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DVD-Video Recorder
DVDR3305/02/05/19/51
DVDR3355/02/05/19/51 & DVDR3365/02/05/19/51
Back End Repair
CLASS 1 LASER PRODUCT
Contents
1 2 3 4 5 6 Technical Specifications and Connection Facilities Safety Information, General Notes & Lead Free Requirements Directions for Use Mechanical Instructions Upgrade Software & Repair Chart Block Diagrams,Waveforms, Wiring Diagram Overall block diagram Control block diagram Wiring diagram Waveforms of Analog Board Waveforms of Digital Board Test Point Overview for Analog Board Test Point Overview for Digital Board Circuit Diagram and PWB Layout Analog: Frontend Video (FV) Analog: Video In / Out (IOV) Analog: Audio In / Out (IOA) Analog: Power Supply (PS) Analog: Multi Sound Processing (MSP) Analog: Audio Converter (DAC_ADC) Analog: Digital In / Out 1 (DIGIO 1) Layout: Analog-Main Part (Top View) Layout: Analog-Main Part (Bottom View) Front: Front Panel
Page
2 5 7 9 12 19 19 20 21 22 23 24 25 26 26 27 28 29 30 31 32 33 34 35
Contents
Front: Front Panel Layout: Front Panel (Top View) Front: Standby Layout: Standby (Top View) Digital: Back-end Processor Digital: Memory Digital: IEEE 1394 Physical Layer Digital: Video Input Processor Digital: Interfaces Layout: Digital-Main Part (Top View) Layout: Digital-Main Part (Bottom View) 8 Circuit- and IC Description Front Board (Panel Display + Key) Analog Board Digital Board IC Description Analog Board Digital Board 9 Exploded View & Spare Parts List Exploded View of the set Spare Parts List 10 Revision List
Page
36 37 38 38 39 40 41 42 43 44 45 47 47 47 52 55 55 60 71 71 72 73
7
©Copyright 2005 Philips Consumer Electronics B.V. Eindhoven, The Netherlands. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips. Published by KC-TE 0530 AV Systems Printed in the Netherlands Subject to modification EN 3139 785 30931
Version 1.1
EN 2
1.
3139 785 3093x
Technical Specifications and Connection Facilities
1.
1.1
Technical Specifications and Connection Facilities
PCB Locations
Front boards (Behind the metal bracket)
Analog Board
Digital Board
Basic Engine
1.2
General:
Mains voltage Mains frequency Power consumption (typical) Standby Power Consumption : : : : 220V 240V 50 Hz 25 W <4W
1.3.4
Video Performance: Channel 25 / 503,25 MHz, Test pattern: PAL BG PHILIPS standard test pattern, RF Level 74dBV Measured on SCART 1 Frequency response : 0.1 4.00 MHz ± 3dB Group delay (0.1 MHz - 4.4 MHz) : 0 nsec ± 150 nsec
1.3
RF Tuner
Test equipment: Fluke 54200 TV Signal generator Test streams: PAL BG Philips Standard test pattern 1.3.5
Audio Performance: Audio Performance Analogue - HiFi: Frequency response at SCART 1 (L+R) output : 100 Hz 12 kHz / 0 ± 3dB S/N according to DIN 45405, 7, 1967 and PHILIPS standard test pattern video signal : 50dB, unweighted Harmonic distortion (1 kHz, ± 25 kHz deviation) : 1.5% Audio Performance NICAM: Frequency response at SCART 1 (L+R) output
1.3.1
System PAL B/G, PAL D/K, SECAM L/L', PAL I
1.3.2
RF - Loop Through: Frequency range Gain: (ANT IN - ANT OUT) : 45 MHz 860 MHz : -6dB to 0dB
1.3.3
Receiver: PLL tuning with AFC for optimum reception Frequency range : 45.25 MHz 857 MHz Sensitivity at 40dB S/N : 60dBV at 75 (video unweighted)
: 40 Hz 15 kHz / 0 ± 3dB
S/N according to DIN 45405,7,1967 and PHILIPS standard test pattern video signal : 60dB, unweighted Harmonic distortion (1kHz) : 0.5%
Technical Specifications and Connection Facilities
1.3.6 Tuning Automatic Search Tuning Scanning time without antenna Stop level (vision carrier) Maximum tuning error of a recalled program Maximum tuning error during operation : typ. 3 min. : 37dBV : ± 62.5 kHz : ± 100 kHz 1.4.3
3139 785 3093x
1.
EN 3
Audio/Video Front Input Connectors Audio - Cinch Input voltage Input impedance Video - Cinch Input voltage Input impedance : 2.2Vrms : > 10k : 1Vpp ± 3dB : 75
Tuning Principle Automatic B, G, I, DK and L/L' detection Manual selection in "STORE" mode
1.4
1.4.1
Analogue Inputs / Outputs
SCART 1 (Connected to TV) Pin Signals: 1 - Audio R 2 - Audio R 3 - Audio L 4 - Audio GND 5 - Blue / GND 6 - Audio L 7 - Blue out 8 - Function switch 9 10 11 12 13 14 15 16 17 18 19 20 21 - Green GND - NC - Green - NC - Red GND - Fast switch GND - Red out - Fast switch RGB / CVBS - CVBS GND OUT - CVBS GND IN - CVBS out - CVBS in - Shield 1.8V RMS 1.8V RMS
Video - YC (Hosiden) According to IEC 933-5 Superimposed DC-level on pin 4 (load > 100k) < 2.4V is detected as 4:3 aspect ratio > 3.5V is detected as 16:9 aspect ratio Input voltage Y : 1Vpp ± 3dB Input impedance Y : 75 Input voltage C : burst 300mVpp ± 3dB Input impedance C : 75 1.4.4 Audio/Video Output rear Connectors Audio - Cinch Output voltage Output impedance Video - Cinch Output voltage Output impedance : 2Vrms max. : > 10k : 1Vpp ± 3dB : 75
< 2V = TV > 4.5V / < 7V = asp. Ratio 16:9 DVD > 9.5V / < 12V = asp. Ratio 4:3 DVD 0.7Vpp ± 0.1V into 75 (*)
0.7Vpp ± 0.1V into 75 (*) < 0.4V into 75 = CVBS >1V / < 3V into 75 = RGB 1Vpp ± 0.1V into 75 (*) 1.5.1
Video - YC (Hosiden) According to IEC 933-5 Superimposed DC-level on pin 4 (load > 100k) < 2.4V is detected as 4:3 aspect ratio > 3.5V is detected as 16:9 aspect ratio Output voltage Y : 1Vpp ± 10/-15% Output voltage C : 300mVpp ± 1/-4dB
1.5
Video Performance
All outputs loaded with 75 SNR measurements over full bandwidth without weighting. SCART (RGB) SNR Bandwidth : > -65dB on all output : 4.8MHz ± 2dB
1.4.2
SCART 2 (Connected to AUX) Pin Signals: 1 - Audio R 2 - Audio R 3 - Audio L 4 - Audio GND 5 - Blue GND 6 - Audio L 7 - Blue in 8 - Function switch 9 - Green GND 10 - NC 11 - Green in 12 - NC 13 - Red GND 14 - Fast switch GND 15 - Red in 16 - Fast switch RGB / CVBS 17 - CVBS GND OUT 18 - CVBS GND IN 19 - CVBS / RGB out sync 20 - CVBS in 21 - Shield (*) for 100% white 1.8V RMS 1.8V RMS
1.6
1.6.1
Audio Performance CD
Cinch Output Rear Output voltage 2 channel mode Channel unbalance (1kHz) Crosstalk 1kHz Crosstalk 16Hz-20kHz Frequency response 20Hz-20kHz Signal to noise ratio Dynamic range 1kHz Distortion and noise 1kHz Distortion and noise 16Hz-20kHz Intermodulation distortion Mute Outband attenuation: : : : : : : : : : : : : 2Vrms ± 2dB < 1dB > 95dB > 87dB ± 0.2dB max > 85dB > 83dB > 83dB > 75dB > 70dB > 95dB > 40dB above 30kHz
1Vpp ± 0.1V into 75 (*)
EN 4
1.6.2
1.
Scart Audio
3139 785 3093x
Technical Specifications and Connection Facilities
Output voltage 2 channel mode Channel unbalance (1kHz) Crosstalk 1kHz Crosstalk 16Hz-20kHz Frequency response 20Hz-20kHz Signal to noise ratio Dynamic range 1kHz Distortion and noise 1kHz Distortion and noise 16Hz-20kHz Intermodulation distortion Mute Outband attenuation:
: : : : : : : : : : : :
1.6Vrms ± 2dB < 1dB > 85dB > 70dB ± 0.2dB max > 80dB > 75dB > 75dB > 50dB > 70dB > 80dB > 40dB above 25kHz
1.7
1.7.1
Digital Output
Coaxial CDDA / LPCM (incl MPEG1) MPEG2, AC3 audio DTS : according IEC958, IEC60958-1,-3 : according IEC1937, IEC61937 : according IEC1937, IEC 61937 amendment 1
1.8
1.8.1
Digital Video Input (IEEE 1394)
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 using 6.3 mm magnetic tape - dec. 1994 Annex A of 61883-1
1.9
Dimensions and Weight
Height of feet Apparatus tray closed Apparatus tray open Weight without packaging Weight with packaging : : : : : 5.5mm WxDxH:435x285x65mm WxDxH:435x422x65mm app. 4.0kg ± 0.5kg app. 6kg
1.10 Laser Output Power & Wavelength
1.10.1 DVD Output power during reading Output power during writing Wavelength 1.10.2 CD Output power Wavelength : 0.3mW : 780nm : 0.8mW : 20mW : 660nm
Safety Information, General Notes & Lead Free Requirements
3139 785 3093x
2.
EN 5
2.
2.1
2.1.1
Safety Information, General Notes & Lead Free Requirements
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 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 the wires/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 the mains plug and the secondary side: 1. Unplug the mains 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 mains plug and the front panel, controls, and chassis bottom. 4. Repair or correct unit when the resistance measurement is less than 1 M. 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.
2.2
2.2.1
Warnings
General · All ICs 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 wristband 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. Wristband tester 4822 344 13999. Be careful during measurements in the live voltage section. The primary side of the power supply, 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 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'.
·
· 2.2.2
Laser · · The use of optical instruments with this product, will increase eye hazard. Only qualified service personnel may remove the cover or attempt to service this device, due to possible eye injury. Repair handling should take place as much as possible with a disc loaded inside the player. Text below is placed inside the unit, on the laser cover shield:
2.1.2
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 Type Wavelength Output Power : Semiconductor laser GaAlAs : 650 nm (DVD) : 780 nm (VCD/CD) : 20 mW (DVD+RW writing) : 0.8 mW (DVD reading) : 0.3 mW (VCD/CD reading) : 60 degree ·
CAUTION VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID EXPOSURE TO BEAM ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING VED ÅBNING UNDGÅ UDSÆTTELSE FOR STRÅLING ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING NÅR DEKSEL ÅPNES UNNGÅ EKSPONERING FOR STRÅLEN VARNING SYNLIG OCH OSYNLIG LASERSTRÅLNING NÄR DENNA DEL ÄR ÖPPNAD BETRAKTA EJ STRÅLEN VARO! AVATTAESSA OLET ALTTIINA NÄKYVÄLLE JA NÄKYMÄTTÖMÄLLE LASER SÄTEILYLLE. ÄLÄ KATSO SÄTEESEEN VORSICHT SICHTBARE UND UNSICHTBARE LASERSTRAHLUNG WENN ABDECKUNG GEÖFFNET NICHT DEM STRAHL AUSSETSEN DANGER VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID DIRECT EXPOSURE TO BEAM ATTENTION RAYONNEMENT LASER VISIBLE ET INVISIBLE EN CAS D'OUVERTURE EXPOSITION DANGEREUSE AU FAISCEAU
Figure 2-2 2.2.3 Notes Dolby Manufactured under licence from Dolby Laboratories. "Dolby", "Pro Logic" and the double-D symbol are trademarks of Dolby Laboratories. Confidential Unpublished Works. ©1992-1997 Dolby Laboratories, Inc. All rights reserved.
Beam divergence
CLASS 1 LASER PRODUCT
Figure 2-1 Note: Use of controls or adjustments or performance of procedure other than those specified herein, may result in hazardous radiation exposure. Avoid direct exposure to beam.
Figure 2-3 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 2-4
EN 6
2.
3139 785 3093x
Safety Information, General Notes & Lead Free Requirements
Due to lead-free technology some rules have to be respected by the workshop during a repair: · Use only lead-free solder alloy Philips SAC305 with order code 0622 149 00106. If lead-free solder-pate is required, please contact the manufacturer of your solder-equipment. In general use of solder-paste within workshops should be avoided because paste is not easy to store and to handle. · Use only adequate solder tools applicable for lead-free solder alloy. The solder tool must be able o To reach at least a solder-temperature of 400°C, o To stabilize the adjusted temperature at the solder-tip o To exchange solder-tips for different applications. · Adjust your solder tool so that a temperature around 360°C 380°C is reached and stabilized at the solder joint. Heating-time of the solder-joint should not exceed ~ 4 sec. Avoid temperatures above 400°C otherwise wear-out of tips will rise drastically and flux-fluid will be destroyed. To avoid wear-out of tips switch off un-used equipment, or reduce heat. · Mix of lead-free solder alloy / parts with leaded solder alloy / parts is possible but PHILIPS recommends strongly to avoid mixed solder alloy types (leaded and lead-free). If one cannot avoid or does not know whether product is lead-free, clean carefully the solder-joint from old solder alloy and re-solder with new solder alloy (SAC305). · Use only original spare-parts listed in the Service-Manuals. Not listed standard-material (commodities) has to be purchased at external companies. · Special information for BGA-ICs: - always use the 12nc-recognizable soldering temperature profile of the specific BGA (for de-soldering always use the lead-free temperature profile, in case of doubt) - lead free BGA-ICs will be delivered in so-called `drypackaging' (sealed pack including a silica gel pack) to protect the IC against moisture. After opening, dependent of MSL-level seen on indicator-label in the bag, the BGA-IC possibly still has to be baked dry. (MSL=Moisture Sensitivity Level). This will be communicated via AYSwebsite. Do not re-use BGAs at all. · For sets produced before 1.1.2005 (except products of 2004), containing leaded solder-alloy and components, all needed spare-parts will be available till the end of the service-period. For repair of such sets nothing changes. · On our website www.atyourservice.ce.Philips.com you find more information to: BGA-de-/soldering (+ baking instructions) Heating-profiles of BGAs and other ICs used in Philips-sets
Video Plus "Video Plus+" and "PlusCode" are registered trademarks of the Gemstar Development Corporation. The "Video Plus+" system is manufactured under licence from the Gemstar Development Corporation.
Figure 2-5 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 authorized 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.
2.3
Lead Free Requirement
Information about Lead-free produced sets Philips CE is starting production of lead-free sets from 1.1.2005 onwards. INDENTIFICATION: Regardless of special logo (not always indicated) One must treat all sets from 1 Jan 2005 onwards, according next rules.
Example S/N:
Bottom line of typeplate gives a 14-digit S/N. Digit 5&6 is the year, digit 7&8 is the week number, so in this case 1991 wk 18 So from 0501 onwards = from 1 Jan 2005 onwards
You will find this and more technical information within the "magazine", chapter "workshop news". For additional questions please contact your local repair-helpdesk.
Important note: In fact also products of year 2004 must be treated in this way as long as you avoid mixing solder-alloys (leaded/ lead-free). So best to always use SAC305 and the higher temperatures belong to this.
Directions For Use
3139 785 3093x
3.
EN 7
3.
Directions For Use
The following except of the Quick Use Guide serves as an introduction to the set. The Complete Direction for the Use can be downloaded in different languages from the internet site of Philips Customer care Center: www.p4c.philips.com
QUICK START GUIDE 1 what's in the box
A Main Unit B Remote
Control
includes 2x AA batteries
DVDR3365
12nc: 3139 246 15861
3 Start initial setup
3a
Press STANDBY-ON 2 on the DVD recorder to turn it on. Note: For successful installation, your cable/satellite box must be turned on.
C RF coaxial
cable
D Scart cable
3b
Turn on the TV to the correct programme channel for the input socket (`EXT', `0', `AV').
The blue PHILIPS DVD background screen will appear on the TV.
2 connect DVD recorder
System Menu - General
3c
Press SYSTEM MENU on the remote control.
Use 3 4 keys to go through the menu. Select an item by pressing 2, and confirm a setting by pressing OK.
2a 2c 2b
Screen Saver Country Video Output Format Restore Factory Settingd
On
Germany
3d
PAL OK
Highlight and press 2. Select the country of your residence..
Select { Country } and press OK on the remote control.
System Menu - Channel Setup
Channel Search
Search
3e
Modify Channel Information Edit
Highlight and press 2. Setup and install TV channels.
Select { Channel Search } and press OK on the remote control to start automatic TV channel search.
2d
DVD recorder back panel
Sort Channel
Sort
2a 2b 2c 2d
Connect existing antenna cable/satellite signal (or from the Cable/Satellite Box [RF OUT or TO TV]) to the ANTENNA input socket at the back of the DVD recorder. Use the supplied RF coaxial cable to connect the DVD output socket to your TV's antenna recorder's TV input socket. Use the supplied Scart cable to connect the DVD recorder's EXT 1 TO TV-I/O socket to the matching SCART input socket at the back of your TV. Connect the power cable from the DVD recorder's ~ MAINS to the AC power outlet. Helpful Hint: For additional connection diagrams, see User Manual pages 12~19.
System Menu - Language
On Screen Display Language English Default Disc Menu LanguageEnglish Default Subtitle Language Default Audio Language
English English
3f
Highlight and press 2. Select the language.
select TV On-Screen Display language. select default Disc Menu language. select default subtitle language. select default audio language.
System Menu - Clock
Date (dd/mm/yy) Time (hh:mm:ss}
31/01/05 10 : 33 : 57 OK
3g
Highlight and press 2. Set the Date and Time.
Use the numeric keypad 0-9 to input the date/time, then press OK to confirm.
Show DivX® Registration Code
3h
Press SYSTEM MENU to exit.
The DVD recorder is ready for use!
See next page for basic recording and playback.
EN 8
3.
3139 785 3093x
Directions For Use
4 start manual recording
4a
Insert a recordable DVD+R/+RW with the label facing up.
5 start playback
To playback a disc
5a
Insert a disc with the label side facing up.
4b
SUPER VIDEO
To record TV programme, press REC SOURCE to select { Tuner }. To record from an external device connected to this DVD Recorder, press REC SOURCE repeatedly to select the corresponding external input channel : { Front CVBS } { Front S-Video }, { DV }, { EXT 2 }.
5b
If a disc menu appears, use 1 2 3 4 keys to navigate within the menu, highlight a title and press OK to start playback.
Playback may start automatically. If not, press PLAY 2.
5c
To stop playback, press STOP 9.
4c
Press REC MODE to select a desired recording mode. It defines the picture quality and the maximum recording time for a disc.
Record Mode 1 Hour Mode 2 Hour Mode 4 Hour Mode 6 Hour Mode
To watch the TV programmes
Maximum Recording Time per Disc 1 hour 2 hours 4 hours 6 hours
Picture Quality High quality DVD quality-Standard Play VHS quality-Extended Play VHS quality-Super Long Play
5d
Press REC SOURCE to select { Tuner }, then use 3 4 keys to select the programme number.
4d
Press REC 0 to start recording.
· ·
GET PICTURE
Check the AV mode on TV. It may be called FRONT, A/V IN, or VIDEO. Choose the different modes using TV remote control. Or, use the TV remote control to select Channel 1 on TV, then press Channel down button until you get the picture. See your TV manual for more details.
4e
To pause the recording, press ;. To resume recording, press REC 0. To stop the recording, press STOP 9.
·
· ·
GET SOUND
Use the supplied scart cable to connect the DVD recorder to your TV, the picture and sound will output through the TV. Or, connect the AUDIO L/R (red/white) sockets at the back of the DVD recorder to the corresponding AUDIO input sockets on a TV, stereo system or receiver. Turn on the connected system and select the appropriate channel.
Wait until the message disappears from the display panel before you remove the disc.
NEED HELP? Read the accompanying User Manual or visit our website www.philips.com/support
Mechanical Instructions
3139 785 3093x
4.
EN 9
4.
4.1
Mechanical Instructions
Dismantling and Assembly of the Set
For item numbers please see the exploded view in Chapter 9. 4.1.2 Dismantling of the Front Panel Assembly 1) Remove the 3 screws 188 and release the 2 snap hooks on the side before removing the front assembly. 1
4.1.1
Dismantling of the DVD Loader Tray Cover 1) Inserting a minus screw driver and push the lever in the direction as shown in Figure 4-1 to unlock the tray before sliding it out.
Figure 4-1 2) Remove the Tray Cover as shown in Figure 4-2.
Figure 4-3 2) Remove the 5 screws 186 to remove the front plate 184 as shown in Figure 4-4.
Figure 4-2
2
2 Figure 4-4
EN 10
4.1.3
4.
3139 785 3093x
Mechanical Instructions
4.1.4 Dismantling of the Digital Board 1) Remove the 4 screws 272 to loose the Digital Board as shown in Figure 4-7.
Dismantling of the Basic Engine 1) Remove the Cover Tray (See 4.1.1). 2) Remove the 4 screws 260 to free the Basic Engine.
3
4
3
4
Figure 4-5 3) Place the Basic Engine in the service position by flipping the basic engine to the vertical position
Figure 4-7 2) Service Position can be achieved by flipping the Digital board to the Vertical Position as shown in Figure 4-8.
Figure 4-6
Figure 4-8 Note: The cable (just to transfer the service connection to the analog board) from socket 1101 can be removed and use for hyperterminal connection.
Mechanical Instructions
4.1.5 Dismantling of the Analog Board 1) Remove 5 screws 244 and 4 screws 252 and screw 230. 2) Remove 4 screws 270 and 3 screws 268. 3) Service Position can be achieved by flipping the analog board to the Vertical Position as shown in Figure 4-9.
3139 785 3093x
4.
EN 11
Figure 4-9 Note: Please cover the Live Area during trouble-shooting. (Figure 4-10)
Figure 4-10
Figure Live Area
EN 12
5.
3139 785 3093x
Upgrade Software & Repair Chart
5.
5.1
Upgrade Software & Repair Chart
Upgrade Software A. Preparation to upgrade firmware:
1. Unzip the zip-archive file 2. Start the CD Burning software and create a new CD project (data disc) with the following settings: File system : Joliet Format : MODE 1: CDROM Recording mode : SINGLE SESSION (TRACKAT-ONCE), FINALIZED CD Note: Long file name is necessary for the preparation of the upgrade disc 3. Place the content of the zip-archive into the root directory of the new CD project. 4. Burn the data onto a blank CDR or CD-RW
C. How to Restore Factory setting (Default setting)
1. Power up the set and with no disc in the tray 2. Press and 4x buttons on the Remote control to reach the Restore Factory setting option. 3. Press button and the TV connected to the set will display: System will reset to the Factory settings. Select OK to confirm or CANCEL to exit. 4. Select OK or CANCEL with the or button and press button to confirm. Note: All customers' settings will be lost.
B. Procedure to apply the firmware upgrade:
1. Power up the set and open tray. 2. Insert the prepared Upgrade CDROM and close the tray. 3. The TV connected to the set will display: Software Upgrade Disc detected Select OK to start or CANCEL to exit 4. Select OK or CANCEL with the or button and press button to confirm. 5. The TV connected to the set will display: Upgrading Software, Please wait Do not switch off the power 6. When the upgrading process is successful the tray will open and the TV connected to the set will display: System is successfully upgraded. Remove disc from tray & reset system 7. Remove the Upgrade Disc and press button on Remote control to confirm 8. The TV screen goes blank and the Philips Logo screen appear again after the tray door has closed.
D. How to read out the firmware version to confirm set has been upgraded.
1. Power up the set and with no disc in the tray 2. Press <0009> and buttons on the Remote control 3. The TV connected to the set will display: DVDR3365_75_BT3_2, Drive: 43.02.11 Build: FAE6206 Apr 21 2005, 18:49:43 where DVDR3365_75 = Type/version BT3_2 = Application (Backend) firmware version 43.02.11 = Drive (Basic Engine) firmware version
Upgrade Software & Repair Chart 5.2 Repair Chart
3139 785 3093x
5.
EN 13
5.2.1 Completely Dead Set
EN 14
5.
3139 785 3093x
Upgrade Software & Repair Chart
5.2.2 Cannot Read Disk
5.2.3 Disk Unknown
Upgrade Software & Repair Chart 5.2.4 Audio No Sound (Playback)
3139 785 3093x
5.
EN 15
EN 16
5.
3139 785 3093x
Upgrade Software & Repair Chart
5.2.5 Audio No Sound (TV & External Source)
Upgrade Software & Repair Chart 5.2.6 No Video Out Upon Power ON (Assume set is not dead)
3139 785 3093x
5.
EN 17
EN 18
5.
3139 785 3093x
Upgrade Software & Repair Chart
5.2.7 No Video In Only
5.2.8 Tuner Not Functioning
Block Diagrams, Waveforms, Wiring Diagram.
3139 785 3093x
6.
EN 19
6.
Block Diagrams, Waveforms, Wiring Diagram
Overall Block Diagram of the Set
Front Keyboards
CONTROL LINES
1201
CONTROL LINES, AND SUPPLY LINES
ANALOG BOARD
1922
AFCRI AFCLI CVBSFIN
9 7 5 4 3 2 1
CONTROL UNIT SLAVE MICROPROCESSOR VPD 16316GB-006
AUDIO L
CFIN YFIN
AUDIO R
1803
CONTROL LINES SCK,D_FM,D_HOST,RDY_FM,ATN_FM,HOST_RESET
CVBS
ANALOG AUDIO / VIDEO
S-VIDEO
7 9 11 12 13 14 15
1204
AINFR AINFL CVBSFIN
CFIN
21
YFIN
19
DIGITAL BOARD - DIMENSION
1551
1800
INPUT/OUTPUT PROCESSING & SOURCE SELECTION
TV-I/O
For Digital Video version only
1205
2 1
Digital Video Input IEEE1394
6
PHY
1512
FLASH
12 14 16 18 20 22
YUV-YC-CVBS
F439 F440 F441 F442 F443 F444
D_CVBS D_Y D_C D_V D_Y1 D_U
EXT1
1522
CVBS-YUV-Y/C
1
A_V A_U A_Y A_C
F438
21 19
ANALOG VIDEO
3 5 7 9
DVD+RW ENGINE D4.3
1600-1
A_YCVBS
DIG.VIDEO
1571
DOMINO DMN-8602 MPEG 2, AC3 CODEC TRAY CONTROL SERVO DISC
LASER
VIDEO INPUT PROCESSING
DIGITAL AUDIO DIGITAL AUDIO
AUX-I/O
1536
A_xCLK
21 20 18
A_BCLK A_WCLK A_DATA
1600 AUDIO ENCODER I2S
ADC
2 1
IDE BUS
40
IDE BUS
16 A_PCMCLK
D_xCLK
14 12
D_BCLK D_WCLK
11 D_DATA0 D_PCMCLK 9 D_KILL 7
DAC
AUDIO PCM I2S
EXT2
READ DDRAM WRITE
I2C
2
SPDIF_OUT
EEPROM
(OPTION)
RS232
1111
-5V GND ION +5V GND GND +12V GND +3V3 +3V3 +3V3 +3V3
S-VIDEO
CVBS
1501
A/V OUT
12 GND +12V GND +5V
1
AUDIO L/R
SERVICE
1600-2
PSU
PSU
12 5N GND 1 5V GND GND 12V GND 3V3 3V3 3V3 3V3
RF IN - ANTENNA
BUFFER
1403
TUNER
RF OUT - TV (LOOP THROUGH) DIGITAL AUDIO OUT
1934
FAN
(OPTION)
POWER SUPPLY
1804
MAINS AC
Block Diagrams, Waveforms, Wiring Diagram.
3139 785 3093x
6.
EN 20
Control Block Diagram Control Block Diagram Analog Board
FAN_CTRL
Fan
RC
Front Keys
2 I2C 3V3 INT I2C Bus Repeater Reset ASP Analog Slave Processor NEC uPD-16316GBT 2 1
1
2
35
HOST_Reset I2C 5V
DIGITAL BOARD DIMENSION
>=1 Reset 5VSTBY Supply VFT Display FRONT Board
DVDR
IDE0
Multi Sound Processor MSP34x5
RSA1,RSA2
Audio Switches HEF4052B
>=1 KILL AKILL
POWER_FAIL Frontend Tuner AIN_SEL0, AIN_SEL1 STBY
D_KILL
>=1 KILL BKILL
Power Supply
Block Diagrams, Waveforms, Wiring Diagram.
3139 785 3093x
6.
EN 21
Wiring Diagram
Interconnection Diagram Architecture
MAINS CORD 1 2 MAINS P MAINS L 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 AIO 1600 GND DAOUT GND DAINOPT NO_CONNECT DAINCOAX MUTE GND D_PCMCLK GND D_DATA0 D_WLCK GND D_BLCK GND A_PCMCLK GND A_DATA GND A_WCLK A_BCLK GND 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 COM 1800 GND SCL0 SDA0 RDY_FM D_FM D_HOST GND SCK ATN_FM HOST_RESET CVBS_Y SW AIN_SEL0 AIN_SEL1 TU_DET FAN CTRL FBIN SC 2 pin 8_1 SC 2 pin 8_2 RC GND 1205 VIO 1206 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 A_YG GNDV A_UB GNDV A_VR GNDV Y_FIN GNDV C_FIN CVBS_FIN GNDV C_REAR GNDV Y_REAR GNDV CVBS_REAR GNDV CVBS_TU GNDV D_CVBS GNDV D_C GNDV D_Y GNDV D_VR GNDV KB_FC 1802 FAN 1803 1 2 FAN_P FAN_N FRONT PCB KB_FC 1201
PDUDIG 1401 1 2 3 4 5 6 7 8 9 10 11 12 3V3 3V3 3V3 12VEF GND 12V GND GND 5V 5V GND 5N
24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
14 13 12 11 10 9 8 7 6 5 4 3 2 1
GND SCK D_FM D_HOST GND RDY_FM ATN_FM HOST_RESET RC_IN 5VSTBY STBY(POWER_CTRL) IPFAIL VGNSTBY 12VSTBY PSUDRIVE 1402
8008 tbc mm
1 2 3 4
12VE GND GND 5VE
1 2 3 4 5 6 7 8 9
IPFAIL 1205 YFIN GND CFIN GND CVBS_FIN GND AL_FIN GND AINFR
to be confirmed if 8008 and 8013 needs to be combined
14 13 12 11 10 9 8 7 6 5 4 3 2 1
GND SCK D_FM D_HOST GND RDY_FM ATN_FM HOST_RESET RC_IN 5VSTBY STBY(POWER_C IPFAIL VGNSTBY 12VSTBY FAV 1300 YFIN GND CFIN GND CVBS_FIN GND AL_FIN GND AR_FIN
8013 tbc mm
ANALOG BOARD
1 2 3 4 5 6 7 8 9
D_YG
GNDV D_UB
Not for DVDR 3305 8001 120mm 8002 140mm 8003 140mm Front DV-In 8007 180m
Drive PSUDRIVE JST LC 1 2 3 4 12VE GND GND 5VE
to be confirmed if 8011 and 8012 needs to be 8012 140mm
USB 1401/1402 1 2 3 4 5VUSB1 USB1_D+ USB1_DGND For DVDR 3365 only
PSDIG 1501 1 2 3 4 5 6 7 8 9 10 11 12 3V3 3V3 3V3 3V3 GND 12V GND GND 5V 5V GND NC
AIO 1536 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 GND BCKI WCKI GND DAI (0) GND MCKI GND BCKO GND WCKO DAO (0) GND MCKO GND MUTE NC NC NC GND SPO GND
COM 1551 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 GND SCL0 SDA0 RDY_FM D_FM D_HOST GND FPSCK ATN_FM HOST_RESET VIOSW AIN_SEL0 AIN_SEL1 COM_ARST FAN CTRL FBIN SBS0 SBS 1 FPIR GND
1522 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
VIO 1521 VIA_GY GNDV VIA_BPb GNDV VIA_RPr GNDV VIA_SY_FR GNDV VIA_SC_FR VIA_CVBS_FR GNDV VIA_SC_RE GNDV VIA_SY_RE GNDV VIA_CVBS_RE GNDV VIA_CVBS_TU GNDV VOA_CVBS GNDV VOA_SC GNDV VOA_SY GNDV VOA_RPr GNDV
IDE_ 1571
IDE_
DIGITAL BOARD
24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
1 2 3 4 5 6 7 8
PH2mm 1512 1 2 3 4 5 6 TPBn TPB GND TPAn TPA GND 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
RESETn
GND DD[7] DD[8] DD[6] DD[9] DD[5] DD[10] DD[4] DD[11] DD[3] DD[12] DD[2] DD[13] DD[1] DD[14] DD[0] DD[15] GND Keypin DMARQ GND DIOW_n GND DIOR_n GND IORDY CSEL DMACK_n GND INTRQ IOCS16 DA1 PDIAG_n DA0 DA2 CS0_n CS1_n DASP_n GND
8010 280mm
VOA_GY
GNDV VOA_BPb 1 2 3 4
USB 1502 5VUSB1 USB1_D+ USB1_DGND
For DVDR 3365 only
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
RESETn GND DD[7] DD[8] DD[6] DD[9] DD[5] DD[10] DD[4] DD[11] DD[3] DD[12] DD[2] DD[13] DD[1] DD[14] DD[0] DD[15] GND Keypin DMARQ GND DIOW_n GND DIOR_n GND IORDY CSEL DMACK_n GND INTRQ IOCS16 DA1 PDIAG_n DA0 DA2 CS0_n CS1_n DASP_n GND
1 2
STDBY KEY 0100 KEY1 KEY2
8014 220mm
1 2
STDBY KEY 1302 KEY1 KEY2
Block Diagrams, Waveforms, Wiring Diagram.
3139 785 3093x
6.
EN 22
Waveforms
Waveforms of Analog Board
F204 BOUT F206 GOUT F207 ROUT F209 YCVBS_OUT1 F417 VDrain (No Disc) F417 Vdrain(Standby) F602 CVBS
F604 Y_OUT
F605 C_OUT
I110 SIFOUT
I303 AFER
I304 AFEL
I310 ARADC
I311 ALADC
I315 AOUT1L
I317 AOUT1R
I407 Vgate (No Disc)
I407 Vgate (Standby)
I409 VSource (No Disc)
I409 VSource (Standby)
I719 ALDAC
I721 ARDAC
I906 Tstpoint
7500MSP XTAL IN
7500MSP XTAL OUT
Block Diagrams, Waveforms, Wiring Diagram.
3139 785 3093x
6.
EN 23
Waveforms of Digital Board
IC 7211 PIN 45 IC 7211 PIN 46 IC 7401 PIN74 IC 7401 PIN75 T121
T122
T351 IC7301 PIN 42
T352 IC 7301 PIN 43
T525, T526,T529 CVBS_TU, CVBS_RE,CVBS_FR
T527,T531,T535 SY_RE,SY_FR, CY
T528,T530 SC_RE, SC_FR
T532 BPr
T533 BPb
T537 BCK
T538 WCK
T539 DA
T540 MCK
Block Diagrams, Waveforms, Wiring Diagram.
3139 785 3093x
6.
EN 24
Test Points Overview for Analog Board
Analog Board TestPoint.pdf 2005-07-15
Block Diagrams, Waveforms, Wiring Diagram.
3139 785 3093x
6.
EN 25
Test Points Overview for Digital Board
Digital Board TestPoint.pdf 2005-07-15
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 26
7.
Circuit Diagrams and PWB Layouts
Analog: Frontend Video (FV)
1
2
3
4
5
6
A
from PS
5VSTBY 5V 33VSTBY 5V 5V_FV 5100
A
B
5VSTBY 5V 33VSTBY
B
2101 10n 3102 1K0 2102 100n 5V_FV
7100 BC857BW I101 3100 100R
not used
C
CVBS_TV
to IOV
I100
C
3101
3103
47K
100R
5V_FV
D
3104 47K 2103 22n 33VSTBY
D
5101
19 MT2
18 MT1
not used
I111
10u
0803 H2 1100 G1 2100 C2 2101 C3 2102 B6 2103 D4 2104 E5 2105 E6 2106 F5 2107 G3 2108 G3 2109 H5 2110 H5 2145 F5 3100 C4 3101 C4 3102 B5 3103 D4 3104 D3 5100 B2 5101 E6 5102 F3 5103 G4 5104 G5 5105 G5 7100 C5 I100 C5 I101 C4 I102 F5 I103 G5 I104 G5 I105 G6 I106 G6 I107 E2 I108 F2 I109 G2 I110 F3 I111 E5 c710 G1
47u 6.3V
2100
22u
E
F
1100 TMQZ2
I109
5103
Bead
2107
100n
2108
20
21
5VSTBY
MT3
MT4
VIDOUT AFT GND2 VTU NC5 MB RFAGC SDA SCL GND1 SIFOUT AOUT NC4 NC3 NC2 NC1 BB
E
17 16 15 14 13 12 11
10 9
4u7 50V
2104
2105
I107 5V_FV I102 22u 25V
TUNER
2106
2145
I108 I110 SIF1
to MSP
10n
50V
8 7 6 5 4 3 2 1
F
5102
Bead
10n
G
c710
I103
5104
Bead
I105 SDA_5V
from/to CU
G
1u0
I104 GND_TU
not used
5105
Bead
I106 SCL_5V
from CU
BARCODE 0803
not used
2109
2110
47p
47p
H
Frontend Video FV
3139 243 31893 2005-04-13
H
1
2
3
4
5
6
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 27
Analog: Video In / Out (IOV)
1
from PS
12VSTBY 5VSTBY 5V 5NSTBY
2
from CINCH
3
4
YCVBSOUT1
5
6
7
8
9
CVBSOUT2 YCVBSIN2
10
11
12
13
14
MT2 1201-3
P50 (NC) AOUT1L AOUT1R to IOA,MSP to IOA,MSP FBOUT from/to CU A IN1R ROUT GOUT BOUT AIN1L
S2_FS_I
from MSP
AOUT2L
RCIN
AIN2R
AIN2L
MT2
MT1
GND
AIN2R
AOUT1R
AOUT1L
from IOA
from IOA
NC
E1
AIN1R
AIN1L
035 0 8081 90
100R
100R
100R
12VSTBY 5VSTBY
5V
5NSTBY
5NESD
1201-1 ROW_A 035 0 8081 90
3202
3203
19B
17B
14B
18B
21A
20A
19A
18A
12A
17A
16A
15A
14A
13A
11A
10A
16B
15B
13B
10B
21B
20B
12B
11B
9B
8B
4B
2B
9A
8A
6A
5A
4A
7A
3A
2A
1A
1B
7B
6B
5B
3B
100R
3200
3201
A
E2
AOUT2R
AIN2L
to IOA
to IOA
from MSP
CVBSIN1
8SC1
G ND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GIN
AOUT2R
AOUT2L
5NESD
A
1201-2 ROW_B
100K
BZX384-C12
150R
3216
3215
3217
100K
2207
470p 6215
2209
470p 6217
B
12VSTBY 7202 BC847BW
1%
1%
1%
B
S2_FS_I
75R
75R
5NESD
5NESD 5NESD 5NESD 5NESD
5NESD
75R 1%
1%
1%
5NESD
5NESD 3221 BZX384-C6V8
5NESD 75R
6220
3222 820R
BZX384-C12
5V
BZX384-C12
5NESD 150R 6221 3225
150R
3228
C
8SC2_1 3230 3233 3K9 22K 7203 BC847BW
3227 390R 3229 27K
C
5NESD 5VSTBY 75R 1%
7205 BC847BW
5200
10u
3234
39K
5V
3239
I200 5VSTBY 100n 2212 2211 100K 3238 47u 6.3V 5201
4K7
7206 BC847BW
5VSTBY
D
3240 3242 33K 150K
10u
8SC2_2 3243 56K 7208 BC847BW
2213 100n 2214 100n
D
I201 47u 6.3V
3245
30
20
36
VCCB-REC
VCCB1
VCCB2
VCCB3
VDD
VCC
24
32
8
7210 STV6618
Video Aspect ratio Detection
9 I202 10 I203 11 4 I204 6 7 2218 1u0 2221 1u0 2225 1u0 2227 47n 3250 27K 2217 D_VR 1u0 2219 1u0 2222 1u0 D_Y 5V 5V 5V
to CINCH to CINCH
I220 31
E
3246 75R 1%
I219 29 I218 27 I217 34 I216 33 150R 2226 1u0 3247 2224 1u0 I215 41 40
VIDEO SWITCH R|PR|COUT-TV MATRIX R|PR|CIN-ENC
G|YOUT-TV B|PBOUT-TV FBOUT-TV Y|CVBSOUT-TV CIN-TV Y|CVBSIN-TV DECV G|YIN-ENC B|PBIN-ENC CVBSIN-ENC CIN-ENC YIN-ENC
D_YG
to CINCH
E
D_UB
to CINCH
D_CVBS
to CINCH
5
FROM FV
3253 10K
CVBS_TV 470p
Y|CVBSIN-TUN Y|CVBSOUT-REC CIN-TUN COUT-AUX
I205 21
2230 1u0
43
23 25 100n I222
I214 28 I213 I212 DGO2 5VSTBY DGO4 10K 3254 I211 42 44 2 14 16 18 I208 GNDB-REC SDA_5V 7217 BC857BW S2_FS_I 100K 3267 8SC1 38 I207 37 SDA SCL C-GATE 1 2 3 DIGOUT 4 5 6
I223
1K0
1
3251
3257 100R 7213 BC847BW I224 3258 22K 3259 2236 I225
2229
100n
F
5VSTBY
2228
F
Y|CVBSOUT-AUX
7212 BC857BW
R|PR|CIN-AUX G|YIN-AUX B|PBIN-AUX FBIN-AUX Y|CVBSIN-AUX
17 15 13 I206 35 19
2233 1u0 2235 1u0 2237 1u0 2234
2232
150R
I209
3261 150R 3262 C_FIN CVBS_FIN CVBS_TV 150R Y_FIN
3272 150R 1% 3273 150R 1% 3274 150R 1% 3275 150R 1% 3276 9160 9161 9168 150R 3269 F239 F237 F238 GND_V F234 F233 F236 F235 150R 1% 3277 F232 F231 F230 F229 F228 F226 F227 F225 F224 150R 1% F240 1204 24FMN-BTRK-A GND_D
3260
100n
G
*
I210
1u0
150R
G
CRout
to CINCH
SCL_5V
22
26
3
GNDB
12
39
GNDD
GND2
GND1
FROM CU
H
9239 16V 10u Y_FIN 1205 YFIN GND CFIN GND CVBSFIN GND AINFL GND AINFR 1 2 3 4 5 6 7 8 9 B9B-PH-K 4240
5VSTBY
3268
100K 3252 10K
*
3270 10K
H
c200 GND_D
* *
2239 3271 DGO2 9241 C_FIN 22K
7219 BC847BW
Video In/Out IOV
*
F250 F253 F251 F252
2240 1u0
CVBS_FIN 2241 AINFL AINFR
FBIN
I
24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
16V 10u
#
SCART FS (Pin 8) In/Out loop through
#
I
from/to DIGTAL BOARD
to CU
GND_V
A_YG GND_V A_UB GND_V A_VR GND_V Y_FIN GND_V C_FIN CVBS_FIN GND_V C_REAR GND_V Y_REAR GND_V CVBS_REAR GND_V CVBS_TV GND_D D_CVBS GND_D D_C GND_D D_Y GND_D D_VR GND_D D_YG GND_D D_UB
*
2 3 4 5 6 7 8 9
3139 243 31893
2005-04-13
1201-1 A8 1201-2 A14 1201-3 A9 1204 I12 1205 I1 1206 I10 2201 B3 2202 B12 2203 B12 2207 B7 2209 B8 2211 D8 2212 D8 2213 D8 2214 D7 2215 E9 2216 E9 2217 E9 2218 E9 2219 E9 2221 E9 2222 E9 2224 F7 2225 F9 2226 F6 2227 F9 2228 F7 2229 F14 2230 F11 2232 G13 2233 G9 2234 G9 2235 G9 2236 G14 2237 G9 2239 I3 2240 I3 2241 I3 3200 A13 3201 A14 3202 A8 3203 A8 3206 B4 3207 B9 3208 B11 3209 B11 3210 B12 3211 B13 3213 B7 3214 B8 3215 B4 3216 B5 3217 B5 3218 B4 3219 B5 3221 C10 3222 C4 3224 C12 3225 C11 3226 C13 3227 C3 3228 C11 3229 C3 3230 C13 3233 C13 3234 D3 3235 D10 3236 D10 3238 D4 3239 D13 3240 D4 3242 D3 3243 D13 3245 D13 3246 E7 3247 F7 3250 F13 3251 F13 3252 H4 3253 F4 3254 G7 3257 F13 3258 G13 3259 G14 3260 G13 3261 G9 3262 G10 3267 H5 3268 H5 3269 H10 3270 H5 3271 I4 3272 G12 3273 G12 3274 H12 3275 H12 3276 H12 3277 H12 4240 I3 5200 D8 5201 D9 6200 B4 6201 B4 6202 B5 6203 B5 6204 B5 6205 B6 6206 B9 6207 B10 6208 B11 6209 B11 6210 B12 6211 B13
6215 B7 6217 B8 6218 B6 6219 C10 6220 C12 6221 C11 7202 C3 7203 C14 7205 D3 7206 D4 7208 D14 7210 E8 7212 F14 7213 G13 7217 H5 7219 I5 9160 H10 9161 H10 9168 H10 9239 H3 9241 I3 F200 A7 F201 A7 F202 A7 F203 A6 F204 A6 F205 A6 F206 A5 F207 A5 F208 A5 F209 A4 F210 A4 F211 A4 F212 A12 F213 A12 F214 A12 F215 A12 F216 A11 F217 A11 F218 A11 F219 A10 F220 A10 F221 A10 F222 A10 F223 A9 F224 H12 F225 H12 F226 H12 F227 H12 F228 H12 F229 H11 F230 H11 F231 H11 F232 H11 F233 H11 F234 H11 F235 H11 F236 H11 F237 H10 F238 H10 F239 H10 F240 I12 F250 I2 F251 I2 F252 I2 F253 I2 I200 D8 I201 D9 I202 E9 I203 E9 I204 E9 I205 F9 I206 G9 I207 H7 I208 G7 I209 G7 I210 G7 I211 G7 I212 G7 I213 G7 I214 F7 I215 F7 I216 E7 I217 E7 I218 E7 I219 E7 I220 E7 I222 G13 I223 F13 I224 G13 I225 G14 c200 H14
P50 (NC)
FBIN
G ND
GND
GND
F211
F223
F204
F202
F200
F222
GND
NC
BIN
F209
F205
F216
F215
F214
F203
F213
F210
F207
F220
F219
F206
F201
F208
F221
620 C BZX384-2 6V8
BZX384-C6V8
BZX384-C6V8
BZX384-C6V8
BZX384-C6V8
BZX384-C12
BZX384-C12
BZX384-C12
F218
F217
3208 BZX384-C12
BZX384-C12 3210
F212
3209 BZX384-C12
BZX384-C12
75R 1% 6200
not used
3206
2201
6204
100p
6201
6203
6206
6205
6207
3207
100K
1% 75R
BZX384-C12 3213
BZX384-C12 3214
3218
3219
75R
6218
6219
100K
6209
6208
470p 6210
2202
2203
470p 6211
3211
75R
75R
3226
150R
3235
3236
3224
75R
2215
100n 2216
1206 30FMN-BTRK-A
30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8
1
10
11
7 6 5 4 3 2 1
12
13
3K9
3K3
1%
14
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 28
Analog: Audio In / Out (IOA)
1
2
3
4
5
5VSTBY
6
7
8
from PS
5VSTBY 5NSTBY
9
2320
2321
A
I305 RSA2 RSA1
from MSP
A
16
7302 HEF4052B 10 9
5VSTBY 2311 VDD 3310 100n 5 2310 100p 6 4 2312 100n 5NSTBY 3 5VSTBY 7300-2 MC33078D 7 8 5VSTBY 5NSTBY
0 0 4X 1 3 G4 0 1 2 3 0 1 2 3
I306
6 12 14 15 11 1 5 2 4
I310 ARADC
to DAC_ADC
MDX
1K0 13
B
2300 AINFR
from IOV
I300
B
1u0 I301 2302 1u0 2303 1u0 2304 1u0 2305 1u0 I307 I320 100K 100K 3302 3303
2301 AINFL
from IOV
7
8
1u0
VEE VSS
AIN2L
from IOV
3311 2313 100p 1K0
3 2
7300-1 MC33078D 1
I311 ALADC
to DAC_ADC
I309
AIN2R
from IOV
100K
100K
3300
3301
I318
C
AIN1L
from IOV
5NSTBY 5VSTBY 5VSTBY 16 7303 HEF4052B 10 9
5NSTBY
C
I302
AIN1R
from IOV from CU from IOA
2306 1u0 2307 1u0 2308 1u0 2309
AFER
from MSP
6 12 14 15 11 1 5 2 4
G4 0 1 2 3 0 1 2 3
5 6
8
I303
0 0 4X 1 3
VDD 3312 I312
2314 100n 7301-2 MC33078D 7 false type
I308
3313 220R
I314
2317 10u 16V 820R 100K
I315 7304 BC817-25W 3315 3316 AKILL 4K7
from DAC_ADC
I304
MDX
1K0 13
AOUT1L
to IOV
AFEL
from MSP
ALDAC
from DAC_ADC
I313
D
1n0 3314
2316
2315 100n 5NSTBY VEE VSS 7 8
*
D
3
ARDAC
from DAC_ADC
1u0 100K 3306 100K 3307 100K 3308 100K 3309 100K 100K 3304 3305 5V
5VSTBY
5VSTBY 3323 10K
false type
3322
10K
* E
AIN_SEL1
3317 5NSTBY 1K0 I316
3 2
7301-1 MC33078D 1
3318 220R
2319 10u 16V 820R 100K 2318 1n0 3319 3320
I317 7305 BC817-25W 3321 4K7 AOUT1R
to IOV
7307 BC847BW 7306 BC847BW
*
*
5VSTBY
*
E
5NSTBY
5V
F
from CU
7309 BC847BW AIN_SEL0 7308 BC847BW
*
Options
1 2
F
Audio In/Out IOA
3139 243 31893 2005-04-13
2300 B1 2301 B1 2302 C2 2303 C2 2304 C2 2305 C2 2306 D2 2307 D2 2308 D2 2309 D2 2310 B6 2311 A7 2312 B7 2313 C6 2314 C7 2315 D7 2316 D7 2317 D8 2318 E7 2319 E8 2320 A8 2321 A9 3300 C3 3301 C3 3302 C4 3303 C4 3304 E2 3305 E2 3306 E2 3307 E2 3308 E3 3309 E3 3310 B6 3311 C6 3312 D6 3313 D7 3314 D8 3315 D8 3316 D9 3317 E6 3318 E7 3319 E8 3320 E8 3321 E9 3322 E4 3323 E4 3324 F4 3325 F4 7300-1 B7 7300-2 B7 7301-1 E7 7301-2 D7 7302 A5 7303 C5 7304 D9 7305 E9 7306 E3 7307 E4 7308 F3 7309 F4 I300 B2 I301 B2 I302 C2 I303 D2 I304 D2 I305 A4 I306 B4 I307 C5 I308 D5 I309 C2 I310 B9 I311 C9 I312 D6 I313 D6 I314 D8
I315 D9 I316 E6 I317 E9 I318 C2 I320 B2
47u 6.3V
3325
3324
10K
10K
3
4
5
6
4
8
4
4
8
7
8
47u
6.3V
9
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 29
Analog: Power Supply (PS)
1 2 3 4 5 6 7 8 9 10 11 12
F424 33VSTBY
13
1406 500mA T 9401 F425
14
12VSTBY
F421
6408 STPS3L60-C2 F422
5403 22u
7405 SI2306DS 12VE
3437 330u 2417 33VSTBY
12V
100K 47K 7408 SI2306DS 3434 3435 3K3 I429
2416
1m0
A
GND
3400 3M3 U74 3401 3M3 2415 2n2 2402 I426
A
U78 F427 STBY 7410 PDTC124EU 9403
100K
3429
3431
3432
GND
GND
220K
3436
3K3
47K
I428
I427 7406 BC847BW 220K
GND 7407
7409 BC847BW
HI = ON LOW = STANDBY
DD_ON
2437
GND I430
GND
B
1403 1405 PTF/65 100V F400 F401 1404 5ET 1400 3402 680K 2400 220n 1 2 3 2 HF2022R 5401 4 I404 1 F402 F405 220R I400 3403 I401
PDTC124EU 1n0
B
F430 1407 1000mA T 3447 1K0 3448 1K0 3449 1K0 3450 2K7 1K0 F431
GND
I402 6400 1N4006 6401 I403 1N4006 F419 3482 1K0 3483 1K0 3484 1K0 3485 3438 1K0 3K9 6 2 3439 2K2 3440 100R
GND
7411 STP16NF06FP
GND 5VSTBY 12VSTBY
3446 3441 3442 470R 3443 470R 2419 3445 1K0 7413 STP16NF06FP 3454 6 3 5 2423 3458 1n0 3K9 3455 470R 3456 470R 3457 2K2 1n0 3444 2K2
GNDHOT
6402 1N4006 6403 2403 1n0
2418
GND GND
6409 U79 SB340 6410 F428 SB340
1n0
5Vreg
3 7412-1 BC846U 7412-2 BC846U 1 4
3K9 5
GND
2405
330K
330K
330K
3406
F403
F404
3404
3405
47n
C
1N4006
B2P3-VH 2404
400V
GND
5404 22u 1408 T 2000mA 2421 560u 3451 3K9
C
GND 12V
3459 2K7 5V_FE 3460 I446 4401 F433
I405
5V
GNDHOT
c300
2422 U80 1n0 3452 2K2
2 3453 100R
GND 5402
7414-2 7414-1 BC846U BC846U 4 1
12VE
10K
D
2407
7401 STP3NK60ZFP
5VE
GND
1K0 5405 F437 1409 T 4A 2425 560u F439
47p
GND
I407 1401 3V3SW1 3V3SW2 3V3SW 3 12VEF 4 GND 5 12V 6 GND 7 GND 8 5V_BE 9 5VEF 10 GND 11 5N 12 F406
5400 SRW28EC9 U60 NC 5 5 1 4 12 13 17 18 14 16 11 10 12 13 17 18 14 16 11 10 F444 6413 15 9 15
F435
6411 STPS5L40 F436
5V_BE
GNDreg GND 3Vreg
GND
7415 SI2306DS
D
3V3SW
2u2
2424
to Digital Board
F413
F441
6412 STPS5L40
2406
3461
1N4003
0R47
0R68
3409
3410
6405
100R
3408
F412
12VE GND GND GND
F408
3K9
6 2
3 5
E
12V
F410
GND GND
2426 1n0 3462 2K2
F407
GND
5V_BE 5V_FE 7402 SI2306DS
3407
GNDHOT
GNDHOT
2408
GNDHOT
GNDHOT
7
8 6 7 2 3
3463 100R
7417-1 7417-2 BC846U BC846U 1 4
3V3SW
18K
220R 3466 120R 3467
1K5
1n0
9400
3469
I410
1m0
3V3SW
5Vreg
7416 STS9NF30L 3464 3465
12V
2427 1n0
E
GND
F445 5406 22u F447 1410 T 125mA 100u 2429
GND
3468 1K0
2K7
B12P-PH-K
GND
F443
300V
12VE
10K F411
U61
1u0 3411 3K3
U62
I412 2 F417 3
5NSTBY
6 7 8
5N SMPS CONTROL
SBYV27-200
2428
1m0
5N
3470 2430 100n 10K 7418 BC337-25 6417 BZX384-C6V8 3472 1K0
VCC
GNDHOT
13,9V
F
1
GNDHOT
GND GND
BAS316
12V
U84 7419 BF422 3473 1K0 U82 3474 1K0 U85 F451
F
33VSTBY
GND
F414
2
7400 TEA1507P
6414
CTRL DEM ISENSE
GND
GND
I435
3471 1K5
to Basic Engine
5V
1402 12VE GND GND 5VE 1 2 3 4
2431
2433
2434
100n
U70
2432
U64
G
F409 F416
5VE
B4B-EH-A
560K
5VSTBY
2K2
22u
GND GND
12VE
1M0
BAT54 COL 3416
2n2
6419
2n2
10n
F415
1V
6416 1N4935
BZX79-B33
3415
U63
6406
6415
F449
5407
6418 1N4935 U83
3475 10K
3476 10K
I440
2409
GNDHOT
G
3424
GND
3427 22K
GND GND
12VSTBY 12VSTBY F453 3479 47R F455 7423 BC857BW F456
GND
GND
5Vreg 3425 U65 2K2 3418 U67 7403 1K0
1411 T 125mA 9402
F459
VGNSTBY
4400 22u 50V 100n 2410 2411
7420 3426 4K7 3428 I424
I423 3477 4K7
GND1
GND 3 GNDHOT GNDHOT
U66 100n 3417 2412 4K7 TCET1108 U68
BC847BW BC847BW 10R I441 BZX79-B8V2
2
3419 470R 1 2413 100n U69 3420 10R
7422 BC547B 3480 2K2 I444 3481 2K2 100n 2436 6422 I445 BZX384-C27
GND
3421 5K6
5Vreg
2435
100n
GND
2414
100n
6420
U71
GND
7404 TL431ACZ
F452
I420 R 3
GND
BAS316 6421
I443
K
I442
H
4
1
100R
3478
7421
H
I
A
GND 8VSTBY
GNDHOT GNDHOT
3422 3423 4K7 56K F418 2
GND POWER_FAIL
I
GND
GND
GNDreg GNDreg GNDreg
Power Supply PS
8 9 10 11 12
3139 243 31893
2005-04-13
U60 E5 U61 F3 U62 F5 U63 G4 U64 G5 U65 H5 U66 I3 U67 H6 U68 I6 U69 I7 U70 G8 U71 H8 U74 A6 U78 A13 U79 C9 U80 D9 U82 F12 U83 G12 U84 F12 U85 F13 1400 C1 1401 D1 1402 G1 1403 B2 1404 B2 1405 B3 1406 A13 1407 B12 1408 C10 1409 D10 1410 F9 1411 H13 2400 C3 2401 D2 2402 B4 2403 C6 2404 C5 2405 C6 2406 E4 2407 D5 2408 E4 2409 G6 2410 H4 2411 H5 2412 I5 2413 H7 2414 I8 2415 B7 2416 A9 2417 A10 2418 C9 2419 C11 2420 D9 2421 D9 2422 D9 2423 D12 2424 E9 2425 E10 2426 E11 2427 E12 2428 F8 2429 F9 2430 F10 2431 G9 2432 G11 2433 G12 2434 G13 2435 H9 2436 I12 2437 B10 3400 A6 3401 A6 3402 C3 3403 B4 3404 C5 3405 C5 3406 C6 3407 F2 3408 E3 3409 E4 3410 E5 3411 F4 3412 F5 3413 F5 3414 F6 3415 G4 3416 G4 3417 I4 3418 H6 3419 H6 3420 H7 3421 H7 3422 I7 3423 I7 3424 G8 3425 H8 3426 H7 3427 G8 3428 H8 3429 A10 3430 B10 3431 A10 3432 A11 3434 A12 3435 A12 3436 A11 3437 A11 3438 B9 3439 C9 3440 C10 3441 C11 3442 C11 3443 C11 3444 C11 3445 C11 3446 C12
3447 B13 3448 B13 3449 B13 3450 B13 3451 D10 3452 D10 3453 D10 3454 D12 3455 D12 3456 D12 3457 D12 3458 D11 3459 D12 3460 D13 3461 E11 3462 E11 3463 E11 3464 E12 3465 E13 3466 E13 3467 E13 3468 E12 3469 E13 3470 F10 3471 F11 3472 F12 3473 F12 3474 F13 3475 G12 3476 G13 3477 H9 3478 H11 3479 H12 3480 H11 3481 H12 3482 B8 3483 B8 3484 B8 3485 B8 4400 H2 4401 D13 5400 D7 5401 C4 5402 D6 5403 A9 5404 C9 5405 D9 5406 F9 5407 G9 6400 B4 6401 B5 6402 C5 6403 C4 6404 D5 6405 E5 6406 G4 6407 H5 6408 A8 6409 C8 6410 C8 6411 D8 6412 E8 6413 F8 6414 F8 6415 G8 6416 G11 6417 F11 6418 G11 6419 G13 6420 H10 6421 I10 6422 I12 7400 G3 7401 D4 7402 E2 7403 H6 7404 I6 7405 A10 7406 B10 7407 B11 7408 A12 7409 A12 7410 A13 7411 B10 7412-1 C10 7412-2 C11 7413 C11 7414-1 D11 7414-2 D11 7415 D13 7416 E12 7417-1 E11 7417-2 E12 7418 F11 7419 F13 7420 H8 7421 H9 7422 H11 7423 H12 9400 E1 9401 A13 9402 H13 9403 B13 F400 B1 F401 B2 F402 B3 F403 C1 F404 C2 F405 B3 F406 E1 F407 E1 F408 E2 F409 G1 F410 E2 F411 F2 F412 E1
F413 E4 F414 F4 F415 G1 F416 G1 F417 F6 F418 I6 F419 B6 F421 A8 F422 A9 F424 A13 F425 A13 F427 A14 F428 C8 F430 B12 F431 B12 F433 C13 F435 D8 F436 E9 F437 D9 F439 D10 F441 E8 F443 F13 F444 F8 F445 F8 F447 F9 F449 G9 F451 F14 F452 I9 F453 H11 F455 H12 F456 H13 F459 H14 I400 B3 I401 B4 I402 B5 I403 B5 I404 C4 I405 C6 I407 D4 I410 E6 I412 F6 I420 I7 I423 H8 I424 H8 I426 B7 I427 A10 I428 A11 I429 A12 I430 B12 I434 F8 I435 F10 I440 G13 I441 H10 I442 H11 I443 I10 I444 H12 I445 H12 I446 D13 c300 D9
G ND
2u2 50V 3430
68u
2420
2V
820R
BYT42M
6404
820R
DRIVER HVS DRAIN
820R
3412
3413
3414
I434
BAV21
6407
1
2
3
4
5
6
7
BZX384-C5V6
3 4 5
1m0
470p
2401
1
13
14
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 30
Analog: Multi Sound Processing (MSP)
1
from PS
2
5V
3
4
RSA1 RSA2
5
6
8VSTBY
7
8
5VSTBY
9
8VSTBY
3518
10K
3511 3509 10K 3510 10K 12K 10u 25V 2513 10u 25V 2511 47u 16V 2512 100n 2514 2510 3512 22K 10n
7501 PDTC124EU
from CU
10u 25V
2500
A
8VSTBY 5V
I514 I515
I512
I513
I516
7504 BC847B 5V
STBY
A
7500 MSP3415G
6500
from/to CU
3502 100R
100R
I501 13 14 15 16 17 21
B
from/to CU
STBYQ I2S_CL
10u
11 I518
5501
SDA_5V
I2C_DA
I517
4K7
SCL_5V
I2C_CL
BAS316 3513
3501
I500 12
5V
B
I2S_WS I2S_DA_OUT
DVSUP
19 I519
RESETQ I2S_DA_IN1
22
2501 GND_TU 56p 2502 56p
I502 3 I503 2 ANA_IN+ ANA_IN-
DEMODULATOR
C
SIF1
from FV
S1...4 FM1 FM2 NICAM A NICAM B
LOUDSPEAKER R LOUDSPEAKER L
D/A D/A
DACM_R
26
LOUDSPEAKER
DACM_L 27
10u
I2SL/R
I2SL/R
2515
I2S_DA_IN2
C
2517 2518 1n0 1n0 AFER
to IOA
43
MONO_IN
IDENT
IDENT
DFP
I521 AGNDC 36 4u7 50V
AFEL
to IOA
2519
2520
D
2503 AIN1R
from IOV
I504
3503 1K0
I505 41 I507 40 I509 38 SC2_IN_R SC1_IN_L SC1_IN_R
A/D
SCART-R
HEADPHONE L
I522 SC1_OUT_R 30 I523 2523 I524 3514 220R 3515 220R I526 AOUT2R 2525 1n0 10u 25V I525 2524 10u 25V 2521 1n0 2522 1n0 I528
to IOV
2u2 50V 2504 2u2 50V 3505 2K2 3506 I510 I508
I506
3504 1K0
AIN1L
from IOV
SCART-R SCART-L
D/A D/A
2505 1u0 2506 1u0
ARDAC
from DAC_ADC
SC1_OUT_L
31
I511 37 SC2_IN_L
10n
A/D
SCART-L
HEADPHONE R
D
ALDAC
7502 BC817-25W 3516
VREF1
VREF2
AVSS
AVSUP
AHVSS
DVSS
XTAL_IN
XTAL_OUT
E
12K 3508
3507
12K
4K7
from DAC_ADC
2K2
SCART Switching Facilities
E
AKILL
from DAC_ADC
TP
NC
23 24 28 32
5V 5500 10u 2507 100n 2508 3p3 1500 2526 18M432 2509 3p3
I527 AOUT2L
to IOV
I529 1n0
F
7503 BC817-25W
F
Multi Sound Processor MSP
1 2 3 4 5 6 7 8
3139 243 31893
2005-04-13
1500 F6 2500 A2 2501 C2 2502 C2 2503 D1 2504 D1 2505 E2 2506 E2 2507 F5 2508 F6 2509 F7 2510 A6 2511 A6 2512 A6 2513 A7 2514 A7 2515 C8 2516 B8 2517 C7 2518 C7 2519 D7 2520 D7 2521 E7 2522 E7 2523 D7 2524 E7 2525 E8 2526 F8 3501 B2 3502 B1 3503 D2 3504 D2 3505 E1 3506 E1 3507 E1 3508 E1 3509 A4 3510 A4 3511 A7 3512 A7 3513 B8 3514 D8 3515 E8 3516 E9 3517 E9 3518 A8 5500 F5 5501 B8 6500 B7 7500 A3 7501 A9 7502 E9 7503 F9 7504 A8 I500 B2 I501 B2 I502 C2 I503 C2 I504 D2 I505 D2 I506 D2 I507 D2 I508 E1 I509 E2 I510 E1 I511 E2 I512 A4 I513 A4 I514 A6 I515 A6 I516 A6 I517 B7 I518 B7 I519 B7 I521 D7
I522 D7 I523 E7 I524 D8 I525 E8 I526 D8 I527 F8 I528 E9 I529 F9
18
10
9
8
4
33
ADR_CL
D_CTR_IO1
D_CTR_IO0
ADR_SEL
TESTEN
VREFTOP
AHVSUP
CAPL_M
34
42
ASG
2516
100n
3517
29
44
25
35
39
20
7
1
5
6
9
4K7
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 31
Analog: Audio Converter (DAC_ADC)
1
2
3
4
5
6
7
8
from PS
9
3V3SW 5V 5VSTBY 5NSTBY
12VSTBY
F713
A
5VSTBY 5VSTBY 3702
5VSTBY 5VSTBY 3736 5700 3V3SW 7701 PDTA124EU I701 2714 BKILL
to cinch
A
12VSTBY 3716 100u 6.3V 2715 4R7 100n I723 2716 100n GND I715 7705 BC807-25W 12VSTBY 47u 16V 2721 3V3SW 2720 2717 11 17 20 5 4u7 50V 2719 100n 2718 GND 100n 3720 3K9 3V3SW 5V 5VSTBY 5NSTBY 10u
7700 PDTA124EU I700 AKILL
to IOA,MSP
A
B
5NSTBY GND GND BAS316 POWER_FAIL
from PS
B
A 3721 1K0
GND I702 6700 BAS316 4700
GND
6701 F700
DAINOPT
from DIGIO
F701 F702 5VSTBY 22FMN-BTRK-A GND GND 6703 BAS316
3V3SW
SDIN SCLK LRCK 3731 MCLK 100K I722
DAINCOAX
from DIGIO
7703 CS4351 1 2 3 4 10 8 3717 10K
192 kHz DAC
SDIN SCLK LRCK MCLK RST DIF0 SDA CDIN DIF1 SCL CCLK GND 16 6 VBIAS VQ AMUTEC BMUTEC AOUTA AOUTB DEM AD0 CS
12 13 19 14 18 15 9
22n
5NSTBY
VA
VA_H VD
VL
16V 47u 2722 2723 100n A
7706 BC847BW 2724 100n 3723
3722 3V3SW 4K7 10K
DAOUT 2713
3718
10K
4u7
C
3719
10K
to DIGIO
7
C
A I716 AMUTEC I717 BMUTEC
GND 22 DAOUT 21 GND 20 DAINOPT 19
GND F703 7702 PDTC124EU 3706 22R 3708 GND I706 3707 22R 3709 22R 2702 33p 2703 33p 2704 33p 2705 3711 22R 22R GND F711 22R 3713 GND I709 3714 10K I711 2 VREF BCK 3715 GND 10K I712 47u 6.3V 3V3SW 9014 3730 1K 0 1 6 7 I724 14 VINL SFOR PWON MSSEL VSSA 15 A GND I713 VRN 4 A GND VSSD WS 12 11 33p I708 I707 LRCK 5701 SCLK F708 F709 F710 3710 22R 3712 10u 3V3SW I710 SDIN GND I705 MCLK 3V3SW GND A
18 17 DAINCOAX DKILL 16 GND 15 14 D_PCMCLK 13 GND 12 D_DATA0 D_WCLK 11 10 GND D_BCLK 9 8 GND A_PCMCLK 7 6 GND A_DAT 5 4 GND A_WCLK 3 A_BCLK 2 1 GND 1700 2706 I703 GND GND
F704 F705 F706
I718
2725 50V 10u 3725 27K
3724 680R 2726
I719 ALDAC
D
F707
22R
D
A 3728 100u 6.3V 2711 7704 UDA1361TS 2712 100n 47K 16 I720 2727 50V 10u 3727 27K GND 13 A 3726 680R 2728 1n0 I721 ARDAC
VDDA
F712
A
A 8 3
SYSCLK VINR
24-BIT AUDIO ADC
DATAO
VRP VDDD
E
ARADC
from IOA
47u 6.3V
E
2707 ALADC
from IOA
I704
47u 6.3V
F
c700 A GND
A
A
A
F
Audio Converter DAC_ADC
1 2 3 4 5 6 7 8
3139 243 31893
2005-04-13
1700 E1 2700 B1 2701 B3 2702 D3 2703 D3 2704 D3 2705 D3 2706 E1 2707 E1 2708 F4 2709 F4 2710 E5 2711 E5 2712 D7 2713 C5 2714 B6 2715 B6 2716 A7 2717 B7 2718 B7 2719 B7 2720 B8 2721 B8 2722 B8 2723 C8 2724 C9 2725 D8 2726 D9 2727 D8 2728 E9 3700 B1 3701 B1 3702 A2 3703 C2 3706 D2 3707 D2 3708 D2 3709 D2 3710 D1 3711 D2 3712 D1 3713 E2 3714 E1 3715 E1 3716 A6 3717 C5 3718 C5 3719 C7 3720 B9 3721 B8 3722 C9 3723 C9 3724 D9 3725 D9 3726 D9 3727 E9 3728 D4 3729 F4 3730 F5 3731 C5 3736 A3 3737 B4 3738 B4 4700 B2 5700 A6 5701 D5 6700 B2 6701 B1 6703 C2 7700 A2 7701 A3 7702 C2 7703 B6 7704 D6 7705 B8
from/to Digital Board
7706 C8 9014 F5 F700 C1 F701 C1 F702 C1 F703 D1 F704 D1 F705 D1 F706 D1 F707 D1 F708 D1 F709 D1 F710 D1 F711 E1 F712 E1 F713 A8 I700 A1 I701 A4 I702 B2 I703 E1 I704 E1 I705 D4 I706 D3 I707 D3 I708 D3 I709 E5 I710 D6 I711 E5 I712 F5 I713 F5 I715 B8 I716 C8 I717 C8 I718 D8 I719 D9 I720 D8 I721 D9 I722 C5 I723 A6 I724 F5 c700 F9
100K 3701
22K
22K
3737 100K
2701 22K
22K 2700
3703
GND GND GND GND
4K7
3738
3700
22n
22n
2710
100n
3729
47K 2708
100n 2709
5
10
9
9
1n0
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 32
Analog: Digital In / Out 1 (DIGIO 1)
1
2
from PS
3
4
5
6
7
8
9
5V
5V
A
5V
A
I900 1u0 10V 100K 2900 2901 3904 10n
I901
7900-6 74HCU04D 12
14 1 7
13
B
3901 DAINCOAX
to DAC_ADC not used
B
100K 3905
3902 10K
100R 560R 3900
for DIGITAL IN only
F900
310360100162
1900 1 2 3 4
C
DAINOPT
to DAC_ADC
F901
C
F902 5V
for DIGITAL IN only
D
7900-1 14 3906 DAOUT I904
from DAC_ADC
2906 7901 3 I906 2904 100n 560R 3910 7 7 7900-2 74HCU04D 14 4 3 1 7 7900-5 74HCU04D 14 10 11 1 7 7900-4 74HCU04D 14 3913 8 1K0 2907 F907 100n 25V I908 2 1 6RG 6 4 150p 2905 100n F903 1901
D
3 2
1 YKC21-3416
I902
2902 100n
I903
3908 470R
74HCU04D I905 5 1 2 1
7900-3 74HCU04D 14 6 1
750R 100R 3907
F904
3911 75R 3912 82R
F905
DIGITAL OUT
0007 F2 1900 C9 1901 D9 2900 A4 2901 A4 2902 D2 2903 E4 2904 D5 2905 D7 2906 D8 2907 F8 3900 C2 3901 B3 3902 B4 3904 A4 3905 B4 3906 D1 3907 E1 3908 D3 3909 E3 3910 E4 3911 E7 3912 E7 3913 F6 3914 E8 4812 A4 6900 F9 7900-1 D3 7900-2 E4 7900-3 D4 7900-4 F4 7900-5 E4 7900-6 B3 7901 D6 F900 C9 F901 C9 F902 C9 F903 D8 F904 D7 F905 E8 F906 F8 F907 F8 I900 A4 I901 B3 I902 D1 I903 D2 I904 E3 I905 D3 I906 D4 I907 E4 I908 D6
470R
4812
3909
I907 2903 1n0
E
2K2
E
5V 3914 47R
F906
6900 2 1 3 VS IN GND JFJ1000
F
0007 BRACKET
9
1 7
OPTICAL OUT F
Digital In/Out DIGIO1
1 2 3 4 5 6 7
3139 243 31893
2005-04-13
8
9
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 33
Layout: Analog-Main Part (Top View)
Analog_Topview_3355_02.pdf 2005-07-15
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 34
Layout: Analog-Main Part (Bottom View)
Analog_Bottomview_3355_02.pdf 2005-07-15
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 35
Front: Front Panel
1
2
I103
3
12VSTBY 3104 330R 7102 BC337-25 3105
4
10u 25V
5
VGNSTBY 3108 10K
6
1203 HUV-08SS65T
7
8
9
3121 10R
10
11
12
13
A
5VSTBY BAS316 6116 3100 I100 2100 100n 1K0 2101 I102 F100 220n 100u 5100 I101 3101 6K8 7100 BC847BW 3102 33R
A
F2
P17 P16 P15 P14 P13 P12 P11 P10 P9 P8 P7 P6 P5 P4 P3 P2 P1 NC 8G 7G 6G 5G 4G 3G 2G 1G
I108 470R 7101 BC847BW I105 I106 2106 50V 22u I107 3107 470R 3109 6100 BZX384-C6V8 470R 2108 47n 3110 3111 3112 10R 10R 10R
F22 F21
F11 F12
I104
3122 10R 3123 F112 10R
B
2107 22u 50V
F101
BC327-25 7103 2103 7104-3 74HCT14D 14 5 7 GND 5VSTBY 4104 7104-5 74HCT14D 14 11 4 7 7 GND 7 7104-2 74HCT14D 0100 WH02D-1 GND 5VSTBY 7104-6 74HCT14D 14 10 13 12 6 9 7 GND 5VSTBY 7104-4 74HCT14D 14 8 F2 1n0 3106 1K0 5VSTBY 5VSTBY
B
3124 82K 3125 3126 82K 3127 82K 82K VGNSTBY
2102 220n
C
C
6101 BAS316 6102 BAS316 6103 BAS316 6104 BAS316 6108 BAS316 6107 BAS316 6105 BAS316 6106 BAS316
3113 22K
D
2109 1n0
14 1 2 3 7 7104-1 74HCT14D
14
3130 2K7 3131 GND
WS0
D
GND
2K7 3132 7105 UPD16316GB-006-8ET 27 5VLP 1 F115 F131 1 1100 3 F130 SCK D_FM D_HOST 1101 32K768 2123 2124 22p 22p F133 RDY_FM ATN_FM HOST_RESET RC 5VSTBY 2K7 HLW14S-2C7-LF 14 13 12 11 10 9 8 7 6 5 4 3 2 1 1201 2119 100n 100n 2121 100n 2122 2120 100n
E
1208 4103 4102 EVQ11L05R 1213 EVQ11L05R 1211 1216
GND 1 F103 5102 EVQ11L05R 1215 EVQ11L05R 1214 EVQ11L05R 2 F104 6109 BAS316 6110 BAS316 6111 BAS316 2110 2n2 3117 10K 6113 BZX384-C6V8 6114 BAS316 F107 F106 BAS316 5VSTBY 6115 F105
EVQ11L05R 1207 EVQ11L05R
F
1217 EVQ11L05R
2127 2n2
GND 5VSTBY
G
3118 2111
10K 2n2
LTL816KETNN
3119
10K
F110 F111
KEY_A KEY_B KEY_C
14 15 16 17 18 19 20 21 22 23 24 25 26 29 30 31 32 33 34 35 36 37 38 39 40 45 46 47 48 RDY_FM 5 6 9
6212
2112
4100
H
1 1102 5VSTBY GND
2n2 GND 6112 5VLP 220m 5.5V 1m0 6.3V 2116 BAT54 COL 2114 10n
VDD 0 FIP 1 1 CTRL 2 DRIVER X 2 3 4 1 5 6 XT 2 7 8 RESET 9 10 11 SCK 12 FIP 13 D_HOST 14 15 SCK1 16 17 POWER_FAIL 18 19 IR 20 21 VLOAD 22 23 1 24 KEY_R 2 3 1 2 IC LED 3 4 POWER_CTL RDY ATN FM HOST_RESET
51 50 2 3 4 8 10 11 12 13 28 41 42 43 49 44 7 HOST_RESET 270K 2117 3120 KEY_A KEY_B KEY_C POWER_FAIL F134 2u2 50V 100R 3135
2
GND F132
3136 47K
2126
SCK D_HOST
GND
POWER_FAIL VGNSTBY 12VSTBY 100u 16V 2118
GND F116 F117 F118 F119 F120 F121 F122 F123 F124 POWER_CTLF125 F126 F127 F128
E
F
GND 5VLP 3137 5VSTBY 47K VGNSTBY 10n
RC
GND
GND
G
5VSTBY
3133 100R 3134 100R 4109
F114 4101
4110
GND
H
7107 TSOP4836ZC1 F129 VS OUT GND GND
3128 7106 BC847BW 560R
ATN_FM D_FM
2115
I
DC0
VSS 52 GND
2125
100n
D
GND GND GND GND
I
2005-04-12
GND
3139 243 31947
0100 E3 1100 E10 1101 F10 1102 H1 1201 F13 1203 A6 1207 F2 1208 E1 1211 E2 1213 F1 1214 F2 1215 F2 1216 F2 1217 F1 2100 B1 2101 B1 2102 B1 2103 B2 2104 A4 2105 A4 2106 A3 2107 B5 2108 B5 2109 D1 2110 G2 2111 G2 2112 H2 2114 I3 2115 I3 2116 I4 2117 H10 2118 G11 2119 G12 2120 G12 2121 G12 2122 G13 2123 F10 2124 F10 2125 I11 2126 F9 2127 G2 3100 B1 3101 B1 3102 A2 3103 A2 3104 A3 3105 A3 3106 C2 3107 A4 3108 A4 3109 B4 3110 B5 3111 B5 3112 B5 3113 D1 3117 G2 3118 G2 3119 H2 3120 H9 3121 A10 3122 A10 3123 B10 3124 B9 3125 B9 3126 B10 3127 B10 3128 I6 3129 G5 3130 D12 3131 D12 3132 E12 3133 H11 3134 H11 3135 F10 3136 F10 3137 G9 4100 H5
4101 I4 4102 F1 4103 E1 4104 D2 4109 H11 4110 H11 5100 B1 5102 E3 6100 A5 6101 D8 6102 D9 6103 D9 6104 D9 6105 D10 6106 D10 6107 D10 6108 D9 6109 E3 6110 F3 6111 F3 6112 H3 6113 G3 6114 G3 6115 E3 6116 B1 6212 H5 7100 C1 7101 B2 7102 A3 7103 B3 7104-1 D1 7104-2 D2 7104-3 C3 7104-4 C4 7104-5 D3 7104-6 D4 7105 E7 7106 I5 7107 H13 F100 B2 F101 B6 F103 E3 F104 E3 F105 E3 F106 F3 F107 F3 F110 H3 F111 H3 F112 B9 F114 H5 F115 E8 F116 E13 F117 E13 F118 E13 F119 E13 F120 E13 F121 F13 F122 F13 F123 F13 F124 F13 F125 F13 F126 F13 F127 F13 F128 F13 F129 H12 F130 E10 F131 E9 F132 F10 F133 F11 F134 F9 I100 B1 I101 B1 I102 B2 I103 A2 I104 A2 I105 B3 I106 B3
I107 A4 I108 A4
330R
2104
3103
47n 2105
4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29
1 2
1
2
3
4
150R
3129
5
6
7
8
32 31
9
10
11
12
13
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 36
Front: Front Panel
1
5VSTBY 2200 3200 10K 100n 2201
2
3
IO0
5ESD
A
6200
GND 5ESD BZX384-C12 5ESD BZX384-C12
GND
GND
GND
A
1 F201 Y C 3 F200 4
3201
2
2208
F202 1
1202 GND
GND
2204
100n
YKF51-5362
GND 5ESD 5ESD 5ESD
BZX384-C12
BZX384-C12
BZX384-C12
C
6202 F203 JPJ1127-01-0020 6 4 5 2 3 1301 1 F204 F205
100p
B
6
5
B
GND
C
1300 F207 GND GND GND 3204 GND 470R 2205 470p 3205 470R 2206 470p GND GND F208 F209 F210 F211 F212 1 2 3 4 5 6 7 8 9 B9B-PH-K Y C CVBS AL AR
6203
D
6204
1202 B1 1300 C3 1301 D1 1401 E1 1402 E3 2200 A1 2201 A2 2202 A2 2203 A3 2204 B1 2205 D2 2206 D2 2207 B2 2208 B2 2209 D1 2400 E2 3200 A2 3201 B1 3202 B2 3204 D2 3205 D2 3206 D1 6200 A1 6201 A2 6202 C1 6203 C2 6204 C2 F200 B1 F201 A1 F202 B1 F203 C1 F204 D1 F205 D1 F206 D1 F207 C3 F208 C3 F209 C3 F210 D3 F211 D3 F212 D3
10u 25V
2202
2203
GND
3202
6201
75R 2207
100p
75R
100n
10n
D
F206
GND
GND
100n
3206
75R 2209
E
1401 1 2 3 4 S4B-PH-K GND
1402 1 2 3 4 5401-042-101-92
E
2400 1n0 GND
GND
3139 243 31947
2005-04-12
1
2
3
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 37
Layout: Front Panel (Top View)
FrontPanel_Topview_31947_3355.pdf 2005-07-15
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 38
Front: Standby
Layout: Standby (Top View)
1
2
3
4
5
1302 C2 1303 C4 2300 D2 6300 D2 6301 D3 F300 C2 F301 C2 I300 C4
A
A
DC0
B
B
1302 F300 I300
1303
C
1 2 S2B-EH F301 BZX384-C6V8 BZX384-C6V8
EVQ11L05R
C
2300
6300
6301
2n2
D
GND
D
E
3139 243 32017 2005-04-12
E
1
2
3
4
5
FrontPanel_Topview_hmc1_32017_3355_02.pdf 2005-07-15
Circuit Diagrams and PWB Layouts
3139 785 3093x
7.
EN 39
Digital: Back-End Processor
1 2 3 4 5 6 7 8 9 10 11 12 13
1101 B10 1111 E10 2101 B10 2102 B11 2105 G12 2108 F1 2109 F2 2120 B6 2121 F9 2122 F9 2123 F9 2124 F9 2125 F9 2126 F10 2127 F10 2128 F10 2129 F10 2130 F10 2131 G8 2141 G9 2142 G9 2143 G10 2144 G10 2145 G10 2146 G10 2147 G10 2151 H10 2152 I10 2153 I10 2154 I10 2155 I10 2156 I10 2157 I11 2158 I11 2161 I12 2162 I12 2171 I10 2172 I10 2173 I10 2174 I10 2175 I10 2176 I10 2181 I11 2182 I12 2183 I12 2191 I12 2199 E11 3101 B1 3102 B1 3103 B1 3104 C1 3111 D5 3112 D6 3113 D6 3114 D6 3121 B6 3122 B6 3123 B6 3124 A9 3125 B9 3131 C9 3132 C9 3133 C9 3134 C9 3135 C9 3136 C9 3137 C9 3138 C9 3139 D9 3141 E7 3142 E8 3143 E7 3144 E8 3145 E7 3146 E8 3147 E7 3148 E8 3149 E7 3150 E8 3151 E7 3152 E8 3153 E7 3154 E8 3155 E7 3156 E8 3161 A11 3162 B12 3163 B10 3164 C10 3165 C10 3166 C10 3167 C10 3168 G13 3169 H13 3171-1 G1 3171-2 G1 3171-3 G1 3171-4 G1 3172-1 G1 3172-2 G1 3172-3 G1 3172-4 G1 3173-1 G1 3173-2 G1 3173-3 H1 3173-4 H1 3174-1 H1 3174-2 H1 3174-3 H1 3174-4 H1 3175-1 H1 3175-2 H1 3175-3 H1 3175-4 H1 3176-1 H1 3176-2 H1 3176-3 H1 3176-4 H1 3177-1 I1 3177-2 I1 3177-3 I1 3177-4 I1 3178-1 I1 3178-2 I1 3178-3 I1 3178-4 I1 3181-1 G4 3181-2 G4 3181-3 H4 3181-4 H4 3182-1 G4 3182-2 H4 3182-3 G4 3182-4 H4 3183-1 G4 3183-2 G4 3183-3 H4 3183-4 G4 3184-1 G4 3184-2 G4 3184-3 G4 3184-4 G4 3185-1 H4 3185-2 I4 3185-3 I4 3185-4 H4 3186-1 H4 3186-2 I4 3186-3 H4 3186-4 H4 3187-1 I4 3187-2 I4 3187-3 I4 3187-4 H4 3188-1 I4 3188-2 I4 3188-3 I4 3188-4 I4 3191 H8 3192 F12 3193 F12 3194 F12 3195 F12 3196 F12 3197 E12 3198 E12 3199 E11 5121 F9 5131 G8 5141 G9 5151 H10 5161 H11 5162 H12 5171 I10 5181 I11 6101 C3 7101-1 D5 7101-10 I7 7101-2 A5 7101-3 B12 7101-4 A2 7101-5 F7 7101-6 D2 7101-7 A8 7101-8 F3 7101-9 A12 7105 G12 7111-1 E12 7111-2 F13 F101 B6 F102 B6 F103 B6 T101 B1 T102 B1 T103 B1 T104 B1 T105 B1 T106 B1 T111 E11 T112 E11 T113 E11 T121 A11 T122 B11
Back-end Processor
A
3V3BE 7101-4 DMN-8602
Back-end Flash (BEF)
Communication (COM)
7101-9 DMN-8602
7101-7 DMN-8602
MISC
G1 DPLUS_0 BYPASS_PLL DMINUS_0 HOST_PO_0 HMST_ALE HMST_UDS HMST_UWE HMST_DTACK H2 Y8 V14 U9 W5 U5 W4 V5 V4 3V3BE V7 U7 W6 W7 U6 3124 22R 3