10 . 5m –3 –10
–2 mA
mA
– 2 .0
–10
–1 .5m A
–8 –1. 2mA –8
–2
–6 –0.8m A –6
–10A
–0.6m A
–7A
mp)
)
Temp
)
–4 –4
Temp
I B =–0.4mA I C =–5A
e Te
–1
(Case
(Cas
(Case
125˚C
–2 –2
–30˚C
25˚C
0 0 0
0 –2 –4 –6 –0.2 –0.5 –1 –5 –10 –50 –100 –200 0 –1 –2 –2.5
Collector-Emitter Voltage V C E (V) Base Current I B (mA) Base-Emittor Voltage V B E (V)
(V C E =–4V) (V C E =–4V)
40,000 50000 3
125˚C
DC Curr ent Gain h F E
Typ
10000 25˚C 1
10,000
1000
10
Maxim um Power Dissipation P C (W)
10 m
80 –10 0m s
Cut- off F req uency f T (M H Z )
s
W
–5 DC
ith
Co lle ctor Cu rre nt I C ( A)
In
fin
60 Typ
ite
he
50
at
–1
si
nk
40
–0.5
Without Heatsink
20 Natural Cooling
–0.1
Without Heatsink
3.5
0 –0.05 0
0.02 0.05 0.1 0.5 1 5 10 –3 –5 –10 –50 –100 –200 0 25 50 75 100 125 150
Emitter Current I E (A) Collector-Emitter Voltage V C E (V) Ambient Temperature Ta(˚C)
47
Page 98 of 142
harman/kardon AVR 460/230 Service Manual
Equivalent circuit C
2SD2390
B
Darlington (7 0 Ω )
E
Silicon NPN Triple Diffused Planar Transistor (Complement to type 2SB1560) Application : Audio, Series Regulator and General Purpose
■Absolute maximum ratings (Ta=25°C) ■Electrical Characteristics (Ta=25°C) External Dimensions MT-100(TO3P)
Symbol 2SD2390 Unit Symbol Conditions 2SD2390 Unit
VCBO 160 V ICBO VCB=160V 100max µA 15.6±0.4 4.8±0.2
5.0±0.2
2.0
1.8
9.6 2.0±0.1
VCEO 150 V IEBO VEB=5V 100max µA
VEBO 5 V V(BR)CEO IC=30mA 150min V
19.9±0.3
5000min∗
4.0
IC 10 A hFE VCE=4V, IC=7A a ø3.2±0.1
4.0max
20.0min
Tj 150 °C fT VCE=12V, IE=–2A 55typ MHz
3
Tstg –55 to +150 °C COB VCB=10V, f=1MHz 95typ pF
1.05 +0.2
-0.1 0.65 +0.2
-0.1
VCC RL IC VBB1 VBB2 IB1 IB2 ton tstg tf Weight : Approx 2.0g
(V) (Ω) (A) (V) (V) (mA) (mA) (µs) (µs) (µs) a. Type No.
70 10 7 10 –5 7 –7 0.5typ 10.0typ 1.1typ b. Lot No.
10 3 10
A
A
10 m A
2m 1. 5m A
5m
2.
8 1.2 mA 8
1m A
2
6 6
0.8mA
I C =10A
0.6mA I C =7A
p)
mp)
mp)
4 4
Tem
I C =5A
e Te
e Te
1
se
(Cas
(Cas
(Ca
I B =0.4mA
2 2
˚C
25˚C
–30˚C
125
0 0 0
0 2 4 6 0.2 0.5 1 5 10 50 100 200 0 1 2 2.5
Collector-Emitter Voltage V C E (V) Base Current I B (mA) Base-Emittor Voltage V B E (V)
(V C E =4V) (V C E =4V)
40000 70000 3
50000
125˚C
D C Cur r ent Gai n h F E
Typ
Transient Thermal Resistance
1
10000 10000 25˚C
5000 0.5
5000 –30˚C
1000
80 10 10
0m
Cut- off F req uency f T (M H Z )
5 DC s
ith
Collect or Cur ren t I C (A)
In
Typ
fin
60
ite
he
50
at
1
si
nk
40
0.5
Without Heatsink
20 Natural Cooling
0.1
Without Heatsink
3.5
0 0.05 0
–0.02 –0.1 –1 –10 3 5 10 50 100 200 0 25 50 75 100 125 150
Emitter Current I E (A) Collector-Emitter Voltage V C E (V) Ambient Temperature Ta(˚C)
149
Page 99 of 142
harman/kardon AVR 460/230 Service Manual
SEMICONDUCTOR KTA1360
TECHNICAL DATA TRIPLE DIFFUSED PNP TRANSISTOR
SEMICONDUCTOR KTC812T
TECHNICAL DATA EPITAXIAL PLANAR NPN TRANSISTOR
FEATURES E
G
2 5 _ 0.1
Low on Resistance : RON=1 (Typ.), (IB=5mA) D 0.4 +
F
E 2.8+0.2/-0.3
A
3 4 F _ 0.2
1.9 +
G
G 0.95
D
H _ 0.05
0.16 +
MAXIMUM RATING (Ta=25 ) I 0.00-0.10
J 0.25+0.25/-0.15
CHARACTERISTIC SYMBOL RATING UNIT K 0.60
L
L 0.55
Collector-Base Voltage VCBO 50 V I H
J J
Collector-Emitter Voltage VCEO 20 V
1. Q 1 EMITTER
Emitter-Base Voltage VEBO 25 V 2. Q 1 BASE
3. Q 2 COLLECTOR
Collector Current IC 300 mA 4. Q 2 EMITTER
5. Q 2 BASE
IB 6. Q 1 COLLECTOR
Base Current 60 mA
Collector Power Dissipation PC * 0.9 mW
Junction Temperature Tj 150 TS6
Storage Temperature Range Tstg -55 150
* Package mounted on a ceramic board (600 0.8 )
Q1 Q2 Type Name
M
1 2 3
1 2 3
10V
Storage Time tstg - 500 - nS
Time
3kΩ
50Ω
1µs
Fall Time tf VCC =12V - 130 -
DUTY CYCLE <
= 2% VBB =-3V
SEMICONDUCTOR KTC3423
TECHNICAL DATA TRIPLE DIFFUSED NPN TRANSISTOR
µPA672T
N-CHANNEL MOS FET ARRAY
FOR SWITCHING
FEATURES
6 5 4
1.25 ±0.1
2.1 ±0.1
• Two MOS FET circuits in package the same size as
SC-70 0 to 0.1
0.7
0.65 0.65
1.3 0.9 ±0.1
2.0 ±0.2
PIN CONNECTION
6 5 4
1. Source 1 (S1)
2. Gate 1 (G1)
3. Drain 2 (D2)
4. Source 2 (S2)
5. Gate 2 (G2)
6. Drain 1 (D1)
1 2 3 Marking: MA
6 5 4 3 2 1
* OPTION *
AVR3600 & AVR460
VOL.IC & Multi Vol.IC CONT. TO CODEC IC 8-CHANNEL ELECTRONIC VOLUME WITH INPUT SELECTOR AVR2600, AVR3600, AVR360/230 & AVR460/230 BLOCK DIAGRAM
AD+RT
AD+LT
AD-RT
AD-LT
MIC_AMP HP_IN
All Models A-BUS OUT
NJW1159M
8dB AMP
NJW1197CF (AVR1600 & AVR160)
8CH PRE-OUT
+8dB MIC SIG. +40dB
RJ45 JACK
have Tuner Module. 2CH
VOL NJW1298FU1 (AVR2600, AVR3600, AVR360 & AVR460)) (AVR3600 & AVR460) MAIN AMP HP_AMP
+12V
MULTI_OUT P-AMP
H_PHONE OUT
- FRONT L +29dB
TUNER L/R
+ or MIC_INPUT
TONE
PRE AMP
MULTI & A-BUS MUTE
TUNER FRONT L P-AMP
FRONT R +29dB
D MODULE TUNER MUTE FL/R
D
8 CHANNEL INPUT
1
+
- P-AMP -
FL
TUNER CONT. SL/R + SBL/MULTI L +29dB
2
ANALOG5 IN
9
Or DVD IN P-AMP
- SURR R +29dB
+ 10
ANALOG4 IN
Or VIDEO1 IN PRE AMP
1
ANALOG4 OUT SURR R P-AMP
CEN +29dB 2
SL
Or VIDEO1 OUT DC/OVER CURRENT
ANALOG3 IN - SENS 3
+ Temp. Sensor
Or VIDEO2 IN SR
4
PRE AMP
ANALOG2 IN POWER MUTE HEAT2
CEN TEMP I/F
5
Or TAPE IN CEN
* OPTION (AVR2600, AVR3600, AVR360 & AVR460) 6
ANALOG2 OUT -
Or TAPE OUT + TO USB IPOD TO HDMI PART
PART +8V +1.8V, +3.3V PROTECT
C ANALOG 1 IN PRE AMP SUBWOOFER
+5V REGULATOR IC C
(+5V)
Or CD IN ( All Models )
+8V
ANALOG FRONT IN
Or VIDEO3 IN - * OPTION(AVR1600 & AVR160) DC DC
+
TO HDMI PART(DC DC CIRCUITS) CIRCUITS
TUNER IN PRE AMP TO VIDEO PART
SBL/MULTI L
REGULATOR IC
ONLY TO INPUT PART
USA VER. +5VD (+5V)
Sirius IN
* OPTION - * OPTION (AVR3600 & AVR460)
AVR2600 & AVR3600 + TO INPUT PART
PULL UP FOR MUTE TO A-BUS PART
STEREO IN
AC IN
* OPTION PRE AMP +24V DC POWER
AVR1600 & AVR160 SBR/MULTI R TO HDMI, VIDEO & USB IPOD PART
REGULATOR IC
-5VD * OPTIONAL ACCESSORY *
* OPTION IPod IN MIC IN (-5V)
AVR2600 & AVR360 TO INPUT PART
AVR3600 & AVR460 REGULATOR IC
FUNC. MUTE ST+5V (+5V)
-15V REGULATOR IC
HDMI_IN1 HDMI_IN2 HDMI_IN3 HDMI_IN4 HDMI_OUT TO INPUT & USB iPod PART
( 15V) POWER DOWN
RESET IC
+15V (+2.8V)
D_SW
D_SBR
D_SR
D_FR
D_CNT
D_SBL
D_SL
D_FL
*OPTION* (AVR2600, AVR3600, AVR360 & AVR460) TO INPUT PART POWER S/W
REGULATOR IC TO HDMI PART
+9V +6V 3
* OPTION * (Or ~ ) (+9V)
D_SW
D_SBR
THE BRIDGE IlI IN
D_CNT
D_SBL
FROM iPod I2S/DSP_SPDIF
SII9134 (AVR1600 & AVR160)
D_SR
D_FR
POWER HIGH
D_SL
D_FL
( iPod CVBS ) SUB TRANS
COAX.&OPT. FRONT +VCC(DC) 1
(HDMI TX) UNBAL
SII9185
TMDS Signal
POWER FAIL
ADUTA1+
ADUTB1+
ADUTA2+
ADUTB2+
ADUTA3+
ADUTB3+
ADUTA4+
ADUTB4+
Or COAX.3 & OPT.3
ADUTA1-
ADUTB1-
ADUTA2-
ADUTB2-
ADUTA3-
ADUTB3-
ADUTA4-
ADUTB4-
DETECT
COMPOSITE FRONT IN FROM FRONT HDMI CEC (SW IC) OPT.1 -VCC(DC) * OPTION
*OPTION* (AVR2600, AVR3600, AVR360 & AVR460) (AVR2600 & AVR360)
OPT.2
COMPOSITE (CVBS) IN
A IN L+/-
CONT AVR3600 LT 34V(DC) REGULATOR
RED
OPT.3
B CVBS 2 IN
FRONT VIDEO
+6dB DRV CVBS & AVR460 114dB, 192 kHz 8-CH CODEC WITH S/PDIF RECEIVER CIRCUITS AC OUTLET BLACK OR BROWN B
FLI30336 ANALOG INPUT
RT
AC IN
V3 74VCX541 AD IN R+/- 1
HDMI MCLK I2S 4.9V(AC) LIVE
CVBS 2 OUT V2 SII9135 HDMI SCLK 1
2
BLK
VH
HDMI LRCK
F2
F1
V1 +6dB DRV COAX.1
CX_LRCK1(DSP2_LRCK)
NEUTRAL WHITE OR BLUE
CX_SCLK1(DSP2_SCLK)
(HDMI RX) HDMI SD OPTAL BUFFER
DIN
FL/FR
CEN/SUB
SL/SR
SBL/SBR
CVBS 1 IN
DIGITAL VIDEO
SAI_SDOUT
SAI_LRCK
SAI_SCLK
27.000MHz
SDIN1
SDIN2
SDIN3
SDIN4
RM CLK
SN74ALVCH16827 1 2 3 4
HDMI MCLK
REMOTE SENSOR
CODEC CONT. CODEC RST.
FL DISPLAY
SN74ALVCH16827
COMPOSITE FRONT
Buffer & S/W HDMI SW2
ANALOG FRONT
OMCK
USB PORT
2EA KEY MATRIX
Or VIDEO3 IN
AMBER/WHITE
COAX.FRONT
Or VIDEO3 IN
OPT.FRONT
* OPTION *
MOMS SWITCH
DSP RST.
Or COAX.3
QUAD 2-CH MUX HDMI SW1
Or OPT.3
STANDBY
DIGITAL VIDEO 74VCX541
COMPO COMPO KEY1~2 (WHITE)
INPUT2 INPUT1 FLI30336 ANALOG INPUT MAX : 30bit
I2S/DSP_SPDIF
DAOMCLK VOLUME Indicator
Y1
COMPONENT IN
Y Y
DAOMCLK
XOUT
(CS1,IRQ1,BSY,SDA,CLK,DSP DATA)
DAI2LRCK
DAI2_DATA
DAI2_SCLK
DAOMCLK
DSP XTAL OUT
Cr1 19.6608MHz
Cr Cr
DSP2
ZONE2(MULTI) IN
I2S
IR(REMOTE) IN
LRCLK0 LRCLK0
TUNER CONT.
M/P ANAM
VFD CONT.
SCLK0 SCLK0
DMP DET.
Torino Up-date ** EEP_ROM **
VOL EN
DSP AUDATA3 AUDATA3
CS49DV8C
MIC IN
HP IN
MULTI. LAB
KEY
ADV7342 AUDATA2 AUDATA2 FOR BACK-UP MEMORY.
UART RX/TX
10MHz
Torino Up-date
CS497024
COMPONENT MONITOR OUT
XIN
TMP92FD28FG VOL.IC & Multi Vol.IC CONT. EEPROM (32 Kbit)
XOUT
TORINO MCU RST
Dolby Volume
USB
XOUT
XIN
Cb
COMP_Cb_OUTPUT CVBS_OUT
32M USB IDLE HDMI CONT.
MCU Update & UART CONT.
T5CN5 POWER FAIL IN
POWER DOWN
1 3 5 7
DSP2 CONT.
DSP2 RST.
Y_OUT
Cb_OUT 6dB 9MHz 32.768KHZ iPod & Buffer IC UART CONT.
M12L16161A SPI Serial Flash SPI Serial Flash POWER HIGH
COMP_Cr_OUTPUT Cr_OUT
Cr
IPOD COMPONENT_Y/Cb/Cr
iPod & Buffer IC UART CONT.
16M SDRAM 8 Mbit 4 Mbit TORINO UART CONT. 32bit u-COM CODEC RST.
SCHEMATIC DIAGRAM SHEET
32M RST.
HDMI MUTE
HDMI SW1
HP MUTE
HDMI SW2
POWER MUTE
SB MUTE
FUNC MUTE
TUNER MUTE
Sirius
HDMI CEC
CARR. OUT
VOLUME IC MUTE
AVR3600,460
RX/TX SIRIUS CONT.
VIDEO SWITCHING CONTROL A-BUS OUT
TC74HC4094AFN SIRIUS RST.
32M (FLASH MEMORY) RST.
SIRIUS RST.
8-Bit Shift and
Store Register
COMUNICATION BETWEEN TORINO AND MCU WITH UART RX/TX J.H.Lee W.Y.Yang G.S.Wey BLOCK DIAGRAM
USB IDLE EXT CLK, DATA & CE BY MCU
6 5 4 3 2 1
CN54 (5P) : FOR DEBUG (Torino F/W Update) 17P Card Cable
D OPTION 7 P Wire Ass'y D
AC IN Plug
PCB 6P Board to Board
( CUP12172-3 )
BN17 CN17
Input (DSP) PCB CN15
( CUP12176 )
OPTION MONS 7P Wire Ass'y 31P Card Cable
(AVR2600 & AVR360) SWITCH CN20 BN72
BN12
DC-FAN
BN22
Power1
CN20
5P Wire Ass'y
CN90
BN20 Main PCB ( CUP12170 ) CN12
BN26A JW91_ BN25A
JW93 2P 2P 2P
PCB BN14 BN15
5P CN93
JW93_
( CUP12172-2 )
CN89 FAN
CN92
B AC POWER CORD B
BN14A BN15A
7P Wire Ass'y
Power2
CN11
DC-FAN
Front in M/P
CN82 THERMAL SENSOR
( CUP12172-5 )
2009.07.01
9P Wire Ass'y
H/P PCB
7P Wire Ass'y ( CUP12168-3 )
BN20
CN72
CN61 BN74 CN74 WIRING DIAGRAM SHEET
5P Wire Ass'y BN71
Front PCB 31P Card Cable MODEL
AVR2600 & AVR360/230 1
6 5 4 3 2 1
CUP12177*
R229~R252 : 470K ==> 100K
R319
2009.02.16 HPL-OUT L-OUT
560
10 +15V
+15V
1 MULTI_VOL_L
C260 0.1uF R301 R321 C341 C281 R281 C371 C389 R381 R320
R531 VOL01
ANA1-L VOL[01:08] DAC02
R260 4.7 ISIG13 D_FR- L-OUT
VOL-L 5.1K 560 0 FUNC_MUTE2
+7V DAC-R 10/50V
VOL01
VOL02
VOL03
VOL04
VOL05
VOL06
VOL07
VOL08
1.5K 5.1K 10/50V 10/50V
1500P
1500P
1.2K 10/50V
2.4K
R271
ZONE2 OUT
C301
C531
1800P
1SS355 C391 FUNC_MUTE2
C532
D201 ISIG14 ANA1_R
R322 C321
1SS355
3.9K
3.9K
R391
R342
D202
ANA2-L R302 R532 R341 150P
ISIG15 1.2K
3 D_FR+ 560p
MULTI_VOL_R
D ISIG16 ANA2_R 1.2K
*option 1.5K 1.2K D
0.022u
R389
180K
560p
1000P
0.022u
1000P
5 6 7 8
0.022u
C351
C309
C322
5 6 7 8
R371
5 6 7 8
180K
180K
C370
100K
R261
R291
C381
4 5 6 4 5 6
5.1K
R361
C317
HVTKTC812TB
HVTKTC812TB
MIC_SIGNAL
IC31 IC21 IC25
Q301
Q302
R203 ANA1-L ISIG13
4
0.022u
ISIG19 ANA3_L
0.022u
100
180K
R262
C382
3 2 1 3 2 1
560p
0.022u
1000P
R372
C369
1000P
C323
100K
180K
R292
R390
C350
C310
5.1K
R229
R362
C203
220P
100K
180K
ISIG20 ANA3_R
4 3 2 1 4 3 2 1 4 3 2 1
ANALOG 1
C337
ISIG21 ANA4_L C392
T-REC-L R303 *option
R392
R343
R533 R344
3.9K
3.9K
SIRIUS_R
SIRIUS_L
D_FL+
IPOD_R
R204 C324
IPOD_L
ANA1_R ANA4_R R323
DAC01
ISIG22 150P
DAC02
6 ISIG14
1.5K 1.2K
1500P
1500P
1800P
0.1uF 1.2K
2.4K
R272
C277
C533
C302
C534
100 1.2K 560p R339
R259 4.7 ANA5_L
R230
220P
C204
100K
ISIG23 R304 R534 R324 C342 C282 R282 C372 C390 R382 FUNC_MUTE2 0 FUNC_MUTE2
D203 D_FL- DAC01 VOL02 -15V
R-OUT
D204 ISIG24 ANA5_R 1.5K 5.1K DAC-L VOL-R 10/50V 10/50V 10/50V 560
T-REC-R 1.2K 10/50V 5.1K
TUNER-R
TUNER-L
ANAF_R
1SS355
ANAF-L
R340
R205 +15V
7 1SS355
ANA2-REC-L ISIG01 -7V HPR-OUT R-OUT
-15V 560
100 R305 R328 C343 C283 C373
DAC08 R283 R383
R231
VOL-R
C205
VOL-SR
VOL-BR
100K
220P
VOL03
VOL-SW
VOL-C
VOL-L
VOL-SL
VOL-BL
D_SW-
+7V C-OUT
R/O 2.7K 10K 10/50V DAC-SW VOL-C
10/50V 5.1K 10/50V 560 AVR360/3600 ONLY
1500P
1800P
R393
2.4K
R273
C303
C535
R326 C325 C393
FUNC_MUTE2
9
R206
ANA2-REC-R ISIG02 R306 R345
1.2K 560p 150P
3.9K DO NOT INSERT R320, R339
D_SW+
100
JK11 11 2.7K 1.2K
R232
C206
100K
220P
1000P
1000P
0.022u
R374
560p
5 6 7 8
C352
C311
0.022u
C326
100K
10K
R363
C318
5 6 7 8
180K
180K
R263
R293
C383
ANALOG 2 4 5 6
HVTKTC812TB
IC32 Q311
R207 IC22 R318
R13IN
L13IN
ANA2-L ISIG15
Q303
FUNC_MUTE2
0.022u
100 3.9K
0.022u
R233
1000P
LOUT
C207
100K
220P
R373
1000P
560p
180K
100K
R264
C384
5.1K
R364
C353
C312
C327
C2874B
180K
30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
R294
+7V 3 2 1
P/B REC_A1L 100 4 3 2 1 4 3 2 1
R1IN
GND
GND
ISIG01
L1IN
R11IN
C338
GND
L11IN
R2IN
L2IN
R7IN
R6IN
R5IN
R4IN
R3IN
R10IN
L7IN
L6IN
L3IN
31
L10IN
R9IN
R8IN
R12IN
L9IN
L8IN
L5IN
L4IN
L12IN
ROUT
99 R307 R348 C394
R208 ISIG02 REC_A1R
ANA2-R ISIG16 32 D_CT+ C328
R394
R327
3.9K
COUT 98 2.7K 1000P
C278 0.1uF ISIG03 1.2K
1500P
1800P
100 33 REC_A2L
C304
C536
2.2K
R274
4.7 LSOUT 97 1.2K 560p
100K
R234
C208
R258
220P
ISIG04 34 C344
100/16V
REC_A2R R308 R325
0.1uF
C284 C374
C291
D205 R284 R384 R317
C292
RSOUT 96 D_CT- DAC03 VOL08 FUNC_MUTE2
D206 MULTI_PRE_L 35 REC_B1L DAC-C SW-OUT
2.7K 5.1K 10/50V VOL-SW 9.1K 560 560
1SS355 LBOUT 95 10/50V 10/50V
R209 MULTI_PRE_R 36 REC_B1R
1SS355 ANA3-L ISIG19 -7V +15V
RBOUT 94
100 37 -7V
REC_C1L
BN12
R309 R329 C345 C285 -15V C375
SWOUT 93 R285 R385
R235
C209
100K
220P
D_SR- DAC05
IC20 VOL04
1
38 REC_C1R P_M
ANALOG 3 R280 100
C271 10/50V V+ 92 2.7K 5.1K +7V 10/50V DAC-SR VOL-SL 10/50V 5.1K 10/50V 560
SL-OUT
1500P
1800P
PROTECT_IN
2
AD+LIN 39 FL+ C329
2.4K
R275
CVINJW1298FU1
C305
R330
C537
C395 R395
R279 100 -V 91
R210 FUNC_MUTE2
3
ANA3-R ISIG20 AD-LIN 40 FL- R349 POWER_HIGH
C295 R310 1.2K 560p 150P 3.9K
GND 90
100/16V
C273
0.1uF
10/50V
C294
C293
D_SR+
4
100 2700p 41 GND P_FAIL
GND 89 2.7K
R236
1.2K
C210
100K
220P
POWER_DOWN
5
560p
42
1000P
1000P
0.022u
R375
GND
C354
C313
C330
5 6 7 8
0.022u
100K
5.1K
R365
C319
5 6 7 8
180K
180K
GND 88
R265
R295
C385
RN92 4 5 6 MUTE_POWER
6
C296 43 GND
HVTKTC812TB
R289 100 C272 10/50V ADR 87 100X4
R211 AD+RIN 2700p IC33 IC23
7
ANA4_REC_L ISIG03 44 FR+
Q304
R290 LATCH 86 1298_LATCH
4
100
0.022u
8
100 AD-RIN 45 FR-
85 1298/1159_CLK
3
C270 CLOCK
R237
C211
220P
100K
10/50V
0.022u
1000P
1000P
560p
180K
9
R376
46
100K
R266
C355
C314
C331
C386
R366
GND
R/O
5.1K
180K
R296
C275 DATA 84 1298/1159_DATA 3 2 1
2
4 3 2 1
10
47 DCL_IN 4 3 2 1
C339
DCCAP_SW
83 1298_MUTE
DCCAP_RB
DCCAP_RS
1
10/16V MUTE
DCCAP_LB
DCCAP_LS
DCL_OUT C396
11
DCCAP_C
R212 48 C261 R311 R352
VDDOUT
R396
SWBIN
SWAIN
82 C332
RBCIN
RSCIN
RBBIN
RSBIN
RBAIN
RSAIN
R331
C C
LBCIN
LSCIN
LBBIN
LSBIN
LBAIN
LSAIN
3.9K
0.1uF DCCAP_L
RBIN
RAIN
12
CBIN
CAIN
C279
GND
GND
LBIN
LAIN
100 49 GND 47/25V 2.7K 1.2K 150P SW-OUT
1500P
1800P
C306
C538
81
2.4K
R276
R238
4.7
C212
220P
100K
13
TO MAIN B'D
50 C262 C346
ANALOG 4 D207 1SS355 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80
47/25V
R312 -7V R332
DAC04 C286
-15V R286 C376 R386 FUNC_MUTE2 SL
14
D_SL- VOL05 SR-OUT SL-OUT
D208 1SS355 C276 DAC-SL
2.7K 5.1K 10/50V VOL-SR 10/50V 5.1K 10/50V 560
15
R213
ANA4-L ISIG21
C
DCR_OUT
10/16V
16
100 C-OUT
C347
R239
C213
R313 R333
220P
47/25V
C287 C377
100K
17
47/25V
47/25V
R287 R387
47/25V
DAC07
47/25V
D_BR-
47/25V
1500P
2.7K VOL-BL 5.1K
18
10/50V
1800P
+7V 10/50V 10/50V 560 SR-OUT
C307
C539
R334 C333
2.4K
R277
C397 R397
19
C274
R214 R353
C268
R314
C267
C264
C265
ANA4-R
C266
ISIG22 SB_MUTE2
C263
D_BR+ 1.2K 560p FL
DAC-L 150P 3.9K
20
100 DAC01 L-OUT
2.7K 1.2K
R240
C214
220P
100K
DAC-R
21
DAC02
1000P
1000P
0.022u
560p
C356
C315
R377
5 6 7 8 SBL
C334
0.022u
100K
5.1K
R367
C320
5 6 7 8
180K
180K
R267
R297
C387
22
DAC-C DAC03 SBL-OUT
4 5 6
HVTKTC812TB
-7V
MULTI_PRE_R
MULTI_PRE_L
23
R215 DAC-SL DAC04 IC34
ANA5_L
DAC[01:08]
ISIG23 IC24
FR
Q305
24
100 +7V +8V IC36 +15V DAC-SR R-OUT
0.022u
HVIKIA7808API DAC05
R241
C215
100K
220P
25
0.022u
DAC-BL
ANALOG 5
180K
DAC06
1000P
100K
R268
1000P
560p
C388
R378
R368
SBR
C357
C316
C335
180K
5.1K
R298
D221 3 2 1
26
+15V DAC-BR
4 3 2 1 4 3 2 1 SBR-OUT
3 OUT IN 1 DAC07
C340
27
R216 1N4003ST C398
ANA5_R ISIG24 DAC-SW R315 R356
DAC08 D_BL+
R398
C336
C228
0.1uF
C227
0.1uF
3.9K
100 C280 0.1uF COMMON R335
2.7K 1.2K 150p
1500P
1800P
4.7
220P
R242
C216
C308
R256
100K
C540
ISIG[01:35]
8CH-L
2.4K
R278
2 8CH01 1.2K 560p
C288 R288 C378 R388
D209 1SS355 R316 R336 C348 VOL07 SB_MUTE2
8CH-R 8CH02 DAC06 SBR-OUT
D_BL-
D210 1SS355 VOL-BR 10/50V 5.1K 10/50V 560
8CH Lch
CN52
-7V -8V -15V 8CH-SL 8CH04
1
IC37 ANAF-L
CVIKIA7908PI 8CH-SR -7V -15V
8CH05
8CH-SBL 8CH06
2
D222
-15V 8CH-SBR 8CH07
3 OUT IN 2
8CH-SUB
3
C289 0.1uF 1N4003ST 8CH08 ANAF_R
0.1uF
C230
0.1uF
L301
R219 8CH-L R354
8
8CH01
1
TUNER-L 4 3 L-OUT
3900P
100 300
C358
TUNER_MUTE
R245
C219
220P
100K
4700P
2
8200pF
Q734 MUTE_POWER R-OUT
A107S
Q307
6 1
TUNER MODULE
R350
SB_MUTE
4.7K
3
R220
+5VD VCC
8CH-R
R355
8CH02
27K
C360
C359
0.022u
100/16V
C362
C361
4
100
C107S
TUNER_SCL SCLK
6.8K
3.3K
5.6K
5.6K
R909
R960
R992
R967
R246
220P
C220
C107S
C107S
C107S
100K
Q998
C107S
Q994
Q991
6 5 4
Q951
HVTKTC812TB
5
TUNER_SDA SDIO
R337
4.5V
4.5V
Q306
L302
4.5V
4.5V
R221 -15V R369 TUNER_CE
6
8CH-SL /SEN
8
8CH04
8CH SLch 100K
4 3 TUNER_RESET
3900P
R969
Q732 R338
10K
100 300
C364
Q993 Q952 Q992 Q997 1 2 3
7
/RST
R247
C221
100K
220P
4700P
8200pF
1K
MULTI_MUTE
C363
0.01
6 1
8
TUNED GPIO2
R351
4.7K
R222 8CH-SR
TUN1
8CH05 C107S
8CH SRch
C366
C365
A107S
R370
A107S A107S A107S
27K
C290 0.1uF
100
4.7 SB_MUTE2
B B
R248
C222
100K
220P
R254
CN20
8CH Cch
1
100 HP_MUTE MULTI_MUTE2
100K
R249
C223
220P
2
C107S
3
R224 8CH-SUB 8CH08
8CH SUB
R910
R968
R907
R932
4.7K
R966
1M
1M
R908
1M
10K
10K
1M
C299 0.1uF
2.7K
4
4.7
R250
C224
R253
220P
10K
5
D216 1SS355
R225 8CH-SBL FUNC_MUTE
6
8CH06
8CH SBL 100 -15V P_U
R251
220P
C225
100K
7
C107S
8
R226 8CH-SBR 8CH07
8CH SBR
9
100
R252
220P
C226
100K
JK14
JW70_1
JW70
8CH[01:08]
J102
J101
** IMPORTANT SAFETY NOTICS.
6 5 4 3 2 1
CUP12177*
+3V3 +1V8 +3V3 +1V8
DA16
DA17
DA18
DA19
DA20
DA21
DA22
DA23
DA24
DA7
DA6
DA5
DA4
DA3
DA2
DA1
DA0
CS497** VDDIO * 8EA CS497** VDD * 8EA CS49DV8C VDDIO * 8EA CS49DV8C VDD * 8EA
100/16V
100/16V
100/16V
100/16V
220/16V
0.1uF
0.1uF
0.1uF
+3V3
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
+3V3
0.1uF
0.1uF
0.1uF
C641
C643
C646
C648
C653
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
C642
C644
C645
C647
C649
C650
C651
C652
C654
C655
C656
0.1uF
0.1uF
0.1uF
0.1uF
0.1uF
C601
C614
C613
C612
C611
C603
C621
C619
C609
C605
C631
C629
C627
C623
C617
C615
C607
C628
C630
C626
C625
D D
C762
C763
0.1uF
DQ11 0.1uF
UDQM
VDDQ
VSSQ
VSSQ
VDDQ
DQ15
DQ14
DQ13
DQ12
DQ10
CKE
DQ9
DQ8
VSS
CLK
NC
NC
A9
A8
A7
A6
A5
A4
VSS
50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26
IC44 CVIM12L16161A5TG
DIR_RESET 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
VDD
DQ0
DQ1
VSSQ
DQ2
DQ3
VDDQ
DQ4
DQ5
VSSQ
DQ6
DQ7
VDDQ
LDQM
_WE
_CAS
_RAS
_CS
BA
A10/AP
A0
A1
A2
A3
VDD
DIR_CE
DSPDATA 0.1uF
C761
0.1uF
D_OUT
C759
C760
+3V3
0.1uF
C758
0.1uF
SCP1_BSY
DSPCLK
COAX4 SCP1_CS
DA[0:50]
CN17
+3V3
+3V3
DA10
DA11
DA12
DA13
DA15
+3V3
SCP1_IRQ
DA8
DA9
DA14
DA35
DA34
DA33
DA32
DA31
DA30
DA29
DA28
DA27
DA26
DA25
2
F_COAX
SCP1_SDA
+5VD R714 R716 R777
+5VD DSP1_RESET
4
100K 4.7K
+3V3 100
OPT3
0.1uF
1 2 3 4 5 6 7 +3V3
C743
HVI74HCU04AFNG
OPT2 +3V3
6
OPT1
IC40
3.3K
470/10V
3.3K
0.047u
0.1uF
C724
C723
R811
C820
R810
SCP2_CS
10K
R773
10K
3.3K
0.1uF
R602
R615
C659
3.3K
R603
10K
R775
R605
R776
10K
14 13 12 11 10 9 8
3.3K
3.3K
3.3K
DA[0:50] SCP2_IRQ
R715
R801
R800
DA31
DA32
DA33
DA34
DA30
DA29
SCP1_BSY
100K COAX_OUT
R763
4.7K
DSPCLK
F_OPT
1 2 3 4 SCP1_SDA
5 6 7 8 5 6 7 8
33X4
33X4
R721 33
OPT4 CS SO WP VSS 1 2 3 4
DSPDATA
R724 100
CS SO WP VSS R601
JK78 IC42 CVIST25VF080B504CS2F
R728 DSP2_RESET
RN76
RN77
1K CVIST25VF080B504CS2F
C657
0.1uF
C796 100
R733 R736 VDD HOLD SCK SI 1 2 3 4 1 2 3 4 IC45
1000P
SD_BA1/EXT_A14
SD_BA0/EXT_A13
R755
SD_A10/EXT_A10
C793
100P
R812 8 7 6 5
SCP1_MISO/SDA
SD_BA1/EXT_A14
SD_BA0/EXT_A13
75
SD_A10/EXT_A10
SCP1_PCP_BSY
SCP1_MISO/SDA
SCP1_PCP_BSY
R604
SCP1_MOSI
CRJ10DJ1R0T
C707
SCP1_MOSI
CRJ10DJ1R0T
SCP1_CLK
EXT_CS1#
108 SD_CAS#
SD_RAS#
10K
EXT_OE#
EXT_A15
SCP1_CLK
EXT_CS1#
SD_WE#
EXT_A19
EXT_A18
EXT_A17
EXT_A16
SD_CAS#
SD_RAS#
GNDIO5
SD_CS#
EXT_OE#
GNDIO6
EXT_A15
VDDIO6
SD_WE#
EXT_A19
EXT_A18
EXT_A17
EXT_A16
GNDD6
C797
GNDD5
GNDIO5
RESET
SD_CS#
GNDIO6
VDDIO6
GNDD6
GNDD5
VDD5
HDMI SPDIF MODE : DIR MASTER
RESET
VDD6
10K
VDD5
VDD6
COX1 COAX1 +3V3
0.1uF
180P
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
107
106
105
104
103
HDMI I2S MODE : HDMI MASTER
R756
C794
+3V3
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
75
R774 33 DA28
PCPDS/SCP2_CK SD_A0/EXT_A0 R737 R606
1
C798 ADC MODE : DSP MASTER 3.3K AS/SCP2_MISO SD_A1/EXT_A1 3.3K AS/SCP2_MISO SD_A1/EXT_A1
2
COX2 COAX2 R734 VDDIO5 R619
+3V3
A2/SCP2_MOSI VDDIO5
+3V3
RN78 A2/SCP2_MOSI
0.1uF DIR MODE : DIR MASTER 33X4
3
180P
10K DA27
C795
SCP1_IRQ SD_A2/EXT_A2
75
4
R719
4
PCP/SCP2_IRQ GNDD4 DA26
+3V3 PCP/SCP2_IRQ GNDD4
98
5
98
5
R727
C 0 R735 SCP1_CS SD_A3/EXT_A3 DA25
SCP1_CS SD_A3/EXT_A3 C
97
+5VD
97
6
0 10K DA24
100/16V
100/16V
PCP/SCP2_CS SD_A4/EXT_A4
C752
C705
C706
C773
0.1uF
PCP/SCP2_CS SD_A4/EXT_A4
96
0.1uF
96
7
VDDIO7 VDD4
VDDIO7 VDD4
95
+3V3 +1V8
95
+3V3 +1V8
8
GNDIO7 EXT_CS2#
RN79 33X4 GNDIO7 EXT_CS2#
94
9
94
9
GPIO3/DDAC SD_A5/EXT_A5 DA23
GPIO3/DDAC
IC46 SD_A5/EXT_A5
10
93
10
93
UART_TXD GNDIO4
UART_TXD GNDIO4
11
92
AD-RIN
11
92
DSP1_XTALOUT DA22
+1V8 VDD7 SD_A6/EXT_A6 +1V8 VDD7
CVICS49DV8CCVZ SD_A6/EXT_A6
12
91
AD+RIN
2
IC43
12
91
DSP2_DAO1_LRCK UART_RXD SD_A7/EXT_A7 DA21
UART_RXD SD_A7/EXT_A7
13
90
AD+LIN
13
90
UART_CLK/EE_CS# CVICS497024CVZ VDDIO4 UART_CLK/EE_CS# VDDIO4
14
89
AD-LIN DSP2_DAO1_SCLK +3V3
14
89
LRCK1
+3V3
BICK1
R764 DA20
1M
GNDD7 SD_A8/EXT_A8 33
24.576Mhz
GNDD7 SD_A8/EXT_A8
15
88
C610 R620
15
88
X701
R787 R759 XTAL_OUT SD_A9/EXT_A9 R765 33 DA19 15P 75
CDTO/DOUT
SD_A9/EXT_A9
R760
XTAL_OUT
16
87
CDIN/DATA
+3V3
CX_SDIN1
16
87
CX_LRCK
CX_SCLK
XTI GNDD3
17
86
AINR+
DGND
AINL+
AINR-
AINL-
17
86
CCLK
DSP1_XTALOUT
CSN
R723
VLC
INT
VD
18
85
18
85
C701
C702
15P
15P
+3V3 33 GNDA SD_A12/EXT_A12 Do not Use. CLZ9R005Z
C658 0.1uF
GNDA SD_A12/EXT_A12
19
84
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
100/16V
100/16V
19
84
CX_SDIN2
4.7/50V
75 15P
C660
0.1uF
R767
C718
C720
0.1uF
C717
C719
20
83
17 +1V8
20
83
CX_SDIN3 L704 +1V8
FILT+ 63 5.1K(1%) VDDA(3.3V) SD_CLKEN
RN81 33X4 5.1K(1%) VDDA(3.3V) SD_CLKEN
21
82
18
21
82
CX_SDIN4 CLZ9R005Z
62 VDD8 SD_CLKIN DA18
RN91 +1V8 VDD8 SD_CLKIN
22
81
19 33X4 +1V8
4
RN53
22
81
SAI_SCLK BICK2 33X4
61 DAI1_DATA3/DSD3 SD_CLKOUT R739 DA17
AOUTB4- DAI1_DATA3/DSD3 SD_CLKOUT
23
80
D_BR- 20 DAO07
23
80
SAI_LRCK LRCK2
4
AOUTB4+ 60 DAI1_DATA2/DSD2 SD_DQM1 82 DA16
DAI1_DATA2/DSD2 SD_DQM1
24
79
D_BR+ 21 DAO06
24
79
OMCK R712 82
3
AOUTA4+ 59 GNDD8 SD_D8/EXT_D8 DA0
GNDD8 SD_D8/EXT_D8
25
78
D_BL+ 22 DAO05
1
R761 1K
25
78
ADCIN1
2
AOUTA4- 58 DAI1_DATA1/DSD1 SD_D9/EXT_D9 DA1
DAI1_DATA1/DSD1 SD_D9/EXT_D9
26
77
D_BL- 23 DAO04
4
R762 1K
26
77
ADCIN2
1
C738 0.1uF
VA 57 GNDIO3 RN82
100/16V
DAI1_DATA0/DSD0 GNDIO3
DAI1_DATA0/DSD0
27
76
24 CS42528-CQ
C737
27
76
CX_SDOUT SDTO1
56 33X4 DA2
AGND IC41 VDDIO8 SD_D10/EXT_D10
VDDIO8 SD_D10/EXT_D10
28
75
25 R711 +3V3
28
75
RMCK MCKO R752 +3V3
AOUTB3- 55 DAI1_SCLK/DSD-CLK SD_D11/EXT_D11 DA3
DAI1_SCLK/DSD-CLK SD_D11/EXT_D11
29
74
26
1
D_SR- 56
29
74
SAI_SDOUT SDTO2 DSP1_DAO1_SCLK
AOUTB3+ 54 33 DAI1_LRCK/DSD4 VDDIO3
RN90 DAI1_LRCK/DSD4 VDDIO3
30
73
D_SR+ 27 33X4 +3V3
30
73
VLS RN83 DSP1_DAO1_LRCK +3V3
AOUTA3+ 53 GNDIO8 SD_D12/EXT_D12 DA4
GNDIO8 SD_D12/EXT_D12
31
72
28
3
D_SL+
31
72
DGND
AOUTA3- 52 DAI2LRCK/PREQ SD_D13/EXT_D13 33X4 DA5
DAI2LRCK/PREQ SD_D13/EXT_D13
32
71
D_SL- 29
32
71
VD NC
AOUTB2- 51 DAI2_SCLK SD_D14/EXT_D14 DA6
DAI2_SCLK SD_D14/EXT_D14
33
70
D_SW- 30
33
70
TXP NC
AOUTB2+ 50 DAI2_DATA/DSD5 SD_D15/EXT_D15 DA7
+5VD DAI2_DATA/DSD5 SD_D15/EXT_D15
34
69
31 +3V3
4
D_SW+
34
69
RXP1 NC
49 DAO2_D3/XMTB SD_D0/EXT_D0 RN84 DA8
AOUTA2+ DAO2_D3/XMTB SD_D0/EXT_D0
35
68
D_CT+ 32
35
68
NC
33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 R754 3.3K DBDA GNDIO2 33X4 R621 3.3K
DBDA GNDIO2
36
67
D_CT-
36
67
+3V3
+3V3
MUTEC
AGND
VARX
R725
RXP8
RXP7
RXP6
RXP5
RXP4
R622
AOUTB1+
AOUTA1+
DBCK EXT_WE#
AOUTA2-
37
66
AOUTB1-
AOUTA1-
D_FR-
10
37
66
0
DAO2_D2 SD_D1/EXT_D1
DAO2_D2 SD_D1/EXT_D1
38
65
D_FR+
38
65
DA[0:50]
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
D_FL+ +3V3
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
D_FL- +3V3 +3V3
DAO2_D1/HS4
DAO_MCLK
R722 TEST
VDD1
DAO2_D0/HS3
DAO2_SCLK
GNDD1
DAO2_LRCLK
DAO1_D3/XMTA
DAO1_D2/HS2
DAO1_D1/HS1
VDDIO1
DAO1_D0/HS0
DAO1_SCLK
GNDIO1
DAO1_LRCLK
VDD2
GNDD2
SD_DQM0
VDDIO2
DAO2_D1/HS4
DAO_MCLK
TEST
VDD1
DAO2_D0/HS3
DAO2_SCLK
GNDD1
DAO2_LRCLK
DAO1_D3/XMTA
DAO1_D2/HS2
DAO1_D1/HS1
VDDIO1
DAO1_D0/HS0
DAO1_SCLK
GNDIO1
DAO1_LRCLK
VDD2
GNDD2
SD_DQM0
VDDIO2
SD_D3/EXT_D3
+5VD R743 33
SD_D7/EXT_D7
SD_D6/EXT_D6
SD_D5/EXT_D5
SD_D4/EXT_D4
SD_D2/EXT_D2
SD_D7/EXT_D7
SD_D6/EXT_D6
SD_D5/EXT_D5
SD_D4/EXT_D4
SD_D3/EXT_D3
SD_D2/EXT_D2
DA35
100/16V
100/16V
C756
C750
C753
0.1uF
0.1uF
C754
R616
0.01
0.01
0.01
0.01
0.01
0.01
+1V8
0
R717 +3V3 +1V8
+3V3
R704
+3V3
10K
R751
82
0 +3V3
R614
R613
R729 33
33
33
+1V8 DSP1_DAO1_LRCK
470/10V
R611
C721
0.1uF
10K
C722
1 2 3 4 5 6 7 8
R612
RN89
33
3.3K
R718
R730
33X4
82
C784
C787
C789
C790
C782
C783
CEN/SUB/DAO02
DSP1_DAO1_SCLK
SBL/SBR/DAO03
SL/SR/DAO01
FL/FR/DAO00
+3V3 +1V8
1000P
B B
C780
4 3 2 1 5 6 7 8 Dolby Volume
33X4
33X4
5 6 7 8
RN85
33X4
RN54
DIR_MCLK
10KX4
33
0.022u
10K
33
C781
DAI_D0
DAI_D2
DAI_D3
DAI_D1
5 6 7 8 1 2 3 4
RN93
RN87
USB_SPDIF
COAX2
COAX1
OPT3
OPT2
OPT1
COAX4
OPT4
DSP2_DAO1_LRCK
DSP2_DAO1_SCLK
8 7 6 5 1 2 3 4
R745
R741
R742
1 2 3 4
DSP1_MCLK
DSP1_MODE
R746 10K
R747 10K
DA15
DA14
DA13
DA12
DA11
DA10
+5VD
DAO03
DAO01
DAO02
DAO00
DA[0:50]
DAO02
DAO01
DAO00
DAO03
DAO02
DAO01
DAO00
DAO07
DAO06
DAO05
DAO04
R720
100/16V
0.1uF
0 DAO[00:08]
DAO[00:08]
+3V3 DATA CS497024 SDRAM Address CS49700 SDRAM
EXT_D15/SD_D7 58 12 EXT_A19 117
R732
EXT_D14/SD_D6 59 11 EXT_A18 116
10K
EXT_D13/SD_D5 60 9 EXT_A17 114
10 9 8 7 6 5 4 3 2 1
EXT_D12/SD_D4 8
TC74VCX541FT
61 EXT_A16 113
VCC OE1
+3V3
3
Y8 GND
A8
A7
A6
A5
A4
A3
A2
OE2 A1
DSP1_MCLK
ON : HIGH EXT_D11/SD_D3
IC47
2 63 6 EXT_A15 111
Y7
Y6
Y5
Y4
Y3
Y2
Y1
HDMI_SW EXT_D10/SD_D2 64 5 EXT_A14/SD_A13 106
C734
EXT_D9/SD_D1
11 12 13 14 15 16 17 18 19 20
<=> HDMI BOARD 65 3
1
Q738 EXT_A13/SD_A14 104 19
0.1uF KRC103S
2
CN15
IC49 2 49
GND EXT_D7/SD_D15 69 EXT_A11/SD_A12 55
1
HVINJM2391DL133
GND
+1V8
OUT
2
70
IN
+5VD IC50
D704
HDMI_SDATA4 EXT_A9/SD_A9
3
1 3 CVIKIA1117S18 EXT_D5/SD_D13 71 46 87 32
CVDSS34SR
4
L703 L702 HDMI_SDATA3 45 EXT_A8/SD_A8 88 31
1
5
3 In Out 2
EXT_D3/SD_D11 43 EXT_A7/SD_A7 90 30
CVDSS34SR HDMI_SDATA1 74
6
GND
7
L701
CLZ9Z014Z 1 GND EXT_D1/SD_D9 40 EXT_A5/SD_A5 93 28
8
77
HDMI_SCK 96 27
9
EXT_D0/SD_D8 39 EXT_A4/SD_A4
1000/6.3V
1000/6.3V
78
100/16V
C726
0.1uF
C766
C727
100/16V
0.1uF
C764
C765
10
C725
HDMI_MCLK
0.1uF
470/10V
EXT_A3/SD_A3 97 24
C730
C731
0.1uF
C728
C729
R700 33
0.1uF
11
DSP_SPDIF 99
R816 33 EXT_A2/SD_A2 23
12
DSP_MCLK
R813 33 EXT_A1/SD_A1 101 22
13
DSP_DATA0
DIR_MCLK R814 33
EXT_A0/SD_A0 102 21
14
HDMI_1_SW DSP_LRCK
HDMI M_SW R815 33
15
H : B & HDMI on DSP_SCLK
IC48
16
GND
HVITC74VHC157FT L : A & HDMI off
REVISION 2 4 6
17
GND
16
0.1uF
1 3 5 7
C791
C768
A A
15
0.1uF 1A ST
2
C769
0.1uF
1B 4A
3
C770
0.1uF
ISSUE
13
1Y 4B
4
C771
0.1uF
ANAM 2
C772
MODEL AVR260/360/2600/3600
12
2A 4Y
5
3
LPP MULTI. LAB
0.1uF
11
2B 3A
6
2009.03.23
R798
DESIGN CHECK APPROVE DRAWING NO
10
2Y 3B
7
2177SCMZ
*OPTION : EMC COUNTERMEASUER
GND 3Y
R799
C.B.LEE W.Y.YANG G.S.WEY
8
08.10.06 (DSP) 1
1
6 5 4 3 2 1
CUP12177*
Carr. Out
CARR_OUT1
HVTKRA107S HVTKRA107S
D Q735 Q736 D
D701
REMOTE_IN
MULTI_IR
TO USB PCB HVDRLS4148SR
BN81
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43
R795
CARR_OUT
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44
2.7K
AVR360/3600 ONLY
+15V
+3.3V
-15V
ST+5V
IPOD_R
SIRIUS_R
HDMI_MUTE_IN
SIRIUS_TX
UART_RST
MULTI_IR
UART_IRQ
IPOD_L
SIRIUS_L
HDMI_CEC
EXT_CLK
EXT_DATA
EXT_CE
TORINO_RX
TORINO_TX
USB_RX
USB_TX
SIRIUS_RX
DMP_DET
UART_DATA_OUT
UART_DATA_IN
UART_CLK
POWER_HIGH
ABUS_IROUT
T5CNT_BOOT
CARR_OUT1
REMOTE_OUT
T5CNT_RESET
VOL_L_CONT
+3.3VC
+24V
GND
VOL_L_CONT
-15V
Q739
R731 ABUS_IROUT CN40 1 2 3 From +24V Adaptor
100K
0.1uF
C767
OPTION
R477
100
A107S
POWER_DOWN
R447
100
DSP2_RESET
8.5dB R479 C468 R480
VFD_DATA
VOL_EN2
VOL_EN1
MULTI_PRE_L
DMP_DET
VFD_RST
VFD_CS
VFD_CLK
T5CNT_RESET
5.6K 1uF 1K
HP_IN
R489
KEY1
KEY2
3.3K
C477 C467 MULTI_MUTE2
1SS355
2009.0323
D442
4.7K
R467
C751 0.1uF 100p 1uF
JK17
R785
180K
1
R470
4 3 2 1 GND
4 5 6
HVINJM2068MDTE1
C479
1uF
HVTKTC812TB
2
100K
LEFT
3
Q401
GND
4
8
4
IC26 IR
10KX4
* MODEL OPTION *
C478
1uF
5
7
3
RN63 +3.3VC 3 2 1
STATUS
R469
180K
5 6 7 8
6
6
2
+3.3VC
RIGHT
7
5
4.7K
R468
R782 C476 C470 GND
8
MULTI_PRE_R
+24V
4
MODEL OP_A(PIN96) OP_B(PIN100) 2.7K 100p 1uF
9
10KX4 MULTI_MUTE2
R490
3.3K
RN62
10
R783 R478 C469 R499
6
2
AVR3600 HIGH(R792) LOW(R791) 2.7K 5.6K 1uF 1K
GND
5
1
+3.3VC
R476
C C
100
AVR2600 LOW(R793) LOW(R791) R784
IC27
R792 47K R481
1
MULTI_IR
AVR360 HIGH(R792) HIGH(R790) AVR360/3600 10K
5 6 7 8 560 +15V
R793
+15V
AVR260
R744
LOW(R793)
C448
HIGH(R790)
1K
R788
330p
10K IC53
2
AVR260/2600 CVIM24C32WMN6TP KP1010B
47K
*OP_A GND
R485
100
4 3 2 1
C748 C747
R790
EUR 0.1uF
10K 0.1uF Q458
REGVCC
A1271Y
10/50V
D447
C447
R791
12V
USA +3.3VC
R750
10K
R484
BN72
10K
1
GND GND
*OP_B 47K
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
2
POWER_HIGH
2.2K
R483
REGVSS
NMI
XT1
75
MODE
RESET
AN1
XT2
PROTECT_IN
1
AN0
AN9
AN8
AN7
AN6
AN5
AN4
AN3
AN2
TEST4
3
VOL_L_CONT C744
Q457
74
2
P_FAIL X1
4
KSA1175YT
10Mhz
33P
X702
73
3
KEY2 D476
0.1uF
C739
R786 C742
R758
10K
2009.0207
72
MULTI_MUTE2
4
VREFH X2
6
KEY1 1SS355
470 30P 4.7K
A107S
71
Q456
AVCC
5
CVCC
7
VOL_EN1 5 6 7 8
RN67
70
REMOTE_IN
6
4
SCP2_CS
8
VOL_EN2 100X4
RN68
10KX4
69
HP_MUTE
7
3
TB9OUT SCP2_IRQ
9
VFD_CS
68
10
2
VFD_CLK MULTI_MUTE TB7OUT MIC_IN
1 2 3 4
67
FUNC_MUTE
11
1
TB2IN0 DSP1_MODE
1
VFD_DATA
CN30
RN66
10
66
P_M TB2IN1
12
4
DSP1_RESET
FROM FRONT PCB
VFD_RST 100X4
2
11
65
SB_MUTE
13
3
IR_IN SCP1_BSY
T5CC1
12
64
14
2
TEST2 IC52 HDMI_1_SW
3
MIC_IN
63
15
1
HP_IN DVSS DVSS HDMI_SW
4
14
62
16
SDA2 61
17
5
ST+5V
16
60
A107S
Q742
SCL2
18
6
17
59
19
58
20
TEST1
7
19
57
TUNED
21
8
-15V
20
56
-15V
22
55
USB_RX
23
RXD0 DEBUG
RN65
PH0/TB0IN0/BOOT
R713
10K
DSPDATA
22
54
CTS0/SCLK0
24
4
HPL-OUT TUNER_CE DEBUG
100X4
23
53
TXD1
25
3
TORINO_TX SCP1_CS
R471
100
24
52
RXD1
26
RXD2
2
TORINO_RX SCP1_SDA
TXD2
HPR-OUT
SDA1
SCL1
26 SDA0
27 SCL0
CTS1/SCLK1
25
51
1298_MUTE
27
1
DSPCLK C414 R454 C453 R463
FOR DEBUG
GND
16
10KX4
1
RN61
MULTI_VOL_L
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
L-out
28
R455
1.2K
: PULL_UP
29
-15V C442
IC28
MULTI_MUTE2
B B
STB
30
BOUTL
15
MIC_SIGNAL 5 6 7 8 GPIO : Input/Out Port(without pull_up resistor)
2
1159_LATCH 150p
R466
4.7K
100K
R461
31
C745 C746
180K
R473
+3.3VC 4 3 2 1
0.022u
VDD_OUT
100/16V
0.1uF 0.1uF
180K
CLK
14
R460
C413
HVINJM2068MDTE1
C441
3
1298/1159_CLK
4 5 6
10/50V
HVTKTC812TB
+3.3VC
C443
1 2 3 4
Q402
IC29
DATA
RN64
100X4
13
BOUTR
4
1298/1159_DATA
0.022u
180K
R448
C412
HVINJW1159M
5 6 7 8 3 2 1
5 6 7 8
CE1
12
5
R-out
100K
R462
R465
4.7K
R789
10K
C415 C428
100/16V
180K
VSS_OUT
R472
R452
C454
100
CE0
11
6
10/50V 150p
10/50V
1 2 3 4
C444
MULTI_MUTE2
1.2K
R474
10K
10K
VDD
Rin
R464
10
7
MULTI_PRE_R
MULTI_VOL_R
5.6K 10/50V 820
R710
R709
VSS
Lin
9
8
MULTI_PRE_L
C107S
0.1uF
C778
+15V
+15V
+7V
+3.3VC
-7V
100/16V
100/16V
C449
C446
T5CNT_BOOT
HDMI_MUTE_IN
SIRIUS_TX
DIR_RESET
1298/1159_CLK
SIRIUS_RX
MULTI_IR
D_OUT
DIR_CE
TUNER_SCL
SCP1_IRQ
HDMI_CEC
EXT_CE
UART_IRQ
TUNER_MUTE
CARR_OUT
UART_RST
EXT_CLK
EXT_DATA
UART_CLK
1159_LATCH
1298_LATCH
UART_DATA_IN
UART_DATA_OUT
1298/1159_DATA
ST+5V
MULTI ROOM VOLUME : AVR360/3600
REMOTE_IN
R770 R771
10 10K
ST+5V +3.3VC
4.7/50V
150p
C716
C715
R772
47K
R738
10K
CLZ9R005Z
IC51 REVISION 2 4 6
L705
Q731
3 In Out 2
KSA1175YT
1 3 5 7
GND
D725
A IR_IN
R779
A
2200/6.3V
100/16V
100/16V
10K 1SS355 1
C740
C749
C732
C733
C741
0.1uF
0.1uF
SCHEMATIC DIAGRAM
CVD1SS355T
SHEET
1SS355
D727
Q733
KSC2785YT
R780
REMOTE_OUT
10K
ISSUE
R781
10K
3
ANAM MODEL AVR260/360/2600/3600 3
LPP MULTI. LAB
2009.03.23 DESIGN CHECK APPROVE DRAWING NO
6 5 4 3 2 1
CUP12168*
1
CN74
100
1
CVD1L0345W31BOCT201V
2
Q251 C171 JW17
TO VR JACK PCB
ST+5VC(F) A1271Y VR74 D202 C181 JW18
2.7K R202 1
VOL_EN2 R211
3
VOL_EN1 0.1uF
D 100 LAND 1
D
3
+5VD(F) R214 0.1uF LAND
100 CVD1L0345W31BOCT201V
4
D203 JW17
2.2K
R251
Q252 R203
JW18
4
GND GND
VOL_LED_CTRL VOL_LED_CTRL R252 VOL_EN1 2.7K V/R_GND
0.022
0.022
VOL_EN2
C213
C214
100
5
CVD1L0345W31BOCT201V
5
39K R213
2.2uF/50V
V/R_GND
33k
C252
R113
1K
C107M V/R_GND
V/R_GND V/R_GND
POWER_H
Q111
VOL_EN1
A107M
C107M VOL_EN2
POWER_H
Q113
4
C107M KEY_2
KEY_1 SUR_MODE
KEY_1
POWER_KEY
6
14 S311
7 S318
BN73
1000P
1000P
C311
C322
Source List (AVR2600/3600) Surround Modes (AVR2600/3600)
R322
1K
R312
+5VD(F)
1K
+5VD
IC12 13 S312
6 S319
TUNING_DOWN
CUP12168-2 REMOCON SENSOR Source_down Set
JUMPER
D714
IC12 IC13 Up
1.5K
R323
[STAND BY PCB] Video Modes AM/FM
R731
1.5K
R313
10
IC13 C714 S313 S320 SOURCE_DOWN
VFD_CS
12 5
14
D101 Surr_Sel_up
1
R101 WHITE 0.022 Left (<=) TUNING_UP
R735 RESET
2
OSC
VDD
1.8K
R324
220 1% VOUT GND Vcc Down
VFDCS
470/10
ST+5VC(F) TUN MODE
C732
0.1uF
Audio Effects
C731
CVD1L0345W31BOCT201V C715
1 2 3
1.8K
R314
13
2
S321
4 RDS
1.5K
4
D102 S314
R102 10/16V 11
OUT
VDD
Digital
GND
REMOTE_IN
ORANGE R122
C751 Surr_Sel_down
680 1% R711
VFD_CLK Resolution
2.7K
R325
VFD_CS
6
CVD30ASOGCAA-S7 PRESET_UP
12
OK
3
10
2200P
2.7K
R315
S330
1 47 PRESET_DOWN
VFDCLK
3 S322
10 S315
Channel
150P
330/10
C122
R121
R741
C121
CN73 '=>It's not used
47K
12K
POWER ON/OFF
11
Surr_Mode
4
BN73
3.3K
R326
Info
S/T_GND S/T_GND Right(=>) SET_UP
C752
3.3K
R316
VFD_DATA R712 VFD_CLK
2 S323
10
5
SET
47 1000P
9 S316 Tone Mode
VFDDATA
Tuning_up
5.6K
R742
R327
AVR
RESET 1K
VFD_DATA
SET_DOWN
Left(<=)
VFD_CLK
6
5.6K
R328
VDD
OSC
R713 VFD_DATA C753 8 S317
Tuning_down
8
CN72
D_GND 47 1000P
POWER_KEY
Back/Exit
1
POWER_H
74ACT04MTR
2
VOL_LED_CTRL
C (HEX INVERTER) C754
C
FROM INPUT ASS'Y(CPU)
VFD_RST
3
R401
0.022
4
C442
0.1uF 3.3
KEY_2
5
MCU CONTROL PORTS
KEY1
+5VD(F)
6
VOL_EN1
62
56
55
54
53
52
51
50
49
48
47
46
11
10
+43V
1
R2
7
VFD_RST C721
62 56 55 54 53 52 51 50 49 48 47 46 11 10 9 8 7 1
5
VOL_EN2 5
0.022
8
C441
VFD_CS 8.2
1N4003
RESET
D401
PGND
VFD_CS
LGND
1K
VDD
R701 2.2uF/50V
OSC
TSA
TSB
FIP1
VH
DA
CS
NC
NC
NC
NC
NC
CP
F2
F1
9
4
R721
4
10K
VFD_CLK 1K VFD_CLK
R702 AC2.4V
10
R402 AC2.4V
R722
VFD_DATA
3
VFD_DATA R703 1K 3
11
2
Q721 2
REMOTE_IN
CN71
ST+5VC(F) AC2.4V 10 AC2.4V
13
AC2.4V R404
ST+5V L151
1
MIC_IN 1
14
8.2
HP_IN +5VD(F) 10uH
10/16V
15
0.047
BN71
C152
VH R1
C151
1N5819
0.1
D161
POWER 1st
ST+5V 10 10 8.2
17
C431
0.1uF
+5VD C2316Y
18
F_COAX F_COAX
19
D_GND
DIGITAL IN
D_GND
20
F_OPT
F_OPT
0.01uF
21
R412
C414
C415
47/63
D_GND D_GND
22
8.2V
100/63
D412
C411
1.2K
R411
100K
6.8V
6.8V
C422
4.7/50
D421
D422
0.01uF
A_GND
R415
C412
47K
R413
100K
23
ANALOG OUT
HPL OUT
Z27V
24
D413
C413
47/63
A_GND
25
HPR OUT
26
A_GND
27
+15V
POWER 2nd
+15V +15V
AGND
28
R813 R812
MIC IN
R834
R835
MIC_GND
2.2K
10K
31
AGND 10K 1K
R811
100K
C813
47P +15V
CN72 AGND R801
100
47/25V
H/P MUTE
C801
CUP12168-5
0.047
R836
C830
1.5K
8 7 6 5
NJM2068M
AGND AGND
IC14
1K
[AVR2600(USA)/AVR260(EUR)]
[AVR3600(USA)/AVR360(EUR)]
[AVR1600(USA)/AVR160(EUR)]
L-CH -15V
HEAD PHONE&INPUT(DIGITAL)
47/25V
C802
C823
1 2 3 4
R802 -15V
USB JACK D_GND
100K
GND R511 10
100
1 2 3 4
C822 D+ USB_DP USB_DP(D+)
470P
IC15 NJM4556AL
6
100/10V
C821
JK51 D- USB_DN
C521
TO HEAD PHONE JACK PCB
A=1+(Rout/Rin)=1+(1.5K/1K)=2.5 C602 +5V R512 10
150P COAX_3 COAX_3
B 2 USB_DN(D-)
B
5
AGND
IC15
+ -15V
FB13 0.1uF 1
JK61 JK51
+15V - + - AGND MIC SIGNAL OUT +5VU
R601
R822
4
0.1uF
FROM FIP PCB
C503
C601
75
180P
8 7 6 5 4 3 2 1 JK61
C511
C512
Text(0.01uF)
56P
56P
C504
10K
Text(0.01uF)
R514
R513
C522
L-CH
15K
15K
R-CH
IC11
3
C923 -15V D_GND
C931 R933
COAX_3 +5VD(F)
2
680P OPT_3
14
220
3
330/16 L_OUT IC11
L_OUT
BN51
0.1uF
C611
JK62
C612
470/10
VCC
1
USB_GND
R603
R612
100K
10K
RX
R923 USB_GND
2
R935 C603 D531 C533 C542 F_VIDEO IN(VIDEO)
OPT_3 GND
13
1.5K JW51 BN51
2
HPL IN R901 C901 D_GND
220
1
10P 1SS133 0.1uF 10/50 USB_GND
D_GND
D_GND D_GND OUT
100 USB_GND D533
100K
R541
10/50V
C541
100P
R931
1K
75
12
3
FB14 1SS133 1SS133
4.7K Q954 COAX_3 COAX_3 4.7K
4.7k +15V R911 Q943 CH_GND C531 D534
R941 C2874B C107M
11
12
12
11
100 1SS133 USB_GND USB_GND
R925
R951
100K
0.1uF
1SS133
11
1K
1SS133
47/25V
JW61
C911
0.1uF
4.3K
C631
D632
D631
FB15
10
10
ISS133
RL91
9
C2874 USB_GND F_AGND CH_GND F_AGND
D455
AGND
CHGND
AGND RL91 +5VD(F) +5VD(F)
CHGND
10
5
R932
100K
AGND
R922
F_L IN(AUDIO)
1K
R944
C912
Q952
47/25V
D_GND
R926
100K
F_VIDEO IN(VIDEO)
1
4 3 2 1
AGND A107M D_GND
1SS133
1SS133
0.1uF
4.7K
C633
HP_IN HP_IN H/P_AGND
D634
D633
Q944 COAX_3
C553
100P
R553
100K
C924
R942 -15V R912
JK52
2
C2874B L_OUT L_OUT
AGND D_GND USB_GND USB_GND
5
MIC_IN
4.7K 100 680P R934 R954 +15V
BN52
3
Q942 L IN R551 F_AGND
220 10K OPT_3 L_OUT
C2874
8
2 F_AGND F_AGND
Q951 470
R953
R_OUT
BN52
3.6K
1
100 10/50V 1.5K 330/16 220 7 R552 F_R IN(AUDIO)
D_GND