Harman-Kardon-AVR-1600-Service-Manual

Harman-Kardon-AVR-1600-Service-Manual
harman/kardon
AVR 1600
5 X 40W 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……….10
CONNECTIONS/INSTALLATION………....13
OPERATION………………………...………20
TROUBLESHOOTING GUIDE…...……..…23
REMOTE & PROCESSOR RESETS……....23
DISASSEMBLY…...…………………………..24
UNIT EXPLODED VIEW…………..…….…..25
EXPLODED VIEW PARTS LIST……………26
AMP BIAS ADJUSTMENT……………….…27
BLOCK DIAGRAM…………………………..28
PCB DRAWINGS……………………………29
ELECTRICAL PARTS LIST………..….……36
SEMICONDUCTOR PINOUTS…….………70
SCHEMATICS………….….……………….150
WIRING DIAGRAM…….….……………….160
harman/kardon, Inc.
250 Crossways Park Dr.
Released 2009
Discontinued XXXX
Woodbury, New York 11797
Rev0 10/2009
harman/kardon
AVR1600
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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harman/kardon
AVR1600
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 51
AVR 1600 TECHNICAL SPECIFICATIONS
Audio Section
Stereo Mode, Continuous Average Power (FTC)
40 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:
40 Watts per channel
@ <0.07% THD, 20Hz–20kHz into 8 ohms
Center channel:
40 Watts @ <0.07% THD, 20Hz–20kHz into 8 ohms
Surround (L & R Side, L & R Back) channels:
40 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)
15 inches (382mm)
(Shipping)
21-7/8 inches (555mm)
10-1/2 inches (266mm)
18-5/16 inches (465mm)
Weight
(Product)
20 lb (9.1kg)
(Shipping)
24 lb (10.9kg)
55dB
55dB
Frequency Response
@ 1W (+0dB, –3dB)
10Hz –130kHz
High Instantaneous
Current Capability (HCC)
±25 Amps
Transient Intermodulation
Distortion (TIM)
Unmeasurable
Slew Rate
40V/µsec
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
Depth measurement includes knobs, buttons and terminal connections.
Height measurement includes feet and chassis.
Features, specifications and appearance are subject to change without notice.
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.
CEA is a registered trademark of the Consumer Electronics Association.
Manufactured under license from Dolby Laboratories. Dolby, Pro Logic and the double–D symbol are
registered trademarks of Dolby Laboratories.
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 is a trademark of Apple Inc., registered in the U.S. and other countries.
SACD is a trademark of Sony Corporation.
TiVo is a registered trademark of TiVo Inc.
Please register your AVR 1600 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.
51
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harman/kardon
AVR1600
AVR 1600
visit www.harmankardon.com
AVR 1600
5
AVR 1600
Power
Indicator
Set
Remote
IR Sensor
Surround
Mode
Headphone
Jack/EzSet/EQ
USB Port
Microphone
Digital Audio
Input
Inputs (Optical 3
and Coaxial 3)
Video 3
Analog Audio
and Video Inputs
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
Side 7
Tuning
21:10
/ Navigation
Volume
04/06/09
Standby/On
Switch
Digital
Input
Source
Selectors
FRONT- PANEL CONTROLS
Tuning Channel
Mode Level
Control
Surround
Select
Message Display
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Side 8
FRONT- PANEL CONTROLS
Power Indicator: This LED has three possible modes:
Tuning: Press these buttons to tune a radio station.
• Main Power Off: When the AVR is unplugged or the rearpanel Main Power Switch is off, this LED is off.
• Standby: Amber indicates that the AVR is ready to be turned on.
• On: When the AVR is turned on, this LED turns white.
Surround Mode: Press this button to select a surround
sound (e.g., multichannel) mode. Each press changes the surround
mode category: AUTO SELECT, VIRTUAL, STEREO, MOVIE, MUSIC,
VIDEO GAME. To change the specific mode within the category, use
the Surround Select Buttons. See the Advanced Functions section
for more information on surround modes.
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.
Surround Select: After you have selected the desired
surround mode category, press these buttons to select a specific
mode within the category, such as to change from Dolby Pro Logic
IIx Movie mode to Logic 7 Movie mode. Surround mode availability
depends on the nature of the source input signal, i.e., digital versus
analog, and the number of channels encoded within the signal.
Standby/On Switch: This electrical switch turns the
receiver on, or places it in Standby mode for quick turn-on.
Tuning Mode: This button toggles between manual (one
frequency step at a time) and automatic (seeks frequencies with
acceptable signal strength) tuning mode. It also toggles between
stereo and mono modes when an FM station is tuned.
Source Selectors: Press these buttons to select a source
device, which is a component where a playback signal originates,
e.g., DVD.
Channel Level Control: Press this button to adjust the
Headphone Jack/EzSet/EQ Microphone
Input: Plug a 1/4” headphone plug into this jack for private
output level for any amplifier channel. It may be necessary to raise
or lower the level of a specific channel to compensate for the
placement of the relevant speaker in the room in relation to the
listening position; e.g., the center channel speaker is further away
from the listening position than the front left and right speakers,
so that the dialogue is too soft to hear clearly.
To adjust the level of a channel, press this button once. If the
desired channel is not displayed on screen and in the front-panel
Message Display, use the Tuning Buttons to scroll to it. When the
desired channel appears, use the 7/3 Navigation Buttons to
change the level.
It is recommended that you avoid changing the channel levels after
you have run the EzSet/EQ setup procedure described in the Initial
Setup section, which properly adjusts all channel levels. See the
Advanced Functions section for more information on manual speaker
setup, including level adjustment.
listening.
This jack is also used to connect the supplied microphone for the
EzSet/EQ procedure described in the Initial Setup section.
Digital Audio Inputs (Optical 3 and Coaxial 3):
Connect a source component that will only be used temporarily,
such as a digital camera or game console, to these jacks. Use only
one type of audio. The audio input may be assigned to any video
source.
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.
Video 3 Analog Audio and Video Inputs: Connect
a source component that will only be used temporarily, such as a
digital camera or game console, to these jacks. These inputs are
selected as the Video 3 source, and may not be assigned to other
sources.
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 1600’s rear panel.
Volume Knob: Turn this knob to raise or lower the volume.
Digital Input: To change the audio input for the current
source to one of the six digital audio inputs or the analog input for
the source, press this button and use the 7/3 Navigation Buttons
to change the input. Although any digital audio input may be
assigned to any source, the analog audio inputs are all permanently
dedicated to the source with which they are labeled.
7/3 Navigation: These buttons are used to navigate the
AVR’s menus.
Set: Press this button to select the currently highlighted item.
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.
8
7
Component
1&2
Inputs
DVD
Audio/Video
Inputs
Video 1
Audio/Video
Inputs &
HDMI Monitor
Outputs
Output
Video 2
Audio/Video
Inputs
Video
Monitor
Output
Component Video
Monitor Output
AC Power Cord
HDMI 1-3
Inputs
Front
Speaker
Outputs
Surround
Back
Speaker
Outputs
Surround
Speaker
Outputs
Optical 1& 2
Digital
Audio
Inputs
Main
Power
Switch
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
Side 9
Tape Audio
Inputs &
Outputs
Coaxial
Digital
Audio
Output
Center
Speaker
Outputs
21:10
Subwoofer
Output
04/06/09
6-/8-Channel
Analog Audio Inputs
Coaxial 1 & 2
Digital Audio Inputs
CD Inputs
AM Antenna
AUX Input
REAR - PANEL CONNECTIONS
FM Antenna
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Side 10
REAR - PANEL CONNECTIONS
AM and FM Antenna Terminals: Connect the included
AM and FM antennas to their respective terminals for radio reception.
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 Monitor Output: If you are using
one of the Component Video Inputs and your television or video display
is component-video-capable, connect these jacks to the video display.
NOTE: Due to copy-protection restrictions, there is no output
at the Component Video Monitor Outputs for copy-protected
sources.
AC Power Cord: After you have made all other connections,
plug the AC power cord into an unswitched wall outlet.
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. These inputs may
be assigned to any source.
Main Power Switch: This mechanical switch turns the
power supply on or off. It is usually left on, and cannot be turned
on or off using the remote control.
Coaxial 1/2 and Optical 1/2 Digital Audio
Inputs: If a source has a compatible digital audio output, and
NOTE: It is not possible to have no component video input
assigned to a source, as the AVR 1600 does not transcode
composite video source signals to the component video format. Thus, if a signal is present at the input assigned to the
source, and you have connected the source device to the
composite video input, you will not see the correct picture
unless you turn off the device connected to the component
video input, or assign the other component video input to the
source.
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.
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.
Video Monitor Output: If any of your sources use
Front, Center, Surround and Surround Back
Speaker Outputs: Use two-conductor speaker wire to
composite video connections, connect this monitor output to the
corresponding input on your video display. Composite video source
signals are only available at this output.
connect each set of terminals to the correct speaker. Remember
to observe the correct polarity (positive and negative connections).
Video 1, Video 2 and DVD Audio/Video
Inputs: These jacks may be used to connect your video-capable
6-/8-Channel Analog Audio Inputs: Connect the
multichannel analog audio outputs of a non-HDMI player (DVDAudio, SACD™, Blu-ray Disc or HD-DVD, or any other external
decoder) to these jacks. See page 25 for more information.
source components (e.g., Blu-ray Disc™ player, DVD player, cable TV
box) to the receiver.
NOTE: If a source is equipped with an HDMI output, it is
preferable to connect it to one of the AVR’s HDMI Inputs. If the
source does not have an HDMI output, use its component or
composite video output, and make a separate audio connection.
CD and Tape Audio Inputs: These jacks may be used
to connect audio-only source components (e.g., CD player, tape
deck). Do not connect a turntable to these jacks unless you are
using it with a phono preamp.
Video 1 Audio/Video Outputs: These jacks may be
Tape Outputs: These jacks may be used to connect a CDR
or another audio-only recorder.
used to connect your DVR, VCR or another recorder.
HDMI Inputs and Output: HDMI (High-Definition
Subwoofer Output: If you have a powered subwoofer
Multimedia Interface) is a connection for transmitting digital audio
and video signals between devices. Connect up to three HDMIequipped source devices to the HDMI inputs using a single-cable
connection.
When you connect the HDMI Output to your video display, the
AVR 1600 will automatically transcode component video source
signals to the HDMI format, but they will be passed through at
the original resolution and will not be scaled. The AVR’s on-screen
menus are visible when the HDMI Output is used, but only at
480i resolution. The main video source will not be visible.
with a line-level input, connect it to the Subwoofer Output.
AUX Input: Enjoy audio from an iPod (not included), CD player
or other portable player by connecting its headphone jack to this
input using a 1/8" stereo mini-plug cable (not included). Video and
still-image playback are not available at this input.
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Side 11
REMOTE CONTROL FUNCTIONS
IR Transmitter Lens
Power On
Program Indicator
Mute
Power Off
Source Selectors
AVR Selector
AM/FM
Test Tone
Sleep
6-/8-Channel Input Selector
6/8CH
Volume Controls
Channel Controls
TV/Video
On-Screen Display
Speaker Setup
Channel Level
Navigation
OK
Digital Input
Delay
Numeric Keys
Memory
Clear
Tuning Mode
Direct Station Entry
Tuning
Preset Stations Selectors
Disc Skip
Macros
Tone Mode
Night Mode
Dim
Track Skip
Transport Controls
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.
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Side 12
REMOTE CONTROL FUNCTIONS
AM/FM Button: Press this button to select the tuner as the
The AVR 1600 remote is capable of controlling up to 11 devices,
including the AVR itself and a device connected to the Auxiliary
Input. During the installation process, you may program the codes
for each of your source components into the remote. Each time you
wish to operate any component or the AVR, first press its Selector
Button to change the device mode to the appropriate codes.
Each Input 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 device types programmed into each selector,
except the HDMI selectors, may not be changed.
source, or to switch between the AM and FM bands.
6-/8-Channel Input Selector: Press this button to
select the 6-/8-Channel Inputs as the audio source. If a signal is
present at the component video inputs assigned to this source,
it will be used. If not, the receiver will use the video input and
remote control codes for the last-selected analog video source.
Test Tone: Press this button to activate the test tone for
manual output-level calibration.
TV/ Video: This button has no effect on the receiver, but is
used to switch video inputs on some video source components.
DVD: Controls Harman Kardon Blu-ray Disc players, and
many brands of DVD players and recorders.
Sleep Button: Press this button to activate the sleep timer,
which turns off the receiver after a programmed period of time of
up to 90 minutes.
CD: Controls CD players and recorders.
Tape: Controls cassette decks.
Channel Controls: These buttons have no effect on the
receiver, but are used to change channels on TVs and some video
sources.
Video 1: Controls VCRs, TiVo® devices and DVRs, and
the Harman Kardon DMC 1000 digital media center.
Video 2: Controls cable and satellite television set-top boxes.
Volume Controls: Press these buttons to raise or lower
the volume, which will be shown in decibels (dB) in the Message
Display.
Video 3: Controls televisions and other video displays.
HDMI 1, 2 and 3: Each code set controls a source device
(VCR/PVR, DVD player or cable/satellite set-top box) connected to
one of these inputs.
On-Screen Display (OSD): Press this button to activate
AUX: Controls a device connected to the Auxiliary Input.
Channel Level: Press this button to adjust the output levels
Any given button may have different functions, depending on which
component is being controlled. Some buttons are labeled with these
functions. For example, the Sleep Button is labeled for use as the
Channel Up Button when controlling a television or cable box. See
Table A10 in the appendix for listings of the different functions for
each type of component.
Speaker Setup: Press this button to configure speaker sizes,
that is, the low-frequency capability of each speaker.
the on-screen menu system.
for any channel so that all speakers sound equally loud at the
listening position.
Navigation (1/ 57/3) and OK Buttons: These buttons
are used to make selections within the on-screen menu system, or
when accessing the functions of the four buttons surrounding this
area of the remote – Channel Level, Speaker Setup, Digital Input or
Delay.
IR Transmitter Lens: As buttons are pressed on the
remote, infrared codes are emitted through this lens.
Power On Button: Press this button to turn on the AVR
or another device. The Main Power Switch must first have been
switched on.
Digital Input Select: Press this button to select the specific
digital audio input (or analog audio input) to which the current
source is connected.
Mute Button: Press to mute the AVR 1600’s speaker and
Delay: Press this button to set delay times that compensate for
placing the speakers at different distances from the listening position, or to resolve a “lip sync” issue that may be caused by digital
video processing.
headphone outputs. To end the muting, press this button, adjust
the volume or turn off the receiver.
Program Indicator: This LED lights up or flashes in one
of three colors as the remote is programmed with codes.
NOTE: The Channel Level, Speaker Setup, Digital Input
Select and Delay functions may also be adjusted using the
OSD on-screen menus. In addition, the EzSet/EQ system
may be used to adjust the Channel Level, Speaker Setup
and Delay settings automatically.
Power Off Button: Press to turn off the AVR 1600 or
another device.
AVR Selector: Press to switch the remote to AVR device
mode.
Numeric Keys: Use these buttons to enter radio station
Source Selectors: Press one of these buttons to select
frequencies or to select station presets. Press the Direct Button
before entering the station frequency.
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.
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Side 13
REMOTE CONTROL FUNCTIONS
Tuning Mode: This button toggles between manual (one
frequency step at a time) and automatic (seeks frequencies with
acceptable signal strength) tuning mode. It also toggles between
stereo and mono modes when an FM station is tuned.
Memory: After you have tuned a particular radio station, press
this button, then the Numeric Keys, to save that station as a radio
preset.
Tuning: Press these buttons to tune a radio station. Depending
on whether the tuning mode has been set to manual or automatic,
each press will either change one frequency step at a time, or seek
the next frequency with acceptable signal strength.
Direct: Press this button before using the Numeric Keys to
directly enter a radio station frequency.
Clear: Press this button to clear a radio station frequency you
have started to enter.
Preset Stations Selector: Press these buttons to select
a preset radio station.
Tone Mode: Press this button to access the tone controls
(bass and treble). Use the Navigation Buttons to make your
selections.
Disc Skip: This button has no effect on the receiver, but is
used with some optical disc changers to skip to the next disc.
Macros: These buttons may be programmed to execute long
command sequences with a single button press. They are useful for
programming the command to turn on or off all of your components,
or for accessing specialized functions for a different component
than you are currently operating.
Night Mode: Press this button to activate Night mode with
specially encoded Dolby Digital discs or broadcasts. Night mode
compresses the audio so that louder passages are reduced in volume to avoid disturbing others, while dialogue remains intelligible.
Track Skip: These buttons have no effect on the receiver, but
are used with many source components to change tracks or chapters.
Dim: Press this button to partially or fully dim the front-panel display.
Transport Controls: These buttons have no effect on the
receiver, but are used to control many source components. By
default, when the remote is operating the receiver, these buttons
will control a Harman Kardon Blu-ray Disc player or a DVD player.
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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. Some of these connectors
are not used on the AVR 1600, although they may be found on other
components in your system. 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
Preout
Digital Audio Connections
Coaxial
Orange
Optical
Input
Figure 3 – Subwoofer
Output
Video Connections
Component
Composite
Y
Green
Pb
Blue
Pr
CONNECTING SOURCE DEVICES
TO THE AVR
Red
Yellow
S-Video
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 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.
™
HDMI Connections (digital audio/video)
HDMI
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 1600 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.
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.
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
Subwoofer
Digital Audio
The AVR 1600 is equipped with three 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 1600 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 1600 implements Deep Color, which
increases by an order of magnitude the shades of color that can
be displayed, and the latest lossless multichannel audio formats,
including Dolby TrueHD and DTS-HD Master Audio.
3
Figure 2 – Binding-Post Speaker Terminals With Bare Wires
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CONNECTIONS
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.
Consult the owner’s guide for your disc player for more information,
and see page 25.
Front Surround Center
Multichannel
analog audio
cable (RCA)
The AVR 1600 converts analog video signals to the HDMI format,
including its on-screen menus, but outputs them at their native
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.
White
Blue
Green
Subwoofer
Red
Gray
Purple
Figure 8 – Multichannel Analog Audio
The AVR 1600 has an Auxiliary Audio Input on the rear panel in the
form of a stereo 1/8" mini jack. Connect the headphone output of
any audio source, such as an MP3 player or portable CD player, to
the Auxiliary Audio Input. See Figure 9.
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.
Coaxial digital
audio cable
Figure 9 – Auxiliary Audio Input
Video Connections
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).
Coaxial
Figure 5 – Coaxial Digital Audio
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.
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
Optical
Analog Video
There are two types of analog video connections used on the
AVR 1600: 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.
Figure 6 – Optical Digital Audio
Analog Audio
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.
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.
Analog audio
cable (RCA)
Composite
video cable
Figure 10 – Composite Video
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.
L
R
Figure 7 – Analog Audio
Y Green
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.
Component
video cable
Pb Blue
Pr Red
Figure 11 – Component Video
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CONNECTIONS
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.
NOTE: HDCP-copy-protected sources are not available at
the Component Video Monitor Outputs.
ANTENNAS
The AVR 1600 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
USB PORT
The USB Port on the AVR 1600 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.
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Side 23
INITIAL SETUP
Eliminate extraneous background noise, such as noisy air conditioning.
Avoid making any loud noises while running EzSet/EQ setup.
In this section, you will configure the AVR 1600 to match your actual
system. A video display must be connected to one of the video
monitor outputs on the receiver.
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.
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 OSD Button on the
remote.
The Master menu will appear (see Figure 18).
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
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 1600 and the video display.
Press the OSD Button to display the Master menu. Use the 5 Button
Figure 18 – Master Menu
to highlight the EZSET/EQ LINE, then press the OK Button. See Figure 19.
The Master menu consists of five submenus: Input Setup, Surround
Select, EzSet/EQ, Manual Setup and System Setup.
Use the 5/17/3 Buttons on the remote 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, navigate to the “BACK TO MASTER
MENU” line and press the OK Button. To exit the menu system,
press the OSD Button.
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 Master menu when you press the OSD
Button. If necessary, reread the Installation Section and the beginning
of this section before continuing.
Figure 19 – EzSet/EQ Screen
Select “YES”, and a warning screen, followed by the screen shown
in Figure 20, will appear.
Configure the AVR 1600, 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.
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 1600 manually, as described in the Advanced
Functions section, it is recommended that you take advantage of
the signature Harman Kardon EzSet/EQ system.
Figure 20 – EzSet/EQ Screen
To return to the SPEAKER SETUP menu without starting the EzSet/EQ
process, select “Cancel”. When you are ready to begin, 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.
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INITIAL SETUP
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 22 – Input Setup Menu
Source: Indicates the currently selected source. Use the 7/3
Buttons to select a source: DVD, CD, TUNER (Radio), Tape, 8 CH
DIRECT, AUX, VIDEO 1, VIDEO 2, VIDEO 3, HDMI 1, HDMI 2, HDMI 3.
The AVR 1600 will automatically set its master volume to – 25dB.
The test will begin, and a screen such as the one shown in Figure 21
will appear. Maintain silence during the EzSet/EQ configuration.
Title: You may change the display name for any source (except
the tuner). This may help you to select the correct source device
even when you have forgotten which physical connections you
used. Move the cursor to the TITLE line and press the OK Button.
A block cursor will blink. Use the 1/5 Buttons to scroll through the
alphabet in upper and lower case, the numbers and many punctuation marks. When you have selected the desired character, press
the 3 Button to move to the next space. Press the 3 Button to
leave a blank space. Press the OK Button when you have finished.
Component In: If you connected the source to one of the two
component video inputs, press the 3 Button to adjust the setting if
needed.
Figure 21 – EzSet/EQ in Progress
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. The results
will be displayed, along with these options:
• The Retest option repeats the EzSet/EQ process. Increase the master
volume manually if some speakers were not correctly detected.
• Select Cancel to return to the Master 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.
NOTE: If the source is connected to a composite video
input but a signal is present at the selected component
video input, the AVR will display the component video signal.
To avoid this, turn off the component video source device,
or adjust this setting to select a component video input that
is not in use. When no component video signal is present,
the AVR will automatically select the composite video input
associated with the source.
Audio In: If you used a digital audio connection for a source,
change this setting to assign the correct digital audio input, even if
you also connected its analog audio outputs to the receiver. Move
the cursor to this line, and press the 7/3 Buttons until the correct
digital input appears. If an analog audio connection was used,
change this setting to ANALOG.
Set Up Sources
The Input Setup menu is used to assign the correct physical audio
and component video connections to each source.
The AUDIO IN setting must be adjusted now, and if a component
video input was used for the source, the COMPONENT IN setting
must also be adjusted. Otherwise, there will be no sound or picture
when the source is playing. The other settings may be adjusted later.
To display the Input Setup menu, press the OSD Button. Select the
INPUT SETUP LINE and press the OK Button. A screen similar to the
one shown in Figure 22 will appear.
Auto Poll: The Auto Poll feature is used when both an analog
audio and digital audio connection have been made for one source
device. If no digital signal is available, the AVR 1600 will switch to
the analog input for the source. This situation can occur with some
cable or satellite television broadcasts, where some channels are
broadcast with digital audio and others with analog audio, or when
a DVD player is paused or stopped.
For some sources, the Auto Poll feature is unnecessary and may be
undesirable, such as for a DVD player. Move the cursor to this line,
and press the 7/3 Buttons until OFF appears, disabling the Auto
Poll feature. With Auto Poll turned off, the receiver will only check
for a signal at the audio input assigned to the source.
The remaining lines in the Input Setup menu adjust the audio performance, and may be skipped at this time. Leaving these settings
at their factory defaults is recommended for most listening, in order
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INITIAL SETUP
is selected as the audio input in the Input Setup menu. If a component video connection was made, select the correct input at the
COMPONENT IN line of the Input Setup menu. If the DVD Video
input was used, it will automatically be selected.
• To listen to high-resolution multichannel discs, select the “8 CH
DIRECT” source.
to enjoy the sound mix created by your favorite movie and music
artists.
BXR: Enhances bass performance when playing MP3 tracks.
Select ON, or leave at the default OFF setting for non-MP3 audio.
Tone: Determines whether the treble and bass controls are
active. When it’s off, the tone controls are “flat”, with no changes.
When it’s on, the bass and treble frequencies are boosted or cut,
depending upon the tone-control settings. When an analog audio
source is in use and the 2-Channel Stereo surround mode is selected,
setting the TONE to OFF places the unit in analog bypass mode.
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 tone controls 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.
Bass and Treble: Boost or cut the low or high frequencies by
up to 10dB by using the 7/3 Buttons to change the setting by 2dB
at a time.
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.
System Settings
The AVR 1600 offers system settings that make the receiver easier
to use. Access these settings by pressing the OSD Button and navigating to the SYSTEM SETUP line of the Master menu. Press the
OK Button to display the submenu. See Figure 23.
HDMI-Equipped Multichannel Disc Player:
• Connect the player’s HDMI output to one of the AVR’s HDMI
Inputs. No other connections are necessary.
• Make sure the HDMI input is selected as the source and the
Audio Input in the Input Setup menu.
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. In addition, connect the player’s
component video outputs to one of the AVR’s Component Video
Inputs.
• When listening to DVD-Video discs, CDs or other materials outputting
standard-definition digital audio, select the HDMI Input as the
source and as the Audio Input.
• To listen to high-resolution multichannel discs, select the 6-/8Channel Analog Audio Inputs as the source, and select the component video input the player was connected to. It is not possible
to view HDMI video while listening to multichannel analog audio.
Figure 23 – System Setup Menu Screen
VFD Fade Time Out: Some people find the brightness of
the AVR’s front-panel display distracting during movies or listening
sessions. It’s possible to dim the front-panel display completely
using the Dim function (see below). This sets the display to remain
dark most of the time, lighting up only when a button is pressed or
a remote command is received, and going dark again 5 seconds
after the last command. The VFD FADE TIME OUT feature also causes
the display to light up only when a button is pressed or a change in
the incoming signal is detected, but the display immediately begins
to fade to dark. This setting allows you to program the length of the
fade time. Select a time-out period of between 3 and 10 seconds,
or select OFF if you prefer to leave the displays on at all times or
to use the Dim function.
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 the
DVD composite video connection instead.
• 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.
• When listening to DVD-Video discs, CDs or other materials outputting standard-definition digital audio, select the DVD source,
and make sure the digital audio input the player is connected to
Volume Default and Default Volume Set: These two
settings are used together to program the AVR’s volume level at
turn-on. This feature avoids discomfort for listeners in case the last
user turned the volume very high. Press the OSD Button to remove
the display from the screen so that you may adjust the volume to a
desired level while a source is playing. Make a note of the number
that appears in the display, and return to the System Setup menu.
At the DEFAULT VOL SET line, select the desired volume setting,
and activate the feature by setting VOLUME DEFAULT to ON.
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HDMI Audio to TV: Determines whether HDMI audio signals
are passed through the HDMI Output to the video display. In normal
operation, leave this setting OFF, as audio will be played through the
AVR. To use the TV by itself, without the home theater system, turn
this setting ON. Mute the TV’s speakers when using the AVR for audio.
Semi-OSD Time Out: Program the amount of time
(2 to 5 seconds) the two-line semi-OSD status messages remain
on screen, or deactivate the semi-OSD display altogether if you find
it distracting. These messages will continue to appear on the front
panel of the receiver.
Full-OSD Time Out: Program the amount of time (20, 30,
40 or 50 seconds) the full-OSD menus remain visible on screen.
The full-OSD system may not be deactivated.
NOTE: It isn’t possible to view video sources while the fullOSD menus are displayed.
Dim Function
To dim the Message Display, press the Dim Button on the remote.
Each button press will cycle through the three settings of:
• VFD Full: Normal brightness
• VFD Half: Display is dimmed but still visible; the light inside
the volume knob goes dark
• VFD Off: Display goes completely dark except for Power
Indicator, to remind you that the receiver is turned on.
When you have finished, press the OSD Button to clear the menus
from view.
You are now ready to begin enjoying your new receiver!
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OPERATION
TONE CONTROLS
Now that you have installed your components and completed a
basic configuration, you are ready to begin enjoying your home
theater system.
You may boost or cut either the treble or the bass frequencies by
up to 10dB.
Press the Tone Mode Button once. This will indicate whether the
tone controls are in or out of the circuitry. With the TONE IN message
displayed, press the Tone Mode Button repeatedly to access TREBLE
MODE and BASS MODE. Use the 1/5 Buttons to change the treble
or bass settings.
To return the tone controls to 0, or “flat” response, press the Tone
Mode Button, and then use the 1/5 Buttons to display the TONE
OUT message, which preserves any changes you have made to the
bass or treble settings for later use. To reactivate your changes,
the tone control must be set to TONE IN.
The display will return to normal a few seconds after your last
command.
You may also adjust the tone controls using the full-OSD menu
system. Press the OSD Button on the remote to view the Master
menu. With the cursor pointing to the INPUT SETUP line, press the
OK Button to display the Input Setup menu and view the current
tone settings. To make changes to the TONE, BASS or TREBLE
settings, use the 1/5 Buttons to move the cursor to the setting,
and use the 7/3 Buttons to adjust it. It isn’t necessary to press
the OK Button to enter the new setting.
When you have finished, either wait until the display times-out and
disappears, press the OSD Button to clear the display, or move the
cursor to the BACK TO MASTER MENU line and select it to make
other changes using the menu system.
TURNING ON THE AVR 1600
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 1600:
a) Press the Standby/On Switch on the front panel.
b) Using the remote, press the 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 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.
VOLUME CONTROL
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 1600.
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.
NOTE: The AVR 1600 does not have a conventional balance
control. The speaker output level calibration process compensates for any characteristics of your room or loudspeakers,
and it is recommended that you leave the settings as they
are after you have completed Initial Setup. However, you may
manually adjust the levels of the left and right channels –
decreasing one and increasing the other by the same amount –
using the Channel Adjust submenu, as described in the
Advanced Functions section. This achieves the same effect
as a balance control.
MUTE FUNCTION
HEADPHONES
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.
Plug the 1/4" 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.
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 decreases the play time by 10 minutes. The SLEEP OFF
setting disables the sleep timer.
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.
SOURCE SELECTION
• Use the front-panel 1/5 Source Buttons to scroll through the
sources.
• Using the on-screen menus, press the OSD Button, highlight
“INPUT SETUP” and press the OK Button. Use the 7/3 Buttons
to select a source.
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Side 28
OPERATION
RECORDING
• 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.
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
section, insert blank media and make sure the recorder is turned
on and recording while the source is playing.
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 that are HDCP-copyprotected 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.
VIDEO TROUBLESHOOTING TIPS:
If there is no picture:
• 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).
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.
AUX INPUT
Enjoy the full power and resolution of your Harman Kardon system,
including a variety of analog surround modes, while listening to
content stored on your portable device.
The Auxiliary Audio Input mini jack is provided on the AVR’s rear
panel for convenient connection of portable players, such as CD
players and the iPod (iPod and cable not included). Purchase a
stereo cable with a 1/8" plug on at least one end for connection to
the Auxiliary Audio Input. Plug the other end of the cable into the
portable device’s headphone output, and operate the device using
its own controls. You may also use a cable with separate left and
right audio plugs at one end for connection to any component
equipped with analog audio outputs.
No video connection is available with the AUX input. However, the
AVR will use the last-selected analog video input when the AUX
source is selected.
USING THE RADIO
To select the AVR 1600’s built-in radio:
1. Use the front-panel 1/5 Source Buttons to scroll to the desired
band.
2. Press the AM/FM Source Selector on the remote. Press it again
to switch bands.
Use the 1/5 Tuning Buttons to tune a station, as displayed on the
front panel and on screen.
The AVR defaults to automatic tuning, meaning each press of the
1/5 Tuning 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 1/5 Tuning Buttons steps
through a single frequency increment (0.1MHz for FM, or 10kHz
for AM), press the Tuning Mode Button on the remote. Each press
of the Tuning Mode 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 Memory
Button on the remote, and two dashes will flash. Use the Numeric
Keys to enter the desired preset number.
To tune a preset station: Press the Preset 1/5 Buttons or enter the
preset number using the Numeric Keys.
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 OSD Button on the remote
to display the Master menu. Use the 1/5 Buttons to move the
cursor to the SURROUND SELECT line and press the OK Button.
The Surround Modes menu will appear (see Figure 24). Use the
1/5 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 surround mode
for the category.
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Side 29
OPERATION
Figure 24 – 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 mode.
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.
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 30,
you may select Analog Bypass mode for a pure analog signal when
analog audio inputs are in use. Turn off the TONE setting, and the
AVR does the rest.
• 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.
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, use the 1/5 Buttons to move
the cursor to the BACK TO SURROUND SELECT line and press the
OK Button, then select the BACK TO MASTER MENU line and press
the OK Button to make additional adjustments. When you are finished
using the menu system, press the OSD Button to clear the full-OSD
menus from view (the semi-OSD display will appear).
See the Advanced Functions section for more information on
surround modes.
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Side 36
TROUBLESHOOTING GUIDE
Symptom
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 AVR 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
• Contact your local Harman Kardon service center
Additional information on troubleshooting possible problems with your AVR 1600, 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 any Input
Selector and the “0” Numeric Key. When the Program LED flashes in amber, enter the
code “333”. When the green LED goes out, the remote will have been fully reset.
PROCESSOR RESET
•
To reset the AVR 1600, 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 Surround Mode Button for at least 5 seconds until
the RESET message appears.
36
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harman/kardon
AVR1600
24
harman/kardon
AVR1600
AVR 1600 EXPLODED VIEW
LARGER PARTS CHART NEXT PAGE
25
harman/kardon
AVR1600
26
harman/kardon
AVR1600
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%)
27
Adjustment
CN63
CN62
CN61
CN66
CN64
CN65
CN67
6
5
TO CODEC IC
A-BUS OUT
RJ45 JACK
have Tuner Module.
AD-LT
All Models
AD+LT
AVR3600 & AVR460
8dB AMP
3
NJW1159M
2CH
VOL
2
1
AVR1600 & AVR160/230 BLOCK DIAGRAM
8-CHANNEL ELECTRONIC VOLUME WITH INPUT SELECTOR
AD+RT
VOL.IC & Multi Vol.IC CONT.
AD-RT
* OPTION *
4
MIC_AMP
NJW1197CF
NJW1298FU1
(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
PRE AMP
1
SURR R
P-AMP
CEN
Or VIDEO1 OUT
+29dB
+
SENS
3
SR
4
PRE AMP
HEAT2
POWER MUTE
CEN
+
CEN
6
(AVR2600, AVR3600, AVR360 & AVR460)
TO USB IPOD
PART
+8V
PRE AMP
5
TEMP I/F
* OPTION
ANALOG 1 IN
Or CD IN
SL
2
DC/OVER CURRENT
Temp. Sensor
ANALOG2 IN
Or TAPE IN
ANALOG2 OUT
Or TAPE OUT
SBR/ZONE2 RIGHT
-
9
P-AMP
SURR R
ANALOG4 OUT
ANALOG3 IN
Or VIDEO2 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
( All Models )
PROTECT
C
REGULATOR IC
(+5V)
+5V
+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
IPod IN
REGULATOR IC
-5VD
MIC IN
* OPTIONAL ACCESSORY *
(-5V)
AVR2600 & AVR360
TO INPUT PART
REGULATOR IC
TO INPUT & USB iPod PART
( 15V)
D_SBR
SDIN4
SDIN3
SDIN2
SDIN1
ADUTA4-
ADUTB4-
DRIVER SUPPLY VOLTAGE
1 2 3 4
Cr1
CVBS IN
OSD IN
+6dB
Cr2
DSP CONT.
IR(REMOTE) IN
HP IN
MIC IN
VOL EN
KEY
VOL LED CONT.
VFD CONT.
TUNER CONT.
SCLK0
SBL/SBR AUDATA3
LRCLK0
VOL.IC & Multi Vol.IC CONT.
CODEC CONT.
DSP CONT.
* Option (EUR VER.)
14.318MHz
Y
Cb
I2C
REVISION
1
ANALOG FRONT
2
4
6
3
5
7
ADV7604 INT.
SCHEMATIC DIAGRAM
Cb
Cr
Cr
NJW1321FP1
CODEC RST.
DSP RST.
MONITOR
COMPONENT
HDM & VIDEO SW IC CONT.
28
HDMI MUTE
Cr1
Cr2
32bit u-COM
HP MUTE
6dB DRV
ADV7510 INT.
HDMI RST.
6dB DRV
NJM2595 CONTROL PORT
8 Mbit
POWER FAIL IN
POWER DOWN
POWER MUTE
Cb1
Cb2
16M SDRAM
MCU RST.
A
POWER HIGH
FUNC MUTE
SB MUTE
CVBS OUT
Y
MCU Update & UART CONT.
OSD IC CONT.
TUNER MUTE
COMPOSITE(CVBS)
M12L16161A
6dB DRV
SPI Serial Flash
EEPROM (32 Kbit)
PROTECT IN
T5CN5
VOL. IC MUTE
Y1
Y2
Y3(CVBS)
2009.07.27
MCU BOOT
HDMI EX_EN
HDMI & VIDEO SW IC CONT.
ADDRESS&DATA
6dB DRV
HDMI SW1
NJM2595MTE1
USA VER.:14.318MHz
EUR VER.:17.734MHz
MONITOR
SL/SR AUDATA2
XOUT
XIN
Family with Dual DSP Engine Technology
DSP RST.
DVD IN
10MHz
I2C
OSD OUT
DRV
FOR BACK-UP MEMORY.
32-bit High Definition Audio Decoder DSP
CVBS OUT
DVD
M/P
** EEP_ROM **
XOUT
CVBS IN
ISSUE
XIN
+6dB DRV
V2
AUDATA0
Cr
Cb2
FL/FR
Cr
DAI2_SCLK
Cb
DSP
CS497024
CEN/SUB AUDATA1
CONT
V1
VIDEO1 OUT
Cb
(WHITE)
VOLUME Indicator
HDMI SW2
VIDEO1 IN
Cb1
DMP CVBS
V3
Y
Y2
LC74763M
VIDEO2 IN
I2S
Y
DAI2_DATA
Y1
OSD IC
DAOMCLK
DAI2LRCK
VIDEO3 IN
(CS1,IRQ1,BSY,SDA,CLK,DSP DATA)
KEY1~2
24.576MHz
OPTAL BUFFER
DSP XTAL OUT
DAOMCLK
I2S/DSP_SPDIF
Or VIDEO3 IN
HDMI SW1
74VCX541
COMP COMP
INPUT1 INPUT2
KEY MATRIX
MOMS SWITCH
Or VIDEO3 IN
OMCK
QUAD 2-CH MUX
OSD IC CONT.
FL DISPLAY
(CODEC_CE,CODEC_D OUT,CLK,DSP DATA)
COMPOSITE FRONT
REMOTE SENSOR
CODEC RST.
STANDBY
AMBER/WHITE
HDMI SW2
2CH MUX
74VHC157
HDMI_IN1
CODEC CONT.
74VCX541
USB PORT
ROTARY
ENCODER
(MASTER VR)
HDMI RX
28.6363MHz
2
FILMENT VOLTAGE
RM CLK
DSP XTAL OUT
LIVE
NEUTRAL WHITE OR BLUE
HDMI MCLK
HDMI I2S Data
B
BLACK OR BROWN
1
BLK
FOR UPDATING NEW F/W
SAI_LRCK
SAI_SDOUT
SAI_SCLK
Cb
OMCK
DOUT
RM CLK
Cr
32.768KHZ
Y
VIDEO Processor
HDMI_IN2
ADUTB4+
ADUTA4+
ADUTB3-
ADUTB3+
ADUTA3-
ADUTA3+
ADUTB2-
ADUTB2+
ADUTA2-
ADUTA2+
ADUTB1-
4.9V(AC)
DIN
COAX OUT
Fuse
1
AD IN R+/-
COAX.FRONT
RT
COAX.2
ADV7604
* OPTION
(AVR2600 & AVR360)
(AVR3600 & AVR460)
AC OUTLET
* OPTION *
(Or ~ )
(AVR1600 & AVR160)
COAX.1
REGULATOR
CIRCUITS
114dB, 192 kHz 8-CH CODEC WITH S/PDIF RECEIVER
XIN
XOUT
XIN
XOUT
USB POWER ON
USB IDLE
9MHz
1
2 Fuse
RED
F1
VOL LED CONT.
INT.RAM:32-K & ROM:512-K
34V(DC)
F2
D+/D-
OPT.3
CS42528
A IN L+/-
LT
VH
HDM & VIDEO SW IC CONT.
32bit u-COM(USB HOST)
AVR3600
& AVR460
CX_LRCK1(DSP2_LRCK)
USB
36bit TTL Data
HDMI EX_EN
I2C
DETECT
-VCC(DC)
SUB TRANS
OPT.2
CX_SCLK1(DSP2_SCLK)
POWER HIGH
MCU RST
MCU BOOT
TMP92FD28FG
ADUTB1+
OPT.1
MCU Up-date & CONT.
ADUTA1-
ADUTA1+
UART RX/TX
UNBAL
POWER FAIL
POWER S/W
3
+6V
+VCC(DC)
Or COAX.3 & OPT.3
RESET IC
(+2.8V)
POWER DOWN
TO HDMI PART
REGULATOR IC
(+9V)
D_FR
D_FL
D_SR
D_SL
D_SBL
D_SBR
TO INPUT PART
+9V
D_CNT
D_SBL
D_SW
D_CNT
D_SR
COAX.&OPT. FRONT
(HDMI TX)
MCLK/H_V_Sync/DE
HDMI_IN3
D_SW
ADV7510
FROM VOLUME IC
HDMI_OUT
* OPTION *
(Or ~ )
(AVR1600 & AVR160)
*OPTION*
B
D_SL
D_FL
D_FR
+15V
I2S/SPDIF
REGULATOR IC
(+5V)
ST+5V
-15V
AC IN
FUNC. MUTE
POWER HIGH
AVR3600 & AVR460
A
DC POWER
TO HDMI, VIDEO & USB IPOD PART
SBR/MULTI R
OPT.FRONT
* OPTION
(+5V)
Or OPT.3
* OPTION
REGULATOR IC
TO INPUT PART
+5VD
Or COAX.3
ONLY
USA VER.
AC IN
Or VIDEO3 IN
MODEL
AVR1600 & AVR160/230
DESIGN
CHECK
J.H.Lee
09.07.27
APPROVE
W.Y.Yang G.S.Wey
09.07.27
09.07.27
SHEET
1
1
DRAWING NO
BLOCK DIAGRAM
2171BLDZ
1
1
harman/kardon
AVR1600
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AVR1600
30
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AVR1600
31
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AVR1600
32
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AVR1600
33
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AVR1600
34
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AVR1600
35
harman/kardon
AVR1600
AVR1600 Electrical Parts List
Ref. Designator
Description
Part Number
Qty
FRONT/VOLUME/STANDBY PCB/VOLUME/STANDBY PCB 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
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
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
36
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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
Qty
FRONT/VOLUME/STANDBY PCB/VOLUME/STANDBY PCB COP12168C
C912
C923
C924
C931
C932
C411
CCEA1EH470T
CCBS1H681KBT
CCBS1H681KBT
CCEA1CH331T
CCEA1CH331T
CCEA1JH101E
CAP , ELECT
CAP , CERAMIC(680PF/50V)
CAP , CERAMIC(680PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
47UF 25V
CH UP025 B681K-A-B Z
CH UP025 B681K-A-B Z
330UF 16V
330UF 16V
100UF 63V
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
0.02
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
M
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
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
HVD1N5819T
DIODE , SCHOTTKY
CVD1N4003ST
DIODE , RECT
HVDMTZJ6.8BT
DIODE , ZENER
HVDMTZJ27BT
DIODE , ZENER
HVDMTZJ6.8BT
DIODE , ZENER
HVDMTZJ6.8BT
DIODE , ZENER
CVD1SS133MT
DIODE
CVD1SS133MT
DIODE
CVD1SS133MT
DIODE
CVD1SS133MT
DIODE
CVD1SS133MT
DIODE
CVD1SS133MT
DIODE
CVD1SS133MT
DIODE
C3A206
WIRE , COPPER
CVTKTC1027YT
TRANSISTOR NPN
HVTKRA107MT
TRANSISTOR PNP
HVTKRC107MT
TRANSISTOR NPN
HVTKRC107MT
TRANSISTOR NPN
HVTKTA1271YT
TRANSISTOR PNP
HVTKRC107MT
TRANSISTOR NPN
HVTKRC107MT
TRANSISTOR NPN
HVTKTC2874BT
TRANSISTOR , MUTE NPN
HVTKTC2874BT
TRANSISTOR , MUTE NPN
HVTKTC2874BT
TRANSISTOR , MUTE NPN
HVTKTC2874BT
TRANSISTOR , MUTE NPN
HVTKRC107MT
TRANSISTOR NPN
HVTKRA107MT
TRANSISTOR PNP
HVTKRC107MT
TRANSISTOR NPN
CVD1L0345W31BOCT201L.E.D , WHITE
CVD30ASOGCAA-S7
L.E.D , ORANGE
CVD1L0345W31BOCT201L.E.D , WHITE
CVD1L0345W31BOCT201L.E.D , WHITE
CVD1L0345W31BOCT201L.E.D , WHITE
HVI74HCU04AFNG
I.C , INVERTER (TOSHIBA)
HRVNJL34H380A
SENSOR , REMOCON (JRC)
HVI74ACT04MTR
I.C , HEX (ST) INVERTER
HVINJM2068MTE1
I.C , DUAL OP AMP (JRC)
HVINJM4556AL
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
KTC1027Y
KRA107M
KRC107M
KRC107M
KTA1271Y
KRC107M
KRC107M
KTC2874B
KTC2874B
KTC2874B
KTC2874B
KRC107M
KRA107M
KRC107M
CVD1L0345W31BOCT201
T0L-30ASOGCAA-S7
CVD1L0345W31BOCT201
CVD1L0345W31BOCT201
CVD1L0345W31BOCT201
TC74HCU04AFNG(TOSHIBA)
NJL34H380A
74ACT04MTR
NJM2068M-TE1
NJM4556AL
CRD20TF2200T
CRD20TF6800T
CRD20TJ102T
CRD20TJ473T
CRD20TJ100T
CRD20TJ101T
CRD20TJ101T
CRD20TJ101T
CRD20TJ101T
CRD20TJ272T
CRD20TJ272T
CRD20TJ222T
CRD25TJ393T
CRD20TF1001T
CRD20TF1501T
(220 OHM, 1%)
(680 OHM, 1%)
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
Resistors
R101
R102
R113
R121
R122
R201
R202
R203
R211
R213
R214
R251
R252
R312
R313
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
37
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
Qty
FRONT/VOLUME/STANDBY PCB/VOLUME/STANDBY PCB COP12168C
R314
R315
R316
R322
R323
R324
R325
R326
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
CRD20TF1801T
CRD20TF2701T
CRD20TF3301T
CRD20TF1001T
CRD20TF1501T
CRD20TF1801T
CRD20TF2701T
CRD20TF3301T
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
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
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
38
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
(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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
Qty
FRONT/VOLUME/STANDBY PCB/VOLUME/STANDBY PCB COP12168C
R926
R931
R932
R933
R934
R935
R936
R941
R942
R943
R944
R951
R953
R954
VR74
CRD20TJ104T
CRD20TJ104T
CRD20TJ104T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD25TJ432T
CRD20TJ472T
CRD20TJ472T
CRD20TJ472T
CRD20TJ102T
CRD20TJ362T
CRD20TJ103T
CSR2A037Z
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
RES , CARBON
RES , CARBON
ENCODER
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
3.6K OHM 1/5W J
10K OHM 1/5W J
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
CST1A024ZT
HLQ02C100KT
CMD1A572
CMD1A572
CWB1C907250BM001
CWB1C903400BM001
CJP12GB143ZB
CJP06GB143ZB
CWB1C905120BM
CJP12GA239ZB
CJP05GB03ZY
CJP31GA41ZM
CJP06GB142ZB
CJP05GB03ZY
CMC2A325
CMC4A111
KLZ9H001Z
KLZ9H001Z
KLZ9H001Z
CFL162BD01GINK
CJJ9X006Z
CJJ4S028Y
CJJ4M041Y
HJSTORX177L
CJJ2E026Z
CSL4A016ZU
CBT2A1064
CBT2A1065
CGB1A158Y
CGL1A265Y
CGW3A447RHZB24
CHR301
CMC1A372
CMC2A323
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
SHIELD WIRE ASS'Y (2.5mm, 250mm, 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 AVR155
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
KNOB , STANDBY
KNOB , BACK
BADGE , FRONT HARMAN/KARDON
INDICATOR , POWER
PANEL , FRONT
CLAMPER
PLATE , SHIELD
PLATE , SHIELD
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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
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
BN51
BN52
BN61
BN73
BN74
CN61
CN71
CN72
CN73
CN74
ET63
ET64
FB13
FB14
FB15
F1
JK51
JK52
JK61
JK62
JK63
RL91
39
MOLEX 52045-**45
162-BD-01GINK
U250FD004BY
TORX177L
BC3-12H
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
Qty
FRONT/VOLUME/STANDBY PCB/VOLUME/STANDBY PCB COP12168C
CB72
CMC2A326
CMC2A338
CMD2A443
CMH1A297
CMH2A215
CMZ1A127
CPE1A009
CTB3+8JFZR
CTWS3+10GR
CWC4C4A31B250B08
MAIN PCB ASS'Y
PLATE , EARTH AVR1600
PLATE , EARTH AVR1600
BRACKET , SIDE
HOLDER , USB
HOLDER , LED AVR1600
FILTER , FIP
SHEET , BLIND
SCREW
SCREW
CARD , CABLE (31p,1.25mm,250mm,08mm)
3
2
2
1
1
1
1
28
1
1
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
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
COP12170B
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
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
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
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
CH UP025 B681K-A-B Z
CH UP025 B681K-A-B Z
CH UP025 B681K-A-B Z
CH UP025 B681K-A-B Z
CH UP025 B681K-A-B Z
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
40
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
MAIN PCB ASS'Y
COP12170B
C814
C815
C816
C817
C818
C819
C820
C851
C852
C853
C854
C855
C856
C857
C900
C901
C905
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
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)
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
CCEA1CH101T
CCKT1H331KB
CCBS1H331KBT
CCEA1HH100T
CCEA1HH100T
CCBS1H681KBT
CCBS1H681KBT
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
HCQI1H473JZT
HCQI1H473JZT
CCBS1H223ZFT
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
41
Qty
100UF 16V
330PF 50V K
CH UP025 B331K-A-B Z
10UF 50V
10UF 50V
CH UP025 B681K-A-B Z
CH UP025 B681K-A-B Z
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
0.047UF 50V J
0.047UF 50V J
CH UP025 F223Z-A-B J
100UF 16V
CH UP025 F223Z-A-B J
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
CH UP025 F223Z-A-B J
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
100UF 63V
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
Qty
MAIN PCB ASS'Y
COP12170B
C809
C810
C904
C906
C915
C916
CCEA1JH101E
CCEA1JH101E
KCKDKS472ME
CCEA1EH102E
CCET50VKL4103NK
CCET50VKL4103NK
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(X1/Y2/SC)
CAP , ELECT
CAP , ELECT
CAP , ELECT
100UF 63V
100UF 63V
0.0047UF/2.5KV
1000UF 25V
10000UF/50V
10000UF/50V
1
1
1
1
1
1
EA
EA
EA
EA
EA
EA
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
HVD1SS133MT
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
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
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 PNP
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
1SS133T-77
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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0.02
1
1
1
1
1
1
1
1
1
1
1
1
1
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
M
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
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
D501
D502
D503
D504
D505
D581
D582
D583
D584
D585
D801
D802
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
42
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
MAIN PCB ASS'Y
COP12170B
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
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
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR PNP
TRANSISTOR NPN
TRANSISTOR PNP
TRANSISTOR NPN
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR PNP
TRANSISTOR PNP
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR NPN
TRANSISTOR PNP
TR , POWER (DARLINGTON TYPE) PNP
TR , POWER (DARLINGTON TYPE) PNP
TR , POWER (DARLINGTON TYPE) PNP
TR , POWER (DARLINGTON TYPE) PNP
TR , POWER (DARLINGTON TYPE) NPN
TR , POWER (DARLINGTON TYPE) NPN
TR , POWER (DARLINGTON TYPE) NPN
TR , POWER (DARLINGTON TYPE) NPN
TR , POWER (DARLINGTON TYPE) PNP
TR , POWER (DARLINGTON TYPE) NPN
TR , POWER (DARLINGTON TYPE) NPN
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
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
CVT2SB1559P43M
CVT2SB1559P43M
CVT2SB1559P43M
CVT2SB1559P43M
CVT2SD2389P43M
CVT2SD2389P43M
CVT2SD2389P43M
CVT2SD2389P43M
CVT2SB1559P43M
CVT2SD2389P43M
CVT2SD2389P43M
43
Qty
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
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
KTA1024Y
2SB1559 (PNPMT-100PWR MICA 43
2SB1559 (PNPMT-100PWR MICA 43
2SB1559 (PNPMT-100PWR MICA 43
2SB1559 (PNPMT-100PWR MICA 43
2SD2389 (NPNMT-100PWR MICA 43
2SD2389 (NPNMT-100PWR MICA 43
2SD2389 (NPNMT-100PWR MICA 43
2SD2389 (NPNMT-100PWR MICA 43
2SB1559 (PNPMT-100PWR MICA 43
2SD2389 (NPNMT-100PWR MICA 43
2SD2389 (NPNMT-100PWR MICA 43
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
Qty
MAIN PCB ASS'Y
COP12170B
Q804
Q805
Q807
Q851
Q852
Q853
Q854
Q855
Q856
Q857
IC95
Q858
Q871
Q872
Q874
Q875
Q876
Q877
Q881
Q882
Q883
Q884
Q885
Q886
Q887
CVT2SB1559P43M
CVT2SD2389P43M
CVT2SB1559P43M
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVTKTD600KGR
HVIKIA78R05PI
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTA1360Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
HVTKTC3423Y
TR , POWER (DARLINGTON TYPE) PNP
TR , POWER (DARLINGTON TYPE) NPN
TR , POWER (DARLINGTON TYPE) PNP
TRANSISTOR , BIAS NPN
TRANSISTOR , BIAS NPN
TRANSISTOR , BIAS NPN
TRANSISTOR , BIAS NPN
TRANSISTOR , BIAS NPN
TRANSISTOR , BIAS NPN
TRANSISTOR , BIAS NPN
REGULATOR (5V OUTPUT LOW DROP)
TRANSISTOR , PRE DRIVE PNP
TRANSISTOR , PRE DRIVE PNP
TRANSISTOR , PRE DRIVE PNP
TRANSISTOR , PRE DRIVE PNP
TRANSISTOR , PRE DRIVE PNP
TRANSISTOR , PRE DRIVE PNP
TRANSISTOR , PRE DRIVE PNP
TRANSISTOR , PRE DRIVE NPN
TRANSISTOR , PRE DRIVE NPN
TRANSISTOR , PRE DRIVE NPN
TRANSISTOR , PRE DRIVE NPN
TRANSISTOR , PRE DRIVE NPN
TRANSISTOR , PRE DRIVE NPN
TRANSISTOR , PRE DRIVE NPN
2SB1559 (PNPMT-100PWR MICA 43
2SD2389 (NPNMT-100PWR MICA 43
2SB1559 (PNPMT-100PWR MICA 43
KTD600KGR
KTD600KGR
KTD600KGR
KTD600KGR
KTD600KGR
KTD600KGR
KTD600KGR
KIA78R05PI
KTA1360Y
KTA1360Y
KTA1360Y
KTA1360Y
KTA1360Y
KTA1360Y
KTA1360Y
KTC3423Y
KTC3423Y
KTC3423Y
KTC3423Y
KTC3423Y
KTC3423Y
KTC3423Y
1
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
CRD20TJ103T
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
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
10K OHM 1/5W J
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
1
1
1
1
1
1
1
1
1
1
1
1
1
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
Resistors
R500
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
44
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
MAIN PCB ASS'Y
COP12170B
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
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
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 (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
CRD20TJ271T
CRD20TJ271T
CRD20TJ271T
CRD20TJ271T
CRD20TJ273T
CRD20TJ273T
CRD20TJ273T
CRD20TJ273T
CRD20TJ273T
CRD20TJ182T
CRD20TJ182T
CRD20TJ182T
CRD20TJ182T
CRD20TJ182T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ100T
CRD20TJ100T
CRD20TJ100T
CRD20TJ100T
CRD20TJ100T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
CRD20TJ561T
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
45
Qty
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
1.8K OHM 1/5W J
1.8K OHM 1/5W J
1.8K OHM 1/5W J
1.8K OHM 1/5W J
1.8K 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
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
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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
MAIN PCB ASS'Y
COP12170B
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
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
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (1.8K OHM)
RES , CARBON (1.8K OHM)
RES , CARBON (1.8K OHM)
RES , CARBON (1.8K OHM)
RES , CARBON (1.8K OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
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
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
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
46
Qty
(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
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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0.02
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
M
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
MAIN PCB ASS'Y
COP12170B
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
R857
R858
R859
R860
R861
R862
R863
R870
R871
R872
R873
R874
R875
R876
R877
R878
R879
R880
R882
R883
R884
R885
R886
R887
RES , CARBON
RES , CARBON
RES , CARBON (1.8K OHM)
RES , CARBON (1.8K OHM)
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON (47 OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
RES , CARBON (18 OHM) NONFLAMMABLE
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
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
CRD20TJ182T
CRD20TJ182T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ152T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ221T
CRD20TJ271T
CRD20TJ271T
CRD20TJ333T
CRD20TJ333T
CRD20TJ433T
CRD20TJ433T
CRD20TJ471T
CRD20TJ471T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ331T
CRD20TJ122T
CRD20TJ122T
CRD20TJ122T
CRD20TJ122T
CRD20TJ122T
CRD20TJ122T
47
Qty
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
1.8K OHM 1/5W J
1.8K 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
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
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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
MAIN PCB ASS'Y
COP12170B
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
R958
R959
R961
R962
R964
R965
R986
R987
R988
R989
R991
R992
R998
VR81
VR82
VR83
VR84
VR85
VR86
VR87
RES , CARBON
RES , CARBON (390 OHM)
RES , CARBON (390 OHM)
RES , CARBON (390 OHM)
RES , CARBON (390 OHM)
RES , CARBON (390 OHM)
RES , CARBON (390 OHM)
RES , CARBON (390 OHM)
RES , CARBON
RES , CARBON
RES , CARBON
WIRE , COPPER
RES , CARBON (39K OHM)
RES , CARBON (39K OHM)
RES , CARBON (39K OHM)
RES , CARBON (39K OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (150K OHM)
RES , CARBON (330K OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (330K 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 (3K OHM)
RES , CARBON
RES , METAL OXIDE FILM (270 OHM)
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)
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
CRD20TJ563T
CRD20TJ104T
CRD20TJ331T
CRD20TJ273T
CRD20TJ223T
CRD20TJ223T
CRD20TJ102T
CRD20TJ561T
CRD20TJ562T
CRD20TJ302T
CRD20TJ822T
KRG1SANJ271RT
CRD20TJ103T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
CVN1RA221B02T
48
Qty
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
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
1
1
1
1
1
1
1
1
1
1
1
0.02
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
M
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
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
AVR1600
Ref. Designator
Description
Part Number
Qty
MAIN PCB ASS'Y
COP12170B
R656
R657
R658
R659
R660
R810
R811
R905
R922
R923
R990
R993
R994
R995
R996
R997
R999
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRF5EKR27HX2K
CRG1ANJ1R0H
CRG2ANJ470H
CRG1ANJ220H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H
CRG1ANJ100H
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
CMYAVR1600/120
CFNCF12825HSN
CHD1A012R
CHD1A036R
CHD3A012R
CMD1A398
CMD1A417
CMD1A694
CMY1A313
CTB3+8JR
CTB3+8JR
HJT1A025
HJT1A025
KJCFC5S
CWB1D00718088
CWB1D00915088
CWB3F905300UZ
CWE8112120VV
CWE8112120VV
CJP03GA01ZY
CJP08GA221ZB
CJP27GA41ZM
CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY
CJP02GA01ZY
CJP02GA89ZY
CJP02GA89ZY
CJP02KA060ZY
CMD1A387
CMD1A387
CJJ4M040Z
CJJ5R006Z
CJJ5Q012Z
CWE8112120VV
CLEY0R5KAK
CLEY0R5KAK
CLEY0R5KAK
CLEY0R5KAK
CLEY0R5KAK
CLEY0R5KAK
HEAT SINK ASS'Y
FAN , MOTOR
SCREW , SPECIAL
SCREW , SPECIAL
SCREW , SPECIAL
BRACKET , PCB
AG-D9320
BRACKET , PCB
AG-D8900
BRACKET , FAN
HEAT SINK
SCREW
SCREW
PLATE , EARTH
MET37-0002
PLATE , EARTH
MET37-0002
HOLDER , FUSE
WIRE ASS'Y (2.5MM, 180MM, 7PIN, DUAL-DIPP 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)
MOLEX 52045-**45
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER , STRAIGHT, 2PIN
WAFER
WAFER
WAFER
BRACKET , PCB
BRACKET , PCB
JACK , BOARD (SW)
TERMINAL , SPEAKER
TERMINAL , SPEAKER
WIRE ASS'Y (1PIN,120mm,LUG,#18,RED)
COIL , SPEAKER
0.5UH K
COIL , SPEAKER
0.5UH K
COIL , SPEAKER
0.5UH K
COIL , SPEAKER
0.5UH K
COIL , SPEAKER
0.5UH K
COIL , SPEAKER
0.5UH K
(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
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
1
1
14
4
11
2
2
1
1
8
4
1
1
2
1
1
1
1
1
1
1
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
Miscellaneous
ET90
ET91
F901
BN14
BN15
BN20
BN25
BN26
CN10
CN11
CN12
CN61
CN62
CN63
CN64
CN65
CN66
CN67
CN89
CN90
CN91
CN92
ET92
ET93
JK90
JK91
JK92
JW91
L501
L502
L503
L504
L505
L506
49
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
MAIN PCB ASS'Y
COP12170B
L507
RY94
TH91
T902
COIL , SPEAKER
RELAY , POWER
THERMAL SENSOR , POSISTOR
TRANSFORMER, SUB
CLEY0R5KAK
CSL1E002ZE
KRTP42T7D330B
CLT5I005ZU
Qty
0.5UH K
G5PA-1 (DC 6V)
P42T7D330BW20
1
1
1
1
EA
EA
EA
EA
POWER PCB/DIGITAL IN/PROTECT PCB ASS'Y CUP12172C
Capacitors
C104
C105
C106
C107
C108
C109
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
HCQI1H103JZT
HCQI1H103JZT
HCQI1H104JZT
HCQI1H103JZT
HCQI1H103JZT
HCQI1H104JZT
CCEA1CH101T
CCFT1H473ZF
CCFT1H473ZF
CCBS1H473ZFT
CCBS1H104ZFT
CCEA1HH4R7T
CCFT1H473ZF
CCFT1H473ZF
CCFT1H473ZF
CCBS1H104ZFT
CCBS1H104ZFT
CCEA1CH101T
CCEA1CH101T
CCEA1HKS2R2T
CCEA0JH102T
CCKT1H102KB
CCEA1HH470T
KCME2E104JP04T
CCME2A103JXT
CCME2A103JXT
HCQI1H473JZT
HCQI1H473JZT
CCBS1H104ZFT
CCBS1H473ZFT
CCBS1H104ZFT
CCEA1CH101T
CCEA1EH101T
CCEA1EH101T
CCEA1EH103E
CCEA1VH222EZ
CCEA1VH222EZ
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
CAP , MYLAR
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
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT (10000uF/25V,22x30,KR3)
CAP , ELECT (2200UF/35V, 12.5X31)
CAP , ELECT (2200UF/35V, 12.5X31)
0.01UF 50V J
0.01UF 50V J
0.1UF 50V J
0.01UF 50V J
0.01UF 50V J
0.1UF 50V J
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
CH UP025 F473Z-A-B J
0.1UF 50V Z
100UF 16V
100UF 25V
100UF 25V
KR3-025V103MM300
KR3-35V222MH1-L/C4.0
KR3-35V222MH1-L/C4.0
1
1
1
1
1
1
1
1
1
1
1
1
1
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
CVD1N4003ST
CVD1N4003ST
CVD1N4003ST
CVD1N4003ST
CVD1N4003ST
CVD1N4003ST
CVD1SS133MT
CVD1SS133MT
HVDUF5404H
HVDUF5404H
CVDGBJ1006BIA
HVTKTA1267YT
HVTKTC3198YT
HVTKTC3198YT
CVIKIA7905PI
CVIKIA278R15PI
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE
DIODE
DIODE , ULTRAFAST (DELTA)
DIODE , ULTRAFAST (DELTA)
DIODE HEAT SINK ASS'Y (CMY2A138)
TRANSISTOR PNP
TRANSISTOR NPN
TRANSISTOR NPN
I.C , REGULATOR(-5V)
I.C , REGULATOR(15V OUTPUT LOW DROP)
1N4003
1N4003
1N4003
1N4003
1N4003
1N4003
1SS133
1SS133
UF5404H
UF5404H
(CMY2A138)
KTA1267Y
KTC3198Y
KTC3198Y
KIA7905PI
KIA278R15PI
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
Semiconductors
D114
D115
D116
D117
D124
D125
D801
D802
D104
D105
D991
Q911
Q912
Q913
IC81
IC83
50
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
Qty
POWER PCB/DIGITAL IN/PROTECT PCB ASS'Y CUP12172C
IC84
D991
CVIKIA7915PI
HVDGBJ1006
I.C , REGULATOR(15V, TO-220AB)
DIODE , BRIDGE
KIA7915PI
1
1
EA
EA
CRD20TJ103T
CRD20TJ103T
CRD20TJ103T
CRD20TJ272T
CRD20TJ153T
CRD20TJ153T
CRD25TJ153T
CRD25TJ153T
CRD25TJ153T
CRD25TJ153T
CRD20TJ103T
CRD20TJ104T
CRD20TJ333T
CRD20TJ104T
KRQ1AJR47H
KRQ1AJR47H
RES , CARBON
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
RES , CARBON
RES , CARBON
RES , CARBON
RES , FUSE
RES , FUSE
10K OHM 1/5W J
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
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
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
KBA2D3150A2EYT
KBA2D3150A2EYT
CJP06GB143ZB
CWB1D00708058
CWB1D00912058
CJP08GB142ZB
CJP08GA221ZB
CJP05GA90ZY
CJP07GI237ZW
CJP09GJ243ZW
CMY2A138
CTB3+12JR
CMD1A387
HJSTORX177L
HJSTORX177L
FUSE(382 Series, 250V, 3.15A)
FUSE(382 Series, 250V, 3.15A)
FEMALE HEADER(6P, 2.54mm)
WIRE ASS'Y (LOCKING TYPE, 2.5MM, 7PIN, 80MM)
WIRE ASS'Y (LOCKING TYPE, 2.5MM, 9PIN, 120MM)
PIN HEADER (08P, 2.54mm) , ANGLE TYPE
FEMALE HEADER (08P,2.54mm) , STRAIGHT TYPE
WAFER , 5P(DIP, 3.96PITCH)
LOCKING TYPE , STRAIGHT WAFER, 2.5MM
WAFER (9P LOCK ANGLE 2.5MM)
HEAT SINK
SCREW
BRACKET , PCB
MODULE , OPTICAL(RX)
MODULE , OPTICAL(RX)
382 250V/3.15
382 250V/3.15
TORX177L
TORX177L
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
CH UP025 B101K-A-B Z
1000UF 6.3V
10UF 50V
10UF 50V
10UF 50V
CH UP025 F223Z-A-B J
100UF 16V
CH UP025 F223Z-A-B J
100UF 16V
CH UP025 B101K-A-B Z
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
3PF 50V C
10UF 50V
3PF 50V C
10UF 50V
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
Resistors
R120
R750
R751
R901
R912
R913
R917
R918
R919
R920
R925
R927
R928
R942
R104
R105
Miscellaneous
F110
F111
BN17
BN20
BN96
CN11
CN12
CN20
CN82
CN96
ET01
JK75
JK76
VIDEO IN/OUT PCB ASS'Y
CUP12174C
Capacitors
C401
C402
C411
C421
C451
C461
C462
C463
C464
C483
C491
C601
C602
C603
C604
C605
C606
C611
C612
C613
C614
CCBS1H101KBT
CCEA0JH102T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCBS1H223ZFT
CCEA1CH101T
CCBS1H223ZFT
CCEA1CH101T
CCBS1H101KBT
CCBS1H101KBT
CCBS1H220JCT
CCEA0JH102T
CCBS1H220JCT
CCEA0JH102T
CCBS1H220JCT
CCEA0JH102T
CCCT1H030CC
CCEA1HH100T
CCCT1H030CC
CCEA1HH100T
CAP , CERAMIC(100PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(22000PF/50V)
CAP , ELECT
CAP , CERAMIC(22000PF/50V)
CAP , ELECT
CAP , CERAMIC(100PF/50V)
CAP , CERAMIC(100PF/50V)
CAP , CERAMIC(22PF/50V)
CAP , ELECT
CAP , CERAMIC(22PF/50V)
CAP , ELECT
CAP , CERAMIC(22PF/50V)
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
51
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
Qty
VIDEO IN/OUT PCB ASS'Y
CUP12174C
C615
C616
C621
C622
C623
C624
C625
C626
C627
C628
C629
C630
C631
C632
C671
C672
C673
C701
C702
C705
C708
C711
C712
C717
C721
C722
C723
C725
C726
C731
C732
C733
C734
C736
C737
C741
CCCT1H030CC
CCEA1HH100T
CCCT1H030CC
CCEA1HH100T
CCCT1H030CC
CCEA1HH100T
CCCT1H030CC
CCEA1HH100T
CCEA0JH102T
CCEA0JH102T
CCEA0JH102T
CCBS1H220JCT
CCBS1H220JCT
CCBS1H220JCT
CCEA1CH101T
CCBS1H104ZFT
CCEA1HH100T
CCBS1H270JT
CCBS1H270JT
CCBS1H181KBT
CCEA1HHR47T
CCEA1AH471T
CCEA1HH100T
CCBS1H220JCT
CCBS1H560JT
CCBS1H220JCT
CCEA1HH0R1T
HCQI1H682JZT
CCEA1HH1R0T
CCBS1H220JCT
CCBS1H330JT
CCBS1H223ZFT
CCEA1HH1R0T
CCBS1H223ZFT
CCEA1CH101T
CCBS1H223ZFT
CAP , CERAMIC
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(22PF/50V)
CAP , CERAMIC(22PF/50V)
CAP , CERAMIC(22PF/50V)
CAP , ELECT
CAP , CERAMIC
CAP , ELECT
CAP , CERAMIC(27PF/50V)
CAP , CERAMIC(27PF/50V)
CAP , CERAMIC(180PF/50V)
CAP , ELECT
CAP , ELECT
CAP , ELECT
CAP , CERAMIC(22PF/50V)
CAP , CERAMIC(56PF/50V)
CAP , CERAMIC(22PF/50V)
CAP , ELECT
CAP , MYLAR
CAP , ELECT
CAP , CERAMIC(22PF/50V)
CAP , CERAMIC(33PF/50V)
CAP , CERAMIC(22000PF/50V)
CAP , ELECT
CAP , CERAMIC(22000PF/50V)
CAP , ELECT
CAP , CERAMIC(22000PF/50V)
3PF 50V C
10UF 50V
3PF 50V C
10UF 50V
3PF 50V C
10UF 50V
3PF 50V C
10UF 50V
1000UF 6.3V
1000UF 6.3V
1000UF 6.3V
CH UP025CH220J-A-B Z
CH UP025CH220J-A-B Z
CH UP025CH220J-A-B Z
100UF 16V
0.1UF 50V Z
10UF 50V
CH UP025SL270J-A-B Z
CH UP025SL270J-A-B Z
CH UP025 B181K-A-B Z
0.47UF 50V
470UF 10V
10UF 50V
CH UP025CH220J-A-B Z
CH UP025SL560J-A-B Z
CH UP025CH220J-A-B Z
0.1UF 50V
6800PF 50V J
1UF 50V
CH UP025CH220J-A-B Z
CH UP025SL330J-A-B Z
CH UP025 F223Z-A-B J
1UF 50V
CH UP025 F223Z-A-B J
100UF 16V
CH UP025 F223Z-A-B J
CVINJM2595MTE1
CVINJW1321FP1
HVILC74763M
HVI74ACT04M
C3A206
HVTKRC107MT
HVTKTA1267YT
HVTKTC3199YT
I.C , VIDEO S/W (JRC)
I.C , VIDEO S/W (JRC)
I.C , OSD
I.C , HEX (ST) INVERTER
WIRE , COPPER
TRANSISTOR NPN
TRANSISTOR PNP
TRANSISTOR NPN
CRD20TJ470T
C3A206
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ102T
CRD20TJ750T
CRD20TJ560T
CRD20TJ360T
CRD20TJ470T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
CRD20TJ750T
RES , CARBON
WIRE , COPPER
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (36 OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
1
1
1
1
1
1
1
1
1
1
1
1
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
NJM2595MTE1
NJW1321FP1
LC74763M
74ACT04M
SN95/PB5 , 0.6
KRC107M
KTA1267Y
KTC3199Y
1
1
1
1
0.02
1
1
1
EA
EA
EA
EA
M
EA
EA
EA
47 OHM 1/5W J
SN95/PB5 , 0.6
75 OHM 1/5W J
75 OHM 1/5W J
75 OHM 1/5W J
1K OHM 1/5W J
75 OHM 1/5W J
56 OHM 1/5W J
(36 OHM)
47 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
1
0.02
1
1
1
1
1
1
1
1
1
1
1
1
1
EA
M
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
Semiconductors
IC101
IC102
IC103
IC104
D741
Q512
Q712
Q716
Resistors
R401
R402
R411
R421
R451
R461
R491
R601
R603
R605
R611
R613
R615
R621
R623
52
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
Qty
VIDEO IN/OUT PCB ASS'Y
CUP12174C
R625
R641
R642
R674
R675
R676
R677
R678
R701
R705
R706
R707
R711
R713
R714
R715
R716
R717
R721
R724
R725
R726
R727
R728
R735
R737
R742
R743
R744
CRD20TJ750T
C3A206
C3A206
CRD20TJ330T
CRD20TJ330T
CRD20TJ470T
CRD20TJ360T
CRD20TJ560T
CRD20TJ222T
CRD20TJ102T
CRD20TJ102T
CRD20TJ102T
CRD20TJ104T
CRD20TJ222T
CRD20TJ122T
CRD20TJ822T
CRD20TJ103T
CRD20TJ271T
CRD20TJ222T
CRD20TJ393T
CRD20TJ152T
CRD20TJ682T
CRD20TJ102T
CRD20TJ102T
CRD20TJ102T
CRD20TJ104T
CRD20TJ102T
CRD20TJ102T
CRD20TJ102T
RES , CARBON
WIRE , COPPER
WIRE , COPPER
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON (36 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 (39K OHM)
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
RES , CARBON
75 OHM 1/5W J
SN95/PB5 , 0.6
SN95/PB5 , 0.6
33 OHM 1/5W J
33 OHM 1/5W J
47 OHM 1/5W J
(36 OHM)
56 OHM 1/5W J
2.2K OHM 1/5W J
1K OHM 1/5W J
1K OHM 1/5W J
1K OHM 1/5W J
100K OHM 1/5W J
2.2K OHM 1/5W J
1.2K OHM 1/5W J
8.2K OHM 1/5W J
10K OHM 1/5W J
270 OHM 1/5W J
2.2K OHM 1/5W J
(39K OHM)
1.5K OHM 1/5W J
6.8K OHM 1/5W J
1K OHM 1/5W J
1K OHM 1/5W J
1K OHM 1/5W J
100K OHM 1/5W J
1K OHM 1/5W J
1K OHM 1/5W J
1K OHM 1/5W J
KLQ5R6J405T
HLQ02C101JT
CJP15GA115ZY
CJP18GB142ZB
CJJ4S010Z
CJJ4R045Z
CJJ4N043Z
CJJ4S030Z
HOX14318E220C
COIL, PEAKING(RADIAL)
COIL , AXAIL
WAFER , CARD CABLE
PIN HEADER (18P, 2.54mm) , ANGLE TYPE
JACK , BOARD
JACK , BOARD
JACK , BOARD
JACK , BOARD
CRYSTAL (14.318MHz)
5.6UH J 4X5
100UH,J
1
0.02
0.02
1
1
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
M
M
EA
EA
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
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
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
Miscellaneous
L731
L736
BN14
CN18
JK61
JK62
JK63
JK64
X701
INPUT (DSP) PCB ASS'Y
3P,G/B/R,SILVER
CUP12176C
Capacitors
C200
C201
C202
C203
C204
C205
C206
C207
C208
C209
C210
C211
C212
C213
C214
C215
C216
C219
C220
CCUS1H104KC
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
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
0.1UF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
220PF
53
50V K
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
50V J
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
C221
C222
C223
C224
C225
C226
C254
C255
C256
C257
C258
C259
C260
C269
C274
C277
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
C320
C321
C322
C323
C324
C325
C326
C327
C328
C329
C330
C331
C332
C333
C334
C335
C336
C337
C338
C339
C340
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP(15PF/50V)
CAP , CHIP(15PF/50V)
CAP , CHIP (20PF)
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
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
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H221JA
CCUS1H104KC
CCUS1H150JA
CCUS1H150JA
CCUS1H200JA
CCUS1H220JA
CCUS1H104KC
CCUS1H104KC
CCUS1A105KC
CCUS1A105KC
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
CCUS1H223KC
CCUS1H271JA
CCUS1H271JA
CCUS1H271JA
CCUS1H271JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H561JA
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
Qty
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
220PF 50V J
0.1UF 50V K
15PF 50V J
15PF 50V J
22PF 50V J
0.1UF 50V K
0.1UF 50V K
1UF 10V K
1UF 10V 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
0.022UF 50V K
270PF 50V J
270PF 50V J
270PF 50V J
270PF 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
54
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
C350
C351
C352
C353
C354
C355
C356
C357
C362
C363
C364
C365
C369
C370
C381
C382
C383
C384
C385
C386
C387
C388
C391
C392
C393
C394
C395
C396
C397
C398
C399
C407
C408
C409
C410
C411
C412
C413
C415
C532
C534
C535
C536
C537
C538
C539
C540
C601
C603
C605
C607
C609
C611
C613
C615
C617
C619
C621
C623
C625
C627
C629
C631
C701
C702
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
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 , ELECT
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
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP (20PF)
CAP , CHIP (20PF)
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H102KC
CCUS1H223KC
CCUS1H103KC
CCUS1H392KC
CCUS1H822KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H223KC
CCUS1H151JA
CCUS1H151JA
CCUS1H151JA
CCUS1H102KC
CCUS1H151JA
CCUS1H151JA
CCUS1H151JA
CCUS1H151JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H392KC
CCUS1H822KC
CCEA1HH100T
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H182KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H200JA
CCUS1H200JA
55
Qty
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
0.01UF 50V K
3900PF 50V K
0603B822K101B
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
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
3900PF 50V K
0603B822K101B
10UF 50V
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
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
(20PF)
(20PF)
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
C704
C705
C707
C708
C718
C719
C722
C723
C725
C727
C729
C731
C733
C734
C738
C739
C741
C742
C743
C744
C745
C746
C747
C748
C754
C756
C758
C759
C760
C761
C762
C763
C765
C768
C769
C770
C771
C772
C773
C775
C778
C780
C781
C782
C783
C784
C785
C787
C789
C790
C791
C793
C794
C795
C796
C797
C798
C820
C250
C251
C261
C262
C263
C264
C265
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
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
CCUS1H104KC
CCUS1H104KC
CCUS1H102KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H473KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1A105KC
CCUS1H103KC
CCUS1H104KC
CCUS1H330JA
CCUS1H104KC
CCUS1H330JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1A105KC
CCUS1H102KC
CCUS1H223KC
CCUS1H103KC
CCUS1H103KC
CCUS1H103KC
CCUS1H104KC
CCUS1H103KC
CCUS1H103KC
CCUS1H103KC
CCUS1H104KC
CCUS1H101JA
CCUS1H181JA
CCUS1H181JA
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCEA1CH101T
CCEA1HH100T
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
Qty
0.1UF 50V K
0.1UF 50V K
1000PF 50V K
0.1UF 50V K
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
1UF 10V K
0.01UF 50V K
0.1UF 50V K
33PF 50V J
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
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
1000PF 50V K
0.022UF 50V K
0.01UF 50V K
0.01UF 50V K
0.01UF 50V K
0.1UF 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
100UF 16V
10UF 50V
47UF 25V
47UF 25V
47UF 25V
47UF 25V
47UF 25V
56
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
C266
C267
C268
C270
C271
C272
C273
C275
C276
C281
C282
C283
C284
C285
C286
C287
C288
C292
C294
C341
C342
C343
C344
C345
C346
C347
C348
C349
C358
C359
C360
C361
C371
C372
C373
C374
C375
C376
C377
C378
C389
C390
C406
C513
C600
C602
C604
C606
C608
C610
C612
C614
C616
C618
C620
C622
C624
C626
C628
C630
C703
C706
C717
C720
C721
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
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
CCEA1EH470T
CCEA1EH470T
CCEA1EH470T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1CH101T
CCEA1CH101T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH100T
CCEA1HH1R0T
CCEA1HH1R0T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1CH101T
CCEA1HH4R7T
CCEA1CH101T
CCEA1AH471T
Qty
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
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
100UF 16V
100UF 16V
100UF 16V
100UF 16V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
10UF 50V
1UF 50V
1UF 50V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
4.7UF 50V
100UF 16V
470UF 10V
57
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
C724
C726
C728
C730
C735
C737
C740
C749
C750
C752
C753
C764
C766
C732
CCEA1AH471T
CCEA1CH101T
CCEA1AH471T
CCEA1CH101T
CCEA0JH102T
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
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
HVD1SS355T
CVINJW1197CFC2
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVINJM2068MTE1
HVTKTC812TB
HVTKTC812TB
HVTKTC812TB
HVTKTC812TB
CVIKIA1117S18
CVIKIA1117S33
CVIM12L16161A5TG
HVTKTC812TB
CVIM24C32WMN6TP
CVIF25L008A50PAG
CVIANAM1458AT
CVIT5CN5
CVITMP92FD28FG
HVITC74HCU04AFN
HVICS42528-CQ
HVINJM2391DL133
CVITC74VCX541FT
HVITC74VHC157FT
CVICS497024CVZ
HVTKRA107S
HVTKRC107S
HVTKRC107S
HVTKRA107S
HVTKRA107S
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
I.C , VOL WITH INPUT SELECTOR
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)
TRANSISTOR , CHIP(TS6)
TRANSISTOR , CHIP(TS6)
TRANSISTOR , CHIP(TS6)
TRANSISTOR , CHIP(TS6)
I.C , REGULATOR(SOT-223)
I.C , REGULATOR(SOT-223)
I.C, 16MB SDRAM (ESMT)
TRANSISTOR , CHIP(TS6)
I.C , EEPROM (32 Kbit) ST
I.C , 8Mbit SPI Serial FLASH (50MHz/8lead SOIC)
I.C , U-COM (AVR1600)
I.C , U-COM (512KB/32KB, LQFP100P) TOSHIBA
I.C , USB DECODER FLASH(100PIN, QFP) TOSHIBA
IC , INVERTER
I.C , CODEC + DIR (CIRRUS LOGIC)
I.C , CHIP REGULATOR (+3.3V) JRC
I,C , OCTAL BUS BUFFER (TOSHIBA)
I.C , 2-CHANNEL MUX (TOSHIBA)
I.C , DSP (CIRRUS LOGIC)
TRANSISTOR, CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
TRANSISTOR, CHIP
Qty
470UF 10V
100UF 16V
470UF 10V
100UF 16V
1000UF 6.3V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
100UF 16V
1000UF 6.3V
1000UF 6.3V
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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
Semiconductors
D201
D202
D203
D204
D207
D208
D209
D210
D211
D212
D213
D214
D215
D216
IC20
IC21
IC22
IC23
IC24
IC25
IC31
IC32
IC33
IC34
IC38
IC39
IC40
IC41
IC42
IC43
IC44
IC45
IC46
IC47
IC48
IC49
IC50
IC51
IC52
IC53
IC54
IC55
Q307
Q729
Q730
Q731
Q732
58
NJW1197CFC2
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
NJM2068M-TE1
KTC812T-B-RTK
KTC812T-B-RTK
KTC812T-B-RTK
KTC812T-B-RTK
KIA1117S/F18, SOT-223
KIA1117S/F33, SOT-223
M12L16161A5TG
KTC812T-B-RTK
M24C32WMN6TP
F25L008A-50PAG
ANAM1458AT
BLANK DO NOT USE
TMP92FD28DFG, FLASH
TC74HCU04AFN
CS42528-CQ
CS42528-CQ
NJM2391DL133
TC74VHC157FT
CS497024CVZ
KRA107S
KRC107S
KRC107S
KRA107S
KRA107S
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
Q734
Q738
Q741
Q742
Q951
Q952
Q991
Q992
D221
D222
D703
D704
IC87
Q311
IC26
IC36
IC37
HVTKRA107S
CVTKRC103S
HVTKRC107S
HVTKRA107S
HVTKRC107S
HVTKRA107S
HVTKRC107S
HVTKRA107S
CVD1N4003ST
CVD1N4003ST
CVD1N4003SRT
CVD1N4003SRT
HVIRE5VT28CATZ
HVTKTC2874BT
HVIKIA78R05PI
HVIKIA7808API
CVIKIA7908PI
TRANSISTOR, CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
TRANSISTOR , CHIP
TRANSISTOR, CHIP
DIODE , RECT
DIODE , RECT
DIODE , RECT
DIODE , RECT
I.C , RESET (RICOH)
TRANSISTOR , MUTE, NPN
REGULATOR (5V OUTPUT LOW DROP)
I.C , REGULATOR +8V
I.C , REGULATOR(TO-220IS)
CRJ104DJ102T
CRJ104DJ103T
CRJ104DJ103T
CRJ104DJ101T
CRJ104DJ101T
CRJ104DJ101T
CRJ104DJ103T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ103T
CRJ104DJ103T
CRJ104DJ330T
CRJ104DJ330T
CRJ104DJ101T
CRJ104DJ330T
CRJ10DJ473T
CRJ10DJ220T
CRJ10DJ220T
CRJ10DJ153T
CRJ10DJ153T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ202T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DJ103T
CRJ10DJ104T
CRJ10DJ0R0T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ101T
CRJ10DJ103T
RES , 4 ARRAY CHIP(1K, 1608X4)
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, 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, ARRAY, 10K (1608)
RES , 4ARRAY (1608*4)
RES , 4ARRAY (1608*4)
RES , CHIP NETWORK(1/16W, 100ohm, 1608X4)
RES , 4ARRAY (1608*4)
RES , CHIP (47K OHM)
RES , CHIP (22 OHM)
RES , CHIP (22 OHM)
RES , CHIP (15K OHM)
RES , CHIP (15K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (2K OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP (10K OHM)
RES , CHIP (100K OHM)
RES , CHIP (O OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
Qty
KRA107S
KRC103S
KRC107S
KRA107S
KRC107S
KRA107S
KRC107S
KRA107S
1N4003
1N4003
1N4003
1N4003
RE5VT28CATZ
KTC2874B
KIA78R05PI
KIA7808 (KEC)
KIA7908PI TO-220IS
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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
Resistors
RN60
RN61
RN63
RN64
RN65
RN66
RN73
RN76
RN77
RN78
RN79
RN81
RN82
RN83
RN84
RN85
RN87
RN88
RN89
RN90
RN91
RN92
RN93
R130
R131
R132
R133
R134
R135
R136
R137
R138
R139
R140
R141
R142
R149
R150
R151
R152
R153
R154
R155
R156
R157
59
10K(1608)
10K(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)
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
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
R158
R159
R160
R161
R162
R163
R164
R165
R166
R167
R168
R169
R170
R172
R201
R202
R203
R204
R205
R206
R207
R208
R209
R210
R211
R212
R213
R214
R215
R216
R219
R220
R221
R222
R223
R224
R225
R226
R227
R228
R229
R230
R231
R232
R233
R234
R235
R236
R237
R238
R239
R240
R241
R242
R245
R246
R247
R248
R249
R250
R251
R252
R253
R254
R255
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (10K OHM)
RES , CHIP (100K OHM)
RES , CHIP (1K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (100K OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K 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 (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)
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 (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)
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ103T
CRJ10DJ104T
CRJ10DJ102T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ272T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ104T
CRJ10DJ104T
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
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
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
60
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
R256
R257
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
R305
R306
R307
R308
R309
R310
R311
R312
R313
R314
R315
R316
R317
R318
R321
R322
R323
R324
R325
R326
R327
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)
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 (3.9K 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)
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
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ561T
CRJ10DJ392T
CRJ10DJ512T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ512T
CRJ10DJ512T
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
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
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
61
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
R328
R329
R330
R331
R332
R333
R334
R335
R336
R337
R338
R340
R341
R344
R345
R348
R349
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
R386
R387
R388
R389
R390
R391
R392
R393
R394
R395
R396
R397
R398
R399
R400
R401
R402
R445
R531
R532
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 (4.7K 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 (1.2K OHM)
RES , CHIP (1.2K OHM)
RES , CHIP
RES , CHIP (27K OHM)
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
RES , CHIP
RES , CHIP
RES , CHIP
RES , CHIP (180K OHM)
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 (4.7K OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (1K OHM)
RES , CHIP (1.5K OHM)
RES , CHIP (1.5K OHM)
CRJ10DJ103T
CRJ10DJ512T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ512T
CRJ10DJ512T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ512T
CRJ10DJ104T
CRJ10DJ102T
CRJ10DJ472T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ122T
CRJ10DJ122T
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
CRJ10DJ561T
CRJ10DJ561T
CRJ10DJ561T
CRJ10DJ184T
CRJ10DJ184T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ392T
CRJ10DJ472T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ102T
CRJ10DJ152T
CRJ10DJ152T
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
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
560 OHM
560 OHM
560 OHM
1608 SIZE
1608 SIZE
(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
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
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
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
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
R533
R534
R704
R711
R712
R714
R715
R716
R717
R718
R719
R720
R721
R724
R725
R726
R727
R728
R732
R733
R736
R737
R739
R740
R741
R742
R743
R747
R748
R751
R752
R753
R754
R755
R756
R757
R759
R760
R761
R762
R763
R764
R765
R767
R768
R773
R774
R775
R776
R777
R782
R783
R784
R785
R786
R788
R789
R793
R800
R801
R810
R811
R812
R813
R814
RES , CHIP (1.5K OHM)
RES , CHIP (1.5K OHM)
RES , CHIP (10K OHM)
RES , CHIP (56 OHM)
RES , CHIP (82 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 (100 OHM)
RES , CHIP (O OHM)
RES , CHIP (10 OHM)
RES , CHIP (O OHM)
RES , CHIP (1K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10 OHM)
RES , CHIP (240 OHM)
RES , CHIP (33 OHM)
RES , CHIP (O OHM)
RES , CHIP (120 OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
RES , CHIP (82 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 (330 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 (O 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 (2.7K OHM)
RES , CHIP (2.7K OHM)
RES , CHIP (47K OHM)
RES , CHIP (100K OHM)
RES , CHIP (1M 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 (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (33 OHM)
RES , CHIP (33 OHM)
CRJ10DJ152T
CRJ10DJ152T
CRJ10DJ103T
CRJ10DJ560T
CRJ10DJ820T
CRJ10DJ104T
CRJ10DJ104T
CRJ10DJ472T
CRJ10DJ0R0T
CRJ10DJ332T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ330T
CRJ10DJ101T
CRJ10DJ0R0T
CRJ10DJ100T
CRJ10DJ0R0T
CRJ10DJ102T
CRJ10DJ103T
CRJ10DJ100T
CRJ10DJ241T
CRJ10DJ330T
CRJ10DJ0R0T
CRJ10DJ121T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ820T
CRJ10DJ330T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ750T
CRJ10DJ331T
CRJ10DJ105T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ472T
CRJ10DJ330T
CRJ10DJ330T
CRJ10DF5101T
CRJ10DJ0R0T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ101T
CRJ10DJ272T
CRJ10DJ272T
CRJ10DJ473T
CRJ10DJ104T
CRJ10DJ105T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ332T
CRJ10DJ332T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ330T
CRJ10DJ330T
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
(240 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
(330 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
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
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
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
AVR1600
Ref. Designator
Description
Part Number
INPUT (DSP) PCB ASS'Y
CUP12176C
R815
R816
R910
R932
R960
R963
R966
R992
CRJ10DJ330T
CRJ10DJ330T
CRJ10DJ105T
CRJ10DJ103T
CRJ10DJ332T
CRJ10DJ105T
CRJ10DJ472T
CRJ10DJ562T
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)
CJP17GA193ZY
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9R005Z
CLZ9R005Z
CJP27GA41ZM
CJP31GA41ZM
CJP15GA115ZY
CJP06GB142ZB
CJP07GA01ZY
CJP07GI237ZW
CJP07GA01ZY
CJP03GA01ZY
CJJ4P014W
CJJ4R019W
CJJ4R019W
CJJ4R037W
CJJ2D008Z
CJJ4S022Z
CLM4B001Z
CLM4B001Z
COX24576E180TF
HOX10000E220TF
COX09000E150C
HOX00032K120I
WAFER, CARD CABLE (SMD)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 4516)
FERRITE , CHIP BEAD(60ohm, 1608)
FERRITE , CHIP BEAD(60ohm, 1608)
WAFER (1.25MM, CARD CABLE, STRAIGHT 27P)
WAFER (1.25MM, CARD CABLE, STRAIGHT 31P)
WAFER , CARD CABLE
PIN HEADER(6P, 2.54mm)
WAFER , STRAIGHT(7PIN)
LOCKING TYPE , STRAIGHT WAFER, 2.5MM
WAFER , STRAIGHT(7PIN)
WAFER
JACK , IN/OUT
TERMINAL , IN/OUT
TERMINAL , IN/OUT
JACK , BOARD
JACK , STEREO
JACK , BOARD
COIL , MPX (FM 19KHz FILTER)
COIL , MPX (FM 19KHz FILTER)
CRYSTAL , 24.576MHz
CRYSTAL(HC-49/S,ATS) 10MHz
CRYSTAL(9MHZ)
CRYSTAL , 32.768KHZ
Qty
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1
1
1
1
1
1
1
1
EA
EA
EA
EA
EA
EA
EA
EA
TUNING FORK
1
1
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
0.1UF 50V Z
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
XRCA45 XXX M XXX AT
0.1UF 50V K
(51PF)
(51PF)
1000PF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
XRCA45 XXX M XXX AT
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
0.01UF 50V K
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
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
Miscellaneous
CN15
L701
L702
L703
L704
L705
BN12
BN72
CN14
CN17
CN19
CN20
CN51
CN52
JK11
JK12
JK13
JK14
JK43
JK78
L301
L302
X701
X702
X703
X704
HDMI PCB ASS'Y
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB1608KF-600T30
HCB1608KF-600T30
MOLEX 52045-**45
MOLEX 52045-**45
CRYSTAL_HC-49/S_18PF
CL-22P
CUP12178C
Capacitors
C801
C802
C803
C804
C805
C806
C807
C808
C809
C810
C811
C812
C813
C814
C815
C816
C817
C818
C819
C820
C821
C822
CCFT1H104ZF
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA1C100B
CCUS1H104KC
CCUS1H510JA
CCUS1H510JA
CCUS1H102KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA1C100B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H103KC
CCSNA1C100B
CCSNA1C100B
CCSNA1C100B
CAP , SEMICONDUCTOR
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP
CAP , CHIP (51PF)
CAP , CHIP (51PF)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
64
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
HDMI PCB ASS'Y
CUP12178C
C823
C824
C825
C826
C827
C828
C829
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
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
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP
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(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(10uF/16V, NingXia XingRi)
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
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 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 TANTAL(10uF/16V, 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(1005, 16V/0.1UF)
CAP , CHIP
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP TANTAL(10uF/16V, 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
CAP , CHIP (10UF/6.3V K X5R 2012)
CAP , CHIP
CAP , CHIP(1005, 16V/0.1UF)
CAP , CHIP(1005, 16V/0.1UF)
CCUS1H102KC
CCUS1H104KC
CCSNA1C100B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCUI1C104KC
CCSNA0J220B
CCUS1H104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCSNA1C100B
CCUS1H104KC
CCUI1C104KC
CCUI1C104KC
CCUS1H104KC
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCSNA1C100B
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUS1H104KC
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCSNA1C100B
CCSNA1C100B
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUS1H104KC
CCUC0J106KC
CCUS1H104KC
CCUI1C104KC
CCUI1C104KC
65
Qty
1000PF 50V K
0.1UF 50V K
XRCA45 XXX M XXX AT
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
16V/0.1UF
XRCA45 XXX M XXX AT
0.1UF 50V K
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
0.1UF 50V K
16V/0.1UF
16V/0.1UF
0.1UF 50V K
XRCA45 XXX M XXX AT
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
XRCA45 XXX M XXX AT
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
XRCA45 XXX M XXX AT
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
0.1UF 50V K
XRCA45 XXX M XXX AT
0.1UF 50V K
0.1UF 50V K
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
0.1UF 50V K
10UF/6.3V
0.1UF 50V K
16V/0.1UF
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
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
EA
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
AVR1600
Ref. Designator
Description
Part Number
HDMI PCB ASS'Y
CUP12178C
C889
C890
C891
C892
C893
C894
C895
C896
C897
C898
C899
C900
C901
C902
C903
C904
C905
C907
C908
C909
C910
C911
C912
C913
C914
C915
C916
C917
C918
C919
C920
C921
C922
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCSNA0J220B
CCUI1C104KC
CCUI1C104KC
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCUS1H104KC
CCSNA1C100B
CCUS1H104KC
CCSNA0J220B
CCSNA1C100B
CCSNA0J220B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCSNA1C100B
CCUS1H104KC
CCSNA0J220B
CCSNA0J220B
CCSNA1C100B
CCSNA0J220B
CCUS1H104KC
CCUS1H104KC
CCSNA0J220B
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 TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP TANTAL(10uF/16V, NingXia XingRi)
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
CAP , CHIP
CAP , CHIP
CAP , CHIP TANTAL(22uF/6.3V, NingXia XingRi)
HVD1SR159-200
HVD1SR159-200
HVD1SR159-200
HVD1SR159-200
CVIADV7604
CVIADV7510
HVITC74HC4094FN
CVIKIA1117S50
HVIKIA7809AF
CVINJM2845DL118
CVITC74VCX541FT
CVIKIA1117S33
CVIKIA1117S18
CVINJM2845DL118
HVTKRA102S
HVTKRA102S
CVTKRC103S
CVTKRC103S
CVTKRC103S
HVTKRA102S
CVTKRC103S
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ104DJ103T
Qty
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
16V/0.1UF
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
16V/0.1UF
16V/0.1UF
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
0.1UF 50V K
0.1UF 50V K
0.1UF 50V K
XRCA45 XXX M XXX AT
0.1UF 50V K
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
0.1UF 50V K
0.1UF 50V K
XRCA45 XXX M XXX AT
0.1UF 50V K
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
XRCA45 XXX M XXX AT
0.1UF 50V K
0.1UF 50V K
XRCA45 XXX M XXX AT
1
1
1
1
1
1
1
1
1
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
DIODE , RECTIFIER
DIODE , RECTIFIER
DIODE , RECTIFIER
DIODE , RECTIFIER
IC , HDMI RX (BALL, BGA-260P) ANALOG DEVICE
I.C , HDMI 1.3 TX(100P LPFQ) ANALOG DEVICE
I.C 8-BIT SHIFT AND STORE REGISTER (3-STATE)
I.C , REGULATOR(SOT-223)
I.C , REGULATOR
IC, JRC LOW DROPOUT VOLTAGE REGULATOR
I,C , OCTAL BUS BUFFER (TOSHIBA)
I.C , REGULATOR(SOT-223)
I.C , REGULATOR(SOT-223)
IC, JRC LOW DROPOUT VOLTAGE REGULATOR
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
TRANSISTOR , CHIP
ADV7604
ADV7510
TC74HC4094AFN
KIA1117S50-RTK/P
KIA7809AF
NJM2845
TC74VCX541FT
KIA1117S/F33, SOT-223
KIA1117S/F18, SOT-223
NJM2845
KRA102S
KRA102S
KRC103S
KRC103S
KRC103S
KRA102S
KRC103S
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
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, ARRAY, 10K (1608)
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
10K(1608)
1
1
1
1
1
EA
EA
EA
EA
EA
Semiconductors
D901
D902
D903
D904
IC101
IC102
IC103
IC104
IC105
IC106
IC107
IC108
IC109
IC110
Q801
Q802
Q803
Q804
Q806
Q807
Q808
Resistors
RN100
RN101
RN102
RN103
RN104
66
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
HDMI PCB ASS'Y
CUP12178C
RN105
RN106
RN91
RN92
RN93
RN94
RN95
RN96
RN97
RN98
RN99
R801
R802
R803
R804
R806
R807
R808
R809
R810
R812
R814
R815
R817
R818
R819
R822
R823
R824
R827
R828
R829
R831
R832
R833
R834
R835
R836
R837
R838
R839
R844
R846
R847
R848
R850
R852
R853
R854
R855
R856
R858
R859
R860
R861
R862
R863
R864
R867
R868
R869
R870
R871
R873
R874
RES,4ARRAY (22 OHM)
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 (22K OHM)
RES , CHIP (47K OHM)
RES , CHIP (22K OHM)
RES , CHIP (47K OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (47K OHM)
RES , CHIP (O OHM)
RES , CHIP (100 OHM)
RES , CHIP (47K OHM)
RES , CHIP (47K OHM)
RES , CHIP (100 OHM)
RES , CHIP (22K OHM)
RES , CHIP (47K OHM)
RES , CHIP (1K OHM)
RES , CHIP (100 OHM)
RES , CHIP (8.2K/1%)
RES , CHIP 1%
RES , CHIP (47K OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
RES , CHIP (33 OHM)
RES , CHIP (51 OHM)
RES , CHIP (24 OHM)
RES , CHIP (51 OHM)
RES , CHIP (24 OHM)
RES , CHIP (51 OHM)
RES , CHIP (24 OHM)
RES , CHIP (10K OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (O OHM)
RES , CHIP (100 OHM)
RES , CHIP (100 OHM)
RES , CHIP (10K OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (4.7K OHM)
RES , CHIP (100 OHM)
RES , CHIP (O OHM)
RES , CHIP (1K OHM)
RES , CHIP (1K OHM)
RES , CHIP (10K OHM)
RES , CHIP (O OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (O OHM)
RES , CHIP (75 OHM)
RES , CHIP (O OHM)
RES , CHIP (75 OHM)
RES , CHIP (10K OHM)
RES , CHIP (O OHM)
RES , CHIP (O OHM)
CRJ104DJ220T
CRJ104DJ220T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ064IJ330T
CRJ10DJ223T
CRJ10DJ473T
CRJ10DJ223T
CRJ10DJ473T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ473T
CRJ10DJ0R0T
CRJ10DJ101T
CRJ10DJ473T
CRJ10DJ473T
CRJ10DJ101T
CRJ10DJ223T
CRJ10DJ473T
CRJ10DJ102T
CRJ10DJ101T
CRJ10DF8201T
CRJ10DF1001T
CRJ10DJ473T
CRJ10DJ0R0T
CRJ10DJ0R0T
CRJ10DJ330T
CRJ10DJ510T
CRJ10DJ240T
CRJ10DJ510T
CRJ10DJ240T
CRJ10DJ510T
CRJ10DJ240T
CRJ10DJ103T
CRJ10DJ101T
CRJ10DJ103T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ0R0T
CRJ10DJ101T
CRJ10DJ101T
CRJ10DJ103T
CRJ10DJ472T
CRJ10DJ472T
CRJ10DJ101T
CRJ10DJ0R0T
CRJ10DJ102T
CRJ10DJ102T
CRJ10DJ103T
CRJ10DJ0R0T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ0R0T
CRJ10DJ750T
CRJ10DJ0R0T
CRJ10DJ750T
CRJ10DJ103T
CRJ10DJ0R0T
CRJ10DJ0R0T
67
Qty
22X4/2012
22X4/2012
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
MNR04M0APJ330
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
(8.2K/1%)
1K/1/10W/F
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
(24 OHM)
1608 SIZE
(24 OHM)
1608 SIZE
(24 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
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
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
AVR1600
Ref. Designator
Description
Part Number
HDMI PCB ASS'Y
CUP12178C
R875
R876
R877
R878
R879
R880
R882
R883
CRJ10DJ202T
CRJ10DJ202T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ103T
CRJ10DJ104T
CRJ10DJ105T
CRJ10DJ105T
RES , CHIP (2K OHM)
RES , CHIP (2K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (10K OHM)
RES , CHIP (100K OHM)
RES , CHIP (1M OHM)
RES , CHIP (1M OHM)
COX28636E330S
CHG1A306
CJP17GA193ZY
CJJ9H008Z
CJJ9H008Z
CJJ9H008Z
CJJ9H008Z
CLZ9R009Z
CLZ9R009Z
CLZ9R009Z
CLZ9R009Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CLZ9Z014Z
CJP18GB143ZB
CWB1D00715058
CRYSTAL (28.63636MHz HC-49/SMD, 33PF)
CUSHION
WAFER, CARD CABLE (SMD)
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, 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, 4516)
FEMALE HEADER (18P, 2.54mm) , ANGLE TYPE
WIRE ASS'Y (LOCKING TYPE, 2.5MM, 7PIN, 150MM)
Qty
(2K OHM)
(2K OHM)
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1608 SIZE
1
1
1
1
1
1
1
1
EA
EA
EA
EA
EA
EA
EA
EA
1
0.5
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
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
2
4
5
EA
EA
EA
Miscellaneous
X801
BN15
JK91
JK92
JK93
JK94
L801
L802
L803
L804
L805
L806
L807
L808
L809
L810
L811
L812
L813
L814
L815
BN54
BN82
DC DC PCB ASS'Y
COP12167B
C50
C51
C52
C53
C54
C55
C56
C57
C58
D50
IC50
R50
R51
R52
R53
R54
L50
L51
BK51
CN50
CAP , CHIP
CAP , ELEC SMD (150uF/10V, 8X10.5, SANYO)
CAP , SMD ELECT(MANLEX RV, 16V/470, 10X10)
CAP , CHIP
CAP , CHIP
CAP , CHIP
CAP , ELEC SMD (150uF/25V, 8X10.5, SANYO)
CAP , CHIP
CAP , CHIP
DIODE , SCHOTTKY (40V,3A, DO-214AC) DELTA
IC , DCDC Converter (3.5A, SOP8) SANKEN
RES , CHIP (22K OHM)
RES , CHIP 1608 SIZE (62K OHM)
RES , CHIP (5.1K OHM)
RES , CHIP (47K OHM)
RES , CHIP (68K OHM)
COIL , SMD POWER (47UH/3A)
COIL , SMD POWER (22UH/3A)
BRACKET , PCB
PIN HEADER (08P, 2.54mm) , ANGLE TYPE
CCUS1H104KC
CCEC1ACEEX151TY
CCEC1CRV471T
CCUS1H104KC
CCUS1H221JA
CCUS1H103KC
CCEC1EHVH151TY
CCUS1H104KC
CCUS1H103KC
CVDSS34SR
CVISI8005QTL
CRJ10DJ223T
CRJ10DJ623T
CRJ10DJ512T
CRJ10DJ473T
CRJ10DJ683T
CLQ13E470MRZ
CLQ13E220MRZ
CMD1A569
CJP08GB142ZB
H050FS019G600BY
H050FS019G600BY
H050FS019G600BY
H050FS019G600BY
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
HCB4516KF-600T60
0.1UF 50V K
10CE150EX
16V/470
0.1UF 50V K
220PF 50V J
0.01UF 50V K
25HVH150M
0.1UF 50V K
0.01UF 50V K
SS34SR
SI8005QTL
1608 SIZE
(62K OHM)
1608 SIZE
1608 SIZE
1608 SIZE
CMI-SSP12L80F-SERIES
CMI-SSP12L80F-SERIES
BOTTOM CHASSIS ASS'Y
CHD1A012ZR
CHD1A023R
CHD4A012R
SCREW , SPECIAL
SCREW , SPECIAL
SCREW , SPECIAL
68
harman/kardon
AVR1600
Ref. Designator
Description
Part Number
Qty
BOTTOM CHASSIS ASS'Y
CB12
CB14
CB15
F901
T901
BN90
TUN1
CWC4C4A27B100B10
CWC4C4A15B080B10
CWC4F2A17A100B10
KBA2C6300TLEY
CLT5U035ZU
CHE170
CHE36-3
CHG1A113
CHG1A160Z
CHG1A373
CJA523FBXA
CJA523FBYA
CKF1A398Y
CKF1A398Z
CKL1A094
CKL1A095
CTB3+10JFZR
CTB3+6FFZR
CTB3+8JFZR
CTS3+8JFZR
CTW3+12JR
CUA2A294
KHR1A028
CSH1A009ZVB
CSH1A009ZV
CWB4F202080UK
CARD , CABLE (27p,1.25mm Pitch,100mm Length,Protec
CABLE , CARD (15P,1.25MM,80MM,B,10MM)
CARD , CABLE (17P,1.0mm Pitch,100mm Length,Protect
FUSE(218 Series, 250V, 6.3A)
TRANS , POWER
HOLDER , PCB
CLAMPER , WIRE
RUBBER
CUSHION , RUBBER
CUSHION , FOOT AVR1600
CORD , POWER CRX-E320/U(1.8M, FERRITE)
NISPT-2 18AWG/2C 105C BK
CORD , POWER
PANEL , REAR
PANEL , REAR
FOOT , A AVR1600
FOOT , B AVR1600
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)
CNVMW004MV1S63SATUNER(USA) FM(SCREW : F TYPE), AM(S/LAB) KST-MW004MV1-S63SA
69
1
1
1
1
1
2
1
3
1
4
1
1
1
1
2
2
18
8
10
4
2
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
1
EA
harman/kardon
AVR1600
70
harman/kardon
AVR1600
71
harman/kardon
AVR1600
72
harman/kardon
AVR1600
73
harman/kardon
AVR1600
74
harman/kardon
AVR1600
TC74HC4094AP/AF/AFN
TOSHIBA CMOS Digital Integrated Circuit
Silicon Monolithic
TC74HC4094AP,TC74HC4094AF,TC74HC4094AFN
8-Bit Shift and Store Register (3-state)
Note:
The TC74HC4094A is a high speed CMOS 8-BIT SHIFT AND
STROBE REGISTER fabricated with silicon gate C2MOS
technology.
It achieves the high speed operation similar to equivalent
LSTTL while maintaining the CMOS low power dissipation.
It consists of an 8-bit shift register and an 8-bit latch with
3-state output buffers. Data is shifted serially though the shift
register on the positive going transition of the CK input. The
output of the last stage (Qs) can be used to cascade several
devices. Data on the Qs output is transferred to a second output
(Q’s) on the following negative transition of the CK input. The
data in each stage of the shift register is provided to a
corresponding latch, on the negative going transition of the
STROBE input. When STROBE is held high, data propagates
through the latch to a 3-state output buffer. This buffer is
enabled when OUTPUT ENABLE input is set high.
All inputs are equipped with protection circuits against static
discharge or transient excess voltage.
Features
xxxFN (JEDEC SOP) is not available in
Japan.
TC74HC4094AP
TC74HC4094AF
TC74HC4094AFN
•
High speed: fmax = 73 MHz (typ.) at VCC = 5 V
•
Low power dissipation: ICC = 4 μA (max) at Ta = 25°C
•
High noise immunity: VNIH = VNIL = 28% VCC (min)
•
Output drive capability: 10 LSTTL loads
•
•
Symmetrical output impedance: |IOH| = IOL = 4 mA (min)
Balanced propagation delays: tpLH ∼
− tpHL
•
Wide operating voltage range: VCC (opr) = 2 to 6 V
•
Pin and function compatible with 4094B
Weight
DIP16-P-300-2.54A
SOP16-P-300-1.27A
SOL16-P-150-1.27
Pin Assignment
75
: 1.00 g (typ.)
: 0.18 g (typ.)
: 0.13 g (typ.)
harman/kardon
AVR1600
TC74HC4094AP/AF/AFN
IEC Logic Symbol
Truth Table
CK
OE
ST
SI
H
H
H
Para. Out
Seri. Out
Q1
Qn
Qs
Q’s
L
L
Qn − 1
Q7
NC
H
H
H
Qn − 1
Q7
NC
H
L
*
NC
NC
Q7
NC
L
*
*
Z
Z
Q7
NC
H
*
*
NC
NC
NC
Qs
L
*
*
Z
Z
NC
Qs
X: Don’t care
NC: No change
Z : High impedance
Timing Chart
76
harman/kardon
AVR1600
TC74HC4094AP/AF/AFN
System Diagram
Absolute Maximum Ratings (Note 1)
Characteristics
Symbol
Rating
Unit
Supply voltage range
VCC
−0.5 to 7
V
DC input voltage
VIN
−0.5 to VCC + 0.5
V
DC output voltage
VOUT
−0.5 to VCC + 0.5
V
Input diode current
IIK
±20
mA
Output diode current
IOK
±20
mA
DC output current
IOUT
±25
mA
DC VCC/ground current
ICC
±50
mA
Power dissipation
PD
500 (DIP) (Note 2)/180 (SOP)
mW
Storage temperature
Tstg
−65 to 150
°C
Note 1: Exceeding any of the absolute maximum ratings, even briefly, lead to deterioration in IC performance or
even destruction.
Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the
significant change in temperature, etc.) may cause this product to decrease in the reliability significantly
even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute
maximum ratings and the operating ranges.
Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook
(“Handling Precautions”/“Derating Concept and Methods”) and individual reliability data (i.e. reliability test
report and estimated failure rate, etc).
Note 2: 500 mW in the range of Ta = −40 to 65°C. From Ta = 65 to 85°C a derating factor of −10 mW/°C shall be
applied until 300 mW.
77
harman/kardon
AVR1600
SANKEN ELECTRIC CO., LTD.
SI-8005Q-TL
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
070926
SSJ-03532
78
7/17
61426-01
harman/kardon
AVR1600
NJW1321
WIDE BAND VIDEO SWITCH WITH I2C BUS
■ GENERAL DESCRIPTION
2
The NJW1321 is a Wide Band Video Switch with I C BUS.
The NJW1321 includes switch of 4-input 2-output and 6dB
amplifier. It is suitable for RGB or Y, Pb, and Pr signal because
frequency range is 100MHz.
The NJW1321 includes external logic control terminals and
external logic discernment terminals.
The NJW1321 is suitable for PTV, DTV, PDP and other high quality
AV systems.
■ FEATURES
● Operating Voltage
2
● I C BUS Interface
● 4-input 2-output 3-Circuits
● Wide frequency range
■ PACKAGE OUTLINE
NJW1321FP1
+9.0V
0dB at 100MHz typ.
-3dB at 300MHz typ.
● Internal 6dB amplifier (Selectable Bypass or 6dB)
● External logic discernment terminal
● External logic control terminal
● Selectable slave address
● Power Save Circuit
● Bi-CMOS Technology
● Package Outline
QFP48
■ BLOCK DIAGRAM
Y/R IN1
Y/R IN2
6dB
Y/R OUT1
6dB
Y/R OUT2
6dB
Pb/G OUT1
6dB
Pb/G OUT2
6dB
Pr/B OUT1
6dB
Pr/B OUT2
Y/R IN3
Y/R IN4
Pb/G IN1
Pb/G IN2
Pb/G IN3
Pb/G IN4
Pr/B IN1
Pr/B IN2
Pr/B IN3
Pr/B IN4
PORT 0
ADDRESS
PORT 1
SDA
PORT 2
SCL
I2C BUS
PORT 3
GND
AUX 0
AUX 1
V+
AUX 2
BIAS
AUX 3
VREF
DGND
Ver.3
79
harman/kardon
AVR1600
NJW1321
Pb IN4
V+
Y IN4
V+
Y OUT1
GND
Pb OUT1
GND
Pr OUT1
AUX3
AUX2
Y OUT2
AUX1
AUX0
■PIN CONFIGURATION
38
24
48
15
1
14
Pb IN2
GND
Pr IN2
GND
Y IN1
V+
Pb IN1
V+
Pr IN1
GND
PORT3
PORT2
ADR
39
V+
GND
Pr IN4
V+
Y IN3
GND
Pb IN3
V+
Pr IN3
GND
Y IN2
25
1. V+
13. PORT2
25. AUX0
37. V+
2. Pb IN2
14. ADR
26. AUX1
38. Pb IN4
3. GND
15. SCL
27. Y OUT2
39. GND
4. Pr IN2
16. SDA
28. AUX2
40. Pr IN4
5. GND
17. GND
29. AUX3
41. V+
6. Y IN1
18. DGND
30. Pr OUT1
42. Y IN3
7. V+
19. VREG
31. GND
43. GND
8. Pb IN1
20. V+
32. Pb OUT1
44. Pb IN3
9. V+
21. Pr OUT2
33. GND
45. V+
10. Pr IN1
22. PORT1
34. Y OUT1
46. Pr IN3
11. GND
23. PORT 0
35. V+
47. GND
12. PORT3
24. Pb OUT2
36. Y IN4
48. Y IN2
80
Pb OUT2
PORT0
PORT1
Pr OUT2
V+
VREF
DGND
GND
SDA
SCL
harman/kardon
AVR1600
NJW1321
■EQUIVALENT CIRCUIT
PIN No.
NAME
6
8
10
48
2
4
42
44
46
36
38
40
Y IN1
Pb IN1
Pr IN1
Y IN2
Pb IN2
Pr IN2
Y IN3
Pb IN3
Pr IN3
Y IN4
Pb IN4
Pr IN4
FUNCTION
INSIDE EQUIVALENT CIRCUIT
V+
Y,Pb,Pr Input
RGB Input
V+
V+
150kΩ
100Ω
V+
34
32
30
27
24
21
Y OUT1
Pb OUT1
Pr OUT1
Y OUT2
Pb OUT2
Pr OUT2
VOLTAGE
4.4V
V+
Y,Pb,Pr Output
RGB Output
3.0V
50Ω
V+
23
22
13
12
PORT0
PORT1
PORT2
PORT3
V+
Logic input terminal
66Ω
100kΩ
V+
V+
V+
1kΩ
25
26
28
29
AUX0
AUX1
AUX2
AUX3
Auxiliary 3 values voltage
output terminal
66Ω
81
0V
1.9V
5.0V
harman/kardon
AVR1600
NJW1321
PIN No.
NAME
FUNCTION
INSIDE EQUIVALENT CIRCUIT
V+
14
ADR
V+
VOLTAGE
VREF
Slave address
setting terminal
66Ω
15
16
SCL
SDA
2
I C clock terminal
2
I C data terminal
V+
19
VREF
-
4kΩ
Reference voltage
terminal
V+
V+
66Ω
4.8V
48kΩ
1
7
9
20
35
37
41
45
V+
Supply voltage terminal
-
3
5
11
17
31
33
39
43
47
GND
Ground terminal
-
18
DGND
Ground terminal
-
82
harman/kardon
AVR1600
NJW1197C
8-CHANNEL ELECTRONIC VOLUME WITH INPUT SELECTOR
„ GENERAL DESCRIPTION
NJW1197C is an 8-channel electronic volume IC. It
includes Input selector, tone control, volume, mute, input
selector gain control, volume output gain control and 5
REC outputs. Each mode and conditions are set by the
3-wired serial control data.
NJW1197C improves low Residual Output Noise
Voltage compared with NJW1197.
„ FEATURES
● Operating Voltage
● 3-Wired Serial Control
● Input Selector (x 11)
● REC Output (x 5)
● Input Selector Gain Control
● Volume Output Gain Control
„ PACKAGE OUTLINE
NJW1197CFC2
±4.5 to ±7.5V
Chip Address Select Function
RECB1R
RECA4R
RECB1L
RECA4L
RECA3L
RECA3R
LAIN
RAIN
CAIN
LSAIN
RSAIN
LBAIN
RBAIN
SWAIN
RECA2L
RECA1L
RECA1R
Multi-Channel Input A
„ BLOCK DIAGRAM
RECA2R
Independent Mute function
Gain : 0/-3/-6/-9/-12dB
Gain : 0/+1/+2/+3/+4/+5/+6/+7dB (L,R,C,LS,RS,LB,RBch)
Gain : 0/+1/+2/+3/+4/+5/+6/+10dB (SWch)
Independent Control: L,Rch / Cch / LS,RSch / LB,RBch / SWch
● Volume
0 to -100dB/0.5dBstep, MUTE
● Residual Output Noise Voltage
-114dBV typ. @Volume=-95dB (Output Noise 3)
● Tone Control
0 to ±10dB/1dBstep
● Subwoofer output addition to L, R channel output
● Subwoofer output ON/OFF control
● Bi-CMOS Technology
● Package Outline
QFP100-C2
Supply
Voltage
µCOM
Interface
L1IN
R1IN
MUTE
ADR
Multi-channel
DCLA1DCLA2
L2IN
R2IN
L3IN
R3IN
L4IN
S
LOUT
SW
ROUT
TONE
Volume
V+
GND
VLATCH
DATA
CLOCK
TSW
DCRA1DCRA2
TONE
Input Selector
Gain
R4IN
COUT
L5IN
R5IN
2 Channel Input
L6IN
R6IN
LSOUT
Input Selector
Gain
L7IN
RSOUT
R7IN
L8IN
R8IN
LBOUT
L9IN
R9IN
RBOUT
L10IN
BSW
R10IN
SSW
L11IN
SWOUT
R11IN
83
FIL_TR
FIL_BR1
FIL_BR2
REC Output
Selector
Multi-Channel Input C Multi-Channel Input B
FIL_TL
FIL_BL1
FIL_BL2
SWBIN
RBBIN
LBBIN
RSBIN
LSBIN
CBIN
RBIN
LBIN
RBCI
LBCIN
N
RSCIN
LSCIN
FRFR+
FLFL+
Input Selector
Volume
Output
Gain
harman/kardon
AVR1600
NJW1197C
„ PIN FUNCTION
51
80
81
50
100
31
1
No.
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
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
SYMBOL
ROUT
COUT
LSOUT
RSOUT
LBOUT
RBOUT
SWOUT
GND
FIL_BL2
FIL_BL1
FIL_TL
TCAP
FIL_BR2
FIL_BR1
FIL_TR
V+
ADR
VL1IN
DCCAP_SW
R1IN
DCCAP_RB
L2IN
DCCAP_LB
R2IN
DCCAP_RS
L3IN
DCCAP_LS
R3IN
DCCAP_C
L4IN
DCCAP_R
R4IN
DCCAP_L
L5IN
GND
R5IN
GND
L6IN
L9IN
R6IN
R9IN
L7IN
L10IN
R7IN
R10IN
L8IN
L11IN
R8IN
R11IN
30
FUNCTION
No.
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
Rch output
Cch output
LSch output
RSch output
LBch output
RBch output
SWch output
Ground
Lch Bass filter terminal 2
Lch Bass filter terminal 1
Lch Treble filter terminal
Switching noise rejection capacitor
Rch Bass filter terminal 2
Rch Bass filter terminal 1
Rch Treble filter terminal
+ Power supply voltage input
Chip address select input
- Power supply voltage input
“Input selector” Lch input 1
Switching noise rejection capacitor
“Input selector” Rch input 1
Switching noise rejection capacitor
“Input selector” Lch input 2
Switching noise rejection capacitor
“Input selector” Rch input 2
Switching noise rejection capacitor
“Input selector” Lch input 3
Switching noise rejection capacitor
“Input selector” Rch input 3
Switching noise rejection capacitor
“Input selector” Lch input 4
Switching noise rejection capacitor
“Input selector” Rch input 4
Switching noise rejection capacitor
“Input selector” Lch input 5
Ground
“Input selector” Rch input 5
Ground
“Input selector” Lch input 6
“Input selector” Lch input 9
“Input selector” Rch input 6
“Input selector” Rch input 9
“Input selector” Lch input 7
“Input selector” Lch input 10
“Input selector” Rch input 7
“Input selector” Rch input 10
“Input selector” Lch input 8
“Input selector” Lch input 11
“Input selector” Rch input 8
“Input selector” Rch input 11
84
SYMBOL
DCR_IN
DCR_OUT
GND
DCL_IN
DCL_OUT
GND
REC_B1R
REC_B1L
REC_A4R
REC_A4L
REC_A3R
REC_A3L
REC_A2R
REC_A2L
REC_A1R
REC_A1L
VDDOUT
DATA
CLOCK
LATCH
MUTE
FL+
FLFR+
FRGND
LSCIN
RSCIN
LBCIN
RBCIN
GND
LAIN
RAIN
CAIN
LSAIN
RSAIN
LBAIN
RBAIN
SWAIN
GND
LBIN
RBIN
CBIN
LSBIN
RSBIN
LBBIN
RBBIN
SWBIN
GND
LOUT
FUNCTION
“Multi-channel selector” Rch input
“Input selector” Rch output
Ground
“Multi-channel selector” Lch input
“Input selector” Lch output
Ground
“Input selector” Rch REC output B1
“Input selector” Lch REC output B1
“Input selector” Rch REC output A4
“Input selector” Lch REC output A4
“Input selector” Rch REC output A3
“Input selector” Lch REC output A3
“Input selector” Rch REC output A2
“Input selector” Lch REC output A2
“Input selector” Rch REC output A1
“Input selector” Lch REC output A1
Internal Digital +Power Supply Output
Control data signal input
Clock signal input
Latch signal input
External mute control
“Input selector gain control” Lch no-inverted output
“Input selector gain control” Lch inverted output
“Input selector gain control” Rch no-inverted output
“Input selector gain control” Rch inverted output
Ground
Multi-channel LSch input C
Multi-channel RSch input C
Multi-channel LBch input C
Multi-channel RBch input C
Ground
Multi-channel Lch input A
Multi-channel Rch input A
Multi-channel Cch input A
Multi-channel LSch input A
Multi-channel RSch input A
Multi-channel LBch input A
Multi-channel RBch input A
Multi-channel SWch input A
Ground
Multi-channel Lch input B
Multi-channel Rch input B
Multi-channel Cch input B
Multi-channel LSch input B
Multi-channel RSch input B
Multi-channel LBch input B
Multi-channel RBch input B
Multi-channel SWch input B
Ground
Lch output
harman/kardon
AVR1600
NJW1197C
100
ROUT
COUT
10µF
LSOUT
10µF
RSOUT
99
98
1
95
94
93
85
86
84
83
GND
10µF
LAIN
RAIN
10µF
10µF
10µF
CAIN
LSAIN
RSAIN
10µF
87
88
10µF
LBAIN
RBAIN
89
90
10µF
10µF
10µF
91
92
10µF
GND
LBIN
RBIN
10µF
10µF
10µF
CBIN
LSBIN
RSBIN
96
97
10µF
10µF
10µF
LBBIN
RBBIN
SWBIN
10µF
GND
10µF
LOUT
„ APPLICATION CIRCUIT
82
81
2
3
78
4
77
10µF
LBOUT
RBOUT
SWOUT
10µF
76
6
75
7
74
10µF
8
GNDFIL_BL2
73
9
72
10
71
100nF
3.3nF
FIL_BL1
1µF
FIL_TL
11
TCAP
(V-)
12
4.7µFFIL_BR2
4.7kΩ
13
100nF
3.3nF
67
15
17
R1IN
L2IN
47µF
18
63
19
62
20
61
21
60
22
59
23
58
24
57
DCCAP_LB
26
55
27
54
28
53
DCCAP_LS
29
52
30
51
10µF
85
10µF
50
R11IN
10µF
R81IN
L11IN
10µF
10µF
49
10µF
48
47
L8IN
R10IN
10µF
R7IN
10µF
L10IN
10µF
L7IN
46
45
44
10µF
43
42
10µF
10µF
R6IN
L9IN
L6IN
41
40
R9IN
39
10µF
38
10µF
10µF
37
R5IN
L5IN
R4IN
47µF
36
35
47µF
34
33
10µF
32
DCCAP_R
31
DCCAP_L
DCCAP_C
10µF
47µF
DATA
1µF
VDDOUT
(V-)
REC_A1L
REC_A1R
10µF
REC_A2L
REC_A2R
10µF
REC_A3L
10µF
REC_A3R
10µF
REC_A4L
10µF
REC_A4R
REC_B1L
10µF
REC_B1R
GND
DCL_OUT
10µF
DCL_IN
GND
DCR_OUT
L4IN
R3IN
47µF
CLOCK
56
DCCAP_RS
10µF
LATCH
10µF
25
10µF
L3IN 47µF
MUTE
10µF
DCCAP_RB
10µF
47µF
R2IN
FL-
10µF FL+
10µF
DCCAP_SW
10µF
FR+
64
10µF
47µF
10µF
10µF
65
ADR
L1IN
FR10µF
66
16
V-
GND
68
14
100µF
LSCIN
69
FIL_TR
100µF
RSCIN
10µF
70
FIL_BR1
V+
10µF
10µF
Control Logic
4.7µF
4.7kΩ
LBCIN
10µF
5
10µF
10µF
79
TONE
10µF
RBCIN
80
TONE
10µF
DCR_IN
harman/kardon
AVR1600
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)
January 2005
1/26
86
harman/kardon
AVR1600
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
87
harman/kardon
AVR1600
88
harman/kardon
AVR1600
89
harman/kardon
AVR1600
12-Bit 170 MHz Video and Graphics
Digitizer with Quad HDMI 1.3 Receiver
ADV7604
Preliminary Information
FEATURES
AVR video receivers
LCD/DLP front projectors
HDTV STBs with PVR
CRT HDTVs
DVD recorders with progressive scan input support
Three 12-bit ADCs
ADC sampling rates up to 170 MHz
12-channel analog input mux
525i/625i component analog input
525p/625p component progressive scan support
720p/1080i/1080p/1250i component HDTV support
Digitizes RGB graphics up to 1600 × 1200 at 60 Hz (UXGA)
VBI data slicer (including teletext)
Simultaneous HDMI and analog video sync processing
Ultralow jitter digital PLL
Quad HDMI Rx
4:1 multiplexed HDMI receiver
HDMI 1.3, DVI 1.0
225 MHz HDMI receiver
Repeater support
High-bandwidth Digital Content Protection (HDCP 1.3)
36-/30-/24-bit deep color support
HDMI 1.3-compatible audio interface
Programmable/adaptive equalizer for cable lengths up to
30 meters
Internal EDID RAM
EDID with HDMI cable power support
CEC support
General
S/PDIF (IEC90658-compatible) digital audio output
Highly flexible output interface
12-bit 4:4:4/8-bit 4:2:2 DDR pixel output interface
Dual STDI function support standard identification
2 any-to-any 3 × 3 color space conversion matrixes
2 programmable interrupt request output pins
Advanced sync processing for robust sync extraction of
poor video sources
AV.Link support
GENERAL DESCRIPTION
The ADV7604 is a high quality, single chip, multiformat video
decoder, graphics digitizer with an integrated 4:1 multiplexed
High-Definition Multimedia Interface (HDMI™) receiver.
The ADV7604 contains one main component processor (CP),
which processes YPrPb and RGB component formats, including
RGB graphics. The CP also processes the video signals from the
HDMI receiver. The ADV7604 can operate in quad HDMI and
analog input mode, thus providing simultaneous HDMI and
analog video sync processing. This allows for fast switching
between HDMI and the ADCs.
The ADV7604 supports the decoding of a component
RGB/YPrPb video signal into a digital YCrCb or RGB pixel
output stream. The support for component video includes 525i,
625i, 525p, 625p, 720p, 1080i, 1080p, and 1250i standards as
well as many other HD and SMPTE standards.
Graphics digitization is also supported by the ADV7604. The
ADV7604 is capable of digitizing RGB graphics signals from
VGA to UXGA rates and converting them into a digital RGB or
YCrCb pixel output stream.
The ADV7604 incorporates a quad input HDMI 1.3 compatible
receiver that supports all HDTV formats up to 1080p and
display resolutions up to UXGA (1600 × 1200 at 60 Hz). The
reception of encrypted video is possible with the inclusion of
HDCP. The HDMI receiver also includes
programmable/adaptive equalization that ensures robust
operation of the interface with cable lengths up to 30 meters.
The HDMI receiver has advanced audio functionality, such as a
mute controller that prevents audible extraneous noise in the
audio output.
APPLICATIONS
Advanced TV
PDP HDTVs
LCD TVs (HDTV ready)
LCD/DLP® rear projection HDTVs
CRT HDTVs
LCOS™ HDTVs
Fabricated in an advanced CMOS process, the ADV7604 is
provided in a space-saving, 260-ball 15mm x 15mm BGA
surface-mount, Pb-free package and is specified over the −40°C
to +85°C temperature range.
Pr. 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.
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
©2008 Analog Devices, Inc. All rights reserved.
90
harman/kardon
AVR1600
ADV7604
Preliminary Information
BGA BALLOUT
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
A
DGND
RXD_2-
RXD_1-
RXD_0-
RXD_C-
DGND
RXC_2-
RXC_1-
RXC_0-
RXC_C-
TVDD
RXB_2-
RXB_1-
RXB_0-
RXB_C-
TVDD
TVDD
DGND
A
B
RXD_5V
RXD_2+
RXD_1+
RXD_0+
RXD_C+
TVDD
RXC_2+
RXC_1+
RXC_0+
RXC_C+
TVDD
RXB_2+
RXB_1+
RXB_0+
RXB_C+
TVDD
RXA_2+
RXA_2-
B
C
PWRDNB
TVDD
TVDD
CVDD
DGND
TVDD
TVDD
DGND
DGND
DGND
TVDD
TVDD
DGND
DGND
DGND
DGND
RXA_1+
RXA_1-
C
D
RXC_5V
RXB_5V
RXA_5V
CVDD
DGND
RTERM
CVDD
TVDD
RXA_0+
RXA_0-
D
E
DE
CEC
DGND
DGND
RXA_C+
RXA_C-
E
F
HS
DGND
CVDD
TVDD
DGND
F
G
P1
P0
TEST1
TEST2
G
H
P3
P2
J
DGND
K
DDCD_SD DDCD_SC DDCC_SD DDCC_SC
A
L
A
L
DDCB_SD DDCB_SC DDCA_SC DDCA_SD
A
L
L
A
VS_FIELD EP_MISO EP_MOSI
EP_CS
EP_SCK
DGND
DGND
DGND
DGND
PVDD
PVDD
RAW_VSY RAW_SYN
NC
C
DGND
DGND
DGND
DGND
AGND
AGND
XTALP
AVDD
REFN
REFP
H
DGND
MCLKOUT
SPDIF
DVDD
DGND
DGND
DGND
AGND
AGND
XTALN
AVDD
AGND
AGND
J
P4
P5
LRCLK
SCLK
DVDD
DVDD
DGND
DGND
AGND
AVDD
AVDD
AVDD
AIN11
AIN12
K
L
P6
P7
I2S3
I2S2
DVDD
DVDD
DGND
DGND
AGND
AVDD
SYNC4
AIN10
L
M
P8
DGND
DGND
DGND
DVDD
DVDD
DGND
DGND
AGND
AVDD
N
P9
DVDDIO
DVDDIO
P
P10
P11
R
P12
T
TRI8/VS_I TRI7/HS_I
N2
N2
TRI5
TR6
AGND
AGND
M
DVDDIO
TRI3
TRI4
AIN8
AIN9
N
I2S0
I2S1
AVDD
AVDD
SYNC3
AIN7
P
P13
DGND
DGND
SCL
DVDDIO
INT1
CLAMPIN
DVDDIO
DGND
FB_OUT
SHARED_
EDID
HS_IN1
AGND
Y_Mux_out
TRI2
AGND
AGND
R
P14
P15
DGND
DGND
P25
DVDDIO
SDA
SYNC_OU
T/INT2
DVDDIO
DGND
RESETB
AVLINK
VS_IN1
AGND
TRI1
SYNC2
AIN5
AIN6
T
U
P16
P17
P19
P21
P23
DGND
P26
DCLKIN
P28
DGND
P31
P33
P35
AGND
SYNC1
AVDD
AVDD
AIN4
U
V
DGND
P18
P20
P22
P24
DGND
P27
LLC
P29
DGND
P30
P32
P34
AGND
AIN1
AIN2
AIN3
AGND
V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
Rev. PrB| Page 6 of 12
91
harman/kardon
AVR1600
Preliminary Information
ADV7604
PIN DESCRIPTION
Pin
1A
1B
1C
Mnemonic
DGND
RXD_5V
PWRDNB
Type
Ground
HDMI Input
Input
1D
1E
1F
1G
1H
1J
1K
1L
1M
1N
1P
1R
1T
1U
1V
2A
2B
2C
2D
2E
2F
RXC_5V
DE
HS
P1
P3
DGND
P4
P6
P8
P9
P10
P12
P14
P16
DGND
RXD_2RXD_2+
TVDD
RXB_5V
CEC
VS_FIELD
HDMI Input
Digital Video Output
Digital Video Output
Digital Video Output
Digital Video Output
Ground
Digital Video Output
Digital Video Output
Digital Video Output
Digital Video Output
Digital Video Output
Digital Video Output
Digital Video Output
Digital Video Output
Ground
HDMI Input
HDMI Input
Power
HDMI Input
Digital I/O
Digital Video Output
2G
2H
2J
2K
2L
2M
2N
2P
2R
2T
2U
2V
3A
3B
3C
3D
3F
3G
3H
3J
3K
3L
3M
3N
P0
P2
DGND
P5
P7
DGND
DVDDIO
P11
P13
P15
P17
P18
RXD_1RXD_1+
TVDD
RXA_5V
EP_MISO
EP_CS
RAW_VSYNC
MCLKOUT
LRCLK
I2S3
DGND
DVDDIO
Digital Video Output
Digital Video Output
Ground
Digital Video Output
Digital Video Output
Ground
Power
Digital Video Output
Digital Video Output
Digital Video Output
Digital Video Output
Digital Video Output
HDMI Input
HDMI Input
Power
HDMI Input
Digital Input
Digital Output
Analog Output
Misc Digital
Misc Digital
Misc Digital
Ground
Power
Function
Ground
5V detect pin for Port D in the HDMI interface.
Active low system power detect. If low, EDID can be powered from +5V
signal of HDMI port when connected to active equipment.
5V detect pin for Port C in the HDMI interface.
DE (data enable) is a signal that indicates active pixel data.
HS is a horizontal synchronization output signal in the CP and HDMI processor.
Video pixel output port
Video pixel output port
Ground
Video pixel output port
Video pixel output port
Video pixel output port
Video pixel output port
Video pixel output port
Video pixel output port
Video pixel output port
Video pixel output port
Ground
Digital Input Channel 2 complement of Port D in the HDMI interface.
Digital Input Channel 2 true of Port D in the HDMI interface.
Terminator supply voltage (3.3V)
5V detect pin for Port B in the HDMI interface.
Consumer electronic control channel
VS is a vertical synchronization output signal in the CP and HDMI
processor. FIELD is a field synchronization output signal in all interlaced
video modes. VS or FIELD can be configured for this pin.
Video pixel output port
Video pixel output port
Ground
Video pixel output port
Video pixel output port
Ground
Digital I/O supply voltage (3.3V)
Video pixel output port
Video pixel output port
Video pixel output port
Video pixel output port
Video pixel output port
Digital Input Channel 1 complement of Port D in the HDMI interface.
Digital Input Channel 1 true of Port D in the HDMI interface.
Terminator supply voltage (3.3V)
5V detect pin for Port A in the HDMI interface.
SPI Master In/Slave Out for External EDID Interface
SPI Chip Select for External EDID Interface
This pin outputs the raw-sliced, embedded CSync or raw digital HS/CS.
Audio master clock output.
Data output clock for left and right audio channels.
I2S Audio (Channel 7 and Channel 8).
Ground
Digital I/O supply voltage (3.3V)
Pr. 0 | Page 7 of 12
92
harman/kardon
AVR1600
ADV7604
Preliminary Information
3P
3R
3T
3U
3V
4A
4B
4C
4D
4F
4G
4H
4J
4K
4L
4M
4N
4P
4R
4T
4U
4V
5A
5B
5C
5D
5R
I2S0
DGND
DGND
P19
P20
RXD_0RXD_0+
CVDD
DDCD_SDA
EP_MOSI
EP_SCK
RAW_SYNC
SPDIF
SCLK
I2S2
DGND
DVDDIO
I2S1
DGND
DGND
P21
P22
RXD_CRXD_C+
DGND
DDCD_SCL
SCL
Misc Digital
Ground
Ground
Digital Video Output
Digital Video Output
HDMI Input
HDMI Input
Power
HDMI Input
Digital Input
Digital Output
Analog Output
Misc Digital
Misc Digital
Misc Digital
Ground
Power
Misc Digital
Ground
Ground
Digital Video Output
Digital Video Output
HDMI Input
HDMI Input
Ground
HDMI Input
Misc Digital
5T
5U
5V
6A
6B
6C
6D
6R
6T
6U
6V
7A
7B
7C
7D
7G
7H
7J
7K
7L
7M
7R
P25
P23
P24
DGND
TVDD
TVDD
DDCC_SDA
DVDDIO
DVDDIO
DGND
DGND
RXC_2RXC_2+
TVDD
DDCC_SCL
DGND
DGND
DVDD
DVDD
DVDD
DVDD
INT1
Digital Video Output
Digital Video Output
Digital Video Output
Ground
Power
Power
HDMI Input
Power
Power
Ground
Ground
HDMI Input
HDMI Input
Power
HDMI Input
Ground
Ground
Power
Power
Power
Power
Misc Digital
7T
7U
7V
SDA
P26
P27
Misc Digital
Digital Video Output
Digital Video Output
I2S Audio (Channel 1 and Channel 2).
Ground
Ground
Video pixel output port
Video pixel output port
Digital Input Channel 0 complement of Port D in the HDMI interface.
Digital Input Channel 0 true of Port D in the HDMI interface.
Comparator supply voltage (1.8V)
HDCP slave serial clock Port D. DDCD_SDA is a 3.3 V input that is 5 V tolerant.
SPI Master Out/SLAVE OUT for External EDID Interface
SPI Clock for External EDID Interface
This pin outputs the raw-sliced, embedded CSync or raw digital HS/CS.
S/PDIF digital audio output.
Audio serial clock output.
I2S Audio (Channel 5 and Channel 6).
Ground
Digital I/O supply voltage (3.3V)
I2S Audio (Channel 3 and Channel 4).
Ground
Ground
Video pixel output port
Video pixel output port
Digital input clock complement of Port D in the HDMI interface.
Digital input clock true of Port D in the HDMI interface.
Ground
HDCP slave serial clock Port D. DDCD_SCL is a 3.3 V input that is 5 V tolerant.
I2C port serial clock input (maximum clock rate of 400 kHz). SCL is the
clock line for the control port.
Video pixel output port
Video pixel output port
Video pixel output port
Ground
Terminator supply voltage (3.3V)
Terminator supply voltage (3.3V)
HDCP slave serial clock Port C. DDCC_SDA is a 3.3 V input that is 5 V tolerant.
Digital I/O supply voltage (3.3V)
Digital I/O supply voltage (3.3V)
Ground
Ground
Digital Input Channel 2 complement of Port C in the HDMI interface.
Digital Input Channel 2 true of Port C in the HDMI interface.
Terminator supply voltage (3.3V)
HDCP slave serial clock Port C. DDCC_SCL is a 3.3 V input that is 5 V tolerant.
Ground
Ground
Digital supply voltage (1.8 V).
Digital supply voltage (1.8 V).
Digital supply voltage (1.8 V).
Digital supply voltage (1.8 V).
Interrupt pin 1, can be active low or active high. When status bits change, this
pin is triggered. The events that trigger an interrupt are under user control.
I2C port serial data input/output pin. SDA is the data line for the control port.
Video pixel output port
Video pixel output port
Pr. 0 | Page 8 of 12
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Preliminary Information
8A
8B
8C
8D
8G
8H
8J
8K
8L
8M
8R
8T
RXC_1RXC_1+
DGND
CVDD
DGND
DGND
DGND
DVDD
DVDD
DVDD
CLAMPIN
SYNC_OUT/INT2
HDMI Input
HDMI Input
Ground
Power
Ground
Ground
Ground
Power
Power
Power
External Clamp
Misc Digital
8U
DCLKIN
8V
9A
9B
9C
9D
9G
9H
9J
9K
9L
9M
9R
9T
9U
9V
10A
10B
10C
10D
LLC
RXC_0RXC_0+
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DVDDIO
DVDDIO
P28
P29
RXC_CRXC_C+
DGND
RTERM
External Clock and
Clamp
Digital Video Output
HDMI Input
HDMI Input
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Power
Power
Digital Video Output
Digital Video Output
HDMI Input
HDMI Input
Ground
Misc Analog
10G
10H
10J
10K
10L
10M
10R
10T
10U
10V
11A
11B
11C
11D
11G
11H
11J
11K
11L
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
TVDD
TVDD
TVDD
CVDD
PVDD
AGND
AGND
AGND
AGND
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Power
Power
Power
Power
Power
Ground
Ground
Ground
Ground
ADV7604
Digital Input Channel 1 complement of Port C in the HDMI interface.
Digital Input Channel 1 true of Port C in the HDMI interface.
Ground
Comparator supply voltage (1.8V)
Ground
Ground
Ground
Digital supply voltage (1.8 V).
Digital supply voltage (1.8 V).
Digital supply voltage (1.8 V).
External clamp signal. This is an optional mode of operation for the ADV7604.
Interrupt pin 2, can be active low or active high. When status bits change, this
pin is triggered. The events that trigger an interrupt are under user control.
External clock for ADC sampling. This is an optional mode of operation for
the ADV7604.
Line locked output clock for the pixel data (range is 13.5 MHz to 170 MHz).
Digital Input Channel 0 complement of Port C in the HDMI interface.
Digital Input Channel 0 true of Port C in the HDMI interface.
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Digital I/O supply voltage (3.3V)
Digital I/O supply voltage (3.3V)
Video pixel output port
Video pixel output port
Digital input clock complement of Port C in the HDMI interface.
Digital input clock true of Port C in the HDMI interface.
Ground
Sets internal termination resistance. A 500 Ω resistor between this pin and
GND should be used.
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Ground
Terminator supply voltage (3.3V)
Terminator supply voltage (3.3V)
Terminator supply voltage (3.3V)
Comparator supply voltage (1.8V)
PLL supply voltage (1.8 V).
Ground
Ground
Ground
Ground
Pr. 0 | Page 9 of 12
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ADV7604
Preliminary Information
11M
11R
AGND
FB_OUT
Ground
Misc Digital
11T
11U
11V
12A
12B
12C
12D
12G
12H
12J
12K
12L
12M
12R
RESETB
P31
P30
RXB_2RXB_2+
TVDD
DDCB_SDA
PVDD
AGND
AGND
AVDD
AVDD
AVDD
SHARED_EDID
Misc Digital
Digital Video Output
Digital Video Output
HDMI Input
HDMI Input
Power
HDMI Input
Power
Ground
Ground
Power
Power
Power
Input
12T
12U
12V
13A
13B
13C
13D
13R
AVLINK
P33
P32
RXB_1RXD_1+
DGND
DDCB_SCL
HS_IN1
Digital I/O
Digital Video Output
Digital Video Output
HDMI Input
HDMI Input
Ground
HDMI Input
Misc Analog
13T
VS_IN1
Misc Analog
13U
13V
14A
14B
14C
14D
14R
14T
14U
14V
15A
15B
15C
15D
15E
15F
15H
P35
P34
RXB_0RXB_0+
DGND
DDCA_SCL
AGND
AGND
AGND
AGND
RXB_CRXB_C+
DGND
DDCA_SDA
DGND
DGND
XTALP
Digital Video Output
Digital Video Output
HDMI Input
HDMI Input
Ground
HDMI Input
Ground
Ground
Ground
Ground
HDMI Input
HDMI Input
Ground
HDMI Input
Ground
Ground
Misc Analog
15J
XTALN
Misc Analog
15K
15L
AVDD
VS_IN2
Power
Misc Analog
Ground
FB output; this is the muxed fast blank output from TRI1 to TRI8
(programmable).
Chip Reset. Active low. Minimum low time for a reset to take place is 5 ms.
Video pixel output port
Video pixel output port
Digital Input Channel 2 complement of Port B in the HDMI interface.
Digital Input Channel 2 true of Port B in the HDMI interface.
Terminator supply voltage (3.3V)
HDCP slave serial clock Port B. DDCB_SDA is a 3.3 V input that is 5 V tolerant.
PLL supply voltage (1.8 V).
Ground
Ground
Analog supply voltage (1.8V)
Analog supply voltage (1.8V)
Analog supply voltage (1.8V)
EDID flag. When high, all four HDMI ports share common EDID. When low,
Port D does not share common EDID – Port D operates with a separate
EDID.
Digital SCART control channel
Video pixel output port
Video pixel output port
Digital Input Channel 1 complement of Port D in the HDMI interface.
Digital Input Channel 1 true of Port D in the HDMI interface.
Ground
HDCP slave serial clock Port B. DDCB_SCL is a 3.3 V input that is 5 V tolerant.
HS on Graphics Port 1. HS input signal is used in CP mode for 5-wire
timing mode. HS_IN1 is a 3.3 V input that is 5 V tolerant.
VS on Graphics Port 1. The VS input signal is used in CP mode for 5-wire
timing mode. VS_IN1 is a 3.3 V input that is 5 V tolerant.
Video pixel output port
Video pixel output port
Digital Input Channel 0 complement of Port B in the HDMI interface.
Digital Input Channel 0 true of Port B in the HDMI interface.
Ground
HDCP slave serial clock Port A. DDCA_SCL is a 3.3 V input that is 5 V tolerant.
Ground
Ground
Ground
Ground
Digital input clock complement of Port B in the HDMI interface.
Digital input clock true of Port B in the HDMI interface.
Ground
HDCP slave serial clock Port A. DDCA_SDA is a 3.3 V input that is 5 V tolerant.
Ground
Ground
Input pin for 28.63636 MHz crystal or can be overdriven by an external 1.8 V
28.63636 MHz clock oscillator source to clock the ADV7604. The following
crystal frequencies are also supported: 24.576 MHz and 27.00 MHz.
This pin should be connected to the 28.63636 MHz crystal or left as a no
connect if an external 1.8 V 28.63636 MHz clock oscillator source is used to
clock the ADV7604. In crystal mode, the crystal must be a fundamental crystal.
The following crystal frequencies are also supported: 24.576 MHz and 27.00
MHz.
Analog supply voltage (1.8V)
Dual purpose pin. Trilevel/bilevel input on the SCART or D-terminal
Pr. 0 | Page 10 of 12
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Preliminary Information
15M
TRI5
Misc Analog
15N
TRI3
Misc Analog
15P
15R
15T
AVDD
Y_MUX_OUT
TRI1
Power
Misc Analog
Misc Analog
15U
SYNC1
Misc Analog
15V
16A
16B
16C
16D
16E
16F
16H
16J
16K
16L
AIN1
TVDD
TVDD
DGND
TVDD
DGND
CVDD
AVDD
AVDD
AVDD
TRI7/HS_IN2
Analog Video Input
Power
Power
Ground
Power
Ground
Power
Power
Power
Power
Misc Analog
16M
TRI6
Misc Analog
16N
TRI4
Misc Analog
16P
16R
AVDD
TRI2
Power
Misc Analog
16T
SYNC2
Misc Analog
16U
16V
17A
17B
17C
17D
17E
17F
17G
17H
17J
17K
17L
AVDD
AIN2
TVDD
RXA_2+
RXA_1+
RXA_0+
RXA_C+
TVDD
TEST1
REFN
AGND
AIN11
SYNC4
Power
Analog Video Input
Power
HDMI Input
HDMI Input
HDMI Input
HDMI Input
Power
Test
Misc Analog
Ground
Analog Video Input
Misc Analog
17M
17N
17P
AGND
AIN8
SYNC3
Ground
Analog Video Input
Misc Analog
17R
17T
17U
AGND
AIN5
AVDD
Ground
Analog Video Input
Power
ADV7604
connector. Result available via I2C. This signal can be buffered and output
to the FBOUT pin. VS on Graphics Port 2. The VS input signal is used in CP
mode for 5-wire timing mode. VS_IN2 is a 3.3 V input that is 5 V tolerant.
Trilevel/bilevel input on the SCART or D-terminal connector. Result
available via I2C. This signal can be buffered and output to the FBOUT pin.
Trilevel/bilevel input on the SCART or D-terminal connector. Result
available via I2C. This signal can be buffered and output to the FBOUT pin.
Analog supply voltage (1.8V)
Buffered output of the Y channel.
Trilevel/bilevel input on the SCART or D-terminal connector. Result
available via I2C. This signal can be buffered and output to the FBOUT pin.
This is a synchronization on green or luma input (SOG/SOY) used in
embedded synchronization mode. User configurable.
Analog video input channel
Terminator supply voltage (3.3V)
Terminator supply voltage (3.3V)
Ground
Terminator supply voltage (3.3V)
Ground
Comparator supply voltage (1.8V)
Analog supply voltage (1.8V)
Analog supply voltage (1.8V)
Analog supply voltage (1.8V)
Dual purpose pin. Trilevel/bilevel input on the SCART or D-terminal
connector. Result available via I2C. This signal can be buffered and output
to the FBOUT pin. HS on Graphics Port 2. The HS input signal is used in CP
mode for 5-wire timing mode. HS_IN2 is a 3.3 V input that is 5 V tolerant.
Trilevel/bilevel input on the SCART or D-terminal connector. Result
available via I2C. This signal can be buffered and output to the FBOUT pin.
Trilevel/bilevel input on the SCART or D-terminal connector. Result
available via I2C. This signal can be buffered and output to the FBOUT pin.
Analog supply voltage (1.8V)
Trilevel/bilevel input on the SCART or D-terminal connector. Result
available via I2C. This signal can be buffered and output to the FBOUT pin.
This is a synchronization on green or luma input (SOG/SOY) used in
embedded synchronization mode. User configurable.
Analog supply voltage (1.8V)
Analog video input channel
Terminator supply voltage (3.3V)
Digital Input Channel 2 complement of Port A in the HDMI interface.
Digital Input Channel 1 complement of Port A in the HDMI interface.
Digital Input Channel 0 complement of Port A in the HDMI interface.
Digital input clock complement of Port A in the HDMI interface.
Terminator supply voltage (3.3V)
Do not connect
Internal voltage reference output.
Ground
Analog video input channel
This is a synchronization on green or luma input (SOG/SOY) used in
embedded synchronization mode. User configurable.
Ground
Analog video input channel
This is a synchronization on green or luma input (SOG/SOY) used in
embedded synchronization mode. User configurable.
Ground
Analog video input channel
Analog supply voltage (1.8V)
Pr. 0 | Page 11 of 12
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ADV7604
17V
18A
18B
18C
18D
18E
18F
18G
18H
18J
18K
18L
18M
18N
18P
18R
18T
18U
18V
AIN3
DGND
RXA_2RXA_1RXA_0RXA_CDGND
TEST2
REFP
AGND
AIN12
AIN10
AGND
AIN9
AIN7
AGND
AIN6
AIN4
AGND
Preliminary Information
Analog Video Input
Ground
HDMI Input
HDMI Input
HDMI Input
HDMI Input
Ground
Test
Misc Analog
Ground
Analog Video Input
Analog Video Input
Ground
Analog Video Input
Analog Video Input
Ground
Analog Video Input
Analog Video Input
Ground
Analog video input channel
Ground
Digital Input Channel 2 true of Port A in the HDMI interface.
Digital Input Channel 1 true of Port A in the HDMI interface.
Digital Input Channel 0 true of Port A in the HDMI interface.
Digital input clock true of Port A in the HDMI interface.
Ground
Do not connect
Internal voltage reference output.
Ground
Analog video input channel
Analog video input channel
Ground
Analog video input channel
Analog video input channel
Ground
Analog video input channel
Analog video input channel
Ground
Pr. 0 | Page 12 of 12
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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.)
92FD28-2
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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)
92FD28-3
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harman/kardon
AVR1600
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
92FD28-4
101
2007-01-30
harman/kardon
AVR1600
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)
92FD28-4
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AVR1600
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
92FD28-6
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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
92FD28-7
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2007-01-30
harman/kardon
AVR1600
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
92FD28-8
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2007-01-30
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AVR1600
106
harman/kardon
AVR1600
107
harman/kardon
AVR1600
108
harman/kardon
AVR1600
109
harman/kardon
AVR1600
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.
110
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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
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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)
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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
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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)
114
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
AVR1600
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
115
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
AVR1600
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
116
NMI
MODE
harman/kardon
AVR1600
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
117
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
AVR1600
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
118
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
AVR1600
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
119
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
AVR1600
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
120
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
AVR1600
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.
121
harman/kardon
AVR1600
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
122
Voltage range
2.7V~3.6V
harman/kardon
AVR1600
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
123
harman/kardon
AVR1600
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
124
2005
harman/kardon
AVR1600
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
125
SEP ‘08
DS752PP7
harman/kardon
AVR1600
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
126
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
AVR1600
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
127
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
AVR1600
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
128
harman/kardon
AVR1600
129
harman/kardon
AVR1600
130
harman/kardon
AVR1600
131
harman/kardon
AVR1600
132
harman/kardon
AVR1600
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
133
8
V-
harman/kardon
AVR1600
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
134
harman/kardon
AVR1600
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-
135
100µF
harman/kardon
AVR1600
NJM2068M (OP-AMP)
136
harman/kardon
AVR1600
137
harman/kardon
AVR1600
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
138
harman/kardon
AVR1600
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
139
harman/kardon
AVR1600
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
140
-55 to 125
°C
8
ns/V
harman/kardon
AVR1600
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
141
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
AVR1600
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.
142
harman/kardon
AVR1600
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.
143
harman/kardon
AVR1600
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.
144
harman/kardon
AVR1600
145
harman/kardon
AVR1600
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
-
146
harman/kardon
AVR1600
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
147
2005. 3. 14
Revision No : 0
1/7
harman/kardon
AVR1600
KTC812T
SEMICONDUCTOR
EPITAXIAL PLANAR NPN TRANSISTOR
TECHNICAL DATA
FOR MUTING AND SWITCHING APPLICATION.
E
FEATURES
K
K
1
6
G
2
5
G
High
High Emitter-Base
Reverse hFE Voltage : VEBO=25V(Min.)
B
3
4
DIM
A
B
C
D
E
F
G
D
A
Low on Resistance : RON=1 (Typ.), (IB=5mA)
F
: Reverse hFE=150(Typ.) (VCE=-2V, IC=-4mA)
SYMBOL
RATING
UNIT
VCBO
50
V
Collector-Base Voltage
Collector-Emitter Voltage
VCEO
20
V
Emitter-Base Voltage
VEBO
25
V
Collector Current
IC
300
mA
Base Current
IB
60
mA
PC *
0.9
mW
Tj
150
Tstg
-55 150
Collector Power Dissipation
Junction Temperature
Storage Temperature Range
* Package mounted on a ceramic board (600
0.8
L
CHARACTERISTIC
C
)
I
MAXIMUM RATING (Ta=25
J
1. Q 1
2. Q 1
3. Q 2
4. Q 2
5. Q 2
6. Q 1
MILLIMETERS
_ 0.2
2.9 +
1.6+0.2/-0.1
_ 0.05
0.70 +
_ 0.1
0.4 +
2.8+0.2/-0.3
_ 0.2
1.9 +
0.95
H
I
_ 0.05
0.16 +
0.00-0.10
J
0.25+0.25/-0.15
K
L
0.60
0.55
H
J
EMITTER
BASE
COLLECTOR
EMITTER
BASE
COLLECTOR
TS6
)
EQUIVALENT CIRCUIT (TOP VIEW)
6
5
Marking
4
h FE Rank
Q1
1
2
1
3
ELECTRICAL CHARACTERISTICS (Ta=25
CHARACTERISTIC
5
4
2
3
Lot No.
M
Type Name
Q2
6
)
SYMBOL
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
Collector Cut-off Current
ICBO
VCB=50V, IE=0
-
-
0.1
A
Emitter Cut-off Current
IEBO
VEB=25V, IC=0
-
-
0.1
A
DC Current Gain
hFE
VCE=2V, IC=4mA
350
-
1200
VCE(sat)
IC=30mA, IB=3mA
-
0.042
0.3
V
Base-Emitter Voltage
VBE
VCE=2V, IC=4mA
-
0.61
-
V
Transition Frequency
fT
VCE=6V, IC=4mA
-
30
-
MHz
-
4.8
7
pF
-
160
-
-
500
-
-
130
-
Cob
Turn-on Time
Time
ton
INPUT
Storage Time
tstg
Fall Time
tf
Note : hFE Classification
2002. 12. 5
OUTPUT
4kΩ
10V
50Ω
Switching
VCB=10V, IE=0, f=1MHz
1kΩ
Collector Output Capacitance
3kΩ
Collector-Emitter Saturation Voltage
1µs
DUTY CYCLE <
= 2%
VBB =-3V
VCC =12V
nS
B: 350 1200
Revision No : 1
148
1/3
harman/kardon
AVR1600
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 2SB1559
2SA1360
2SD2389
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
149
1
2
3
6
5
4
3
2
1
harman/kardon
AVR1600
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
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
7
FROM TRANS PCB BN96
CUP12027-3
GND
0.047uF
2
KIA278R15
INSERTED MAIN B'D
6
8
5
5
4
3
CJP08GB142ZB
2
4
3
2
3
C936
0.047u
1
7
100K
ST_5V
C939
4
GND
2
100/25V
R942
+15V
GND VOUT
ON/OFF
R912
C929
15K
2200/35V
0.047uF
C123
-20V
1
CN96
1 VIN
1
IC83
+20V
+20V
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 >
+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
CJP06GB143ZB
LPP
2008.11.01
REVISION
1
A
2
4
6
3
5
7
SCHEMATIC DIAGRAM
AVR x600/x60
MODEL
150
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
AVR1600
CUP12174Y
D
D
09.02.20
Value Change R402 75ohm -> 0ohm
Value Change R40375ohm -> N.C
* LC74763M OPTION TABLE
NTSC
27P
27P
14.318
29
1/50
C734
C733
27P-->33P
C732
22P
C731
0.022u
28
27
23
PDOUT
OSD_DA
SIN
AMPIN
OSD_CLK
25
24
notCS
AMPOUT
SCLK
PDOUT
R727
1K
1K
C726
1/50
R725
22
6
7
SW2
CVBS
VSYNCOUT
AMPIN
8
VO3
NJM2595M
R728
Xout2
9
9
10
10
FC
X703
17.734MHz(EU)
OSD_CLK
11
VID1
VO2
100/16
12
SW2
13
GND
14
VIN1
15
VCC
IC101
75
SW1 SW1
16
IC41
NJM2595M
6dB
S1(SW1)
L731
5.6UH
26
Xin2
VCOIN
S3(SW3)
75
30
1
2
HSYNCOUT
27P
(EU)
6dB
+5VV
C462
VCOOUT
Change : 33pF -> 27pF
2009.02.04
S7(SW2)
S4(SW4)
S5(SW5)
0.022u
8
S2(SW2)
S6(SW1)
6dB
C461
7
1K
R726
6.8K
C725
50V/6800p
1.5K
R724
21
6
3
5
4
4
Xout1
5
3
SYNCDET
27P
2
75
C702
1
C704
H
27P
H
H
27P
(EU)
L
L
OSD_H
R735
C701
H
X
Xin1
X701
14.318MHz
C703
H
H
V01
H
VSS
VDD1
ONLY EUR VER.
1K
100/16
H
C464
H
0.022u
H
C463
H
VSS
H
VIN2
VIDEO3
VID2
R461
100K
17.734
R737
27P
IC103
LC74763M
100/16
27P
IC71
LC74763M
C737
PAL
C736
100P
C483
X701
-5VV
v4&IPOD_COMPO
H
VIN3
L
SW4
X
SW4
L
DVD
H
VIN4
VIDEO2
SW3
H
SW3
X
VID3
X
VIN5
H
DVD
C702
0
R402
75_NC
L
V4,IPOD
C701
SW1 SW2 SW3 SW4 SW5
VIDEO1
SW5
FUNC.
R403
*NJM2595M OPTION
==>V_MUTE "LOW" ACTIVE
100UH
0.022u
L736
+5VV
39K
4
2.2K
22P
22P
R721
R716
8.2K
470/10
COMPO OSD IN
C722
270
Q716
C2785Y
R715
2.2K
09.02.20
Value Change R701 0ohm -> 2.2Kohm
Value Change R713 22Kohm -> 2.2Kohm
75
100P
C491
C
5
VIDEO OUT
10K
20
19
18
6
R491
C717
CVOUT
R717
VDD2
C721
56P
17
notRST
CVCR
0.1/50
16
11
12
13
1K
1K
R707
1K
R706
COMPOSITE
SYNCIN
R701
JK63
not3.58/4.43
1000/6.3
10/50
75
R421
1
VIDEO2 IN
notNTSC/PAL
CVIN
14
C421
not525/625
15
47
C708
2
SECAM
0.47/50
100P
C401
CJJ4N043Z
MONITOR OUT
C402
R401
3
C705
Change : 62ohm -> 47ohn
2009.02.04
4
180P
R705
C723
C
+9VV
C711
75
10/50
Q712
A1175Y
+5VV
D741
C451
R451
R712
100K
R711
Change Value
2200uF -> 10uF
2008.12.16
1
JK61
1.2K
AVR154 : 1.2K
10/50
2.2K
CJJ4S030Z
DVD IN
75
R411
10/50
2
R714
COMPO OUT
R713
VIDEO1 IN
C712
COMPOSITE
10K_NC
C411
3
OSD_CLK
GND
COMPOSITE
OSD_CE1
Pr1
10
11
12
13
74ACT04MTR
14
0.022u
9
SW1
SW2
EUR Ver.
ONLY
JK62
SW3
SW4
8
C741
OSD_CE1
IC104
IC72
7
C612
6
5
4
3
2
1
74ACT04MTR
1K
OSD_CLK
1K
OSD_CE1
7
6
33
8
HDMI_MUTE
C671
100/16
V3 COMP
14
18
0.1uF
19
15
17
16
1321_SDA
+9VV
15
-5VV
+5VV
4
5
6
7
8
9
10
11
12
13
CN45
14
ADR
3
PORT2
2
18
22P-->2P
17
B
18
SCL
1321_SCL
1
12
7510_INT
20
10
7604_INT
21
C672
VREF
+9VV
10/50
Y_OUT2
V+
Pr1
V+
Pb1
1321_SCL
EX_EN
22
SDA
V+
33
R675
OSD_H
Pr3
V+
R674
23
PORT1
PORT3
2P
C625
75
R625
B
1321_SCL
1321_SDA
24
PORT0
48
10/50
1321_SDA
C673
AUX2
25
GND
47
Pb_OUT2
AUX3
26
AUX0
AUX1
Pr_OUT
Pb_OUT
Y_OUT
27
V+
46
1
28
DGND
Y1
2P
C615
75
R615
V+
Pb3
45
Y2
29
IC102
Y3
44
C626
30
IC61
NJW1321
43
10/50
31
Pr_OUT2
42
3
32
V+
41
C616
33
Pr2
2P
C623
75
10/50
Y2
34
Pr4
40
R623
COMPONENT IN2
4
2
35
39
C624
Y1
36
Pb2
Pb2
37
Y4
38
V+
Pb4
2P
C613
75
R613
CJJ4R045Z
5
10/50
5
HDMI_RESET
6
FROM MCU B'D
C614
4
3
R743
2
OSD_DA
1K
R744
Pb1
OSD_M
R742
9
2P
C621
75
R621
(L->H)
OSD_M
10/50
1
C622
7
11
Pr2
BN14
BN14
OSD_CE1
Q512
13
2P
C611
OSD_DA
10/50
17
8
75
R611
& COMPONENT IN1
9
1000/6.3
2009.02.04
Change : 62ohm -> 47ohn
47
5
14
13
11
12
10
8
6
Pr_OUT
4
22P
1000/6.3
Change : 62ohm -> 47ohn
2009.02.04
7
6
R676
C630
3
2
Y_OUT
1
CN18
22P
47
9
22P
C632
7
22P-->2P
TO ADI HDMI REPEATER B'D
C629
Y_OUT
36
CJP18GB142ZB
C606
8
7510_INT
R677
4
1000/6.3
9
7604_INT
2
1000/6.3
Change : 56ohm -> 36ohn
2009.02.04
10
5
Pb_OUT
56
EX_EN
Pb_OUT
C605
JK64
Change : 56ohm -> 36ohn
2009.02.04
C628
36
R605
Y_OUT
C604
1000/6.3
11
R678
3
2
1
1000/6.3
Change : 68ohm -> 56ohn
2009.02.04
12
22P
22P
C603
3
56
R603
Pb_OUT
Pr_OUT
13
HDMI_SDA
0
HDMI_RESET
C631
22P
C601
4
CJJ4S030Z
COMPONENT OUT
R601
Pr_OUT
Change : 68ohm -> 56ohn
2009.02.04
C627
C602
HDMI_SCL
0
R641
R642
6
5
14
22P-->2P
1
EUR Ver.
ONLY
16
15
15
16
* DEFINITION OF I2C REGISTER ( NJW1321 )
I2C BUS FORMAT
MSB
S(1BIT)
LSB
SLAVE ADDRESS(8BIT)
MSB
LSB
A(1BIT)
MSB
DATA(8BIT)
A(1BIT)
S : Starting Term
LSB
DATA(8BIT)
A(1BIT)
P(1BIT)
A : Acknowledge Bit
P : Ending Term
SLAVE ADDRESS
MSB
Slave Address(8BIT)
1
0
0
0
MSB
0
0
ADR(1BIT)
Hex
ADR : Set the Slave Address by " ADR" terminal.
-
R/NOT W(1BIT)
R/NOT W : Set the Write Mode or Read Mode.
R/NOT W = 0 : WRITE MODE, ADR = 0/1 ; ADR=0 Hex:94(h), ADR=1 Hex:96(h)
CONTROL REGISTER TABLE
<WRITE MODE>
NO.
DATA 1
DATA 2
A
R/NOT W = 0 : READ MODE, ADR = 0/1 ; ADR=0 Hex:95(h), ADR=1 Hex:97(h)
BIT
D7
D6
PS1
D5
D4
PS2
PS : POWER SAVE
D3
D2
OUT1
AUX0
D1
D0
OUT2
AUX1
AUX2
=> PS = 1 ; POWER SAVE ON (MUTE), PS = 0 ; POWER SAVE OFF (OUT ON)
REVISION
OUT : OUTPUT
AUX3
1
<READ MODE>
NO.
DATA
2
4
6
3
5
7
AUX : AUXILIARY (CONTROL SIGNAL OUTPUT)
A
BIT
D7
D6
PORT0
D5
D4
PORT1
D3
D2
PORT2
D1
D0
PORT3
SCHEMATIC DIAGRAM
PORT : INPUT
ISSUE
LPP
1
DESIGN
CHECK
APPROVE
S.K
W.Y.Y
K.S.W
CUP12174
09.02.04
09.02.04
09.02.04
(VIDEO)
2009.02.04
151
1
AVR1600
MODEL
SHEET
DRAWING NO
1
1
5
4
3
2
1
harman/kardon
MIC_SIGNAL
HPL-OUT
+15V
9.1K
10/50V
560
R285
C375
R385
5.1K
C395
10/50V
560
HVTKTC812TB
IC39
3.9K
180K
180K
3.9K
SW-OUT
560
1
PROTECT_IN
2
POWER_HIGH
3
2.4K
2
C346
DAC-SL
C286
DAC04
VOL05
10/50V
C376
5.1K
10/50V
R386
4
5
6
12
13
FUNC_MUTE2
SR-OUT
SL-OUT
14
560
10/50V
11
11
SW-OUT
R286
-15V
VOL-SR
9
12
560p
8
1
3.9K
150P
R332
7
10
C332
1.2K
6
10
1
180K
R296
2
3
5
8
6
7
5
9
4
HVTKTC812TB
IC40
180K
R295
180K
8
POWER_DOWN
1800P
C540
180K
R297
8
4
5
1
2
SBL-OUT
23
R-OUT
24
1
25
SBR-OUT
R398
C398
C336
18
22
26
3.9K
2
180K
3
R298
4
3
20
21
6
HVTKTC812TB
IC41
DAC[01:08]
100K
R368
560p
0.022u
1
27
150p
560p
R336
1.2K
C288
C348
DAC-BL
5.1K
DAC06
VOL07
VOL-BR
2.4K
1.2K
2
7
R278
2.7K
3
6
IC24
C340
R356
4
5
180K
8
180K
7
C387
6
100K
560p
C334
1000P
5
20
19
L-OUT
C335
5.1K
R378
1000P
C316
R315
18
FUNC_MUTE2
3.9K
150P
17
17
SR-OUT
R397
22
560
10/50V
24
R353
+15V
5.1K
C397
26
10/50V
19
10/50V
1.2K
C357
1500P
SBL-OUT
21
560p
16
R387
23
1.2K
+7V
C377
R287
VOL-BL
25
5.1K
C333
VOL06
27
R334
C287
DAC07
2.4K
DAC-BR
10/50V
10/50V
R288
C378
R388
5.1K
10/50V
560
FUNC_MUTE2
SBR-OUT
-15V
IC36
HVIKIA7808API
+15V
open
L301
8200pF
4700P
C414
1
2
6
SDIO
C363
8
TUNED
8
7
1K
0.01uF
TUNER_RESET
7
R338
HP_MUTE1
0
D215
HP_MUTE2
HVTKRC107S
Q730
D216
8CH-SBL
8CH06
+5VD
-15V
CHGND
FUNC_MUTE2
3
4
5
10K
R932
4.7K
R966
1M
R910
8CH07
1M
8CH-SBR
R963
R226
HP_MUTE1
FUNC_MUTE1
6
220P
C226
100K
R252
100
B
+15V
HP_MUTE
220P
C225
100K
R251
100
ST+5V
0
R402
Q992
HVTKRA107S
FUNC_MUTE1
7
HVTKRC107S
Q729
ARRAY WIRE Ass'y
4.7
Q952
HVTKRA107S
GPIO2
1
R253
8CH08
/RST
CN20
8CH-SUB
0.1uF
/SEN
TUNER MODULE
TUNER_CS
TUNER-R
SCLK
TUN1 CNVMW004MV1S63S
5
3
TUNER_DATA
4
4
5
0.022u
C361
C362
TUNER_SCK
VCC
6
3
+5VD
100/16V
C365
4.7K
1
4700P
300
FROM POWER B'D
8
2
3
2
6
R370
Q991
HVTKRC107S
5.6K
R992
R340
8CH03
4
4.5V
4.5V
Q951
HVTKRC107S
8CH05
7
27K
10/50V
GND
R-OUT
R369
C366
3
100K
C415
7
100/16V
2
L-OUT
L302
-15V
1
1
1
R337
1
300
2
4
3900P
2
5
3
27K
3 OUT IN
8CH04
6
C364
-15V
IC37
CVIKIA7908PI
4
6
R355
4.7K
R399
2
A107S
TUNER_MUTE
COMMON
-8V
C412
1
Q307
100/16V
100/16V
1N4003ST
3900P
TUNER-L
8CH02
100/16V
R354
8
+8V
2
220P
C224
C299
C
16
C-OUT
C347
FROM MAIN B'D
FUNC_MUTE2
7
3
R277
2.7K
R289
BN12
POWER_MUTE
R395
C396
11
8CH SBR
R389
R317
FUNC_MUTE2
220P
C223
100K
10K
R250
2.7K
R225
9
HVTKTC812TB
IC38
R391
R384
0
R401
8
8CH SBL
0.022u
R392
C374
R400
R224
7
R390
0.022u
C369
180K
180K
180K
R394
C2874B
6
8CH SUB
C370
180K
R291
R293
R294
R318 FUNC_MUTE2
3.9K
R284
6
4
IC45
HVTKTC812TB
C220
1
Q311
100
R249
5
8CH-C
1
3.9K
5
180K
R266
0.022u
1
C386
100K
2
R366
560p
0.022u
3
D214
R223
2
2
10/50V
C339
4
D213
4
3
IC23
R333
3 OUT IN
C349
4.7
6
SL-OUT
10/50V
D221
C359
R254
5
exchange
5.1K
8CH01
220P
0.1uF
2.4K
R272
180K
180K
VOL-SL
R265
8
3.3K
220P
C222
100K
R248
C290
4
2700p
C296
AD+RIN
AD-RIN
AD-LIN
AD+LIN
+7V
220P
C221
100K
R247
8CH-SR
100
R292
180K
R262
R263
R264
0.022u
C384
VOL04
0.022u
7
R960
3
8
2
-15V
C285
DAC05
1N4003ST
R222
3
VOL-SW
C385
6
2.7K
100
2
7
150P
-7V
R316
R290
VOL08
D222
8CH-SL
FUNC_MUTE2
CJP27GA115ZY
560p
+7V
R335
-7V
R221
560
1.2K
D_BL+
R280
0.022u
C383
100K
100K
DAC-SR
exchange
C360
1
R-OUT
15
220P
100K
C219
R245
10
100K
CJJ4R037W
10/50V
6
4
100
R246
JK14
8CH-R
R383
R396
2.7K
D_SL-
100
R220
560
FUNC_MUTE2
2.2K
C338
C327
C331
R352
R312
C358
8CH-L
10/50V
2.4K
GND
4
V1-REC-L
R382
HPR-OUT
5.1K
C393
10/50V
C345
R331
LAIN
C308
3
C390
R393
C284
DAC03
10/50V
exchange
C295
2700p
R219
2.4K
R271
180K
R261
0.022u
0.022u
C382
100K
R362
0.022u
R363
C318
C326
10K
5.1K
R373
1000P
R311
100
2
1
1
1.2K
D_SL+
80
2
3
R330
5.1K
C329
R313
100
1
R273
1800P
R374
1000P
C311
C312
R364
DAC-C
100K
8CH01
8
1197_MUTE
4.7
10/50V
C373
IC33
C356
7
1197_LATCH
R255
D212
B
C344
exchange
2.7K
1197_CLK
0.1uF
5.1K
1000p
0.022u
R365
8CH-L
3
+15V
5
D_BR+
1197_DATA
C289
D211
JK13
8CH Cch
560p
R325
D_BR-
6
5
-7V
8CH Rch
8CH SRch
1.2K
2.7K
8CH Lch
8CH SLch
C328
C319
8CH02
560p
8CH-R
C330
8CH03
1
14
79
8CH-C
2
D
13
78
LBCIN
RBCIN
RSCIN
LSCIN
77
8CH04
6
15
76
R327
D_BLISIG03
3
-15V
R283
R276
75
GND
FR-
FR+
74
1
R267
73
2
R268
72
3
0.022u
71
FL-
FL+
MUTE
LATCH
70
100
V1-REC-R
4
IC22
0.022u
69
8
C388
68
8CH-SL
5
C-OUT
10/50V
0.022u
R367
67
CLOCK
DATA
VDDOUT
66
8CH05
5.1K
65
81
8CH-SR
1800P
64
82
8CH06
1000P
63
83
8CH-SBL
4
4
1.2K
R377
62
RAIN
8CH07
C539
61
84
8CH-SBR
8
P_FAIL
2.7K
C315
60
85
CAIN
7
10/50V
59
LSAIN
8CH08
5.1K
86
VOL-C
D_SR+
8CH-SUB
C272
58
10/50V
57
C270
56
10/50V
55
10/50V
54
C271
53
C273
52
1uF
50
REC_A1L
R8IN
R11IN
C274
L11IN
REC_A1R
48
REC_A2L
L8IN
REC_A2R
47
REC_A3L
R10IN
REC_A3R
46
REC_A4L
R7IN
REC_A4R
45
100
ISIG04
C372
C394
R349
5.1K
RSAIN
4
1800P
DAC01
2.7K
C354
87
6
R329
C355
88
LBAIN
5
R309
R310
89
RBAIN
VOL03
R274
DAC-R
DAC02
DAC-L
91
C283
DAC08
10/50V
D_SR-
L10IN
44
R279
D210
ISIG01
R282
-15V
2.4K
DAC03
C306
IC20
RN92
D209
T-REC-L
1
-7V
100X4
4.7
ISIG[01:30]
220P
C216
100K
R242
R256
0.1uF
T-REC-R
VOL-R
R275
DAC-C
1800P
DAC04
R375
LBIN
DAC-SL
7
150P
5.1K
1000P
93
DAC-SW
IC34
ISIG02
6
IC25
2
560p
1.2K
2.7K
R376
CBIN
DAC05
R308
1000P
94
+7V
D_CT-
1800P
LSBIN
DAC-SR
C536
95
DAC06
C537
RSBIN
DAC-BL
1.2K
C313
96
2.7K
1000P
LBBIN
DAC-BR
DAC07
C314
97
DAC08
R348
1000P
RBBIN
DAC-SW
1000P
C353
98
R307
R314
220P
C215
100K
R241
C280
100
C282
VOL02
DAC01
C325
R326
D_CT+
C538
SWBIN
GND
1500P
99
LOUT
1500P
100
ISIG23
ISIG24
5
1.2K
1
1500P
2
C304
3
ROUT
LBOUT
SWOUT
4
COUT
5
LSOUT
6
RSOUT
7
RBOUT
8
GND
9
FIL_BL2
FIL_TL
FIL_BR2
10
FIL_BL1
11
TCAP
12
5
DVD_R
8
+15V
10K
R345
C352
VOL-L
VOL-R
VOL-C
VOL-SL
VOL-SR
VOL-BL
VOL-BR
VOL-SW
1uF
C269
13
FIL_BR1
14
FIL_TR
V+
ADR
-V
L1IN
R1IN
DCCAP_RB
L2IN
R2IN
L3IN
15
100
R216
3
exchange
220P
C214
100K
R240
DVD_L
4
IC32
-7V
R215
7
10/50V
exchange
ISIG22
100
DVD
C381
270P
270P
0.022u
C323
5.1K
R372
1000P
1800P
C534
C533
1500P
2.7K
1000P
VIDEO1-R
6
3.9K
C307
R214
DAC-L
C343
R328
8CH[01:08]
L7IN
C276
220P
C213
100K
100
16
N.C
ISIG21
17
N.C
VIDEO1-L
R239
43
51
R213
P/B
DAC02
R9IN
D207
D208
C
DAC01
42
REC_B1L
MINI-R
18
R6IN
49
ISIG18
1.2K
10/50V
L9IN
REC_B1R
R257
4.7
19
CVINJW1197CFC2
GND
0.1uF
20
RBIN 92
DCL_OUT
220P
C279
21
L6IN
DCR_IN
VIDEO1
C212
JK12
100K
100
ISIG17 MINI-L
ISIG04
GND
10/50V
220P
C211
100K
V1_REC_R
38
DCL_IN
220P
C210
100K
R236
R237
11
R212
R238
9
DAC-R
5
150P
5.1K
R305
GND 90
ISIG24 DVD-R
100
R/O
DAC-L
ISIG03
22
SWAIN
ISIG23 DVD-L
V1_REC_L
R5IN
41
ISIG22 VIDEO1-R
R211
GND
37
40
ISIG20 VIDEO2-R
100
36
39
ISIG21 VIDEO1-L
23
L5IN
GND
ISIG20
35
C275
VIDEO2-R
R323
1.5K
1500P
220P
C209
100K
R235
R210
L-OUT
FUNC_MUTE2
C392
C324
1.2K
C305
ISIG19
24
DCCAP_L
10/50V
DCR_OUT
VIDEO2-L
25
DCCAP_SW
220P
C206
100K
R232
R209
ISIG19 VIDEO2-L
7
33
34
100
6
R4IN
26
DCCAP_LB
C262
47/25V
ISIG16 TAPE-R
32
27
DCCAP_RS
ISIG16
C261
VIDEO2
DCCAP_R
28
DCCAP_LS
47/25V
31
DCCAP_C
L4IN
29
R3IN
220P
C205
100K
R231
30
TAPE-R
1
D_SW-
ISIG15
100
2
C342
C303
VOL02
VOL03
VOL04
VOL05
VOL06
VOL07
VOL08
0.1uF
C291
100/16V
47/25V
47/25V
C268
47/25V
C267
47/25V
C266
D204
R206
3
270P
R324
2.7K
TAPE-L
560
IC21
C320
4.7
ISIG15 TAPE-L
4
8
R534
100
3
7
R304
560p
R259
10/50V
1.2K
R306
47/25V
C265
220P
0.1uF
R205
P/B
6
4
D_SW+
D203
10
1
C277
10/50V
-7V
ISIG02
47/25V
C264
TAPE
C204
7
100K
R230
100
1.5K
560p
0.022u
T-REC-R
C293
C294
220P
R204
C263
6
C203
R/O
100K
R229
100
5
5.1K
C391
VOL[01:08]
ISIG01
C292
T-REC-L
10/50V
150P
D_FL-
CD-L
ISIG14 CD-R
D202
R203
R344
R533
C535
D201
1.2K
1500P
ISIG13
1500P
4.7
+7V
-7V
C302
R260
ISIG14
VOL01
0.1uF
0.1uF
220P
100K
C202
R228
C260
R381
C337
*option
D_FL+
C310
C350
220P
100K
C201
R227
CD_R
100
4
C322
C351
ISIG13
100/16V
3
C389
exchange
R303
R202
C371
IC31
1000P
CD-L
R281
270P
1.2K
5
C281
VOL-L
100K
1.2K
*option
VOL01
DAC02
10/50V
0.022u
R361
1.2K
1.5K
D_FR+
100
CD
DAC-R
exchange
R201
2
1800P
C532
1500P
1500P
C531
R341
1000P
1
R532
+7V
C317
CJJ4P014W
C341
C321
R322
R302
TUNER-L
TUNER-R
R234
100
5.1K
5.1K
1
1.5K
R371
VIDEO4-L
1.2K
1000P
ISIG18
R321
C309
MINI-R
R531
1000P
MINI_IN_Rch
1
R208
1/50V
R301
D_FRC301
2
JK43
D
3
220P
100K
3
220P
C513
CJJ2D008Z
JK43
JK11
VIDEO4-R
1/50V
100K
3
C406
C208
2
STEREO JACK
C207
R233
100
1
+15V
C321,322,323,324 :560P-->270P
ISIG17
From FRONT INPUT
MINI-L
2
MINI_IN_Lch
CN52
CJP03GA01ZY
R207
C413
R201 ~ R216 : 470ohm --> 100ohm
R219 ~ R223 : 470ohm --> 100ohm
R225 ~ R226 : 470ohm --> 100ohm
3.9K
AVR1600
8200pF
6
J102
J101
-15V
FUNC_MUTE
** IMPORTANT SAFETY NOTICS.
COMPONENTS IDENTIFIED BY
!
MARK HAVE SPECIAL CHARACTERISTICS.
REVISION
IMPORTANT FOR SAFETY. WHEN REPLACING ANY OF THESE COMPONENTS
USE ONLY MANUFACTURER'S SPECIFIED PARTS.
A
1
2
4
6
3
5
7
A
** THE UNIT OF RESISTANCE IS OHM.
K=1000 OHM , M=1000 KOHM
** THE UNIT OF CAPACITANCE IS MICROFARAD. (uF)
ISSUE
-6
pF=10 uF
SCHEMATIC DIAGRAM
** THIS SCHEMATIC DIAGRAM MAY MODIFIED AT ANY TIME WITH THE
IMPROVEMENT OF PERFORMANCE.
MP
2008.10.18
DESIGN
C.B.LEE
152
AVR 1600/160
MODEL
08.10.18
CHECK
APPROVE
W.Y.YANG G.S.WEY
SHEET
1
3
DRAWING NO
CUP12176SCEZ
(INPUT)
1
1
5
4
3
1
harman/kardon
Q5
HDMI_SCL
HDMI_SDA
HD_RX_R7
HD_RX_R6
HD_RX_R5
HD_RX_R1
HD_RX_R0
HD_RX_R1_30
HD_RX_R0_30
HD_RX_R1_36
HD_RX_R0_36
HD_RX_G7
HD_RX_G6
HD_RX_R4
HDMI TX:RED_8Bit
D
15
10K
C819
0.01uF
100_NC
14
OE
DATA
2
HDMI_SCL
CLK
3
HDMI_SDA
R853
R856
HD_RX_G5
VCC
1
CE
EX_EN
16
IC103
100
HDMI TX:RED_10Bit
R858 0
1000P
HDMI TX:GREEN_10Bit
HDMI TX:GREEN_8Bit
R857 0_NC
CHGND
C823
+3.3V_MCU
HDMI TX:RED_12Bit
HD_RX_R3
+5VV
HDMI TX:GREEN_12Bit
HD_RX_G3
PORT_EXTEND
CUP12178
HD_RX_R2
AVR1600
D
2
HD_RX_G4
6
PD/AD_7510
13
Q6
#25(2): Deleted PWRDNB
100
HDMI_AUDIO_ON
12
5
R850
Q7
4
100
HDMI_HPD2
Q2
R852
TC74HC4094FN
100
HDMI_HPD1
Q1
R851
DDC+5V
R846
DDC+5V
Q8
Q'S
QS
Deleted Mute_out
11
Q3
Q4
6
7
8
GND
100
HDMI_HPD3
0
0
R828
2K
R876
2K
10
R829
+5VV
R873
9
#25(2): Deleted SHARED_EDID
R875
R847
0
R874
0
-5VV
+3.3V_MCU
8
10
12
13
14
15
16
17
18
19
20
21
COMP_PR
C851
0.1uF
22
2K_NC
24
R866
51
NC
32
31
30
29
28
27
26
JK91
1
2
3
4
D2 SHIELD
5
39
4
6
3
1
D1 SHIELD
8
37
2
L801
7
PD/AD_7510
38
35
C831
0.1uF
34
2
3
1
4
2
3
L804
10
36
33
32
31
D1 SHIELD
L802
C832
CE REMOTE
0
R809
30
0.1uF
29
28
C
12
33
4
14
34
1
D2 SHIELD
L803
16
35
40
0.1uF
GND
27
26
25
DDC CLK
DDC DATA
C817
0.1uF
C826
0.1uF
18
36
3
C816
9
37
41
2
42
11
38
4
13
39
1
43
15
40
44
17
52
53
23
41
ADV7510_INT
45
10K
D26
D27
D28
D29
D30
D31
D32
D33
D34
D35
SDA
SCL
9
42
46
C834
0.1uF
19
7
43
0.1uF
R848
6
C815
0.1uF
#16: Connect to MCU
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
5
C886
7
ADV7510_INT
5
8
ADV7604_INT
6
11
4
DVDD
9
10
EX_EN
3
44
C801
47
#32: Added pull_down
HP DET
47K
VSYNC
2
45
#27: Added pull-down resistor
R808
11
12
1
46
48
CEC
2K_NC
49
8.2K
100
47
R865
0.1uF
R823
99
48
C829
1K
98
HDMI_SDA
HDMI_RESET
72
D19
D20
D21
D22
D23
D24
D25
97
49
50
R824
100
96
50
BGVDD
HDMI_SCL
95
Int is Interrupt signal output,
CMOS Logic Level. A 2K pull-up resistor
to interrupt the
MCU I/O Supply is recommended
51
25
HD_RX_VS
94
24
99
93
23
Sync & Control
#26: Connect to MCU
92
CVIADV7510
0.1uF
HD_RX_HS
R839
13
14
98
91
52
CEC_CLK
DVDD
CEC_IN
DVDD33
GND
INT
GND
TX2+
TX2AVDD
TX1+
TX1PD/AD
GND
TX0+
TX0AVDD
TXC+
TXCGND
HPD
AVDD
R_EXT
IC102
0.1uF
18
17
15
16
Added 08.11.12
MUTE_OUT
DDC+5V
IC104
5V
C825
C824
GND
0.1uF
2
SYNC1
+5VV
4
3
2
1
8
7
6
5
RN91
33ohm (1005SIZE X 4),1/16W
33_NC
1
R830
1000P
C809
In Out
0.1uF
HDMI RX/TX Part Voltage Regulator
C805
C804
10/16V
3
10/16V
COMP_Y
TMDS Signal Amplitude Circuit
+1.8V_AVDD
COMP_PB
+1.8V_PLVDD
3
2
4
+8VV
1
BN54
97
HD_RX_DE
100
CJP18GB143ZB
TO AVR160 VIDEO B'D
96
HD_RX_B0_36
90
53
C828
95
HD_RX_B1_36
89
DVDD
DVDD
D17
CLK
D16
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
DE
HSYNC
GND
GND
22
94
HD_RX_B0_30
88
54
0.1uF
HD_RX_B1_30
87
55
C837
93
86
56
21
92
HD_RX_B0
85
57
20
HD_RX_B1
84
58
19
91
83
59
18
HD_RX_B2
82
60
17
90
81
61
16
89
HD_RX_B3
80
62
15
HD_RX_B4
79
63
14
88
78
64
13
HDMI TX:BLUE_8Bit
+8VV
HDMI TX:BLUE_10Bit
HDMI TX:BLUE_12Bit
-5VV
+5VV
87
HD_RX_B5
77
65
MCLK
I2S0
I2S1
I2S2
I2S3
SCLK
LRCLK
GND
DVDD
GND
PVDD
GND
GND
PVDD
PVDD
86
HD_RX_B6
66
12
85
HD_RX_B7
7
67
11
84
HD_RX_G0_36
68
10
6
69
9
HD_RX_G1_36
70
8
83
71
7
HD_RX_G0_30
72
6
82
73
5
81
HD_RX_G1_30
73
D18
75
80
HD_RX_G0
74
4
10/16V
C905
79
HD_RX_CLK
5
77
78
HD_RX_G1
0.1uF
2
0.1uF
76
GND
DSD0
DSD1
DSD2
DSD3
DSD4
DSD5
DSD_CLK
SPDIF
HD_RX_G2
3
C904
IN OUT
GND
0.1uF
C907
10/16V_NC
4
C906
4
2
3
3
5
1
2
76
3
C877
0.1uF
2
1
9V
6
CWB07
C854
IC105
1
BN82
1
75
7
TO AVR160 POWER B'D
C
+1.8V_DVDD
74
GND
+8VV
DDCSDA
DDCSCL
+3.3V_TVDD
GND
B
DSP_SCLK
DSP_LRCK
DSP_SD0
DSP_MCLK
9
DSP_SPDIF
HDMI_SCLK
7
HDMI_MCLK
HDMI_LRCK
HDMI_SDATA3
HDMI_SDATA2
DSP_SCLK
DSP_LRCK
10/16V
C850
C914
10/16V
+3.3V_TVDD
51
R ->51R * 3
R836
51
R832
51
R834
L809
DSP_SD0
+3.3V_MCU
R835
R ->24R * 3
HDMI_SDATA1
L810
HDMI_SDATA0
TVDD_3.3V
HDMI_SPDIF
0.1uF
1
C917
L812
DSP_MCLK
PR_IN
DVDDIO_3.3V
DSP_SPDIF
0.1uF
L811
2
22/6.3V
C811
COMP_PR
0.1uF
R837
24
PB_IN
C818
0.1uF
COMP_PB
10/16V
C812
In Out
Sync Dectect Issue Fix
C814
24
3
1M
B
3.3V
1Mohm * 2
C912
Y_IN
ADDED Pull_down Registor
1M
0.1uF
R833
R883
C810
COMP_Y
R882
IC108
24
HVD1SR159-200
D901
IC106
D902
1
OUT
D904
IN
D903
GND
2
3
+3.6V
DVDD_1.8V
22/6.3V
0.1uF
C908
C902
L808
0.1uF
C903
10/16V
C909
1.8V
1
3
2
5
4
6
8
11
10
13
12
15
14
17
16
BN15
TO DSP PCB
IC110
1
OUT
GND
IN
2
3
1.8V
L805
CVDD_1.8V
L806
22/6.3V
0.1uF
C922
C921
0.1uF
C920
10/16V
C919
+3.6V
PLVDD_1.8V
L807
AVDD_1.8V
10/16V
C879
10/16V
C822
A
10/16V
C878
REVISION
1
#19: Added Cap
IC109
1.8V
L815
+1.8V_PLVDD
L814
0.1uF
C833
10/16V
C821
0.1uF
C827
10/16V
C866
0.1uF
C876
10/16V
3
5
7
AVR160_HDMI_TX
MODEL
09.02.04
HDMI RX_TX
DESIGN
LPP
153
6
A
SHEET
ISSUE
+1.8V_AVDD
C820
22/6.3V
C916
+1.8V_DVDD
C915
1
4
SCHEMATIC DIAGRAM
L813
2
0.1uF
In Out
GND
0.1uF
C913
10/16V
C918
3
2
CHECK
APPROVE
S.K
W.Y.Y
K.S.W
CUP12178
09.02.04
09.02.04
09.02.04
(HDMI-Output)
2
2
DRAWING NO
1
1
6
5
4
3
2
1
harman/kardon
AVR1600
D
D
CUP12167Z
C
C
EN
COMP
FB
GND
5
SW
6
VIN
7
BS
SI8005Q
CVISI8005QTL
68K
22K
R54
R50
8
SS
IC50
+5VDD
1
2
3
4
+5VDD
PW_GND
L51
7
150/16V
470/16V
C51
C52
0.1uF
47K
0.01uF
C50
0.01uF
C58
C55
C53
220P
62k
0.1uF_NC
C54
R51
0.1uF
C57
C56
150/25V
3
1
5
4
2
L50
47UH/3A
CN50
CJP08GB142ZB
6
+15V
5.1K
D50
CVDSS34SR
+15V
R53
22UH/3A
R52
8
+15V
PW_GND
PW_GND
DC/DC REGUALTOR
B
B
REVISION
1
A
LPP
ISSUE
2
4
6
3
5
7
SCHEMATIC DIAGRAM
MODEL
AVR1600
DESIGN
CHECK
APPROVE
A
SHEET
5
5
DRAWING NO
09.02.04
154
S. KIM
W.Y YANG
09.02.04
09.02.04
G.S WEY
09.02.04
CUP12167Z
DC/DC REGUALTOR
1
1
5
4
3
harman/kardon
CUP12168-3
FIP PCB
CN74
C252
1
C107M
100
2
3
VOL_EN2
R202
R211
2.7K
R213
0.1uF
R203
V/R_GND
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
R201
CVD1L0345W31BOCT201V
0.022
R252
1K
R113
VOL_LED_CTRL
4
Q252
VOL_LED_CTRL
2.2K
R251
+5VD(F)
* ESD *
* OPTION *
D201
VOL_LED
4
TO VR JACK PCB
3
VOL_EN1
D
FROM FIP PCB
1
2
Q251
A1271Y
ST+5VC(F)
[VOLUME PCB]
C213
BN74
BN74
VOL_LED
5
CUP12168-1
1
CUP12168*
0.022
AVR1600
2
CN74
6
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
DESIGN
LPP
2009.02.18
155
J.H.L
09.02.18
CHECK
APPROVED
W.Y.Y G.S.W
09.02.18
09.02.18
DRAWING NO
2168SCLZ
(FRONT)
1
1
6
5
4
3
2
harman/kardon
AVR1600
1
TVDD_3.3V
PLVDD_1.8V
D
AVDD_1.8V
0.1uF / 16V
C869
0.1uF / 16V
C868
0.1uF / 16V
C867
0.1uF / 16V
C870
0.1uF / 16V
C861
0.1uF / 16V
C880
0.1uF / 16V
22/6.3V
C881
22/6.3V
C901
C896
0.1uF / 16V
C862
0.1uF / 16V
C863
22/6.3V
C860
0.1uF / 16V
C838
0.1uF / 16V
C835
0.1uF / 16V
C839
0.1uF / 16V
C847
0.1uF / 16V
C846
0.1uF / 16V
C848
0.1uF / 16V
C845
0.1uF / 16V
C844
0.1uF / 16V
C843
0.1uF / 16V
C842
0.1uF / 16V
C853
0.1uF / 16V
C841
0.1uF / 16V
C856
0.1uF / 16V
22/6.3V
C859
C849
CUP12178
22/6.3V
C911
DVDD_1.8V
D
DVDDIO_3.3V
CVDD_1.8V
18
R810
PWR3
17
0.1uF
R812
47K
16
C802
AVDD_1.8V
PLVDD_1.8V
TVDD_3.3V
13
6
HD_RX_G2
7
HD_RX_G1
HD_RX_G0
33ohm (1005SIZE X 4),1/16W
HD_RX_G1_30
HD_RX_G0_30
HD_RX_G1_36
HD_RX_G0_36
B
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
HD_RX_B0
3
6
7
HD_RX_B1_36
HD_RX_B0_36
CRJ10DJ330T
R831
1
2
should be Pull_Down
0.1uF / 16V
C852
0.1uF / 16V
C840
HD_RX_CLK
10K
5
6
HD_RX_HS
HD_RX_VS
HD_RX_DE
#23: should be Ground
T12
AVLINK
E2
CEC
RN102
RTERM
5
7
8
33ohm (1005SIZE X 4),1/16W
5
RN103
+3.3V_MCU
10K
DDCC_SCL
DDCC_SDA
RXC_5V
RXC_CRXC_C+
RXC_0RXC_0+
RXC_1RXC_1+
RXC_2RXC_2+
H11
H12
J18
J17
J12
J11
K11
L11
M11
M17
M18
R14
R17
R18
T14
U14
V14
V18
6
AGND1
AGND2
AGND3
AGND4
AGND5
AGND6
AGND7
AGND8
AGND9
AGND10
AGND11
AGND12
AGND13
AGND14
AGND15
AGND16
AGND17
AGND18
2
G4
EP_SCK
G3
EP_CS
F4
EP_MOSI
F3
EP_MISO
33ohm (1005SIZE X 4),1/16W
6
1
DDCB_SCL
DDCB_SDA
RXB_5V
RXB_CRXB_C+
RXB_0RXB_0+
RXB_1RXB_1+
RXB_2RXB_2+
B
6
5
4
3
2
OE2 A1
VCC OE1
14
15
16
17
18
19
20
A2
Y1
13
A3
12
A4
11
100
A5
Y2
IC107
Y3
PWR2
ON : HIGH
1
Y4
10K_NC
7
A6
47K
8
A7
R813
9
Y5
0.1uF
R814
10
Y6
C803
R815
A8
22K
Y7
R803
Q808 KRC103S
TC74VCX541FT
HDMI_HPD2
15
13
14
Sync & Control
33ohm (1005SIZE X 4),1/16W
7
RN92
8
R877
HD_RX_B1_30
HD_RX_B0_30
8
#11: Added 10K
U8
J3
K4
K3
J4
L3
L4
P4
P3
5
4
1
3
2
08.10.13
33ohm (1005SIZE X 4),1/16W
Y8 GND
17
R860
1K
D10
HD_RX_B1
V10
V6
V1
U10
U6
T10
T4
T3
R10
R4
R3
M10
M9
M4
M3
M2
L10
L9
K10
K9
J10
J9
J8
J2
J1
H10
H9
H8
H7
G10
G9
G8
G7
F18
F15
E16
E15
D9
C16
C15
C14
C13
C10
C9
C8
C5
A18
A6
A1
1K
R807
R804
Q804 KRC103S
18
19
47K
Q802 KRA102S
16
1K
RN93
2
DCLKIN
MCLKOUT
SCLK
LRCLK
SPDIF
I2S3
I2S2
I2S1
I2S0
R864
10K
47K-->10K : 090103
10K-->4.7K : 090417
#3 : I2C Pull-up (Optional)
3
DDCA_SCL
DDCA_SDA
RXA_5V
RXA_CRXA_C+
RXA_0RXA_0+
RXA_1RXA_1+
RXA_2RXA_2+
10K
4
G16
G15
E4
H4
RAW_SYN_C
E3
H3
RAW_VSY_NC
R863
1
G18
TEST2
G17
TEST1
HDMI_SCL
HDMI_SDA
4
DDCD_SDA
DDCD_SCL
RXD_5V
RXD_CRXD_C+
RXD_0RXD_0+
RXD_1RXD_1+
RXD_2RXD_2+
0
0
DGND49
DGND48
DGND47
DGND46
DGND45
DGND44
DGND43
DGND42
DGND41
DGND40
DGND39
DGND38
DGND37
DGND36
DGND35
DGND34
DGND33
DGND32
DGND31
DGND30
DGND29
DGND28
DGND27
DGND26
DGND25
DGND24
DGND23
DGND22
DGND21
DGND20
DGND19
DGND18
DGND17
DGND16
DGND15
DGND14
DGND13
DGND12
DGND11
DGND10
DGND9
DGND8
DGND7
DGND6
DGND5
DGND4
DGND3
DGND2
DGND1
#21: HPD Part
R859
HD_RX_B2
C
R838
#12: Added Pull-down 500 ohm
HD_RX_B3
7
PWR2
33ohm (1005SIZE X 4),1/16W
8
D7
D6
D1
A10
B10
A9
B9
A8
B8
A7
B7
HD_RX_B4
3
PWR1
HD_RX_B5
4
JK94
1
D13
D12
D2
A15
B15
A14
B14
A13
B13
A12
B12
R867
R869
R5
SCL
T7
SDA
2
3
4
5
08.10.13
#8: Added Pull-down
RN94
1
10K
D14
D15
D3
E18
E17
D18
D17
C18
C17
B18
B17
T11
+3.3V_MCU
HD_RX_B7
HD_RX_B6
HDMI_RESET
9
6
7
R844
10K
33ohm (1005SIZE X 4),1/16W
HDMI 24/30/32Bit TTL Output
5
HD_RX_G3
8
33ohm (1005SIZE X 4),1/16W
2
13
11
12
10
8
R861
R11
ADV7604_INT
MUTE_OUT
RED:12bit
HD_RX_G4
3
14
D4
D5
B1
A5
B5
A4
B4
A3
B3
A2
B2
PWR3
#7: Added pull-up
R15
Y_MUX_OUT
C1
PWRDNB
75
75
GREEN:12bit
7
HD_RX_G5
BLUE:12bit
6
HD_RX_G6
4
0
R862
RN95
R855
10K_NC
R868
R870
R854
4.7K
R816
RESETB
#5,6 : I2C Pull-up (Optional)
4.7K
47K
R818
R879
17
0.1uF
FB_OUT
#25(2): Added pull_up & pull_down
15
16
C806
TRI1
TRI2
TRI3
TRI4
TRI5
TRI6
F1
F2
E1
R7
T8
+3.3V_MCU
PWR1
100
HS
VS_FIELD
DE
INT1
SYNC_OUT/INT2
V8
R841 10K_NC
R822
10K
22K
R817
LLC
R845 10K_NC
R819
R827
T15
R16
N15
N16
M15
M16
HDMI_HPD1
18
19
Q806 KRC103S
U15
SYNC1
T16
SYNC2
P17
SYNC3
L17
SYNC4
SYNC1
10K
R878
1K
47K
10KX4
RED:10bit
5
HD_RX_G7
8
2
1
33ohm (1005SIZE X 4),1/16W
#21: HPD Part
Q807 KRA102S
GREEN:10bit
HD_RX_R0_36
BLUE:10bit
5
6
7
8
5
6
7
HD_RX_R1_36
8
4
HD_RX_R1_30
HD_RX_R0_30
BLUE:08bit
4
RN96
33ohm (1005SIZE X 4),1/16W
5
R13
HS_IN1
T13
VS_IN1
L16
TRI7/HS_I_N2
L15
TRI8/VS_I_N2
P2
P1
N1
M1
L2
L1
K2
K1
H1
H2
G1
G2
HD_RX_R0
6
P11
P10
P9
P8
P7
P6
P5
P4
P3
P2
P1
P0
RN97
HD_RX_R1
7
AIN1
AIN2
AIN3
AIN4
AIN5
AIN6
AIN7
AIN8
AIN9
AIN10
AIN11
AIN12
HD_RX_R3
HD_RX_R2
RED:08bit
5
6
7
8
1
2
4
1
2
3
4
1
2
3
V15
V16
V17
U18
T17
T18
P18
N17
N18
L18
K17
K18
RN98
3
H15
XTALP
J15
XTALN
4
P23
P22
P21
P20
P19
P18
P17
P16
P15
P14
P13
P12
U5
V4
U4
V3
U3
V2
U2
U1
T2
T1
R2
R1
33ohm (1005SIZE X 4),1/16W
8
1
2
RN99
1
H18
REFP
H17
REFN
3
5
6
7
8
+5VV
3
M8
M7
L8
L7
J7
K8
K7
R12
SHARED_EDID
R8
CLAMPIN
U13
V13
U12
V12
U11
V11
V9
U9
V7
U7
T5
V5
2
51P
P35
P34
P33
P32
P31
P30
P29
P28
P27
P26
P25
P24
3
1
C808
DVDDIO7
DVDDIO6
DVDDIO5
DVDDIO4
DVDDIO3
DVDDIO2
DVDDIO1
4
51P
X801
28.636363MHz
3
4
C807
HD_RX_R5
HD_RX_R4
1
0.1uF
HD_RX_R6
2
C884
HD_RX_R7
3
0.1uF
10uF/6.3V
C874
C885
RN100
5
6
7
#10: Added 10uF Cap
T9
T6
R9
R6
N4
N3
N2
33ohm (1005SIZE X 4),1/16W
CVIADV7604
DVDD7
DVDD6
DVDD5
DVDD4
DVDD3
DVDD2
DVDD1
F17
D16
C12
C11
C7
C6
C3
C2
B16
B11
B6
A17
A16
A11
TVDD14
TVDD13
TVDD12
TVDD11
TVDD10
TVDD9
TVDD8
TVDD7
TVDD6
TVDD5
TVDD4
TVDD3
TVDD2
TVDD1
8
DVDDIO_3.3V
PVDD2
G12
PVDD1
G11
9
R871
U17
U16
P16
P15
M12
L12
K16
K15
K12
J16
H16
CVDD4
F16
CVDD3
D11
CVDD2
D8
CVDD1
C4
10K
AVDD11
AVDD10
AVDD9
AVDD8
AVDD7
AVDD6
AVDD5
AVDD4
AVDD3
AVDD2
AVDD1
11
10
RN101
IC101
#22: Added 10K
GREEN:08bit
12
08.10.13
CEC
HDMI_AUDIO_ON
+3.3V_MCU
#7: Added pull-up
12
C813
3
2
1
8
7
6
5
22X4
4
4
3
2
1
8
7
6
5
8
+3.3V_MCU
22X4
9
10
11
0.1uF
6
RN105
7
RN106
100K_NC
100K
R881
R880
HDMI_MCLK
HDMI_SCLK
HDMI_LRCK
HDMI_SPDIF
HDMI_SDATA3
HDMI_SDATA2
HDMI_SDATA0
1
JK93
2
3
4
5
09.03.18
Added : 100K ohm
HDMI_SDATA1
INPUT-1
0.1uF / 16V
14
#7: Added pull-up
RN104
INPUT-2
C857
DVDD_1.8V
15
CVDD_1.8V
#23: should be pull-dwon 10K
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 / 16V
R811 10K_NC
Y_IN
PR_IN
PB_IN
HP DET
+5V
GND
DDC DATA
DDC CLK
NC
CE REMOTE
CKD1 SHIELD
CK+
D0D1 SHIELD
D0+
D1D2 SHIELD
D1+
D2D2 SHIELD
D2+
22/6.3V
C858
C836
0.1uF / 16V
C887
0.1uF / 16V
C895
0.1uF / 16V
0.1uF / 16V
C894
C888
0.1uF / 16V
0.1uF / 16V
C893
C889
0.1uF / 16V
22/6.3V
C892
22/6.3V
C910
C897
0.1uF / 16V
C864
0.1uF / 16V
C883
0.1uF / 16V
C890
0.1uF / 16V
C882
0.1uF / 16V
C873
0.1uF / 16V
C872
0.1uF / 16V
C871
0.1uF / 16V
C891
0.1uF / 16V
C865
0.1uF / 16V
0_NC
R872
100
09.02.04
change Value : 47p -> 51p
C
22/6.3V
C855
R806
R802
19
#20: Shared_EDID_Option
#25(2): Deleted pull_up/Down
HDMI_HPD3
22K
R801
2
HP DET
+5V
GND
DDC DATA
DDC CLK
NC
CE REMOTE
CKD1 SHIELD
CK+
D0D1 SHIELD
D0+
D1D2 SHIELD
D1+
D2D2 SHIELD
D2+
JK92
INPUT-3
Q803 KRC103S
C898
0.1uF / 16V
22/6.3V
C899
C875
1K
47K
Q801 KRA102S
22/6.3V
C900
#21: HPD Part
I2S HDMI RX to DSP
REVISION
1
A
2
4
6
3
5
7
SCHEMATIC DIAGRAM
A
SHEET
ISSUE
MODEL
AVR160_HDMI_RX
09.02.04
DESIGN
LPP
156
CHECK
APPROVE
S.K
W.Y.Y
K.S.W
CUP12178
09.02.04
09.02.04
09.02.04
(HDMI-Output)
1
2
DRAWING NO
1
1
6
5
4
3
2
1
harman/kardon
AVR1600
CUP12176Z
2
+1V8
+5VD
+1V8
IC42
D704
D703
L702
CLZ9Z014Z
3
5
GND
0.1uF
C769
C770
C731
100/16V
C729
0.1uF
470/10V
C728
C727
0.1uF
C725
0.1uF
1000/6.3V
C766
C765
0.1uF
C768
1
AKRESET
OPT2
D
2
0.1uF
C726
100/16V
OPT3
1000/6.3V
C764
3
4
+5VD
6
1N4003SRT
L701
CLZ9Z014Z
1
2
CN17
1N4003SRT
In Out
0.1uF
3
+3V3
C730
1
3
L703
CLZ9Z014Z
OUT
GND
IN
100/16V
C601
2
+5VD
C600
0.1uF
100/16V
C603
C602
0.1uF
100/16V
C605
C604
0.1uF
100/16V
C607
C606
0.1uF
100/16V
C609
C608
0.1uF
100/16V
C611
C610
0.1uF
100/16V
C613
C612
0.1uF
100/16V
C614
0.1uF
100/16V
C615
C618
C617
C616
0.1uF
100/16V
0.1uF
C619
100/16V
C621
IC52
HVINJM2391DL133
CS497** VDD * 8EA
C620
0.1uF
100/16V
C622
C623
0.1uF
100/16V
C624
0.1uF
C625
100/16V
C626
C627
0.1uF
100/16V
C628
0.1uF
100/16V
C629
D
C630
C631
0.1uF
CS497** VDDIO * 8EA
1
+3V3
0.1uF
C771
AKCE
OPT1
0.1uF
DSPDATA
C772
D_OUT
0.1uF
SCP1_BSY
DSPCLK
COAX4
SCP1_CS
SCP1_IRQ
F_COAX
AD13
AD12
SD1
SD2
7
8
1
2
3
4
1
2
3
4
DQ2
DA11
DQ3
RN81
SD7
C760
0.1uF
SD4
VDDQ
LDQM
4
SD3
5
1
8
4
SD_D8/EXT_D8
DA0
SD_D9/EXT_D9
DA1
SD2
_WE
SD1
_CAS
SD0
_RAS
33X4
49
48
47
44
43
42
41
DQ11 0.1uF
DA3
DQ10
DA2
VSSQ
DQ9
DA1
DQ8
DA0
NC
0.1uF
UDQM
SD3
CLK
SD6
7
3
2
33X4
DA8
A2
GNDIO2
EXT_WE#
A3
1
DA9
+3V3
R743
C761
15P
75
33
32
A8
AD8
A7
AD7
A6
AD6
A5
AD5
A4
AD4
31
18
19
AD9
VSS
AD3
AD2
AD1
AD0
AD12
AD13
VDD
R749
0.1uF
SD_D1/EXT_D1
30
6
5
8
RN84
A1
SD7
C776
A9
29
DA7
SD_D15/EXT_D15
A0
28
1
DA6
SD_D14/EXT_D14
+3V3
C762
27
2
DA5
SD_D13/EXT_D13
A10/AP
26
3
DA4
4
7
33X4
20
RN83
21
BA
+3V3
C763
NC
22
_CS
SD5
VDDIO3
SD_D0/EXT_D0
DA4
CKE
23
2
1
4
SD_D11/EXT_D11
+3V3
DQ12
VDDQ
24
7
5
DA3
6
DA2
8
SD_D10/EXT_D10
SD_D12/EXT_D12
DA5
3
RN82
GNDIO3
+3V3
25
09.03.23
3
7
For EMC
6
SD_DQM1
SD6
2
120
33X4
8
R740
DQ13
SD[0:7]
+1V8
SD_CLKOUT
C
VSSQ
40
DQ7
SD[0:7]
VDD3
0
DA6
38
DA15
37
SD_A12/EXT_A12
36
DQ6
11
DA14
SD_A11/EXT_A11
12
GNDD3
13
VSSQ
AD9
14
33
10
AD8
15
R765
R739
DQ14
39
DQ5
9
33
16
R764
SD_D2/EXT_D2
SD_D3/EXT_D3
DQ4
DA13
+3V3
45
6
0.1uF
DA12
VDDIO4
SD_CLKIN
DA7
VDDQ
VDDQ
17
5
C759
35
AD7
SD_A7/EXT_A7
SD_CLKEN
DQ15
34
2
1
6
AD6
7
4
3
+3V3
SD_A6/EXT_A6
8
8
7
AD5
GNDIO4
SD_A9/EXT_A9
VSS
33X4
SD_A5/EXT_A5
SD_A8/EXT_A8
50
1
2
DA10
AD[0:19]
SD4
33
RN85
33X4
2
3
4
R741
1
R742
33X4
DATA
DA10
DA11
DA12
DA13
DA15
DA14
4
B
RN87
3
8
DAO00
2
DAO01
DAO03
1
7
8
DA[0:15]
3
2
1
14
15
16
17
18
19
20
A2
13
A3
12
A4
11
+3V3
ON : HIGH
2
HDMI_SW
1
C734
<=> HDMI BOARD
2
1
0.1
Q738
KRC103S
CN15
4
HDMI_1_SW
HDMI M_SW
R813
33
R814
33
R815
33
12
33
11
R816
13
33
16
H : B & HDMI on
IC54
HVITC74VHC157FT
R700
14
DIR_MCLK
0
15
R1
10
9
8
7
6
5
4
3
HDMI_SPDIF
29
30
12
EXT_A19
88
11
EXT_A18
87
EXT_D13/SD_D5
31
EXT_A17
85
EXT_D12/SD_D4
32
34
9
8
EXT_A16
84
6
EXT_A15
82
35
37
5
EXT_A14/SD_A13
77
3
EXT_A13/SD_A14
75
19
20
7
3A
2Y
3B
8
2B
GND
3Y
55
EXT_D6/SD_D14
41
48
EXT_A10/SD_A11
56
EXT_D5/SD_D13
42
46
EXT_A9/SD_A9
58
32
EXT_D4/SD_D12
43
45
EXT_A8/SD_A8
59
31
EXT_D3/SD_D11
45
43
EXT_A7/SD_A7
61
30
EXT_D2/SD_D10
46
42
EXT_A6/SD_A6
62
29
EXT_D1/SD_D9
48
40
EXT_A5/SD_A5
64
28
EXT_D0/SD_D8
49
39
EXT_A4/SD_A4
67
27
EXT_A3/SD_A3
68
24
EXT_A2/SD_A2
70
23
EXT_A1/SD_A1
71
22
EXT_A0/SD_A0
72
21
REVISION
2
4
6
3
5
7
A
15
4Y
14
5
2A
EXT_A11/SD_A12
SCHEMATIC DIAGRAM
SHEET
ISSUE
13
4B
40
HDMI_SDATA1
HDMI_SDATA2
HDMI_SDATA3
HDMI_LRCK
GND
HDMI_SCK
HDMI_MCLK
DSP_SPDIF
DSP_MCLK
DSP_DATA0
DSP_LRCK
DSP_SCLK
GND
GND
MP
AVR 1600/160
MODEL
12
4
1Y
74
49
1
11
4A
EXT_A12/SD_A10
EXT_D7/SD_D15
2007.10.18
DESIGN
CHECK
APPROVE
2
3
DRAWING NO
10
3
1B
39
2
+3V3
C.B.LEE
9
2
ST
6
1A
HDMI_SPDIF
HDMI_SDATA0
0.1uF
VCC
C791
SEL
16
1
17
L : A & HDMI off
GND
SDRAM
EXT_D15/SD_D7
EXT_D14/SD_D6
EXT_D8/SD_D0
3
5
VCC OE1
6
OE2 A1
7
Y1
8
Y2
9
Y3
4
10
CS49700
SDRAM
EXT_D9/SD_D1
10K
Address
CS49700
EXT_D11/SD_D3
R732
A5
3
5
6
Y4
2
6
5
8
+3V3
IC53
TC74VCX541FT
RN89
1
7
1
7
EXT_D10/SD_D2
Pull-up(2008.12.26)
7
8
2
6
33
5
DAO00
DAO01
DAO02
10KX4
6
3
DAO02
33X4
RN93
DAI_D0
DAI_D1
DAI_D2
DAI_D3
DAO02
DAO01
DAO03
DAO00
5
4
DAO[00:03]
DIGITAL AUDIO OUT DATA
+3V3
A
DQ1
3
7
6
5
RN79
DA9
VSSQ
+1V8
EXT_CS2#
DQ0
4
AD4
SD_A4/EXT_A4
DA8
5
4
3
2
AD3
1
8
AD2
SD_A3/EXT_A3
6
98
96
94
93
92
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
AD1
GNDD4
VDD4
VDD
0.1uF
33X4
64
63
62
61
SD_A2/EXT_A2
RN78
DA[0:15]
VDDIO2
60
SD_D4/EXT_D4
59
SD_D5/EXT_D5
57
58
SD_D6/EXT_D6
SD_D7/EXT_D7
SD_DQM0
56
55
C758
VDDIO5
+3V3
DAO1_D2
DIR_MCLK
FL/FR/DAO00
CEN/SUB/DAO02
OPT1
OPT2
OPT3
COAX1
COAX2
OPT4
HDMI_SPDIF
COAX4
100/16V
R720
0
SL/SR/DAO01
SBL/SBR/DAO03
C790
C789
C787
C784
C783
C782
3.3K
0.022u
C703
C704
+5VD
0.1uF
+3V3
33
1000P
C781
C780
R718
C721
C722
470/10V
0.1uF
+1V8
+3V3
+1V8
0
GNDD2
DAO_MCLK
R751
R704
C753
C754
100/16V
0.1uF
C750
C756
100/16V
0.1uF
50V/0.01u
50V/0.01u
50V/0.01u
50V/0.01u
50V/0.01u
50V/0.01u
R717
10K
+3V3
+5VD
DAO2_D1/HS4
D_FL+
D_FL-
91
11
12
13
14
15
16
17
18
19
20
21
22
23
24
39
DAO2_D2
54
DBCK
VDD2
10K
33
R753
53
DBDA
DAO1_LRCLK
10K
R747
+3V3
10
R726
0
R725
RXP2
RXP3
RXP4
RXP5
RXP6
RXP7
RXP8
VARX
AGND
LPFLT
MUTEC
AOUTA1-
AOUTA1+
AOUTB1+
AOUTB1-
AOUTA2-
R754
52
48
GNDIO1
47
DAO1_SCLK
46
33
45
51
44
R748
43
50
42
DAO1_D0/HS0
41
VDDIO1
40
A6
39
Y5
38
A7
37
Y6
36
A8
35
Y7
34
49
DAO2_D3/XMTB
48
DAI2_DATA/DSD5
+3V3
DAO1_D1/HS1
+5VD
RXP1
47
TXP
DAO1_D2/HS2
DAI2_SCLK
DAO1_D3/XMTA
DAI2LRCK/PREQ
VD
46
DGND
DAO2_LRCLK
GNDIO8
45
DAI1_LRCK/DSD4
10
9
33
33X4
25
3
2
1
RN90
VLS
26
4
8
SDTO2
D_CT-
D_FR+
DAI1_SCLK/DSD-CLK
56
32
33
D_FR-
R752
VDDIO8
+3V3
GNDD1
SAI_SDOUT
R711
27
MCKO
28
SDTO1
29
CX_SDOUT
RMCK
DAI1_DATA0/DSD0
30
1M
DAI1_DATA1/DSD1
44
49
1K
43
50
31
R762
DAO2_SCLK
30
ADCIN2
GNDD8
42
51
1K
VDD1
29
R761
DAO2_D0/HS3
AOUTA2+
D_CT+
52
R712
ADCIN1
Y8 GND
AOUTB2+
D_SW+
28
OMCK
82
41
D_SW-
53
DAI1_DATA2/DSD2
TEST
AOUTB2-
54
27
DAI1_DATA3/DSD3
82
AOUTA3-
D_SL-
55
26
LRCK2
33X4
40
AOUTA3+
D_SL+
56
IC51
25
SAI_LRCK
VDD8
+1V8
31
AOUTB3+
D_SR+
CS42528-CQ
24
BICK2
RN91
32
AOUTB3-
D_SR-
57
SAI_SCLK
L704
CLZ9R005Z
33
AGND
23
CX_SDIN4
4
VA
58
VDDA(3.3V)
3
AOUTA4-
D_BL-
59
22
PLL_REF_RES
NC
2
AOUTA4+
D_BL+
21
GNDA
1
D_BR+
60
5.1K(1%)
7
AOUTB4+
61
20
0
6
AOUTB4-
XTI
CX_SDIN3
5
19
R767
8
18
R768
7
63
+3V3
6
64
17
CX_SDIN2
5
1
62
D_BR-
R760
CX_SDIN1
2
C739 0.01u
3
24.576Mhz
X701
BICK1
CX_SCLK
CX_LRCK
4
1uF
5
C738
6
VD
DGND
VLC
7
100/16V
8
15P
9
C702
10
CCLK
CDTO/DOUT
CDIN/DATA
CSN
11
XTAL_OUT
2009.03.30
330
XMCK
15P
12
For EMC
XTO
C701
13
INT
AINR-
14
R759
C737
FILT+
15
RESET
LRCK1
VQ
AINR+
AINL+
AINLC719
100/16V
0.1uF
C720
16
GNDD7
34
UART_CLK/EE_CS#
IC55
CVICS497024CVZ
35
5
1
UART_RXD
AD+LIN
36
2
6
AD-RIN
VDD7
37
4
3
UART_TXD
+1V8
38
8
7
GPIO3/DDAC
AD+RIN
95
8
GNDIO7
10KX4
RN88
AD-LIN
97
6
7
1
5
VDDIO7
+3V3
IC44
CVIM12L16161A5TG
AD0
SD_A1/EXT_A1
5
1
2
4
5
3
2
6
PCP/SCP2_CS
C752
C773
100/16V
0
0.1uF
C705
C706
100/16V
+5VD
0.1uF
4
8
7
SCP1_CS
33
R737
SD_A0/EXT_A0
46
103
CRJ10DJ1R0T
PCP/SCP2_IRQ
0
33X4
SD_A10/EXT_A10
104
GNDIO5
SD_BA0/EXT_A13
105
106
107
108
SD_WE#
SD_BA1/EXT_A14
SD_CAS#
SD_RAS#
109
110
SD_CS#
DA[0:15]
A2/SCP2_MOSI
10KX4
RN77
33X4
112
VDD5
EXT_A16
113
EXT_A17
114
GNDD5
EXT_A19
EXT_OE#
118
119
RESET
121
SCP1_MOSI
GNDIO6
122
124
123
SCP1_MISO/SDA
VDD6
EXT_A15
+1V8
SCP1_IRQ
+3V3
C717
6
+3V3
180P
C795
75
5
3
DIR MODE : DIR MASTER
R727
C718
4.7/50V
8
AS/SCP2_MISO
RN73
R719
CJJ4S022Z
0.1uF
7
RN76
3.3K
COAX2
0.1uF
B
6
99 100 101 102
ADC MODE : DSP MASTER
125
R774
PCPDS/SCP2_CK
COX2
R757
128
180P
C794
75
R756
HDMI I2S MODE : HDMI MASTER
C798
C
+3V3
0.1uF
SCP1_CLK
10K
HDMI SPDIF MODE : DIR MASTER
+3V3
5
R812
COAX1
COX1
6
126
C797
7
GNDD6
8
C707
75
C708
0.1uF
+1V8
127
240
R755
100P
C793
10
0.1uF
COAX_OUT
SCP1_PCP_BSY
C796
R736
0.001uF
R733
COAX
OUT
0.1uF
C743
CVIST25VF080B504CS2F
IC47
JK78
EXT_CS1#
1K
4
120
R728
3
VDDIO6
100
2
33
111
1
R721
OPT4
R724
5
SD[0:7]
4.7K
R763
COAX_OUT
F_OPT
3.3K
3.3K
0.1uF
R800
100K
SD0
8
SD5
9
R801
10
R715
AD[0:19]
3.3K
11
R775
12
3.3K
13
R776
14
C820
470/10V
C724
0.047u
C723
IC50
+3V3
10K
7
R810
6
3.3K
5
R773
4
10K
3
R811
2
HVI74HCU04AFNG
1
*OPTION : EMC COUNTERMEASUER
DSP_RESET
100
+3V3
115
4.7K
EXT_A18
100K
+5VD
SCP1_SDA
R777
116
R716
117
R714
157
07.10.18
W.Y.YANG G.S.WEY
CUP12176SCEZ
(DSP)
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
AVR1600
SIG01
18
EXCEPT AVR1600/2600
FL
SIG19
JW91_
JW91
C904
1SS133M
D912
1SS133M
0
C107MT
220P
C721
C722
C723
220P
C724
220P
220P
JW90_
4700P
1
C906
1
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
F901
2
C905
0.022u
1N5819
D1
2
1
R906
CTRL
1000/35V
1
3
CLT5I005ZE
1
VIN
D901
D962
GND
2 VOUT
7
1.0(1W)
C999
0.022u
100/16V
R905
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
0.5uH
10K
R900
IN
1
OUT
R824
SBR-CH
47 (1/4W)
L507
2
*T902
CLT5I005ZU/E
POWER_DOWN
AVR160,1600 : 2SB1559
AVR260,360,2600,3600:2SB1560
KIA78R05
GND
75
2SB1560
R787
560
R841
Q807
0.1
C913
JW90
10K
C991
5.6K
R814
BR_CH
CN90
IC94
HVIKIA7805API
OUT
0.022u
C907
1SS133M
560
D802
R845
100/16V
C812
Q825
C3198Y
Q887
C3423Y
CN93
F901 : 4A (KBA2C4000TLEZ) EUR
AVR160/230
F901 : 6.3A (KBA2C6300TLEZ) EUR
AVR260/230,360/230
KTC3199
MOMS S/W
3
47 (1/4W)
R815
D902
Q901
R912
3.3K
1.8kohm
3.3
C3199 -->
C107
F901 : 6.3A (KBA2C6300TLEY) USA
AVR1600
F901 : 8A (KBA2C8000TLEY) USA
AVR2600 / 3600
POWER_HIGH
R809
R820
3
0.7V
1SS133M
ST+5V
-1.2V
4
D963
VCC
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
D953
8.2K
R804
CN67
10/50V
SIG00
470/16V
1SS133M
R913
68(1W)
R991
C802
R874
2
R811
1
0.27*2
C851
10/50V
390
R892
22K
R833
560
R840
33P
C804
D600K
0
D911
4.7K
Q851
VR81
AVR354/
AVR355 :
220/63V
100/63V
C810
220
R859
Q822
C3200GR
R858
330P
Q821
C3200GR
+15V
C911
R807
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
0.1uF
JW93, OL91, F902 :
EXCEPT AVR1600
MODEL
ISSUE
MP
3
SHEET
2
AVR1600/2600/3600/160/260/360
7
DESIGN
CHECK
APPROVE
DRAWING NO
C.B.LEE
W.Y.YANG
G.S.WEY
2170SCLZ
2007.09.10
158
2
SCHEMATIC DIAGRAM
JW93
*All MODEL
C949 : DO NOT USE
C977 : 3.3/50V
R949 : 10K-->27K
1
(MAIN)
07.08.23
1
1
6
5
4
3
2
1
harman/kardon
AVR1600
15
14
13
13
2
14
11
12
7
9
12
15
10
7
6
5
4
3
1
In Out
8
78R05
R131
4
USB_POWER
D
3
10/50V
100/16V
CTRL
D-
22
6
D+
1
0.1uF
22
VIN
C251
R132
2 VOUT
C254
D-
5
USB +5V
4
C250
3
VID3
GND
2
CN51
1
IC26
VID3
HDMI_MUTE ADD(2008.11.17)
HDMI_MUTE
ADV7510_INT
ADV7604_INT
EX_EN
OSD_H
1321/HDMI_SCLK
1321/HDMI_SDA
+5VD
HDMI_RESET
OSD_CS1
OSD_DA
OSD_M
OSD_CLK
(L->H)
100/16V
C749
0.1uF
100/16V
C741
C740
0.1uF
C733
2200/6.3
C732
1000/6.3V
1
*option
VOL_L_CONT
D+
* MODEL OPTION *
15K
15K
R134
R133
Q731
USB GND
7
RESET
VFD_CLK
VFD_CS
VFD_DATA
VFD_RST
KEY1
KEY2
VOL_EN1
D+
D-
73
9MHz
X703
75
74
77
76
72
71
BOL_BOOT
70
67
9
RVOUT2
DVCC1A
DVSS
66
RVIN
65
13
RVIN
100K
CVITMP92FD28FG
64
12
RVOUT1
IC49
DVCC3A
63
11
DVCC1B
DVSS
62
10
DVSS
C409
61
60
5
0.1uF
59
58
56
50
49
48
47
51
52
DVCC3A
46
44 DVSS
45
0.1uF
C408
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
DVCC3A
53
54
55
20
B
47K
R130
0
+3V3
R171
B
0.1uF
4
10K
3
R140
2
C407
+3.3VC
1
21
23
24
15K
C746
R148
C745
Q732
HVTKRA107S
POWER_HIGH
R147
0.1uF
15K
0.1uF
DVSS
25
1K
15K
GPIO : Input/Out Port(without pull_up resistor)
T5CNT_BOOT
26
R158
T5CNT_RESET
22
5
7
8
4
USB_POWER
: PULL_UP
8
PC_TX
RN61
10KX4
6
1
3
2
0.1uF
2
1
C778
4
3
6
5
DSPCLK
10K
8
7
52
SCP1_SDA
R151
56
55
53
SCP1_CS
51
54
DSPDATA
100X4
50
49
48
47
SCL1
45
46
SDA1
44
43
42
41
40
39
38
37
36
35
RXD2
34
33
32
31
TXD2
/BOOT
30
RN66
R146
7
RESET
1K X 4
15K
6
RN60
R145
5
29
PC_RX
28
1197_MUTE
27 SCL0
8
57
IC94_IN5
RXD1
18
TXD1
19
IC94_IN4
TEST3
7
58
CTS0/SCLK0
RESET
57
21
RXD0
22
59
6
62
17
18
19
20
TXD0
23
USB_RX
TUNER_CS
INT5/PF7
24
TUNED
USB_TX
TEST1
26 SDA0
BOL_RST
61
TUNER_DATA
60
14
15
16
SCL2
25
5
RESET IN
3
4
TUNER_RESET
BOL_BOOT
2
CN19 CJP07GA01ZY
A107S
Q742
10K
Update: LOW
4.7K
4.7K
R723
6
R722
7
2009.01.19
Pull-Up Add
SDA2
1
FOR UPDATE(Bolero)
+3.3VC
R789
+3.3VC
DVCC
0
68
32.768KHz
1
10K
10K
R155
10K
R154
10K
R153
2
0.1uF
18p
3
7
R142
R141
C259
14
HDMI_SW
18p
69
8
XT2
/BOOT
15
HDMI_1_SW
CN5
8
SCP1_BSY
100X4
0
R168
100K
R161
0.1uF
78
79
D+
80
86
RXD0
87
RXD1
TXD1
88
89
90
100K
C410
0
R166
0.1uF
C411
92
93
94
95
96
97
R163
R150 100K
98
R149 100K
99
100
1
2
3
5
6
7
XT1
16
DVCC
DSP_RESET
C255
18p
C257
100
4
DVSS
4
RN65
R152
DAO1_D2
3
DVSS
MIC_IN
2
TEST2
T5CC1
IC48
18p
X704
+3.3VC
1
67
TB2IN1
DVCC3B
17
75
69
68
TB2IN0
X2
100K
C256
R160
C
R156
4
10MHz
1M
X702
+3.3VC
6
IC94_IN8
USE ONLY DEBUG
C742
5
10
TUNER_MUTE
22P
22P
TB7OUT
DVSS
100K
10K
+3.3VC
C258
X1
R165
66
POWER_MUTE
11
FUNC_MUTE
TB9OUT
/RESET
R164
74
72
CVCC
71
AVCC
BOL_RST
C744
65
MULTI_MUTE
10K
64
HP_MUTE
R172
REGVSS
73
X2
63
POWER_DOWN
1
70
R785
C747
2
76
77
78
XT2
XT1
79
80
NMI
81
MODE
82
83
EEPROM_SCL
EEPROM_SDA
RESET
84
85
86
87
88
TEST4
89
90
91
AN0
92
AN1
93
AN2
94
AN3
95
AN4
96
AN5
97
AN6
98
AN7
AN8
AN9
1
2
3
4
99
10K
100
31
VREFH
CVSS
6
-15V
MIC_SIGNAL
AVSS
X1
100K
7
31
POWER_DOWM <-->REMOTE_IN
2009.01.13
29
30
C785 Add(For Impulse)
2009.03.23
C785
0.1uF
8
29
+15V
9
28
P_FAIL
5
HPR-OUT
27
PROTECT_IN
12
27
26
26
28
R157
C200
HPL-OUT
25
13
25
24
24
POWER_HIGH
22
23
23
0.1uF
3
REGVCC
F_OPT
0.1uF
R786
21
C748
91
4
+3.3VC
81
4
F_COAX
22
30
IC46
CVIBR24C32AN10SU1.8
10K
USA
20
21
R788
10K
+3.3VC
8
D-
+5VD
7
1K
R793
19
3
10K
R792
EUR
ST+5V
17
1K
19
18
*OP_A
6
R162
HP_MUTE2
5
82
16
R792 : RDS ON
R793 :RDS OFF
USB_RX
HP_IN
47K
83
MIC_IN
15
R784
84
14
3
TXD0
REMOTE_IN
2
USB_TX
13
1
0
VFD_RST
2.7K
+3.3VC
R167
12
R783
85
VFD_DATA
10K
PC_TX
11
R170
PC_RX
VFD_CLK
GND
10
2.7K
3
VFD_CS
10K
VDD
9
R169
2
VOL_EN2
OUT
8
IC87
(2.8V RESET)
HVIRE5VT28CATZ
R782
1
VOL_EN1
0.1uF
KEY1
7
+3.3VC
C775
6
+3.3VC
R159
11
13
15
17
KEY2
IC94_IN1
5
7
9
8
10
12
14
16
10KX4
RN63
5
2
VOL_L_CONT
1
POWER_HIGH
3
8
2
7
1
18
20
HP_IN
HIGH(R792):RDS ON
6
3
AVR160(EUR)
5
1
BN72
2
4
CJP31GA115ZY
LOW(R793):RDS OFF
4
6
TO FRONT PCB
C
AVR1600(USA)
REMOTE_IN
OP_A(PIN94)
MODEL
VOL_EN2
A107S
0.1uF
D
FROM H/P & FRONT INPUT B'd
C735
GND
3
3
2
1
CLZ9R005Z
L705
6
11
4
10
2
IC43
CVIKIA1117S33
TO VIDEO PCB
9
CJP15GA115ZY
5
CN14
8
+3.3VC
V3 COMP
ST+5V
PIN 85
VIDEO_SW5
VIDEO_SW5
OSD_M
PIN 80
CLOCK
HDMI MUX_SDA
PIN 79
DATA_OUT
HDMI MUX_SCLK
PIN 77
DATA_IN
PIN 76
CLK-REQ
OSD_DA
47K
0.1uF
47K
RN64
100X4
C399
+3.3VC
+3.3VC
+3.3VC
10K
+3.3VC
10K
*Option
3
4
R139
R138
R136
R135
1K
R445
8
A107S
Q734
IC94_IN3
SCP1_IRQ
VIDEO_SW3
VIDEO_SW4
AKCE
PIN 84
VIDEO_SW3
VIDEO_SW4
OSD_CS1
OSD_CLK
2
D_OUT
VIDEO_SW2
AKRESET
VIDEO_SW2
PIN 83
OSD_H
N.A
7
C107S
1321/HDMI_SCLK
VIDEO_SW1
1321/HDMI_SDA
VIDEO_SW1
PIN 81
PIN 82
COMP_IN_CHECK
UART_RX(PC)
OSD_CS1
PIN 22
OSD_CLK
UART_TX(PC)
UART_RX(TORINO&PC)
OSD_DA
UART_TX(TORINO&PC)
UART_RX(TORINO&PC)
OSD_M
UART_TX(TORINO&PC)
ADV7510_INT
PIN 21
6
VOL_L_CONT
ADV7604_INT
N.C
EX_EN
TORINO_RESET
HDMI_RESET
TORINO_RESET
2008.11.17(pull-up add)
PIN 86
TUNER_SCK
N.A
HDMI_MUTE
HDMI_MUTE_IN
MULTI_MUTE
Q741
5
1
IC94_IN2
HDMI_MUTE_IN
T5CNT_BOOT
PIN 97
1159_LATCH
AVR155
1197_DATA
AVR355
1197_CLK
AVR255
1197_LATCH
U-COM
R137
2K
+3.3VC
T5CNT_BOOT
OSD_H
REVISION
1
A
2
4
6
3
5
7
SCHEMATIC DIAGRAM
ISSUE
MODEL
MP
2007.10.18
DESIGN
C.B.LEE
159
07.10.18
AVR 1600/160
CHECK
APPROVE
W.Y.YANG G.S.WEY
A
SHEET
3
3
DRAWING NO
CUP12176SCEZ
(CPU)
1
1
6
5
4
3
2
1
harman/kardon
AVR1600
7 P Wire Ass'y
BN82
HDMI PCB
( CUP12178 )
Video PCB
( CUP12174 )
D
D
BN54
CN18
18P Board to Board
BN15
BN14
CN51
CN15
CN14
17P Card Cable
15P Card Cable
6P Board to Board
Input (DSP) PCB
( CUP12172-3 )
27P Card Cable
Plug
3P Shield Wire Ass'y
CN19 (DEBUG FOR MCU F/W UPDATE)
CN5 (DEBUG FOR USB F/W UPDATE)
CN17
BN17
CN52
( CUP12176 )
MONS
SWITCH
31P Card Cable
7P Wire Ass'y
CN20
BN72
C
Power1
PCB
BN20
5P Wire Ass'y
Main PCB
( CUP12170 )
BN26A
2P 2P
TH91
BN22
CN90
CN20
5P
( CUP12172-2 )
2P
CN93
CN89
JW91_
C
BN12
CN12
BN25A
BN14
BN15
BN14A
BN15A
FAN
CN91
2P Wire Ass'y
27P Card Cable
AC IN
Digital in
PCB
7P Shield Wire Ass'y
CN92
( CUP12172-1 )
CN11
JW91
BN25
CN11
DC-FAN
CN82
THERMAL SENSOR
Main Heat Sink
BN96
CN96
PROTECT PCB
BN23
9P Wire Ass'y
BN20
7P Wire Ass'y
( CUP12172-4)
H/P PCB
( CUP12168-3 )
BN71
Front PCB
CN72
( CUP12168-2 )
( CUP12168-4 )
BN73
STAND BY PCB
BN74
2009.07.01
CN74
REVISION
31P Card Cable
1
( CUP12168-1 )
A
ISSUE
BN61
CN61
5P Wire Ass'y
M/P
Front in
PCB
12P Board to Board
Regulator PCB
B
BN51
BN52
( CUP12172-5 )
Power2
PCB
BN26
7P Shield Wire Ass'y
B
8P Board to Board
3P Shield Wire Ass'y
7P Wire Ass'y
AC POWER CORD
5P Wire Ass'y
6P Board to Board
CN73
Volume
PCB
( CUP12168-5 )
160
2
4
6
3
5
7
WIRING DIAGRAM
MODEL
A
SHEET
AVR1600 & AVR160/230
DESIGN
CHECK
APPROVE
J.H.Lee
W.Y.Yang
K.S.Wey
2171WRDZ
09.07.01
09.07.01
09.07.01
(WIRING DIAGRAM)
1
1
DRAWING NO
1
1
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