Philips DVDR985 2022

Color Television Chassis

2022ServiceServiceService

ServiceManualContents Contents1. Technical Specifications 00 2. Safety & Maintenance Instructions, Warnings and Notes 00 4. Mechanical Instructions 00 5. Service Modes, Error Codes and Faultfinding 00 6. Block Diagrams and Testpoints 00

7. Electrical Diagrams and PWB's Diagram PWB Set Wiring Diagram 1 Set Block Diagram 2 Basic Engine Block Diagram 3 Power Supply (Page 1) Schematic 4 35 Power Supply (Page 2) Schematic 5 35 Display Panel Schematic 6 37 Front AV Panel Schematic 7 39 IR and Standby Panel Schematic 8 Analog Board: All in One 1 Schematic 9 41 Analog Board: All in One 2 Schematic 10 41 Analog Board: Tuner / Demodulator Schematic 11 41 Analog Board: In / Out 1 Schematic 12 41 Analog Board: In / Out 2 Schematic 13 41 Analog Board: In / Out 3 Schematic 14 41 Analog Board: Sound Processing Schematic 15 41 Analog Board: Power Supply Schematic 16 41 Analog Board: Converter Schematic 17 41 Analog Board: RGB-YUV Converter Schematic 18 41 Analog Board: Digital In / Out Schematic 19 41 Analog Board: Fan Control Schematic 20 41 DVIO Front Board Schematic 21 43 DVIO Board: 1394 Interface Schematic 22 44 DVIO Board: Microprocessor Schematic 23 44 DVIO Board: Fifo & Control Schematic 24 44 DVIO Board: DVCODEC Schematic 25 44 DVIO Board: Audio & Video Output Schematic 26 44 Digital Board: VSM, Buffer Mem & Bit Engine Interface Schematic 27 46 Digital Board: AV Decoder STI5508 Schematic 28 46 Digital Board: AV Decoder Memory 29 46 Digital Board: Video Encoder, Empress 30 46 Digital Board: VIP CVBS Y/C Video Input 31 46 Digital Board: Analog Board Cons. Video In / Output 32 46 Digital Board: Progressive Scan - 1 33 46 Digital Board: Progressive Scan - 2 34 46 Digital Board: Power, Clock, and Reset Audio Clock 35 46 Servo Board 43015: Pre- Processor Schematic 36 58 Servo Board 43015: MACE3 Schematic 37 58 Servo Board 43015: Driver Schematic 38 58 Servo Board 43015: Decoder / Encoder Schematic 39 58 Servo Board 43015: Power Schematic 40 58 Servo Board 43353: Pre- Processor Schematic 41 60 Servo Board 43353: MACE3 Schematic 42 60 Servo Board 43353: Driver Schematic 43 60 Servo Board 43353: Decoder / Encoder Schematic 44 60 Servo Board 43353: Power Schematic 45 60 Power Supply CBA (Top View) 46 Power Supply CBA (Bottom View) 47 Display Panel CBA (Top View) 48 Display Panel CBA (Bottom View) 49 Front AV Panel CBA (Top) 50 Front AV Panel CBA (Bottom) 51 Analog Board CBA (Top View) 52

Diagram PWB Analog Board CBA (Bottom View) 53 DVIO Front Board CBA (Top View) 54 DVIO Board CBA (Top View) 55 DVIO Board CBA (Bottom View) 56 Digital Board CBA (Top View) 57 Digital Board CBA (Bottom View) 58 Layout Servo Board 43015: (Top Side) 59 Layout Servo Board 43015: (Bottom Side) 60 Layout Servo Board 43353: (Top Side) 61 Layout Servo Board 43353: (Bottom Side) 62 Layout Analog Board (Testlands Top View) 63 Layout Analog Board (Testlands Bottom View) 64 Layout DVIO Board (Testlands Bottom View) 65 Layout Digital Board (Testlands Bottom View) 66 Test Point Overview Servo Board 43015 67 Test Point Overview Servo Board 43353 68 8. Adjustments 00 9. Circuit Description 00

10. Spare Parts List 00

Copyright 2001 Philips Consumer Electronics B.V. Eindhoven, The Netherlands.All rights reserved. No part of this publication may be reproduced, stored in aretrieval system or transmitted, in any form or by means, electronic, mechanical,photographic, or otherwise without the prior permission of Philips.

©

Published by Philips Consumer Electronics Subject to modification 2005 Nov 03

Safety Instructions, Warnings, Notes, and Service Hints

Safety Instructions General Safety

Safety regulations require that during a repair:

Connect the unit to the mains via an isolation transformer. Replace safety components, indicated by the symbol � , only by components identical to to the original ones. Any other component substitution (other than original type) may increase risk of fire or electrical shock hazard.

Safety regulations require that after a repair, you must return the unit in its original condition. Pay, in particular, attention to the following points:

Route thewires/cables correctly, and fix them with the mounted cable clamps. Check the insulation of the mains lead for external damage. Check the electrical DC resistance between themains plug and the secondary side:

1. Unplug themains cord, and connect a wire between the two pins of the mains plug.2. Set the mains switch to the "on" position(keep the mains cord unplugged!). 3. Measure the resistance value between the mainsplug and the front panel, controls,

and chassis bottom. 4. Repair or correct unit when the resistance measurementis less than 1 MΩ. 5. Verify this, before you return the unit to the customer/user (ref. UL-standard no.

1492). 6. Switch the unit ‘off’, and remove the wire between the two pins of the mains plug.

Laser Safety

This unit employs a laser. Only qualified service personnel may remove the cover, or attempt to service this device(due to possible eye injury). Laser Device Unit

Feature Data

Figure: Note: Use ofcontrols or adjustments or performance of procedure other than those specified herein, may result in hazardous radiation exposure. Avoid direct exposure to beam.

Warnings General

AllICs and many other semiconductors are susceptible to electrostatic discharges (ESD, � ).Careless handling during repair can reduce life drastically. Make sure that, during repair, you are at the same potential as the mass of the set by a wrist band with resistance. Keep components and tools at this same potential. Available ESD protection equipment:

Complete kit ESD3 (small tablemat, wristband, connection box, extension cable and earth cable) 4822 310 10671. Wrist band tester 4822 344 13999.

Be careful during measurements in the live voltage section. The primary side of the power supply (pos. 1005), including the heatsink, carries live mains voltage when you connect the player to the mains (even when the player is "off"!). It is possible to touch

Type : Semiconductor laser GaAlAs

Wavelength : 650 nm (DVD)

: 780 nm (VCD/CD)

Output Power : 20 mW(DVD+RW writing)

: 0.8 mW(DVD reading)

: 0.3 mW(VCD/CD reading)

Beam divergence : 60 degree

copper tracks and/or components in this unshielded primary area, when you service the player. Service personnel must take precautions to prevent touching this area or components in this area. A "lightning stroke" and a stripe-marked printing on the printed wiring board, indicate the primary side of the power supply. Never replace modules, or components, while the unit is ‘on’.

Laser

Theuse of optical instruments with this product, will increase eye hazard. Only qualified service personnel may removethe cover or attempt to service this device, due to possible eye injury. Repair handling should take place as much aspossible with a disc loaded inside the player. Text below is placed inside the unit, on the laser cover shield:

Figure: Notes

Dolby

Manufactered under licence from Dolby Laboratories. “Dolby”, “ProLogic” and the double-D symbol are trademarks of Dolby Laboratories. Confidential Unpublished Works.©1992-1997 Dolby Laboratories, Inc. All rights reserved.

Figure: Trusurround

TRUSURROUND, SRS and symbol (fig 2-4) are trademarks of SRS Labs, Inc. TRUSURROUND technology is manufactured under licence frm SRS labs, Inc.

Figure: Video Plus

“Video Plus+” and “PlusCode” are registered trademarks of the Gemstar Development Corporation. The “VideoPlus+” system is manufactored under licence from the Gemstar Development Corporation.

Figure: Macrovision

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

TechnicalSpecifications and Connection Facilities

General:

RF Tuner

Test equipment : Fluke 54200 TV Signal generator Test streams : PAL BG Philips Standard test pattern System:

NTSC-M (USA/BTSC-Stereo+SAP) Rf - Loop Through:

Radio Interference:

Receiver:

Feature DataMains voltage : 120V (90 -140VAC)

Mains frequency : 50 Hz - 60Hz

Power consumption mains : 32 W (typical, record)

Power consumption standby : < 7 W

Power consumption low power stand-by : < 3 W

Feature DataFrequency range : 45 MHz - 860 MHz

Gain: (ANT IN - ANT OUT) : -4 dB /±2 dB

Feature Datainput voltage /3tone method

(+40 dB min) : typ. 80 dBμV at 75 Ω

PLL tuning with AFC for optimum reception

Video Performance:

Channel 25 / 503,25 MHz Test pattern: PAL BG PHILIPS standard test pattern Modulation 54 % RF Level 74 dBV Measured on YUV-EXT1

Audio Performance:

Audio-BTSC:

Audio-SAP:

Feature DataFrequency range: : 45.25 MHz - 860 MHz

Sensitivity at 40 dB S/N : ≥ 60dBμV at 75 Ω (video unweighted)

Feature DataFrequency response: : 0.5 MHz - 4,00 MHz ± 2 dB

Group delay ( 0.1 MHz - 3.3 MHz ) : 0 nsec ± 30 nsec

Feature DataFrequency responseat audio

cinch output: : 40 Hz - 15 kHz / ± 1,5 dB

S/N according to DIN 45405, 7,1967

:

and PHILIPS standard test pattern videosignal: : ≥ -50 dB unweighted

Harmonic distortion ( 1 kHz, ± 25 kHzdeviation ): : ≤ 0.5 %

Feature DataFrequency responseat audio

cinch output: : 40 Hz - 15 kHz ± 1,5 dB

S/N according to DIN 45405, 7,1967

:

Tuning

Automatic Search Tuning

Tuning Principle

Automatic detection Manual channel activation

Analogue inputs Audio/video Front Input Connectors

Audio

Video - Cinch

and PHILIPS standard test pattern videosignal : ≥ -60 dB unweighted

Harmonic distortion (1 kHz): : ≤ 0.5 %

Feature Datascanning time withoutantenna : ≤ 2,5 min

stop level (vision carrier) : ≥ 65dBμV, 75 Ω

Maximum tuning error of a recalled program : ± 62,5 kHz

Maximum tuning error during operation : ± 100 kHz

Feature DataInput voltage : 2 Vrms

Input impedance : >10k Ω

Feature DataInput voltage : 1 Vpp ± 0.1V

Video - YC (Hosiden)

Cinch Audio/video Line Input Rear

Audio (EXT1/2 and EXT3)

Video (EXT2-USA)

Yc Input Rear (Hosiden; Ext1-usa)

Ypbpr Cinch Input Rear (Ext3)

Input impedance : 75 Ω

Feature DataInput voltage Y : 1Vpp ± 0.1V (with sync)

Input impedance Y : 75 Ω

Input voltage C : burst 286 mVpp ± {x} dB

Input impedance C : 75 Ω

Feature DataInput voltage : 2 Vrms

Input impedance : >10k Ω

Feature DataInput voltage : 1 Vpp ± 0.1V (with sync)


Connector Kind Value Symbol1 GND ��

2 GND ��

3 Input voltage Y 1Vpp ± 0.1V/ 75 Ω (with sync) ��

4 Input voltage C Burst 286mVpp ± {x} dB/ 75 Ω �

Feature Data

Video Performance

All outputs loaded with 75 Ohm SNR measurements over full bandwidth without weighting. Cvbs Output Rear (Ext2)

Yc Output Rear (Hosiden ; Ext1)

Ypbpr Out (Ext3)

Ypbpr Out (Progressive Scan)

Progressive scan is off during stand-by mode

Input voltage Y : 1Vpp ± 0.1 (with sync)

Input voltage Pr : 0.7 Vpp

Input voltage Pb : 0.7 Vpp


Feature DataSNR Luminance : > -65 dB

SNR Chrominance AM : > -65 dB

SNR Chrominance PM : > -65 dB

Bandwidth Luminance : 5 MHz ± 1dB

Feature DataSNR : > -65 dB

SNR Chrominance AM : > -65 dB

SNR Chrominance PM : > -65 dB

Bandwidth Luminance : 5 MHz ± 1dB

Feature DataSNR : > -65 dB

Bandwidth : 5 MHz ± 1dB

Audio Performance Cinch Output Rear (Ext1/2)

Feature DataProgressive scan resolution : 525 lines x 60 frames/second

Output impedance : 75 Ω

Output amplitude Y : 700mV (100% white, without sync)

Output amplitude PrPb : 700mV (100% level)

SNR : > 60dB (all channels)

Bandwidth Y : > 12 MHz ± 3dB

Bandwidth PrPb : > 6 MHz ± 3dB

YprPb crosstalk : < -50dB (bandwidth < 10 MHz)

Feature DataOutput voltage 2channel mode : 2Vrms ± 1.5dB

Output voltage 5.1 channel Dolby : 1.41Vrms ± 1.5dB

Channel unbalance (1kHz) : <0.85dB

Crosstalk 1kHz : >105dB

Crosstalk 20Hz-20kHz : > 95dB

Frequency response 20Hz- 20kHz : ± 0.1dB max

Signal to noise ratio : >100 dB

Dynamic range 1kHz : >90dB

Dynamic range 20Hz-20kHz : >88dB

Distortion and noise 1kHz : >90dB

Distortion and noise 20Hz-20kHz : >80dB

Intermodulation distortion : >87dB

Phase non linearity : ± 1( max.

Cinch Output Rear (Ext3)

Digital Output Coaxial Output

Level non linearity : ± 0.5dB max.

Mute (spin-up, pause, access) : >100dB

Outband attenuation: : > 50dB above 25kHz

Feature DataOutput voltage 2channel mode : 2Vrms ± 1.5dB

Output voltage 5.1 channel Dolby : 1.41Vrms ± 1.5dB

Channel unbalance (1kHz) : <0.85dB

Crosstalk 1kHz : >105dB

Crosstalk 20Hz-20kHz : > 95dB

Frequency response 20Hz- 20kHz : ± 0.1dB max


Dynamic range 1kHz : >90dB

Dynamic range 20Hz-20kHz : >88dB




Phase non linearity : ± 1( max

Level non linearity : ± 0.5dB max

Mute (spin-up, pause, access) : >100dB

Outband attenuation: : > 50dB above 25kHz

Feature Data

Optical output

Identical to coaxial

Digital Video Input/output (Iee1394) Applicable Standards

Implementation according: IEEE Std 1394-1995 IEC 61883 - Part 1 IEC 61883 - Part 2 SD-DVCR (02-01-1997) Specification of consumer use digital VCR’s using6.3 mm magnetic tape - dec.1994 Mechanical connection according: Annex A of 61883-1 Audio Quality

CDDA/LPCM(incl. MPEG1) : According IEC958

MPEG2, AC3 audio : According IEC1937

DTS : According IEC1937

Feature DataOutput voltage 2channel mode : 2Vrms +/- 1.5dB

Channel unbalance (1kHz) : Tbd

Crosstalk 1kHz : > 95 dB

Crosstalk 20Hz-20kHz : > 85 dB

Frequency response 20Hz- 12kHz : +/- 1dB max


Dynamic range 1kHz : Tbd

Dynamic range 20Hz-20kHz : Tbd



Dimensions And Weight

Laser Output Power & Wavelength DVD

CD


Phase non linearity : +/- 1 degree

Level non linearity : Tbd

Mute (spin-up, pause, access) : Tbd

Outband attenuation : Tbd

Feature DataHeight of feet : 12 mm

Apparatus tray closed : WxDxH :435 x 325 x 107

Apparatus tray open : WxDxH :435 x 465 x 107

Weight without packaging : 5.670 g

Weight : 1.675 g

Feature DataOutput power duringreading : 0.8mW

Output power during writing : 20mW

Wavelength : 660nm

Feature DataOutput power : 0,3mW

Wavelength : 780nm

Complete Set Exploded View

Front Assembly ExplodedView

Basic Engine Exploded View

Loader Exploded View

DVM Exploded View

(2022)

Vdrain(stby) Vdrain.tif Vgate(stby). Vgate.tif

Vsource(stby Vsource.tif

Alignments

Alignment Instructions analog Board

Figure: Alignments Analog PCB Eur

Reprogramming Procedure of NVM on the analog PCB

The NVM, item 7815, on the analog board contains the following factory settings:

1. Bargraph 0dB correction factor 2. Clock correction factor 3. AFC reference value 4. Slash version

The settings 1,2 and 3 are stored in the NVM during the production of the analog board. The slash version is stored at the end of the production line of the set. In case of failure, the NVM must be replaced by an empty device. By way of commands via the Diagnostic Software or via ComPair, the factory settings must be restored in the NVM. Bargraph 0db Alignment

For an exact functionality of the bar graph in the display, a correction factor for the left and the right channel is stored in the NVM. Procedure:

Put the setin DSW command mode route Audio path from Audio front connectors to digital with the following command: DD:> 713 01 apply a sine wave of 1 kHz, 1.65 Vrms (0 dB)to the front connectors, audio left and rightstore 0 dB bar graph level with command 720DD:>720

Clock Correction Adjustment

To guarantee an exact function of the real time clock, an adjustment of the clock frequency is possibe and stored in the NVM. Procedure:

Connect a pull up resistor of 10k between pin 7 an 8 of the clock IC PCF8593T,item 7811, on the analog PCB put the set in service command mode execute command 722 to initiate that a 1 Hz signal is available on pin 7 of the clock ICDD:>722

measure the frequency of the Clock Crystal with an accuracy of ±1(s. Normally the measured frequency must be between 999902 (s and 1000097 (s. If the frequency is outside this range, the clock IC must be replaced. Execute command 721 with the measured frequency as an input parameter example:DD:>721 1000023

AFC Reference Voltage Tuner

This function stores the reference voltage for the tuner in the NVM. Before this value can be stored, the AFC adjustment, described in the adjustment instructions of the analog board, must be carried out. Procedure:

Adjust AFC circuit Calculate the reference value Execute command 732 and use the calculated reference value as parameter example:DD:>732 128

Slash Version

The slash version is stored with command 715 followed by the slash version as parameter. The slash versions used in DVDR1000 and DVDR1500 are the following:

DVDR980/17X: 103 DVDR985/17X: 104

Example: DD:>715 1 Reset of Slash Version

Use command 729 to reset the analog board to the default setting. Procedure:

Put the setin DSW command mode Execute command 729 with the following parameters: DD:> 729w 0xA0 3 0x07 0xD0 0x00 Leave the DSW command mode and start up the set in application mode No background is visible on the TV screen. The analog board is ready to accept the appropriate slash version.

Rework ProcedureIEEE Unique Number Scope:

The procedure describes how to upgrade sets with a unique number after repair. This unique number is stored in the NVRAM (item 7201) of the digital board at the end of the production line. This procedure is only valid or necessary when:

The digital board is replaced NVRAM on the digital board is replaced NVRAM is cleared

In all other cases the repaired set retains its unique number. The procedure defines several means to re-assure the unique number, depending on the possibilities of repair or the state the faulty set is in. Handling:

State of Original (Defective) Board:

1. The digital board starts up in Diagnostics Mode: follow procedure A to retrieve the valid unique number

2. The digital board does NOT start up in Diagnostics Mode: follow procedure B.

Procedure A

1. Connect defective digital board to PC via serial cable (3122 785 90017) 2. start up hyper terminal or any other serial terminal via the correct settings (DSW

command mode interface) 3. read out existing unique number via nucleus 403 example:DD:> 40340300: DV Unique

ID = 00D7A1FC6CTest OK @ 4. note read out 5. program new digital board via nucleus 410 example: DD:> 410 00D7A1FC6C41000:Test

OK @

The set has now the original unique number Procedure B

1. Notethe serial number of the set example: AH050136130156 AH = production center Hasselt. According to UAW-500: A=1 and H=8 05 = change code (this is not used for this calculation) 01 = YEAR 36 = Production WEEK 130156 = Lot and SERIAL number

2. Calculate the unique number: this number always exists out of 10 hexadecimal numbers.3. First 5 numbers: First we calculate a decimal number according to the formula below:

35828*YEAR + 676* WEEK + 26*A + H + 8788The figures are fixed, YEAR + WEEK + factory code( A + H) are variable Example: 35828*01+676*36+26*1+8+8788 = 68986 (decimal)Then we translate the decimal number to a hexadecimal number.example: 68986 (decimal)= 10D7A (hex)

4. Last 5 numbers: The last 5 numbers exist out of the Lot and SERIAL number. We have to translate the decimal number to the next 5 hexadecimal numbers: Example: 130156 (decimal) = 1FC6C (hex)

5. Program new digital board via nucleus 410 Therefore we use the 10 hexadecimal numbers we calculated above: example:DD:> 410 10D7A1FC6C41000:Test OK @

The set has now its original unique number

Mechanical, and Dismantling Instructions,and Exploded Views

Service Positions Front

Figure: Front DVIO Board

To put the DVIO board in a service position,an extender board must be used. This extender board can be orderedwith codenumber 3104 128 07770.

Figure: DVIO Extender

Figure: DVIO 1

Figure: DVIO 2 Digital Board

After demounting of DVIO board, the top sideof the digital board is in reach. To reach the bottom side of thedigital board, the DVDR module must be demounted together with thedigital board. Connected to each other, the assembly can be setin a service position. In this position, the bottom side of thedigital board and the servo board are in reach to be serviced.

Figure: Digital 1

Figure: Digital 2 Analog Board

To put the analog board in service position,demount the assembly of analog board and backplate as follows:

1. Remove 3 screwsfrom the backplate to the frame 2. Remove the screw from the backplate to the mainsinlet of the power supply 3. Remove the screw of the analog board to theframe 4. Release the snaps of the 4 spacers of the analogboard to the frame.

Turn the assembly of the backplate and the analog board againstthe loader.

Figure: Analog Europe

Figure: Analog NAFTA

Exploded View of the Set Complete Set EV

Exploded View of the Front Assembly

Exploded View of the Front Assembly

Mechanical Instructions Index of this chapter:

1. General 2. Disassembly 3. Re-assembly

Note: Figures below can deviate slightly from the actual situation, due to the different set executions.

General

Follow the disassemble instructions in described order. Do not place the unit with its PWB on a hard surface (e.g. table), as it could damage the components on it. Always place something soft (a towel or foam cushion) under it. Never touch the lens of the laser. Take sufficient ESD measures during (dis)assembly.

Disassembly Set Disassembly Instructions

Figure: Basic Engine disassembly (part 1) You can divide the Basic Engine into the following parts:

1. Loader (fan, clamp, and tray assy). 2. PWB (or 'mono board'). 3. DVD-Module (OPU, turntable motor, and sledge-motor assy).

Loader

1. Disconnect the 2-wire fan cable from the PWB. 2. Remove the fan assy, by releasing the four side clamps [1] while moving it upwards. 3. Remove the clamp assy, by releasing the two side clamps [2] while moving it upwards.

PWB

1. Flip the module180 degrees, so you can access the PWB.

2. Disconnect the four flex foils from the PWB connectors (1100, 1300, 1302, and 1303) at the component side. For the flex foil on connector 1100, you first must remove the cable clamp [3]. The easiest way to do this is to push down the two fixation pins of the clamp (via the holes in the PWB) by means of a pencil or small screwdriver.

3. Disconnect the remaining cables (tray- and fan-motor cable) at the solder side of the PWB

4. Remove the four screws (Torx 8) that hold the PWB [4]. 5. Now you can remove the board.

DVD-M

Caution: Never try to align the DVD-Module! ! ! Only the factory can do this properly. Service engineers are only allowed to exchange the sledge motor assy.

Figure: Basic Engine disassembly (part 2)

1. Slide the 'tray pin' in the direction of the arrow [1], in order to release the disc tray. 2. Flip the module180 degrees and pull out the tray [2]. Now you can access the DVD-

Module. 3. Remove the four screws [3] with a Torx 6 screwdriver, and lift the DVD-M upwards [4] at

the side of the disc-motor. It hinges in the bracket at the side of the tilt-motor.

Sledge-motor Assy

Caution: Never try to align the DVD-Module! ! ! Only the factory can do this properly. Service engineers are only allowed to exchange the sledge motor assy.

Figure: Sledge-motor assy

1. Place the DVD-Module, with the laser facing downwards, on a soft surface. 2. Remove the three screws [1] that hold the sledge-motor assy, and lift the assy upwards.

You can replace it now. 3. If necessary, it is now also possible to replace the sledge-rack [2] that is hinged in the

sledge assy.

Re-assembly

To re-assemble the module, do all processes in reverse order. Be sure to:

Sledge-motor assy: Mesh the teeth of the sledge motor and sledge rack properly, during mounting of the sledge-motor assy. DVD-M: Point the laser up (towards the tray), when you mount the DVD-M in the bracket.Complete module: Place all wires/cables in their original positions

Diagnostic Software and Faultfinding Trees

Supporting Overviews

Test points overview Analog Board (Top View) Test points overview Analog Board (Bottom View) Test points overview DVIO Board (Bottom View) Test points overview Digital Board (Bottom View) Test points overview Servo Board 43015 Test points overview Servo Board 43353 Wiring diagram

General

Impedance of measuring-equipment should be > 1 MOhm. For testing the Basic Engine, connect it to a DVD-recorder of the DVDR1000, 900, or 800 series. Most tests are done by software commands. Together with the software command you will find a Ref.# nbr. This is the number of the diagnostic nucleus used for this test. You can find information that is more detailed in the chapter 'Diagnostic Nuclei'. Due to the complexity of the DVD recorder,the time to find a defect in the recorder can become long. To reducethis time, the recorder has been equipped with Diagnostic and Service software(DS). The DS offers functionality to diagnose the DVDR hardwareand tests the following:

Interconnectionsbetween components Accessibility of components Functionality of the audio and video paths

This functionality can be accessed via several interfaces: 1. End user/Dealerscript interface 2. Player script interface 3. Menu and command interface

End User/DealerScript Interface Description

The End user/Dealer script interfacegives a diagnosis on a stand alone DVD recorder; no other equipmentis needed. During this mode, a number of hardware tests (nuclei)are

automatically executed to check if the recorder is faulty. The diagnosisis simply a "fail" or "pass" message. If the message "FAIL" appearson the display, there is apparently a failure in the recorder. Ifthe message "PASS" appears, the nuclei in this mode have been executedsuccessfully. There can be still a failure in the recorder becausethe nuclei in this mode don"t cover the complete functionalityof the recorder. Contents

Figure: The End use/Dealer script executesall diagnostic nuclei that do not need any user interaction andare meaningful on a standalone DVD recorder. The nuclei called inthe End user/Dealer script are the following:

Counter Nucleus Name Description

22 104 HostdSdramWrR checks all memory locations of the 4MB SDRAM

checks all the DRAM

21 106 HostdDramWrRconnected to the microprocessorof the digital board

20 123 HostdI2cNvram

checks the data line (SDA) and the clock line(SCL) of the I2C bus between the host decoder and NVRAM

19 202 SAA7118I2c

checks the interface between the Host I2C controllerand the AVENC SAA7118 Video Input Processor

18 200 VideoEncI2c

checks the interface between the host I2C controllerand Empress SAA6752

17 207 AudioEncI2cchecks the I2C connection between the hostdecoder and Empress SAA6752

16 204 AudioEncAccess

tests the HIO8 interface lines between thehost decoder and the audio encoder

15 203 AudioEncSramAccesschecks the access of the SRAM by the audioencoder (address and data lines).

14 205 AudioEncSramWrR tests the SRAM connected to the audio encoder

13 206 AudioEncInterrupt

tests the interrupt line between the host decoderand the audio encoder

12 300 VsmAccesschecks whether the VSM interrupt controllersand DRAM are accessible

11 303 VsmInterruptchecks both interrupt lines between the VSMand the host decoder

10 302 VsmSdramWrR tests the entire SDRAM of the VSM

9 1400 Clock11_289MHzswitches the A_CLK of the micro clockto 11.2896 MHz

8 1401 Clock12_288MHzswitches the A_CLK of the micro clockto 12.288 MHz

7 601 BeS2Benginechecks the S2B interface with the Basic Engineby sending an echo command

6 500 DisplayEcho

checks the interface between the host processorand the slave processor on the display board

5 700 AnalogueEcho

checks the interface between the host processorand the microprocessor on the analogue board

4 711 AnalogueNvramchecks the NVRAM on the analogue board

3 706 AnalogueTunerchecks whether the tuner on the analogue boardis accessible

2 901 LoopAudioUserDealer

This nucleus tests the components on the audiosignal path The host decoder- The analogue board- The audio encoder- The VSMOn the analogue board the audio is internally looped back to thedigital board

1 906 LoopVideoUserDealer

Nucleus for testing the components on the videosignal system path:- The VIP- The video encoder- The VSM- The host decoder- The analogue

Player Script Interface Description

The Player script will give the opportunityto perform a test that will determine which of the DVD recorder"smodules are faulty, to read the error log and to perform an enduranceloop test. To successfully perform the tests, the DVD recorder mustbe connected to a TV set. To be able to check results of certain nuclei, the playerscript expects some interaction of the user (i.e. to approve a test pictureor a test sound). Some nuclei (e.g. nuclei that test functionalityof the DVDR module) require that a DVD+RW disc is inserted. Only tests within the scope of the diagnostic softwarewill be executed hence only faults within this scope can be detected. Structure of the Player Script

The player script consists of a set of nucleitesting the hardware modules in the DVD recorder: the Display PWB,the Digital PWB, the Analogue In/Out PWB and the DVDR module. Nuclei run by the player test need some user interaction;in the next table this interaction is described. The player testis done in two phases:

Interactivetests: this part of the player test depends strongly on user interactionand input to determine nucleus results and to progress through thefull test. Reading the error log information can be useful to determineany errors that occurred recently during normal operation of theDVD player. The loop test will perform the same nuclei asthe dealer test, but it will loop through the list of nuclei indefinitely.

boardOn the analogue the video signal is internally routed back to thedigital board.

STEP DESCRIPTION NUCLEUS

1 Press OPEN/CLOSE and PLAY at the same time and POWERON the recorder to start the

2

playerscript

2

The local display shows FPSEGMENTS . Press PLAY to start the test.First the starburst pattern islit, then the horizontal segments arelit, followed by the verticalsegments and the last test is light all segments test.After each of the 4 tests the user has to confirm that the correctpattern was lit.Press PLAY to confirmthat the correct pattern was lit (four times if the FPSEGMENTS testwas successful).Press RECORD to indicatethat the correct pattern was not successfully lit.Press STOP to skip thisnucleus.

502

3

The local display shows FPLABELS . Press PLAY to start the test.Press PLAY to confirmthat all labels are lit.Press RECORD to indicatethat not all labels are lit.Press STOP to skip this nucleus.

503

4

The local display shows FPLIGHT ALL . Press PLAY to start the test.Press PLAY to confirmthat everything was lit.Press RECORD to indicate that not all patterns are lit.Press STOP to skip this nucleus.

520

5

The local display shows FPLED . Press PLAY to start the test.Press PLAY to confirmthat the led is lit.Press RECORD to indicate that the led is not lit.Press STOP to skip this nucleus.

504

6

The local display shows FPFLAP OPEN . Press PLAY to start the test.Press PLAY to confirmthat the flap has opened.Press RECORD to indicate that the flap did not open.Press STOP to skip this nucleus.

522

7

The local display shows FPKEYBOARD . Press PLAY to start the test.Attention all keys have to be pressed to get a positive result! Press PLAY for more thanone second to confirm that all the keys were pressed and shown onthe local display. If not all the keys were pressed, a FAIL messagewill appear on the local display.Press RECORD for more than one second to indicate that not all keyswere pressed and shown on the local display.Press STOP for more than one second to

505

skip this nucleus.

8

The local display shows FPREMOTE CONTROL . Press PLAY to start the test.Press PLAY to confirmthat a key on the remote control was pressed and shown on the localdisplay. Only one key has to be pressed to get a successful result.Press RECORD to indicate that the key on the remote control waspressed but not shown on the local display.Press STOP to skip this nucleus.

506

9

The local display shows FPDIMMER . Press PLAY to start the test.Press PLAY to confirmthat the text on the local display was dimmed.Press RECORD to indicate that the text on the local display wasnot dimmed.Press STOP to skip this nucleus.

518

10

The local display shows FPBEEPER . Press PLAY to start the test.Press PLAY to confirmthat the beeper on the front panel sounded.Press RECORD to indicate that the beeper on the front panel didnot sound.Press STOP to skip this nucleus.

514

11The local display shows FPFLAP CLOSE . Press PLAY to start the test.Press STOP to skip this nucleus.

523

12The local display shows ROUTE VIDEO . Press PLAY to start the test.Press STOP to skip this nucleus.

712

13The local display shows ROUTE AUDIO . Press PLAY to start the test.Press STOP to skip this nucleus.

713

14The local display shows COLOUR-BAR ON . Press PLAY to start the test.Press STOP to skip this nucleus.

120

15The local display shows PINK NOISE ON . Press PLAY to start the test.Press STOP to skip this nucleus.

115

16The local display shows PINK NOISE OFF . Press PLAY to start the test.Press STOP to skip this nucleus.

116

The local display shows SINE ON . Press PLAY to

Remark In case of failure, the display shows " FAIL XXXXXX ".The description of the shown error code can be retrieved in the surveyof Nuclei Error Codes (paragraph 5.4). Once an error occurs, itis not possible to continue the player script. Unplug the set andrestart the player script. By pressing the STOP key, it is possibleto jump over the failure and to continue the player script. Player Script

17 start the test.Press STOP to stop the sine.Press STOP to skip this nucleus.

117

18The local display shows COLOUR-BAR OFF . Press PLAY to start the test.Press STOP to skip this nucleus.

121

19The local display shows BERESET . Press PLAY to start the test.Press STOP to skip this nucleus. 603

20The local display shows BETRAY OPEN . Press PLAY to start the test.Press STOP to skip this nucleus.

616

21The local display shows BETRAY CLOSE . Press PLAY to start the test.Press STOP to skip this nucleus.

615

22The local display shows BEWRITE READ . Press PLAY to start the test.Press STOP to skip this nucleus.

617

23The local display shows BETRAY OPEN . Press PLAY to start the test.Press STOP to skip this nucleus.

616

24The local display shows BETRAY CLOSE . Press PLAY to start the test.Press STOP to skip this nucleus.

615

25

The local display shows READ ERRORLOG . Press PLAY to start the test.Press STOP to skip this nucleus.If the player test succeeded, the user/dealer script willstart in an endless loop.If the player test failed, the local display will display FAIL andthe error code

633

Player Script Continued Error Log

Explanation:

The application errors will be logged in theNVRAM. The maximum number of error bytes that will be visible is19. The last reported error is shown as DN D0000000, the oldestvisible error as D0000000 UP and the errors in between as DN D0000000UP. DN stands for DOWN, UP stands for UPWARDS. The shown D error codes are identical to the Nuclei Error Codes (paragraph5.4). Trade Mode

Figure: Virgin Mode

If you want that the recorder starts up inVirgin mode, follow this procedure: Unplug therecorder plug the recorder again while you keep the STANDBY/ON key pressed the set starts up in Virgin mode.

Menu and CommandMode Interface Nuclei Numeration

Each nucleus has a unique number of four digits.This number is the input of the command mode.

Figure: The following groups are defined: Group number Group name

0 Basic / Scripts

1 Host decoder (Sti5505 and memory)

2 Audio / video encoder (DVDR only)

3 VSM (DVDR only)

4 NVRAM

5 Front Panel

6 Basic Engine

7 Analogue board (DVDR only)

8 DVIO (DVDR only)

9 Loop nuclei (DVDR only)

10 Library sub nuclei (I2C nuclei)

11 User interface

12 Furore (SACD only)

13 DAC (SACD only)

Error Handling

Each nucleus returns an error code. This codecontains six numerals, which means:

Figure: The nucleus group numbers and nucleus numbers are the sameas above. Command Mode Interface

Set-Up Physical Interface Components

Hardware required: Service PC one free COM port on the Service PC special cable to connect DVD recorder to ServicePC

The service PC must have a terminal emulation program(e.g. OS2 WarpTerminal or Procomm) installed and must have a freeCOM port (e.g. COM1). Activate the terminal emulation program andcheck that the port settings for the free COM port are: 19200 bps,8 data bits, no parity, 1 stop bit and no flow control. The freeCOM port must be connected via a special cable to the RS232 portof the DVD recorder. This special cable will also connect the testpin, which is available on the connector, to ground (i.e. activatetest pin). Code number of PC interfacecable: 3122 785 90017 Activation

Plug the recorder to the mains and the followingtext will appear on the screen of the terminal (program):

14 Miscellaneous

Figure: The first line indicates that the Diagnostic softwarehas been activated and contains the version number. The next linesare the successful result of the SDRAM interconnection test and thebasic SDRAM test. The last line allows the user to choose betweenthe three possible interface forms. If pressing C has made a choicefor Command Interface, the prompt ("DD>") will appear.The diagnostic software is now ready to receive commands. The commandsthat can be given are the numbers of the nuclei. Command Overview

We provide an overview of the nuclei and theirnumbers. This overview is preliminary and subject to modifications. Host Decoder [01] [xx yy] Number Nuclei

100 Checksum Flash

101 Flash Write Access 1

102 Flash Write Access 2

103 Flash Write Read

104 SdRam Write Read

105 SdRam Write Read Fast

106 Dram Write Read

107 Dram Write Read Fast

108 Hardware Version

109 Mute On

110 Mute Off

115 Pink Noise On

Audio Video Decoder [02]

VSM [03]

116 Pink Noise Off

117 Sine On

118 Sine Burst 1kHz

119 Sine Burst 12kHz

120 Colour-bar On

121 Colour-bar Off

122 NvramWrR

123 NvramI2c

130 Boot Version

131 Application Version

132 Diagnostics Version

133 Download Version

134 Write / read I2C message to / fromdigital board

135 Video Test Signal On

136 Video Test Signal Off

137 Macrovision Off

[xx yy] Number Nuclei

200 Video Encoder I2C

202 SAA7118 I2C

203 Audio Encoder SRAM Access

204 Audio Encoder Access

205 Audio Encoder SRAM Write Read

206 Audio Encoder Interrupts

207 Audio Encoder I2C

208 SAA7118 select input

209 Empress Version

NVRAM [04]

Front Panel [05]


300 Register Access

301 SDRAM Access

302 SDRAM Write Read

303 Interrupt lines

304 VSM Interconnection

305 UART


400 Reset

401 Read

402 Modify

403 UniqueNr Read

404 Read Error Log

407 Reset Error Log

409 Line2 Region-Code Reset

410 UniqueNr Store


500 Echo

501 Version

502 Segment

503 Label

504 Led

505 Keyboard

Basic Engine [06]

506 Remote-Control

507 Segment Starburst

508 Segment Vertical

509 Segment Horizontal

514 Beeper

515 Discbar

516 Discbar Dots

517 Vu / Grid

518 Dimmer

519 Blinking

520 Light All Segments

522 Flap Open

523 Flap Close


600 S2B Pass

601 S2B Echo

602 Version

603 Reset

604 Focus On

605 Focus Off

606 Disc Motor On

607 Disc Motor Off

608 Radial On

609 Radial Off

615 Tray In

616 Tray Out

617 Write Read

618 Write Read Endless Loop

Analog Board [07]

619 Selftest

620 BE Test

621 Laser Test

622 Spindle (Disc) Motor Test

623 Focus Test

624 Sledge Motor Test

625 Sledge Motor Slow

626 Tilt

627 EEPROM Read

628 EEPROM Write

629 Optimise Jitter

630 Radial ATLS Calibration

631 Get Statistics Information

632 Reset Statistics Information

633 BE Read Error Log

634 BE Reset Error Log

638 Get Self Test Result

639 Radial Initialisation

640 Get OPU info

641 Write read +R

642 Write read +R endless loop


700 Echo

703 Boot Version

704 Hardware Version

705 Clock Adjust

706 Tuner

707 Frequency Download

DVIO [08]

708 Data Slicer

709 Sound Processor

710 AV Selector

711 Nvram

712 Route Video

713 Route Audio

715 Set Slash Version

716 Application Version

717 Diagnostics Version

718 Download Version

720 Bargraph Level Adjustment

721 Clock correction

722 Clock reference

723 Re-virginise Recorder

724 Flash Checksum

725 Tuner frequency selection

727 Set virgin bit

728 Clear Virgin Bit

729 Write / read I2C message to / fromanalogue board

730 Store external presets

731 Get slash version

732 AFC Reference Voltage Tuner


800 Check DVIO board presence

801 Reset DVIO

802 DVIO Access

803 Get DVIO error codes

804 Get DVIO module Ids

Loop Nuclei [09]

Miscellanious [14]

805 Execute DVIO module SelfTest

806 Set DVIO led on.

807 Set DVIO led off.


900 Digital Audio Loop

901 User / Dealer Audio Loop

902 Digital Video Loop

903 Digital Video VBI Loop

904 System Video Loop

905 System Video VBI Loop

906 User / Dealer Video Loop

907 User / Dealer Video VBI Loop

908 System Audio Loop SCART

909 System Audio Loop CINCH

910 Digital DVIO Video Loop

911 System Video Vip


1400 Clock 11.289 MHz

1401 Clock 12.288 MHz

1412 Progressive Scan I2C

1413 Progressive Scan test image on

1414 Progressive Scan test image off

1415 Progressive Scan Route Enable

1416 Progressive Scan Route Disable

Scripts [00]

Menu Mode Interdace

Activation

Plug the recorder to the mains and the followingtext will appear on the screen of the terminal (program):

Figure: The first line indicates that the Diagnostic softwarehas been activated and contains the version number. The next linesare the successful result of the SDRAM interconnection test and thebasic SDRAM test. The last line allows the user to choose betweenthe three possible interface forms. If pressing M has made a choicefor Menu Interface, the Main Menu will appear.


1 UserDealer Script

2 Player Script

Menu Structure

The following menu structure is given afterstarting up the DVD recorder in menu mode. The symbol -> indicatesthat the current menu choice will invoke the display of a submenu. Main Menu

1. DigitalBoard -> 2. Analogue Board -> 3. Front Panel -> 4. Basic Engine -> 5. DVIO -> 6. Progressive Scan Board -> 7. Loop Tests -> 8. Log -> 9. Scripts ->

Digital Board Menu

1. HostDecoder -> 2. VSM -> 3. AVENC -> 4. NVRAM ->

Host Decoder Menu

1. FlashChecksum 2. Flash1 Write Access 3. Flash2 Write Access 4. Flash Write/Read 5. Host SDRAM Write/Read 6. Host SDRAM Fast Write/Read 7. Host DRAM Write/Read 8. Host DRAM Fast Write/Read 9. I2C NVRAM

10. NVRAM Write/Read 11. Engine S2B Echo 12. Versions -> 13. Audio Mute -> 14. Colourbar -> 15. Pink Noise -> 16. Sine Generate ->

Digital Board Versions Menu

1. HardwareVersion 2. Bootcode version 3. Applications Version 4. Diagnostics Version 5. Download Version

Audio Mute Menu

1. AudioMute On 2. Audio Mute Off

Colourbar Menu

1. ColourbarOn 2. Colourbar Off

Pink Noise Menu

1. PinkNoise On 2. Pink Noise Off

Sine Generate Menu

1. SineOn 2. Sine Burst 1kHz 3. Sine Burst 12kHz

VSM Menu

1. RegisterAccess 2. SDRAM Access 3. VSM SDRAM Write/Read 4. Interrupt Lines 5. VSM Interconnection 6. UART

AVENC Menu

1. Empress -> 2. Video Input Processors ->

Empress Menu

1. Versionnumber Video Input Processors Menu

1. SAA7118I2C Access NVRAM Menu

1. ReadError Log 2. Reset Error Log 3. Read DVIO Unique ID

Analogue Board Menu

1. Echo 2. Obsolete 3. Route Video Input back to Digital board 4. Route Audio Input back to Digital board 5. Flash Checksum 6. Versions -> 7. Components -> 8. Re-virginize Recorder ->

Analogue Board Versions Menu

1. HardwareVersion 2. Bootcode version 3. Application version 4. Diagnostics version 5. Download version

Analogue Components Menu

1. Tuner 2. Data Slicer 3. Sound Processor 4. AV Selector 5. NVRAM

Analogue Board Re-virginize Menu

1. Re-virginizeRecorder 2. Set Virgin-bit 3. Clear Virgin-bit

4. Store external presets Front Panel Menu

1. Echo 2. Version 3. Flap Control -> 4. Segment Test -> 5. Light Labels 6. Led test 7. Keyboard test 8. Remote Control 9. Beep

10. Disc Bar 11. Disc Bar Dots 12. Vu Grid 13. Dimmer 14. Blink 15. Light All Segments

Flap Control Menu

1. OpenFlap 2. Close Flap

Segment Test Menu

1. Starburst 2. Light Horizontal Segments 3. Light Vertical Segments 4. Light All Segments

Basic Engine Menu

1. Reset 2. S2B Pass-through 3. S2B Echo 4. Focus On 5. Focus Off 6. Version 7. Self Test 8. Get Self Test Result 9. Basic Engine Test

10. Laser Test

11. Focus Test 12. Tilt Test 13. Optimise Jitter 14. Statistics Info 15. Log -> 16. Spindle Motor -> 17. Radial -> 18. Sledge -> 19. Tray ->

Basic Engine Error Log

1. ReadError Log 2. Reset Error Log

Basic Engine Spindle Motor Menu

1. SpindleMotor On 2. Spindle Motor Off 3. Spindle Motor Test

Basic Engine Radial Menu

1. RadialOn 2. Radial Off 3. Radial Initialisation 4. Radial ATLS Calibration

Basic Engine Sledge Menu

1. Sledgetest 2. Sledge test slow

Basic Engine Tray Menu

1. TrayIn 2. Tray Out

DVIO Menu

1. CheckPresence 2. Reset 3. Access 4. Error Codes

5. Module Identifiers 6. Led ->

DVIO Led Menu

1. LedOn 2. Led Off

Progressive Scan Board Menu

1. I2CAccess 2. Test Image On 3. Test Image Off

Loop Tests Menu

1. DigitalBoard Loops -> 2. User/Dealer Loops -> 3. System Loops -> 4. Basic Engine Loops ->

Digital Board Loops Menu

1. Obsolete 2. Digital Video Loop 3. Digital Video Loop VBI

User/Dealer Loops Menu

1. User/DealerAudio Loop 2. User/Dealer Video Loop 3. User/Dealer Video Loop VBI

System Loops Menu

1. SystemVideo Loop 2. System Video Loop VBI 3. System Audio Loop SCART(EURO) 4. System Audio Loop CINCH (NAFTA)

Basic Engine Loops Menu

1. BasicEngine write read 2. Basic Engine write read endless loop

Log Menu

1. ReadError Log 2. Reset Error Log

Script Menu

1. User/DealerScript 2. Player Script

Nuclei Error Codes

In the following table the error codes willbe described. Error Nr Error String

10000 "Checksum is OK"

10001"segment name Checksum doesn"t match"or "segment name segment not found"

10100 ""

10101 "FLASH 1 Write access test failed"

10200 ""

10201 "FLASH 2 Write access test failed"

10300 ""

10301 "FLASH write test failed"

10302 "FLASH write command failed"

10303 "FLASH write test done max. number of times"

10400 ""

10401 "HostDec SDRAM Memory data bus test goes wrong."

10402 " HostDec SDRAM Memory address bus test goes wrong."

10403 " HostDec SDRAM Physical memory device test goeswrong."

10500 ""

10501 " HostDec SDRAM Memory data bus test goes wrong."

10502 " HostDec SDRAM Memory address bus test goes wrong."

10503 " HostDec SDRAM Physical memory device test goeswrong."

10600 ""

10601 "HostDec DRAM Memory data bus test goes wrong."

10602 "HostDec DRAM Memory address bus test goes wrong."

10603 "HostDec DRAM Physical memory device test goeswrong."

10700 ""

10701 "HostDec DRAM Memory data bus test goes wrong."

10702 "HostDec DRAM Memory address bus test goes wrong."

10703 "HostDec DRAM Physical memory device test goeswrong."

10800 "Host Decoder version(cut) number: version number""Digitalhardware version"

10801 "Can not find version in FLASH."

10900 ""

10901 "Error muting audio"

11000 ""

11001 "Error demuting audio"

11500 ""

11501 "Init of I2C failed"

11502 "The selection of the clock source failed"

11504 "The demute of the audio failed"

11600 ""


11602 "The mute of the audio failed"

11700 ""


11702 "The muting of the audio failed"



11707 "Setup of Front panel failed"

11708 "Sine on Front panel keyboard failed"

11800 ""





11805 "Error cannot start VSM audio in port"

11900 ""





11905 "Error cannot start VSM audio in port"

12000 ""

12001 "Invalid input

12100 ""

12200 ""

12201 "I2C bus busy before start"

12202 "NVRAM access time-out"

12203 "No NVRAM acknowledge"

12204 "NVRAM time-out"

12205 "NVRAM Write/Read back failed"

12300 ""


12302 "NVRAM read access time-out"

12303 "No NVRAM read acknowledge"

12304 "NVRAM read failed"

13000 "Bootcode application version : bootversion"


13100 "Recorder application version : recorderversion"


13200 "Diagnostics application version : diagversion"


13300 "Download application version : downloadversion"


13700 ""

13701 "Turning off MacroVision failed"

20000 ""


20002 "Video Encoder access time-out"

20003 "No acknowledge from Video Encoder"

20004 "No data send/received to or fromVideo Encoder"

20005 "SAA7118 VIP can not be initialised"

20200 ""


20202 "SAA7118 VIP access time-out"

20203 "No acknowledge from SAA7118 VIP"

20204 "No data received from SAA7118 VIP"

20300 ""

20301 "Error audio encoder SRAM access cannot initialiseI2C"

20302"Error audio encoder SRAM access cannot reset DSPthrough I2C"

20303 "Error audio encoder SRAM access cannot downloadboot"

20304 "Error audio encoder cannot download test code"

20305 "Error audio encoder cannot obtain result oftest"

20306 "Error audio encoder SRAM access stuck-at-zero dataline "

20307 "Error audio encoder SRAM access stuck-at-one dataline "

20308 "Error audio encoder SRAM access stuck-at-one addressline "

20309"Error audio encoder SRAM access address line address line x is connected to data line data line y"

20310"Error audio encoder SRAM access address lines addressline x and address line y are connected "

20311 "Error audio encoder SRAM access data linesdata line x and data line y are connected "

20312 "Error audio encoder SRAM access illegal datareceived"

20400 ""

20401 "Error audio encoder access cannot initialiseI2C"

20402 "Error audio encoder access cannot reset DSP throughI2C"

20403 "Error audio encoder accessing ICR register"

20404 "Error audio encoder access stuck-at-zero ofdata line "

20405 "Error audio encoder access stuck-at-one ofdata line "

"Audio encoder access data lines data linex and data line y

20406 are interconnected "

20500 ""

20501 "Error audio encoder SRAM WRR cannot initialise I2C"

20502 "Error audio encoder SRAM WRR cannot reset DSPthrough I2C"

20503 "Error audio encoder WRR cannot download boot"


20505 "Error audio encoder SRAM WRR cannot obtain resultof test"

20506 "Error audio encoder WRR SRAM stuck-at-zero databit "

20507 "Error audio encoder WRR SRAM stuck-at-one databit "

20508 "Error audio encoder WRR SRAM data lines data linex and data line y are connected"

20509 "Error audio encoder WRR SRAM illegal datareceived"

20600 ""

20601 "Error audio encoder interrupt cannot initialiseI2C"

20602 "Error audio encoder interrupt cannot resetDSP through I2C"


20604 "Error occurred accessing VSM"

20605 "Audio encoder interrupt not received"

20606 "Error occurred while activating the encoder"

20607 "Error audio encoder interrupt cannot initialiseempress"

20608 "Error occurred while getting interrupt reason"

20700 ""

20701 "Error audio encoder I2C cannot reset DSP throughI2C"

20702 "Error audio encoder cannot download boot"

20703 "Error audio encoder cannot download TEST code"

20704 "Error audio encoder I2C bus busy"

20705 "Error audio encoder I2C cannot write slaveaddress"

20706 "Error audio encoder I2C no acknowledge received"

20707 "Error audio encoder I2C cannot send/receivedata"

20708 "Error audio encoder received data throughI2C was invalid"

20800 ""

20801 "I2C access failed."

20802 "SAA7118 VIP can not be initialised."

20803 "Invalid input"

20900 "B1.B2. B3.B4. B5.B6. B7.B8. B9.B10. B11.B12."

20901 "Firmware download of EMPRESS failed"


20903 "EMPRESS access time-out"

20904 "No acknowledge from the EMPRESS"

20905 "No data send to the EMPRESS"

20906 "No data received from the EMPRESS"

30000 ""

30001 "VSM SDRAM Bank1 Memory databus test goes wrong."

30002 "VSM SDRAM Bank1 Memory addressbus test goeswrong."

30003 "VSM SDRAM Bank1 Physical memory device test goeswrong."

30004 " VSM SDRAM Bank2 Memory databus test goes wrong."

30005 " VSM SDRAM Bank2 Memory addressbus test goeswrong."

30006" VSM SDRAM Bank2 Physical memory device testgoes wrong."

30007 "VSM SDRAM Bank1 VSM interrupt register A has a-stuck at- error for value:"

30008 "VSM SDRAM Bank2 VSM interrupt register A has a-stuck at- error for value:"

30100 ""






30106" VSM SDRAM Bank2 Physical memory device testgoes wrong."

30200 ""






30206 " VSM SDRAM Bank2 Physical memory device testgoes wrong."

30300 ""

30301 "VSM interrupt register A has a -stuck at-error for value:"

30302 "VSM interrupt register B has a -stuck at-error for value:"

30303 "Interrupt A wasn"t raised."

30304 "Interrupt B wasn"t raised."

30305 "Interrupts A and B were raised."

30400 ""






30406 " VSM SDRAM Bank2 Physical memory device testgoes wrong."

30500 ""

30501 "Communication with the analogue board fails."

30502 "Echo test to analogue board returned wrong string."

40000 ""

40001 "NVRAM Reset; I2C failed"

40100 "NVRAM address = 0xaddress -> Bytevalue = 0xvalue"

40101 "NVRAM Read; I2C failed"

40102 "NVRAM Read; Invalid input"

40200 ""

40201 "NVRAM Modify; I2C failed"

40202 "NVRAM Modify; Invalid input"

40300 "DV Unique ID = id"

40301 "NVRAM Read DV Unique ID; I2C failed"

40400 "\r\n Error log:\r\n errorString \r\n Ö "

40401 "NVRAM error log; I2C failed"

40402 "NVRAM error log is invalid"

40403 "Front panel failed"

40700 ""

40701 "NVRAM error log reset; I2C failed"

40900 "Region code Change counter is reset"

40901 "NVRAM region code reset; I2C failed"

41000 ""

41001 "NVRAM Store DV Unique ID; I2C failed"

41002 "NVRAM Store DV Unique ID; Invalid input"

50000 ""

50007 "Execution of the command on the analogue board failed."

50008"The frontpanel could not be accessed by theanalogue board."

50009 "The echo from the frontpanel processor wasnot correct."

50100 " Front panel version: FPversion "



50200 ""


50205 "The frontpanel could not be accessed by theanalogue board."

50206 "The frontpanel did not show a starburst."

50207 "The user skipped the FP-which pattern test."

50208 "The user returned an unknown confirmation:confirmation "

50209 "The frontpanel did not show horizontal segments."

50210 "The frontpanel did not show vertical segments."

50300 ""


50305 "The frontpanel could not be accessed by theanalogue

board."

50306 "The frontpanel did not light all labels."

50307 "The user skipped the rest of the FP-labeltest."

50308 "The user returned an unknown confirmation: confirmation"

50400 ""



50406 "The LED"s could not be turned on."

50407 "The user skipped the rest of the FP-LED test."


50500 ""

50502 "Front panel Keyboard; test failed"

50503 "Front panel Keyboard; test aborted"

50504 "Front panel Keyboard; not all keys were pressed"

50505 "Front panel keyboard I2C connection failed"

50506 "Unable to get slashversion"

50600 ""

50602 "Front panel Remote control; test failed"

50603 "Front panel Remote control; test aborted"

50604 "Front panel remote control; can not accessFP"

50605 "Front panel remote control; no user inputreceived"

50700 ""



50703 "The frontpanel did not show a starburst."

50704 "The user skipped the FP-starburst test."


50800 ""



50803 "The frontpanel did not show vertical segments."

50804 "The user skipped the FP-vertical segmentstest."


50900 ""



50903 "The frontpanel did not show horizontal segments."

50904 "The user skipped the FP-horizontal segments test."


51400 ""



51403 "The beeper did not sound."

51404 "The user skipped the FP-Beep test."

51405 "The user returned an unknown confirmation:confirmation"

51500 ""



51503 "The discbar did not display properly."

51504 "The user skipped the discbar test."


51600 ""



51603 "The discbar dots did not display properly."

51604 "The user skipped the discbar dots test."


51700 ""



51703 "The VU grid did not display properly."

51704 "The user skipped the VU gridtest."


51800 ""



51803 "The frontpanel could not be dimmed."

51804 "The user skipped the FP-Dim test."


51900 ""



51903 "The frontpanel did not show segments blinking."

51904 "The user skipped the FP-blinking test."


52000 ""



52003 "The frontpanel did not show all segments lit."

52004 "The user skipped the FP-light all segmentstest."


52200 ""

52201 "Communication with Analogue Board fails."

52202 "Frontpanel can not be accessed by the Analogue Board."

52300 ""

52301 "Communication with Analogue Board fails."

52302 "Frontpanel can not be accessed by the Analogue Board."

60000 ""

60100 ""

60101 "Basic Engine returned error number 0xerrornumber"

60102 "Parity error from Basic Engine to Serial"

60103 "Communication time-out error"

60104 "Unexpected response from Basic Engine"

60105 "Echo loop could not be closed"

60106 "Wrong echo pattern received"

60200 "Version: nr1.nr2.nr3"





60205 "Front Panel failed."

60300 ""

60301 "Basic-Engine time-out error"

60400 ""





60405 "Focus loop could not be closed"

60500 ""





60600 ""





60700 ""





60800 ""





60805 "Radial loop could not be closed"

60900 ""





61500 ""





61600 ""





61700 ""

61701 "BE tray-in command failed"

61702 "BE read-TOC command failed"

61703 "BE VSM interrupt initialisation failed"

61704 "BE set irq command failed"

61705 "BE no disc or wrong disc inserted"

61706 "BE rec-pause command failed"

61707 "BE VSM BE out DMA initialisation failed"

61708 "BE VSM BE out initialisation failed"

61709 "BE VSM BE out DMA start failed"

61710 "BE VSM BE out start failed"

61711 "BE rec command failed"

61712 "BE VSM out underrun error occurred"

61713 "BE record complete interrupt not raised"

61714 "BE get irq command failed"

61715 "BE no interrupt was raised by BE"

61716 "BE VSM DMA out not finished"

61717 "BE stop command after writing failed"

61718 "BE VSM Sector processor initialisation failed"

61719 "BE VSM sector processor DMA initialisation failed"

61720 "BE VSM sector processor DMA start failed"

61721 "BE VSM sector processor start failed"

61722 "BE seek command failed"

61723 "BE VSM sector processor error occurred"

61724 "BE read timeout occurred"

61725 "BE stop command after reading failed"

61726 "BE difference found in data at disc sector 0xdiscsector"

61727"This nucleus cannot be executed because the Self-Testfailed"

61800 ""

61801 "BE i2c initialisation failed"

61802 "This nucleus cannot be executed because the Self-Testfailed"

61900 ""

61901 "The SelfTest failed with result: 0xnr1 0xnr20xnr3"





62000 ""

62001 "Self-Test : errorstring1 Laser-Test : errorstring2 SpindleM-Test: errorstring3 SledgeM-Test: errorstring4 Focus-Test :

errorstring5"

62100 "The forward sense level is 0xlevel"





62200 ""

62201 "The BE-self-diagnostic-spindle-motor-testfailed"





62300 ""

62301 "The BE-focus-test failed"





62400 ""

62401 "The BE-self-diagnostic-sledge-motor-test failed"





62500 ""

62600 ""

62700 "BE EEPROM address = address -> Bytevalue = 0xvalue"





62705 "BE read EEPROM; invalid input"

62800 ""





62805 "BE write EEPROM; invalid input"

62900 ""





62905 "Radial loop could not be closed"

63000 ""





63100" Number of times Tray went Open/Closed: nr1"" Total hours the CD laser was on : nr2"" Total hours theDVD laser was on : nr3"" Total hours the write laser was on : nr4"





63200 ""





63300

Momentary errors (Byte 1 - Byte 7) : 0xb1 0xb2 0xb30xb4 0xb5 0xb6 0xb7 Cumulative errors (Byte 1 - Byte 7): : 0xb10xb2 0xb3 0xb4 0xb5 0xb6 0xb7 Fatal errors (Oldest - Youngest) : : 0xb1 0xb2 0xb3 0xb4 0xb5





63400 ""





63500 ""





63505 "errorstring ÖThe basic engine willreject all player commands"

63900 ""





64000 "BE OPU number = opunumber"





64100"The data was successfully written on and read froma DVD disc"

64101 "The tray-in command failed"

64102 "The read-TOC command failed"

64103 "The VSM interrupt initialisation failed"

64104 "The set irq command failed"

64105 "No disc or wrong disc inserted"

64106 "The rec-pause command failed"

64107 "The VSM BE out DMA initialisation failed"

64108 "The VSM BE out initialisation failed"

64109 "The VSM BE out DMA start failed"

64110 "The VSM BE out start failed"

64111 "The rec command failed"

64112 "The VSM out underrun error occurred"

64113 "The record complete interrupt was not raised"

64114 "The get irq command failed"

64115 "There was no interrupt raised by BE"

64116 "The VSM DMA did not finished"

64117 "The stop command after writing failed"

64118 "The VSM Sector processor initialisation failed"

64119 "The VSM sector processor DMA initialisation failed"

64120 "The VSM sector processor DMA start failed"

64121 "The VSM sector processor start failed"

64122 "The seek command failed"

64123 "The VSM sector processor error occurred"

64124 "The read timeout occurred"

64125 "The stop command after reading failed"

64126"There was a difference found in data at aspecific disc sector"

64127 "The result of the self test contains errors"

64128 "An error interrupt was raised by BE"

64129 "The calibrate-record command failed"

64130 "To many retries"

64131 "BE update RAI command after writing failed"

64132 "BE find first recordable address command failed"

64133 "DVD+R disc is full"

64200 ""

64201 "BE i2c initialisation failed"

64202"This nucleus cannot be executed because the Self-Testfailed"

70000 "Echo test OK"

70001 "Echo test returned wrong string."

70002 "Communication with Analogue Board fails"

70300 "SoftwareVersion"

70301"Can not find segment in FLASH ROM on the AnalogueBoard"


70400 "HardwareVersion"



70500 "Clock adjusted OK"

70501 "Can not adjust the clock on the Analogue Board."

70502 "Wrong date/time text size."


70600 "Tuner accessibility test OK"

70601 "Can not access tuner on the Analogue Board."


70700 "Frequency download OK"

70701 "Wrong frequency table size."

70702 "Can not download the frequency table intothe analogue NVRAM."

70703 "Can not download the frequency table intothe analogue NVRAM."


70800 "Data slicer test OK"

70801 "Test of the Data slicer on the Analogue Board fails."


70900 "Sound Processor test OK"

70901 "Test of the Sound Processor on the Analogue Boardfails."


71000 "AV Selector test OK"

71001 "Test of the AV Selector on the Analogue Board fails."


71100 "NVRAM test OK"

71101 "Test of the NVRAM on the Analogue Board fails."


71200 "Video routing on the Analogue Board OK"

71201 "Routing the video on the Analogue Board fails."

71202 "Invalid input."


71300 "Audio routing on the Analogue Board OK"

71301 "Routing the audio on the Analogue Board fails."



71500 ""

71501 "Invalid slash version, default slash versionis set."

71502 "Setting the slash version on the AnalogueBoard fails."


71600 "ApplicationVersion"



71700 "DiagnosticsVersion"



71800 "DownloadVersion"

71801 "Can not find segment in FLASH ROM on the AnalogueBoard"


72300 ""

72000 ""

72001 "Adjusting BarGraphLevel failed"


72100 ""

72101 "Storing clock correction failed"

72102 "Value out of range : default value stored"



72200 ""

72201 "Initialising the 1Hz signal on the Clock ICfailed"


72301 "Clearing the NVRAM on the Analogue Board fails"


72400 "segment checksum is : checksum which is correct"for every segment

72401"segment could not be found" or "segment checksumis : checksumC ,however it should be : checksumE" for every segment


72900 "Date received"

72901 "Data returned"

72902 "Communication on I2C-bus failed on the AnalogueBoard fails."


73000 ""

73001 "Storing the external presets on the Analogue Boardfails"


73100 "0xslashversion" where slashversion is theslash version read from the analogue board

73101 "Error while reading out slash version."

73102 "I2C Write error."

73103 "I2C Read error."


73200 ""

73201 "Storing the Reference Voltage for the Tuner failed"



80000 "The DVIO module is present in the system."

80001 "The DVIO module is not present in the system."

80100 "The DVIO module has been reset OK."

80101 "The DVIO module is not present in the system."

80102 "The DVIO module could not be reset."

80103 "Could not initialise I2C before Reset."

80200 "The accessibility of the DVIO module is OK."

80201 "The DVIO board is not present in this DVDR."

80202 "Could not initialise I2C."

80203 "Unable to reset the DVIO module."

80204 "Unable to receive the reset indication fromthe DVIO module."

80205 "Unable to send the configuration to the DVIO module."

80206 "Unable to download the chip ID to the DVIOmodule."

80207 "Unable to set the mode of the DVIO moduleto IDLE."

80208 "Software Error in function HandleStateAwaitingReply!!"

80209 "Maximal number of retries reached by HandleStateSending!!"

80210 "Maximal number of retries (NACKs) reached (HandleStateSending)"

80211"We tried to receive a reply for DVIO_MAX_RETRIES_ACKREPLYtimes !!"

80212"We tried to receive a reply for DVIO_MAX_RETRIES_REPLYtimes !!"

80213 "We tried to receive an Ack for DVIO_MAX_RETRIES_ACKtimes!!"

80214 "VSM UART error timeout transmitting command"

80215 "VSM UART error timeout receiving reply"

80216 "VSM UART frame error occurred receiving from DVIOboard"

80217 "VSM UART parity error occurred receivingfrom DVIO board"

80218 "The confirmation/indication fromthe DVIO module is invalid."










80309 "Maximal number of retries reached by HandleStateSending!!"

80310"Maximal number of retries (NACKs) reached (HandleStateSending)"

80311"We tried to receive a reply for DVIO_MAX_RETRIES_ACKREPLYtimes !!"

80312 "We tried to receive a reply for DVIO_MAX_RETRIES_REPLYtimes !!"

80313 "We tried to receive an Ack for DVIO_MAX_RETRIES_ACKtimes!!"










80404"Unable to receive the reset indication fromthe DVIO module."





80409"Maximal number of retries reached by HandleStateSending!!"

80410"Maximal number of retries (NACKs) reached (HandleStateSending)"

80411 "We tried to receive a reply for DVIO_MAX_RETRIES_ACKREPLYtimes !!"

80412 "We tried to receive a reply for DVIO_MAX_RETRIES_REPLYtimes !!"

80413"We tried to receive an Ack for DVIO_MAX_RETRIES_ACKtimes!!"






80500 ""


80502 "The I2C could not be initialised."


80504"Unable to receive the reset indication fromthe DVIO module."




80508 "Software Error in HandleStateAwaitingReplyfunction!"

80509 "Maximal number of retries reached by HandleStateSending!"

80510 "Maximal number of retries (NACK"s)reached "(HandleStateSending)

80511"We tried to receive a reply for DVIO_MAX_RETRIES_ACKREPLYtimes!"

80512"We tried to receive a reply for DVIO_MAX_RETRIES_REPLYtimes!"

80513 "We tried to receive an Acknowledge for DVIO_MAX_RETRIES_ACKtimes!"






80519 "Setting the DVIO module in/out diagnosticsmode failed"

80520 "Invalid input"

80521 "Getting the errors of the self-test failed"

80522 "Self-test failed"

80600 ""









80609 "Maximal number of retries reached by HandleStateSending!"

80610"Maximal number of retries (NACK"s)reached "(HandleStateSending)

80611"We tried to receive a reply for DVIO_MAX_RETRIES_ACKREPLYtimes!"

80612 "We tried to receive a reply for DVIO_MAX_RETRIES_REPLYtimes!"








80700 ""









80709"Maximal number of retries reached by HandleStateSending!"

80710"Maximal number of retries (NACK"s)reached "(HandleStateSending)

80711 "We tried to receive a reply for DVIO_MAX_RETRIES_ACKREPLYtimes!"

80712 "We tried to receive a reply for DVIO_MAX_RETRIES_REPLYtimes!"








90121 "Error: audio data in host memory containswrong frequency: frequency Hz"

90122 "Error: audio data in host memory containssilence!"

90123 "There is no correct audio frame in the buffer"

90124 "The audio frame has an illegal version bit"

90125 "The audio frame has an illegal bitrate-index"

90126 "The audio frame has an illegal sampling rate"

90127 "The CRC of the audio frame is wrong"

90128 "The audio frame is not MPEG-I layer II !"

90129 "Error cannot de-mute DAC on analogue board"

90200 ""

90201 "Initialisation of I2C failed"

90202 "Initialisation of VIP and EMPIRE failed"

90203 "Initialisation of PLL / Link failed."

90204 "Next descriptor address set wrong."

90205 "Turning on the colourbar failed"

90206 "No I2C communication possible to start videoencoder."

90207 "Starting the video encoder failed."

90208 "Transfer of data from video encoder to VSM failed."

90209 "Stopping the encoder failed."

90210 "Turning off the colourbar failed."

90211 "Cannot intialize hostdecoder parallel input"

90212 "Cannot initialise VSM AV-out DMA port"

90213 "Cannot initialise VSM AV-out port"

90214 "Cannot start VSM AV-out DMA port"

90215 "Cannot start VSM AV-out port"

90216 "Transfer of data from VSM to host decoderfailed."

90217"VSM and Hostdec memory do not match (comparedafter transfer)"

90218 "Decoding of the video data in the hostdecoder memoryfailed"

90219 "The data in the hostdecoder is not equal toa colourbar"

90220"The video encoder did not return the GroupOf Picture count."

90221 "The video encoder did not receive data fromthe VIP."

90223 "Initialisation of VIP and EMPRESS failed"

90224 "The video encoder did not return the currentstatus."

90225 "The video encoder timed out in BUSY mode.(no VIP input)"

90226 "The video encoder did not return the currentbitrate."

90227 "The video encoder did not switch to ENCODING mode."

90228 "The video encoder could not start from STOP/IDLEmode."

90229 "The video encoder did not switch from IDLEto STOP mode."

90300 ""


90302 "I2C communication to VIP failed"

90303 "Initialisation of VIP failed"

90304 "Generation of Close Caption data failed"

90305 "VIP not locked to video signal"

90306 "Initialisation of VBI Extractor failed

90307 "No CC data received"

90308 "Closed Caption data overrun"

90309 "Closed Caption data does not match"

90310 "Switch off ColourBar failed"

90400 ""

















90417 "VSM and Hostdec memory do not match (comparedafter transfer)"

90418 "Decoding of the video data in the hostdecoder memoryfailed"


90420"The video encoder did not return the GroupOf Picture count."










90500 ""












90600 ""

















90617 "VSM and Hostdec memory do not match (comparedafter transfer)"

90618"Decoding of the video data in the hostdecoder memoryfailed"


90620 "The video encoder did not return the GroupOf Picture count."










90700 ""












90800 ""

90801 "Error routing the audio back to the digitalboard."

90802 "Error cannot initialise I2C"

90803 "Error cannot initialise VIP"

90804 "Error cannot set ADC enable pin"

90805 "Error cannot set VSM audio clock"

90806 "Error preparing the 12kHz audio-sine"

90807 "Error cannot initialise audio encoder"

90808 "Error cannot initialise VSM audio in port"

90809 "Error cannot initialise VSM audio in DMA port"

90810 "Error cannot initialise VSM audio out DMAport"

90811 "Error cannot initialise audio VSM out port"

90812 "Error cannot initialise host decoder audioin"

90813 "Error loop audio user/dealer cannotstart audio encoder"

90814 "Error cannot start VSM audio in DMA port"

90815 "Error starting the 12kHz audio-sine"

90816 "Error transfer data from audio encoder toVSM"

90817 "Error cannot start VSM AV out DMA port"

90818 "Error cannot start VSM AV out port"

90819 "Error transfer data from VSM to host decoder"

90820 "Error: audio data in host memory and VSM memorydiffer"

90821 "Error: audio data in host memory containswrong frequency: frequency Hz"









90900 ""

90901 "Error routing the audio back to the digitalboard."

90902 "Error cannot initialise I2C"

90903 "Error cannot initialise VIP"

90904 "Error cannot set ADC enable pin"

90905 "Error cannot set VSM audio clock"

90906 "Error preparing the 12kHz audio-sine"

90907 "Error cannot initialise audio encoder"

90908 "Error cannot initialise VSM audio in port"

90909 "Error cannot initialise VSM audio in DMA port"

90910 "Error cannot initialise VSM audio out DMAport"

90911 "Error cannot initialise audio VSM out port"

90912 "Error cannot initialise host decoder audioin"

90913 "Error loop audio user/dealer cannotstart audio encoder"

90914 "Error cannot start VSM audio in DMA port"

90915 "Error starting the 12kHz audio-sine"

90916 "Error transfer data from audio encoder toVSM"

90917 "Error cannot start VSM AV out DMA port"

90918 "Error cannot start VSM AV out port"

90919 "Error transfer data from VSM to host decoder"

90920 "Error: audio data in host memory and VSM memorydiffer"

90921"Error: audio data in host memory containswrong frequency: frequency Hz"









140000 ""

140001 "I2C to Clock failed" or "I2C initialisationfailed"

140100 ""

140101 "I2C to Clock failed" or "I2C initialisationfailed"

141200 ""

Loop tests

The following loops can be distinguished: Loops performedon the digital board only

141201 "Progressive Scan Board I2C bus busy"

141211 "Progressive Scan Board I2C FLI2200 bus busy"

141212 "Progressive Scan Board I2C FLI2200 read access time-out"

141213 "Progressive Scan Board I2C FLI2200 no readacknowledge"

141214 "Progressive Scan Board I2C FLI2200 read failed"

141215 "Progressive Scan Board I2C FLI2200 write accesstime-out"

141216 "Progressive Scan Board I2C FLI2200 no writeacknowledge"

141217 "Progressive Scan Board I2C FLI2200 write failed"

141218 "Progressive Scan Board I2C FLI2200 failed"

141221 "Progressive Scan Board I2C AD7196 bus busy"

141222 "Progressive Scan Board I2C AD7196 read access time-out"

141223 "Progressive Scan Board I2C AD7196 no readacknowledge"

141224 "Progressive Scan Board I2C AD7196 read failed"

141225 "Progressive Scan Board I2C AD7196 write accesstime-out"

141226 "Progressive Scan Board I2C AD7196 no writeacknowledge"

141227 "Progressive Scan Board I2C AD7196 write failed"

141228 "Progressive Scan Board I2C AD7196 failed"

141300 ""

141301 "Progressive Scan Route Enable failed"

141302 "Generating test image in Hostdecoder failed"

141400 ""

141401 "Progressive Scan Route Disable failed"

141402 "Turning off test image in Hostdecoder failed"

141500 ""

141501 "Progressive Scan Board I2C failed"

141600 ""

141601 "Progressive Scan Board I2C failed"

User Dealer loops performed on the digital andanalogue board System loops performed via an external connection: outputsare looped back to the inputs.

Nucleus 900: Digital Audio Loop

This nucleus tests the audio path through thedigital board

Figure: Nucleus 901: Audio User Dealer Loop

A PCM audio sine of 12kHz is generated in theHost Decoder for a while and sent to the analogue board. The signalcoming from the analogue board is encoded again and sent to the memoryof the host decoder for comparison. This nucleus tests the componentson the audio signal path:

Host decoder Flex connection between connector 1602 (digitalboard) and connector 1900

(analogue board) DAC Op-amp Scart switch IC ADC Audio Encoder VIP VSM

Figure: Nucleus 902: DigitalVideo Loop

A colourbar generated in the host decoder islooped through the VIP, Empire, and VSM and checked again in thehost decoder. The following components are tested on the video signalpath:

VIP

Empire VSM Host decoder

Figure: Nucleus 903: Digital VideoVBI Loop

Nucleus for testing the components on the videoVBI signal path: The VIP The VSM The Host Decoder

This is done by using the internal test signal source(digital board only) Remark: thistest is only successful if nucleus 121 is carried out first.

Figure: Nucleus 904: SystemVideo Loop

Nucleus for testing the components on the videosignal system path: The VIP The video encoder The VSM The host decoder The analogue board

On the analogue board the video signal will be routedto the SCART (EUROPE) or CINCH (NAFTA). There it will be looped backexternally by means of the proper cable

Figure: Nucleus 905: SystemVideo VBI Loop

This nucleus tests the components on the videosignal path: The VIP The VSM The Host Decoder

The video CVBS signal is routed to the output of the analogue boardwhere it will be looped back by means of an external cable Remark: thistest is only successful if nucleus 121 is carried out first.

Figure: Nucleus 906: Video UserDealer Loop

Nucleus for testing the components on the videosignal system path: The VIP The video encoder The VSM The host decoder The analogue board

On the analogue board, the video signal is internallyrouted back to the digital board.

Figure: Nucleus 907: Video VBIUser Dealer Loop

This nucleus tests the components on the videoVBI signal path: The VIP The VSM The Host Decoder

The signal is routed back internally on the analogue board Remark: thistest is only successful if nucleus 121 is carried out first.

Figure: Nucleus 908: SystemAudio Loop Scart (Europe)

Nucleus for testing the components on the audiosignal path: The hostdecoder The analogue board The audio encoder The VSM

On the analogue board, audio is passed to the SCART connector,where a SCART cable needs to be used to loop back the audio signalto the digital board

Figure: Nucleus 909: SystemAudio Loop CINCH (Nafta)

Nucleus for testing the components on the audiosignal path: The hostdecoder The analogue board The audio encoder The VSM

On the analogue board the audio is passed to the CINCH connector,where a CINCH cable needs to be used to loop back the audio signalto the digital board

Figure:

Figure:

Figure:

Power Part Check

Routing Audio and Video

Route Video Nucleus Number: 712 Description This nucleus routes the video signals on the analogueboard to the destination determined by the input parameters The paths that are available for video routing and their description(Europeversion) PATH ID DESCRIPTION

00 Input signal is VIDEO(CVBS) from digital board andwill be re-routed back to the digital board.

01 Input signal is from FRONT VIDEO(CVBS) IN and willbe routed to the digital board.

02Input signal is from REAR VIDEO(CVBS) IN and willbe routed to the digital board.

03Input signal is from FRONT S-VIDEO(Y/C)and will be routed to the digital board.

04 Input signal is from REAR S-VIDEO(Y/C)and will be routed to the digital board.

05 Input signal is CVBS from SCART1 and will be routedto the digital board.

06 Input signal is CVBS from SCART2 and will be routedto the digital board.

07 No routing.

08Input signal is VIDEO(CVBS) from ANTENNA IN andwill be routed to SCART1.

09 Input signal is VIDEO(CVBS) from SCART1 and willbe routed to SCART2.

10 Input signal is VIDEO(CVBS) from SCART2 and willbe routed to SCART1.

11 No routing.

12 Input signal is from REAR VIDEO(CVBS) IN and willbe routed

The paths that are available for video routing and their description(Nafta region)

to SCART1 and SCART2.

13Input signal is from FRONT VIDEO(CVBS) IN and willbe routed to SCART1.

14Input signals VIDEO(CVBS and Y/C)from SCART 1 will be routed to SCART2.

15 Input signal is from REAR S-VIDEO(Y/C)IN and will be routed to SCART2.

16 Input signal is from FRONT S-VIDEO(Y/C)IN and will be routed to SCART2.

17 No routing

18 No routing

19Input signals VIDEO(RGB and FAST BLANKING) fromSCART2 will be routed to the corresponding pins of SCART1.

20 Signal path is routed from digital board RGBto RGB SCART1 and from RGB SCART2 to digital board YUV and fromdigital board CVBS to digital board CVBS.

21Signal path is routed from digital board YCto REAR S-VIDEO(YC) OUT and from REAR S-VIDEO(YC) IN to digitalboard YC.

PATH ID

DESCRIPTION


01Input signal is from FRONT VIDEO(CVBS) IN and willbe routed to the digital board.

02Input signal is from REAR VIDEO(CVBS) IN and willbe routed to the digital board.

03 Input signal is from FRONT S-VIDEO(Y/C)IN and the signal received will be routed to the digital board.

04 Input signal is from REAR S-VIDEO(Y/C)IN and will be routed to the digital board.

Example DD:> 712 01 71200: Video routing on the Analogue Board OK. Test OK @ Route Audio

Nucleus Number: 713

05 Input signal is from YUV IN and will be routedto the digital board.

06 No routing.

07 No routing.

08 Input signal is VIDEO(CVBS) from ANTENNA IN andwill be routed to VIDEO(CVBS) OUT and .

09 Input signal is from YUV IN and will be routedto YUV OUT.

10 No routing.

11 No routing.

12 Input signal is from REAR VIDEO(CVBS) IN and willbe routed to REAR VIDEO(CVBS) OUT.

13 Input signal is from FRONT VIDEO(CVBS) IN and willbe routed to REAR VIDEO(CVBS) OUT.

14 Input signal is from REAR S-VIDEO(Y/C)IN and will be routed to REAR S-VIDEO(Y/C) OUT.

15Input signal is from FRONT S-VIDEO(Y/C)IN and will be routed to REAR S-VIDEO(Y/C) OUT.

16 No routing.

17

Signal path is routed from digital board RGBto REAR VIDEO(YUV) OUT and from REAR VIDEO(YUV) IN to digital boardYUV and from digital board CVBS to digital board CVBS.

18Signal path is routed from digital board CVBSto REAR VIDEO(CVBS) OUT and from REAR VIDEO(CVBS) IN to digitalboard CVBS.

19Signal path is routed from digital board YCto REAR S-VIDEO(YC) OUT and from REAR S-VIDEO(YC) IN to digitalboard YC.

Description This nucleus routes the audio on the analogue board tothe destination determined by the input parameters The paths that are available for audio routing and their description(Europe version) PATH ID DESCRIPTION

00Input signal is VIDEO(CVBS) from digital board andwill be re-routed back to the digital board.

01 Input signal is from FRONT AUDIO IN and willbe routed to the digital board.

02 Input signal is from REAR AUDIO IN and willbe routed to the digital board.

03Input signal is AUDIO from SCART1 and willbe routed to the digital board.

04Input signal is AUDIO from SCART2 and willbe routed to the digital board.

05 No routing.

06 No routing.

07 No routing.

08Input signal is VIDEO(CVBS) and AUDIO fromANTENNA IN and will be routed to SCART1.

09Input signal is VIDEO(CVBS) and AUDIO from SCART1and will be routed to SCART2.

10 Input signal is VIDEO(CVBS) and AUDIO from SCART2and will be routed to SCART1.

11 Input signal is AUDIO from dvio board and willbe routed to SCART1.

12 No routing.

13 No routing.

14 No routing.

15 No routing.

16 No routing.

17Input signal is from REAR AUDIO IN and willbe routed to SCART1.

Input signal is from FRONT AUDIO IN and willbe routed to

The paths that are available for audio routing and their description(Nafta region)

18 SCART1.

PATH ID

DESCRIPTION


01Input signal is from FRONT AUDIO IN and willbe routed to the digital board.

02Input signal is from REAR AUDIO IN 2 and willbe routed to the digital board.

03 Input signal is from FRONT AUDIO IN and willbe routed to the digital board.

04 No routing.

05 No routing.

06 No routing.

07 No routing.

08Input signal is VIDEO(CVBS) and AUDIO fromANTENNA IN and will be routed to VIDEO(CVBS) OUT and REAR CINCHOUT 2.

09 No routing.

10Input signal is from REAR AUDIO CINCH IN 2and will be routed to REAR AUDIO CINCH OUT 2.

11Input signal is from FRONT AUDIO CINCH IN and willbe routed to REAR AUDIO CINCH OUT 2.

12 No routing.

13 No routing.

14 No routing.

15 No routing.

16 Input signal is AUDIO from dvio board and willbe routed to AUDIO CINCH OUT 2.

17 No routing.

18 No routing.

EXAMPLE DD:> 713 00 71300: Audio routing on the Analogue Board OK. Test OK @

Service Modes, Error Codes and Fault Finding Index of this chapter: Supporting Overviews General Start-up Measurements Diagnostic Software Nuclei Error Codes Fault Finding Levels: Most measurements are digital measurements. The signal levels specification in this document are defined as follows:

low < 0.3V high > 3.0V LOW < 0.4V HIGH > 4.5V

19 No routing.

20Input signal is from digital board and willbe routed to the REAR AUDIO OUT 1 and input signal is from REARAUDIO IN 2 and will be routed to the digital board.



Start-up Measurements Power Supply Check

Table: Table of supply input voltages.

Table: Table of derived supply voltages.

The module operates in power 'off' and power 'on' only. There is no standby mode at module

Signal Test point Description Specifications Tolerance Unit

+3V3 I007 Input of supply +3.3 1% V

+5 I008 Input of supply +5 1% V

+4V6 I010 Input of supply +4.6 1% V

-5 I011 Input of supply -5 1% V

+12 I012 Input of supply +2 1% V

GND I015, I016 Input of supply

Signal Test point Description Specifications Tolerance Unit

D3V3 I006 Digital 3V3 +3.3 2% V

A3V3 I007 Analogue 3V3 +3.3 2% V

+5V I008 Analogue 5V +5 2% V

D5V I009 Digital 5V +5 2% V

+3V3E F001 OPU 3V3 +3.3 2% V

-5 I011 Neg. voltage -5 2% V

+12 I012 12V +12 2% V

Vbias I014 Bias voltage -1.7 2% V

GND I017, I018 Input of supply 0 0 % V

level. In power 'off', the module does not respond to any communication or signal. Before starting the measurement, connect the power supply to the mono board via connector 1000, and the PC interface cable to the Service Interface connector of the 'test recorder'. Oscillator Check

Table: Table of clock signals.

On the mono board, there are two external oscillators (OSCOUT and CROUT), which are the reference for all clock signals derived in several ICs. To check whether the program (in the MACE microprocessor) is running after power 'on', you can monitor the PSEN (OEn of Flash ROM) on I223 (see test point overview in chapter 6). You can measure the Servo clocks at I326 (RAdial), I334 (FOcus), and I343 (SLedge).

Diagnostic Software

Due to the complexity of a DVD recorder, the time to find a defect in the recorder can become long. To reduce this time, the recorder has been equipped with Diagnostic and Service software (DS). The DS offers functionality to diagnose the DVDR hardware and tests the following:

Interconnections between components. Accessibility of components. Functionality of the audio and video paths.

This is also valid for the Basic Engine. One can access this functionality via several interfaces:

1. End user/Dealer script interface. 2. Player script interface.

Signal Test point Description Spec. Tolerance Unit

OSCOUT I219 Ref. Clock MACE 8.483 +/- 70 kHz MHz

CROUT I443 Ref. Clock HDR65 8.501 +/- 70 kHz MHz

PSEN I223 OEN Flash ROM 5.324 +/- 70 kHz MHz

RA/FO/SL I326/I334/I343 Servo clock 2.120 +/- 20 kHz MHz

3. Menu and command interface.

This part describes all interfaces from the outside world to the diagnostic software, how to use these interfaces, and how to access them. First some definitions:

Diagnostic Nucleus. Part of the Diagnostic Software. Each nucleus contains an atomic and software independent diagnostic test, testing a functional part of the DVD player hardware on component level. Script. Part of the Diagnostic Software. Each script contains a sequence of Diagnostic Nuclei to be executed. Service PC. PC used by a service or repair person to communicate with the Diagnostic Software in the DVD player.

End User/Dealer Script Interface

The End user/Dealer script interface gives a diagnosis on a stand-alone DVD recorder; no other equipment is needed. During this mode, a number of hardware tests (nuclei) are automatically executed to check if the recorder is faulty. The diagnosis is simply a 'fail' or 'pass' message. If the message 'FAIL' appears on the display, there is apparently a failure in the recorder. If the message 'PASS' appears, the nuclei in this mode have been executed successfully. There can be still a failure in the recorder because the nuclei in this mode do not cover the complete functionality of the recorder. Note: As this mode is meant for a complete DVD Recorder, and does not add much for testing the Basic Engine, reference is made to the appropriate DVD Recorder Service Manual for a detailed description:

DVDR1000: 3122 785 11600 DVDR990: 3122 785 12430 DVDR98x: 3122 785 11970 DVDR8xx: 3122 785 12200

Player Script Interface

The Player script will give the opportunity to perform a test that will determine which of the DVD recorder's modules are faulty, to read the error log and to perform an endurance loop test. To successfully perform the tests, connect the DVD recorder to a TV set. To be able to

check results of certain nuclei, the player script expects some interaction of the user (i.e. to approve a test picture or a test sound). Some nuclei (e.g. nuclei that test functionality of the DVDR module) require that a DVD+RW disc is inserted. Only tests within the scope of the diagnostic software will be executed hence only faults within this scope can be detected. See note above (paragraph 5.3.1). Menu and Command Interface

Each nucleus contains an atomic and independent diagnostic test, testing a functional part of the DVD player hardware on component level. Each Nucleus returns a result message to its caller. Some tests (e.g. generating a colour bar) can only return an "OK" result. Internal communication will be done via a uniform interface between the diagnostic Engine, Scripts, and the Diagnostic Nuclei. The Diagnostic Engine can only operate if a certain (minimal) set of hardware is functioning properly. To test this set of hardware, a set of basic diagnostic nuclei is embedded in the DVD player. Each basic diagnostic nucleus will only test that part of the hardware which is required for execution of the diagnostic Engine, e.g. a RAM test will only test that part of RAM that is used by the diagnostic engine. After the Diagnostic Engine is operational, it is possible to do a full RAM diagnostic. All basic diagnostic nuclei start with prefix 'Basic'. In the overview, each Diagnostic Nucleus consists of a reference number, a reference name, and remarks. Reference number and name are coupled and one of them is enough for unique identification. Nuclei Numeration

Each nucleus has a unique number of four digits. This number is the input of the command mode.

Figure: Nucleus code The following groups are defined:

Table: Nucleus groups

For testing the Basic Engine, group number 6 is defined Error handling

Each nucleus returns an error code. This code contains six numerals, which means:

Figure: Error code The nucleus group numbers and nucleus numbers are the same as above.

Group number Group name

0 Basic / Scripts

1 Host decoder

2 Audio / Video encoder (DVDR only)

3 VSM (DVDR only)

4 NVRAM

5 Front Panel

6 Basic Engine

7 Analogue board (DVDR only)

8 DVIO (DVDR only)

9 Loop nuclei (DVDR only)

10 Library sub nuclei (I2C nuclei)

11 User interface

12 Furore (SACD only)

13 DAC (SACD only)

14 Miscellaneous

Hardware required

Service PC. One free COM port on the Service PC. Special cable to connect DVD recorder to Service PC.

The service PC must have a terminal emulation program (e.g. OS2 Warp Terminal, ProComm, or HyperTerminal) installed and must have a free COM port (e.g. COM1). Activate the terminal emulation program and check that the port settings for the free COM port are:

19200 bps, 8 data bits, No parity, 1 stop bit, No flow control.

Connect the free COM port via a special cable to the RS232 port of the DVD recorder. This special cable will also connect the test pin, which is available on the connector, to ground (i.e. activate test pin). Code number of PC interface cable: 3122 785 90017. Command Mode Interface

Activation

Connect the recorder to the mains. The following text will appear on the screen of the terminal (program):

Figure: Opening screen for Command Mode The first line indicates that the Diagnostic software has been activated and contains the version number. The next lines are the successful result of the SDRAM interconnection test

and the basic SDRAM test. The last line allows the user to choose between the three possible interface forms. If pressing 'C' has made a choice for Command Interface, the prompt ("DD>") will appear. The diagnostic software is now ready to receive commands. The commands that can be given are the numbers of the nuclei. Command Overview

We provide an overview of the nuclei and their numbers. This overview is preliminary and subject to modifications. Table: Nuclei overview Ref. # Function name Description

600 DS_BE_S2B_Pass

It switches the RS232 port and the S2B port in pass-through mode. This means that the player hangs. The only way to exit this nucleus is via a power off of the player

601 DS_BE_S2B_Engine

It checks the S2B interface with the Basic Engine by sending an 'echo' command

602 DS_BE_VersionIt returns the version number of the Basic Engine

603 DS_BE_ResetIt resets the Basic Engine

604 DS_BE_FocusOnIt puts the laser of the basic engine into focus (focus loop)

605 DS_BE_FocusOff It switches the focus loop off

606 DS_BE_DiscMotorOn It switches the disk motor (= spindle motor) on

It switches the disk motor

607 DS_BE_DiscMotorOff (= spindle motor) off

608 DS_BE_RadialOn It closes the radial loop

609 DS_BE_RadialOff It opens the radial loop

615 DS_BE_TrayIn It closes the disc tray

616 DS_BE_TrayOut It opens the disc tray

617 DS_BE_WriteRead

It writes data to the BE which is stored on a DVD disc and read it back from the DVD disc. This is only done when the result of the self-test contains no errors.

618 DS_BE_WriteReadEndlessLoop

It writes data to the BE which is stored on a DVD disc and read it back from the DVD disc, while repeating in an endless loop. This is only done when the result of the self-test contains no errors. Errors are stored in NVRAM.

625 DS_BE_SledgeMotorSlow

It moves the sledge full stroke several times slow enough to allow visual inspection of unhampered movement

626 DS_BE_Tilt

It tests the tilt mechanism control loop, or allow its proper functioning to be measured

627 DS_BE_ReadEepromIt reads one data byte from the EEPROM

629 DS_BE_OptimiseJitterIt performs jitter optimisation

630 DS_BE_RadialATLSCalibrationIt allows the radial loop to be calibrated.

It retrieves the statistical

631 DS_BE_GetStatisticsInfo information from the Basic Engine

632 DS_BE_ResetStatisticsInfoIt erases the statistical information

633 DS_BE_ReadErrorlogIt retrieves the error log from the Basic Engine

634 DS_BE_ResetErrorlogIt erases the fatal error log and the cumulative error log

638 DS_BE_GetSelfTestResult

It retrieves the result of the Self Test of the Basic engine, which is executed during power-on.

639 DS_BE_RadialInitIt allows the radial initialisation

640 DS_BE_GetOPUInfo

It retrieves the OPU number from the EEPROM of the Basic engine.

641 DS_BE_WriteReadPlusR

It writes data to the BE which is stored on a DVD disc and read it back from the DVD disc. This is only done when the result of the self-test contains no errors.

642 DS_BE_WriteReadPlusREndlessLoop

It writes data to the BE which is stored on a DVD disc and read it back from the DVD disc, while repeating in an endless loop. This is only done when the result of the self-test contains no errors. Errors are stored in NVRAM.

Menu Mode Interface

Activation

Connect the recorder to the mains. The following text will appear on the screen of the terminal (program):

Figure: Opening screen for Menu Mode The first line indicates that the Diagnostic software has been activated and contains the version number. The next lines are the successful result of the SDRAM interconnection test and the basic SDRAM test. The last line allows the user to choose between the three possible interface forms. If pressing 'M' has made a choice for Menu Interface, the Main Menu will appear. Menu Structure

1. Digital Board 2. Analogue Board 3. Front Panel 4. Basic Engine

1. Reset 2. S2B Pass-through 3. S2B Echo 4. Focus On 5. Focus Off

6. Version 7. Self Test 8. Get Self Test Result 9. Basic Engine Test

10. Laser Test 11. Focus Test 12. Tilt Test 13. Optimise Jitter 14. Statistics Info 15. Log

1. Read Error Log 2. Reset Error LogSpindle Motor

16. Spindle Motor 1. Spindle Motor On 2. Spindle Motor Off 3. Spindle Motor Test

17. Radial 1. Radial On 2. Radial Off 3. Radial Initialisation 4. Radial ATLS Calibration

18. Sledge 1. Sledge test 2. Sledge test slow

19. Tray 1. Tray In 2. Tray Out

5. DVIO 6. Progressive Scan Board 7. Loop Tests 8. Log 9. Scripts

Nuclei Error Codes

In the following table the error codes will be described. Table: Nuclei error codes overview

Error #

Description

60000The player hangs, the RS232 port and the S2B port were successfully switched in pass-through mode. The only way to exit is to power 'off' the player

60100The S2B interface with the Basic Engine was successfully checked

60101 The Basic Engine returned an error number

60102 Parity error from Basic Engine to Serial

60103 Communication time-out error

60104 Unexpected response from Basic Engine

60105 The Echo loop could not be closed

60106 A wrong echo pattern was received

60200 The version number of the Basic Engine was successfully returned





60205 The Front Panel failed

60300 The Basic Engine was successfully reset

60301 Basic-Engine time-out error 60400 The focus on test was successfully completed





60405 Focus loop could not be closed 60500 The focus off test was successfully completed




60504 Unexpected response from Basic Engine 60600 The disk motor was successfully switched on




60604 Unexpected response from Basic Engine 60700 The disk motor was successfully switched off




60704 Unexpected response from Basic Engine 60800 The Radial loop was successfully closed





60805 The Radial loop could not be closed

60900 The Radial loop was successfully opened





61500 The tray was successfully closed




61504 Unexpected response from Basic Engine 61600 The tray was successfully opened





61700The data was successfully written on and read from a DVD disc

61701 The tray-in command failed

61702 The read-TOC command failed

61703 The VSM interrupt initialisation failed

61704 The set irq command failed

61705 No disc or wrong disc inserted

61706 The rec-pause command failed

61707 The VSM BE out DMA initialisation failed

61708 The VSM BE out initialisation failed

61709 The VSM BE out DMA start failed

61710 The VSM BE out start failed

61711 The rec command failed

61712 The VSM out underrun error occurred

61713 The record complete interrupt was not raised

61714 The get irq command failed

61715 There was no interrupt raised by BE

61716 The VSM DMA did not finished

61717 The stop command after writing failed

61718 The VSM Sector processor initialisation failed

61719 The VSM sector processor DMA initialisation failed

61720 The VSM sector processor DMA start failed

61721 The VSM sector processor start failed

61722 The seek command failed

61723 The VSM sector processor error occurred

61724 The read timeout occurred

61725 The stop command after reading failed

61726 There was a difference found in data at a specific disc sector

61727 The result of the self test contains errors

61728 An error interrupt was raised by BE

61729 The calibrate-record command failed 61800 This test succeeded

61801 I2c initialisation failed


62500 Everything went well





62600 Everything went well





62700 The data byte was successfully read from the EEPROM





62705 The user entered an invalid input 62900 This nucleus succeeded





62905 Jitter command could not be completed

63000 The adaptive track-loss slicer calibration was successfully executed





63100 The statistics were retrieved successfully from the Basic Engine




63104 Unexpected response from Basic Engine 63200 The statistical information was successfully erased





63300 The error log was successfully retrieved from the Basic Engine





63400 The fatal error log and the cumulative error log were successfully erased




63404 Unexpected response from Basic Engine 63800 The result of the self test was successfully retrieved






63900 The radial initialisation was successfully executed





64000 The result of the self test was successfully retrieved





64100 The data was successfully written on and read from a DVD disc

64101 The tray-in command failed

64102 The read-TOC command failed

64103 The VSM interrupt initialisation failed

64104 The set irq command failed

64105 No disc or wrong disc inserted

64106 The rec-pause command failed

64107 The VSM BE out DMA initialisation failed

64108 The VSM BE out initialisation failed

64109 The VSM BE out DMA start failed

64110 The VSM BE out start failed

64111 The rec command failed

64112 The VSM out underrun error occurred

64113 The record complete interrupt was not raised

64114 The get irq command failed

64115 There was no interrupt raised by BE

64116 The VSM DMA did not finished

64117 The stop command after writing failed

64118 The VSM Sector processor initialisation failed

64119 The VSM sector processor DMA initialisation failed

64120 The VSM sector processor DMA start failed

64121 The VSM sector processor start failed

64122 The seek command failed

64123 The VSM sector processor error occurred

64124 The read timeout occurred

64125 The stop command after reading failed

64126 There was a difference found in data at a specific disc sector


64128 An error interrupt was raised by BE

64129 The calibrate-record command failed

64130 To many retries

64131 BE update RAI command after writing failed

64132 BE find first recordable address command failed

64133 DVD+R disc is full 64200 This test succeeded

64201 I2C initialisation failed


Fault Finding

Below you will find faultfinding trees for all the main parts of the Basic Engine. Basic Engine

Figure: Basic Engine functional testing Loader

Figure: Loader testing DVD-M

Figure: DVD-M testing PWB

Figure: Mono board testin

Introduction This training is intended for use by the Service Technician. The first portion of this document contains a basic description of disc based data playback and recording technologies. Technical Descriptions of the circuitry is followed by a Troubleshooting Section. Self Diagnostics are included at the end to aid in troubleshooting.

The DVDR985 is the forth in a line of DVD recorders. The DVDR1500 was the first. Recordings can be made from broadcast transmissions, and from other analog or digital sources. The DVDRW format allows the user to record and erase a disc many times. The recorded discs will play on most existing and future DVD players. The DVDR985 has a connection for DV or Digital camcorders via an I-Link or Firewire connection. This connection technically is called an IEEE 1394 connection. This machine records on 4.7Gbyte DVD+R and DVD+RW discs. This machine uses a real-time MPEG2 Variable Bit Rate, VBR, Video encoder. The DVDR985 plays back DVD Video, Video CD, Audio CD, CD-R, and CD-RW discs.

Its many features include: Favorite Scene Selection for easy editing, Index Picture Screen for instant overview of contents, Digital Time Base Corrector, Digital Audio output (DTS, AC-3, MPEG, PCM), TruSurround for 3D sound, Zoom + Perfect Still. It is Widescreen, 16:9 compatible, and has a Universal Remote Control, 20 disc resume, Disc Lock, and One Touch Recording.

Virgin Mode

The DVDR985, when first hooked up, needs to get information from the user about what language and what local broadcast system the unit is going to operate with. Use the remote to make those selections. The unit will not operate until this process is completed. If you want the recorder to start up in Virgin mode, unplug the recorder. Plug the recorder in again while holding the STANDBY-ON button.

DVD Basics Philips with nine other manufacturers chose a format specification for DVDR and RW on March 16, 2001. This new format uses Real Time recording. Its recording is compatible with DVD-Video, and DVD ROM. The data blocks use lossless linking. The physical layout matches very closely that of DVD ROM. See figure below. It also uses Direct Overwrite when a RW disc is used.

Laser Technology

CDs use a red laser created by a diode and lens system often called a Light Pen. See Figure below. The narrow beam of light is focused onto the reflective layer of a disc. At the instant that focus is achieved, the disc is spun. The laser starts on the innermost tracks of the CD and reads outward. At the beginning of the disc is the Table of Contents. At the bottom of the Light Pen are Monitoring Diodes. The Monitoring Diodes provide information about focus and tracking. Data is retrieved from the disc in the form of pulses of light reflecting from the disc. The pulses are created by Pits in the Reflective Layer of the disc. The Pits reflect less light than the intact surface of the Reflective Layer, called Lands.

Disc Mechanical Layout

The DVD and CD share much of their technology. We will start with CDs and work our way to the DVD. The CD is a plastic disc 120mm in diameter, with a thickness of 1.2mm. Refer to the figure below. It has a silver colored Reflective Layer. The maximum playing time for a music recording on a Compact Disc, CD, is 74 Min.

The CD is less vulnerable to damage than an analog record. That does not mean it does not have to be treated with care. Dirt and heavy scratches can interfere with playability.

As shown in the figure below, the CD is subdivided into three parts: the Lead In Track, the Program Area, and the Lead Out Area. These three sections together are considered the Information Area. There is a hole in the center for holding the disc. The disc is held between two equally sized concentric rings. The rings have an inner diameter of 29mm and an outer diameter of 31mm.

The Data on the disc is recorded on a spiral shaped track with pits and lands. The reflective side of the disc contains the tracks.

The production of a disc is a high tech process explained in Figure 5. The process starts with glass that is photo etched. The glass is silver plated and is used as a form for a metal cast. The metal cast is used to stamp a nickel Mother Stencil. The Mother Stencil is used to stamp the Son Stencil. Son Stencils are used to stamp the foil of the discs. A protective layer and label are added.

Read Process

The Servo circuit is responsible for focusing the laser and moving the Light Pen to follow the spiraling tracks on the rotating disc. The digital High Frequency information, HF, is demodulated and stored in RAM. When the RAM is half full, the data is fed out to the Digital to Analog Converters. The speed of the rotating disc is servo controlled to keep the RAM half full. The analog signals are amplified and sent to the output connectors.

Record Once Technology


From an external point of view, a DVD is the same as the CD. Recordable media creates the need for three physical layouts. There are three possible states of a disc: a blank disc, a partially recorded disc, and a full or finalized disc. The difference is in the way the Information Area is divided. The Information Area of a blank disc extends from 22.35 mm centered on the disc to 59 mm centered on the disc. Refer to the Figure.

A partially recorded disc’s Information Area has four sections: a PCA/RMA area, a Lead In Area, a Recorded Program Area, and a Recordable Program Area. The PCA Area is the Power Calibration Area, PCA. The RMA Area is the Recording Management Area.

A fully recorded or finalized disc’s Information Area has three sections: A lead in Area, the Program Area, and the Lead Out Area.

The disc’s recordable layer contains major differences from that of a stamped disc. The blank disc has a Pre-groove stamped into the recordable layer of the disc. This is polycarbonant for DVD+Rs and organic dye material for DVD+RWs. This spiral Pre-groove is for the Servo circuit to provide a mechanical reference during recording. The dye based RW recordable layer provides a reflectivity of 40% light return and 70% light return. 40 percent reflectivity represents Pits and the 70% represent the Lands.

Record Process

The record process shares most of its mechanical operation with that of the Play process. The main difference is how the Servo is locked to the disc. The Servo follows the Pre-groove for Radial Tracking and disc speed. The speed of the disc is locked to a wobble signal that is part of the spiral grove stamped into the disc.

The intensity of the laser beam is modulated from Playback intensity to write intensity. As the disc reads the Pre-groove, the laser arrives at a position where a Pit is to be formed. The laser power increases from 4mW to 11mW. This raises the temperature of the disc to 250 degrees Celsius. The recordable layer melts, reducing its volume. The polycarbonate flows into the space vacated by the dye. The modulation from read laser power to write laser power forms a pit and land pattern effectively the same as a prerecorded disc.

Re-recordable Technology


Disc usage mechanically is identical to the recordable media. The only difference is the chemical make up of the recordable layer. The recordable layer is made up of an alloy of silver, indium, antimony and tellurium.

Re-Recording Process

The Re-Record process shares much of its operation with that of a CDR. The blank disc’s Information Area is in a polycrystalline state. During recording, the laser power is modulated from 8mW to 14mW. 8mW is the Playback laser power and 14mW is the Record laser power. The polycrystalline state of the recordable surface changes, or melts at 500-700 degrees C into an amorphous state. The melted, amorphous areas reflect light less than the crystalline areas, creating a pattern similar to the stamped CD. A major difference of CDRWs from CDRs is the ability to erase.

The Erase Process

To Erase a CDRW disc, the recordable layer must be returned to its polycrystalline state. This is done by heating up the temperature of the recorded surface to 200 degrees C. This is less than the melting point. This is done at X2 recording speed. The slower speed allows time for the alloy to return to its proper state. This takes approximately 37 min. Some software erases the just the TOC on the disc and allows the disc to be rewritten. This method is not as reliable.

Over Writing Process

Overwriting combines the processes of erasing and writing. When the disc and Light Pen are in position to start writing the new data, the laser power starts modulating in the same manner as it does for normal recording with one difference. During the time there is to be a land, the laser power goes to the erase level rather than the Playback level.

DVDs

All of the previously discussed technologies apply to the DVD. Like CDs, DVDs are also stamped into Play only discs. In this discussion, we will point out the differences between DVDs and CDs. If you are new to disc based technology, you will want to start with the information preceding this discussion. DVD Disc Mechanical Differences

Most DVDs are single sided, however, the DVD specification allows for two readable layers, and the disc can be double sided. We will start our discussion with single sided, single layered discs. A Digital Versatile Disc, DVD, looks very similar to a CD. The Clamping Area is larger, starting at 11 mm centered to 16.5 mm centered. The Lead In Area is smaller, measuring 22.7

mm centered to 24 mm centered. The Information Area is limited to 58mm centered.

Two of the big differences between DVDs and CDs are the Pit and Land sizes, and the track widths.

The Manufacturing process of a DVD is comparable to that of a CD. The main difference is the thickness. The DVD can be a double sided product. Each side is .6mm. The two sides are glued back to back, producing 1.2mm total thickness.

Wobble

A Pre-groove is stamped on writable discs. All recordable DVD media types feature a

microscopic wobble groove embedded in the plastic substrate. This wobble provides the recorder with the timing information needed to place the data accurately on the disc. During recording, the drive's laser follows this groove, to ensure consistent spacing of data in a spiral track. The walls of the groove are modulated in a consistent sinusoidal pattern, so that a drive can read and compare it to an oscillator for precise rotation of the disc. This modulated pattern is called a wobble groove, because the walls of the groove appear to wobble from side to side. This signal is only used during recording, and therefore has no effect on the Playback process. Among the DVD family of formats, only recordable media use wobble grooves.

Dual Layer Discs

Two information layers are separated by a thin transparent layer. The first layer is partially transparent. This allows the second layer to be read through the first layer. Both layers are read by controlling the focus. There are two methods for reading the data of a Dual Layer disc, PTP and OTP.

PTP is Parallel Track Path. That means the Lead In and Out Areas of the two layers correspond to each other. Each Lead In Area is on the inner portion of the disc, and the Lead

Out Area is on the outer portion of the disc. This is useful to link data between the layers.

This allows instant access to the additional data or scene. OTP is Opposite Track Path. This method links the end of one layer to the beginning of the other. The Lead In Area is still on the inner portion of the disc. There is a Middle Track Area on both of the layers located on the outer portion of the layers. The Middle Track Area links the data on the two layers together. The Lead Out Area is on the second layer on the inner portion of the disc.

Capacity

Because a stamped DVD can be Dual Layered and Double Sided, there are four different capacities. Refer to the chart. These capacities strictly pertain to raw data. The time available for Video and Audio has many extra factors that determine the length of time on each side or layer. The picture complexity and the amount of movement in the picture affect compression and time on a disc. The number of languages affect the time on a disc. The type and quality of the Audio has an affect on the time also. It can be mono, stereo, or AC-3. Therefore, the media itself determines the capacity in time on the disc.

Overall Block Key Components

The unit is made up of: the Power Supply, the Front Panel, the Basic Engine, the Digital Board, the Analog Board, and the Digital Input/Output Board. Refer to the block diagram.

Block Diagram Descriptions

Power Supply

The Power Supply is a SMPS using Hot Ground on the primary side of the transformer. There is no MAINS power switch. It is operating when AC is applied. It supplies power to: the Analog Board, the Digital Board, and the Basic Engine.

Front Panel Display

This module contains a microcomputer that doubles as a fluorescent display driver. It receives the IR inputs and the keyboard inputs. It communicates the user input from the Keyboard and IR Receiver via the I2C Bus to the Microcomputer on the Analog Board.

Basic Engine (BE)

This consists of the Mechanism and Servo control PCB. The Mechanism is essentially the same as a DVD with the exception of the Optical Pickup Unit, OPU. The OPU has a duel direction signal path, one for the write signal and one for the play signal. The OPU has three ICs mounted on it for processing laser signals. These include: the Laser Drive IC or LADIC, the Dvd Recordable Optical Preprocessor IC or DROPPI, and the Non Volatile RAM or NVRAM to store its electro-mechanical settings.

The Servo controls the Mechanism. It handles the HF signal to and from the OPU. It uses a Microcomputer to control all aspects of the Servo operation. This includes: tray operation, spindle speed, focus, HF preprocessing, and radial positioning of the Light Pen.

Digital PCB

This module performs many functions. It interfaces between the Basic Engine and the rest of the unit.

During Record, it encodes analog video into a recordable digital data stream. The Analog to Digital Converter is in a Video Input Processor, VIP, that supplies the MPEG2 Encoder. The Empress is the MPEG2 encoder. It supplies the data to the VSM, Versatile Stream Manager. The VSM is the gateway to the BE.

During Playback, the MPEG2 Decoder receives its input directly from the BE. It decodes the data stream into analog Video. The analog Video is sent to the Analog Board and Digital Video is provided to the Line Doubler. The Line Doubler receives 11 bit digital YUV. The Line Doubler produces progressive scan digital Y, Cr, Cb that goes to the Digital to Analog Encoder. D_R, D_G, and D_B are sent to the Analog Board. The MPEG2 Decoder sends Digital Audio to the Analog Board to be processed.

Analog PCB

This module contains all the A/V inputs and outputs including a Tuner. There is no RF modulator. The RF output to the TV is merely a Loop-thru for the Antenna or Cable signals. Source selection and output type are controlled by a microcomputer. The microcomputer controls many functions throughout the unit including: user input, input/output selection, the Tuner, the DAC, and ADC functions of the Audio. It also controls the Fans.

DVIO PCB

The Digital Input Module provides IEEE 1394 translation to the DVD recorder. It separates the Digital Video and Audio. The Digital Audio is decoded and sent as Analog Audio to the Analog Board. Digital Video (DV) is supplied to the Video Input Processor on the Digital Board.

Power Supply This unit uses a stand alone Switch Mode Power Supply, SMPS. Refer to the circuit drawing. A MOSFET transistor turns On and Off in an oscillator fashion, driving a transformer. The primary half of the supply uses a Hot Ground. The primary side of the circuit provides drive and coarse control of the power supply. The secondary side of the circuit rectifies and filters the output of the transformer to produce many output voltages. It uses a cold ground, signal ground system. Two of the output voltages are monitored for precise regulation. The 12Vdc is supplied to the anode of the Optic Coupler’s diode, and the 5Vdc Standby is fed to the Shunt Regulator. The regulation path includes an Optic Coupler to accommodate the different grounding systems.

Circuit Description

AC Input Circuit

The input circuit consists of a lightning protection circuit and an EMI filter. The lightning protection circuit consists of R3120, spark gaps 1124 and 1125. L5110, L5115, C2120 and L5121 form the EMI filter. It prevents noise coming in or out through the mains. The AC input is rectified by diodes 6151, 6152, 6153, 6154, and filtered by C2126. The voltage on C2126 is approximately 155V. It can vary from 150V to 160V, depending on the AC input voltage.

Start Circuit

This circuit consists of R3125, 3126, R3139, R3141, C2140, and R3132. When the power plug is connected to AC, the MOSFET 7125 will start conducting as soon as the gate voltage reaches the threshold value. A current starts to flow in the primary winding of 5125, Pins 2 and 4. The MOSFET will be fed forward via the winding connected to Pins 7 and 8 by R3150 and C2146. While the MOSFET is conducting, energy is building up in the transformer. The current flow through the MOSFET is sensed by R3133, 3134, and 3135. When the current level rises high enough to provide a voltage drop on these components and large enough to turn On 7140, 7125 is turned Off by 7140. Diodes 6130, 6131 and 6132 protect the control circuit in case of failure of the MOSFET by providing an upperlimit to the voltage that can remain on the source of the MOSFET.

Coarse Regulation

The positive portion of the signal on Pins 7 and 8 will be rectified via R3150 and D6140, charging C2140 via R3140. In time, the voltage on C2140 will reach 15 to 20Vdc. This value depends on the value of the Mains voltage and the load. The negative portion of the signal on Pins 7 and 8 will be rectified via R3150 and D6142. This will charge C2151 to approximately -

15Vdc. This is used as a regulation supply.

The control circuit consists of T7140, D6141, C2144, C2145, C2147, R3147, and 3148. This circuit controls the conduction time and the switching frequency of the MOSFET. It switches Off the MOSFET as soon as the voltage on the source of T7125 reaches a certain value. This value depends on the error voltage at the emitter of T7140, which can be a negative (+/- 0.6V). The voltage fed back by the regulation circuit defines this error voltage.

Precise Regulation

The regulation circuit consists of an Optic-Coupler, 7200, 7251, and a voltage divider network. The Optic-Coupler isolates the Hot Ground referenced voltage on the emitter of 7140 from the Cold Ground referenced voltage on 7251. 7251, a Shunt Regulator, has two component characteristics. It is a very stable and accurate reference diode and a high gain amplifier.

7251 will conduct from cathode to anode when the reference is higher than the internal reference voltage of about 2.5Vdc. If the reference voltage is lower, the cathode current is almost zero. The cathode current flows through the LED of the Optic-Coupler, controlling the current through the transistor portion of the Optic- Coupler. The collector current of 7200 will adjust the feedback level of the error voltage at the emitter of T7140.

Overcurrent Protection Circuit

This circuit consists of R3145, C2143, a thyristor circuit formed by T7141 and T7143, R3143 and R3142. When the output is shortened, the current through the FET will produce a large voltage drop across the source resistors of the FET. That voltage turns On 7140 and 7143. The thyristor circuit will start to conduct and switch Off the supply voltage to C2140. This switches Off the drain current of the MOSFET, 7125. The start circuit will try to start up the power supply again. If the short still exists, the complete start and stop sequence will repeat. The power supply is in a hiccup mode and is ticking.

Overvoltage Protection Circuit

This circuit consists of R3149, D6144, 6143, R3144, C2142 and T7142. If the regulation circuit does not function due to an error in the control loop, the regulated output voltage will increase. This overvoltage is sensed on the hot ground side of the transformer at Pins 7 and 8. When an overvoltage is detected, the circuit will activate the thyristor circuit T7141 and 7142. The power supply will be shutdown as long as the error in the control loop is present.

Secondary Rectifier/Smoothing Circuit

There are six Rectifier/Smoothing circuits on the secondary side. Each supply voltage depends on the number of windings in the transformer. From these circuits, several voltages are derived

and fed to three connectors. The following voltages are present at the output: 33Vdc, 12Vdc, 3.9Vdc, and 5Vdc Stby, -5Vdc Stby, and -33Vdc Vgnstby. The +12V is switched Off by the STBY_Ctrl signal, ION. The -33Vdc is dedicated to the Front Panel Fluorescent Tube as a grid supply. The FLYB signal is used as a Power Fail and measurement signal.

Front Panel The main elements of the Front Panel are the microcomputer, 7156, the Display Tube, and the keyboard. Refer to the circuit drawing. 7156 is an 8 bit microcomputer fitted with 96kB ROM and 3kB RAM and is responsible for the following functions:

Fluorescent Display driver Monitoring the keyboard matrix Decoding the remote control commands from the infrared receiver, 6170 Activation of the display

The Fluorescent Tube operates using a grid and segment scanning matrix. AC is supplied by a switching regulator consisting of 7151, 7152, 7153, and 5153. With AC supplied, the microcomputer scans the elements in the tube to determine what segments light up. The system clock is generated with the 12MHz crystal, 1153.

Keyboard Matrix

There are 11 different keys on the display board. A resistor network is used to generate a specific voltage value, depending on the key pressed, via the resistors 3186-90, 3145, 3197, 3177-3178, 3197, and 3180. This RTL data (voltage Level) is sent to 7156 on Pins 17, 18, 19, and 20. Pressing keys simultaneously may lead to undesired functions!

IR Receiver

The IR receiver, 7140, contains a bandpass amplifier as well as a photo-diode. The photo-diode receives approximately 940nm infrared pulses. The pulses are amplified and demodulated. On the output of the IR receiver, 7140, is a pulse sequence at TTL levels. The IR signal appears on Pin 5 of 1917 on the Front Panel. The IR signal goes to Pins 12 and 13 of 7160. 7160 establishes a minimum threshold for the IR signal to trigger its gate. This filters out erroneous IR from reaching the Microcomputer.

The RC connection on the rear of the unit comes through the Analog PCB to 1916 Pin 10. This signal also goes to 7160, Pin 5. This pulse sequence is an input to the controller for further signal evaluation via IRR input on 7156, pin 2.

Bi-Color LED (Standby and ON)

The STBY-LED is a red/green bi-color-LED controlled by the STBYLED signal on Pin 10 of 7156. The LED drive circuit receives the 5Vdc Standby supply. The control voltage coming from the Microcomputer is inverted by 7164. When the LED control voltage on the microcomputer is High, a Low goes to the LED drive circuit, turning the LED green.

DVD Mechanism and Servo Board (Basic Engine)

The Basic Engine consists of a DVD-Mechanism with dual laser Optical Pickup Unit (OPU), a tray loader, a fan unit, and a PCB containing all electronics to control the module. Refer to the block diagram.The DVDM contains the Focus and Radial Motor, the Sled, and the Tilt Motors. The electronics of the module are responsible for all the servo tasks. It reads and writes data to and from the disc.

The PCB is multilayer, using surface mounted circuitry with a very high component density. Detailed diagnostics and fault finding are available via ComPair.

Some specifications:

Color of STBY LED Status of the Set

red STBY

green ON

Record DVD+R and R/W Lossless linking Recording speed: 1.2 x Playback DVD, DVD+R(W), DVD (SL/DL), DVD-R, DVD-RW (V1.1) Playback speed: 1.2 x Playback CD, CD-DA, CD-R, CD-RW, CD-ROM, VCD/SVCD Playback speed: 3 x It controls all other functions like tray control, start/stop, disc rotation, tracking, jumping, and communication to the Digital Board.

The Servo circuit provides the interface between the Mechanism and The Digital Signal Processing Board. It is mostly on one board attached to the bottom of the mechanism. It is made up of four main circuits:

The SPIDRE is the Signal Processor IC for DVD Recordable The MACE3 is the Min i All in one CD Engine third generation. The Encoder/Decoder is the Translation circuit for data going to and from the disc. The AWSOME is the Adip Decoding, Wobble Processing, Error Correction, Synchronous start Stop and Occasionally Mend Errors

Initialization process

During power-up, a reset of the BE is preformed. This is parallel to the reset process of the Digital Board. After the MACE3 resets, a System reset occurs to reset the other microcomputers in the BE. A self-test will automatically start. Each of the microcomputers must respond to the I2C bus. The SDRAM and Flash are also tested. If the self test passes the Servo Unit Ready (SUR) signal line will appear. The SUR line is a data transfer clock between the VSM and the BE. Part of the self test is the CPR switching voltage coming from the Versatile Stream Manager. If it is ready to function, it will be Low. After the self test passes, the BE will wait for the first Serial to Basic Engine, S2B, user command. E.g. "Tray_out".

Disc recognition process

The process of disc recognition is entirely performed within the BE. If the disc is not recognized, the problem is in the BE or there is something missing normally supplied to the BE. Information about the disc type is sent via the Subcode data in the I2S data supplied to the MPEG2 Decoder microcomputer.

DVDR Mechanism

The DVDR-M is made up of three components: Optical Pickup Unit, OPU, the Sled, and the Turntable Motor. The OPU contains two lasers: one for CDs with a wavelength of 780 nm, and one for DVDs with a wavelength of 650 nm.

The OPU contains: the Optics, the Focus Motor, the Laser Drive IC (LADIC), the Tilt sensor, the DVD Rewritable OPU Pre-Processor IC (DROPPI), and the EEPROM with the OPU adjustment data.

DROPPI

The DROPPI (DVD Rewritable OPU Pre-Processor IC) is a multi-purpose analog pre-processor. It supports many photo detector configurations and output signal modes. It produces RF and servo feedback signals, Q1-Q6. Its output signals are on the same flex ribbon cable with the wideband RF (differential signals). The Wobble, focus, and Sled Servo signals are relatively low bandwidth.

LADIC

The Laser Drive IC, LADIC, controls the data to the lasers, and the supply to them. It performs three main functions:

It drives the laser for both Playback and Record functions. Its greatest stress is realized during Record, producing data signals and write pulses. The recording process is flexible with respect to the input modulation method (EFM, EFM+, 17 pp, etc.). This is necessary to support CDR/RW and DVDR/RW. To accomplish this, the LADIC uses two Random Access Memories (RAM) which can be loaded (non real-time) via the I2C Bus from the microcontroller. It drives the laser with a sequence of programmable write pulses with high timing accuracy and high peak current levels. It controls the exact light power levels coming from the laser and controls the exact power absorbed by the disc during recording.

The LADIC needs three independent power supplies. These are the analog and digital power supplies, and V Bias for the laser driver function. The supplies are separate to obtain maximum output performance where there are large and highly dynamic current flows.

The LADIC is controlled by an I2C bus. The laser is operated at three current levels: Playback, Record and Erase. During the initialization of a disc to be recorded on, and test recording is preformed in a special place on the the inner most section of the disc. A series of random data is recorded with a wide range of current levels. The data is played back. Two feedback signals are generated and sent to the MACE3 circuit, A1 and A2. A second fine tuning of the Optimal Laser Current is preformed. The disc is written to again except the current range is chosen by the MACE3 using the feedback received. This fine tuning of the laser current produces the Calf feedback signal that is sent to the MACE3 and it is stored in the MACE3’s operating RAM.

Servo Circuit Description

The Servo circuit provides the interface between the Mechanism and The Digital Signal Processing Board. It is mostly on one board attached to the bottom of the mechanism. It is made up of four main circuits:

The SPIDRE The MACE3 The Encoder/Decoder The AWSOME

Servo Power and Reset

The Servo receives: 12Vdc, 5Vdc, 3.3Vdc and -5Vdc from the Power Supply. There are three 2.5V supplies on the Servo Board connected to the 3.3Vdc supply. Refer to the circuit drawing.The MACE3 is reset by the Digital Board, via the Reset_BE signal. A Reset signal comes from the MACE 3 for the rest of the servo. The Mace3 is the Host for the local I2C Bus.

SPIDRE

The SPIDRE (Signal Processing IC for DVD REwritable) is a multi-purpose analog pre-processor IC specifically intended for writing applications.

The SPIDRE receives two Power Supplies: -5Vdc and 5Vdc. Its has three main tasks. Refer to the circuit drawing. One is to interface the servo signals that go to the MACE3 Servo Processor. The second is preprocessor for the RF signal coming from the disc during Playback. The third is to process the RF signal coming from the Encoder during Record.

The SPIDRE is controlled by the AWSOME via a serial bus on Pins 35, 37, and 38. The

AWSOME communicates: gain information, data type, and operation mode, Play or Record.

The Servo signals to be processed include: Playback HF/RF, the focus servo feedback signals, the radial feedback, the track loss signal, and tilt sensor signal. The HF/RF (EMF) signal varies greatly between disc formats. The Focus Error and Radial Error signals come from the mechanism on the Q1-6 signal paths. The Tilt Error has a Photo Tilt Sensor. The dynamic range of these signals is very large. They are converted to Lower frequency RF data paths that the MACE3 can accommodate. This is required for playability of the many different kinds of discs.The error signals are all balanced to reduce noise interference. Thus, they are named XX positive, and XX negative. The Output signals include: the Focus Error, the Radial Error, the Tilt error, laser PoWer, and tracking loss signals.

The Record RF EFM data and EFM Clock comes from IC 7402, Encoder circuit, and is supplied to the SPIDRE on Pins 48-51 of 7101. The SPIDRE processes the RF signals for gain control of the Error control signals going to the MACE3 during Record. All of these signals are balanced. Thus there is a negative and a positive signal for all of them.

The LASP, Laser Power feedback signal is processed by the SPIDRE. During Playback, the EFM coming from the disc is used by the ALFA circuit to generate the AMEAS, ALFA Measurement, signal that goes back to the LADIC for precise control of the LASER power. During Record the EFM signal coming from the Encoder is used by the ALFA circuit to create the AMEAS signal.

The pregrove tracking error signal comes from a Preprocessor in the OPU. The PPN signal is amplified and sent to the Wobble Processor in the Decoder circuit.

MACE3 Servo Microcomputer

The MACE3 IC is the Mini All Cd Engine third generation. Its vendor number is SAA7830. It is a combined servo processor and microcomputer. Refer to the circuit drawing.

The servo processor handles the signals for focusing and tracking for disc access. It also generates the control signals for tray control. In a CD/DVD system, there are several active control loops. Some of them are needed to adjust the servo error signals. It monitors and adjusts the offsets, signal amplitudes, and loop gains (AGCs). The control loops determine the laser spot position on the disc in the radial (Sled), axial (focus), and tangential directions (Tilt). This access system consists of two parts, namely the Focus Actuator and the Sled, which are, within a certain range, mechanically and electrically independent.

The analog signals from the SPIDRE are converted into a digital representation using A/D converters. The digital codes are then applied to logic circuitry to obtain the various control signals.

OPC (Optimum Power Calibration)

This device has an integrated Optimum Power Calculation circuit for use in DVD/RW, and DVD+R applications. It reads three analog signals: A1, A2, and CALF. These represent Max, Min, and Average values of the EFM coming from the disc, respectively. It also takes the Power (PW) signal from the laser controller and then feeds an analog signal, ALPHA0, out to control the laser power. The conversion frequency is 88kHz per channel. Basically, the OPC procedure tries to find out the optimum laser power to be used on a specific disc. It consists of three phases:

1. WRITE - Random EFM data is written to the test area of the disc at increasing levels of laser power, controlled by ALPHA0.

2. READ - The data on A1, A2, and CALF is read back from the test area and stored in memory.

3. CALCULATION - the embedded microcomputer then calculates the setting of ALPHA0 where the least jitter is encountered. Some pre-processing is carried out by the OPC logic to reduce the processor's load. This sequence is performed twice - first a coarse calibration, followed by a fine-tuning.

The micro controller has many responsibilities. It processes the Serial to Basic Engine, S2B, commands from the Digital Board. It controls the various processes in the mechanism via I2C.

The MACE3 uses a Parallel communication bus for access to its Flash ROM. The Flash Memory contains the firmware for the BE. The MACE3, the Encoder and AWSOME share a parallel bus with 32K of SRAM

When power is applied to the unit, the Digital Board sends a reset signal to the MACE3. The MACE 3 checks its SRAM, the reads its Flash ROM and sends a System Reset signal to the ICs on the Servo Board. When its memory tests are complete and they pass, it initializes its I Square C Bus and communicates to the DROPPI and LADIC on the Mechanism. The Tilt Motor is exercised and centered. The PSEN signal then appears. A Servo Unit Ready (SUR) data control clock appears, indicating to the Digital Board that it is ready to receive commands.

The Microcomputer produces several outputs. Many of them are error signals. It produces: the Radial Error, the Focus Error, the Tilt Motor control, and the Position Control Sled (PCS) signals. Each of the motors has a driver circuit.

The Microcomputer controls the Tray motor drive circuit. The Tray switch goes directly to the MACE3.

The Microcomputer controls the PCS. The Position Control Sled must operate very accurately. It cannot track the Disc’s tracks of 1.6 microns alone, but its precision is a must. There are two

Hall sensors positioned 90 degrees apart in a circular fashion. A round magnet is attached to the armature of the drive motor. The positioning of the sensors gives them their name, Sine and Cosine. The motor is a basic universal type. The exact rotation of the armature is detected by the Hall Sensors. The phase of the Hall sensor signals are compared to a reference signal generated internally by the MACE3. The focus actuator moves the lens side to side for tracking the individual tracks. When the drive current to the actuator increases to a certain point, the microcomputer knows the Sled must be moved. The Sled is driven to minimize the actuator’s drive current, meaning it is right under the proper track. The microcomputer produces the Reference DC offset for the Op amp inputs.

Motor Drivers

The motor drivers each receive an error or control voltage. Refer to the circuit drawing. There are 6 motor drivers in this unit: the Focus Motor Driver, the Radial Motor drivers, the Spindle Motor Driver, the Tilt Motor Driver, the Sled Motor Driver and the Tray Motor Driver.

Focus Motor Driver

The Focus Motor is located on the OPU. It controls the up and down motion of the laser’s lens. An error signal controls the driver circuit. It is produced by the MACE3 Microcomputer. The FO signal comes into Pin 3 of 7302. The Driver circuit amplifies the signal and converts it to a balanced output at Pins 1 and 2 of IC7302. The Output goes to the OPU.

Radial Motor Driver

The Radial Motor is located on the OPU. It controls the side to side motion of the laser’s lens. This is used in conjunction with the Sled Motor for tracking. An error signal communicates the drive signal to the driver circuit. It is produced by the MACE3 Microcomputer. The RA signal comes into Pin 25 of 7302. The driver circuit amplifies the signal and converts it to a balanced output at Pins 26 and 27 of IC7302. The Output goes to the OPU.

Spindle Motor Driver

The Spindle Motor is a standard three phase motor similar to what is found in VCR capstan motor circuits. The driver IC,7301, receives two control voltages. The Motor Error signal comes into Pin 22. There is a Motor Enable switching voltage coming into Pin 23. A three phase drive signal is provided to the motor. Three hall elements feed speed and phase data back to the motor driver IC. These signals are amplified. Three FG signals are output to the Encoder/Decoder from Pins 16, 17, and 18.

Tilt Motor Driver

The Tilt Motor driver contains two signal paths. The motor has two field windings. The Tilt Motor has two error voltages supplied by the MACE3. The Tilt Output Cosine and Tilt Output Sine signals go to Pins 17 and 18 of 7306. The Signals are amplified and provided to the motor on Pins 12-5 of IC7306.

Sled Motor Driver

The MACE3 produces the SL control voltage for the driver circuit. The Sled motor drive signal is provided to the Sled Motor by 7302. The SL signal comes into IC7302 on Pin 20. A control voltage is developed and amplifiers produce the drive voltages on Pins 17 and 18. These are connected to 1302 on Pins 7 and 8.

Tray motor Driver

Trayin, and Trayout logic control lines are received from the MACE3 and a motor drive signal is provided to the Tray Motor. The logic control signal comes into IC7302 on Pins 15 and 16. A control voltage is developed and amplifiers produce the drive voltages on Pins 12 and 13. These are connected to 1301 on Pins 3 and 4.

Encoder/Decoder/HDR65

The Encoder/Decoder has the following functions:

Encoder for DVD+RW. This part creates the EFM+ (16 bit) signals from the I2S data stream. Decoder for DVD and CD. This part processes the HF-signal from the SPIDRE. It converts the EFM(+) signals to data, and performs error detection and error correction. Output to SPIDRE pre-processor for RF-AGC.

This IC decodes EFM or EFM+HF signals directly from the SPIDRE. Refer to the circuit drawing. These include: HF, PLL data recovery, demodulation, and error correction.

The Encoder/Decoder has two independent microcontroller interfaces. The first is a serial I2C bus and the second is a standard 8 bit multiplexed parallel interface. Both of these interfaces provide access to 32k of SRAM 8-bit registers for control and status.

The analog front-end input on Pins 9 and 10 converts the HF input to the digital domain via an 8-bit A/D converter. The A/D is supplied by an AGC circuit to obtain the optimum performance from the converter. An external oscillator is supplied for this subsystem to recover the data from the channel stream. It corrects asymmetry, performs noise filtering and equalization, and finally recovers the bit clock and data from the channel using a digital PLL.

The demodulator portion detects the frame synchronization signals and decodes the EFM (14 bit) and EFM+ (16 bit) data and sub-code words into 8-bit symbols. Via the serial output interface, the I2S data (audio and video) go to the DVD+RW interface.

The spindle-motor interface provides both motor control signals from the demodulator and, in addition, contains a tachometer loop that accepts tachometer pulses from the motor unit. The motor is a standard three phase motor. Motor speed is controlled by the Wobble Processor during Record. During Playback the Wobble processor is monitoring the Data stacked up in the SRAM of 7204. The Motor control signal is on Pin 98 which supplies the drive IC 7301.

AWESOME

AWESOME stands for: Adip decoding, Wobble processing, Error correction, Synchronous start/stop and Occasionally Mend Errors. The AWESOME gate array chip, IC 7401, is a fully digital DVD+RW add-on for the HDR65. A combination of both ICs can do CD and DVD decoding and CD, DVD-R(W), and DVD+RW encoding. It contains logic for:

Wobble processing Address detection Write clock generation Start and stop ADdress In Pregroove decoding, Adip Spindle motor control to do CLV on wobble Link bits insertion (according to DVD+RW standard). Output to SPIDRE pre-processor for wobble-AGC

It also receives the serial interface signal from the Encoder/Decoder IC on Pins 6, 7, and 8 and merges the internal serial bus to be sent to the analog pre-processor (SPIDRE), on pins 72, 78, and 79.

Digital Signal Processor The Digital Signal Processor has many responsibilities. Refer to the block diagram. It is responsible for encoding Digital Video and Audio into MPEG2 and AC3 respectively. It supplies MPEG2 and AC3 to the Basic Engine (BE) for recording. It also receives the MPEG2 Video from the BE, decodes the signal, and supplies Digital Video to the Progressive Scan circuit. It supplies Analog Video to the Analog Board, and Digital Audio (I2S) to the Analog Board. The entire operation starts with the B+ supplies and the System Clocks.

The DVIO Board is a second source of Digital Video to the MPEG2 Encoder circuit. The Encoder circuit is contained in the EMPRESS, IC7403. The Video Input Processor, VIP,

receives the selected Analog Video from the Analog Board or the DVIO Board, and converts the selected signal to digital YUV for recording.

All data going to the BE passes through the VSM. The Empress supplies MPEG2 Video to the Versatile Stream Manager, VSM. The VSM is a hub for data streams. The VSM also sends the Digital Video to be recorded back through the playback signal path. This output from the VSM is called the Parallel Digital Video path. Most of the data going to the Digital Processor from the BE goes through the VSM. The exception is the Digital Video Playback Stream. It goes directly to the MPEG2 Decoder, IC7200.

The Progressive Scan, Pscan, circuit contains a Line Doubler. The Pscan circuit sends Y/UV Digital, 480P, Video to the Analog Board to be provided to the Output Jacks.

I2C Bus

The MPEG2 Decoder IC7200 contains a microcomputer. It communicates to the Analog Board’s Microcomputer via the VSM. The Decoder and the VSM share a data bus, the EMI Bus. The Decoder controls the operation of the other microcomputers on the Digital Board. via an I2C Bus. The I2C bus controls the following IC’s: IC7201, IC7403, IC7500, IC7700, and IC7801. The MPEG2 Decoder operates during Play and Record. It receives Digital Video from the VSM during Record. It receives Digital Video from the BE during Play. The digital Video and audio is decoded and supplied to the Analog Board, and the Progressive Scan circuit.

EMI Bus

The VSM and the MPEG2 Decoder share a Data Bus called the External Memory Interface, EMI. The EMI contains 4 Megabytes of Flash EEPROM. The EEPROM contains the Firmware for the Digital Board.

System Clocks

The System Clocks (27MHz) of the VSM, EMPRESS, and Progressive Scan circuits are generated by an oscillator, 7906. Refer to the circuit drawing. The clock signal is buffered and inverted by 7904, a quad inverter. These signals go to their respective circuits as SYSCLK_XXXX. During Record mode, the audio clock, ACC_ACLK_OSC is generated by IC7102. The audio clock must be synchronized with the incoming Video Field Identifier, VIP_FID. During Playback mode, the audio clock, ACC_ACLK_PLL, is generated by the clock synthesizer, IC7900. Both, ACC_ACLK_OSC (also goes to the EMPRESS as ACLK_EMP) and ACC_ACLK_PLL are fed to the VSM. The VSM selects the appropriate clock. The EMPRESS IC derives from the incoming ACLK_EMP clock the I2S audio encoder Bit clock and Word clock, AE_BCLK and AE_WCLK. They are sent to the VSM.

On/Off

The signal IOn, coming from the Analog Board’s microcomputer, enables the switched power supplies. IOn goes Low to turn power On. The IOn signal passes through the Digital Board to the Power Supply. The switched supplies are: the 5Vdc and 12Vdc on this module.

Reset

Control signal IRESET_DIG, controlled by the microcomputer on the Analog Board is sent to the Reset Logic circuit. The IRESET_DIG transitions to High when the whole system is reset. A Low is output on Pin 1 of 7902. This signal is labeled RESETn. The n on the end of many of the names of the signal lines means enable.

Video Input Processor

Analog Video input signals CVBS, YC, and YUV are routed via the Analog Board to connector 1601 on Pins 14, 16, 18, 20, and 22. Refer to the circuit drawing. The signals are sent to IC7500, the Video Input Processor, VIP. If a Digital Video input source is available, 8 Digital Video input signals, DV_IN_DATA (0-7), are sent from the DVIO Board via 1603 to IC7500. The VIP selects one of the inputs to process. IC7500 converts the Analog Video to Digital Video. It then processes the Digital Video to comply with the CCIR656 Digital Video Stream format. The VIP IC selects between the two sources and supplies an 8 bit output stream, VIP_Y/UV (0-7). This Digital Video stream goes to IC7403/EMPRESS and to IC7100, Versatile Stream Manager, VSM. The VSM uses the Digital Video for Vertical Blanking Information, VBI, extraction.

EMPRESS

The EMPRESS IC encodes the Digital Video stream into an MPEG2 Video stream that is fed to the VSM. Refer to the circuit drawing. The VIP supplies digital video in the form of CCIR656 parallel Y/UV. I2S Audio is sent from the Analog Board to IC7403/EMPRESS via connector 1602. The EMPRESS compresses the video and audio. It uses 4 meg of SDRAM and is controlled via the I2C Bus of the Decoder IC. The audio is converted into an I2S AC3 Audio stream. The MPEG2 Video and the AC3 Audio stream are sent to the VSM to be recorded.

Versatile Stream Manager

The VSM is a buffer and a gateway for the data streams going to and from the Basic Engine, BE, and the rest of the data processors. Refer to the circuit drawing. The MPEG2 Video coming from the EMPRESS is multiplexed with the AC3 audio into a I2S data stream. The

multiplexed data, to be recorded, goes to the BE on Pins 101-107.

The VSM must receive data from several sources. Video comes into the VSM on two Data buses. One Data bus comes from the VIP, and the other from the EMPRESS. The SYSCLK_VSM on Pin 47 is essential for all input data processing. The VIP_FID_FF signal is necessary for field information. UART1 carries operational communication between the Digital Board and the Analog Board's microcomputer. Communication on UART2 is important if the video source to be recorded is coming from the DVIO Board. The audio data stream coming in on Pins 177 and 178 uses two special clocks for audio. One is the AE_BCLK, and the other is ACC_ACLK_PLL.

S2B Interface

The S2B interface between the VSM (IC7100) and the Servo processor MACE3 controls the Basic Engine during Record and Playback mode. This serial communication goes to the BE on Pins 24, 132, 154, and 155.

Proper operation of the power up sequence involves the VSM. The VSM communicates to the Analog Microcomputer, during the Power Up Self Test operation, using UART1.

The VSM uses two types of external memories. It has dedicated SDRAM, 7101, and It shares the EMI Bus for its Firmware.

Loop-Through

The multiplexed Audio and Video stream in the VSM is fed back via the Parallel Front End Interface to IC7200. This IC decodes the MPEG2 stream into Analog Video and I2S Audio. The Video and Audio signals are routed to the Analog Board via connectors 1601 and 1602. During recording, the signals are present at the outputs of the Analog Board.

MPEG2 Decoder

Playback

During Playback, the serial data from the Basic Engine goes directly to the MPEG2/AC3 Decoder, IC7200 via the serial Front End I2S Interface. Refer to the circuit drawing. IC7200 is a MPEG2 Audio/Video Decoder and has the following outputs to the Analog Board: RGB, YC, CVBS, I2S Audio, (PCM format) and SPDIF Audio (Digital Audio output). IC7200 is the source of the I2C bus on the Digital Board.

MPEG2 decoding is preformed in IC7200. IC7200 uses SDRAM for its many functions. The Basic Engine provides to the MPEG2 Decoder serial data from the disc on Pins 17-22. The

A/V Demultiplexer separates the Audio and Video data. IC7200 also contains the analog Video Encoder. It provides RGB, Y/C and PCM audio to the Analog Board.

There is another video output path from IC7200. The Digital Video for the progressive scan circuit, PSCAN_YUV(0-7).

Record

It produces the Parallel video output path. The Parallel Video path sends the recordable video and audio back to the outputs during the record process. It receives the selected Multiplexed Data stream from the VSM via the D_PAR_D(0,7) lines. There are support signals for the Parallel Data Stream on Pins 196, 201, 205, and 206. Because of the amount of processing, the output video is delayed about 4 seconds.

ComPair

The Compair service aid connects to 7200 via a serial communication port. Using ComPair software and a computer’s COM Port, service troubleshooting and settings can be checked. Compair has a dedicated connection on the Digital Board, 1901. The input Pins for 7200 are 2, 3, 197, 200, and, 204. Compair cannot function if 7200 does not initialize properly.

Power On

IC7200 participates in the initialization of the unit. Power up occurs in two stages. 7200 participates in the second stage. After the Analog Board and the Front Panel Microcomputer check the unit and pass their tests, the Analog Microcomputer turns On the Standby supplies. This includes the 3.3Vdc supply for 7200. 7200 then receives the DIG_Resetn signal from the Analog Board.

7200 creates three reset outputs for the Digital Boards. Resetn_VE goes to the EMPRESS. RSTN_DVIO goes to the DVIO Board. RSTN_BE goes to the BE. EMPRESS_BOOT signal goes to the EMPRESS for its start up flag.

If 7200 passes its self test and the other ICs communicate properly, the unit’s power will stay On. If not, the unit will go into Sleep mode, never looking for keyboard input again. This process has 10 Seconds to occur. If it does not, the Analog Microcomputer will place the unit in Sleep mode, turning Off the Standby supplies which is the VCC for most of the ICs on the Digital Board.

Progressive Scan

The progressive scan section is integrated into the Digital Board and built around the SAGE

Fli2200 Deinterlacer/Line Doubler (7700). Refer to the circuit drawing. This I2C controlled device uses 64Mbit SDRAM (32bit x 2M) to perform high quality de-interlacing (meshing). The Deinterlacer gets his Digital Y/UV input data, Pins 20-27, from 7200. The format of the Digital Y/UV input is CCIR656 with separated H sync, V Sync. Because the 7200 doesn't’t have a V sync output the odd/even output of this IC has to be translated to a V sync signal. Vertical sync is generated with a flip-flop IC7701 and an XOR, 7702.

Power and Clocks

IC7701 uses two supplies, 3.3Vdc and 2.5Vdc. Refer to the circuit drawing. The system clock, SYSCLK_PROGSCAN is running at 27Mhz. IC7801 uses the 3.3Vdc supply. The system clock, SYSCLK_PROGSCAN is running at 27Mhz. 7701 produces three 8 bit output signals, Y, Cr and Cb. These are sent to the D/A converter 7801.

D/A Converter

The output of 7701 (4:4:4 progressive Video) is fed to the Analog Device, 7801. The RGB output is a current signal fed via a low pass filter to the output Op Amps, 7802 and 7803. The Analog Video, 480P, is fed via a 7 poled flex to the Analog Board.

Analog Processor Board The Analog Board controls all analog input/output selection, and routing. Refer to the circuit drawing. It houses the System Control Microcomputer. The System Control Microcomputer controls the routing and other functions on the board. One of its other main functions is to control power and initialization of the unit. It implements Keyboard instructions. The board has the Optical Audio Out and the Coax Digital Audio Output circuits. It controls the Tuner. The Audio D/A and A/D conversion is performed on this board. The RGB to Y/UV conversion is also performed on this board. It contains the Fan Control circuit and houses the first Reset circuit for the System Control Microcomputer.

Power Supply Circuit

The Microcomputer controls the 5V Switched and 8V Switched supplies via the ISTBY line. Refer to the circuit drawing. The ISTBY line goes Low as one of the steps to turn On power. When the ISTBY line goes Low, 7329 turns Off. R3336 turns On 7324. This switches 7321 and 7323 On.

There is also a power fail circuit, which is necessary to mute audio when IPFAIL is low. If the FLYB line is interrupted, 7330 turns Off. R3338 turns On 7331, sending a Low to the D/A

Converter to mute the audio.

Microcomputer

The Microcomputer, IC7803, is a 16 bit processor with internal ROM and 8kB RAM. Refer to the circuit drawings. Page 1 Page 2 The System Clock operates at 20MHz. It uses I2C interface to communicate with the other microcomputers in the unit. The clock rate is approximately 95kHz. The Reset Pin is high during normal operation. It also requires a composite sync input. The microcomputer uses non-volatile EEPROM, 7815. The EEPROM stores data specific to the device, such as the AFC-reference value, clock-correction-factor, etc.

Power up

7803 controls power up of the unit. There are three layers to the power up sequence. The first layer involves the Analog Board and the Front Panel. The second layer involves the Digital Board and the BE. The third involves the Front Panel and the Analog Board.

The first layer controls the first set of switched supplies. After the System Control Microcomputer receives its reset, the ISTBY control voltage goes Low to turn On the first set of switched supplies, The SW5Vdc and the SW8Vdc. It communicates on the I2C bus initializing the Tuner, the Audio Decoder, and the Video/Audio Routing ICs. If they respond properly, It then communicates on the I2C to the Front Panel Microcomputer. If the Front Panel Microcomputer responds properly, the ION control voltage goes Low.

The second layer occurs when the ION switching voltage comes out of the Analog Board. The ION control voltage passes through the Digital Board to the Power Supply and turns On a second set of switched voltages. These include the 3.3Vdc supply. The 3.3Vdc supply is the main B+ to many of the microcomputers throughout the unit. The System Control Microcomputer then sends out the IReset signal to 7902 on the Digital Board. This IC produces a delayed Resetn signal line for 7200. 7200 activates its I2C and provides several reset and initialization signals for the Digital Boards and the BE. They all go through a self test. If the self test succeeds, the VSM communicates through UART1 that the system is operating, and the unit can enable the Front Panel to accept a response. The Front Panel Microcomputer then places four dashes on the Front Panel Display. ION goes High placing the unit in Standby, waiting for keyboard input. This normally takes 6-8 seconds. The System Control Microcomputer allows 10 seconds for the UART1 response. If it does not come, the unit goes into Sleep mode, and will not accept keyboard input.

When the Front Panel Microcomputer receives a keyboard response, it communicates that action to the System Control Microcomputer to switch back On the second layer of switched

voltages.

Tuner

The Tuner is capable of receiving 125 channels, and is cable ready. Refer to the circuit drawing. The RF connections on the back of the unit provide an RF loop through. There is no RF Modulator, as seen in VCRs. The Tuner/Demodulator receives two supply voltages, 33Vdc and SW5Vdc. The channel selection information is communicated via the I2C lines.

The IF signal, from the Tuner, is processed by the demodulator, IC7703. This unit is unique in that it has two SAW Filters. 1701 is used for the Video IF, and 1702 is used for the Sound IF. The AFC coil 5703 is adjusted so that when a frequency of 45.75 MHz is supplied to the IF output of the Tuner, the AFC voltage on pin 17 of 7703 is 2.5V. The AGC is set using 3707 so that, with a sufficiently large antenna input signal (74 dBV), the voltage at the IF output of the Tuner, 1705 Pin 11 is 500 mVp-p. This adjustment must be performed with the audio carrier switched off. The demodulated Video signal appears on Pin 16 of 7703. The Demodulator AGC voltage at Pin 4 is used to determine the antenna signal strength. The FM-PLL demodulator function of 7703 is not used and is deactivated by 3726. SIF1 is generated for demodulation in the Sound processor, 7600.

The final stages in the demodulation process filter and amplify the Video. The signal is buffered by 7705, AGC_MUTE. In the opposite direction, this line may be used to mute the demodulator to avoid crosstalk when the Tuner signal is not needed. In this case, a High is sent via AGC_MUTE. The Video trap 1703 reduces adjacent channel video and any sound carrier left in the Video. The demodulated Video signal VFV is available after the buffer and limiter stage. The Limiter,7706, filters noise peaks.

Audio Demodulator

The Sound Processor, 7600, demodulates the Audio and performs A/D and D/A conversion. Refer to the circuit drawing. The I2C bus controls its operation. It uses two power supplies, the 5Vdc and the 8V Switched. IC 7600 has its own oscillator on Pins 5 and 6. It is a NTSC sound processor. Amplitude and bandwidth of the demodulated audio signals can be determined in 7600 using the I2C bus. The Audio signal output from the Tuner is available at the Pins 30, AFER, and 31, AFEL.

Video and Audio Routing

The A/V I/O switching is controlled by a switching matrix, 7507. Refer to the circuit drawing. It is controlled via the I2C Bus. 7507 has three Y, C, CVBS inputs. All switches have 6 dB amplification on the outputs. Refer to IC internal diagram.

There are two CVBS input connections possible: Front Cinch (RCA) and Rear Cinch (RCA). Both CVBS sources are connected directly to 7507 and routed to Rear Out 1 and Rear Out 2.

The Audio I/O switching is also controlled by 7507 via the I2C Bus. Analog Audio coming from Rear External Inputs 1,2, and External 3 are capacitively coupled to IC7507, Pins 35, 37, 53, and 56. Digital Board input and Tuner Audio is routed via 7600 to 7507, Pins 39 and 41. 7507 selects the audio source. There are also two SVideo input connection possibilities: Front and Rear SVideo In, which are connected to the input selector IC 7400 and 7401. Refer to Figure 49. One is used for Y, the other is used for Chroma switching. The outputs of 7400 and 7401 are connected to 7507, where the signals are routed as the Y/C selected input.

Wideband Signal Selection/WSS on Y/C-Plug

Both 16 by 9 and 4 by 3 Y/C signals can be provided to the Y/C connector. The Chroma signal is sent to the Microcomputer, 7803. Refer to the Microcomputer circuit. Refer to the input circuit. Pin 14 is used when using the Rear Y/C input, WSR1; and Pin 15 is used when using the Front Y/C connector, WSF1. Pin 10 of 7803 indicates which display ratio the Microcomputer is detecting. Pin 10 is Low for 4 by 3, and High for 16 by 9.

The Audio I/O switching is also controlled by 7507 via the I2C Bus. Refer to the circuit drawing.Analog Audio coming from Rear External Inputs 1, 2, and External 3 are capacitively coupled to IC7507, Pins 35, 37, 53, and 56. Digital Board input and Tuner Audio is routed via 7600 to 7507, Pins 39 and 41. 7507 selects the audio source.

Output Jacks

CVBS Out is provided by the 75 Ohm driver 7430. Refer to the circuit drawing. Both CVBS output sockets are connected to 7430 in parallel. Independent of which input signal is being used: CVBS, S-Video, or Y/UV, 7507 supplies SVideo and Y/UV signals to the corresponding sockets.

RC In

A Remote Control input socket is provided for those users that have a component stack with multi remote capabilities.

The Y/UV In signal is routed directly to the Digital Board; there is no Y/UV IN to Y/UV Out loop through in Standby. Refer to the circuit drawing. The Digital Board supplies only RGB signals, a RGB Y/UV matrix is used. Refer to the circuit drawing. This matrix consists of the operational amplifier 7200 which generates the U and V signals according the formulas: 2U = B -.338R - .661G and 2V = R - .838G - .161B. Then the signals are routed to the UV Output sockets via

the 75-Ohm driver 7516. The corresponding Y signal is coming from the Digital Board via the 7507. The 75 Ohm Y jack is driven by 7516 connected to the Y/UV Output.

Audio Conversion

Audio is converted from analog to digital for recording purposes, and digital audio is converted to Analog during Playback.

A/D

This is accomplished by 7004, Refer to the circuit drawing. IC7004 uses a PCM CLK signal, a Bit CLK, and a Word CLK. An input amplitude of up to 2Vrms is expected on Pins 1 and 3. 7004 sends the data in I2S format to the Digital Board via Pin 13.

D/A

After a delay, the processed audio data comes back from the Digital Board to a D/A converter, 7001 on Pins 10, 11, and 12. 7001 converts the I2S data back into a balanced analog signal on Pins 28, 29, 31 and 32. IC 7001 uses a D_PCM CLK signal, a D_Bit CLK, and a D_Word CLK.

Balanced to Standard Signal Conversion

7002 converts the signals from a balanced output into standard cold ground referenced signals. The signals go to 7507 on Pins 47 and 49, and the Audio Out Jacks.

Fan Control

The Fan Control circuit is necessary to control the speed of the cabinet fan, 1984, and the BE Fan according to the changes of temperature and motor noise. Refer to the circuit drawing. The temperature is measured via a Negative Temperature Coefficient, NTC, thermistor on the IR Receiver Board, 3135. The sensor’s output voltage is labeled Temp_Sense.

The Fan Control circuit uses Op Amps to gain control of the sensor’s signal. When the temperature is lower than 25°C the cabinet fan’s voltage is approximately. 5V and will reach approximately 10V at a temperature of 40°C. The Microcomputer controls the On/Off function of the two fans via control line ION_FAN and SW_BE_FAN. The TEMP signal goes to the Microcomputer and the inputs of the Op Amps. The Microcomputer supplies the Motor On switching voltages. The speed of both fans are controlled by the Temp_Sense line going into the Op Amps.

Digital Video Input Board

The DVIO Module is a decoder for DV streams. DV from a camcorder, IEEE1394, input stream is converted to CCIR656 Video and Analog Audio (L+R). A serial control interface is present.

Block Diagram

The DVIO module consists of the following blocks, refer to the block diagram. An independent tunable audio and video clock is used for FIFO and PLL. A Microcomputer using an 8051 CPU with 64 kilobyte of flash memory controls the whole operation. It also has 1 kilobyte of internal data memory. There is a Watchdog timer and PCA outputs. The System Clock runs at 11.0592MHz. On board In Circuit Programming, ISP, can be used to update the EEPROM, "Downloading".

Clock Circuit

There are two clocks to consider in the system, the video clock and the audio clock. Refer to the circuit drawing. These two clocks are independent and will be discussed separately. The video clock is approximately 27 MHz. When data is flowing from an external source, it does not have exactly the same frequency and phase. Refer to the circuit drawing. This could cause buffers to under-run or over-run. Since the clock cannot be modified in the source the clock is adjusted to the required frequency and phase to process at the rate of the incoming data. The same requirements apply to the audio clock. The audio clock operates at three frequencies. The source can have a frequency of 8.192 MHz, 11.2896 MHz, or 12.228 MHz. This depends on the sample-rate frequency 32kHz, 44.1kHz, or 48kHz, of the Audio signal.

FIFO and Control

In decode mode, an asynchronous AV-stream is flowing through the IEEE1394 Interface into the FPGA. Refer to the circuit drawing. The FPGA stores the data in a First In First Out buffer. Each buffer holds one whole frame each.

DV Decoder

The AV data goes from the FIFO to the Decoder. Refer to the circuit drawing. It decodes the stream into video data in 656 format. The Microcomputer has the ability to read the status registers of the NW700 through the FPGA. By reading these registers extra data from the DV stream, that is not decoded into audio or video, can be sent to the Digital Board, using TXD of the serial interface. This includes Time Stamp and other similar data.

Audio and Video Output

The Audio I2S data is sent to an Audio DAC, UDA1334. Refer to the circuit drawing. Analog audio Left and Right signals are sent to the Analog Board. The Tri-State Buffer enables the Digital Video stream to go to the Video Input Processor on the Digital Board when the DV source is selected. The clock delay synchronizes the AV clock with the AV data at the output.

List of Abbreviations +12V +12V Power Supply

+35V_DV_EDO +3V3 Power supply EDO Bus IC7404

+2V5_FLI +2V5 Power Supply for FLI

+2V5_PLL +2V5 Power Supply for PLL

+3V3 +3V3 Power Supply

+3V3_ANA +3V3 Power Supply Analogue

+3V3_DD +3V3 Power Supply Digital

+3V3_DLY +3V3 Power supply for IC7500

+3V3_DV +3V3 Power supply for IC7404

+3V3_FLI +3V3 Power Supply for FLI

+3V3_FPGA +3V3 Internal Power supply for IC7303

+3V3_FPGA_CONF +3V3 Power supply for IC 7300

+3V3_IEEE_A +3V3 Analogue Power supply for PHY IC 7101

+3V3_IEEE_D +3V3 Digital Power supply for PHY IC 7101

+3V3_IEEE_PLL +3V3 PLL Power supply for PHY IC 7101

+3V3_LINK +3V3 Power supply IC7103

+3V3_PLL +3V3 Power supply IC7307 & IC7308

+3V3_SRAM +3V3 Power supply IC7301, IC7302, IC7305 & IC7306

+5V +5V Power Supply

+5V_BUFFER +5V Power Supply for Video Filters

+5V_PROC+5V Power supply IC7200, IC7201, IC7203 & IC7208

+VCC_DV_RAM +3V3 Power supply for DV_RAM (IC7400--> IC7404)

5508_HS Horizontal Synchronization from Host Decoder to Progressive Scan

5508_ODD_EVENOdd - Even control from Host Decoder to Progressive Scan

1394_RSTNReset of LINK IC (7103) and PHY IC (7101)

-5V -5V Power Supply

-5V_BUFFER -5V Power Supply for Video Filters

A(0:8) Address lines

A_EMPRESS(13:0) EMPRESS address output to SDRAM

A1,A2 Power Calibration Maximum and Minimum signals

ACC_ACLK_OSC Audio Clock PLL output sync with incoming video for record

ACC_ACLK_PLL Audio Clock PLL output for play back

ACLK_EMP EMPRESS audio clock output

AD_ACLK Audio Decoder Clock

AD_BCLK Audio Decoder I2S bit clock

AD_DATAO Audio Decoder Output data (PCM)

AD_SPDIF33 Audio digital output to the analog board

AD_WCLK Audio Decoder I2S word clock

ADC Analogue to Digital Converter

ADIP ADdress In Pre-groove

AE_ACLK Audio Encoder Clock

AE_ACLK_OEN Audio Encoder Clock Output Enable

AE_BCLK Audio Encoder I2S bit clock

AE_BCLK_DV Audio Encoder I2S bit clock to DVIO

AE_BCLK_VSM Audio Encoder I2S bit clock to VSM

AE_DATAI Audio Encoder Input data (PCM)

AE_DATAI_DVAudio Encoder Input data (PCM) from DVIO

AE_DATAO Audio Encoder Output data (PCM)

AE_WCLK Audio Encoder I2S word clock

AE_WCLK_DV Audio Encoder I2S word clock to DVIO

AE_WCLK_VSM Audio Encoder I2S word clock to VSM

AGC Automatic Gain Control

ANA_WE Analogue write enable

ANA_WE_LV Analogue write enable Low Voltage

AUD_BCLK Audio Bit Clock

AUD_MUTE Audio Mute

AUD_SDI Audio Serial Data Input

AUD_SDO_CON Audio Serial Data Output to buffer IC 7505

AUD_SDO_DAC Audio Serial Data Output to DAC IC 7506

AUD_WS_701 Audio Word Select to DV CODEC IC 7404

AUD_WS_OUT Audio Word Select to buffer IC 7505

AWSOMEAdip decoding Wobble processing Error Correction Synchronous start/stop and Occasionally Mend Errors

B_IN_VIP Video blue input to Video Input Processor

B_OUT Video blue output from Host Decoder

B_OUT_B Filtered blue video output

BA Bank Address

BCLK_CTL_SERVICE Bitclock control Service Interface

BE_BCLK Basic Engine I2S bit clock

BE_BCLK_VSM Basic Engine I2S bit clock to VSM

BE_CPRBasic Engine Control Processor ready to accept data

BE_DATA_RD Basic Engine Data read

BE_DATA_WR Basic Engine Data write

BE_FAN Basic Engine FAN

BE_FLAG Basic Engine error flag

BE_IRQN Basic Engine interrupt request

BE_LOADN Basic Engine LOAD(LOW active)

BE_RXD Basic Engine S2B received data

BE_SURBasic Engine servo unit ready to accept data (S2B)

BE_SYNC Basic Engine sector/abs time sync

BE_TXD Basic Engine S2B transmitted data

BE_V4 Basic Engine versatile input pin

BE_WCLK Basic Engine I2S word clock

BUFENN_AUD Buffer Enable Audio

BUFENN_VID Buffer Enable Video

C_IN Video Chrominance input

C_IN_VIPChrominance input to Video Input Processor

C_OUT Chrominance output from Host Decoder

C_OUT_B Filtered Chrominance output

CALF Laser Calibration Final voltage

CAS Column Address strobe

CAV Constant Angular Velocity

CB_OUT(9:0) Chrominance Blue out

CCLK Configuration Clock

CLK27M 27MHz Clock

CLK27M_CON 27MHz Clock to Digital Board

CLK27M_DV 27MHz Clock Digital Video Codec

CLK27M_OSC 27MHz Clock IC7304

CLK4 SDRAM clock

CLOCKGENAUD Clock generator Audio

CLOCKGENVID Clock generator Video

CLV Constant Linear Velocity

Cosphi Cosine Position Hall Information

CPUINT0 Control processor unit interrupt

CPUINT1 Control processor unit interrupt

CR_OUT(9:0) Chrominance Red out

CS Chip Select

CTS1P Clear to send (Service Interface)

CTSN Clear to Send

CVBR Cd Variable Bit Rate recording

CVBS_OUT Composite video output out of the Host Decoder

CVBS_OUT_B Filtered Composite video output

CVBS_OUT_B_VIPComposite video output to Video Input Processor(digital board video loop)

CVBS_Y_IN Composite video/Luminance input

CVBS_Y_IN_A Composite video/Luminance input to Video Input Processor

CVBS_Y_IN_B Composite video/Luminance input to Video Input Processor

CVBS_Y_IN_CComposite video/Luminance input to Video Input Processor

D_ADDR(10:0) Address bus

D_DATA(29:0) Data bus

D_EMPRESS(15:0) SDRAM data input/output of EMPRESS

D_PAR_D(7:0) Front-end parallel interface data (record)

D_PAR_DVALID Front-end parallel interface data valid

D_PAR_REQ Front-end parallel interface request

D_PAR_STR Front-end parallel interface strobe

D_PAR_SYNC Front-end parallel interface sync

DAC Digital to Analogue Converter

DAIO Digital Audio Input Output

DENC Digital Encoder

DFU Direction For Use: description for the end user

DNR Dynamic Noise Reduction

DOUT Serial configuration data output

DRAM Dynamic RAM

DROPPI Dvd Rewritable Opu Pre-Processor IC

DSD Direct Stream Digital

DSP Digital Signal Processing

DV_ASN DVCODEC Address Strobe

DV_DRQN DVCODEC Data Request Interrupt

DV_DSLN DVCODEC Data Strobe Lower 8 bits

DV_DSUN DVCODEC Data Strobe Upper 8 Bits

DV_DTACKN DVCODEC Data Transfer Acknowledge

DV_ERRN DVCODEC Error Interrupt

DV_HS_IN DVCODEC Horizontal synchronization In

DV_HS_OUT DVCODEC Horizontal Sync Out

DV_IN_CLK Digital Video in clock from DVIO board

DV_IN_DATA(7:0) Digital Video in data bus from DVIO board

DV_IN_HSDigital Video in horizontal sync from DVIO board

DV_IN_VSDigital Video in vertical synchronization from DVIO board

DV_LCN DVCODEC Last Code Interrupt

DV_PDN DVCODEC Power Down

DV_RSTN DVCODEC System Reset for NW701

DV_RWN DVCODEC Read/Write control signal

DV_VS DVCODEC Vertical Sync

DVCODEC Digital Video Encoder and Decoder compression scheme

EEPROM Electrical Erasable Programmable ROM

EFM Eight to Fourteen bit Modulation

EMI_A(21:1)External Memory Interface Address Bus(Host Decoder)

EMI_BE0N External Memory Interface Lower byte enable(Host Decoder)

EMI_BE1N External Memory Interface Upper byte enable(Host Decoder)

EMI_CAS0NExternal Memory Interface SDRAM column address strobe(Host Decoder)

EMI_CE1NExternal Memory Interface VSM Lower bank enable

EMI_CE2N External Memory Interface VSM Higher bank enable

EMI_CE3N External Memory Interface flash IC"s enable

EMI_D(15:0)External Memory Interface Data Bus(Host Decoder)

EMI_PROCCLK External Memory Interface Processor

Clock(Host Decoder)

EMI_RWNExternal Memory Interface Read/Write control signal(Host Decoder)

EMI_WAITExternal Memory Interface Wait state request(Host Decoder)

EMPRESS_BOOT EMPRESS BOOT select input

EMPRESS_IRQN EMPRESS Interrupt request output

FDS Full Diagnostic Software

FIFOA_A(0:15) FIFO buffer A Address bus

FIFOA_OEN FIFO buffer A Output enable

FIFOA_WEN FIFO buffer A Write enable

FLASH_OEN FLASH output enable control signal

FPGA Field Programmable Gate Array

FTC Fast Track Count

G_IN_VIP Video green input to Video Input Processor

G_OUT Video green output from Host Decoder

G_OUT_BFiltered green video output from Host Decoder

GNDD Digital Ground

HAD(0:7) Host Address/Data bus for register settings ofIC7404

HD_M_AD(13:0) Host Decoder SDRAM address bus

HD_M_CASNHost Decoder SDRAM column address strobe

HD_M_CLK Host Decoder SDRAM clock

HD_M_CS0N Host Decoder SDRAM chip select

HD_M_DQ(15:0) Host Decoder SDRAM data bus

HD_M_DQMLHost Decoder SDRAM data mask enable(Lower)

HD_M_DQMUHost Decoder SDRAM data mask enable(Upper)

HD_M_RASN Host Decoder SDRAM row address strobe

HD_M_WEN Host Decoder SDRAM write enable

HF High Frequency. Usually associated with the signal coming from the disc

HSOUT Horizontal Sync OUT

I2C Integrated Ic bus (signals at 5V level)

I2SIntegrated Ic Sound bus (signals at 3.3V level)

IF Intermediate Frequency

INITN Initiate Configuration

IO(0:30) Data bus of IC7404

IONInverted ON: Enable the power supply for the digital board when Low

IRQ Interrupt ReQuest

IRESET_DIG Initialization of the digital board, HIGH when power ON

ISPN In System Program Line (used for programming IC7203)

JTAG3_TCK JTAG Test Clock

JTAG3_TD_VIP_TO_VEJTAG Transmitted Data Video Input Processor to Video Encoder

JTAG3_TD_VSM_TO_VIP JTAG Transmitted Data Versatile Stream Manager to Video Input Processor

JTAG3_TMS JTAG Test Mode Select

JTAG3_TRSTN JTAG Test part ResetN

LADIC LAser Driver IC

LCASN Lower Column Address strobe for IC7404 DRAMS

LDON Laser Drive ON

LINK_AVCLK LINK IC Audio/Video Interface Clock

LINK_AVFSYNC LINK IC Audio/Video frame sync

LINK_AVREADY LINK IC Audio/Video data ready to send

LINK_AVSYNC LINK IC Audio/Video packet sync

LINK_AVVALID LINK IC Audio/Video data valid

LINK_CSN LINK IC chip select

LINK_INTN LINK IC interrupt

LINKFIFO_DQ(0:7) Audio Video data interface

LLD Loss Less Decoder

LOAD_DVN LOAD Digital Video(LOW active)

LPCM Linear Pulse Code Modulation

LRCLK Left/Right CLocK

MACE Mini All Cd Engine

MPEG Motion Pictures Experts Group

MUTEN Mute enable

MUTEN_LV Mute enable Low Voltage

NC Not Connected

NVMNon Volatile Memory: IC containing DVD related data e.g. alignments

OPC Optimum Power Calibration

OPU Optical Pickup Unit

ORD Radial Drive disable

P_SCAN_YUV(7:0) Progressive Scan digital video bus

PA(0:15) SRAM processor address

PAD(0:7) SRAM processor data

PALE Processor Address Latch Enable

PCB Printed Circuit Board

PCM Pulse Code Modulation

PCM_CLK Audio system clock for DAC

PCM_OUT Audio serial output data

PCS Position Control Sledge

PHY_CNA PHY 1394 cable not active

PHY_LPS LINK IC power status

PINT0N Processor interrupt 0

PINT1N Processor interrupt 1

PLL Phase Locked Loop

PPN Wobble Pre-Processor signal

PPNO Wobble Pre-Processor Normalized Output

PRDN Processor read

Low active input to initiate a configuration

PROGRAMN cycle

PRSTN Processor reset

PSU Power Supply Unit

PWB Printed Wiring Board

PWRN Processor write

R_IN_VIP Video Red input to Video Input Processor

R_OUT Video Red output from Host Decoder

R_OUT_B Filtered Red Video output from Host Decoder

RAS Row Address Strobe

RASN Row Address Stobe eNable

Refcos Referance for Hall Sensor Amp

Refsin Referance for Hall Sensor Amp

RESETN Reset Host Decoder

RESETN_BE System reset basic engine (buffered)

RESETN_DVIOSystem reset Digital Video Input Output (buffered)

RESETN_VE System reset Video Encoder

ROMH_CEN Flash 2 chip enable

ROML_CEN Flash 1 chip enable

RASN Row address strobe

RESETN DVIO board reset

Resetn_BE Reset control of basic engine

RSTAT Status Read

RTSN System Reset

RSTN_DVIO Reset control of DVIO

RTS1PReady To Send data to service serial interface

RX1P Receive data from service serial interface

RXD Receive Data

S2BSerial to Basic engine, communication bus between host- and servo processor

SCL I2C bus clock

SCLK Audio serial bit clock

SD_CASNSDRAM Column Address strobe output (active LOW)

SD_CLK SDRAM clock output

SD_CLKE SDRAM clock enable output

SD_CSN SDRAM

SD_DQM(1:0) SDRAM data mask enable output

SD_RASN SDRAM row address strobe output

SD_WEN SDRAM write enable output

SDA I2C bus data

SDRAM Synchronous DRAM

Sinphi Sine Position Hall Information

SEL_ACLK1 Select audio clock(playback)

SM_CS3N SRAM chip select

SM_LBN SRAM lower bank

SM_OEN SRAM output enable

SM_UBN SRAM upper bank

SM_WEN SRAM write enable

SMC Surface Mounted Components

SMA(17:0) SRAM address output

SMD(15:0) SRAM data input/output

SPDIF Sony Philips Digital InterFace

SPIDRE Signal Processing Ic for Dvd REwritable

SRAM Static Random Access Memory

SRAMCE0N SRAM processor chip enable 0

SRAMRDN SRAM processor output enable

STBY STandBY

Subcode Tracking information/Track number/Disc location information

SVCD Super Video CD

SYSCLK_EMPRESS System clock EMPRESS

SYSCLK_PROGSCAN System clock Progressive Scan

SYSCLK_VSM_5508 System clock VSM and Host decoder

SW SoftWare

TCK Boundary scan Test Clock

TDI Boundary scan Test Data Input

TDO Boundary scan Test Data Output

TDO_CONF Boundary scan Test Data Output from IC 7309

THD Total Harmonic Distortion

TMS Boundary scan Test Mode Select

TTL Transistor Transistor Logic (5V logic)

TX1P Transmit data to service serial interface

TXD Transmitted Data

U_IN Video U input

U_IN_VIP Video U input to Video Input Processor

UCASN Upper column address strobe

V_IN Video V input

V_IN_VIP Video V input to Video Input Processor

VBR Variable Bit Rate

VCC3_CLK_BUF Power supply 3V3 clock buffer

VCC3_VSM Power supply 3V3 Versatile Stream Manager

VCC3_VSM_MEMPower supply 3V3 Versatile Stream Manager Memory

VCC5_4046 Power supply 5V to PLL IC

VCD Video CD

VDD_125 Power supply 5V to buffer 7202

VDD_CORE Sti5508 Core supply voltage 2.5V

VDD_EMP Empress supply voltage 3.3V

VDD_EMP_CORE Empress Core supply voltage 2.5V

VDD_FLASH_H Flash 7301 supply voltage

VDD_FLASH_L Flash 7302 supply voltage

VDD_LVC32 Power supply LVC32

VDD_PCM Power supply Audio decoder of Sti5508

VDD_PLL Power supply PLL audio decoder of

Sti5508

VDD_RGB Power supply video encoder of Sti5508

VDD_STI Power supply of Sti5508

VDD_YCC Power supply video encoder of Sti5508

VDD5_MK2703 Power supply MK2703

VDD5_OSC Power supply Oscillator

VDDA1A_7118 Power supply for analog input of VIP




VDDE_7118Power supply digital for peripheral cells of VIP

VDDI_7118 Power supply digital for core of VIP

VDDX_7118 Power supply for crystal oscillator of VIP

VE_DATA(7:0) Video Encoder data Bus

VE_DSN Video Encoder Data Strobe

VE_DTACKNVideo Encoder Data Transfer acknowledge

VIP_ERROR Video Input Processor error

VIP_FB Video Input Processor Fast Blanking

VIP_FID_FFVideo Input Processor field identifier to Flip Flop

VIP_HS Video Input Processor Horizontal Sync

VIP_CLK Video Input Processor input Clock

VIP_IDQ Video Input Processor output data qualifier

VIP_IGP1Video Input Processor input general purpose 1

VIP_INT Video Input Processor interrupt

VIP_RTS1 Video Input Processor ready to send

VIP_VS Video Input Processor Vertical Sync

VIP_YUV(7:0) Video Input Processor digital video(CCIR 656)

VS_IN Vertical Sync IN

VSM_M_A(13:0) Versatile Stream Manager SDRAM address bus

VSM_M_CASNVersatile Stream Manager SDRAM column address strobe

VSM_M_CLKENVersatile Stream Manager SDRAM clock enable

VSM_M_CLKOUT Versatile Stream Manager SDRAM clock out

VSM_M_D(15:0) Versatile Stream Manager SDRAM data bus

VSM_M_LDQMVersatile Stream Manager SDRAM lower data mask enable

VSM_M_RASNVersatile Stream Manager SDRAM row address strobe

VSM_M_UDQM Versatile Stream Manager SDRAM upper data mask enable

VSM_M_WEN Versatile Stream Manager SDRAM write enable

VSM_UART1_CTSN Versatile Stream Manager UART1 clear to send to analog board

VSM_UART1_RTSNVersatile Stream Manager UART2 clear to send to DVIO board

VSM_UART1_RXVersatile Stream Manager UART1 ready to send to analog board

VSM_UART1_TX Versatile Stream Manager UART2 ready to send to DVIO board

VSM_UART2_CTSN Versatile Stream Manager UART1 received data to analog board

VSM_UART2_RTSNVersatile Stream Manager UART2 received data to DVIO board

VSM_UART2_RXVersatile Stream Manager UART1 transmitted data to analog board

VSM_UART2_TX Versatile Stream Manager UART2 transmitted data to DVIO board

VSOUT Vertical Sync OUT

WE Write Enable

WEN Write Enable control signal to SRAM

WOBBLEThe spiral track stamped into recordable discs

Y_IN Luminance input from analog board

Y_OUT Luminance output from Host Decoder

Y_OUT_B Filtered luminance output

Y/CLuminance (Y) and Chrominance (C) signal

Y/UV Component video

YUV(0:7) Digital Video

YY_OUT(9:0) Luminance output from FLI

All Models (2022) - Set Wiring Diagram

All Models (2022) - Set Block Diagram

All Models (2022) - Basic Engine Block Diagram

All Models (2022) - Power Supply (Page 1) Schematic

All Models (2022) - Power Supply (Page 2) Schematic

All Models (2022) - Display Panel Schematic

All Models (2022) - Front AV Panel Schematic

All Models (2022) - IR and Standby Panel Schematic

All Models (2022) - Analog Board: All in One 1 Schematic

All Models (2022) - Analog Board: All in One 2 Schematic

All Models (2022) - Analog Board: Tuner / Demodulator Schematic

All Models (2022) - Analog Board: In / Out 1 Schematic



All Models (2022) - Analog Board: Sound Processing Schematic

All Models (2022) - Analog Board: Power Supply Schematic

All Models (2022) - Analog Board: Converter Schematic

All Models (2022) - Analog Board: RGB-YUV Converter Schematic

All Models (2022) - Analog Board: Digital In / Out Schematic

All Models (2022) - Analog Board: Fan Control Schematic

All Models (2022) - DVIO Front Board Schematic

All Models (2022) - DVIO Board: 1394 Interface Schematic

All Models (2022) - DVIO Board: Microprocessor Schematic

All Models (2022) - DVIO Board: Fifo & Control Schematic

All Models (2022) - DVIO Board: DVCODEC Schematic

All Models (2022) - DVIO Board: Audio & Video Output Schematic

All Models (2022) - Digital Board: VSM, Buffer Mem & Bit Engine Interface Schematic

All Models (2022) - Digital Board: AV Decoder STI5508 Schematic

All Models (2022) - Digital Board: AV Decoder Memory

All Models (2022) - Digital Board: Video Encoder, Empress

All Models (2022) - Digital Board: VIP CVBS Y/C Video Input

All Models (2022) - Digital Board: Analog Board Cons. Video In / Output

All Models (2022) - Digital Board: Progressive Scan - 1

All Models (2022) - Digital Board: Progressive Scan - 2

All Models (2022) - Digital Board: Power, Clock, and Reset Audio Clock

All Models (2022) - Servo Board 43015: Pre- Processor Schematic

All Models (2022) - Servo Board 43015: MACE3 Schematic

All Models (2022) - Servo Board 43015: Driver Schematic

All Models (2022) - Servo Board 43015: Decoder / Encoder Schematic

All Models (2022) - Servo Board 43015: Power Schematic

All Models (2022) - Servo Board 43353: Pre- Processor Schematic

All Models (2022) - Servo Board 43353: MACE3 Schematic

All Models (2022) - Servo Board 43353: Driver Schematic

All Models (2022) - Servo Board 43353: Decoder / Encoder Schematic

All Models (2022) - Servo Board 43353: Power Schematic

All Models (2022) - Power Supply CBA (Top View)

All Models (2022) - Power Supply CBA (Bottom View)

All Models (2022) - Display Panel CBA (Top View)

All Models (2022) - Display Panel CBA (Bottom View)

All Models (2022) - Front AV Panel CBA (Top)

All Models (2022) - Front AV Panel CBA (Bottom)

All Models (2022) - Analog Board CBA (Top View)

All Models (2022) - Analog Board CBA (Bottom View)

All Models (2022) - DVIO Front Board CBA (Top View)

All Models (2022) - DVIO Board CBA (Top View)

All Models (2022) - DVIO Board CBA (Bottom View)

All Models (2022) - Digital Board CBA (Top View)

All Models (2022) - Digital Board CBA (Bottom View)

All Models (2022) - Layout Servo Board 43015: (Top Side)

All Models (2022) - Layout Servo Board 43015: (Bottom Side)

All Models (2022) - Layout Servo Board 43353: (Top Side)

All Models (2022) - Layout Servo Board 43353: (Bottom Side)

All Models (2022) - Layout Analog Board (Testlands Top View)

All Models (2022) - Layout Analog Board (Testlands Bottom View)

All Models (2022) - Layout DVIO Board (Testlands Bottom View)

All Models (2022) - Layout Digital Board (Testlands Bottom View)

All Models (2022) - Test Point Overview Servo Board 43015

All Models (2022) - Test Point Overview Servo Board 43353

DVDR98517 - Manual no. 2022

Mechanical Parts Mechanical Parts 60 CONNECTOR FRONT ASSY (US). . . . . . . 3104 127 13560 65 TRAY FRONT ASSY COMPLETE . . . . . . . 3104 127 13450 65 TRAY FRONT ASSY COMPLETE . . . . . . . 3104 127 13520 81 VAE8015/002. . . . . . . . . . . . . . 9305 025 81502 151 COVER ASSY . . . . . . . . . . . . . . 3104 127 13320 191 FILTER AIR INLED BOTTOM. . . . . . . . 3104 124 07455 197 DUST FILTER. . . . . . . . . . . . . . 3104 123 30002 198 FILTER AIR INLET COVER . . . . . . . . 3104 124 07733 199 DC BRUSHLESS FAN . . . . . . . . . . . 3104 128 93031 151 FOOT SILVER ASSY . . . . . . . . . . . 3104 127 10740 152 FOOT SILVER ASSY . . . . . . . . . . . 3104 127 10740 153 FOOT SILVER ASSY . . . . . . . . . . . 3104 127 10740 154 FOOT SILVER ASSY . . . . . . . . . . . 3104 127 10740S 109 USER MANUAL DVDR985/171. . . . . . . . 3104 125 24290 170 DVDRW/006 PHILIPS DISC EUROPE. . . . . 9307 002 60006 171 DVD +R TEST DISC . . . . . . . . . . . 9307 002 60008S 1001 DVDR DIG. BOARD 1.5 EMPRESS/US . . . . 3104 128 07800S 1002 PSU DVDR1000-2 USA 50PS203 . . . . . . 3122 427 22721S 1003 DVDR ANALOG BOARD NAFTA GEN1.5 . . . . 3103 608 50300S 1005 PB DVDR1000 DVIO GEN.1.5 ASSY. . . . . 3104 128 07900 8001 CWAS FLEX DVD 22 70 32S. . . . . . . . 3104 157 11641 8002 CWAS FLEX DVD 22 70 32S. . . . . . . . 3104 157 11641 8003 CWAS SPLIT FLEX 30 100 32S . . . . . . 3104 157 11790 8004 CWAS FLEX DVD 10 110 32S . . . . . . . 3104 157 11531 8013 CABLE IEEE-1394 4P AMP . . . . . . . . 3104 128 92921 8015 CWAS FLEX DVDR 7 360 32S . . . . . . . 3104 157 12191

Front Assy Front Assy 1 FRONT ASSY . . . . . . . . . . . . . . 3104 127 13540 2 SIDE PLATE LEFT ASSY . . . . . . . . . 3104 127 13220 3 SIDE PLATE RIGHT ASSY. . . . . . . . . 3104 127 13230 4 WINDOW . . . . . . . . . . . . . . . . 3104 124 08470 5 LIGHT GUIDE DVD STEP 2K. . . . . . . . 3139 244 00761 11 BUTTON STANDBY ASSY. . . . . . . . . . 3104 127 13240 12 BUTTON PLAY/STOP/RECORD ASSY . . . . . 3104 127 13250 13 BUTTON OPENCLOSE/RECVOLUM ASSY . . . . 3104 127 13260 14 BUTTON DISPLAY ASSY. . . . . . . . . . 3104 127 13270 15 IR LENS ASSY . . . . . . . . . . . . . 3104 127 13530S 1001 DISPLAYPANEL 4330 ASSY DVDR980 . . . . 3104 128 08270S 1006 PCB ASSY 4319 DVIO-FRONT . . . . . . . 3104 128 07610

Display PWB Display PWB 1140 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1150 PROT DEV 65V 250MA PSC A . . . . . . . 2422 086 10947 1153 CST12,00MTW-TF01 . . . . . . . . . . . 5322 242 73686 1156 BUZZER PIEZO CB13PA-X5 . . . . . . . . 2422 527 00513 1159 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1160 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1162 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1163 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1167 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1168 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1169 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1170 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1171 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 1174 SWITCH TACT PUSH . . . . . . . . . . . 4822 276 13732 2140 Cap, 22u, 20%, 16v, Electrolytic . . . 4822 124 11946 2150 Cap, 47u, 20%, 16V . . . . . . . . . . 4822 124 80231 2151 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2152 Cap, 47n, 5%, 250V . . . . . . . . . . 4822 121 43526 2154 Cap, 330u, 20%, 16V. . . . . . . . . . 4822 124 40849 2155 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2156 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2157 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2158 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2159 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2160 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2161 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2165 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2167 Cap, 470p, 5%, 50v, Ceramic. . . . . . 4822 126 13881 2168 Cap, 100p, 2%, 63V . . . . . . . . . . 4822 122 31765 2169 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2170 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2171 Cap, 220n, +80/-20%, 16v, Ceramic. . . 4822 126 13879 2173 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2174 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2175 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2177 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2179 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2180 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 3135 NTC DC 5W 10k 5% . . . . . . . . . . . 4822 117 12063 3136 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3137 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3138 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3139 Res, 390 ohm, 5%, 1/16W. . . . . . . . 4822 051 30391 3140 Res, 220 ohm, 5%, 1/16W. . . . . . . . 4822 051 30221 3141 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3142 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925

3143 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3144 Res, 390 ohm, 5%, 1/16W. . . . . . . . 4822 051 30391 3145 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3146 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3147 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3148 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3149 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3150 Res, 5k6 5%, 1/16W . . . . . . . . . . 4822 051 30562 3151 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3152 Res, 22k, 5%, 1/2W . . . . . . . . . . 4822 116 52257 3153 Res, 5R6, 1%, 1/16W, Metalized Glass . 2322 704 65608 3154 Res, 10k, 1%, 1/16W . . . . . . . . . 4822 050 21003 3155 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3156 Res, 10k, 1%, 1/16W . . . . . . . . . 4822 050 21003 3157 Res, 47k, 5%, 1/2W . . . . . . . . . . 4822 116 83884 3158 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3159 Res, 5k6 5%, 1/16W . . . . . . . . . . 4822 051 30562 3160 Res, 5R6, 1%, 1/16W, Metalized Glass . 2322 704 65608 3161 Res, 68k, 5%, 1/16W. . . . . . . . . . 4822 051 30683 3162 Res, 68k, 5%, 1/16W. . . . . . . . . . 4822 051 30683 3163 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3164 Res, 10k, 1%, 1/16W . . . . . . . . . 4822 050 21003 3165 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3166 Res, 270 ohm, 5%, 1/2W . . . . . . . . 4822 116 83876 3167 Res, 270 ohm, 5%, 1/2W . . . . . . . . 4822 116 83876 3168 Res, 100 ohm, 5%, 1/2W . . . . . . . . 4822 116 52175 3169 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3171 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3172 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3173 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3174 Res, 4M7, 5%, 1/16W, Metalized Glass . 4822 051 30475 3177 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3178 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3180 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3182 Res, 1k5, 5%, 1/16W. . . . . . . . . 4822 051 30152 3183 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3186 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3187 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3188 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3189 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3190 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3192 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3193 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3194 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3197 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3999 TER. . . . . . . . . . . . . . . . . . 4822 117 12842 5150 Coil, 10u. . . . . . . . . . . . . . . 4822 157 51462 5151 Coil, 10u. . . . . . . . . . . . . . . 4822 157 51462 5153 TRANSFORMER HEATER . . . . . . . . . . 2422 531 02423 6140 LED VS LTL-14CHJ . . . . . . . . . . . 9322 140 17676 6150 Zener Diode, 6.8 volt. . . . . . . . . 9322 129 38685 6151 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6152 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6154 Zener Diode, 2.7 volt. . . . . . . . . 9322 102 64685 6155 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6156 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6157 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6158 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6159 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6160 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6161 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6164 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6165 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6166 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6167 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6168 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6169 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6170 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6171 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6172 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6173 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6174 DIO SIG BAW56W . . . . . . . . . . . . 9340 260 20115 6175 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6176 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6177 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6178 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6179 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6180 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6181 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6182 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6183 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6184 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6185 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6186 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6187 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6188 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6189 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6190 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6191 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6192 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6193 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6194 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621

S = Safety Part Be sure to use exact replacement part.

DVDR98517 (continued)

6195 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6196 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6197 1N4148 . . . . . . . . . . . . . . . . 4822 130 30621 6198 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 7140 REMOTE RECEIVER TSOP2236ZC1. . . . . . 9322 155 22667 7141 DTC124EU . . . . . . . . . . . . . . . 4822 130 61553 7142 Transistor, NPN, BC847BW . . . . . . . 9340 217 70115 7143 Transistor, PNP, BC857BW . . . . . . . 9340 218 50115 7144 Transistor, PNP, BC857BW . . . . . . . 9340 218 50115 7145 Transistor, NPN, BC847BW . . . . . . . 9340 217 70115 7150 VFD BJ-801GNK 120X32 . . . . . . . . . 2722 171 07721 7151 Transistor, NPN, BC847BW . . . . . . . 9340 217 70115 7152 FET POW STN3NE06 . . . . . . . . . . . 9322 148 79668 7153 Transistor, NPN, BC847BW . . . . . . . 9340 217 70115 7155 Transistor, NPN, BC847BW . . . . . . . 9340 217 70115 7156 OTPROM ASSY DDCP1-1U . . . . . . . . . 3103 178 56451 7157 Transistor, NPN, BC847BW . . . . . . . 9340 217 70115 7160 HEF4093BT. . . . . . . . . . . . . . . 5322 209 11147 7164 Transistor, NPN, BC847BW . . . . . . . 9340 217 70115 7165 DTC124EU . . . . . . . . . . . . . . . 4822 130 61553 7166 Transistor, NPN, BC847BW . . . . . . . 9340 217 70115

DIVIO front DIVIO front 1000 CON BM H 4P F 0.8 B. . . . . . . . . . 2422 033 00363 1001 CON BM H 4P F 0.8 IEEE R . . . . . . . 2422 025 17106 2000 Cap, 1n, 5%, 50v, Ceramic. . . . . . . 5322 126 10511 2001 Cap, 1n, 5%, 50v, Ceramic. . . . . . . 5322 126 10511 2002 Cap, 4n7, 10%, 250v, Ceramic . . . . . 2020 557 90732 2002 Cap, 330n, +80/-20%, 50v, Ceramic. . . 2222 580 19815 2003 Cap, 4n7, 10%, 250v, Ceramic . . . . . 2020 557 90732 2003 Cap, 330n, +80/-20%, 50v, Ceramic. . . 2222 580 19815 2004 Cap, 4n7, 10%, 250v, Ceramic . . . . . 2020 557 90732 2005 Cap, 4n7, 10%, 250v, Ceramic . . . . . 2020 557 90732 2204 Cap, 33p, 5%, 50v, Ceramic . . . . . . 2222 867 15339 2205 Cap, 33p, 5%, 50v, Ceramic . . . . . . 2222 867 15339 3000 Res, 1M, 5%, 1/8W, Metalized Glass . . 4822 051 20105 5000 IND FXD EMI 100mH z 90R R. . . . . . . 2422 549 44768 5001 IND FXD EMI 100mH z 90R R. . . . . . . 2422 549 44768 6000 TLMH3100 . . . . . . . . . . . . . . . 4822 130 11395 6001 DIO SUP 6T39CA (ST00) R. . . . . . . . 9322 172 97668

DIVIO connect DIVIO connect 1910 YKC22-0489 . . . . . . . . . . . . . . 2422 033 00355 1911 CON BM H 9P M 2.00 PH B. . . . . . . . 2422 025 10185 2102 Cap, 330p, 50V . . . . . . . . . . . . 4822 126 14241 2105 Cap, 330p, 50V . . . . . . . . . . . . 4822 126 14241 2106 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 3101 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3102 Res, 1M, 5%, 1/16W, Metalized Glass. . 4822 051 30105 3106 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3107 Res, 1M, 5%, 1/16W, Metalized Glass. . 4822 051 30105 3110 Res, 150 ohm, 5%, 1/16W. . . . . . . . 4822 051 30151 3111 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3112 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3113 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 6100 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6101 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6102 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6103 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6104 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685

Power Supply PWB Power Supply PWB 0010 Transistor . . . . . . . . . . . . . . 4822 492 63066 0021 Transistor . . . . . . . . . . . . . . 4822 492 63066 0025 Transistor . . . . . . . . . . . . . . 4822 492 63524 0040 Transistor . . . . . . . . . . . . . . 4822 492 63066 0060 Transistor . . . . . . . . . . . . . . 4822 492 63066 0090 Transistor . . . . . . . . . . . . . . 4822 492 63066S 0101 TER. . . . . . . . . . . . . . . . . . 4822 265 31016S 0120 FUSE HOLDER 2P . . . . . . . . . . . . 4822 265 11253S 1120 19181 (2,5A) . . . . . . . . . . . . . 4822 253 30383S 1520 19398E1(3,150A). . . . . . . . . . . . 4822 252 11144S 2119 Cap, 1n, 20%, v, Ceramic . . . . . . . 2020 554 90186S 2120 Cap, 220n, 20%, 275V . . . . . . . . . 4822 121 10697 2126 Cap, 330u, 20%, 200v, Electrolytic . . 2222 152 90004 2129 Cap, 10n, 5%, 400V . . . . . . . . . . 4822 121 70162 2130 Cap, 47p, 5%, 1KV. . . . . . . . . . . 4822 126 14525S 2131 Cap, 1n, 20%, v, Ceramic . . . . . . . 2020 554 90186 2136 Cap, 220p, 10%, 1000v, Ceramic . . . . 4822 126 12263 2139 Cap, 100n, 10%, 50v, Ceramic . . . . . 2222 580 15649 2140 Cap, 100n, 10%, 50v, Ceramic . . . . . 2222 580 15649 2142 Cap, 220p, 5%, 63V. . . . . . . . . . 4822 122 33575 2143 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2144 Cap, 470n, 10%, 16V. . . . . . . . . . 4822 126 14583 2145 Cap, 470n, 10%, 16V. . . . . . . . . . 4822 126 14583 2146 Cap, 470p, 10%, 63V. . . . . . . . . . 5322 122 34099 2147 Cap, 10u, 20%, 63V . . . . . . . . . . 4822 124 40248 2151 Cap, 100n, 10%, 50v, Ceramic . . . . . 2222 580 15649 2152 Cap, 330p, 50V . . . . . . . . . . . . 4822 126 14241

2153 Cap, 68p, 1%, 63V. . . . . . . . . . . 4822 126 13694 2200 Cap, 47u, 20%, 50v, Electrolytic . . . 4822 124 11566 2201 Cap, 100n, 10%, 50v, Ceramic . . . . . 2222 580 15649 2210 Cap, 680u, 20%, 16v, Electrolytic. . . 2020 021 91657 2211 Cap, 100u, 20%, 63V. . . . . . . . . . 4822 124 40255 2214 Cap, 2200u, 20%, 16V . . . . . . . . . 4822 124 12285 2220 Cap, 220u, 20%, 25v, Electrolytic. . . 4822 124 80144 2221 Cap, 100u, 20%, 63V. . . . . . . . . . 4822 124 40255 2223 Cap, 100n, 10%, 50v, Ceramic . . . . . 2222 580 15649 2230 Cap, 100u, 20%, 63V. . . . . . . . . . 4822 124 40255 2235 Cap, 330u, 20%, 50v, Electrolytic. . . 2020 012 93762 2240 Cap, 1000u, 20%, 16v, Electrolytic . . 2020 021 91664 2241 Cap, 100u, 20%, 63V. . . . . . . . . . 4822 124 40255 2251 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2501 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2502 Cap, 100u, 20%, 63V. . . . . . . . . . 4822 124 40255 2506 Cap, 100u, 20%, 63V. . . . . . . . . . 4822 124 40255 2511 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2512 Cap, 100u, 20%, 63V. . . . . . . . . . 4822 124 40255 2513 Cap, 100n, 10%, 50v, Ceramic . . . . . 2222 580 15649 2515 Cap, 100u, 20%, 63V. . . . . . . . . . 4822 124 40255 2520 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2521 Cap, 100u, 20%, 63V. . . . . . . . . . 4822 124 40255S 3120 VDR DC 1M A/423V S MAX 775V B. . . . . 2122 550 00147 3122 Res, 680K, 5%, 1/2W, Metalized Glass . 4822 053 21684 3123 Res, 10M, 10%, 1/2W. . . . . . . . . . 4822 117 11486 3125 Res, 1M, 5%, 1/4W, Carbon Film . . . . 4822 116 83866 3126 Res, 1M, 5%, 1/4W, Carbon Film . . . . 4822 116 83866 3127 Res, 220k, 5%, 1/2W. . . . . . . . . . 4822 116 83874 3128 Res, 220k, 5%, 1/2W. . . . . . . . . . 4822 116 83874 3131 Res, 47 ohm, 5% 1/2W . . . . . . . . . 4822 116 52195 3132 Res, 47 ohm, 5% 1/2W . . . . . . . . . 4822 116 52195 3133 Res, 1R5, 5%, 1/2W . . . . . . . . . . 4822 116 80676 3134 Res, 1R5, 5%, 1/2W . . . . . . . . . . 4822 116 80676 3135 Res, 1R5, 5%, 1/2W . . . . . . . . . . 4822 116 80676 3139 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3140 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3141 Res, 33k, 1%, 1/16W . . . . . . . . . 4822 050 23303 3142 Res, 220 ohm, 5%, 1/16W. . . . . . . . 4822 051 30221 3143 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3144 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3145 Res, 22K, 5%, 1/8W, Metalized Glass. . 4822 051 20223 3146 Res, 100 ohm, 5%, 1/2W . . . . . . . . 4822 116 52175 3147 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3148 Res, 2k2, 5%, 1/2W . . . . . . . . . . 4822 116 52256 3149 Res, 2k2, 5%, 1/2W . . . . . . . . . . 4822 116 52256 3150 Res, 68 ohm, 5%, 1W. . . . . . . . . . 4822 053 10689 3151 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3152 Res, 24k, 5%, 1/2W . . . . . . . . . . 4822 116 52261 3200 Res, 2k7, 5%, 1/2W . . . . . . . . . . 4822 116 52263 3201 Res, 33K, 5%, 1/8W, Metalized Glass. . 4822 051 20333 3220 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3221 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3222 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3223 Res, 4k7, 5%, 1/2W . . . . . . . . . . 4822 116 52283 3230 Res, 47 ohm, 5%, 1/3W. . . . . . . . . 4822 052 10479 3233 Res, 10K, 1%, 1/8W, Metalized Glass. . 4822 117 10833 3234 Res, 10K, 1%, 1/8W, Metalized Glass. . 4822 117 10833 3250 Res, 470 ohm, 5%, 1/2W . . . . . . . . 4822 116 83883 3253 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3254 Res, 470 ohm, 5%, 1/2W . . . . . . . . 4822 116 83883 3255 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3256 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3501 Res, 2k2, 5%, 1/2W . . . . . . . . . . 4822 116 52256 3502 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3503 Res, 680 ohm, 5%, 1/16W. . . . . . . . 4822 051 30681 3504 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3511 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3512 Res, 4K7, 5%, 1/8W, Metalized Glass. . 4822 051 20472 3513 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3514 Res, 10k, 1%, 1/16W . . . . . . . . . 4822 050 21003 3515 Res, 10K, 1%, 1/8W, Metalized Glass. . 4822 117 10833 3516 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3520 Res, 510 ohm, 5%, 1/8W, Metalized Glass 4822 051 20511 3521 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3522 Res, 2K2, 1%, 1/8W, Metalized Glass. . 4822 117 11449 3523 Res, 680 ohm, 5%, 1/16W. . . . . . . . 4822 051 30681 3524 Res, 3K3, 5%, 1/8W, Metalized Glass. . 4822 051 20332 3525 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 5110 Coil, 2u2. . . . . . . . . . . . . . . 2422 535 94634 5115 Coil, 2u2. . . . . . . . . . . . . . . 2422 535 94634S 5121 TER. . . . . . . . . . . . . . . . . . 4822 157 53348 5125 Coil, 2u4. . . . . . . . . . . . . . . 4822 157 70826S 5131 TRAFO CT395FANF/PVF. . . . . . . . . . 4822 146 10402 5210 Coil, 10u. . . . . . . . . . . . . . . 2422 535 94639 5240 Coil, 1u . . . . . . . . . . . . . . . 2422 535 94632 5501 Coil, 2u2. . . . . . . . . . . . . . . 2422 535 94634 5505 Coil, 10u. . . . . . . . . . . . . . . 2422 535 94639 5511 Coil, 10u. . . . . . . . . . . . . . . 2422 535 94639 5515 Coil, 10u. . . . . . . . . . . . . . . 2422 535 94639 5520 Coil, 2u2. . . . . . . . . . . . . . . 2422 535 94634 6125 Diode, Rect, BYD33J . . . . . . . . . 4822 130 42606



6130 1N4004G. . . . . . . . . . . . . . . . 5322 130 34574 6131 1N4004G. . . . . . . . . . . . . . . . 5322 130 34574 6132 1N4004G. . . . . . . . . . . . . . . . 5322 130 34574 6140 BAV21. . . . . . . . . . . . . . . . . 4822 130 30842 6141 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6142 BAV21. . . . . . . . . . . . . . . . . 4822 130 30842 6143 BAV21. . . . . . . . . . . . . . . . . 4822 130 30842 6144 Zener Diode, 16 volt . . . . . . . . . 9340 387 30115 6145 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6146 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6151 Diode, Rect, 1N4006GP . . . . . . . . 4822 130 31603 6152 Diode, Rect, 1N4006GP . . . . . . . . 4822 130 31603 6153 Diode, Rect, 1N4006GP . . . . . . . . 4822 130 31603 6154 Diode, Rect, 1N4006GP . . . . . . . . 4822 130 31603 6200 Diode, Rect, BYD33J . . . . . . . . . 4822 130 42606 6201 Zener Diode, 33 volt . . . . . . . . . 4822 130 34142 6210 BYW29EX-200. . . . . . . . . . . . . . 4822 130 11596 6211 1N4004G. . . . . . . . . . . . . . . . 5322 130 34574 6215 Diode, Rect, STPS745FP. . . . . . . . 9322 161 46687 6220 Diode, Rect, BYV27-200. . . . . . . . 5322 130 31938 6221 BAV21. . . . . . . . . . . . . . . . . 4822 130 30842 6230 Diode, Rect, BYD33J . . . . . . . . . 4822 130 42606 6231 Zener Diode, 33 volt . . . . . . . . . 4822 130 34142 6240 BYW29EX-200. . . . . . . . . . . . . . 4822 130 11596 6505 Diode, Rect, BYV10-40 . . . . . . . . 4822 130 32245 6511 BZX284-C8V2. . . . . . . . . . . . . . 4822 130 11666 6512 1N4004G. . . . . . . . . . . . . . . . 5322 130 34574 6515 Zener Diode, 6.8 volt. . . . . . . . . 4822 130 34278 6520 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 7125 STP5NB60FP . . . . . . . . . . . . . . 9322 126 65687 7140 Transistor, NPN, BC846B. . . . . . . . 5322 130 60159 7141 Transistor, PNP, BC856B. . . . . . . . 4822 130 60373 7142 Transistor, NPN, BC846B. . . . . . . . 5322 130 60159 7143 Transistor, NPN, BC846B. . . . . . . . 5322 130 60159S 7200 OPT CP TCET1102(G) . . . . . . . . . . 9322 149 04682 7220 L7905CV. . . . . . . . . . . . . . . . 4822 209 72684 7241 Transistor, PNP, BC856B. . . . . . . . 4822 130 60373 7251 TL431CLPST . . . . . . . . . . . . . . 4822 209 81397 7501 FET POW IRLML2502. . . . . . . . . . . 9322 163 53685 7502 TL431CLPST . . . . . . . . . . . . . . 4822 209 81397 7511 FET POW IRLML2502. . . . . . . . . . . 9322 163 53685 7512 Transistor, NPN, BC846B. . . . . . . . 5322 130 60159 7515 FET POW IRLML2502. . . . . . . . . . . 9322 163 53685 7520 STP16NE06FP. . . . . . . . . . . . . . 4822 130 11336 7521 TL431CLPST . . . . . . . . . . . . . . 4822 209 81397

DIVIO PWB DIVIO PWB 1101 CON BM H 4P F 0.8 IEEE R . . . . . . . 2422 025 17106 1102 RES XTL 24M576 12P CX-11F R. . . . . . 2422 543 01115 1200 RES XTL 11M0592 20P DSX840 . . . . . . 2422 543 01159 1500 CON BM V 60P F 0.80 179161 R . . . . . 2422 025 17084 2146 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2147 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2148 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2149 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2150 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2151 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2152 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2153 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2154 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2155 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2156 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2157 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2158 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2163 Cap, 270p, 5%, 50V . . . . . . . . . . 4822 126 14506 2170 Cap, 12p,. . . . . . . . . . . . . . . 4822 126 11663 2171 12p, . . . . . . . . . . . . . . . . . 4822 126 11663 2173 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2174 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2175 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2176 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2177 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2178 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2181 Cap, 100u, 20%, 16v, Electrolytic. . . 4822 124 12095 2182 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2183 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2184 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2187 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2192 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2193 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2194 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2195 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2196 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2197 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2200 12p, . . . . . . . . . . . . . . . . . 4822 126 11663 2202 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2203 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2204 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2205 12p, . . . . . . . . . . . . . . . . . 4822 126 11663 2206 Cap, 100p, 2%, 63V . . . . . . . . . . 4822 122 31765 2207 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305

2301 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2302 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2303 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2304 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2305 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2306 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2307 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2308 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2309 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2310 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2311 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2312 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2313 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2314 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2318 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2319 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2324 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2325 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2330 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2331 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2332 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2400 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2401 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2402 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2403 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2404 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2405 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2406 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2407 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2408 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2409 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2410 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2411 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2412 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2413 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2414 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2415 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2416 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2417 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2418 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2419 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2420 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2421 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2500 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2501 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2502 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2503 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2504 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2505 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2506 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2507 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2508 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2509 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2510 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2511 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2512 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2514 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2515 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2516 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2517 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2518 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2519 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 3100 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3101 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3102 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3103 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3104 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3105 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3106 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3107 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3108 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3109 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3110 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3113 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3115 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3116 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3117 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3118 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3119 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3120 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3121 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3122 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3123 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3124 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3125 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3126 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3127 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3128 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3130 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3131 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3132 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3133 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223



3134 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3136 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3138 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3140 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3148 Res, 6K34, 1%, 1/16W, Metalized Glass. 2322 704 66342 3163 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3164 Res, 56 ohm, 1%, 1/8W, Metalized Glass 2322 734 65609 3165 Res, 56 ohm, 1%, 1/8W, Metalized Glass 2322 734 65609 3171 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3172 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3173 Res, 56 ohm, 1%, 1/8W, Metalized Glass 2322 734 65609 3174 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3176 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3177 Res, 5K1, 1%, 1/16W, Metalized Glass . 2322 704 65102 3178 Res, 56 ohm, 1%, 1/8W, Metalized Glass 2322 734 65609 3179 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3188 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3189 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3190 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3191 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3192 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3197 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3198 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3199 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3201 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3202 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3203 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3204 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3205 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3206 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3223 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3224 Res, 330 ohm, 5%, 1/16W. . . . . . . . 4822 051 30331 3225 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3300 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3301 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3303 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3305 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3306 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3307 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3312 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3313 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3314 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3315 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3317 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3318 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3319 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3320 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3321 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3322 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3325 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3327 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3328 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3329 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3330 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3331 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3400 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3401 NETW 4 X 47 ohm 5% MNR14 . . . . . . . 4822 117 13573 3402 NETW 4 X 47.... 5% MNR14 . . . . . . . 4822 117 13573 3403 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3404 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3405 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3502 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3504 NETW 4 X 33 ohm 5% 1206. . . . . . . . 4822 117 13576 3505 NETW 4 X 33.... 5% 1206. . . . . . . . 4822 117 13576 3506 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3510 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3511 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3518 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3519 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3520 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3521 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3524 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3525 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3526 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3527 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 5103 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5106 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5109 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5110 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5200 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5300 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5301 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5302 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5303 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5304 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5402 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5403 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5404 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5500 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5501 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5502 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5503 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499

6300 LD1117DT33 . . . . . . . . . . . . . . 4822 209 17398 7101 IC PDI1394P25BD. . . . . . . . . . . . 9352 683 02157 7103 IC PDI1394L40. . . . . . . . . . . . . 9352 682 52557 7201 UM62256EM-70LL . . . . . . . . . . . . 4822 209 91023 7202 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7204 FET SIG BST82. . . . . . . . . . . . . 9337 331 10215 7207 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7208 IC 74HCT1G04GW . . . . . . . . . . . . 9352 456 40115 7300 IC ROM XC17S30XL DVIO 1.5. . . . . . . 3104 123 96640 7301 IC CY7C1019BV33-10VC . . . . . . . . . 9322 166 64668 7303 IC XCS30XL-4TQ144C . . . . . . . . . . 9322 169 90671 7304 27MHz 120P FX0-31FT. . . . . . . . . . 4822 242 10838 7307 IC FLASH PLL CY2071A DVIO 1.5. . . . . 3104 123 96620 7308 IC FLASH PLL CY2071A DVIO 1.5. . . . . 3104 123 96620 7309 IC FLASH XC18V01 DVIO 1.5. . . . . . . 3104 123 96630 7402 IC MT4LC1M16E5DJ-6 . . . . . . . . . . 8204 056 07210 7402 MT4LC1M16E5DJ-6. . . . . . . . . . . . 9322 178 74668 7403 IC MT4LC1M16E5DJ-6 . . . . . . . . . . 8204 056 07210 7403 MT4LC1M16E5DJ-6. . . . . . . . . . . . 9322 178 74668 7404 IC NW700LQ TQFP160 . . . . . . . . . . 8204 056 07160 7404 IC NW700 . . . . . . . . . . . . . . . 9322 179 31671 7500 IC 74LVC04APW (PHSE) R . . . . . . . . 9352 424 20118 7505 IC 74LVC16244ADGG (PHSE) R . . . . . . 9352 351 50118 7506 IC UDA1334ATS/N2 (PHSE) R. . . . . . . 9352 668 39118

TRAY front TRAY front 0002 RW BADGE (plastic tray). . . . . . . . 3104 120 00272 0002 RW BADGE . . . . . . . . . . . . . . . 3104 120 00272

Accessories kit Accessories kit AC02 GOLD PLATED YUV-CINCH CABLE. . . . . . 3104 128 92770 AC03 VIDEO CORD SET GOLD PLATED . . . . . . 3104 128 92490 REMOTE Remote Transmitter, RC2056/01. . . . . 3128 147 13670 AC06 Cable Connector. . . . . . . . . . . . 4822 321 22611 AC07 Cable Connector. . . . . . . . . . . . 4822 321 22611S AC01 MAINS CORD /17 . . . . . . . . . . . . 4822 321 11466 AC08 Antenna Cable. . . . . . . . . . . . . 4822 320 11096 AC04 S-VHS CABLE 1.5M . . . . . . . . . . . 3104 128 93041 AC05e DVDRW/006 PHILIPS DISC EUROPE. . . . . 9307 002 60006 AC05 DVDRW/007 PHILIPS DISC USA . . . . . . 9307 002 60007

DIGITAL PWB DIGITAL PWB 1100 CON BM V 15P F 1.00 FFC 0.3 R. . . . . 2422 025 17018 1101 CON BM V 15P F 1.00 FFC 0.3 R. . . . . 2422 025 17018 1200 CON BM V 7P F 1.00 FFC 0.3 R . . . . . 2422 025 16794 1500 RES XTL 24M576 12P CX-11F R. . . . . . 2422 543 01115 1600 CON BM V 10P F 1.00 FFC 0.3 R. . . . . 2422 025 16729 1601 CON BM V 22P F 1.00 FFC 0.3 R. . . . . 2422 025 16389 1602 CON BM V 22P F 1.00 FFC 0.3 R. . . . . 2422 025 16389 1603 CON BM V 60P F 0.80 84616 R. . . . . . 2422 025 16939 1800 CON BM V 7P F 1.00 FFC 0.3 R . . . . . 2422 025 16794 2100 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2101 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2102 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2103 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2104 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2105 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2106 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2107 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2108 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2109 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2110 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2111 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2112 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2113 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2114 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2115 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2116 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2117 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2118 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2119 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2120 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2121 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2122 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2123 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2124 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2125 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2126 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2127 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2128 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2129 Cap, 6p8, 7%, 50v, Ceramic . . . . . . 4822 126 13956 2130 Cap, 2u2, 20%, 50v, Electrolytic . . . 3198 030 82280 2131 Cap, 22u, 20%. 35V . . . . . . . . . . 5322 124 41945 2132 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2135 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2136 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2137 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2139 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2141 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777



2146 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2200 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2201 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2202 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2203 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2204 Cap, 33p, 5%, 50v, Ceramic . . . . . . 2222 867 15339 2205 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2206 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2207 Cap, 33p, 5%, 50v, Ceramic . . . . . . 2222 867 15339 2208 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2209 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2210 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2211 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2212 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2213 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2214 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2215 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2216 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2217 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2218 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2220 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2221 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2222 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2223 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2224 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2225 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2226 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2227 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2228 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2229 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2230 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2231 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2300 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2301 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2302 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2303 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2304 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2305 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2306 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2307 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2308 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2309 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2310 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2311 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2312 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2402 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2403 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2404 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2405 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2406 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2407 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2408 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2409 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2410 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2411 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2412 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2413 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2414 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2415 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2416 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2417 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2418 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2419 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2420 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2421 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2422 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2423 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2424 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2425 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2426 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2427 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2428 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2429 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2430 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2431 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2432 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2433 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2434 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2435 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2436 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2437 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2438 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2439 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2440 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2441 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2442 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2444 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2446 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2500 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2501 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2502 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2503 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305

2504 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2505 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2506 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2507 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2508 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2509 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2510 Cap, 18p, 5%, 50V. . . . . . . . . . . 4822 126 14507 2511 Cap, 18p, 5%, 50V. . . . . . . . . . . 4822 126 14507 2512 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2513 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2514 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2515 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2516 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2517 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2518 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2519 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2520 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2521 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2522 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2523 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2524 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2525 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2526 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2527 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2528 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2529 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2530 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2531 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2532 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2533 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2534 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2535 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2536 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2537 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2538 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2539 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2540 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2541 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2542 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2543 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2544 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2565 Cap, 150p, 5%, 50v, Ceramic. . . . . . 4822 122 33753 2600 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2601 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2602 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2605 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2606 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2607 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2608 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2609 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2610 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2611 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2612 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2613 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2614 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2615 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2616 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2617 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2618 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2619 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2620 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2621 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2622 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2625 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2626 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2627 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2628 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2629 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2630 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2632 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2633 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2634 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2635 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2636 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2700 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2701 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2702 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2703 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2704 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2705 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2706 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2708 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2709 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2710 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2711 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2712 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2713 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2714 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2715 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2716 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2717 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2718 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305



2719 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2720 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2721 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2722 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2723 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2724 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2725 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2726 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2727 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2800 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2802 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2803 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2804 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2805 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2806 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2807 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2808 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2809 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2810 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2811 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2812 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2813 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2814 Cap, 8.2p, 0.5%, 50V . . . . . . . . . 4822 126 14487 2815 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2816 Cap, 18p, 5%, 50V. . . . . . . . . . . 4822 126 14507 2817 Cap, 47u, 16V. . . . . . . . . . . . . 4822 124 80151 2818 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2819 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2820 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2822 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2823 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2824 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2826 Cap, 8.2p, 0.5%, 50V . . . . . . . . . 4822 126 14487 2827 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2828 Cap, 18p, 5%, 50V. . . . . . . . . . . 4822 126 14507 2831 Cap, 8.2p, 0.5%, 50V . . . . . . . . . 4822 126 14487 2832 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2833 Cap, 18p, 5%, 50V. . . . . . . . . . . 4822 126 14507 2835 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2836 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2837 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2900 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2901 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2902 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2903 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2904 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2906 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2907 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2908 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2909 Cap, 1n5, 10%, 50v, Ceramic. . . . . . 4822 126 14247 2911 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2912 Cap, 1n5, 10%, 50v, Ceramic. . . . . . 4822 126 14247 2914 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2915 Cap, 100n, +80/-20%, 25v, Ceramic. . . 4822 126 14305 2916 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 3100 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3101 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3102 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3104 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3105 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3106 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3107 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3108 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3109 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3110 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3111 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3112 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3113 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3114 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3115 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3116 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3117 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3118 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3119 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3120 Res, 15k, 5%, 1/16W . . . . . . . . . 4822 051 30153 3121 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3122 Res, 12k, 5%, 1/16W. . . . . . . . . . 4822 051 30123 3123 Res, 2K, 1%, 1/16W, Metalized Glass. . 2322 704 62002 3124 Res, 3K, 1%, 1/16W, Metalized Glass. . 2322 704 63002 3125 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3126 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3127 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3128 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3129 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3130 NTC 0W1 4k7 PM5 R. . . . . . . . . . . 2120 611 00019 3131 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3132 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3133 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3134 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3135 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3136 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3137 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472

3138 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3200 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3201 Res, 1k5, 5%, 1/16W. . . . . . . . . 4822 051 30152 3202 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3203 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3204 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3205 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3206 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3207 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3208 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3209 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3211 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3212 Res, 1k5, 5%, 1/16W. . . . . . . . . 4822 051 30152 3213 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3214 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3215 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3216 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3217 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3218 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3219 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3220 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3221 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3222 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3223 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3224 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3225 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3226 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3227 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3228 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3229 Res, 13K, 1%, 1/16W, Metalized Glass . 2322 704 61303 3230 Res, 13K, 1%, 1/16W, Metalized Glass . 2322 704 61303 3231 Res, 3k9, 1%, 1/16W. . . . . . . . . . 5322 117 13042 3232 Res, 3k9, 1%, 1/16W. . . . . . . . . . 5322 117 13042 3234 RST NETW 1206 4X4k7 PM5 COL R. . . . . 3198 031 14720 3235 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3236 NETW 4 X 33.... 5% 1206. . . . . . . . 4822 117 13576 3237 NETW 4 X 33.... 5% 1206. . . . . . . . 4822 117 13576 3300 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3301 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3400 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3401 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3403 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3404 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3405 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3406 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3407 Res, 180 ohm, 5%, 1/16W. . . . . . . . 4822 051 30181 3408 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3409 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3410 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3500 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3501 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3502 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3503 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3504 Res, 680 ohm, 5%, 1/16W. . . . . . . . 4822 051 30681 3505 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3506 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3507 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3508 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3513 Res, 680 ohm, 5%, 1/16W. . . . . . . . 4822 051 30681 3515 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3600 Res, 56 ohm, 1%, 1/16W, Metalized Glass 2322 704 65609 3601 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3602 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3603 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3604 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3605 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3606 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3607 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3608 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3610 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3611 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3612 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3613 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3615 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3616 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3617 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3618 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3619 Res, 560 ohm, 5%, 1/16W. . . . . . . . 4822 051 30561 3620 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3621 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3622 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3623 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3624 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3625 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3626 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3627 Res, 560 ohm, 1%, 1/16W. . . . . . . . 5322 117 13059 3628 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3629 Res, 180 ohm, 5%, 1/16W. . . . . . . . 4822 051 30181 3630 Res, 180 ohm, 5%, 1/16W. . . . . . . . 4822 051 30181 3631 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3632 Res, 560 ohm, 5%, 1/16W. . . . . . . . 4822 051 30561 3633 Res, 560 ohm, 5%, 1/16W. . . . . . . . 4822 051 30561



3635 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3636 Res, 180 ohm, 5%, 1/16W. . . . . . . . 4822 051 30181 3637 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3638 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3700 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3701 RST NETW 4X4k7 PM5 COL R . . . . . . . 3198 031 14720 3702 RST NETW 4X4k7 PM5 COL R . . . . . . . 3198 031 14720 3703 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3704 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3705 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3706 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3709 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3710 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3711 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3712 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3713 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3714 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3715 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3716 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3717 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3718 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3719 NETW 4 X 33 ohm, 5%. . . . . . . . . . 4822 117 13576 3720 Res, 33 ohm, 5%, 1/16W . . . . . . . . 4822 051 30339 3800 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3801 Res, 75 ohm, 1%, 1/16W . . . . . . . . 5322 117 13055 3802 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3803 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3804 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3805 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3806 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3807 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3808 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3809 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3810 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3811 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3812 Res, 75 ohm, 1%, 1/16W . . . . . . . . 5322 117 13055 3813 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3814 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3815 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3816 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3817 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3818 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3819 Res, 75 ohm, 1%, 1/16W . . . . . . . . 5322 117 13055 3820 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3821 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3822 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3823 Res, 1k2, 1%, 1/16W. . . . . . . . . . 5322 117 13036 3824 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3825 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3826 Res, 2k2, 1%, 1/16W. . . . . . . . . . 5322 117 13037 3827 Res, 270 ohm, 5%, 1/16W. . . . . . . . 4822 051 30271 3828 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3900 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3901 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3902 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3903 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3904 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3906 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3908 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3910 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3911 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3913 Res, 6k8, 5%, 1/16W. . . . . . . . . . 4822 051 30682 3914 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3915 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3916 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3917 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3918 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3919 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3920 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3921 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3922 Res, 6k8, 5%, 1/16W. . . . . . . . . . 4822 051 30682 3923 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3924 Res, 1k5, 5%, 1/16W. . . . . . . . . 4822 051 30152 3925 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 5100 BLM31P500SPT . . . . . . . . . . . . . 4822 157 11717 5101 BLM31P500SPT . . . . . . . . . . . . . 4822 157 11717 5102 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5103 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5200 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5201 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5202 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5203 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5204 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5205 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5207 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5208 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5209 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5300 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5302 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5400 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5402 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5403 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499

5404 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5500 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5501 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5502 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5503 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5504 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5505 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5506 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5507 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5508 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5600 Coil, 12u. . . . . . . . . . . . . . . 4822 157 70651 5601 Coil, 12u. . . . . . . . . . . . . . . 4822 157 70651 5602 Coil, 12u. . . . . . . . . . . . . . . 4822 157 70651 5603 Coil, 12u. . . . . . . . . . . . . . . 4822 157 70651 5604 Coil, 12u. . . . . . . . . . . . . . . 4822 157 70651 5605 Coil, 12u. . . . . . . . . . . . . . . 4822 157 70651 5606 Coil, 4u7. . . . . . . . . . . . . . . 4822 157 70649 5607 Coil, 4u7. . . . . . . . . . . . . . . 4822 157 70649 5700 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5701 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5702 Coil, 4u7. . . . . . . . . . . . . . . 4822 157 10977 5800 Coil, 6.8u 10% . . . . . . . . . . . . 4822 157 11876 5801 Coil, 10u. . . . . . . . . . . . . . . 4822 157 71593 5802 Coil, 2u2. . . . . . . . . . . . . . . 4822 157 10586 5803 Coil, 6.8u 10% . . . . . . . . . . . . 4822 157 11876 5804 Coil, 10u. . . . . . . . . . . . . . . 4822 157 71593 5805 Coil, 2u2. . . . . . . . . . . . . . . 4822 157 10586 5806 Coil, 6.8u 10% . . . . . . . . . . . . 4822 157 11876 5807 Coil, 10u. . . . . . . . . . . . . . . 4822 157 71593 5808 Coil, 2u2. . . . . . . . . . . . . . . 4822 157 10586 5809 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5810 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5900 BLM31P500SPT . . . . . . . . . . . . . 4822 157 11717 5901 BLM31P500SPT . . . . . . . . . . . . . 4822 157 11717 5903 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5904 BLM31P500SPT . . . . . . . . . . . . . 4822 157 11717 5905 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5907 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 6500 BAT54. . . . . . . . . . . . . . . . . 4822 130 80622 6900 BAT54. . . . . . . . . . . . . . . . . 4822 130 80622 7100 IC SAA7333HL/M1. . . . . . . . . . . . 9352 692 48557 7101 IC MT48LC4M16A2TG-7E . . . . . . . . . 9322 166 67668 7102 PC74HCT9046AD. . . . . . . . . . . . . 5322 209 16384 7103 IC NC7SZ58 . . . . . . . . . . . . . . 9322 170 16685 7104 HC1G04 . . . . . . . . . . . . . . . . 9352 456 50115 7200 IC STI5508EVB. . . . . . . . . . . . . 9322 169 81671 7201 IC M24C64-WMN6 . . . . . . . . . . . . 9322 130 41668 7202 PC74HCT125T. . . . . . . . . . . . . . 4822 209 30212 7203 IC LF25CDT . . . . . . . . . . . . . . 9322 142 88668 7300 IC MT48LC4M16A2TG-7E . . . . . . . . . 9322 166 67668 7303 IC 74LVC00AD . . . . . . . . . . . . . 9352 499 60118 7402 IC MT48LC4M16A2TG-7E . . . . . . . . . 9322 166 67668 7403 IC SAA6752HS/V101. . . . . . . . . . . 9352 701 80557 7404 IC LF25CDT . . . . . . . . . . . . . . 9322 142 88668 7500 IC SAA7118E/V1 . . . . . . . . . . . . 9352 673 95518 7501 IC 74LVC32AD . . . . . . . . . . . . . 9352 500 60118 7502 74HC74D. . . . . . . . . . . . . . . . 5322 209 71589 7504 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7600 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7601 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7602 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7603 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7604 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7605 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7606 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7700 IC FLI2200 . . . . . . . . . . . . . . 9322 169 18671 7701 74HC74D. . . . . . . . . . . . . . . . 5322 209 71589 7702 IC 74LVC86ADB. . . . . . . . . . . . . 9352 501 00118 7703 IC LF25CDT . . . . . . . . . . . . . . 9322 142 88668 7800 IC MT48LC2M32B2TG-6. . . . . . . . . . 9322 166 71668 7801 IC ADV7196A. . . . . . . . . . . . . . 9322 169 28671 7802 IC AD8061ART . . . . . . . . . . . . . 9322 167 49685 7803 IC AD8062AR. . . . . . . . . . . . . . 9322 169 89668 7900 IC MK2703STR . . . . . . . . . . . . . 9322 151 71668 7901 Transistor, NPN, BC847B. . . . . . . . 4822 130 60511 7902 IC NCP303LSN30 . . . . . . . . . . . . 9322 165 15685 7904 74LVC04AD. . . . . . . . . . . . . . . 4822 209 16399 7905 PC74HCT14T . . . . . . . . . . . . . . 5322 209 71568 7906 27MHZ 120P FX0-31FT. . . . . . . . . . 4822 242 10838

Analog Board Analog Board S 1324 FUSE, 1A, 65V . . . . . . . . . . . . 2422 086 10954S 1325 FUSE, 500MA, 65V. . . . . . . . . . . 2422 086 10951S 1326 FUSE, 1A, 65V . . . . . . . . . . . . 2422 086 10954S 1327 FUSE, 500MA, 65V. . . . . . . . . . . 2422 086 10951 1600 L1101-95263-0E1(18,432MHZ) . . . . . . 4822 242 10434 1701 FILTER, S.A.W., OFWM3953M. . . . . . . 4822 242 10945 1702 FIL SAW 45MHZ75 OFWM9370M L. . . . . . 2422 549 43313 1703 FIL CER 4MHZ5 EFCT-MW5 BS. . . . . . . 2422 549 43825 1705 Tuner, UV1336K/A F G-3 . . . . . . . . 3139 147 17011 1802 TA252E00 (32,768KHZ) . . . . . . . . . 4822 242 70938



1900 Connector, 52030-2210 (22P). . . . . . 4822 265 11154 1910 Connector, YKC22-0489. . . . . . . . . 2422 033 00355 1911 CON BM H 9P M 2.00 PH B. . . . . . . . 2422 025 10185 1932 CON BM V 07P M 2.50 EH B . . . . . . . 2422 025 11244 1943 OPT FIB CON GP1FA550TZ (SRPJ)L . . . . 9322 155 28667 1945 CON BM CINCH H 1P F BK B . . . . . . . 2422 026 05197 1953 CON BMT 9P VERT PH-B . . . . . . . . . 2422 025 10769 1954 Connector, 52030-2210 (22P). . . . . . 4822 265 11154 1955 CON BM MDIN 8P F TCX0310B. . . . . . . 2422 026 05046 1956 CON BM CINCH H3P F GRBURD. . . . . . . 2422 026 05143 1957 CON BM CINCH H3P F GRBURD. . . . . . . 2422 026 05143 1958 CON BM CINCH 4P F 2*WHRD . . . . . . . 2422 026 05093 1959 CON BM CINCH 4P F 2*WHRD . . . . . . . 2422 026 05093 1960 Connector 4P . . . . . . . . . . . . . 4822 267 10565 1961 CON BM CINCH H3P F GRBURD. . . . . . . 2422 026 05143 1962 CON BM V 7P F 1.00 FFC ... . . . . . . 2422 025 17691 1982 Connector, 10P. FEM. V . . . . . . . . 4822 267 11031S 1983 FUSE, 125MA, 65V. . . . . . . . . . . 2422 086 10919 1984 CON BM V 2P M 2.50 EH B. . . . . . . . 2412 020 00724 1987 CON BM V 12P M 2.00 PH B . . . . . . . 2422 025 10772 1993 CON BM CINCH H 1P F OG B . . . . . . . 2422 026 05105 1994 Crystal, 20MHZ . . . . . . . . . . . . 4822 242 10956 1997 CON BM CINCH H3P F YEYEYE. . . . . . . 2422 026 05095 2000 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2002 Cap, 330p, 50V . . . . . . . . . . . . 4822 126 14241 2003 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2004 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2005 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2006 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2007 Cap, 220p, 5%, 50v, Ceramic. . . . . . 4822 126 13883 2008 Cap, 330p, 50V . . . . . . . . . . . . 4822 126 14241 2009 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2010 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2011 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2012 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2013 Cap, 47u, 16V, Electrolytic. . . . . . 4822 124 80151 2014 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2015 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2016 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2017 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2018 Cap, 220p, 5%, 50v, Ceramic. . . . . . 4822 126 13883 2019 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2024 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2030 Cap, 100u, 20%, 10v, Electrolytic. . . 4822 124 41584 2102 Cap, 330p, 50V . . . . . . . . . . . . 4822 126 14241 2105 Cap, 330p, 50V . . . . . . . . . . . . 4822 126 14241 2106 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2200 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2201 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2202 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2203 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2321 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2322 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2323 Cap, 47n, 10%, 16v, Ceramic. . . . . . 3198 017 34730 2324 Cap, 330n, 10%, 16v, Ceramic . . . . . 2020 552 96327 2325 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2328 Cap, 100u, 20%, 10v, Electrolytic. . . 4822 124 41584 2329 Cap, 470n, +80/-20%, 10v, Ceramic. . . 3198 017 44740 2331 Cap, 220u, 20%, 16V. . . . . . . . . . 4822 124 40196 2332 Cap, 100u, 20%, 16v, Electrolytic. . . 4822 124 12095 2334 Cap, 1000u, 20%, 10v, Electrolytic . . 4822 124 40184 2400 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2401 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2402 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2403 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2405 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2406 Cap, 1n, 10%, 50v, Ceramic . . . . . . 5322 126 11578 2407 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2408 Cap, 1n, 10%, 50v, Ceramic . . . . . . 5322 126 11578 2409 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2410 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2411 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2423 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2430 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2431 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2432 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2433 Cap, 560p, 10%, 50v, Ceramic . . . . . 4822 126 14249 2434 Cap, 560p, 10%, 50v, Ceramic . . . . . 4822 126 14249 2438 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2440 Cap, 1000u, 20%, 10v, Electrolytic . . 4822 124 40184 2445 Cap, 1n, 10%, 50v, Ceramic . . . . . . 5322 126 11578 2473 Cap, 150p, 5%, 50v, Ceramic. . . . . . 4822 122 33753 2474 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2476 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2477 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2478 Cap, 1n, 10%, 50v, Ceramic . . . . . . 5322 126 11578 2481 Cap, 33p, 5%, 50v, Ceramic . . . . . . 2222 867 15339 2500 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2501 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2502 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2503 Cap, 4,7u, 20%, 100V, Electrolytic . . 4822 124 40769 2505 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812

2506 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2507 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2508 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2509 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2510 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2511 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2512 Cap, 47p, 5%, 63V. . . . . . . . . . . 4822 122 33777 2513 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2515 Cap, 4,7u, 20%, 100V, Electrolytic . . 4822 124 40769 2516 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2517 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2518 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2519 Cap, 4,7u, 20%, 100V, Electrolytic . . 4822 124 40769 2520 Cap, 100u, 20%, 10v, Electrolytic. . . 4822 124 41584 2521 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2522 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2523 Cap, 4,7u, 20%, 100V, Electrolytic . . 4822 124 40769 2524 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2525 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2526 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2528 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2529 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2530 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2531 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2532 Cap, 10u, 20%, 6.3v, Electrolytic. . . 4822 124 11947 2533 Cap, 10u, 20%, 6.3v, Electrolytic. . . 4822 124 11947 2534 Cap, 4,7u, 20%, 100V, Electrolytic . . 4822 124 40769 2535 Cap, 10u, 20%, 6.3v, Electrolytic. . . 4822 124 11947 2536 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2538 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2539 Cap, 10u, 20%, 6.3v, Electrolytic. . . 4822 124 11947 2540 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2541 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2542 Cap, 220n, +80/-20%, 16v, Ceramic. . . 4822 126 13879 2544 Cap, 470p, 5%, 50v, Ceramic. . . . . . 4822 126 13881 2545 Cap, 470p, 5%, 50v, Ceramic. . . . . . 4822 126 13881 2546 Cap, 470p, 5%, 50v, Ceramic. . . . . . 4822 126 13881 2547 Cap, 470p, 5%, 50v, Ceramic. . . . . . 4822 126 13881 2548 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2549 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2550 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2551 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2552 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2554 Cap, 1000u, 20%, 10v, Electrolytic . . 4822 124 40184 2557 Cap, 1000u, 20%, 10v, Electrolytic . . 4822 124 40184 2558 Cap, 10u, 20%, 6.3v, Electrolytic. . . 4822 124 11947 2559 Cap, 10u, 20%, 6.3v, Electrolytic. . . 4822 124 11947 2560 Cap, 1000u, 20%, 10v, Electrolytic . . 4822 124 40184 2600 Cap, 10u, 20%, 63V, Electrolytic . . . 4822 124 40248 2601 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2602 Cap, 10u, 20%, 63V, Electrolytic . . . 4822 124 40248 2603 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2604 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2605 Cap, 10u, 16V, Electrolytic. . . . . . 4822 124 23002 2606 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2607 Cap, 56p, 5%, 50v, Ceramic . . . . . . 4822 126 14225 2608 Cap, 10u, 16V, Electrolytic. . . . . . 4822 124 23002 2609 Cap, 56p, 5%, 50v, Ceramic . . . . . . 4822 126 14225 2610 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2612 Cap, 4,7u, 20%, 100V, Electrolytic . . 4822 124 40769 2620 Cap, 3p3, 8%, 50v, Ceramic . . . . . . 3198 016 33380 2621 Cap, 3p3, 8%, 50v, Ceramic . . . . . . 3198 016 33380 2622 Cap, 10u, 20%, 63V, Electrolytic . . . 4822 124 40248 2623 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2624 Cap, 2u2, 20%, 50v, Electrolytic . . . 3198 030 82280 2625 Cap, 2u2, 20%, 50v, Electrolytic . . . 3198 030 82280 2700 Cap, 22u, 50V, Electrolytic. . . . . . 4822 124 81151 2703 Cap, 2,2uF, 20%, 50V, Electrolytic . . 5322 124 41379 2704 Cap, 470p, 5%, 50v, Ceramic. . . . . . 4822 126 13881 2705 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2706 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2707 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2708 Cap, 10u, 20%, 63V, Electrolytic . . . 4822 124 40248 2709 Cap, 220n, +80/-20%, 16v, Ceramic. . . 4822 126 13879 2710 Cap, 10p, 10%, 50V . . . . . . . . . . 4822 122 33741 2711 Cap, 1n, 10%, 50v, Ceramic . . . . . . 5322 126 11578 2712 Cap, 1n, 10%, 50v, Ceramic . . . . . . 5322 126 11578 2713 Cap, 47n, +80/-20%, 50v, Ceramic . . . 3198 024 44730 2714 Cap, 2u2, 20%, 50v, Electrolytic . . . 4822 124 22652 2716 Cap, 100u, 20%, 10v, Electrolytic. . . 4822 124 41584 2717 Cap, 2u2, 20%, 50v, Electrolytic . . . 4822 124 22652 2718 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2800 Cap, 470n, +80/-20%, 10v, Ceramic. . . 3198 017 44740 2802 Cap, 470n, +80/-20%, 16v, Ceramic. . . 4822 126 13482 2806 Cap, 470n, +80/-20%, 10v, Ceramic. . . 3198 017 44740 2807 Cap, 470n, +80/-20%, 16v, Ceramic. . . 4822 126 13482 2810 Cap, 1n, 10%, 50v, Ceramic . . . . . . 5322 126 11578 2811 Cap, 220u, +80/-20%, 5.5v, Electrolytic 4822 124 11968 2812 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2814 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2815 Cap, 18p, 5%, 50V. . . . . . . . . . . 4822 126 14507 2816 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050



2817 Cap, 1n, 10%, 50v, Ceramic . . . . . . 5322 126 11578 2818 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2819 Cap, 470n, +80/-20%, 10v, Ceramic. . . 3198 017 44740 2820 Cap, 470n, +80/-20%, 10v, Ceramic. . . 3198 017 44740 2821 Cap, 4u7, +80/-20%, 10v, Ceramic . . . 2020 552 96305 2822 Cap, 4u7, +80/-20%, 10v, Ceramic . . . 2020 552 96305 2823 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2831 Cap, 47u, 20%, 25V, Electrolytic . . . 4822 124 40433 2832 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2900 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2901 Cap, 47u, 16V, Electrolytic. . . . . . 4822 124 80151 2902 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2903 Cap, 220n, +80/-20%, 16v, Ceramic. . . 4822 126 13879 2904 Cap, 1u, +80/-20%, 10v, Ceramic. . . . 3198 017 41050 2905 Cap, 47u, 16V, Electrolytic. . . . . . 4822 124 80151 2906 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2907 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2909 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2910 Cap, 27p . . . . . . . . . . . . . . . 4822 126 11669 2911 Cap, 33p, 5%, 50v, Ceramic . . . . . . 2222 867 15339 2912 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2914 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2915 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2916 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2917 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2918 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2970 Cap, 10u, 20%, 6.3v, Electrolytic. . . 4822 124 11947 2980 Cap, 100u, 20%, 25v, Electrolytic. . . 4822 124 40207 2981 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2982 Cap, 100u, 20%, 25v, Electrolytic. . . 4822 124 40207 2983 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2984 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 3000 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3001 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3002 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3003 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3004 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3005 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3006 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3007 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3008 Res, 1R5, 5%, 1/16W, Metalized Glass . 2120 108 94006 3009 Res, 5K1, 1%, 1/16W, Metalized Glass . 2322 704 65102 3010 Res, 1R5, 5%, 1/16W, Metalized Glass . 2120 108 94006 3011 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3012 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3013 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3014 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3015 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3016 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3017 Res, 4k7, 1%, 1/16W. . . . . . . . . . 5322 117 13026 3018 Res, 1R5, 5%, 1/16W, Metalized Glass . 2120 108 94006 3019 Res, 1R5, 5%, 1/16W, Metalized Glass . 2120 108 94006 3020 Res, 12K 1% 0.063W . . . . . . . . . . 5322 117 13028 3021 Res, 12K 1% 0.063W . . . . . . . . . . 5322 117 13028 3022 Res, 5K1, 1%, 1/16W, Metalized Glass . 2322 704 65102 3023 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3024 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3025 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3026 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3027 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3028 Res, 4,7ohm, 5%, 0,0016W . . . . . . . 4822 117 13608 3029 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3030 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3032 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3101 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3102 Res, 1M, 5%, 1/16W, Metalized Glass. . 4822 051 30105 3106 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3107 Res, 1M, 5%, 1/16W, Metalized Glass. . 4822 051 30105 3110 150R00 5% 0,062W . . . . . . . . . 4822 051 30151 3111 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3112 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3113 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3200 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3207 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3208 560R00 5% 0,062W . . . . . . . . . 4822 051 30561 3209 RST SM 0603 MCR03 5K62 PM1 R . . . . . 2120 108 93941 3210 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3211 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3212 RST SM 0603 MCR03 5K62 PM1 R . . . . . 2120 108 93941 3213 1K5 1% 0.063W 0603 RC22H . . . . . . . 5322 117 13034 3214 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3215 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3218 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3219 1K5 1% 0.063W 0603 RC22H . . . . . . . 5322 117 13034 3220 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3221 RST SM 603 RC22H 750R PM1. . . . . . . 2322 704 87501 3222 2K2 1% 0.063W 0603 RC22H . . . . . . . 5322 117 13037 3321 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3325 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3326 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3335 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3336 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103

3337 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3338 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3339 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3340 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3400 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3401 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3402 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3403 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3404 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3405 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3406 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3407 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3408 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3409 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3410 VDR 0805 1MA/6V4 MAX 21VR. . . . . . . 2322 574 10402 3411 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3412 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3413 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3414 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3415 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3416 VDR 0805 1MA/6V4 MAX 21VR. . . . . . . 2322 574 10402 3417 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3418 VDR 0805 1MA/6V4 MAX 21VR. . . . . . . 2322 574 10402 3419 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3420 VDR 0805 1MA/6V4 MAX 21VR. . . . . . . 2322 574 10402 3421 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3431 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3432 Res. 68ohm, 5%, 0,063W . . . . . . . . 4822 051 30689 3433 Res. 68ohm, 5%, 0,063W . . . . . . . . 4822 051 30689 3436 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3439 Res. 68ohm, 5%, 0,063W . . . . . . . . 4822 051 30689 3440 Res. 68ohm, 5%, 0,063W . . . . . . . . 4822 051 30689 3441 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3442 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3443 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3453 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3470 Res, 330 ohm, 5%, 1/16W. . . . . . . . 4822 051 30331 3472 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3474 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3476 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3478 Res, 470ohm, 5%, 0,062W. . . . . . . . 4822 051 30471 3480 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3481 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3483 560R00 5% 0,062W . . . . . . . . . 4822 051 30561 3484 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3500 Res, 2k7 5% 0,062W . . . . . . . . . 4822 051 30272 3501 Res, 2k7 5% 0,062W . . . . . . . . . 4822 051 30272 3502 Res, 470ohm, 5%, 0,062W. . . . . . . . 4822 051 30471 3503 Res, 220 ohm, 5%, 1/16W. . . . . . . . 4822 051 30221 3504 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3505 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3506 Res, 220 ohm, 5%, 1/16W. . . . . . . . 4822 051 30221 3507 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3509 Res, 470ohm, 5%, 0,062W. . . . . . . . 4822 051 30471 3510 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3511 Res, 470ohm, 5%, 0,062W. . . . . . . . 4822 051 30471 3512 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3513 Res, 470ohm, 5%, 0,062W. . . . . . . . 4822 051 30471 3514 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3524 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3525 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3526 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3527 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3528 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3529 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3537 Res. 68ohm, 5%, 0,063W . . . . . . . . 4822 051 30689 3545 Res. 68ohm, 5%, 0,063W . . . . . . . . 4822 051 30689 3552 Res. 68ohm, 5%, 0,063W . . . . . . . . 4822 051 30689 3555 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3556 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3557 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3558 Res, 22K, 1%, 1/16W, Metalized Glass . 2120 108 93944 3559 Res, 3k9, 5%, 0.063W . . . . . . . . . 4822 051 30392 3560 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3562 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3563 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3564 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3565 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3566 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3567 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3568 Res, 75 ohm, 5%, 1/16W . . . . . . . . 4822 051 30759 3569 Res, 82K, 5%, 1/16W, Metalized Glass . 4822 117 12864 3570 Res, 470k, 5%, 0,062W. . . . . . . . . 4822 051 30474 3571 Res, 82K, 5%, 1/16W, Metalized Glass . 4822 117 12864 3572 Res, 470k, 5%, 0,062W. . . . . . . . . 4822 051 30474 3574 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3575 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3576 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3600 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3601 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3602 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3603 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101



3606 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3607 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3700 Res, 33k, 5%, 0,062W . . . . . . . . . 4822 051 30333 3701 Res, 680 ohm, 5%, 1/16W. . . . . . . . 4822 051 30681 3703 Res, 150K, 5%, 0,062W. . . . . . . . . 4822 051 30154 3705 Res, 18k, 5%, 0,062W . . . . . . . . . 4822 051 30183 3706 Res, 330 ohm, 5%, 1/16W. . . . . . . . 4822 051 30331 3707 Res, 22K, 30%. . . . . . . . . . . . . 4822 100 12158 3709 Res, 18k, 5%, 0,062W . . . . . . . . . 4822 051 30183 3711 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3712 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3716 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3717 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3720 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3721 Res, 270 ohm, 5%, 1/16W. . . . . . . . 4822 051 30271 3722 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3723 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3726 Res, 5k6 5%, 1/16W . . . . . . . . . . 4822 051 30562 3727 Res, 2k7 5% 0,062W . . . . . . . . . 4822 051 30272 3728 Res, 330 ohm, 5%, 1/16W. . . . . . . . 4822 051 30331 3800 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3804 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3805 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3807 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3809 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3810 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3811 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3813 Res, 680k, 5%, 0,062W. . . . . . . . . 4822 051 30684 3815 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3816 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3818 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3819 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3820 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3821 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3822 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3823 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3824 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3825 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3829 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3830 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3831 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3832 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3833 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3834 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3835 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3837 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3838 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3839 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3840 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3841 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3842 Res, 680k, 5%, 0,062W. . . . . . . . . 4822 051 30684 3843 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3844 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3845 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3846 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3847 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3848 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3849 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3850 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3851 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3852 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3853 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3854 Res, 1k, 1%, 1/16W . . . . . . . . . . 5322 117 13018 3855 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3857 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3858 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3859 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3860 Res, 6k8, 5%, 1/16W. . . . . . . . . . 4822 051 30682 3861 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3862 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3865 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3867 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3869 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3870 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3872 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3873 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3874 Res, 12k, 5%, 1/16W. . . . . . . . . . 4822 051 30123 3875 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3876 Res, 330 ohm, 5%, 1/16W. . . . . . . . 4822 051 30331 3877 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3878 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3879 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3880 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3881 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3882 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3883 Res, 330 ohm, 5%, 1/16W. . . . . . . . 4822 051 30331 3885 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3886 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3887 Res, 470k, 5%, 0,062W. . . . . . . . . 4822 051 30474 3888 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3889 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3890 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101

3892 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3893 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3896 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3898 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3899 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3900 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3901 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 3902 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3906 Res, 33k, 5%, 0,062W . . . . . . . . . 4822 051 30333 3907 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3908 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3909 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3911 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3912 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3913 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3914 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3915 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3918 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3919 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3920 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3925 Res, 22 ohm, 5%, 1/16W, Metalized Glass 4822 117 12139 3943 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3944 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3946 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3947 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3948 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 3967 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3968 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3969 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3970 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3971 Res, 33k, 5%, 0,062W . . . . . . . . . 4822 051 30333 3972 Res, 470ohm, 5%, 0,062W. . . . . . . . 4822 051 30471 3973 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3975 Res, 56k, 5%, 0,062W . . . . . . . . . 4822 051 30563 3976 Res, 39k, 5% 0,062W. . . . . . . . . . 4822 051 30393 3977 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3978 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3979 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3980 Res, 33k, 5%, 0,062W . . . . . . . . . 4822 051 30333 3981 Res, 15k, 5%, 1/16W . . . . . . . . . 4822 051 30153 3982 Res, 18k, 5%, 0,062W . . . . . . . . . 4822 051 30183 3983 Res, 56k, 5%, 0,062W . . . . . . . . . 4822 051 30563 3984 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3985 Res, 5k6 5%, 1/16W . . . . . . . . . . 4822 051 30562 3987 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3988 Res, 27k, 5%, 0,062W . . . . . . . . . 4822 051 30273 3989 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3990 Res, 220K, 1%, 1/16W, Metalized Glass. 4822 117 12891 3991 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3992 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3996 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3997 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 4101 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4102 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4320 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4601 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4701 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4702 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4801 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4902 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4903 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4906 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4907 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4970 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 4999 Res, Zero ohm, "Chip" Jumper . . . . . 4822 051 30008 5000 ADJ.COIL (100UH +/-6%) . . . . . . . . 4822 157 11074 5001 ADJ.COIL (100UH +/-6%) . . . . . . . . 4822 157 11074 5002 Coil, 10u. . . . . . . . . . . . . . . 4822 157 11299 5003 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5004 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5400 Coil, 10u. . . . . . . . . . . . . . . 4822 157 11299 5430 Coil, 10u. . . . . . . . . . . . . . . 4822 157 11299 5470 TRANSFORMER 6RG (SAGA) B . . . . . . . 2422 536 00019 5501 Coil, 10u. . . . . . . . . . . . . . . 4822 157 11299 5600 Coil, 10u. . . . . . . . . . . . . . . 4822 157 11299 5601 Cap, 100u. . . . . . . . . . . . . . . 2422 535 94279 5602 Coil, 10u. . . . . . . . . . . . . . . 4822 157 11299 5700 ADJ.COIL (100UH +/-6%) . . . . . . . . 4822 157 11074 5701 Coil, 6,8uH, 5%. . . . . . . . . . . . 4822 157 11775 5703 IND VAR 7MM 7KMY 91MHZ5 B. . . . . . . 2422 549 44544 5705 Coil, 10u. . . . . . . . . . . . . . . 4822 157 11299 5706 Coil, 6,8uH, 5%. . . . . . . . . . . . 4822 157 11775 5707 Coil, 15u. . . . . . . . . . . . . . . 4822 157 11302 5901 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5903 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 5904 BLM11P600SPT . . . . . . . . . . . . . 4822 157 11499 6000 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6100 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6101 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6102 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6103 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6104 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685



6402 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6403 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6405 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6430 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6431 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6432 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6434 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6438 Zener Diode, 6.8 volt. . . . . . . . . 9322 129 38685 6439 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6440 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6441 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6504 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6508 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6509 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6510 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6511 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6512 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6600 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6703 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6802 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6803 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6805 DIO SIG SM BAS385(VISH)R . . . . . . . 9322 150 38685 6807 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6900 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6901 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6902 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6903 Zener Diode, 6.8 volt. . . . . . . . . 9322 146 61685 6970 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6971 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 6972 MCL4148. . . . . . . . . . . . . . . . 4822 130 83757 7000 TRA SIG SM BC857BW (PHSE) R. . . . . . 9340 218 50115 7001 UAD1328T . . . . . . . . . . . . . . . 4822 209 17423 7002 MC33078D . . . . . . . . . . . . . . . 4822 209 62312 7004 IC SM UDA1360TS/N1 (PHSE) R. . . . . . 9352 615 37118 7200 IC SM TSH95D (ST00) R. . . . . . . . . 9322 131 22668 7201 DTC124EU . . . . . . . . . . . . . . . 4822 130 61553 7321 FET SIG SM 2SK2839 (TOSJ). . . . . . . 9322 147 95668 7323 FET SIG SM 2SK2839 (TOSJ). . . . . . . 9322 147 95668 7324 DTC124EU . . . . . . . . . . . . . . . 4822 130 61553 7329 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7330 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7331 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7332 L78M08CV . . . . . . . . . . . . . . . 4822 209 33665 7400 IC SM BA7652AF (RHM0) R. . . . . . . . 9322 143 92668 7401 IC SM BA7652AF (RHM0) R. . . . . . . . 9322 143 92668 7430 BA7623F. . . . . . . . . . . . . . . . 9965 000 02142 7470 PC74HCU04T . . . . . . . . . . . . . . 5322 209 11517 7500 TRA SIG SM BC857BW (PHSE) R. . . . . . 9340 218 50115 7501 TRA SIG SM BC857BW (PHSE) R. . . . . . 9340 218 50115 7502 BC817-25 . . . . . . . . . . . . . . . 4822 130 42804 7503 BC817-25 . . . . . . . . . . . . . . . 4822 130 42804 7504 BC817-25 . . . . . . . . . . . . . . . 4822 130 42804 7505 BC817-25 . . . . . . . . . . . . . . . 4822 130 42804 7507 IC SM STV6410AD (ST00) Y . . . . . . . 9322 135 58671 7514 TRA SIG SM BC857BW (PHSE) R. . . . . . 9340 218 50115 7515 TRA SIG SM BC857BW (PHSE) R. . . . . . 9340 218 50115 7516 BA7623F. . . . . . . . . . . . . . . . 9965 000 02142 7517 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7600 ICSM MSP3445G-QG-B8. . . . . . . . . . 9322 167 64668 7702 DTC124EU . . . . . . . . . . . . . . . 4822 130 61553 7703 IC SM TDA9817T/V1(PHSE) R. . . . . . . 9352 621 13118 7705 BC847C . . . . . . . . . . . . . . . . 5322 130 42755 7706 TRA SIG SM BC857BW (PHSE) R. . . . . . 9340 218 50115 7800 IC SM TL074CD (ST00) R . . . . . . . . 9322 015 84668 7803 IC DIG MOS U COMP 8B . . . . . . . . . 4822 209 16884 7804 TRA SIG SM BC857BW (PHSE) R. . . . . . 9340 218 50115 7805 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7806 TRA SIG SM BC857BW (PHSE) R. . . . . . 9340 218 50115 7807 DTA124EU-W . . . . . . . . . . . . . . 4822 130 60854 7809 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7810 BA7046F. . . . . . . . . . . . . . . . 4822 209 63604 7811 PCF8593T . . . . . . . . . . . . . . . 4822 209 15139 7812 TRA SIG SM BC857BW (PHSE) R. . . . . . 9340 218 50115 7813 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7815 ST24E16M6. . . . . . . . . . . . . . . 4822 209 16954 7816 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7817 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7900 TL7705ACD1013TRA . . . . . . . . . . . 4822 209 16778 7901 PMBT2369 . . . . . . . . . . . . . . . 4822 209 73852 7902 BSH111 . . . . . . . . . . . . . . . . 9340 560 36235 7906 M29F800AT-70N1/AN310308. . . . . . . . 9965 000 16010 7907 IC SM CY62128-70SC(CYPR)R. . . . . . . 9322 161 94668 7970 LM324D . . . . . . . . . . . . . . . . 4822 209 63709 7971 BC638. . . . . . . . . . . . . . . . . 4822 130 41087 7972 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7974 TRA SIG SM BC847BW (PHSE) R. . . . . . 9340 217 70115 7975 BSH111 . . . . . . . . . . . . . . . . 9340 560 36235

Test Discs Test Discs 1000 SUB CHASSIS 8 TEST CD. . . . . . . . . 7104 099 28362 1001 MPTD PRINTED TEST DISC CVP02.18A . . . 7104 099 91691

1002 MPTD PRINTED TEST DISC CVP02.18C . . . 7104 099 97941 1003 BURN-IN TEST DISC DL LVP04.15. . . . . 7104 099 91041 1004 MPTD THIN TEST DISC CVP02.60 . . . . . 7104 099 97931 1005 NLT 01.00 LINK TEST DISC DVDROM SETTING 7104 099 98502 1006 BLANK DVD+RW DISC RICOH. . . . . . . . 7104 099 98582 1007 BLANK DVD+R DISC RICOH . . . . . . . . 7104 099 94001

Basic Engine Mechanical Parts Basic Engine Mechanical Parts 1 LOADER ASSY. . . . . . . . . . . . . . 3104 147 17471 2 PCB ASSY VAE8010, 8015 . . . . . . . . 3104 128 08262 2 PCB ASSY VAE8020/02/03 . . . . . . . . 3104 128 08322 8 TILT GEAR. . . . . . . . . . . . . . . 3104 144 07200 10 TILT MOTOR ASSY. . . . . . . . . . . . 3104 148 01520 11 FAN. . . . . . . . . . . . . . . . . . 3104 148 01780 34 LOADING TRAY MOTOR . . . . . . . . . . 3104 148 01960 46 OPU RACK SLEDGE. . . . . . . . . . . . 3104 144 07244 47 OPU RACK SPRING. . . . . . . . . . . . 3104 141 22833 52 TILT BLADE SPRING. . . . . . . . . . . 3104 141 23380 54 OPU FLEX . . . . . . . . . . . . . . . 3104 157 12392 68 SLEDGE MOTOR ASSY. . . . . . . . . . . 3104 147 17481 100 DVDM/01, LADIC M3,OPU6464.3 EU . . . . 9305 022 82001 100 DVDM/02, LADIC M3,OPU6464.4 US . . . . 9305 022 82002 100 DVDM/03, LADIC M4,OPU6410.1. . . . . . 9305 022 82003 104 SUSPENSION . . . . . . . . . . . . . . 3104 144 06540 105 SUSPENSION . . . . . . . . . . . . . . 3104 144 06540 106 SUSPENSION . . . . . . . . . . . . . . 3104 144 06540 107 SUSPENSION . . . . . . . . . . . . . . 3104 144 06540 108 DVDM MOUNTING SCREW. . . . . . . . . . 3104 140 40650 109 DVDM MOUNTING SCREW. . . . . . . . . . 3104 140 40650 110 DVDM MOUNTING SCREW. . . . . . . . . . 3104 140 40650 111 DVDM MOUNTING SCREW. . . . . . . . . . 3104 140 40650 150 CLAMPER ASSY . . . . . . . . . . . . . 3104 147 15640 151 CLAMPER BRIDGE . . . . . . . . . . . . 3104 144 06910 7 SUB CHASSIS. . . . . . . . . . . . . . 3104 144 06430 43 MOTOR SPRING . . . . . . . . . . . . . 3104 141 21840

Basic Engine Electrical Parts Basic Engine Electrical Parts 0000 S2B CONNECTOR. . . . . . . . . . . . . 2422 025 17276 1100 CON BM H 45P F 0.5 FFC 0.3 R . . . . . 2422 025 17751 1201 RESONATOR 8.467MHz . . . . . . . . . . 2422 540 98428 1300 CONN. 11P FEMALE . . . . . . . . . . . 4822 267 51454 1302 CON BM H 8P F 1.00 FFC 0.3 R . . . . . 2422 025 16158 1303 CON BM H 4P F 1.00 FFC 0.3 R . . . . . 2422 025 17427 1401 RESONATOR 8.467MHz . . . . . . . . . . 2422 540 98428 1402 CON BM H 30P F 1.00 FFC SMT R. . . . . 2422 025 17276 2002 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2003 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2004 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2005 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2008 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2009 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2010 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2011 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2012 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2013 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2014 1uF 20% SM 50V . . . . . . . . . . . . 4822 124 12084 2015 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2016 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2017 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2018 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2019 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2020 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2100 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2101 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2102 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2104 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2105 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2106 27nF 10% 63V . . . . . . . . . . . . . 4822 122 33735 2110 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2111 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2116 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2121 3.3nF 10% 63V. . . . . . . . . . . . . 5322 126 11579 2122 6.8nF 10% 63V. . . . . . . . . . . . . 5322 126 11582 2125 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2127 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2200 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2202 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2203 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2207 Cap, 470n, +80/-20%, 10v, Ceramic. . . 3198 017 44740 2208 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2209 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2210 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2211 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2212 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2214 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2218 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2219 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2220 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2221 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2222 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812



2223 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2224 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2225 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2226 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2227 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2228 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2232 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2233 Cap, 150p, 5%, 50v, Ceramic. . . . . . 4822 122 33753 2234 Cap, 150p, 5%, 50v, Ceramic. . . . . . 4822 122 33753 2300 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2301 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2302 Cap, 47n, 10%, 16v, Ceramic. . . . . . 3198 017 34730 2303 Cap, 4u7, 20%, 35v, Electrolytic . . . 3198 030 74780 2304 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2305 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2309 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2310 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2311 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2312 Cap, 2n2, 5%, 16v, Ceramic . . . . . . 2238 786 11554 2313 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2314 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2315 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2316 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2317 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2318 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2319 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2320 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2321 Cap, 1n, 5%, 25v, Ceramic. . . . . . . 3198 016 31020 2322 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2323 Cap, 22n, 10%, 25V . . . . . . . . . . 4822 126 14494 2324 Cap, 22u, 20%. 35V . . . . . . . . . . 5322 124 41945 2325 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2326 Cap, 15n, 10%, 50v, Ceramic. . . . . . 3198 017 31530 2327 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2328 Cap, 15n, 10%, 50v, Ceramic. . . . . . 3198 017 31530 2329 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2331 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2332 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2333 Cap, 22u, 20%. 35V . . . . . . . . . . 5322 124 41945 2334 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2335 Cap, 2n2, 5%, 16v, Ceramic . . . . . . 2238 786 11554 2336 Cap, 47n, 10%, 16v, Ceramic. . . . . . 3198 017 34730 2337 Cap, 47n, 10%, 16v, Ceramic. . . . . . 3198 017 34730 2338 Cap, 2n2, 5%, 16v, Ceramic . . . . . . 2238 786 11554 2339 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2400 Cap, 10u, 16V. . . . . . . . . . . . . 4822 124 23002 2401 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2402 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2405 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2406 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2407 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2409 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2413 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2414 Cap, 2n2, 5%, 16v, Ceramic . . . . . . 2238 786 11554 2421 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2422 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2423 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2424 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2425 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2426 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2427 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2428 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2429 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2430 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2431 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2432 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 2434 Cap, 10pF 10% 50V. . . . . . . . . . . 4822 122 33741 2435 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2436 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2437 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2438 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2439 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2440 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2441 Cap, 22p, 5%, 50v, Ceramic . . . . . . 4822 122 33761 2446 Cap, 10n, 10%, 50V . . . . . . . . . . 5322 126 11583 2447 Cap, 100n, +80/-20%, 50v, Ceramic. . . 2238 586 59812 3000 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3005 120 ohm 5% 0.062W. . . . . . . . . . . 4822 051 30121 3006 Res, 43 ohm, 1%, 1/16W, Metalized Glass 2322 704 64309 3100 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3101 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3103 47k 1% 0.063W 0603 RC22H . . . . . . . 5322 117 13029 3105 Res, 680 ohm, 5%, 1/16W. . . . . . . . 4822 051 30681 3107 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3108 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3114 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3115 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3121 Res, 680 ohm, 5%, 1/16W. . . . . . . . 4822 051 30681 3122 Res, 1k5, 5%, 1/16W. . . . . . . . . 4822 051 30152 3129 Res, 150k 5% 0.062W. . . . . . . . . . 4822 051 30154 3130 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3132 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917

3200 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3201 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3204 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3205 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3210 NETW 4 X 47ohm 5% MNR14. . . . . . . . 4822 117 13573 3214 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3216 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3217 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3221 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3222 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3224 Res, 1M, 5%, 1/16W, Metalized Glass. . 4822 051 30105 3225 Res, 330 ohm, 5%, 1/16W. . . . . . . . 4822 051 30331 3226 NETW 4 X 47ohm 5% MNR14. . . . . . . . 4822 117 13573 3227 24k 1% 0.62W RC22H 0603. . . . . . . . 4822 117 13525 3231 NETW 4 X 47ohm 5% MNR14. . . . . . . . 4822 117 13573 3235 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3236 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3237 Res, 22k, 5%, 1/16W. . . . . . . . . . 4822 051 30223 3238 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3241 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3244 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3245 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3246 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3249 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3250 Res, 47 ohm, 5%, 1/16W . . . . . . . . 4822 051 30479 3251 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3252 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3253 27k 5% 0.062W. . . . . . . . . . . . . 4822 051 30273 3254 27k 5% 0.062W. . . . . . . . . . . . . 4822 051 30273 3255 27k 5% 0.062W. . . . . . . . . . . . . 4822 051 30273 3256 27k 5% 0.062W. . . . . . . . . . . . . 4822 051 30273 3257 27k 5% 0.062W. . . . . . . . . . . . . 4822 051 30273 3258 27k 5% 0.062W. . . . . . . . . . . . . 4822 051 30273 3259 NETW 4 X 47ohm 5% MNR14. . . . . . . . 4822 117 13573 3260 NETW 4 X 47ohm 5% MNR14. . . . . . . . 4822 117 13573 3261 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3262 Res, 1K2, 5%, 1/16W, Metalized Glass . 4822 117 11817 3264 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3265 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3266 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3267 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3268 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3269 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3270 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3271 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3272 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3274 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3275 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3276 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3277 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3300 2k7 5% 0.062W. . . . . . . . . . . . . 4822 051 30272 3302 2k7 5% 0.062W. . . . . . . . . . . . . 4822 051 30272 3303 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3304 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3305 4.7 ohm 5% 0603 0.0016W. . . . . . . . 4822 117 13608 3307 82 ohm 1% 0.063W 0603 RC22H. . . . . . 5322 117 13068 3308 Res, 1 ohm, 5%, 1/8W, Metalized Glass. 4822 051 20108 3309 Res, 1 ohm, 5%, 1/8W, Metalized Glass. 4822 051 20108 3310 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3311 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3312 Res, 1 ohm, 5% 1/16W . . . . . . . . . 4822 117 12917 3314 Res, 1 ohm, 5%, 1/8W, Metalized Glass. 4822 051 20108 3315 Res, 1 ohm, 5%, 1/8W, Metalized Glass. 4822 051 20108 3316 Res, 2R2, 5%, 1/8W, Metalized Glass. . 4822 051 20228 3317 Res, 2R2, 5%, 1/8W, Metalized Glass. . 4822 051 20228 3318 Res, 2R2, 5%, 1/8W, Metalized Glass. . 4822 051 20228 3319 Res, 2R2, 5%, 1/8W, Metalized Glass. . 4822 051 20228 3320 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3321 56k 5% 0.062W. . . . . . . . . . . . . 4822 051 30563 3323 Res, 2k2, 5%, 1/16W. . . . . . . . . . 4822 051 30222 3324 470 ohm 1% 0.063W 0603 RC22H . . . . . 5322 117 13049 3325 470 ohm 1% 0.063W 0603 RC22H . . . . . 5322 117 13049 3326 470 ohm 1% 0.063W 0603 RC22H . . . . . 5322 117 13049 3327 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3328 470 ohm 1% 0.063W 0603 RC22H . . . . . 5322 117 13049 3329 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3330 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3331 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3332 Res, 20K, 1%, 1/16W, Metalized Glass . 2322 704 62003 3335 82 ohm 1% 0.063W 0603 RC22H. . . . . . 5322 117 13068 3336 Res, 82K, 5%, 1/16W, Metalized Glass . 4822 117 12864 3337 27k 5% 0.062W. . . . . . . . . . . . . 4822 051 30273 3338 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3339 Res, 82K, 5%, 1/16W, Metalized Glass . 4822 117 12864 3340 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3341 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3342 27k 5% 0.062W. . . . . . . . . . . . . 4822 051 30273 3343 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3344 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3345 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3346 470 ohm 1% 0.063W 0603 RC22H . . . . . 5322 117 13049 3347 470 ohm 1% 0.063W 0603 RC22H . . . . . 5322 117 13049



3348 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3351 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3352 Res, 15k, 5%, 1/16W . . . . . . . . . 4822 051 30153 3353 Res, 12k, 5%, 1/16W. . . . . . . . . . 4822 051 30123 3354 Res, 1K2, 5%, 1/16W, Metalized Glass . 4822 117 11817 3355 Res, 3k3, 5%, 1/16W. . . . . . . . . . 4822 051 30332 3356 Res, 4k7, 5%, 1/16W. . . . . . . . . . 4822 051 30472 3357 Res, 100k, 1%, 1/16W . . . . . . . . . 4822 117 13632 3358 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3359 Res, 2K, 1%, 1/16W, Metalized Glass. . 2322 704 62002 3361 56k 5% 0.062W. . . . . . . . . . . . . 4822 051 30563 3362 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3364 2k7 5% 0.062W. . . . . . . . . . . . . 4822 051 30272 3365 2k7 5% 0.062W. . . . . . . . . . . . . 4822 051 30272 3367 470ohm 5% 0.062W . . . . . . . . . . . 4822 051 30471 3369 470ohm 5% 0.062W . . . . . . . . . . . 4822 051 30471 3370 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3400 Res, 1K2, 5%, 1/16W, Metalized Glass . 4822 117 11817 3401 RST NETW SM ARV24 4X1k5 PM5 R. . . . . 2350 035 10152 3407 24k 1% 0.62W RC22H 0603. . . . . . . . 4822 117 13525 3408 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3409 Res, 10k, 5%, 1/16W. . . . . . . . . . 4822 051 30103 3410 RST NETW SM ARV24 4X1k5 PM5 R. . . . . 2350 035 10152 3415 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3416 Res, 1M, 5%, 1/16W, Metalized Glass. . 4822 051 30105 3417 Res, 330 ohm, 5%, 1/16W. . . . . . . . 4822 051 30331 3418 4X10k 5% MNR14 . . . . . . . . . . . . 4822 117 13578 3419 NETW 4 X 47ohm 5% MNR14. . . . . . . . 4822 117 13573 3420 RST NETW SM ARV24 4X jumper R. . . . . 2350 035 91001 3430 4X10k 5% MNR14 . . . . . . . . . . . . 4822 117 13578 3431 NETW 4 X 47ohm 5% MNR14. . . . . . . . 4822 117 13573 3439 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3440 Res, 10 ohm, 5%, 1/16W . . . . . . . . 4822 051 30109 3448 RST NETW SM ARV24 4X jumper R. . . . . 2350 035 91001 3449 NETW 4 X 47ohm 5% MNR14. . . . . . . . 4822 117 13573 3450 NETW 4 X 47ohm 5% MNR14. . . . . . . . 4822 117 13573 3451 Res, 1K2, 5%, 1/16W, Metalized Glass . 4822 117 11817 3463 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3468 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3469 Res, 100 ohm, 5%, 1/16W. . . . . . . . 4822 051 30101 3470 Res, 1k, 5%, 1/16W . . . . . . . . . . 4822 051 30102 3471 Res, 47k, 1%, 1/16W. . . . . . . . . . 4822 117 12925 5100 ADJ.COIL (100?H +/-6%) . . . . . . . . 2422 549 43303 5102 ADJ.COIL (100?H +/-6%) . . . . . . . . 2422 549 43303 5104 ADJ.COIL (100?H +/-6%) . . . . . . . . 2422 549 43303 5201 IND FXD SM EMI 100mHz 30R R. . . . . . 2422 549 43769 5202 IND FXD SM EMI 100mHz 30R R. . . . . . 2422 549 43769 5300 IND FXD SM EMI 100mHz 30R R. . . . . . 2422 549 43769 5301 IND FXD SM EMI 100mHz 30R R. . . . . . 2422 549 43769 5302 IND FXD SM EMI 100mHz 30R R. . . . . . 2422 549 43769 5400 ADJ.COIL (100?H +/-6%) . . . . . . . . 2422 549 43303 5401 IND FXD SM EMI 100mHz 30R R. . . . . . 2422 549 43769 5402 IND FXD SM EMI 100mHz 30R R. . . . . . 2422 549 43769 6301 BAS316 . . . . . . . . . . . . . . . . 4822 130 11397 7000 IC SM LM337D2T (ONSE) R. . . . . . . . 9322 150 89668 7001 IC SM LF33CD (ST00) R. . . . . . . . . 9322 121 67668 7101 IC SM TZA1031HL (PHSE) Y . . . . . . . 9352 688 06157 7200 Transistor, PNP, BC856B. . . . . . . . 4822 130 60373 7201 IC SM ADM810SART (ANA0) Y. . . . . . . 9322 155 26685 7202 FLASH FW15.07.xx VAE8010,8015. . . . . 9965 000 16590 7202 FLASH FW20.09.xx VAE8020/01/02 . . . . 9965 000 16595 7202 FLASH FW20.01.xx VAE8020/03. . . . . . 9965 000 16596 7202 FLASH FW20.02.xx VAE8020/05. . . . . . 9965 000 16597 7203 IC SM SAA7830HL (PHSE) Y . . . . . . . 9352 687 34557 7204 IC SM CY7C1399B-15ZC (CYPR) R. . . . . 9322 036 99685 7205 Transistor, PNP, BC856B. . . . . . . . 4822 130 60373 7301 BA6665FM . . . . . . . . . . . . . . . 9322 139 85668 7302 BA5938FM . . . . . . . . . . . . . . . 4822 209 17229 7304 LM833D . . . . . . . . . . . . . . . . 4822 209 30095 7306 IC SM BA5944FP (RHM0) R. . . . . . . . 9322 166 66668 7308 FET POW SM BSH205 (PHSE) R . . . . . . 9340 547 21215 7309 Transistor, NPN, BC846B. . . . . . . . 5322 130 60159 7310 Transistor, NPN, BC846B. . . . . . . . 5322 130 60159 7311 Transistor, NPN, BC846B. . . . . . . . 5322 130 60159 7312 IC SM LD1117DT (ST00) R. . . . . . . . 9322 144 97668 7401 IC SM AWESOME2 (NEC0) Y. . . . . . . . 9322 180 17671 7401 IC SM AWESOME3 (NEC0) Y. . . . . . . . 9322 189 16671 7402 IC SM SAA7831HL (PHSE) Y . . . . . . . 9352 687 36557


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Philips DVDR985 2022