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HISTORY
Model Name : KDL-32/40/46D3000 SERVICE MANUAL Click on Page Number to display detail of changes.
Date
2007.04
Part Number
9-927-543-01
Description of Revisions
Original Manual.
Version 1.0
WAX3
RM-ED009
SERVICE MANUAL
MODEL
COMMANDER DEST
WAX3 CHASSIS
MODEL
COMMANDER DEST
KDL-32D3000 KDL-40D3000 KDL-46D3000
RM-ED009
AEP
RM-ED009
AEP
RM-ED009
AEP
KDL-32D3000 KDL-40D3000 KDL-46D3000
RM-ED009
UK
RM-ED009
UK
RM-ED009
UK
KDL-32D3000 / KDL-40D3000 / KDL-46D3000
RM-ED009
FLAT PANEL COLOR TV
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WAX3
RM-ED009
TABLE OF CONTENTS
Section Title Page 3 3 5 6 6 8 Section 3-6. 3-7. Title Board Replacement ............................................ TT Modes .......................................................... Page 23 23 1. GENERAL ................................................................... Caution ................................................................ Specifications ...................................................... UK Plug Warning ............................................... Connectors .......................................................... Self Diagnosis ..................................................... 2. DISASSEMBLY 2-1. Rear Cover Removal ........................................... 2-2. Stand Removal .................................................... 2-3. Bottom Frame Removal ...................................... 2-4. AC Inlet Removal ............................................... 2-5. Loudspeaker Removal ........................................ 2-6. Heatsink Removal ............................................... 2-7. BE1 Board Removal ........................................... 2-8. D1 and G3 Board Removal ................................ 2-9. H3 Board Removal ............................................. 2-10. H1 Board Removal ............................................. 2-11. H4 Board Removal ............................................. 2-12. U2 Board Removal ............................................. 2-13. D2 Board Removal ............................................. 2-14. Vesa Arm and LCD Panel Removal ................... 3. SET-UP ADJUSTMENTS 3-1. How to enter Service Mode ............................... 3-2. Signal Level Adjustment .................................... 3-2-1. Set up of AD calibration1 adjustment for terrestrial analog ............................................... 3-2-2. Y signal calibration1 adjustment for terrestrial analog ............................................... 3-2-3. C signal calibration1 adjustment for terrestrial analog ............................................... 3-2-4. Set up of AD calibration1 adjustment for video ................................................................ 3-2-5. Y signal calibration1 adjustment for PAL video ................................................................ 3-2-6. C signal calibration1 adjustment for PAL video ................................................................ 3-2-7. Set up of Y signal adjustment for video .......... 3-2-8. Y signal calibration1 adjustment for SECAM video ................................................................ 3-2-9. C signal calibration1 adjustment for SECAM video ................................................................ 3-3. Gamma Adjustment ........................................... 3-3-1. Preparation before Gamma Adjustment .......... 3-3-2. Set up mode for Gamma Adjustment .............. 3-3-3. Set up Trident Internal SG and Brightness measurement .................................................... 3-4. White Balance Adjustment ................................. 3-4-1. Set up mode for White Balance Adjustment ... 3-4-2. White Balance of colour temperature "Cool" .. 3-4-3. White Balance of colour temperature "Neutral" 3-4-4. White Balance of colour temperature "Warm1" 3-4-5. White Balance of colour temperature "Warm2" 3-5. Panel Replacement .............................................
9 9 10 10 11 11 12 13 13 14 14 15 15 16
17 17 17 17 17 18 18 18 18 18 19 19 19 19 19 20 20 20 21 22 23 23
4. DIAGRAMS 4-1. Block Diagrams(1) ............................................. Block Diagrams(2) ............................................. Block Diagrams(3) ............................................. 4-2. Circuit Board Location ........................................ 4-3. Schematic Diagrams and Printed Wiring Boards ................................................................. BE1 Board Schematic Diagram .......................... BE1 Printed Wiring Board .................................. BH Board Schematic Diagram ............................ BH Printed Wiring Board ................................... U2 Board Schematic Diagram ............................ U2 Printed Wiring Board .................................... D1 Board Schematic Diagram (KDL-40D30XX, KDL-46D30XX) .................. D1 Printed Wiring Board (KDL-40D30XX, KDL-46D30XX) .................. D2 Board Schematic Diagram (KDL-46D30XX Only) ..................................... D2 Printed Wiring Board (KDL-46D30XX Only) ..................................... G3 Board Schematic Diagram (KDL-40D30XX, KDL-46D30XX) .................. G3 Printed Wiring Board (KDL-40D30XX, KDL-46D30XX) .................. H1 Board Schematic Diagram ............................ H1 Printed Wiring Board .................................... H3 Board Schematic Diagram ............................ H3 Printed Wiring Board .................................... H4 Board Schematic Diagram ............................ H4 Printed Wiring Board ..................................
24 25 26 27 27 28 72 74 88 89 94 95 99 101 102 103 107 109 110 111 110 109 110
5. EXPLODED VIEWS 5-1. Chassis ................................................................ 112 5-2. Rear Cover, Stand & Bezel ................................. 113 5-3. Vesa Arm, Power Unit & Power Cords ............. 114 6. ELECTRICAL PARTS LIST .................................. 115
WARNING !! AN ISOLATION TRANSFORMER SHOULD BE USED DURING ANY SERVICE WORK TO AVOID POSSIBLE SHOCK HAZARD DUE TO LIVE CHASSIS, THE CHASSIS OF THIS RECEIVER IS DIRECTLY CONNECTED TO THE POWER LINE.
SAFETY-RELATED COMPONENT WARNING !! COMPONENTS IDENTIFIED BY SHADING AND MARKED ON THE SCHEMATIC DIAGRAMS, EXPLODED VIEWS AND IN THE PARTS LIST ARE CRITICAL FOR SAFE OPERATION. REPLACE THESE COMPONENTS WITH SONY PARTS WHOSE PART NUMBERS APPEAR AS SHOWN IN THIS MANUAL OR IN SUPPLEMENTS PUBLISHED BY SONY.
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WAX3
RM-ED009
SECTION 1 GENERAL CAUTION
Lead Free Soldered Boards
example 1
The circuit boards used in these models have been processed using Lead Free Solder. The boards are identified by the LF logo located close to the board designation e.g. F1, H1 etc [ see examples ]. The servicing of these boards requires special precautions to be taken as outlined below.
example 2
It is strongly recommended to use Lead Free Solder material in order to guarantee optimal quality of new solder joints. Lead Free Solder is available under the following part numbers :
Partnumber 7-640-005-19 7-640-005-20 7-640-005-21 7-640-005-22 7-640-005-23 7-640-005-24 7-640-005-25 7-640-005-26
Diameter 0.3mm 0.4mm 0.5mm 0.6mm 0.8mm 1.0mm 1.2mm 1.6mm
Remarks 0.25Kg 0.50Kg 0.50Kg 0.25Kg 1.00Kg 1.00Kg 1.00Kg 1.00Kg
Due to the higher melting point of Lead Free Solder the soldering iron tip temperature needs to be set to 370 degrees centigrade. This requires soldering equipment capable of accurate temperature control coupled with a good heat recovery characteristics. For more information on the use of Lead Free Solder, please refer to http://www.sony-training.com
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WAX3
RM-ED009
CAUTION
HIROSE MDF CONNECTOR INSERTION 1. TO INSERT THE CONNECTOR
(1) Press the middle part of the connector to confirm it locks. (2) Press the right side to confirm it is locked. (3) Press the left side to confirm it is locked.
CAUTION :The connector might not be properly locked when only pressed in the middle. Be sure to press both sides to confirm it is properly locked.
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WAX3
RM-ED009
SPECIFICATIONS
ITEM MODEL Television System Analogue: B/G/H, D/K, I, L E Digital: DVB-T/DVB-C Stereo System Channel Coverage Analogue: VHF : E2-E12 UHF : E21-E69 CATV : S1-S20 HYPER : S21-S41 D/K: R1-R12, R21-R69 L: F2-F10, B-Q, F21-F69 I: UHF B21-B69 Digital: VHF/UHF Color System Analogue: PAL, SECAM NTSC 3.58/4.43 (VIDEO ONLY) Digital: MPEG-2 MP@ML Analogue: PAL, SECAM NTSC 3.58/4.43 (VIDEO ONLY) Digital: MPEG-2 MP@ML
GERMAN/NICAM Stereo
Analogue: I U Digital: DVB-T/DVB-C NICAM Stereo
Analogue: I: UHF B21-B69 Digital: VHF/UHF
Projected Picture Size
LCD(Liquid Crystal Display) Panel Approx 80.0cm (KDL-32D30XX) Approx 101.5cm (KDL-40D30XX) Approx 116.8cm (KDL-46D30XX).
Sound Output Right and Left speaker Sub-woofer General Specifications Power Requirements 220 - 240V Approx 149W/0.3W (KDL-32D30XX) Approx 169W/0.3W (KDL-40D30XX) Approx 199W/0.3W (KDL-46D30XX) 2 x 10W (RMS)
Input/Output Terminals [REAR] Inputs for Audio and Video signals. Inputs for RGB. Outputs of TV Video and Audio signals.
1: 21-pin Euro connector (CENELEC standard)
Power Consumption/ Standby
Dimensions Inputs for Audio and Video signals. Inputs for RGB. Outputs of Video and Audio signals (Selectable). SmartLink interface.
2: 21-pin Euro connector (CENELEC standard)
Approx 790x581x214mm (KDL-32D30XX with stand) Approx 790x530x100mm (KDL-32D30XX without stand) Approx 981x696x265mm (KDL-40D30XX with stand) Approx 981x643x110mm (KDL-40D30XX without stand) Approx 1114x782x306mm (KDL-46D30XX with stand) Approx 1114x730x115mm (KDL-46D30XX without stand)
Weight
Approx 17.5kg (KDL-32D30XX with stand) Approx 15.0kg (KDL-32D30XX without stand) Approx 25.5kg (KDL-40D30XX with stand) Approx 21.5kg (KDL-40D30XX without stand) Approx 32.5kg (KDL-46D30XX with stand) Approx 28.0kg (KDL-46D30XX without stand)
Phono Jacks
Output Connectors variable for Audio Signals.
Supplied Accessories
RM-ED009 Remote Commander (1) IEC designated R06 battery (2) Mains lead (Type BF) (1) Coaxial cable (1) Support belt (1) and screws (2)
HDMI Inputs PC Input CAM
HDMI Connectors 15 Pin D Sub Connector Conditional Access Module Other Features
Wide viewing angle LCD Panel, Intergrated digital TV Tuner, Live colour creation, BBE digtal, Trusurround XT, 3 HDMI inputs, PC input.
Input/Output Terminals [SIDE] Headphone jack Stereo mini jack Audio input Phono jacks Video input Phono jack S Video input 4 pin mini DIN HDMI Input HDMI Connector
Remote control system : Infrared control 3V dc 2 batteries IEC designation R06 (size AA)
Power requirements
Design and specifications are subject to change without notice.
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WAX3
RM-ED009
UK PLUG WARNING
WARNING (UK Models only)
The flexible mains lead is supplied connected to a B.S. 1363 fused plug having a fuse of 13 AMP rating. Should the fuse need to be replaced, use a 13AMP FUSE approved by ASTA to BS 1362, ie one that carries the ASA mark. T
IF THE PLUG SUPPLIED WITH THIS APPLIANCE IS NOT SUITABLE FOR THE OUTLET SOCKETS IN YOUR HOME, IT SHOULD BE CUT OFF AND AN APPROPRIATE PLUG FITTED. THE PLUG SEVERED FROM THE MAINS LEAD MUST BE DESTROYED AS A PLUG WITH BARED WIRES IS DANGEROUS IF ENGAGED IN A LIVE SOCKET.
How to replace the fuse. Open the fuse compartment with a screwdriver blade and replace the fuse.
FUSE
When an alternative type of plug is used, it should be fitted with a 13 AMP FUSE, otherwise the circuit should be protected by a 13AMP FUSE at the distribution board.
CONNECTORS
21 Pin Connector (SCART)
Pin No 1 1 2 Signal Audio output B (right) Audio input B (right) Audio output A (left) Ground (audio) Ground (blue) Audio input A (left) Blue input Function select (AV control) Ground (green) AVlink Green Open Ground (red) Ground (blanking) _ 15 _ _ Red input (S signal Chroma input) Blanking input (Ys signal) Ground (video output) Ground (video input) Video output Video input 20 1V +/- 3dB, 75ohms, positive sync 0.3V (-3+10dB) 1V +/- 3dB, 75ohms, positive sync 0.3V (-3+10dB) 1V +/- 3dB, 75ohms, positive sync 0.3V (-3+10dB) 0.7 +/- 3dB, 75 ohms, positive 0.3 +/- 3dB, 75 ohms, positive High state (1-3V) Low state (0-0.4V) Input impedence : 75 ohms Green signal : 0.7 +/- 3dB, 75 ohms, positive Standard level : 0.5V rms Output impedence : More than 10kohm* 0.7 +/- 3dB, 75 ohms positive High state (9.5-12V) : Part mode Low state (0-2V) : TV mode Input impedence : More than 10K ohms Input capacitance : Less than 2nF Signal level Standard level : 0.5V rms Output impedence : Less than 1kohm* Standard level : 0.5V rms Output impedence : More than 10kohm* Standard level : 0.5V rms Output impedence : Less than 1kohm*
2 3
21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 3 2 1 4
4 5 6 7 8
9 10 11 12 13 14
- -
16 17 18 19
- 21
Video input Y (S signal) Common ground (plug, shield)
Connected
Not Connected (open)
* at 20Hz - 20kHz
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RM-ED009
HDMI Connector
Pin No 1 2 3 4 5 6 7 8 9 10 Signal Assignment TMDS Data2+ TMDS Data2 Shield TMDS Data2TMDS Data1+ TMDS Data1 Shield TMDS Data1TMDS Data0+ TMDS Data0 Shield TMDS Data0TMDS Clock+ Pin No 11 12 13 14 15 16 17 18 19 Signal Assignment TMDS Clock Shield TMDS ClockCEC Reserved (N.C. on device) SCL SDA DDC/CEC Ground +5V Power Hot Plug Detect
15 Pin D Sub Connector (PC)
Pin No 1
1
Signal Assignment Red Out Green Out Blue Out Unused Ground Red Return Green Return (Ground) Blue Return (Ground)
Pin No 9 10 11 12 13 14 15
Signal Assignment +5V DC Sync Return (Ground) Monitor ID0 in Display DCC Serial Data Horizontal Sync Vertical Sync DCC Serial Clock
2 3 4 5 6 7 8
Rear Connection Panel
Side Connection Panel
S Video socket pin configuration
S-Video socket
Pin No 1 2 3
Signal Ground Ground Y (S signal) input
Signal Level 1V+/- 3dB 75ohm, positive Sync. 0.3V -3 +10dB 0.3V+/- 3dB 75ohm, positive Sync.
4
C (S signal) input
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WAX3
RM-ED009
WAX3 SELF DIAGNOSTIC SOFTWARE
The identification of errors within the WAX3 chassis is triggered in one of two ways :- 1: Busy or 2: Device failure to respond to IIC. In the event of one of these situations arising the software will first try to release the bus if busy (Failure to do so will report with a continuous flashing LED) and then communicate with each device in turn to establish if a device is faulty. If a device is found to be faulty the relevant device number will be displayed through the LED (Series of flashes which must be counted).
LED Error Code
Monitoring Items Main power supply voltage error DC_ALERT1 DC_ALERT2 DC_ALERT3 Backlight error Internal temperature error Audio error Fan error (HFR model only) Digital FE error Trident error HFR error *1 Balancer error
Number of Standby LED (Red) Blinking 2 3 4 5 6 7 *2 8 9 10 11 12 13
Note *1: It is judged as HFR Error when Safety Shutdown is activated due to either of FRC ACK error, 1.5V error, 2.5V/3.3V error, or Panel 12V error. Note *2: The number of LED-blinking times for Internal temperature error is also used for BH-board temperature error: these two errors are distinguished from whether TV Shutdown is involved or not.
2.0 0.3 0.3
2.0
The figure above illustrates the LED display of DC_ALERT2. Blinking is repeated in cycles of 0.3sec for the specified times, and, after the 2sec light-off period, the blinking is again repeated for the same times. Note that the 2sec light-off period is fixed regardless of contents of error.
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WAX3
RM-ED009
SECTION 2 DISASSEMBLY
2-1. REAR COVER REMOVAL
2-2. STAND REMOVAL
9
WAX3
RM-ED009
2-3. BOTTOM FRAME REMOVAL
2-4. AC INLET REMOVAL
10
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RM-ED009
2-5. LOUDSPEAKER REMOVAL
2-6. HEATSINK REMOVAL
11
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RM-ED009
2-7. BE1 BOARD REMOVAL
12
WAX3
RM-ED009
2-8. D1 and G3 BOARD REMOVAL
(KDL-40/46D30XX)
(KDL-40/46D30XX)
2-9. H3 BOARD REMOVAL
13
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RM-ED009
2-10. H1 BOARD REMOVAL
2-11. H4 BOARD REMOVAL
14
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RM-ED009
2-12. U2 BOARD REMOVAL
2-13. D2 BOARD REMOVAL
(KDL-46D30XX)
15
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RM-ED009
2-14. VESA ARM and LCD PANEL REMOVAL
16
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SECTION 3
3-1. How to enter Service Mode
Service adjustments to this model can be performed using the supplied remote Commander RM-ED009.
SET-UP ADJUSTMENTS 3-2. Signal Level Adjustment
3-2-1. Set up of AD calibration1 adjustment for terrestrial analog. The following adjustments are done via ECS.
1. 2.
Turn on the power to the TV set and enter into the stand-by mode. Press the following sequence of buttons on the Remote Commander.
1. Send ECS_ADJUST_LEVEL_SETTING_INIT command. 2. Set: SREG_NR = 3 (High), HREG_P4_CVD2_85[2:0] = 0 and ADJ_COLOR_PAL = 3. 3. Set the following registration items.
Screen Size SREG_TARGET_Y_RF SREG_TCD3_CONT_PAL_RF SREG_TCD3_SAT_PAL_RF SREG_TCD3_HUE_PAL_RF 32" 160 128 128 128 40" 160 128 128 128 46" 160 128 128 128
i+
(ON SCREEN DISPLAY)
5
(DIGIT 5)
+
(VOLUME +)
TV I/
(TV)
3.
The following menu will then appear on the screen.
3-2-2. Y signal calibration1 adjustment for terrestrial analog. 1. Input PAL colour bar 75%Y, 75%C via terrestrial input.
4. 5. 6.
Move to the relevant command using the up or down arrow buttons on the remote commander. Press the right arrow button to enter into the required menu item. Press the `Menu' button on the remote commander to quit the Service Mode when all adjustments have been completed.
2. Send ECS_ADJUST_TCD3_CONT_RF command. 3. Read the value of S-REG_APL_LUMA via ECS. Confirming that the value is within spec of the table below.
Note : · After carrying out the service adjustments, to prevent the customer accessing the `Service Menu' switch the TV set OFF and then ON.
AD-ADJUST RF SPEC Reference register name
SPEC
SREG_TARGET_Y_RF±2 S-REG_APL_LUMA
3-2-3. C signal calibration1 adjustment for terrestrial analog. 1. Send ECS_ADJUST_TCD3_HUE_RF command. 2. Read S-REG_AVE_VAL_B_AREA0 via ECS. (READ_AREA = 0). 3. Read S-REG_AVE_VAL_B_AREA6 via ECS. (READ_AREA = 6). 4. Confirm that 8 bits of MSB of item number 2) and 3) are within spec of the table below.
Reference Item S-REG_AVE_VAL_B_AREA* difference Spec. ±2
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RM-ED009
5. Read S-REG_TCD3_SATURATION via ECS. 6. Restore the original value. S-REG_NR = 4 (Auto). 7. Send ECS command ADJUST_LEVEL_SETTING_CLR.
4. Read S-REG_AVE_VAL_B_AREA6 via ECS (READ_AREA = 6). 5. Confirm that 8 bits of MSB of item number 3) and 4) are within spec of the table below.
Reference Item S-REG_AVE_VAL_B_AREA* difference Spec. ±2
3-2-4. Set up of AD calibration1 adjustment for video. 1. Send ECS_ADJUST_LEVEL_SETTING_INIT command. 2. Set SREG_NR = 1 (Low), HREG_P4_CVD2_85[2:0] = 0 and SREG_ADJ_COLOR_PAL = 3. 3. Set the following registration items.
Screen Size SREG_TARGET_Y_V SREG_TCD3_CONT_PAL_V SREG_TCD3_SAT_PAL_V SREG_TCD3_HUE_PAL_V 32" 160 128 128 128 40" 160 128 128 128 46" 160 128 128 128
6. Read S-REG_TCD3_SATURATION via ECS. 7. Restore original value. SREG_NR = 2 (Mid). 8. Send ECS command ADJUST_LEVEL_SETTING_CLR.
3-2-7. Set up of Y signal adjustment for video. 1. Send ECS_ADJUST_LEVEL_SETTING_INIT command. 2. Set SREG_NR = 1 (Low), HREG_P4_CVD2_85[2:0] = 0 and SREG_ADJ_COLOR_PAL = 2. 3. Set the following registration items.
3-2-5. Y signal calibration1 adjustment for PAL video. 1. Input PAL colour bar 75%Y, 75%C via AV1 input.
Screen Size SREG_TARGET_Y_V SREG_TCD3_CONT_SCM_V SREG_TCD3_SAT_SCM_V SREG_TCD3_HUE_SCM_V
32" 160 128 128 128
40" 160 128 128 128
46" 160 128 128 128
3-2-8. Y signal calibration1 adjustment for 2. Send ECS_ADJUST_TCD3_CONT_V command. 3. Read the value of S-REG:APL_LUMA via ECS. Confirming that the value is within spec of the table below.
AD-Adjust Video Spec. Reference register name SREG_TARGET_Y_V±2 S-REG_APL_LUMA Spec.
SECAM video. 1. Input SECAM colour bar 75%Y, 75%C via AV1 input.
4. Read the value of S-REG:TCDS_contrast via ECS.
2. Send ECS_ADJUST_TCD3_CONT_V command. 3. Read the value of S-REG:APL_LUMA via ECS. Confirming that the value is within spec of the table below.
AD-Adjust Video Spec. Reference register name SREG_TARGET_Y_V±2 S-REG_APL_LUMA Spec.
3-2-6. C signal calibration1 adjustment for PAL video. 1. Input PAL colour bar 75%Y, 75%C via AV1 input.
4. Read the value of S-REG:TCDS_contrast via ECS.
2. Send ECS_ADJUST_TCD3_HUE_V command. 3. Read S-REG_AVE_VAL_B_AREA0 via ECS (READ_AREA = 0). - 18 -
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3-2-9. C signal calibration1 adjustment for SECAM video. 1. Input SECAM colour bar 75%Y, 75%C via AV1 input.
·
[Case A] if y => 0.298, check that the brightness is equal to or greater than Spec A. Set and save WB register A as follows :WB_GAM_G01 = 124 WB_GAM_G02 = 120 WB_GAM_G03 = 116 WB_GAM_G04 = 118 WB_GAM_G05 = 112 WB_GAM_G06 = 109 WB_GAM_G07 = 108
2. Send ECS_ADJUST_TCD3_HUE_V command. 3. Read S-REG_AVE_VAL_B_AREA0 via ECS (READ_AREA = 0). 4. Read S-REG_AVE_VAL_B_AREA6 via ECS (READ_AREA = 6). 5. Confirm that 8 bits of MSB of item number 3) and 4) are within spec of the table below.
Reference Item S-REG_AVE_VAL_B_AREA* difference Spec. ±2
·
[Case B] if 0.293 =< Y < 0.298, check that the brightness is equal to or greater than Spec B. Set and save WB register B as follows :WB_GAM_G01 = 126 WB_GAM_G02 = 124 WB_GAM_G03 = 122 WB_GAM_G04 = 123 WB_GAM_G05 = 120 WB_GAM_G06 = 119 WB_GAM_G07 = 118
6. Read S-REG_TCD3_SATURATION via ECS. 7. Restore original value. SREG_NR = 2 (Mid). 8. Send ECS command ADJUST_LEVEL_SETTING_CLR.
·
[Case C] if y < 0.293, check that the brightness is equal to or greater than Spec C. Set and save WB register C as follows :WB_GAM_G01 = 128 WB_GAM_G02 = 128 WB_GAM_G03 = 128 WB_GAM_G04 = 128 WB_GAM_G05 = 128 WB_GAM_G06 = 128 WB_GAM_G07 = 128 If the brightness is lower than the spec consider the panel as no good.
3-3. Gamma Adjustment
The following adjustments are done via ECS. Note: Before Gamma adjustment can begin the set needs 20 minutes aging with an ambient temperature between 22 to 28 degrees centigrade. 3-3-1. Preparation before Gamma Adjustment Set SREG_BL_MANU = 1. Set SREG_MUTE_DISPLAY = 0. Set SREG_BL_GAIN = 255. Send ECS command OSD_OFF. Send ECS command CSC_BYPASS_INIT_SET. Wait for successful retrieval. Set SREG_BRIGHT = 100(max). Set SREG_ECO_MODE = 0(Standard). Set SREG_TEST_G_LEVEL = 255. Set SREG_GAMMA_EN = 0(OFF). Measure `maximum brightness' and `panel peak white color' and record x, y and Y data. 12. Confirm this data with the following table.
Spec A 32" 40" 46" 440cd/m^2 440cd/m^2 440cd/m^2 Spec B 425cd/m^2 425cd/m^2 425cd/m^2 Spec C 410cd/m^2 410cd/m^2 410cd/m^2
·
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11.
3-3-2. Set up mode for Gamma Adjustment 1. 2. 3. 4. 5. 6. 7. Set SREG_BRIGHT = 50. Set SREG_GAMMA_EN = 1 (On). Set SREG_COL_MTRX_IDX_OFF = 4. Set SREG_COL_MTRX_IDX_L = 4. Set SREG_COL_MTRX_IDX_M = 4. Set SREG_COL_MTRX_IDX_H = 4. Set SREG_G_GAM_IDX_OFST = 15.
3-3-3. Set up Trident Internal SG and Brightness measurement 1. 2. 3. 4. 5. Set up SREG_TEST_G_LEVEL = 204. Measure brightness A. Set up SREG_TEST_G_LEVEL = 102. Measure brightness B. Set up SREG_MEASURE_GAM_01 = (brightness B/brightness A)*10000. 6. Send Gamma_Tbl_Search_1 command. 7. Set up SREG_TEST_G_LEVEL = 153.
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8. Measure brightness C. 9. Set up SREG_MEASURE_GAM_02 = (brightness C/brightness A)*10000. 10. Send Gamma_Tbl_Search_2 command. 11. Wait for calculation in UCOM. 12. Calculate register SREG_G_GAM_IDX_OFST using the formula and tables below. SREG_G_GAM_IDX_OFST = A - C - D
Offset Value C temp75_temp=<7280 2 temp75_temp=<7000 2 temp75_temp=<8256 2 7280
3-4. White Balance Adjustment
The following adjustments are done via ECS. 3-4-1. Set up mode for White Balance Adjustment 1. 2. 3. 4. Set up SREG_COL_MTRX_IDX_OFF = 3. Set up SREG_COL_MTRX_IDX_L = 3. Set up SREG_COL_MTRX_IDX_M = 3. Set up SREG_COL_MTRX_IDX_H = 3. 3-4-2. White Balance of Colour Temperature "Cool" 1. Refer to the table below and apply offset.
temp75_temp temp75_temp<9856 32" 9856<=temp75_temp<10500 10500<=temp75_temp temp75_temp<9250 40" 9250<=temp75_temp<10240 10240<=temp75_temp U -0.0015 -0.001 0 -0.0007 -0.0004 0 -0.0007 -0.0002 0 V 0.002 0.001 0 0.002 0.0004 0 0.0018 0.0007 0
32"
40"
46"
Offset Value D Y>=550cd/m^2 32" 2 Y>=535cd/m^2 40" 2 Y>=550cd/m^2 46" 2 550cd/m^2>Y>=530cd/m^2 1 535cd/m^2>Y>=510cd/m^2 1 550cd/m^2>Y>=520cd/m^2 1 530cd/m^2>Y
temp75_temp<9665
0 510cd/m^2>Y 0 520cd/m^2>Y 0
46"
9665<=temp75_temp<10240 10240<=temp75_temp
2. Set up SREG_COLOR_TEMP = 0 (Cool). 3. Set up SREG_TEST_G_LEVEL = 204 (80 IRE). 4. Adjust SREG_WB_GAM_R(B)05 chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.1918 0.1916 0.1909 V 0.4287 0.4290 0.4295 Tolerance 0.0008->0.0014 0.0008->0.0014 0.0008->0.0014
13. Set SREG_G_GAM_IDX_OFST.
5. Set up SREG_TEST_G_LEVEL = 128 (50 IRE). 6. Adjust SREG_WB_GAM_R(B)04 chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.1915 0.1921 0.1912 V 0.4287 0.4295 0.4285 Tolerance 0.0014->0.00196 0.0014->0.00196 0.0014->0.00196
- 20 -
WAX3
RM-ED009
7. Set up SREG_TEST_G_LEVEL = 76 (30 IRE). 8. Adjust SREG_WB_GAM_R(B)03 chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.1915 0.1919 0.1908 V 0.4279 0.4293 0.4278 Tolerance
3-4-3. White Balance of Colour Temperature "Neutral" 1. Refer to the table below and apply offset.
temp75_temp U -0.002 -0.001 0 -0.0008 -0.0005 0 -0.0008 -0.0003 0 V 0.001 0.0005 0 0.0004 0.0001 0 0.0011 0.0006 0
0.0014->0.00196->0.0028
temp75_temp<9856
0.0014->0.00196->0.0028
32"
0.0014->0.00196->0.0028
9856<=temp75_temp<10500 10500<=temp75_temp
9. Set up SREG_TEST_G_LEVEL = 51 (20 IRE). 10. Adjust SREG_WB_GAM_R(B)02 chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.1918 0.1927 0.1905 V 0.4276 0.4298 0.4267 Tolerance
temp75_temp<9250 40" 9250<=temp75_temp<10240 10240<=temp75_temp temp75_temp<9665
0.0014->0.00196->0.0028
46"
0.0014->0.00196->0.0028
9665<=temp75_temp<10240 10240<=temp75_temp
0.0014->0.00196->0.0028
11. The value of SREG_WB_GAM_R(B)01 is determined by the following conditions. a). If WB_GAM_R(B)02 < WB_GAM_R(B)03
2. Set up SREG_COLOR_TEMP = 1 (Neutral). 3. Set up SREG_TEST_G_LEVEL = 204 (80 IRE). 4. Adjust SREG_WB_R(B)05_OFST chroma values so that they are within tolerance in the table below.
U V 0.4432 0.4426 0.4430 Tolerance 0.0008->0.0014 0.0008->0.0014 0.0008->0.0014
·
SREG_WB_GAM_R(B)01 = SREG_WB_GAM_R(B)02 + {WB_GAM_R(B)02 - WB_GAM_R(B)03} b). If SREG_WB_GAM_R(B)02 >= SREG_WB_GAM_R(B)03
32" 40" 46"
0.1956 0.1931 0.1929
·
SREG_WB_GAM_R(B)01 = SREG_WB_GAM_R(B)02 12. The value of SREG_WB_GAM_R(B)06~07 is determined by the following conditions. a). If SREG_WB_GAM_B05 > 154 and SREG_WB_GAM_ R05 > 128
5. Set up SREG_TEST_G_LEVEL = 128 (50 IRE). 6. Adjust SREG_WB_GAM_R(B)04_OFST chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.1943 0.1933 0.1927 V 0.4430 0.4432 0.4428 Tolerance 0.0014->0.00196 0.0014->0.00196 0.0014->0.00196
· · · · ·
SREG_WB_GAM_R(B)06 = SREG_WB_GAM_R(B)05 {SREG_WB_GAM_R(B)05 - SREG_WB_GAM_R(B)04} /2 SREG_WB_GAM_R(B)07 = 128 b). If SREG_WB_GAM_R05 =< 128 SREG_WB_GAM_B06 = SREG_WB_GAM_B05- {SREG_ GAM_B05 - WB_GAM_B04} / 2 SREG_WB_GAM_B07 = 128 SREG_WB_GAM_R06 = SREG_WB_GAM_R07 = SREG_WB_GAM_R05 c). If SREG_WB_GAM_B05 =< 154
7. Set up SREG_TEST_G_LEVEL = 76 (30 IRE). 8. Adjust SREG_WB_GAM_R(B)03_OFST chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.1947 0.1936 0.1927 V 0.4441 0.4441 0.4431 Tolerance 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028
·
SREG_WB_GAM_R(B)06 = SREG_WB_GAM_R(B)07 = SREG_WB_GAM_R(B)05 13. Send WB_SAVE command. - 21 -
WAX3
RM-ED009
9. Set up SREG_TEST_G_LEVEL = 51 (20 IRE). 10. Adjust SREG_WB_GAM_R(B)02_OFST chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.1934 0.1918 0.1919 V 0.4435 0.4458 0.4413 Tolerance
4. Adjust SREG_WB_R(B)05_OFST chroma values so that they are within tolerance in the table below.
U 32" 0.1973 0.1952 0.1954 V 0.4510 0.4509 0.4514 Tolerance 0.0008->0.0014 0.0008->0.0014 0.0008->0.0014
0.0014->0.00196->0.0028 40" 0.0014->0.00196->0.0028 46" 0.0014->0.00196->0.0028
11. Set the value of SREG_WB_GAM_R(B)01_OFST as follows
· · ·
5. Set up SREG_TEST_G_LEVEL = 128 (50 IRE). 6. Adjust SREG_WB_GAM_R(B)04_OFST chroma values so that they are within tolerance in the table below.
U 32" 0.1972 0.1961 0.1957 V 0.4503 0.4522 0.4506 Tolerance 0.0014->0.00196 0.0014->0.00196 0.0014->0.00196
SREG_WB_R(B)01_OFST = SREG_WB_R(B)_02_OFST + {SREG_WB_R(B)02_OFST-SREG_WB_R(B)03_OFST} 12. Set the value of SREG_WB_R06~07_OFST as follows SREG_WB_R(B)07_OFST = SREG_WB_R(B)05_OFST + {SREG_WB_R(B)05_OFST - SREG_WB_R(B)04_OFST}
40" 46"
SREG_WB_R(B)06_OFST = SREG_WB_R(B)05_OFST + {SREG_WB_R(B)05_OFST - SREG_WB_R(B)04_OFST}/2
13. Send COLOR_SAVE command.
7. Set up SREG_TEST_G_LEVEL = 76 (30 IRE). 8. Adjust SREG_WB_GAM_R(B)03_OFST chroma values so that they are within tolerance in the table below.
U 32" 0.1965 0.1969 0.1956 V 0.4522 0.4527 0.4509 Tolerance 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028
3-4-4. White Balance of Colour Temperature "Warm 1" 1. Refer to the table below and apply offset.
temp75_temp temp75_temp<9856 32" 9856<=temp75_temp<10500 10500<=temp75_temp temp75_temp<9250 40" 9250<=temp75_temp<10240 10240<=temp75_temp temp75_temp<9665 46" 9665<=temp75_temp<10240 10240<=temp75_temp U -0.002 -0.0012 0 -0.0011 -0.0006 0 -0.001 -0.0003 0 V 0.0005 0.0005 0 0 0 0 0.0008 0.0004 0
32" 40" 46"
40" 46"
9. Set up SREG_TEST_G_LEVEL = 51 (20 IRE). 10. Adjust SREG_WB_GAM_R(B)02_OFST chroma values so that they are within tolerance in the table below.
U 0.1948 0.1970 0.1944 V 0.4527 0.4528 0.4489 Tolerance 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028
11. Set the value of SREG_WB_GAM_R(B)01_OFST as follows
· ·
2. Set up SREG_COLOR_TEMP = 2 (Warm 1). 3. Set up SREG_TEST_G_LEVEL = 204 (80 IRE).
SREG_WB_R(B)01_OFST = SREG_WB_R(B)_02_OFST + {SREG_WB_R(B)02_OFST-SREG_WB_R(B)03_OFST} 12. Set the value of SREG_WB_R06~07_OFST as follows SREG_WB_R(B)07_OFST = SREG_WB_R(B)05_OFST + {SREG_WB_R(B)05_OFST - SREG_WB_R(B)04_OFST}
·
SREG_WB_R(B)06_OFST = SREG_WB_R(B)05_OFST + {SREG_WB_R(B)05_OFST - SREG_WB_R(B)04_OFST} / 2
13. Send COLOR_SAVE command.
- 22 -
WAX3
RM-ED009
3-4-5. White Balance of Colour Temperature "Warm 2" 1. Refer to the table below and apply offset.
9. Set up SREG_TEST_G_LEVEL = 51 (20 IRE). 10. Adjust SREG_WB_GAM_R(B)02_OFST chroma values so that they are within tolerance in the table below.
U V 0.4722 0.4650 0.4628 Tolerance 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028
temp75_temp temp75_temp<9856 32" 9856<=temp75_temp<10500 10500<=temp75_temp temp75_temp<9250 40" 9250<=temp75_temp<10240 10240<=temp75_temp temp75_temp<9665 46" 9665<=temp75_temp<10240 10240<=temp75_temp
U -0.0025 -0.0015 0 -0.0017 -0.0009 0 -0.0015 -0.0004 0
V
32" 0.2012 0.2056 0.2029
0
40"
0
46"
0 -0.0005 -0.0002 0 0.0003 0.0003 0
11. Set the value of SREG_WB_GAM_R(B)01_OFST as follows
· · ·
SREG_WB_R(B)01_OFST = SREG_WB_R(B)_02_OFST + {SREG_WB_R(B)02_OFST-SREG_WB_R(B)03_OFST} 12. Set the value of SREG_WB_R06~07_OFST as follows SREG_WB_R(B)07_OFST = SREG_WB_R(B)05_OFST + {SREG_WB_R(B)05_OFST - SREG_WB_R(B)04_OFST}
SREG_WB_R(B)06_OFST = SREG_WB_R(B)05_OFST + {SREG_WB_R(B)05_OFST - SREG_WB_R(B)04_OFST} / 2
2. Set up SREG_COLOR_TEMP = 3 (Warm 2). 3. Set up SREG_TEST_G_LEVEL = 204 (80 IRE). 4. Adjust SREG_WB_R(B)05_OFST chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.2032 0.2055 0.2034 V 0.4667 0.4633 0.4633 Tolerance 0.0008->0.0014 0.0008->0.0014 0.0008->0.0014
13. Send COLOR_SAVE command.
3-5. Panel Replacement
When replacing the panel please reset the gamma and white balance before performing W/B (See page 20, 3-4) for new panel.
3-6. Board Replacement
5. Set up SREG_TEST_G_LEVEL = 128 (50 IRE). 6. Adjust SREG_WB_GAM_R(B)04_OFST chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.2033 0.2060 0.2049 V 0.4674 0.4661 0.4651 Tolerance 0.0014->0.00196 0.0014->0.00196 0.0014->0.00196
When replacing the `BE1' board please readjust the AD (See page 17, 3-2) and readjust the W/B (See page 20, 3-4). Note : In the event of a `BE1' board being re-used in service, please ensure that the Serial number is cleared in the NVM.
3-7. TT Modes
81 84 91 92 93 Digital BER Display TS CI Path Through Disable software Download TS CI Path Through With ReadSolomon Off LNA Setting On/Off (Toggle)
7. Set up SREG_TEST_G_LEVEL = 76 (30 IRE). 8. Adjust SREG_WB_GAM_R(B)03_OFST chroma values so that they are within tolerance in the table below.
U 32" 40" 46" 0.2027 0.2067 0.2030 V 0.4681 0.4647 0.4636 Tolerance 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028 0.0014->0.00196->0.0028
- 23 -
WAX3
RM-ED009
4-1. BLOCK DIAGRAMS (1)
WAX3D AEP 32
1-910-LUG-LUG 1P
1-910-BJ-G1-INV (14P)
CN101 (3P)
H1 FAN
(3P)
Conf-Trial
1-910-BH-FAN
Panel T-CON
LVDS 51P
1-910-BJ-G1
LVDS 40P
CN3008 (20P)
INV G1H
CN4003 (5P)
BH
CN8101 (6P)
CN6201 (13P)
CN6202 (12P)
LVDS 51P
CN4001 (12P)
CN4002 (6P)
1-910-BJ-H1H3H4
BE1
1-910-BJ-U2 CN1400 ( P)
CN201 ( P) CN251 (21P)
CN4500 LVDS 40P
CN3003 chipdebuger CN3004 ECS CN3009 forHOTEL
CN5504 HDMI(21P)
CN2000 SP(4P) 1-910-BJ-SP
U2
CN401 (3P)
H4
CN301 (9P)
H3
- 24 -
WAX3
RM-ED009
4-1. BLOCK DIAGRAMS (2)
WAX3D AEP 40
CN101 (3P)
H1 Conf-Trial
LVDS 51P
Panel T-CON
CN6705 (8P)
CN6704 (13P)
D1_40"HFR
CN6600 (2P) CN6501 CN6502 (2P) (2P) 1-910-G2-D1(3Pin)
LVDS 51P
1-910-Z-D1(7Pin)
(5P)
CN6203 (11P)
LVDS 40P
CN3008 (20P)
CN4003 (5P)
BH
CN4001 (12P)
1-910-Z-G2 CN6700 CN6701 (2P) (7P)
(2P)
CN4002 (6P)
1-910-BJ-G3(11Pin)
1-910-BJ-H1H3H4
Invertor
1-910-G3-D1(8Pin)
G
1-910-BJ-G3
CN6204 (8P)
BE1
1-910-BJ-U2 CN1400 ( P) CN201 ( P)
CN4500 LVDS 40P
CN3003 chipdebuger CN3004 ECS CN3009 forHOTEL
CN6202 (12P)
CN5504 HDMI (21P)
CN251 (21P)
CN2000 SP(4P) 1-910-BJ-SP
U2
CN401 (3P)
H4
CN301 (9P)
H3
- 25 -
WAX3
RM-ED009
4-1. BLOCK DIAGRAMS (3)
LVDS 51P
Panel T-CON
1-910-D1-D2
CN6950 CN6900 (13P) (2P)
1-910-Z-D1
CN6705 (8P)
CN6704 (13P)
1-910-Z-D1(7Pin)
(5P)
CN3008 (20P)
1-910-G3-D1(3Pin) 1-910-LUG-FASTEN
CN6203 (11P)
CN6501 CN6502 (2P) (2P)
LVDS 40P
CN4003 (5P)
CN6600 (2P)
LVDS 51P
BH
CN4001 (12P)
(2P)
CN4002 (6P)
1-910-BJ-G3(12Pin)
1-910-BJ-H1H3H4
CN6204 (8P)
1P
1-910-G3-D1(8Pin)
BE1
1-910-BJ-U2 CN1400 ( P)
Invertor
CN201 ( P)
CN4500 LVDS 40p
CN3003 chipdebuger CN3004 ECS CN3009 forHOTEL
G3
1-910-BJ-G3(11Pin)
CN6202 (12P)
CN2000 SP(4P) 1-910-BJ-SP
CN401 (3P)
H4
CN301 (9P)
H3
- 26 -
Conf-Trial
CN251 (21P)
Invertor
CN5504 HDMI (21Pin)
U2
(2P)
CN6700 CN6701 (2P) (7P)
1-910-G3-D2
1-910-Z-D2
WAX3D AEP 46
CN101 (3P)
H1
CN6951 (2P)
WAX3
RM-ED009
4-2. CIRCUIT BOARD LOCATION 5-2. CIRCUIT BOARD LOCATION
Reference Information
RESISTOR RN RC FPRD FUSE : METAL FILM : SOLID : NON FLAMMABLE CARBON : NON FLAMMABLE FUSIBLE : NON FLAMMABLE METAL OXIDE : NON FLAMMABLE CEMENT : NON FLAMMABLE WIREWOUND : ADJUSTMENT RESISTOR COIL CAPACITOR LF-8L TA PS PP PT MPS : MICRO INDUCTOR : TANTALUM : STYROL : POLYPROPYLENE : MYLAR : METALIZED POLYESTER : METALIZED POLYPROPYLENE : BIPOLAR : HIGH TEMPERATURE : HIGH RIPPLE
H1
D2 (KDL-46D30XX)
C
BH D1 (KDL-40/46D30XX)
C
NBE1
RS RB RW
VM H
CVM Board
A
G1H (KDL-32D30XX) G3 (KDL-40/46D30XX)
J S1 Board
U2
A2
A1
D1
D2 A
H4
A Board
H3
D
4-3. SCHEMATIC DIAGRAMS AND DIAGRAMS AND 5-3. SCHEMATIC PRINTED WIRING BOARDS PRINTED WIRING BOARDS
Note :
· · · All capacitors are in µF unless otherwise noted. pF : µµF 50WV or less are not indicated except for electrolytic types. Indication of resistance, which does not have one for rating electrical power, is as follows. Pitch : 5mm Electrical power rating : 1/4W · · Chip resistors are 1/10W All resistors are in ohms. k = 1000 ohms, M = 1000,000 ohms : nonflammable resistor. : fusible resistor. : internal component. : panel designation or adjustment for repair. All variable and adjustable resistors have characteristic curve B, unless otherwise noted. All voltages are in Volts. Readings are taken with a 10Mohm digital mutimeter. Readings are taken with a color bar input signal. Voltage variations may be noted due to normal production tolerences. : B + bus. : B - bus. : RF signal path. : earth - ground. : earth - chassis.
MPP ALB ALT ALR
Note : The components identified by shading
and marked are critical for safety. Replace only with the part numbers specified in the parts list.
· · · · · · · · ·
Note : Les composants identifiés par une trame et
par une marque sont d'une importance critique pour la sécurité. Ne les remplacer que par des pièces de numéro spécifié. specified.
Note : The components identified by mark contain confidential information. Strictly follow the instructions whenever the components are repaired and/or replaced.
· · · · ·
Note: Schematic diagrams are for reference only. Please refer to the electrical parts list for the correct value and part number of components.
- 27 -
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
1
BE1.WAX3
2
A_SC1_IN_AU_L,A_SC1_IN_AU_R,A_SC1_IN
BE1
3 4
VD1201 GND C1200 470p 50V R1200 330 1/16W C1201 0.022 25V 1608 C1204 0.001 50V R1201 220 1/16W R1202 470k 1/16W A_SC1_OUT_AU_R C1202 2.2 10V X7R 2012 C1205 2.2 10V X7R 2012 C1208 2.2 10V X7R 2012 A_SC1_IN_AU_L C1209 XX R1209 1k 1/16W C1210 0.001 50V R1210 0 R1211 470k 1/16W C1211 2.2 10V X7R 2012 SC1_B A_SC1_IN_AU_R
1A/14
VD1202 GND
VD1203 GND
C1203 XX
R1203 1k 1/16W
R1204 0
R1205 470k 1/16W
VD1204 GND
C1206 470p 50V
R1206 330 1/16W
C1207 0.022 25V 1608
R1207 220 1/16W
R1208 470k 1/16W
A_SC1_OUT_AU_L
21P J1200
1
D1204 PDZ10B-115
GND
R1212 220 1/10W RN-CP 0.5% GND
R1213 220 1/10W RN-CP 0.5% GND
R1214 220 1/10W RN-CP 0.5% GND
R1215 100 1/16W
C1212 XX GND R1217 22k 1/16W RN-CP 0.5% GND C1214 XX GND
2
3
A_SC1_IN_MODE C1213 0.1 25V 1608 GND R1218 100 1/16W SC1_G
6
D1205 PDZ13B-115
GND R1219 220 1/10W RN-CP 0.5% GND R1220 220 1/10W RN-CP 0.5% GND
5
7
R1216 33k 1/16W RN-CP 0.5% R1221 220 1/10W RN-CP 0.5% GND R1222 100 1/16W
5
11
Scart1
9
8
4
D1206 PDZ10B-115
GND
13 15
19
REF.1200~1299
6
17
18
16
14
12
10
SC1_R
7
8
9
10
SCART 21PinAssign Pin No.: Function -----------------------1 : Audio OUT R 2 : Audio IN R 3 : Audio OUT L 4 : Audio GND 5 : Video GND(BLUE) 6 : Audio IN L 7 : Video IN BLUE 8 : MODE 9 : Video GND(GREEN) 10 : AVLINK 11 : Video IN GREEN 12 : N.C. 13 : Video GND(RED) 14 : GND(FB) 15 : Video IN RED 16 : FB 17 : Video GND(OUT VIDEO) 18 : Video GND(IN VIDEO) 19 : Video OUT CV 20 : Video IN CV 21 : GND
D1207 PDZ10B-115
GND GND
R1223 220 1/10W RN-CP 0.5% GND R1227 220 1/10W RN-CP 0.5% GND R1232 220 1/10W RN-CP 0.5% GND
R1224 220 1/10W RN-CP 0.5% GND R1228 220 1/10W RN-CP 0.5% GND R1233 220 1/10W RN-CP 0.5%
R1225 220 1/10W RN-CP 0.5% GND R1229 220 1/10W RN-CP 0.5% GND R1234 220 1/10W RN-CP 0.5% GND
20
R1226 100 1/16W
21
C1215 XX GND SC1_FB
D1208 PDZ5.6B-115
GND
R1230 470 1/16W
R1231 680 1/16W GND C1216 0.01 25V 10% 1608 GND R1235 100 1/16W A_SC1_IN_CV
VD1205 GND R1237 75 1/10W RN-CP 1608
D1209 PDZ10B-115
GND
SC1_B,SC1_FB,SC1_G,SC1_R
D1210 PDZ5.6B-115
GND
BE_+5V
L1200 10uH 10%
PS1200 0.5A 50V SC_OUT_VCC 0.5% RN-CP 1/16W 10k R1240 C1217 47 16V C1218 0.01 25V 1005 GND A_SC1_OUT_CV C1219 4.7 6.3V X6S 2012
Q1200 2SC3052EF-T1-LEF
R1239 100 1/16W 0.5% RN-CP 1/16W 10k R1241 GND
R1238 1k 1/16W
VD1301 GND
GND
A_SC2_IN_AU_L,A_SC2_IN_AU_R,A_SC2_IN_
A_SC2_OUT_AU_R VD1302 GND C1300 470p 50V R1300 330 1/16W C1301 0.022 25V 1608 R1301 220 1/16W R1302 470k 1/16W C1302 2.2 10V X7R 2012 C1305 2.2 10V X7R 2012 C1308 2.2 10V X7R 2012 A_SC2_IN_AU_L C1309 XX R1309 1k 1/16W C1310 0.001 50V R1310 0 R1311 470k 1/16W C1311 2.2 10V X7R 2012 SC2_B A_SC2_IN_AU_R
VD1303 GND
C1303 XX
R1303 1k 1/16W
C1304 0.001 50V
R1304 0 CHIP
R1305 470k 1/16W
11
VD1304 GND
C1306 470p 50V
R1306 330 1/16W
C1307 0.022 25V 1608
R1307 220 1/16W
A_SC2_OUT_AU_L R1308 470k 1/16W
12
21P J1300
1
D1304 PDZ10B-115
GND
R1312 220 1/10W RN-CP 0.5% GND
R1313 220 1/10W RN-CP 0.5% GND
R1314 220 1/10W RN-CP 0.5% GND
R1315 100 1/16W GND
C1312 XX
2
D1305
~ BE1 Board Schematic Diagram [ Micro Processor, Video/Audio Processor, Audio Amplifier, AV Switch, Tuner, Rear Input Terminal ] Page 1A/14 ~
- 28 -
4
R1316
R1317 22k
3
C1313 0 1
A_SC2_IN_MODE R1318
P
Q
R
S
T
U
V
W
X
Y
Z
AA
BB
CC
DD
EE
FF
1
BE1.WAX3
A_SC1_IN_AU_L,A_SC1_IN_AU_R,A_SC1_IN_CV
A_SC1_OUT_AU_R
BE1
TV_DET_V
2
1B/14
FE_+3V3
1_IN_AU_R 22uH L1901
3
A_SC1_OUT_AU_L F1900 0.5A 50V 1_IN_AU_L
SC1_B
REF.1900~1999 SyncSep
R1901 1M 1/16W C1903 4700p 50V B
C1906 0.1 16V
C1907 47 6.3V
4
M_HSYNC AEP NotUSE
GND
A_SC1_IN_MODE R1906 3.3k 1/16W
SC1_G
R1904 3.9k 1/16W RN-CP 0.5%
D1900 RB501V-40TE-17
Q1901 2SC3052EF-T1-LEF
TV_V_DET
TV_micro
5
C1900 0.022 25V B
R1900 4.7k 1/16W
BE_+5V
SC1_R
Q1900 ISA1235AC1TP-1EF
R1902 2.2k 1/16W
R1903 2.7k 1/16W RN-CP 0.5%
C1904 2200p 50V B
R1905 1M 1/16W
C1905 0.22 16V B
C1908 4.7 6.3V B 2012
L1900 10uH GND
6
SC1_FB
F1901 0.5A 50V
C1_IN_CV C1901 47 6.3V C1902 0.1 16V
7
[ qV [hfmc @>¯ ¢·
VIN VCC GND J1700 3P BLK 1 2 3 A_SPDIF_OUT
SC1_B,SC1_FB,SC1_G,SC1_R GND
D3.3V
8
GND
L
1 2 VD1702 VD1700 XX GND C1702 R1702 0.001 2.2k 50V 1/16W X7R C1700 XX R1700 220k 1/16W
A_AUOUT_AU_L
Audio Output
R A_SC2_IN_AU_L,A_SC2_IN_AU_R,A_SC2_IN_CV J1701 A_SC2_OUT_AU_R
9
A_AUOUT_AU_R
3 4 VD1701 XX VD1703 GND C1703R1703 0.001 2.2k 50V 1/16W X7R C1701 XX R1701 220k 1/16W
REF.1700~1799
GND
10
_IN_AU_R
A_SC2_OUT_AU_L
11
N_AU_L
PC_LR IN
SC2_B J1710 C1711 XX R1712 2.2k 1/16W R1714 XX C1714 1 25V 2012 PC_IN_L PC_IN_R
12
A_SC2_IN_MODE
R1710 1M
R1713 2.2k 1/16W
C1715 1 25V
~ BE1 Board Schematic Diagram [ Micro Processor, Video/Audio Processor, Audio Amplifier, AV Switch, Tuner, Rear Input Terminal ] Page 1B/14 ~
- 29 -
VD1303 GND
C1303 XX
R1303 1k 1/16W
C1304 0.001 50V
R1304 0 CHIP
R1305 470k 1/16W
C1305 2.2 10V X7R 2012 C1308 2.2 10V X7R 2012
A_SC2_IN_AU_R
11
VD1304 GND
C1306 470p 50V
R1306 330 1/16W
C1307 0.022 25V 1608
R1307 220 1/16W
A_SC2_OUT_AU_L R1308 470k 1/16W
A_SC2_IN_AU_L C1309 XX R1309 1k 1/16W C1310 0.001 50V R1310 0 R1311 470k 1/16W C1311 2.2 10V X7R 2012 SC2_B
12
21P J1300
D1304 PDZ10B-115
GND
R1312 220 1/10W RN-CP 0.5% GND
R1313 220 1/10W RN-CP 0.5% GND
R1314 220 1/10W RN-CP 0.5% GND
R1315 100 1/16W GND
C1312 XX
1 2
5
D1305 PDZ13B-115
GND R1319 220 1/10W RN-CP 0.5% GND R1320 220 1/10W RN-CP 0.5% GND R1321 220 1/10W RN-CP 0.5% GND
Scart2
13
7
R1316 33k 1/16W RN-CP 0.5% R1322 100 1/16W C1314 XX GND R1351 XX GND
R1317 22k 1/16W RN-CP 0.5% GND
3
6
C1313 0.1 25V 1608 GND
A_SC2_IN_MODE R1318 100 1/16W SC2_G
9
8
4
12
D1306 PDZ10B-115
GND
13
11
10
17
REF.1300~1399
14
14
SC2_IN_AVLINK
16
D1350 PDZ5.6B-115
GND R1323 220 1/10W RN-CP 0.5% GND R1327 220 1/10W RN-CP 0.5% GND R1332 220 1/10W RN-CP 0.5% GND R1324 220 1/10W RN-CP 0.5% GND R1328 220 1/10W RN-CP 0.5% GND R1333 220 1/10W RN-CP 0.5% GND
R1350 100 1/16W
15
18
19
SC2_R
D1307 PDZ10B-115
GND
R1325 220 1/10W RN-CP 0.5% GND
20
R1326 100 1/16W
21
C1315 XX GND SC2_FB R1331 680 1/16W GND A_SC2_IN_CV C1316 0.01 25V 10% 1608 R1335 100 1/16W
D1308 PDZ5.6B-115
GND GND VD1305 GND
R1329 R1330 220 470 1/10W RN-CP 1/16W 0.5% GND R1334 220 1/10W RN-CP 0.5% GND
D1309 PDZ10B-115
GND SC2_B,SC2_FB,SC2_G,SC
15
SC_OUT_VCC 0.5% RN-CP 1/16W 10k R1340 A_SC2_OUT_CV R1339 100 1/16W 0.5% RN-CP 1/16W 10k R1341 GND C1318 4.7 6.3V X6S 2012
Q1300 2SC3052EF-T1-LEF
R1337 75 1/10W RN-CP GND 1608
16
D1310 PDZ5.6B-115
R1338 1k 1/16W
GND
17
1 2 GND VD1105 GND VD1106 GND VD1107 VD1102 VD1100 VD1101 XX XX XX R1110 220 1/10W RN-CP 0.5% 1608 R1111 220 1/10W RN-CP 0.5% 1608 R1112 220 1/10W RN-CP 0.5% 1608 R1106 220 1/10W RN-CP 0.5% 1608 R1114 2.2k 1/16W R1107 220 1/10W RN-CP 0.5% 1608 R1108 220 1/10W RN-CP 0.5% 1608 R1102 220 1/10W RN-CP 0.5% 1608 R1103 220 1/10W RN-CP 0.5% 1608 R1104 220 1/10W RN-CP 0.5% 1608 C1124 XX A_D1_IN_AU_L,A_D1_IN_AU_R A_D1_IN_AU_L R1115 1M 1/16W C1126 0.001 50V X7R R1120 XX C1100 2.2 10V X7R 2012 C1125 XX C1122 XX C1123 XX R1113 22 1/16W R1109 22 1/16W
18
ComponentInput
3 4
5
REF.1100~1199
19
J1100
6
7 8 VD1103 GND 9 10 VD1104 GND GND C1103 XX C1101 XX R1117 1M 1/16W R1116 2.2k 1/16W C1127 0.001 50V X7R R1121 XX C1102 2.2 10V X7R 2012 A_D1_IN_AU_R
R
20
BE1
21
1C/14 MICRO PROCESSOR, VIDEO/AUDIO PROCESSOR, AUDIO AMPLIFIER, AV SWITCH, TUNER, REAR INPUT
COMPONENTS MARKED AS XX REFER TO PARTS LIST, WILL ONLY BE LISTED IF FITTED
BE1.WAX3
22
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
~ BE1 Board Schematic Diagram [ Micro Processor, Video/Audio Processor, Audio Amplifier, AV Switch, Tuner, Rear Input Terminal ] Page 1C/14 ~
- 30 -
_IN_AU_R
A_SC2_OUT_AU_L
11
N_AU_L
PC_LR IN
SC2_B J1710 C1711 XX R1712 2.2k 1/16W R1714 XX C1714 1 25V 2012 PC_IN_L PC_IN_R
12
A_SC2_IN_MODE
VD1710
VD1711
R1710 1M 1/16W
R1713 2.2k 1/16W
C1715 1 25V R1715 2012 XX
SC2_G
C1710 XX GND
R1711 1M 1/16W
C1712 1000p 50V B 1608
C1713 1000p 50V B 1608 GND
13
SC2_R
SC2_FB
R1722 2.2k 1/16W
C1724 1 25V 2012 DVI_IN_L
14
TO AUDIO
AUDIO IN
L
VD1720
2_IN_CV
C1720 XX
R1720 1M 1/16W
C1722 0.001 50V X7R
R1724 XX
C1725 1 25V 2012 DVI_IN_R
R
VD1721
SC2_B,SC2_FB,SC2_G,SC2_R
J1720
C1721 XX
R1723 2.2k 1/16W R1721 1M 1/16W
C1723 0.001 50V X7R
R1725 XX
15
GND
GND D3.3V
R1401 0 1608
16
C1401 XX GND
CP1_IN_CB,CP1_IN_CR,CP1_IN_Y R1105 22 1/16W A_V2_IN_AU_L,A_V2_IN_AU_R CP1_IN_CR CP1_IN_CB GND_HP CP1_IN_Y R1113 22 1/16W 7 R1109 22 1/16W V2_IN_AU_L D3.3V AU_IN_GND GND C1124 XX C1125 XX C1122 XX C1123 XX C1120 XX C1121 XX V2_IN_AU_R V2_IN_SSW AU_IN_GND V2_IN_C HP_OUT_AU_L V2_IN_S2SW 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 GND GND CN1400 20P 20 R1407 XX C1403 0.001 50V X7R 1005 R1406 0 C1409 XX JL1406 GND R1405 0 C1408 XX GND GND HP_OUT_AU_R V2_IN_Y HP_DET GND GND V2_IN_V D5V JL1405 A_HP_OUT_AU_R R1433 XX GND GND R1434 XX GND R1413 0 R1436 XX GND R1437 XX GND R1438 XX R1412 0 R1435 XX JL1412 A_V2_IN_Y GND R1404 0 C1407 XX GND JL1404 A_HP_OUT_AU_L GND R1430 XX GND R1431 XX GND R1403 0 GND JL1403 A_V2_IN_AU_R R1409 0 JL1409 A_V2_IN_SSW R1414 XX R1402 0 JL1402 A_V2_IN_AU_L C1406 XX A_V2_IN_C,A_V2_IN_S2SW,A_V2_IN_SSW,A_V2_IN_V,A_V2_IN_Y
17
VideoInput6
18
R1410 0 R1432 XX R1411 0 JL1410 A_V2_IN_C
JL1411 A_V2_IN_S2SW
REF.1400~1499
HP_IN_GND
19
HP_DET
JL1413 C1404 XX GND
A_V2_IN_V
20
GND
SWITCH, TUNER, REAR INPUT TERMINAL
R1408 0
GND REG5V
C1405 XX GND
BE1
V W X Y
1D/14
BE1.WAX3
21
22
P
Q
R
S
T
U
Z
AA
BB
CC
DD
EE
FF
~ BE1 Board Schematic Diagram [ Micro Processor, Video/Audio Processor, Audio Amplifier, AV Switch, Tuner, Rear Input Terminal ] Page 1D/14 ~
- 31 -
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
BE1.WAX3
1
D3.3V
A_HP_OUT_R A_HP_OUT_L A_SP_OUT_R
F2001 1.6A 32V
A_SP_OUT_L A_LINE_OUT_R A_LINE_OUT_L C2181 XX
AUDIO_12V
IC2005 PQ200WNA1ZPH
VOUT VADJ
A_REC/SC2_OUT_L GND
1 C2029 9p 50V CH
1
2
3
4
5
TAS analogue 3.3V
24.576MHz X2001 C2030 9p 50V CH C2086 0.001 50V X7R C2095 1 25V 2012 R2229 1k 1/16W RN-CP 0.5% R2228 6.8k 1/16W RN-CP 0.5% R2227 2.2k 1/16W RN-CP 0.5% L2010 10uH C2060 100 6.3V C2 4 25 X7
3
R2063 10k A_HP_OUT_R
2A/14
A_HP_OUT_L
BE1
C2022 C2025 0.001 4 . 7 50V 6.3V X6S X7R 2012
R2049 0 0.1
C2039 C2041 0.001 4 . 7 25V 50V X7R X7R 3216
10k 10k 47 47 47 47
C2058 0.001 50V X7R
C2059 4.7 25V X7R 3216
R2075
R2076
R2077
R2078
R2080
4
X7R
1M
R2082
C2019 4.7 25V X7R C2017 3216 0.001 50V
R2050
C2033
R2070 10k
AVDD_OSC
DACOUT2R
DACOUT1R
HPOUTR
AVDD_DAC
AVDD_HP
AVDD_HP
AVSS_DAC
DACOUT2L
DACOUT1L
AVSS_ESD
XTAL_OUT
LINEOUT2R
LINEOUT1R
LINEOUT3R
AVDD_REF
AVSS_HP
VR_ANA
HPOUTL
DVDD1
AVSS_LO
LINEOUT1L
LINEOUT2L
R2154 0
LINEOUT3L
XTAL_IN
C2018 XX
C2064 1 10V 1608
75
DVSS1 /VREG_EN STEST LS_LRCKOUT LS_SCLKOUT GPIO4 GPIO3 MCLKOUT LRCLKOUT SCLKOUT SDOUT1 SDOUT2/SPDIF_OUT DVDD2 VR_DIG1 DVSS2 SPDIF_IN SDIN1A LRCLKINA SCLKINA MCLKINA SDIN3 SDIN2 SDIN1 LRCLKIN
I2C_SCL2 I2C_SCL1 I2C_SDA2 I2C_SDA1
V1P5_REF BG_REF BIAS_REF
5
R2269 10k 1/16W R2268 100 1/16W ATT_SW_LINE ATT_SW_HP 10k RB2006 10k RB2010
C2065 1 10V 1608
R2095 C2066
24k XX
C2068 0 . 0 0 1 50V X7R C2067 4 . 7 25V X7R 3216
AVSS_ADC/REF AVDD_ADC LINEIN10R LINEIN10L AVSS_LI LINEIN9R LINEIN9L AVDD_LI LINEIN8R
6
A_SPDIF_OUT
R2270 100 1/16W R2271 10k 1/16W
R2096 R2097
47 47
C2053 2.2 10V X7R 2012
C2052 2.2 10V X7R 2012 L2015 10uH
R2098 R2099
47 47 C2061 0 . 1 25V B 1608
R2042 47 1/16W C2015 XX R2155 0 C2014 0 . 0 0 150V X7R C2016 4 . 7 6.3V X6S 2012 RB2007 10k R2156 0
16V 47 C2085 C2162 2 . 2 10V X7R2012
R2210 0.5% 6 . 8 k RN-CP 1/16W 1/16W RN-CP 0.5% 15k R2143
C2094 100p 50V CH 1608
SPDIF_OUT GND CN2001 XX
1 2
AVSS_LI LINEIN7R LINEIN7L AVDD_LI LINEIN6R LINEIN6L AVSS_LI LINEIN5R LINEIN5L AVDD_LI LINEIN4R
LINEIN1R LINEIN2R AVSS_ESD AVSS_LI LINEIN3R LINEIN2L LINEIN1L LINEIN3L
7
GND
C2164 2 . 2 10V X7R2012
A OUT
A+ IN
A- IN
C2163 2 . 2 10V X7R2012
V-
R2102 R2103
33k 33k C2062 0 . 1 25V B 1608 33k 33k
C2165 2 . 2 10V X7R2012
TV_R
B+ IN
B- IN
A_SP_OUT_R
R2105
DVI_IN_L A_SP_OUT_L PC_IN_R PC_IN_L 1/16W 22k R2121 A_SC1_IN_AU_R A_SC1_IN_AU_L 1/16W 22k R2122 C2078 2 . 2 16V C 2012 R2129 22k 1/16W R2133 22k 1/16W 25V 4.7 C2075 R2118 4.7k 1/16W CHIP 5% C2169 1000p 50V B 1608 C2168 1000p 50V B 1608 0.5% RN-CP 1/16W 15k R2145 R2211 6.8k 1/16W RN-CP 0.5% C2096 100p 50V CH 1608
RB2012 10k
8
HDMI_I2S HDMI_SDO HDMI_WS HDMI_SCK HDMI_MCLK D3.3V R2033 100 R2207 47 R2035 47 R2044 47 FB2015 0uH F2002 0.5A 50V
R2106 R2107
33k 33k C2063 0 . 1 25V B 1608 33k 33k
R2108 R2109
SCLKIN
DVSS3 MCLKIN DVDD3
LINEIN4L
VR_DIG2
/RESET
DVDD4
AVDD_LI
GPIO1
GPIO2
DVSS4
/MUTE
DVSS5
CS
9
R2062 R2064
R2020
R2074
R2091
R2085
R2087
R2092
TAS digital 3.3V
100 RB2004
6.3V 100 C2013
C2051 X6S 4 . 7 6.3V 2012
XX 10k
10k
1k
GND
XX R2123 C2178 4.7 25V
33k
R2023 0
L2005 XX
C2024 C2027 XX 0.001 50V XX R2079 GND
R2065 R2068
100 RB2008
33k
X7R
C2044C2045 XX 0 . 0 0 1 50V X7R
33k
33k
R2236 3.3k 1/16W RN-CP 0.5%
A_SC2_IN_AU_R A_SC2_IN_AU_L
10
CHIP
R2073
6.8k R2056 6.8k R2057
GND
C2042 0.001
R2208 33k R2209 33k
C2054C2055 4 . 7 0.001 25V 50V X7R X7R 3216 D3.3V
A_V2_IN_AU_R A_V2_IN_AU_L A_D1_IN_AU_R A_D1_IN_AU_L R2249 1k 1/16W C2183 XX C2179 4.7 25V R2237 3.3k 1/16W RN-CP 0.5% SP_MUTE R2238 1k 1/16W RN-CP 0.5% R2239 1k 1/16W RN-CP 0.5% R2246 3.3k 1/16W CHIP 5%
100
XX
XX
10k RB2003
XX RB2002
R2072
Q2024 RT1P441M-TP-1
HDMI_MUTE ATT_SW R2234 100k 1/16W RN-CP 0.5% C2177 1 25V 2012
Q2025 DTC614TUT106 Q2006 RT1N141M-TP-1
R2235 33k 1/16W RN-CP 0.5%
10k RB2011
XX
11
Q2029 RT1N141M-TP-1
R2245 100 1/16W CHIP
C2180 0.1 10V X7R 1005
Q2023 RT1N141M-TP-1
Q2026 DTC614TUT106
5
VCC
4
OUTY
Z32FU(TE85R) C2014
L2009 10uH HDMI_MUTE
12
~ BE1 Board Schematic Diagram [ Micro Processor, Video/Audio Processor, Audio Amplifier, AV Switch, Tuner, Rear Input Terminal ] Page 2A/14 ~
- 32 -
8
7
6
5
R2104
DVI_IN_R
25V 4.7 C2074
R2117 4.7k 1/16W CHIP 5%
B OUT
TV_L
NJM4558V-TE2 IC2006
V+
1
2
3
4
CXD9890Q IC2002
LINEIN8L
R2100 10k R2101 10k
DIGITAL_AU_R DIGITAL_AU_L R2277 100k 1/16W C2097 0.1 25V 1608 R 1 1/
GND
VIN
VC
2
FB2016 0uH
A_REC/SC2_OUT_R
2
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
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
74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51
45
46
47
48
49
50
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
26
27
28
29
R2 4 1/1
R2 1 1/1
HN
Q2030 RT1N141M-TP-1
S
P
Q
R
S
T
U
V
W
X
Y
Z
AA
BB
CC
DD
EE
FF
BE1.WAX3
1
AUDIO_12V
IC2005 PQ200WNA1ZPH
VOUT VADJ
AU_13V
AUDIO_13V
F2000 4A 25V C2117 0.001 50V X7R 2 L2016 22uH C2121 0.001 50V C2118 X7R 0.001 50V X7R
GND
VIN
VC
1
R2202 10k 1/16W C2123 470 25V
2
X7R 50V 0.001 C2159
1
2
3
4
5
D2014 MA8091-M-TX
C2095 1 25V 2012
R2229 1k 1/16W RN-CP 0.5% R2228 6.8k 1/16W RN-CP 0.5% R2227 2.2k 1/16W RN-CP 0.5%
C2190 C2191 4.7 4.7 25V 25V X7R X7R
AU_HP12V
TO DETECT
R2198 6.8k 1/16W R2177 100k 1/16W C2145 1 25V 2012
Q2016 RT1N141M-TP-1
3
GND
R2204 100k 1/16W
Q2012 RT3AMMM
R2178 100k 1/16W C2146 1 25V 2012 AU_PROT
4
Q2017 RT1N141M-TP-1
R2205 33k 1/16W C2158 0.1 25V B 1608
D2021 MA8056-TX
1 2
4
3
JL2002 25V 4.7 C2112
7 RB2001 100k 8
5
3
1
L2022 22uH
Q2013 RT3AMMM
5
6 4 2 1608 B 25V 0.1 C2157 R2199 100k 1/16W
C2111 0 . 1 25V B 1608
C2115 0.22 25V B 2012
4
3
C2119 0 . 2 2 25V B 2012
Q2018 RT1N140M-TP-1
1
P44
P43
P42
P41
P40
P39
P38
P48
P47
P46
P45
P37
L2023 22uH C2124 100 35V C2125 0.1 25V B 1608 C2132 0.22 25V B 2012 C2136 0.22 25V B 2012
SHUTDOWN
ROUTN
ROUTN
ROUTP
ROUTP
2
MUTE
AVCC
AVCC
R2210 0.5% 6 . 8 k RN-CP 1/16W 1/16W RN-CP 0.5% 15k R2143
C2094 100p 50V CH 1608
C2103 4.7 25V C2104 4.7 25V C2105 4.7 25V
FAULT
BSRN
BSRP
GND
48
47
46
45
44
43
42
41
40
39
38
37 36
P36 P35 P34 P33 P32 P31 P30 P29 P28 P27 P26 P25 C2129 0.1 25V B 1608 C2127 1 25V 2012 C2128 100 35V C2126 1 25V 2012
6
P1 P2 P3 P4 P5 P6
1 2
GND RINN RINP AGND LINP LINN GAIN0 GAIN0 GAIN1 MSTR/SLV SYNC GND
GND PVCCR PVCCR PGNDR PGNDR
35 34
R2277 100k 1/16W C2097 0.1 25V 1608 R2279 100k 1/16W
A OUT
C2101 0.001 50V X7R
3
33
C2137 0.22 25V B 2012 FB2006 0uH
V-
A+ IN
A- IN
B- IN
NJM4558V-TE2 IC2006
B+ IN B OUT V+
5% -CP 6W 5k 145 R2133 22k /16W R2211 6.8k 1/16W RN-CP 0.5%
C2096 100p 50V CH 1608
LOUTP
LOUTP
LOUTN
LOUTN
ROSC
VREG
BSLP
AGND
VBYP
BSLN
GND
GND
P23
P17
P18
P19
P20
P21
P13
P14
P15
P16
P22
P24
1
4
2
3
R2230 0
R2162 100k
4
3
1
R2150 22k 1/16W R2147 1k 1/16W SP_MUTE R2238 1k 1/16W RN-CP 0.5% R2239 1k 1/16W RN-CP 0.5% R2246 3.3k 1/16W CHIP 5% 5 6 Q2010 HN1B01FU-TE85R 3 R2151 47k 1/16W 2 4 1
D2018 D2019 MA8056-TXMA8056-TX
C2113 C2114 MA8056-TX 0.01 4.7 25V 25V X7R
D2020
L2025 22uH
2
025 4TUT106 Q2006 RT1N141M-TP-1 Q2030 RT1N141M-TP-1 Q2026 614TUT106
SP_SD R2163 47k 1/16W
HDMI_MUTE
8
1
7
2
6
3
5
4
4 5 6
32 31
C2106 4.7 25V C2102 0.001 50V X7R
P7 P8 P9 P10 P11 P12
TPA3100D2PHPR IC2009
VCLAMPR VCLAMPL PGNDL PGNDL PVCCL PVCCL GND
C2147 XX
C2153 XX CN2000 4P 1 2 3 4 RR+ L+ L-
7
30
R2231 XX
7 8 9 10 11 12
29 28 27 26 25
FB2007 0uH FB2008 0uH
FB2009 0uH
8
C2148 XX C2154 XX
13
14
15
16
17
18
C2116 0.22 25V B 2012
19
20
21
22
C2120 0.22 25V B 2012
23
24
L2024 22uH GND C2138 0.22 25V B 2012
9
R2148 47k 1/16W
R2149 22k 1/16W
R2233 XX
R2232 0
2012 B 25V 0.22 C2133
C2139 0.22 25V B 2012
BE1
2B/14
10
11
Q2009 RT1N141M-TP-1
12
~ BE1 Board Schematic Diagram [ Micro Processor, Video/Audio Processor, Audio Amplifier, AV Switch, Tuner, Rear Input Terminal ] Page 2B/14 ~
- 33 -
R206
R206
6.8k R2056 6.8k R2057
GND
R207
3216
A_V2_IN_AU_L D3.3V A_D1_IN_AU_R A_D1_IN_AU_L R2249 1k 1/16W C2183 XX
R2208 33k R2209 33k
4.7 25V
3.3k 1/16W RN-CP 0.5%
10k RB2003
XX RB2002
R2238 1k 1/16W RN-CP 0.5%
R2239 1k 1/16W RN-CP 0.5%
R2246 3.3k 1/16W CHIP 5%
100
XX
XX
HN
R2072
Q2024 RT1P441M-TP-1
HDMI_MUTE ATT_SW R2234 100k 1/16W RN-CP 0.5% C2177 1 25V 2012
Q2025 DTC614TUT106 Q2006 RT1N141M-TP-1
R2235 33k 1/16W RN-CP 0.5%
10k RB2011
XX
11
Q2029 RT1N141M-TP-1
R2245 100 1/16W CHIP
Q2030 RT1N141M-TP-1 Q2026 DTC614TUT106
S
C2180 0.1 10V X7R 1005
Q2023 RT1N141M-TP-1
5
4
TC7SZ32FU(TE85R) IC2014
L2009 10uH HDMI_MUTE
VCC
100 RB2009
13
I2C_TAS_SCL_2 AUDIO_DSP_INT I2C_TAS_SDA_2 QSS
X_DSP_RST
1
2
3
GND
INB
INA
OUTY
12
L2014 10uH
BE_+5V
X_DSP_MUTE
X_DSP_RST
ATT_SW
16V 47 C2076
2012 X7R 10V 2.2 C2079 C2088 2.2 10V X7R 2012
INTN
R2124 6.8k 1/16W R2241 22k 1/16W RN-CP 0.5% 0.5% RN-CP 1/16W 47k R2119 C2182 2.2 16V C 2012
14
F2003 0.5A 50V GND L2002 10uH DIGITAL_AU_L R2047 47 1/16W R2046 47 1/16W GND C2023 0.1 25V B 1608
R2125 22k 1/16W
C2080 330p 50V CH 1608
R2136 2.2k 1/16W CHIP
IC2003 NJM4558V-TE2
B-IN
Q2027 2SA2048TL QR
AU_+8V R2059 1k 1/16W RN-CP 0.5% R2060 2.2k 1/16W CHIP 5% R2061 10k 1/16W RN-CP 0.5%
DIGITAL_AU_R
2SC3052EF-T1-LEF Q2028
15
Q2001 ISA1235AC1TP-1EF
R2006 1k 1/10W 1608 R2009 47 1/10W 1608 L2001 8.2uH FB2001 C2020 10 16V FM/AM
R2053 XX
C2071 2.2 10V X7R 2012 A_REC/SC2_OUT_L A_REC/SC2_OUT_R C2072 2.2 10V X7R 2012
R2115 47k 1/16W RN-CP 0.5%
4
3
2
1
AOUTPUT VCC
B+IN
A-IN BOUTPUT
R2242 22k 1/16W RN-CP 0.5%
5
6
7
8
C2087 0.1 25V B 1608
R2134 470k 1/16W CHIP 5% 1005
Q2004 DTC614TUT106
A+IN
GND
C2082 330p 50V CH 1608 C2089 2.2 10V X7R 2012
R2137 2.2k 1/16W CHIP
R2054 XX C2026 2.2 10V X7R 2012 C2028 2.2 10V X7R 2012
C2043 0.1 25V B
C2046 47 16V
1/16W 6.8k R2127 C2083 2.2 10V X7R 2012
R2128 22k 1/16W
16
C2002 120p 50V CH
0
R2010
C2004 XX
C2008 47 16V
R2043 XX C2021 2.2 10V X7R 2012
C2034 0.1 25V B 1608
XX R2084
R2135 470k 1/16W CHIP 5% 1005
Q2005 DTC614TUT106
R2007 XX
R2011 XX R2013 1k 1/10W 1608 C2009 0.1 25V B 2012 C2010 0.001 50V X7R
C2032 10 16V
C2040 10 16V
L2008 10uH
17
Q2000 2SC3052EF-T1-LEF
L2007 10uH
L2011 10uH R2212 27k CHIP 1/16W 5% C2081 47p 50V CH 1005 C2091 2.2 10V X7R 2012
VREFTOP
AGNDC
MONO_IN
AHVSS
SC1_IN_R
SC1_IN_L
CAPL_M
AVSS
NC
NC
NC
44
43
42
41
40
39
38
37
36
35
34
C2077 47 16V
C2005 4700p 50V X7R C2011
33
1 2
AVSUP ANA_IN1+ ANA_INTESTEN XTAL_IN XTAL_OUT TP D_CTR_I/O1 D_CTR_I/O0 ADR_SEL STANDBYQ
AHVSUP NC SC1_OUT_L SC1_OUT_R VREF1
C2047 2200p 50V B 1608
100p 50V 1608
R2093 100 1/16W A_SC1_OUT_AU_L A_SC1_OUT_AU_R R2272 XX R2094 100 1/16W TV_L TV_R R2250 10k 1/16W CHIP C2069 2.2 10V X7R 2012 R2110 2.2k 1/16W RN-CP 0.5%
R2130 15k RN-CP 1/16W 0.5%
R2141 2.2k 1/16W
32 31
3
B- IN
L2000 10uH
1608
IC2001 MSP3417G-QG-B8V3
NC DACM_L DACM_R VREF2 NC NC
C2049 2200p50V B 1608
B OUT
B+ IN
V+
18
C2001 XX C2006 1.5p 50V CK
CH
C2048 2200p50V B 1608
5
6
7
8 C2090 0.1 25V 1608
R2138 470k 1/16W
30
AU_+8V
X2000 C2007 R2018 18.432MHz 1 . 5 p 100k 1/16W 50V CK 1608
19
C2050 2200p 50V B 1608 A_LINE_OUT_R
C2184 2.2 10V X7R 2012
R2251 3.3k 1/16W RN-CP R2252 1k 1/16W
R2120 47k 1/16W RN-CP 0.5% R2276 100k 1/16W C2070 2.2 10V X7R 2012 R2111 2.2k 1/16W RN-CP 0.5% 0.5% 1/16W 22k R2112 C2171 680p 25V CH 1608 C2170 680p 25V CH 1608 R2131 15k 1/16W RN-CP 0.5%
A OUT
A+ IN
A- IN
V-
I2C_CL
C2012 470p 50V X7R
DVSUP
RESETQ
I2C_DA
TP_CO
DVSS
TP
TP
TP
TP
TP
4 5 6 7 8 9 10 11
29 28 27 26 25 24 23
R2273 XX
IC2004 NJM4558V-TE2
Q2007 DTC614TUT106
4
3
2
1
R2142 2.2k 1/16W C2084 47p 50V CH 1005 C2092 2.2 10V X7R 2012
Q2033 ISA1235AC1TP-1EF DTC614TUT106 Q2034
R2213 27k 1/16W CHIP 5% R2126 47k 1/16W RN-CP 0.5%
R2139 470k 1/16W
12
FB2003 0uH
13
FB2004 0uH
14
15
FB2005 C2036 0 . 1 25V B 1608
16
17
18
19
20
C2035 XX C2185 2.2 10V X7R 2012 0.5% 1/16W 22k R2113 C2073 2.2 16V C 2012
21
22
Q2008 DTC614TUT106
20
R2253 10k 1/16W CHIP C2031 47 16V A_LINE_OUT_L R2058 100k 1/16W
R2254 3.3k 1/16W RN-CP
Q2035 ISA1235AC1TP-1EF
R2255 1k 1/16W RN-CP
R2278 100k 1/16W
FB2002
21
SCL_B_5V SDA_B_5V
C2037 0.1 25V B 2012
BE1
22
R2256 100k 1/16W CHIP
Q2038 RT1P441M-TP-1
Q2036 DTC614TUT106
MSP_RESET
2C/14
Q2003 RT1N141M-TP-1
ATT_SW_LINE
Q2044 RT1N141M-TP-1
C2186 1 25V 2012
R2257 33k 1/16W CHIP
COMPONENTS MARKED AS XX REFER TO PARTS LIST, WILL ONLY BE LISTED IF FITTED
BE1.WAX3
A B C D E F G H I J K L M N O P Q
~ BE1 Board Schematic Diagram [ Micro Processor, Video/Audio Processor, Audio Amplifier, AV Switch, Tuner, Rear Input Terminal ] Page 2C/14 ~
- 34 -
R2238 1k 1/16W RN-CP 0.5%
R2239 1k 1/16W RN-CP 0.5%
R2246 3.3k 1/16W CHIP 5%
5 6 Q2010 HN1B01FU-TE85R 3
2
R2151 47k 1/16W
025 4TUT106 Q2006 RT1N141M-TP-1 Q2030 RT1N141M-TP-1 Q2026 614TUT106
SP_SD R2163 47k 1/16W
11
Q2009 RT1N141M-TP-1
HDMI_MUTE
12
HEADPHONE OUTPUTS
C2088 2.2 10V X7R 2012 R2136 2.2k 1/16W CHIP A_SC2_OUT_AU_L R2134 470k 1/16W CHIP 5% 1005 A_SC2_OUT_AU_R R2168 4.7k 1/16W C2160 0.001 50V X7R 1005 AU_HP12V L2017 10uH R2171 4.7k 1/16W 16V 47 C2131 C2135 2.2 10V X7R 2012 R2166 10k 1/16W R2169 47k 1/16W 5% CHIP 1/16W 47k R2176 R2180 2.2k 1/16W C2161 0.001 50V X7R C2134 2.2 10V X7R 2012 C2140 2.2 10V X7R 2012 R2170 2.2k 1/16W
13
C2142 100p 50V CH R2184 10k 1/16W
R2179 47k 1/16W C2149 47 16V
R2186 470 1/10W RN-CP R2188 470 1/10W RN-CP
HP_OUT
A_HP_OUT_AU_R
14
A+ IN
A- IN
V-
1608
Q2004 DTC614TUT106
SC2_OUT
C2109 XX
A OUT
B OUT
B+ IN
B- IN
C2130 0.1 25V 1608
IC2010 NJM3414AV(TE2)
V+
6 R2137 2.2k 1/16W CHIP C2089 2.2 10V X7R 2012
5
4
OUT
GND
C
IC2007 RT8H225C
IN
R2135 470k 1/16W CHIP 5% 1005
R2181 47k 1/16W
VCC
R
1
2
3 SC2_MUTE R2167 10k 1/16W C2141 2.2 16V C 2012 C2144 100p 50V CH C2143 2.2 10V X7R 2012 R2185 10k 1/16W
Q2005 DTC614TUT106
R2152 100k 1/16W CHIP
R2274 XX C2156 0.1 25V B 1608 R2258 10k 1/16W CHIP 5% C2187 2.2 10V X7R 2012 R2259 3.3k 1/16W RN-CP 0.5%
C2091 2.2 10V X7R 2012
R2275 XX R2141 2.2k 1/16W A_AUOUT_AU_L R2138 470k 1/16W A_AUOUT_AU_R 6 R2280 100k 1/16W 5 4
OUT
GND
C
C2090 0.1 25V 1608
Q2039 ISA1235AC1TP-1EF
IN
R
A_HP_OUT_R
R2260 1k 1/16W RN-CP 0.5%
VCC
Q2007 DTC614TUT106
DTC614TUT106 Q2040
LINE_OUT
R2142 2.2k 1/16W 84 p V H 05 C2092 2.2 10V X7R 2012 C2110 XX R2261 10k 1/16W CHIP 5% C2188 2.2 10V X7R 2012 R2262 3.3k 1/16W RN-CP 0.5% R2281 100k 1/16W
OUT
GND
C
R2139 470k 1/16W
6
5
4 A_HP_OUT_L
Q2008 DTC614TUT106
IC2008 RT8H225C
VCC IN R
R2247 3.3k 1/16W LINE_MUTE R2264 Q2037 100k RT1P441M-TP-1 1/16W CHIP 5% ATT_SW_HP
Q2041 ISA1235AC1TP-1EF
R2263 1k 1/16W RN-CP 0.5%
1 R2153 100k 1/16W
2
3
Q2042 DTC614TUT106
D2008 MA111-TX
HDMI_MUTE C2108 47 16V
Q2031 RT1N141M-TP-1
Q2043 RT1N141M-TP-1
C2189 1 25V 2012
D2017 M1MA152WA-T1
R2265 33k 1/16W CHIP 5%
ALL resistors are in ohms,W unless otherwise noted. ALL capacitors are in uF(p:pF)unless otherwise noted.
P
Q
R
S
T
U
V
W
X
Y
Z
AA
~ BE1 Board Schematic Diagram [ Micro Processor, Video/Audio Processor, Audio Amplifier, AV Switch, Tuner, Rear Input Terminal ] Page 2D/14 ~
- 35 -
1 8 C2150 47 16V
2 7
3 6
4 5
C2087 0.1 25V B
A_HP_OUT_AU_L
R2189 470 1/10W RN-CP R2187 470 1/10W RN-CP
Q2019 DTC614TUT106
15
GND_HP
16
Q2020 DTC614TUT106
FB2012 0uH
17
IC2011 RT8H225C
18
R2248 3.3k 1/16W HP_MUTE
1 R2200 100k 1/16W
2
3
HDMI_MUTE
Q2032 RT1N141M-TP-1
19
20
BE1
BB CC DD
2D/14
21
22
EE
BE1.WAX3 FF
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
1
BE1.WAX3
<< STBY3.3V >>
STBY3.3V
R3040 10k 1/16W CHIP 5% 1005
IC3003 LM393DT (A)
1005 8 1
R3051 10k 1/16W CHIP 5% 1005
T_ALARM
T_ALERM2
L3002
2
4
3
R3044 10k 1/16W CHIP 5% 1005
X3009 32.768kHz
2
SC2_IN_AVLINK 2 1 2
10k RB3018 1
1
4
C3087 0.1 10V X7R
GND
OUT
3
VDD
C
R3144 2.2k 1/16W RN-CP 0.5% C3036 1 10V X7R 1608 C3044 1 10V X7R 1608 6 5
R3042 10k 1/16W CHIP 5%
OUT1 -IN1 +IN1 VSS
VCC OUT2 -IN2 +IN2
4
3
IC3004 PST3629UL
RESET
JL3033
7
2
3
C3020XX
R3041 10k 1/16W CHIP 5% 1005 FE_+5V 5% CHIP 1/16W 47k R3043 GND FB3001 0uH AVLINK_IN
FL3001 0uH
R3050 10k 1/16W CHIP 5% 1005 AVLINK_OUT
R3030XX RESET D3.3V C3019 6p 50V CH 1608 R3162 47k 1/16W EMI G
6
R3010 0
SCL_DEVICE
IC3009 S-35390A-J8T1G
XX C3090
D3.3V
INT1
XIN
4
<< VD3_3V >>
XOUT
VSS
SDA_EEPROM
SCL_EEPROM
SDA_DEVICE
SDA_TUNER
SCL_TUNER
SC2_MUTE
REC_R_LED
POWER_KEY
RS232_RXD
RS232_TXD
SP_MUTE
MSP_RESET
HPD_SINK
JL3056
JL3057
ECS_TXD
INT2
JL3068
VDD
POWER3
GND
JL3069
R3134XX 1/16W
5
R3036 10k 1/16W
R3038 10k 1/16W
STBY3.3V
R3045 10k 1/16W
10k RB3013
I2C_TAS_SDA_2
LINE_MUTE
BACKLIGHT
10k RB3024
SDA_B_5V D1 G2 S2 C3010 C3011 0.1 100 16V 16V
I2C_TAS_SCL_2
C3096 XX
C3085 0.22F 5.5V
R3101 3 . 3 k 1/16W
R3145 XX
JL3058
R3159 XX
R3020 220 1/10W RN-CP 1608
10k RB3019
R3102 1001/16WCHIP5%
SSM6N16FU Q3001
JL3007 100 RB3020
R3099 XX R3095 XX 5% CHIP 1/16W 100 R3103
RB3010 100
SCL_B_5V
RB3011 100
JL3010
<< STBY3.3V >>
S1 G1 D2 R3049 10k 1/16W C3009 XX C3012 0.001 50V X7R AU_DAC_RST
JL3025
JL3026
XX RB3023
6
1
3
2
4
R3094 0 CHIP 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 P80/SIN4 P73/SIN3 P70/SIN2 P96/SCL4 P94/SCL3 P92/SCL2 P90/SCL1 P83/SCL0 P82/SCK4 P75/SCK3 P72/SCK2 P65/SCK1 P81/SOUT4 P74/SOUT3 P71/SOUT2 P64/SOUT1 P62/SCK0 P61/SOUT0 P97/SDA4 P95/SDA3 P93/SDA2 P91/SDA1 P84/SDA0 PA4/INT4 PA3/INT3 PA2/INT2 PA1/INT1 PA0/INT0 P60/SIN0 P63/SIN VSS VDDE VDDI NMIX 98 VDDI 97 VSS 96 VDDE 95 TRSTX
7
T_ALARM WRT_PRT R3069100 1/16W AUDIO_DSP_INT SDA_DEVICE R3062 XX AVLINK_OUT JL3054 SIRCS_IRQ TV_V_DET R3060 XX X_DSP_RST CEC_IN R3181 10k POWER2 T_ALERM2 AVLINK_IN R306610k JL3019 CEC_IN
133 134 135 136 137 138 139 140 141 142 143 144 145 JL3020 146 147
PA5/INT5 PA6/INT6 PA7/INT7 PB0/INT8 PB1/INT9 PB2/INT10/ATRG PB3/INT11/FRCK PB4/INT12/ICU0 PB5/INT13/ICU1 PB6/INT14/ICU2 PB7/INTY15/ICU3 VDDE UDP UDM VSS VDDI PC0/PPG0 PC1/PPG1 PC2/PPG2 PC3/PPG3 PC4/TOUTT0 PC5/TOUT1 PC6/TOUT2/IOWARK PC7/RIN/IORDX PD0/DREG PD1/DACK0X PD2/DEOP0X PD3/DREQ1 PD4/DACK1X/INT PD5/DEOP1X/INT2 PE0/DREQ2/TRG1 PE1/DACK2X/TRG2 PE2/DEOP2X/TRG VDDE VSS
8
9
BE1
3A/14
DIMMER R3165 10k 1/16W
SCL_DEVICE
148 149
R3223 220 1/16W B_INT
D3006 MA111-TX
DTT_RST
150 151