D AVR2600

User Manual: AVR2600

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harman/kardon

AVR 2600
7 X 65W 7.1 CHANNEL A/V RECEIVER

SERVICE MANUAL

CONTENTS
ESD WARNING……………………………….2
LEAKAGE TESTING……………….…..…....3
BASIC SPECIFICATIONS…………………..4
PACKAGING…………………………….……5
FRONT PANEL CONTROLS………..…..…..6
REAR PANEL CONNECTIONS………….…8
REMOTE CONTROL FUNCTIONS……….11
CONNECTIONS/INSTALLATION………....14
INITIAL SETUP………….…..……...………17
OPERATION…………………..…………….21
TROUBLESHOOTING GUIDE…...……..…27

REMOTE & PROCESSOR RESETS……....27
DISASSEMBLY…...…………………………..28
UNIT EXPLODED VIEW…………..…….…..29
EXPLODED VIEW PARTS LIST……………30
AMP BIAS ADJUSTMENT……………….…31
BLOCK DIAGRAM…………………………..32
PCB DRAWINGS……………………………33
ELECTRICAL PARTS LIST………..….……40
SEMICONDUCTOR PINOUTS…….………81
SCHEMATICS………….….……………….203
WIRING DIAGRAM…….….……………….215

harman/kardon, Inc.
8500 Balboa Blvd.
Released 2009
Discontinued XXXX

Northridge, CA. 91329

Rev0 10/2009

harman/kardon

AVR2600

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
semiconductor "chip" components.
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
prevent electrostatic charge build-up or exposure of the assembly.
3. Use only a grounded-tip soldering iron to solder or unsolder ES devices.
4. Use only an anti-static solder removal device. Some solder removal devices not classified as "anti-static" can generate electrical charges
sufficient to damage ES devices.
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
chassis or circuit assembly into which the device will be installed.
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.

Each precaution in this manual should be followed during servicing.
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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AVR2600

SAFETY PRECAUTIONS
The following check should be performed for the continued
protection of the customer and service technician.
LEAKAGE CURRENT CHECK
Measure leakage current to a known earth ground (water
pipe, conduit, etc.) by connecting a leakage current tester
between the earth ground and all exposed metal parts of the
appliance (input/output terminals, screwheads, metal
overlays, control shaft, etc.). Plug the AC line cord of the
appliance directly into a 120V AC 60Hz outlet and turn the
AC power switch on. Any current measured must not exceed
o.5mA.

Leakage
current
tester

Device
under
test
Test all
exposed metal
surfaces
Also test with
plug reversed
(Using AC adapter
plug as required)

Reading should
not be above
0.5mA

Earth
ground

AC Leakage Test

ANY MEASUREMENTS NOT WITHIN THE LIMITS
OUTLINED ABOVE ARE INDICATIVE OF A
POTENTIAL SHOCK HAZARD AND MUST BE
CORRECTED BEFORE RETURNING THE APPLIANCE
TO THE CUSTOMER.

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Side 62

AVR 2600 TECHNICAL SPECIFICATIONS
Audio Section
Stereo Mode, Continuous Average Power (FTC)
65 Watts per channel, 20Hz–20kHz, @ <0.07% THD,
both channels driven into 8 ohms
Seven-Channel Surround Modes
Power per Individual Channel
Front L & R channels:
65 Watts per channel
@ <0.07% THD, 20Hz–20kHz into 8 ohms
Center channel:
65 Watts @ <0.07% THD, 20Hz–20kHz into 8 ohms
Surround (L & R Side, L & R Back) channels:
65 Watts per channel
@ <0.07% THD, 20Hz–20kHz into 8 ohms
Input Sensitivity/Impedance
Linear (High-Level)

200mV/47k ohms

Signal-to-Noise Ratio (IHF-A)

100dB

Surround System Adjacent Channel Separation
Pro Logic® II
40dB
Dolby® Digital (AC-3)
®

DTS

Video Section
Television Format
Input Level/Impedance
Output Level/Impedance
Video Frequency Response
(Composite and S-Video)
Video Frequency Response
(Component Video)
HDMI ™
General
Power Requirement
Power Consumption

NTSC
1Vp-p/75 ohms
1Vp-p/75 ohms
10Hz–8MHz (–3dB)
10Hz–100MHz (–3dB)
Version 1.3a with 10-bit Deep Color

Stand-by consumption

AC 120V/60Hz
540W maximum
(7 channels driven)
<1W

Dimensions
Width
Height
Depth

(Product)
17-5/16 inches (440mm)
6-1/2 inches (165mm)
17-1/16 inches (382mm)

(Shipping)
18-5/16 inches (555mm)
10-1/2 inches (266mm)
21-7/8 inches (465mm)

Weight

(Product)
24.4 lb (11.1kg)

(Shipping)
29 lb (13.2kg)

55dB
55dB

Depth measurement includes knobs, buttons and terminal connections.
Height measurement includes feet and chassis.
Features, specifications and appearance are subject to change without notice.

Frequency Response
@ 1W (+0dB, –3dB)

10Hz –130kHz

High Instantaneous
Current Capability (HCC)

±60 Amps

Transient Intermodulation
Distortion (TIM)

Unmeasurable

CEA is a registered trademark of the Consumer Electronics Association.

Slew Rate

40V/µsec

Cirrus Logic is a registered trademark of Cirrus Logic, Inc.

Harman Kardon and Logic 7 are trademarks of Harman International Industries, 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, Incorporated.
Blu-ray Disc is a trademark of the Blu-ray Disc Association.

Manufactured under license from Dolby Laboratories. Dolby, Pro Logic and the double–D symbol are
registered trademarks of Dolby Laboratories.

FM Tuner Section
Frequency Range
Usable Sensitivity
Signal-to-Noise Ratio
Distortion
Stereo Separation
Selectivity
Image Rejection
IF Rejection

87.5–108.0MHz
IHF 1.3µV/13.2dBf
Mono/Stereo 70/68dB
Mono/Stereo 0.2/0.3%
40dB @ 1kHz
±400kHz, 70dB
80dB
90dB

AM Tuner Section
Frequency Range
Signal-to-Noise Ratio
Usable Sensitivity
Distortion
Selectivity

520–1710kHz
45dB
Loop 500µV
1kHz, 50% Mod 0.8%
±10kHz, 30dB

Manufactured under license under U.S. Patent #'s: 5,451,942; 5,956,674; 5,974,380; 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 DTS logos, Symbol, DTS-HD
and DTS-HD Master Audio are trademarks of DTS, Inc. (c) 1996-2008 DTS, Inc.
All Rights Reserved.
Faroudja DCDi Cinema is a trademark of Genesis Microchip Inc.
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.
iPod, iTunes, Apple, iPod touch, iPod classic and iPod nano are trademarks of Apple Inc., registered
in the U.S. and other countries. iPhone is a trademark of Apple Inc. iPod and iPhone not included.
SACD is a trademark of Sony Corporation.
SIRIUS and all related marks and logos are trademarks of Sirius XM Radio Inc. and its subsidiaries.
All other marks and logos are the property of their respective owners. All rights reserved. SIRIUS
subscription sold separately. Taxes and a one-time activation fee may apply. SIRIUS tuner required
(sold separately) to receive the SIRIUS service. All programming and fees subject to change. It is
prohibited to copy, decompile, disassemble, reverse engineer, hack, manipulate or otherwise make
available any technology or software incorporated in receivers compatible with the SIRIUS Satellite
Radio System. Service not available in Alaska or Hawaii.
TiVo is a registered trademark of TiVo Inc.

Please register your AVR 2600 at www.harmankardon.com.
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.

62

This product incorporates copyright protection technology that is protected by method claims of certain U.S. patents and other intellectual property rights owned by Macrovision Corporation and other
rights owners. Use of this copyright protection technology must be authorized by Macrovision
Corporation and is intended for home and other limited viewing uses only unless otherwise authorized by Macrovision Corporation. Reverse engineering or diassembly is prohibited.

4

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AVR2600

AVR 2600

visit www.harmankardon.com

AVR 2600

5

AVR 2600

Power
Indicator

Surround
Modes

Back/Exit

NOTE: To make it easier to follow the instructions throughout the manual that refer to this illustration, a copy of this page may be downloaded from the Product
Support section at www.harmankardon.com.
7

6
ENGLISH

Side 7

Audio
Effects

12:30

Info
Settings

Headphone
Jack/EzSet/EQ
Analog Audio
Source List
Microphone
Front Inputs
Digital
Input
USB Video
Audio Inputs
Remote
(Optical and
IR Sensor
Port Front Input
Coaxial Front)
OK

// Navigation

Video
Modes

02/06/09

Standby/On
Switch

Volume

FRONT- PANEL CONTROLS

Resolution

Setup

// Navigation

Message Display

Remote
IR Sensor

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harman/kardon

AVR2600

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Side 8

harman/kardon

AVR2600

FRONT- PANEL CONTROLS
Power Indicator: This LED has three possible modes:

This jack is also used to connect the supplied microphone for the
EzSet/EQ procedure described in the Initial Setup section.

• Main Power Off: When the AVR is unplugged or the rearpanel Main Power Switch is off, this LED is off.

USB Port: This port may be used in case a software upgrade
for the receiver is offered in the future. Do not connect a storage
device, peripheral product or a PC here, unless instructed to do
so as part of an upgrade procedure.

• Standby: Amber indicates that the AVR is ready to be turned on.
• On: When the AVR is turned on, this LED turns white.

Digital Audio and Analog Audio/Video Front
Inputs: Connect a source component that will only be used

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 unit to an authorized Harman Kardon
service center for inspection and repair before using it again.

temporarily, such as a digital camera or game console, to these
jacks. Use only one type of audio and one type of video connection.
NOTE: The AVR’s menus refer to these jacks as the Optical
Front, Coaxial Front, Composite Front, and Analog Front inputs.

Standby/On Switch: This electrical switch turns the
receiver on, or places it in Standby mode for quick turn-on.

Setup Button: Press this button to access the AVR’s main

Volume Knob: Turn this knob to raise or lower the volume.

menu.

Message Display: Various messages appear in this two-line
display in response to commands and changes in the incoming signal.
In normal operation, the current source name appears on the upper
line, while the surround mode is displayed on the lower line. When
the on-screen display menu system (OSD) is in use, the current
menu settings appear.

Info Settings Button: Press this button to directly access
the AVR’s Source Info submenu, which contains the settings for the
current source.

Resolution: Press this button to access the AVR’s video output
resolution setting: 480i, 480p, 720p, 1080i, 1080p or 1080p/24
(if available on source and display).

Remote IR Sensor: This sensor receives infrared (IR)
commands from the remote control. It is important to ensure that it
is not blocked. If covering the sensor is unavoidable, use an optional
Harman Kardon HE 1000, or other infrared receiver, connecting it to
the Remote IR Input on the AVR 2600’s rear panel.

IMPORTANT NOTE: If the AVR’s video output resolution
is set higher than the capabilities of the actual connection,
you will not see a picture. If the best available video connection
from the AVR to the TV is composite video, press this button
and change the resolution to 480i.

Audio Effects: Press this button to directly access the Audio
Effects submenu, which allows adjustment of the tone and other
audio controls. See the Initial Setup section for more information.
Video Modes: Press this button for direct access to the Video
Modes submenu, which contains settings that may be used to
improve the picture, if necessary, after you have adjusted the
picture settings using the video display or TV.
Surround Modes: Press this button to select a surround
sound (e.g., 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 section 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.

5/17/3 Navigation: These buttons are used to navigate the
AVR’s menus.
OK: Press this button to select the currently highlighted item.
Headphone Jack/EzSet/EQ Microphone
Input: Plug a 1/4" headphone plug into this jack for private
listening.
7

8

Component
1&2
Inputs

Video
1, 2 & 3
Inputs

Video 2
Output

Remote
IR Input

HDMI
Monitor
Output

HDMI 1–4
Inputs

Remote
IR Output

SIRIUS
Tuner

Video
Monitor
Output
Component Video
Monitor Output

The Bridge III

AC Power Cord

Zone 2
IR Input

6/8 Channel
Inputs
Coaxial 1 & 2
Digital Audio Inputs

AM Antenna
Analog 1–5 Inputs

Surround
Speaker
Outputs

Fan Vents

NOTE: To make it easier to follow the instructions throughout the manual that refer to this illustration, a copy of this page may be downloaded from the Product
Support section at www.harmankardon.com.
9

8
ENGLISH

Side 9

Surround
Back/
Zone 2
Speaker
Outputs

10:36

Front
Speaker
Outputs

Coaxial
Optical 1& 2
Digital
Digital
Audio
Audio
Output
Inputs
Center
Main
Switched AC
Speaker
Power
Accessory
Outputs
Switch
Outlet

26/05/09

Subwoofer
Output

REAR - PANEL CONNECTIONS

FM Antenna
Analog 2 & 4
Audo Outputs

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AVR2600

harman/kardon

AVR2600

REAR - PANEL CONNECTIONS
Main Power Switch: This mechanical switch turns the

NOTES:
• The Analog 2 and 4 inputs are each associated with a set
of outputs. Consider using these connectors for an audio or
video recorder.
• You may optionally connect a source to both an analog and
digital audio input. This is useful for making recordings, for
multizone applications or simply as a backup.

power supply on or off. It is usually left on, and cannot be turned
on or off using the remote control.

6-/8-Channel Inputs: Connect the multichannel analog
audio outputs of a non-HDMI player (DVD-Audio, SACD™, Blu-ray
Disc™ or HD-DVD, or any other external decoder) to these jacks.
See page 30 for more information.

Analog 2 and 4 Outputs: Connect either of these analog
audio outputs to the analog audio inputs of a recording device.
A signal is available at these outputs whenever an analog audio
source is playing.

Coaxial 1/2 and Optical 1/2 Digital Audio
Inputs: If a source 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 digital audio formats, such
as Dolby Digital, DTS and linear PCM. Use only one type of digital
audio connection for each source.

Subwoofer Output: If you have a powered subwoofer
with a line-level input, connect it to the Subwoofer Output.

Coaxial Digital Audio Output: If a source is also
an audio recorder, connect the Coaxial Digital Audio Output to the
recorder’s matching input for improved recording quality. Only PCM
digital audio signals are available for recording. Both coaxial and
optical digital audio signals are available at this Digital Audio Output.

The Bridge III Input: Connect a Harman Kardon
docking station (not included) to this input for use with most docking
iPod models, 4G and later, iPhone or iPhone 3G (not included). Turn
the receiver off (Standby mode) when connecting The Bridge III.

SIRIUS Tuner Jack: Connect a SIRIUS satellite radio tuner

Fan Vents: This area contains vents used by the AVR 2600’s
fan to cool the system. Maintain a clearance of at least 3 inches
from the nearest surface to avoid overheating the unit. It is normal
for the fan to remain off at most normal volume levels. An automatic
temperature sensor turns the fan on only when it is needed.

module here.

Zone 2 Infrared (IR) Input: Connect a remote IR receiver
located in the remote zone of a multizone system to this jack to
control the AVR (and any source devices connected to the Remote
IR Output) from the remote zone.

IMPORTANT NOTE: Never block the fan vents, as doing
so could allow the AVR to overheat to dangerous levels.

Remote Infrared (IR) Input and Output: When the
remote IR receiver on the front panel is blocked, connect an optional
IR receiver to the Remote IR Input jack. The Remote IR Output may
be connected to the Remote IR Input of a compatible product to
enable remote control through the AVR.

Video 1/ 2 / 3 Inputs: Use these jacks to connect your videocapable source components (e.g., VCR, DVD player, cable TV box) to
the receiver. Use only one type of video connection for each source.

Video 2 Output: Connect this analog video output to the
composite video input of a recording device. A signal is available
at this output whenever an analog video source is playing.

HDMI Inputs and Output: HDMI (High-Definition
Multimedia Interface) is a connection for transmitting digital audio
and video signals between devices. Connect up to four HDMIequipped source devices to the HDMI inputs using a single-cable
connection.
When you connect the HDMI Output to your video display, the
AVR 2600 will automatically transcode analog video signals to the
HDMI format, upscaling to as high as 1080p.

Video Monitor Output: If any of your sources use
composite video connections, connect this monitor output to the
corresponding input on your video display. If your video display
is equipped with HDMI or component video inputs, this connection
is unnecessary, as the AVR 2600 will convert the composite video
source signal to the correct format for a single video-cable
connection to the TV.

NOTE: When connecting a DVI-equipped display to one of
the HDMI Outputs:
• Use an HDMI-to-DVI adapter.
• Make sure the display is HDCP-compliant. If it isn’t, do not connect
it to an HDMI Output; use an analog video connection instead.
• Always make a separate audio connection.

Component Video 1/2 Inputs: If a video source has
analog component video (Y/Pb/Pr) capability, and if you are not
using an HDMI connection, connect the component video outputs
of the source to one of the sets of component video inputs. Do not
make any other video connections to that source.

Component Video Monitor Outputs: If you are
using one of the Component Video Inputs and your television or
video display is component-video-capable (but does not have an
HDMI input), connect these jacks to the video display.

Analog 1 – 5 Inputs: Connect the left and right analog
audio outputs of a source device to any of these inputs. These
inputs may be paired with any video inputs.
9

harman/kardon

AVR2600

REAR - PANEL CONNECTIONS

ENGLISH

NOTES:
• Due to copy-protection restrictions, there is no output at
the Component Video Monitor Outputs for HDCP-copyprotected sources.
• Composite video signals are upscaled to as high as 1080i
and available at these outputs. If your video display’s best
connection is component video, it is the only video connection required from the AVR to the display.

AM and FM Antenna Terminals: Connect the included
AM and FM antennas to their respective terminals for radio reception.

Front, Center and Surround Speaker Outputs:
Use two-conductor speaker wire to connect each set of terminals
to the correct speaker. Remember to observe the correct polarity
(positive and negative connections).

Surround Back/Zone 2 Speaker Outputs: These
speaker outputs are used for the surround back channels in a 7.1channel home theater, or may be reassigned to a remote room for
multizone operation.

Switched AC Accessory Outlet: You may plug the
AC power cord of one source device into this outlet, and it will turn
on whenever you turn on the receiver. Do not use a source that
consumes more than 50 watts of power.

AC Power Cord: After you have made all other connections,
plug the AC power cord into an unswitched wall outlet.

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Side 12

MAIN REMOTE CONTROL FUNCTIONS
IR Transmitter Lens
AVR Power Off
AVR Power On

Device Power On
Device Power Off

Source Selectors
Video Modes
Surround Modes

Audio Effects
Alphanumeric Keys

Activity

Last
Back/Exit

Menu
Navigation
OK
Disc Menu

Soft keys

Channel

Volume
Mute

Transport Controls

Record
Info Settings
Setup

SETUP

INFO

SLEEP

Sleep Settings

Zone Selector

11

12

NOTE: To make it easier to follow the instructions
throughout the manual that refer to this illustration,
a copy of this page may be downloaded from the
Product Support section at www.harmankardon.com.

harman/kardon

AVR2600

Source Selectors: Press one of these buttons to select a
source device, e.g., DVD, CD, cable TV, satellite or HDTV tuner. This
will also turn on 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 (AM, FM or SIRIUS). Each successive press changes the band.
While the DVD Source Selector may be used to operate either a
Harman Kardon Blu-ray Disc player or a Harman Kardon DVD player,
the default mode is to operate a Harman Kardon Blu-ray Disc player.
To toggle between Harman Kardon Blu-ray Disc player and DVD player
operation, press and hold the DVD Source Selector for 2 seconds.
The source selector will flash twice to confirm that the remote’s mode
has changed to operate the other type of disc player.

The AVR 2600 remote is capable of controlling 8 devices, including
the AVR itself and an iPod docked in an optional The Bridge III.
During the installation process, you may program the codes for
each of your source components into the remote. To operate a
component, press its Selector button to change the device mode.
Each Source Selector has been preprogrammed to control certain
types of components, with only the codes specific to each brand
and model changing, depending on which product code is programmed. The AUX and Cable/SAT Source Selectors may be used
for multiple device types, depending on the first digit of the product
code. Other Source Selectors may be reassigned to other device
types (see Initial Setup section).

AUX Source Selector: CD player product codes begin
with 0, 1 or 2. VCR codes begin with 3 or 4. HDTV set-top box
codes begin with 6, PVD codes begin with 7 and TiVo® set-top box
codes begin with 8.

Audio Effects: Press to directly access the Audio Effects
submenu, which allows adjustment of the AVR’s tone and other
audio controls. See the Initial Setup section for more information.

Cable/SAT Source Selector: Cable set-top box codes begin

Video Modes: Press for direct access to the Video Modes
submenu, which contains picture settings to be used after you have
adjusted the picture settings on the video display or TV. See the
Advanced Functions section for more information.

with 0, 1 or 2, and satellite set-top box codes begin with 3 or 4.
IMPORTANT NOTE: All of the AVR 2600’s audio and
video inputs are independently assignable. Select the inputs
to which the device is physically connected during Initial
setup. Any device may be connected to any compatible input
and given any name (e.g., DVD or Game).
Most of the buttons on the remote have dedicated functions,
although the precise codes transmitted vary depending on the
device mode. Due to the wide variety of functions for various source
devices, we have included only a few of the most-often used
functions on the remote: alphanumeric keys, transport controls,
television-channel control, menu access and power on and off.
Buttons dedicated to the AVR are available at any time, even in
another device mode: AVR Power On and Off, Audio Effects, Video
Modes, Surround Modes, Volume, Mute and Sleep Settings. Press
the Setup Button near the bottom of the remote to return it to
AVR mode.
A button’s function depends on which component is being controlled.
See Table A13 in the appendix for listings of the functions for each
type of component.

Surround Modes: Press to directly access the Surround
Modes submenu. Select a Surround mode category: Auto Select,
Virtual Surround, Stereo, Movie, Music or Video Game. The surround
mode will change when the menu line is highlighted.
To change the surround mode for the selected category, press the
OK Button when the menu line is highlighted and select one of the
available surround mode options, using the 5/1 Buttons. Press the
OK Button, or press the Back/Exit Button to exit the Surround Modes
menu and display the next higher menu in the hierarchy.
See the Advanced Functions section for more information on
surround modes.
Sleep Settings Button: Press to activate the sleep timer,
which turns off the receiver after a programmed period of time of
up to 90 minutes. Each press increases the timer by 10 minutes,
ending with the “Sleep Off” message.

Volume Control: Press to raise or lower the volume.

remote, infrared codes are emitted through this lens.

Navigation (5/17/3) and OK Buttons: These
buttons are used to make selections within the menu system and
to operate the tuner.

AVR Power On Button: Press to turn on the AVR. The
Master Power Switch on the rear panel must be on.

Alphanumeric Keys: Use these buttons to enter numbers

IR Transmitter Lens: As buttons are pressed on the

for radio station frequencies or to select station presets.

Device Power Off Button: Press a device’s Source

Last Channel: When controlling a cable, satellite or HDTV
set-top box or a TV, press this button to return to the previous
television channel.

Selector, then press this button to turn off the device.

Device Power On Button: Press a device’s Source
Selector, then press this button to turn on the device.

Activity: With this button, up to eleven Activities may be
programmed to 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 Off Button) into which it was programmed.
See the Advanced Functions section for more information on Activities.

Mute Button: Press to mute the AVR 2600’s speaker and
headphone outputs. To end the muting, press this button, adjust
the volume, or turn off the receiver.

AVR Power Off Button: Press to turn off the AVR 2600.

Back/Exit: Press to return to the previous menu or to exit the
menu system.
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MAIN REMOTE CONTROL FUNCTIONS

harman/kardon

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MAIN REMOTE CONTROL FUNCTIONS
Menu Button: This button is used within the Now Playing
menu for the tuner (including SIRIUS Radio), and The Bridge III, and
to display the main menu on some source devices. To display the
AVR 2600’s main menu, press the Setup Button.

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 A13 in the appendix for details. They are also used with
a Teletext-capable television if your broadcast, cable or satellite
provider offers Teletext service.
Channel/Page Control: When the tuner has been selected,
this control selects a preset radio station. While operating a cable,
satellite or HDTV set-top box or a television, press these buttons to
change channels.

Record Button: Use this button to make recordings when an
audio or video recorder is in use.
Setup Button: Press to display the AVR’s Main Menu, or to
switch the remote to AVR device mode.

Info Settings Button: Press to display the AVR’s Info
Menu, which contains the settings for the current source.

Zone Selector: Use this switch to select whether AVR
commands will affect the main listening area (Zone 1) or the remote
zone of a multizone system (Zone 2). For normal operation, leave
the switch in the Zone 1 position.

Track Skip: These buttons are used with source components
to change tracks or chapters.

Transport Controls: These buttons are used to control
source components and The Bridge III.

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CONNECTIONS

CONNECTIONS
Subwoofer

There are different types of audio and video connections used
to connect the receiver, the speakers, the video display, and the
source devices. The Consumer Electronics Association has established the CEA® color-coding standard. See Table 1.

The subwoofer is dedicated to the low frequencies (bass), which
require more power. To obtain the best results, most speaker
manufacturers offer powered subwoofers that contain their own
amplifier. Usually, a line-level (nonamplified) connection is made
from the receiver’s Subwoofer Output to a corresponding jack
on the subwoofer, as shown in Figure 3.
Although the purple subwoofer outputs look similar to full-range
analog audio jacks, they are filtered to allow only the low frequencies
to pass. Don’t connect these outputs to any other devices.

Table 1 – Connection Color Guide
Audio Connections
Left
White

Front (FL/FR)
Center (C)
Surround (SL/SR)
Surround Back (SBL/SBR)
Subwoofer (SUB)

Right
Red
Green

Blue

Gray

Brown

Tan
Purple

Digital Audio Connections
Coaxial

Orange

Optical

Input

Preout

Output

Video Connections
Component
Composite

Y

Green

Pb

Blue

Pr

Figure 3 – Subwoofer

Red

Yellow

CONNECTING SOURCE DEVICES
TO THE AVR

S-Video
™

HDMI Connections (digital audio/video)
HDMI

Audio and video signals originate in “source devices,” including
your Blu-ray Disc or DVD player, CD player, DVR (digital video
recorder) or other recorder, tape deck, game console, cable or
satellite television box, an iPod or iPhone docked in the optional
The Bridge III docking station or MP3 player. The AVR’s tuner
also counts as a source, even though no external connections
are needed, other than the FM and AM antennas and the SIRIUS
tuner module.
Separate connections are required for the audio and video portions
of the signal, except for digital HDMI connections. The types of
connections used depend upon the capabilities of the source device
and video display.

Speaker Connections
Speaker cables carry an amplified signal from the receiver’s speaker
terminals to each loudspeaker. They contain two wire conductors,
or leads, inside plastic insulation, that are differentiated in some
way, such as with colors or stripes.
The differentiation preserves polarity, without which low-frequency
performance can suffer. Each speaker is connected to the receiver’s
speaker-output terminals using two wires, one positive (+) and one
negative (–). Always connect the positive terminal on the speaker,
which is usually colored red, to the positive terminal on the receiver,
which is colored as indicated in the Connection Color Guide (Table 1).
The negative terminals are both black.
The AVR 2600 uses binding-post
speaker terminals that can accept
banana plugs or bare-wire cables.
+
Banana plugs are inserted into the
hole in the middle of the terminal
cap. See Figure 1.

Audio Connections
There are two types of audio connections: digital and analog.
Digital audio signals are required for listening to sources encoded
with digital surround modes, such as Dolby Digital and DTS, or for
noncompressed PCM digital audio. There are three types of digital
audio connections: HDMI, coaxial and optical. Do not use more
than one type of digital audio connection for each source device.
However, it’s okay to make both analog and digital audio connections to the same source.

Figure 1 – Binding-Post Speaker Terminals With Banana Plugs

Bare wire cables are installed as follows (see Figure 2):
1. Unscrew the terminal cap until the pass-through hole is revealed.
2. Insert the bare end of the wire into the hole.
3. Hand-tighten the cap until the wire is held snugly.

1

2

NOTE: HDMI signals may carry both audio and video. If your
video display device has an HDMI input, make a single HDMI
connection from each source device to the AVR. Usually, a
separate digital audio connection is not required. Turn the
volume on your television all the way down.
Digital Audio
The AVR 2600 is equipped with four HDMI (High-Definition
Multimedia Interface) inputs, and one output. HDMI technology
enables digital audio and video information to be carried using
a single cable, delivering the highest quality picture and sound.
The AVR 2600 uses HDMI (V.1.3a with Deep Color) technology and
is capable of processing both the audio and video components
of the HDMI data, minimizing the number of cable connections
in your system. The AVR 2600 implements Deep Color, which
increases by an order of magnitude the shades of color that can

3

Figure 2 – Binding-Post Speaker Terminals With Bare Wires

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Subwoofer

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CONNECTIONS

CONNECTIONS
L

Analog audio
cable (RCA)

NOTE: Some DVD-Audio, SACD, Blu-ray Disc and HD-DVD
players only output multichannel audio through their multichannel analog outputs. Make a separate analog audio connection in addition to the HDMI connection, which is still used
for video and to listen to Dolby Digital, DTS or PCM materials
that may be stored on the disc.

R

Figure 7 – Analog Audio

The 6-/8-Channel Inputs are multichannel analog connections that
are used with high-definition sources that decode the copy-protected
digital content, such as some DVD-Audio, SACD, Blu-ray Disc and
HD-DVD players. See Figure 8. The multichannel analog audio connection is not required for players compliant with HDMI version 1.1
or better, or that output linear PCM signals via an HDMI connection.
Consult the owner’s guide for your disc player for more information,
and see page 27.

The AVR 2600 converts analog video signals to the HDMI format,
including its on-screen menus, upscaling to high-definition 1080p
resolution.
The HDMI connector is shaped for easy plug-in (see Figure 4). If
your video display has a DVI input and is HDCP-compliant, use an
HDMI-to-DVI adapter (not included). A separate audio connection
is required. HDMI cable runs are limited to about 10 feet.

Front Surround Center
Multichannel
analog audio
cable (RCA)

White

Coaxial digital
audio cable

Red

Gray

Purple

Figure 8 – Multichannel Analog Audio

The AVR 2600 also includes a proprietary, dedicated connection for
The Bridge III docking station for the iPod or iPhone. If you own a
docking iPod (most models, 4G or later), iPhone or iPhone 3G, connect
The Bridge III (not included) to The Bridge III port on the receiver. See
Figure 9. Dock your iPod or iPhone (not included) in The Bridge III, and
you may listen to your audio materials through your high-performance
audio system. You may view still images or video materials stored
on a photo- or video-capable iPod that supports video browsing or
iPhone. Use the AVR 2600 remote to control the iPod, with navigation messages displayed on the front panel and on a video display
connected to the AVR. The Bridge III outputs analog audio to the
AVR 2600, and is available to the multizone system.

Coaxial

Figure 5 – Coaxial Digital Audio

Optical digital audio connectors are normally covered by a shutter
to protect them from dust. The shutter opens as the cable is inserted.
Input connectors are color-coded using a black shutter, while outputs
use a gray shutter. See Figure 6.
Optical digital
audio cable

Green
Subwoofer

Figure 4 – HDMI Connection

If your video display or source device is not HDMI-capable, use one
of the analog video connections (composite or component video)
and a separate audio connection.
Coaxial digital audio jacks are usually color-coded in orange.
Although they look similar to analog jacks, you should not connect
coaxial digital audio outputs to analog inputs or vice versa. See
Figure 5.

Blue

Optical

Figure 9 – The Bridge III port

Video Connections

Figure 6 – Optical Digital Audio

Many sources output both audio and video signals (e.g., Blu-ray
Disc or DVD player, cable television box, HDTV tuner, satellite box,
VCR, DVR). In addition to the audio connection, make one type of
video connection for each of these sources (only one at a time for
any source).

Analog Audio
Two-channel analog connections require two cables, one for the
left channel (white) and one for the right channel (red). These two
cables are often attached to each other. See Figure 7.
For sources that are capable of both digital and analog audio, you
may make both connections.
The analog audio connection is required for multizone operation,
as the AVR 2600’s multizone system is not capable of converting
a digital signal to analog format. Use the analog audio connections
with the Surround Back/Zone 2 speaker outputs, in case another
2-channel digital audio source is in use in the main listening area.
The AVR 2600 is only capable of processing one PCM source at a time.
You may only record materials from DVDs or other copy-protected
sources using analog connections. Remember to comply with all copyright laws, if you choose to make a copy for your own personal use.

Digital Video
If you have already connected a source device to one of the HDMI
inputs, you have automatically made a video connection, as the
HDMI signal includes both digital audio and video components.
Analog Video
There are two types of analog video connections used on the
AVR 2600: composite video and component video.
Composite video is the basic connection most commonly available.
The jack is usually color-coded yellow, and looks like an analog
audio jack. Do not plug a composite video cable into an analog
or coaxial digital audio jack, or vice versa. Both the chrominance
(color) and luminance (intensity) components of the video signal
are transmitted using a single cable. See Figure 10.
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be displayed, and the latest lossless multichannel audio formats,
including Dolby TrueHD and DTS-HD Master Audio.

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CONNECTIONS

CONNECTIONS
with standard audio connections, labeled for “car and home use,”
you will not be able to enjoy the AVR 2600’s ease of control.

Composite
video cable
Figure 10 – Composite Video

USB PORT

Component video separates the video signal into three components – one luminance (“Y”) and two sub-sampled color signals
(“Pb” and “Pr”) – that are transmitted using three separate cables.
See Figure 11.

The USB Port on the AVR 2600 is used only for software upgrades.
If an upgrade for the receiver’s operating system is released in the
future, it may be downloaded to the AVR using this port. Complete
instructions will be provided at that time.

Y Green
Component
video cable

Pb Blue
Pr Red

Figure 11 – Component Video

If it’s available on your video display, an HDMI connection is recommended as the best quality connection, followed by component
video, and then composite video.
NOTES:
• HDCP-copy-protected sources are not available at the
Component Video Monitor Outputs.
• Standard and high-definition analog video signals may
be upscaled to 1080i resolution for the Component Video
Monitor Outputs. For improved video performance, consider
upgrading to an HDMI-capable video display with 1080p
resolution.

ANTENNAS
The AVR 2600 uses separate terminals for the included FM and AM
antennas.
The FM antenna uses a 75-ohm F-connector. See Figure 12.

Figure 12 – FM Antenna

The AM loop antenna needs to be assembled. Connect the two leads
to the spring terminals on the receiver. The AM antenna leads have
no polarity, and you may connect them to either terminal. See
Figure 13.

Figure 13 – AM Antenna

To enjoy SIRIUS satellite radio, purchase a SIRIUS-Ready tuner module
and a subscription to the SIRIUS service. Visit www.sirius.com
for information on SIRIUS-Ready tuner modules. The AVR 2600 is
compatible with the SiriusConnect SC-H1 tuner module, using the
8-pin DIN cable included with the module, and it provides power for
the tuner module, so that it is not necessary to use the AC adapter
supplied with the tuner module. Although you may use a module

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In this section, you will configure the AVR 2600 to match your actual
system. A video display must be connected to one of the video
monitor outputs on the receiver.

USING THE ON-SCREEN MENU SYSTEM
Although it’s possible to configure the AVR using only the remote
and the front-panel messages, it is easier to use the full-screen
menu system.
The menu system is accessed by pressing the Setup Button on the
remote or front panel.
The Main Menu will appear (see Figure 20), and if a video source
is playing, it will be visible behind the transparent menu.

Until recently, most receivers required manual calibration and
configuration, a tedious process that called for a good ear or the
purchase of an SPL (sound-pressure level) meter. Although you may
configure the AVR 2600 manually, as described in the Advanced
Functions section, it is recommended that you take advantage of
the signature Harman Kardon EzSet/EQ system.
Eliminate extraneous background noise, such as noisy air conditioning.
Avoid making any loud noises while running EzSet/EQ setup.
IMPORTANT SAFETY NOTE: During the EzSet/EQ
procedure, a series of very loud test sweeps will be played
through all of the speakers. Avoid sitting or standing close to
any one speaker during the procedure. If you are particularly
sensitive to loud noises, you may wish to leave the room and
have someone else run the EzSet/EQ process.

STEP ONE – Place the included EzSet/EQ microphone in the
listening position or in the center of the room, at about the same
height as the listeners’ ears. The microphone features a threaded
insert on the bottom, for mounting on a camera tripod.
STEP TWO – Plug the EzSet/EQ microphone into the
Figure 20 – Main Menu

NOTE: When using the AVR’s on-screen menu system, a
video output resolution of 720p or higher is recommended for
easiest viewing, and to provide graphics that simplify some
configuration options. Depending on the resolution selected,
the menus shown by your system may vary in appearance.
The main menu system consists of five submenus: Source
Selection, Setup Source, Speaker Setup, Zone 2 and System.
Use the 5/17/3 Buttons on the remote or front panel to navigate
the menu system, and press the OK Button to select a menu or
setting line, or to enter a new setting.
The current menu, setting line or setting will appear in the Message
Display, as well as on screen.
To return to the previous menu or exit the menu system, press the
Back/Exit Button. Be certain all settings are correct, as any changes
you have made will be retained.
Most users should follow the instructions in this Initial Setup section
to configure a basic home theater system. You may return to these
menus at any time to make additional adjustments, such as those
described in the Advanced Functions section.
Before beginning initial setup, all loudspeakers, a video display and
all source devices should be connected. You should be able to turn
on the receiver and view the main menu when you press the Setup
Button. If necessary, reread the Installation Section and the beginning of this section before continuing.

Headphone Jack/EzSet/EQ Microphone Input Jack on the front of
the receiver, and set the level control on the subwoofer to the
halfway point.

STEP THREE – Turn on the AVR 2600 and the video
display. Press the Setup Button to display the Main Menu. Use
the 5 Button to highlight the Speaker Setup line, then press the
OK Button. See Figure 21.

Figure 21 – Speaker Setup Menu Screen

Select “Automatic Setup-EzSet/EQ”, and the screen shown in
Figure 22 will appear.

Configure the AVR 2600, Using EzSet/EQ
Technology
One of the most important steps in setting up a home theater
system is to calibrate the receiver to match the loudspeakers,
optimizing sound reproduction.

Figure 22 – EzSet/EQ Screen

To return to the Speaker Setup menu without starting the EzSet/EQ
process, select Back. When you are ready to begin, select Continue.
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INITIAL SETUP
Set Up Sources

NOTE: The AVR 2600 will automatically set its master
volume to – 25dB.

The Info Settings menu is used to assign the correct physical audio
and video connections to each source.
The following settings are not optional and must be adjusted now
to enable playback of each source: Video Input From Source, Audio
Input From Source and Resolution to Display. The other settings
may be adjusted later.
To display the Info Settings menu, press the Info Settings Button
(front panel or remote). Or, from the Main Menu, select the Setup
Source line and select a source from the slide-in menu. A screen
similar to the one shown in Figure 25 will appear.

STEP FOUR – After you select “Continue”, the screen shown
in Figure 23 will appear. Select the number of speakers in your
system. Select 5.1 if no surround back speakers are present or if
the surround back channels will be used for multizone operation.

Figure 23 – EzSet/EQ: Number of Speakers

NOTE: If there are fewer than five main speakers in your
system, do not use the EzSet/EQ process. Instead, proceed
as described in the Advanced Functions section. If you have
selected a 6.1-channel configuration with a single surround
back speaker, use EzSet/EQ automatic configuration for
5.1 speakers, connect the single surround back speaker
to the left Surround Back Speaker Output, then configure
the surround back speaker manually, as described in the
Advanced Functions section. The 6.1-channel configuration
is not recommended. If the subwoofer is to be connected to
the Front Speaker Outputs, do not connect the subwoofer until
after running the EzSet/EQ process.

Figure 25 – Setup Source Menu

Audio Effects: Displays the Audio Effects submenu, where
you may adjust the Dolby Volume setting, the bass and treble tone
controls, the LFE trim, the Equalization On/Off setting and the MP3
enhancement for each source independently. Leave this submenu
at its default settings, and return to it later if your system requires
fine-tuning. See the Advanced Functions section for more information.

Video Modes: Displays the Video Modes submenu, where you
may make picture adjustments for each source independently. Leave
the settings at their factory defaults. Picture adjustments should be
made to your video display first, with this menu used only for finetuning. See the Advanced Functions section for more information.

The test will begin, and the screen shown in Figure 24 will appear.
Maintain silence during the EzSet/EQ configuration.

Surround Modes: Displays the Surround Modes submenu,
where you may program surround modes for movies, music and
games for each source independently.
Digital surround signals, such as Dolby Digital and DTS, are automatically played in their native formats, although you may change
the surround mode. See the Advanced Functions section for more
information.

Audio Format From Source: This line is informational

Figure 24 – EzSet/EQ in Progress

only. When a digital program is playing, its format will be identified
here. When analog audio programs are playing, this line displays
ANALOG.

As the EzSet/EQ system tests each speaker, its position will appear
on screen. If the test sweep is heard from a different speaker than
the one indicated on screen, turn off the AVR and check the speakerwire connections, then begin again.
When the test is completed, select the Continue option. These
options will be displayed:
• View Settings: Select to view the results of the EzSet/EQ
procedure.
• Done: Select to return to the Speaker Setup menu.
See the Advanced Functions section for instructions on how to
manually configure the speakers or manually adjust the settings
established by the EzSet/EQ process.

26

Audio and Video Input Selection
See Table A2 in the appendix for the factory default input assignments
for each source. You may assign any available input to any source
using the Info Settings menu.
When a source is selected, the AVR will check the assigned digital
audio input for a signal. If one is present, the digital input will be
selected. If not, the AVR will select the analog audio input specified
at the Audio Auto Polling line of the Info Settings menu. If you don’t
want the AVR to select an analog audio input for the source, leave
this setting at its default of Off.
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AVR2600

The AVR will also select the assigned video source. The only “audioonly” sources on the AVR 2600 are the Radio and The Bridge III
(video may be available; see page 32), which use special on-screen
menus. For external sources, if no video signal is present, the display
will remain black. You may pair an audio device with an A/V device’s
video signal using the Info Settings menu. Sources may share audio
or video inputs.

• Connect the player’s digital audio output to a digital audio input
on the AVR.
• Connect the player’s multichannel audio outputs to the AVR’s
6-/8-Channel Analog Audio Inputs.
• Assign the correct digital audio and analog video inputs to the
Audio and Video Input From Source settings.
• When listening to DVD-Video discs, CDs or other materials outputting standard-definition digital audio, do nothing, as long
as the correct digital audio input is assigned to the Audio Input
From Source setting.
• To listen to high-resolution multichannel discs, change the Audio
Input From Source setting to “6/8 Channel”. Change it back to the
digital audio input to listen to standard-resolution digital materials.

NOTE: The Bridge III obtains its audio and video signals
(when available) from the iPod or iPhone docked in it, and it
may not be used with other audio or video sources.

Video Input From Source: Assign the correct video
input. Refer to Table 2, where you noted the physical video input
the source is connected to, and select that input here.

NOTE: The 6-/8-Channel Inputs pass the incoming signals
directly to the volume control, without digitizing or processing
them. It is not possible to change the surround mode or adjust
any of the audio controls in the Audio Effects menu when
using the 6-/8-Channel Inputs. Configure the bass management
settings (i.e., speaker size, delay and output level) on your
source device to match the settings programmed using the
EzSet/EQ procedure, which may be viewed using the Speaker
Setup menu (see Advanced Functions section). Consult the
owner’s guide for your multichannel player for more information.

Audio Input From Source: Assign the correct analog or
digital audio input. Refer to Table 2, where you noted the physical
audio input the source is connected to, and select that input here.
If both analog and digital audio connections were made, select the
digital input here, and select the analog input at the Audio Auto
Polling and Zone 2 Audio lines below.

6-/8-Channel Inputs
The 6-/8-Channel Analog Audio Inputs are used when playing
certain multichannel discs (DVD-Audio, Blu-ray Disc, SACD and
HD-DVD) on a player that decodes the audio and outputs it via its
multichannel analog audio outputs but not via its HDMI output.

Resolution to Display: This setting reflects the video
output resolution, which is dependent upon the capabilities of the
video display.
• If the display is connected to the AVR’s HDMI Output, the two
devices will communicate with each other, and the AVR will automatically select the best available video output resolution.
• If the display is connected to the AVR’s Component Video Outputs,
there is no automatic detection of the display’s capabilities, and
the video output resolution must be manually adjusted to match
the display’s capabilities (which may be obtained from the display’s
manual or its manufacturer’s Web site).
• If the display is connected to the AVR’s Composite Video Monitor
Output, the video output resolution must be set to 480i (the factory
default) to view any content, including the AVR’s own menus.
Adjust the resolution by pressing the front-panel Resolution Button
and using the 1/5 Buttons until the correct setting appears in the
front-panel Message Display. For composite video, the correct setting
is 480i. For component video, it is the highest resolution where a
picture is visible. You will be prompted to accept or cancel the resolution change; the CANCEL message will appear on the front panel.
Press the 5 Button to view the ACCEPT option, and then press the
OK Button.

HDMI-Equipped Multichannel Disc Player:
• Connect the player’s HDMI output to one of the AVR’s HDMI
Inputs. No other connections are necessary.
• Assign the HDMI Input to both the Audio and Video Input From
Source settings.

HDMI-Equipped Multichannel Disc Player
That Does Not Output Multichannel Audio
via an HDMI Connection:
• Connect the player’s HDMI output and its multichannel analog
audio outputs to one of the AVR’s HDMI Inputs and to the AVR’s
6-/8-Channel Analog Audio Inputs.
• Assign the HDMI Input to both the Audio and Video Input From
Source settings.
• When listening to DVD-Video discs, CDs or other materials outputting standard-definition digital audio, do nothing, as long as
the HDMI Input is assigned to the Audio Input From Source setting.
• To listen to high-resolution multichannel discs, change the Audio
Input From Source setting to “6/8 Channel”. Change it back to the
HDMI Input to listen to standard-resolution digital materials.

NOTE: When the display has a DVI input which is connected
to the AVR using an HDMI-to-DVI adapter, the picture will be
distorted or blank if the display is not HDCP-compliant. In that
case, a different video connection must be used (component
or composite).

Multichannel Disc Player Without HDMI Output,
or When Video Display Has No HDMI Input:
• Connect the player’s component video outputs to one set of
Component Video Inputs on the AVR. Depending on the capabilities
of the player and your video display, you may need to use a
composite video connection instead.

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INITIAL SETUP
Resolution From Source: Informational only. Indicates
the resolution of the video output by the source device.

Zone 2 Audio: Determines the audio source for the multizone
system remote zone. Select the analog audio input the source is
connected to. Digital audio is not available to the multizone system.
Press the Back/Exit Button, then return to the Setup Source line
of the Main Menu to configure the next source. When you have
finished, press the Back/Exit Button to clear the menus from view.
You are now ready to begin enjoying your new receiver!

HDMI Bypass: When an HDMI source signal is in use and
the system includes an HDMI-capable display, the HDMI Bypass
mode passes the source signal directly to the HDMI output, bypassing all video processing within the AVR, including video output
resolution adjustment. To allow the AVR to process all video, including
“blending” the source video with its on-screen messages and
menus so that you may adjust the AVR without missing any portion
of the program, turn this setting off. When the HDMI Bypass mode
is on, it is not possible to “blend” the video source signal with the
AVR’s on-screen menus. When any remote or front-panel buttons
are pressed, the AVR will momentarily exit HDMI Bypass mode and
display the on-screen menu on a black background. After the menu
is cleared from the screen, either by timing out or when the Back/Exit
Button is pressed, the AVR will return to HDMI Bypass mode.
Change Name: Change the display name for your source,
which is useful if your source’s device type is different from the
available source names. Select this line and use the 5/1 Buttons
to scroll forward or reverse through the alphanumeric characters.
When the desired character appears, use the 3 Button to move the
cursor to the next position. Move the cursor again to leave a blank
space. When you have finished, press the OK Button. The name will
appear on the front panel and next to its original name, e.g., DVD,
throughout the on-screen menu system. To clear the entry without
making any changes, scroll to the blank character before “A”.

Adjust Lip Sync: Resynchronizes the audio and video
signals from a source to eliminate a “lip sync” problem. Lip sync
issues can occur when the video portion of a signal undergoes
additional processing in either the source or the video display.
The Lip Sync adjuster appears by itself, enabling you to view the
video while listening to the audio. Use the 7/3 Buttons to delay
the audio by up to 180ms. See Figure 26.

Figure 26 – Adjust Lip Sync

Audio Auto Polling: Used when both analog and digital
audio connections are made. When no digital signal is present, the
AVR will automatically switch to the analog audio input.
This can be useful for older cable television systems that broadcast
channels in both analog and digital audio.
If an analog audio connection was made, select it here. If not, choose
the Off setting, and the AVR will always use the digital audio
connection.

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Now that you have installed your components and completed a
basic configuration, you are ready to begin enjoying your home
theater system.

endeavors to re-create the reference presentation that was heard
in the recording studio without losing portions of the program at
the typically lower volume levels often used in the home. When the
Modeler module is active, you may notice details of the performance
that were hidden when the program was played on other equipment.

TURNING ON THE AVR 2600
Flip the rear-panel Main Power Switch to the “On” position. The
Power Indicator on the front panel will turn amber, indicating that
the AVR is in Standby mode and is ready to be turned on. The
Main Power Switch is normally left on.
There are several ways to turn on the AVR 2600:
a) Press the Standby/On Switch on the front panel.
b) Using the remote, press the AVR Power On Button or any of the
Source Selectors.
To turn the receiver off, press either the Standby/On Switch on
the front panel or the AVR Power Off Button on the remote control.
Unless the receiver will not be used for an extended period of time,
leave the Main Power Switch on. When the Main Power Switch is
turned off, any settings you have programmed will be preserved for
up to four weeks.
IMPORTANT NOTE: If the PROTECT message ever
appears in the Message Display, turn off the AVR and unplug
it. Check all speaker wires for a short. If none is found, bring
the unit to an authorized Harman Kardon service center for
inspection and repair before using it again.

NOTE: The Dolby Volume processor is not used to level
volume across sources.
To adjust the Dolby Volume setting, press the Audio Effects Button.
A screen similar to the one shown in Figure 27 will appear. Move
the cursor to highlight the Dolby Volume setting, and each press of
the OK Button will switch to one of the options in Table 4 below. The
settings do not refer to the volume level, which is adjusted normally
using the Volume Control, but rather to the amount of Dolby Volume
processing desired.

Figure 27 – Adjust Dolby Volume

VOLUME CONTROL

Table 4 – Dolby Volume Settings

Adjust the volume either by turning the knob on the front panel
(clockwise to increase volume or counterclockwise to decrease
volume), or by pressing the Volume Control on the remote. The
volume is displayed as a negative number of decibels (dB) below
the 0dB reference point.
0dB is the maximum recommended volume for the AVR 2600.
Although it’s possible to turn the volume to a higher level, doing
so may damage your hearing and your speakers. For certain more
dynamic audio materials, even 0dB may be too high, allowing for
damage to equipment. Use caution with regard to volume levels.
To change the volume level display from the default decibel scale
to a 0-to-90 scale, adjust the Volume Units setting in the System
Settings menu, as described on page 42.

Setting
Off
Low
Medium
Max

Effect
No Dolby Volume processing
Only Dolby Volume Modeler module is active
Both Modeler and Leveler modules are active;
Leveler module has a value of 3
Both Modeler and Leveler modules are active;
Leveler module has a value of 9

NOTE: Dolby Volume processing is compatible with sources
recorded at a sampling rate of 48kHz. High-resolution sources,
such as DTS 96/24, will be decoded at 48kHz. DTS 96/24
programs will be played in DTS 5.1 mode. To hear DTS 96/24
materials in high resolution, turn off Dolby Volume processing.

Dolby Volume
The AVR 2600 implements Dolby Volume processing, which can
improve the audio performance of the system by revealing subtle
details even at normal home-listening volumes.
One concern of the typical home theater listener is that volumes
can vary widely for different programs played by a source, e.g.,
television commercial advertisements are often much louder than
the main feature. Another is that details heard in the recording
studio at typically high reference volumes are lost at the lower
volumes used by many listeners.
The AVR 2600 uses two Dolby Volume techniques to address these
issues. The Leveler module maintains a consistent listening volume
within a source, e.g., while watching commercial television or while
listening to different tracks on a data CD. The Modeler module

Dolby Volume Calibration Offset
Calibration Offset is a feature of Dolby Volume processing that
allows you to adjust the calibration of the AVR 2600 to optimally
match your speakers and listening environment. The AVR 2600 is
calibrated with the average speaker sensitivity in mind; however,
different speakers may have different sensitivities. Use Calibration
Offset to adjust the calibration of the AVR 2600 according to the
types of speakers you have.
The average home audio speaker sensitivity is 88dB SPL (8 ohms,
1 watt, 1 meter). Check the sensitivity specification for your loudspeakers, found in the owner’s manual or on the manufacturer’s
Web site. If your speakers have a sensitivity rating greater than
88dB SPL, increase Calibration Offset by the difference between

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OPERATION
SOURCE SELECTION

your speakers’ sensitivity and 88dB. If they have a sensitivity rating
of less than 88dB SPL, decrease Calibration Offset by the difference
between your speakers’ sensitivity and 88dB.
To adjust the Calibration Offset, press the Setup Button and scroll
to the System Setup menu, then select it. Scroll to the Dolby Volume
Calibration line, which defaults to 0dB. Use the 7/3 Buttons to
adjust the setting within the range of –10dB to +10dB.

Press the front-panel Source List Button. Use the 5/1 Buttons to
scroll through the sources. Using the on-screen menus, press the
Setup Button, highlight “Source Select” and press the OK Button.
Scroll to the desired source in the slide-show menu and press the
OK Button.
For direct access to any source, press its Source Selector on
the remote.
The AVR selects the audio and video inputs assigned to the source,
and any other settings made during setup.
The source name, the audio and video inputs assigned to the
source, and the surround mode will appear on the front panel.
The source name and surround mode will also appear on screen.

MUTE FUNCTION
To temporarily mute all speakers and the headphones, press the
Mute Button on the remote. Any recording in progress will not
be affected. The MUTE message will appear in the display as a
reminder. To restore normal audio, press the Mute Button again,
or adjust the volume. Turning off the AVR will also end muting.

VIDEO TROUBLESHOOTING TIPS:
If there is no picture:

SLEEP TIMER
The sleep timer sets the AVR to play for up to 90 minutes and then
turn off automatically.
Press the Sleep Settings Button on the remote, and the time
until turn-off will be displayed. Each additional press of the Sleep
Button increases the play time by 10 minutes, with a maximum
of 90 minutes. The SLEEP OFF setting disables the sleep timer.
When the sleep timer has been set, the front-panel display will
automatically dim to half-brightness.
If you press the Sleep Button after the timer has been set, the
remaining play time will be displayed. Press the Sleep Button again
to change the play time.

• Check the source selection and video input assignment.
• Check the wires for a loose or incorrect connection.
• Check the video input selection on the display device (TV).
• Press the front-panel Resolution Button and use the
5/1 Buttons until the correct video output resolution is
selected and a picture appears. The CANCEL message will
appear. Press the 5 Button to view the ACCEPT option, then
press the OK Button.
Additional Tips for HDMI Connections:
• Turn off all devices (including the TV, AVR and any source
components).
• Unplug the HDMI cables, starting with the cable between
the TV and AVR, and continuing with the cables between
the AVR and each source device.
• Carefully reconnect the cables from the source devices to
the AVR. Connect the cable from the AVR to the TV last.
• Turn on the devices in this order: TV, AVR, source devices.

AUDIO EFFECTS
Adjust the Dolby Volume setting, tone controls, LFE trim, Equalization
On/Off setting or MP3 enhancement to improve performance.
Access these settings from the Audio Effects submenu, as described
in the Advanced Functions section.
It is recommended that you leave the settings at their default values
until you are more familiar with your system.

VIDEO MODES

USING THE RADIO

The settings in the Video Modes menu are used to fine-tune the
picture, if necessary, after making all adjustments on the video display.
It is recommended that you leave the settings at their defaults.
See the Advanced Functions section for detailed information.

To select the AVR 2600’s built-in radio:
1. Press the Source List Button on the front panel. Use the
5/1 Buttons to scroll to the desired band.
2. Press the Radio Source Selector on the remote. Press it again
to switch bands (AM, FM or SIRIUS).
A screen similar to the one shown in Figure 28 will appear.
The SIRIUS band uses a different screen.

HEADPHONES
Plug the 1/4-inch plug on a pair of headphones into the front-panel
jack for private listening. The default Headphone Bypass mode
delivers a conventional 2-channel signal to the headphones.
Press the Surround Modes Button on the front panel or the remote,
to switch to Harman Headphone virtual surround processing, which
emulates a 5.1-channel speaker system. No other surround modes
are available for the headphones.

Figure 28 – FM Radio

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Use the 5/1 Buttons or the Channel Control to tune a station (or
channel for SIRIUS Radio), as displayed on the front panel and on screen.
The AVR defaults to automatic tuning, meaning each press of the
5/1 Buttons scans through all frequencies until a station with
acceptable signal strength is found. To switch to manual tuning,
in which each press of the 5/1 Buttons steps through a single
frequency increment (0.1MHz for FM, or 10kHz for AM), press the
Menu Button. The Mode line will display the current setting. Each
press of the OK Button toggles between automatic and manual
tuning modes.
When an FM station has been tuned, toggling the tuning mode also
switches between stereo and monaural play, which may improve
reception of weaker stations.
A total of 30 stations (AM and FM together) may be stored as presets.
When the desired station has been tuned, press the OK Button, and
two dashes will flash. Use the Alphanumeric Keys to enter the desired
preset number.
To tune a preset station: Press the 7/3 Buttons or the I‹‹ / ››I
Transport Controls; or press the Menu Button and scroll to the
desired preset, then press the OK Button; or enter the preset number
using the Numeric Keys. For presets 10 through 30, press 0 before
the preset number. For example, to enter preset 21, press 0-2-1.

SIRIUS SATELLITE RADIO OPERATION
To listen to Satellite Radio, you’ll need to connect a SIRIUS Satellite
Radio tuner (sold separately) to your SIRIUS Ready receiver. SIRIUS
Satellite Radio is available to residents of the U.S. (except Alaska
and Hawaii) and Canada.
Satellite Radio delivers a variety of commercial-free music from
categories including Pop, Rock, Country, R&B, Dance, Jazz, Classical
and many more, plus coverage of all the top professional and college
sports, including play-by-play games from select leagues and teams.
Additional programming includes expert sports talk, uncensored
entertainment, comedy, family programming, local traffic and weather,
and news from your most trusted sources.
Once you’ve purchased a SIRIUS tuner, you’ll need to activate it and
subscribe to begin enjoying the service. Easy-to-follow installation
and setup instructions are provided with the SIRIUS tuner. There are
a variety of programming packages available, including the option of
adding “The Best of XM” programming.“The Best of XM” service is
not available to SIRIUS Canada subscribers at this time. Please check
with SIRIUS Canada for any updates using the numbers and Web
address below.
Family-friendly packages are also available to restrict channels
featuring content that may be inappropriate for children.
To subscribe to SIRIUS, U.S. and Canadian customers can call 1-888-539-SIRI
(7474) or visit sirius.com (U.S.) or siriuscanada.ca (Canada).
The AVR 2600 is a SIRIUS Ready device, and is able to receive the
SIRIUS service when a user-supplied SIRIUS tuner module is connected
and the service activated.
Select a tuner module designated for SIRIUS Ready audio components.
A SIRIUS Ready module uses the special connector on the AVR and is
controlled by the AVR’s internal tuner, including its 40 preset station
locations and remote control. Although you may use a “car and
home” module with standard audio connections, you will not be able
to enjoy the AVR’s ease of control.
23

The SIRIUS-Connect SC-H1 tuner module is compatible with the
AVR 2600. Other modules that have standard analog or digital audio
outputs may be connected to a compatible input and operated
using their own controls.
Plug the module into the SIRIUS tuner jack on the rear of the
AVR 2600. Place the tuner module so that it has a clear view through
a south-facing window.
Select SIRIUS Radio as the source in one of these ways:
1. Press the Source List Button on the front panel. Use the
5/1 Buttons to scroll to “SIRIUS Radio” and press the OK Button.
2. Press the Radio Source Selector on the remote repeatedly until
SIRIUS Radio is selected.
There are four ways to tune a SIRIUS Radio channel:
1. Use the 5/1 Buttons or the Channel Control to scan through
the channel numbers.
2. Use the 7/3 Buttons to scan through any previously programmed
preset stations.
3. After you have programmed presets, directly enter the preset
number (1 through 40) using the Alphanumeric Keys. For two-digit
positions, enter a “0” before the number.
4. Press the Menu Button to search for a channel by: preset, category,
all channels or direct entry.
When you are able to hear Channel 1, you are ready to activate your
module. If you don’t hear Channel 1, make sure the module’s plug
is firmly seated in the SIRIUS jack, and that the module is near a
south-facing window. Try rotating the module to obtain reception.
You may need to purchase an extension cable to ensure that the
module is near the window.
Tune to Channel 0 for a display of your module’s Radio ID number.
You may also view the Radio ID number by pressing the Menu Button
and selecting “SIRIUS ID”.
The current channel number and preset location will appear in
the lower line of the Message Display. The song title, artist, channel
name, channel category, channel number, preset position (if programmed) and three signal-strength bars, will all appear on screen
when a video display is in use.
For traffic and weather channels, the current city’s name will appear
instead of the channel name, and the local weather and temperature
will be displayed on screen.
A total of 40 channels may be stored as presets. When the desired
channel has been tuned, press the OK Button, and two dashes will
flash in the front-panel display. Use the Alphanumeric Keys to enter
the desired preset number.
To tune a preset, press the 7/3 Buttons or the I‹‹ / ››I Transport
Controls, or press the Menu Button and scroll to the desired preset,
then press the OK Button; or enter the preset number using the
Numeric Keys. For presets 10 through 40, press 0 before the preset
number. For example, to enter preset 21, press 0-2-1.

RECORDING
Two-channel analog and digital audio signals, as well as composite
video signals, are normally available at the appropriate recording
outputs. To make a recording, connect your audio or video recorder
to the appropriate output jacks, as described in the Installation
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OPERATION
section, insert blank media and make sure the recorder is turned
on and recording while the source is playing.

While a selection is playing, the song title and play mode icon will
appear in the front-panel Message Display.
If a video monitor is connected to the AVR 2600 and the system is
not in iPod Manual Mode, the Now Playing screen will appear and
display the play mode icon, song title, artist and album. A graphic
bar indicates the current play position within the track. If random or
repeat play has been programmed, an icon will appear in the upper
right corner.
The screen may disappear from view, depending on the Setup and
Slide-In Menus setting in the System Settings menu (described in
the Advanced Functions section). Restore the Now Playing screen
to view by pressing either of the 7/3 Buttons.

NOTES:
1. Analog and digital audio signals are not converted to the
other format.
2. Only PCM digital audio signals are available for recording.
Proprietary formats such as Dolby Digital and DTS may not
be recorded using the digital audio connections. Use the
analog audio connections to make an analog recording.
3. HDMI and component video sources are not available for
recording.
4. Please make certain that you are aware of any copyright
restrictions on any material you record. Unauthorized duplication of copyrighted materials is prohibited by federal law.

USING

NOTE: It is strongly recommended that you use the screen
saver built into your video display to avoid possible damage
from “burn-in” that may occur with plasma and many CRT
displays when a still image, such as a menu screen, remains
on display for an extended period of time.

DOCKING STATION

The Bridge III is an optional dock that is compatible with most
docking iPod models, 4G and later, and iPhone models (not included).
When The Bridge III is connected to its proprietary input on the
AVR 2600 and the iPod or iPhone is docked, you may play the
audio, video and still-image materials on your iPod or iPhone
through your high-quality audio/video system; operate the iPod or
iPhone using the AVR remote or the AVR’s front-panel controls;
view navigation messages on the AVR’s front panel or a connected
video display; and charge the iPod or iPhone.
When the source The Bridge is selected and an iPod or iPhone
is docked, the message “The Bridge” appears in the front-panel
Message Display. If the AVR doesn’t detect the iPod or iPhone, turn
off the AVR, remove the iPod or iPhone from The Bridge III and reset
the iPod or iPhone. When the iPod or iPhone returns to its main
menu, redock it and turn on the AVR.
Table 5 summarizes the controls available with The Bridge III during
normal playback.

Press the Menu Button to view the slide-out menu:
Music: Navigates the audio materials stored on the iPod or
iPhone. Use the Page Up/Down Control on the remote to scroll
through the content a page at a time.
Photo/Manual: Select this line to view still images stored on
a photo-capable iPod or iPhone. The system will switch to iPod
Manual Mode, and control will shift to the iPod. Use the screen and
controls on the iPod. The AVR remote may also be used.
To view photos on a video monitor connected to the AVR, select the
photo and press the Play Button on the iPod, or press the OK Button
on the remote three times.
Videos: Select this line to view videos stored on an iPod that
supports video browsing or an iPhone.
NOTES ON VIDEO PLAYBACK:
• As of this writing, video browsing is only supported on the
iPod 5G, iPod classic (80GB, 120GB and 160GB), iPod nano
3G and 4G, and iPod touch or iPhone (when loaded with
software version 2 or higher). For other iPod models, it is
not possible to view photos (except iPod 4G) or videos on
an external monitor while using The Bridge III. Due to the
design of the iPhone, it is not possible to view photos stored
on the iPhone using The Bridge III.
• Before attempting to view photos or videos stored on your
device, check the Video Settings menu on the device and
make sure that the TV Out setting is set to On. The TV
Signal setting should be NTSC, to match the capabilities
of your video display. If your selection was playing and is
paused, the iPod or iPhone requires you to reselect the
video for the new TV Out setting to take effect.
• If you do not see the Videos line in the menu, and the iPod
supports video browsing and has video content stored on
it, you may need to turn off the AVR, remove the iPod from
The Bridge III, reset the iPod, turn the AVR back on and dock
the iPod again. An iPhone may not need to be reset, as simply
undocking and redocking it may resolve the problem. This

Table 5 – Using The Bridge III
iPod or iPhone Function
Play
Pause
Menu
Back/Exit
Select
Scroll Reverse
Scroll Forward
Forward Search
Reverse Search
Next Track
Previous Track
Page Up/Down

32

Remote Control Key
Play ( 3)
Pause ( II )
Menu
Back/Exit or Left Arrow (7 )
OK or Right Arrow ( 3)
Up Arrow (1)
Down Arrow ( 5)
Forward Search ( 33)
Reverse Search (77 )
Next ( 33I ) or Right Arrow ( 3)
Previous ( I77 ) or Left Arrow (7 )
Page Up/Down

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procedure may also help when a video program is selected
but the “Now Playing” screen appears instead of the video
images.

When a slideshow is being displayed, some controls have different
effects:
• To pause the slideshow, including any audio track that is playing,
press the Pause Button.
• To resume a paused slideshow, press the Pause Button. Pressing
the Play Button begins audio playback.
• To play an audio track stored on the iPod, adjust the Slideshow
Settings on the iPod.
• To skip to the next or previous photo on the iPod, press the Next
or Previous Transport Control.
• It is not possible to skip to the next or previous audio track during
a slideshow.
• To search forward or in reverse within an audio track, press the
Forward or Reverse Search Transport Control. If no audio track is
playing, these controls will have no effect during the slideshow.

To exit iPod Manual Mode, with the AVR remote in The Bridge mode,
press the Menu Button. To return to a previous menu level, press
the Back/Exit Button or the 7 Button.
Random: Select this setting for random playback, also known as
“Shuffle Mode”. Each press of the OK Button switches the setting:
shuffle by Song, shuffle by Album, or Off to end random playback.
Repeat: Select this setting to repeat a track or all tracks in the
current album or playlist. Each press of the OK Button switches
the setting: repeat Off, repeat One or repeat All.
NOTE: The iTunes application allows you to exempt some tracks
from Shuffle mode. The AVR 2600 cannot override this setting.
The AVR supports audio playback from some applications available
for the iPhone and the iPod touch. Place the system in iPod Manual
Mode by pressing the Menu Button and selecting “Photo/Manual”.
Then use the controls on the iPhone or iPod touch to run the application. Due to the wide variety of applications and many factors
affecting them, playback is not guaranteed.
While scrolling, hold the key to scroll faster. Use the Page Up/Down
control on the remote to scroll a page at a time (not in manual mode).

SELECTING A SURROUND MODE
Surround mode selection can be as simple or sophisticated as your
individual system and tastes. Feel free to experiment, and you may
find a few favorites for certain sources or program types. More
detailed information on surround modes may be found in the
Advanced Functions section.
To select a surround mode, press the Surround Modes Button
(front panel or remote). The Surround Modes menu will appear
(see Figure 29). Use the 5/1 Buttons repeatedly until the desired
surround mode category appears: Auto Select, Virtual Surround,
Stereo, Movie, Music or Video Game. Press the OK Button to
change the type’s surround mode.

NOTES:
• The Play and Pause functions are not available unless
content has been selected for playback.
• To search within a track (not in Manual Mode), press and
hold the indicated button. Press the Previous Track Button
once to skip to the beginning of the current track. Press the
Previous Track Button twice to skip to the beginning of the
previous track.

iPod MANUAL MODE
Press the Menu Button and select Photo/Manual to enter iPod Manual
Mode. This is required to view photos stored on the iPod or iPhone.
Table 6 summarizes the controls available with The Bridge III in
iPod Manual mode.

Figure 29 – Surround Modes Menu

Auto Select: For digital programs, such as movies recorded
with a Dolby Digital soundtrack, the AVR will automatically use the
native surround format. For 2-channel analog and PCM programs,
the AVR uses Logic 7 Movie, Music or Game mode, depending on
the source.

Table 6 – Using The Bridge III in iPod Manual Mode
iPod Function
Play
Pause
Menu
Select
Select Next Screen* (Scrubber,
Cover Art, Ratings)
Scroll Reverse
Scroll Forward
Next Track
Previous Track

Remote Control Key
Play ( 3)
Pause ( II )
Back/Exit or Left Arrow (7 )
OK
Right Arrow ( 3)

Virtual Surround: When only two main speakers are present
in the system, Harman Virtual Surround may be used to create an
enhanced sound field that virtualizes the missing speakers. Select
between Wide and Reference modes.
Stereo: When 2-channel playback is desired, select the number
of speakers used for playback:
• 2 CH STEREO uses only two speakers. As described on page 35,
you may select Analog Bypass mode for a pure analog signal
when analog audio inputs are in use. Turn off the Tone Control
setting in the Audio Effects submenu, and the AVR does the rest.

Page Up or Up Arrow (1)
Page Down or Down Arrow (5)
Next ( 33I ) or Right Arrow ( 3)
Previous ( I77 ) or Left Arrow (7 )

* Does not appear on video display connected to AVR.

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• 5 CH STEREO plays the left-channel signal through the front
and surround left speakers, the right-channel signal through the
right speakers and a summed mono signal through the center
speaker.
• 7 CH STEREO follows the same scheme as 5 CH STEREO, but
adds the surround back speakers. This mode is only available
when the surround back speakers are present and have not
been reassigned to multizone operation. See page 42 for more
information.
Movie: Use when a surround mode is desired for movie playback:
Logic 7 Movie, DTS Neo:6 Cinema or Dolby Pro Logic II (IIx when
seven main speakers are present).
Music: Use when a surround mode is desired for music playback:
Logic 7 Music, DTS Neo:6 Music or Dolby Pro Logic II (IIx when
seven main speakers are present). The Dolby Pro Logic II/IIx Music
mode allows access to a submenu with some additional settings.
See the Advanced Functions section for more information.
Video Game: Use to select a surround mode for game playback:
Logic 7 Game, or Dolby Pro Logic II (IIx when seven main speakers
are present) Game.
After you have made your selection, press the Back/Exit Button.
See the Advanced Functions section for more information on
surround modes.

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Cause

Solution

Unit does not function when Main
Power Switch is turned on

• No AC Power

• Make certain AC power cord is plugged into a live outlet
• Check whether outlet is switch-controlled

Display lights, but no sound
or picture

• Intermittent input connections
• Mute is on
• Volume control is down

• Secure all input and speaker connections
• Press Mute Button
• Turn up volume control

No sound from any speaker;
PROTECT message appears on
front panel

• Amplifier is in protection mode
due to possible short
• Amplifier is in protection mode
due to internal problems

• Check speaker wires for shorts at receiver and speaker ends

No sound from surround or
center speakers

• Incorrect surround mode
• Input is monaural
• Incorrect configuration
• Stereo or Mono program material

• Select a mode other than Stereo
• There is no surround information from mono sources
• Check speaker configuration
• The surround decoder may not create center- or rear-channel
information from nonencoded programs

Unit does not respond to
remote commands

• Weak batteries in remote
• Wrong device selected
• Remote sensor is obscured

• Change remote batteries
• Press the Setup Button
• 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
cannot be accessed, and test tone
does not play through Surround
Back Speakers

• Multizone system has been turned
on, and the surround back channels
were reassigned to multizone
operation

• Use the menu system to access the Zone 2 menu. Turn off the Status
setting to reassign the surround back channels to the main room.

The SIRIUS Preview Channel (001)
is silent

• SIRIUS tuner is not plugged in

• Use a SIRIUS tuner module designed for use with SIRIUS Ready home
audio equipment, and plug the module into the SIRIUS Radio Jack
• The SIRIUS tuner module needs an unobstructed view of the southern
sky, or to be within range of a SIRIUS terrestrial repeater; if necessary,
purchase an extension cable from your SIRIUS Radio dealer
• Visit www.siriusradio.com

ENGLISH

Symptom

• Contact your local Harman Kardon service center

• SIRIUS tuner is not located in such
a way as to enable reception
• SIRIUS signal requires a refresh
Unable to activate Program mode
on remote

• Source Selector not held for at
least 3 seconds

• The selector will light as you initially press it, and go dark as you
hold it down. Continue to hold it and wait 3 seconds for the selector
to light again

Remote buttons light, but AVR does
not respond

• Remote is in Zone 2 mode

• Slide the Zone Switch at the bottom of the remote to the
Zone 1 position

Additional information on troubleshooting possible problems with your AVR 2600, 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.

Resetting the Remote
•

To reset the remote to its factory defaults, simultaneously press and hold the TV
Source Selector and the “0” Alphanumeric Key. When the TV Button relights,
enter the code “333”. When the TV Button goes out, and all of the Source
Selectors flash, the remote control will be reset.

PROCESSOR RESET
•
•

To reset the AVR 2600, place it in Standby mode (press the front panel
Standby/On Switch so that the Power Indicator turns amber).
Then press and hold the front-panel OK Button for at least 5 seconds until the
RESET message appears.
27
45

harman/kardon

AVR2600

28

harman/kardon

AVR2600

AVR 2600 EXPLODED VIEW

LARGER PARTS CHART NEXT PAGE

29

harman/kardon

AVR2600

30

harman/kardon

AVR2600

AMPLIFIER SECTION BIAS ADJUSTMENT
Measurement condition
; No input signal or volume position is minimum.
Standard value
; Ideal current = 48mA (± 5%)
; Ideal DC Voltage = 25.92mV (± 5%)

DC EVM

CUP12170 (MAIN PCB)

25.9mV

-

+

CN66
VR86

CN61
VR85

CN64
VR84

CN63
VR82

CN65
VR83

CN62
VR87

CN67
VR81

DC VOLTMETER ; Connect to
CN66(SL),CN61(CEN),CN64(SR),CN63(FL),CN65(SBL),CN62(FR),CN67(SBR)

NO.
1
2
3
4
5
6
7

Channel
Front Left
Front Right
Center
Surround Left
Surround Right
Surround Back Left
Surround Back Right

Adjust for
25.92mV (± 5%)
25.92mV (± 5%)
25.92mV (± 5%)
25.92mV (± 5%)
25.92mV (± 5%)
25.92mV (± 5%)
25.92mV (± 5%)

31

Adjustment
CN63
CN62
CN61
CN66
CN64
CN65
CN67

6

5
TO CODEC IC

A-BUS OUT

8dB AMP

2

1

AVR2600, AVR3600, AVR360/230 & AVR460/230 BLOCK DIAGRAM
MIC_AMP

NJW1197CF
NJW1298FU1

NJW1159M

RJ45 JACK

have Tuner Module.

3

8-CHANNEL ELECTRONIC VOLUME WITH INPUT SELECTOR
AD+RT

All Models

AD-LT

AVR3600 & AVR460

AD-RT

VOL.IC & Multi Vol.IC CONT.

AD+LT

* OPTION *

4

2CH
VOL

(AVR1600 & AVR160)

+8dB

MIC SIG.

8CH PRE-OUT
(AVR2600, AVR3600, AVR360 & AVR460))

MAIN AMP

(AVR3600 & AVR460)

HP_IN

+40dB

HP_AMP
+12V

MULTI_OUT

FRONT L

+

TUNER L/R

TONE

PRE AMP
FRONT L

TUNER MUTE

P-AMP

FRONT R

+29dB

D

8 CHANNEL INPUT

FL/R

TUNER CONT.
SCL, SDA
CE, RST & TUNED

DATA

H_PHONE OUT
or MIC_INPUT

+29dB

MULTI & A-BUS MUTE

TUNER
MODULE

D

P-AMP

1

+

SL/R

SBL/MULTI L

TONE

ATT

PRE AMP

3

FRONT R

SBL/R

+

P-AMP

SURR L

7

+29dB

SURR L
ANALOG5 IN
Or DVD IN
ANALOG4 IN
Or VIDEO1 IN

+29dB
10

ANALOG4 OUT

1

SURR R

P-AMP

CEN

Or VIDEO1 OUT

+29dB

+

Or VIDEO2 IN

SENS

SR
HEAT2

POWER MUTE

CEN

Or TAPE IN
+

CEN
6

(AVR2600, AVR3600, AVR360 & AVR460)

TO USB IPOD
PART
+8V

PRE AMP

5

TEMP I/F
* OPTION

ANALOG 1 IN
Or CD IN

3
4

PRE AMP

Or TAPE OUT

SL

2

DC/OVER CURRENT

Temp. Sensor

ANALOG2 IN

ANALOG2 OUT

SBR/ZONE2 RIGHT

-

9

P-AMP

SURR R
PRE AMP

ANALOG3 IN

+

8

+

SBL/ZONE2 LEFT

-

6

PRE AMP

(AVR2600 & AVR360)
(AVR3600 & AVR460)

+29dB

CEN/SUB

* OPTION *
(Or ~ )
(AVR1600 & AVR160)

FR

-

5

CLOCK

* OPTION *

+

4

P-AMP

SBR/MULTI R

FL

-

2

+29dB

+

C

+

P-AMP

TO HDMI PART
+1.8V, +3.3V

SUBWOOFER

PROTECT

C

REGULATOR IC
(+5V)

+5V

( All Models )

+8V
ANALOG FRONT IN
+

* OPTION(AVR1600 & AVR160)

DC DC
CIRCUITS

TO HDMI PART(DC DC CIRCUITS)
TUNER IN

PRE AMP

TO VIDEO PART

SBL/MULTI L
Sirius IN
+

AVR2600 & AVR3600

* OPTION (AVR3600 & AVR460)

TO INPUT PART
TO A-BUS PART

PULL UP FOR MUTE

STEREO IN
* OPTION
AVR1600 & AVR160

PRE AMP

+24V
REGULATOR IC

-5VD

MIC IN

* OPTIONAL ACCESSORY *

(-5V)

AVR2600 & AVR360

TO INPUT PART
REGULATOR IC

TO INPUT & USB iPod PART

HDMI_OUT

( 15V)

D_SBR

D_FR

ADUTB4-

ADUTB4+

ADUTA4-

ADUTA4+

ADUTB3-

ADUTB3+

ADUTA3-

ADUTA3+

ADUTB2-

USB POWER ON

SBL/SBR
SDIN4

F1

F2

VH

CX_LRCK1(DSP2_LRCK)

SL/SR
SDIN3

CX_SCLK1(DSP2_SCLK)

FL/FR

4 Mbit

TORINO UART CONT.
USA VER.

(CS2,IRQ2,BSY,SDA,CLK,DSP DATA)

REMOTE OUT

AVR3600,460

ZONE2(MULTI) IN

DMP DET.
IR(REMOTE) IN

HP IN
MIC IN

VOL EN

KEY

VOL LED CONT.

VFD CONT.

XOUT

XIN

POWER FAIL IN
POWER DOWN

CODEC RST.
DSP RST.

SIRIUS CONT.

Store Register
EXT CLK, DATA & CE BY MCU

HP MUTE

POWER MUTE

CARR. OUT
A-BUS OUT

ANALOG FRONT

Or VIDEO3 IN

Or VIDEO3 IN

COMPOSITE FRONT

USB PORT

3

5

7

MODEL

AVR2600 & AVR3600
AVR360/230 & AVR460/230

DESIGN

CHECK

J.H.Lee
09.07.27

32

6

A
SHEET

DSP2 RST.

EXT CLK, DATA & CE

SIRIUS RST.

4

SCHEMATIC DIAGRAM

A-BUS CONT.

ZONE2(MULTI) IN

SIRIUS CONT.

1

2

POWER HIGH

32bit u-COM

FUNC MUTE
SB MUTE

RX/TX

SPI Serial Flash

REVISION

PROTECT IN

T5CN5

MCU Update & UART CONT.
iPod & Buffer IC UART CONT.

HDMI CEC

TMP86F409NG

MCU RST.
MCU BOOT

HDMI CONT.

16M SDRAM

2009.07.27
EEPROM (32 Kbit)

DSP2 CONT.

ADDRESS&DATA

COMUNICATION BETWEEN TORINO AND MCU WITH UART RX/TX

8-Bit Shift and

CODEC CONT.

A-BUS & MULTI MUTE

USB IDLE

VOL.IC & Multi Vol.IC CONT.

Dolby Volume

DSP CONT.

8 Mbit

MULTI. LAB

10MHz
I2C

featuring Multichannel

TUNER MUTE

SIRIUS RST.

RX/TX

FOR BACK-UP MEMORY.

ANAM

AUDATA0

Audio Decoder DSP

SPI Serial Flash

M/P

** EEP_ROM **

Audio DSP Engine

VOL LED CONT.

iPod & Buffer IC UART CONT.
REMOTE IN
12MHz

iPod HOST

TC74HC4094AFN

AUDATA0

TUNER CONT.

AUDATA1

VOLUME IC MUTE

32M (FLASH MEMORY) RST.

XOUT

CS497024

AUDATA1

CS49DV8C

HDMI SW2

VIDEO SWITCHING CONTROL

XIN

AUDATA2

DSP2

HDMI SW1

FLI30336 ANALOG INPUT

DAI2_DATA

AUDATA2

32.768KHZ

XOUT

COMPOSITE MONITOR OUT

TORINO UART CONT.

Cr1/2_TORINO IN
Cb1/2_TORINO IN
Y1/2_TORINO IN

DAI2_SCLK

DSP

AUDATA3

M12L16161A

NJM2566 ANALOG OUTPUT

SCLK0

DSP2 CONT.

9MHz

CVBS_TORINO IN

LRCLK0

SCLK0

USB IDLE

6dB
IPOD COMPONENT_Y/Cb/Cr

LRCLK0

MCU BOOT
XIN

32M

XOUT

D+/D-

XIN

USB

32bit u-COM(USB HOST)
INT.RAM:32-K & ROM:512-K

XIN

Cr

FLASH MEMORY

iPod

COMP_Cr_OUTPUT

Y_OUT
Cb_OUT
Cr_OUT

TMP92FD28FG

Sirius

CVBS_OUT

Cb

POWER HIGH
MCU RST

ISSUE

AUDATA3

MCU Up-date & CONT.

XOUT

(SCALER)

6CH VIDEO OUT
COMP_Cb_OUTPUT

UART RX/TX

32M RST.

Y

CONTROL BY DAC

NJM2566

COMP_Y_OUTPUT

Torino Up-date

256M * 2EA

TORINO

(WHITE)

VOLUME Indicator

AVR3600,460
CARR. OUT

UART RX/TX

DAI2LRCK

DAOMCLK

I2S

DDR SDRAM

KEY1~2

DSP CONT.

19.6608MHz

FLI30336

KEY MATRIX
MOMS SWITCH

24.576MHz

Cr2

NJM2566 ANALOG OUTPUT

ADUTB2+

DAOMCLK

OPTAL BUFFER

(CS1,IRQ1,BSY,SDA,CLK,DSP DATA)

(DAC)

FL DISPLAY

FOR UPDATING NEW F/W

MAX : 30bit

Cr1

Cr

ADUTA2-

ADUTA2+

ADUTB1-

ADUTA1-

ADUTB1+

D_FL

I2S/DSP_SPDIF

ADV7342
COMPONENT MONITOR OUT

D_SR

HDMI SW1
74VCX541

Torino Up-date

A

D_SL

D_SBR

D_CNT

D_SBL

D_SBL

D_SW

D_CNT

QUAD 2-CH MUX

Cb1

REMOTE SENSOR

CODEC RST.

(CODEC_CE,CODEC_D OUT,CLK,DSP DATA)

Y1

Cb

FILMENT VOLTAGE

OMCK

DIGITAL VIDEO

2

1 2 3 4

STANDBY
AMBER/WHITE

HDMI SW2

Cb2
Cr

DSP XTAL OUT

LIVE

ROTARY
ENCODER
(MASTER VR)
CODEC CONT.

FLI30336 ANALOG INPUT

Y

DRIVER SUPPLY VOLTAGE

B

BLACK OR BROWN

NEUTRAL WHITE OR BLUE

HDMI MCLK

SN74ALVCH16827
Buffer & S/W
2EA

Fuse

1
BLK

RM CLK

Y2
Cb

DOUT

COAX OUT

DSP XTAL OUT

Y

SN74ALVCH16827
Buffer & S/W
2EA

CEN/SUB

27.000MHz

COAX.2

DAOMCLK

COMPO COMPO
INPUT2 INPUT1

D_SR

DIN

DSP2 RST.

+6dB DRV

COAX.1

OPTAL BUFFER

SAI_LRCK

NJM2595

* OPTION
(AVR2600 & AVR360)
(AVR3600 & AVR460)

AC OUTLET

4.9V(AC)

SAI_SDOUT

CVBS 1 IN

(HDMI RX)

1

1

AD IN R+/-

SAI_SCLK

DRV

I2S

RT

DSP RST.

+6dB

SUB TRANS

2 Fuse
RED

REGULATOR
CIRCUITS

114dB, 192 kHz 8-CH CODEC WITH S/PDIF RECEIVER

OMCK

V1

HDMI MCLK
HDMI SCLK
HDMI LRCK
HDMI SD

SII9135

LT

RM CLK

V2

74VCX541

DIGITAL VIDEO
MAX : 36bit

CVBS 2 OUT

DIGITAL VIDEO
MAX : 36bit

V3

OPT.3

34V(DC)

SDIN2

CVBS

I2C & GPIO CONTROL

+6dB DRV

FLI30336 ANALOG INPUT

FRONT VIDEO

DETECT

-VCC(DC)

CS42528

A IN L+/-

SDIN1

AVR3600
& AVR460

CONT
CVBS 2 IN

UNBAL

POWER FAIL

POWER S/W
3

+6V

OPT.2

*OPTION*

2CH MUX
74VHC157

COMPOSITE (CVBS) IN

OPT.1

THE BRIDGE III

VIDEO SWITCHING CONTROL

COMPONENT IN

Or COAX.3 & OPT.3

FROM VOLUME IC

(SW IC)

TO HDMI PART

REGULATOR IC
(+9V)

RESET IC
(+2.8V)

POWER DOWN

+VCC(DC)
ADUTA1+

TMDS Signal

HDMI CEC

FROM FRONT

COAX.&OPT. FRONT

(HDMI TX)

*OPTION* (AVR2600, AVR3600, AVR360 & AVR460)
CVBS 3 IN

I2S/DSP_SPDIF

SII9134
SII9185

COMPOSITE FRONT IN

* OPTION *
(Or ~ )
(AVR1600 & AVR160)

TO INPUT PART
+9V

D_SW

FROM iPod

( iPod CVBS )

D_SL

D_FL

*OPTION* (AVR2600, AVR3600, AVR360 & AVR460)
THE BRIDGE IlI IN

D_FR

+15V

OPT.FRONT

HDMI_IN4

COAX.FRONT

HDMI_IN3

* OPTION *
(Or ~ )
(AVR1600 & AVR160)

HDMI_IN2

HDMI MUTE

HDMI_IN1

REGULATOR IC
(+5V)

ST+5V

-15V

AC IN

FUNC. MUTE

POWER HIGH

AVR3600 & AVR460

B

DC POWER

TO HDMI, VIDEO & USB IPOD PART

SBR/MULTI R

IPod IN

* OPTION

(+5V)

Or OPT.3

* OPTION

REGULATOR IC

TO INPUT PART
+5VD

Or COAX.3

ONLY
USA VER.

AC IN

Or VIDEO3 IN

APPROVE

W.Y.Yang G.S.Wey
09.07.27

09.07.27

1
1

DRAWING NO

BLOCK DIAGRAM
2172BLDZ

1

1

harman/kardon

AVR2600

33

harman/kardon

AVR2600

34

harman/kardon

AVR2600

35

harman/kardon

AVR2600

36

harman/kardon

AVR2600

37

harman/kardon

AVR2600

38

harman/kardon

AVR2600

39

harman/kardon

AVR2600

AVR2600 Electrical Parts List
Ref. Designator

Description

Part Number

FRONT PCB ASS'Y

Qty

COP12168C

Capacitors
C121
C122
C151
C152
C161
C213
C214
C252
C311
C322
C412
C413
C414
C415
C422
C431
C441
C442
C503
C504
C511
C512
C521
C522
C531
C533
C541
C542
C553
C554
C601
C602
C603
C611
C612
C631
C633
C651
C652
C653
C714
C715
C721
C731
C732
C751
C752
C753
C754
C801
C802
C811
C813
C821
C822
C823
C830
C901
C902
C911
C411
C912
C923
C924

CCBS1H151KBT
CCEA1AH331T
CCBS1H473ZFT
CCEA1CKS100T
CCBS1H104ZFT
CCBS1H223ZFT
CCBS1H223ZFT
CCEA1HKS2R2T
CCBS1H102KBT
CCBS1H102KBT
CCBS1H103ZFT
CCEA1JH470TS
CCEA1JH470TS
CCBS1H103ZFT
CCEA1HH4R7T
CCBS1H104ZFT
CCBS1H223ZFT
CCBS1H223ZFT
CCBS1H104ZFT
CCBS1H103ZFT
CCBS1H560JT
CCBS1H560JT
CCEA1AH101T
CCBS1H103ZFT
CCBS1H104ZFT
CCBS1H104ZFT
CCBS1H101KBT
CCEA1HH100T
CCBS1H101KBT
CCBS1H101KBT
CCBS1H181KBT
CCBS1H104ZFT
CCBS1H100JCT
CCEA1AH471T
CCBS1H104ZFT
CCBS1H104ZFT
CCBS1H104ZFT
CCBS1H104ZFT
CCBS1H471KBT
CCBS1H471KBT
CCBS1H223ZFT
CCEA1CKS100T
CCEA1HKS2R2T
CCEA1AH471T
CCBS1H104ZFT
CCBS1C222MXT
CCBS1H102KBT
CCBS1H102KBT
CCBS1H104ZFT
CCEA1EH470T
CCEA1EH470T
CCEA1HH100T
CCBS1H470JT
CCBS1H471KBT
CCBS1H151KBT
CCEA1HH100T
CCBS1H473ZFT
CCEA1HH100T
CCEA1HH100T
CCEA1EH470T
CCEA1JH101E
CCEA1EH470T
CCBS1H681KBT
CCBS1H681KBT

CAP , CERAMIC(150PF/50V)
CAP , ELECT
CAP , CERAMIC(47000PF/50V)
CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC(22000PF/50V)
CAP , CERAMIC(22000PF/50V)
CAP , ELECT
CAP , CERAMIC(1000PF/50V)
CAP , CERAMIC(1000PF/50V)
CAP , CERAMIC
CAP , ELECT
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC(22000PF/50V)
CAP , CERAMIC(22000PF/50V)
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC(56PF/50V)
CAP , CERAMIC(56PF/50V)
CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC(100PF/50V)
CAP , ELECT
CAP , CERAMIC(100PF/50V)
CAP , CERAMIC(100PF/50V)
CAP , CERAMIC(180PF/50V)
CAP , CERAMIC
CAP , CERAMIC(10PF/50V)
CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC(470PF/50V)
CAP , CERAMIC(470PF/50V)
CAP , CERAMIC(22000PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC(2200PF/16V)
CAP , CERAMIC(1000PF/50V)
CAP , CERAMIC(1000PF/50V)
CAP , CERAMIC
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(47PF/50V)
CAP , CERAMIC(470PF/50V)
CAP , CERAMIC(150PF/50V)
CAP , ELECT
CAP , CERAMIC(47000PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(680PF/50V)
CAP , CERAMIC(680PF/50V)

CH UP025 B151K-A-B Z
330UF 10V
CH UP025 F473Z-A-B J
10UF 16V
0.1UF 50V Z
CH UP025 F223Z-A-B J
CH UP025 F223Z-A-B J
2.2UF 50V SMALL SIZE
CH UP025 B102K-A-B Z
CH UP025 B102K-A-B Z
0.01UF 50V Z
63V/47UF/105'C
63V/47UF/105'C
0.01UF 50V Z
4.7UF 50V
0.1UF 50V Z
CH UP025 F223Z-A-B J
CH UP025 F223Z-A-B J
0.1UF 50V Z
0.01UF 50V Z
CH UP025SL560J-A-B Z
CH UP025SL560J-A-B Z
100UF 10V
0.01UF 50V Z
0.1UF 50V Z
0.1UF 50V Z
CH UP025 B101K-A-B Z
10UF 50V
CH UP025 B101K-A-B Z
CH UP025 B101K-A-B Z
CH UP025 B181K-A-B Z
0.1UF 50V Z
CH UP025CH100J-A-B Z
470UF 10V
0.1UF 50V Z
0.1UF 50V Z
0.1UF 50V Z
0.1UF 50V Z
CH UP025 B471K-A-B Z
CH UP025 B471K-A-B Z
CH UP025 F223Z-A-B J
10UF 16V
2.2UF 50V SMALL SIZE
470UF 10V
0.1UF 50V Z
CH EP025 B222M-A-B J
CH UP025 B102K-A-B Z
CH UP025 B102K-A-B Z
0.1UF 50V Z
47UF 25V
47UF 25V
10UF 50V
CH UP025SL470J-A-B Z
CH UP025 B471K-A-B Z
CH UP025 B151K-A-B Z
10UF 50V
CH UP025 F473Z-A-B J
10UF 50V
10UF 50V
47UF 25V
100UF 63V
47UF 25V
CH UP025 B681K-A-B Z
CH UP025 B681K-A-B Z

40

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600

Ref. Designator

Description

Part Number

Qty

FRONT PCB ASS'Y

COP12168C

C931
C932

CCEA1CH331T
CCEA1CH331T

CAP , ELECT
CAP , ELECT

330UF 16V
330UF 16V

1
1

EA
EA

HVD1N5819T
CVD1N4003ST
HVDMTZJ6.8BT
HVDMTZJ27BT
HVDMTZJ6.8BT
HVDMTZJ6.8BT
CVD1SS133MT
CVD1SS133MT
CVD1SS133MT
CVD1SS133MT
CVD1SS133MT
CVD1SS133MT
CVD1SS133MT
C3A206
CVTKTC1027YT
HVTKRA107MT
HVTKRC107MT
HVTKRC107MT
HVTKTA1271YT
HVTKRC107MT
HVTKRC107MT
HVTKTC2874BT
HVTKTC2874BT
HVTKTC2874BT
HVTKTC2874BT
HVTKRC107MT
HVTKRA107MT
HVTKRC107MT
CVD1L0345W31BOCT201V
CVD30ASOGCAA-S7
CVD1L0345W31BOCT201V
CVD1L0345W31BOCT201V
CVD1L0345W31BOCT201V
HVI74HCU04AFNG
HRVNJL34H380A
HVI74ACT04MTR
HVINJM2068MTE1
HVINJM4556AL

DIODE , SCHOTTKY
DIODE , RECT
DIODE , ZENER
DIODE , ZENER
DIODE , ZENER
DIODE , ZENER
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
WIRE , COPPER
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR , MUTE
TRANSISTOR , MUTE
TRANSISTOR , MUTE
TRANSISTOR , MUTE
TRANSISTOR
TRANSISTOR
TRANSISTOR
L.E.D , WHITE
L.E.D , ORANGE
L.E.D , WHITE
L.E.D , WHITE
L.E.D , WHITE
I.C , INVERTER (TOSHIBA)
SENSOR , REMOCON (JRC)
I.C , HEX (ST) INVERTER
I.C , DUAL OP AMP (JRC)
I.C , HEADPHONE (JRC) DUAL OP-AMP

1N5819
1N4003
MTZJ6.8B 1/2W
MTZJ27B 1/2W
MTZJ6.8B 1/2W
MTZJ6.8B 1/2W
1SS133
1SS133
1SS133
1SS133
1SS133
1SS133
1SS133
SN95/PB5 , 0.6
KTC1027
KRA107M
KRC107M
KRC107M
KTA1271Y
KRC107M
KRC107M
KTC2874B
KTC2874B
KTC2874B
KTC2874B
KRC107M
KRA107M
KRC107M
CVD1L0345W31BOCT201
T0L-30ASOGCAA-S7
CVD1L0345W31BOCT201
CVD1L0345W31BOCT201
CVD1L0345W31BOCT201
TC74HCU04AFNG(TOSHIBA)

1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

74ACT04MTR
NJM2068M-TE1
NJM4556AL

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CRD20TF2200T
CRD20TF6800T
CRD20TJ102T
CRD20TJ473T
CRD20TJ100T
CRD20TJ101T
CRD20TJ101T
CRD20TJ101T
CRD20TJ101T
CRD20TJ272T
CRD20TJ272T
CRD20TJ222T
CRD25TJ393T
CRD20TF1001T
CRD20TF1501T
CRD20TF1801T
CRD20TF2701T
CRD20TF3301T
CRD20TF1001T
CRD20TF1501T
CRD20TF1801T
CRD20TF2701T
CRD20TF3301T

RES , CARBON(220 OHM, 1%)
RES , CARBON(680 OHM, 1%)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON(1/5W,100,5%)
RES , CARBON(1/5W,100,5%)
RES , CARBON(1/5W,100,5%)
RES , CARBON(1/5W,100,5%)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (39K OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON

220 OHM
680 OHM
1K OHM 1/5W J
47K OHM 1/5W J
10 OHM 1/5W J
100 OHM 1/5W J
100 OHM 1/5W J
100 OHM 1/5W J
100 OHM 1/5W J
2.7K OHM 1/5W J
2.7K OHM 1/5W J
2.2K OHM 1/5W J
39K OHM
1K /1/5W /F
1.5K /1/5W /F
1.8K /1/5W /F
2.7K /1/5W/F
3.3K /1/5W/F
1K /1/5W /F
1.5K /1/5W /F
1.8K /1/5W /F
2.7K /1/5W/F
3.3K /1/5W/F

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Semiconductors
D161
D401
D412
D413
D421
D422
D455
D531
D534
D631
D632
D633
D634
D714
Q104
Q111
Q112
Q113
Q251
Q252
Q721
Q941
Q942
Q943
Q944
Q951
Q952
Q954
D101
D102
D201
D202
D203
IC11
IC12
IC13
IC14
IC15
Resistors
R101
R102
R113
R121
R122
R201
R202
R203
R211
R213
R214
R251
R252
R312
R313
R314
R315
R316
R322
R323
R324
R325
R326

41

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

FRONT PCB ASS'Y

COP12168C

R327
R328
R401
R402
R403
R404
R411
R412
R413
R415
R431
R432
R511
R512
R513
R514
R541
R551
R552
R553
R554
R601
R603
R604
R612
R701
R702
R703
R711
R712
R713
R721
R722
R731
R735
R741
R742
R801
R802
R811
R812
R813
R821
R822
R823
R834
R835
R836
R901
R902
R911
R912
R921
R922
R923
R924
R925
R926
R931
R932
R933
R934
R935
R936
R941
R942
R943
R944
R951

RES , CARBON(5.6K/F)
RES , CARBON(5.6K/F)
RES , CARBON
RES , CARBON (5.6 OHM)
RES , CARBON
RES , CARBON (5.6 OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON(1/5W,100,5%)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON(1/5W,100,5%)
RES , CARBON(1/5W,100,5%)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (100 OHM)
RES , CARBON(1/5W,100,5%)
RES , CARBON(1/5W,100,5%)
RES , CARBON(1/5W,100,5%)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON(1/4W, 4.3K)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON

CRD20TF5601T
CRD20TF5601T
CRD25FJ3R3T
CRD25TJ5R6T
CRD20TJ100T
CRD25TJ5R6T
CRD20TJ104T
CRD20TJ122T
CRD20TJ104T
CRD20TJ473T
CRD20TJ100T
CRD20TJ100T
CRD20TJ100T
CRD20TJ100T
CRD20TJ153T
CRD20TJ153T
CRD20TJ750T
CRD20TJ471T
CRD20TJ471T
CRD20TJ104T
CRD20TJ104T
CRD20TJ750T
CRD20TJ104T
CRD20TJ472T
CRD20TJ103T
CRD20TJ102T
CRD20TJ102T
CRD20TJ102T
CRD20TJ470T
CRD20TJ470T
CRD20TJ470T
CRD20TJ103T
CRD20TJ101T
CRD20TJ100T
CRD20TJ152T
CRD20TJ123T
CRD20TJ102T
CRD20TJ101T
CRD20TJ101T
CRD20TJ104T
CRD20TJ102T
CRD20TJ103T
CRD20TJ102T
CRD20TJ103T
CRD20TJ104T
CRD20TJ222T
CRD20TJ103T
CRD20TJ152T
CRD25TJ101T
CRD20TJ101T
CRD20TJ101T
CRD20TJ101T
CRD20TJ102T
CRD20TJ102T
CRD20TJ152T
CRD20TJ152T
CRD20TJ104T
CRD20TJ104T
CRD20TJ104T
CRD20TJ104T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD25TJ432T
CRD20TJ472T
CRD20TJ472T
CRD20TJ472T
CRD20TJ102T

Qty

(5.6K/F)
(5.6K/F)
3.3 OHM 1/4W J
(5.6 OHM)
10 OHM 1/5W J
(5.6 OHM)
100K OHM 1/5W J
1.2K OHM 1/5W J
100K OHM 1/5W J
47K OHM 1/5W J
10 OHM 1/5W J
10 OHM 1/5W J
10 OHM 1/5W J
10 OHM 1/5W J
15K OHM 1/5W J
15K OHM 1/5W J
75 OHM 1/5W J
470 OHM 1/5W J
470 OHM 1/5W J
100K OHM 1/5W J
100K OHM 1/5W J
75 OHM 1/5W J
100K OHM 1/5W J
4.7K OHM 1/5W J
10K OHM 1/5W J
1K OHM 1/5W J
1K OHM 1/5W J
1K OHM 1/5W J
47 OHM 1/5W J
47 OHM 1/5W J
47 OHM 1/5W J
10K OHM 1/5W J
100 OHM 1/5W J
10 OHM 1/5W J
1.5K OHM 1/5W J
12K OHM 1/5W J
1K OHM 1/5W J
100 OHM 1/5W J
100 OHM 1/5W J
100K OHM 1/5W J
1K OHM 1/5W J
10K OHM 1/5W J
1K OHM 1/5W J
10K OHM 1/5W J
100K OHM 1/5W J
2.2K OHM 1/5W J
10K OHM 1/5W J
1.5K OHM 1/5W J
(100 OHM)
100 OHM 1/5W J
100 OHM 1/5W J
100 OHM 1/5W J
1K OHM 1/5W J
1K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
100K OHM 1/5W J
100K OHM 1/5W J
100K OHM 1/5W J
100K OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
(1/4W, 4.3K)
4.7K OHM 1/5W J
4.7K OHM 1/5W J
4.7K OHM 1/5W J
1K OHM 1/5W J

42

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600

Ref. Designator

Description

Part Number

FRONT PCB ASS'Y

COP12168C

R953
R954

CRD20TJ362T
CRD20TJ103T

RES , CARBON
RES , CARBON

CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
HLQ02C100KT
CMD1A572
CMD1A572
CMC1A390
CMC1A390
CWB1C907400BM001
CWB1C903400BM001
CJP12GB143ZB
CJP06GB143ZB
CWB1C905120BM
CJP12GA239ZB
CJP05GB03ZY
CJP31GA41ZM
CJP06GB142ZB
CJP05GB03ZY
CMC2A325
CMC4A111
KLZ9H001Z
KLZ9H001Z
KLZ9H001Z
CFL162BD01GINK
CJJ9X006Z
CJJ4S028Y
CJJ4M041Y
HJSTORX177L
CJJ2E026Z
CSL4A016ZU
CSR2A037Z
CBT2A1064
CBT2A1065
CGB1A158Y
CGL1A265Y
CGW3A447RHYB24
CHG1A309
CHR301
CMC1A372
CMC2A323
CMC2A326
CMC2A338
CMD1A555
CMD2A443
CMH1A297
CMH2A215
CMZ1A127
CPE1A009
CTB3+8JFZR
CTWS3+10GR
CWC4C4A31B250B08

SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
SW , TACT
COIL , AXAIL (10UH)
BRACKET , FIP
BRACKET , FIP
PLATE , SHIELD
PLATE , SHIELD
SHIELD WIRE ASS'Y (2.5mm, 400mm, 7pin)
SHIELD WIRE ASS'Y (2.5mm, 400mm, 3pin)
PIN HEADER , DIP SOCKET(12PIN, 2.54mm, ANGLE)
FEMALE HEADER(6P, 2.54mm)
WIRE ASS'Y
PIN HEADER(12P, 2.54mm), STRAIGHT TYPE
WAFER , ANGLE (2.5mm)
WAFER (1.25MM, CARD CABLE, STRAIGHT 31P)
PIN HEADER(6P, 2.54mm)
WAFER , ANGLE (2.5mm)
PLATE , EARTH AVR2600
PLATE , EARTH
BEAD , CORE
BEAD , CORE
BEAD , CORE
V.F.D
JACK , USB STRAIGHT(BLACK)
JACK , BOARD (3P SILVER)
JACK , BOARD (COAX)
MODULE , OPTICAL(RX)
JACK , HEADPHONE(SILVER PLATE)
RELAY , 12V 2C2P
ENCODER
KNOB , STANDBY
KNOB , BACK
BADGE , FRONT HARMAN/KARDON
INDICATOR , POWER AVR2600
PANEL , FRONT
RUBBER
CLAMPER
PLATE , SHIELD
PLATE , SHIELD
PLATE , EARTH AVR2600
PLATE , EARTH AVR2600
BRACKET , SIDE (L)
BRACKET , SIDE
HOLDER , USB
HOLDER , LED AVR2600
FILTER , FIP AVR2600
SHEET , BLIND
SCREW
SCREW
CARD , CABLE (31p,1.25mm,250mm,08mm)

Qty

3.6K OHM 1/5W J
10K OHM 1/5W J

1
1

EA
EA

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
6
2
1
3
2
1
1
1
1
1
1
28
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Miscellaneous
S311
S312
S313
S314
S315
S316
S317
S318
S319
S320
S321
S322
S323
S330
L151
BK71
BK72
BK73
BK74
BN51
BN52
BN61
BN73
BN74
CN61
CN71
CN72
CN73
CN74
ET63
ET64
FB13
FB14
FB15
F1
JK51
JK52
JK61
JK62
JK63
RL91
VR74

CB72

43

MOLEX 52045-**45

162-BD-01GINK
U250FD004BY

TORX177L
BC3-12H

harman/kardon

AVR2600

Ref. Designator

Description

Part Number

MAIN PCB ASS'Y

Qty

COP12170C

Capacitors
C501
C502
C503
C504
C505
C506
C507
C508
C509
C510
C561
C562
C563
C564
C565
C566
C567
C568
C569
C570
C571
C572
C573
C574
C575
C601
C602
C603
C604
C605
C606
C607
C608
C609
C610
C681
C682
C683
C684
C685
C726
C801
C802
C803
C804
C805
C806
C811
C812
C813
C814
C815
C816
C817
C818
C819
C820
C851
C852
C853
C854
C855
C856
C857
C900
C901
C905

CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCKT1H331KB
CCBS1H331KBT
CCBS1H331KBT
CCKT1H331KB
CCBS1H331KBT
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCBS1H681KBT
CCBS1H681KBT
CCBS1H681KBT
CCBS1H681KBT
CCBS1H681KBT
CCCT1H120JC
CCCT1H120JC
CCCT1H120JC
CCCT1H120JC
CCCT1H120JC
CCCT1H330JC
CCCT1H330JC
CCCT1H330JC
CCCT1H330JC
CCCT1H330JC
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCKT1H221KB
CCEA1HH100T
CCEA1HH100T
CCCT1H330JC
CCCT1H330JC
CCCT1H120JC
CCCT1H120JC
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCKT1H331KB
CCBS1H331KBT
CCEA1HH100T
CCEA1HH100T
CCBS1H681KBT
CCBS1H681KBT
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
HCQI1H473JZT
HCQI1H473JZT
CCBS1H223ZFT

CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC(330PF/50V)
CAP , CERAMIC(330PF/50V)
CAP , CERAMIC
CAP , CERAMIC(330PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(680PF/50V)
CAP , CERAMIC(680PF/50V)
CAP , CERAMIC(680PF/50V)
CAP , CERAMIC(680PF/50V)
CAP , CERAMIC(680PF/50V)
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC(330PF/50V)
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(680PF/50V)
CAP , CERAMIC(680PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , MYLAR
CAP , MYLAR
CAP , CERAMIC(22000PF/50V)

10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
330PF 50V K
CH UP025 B331K-A-B Z
CH UP025 B331K-A-B Z
330PF 50V K
CH UP025 B331K-A-B Z
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
(680PF/50V)
(680PF/50V)
(680PF/50V)
(680PF/50V)
(680PF/50V)
12PF 50V J
12PF 50V J
12PF 50V J
12PF 50V J
12PF 50V J
33PF 50V J
33PF 50V J
33PF 50V J
33PF 50V J
33PF 50V J
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
220PF 50V K
10UF 50V
10UF 50V
33PF 50V J
33PF 50V J
12PF 50V J
12PF 50V J
100UF 16V
100UF 16V
100UF 16V
100UF 16V
330PF 50V K
CH UP025 B331K-A-B Z
10UF 50V
10UF 50V
(680PF/50V)
(680PF/50V)
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
0.047UF 50V J
0.047UF 50V J
(22000PF/50V)

44

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600

Ref. Designator

Description

Part Number

Qty

MAIN PCB ASS'Y

COP12170C

C907
C908
C910
C911
C912
C913
C914
C917
C918
C919
C924
C932
C933
C934
C936
C939
C940
C948
C950
C971
C972
C973
C974
C975
C977
C980
C981
C990
C991
C992
C993
C994
C995
C996
C997
C999
C631
C632
C633
C634
C635
C636
C637
C638
C639
C640
C807
C808
C809
C810
C904
C906
C915
C916

CCEA1CH101T
CCBS1H223ZFT
HCQI1H473JZT
CCEA1CH471T
CCEA1CH221T
CCFT1H104ZF
HCQI1H473JZT
HCQI1H473JZT
HCQI1H473JZT
HCQI1H473JZT
CCFT1H104ZF
CCEA1CH101T
CCEA1EH221T
CCFT1H223ZF
CCEA1EH221T
CCEA1HH4R7T
CCEA1AH471T
CCBS1H104ZFT
CCEA1AH471T
HCQI1H562JZT
HCQI1H562JZT
HCQI1H562JZT
HCQI1H562JZT
HCQI1H562JZT
CCEA1HH4R7T
HCQI1H562JZT
HCQI1H562JZT
HCQI1H473JZT
CCEA1HH1R0T
HCQI1H473JZT
HCQI1H473JZT
HCQI1H473JZT
HCQI1H473JZT
HCQI1H473JZT
HCQI1H473JZT
CCBS1H223ZFT
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
CCEA1JH101E
KCKDKS472ME
CCEA1EH102E
CCET63VKL5123NK
CCET63VKL5123NK

CAP , ELECT
CAP , CERAMIC(22000PF/50V)
CAP , MYLAR
CAP , ELECT
CAP , ELECT
CAP , SEMICONDUCTOR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , SEMICONDUCTOR
CAP , ELECT
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , ELECT
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , ELECT
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , CERAMIC(22000PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(X1/Y2/SC)
CAP , ELECT
CAP , ELECT
CAP , ELECT

100UF 16V
(22000PF/50V)
0.047UF 50V J
470UF 16V
220UF 16V
0.1UF 50V Z
0.047UF 50V J
0.047UF 50V J
0.047UF 50V J
0.047UF 50V J
0.1UF 50V Z
100UF 16V
220UF 25V
0.022UF 50V Z
220UF 25V
4.7UF 50V
470UF 10V
0.1UF 50V Z
470UF 10V
5600PF 50V J
5600PF 50V J
5600PF 50V J
5600PF 50V J
5600PF 50V J
4.7UF 50V
5600PF 50V J
5600PF 50V J
0.047UF 50V J
1UF 50V
0.047UF 50V J
0.047UF 50V J
0.047UF 50V J
0.047UF 50V J
0.047UF 50V J
0.047UF 50V J
(22000PF/50V)
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
0.0047UF/2.5KV
1000UF 25V
12000/63V (35*45)
12000/63V (35*45)

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT

DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE

1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77

1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Semiconductors
D501
D502
D503
D504
D505
D581
D582
D583
D584
D585
D801
D802

45

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

MAIN PCB ASS'Y

COP12170C

D803
D804
D901
D902
D911
D912
D914
D917
D953
D954
D955
D956
D957
D961
D962
D963
D964
D967
D968
D969
D973
D974
D975
D976
D979
IC97
Q501
Q502
Q503
Q504
Q505
Q511
Q512
Q513
Q514
Q515
Q516
Q517
Q518
Q519
Q520
Q541
Q542
Q543
Q544
Q545
Q556
Q557
Q558
Q559
Q560
Q561
Q562
Q563
Q564
Q565
Q601
Q602
Q603
Q604
Q605
Q681
Q682
Q683
Q684
Q685
Q801
Q802
Q812

DIODE
DIODE
DIODE , SCHOTTKY
DIODE
DIODE
DIODE
WIRE , COPPER
DIODE
DIODE
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE , SCHOTTKY
DIODE , RECT
DIODE , RECT
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE , ZENER
I.C , RESET (RICOH)
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR

HVD1SS133MT
HVD1SS133MT
HVD1N5819T
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
C3A206
HVD1SS133MT
HVD1SS133MT
CVD1N4003SRT
CVD1N4003SRT
CVD1N4003SRT
CVD1N4003SRT
HVD1N5819T
CVD1N4003SRT
CVD1N4003SRT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVDMTZJ5.1BT
HVIRE5VT28CATZ
HVTKTA1268GRT
HVTKTA1268GRT
HVTKTA1268GRT
HVTKTA1268GRT
HVTKTA1268GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3198YT
HVTKTC3198YT
HVTKTC3198YT
HVTKTC3198YT
HVTKTC3198YT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTA1268GRT
HVTKTA1268GRT
HVTKTA1268GRT
HVTKTA1268GRT
HVTKTA1268GRT
HVTKTC3199YT
HVTKTC3199YT
HVTKTC3199YT
HVTKTC3199YT
HVTKTC3199YT
HVTKTC3199YT
HVTKTC3199YT
HVTKTA1268GRT

Qty

1SS133T-77
1SS133T-77
1N5819
1SS133T-77
1SS133T-77
1SS133T-77
SN95/PB5 , 0.6
1SS133T-77
1SS133T-77
1N4003
1N4003
1N4003
1N4003
1N5819
1N4003
1N4003
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
MTZJ5.1B 1/2W
RE5VT28CATZ
KTA1268GR
KTA1268GR
KTA1268GR
KTA1268GR
KTA1268GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3198Y
KTC3198Y
KTC3198Y
KTC3198Y
KTC3198Y
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTA1268GR
KTA1268GR
KTA1268GR
KTA1268GR
KTA1268GR
KTC3199Y
KTC3199Y
KTC3199Y
KTC3199Y
KTC3199Y
KTC3199Y
KTC3199Y
KTA1268GR

46

1
1
1
1
1
1

EA
EA
EA
EA
EA
EA

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600

Ref. Designator

Description

Part Number

Qty

MAIN PCB ASS'Y

COP12170C

Q813
Q814
Q815
Q816
Q817
Q818
Q819
Q820
Q821
Q822
Q823
Q824
Q825
Q901
Q911
Q912
Q913
Q914
Q915
Q916
Q917
Q918
Q938
Q939
Q941
Q942
Q943
Q960
Q961
Q652
Q653
Q654
Q655
Q657
Q658
Q659
Q660
Q661
Q670
Q803
Q804
Q805
Q807
Q851
Q852
Q853
Q854
Q855
Q856
Q857
Q858
Q871
Q872
Q874
Q875
Q876
Q877
Q881
Q882
Q883
Q884
Q885
Q886
Q887
IC95

HVTKTC3200GRT
HVTKTA1268GRT
HVTKTC3200GRT
HVTKTA1268GRT
HVTKTA1268GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3200GRT
HVTKTC3198YT
HVTKTC3198YT
HVTKTC3199YT
HVTKTA1271YT
HVTKTA1271YT
HVTKTA1271YT
HVTKTA1271YT
HVTKTC3199YT
HVTKRC107MT
HVTKRC107MT
HVTKRC107MT
HVTKRA107MT
HVTKRA107MT
HVTKTC3199YT
HVTKTC3199YT
HVTKTC3199YT
HVTKRC107MT
HVTKTA1024YT
CVT2SB1560P43M
CVT2SB1560P43M
CVT2SB1560P43M
CVT2SB1560P43M
CVT2SD2390P43M
CVT2SD2390P43M
CVT2SD2390P43M
CVT2SD2390P43M
CVT2SB1560P43M
CVT2SD2390P43M
CVT2SD2390P43M
CVT2SB1560P43M
CVT2SD2390P43M
CVT2SB1560P43M
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
HVIKIA78R05PI

TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , POWER (MICA 43 TYPE)
TRANSISTOR , BIAS
TRANSISTOR , BIAS
TRANSISTOR , BIAS
TRANSISTOR , BIAS
TRANSISTOR , BIAS
TRANSISTOR , BIAS
TRANSISTOR , BIAS
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
TRANSISTOR , PRE DRIVE
REGULATOR (5V OUTPUT LOW DROP)

KTC3200GR
KTA1268GR
KTC3200GR
KTA1268GR
KTA1268GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3200GR
KTC3198Y
KTC3198Y
KTC3199Y
KTA1271Y
KTA1271Y
KTA1271Y
KTA1271Y
KTC3199Y
KRC107M
KRC107M
KRC107M
KRA107M
KRA107M
KTC3199Y
KTC3199Y
KTC3199Y
KRC107M
KTA1024YT
2SB1560
2SB1560
2SB1560
2SB1560
2SD2390
2SD2390
2SD2390
2SD2390
2SB1560
2SD2390
2SD2390
2SD2390
2SD2390
2SB1560
KTD600KGR
KTD600KGR
KTD600KGR
KTD600KGR
KTD600KGR
KTD600KGR
KTD600KGR
KTA1360Y
KTA1360Y
KTA1360Y
KTA1360Y
KTA1360Y
KTA1360Y
KTA1360Y
KTC3423Y
KTC3423Y
KTC3423Y
KTC3423Y
KTC3423Y
KTC3423Y
KTC3423Y
KIA78R05PI

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CRD20TJ103T

RES , CARBON

10K OHM 1/5W J

1

EA

Resistors
R500

47

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

MAIN PCB ASS'Y

COP12170C

R501
R502
R503
R504
R505
R506
R507
R508
R509
R510
R511
R512
R513
R514
R515
R516
R517
R518
R519
R520
R521
R522
R523
R524
R525
R531
R532
R533
R534
R535
R536
R537
R538
R539
R540
R541
R542
R543
R544
R545
R556
R557
R558
R559
R560
R561
R562
R563
R564
R565
R566
R567
R568
R569
R570
R571
R572
R573
R574
R575
R576
R577
R578
R579
R580
R581
R582
R583
R584

RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (1.6K OHM)
RES , CARBON (1.6K OHM)
RES , CARBON (1.6K OHM)
RES , CARBON (1.6K OHM)
RES , CARBON (1.6K OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON

CRD20TJ433T
CRD20TJ433T
CRD20TJ433T
CRD20TJ433T
CRD20TJ433T
CRD20TJ333T
CRD20TJ333T
CRD20TJ333T
CRD20TJ333T
CRD20TJ333T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ471T
CRD20TJ471T
CRD20TJ471T
CRD20TJ471T
CRD20TJ471T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ271T
CRD20TJ271T
CRD20TJ271T
CRD20TJ271T
CRD20TJ271T
CRD20TJ273T
CRD20TJ273T
CRD20TJ273T
CRD20TJ273T
CRD20TJ273T
CRD20TJ162T
CRD20TJ162T
CRD20TJ162T
CRD20TJ162T
CRD20TJ162T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ100T
CRD20TJ100T
CRD20TJ100T
CRD20TJ100T
CRD20TJ100T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T

Qty

43K OHM 1/5W J
43K OHM 1/5W J
43K OHM 1/5W J
43K OHM 1/5W J
43K OHM 1/5W J
33K OHM 1/5W J
33K OHM 1/5W J
33K OHM 1/5W J
33K OHM 1/5W J
33K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
470 OHM 1/5W J
470 OHM 1/5W J
470 OHM 1/5W J
470 OHM 1/5W J
470 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
270 OHM 1/5W J
270 OHM 1/5W J
270 OHM 1/5W J
270 OHM 1/5W J
270 OHM 1/5W J
27K OHM 1/5W J
27K OHM 1/5W J
27K OHM 1/5W J
27K OHM 1/5W J
27K OHM 1/5W J
1.6K OHM
1.6K OHM
1.6K OHM
1.6K OHM
1.6K OHM
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
10 OHM 1/5W J
10 OHM 1/5W J
10 OHM 1/5W J
10 OHM 1/5W J
10 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J

48

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

MAIN PCB ASS'Y

COP12170C

R585
R586
R587
R588
R589
R590
R591
R592
R593
R594
R595
R596
R597
R598
R599
R600
R601
R602
R603
R604
R605
R606
R607
R608
R609
R610
R611
R612
R631
R632
R633
R634
R635
R636
R637
R638
R639
R640
R646
R647
R648
R649
R650
R651
R652
R653
R654
R655
R666
R667
R668
R669
R670
R671
R672
R673
R674
R675
R676
R677
R678
R679
R680
R681
R682
R683
R684
R685
R686

RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON

CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ100T
CRD20TJ100T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25TJ470T
CRD25TJ470T
CRD25TJ470T
CRD25TJ470T
CRD25TJ470T
CRD20TJ472T
CRD20TJ472T
CRD20TJ472T
CRD20TJ472T
CRD20TJ472T
CRD25TJ182T
CRD25TJ182T
CRD25TJ182T
CRD25TJ182T
CRD25TJ182T
CRD20TJ562T
CRD20TJ562T
CRD20TJ562T
CRD20TJ562T
CRD20TJ562T
CRD20TJ103T

Qty

560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
10 OHM 1/5W J
10 OHM 1/5W J
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
47 OHM
47 OHM
47 OHM
47 OHM
47 OHM
4.7K OHM 1/5W J
4.7K OHM 1/5W J
4.7K OHM 1/5W J
4.7K OHM 1/5W J
4.7K OHM 1/5W J
1.8K OHM
1.8K OHM
1.8K OHM
1.8K OHM
1.8K OHM
5.6K OHM 1/5W J
5.6K OHM 1/5W J
5.6K OHM 1/5W J
5.6K OHM 1/5W J
5.6K OHM 1/5W J
10K OHM 1/5W J

49

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

MAIN PCB ASS'Y

COP12170C

R687
R688
R689
R690
R696
R697
R698
R699
R700
R706
R771
R772
R773
R774
R775
R776
R777
R781
R782
R783
R784
R785
R786
R787
R801
R802
R803
R804
R805
R807
R808
R809
R812
R813
R814
R815
R817
R818
R819
R820
R821
R822
R823
R824
R830
R831
R832
R833
R834
R835
R836
R837
R838
R839
R840
R841
R842
R843
R844
R845
R848
R849
R850
R851
R852
R853
R854
R855
R856

RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
WIRE , COPPER
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON

CRD20TJ103T
CRD20TJ103T
CRD20TJ103T
CRD20TJ103T
CRD25TJ470T
CRD25TJ470T
CRD25TJ470T
CRD25TJ470T
CRD25TJ470T
C3A206
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ103T
CRD20TJ103T
CRD20TJ562T
CRD20TJ562T
CRD20TJ472T
CRD20TJ472T
CRD25TJ182T
CRD25TJ182T
CRD25TJ470T
CRD25TJ470T
CRD25TJ470T
CRD25TJ470T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ3R3T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD25FJ180T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ273T
CRD20TJ273T
CRD20TJ162T
CRD20TJ162T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ221T

Qty

10K OHM 1/5W J
10K OHM 1/5W J
10K OHM 1/5W J
10K OHM 1/5W J
47 OHM
47 OHM
47 OHM
47 OHM
47 OHM
SN95/PB5 , 0.6
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
10K OHM 1/5W J
10K OHM 1/5W J
5.6K OHM 1/5W J
5.6K OHM 1/5W J
4.7K OHM 1/5W J
4.7K OHM 1/5W J
1.8K OHM
1.8K OHM
47 OHM
47 OHM
47 OHM
47 OHM
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
3.3 OHM 1/4W J
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
(18 OHM) NONFLAMMABLE
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
560 OHM 1/5W J
27K OHM 1/5W J
27K OHM 1/5W J
1.6K OHM
1.6K OHM
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
1.5K OHM 1/5W J
220 OHM 1/5W J

50

1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

MAIN PCB ASS'Y

COP12170C

R857
R858
R859
R860
R861
R862
R863
R870
R871
R872
R873
R874
R875
R876
R877
R878
R879
R880
R882
R883
R884
R885
R886
R887
R888
R891
R892
R893
R894
R895
R896
R897
R900
R906
R912
R913
R917
R918
R919
R920
R924
R925
R926
R927
R928
R929
R930
R931
R933
R934
R935
R936
R939
R940
R941
R942
R943
R944
R945
R946
R947
R948
R949
R952
R953
R954
R955
R956
R957

RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
WIRE , COPPER
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON

CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ271T
CRD20TJ271T
CRD20TJ333T
CRD20TJ333T
CRD20TJ433T
CRD20TJ433T
CRD20TJ471T
CRD20TJ471T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ122T
CRD20TJ122T
CRD20TJ122T
CRD20TJ122T
CRD20TJ122T
CRD20TJ122T
CRD20TJ122T
CRD20TJ391T
CRD20TJ391T
CRD20TJ391T
CRD20TJ391T
CRD20TJ391T
CRD20TJ391T
CRD20TJ391T
CRD20TJ103T
CRD20TJ104T
CRD20TJ332T
C3A206
CRD25TJ393T
CRD25TJ393T
CRD25TJ393T
CRD25TJ393T
CRD20TJ473T
CRD20TJ473T
CRD20TJ473T
CRD20TJ473T
CRD20TJ222T
CRD20TJ222T
CRD20TJ222T
CRD20TJ222T
CRD20TJ472T
CRD20TJ223T
CRD20TJ154T
CRD20TJ334T
CRD20TJ472T
CRD20TJ152T
CRD25TJ223T
CRD20TJ223T
CRD20TJ223T
CRD25TJ223T
CRD25TJ223T
CRD20TJ223T
CRD20TJ223T
CRD25TJ392T
CRD20TJ334T
CRD25TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ223T
CRD20TJ224T
CRD20TJ153T

Qty

220 OHM 1/5W J
220 OHM 1/5W J
220 OHM 1/5W J
270 OHM 1/5W J
270 OHM 1/5W J
33K OHM 1/5W J
33K OHM 1/5W J
43K OHM 1/5W J
43K OHM 1/5W J
470 OHM 1/5W J
470 OHM 1/5W J
330 OHM 1/5W J
330 OHM 1/5W J
330 OHM 1/5W J
330 OHM 1/5W J
330 OHM 1/5W J
330 OHM 1/5W J
330 OHM 1/5W J
1.2K OHM 1/5W J
1.2K OHM 1/5W J
1.2K OHM 1/5W J
1.2K OHM 1/5W J
1.2K OHM 1/5W J
1.2K OHM 1/5W J
1.2K OHM 1/5W J
390 OHM
390 OHM
390 OHM
390 OHM
390 OHM
390 OHM
390 OHM
10K OHM 1/5W J
100K OHM 1/5W J
3.3K OHM 1/5W J
SN95/PB5 , 0.6
39K OHM
39K OHM
39K OHM
39K OHM
47K OHM 1/5W J
47K OHM 1/5W J
47K OHM 1/5W J
47K OHM 1/5W J
2.2K OHM 1/5W J
2.2K OHM 1/5W J
2.2K OHM 1/5W J
2.2K OHM 1/5W J
4.7K OHM 1/5W J
22K OHM 1/5W J
150K OHM
330K OHM
4.7K OHM 1/5W J
1.5K OHM 1/5W J
22K OHM 1/4W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/4W J
22K OHM 1/4W J
22K OHM 1/5W J
22K OHM 1/5W J
3.9K 1/4W J
330K OHM
22K OHM 1/4W J
22K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
220 KOHM 1/5W J
15K OHM 1/5W J

51

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

Qty

MAIN PCB ASS'Y

COP12170C

R958
R959
R961
R962
R964
R965
R986
R987
R988
R989
R991
R992
R998
VR81
VR82
VR83
VR84
VR85
VR86
VR87
R656
R657
R658
R659
R660
R810
R811
R905
R922
R923
R990
R993
R994
R995
R996
R997
R999

CRD20TJ563T
CRD20TJ104T
CRD20TJ331T
CRD20TJ273T
CRD20TJ223T
CRD20TJ223T
CRD20TJ102T
CRD20TJ561T
CRD20TJ562T
CRD20TJ302T
CRD20TJ822T
KRG1SANJ271RT
CRD20TJ103T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRG1ANJ1R0H
CRG2ANJ470H
CRG1ANJ220H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H

RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , METAL OXIDE FILM
RES , CARBON
RES , SEMI FIXED (220, B CURVE)
RES , SEMI FIXED (220, B CURVE)
RES , SEMI FIXED (220, B CURVE)
RES , SEMI FIXED (220, B CURVE)
RES , SEMI FIXED (220, B CURVE)
RES , SEMI FIXED (220, B CURVE)
RES , SEMI FIXED (220, B CURVE)
RES , CEMENT (0.27 OHM)
RES , CEMENT (0.27 OHM)
RES , CEMENT (0.27 OHM)
RES , CEMENT (0.27 OHM)
RES , CEMENT (0.27 OHM)
RES , CEMENT (0.27 OHM)
RES , CEMENT (0.27 OHM)
RES , METAL OXIDE FILM
RES , METAL OXIDE FILM
RES , METAL OXIDE FILM
RES , METAL OXIDE FILM
RES , METAL OXIDE FILM
RES , METAL OXIDE FILM
RES , METAL OXIDE FILM
RES , METAL OXIDE FILM
RES , METAL OXIDE FILM
RES , METAL OXIDE FILM

56K OHM 1/5W J
100K OHM 1/5W J
330 OHM 1/5W J
27K OHM 1/5W J
22K OHM 1/5W J
22K OHM 1/5W J
1K OHM 1/5W J
560 OHM 1/5W J
5.6K OHM 1/5W J
3K OHM
8.2K OHM 1/5W J
270 OHM
10K OHM 1/5W J
KVSF637AVC
KVSF637AVC
KVSF637AVC
KVSF637AVC
KVSF637AVC
KVSF637AVC
KVSF637AVC
(0.27 OHM)
(0.27 OHM)
(0.27 OHM)
(0.27 OHM)
(0.27 OHM)
(0.27 OHM)
(0.27 OHM)
1 OHM 1W J
47 OHM 2W J
22 OHM 1W J
10 OHM 1W J
10 OHM 1W J
10 OHM 1W J
10 OHM 1W J
10 OHM 1W J
10 OHM 1W J
10 OHM 1W J

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

HJT1A025
HJT1A025
KJCFC5S
KBA2D2500TLET
KBA2C8000TLEY
CMYAVR2600/120
CFNCF12825HSN
CHD1A012R
CHD1A036R
CHD3A012R
CMD1A398
CMD1A417
CMD1A694
CMY1A314
CTB3+8JR
CTB3+8JR
CWB1D00718088
CWB1D00915088
CWB3F905300UZ
CWE8112120VV
CWE8112120VV
CJP03GA01ZY
CJP08GA221ZB
CJP27GA41ZM
CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY

PLATE , EARTH
PLATE , EARTH
HOLDER , FUSE
FUSE (2.5A)
FUSE(218 Series, 250V, 8A)
HEAT SINK ASS'Y
FAN , MOTOR
SCREW , SPECIAL
SCREW , SPECIAL
SCREW , SPECIAL
BRACKET , PCB
BRACKET , PCB
BRACKET , FAN
HEAT SINK
SCREW
SCREW
WIRE ASS'Y (2.5MM, 180MM, 7PIN, DUAL-DIPPING TYPE)
WIRE ASS'Y (2.5mm, 150mm, 9pin, Dual-dipping type)
WIRE ASS'Y (3.96mm, 300mm, 5pin)
WIRE ASS'Y (1PIN,120mm,LUG,#18,RED)
WIRE ASS'Y (1PIN,120mm,LUG,#18,RED)
WAFER
FEMALE HEADER (08P,2.54mm) , STRAIGHT TYPE
WAFER (1.25MM, CARD CABLE, STRAIGHT 27P)
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN

MET37-0002
MET37-0002

1
1
2
1
1
1
1
14
4
11
2
2
1
1
8
4
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Miscellaneous
ET90
ET91
F901
F902
F901

BN14
BN15
BN20
BN25
BN26
CN10
CN11
CN12
CN61
CN62
CN63
CN64
CN65

52

AG-D9320
AG-D8900

MOLEX 52045-**45

harman/kardon

AVR2600
Description

Qty

MAIN PCB ASS'Y

COP12170C

CN66
CN67
CN89
CN90
CN91
CN92
CN93
ET92
ET93
JK90
JK91
JK92
JW91
JW93
L501
L502
L503
L504
L505
L506
L507
OL91
RY94
TH91
T902

WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER
WAFER
WAFER
WAFER , STRAIGHT, 2PIN
BRACKET , PCB
BRACKET , PCB
JACK , BOARD (SW)
TERMINAL , SPEAKER
TERMINAL , SPEAKER
WIRE ASS'Y (1PIN,120mm,LUG,#18,RED)
WIRE ASS'Y (1P, BLACK, 100MM)
COIL , SPEAKER
COIL , SPEAKER
COIL , SPEAKER
COIL , SPEAKER
COIL , SPEAKER
COIL , SPEAKER
COIL , SPEAKER
OUTLET , AC 1 PIN USA
RELAY , POWER
THERMAL SENSOR , POSISTOR
TRANS, SUB
MOTOR , FAN(60X60X25MM)
SCREW , SPECIAL
SCREW , SPECIAL
SCREW , SPECIAL
SCREW , FLAT(2.6X4)
SCREW , SPECIAL
HOLDER , PCB
CLAMPER , WIRE
CUSHION , RUBBER
RUBBER
CUSHION , RUBBER
CUSHION , FOOT AVR2600
CUSHION , RUBBER
CORD , POWER
PANEL , REAR
PANEL , REAR
FOOT , A AVR2600
FOOT , B AVR2600
BRACKET , FAN
BRACKET , PCB
SCREW
SCREW
SCREW
SCREW
SCREW
CHASSIS , BOTTOM
BUSHING , AC CORD
SWITCH , MOMS WIRE ASS'Y (2P, 80MM, RED)
SWITCH , MOMS
WIRE ASS'Y (3.96MM, 80MM, 2P, RED)
CARD , CABLE (27p,1.25mm Pitch,100mm Length,Protec
CARD , CABLE (17P,1.0mm Pitch,100mm Length,Protect
TRANS , POWER

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
2
4
2
2
5
2
1
2
3
1
4
1
1
1
1
2
2
1
1
21
10
12
4
2
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

1
1
1
1
1
1

EA
EA
EA
EA
EA
EA

Ref. Designator

BN90

CB12
CB15
T901

Part Number

CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY
CJP02GA89ZY
CJP02GA89ZY
CJP02KA060ZY
CJP02GA01ZY
CMD1A387
CMD1A387
CJJ4M040Z
CJJ5R006Z
CJJ5Q012Z
CWE8112120VV
CWEE102100VV
CLEY0R5KAK
CLEY0R5KAK
CLEY0R5KAK
CLEY0R5KAK
CLEY0R5KAK
CLEY0R5KAK
CLEY0R5KAK
KJJ7A013Z
CSL1E002ZE
KRTP42T7D330B
CLT5I005ZU
CFNCF12625SA
CHD1A012ZR
CHD1A023R
CHD1A036FZR
CHD1A065R
CHD4A012R
CHE170
CHE36-3
CHG1A104Z
CHG1A113
CHG1A160Z
CHG1A373
CHG1A462
CJA523FBYA
CKF2A398Y
CKF2A398Z
CKL1A094
CKL1A095
CMD1A506
CMD2A636
CTB3+10JFZR
CTB3+6FFZR
CTB3+8JFZR
CTS3+8JFZR
CTW3+12JR
CUA1A294
KHR1A028
CSH1A009ZVB
CSH1A009ZV
CWB4F202080UK
CWC4C4A27B100B10
CWC4F2A17A100B10
CLT5V050ZU

POWER PCB ASS'Y

0.5UH K
0.5UH K
0.5UH K
0.5UH K
0.5UH K
0.5UH K
0.5UH K
A202D0031P(1P)
G5PA-1 (DC 6V)
P42T7D330BW20

COP12172C

Capacitors
C104
C105
C106
C107
C108
C109

HCQI1H103JZT
HCQI1H103JZT
HCQI1H104JZT
HCQI1H103JZT
HCQI1H103JZT
HCQI1H104JZT

CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR

0.01UF 50V J
0.01UF 50V J
0.1UF 50V J
0.01UF 50V J
0.01UF 50V J
0.1UF 50V J

53

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

Qty

POWER PCB ASS'Y

COP12172C

C110
C123
C124
C125
C127
C131
C132
C133
C134
C135
C136
C750
C752
C911
C912
C919
C920
C922
C925
C926
C931
C932
C935
C936
C937
C938
C939
C940
C129
C929
C930

CCEA1CH101T
CCFT1H473ZF
CCFT1H473ZF
CCBS1H473ZFT
CCBS1H104ZFT
CCEA1HH4R7T
CCFT1H473ZF
CCFT1H473ZF
CCFT1H473ZF
CCBS1H104ZFT
CCBS1H104ZFT
CCEA1CH101T
CCEA1CH101T
CCEA1HKS2R2T
CCEA0JH102T
CCKT1H102KB
CCEA1HH470T
KCME2E104JP04T
CCME2A103JXT
CCME2A103JXT
HCQI1H473JZT
HCQI1H473JZT
CCBS1H104ZFT
CCBS1H473ZFT
CCBS1H473ZFT
CCEA1CH101T
CCEA1EH101T
CCEA1EH101T
CCEA1EH103E
CCEA1VH222EZ
CCEA1VH222EZ

CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC(47000PF/50V)
CAP , CERAMIC
CAP , ELECT
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , CERAMIC
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , METALLIZED FILM (0.1UF/250V)
CAP , METALLIZED FILM (0.01UF/100V)
CAP , METALLIZED FILM (0.01UF/100V)
CAP , MYLAR
CAP , MYLAR
CAP , CERAMIC
CAP , CERAMIC(47000PF/50V)
CAP , CERAMIC(47000PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT (10000uF/25V,22x30,KR3)
CAP , ELECT (2200UF/35V, 12.5X31)
CAP , ELECT (2200UF/35V, 12.5X31)

100UF 16V
0.047UF 50V Z
0.047UF 50V Z
CH UP025 F473Z-A-B J
0.1UF 50V Z
4.7UF 50V
0.047UF 50V Z
0.047UF 50V Z
0.047UF 50V Z
0.1UF 50V Z
0.1UF 50V Z
100UF 16V
100UF 16V
2.2UF 50V SMALL SIZE
1000UF 6.3V
1000PF 50V K
47UF 50V
(0.1UF/250V)
(0.01UF/100V)
(0.01UF/100V)
0.047UF 50V J
0.047UF 50V J
0.1UF 50V Z
(47000PF/50V)
(47000PF/50V)
100UF 16V
100UF 25V
100UF 25V
(10000uF/25V,22x30,KR3)
(2200UF/35V, 12.5X31)
(2200UF/35V, 12.5X31)

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CVD1N4003ST
CVD1N4003ST
CVD1N4003ST
CVD1N4003ST
CVD1N4003ST
CVD1N4003ST
CVD1SS133MT
CVD1SS133MT
HVTKTA1267YT
HVTKTC3198YT
HVTKTC3198YT
CVDKBU804FMA
HVDKBU804F
CVDGBJ1506BIA
CVIKIA7905PI
HVIKIA7805API
CVIKIA278R15PI
CVIKIA7915PI
HVDGBJ1506

DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE
DIODE
TRANSISTOR
TRANSISTOR
TRANSISTOR
BRIDGE DIODE ASS'Y
DIODE , BRIDGE
DIODE HEAT SINK ASS'Y (CMY2A138)
I.C , REGULATOR(-5V)
REGULATOR, +5V
I.C , REGULATOR(15V OUTPUT LOW DROP)
I.C , REGULATOR(15V, TO-220AB)
DIODE, BRIDGE.(600V)

1N4003
1N4003
1N4003
1N4003
1N4003
1N4003
1SS133
1SS133
KTA1267Y
KTC3198Y
KTC3198Y
KBU804F

1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

KIA7905PI
7805API (KEC)
KIA278R15
KIA7915PI
GBJ1506

1
1
1
1
1

EA
EA
EA
EA
EA

CRD20TJ103T
C3A206
C3A206
CRD20TJ103T
CRD20TJ103T
CRD20TJ272T
CRD20TJ153T
CRD20TJ153T
CRD25TJ153T
CRD25TJ153T
CRD25TJ153T
CRD25TJ153T
CRD20TJ103T

RES , CARBON
WIRE , COPPER
WIRE , COPPER
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (15K OHM)
RES , CARBON (15K OHM)
RES , CARBON (15K OHM)
RES , CARBON (15K OHM)
RES , CARBON

10K OHM 1/5W J
SN95/PB5 , 0.6
SN95/PB5 , 0.6
10K OHM 1/5W J
10K OHM 1/5W J
2.7K OHM 1/5W J
15K OHM 1/5W J
15K OHM 1/5W J
(15K OHM)
(15K OHM)
(15K OHM)
(15K OHM)
10K OHM 1/5W J

1

EA

1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Semiconductors
D114
D115
D116
D117
D124
D125
D801
D802
Q911
Q912
Q913
D701
D991
IC81
IC82
IC83
IC84

Resistors
R120
R123
R124
R750
R751
R901
R912
R913
R917
R918
R919
R920
R925

54

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

POWER PCB ASS'Y

COP12172C

R927
R928
R942
R104
R105

CRD20TJ104T
CRD20TJ333T
CRD20TJ104T
KRQ1AJR47H
KRQ1AJR47H

RES , CARBON
RES , CARBON
RES , CARBON
RES , FUSE
RES , FUSE

CJP06GB143ZB
CWB1D00715058
CWB1D00912058
CJP08GB142ZB
CJP05GA90ZY
CJP07GI237ZW
CJP09GJ243ZW
KBA2D5000A2EYT
KBA2D5000A2EYT
CTB3+12JR
CMY1A219
CMY2A138
CTB3+12JR
CMD1A387
HJSTORX177L
HJSTORX177L

FEMALE HEADER(6P, 2.54mm)
WIRE ASS'Y (LOCKING TYPE, 2.5MM, 7PIN, 150MM)
WIRE ASS'Y (LOCKING TYPE, 2.5MM, 9PIN, 120MM)
PIN HEADER (08P, 2.54mm) , ANGLE TYPE
WAFER , 5P(DIP, 3.96PITCH)
LOCKING TYPE , STRAIGHT WAFER, 2.5MM
WAFER (9P LOCK ANGLE 2.5MM)
FUSE(382 Series, 250V, 5A)
FUSE(382 Series, 250V, 5A)
SCREW
HEAT SINK (BRIDGE DIODE)
HEAT SINK
SCREW
BRACKET , PCB
MODULE , OPTICAL(RX)
MODULE , OPTICAL(RX)

Qty

100K OHM 1/5W J
33K OHM 1/5W J
100K OHM 1/5W J
0.47 OHM 1W J
0.47 OHM 1W J

1
1
1
1
1

EA
EA
EA
EA
EA

1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA

TORX177L
TORX177L

1
1
1
1
1

EA
EA
EA
EA
EA

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

1
1
1
1

EA
EA
EA
EA

1
1
1
1
1
1

EA
EA
EA
EA
EA
EA

1
1

EA
EA

Miscellaneous
BN17
BN20
BN96
CN11
CN20
CN82
CN96
F110
F111

ET01
JK75
JK76

VIDEO IN/OUT PCB ASS'YS

COP12175C

Capacitors
C401
C404
C411
C421
C451
C491
C601
C602
C603
C604
C605
C606
C611
C613
C615
C621
C623
C625

CCBS1H101KBT
CCEA0JH102T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCBS1H101KBT
CCBS1H220JCT
CCEA0JH102T
CCBS1H220JCT
CCEA0JH102T
CCBS1H220JCT
CCEA0JH102T
CCBS1H220JCT
CCBS1H220JCT
CCBS1H220JCT
CCBS1H220JCT
CCBS1H220JCT
CCBS1H220JCT

CAP , CERAMIC(100PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(100PF/50V)
CAP , CERAMIC(22PF/50V)
CAP , ELECT
CAP , CERAMIC(22PF/50V)
CAP , ELECT
CAP , CERAMIC(22PF/50V)
CAP , ELECT
CAP , CERAMIC(22PF/50V)
CAP , CERAMIC(22PF/50V)
CAP , CERAMIC(22PF/50V)
CAP , CERAMIC(22PF/50V)
CAP , CERAMIC(22PF/50V)
CAP , CERAMIC(22PF/50V)

(100PF/50V)
1000UF 6.3V
10UF 50V
10UF 50V
10UF 50V
CH UP025 B101K-A-B Z
CH UP025CH220J-A-B Z
1000UF 6.3V
CH UP025CH220J-A-B Z
1000UF 6.3V
CH UP025CH220J-A-B Z
1000UF 6.3V
CH UP025CH220J-A-B Z
CH UP025CH220J-A-B Z
CH UP025CH220J-A-B Z
CH UP025CH220J-A-B Z
CH UP025CH220J-A-B Z
CH UP025CH220J-A-B Z

C3A206
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
C3A206
C3A206
C3A206
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T

WIRE , COPPER
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
WIRE , COPPER
WIRE , COPPER
WIRE , COPPER
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON

SN95/PB5 , 0.6
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
SN95/PB5 , 0.6
SN95/PB5 , 0.6
SN95/PB5 , 0.6
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J

CJP16GB142ZB
CJP06GB142ZB

PIN , HEADER (16PIN, 2.54mm, ANGLE)
PIN HEADER(6P, 2.54mm)

Resistors
R401
R411
R421
R451
R491
R601
R603
R605
R611
R612
R613
R621
R622
R623
Miscellaneous
BN56
BN57

55

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

VIDEO IN/OUT PCB ASS'YS

COP12175C

JK40
JK41
JK42
JK43
JK44

JACK , BOARD
JACK , BOARD
JACK , BOARD
JACK , BOARD
JACK , RCA(1P,RCA-115A-05)

CJJ4N043Z
CJJ4N043Z
CJJ4R045Z
CJJ4S030Z
CJJ4M049Y

INPUT PCB ASS'Y

Qty

3P,G/B/R,SILVER

1
1
1
1
1

EA
EA
EA
EA
EA

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

COP12177C

Capacitors
C203
C204
C205
C206
C207
C208
C209
C210
C211
C212
C213
C214
C215
C216
C219
C220
C221
C222
C223
C224
C225
C226
C227
C228
C229
C230
C274
C275
C276
C277
C278
C279
C280
C289
C290
C291
C293
C295
C296
C299
C301
C302
C303
C304
C305
C306
C307
C308
C309
C310
C311
C312
C313
C314
C315
C316
C317
C318
C319

CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1A105KC
CCSNA1C100B
CCSNA1C100B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H272KC
CCUS1H272KC
CCUS1H104KC
CCUS1H152KC
CCUS1H152KC
CCUS1H152KC
CCUS1H152KC
CCUS1H152KC
CCUS1H152KC
CCUS1H152KC
CCUS1H152KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC

CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP

220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
1UF 10V K
(10uF/16V, NingXia XingRi)
(10uF/16V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
2700PF 50V K
2700PF 50V K
0.1UF 50V K
1500PF 50V K
1500PF 50V K
1500PF 50V K
1500PF 50V K
1500PF 50V K
1500PF 50V K
1500PF 50V K
1500PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K

56

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

INPUT PCB ASS'Y

COP12177C

C320
C321
C322
C323
C324
C325
C326
C327
C328
C329
C330
C331
C332
C333
C334
C335
C336
C337
C338
C339
C340
C350
C351
C352
C353
C354
C355
C356
C357
C358
C359
C362
C363
C364
C365
C369
C370
C381
C382
C383
C384
C385
C386
C387
C388
C391
C392
C393
C394
C395
C396
C397
C398
C532
C534
C535
C536
C537
C538
C539
C540
C601
C603
C605
C607
C609
C610
C611
C613

CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP CERAMIC(1608, 3900p)
CAP , CHIP(8200pF/50V,1608 SIZE)
CAP , CHIP
CAP , CHIP
CAP , CHIP CERAMIC(1608, 3900p)
CAP , CHIP(8200pF/50V,1608 SIZE)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP(1800PF/50V/1608/X7R)
CAP , CHIP(1800PF/50V/1608/X7R)
CAP , CHIP(1800PF/50V/1608/X7R)
CAP , CHIP(1800PF/50V/1608/X7R)
CAP , CHIP(1800PF/50V/1608/X7R)
CAP , CHIP(1800PF/50V/1608/X7R)
CAP , CHIP(1800PF/50V/1608/X7R)
CAP , CHIP(1800PF/50V/1608/X7R)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP(15PF/50V)
CAP , CHIP
CAP , CHIP

CCUS1H223KC
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H392KC
CCUS1H822KC
CCUS1H223KC
CCUS1H103KC
CCUS1H392KC
CCUS1H822KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H151JA
CCUS1H151JA
CCUS1H151JA
CCUS1H102KC
CCUS1H151JA
CCUS1H151JA
CCUS1H151JA
CCUS1H151JA
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H150JA
CCUS1H104KC
CCUS1H104KC

57

Qty

0.022UF 50V K
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
560PF 50V J
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
1000PF 50V K
3900PF 50V K
(8200pF/50V,1608 SIZE)
0.022UF 50V K
0.01UF 50V K
3900PF 50V K
(8200pF/50V,1608 SIZE)
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
150PF 50V J
150PF 50V J
150PF 50V J
1000PF 50V K
150PF 50V J
150PF 50V J
150PF 50V J
150PF 50V J
1800PF 50V K
1800PF 50V K
1800PF 50V K
1800PF 50V K
1800PF 50V K
1800PF 50V K
1800PF 50V K
1800PF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
15PF 50V J
0.1UF 50V K
0.1UF 50V K

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

INPUT PCB ASS'Y

COP12177C

C615
C617
C619
C621
C623
C625
C627
C629
C631
C641
C642
C643
C644
C645
C646
C647
C648
C649
C650
C651
C652
C653
C654
C655
C656
C657
C658
C659
C701
C702
C704
C705
C707
C708
C716
C718
C719
C722
C723
C725
C727
C729
C731
C733
C734
C738
C739
C741
C742
C743
C744
C745
C746
C747
C748
C751
C754
C756
C758
C759
C760
C761
C762
C763
C765
C767
C768
C769
C770

CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP(15PF/50V)
CAP , CHIP(15PF/50V)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP

CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H150JA
CCUS1H150JA
CCUS1H104KC
CCUS1H104KC
CCUS1H102KC
CCUS1H104KC
CCUS1H151JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H473KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H300JA
CCUS1H104KC
CCUS1H330JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1A105KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC

Qty

0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
15PF 50V J
15PF 50V J
0.1UF 50V K
0.1UF 50V K
1000PF 50V K
0.1UF 50V K
150PF 50V J
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.047UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(30PF)
0.1UF 50V K
33PF 50V J
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
1UF 10V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K

58

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

INPUT PCB ASS'Y

COP12177C

C771
C772
C773
C778
C780
C781
C782
C783
C784
C787
C789
C790
C791
C793
C794
C795
C796
C797
C798
C820
C261
C262
C263
C264
C265
C266
C267
C268
C270
C271
C272
C273
C281
C282
C283
C284
C285
C286
C287
C288
C292
C294
C341
C342
C343
C344
C345
C346
C347
C348
C361
C371
C372
C373
C374
C375
C376
C377
C378
C389
C390
C612
C614
C626
C628
C630
C660
C703
C706

CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT

CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H102KC
CCUS1H223KC
CCUS1H103KC
CCUS1H103KC
CCUS1H103KC
CCUS1H103KC
CCUS1H103KC
CCUS1H103KC
CCUS1H104KC
CCUS1H101JA
CCUS1H181JA
CCUS1H181JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1CH101T
CCEA1CH101T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1CH101T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1CH101T
CCEA1CH101T
CCEA1CH221T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T

Qty

0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
1000PF 50V K
0.022UF 50V K
0.01UF 50V K
0.01UF 50V K
0.01UF 50V K
0.01UF 50V K
0.01UF 50V K
0.01UF 50V K
0.1UF 50V K
100PF 50V J
180PF 50V J
180PF 50V J
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
47UF 25V
47UF 25V
47UF 25V
47UF 25V
47UF 25V
47UF 25V
47UF 25V
47UF 25V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
100UF 16V
100UF 16V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
100UF 16V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
100UF 16V
100UF 16V
220UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V

59

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

Qty

INPUT PCB ASS'Y

COP12177C

C715
C717
C720
C721
C724
C726
C728
C730
C737
C740
C749
C750
C752
C753
C764
C766
C732

CCEA1HH4R7T
CCEA1HH4R7T
CCEA1CH101T
CCEA1AH471T
CCEA1AH471T
CCEA1CH101T
CCEA1AH471T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA0JH102T
CCEA0JH102T
CCEA0JKR3222E

CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT

4.7UF 50V
4.7UF 50V
100UF 16V
470UF 10V
470UF 10V
100UF 16V
470UF 10V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
1000UF 6.3V
1000UF 6.3V
2200uF 6.3V

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVD1SS355T
CVDSS34SR
CVD1SS355T
CVD1SS355T
CVINJW1298FU1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVITC74HCU04AFN
HVICS42528-CQ
CVIF25L008A50PAG
CVICS497024CVZ
CVIM12L16161A5TG
CVIF25L004A100PAG
CVICS49DV8CCVZ
CVITC74VCX541FT
HVITC74VHC157FT
HVINJM2391DL133
CVIKIA1117S18
CVIKIA1117S33
CVIANAM1459AT
CVIT5CN5
CVIM24C32WMN6TP
HVTKTC812TB
HVTKTC812TB
HVTKTC812TB
HVTKTC812TB
HVTKTC812TB
HVTKRA107S
HVTKRC107S

DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
DIODE , SCHOTTKY (40V,3A, DO-214AC) DELTA
DIODE , CHIP
DIODE , CHIP
I.C , VOL WITH INPUT SELECTOR (JRC)
I.C , DUAL OP AMP (JRC)
I.C , DUAL OP AMP (JRC)
I.C , DUAL OP AMP (JRC)
I.C , DUAL OP AMP (JRC)
I.C , DUAL OP AMP (JRC)
I.C , DUAL OP AMP (JRC)
I.C , DUAL OP AMP (JRC)
I.C , DUAL OP AMP (JRC)
I.C , DUAL OP AMP (JRC)
IC , INVERTER
I.C , CODEC + DIR (CIRRUS LOGIC)
I.C , 8Mbit SPI Serial FLASH (50MHz/8lead SOIC)
I.C , DSP (CIRRUS LOGIC)
I.C, 16MB SDRAM (ESMT)
I.C , 4M FLASH(8PIN SOIC)
I.C , DSP (DOLBY VOLUME) CIRRUS LOGIC
I,C , OCTAL BUS BUFFER (TOSHIBA)
I.C , 2-CHANNEL MUX (TOSHIBA)
I.C , CHIP REGULATOR (+3.3V) JRC
I.C , REGULATOR(SOT-223)
I.C , REGULATOR(SOT-223)
I.C , U-COM (AVR2600/AVR3600)
I.C , U-COM (512KB/32KB, LQFP100P) TOSHIBA
I.C , 64Kbit and 32Kbit Serial I²C Bus EEPROM
TRANSISTOR , CHIP(TS6)
TRANSISTOR , CHIP(TS6)
TRANSISTOR , CHIP(TS6)
TRANSISTOR , CHIP(TS6)
TRANSISTOR , CHIP(TS6)
TRANSISTOR, CHIP
TRANSISTOR , CHIP

1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
1SS355T
SS34SR
1SS355T
1SS355T
NJW1298FU1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
TC74HCU04AFN
CS42528-CQ
F25L008A-50PAG

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Semiconductors
D202
D203
D204
D205
D207
D208
D209
D210
D211
D212
D213
D214
D215
D216
D704
D725
D727
IC20
IC21
IC22
IC23
IC24
IC25
IC31
IC32
IC33
IC34
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48
IC49
IC50
IC51
IC52
IC53
Q301
Q303
Q304
Q305
Q306
Q307
Q729

60

F25L004A100PAG

KIA1117S/F18, SOT-223
KIA1117S/F33, SOT-223
BLANK DO NOT USE
M24C32
KTC812T-B-RTK
KTC812T-B-RTK
KTC812T-B-RTK
KTC812T-B-RTK
KTC812T-B-RTK
KRA107S
KRC107S

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

Qty

INPUT PCB ASS'Y

COP12177C

Q730
Q734
Q738
Q739
Q741
Q742
Q951
Q952
Q991
Q992
Q997
Q998
D221
D222
Q311
Q731
Q733
IC36
IC37

HVTKRC107S
HVTKRC107S
CVTKRC103S
HVTKRA107S
HVTKRC107S
HVTKRA107S
HVTKRC107S
HVTKRA107S
HVTKRC107S
HVTKRA107S
HVTKRA107S
HVTKRC107S
CVD1N4003ST
CVD1N4003ST
HVTKTC2874BT
HVTKTA1267YT
HVTKTC3199YT
HVIKIA7808API
CVIKIA7908PI

TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
TRANSISTOR, CHIP
TRANSISTOR , CHIP
DIODE , RECT
DIODE , RECT
TRANSISTOR , MUTE
TRANSISTOR
TRANSISTOR
I.C , REGULATOR +8V
I.C , REGULATOR(TO-220IS)

KRC107S
KRC107S
KRC103S
KRA107S
KRC107S
KRA107S
KRC107S
KRA107S
KRC107S
KRA107S
KRA107S
KRC107S
1N4003
1N4003
KTC2874B
KTA1267Y
KTC3199Y
KIA7808 (KEC)
KIA7908PI TO-220IS

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ103T
CRJ104DJ103T
CRJ104DJ103T
CRJ104DJ101T
CRJ104DJ101T
CRJ104DJ101T
CRJ104DJ101T
CRJ104DJ103T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ103T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ101T
CRJ104DJ330T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ272T
CRJ10DJ101T
CRJ10DJ101T

RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES, ARRAY, 10K (1608)
RES, ARRAY, 10K (1608)
RES, ARRAY, 10K (1608)
RES , CHIP NETWORK(1/16W, 100ohm, 1608X4)
RES , CHIP NETWORK(1/16W, 100ohm, 1608X4)
RES , CHIP NETWORK(1/16W, 100ohm, 1608X4)
RES , CHIP NETWORK(1/16W, 100ohm, 1608X4)
RES, ARRAY, 10K (1608)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES, ARRAY, 10K (1608)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , CHIP NETWORK(1/16W, 100ohm, 1608X4)
RES , 4ARRAY (1608*4)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)

33 OHM/1608*4
33 OHM/1608*4
10K(1608)
10K(1608)
10K(1608)
100R (1608)
100R (1608)
100R (1608)
100R (1608)
10K(1608)
33 OHM/1608*4
33 OHM/1608*4
33 OHM/1608*4
33 OHM/1608*4
33 OHM/1608*4
33 OHM/1608*4
33 OHM/1608*4
33 OHM/1608*4
33 OHM/1608*4
33 OHM/1608*4
10K(1608)
33 OHM/1608*4
33 OHM/1608*4
100R (1608)
33 OHM/1608*4
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Resistors
RN53
RN54
RN61
RN62
RN63
RN64
RN65
RN66
RN67
RN68
RN76
RN77
RN78
RN79
RN81
RN82
RN83
RN84
RN85
RN87
RN89
RN90
RN91
RN92
RN93
R203
R204
R205
R206
R207
R208
R209
R210
R211
R212
R213
R214
R215
R216
R219
R220
R221
R222
R223
R224
R225
R226

61

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

INPUT PCB ASS'Y

COP12177C

R229
R230
R231
R232
R233
R234
R235
R236
R237
R238
R239
R240
R241
R242
R245
R246
R247
R248
R249
R250
R251
R252
R254
R255
R256
R257
R258
R259
R260
R261
R262
R263
R264
R265
R266
R267
R268
R271
R272
R273
R274
R275
R276
R277
R278
R279
R280
R281
R282
R283
R284
R285
R286
R287
R288
R289
R290
R291
R292
R293
R294
R295
R296
R297
R298
R301
R302
R303
R304

RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (10K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (4.7 OHM)
RES , CHIP (4.7 OHM)
RES , CHIP (4.7 OHM)
RES , CHIP (4.7 OHM)
RES , CHIP (4.7 OHM)
RES , CHIP (4.7 OHM)
RES , CHIP (4.7 OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (2.4K OHM)
RES , CHIP (2.4K OHM)
RES , CHIP (2.4K OHM)
RES , CHIP (2.2K OHM)
RES , CHIP (2.4K OHM)
RES , CHIP (2.4K OHM)
RES , CHIP (2.4K OHM)
RES , CHIP (2.4K OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (180K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)

CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ103T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ4R7T
CRJ10DJ4R7T
CRJ10DJ4R7T
CRJ10DJ4R7T
CRJ10DJ4R7T
CRJ10DJ4R7T
CRJ10DJ4R7T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ242T
CRJ10DJ242T
CRJ10DJ242T
CRJ10DJ222T
CRJ10DJ242T
CRJ10DJ242T
CRJ10DJ242T
CRJ10DJ242T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ912T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ122T

Qty

1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
9.1K OHM/1608
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE

62

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

INPUT PCB ASS'Y

COP12177C

R305
R306
R307
R308
R309
R310
R311
R312
R313
R314
R315
R316
R317
R318
R320
R321
R322
R323
R324
R325
R326
R327
R328
R329
R330
R331
R332
R333
R334
R335
R336
R337
R338
R339
R341
R344
R345
R348
R349
R350
R351
R352
R353
R354
R355
R356
R361
R362
R363
R364
R365
R366
R367
R368
R369
R370
R371
R372
R373
R374
R375
R376
R377
R378
R381
R382
R383
R384
R385

RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP
RES . CHIP
RES , CHIP (O OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (10K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (100K OHM)
RES , CHIP (1K OHM)
RES , CHIP (O OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP
RES , CHIP
RES , CHIP (1.2K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP
RES , CHIP (27K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (10K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP
RES , CHIP
RES , CHIP
RES , CHIP
RES , CHIP

CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ561T
CRJ10DJ392T
CRJ10DJ0R0T
CRJ10DJ512T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ103T
CRJ10DJ512T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ512T
CRJ10DJ104T
CRJ10DJ102T
CRJ10DJ0R0T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ472T
CRJ10DJ472T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ301T
CRJ10DJ273T
CRJ10DJ122T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ301T
CRJ10DJ273T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ103T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ561T
CRJ10DJ561T
CRJ10DJ561T
CRJ10DJ561T
CRJ10DJ561T

Qty

1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
560 OHM
(3.9K OHM)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
300 OHM J 1608
(27K OHM)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
300 OHM J 1608
(27K OHM)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
560 OHM
560 OHM
560 OHM
560 OHM
560 OHM

63

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

INPUT PCB ASS'Y

COP12177C

R386
R387
R388
R389
R390
R391
R392
R393
R394
R395
R396
R397
R398
R531
R532
R533
R534
R601
R602
R603
R604
R605
R606
R610
R611
R612
R613
R614
R615
R616
R619
R620
R621
R622
R700
R704
R709
R710
R711
R712
R713
R714
R715
R716
R717
R718
R719
R720
R721
R722
R723
R724
R725
R726
R727
R728
R729
R730
R732
R733
R734
R735
R736
R737
R738
R739
R741
R742
R743

RES , CHIP
RES , CHIP
RES , CHIP
RES , CHIP
RES , CHIP (180K OHM)
RES . CHIP (3.9K OHM)
RES . CHIP (3.9K OHM)
RES . CHIP (3.9K OHM)
RES . CHIP (3.9K OHM)
RES . CHIP (3.9K OHM)
RES . CHIP (3.9K OHM)
RES . CHIP (3.9K OHM)
RES . CHIP (3.9K OHM)
RES , CHIP (1.5K OHM)
RES , CHIP (1.5K OHM)
RES , CHIP (1.5K OHM)
RES , CHIP (1.5K OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (3.3K OHM)
RES. CHIP (5.1K 1%)
RES , CHIP (10K OHM)
RES , CHIP (82 OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (O OHM)
RES , CHIP (10K OHM)
RES , CHIP (75 OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (33 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (56 OHM)
RES , CHIP (82 OHM)
RES , CHIP (10K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (O OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (33 OHM)
RES , CHIP (O OHM)
RES , CHIP (33 OHM)
RES , CHIP (100 OHM)
RES , CHIP (O OHM)
RES , CHIP (10 OHM)
RES , CHIP (O OHM)
RES , CHIP (1K OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (240 OHM)
RES , CHIP (33 OHM)
RES , CHIP (10K OHM)
RES , CHIP (82 OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)

CRJ10DJ561T
CRJ10DJ561T
CRJ10DJ561T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ152T
CRJ10DJ152T
CRJ10DJ152T
CRJ10DJ152T
CRJ10DJ101T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DF5101T
CRJ10DJ103T
CRJ10DJ820T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ332T
CRJ10DJ0R0T
CRJ10DJ103T
CRJ10DJ750T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ330T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ560T
CRJ10DJ820T
CRJ10DJ103T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ472T
CRJ10DJ0R0T
CRJ10DJ332T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ330T
CRJ10DJ0R0T
CRJ10DJ330T
CRJ10DJ101T
CRJ10DJ0R0T
CRJ10DJ100T
CRJ10DJ0R0T
CRJ10DJ102T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ103T
CRJ10DJ100T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ241T
CRJ10DJ330T
CRJ10DJ103T
CRJ10DJ820T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ330T

Qty

560 OHM
560 OHM
560 OHM
(180K OHM)
(180K OHM)
(3.9K OHM)
(3.9K OHM)
(3.9K OHM)
(3.9K OHM)
(3.9K OHM)
(3.9K OHM)
(3.9K OHM)
(3.9K OHM)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
(240 OHM)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE

64

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

Qty

INPUT PCB ASS'Y

COP12177C

R744
R745
R746
R747
R750
R751
R752
R753
R754
R755
R756
R757
R758
R759
R760
R761
R762
R763
R764
R765
R767
R770
R771
R772
R773
R774
R775
R776
R777
R779
R780
R781
R782
R783
R784
R785
R786
R787
R788
R789
R791
R793
R798
R799
R800
R801
R810
R811
R812
R813
R814
R815
R816
R910
R932
R960
R963
R966
R967
R968
R969
R992

CRJ10DJ102T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ820T
CRJ10DJ330T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ103T
CRJ10DJ221T
CRJ10DJ105T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ472T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DF5101T
CRJ10DJ100T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ101T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ473T
CRJ10DJ104T
CRJ10DJ471T
CRJ10DJ0R0T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ105T
CRJ10DJ103T
CRJ10DJ332T
CRJ10DJ105T
CRJ10DJ472T
CRJ10DJ562T
CRJ10DJ105T
CRJ10DJ103T
CRJ10DJ562T

RES , CHIP (1K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (82 OHM)
RES , CHIP (33 OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (10K OHM)
RES , CHIP (220 OHM)
RES , CHIP (1M OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES. CHIP (5.1K 1%)
RES , CHIP (10 OHM)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (47K OHM)
RES , CHIP (100K OHM)
RES , CHIP (470 OHM)
RES , CHIP (O OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (1M OHM)
RES , CHIP (10K OHM)
RES , CHIP (3.3K OHM)
RES , CHIP (1M OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (5.6K OHM)
RES , CHIP (1M OHM)
RES , CHIP (10K OHM)
RES , CHIP (5.6K OHM)

1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CLZ9R005Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z

FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)

HCB1608KF-600T30
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60

1
1
1
1

EA
EA
EA
EA

Miscellaneous
L604
L701
L702
L703

65

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

INPUT PCB ASS'Y

COP12177C

L704
L705
BN12
BN72
BN81
CN17
CN20
CN52
JK11
JK12
JK13
JK14
JK78
JW70
L301
L302
X701
X702
CN15

FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
WAFER (1.25MM, CARD CABLE, STRAIGHT 27P)
WAFER (1.25MM, CARD CABLE, STRAIGHT 31P)
PIN HEADER (44P,2.54mm), STRAIGHT TYPE
PIN HEADER(6P, 2.54mm)
LOCKING TYPE , STRAIGHT WAFER, 2.5MM
WAFER
JACK , IN/OUT
TERMINAL , IN/OUT
TERMINAL , IN/OUT
JACK , BOARD
JACK , BOARD
WIRE ASS'Y
COIL , MPX (FM 19KHz FILTER)
COIL , MPX (FM 19KHz FILTER)
CRYSTAL
CRYSTAL(HC-49/S,ATS) 10MHz
WAFER, CARD CABLE (SMD)

CLZ9R005Z
CLZ9R005Z
CJP27GA41ZM
CJP31GA41ZM
CJP44GA240ZB
CJP06GB142ZB
CJP07GI237ZW
CJP03GA01ZY
CJJ4P014W
CJJ4R019W
CJJ4R019W
CJJ4R037W
CJJ4S022Z
CWE8202150AA
CLM4B001Z
CLM4B001Z
HOX24576E150TF
HOX10000E220TF
CJP17GA193ZY

HDMI PCB ASS'Y

Qty

HCB1608KF-600T30
HCB1608KF-600T30
MOLEX 52045-**45
MOLEX 52045-**45

24.576MHZ
CL-22P

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

COP12179C

Capacitors
C601
C602
C603
C604
C605
C606
C607
C608
C609
C610
C611
C612
C613
C614
C615
C616
C617
C618
C619
C620
C621
C622
C623
C624
C625
C626
C627
C628
C629
C630
C631
C632
C633
C634
C635
C636
C637
C638
C639
C640
C641
C642
C643
C644
C645

CCUS1H104KC
CCUS1H223KC
HCEC1CRV2101T
CCSNA0J220B
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCUS1H223KC
CCSNA1C100B
CCSNA1C100B
HCEC1CRV2101T
CCUS1H104KC
CCUS1H102KC
CCUS1H103KC
CCSNA0J220B
CCUS1H104KC
CCSNA0J220B
CCUS1H104KC
CCSNA0J220B
CCUS1H104KC
CCSNA0J220B
CCUS1H104KC
CCSNA0J220B
CCUS1H104KC
CCSNA0J220B
CCUS1H104KC
CCSNA0J220B
CCSNA1C100B
CCUS1H104KC
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA1C100B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC

CAP , CHIP
CAP , CHIP
CAP , CHIP ELECT (100UF/16V)
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP

66

0.1UF 50V K
0.022UF 50V K
(100UF/16V)
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.022UF 50V K
(10uF/16V, NingXia XingRi)
(10uF/16V, NingXia XingRi)
(10uF/16V, NingXia XingRi)
0.1UF 50V K
1000PF 50V K
0.01UF 50V K
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
(10uF/16V, NingXia XingRi)
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(10uF/16V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

HDMI PCB ASS'Y

COP12179C

C646
C647
C648
C649
C650
C651
C652
C653
C654
C655
C656
C657
C658
C659
C660
C661
C662
C663
C664
C665
C666
C667
C668
C669
C670
C671
C672
C673
C674
C675
C676
C677
C678
C679
C680
C681
C682
C683
C684
C685
C687
C688
C689
C690
C691
C692
C693
C694
C695
C696
C697
C698
C699
C700
C701
C702
C703
C704
C705
C707
C708
C709
C710
C711
C712
C713
C714
C715
C716

CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP(1608, 50V/12NF)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP(1608, 50V/12NF)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , SMD ELECT(MANLEX RV, 16V/470, 10X10)
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP ELECT (100UF/16V)
CAP , SMD ELECT(MANLEX, RV, 25V/220, 8X10)
CAP , CHIP
CAP , SMD ELECT(MANLEX, RV, 25V/220, 8X10)
CAP , SMD ELECT(MANLEX RV, 16V/470, 10X10)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP

CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA1C100B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1A105KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA0J220B
CCUS1H104KC
CCUS1H123KC
CCUS1C154KC
CCUS1H104KC
CCUS1H222KC
CCUS1H123KC
CCUS1C154KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H103KC
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCSNA1C100B
CCSNA0J220B
CCSNA1C100B
CCSNA0J220B
CCSNA0J220B
CCSNA1C100B
CCUS1H103KC
CCUI1C104KC
CCUS1H104KC
CCEC1CRV471T
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
HCEC1CRV2101T
CCEC1ERV221T
CCUS1H104KC
CCEC1ERV221T
CCEC1CRV471T
CCUS1H103KC
CCUS1H104KC
CCUS1H103KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC

67

Qty

0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(10uF/16V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
1UF 10V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
1608, 50V/12NF
0.15UF 16V K
0.1UF 50V K
2200PF 50V K
1608, 50V/12NF
0.15UF 16V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.01UF 50V K
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
(10uF/16V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
(10uF/16V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
(10uF/16V, NingXia XingRi)
0.01UF 50V K
(1005, 16V/0.1UF)
0.1UF 50V K
(MANLEX RV, 16V/470, 10X10)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
(100UF/16V)
(MANLEX, RV, 25V/220, 8X10)
0.1UF 50V K
(MANLEX, RV, 25V/220, 8X10)
(MANLEX RV, 16V/470, 10X10)
0.01UF 50V K
0.1UF 50V K
0.01UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

HDMI PCB ASS'Y

COP12179C

C719
C720
C721
C722
C723
C724
C725
C726
C727
C728
C729
C730
C731
C732
C733
C734
C735
C736
C737
C738
C739
C740
C741
C742
C743
C744
C745
C746
C747
C748
C749
C750
C751
C752
C753
C754
C755
C756
C757
C758
C759
C760
C761
C762
C763
C764
C765
C766
C767
C768
C769
C770
C771
C772
C773
C774
C775
C776
C777
C778
C779
C780
C781
C784
C785
C786
C787
C788
C789

CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP

CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H470JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA1C100B
CCUS1H104KC
CCUS1H104KC
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC

Qty

0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
47PF 50V J
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(10uF/16V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K

68

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

HDMI PCB ASS'Y

COP12179C

C790
C791
C792
C793
C794
C795
C796
C797
C798
C799
C800
C801
C802
C803
C804
C805
C806
C807
C808
C809
C810
C811
C812
C813
C814
C815
C816
C817
C818
C819
C820
C821
C822
C823
C824
C825
C826
C827
C828
C829
C830
C831
C832
C833
C834
C835
C836
C837
C838
C839
C840
C841
C842
C843
C844
C845
C846
C847
C848
C849
C850
C851
C852
C853
C854
C855
C856
C857
C858

CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP(18PF/50V)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP(18PF/50V)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)

CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H180JA
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1H180JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA0J220B
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUI1C104KC
CCUS1H103KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC

69

Qty

0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
18PF 50V J
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
18PF 50V J
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
0.1UF 50V K
(1005, 16V/0.1UF)
0.01UF 50V K
CAP , CHIP(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

HDMI PCB ASS'Y

COP12179C

C859
C860
C861
C862
C863
C864
C865
C866
C867
C868
C869
C870
C871
C872
C873
C874
C875
C876
C877
C878
C879
C880
C881
C882
C883
C884
C885
C886
C887
C888
C889
C890
C891
C892
C893
C894
C895
C896
C897
C898
C899
C900
C901
C902
C903
C904
C905
C906
C907
C908
C909
C910
C911
C912
C913
C914
C915
C916
C917
C918
C919
C920
C921
C922
C923
C924
C925
C926
C927

CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP

CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCUS1H103KC
CCUS1H103KC
CCUI1C104KC
CCSNA0J220B
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCUS1H103KC
CCUS1H103KC
CCUI1C104KC
CCUS1H104KC
CCUI1C104KC
CCUI1C104KC
CCUS1H103KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUS1H222KC
CCUS1H104KC
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCUS1H103KC
CCUS1H104KC
CCUI1C104KC
CCSNA0J220B
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCUS1H103KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUS1H103KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H103KC
CCUS1H103KC

70

Qty

(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(22uF/6.3V, NingXia XingRi)
0.01UF 50V K
0.01UF 50V K
(1005, 16V/0.1UF)
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
0.01UF 50V K
0.01UF 50V K
(1005, 16V/0.1UF)
0.1UF 50V K
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
0.01UF 50V K
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
2200PF 50V K
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(22uF/6.3V, NingXia XingRi)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
0.01UF 50V K
0.1UF 50V K
(1005, 16V/0.1UF)
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(22uF/6.3V, NingXia XingRi)
0.01UF 50V K
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
0.01UF 50V K
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(22uF/6.3V, NingXia XingRi)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
0.1UF 50V K
0.1UF 50V K
0.01UF 50V K
0.01UF 50V K

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

Qty

HDMI PCB ASS'Y

COP12179C

C928
C929
C930
C931
C932
C933
C934
C935
C936
C937
C938
C939
C940
C941
C942
C943
C944
C945
C946
C947
C948
C949
C950
C951
C954
C956
C957
C958
C959
C960
C961
C962
C963
C964
C965
C966
C967
C970
C706

CCUI1C104KC
CCUS1H103KC
CCUI1C104KC
CCSNA0J220B
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUS1H470JA
CCUS1H470JA
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCUS1H104KC
CCSNA0J220B
CCUS1H103KC
CCUS1H104KC
CCUS1H221JA
CCUS1H102KC
CCUS1H104KC
CCUS1H221JA
CCUS1H104KC
CCUS1H102KC
CCUS1H104KC
CCUS1H104KC
CCEC1ERV221T
CCUS1H103KC
CCUS1H104KC
CCEC1CRV471T
CCUS1H221JA
CCUS1H104KC
CCUS1H103KC
CCUS1H104KC
CCUS1H103KC
CCUS1H101JA
CCEA1EH222E

CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , SMD ELECT(MANLEX, RV, 25V/220, 8X10)
CAP , CHIP
CAP , CHIP
CAP , SMD ELECT(MANLEX RV, 16V/470, 10X10)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , ELECT

(1005, 16V/0.1UF)
0.01UF 50V K
(1005, 16V/0.1UF)
(22uF/6.3V, NingXia XingRi)
(22uF/6.3V, NingXia XingRi)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
47PF 50V J
47PF 50V J
(1005, 16V/0.1UF)
(1005, 16V/0.1UF)
(22uF/6.3V, NingXia XingRi)
0.1UF 50V K
(22uF/6.3V, NingXia XingRi)
0.01UF 50V K
0.1UF 50V K
220PF 50V J
1000PF 50V K
0.1UF 50V K
220PF 50V J
0.1UF 50V K
1000PF 50V K
0.1UF 50V K
0.1UF 50V K
(MANLEX, RV, 25V/220, 8X10)
0.01UF 50V K
0.1UF 50V K
(MANLEX RV, 16V/470, 10X10)
220PF 50V J
0.1UF 50V K
0.01UF 50V K
0.1UF 50V K
0.01UF 50V K
100PF 50V J
2200UF 25V

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CVDSS34SR
CVDSS34SR
CVD1SS378
CVDSS34SR
CVISII9185ACTU
CVITC74VHC08FT
CVISII9134CTU
HVITC74HC4094FN
CVISN74ALVCH16827DGG
CVISN74ALVCH16827DGG
CVISN74ALVCH16827DGG
CVITC74VCX541FT
CVISII9135ACTU
CVISN74ALVCH16827DGG
CVINJM2566V
CVIFLI30336AC
CVIA3S56D40ETPG5
CVIF49L320UA70TG
CVIADV7342BSTZ
CVIMK2302S01T
CVIA3S56D40ETPG5
HVIKIC7SZ08FU
HVINJM2391DL125
CVISI8005QTL
CVISI8005QTL
CVIAT24C02NSU18
CVITC7MZ4052FK

DIODE , SCHOTTKY (40V,3A, DO-214AC) DELTA
DIODE , SCHOTTKY (40V,3A, DO-214AC) DELTA
DIODE , SCHOTTKY BARRIER (TOSHIBA)
DIODE , SCHOTTKY (40V,3A, DO-214AC) DELTA
I.C , HDMI RX SW(80PIN TQFP) SILICON IMAGE
I.C (TOSHIBA) QUAD 2 INPUT AND GATE
IC , HDMI TX(100PIN, TQFP)
I.C (TOSHIBA) 8-Bit Shift and Store Register (3-state)
I.C , BUFFER/DRIVER (TI)
I.C , BUFFER/DRIVER (TI)
I.C , BUFFER/DRIVER (TI)
I,C , OCTAL BUS BUFFER (TOSHIBA)
I.C , HDMI RX(REVISION A,TQFP-144P)
I.C , BUFFER/DRIVER (TI)
I.C , NJM2566AV(TE1) JRC 6CH VIDEO AMPLIFIER
I.C , VIDEO PROCESSOR (GENESIS)
I.C, 256MB DDR SDRAM
I.C , 32M FLASH(48PIN TSOPI)
I.C , VIDEO ENCODER
I.C , BUFFER (IDT)
I.C, 256MB DDR SDRAM
I.C ,INPUT AND GATE (USV PACKAGE)
I.C , CHIP REGULATOR (+2.5V) JRC
IC , DCDC Converter (3.5A, SOP8) SANKEN
IC , DCDC Converter (3.5A, SOP8) SANKEN
I.C , EEPROM (2K)
I.C , 4CH MUX (TOSHIBA)

SS34SR
SS34SR
1SS378
SS34SR
SII9185ACTU
TC74VHC08FT
100PIN, TQFP
TC74HC4094AFN
SN74ALVCH16827DGGR , TI
SN74ALVCH16827DGGR , TI
SN74ALVCH16827DGGR , TI
TC74VCX541FT
144PIN, TQFP
SN74ALVCH16827DGGR , TI
NJM2566
FLI30336
A3S56D40ETP
F49L320UA70TG
ADV7342BSTZ
MK23020S-01T(IDT)
A3S56D40ETP
KIC7SZ08FU-RTK
NJM2391
SI8005QTL
SI8005QTL
AT24C02NSU18
TC7MZ4052FK

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Semiconductors
D902
D903
D904
D905
IC101
IC102
IC103
IC104
IC105
IC106
IC107
IC108
IC109
IC110
IC111
IC112
IC113
IC114
IC115
IC116
IC117
IC118
IC120
IC121
IC122
IC123
IC124

71

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

Qty

HDMI PCB ASS'Y

COP12179C

IC125
IC126
IC127
IC128
IC129
IC130
IC131
Q901
Q902
Q903
Q904
Q905
Q906
Q907
Q908
Q909
Q910
Q911
Q912
Q913
Q914
Q915
Q916
Q917
Q918

HVIKIC7SZ08FU
CVINJM2595MTE1
CVIKIA1117S50
CVINJM2845DL133
CVINJM2845DL118
CVISI8005QTL
CVI74FCT38072DCGI
CVTKRC103S
CVTKRC103S
CVTKRC103S
CVTKRC103S
HVTKRA102S
HVTKRA102S
HVTKRA102S
CVTUPA672T
HVTKRA102S
CVTUPA672T
CVTUPA672T
CVTUPA672T
CVTUPA672T
CVTKRC103S
HVTKRC111S
CVTKRC103S
HVTKRC114S
HVTKRC114S

I.C ,INPUT AND GATE (USV PACKAGE)
I.C , VIDEO S/W (JRC)
I.C , REGULATOR(SOT-223)
I.C , REGULATOR(3.3V, TO-252-3) JRC
IC, JRC LOW DROPOUT VOLTAGE REGULATOR
IC , DCDC Converter (3.5A, SOP8) SANKEN
I.C , CLOCK DRIVER (IDT)
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
F.E.T (NEC)
TRANSISTOR , CHIP
F.E.T (NEC)
F.E.T (NEC)
F.E.T (NEC)
F.E.T (NEC)
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP

KIC7SZ08FU-RTK
NJM2595MTE1
KIA1117S50-RTK/P
NJM2845DL133
NJM2845DL1-18(TE1)
SI8005QTL
IDT74FCT38072DCGI , IDT
KRC103S
KRC103S
KRC103S
KRC103S
KRA102S
KRA102S
KRA102S
UPA672T
KRA102S
UPA672T
UPA672T
UPA672T
UPA672T
KRC103S
KRC111S
KRC103S
KRC114S
KRC114S

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ104DJ220T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ104DJ220T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ104DJ220T
CRJ104DJ220T
CRJ064IJ330T
CRJ062IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ062IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ104DJ100T
CRJ104DJ100T
CRJ062IJ330T
CRJ064IJ330T
CRJ104DJ100T
CRJ104DJ100T
CRJ064IJ330T
CRJ104DJ100T

RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES,4ARRAY (22 OHM)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES,4ARRAY (22 OHM)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES,4ARRAY (22 OHM)
RES,4ARRAY (22 OHM)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X2)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X2)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES, ARRAY, 10R (1608)
RES, ARRAY, 10R (1608)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X2)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES, ARRAY, 10R (1608)
RES, ARRAY, 10R (1608)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES, ARRAY, 10R (1608)

MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
22X4/2012
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
22X4/2012
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
22X4/2012
22X4/2012
MNR04M0APJ330
MNR02M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR02M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
10R(1608)
10R(1608)
MNR02M0APJ330
MNR04M0APJ330
10R(1608)
10R(1608)
MNR04M0APJ330
10R(1608)

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Resistors
RN01
RN02
RN03
RN04
RN05
RN06
RN07
RN08
RN09
RN10
RN11
RN12
RN13
RN14
RN15
RN16
RN17
RN18
RN19
RN20
RN21
RN22
RN23
RN24
RN25
RN26
RN27
RN28
RN29
RN30
RN31
RN32
RN33
RN34
RN35
RN36
RN37
RN38
RN39
RN40
RN41

72

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

HDMI PCB ASS'Y

COP12179C

RN42
RN43
RN44
RN45
RN46
RN47
RN48
RN49
RN50
RN51
RN52
RN53
RN54
R601
R602
R603
R604
R605
R606
R607
R608
R609
R610
R611
R612
R613
R614
R615
R616
R617
R618
R619
R620
R622
R623
R624
R625
R626
R627
R628
R629
R631
R632
R633
R634
R635
R636
R637
R638
R639
R640
R641
R642
R643
R644
R645
R646
R647
R648
R649
R650
R651
R652
R653
R654
R655
R656
R657
R658

RES , CHIP NETWORK(1/16W, 33ohm, 1005X2)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES, ARRAY, 10R (1608)
RES, ARRAY, 10R (1608)
RES, ARRAY, 10K (1608)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES, ARRAY, 10K (1608)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES, ARRAY, 10K (1608)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X2)
RES , CHIP NETWORK(1/16W, 33ohm, 1005X4)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (100 OHM)
RES , CHIP (47K OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (O OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (22 OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
RES , CHIP (O OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
RES , CHIP (1M OHM)
RES , CHIP (33 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (47 OHM)
RES , CHIP (47 OHM)
RES , CHIP (82 OHM)
RES , CHIP (47 OHM)
RES , CHIP (82 OHM)
RES , CHIP (82 OHM)
RES , CHIP (82 OHM)
RES , CHIP (47 OHM)
RES , CHIP (82 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (O OHM)
RES , CHIP 1%
RES , CHIP (10K OHM)
RES , CHIP (47 OHM)

CRJ062IJ330T
CRJ064IJ330T
CRJ104DJ100T
CRJ104DJ100T
CRJ104DJ103T
CRJ064IJ330T
CRJ104DJ103T
CRJ064IJ330T
CRJ104DJ103T
CRJ064IJ330T
CRJ064IJ330T
CRJ062IJ330T
CRJ064IJ330T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ101T
CRJ10DJ473T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ0R0T
CRJ10DJ472T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ220T
CRJ10DJ101T
CRJ10DJ103T
CRJ10DJ0R0T
CRJ10DJ101T
CRJ10DJ103T
CRJ10DJ101T
CRJ10DJ103T
CRJ10DJ105T
CRJ10DJ330T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ470T
CRJ10DJ470T
CRJ10DJ820T
CRJ10DJ470T
CRJ10DJ820T
CRJ10DJ820T
CRJ10DJ820T
CRJ10DJ470T
CRJ10DJ820T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ0R0T
CRJ10DF1002T
CRJ10DJ103T
CRJ10DJ470T

73

Qty

MNR02M0APJ330
MNR04M0APJ330
10R(1608)
10R(1608)
10K(1608)
MNR04M0APJ330
10K(1608)
MNR04M0APJ330
10K(1608)
MNR04M0APJ330
MNR04M0APJ330
MNR02M0APJ330
MNR04M0APJ330
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
10K /1/10W/F
1608 SIZE
1608 SIZE

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

HDMI PCB ASS'Y

COP12179C

R659
R660
R662
R663
R664
R665
R666
R667
R668
R669
R671
R672
R673
R674
R675
R676
R677
R678
R679
R680
R681
R682
R683
R684
R685
R686
R687
R688
R690
R691
R692
R693
R694
R695
R696
R697
R698
R699
R700
R701
R702
R703
R704
R705
R706
R707
R708
R709
R710
R711
R712
R713
R714
R715
R716
R717
R718
R719
R720
R721
R722
R723
R724
R725
R726
R728
R729
R730
R731

RES , CHIP (47 OHM)
RES , CHIP (47 OHM)
RES , CHIP (47 OHM)
RES, CHIP 6.8KOHM/1608/1%
RES , CHIP 300 OHM J
RES , CHIP 300 OHM J
RES , CHIP 300 OHM J
RES , CHIP 300 OHM J
RES , CHIP (47 OHM)
RES , CHIP (82 OHM)
RES , CHIP (47 OHM)
RES, CHIP
RES , CHIP
RES , CHIP (150 OHM)
RES , CHIP
RES , CHIP (82 OHM)
RES , CHIP (82 OHM)
RES , CHIP 1% (220 OHM)
RES , CHIP (82 OHM)
RES , CHIP (150 OHM)
RES , CHIP(1/10W, 20OHM,1608)
RES , CHIP (82 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10 OHM)
RES , CHIP (O OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (27K OHM)
RES , CHIP (12K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (2.2K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (2K OHM)
RES , CHIP (1K OHM)
RES , CHIP (22K OHM)
RES , CHIP (100 OHM)
RES , CHIP (47K OHM)
RES , CHIP (1K OHM)
RES , CHIP (22K OHM)
RES , CHIP (100 OHM)
RES , CHIP (47K OHM)
RES , CHIP (1K OHM)
RES , CHIP (22K OHM)
RES , CHIP (100 OHM)
RES , CHIP (47K OHM)
RES , CHIP (47 OHM)
RES , CHIP (47 OHM)
RES , CHIP (1K OHM)
RES , CHIP (22K OHM)
RES , CHIP (100 OHM)
RES , CHIP (47K OHM)
RES , CHIP (47 OHM)
RES , CHIP (47 OHM)
RES , CHIP (47 OHM)
RES , CHIP (47 OHM)
RES , CHIP (47 OHM)
RES , CHIP (47 OHM)
RES , CHIP (1.8K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (1.8K OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP 1%

CRJ10DJ470T
CRJ10DJ470T
CRJ10DJ470T
CRJ10DF6801T
CRJ10DJ301T
CRJ10DJ301T
CRJ10DJ301T
CRJ10DJ301T
CRJ10DJ470T
CRJ10DJ820T
CRJ10DJ470T
CRJ10DF3901T
CRJ10DF4301T
CRJ10DJ151T
CRJ10DJ200T
CRJ10DJ820T
CRJ10DJ820T
CRJ10DF2200T
CRJ10DJ820T
CRJ10DJ151T
CRJ10DJ200T
CRJ10DJ820T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ100T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ100T
CRJ10DJ0R0T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ273T
CRJ10DJ123T
CRJ10DJ512T
CRJ10DJ222T
CRJ10DJ512T
CRJ10DJ202T
CRJ10DJ102T
CRJ10DJ223T
CRJ10DJ101T
CRJ10DJ473T
CRJ10DJ102T
CRJ10DJ223T
CRJ10DJ101T
CRJ10DJ473T
CRJ10DJ102T
CRJ10DJ223T
CRJ10DJ101T
CRJ10DJ473T
CRJ10DJ470T
CRJ10DJ470T
CRJ10DJ102T
CRJ10DJ223T
CRJ10DJ101T
CRJ10DJ473T
CRJ10DJ470T
CRJ10DJ470T
CRJ10DJ470T
CRJ10DJ470T
CRJ10DJ470T
CRJ10DJ470T
CRJ10DJ182T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ182T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DF8200T

74

Qty

1608 SIZE
1608 SIZE
1608 SIZE
6.8KOHM/1608/1%
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
3.9KOHM/1608/1%
(4.3K OHM)
1608 SIZE
(1/10W, 20OHM,1608)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
(1/10W, 20OHM,1608)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
(27K OHM)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
(2K OHM)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
(1.8K OHM)
1608 SIZE
1608 SIZE
(10K OHM)
1608 SIZE
1608 SIZE
1608 SIZE
820 OHM

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

HDMI PCB ASS'Y

COP12179C

R732
R733
R734
R735
R736
R740
R741
R743
R744
R745
R746
R747
R748
R749
R751
R752
R753
R754
R755
R756
R757
R758
R759
R760
R761
R762
R764
R765
R766
R767
R768
R770
R771
R772
R776
R777
R778
R779
R780
R781
R782
R783
R784
R785
R786
R787
R788
R789
R791
R792
R794
R795
R796
R800
R801
R802
R803
R804
R805
R806
R807
R808
R809
R810
R811
R812
R813
R814
R815

RES , CHIP 1%
RES , CHIP (1K OHM)
RES , CHIP (100 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (47K OHM)
RES , CHIP (100 OHM)
RES , CHIP (O OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (O OHM)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (1K OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (33 OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP(1/10W, 280ohm, 1608, 1%)
RES , CHIP 1%
RES , CHIP 300 OHM J
RES , CHIP 300 OHM J
RES, CHIP
RES , CHIP 1% (220 OHM)
RES , CHIP(1/10W, 280ohm, 1608, 1%)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (33 OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (10K OHM)
RES , CHIP
RES , CHIP
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP
RES , CHIP (10K OHM)
RES , CHIP
RES , CHIP 20K OHM
RES , CHIP (5.1K OHM)
RES , CHIP (82 OHM)
RES , CHIP (68K OHM)
RES , CHIP (68K OHM)
RES , CHIP (68K OHM)
RES , CHIP (22K OHM)
RES , CHIP (22K OHM)
RES , CHIP (22K OHM)

CRJ10DF1002T
CRJ10DJ102T
CRJ10DJ101T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ101T
CRJ10DJ103T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ473T
CRJ10DJ101T
CRJ10DJ0R0T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ0R0T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DJ472T
CRJ10DJ102T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ330T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DF2800T
CRJ10DF1002T
CRJ10DJ301T
CRJ10DJ301T
CRJ10DF3901T
CRJ10DF2200T
CRJ10DF2800T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ472T
CRJ10DJ330T
CRJ10DJ472T
CRJ10DJ472T
CRJ10DJ103T
CRJ10DJ623T
CRJ10DJ623T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ623T
CRJ10DJ103T
CRJ10DJ563T
CRJ10DJ203T
CRJ10DJ512T
CRJ10DJ820T
CRJ10DJ683T
CRJ10DJ683T
CRJ10DJ683T
CRJ10DJ223T
CRJ10DJ223T
CRJ10DJ223T

75

Qty

10K /1/10W/F
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1/10W, 280OHM, 1608, 1%
10K /1/10W/F
1608 SIZE
1608 SIZE
3.9KOHM/1608/1%
1608 SIZE
1/10W, 280OHM, 1608, 1%
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE (62K OHM)
1608 SIZE (62K OHM)
1608 SIZE
1608 SIZE
1608 SIZE (62K OHM)
1608 SIZE
56K
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

Qty

HDMI PCB ASS'Y

COP12179C

R818

CRJ10DJ750T

RES , CHIP (75 OHM)

1608 SIZE

1

EA

CJJ9H008Z
CJJ9H008Z
CJJ9H008Z
CJJ9H008Z
CJJ9H008Z
CLZ9R009Z
CLZ9R009Z
CLZ9R009Z
CLZ9R009Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9R005Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9R005Z
CLZ9R005Z
CLZ9R005Z
CLZ9R005Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9R005Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9R005Z
CLQ13E220MRZ
CLQ13E220MRZ
CLZ9Z014Z
CLZ9R005Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9R005Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9R005Z
CLZ9R005Z
CLZ9R005Z
CLZ9R005Z
CLZ9Z014Z
CLZ9R005Z
CLZ9R005Z
CLZ9R005Z
CLZ9R005Z
CLZ9Z014Z
CLZ9R005Z
CLZ9R005Z
CLZ9Z014Z
CLZ9R005Z
CLZ9R005Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CJP17GA193ZY
CJP26GA226ZB
CLQ13E220MRZ
HOX27000E180S

JACK , HDMI (TYPE-A,SMT-19P)
JACK , HDMI (TYPE-A,SMT-19P)
JACK , HDMI (TYPE-A,SMT-19P)
JACK , HDMI (TYPE-A,SMT-19P)
JACK , HDMI (TYPE-A,SMT-19P)
CHOKE COIL, CHIP ( FOR HDMI )
CHOKE COIL, CHIP ( FOR HDMI )
CHOKE COIL, CHIP ( FOR HDMI )
CHOKE COIL, CHIP ( FOR HDMI )
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
COIL , SMD POWER (22UH/3A)
COIL , SMD POWER (22UH/3A)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
WAFER, CARD CABLE (SMD)
DIP , SOCKET (26PIN, 2.54mm, SMD)
COIL , SMD POWER (22UH/3A)
CRYSTAL , CHIP(27MHZ,SMD)

H050FS019G600BY
H050FS019G600BY
H050FS019G600BY
H050FS019G600BY
H050FS019G600BY

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Miscellaneous
JK901
JK902
JK903
JK904
JK905
L801
L802
L803
L804
L805
L806
L807
L808
L809
L810
L811
L812
L813
L814
L815
L816
L817
L818
L819
L820
L821
L822
L823
L824
L825
L826
L827
L828
L829
L830
L831
L832
L833
L834
L835
L836
L837
L838
L839
L840
L841
L842
L843
L844
L845
L846
L847
L848
L849
L850
L851
L852
L853
L854
L855
L867
BN15
CN55
L868
X901

76

HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB1608KF-600T30
HCB4516KF-600T60
HCB4516KF-600T60
HCB1608KF-600T30
HCB1608KF-600T30
HCB1608KF-600T30
HCB1608KF-600T30
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB1608KF-600T30
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB1608KF-600T30
CMI-SSP12L80F-SERIES
CMI-SSP12L80F-SERIES
HCB4516KF-600T60
HCB1608KF-600T30
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB1608KF-600T30
HCB4516KF-600T60
HCB4516KF-600T60
HCB1608KF-600T30
HCB1608KF-600T30
HCB1608KF-600T30
HCB1608KF-600T30
HCB4516KF-600T60
HCB1608KF-600T30
HCB1608KF-600T30
HCB1608KF-600T30
HCB1608KF-600T30
HCB4516KF-600T60
HCB1608KF-600T30
HCB1608KF-600T30
HCB4516KF-600T60
HCB1608KF-600T30
HCB1608KF-600T30
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60

CMI-SSP12L80F-SERIES
HC-49/US

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

HDMI PCB ASS'Y

COP12179C

X902

X-TAL, CHIP, 19.6608 MHz ( 33P )
HEAT SINK
WIRE ASS'Y (LOCKING TYPE, 2.5MM, 7PIN, 50MM)
WAFER
DIP , SOCKET (16PIN, 2.54mm, ANGLE)
FEMALE HEADER(6P, 2.54mm)

BN82
CN54
CN56
CN57

COX19660E330S
CMY1A297
CWB1D00705058
CJP05GB46ZY
CJP16GB143ZB
CJP06GB143ZB

USB IPOD PCB ASS'Y

Qty

1
1
1
1
1
1

EA
EA
EA
EA
EA
EA

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

COP12169C

Capacitors
C101
C105
C106
C110
C112
C113
C114
C115
C123
C134
C135
C136
C137
C139
C149
C150
C152
C154
C158
C159
C160
C161
C169
C172
C175
C178
C181
C182
C185
C186
C187
C188
C195
C197
C209
C213
C214
C216
C217
C218
C228
C229
C104
C109
C111
C138
C151
C153
C157
C163
C164
C165
C166
C167
C168
C170
C171
C173

CCUS1H104KC
CCUS1H180JA
CCUS1H200JA
CCUS1H104KC
CCUS1H104KC
CCUS1H150JA
CCUS1H150JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H103KC
CCUS1H330JA
CCUS1H270JA
CCUS1H104KC
CCUS1H104KC
CCEC1CRV471T
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H221JA
CCUS1H221JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H330JA
CCUS1H330JA
CCUS1H330JA
CCUS1H330JA
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1A105KC
CCUS1H104KC
CCUS1H330JA
CCUS1H103KC
CCEA1CH101T
CCEA1CH221T
CCEA0JH102T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH471T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1CH470T
CCEA1HH100T
CCEA1CH470T

CAP , CHIP
CAP , CHIP(18PF/50V)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP(15PF/50V)
CAP , CHIP(15PF/50V)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , SMD ELECT
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT

0.1UF 50V K
18PF 50V J
(20PF)
0.1UF 50V K
0.1UF 50V K
15PF 50V J
15PF 50V J
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.01UF 50V K
33PF 50V J
27PF 50V J
0.1UF 50V K
0.1UF 50V K
6V/470, 10X10
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
220PF 50V J
220PF 50V J
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
33PF 50V J
33PF 50V J
33PF 50V J
33PF 50V J
0.022UF 50V K
0.022UF 50V K
0.022UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
1UF 10V K
0.1UF 50V K
33PF 50V J
0.01UF 50V K
100UF 16V
220UF 16V
1000UF 6.3V
100UF 16V
100UF 16V
100UF 16V
470UF 16V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
47UF 16V
10UF 50V
47UF 16V

77

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

Qty

USB IPOD PCB ASS'Y

COP12169C

C174
C176
C177
C179
C189
C190
C196
C198
C215
C225
C226

CCEA1HH100T
CCEA1CH470T
CCEA1HH100T
CCEA1CH470T
CCEA1HH100T
CCEA1HH100T
CCEA1EH221T
CCEA1EH221T
CCEA1CH471T
CCEA1HH4R7T
CCEA1HH4R7T

CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT

10UF 50V
47UF 16V
10UF 50V
47UF 16V
10UF 50V
10UF 50V
220UF 25V
220UF 25V
470UF 16V
4.7UF 50V
4.7UF 50V

1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CVD1SS355T
CVD1SS355T
CVD1SS355T
CVITMP92FD28FG
HVI74HCU04AFNG
CVIKIA1117S33
HVIRH5VT28C
CVIKIA1117S33
CVINJM2505AFTE1
CVINJM2505AFTE1
CVINJM2505AFTE1
HVINJM2581MTE1
CVITL072CDR
HVINJM2068MDTE1
HVI74LCX32TTR
HVTKRC102S
HVTKRC102S
HVTKRC107S
HVTKRA107S
HVTKRA107S
HVTKRA107S
HVTKRC107S
HVTKRA107S
BVIKP1010B
BVIKP1010B
HVIKIA78R05PI
CVITMP86F409NG
CVIKIA7805APIJA
HVIKIA7805API

DIODE , CHIP
DIODE , CHIP
DIODE , CHIP
I.C , USB DECODER FLASH(100PIN, QFP) TOSHIBA
I.C , INVERTER (TOSHIBA)
I.C , REGULATOR(SOT-223)
I.C , RESET (RICOH)
I.C , REGULATOR(SOT-223)
I.C , VIDEO AMP(4.5~9.0V , 200MW , MTP5) JRC
I.C , VIDEO AMP(4.5~9.0V , 200MW , MTP5) JRC
I.C , VIDEO AMP(4.5~9.0V , 200MW , MTP5) JRC
I.C (JRC) 3ch VIDEO AMPLIFIER
I.C , DUAL OP AMP/SOP/8P (TI)
I.C , DUAL OP AMP (JRC)
I.C , OR-GATE (ST)
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
TRANSISTOR, CHIP
TRANSISTOR, CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
IC, PHOTO COUPLER (COSMO)
IC, PHOTO COUPLER (COSMO)
REGULATOR (5V OUTPUT LOW DROP)
I.C , IPOD 8 Bit Microcontroller (TOSHIBA)
I.C HEAT SINK ASS'Y (CMY2A223)
REGULATOR, +5V

1SS355T
1SS355T
1SS355T
TMP92FD28DFG, FLASH
TC74HCU04AFNG(TOSHIBA)
KIA1117S/F33, SOT-223
RH5VT28C
KIA1117S/F33, SOT-223
NJM2505AF-TE1 , JRC
NJM2505AF-TE1 , JRC
NJM2505AF-TE1 , JRC
NJM2581MTE1
TL072CDR
NJM2068MD-TE1
74LCX32
KRC102S
KRC102S
KRC107S
KRA107S
KRA107S
KRA107S
KRC107S
KRA107S
KP1010B
KP1010B
KIA78R05PI
TMP86F409NG
CVIKIA7805API/CMY2A223
7805API (KEC)

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

CRJ10DJ473T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ102T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ222T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ102T
CRJ10DJ4R7T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T

RES , CHIP (47K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (1K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (2.2K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (1K OHM)
RES , CHIP (4.7 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)

1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

Semiconductors
D101
D103
D921
IC204
IC206
IC207
IC208
IC209
IC211
IC212
IC213
IC214
IC216
IC217
IC220
Q101
Q102
Q103
Q104
Q105
Q106
Q107
Q108
IC201
IC202
IC203
IC215
IC223

Resistors
R107
R108
R109
R110
R111
R117
R118
R119
R120
R121
R122
R123
R170
R171
R172
R173
R174
R177
R178
R179
R182
R183
R185

78

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

USB IPOD PCB ASS'Y

COP12169C

R186
R188
R189
R192
R193
R195
R196
R201
R202
R203
R204
R205
R206
R207
R208
R209
R210
R213
R214
R215
R222
R223
R224
R225
R232
R233
R234
R235
R236
R237
R238
R240
R242
R243
R244
R245
R246
R247
R248
R249
R250
R251
R260
R281
R282
R283
R284
R297
R298
R299
R300
R301
R302
R303
R304
R305
R306
R308
R309
R310
R311
R352
R354
R355
R500

RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (2.2K OHM)
RES , CHIP (100K OHM)
RES , CHIP (220 OHM)
RES , CHIP (220 OHM)
RES , CHIP
RES , CHIP
RES , CHIP
RES , CHIP
RES. CHIP (5.1K 1%)
RES. CHIP (5.1K 1%)
RES , CHIP 1%
RES , CHIP 1%
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP 1%
RES , CHIP
RES , CHIP
RES , CHIP (22 OHM)
RES , CHIP (22 OHM)
RES , CHIP (22 OHM)
RES , CHIP (22 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (O OHM)
RES , CHIP (47K OHM)
RES , CHIP (2.2K OHM)
RES , CHIP (2.2K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (47K OHM)
RES , CHIP (220 OHM)
RES , CHIP (220 OHM)
RES , CHIP (47K OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP 1%
RES , CHIP (O OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (75 OHM)
RES , CHIP (47K OHM)
RES , CHIP 1%
RES , CHIP (47K OHM)
RES , CHIP (220 OHM)
RES , CHIP (1K OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (4.7 OHM)

CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ222T
CRJ10DJ104T
CRJ10DJ221T
CRJ10DJ221T
CRJ10DF4992T
CRJ10DF4992T
CRJ10DF4992T
CRJ10DF4992T
CRJ10DF5101T
CRJ10DF5101T
CRJ10DF1002T
CRJ10DF1002T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DF1001T
CRJ10DF4992T
CRJ10DF4992T
CRJ10DJ220T
CRJ10DJ220T
CRJ10DJ220T
CRJ10DJ220T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ0R0T
CRJ10DJ473T
CRJ10DJ222T
CRJ10DJ222T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ473T
CRJ10DJ221T
CRJ10DJ221T
CRJ10DJ473T
CRJ10DJ101T
CRJ10DJ103T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DF1001T
CRJ10DJ0R0T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ473T
CRJ10DF1001T
CRJ10DJ473T
CRJ10DJ221T
CRJ10DJ102T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ4R7T

Qty

1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
(49.9K, 1608, 1%)
(49.9K, 1608, 1%)
(49.9K, 1608, 1%)
(49.9K, 1608, 1%)
1608 SIZE
1608 SIZE
10K /1/10W/F
10K /1/10W/F
1608 SIZE
1608 SIZE
1K/1/10W/F
(49.9K, 1608, 1%)
(49.9K, 1608, 1%)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1K/1/10W/F
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1K/1/10W/F
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE

79

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

harman/kardon

AVR2600
Ref. Designator

Description

Part Number

USB IPOD PCB ASS'Y

Qty

COP12169C

Miscellaneous
L101
L102
L105
L106
BK11
BK12
BN50
BN55
CN51
CN58
CN81

JK12
JK13
JK14
JK16
JK17
X101
X103
X104

CLZ9R001Z
CLZ9Z014Z
CLZ9R001Z
CLZ9R001Z
CMD1A569
CMD1A569
CJP05GA19ZY
CJP26GA240ZB
CJP07GA01ZY
CJP07GA01ZY
CJP44GA241ZB
CMY2A223
CTB3+8JR
CJJ2D008Z
CJJ2D008Z
CJJ2D008Z
CJJ9N007Z
CJJ9L016Z
COX09000E150C
HOX12000E200C
HOX00032K120I

FERRITE , CHIP BEAD(60ohm, 2012)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 2012)
FERRITE , CHIP BEAD(60ohm, 2012)
BRACKET , PCB
BRACKET , PCB
WAFER , STRAIGHT
PIN HEADER (26P, 2.54mm), STRAIGHT TYPE
WAFER , STRAIGHT(7PIN)
WAFER , STRAIGHT(7PIN)
FEMALE HEADER (44P,2.54mm) , DIP/STRAIGHT
HEAT SINK
SCREW
JACK , STEREO
JACK , STEREO
JACK , STEREO
JACK , DIN SOCKET(8P)
JACK , IPOD CONNECTOR (36PIN)
CRYSTAL(9MHZ)
12MHz CRYSTAL
CRYSTAL , 32.768KHZ

TUN1

CNVMW004MV1S63SATUNER(USA) FM(SCREW : F TYPE), AM(S/LABKST-MW004MV1-S63SA

80

HCB2012KF-600T40
HCB4516KF-600T60
HCB2012KF-600T40
HCB2012KF-600T40

DIN-801
SCSI36P

TUNING FORK

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA

1

EA

harman/kardon

AVR2600

NJM2581
DUAL SUPPLY WIDE BAND 3ch VIDEO AMPLIFIER

■ GENERAL DESCRIPTION
The NJM2581 is a dual supply voltage wide band 3ch
video amplifier. It is suitable for Y, Pb, and Pr signal because
frequency range is 50MHz.
The NJM2581 is suitable for Set Top Box, AV amplifier,
and other high quality AV systems.

■ PACKAGE OUTLINE

NJM2581D
■ 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

75Ω
Driver

6dB
AMP

BIAS
VEE1

2

13

VOUT1

VIN2

3

12

V+ 2

75Ω
Driver

6dB
AMP

BIAS
VEE2

4

11

VOUT2

VIN3

5

10

V+ 3

75Ω
Driver

6dB
AMP

BIAS
VEE3

6

PowerSave

7

REF

Ver.7

81

9

VOUT3

8

GND

NJM2581M

harman/kardon

AVR2600

NJM2581
■ EQUIVALENT CIRCUIT
PIN No.
PIN NAME

FUNCTION

INSIDE EQUIVALENT CIRCUIT
V+

1
3
5

VIN1
VIN2
VIN3

Input

VIN1
VIN2
VIN3

100Ω
20KΩ
V-

V+

13
11
9

VOUT1
VOUT2
VOUT3

Output

V+

VOUT1
VOUT2
VOUT3

5.5KΩ

V-

V-

PowerSave
30KΩ

7

PowerSave

Power Save

50KΩ
V-

+

14
12
10

V1
+
V2
+
V3

V+

2
4
6

VEE1
VEE2
VEE3

V-

8

GND

GND

Ver.7

82

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AVR2600

83

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AVR2600

TMP92FD28

(3) Internal memory
x

Internal RAM: 32-Kbytes

x

Internal ROM: 512-Kbytes

(4) External memory expansion
x

Expandable up to 16 Mbytes (Shared program/data area)

x

Can simultaneously support 8- or 16-bit width external data bus
㨯㨯㨯Dynamic data bus sizing

x

Separate bus system

(5) Memory controller
x

Chip select output: 3 channels

(6) 8-bit timers: 6 channels
(7) 16-bit timers: 2 channels
(8) General-purpose serial interface: 2 channels
x

UART/synchronous mode: 2 channels (channel 0 , and 1)

x

IrDA ver.1.0 (115 kbps) mode selectable: 2 channels (channel 0 and 1)

(9) Serial bus interface: 2 channels
x

2
I C bus mode

x

Clock synchronous mode (only channel 1)

(10) SPI controller : 1 channel
x Supported up to SPI mode of SD card and MMC card
x Built-in FIFO buffer of 32 bytes to each Input/Output
(11) High Speed serial interface : 1 channel
x Built-in FIFO buffer of 32 bytes to each Input/Output
(12) USB Host Controller : 1chanel
x Universal Serial Bus Specification Rev2.0
x Open HCI for USB Release 1.0a
x 12Mbps – Full speed support. (Isochronous Transfer is not supported.)
(13) Watchdog timer
(14) Timer for real-time clock (RTC)
(15) Key-on wake up (only for HALT release):4 channels
(16) Program patch logic: 8 banks
(17) Interrupts: 47interrupts
x

9 CPU interrupts: Software interrupt instruction and illegal instruction

x

34 internal interrupts: Seven selectable priority levels

x

4 external interrupts (INT0 to INT3): Seven selectable priority levels
(INT0 to INT3 selectable edge or level interrupt)

(18) Input/output ports: 70pins
(19) Standby function
x

Three HALT modes: IDLE2 (Programmable), IDLE1, STOP

x

Power cut mode (Built-in power supply management circuits (PMC) for leak current
provision.)

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AVR2600

TMP92FD28

(20) Clock controller
x Built-in two blocks of clock doubler (PLL). PLL supplies 48 MHz for USB and 36 MHz for CPU
from 9MHz
x

Clock gear function: Select high-frequency clock fc to fc/16

x

Special timer for CLOCK (fs = 32.768 kHz)

(21) Operating voltage
x

External I/O Vcc = 3.0 to 3.6 V

x

Internal VCC

1.4 V to 1.6 V (fc max = 40 MHz)

(22) Package
x

100-pin QFP: P-LQFP100-1414-0.50F (TMP92FD28FG)
P-QFP100-1420-0.65A (TMP92FD28DFG)

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AVR2600

TMP92FD28

DVCC3A[5]
DVCC3B[1]

DVCC1A[1]
DVCC1B[1]

TLCS-900/H1

DVSS[8]

(PG0)/KI0
(PG1)/KI1
(PG2)/KI2
(PG3)/KI3

(PN1)/SDA0/TA3OUT
(PN2)/SCL0/TA2IN/SI0
(PN3)HSCLK/SCK1
(PN4)SDA1/HSSO/SO1
(PN5)SCL1/HSSI/SI1

PortG

W
B
D
H

X
W
A
XB
C
XD
E
XH
L

Key-on
Wake up

A
C
E
L

Regulator

IX
IY
IZ
SP
32bit
SR

Mode
Controller

F

P C

PortN

Serial Bus I/F
(Ch.0)

Watchdog
Timer

Serial Bus I/F
(Ch.1)

Real Time

H-OSC

PortF

L-OSC

Clock

512-KB ROM

Serial I/O
(Ch.1)

Program
patch logic

SPIC

8-Banks

D0 to D7(P00 to P07)

Port1

D8 to D15(P10 to P17)

Port4

A0 to A7(P40 to P47)

Port5

A8 to A15(P50 to P57)

Port6

A16 to A23(P60 to P67)

USB

Port7
Interrupt
Controller

Memory
Controller
(4-Blocks)

Port8

16-BitTimer
(TMRB0)

8-Bit Timer(TMRA0)

16-Bit Timer
(TMRB1)

8-Bit Timer(TMRA2)

XT2
XT1

Port0

PortC
(PC0)INT0
(PC1)INT1
(PC2)INT2/TB1IN0/TB0IN0
(PC3)INT3

X
X2

Clock Gear

HSIO

Serial I/O
(Ch.0)

RESET

AM0
AM1

PLL

32-KB RAM
(PF0)TXD0
(PF1)RXD0
(PF2)SCLK0/ CTS0 /CLK
/TB0OUT0
(PF3)TXD1/SPDO
(PF4)RXD1/SPDI
(PF5)SCLK1/ CTS1 /SPCLK

RVIN [2]
RVOUT[2]

D
D-

X1USB(P77)
USBPON(P76)
/USBOC(P75)
TA0IN/(P74)
SRLUB (P73)
SRLLB (P72)
SRWR (P71)
RD (P70)
CS0 /TA1OUT(P80)
CS2 (P82)
CS3 / WAIT /TA5OUT(P83)

8-Bit Timer(TMRA1)

8-Bit Timer(TMRA3)
8-Bit Timer(TMRA4)

PMC

8-Bit Timer(TMRA5)

PWE

( ): Initial function after reset

Figure 1.1 TMP92FD28 Block Diagram

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AVR2600

TMP92FD28

2. Pin Assignment and Functions
The assignment of input/output pins for the TMP92FD28, their names and functions are as
follows:

2.1 Pin Assignment Diagram

80

85

90

95

75

5
70

10

TMP92FD28FG

65

LQFP100
TOPVIEW

15

60

20

50

45

40

25

35

55

30

XT2
PWE
DVSS
DVCC1B
RVOUT1
RVIN
RVIN
RVOUT2
DVCC1A
DVSS
P00/D0
P01/D1
P02/D2
P03/D3
P04/D4
P05/D5
P06/D6
P07/D7

1

X1
DVSS
X2
AM1
P83/CS3/WAIT/TA5OUT
P82/CS2
P80/CS0/TA1OUT/BOOT
P74/TA0IN
P73/SRLUB
P72/SRLLB
P71/SRWR
P70/RD
DVCC3A
DVSS
P67/A23
P66/A22
P65/A21
P64/A20
P63/A19
P62/A18
P61/A17
P60/A16
P57/A15
P56/A14
P55/A13

DVSS
DVCC3A
P10/D8
P11/D9
P12/D10
P13/D11
P14/D12
P15/D13
P16/D14
P17/D15
P40/A0
P41/A1
P42/A2
P43/A3
P44/A4
P45A5
P46/A6
P47/A7
DVSS
DVCC3A
P50/A8
P51/A9
P52/A10
P53/A11
P54/A12

/RESET
PC0/INT0
PC1/INT1
PC2/INT2/TB1IN0/TB0IN0
PC3/INT3
DVCC3B
XT1

100

DVSS
PG0
PG1
PG2
PG3
DVCC3A
PN5/HSSI/SCL1/SI1
PN4/HSSO/SDA1/SO1
PN3/HSCLK/SCK1
PN2/SCL0/TA2IN
PN1/SDA0/TA3OUT
PF5/SCLK1/CTS1/SPCLK
PF4/RXD1/SPDI
PF3/TXD1/SPDO
PF2/SCLK0/CTS0/CLK/TB0OUT0
PF1/RXD0
PF0/TXD0/
DVSS
P77/X1USB
AM0
DD+
P76/USBPON
P75/USBOC
DVCC3A

Figure 2.1.1 shows the pin assignment of the TMP92FD28FG.

Figure 2.1.1 Pin Assignment Diagram (100-pin LQFP)

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AVR2600

TMP92FD28

2.2 Pin Names and Functions
The following table shows the names and functions of the input/output pins.
Table 2.2.1 Pin Names and Functions (1/3)
Pin name
P00 to P07

Number
of Pin
8

D0 to D7
P10 to P17

8

D8 to D15
P40 to P47

8

A0 to A7
P50 to P57

8

A16 to A23
P70

1

1
1
1
1

I/O
I/O

I/O
I/O
I/O
I/O
I/O
Input

1

USBPON
P77

I/O

Input
1

USBOC
P76

Port 4: I/O port Input or output specifiable in units of bits

Output

TA0IN
P75

I/O

Output

SRLUB
P74

Data: Data bus 8 to 15

Output

SRLLB
P73

Port 1: I/O port Input or output specifiable in units of bits

I/O

Output

SRWR
P72

Data: Data bus 0 to 7

I/O

Output

RD
P71

Port 0: I/O port Input or output specifiable in units of bits

I/O

Output
8

1

X1USB

I/O

Address: Address bus 0 to 7
Port 5: I/O port Input or output specifiable in units of bits
Address: Address bus 8 to 15
Port 6: I/O port Input or output specifiable in units of bits
Address: Address bus 16 to 23
Port 70: I/O port (Schmitt input, with pull-up register)
Read: Outputs strobe signal for read external memory.

Port 71: I/O port (Schmitt input, with pull-up register)
Write enable for SRAM: Strobe signal for wiritng data.
Port 72: I/O port (Schmitt input, with pull-up register)
Data enable for SRAM on pins D0 to D7
Port 73: I/O port (Schmitt input, with pull-up register)
Data enable for SRAM on pins D8 to D15
Port 74: Input port (Schmitt input)
8-bit timer 0 input: Input pin of 8-bit timer TMRA0
Port 75: I/O port (Schmitt input)
USBOC Input
Port 76: I/O port (Schmitt input)

Output

USBPON Output

I/O

Port 77: I/O port

Input

48MHz Clock Input for USB Host Controller

Output

Port 80: Output port

CS0

Output

Chip select 0: Outputs “Low” when address is within specified address area

TA1OUT

Output

8-bit timer 1 Output: Output pin of 8-bit timer TMRA0 or TMRA1

P80

1

Function

I/O

Output

A8 to A15
P60 to P67

I/O

Input

BOOT
1

This pin sets single boot mode (only during reset).

Output

Port 82: Output port

Output

Chip select 2: Outputs “Low” when address is within specified address area

1

I/O
Output
Output
Input

Port 83: I/O port
Chip select 3: Outputs “Low” when address is within specified address area
8-bit timer 5 Output: Output pin of 8-bit timer TMRA4 or TMRA5
Wait: Signal used to request CPU bus wait

PC0
INT0

1

Input
Input

Port C0: Input port (Schmitt input)
Interrupt request pin0 : Interrupt request pin with programmable level/rising/falling edge

PC1
INT1

1

Input
Input

Port C1: Input port (Schmitt input)
Interrupt request pin 1 : Interrupt request pin with programmable level/rising/falling edge

PC2
INT2
TB0IN0
TB1IN0

1

Input
Input
Input
Input

Port C2: Input port (Schmitt input)
Interrupt request pin 2 : Interrupt request pin with programmable level/rising/falling edge
16-bit timer 0 input 0: Input of count/capture trigger in 16-bit timer TMRB0
16-bit timer 1 input 0: Input of count/capture trigger in 16-bit timer TMRB1

PC3
INT3

1

Input
Input

Port C3: Input port (Schmitt input)
Interrupt request pin 3 : Interrupt request pin with programmable level/rising/falling edge

P82
CS2
P83
CS3
TA5OUT

WAIT

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TMP92FD28
Table 2.2.1 Pin Names and Functions (2/3)
Pin name

Number
of Pin

I/O

Function

PF0
TXD0

1

I/O
Output

PF1
RXD0

1

I/O
Input

PF2
SCLK0

1

I/O
I/O
Input
Output
Output

Port F2: I/O port (Schmitt input)
Serial 0 clock I/O
Serial 0 data send enable (Clear to send)
Clock: System Clock output
16-bit timer 0 output 0: Output pin of 16-bit timer TMRB0

PF3
TXD1
SPDO

1

I/O
Output
Output

Port F3: I/O port (Schmitt input)
Serial 1 send data: Open drain output programmable
SPI Data output

PF4
RXD1
SPDI

1

I/O
Input
Input

PF5
SCLK1

1

I/O
I/O
Input
Output

PG0 to PG3
KI0 to KI3

4

Input
Input

PN1
SDA0
TA3OUT

1

I/O
I/O
Output

PN2
SCL0
TA2IN

1

I/O
I/O
Input

PN3
SCK1
HSCLK

1

I/O
I/O
Output

Port N3: I/O port (Schmitt input)
Serial bus interface 1 clock I/O data at SIO mode
HSIO Clock output

PN4
SDA1
SO1
HSSO

1

I/O
I/O
Output
Output

Port N4: I/O port (Schmitt input, Open drain output)
2
Serial bus interface 1 send/receive data at I C mode
Serial bus interface 1 send data at SIO mode
HSIO Data output

PN5
SCL1
SI1
HSSI

1

I/O
I/O
Input
Input

Port N5: I/O port (Schmitt input, Open drain output)
2
Serial bus interface 1 clock I/O data at I C mode
Serial bus interface 1 receive data at SIO mode
HSIO Data input

CTS0
CLK
TB0OUT0

CTS1
SPCLK

Port F0: I/O port (Schmitt input)
Serial 0 send data: Open drain output programmable
Port F1: I/O port (Schmitt input)
Serial 0 receive data

Port F4: I/O port (Schmitt input)
Serial 1 receive data
SPI Data input
Port F5: I/O port (Schmitt input)
Serial 1 clock I/O
Serial 1 data send enable (Clear to send)
SPI Clock output
Port G: Input port (Schmitt input)
Key input 0 to 3: Pin used of key-on wakeup 0 to 3
Port N1: I/O port (Schmitt input, Open drain output)
2
Serial bus interface 0 send/receive data at I C mode
8-bit timer 3 Output: Output pin of 8-bit timer TMRA2 or TMRA3
Port N2: I/O port (Schmitt input, Open drain output)
2
Serial bus interface 0 clock I/O data at I C mode
8-bit timer 2 input: Input pin of 8-bit timer TMRA2

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TMP92FD28
Table 2.2.1 Pin Names and Functions (3/3)
Pin name

Number

I/O

Function

of Pin
X1 / X2

2

I/O

XT1 / XT2

2

I/O

AM0, AM1

2

Input

Operation mode:
Fixed to AM1 “1” and AM0

RESET

1

Input

Reset: Intializes TMP92FD28 (Schmitt input, with pull-up register)

PWE

1

Output

D+, D-

2

I/O

RVIN

2

Input

RVOUT1,
RVOUT2

2

Output

DVCC3A

5

DVCC3B

1

DVCC1A

1

DVCC1B

1

DVSS

8

í
í
í
í
í

Note1)

High-frequency oscillator connection I/O pins
Low-frequency oscillator circuit connection pin.
“1”

External power supply control output: Pin to control ON/OFF of external power supply. In
stand-by mode, outputs “L” level. In other than stand-by mode, outputs “H” level.
Data pin connected to USB.
In case USB is not used, connect both pins to pull-up(DVCC3A) or pull-down resistor for
protect current flows it.
Power supply pin for Internal Regulator
1.5V output from Internal Regulator (Only Mask ROM Version)
Power supply pin for peripheral I/O-A (Connect all DVCC3A pins to power supply pin.)
Power supply pin for peripheral I/O-B (Connect all DVCC3B pins to power supply pin.)
Power supply pin for internal logic-A. (Only Mask ROM Version)
Power supply pin for internal logic-B. (Only Mask ROM Version)
GND pins (0 V) (All DVSS pins shold be connected with GND(0V))

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

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AVR2600

TMP86F409NG

CMOS 8-Bit Microcontroller

TMP86F409NG
Product No.

ROM
(FLASH)

RAM

Package

Emulation Chip

TMP86F409NG

4096
bytes

512
bytes

SDIP32-P-400-1.78

TMP86C909/987XB

1.1 Features
1. 8-bit single chip microcomputer TLCS-870/C series
- Instruction execution time :
0.25 µs (at 16 MHz)
122 µs (at 32.768 kHz)
- 132 types & 731 basic instructions
2. 17interrupt sources (External : 5 Internal : 12)
3. Input / Output ports (26 pins)
Large current output: 8pins (Typ. 20mA), LED direct drive
4. Prescaler
- Time base timer
- Divider output function
5. Watchdog Timer
6. 16-bit timer counter: 1 ch
- Timer, External trigger, Window, Pulse width measurement,
Event counter, Programmable pulse generate (PPG) modes
7. 8-bit timer counter : 2 ch
- Timer, Event counter, Programmable divider output (PDO),
Pulse width modulation (PWM) output,
Programmable pulse generation (PPG) modes
8. 8-bit UART : 1 ch
This product uses the Super Flash technology under the licence of Silicon Storage Technology, Inc. Super Flash is registered trademark of Silicon
Storage Technology, Inc.

060116EBP

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1.1 Features

TMP86F409NG

9. 8bit Serial Expansion Interface (SEI): 1 channel
(MSB/LSB selectable and max. 4Mbps at 16MHz)
10. 10-bit successive approximation type AD converter
- Analog input: 6 ch
11. Key-on wakeup : 4 channels
12. Clock operation
Single clock mode
Dual clock mode
13. Low power consumption operation
STOP mode: Oscillation stops. (Battery/Capacitor back-up.)
SLOW1 mode: Low power consumption operation using low-frequency clock.(High-frequency clock
stop.)
SLOW2 mode: Low power consumption operation using low-frequency clock.(High-frequency clock
oscillate.)
IDLE0 mode: CPU stops, and only the Time-Based-Timer(TBT) on peripherals operate using high frequency clock. Release by falling edge of the source clock which is set by TBTCR.
IDLE1 mode: CPU stops and peripherals operate using high frequency clock. Release by interruputs(CPU restarts).
IDLE2 mode: CPU stops and peripherals operate using high and low frequency clock. Release by interruputs. (CPU restarts).
SLEEP0 mode: CPU stops, and only the Time-Based-Timer(TBT) on peripherals operate using low frequency clock.Release by falling edge of the source clock which is set by TBTCR.
SLEEP1 mode: CPU stops, and peripherals operate using low frequency clock. Release by interruput.(CPU restarts).
SLEEP2 mode: CPU stops and peripherals operate using high and low frequency clock.
interruput.
14. Wide operation voltage:
4.5 V to 5.5 V at 16MHz /32.768 kHz
2.7 V to 5.5 V at 8 MHz /32.768 kHz

92

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AVR2600

TMP86F409NG

1.2 Pin Assignment

VSS
XIN
XOUT
TEST
VDD
(XTIN) P21
(XTOUT) P22
RESET

(STOP/INT5) P20
(TXD) P00
(RXD) P01
(SCLK) P02
(MOSI) P03
(MISO) P04
P14
P16

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

P37 (AIN5/STOP5)
P36 (AIN4/STOP4)
P35 (AIN3/STOP3)
P34 (AIN2/STOP2)
P33 (AIN1)
P32 (AIN0)
P31 (TC4/PDO4/PWM4/PPG4)
P30 (TC3/PDO3/PWM3)
P12 (DVO)
P11 (INT1)
P10 (INT0)
P07 (TC1/INT4)
P06 (INT3/PPG)
P05 (SS)
P13
P15

Figure 1-1 Pin Assignment

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AVR2600
1.3 Block Diagram

TMP86F409NG

1.3 Block Diagram

Figure 1-2 Block Diagram

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TMP86F409NG

1.4 Pin Names and Functions
The TMP86F409NG has MCU mode, parallel PROM mode, and serial PROM mode. Table 1-1 shows the pin
functions in MCU mode. The serial PROM mode is explained later in a separate chapter.
Table 1-1 Pin Names and Functions(1/2)
Pin Name
P07
TC1
INT4

Pin Number

Input/Output

Functions

21

IO
I
I

PORT07
TC1 input
External interrupt 4 input

20

IO
I
O

PORT06
External interrupt 3 input
PPG output

19

IO
I

PORT05
SEI master/slave select input

P04
MISO

14

IO
IO

PORT04
SEI master input, slave output

P03
MOSI

13

IO
IO

PORT03
SEI master input, slave output

P02
SCLK

12

IO
IO

PORT02
SEI serial clock input/output pin

P01
RXD

11

IO
I

PORT01
UART data input

P00
TXD

10

IO
O

PORT00
UART data output

P16

16

IO

PORT16

P15

17

IO

PORT15

P14

15

IO

PORT14

P13

18

IO

PORT13

24

IO
O

PORT12
Divider Output

23

IO
I

PORT11
External interrupt 1 input

22

IO
I

PORT10
External interrupt 0 input

P22
XTOUT

7

IO
O

PORT22
Resonator connecting pins(32.768kHz) for inputting external
clock

P21
XTIN

6

IO
I

PORT21
Resonator connecting pins(32.768kHz) for inputting external
clock

9

IO
I
I

PORT20
External interrupt 5 input
STOP mode release signal input

P37
AIN5
STOP5

32

IO
I
I

PORT37
Analog Input5
STOP5

P36
AIN4
STOP4

31

IO
I
I

PORT36
Analog Input4
STOP4

P06
INT3
PPG

P05
SS

P12
DVO

P11
INT1
P10
INT0

P20
INT5
STOP

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AVR2600
1.4 Pin Names and Functions

TMP86F409NG

Table 1-1 Pin Names and Functions(2/2)
Pin Name

Pin Number

Input/Output

Functions

P35
AIN3
STOP3

30

IO
I
I

PORT35
Analog Input3
STOP3

P34
AIN2
STOP2

29

IO
I
I

PORT34
Analog Input2
STOP2

P33
AIN1

28

IO
I

PORT33
Analog Input1

P32
AIN0

27

IO
I

PORT32
Analog Input0

26

IO
I
O

PORT31
TC4 input
PDO4/PWM4/PPG4 output

25

IO
I
O

PORT30
TC3 input
PDO3/PWM3 output

XIN

2

I

Resonator connecting pins for high-frequency clock

XOUT

3

O

Resonator connecting pins for high-frequency clock

RESET

8

I

Reset signal

TEST

4

I

Test pin for out-going test. Normally, be fixed to low.

VDD

5

I

+5V

VSS

1

I

0(GND)

P31
TC4
PDO4/PWM4/PPG4

P30
TC3
PDO3/PWM3

96

harman/kardon

AVR2600

TL072
TL072A - TL072B



LOW NOISE J-FET DUAL OPERATIONAL AMPLIFIERS

.
..
..
..
..

WIDE COMMON-MODE (UP TO VCC+) AND
DIFFERENTIAL VOLTAGE RANGE
LOW INPUT BIAS AND OFFSET CURRENT
LOW NOISE en = 15nV/√Hz (typ)
OUTPUT SHORT-CIRCUIT PROTECTION
HIGH INPUT IMPEDANCE J–FET INPUT
STAGE
LOW HARMONIC DISTORTION : 0.01% (typ)
INTERNAL FREQUENCY COMPENSATION
LATCH UP FREE OPERATION
HIGH SLEW RATE : 16V/µs (typ)

D
SO8
(Plastic Micropackage)

N
DIP8
(Plastic Package)

DESCRIPTION
The TL072, TL072A and TL072B are high speed
J–FET input dual operational amplifiers incorporating
well matched, high voltage J–FET and bipolar transistors in a monolithic integrated circuit.
The devices featurehigh slewrates, low input bias and
offset current, and low offset voltage temperature
coefficient.

ORDER CODES
Package

Part Number

Temperature
Range

N

D

TL072M/AM/BM

–55oC, +125oC

•

•

TL072I/AI/BI

–40 C, +105 C

o

•

•

0 C, +70 C

•

•

TL072C/AC/BC

o

o

o

Example : TL072CN

PIN CONNECTIONS (top view)

1

8

2

-

3

+

4

7
-

6

+

5

1
2
3
4
5
6
7
8

-

Output 1
Inverting input 1
Non-inverting input 1
VCC
Non-inverting input 2
Inverting input 2
Output 2
+
VCC

1/9

December 1998

97

harman/kardon

AVR2600

TC7MZ4051,4052,4053FK
TOSHIBA CMOS Digital Integrated Circuit Silicon Monolithic

TC7MZ4051FK,TC7MZ4052FK,TC7MZ4053FK
TC7MZ4051FK 8-Channel Analog Multiplexer/Demultiplexer
TC7MZ4052FK Dual 4-Channel Analog Multiplexer/Demultiplexer
TC7MZ4053FK Triple 2-Channel Analog
Multiplexer/Demultiplexer
The TC7MZ4051/4052/4053FK are high-speed, low-voltage
drive analog multiplexer/demultiplexers using silicon gate CMOS
technology. In 3 V and 5 V systems these can achieve high-speed
operation with the low power dissipation that is a feature of
CMOS.
The TC7MZ4051/4052/4053FK offer analog/digital signal
selection as well as mixed signals. The 4051 has an 8-channel
configuration, the 4052 has an 4-channel × 2 configuration, and
Weight: 0.02 g (typ.)
the 4053 has a 2-channel × 3 configuration.
The switches for each channel are turned ON by the control pin
digital signals.
Although the control signal logical amplitude (VCC − GND) is small, the device can perform large-amplitude
(VCC − VEE) signal switching.
For example, if VCC = 3 V, GND = 0 V, and VEE = −3 V, signals between −3 V and +3 V can be switched from the
logical circuit using a single 3 V power supply.
All input pins are equipped with a newly developed input protection circuit that avoids the need for a diode on
the plus side (forward side from the input to the VCC). As a result, for example, 5 V signals can be permitted on the
inputs even when the power supply voltage to the circuits is off. As a result of this input power protection, the
TC7MZ4051/4052/4053FK can be used in a variety of applications, including in the system which has two power
supplies, and in battery backup circuits.

Features
·

Low ON resistance: Ron = 22 Ω (typ.) (VCC − VEE = 3 V)
Ron = 15 Ω (typ.) (VCC − VEE = 6 V)

·

High speed: tpd = 3 ns (typ.) (VCC = 3.0 V)

·

Low power dissipation: ICC = 4 µA (max) (Ta = 25°C)

·

Input level: VIL = 0.8 V (max) (VCC = 3 V)
VIH = 2.0 V (min) (VCC = 3 V)

·

Power down protection is provided on all control inputs

·

Pin and function compatible with 74HC4051/4052/4053

98

harman/kardon

AVR2600

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

C

GND 8

GND 8

9

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

L

L

0

0X, 0Y

0X, 0Y, 0Z

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

X: Don't care, *: Except MZ4052FK

99

harman/kardon

AVR2600

TC7MZ4051,4052,4053FK
System Diagram
TC7MZ4051FK
COM
OUT

C

IN

0
1

Logic Level Converter

A

B

2
3
4
5

C

6
OUT

INH

C

IN

7

TC7MZ4052FK
X-COM
OUT

C

IN

0X
1X

Logic Level Converter

A

B

2X
3X
0Y
1Y
2Y

INH

OUT

C

IN

3Y
Y-COM

TC7MZ4053FK
Y-COM
X-COM

A

C

IN

Logic Level Converter

OUT

B

C

1X
0Y
1Y
0Z
OUT

INH

100

0X

C

IN

1Z
Z-COM

harman/kardon

AVR2600

101

harman/kardon

AVR2600

Data Sheet

SiI9135/9135A HDMI Receiver with
Enhanced Audio and Deep Color Outputs
Data Sheet

Document # SiI-DS-0206-F

102

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AVR2600

SiI9135/9135A HDMI Receiver with Enhanced Audio and Deep Color Outputs
Data Sheet

Features

Introduction
The SiI9135/9135A HDMI Receiver with Enhanced
Audio and Deep Color Outputs is a secondgeneration High Definition Multimedia Interface
(HDMI) v1.3 receiver. It is software-compatible with
the SiI9133 receiver, but adds audio support for
DTS-HD and Dolby TrueHD. Digital televisions that
can display 10- or 12-bit color depth can now
provide the highest quality protected digital audio
and video over a single cable. The SiI9135 and
SiI9135A devices, which are functionally identical,
can receive deep color video up to 12-bit, 1080p @
60 Hz. Backward compatibility with the DVI 1.0
specification allows HDMI systems to connect to
existing DVI 1.0 hosts, such as HD set-top boxes and
PCs. The specialized audio and video processing
contained in the receiver can add HDMI capability to
earlier-generation consumer electronics. Efficient
color space conversion receives RGB video data and
delivers either standard-definition or high-definition
YCbCr formats.

•

Dual-Input HDMI 1.3a, HDCP 1.3, and DVI 1.0
compliant receiver.

•

Integrated Transition Minimized Differential
Signaling® (TMDS®) core running at 25–225 MHz.
Flexible support for many different standard- and
high-definition video formats.
All high-end audio formats supported.

•
•
•

Integrated HDCP decryption engine for receiving
protected audio and video content includes preprogrammed keys.

•

Software compatible with SiI9033 and SiI9133
receivers, with additional register programming
required for deep color, DTS-HD and Dolby TrueHD
support

•

Flexible power management

•

20 mm x 20 mm 144-pin TQFP package with ePad™

Figure 1. Functional Block Diagram

103

harman/kardon

AVR2600

SiI9135/9135A HDMI Receiver with Enhanced Audio and Deep Color Outputs
Data Sheet

Silicon Image, Inc.

Overview
The SiI9135/9135A receiver can send and receive up to eight channels of uncompressed digital audio at 192 kHz and 2channel digital audio up to 192 kHz. Compressed streams are also supported through either the S/PDIF port or over I2S
for DTS-HD and Dolby TrueHD. An industry-standard I2S port allows direct connection to low-cost audio DACs at up
to 192 kHz. An S/PDIF port supports up to 192 kHz audio. The device supports Super Audio Compact Disc (SACD) and
provides Direct Stream Digital (DSD) ports that support 44.1- and 88.2-kHz one-bit audio. Audio down-sampling allows
the receiver to share the audio bus with a high-sample-rate audio DAC while down-sampling audio for an attached
display that supports only lower rates.
The chip comes pre-programmed with High-bandwidth Digital Content Protection (HDCP) keys. This set of keys
simplifies the manufacturing process and lowers costs while providing the highest level of HDCP key security.
Silicon Image HDMI receivers use the latest generation of TMDS core technology. These cores pass all HDMI
compliance tests.
Unless otherwise specified, all mentions of the SiI9135 receiver in this datasheet also refer to the SiI9135A receiver.

Additional Features
The digital video interface supports the following video formats:
•
•
•
•
•
•
•

36-bit RGB / YCbCr 4:4:4
16/20/24-bit YCbCr 4:2:2
8/10/12-bit YCbCr 4:2:2 (ITU BT.656)
12/15/18-bit Digital Multimedia Output (DMO) RGB/YCbCr 4:4:4 (clocked with rising and falling edges)
Color Space Conversion for both RGB-to-YCbCr and YCbCr-to-RGB (both 601 and 709)
True 12-bit accurate data using 14-bit processing
Auto video mode configuration simplifies system firmware design

The digital audio interface supports the following high-end audio formats:
•
•
•
•
•
•

DTS-HD and Dolby TrueHD high bit rate audio support
Four I2S inputs accept Dolby Digital, DVD-Audio input (2-channel 192 kHz and 8-channel 192 kHz)
S/PDIF input supports PCM, Dolby Digital, DTS digital audio transmission (32–192 kHz Fs sample rate)
IEC60958 or IEC61937 compatible
Flexible, programmable I2S channel mapping
2:1 and 4:1 down-sampling to handle 96 kHz and 192 kHz audio streams.

The HDCP decryption provides the following features:
•
•
•

Pre-programmed HDCP keys provide the highest level of key security, simplify manufacturing, and lower cost
Full support for HDCP repeaters (up to 16 attached downstream devices)
HDCP Built-In Self Test (BIST)

104

harman/kardon

AVR2600

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.

Figure 2. Pin Diagram
Individual pin functions are described beginning on page 32.
105

harman/kardon

AVR2600

SiI9135/9135A HDMI Receiver with Enhanced Audio and Deep Color Outputs
Data Sheet

Silicon Image, Inc.

System Applications

HDMI Connector Port 1

HDMI Connector Port 0

The SiI9135 receiver is designed for AV receivers that require support for HDMI Deep Color and the latest audio
technologies: DTS-HD and Dolby TrueHD. The receiver supports the HDMI 1.3a specification and allows receipt of
10/12-bit color depth up to 1080p resolutions. A single device provides two HDMI input ports. The video output goes to
a video processor or HDMI transmitter. Besides DTS-HD and Dolby TrueHD, the device supports full surround sound
audio including DVD-Audio and SACD. The audio output can go directly to an audio DAC or an audio digital signal
processor for further processing, as shown in Figure 3.

DDC

EDID0

DDC

Digital Video

TMDS

Video
Processor

SiI 9134
Transmitter

SiI 9135
Receiver
TMDS

I2S/
DSD

DDC
SPDIF
MCLK
DDC

EDID1

I2C
I2 S

MicroController
Audio DSP

Other Audio Sources

Figure 3. Digital Television Receiver Block Diagram

106

Audio
DAC

Speakers

harman/kardon

AVR2600

6 外形
Package information
6-1外形、寸法
Package type, physical dimensions

8005Q*1
SK *2
*3

*1.品名標示
Type number
*2.ロット番号(3 桁)
Lot number (three digit)
第 1 文字
西暦年号下一桁
1st letter
The last digit of year
第 2 文字
月
2nd letter
Month
1~9 月:アラビア数字
10 月:O
11 月:N
12 月:D
(1 to 9 for Jan. to Sept.,
O for Oct. N for Nov. D for Dec.)
第 3,4 文字 製造週
rd
th
3 & 4 letter week
01~05:アラビア数字
Arabic Numerical
*3.管理番号(4 桁)
Control number (four digit)

2.70

端子配列
PIN Assignment
1.BS
2.IN
3.SW
4.GND
5.FB
6.COMP
7.EN
8.SS

6-2外観
Appearance
本体は、汚れ、傷、亀裂等なく綺麗であること。
The body shall be clean and shall not bear any stain, rust or flaw.
6-3標示
Marking
標示は本体に、品名及びロット番号を明瞭、かつ容易に消えぬようレーザーで捺印すること。
The type number and lot number shall be marked on the body by leaser which shall not be unreadable easily.

107
61426-01

harman/kardon

AVR2600

4-3測定回路図
Measurement circuit diagram

1

2
IN

7

C4
SW

EN
8

C1
IIN

IEN

R1

IO

C2

5

FB

ISS

4
VEN

D1

SI-8000Q

SS

GND
VIN

L1

3

BS

COMP

VFB

R2

VO

RL

6
C3

VSS

R3

D1:SPB-G56S

C1:22μF/50V
C2:47μF/25V
C3:220pF/10V
C4:10nF/25V

L1:10μH

R1:46kΩ
R2:5.1kΩ
R3:62kΩ

4-4 ブロックダイアグラム
Block diagram
VIN

SI-8000Q
2

IN

3
Σ

OSC

P.REG
VREF
7
3

5v_ldo

Current
Sense
Amp
OCP

Boot
REG

5

6

1

BS
C4

0.5V

DRIVE

PWM
LOGIC

EN ON/
OFF

C1

3

4
4

OVP
TSD

L1

3

SW

5v_ldo

C2

D1

3

VO

R1
6 COMP

0.5V

7

Amp

C3
R3

UVLO

FB
R2

GND
1

8

5

1

4

SS
8

C5

108
61426-01

harman/kardon

AVR2600

NJW1298
8-CHANNEL ELECTRONIC VOLUME WITH INPUT SELECTOR
GENERAL DESCRIPTION
The NJW1298 is a 8-channel electronic volume with
Input Selector. It includes 13-in 4-out stereo audio
selector , REC Output and Multi-channel inputs.
The NJW1298 performs low noise and low distortion
characteristics with resistance ladder circuit.
All of functions are controlled via three-wired serial bus.
Selectable 2-Chip address is available for using two chips
on same serial bus line.
The NJW1298 is suitable for multi-channel audio system,
such as AV amplifier, DVD receiver, and others.

PACKAGE OUTLINE

NJW1298FU1

FEATURES
 Operating Voltage
±4.5 to ±7.5V
 3-Wired Serial Control
Chip
Address Select Function
 13-input 4-output stereo selector
 Multi-Channel input (8ch x 2)
 Input Selector Gain Control
Gain : 0 to -21dB / 3dB step
 Volume
to –95dB / 0.5dB step, Mute
 SWch, Cch, LS/RSch output addition to L/R+31.5
ch
output
 LB/RBch output addition to LS/RS ch output
 Zero Cross Detection
 Bi-CMOS Technology
 Package Outline
QFP100-U1

REC C

REC A

REC B

BLOCK DIAGRAM

+

REC_A
REC_B
REC_C
Main

Stereo Lin
(×13)

Zero Cross Detection (8ch)

REC_A
REC_B
REC_C
Main

Lout

Multi-Lin

Multi-Rin

Input Selector

Rout

Cout
Multi-Cin

Lout for
ADC

LSout
Multi-LSin

Stereo Rin
(×13)

Input Selector

Rout for
ADC

RSout
Multi-RSin

Input Selector Gain:
0 to -21dB / 3dB step

LBout
Multi-LBin
RBout
Multi-RBin

Main
REC_C
REC_B
REC_A

SWout
Multi-SWin

Main
REC_C
REC_B
REC_A

Main Volume:
+31.5 to -95dB/0.5dB step

DataClock LatchADR Mute

REC B

REC C

+

REC A

Control Logic

109

harman/kardon

AVR2600

NJM2505A
SINGLE ISOLATION AMPLIFIER
■ GENERAL DESCRIPTION
NJM2505A is the single isolation amplifier developed by the
video signal. It can remove the noise of a signal with isolation amplifier
and carries in the small package (MTP5), it is suitable for the interface
of the video signal of a car AV system.

■ PACKAGE OUTLINE

NJM2505AF
■ FEATURES
● Operating Voltage 4.5 to 9.0V
● Input: Sync-tip Clamp
● Common Mode Noise Rejection Ratio –55dBtyp.
● Voltage Gain 0dBtyp.
● Frequency Characteristics 0dBtyp.at 10MHz
● Bipolar Technology
● Package MTP5
■ PIN CONFIGURATION


1: Vout



2: GND



3: V+


4: Vin
5: VGND

■ BLOCK DIAGRAM

Vout



GND



V+



VGND



110

Vin

harman/kardon

AVR2600

NJM2505A
■ EQUIVALENT CIRCUIT

Pin.No

Symbol

1

Vout

Inside Equivalent Circuit

Voitage

0.92V



80

2

GND

-

-

3

V+

-

-

240
4

Vin

1.67V

31k
5

1.67V

VGND

30k

Ver.4
111

harman/kardon

AVR2600

FLI30336
Single-chip enhanced LCD TV controller
Data Brief

Features

Applications

■

Integrated 3D video decoder

■

LCD and PDP TV

■

Flexible digital capture up to 165 MHz and
analog capture up to 162 MHz

■

DLP®, LCD, and LCOS front and rear
projection

■

VBI signal processing including WST version
2.5 support

■

Flexible DDR memory interface

■

Faroudja® TrueLife™ video enhancer

■

Advanced Picture-in-Picture (PIP) features

■

Advanced Color Management (ACM-3D) and
Adaptive Contrast Control (ACC)

■

On-chip microprocessor

■

Advanced bitmapped OSD controller

■

LCD overdrive

■

Embedded 10-bit dual-channel LVDS for
1080p and WUXGA panel support

■

Package: 416 PBGA
External Memory

2x24-bit or
1x30+1x16 bit
input

10-bit Triple
ADC

OSD
Blend

10 bit
LVDS Tx

CLUTs

YPrPb/
RGB 2

10-bit 3D Video
Decoder and
Triple ADC

Sharpening
Filters
ACM 3D
and ACC

YPrPb/
RGB 1

Analog
Front
End

OSD
Controller

Output
Formatter

Dual
Channel
LVDS
TTL
RGB or
YUV

MUX

YC2

10 bit
Memory
Controller

Picture
Blend

YC1

3x3
Matrix

TTX
Decoder

Enhancer

VBI Data
Proc

Digital
Input
Port

DCDi Format
Conversion
for PIP

IR I/
F

Embedded
Micro processor

3x3
Matrix

CV1
CV2
CV3

LBWADC

Control Interface 6 channels

General
Purpose
I/O

GPIO

Audio
Delay

I2S
in

I2S
out

7

112

harman/kardon

AVR2600

Description

1

FLI30336

Description
The FLI30336 offers high integration for advanced applications of Picture-in-Picture (PIP)
and Picture-by-Picture (PBP) with an integrated video decoder and a 3D comb filter. The
FLI30336 can power up to 1080p/WUXGA displays with the proven Faroudja DCDi Cinema
branded technology.
Special performance features such as the Faroudja DCDi Cinema video format converter,
10-bit performance in the device, and the Advanced Color Management (ACM-3D) provide
exceptional video quality. This exclusive level of video quality technology only seen on
Faroudja Home Theater Systems is now available in a single-chip solution.
The FLI30336 also comprises an integrated Analog Front-End (AFE) that includes triple
ADCs and an integrated cross-point switch. The flexible AFE ensures simple PCB design
with direct connections to TV tuners and input video connectors. In essence, the FLI30336
is the only device needed for a single LCD TV chassis supporting worldwide standards. For
regional variations, only connector and firmware changes are required.
The integrated VBI dataslicer and decoder remove the need for external components
resulting in significant cost reduction. The FLI30336 supports many worldwide VBI
standards for applications of Teletext, Closed Captioning, V-Chip, and other VBI services.
The FLI30336 can be used in digital TV solutions requiring Faroudja DCDi Cinema video
performance levels. An embedded microprocessor and a versatile OSD in a single device
will facilitate rapid development of a reliable and attractive product. The FLI30336 utilizes
the common Cortez family firmware for easy and effortless migration across different
hardware platforms within this family.
Figure 1.

System diagram
DDR
SDRAM

RF

TV
Tuner

Component Video
SCART or Analog RGB
Y/C
RF

16 configurable
analog inputs

FLI30336

Optional Second
Analog Channel
MPEG-2 Decoder
Program
Flash

113

LVDS

Display
up to
WUXGA/
1080p

harman/kardon

AVR2600

FLI30336

2

Feature attributes

Feature attributes
●

●

●

●

●

Flexible digital and analog capture
–

16 configurable analog inputs

–

Direct connection from tuner or connector to analog input pin

–

Supports analog RGB/YUV capture up to 162 MHz and digital input capture up to
165 MHz

–

Full SCART support including RGB fast blank

–

4:4:4/4:2:2/CCIR656/601 8/16/24/30-bit digital input port

–

Simple connection to JPEG and MPEG processors with a 8-bit bi-directional
media port

Integrated 3D video decoder
–

Faroudja IntelliComb™ technology

–

3D adaptive comb filters for luma–chroma separation

–

Supports Composite, S-Video, and Component (including High Definition) video
input signals

–

Supports all broadcast TV video standards—NTSC (North America and Japan),
PAL (I, B, G, H, M, D, N), SECAM (D, K, L, B, G)

–

Supports playback video standards—NTSC443 and PAL-60

–

MacrovisionTM and VCR trick mode support

VBI signal processing
–

Multi-standard digital VBI dataslicer

–

WST FastText page support access with > 2048 page cache

–

Supports WST level 2.5

–

V-chip, VPS, Closed Captioning, XDS, CGMS, and WSS decoder

–

Supports VBI frame freeze

Faroudja DCDI Cinema format conversion
–

Low angle de-interlacing processing

–

Per pixel Motion Adaptive De-interlacing (MADi) up to 1080i format

–

Format conversion up to WUXGA resolutions

–

Panoramic and anamorphic non-linear scaling

–

Adaptive media display processing for 3:2 and 2:2 video content

–

Special 2:2 and 3:3 film mode for improved film processing

–

Adaptive 3D/TNR noise reduction

–

Media noise reduction for MPEG inputs

On-chip microprocessor
–

Integrated x186-based microprocessor with rich function library

–

General Purpose Inputs/Outputs (GPIOs) available for managing system devices
(keypad, backlight, NVRAM, etc.)

–

Advanced power control for low power stand-by mode

–

2-wire serial master bus interface for external device control

3/7

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Feature attributes
●

●

●

Faroudja TrueLife video enhancer
–

High performance and programmable sharpening filters with noise coring

–

Programmable main channel horizontal and vertical filter coefficients

–

Non-linear chroma and luma enhancement

–

Removal of the DVD Chroma Upsampling Error (CUE) introduced by some
DVD sources

Advanced Color Management (ACM-3D)
–

ACM-3D allows flexible flesh-tone compensation, blue stretch, and other image
enhancements

–

ACM-3D provides flexible programming, polar coordinate representation, and sixaxis color control

–

ACC ensures full dynamic range is used in video content

Picture-in-Picture (PIP)
–

●

Programmable PIP channel horizontal and vertical filter coefficients

–

Supports high performance programmable sharpening filters with noise coring

–

Video PIP over full screen graphics and video backgrounds

–

Supports graphics and video PIP (CVBS/S-Video/Component ED/HD) over full
screen video background (CVBS/S-Video)

–

Side-by-side window support

–

PIP zoom support

–

DCDi Edge® processing for second channel window

Output formats
–

●

FLI30336

Dual-channel 8-bit wide TTL output

–

Dual-channel 10-bit LVDS transmitters for direct connection to LCD modules

–

30-bit single-wide TTL output; 24-bit 4:2:2 YUV TTL output—12 bits per color
1080p panel support

–

120 Hz WXGA panel support using FRC and Black Frame Insertion (BFI)
technique

Other features
–

Integrated infrared decoder

–

Integrated low bandwidth ADC with 6 input channels

–

4 integrated PWM outputs for LCD backlight control

–

Integrated I2S audio delay to exact audio and video synchronization

–

I2S channel MUX to support two I2S input streams

–

Supports DDR1-500 memory devices and 512 Mb

–

Reduce LCD video smearing artifacts

–

Advanced bitmapped OSD controller

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ESMT

Preliminary

F49L320UA/F49L320BA
32 Mbit (4M x 8/2M x 16)
3V Only CMOS Flash Memory

1. FEATURES
z
z
z

z

z
z
z

z

z

z

-

Single supply voltage 2.7V-3.6V
Fast access time: 70/90 ns
4,194,304x8 / 2,097,152x16 switchable by BYTE pin
Compatible with JEDEC standard
- Pin-out, packages and software commands compatible with
single-power supply Flash
Low power consumption
- 20mA typical active current
- 25uA typical standby current 
100,000 program/erase cycles typically
20 Years Data Retention 
Command register architecture
- Byte Word Programming (9μs/11μs typical)
- Byte Mode : eight 8KB, sixty three 64KB sectors.
- Word Mode : eight 4K word, sixty-three 32 K word sectors.
Auto Erase (chip & sector) and Auto Program
- Any combination of sectors can be erased concurrently;
Chip erase also provided.
- Automatically program and verify data at specified address
Erase Suspend/Erase Resume
- Suspend or Resume erasing sectors to allow the
read/program in another sector
Secured Silicon Sector
- 128word sector for permanent, secure identification through
an 8- word random Electronic Serial Number
- May be programmed and locked at the factory or by the
customer
- Accessible through a command sequence.

z

z

z

z

z
z

z

z

Ready/Busy (RY/ BY )
- RY/ BY output pin for detection of program or erase operation
completion
End of program or erase detection
- Data polling
- Toggle bits
Hardware reset
- Hardware pin ( RESET ) resets the internal state machine to
the read mode
Sector Protection /Unprotection
- Hardware Protect/Unprotect any combination of sectors from
a program or erase operation.
Low VCC Write inhibit is equal to or less than 2.0V
Boot Sector Architecture
- U = Upper Boot Block
- B = Bottom Boot Block
Packages available:
- 48-pin TSOPI
- All Pb-free products are RoHS-Compliant
CFI (Common Flash Interface) complaint
- Provides device-specific information to the system, allowing
host software to easily reconfigure to different Flash devices.

2. ORDERING INFORMATION
Part No
F49L320UA-70TG
F49L320BA-70TG

Boot
Upper
Bottom

Speed Package Comments
Part No
70 ns
TSOPI
Pb-free
F49L320UA-90TG
70 ns
TSOPI
Pb-free
F49L320BA-90TG

Boot
Upper
Bottom

Speed
90 ns
90 ns

Package
TSOPI
TSOPI

Comments
Pb-free
Pb-free

3. GENERAL DESCRIPTION
The F49L320UA/F49L320BA is a 32 Megabit, 3V only CMOS
Flash memory device organized as 4M bytes of 8 bits or 2M
words of 16bits. This device is packaged in standard 48-pin
TSOP. It is designed to be programmed and erased both in
system and can in standard EPROM programmers.
With access times of 70 ns and 90 ns, the
F49L320UA/F49L320BA allows the operation of high-speed
microprocessors. The device has separate chip enable CE , write
enable WE , and output enable OE controls. ESMT’s memory
devices reliably store memory data even after 100,000 program
and erase cycles.
The F49L320UA/F49L320BA is entirely pin and command set
compatible with the JEDEC standard for 32 Megabit Flash
memory devices. Commands are written to
The F49L320UA/F49L320BA features a sector erase architecture.
The device array is divided into eight 8KB, sixty-three 64KB for

byte mode. The device memory array is divided into eight 4K
word, sixty-three 32K word sectors for word mode. Sectors can
be erased individually or in groups without affecting the data in
other sectors. Multiple-sector erase and whole chip erase
capabilities provide the flexibility to revise the data in the
device.
The sector protect/unprotect feature disables both program and
erase operations in any combination of the sectors of the
memory. This can be achieved in-system or via programming
equipment.
A low VCC detector inhibits write operations on loss of power.
End of program or erase is detected by the Ready/Busy status
pin, Data Polling of DQ7, or by the Toggle Bit I feature on DQ6.
Once the program or erase cycle has been successfully
completed, the device internally resets to the Read mode. The
command register using standard microprocessor write
timings.

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Preliminary

F49L320UA/F49L320BA

4. PIN CONFIGURATIONS
4.1 48-pin TSOP

4.2

Pin Description

Symbol
A0~A20

Pin Name
Address Input

Functions
To provide memory addresses.
To output data when Read and receive data when Write.

DQ0~DQ14

Data Input/Output

DQ15/A-1

Q15 (Word mode) /
LSB addr (Byte Mode)

To input address when BYTE is Low

CE

Chip Enable

To activate the device when CE is low.

OE

Output Enable

To gate the data output buffers.

WE

Write Enable

To control the Write operations.

RESET

Reset

Hardware Reset Pin/Sector Protect Unprotect

BYTE

Word/Byte selection input

To select word mode or byte mode

RY/ BY
VCC
GND
NC

Ready/Busy
Power Supply
Ground
No connection

To check device operation status
To provide power

The outputs are in tri-state when OE or CE is high.
To bi-direction date I/O when BYTE is High

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Preliminary

F49L320UA/F49L320BA

6. FUNCTIONAL BLOCK DIAGRAM

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ESMT

F25L004A
4Mbit (512Kx8)
3V Only Serial Flash Memory

„

FEATURES

y

Single supply voltage 2.7~3.6V

y

Speed
- Read max frequency : 33MHz
- Fast Read max frequency : 50MHz; 75MHz; 100MHz

y

y

y

Auto Address Increment (AAI) WORD Programming
- Decrease total chip programming time over
Byte-Program operations

Low power consumption
- typical active current
- 15 μ A typical standby current

y

SPI Serial Interface
- SPI Compatible : Mode 0 and Mode3

y

End of program or erase detection

Reliability
- 100,000 typical program/erase cycles
- 20 years Data Retention

y

Write Protect ( WP )

y

Hold Pin ( HOLD )

y

Package available
- 8-pin SOIC 150-mil
- 8-pin SOIC 200-mil

y

Program
- Byte program time 7 μ s(typical)

y

Erase
- Chip erase time 4s(typical)
- Sector erase time 60ms(typical),
block erase time 1sec (typical)

ORDERING INFORMATION
Part No.

Speed

F25L004A -50PG

50MHz

8 lead
SOIC

150 mil

F25L004A -100PG 100MHz

8 lead
SOIC

150 mil

F25L004A -50PAG

8 lead
SOIC

200 mil

50MHz

Package

COMMENTS

Part No.

Pb-free

Speed

F25L004A –100PAG 100MHz

Package
8 lead
SOIC

200 mil

Pb-free

F25L004A –50DG

50MHz

8 lead
PDIP

300 mil

Pb-free

F25L004A –100DG 100MHz

8 lead
PDIP

300 mil

COMMENTS
Pb-free
Pb-free
Pb-free

GENERAL DESCRIPTION
The F25L004A is a 4Megablt, 3V only CMOS Serial Flash
memory device organized as 512K bytes of 8 bits. This device is
packaged in 8-lead SOIC 200mil. ESMT’s memory devices
reliably store memory data even after 100,000 program and
erase cycles.

erased individually without affecting the data in other sectors.
Blocks can be erased individually without affecting the data in
other blocks. Whole chip erase capabilities provide the flexibility
to revise the data in the device.
The sector protect/unprotect feature disables both program and
erase operations in any combination of the sectors of the
memory.

The F25L004A features a sector erase architecture. The device
memory array is divided into 128 uniform sectors with 4K byte
each ; 8 uniform blocks with 64K byte each. Sectors can be

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F25L004A

PIN CONFIGURATIONS
8-PIN SOIC

0

CE

1

8

VDD

SO

2

7

HOLD

WP

3

6

SCK

VSS

4

5

SI

CE

1

8

VDD

SO

2

7

HOLD

WP

3

6

SCK

VSS

4

5

SI

8-PIN PDIP

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ESMT

F25L004A

FUNTIONAL BLOCK DIAGRAM

Address
Buffers
and
Latches

Flash

X-Decoder

Y-Decoder

I/O Butters
and
Data Latches

Control Logic

Serial Interface

CE

SCK

SI

SO

WP

HOLD

PIN Description
Symbol

Pin Name

Functions

SCK

Serial Clock

To provide the timing for serial input and
output operations

SI

Serial Data Input

To transfer commands, addresses or data
serially into the device.
Data is latched on the rising edge of SCK.

SO

Serial Data Output

To transfer data serially out of the device.
Data is shifted out on the falling edge of
SCK.

CE

Chip Enable

To activate the device when CE is low.

WP

Write Protect

The Write Protect ( WP ) pin is used to
enable/disable BPL bit in the status
register.

HOLD

Hold

VDD

Power Supply

VSS

Ground

To temporality stop serial communication
with SPI flash memory without resetting
the device.
To provide power.

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CS49DV8C Data Sheet
FEATURES
• 32-bit Post-Processor Audio DSP supports Multichannel
Dolby® Volume

32-bit Dual Audio DSP Engine
featuring Multichannel Dolby® Volume

• Programmable through DSP Composer™
• CS49DV8, supports up to 7.1 Channels of Dolby Volume
processing at 48 kHz, 44.1 kHz or 32 kHz.

•

•
•
•
•
•

The new CS49DV8C is the fastest time-to-market, massproduction ready Multichannel Dolby Volume solution available.
The target applications for the CS49DV8C DSP are:

— Input Configurable for all input/output digital audio types
(I2S, LJ/RJ, and TDM)
— 32-bit data path delivers uncompromised dynamic range
— 192 kHz capable integrated S/PDIF transmitter
— DAO can operate in master or slave mode (SCLK &
LRCLK)
Integrated Clock Manager/PLL
— Capable of operating from a wide variety of external
crystals or external oscillators
Input Fs Auto Detection, Reporting and Handling
Sample rate conversion.
Master & Slave Host Boot Capability via Serial Interface
SPI interface capable of running up to 25 MHz during run
time
1.8V Core and a 3.3V I/O that is tolerant to 5V input

—
—
—
—
—
—

Soundbars
DTVs with Integrated Soundbars
HDTV Stands/Furniture with Integrated Soundbars
Automotive Head Units
Automotive Outboard Amplifiers
Blu-ray Disc® & DVD Receivers / HTiBs

All of these applications and many more that use volume control
and are subject to playback from sources that do not have consistent volume levels will benefit from the CS49DV8C Dolby Volume
solution.

Ordering Information
See page 27 for ordering information.

Serial
Control 1

Serial
Control 2

UART

GPIO

8 Ch. Audio In

STC
D
M
A

32-bit
DSP A
S/PDIF

S/PDIF

Debug

P

X

Y

32-bit
DSP B

TMR1
TMR2

P

X

Y

8 Ch PCM
Audio Out
Ext. Memory Controller

Preliminary Product Information

PLL

This document contains information for a new product.
Cirrus Logic reserves the right to modify this product without notice.

Copyright 2008 Cirrus Logic (All Rights Reserved)
http://www.cirrus.com

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8. Device Pin-Out Diagram

GPIO38, PCP_WR# / DS#, SCP2_CLK

SD_A10, EXT_A10

SD_BA0, EXT_A13

SD_BA1, EXT_A14

105 GNDIO5

SD_WE#

SD_CAS#

SD_RAS#

EXT_A15

110 SD_CS#

VDD5

EXT_A16

EXT_A17

EXT_A18

115 GND5

EXT_A19

EXT_OE#

EXT_CS1#

120 VDDIO6

GNDIO6

GPIO33, SCP1_MOSI

GPIO34, SCP1__MISO / SDA

GPIO35, SCP1_CLK

125 VDD6

GND6

GPIO37, SCP1_BSY#, PCP_BSY#

8.1 128-Pin LQFP Pin-Out Diagram

RESET#

CS49DV8C Data Sheet
32-bit Audio DSP Family

1

SD_A0, EXT_A0

GPIO11, PCP_A3, AS#, SCP2_MISO / SDA

SD_A1, EXT_A1
100 VDDIO5

GPIO10, PCP_A2 / A10, SCP2_MOSI

SD_A2, EXT_A2

GPOI9, SCP1_IRQ#
GPIO8, PCP_IRQ#, SCP2_IRQ#

GND4

5

SD_A3, EXT_A3

GPIO7, SCP1_CS#, IOWAIT

SD_A4, EXT_A4

GPIO6, PCP_CS#, SCP2_CS#

95 VDD4

VDDIO7

EXT_CS2#

GNDIO7

SD_A5, EXT_A5

GPIO3, DDAC 10

GNDIO4

GPIO2, UART_TXD
VDD7

SD_A6, EXT_A6

GPIO1, UART_RXD

90 SD_A7, EXT_A7
VDDIO4

GPIO0, UART_CLK

SD_A8, EXT_A8

GND7 15

SD_A9, EXT_A9

XTAL_OUT

GND3

XTI

85 SD_A11, EXT_A11

XTO

SD_A12, EXT_A12

128-Pin LQFP

GNDA
PLL_REF_RES 20

VDD3
SD_CLKEN

VDDA (3.3V)

SD_CLKIN

VDD8

80 SD_CLKOUT

GPIO14, DAI1_DATA3, TM3, DSD3

SD_DQM1

GPIO13, DAI1_DATA2, TM2, DSD2

SD_D8, EXT_D8

GND8 25

SD_D9, EXT_D9

GPIO12, DAI1_DATA1, TM1, DSD1

GNDIO3

DAI1_DATA0, TM0, DSD0

75 SD_D10, EXT_D10

VDDIO8

SD_D11, EXT_D11

DAI1_SCLK, DSD-CLK

VDDIO3

DAI1_LRCLK, DSD4 30

SD_D12, EXT_D12

GNDIO8

SD_D13, EXT_D13

GPIO42, BDI_REQ# , DAI2_LRCLK, PCP_IRQ# / BSY#

70 SD_D14, EXT_D14

GPIO43, BDI_CLK, DAI2_SCLK

SD_D15, EXT_D15

BDI_DATA, DAI2_DATA, DSD5

SD_D0, EXT_D0

GPIO26, DAO2_DATA3 / XMTB/UART_TX_EN 35

GNDIO2

DBDA

EXT_WE#

DBCK

65 SD_D1, EXT_D1

Figure 15. 128-Pin LQFP Pin-Out

127

SD_D2, EXT_D2

SD_D3, EXT_D3

VDDIO2

SD_D4, EXT_D4

SD_D5, EXT_D5 60

SD_D6, EXT_D6

SD_D7, EXT_D7

SD_DQM0

GND2

VDD2 55

GNDIO1

DAO1_LRCLK

DAO1_SCLK

DAO1_DATA0, HS0

VDDIO1 50

GPIO15, DAO1_DATA1, HS1

GPIO16, DAO1_DATA2, HS2

GND1 45
GPIO23,
DAO2_LRCLK
GPIO17, DAO1_DATA3 / XMTA

GPIO22, DAO2_SCLK

GPIO18, DAO2_DATA0, HS3

VDD1

TEST

DAO_MCLK 40

GPIO19, DAO2_DATA1, HS4

GPIO20, DAO2_DATA2, EE_CS#

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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
Partial Page Writes Allowed
Self-timed Write Cycle (5 ms max)
High-reliability
– Endurance: 1 Million Write Cycles
– Data Retention: 100 Years
Automotive Grade and Lead-free/Halogen-free Devices Available
8-lead PDIP, 8-lead JEDEC SOIC, 8-lead MAP, 5-lead SOT23,
8-lead TSSOP and 8-ball dBGA2 Packages
Die Sales: Wafer Form, Waffle Pack and Bumped Wafers

Two-wire
Serial EEPROM
1K (128 x 8)
2K (256 x 8)
4K (512 x 8)
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
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), 8lead TSSOP, and 8-ball dBGA2 packages and is accessed via a Two-wire serial interface. In addition, the entire family is available in 2.7V (2.7V to 5.5V) and 1.8V (1.8V to
5.5V) versions.
8-lead TSSOP

Table 1. Pin Configuration
Pin Name

Function

A0 - A2

Address Inputs

SDA

Serial Data

SCL

Serial Clock Input

WP

Write Protect

NC

No Connect

GND

Ground

VCC

Power Supply

A0
A1
A2
GND

1
2
3
4

8
7
6
5

VCC
WP
SCL
SDA

8-lead SOIC
A0
A1
A2
GND

8-ball dBGA2
VCC
WP
SCL
SDA

8

1

7

2

6

3

5

4

A0
A1
A2
GND

VCC
WP
SCL
SDA

8
7
6
5

8
7
6
5

1
2
3
4

A0
A1
A2
GND

Bottom View

8-lead PDIP
1
2
3
4

VCC
WP
SCL
SDA

8
7
6
5

8-lead MAP

Bottom View

A0
A1
A2
GND

1
2
3
4

AT24C01A
AT24C02
AT24C04
AT24C08A
AT24C16A

5-lead SOT23
VCC
WP
SCL
SDA

SCL

1

GND

2

SDA

3

5

WP

4

VCC

0180V–SEEPR–8/05

1

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Absolute Maximum Ratings
*NOTICE:

Operating Temperature..................................–55°C to +125°C
Storage Temperature .....................................–65°C to +150°C
Voltage on Any Pin
with Respect to Ground .................................... –1.0V to +7.0V
Maximum Operating Voltage .......................................... 6.25V

Stresses beyond those listed under “Absolute
Maximum Ratings” may cause permanent damage to the device. This is a stress rating only and
functional operation of the device at these or any
other conditions beyond those indicated in the
operational sections of this specification is not
implied. Exposure to absolute maximum rating
conditions for extended periods may affect device
reliability.

DC Output Current........................................................ 5.0 mA

Figure 1. Block Diagram

129

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AT24C01A/02/04/08A/16A
Pin Description

SERIAL CLOCK (SCL): The SCL input is used to positive edge clock data into each
EEPROM device and negative edge clock data out of each device.
SERIAL DATA (SDA): The SDA pin is bidirectional for serial data transfer. This pin is
open-drain driven and may be wire-ORed with any number of other open-drain or opencollector devices.
DEVICE/PAGE ADDRESSES (A2, A1, A0): The A2, A1 and A0 pins are device
address inputs that are hard wired for the AT24C01A and the AT24C02. As many as
eight 1K/2K devices may be addressed on a single bus system (device addressing is
discussed in detail under the Device Addressing section).
The AT24C04 uses the A2 and A1 inputs for hard wire addressing and a total of four 4K
devices may be addressed on a single bus system. The A0 pin is a no connect.
The AT24C08A only uses the A2 input for hardwire addressing and a total of two 8K
devices may be addressed on a single bus system. The A0 and A1 pins are no
connects.
The AT24C16A does not use the device address pins, which limits the number of
devices on a single bus to one. The A0, A1 and A2 pins are no connects.
WRITE PROTECT (WP): The AT24C01A/02/04/08A/16A has a Write Protect pin that
provides hardware data protection. The Write Protect pin allows normal Read/Write
operations when connected to ground (GND). When the Write Protect pin is connected
to VCC, the write protection feature is enabled and operates as shown in Table 2.
Table 2. Write Protect
WP Pin
Status

Memory Organization

Part of the Array Protected
24C01A

24C02

At VCC

Full (1K)
Array

Full (2K)
Array

At GND

Normal Read/Write Operations

24C04
Full (4K)
Array

24C08A
Full (8K)
Array

24C16A
Full (16K)
Array

AT24C01A, 1K SERIAL EEPROM: Internally organized with 16 pages of 8 bytes each,
the 1K requires a 7-bit data word address for random word addressing.
AT24C02, 2K SERIAL EEPROM: Internally organized with 32 pages of 8 bytes each,
the 2K requires an 8-bit data word address for random word addressing.
AT24C04, 4K SERIAL EEPROM: Internally organized with 32 pages of 16 bytes each,
the 4K requires a 9-bit data word address for random word addressing.
AT24C08A, 8K SERIAL EEPROM: Internally organized with 64 pages of 16 bytes each,
the 8K requires a 10-bit data word address for random word addressing.
AT24C16A, 16K SERIAL EEPROM: Internally organized with 128 pages of 16 bytes
each, the 16K requires an 11-bit data word address for random word addressing.

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IDT74FCT38072
3.3V CMOS 1-TO-2 CLOCK DRIVER

INDUSTRIAL TEMPERATURE RANGE

3.3V CMOS
1-TO-2 CLOCK DRIVER

IDT74FCT38072

FEATURES:

DESCRIPTION:

•
•
•
•
•
•
•
•
•
•
•
•
•

The FCT38072 is a 3.3V clock driver built using advanced CMOS
technology. This low skew clock driver offers 1:2 fanout. The large fanout from
a single input reduces loading on the preceding driver and provides an efficient
clock distribution network. Multiple power and grounds reduce noise. Typical
applications are clock and signal distribution.

Advanced CMOS Technology
Guaranteed low skew < 100ps (max.)
Very low duty cycle distortion< 350ps (max.)
High speed propagation delay< 3ns (max.)
Very low CMOS power levels
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

PIN CONFIGURATION

FUNCTIONAL BLOCK DIAGRAM

O1
IN
O2

VCC

1

8

GND

VCC

2

7

O2

IN

3

6

O1

GND

4

5

GND

SOIC
TOP VIEW

1
131

harman/kardon

AVR2600

T5CN5

32-bit RISC Microcontroller – TX03 Series

T5CN5


Overview and Features
The TX03 series is a 32-bit RISC microcontroller series with an ARM CortexTM-M3 microcontroller
core.
Features of the T5CN5 is as follows:

1.1 Features
(1)

ARM Cortex-M3 microcontroller core
1) Improved code efficiency has been realized through the use of Thumb2 instruction





New 16-bit Thumb instructions for improved program flow
New 32-bit Thumb instructions for improved performance
Auto-switching between 32-bit instruction and 16-bit instruction is executed by compiler.

2) Both high performance and low power consumption have been achieved.
-High performance




A 32-bit multiplication (32×32=32 bit) can be executed with one clock.
Division takes between 2 and 12 cycles depending on dividend and devisor

-Low power consumption




Optimized design using a low power consumption library
Standby function that stops the operation of the microcontroller core

3) High-speed interrupt response suitable for real-time control




An interruptible long instruction.
Stack push automatically handled by hardware.

132

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T5CN5

(2)

(3)

On Chip program memory and data memory
Product name

On chip Flash ROM

On chip RAM

T5CN5

512Kbyte

32Kbyte

16-bit timer
16-bit interval timer mode
16-bit event counter mode
16-bit PPG output

: 10 channels

Input capture function
(4)

Real time clock (RTC)
: 1 channel
Clock (hour, minute and second)
Calendar (Month, week, date and leap year)

Time correction
or  30 seconds (by software)
Alarm (Alarm output)
Alarm interrupt

(5)

Watchdog timer
26 cycles of binary counter
Watchdog timer out

(6)

General-purpose serial interface
: 3 channels
Either UART mode or synchronous mode can be selected (4byte FIFO equipped)

(7)

Serial bus interface
: 3 channels
Either I2C bus mode or synchronous mode can be selected.

(8)

CEC

: 1 channel

: 1 channel
Transmission and reception per  byte.

(9)

Remote control signal preprocessor
Can receive up to 72bit data at a time

(10) 10-bit A/D converter
Start by an internal or external timer trigger
Fixed channel/scan mode
Single/repeat mode
AD monitoring 2ch
Conversion speed 1.15usec(@fsys = 40MHz)

: 2 channels

: 12 channels

(11) Interrupt source
Internal: 42 factors…The order of precedence can be set over 7 levels (except the watchdog
timer interrupt).
External: 8 factors…The order of precedence can be set over 7 levels.
(12) Input/ output ports
79 pins

133

harman/kardon

AVR2600

T5CN5

(13) Standby mode
Standby modes

:IDLE, SLOW, SLEEP, STOP

Sub clock operation(32.768kHz)

:SLOW, SLEEP

(14) Clock generator
On-chip PLL (quadrupled)
Clock gear function: The high-speed clock can be divided into 1/1, 1/2, 1/4 or 1/8.
(15) Endian
Little endian
(16) Maximum operating frequency
40MHz
(17) Operating voltage range
2.7V~3.6V (with on-chip regulator)
(18) Temperature range
-20~85 degrees (except during Flash writing/ erasing)
0~70 degrees (during Flash writing/ erasing)
(19) Package
LQFP100-P-1414-0.5H (14mm  14mm, 0.5mm pitch)

134

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AVR2600

T5CN5

1.2 Block Diagram

I/F

FLASH

I/F

RAM

I/F

BOOT
ROM

I-Code
D-Code

Debug

System

AHB-Bus-Matrix

Cortex-M3
CPU

NVIC

Bus Bridge

CG

PORT 0~A

SIO (3ch)

TMRB (10ch)
IO-Bus

I2C (3ch)

WDT

CEC

RTC

Remote control signal
preprocessor (2ch)

ADC (12ch)

Fig. 1.1 T5CN5 Block Diagram

135

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AVR2600

T5CN5

2.

Pin Layout and Pin Functions
This chapter describes the pin layout, pin names and pin functions of T5CN5.

2.1

Pin Layout (Top view)

80

85

90

95

75

5
70

10

T5CN5

65

Top View
15
60

20

50

45

40

35

25

30

55

SDA0/ SO0/ PG0
SCL0/ SI0/ PG1
SCK0/ PG2
PB3
BOOT/ TB0IN0/ PH0
TB0IN1/ PH1
TB1IN0/ PH2
TXD2/ PF0
RXD2/ PF1
CTS2/ SCLK2/ PF2
TB1IN1/ PH3
PB4
TB0OUT/ PI0
INT6/ PJ6
TB1OUT/ PI1
PB5
TB2OUT/ PI2
PB6
SDA1/ SO1/ PF4
SCL1/ SI1/ PF5
SCK1/ PF6
PB7
TB3OUT/ PI3
INT1/ PJ1
CEC/ PK0

AN10/ PD6
AN11/ PD7
AVSS
VREFH
AVCC
INT4/ PG3
TB9OUT/ PK2
TB7OUT/ PJ5
TB2IN0/ PH4
TB2IN1/ PH5
TB8OUT/ PG7
TEST2
DVSS
DVCC
SDA2/ SO2/ PG4
SCL2/ SI2/ PG5
SCK2/ PG6
TEST1
INT5/ PF7
TXD0/ PE0
RXD0/ PE1
CTS0/ SCLK0/ PE2
TXD1/ PE4
RXD1/ PE5
CTS1/ SCLK1/ PE6

100

PD5 /AN9
PD4 /AN8
PD3 /AN7 /TB6IN1
PD2 /AN6 /TB6IN0
PD1 /AN5 /TB5IN1
PD0 /AN4 /TB5IN0
PC3 /AN3
PC2 /AN2
PC1 /AN1
PC0 /AN0
TEST4
PE3 /RXIN0
PJ4 /TB6OUT
PJ3 /INT3
PJ2 /INT2
PH7 /TB3IN1
PH6 /TB3IN0
PI7 /TB4IN1
RESET
MODE
NMI
PI6 /TB4IN0
XT2
XT1
REGVCC

Fig. 2-1 shows the pin layout of T5CN5.

Fig. 2.1 Pin Layout (LQFP100)

136

REGVSS
X1
CVSS
X2
CVCC
PJ0 /INT0
PA7
PA6 /TRACEDATA3
PA5 /TRACEDATA2
PA4 /TRACEDATA1
PA3 /TRACEDATA0
PA2 /TRACECLK
DVSS
DVCC
PF3 /RXIN1
PB2 / TRST
PB1 /TDI
PJ7 /INT7
TEST3
PA1 /TCK /SWCLK
PA0 /TMS /SWDIO
PB0 /TDO /SWV
PI5 /TB5OUT
PI4 /TB4OUT
PK1 /SCOUT /ALARM

harman/kardon

AVR2600

T5CN5

Table 2.1 Pin Numbers and Names (1/2)
Pin
No.
1
2
3
4

Pin name
PD6, AN10
PD7, AN11
AVSS
VREFH

Pin
No.
26
27
28
29

5

AVCC

30

6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25

PG3, INT4
PK2, TB9OUT
PJ5, TB7OUT
PH4, TB2IN0
PH5, TB2IN1
PG7, TB8OUT
TEST2
DVSS
DVCC
PG4, SO2, SDA2
PG5, SI2, SCL2
PG6, SCK2
TEST1
PF7, INT5
PE0, TXD0
PE1, RXD0
PE2, SCLK0, CTS0
PE4, TXD1
PE5, RXD1
PE6, SCLK1, CTS1

31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50

137

Pin name
PG0, SO0, SDA0
PG1, SI0, SCL0
PG2, SCK0
PB3
PH0, TB0IN0, BOOT
PH1, TB0IN1
PH2, TB1IN0
PF0, TXD2
PF1, RXD2
PF2, SCLK2, CTS2
PH3, TB1IN1
PB4
PI0, TB0OUT
PJ6, INT6
PI1, TB1OUT
PB5
PI2, TB2OUT
PB6
PF4, SO1, SDA1
PF5, SI1, SCL1
PF6, SCK1
PB7
PI3, TB3OUT
PJ1, INT1
PK0, CEC

harman/kardon

AVR2600

T5CN5

Table 2.1 Pin Numbers and Names (2/2)
Pin
No.

Pin name

Pin
No.

Pin name

76

REGVCC

52
53
54
55
56

PK1, SCOUT, ALARM
PI4, TB4OUT
PI5, TB5OUT
PB0, TDO, SWV
PA0, TMS, SWDIO
PA1, TCK, SWCLK

77
78
79
80
81

XT1
XT2
PI6, TB4IN0

57

TEST3

82

58
59

PJ7, INT7
PB1, TDI

83
84

RESET
PI7, TB4IN1
PH6, TB3IN0

60

PB2, TRST
PF3, RXIN1
DVCC
DVSS
PA2, TRACECLK
PA3, TRACEDATA0
PA4, TRACEDATA1
PA5, TRACEDATA2
PA6, TRACEDATA3
PA7
PJ0, INT0
CVCC
X2
CVSS
X1
REGVSS

85

PH7, TB3IN1

86
87
88
89
90
91
92
93
94
95
96
97
98
99
100

PJ2, INT2
PJ3, INT3
PJ4, TB6OUT
PE3, RXIN0
TEST4
PC0, AN0
PC1, AN1
PC2, AN2
PC3, AN3
PD0, AN4, TB5IN0
PD1, AN5, TB5IN1
PD2, AN6, TB6IN0
PD3, AN7, TB6IN1
PD4, AN8
PD5, AN9

51

61
62
63
64
65
66
67
68
69
70
71
72
73
74
75

138

NMI

MODE

harman/kardon

AVR2600

T5CN5

2.2

Pin names and Functions

Table 2.2 and Table 2.3 sort the input and output pins of the T5CN5 by pin or port. Each table includes
alternate pin names and functions for multi-function pins.

3.1.1

Sorted by Pin
Table 2.2 Pin Names and Functions Sorted by Pin (1/5)

Type

# of
Pins

PD6
AN10
PD7
AN11

I
I
I
I

3

AVSS

I

4

VREFH

I

5

AVCC

I

PG3
INT4
PK2
TB9OUT
PJ5
TB7OUT
PH4
TB2IN0
PH5
TB2IN1
PG7
TB8OUT
TEST2
DVSS
DVCC
PG4

I/O
I
I/O
O
I/O
I
I/O
I
I/O
I
I/O
O
I/O

SDA2/
SO2
PG5

I/O
O
I/O

SCL2/
SI2
PG6
SCK2

I/O
I
I/O
I/O

1
Function

2

PS

6
7
8
Function

9
10
11
Test
PS

12
13
14
15

Function

Pin Name

Input/
Output

16

17

Test

18

TEST1

-

Function

19

PF7
INT5

I/O
I

Function

Input port
Analog input
Input port
Analog input
A/D converter: GND pin (0V)
Tie AVSS to power supply even if the A/D
converter is not used.
Supplying the A/D converter with a
reference power supply.
Tie VREFH to power supply even if the
A/D converter is not used.
Supplying the A/D converter with a power
supply. Tie AVCC to power supply even if
the A/D converter is not used.
I/O port
Interrupt request pin
I/O port
Timer B output
I/O port
Timer B output
I/O port
Inputting the timer B capture trigger
I/O port
Inputting the timer B capture trigger
I/O port
Timer B output
TEST pin: Not connected.
GND pin
Power supply pin
I/O port
If the serial bus interface operates
-in the I2C mode : data pin
-in the SIO mode: data pin
I/O port
If the serial bus interface operates
-in the I2C mode : clock pin
-in the SIO mode: data pin
I/O port
Inputting and outputting a clock if the
serial bus interface operates in the SIO
mode.
TEST pin: Not connected.
I/O port
Interrupt request pin

139

Programma
ble Pull up/
Pull down

Schmitt
trigger

Programm
able Open
Drain
Output

Pull up

-

-

Pull up

-

-

-

-

-

-

-

-

-

-

-

Pull up

w/ noise filter

Pull up

-

-

Pull up

-

-

Pull up



-

Pull up



-

Pull up

-



-

-

-

Pull up





Pull up





Pull up





-

-

-

Pull up

w/ noise filter





harman/kardon

AVR2600

T5CN5
Table 2.2 Pin Names and Functions Sorted by Pin (2/5)
Type

# of
Pins

PE0
TXD0
PE1
RXD0
PE2
SCLK0
CTS0
PE4
TXD1
PE5
RXD1
PE6
SCLK1
CTS1
PG0

I/O
O
I/O
I
I/O
I
I
I/O
O
I/O
I
I/O
I
I
I/O

SDA0/
SO0
PG1

I/O
O
I/O

SCL0/
SI0
PG2
SCK0

I/O
I
I/O
I/O

29

PB3

I/O

30

PH0
TB0IN0
BOOT

I/O
I
I

PH1
TB0IN1
PH2
TB1IN0
PF0
TXD2
PF1
RXD2
PF2
SCLK2
CTS2
PH3
TB1IN1
PB4
PI0
TB0OUT
PJ6
INT6

I/O
I
I/O
I
I/O
O
I/O
I
I/O
I
I
I/O
I
I/O
I/O
O
I/O
I

20
21
22
23
24
25
Function

26

27

28

Function/
Control

31
32
33
34
Function

Input/
Pin Name
Output

35
36
37
38
39

Function

I/O port
Sending serial data
I/O port
Receiving serial data
I/O port
Serial clock input/ output
Handshake input pin
I/O port
Sending serial data
I/O port
Receiving serial data
I/O port
Serial clock input/ output
Handshake input pin
I/O port
If the serial bus interface operates
-in the I2C mode : data pin
-in the SIO mode: data pin
I/O port
If the serial bus interface operates
-in the I2C mode : clock pin
-in the SIO mode: data pin
I/O port
Inputting and outputting a clock if the
serial bus interface operates in the SIO
mode.
I/O port
I/O port
Inputting the timer B capture trigger
Setting a single boot mode: This pin
goes into single boot mode by sampling
"L" at the rise of a reset signal.
I/O port
Inputting the timer B capture trigger
I/O port
Inputting the timer B capture trigger
I/O port
Sending serial data
I/O port
Receiving serial data
I/O port
Serial clock input/ output
Handshake input pin
I/O port
Inputting the timer B capture trigger
I/O port
I/O port
Timer B output
I/O port
Interrupt request pin

140

Programm
able
Pull-up/
Pull down

Schmitt
trigger

Pull up

-

Programma
ble Open
Drain
Output

Pull up
Pull up
Pull up

-

Pull up
Pull up

Pull up

Pull up

Pull up
Pull up

-

-

Pull up

-

Pull up

-

Pull up

-

Pull up

-

Pull up
Pull up
Pull up

-

Pull up

-

-

Pull up

-

-

Pull up


w/ noise filter

harman/kardon

AVR2600

T5CN5

Table 2.2 Pin Names and Functions Sorted by Pin (3/5)
Type

# of
Pins

Pin Name

PI1
TB1OUT
41 PB5
PI2
42
TB2OUT
43 PB6
PF4
40

44

45

Function

Function/
Debug

Test
Function

Function/
Debug

Function
PS

46

Input/
Output

I/O
O
I/O
I/O
O
I/O
I/O

SDA1/
SO1
PF5

I/O
O
I/O

SCL1/
SI1
PF6
SCK1

I/O
I
I/O
I/O

47 PB7
I/O
PI3
I/O
48
TB3OUT
O
PJ1
I/O
49
INT1
I
PK0
I/O
50
CEC
I/O
PK1
I/O
51 SCOUT
O
O
ALARM
PI4
I/O
52
TB4OUT
O
PI5
I/O
53
TB5OUT
O
PB0
I/O
54
TDO/SWV O
PA0
I/O
55
TMS/SWDIO I/O
PA1
I/O
56 TCK/
I
SWCLK
57 TEST3
PJ7
I/O
58
INT7
I
PB1
I/O
59
TDI
I
PB2
I/O
60
I
TRST
PF3
I/O
61
RXIN1
I
62 DVCC
63 DVSS
-

Function

Programmab
le Pull-up/
Pull down

Pull up
I/O port
Timer B output
Pull up
I/O port
I/O port
Pull up
Timer B output
Pull up
I/O port
I/O port
If the serial bus interface operates
Pull up
-in the I2C mode : data pin
-in the SIO mode: data pin
I/O port
If the serial bus interface operates
Pull up
-in the I2C mode : clock pin
-in the SIO mode: data pin
I/O port
Inputting and outputting a clock if the
Pull up
serial bus interface operates in the SIO
mode.
Pull up
I/O port
I/O port
Pull up
Timer B output
I/O port
Pull up
Interrupt request pin
I/O port
CEC pin
I/O port
System clock output
Pull up
Alarm output
I/O port
Pull up
Timer B output
I/O port
Pull up
Timer B output
I/O port
Pull up
Debug pin
I/O port
Pull up
Debug pin
I/O port
Pull up
Debug pin
TEST pin: Not connected.
I/O port
Interrupt request pin
I/O port
Debug pin
I/O port
Debug pin
I/O port
Inputting signal to remote controller
Power supply pin
GND pin

141

Pull up
Pull up

Schmitt
trigger

Programmab
le Open
Drain
Output

-

-

-

-

-

-

-

-

-

-

-

-

w/ noise filter





(Note 4)
-

-

-

-

-

-

-

-

-

-

-

-



w/ noise filter

-

Pull up

-

Pull up
-

-

-

harman/kardon

AVR2600

T5CN5
Table 2.2 Pin Names and Functions Sorted by Pin (4/5)
Type

# of
Pins

64
65
Function/
Debug

66
67
68

Pin Name

PA2

70
PS
Clock
PS
Clock
PS
Clock

71
72
73
74
75
76
77
78
79

Function

80
Control

I/O port
Debug pin
I/O port
Debug pin
I/O port
Debug pin
I/O port
Debug pin
I/O port
Debug pin

I/O

I/O port

PJ0
INT0
CVCC
X2
CVSS
X1
REGVSS
REGVCC
XT1
XT2
PI6
TB4IN0

I/O
I
O
I
I
O
I/O
I

I/O port
Interrupt request pin
Power supply pin
Connected to a high-speed oscillator.
GND pin
Connected to a high-speed oscillator.
GND pin
Power supply pin
Connected to a low-speed oscillator.
Connected to a low-speed oscillator.
I/O port
Inputting the timer B capture trigger

NMI

I

Non-maskable interrupt

PA3
TRACEDATA0

PA4
TRACEDATA1

PA5
TRACEDATA2

PA6
TRACEDATA3

I

Mode pin: Tied to GND pin

82

I

Reset input pin

I/O
I
I/O
I
I/O
I
I/O
I

I/O port
Inputting the timer B capture trigger
I/O port
Inputting the timer B capture trigger
I/O port
Inputting the timer B capture trigger
I/O port
Interrupt request pin

PJ3
INT3

I/O
I

I/O port
Interrupt request pin

PJ4
TB6OUT
PE3
89
RXIN0

I/O
O
I/O
I

I/O port
Timer B output
I/O port
Inputting signal to remote controller

90 TEST4

-

TEST pin: Not connected.

RESET

PI7
TB4IN0
PH6
84
TB3IN0
PH7
85
TB3IN1
PJ2
86
INT2
87
88

Test

Programma
ble Pull-up/
Pull down

Schmitt
trigger

Programmab
le Open
Drain
Output

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

81 MODE

83

Function

Function

I/O
O
I/O
O
I/O
O
I/O
O
I/O
O

TRACECLK

69 PA7
Function

Input/
Output

142

Pull up
Pull up


w/ noise filter





-



Tied to
Pull up

w/ noise filter




w/ noise filter

-

Pull up



-

Pull up



-

Pull up



-

Pull up
Pull up


w/ noise filter


w/ noise filter

Pull up

-

-

Pull up





-

-

-

harman/kardon

AVR2600

T5CN5
Table 2.2 Pin Names and Functions Sorted by Pin (5/5)
Type

# of
Pins

PC0
AN0
PC1
92
AN1
PC2
93
AN2
PC3
94
AN3
PD0
95 AN4
TB5IN0
PD1
96 AN5
TB5IN1
PD2
97 AN6
TB6IN0
PD3
98 AN7
TB6IN1
PD4
99
AN8
PD5
100
AN9
91

Function

(Note 1)
(Note 2)
(Note 3)
(Note 4)

Pin Name

Input/
Output

I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I

Function

Input port
Analog input
Input port
Analog input
Input port
Analog input
Input port
Analog input
Input port
Analog input
Inputting the timer B capture trigger
Input port
Analog input
Inputting the timer B capture trigger
Input port
Analog input
Inputting the timer B capture trigger
Input port
Analog input
Inputting the timer B capture trigger of
Input port
Analog input
Input port
Analog input

Programma
ble Pull-up/
Pull down

Schmitt
trigger

Programma
ble Open
Drain
Output

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

-

-

Pull up

-

-

TEST1 through 4 must be left unconnected.
Be sure to tie MODE to GND.
Tie VREFH/ AVCC to power supply and AVSS to GND even if the A/D converter is not used.
Nch open drain port.

143

harman/kardon

AVR2600

T5CN5

2.3

Pin Names and Power Supply Pins
Table 2.4 Pin Names and Power Supplies
Power
Pin name
supply

PA
PB
PC
PD
PE
PF
PG
PH
PI
PJ
PK
X1, X2
XT1, XT2

DVCC
DVCC
AVCC
AVCC
DVCC
DVCC
DVCC
DVCC
DVCC
DVCC
DVCC
CVCC
DVCC
DVCC
DVCC
DVCC

RESET
NMI

MODE

2.4

Pin Numbers and Power Supply Pins
Table 2.5 Pin Numbers and Power Supplies
Power
supply

DVCC
AVCC
REGVCC
CVCC

Pin number
14, 62
5
76
71

144

Voltage range
2.7V~3.6V

harman/kardon

AVR2600

145

harman/kardon

AVR2600

146

harman/kardon

AVR2600

147

harman/kardon

AVR2600

148

harman/kardon

AVR2600

149

harman/kardon

AVR2600

150

harman/kardon

AVR2600

256Mb DDR SDRAM Specification
A3S56D30ETP
A3S56D40ETP
A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

DESCRIPTION
A3S56D30ETP is a 4-bank x 8,388,608-word x 8bit, A3S56D40ETP is a 4-bank x 4,194,304-word x
16bit double data rate synchronous DRAM , with SSTL_2 interface. All control and address signals
are referenced to the rising edge of CLK. Input data is registered on both edges of data strobe ,and
output data and data strobe are referenced on both edges of CLK. The A3S56D30/40ETP achieves
very high speed clock rate up to 200 MHz .

FEATURES
- Vdd=Vddq=2.5V+0.2V (-5E, -5, -6)
- Double data rate architecture ; two data transfers per clock cycle.
- Bidirectional , data strobe (DQS) is transmitted/received with data
- Differential clock input (CLK and /CLK)
- DLL aligns DQ and DQS transitions with CLK transitions edges of DQS
- Commands entered on each positive CLK edge ;
- Data and data mask referenced to both edges of DQS
- 4 bank operation controlled by BA0 , BA1 (Bank Address)
- /CAS latency - 2.0 / 2.5 / 3.0 (programmable) ;
Burst length - 2 / 4 / 8 (programmable)
Burst type - Sequential / Interleave (programmable)
- Auto precharge / All bank precharge controlled by A10
- Support concurrent auto-precharge
- 8192 refresh cycles / 64ms (4 banks concurrent refresh)
- Auto refresh and Self refresh
- Row address A0-12 / Column address A0-9(x8) /A0-8(x16)
- SSTL_2 Interface
- Package 400-mil, 66-pin Thin Small Outline Package (TSOP II) with 0.65mm lead pitch

151

harman/kardon

AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM
Pin Assignment (Top View) 66-pin TSOP

x8
x16
VDD
DQ0
VDDQ
NC
DQ1
VSSQ
NC
DQ2
VDDQ
NC
DQ3
VSSQ
NC
NC
VDDQ
NC
NC
VDD
NC
NC
/WE
/CAS
/RAS
/CS
NC
BA0
BA1
A10/AP
A0
A1
A2
A3
VDD

VDD
DQ0
VDDQ
DQ1
DQ2
VSSQ
DQ3
DQ4
VDDQ
DQ5
DQ6
VSSQ
DQ7
NC
VDDQ
LDQS
NC
VDD
NC
LDM
/WE
/CAS
/RAS
/CS
NC
BA0
BA1
A10/AP
A0
A1
A2
A3
VDD

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
26
27
28
29
30
31
32
33

66pin TSOP(II)

400mil width
x
875mil length
0.65mm
Lead Pitch
Row
A0-12
Column

CLK, /CLK
CKE
/CS
/RAS
/CAS
/WE

: Master Clock
: Clock Enable
: Chip Select
: Row Address Strobe
: Column Address Strobe
: Write Enable

DQ0-15
DQ0-7
UDM, LDM
DM
UDQS, LDQS
DQS

: Data I/O (x16)
: Data I/O (x8)
: Write Mask (x16)
: Write Mask (x8)
: Data Strobe (x16)
: Data Strobe (x8)

A0-9 (x8)
A0-8 (x16)

66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34

A0-12
BA0,1
Vdd
VddQ
Vss
VssQ

152

VSS
DQ15
VSSQ
DQ14
DQ13
VDDQ
DQ12
DQ11
VSSQ
DQ10
DQ9
VDDQ
DQ8
NC
VSSQ
UDQS
NC
VREF
VSS
UDM
/CLK
CLK
CKE
NC
A12
A11
A9
A8
A7
A6
A5
A4
VSS

VSS
DQ7
VSSQ
NC
DQ6
VDDQ
NC
DQ5
VSSQ
NC
DQ4
VDDQ
NC
NC
VSSQ
DQS
NC
VREF
VSS
DM
/CLK
CLK
CKE
NC
A12
A11
A9
A8
A7
A6
A5
A4
VSS

: Address Input
: Bank Address Input
: Power Supply
: Power Supply for Output
: Ground
: Ground for Output

harman/kardon

AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

PIN FUNCTION
SYMBOL

TYPE

DESCRIPTION

Input

Clock: CLK and /CLK are differential clock inputs. All address and control
input signals are sampled on the crossing of the positive edge of CLK and
negative edge of /CLK. Output (read) data is referenced to the crossings of
CLK and /CLK (both directions of crossing).

CKE

Input

Clock Enable: CKE controls internal clock. When CKE is low, internal clock
for the following cycle is ceased. CKE is also used to select auto / self refresh.
After self refresh mode is started, CKE becomes asynchronous input. Self refresh
is maintained as long as CKE is low.

/CS

Input

Chip Select: When /CS is high, any command means No Operation.

/RAS, /CAS, /WE

Input

Combination of /RAS, /CAS, /WE defines basic commands.

A0-12

Input

A0-12 specify the Row / Column Address in conjunction with BA0,1. The
Row Address is specified by A0-12. The Column Address is specified by
A0-9(x8) and A0-8(x16). A10 is also used to indicate precharge
option. When A10 is high at a read / write command, an auto precharge is
performed. When A10 is high at a precharge command, all banks are
precharged.

BA0,1

Input

Bank Address: BA0,1 specifies one of four banks to which a command is
applied. BA0,1 must be set with ACT, PRE, READ, WRITE commands.

CLK, /CLK

DQ0-7 (x8),
DQ0-15 (x16),

Input / Output

DQS (x8)
Input / Output
UDQS, LDQS (x16)

DM (x8)
UDM, LDM (x16)

Input

Data Input/Output: Data bus
Data Strobe: Output with read data, input with write data. Edge-aligned
with read data, centered in write data. Used to capture write data.
For the x16, LDQS corresponds to the data on DQ0-DQ7; UDQS
correspond to the data on DQ8-DQ15
Input Data Mask: DM is an input mask signal for write data. Input data
is masked when DM is sampled HIGH along with that input data
during a WRITE access. DM is sampled on both edges of DQS.
Although DM pins are input only, the DM loading matches the DQ
and DQS loading. For the x16, LDM corresponds to the data on DQ0-DQ7;
UDM corresponds to the data on DQ8-DQ15.

Vdd, Vss

Power Supply

Power Supply for the memory array and peripheral circuitry.

VddQ, VssQ

Power Supply

VddQ and VssQ are supplied to the Output Buffers only.

Vref

Input

SSTL_2 reference voltage.

153

harman/kardon

AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

DQS

DQ0 - 7

BLOCK DIAGRAM
A3S56D30ETP
DLL

I/O Buffer

Memory
Array
Bank #0

Memory
Array
Bank #1

DQS Buffer

Memory
Array
Bank #2

Memory
Array
Bank #3

Mode Register
Control Circuitry

Address Buffer

Control Signal Buffer
Clock Buffer

A0-12

/CS /RAS /CAS /WE

BA0,1

DM

CLK /CLK CKE

Type Designation Code

This rule is applied to only Synchronous DRAM family.

A 3 S 56 D 3 0 E TP –G5
Speed Grade

6: 166MHz @CL=3.0/2.5, and 133MHz @CL=2.0
5: 200MHz @CL=3.0, 166MHz @CL=2.5, and 133MHz @CL=2.0
5E: 200MHz @CL=3.0/2.5, and 133MHz @CL=2.0

Package Type TP: TSOP(II)
Process Generation
Function Reserved for Future Use
Organization 2 n 3: x8
DDR Synchronous DRAM
Density 56: 256M bits
Interface S:SSTL_3, _2
Memory Style (DRAM)
Zentel DRAM

154

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AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

DQ0 - 15

UDQS, LDQS

I/O Buffer

DQS Buffer

BLOCK DIAGRAM
A3S56D40ETP
DLL

Memory
Array
Bank #0

Memory
Array
Bank #1

Memory
Array
Bank #2

Memory
Array
Bank #3

Mode Register
Control Circuitry

Address Buffer

Control Signal Buffer
Clock Buffer

A0-12

/CS /RAS /CAS /WE

BA0,1
CLK /CLK CKE

Type Designation Code

UDM,
LDM

This rule is applied to only Synchronous DRAM family.

A 3 S 56 D 4 0 E TP –G5
Speed Grade

6: 166MHz @CL=3.0/2.5, and 133MHz @CL=2.0
5: 200MHz @CL=3.0, 166MHz @CL=2.5, and 133MHz @CL=2.0
5E: 200MHz @CL=3.0/2.5, and 133MHz @CL=2.0

Package Type TP: TSOP(II)
Process Generation
Function Reserved for Future Use
Organization 2 n 4: x16
DDR Synchronous DRAM
Density 56: 256M bits
Interface S:SSTL_3, _2
Memory Style (DRAM)
Zentel DRAM

155

harman/kardon

AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

BASIC FUNCTIONS
The A3S56D30/40ETP provides basic functions, bank (row) activate, burst read / write, bank
(row) precharge, and auto / self refresh. Each command is defined by control signals of /RAS,
/CAS and /WE at CLK rising edge. In addition to 3 signals, /CS , CKE and A10 are used as chip
select, refresh option, and precharge option, respectively. To know the detailed definition of
commands, please see the command truth table.
/CLK
CLK
/CS

Chip Select : L=select, H=deselect

/RAS

Command

/CAS

Command

/WE

Command

CKE

Refresh Option @refresh command

A10

Precharge Option @precharge or read/write command

define basic commands

Activate (ACT) [/RAS =L, /CAS =/WE =H]
ACT command activates a row in an idle bank indicated by BA.
Read (READ) [/RAS =H, /CAS =L, /WE =H]
READ command starts burst read from the active bank indicated by BA. First output data appears after
/CAS latency. When A10 =H at this command, the bank is deactivated after the burst read (autoprecharge, READA)

Write (WRITE) [/RAS =H, /CAS =/WE =L]
WRITE command starts burst write to the active bank indicated by BA. Total data length to be written
is set by burst length. When A10 =H at this command, the bank is deactivated after the burst write
(auto-precharge, WRITEA)
Precharge (PRE) [/RAS =L, /CAS =H, /WE =L]
PRE command deactivates the active bank indicated by BA. This command also terminates burst read
/write operation. When A10 =H at this command, all banks are deactivated (precharge all, PREA ).
Auto-Refresh (REFA) [/RAS =/CAS =L, /WE =CKE =H]
REFA command starts auto-refresh cycle. Refresh address including bank address are generated
internally. After this command, the banks are precharged automatically.
156

harman/kardon

AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

COMMAND TRUTH TABLE
MNEMONIC

CKE
n-1

CKE
n

/CS

/RAS

/CAS

Deselect

DESEL

H

X

H

X

X

X

X

X

X

No Operation

NOP

H

X

L

H

H

H

X

X

X

Row Address Entry &
Bank Activate

ACT

H

H

L

L

H

H

V

V

V

Single Bank Precharge

PRE

H

H

L

L

H

L

V

L

X

PREA

H

H

L

L

H

L

X

H

X

Column Address Entry
& Write

WRITE

H

H

L

H

L

L

V

L

V

Column Address Entry
& Write with
Auto-Precharge

WRITEA

H

H

L

H

L

L

V

H

V

Column Address Entry
& Read

READ

H

H

L

H

L

H

V

L

V

Column Address Entry
& Read with
Auto-Precharge

READA

H

H

L

H

L

H

V

H

V

Auto-Refresh

REFA

H

H

L

L

L

H

X

X

X

Self-Refresh Entry

REFS

H

L

L

L

L

H

X

X

X

L

H

H

X

X

X

X

X

X

Self-Refresh Exit

REFSX

L

H

L

H

H

H

X

X

X

Burst Terminate

TERM

H

H

L

H

H

L

X

X

X

1

Mode Register Set

MRS

H

H

L

L

L

L

L

L

V

2

COMMAND

Precharge All Banks

/WE BA0,1

A10
/AP

A0-9, note
11-12

H=High Level, L=Low Level, V=Valid, X=Don't Care, n=CLK cycle number
NOTE:
1. Applies only to read bursts with autoprecharge disabled; this command is undefined (and should not be used) for
read bursts with autoprecharge enabled, and for write bursts.
2. BA0-BA1 select either the Base or the Extended Mode Register (BA0 = 0, BA1 = 0 selects Mode Register;BA0=1 ,
BA1 = 0 selects Extended Mode Register; other combinations of BA0-BA1 are reserved; A0-A12 provide the
op-code to be written to the selected Mode Register.

157

harman/kardon

AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

FUNCTION TRUTH TABLE
Current State
IDLE

/CS /RAS /CAS /WE Address
H
X
X
X X
L

ROW ACTIVE

READ(AutoPrecharge
Disabled)

H

H

Command
DESEL

Action
NOP

H X

NOP

NOP

BA

Notes

L

H

H

L

TERM

ILLEGAL

2

L

H

L

X BA, CA, A10

READ / WRITE

ILLEGAL

2

L
L

L
L

H
H

H BA, RA
L BA, A10

ACT
PRE / PREA

Bank Active, Latch RA
NOP

4

L

L

L

Auto-Refresh

5

L

L

L

Mode Register Set

5

H

X

X

H X
REFA
Op-Code, ModeL
MRS
Add
X X
DESEL

NOP

L

H

H

H X

NOP

NOP

L

H

H

L

TERM

L

H

L

H BA, CA, A10

READ / READA

L

H

L

L

WRITE / WRITEA

L

L

H

H BA, RA

ACT

ILLEGAL
Begin Read, Latch CA, Determine
Auto-Precharge
Begin Write, Latch CA, Determine
Auto-Precharge
Bank Active / ILLEGAL

L

L

H

L

PRE / PREA

Precharge / Precharge All

L

L

L

L

L

L

ILLEGAL

H

X

X

H X
REFA
Op-Code, ModeL
MRS
Add
X X
DESEL

BA

BA, CA, A10

BA, A10

2

ILLEGAL

NOP (Continue Burst to END)

L

H

H

H X

NOP

NOP (Continue Burst to END)

L

H

H

L

TERM

L

H

L

H BA, CA, A10

READ / READA

3

L

H

L

L

WRITE / WRITEA

Terminate Burst
Terminate Burst, Latch CA, Begin
New Read, Determine AutoPrecharge
ILLEGAL

L

L

H

H BA, RA

ACT

Bank Active / ILLEGAL

2

L

L

H

L

PRE / PREA

Terminate Burst, Precharge

L

L

L

L

L

L

H X
REFA
Op-Code, ModeL
MRS
Add

BA

BA, CA, A10
BA, A10

158

ILLEGAL
ILLEGAL

harman/kardon

AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

FUNCTION TRUTH TABLE (continued)
Current State
WRITE(AutoPrecharge
Disabled)

READ with
Auto-Precharge

WRITE with
Auto-Precharge

/CS /RAS /CAS /WE Address
H
X
X
X X

Command
DESEL

Action
NOP (Continue Burst to END)

L
L

H
H

H
H

H X
L BA

NOP
TERM

L

H

L

H BA, CA, A10

READ / READA

L

H

L

L

WRITE / WRITEA

L

L

H

H BA, RA

ACT

NOP (Continue Burst to END)
ILLEGAL
Terminate Burst, Latch CA, Begin
Read, Determine Auto-Precharge
Terminate Burst, Latch CA, Begin
Write, Determine Auto-Precharge
Bank Active / ILLEGAL

L

L

H

L

PRE / PREA

Terminate Burst, Precharge

L

L

L

ILLEGAL

L

L

L

H

X

X

H X
REFA
Op-Code, ModeL
MRS
Add
X X
DESEL

BA, CA, A10

BA, A10

Notes

3
3
2

ILLEGAL
NOP (Continue Burst to END)

L

H

H

H X

NOP

NOP (Continue Burst to END)

L
L
L
L

H
H
H
L

H
L
L
H

L
H
L
H

BA
BA, CA, A10
BA, CA, A10
BA, RA

TERM
READ / READA
WRITE / WRITEA
ACT

ILLEGAL
Support Concurrent Auto-Precharge
Support Concurrent Auto-Precharge
Bank Active / ILLEGAL

2

L

L

H

L

BA, A10

PRE / PREA

Precharge / ILLEGAL

2

L

L

L

ILLEGAL

L

L

L

H

X

X

H X
REFA
Op-Code, ModeL
MRS
Add
X X
DESEL

L

H

H

H X

NOP

NOP (Continue Burst to END)

L
L
L
L

H
H
H
L

H
L
L
H

L
H
L
H

BA
BA, CA, A10
BA, CA, A10
BA, RA

TERM
READ / READA
WRITE / WRITEA
ACT

ILLEGAL
Support Concurrent Auto-Precharge
Support Concurrent Auto-Precharge
Bank Active / ILLEGAL

2

L

L

H

L

BA, A10

PRE / PREA

Precharge / ILLEGAL

2

L

L

L

L

L

L

H X
REFA
Op-Code, ModeL
MRS
Add

159

ILLEGAL
NOP (Continue Burst to END)

ILLEGAL
ILLEGAL

harman/kardon

AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

FUNCTION TRUTH TABLE (continued)
Current State
PRECHARGING

ROW
ACTIVATING

WRITE RECOVERING

/CS /RAS /CAS /WE Address
H
X
X
X X
L
H
H
H X

Command
DESEL
NOP

Action
NOP (Idle after tRP)
NOP (Idle after tRP)

Notes

L
L
L

H
H
L

H
L
H

L BA
X BA, CA, A10
H BA, RA

TERM
READ / WRITE
ACT

ILLEGAL
ILLEGAL
ILLEGAL

2
2
2

L

L

H

L

PRE / PREA

NOP (Idle after tRP)

4

L

L

L

REFA

ILLEGAL

L

L

L

MRS

ILLEGAL

H
L

X
H

X
H

H X
Op-Code, ModeL
Add
X X
H X

DESEL
NOP

NOP (Row Active after tRCD)
NOP (Row Active after tRCD)

L
L
L

H
H
L

H
L
H

L BA
X BA, CA, A10
H BA, RA

TERM
READ / WRITE
ACT

ILLEGAL
ILLEGAL
ILLEGAL

2
2
2

L

L

H

L

PRE / PREA

ILLEGAL

2

L

L

L

L

L

L

H

X

X

H X
REFA
Op-Code, ModeL
MRS
Add
X X
DESEL

NOP

L

H

H

H X

NOP

NOP

L
L
L

H
H
L

H
L
H

L BA
X BA, CA, A10
H BA, RA

TERM
READ / WRITE
ACT

ILLEGAL
ILLEGAL
ILLEGAL

2
2
2

L

L

H

L

PRE / PREA

ILLEGAL

2

L

L

L

L

L

L

H X
REFA
Op-Code, ModeL
MRS
Add

BA, A10

BA, A10

BA, A10

160

ILLEGAL
ILLEGAL

ILLEGAL
ILLEGAL

harman/kardon

AVR2600

A3S56D30ETP
A3S56D40ETP
256M Double Data Rate Synchronous DRAM

FUNCTION TRUTH TABLE (continued)
Current State /CS /RAS /CAS /WE Address
REFRESHING H
X
X
X X

MODE
REGISTER
SETTING

L
L
L
L
L
L

H
H
H
L
L
L

H
H
L
H
H
L

H
L
X
H
L
H

L

L

L

L

H
L
L
L
L
L
L

X
H
H
H
L
L
L

X
H
H
L
H
H
L

X
H
L
X
H
L
H

L

L

L

L

X
BA
BA, CA, A10
BA, RA
BA, A10
X
Op-Code, ModeAdd
X
X
BA
BA, CA, A10
BA, RA
BA, A10
X
Op-Code, ModeAdd

Command
DESEL

Action
NOP (Idle after tRC)

NOP
TERM
READ / WRITE
ACT
PRE / PREA
REFA

NOP (Idle after tRC)
ILLEGAL
ILLEGAL
ILLEGAL
ILLEGAL
ILLEGAL

MRS

ILLEGAL

DESEL
NOP
TERM
READ / WRITE
ACT
PRE / PREA
REFA

NOP (Row Active after tRSC)
NOP (Row Active after tRSC)
ILLEGAL
ILLEGAL
ILLEGAL
ILLEGAL
ILLEGAL

MRS

ILLEGAL

Notes

ABBREVIATIONS:
H=High Level, L=Low Level, X=Don't Care
BA=Bank Address, RA=Row Address, CA=Column Address, NOP=No Operation
NOTES:
1. All entries assume that CKE was High during the preceding clock cycle and the current clock cycle.
2. ILLEGAL to bank in specified state; function may be legal in the bank indicated by BA, depending on the state of
that bank.
3. Must satisfy bus contention, bus turn around, write recovery requirements.
4. NOP to bank precharging or in idle state. May precharge bank indicated by BA.
5. ILLEGAL if any bank is not idle.
ILLEGAL = Device operation and/or data-integrity are not guaranteed.

161

harman/kardon

AVR2600

ESMT

M12L16161A

SDRAM

512K x 16Bit x 2Banks
Synchronous DRAM

FEATURES
z
z
z
z

z
z
z
z
z

GENERAL DESCRIPTION

JEDEC standard 3.3V power supply
LVTTL compatible with multiplexed address
Dual banks operation
MRS cycle with address key programs
CAS Latency (2 & 3 )
Burst Length (1, 2, 4, 8 & full page)
Burst Type (Sequential & Interleave)
All inputs are sampled at the positive going edge of the
system clock
Burst Read Single-bit Write operation
DQM for masking
Auto & self refresh
32ms refresh period (2K cycle)

The M12L16161A is 16,777,216 bits synchronous high
data rate Dynamic RAM organized as 2 x 524,288 words by
16 bits, fabricated with high performance CMOS technology.
Synchronous design allows precise cycle control with the
use of system clock I/O transactions are possible on every
clock cycle. Range of operating frequencies, programmable
burst length and programmable latencies allow the same
device to be useful for a variety of high bandwidth, high
performance memory system applications.

ORDERING INFORMATION
Part NO.

MAX Freq.

M12L16161A-5TG

200MHz

TSOP(II)

Pb-free

M12L16161A-7TG

143MHz

TSOP(II)

Pb-free

143MHz

VFBGA

Pb-free

M12L16161A-7BG

PACKAGE COMMENTS

PIN CONFIGURATION (TOP VIEW)
VDD

1

50

VSS

DQ0

2

49

DQ15

DQ1

3

48

DQ14

VSSQ

4

47

VSSQ

DQ2

5

46

DQ13

DQ3

6

45

DQ12

VDDQ

7

44

VDDQ

DQ4

8

43

DQ11

DQ5

9

42

DQ10

VSSQ

10

41

VSSQ

DQ6

11

40

DQ9

DQ7

12

39

DQ8

VDDQ

13

38

VDDQ

LDQM

14

37

N.C/RFU

WE

15

36

UDQM

CAS

16

35

CLK

RAS

17

34

CKE

CS

18

33

N.C

BA

19

32

A9

A10/AP

20

31

A8

A0

21

30

A7

A1

22

29

A6

A2

23

28

A5

A3

24

27

A4

VDD

25

26

VSS

50PIN TSOP(II)
(400mil x 825mil)
(0.8 mm PIN PITCH)

Elite Semiconductor Memory Technology Inc.

1

2

6

7

A

VSS

DQ15

3

4

5

DQ0

VDD

B

DQ14

VSSQ

VDDQ

DQ1

C

DQ13

VDDQ

VSSQ

DQ2

D

DQ12

DQ11

DQ4

DQ3

E

DQ10

VSSQ

VDDQ

DQ5

F

DQ9

VDDQ

VSSQ

DQ6

G

DQ8

NC

NC

DQ7

H

NC

NC

NC

NC

J

NC

UDQM

LDQM

WE

K

NC

CLK

RAS

CAS

L

CKE

NC

NC

CS

M

A11

A9

NC

NC

N

A8

A7

A0

A10

P

A6

A5

A2

A1

R

VSS

A4

A3

VDD

60 Ball VFBGA
(6.4x10.1mm)
(0.65mm ball pitch)

Publication Date : May. 2005
Revision : 2.4
2/30
162

harman/kardon

AVR2600

ESMT

M12L16161A

FUNCTIONAL BLOCK DIAGRAM

512K x 16

Output Buffer

Col. Buffer

LCKE

512K x 16

Sense AMP

Row Decoder

LRAS

LCBR

ADD

Row Buffer
Refresh Counter

Address Register

CLK

Data Input Register

I/O Control

Bank Select

LWE
LDQM

DQi

Column Decoder
Latency & Burst Length

Programming Register
LRAS

LCBR

LWE

LCAS

LWCBR

LDQM

Timing Register
CLK

CKE

CS

RAS

CAS

WE

L(U)DQM

PIN FUNCTION DESCRIPTION
CLK

Pin

Name
System Clock

CS

Chip Select

CKE

Clock Enable

A0 ~ A10/AP

Address

BA

Bank Select Address

RAS

Row Address Strobe

CAS

Column Address Strobe

WE

Write Enable

L(U)DQM

Data Input / Output Mask

DQ0 ~ 15
VDD/VSS

Data Input / Output
Power Supply/Ground

VDDQ/VSSQ

Data Output Power/Ground

Input Function
Active on the positive going edge to sample all inputs.
Disables or enables device operation by masking or enabling all inputs except
CLK, CKE and L(U)DQM.
Masks system clock to freeze operation from the next clock cycle.
CKE should be enabled at least one cycle prior to new command.
Disable input buffers for power down in standby.
Row / column addresses are multiplexed on the same pins.
Row address : RA0 ~ RA10, column address : CA0 ~ CA7
Selects bank to be activated during row address latch time.
Selects bank for read/write during column address latch time.
Latches row addresses on the positive going edge of the CLK with RAS low.
Enables row access & precharge.
Latches column addresses on the positive going edge of the CLK with
CAS low.
Enables column access.
Enables write operation and row precharge.
Latches data in starting from CAS , WE active.
Makes data output Hi-Z, tSHZ after the clock and masks the output.
Blocks data input when L(U)DQM active.
Data inputs/outputs are multiplexed on the same pins.
Power and ground for the input buffers and the core logic.
Isolated power supply and ground for the output buffers to provide improved
noise immunity.

No Connection/
This pin is recommended to be left No Connection on the device.
Reserved for Future Use
Elite Semiconductor Memory Technology Inc.
Publication Date : May.
N.C/RFU

163

2005

harman/kardon

AVR2600

CS4970x4 Data Sheet
FEATURES
‰ Multi-standard 32-bit High Definition Audio Decoding plus
Post Processing
‰ Supports high-definition audio formats including:

32-bit High Definition Audio Decoder DSP
Family with Dual DSP Engine Technology

— Dolby Digital® Plus

‰ Customer Software Security Keys

— Dolby® TrueHD
™

— DTS-HD

‰ 6 Channel DSD® Input
‰ 16 Ch x 32-bit PCM Out with Dual 192 kHz SPDIF Tx

High Resolution Audio

— DTS-HD™ Master Audio
— DSD®
‰ Additional Applications Library
— Dolby Digital® EX, Dolby® Pro Logic® IIx, Dolby
Headphone®, Dolby® Virtual Speaker®
— DTS-ES 96/24™, DTS-ES™ Discrete 6.1, DTS-ES™
Matrix 6.1
— AAC™ Multichannel 5.1
— SRS® CS2® and TSXT®
— THX® Ultra2™, THX® ReEQ™
— Crossbar Mixer, Signal Generator
— Advanced Post-Processor including: 7.1 Bass Manager,
Tone Control, 11- Band Parametric EQ, Delay, 1:2
Upsampler
— Microsoft® HDCD®
— Thomson MP3 Surround, DTS:Neo6™, DSD-to-PCM
Conversion, Neural Surround, Cirrus Original MultiChannel Surround 2 (COMS2), and more. Please contact
your local FAE for more information on available
applications.
‰ Up to 12 Channels of 32-bit Serial Audio Input

Serial
Control 1

Serial
Control 2

‰ Two SPI™/I2C®, One Parallel and One UART Port
‰ Large On-chip X, Y, and Program RAM & ROM
‰ SDRAM and Serial Flash Memory Support

The CS4970x4 DSP family is an enhanced version of the
CS4953x DSP family with higher overall performance. In
addition to all the mainstream audio processing codes in onchip ROM that the CS4953x DSP offers, the CS4970x4 device
family also supports the decoding of major high-definition
audio formats. Additionally, the CS4970x4, a dual-core device,
performs the high-definition audio decoding on the first core,
leaving the second core available for audio post-processing and
audio enhancement. The CS4970x4 device will support the
most demanding audio post processing requirements. It is also
designed as an easy upgrade path to systems currently using
the CS495xx or CS4953x device with minor hardware and
software changes.
Ordering Information
See page 30 for ordering information.

Parallel
Control

UART

GPIO

12 Ch. Audio In /
6 Ch. SACD In

STC
D
M
A

32-bit
DSP A
S/PDIF

S/PDIF

Debug

P

X

Y

32-bit
DSP B

TMR1
TMR2

P

X

Y

16 Ch PCM
Audio Out
Ext. Memory Controller

Preliminary Product Information

PLL

This document contains information for a new product.
Cirrus Logic reserves the right to modify this product without notice.
Copyright 2008 Cirrus Logic

http://www.cirrus.com

164

SEP ‘08
DS752PP7

harman/kardon

AVR2600

CS4970x4 Data Sheet
32-bit High Definition Audio Decoder DSP Family

8. Device Pin-Out Diagram

GPIO38, PCP_WR# / DS#, SCP2_CLK

SD_A10, EXT_A10

SD_BA0, EXT_A13

SD_BA1, EXT_A14

105 GNDIO5

SD_WE#

SD_CAS#

SD_RAS#

EXT_A15

110 SD_CS#

VDD5

EXT_A16

EXT_A17

EXT_A18

115 GND5

EXT_A19

EXT_OE#

EXT_CS1#

RESET#

120 VDDIO6

GNDIO6

GPIO33, SCP1_MOSI

GPIO34, SCP1__MISO / SDA

GPIO35, SCP1_CLK

125 VDD6

GND6

GPIO37, SCP1_BSY#, PCP_BSY#

8.1 128-Pin LQFP Pin-Out Diagram

1

SD_A0, EXT_A0

GPIO11, PCP_A3, AS#, SCP2_MISO / SDA

SD_A1, EXT_A1
100 VDDIO5

GPIO10, PCP_A2 / A10, SCP2_MOSI

SD_A2, EXT_A2

GPOI9, SCP1_IRQ#
GPIO8, PCP_IRQ#, SCP2_IRQ#

GND4

5

SD_A3, EXT_A3

GPIO7, SCP1_CS#, IOWAIT

SD_A4, EXT_A4

GPIO6, PCP_CS#, SCP2_CS#

95 VDD4

VDDIO7

EXT_CS2#

GNDIO7

SD_A5, EXT_A5

GPIO3, DDAC 10

GNDIO4

GPIO2, UART_TXD
VDD7

SD_A6, EXT_A6

GPIO1, UART_RXD

90 SD_A7, EXT_A7
VDDIO4

GPIO0, UART_CLK, EE_CS#

SD_A8, EXT_A8

GND7 15

SD_A9, EXT_A9

XTAL_OUT

GND3

XTI

85 SD_A11, EXT_A11

XTO
GNDA

SD_A12, EXT_A12

CS497xx4

PLL_REF_RES 20

VDD3
SD_CLKEN

128-Pin LQFP

VDDA (3.3V)

SD_CLKIN

VDD8

80 SD_CLKOUT

GPIO14, DAI1_DATA3, TM3, DSD3

SD_DQM1

GPIO13, DAI1_DATA2, TM2, DSD2

SD_D8, EXT_D8

GND8 25

SD_D9, EXT_D9

GPIO12, DAI1_DATA1, TM1, DSD1

GNDIO3

DAI1_DATA0, TM0, DSD0

75 SD_D10, EXT_D10

VDDIO8

SD_D11, EXT_D11

DAI1_SCLK, DSD-CLK

VDDIO3

DAI1_LRCLK, DSD4 30

SD_D12, EXT_D12

GNDIO8

SD_D13, EXT_D13

GPIO42, BDI_REQ# , DAI2_LRCLK, PCP_IRQ# / BSY#

70 SD_D14, EXT_D14

GPIO43, BDI_CLK, DAI2_SCLK

SD_D15, EXT_D15

BDI_DATA, DAI2_DATA, DSD5

SD_D0, EXT_D0

GPIO26, DAO2_DATA3 / XMTB/UART_TX_EN 35

GNDIO2

DBDA

EXT_WE#

DBCK

65 SD_D1, EXT_D1

Figure 20. 128-Pin LQFP Pin-Out Diagram

165

SD_D2, EXT_D2

SD_D3, EXT_D3

VDDIO2

SD_D4, EXT_D4

SD_D5, EXT_D5 60

SD_D6, EXT_D6

SD_D7, EXT_D7

SD_DQM0

GND2

VDD2 55

GNDIO1

DAO1_LRCLK

DAO1_SCLK

DAO1_DATA0, HS0

VDDIO1 50

GPIO16, DAO1_DATA2, HS2

GPIO15, DAO1_DATA1, HS1

GND1 45
GPIO23,
DAO2_LRCLK
GPIO17, DAO1_DATA3 / XMTA

GPIO22, DAO2_SCLK

GPIO18, DAO2_DATA0, HS3

VDD1

TEST

DAO_MCLK 40

GPIO19, DAO2_DATA1, HS4

GPIO20, DAO2_DATA2

harman/kardon

AVR2600
CS4970x4 Data Sheet
32-bit High Definition Audio Decoder DSP Family

SD_A10, EXT_A10

73 VDDIO5

75 SD_BA0, EXT_A13

SD_BA1, EXT_A14

76 GNDIO5

SD_WE#

SD_CAS#

80 SD_RAS#

EXT_A15

SD_CS#

EXT_A16

83 VDD5

85 EXT_A17

EXT_A18

86 GND5

EXT_A19

EXT_OE#

90 EXT_CS1#

GPIO30, XMTB_IN

91 VDDIO6

RESET#

94 GNDIO6

95 GPIO33, SCP1_MOSI

GPIO34, SCP1__MISO / SDA

GPIO32, SCP1_CS#, IOWAIT

GPIO35, SCP1_CLK

98 VDD6

100 GPOI36, SCP1_IRQ#

GPIO37, SCP1_BSY#, PCP_BSY#

101 GND6

GPIO38, PCP_WR# / DS#, SCP2_CLK

GPIO39, PCP_CS#, SCP2_CS#

GPIO10, PCP_A2 / A10, SCP2_MOSI

105 GPIO11, PCP_A3, AS#, SCP2_MISO / SDA

GPIO40, PCP_RD# / RW#

108 GPIO41, PCP_IRQ#, SCP2_IRQ#

8.2 144-Pin LQFP Pin-Out Diagram

GPIO9, PCP_A1 / A9 109

72 SD_A0, EXT_A0
SD_A1, EXT_A1

GPIO8, PCP_A0 / A8 110
GPIO7, PCP_AD7 / D7

70 SD_A2, EXT_A2

GPIO6, PCP_AD6 / D6

69 GND4
SD_A3, EXT_A3

VDDIO7 113

SD_A4, EXT_A4

GPIO5, PCP_AD5 / D5

66 VDD4

GPIO4, PCP_AD4 / D4 115

65 EXT_CS2#

GNDIO7 116

SD_A5, EXT_A5

GPIO3, PCP_AD3 / D3

63 GNDIO4

GPIO2, PCP_AD2 / D2

SD_A6, EXT_A6

VDD7 119

SD_A7, EXT_A7

GPIO1, PCP_AD1 / D1 120

60 VDDIO4

GPIO0, PCP_AD0 / D0

SD_A8, EXT_A8

GND7 122

SD_A9, EXT_A9

XTAL_OUT

57 GND3

XTI
XTO 125

SD_A11, EXT_A11

CS497xx4

GNDA 126
NC

55 SD_A12, EXT_A12
54 VDD3

144-Pin LQFP

PLL_REF_RES

SD_CLKEN
SD_CLKIN

VDDA (3.3V) 129

SD_CLKOUT

VDD8 130

50 SD_DQM1

GPIO14, DAI1_DATA3, TM3, DSD3

SD_D8, EXT_D8

GPIO13, DAI1_DATA2, TM2, DSD2

SD_D9, EXT_D9

GND8 133

47 GNDIO3

GPIO12, DAI1_DATA1, TM1, DSD1
DAI1_DATA0, TM0, DSD0 135

SD_D10, EXT_D10

VDDIO8 136

45 SD_D11, EXT_D11
44 VDDIO3

DAI1_SCLK, DSD-CLK

SD_D12, EXT_D12

DAI1_LRCLK, DSD4

SD_D13, EXT_D13

GNDIO8 139
GPIO42, BDI_REQ# , DAI2_LRCLK, PCP_IRQ# / BSY# 140

SD_D14, EXT_D14
40 SD_D15, EXT_D15

GPIO43, BDI_CLK, DAI2_SCLK

SD_D0, EXT_D0

BDI_DATA, DAI2_DATA, DSD5

EXT_WE#

GPIO27
GPIO26 144

166

GNDIO2 36

35
SD_D2, EXT_D2

SD_D3, EXT_D3

33
VDDIO2

SD_D4, EXT_D4

SD_D5, EXT_D5

30
SD_D6, EXT_D6

27
GND2

SD_DQM0
SD_D7, EXT_D7

25

Figure 21. 144-Pin LQFP Pin-Out Diagram

GPIO24, UART_RXD

24
VDD2

GPIO25, UART_TXD, EE_CS#

GPIO31, UART_CLK

DAO1_LRCLK

21
GNDIO1

DAO1_SCLK

DAO1_DATA0, HS0

18
VDDIO1

GPIO15, DAO1_DATA1, HS1

GPIO16, DAO1_DATA2, HS2

15
GPIO23, DAO2_LRCLK

GPIO17, DAO1_DATA3 / XMTA

13
GND1

GPIO22, DAO2_SCLK

GPIO18, DAO2_DATA0, HS3

9

10

TEST

VDD1

DAO_MCLK

GPIO19, DAO2_DATA1, HS4

GPIO20, DAO2_DATA2

GPIO21, DAO2_DATA3 / XMTB, UART_TX_ENABLE 5

DBCK

DBDA

GPIO28, DDAC

GPIO29, XMTA_IN

1

37 SD_D1, EXT_D1

harman/kardon

AVR2600

MK2302S-01
Multiplier and Zero Delay Buffer
Description

Features

The MK2302S-01is a high performance Zero Delay
Buffer (ZDB) which integrates ICS’ proprietary
analog/digital Phase Locked Loop (PLL) techniques.
The chip is part of ICS’ ClockBlocksTM family and was
designed as a performance upgrade to meet today’s
higher speed and lower voltage requirements. The zero
delay feature means that the rising edge of the input
clock aligns with the rising edges of both output clocks,
giving the appearance of no delay through the device.
There are two outputs on the chip, one being a
low-skew divide by two of the other output.

•
•
•
•
•
•
•
•
•

The MK2302S-01 is ideal for synchronizing outputs in a
large variety of systems, from personal computers to
data communications to graphics/video. By allowing
off-chip feedback paths, the device can eliminate the
delay through other devices.

•
•
•

8 pin SOIC package
Low input to output skew of 250ps max
Absolute jitter ± 500ps
Propagation Delay ± 350ps
Ability to choose between different multipliers from
0.5X to 16X
Output clock frequency up to 133 MHz at 3.3V
Can recover degraded input clock duty cycle
Output clock duty cycle of 45/55
Full CMOS clock swings with 25mA drive capability
at TTL levels
Advanced, low power CMOS process
Operating voltage of 3.3V or 5V
Industrial temperature version available

Block Diagram

IC L K
S 1 :0

F B IN

d ivid e
by N

P h a se
D e te cto r,
C h a rg e
Pum p,
and Loop
F ilte r

VCO

C LK1
/2
C LK2

E x te rn a l fe e d b a ck c a n co m e fro m C L K 1 o r C L K 2 (se e ta b le o n p a g e 2 )

MDS 2302S-01 B
Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 ● tel (408) 295-9800 ● www.icst.com

167

harman/kardon

AVR2600

MK2302S-01
Multiplier and Zero Delay Buffer

Pin Assignment
FBIN

1

8

CLK2

ICLK

2

7

VDD

GND

3

6

CLK1

S0

4

5

S1

8 pin (150 mil) SOIC

Clock Multiplier Decoding Table 1
(Multiplies Input clock by shown amount)
FBIN

S1

S0

CLK1

CLK2

CLK1

0

0

2 X ICLK

ICLK

CLK1

0

1

4 X ICLK

2 X ICLK

CLK1

1

0

ICLK

ICLK/2

CLK1

1

1

8 X ICLK

4 X ICLK

CLK2

0

0

4 X ICLK

2 X ICLK

CLK2

0

1

8 X ICLK

4 X ICLK

CLK2

1

0

2 X ICLK

ICLK

CLK2

1

1

16 X ICLK

8 XICLK

Pin Descriptions
Pin
Number

Pin
Name

Pin
Type

1

FBIN

Input

2

ICLK

Input

Reference clock input.

3

GND

Power

Connect to ground.

4

S0

Input

Select 0 for output clock per decoding table above. Pull-up.

5

S1

Input

Select 1 for output clock per decoding table above. Pull up.

6

CLK1

Output

7

VDD

Power

Connect to +3.3V or +5.0V.

8

CLK2

Output

Clock output per table above. Low skew divide by two of pin 6 clock.

Pin Description
Feedback clock input.

Clock output per table above.

MDS 2302S-01 B
Integrated Circuit Systems, Inc. ● 525 Race Street, San Jose, CA 95126 ● tel (408) 295-9800 ● www.icst.com

168

harman/kardon

AVR2600

Multiformat Video Encoder
Six, 11-Bit, 297 MHz DACs
ADV7342/ADV7343
FEATURES

EIA/CEA-861B compliance support
Programmable features
Luma and chroma filter responses
Vertical blanking interval (VBI)
Subcarrier frequency (FSC) and phase
Luma delay
Copy generation management system (CGMS)
Closed captioning and wide screen signaling (WSS)
Integrated subcarrier locking to external video source
Complete on-chip video timing generator
On-chip test pattern generation
On-board voltage reference (optional external input)
Serial MPU interface with dual I2C® and SPI® compatibility
3.3 V analog operation
1.8 V digital operation
3.3 V I/O operation
Temperature range: −40°C to +85°C

74.25 MHz 20-/30-bit high definition input support
Compliant with SMPTE 274M (1080i), 296M (720p),
and 240M (1035i)
6, 11-bit, 297 MHz video DACs
16× (216 MHz) DAC oversampling for SD
8× (216 MHz) DAC oversampling for ED
4× (297 MHz) DAC oversampling for HD
37 mA maximum DAC output current
NTSC M, PAL B/D/G/H/I/M/N, PAL 60 support
NTSC and PAL square pixel operation (24.54 MHz/29.5 MHz)
Multiformat video input support
4:2:2 YCrCb (SD, ED, and HD)
4:4:4 YCrCb (ED and HD)
4:4:4 RGB (SD, ED, and HD)
Multiformat video output support
Composite (CVBS) and S-Video (Y/C)
Component YPrPb (SD, ED, and HD)
Component RGB (SD, ED, and HD)
Macrovision® Rev 7.1.L1 (SD) and Rev 1.2 (ED) compliant
Simultaneous SD and ED/HD operation

APPLICATIONS
DVD recorders and players
High definition Blu-ray DVD players
HD-DVD players

FUNCTIONAL BLOCK DIAGRAM

GND_IO

VDD (2)

VBI DATA SERVICE
INSERTION

SCL/ SDA/ ALSB/
MOSI SCLK SPI_SS

SFL/
MISO

MPU PORT

SUBCARRIER FREQUENCY
LOCK (SFL)

AGND

ADV7342/ADV7343

10-BIT
SD
VIDEO
DATA

4:2:2 TO 4:4:4
HD DDR
DEINTERLEAVE

R
G/B
20-BIT
ED/HD

VIDEO
DATA

RGB/YCrCb
TO
YUV
MATRIX

RGB
ASYNC
BYPASS

DEINTERLEAVE

POWER
MANAGEMENT
CONTROL

PROGRAMMABLE
LUMINANCE
FILTER

ADD
BURST

PROGRAMMABLE
CHROMINANCE
FILTER

SIN/COS DDS
BLOCK

16×
FILTER

RGB

YCbCr
ED/HD INPUT

ADD
SYNC

16×
FILTER

PROGRAMMABLE
HDTV FILTERS

HDTV
TEST
PATTERN
GENERATOR

YCbCr
TO
RGB MATRIX

SHARPNESS AND
ADAPTIVE FILTER
CONTROL

4×
FILTER

16x/4x OVERSAMPLING
DAC PLL

VIDEO TIMING GENERATOR

P_HSYNC P_VSYNC P_BLANK S_HSYNC S_VSYNC

CLKIN (2) PVDD

MULTIPLEXER

VDD_IO
YUV
TO
YCrCb/
RGB

VAA

11-BIT
DAC 1

DAC 1

11-BIT
DAC 2

DAC 2

11-BIT
DAC 3

DAC 3

11-BIT
DAC 4

DAC 4

11-BIT
DAC 5

DAC 5

11-BIT
DAC 6

DAC 6

REFERENCE
AND CABLE
DETECT

PGND EXT_LF (2) VREF

COMP (2)

RSET (2)

06399-001

DGND (2)

Figure 1.
Protected by U.S. Patent Numbers 5,343,196 and 5,442,355 and other intellectual property rights.
Protected by U.S. Patent Numbers 4,631,603, 4,577,216, 4,819,098 and other intellectual property rights.
Rev. 0
Information furnished by Analog Devices is believed to be accurate and reliable. However, no
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
rights of third parties that may result from its use. Specifications subject to change without notice. No
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Trademarks and registered trademarks are the property of their respective owners.

169

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700
www.analog.com
Fax: 781.461.3113
©2006 Analog Devices, Inc. All rights reserved.

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AVR2600

ADV7342/ADV7343

64 63 62 61 60 59 58

S_VSYNC

S_HSYNC

TEST4

TEST5

S0

S1

S2

VDD

DGND

S3

S4

S5

S6

S7

CLKIN_B

GND_IO

PIN CONFIGURATION AND FUNCTION DESCRIPTIONS
57 56 55 54 53 52 51 50 49

VDD_IO

1

TEST0

2

48 SFL/MISO

TEST1

3

46 VREF

Y0

4

45 COMP1

Y1

5

44 DAC 1

Y2

6

Y3

7

Y4

8

Y5

9

PIN 1

47 RSET1

43 DAC 2

ADV7342/ADV7343

42 DAC 3

TOP VIEW
(Not to Scale)

41 VAA
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

06399-021

PGND

EXT_LF2

CLKIN_A

C7

C6

C5

C4

C3

P_BLANK

P_VSYNC

P_HSYNC

SCL/MOSI

SDA/SCLK

ALSB/SPI_SS

C2

C1

17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

Figure 21. Pin Configuration

Table 13. Pin Function Descriptions
Mnemonic
Y7 to Y0

Input/
Output
I

Description
8-Bit Pixel Port. Y0 is the LSB. Refer to Table 31 for input modes.

C7 to C0

I

8-Bit Pixel Port. C0 is the LSB. Refer to Table 31 for input modes.

S7 to S0

I

8-Bit Pixel Port. S0 is the LSB. Refer to Table 31 for input modes.

TEST5 to
TEST0
CLKIN_A
CLKIN_B

I

Unused. These pins should be connected to DGND.

I
I

50

S_HSYNC

I/O

49

S_VSYNC

I/O

22

P_HSYNC

I

23

P_VSYNC

I

24
48

P_BLANK
SFL/MISO

I
I/O

47

RSET1

I

Pixel Clock Input for HD Only (74.25 MHz), ED 1 Only (27 MHz or 54 MHz) or SD Only (27 MHz).
Pixel Clock Input for Dual Modes Only. Requires a 27 MHz reference clock for ED operation or a
74.25 MHz reference clock for HD operation.
SD Horizontal Synchronization Signal. This pin can also be configured to output an SD, ED, or HD
horizontal synchronization signal. See the External Horizontal and Vertical Synchronization
Control section.
SD Vertical Synchronization Signal. This pin can also be configured to output an SD, ED, or HD
vertical synchronization signal. See the External Horizontal and Vertical Synchronization Control
section.
ED/HD Horizontal Synchronization Signal. See the External Horizontal and Vertical
Synchronization Control section.
ED/HD Vertical Synchronization Signal. See the External Horizontal and Vertical Synchronization
Control section.
ED/HD Blanking Signal. See the External Horizontal and Vertical Synchronization Control section.
Multifunctional Pin: Subcarrier Frequency Lock (SFL) Input/SPI Data Output. The SFL input is
used to drive the color subcarrier DDS system, timing reset, or subcarrier reset.
This pin is used to control the amplitudes of the DAC 1, DAC 2, and DAC 3 outputs. For full-drive
operation (for example, into a 37.5 Ω load), a 510 Ω resistor must be connected from RSET1 to
AGND. For low drive operation (for example, into a 300 Ω load), a 4.12 kΩ resistor must be
connected from RSET1 to AGND.

Pin No.
13, 12,
9 to 4
29 to 25,
18 to 16
62 to 58,
55 to 53
52, 51, 15,
14, 3, 2
30
63

Rev. 0 | Page 18 of 88

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ADV7342/ADV7343
Input/
Output
I

Pin No.
36

Mnemonic
RSET2

45, 35

21
20
19
46
41
10, 56

COMP1,
COMP2
DAC 1, DAC 2,
DAC 3
DAC 4, DAC 5,
DAC 6
SCL/MOSI
SDA/SCLK
ALSB/SPI_SS
VREF
VAA
VDD

1
34

VDD_IO
PVDD

P
P

33
31
32
40
11, 57
64

EXT_LF1
EXT_LF2
PGND
AGND
DGND
GND_IO

I
I
G
G
G
G

44, 43, 42
39, 38, 37

1
2

O

Description
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.
Compensation Pins. Connect a 2.2 nF capacitor from both COMP pins to VAA.

O

DAC Outputs. Full and low drive capable DACs.

O

DAC Outputs. Low drive only capable DACs.

I
I/O
I

Multifunctional Pin: I2C Clock Input/SPI Data Input.
Multifunctional Pin: I2C Data Input/Output. Also, SPI clock input.
Multifunctional Pin: This signal sets up the LSB 2 of the MPU I2C address. Also, SPI slave select.
Optional External Voltage Reference Input for DACs or Voltage Reference Output.
Analog Power Supply (3.3 V).
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.
Input/Output Digital Power Supply (3.3 V).
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.
External Loop Filter for On-Chip PLL 1.
External Loop Filter for On-Chip PLL 2.
PLL Ground Pin.
Analog Ground Pin.
Digital Ground Pin.
Input/Output Supply Ground Pin.

P
P

ED = enhanced definition = 525p and 625p.
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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AVR2600

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AVR2600

174

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AVR2600

175

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176

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AVR2600

M24C64
M24C32
64Kbit and 32Kbit Serial I²C Bus EEPROM
FEATURES SUMMARY
■
■

■
■
■
■
■
■
■
■

Figure 1. Packages

Two-Wire I2C Serial Interface
Supports 400kHz Protocol
Single Supply Voltage:
– 4.5 to 5.5V for M24Cxx
– 2.5 to 5.5V for M24Cxx-W
– 1.8 to 5.5V for M24Cxx-R
Write Control Input
BYTE and PAGE WRITE (up to 32 Bytes)
RANDOM and SEQUENTIAL READ Modes
Self-Timed Programming Cycle
Automatic Address Incrementing
Enhanced ESD/Latch-Up Protection
More than 1 Million Erase/Write Cycles
More than 40-Year Data Retention

8
1
PDIP8 (BN)

8
1
SO8 (MN)
150 mil width

Table 1. Product List
Reference

Part Number
M24C64

M24C64

M24C64-W

TSSOP8 (DW)
169 mil width

M24C64-R
M24C32
M24C32

M24C32-W
M24C32-R

UFDFPN8 (MB)
2x3mm² (MLP)

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AVR2600

M24C64, M24C32

SUMMARY DESCRIPTION

Table 2. Signal Names

These I2C-compatible electrically erasable programmable memory (EEPROM) devices are organized as 8192 x 8 bits (M24C64) and 4096 x 8 bits
(M24C32).
Figure 2. Logic Diagram
VCC

3
E0-E2
SCL

E0, E1, E2

Chip Enable

SDA

Serial Data

SCL

Serial Clock

WC

Write Control

VCC

Supply Voltage

VSS

Ground

Power On Reset: VCC Lock-Out Write Protect
In order to prevent data corruption and inadvertent
Write operations during Power-up, a Power On
Reset (POR) circuit is included. At Power-up, the
internal reset is held active until VCC has reached
the Power On Reset (POR) threshold voltage, and
all operations are disabled – the device will not respond to any command. In the same way, when
VCC drops from the operating voltage, below the
Power On Reset (POR) threshold voltage, all operations are disabled and the device will not respond to any command.
A stable and valid VCC (as defined in Table 9. and
Table 10.) must be applied before applying any
logic signal.

SDA
M24C64
M24C32

WC

VSS
AI01844B

I2C uses a two-wire serial interface, comprising a
bi-directional data line and a clock line. The devices carry a built-in 4-bit Device Type Identifier code
(1010) in accordance with the I2C bus definition.
The device behaves as a slave in the I2C protocol,
with all memory operations synchronized by the
serial clock. Read and Write operations are initiated by a Start condition, generated by the bus master. The Start condition is followed by a Device
Select Code and Read/Write bit (RW) (as described in Table 3.), terminated by an acknowledge bit.
When writing data to the memory, the device inserts an acknowledge bit during the 9th bit time,
following the bus master’s 8-bit transmission.
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.

Figure 3. DIP, SO, TSSOP and UFDFPN
Connections

M24C64
M24C32
E0
E1
E2
VSS

1
2
3
4

8
7
6
5

VCC
WC
SCL
SDA

AI01845C

Note: See PACKAGE MECHANICAL section for package dimensions, and how to identify pin-1.

4/26

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AVR2600

179

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AVR2600

NJM2845/46
LOW DROPOUT VOLTAGE REGULATOR
GENERAL DESCRIPTION
The NJM2845 is low dropout voltage regulator. Advanced
Bipolar technology achieves low noise, high ripple rejection
and low quiescent current.
NJM2845 is 3 terminal type and NJM2846 is ON/OFF control
built in type. These product can be selected according to the
applications.

PACKAGE OUTLINE

NJM2845DL1

NJM2846DL3

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

1

1.VIN
2.GND
3.VOUT
3

3

123 45

NJM2845DL1

1.CONTROL
2.VIN
3.GND
4.Vo
5.NC

NJM2846DL3

EQUIVALENT CIRCUIT

V IN

VIN

V OUT
Thermal
Protection

Control

Bandgap
Reference

GND

Thermal
Protection
Bandgap
Reference

GND

NJM2845DL1

Ver.2005-01-20

VOUT

NJM2846DL3

180

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AVR2600

181

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AVR2600

182

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AVR2600

183

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AVR2600

184

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AVR2600

NJM2595
5-INPUT 3-OUTPUT VIDEO SWITCH
■ GENERAL DESCRIPTION

■ PACKAGE OUTLINE

The NJM2595 is a 5-input 3-output video switch. Its switches
select one from five signals received from VTR,TV,DVD,
TV-GAME and others.
The NJM2595 is designed for audio items, such as AV amplifier
and others.

NJM2595D NJM2595M

■ 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
■ PIN CONFIGURATION and BLOCK DIAGRAM
+

V

SW1 SW5

SW2

16

10

14

2

Vin1 13
Vin2

9

Vin3

7

Vin4

5

Vin5

3

S5

S1
20k

20k

75Ω
Driver

1

Vout1

6dB
Amp

75Ω
Driver

15

Vout2

6dB
Amp

75Ω
Driver

11

Vout3

20k

S2
20k

6dB
Amp

S6

S4
S3

20k

20k

S7

20k

4

SW3

6

12

SW4

GND

185

8

V-

harman/kardon

AVR2600

NJM2595
■ EQUIVALENT CIRCUIT
PIN No.
PIN NAME
16
V+

INSIDE EQUIVALENT CIRCUIT

VOLTAGE
5V

8

V-

-5V

12

GND

-

13
9
7
5
3

Vin1
Vin2
Vin3
Vin4
Vin5

Vcc

Vin

0V

260
20k
Gnd
Vee

1
15
11

Vout1
Vout2
Vout3

Vcc

2.1k

Vout

0V

Vee
4
6
2

SW3
SW4
SW5

Vcc

20k

SW

16k

-

8k
Gnd

4k
Vee

186

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AVR2600

NJM2595

■ EQUIVALENT CIRCUIT
PIN No.

PIN NAME

14
10

SW1
SW2

INSIDE EQUIVALENT CIRCUIT

VOLTAGE

Vcc

20k

SW

32k

-

16k
4k

Gnd

Vee
■ TEST CIRCUIT

V + Vout2.2 Vout2.1

Vout3.2

V CL

75Ω

V CH

75Ω

0.1µF

Vout3.1

V CL

75Ω

V CH

75Ω
Vin2

Vin1

+

SW1

75Ω

100µF

10µF

+

Vin1

GND

Vout3

SW2

Vin2

Vin4

SW4

Vin3

V-

1

2

3

4

5

6

7

8

+
SW5

+

10µF
Vin5

SW3

+

10µF
Vin4

SW4

10µF

9

SW3

10

SW1

11

Vin5

12

Vout2

13

SW5

14

V+

15

75Ω

10µF
0.1µF
Vin3
+

75Ω
V CL
Vout1.2

+

Vout1

16

SW2

75Ω

V CH

75Ω
V CL

V CH

Vout1.1

75Ω
V CL

75Ω
V CH
V-

187

100µF

harman/kardon

AVR2600

NJM2068M (OP-AMP)

188

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AVR2600

189

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AVR2600

R×5VT

PIN CONFIGURATION

RE5VT28CATZ

• TO-92

RH5VT28C
• SOT-23-5

• SOT-89

5

4

(mark side)
(mark side)

(mark side)

1

1

2

2

3

1

2

3

3

PIN DESCRIPTION
• TO-92

• SOT-89

• SOT-23-5

Pin No.

Symbol

Pin No.

Symbol

Pin No.

Symbol

1

OUT

1

OUT

1

OUT

2

VDD

2

VDD

2

VDD

3

GND

3

GND

3

GND

4

NC

5

NC

190

harman/kardon

AVR2600

74LCX32
LOW VOLTAGE CMOS QUAD 2-INPUT OR GATE
WITH 5V TOLERANT INPUTS
■
■

■

■

■
■

■

■

■

■

5V TOLERANT INPUTS
HIGH SPEED:
tPD = 5.2ns (MAX.) at VCC = 3V
POWER DOWN PROTECTION ON INPUTS
AND OUTPUTS
SYMMETRICAL OUTPUT IMPEDANCE:
|IOH| = IOL = 24mA (MIN) at VCC = 3V
PCI BUS LEVELS GUARANTEED AT 24 mA
BALANCED PROPAGATION DELAYS:
tPLH ≅ tPHL
OPERATING VOLTAGE RANGE:
VCC(OPR) = 2.0V to 3.6V (1.5V Data
Retention)
PIN AND FUNCTION COMPATIBLE WITH
74 SERIES 32
LATCH-UP PERFORMANCE EXCEEDS
500mA (JESD 17)
ESD PERFORMANCE:
HBM > 2000V (MIL STD 883 method 3015);
MM > 200V

SOP

TSSOP

Table 1: Order Codes

DESCRIPTION
The 74LCX32 is a low voltage CMOS QUAD
2-INPUT OR GATE fabricated with sub-micron
silicon gate and double-layer metal wiring C2MOS

PACKAGE

T&R

SOP
TSSOP

74LCX32MTR
74LCX32TTR

technology. It is ideal for low power and high
speed 3.3V applications; it can be interfaced to 5V
signal environment for inputs.
It has same speed performance at 3.3V than 5V
AC/ACT family, combined with a lower power
consumption.
All inputs and outputs are equipped with
protection circuits against static discharge, giving
them 2KV ESD immunity and transient excess
voltage.

Figure 1: Pin Connection And IEC Logic Symbols

Rev. 6

September 2004

191

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AVR2600

74LCX32
Figure 2: Input And Output Equivalent Circuit

Table 2: Pin Description
PIN N°

SYMBOL

1, 4, 9, 12
2, 5, 10, 13
3, 6, 8, 11
7

1A to 4A
1B to 4B
1Y to 4Y
GND
VCC

14

Table 3: Truth Table
NAME AND FUNCTION
Data Inputs
Data Inputs
Data Outputs
Ground (0V)

A

B

Y

L
L
H
H

L
H
L
H

L
H
H
H

Positive Supply Voltage

Table 4: Absolute Maximum Ratings
Symbol
VCC

Parameter

Value

Unit

Supply Voltage

-0.5 to +7.0

V

VI

DC Input Voltage

-0.5 to +7.0

V

VO

DC Output Voltage (VCC = 0V)

-0.5 to +7.0

V

VO

DC Output Voltage (High or Low State) (note 1)

IIK

DC Input Diode Current

-0.5 to VCC + 0.5
- 50

mA

IOK

DC Output Diode Current (note 2)

- 50

mA

IO

DC Output Current

± 50

mA

V

ICC

DC Supply Current per Supply Pin

± 100

mA

IGND

DC Ground Current per Supply Pin

± 100

mA

Tstg

Storage Temperature

-65 to +150

°C

TL

Lead Temperature (10 sec)

300

°C

Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions is
not implied
1) IO absolute maximum rating must be observed
2) VO < GND

192

harman/kardon

AVR2600

74ACT04
HEX INVERTER
■
■

■

■

■

■

■

■

■

HIGH SPEED: tPD = 5.0ns (TYP.) at VCC = 5V
LOW POWER DISSIPATION:
ICC = 2µA(MAX.) at TA=25°C
COMPATIBLE WITH TTL OUTPUTS
VIH = 2V (MIN.), V IL = 0.8V (MAX.)
50Ω TRANSMISSION LINE DRIVING
CAPABILITY
SYMMETRICAL OUTPUT IMPEDANCE:
|IOH| = IOL = 24mA (MIN)
BALANCED PROPAGATION DELAYS:
tPLH ≅ tPHL
OPERATING VOLTAGE RANGE:
VCC (OPR) = 4.5V to 5.5V
PIN AND FUNCTION COMPATIBLE WITH
74 SERIES 04
IMPROVED LATCH-UP IMMUNITY

DIP

SOP

TSSOP

ORDER CODES

DESCRIPTION
The 74ACT04 is an advanced high-speed CMOS
HEX INVERTER fabricated with sub-micron
silicon gate and double-layer metal wiring C2MOS
technology.
The internal circuit is composed of 3 stages
including buffer output, which enables high noise
immunity and stable output.

PACKAGE

TUBE

DIP
SOP
TSSOP

74ACT04B
74ACT04M

T&R
74ACT04MTR
74ACT04TTR

The device is designed to interface directly High
Speed CMOS systems with TTL, NMOS and
CMOS output voltage levels.
All inputs and outputs are equipped with
protection circuits against static discharge, giving
them 2KV ESD immunity and transient excess
voltage.

PIN CONNECTION AND IEC LOGIC SYMBOLS

July 2001

1/8

193

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74ACT04
INPUT AND OUTPUT EQUIVALENT CIRCUIT

PIN DESCRIPTION
PIN No

SYMBOL

1, 3, 5, 9, 11,
13
2, 4, 6, 8, 10,
12
7

NAME AND FUNCTION

1A to 6A

Data Inputs

1Y to 6Y

Data Outputs

GND
VCC

Ground (0V)

14

Positive Supply Voltage

TRUTH TABLE
A

Y

L
H

H
L

ABSOLUTE MAXIMUM RATINGS
Symbol
VCC

Parameter
Supply Voltage

Value

Unit

-0.5 to +7

V

VI

DC Input Voltage

-0.5 to VCC + 0.5

V

VO

DC Output Voltage

-0.5 to VCC + 0.5
± 20

V
mA

IIK

DC Input Diode Current

IOK

DC Output Diode Current

± 20

mA

IO

DC Output Current

± 50

mA

ICC or IGND DC VCC or Ground Current
Tstg
Storage Temperature
TL

Lead Temperature (10 sec)

± 200

mA

-65 to +150

°C

300

°C

Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions is
not implied.

RECOMMENDED OPERATING CONDITIONS
Symbol
VCC

Parameter

Value

Unit

Supply Voltage

4.5 to 5.5

V

VI

Input Voltage

0 to VCC

V

VO

Output Voltage

0 to VCC

V

Top

Operating Temperature

dt/dv

Input Rise and Fall Time VCC = 4.5 to 5.5V (note 1)

1) VIN from 0.8V to 2.0V

2/8

194

-55 to 125

°C

8

ns/V

harman/kardon

AVR2600

CS42528
114 dB, 192 kHz 8-Ch Codec with S/PDIF Receiver
Features

General Description

z Eight 24-bit D/A, two 24-bit A/D Converters

The CS42528 codec provides two analog-to-digital and eight
digital-to-analog delta-sigma converters, as well as an integrated S/PDIF receiver, in a 64-pin LQFP package.

z 114 dB DAC / 114 dB ADC Dynamic Range
z -100 dB THD+N
z System Sampling Rates up to 192 kHz
z S/PDIF Receiver Compatible with EIAJ CP1201

and IEC-60958
z Recovered S/PDIF Clock or System Clock
Selection
z 8:2 S/PDIF Input MUX
z ADC High-pass Filter for DC Offset Calibration
z Expandable ADC Channels and One-line Mode
Support
z Digital Output Volume Control with Soft Ramp
z Digital +/-15dB Input Gain Adjust for ADC
z Differential Analog Architecture
z Supports logic levels between 5 V and 1.8 V.

TXP
RXP0
RXP1/GPO1
RXP2/GPO2
RXP3/GPO3
RXP4/GPO4
RXP5/GPO5
RXP6/GPO6
RXP7/GPO7

VARX

The CS42528 integrated S/PDIF receiver supports up to eight
inputs, clock recovery circuitry and format auto-detection. The
internal stereo ADC is capable of independent channel gain
control for single-ended or differential analog inputs. All eight
channels of DAC provide digital volume control and differential
analog outputs. The general purpose outputs may be driven
high or low, or mapped to a variety of DAC mute controls or
ADC overflow indicators.
The CS42528 is ideal for audio systems requiring wide dynamic range, negligible distortion and low noise, such as A/V
receivers, DVD receivers, digital speaker and automotive audio
systems.

ORDERING INFORMATION
CS42528-CQZ
CS42528-DQZ
CDB42528

AGND LPFLT

-10° to 70° C 64-pin LQFP
-40° to 85° C 64-pin LQFP
Evaluation Board

DGND DGND VD

VD
INT

Rx

Clock/Data
Recovery

C&U Bit
Data Buffer

S/PDIF
Decoder

Control
Port

Form at
Detector

OM CK

M UTE

Internal M CLK

Ref

DEM

AINL+
AINL-

ADC#1

Digital Filter

Gain & Clip

AINR+
AINR-

ADC#2

Digital Filter

Gain & Clip

AOUTA1+
AOUTA1-

DAC#2

AOUTA2+
AOUTA2-

DAC#3

Serial
Audio
Interface
Port

SAI_LRCK
SAI_SCLK
SAI_SDOUT

ADC
Serial
Data

ADCIN1
ADCIN2
CX_SDO UT
CX_LRCK
CX_SCLK
CX_SDIN1

Digital Filter

CX_SDIN2

Analog Filter

AOUTA3+
AOUTA3-

RM CK

DAC#1

AOUTB1+
AOUTB1-

AOUTB2+
AOUTB2-

M ult/Div

VLS

DAC#4
DAC#5

AOUTB3+
AOUTB3-

DAC#6

AOUTA4+
AOUTA4-

DAC#7

AOUTB4+
AOUTB4-

DAC#8

Preliminary Product Information
Cirrus Logic, Inc.
http://www.cirrus.com

195

Volum e Control

FILT+
VQ
REFGND
VA
AGND

AD0/CS
AD1/CDIN
SDA/CDOUT
SCL/CCLK
VLC

GPO
M UTEC

RST

CODEC
Serial
Port

CX_SDIN3
CX_SDIN4

Lead Free
Lead Free

harman/kardon

AVR2600

TXP

RXP0

VD

VLS

DGND

RMCK

CX_SDOUT

ADCIN2

ADCIN1

OMCK

SAI_LRCK

CX_SDIN4

SAI_SCLK

CX_SDIN2

CX_SDIN3

2. PIN DESCRIPTIONS

SAI_SDOUT

CS42528

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

SDA/CDO UT

8

41

VARX

AD1/CDIN

9

CS42528

40

AG ND

AD0/CS

10

39

LPFLT
MUTEC

INT

11

38

RST

12

37

AO UTA1-

AINR-

13

36

AOUTA1+

AINR+

14

35

AOUTB1+

AINL+

15

34

AO UTB1-

AINL-

16

33

AO UTA2-

AOUTA2+

AOUTB2-

AOUTB2+

AOUTA3-

AOUTA3+

AOUTB3+

AOUTB3-

AGND

VA

AOUTA4-

AOUTA4+

AOUTB4+

REFGND

AOUTB4-

VQ

FILT+

17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

Pin Name

#

Pin Description

CX_SDIN1
CX_SDIN2
CX_SDIN3
CX_SDIN4

1
64
63
62

Codec Serial Audio Data Input (Input) - Input for two’s complement serial audio data.

CX_SCLK

2

CODEC Serial Clock (Input/Output) - Serial clock for the CODEC serial audio interface.

CX_LRCK

3

CODEC Left Right Clock (Input/Output) - Determines which channel, Left or Right, is currently active on
the CODEC serial audio data line.

VD

4
51

Digital Power (Input) - Positive power supply for the digital section.

DGND

5
52

Digital Ground (Input) - Ground reference. Should be connected to digital ground.

VLC

6

Control Port Power (Input) - Determines the required signal level for the control port.

SCL/CCLK

7

Serial Control Port Clock (Input) - Serial clock for the serial control port. Requires an external pull-up
resistor to the logic interface voltage in I2C mode as shown in the Typical Connection Diagram.

SDA/CDOUT

8

Serial Control Data (Input/Output) - SDA is a data I/O line in I2C mode and requires an external pull-up
resistor to the logic interface voltage, as shown in the Typical Connection Diagram. CDOUT is the output
data line for the control port interface in SPI mode.

AD1/CDIN

9

Address Bit 1 (I2C)/Serial Control Data (SPI) (Input) - AD1 is a chip address pin in I2C mode; CDIN is
the input data line for the control port interface in SPI mode.

196

harman/kardon

AVR2600

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.

AINRAINR+

13
14

Differential Right Channel Analog Input (Input) - Signals are presented differentially to the delta-sigma
modulators via the AINR+/- pins.

AINL+
AINL-

15
16

Differential Left Channel Analog Input (Input) - Signals are presented differentially to the delta-sigma
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 +,AOUTB1 +,AOUTA2 +,AOUTB2 +,AOUTA3 +,AOUTB3 +,AOUTA4 +,AOUTB4 +,-

36,37 Differential Analog Output (Output) - The full-scale differential analog output level is specified in the
35,34 Analog Characteristics specification table.
32,33
31,30
28,29
27,26
22,23
21,20

VA
VARX

24
41

Analog Power (Input) - Positive power supply for the analog section.

AGND

25
40

Analog Ground (Input) - Ground reference. Should be connected to analog ground.

MUTEC

38

Mute Control (Output) - The Mute Control pin outputs high impedance following an initial power-on condition 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 mandatory 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
RXP6/GPO6
RXP5/GPO5
RXP4/GPO4
RXP3/GPO3
RXP2/GPO2
RXP1/GPO1

42
43
44
45
46
47
48

S/PDIF Receiver Input/ General Purpose Output (Input/Output) - Receiver inputs for S/PDIF encoded
data. The CS42528 has an internal 8:2 multiplexer to select the active receiver port, according to the
Receiver Mode Control 2 register. These pins can also be configured as general purpose output pins,
ADC Overflow indicators or Mute Control outputs according to the RXP/General Purpose Pin Control
registers.

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 internal 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.

197

harman/kardon

AVR2600

CS42528
CX_SDOUT

56

CODEC Serial Data Output (Output) - Output for two’s complement serial audio data from the internal
and external ADCs.

ADCIN1
ADCIN2

58
57

External ADC Serial Input (Input) - The CS42528 provides for up to two external stereo analog to digital
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.

198

harman/kardon

AVR2600

199

harman/kardon

AVR2600

SEMICONDUCTOR

KIA278R05PI~KIA278R15PI

TECHNICAL DATA

BIPOLAR LINEAR INTEGRATED CIRCUIT

4 TERMINAL 2A OUTPUT LOW DROP
VOLTAGE REGULATOR
C

A

F

The KIA278Rᴧᴧ Series are Low Drop Voltage Regulator
suitable for various electronic equipments.
It provides constant voltage power source with TO-220 4 terminal
lead full molded PKG. The Regulator has multi function such as
over current protection, overheat protection and ON/OFF control.

O

G

B

E

S

V

V

L

L
K
U

T

H

J

FEATURES

R

ᴌ2.0A Output Low Drop Voltage Regulator.

D

ᴌBuilt in ON/OFF Control Terminal.
ᴌBuilt in Over Current Protection, Over Heat

DIM MILLIMETERS
_ 0.20
A
10.00 +
_ 0.20
15.00 +
B
_ 0.20
C
2.70 +
_ 0.10
D
0.60 +
_ 0.20
E
Φ3.20 +
_ 0.10
3.50 +
F
_ 0.20
15.70 +
G
_ 0.10
H
0.40 +
14.3+0.2/-0.1
J
_ 0.10
1.45 +
K
_ 0.10
L
1.00 +
2.54
M
_ 0.20
N
4.50 +
_ 0.1
O
7.5+
_ 0.10
1.50 +
P
R
S

M

T
U
V

N

Protection Function.
1
2
3
4

P
1

2

3

4

LINE UP
ITEM

OUTPUT VOLTAGE (Typ.)

KIA278R05PI

5

KIA278R06PI

6

KIA278R08PI

8

KIA278R09PI

9

KIA278R10PI

10

KIA278R12PI

12

* KIA278R15PI

15

5
8
_ 0.1
1.30 +
_ 0.1
3-1.00 +
_ 0.1
1.30 +

DC INPUT (V IN )
DC OUTPUT (VO )
GND
ON/OFF CONTROL

UNIT

TO-220IS-4

V

* Note) * : Under Development.

MAXIMUM RATING (Ta=25ᴱ)
CHARACTERISTIC

SYMBOL

RATING

UNIT

Remark

Input Voltage

VIN

35

V

-

ON/OFF Control Voltage

VC

35

V

-

Output Current

IO

2

A

-

Power Dissipation 1

Pd1

1.5

W

No heatsink

Power Dissipation 2

Pd2

15

W

with heatsink

Junction Temperature

Tj

125

ᴱ

-

Operating Temperature

Topr

-20ᴕ80

ᴱ

-

Storage Temperature

Tstg

-30ᴕ125

ᴱ

-

Soldering Temperature (10sec)

Tsol

260

ᴱ

-

200

harman/kardon

AVR2600

KIA1117S/F00~
KIA1117S/F50

SEMICONDUCTOR
TECHNICAL DATA

BIPOLAR LINEAR INTEGRATED CIRCUIT

LOW DROP FIXED AND ADJUSTABLE
POSITIVE VOLTAGE REGULATOR

A
H

The KIA1117S/F
is a Low Drop Voltage Regulator able
to provide up to 1A of output current, available even in adjustable
version (Vref=1.25V)

L

K

B

E

J
G

FEATURES

F

F

Low Dropout Voltage : 1.1V/Typ. (Iout=1.0A)
Very Low Quiescent Current : 4.2 /Typ.
1

Output Current up to 1A

DIM
A

3

2

C

B

Fixed Output Voltage of 1.5V, 1.8V, 2.5V, 2.85V, 3.3V, 5.0V

D

Adjustable Version Availability : Vref=1.25V

MILLIMETERS
_ 0.2
6.5 +
_ 0.2
3.5 +

C

1.8 MAX

D
E

0.7+0.15/-0.1
_ 0.3
7+

Internal Current and Thermal Limit

1. COMMOIN (ADJ.)

F
G

2.3 TYP
0.26+0.09/-0.02

Only 10

2. OUTPUT

H

3. INPUT

J
K
L

3.0+0.15/-0.1
_ 0.25
1.75 +

for stability

Available in

2%(at 25 ) and 4% in full Temperature range

High Ripple Rejection : 80dB/Typ
Temperature Range : 0

0.1 MAX
10 MAX

125

SOT-223

LINE UP
ITEM

OUTPUT VOLTAGE (V)

KIA1117S/F00

Adjustable (1.25~10V)

KIA1117S/F15

1.5

KIA1117S/F18

1.8

KIA1117S/F25

2.5

KIA1117S/F28

2.85

KIA1117S/F33

3.3

KIA1117S/F50

5.0

PACKAGE
A

I

C

D

J

B

S : SOT-223

M

O

K

H

P
F
1

MAXIMUM RATINGS (Ta=25

E

Q

F : DPAK

L

F
2

3

)

CHARACTERISTIC

SYMBOL

RATING

UNIT

VIN

10

V

IOUT

1.0

A

DIM
A
B
C
D
E
F
H
I
J
K
L
M
O
P
Q

MILLIMETERS
_ 0.2
6.60 +
_ 0.2
6.10 +
_ 0.2
5.0 +
_ 0.2
1.10 +
_ 0.2
2.70 +
_ 0.1
2.30 +
1.00 MAX
_ 0.2
2.30 +
_ 0.1
0.5 +
_ 0.20
2.00 +
_ 0.10
0.50 +
_ 0.10
0.91+
_ 0.1
0.90 +
_ 0.10
1.00 +
0.95 MAX

1. COMMOIN (ADJ.)
2. OUTPUT

Input Voltage
Output Current
Power Dissipation 1

S/F
S (Note)

(No heatsink)

F

Power Dissipation 2

S

(Without heatsink)

F

1.0

PD1

W
1.3

Topr

Storage Temperature

Tstg

Note) Package Mounted on FR-4 PCB 36 18

1.5

DPAK

8.3

PD2

Operating Temperature

3. INPUT

W
13
0

125

-55 150
.

: mounting pad for the GND Lead min. 6

201
2005. 3. 14

Revision No : 0

1/7

harman/kardon

AVR2600

TRANSISTOR, REGULATOR IC BLOCK DIAGRAM
TO-92M
1. Emitter
2. Collector
3. Base

123

123
KTC2874B
KRA107M
KRA104MT
KTA1267

KSC2785Y
KRC107M
KRC104M
KTC 1027

TO-126

KTD1302T
KTC3200GR
KTA1271Y
KTC 3199

123

123
KTA1268GR
KTC3198Y
KSA1175YT

MCNJM7905

NJM7908
KIA 7908

KTA1024Y

MC7915C
L7905

TO-3P
1. Base
2. Collector
3. Emitter

1. INPUT
2. GND
3. OUTPUT

123

KSA733CYT

MC7815C
MC7809
NJM7824

L7812
L7808

KSC2316Y

L7915

TO-220

123
2

1. Emitter
2. Collector
3. Base

1. GND
2. INPUT
3. OUTPUT

1. Emitter
2. Base
3. Collector

123
2
KTD600KG
KTA 1360
KTC 3423

1. Emitter
2. Collector
3. Base

TO-92
1. Emitter
2. Collector
3. Base

TO-92L

TO-220

TO-92

1 2 3

2SB1560 2SC3423O
2SD2390
2SA1360
2SB1647
2SD2560

MC7805C
L7805
L7815
KIA 7808

KRA 107S

N-CHANNEL MOS FET ARRAY
µPA672T
6

5

4

SOT-223 PKG (FRONT VIEW)

PIN CONFIGURATION
SOT-23 Package

LM1117
REGULATOR

AD1580

1

2

3

1. Source 1 (S1)
2. Gate 1 (G1)
3. Drain 2 (D2)
4. Source 2 (S2)
5. Gate 2 (G2)
6. Drain 1 (D1)
Marking: MA

V+ 1
3 NC (OR V–)
V– 2

TOP
VIEW

1

2

3

PIN FUNCTION
1. Adj/Gnd
2. Vout
3. Vin

NC = NO CONNECT

TO-263 (D2 PKG, FRONT VIEW)

PIN FUNCTION
1. Adj/Gnd
2. Vout
3. Vin

202

1

2

3

6

5

4

3

2

1

CUP12179Z

DDC+5V

Q909

R606

R605

47K

10K

KRA102S

6
Q903

5

4

AVR2600

Q912
CVTUPA672T

12

11

10

9

8

13

12

11

10

9

8

1

2

3

4

5

6

7

3

4

5

6

7

15

100

13

19
18
17

R710

0.1uF

16

10K

R709

22K
C714

14

harman/kardon

IC102
CVITC74VHC08FT

47K

47K

R717

47

R721

47

10

11

12

13

14

D

3

HDMI4_PWR

4

5

6

7

8

9

HDMI4_P+5V

2
1

3.3V_HD

10K

R740

R832(10Kohm) Pull-up ADD

2007.10.06

INPUT-1

D

JK904

HP DET
+5V
GND
DDC DATA
DDC CLK
NC
CE REMOTE
CKD1 SHIELD
CK+
D0D1 SHIELD
D0+
D1D2 SHIELD
D1+
D2D2 SHIELD
D2+

2

R613

R614
R708

14

3

1

2

C745

1

0.1uF

1K

R707

DDC+5V

C725

2007.10.06
+1.8V_HD-->1.8V_HD

3.3V_HD

Q906

DDC+5V

Q902
KRC103S

R603

47K

10K

1K

R703

6

5

5
4
3
2
1

22/6.3V

C606

22/6.3V

C605

C740

C

0.1uF
SIL9185_INT
HDMI_SCL
HDMI_SDA

R745

SIL9185_RESET
C747

0.1uF

R743
1K

1K
TXCTXC+

R744
1K

TX0TX0+

C750
0.1uF

TX1TX1+

TX2TX2+

80

79

78

77

76

75

74

73

72

71

C735

0.1uF

21
19
18
16
15
14
7
6

8

9

10

CVISII9185ACTU

IC101

52

11

12

13

17

20

22

23

24

25

26

27

28

29

30

31

32

33

34

42
43
45
46
47
51

50

49

48

44

41

AGND
R0XC+
R0XCAVCC18
HPD0
LSCL
LSDA
RESET#
EXTSWING
TXCTXC+
AGND
TX0TX0+
AVCC18
TX1TX1+
AGND
TX2TX2+

R2X0R2X0+
AVCC33
R2X1R2X1+
AGND
R2X2R2X2+
AVCC18
DSDA2
DSCL2
RPWR2
DVCC18
DGND
RSVDL
HPDIN
TSDA
TSCL
TPWR
AGND

61

0.1uF

70

C727

69

0.1uF

68

C726

53

0_open

54

R737

55

0_open

56

1

R738

57

5
3

4
2

2008.6.02
HDMI_CEC_Option

58

6

C742

59

7

8

9

10

11

0.1uF

R604

L806

60

12

C748

KRA102S

C736

0.1uF

C739

0.1uF

22/6.3V

13

14

R1X0R1X0+
AVCC33
R1X1R1X1+
AGND
R1X2R1X2+
AVCC18
DSDA1
DSCL1
RPWR1
CEC_D
CEC_A
AVCC33
HPD2
AVCC18
R2XCR2XC+
AGND

67

47

35

R722

66

47
36

R720

65

47K

40

15

R716

37

0.1uF

38

47K

64

10K

63

17

100

39

R615

62

18

R616
R715

22K
C715

16

3

0.1uF

JK903

INPUT-2

C

19

R714

2

1.8V_HD

L829

AGND
R1XC+
R1XCAVCC18
HPD1
I2CSEL/INT
DGND
DVCC18
RPWR0
DSCL0
DSDA0
AVCC18
R0X2+
R0X2AGND
R0X1+
R0X1AVCC33
R0X0+
R0X0-

1

HP DET
+5V
GND
DDC DATA
DDC CLK
NC
CE REMOTE
CKD1 SHIELD
CK+
D0D1 SHIELD
D0+
D1D2 SHIELD
D1+
D2D2 SHIELD
D2+

4

Q913
CVTUPA672T

1K

R713

5

C604

6

Q904

HDMI-RX,TX BLOCK

0.1uF

C724

L805

0.1uF

10K

KRA102S

C744

47K

2007.10.06
+3.3V_HD-->3.3V_HD

C722

Q907

R611

0.1uF

DDC+5V
R612

0.1uF

CEC_A

4

Q911
CVTUPA672T

P+5V

10K

47K

C741

0.1uF

C751

0.1uF

19
15

R609

CEC_D

R706

47K

R712

47

R719

47

R739

0_open
CEC_MCU

6

7

8

9

10

11

12

13

14

R610

D_DATA
HPD_IN

100

17

18
16

0.1uF

3

3

4

5

B

2
1

JK902

INPUT-3

B

R705

22K
C713

2

C723

1

R704

HP DET
+5V
GND
DDC DATA
DDC CLK
NC
CE REMOTE
CKD1 SHIELD
CK+
D0D1 SHIELD
D0+
D1D2 SHIELD
D1+
D2D2 SHIELD
D2+

0.1uF

D_CLK

2007.10.11
Circuit Add
R757

OPEN

R750

HVTKRC111S
Q915

0
KRC111S

HDMI4_HPD
HDMI4_PWR

Q905

DDC+5V

KRA102S
PWR+5V

Q901
KRC103S

R602

R601

47K

10K

5

DDC+5V

EEPROM_PWR

4
D904

1K

R699

6

PWR+5V

Q910
CVTUPA672T

1
1

R607
C720

HDMI_SCL

47K

11

10

9

0X

INH 3X

VEE A

GND B

6

12

1

2

3

4

5

6

7

8

REVISION
1

LPP

5

HDMI_SDA

7

14

5

9

10
8
6

15

HDMI4_D0+
HDMI4_D1-

HDMI4_D1+

3

HDMI4_D2-

1

4

13

1Y

VSS SDA

TC7MZ4052FK

3Y X-O

SCL

HDMI4_CK+
HDMI4_D0-

16

1X

3

A2

EEPROM_WP
IC124

Y-O

WP

7

2

A1

4

11

12

HDMI4_CK-

2X

VCC

2Y

A0

C716

HDMI4_D_DATA

0Y VCC

HDMI4_D_CLK

R730

47

47K

R718

0.1uF
IC123
AT24C02N

R728

47

47K
10K

R711

10K

R729

47K

1

R702

Q914
KRC103S

EEPROM_PWR

0.1uF

R608

8

19
15
13

14

EEPROM_PWR

100

17

18
16

0.1uF

3

3

2

R701

22K
C712

2

HDMI4_D2+

2

4

6

3

5

7

SCHEMATIC DIAGRAM

2
JK901

A

INPUT-4

R700

HP DET
+5V
GND
DDC DATA
DDC CLK
NC
CE REMOTE
CKD1 SHIELD
CK+
D0D1 SHIELD
D0+
D1D2 SHIELD
D1+
D2D2 SHIELD
D2+

HDMI_SCL

HDMI_SDA

ISSUE
ANAM
MULTI. LAB

AVR260/360

MODEL
DESIGN

CHECK

APPROVE

A

SHEET
1
5

DRAWING NO

09.02.04

S. KIM
09.02.04
203

W.Y YANG
09.02.04

G.S WEY
09.02.04

CUP12179Z
(HDMI-INPUT)

1

1

4

3

2

harman/kardon

3.3V_HD

HDMI_SCL

HPD_IN
100_NC

Reoved.

2007.10.26

R622

5

4

3

IC125

2

1

4

1

2

3

4

C601

74FCT38072DCGI

0.01uF

C967

0.1uF

2

8

7

6

1

5

4

3

2

1

8

7

6

5

4

3

2

8

7

6

1

5

4

3

2

1

8

7

6

5

RN01

3

RN02

R768

4

RN03

HD_RX_CLK_1

RN05

7

33

6

3

ODCK
C966

RN17

8

C782

100

0.1uF_NC

2007.10.06
Do not use

P+5V

R756
R753
100

HDMI4_D_CLK

C783

2007.10.26
Changed value to 100ohm.

3

7

33ohm (1005SIZE X 4),1/16W

2

6

33ohm (1005SIZE X 4),1/16W

1

5

33ohm (1005SIZE X 4),1/16W

4

8

22
R627
33ohm (1005SIZE X 4),1/16W

3

7

HD_RX_CLK
33

5

2

6

0.1uF

8

1
2
1

5

RN16

8

R637

4

4

7

33ohm (1005SIZE X 4),1/16W

3

6

33ohm (1005SIZE X 4),1/16W

R632
100

2

5

RN15

8

33ohm (1005SIZE X 4),1/16W

1

D_CLK

HDMI4_D_DATA

7

33ohm (1005SIZE X 4),1/16W

R634
D_DATA

6

RN14

100

R759
100

R758

10K

5
10K
R635

HVIKIC7SZ08FU

R794
4.7K

R633

D

IC131

4.7K

DDC+5V

R621

Added circuit 09.02.25
HDMI clk divider

R795

100

+3.3V_IO

2007.10.19
V+5V -->DDC+5V

2007.10.06
+3.3V_HD-->3.3V_HD

TO_TX_R07

TO_TX_R06

TO_TX_R05

TO_TX_R04

TO_TX_R03

TO_TX_R02

TO_TX_R00

TO_TX_R01_30

TO_TX_R00_30

TO_TX_R01_36

TO_TX_R00_36

TO_TX_G07

TO_TX_G06

TO_TX_G05

TO_TX_G04

TO_TX_G03

HD_RX_B07

HD_RX_B06

HD_RX_B05

HD_RX_B04

ODCK

HD_RX_B02

HD_RX_B03

HD_RX_B01

HD_RX_B00

HD_RX_B01_30

HD_RX_B00_30

HD_RX_B01_36

HD_RX_B00_36

HD_RX_HS

HD_RX_DE

CUP12179Z

T901

HDMI_SCL

HDMI_SDA

HD_OEFLUG

D

HD_RX_VS

AVR2600

1

HDMI_SDA

5

TO_TX_R01

6

0.1uF_NC

100
HDMI4_P+5V
L835

79

80

81

82

83

84

85

86

87

88

89

90

91

92

93

94

95

96

97

98

92
93

TO_TX_B00

94

8

RN20

4

0.1uF

TO_TX_B01_36

5

HD_RX_R00_30

6

TO_TX_B00_30

96

7

HD_RX_R01_36

95

1

TO_TX_B01_30

2

97

HD_RX_R01_30

C752

33ohm (1005SIZE X 4),1/16W

33ohm (1005SIZE X 4),1/16W

0.1uF

0.1uF
RN19

116
115
114

111
110
109

HD_RX_R01
HD_RX_R02
HD_RX_R03

C818

113
112

HD_RX_R00

98
99
100

1

2

4

5

6

7

10

11

33ohm (1005SIZE X 4),1/16W

IOGND
Q32
Q33
Q34

0.1uF

99 100 101 102 103 104 105 106 107 108

HD_RX_R04

TO_TX_DE

HD_RX_R05

TO_TX_HS

HD_RX_R06

TO_TX_VS

HD_RX_R07

Q35

17

18

19

20

21

22

23

24

22/6.3V

C617

0.1uF

22/6.3V
C616

0.1uF

CEC_A

22/6.3V

C619

0.1uF

C618

100

47K

C729

R617

45
44

HDMI OUT

0.1uF
43

C730
JK905

42

1

4

2

3

1

4

36

2

3

35

1

4

2

3

1

4

2

3

1

L803

0.1uF
41

C731

38

4

39

3

2

40

0.1uF
37

34

6

L801

L804

33

C732

32
0.1uF
31

L802
30
29

C733

28
0.1uF
27
26

25
DDC+5V

10K

R731

820

758ohm

R726

R725

1.8K

10K

D2+

D2 SHIELD
D2D1+
D2 SHIELD
D1D0+
D1 SHIELD
D0CK+
D1 SHIELD
CKCE REMOTE
NC
DDC CLK
DDC DATA
GND
+5V
HP DET

Q908
CVTUPA672T

6

5

1

7

8

0

R625

RN04

6

1

2

3

4

4

2

DDC+5V

3

R724

R723

10K

1.8K

DDC+5V

R733

SIL9135_INT

R766
100

C621

22/6.3V
C620

0.1uF

C625

C624

R619

100
R742

R620
100

OPEN

4.7K
R624

0.1uF

C749

0.1uF

C743

0.1uF

16

DDC+5V
46

33ohm (1005SIZE X 4),1/16W

47K

47K

R771

15

C

47

2008.06.02
R969 Change Value 1K->10K 1%
R970 Change Value 2.2K->820 1%

5

R762

14

2007.10.06
Do not use

2007.12.18
3.3V_HD-->1.8V_HD

0.1uF

47K

C799

R7700.1uF

C763

4.7K

R764

0.1uF

C803

0.1uF

C788

0.1uF

C813

47K

13

C717 0.1uF_NC
48

+5VAA

33ohm (1005SIZE X 4),1/16W

L836

B

SCDT
0.1uF

L815

2

3

4

0.1uF

22/6.3V

DSP_SCLK

DSP_LRCK

DSP_SD0

DSP_MCLK

DSP_SPDIF

SIL9134_RESET

1

SIL9134_INT

4

MUTE_OUT

22/6.3V

3

0.1uF

2

SIL9135_RESET

L814

C825

1

C796

RN13

RN07

27.0MHz
X901

C636

8

18p

7

C801

6

18p

5

1K

0

8

22X4

7

22X4

6

R760

1M
5

C826

C637

R636

3.3V_HD

100

0.1uF

R765
C804

22/6.3V
C805

12

C718 0.1uF_NC
49

RN06

RN18

R763

R755

0.1uF

C812

9

R767

C806

B

8

50

R732

OPEN

1.8V_HD

C734

IOVCC33
TMODE
HPD
3

3.3V_HD

10K

19

117

L808

51

DR3
DL3
INT
RESET#

118

D0
CVCC18
GND

SII9134CTU

0.1uF

C819

119

TO_TX_B00_36

8

120

4

RN12

52

CI2CA
CSDA
CSCL
DSDA
DSCL
DDCPWR5V
AVCC33
AGND
PVCC2
AGND
TX2+
TX2AVCC18
TX+1
TX1AGND
TX0+
TX0AVCC18
TXC+
TXCAGND
PVCC1
EXT_SWG
AGND

IC103

C737

121

HD_RX_R00_36

3

122

5

123

6

33ohm (1005SIZE X 4),1/16W

D16
D15
D14
D13
D12
D11
D10
D9
GND
IDCK
IOVCC33
D8
D7
D6
D5
D4
D3
D2
D1

0.1uF

124

53

8

5
6

1

TO_TX_B01

33ohm (1005SIZE X 4),1/16W

91

7

C816

125

54

10

TO_TX_B02

55

12

TO_TX_B03

HD_RX_G07

2

126

3

127

90

RN11

56

14

7

HD_RX_G06

89

33ohm (1005SIZE X 4),1/16W

57

16

TO_TX_B04

58

18

4
5
6

HD_RX_G05

59

5

88

0.1uF
128

60

7

87
C753

HD_RX_G04

8

129

61

9

86

RN10
RN21

62

11

5

85

6

0.1uF
130

63

13

84

7

TO_TX_CLK

33ohm (1005SIZE X 4),1/16W

64

R618

83

8

1

TO_TX_B05

2

8

HD_RX_G03

C817

131

3

7

TO_TX_B06

65

0.1uF

82

8

4

6

2
3
4

132

HD_RX_G02

66

C612

81

33ohm (1005SIZE X 4),1/16W
133

67

15

TO_TX_B07

68

17

HD_RX_G01

69

D21
D22
D23
D24
D25
D26
D27
IOVCC33
GND
CVCC18
D28
D29
D30
D31
D32
D33
D34
D35
CVCC18
GND

5
6
7
8

80

RN09
134

0.1uF

0.1uF
0.1uF

D19
D20
TO_TX_G00_36

70

0.1uF

78

79

5

HD_RX_G00

3

TO_TX_G01_36
5

1

135

2

RN22

71

C610
C728

77

78

0.1uF
136

72

10/16V

76

77

33ohm (1005SIZE X 4),1/16W

TO_TX_G00_30

33ohm (1005SIZE X 4),1/16W

76

6

C814

137

73

R741

7

TO_TX_G01_30

1

HD_RX_G01_30

2

TO_TX_G00

3

HD_RX_G00_30

4

TO_TX_G01

1

5
6

4

138

HD_RX_G01_36

7

2

139

TO_TX_G02

8

1

140

3

0.1uF

4

75

IOGND
IOVCC33
MUTEOUT
RSVDNC

74

22/6.3V
C629

RN08
HD_RX_G00_36

CVCC18
D18
D17

74

DE
HSYNC
VSYNC
SPDIF
MCLK
SD3
SD2
SD1
SD0
WS
SCK
CVCC18
GND
IOVCC33
DCLK
DR0
DL0
DR1
DL1
DR2
DL2

RN23

141

0.1uF
73

22/6.3V
C622

C623

22/6.3V

C634

C721

22/6.3V

C633

0.1uF
0.1uF

0.1uF

75

L807

72

C754

0.1uF

71

C773

142

C815

C719

70

IC109
SII9135CTU

143

Q11
CVCC18
CGND

L830

100 1K

HDMI4_D2+

Q12
Q13
Q14
Q15
IOVCC33
IOGND
Q16
Q17
Q18
Q19
CVCC18
CGND
Q20
Q21
Q22
Q23
IOVCC33
IOGND
Q24
Q25
Q26
Q27
CVCC18
CGND
Q28
Q29
Q30
Q31
IOVCC33

144

R734

0.1uF
69

1

33ohm (1005SIZE X 4),1/16W

68
HDMI4_D2-

2

C746

67

C770

3

L831

5

66

4

6

HDMI4_D1+

5

7

HDMI4_D1-

6

8

64
0.1uF
65

7

1

63

C771

8

2

62

9

3

HDMI4_D0+

10

4

61

11

7

60
0.1uF
HDMI4_D0-

12

8

59

C772

13

5

58

14

6

0.1uF
HDMI4_CK+

15

7

56
57

16

8

55

HDMI4_CK-

17

5

54
0.1uF
C774

18

6

53

C778

19

7

0.1uF
TX2+

20

1.8V_HD

1.8V_HD

L832

L809

8

50

52

21

1

49

51

22

2

48

TX2-

23

3

47

C775

24

4

0.1uF
TX1+

25

1

46
TX1-

26

2

45

C776

27

3

42

44

28

4

AGND
AVCC33
R0X0R0X0+
AGND
AVCC33
R0X1R0X1+
AGND
AVCC33
R0X2R0X2+
AGND
AVCC18
RSVDNC
AVCC33
R1XCR1XC+
AGND
AVCC33
R1X0R1X0+
AGND
AVCC33
R1X1R1X1+
AGND
AVCC33
R1X2R1X2+
AGND
AVCC18

0.1uF
TX0+

29

1

40

43

30

2

39

TX0-

31

3

38

41

C777

C

32

4

TXCTXC+

33

1

0.1uF

34

2

C790
0.1uF

35

37

3

AVCC18
AVCC33
R0XCR0XC+

C780

36

C789

3.3V_HD

3.3V_HD

L813

DSCL0
DSDA0
IOVCC33
IOGND
R1PWR5V
DSCL1
DSDA1
CSCL
CSDA
CVCC18
CVCC18
CGND
EVNODD
VSYNC
HSYNC
DE
IOVCC33
IOGND
Q0
Q1
Q2
Q3
CVCC18
CGND
Q4
Q5
Q6
Q7
IOVCC33
ODCK
IOGND
Q8
Q9
Q10

0.1uF

C769

22/6.3V

C798

3.3V_HD

RSVDNC
SPDIF/DL2
CGND
CVCC18
SD0/DL0
SD1/DR1
SD2/DL1
SD3/DR2
WS/DR0
SCK
IOGND
IOVCC33
MCLK
CGND
CVCC18
DVCC18(PLL)
DGND(PLL)
XTALOUT
XTALIN
XTALVCC(PLL3.3)
REGVCC(PLL3.3)
RSVDNC
RSVDL
RESET#
SCDT
INT
IOGND
IOVCC33
CI2CA
CGND
CVCC18

L834

C632

AGND
R0PWR5V

0.1uF

C768

22/6.3V

C797

L812

C627

0.1uF

C807

0.1uF

C802

0.1uF

C800

0.1uF

C791
0.1uF

1.8V_HD

C781

C779

L833

0.1uF

1.8V_HD

10K

R772

3.3V_HD

3.3V_HD

+3.3VDD

Q916
KRC103S

ON : HIGH

8

7

6

5

3

2

0.1uF

C944

10/16V

C628
DSP_SCLK

DSP_LRCK

DSP_SD0

DSP_MCLK

DSP_SPDIF

HDMI_MCLK

HDMI_SCLK

HDMI_LRCK

HDMI_SDATA1

HDMI_SDATA2

C824
4
22X4

1

RN25

2

22X4

3

RN24

4

3.3V_HD
HDMI_SDATA3

20

TC74VCX541FT

HDMI_SDATA4

19

L810

IC108

HDMI_SPDIF

18

HDMI_AUDIO_ON

0.1uF

17

A2

16

A3

15

A4

14

A5

13

A6

12

A7

11

A8

VCC OE1

1

OE2 A1

2

Y1

3

Y2

4

Y3

5

Y4

6

Y5

7

Y6

8

Y7

9

Y8 GND

10

L811

1.8V_HD

+1.8VDD

1

L817
8

7

6

5

REVISION

HDMI_MCLK

HDMI_SCLK

HDMI_LRCK

HDMI_SDATA1

HDMI_SDATA2

HDMI_SDATA3

HDMI_SDATA4

HDMI_SPDIF

1

3
2

5
4

7
6

9
8

11
10

BN15

TO DSP PCB

13
12

15
14

0.1uF

C635

C638

A

10/16V

L816

LPP

17
16

ISSUE
ANAM
MULTI. LAB

1

2

3

SCHEMATIC DIAGRAM
AVR260/360

MODEL
DESIGN

CHECK

APPROVE

A

SHEET
2
5

DRAWING NO

09.02.04

S. KIM
09.02.04
204

W.Y YANG

G.S WEY

09.02.04

09.02.04

CUP12179Z
(HDMI-RX,TX)

1

1

+3.3V_ADCC

+3.3V_ADCSC

harman/kardon

1

+2.5V_DDR
+1.8V_ADC

+3.3V_PLL

+3.3V_ADC

+1.8V_PLL

0.1uF / 16V

C933

0.1uF / 16V

22/6.3V
C844

C839

0.1uF / 16V

C938

22/6.3V

C679

0.1uF / 16V

C849

0.1uF / 16V

0.1uF / 16V
C848

22/6.3V
C850

C852

0.1uF / 16V

0.1uF / 16V
C846

0.01uF

C842

C929

0.1uF / 16V

0.01uF

C930

C927

0.1uF / 16V

0.01uF

C928

C926

0.1uF / 16V

C923

0.1uF / 16V

C922

0.1uF / 16V

C911

0.1uF / 16V

0.01uF

C901

C913

0.1uF / 16V

0.01uF

C895

C909

0.1uF / 16V

22/6.3V
C894

22/6.3V
C921

0.1uF / 16V
C889

0.1uF / 16V
C862

0.1uF / 16V
C861

0.1uF / 16V
C858

0.1uF / 16V
C856

0.1uF / 16V
C941

C859

0.1uF / 16V

C860

0.1uF / 16V

C920

0.1uF / 16V

C919

0.1uF / 16V

C918

0.1uF / 16V

C917

0.1uF / 16V

C916

0.1uF / 16V

C915

0.1uF / 16V

C914

0.1uF / 16V

C910

C905

0.1uF / 16V

+3.3V_ADCA

0.1uF / 16V

22/6.3V
C857

22/6.3V
C896

C853

0.1uF / 16V

C855

0.1uF / 16V

C851

0.1uF / 16V

C847

0.1uF / 16V

C845

C886

0.1uF / 16V

+3.3V_ADC

+3.3V_PLL

+1.8V_PLL

+1.8V_DLL

+1.8V_ADC

+3.3V_LVDS

FSVREF

+2.5V_DDR

+3.3V_IO

0.1uF / 16V

C866

+3.3V_LVDS_PLL

+3.3V_IO

22/6.3V

C867

0.1uF / 16V

C912

0.1uF / 16V

C878

0.1uF / 16V

2

AVR2600

+3.3V_LBADC

22/6.3V
C942

C687

0.1uF / 16V

C937

0.1uF / 16V

C936

0.1uF / 16V

C935

0.1uF / 16V

22/6.3V
C934

C943

0.1uF / 16V

C892

0.1uF / 16V

C890

0.1uF / 16V

C891

0.1uF / 16V

C884

0.1uF / 16V

C906

0.1uF / 16V

0.1uF / 16V
C907

C898

0.1uF / 16V

C897

0.1uF / 16V

C883

0.1uF / 16V

C880

0.1uF / 16V

C879

0.1uF / 16V

C876

0.1uF / 16V

22/6.3V
C875

22/6.3V
C908

C868

+3.3V_ADCB

FSVREF

+3.3V_LVDS_PLL

+3.3V_LBADC

+3.3V_LVDS

CUP12179Z
+1.8V_CORE

+1.8V_CORE

3

+3.3V_ADCA

4

+1.8V_DLL

5

FSVREF

6

+3.3V_ADCB
+3.3V_ADCC

GPROBE_TXD
GPROBE_RXD
UART_TX
UART_RX

*CONTROL HDMI/VIDEO ENCODER

AD9

/RESET

AA24
AA23
A3
A2
AB26
AB25
AA26
AA25
Y26
Y25

HDMI_SCL
HDMI_SDA
MUTE_OUT
+3.3V_IO

GPROBE_UPGRADE

AF14
AD12
AC12
AD14
AE13
AE14

GPIO_25

1

5

2

6

3

7

4

8
5
6
7
8

1
2
3
4

5
6
7
8

1
2
3
4

5
6
7
8

1
2
3
4
1

5

2

6

3

7

FSDATA29

4

8

FSDATA28

RN33
FSDATAU19

5
6

3

7

FSDATA25

8

FSDATA24

1

FSDATA26

FSDATAU21

2

FSDATA27

4

33ohm (1005SIZE X 4),1/16W
FSDATAU20

FSDATAU22
RN37
FSDATAU23

1

5

2

6

FSDATA22

7

FSDATA21

8

FSDATAU26

3

FSDATAU25

FSDATA23

4

33ohm (1005SIZE X 4),1/16W
FSDATAU24

FSDATA20

RN40
FSDATAU27

1

5

2

6

FSDATA18

7

FSDATA17

8

FSDATAU30

FSDATA19

3

FSDATAU29

4

33ohm (1005SIZE X 4),1/16W
FSDATAU28

FSDATA16

RN43

1

5
6

FDADDR9

7

FDADDR12

8

FSADDRU12

2

FSADDRU9

FDADDR4

3

G 8BIT OUTPUT

FSADDRU4

4

33ohm (1005SIZE X 4),1/16W

B 8BIT OUTPUT

FDADDR5

C

RN49
FSADDRU5

5
6

1

FSADDRU8

FDADDR7

7

TTL OUTPUT

FDADDR6

FDADDR8

8

R 8BIT OUTPUT

FSADDRU7

2

33ohm (1005SIZE X 4),1/16W
FSADDRU6

FSCKE

RN47
FSCKEU

MSTR0_SCL
MSTR0_SDA
MSTR1_SCL
MSTR1_SDA
MSTR2_SCL
MSTR2_SDA
VGA0_SCL
VGA0_SDA
VGA1_SCL
VGA1_SDA
AVS_IN_SCL
AVS_IN_WORD_SEL
AVS_IN_DATA
AVS_OUT_DATA
AVS_OUT_SCL
AVS_OUT_WORLD_SEL

5
6
7
8

FDADDR1

5
6

FSADDRU10

FDADDR2
FDADDR10

7

FSADDRU2

FDADDR3

8

33ohm (1005SIZE X 4),1/16W

FDADDR11

RN51
FSADDRU11

8
7

/FSWE
/FSRAS

5

/FSWEU
/FSRASU

6

33ohm (1005SIZE X 4),1/16W

/FSCAS

RN54

/FSCASU

3

FSDQSU0

FSDQS1

4

33ohm (1005SIZE X 4),1/16W

FSDQM1

RN27
FSDQMU0

3

FSDQSU1

FSDQS0

4

OCMDATA15
OCMDATA14
OCMDATA13
OCMDATA12
OCMDATA11
OCMDATA10
OCMDATA9
OCMDATA8
OCMDATA7
OCMDATA6
OCMDATA5
OCMDATA4
OCMDATA3
OCMDATA2
OCMDATA1
OCMDATA0

33ohm (1005SIZE X 2),1/16W

FSDQM0

RN30
FSDQMU1

33ohm (1005SIZE X 2),1/16W
FSDQSU2

FSDQS3
FSDQM3

RN36
FSDQMU2

33ohm (1005SIZE X 2),1/16W
FSDQSU3

FSDQS2
FSDQM2

RN42
33ohm (1005SIZE X 2),1/16W

AC25
AC26
AD24
AD25
AD26
AC24

/OCM_RE
/OCM_WE
/ROM_CS

/FSCS0U

/FSCS0

RN53

AC20
T24
T25
T26
R23
R24
R25

TO_RX_B00_30
TO_RX_B01_30
TO_RX_G00_30
TO_RX_G01_30
TO_RX_R00_30
TO_RX_R01_30

B

33ohm (1005SIZE X 2),1/16W

+3.3V_IO

/JTAG_BS_E
JTAG_BS_TMS
JTAG_BS_TDO
GPIO44
JTAG_BS_TDI
JTAG_BS_RST
JTAG_BS_TCK

1

TO_RX_CLK
TO_RX_HS
TO_RX_VS
TO_RX_DE

FSDQMU3
/OCM_RE
/OCM_WE
/ROM_CS
/OCM_CS0
/OCM_CS1
/OCM_CS2

2

FSADDRU1

OCMADDR21
OCMADDR20
OCMADDR19
OCMADDR18
OCMADDR17
OCMADDR16
OCMADDR15
OCMADDR14
OCMADDR13
OCMADDR12
OCMADDR11
OCMADDR10
OCMADDR9
OCMADDR8
OCMADDR7
OCMADDR6
OCMADDR5
OCMADDR4
OCMADDR3
OCMADDR2
OCMADDR1

AE21
AD21
AC21
AF22
AE22
AD22
AF23
AE23
AD23
AC23
AF24
AF25
AF26
AE24
AE25
AE26

FDADDR0

RN52

33

1

AF15
AE15
AD15
AC15
AF16
AE16
AD16
AF17
AE17
AD17
AC17
AF18
AE18
AD18
AF19
AE19
AD19
AC19
AF20
AE20
AD20
AF21

FSBKSEL1

3

FSADDRU0

FSBKSEL0

4

FSBKSELU1

2

R809

B 8BIT OUTPUT

FSBKSELU0

RGB 10BIT OUTPUT
TTL OUTPUT

U25
PPWR
U26
PBIAS

T911

GPIO_12
T912

GPIO_38
T908

T904

FSDATA30

3

D26

AD3
AD4
AD5
AD6
AD7
ADC_3.3
ADCA_3.3
ADCB_3.3
ADCC_3.3
ADCSC_3.3

RPLL_1.8

RPLL_33

C25

A14

VDDA18_DLL

LVDS_PLL_3.3

AB4
ADC1.8-0
AC4
ADC1.8-1
AC5
ADC1.8-2

E26
LVDS3.3-0
H26
LVDS3.3-1
J26
LVDS3.3-2
M26
LVDS3.3-3

H24

C9
FSVREF-0
C19
FSVREF-1

D4
D6
D7
D8
D10
D11
D12
D13
D14
D15
D17
D18
D20
D22
D23

DDR2.5-0
DDR2.5-1
DDR2.5-2
DDR2.5-3
DDR2.5-4
DDR2.5-5
DDR2.5-6
DDR2.5-7
DDR2.5-8
DDR2.5-9
DDR2.5-10
DDR2.5-11
DDR2.5-12
DDR2.5-13
DDR2.5-14

AC9
LBADC3.3

AC22
AB23
Y23
V23
T23
P23
M23
IO3.3-10
IO3.3-11
IO3.3-12
IO3.3-13
IO3.3-14
IO3.3-15
IO3.3-16

OCMDATA15
OCMDATA14
OCMDATA13
OCMDATA12
OCMDATA11
OCMDATA10
OCMDATA9
OCMDATA8
OCMDATA7
OCMDATA6
OCMDATA5
OCMDATA4
OCMDATA3
OCMDATA2
OCMDATA1
OCMDATA0

/RESET

V26
SLAVE_SCL
V25
SLAVE_SDA

T909

5

SIL9134_INT

GPIO_36

4

FSDATAU18

*FLASH MEMORY INTERFACE

W24
OCM_TIMER1
Y24
/OCM_INT2
W23
/OCM_INT1

GPIO_39

1
2
4

3

2
/RESET

LBADC_IN6
LBADC_IN5
LBADC_IN4
LBADC_IN3
LBADC_IN2
LBADC_IN1
LBADC_RETURN
OCM_UDO_0
OCM_UDI_0
OCM_UDO_1
OCM_UDI_1

M24
VCO_LV
D25
OBUFC_CLK
A1
SCAN_EN

T913
1

5

CJP05GB46ZY CN54

FS_SELECT
HDMI_AUDIO_ON
CLK_X2
CEC_D

3

IR0

L10
M10
N10
P10
R10
T10
M11
N11
P11
R11
K12
L12
M12
N12
P12
R12
T12
U12
K13
L13
M13
N13
P13
R13
T13
U13
K14
L14
M14
N14
P14
R14
T14
U14
K15
L15
M15
N15
P15
R15
T15
U15
M16
N16
P16
R16
L17
M17
N17
P17
R17
AA2
AA3
AA4

B

OCMADDR21
OCMADDR20
OCMADDR19
OCMADDR18
OCMADDR17
OCMADDR16
OCMADDR15
OCMADDR14
OCMADDR13
OCMADDR12
OCMADDR11
OCMADDR10
OCMADDR9
OCMADDR8
OCMADDR7
OCMADDR6
OCMADDR5
OCMADDR4
OCMADDR3
OCMADDR2
OCMADDR1
OCMADDR0

10K

R683

Added:2009.01.04

+5VAA

FSDATAU17

FSDATA31

3

AE11
AF11
AC10
AD10
AE10
AF10
AD11
W26
W25
B2
B3

SCDT

*COMMUNICATION WITH MCU

FSDATAU16

4

3
2

AB24

FSDATA0

33ohm (1005SIZE X 4),1/16W

FSADDRU3

V24
PWM0
U23
PWM1
U24
PWM2

SIL9135_RESET
SIL9134_RESET
SIL9185_RESET

TO_RX_B00
TO_RX_B01
TO_RX_B02
TO_RX_B03

P24
DCLK
P25
DHS
R26
DVS
P26
DEN

B26
XTAL
C26
TCLK

*IR_IN/NO USE

*GPROBE

FSDATAU15

3

4

HD_RX_VS
HD_RX_HS
HD_RX_DE

FSDATA1

RN31

33ohm (1005SIZE X 4),1/16W
N23
EBLU0
N24
EBLU1
N25
EBLU2
N26
EBLU3

N4
DIP_BODD
L2
BVS
L3
BHS
K1
BHREF_DE

1

5

6

7

10KX4

FSDATAU14

4

47P

BDATA0
BDATA1
BDATA2
BDATA3
BDATA4
BDATA5
BDATA6
BDATA7
BDATA8
BDATA9
BDATA10
BDATA11
BDATA12
BDATA13
BDATA14
BDATA15
BDATA16
BDATA17
BDATA18
BDATA19
BDATA20
BDATA21
BDATA22
BDATA23

FSDATA2

FSDATAU13

3

47P

*DDR MEMORY INTERFACE

FSDATA3

FSDATAU12

4

*EVEN/ODD MONITORING

+3.3V_PLL

RN48
8

C939

10K

R796

R684
10K

+3.3V_PLL
C940

X902

+3.3VDD

CVIFLI30336AC

FSDATA4

33ohm (1005SIZE X 4),1/16W

/FSWEU
/FSCASU
/FSRASU
FSCKEU
FSBKSELU0
FSBKSELU1
TO_RX_B05
TO_RX_B04
TO_RX_B07
TO_RX_B06
TO_RX_G01
TO_RX_G00
TO_RX_G03
TO_RX_G02
TO_RX_G05
TO_RX_G04
TO_RX_G07
TO_RX_G06
TO_RX_R01
TO_RX_R00
TO_RX_R03
TO_RX_R02
TO_RX_R05
TO_RX_R04
TO_RX_R07
TO_RX_R06

FSDATA5

RN29
FSDATAU11

FSDQSU0
FSDQSU1
FSDQSU2
FSDQSU3
FSDQMU0
FSDQMU1
FSDQMU2
FSDQMU3

L24
L23
L26
L25
K24
K23
K26
K25
J24
J23
G24
G23
G26
G25
F24
F23
F26
F25
E24
E23

FSDATA6

1

T902

B1
C3
C2
C1
D3
D2
D1
E3
E2
E1
F3
F2
F1
G3
G2
G1
H3
H2
H1
J3
J2
J1
K3
K2

HD_RX_B00
HD_RX_B01
HD_RX_B02
HD_RX_B03
HD_RX_B04
HD_RX_B05
HD_RX_B06
HD_RX_B07
HD_RX_G00
HD_RX_G01
HD_RX_G02
HD_RX_G03
HD_RX_G04
HD_RX_G05
HD_RX_G06
HD_RX_G07
HD_RX_R00
HD_RX_R01
HD_RX_R02
HD_RX_R03
HD_RX_R04
HD_RX_R05
HD_RX_R06
HD_RX_R07

IC112

D19
FSVREFVSS1
D9
FSVREFVSS2

R 8BIT INPUT

FSDATAU10

FSDATA7

2

EEPROM_WP

G 8BIT INPUT

FSDATAU9

4

N2
DIP_RAW_HS_CS
M2
DIP_EXT_CLAMP
M3
DIP_EXT_COAST
M1
DIP_CLEAN_HS_OUT

HDMI4_HPD

B 8BIT INPUT

FSDATAU8

1

10K

A25
RPLL_AGND
A26
RPLL_AGND-1
B25
RPLL_DGND

HVTKRC114S_open

E4
F4
G4
H4
J4
K4
L4
AC14
AC16
AC18

N1
IPCLK0
P4
IPCLK1
M4
IPCLK2
L1
IPCLK3

0_open

R776

CK3E-/EBLU5
CK3E+/EBLU4
CKE-/EBLU7
CKE+/EBLU6
CH2E-/EGRN1
CH2E+/EGRN0
CH1E-/EGRN3
CH1E+/EGRN2
CH0E-/EGRN5
CH0E+/EGRN4
CH3O-/EGRN7
CH3O+/EGRN6
CKO-/ERED1
CKO+/ERED0
CH2O-/ERED3
CH2O+/ERED2
CH1O-/ERED5
CH1O+/ERED4
CH0O-/ERED7
CH0O+/ERED6

FSDATA8

33ohm (1005SIZE X 4),1/16W

FSCLK+
FSCLK/FSCS0U

C23
D24
C24
C4
C21
C20

FSDATA9

3

4
2
1

3

8
6
5

7

75

R816
10K_open

R774

N3
DIP_AODD
Y1
AVS
Y2
AHS
Y3
AHRFE_DE

HD_RX_CLK
R775

FSWE
FSCAS
FSRAS
FSCKE
FSBKSEL0
FSBKSEL1

FSDATAU7

FSDATAU31

Q919
HVTKRC114S

CEC_D

ADATA16
ADATA17
ADATA18
ADATA19
ADATA20
ADATA21
ADATA22
ADATA23

FSDATA10

RN28

FSADDRU0
FSADDRU1
FSADDRU2
FSADDRU3
FSADDRU4
FSADDRU5
FSADDRU6
FSADDRU7
FSADDRU8
FSADDRU9
FSADDRU10
FSADDRU11
FSADDRU12

D5
C5
D21
C22
B6
B11
A17
A22
A6
A11
B17
B22

FSDATAU5
FSDATAU6

FSDATA11

4

100P

C968

RN46 10KX4

+3.3V_IO

C

V3
V2
V1
W4
W3
W2
W1
Y4

ADATA8
ADATA9
ADATA10
ADATA11
ADATA12
ADATA13
ADATA14
ADATA15

33ohm (1005SIZE X 4),1/16W
FSDATAU4

4

2009.02.04

HVTKRC114S

FSCLKP
FSCLKN
FSCS0
FSCS1
FSDQS0
FSDQS1
FSDQS2
FSDQS3
FSDQM0
FSDQM1
FSDQM2
FSDQM3

FSDATA12

3

T3
T2
T1
U4
U3
U2
U1
V4

ADATA0
ADATA1
ADATA2
ADATA3
ADATA4
ADATA5
ADATA6
ADATA7

C18
C17
C16
C15
C13
C10
C8
C7
C6
C12
D16
C14
C11

FSDATAU3

2

4
2
1

P3
P2
P1
R4
R3
R2
R1
T4

Change HDMI Bypass Control Port
IPCLK0 -> DIPBODD

Torino Select

FSADDR0
FSADDR1
FSADDR2
FSADDR3
FSADDR4
FSADDR5
FSADDR6
FSADDR7
FSADDR8
FSADDR9
FSADDR10
FSADDR11
FSADDR12

AD13
EXT_OSD_VS
AC13
EXT_OSD_HS
AF13
EXT_OSD_CLK

VSSA18_DLL

0

OE_TO

2008.6.02
HDMI_CEC_Option

10K

R687

B14

Q918
HVTKRC114S

R655

AF12
AIP_RAW_HS_CS
AE12
AIP_RAW_VS

HD_RX_B01_30
HD_RX_B00_30
HD_RX_G01_30
HD_RX_G00_30
HD_RX_R01_30
HD_RX_R00_30

RGB 10BIT INPUT

HVTKRC114S

10K

R686

3

8
7
10K

R805

HDMI_Select

10K

R654

Q917
HVTKRC114S

OE_HD

+3.3V_IO

10K

R653

+3.3V_IO

5

6

+3.3V_IO

AA1
ADC_+TEST
AC7
VOUT2

*CVBS_BYPASS_OUT

RN50 10KX4

HDMI & Torino S/W Control

SV1P
SV2P
SV3P
SV4P
SVN

FSDATA13

2

AB2
AE1
AE4
AE7
AF9

FSDATA14

1

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

C648
C643
C653
C665
C675

LBADC_GND

08.08.11: Delete SV_Y_IN
CVBS_IN

82
47
47
47
82

C1P
C2P
C3P
C4P
CN

FSDATAU1
FSDATAU2

1

AC1
AF2
AF5
AF8
AF6

FSDATA15

FSDATAU0

2

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

FSDATAU0
FSDATAU1
FSDATAU2
FSDATAU3
FSDATAU4
FSDATAU5
FSDATAU6
FSDATAU7
FSDATAU8
FSDATAU9
FSDATAU10
FSDATAU11
FSDATAU12
FSDATAU13
FSDATAU14
FSDATAU15
FSDATAU16
FSDATAU17
FSDATAU18
FSDATAU19
FSDATAU20
FSDATAU21
FSDATAU22
FSDATAU23
FSDATAU24
FSDATAU25
FSDATAU26
FSDATAU27
FSDATAU28
FSDATAU29
FSDATAU30
FSDATAU31

1

C645
C640
C662
C674
C664

B1P
B2P
B3P
B4P
BN

B4
A4
B5
A5
B7
A7
B8
A8
B9
A9
B10
A10
B12
A12
B13
A13
B15
A15
B16
A16
B18
A18
B19
A19
B20
A20
B21
A21
B23
A23
B24
A24

2

82
47
47
82
82

RN26
FSDATA0
FSDATA1
FSDATA2
FSDATA3
FSDATA4
FSDATA5
FSDATA6
FSDATA7
FSDATA8
FSDATA9
FSDATA10
FSDATA11
FSDATA12
FSDATA13
FSDATA14
FSDATA15
FSDATA16
FSDATA17
FSDATA18
FSDATA19
FSDATA20
FSDATA21
FSDATA22
FSDATA23
FSDATA24
FSDATA25
FSDATA26
FSDATA27
FSDATA28
FSDATA29
FSDATA30
FSDATA31

1

R649
R644
R668
R679
R669

D

2

AC2
AE2
AE5
AE8
AF3

R652
R647
R659
R671
R682

COMP_Y2

08.08.11:Delete S-Video
08.08.11:Delete Component3

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

AC11

08.08.11: Delete Comp_PR3

C646
C642
C659
C670
C652

AGND-0
AGND-1
AGND-2
AGND-3
AGND-4
AGND-5
AGND-6
AGND-7
AGND-8

COMP_PR2
COMP_PR1
IPOD_PR

82
82
47
82
47

07.14.07
07.14.07

AB3
AC3
AD2
AE3
AC6
AE6
AC8
AD8
AE9

08.08.11: Delete Comp_Y3

R650
R646
R662
R677
R658

A1P
A2P
A3P
A4P
AN

LVDS_GND-1
LVDS_GND-2
LVDS_GND-3
LVDS_GND-4
LVDS_PLL_GND

COMP_Y1
IPOD_Y

AB1
AF1
AF4
AF7
AD1

E25
H25
J25
M25
H23

08.08.11: Delete Comp_PB3

0.1uF
0.1uF
0.1uF
0.1uF
0.1uF

C647
C641
C658
C667
C644

07.14.07
07.14.07

DGND-3
DGND-4
DGND-5
DGND-6
DGND-7
DGND-8
DGND-9
DGND-10
DGND-11
DGND-12
DGND-13
DGND-14
DGND-15
DGND-16
DGND-17
DGND-18
DGND-19
DGND-20
DGND-21
DGND-22
DGND-23
DGND-24
DGND-200
DGND-26
DGND-27
DGND-28
DGND-29
DGND-30
DGND-31
DGND-32
DGND-33
DGND-34
DGND-35
DGND-36
DGND-37
DGND-38
DGND-39
DGND-40
DGND-41
DGND-42
DGND-43
DGND-44
DGND-45
DGND-46
DGND-47
DGND-48
DGND-49
DGND-50
DGND-51
DGND-52
DGND-53
DGND-ADC0
DGND-ADC1
DGND-ADC2

COMP_PB2
COMP_PB1
IPOD_PB_CVBS

ANALOG VIDEO
INPUT PORT
COMPONENT IN : 2EA
COMPOSITE IN : 1EA

47
47
47
82
82

R651
R645
R660
R676
R648

08.08.11: Delete SV_C_IN

CORE1.8-0
CORE1.8-1
CORE1.8-2
CORE1.8-3
CORE1.8-4
CORE1.8-5
CORE1.8-6
CORE1.8-7
CORE1.8-8
CORE1.8-9
CORE1.8-10
CORE1.8-11
CORE1.8-12

D

IO3.3-0
IO3.3-1
IO3.3-2
IO3.3-3
IO3.3-4
IO3.3-5
IO3.3-6
IO3.3-7
IO3.3-8
IO3.3-9

K10
U10
K11
L11
T11
U11
K16
L16
T16
U16
K17
T17
U17

+3.3V_ADCSC

*Add 08.01.16 Reserved GPIOs.

HVIKIC7SZ08FU

IC118
+3.3VDD
L849

+3.3V_IO

5

*EEPROM
A0

VCC

3

2

+3.3V_CLK

1
L822

+3.3V_LVDS
L818

Open

+3.3V_IO

+3.3V_ADC

8

1

IC119
CVIM24C32WMN6TP

4

L853

SIL9185_INT

2007.10.06
Connect pin3 to CHGND

0.1uF / 16V

C904

2.7K_open

R799

L821
+3.3V_PLL
L846
+3.3V_IO
L844

* Need to change 2A

REVISION

+3.3V_LBADC

L847
L823

1

L840

6

3

5

7

A

+3.3V_ADCB
+1.8V_CORE

L841
+3.3V_ADCC

L845
+1.8V_ADC

L825

L852

T903

LPP

+3.3VF
+1.8V_PLL

22/6.3V

0.1uF

C945

+3.3V_ADCSC
C626

22/6.3V

0.1uF

C688

C689

L842

T906

4

+3.3V_ADCA
+1.8V_DLL

L824
+1.8VDD

T905

2

L839

47K_open

A

0.1uF / 16V_open
R797

C686

SDA

6

SCL

5

A2

2.7K_open

WP

R798

A1

7

2
4

3

2.2K_open

R689

+3.3V_LVDS_PLL
SIL9135_INT

ISSUE
ANAM
MULTI. LAB

T907

SCHEMATIC DIAGRAM
MODEL
AVR 260/360
DESIGN

CHECK

APPROVE

SHEET
3
5

DRAWING NO

09.02.04

T910

205

M.S KIM

W.Y YANG

G.S WEY

CUP12179Z

09.02.04

09.02.04

09.02.04

(TORINO)

1

1

6

5

4

3

2

1

AVR2600

CUP12179Z

harman/kardon

#DDR SDRAM *2EA

COMP_PR_OUT
COMP_PB_OUT
COMP_Y_OUT

COMP_PB_OUT<-->COMP_PR_OUT
CVBS_OUT

+2.5V_DDR

+2.5V_DDR

+2.5V_DDR

+2.5V_DDR

75

66
58
57
56

65

1
2
3
4
5
6

64
63
62
61
60
59
55

19

54

18

VDD
DNU

FSDQM2

LDM

FSCLK-

/FSWE

/WE

FSCLK+

/FSCAS

/CAS

FSCKE

/FSRAS
/FSCS0

50

VREF

49

VSS

48

UDM

47

/CK
CK

FSDQS3

FSVREF

FSDQM3
R783

46

NC

VDD

VSS

FDADDR9

A8

FDADDR8

A7

FDADDR7

A6

FDADDR6

A5

FDADDR5

A4

FDADDR4

VSS

CVIA3S56D40ETPG5

+8VV

300

R665

300

300

R667

R666

44

32

A3

43

31

A2

FDADDR3

A4

42

FDADDR2

FDADDR4

A5

FDADDR1

41

FDADDR5

FDADDR0

A6

40

30

A1

FDADDR10

FDADDR11

A9

39

29

FDADDR6

FDADDR8

A8
A7

A11

38

FDADDR7

A0

FSBKSEL1

FSBKSEL0

FDADDR12

37

28

A10/AP

FDADDR9

A9

A12

FSCKE

36

27

BA1

FDADDR11

A11

NC

35

26

BA0

FDADDR12

CKE

34

23
24
25

NC

33

VDD

44

32

A3

43

31

A2

FDADDR3

A12

42

FDADDR2

/CS

41

30

A1

FDADDR0

/RAS

40

29

A0

NC

FSCLK+

280(1%)

39

28

A10/AP

FDADDR10

CKE

FSCLK-

45

FSDQM1

FSDATA24

53

17

NC

NC

52

16

LDQS UDQS

FSDQS2

DQ8

51

13
14
15

VDDQ VSSQ

38

27

BA1

33

22/6.3V

300

FSDATA25

DQ6

DQ7

CVIA3S56D40ETPG5
+3.3VDD

R664

DQ9

FSDATA27

DQ11

VSSQ VDDQ

37

26

BA0

FSBKSEL1

$$$24429$$$24429

300

FSDATA26

36

25

NC

FDADDR1

R779

DQ10

35

24

/CS

/FSCS0

34

23

/RAS

/FSRAS

FSBKSEL0

300

DQ5

FSDATA28

280(1%)

10K

R780

VDDQ VSSQ

DQ12

20

CK

DQ4

FSDATA29

21

/CK

DQ3

FSDATA30

DQ13

NC

FSDATA23

FSVREF

R777

VSSQ VDDQ

D

FSDATA31

DQ14

22

UDM

FSDATA9

FSDATA22

FSDQS1

46

VSS

FSDATA21

DQ2

7

60
59
58
57
56
55

/CAS

R657

C837

54

/FSCAS

VREF

FSDATA10

FSDATA8

45

0.1uF

C657

C656

0.1uF

0.1uF

53

/FSWE

/WE

52

LDM

51

DNU

FSDQM0

50

VDD

NC

49

NC

48

LDQS UDQS

NC

47

VDDQ VSSQ

16

C841

11
13
14

C6610.1uF 22/6.3V

C655

22/6.3V

C654

0.1uF

C660

1uF

C840

DQ8

DQ7

FSDQS0

+5VVA

DQ9

15

15

DQ6

VSSQ VDDQ

NC

FSDATA7

PRIN

PS2

14

22/6.3V

C838

17

16

13

LPFSW

PROUT
18

17

12

0.1uF

C836

19

PBIN

N.C

11

GND3

20

GND2

21

V+2

10

N.C

V+3

YIN

9

PBOUT

0.1uF

YOUT

GND4

8

22

18

7

23

FSDATA20

DQ10

19

6

24

CBSW

25

SYIN

VIN

5

SYOUT

26

FSDATA11

DQ1

8

10

DQ5

FSDATA6

FSDATA19

VDDQ VSSQ

9

FSDATA5

DQ11

FSDATA12

DQ0

10

9

VDDQ VSSQ

DQ12

VSS
DQ15

VDD

11

8

DQ4

FSDATA4

FSDATA13

20

4

V+4

27

GND1

N.C

N.C

3

VOUT

C835

2

28

66

7

DQ3

FSDATA3

DQ13

21

1

29

MIXSW

30

V+1

PS1

IC111
NJM2566V

31

SCIN

32

SCOUT

SDCOUT

S2

S1

0.1uF

C649

C650

10/16V

L819

SD(13.5MHZ) MODE : LOW
HD(30MHZ) MODE : HIGH
Control by Torino

65

6

VSSQ VDDQ

FSDATA18

64

5

DQ2

FSDATA2

FSDATA14

22

10K

R638

R639

10K

FS_SELECT

FSDATA17

DQ14

63

4

DQ1

FSDATA16

62

3

VDDQ VSSQ

FSDATA15

61

1
2

DQ0

FSDATA1
+5VVA

VSS
DQ15

VDD

FSDATA0

12

D
+5VAA

IC117

IC113

12

R643

75

R642

75

R641

75

R640

DRAWING NO

2.5V

IC120

DAC F

C673

20
C672

150nF

150

RN34
10X4

31
12nF

EN_ODCK

0.01uF

C677

0.1uF / 16V

C870

22/6.3V

C651

10K(1%)

R656

0.01uF

0.01uF

C843

C899

0.1uF / 16V

0.01uF

C893

C877

0.1uF / 16V

0.01uF

C885

C872

0.1uF / 16V

C882

0.1uF / 16V

C881

0.1uF / 16V

C873

0.1uF / 16V

0.01uF

C869

C871

0.1uF / 16V

0.01uF

C854

0.01uF

22/6.3V
C864

C865

9

10

11

12

13

14

15

48

OCMDATA14

A9

DQ6

OCMDATA6

A8

DQ13

OCMDATA13

A19

DQ5

OCMDATA5

A20

DQ12

OCMDATA12

WE#

DQ4

OCMDATA4

OCMADDR12
OCMADDR11

16

OCMADDR10
OCMADDR9
OCMADDR20
OCMADDR21
/OCM_WE

RESET#

TO_RX_B00

OCMADDR7
OCMADDR6
OCMADDR5
OCMADDR4
OCMADDR3

22/6.3V

0.1uF

C691

C681

0.1uF

C757

10/16V

C695

47
37

13

NC

DQ11

14

WP#/ACC
DQ3

15

36

L848

35

4

34

3

33

2

32

1

OCMADDR8

DQ9

OCMDATA9

A7

DQ1

31

4

+3.3VDD_IO

3.3V

A17

OCMDATA1

A6

DQ8

30

3

L850

OCMADDR18

OCMDATA2

OCMDATA8

A5

DQ0

29

2

3

10X4

1

1

OUT

8

DQ2

OCMDATA0

A4

OE#

28

7

A18

/OCM_RE

A3

Vss

27

6

OCMDATA10

16

5

10K

17

8

R785

OCMDATA3

18

7

10K

19

6

OCMADDR19

R786

OCMDATA11

20

5

GND

IN

TO_RX_CLK_1

B

Vcc
R787

10K

21

10K

IC128

+3.3VF

22

R788

/RESET

23

22/6.3V

R790

22/6.3V

OPEN

C931

0.1uF
C932

+1.8V_DVV

RY/BY#

A2

CE#

DQ10

26

R692
IC129

1

3
1.8V

TO_RX_G07

+1.8V_PVV

0.01uF

C696

0.1uF / 16V

C697

22/6.3V

R690
+3.3VF

/ROM_CS

L851

0
+1.8V_DVV

22/6.3V

0.1uF

C693

C683

0.1uF

C685

10/16V

C609

10K

TO_RX_G06

TO_RX_G05

TO_RX_G04

TO_RX_G03

TO_RX_G02

TO_RX_G00

A0

OCMADDR1
L843

TO_RX_G01

A1

C700

OCMADDR2
OUT

IN

EN_ODCK

GND

09.02.04

24

10K
2

R784

ADDED Bypass Cap

25

FBIN

46

TO_RX_B01

CLK2
0.1uF

45

8

RN45

VDD ICLK
C964

44

7

+3.3V_CLK

CLOCK DOUBLER(13.5MHz * 2 = 27MHz)

43

TO_RX_B02

+3.3V_AVV

CLK_X2

DQ14

42

6

10X4

R818

CLK1
S1:HIGH
ICLK
S1:LOW 2*ICLK

A10

41

5

RN44

CLK1 GND

S0
S1

8

OCMDATA7

40

4

75
100P

7

DQ7

39

C2
C1

C925

33

6

A11

38

4.7K

R791

CVIF49L320UA70TG

ALSB/SPI_SS

2

5

OCMDATA15

HDMI_SDA

RN41
10X4

+5VAA

IC116
CVIMK2302S01T

1

3

TO_RX_CLK

1

DQ15
/A-1

OCMADDR13

10K

+3.3VF

2

A12

OCMADDR14

A16

R691

10K(open)

2

0.1uF

3

Vss

OCMADDR15

R789

B

4

2

20

17

A13

OCMADDR16

HDMI_SCL

21

18

3

TO_RX_HS

4

22

TO_RX_VS

5

23

A14 BYTE#

6

RN39
10X4

7

TO_RX_DE

24

A15

8

TO_RX_B03

IC114

9

25

Blue DATA Input

10

TO_RX_B04

OCMADDR17

11

4
3
2

TO_RX_B05

26

2

TO_RX_B06

1

27

TO_RX_B07

4

8

28

3

29

7

10

19

C924

R792

22/6.3V
C678

#FLASH MEMORY

R685

30

64
1

C970

C666

22/6.3V

C694

0.1uF

C684

0.1uF

C680

10/16V

+1.8V_PVV

PGND

+3.3VF

6

DAC D
DAC E

VREF
COMP1
DAC A
DAC B
DAC C
VAA
AGND

Rset1

63

R681

10K

+3.3VDD_IO

10

CVIADV7342BSTZ

R680

2

RN38

EN_ODCK

EXT_LF2
CLKIN_A

C7
C6
C5
C4
C3
P_BLANK
/P_VSYNC
/P_HSYNC
SCL/MOSI
SDA/SCLK

S6

62

33

12

2

61

S7
CLKIN_B
GND_IO

34

4

60

35

32

IC115

S3
S4
S5

36

3

4

59

R688

37

1

TO_RX_R07

58

1

5

TO_RX_R06

38

1

57

3

8
7
6

TO_RX_R05

39

150nF

5

56

10X4
TO_RX_R04

40

20

6

Red DATA Input

41

150

5

RN35

42

R675

8

C902

1

5

TO_RX_R03

43

C669

R674

7

55
+1.8V_DVV

44

S0
S1
S2
VDD
DGND

VDD_IO

4

54

0.1uF

TO_RX_R02

45

52
53

C900

6

TO_RX_R01

51

2

7

TO_RX_R00

50

3

8

10X4

49

46

0.1uF

TEST0
TEST1
Y0
Y1
Y2
Y3
Y4
Y5
VDD
DGND
Y6
Y7
TEST2
TEST3
C0

RN32

47

12nF

#22

8

4
2

/S_VSYNC
/S_HSYNC
TEST4
TEST5

22/6.3V

TO_RX_HS

48

1

5

TO_RX_VS

0.1uF

3

8
7
6

TO_RX_DE

IPOD_Y

C668

22/6.3V
C874

RSET2
COMP2
PVDD
EXT_LF1

C888

33ohm (1005SIZE X 4),1/16W

FSVREF
10K(1%)

7

22/6.3V

/S_BLSNK

R778

L820

6

220(1%)

+3.3VDD

5

C903

3.9K(1%)

3

C863

C671

2
R678

2200P

3

R672

L867

Y
Pb
Pr
CVBS
S-Y
S-C

C

+2.5V_DDR

+2.5V_DDR

+1.8V_PVV

1

4.3K(1%)

R673

open

R670

C663

#VIDEO ENCORDER PART

0.1uF

D901 CVDAD1580BRT

220(1%)

*OPTION
Do not use

R781 3.9K(1%) R782

R661

+3.3V_AVV

2200P

6.8K(1%)

2007.11.03
R663

C887

open

R854: 3.9kohm-->6.8kohm
R855: 6.8kohm-->4.3kohm

+3.3V_AVV

+3.3V_AVV

DAC A
DAC B
DAC C
DAC D
DAC E
DAC F

1

C690

44
43
42
39
38
37

NC

OUT

+8VV

IN

L866

C

GND

2

Green DATA Input

REVISION
1

A

LPP
ISSUE
ANAM
MULTI. LAB

2

4

6

3

5

7

SCHEMATIC DIAGRAM
MODEL
AVR260/360
DESIGN

CHECK

APPROVE

A

SHEET
4
5

DRAWING NO

09.02.04

S. KIM
09.02.04
206

W.Y YANG

G.S WEY

09.02.04

09.02.04

CUP12179Z
(ADV7342+MEM.)

1

1

5

4

+5VAA

CHGND
R630

0_NC

R631

0

harman/kardon

R629

12

1
2
3
4
5
6
7
8
9
10
11
12
13
14

16
17
18
19
20
21
22
23
24
25
26
27
28

0.1uF

0.1uF
C821

0.1uF
C795

0.1uF
C794

0.1uF
C793

0.1uF
C792

0.1uF
C787

0.1uF
C786

TO_TX_DE
TO_TX_CLK

TO_TX_VS
TO_TX_HS

TO_TX_B04

HDMI TX:BLUE_10Bit

TO_TX_B05

HDMI TX:BLUE_10Bit

TO_TX_B06

HDMI TX:BLUE_8Bit

TO_TX_B07

HDMI TX:BLUE_8Bit

IC105
CVISN74ALVCH16827DGG

15

56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40

15

16

29

14

17

TO_RX_G04

13

18

30

12

19

TO_TX_G03

31

TO_RX_G05

11

20

TO_TX_G02

10

21

32

9

22

TO_RX_G06

8

23

TO_TX_G01

33

7

24

34

TO_RX_G07

6

25

TO_TX_G00

5

26

35

4

27

36

3

28

38

TO_RX_B00_30

TO_TX_B03
TO_TX_B02
TO_TX_B01
TO_TX_B00
TO_TX_B01_30

TO_TX_B00_30

TO_TX_G07
TO_TX_G06

TO_TX_G05
TO_TX_G04

C

10K_NC

R769

R817

75
100P

Sync & Control

C969

1
2
3
4

15
16
17
18
19
20
21
22
23
24
25
26
27
28

TO_TX_G03
TO_TX_G02

TO_TX_G01
TO_TX_G00

TO_TX_G01_30
TO_TX_G00_30

HDMI TX:BLUE_10Bit

TO_TX_R07
HDMI TX:BLUE_8Bit

IC107
CVISN74ALVCH16827DGG

5

56
55
54
53
52
51
50
49
48
47
46
45
44
43

6

29

7

TO_TX_HS

30

8

31

9

TO_TX_VS

10

32

11

TO_RX_R00_30

12

33

13

34

TO_RX_R01_30

14

35

14

15

TO_RX_R00

13

16

36

12

17

TO_RX_R01

11

18

37

10

19

38

TO_RX_R02

9

20

39

8

21

TO_RX_R03

7

22

TO_TX_CLK

40

6

23

TO_TX_DE

TO_RX_R04

5

24

TO_TX_B07

41

4

25

TO_TX_B06

TO_RX_R05

3

26

TO_TX_B05

42

2

27

TO_TX_B04

TO_RX_R06

1

28

TO_TX_B02
TO_TX_B03

43

42

TO_TX_B01

44

TO_RX_R07

41

TO_TX_B00

45

40

TO_TX_B01_30

46

39

47

TO_TX_B00_30

38

28

TO_RX_G00_30

37

27

TO_TX_B01_36

48

36

26

49

TO_RX_G01_30

35

25

TO_TX_B00_36

34

24

50

33

23

51

TO_RX_G00

32

22

TO_TX_G07

31

21

52

TO_RX_G01

30

20

TO_TX_G06

29

19

55

53

Torino_RX_RED:08bit

18

56

54

TO_RX_G02

Torino_RX_RED:10bit

17

TO_TX_G05

HDMI_RX_BLUE:12bit

16

TO_RX_G03

HDMI_RX_BLUE:10bit

15

TO_TX_G04

HDMI_RX_BLUE:08bit

1
2
3
4

IC106
CVISN74ALVCH16827DGG

5

56
55
54
53
52
51
50
49
48
47
46

6

29

7

HD_RX_HS

8

B

30

9

31

HD_RX_VS

10

32

11

HD_RX_CLK_1

12

0.1uF

C701

C703

33

13

34

HD_RX_DE

14

100/16V

35

14

15

36

HD_RX_B07

13

16

37

HD_RX_B06

12

17

38

HD_RX_B05

11

18

39

10

19

HD_RX_B04

9

20

40

8

21

41

HD_RX_B03

7

22

HD_RX_B02

6

23

42

5

24

HD_RX_B01

4

25

1

43

3

26

-5VV

HD_RX_B00

2

27

PW_GND

44

1

28

3
2

4

2

PW_GND

PW_GND

45

HD_RX_B01_30

HDMI_RX_BLUE:08bit

5

HDMI_RX_BLUE:10bit

HDMI_RX_BLUE:12bit

0.1uF

C706

2200/25V
C954

+15V

6

3

1

BN82 CJP07GA01ZY

4

5

6

7

46

45

47

HD_RX_B00_30

44

+15V

43

HD_RX_B01_36

42

48

41

49

HD_RX_B00_36

40

50

39

HD_RX_G07

38

51

37

52

HD_RX_G06

36

CVBS_OUT

35

1

2

53

34

HD_RX_G05

33

3

4

54

32

55

HD_RX_G04

CVBS_OUT

39

10K

56

31

COMP_Y_OUT

30

COMP_Y_OUT

40

2

OE_TO

29

COMP_PB_OUT

TO_RX_B00
TO_RX_B01_30

1

3.3V_TTL_MUX
R761

5

6

CN57
CJP06GB143ZB

COMP_PB_OUT

41

TO_TX_G01_30

OE_HD
COMP_PR_OUT

42

TO_RX_B01

37

3.3V_TTL_MUX

COMP_PR_OUT

43

TO_TX_G00_30

2008.01.18

7

22/6.3V
C785

C639

TO_TX_G01_36

TO_RX_B03
TO_RX_B02

39

TO_TX_G00_36

44

38

TO_TX_R07

45

TO_RX_B04

37

TO_TX_R06

46

36

TO_TX_R05

TO_RX_B05

35

TO_TX_R04

47

34

TO_TX_R03

TO_RX_B06

33

28

TO_TX_R02

48

32

27

TO_TX_R01

49

TO_RX_B07

31

26

TO_TX_R00

30

25

51

29

24

52

50

Torino_RX_BLUE:08bit

23

TO_RX_HS

Torino_RX_GREEN:08bit

22

TO_TX_R01_30

Torino_RX_BLUE:10bit

21

TO_RX_VS

Torino_RX_GREEN:10bit

20

TO_TX_R00_30

HDMI_RX_RED:12bit

19

54
53

HDMI_RX_GREEN:12bit

18

55

TO_RX_CLK_1

TO_TX_R01_36

HDMI_RX_RED:10bit

17

56

TO_RX_DE

HDMI_RX_RED:08bit

1
2
3
4
5
6
7
8

IC110
CVISN74ALVCH16827DGG

9

56
55
54
53
52
51
50
49
48
47
46
45

10

29

11

HD_RX_G03

16

TO_TX_R00_36

HDMI_RX_GREEN:10bit

NJM2595M

VID2

VO3

9

30

15

Torino_Sync & Control

HDMI_RX_GREEN:08bit

10
VIN2

11
SW2

12
GND

13
VIN1

14

31

HD_RX_G02

HDMI_RX_GREEN:08bit

C611

C608

VSS

IC126

VID1

VO2
100/16V

1

ADD : R415~R420

C603

0.022u

0

IC41
NJM2595M

75

15

VCC
C602

3

16
4

S3(SW3)
6dB

S1(SW1)

75

SW1

5

6

COMPO_REC_OUT

HDMI_RX_GREEN:10bit

6dB

V1

8

S7(SW2)
S4(SW4)

S5(SW5)

R623

7

S2(SW2)

S6(SW1)
6dB

V2

VIN3

SW4

6

HDMI_RX_GREEN:12bit

75

5

VID3

SW1

VIN4

4

32

12

DVD

3

HD_RX_G01

100/16V

2

33

SW2

0.022u

1

SW3

VIN5

SW5

1K_NC

+5VVA_BUFFER

V3

7

8

R727
V01

COMP_Y2

9

10

COMP_Y1

IPOD

Do not
USE

11

12

COMP_PB2

34

HD_RX_G00

13

SW3

COMP_PB1

14

35

SW4

2

36

14

15

HD_RX_G01_30

13

16

13

14

FRONT_CVBS

37

SW5

COMP_PR2
CN56

HD_RX_G00_30

12

17

75

75

R735

47P

R736

C738
15

16

COMP_PR1

IPOD_PB_CVBS

11

18

38

HD_RX_G01_36

10

19

CVBS_IN

9

20

39

8

21

40

HD_RX_G00_36

7

22

HD_RX_R07

6

23

41

5

24

42

HD_RX_R06

4

25

43

3

26

HD_RX_R04
HD_RX_R05

2

27

44

1

28

0

R626

0.1uF

C682

C692

10/16V

L828

45

HD_RX_R03

44

FRONT_CVBS
1

46

43

2

HD_RX_R02

42

+5VVA_BUFFER

41

+5VAA

47

40

2

1

3

HD_RX_R01

39

-5VV

MCU_SCL

48

38

4

49

HD_RX_R00

37

4

3

CJP26GA226ZB

5

HDMI_RX_RED:08bit

ADDED DSP 3.3V Power
09.02.04

HDMI_RX_RED:10bit

50

36

+3.3VDD

6

51

HD_RX_R01_30

HDMI_RX_RED:12bit

6

5

7

CN55

52

HD_RX_R00_30

8

35

8

7

9

34

53

33

HD_RX_R01_36

32

54

31

HD_RX_R00_36

CEC_MCU

10

55

GPROBE_RXD

CJP16GB143ZB

0.1uF

10K_NC

R773

10

GPROBE_TXD

11

HDMI_Sync & Control

9

QS

8

56

MCU_SDA

12

10

OE_TO

30

12

11

Q'S

OE_HD

14

GND

14

13

EX_EN
13

C

0.1uF
C784

3.3V_TTL_MUX

R754

15

9

Q4

100

SW4

7

16

15

UART_TX

0.1uF
C767

3.3V_TTL_MUX

R752

17
16

0.1uF
C766

SW5

11

Q8

Scaling Mode Interface

HDMI By Pass Mode Interface

100

R751

IPOD_Y

0.1uF
C765

SIRIUS_RST
R802

Q3

SW3

6

18

17

100

UART_RX
18

0.1uF
C764

D

100

IPOD_PB_CVBS
19

0.1uF
C762

0.1uF

C676

13

Q6

USB_IDLE

R747

R749

100
R803

Q7

5

SW2

-5VV
MUTE_OUT

20

0.1uF
C761

/RESET

29

20

21

100

TC74HC4094FN

4

22
Q2

23

24
22

21

R748
IPOD_PR

19

Q1

100
SW1

C631

15

100
R746

23

3.3V_TTL_MUX

0.01uF

25
24

3.3V_TTL_MUX

C614
10K

VCC
OE
Q5

MCU_SCL

DATA

2
3

26

22/6.3V

0.1uF

C607

C758

MCU_SDA

1

0.1uF

C755
C756

10/16V

26

CE

R628

2

CLK

In Out
GND

3

25

1

100
EX_EN

+8VV

14

IC127

16

IC104

22/6.3V
C760

SIRIUS_RST

+5VAA
1000P

1

CUP12179Z

+3.3VDD

C613

D

2

AVR2600

PORT_EXTEND_VIDEO
USB_IDLE

3

10K

6

TO_TX_R06
TO_TX_R05
TO_TX_R04
TO_TX_R03

TO_TX_R02
TO_TX_R01
TO_TX_R00

TO_TX_R01_30
TO_TX_R00_30

B

Sync & Control

3.3V_TTL_MUX

3.3V_TTL_MUX

+3.3VDD

DC/DC REGUALTOR

0.1uF

0.1uF
C759

0.1uF
C834

0.1uF

C831

C830

0.1uF

0.1uF

C829

C828

0.1uF

C827

0.1uF

22/6.3V
C822

C630

0.1uF

0.1uF

C820

C811

0.1uF

C810

0.1uF

C809

0.1uF

C808

0.1uF

0.1uF
C833

0.1uF
C832

C823

22/6.3V

C615

L838

L854

L855

L837

FB
GND

COMP
SW

EN

SI8005Q

SS

2

3

4
L868

PW_GND

5.1K

R808

0.1uF

470/16V

REVISION
1

C962

56K
20K
C961

C956
1000P

C957

0.1uF_NC

PW_GND
PW_GND

R806

CVDSS34SR
D905

220P
62k

C963
R804

10/16V_NC

0.1uF
C955

C958

C959

470/16V
C708

0.01uF

5.1K

R695

220/25V

27K
1.5K-->2.2K
0.1uF
C702

2.2K

R693
R696

CVDSS34SR
D902

0.01uF

C960

R807

22UH/3A

C946

C947

0.1uF_NC

0.01uF

220P
62k

C948
R800

10/16V_NC

0.1uF
C952

220/25V
C705

C707

470/16V

C698

C709

5.1K

R697

0.1uF
C699

R694

2K
12K
1.5K-->2K

C949
1000P

C950

0.1uF_NC

R698

CVDSS34SR
D903

220P
62k

C951
R801

10/16V_NC

0.1uF
C953

220/25V
C710

C704

A

0.01uF

1

+8VV

22UH/3A

22UH/3A

C711

5

L826

L827

PW_GND

6

+15V

PW_GND
+15V

+15V

7

VIN

4

IC130
PW_GND

8

BS

3

+3.3VDD

CVISI8005QTL

FB

2

100K

COMP

1

C965

R815

EN

GND

5

SS

100K

22K
R811

6

SW

4

7

VIN

3

8

BS

2

SI8005Q

1

+1.8VDD

CVISI8005QTL

GND

FB

R814

5

SW

EN

COMP

6

VIN

SS

7

BS

SI8005Q

CVISI8005QTL

100K

22K

R810

R813

IC122

8

PW_GND

22K
R812

0.01uF
IC121

LPP
ISSUE
ANAM
MULTI. LAB

2

4

6

3

5

7

SCHEMATIC DIAGRAM
MODEL
AVR260/360
DESIGN

CHECK

APPROVE

A

SHEET
5
5

DRAWING NO

09.02.04

207

S. KIM

W.Y YANG

09.02.04

09.02.04

G.S WEY
09.02.04

CUP12179Z
(Buffer&Connector.)

1

1

6

5

4

3

2

1

AVR2600

CD_BUS2

34

93

33

LRCK

270

VREF

R137

100K

20

22

23

24

100K

R159

R158

R157

R156

100K

100K

100K

100K

0.1uF

C134

10K

R244

15K

GND

1K

1K

1K

1K

1K

REMOTE OUT

220

47K

R247

10K

R246

10K

R245

REMOTE IN

2

10
9

D921

2

8
80

79

78

77

76

75

74

73

72

71

70

69

68

67

66

65

64

100K

R142

GATE
R138

0.1uF

GND

R310

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

36

37

38
63

62

61

25

GND

Q105
HVTKRA107S

Q106
HVTKRA107S

GND

MCU

T5CNT_BOOT
T5CNT_RST

4

5

6

REMOTE_OUT

7

UART_IRQ

39
35
33

36
34

BOL_POWER_ON

UART_RST

31

MULTI_IR
32

BOL_LED_CONT

CD_RST

CD_CCE

CD_BUCK

CD_BUS3

CD_BUS2

ST+3.3V

BOOT

BOL_RST

UART_RX

UART_TX

BOL_LED_CONT

USB_POWER_ON

BOL_POWER_ON

T5CNT_RST

T5CNT_BOOT

3

0.1uF

0.1uF

30

+5VDD

29

UART_CLK

GND
GND

UART_DATA_IN

GND

UART_DATA_OUT

SIRIUS_RST

JK16

27

2

37

3

38

R123

R122

R121

2

GND

0.1uF

GND
3

1

C

A-BUS_BYPASS

CN58 CJP07GA01ZY

CARR_OUT1

C217

VDD
2
2

1

R119

HVIRH5VT28C

R120

40

ST+3.3V

BOL_RST

C158

1

21

C125

19

15K

18

28

0.1uF

470/10V
C216

17

IN

3
C157

16

GND

1

OUT

+8V

15

GND

IC208

C110

AVR360/460 : HVIKA78L05AZT

14

OUT

GND

1

SIRIUS_TX

CVIMC7805VA

13

GND

IC223
AVR2600/3600 :

12

0.1uF

11

R124

12P

120P
C114

C113

120P

10

C123

9

330/10V

100K

C111

100K

0.1uF

R173

C112

R172

14

8

X104

2

In Out

330/10V

13

C109

12

3.3K

R174

11

3

7

ST+3.3V

IC207

C

6

C115

R118

5

HOX00032K120I

4

100K

3

12P

GND

2

R117

GND

ST+5V

1

100K

100K

100K

R113

R112

47K

D+3.3V

47K

R115

R114

2.2K

R171

1K

R170
SIRIUS-RX

+3V3

HVTKRC107S

D+3.3V

C128

26

D+3.3V

0.1uF

100

AVR3600

CARR OUT

+1.5V

27

GND

47K

99

0.1uF

Q107

C127

28

R141

98

0.1uF

0.1uF

29

MP3REQ

C124

+1.5V

97

ST+3.3V

0.1uF

30

C126

96

1000P

31

REQ-0

220

ST+5V

ONLY

R140

32

95

R218

C212

47K

94

SIRIUS_RX

1

0.022u

JK15

47K

GATE

2

C211

D+3.3V

43

92

270

R136

100K

41

35

USB_IDLE

R135

R169

44

91

R101

BCK

R168

JK14

42

36

270

KP1010B

0.01uF

90

0

R134

100K

MULTI
REMOTE
INPUT

C135

37

DATAS

JK13

47K

89

R306

47K

5

38

270

3

88

R133

47

KP1010B

100K

R167

D+3.3V
56

39

CVITMP92FD28FG

GATE

7

GND

REQ-0

270

R251

IC202

4

40

IC204

270

R132

GND

R139

DATAS

10

100K

100K

BCK

9

R166

6

0.1uF

MP3REQ

R111

8

39

47
49
50

C122

GND

41

87

UART_RX

3

100K

2

85
86

4

100K

R165

1

42

R131

53

84

GND

UART_TX

5

R164

54

D+3.3V

MCU_RX

6

100K

55

43

TC94A92FG

52

+1.5V
47/16V

C210

57

6

83

MCU_TX

7

44
15P

IC205

51

C121

1K

USBDP

7

R163

58

45

82
USBDP

HVI74HCU04AFNG

100K

59

81

AGND

R110

USBDM

5

46

60

USBDM

80

15P
1M

GND

47
R125

79

USBDM

48

C120

USBDP

IC206

R162

R250

48

100K

IC201

4

78

AGND

X102

3

49

R161

100K

100/10V

4

77

JK12
VREF

3

0.1uF

2

C101

C104

CVBS

R130

GND

GND

270

USB_LO

50

D

4

76
R109

7

JK11

3

51

1

52

1

53

6

270

54

270

55

R248

56

R249

57

0.1uF

58

C133

59

47/16V

60

5

Q104
HVTKRA107S

C132

61

19

62

18

63

17

64

16

65

15

66

14

67

100K

R160

13

68

4

Q103

ST+5V

12

69

3

0.01uF

11

70

42

71

45

72

46

1

73

43

R129
74

8

HVTKRC107S

270

USB_RO

2

47/16V

44

GND

75

9

C229

41

40

2200P

2200P

C119

R108

100K

C118

0.1uF

C117

USB_POWER_ON

10

GND

C131

GND

CN51

11

0.1uF

ST+3.3V

ST+3.3V

12

C130

100/16V

C116
33P

R155

0.1uF

R144

C106

100K

100K

C108

R143

33P

+1.5V

22

3

0.1uF

R126

GND

4

C105

1

13

IC220
74LCX32TTR

1

X101

VDIS

D

VIN

47K

0.1uF

C107
2 VOUT

R309

CD_BUS3

CD_BUCK

CD_RST

CD_CCE

+3V3

R128

78R05

R127

IC203

14
C129

47K

+8V

R107

ST+3.3V

D+3.3V

33

ST+3.3V

33

LRCK

BOOT

harman/kardon

R269

10K

2.2K

2.7K

4.7/50V

1K

SIRIUS_R
4.7/50V

3

2

1

C149

C150

C225
SIRIUS_L

R262

4.7/50V

1K

18

EXT_EN

8
AGND

C204

15

7

16

C207

C208

0.01uF

47/16V

6

EXT_DATA

1000P

14

EXT_CLK

USB_RO

13

C202

5

47K

4.7

TORINO_RX
MCU
R272

47uf

0.1

AGND

AGND

27K

470/16V

2009.05.13 ADD(SIRIUS ISSUE)

D101

TORINO_TX

17

AGND

HVTKRA107S

CEC

CEC

R270

4.7/50V

1K

+15V

11

C206

USB_R
-15V

9

2.2K

R266

AGND

2.7K

120

R274

4.7/50V

12

R268

10

0.1uF

21

22

HDMI_MUTE_IN

C102S
GND

BOL_RST

IC218

19

4

MCU_TX

20

0.01uF

CEC

C200

47/16V

R311

C199

Q108

27K

Q101

220P

220P

47K

1000P

R263

C160

C159

R284

R283
47K

MCU_RX

10K ==> 1K

1K

C161

1K

C203

USB_LO
+8V

R179

4.7/50V

SIRIUS_RX

AGND

47K

R178

R261

R271

R281

1K

C201

DMP_DET
SIRIUS_TX

24

C226

120

R282
1K

USB_L

25

C205

23

R267

R273

R265

R264

AGND

R177

26

-15V
AGND

AGND
D+3.3V

IPOD_CV(Pb)
47/16

C170

0.1uF

C169

3

+8V

13

2

2

5

0

R201

R203

R205

R207

49.9K(1%)

49.9K(1%)

5.1K(1%)

10K(1%)

10/50V

5

6

7

470K

BN50

NJM2068

1

33P
R202

R204

R206

R208

C190

49.9K(1%)

49.9K(1%)

5.1K(1%)

10K(1%)

10/50V

0.022u

4700P

AGND
AGND

33P

220/16V
C197

C188
C192

R225

2

22

3

0.1uF
IPOD_R
AGND

P16

P14

P04/MISO

P03/MOSI

P02/SCK

P01/RX

P00/TX

P20

/RST

P22

P21

VDD
47K

16

5

6

3
1
25

26

23

24

21
17

18

15
13
11

16
14
12

9

10

EXT_CLK

R241

0.1uF

100/16V
C139

C138

UART_IRQ
UART_DATA_OUT

REVISION

2

4

6

1

3

5

7

3

4

5

SCHEMATIC DIAGRAM
MODEL
AVR2600/3600

1
470K

2

R224

4
3

22

NJM2068

2

TX

1

C186

090322 DELETE

20P

8

8
IC216

4

090322 DELETE

*OPTION(Do not use)

RX

7

1K(1%)
4.7

15

UART_RST

-15V

C198

C182

R-CH

14

TO_AVR

/RST

6

R210

D103

C227

IPOD_R_OUT

R308

49.9K(1%)
4700P

0

0
R355

0
R354

R353
AGND

1K(1%)

13

UART_CLK

0

IC217
R214

12

FROM_AVR

UPGRADE
R209

33P

5
R301

11

BN55

33P

49.9K(1%)

33P
R215

C228
090322 DELETE

10

A

C187

C185

IPOD_L_OUT

9

0.1uF

R238

IPOD_L

AUDIO_RETURN

8

C218

0

C189

4700P

VIDEO_RETURN

7

*Do not use

OPERATE

R239

1K(1%)

6

UART_DATA_IN

C137

20P

R302

IPOD_CV(PB)
L-CH

TEST
47K

HVTKRC102S

47K

R223

R300

22

47K

C196

0.022u

R222

DETECT

R213

XOUT

VSS

DMP_DET

C136

Q102

R240

470K

R193

2.2K

22

IPOD_SY(PR)

5

CVBS
X103

270
FROM_AVR

4

D+3.3V

+15V

C209

I-RX R196

270

220/16V

I-RX

3

+3V3

TO_AVR
R195

R192

I-TX

D+3.3V

R299

UCOM_LINE
I-TX

C191

17

+5VDD

2
XIN

1

GPROBE_RXD

4.7K

CJP26TT152ZY

TMP86F409NG

IC215

R243
UART_TX

7

17

5

18

P15

P13

19

3

20

P05

P06

P07
21

1

22

8

23

P10

P11

P12
24

6

25

47K

26

R298

27

P30

P31

P32

28

47K

29

4.7K

R297

30

GPROBE_TXD

UART_RX

pin 15,19,20 connect.
pin19 disconnect to gnd.
2008.2.11

31

P33

P34

P35

P37
32

75

R235

R260
10K

8

7

0.1uF

C213

9

6

IPOD_SC

P36

R242

10/50V

D+3.3V

R500

22

75

EXT_DATA
UCOM_LINE

R234

10/50V

EX_EN

AGND

2
1

0.1uF

IPOD_CVBS

4

IPOD_CVBS

R237

5

1

GND

VGND

IPOD-Y

2

100

C168

5

R189

11

4

47/16

C176

0.1uF

C175

3

C177

8V
3
5
7
9
11
13
15

14
16

34

35

19

18

20
36

A

33

32

31

24
23
22
21

0.1uF

IPOD_SC
TORINO_RX

75

10

10/50V

R236

IPOD_SC(Y)

7
6
5
4
3

C154

75

R233

TORINO_TX

18

1

19
2

20
21

4

22

10
12

30

27
26
25

29

28

27

8

26

25

6

24

23

JK17

32
31
30
29
28

100/16V

IPOD_CVBS

2

3

12

IPOD-PB

V+

IC213

VIN 4

C167

75

R305

0

0

R352

R351

IPOD_SY

0.022u

33

IPOD_SY
HDMI_MUTE_IN

C195

34

CLZ9R001Z
C156

GND

14

1

1

75

17
16
15
14
13
12
11
10
9
8

2

-5V

VOUT

AGND

36

In Out

19

0.1uF

C181

47/16

C179

0.1uF

C178

47/16

C173

0.1uF

3

C172

3

IPOD_SC(Y)
R188

35

SIRIUS_RST
L107

10/50V

+8V

100

AGND

+8V
USB_IDLE

75

470/16V

C215

0.1
C214

102/R180/C162 DELETE

10/50V

B

IC210

R232
100

CN81

1

100/16V

C166

GND

R186

VGND

VOUT

IPOD-PR

1

75

L102

R304

C174

IPOD_L

+1.5V

IC214
HVINJM2581MTE1

V+

IC212

VIN 4

IPOD_SY(Pr)

10/50V

IPOD_R

CLZ9R001Z

C153

I-POD PART

+8V

100

2

GND

+5VDD

+8V

C165

In Out

0.1uF

-5V

B
R185

L106

3

CLZ9R001Z

20

1

L101
10/50V

100/16V
C152

GND
2

10/50V

4

IC209

C151

VGND

100

5

R183

C164

2

+3V3
C171

VOUT

SIRIUS_L

CLZ9R001Z

C155

10/50V

SIRIUS_R

L105

V+

IC211

75

R303

100

AGND

VIN 4

R182

C163

7

8

+15V
+8V

AGND

AGND

208

DESIGN

CHECK

APPROVE

DRAWING NO

J.H.L

W.Y.Y

K.S.W

2169SCMZ

09.05.13

09.05.13

09.05.13

USB/IPOD/SIRIUS

SHEET
1
1

1

1

6

5

4

3

2

1

AVR2600

CUP12168*

harman/kardon
CUP12168-3

FIP PCB
CN74

C252

1

C107M

2
3

VOL_EN2

R202

R211

4

R213

0.1uF

R203

V/R_GND

0.022

2.7K

JW17

GND

D

1

LAND

100
CVD1L0345W31BOCT201V
D203

100

JW18

C181

1

0.1uF

R214

VOL_EN1

JW17

C171

D202

VR74

2.7K

C214

39K
33k

2.2uF/50V

5

VOL_EN2

100

0.022

R252

1K

R113

VOL_LED_CTRL

4

Q252
VOL_LED_CTRL

2.2K

R251

+5VD(F)

R201

CVD1L0345W31BOCT201V

5

TO VR JACK PCB

3

VOL_EN1

D

FROM FIP PCB

1
2

Q251
A1271Y

ST+5VC(F)

* ESD *

* OPTION *

D201
VOL_LED

C213

BN74

BN74

VOL_LED

[VOLUME PCB]

CN74

CUP12168-1

LAND

JW18

GND

100
CVD1L0345W31BOCT201V

V/R_GND
V/R_GND
V/R_GND

V/R_GND

POWER_H
Q111
VOL_EN1

A107M

KEY_2

1K

R322

1.5K

SET

1.8K
2.7K
3.3K
5.6K

AVR
SET_DOWN

FROM MAIN TRANSFORMER

R323
R324
R325
R326

3.3K

SET_UP
S323

Tuning_down
POWER_KEY

C441

F1

NC

NC

NC

NC

5

AC2.4V

10/16V

3
R403

VH

C107M

R432

R431

10

10

2

2

1

1

10

R404

AC2.4V

C431

0.047

C152

C151

0.1

C161

1N5819

D161

ST+5V

AC2.4V

AC2.4V

8.2

10uH

HP_MUTE2

4
R402
8.2

L151
+5VD(F)

8.2

CFL162BD01GINK

AC2.4V

ST+5VC(F)
ST+5V

NC

TSB

TSA

DA

CP

CS

RESET

OSC

VDD

VH

PGND

LGND

F2

FIP1

+43V

R2

5

1

4

7

3

8

BN71

R1

+43V

8.2

Q104
C2316Y

C

CN71

9

1N4003

10

D401

11

10

11

46

100

Q721

13

BN71 -> CN71 CHANGE

F_COAX

F_COAX
D_GND

4.7/50

C422

D422

6.8V

D421

47K

6.8V

C415
R415

47/63

C414
100K

R413
47/63

C413

8.2V
Z27V

A_GND

D412

24

HPL OUT

0.01uF

1.2K
C412

R411

A_GND

D413

R412

D_GND

100/63

D_GND

C411

21

F_OPT

0.01uF

D_GND

F_OPT

100K

15

Info

S317

0.022

47

R722

VFD_DATA
VFD_RST

16
17

'=>It's not used

5.6K

R328

48

46

47

48

49
49

+5VD

19

R327

VFD_DATA

VFD_CLK

VFD_CS
50

1

51

50

51

52

7

53

52

53

54
54

8

55

9

56

55

56

62
1K

10K

R703

R721

1K

HP_IN

25

PRESET_DOWN

S322

3.3

FIP1

MIC_IN

23

Tuning_up

0.1uF

12

1000P

1.5K
1.8K
2.7K

R315

12K

OSC

0.022

C442

5
7
9
11

R702

2.2uF/50V

REMOTE_IN

14

C322

1K

R312
R314

1.5K

OSC

R735 RESET

VDD

R742
VDD

1
3
4
6

62

VFD_CLK

VFD_RST

18

PRESET_UP

R401

8

VFD_DATA

VFD_CS

1K

R701

VFD_CLK

20

Digital
Resolution

0.1uF

C721

VFD_RST

VFD_CS

22

TUN MODE

+5VD(F)

VOL_EN2

26

Audio Effects

C754

VOL_EN1

10

HPR OUT

27

A_GND

8

7

3

4

F_AGND

CN61

BN61

H/P_AGND

0.1uF

CN61

JK63

BN52
F_R IN(AUDIO)

JK63
F_AGND
F_AGND

When changing Straight Type, have to pin exchange odd pin to even pin

H/P_AGND

REVISION
1

BN52

2

F_AGND

470

JK52

F_AGND

2

4

6

3

5

7

SCHEMATIC DIAGRAM
MODEL

[AVR1600(USA)/AVR160(EUR)]

TO INPUT PCB ASS'Y(CPU)

[AVR3600(USA)/AVR360(EUR)]

BN51

1
1
F_AGND

R552

8

[AVR2600(USA)/AVR260(EUR)]

4
2

3

Text(0.01uF)

C522
100P

C553

F_AGND

R551

R IN

7

TO USB PCB ASS'Y

7
6
5

100/10V

15K

15K
R513

R514
R541

100P

75

100K

USB_GND USB_GND

470

HP_IN

A

56P

C512

56P

C511

Text(0.01uF)

F_AGND

1

BN-->CN CHANGE

HP_IN

CH_GND

R554

MIC_IN

BN61

HP_IN
C651

D_GND

74HCU04AFN
(CMOS INVERTER)

470P C652

R_OUT

R_OUT

USB_GND

TO INPUT PCB ASS'Y(INPUT)

0.1uF

C631

D634

JK52

D_GND

3

220

C541

RX

2
1

USB_GND

R_OUT
R_OUT

USB_GND

JW61

2

Q951
C107M
AGND

1SS133

0.1uF

L_OUT

470P C653

R_OUT

1

330/16

R936

4

OPT_3

2

1.5K

C932

C504

D534

F_L IN(AUDIO)
H/P_AGND

L_OUT

3

10/50V

R924

0.1uF

1SS133

C531

L IN

C902

C521

1 2 3 4

C503

75

3

1SS133

BN51

3

10K

USB_GND D533

USB_GND

100P

220

L_OUT

MIC_IN

+15V

10/50

C554

R954

R601

C601

5

AGND

0.1uF

100K

C2874B

1SS133

B

F_VIDEO IN(VIDEO)

F_VIDEO IN(VIDEO)

D_GND
COAX_3

R934

C542

R553

10

9

HP_IN

USB_DN(D-)

USB_GND

JW61

CHGND
CHGND

1SS133

680P

OPT_3

HP_IN

Q944

10

C533

CH_GND

FB15

6

100

4.7K

+5VD(F)

5

C924

FB14

R512

USB_DP(D+)

D531

D532

D_GND

4.7K

R912

12

11

1K

Q952
A107M

JW51

OUT

D633

1

D_GND

1SS133

2

D_GND
D_GND

COAX_3

8

3

USB_GND

GND

10P

D_GND

+5VD(F)
7

4

OPT_3
D455

R925

R951
R944

ISS133

RL91

RL91

100K

R932

8

OPT_3

JK62

VCC

R604

2

100

7

1

R902

6

AGND

Q942
C2874
HPR IN

COAX_3

C107M

3.6K

4.7K

AGND

+5VD(F)

Q954

Q943
C2874B

R953

-15V

+5VD(F)

MIC SIGNAL

5

1K

C912

AGND

47/25V

Q941
C2874

47/25V

C911

100

R942

100K

4.7K

R911

4.3K

R943

100K

+15V

100K

4.7k
R941

R931

10/50V

1K

R921

100

220

AGND
R922

R901

R926

HPL IN

1.5K

C901

C603

470/10

R935

10

+5VU

OPT_3

1SS133

R923

IC11

C611

L_OUT

+5VD(F)

COAX_3

D631

L_OUT

0.1uF

220

R511

JK51

D_GND

1SS133

330/16

680P

GND
D+ USB_DP
D- USB_DN
+5V

JK61

IC11

C633

R933

C612

-15V

C931

0.1uF

C923

D632

10K

R-CH

10K

R822

1

1

9

L-CH

AGND

2

1

3

0.1uF

2

4

MIC SIGNAL OUT

4

5

-

6

6

+

JK61

D_GND

11

7

-15V

9

8

+

-

FB13

2

7

+15V

JK51
COAX_3

5

IC15

12

AGND

USB JACK

C602

COAX_3

6

B

150P

10

A=1+(Rout/Rin)=1+(1.5K/1K)=2.5

100

C822

470P

C821

NJM4556AL

100K

R823

IC15

-15V

R612

R802

14

4

13

3

8

2

10/50

FROM FIP PCB

1

-15V

USB & INPUT(A/V ANALOG) JACK PCB

180P

AGND
A=-Rout/Rin=-10K/1K=-10
L-CH

CUP12168-5

CUP12168-4
HEAD PHONE&INPUT(DIGITAL)
JACK PCB

R-CH

12

5

+15V

100

47/25V

6

IC14

C802

IC14

C823

NJM2068M

1K

AGND

7

+15V

R801

C801

0.047

8
R821

AGND

C830

1.5K

R836

H/P MUTE

H/P MUTE

AGND

11

47P

CN72

10

1K

3

10K
C813

100K

R812

R603

R813

47/25V

AGND

10K

MIC_GND

R835

R834

10/50

100K

MIC SIGNAL

R811

MIC SIGNAL

C811

MIC SIGNAL IN

-15V

30

29

-15V

31

+15V

+15V

AGND

2.2K

28

+15V

TO HEAD PHONE JACK PCB

MCU CONTROL PORTS
POWER 1st
DIGITAL IN
ANALOG OUT
POWER 2nd

TUNING_UP

Tone Mode

Back/Exit

KEY_2

MIC IN

Left (<=)

RDS

S316

8

C753

VFD_RST

KEY1

AM/FM
SOURCE_DOWN

Channel

1000P

74ACT04MTR
(HEX INVERTER)

TUNING_DOWN

Surr_Mode

Left(<=)

47

SURR_UP

S321

3

S315

8

VFD_DATA

(AVR2600/3600)

S320

4

S314

9

Surround Modes

Video Modes

2

1000P

9

VFDDATA

6
7
CN72

D_GND

2

FROM INPUT ASS'Y(CPU)

R316

10

5

47

(AVR1600)

S319

5

Right(=>)

C752

SURR_DOWN

Right (=>)

Set

Surr_Sel_up

11

S318

6

S313

12

10

VFD_CLK

R713

C

1000P

R313

R731

12
11

VFDCLK

4

330/10

C122

150P

47

R712

VOL_LED_CTRL

(AVR2600/3600)

Surr_Sel_down
OK

2200P

S/T_GND

POWER_H

Source List
Source_down

VFD_CS

VFD_DATA

(AVR1600)

S312

C751

RESET 1K

S/T_GND

47K

POWER ON/OFF

C121

S330
R121

1

10

Source_up

Down

R711

VFD_CLK

3

5

R122

CVD30ASOGCAA-S7

CN73

C715
10/16V

VDD

ORANGE

GND

OUT

REMOTE_IN

680 1%

BN73

ST+5VC(F)

R741

3

0.1uF

2

C731

1

13

Vcc

VFDCS

GND

2

3

4

VOUT

D102

R102

6

D714

0.022

220 1%
CVD1L0345W31BOCT201V

13

14

VFD_CS

WHITE

7

S311

Up
C714

1

2

IC13

1

D101

IC13

IC12

C732

5

CUP12168-2
[STAND BY PCB]

+5VD

JUMPER

IC12
REMOCON SENSOR

C311

KEY_1

+5VD(F)

R101

14

KEY_2

KEY_2

470/10

CN73

SUR_MODE

KEY_1

POWER_KEY

BN73

6

KEY_1

10

Q113
C107M

VOL_EN2

POWER_H

1

Q112
C107M

3

4

2

CN-->BN CHANGE

AVR1600,AVR2600,AVR3600

A

SHEET
1
7

ISSUE

LPP

ANAM
MULTI. LAB
2009.02.18

DESIGN

J.H.L
09.02.18

209

CHECK

APPROVED

W.Y.Y G.S.W
09.02.18

09.02.18

DRAWING NO

2168SCLZ
(FRONT)

1

1

SIG06

75

R771

560

R586

560

R566

1.5K

R516

2SD2560:AVR354/355

AVR160,1600 : 2SD2389
AVR260,360,2600,3600:2SD2390

C571

10K

JUMPER

D975

1SS133M
D976

1SS133M
22K

1SS133M

22K
R965

D969

22K
R964

1SS133M

D968
R953

22K

1SS133M
22K

R954

D967
R952

100K
R959

22K

22K

R947

22K

R946

R945

22K

22K

R944

22K

R942

22K

0.0056(M)

C971

0.0056(M)

C980

0.0056(M)

C981
22K

1SS133M

D914 : Jumper
D917
D914

+

1

7

+15V

B-RIGHT

8

TH91

R999

10

C992

0.047(M)

10
0.047(M)

10

R990

0.047(M)

C990

R996

10

C996

0.047(M)

10

R997
C997

0.047(M)

10

R995
C995

0.047(M)

10

R994

0.047(M)

C994

R993
C993

4.7K

R939

C939

Q938
A107M

9

5

+

75

C900

0.047(M)

C901

0.047(M)

C910

0.047(M)

10

7

+

9
10

0.0056(M)

C975

0.0056(M)

C974

0.0056(M)

C973

0.0056(M)

0.047(M)

C919

0.047(M)

C914

0.047(M)

C917

0.047(M)

CJJ5Q012Z

3

FL-CH

1

9
8
7

8
7
5

SBR-CH

6

6

6

6

5

5
3

5
3

SL-CH_SPK

1

2

SR-CH_SPK

FR-CH_SPK

4
3

4

2
1

FL-CH_SPK

BN15

BN15A

BN14

2

4
2

4
1

BN14A

5.6K

2

R657

SBR-CH_SPK

5
4
39K

GND
-VCC
P_FAIL

BN20

L502

P_FAIL

0.5uH

_VCC

R637

18

BN26A

SIG01

47 (1/4W)

AVR160,1600 : 2SB1559
AVR260,360,2600,3600:2SB1560

SIG01

_VCC

FR-CH

C916

BN25A

BN26

3

Q652

_VCC

R_CH

R697

R920

3.3

39K

12000uF/50V : AVR160
15000uF/63V : AVR260
18000uF/63V : AVR360

BN25

+VCC

2

39K

R919

39K

R917

C915

1.8kohm

Q882
C3423Y

75

SR-CH

C-CH_SPK

10000uF/50V : AVR1600
12000uF/63V : AVR2600
15000uF/63V : AVR3600

47 (1/4W)

R782

FR-CH

SBL-CH_SPK

SIG00

R652

560

C-CH

SL-CH

VCC

R667

R572

C918

FR

-

8

3
10/50V

FAN,PROTECT TEST
(SHORT)

C682

2

R682

0.27*2

1

CN62

C857

390

R897

22K

-1.2V

560

7

7

CN10

10K

R687

R888

1.2K

22K

R602
R607

KTC3199

D600K

SBL-CH

R918

D582

C972

9

R772

560
560

VR87

560

R597

33P

C607

AVR354/
AVR355 :
220/63V

100/63V

R582

0.5uH

R640

FL

-

6

ST+5V

10K

Q857

Q562
C3200GR

270

Q542
C3198Y

FAN

4.7K

2SB1560

L505

SBR

-

4

1

SBL-CH
R542

75

R785

AVR160,1600 : 2SB1559
AVR260,360,2600,3600:2SB1560

3

SBL-CH_SPK

0V

R672

R700

2SB1560

6

R500

1SS133M

Q655

560

R575

BL_CH

47 (1/4W)

C3423Y

B-LEFT

+15V

2SD2390

330

1.6K/1.8K

43K

C562

R670
3.3

5.6K

R677

100/16V

R562

R504

1SS133M

1.8kohm
47 (1/4W)

-1.2V

560

5

OVERLOAD DETECTION

Q682
R592

AVR354/
AVR355 :
220/63V

100/63V

27K

C632
C637

220

R537

Q557
C3200GR

100/16V

1SS133M

R587

560

R567

1.5K

R517

1.5K
220

R532

330P

33K

R507

5.6K

R685

C685

2

D502

R655

560

D585
R585

270

R545

100/16V

C565

C570

100/16V

Q517
C3200GR

POWER_MUTE
Q885

R988

SIG06

R880

R680

C3200GR

C3198Y

10
Q512
C3200GR

Q565

C3200GR
Q545

C502

SBL

-

2

OVER

Q602
A1268GR

C602
12P

43K

D505

R577

C567

R503

1.6K/1.8K

R565

1SS133M

SIG18

10/50V

330

C605
12P

POWER_MUTE

1

0.27*2
R660

R876

Q560

CN65
10/50V

C853

10/50V

390

D600K

22K

R610

560

R600

33P

R895

VR83
C610

C640

220

R540

220

R535

330P

33K

C510

R510

12

FR

KTC3199

AVR354/
AVR355 :
220/63V

C3200GR

C3200GR

100/63V

AVR254/255/354/355

10K

4.7K

Q853

10

10/50V

R557

R884

1.2K

22K

560

R605

R675

R580

R987

THERMAL PROTECTOR

SIG00

3.3

2SD2390

C507

Q520

680P

470

Q685
R595

Q515

VCC

R647

+1.2V

Q605

AVR354/
AVR355 :
220/63V

7

100/63V

27K

C635

R560

+24V

11

4

1K

75

R781

560

R571

PROTECT
SIG01

+

Q658

10/50V

+1.2V

3

3K

_VCC1

1

R955:20K-->22K

SBR-CH_SPK

AVR160,1600 : 2SD2389
AVR260,360,2600,3600:2SD2390

Q871
A1360Y

C572

R522

5

SBL_CH

Q502
A1268GR

SIG06

3.3

ST+5V

1
2

0.5uH

18

FR-CH

OVER

Q875

A1268GR

JK92
F-LEFT
FL-CH_SPK

R989

R986

D581

1SS133M
560

2SB1560
AVR160,1600 : 2SB1559
AVR260,360,2600,3600:2SB1560

R632

R512

75

R775

560

R590

560

R570

1.5K

R520

1.5K

R515

680P
Q505

SBL

R940
1.5K

5.6K

R681
C681

2
R656

L501

18

R650

C107M

C505

470/10V

10/50V

1

CN61

0.27*2

C855

10/50V

390

R894

22K

R606

3.3

SIG00

R690

3

15K

FR-CH_SPK

OVER

Q670

C575

R525

220K

6

JK92

AVR160,1600 : 2SD2389
AVR260,360,2600,3600:2SD2390

A1360Y

SR

SIG06

R635

A1268GR

5

F-RIGHT

VCC

27K

R962
3

4

5

6

7

8

9

10

11

C-CH
47 (1/4W)

R636

18

+15V

R957

FAN

D954

BL-CH
470

12

R651
Q881
C3423Y

2SB1647:AVR354/355

D955
1

2

CN11
CJP12GB142ZB

Q541
C3198Y

C_CH

R696

2SB1560:AVR155/254/255

2

10

47 (1/4W)

SIG01

2SB1559P:AVR154

Q961
A1024

Q960

SIG17

R666

1

330

P_M

9

1.8kohm

-1.2V

_VCC1

18

8

R676

Q661

0.5uH
R639

SIG00

R956

R956:390K-->220K

R961

VCC

6

D600K

330

R581

AVR160,1600 : 2SB1559
AVR260,360,2600,3600:2SB1560

100/16V

C566

2SB1560
75

R784

560

R574

R699
L504

C561

SR-CH

Q654

KTC3199

SR-CH_SPK

C3199YT

Q561
C3200GR

270

3.3

560

R544

POWER_MUTE

R584

C3198Y

SR_CH

R669
47 (1/4W)

R541

R654

100/16V

1SS133M

D584

100/16V

Q884

C3423Y
270

C569

100/16V

C564

Q544

4

43K

1SS133M

KTC3199

47 (1/4W)

C3200GR

1

R501

POWER_MUTE

KTC3199

R-RIGHT

2

1.8kohm

-1.2V

C940

R886

1.2K

22K

R601

560
560

33P

R596

C606

AVR354/
AVR355 :
220/63V

100/63V

C636

220

R536

220

R531

330P

33K

R506

C684

D501

SL
4

4.7K

R878

VR85

1.6K/1.8K

43K

1SS133M

Q556
C3200GR

R679

3
SL-CH_SPK

Q855

C601
12P
R561

R502

POWER_MUTE

1.6K/1.8K

R564

Q559

D504

Q564
C3200GR

R-LEFT

R671
R591

AVR354/
AVR355 :
220/63V

100/63V

27K

C631

Q516
C3200GR

Q511
C3200GR

Q943

Q941

0V

Q681

10

C501
5.6K

1

+1.2V

Q601
A1268GR

330
C604
12P

R686

10K

Q858
A1360Y

R576

SIG14

R684

CN64
10/50V

2
R877

10/50V

C506

2

0.27*2

R893

22K

R609

D600K

R556

R885

1.2K
22K

R604

560
560

R599

33P

C609

AVR354/
AVR355 :
220/63V

C639

220

220

R539

C3200GR
R534

33K

C509

330P

C3200GR

VR84

C

KTC3199

R659

10

3

C854

C504

4.7K
10/50V

SIG15

Q854

3.3

2SD2390

1

R579

Q501
A1268GR

R674

390

10/50V

100/63V

SR

680P

470

Q684

R594

Q519

CENTER
2

R646

2SD2390

Q604

AVR354/
AVR355 :
220/63V

100/63V

27K

C634

R559
Q514

R509

R689

Q874

+1.2V

1
C-CH_SPK

Q942
A1268GR

R943

CENT

SIG06

4.7/50V

R521

3.3
Q504

JK91

Q657

R649

680P

470

56K

470/10V

OVER

Q660

C574

R524

C-CH

OVER

R955

A1360Y

2SD2390:AVR155/254/255

AVR160,1600 : 2SD2389
AVR260,360,2600,3600:2SD2390

0V

SIG00

18
1.5K

75

R774

560

R589

560

R569

1.5K

R519

1.5K

R514

A1268GR

SIG00

2SD2389P:AVR154

18

VCC1

R631

Q939
A107M

VCC1

R634

R511

SR-CH

R941

DC PROTECTOR

R958

CUP12170Z

ONLY FAN USING

FAN_H

C950

harman/kardon

AVR2600

SIG01

18

EXCEPT AVR1600/2600
FL

SIG19

JW91_

JW91

C107MT

220P

C721
C722
C723

220P

C724

220P
220P

JW90_

4700P

C904

1SS133M

D912

1SS133M
0
10K

R900

1

VIN

C906

C905
0.022u

1N5819
D1

D962

1000/35V

2

1
R906

CTRL

D901

1

F901

CN91
2

6
2
5

D961

** IMPORTNAT SAFETY NOTICE.
INPORTANT FOR SAFETY WHEN REPLACING ANY OF THESE COMPONENTS
USE ONLY MANUFACTURE'S SPECIFIED PARTS.
** THE UNIT OF RESISTANCE IS OHM.
K=1000 OHM, M=1000 KOHM.
** THE UNIT OF CAPACITANCE IS MICROFARAD (uF)
pF = 10
uF
** THIS SCHEMATIC DIAGRAM MAY MODIFIED AT ANY TIME WIHE THE
IMPROVEMENT OF PERFORMANCE

FROM TRANS

4

4
100K

1

3
CLT5I005ZE

1

2 VOUT

7

1.0(1W)

C999
0.022u

100/16V

IC95

T902
CN92

1

3.3M

R904

100/35V

C948

2
JW93_

3.3uF/50V

C977

option

3

C949

2

R949
27K

1

1

ABUS ST-BY Vcc
Do not USE
F902
2.5A

CJA523FBYA (USA) : AVR1600 / 2600
CJA2B043ZA (EUR) : AVR160/230 , 260/230
KJJ7A022Z (EUR)

C921

220/35V

+24V

-6

KJJ7A013Z (USA)
OL91

D903

AC IN

2

18

USA ONLY

D957

CVD1N4003SRT

C920

R948

R914

HVIRE5VT28CATZ
IC97

GND

SIG[00:60]

15K-->3.9K

*IC94
*Do Not USE

SIG01

D979
5.1V

_VCC

D956

3

VDD

18

R905

1

OUT

R824

0.5uH

2

2

C991

5.6K

10K

IN

POWER_DOWN

AVR160,1600 : 2SB1559
AVR260,360,2600,3600:2SB1560

SBR-CH
47 (1/4W)
L507

CN90

*T902
CLT5I005ZU/E

GND

GND

75

R787

560

R841

2SB1560

KIA78R05

BR_CH

F901 : 4A (KBA2C4000TLEZ) EUR
AVR160/230
F901 : 6.3A (KBA2C6300TLEZ) EUR
AVR260/230,360/230

KTC3199

IC94
HVIKIA7805API

R814

Q807

D902

Q901
R912

MOMS S/W

OUT

0.022u
C907

1SS133M
560

D802
R845

100/16V

C812
Q825
C3198Y

Q887
C3423Y

R913

0.7V

3
47 (1/4W)
R815

CN93

F901 : 6.3A (KBA2C6300TLEY) USA
AVR1600
F901 : 8A (KBA2C8000TLEY) USA
AVR2600 / 3600

3.3K

1.8kohm

3.3

3

POWER_HIGH

R809

R820

4

1SS133M

ST+5V

-1.2V

C3199 -->
C107

0.1

C913

JW90

MUTE_POWER

C908

1.6K/1.8K

R851

C806
12P

Q815
C3200GR

270

43K

R861

D804

100/16V

R871

C814

POWER_MUTE

1SS133M

FOR USING FAN

SIG[00:60]

2

CSL1E002ZE

330
Q823
C3200GR

330K
180K -->330K

CJJ4P042W

RY94
1

D963

VCC

470/16V

1SS133M

D953

8.2K
R804

CN67
10/50V

SIG00

R991

C802

R874

2

R811

1

0.27*2

C851

10/50V

R892

D600K

22K

R833

560

R840

33P

C804

390

VR81

AVR354/
AVR355 :
220/63V

100/63V

C810

220

R859

Q822
C3200GR
R858

330P

Q821
C3200GR

68(1W)

4.7K

Q851

0

D911

C911

R807

+15V

R911 : Do not USE
R911

KTC3199

10

10/50V

MUTE_POWER

R882

1.2K

22K

R832

560

R839

AVR354/
AVR355 :
220/63V

100/63V

27K

C809

R849

Q802

Q814
A1268GR

SIG19

*OPTION

2SD2390

R612

33K

SIG19

C818

1.6K

10K

3.3

+1.2V

AVR26/3600

AVR1600,2600,3600
KRG1SANJ271RT
R992

SIG06

R819

680P

470

1.8K

R708

JW90,JW91 : ALL MODELS

JW93

Q805

AVR1600

SBR

CN89

2

_VCC

ET91

ET90

220/25V

Q877
A1360Y

OVER

R802

Q817
A1268GR

C820

R873

AVR160,1600 : 2SD2389
AVR260,360,2600,3600:2SD2390

0

SIG01

R561, R562,
R563, R564,
R565, R850
R851

C912

75

R777

560

R838

560

R844

1.5K

R855

1.5K

R854

27

SBR

SIG00

18

R707

ONLY
AVR1600
AVR2600

FAN

47K
0.5uH

SIG[00:60]

1/50V
R998

BR-CH

R706
0

0.022

R927

R936

R823

SIG12

SIG17

Q918

GAIN

SUB

Q914
A1271Y
C934

220/25V

47 (1/4W)
L503

220P

2.2K

ONLY
AVR1600/2600

C725

100/16V

C932
FL-CH

18

VCC

J102

R658
Q653

R638

SIG01

0

C107MT

L_CH
C933

R783

_VCC1

23

SIG14

SBL

47 (1/4W)
R698

AVR160,1600 : 2SB1559
AVR260,360,2600,3600:2SB1560

JK98

1

C3199 -->
C107

CJJ4P041W

R705

C726

2.2K

R929

D964
1SS133M

2.2K

4.7K

R933

5.6K

R930

2

R683

0.27*2

10/50V

C852

10/50V

390

R891

22K

R608

10K

R688

R883

1.2K

22K

R603

560
560
560

R573

560

R583

2SB1560

0

C
2

150K

R668

1SS133M

D583

100/16V

C563
Q543
C3198Y

0.5uH

JK90

R653
3.3

R704

47K

1.8kohm

Q883
C3423Y

270

2SB1560
AVR160,1600 : 2SB1559
AVR260,360,2600,3600:2SB1560

R926

R678
Q563
C3200GR

0

Q913
A1271Y

Q917

-1.2V

SIG13

220P

SBR

R928

75

R773

560

R588
33P
R598

D600K

21

26

1SS133M

R703

22

R935

SL-CH

R822

25

D974

SL

220P

SIG18

1SS133M

1

FR

D973

0

SIG15

2

SIG17

1SS133M

SIG18

1

SBL

D972

R702

SR

C936
220/16V

SIG16

1SS133M

R923
KTC3199

18

FL

D971

FR

C107MT

4.7K

R875

75

47 (1/4W)
L506

R543

75

Q804

100/16V

SL_CH

47 (1/4W)
R813

3.3

R786

560

R837

C608

AVR354/
AVR355 :
220/63V

100/63V

C638

220

R538

43K

C568

1SS133M

R818

560

D801
R843

Q683
R673

C603
12P

1.6K/1.8K

1SS133M

1.8kohm

19

0.1

0

22K
100K-->22K

2.2K

SIG15

R593

AVR354/
AVR355 :
220/63V

100/63V

27K

C633

R558
R505

POWER_MUTE

-1.2V

100/16V

C811
Q824
C3198Y

560

R568

1.5K

R518

1.5K
220

R533

330P

33K

R508

R803

CN66
10/50V
C801

2

1

0.27*2

C856

10/50V

390

R896

22K

R831

560

BN87

R810

D503

Q558
C3200GR

R563

1.6K/1.8K

R850

Q518
C3200GR

Q513
C3200GR

VR82

C3199 -->
C107

R934

Q852

10

Q916
Q915
KTC3199

R578

C503

FAN_H

R931

SR

SIG16

R808

Q886
C3423Y

C925

47K

2SD2390

330

Q813
C3200GR

270

SIG14

R860

C

100/16V

SIG13
C813

SL

10/50V

R812

C816

15
17
19
21
23

D803

43K

17

24

25

POWER_MUTE

15

22

27

SIG12

R863

11
13

12
14
16
18
20

SUB

13

20

22

1SS133M R870

11

18

24

Q820
C3200GR

220

9

8
10

10

FL

330

C805
12P

9

16

D600K

R879

8

14

R887

1.2K

22K

R830

560

R835
33P

R836

220

R857

220

7

12

4.7K

Q603
A1268GR

Q856

VR86
C803

Q819
C3200GR

POWER_DOWN
MUTE_POWER

Q801

10

Q818
C3200GR

3.3

Q872
A1360Y

Q503
A1268GR

R805

KTC3199

AVR354/
AVR355 :
220/63V

C817

100/63V

SIG13

680P

+1.2V

R611

C808

10/50V

R648

C573

2SD2390

Q812
AVR354/
AVR355 :
220/63V

100/63V

27K

C807

R848
P_FAIL

SL

R856

7

POWER_HIGH

330P

6

PROTECT

33K

4
5

5

P_M

C815

3
4

6

CJP27GA115ZY

3

2

2

26

FROM INPUT B'D

1

R862

1

CN12

+1.2V

0.1

R925

47K

SIG06

Q659

A1271Y

R924

OVER

C683

470

AVR160,1600 : 2SD2389
AVR260,360,2600,3600:2SD2390

1

3.3
Q876

A1268GR

Q911

CN63

R523
10K

R817
R801

Q816
A1268GR

SIG06

Q803

5.6K

680P

470

FL-CH

OVER

47(1/4W)

SIG00

18
R513

75

R776

560

R834

560

R842

1.5K

R853

1.5K

R852

AVR160,1600 : 2SD2389
AVR260,360,2600,3600:2SD2390

C819

R872

C924

SIG00

18

A1360Y

SIG16

R922

C727

R821

VCC

R633

C508

FROM INPUT B'D

SL-CH

VCC1

Q912
A1271Y

*Option

+15V

JK97

R701

C728

100ohm(2W)

220P

R907

AVR354,355,354/230,355/230 :
CJA2A070Z (USA) : AVR3600

REVISION

CJA2B054Z (EUR) : AVR360/230

2

3
SHEET

SCHEMATIC DIAGRAM

JW93

0.1uF
*All MODEL
C949 : DO NOT USE
C977 : 3.3/50V
R949 : 10K-->27K

1

JW93, OL91, F902 :
EXCEPT AVR1600

MODEL
ISSUE

MP

2

AVR1600/2600/3600/160/260/360

7

DESIGN

CHECK

APPROVE

DRAWING NO

C.B.LEE

W.Y.YANG

G.S.WEY

2170SCLZ

ANAM
MULTI. LAB
2007.09.10

210

(MAIN)
07.08.23

1
1

6

5

4

3

2

1

harman/kardon

AVR2600

D

D

< TRANS PCB 2 >
!

R104

D114

0.47

D117

R107

0.47

1N4003

1
2

PULL_UP
4

D104

5

3

2

1

CUP12055
+15V

160/1600, 260/2600 7P
360/3600 9P
AVR1600 : 10MM
AVR2600/3600 : 6MM

+15V

BN20

J112

2
3
5
6

+5V

3 3
IC82

GND

7

OUT

1

PULL_UP

2

C935

IN
1

0.1uF

AVR2600/3600 : ONLY

CN11

INSERTED MAIN B'D

6
8

5

5

4

3

CJP08GB142ZB

2
4

3

2
3

C936

0.047u

1

7

1

100K

ST_5V
C939

4

GND

2
100/25V

R942

+15V

GND VOUT

ON/OFF

R912

C929

15K

2200/35V

-20V

0.047uF

C123

1 VIN

1

IC83

+20V

CN96

C

0.1uF

C127

10000uF/25V

C129

ST_5V

C135

0.1uF

1

2

360/3600 ONLY

+5VD
4

C110

C125

+5VD
GND

C938

8

7

8

-15V

2

100/16V

6

* ONLY FOR AVR 2600/3600

R123

5

R124

4

4

100/16V

0.047u

2

1

2
3

5

1

3 OUT IN

7

2

-15V

-5V
1

3

ONLY AVR2600/260/360/3600

6

CJP08GA221ZB CN12

IC81

TO INPUT B'D

1

C
BN22B

C136

0.1uF

360/3600 11P

4

0.047uF

C106
C105

4

D701

3

0.01uF

47/50V

33K

C920

R928

0.1uF

2

C132

0.01uF

160/1600, 260/2600 9P

1SS133
Q911
A1267YT

5

J15
C104

1SS133

0.001

C919

100K

R927

D802

D801

J11

6

1

1N4003

CN82

7

1

D125

TO TORINO PCB CN82

-5V

2.7K

!

Q913
C3198YT

2.2/50V

C911

R901

J10

9

1N4003

0.33

2

D124
R106

+15V

!

8

F111

3

15kohm
J9

< REGULATOR PCB >
4

FOR XM +5.6VX
+9V

D105

5

ONLY AVR2600/260/360/3600

FOR TORINO +5VV

AVR 1600 HVDUF5404H

6

J4

!

7

F110

J7

AVR154/155:9P, AVR255/355:15P

J12

J22

Q912
C3198YT

BN96

0.047uF

+17V

TO MAIN B'D

R105

3

1N4003

!

J3

R920
CN20

0.1uF

C109
J21

0.1u/250V

C922

3

0.01uF/100V

C926

15kohm

J6

-17V

D116

0.33

10K

1

R919

0.047(M)

C932

3

J13

J2

4

1

2

J18

1N4003

6

R925

D115

7

2

J5

!

0.01uF/100V

C925

15kohm

R918

0.047(M)

C931

5
4

D991

J14

J1

0.01uF

AVR 2600/3600 15A
AVR 1600 10A

15kohm

FROM MAIN B'D

J17

C108

R917

0.01uF

C107

1N4003

0.047uF

J8

C133

J16

C134

< TRANS PCB 1 >

7
8

0.047u

100/25V

5

1
KIA7915

C937

3
C940

IN OUT
GND

6

C912

-15V
2

1000/6.3

R913

C930
15K

2200/35V

C124

3

-20V

4

PULL_UP

6
IC84

4.7/50V

C131

10K

9

+15V

R120

8

CUP12027-3

GND

7

FROM TRANS PCB BN96

+20V

0.047uF

2

KIA278R15

+30V

3

+24V
+24V

360/3600 11P

CUP12027-5

CJJ9B001Z

B

B

AVR3600/360 ONLY
JK77

JK99

2

33

GND

1

22

C450

11

470/35V

BN40

< OPTICAL PCB >

160/1600, 260/2600 9P

RX

GND
2

R752

10K

1

OUT

OPT3

JK76

100/16V

C752

3

VCC

RX

GND
2

R751

10K

1

OUT

OPT2

JK75

100/16V

C751

3

VCC

RX

GND
2

R750

10K

1

OUT

OPT1

BN17

100/16V

1

D5V
2

OPT2

OPT3
3

4

5

6

OPT1

C750

3

VCC

5

3

1

6

4

2

ISSUE
ANAM

CJP06GB143ZB

LPP

MULTI. LAB
2008.11.01

REVISION
1

A

2

4

6

3

5

7

SCHEMATIC DIAGRAM
AVR x600/x60

MODEL

211

DESIGN

CHECK

APPROVE

DRAWING NO

J.T.B

Y.Y.W

K.S.W

CUP12xxxY

08.02.11

(POWER)

A

SHEET
1
1

1

1

6

5

4

3

2

1

harman/kardon

AVR2600

D

D

CJP16GB142ZB

2
6

5

R421

C

3

CVBS/S-VIDEO1

R491

COMPOSITE

V3

8

2

7

CJJ4N043Z

VIDEO2 OUT

75

V2
1

4

V1

JK40

C

1

10/50

3

BN56

C421

9
11

12

COMP_PB1

14

JK41

CVBS/S-VIDEO3

C411

Pr1

6

Pb3

R401

COMPOSITE

VGND

Pr2
22P

C621

0

Do not use

VGND

100P

C401

Y_OUT

7
75

1000/6.3

BN57
1

2

CJP06GB142ZB

COMP_PB_OUT

0

COMP_PR_OUT

VGND

1

22P

C611

75

R611

4

Pr_OUT

6

5

COMP_Y_OUT
C606

R605

Y_OUT

Y3

R621

1000/6.3

VGND

2

C404
1000/6.3

VGND

Pb1

5

22P

C613

75

6
R612

& COMPONENT IN1

CJJ4R045Z

0

CVBS_OUT

3

4

C604

R603

Pb_OUT

Pb_OUT

22P

3

9

8

1000/6.3

VGND
Pr3

CJJ4M049Y
JK44

JK42

0

22P

C601

2

5

75

R451

10/50

C602

R601

Y_OUT

C603

C451

1

C605

4

CJJ4S030Z

COMPONENT OUT

16

15

COMP_PR1
75

3

CVBS/S-VIDEO2

Pr_OUT

JK43

2

22P

10/50

R411

CJJ4N043Z

1

10

COMP_Y2

13

C491

4

100P

75

Pb2
C623

22P

C615

22P

C625

22P

75
75
75

R622
R613
R623

B

COMPONENT IN2

4

Y1
3

2

B

Y2
1

REVISION
1

A
*NJM2595M OPTION
==>V_MUTE "LOW" ACTIVE
SW1

SW2

SW3

SW4

SW5

H

L

L

L

H

CVBS/S-V2

L

H

L

L

H

CVBS/S-V3

H

L

L

H

H

FRONT CVBS/S-V

H

H

L

L

H

IPOD

H

L

H

H

H

212

ANAM
MULTI LAB
2008.12.29

4

6

3

5

7

SCHEMATIC DIAGRAM

ISSUE

FUNC.
CVBS/S-V1

2

AVR2600 /3600

MODEL

DPP

DESIGN

CHECK

APPROVE

Y.K.Y

W.Y.Y

K.S.W

08.

08.

08.

A

SHEET
1
2

DRAWING NO

2145SCEZ
(VIDEO)

1

1

6

5

4

3

harman/kardon

AVR2600

2

1

CUP12177*

R229~R252 : 470K ==> 100K
R319

2009.02.16
10

1.5K

1.2K

560p

VOL-L

C389

R381

R320

10/50V

5.1K
C391

10/50V

10/50V

560

0

L-OUT

150P

2.4K

10/50V

560

66

67

68

69

70

71

72

73

74

75

76

77

78

79

80

47/25V
81

0.1uF

1SS355

C230

D212

0.1uF

4.7
1SS355

180K
180K

R294

180K

R264

R384

VOL-SW

9.1K

10/50V

560

R285

C375

R385

5.1K
C395

10/50V

560

10/50V

HVTKTC812TB
Q302

3.9K

3.9K

R343

180K

HVTKTC812TB
Q301

180K

R389

3.9K

R394

2.2K

R274

C374

R317

FUNC_MUTE2

SW-OUT
560

C262
47/25V

FUNC_MUTE2

BN12

4

POWER_HIGH

3.9K

150P

2

PROTECT_IN

R395

3

2.4K

10/50V

1

P_M

SL-OUT

VOL-SL

R275

DAC-SR

10/50V

-15V

C285
VOL04

R352

2.7K
R312

3

2

1

5
6

1

8

2

10

4

MUTE_POWER

7

6

9

3

5

HVTKTC812TB
Q304

180K

R266

0.022u

1

C386

2

100K

3

4

IC23

R366

560p
0.022u

C331

5.1K

R376

1000P

4

8

180K

7

180K

6

R295

180K

R265

5

R296

POWER_DOWN

0.022u

8

C385

7

100K

6

0.022u
R365

5

C396
C332
150P

1.2K
560p

1.2K

C346

R332

-7V

D_SL-

C286

DAC04

5.1K

DAC-SL

10/50V

VOL-SR

C376

R286

-15V

VOL05

SUB
SW-OUT

5.1K

10/50V

R386

SL

FUNC_MUTE2

SR-OUT

SL-OUT

560

10/50V

-15V

-15V

8CH-C

8CH03

8CH-SL

8CH04

8CH-SR

8CH05

8CH-SBL

8CH06

8CH-SBR

8CH07

8CH-SUB

8CH08

16

SR-OUT
R397
SB_MUTE2

FL

3.9K

L-OUT

6

1

3

2

FR
R-OUT

SBR

1

SBR-OUT

27

2

180K

3

R298

180K

R268

4

SBL-OUT

24

5

26

4

22

SBL

180K

8

R297

180K

R267

7

HVTKTC812TB
Q305

DAC[01:08]

6

IC24

0.022u

1

100K

2

5

1.2K

560p
R336

1.2K
C348

5.1K

2.7K

VOL07
VOL-BR

DAC06
DAC-BL

D_BL10/50V

2.4K

150p
C288
10/50V

-7V

R288

C378

R388

5.1K

10/50V

560

3.9K

C336

R398

C398
R335

R278

R316

3

R368

560p
0.022u

C335
R356

2.7K

4

0.022u

C387

8

100K

7

0.022u
R367

6

C320

560p

C334

5

20

150P

19

2.4K

SR

18

560

17

10/50V

SBL-OUT
+15V

21

5.1K
C397

R387

23

10/50V

C377

C

25

R287

C340

R315
D_BL+

8CH01
8CH02

5.1K

DAC08

5.1K

DAC-SW

1000P

DAC07

R377

DAC06

DAC-BR

R378

DAC-BL

1000P

DAC05

560p

IC34

1800P

DAC04

DAC-SR

C315

DAC-SL

1000P

DAC03

C316

DAC-C

1000P

DAC02

1.2K

DAC-BR

10/50V

+7V

C287

1.2K

C540

DAC-R

2.7K
C356

DAC01

R334

5.1K
C333

VOL06
VOL-BL

R277

DAC07

R353

D_BR+

C357

DAC-L

1800P

C539

1500P

C307

2.7K
R314

MULTI_PRE_L

MULTI_PRE_R

R333

D_BR-

C388

47/25V

R313

C347

SB_MUTE2

SBR-OUT

-15V

ANAF-L

1

2

0.022u

C384

100K

560p
0.022u
C338

C327

5.1K

R373

1800P

R364

+7V

R331

DCCAP_L
DCCAP_R

8CH-L

IC37
CVIKIA7908PI

1N4003ST

D211

10/50V

560p

1.2K

1298_MUTE

1500P

0.1uF

C228

0.1uF

-8V

0.1uF
C229

JK13

C314

1298/1159_DATA

1000P

1298/1159_CLK

COMMON

3 OUT IN
R255

1.2K

R311

+15V

D222

8CH Rch

2.7K
C354

4
3

8
7
6

1298_LATCH

C268

47/25V
C263

47/25V

47/25V
C264

C265

47/25V

C274

+15V

2

-7V

C289

R349

D_SL+

8CH-R

8CH Lch

C2874B

1

ANAF_R

2

1SS355

FUNC_MUTE2
3.9K

3

D210

1SS355

2

R318

P_FAIL

C308

D209

4.7

C227

R256

1

3

R284

VOL08

IC33

C261

82

1N4003ST

ISIG24
ISIG[01:35]

220P

100

ANA5_R
0.1uF

C284

DAC03
DAC-C

DAC05

5.1K
C329

R330

R310

RN92
100X4

220P
220P

3 OUT IN

1

Q311

C

IC36
HVIKIA7808API

+8V

6

C-OUT

D221

C280

C344

C345

2.7K

ISIG23
+7V

2

1000P

ISIG21

100

R216

560p
R325

D_SR+

C276

ISIG22

5

TO MAIN B'D

65

4

FROM FRONT B'D

64

8

12

63

DO NOT INSERT R320, R339

3.9K

14

RAIN
LAIN

62

R390

FUNC_MUTE2

7

3

AVR360/3600 ONLY

R393

CN52

CAIN

61

0.022u

R392
5.1K
C393

11

LSAIN

60

560

13

RSAIN

59

FUNC_MUTE2

15

LBAIN

58

R339
0

3.9K

RBAIN

57

FUNC_MUTE2

R-OUT

R396

DCCAP_C

56

1

2.4K

DCCAP_SW

55

0.022u

R383

R276

SWAIN

53

C369
C373

6

4

C339

LBIN

52

-7V
ANA5_L

2.7K

1800P

RBIN

51

100

R215

1.2K

R329

C538

CBIN

54

50

2

+15V

R309

C306

LSBIN

83

GND

MUTE

GND

GND

84

RSBIN

DCL_OUT

DATA

LBBIN

DCL_IN

85

RBBIN

47

CLOCK

SWBIN

GND

LSCIN

FR-

C267

D208

1SS355

C328

D_SR-

87
86

3

R340

IC22

1

R327

FR+

46

49

2

6

HPR-OUT

R283

-7V

GND

45

48

ISIG04

3

5

-7V

GND

LATCH

1

R382

10/50V

10/50V

R293

5

180K

8

C319

91

2

4

C394

560p

-V

3

C-OUT

R263

7

5.1K

C330

92

6

R-OUT

150P

2.7K

5.1K

V+

5

560

10/50V

0.022u

6

4

1800P

93

R308

1

C390

-15V

R273

10/50V

C383

5

1.2K

R375

SWOUT

D
4

2.4K

R272

VOL03
VOL-C

DAC-SW

D_CT-

1000P

94

C536

RBOUT

2.7K

C537

95

RSCIN

10/50V

R348

C313

LBOUT

1500P

96

C304

RSOUT

C291
0.1uF

97
100/16V

98

ADR
44

1000P

R307

5

10/50V

C312

ROUT

C292

COUT
LSOUT

DCCAP_RS

100

C272

1000P

+7V

100
99

C353

1

L1IN

GND

2

GND

3

R1IN

4

L2IN

R2IN

L3IN

R3IN

L4IN

R4IN

L5IN

R5IN

L6IN

L7IN

R6IN

GND

R7IN

L8IN

R8IN

L9IN

R9IN

L10IN

R10IN

L11IN

5

GND 90

220P

C213

100K

6

1000P

GND

47/25V

1SS355

ANA4-R
C214

7

2

-15V

5.1K

C283

DAC08
+7V

100K

560p

C326

10K

R374

1000P

C311

1000P

C352
FL-

41

43

DCR_IN

D207

R214

100K

8

DCCAP_LS

R290

100

100K

9

CVINJW1298FU1

40

10/16V

C215

10

LBCIN

100

4.7

ANA4-L

100K

11

IC20

C266

220P

100K

C212

ANA4_REC_R
0.1uF

R257

R213

C216

12

3

C372

R282

10/50V

C343

0.022u
R363

1.2K

4

HVTKTC812TB
Q303

DAC-L

10/50V

C282

VOL02
VOL-R

DAC01

C318

1800P

1500P

C303

C535
2.7K

180K

R292

180K

R262

0.022u

C382

1

560p

1.2K

D_CT+

FL+

DCR_OUT
1uF

C279
R238

R11IN

R12IN
REC_C1R

C275

100

R239

13

RBCIN

AD+RIN

R289

220P

100K

38

10/16V

R240

14

DCCAP_RB

C296
2700p

C270

R212

R241

15

GND 89

AD-RIN
C211

REC_C1L

VDDOUT
DCCAP_LB

ISIG03

100

R242

16

10/50V

220P

100K

C210

R236

C273

17

GND 88

ANA4_REC_L
R237

37

42

R211

ANALOG 5

C342

C325

R326
R345

C355

C295
2700p

18

1500P

AD-LIN

100

19

REC_B1L
REC_B1R

39

20

1500P

100

21

C305

R279

22

REC_A2R

36

10/50V

23

C293
0.1uF

100

C271

24

2

ISIG20

REC_A2L

25

1

220P

100K
C209

R235

R280
AD+LIN
ANA3-R

33

26

100/16V

MULTI_PRE_R

ISIG19

27

32

35

MULTI_PRE_L

1SS355 ANA3-L

31

34

D206
1SS355

28

C294

ISIG04

D205

R210

P/B

C534

C533

1500P

C350
VOL-SW

VOL-BR

VOL-BL

VOL-SR

VOL-C

VOL-SL

VOL-R

VOL-L

220P

100K

C208

4.7

R258

REC_A1R

ISIG03

0.1uF

C278
R234

ISIG16

ISIG02

29

L12IN

220P

100K

C207

R233

ANA2-R

ISIG01

REC_A1L

100

ANALOG 4

2

+15V

10K

R306

LOUT

R209

JK12

560p
R324

R328

L13IN

R13IN

ISIG15

30

100

R/O

1.2K

5.1K

D_SW+

220P

100K

ANA2-L

R208

C

TUNER-L

ISIG02

100

ANALOG 3

3

IC32

R207

P/B

4

8

150P

D_SW-

100

ANALOG 2

C324

1.5K

2.7K

7
IC25

-7V

220P

100K

ANA2-REC-R
C206

11

C205

R231
JK11

R206

R323

R534

1.2K

6

C392

R305

R232

9

TUNER-R

ISIG01

ANAF-L

1SS355
ANA2-REC-L

100

R/O

1500P

C302

IPOD_L

IPOD_R

ANA5_R

ISIG24

ANAF_R

7

1.2K

1

D_FL-

D204
1SS355
R205

1.5K

1.2K
R304

D203

T-REC-R

R344

2

100K

ANA5_L

R533

3

R362

ISIG23

D_FL+

560p
0.022u

ANA4_R

*option

4

C337

ISIG22

SIRIUS_L

4.7

R259

220P

100K

C204

R230

100

ISIG14

0.1uF

SIRIUS_R

ANA1_R
C277

DAC01

220P

100K

R204

R303

C323

ANA4_L

5.1K

ISIG21

DAC02

6

C203

R229

ANALOG 1

T-REC-L

R372

ANA3_R

1000P

ISIG20

1800P

ANA3_L
C310

ISIG19
100

1000P

ISIG13

5

IC21

IC31
ANA1-L

8

C370

7

180K

6

R291

5

180K

R261

C381

8

100K

7

0.022u
R361

6

C317

560p

C322

5.1K

R371

1000P

5

MIC_SIGNAL
R203

FUNC_MUTE2

FUNC_MUTE2

1.2K
C351

*option

C309

1.2K

1000P

ANA2_R

ISIG16

C321

DAC-R

C371

R341

R532

D_FR+

MULTI_VOL_R

R322

10/50V

R281

3.9K

1800P

C532

1500P

R302

+7V

C281

R342

5.1K

VOL01

3.9K

1.5K

DAC02

+15V

R391

1.2K

C341

2.4K

R321

R271

R531
C531

1500P

C301

VOL08

VOL07

R301
D_FR-

ANA2-L

ISIG15
3

VOL06

ISIG14

VOL05

1SS355

VOL04

D202

ANA1_R

VOL03

1SS355

VOL02

ZONE2 OUT

D201

VOL[01:08]

ANA1-L

ISIG13

4.7

0.022u

0.1uF

C260

VOL01

MULTI_VOL_L

R260

4

560

+15V

1

D

L-OUT

HPL-OUT

GND

1
L301

HP_MUTE2

D214

1SS355
8CH-C

Q730

4

SCLK

TUNER_SDA

SDIO

TUNER_CE

100/16V

0.022u
C361

C362

TUNER MODULE

1
2
3
TUNER_SCL

5

4700P
C360

6

/SEN

7

TUNER_RESET

/RST

8

8

GPIO2

R338
1K
TUNED

TUN1

C363
0.01

4700P

1SS355

C366

D213

1

300
8200pF

SB_MUTE2

7

2

4.7K

A107S

A107S

R369
3

C365

A107S

8200pF
C359

27K

Q307

R355

C364

10K

3

4

27K

A107S

4.7

VCC

ST+5V

+5VD

-15V

B

+15V

TUNER-R

MULTI_MUTE2

2

CN20

1

FUNC_MUTE2

8CH03

220P

100K

Q306
HVTKTC812TB

Q998
C107S

5.6K

R967

4.5V

Q991
C107S

5.6K

R992

4.5V

Q951
C107S

3.3K

R960

4.5V

Q994
C107S

C107S

8CH05

0.1uF

100
C223

-15V
100K

2

R-OUT

L302

6

HP_MUTE
R249

4
R337

1

1

L-OUT

300

+5VD

R370

220P

100K

C222

Q997

R254

R223

8CH Cch

Q992

5

R351

8CH-SR
R248

B

Q952

6

3
2

6

MULTI_MUTE

C290

100

Q993

R969

220P

100K

C221

100

R222

8CH SRch

8CH04
Q732

R247

8CH SLch

8CH-SL

4.5V

R221

R909

C107S

220P

C220

100K

R246

100

6.8K

8CH02

4.7K

SB_MUTE
8CH-R

A107S

MUTE_POWER
R350

Q734

R220

R354

8

TUNER_MUTE

220P

100K

C219

R245

100

4

7

TUNER-L

3900P

8CH01

3900P

8CH-L

C358

R219

D216

1SS355

4

1M

R968

10K

R932

1M

R910

4.7K

R966

10K

R907

1M

Q729

5

D215

8CH-SBL

FUNC_MUTE

8CH06

-15V

P_U

7

220P

C107S

8

C225

100K

100
R251

8CH SBL

4.7
1SS355

FROM REG. B'D

R225

R253

8CH08

6

220P

10K

C224

R250

2.7K

0.1uF

R963

8CH-SUB
C299

R908

R224

8CH SUB

1M

3

C107S

R226

9

8CH07

8CH[01:08]

J101

J102

JW70_1

JW70

220P

C226

100
R252

JK14

8CH-SBR

100K

8CH SBR

** IMPORTANT SAFETY NOTICS.
COMPONENTS IDENTIFIED BY

!

MARK HAVE SPECIAL CHARACTERISTICS.

REVISION

2

4

6

3

5

7

IMPORTANT FOR SAFETY. WHEN REPLACING ANY OF THESE COMPONENTS

A

1

USE ONLY MANUFACTURER'S SPECIFIED PARTS.

A

** THE UNIT OF RESISTANCE IS OHM.
K=1000 OHM , M=1000 KOHM
** THE UNIT OF CAPACITANCE IS MICROFARAD. (uF)

ISSUE

-6

SCHEMATIC DIAGRAM

SHEET

pF=10 uF

ANAM

** THIS SCHEMATIC DIAGRAM MAY MODIFIED AT ANY TIME WITH THE
IMPROVEMENT OF PERFORMANCE.

LPP

MULTI. LAB

1
3

2009.03.23

DESIGN

C.B.LEE
08.10.06
213

AVR260/360/2600/3600

MODEL
CHECK

APPROVE

W.Y.YANG G.S.WEY

DRAWING NO

2177SCMZ
(INPUT)

1

1

5

4

3

harman/kardon

2

1

CUP12177*

49

DA24

DA23

DA22

DA21

DA20

DA19

DA18

VSS

A4

A5

A6

A7

A8

A9

NC

CKE

CLK

NC

UDQM

0.1uF

C762
VDDQ

DQ8

DQ9

VSSQ

DQ10

DQ11 0.1uF

VDDQ

DQ12
45

44

43

42

41

40

39

38

37

36

35

34

33

32

31

30

29

28

27

26

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25
VDD

A3

A2

A1

A0

A10/AP

BA

_CS

_RAS

0.1uF
C761

+3V3

0.1uF

C760

_CAS

_WE

LDQM

VDDQ

DQ7

DQ6

VSSQ

DQ5

0.1uF

DQ4

VDDQ
C759

DQ3

5

0.1uF

C758

SCP1_BSY

DQ13

VSSQ
4

DSPDATA
D_OUT

46

DQ2

DQ0

3
DQ1

2

VDD

1

DIR_CE

47

D

CVIM12L16161A5TG

IC44

DIR_RESET

48

VSSQ

50

DQ14

VSS

DQ15

C763

D

DA17

DA16
+3V3

DA0

DA1

DA2

DA3

DA4

DA5

+3V3

0.1uF
C601

0.1uF

0.1uF
C603

0.1uF
C656

0.1uF
C605

C655

0.1uF
C607

0.1uF
C653

0.1uF
C609

0.1uF
C652

0.1uF
C611

C651

100/16V
C612

0.1uF

0.1uF
C613

0.1uF
C650

100/16V
C614

C649

0.1uF
C615

0.1uF

0.1uF
C617

CS49DV8C VDD * 8EA

C648

0.1uF
C619

0.1uF

0.1uF
C621

C647

0.1uF
C623

0.1uF

0.1uF
C625

C646

220/16V
C626

0.1uF

0.1uF
C627

0.1uF

100/16V
C628

C645

0.1uF
C629

0.1uF
C644

100/16V
C630

C641

0.1uF
C631

CS49DV8C VDDIO * 8EA

0.1uF

CS497** VDD * 8EA

CS497** VDDIO * 8EA

DA6

+1V8
DA7

+3V3

0.1uF
C654

+1V8

+3V3

0.1uF
C643

AVR2600

0.1uF
C642

6

0.1uF

C743

0.1uF
R615

C659

10K

3.3K

0.1uF

C657

33X4

1

2

3

4

13

14

15

16

2

33

R814

33

R815

33

ST

3

1B

4A

1Y

4B

2A

4Y

SD_A10/EXT_A10

SD_BA0/EXT_A13

103
98
96
95
94
93
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
71

+3V3

104

105

VDDIO4

+3V3
SD_A8/EXT_A8
SD_A9/EXT_A9
GNDD3
SD_A11/EXT_A11
SD_A12/EXT_A12
VDD3

+1V8
SD_CLKEN
SD_CLKIN
SD_CLKOUT
SD_DQM1
SD_D8/EXT_D8
SD_D9/EXT_D9
GNDIO3
SD_D10/EXT_D10
SD_D11/EXT_D11
VDDIO3

+3V3
SD_D12/EXT_D12
SD_D13/EXT_D13
SD_D14/EXT_D14
SD_D15/EXT_D15
SD_D0/EXT_D0
GNDIO2
EXT_WE#

64

SD_D1/EXT_D1

SD_D2/EXT_D2

62

63
SD_D3/EXT_D3

61
VDDIO2

SD_D4/EXT_D4

60
SD_D5/EXT_D5

59

58
SD_D6/EXT_D6

SD_D7/EXT_D7

57
SD_DQM0

56

55

SD_A7/EXT_A7

33

CS497024

Address

SDRAM

CS49700

SDRAM

117

EXT_D14/SD_D6

59

11

EXT_A18

116

EXT_D13/SD_D5

60

9

EXT_A17

114

EXT_D12/SD_D4

61

8

EXT_A16

113

63

6

EXT_D9/SD_D1

64
65

EXT_A15
EXT_A14/SD_A13

111

5
3

EXT_A13/SD_A14

104

19

EXT_D8/SD_D0

68

2

EXT_A12/SD_A10

103

20

GND

EXT_D7/SD_D15

69

49

EXT_A11/SD_A12

55

HDMI_SPDIF
HDMI_SDATA4
HDMI_SDATA3
HDMI_SDATA2
HDMI_SDATA1
HDMI_LRCK
GND
HDMI_SCK
HDMI_MCLK
DSP_SPDIF
DSP_MCLK
DSP_DATA0
DSP_LRCK
DSP_SCLK
GND
GND

EXT_D6/SD_D14

70

48

EXT_A10/SD_A11

56

EXT_D5/SD_D13

71

46

EXT_A9/SD_A9

87

32

EXT_D4/SD_D12

72

45

EXT_A8/SD_A8

88

31

EXT_D3/SD_D11

74

43

EXT_A7/SD_A7

90

30

EXT_D2/SD_D10

75

42

EXT_A6/SD_A6

91

29

EXT_D1/SD_D9

77

40

EXT_A5/SD_A5

93

28

EXT_D0/SD_D8

78

39

EXT_A4/SD_A4

96

27

EXT_A3/SD_A3

97

24

EXT_A2/SD_A2

99

23

EXT_A1/SD_A1

101

22

EXT_A0/SD_A0

102

21

REVISION

106

2

4

6

0.1uF

1

3

5

7

A

15

2

1A

4

0.1uF

5

C768

SD_A6/EXT_A6

+3V3
C791

VCC

GNDIO5

72

17

L : A & HDMI off

16

1

SEL

SD_BA1/EXT_A14

70

16

H : B & HDMI on

IC48
HVITC74VHC157FT

106

69

2
4
6
R813

12

33

13

R816

11

10
HDMI M_SW

33

14

HDMI_1_SW

R700

15

C731

0.1uF

100/16V

C730

C729

0.1uF

470/10V

C728

0.1uF

C727

C726
100/16V

0.1uF

C725

9

8

1

DIR_MCLK

C769

SCHEMATIC DIAGRAM

14

0.1uF
C770

13

C771

ISSUE

12

0.1uF

ANAM

0.1uF
C772

LPP

2B

3A

11

6

0.1uF

2Y

3B

GND

3Y

MULTI. LAB
2009.03.23

MODEL
DESIGN

AVR260/360/2600/3600
CHECK

APPROVE

SHEET
2
3

DRAWING NO

10

7

R798

8

0

*OPTION : EMC COUNTERMEASUER

C.B.LEE

R799

9

A

CN15

1
5

Do Not Use.
L701
CLZ9Z014Z

GNDIO4

EXT_A19

3

VCC OE1

OE2 A1

A2
Y1

A3

2

GND

In Out

7

3

1

L702
CLZ9Z014Z

3

SD_A5/EXT_A5

12

<=> HDMI BOARD

Q738
KRC103S

CVIKIA1117S18

CVDSS34SR

+1V8

EXT_CS2#

DAO[00:08]

EXT_D10/SD_D2

3

3

VDD4

58

HDMI_SW

20

C

SD_A3/EXT_A3
SD_A4/EXT_A4

EXT_D15/SD_D7

2

IC50

D704

D703

1000/6.3V

19

SD_WE#

68
4

EXT_D11/SD_D3

+1V8

CVDSS34SR

L703
CLZ9Z014Z

C766

18

GNDD4

+3V3

DATA

+3.3V

OUT

GND

IN
1

C765

17

SD_A2/EXT_A2

DSP2_DAO1_LRCK

3

ON : HIGH

1

12

VDDIO5

RN54

2

1
+3V3

SD_A1/EXT_A1

B
DSP2_DAO1_SCLK

DSP1_MCLK

DA[0:50]

1

DAO00

8

DAO01

7

DAO02

6

DAO03

33

10KX4

5

2

+5VD

0.1uF

2

0.1uF
+3V3

1000/6.3V

3

107

67
8

SD_A0/EXT_A0

+1V8

C734

11

C764

4

Y2

A4

5

Y3

A5

6

Y4

A6
Y5

A7
Y6

A8
Y7

Y8 GND

IC47
TC74VCX541FT

DSP1_MCLK

7

108

66
7

GNDD2

VDD2

54
DAO1_LRCLK

53

52

65
6

10K

8

SD_CAS#

92

10
11
12
13
14
15
16
17
18
19

5

82

DSP1_DAO1_SCLK

R612

33

10K

DSP1_DAO1_LRCK

R611

33

+1V8

+3V3
R614

+3V3

DA35

GNDIO1

+3V3

DAO1_SCLK

33

R743

39

DA[0:50]

DAO2_D2

33

SD_D1/EXT_D1

51

DBDA
DBCK

50

3.3K

DAO1_D0/HS0

R622

NC

33X4
R613

1

5

3.3K

49

DA9

EXT_WE#

R621

NC

VDDIO1

+3V3

6

DAO2_D3/XMTB

3

33X4

DA8
2

GNDIO2

DAI2_DATA/DSD5

4

8
RN84
7

SD_D0/EXT_D0

NC

DAO1_D1/HS1

1

5

DAI2_SCLK

DA7

SD_D15/EXT_D15

NC

48

2

6

DAI2LRCK/PREQ

DA6

SD_D14/EXT_D14

47

GNDIO8

DAO1_D2/HS2

7

DSP1_DAO1_LRCK

DA5

33X4

SD_D13/EXT_D13

DAI1_LRCK/DSD4

DA4

46

1
4

RN83
3

+3V3

DAO2_LRCLK

5
8

DAI1_SCLK/DSD-CLK

DSP1_DAO1_SCLK

VDDIO3
SD_D12/EXT_D12

VDDIO8

+3V3

DA3

SD_D11/EXT_D11

DAO1_D3/XMTA

6

DA2

45

1

4

DAI1_DATA0/DSD0

44

33X4

DAI1_DATA1/DSD1

2

SD_D10/EXT_D10

DAO04

3

8
RN82
7

GNDIO3

GNDD1

GNDD8

2

1

DAO05
DA1

SD_D9/EXT_D9

DAO2_SCLK

DAI1_DATA2/DSD2

DA0

SD_D8/EXT_D8

43

DAO06

DAI1_DATA3/DSD3

DAO2_D0/HS3

3

DAO07

DAO_MCLK

DA16

4

82
2

6

SD_DQM1

VDD8

+1V8

33X4

3

DA17

42

RN53

R739

41

4

8
7

SD_CLKOUT

VDD1

DA18

SD_CLKIN

0

VDDA(3.3V)

40

5.1K(1%)

TEST

33X4

R616

RN81

PLL_REF_RES

R732

9

SD_RAS#

9

+1V8
SD_CLKEN

GNDA

R610

20

15P

C660

75

VDD3

XTO

CLZ9R005Z

21

Do not Use.

22

L604

C776

C658 0.1uF

R749

SD_A12/EXT_A12

23

DSP1_XTALOUT
SD_A11/EXT_A11

24

XTI

25

XTAL_OUT

+3V3
GNDD3

26

DA19

R620
75

27

33

C610
15P

GNDD7

28

R765

SD_A9/EXT_A9

DA20

33

29

R764

30

+3V3
SD_A8/EXT_A8

31

UART_CLK/EE_CS#

32

1

5

UART_RXD

VDDIO4

CVICS49DV8CCVZ

33

DA21

SD_A7/EXT_A7

34

VDD7

35

2

6

+1V8

36

4
3

UART_TXD

DA22

SD_A6/EXT_A6

IC46

37

8
7

GPIO3/DDAC

GNDIO4

38

DA23

SD_A5/EXT_A5

DAO[00:08]

10

109

SD_CS#

110

EXT_A15

111

112

VDD5

EXT_A16

113

EXT_A17

GNDIO7

DAO2_D1/HS4

RN79

8

+3V3

DAO00

4

114

7
VDDIO7

+1V8

EXT_CS2#

DA10

3

GNDD5

PCP/SCP2_CS

1

5
VDD4

97

2

6

SCP1_CS

DA24

SD_A4/EXT_A4

5

3

7

PCP/SCP2_IRQ

DA25

SD_A3/EXT_A3

R741

RN85
33X4

33X4

10K

33
2

R742

1

115

4

SCP1_IRQ

DA26

GNDD4

8

DA11

4

7

DA12

3

6

EXT_A18

99 100 101 102

10K

4

8

DA27

Dolby Volume
5

116

1
2
3

33X4

CRJ10DJ1R0T

6

RN78

DAO02

DIGITAL AUDIO OUT DATA

2

8

DA13

1

7

DA14

5

6

DA15

6

5

DSP1_MODE

7

1

RN87
R745

8

2

DAO04

3

DAO05

4

117

118

EXT_A19

EXT_OE#

EXT_CS1#

119

120

VDDIO6

RESET

121

GNDIO6

122

SCP1_MOSI

123

SCP1_MISO/SDA

124

VDD6

125

126

SCP1_CLK

GNDD6

128

+1V8

+3V3

IC49
HVINJM2391DL133

DA25

DA26

DA27

DA28

DA29

DA30

DA31

DA32

DA33

DA34

DA35

+3V3

DA15

DA14

DA13

DA12

+3V3

DA11

DA9
R603

3.3K

R605

10K

R602

A2/SCP2_MOSI

SD_A2/EXT_A2

5

98
97
96
94
91
90
89
88
87
86
85
84
83
82
81
80
79
77
76
75
74
73
72
71
70
69
68
66

R619

64

63
SD_D3/EXT_D3

VDDIO5

SD_D2/EXT_D2

62
VDDIO2

61

60

SD_D4/EXT_D4

59

58

PCPDS/SCP2_CK
AS/SCP2_MISO

R729

DAO07

10K

R606

100

+3V3

+3V3

DAO06

33X4
RN93

DAI_D3

DAI_D2

DAI_D1

DAI_D0

DIR_MCLK

DAO00

R747

DA28

RN89

10K

R704
FL/FR/DAO00

CEN/SUB/DAO02
DAO02

DAO01

DAO03

R746

5

3.3K

+3V3

10K

6

SD_A1/EXT_A1

R730

OPT1

OPT2

OPT3

COAX1

COAX2

R720
0

100/16V

C704

C703

+5VD
0.1uF

SL/SR/DAO01

SBL/SBR/DAO03

C790

C789

C787

C784
USB_SPDIF

OPT4

COAX4

0.022u

C783

C782

3.3K

R718
C781

1000P

C780

B

7

+1V8

R604

33

R737

SD_A0/EXT_A0

+1V8

470/10V

0.1uF
C721

C722

0

+1V8

+3V3

SD_D5/EXT_D5

DAO2_D1/HS4

100/16V

C753

0.1uF

C754

100/16V

C750

0.1uF

C756

0.01

0.01

0.01

0.01

R717

0.01

0.01

+5VD

SD_D6/EXT_D6

+3V3

D_FL-

SD_D7/EXT_D7

D_FL+

65

DAO2_D2

57

DBCK

56

3.3K

SD_DQM0

R753

GNDD2

DBDA

55

3.3K

VDD2

+3V3

10

R726

0

R725

RXP2

RXP3

RXP4

RXP5

RXP6

RXP7

RXP8

VARX

AGND

LPFLT

MUTEC

AOUTA1-

AOUTA1+

D_FR+

AOUTB1+

D_FR-

AOUTB1-

AOUTA2-

D_CT-

R754

54

48

53

47

DAO1_LRCLK

46

GNDIO1

45

52

44

51

43

DAO1_SCLK

42

DAO1_D0/HS0

41

50

40

VDDIO1

39

49

38

48

37

DAO1_D1/HS1

36

DAO1_D2/HS2

35

39

34

67

32
33

78

24
25
26
27
28
29

DAO2_D3/XMTB

47

+3V3

46

+5VD

RXP1

DAI2_DATA/DSD5

DAO1_D3/XMTA

TXP

92

10
11
14
15
16
17
18
19
20
21
22
23

4
3

DAI2_SCLK

45

1M

DAI2LRCK/PREQ

VD

36

D_CT+

DGND

DAO2_LRCLK

49

GNDIO8

44

31

AOUTA2+

DAI1_LRCK/DSD4

37

D_SW+

33X4

GNDD1

50

RN90

VLS

33

DAO2_SCLK

30

AOUTB2+

56

SDTO2

43

AOUTB2-

D_SW-

DAI1_SCLK/DSD-CLK

42

51

SAI_SDOUT

+3V3
R752

VDD1

29

R711

MCKO

0

52

AOUTA3-

D_SL-

RMCK

VDDIO8

DAO2_D0/HS3

28

SDTO1

41

53

CX_SDOUT

DAI1_DATA0/DSD0

40

27

1K

R762

ADCIN2

R722 TEST

54

DAI1_DATA1/DSD1

30

26

1K

R761

ADCIN1

31

55

AOUTA3+

D_SL+

IC41

25

AOUTB3+

D_SR+

56

GNDD8

32

AGND
AOUTB3-

D_SR-

CS42528-CQ

24

82

R712

OMCK

33

57

DAI1_DATA2/DSD2

34

23

VA

LRCK2

38

D_BL-

SAI_LRCK

35

58

DAI1_DATA3/DSD3

2

22

AOUTA4-

VDD8

+1V8

33X4

1

D_BL+

RN91

BICK2

4

59

CLZ9R005Z

SAI_SCLK

VDDA(3.3V)

3

21

AOUTA4+

5.1K(1%)

2

D_BR+

CX_SDIN4

PLL_REF_RES

1

60

L704

8

20

AOUTB4+

CX_SDIN3

7

61

R767

6

62

CX_SDIN2

5

18

AOUTB4-

XTI

GNDA

8

63
19

D_BR-

R760

24.576Mhz
X701

1

17

FILT+

XTAL_OUT

XTO

7

2

220

6

3

CX_SDIN1

BICK1
CX_SCLK

4

0

5

5

LRCK1
VD

DGND

6

R759

C738 0.1uF

7

100/16V

8

VLC

CCLK

CDTO/DOUT

9

R787

33

+3V3

C737

10

15P

11

XMCK

C702

12

CDIN/DATA

CSN

INT

RESET

13

64

VQ

GNDD7

R723
15P

14

DSP2_DAO1_SCLK

C701

15

AINR-

AINL+

AINL16
0.1uF

100/16V
C719

C720

4.7/50V

C717

0.1uF

C718

AINR+

AD-LIN

CX_LRCK

UART_CLK/EE_CS#

82

AD+LIN

IC43
CVICS497024CVZ

13

UART_RXD

DAO_MCLK

DSP2_DAO1_LRCK

R751

AD+RIN

VDD7

SI

+3V3

93

9
+1V8

12

DSP1_XTALOUT

SCK

127

103

8
GNDIO7

AD-RIN

HOLD

SCP1_PCP_BSY

SD_A10/EXT_A10

SD_BA0/EXT_A13

104

GNDIO5

105

SD_BA1/EXT_A14

106

107

SD_WE#

108 SD_CAS#

SD_RAS#

109

SD_CS#

5
6
7
VDDIO7

UART_TXD

DSP2_RESET

10K

PCP/SCP2_CS

GPIO3/DDAC

DSPDATA
R601

IC45

CRJ10DJ1R0T

SCP1_CS

+3V3

4
VSS

8

PCP/SCP2_IRQ

10K

3
WP

VDD

110

112

VDD5

EXT_A16

113

114

EXT_A17

115

GNDD5

EXT_A18

116

117

118

EXT_A19

EXT_OE#

EXT_CS1#

119

121

RESET

GNDIO6

122

SCP1_MOSI

123

SCP1_MISO/SDA

VDD6

4

SCP1_IRQ

R735

100/16V

C752

0.1uF

C773

100/16V

3

+3V3

A2/SCP2_MOSI

+5VD
C705
C706

2

2
SO

RN77

RN76

R734

+3V3

0.1uF

1

1

AS/SCP2_MISO

10K

0

0

4

4

180P

C795

75

3.3K

R719

C

3

3

DIR MODE : DIR MASTER
R727

2

99 100 101 102

COAX2
0.1uF

1

1
CS

CVIST25VF080B504CS2F

+1V8

95

COX2

SCP1_SDA

8

2

ADC MODE : DSP MASTER

124

R774
PCPDS/SCP2_CK

C798

R757

128

HDMI I2S MODE : HDMI MASTER

125

+3V3

SCP1_CLK

10K

HDMI SPDIF MODE : DIR MASTER

+3V3

VDDIO6

5

120

6

0.1uF

180P

C794

75

R756

7
R812

COAX1

COX1

8

+1V8

C707

C797

SI

126

0.1uF

C708

75

R755

100P

C793

COAX_OUT

SCK

GNDD6

0.1uF

HOLD

127

240

VDD

SCP1_PCP_BSY

10

1000P

COAX
OUT

7

CVIST25VF080B504CS2F

1K

111

R728

EXT_A15

JK78
C796

6

100
IC42

R736

5

DAO01

VSS

8

100/16V

WP

7

8

SO

6

7

CS

5

6

4

5

3

33X4

2

33X4

1
33

OPT4

R733

SCP1_BSY
DSPCLK

R721
R724

SCP2_IRQ

4.7K

R763

COAX_OUT

F_OPT

3.3K

3.3K
R800

100K

DA[0:50]
DA29

8

DA30

9

DA31

10
R715

SCP2_CS

R801

11

+3V3

3.3K

12

R775

13

3.3K

14

R776

470/10V

C724

C723

0.047u

IC40

0.1uF

5

OPT1

+3V3

C820

7

10K

6

R810

5

3.3K

4

R773

3

10K

2

OPT2

R811

1

HVI74HCU04AFNG

OPT3

DA8

DSP1_RESET
100

+3V3

DA34

4.7K

DA33

100K

SCP1_SDA

R777

DA32

R716

+5VD

3

4

R714

+3V3

F_COAX
+5VD

6

DA[0:50]

SCP1_IRQ

1

2

CN17

SCP1_CS

DA10

DSPCLK
COAX4

0

08.10.06
214

W.Y.YANG G.S.WEY

2177SCMZ
(DSP)

1

1

6

5

4

3

2

1

harman/kardon

AVR2600

CUP12177*
Carr. Out
CARR_OUT1
HVTKRA107S
Q736

HVTKRA107S
Q735

D

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

2

4

6

8

10

12

14

16

18

20

22

24

26

28

30

32

34

36

38

40

42

44

R795
CARR_OUT
2.7K

VOL_L_CONT

T5CNT_BOOT

POWER_HIGH

T5CNT_RESET

ABUS_IROUT

CARR_OUT1

REMOTE_OUT

ST+5V

UART_IRQ

MULTI_IR

UART_RST

UART_CLK

UART_DATA_IN

UART_DATA_OUT

DMP_DET

SIRIUS_TX

SIRIUS_RX

USB_TX

USB_RX

HDMI_MUTE_IN

TORINO_TX

TORINO_RX

EXT_CLK

EXT_DATA

EXT_CE

+15V
HDMI_CEC

SIRIUS_L

SIRIUS_R

IPOD_L

IPOD_R

-15V

+3.3V

AVR360/3600 ONLY

-15V

Q739

ABUS_IROUT

R731

CN40

1

GND

+24V

+3.3VC
VOL_L_CONT

2

3

From +24V Adaptor

R447

100
1SS355

1
2

HVTKTC812TB
Q401

3
4

GND
5

IR

1

STATUS
6

180K

R469

JK17

4.7K

R467
180K

R470

HVINJM2068MDTE1

LEFT

7

RIGHT
4.7K

8

R468

MULTI_MUTE2

R478

R499

5.6K

1uF

1K

R476

9

1uF

10

3.3K

R490

2

GND
+24V

C469

IC27

47K

GND

C

5

6

7

1

R481
MULTI_IR

10K

AVR360/3600

GND

6

2

C470

1

R784

HIGH(R790)

8

100p

2.7K

LOW(R791)

HIGH(R792)

5

1

2.7K

R792

AVR360

4

3

C476

4

LOW(R793)

AVR2600

1

7

+3.3VC

C

1uF

2

6

1K
MULTI_MUTE2

100

LOW(R791)

HIGH(R792)

3.3K

R489

5

R783

5

AVR3600

R480

MULTI_PRE_R

4

7

10KX4
RN62

C467

1uF

+3.3VC

3

8

OP_B(PIN100)

6

OP_A(PIN96)

1uF

C477

IC26
C478

4
3

3

R782

MODEL

5.6K

1uF

C479

4

2

8
7
6
5

+3.3VC

C468

100p

100K

* MODEL OPTION *

R479

D442

R477

8.5dB
MULTI_PRE_L

R785

10KX4
RN63

100

0.1uF

C767

0.1uF

C751

OPTION

DSP2_RESET

T5CNT_RESET

VFD_CLK

VFD_CS

VFD_DATA

VFD_RST

KEY1

KEY2

VOL_EN1

VOL_EN2

A107S

HP_IN

2009.0323

POWER_DOWN

DMP_DET

100K

+15V

560

8

12V

R471

100
MULTI_PRE_L

0.1uF

Rin

820

1

C442

MULTI_MUTE2

R474

1.2K

R456

C452

5.6K

10/50V

R461
R462

6

3

2

1

4.7K

R465

R452

C454
180K

10/50V

R472

150p

10/50V

100/16V

C428
100

C415

100K

8

5

HVTKTC812TB
Q402

180K

C412

0.022u

4

BOUTR

R448

7

4

5

R-out

6

100K

R466

1

B

R473

2

180K

3

HVINJM2068MDTE1

4

4.7K

1.2K

R455
C441

100/16V

R460

180K

C413

0.022u

10/50V

C443

L-out
BOUTL

10/50V

2
3

VDD_OUT

5.6K

150p

6

14
10

10/50V

MULTI_MUTE2

R464
MULTI_VOL_R
820

+15V
+15V
+7V

+3.3VC

C778

C107S

9

R709

R710

MULTI_PRE_R

Lin

10K
Q741

R463
MULTI_VOL_L

C444

4

C453

5

VSS_OUT

3

11

2

10K

1

CE0

10K

R789

CLK

8

R454

IC29
HVINJW1159M

7

12

6

CE1

5

1298/1159_DATA

13

+3.3VC

DATA

1298/1159_CLK

C414

7

0.1uF

1159_LATCH

VDD

0.1uF

-15V

8

C746

VSS

C745

IC28

16

GND

1

FOR DEBUG

GPIO : Input/Out Port(without pull_up resistor)

8

4

2.2K

7
8
2

5

DSPCLK

-15V

10K

4
3

6

SCP1_SDA

R713

8
7

SCP1_CS

54

DSPDATA

100X4

50

49

48

47

SCL1
45

46

SDA1
44

43

42

41

40

39

38

37

36

35

RXD2
34

TXD2
33

32

RN65

RN64

3

+15V

2
4
5
6

59
55

57
56

DEBUG

53

DEBUG

DEBUG

31

A-BUS PART : ONLY FOR AVR360/3600

RESET_IN

52

TEST3

100X4

2

4.7K

3

66
62
60

DEBUG

58

DEBUG

1SS355
Q456

4

+3.3VC
1

100

R485

2
1

3

STB

7

2

15

6

1

: PULL_UP

31

5

8

CN30

3

6
5

HDMI_SW

7

1

7

64

HDMI_1_SW

6

10KX4

4
3
2
1
4

65

SCP1_BSY

5

RN66

-15V
MIC_SIGNAL

R758

8
7
6
5
8

DSP1_RESET

69

DSP1_MODE

68

MIC_IN

67

SCP2_IRQ

63

70

RN67

100X4

R482

A107S

10Mhz

X702

30P

100X4

D476
MULTI_MUTE2

61

DVSS
DVCC

R483

75
74
73
72
71

470

GND

Q457
KSA1175YT

33P
C742

51

PH0/TB0IN0/BOOT
30

RN61
10KX4

29

RXD1

CTS1/SCLK1

GND

76

77
XT1

XT2

78

79

80
NMI

81
MODE

82

83

RESET

84

85

86

87

88

89

90
TEST4

91
AN0

92
AN1

93
AN2

94
AN3

95
AN4

96
AN5

97
AN6

98
AN7

TORINO_RX

28

23

TXD1

24

A107S

Q742

17
19
21

99

TORINO_TX

27 SCL0

22

CTS0/SCLK0

23
25

AN8

100

TUNER_CE

1298_MUTE

27
29

AN9

1
2
21

RXD0

26 SDA0

15
16
18

3
18
19
20

TXD0

20

INT5/PF7

22
26
28

T5CC1
IC52

TEST1

+15V

30

4
6

TUNER_SDA

USB_RX

R484

C744

SCP2_CS

7
16

SCL2

17

13

10
12
13
14
15

SDA2

ST+5V

HPR-OUT

TB2IN1

TUNER_RESET

HP_MUTE2

HPL-OUT

CVCC

TB2IN0

DVCC

HP_IN

USB_TX

Q458
A1271Y

REGVSS

R786

TB7OUT

DVSS

MIC_IN

TUNED

X2

TB9OUT

TEST2

F_OPT

CVSS

11

P_M

X1

8

FUNC_MUTE

IR_IN

1

+3.3VC

9

MULTI_MUTE

SB_MUTE

F_COAX

AVCC

HP_MUTE

VFD_RST

+5VD

VREFH

25

7
9
11

VFD_DATA

AVSS

REMOTE_IN

VFD_CS

0.1uF

2

47K

5

C739

5
6
8
10
12

2009.0207

VOL_EN1

VFD_CLK

14

0.1uF

3

P_FAIL

4

PROTECT_IN

VOL_EN2

0.1uF

3

10/50V
D447

10K

*OP_B

KEY1

24

FROM FRONT PCB
B

USA

10K

R750

2

1

BN72

R791

KEY2

C747

REGVCC

10K

C748

C447

R790

EUR

POWER_HIGH

330p
GND

4

VOL_L_CONT

KP1010B

CVIM24C32WMN6TP

47K

*OP_A

C448

IC53

2

R788

3

10K

AVR260/2600

RN68

HIGH(R790)

10K

LOW(R793)

1K

AVR260

R744

R793

100/16V

MULTI ROOM VOLUME : AVR360/3600

ST+5V

R770

R771

10

10K

REMOTE_IN

+3.3VC

150p

In Out

2

1
100/16V

C741
C749

100/16V
0.1uF

1

C740

GND
C732
D727
CVD1SS355T

1SS355

C733

1SS355

IR_IN

0.1uF

10K

3

2200/6.3V

D725

REVISION

IC51
CLZ9R005Z
L705

Q731
KSA1175YT
R779

47K
C716

R772

4.7/50V

C715

10K

R738

ST+5V

R780

2

4

6

3

5

7

SCHEMATIC DIAGRAM

Q733
KSC2785YT

A

SHEET

REMOTE_OUT

ISSUE

10K

10K
R781

A

C449

100/16V

C446

SCP1_IRQ

D_OUT

DIR_CE

HDMI_CEC

DIR_RESET

CARR_OUT

UART_DATA_IN

UART_DATA_OUT

TUNER_MUTE

UART_CLK

UART_RST

MULTI_IR

UART_IRQ

EXT_CLK

EXT_DATA

EXT_CE

SIRIUS_RX

SIRIUS_TX

TUNER_SCL

HDMI_MUTE_IN

1159_LATCH

1298/1159_DATA

1298/1159_CLK

1298_LATCH

T5CNT_BOOT

-7V

ANAM

LPP

MODEL

MULTI. LAB
2009.03.23

DESIGN

C.B.LEE
08.10.06
215

AVR260/360/2600/3600
CHECK

APPROVE

W.Y.YANG G.S.WEY

3
3

DRAWING NO

2177SCMZ
(CPU)

1

1

6

5

4

16P Board to Board

Video in PCB
BN56

OPTION

CN56

1

Video out PCB

harman/kardon

( CUP12175-1 )
CN57

BN57

( CUP12179 )
17P Card Cable

CN54 (5P) : FOR DEBUG (Torino F/W Update)

7 P Wire Ass'y

2

AVR2600

6P Board to Board

Torino PCB

( CUP12175-2 )

D

3

D

(AVR3600 & AVR460)
BN82
CN55

AC IN

26P Board to Board

Plug

BN15

BN55

CN51

USB iPod(IR) PCB

7P Shield Wire Ass'y

( CUP12169 )

DC POWER PCB

CN58 (7P) : FOR DEBUG (USB F/W UPDATE)

( CUP12172-6 )

CN50 (5P) : FOR DEBUG (iPod F/W UPDATE)
CN81

Inlet

BN81

CN30 (7P) : FOR DEBUG (MCU F/W UPDATE)
6P Board to Board
BN17

CN17

Input (DSP) PCB

CN15

( CUP12176 )
OPTION

MONS
SWITCH

(AVR2600 & AVR360)

CN52

3P Shield Wire Ass'y

( CUP12172-3 )

C

CN40

44P Board to Board

Digital in
PCB

Plug

(AVR3600 & AVR460)

BN40

31P Card Cable

7P Wire Ass'y
CN20

BN72

27P Card Cable

AC IN

OPTION

C

BN12

DC-FAN

2P
CN93

CN89

BN25A
BN15

BN14

FAN

CN91

2P Wire Ass'y
CN92

AC POWER CORD

( CUP12172-1 )

8P Board to Board

BN15A

BN14A
BN26

CN11

JW91

BN25

Front in
PCB

DC-FAN
CN82

THERMAL SENSOR

Main Heat Sink

( CUP12168-2 )

CN96
PROTECT PCB

BN23

9P Wire Ass'y

7P Wire Ass'y

Regulator PCB

( CUP12172-4)

2009.07.01

H/P PCB
( CUP12168-3 )
REVISION

BN71

Front PCB

CN72

BN73

( CUP12168-4 )

6P Board to Board
CN73

BN74

MODEL
5P Wire Ass'y

216

Volume
PCB

2

4

6

3

5

7

WIRING DIAGRAM

CN74

31P Card Cable

( CUP12168-1 )
STAND BY PCB

1

BN61
CN61

5P Wire Ass'y

ANAM
MULTI. LAB

12P Board to Board
A

M/P
ISSUE

BN96

BN20

B

BN51

BN52

CN11

( CUP12172-5 )

Power2
PCB

7P Wire Ass'y

B

7P Shield Wire Ass'y

( CUP12172-2 )

2P 2P

JW91_

CN12

3P Shield Wire Ass'y

JW93_

( CUP12170 )
BN26A

JW93
5P

Main PCB

27P Card Cable

Power1
PCB

BN20

5P Wire Ass'y
TH91

BN22

CN90

CN20

A

SHEET

AVR2600 & AVR360/230
AVR3600 & AVR460/230

DESIGN

CHECK

APPROVE

J.H.Lee

W.Y.Yang

K.S.Wey

2173WRDZ

09.07.01

09.07.01

09.07.01

(WIRING DIAGRAM)

( CUP12168-5 )

1
1

DRAWING NO

1

1
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Title                           : D:\업무진행\업무MODEL\AVR60S\SERVICE60S\EXP(USA)\EXAVR1600.dwg Model (1)
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