Sony-KV-29FS140+BX1L
-
Upload
ivan-emanuel-donatello -
Category
Documents
-
view
76 -
download
3
description
Transcript of Sony-KV-29FS140+BX1L
-
TRINITRON COLOR TELEVISION
SERVICE MANUAL BX-1L CHASSIS MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO.
9-883-705-01
KV-29FS140 RM-YA005 LATIN NORTH SCC-S79C-AKV-29FS140 RM-YA005 LATIN SOUTH SCC-S79D-A
HISTORY INFORMATION FOR THE FOLLOWING MANUAL:
ORIGINAL MANUAL ISSUE DATE: 4/2006
REVISION DATE SUBJECT
4/2006 No revisions or updates are applicable at this time.
-
TRINITRON COLOR TELEVISION
SERVICE MANUAL BX-1L CHASSIS MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO.
9-883-705-01
KV-29FS140 RM-YA005 LATIN NORTH SCC-S79C-AKV-29FS140 RM-YA005 LATIN SOUTH SCC-S79D-A
Self DiagnosisSupported model
KV-29FS140 RM-YA005
-
KV-29FS140
KV-29FS140 3
TABLE OF CONTENTS
SECTION TITLE PAGESpeci cations ....................................................................................................................................................................................................... 4Warnings and Cautions ........................................................................................................................................................................................ 5Safety Check-Out ................................................................................................................................................................................................. 6Self-Diagnostic Function ...................................................................................................................................................................................... 7
SECTION 1: DISASSEMBLY ........................................................................................................................................................................................... 101-1. Rear Cover Removal .................................................................................................................................................................................. 101-2. Chassis Assembly Removal ....................................................................................................................................................................... 101-3. Service Position ...........................................................................................................................................................................................111-4. Picture Tube Removal ................................................................................................................................................................................ 12 Anode Cap Removal Procedure ................................................................................................................................................................. 12
SECTION 2: SET-UP ADJUSTMENTS ............................................................................................................................................................................ 132-1. Beam Landing ............................................................................................................................................................................................ 132-2. Convergence .............................................................................................................................................................................................. 142-3. Focus Adjustment ....................................................................................................................................................................................... 152-4. Screen (G2) ................................................................................................................................................................................................ 16
SECTION 3: CIRCUIT ADJUSTMENTS .......................................................................................................................................................................... 173-1. Remote Adjustment Buttons and Indicators ............................................................................................................................................... 173-2. Accessing the Service Menu Mode ............................................................................................................................................................ 183-3. Con rming Service Adjustment Changes ................................................................................................................................................... 183-4. White Balance Adjustments ........................................................................................................................................................................ 183-5. Picture Quality Adjustments ....................................................................................................................................................................... 183-6. Service Data ............................................................................................................................................................................................... 21
SECTION 4: DIAGRAMS ................................................................................................................................................................................................. 304-1. Circuit Boards Location .............................................................................................................................................................................. 304-2. Printed Wiring Board and Schematic Diagram Information ........................................................................................................................ 304-3. Block Diagrams and Schematics ................................................................................................................................................................ 314-4. Schematics and Supporting Information .................................................................................................................................................... 32
A Board Schematic Diagram (1 of 6) ......................................................................................................................................................... 32A Board Schematic Diagram (2 of 6) ......................................................................................................................................................... 33A Board Schematic Diagram (3 of 6) ......................................................................................................................................................... 34A Board Schematic Diagram (4 of 6) ......................................................................................................................................................... 35A Board Schematic Diagram (5 of 6) ......................................................................................................................................................... 36A Board Schematic Diagram (6 of 6) ......................................................................................................................................................... 37CV Board Schematic Diagram ................................................................................................................................................................... 39H2 Board Schematic Diagram ................................................................................................................................................................... 41
4-5. Semiconductors .......................................................................................................................................................................................... 43
SECTION 5: EXPLODED VIEWS .................................................................................................................................................................................... 445-1. Chassis ....................................................................................................................................................................................................... 445-2. Picture Tube ............................................................................................................................................................................................... 45
SECTION 6: ELECTRICAL PARTS LIST ........................................................................................................................................................................ 46
-
KV-29FS140
KV-29FS140 4
SPECIFICATIONS
1) 1 Vp-p 75 ohms unbalanced, sync negative
2) Y: 1Vp-p 75 ohms unbalanced, sync negative
C: 0.286 Vp-p (Burst signal), 75 ohms
3) Y: 1.0 Vp-p, 75 ohms, sync negative; PB: 0.7 Vp-p, 75 ohms;
PR Vp-p, 75 ohms.
4) 500 mVrms (100% modulation), Impedance: 47 kilohms
Design and speci cations are subject to change without notice.
Television systemAmerican TV standard, NTSC
Channel coverageVHF: 2-13/UHF: 14-69/CATV: 1-125
Antenna75-ohm external antenna terminal for VHF/UHF
Picture tubeFD Trinitron tube
Visible screen size27-inch picture measured diagonally
Actual screen size29-inch measured diagonally
Supplied AccessoriesRemote Commander RM-YA005Two Size AA (R6) Batteries
KV-29FS140
Power Requirements 120V, 60Hz220V, 50/60Hz (Chile, Per, Bolivia)
Number of Inputs/OutputsVideo 1) 3
S Video 2) 1Y,PB, PR
3) 1Audio 4) 4
VHF/UHF 1Speaker Output (W) 10W x 2
Power Consumption (W)In Use (Max) 165W
In Standby (Max) 5)
-
KV-29FS140
KV-29FS140 5
WARNINGS AND CAUTIONS
CAUTION
Short circuit the anode of the picture tube and the anode cap to the metal chassis, CRT shield, or carbon painted on the CRT, after removing the anode.
WARNING!!
An isolation transformer should be used during any service to avoid possible shock hazard, because of live chassis. The chassis of this receiver is directly connected to the AC power line.
! SAFETY-RELATED COMPONENT WARNING!!
Components identi ed by shading and ! mark 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. Circuit adjustments that are critical for safe operation are identi ed in this manual. Follow these procedures whenever critical components are replaced or improper operation is suspected.
-
KV-29FS140
KV-29FS140 6
SAFETY CHECK-OUT
After correcting the original service problem, perform the following safety checks before releasing the set to the customer:
1. Check the area of your repair for unsoldered or poorly soldered connections. Check the entire board surface for solder splashes and bridges.
2. Check the interboard wiring to ensure that no wires are pinched or touching high-wattage resistors.
3. Check that all control knobs, shields, covers, ground straps, and mounting hardware have been replaced. Be absolutely certain that you have replaced all the insulators.
4. Look for unauthorized replacement parts, particularly transistors, that were installed during a previous repair. Point them out to the customer and recommend their replacement.
5. Look for parts which, though functioning, show obvious signs of deterioration. Point them out to the customer and recommend their replacement.
6. Check the line cords for cracks and abrasion. Recommend the replacement of any such line cord to the customer.
7. Check the B+ and HV to see if they are speci ed values. Make sure your instruments are accurate; be suspicious of your HV meter if sets always have low HV.
8. Check the antenna terminals, metal trim, metallized knobs, screws, and all other exposed metal parts for AC leakage. Check leakage as described below.
Leakage Test
The AC leakage from any exposed metal part to earth ground and from all exposed metal parts to any exposed metal part having a return to chassis, must not exceed 0.5 mA (500 microamperes). Leakage current can be measured by any one of three methods.
1. A commercial leakage tester, such as the Simpson 229 or RCA WT-540A. Follow the manufacturers instructions to use these instructions.
2. A battery-operated AC milliampmeter. The Data Precision 245 digital multimeter is suitable for this job.
3. Measuring the voltage drop across a resistor by means of a VOM or battery-operated AC voltmeter. The limit indication is 0.75 V, so analog meters must have an accurate low voltage scale. The Simpsons 250 and Sanwa SH-63TRD are examples of passive VOMs that are suitable. Nearly all battery-operated digital multimeters that have a 2 VAC range are suitable (see Figure A).
How to Find a Good Earth GroundA cold-water pipe is a guaranteed earth ground; the cover-plate retaining screw on most AC outlet boxes is also at earth ground. If the retaining screw is to be used as your earth ground, verify that it is at ground by measuring the resistance between it and a cold-water pipe with an ohmmeter. The reading should be zero ohms.
If a cold-water pipe is not accessible, connect a 60- to 100-watt trouble- light (not a neon lamp) between the hot side of the receptacle and the retaining screw. Try both slots, if necessary, to locate the hot side on the line; the lamp should light at normal brilliance if the screw is at ground potential (see Figure B).
To Exposed Metal Parts on Set
0.15 F 1.5 K ACVoltmeter(0.75 V)
Earth Ground
Trouble Light
AC Outlet BoxOhmmeter
Cold-water Pipe
Figure A. Using an AC voltmeter to check AC leakage. Figure B. Checking for earth ground.
-
KV-29FS140
KV-29FS140 7
SELF-DIAGNOSTIC FUNCTION
*One ash count is not used for self-diagnostic.
*If a +B overcurrent is detected, stoppage of the vertical de ection is detected simultaneously. The symptom that is diagnosed rst by the mircrocontroller is displayed on the screen.**Refer to Screen (G2) Adjustments in Section 2-4. of this manual.
2. Display of STANDBY LED Flash Count
2 times
4 times
5 times
LED ON 0.3 sec.
LED OFF 0.3 sec. LED OFF3 sec.
Standby indicator
Self DiagnosisSupported model
The units in this manual contain a self-diagnostic function. If an error occurs, the STANDBY LED indicator will automatically begin to ash. The number of times the LED ashes translates to a probable source of the problem. A de nition of the STANDBY LED ash indicators is listed in the instruction manual for the users knowledge and reference. If an error symptom cannot be reproduced, the Remote Commander can be used to review the failure occurrence data stored in memory to reveal past problems and how often these problems occur.
1. Diagnostic Test Indicators
When an error occurs, the STANDBY LED indicator will ash a set number of times to indicate the possible cause of the problem. If there is more than one error, the indicator will identify the rst of the problem areas.Results for all of the following diagnostic items are displayed on screen. No error has occurred if the screen displays a 0.
DiagnosisItem
Description No Power
+B overcurrent(OCP)
Vertical NG.
IK (AKB)
Supply VoltageProtection
DetectedSymptoms
Power does not turn on.No power is supplied to theTV.
AC power supply is faulty.
Power does not turn on.Load on power line isshorted.
Has entered standby stateafter horizontal raster.
Vertical deflection pulse isstopped.
Power line is shorted orpower supply is stopped.
No raster is generated.CRT cathode currentdetection reference pulseoutput is small.
No power supply to CRTANODE.
No RASTER is generated.
No. of timesSTANDBY
Indicator flashes
Does not light
2 times
4 times
5 times
8 times
Diagnostic Resulton screen display
2 OCP:02 OCP:1 ~ 255
4 VSTOP:04 VSTOP:1 ~ 255
5 AKB:05 AKB:1 ~ 255
8 SUP:08 SUP:1 ~ 255
ProbableCause
Location
Power cord is not pluggedin.
Fuse is burned out (F4101)(H1 Board)
H.OUT (Q511) is shorted.(A board)
IC751 is shorted.(C/CV Board)
+13V is not supplied.(A Board)
IC503 voltage list is faulty.(A Board)
Video OUT (IC751) is faulty.(CV Board)
IC001 is faulty. (A Board) Screen (G2) is improperly
adjusted.
IC604 faulty. IC607 faulty.
-
KV-29FS140
KV-29FS140 8
3. Stopping the STANDBY LED Indicator FlashTurn off the power switch on the TV main unit or unplug the power cord from the outlet to stop the STANDBY LED Indicator from ashing.
4. Self-Diagnostic Screen DisplayFor errors with symptoms such as power sometimes shuts off or screen sometimes goes out that cannot be con rmed, it is possible to bring up past occurrences of failure on the screen for con rmation.
To Bring Up Screen TestIn standby mode, press buttons on the Remote Commander sequentially, in rapid succession, as shown below:
DISPLAY Channel 5 Sound Volume - POWER
Note that this differs from entering the Service Mode (Sound Volume + ).
The following screen will be displayed indicating the error count:
SELF DIAGNOSTIC2 OCP : 03 OVP : N/A4 VSTOP : 0 Number 0 means that no fault was detected.5 AKB : 1 Number 1 means a fault was detected one time only.8 SUP : 0101 WDT : N/A
SERIAL: FFFFFFFMODEL: FFFFFFFF
Handling of Self-Diagnostic Screen DisplaySince the diagnostic results displayed on the screen are not automatically cleared, always check the self-diagnostic screen during repairs. When you have completed the repairs, clear the result display to 0.Unless the result display is cleared to 0, the self-diagnostic function will not be able to detect subsequent faults after completion of the repairs.
Clearing the Result DisplayTo clear the result display to 0, press buttons on the Remote Commander sequentially when the diagnostic screen is displayed, as shown below:
Channel 8 0
Quitting the Self-Diagnostic ScreenTo quit the entire self-diagnostic screen, turn off the power switch on the Remote Commander or the main unit.
-
KV-29FS140
KV-29FS140 9
Self-Diagnostic Circuit
A BOARDIC001
Y/CHROMA JUNGLE
A BOARDIC804V.OUT
A BOARDIC001
SYSTEM
A BOARDIC003
MEMORY
FROMCV BOARDIC751 PIN 5
IK
EHTORED LED
DISPLAY
SDA1
V.GUARDSDA5F.B-PLS 3 1384
32122A BOARD
FROMQ816
COLLECTOR
99
+B overcurrent (OCP) Occurs when an overcurrent on the +B (135V) line is detected by pin 32 of IC001 (A Board). If the voltage of pin 32 of IC001 (A Board) is more than 4V when V.SYNC is more than seven verticals in a period, the unit will automatically turn off. V-Protect Occurs when an absence of the vertical de ection pulse is detected by pin 13 of IC001 (A Board). Power supply will shut down when waveform interval exceeds 2 seconds. IK (AKB) If the RGB levels* do not balance within 15 seconds after the power is turned on, this error will be detected by IC001 (A Board). TV will stay on, but there will be no picture.Power Supply NG (+5V) for Video Processor Occurs when IC001 internal HV protect detects an abnormal H-Pulse (frequency) due to improper power supply to IC001. The TV cuts off high voltage power of anode CRT. No picture will be detected. eg: faulty IC602 or IC604
-
KV-29FS140
KV-29FS140 10
1-1. REAR COVER REMOVAL
SECTION 1: DISASSEMBLY
1-2. CHASSIS ASSEMBLY REMOVAL
1 12 screws +BVTP2 4X16
2 Rear cover
1
-
KV-29FS140
KV-29FS140 11
1-3. SERVICE POSITION
1 Release AC Power Cord
2 Release wires from 3 wire holders
2 Rotate A Board and H2 Board
CV Board
A Board H2 Board
-
KV-29FS140
KV-29FS140 12
1. Discharge the anode of the CRT and remove the anode cap.
2. Unplug all interconnecting leads from the de ection yoke, neck assembly, degaussing coils and CRT grounding strap.
3. Remove the CV Board from the CRT.4. Remove the chassis assembly.5. Loosen the neck assembly xing screw and
remove.6. Loosen the de ection yoke xing screw and
remove.7. Place the set with the CRT face down on
a cushion and remove the degaussing coil holders.
8. Remove the degaussing coils.9. Remove the CRT grounding strap and spring
tension devices.10. Unscrew the four CRT xing screws [located on
each CRT corner] and remove the CRT [Take care not to handle the CRT by the neck].
1-4. PICTURE TUBE REMOVAL
WARNING: BEFORE REMOVING THE ANODE CAPHigh voltage remains in the CRT even after the power is disconnected. To avoid electric shock, discharge CRT before attempting to remove the anode cap. Short between anode and CRT coated earth ground strap.
ANODE CAP REMOVAL PROCEDURE
WARNING: High voltage remains in the CRT even after the power is disconnected. To avoid electric shock, discharge CRT before attempting to remove the anode cap. Short between anode and coated earth ground strap of CRT. NOTE: After removing the anode cap, short circuit the anode of the picture tube and the anode cap to either the metal chassis, CRT shield, or carbon painted on the CRT. REMOVAL PROCEDURES
HOW TO HANDLE AN ANODE CAP1. Do not use sharp objects which may cause damage to the surface of the
anode cap. 2. To avoid damaging the anode cap, do not squeeze the rubber covering too
hard. A material tting called a shatter-hook terminal is built into the rubber. 3. Do not force turn the foot of the rubber cover. This may cause the shatter-
hook terminal to protrude and damage the rubber.
Turn up one side of the rubber cap in the direction indicated by arrow a .
Use your thumb to pull the rubbercap rmly in the direction indicatedby arrow b .
When one side of the rubber cap separates from the anode button, the anode cap can be removed by turning the rubber cap and pulling it in the direction of arrow c .
a
b
Anode Button
c
4
1
10
9
8
7
2
3
56
-
KV-29FS140
KV-29FS140 13
The following adjustments should be made when a complete realignment is required or a new picture tube is installed.
These adjustments should be performed with rated power supply voltage unless otherwise noted.
Set the controls as follows unless otherwise noted:Picture control NORMALBrightness control NORMAL
SECTION 2: SET-UP ADJUSTMENTS
Perform the adjustments in order as follows: 1. Beam Landing 2. Convergence 3. Focus 4. Screen (G2) 5. White BalanceNote Test Equipment Required: 1. Color Bar Pattern Generator 2. Degausser 3. DC Power Supply 4. Digital Multimeter
2-1. BEAM LANDINGBefore beginning adjustment procedure:1. Feed in the white pattern signal.2. In order to reduce the geomagnetism on the sets picture tube, face
it east or west.
Adjustment Procedure1. Input a raster signal with the pattern generator.2. Loosen the de ection yoke (DY) mounting screw, and set the purity
control to the center as shown below:
Purity control
3. Position the VM coil as shown below:VM coil
G2G1 G3
Align the edge ofthe VM coil withthe edge of the G3 grid.
G44. Set the raster signal of the pattern generator to green.5. Move the de ection yoke backward, and adjust with the purity
control so that green is in the center and red and blue are even on both sides.
RedBlue
Green
6. Move the de ection yoke forward, and adjust so that the entire screen becomes green.
7. Switch over the raster signal to red, then blue and con rm the condition.
8. When the position of the de ection yoke is determined, tighten it with the de ection yoke mounting screw.
9. If landing at the corner is not right, adjust by using the disk magnets.
ab
b
c
c
d
d
a
Purity controlcorrects this area. Disc magnets or rotatable
disc magnets correct theseareas (a-d).
Deflection yoke positioningcorrects these areas.
5. Oscilloscope 6. Landing Checker 7. XCV Adjuster
-
KV-29FS140
KV-29FS140 14
2-2. CONVERGENCEBefore starting convergence adjustments:1 Perform FOCUS adjustments.2. Set Picture mode to CUSTOM.3. Feed in dot pattern.
Vertical Static Convergence1. Adjust the 4 pole magnet to converge red, green and blue dots in
the center of the screen.
4 pole magnet
RV750H. STAT
RV1800G2 (SCREEN)
Center dot
R G B
G
R
B
2. Tilt the 4 pole magnet and adjust static convergence to open or close the 4 pole magnet.
3. When the 4 pole magnet is moved in the direction of arrow A and B , the red, green, and blue dots move as shown below:
Moved RV750 (H.STAT)
R R
G G
B B
A
AB
B B
BR GG RB
Horizontal Static ConvergenceIf the blue dot does not converge with the red and green dots, use the 6 pole magnet to adjust as shown:
R G B R G B R G B
R BR GG GB
R B
6 Pole Magnet
4 pole Magnet
DY pocket
Purity
6 PoleMagnet
4 PoleMagnet
Y Separation Axix Correction Magnet Adjustment
1. Input cross hatch pattern.2. Set Picture to MINIMUM, Brightness to STANDARD.3. Adjust the Y separation axis correction magnet on the Neck
Assembly so that the horizontal lines at the top and bottom of the screen are straight.
Red
Blue
Red
Blue
-
KV-29FS140
KV-29FS140 15
Convergence Rough AdjustmentBefore performing this adjustment, perform Horizontal and Vertical Static Convergence Adjustment.
Input cross hatch pattern. a) TLH Adjust the horizontal convergence of red and blue dots by inserting
TLH Correction Plate to the DY pocket (left or right). b) YCH Adjust YCH to balance Y axis. c) TLV Adjust the vertical convergence of red and blue dots. d) XCV Adjust XCV to balance X-axis.
TLV
RB
YCH
RB
XCV
BR
TLH
BR
(VR1)TLV1 (no need to adjust)
DY pocket
DY pocket
TLH Plate(VR3)TLV2
(XCV)
(VR2)YCH
ON DY :
Screen Corner ConvergenceAf x a Piece A (110), Convergence Correct/Permaloy Assy Correction to the misconverged areas.
b a
c d
a-d : screen-corner misconvergence
a1
b1
c1d1
a1~d1: Piece A(110), Convergence Corrector
Permaloy Assy Correction2-3. FOCUS ADJUSTMENTFOCUS adjustment should be completed before White Balance adjustment. (See 3-4. WHITE BALANCE ADJUSTMENT)1. Receive digital monoscope pattern.2. Set Picture Mode to STANDARD.3. Adjust focus VR to obtain a just focus at the center of the screen.4. Change the receiving signal to white pattern and blue back.5. Con rm magenta ring is not noticeable. In case magenta ring is
obvious, then adjust FOCUS VR to balance magenta ring and FOCUS.
FLYBACK TRANSFORMER (T503)
-
KV-29FS140
KV-29FS140 16
2-4. SCREEN (G2)1. Before beginning adustment procedure: -Set Picture and Brightness to STANDARD. -Set TV to Video mode. -Set WHBL 016 RGBB to 012. Connect R, G, B of the CV board cathode to oscilloscope.3. Adjust Brightness to obtain the cathode value to the value shown
below:
Cathode setting voltage:170 V 2 (VDC)
4. Adjust SCREEN VR on the FBT until the scanning line disappears.5. Set WHBL 16 RGBB back to 00.
-
KV-29FS140
KV-29FS140 17
3-1. REMOTE ADJUSTMENT BUTTONS AND INDICATORS
MUTING(Enter into memory)
8(Initialize)
5Display previous Category
3Increase Data value
0(Remove from memory)
ENTER(Enter into memory)
6Decrease Data value
1Display next Item
2Display next Category
4Display previous Item
DISPLAY(Service Mode)
POWER(Service Mode)
VOLUME (+)(Service Mode)
RM-YA005
SECTION 3: CIRCUIT ADJUSTMENTS
Electrical Adjustments by Remote CommanderUse the Remote Commander (RM-YA005) to perform the circuit adjustments in this section.Test Equipment Required: 1. Pattern generator 2. Frequency counter 3. Digital multimeter 4. Audio oscillator
-
KV-29FS140
KV-29FS140 18
3-2. ACCESSING THE SERVICE MENUUse the remote commander to access the service menu and perform the following adjusments.1. Standby mode (Power off).2. Press the following buttons on the remote commander within a
second of each other: DISPLAY Channel 5 Sound Volume + POWERThe screen displays the rst service data category item.
Item #
Categoy Item
Data value
Video Input Name
1. On the Remote Commander press 2 to select the next category, or 5 to select the previous category.
2. Press 1 to select the next item, or 4 to select the previous item.3. Press 3 to increase the data value, or 6 to decrease the data
value.4. Press MUTING then 0 to write into memory.
GREEN
GEOM 000 HPOS 028 SERVICE 60 VIDEO 1
VIDEO 1
VIDEO 1
Write with [MUTING].GREEN
GEOM 000 HPOS 028 WRITE 60
GEOM 000 HPOS 028 WRITE 60
Write executed with -.
RED
WRITE becomes red when saving, then changes to SERVICE
WRITE displays when saving changes
Resetting the User MenusUse the following procedure to reset the User Menus to the factory default settings.1. Access Service Menu.2. Press 8 then 0 on the Remote Commander.
3-3. CONFIRMING SERVICE ADJUSTMENT CHANGES
1. After completing adjustments, pull out the plug from the AC outlet, then replace the plug in the AC outlet again.
2. Access Service Menu.3. Using the buttons on the Remote Commander, locate the adjusted
items again to con rm they were adjusted.
3-4. WHITE BALANCE ADJUSTMENTSNOTE: FOCUS adjustment should be completed before White Balance adjustment. (See 2-3. FOCUS ADJUSTMENT)1. Access Service Menu.2. Input white raster signal using signal generator.3. Set the following condition: Picture STANDARD, PICT 006, note value of WTS
then change to 00.4. Press 2 or 5 to select the WHBL category.5. Press 1 or 4 to display the 03 GDRV and 04 BDRV items.6. Press 3 or 6 to adjust for the best white balance.7. At Cutoff, select WHBL 000 BKOR and 001 BKOG and adjust
the data.8. Perform adjustment at Highlight and Cutoff condition until it reaches
its target.9. Press MUTING then ENTER to save into the memory.10. Set PICT 006 WTS back to its original data.
3-5. PICTURE QUALITY ADJUSTMENTS
P Max/Contrast Adjustment1. Set TV to Video mode.2. Set Picture mode to CUSTOM.3. Input PAL 100% Color Bar (CB) to TV set (OTHER model) NTSC 75% Color Bar (CB) (NTSC model).4. Set the following condition: PICTURE 100%, COLOR 0%, BRIGHTNESS 50%5. Connect an oscilloscope to pin 4 (R Output) of CN004.6. Access the Service Menu. Set PICT 003 PWL to 00h and WHBL
017 BLBG to 01h.7. Press 1 or 4 to display SADJ 000 PMAX, then adjust VR by
pressing 3 or 6 until the spec below is displayed:
VR
Black
VR
PAL NTCS
1.61 0.03Vpp
8. Copy the adjusted PMAX data to TV mode.
-
KV-29FS140
KV-29FS140 19
9. Select Wide Mode to ON in TV and Video mode and write PMAX data - 6 steps (for models with V-Compression features only).
10. Press MUTING then 0 to write into memory.11. Set PWL and BLBG back to initial data. (PWL: 01h and BLBG: 00h)12. Press MUTING then 0 to write into memory.
Sub Color Adjustment1. Set TV to Video mode.2. Set Picture mode to CUSTOM.3. Input PAL 100% Color Bar (CB) to TV.4. Set the following condition: PICTURE 100%, COLOR 50%, BRIGHTNESS 50%, HUE 50%,
SHARPNESS 50%5. Set PICT 006 WTS to 00h.6. Connect an oscilloscope to pin 2 (B Output) of CN004 on A Board.7. Access service mode, then press 1 or 4 to select SADJ 004
SCOL, then adjust VB2=VB3=VB4 (for PAL) by pressing 3 or 6 , then write in the data as shown below:
Add 3 steps to SCOL (PAL) 29"
VB2 = VB3 = VB4 (for PAL)
VB1
VB2 VB3 VB4
8. Copy SCOL 50 (PAL) video data to SCOL 50 (SECAM) video.9. Copy SCOL 50 (PAL) video data and SCOL 50 (SECAM) video
data to SCOL 50 (PAL) and SCOL 50 (SECAM) TV table.10. For NTSC model, input NTSC 75% Color Bar (CB) to TV and repeat
steps 4-6.11. Access service mode, then press 1 or 4 to select SADJ 004
SCOL, then adjust VB1 = VB4 (for NTSC) by pressing 3 or 6 , then write in the data as shown below:
Add 4 steps to SCOL (NTSC) 29"
VB1 = VB4 (for NTSC)(Difference is within 70mV)
VB1 VB2 VB3 VB4
12. Copy SCOL 60 (NTSC) video data to SCOL 60 (NTSC) TV.13. Copy SCOL 50 (PAL) and SCOL 60 (NTSC) data to SCOL 50
(PAL) and SCOL 60 (NTSC) in DVD mode.14. Press MUTING then 0 to write into memory.15. Set PICT 006 WTS back to original data.
Sub Hue Adjustment1. Set TV to Video mode.2. Input NTSC 3.58 Color Bar(CB) to TV set.3. Set the following condition: PICTURE 100%, COLOR 50%, BRIGHTNESS 50%, HUE 50%,
SHARPNESS 50%4. Connect oscilloscope to pin 2 (B output) of CN004.5. Access service menu, then press 1 or 4 to select SADJ 001
SHUE and YC 013 TINT, then adjust VB1= VB2 = VB3 = VB4 by pressing 3 or 6 .
6. Press MUTING then 0 to write into memory.7. Select TV channel with NTSC 3.58 and repeat steps 3-7.8. For single system model with NTSC 4.43, select TV channel with
NTSC 4.43 and repeat steps 3-7.9. Once adjustment is completed in Video mode, repeat the
adjustment in DVD mode. Set TV to DVD mode. Input NTSC 3.58 Color Bar (CB).
10. Connect oscilloscope to pin 2 (B output) of CN004.11. Access service menu, then press 1 or 4 to select YC 013 TINT,
then adjust VB1= VB2 = VB3 = VB4 by pressing 3 or 6 .12. Press MUTING then 0 to write into memory.
The highest level of VB1, VB2, VB3 and VB4 shouldbe aligned at the same line.
The ideal difference between VB2 and VB3 is within + 80mV.
VB1VB2
VB3 VB480mV
Sub Bright Adjustment1. Set TV to RF mode.2. Input PAL monoscope to RF mode (OTHER model) and NTSC
monoscope (NTSC model).3. In CUSTOM mode, set BRIGHTNESS 50% and PICTURE to
MINIMUM4. Access the service menu and press 1 or 4 to select WHBL 010
SBRT, then press 3 to increase the data value, or 6 to decrease the data value so that the cut-off level is 10 IRE, slightly glimmer: 20 IRE + 2 steps.
5. Press MUTING then 0 to write into memory.6. Copy the adjusted data WHBL 010 SBRT to Video mode.7. Once adjustment is completed in RF and Video mode, repeat the
adjustment in DVD mode. Repeat steps 2 and 3.8. Access the service menu and press 1 or 4 to select WHBL 010
SBRT, then press 3 to increase the data value, or 6 to decrease the data value so that the cut-off level is 10 IRE, slightly glimmer: 20 IRE.
-
KV-29FS140
KV-29FS140 20
Geometry AdjustmentGeometry adjustment must be done for both color systems PAL and NTSC.
H-Trapezoid Adjustment1. Receive cross hatch/dot signal.2. Adjust RV 1800 on CV Board to make H-Trapezoid distortion best/to
obtain the center illustration shown in TABLE 1.
Category Function IllustrationGEOM 000 H Position(HPOS)
GEOM 001 H Parallelogram(HPAR)
GEOM 002 H Bow(HBOW)
GEOM 003 Linearity(VLIN)
GEOM 005 EW Width(HSIZ)
Note: Adjust HSIZ 16.6 + -(SPCB) _ 50Hz14.8 + -(PAL Monoscope) _ 50Hz15.3 + -(NTSC Monoscope) _ 60Hz
GEOM 006 EW Parabola/Width(EWPW)
GEOM 007 EW Upper Corner(UCOP) Parabola
GEOM 008 EW Lower Corner(LCOP) Parabola
GEOM 009 EW Trapezoid(EWTZ)
GEOM 011 V-Amplitude(VSIZ)
Note: Adjust VSIZ 12.6 + -(SPCB) _ 50Hz11.3 + -(PAL Monoscope) _ 50Hz11.7 + -(NTSC Monoscope) _ 60Hz
GEOM 012 S-Correction(SCOR)
GEOM 013 V-Shift(VPOS)
TABLE 1
Normal Mode 50Hz/60Hz1. Input PAL Special Color Bar (SPCB) or PAL Monoscope (OTHER
model) and Video mode or NTSC Monoscope (NTSC model) signal using a pattern generator.
2. Set Wide Mode to OFF.3. Use TABLE 1 to complete the adjustments by acesssing service
mode and then selecting the category item that needs adjusting by pressing 1 or 4 .
4. Press 3 to increase the data value, or 6 to decrease the data value.
5. Press MUTING then 0 to write into memory.
Wide Mode1. Input PAL Special Color Bar (SPCB) or PAL Monoscope (OTHER
model) and Video mode or NTSC Monoscope (NTSC model) signal using a pattern generator.
2. Set Wide Mode to ON.3. Copy NORMAL MODE 50Hz/60Hz adjusted data for the following
items: GEOM: 011 VSIZ, 010 VSLP, 012 SCOR, and 003 VLIN4. Use TABLE 1 to adjust the data by pressing 3 to increase the data
value, or 6 to decrease the data value until the screen displays the center illustration for all items except the following:
GEOM: 003 VLIN, 010 VSLP, 011 VSIZ, and 012 SCOR5. Press MUTING then 0 to write into memory.
-
21
KV-29FS140
KV-29FS140
Category No. Name Function COMMON (4:3) 50 (4:3) 60 (4:3) w50 (4:3) w60
! "# "$ % &'() &*'+ , , , , &- &** ! (. ##/# ## #01#/# ! , ! 2- #233-
0 % , !% '- #'$-
0 ! !% !, #4. #435 % &' &*3& &(. &*35/ % , - 6-
*- & &*& % , &. &*.&. ! "' ""7/ #"8 4#/"7#"8 #" 4#/"7#" % "' 9*"7 , -: -3+/!1)&
Col Temp Col Temp Col Temp Col Temp Col Temp Col Temp(Cool other) (Warm Other) (Neutral other) (Cool YUV) (Warm YUV) (Neutral YUV)
#"' "; "*7'9
-
22
KV-29FS140
KV-29FS140
Category No. Name Function Common YUV50pal(TV)
50pal(Video)
50secam(TV)
50secam(Video)
60ntsc(TV)
60ntsc(Video)
60palm(TV)
60palm(Video)
50YUV 60YUV Pic mode 0 Pic mode 1 Pic Mode 2 TV VideoTV Wide
(4:3)Video Wide
(4:3)?C D *5E5 % %
2 5065 5063
-
23
KV-29FS140
KV-29FS140
Category No. Name Function Common Others Live TV(Dyn) TV(Others) Video(Dyn) Video(Others) Color Temp (HIGH) Color Temp (Others) Color Temp (LOW) Color Temp (NORMAL)(-4 -?' -/?9'9
-8 -08/ - -33'9 #' 7#'$* #4' 7#' ! #4 -/#* 48 ?-4
-
24
KV-29FS140
KV-29FS140
Category No. Name Function Common Others Pic mode 0 Pic mode 1 Pic Mode 2 SECAM TV
!"#$""%%& ' ( ()*
Category No. Name Function Common*+ %,* ,$*-)%)
.** .**.**&)/0)& *%) # *)* ' ( !() 1 (( -2(!
Category No. Name Function Common343 34 35)-)!
3 35 6--2+*! 3 35)! (. 35-76"#6&
-
25
KV-29FS140
KV-29FS140
Category No. Name Function Common TV Video Off SRS/WOW Trusurround Istereo Imono** # +()
+)- #, +() ' *% *))0+- 8 8 9 8' # -)#2: 11 # #2: 18 #/ /-#2: ; #* *#2: 99 # (#2: < *+% =-)>0*)+- 1 * 3+ 3)> < +. +7?)(! ?& +. +7?)(! ?& 9' +. +7?)(! ?& 1 +.' +7?)(! ?& 18 +.1 +7?)(!9 ?& ; %(3 +"@+() 9 *(+/ **()() '< ** ***-() , +)-,, *3+ 3)>))) 3 +3 33+ 3)>3 ' * )2 1 3+ 3)>)2 8 3* )3
-
26
KV-29FS140
KV-29FS140
Category No. Name Function Common*+( *3@ @)3!)!)*-)))- $!%!& < /% @(===-)-/+"/%&
Category No. Name Function Common Others YUV@* *%% $)$!(">$!(&
*( (!/>))*!( 8 *( (>*-)*!(C(>& (( (()!)@*& ' (( (( )@*& 1 @ ()@=*)/3*(& 8 (% %)-(>%))/3*(& ; *A( *-*-)3*#"#(B)*=&)@* 9 (#B @*--F901&)@* < (#B* @*--F*>901&)@* '
Category No. Name Function Common Others SECAM NTSC * >))*&
,A( $!A()G19 ?-),A(& * ,!)>)F-!))*& B( )B
-
28
KV-29FS140
KV-29FS140
Category No. Name Function Common Others YUV@* *%% $)$!(">$!(&
*( (!/>))*!( 8 *( (>*-)*!(C(>& (( (()!)@*& ' (( (( )@*& 1 @ ()@=*)/3*(& 8 (% %)-(>%))/3*(& ; *A( *-*-)3*#"#(B)*=&)@* 9 (#B @*--F901&)@* < (#B* @*--F*>901&)@* '
Category No. Name Function Common Others SECAM NTSC * >))*&
,A( $!A()G19 ?-),A(& * ,!)>)F-!))*& B( )B
-
29
KV-29FS140
KV-29FS140
Category No. Name Function Common3 =## *),)*$-!)?/&
*)& *)& *)-)&
' ' '-& 1 1 1-& 8 8 8*#)&
! " # $ %
&
'( )'*
+*",, +*",-
(
+'*", '(. '/#0
)1 ,"'*
,"'*" *
/02/
- $
2(/
(3/.
1 4& 5
+*",, +*",-
+'*",22
0/
.
6*#
'"'7*# *# / )0 " )1 ## #'
"
+*",, +*",-
+'*",#+020/
-
KV-29FS140
KV-29FS140 30
4-1. CIRCUIT BOARDS LOCATION
A Board
CV Board
H2 Board
SECTION 4: DIAGRAMS
4-2. PRINTED WIRING BOARD AND SCHEMATIC DIAGRAM INFORMATION
All capacitors are in F unless otherwise noted. pF : F 50WV or less are not indicated except for electrolytics and tantalums.All electrolytics are in 50V unless otherwise speci ed.All resistors are in ohms. k=1000, M=1000kIndication of resistance, which does not have one for rating electrical power, is as follows: Pitch : 5mm Rating electrical power : 1/ 4 W in resistance,
1/10 W and 1/ 8 W in chip resistance.
: non ammable resistor. : fusible resistor.
: internal component. : panel designation and adjustment for repair.
: earth ground : earth-chassis
All variable and adjustable resistors have characteristic curve B, unless otherwise noted.Readings are taken with a color-bar signal input.Readings are taken with a 10M digital multimeter.Voltages are DC with respect to ground unless otherwise noted.Voltage variations may be noted due to normal production tolerances.All voltages are in V.S : Measurement impossibillity.
REFERENCE INFORMATION RESISTOR : RN METAL FILM: RC SOLID: FPRD NONFLAMMABLE CARBON: FUSE NONFLAMMABLE FUSIBLE: RW NONFLAMMABLE WIREWOUND: RS NONFLAMMABLE METAL OXIDE: RB NONFLAMMABLE CEMENT: ADJUSTMENT RESISTOR
COIL : LF-8L MICRO INDUCTOR
CAPACITOR: TA TANTALUM: PS STYROL: PP POLYPROPYLENE: PT MYLAR: MPS METALIZED POLYESTER: MPP METALIZED POLYPROPYLENE: ALB BIPOLAR: ALT HIGH TEMPERATURE: ALR HIGH RIPPLE
The components identi ed by shading and ! symbol are critical for safety. Replace only with part number speci ed.
The symbol indicates a fast operating fuse and is displayed on the component side of the board. Replace only with fuse of the same rating as marked.
: B+line.: B-line.
(Actual measured value may be different).: signal path. (RF)
Circled numbers are waveform references.
-
KV-29FS140
KV-29FS140 31
4-3. BLOCK DIAGRAMS AND SCHEMATICS
FIVWAS
FISWAS
NIAMrewoPylppuS
ybdtSrewoP
RENUT SSF
YUVLR
zHM675.42
ni DVD
ni VA raeR
ni VA tnorF
tuo noM
)ledom OERETS( noitcnuF oidaR MF *
noMtuo
1VA3VA
ni
2VAni
DVDni
~ ni CAV022 ~ 011
/RPSICCFP yaleR
B WOL
3.3 ydtS
CCV OIDUA
LpmA oiduA
TTA
MVN
feD VfeD H
FDPQD
MV
pmA BGR
pmA toR
pmA CCL
W6
R W6
R,LHP
dH ,WE
R,L
-V ,+V
MWP
BGR
SCRIS YEKsnottub
LLP troP O/I
troP O/I
FIS & FIV REWOP
roloCredoceD
VUYrossecorP
elgnuJ
BGR
ADC D
AC
,oeretSPSD
orciMtxeT
pihc-V & CC
DEL
B+
-
KV-29FS140
KV-29FS140 32
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 1
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
A BOARD SCHEMATIC DIAGRAM (1 OF 6)4-4. SCHEMATICS AND SUPPORTING INFORMATION
C032XX
1/10WRN-CP
4 . 7 kR001
EWD
-DEF
L
IIS
_O
UT
1
10uHL006
MM3Z3V3T1D08410uH
L013
1608
10V0 . 2 2
B
C022
1 2 3 4
4PCN003
135V
NC
GN
D
VM O
UT
B_INT
INL1
50V2 . 2
C073
OC
P-P
RO
TEC
T
VG
UA
RD-D
EFL
CVBS3
1/10WRN-CP
2 . 2 kR338
1608
50V100p
CH
C091 10uHL009
1608
50V100p
CH
C021
10V470
C006
W053
1608
25V0 . 0 1
B
C018
MA111-TXD058
2SA1235TP-1EFQ010
1608
16V0 . 2 2
B
C042
SDA
-0
25V47
C026
0MHzX001
5V
10uHL033
SIF
IN1
-IF
+B
_2
1608
50V1000p
B
C081
1608
50V4700p
B
C041
RN-CP
12kR306
1/10W
1608
16V0 . 1
B
C054
2012
16V2 . 2
F
C023
W082
0uHFB008
87
65 4
32
1
24WC16WI-TE13IC003
1/10WRN-CP
4 . 7 kR394
1/10WRN-CP
470R337
1608
25V0.022
B
C053
1/10WRN-CP
4 . 7 kR317
1/10WRN-CP
100R386
16V100
C004
1608
16V0 . 2 2
B
C0481/10WRN-CP
68kR379
50V2 . 2
C311
1608
16V0 . 2 2
B
C321
TP02
MM
3Z5V
6ST1
D06
4
1/10WRN-CP
1 . 5 kR015
16V470
C002
W079
S2
1/10WRN-CP
4 . 7 kR023
1/10WRN-CP
100R048
LSL-
AU
DIO
SCL_CN010
W059
1608
50V470p
CH
C301
1/10WRN-CP
470R011
1/10WRN-CP
100R030
CHIP
0JR801
1608
16V0 . 1
B
C028
SUIN
10V470
C029
VIF
IN1
-IF
MM3Z5V6ST1D068
1/10WRN-CP
4 . 7 kR003
1608
16V0 . 2 2
B
C025
1608
50V1000p
B
C031
1608
50V1000p
B
C052
10uHL011
W034
KRC102SQ018
IIS
_W
S
10uHL003
3.3
V
OUTR
1608
25V0.022
B
C049
0uHFB010
1608
50V1000p
B
C080
16V100
C056
W030
1/10WRN-CP
220R097
M-S
YS
-IF
1608
50V47p
CH
C319
MM3Z3V3T1D083
STBY
_SW
CVBS/PIPOUT
MA
111-
TXD
003
16V100
C304
AG
C-M
UTE
CHIP
0R324
1608
25V6800p
B
C046
1/10WRN-CP
100R026
ABL
1/10WRN-CP
100R004
1/10WRN-CP
100R025
1608
16V0 . 2 2
B
C335
C1
1608
16V0 . 1
B
C0691608
25V0 . 1
B
C333
1608
50V470p
CH
C010
1/10WRN-CP
100R022
0uHFB011
1/10WRN-CP
4 . 7 kR314
1608
50V1000p
B
C322
16V2 . 2
C044
F2012
KARA_L
W063
SVIN
1608
50VCH
C034XX
1608
50V100p
CH
C090
DG
C-R
ELA
Y
INL3
1/10WRN-CP
2 . 2 kR012
1/10WRN-CP
2.2kR056
P L L I F
TP03
1608
50V100p
CH
C003
INR3
LSR
-AU
DIO
1608
50V47p
CH
C320
1/10WRN-CP
1 . 5 kR377
W0761/10WRN-CP
100R384
1/10WRN-CP
100R046
1/10WRN-CP
100R002
1.8
V_
MA
IN
2S
IF
OUTL
16V100
C036
16V220
C317
1/10WRN-CP
100R045
1/10WRN-CP
220R096
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
6566676869707172737475767778798081828384858687888990919293949596
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
TDA12019H/N1E7FIC001
TMP
VSS
P2
VSS
C4
VD
DC
4(1
.8V
)
VD
DA
3(3
.3V
)
VR
EF_P
OS_
LSL
VRE
F_N
EG_L
SL+
LSR
VRE
F_PO
S_LS
R+H
PL
vREF
_NEG
_HPL
+H
PR
VRE
F_PO
S_H
PR
XTA
LIN
XTA
LOU
T
VSS
A1
VGU
ARD
DEC
DIG
VP1
PH2L
F
PH1L
F
GN
D1
SEC
PLL
DEC
BG
EWD
VD
-
VD+
VIF
IN1
VIF
IN2
VSC
IRE
F
GN
DIF
SIF
IN1
SIF
IN2
AGCO
UT
EHT0
AVL/2SIF
KARA LIN
KARA RIN
OUTL
OUTR
DECSDEM
MONO_OUTL
GND2
PLLIF
SIFAGC/SCART
IFVO/IF_MON_OUT
INTC0-IF
VCC8V
AGC2SIF
VP2
MON-OUT
INL2
INR2
CVBS2/Y2
C2
INL3
INR3
CVBS3
INL1
INR1
CVBS1/Y1
C1
LSL
LSR
SCARTHPL
SCARTHPR
CVBS0
VMAFC
HO
UT
VSSC
OM
B
VDD
COM
BVIN
UIN
YIN
YSYN
C
YOU
T
UO
UT
VOU
T
SCA
RTFB
L
R-Y
/RIN
Y/G
IN
B-Y
/BIN
GN
D3
VP3
ABLI
K
R O
UT
G O
UT
B O
UT
VD
DA
(3.3
V)
VREF
AD
_NE
VREF
AD
_PO
VREF
AD
GN
DA
VD
DA
(1.8
)
VDD
A2
VSSA
DC
VD
DA
DC
(1.8
)
SIRCS
B INT
SDA1
VDDC2
VSSC2
I I S W S
IIS CLOCK
MOMUTE-AUDIO
IIS OUT1
AUDIO MUTE
AUDIO STDBY
SCL0
SDA0
VDDP(3.3V)
S1/VC(GA)
ROT CTRL
ROT SW
DGC RELAY
AFT(PIP)
MIC SW
VDDC1(1.8V)
DECV1V8
KEY
S2
VSSC1/P
RED LED
GREEN LED
VDDC3(1.8V)
VSSC3
AGC-MUTE
M-SYS-IF
1/10WRN-CP
1kR059
VDD
C4_
CA
P
1/10WRN-CP
100R029
MA111-TXD057
1/10WRN-CP
100R038
1/10WRN-CP
12kR044
W066
MONO_OUTL
1/10WRN-CP
100R393
10uHL012
1/10WRN-CP
100R380
1608
50V1000p
B
C312
TU
AG
C-I
F
1608
25V0 . 0 1
B
C328
VD
--D
EF
L
1/10WRN-CP
100R060
10uHL007
2012
50VCH
C3230 . 0 1
16V100
C005
1 2 3 4 5
5PCN007
Y O
UT
GN
D
U O
UT
/ F
B
GN
D
V O
UT
AFC
-DEF
L
1608
50V1000p
B
C313
1608
50V1000p
B
C089
1/10WRN-CP
220R099
1608
50V100p
CH
C001
1608
16V0 . 1
B
C020
1
2
3
4
5
6
7
WHT7P
CN3101
KEY
LED R
LED G
GND
VCC
GND
SIRCS
SC
L-0
W031
1608
10V0 . 4 7
B
C316
16V100
C013
B_CLK
W078
RN-CP
R3166 . 8 k
1/10W
MIC
_SW
1/10WRN-CP
100R014
10uHL036
PG102RD066
10uHL032
50V3 . 3
C065
10uHL010
RO
T_C
TRL
1/10WRN-CP
470R364
PWR
-OFF
-MU
TE
W011
CHIP
0R058
10uHL005
SDA_CN010
10uHL035
0uHFB009
AF
T-P
IP
1/10WRN-CP
100R039
MON-OUT
1/10WRN-CP
2 . 2 kR042
SCARTFBL/A16
1608
25V0 . 0 1
B
C308
INL2
IIS
_C
LO
CK
MM
3Z5V
6ST1
D06
5
1608
50V1000p
B
C325
1608
16V0 . 1
B
C092
CVBS2/Y2
UDZSTE-179.1BD025
16V100
C303
50V4 . 7
C302
SYIN
VIF
IN2
-IF
CVBS1/Y1
SEL_IN
1 2 3 4 5 6 7
WHT7P
CN004
GN
D
B O
UT
G O
UT
R O
UT
GN
D
IK 9V
0uHFB007
A
0uHFB006
CHIP0
JR099
UDZSTE-179.1BD023
9V
1/10WRN-CP
39kR051
10uHL008
1/10WRN-CP
R020100
1608
16V0 . 1
B
C318
W033
1/10WRN-CP
100kR395
1/10WRN-CP
4 . 7 kR399
1608
16V0 . 1
B
C038
1/10WRN-CP
4 . 7 kR336
INR1
HO
UT-
DEF
L
47uHL004
VD
+-D
EFL
IFVO/IF_MON_OUT
MM3Z9V1ST1D075
PH
2LF
W077
W010
UDZSTE-179.1BD024
1608
50V1000p
B
C332
1/10WRN-CP
100R024
KARA_R
1/10WRN-CP
100R339
1.8
V_
AU
DIO
S1
/VC
CHIP0
JR1011
INR2
1/10WRN-CP
100R341
250V0 . 1 5C055
SIF
IN2
-IF
1608
16V0 . 2 2
B
C030
B_DAT
MO
MU
TE-A
UD
IO
50V10
C050
CHIP
JR1012&0
1SS133T-77D074
50V2 . 2
C064
1/10WRN-CP
4 . 7 kR315
AUDIO-STDBY
1/10WRN-CP
100R385
10uHL031 TP04
KRC102SQ001
1/10WRN-CP
100R323
MA111-TXD059
1/10WRN-CP
10kR010
10V1
C037
B1608
1608
16V0 . 1
B
C063
0uHFB005 1608
50V2200p
B
C329
1/10WRN-CP
100R041
MM3Z3V3T1D082
KRC102SQ016
W075
MA
111-
TXD
002
50V22
C024
1/10WRN-CP
2 . 2 kR340
AU
DIO
-MU
TE
1/10WRN-CP
4 . 7 kR320
+B
_2
0 . 0
3 . 3
0.1
1.3
2 . 0
1.3
2 . 2
2 . 4
1.6
2 . 6
2.0
0.1
3 . 3
3 . 3
2 . 3
MUTE
0 . 0
2 . 4
0.5
3 . 5
1.6
2 . 4
6
0.1
A1/6
1 . 8
0 . 0
2 . 2
2 . 2
VM
2.0
1.9
0 . 0
0 . 7
3 . 3
0 . 0
2 . 4
0.1
1.3
5
1.3
MICRO
1 . 6
3 . 5
1 . 9
MICRO/AV PROCESSOR
2.4
2.3
0 . 0
3 . 3
1 . 4
NVM
2 . 8
0.1
2.0
1
1.3
AUDIO-VIDEO PROCESSOR
2 . 2
2 . 3
3 . 6
3 . 5
1.9 0 . 6
2.3
1 . 8
3 . 5
CN4103
3 . 3
2 . 9
0 . 0
0 . 3MUTE 1.6
3.2
2 . 2
0 . 1
3
3 . 6
1.9
2 . 2
2.3
2.6
3 . 3
0 . 6
4 . 9
1.8
0.1
1.4
2 . 0
2
2 . 2
4.3
SW
2.0
2.3
0 . 0
3 . 3
0 . 0
2.9
1.3
1.6
1 . 8
2 . 0
3.5
2 . 0
1.6
2.3
3 . 5
2 . 2
3 . 2
4
TO CV BOARDCN711CN701
TO CV BOARD
CN905TO A BOARD
TO H2 BOARD
9-883-705-01A-P1
5 64
1.6 V p-p (H) 1.8 V p-p (H) 2.0 V p-p (H)
321
2.5 V p-p (V ) 5.4 V p-p (H) 3.2 V p-p (H)
A BOARD WAVEFORMS
-
KV-29FS140
KV-29FS140 33
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 |
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
A BOARD SCHEMATIC DIAGRAM (2 OF 6)
R201
RN-CP1/10W3 .3k
C209
50V0 .47
MON-M
UTE
-AUDIO
RN-CP
R212
1/10W470
5JW2110
1/10WRN-CP
R206100
MTZJ-T-77-39D220
9V
1608
50VCH
C234470p
50V
C23810
2SA1235TP-1EFQ202
KRC102SQ200
1PS226-115D200
C239
500VB
470p
35V
C2441000
PWR-O
FF-M
UTE
C211
50V10
CHIP
R2200
MA111-TXD204
50VPT
C2320.047
R211
1/10WRN-CP
15k
1/10WRN-CP
R2422 .2k
1/10WRN-CP
R21315k
MA111-TXD208
1/10WRN-CP
R21610k
R208
1/10WRN-CP
6 .8k
2012
50VB
C2130 . 1
PS2015A
1/4W
R235
FPRD
47
C217
25V1000
LSR-A
UDIO
MTZJ-T-77-39D221
MOMUTE-AUDIO
C247
25VB
1608
0 . 1
1W
R2151
RS
220
2SA1235TP-1EFQ201
MA111-TXD213
1SS133T-77D218
KRC102SQ206
C248
25VB
1608
0 . 1
R234
1/4WFPRD
47
C206
25VB
1608
6800p1 2 3 4
RED4P
CN2101
L SPGND
SPGND
R
FSF05A20D222
JW21115
C243
35V1000
C208
25VB
1608
6800pC207
50V0 . 1
MPS
MA111-TXD202
R237
1/10WRN-CP
100
AUDIO
-MUTE
R236
1/10WRN-CP
3 .3k
R202
1/10WRN-CP
6 .8k
C203
16VB
1608
0.047
AUDIO-1
C202
16VB
1608
0.047
5JW2103
R200
RN-CP1/10W5 .6k
R203
RN-CP1/10W5 .6k
FB2011.1uH
MA111-TXD205
MA111-TXD212
R204
RN-CP1/10W3 .3k
25V
C2191000
R205
1/10WRN-CP
6 .8k
L260110uH
AUDIO-3
1/10WRN-CP
R21510k
1/4WFPRD
1R2646
R238
1/10WRN-CP
100
C214
25V1000
C205
50V0 .47
1W
R2152
RS
220
C204
50V0 . 1
MPS
MA111-TXD203
L2013.3uH
5JW2107
W074
1/10WRN-CP
R2211k
4V_AUDIO_MUTE
81 2 3 4 9765 1 0 11 12
IC200AN17808A
OUTC
/NC
INR/N
C
RF
S_GND
INL
INC/N
C
OUTL
MUTE
PW_G
ND
VCC
STBY
OUTR
/NC
C221XX25V
C231
50VPT
0.047
1/10WRN-CP
R21415kR210
1/10WRN-CP
15k
1SS133T-77D219
R207
1/10WRN-CP
6 .8k
50V
C210100
AUDIO
-STD
BY
5JW2106
C235
50VCH
1608
470p
C215
50V2200
&
MA111-TXD214
1/4WFPRD
R264710k
1/10WRN-CP
R2412 .2k
LSL-
AUDIO
MA111-TXD201
25 .0
7 . 8
AUDIO
3.5
A 2/6
2.0
11 .8
0 . 1
STBY
2 . 6
1 . 7
0 . 0
SW
0 .0
0 . 0
AUDIO-AMP
AUDIO-STBY
24.3
11 .70 . 9
3 . 5
STBY
23 .7
TO H2 BOARDCN4108
9-883-705-01A-P2
-
KV-29FS140
KV-29FS140 34
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 |
A
B
C
D
E
F
G
H
I
J
K
L
M
A BOARD SCHEMATIC DIAGRAM (3 OF 6)
250V
C658 *
1/4W3 . 3 kR636
4V_AUDIO_MUTE
1608
50V470p
CH
C616
1
3
3PCN605
WHT
CHOKE(PFC)
CHOKE(PFC)
COG
SE135N-LF38IC605
1/10WRN-CP
4 . 7 kR634
HS-
A0
07
1.8V_MAIN
500V470p
B
C653
TP602
1/4W4 . 7 k
R631
CHIP
*R608
2012
16V2 . 2
F
C678
FB6051.1uH
K1010HB01PH600
1E3-TBD618
16V100
C641
MA2ZD14001S0D637&
250VE
C6871000p
1/10WRN-CP
33kR668
1 3 4 5 6 7
STR-W6756 *
IC601 SB360-SD639
JW16535
MM3Z15VT1D645
50V470
C635
1/10WRN-CP
*R647
160V330
C665
9V
AUDIO-3
10JW1665
50V3 . 3
C604
AUDIO-2
1/10WRN-CP
100R655
2SC3052EF-T1-LEFQ609
RN-CP
1kR603
1/10W
1/4W1
R656
1608
50V470p
CH
C680
2WRS
R606 *
MTZJ-T-77-33BD636
1W8.2MR650
RN
FB6011.1uH
W06810V4 . 7
C643
F2012
1/4W*
R627
FPRD
1WRF
0 . 1R605
MM3Z15VT1D646
D3SB60F3D604
W018
1A5GD602
10V4 . 7
C686
F2012
22uHL600
50V22
C624
25V2200C682
DGC-RELAY
W002
MA111-TXD600
250V330p
B
C693
EY034
10WRB
R607*
MA111-TXD638
W080
1.1uHFB603
1kV2200pC628
R
MTZJ-6.8D606
1A5GD603
500V470p
B
C626
35V3300C630
W024
1/10WRN-CP
1kR667
TH600 *
+B
2SC3052EF-T1-LEFQ608
500V0.0047
E
C609
JW1623
2WRS
R651 *
TP601
MM3Z9V1ST1D651
MM3Z3V3T1D647 1.8V_AUDIO
1/10WRN-CP
10kR609
1 2 3 4
KIA78R09APIIC602
1E3-TBD619
500V0.0047
E
C605
500V0.0047
E
C610
MM3Z3V3T1D643
2WRS
0 . 2 7R610
1/10WRN-CP
10kR635
5V
16V100C649
16V100
C6391kV
R
C691 *
1E3-TBD622
47uHL601
MM3Z9V1ST1D648
16V100
C668
35V2200C632
STB
Y_S
W_K
P
16V100
C638
22uHL602
250V1000p
E
C657
AUDIO-1
5APS604
11V
1
2
2PCN6101
AC IN
AC IN
3WRS
0 . 2 2R619
7 . 5JW1620
RY600
275V
PP
0 . 1C666
D5L60D644
MM3Z9V1ST1D642
CHIP
0R604
5APS605
10WRB
*R616
GN
D_1
I OCOM
KIA7805APIIC604
35V470C634
1608
25V0 . 0 1
B
C672
1E3-TBD617
1
2
2PCN600
DGCT
DGCT
2SC3052EF-T1-LEFQ601
STBY_SW
500V0.0047
E
C606
1/4WRN
1kR624
MM3Z15VT1D649
I OG
KIA78D33P1IC606
500V470p
B
C654
CHIP
0R680
1608
16V0 . 1
B
C662
16V220
C685
PDZ3.6B-115D635
7
3 16
17
12
14
13
181
15
8
10
11
5
9
4
T602 * TMP
50V0 . 1
C603
MPS
ATS
C-V
CC
1
2
3
*CN602
DGC
NC
DGC
0uHFB608
16V100
C637
1 2 3 4
PQ018EF01SZHIC603
FB6101.1uH
MTZJ-T-77-3.9BD629
2012
50VB
C6940 . 0 1
275V
PP
0 . 2 2C660
1608
50V2200p
B
C623
16V470
C647
5APS603
123 4
T603
W070
7 . 5JW1619
250V330p
B
C625
S3L20UF4D625 &
11V
MM3Z9V1ST1D650
1/4W100
R621
5APS602
1
2
*CN601
DGC
DGC
VCCGND
OUT
BA18BC0FP-E2IC607
3 . 3 V
1/10WRN-CP
4 . 7 kR602
450V
C611 *
1608
1/10WRN-CP
0.5%
R623 *
1E3-TB *
D615M TZJ-30
*
D614
3 . 3 V R E G
STBY-SW
149.9
DGC
9V REG
ERROR-DET
- 0 . 2
1 . 8 V R E G
0 . 0
0 . 7
SWITCHING REG.
1 . 8 V R E G
2 0 . 7
STBY-SW
CISPR
0.1
0.2
A 3/6
1 0 . 8
10
.9 0.2
0 . 0
NEW PART
POWER SUPPLY
RELAY DRIVE
T602
TO H2 BOARDCN4102
9-883-705-01A-P3
*
-
KV-29FS140
KV-29FS140 35
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 |
A
B
C
D
E
F
G
H
I
J
K
L
M
A BOARD SCHEMATIC DIAGRAM (4 OF 6)
1WRS
5 . 6 kR543
8 7 6 5
4321
NJM2903M-TE2IC502
1608
50V4700p
B
C598
1/10WRN-CP
1kR5035
MTZJ-T-77-33BD550
D522ER202
S
2SK3462Q506
1.1uHFB504
MA111-TXD506
1/10W1k
R500
RN-CP
R55127k
1/4WRN
5V
D523PG104R
MA111-TXD511
R5544 . 7 k
1/10WRN-CP
1/10WRN-CP
10kR5010
160V22
C565
D518RU4AM-T3
1/10WRN-CP
2.2MR531
R5821.2M,
1/10WRN-CP
FR104-A5D527
1/10WRN-CP
47kR519
-15
V
OCP-PROTECT
R553820
RN-CP1/10W
1/10WRN-CP
10kR5002
MA111-TXD537
1/10WRN-CP
100R5005
D5291SS133T-77
1/10WRN-CP
470R5036
C5130 . 0 125V
B1608
FBP
1/10WRN-CP
4 . 7 kR5006
AFC-DEFL
2WRS
1kR597
1/10WRN-CP
4 . 7 kR5003
C5390.056400V
PP
1/10WRN-CP
47kR5001
2SA1235TP-1EFQ513
C5700 . 8 2
250VPP
C507470p500V
B
R5021680
1/10WRN-CP
D521ER202
1 2435
T508
VD--DEFL
HOUT-DEFL
R5208 . 2 k
1/10WRN-CP
1608
50V4700p
B
C590
2WRS
47kR528
50V220
C537
1608
50VCH
C51847p
1/4W220k
R5023
RN
1
3
4
WHT4P
CN505
200V
GND
H1
+B_2
C58010016V
1/10WRN-CP
47kR504
R525390k1/4W
RN
200V0.022C5073
S
IRFS614BQ505
KTA1279Q501
50V0 . 3 3C540
MPS
100V
PT
0 . 1C550
2SC3052EF-T1-LEFQ512
VD+-DEFL
R50326803WRS
1
2
3
4
5
6
6PCN507
VD+
GND
5V
15V
-15V
ROT_CTRL
1/10WRN-CP
47kR503
1/10WRN-CP
4 . 7 kR505
160V33
C558
C5720 . 1 5250V
PP
1/10WRN-CP
68kR544
1/10WRN-CP
100kR5008
1/10WRN-CP
4 . 7 kR506
MM3Z5V6ST1D549
R579
3WRS
680
MA111-TXD505
KTA1279Q516
1
CN509
GND
200VPT
0.047C514
L51510mH
3WRS
0 . 4 7R5020
R5554 . 7 k1WRS
+B
L512100uH
1/10W100k
R5015
RN-CP
1/4WRN
18kR538
1/4WFPRD
0 . 4 7R5037 &
1/10WRN-CP
R513220k
2W2 . 2
R585
RS
25V470
C556
D517BY228GP
1/10WRN-CP
R524
9V
R5781
1WRS
1/10WRN-CP
1MR5013
R5228 . 2 k
1/4W
3WRS
470R548
50V0 . 1
C587
B2012
R50245 . 6 k
1/10WRN-CP
1/10WRN-CP
120kR533
D530MTZJ-T-77-27
1 3
4
L50710mH
R510473WRS
25V470
C557
L5132.2mH
1/10WRN-CP
27kR599
2WRS
120R577
R5715 . 6 k
1/10WRN-CP
1/2W220kR502
1/10WRN-CP
1 0 0R535
1/10WRN-CP
470kR515
ROT_CTRL
MA111-TXD536
1608
1/10WRN-CP
R518
5%
27k
H+
2SC3209LK-TPQ502
W503
1/10WRN-CP
6 . 8 kR537
H-
EWD
-DEF
L
1608
50V470p
CH
C592
1/4WFPRD
0 . 4 7R5039
W502
16V100
C521
1/10WRN-CP
22kR530
C5231000p500V
VG
UA
RD-D
EFL
MA111-TXD501
1/10WRN-CP
4 . 7 kR5025
C5742 . 2
250VS502
16V
C502100
CHIP
0JR503
1/4W220k
R5026
RN
Q511TT2202-CA
2012
50V2200p
CH
C511
R5027150k1/4W
RN
1/10WRN-CP
1.0MR5034
1608
CHIP
JR501
0
1/10WRN-CP
1MR532
1
3
4
5
T501
500V1000pC519
PG104RD504
1608
50V47p
CH
C524
250V1
C5001
1
24
3
5
T504
1608
25V0 . 0 1
B
C517
1/10WRN-CP
470kR5009
1/4WFPRD
0 . 4 7R5038
R5022220k1/4W
RN
W504
3.3
V
1/10WRN-CP
15kR529
1/10WRN-CP
33kR523
1/10WRN-CP
1.5MR5014
R5966803WRS
1W47
R562
RS
MMDL914T1D508
1608
50V1000p
B
C588
2SC3052EF-T1-LEFQ515
R5265 . 6 k
1/10WRN-CP
1608
1/10W
RN-CP
R521
5%
47k
16
08
RN-CP
R542
1/10W
5%
3.3K
5
6
SV
9
10
HV
2
4
1
7
8
11
FV
T503
2SC3052EF-T1-LEFQ503
1/4WFPRD
1 . 5R568
UDZSTE-177.5BD507
10V470
C5971SS133T-77
D548
0.45uHFB503
VD+
1
2
3
4
5
6
DY16P
H+
H+
H-
H-
V-
V+
1/10WRN-CP
22kR536
1/10WRN-CP
6 . 8 kR501
D509RD5.6SB-T1
TMP
R514
1/10WRN-CP
47k
1 2 3 4 5 6 7
STV9325IC503
DR
V-I
N
Vcc
F.B
.-P
LS
Vee
OU
T-PU
T
Vcc
(OU
T)
REF
-VO
LT
OC
P-P
RO
TEC
T
C5670 . 7 5250V
PP
C53820000P1.2kV
PP
2WRS
390R547
R557
2WRS
0 . 2 2
R5602 . 2 k
1/10WRN-CP
PH
2LF
AB
L
R5561 0 k
1/10WRN-CP
FR104-A5D513
1.5KR356
L5142.2mH
1/10WRN-CP
15kR5012
15V
A
C5770.047200V
PT
25V0 . 0 1
B
C527
1608
1/10WRN-CP
22kR5000
1/10WRN-CP
3 . 9 kR5011
FR104-A5D528
R5804 . 7 k
1/10WRN-CP
0 . 0
0 . 5
TO CV BOARD
6
-
5 . 6
P I N
1 3 . 6
4 . 4
DEFLECTION
200V SW
4
CORRECTION
0 . 1
200V SW
0 . 3
2 . 9
CN703
V-DRIVE
-12
.3
H-DRIVE
0 . 5
+
134.3
0 . 0
BUFFER
FBT
0 . 1
HORIZONTAL DEFLECTION
3
4 . 1
0 . 0
BUFFER
H-DRIVE
0 . 0
+
3 . 8
H-OUT
S W
7 . 5
0 . 40 . 1
V-DRIVE
1
133.9
TO DY
1 7 . 5
TO CV BOARD
0 . 0
1 . 5
7 . 5
S W
PIN CONTROL
134.3
CN1801
2 . 0
2
1 . 0
OCP CIRCUIT
5 . 6
5
0 . 1
S W
-
7 1 . 3
A 4/6
0 . 0
0 . 1
9-883-705-01A-P4
DY
H.DY H.DY V.DY V.DY
47K
54
321
A BOARD WAVEFORMS
1.40V p-p 224.0V p-p 660.0mV p-p
700.0mV p-p30.20V p-p 52.00V p-p
6
-
KV-29FS140
KV-29FS140 36
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20
A
B
C
D
E
F
G
H
I
J
K
L
M
N
A BOARD SCHEMATIC DIAGRAM (5 OF 6)
VIF
IN1
-IF
1608
25VB
C1480 . 1
MM3Z5V6ST1D109
50V10
C106
3WRS
22kR121
16V470
C1201608
50V10p
CH
C104
AG
C
ADD
SCL
SDA
V s
up
ply
BIL
IF1
TU NC
NC
NC
TU101
C0614700p
50VB
1608
SIF
IN1
-IF
W058
16V470
C108
1/10WRN-CP
10JR042
SIF
IN2
-IF
Q1002SC3052EF-T1-LEF
1608
10V0 . 4 7
B
C1019C133
25VB
1608
1 0 0 P
JW00710
JR1111
16
08
CHIP0
AG
C-M
UTE
R152150
CHIPD105
MA111-TX
C1170.0150VCH
1608
JR11010
CHIP
C0700 . 116V
B1608
1/10WRN-CP
100R115
+B
_2
1/10WRN-CP
680R061
D106MM3Z3V3T1
50V1000p
B
C140
1608
PL
LIF
1608
50V47p
CH
C137
R1068 . 2 k
1/10WRN-CP
1608
25V0 . 0 1
B
C057
JR10060
CHIP
JW0157 . 5 M
ON
O_O
UTL
L1011.2uH
SWF
I 1
I 2
O1
O2
G2
SWF104
VDD
C4_
CA
P
C112
50VCH
1608
5p
Q1022SC3779C,D-AA
100uHL106
R10968
1/10W
2012CHIP
MM3Z5V6ST1D108
VIF
IN2
-IF
SC
L-0
50V10
C101
1608
50VCH
C14247p
50V22
C118
SWFI O1
O2
G1 G2
SWF102
MTZJ-T-77-33BD103
1608
50V4700p
B
C109
1/10WRN-CP
100R118
R149
16
08
CHIP
470
STBY
_SW
C3000 . 2 216V
B1608
C1154700p
50VB
1608
1/10WRN-CP
22kR355
R10333
1/10WRN-CP
1/10WRN-CP
1kR100
C1350 . 0 125V
B1608
JR1100
16
08
CHIP
0
9V
R128
16
08
CHIP
0
CT139
L100100uH
R108820
1/10WRN-CP
SDA
-0
1/10WRN-CP
100R116
JR1110
CHIP
0
2012
50V0 . 0 1
B
C119
C1164700p
50VB
1608
1608
50V10p
CH
C102
RN-CP
JR1050&
1/10W150
30
V
C1110 . 0 125V
B
1608
16V470
C107TU-AGC
1608
25V0 . 0 1
B
C138
R0883 9 0
1/10WRN-CP
CT131
TU
AG
C-I
F
R1072 . 7 k
1/10WRN-CP
R11933
1/10WRN-CP
5V
3 . 1
3 . 6
2 . 4
A 5/6 BOARD
4 . 3
TUNER
9-883-705-01A-P5
-
KV-29FS140
KV-29FS140 37
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
A BOARD SCHEMATIC DIAGRAM (6 OF 6)
W016
1
2
3
4
5
5PCN905
YEL
Y OUT
GND
U OUT / FB
GND
V OUT
1/10WRN-CP
10kR9026
P18
1/10WRN-CP
1kR904
RN-CP
220R927
1/10W
MM3Z5V6ST1D908
INL
3
CV
BS2
/Y2
1/10WRN-CP
100R9030
1/10WRN-CP
220kR915
1/10WRN-CP
100R9019
P14
W083
P5
1/10WRN-CP
R9036100
P1
5VRN-CP
220R926
1/10W
P12
1/10WRN-CP
220kR916
47uHL902
1/10WRN-CP
39kR907
UN2216-TXQ901
P11
1/10WRN-CP
100R9022
1/10WRN-CP
75R929
W017
1/10WRN-CP
220kR921
1/10WRN-CP
470R910
1/10WRN-CP
1kR902
1608
16V0 . 2 2
R9018
B
S2
00
1:7
K
INL
1
2012
16V1
F
C908
P7
SE
L_
IN
P3
16
08
1/10WRN-CP
R9017
5%
100
B_DAT
CHIP
0JR1903
1/10WRN-CP
75R9062
1/10WRN-CP
10kR9027
1/10WRN-CP
470kR913
2012
16V1
F
C906
1608
CHIP
R9900
34
12
Connector
TERMINAL, SJ900
8P
1/10WRN-CP
39kR905
S1
/VC
MM3Z5V6ST1D909
B_CLK
SY
IN
P11
1 2 3 4 5
5PCN9201 C
VIN GN
D
LIN G
ND
RIN
JL964
2012
25VB
C9160 . 1
1608
50V470p
CH
C922
16
08
1/10WRN-CP
R923
5% 75
RN-CP
220R925
1/10W
16V470
C903
1/10WRN-CP
100R9023
1608
50V470p
CH
C913
2012
16V2 . 2
F
C901
P9
1608
1/10WRN-CP
R919
5%
100
MON-OUT
1/10WRN-CP
R90939k
J901
1
2
3
6
7
45
89
10
11
12
13
14
15
16
1718
1608
16VB
C0950 . 1
1/10WRN-CP
75R928
P9
CV
BS1
/Y1
INR
2
P12
1608
50V470p
CH
C925
P15
1 2 3 4 5
5PCN904
AGC
GN
D
BIN
T
BD
AT
BC
LK
1608
50V470p
CH
C912
CHIP
R90060
0C981
CHIP
1/10WRN-CP
470kR924
C9020
CHIP
1/10WRN-CP
150R931
P16
INR
3
OU
TL
1/10WRN-CP
470R906
P16
P15
9V
OU
TR
16V0 . 1
C062
B1608
P3
2012
16V1
F
C907
P10
1/10WRN-CP
R98910k
1608
16VB
C0960 . 1
1/10WRN-CP
100R9025
1/10WRN-CP
100R9020
1/10WRN-CP
120R939
P9
CHIP
0R932 &
50V22
C980
C1
CHIP
0R911
1608
16V0 . 1
B
C093
1/10WRN-CP
100R9031
1/10WRN-CP
100R9028
INR
1
2012
16V2 . 2
F
C900
W005
P5
2SA1235TP-1EFQ900
P5
CHIP
0R933
W081 &
MO
N-M
UTE
-AU
DIO
1608
50V470p
CH
C914
UN2216-TXQ902
1608
1/10WRN-CP
R944
5%
1 . 5 k
INL
2
SV
IN
P10
16V0 . 1
C067
B1608
1608
16VB
C0940 . 1
W006
1/10WRN-CP
220kR920
1/10WRN-CP
75R930
B_INT
1/10WRN-CP
470kR914
16V100
C956
16V0 . 1
C060
B1608
1608
50V470p
CH
C910
1608
25VB
C9050 . 0 1
2012
16V1
F
C909
2012
16V2 . 2
F
C967
1608
50V470p
CH
C915
P7
UDZSTE-175.6BD910
P1
W007
SUIN
MM3Z9V1ST1D900
1/10WRN-CP
39kR908
P14
1608
50V470p
CH
C911
TU-AGC
P11
P10
0 . 1
V1
Y
R OUT
S I N
0 . 1
L OUT
U
MON OUT
R1
1 . 4
V I D E O I N 1
0 . 2
V
L1
L(YUV)
V I D E O I N 1
2 . 1
R(YUV)
TO A BOARDCN007
TO H2 BOARDCN4105
F O R J I G
9-883-705-01A-P6
A 6/6
TERMINAL BLOCK
-
KV-29FS140
KV-29FS140 38
[AUDIO-VIDEO PROCESSOR, MICRO, AUDIO, POWER SUPPLY, DEFLECTION, TUNER, TERMINAL BLOCK]ACONDUCTOR SIDE
[AUDIO-VIDEO PROCESSOR, MICRO, AUDIO, POWER SUPPLY, DEFLECTION, TUNER, TERMINAL BLOCK]ACOMPONENT SIDE
EY558
EY559
W030
FB608
W032
W03
3
14 CN003
EY560
W034 17
CN004
EY561
EY562
EY563
1 5CN007
EY56
4
J900
EY56
5
J901
EY56
6EY
567
EY568
J904
EY569
J905
R605
J906
R606
J907
R607
19
CN01
0
J908
SWF100
EY185
G1G2O1O2
I
SWF102
I
O
SWF103
EY57
0
IHILGO1O2
SWF104
EY57
1
EY57
2EY
573
R610R61
2
R616
EY194
R618
R619
C002
W053
W05
4
R234
C004
CN600
R235
C005
CN601
C006
CN602
W057
R620
1 3CN604
W059
R621
CN605
111
TU101
1
CN60
6
5
TU102
16
CN607
TU103
R624
C200
C201
R627
C204
C205
X001
W063
C013
C207
W064
W065
C209
W066
W068
R631
14
CN21
01
18
CN21
02
R633
13
CN2103
C210
14
CN21
04
C211
TP101
R636
C212
W070
C214
C215
C217W074
C024
W075
C219
C603
R640
C604
TH600
C029
C605
C607
C220C221
C609
C611
C036
C612
R650
R651
R653
C231
R656
C232
R658
R659
C236C237
PF LP
C238
C239
R660
C624
R661
C625
C626
C240
C628
C241
JW1031
C243
C050
C244
C245
JW1611
C246
JW16
12
JW16
13
C630
JW16
14
JW00
1
C055
JW16
15
JW00
2
C056C632
JW16
16
JW16
17
JW004
C634
JW16
18
JW005
C635
JW1619
JW00
6
C637
JW00
7
A503
JW00
8
C638
R675
C639
R676
JW200
R678
JW1620
JW201
JW16
21
EY001
JW16
22
EY002
JW16
23
EY003
C064
EY004
RY600
JW01
1
C065
C641
EY005
JW01
2
BCQ102
JW01
4
A511
JW20
9
R681
JW01
5
JW016
C646JW
017
C647
JW01
8
EY200
C649
EY201
EY20
2
JW21
3
C073
EY207
JW02
0
EY01
4
EY208
JW21
5
JW02
1
EY209
JW02
2
EY016
JW217
JW02
3
C653
EY017
JW02
4
C654
L100
JW601
JW02
5
17
CN31
01
L101
JW026JW
602
JW60
3
JW02
7
C657
JW604
JW028
C658
JW605
JW029
JW21
11
EBQ50
1
L106
E BQ502
JW60
7
JW22
0
JW60
8
JW60
9
JW22
2
JW800
C660
D218
JW801
D219
JW03
2
D602
JW22
7
D603
JW61
0
JW03
4
JW228
EY02
8
+-
D604
JW80
5
JW61
1
EY02
9
D605
JW61
2
JW03
6
D606
JW80
7
JW03
7
D607
JW03
8
JW808
C668
D220
D608
112IC200
JW61
5
JW809
JW03
9
D221
EY22
1
BE
Q51
1
L260
1JW
616
D222
EY22
2
R502
2
JW61
7
EY22
3
R502
3
JW23
0
JW61
8
D224
EY22
4
D225
EY225
EY03
2
R502
6
EB
Q51
6
L502
JW16
53
EY03
3
R5027
JW810
JW23
4
JW04
0
C670
JW1654
EY03
4
D228
JW041
EY035
JW23
6
JW042
JW81
2
JW81
3
JW237
JW04
3
L507
JW814
EY038
D614
EY03
9
D615
JW046
D617
JW62
4
D618
JW81
9
JW62
5
R215
1
D619
JW62
6
R215
2
R5032
JW62
7
JW628
JW24
0
EY040
JW62
9
EY041
L511L512
L513
JW05
0
JW820
D620
L514
JW16
65
D621 L515
1 7
IC601
JW052
C682
D622
IC602
JW823
I
O
G
IC603
JW16
68
JW824
JW05
4
EY048
D624
I
O
IC604
JW16
69
JW05
5
JW63
1
C685
EY049
D625
IC605
JW05
6
IO
IC606
L902
T602
JW82
7
JW05
7
C687
JW05
8
JW82
8
JW63
4
C688
JW05
9
C689
D629
JW16
70
JW63
8
JW16
71
JW63
9
EY052
JW06
0
C690
EY054
JW83
1
C691
EY055
JW06
2
JW832
EY056
JW06
3
C507
3
EY057
D633
JW64
0
JW064
EY058
JW06
5
JW64
1
EY059
JW06
6JW642
D636
JW06
7
JW06
8
JW838
JW06
9
D639
JW646
JW64
7
EY060
JW07
0
I O
D640
JW07
1
EY065
D641
JW07
2
D066
EY066
JW073
EY06
7
D644
JW074
EY06
8
JW07
5
EY069
JW07
6
W502
JW07
7
JW65
3
W503
JW654
JW07
8
W504
JW07
9
W506
JW656
JW65
7
FB503
JW658
EY072
JW08
0
JW08
1
EY07
6
JW08
3
EY07
7
JW08
4
JW08
5
JW08
7
JW08
8
JW66
5
JW08
9
R502
JW09
0
R121
JW099
R517
C123
3
13
CN503
1 4CN505
1 6
CN507
R525
C101
R528
C106
C107
C108
C302
C303
C304
CN903
R538
1
5
CN904
1
1CN905 51 6CN906
14
CN90
7
C118
C501
C502
C311
JW11
01
R543
C507
C120
C508
C509
R547
C317
R548
C514
R551
R555
C519
R557
C903
C904
TP601
A002
TP602
A003
A005
C521
A007
R562
C2602
S502
C528
R568
A010
A011
TP02
A013
TP03
A014
TP04
C531
A017
A019
C537
C538
C539
R577
R578
A020
JW101
R579
JW103
C540
JW10
5
DY1
JW106
A604
CT13
1
JW30
0
R585
A222
A223
D103
JW11
1
CT13
9
JW113
C550
JW11
5
JW117
R590
JW118
C556 C55
7
L003
R594
C558