Sony KV-29FS13 Service manual

Supported model
SERVICE MANUAL
MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO.
KV-29FS13 KV-29FS13C
RM-Y180 E SCC-S56BA
RM-Y180 E SCC-S38WA
BA-5
CHASSIS
9-965-906-01
KV-29FS13
RM-Y180
TRINITRON® COLOR TELEVISION

TABLE OF CONTENTS

SECTION TITLE PAG E
Specifi cations.......................................................................................................................................3
Warnings and Cautions........................................................................................................................4
Safety Check-Out.................................................................................................................................5
Self-Diagnostic Function......................................................................................................................6
1. Disassembly
1-1. Rear Cover Removal.....................................................................................................................8
1-2. Chassis Assembly Removal..........................................................................................................8
1-3. Service Position ............................................................................................................................8
1-4. Picture Tube Removal...................................................................................................................9
Anode Cap Removal Procedure...................................................................................................9
2. Set-Up Adjustments
2-1. Beam Landing...............................................................................................................................10
2-2. Convergence................................................................................................................................. 11
2-3. Focus ............................................................................................................................................12
2-4. Screen (G2) .................................................................................................................................. 12
2-5. Method of Setting the Service Adjustment Mode..........................................................................13
2-6. White Balance Adjustments .......................................................................................................... 13
3. Safety Related Adjustments
3-1.
3-2. B+ Voltage Confi rmation and Adjustment .....................................................................................14
4. Circuit Adjustments
4-1. Setting the Service Adjustment Mode...........................................................................................16
4-2. Memory Write Confi rmation Method .............................................................................................16
4-3. Remote Adjustment Buttons and Indicators .................................................................................16
Adjustment Items..........................................................................................................................17
4-4. MA Board Adjustments.................................................................................................................21
5. Diagrams
5-1. Circuit Boards Location.................................................................................................................23
5-2. Printed Wiring Boards and Schematic Diagrams..........................................................................23
5-3. Block Diagram............................................................................................................................... 24
A Board ........................................................................................................................................27
CA Board...................................................................................................................................... 30
D Board ........................................................................................................................................32
HX Board...................................................................................................................................... 33
K Board ........................................................................................................................................34
MA Board .....................................................................................................................................35
VA Board ......................................................................................................................................39
5-4. Semiconductors............................................................................................................................40
6. Exploded Views
6-1. Chassis.........................................................................................................................................41
6-1. Picture Tube Removal...................................................................................................................42
7. Electrical Parts List ...................................................................................................................................... 43
X
R564 Confi rmation Method (HV Hold Down Confi rmation) and Readjustments..................... 14
KV-29FS13 / 29FS13C
— 2 —

SPECIFICATIONS

KV-29FS13 / 29FS13C
Television system
NTSC
KV-29FS13
Power requirements 120V 60Hz 220V 50Hz
Number of Inputs/Outputs
1)
Video
S Video
, P
Y, P
B
Audio
Audio Out
2)
3)
R
4)
5)
33
11
11
33
11
Speaker output (W) 10W x 2 10W x 2
Power Consumption (W)
In use (Max) 175W 175W
In Standby 1W 1W
Dimensions(W/H/D)
mm 700 x 632 x 572 mm 700 x 632 x 572 mm
5
in 27
/8 x 25 x 20 1/4 in 27 5/8 x 25 x 20 1/4 in
Mass
kg
lbs
47 kg
103 lbs. 10 oz. 103 lbs. 10 oz.
1)
1 Vp-p 75 ohms unbalanced, sync negative
2)
Y: 1 Vp-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
5)
More than 408 mVrms at the maximum volume setting (variable)
More than 408 mVrms (fi x); Impedance (output): 2 kilohms
KV-29FS13C
47 kg
Channel coverage
VHF: 2-13/ UHF: 14-69/ CATV: 1-125
Picture tube
Flat Trinitron® tube
Visible screen size
27-inch picture measured diagonally
Actual screen size
29-inch measured diagonally
Antenna
75 ohm external terminal for VHF/UHF
Supplied Accessories
Remote Commander RM-Y180 Size AA (R6) batteries (2)
Optional Assessories
Connecting cables: VMC-810S/820S, VMC-720M, YC-15V/30V, RK74A U/V mixer EAC-66 TV Stand SU-27FD4
Design and specifi cations are subject to change without notice.
— 3 —
KV-29FS13 / 29FS13C

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 identifi 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 identifi ed in this manual. Follow these procedures whenever critical components are replaced or improper operation is suspected.
ATTENTION!!
Apres avoir deconnecte le cap de l’anode, court-circuiter l’anode du tube cathodique et celui de l’anode du cap au chassis metallique de l’appareil, ou la couche de carbone peinte sur le tube cathodique ou au blindage du tube cathodique.
Afi n d’eviter tout risque d’electrocution provenant d’un chássis sous tension, un transformateur d’isolement doit etre utilisé lors de tout dépannage. Le chássis de ce récepteur est directement raccordé à l’alimentation du secteur.
! ATTENTION AUX COMPOSANTS RELATIFS A LA SECURITE!!
Les composants identifi es par une trame et par une marque ! sur les schemas de principe, les vues explosees et les listes de pieces sont d’une importance critique pour la securite du fonctionnement. Ne les remplacer que par des composants sony dont le numero de piece est indique dans le present manuel ou dans des supplements publies par sony. Les reglages de circuit dont l’importance est critique pour la securite du fonctionnement sont identifi es dans le present manuel. Suivre ces procedures lors de chaque remplacement de composants critiques, ou lorsqu’un mauvais fonctionnement suspecte.
— 4 —
SAFETY CHECK-OUT
KV-29FS13 / 29FS13C
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 specifi 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 Simpson’s 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 Ground
A 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 trouble­light (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
Trouble Light
Ohmmeter
0.15 F
1.5 K
AC Outlet Box
AC
Voltmeter
(0.75 V)
Earth Ground
Figure A. Using an AC voltmeter to check AC leakage. Figure B. Checking for earth ground.
— 5 —
Cold-water Pipe
KV-29FS13 / 29FS13C
SELF-DIAGNOSTIC FUNCTION
Supported model
The units in this manual contain a self-diagnostic function. If an error occurs, the STANDBY/TIMER LED will automatically begin to fl ash. The number of times the LED fl ashes translates to a probable source of the problem. A defi nition of the STANDBY/TIMER LED fl ash indicators is listed in the instruction manual for the user’s 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.
Diagnostic Test Indicators
When an error occurs, the STANDBY/TIMER LED will fl ash a set number of times to indicate the possible cause of the problem. If there is more than one error, the LED will identify the fi 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”.
Diagnostic Item
Description
Power does not turn on
+B overcurrent (OCP)*
I-Prot
IK (AKB)
No. of times
STANDBY/ TIMER
lamp fl ashes
Does not light
2 times
4 times
5 times
Self-Diagnositc
Display/
Diagnostic Result
2:0 or 2:1
4:0 or 4:1
5:0 or 5:1
Probable Cause Location
• Power cord is not plugged in.
• Fuse is burned out (F601). (A Board)
• H.OUT (Q502) is shorted.(A Board)
• IC702 is shorted. (CA Board)
• +13V is not supplied. (A Board)
• IC502 is faulty. (A Board)
• Viedo OUT (IC502) is faulty. (A Board)
• IC301 is faulty. (MA Board)
• Screen (G2) is improperly adjusted.**
Detected Symptoms
• Power does not come on.
• No power is supplied to the TV.
• AC Power supply is faulty.
• Power does not come on.
• Load on power line is shorted.
• Has entered standby state after horizontal raster.
• Vertical defl ection pulse is stopped.
• Power line is shorted or power supply is stopped.
• No raster is generated.
• CRT Cathode current detection reference pulse output is small.
*If a +B overcurrent is detected, stoppage of the vertical defl ection is detected simultaneously. The symptom that is diagnosed fi rst by the mircrocontroller is displayed on the screen. **Refer to Screen (G2) Adjustments in Section 2-4. of this manual.
Display of Standby/Timer LED Flash Count
2 times
4 times
5 times
LED ON 0.3 sec.
LED OFF 0.3 sec.
LED OFF
3 sec.
Standby/Timer LED
Diagnostic Item Flash Count*
+B Overcurrent 2 times I-Prot 4 times IK (AKB) 5 times *One fl ash count is not used for self-diagnostic.
Stopping the Standby/Timer LED Flash
Turn off the power switch on the TV main unit or unplug the power cord from the outlet to stop the STANDBY/TIMER LAMP from fl ashing.
— 6 —
KV-29FS13 / 29FS13C
Self-Diagnostic Screen Display
For errors with symptoms such as “power sometimes shuts off” or “screen sometimes goes out” that cannot be confi rmed, it is possible to bring up past occurrences of failure on the screen for confi rmation.
To Bring Up Screen Test
In standby mode, press buttons on the Remote Commander sequentially, in rapid succession, as shown below:
Display
Self-Diagnostic Screen Display
Handling of Self-Diagnostic Screen Display
Since 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 Display
To clear the result display to “0”, press buttons on the Remote Commander sequentially when the diagnostic screen is displayed, as shown below:
Channel
Quitting the Self-Diagnostic Screen
To quit the entire self-diagnostic screen, turn off the power switch on the Remote Commander or the main unit.
Channel
SELF DIAGNOSTIC 2: 000
3: N/A
4: 000
5: 001
101: N/A
8
ENTER
5
Sound Volume - Power ON
Note that this differs from entering the Service Mode (Sound Volume
Numeral “0” means that no fault was detected. Numeral “1” means a fault was detected one time only.
+
).
Self-Diagnostic Circuit
FROM
CB BOARD
IC702 PIN 5
MA BOARD
IC301
Y/CHROMA JUNGLE
36
IK IN
A BOARD
IC502
V. OUT
REF
3
MA BOARD
IC001
SYSTEM
IO-BDAT
5
I-Prot
42
MA BOARD
IC003
MEMORY
5
BDA
A BOARD
33
FROM
IC501
PIN 3
+B overcurrent (OCP)
Occurs when an overcurrent on the +B (135V) line is detected by pin 33 of IC301 (MA Board). If the voltage of pin 3 of IC301 (MA Board) is less than 1V when V.SYNC is more than seven verticals in a period, the unit will automatically turn off.
I-Prot
Occurs when an absence of the vertical defl ection pulse is detected by pin 5 of IC001 (MA Board). Power supply will shut down when waveform interval exceeds 2 seconds.
IK (AKB)
If the RGB levels* do not balance within 2 seconds after the power is turned on, this error will be detected by IC301 (MA Board). TV will stay on, but there will be no picture.
*(Refers to the RGB levels of the AKB detection Ref pulse that detects 1K).
HP/PROTECT
SDA
61
43
IO-SDAT
O-LED
22
DISPLAY
— 7 —
1-1. REAR COVER REMOVAL
KV-29FS13 / 29FS13C
SECTION 1: DISASSEMBLY
3 Screws +BVTP 4x16
3 Screws +BVTP 4x16
5 Screws +BVTP 3x12
1-2. CHASSIS ASSEMBLY REMOVAL 1-3. SERVICE POSITION
CA Board
3 Screws +BVTP 4x16
Claw
Chassis Assembly
— 8 —
VA Board
D Board
A Board
MA Board
1-4. PICTURE TUBE REMOVAL
WARNING: BEFORE REMOVING THE ANODE CAP 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 CRT coated earth ground strap.
1
10
KV-29FS13 / 29FS13C
Coated
Earth
Ground
Strap
9
8
3
7
6
2
5
4
1. Discharge the anode of the CRT and remove the anode cap.
2. Unplug all interconnecting leads from the defl ection yoke, neck assembly, degaussing coils and CRT grounding strap.
3. Remove the CA and VA Board from the CRT.
4. Remove the chassis assembly.
5. Loosen the neck assembly fi xing screw and remove.
6. Loosen the defl ection yoke fi 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 fi xing screws [located on each CRT corner] and remove the CRT [Take care not to handle the CRT by the neck].
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 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.
c
b
a
Anode Button
Turn up one side of the rubber cap
1
inthe direction indicated by arrow
a
.
Use your thumb to pull the rubber
2
cap fi rmly in the direction indicated by arrow
.
b
HOW TO HANDLE AN ANODE CAP
1. 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 fi tting called a shatter-hook terminalis 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.
When one side of the rubber cap separates from
3
the anode button, the anode cap can be removed by turning the rubber cap and pulling it in the direction of arrow
.
c
— 9 —
SECTION 2: SET-UP ADJUSTMENTS
KV-29FS13 / 29FS13C
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: VIDEO MODE: Standard PICTURE CONTROL: Normal BRIGHTNESS CONTROL: Normal
2-1. BEAM LANDING
Before beginning adjustment procedure:
1. Degauss the entire screen.
2. Feed in the white pattern signal.
ADJUSTMENT PROCEDURE
1. Input a raster signal with the pattern generator.
2. Loosen the defl ection yoke mounting screw, and set the purity control to the center as shown below:
Purity Control
Perform the adjustments in order as follows:
1. Beam Landing
2. Convergence
3. Focus
4. Screen (G2)
5. White Balance
Note Test Equipment Required:
1. Color Bar Pattern Generator
2. Degausser
3. DC Power Supply
4. Digital Multimeter
6. Switch over the raster signal to red and blue and confi rm the condition.
7. When the position of the defl ection yoke is determined, tighten it with the defl ection yoke mounting screw.
8. If landing at the corner is not right, adjust by using the disk magnets.
3. Turn the raster signal of the pattern generator to green.
4. Move the defl 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.
Blue Red
Green
5. Move the defl ection yoke forward, and adjust so that the entire screen becomes green.
— 10 —
Purity control
corrects this area
Disk magnets or rotatable disk magnets correct
these areas (a-d)
Deflection yoke positioning
b
d
b
a
cd
corrects these areas
a
c
KV-29FS13 / 29FS13C
2-2. CONVERGENGE
Before starting convergence adjustments:
1 Perform FOCUS, VLIN and VSIZE adjustments.
2. Set BRIGHTNESS control to minimum.
3. Feed in dot pattern.
VERTICAL STATIC CONVERGENCE
1. Adjust V. STAT magnet to converge red, green and blue dots in the center of the screen (Vertical movement adjust V.STAT RV701 to converge).
Center dot
RV701
R
B
G
V.STAT
R G B
HORIZONTAL STATIC CONVERGENCE
If the blue dot does not converge with the red and green dots, peform the following:
1. Move BMC magnet (a) to correct insuffi cient H.Static convergence.
2. Rotate BMC magnet (b) to correct insuffi cient V.Static convergence.
3. After adjusting the BMC magnet, repeat Beam Landing Adjustment.
V.S TAT
BMC MAGNET
PURITY
V.STAT magnet
2. Tilt the V. STAT magnet and adjust static convergence to open or close the V. STAT magnet.
When the V. STAT magnet is moved in the direction of arrow a and b,
red, green, and blue dots move as shown below:
1
a
b
2
a
a
b
B G
R
b
b
B G
R
a
RGB
b
BGR
b
BMC magnet
a
3
b
a
a
R
G
b
b
B
G
B
R
— 11 —
KV-29FS13 / 29FS13C
DYNAMIC CONVERGENCE ADJUSTMENT
Before performing this adjustment, perform Horizontal and Vertical Static Convergence Adjustment.
1. Slightly loosen defl ection yoke screw.
2. Remove defl ection yoke spacers.
3. Move the defl ection yoke for best convergence as shown below:
G
B
R
R
G
B
BGR
B
G
R
R
R
B
G
R
B
B
G
R
B
G
BGR
B
G
R
G
B
R
G
R
GB
4. Adjust XCV core to balance X axis.
5. Adjust YCH VR to balance Y axis.
6. Adjust vertical red and blue convergence with V.TILT (TLV VR.)
Note: Perform adjustment 3-6 while tracking items 1 and 2.
SCREEN-CORNER CONVERGENCE
1. Affi x a permalloy assembly corresponding to the misconverged areas:
b
a
ba
a-d: screen-corner
misconvergence
c
d
c
d
2-3. FOCUS
1. Adjust FOCUS control for best pictures.
4. Tighten the defl ection yoke screw.
5. Install the defl ection yoke spacers.
TLH PLATE ADJUSTMENT
1. Input crosshatch pattern.
2. Adjust PICTURE QUALITY to standard, PICTURE and BRIGHTNESS to 50%, and OTHER to standard.
3 Adjust the Horizontal Convergence of red and blue dots by tilting the
TLH plate on the defl ection yoke.
RV701
V. S TAT
CA Board
VA Board
TLH Plate
XCV
(TLV)
YCH
TLV
Focus (FV)
Screen (G2)
2-4. SCREEN (G2)
1. Input a dot pattern.
2. Set the PICTURE and BRIGHTNESS controls at minimum and COLOR control at normal.
3. Adjust SBRT, GCUT, BCUT in service mode with an oscilloscope as shown below so that voltages on the red, green, and blue cathodes are 170 ± 2VDC.
B R R B (R)(B) (B)(R)
TLH+ TLH-
— 12 —
Ground
170 ± 2VDC
Pedestal
2-5. METHOD OF SETTING THE SERVICE ADJUSTMENT MODE
SERVICE MODE PROCEDURE
1. Standby mode (power off).
2. Press
Display
Channel 5 Sound Volume + Power
on the Remote Commander (press each button within a second).
SERVICE ADJUSTMENT MODE ON
1. The CRT displays the time being adjusted.
KV-29FS13 / 29FS13C
2. Press
3. Press
4. Press
Display
hsiz 16
to save into the memory.
service
ntsc
vchp
then
Category
defl
00000000
ENTER
Mode
Signal Type
1
or 4 on the Remote Commander to select the time.
3
or 6 on the Remote Commander to change the data.
MUTING
Item
00000000
Display
Item
SERVICE ADJUSTMENT MODE MEMORY
Turn the set off then on to exit Service Adjustment Mode.
Signal Type
Category
Mode
service defl hsiz 16
ntsc
vchp 00000000 00000000
Display
Item
write
Item Data
MUTING
ENTER
Green
Red
2-6. WHITE BALANCE ADJUSTMENTS
1. Input an entire white signal with burst.
2. Set to Service Adjustment Mode.
3. Set the PICTURE and BRIGHTNESS to minimum.
4. Adjust with SBRT if necessary.
5. Select GCUT and BCUT with
6. Adjust with
3
and 6 for the best white balance.
7. Set the PICTURE and BRIGHTNESS to maximum.
8. Select GDRV and BDRV with
9. Adjust with
3
and 6 for the best white balance.
10. To write into memory, press
1
and 4 .
1
and 4.
MUTING
then
ENTER
.
— 13 —
SECTION 3: SAFETY RELATED ADJUSTMENTS
KV-29FS13 / 29FS13C
3-1. X R564 CONFIRMATION METHOD (HOLD-DOWN CONFIRMATION) AND READJUSTMENTS
The following adjustments should always be performed when replacing the following components which are marked with diagram:
Part Replaced ( )
DY, T505, CRT, IC501 C507, C520, C505, C509, C515, T504,
Y
on the schematic
Adjustment ( )
HV HOLD-DOWN R564
T503, C551, L510, C546, C537, C547, D517, D518, D519, R560, R561, R562, R563, R565, R566,
R567, R525....................A Board
IC301........................MA Board
PREPARATION BEFORE CONFIRMATION
1. Using a Variac, apply AC input voltage: 120 ±2 VAC.
2. Turn the POWER switch ON.
3. Input a white signal and set the PICTURE and BRIGHTNESS controls to maximum.
4. Confi rm that the voltage between C546 (+) or TP503 and ground is more than 21.0 VDC.
HOLD-DOWN OPERATION CONFIRMATION
1. Connect the current meter between Pin 11 of the FBT (T505) and the PWB land where Pin 11 would normally attach (See Figure 1 on the next page).
2. Input a dot signal and set PICTURE and BRIGHTNESS to minimum: IABL = 1730 ± 100µA.
3. Confi rm the voltage of A Board TP-600 is 135 ± 1.5 VDC.
4. Connect the digital voltmeter and the DC power supply via Diode 1SS119 to C546 (+) and ground (See Figure 1 on next page).
5. Increase the DC power voltage gradually until the picture blanks out.
6. Turn DC power source off immediately.
7. Read the digital voltmeter indication (standard < 24.78 +0, -0.1 VDC).
8. Input a white signal and set PICTURE and BRIGHTNESS to maximum: IABL = 1730 ± 100µA.
9. Repeat steps 4 to 7.
HOLD-DOWN READJUSTMENT
If the setting indicated in Step 2 of Hold-Down Operation Confi rmation cannot be met, readjustment should be performed by altering the resistance value of R564 component marked with
X
.
T505
FBT
ammeter
3.0 mA DC range
ABL
+
-
A
IABL
3-2. B+ VOLTAGE CONFIRMATION AND ADJUSTMENT
Note: The following adjustments should always be performed when replacing the following components, which are marked with schematic diagram on the A Board:
A BOARD: IC601, PH601
1. Using a Variac, apply AC input voltage: 130 + 2.0 / - 0.0 VAC.
2. Input a dot signal.
3. Set the PICTURE and the BRIGHTNESS controls to minimum.
4. Confi rm the voltage of A Board TP-600 is <136.5 VDC.
5. If step 4 is not satisfi ed, replace the components listed above, then repeat Steps 1 – 3.
Y
on the
— 14 —
KV-29FS13 / 29FS13C
11119
+
+
+
+
18
1818
6
5
9
C
6
5
9
C
6
5
9
C
6
5
9
C
R601
R601
R601R601
R615
R615
R615R615
D616
D616
D616D616
B
6
1
F
0
B
6
1
F
0
B
6
1
F
0
B
6
1
F
0
C624
C624
C624C624
H.DRIVE
H.DRIVE
H.DRIVEH.DRIVE
CN511
C611
C611
C611C611
C654
C654
C654C654
CN506
CN506
CN506CN506
1111
1111
CN515
CN515
CN515CN515
+B
+B
+B+B
R515
R515
R515R515
CN511
CN511CN511
4444
1111
5555
7777
R503
R503
R503R503
R516
R516
R516R516
C503
C503
C503C503
C536
C536
C536C536
D521
D521
D521D521
C554
C554
C554C554
R502
R502
R502R502
R547
R547
R547R547
9
99
10
1018
1010
R
6
5
R
6
5
9
9
R
6
5
R
6
5
9
9
T503
T503
T503T503
L602
L602
L602L602
C629
C629
C629C629
T504
T504
T504T504
H.PULSE
H.PULSE
H.PULSEH.PULSE
FB503
FB503
FB503FB503
R507
R507
R507R507
T502
T502
T502T502
Q501
Q501
Q501Q501
C504
C504
C504C504
4444
R518
R518
R518R518
C530
C530
C530C530 R529
R529
R529R529
5555
R531
R531
R531R531
6666
R539
R539
R539R539
C543
C543
C543C543
V DY -
V DY -
V DY -V DY -
V DY +
V DY +
V DY +V DY +
H DY -
H DY -
H DY -H DY ­H DY -
H DY -
H DY -H DY -
H DY +
H DY +
H DY +H DY +
H DY +
H DY +
H DY +H DY +
R545
R545
R545R545
POWER SUPPLY
R438
R438
R438R438
R563
R563
R563R563 C546
C546
C546C546
R573
R573
R573R573
C541
C541
C541C541
D510
D510
D510D510
6
6
6
6
6
6
6
6
7
7
7
7
R540
R540
R540R540
C519
C519
C519C519
R537
R537
R537R537
TH501
TH501
TH501TH501
200V
200V
200V200V
D511
D511
D511D511
C552
C552
C552C552
L507
L507
L507L507
+
­1SS119
C546
R225
R225 R403
R403
R403R403
H.PROT
H.PROT
H.PROTH.PROT
C542
C542
C542C542
2
2
2
2
4
4
4
4
2
2
2
2
C518
C518
C518C518
IC502
IC502
IC502IC502
1
1
1
1
R543
R543
R543R543
6
6
6
6
R225R225
D235
D235
D235D235
D234
D234
D234D234
C213
C213
C213C213
R218
R218
R218R218
R407
R407
R407R407
-13V
-13V
-13V-13V
HEATER
HEATER
HEATERHEATER
C211
C211
C211C211
Q205
Q205
Q205Q205
Q206
Q206
Q206Q206
D232
D232
D232D232
C523
C523
C523C523
R532
R532
R532R532
1
1
1
1
CN502
CN502
CN502CN502
Q201
Q201
Q201Q201
D236
D236
D236D236
R231
R231R232
R232
R231R231
R232R232
D233
D233
D233D233
R511
R511
R511R511
D518
D518
D518D518
D517
D517
R561
R561
D517D517
R561R561
D514
D514
D514D514
C532
C532
C532C532
JR502
JR502
JR502JR502
T505 FBT
135V
135V
135V135V
T505
T505
T505T505
R226
R226
R226R226 R227
R227
R227R227
D520
D520
D520D520
R558
R558
R558R558
R559
R559
R559R559
R557
R557
R557R557
Q505
Q505
Q505Q505
R554
R554
R554R554
D516
D516
D516D516
R555
R555
R555R555
R535
R535
R535R535
JUMPER-ID
JUMPER-ID
JUMPER-IDJUMPER-ID
R801
R801
R801R801
R803
R803
R803R803
R804
R804
R804R804
CN504
CN504
CN504CN504
DIGITAL MULTIMETER
+
-
X
R564
R449
R449
R454
R454
R454R454
JR503
JR503
JR503JR503
R445
R445
R445R445
Q411
Q411
Q411Q411
D620
D620
D620D620
R506
R506
C510
C510
C510C510
L509
L509
L509L509
C513
C513
C513C513
R505
R505
R505R505
C555
C555
C555C555
R504
R504
R504R504
R553
R553
R553R553
R506R506
L502
L502
L502L502
L505
L505
L505L505
C517
C517
C517C517
E
E
E
E
C
C
C
C
0
2
Q
5
0
2
Q
5
0
2
Q
5
0
2
Q
5
O
H
-
O
H
-
U
T
U
T
O
H
-
O
H
-
U
T
U
T
C505
C505
C505C505
C509
C509
C509C509
C515
C515
C515C515
L510
L510
L510L510
D507
D507
D507D507
C524
C524
C524C524
D506
D506
D506D506
C550
C550
C550C550
C511
C511
C511C511
L501
L501
L501L501
B
B
B
B
B
B
B
B
R568
R568
R568R568
R449R449
C448
C448
C448C448
R450
R450
R450R450
R567
R567
R567R567
R565
R565
R565R565
R525
R525
R525R525
Q503
Q503
Q503Q503
R447
R447
R447R447
R541
R541
R541R541
R514
R514
R514R514
FB502
FB502
FB502FB502
IC501
IC501
IC501IC501
R522
R522
R522R522
8888
R527
R527
1111
R527R527
B
B
B
E
B
E
E
E
E
E
E
E
C525
C525
C525C525
5555
4444
3333
2222
1111
C
N
5
0
1
C
N
5
0
1
C
N
5
0
1
C
N
5
0
1
R546
R546
R546R546
R533
R533
R533R533
R534
R534
C551
C551
R534R534
C551C551
TP600
AMMETER 3mA dc range
A
+
-
Figure 1
— 15 —
j
SECTION 4: CIRCUIT ADJUSTMENTS
ELECTRICAL ADJUSTMENTS BY REMOTE COMMANDER
Use the Remote Commander (RM-Y180) to perform the circuit adjustments in this section.
Test Equipment Required: 1. Pattern generator 2. Frequency counter 3. Digital multimeter 4. Audio oscillator
KV-29FS13 / 29FS13C
4-1. SETTING THE SERVICE ADJUSTMENT MODE
1. Standby mode (Power off).
2. Press the following buttons on the remote commander within a second of each other:
Display
Channel 5 Sound Volumne + Power
SERVICE ADJUSTMENT MODE ON
1. The CRT displays the item being adjusted.
2. Press
3. Press
4. Press
Category
Mode
service defl hsiz 16
Signal Type
1
or 4 on the Remote Commander to select the item.
3
or 6 on the Remote Commander to change the data.
MUTING
ntsc
vchp 00000000 00000000
then
ENTER
Display
to write into memory.
Item
Item Data
SERVICE ADJUSTMENT MODE MEMORY
Signal Type
1. Press
Category
Mode
service defl hsiz 16
ntsc
vchp 00000000 00000000
8
ENTER
Mode
then
Category
on the Remote Commander to initialize.
Display
Item
Display
Item
write
Item Data
Item Data
MUTING
ENTER
Green
Red
4-2. MEMORY WRITE CONFIRMATION METHOD
1. After adjustment, pull out the plug from the AC outlet, then replace the plug in the AC outlet again.
2. Turn the power switch ON and set to Service Mode.
3. Call the adjusted items again to confi rm they were adjusted.
4-3. REMOTE ADJUSTMENT BUTTONS AND INDICATORS
MUTING
(Enter into memory
1
Disp. (Item up)
2
(Device Item Up)
4
Disp. (Item down)
8
(Initialize)
VOLUME (+)
(Service Mode)
POWER
(Service Mode)
DISPLAY
(Service Mode)
3
Item (Data up)
6
Item (Data down)
5
(Device item down)
ENTER
(Enter into memory
0
(Remove from memory)
MUTING
ENTER
Carry out Step 1 when adjusting IDs 0-6 and when replacing and ad
usting IC003
Signal Type
service defl hsiz 16
ntsc
vchp 00000000 00000000
write
2. Turn set off then on to exit Service Adjustment Mode.
Green
Red
RM-Y180
— 16 —
ADJUSTMENT ITEMS (1 OF 4)
KV-29FS13 / 29FS13C
FIX
Reg # ITEM FUNCTION RANGE
1 HSIZ Horizontal Size Adjustment 0-63 0 14 2 HPOS Horizontal Position Adjustment 0-63 13 17 3 VBOW Vertical Line Bowing Adj. 0-15 9 6 4 VANG Vertical Line Bowing Slant Adj. 0-15 8 12 5 VTRP TRAPEZIUM 0-31 19 16 6 HTRP Horiz. Trapezoid 0-15 6 0 7 TROT Tilt Correction 0-63 31 31 8 PAMP Horizontal PIN distortion Adj. 0-63 19 20
9 UPIN Upper PIN Distortion Adj. 0-63 34 35 10 LPIN Lower PIN Distortion Adj. 0-63 32 34 11 VSIZ Vertical Size Adjustment 0-63 32 38 12 VPOS Vertical Position Adj. 0-63 30 29 13 VLIN Vertical lineality Adj. 0-15 3 5 14 SCOR Vertical "S" Correction Adjustment 0-15 6 7 15 VZOM 16:9 CRT Z Mode on/off 0-1 0 0 16 EHT Vertical High-Voltage Compensation 0-15 5 5 17 ASP Aspect Ratio control 0-63 47 47 18 SCRL 16:9 CRT Z Mode Trans. Scroll 0-63 31 31 19 HBLK Horizontal Blanking on/off 0-1 1 1 20 LBLK Left Blanking Adjustment 0-15 13 14 21 RBLK Rigth Blanking Adjustment 0-15 8 8 22 HDW Horizontal Drive Pulse Width 1 1 23 EWDC "Parabola" EW, D.C. Adjustment 0-1 0 0 24 LVLN Lower Screen BTM Vertical Line Adj. 0-15 0 0 25 UVLN Uppe Screen BTM Vertical Line Adj. 0-15 0 0 26 INTL INTERLACE 0-3 0 0 27 G2SW 0-1 0 0 28 G2LV 0-7 0 0 29 HOSC Horizontal VCO Oscillation Freq. 0-15 12 7 30 VSS Vertical Sync Slice Level 0-3 0 0 31 HSS Horizontal Sync Slice Level 0-1 0 0 32 HMSK For Macro Vision 0-1 0 0 33 VTMS Select Signal VTIM Pin 0-3 0 0 34 CDMD Vertical Count Down Mode Switching 0-3 3 * 3 35 AFC AFC Loop Gain Switching 0-3 0 0 36 FIFR Field Frequency 0-3 3 3 37 VBLK VBLKW 0-3 0 0 38 REFP REFP 0-1 0 0 39 JPSW JUMPSW 0-1 MENU 0 40 RDRV R Output Drive control 0-63 41 38 41 GDRV G Output Drive control 0-63 25 28 42 BDRV B Output Drive control 0-63 25 26 43 RCUT R Output Cutoff control 0-63 31 31 44 GCUT G Output Cutoff control 0-63 15 13 45 BCUT B Output Cutoff control 0-63 12 14 46 SCON SUB CONT 0-15 8 10 47 SHUE Sub HUE adjustment 0-15 16 16 48 SCOL Sub COLOR adjustment 0-15 18 18 49 SBRT Sub BRIGHTNESS adjustment 0-31 16 17 50 CHUE SUB COLOR (RF) 0-31 7 6 51 CCOL SUB COLOR (RF) 0-31 7 4 52 UOFS YUV U OFFSET 0-15 7 7 53 VOFS YUV V OFFSET 0-15 7 7 54 RON R Output on/off 0-1 1 1 55 GON G Output on/off 0-1 1 1 56 BON B Output on/off 0-1 1 1 57 AXPL Axis PAL 0-1 0 0 58 AXNT Axis NTSC 0-1 1 1 59 CBPF Chroma BPF on/off 0-1 1 1 60 CTRP Y TRAP FILTER on/off 0-1 1 1 61 COFF Color On/off 0-1 0 0
DATA NTSC VIDEO RF
AVERAGE
DATA
— 17 —
ADJUSTMENT ITEMS (2 OF 4)
KV-29FS13 / 29FS13C
FIX
Reg # ITEM FUNCTION RANGE
62 KOFF Set Color Killer 0-1 0 0 63 SSHP Sub SHARPNESS 0-15 5 5 64 SHPF SHARPNESS Circuit Fo 0-3 Palette Mode Controls This Register 2 65 PREL Pre-Shoot/ Over-Shoot 0-1 1 0 66 Y-DC DC transmission Ratio Switching 0-3 Palette Mode Controls This Register 2 67 GAMM Gamma Correction 0-3 Palette Mode Controls This Register 2 68 ABLM ABL Mode Switch 0-1 1 1 69 VTH ABL CD VHT Switching 0-1 1 1 70 YDEL Y Delay Time Control 0-15 7 7 71 NCOL No Color ID 0-1 1 1 72 FSC FSC Out on/off 0-1 1 1 73 K-ID Killer ID Control on/off 0-1 0 0 74 GDOF 0-31 3 3 75 BDOF 0-31 16 16 76 GCOF 0-31 16 16 77 BCOF 0-31 7 7 78 SYSC Color System 0-7 4 4 79 VENH Vertical Enhancement 0-7 Palette Mode Controls This Register 3 80 PDSO PDS OFF 0-1 0 0 81 CK CK 0-1 0 0 82 VNL VNL 0-15 3 3 83 HPK HPK 0-1 0 0 84 HPKO HPK OFF 0-1 Palette Mode Controls This Register 0 85 CORE CORE 0-3 2 1 86 TRAP TRAP 0-1 1 1 87 CHTR CH TRAP 0-1 0 0 88 CBPF CBPF 0-1 1 1 89 ENHO ENHOFF 0-1 0 0 90 NMRD NMRD 0-3 0 0 91 YAPS YAPS 0-3 3 3 92 CLKS CLKS 0-3 0 0 93 NSTD NSTDS 0-3 0 0 94 MSS MSS 0-3 0 0 95 KILS KILS 0-3 1 1 96 ADIN ADIN 0-1 0 0 97 EXCS EXCSS 0-3 1 1 98 CPP CPP 0-3 2 2 99 HDP HDP 0-7 4 4
100 CDL CDL 0-7 4 4 101 DYCR DYCOR 0-15 2 2 102 DYGN DYGAIN 0-15 10 10 103 DCCR DCCOR 0-15 3 3 104 DCGN DCGAIN 0-15 6 6 105 YNRL YNRLIM 0-3 1 1 106 CNRL CNRLIM 0-3 1 1 107 WSC WSC 0-3 1 1 108 VTRH VTRH 0-3 1 1 109 VTRR VTRR 0-3 1 1 110 LDSR LDSR 0-3 2 2 111 VAPG VAPGAIN 0-7 3 3 112 VAPI VAPINV 0-31 6 6 113 TEST TEST 0-1 0 0 114 YPFT YPFT 0-3 3 3 115 YPFG YPFG 0-15 7 7 116 CC3N CC3N 0-1 0 0 117 SELD 0-1 1 1
DATA NTSC VIDEO RF
AVERAGE
DATA
— 18 —
ADJUSTMENT ITEMS (3 OF 4)
KV-29FS13 / 29FS13C
FIX
Reg # ITEM FUNCTION RANGE
118 D2GN D2GAIN 0-7 4 5 119 YHCR YHCOR 0-3 0 0 120 YPFC YPFCOR 0-1 0 0 121 SHT SHT 0-3 0 0 122 MVT MVT 0-1 0 0 123 OTT OTT 0-1 0 0 124 CL2D CL2D 0-1 1 1 125 CLKG CLKGGT 0-1 0 0 126 HPLL HPLLFS 0-1 1 1 127 BPLL BPLLFS 0-1 0 0 128 FSCF FSCFG 0-1 0 0 129 PLLS PLLS 0-1 1 1 130 KILR KILR 0-15 3 3 131 HSSL HSSL 0-15 12 12 132 VSSL VSSL 0-15 8 8 133 BGPS BGPS 0-15 4 4 134 BGPW BGPW 0-15 10 10 135 ADCK ADCLKS 0-3 3 3 136 NDSW NSDSW 0-1 1 1 137 PFRN FREE_RUN 0-1 0 0 138 PRVS RVS 0-1 0 0 139 PCON CONTRAST 0-127 97 45 140 PUCO U-DAC 0-127 5 16 141 PVCO V-DAC 0-127 5 24 142 PHUE 0-31 12 15 143 PKIL KILLER 1 0 0 144 PSEP EXT_SC_SEL 0-3 1 2 145 PHIM 0-1 0 0 146 PSUB 0-1 0 0 147 PBGS BG_START 0-63 14 14 148 PDL0 0-15 10 6 149 PDL1 0-15 13 13 150 PBRT Y_OFFSET 0-31 25 25 151 PVP1 0 0 152 PUP1 0 0 153 PVP2 0 0 154 PUP2 0 0 155 PVP3 0 0 156 PUP3 0 0 157 PACS SET_ACC 0-1 1 1 158 PSDL SYNC_DELAY 0-3 2 0 159 PDCO 0-3 2 0 160 PCGA C_GAIN 0-1 1 1 161 PAAF 0-1 0 0 162 PSU2 0-1 0 0 163 PCVF 0-1 0 0 164 PBIT BITSEL 0-1 0 0 165 PAFC AFCBITSEL 0-1 0 0
166 PACC ACC_LEVEL 0-63 21 22 167 PBUR BURST_CLK 0-1 0 0 168 PEVE EVENUPRA 0-1 0 0 169 PINW INV_WFF 0-1 0 0
DATA NTSC VIDEO RF
AVERAGE
DATA
— 19 —
ADJUSTMENT ITEMS (4 OF 4)
KV-29FS13 / 29FS13C
Reg # ITEM FUNCTION RANGE
FIX
DATA NTSC VIDEO RF
AVERAGE
DATA
170 PINR INV_REF 0-1 0 0 171 PREF RFF_FIX 0-1 0 0 172 PARE AUTO_REF 0-1 1 1 173 PAVE AVERAGE 0-1 0 0 174 PFRA FREE_RUN_ADJ 0-15 0 0 175 PPAL SUB_PALM_JUDGE 0-255 0 0 176 PHPO 0-31 9 6 177 PVPO 0-31 22 22 178 PHTI HT 0-15 5 9 179 PHAJ ADJ 0-15 1 1 180 PBGY BGY 0-15 0 0 181 PCRO CROSS_SEL 0-1 0 0 182 PPAR PALRY 0-63 2 2 183 PHPF HPFOFF 0-1 0 0 184 PFSC FSC_OUTPUT 0-1 0 0 185 PVCH SET_VCHIP 0-1 0 0 186 PVON VCHIP_ONLY 0-1 1 1 187 PVLN LINE_NUM 0-31 17 17 188 PVSB STB_DLY 0-255 64 64 189 PVLV L_LEVEL 0-255 130 130 190 SBAL Sub Balance 0-7 5 5 191 SBAS Sub Bass 0-7 5 0 192 STRE Sub Trebble 0-7 2 3 193 BBEL BBE Low 0-15 0 0 194 BBEH BBE High 0-15 0 0 195 BBE BBE 0-1 0 0 196 AUX SRS, Simulated 0-3 0 0 197 DISP O.S.D Display position 0-127 20 34 198 HCLW Horizontal Count lower limit 0-255 16 16 16 199 HCHG Horizontal Count High limit 0-255 64 64 64 200 ID0 0-255 25 17 201 ID1 0-255 3 31 202 ID2 0-255 91 223 203 ID3 0-255 2 130 204 ID4 0-255 233 233 205 ID5 0-255 17 19 206 ID6 0-255 0 0
* CDMD = 3 for US and CND, 0 for others
Notes: No. 1-206 show the order that each adjustment mode may be selected while in Service Mode. Data Range shows the range of possible setting for each Adjustment Mode. Initial Data shows the standard settings for each Adjustment Mode.
— 20 —
Signal Type
Chip Version
Function
Mode
service id's id5 19
ntsc
M37280MK-00SP VERB.O
Number
00010011
ID
Data
KV-29FS13 / 29FS13C
4-4. MA BOARD ADJUSTMENTS
H. FREQUENCY (FREE RUN) CHECK
1. Input a TV mode (RF) with no signal.
2. Connect a frequency counter to base of Q501 (TP-500 H. DRIVE) on the A Board.
3. Check H. Frequency for 15735 ± 200 Hz.
V. FREQUENCY (FREE RUN) CHECK
1. Select video 1 with no signal input.
2. Set the conditions for a standard setting.
3. Connect the frequency counter to TP-508 (V OUT) or CN501 pin
6
(V DY+) and ground on the A Board .
4. Check that V. Frequency shows 60 ± 4 Hz.
DRIVE (RDRV)
1. Input a color-bar signal and set the level to 75%.
2. Set in Standard mode.
3. Activate the Service Adjustment Mode.
3
4. Set both GON and BON items. Using following values. Leave RON set to “1”.
Display
Mode
service video rdrv
Signal Type
ntsc
vchp
Category
00000000 00000000
Item
R ON: ON (1)
G ON: OFF (0)
B ON: OFF (0)
5. Connect an oscilloscope probe to CB Board, J701 Pin 12 (KR) (Red Out) .
6. Select RDRV with
7. Adjust the value of RDRV with
1
and 4 .
3
and 6 for
92.5 ± 3 VDC.
and
Item Data
26
6
set each to the
DISPLAY POSITION ADJUSTMENT (DISP)
1. Input a color-bar signal.
2. Set to Service Adjustment Mode.
3. Select DISP with
4. Adjust values of DISP with
5. Write to memory by pressing
1
and 4 .
3
and 6 to adjust characters to the center.
MUTING
then
ENTER
.
6. Check to see if the text is displayed on the screen.
Item Data
Signal Type
Mode
Category
service micro disp 48
ntsc
vchp
Display
Item
00000000 00000000
SUB BRIGHT ADJUSTMENT (SBRT)
1. Input a monoscope signal.
2. Activate the Service Adjustment Mode.
3. Set the PICTURE and BRIGHTNESS to minimum.
4. Select the SBRT item with
5. Adjust the values of SBRT with
1
and 4 .
3
and 6 to obtain a faintly visible
crosshatch.
6. Press
MUTING
then
ENTER
to save into the memory.
SUB HUE, SUB COLOR ADJUSTMENT (SHUE, SCOL)
1. Input a color-bar signal.
2. Activate the Service Adjustment Mode.
3. Connect an oscilloscope probe to CA Board, CN705 Pin 1
4. Select the SHUE and SCOL item with
and 4 .
5. While showing the SHUE item, adjust the waveform with
until the second and third bars show the same level (V2 = V3 < 0.1 Vp-p).
6. While showing the SCOL item, adjust the waveform with
until the fi rst and fourth bars show the same level (V1 = V4 < 0.1 Vp-p).
V1
V2 V3
V4
4
Blue Out.
1
and 4
3
and 6
92.5 ± 3VDC
8. Reset GON and BON values to “1”.
R ON: ON (1)
G ON: ON (1)
B ON: ON (1)
9. Press
MUTING
then
ENTER
to save into the memory.
7. Press
MUTING
then
ENTER
V. SIZE ADJUSTMENT (VSIZ)
1. Input a crosshatch signal.
2. Activate the Service Adjustment Mode.
3. Select the VSIZ item with
4. Adjust value of VPOS with
5. Press
— 21 —
MUTING
then
ENTER
to save into the memory.
1
and 4 .
1
and 4 for the best vertical center.
to save into the memory.
KV-29FS13 / 29FS13C
V. CENTER ADJUSTMENT (VPOS)
Perform this adjustment after performing H. Frequency (Free Run) Check.
1. Input a crosshatch signal.
2. Activate the Service Adjustment Mode.
3. Select the VPOS item with
4. Adjust value of VPOS with
5. Press
MUTING
then
1
and 4 .
3
and 6 for the best vertical center.
ENTER
to save into the memory.
H. CENTER ADJUSTMENT (HPOS)
Perform this adjustment after performing H. Frequency (Free Run) Check.
1. Input a crosshatch signal.
2. Activate the Service Adjustment Mode.
3. Select the HPOS item with
4. Adjust the value of HPOS with
5. Press
MUTING
then
1
and 4 .
ENTER
3
and 6 for the best horizontal center.
to save into the memory.
H. SIZE ADJUSTMENT (HSIZ)
V LINEARITY (VLIN)
V CORRECTION (SCOR)
PIN AMP (PAMP)
HORIZONTAL TRAPEZOID (HTRP)
V. ANGLE (VANG), V. BOW (VBOW), UPPER PIN (UPIN) AND LOW PIN (LPIN) ADJUSTMENTS
1. Input a crosshatch signal.
2. Activate the Service Adjustment Mode.
3. Select VANG, VBOW, UPIN, and LPIN with 1 and 4.
4. Adjust with
5. Press
3
and 6 for the best picture.
ENTER
MUTING
then
to save into the memory.
1. Input a monoscope signal.
2. Activate the Service Adjustment Mode.
3. Select HSIZ with
4. Adjust with
5. Press
MUTING
1
and 4 .
3
and 6 for the best horizontal size.
ENTER
then
to save into the memory.
V. LINEARITY (VLIN), V. CORRECTION (SCOR), PIN AMP (PAMP), AND HORIZONTAL
TRAPEZOID (HTRP) ADJUSTMENTS
1. Input a crosshatch signal.
2. Activate the Service Adjustment Mode.
3. Select VLIN, SCOR, PAMP, and HTRP with with 1 and 4.
4. Adjust with
5. Press
3
and 6 for the best horizontal size.
MUTING
then
ENTER
to save into the memory.
V ANGLE (VANG)
V BOW (VBOW)
UPPER PIN (UPIN)
LOW PIN (LPIN)
SERVICE ADJUSTMENT MODE MEMORY
ENTER
0
Item
then
Item Data
7
.
Green
0
Red
ENTER
1. After completing all adjustments, press
Read From Memory
Signal Type
Mode
Category
service defl vbow
ntsc
vchp
Display
00000000 00000000
— 22 —

5-1. CIRCUIT BOARDS LOCATION

SECTION 5: DIAGRAMS
The components identifi ed by X in this basic schematic diagram have been carefully factory-selected for each set in order to satisfy regulations
HX Board
regarding X-ray radiation. Should replacement be necessary, replace only with the value originally used.
KV-29FS13 / 29FS13C
CA Board
VA Board
D Board
A Board
MA Board
K Board
5-2. PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS
All capacitors are in µF unless otherwise noted. pF : µµF 50WV or less are not indicated except for electrolytics and tantalums.
All electrolytics are in 50V unless otherwise specifi ed.
All resistors are in ohms. K=1000, M=1000k
Indication of resistance, which does not have one for rating electrical power, is as follows: Pitch : 5mm Rating electrical power :
1
/
W in resistance, 1/
4
W and 1/
10
W in chip resistance.
8
: nonfl ammable resistor.
: fusible resistor.
: internal component.
: panel designation and adjustment for repair.
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.
: B+line.
: B-line. (Actual measured value may be different).
: signal path. (RF)
Circled numbers are waveform references.
1
/
W
4
When replacing components identifi ed by
Y
, make the necessary adjustments as indicated. If the results do not meet the specifi ed value, change the component identifi ed by
X
and repeat the adjustment until the specifi ed value is achieved. (Refer to Safety Related Adjustments on Page 14.)
When replacing the parts listed in the table below, it is important to perform the related adjustments.
Part Replaced ( )
DY, T505, CRT, IC501 C507, C520, C505, C509, C515, T504,
Adjustment ( )
HV HOLD-DOWN R564
T503, C551, L510, C546, C537, C547, D517, D518, D519, R560, R561, R562, R563, R565, R566,
R567, R525....................A Board
IC301........................MA Board
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 identifi ed by shading and ! symbol are critical for safety. Replace only with part number specifi 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.
Les composants identifi es per un trame et une marque securite. Ne les remplacer que par une piece portant le numero specifi e.
Le symbole indique une fusible a action rapide. Doit etre remplace par une fusible de meme yaleur, comme maque.
!
sont critiques pour la
— 23 —
5-3. BLOCK DIAGRAM (1 OF 3)
KV-29FS13 / 29FS13C
A
F R O
I
J
N
N
2
T
P
0
U
2
A
T
/ V
J201
S-VIDEO
Y
S
1
3
V
L
4
2
C
R
A U D I O
L
R
R E A
I
J
R
N
2
P
A
U
/
T
V
A U D I
O V I D E O
L
R
O
0
U
3
T P U T
V I D E O
L
Y
R
C
E
B
A
C
R
I
R
J
V
N
4
P
A
A
0
U
U
R
2
D
/
T
I
F
O
I X
A
A
U
U
D
D
I
I
O
O
R
R
Y , P
I
J
R
N
2
,
P
J 2 0 5
L
0
P
U
6
B
T
1 0 3 N
A U D I O
PBP
R
C
V U Y
R
-
C
Y
O T
­Y
2
1
B
5 1 5 N C
L
R
-
-
R
L
X
D
B
V
N
D
D
C
G
4
3
V
C
5
N
N
9
N
3
G
G
1
3
1
4
2
5
X
-
­I
I
N
N
+
P H
6
F
F
O
O
D
/
/
M
M
V
R
R
A
A
V
V
2
3
1
4
7
C
0 6 4 N C
L
L
R
R
R
L
D
-
-
-
-
V
-
-
N
T
V
T
V
9
3
3
G
U
U
U
U
O
O
6
5
9V
V
V
Y
Y
2
1
0
9
7
8
1
1
1
R
L
­1 V
3 1
R
L
R
E
C
-
-
-
-
T
N
V
2
V
1
U
T
V
T
V
M
9
8
6
7
5
4
1
1
1
1
1
1
E
D
6
4
0
0
5
5
N
N
C
C
F
M
L
V
D
­2 V
0
1
1
2
+B 9V
(POWER SUPPLY) (DEFLECTION)
(TUNER/IF)
(AUDIO)
(MTS)
TU101
CLOCK
DE-EM OUT
L OUT
R OUT
DATA
RF AGC
F MONO
MODE
SAP LED
ST LED
DET-OUT
VIDEO
AFT OUT
CN603
DGC
DGC
NC
DGC
CN602
AC IN
AC IN
AC
AC
9V
9V
30V
30V
5V
5V
3
DGC DRIVER
2
Q609
1
2
1
VDR601
RY601
DGC RELAY
F601
AGC
Q101
IN1+
Q506,507
0 1
1
IN2+
IN3+
IN4+
MUTE
SW
8
9
3
T504
AUDIO AMP
1
4
200V
2
7
8
9
0
DF
0
7
T503
4
1
5
234
D622
D4SB60L-F
AC RECT
LOW B
T602
1
2
3
4
RY602 RELAY
AC POWER
D4SB60L-F
AC RECT
STANDBY CIRCUIT
D605
CONVERTER
PROTECT
STBY DRIVE
1
T604
D623
Q605
Q606
SWITCH
Q608
Q607
3
4
5
6 8
CONVERTER
IC601
OCP/FB
Q601,602
Q603
SRT
:STAND BY
D626
9
C636
1
5
4
3
2
8
7
9 10
124
18
16
15
17
13
14
12
11
R645
10k
ERROR AMP
IC602
LOW B LOW B5V 9V
+B
+B
RECT
LOW B
LOW B
RECT
AUDIO
AUDIO
VCC
RECT
+B
5V REG
IC604
T603
D
VIN
S
PH600
PHOTOCOUPLER
3
SW
VOL-CTRL
VOL-CTRL
Q410
Q411
T501
1
4
2
H DRIVE
3
Q501
V OUT IC502
OUTREF
+
­E
E
V
V
I
I
R
R
D
D
9V REG
IC603
V HOLD
H OUT
6
Q502
OCP
Q505
IN+1
CNTRL
OUT2
IC501
IN-1
1 T U
IN+2
O
PIN DRIVE
Q503
PIN OUT
Q504
OUT1+
OUT3-
OUT4+
IC402
OUT2-
HV
T505
FBT
FV
G2
11
ABL
6
H
5
RELAY DRIVE
Q604
D2001
CN4001 CN2003
1
FUNCTION
(KEY)
CN502
6
H E A T E R
SWITCHES
POWER-SW
2
3
KEY-SW
POWER-SW
GND
GND
KEY-SW
STBY 7.5V
F
8 0 0 2 N C
V 5 .
T
Y
7
W
M
S
Y
V
P
B
S
T S
8
7
9
IR DETECT
1
2
3
E
O
C
D
A
P
T
R
G
N
L
H
U
P
D
G
E
M
­R
I
5
2
6
4
1
3
9
GND
8
O-MONO
O-SAP
7
6
I-SAP
5
I-STEREN
AGC MUTE
I-HLDWN
MONITOR
SPK R+ SPK R-
SPK L+
LED-TIMER
POWER-SW
IR(SENSOR)
MENU-SW
KEY-SW
STBY +5V
V2(VIDEO2)
CN501
MAIN1
MAIN2
PIP-L
30V
SET9V
SPK L-
CN406
V DY+
V DY-
H DY-
H DY-
H DY+
H DY+
CN2007
AFT
HD
GND
CN2006
ABL
EW
VD+
VD-
V3
SDAT
SCL
SET5V
CN2005
V1
GND
Y1
C1
+
SPR
+
SPL
4P
CN2001
GND
4
3
2
1
SET9V SET9V
10
9
8
7
6
5
4
3
2
1
10
9
8
7
SET5V
6
30V
5
SET9V
4
3
2
1
1
2
3
4
1
2
STBY +5V
BA5-906-BD
3
4
5
6
7
8
6
5
4
3
2
1
IC2001
S2007
S2008
TP508
TP507
TP 506
G
H
I
J
V DY(+)
V DY(-)
H DY(-)
H DY(+)
K
— 24 —

BLOCK DIAGRAM (2 OF 3)

1
135V
NC
GND
B
GND
9V
HP
VD+
CN800
CN802
D
DF
+B
2
3
4
9V
5
6
7
BUFFER
Q801
1
Q803,804 Q802
SW BUFFER
(CONVERGENCE)
HPHP
Q812 IC803
SW BUFFER
Q810 Q809
V MOD
IC801
DF-COMP
Q805,806
IC802
V MOD
KV-29FS13 / 29FS13C
QP DRIVE
Q811
CN801
1
QP DRIVE
2
9V DRIVE
3
V MOD
4
V MOD
E
QP DRIVE
9V DRIVE
CN904
1
2
3
V MOD
4
V MOD
VM
VELOCITY
( )
MODULATION
AMP
Q903 Q904
DRIVE
VM OUT
CN902
1
QP-
2
QP-
3
QP+
4
DQP
Q905 Q906
QP
H OUT
Q807Q808
VM
DRIVE
Q901 Q902
QP+
5
E
6
E
7
VM
8
VM
8
QP-
7
QP-
6
QP+
5
QP+
4
E
3
E
2
VM
1
VM
(AUDIO PROCESSOR)
CN450
1
MON-L
2
MON-R
VAR/FIX-R
VAR/FIX-L
C
3
4
5
OUT-L
6
OUT-R
7
9V
GND
YUV-L
YUV-R
V3-L
V3-R
V1-L
V1-R
MUTE
NC
TV-L
TV-R
V2-R
V2-L
9V
8
9
10
11
12
13
14
15
16
17
18
19
20
IN5A
IN4A
IN2A
IN1A
IN3A
OUT-A
OUT-B
IN5
IN4
IN2
IN1
IN3
AUDIO
PROCESSOR
IC404
LINEA
LINEB
MUTE
Q430,431
SCL
SDA
BUFFER
Q432,433
1
SCL
2
GND
3
SDA
CN402
L
QP QP VM
VM
— 25 —
BA5-906-BD

BLOCK DIAGRAM (3 OF 3)

T
A
C
N
3
L
F
G
H
0
C
N
0
0
I
J
R
O
F
C
N
0
C
N
0
C
N
0
C
N
0
I
C
N
J
0
D
9
2
G
0
3
0
4
0
5
6
0
0
1
D
N
G
L
K
C
C
-
B
A
D
B
-
N
I
-
B
N
G
W
S
P
S
V
M
.
7
Y
B
T
S
N
G
O
R
P
-
I
G
D
L
E
R
H
T
U
M
N
G
O
M
O
-
S
-
O
P
A
S
-
I
R
E
T
-
S
I
N
I
M
A
N
I
M
A
T
F
A
M
C
G
A
V
9
T
E
S
W
D
H
L
-
I
D
H
D
N
G
L
A
B
W
E
+
D
V
-
D
V
O
T
I
N
O
M
V
3
P
I
P
T
A
D
S
L
C
S
V
5
T
E
S
V
0
3
V
9
T
E
S
1
V
D
N
G
1
Y
C
1
D
E
L
-
R
E
O
W
P
O
S
N
E
S
(
R
I
-
U
N
E
M
W
S
-
Y
E
K
+
Y
B
T
S
E
D
I
V
(
2
V
D
N
G
KV-29FS13 / 29FS13C
3
2
1
K
L
4
T
3
T
2
D
1
9
8
V
5
7
D
6
T
5
C
4
Y
A
3
P
2
E
1
9
D
0
N
8
P
A
7
6
N
E
5
4
1
3
2
2
E
T
U
1
0
1
N
9
8
7
6
5
4
3
R
2
1
-
L
0
1
9
8
7
6
5
4
3
2
1
1
2
W
S
)
R
3
W
S
4
5
V
5
6
)
2
O
7
8
7
Y
B
T
S
V
9
E
T
S
5
T
E
S
9
T
E
S
+
Y
B
T
S
Y
R
O
M
M
E
3
0
0
C
I
N
K
L
C
B
-
O
I
T
A
D
B
-
O
I
T
N
I
B
-
I
R
E
F
F
U
B
1
0
0
Q
V
5
.
T
O
R
-
P
I
C
G
-
D
O
Y
A
L
E
-
R
O
E
T
U
M
-
O
R
E
F
F
U
B
2
0
0
Q
R
E
F
F
U
B
3
0
0
Q
O
N
O
M
-
O
P
A
S
-
O
P
A
S
-
I
N
E
R
E
T
S
-
I
T
F
A
-
I
E
T
U
M
C
G
A
-
O
N
W
D
L
H
-
I
T
E
E
S
R
-
I
P
H
-
I
C
N
S
Y
H
-
I
T
A
D
S
-
I
N
L
C
S
-
O
M
Y
-
O
K
C
L
B
D
S
O
-
O
R
-
O
G
-
O
B
-
O
V
V
N
P
V
-
I
L
O
T
N
R
O
C
M
E
T
S
Y
S
G
N
I
N
U
T
R
E
F
F
U
B
4
0
0
Q
V
5
-
O
-
I
-
I
-
I
-
I
1
0
0
C
I
N
I
V
C
-
I
W
S
Y
U
Y
O
D
E
L
R
E
W
O
P
N
C
M
R
U
N
E
M
E
Y
K
-
C
S
B
-
I
C
S
O
-
O
S
/
N
-
O
V
5
.
7
+
Y
B
T
S
T
S
G
E
R
V
5
+
Y
B
0
2
0
C
I
T
S
E
E
R
V
C
O
G
I
D
L
T
I
F
3
C
I
N
L
I
C
A
P
E
S
H
N
C
Y
S
H
6
0
0
Q
P
H
2
8
0
,
5
6
3
Q
1
0
0
1
X
X
S
R
E
F
F
U
B
8
5
3
,
9
4
3
Q
9
5
3
Q
R
E
F
F
U
B
5
0
3
Q
3
0
3
0
3
X
V
5
+
Y
B
T
S
N
I
4
S
B
V
C
T
U
O
M
5
7
3
Q
T
U
O
C
B
M
R
E
2
0
A D S
U
B
1
T
U
O
Y
N I K C
R
E
F
F
0
1
3
Q
2
0
3
X
R
E
F
F
U
B
5
3
,
0
2
3
Q
7
3
,
6
9
3
Q
R
E
F
F
U
B
5
3
,
5
0
3
Q
5
3
,
2
5
3
Q
M
V
C
O
B
M
C
4
0
1
5
Y
O
B
M
C
L
E
G
N
U
J
C
/
Y
1
0
3
C
I
C
T
E
O
P
T
R
H
P
A
D
S
L
C
S
M
Y
/
2
S
Y
N
I
2
R
N
I
2
G
N
I
2
B
D
H
N
I
L
B
A
W
E
+
D
V
N
I
3
S
B
V
C
N
I
2
S
B
V
C
T
U
O
-
C
S
F
N
I
1
S
B
V
C
M
I
T
V
1
Y
1
C
U
T
O
O
N
M
W
S
Y
U
Y
C
N
L
A
T
X
C
N
-
D
V
N
I
Y
D
-
V
D
N
-
I
R
C
D
V
D
N
-
I
B
C
D
V
D
N
I
K
I
I
F
C
F
A
U
T
O
R
U
T
O
G
U
T
O
B
D
V
-
H
G
N
I
N
T
U
(
Y
(
K
I
B
G
,
R
3
Q
O
C
)
L
O
R
T
N
O
C
)
J
/
C
/
N
0
3
2
C
1
2
3
4
R
E
F
F
U
B
3
0
3
Q
R
E
F
F
U
8
6
3
Q
T
U
O
B
,
8
8
3
,
7
8
9
8
3
Q
G
R
E
V
N
6
5
3
Q
1
2
3
4
5
6
7
8
9
V
U
Y
-
O
T
-
Y
R
C
Y
B
C
Y
D
N
G
C
N
3
0
3
K
I
D
N
G
R
B
G
D
N
G
S
N
/
E
T
M
U
S
N
P
A
R
T
H
A
)
E
V
I
R
D
B
G
R
(
(
S
/
N
Q
/
N
I
R
D
7
1
C
I
E
T
U
M
S
/
N
1
0
7
C
N
7
0
5
K
I
D
N
G
R B
G
D
G
N
S
/
N
E
T
U
M
S
N
P
A
R
T
H
Q
K
1
2
3
4
5
6
7
8
9
I
R
B
G
N
S
1
T
R
C
E
V
I
R
D
2
0
7
C
I
N
I
N
I
N
I
)
E
V
I
R
D
T
R
C
E
T
U
M
0
0
7
S
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1
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— 26 —

A BOARD SCHEMATIC DIAGRAM

1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 |
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— 27 —
KV-29FS13 / 29FS13C
volt
IC2001
A BOARD IC VOLTAGE LIST
IC402 13 5.2 8 14.0 3 53.2 IC604 TU101 14 N/C
pin
14 6.8 IC502 4 -23.8 pin volt pin volt 15 N/C 1 6.8 15 14.1 pin volt 5 -32.7 1 13.3 1 8.6 16 4.5 2 GND 16 GND 1 2.1 IC602 2 5.0 2 30.7 17 4.7 3 14.1 17 6.8 2 14.0 pin volt 3 GND 3 5.1 18 4.4 4 6.8 IC501 3 -12.6 1 135.9
4 4.9 19 5.0 5 4.3 pin volt 4 -13.9 2 123.4 pin volt 5 4.9 20 5.0 6 N/C 1 0.2 5 0.2 3 GND 1 5.0 6 GND 21 0.3 7 4.1 2 3.7 6 14.3 IC603 2 5.0 7 5.5 22 0.0 8 4.1 3 2.5 7 2.1 pin volt 3 GND 8 N/C 23 N/C 9 6.8 4 GND IC601 I 13.3
All voltages are in V
9 8.9 24 0.0
10 4.1 5 9.5 pin volt 0 8.9 10 4.1 25 N/C 11 4.1 6 10.1 1 -31.8 G GND 11 GND 26 4.5 12 4.1 7 0.1 2 -32.7 4 13.3 12 N/C 27 4.5
13 N/C
All voltages are in V
(*) A BOARD VARIANT MODEL LIST
REF. NO. LOCATION KV-29FS13 KV-29FS13C REF. NO. LOCATION KV-29FS13 KV-29FS13C
C607 I-9 0.47 µF 125V # R438 C-19 4.7K 10K C612 I-12 680µF 250V 560µF 400V R601 I-9 4.7M 1/2W # C615 G-14 # 0.022µF 400V R615 I-9 # 8.2M 1W C616 H-14 # 220pF 1KV R627 I-13 390K 270K C625 I-18 1000µF 15000µF 25V R628 I-13 # 270K C658 I-19 1000µF 15000µF 25V R631 G-13 # 100K 3W D202 E-16 # RD9.1EW-T1 R637 H-12 # 5.6K 3W D609 H-14 # RU-1P R638 H-16 33 56
F601 J-5 6.3A/125V 6.3A/250V R660 H-12 15K 5.6K 3W
IC601 H-14 STR-F6426 STR-F6456 R662 H-12 # 5.6K 3W
R436 B-19 4.7K 10K T603 R437 C-19 4.7K 10K VDR601 I-7 ENE271D-10A ENE621D-14A
G-17
1-433-806-11 1-433-807-21
NOTE: # = Not Mounted
A BOARD WAVEFORMS
1
3.4 Vp-p (H)
5
27.9 Vp-p (V) 54.3 Vp-p (V)
9
201.2 Vp-p (H)
32
190.5 Vp-p (H) 25.9 Vp-p (H) 1.08 KVp-p (H)
6 8
7
29.0 Vp-p (V)
4
2.4 Vp-p (V)
— 28 —
A
[POWER SUPPLY, DEFLECTION, TUNER/IF, AUDIO, MTS]
KV-29FS13 / 29FS13C
A
B
C
D
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F
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H
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1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12
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L
S
E
R
5
0
7
L
C
5
1
3
0
5
2
L
5
0
5
L
4
0
2
T
5
5
7
R
5
2
4
C
C
5
0
3
2
R
0
5
5
7
R
4
Q
5
0
1
5
0
4
5
4
R
0
E
R
5
0
5
5
5
C
5
5
2
Q
0
H
-
O
U
T
5
5
C
0
5
5
C
1
L
5
5
3
R
5
D
E
T
-
O
U
T
1
1
1
3
1
2
5
2
1
2
3
7
C
4
6
0
1
I
6
4
C
0
R
5
6
6
C
4
5
7
R
4
4
Q
4
1
1
R
4
0
2
R
5
L
5
0
R
1
1
4
9
V
0
2
R
9
4
9
4
C
R
4
5
4
5
C
5
2
7
0
6
C
5
1
C
0
I
4
5
6
R
4
4
6
C
4
4
8
J
R
5
0
3
R
5
Q
0
5
3
R
4
4
7
0
7
D
5
R
5
R
5
F
B
5
0
C
5
2
4
0
5
6
D
1
1
1
0
C
R
2
0
4
1
5
R
1
2
1
1
7
S
E
T
1
R
4
5
0
5
6
R
5
2
5
4
1
1
4
2
5
1
3
1
5
L
1
0
3
1
4
0
R
9
R
4
3
6
6
7
R
5
C
I
R
5
2
2
8
1
R
5
2
7
E
B
E
C
2
5
5
6
1
0
N
2
0
0
6
R
1
0
6
1
1
1
R
1
Q
1
0
1
7
I
4
2
C
0
4
C
4
R
3
0
C
5
2
9
R
5
1
0
5
5
R
3
5
1
4
R
5
3
9
R
5
1
8
C
5
4
3
1
6
0
5
G
N
D
6
R
1
A
G
C
C
N
4
0
7
G
N
D
L
G
O
K
L
B
R
G
O
R
B
K
1
N
0
C
4
6
5
4
R
4
3
9
5
1
4
R
4
3
8
R
5
6
C
5
4
5
3
R
7
C
5
4
1
5
0
D
1
6
4
6
7
R
5
4
0
C
5
1
9
R
5
3
7
5
H
0
T
2
0
1
5
1
D
C
5
5
2
1
S
D
A
T
6
0
2
J
R
4
C
4
4
1
3
6
2
S
1
1
2
3
L
1
0
1
5
V
L
1
0
2
C
0
1
2
C
2
0
5
3
0
V
1
4
0
I
C
4
0
5
5
8
1
4
I
C
4
0
6
5
8
4
4
R
0
4
Q
0
4
1
R
0
J
4
9
4
3
R
0
H
.
P
R
O
T
C
5
4
2
C
5
1
8
-
1
3
2
5
0
2
I
C
1
1
R
5
4
3
0
J
5
R
2
0
0
3
J
R
6
0
V
6
V
D
Y
-
V
D
Y
B
B
4
3
C
+
5
H
D
Y
-
H
D
Y
-
C
N
1
2
8
0
1
C
N
2
0
0
5
2
8
D
0
C
L
S
E
T
2
R
R
2
2
5
D
3
D
3
2
C
2
R
2
0
4
7
R
C
1
2
1
5
Q
0
2
Q
0
2
6
D
3
2
V
1
H
2
R
2
3
2
R
3
5
2
5
R
1
C
N
5
0
2
E
A
T
E
R
2
+
H
D
9
C
0
5
1
0
6
5
8
R
1
R
5
3
3
C
5
5
1
Y
H
D
Y
+
R
5
4
1
N
0
C
5
R
5
4
6
R
5
3
4
5
L
5
0
7
6
7
-
7
-
1
2
0
0
9
6
0
2
D
5
D
0
2
1
2
0
D
0
1
2
R
5
0
1
9
0
2
D
2
5
4
1
3
1
8
Q
0
2
1
2
6
D
3
R
2
3
1
D
3
2
3
5
1
R
1
5
8
D
1
7
D
1
5
1
6
D
1
5
4
C
5
3
2
R
5
5
5
Q
0
5
4
R
5
1
3
5
V
R
0
8
3
0
8
R
R
0
8
4
4
0
5
N
C
2
9
5
-
4
1
A BOARD LOCATOR LIST
DIODE
D611 C-6 D201 C-11 D612 D-2 D202 D203 D204 B-10 D205 A-11 D206 A-11
C-11 D613 C-6 C-11 D614 C-6
D615 F-5
D616 F-6
D617 H-2 D208 A-11 D618 H-2
R
2
1
5
J
0
2
1
R
2
1
3
R
0
2
6
D209 C-11 D210 B-11 D211 C-11 D212 B-1 D213 B-1 D214 D-11 D215 C-11 D230 D-11 D231 D-11
R
2
4
0
R
2
4
1
D232 E-11 D233 E-11 D401 D-8 D501 H-8 D2004 D502 G-9 D503 G-9
2
6
R
2
R
2
2
7
D504 H-8 IC402 B-9 D505 G-7 D506 F-8 D507 E-8 D508 D-9 D509 H-5
D
2
5
0
D510 E-10
D619 D-2
D620 D-7
D622 F-3
D623 G-2
D624 G-5
D625 H-2
D626 G-1
D627 H-2
D628 G-2
D2001 E-2 D2002 F-1 D2003 B-1
A-2
D2005 A-2
IC
IC501 D-9 IC502 F-10 IC601 B-5 IC602 C-7 IC603 D-7
IC604 C-8 D511 G-10 IC2001 E-1 D512 E-9
TRANSISTOR
D513 F-10 Q101 A-9 D514 F-11 Q410 B-7
8
5
R
5
5
9
R
5
5
7
D515 E-9 Q411 D-8 D516 G-11 Q501 H-7 D517 F-11 Q502 H-7
R
5
5
5
5
6
D
1
R
5
3
5
J
U
M
P
E
R
-
I
D
R
0
8
0
8
1
R
0
2
T
5
5
0
T
F
B
D518 F-11 Q503 D-9 D519 D-10 Q504 E-9 D520 F-12 Q505 G-12 D521 I-5 Q506 A-6 D522 E-9 Q507 A-6 D601 D-2 D602 E-2 D603 B-3
Q601 B-3 Q602 A-3
Q603 C-6 D604 B-3 Q604 A-5 D605 D-4 D606 C-3 D607 B-4 D608 B-3 D609 C-4
Q605 G-3
Q606 H-3
Q607 D-2
Q608 D-2
Q609 A-4 D610 B-4
— 29 —

CA BOARD SCHEMATIC DIAGRAM

1 | 2 | 3 | 4 | 5 | 6 | 7 |
KV-29FS13 / 29FS13C
A
B
C
D
E
F
G
H
CN704
TO A BOARD
(T505)
TO A BOARD
(T505)
TO MA BOARD
CN303
N/S MUTE
CN706
TO A BOARD
CN502
HEATER
CN705
H-TRAP
6P
200V
GND
-13V
+13V
G2
9P
GND
GND
N.C.
R717
2.2 2W
R716 100k
1
FOCUS
C707
0.0047 2kV
E
200V
TDA6108JF/N1B
CRT DRIVE
L701
IK
1
2
R
3
B
4
G
5
6
N/S
7
8
9
6
5
4
3
2
1
0.0V
TP47R
TP47B
R720
2.2k
R721
2.2k
200V
0.0V
R OUT
B OUT
C704
4.7
250V
-13V
0.3V
Q701
2SC3311A
NS MUTE
(RGB DRIVE) (CRT DRIVE)
1/2W
RV701
VSTAT CONTROL
110M
V
IC702
2.2V 134.5V
C705
10
250V
C710
10
R703
100
1.7V
Q700
2SC3311A
NS MUTE
V
0
2
N
N
N
.
.
I
D
I
I
2
2
N
R
G
G
B
1 2 3 4 5 6 7 8 9
3.6V
G
B
R
C709
R700
22k
C708
0.1 :MPS
1 23
D
K
D
I
V
220 16V
R701
10k
R702
220
R705
10k
T U O
R
1 3 8 . 5 V
C706
0.1
250V
T
T
U
U
O
O
B
G
144.4V
R708
100
200V
1 2 3 4 5
0.3V
-13V
CV
G1-3
13V
IC701
LA6500-FA
N/S AMP
C701
47
25V
G4
1
13
12
KR
R
-0.6V0.3V
J701
3 5
10
11
KG
G
B
R712 R713
1k
1/2W
R709
100
C702
0.1
:MPS
R707
1.5
:FPRD
G2
G1-1
6
7
H1
H2
8
9
G1-2
KB
R715 560k
1SS83TD
R704
2.2k
1/2W
1/2W
RGP10GPK23
1k
R710
100
D703
R706
D704
R714
100
1/2W
R711
1k
1/2W
D701D702
1SS83TD1SS83TD
13V
C703
47
25V
R719
220
2W
1
CN702
:PIN-J
1
E
1
COIL-
2
NC
3
COIL+
CN701
3P
H
CV KR G1 G4
KG G2
KB
CRT
HV
N/S COIL
BA5-906-CA
— 30 —
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