Sony KV-32FV16, KV-32FV26, KV-34FV16, KV-34FV16C, KV-34FX260 Service manual

...
SERVICE MANUAL
MODEL COMMANDER DEST CHASSIS NO.
AA-2U CHASSIS
KV-32FV16 KV-32FV26 KV-32FV26 KV-34FV16 KV-34FV16C KV-34FX260 KV-34FX260C
RM-Y171 US SCC-S44E-A RM-Y170 US SCC-S44F-A RM-Y170 CN D SCC-S45D-A RM-Y171 E SCC-S50A-A RM-Y171 E SCC-S50B-A RM-Y170 E SCC-S50C-A RM-Y170 E SCC-S50D-A
KV-32FV26
RM-Y170
TRINITRON® COLOR TV
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
KV-32FV16
KV-32FV26
KV-34FV16
KV-34FV16C
KV-34FX260
KV-34FX260C
Power requirements 120V/60Hz 120V-220V / 60Hz, 50Hz
Number of inputs/outputs
Video
1)
S Video
2)
Y,P
, PR
3)
Audio
4)
Audio Out
5)
Monitor Out
S-Link
Control-S (IN/OUT)
Speaker output(W)
Power Consumption(W)
In use(Max)
In standby
Dimensions(W/H/D)
(mm)
(inches)
Mass
(kg)
(lbs)
882 x 687 x 592 mm
34
3/4
x 27 x 23
1/4
176 lbs.
80 kg
3
2
1
4
1
1
3
1
200W

SPECIFICATIONS

B
15Wx2
2W
Television system
American TV standard, NTSC
Channel coverage
VHF: 2-13/ VHF: 14-69/ CATV : 1-125
Picture tube
Flat Trinitron® tube
Visible screen size
32-inch picture measured diagonally
Actual screen size
34-inch measured diagonally
2 —
Antenna
75 ohm external terminal for VHF/UHF
Supplied Accessories
RM-Y170 (KV-32FV26/KV -34FX260/34FX260C ONL Y) RM-Y171 (KV-32FV16/34FV16/34FV16C ONL Y) Batteries size AA (R6) (2) Wireless Stereo Headphones MDR-1F0230 (ALL EXCEPT KV -32FV16/34FV16/34FV16C) Battery for Headphones size AA (R6) (1) (ALL EXCEPT KV -32FV16/34FV16/34FV16C)
Optional Assessories
AV Cable: VMC-810/820/830 HG Audio Cable: RKC-515HG S-LINK Cable: RK-G69HG Component Video Cable: VMC-10/30 HG TV Stand: SU-32FD3
Design and specifications are subject to change without notice.
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 (fix); Impedance (output): 2 kilohms
( • ) SRS (SOUND RETRIEVAL SYSTEM)
The ( • ) SRS (SOUND RETRIEVAL SYSTEM) is manufactured by Sony Corporation under license from SRS Labs, Inc. It is covered by U.S. Patent No. 4,748,669. Other U.S. and foreign patents pending.
The word ‘SRS’ and the SRS symbol ( • ) are registered trademarks of SRS Labs, Inc.
BBE and BBE symbol are trademarks of BBE Sound, Inc. and are licensed by BBE Sound, Inc. under U.S. Patent No. 4,638,258 and 4,482,866.
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C

TABLE OF CONTENTS

Section Title Page
Warnings and Cautions...............................................................................................................................................................4
Self-Diagnostic Function ............................................................................................................................................................. 4
Safety Check-Out Instructions ...................................................................................................................................................7
1. DISASSEMBL Y
1-1. Rear Cover Removal....................................................................................................................................................... 8
1-2. Chassis Assembly Removal ........................................................................................................................................... 8
1-3. Service Position .............................................................................................................................................................. 8
1-4. Picture Tube Removal .....................................................................................................................................................9
2. SET -UP ADJUSTMENTS
2-1. Beam Landing ............................................................................................................................................................... 10
2-2. Convergence ................................................................................................................................................................11
2-3. Focus ............................................................................................................................................................................ 13
2-4. Screen (G2) ..................................................................................................................................................................13
2-5. White Balance Adjustments..........................................................................................................................................13
3. SAFETY RELA TED ADJUSTMENTS
3-1. R530, R531 Confirmation Method (HV Hold-Down Confirmation and Readjustments)..........................................14
3-2. B+ Voltage Confirmation and Adjustment .....................................................................................................................14
4. CIRCUIT ADJUSTMENTS
4-1. Setting the Service Adjustment Mode .......................................................................................................................... 15
4-2. Memory Write Confirmation Method..............................................................................................................................15
4-3. Adjust Buttons and Indicators ......................................................................................................................................15
4-4. Adjustment Items...........................................................................................................................................................16
4-5. Feature ID Map ..............................................................................................................................................................21
4-6. Program Palette Settings...............................................................................................................................................22
4-7. A Board Adjustments ....................................................................................................................................................22
5. DIAGRAMS
5-1. Block Diagram ............................................................................................................................................................... 25
5-2. Circuit Board Location ..................................................................................................................................................33
5-3. Printed Wiring Boards and Schematic Diagrams .........................................................................................................33
• A Board .................................................................................................................................................................... 34
• UX (MAIN) Board......................................................................................................................................................41
• UX (PIP) Board .........................................................................................................................................................45
• AK Board ..................................................................................................................................................................49
• HA Board ..................................................................................................................................................................50
• G Board ....................................................................................................................................................................51
• GA Board..................................................................................................................................................................55
• HX Board ..................................................................................................................................................................58
• WA Board ................................................................................................................................................................. 59
• T Board.....................................................................................................................................................................61
• C Board .................................................................................................................................................................... 63
• HB Board ..................................................................................................................................................................64
5-4. Semiconductors ............................................................................................................................................................ 65
6. EXPLODED VIEW
6-1. Chassis .........................................................................................................................................................................66
6-2. Picture Tube ..................................................................................................................................................................67
7. ELECTRICAL P ARTS LIST ...................................................................................................................................................68
3
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
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 IDENTIFIED BY SHADING AND MARK ON THE SCHEMATIC DIAGRAMS, EXPLODED VIEWS, AND IN THE PAR TS LIST ARE CRITICAL FOR SAFE OPERA TION. 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 IDENTIFIED IN THIS MANUAL. FOLLOW THESE PROCEDURES WHENEVER CRITICAL COMPONENTS ARE REPLACED OR IMPROPER OPERA TION IS SUSPECTED.
A TTENTION!!
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 AU COUCHE DE CARBONE PEINTE SUR LE TUBE CATHODIQUE OU AU BLINDAGE DU TUBE CATHODIQUE.
ATTENTION!!
AFIN D'EVITER TOUT RESQUE 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 SECTEUR.
A TTENTION AUX COMPOSANTS RELA TIFS A LA SECURITE!!
LES COMPOSANTS IDENTIFIES PAR UNE TRAME ET PAR UNE MARQUE
SUR LES SCHEMAS DE PRINCIPE, LES VUES EXPLOSEES ET LES
LISTES DE PIECES SONT D'UNEIMPORTANCE CRITIQUE POUR LA SECURITE DU FONCTIONNEMENT . NE LES REMPLACER QUE P AR DES COMPOSANTS SONY DONT LE NUMERO DE PIECE EST INDIQUE DANS LE PRESENT MANUEL OU DANS DES SUPPLEMENTS PUBLIES P AR SONY . LES REGLAGES DE CIRCUIT DONT L'IMPORT ANCE EST CRITIQUE POUR LA SECURITE DU FONCTIONNEMENT SONT IDENTIFIES DANS LE PRESENT MANUEL. SUIVRE CES PROCEDURES LORS DE CHAQUE REMPLACEMENT DE COMPOSANTS CRITIQUES, OU LORSQU'UN MAUVAIS FONTIONNEMENT SUSPECTE.

SELF-DIAGNOSTIC FUNCTION

The units in this manual contain a self-diagnostic function. If an error occurs, the STANDBY/TIMER LED will automatically begin to flash. The number of times the LED flashes translates to a probable source of the problem. A definition of the STANDBY/TIMER LED flash 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 flash 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 first 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 Does not light
+B overcurrent (OCP)* N/A
+B overvoltage (OVP)* N/A
V-STOP* 4 times 4:0 or 4:1 • +12V is not supplied. (A Board)
IK (AKB) 5 times 5:0 or 5:1 • Video OUT (IC502) is faulty. (A Board)
No. of Times
STANDBY/TIMER
LED Flashes
Self-diagnostic Display/
Diagnostic Result
N/A
N/A
N/A
Probable Cause
Location
• Power cord is not plugged in.
• Fuse is burned out. (F601) (A Board)
• H.OUT (Q502) is shorted. (A Board)
• IC1701 is shorted. (C Board)
• IC643 or T603 is open. (G Board)
• IC6003 or PH6001 is open (GA Board)
• IC502 is faulty. (A Board)
• IC355 is faulty. (A 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.
• Power does not come on.
• Has entered standby state after horizontal raster.
• Vertical deflection 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 deflection is detected simultaneously.
The symptom that is diagnosed first by the microcontroller is displayed on the screen.
** Refer to Screen (G2) Adjustments in Section 2-4 of this manual.
4 —
Display of Standby/Timer LED Flash Count
4 times 5 times
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
LED ON 0.3 sec. LED OFF 0.3 sec.
LED OFF
STANDBY/TIMER LED
3 sec.
Diagnostic Item Flash Count*
V-STOP 4 times IK (AKB) 5 times
*One flash 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 flashing.
Self-Diagnostic Screen Display
For errors with symptoms such as “power sometimes shuts off” or “screen sometimes goes out” that cannot be confirmed, it is possible to bring up past occurrences of failure on the screen for confirmation.
To Bring Up Screen Test
In standby mode, press buttons on the Remote Commander sequentially, in rapid succession, as shown below:
Display Channel
5
Sound volume
Power ON
Self-Diagnostic Screen Display
SELF DIAGNOSIS
2: +B OCP N/A 3: +B OVP N/A 4: VSTOP 0 5: AKB 1
101: WDT 24
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.
5
+
).
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
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:
8
ENTERChannel
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.
Self-Diagnostic Circuit
FROM
C BOARD
IC1701 PIN1
A BOARD
FROM
IC501 PIN 1
A BOARD
IC355
Y/CHROMA JUNGLE
IK IN
21
V-STOP
HP/PROTECT
18
SDA
A BOARD
IC561
V. OUT
15
35
REF
3
27
A BOARD
IC001
SYSTEM
IO-BDATN
O-TIMELED
IO-SDATN
26
59
DISPLAY
5
A BOARD
IC1002
MEMORY
BDA
+B overcurrent (OCP) Occurs when an overcurrent on the +B (135V) line is detected by pin 18 of IC355 (A Board).
If the voltage of pin 18 of IC355 (A Board) is less than 1V when V.SYNC is more than seven verticals in a period, the unit will automatically turn off.
+B overvoltage (OVP) Occurs when the feedback circuit from +B opens IC643 or T603 (G Board)/IC6003 or PH6001
(GA Board) or any other associated feedback components.
V-STOP Occurs when an absence of the vertical deflection pulse is detected by pin 15 of IC355 (A
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 IC355 (A 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).
NOTE: Watch Dog Timer Indicates how many times the Watch Dog Timer functions have been activiated. Whenever
micro is reset by the Watch Dog Timer, this number is incremented. Maximum number is 255.
6 —
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
Trouble Light
AC Outlet Box
Ohmmeter
Cold-water Pipe
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 specified 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 milliammeter. 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 battery­operated 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 cover­plate 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).
Figure B. Checking for earth ground.Figure A. Using an AC voltmeter to check AC leakage.
7
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
SECTION 2

DISASSEMBLY

1-1. REAR COVER REMOV AL
4 Screws (+BVTP 4x16)
3 Screws (+BVTP 4x16)
5 Screws (+BVTP 4x16)
4 Screws (+BVTP 4x16)
2 Screws (+BVTP 3x12)
1-2. CHASSIS ASSEMBLY REMOVAL
Chassis Assembly
Claw
1-3. SERVICE POSITION
C Board
WA Board
UX Board
A Board
G Board (KV-32FV16/32FV26 ONLY) GA Board (ALL EXCEPT KV-32FV16/32FV26)
8 —
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
1-4. PICTURE TUBE REMOVAL
10
WARNING:
BEFORE REMOVING
THE ANODE CAP
High voltage remains in the CRT even after the power is discon­nected. To avoid electric shock,
6
discharge CR T before attempting to remove the anode cap. Short between anode and CRT coated
5
earth ground strap.
Coated
Earth
Ground
Strap
1. Discharge the anode of the CRT and remove the anode cap.
2. Unplug all interconnecting leads from the deflection yoke, neck assembly, degaussing coils and CRT grounding strap.
3. Remove the C Board from the CRT.
4. Remove the chassis assembly.
5. Loosen the neck assembly fixing screw and remove.
6. Loosen the deflection yoke fixing screw and remove.
8
1
7
3
2
9
4
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 fixing screws [located on each CRT corner] and remove the CRT [Take care not to handle the CRT by the neck].
ANODE CAP REMOVAL
WARNING: High voltage remains in the CRT even after the power is disconnected. To avoid electrical shock, discharge the CRT before
NOTE: After removing the anode, short circuit the anode of the picture tube and the anode cap to either the metal chassis, CRT shield,
attempting to remove the anode cap. Short between anode and coated earth ground strap of CRT.
or carbon painted on the CRT.
REMOVAL PROCEDURES
c
b
a
Anode Button
1
Turn up one side of the rubber cap in the direction indicated by arrow
2
Use your thumb to pull the rubber
a
.
cap firmly in the direction indicated by arrow
b
.
3
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
.
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 fitting 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.
9
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
SECTION 2

SET-UP ADJUSTMENTS

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.
The controls and switch should be set as follows unless otherwise noted:
PICTURE control ......................................... normal
BRIGHTNESS control..................................normal
2-1. BEAM LANDING
Preparation:
Input a white pattern signal.
Face the picture tube in an East or West direction to reduce
the influence of geomagnetism. NOTE: Do not use the hand degausser because it magnetizes
the CRT .
1. Input white pattern from pattern generator.
2. Loosen the deflection yoke mounting screw, and set the purity control to the center as shown below:
Perform the adjustments in order as follows:
1. Beam Landing
2. Convergence
3. Focus 4 . Screen (G2)/White Balance
Note: T est Equipment Required:
1 . Color Bar Pattern Generator
2. Degausser 3 . DC Power Supply
4. Digital Multimeter
5. Oscilloscope
6. CRT Analyzer
6. Switch over the raster signal to red and blue and confirm the condition.
7. When the position of the deflection yoke is determined, tighten it with the deflection yoke mounting screw.
8. When landing at the corner is not right, adjust by using the disk magnets.
3. Input green pattern from pattern generator.
4. Move the deflection 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 deflection yoke forward, and adjust so that the entire screen becomes green.
10
Disk magnets or rotatable disk magnets correct
these areas (a-d)
b
d
Purity control
corrects this area
ba
cd
Deflection yoke positioning
corrects these areas
a
c
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
2-2. CONVERGENCE
Preparation:
Perform FOCUS, V. LIN and V. SIZE adjustments.
Set BRIGHTNESS control to minimum.
Input dot pattern.
R G B
Center dot
RV1761 V.STAT
R
G
B
V.STAT magnet
Vertical and Horizontal Static Convergence
1. Adjust V. STAT magnet to conver ge red, green and blue dots in the center of the screen (Vertical movement).
Tilt the V. STAT magnet and adjust static convergence to open or close the V. STAT magnet.
Operation of BMC (Hexapole) Magnet
The respective dot positions resulting from moving each magnet interact, so perform adjustment while tracking.
1 Use the V.STAT tabs to adjust the red, green, and blue dots
so they line up at the center of the screen (move the dots in a horizontal direction).
RG B
RGB RGB
RGB
RGB
RGB
Y Separation Axis Correction Magnet Adjustment
1. Input cross-hatch pattern, adjust PICTURE to minimum and BRIGHTNESS to normal.
2. Adjust the deflection yoke upright so it touches the CRT.
3. Adjust so that the Y separation axis correction magnet on the neck assembly is symmetrical from top to bottom (open state).
2. 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
3
b
a
B
b
G
R
b
a
a
R
G
b
B
b B G
R
a
RG B
b
BG R
b
B
G
R
V.S TAT
BMC MAGNET
PURITY
4. Return the deflection yoke to its original position.
11
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
Dynamic Convergence Adjustment
Before starting, perform Vertical and Horizontal Static Conver­gence Adjustment.
1. Slightly loosen deflection yoke screw .
2. Remove deflection yoke spacers.
3. Move the deflection yoke for best convergence as shown below:
BGR
RGB
BGR
R G B
B G R
RGB
RGB
G
B
R
B G R
R G
B
BGR RGB
TLH Plate Adjustment
Input crosshatch pattern.
Adjust PICTURE QUALITY to standard, PICTURE and
BRIGHTNESS to 50%, and OTHER to standard.
Adjust the Horizontal Convergence of red and blue dots by tilting the TLH plate on the deflection yoke.
Y Magnet
WA Board
RV1761
V. STAT
XCV
4. T ighten the deflection yoke screw.
5. Install the deflection yoke spacers.
Screen-corner Convergence
1. Affix a permalloy assembly corresponding to the misconverged areas:
b
a
a-d: screen-corner
misconvergence cd
c
d
1. Adjust XCV core to balance X axis.
2. Adjust YCH VR to balance Y axis.
3. Adjust vertical red and blue convergence with V.TILT (TLV VR.)
Perform adjustments while tracking items 1 and 2.
4. Adjust Y MAGNET to correct V.BOW Geometery Distortion.
ba
5. Adjust H-TRP to correct H.Trapezoid Geometry Distor­tion.
After adjusting items 4 and 5, confirm overall geometry again.
12
2-3. FOCUS
pedestal
GND
170Vdc
170 + 2.0 Vdc
NO.
24 25 26 27 28 29 38
Disp.
RDRV GDRV BDRV RCUT GCUT BCUT SBRT
Item
Red Drive Green Drive Blue Drive Red Cut-off Green Cut-off Blue Cut-off Sub Bright
All Models
* 44 38
14:Fix
7
6
6
1. Input monoscope signal.
2. Set user controls to normal.
3. Set video mode to STANDARD.
4. Set the PICTURE to maximum.
5. Adjust at 325 Mark for best center/corner focus balance.
6. Receive an entire white signal. Make sure Magenta Ring is at an acceptable level.
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
2-5. WHITE BALANCE ADJUSTMENTS
Focus
Screen (G2)
325 MARK
35
35 MARK CENTER
CIRCLE
325
2-4. SCREEN (G2)
1. Input dot pattern from the pattern generator.
2. Set the user controls to NORMAL.
3. Attach the G2-Jig to the C Board.
5. Adjust RCUT, GCUT, BCUT, and SBRT in service mode with an oscilloscope so that voltages on the red, green, and blue cathodes are 170 ± 2.0Vdc.
5. Observe the screen and adjust SCREEN (G2) VR to obtain the faintly visible background of dot signal.
6. Push the TEST + JUMP (+ Channel) to cut off the signal. The screen should be bright or dark. Brightness of raster must be increased when adjusting.
7. Adjust screen VR until the screen is slightly cut off, or scarcely lights up. A signal cannot be seen when the brightness of the raster is high.
8. Push the JUMP again to release the cut off.
1. Set program palette to STANDARD and pust RESET.
2. Input an entire white signal.
3. Set to Service Adjustment Mode.
4. Set the PICTURE and BRIGHT to minimum.
5. Adjust with SBRT if necessary.
6. Set RCUT to "14".
7. Select GCUT and BCUT with
8. Adjust with
and for the best white balance.
and .
9. Set the PICTURE and BRIGHT to maximum.
10. Select GDRV and BDRV with and .
11. Adjust with 3 and 6 for the best white balance.
12. Write into the memory by pressing .
13. Repeat steps 1-12 for GDR4, BDR4, GCU4 and BCU4
using V ideo 4 input.
* Use values from Sub Contrast Adjustments
NOTE:
White balance should be adjusted after Sub Contrast because RDRV is also used in Sub Contrast Adjustment. (See page 22).
13
then
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
SECTION 3

SAFETY RELATED ADJUSTMENTS

3-1. R530, R531 CONFIRMATION METHOD
(HOLD-DOWN CONFIRMATION) AND READJUSTMENTS
Always perform the following adjustments when replacing the following components marked with a diagram:
Part Replaced ( ) Adjustment ( )
R387, R550, R529, R530, R531, R532, R533, D519, D520, D521, IC501, C531, C532, T503, IC351, IC355, D302, Q301, R356, R359,
R361, .............................A Board
IC643, R661 .................. G Board
IC6003,R6008 ............. GA Board
mark on the schematic
HV HOLD-DOWN R530, R531
Preparation before Confirmation
1. Using a V ariac, apply AC input voltage: 130+2.0/-0.0 VAC.
2. Turn the POWER switch ON.
3. Input a white signal and set the PICTURE and BRIGHT controls to maximum.
4. Confirm that the voltage of more than 23.0 VDC appears between TP85 and ground on the A Board.
Hold-Down Readjustment
If the setting indicated in Step 2 of Hold-Down Operation Confirmation cannot be met, readjustment should be performed by altering the resistance value of R530, R531 component marked with
.
digital multimeter
R531
R530
DC Power Supply
+
-
TP85
TP85
+
-
T503
T503 FBT
FBT
11
ammeter 3mA DC range
A
+
-
Hold-Down Operation Confirmation
1. Connect the current meter between Pin 11 of the FBT (T503) and the PWB land where Pin 11 would normally attach (See Figure 1 above).
2. Input a dot signal and set PICTURE and BRIGHTNESS to minimum: IABL = 2175 + 100/ -325 µA.
3. Confirm the voltage of A Board TP91 is 135 ± 1.5 VDC.
4. Connect the digital voltmeter and the DC power supply to TP85 and ground. (See Figure 1 above).
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 = 27.24 + 0.0/ - 0.1 VDC).
8. Input a white signal and set PICTURE and BRIGHTNESS to maximum: IABL = 2175 + 100/ -325 µA.
9. Repeat steps 4 to 7.
Figure 1
3-2. B+ VOLTAGE CONFIRMATION AND
ADJUSTMENT
Note: The following adjustments should always be performed when replacing the following components, which are marked with on the schematic diagram on the G Board or GA Board.
G BOARD: IC643, R661 GA BOARD: IC6003, R6008
1. Using a V ariac, apply AC input voltage: 130 + 2.0/-0.0 VAC
2. Input a monoscope signal.
3. Set the PICTURE control and the BRIGHT control to initial reset value.
4. Confirm the voltage of G Board CN641 or GA Board CN6007 between pin
5. If step 4 is not satisfied, replace the R661 on G Board or R1008 on GA Board and repeat the above steps.
to ground is less than 136.5 VDC.
14
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
SECTION 4

CIRCUIT ADJUSTMENTS

ELECTRICAL ADJUSTMENTS BY REMOTE COMMANDER
Use the Remote Commander (RM-Y170, RM-Y171) to perform the circuit adjustments in this section. NOTE: Test Equipment Required:
Pattern generator
Frequency counter
Digital multimeter
Audio oscillator
4-1. SETTING THE SERVICE ADJUSTMENT
MODE
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 In
Item order
0
TV
Item data
7
SERVICE
Mode
Disp. (Item)
VP HSIZ
3. The CRT displays the item being adjusted.
4. Press
5. Press
6. Press
or on the Remote Commander to select the item. or on the Remote Commander to change the data.
then to write into memory.
Service Adjustment Mode Memory
Item order
0
TV
Item data
7
SERVICE
Green
Disp. (Item)
VP HSIZ
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 confirm they were adjusted.
4-3. ADJUST BUTTONS AND INDICATORS
MUTING
(Enter into
memory)
DISPLAY
(Service Mode)
Disp. (Item up)
(Device Item Up)
Disp. (Item down)
(Initialize)
VOLUME (+)
(Service mode)
1
2
4
8
POWER
(Service mode)
3
Item (Data up)
5
(Device item down)
6
Item(Data down)
ENTER
(Enter into memory)
0
(Remove from memory)
Red
7. Press then on the Remote Commander to initialize.
Item order
0
Item data
7
WRITE
TV
Carry out step 7 when adjusting IDs 0 to 7 and when replacing
Disp. (Item)
VP HSIZ
and adjusting IC002.
8. DO NOT turn off set until SERVICE appears.
RM-Y170
15
4-4. ADJUSTMENT ITEMS
Register
Name
0
HPOS
1
HSIZ
2
VBOW
3
VANG
4
TRAP
5
PAMP
6
UCPN
7
LCPN
8
VSIZ
9
VPOS
10
VLIN
11
VSCO
12
VZOM
13
EHT
14
ASP
15
ASP1
16
SCRL
17
HBSW
18
LBLK
19
16
RBLK
20
HDW
21
EWDC
22
LVLN
23
UVLN
24
RDRV
25
GDRV
26
BDRV
27
RCUT
28
GCUT
29
BCUT
30
RDR4
31
GDR4
32
BDR4
33
RCU4
34
GCU4
35
BCU4
36
SBRT
37
RON
38
GON
39
BON
40
AXPL
41
CBPF
42
COFF
43
TSSP
44
TSPF
45
VSSP
46
VSPF
47
YSSP
48
YSPF
VP
CXA2131AS
Description Data Adj/Fix Initial 32" Comments
H-Position 0-63 Adj 7
Range Data
H-Size 0-63 Adj 10
AFC Bow 0-15 Adj 6
AFC Angle 0-15 Adj 5
Trapezium Adjustment 0-15 Adj 6
Pin Compensation 0-63 Adj 32
Upper Corner Pin 0-63 Adj 36
Lower Corner Pin 0-63 Adj 36
V-Size 0-63 Adj 0
V-Position 0-63 Adj 31
V-Linearity 0-15 Adj 7
S-Correction 0-15 Adj 7
16:9 CRT Zoom Mode On/Off 0,1 FIX 0
Vertical Size High Voltage Correction 0-15 FIX 4
Aspect Ration Control 4:3 Mode 0-63 FIX 47
Aspect Ration Control 16:9 Mode 0-63 FIX 47
16:9 Vertical Scroll During Zoom 0-63 FIX 31
H Blanking Switch 0,1 FIX 1
Left Blanking 0-15 FIX 15
Right Blanking 0-15 FIX 0
H Drive Pulse Width 0,1 FIX 1
EW/DC Display 4x3 on 16x9 CRT 0,1 FIX 0
Picture Bottom Lin Adjust 0-15 Adj 0
Picture Top Lin Adjust 0-15 Adj 0
Red Drive 0-63 Adj 31
Green Drive 0-63 Adj 31
Blue Drive 0-63 Adj 31
Red Cutoff 0-15 FIX 7
Green Cutoff 0-15 Adj 7
Blue Cutoff 0-15 Adj 7
Video 4 Red Drive 0-63 Adj 31
Video 4 Green Drive 0-63 Adj 31
Video 4 Blue Drive 0-63 Adj 31
Video 4 Red Cutoff 0-15 FIX 7
Video 4 Green Cutoff 0-15 Adj 7
Video 4 Blue Cutoff 0-15 Adj 7
Sub Brightness 0-31 Adj 15
Red Off 0,1 FIX 1
Green Off 0,1 FIX 1
Blue Off 0,1 FIX 1
Axis PAL 0,1 FIX 0 0 0: Normal Axis, 1: Forced PAL Asix
Chroma BPF On/Off 0,1 FIX 1 1 0: BPF OFF, 1: BPF ON
Color On/Off 0,1 FIX 0 0 0: Chroma OFF, 1: Chroma ON
Sub Sharpness for TV Input 0-15 Fix by model 6
Sharpness fo for TV Input 0,1 FIX 1
Sub Sharpness for Video Input 0-15 Fix by model 7
Sharpness fo for Video Input 0,1 FIX 1
Sub Sharpness for YUV Input 0-15 Fix by model 7
Sharpness fo for YUV Input 0,1 FIX 1
FV16 FV26 FX260
10
18
8
6
7
36
39
39
9
36
6
11
0
4
47
47
31
1
15
0
1
0
0
0
52
44
38
14
7
6
42
33
29
14
7
6
6
1
1
1
6
1
7
1
7
1
0: 2ms delay, 63: 2ms advance
EW DC bias, 0: -0.5V, 31: 0V, 63: +0.5V
0: top/bottom delay 900ns, 7: center, 15: top/bottom advance 900ns
0: top delay/bottom advance 650ns, 7: center,
15: top advance/bottom delay 650ns
0: 1.5ms advance, 15: 1.5ms delay
0: 0.15Vpp, 31: 0.7Vpp, 63: 1.3Vpp
0: -0.4V, 63: +0.4V
0: -0.4V, 63: +0.4V
0: -15%, 31: 0%, 63: +15%
0: -0.1V, 31: 0V, 63: +0.1V
0: 85% top enlarged, 7: 100% top normal, 15: 115% top compressed
0: 0V added to VD, 15: 100mVpp added to VD
0: Zoom Off, 1: Zoom On
(top/bottom cut by 25% when ASPECT=31, RGB blanked in this interval)
0: Picture adjusted 0%, 15: Picture Adjusted -5%
0: 75%(16x9 CRT Full), 31: 100%(4x3 CRT Full), 63: 110%
0: 75%(16x9 CRT Full), 31: 100%(4x3 CRT Full), 63: 110%
0: Scrolled toward top 32H, 63: Scrolled toward bottom 32H
0: OFF, 1: ON
0: +1.2ms, 7: Center, 15: -1.2ms
0: +1.2ms, 7: Center, 15: -1.2ms
0: Normal Mode (25ms), 1: Narrow Pulse Width
0: OFF, 1: ON
0: 100%, 15: 85% Picture top compressed
0: 100%, 15: 85% Picture bottom compressed
0: 1.5Vpp, 63: 3.0Vpp Red Signal Output
0: 1.5Vpp, 63: 3.0Vpp Greem Signal Output
0: 1.5Vpp, 63: 3.0Vpp Blue Signal Output
0: 3.5mA IK, 7: 13mA IK, 15: 22.7mA IK
0: 3.5mA IK, 7: 13mA IK, 15: 22.7mA IK
0: 3.5mA IK, 7: 13mA IK, 15: 22.7mA IK
0: 1.5Vpp, 63: 3.0Vpp Red Signal Output
0: 1.5Vpp, 63: 3.0Vpp Greem Signal Output
0: 1.5Vpp, 63: 3.0Vpp Blue Signal Output
0: 3.5mA IK, 7: 13mA IK, 15: 22.7mA IK
0: 3.5mA IK, 7: 13mA IK, 15: 22.7mA IK
0: 3.5mA IK, 7: 13mA IK, 15: 22.7mA IK
Sub Brightness
0:OFF, 1:ON
0:OFF, 1:ON
0:OFF, 1:ON
0=-12dB, 7=+3.5dB, 15=+9dB
0=2.5MHZ, 1=3.0MHz
0=-12dB, 7=+3.5dB, 15=+9dB
0=2.5MHZ, 1=3.0MHz
0=-12dB, 7=+3.5dB, 15=+9dB
0=2.5MHZ, 1=3.0MHz
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
17
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
0
1
2
3
4
5
6
0
1
2
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
Register
Name
AXNT
PREL
DCT
ABLM
FSC
HOSC
VSS
HSS
HMSK
VTMS
AFC
REFP
VBSW
BKOF
AGN2
SREF
BBLP
BBHP
SVOL
SBAL
SBAS
STRE
SPCA
CENA
INPA
COUT
YAPS
NSDS
MSS
EXAD
PECS
EXCS
CPP
HDP
CDL
DYCO
DYGA
DCCO
DCGA
YNRK
YNRI
YNRL
CNRK
CNRI
CNRL
ID1O
ID1W
ID1N
CLK
VP
CXA2131AS
AP
BH3868
SRS
TDA7464
uPD64082
3D COMB
Description Data Adj/Fix Initial 32" Comments
Axis NTSC 0,1 FIX 0
Range Data
Pre/Overshoot Ratio 0,1 FIX 1
DC Transmission Ratio 0,1 FIX 1
ABL Mode 0,1 FIX 1
FSC Output On/Off 0,1 FIX 1 1 0: FSC output OFF, 1: FSC output ON
H VCO Frequency Adjustment 0-15 FIX 7 7 0: Low, 15: High (40 Hz Steps)
Vsync Slice Level 0,1 FIX 0 1 0: 1/3 from sync tip, 1: 1/4 from sync tip
Hsync Slice Level 0,1 FIX 0 1 0: 1/3 from sync tip, 1: 1/4 from sync tip
Macrovision Countermeasure 0,1 FIX 1 1 0: Off, 1: ON
Select Signal VTIM Pin 0-3 FIX 0 0 0: V retrace timing, 1: Hsync signal, 2: Vsync signal, 3: don't use
AFC 0-3 FIX 0 0 0: High Gain, 1: Medium Gain, 2: don’t use, 3: Extremely low gain
REFP 0,1 FIX 0 0 0: R=20H/G=21H/B=22H, 1: R=23H/G=24H/B=25H
VBLK Width Control 0-3 FIX 0 0
ABL Signal Detection Level 0,1 FIX 0 0 0: VTH=3V, 1: VTH=1V
Aging Mode 2 - Black Output Mode 0,1 FIX 0 0 0: Black Output Mode OFF, 1: Black Output Mode ON
Surround Effect 0-15 FIX 7 7 0: Min, 15: Max (8-15 LOOP=1)
BBE Low PAss 0-15 FIX 5
BBE High Pass 0-15 FIX 3
Sub Volume 0-15 FIX 7
Sub Balance 0-15 FIX 7
Sub Bass 0-15 Fix by model 5
Sub Treble 0-15 Fix by model 3
SRS Space Attenuation 0-63 FIX 0
SRS Center Attenuation 0-63 FIX 0
Input Attenuation 0-127 FIX 3
Chroma Signal Gain / BPF 0-3 FIX 3 3 Input/Output gain=1 / BPF ON
Y V-Compensation/Peaking 0-3 FIX 3 3 Correctin enabled for digital/analog inputs
Standard/Non-Standard Processing 0-3 FIX 0 0 Standard adaptive processing
Inter-frame/Inter-line Mode 0-3 FIX 0 0 Adaptive Processing
External ADC Insert 0,1 FIX 0 0 Internal Y-ADC
Pedestal Error Correction 0-3 FIX 0 0 Standard
C sync Input 0-3 FIX 1 1 Use CSI
Y ADC Amplitude/Clamp Method 0-3 FIX 0 0 Y-ADC & C-ADC Vtb=1.25V
H Phase Fine Adjustment 0-7 FIX 3 3 Phase +/- 0msec
C Output Delay Fine Adjustment 0-7 FIX 5 5 Y/C Delay +/- 0msec
Y Moving Coring Level 0-15 FIX 2 2 0: Close to moving pictures, 15: Close to still pictures
Y Moving Coring Gain 0-15 FIX 10 10 0: Close to still Pictures, 15: Close to moving Pictures
C Moving Coring Level 0-15 FIX 2 2 0: Close to moving pictures, 15: Close to still pictures
C Moving Coring Gain 0-15 FIX 9 9 0: Close to still Pictures, 15: Close to moving Pictures
YNR Non-linear Filter Gain 0,1 FIX 1 1 x7/8 large noise reduction and large after image
YNR Non-linear Filter Convergence 0,1 FIX 0 0 6LSB small noise reduction and small after image
YNR Non-linear Filter Limit Level 0-3 FIX 1 1 0: YNR Off , 3: 3LSB large noise reduction
CNR Non-linear Filter Gain 0,1 FIX 1 1 x7/8 large noise reduction and large after image
CNR Non-linear Filter Convergence 0,1 FIX 0 0 6LSB small noise reduction and small after image
CNR Non-linear Filter Limit Level 0-3 FIX 1 1 0: CNR OFF , 3: 3LSB large noise reduction
ID-1 Superimpose Signal 0,1 FIX 0 0 Through, no superimposition
Specifies bit A1 of Word 0 0,1 FIX 0 0 0: 4x3, 1: 16x9
Spedifies bit A2 of Word 0 0,1 FIX 0 0 0: normal, 1:letterbox
CLK8 Pin Output 0,1 FIX 1 1 0: Output 8fsc, 1: Output OFF
FV16 FV26 FX260
0
1
1
1
5
3
7
7
85 5
83 5
0
0
3
0: Japan Axis, 1: US Axis
0: 1:1, 1: 2:1
0:100%, 1:85%
0:Picture ABL, 1:Picture/Brightness ABL
0: 9H from B, 1: 10H from B, 2: 11H from B, 3:12H from B
(When JUMP SW=1)
0: 0.5dB, 15: 10dB
0: 0.5dB, 15: 10dB
0:-0 volume steps, 15:-15 volume steps
0: +Right, 15:+Left
0:-7 steps, 15: +8 steps
0:-7 steps, 15: +8 steps
0: 0dB, 63: -31db (1dB steps)
0: 0dB, 63: -31db (1dB steps)
0: 0dB, 127: -31.5dB (0.5dB steps)
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
ADJUSTMENT ITEMS (cont.)
Register
Name
24
ST0S
25
WSC
26
VTRH
27
VTRR
28
LDSR
29
PWRE
30
VAPG
31
VAPI
32
TEST
33
YPFT
34
YPFG
35
V1PS
36
VEGS
37
CC3N
38
C0HS
39
CLPH
40
SEL2
41
SEL1
42
YHCO
43
YHCG
44
18
OVST
45
CSHD
46
KCTT
47
SHT
48
VCT
49
OTT
50
CL2D
51
CGGT
52
CLEB
53
CGT
54
HPLL
55
BPLL
56
FSCF
57
PLLF
58
KILR
59
HSSL
60
VSSL
61
BGPS
62
BGPW
63
ADCL
64
ADPD
65
NSDW
66
CNRF
0
SHPR
1
BLAD
2
SRTS
3
YNR
4
GIRE
5
DAC1
6
DAC2
uPD64082
3D COMB
TA1226N
PIC IMP
Description Data Adj/Fix Initial 32" Comments
Select ST0 Pin Output Signal 0-3 FIX 1 1 External Y-ADC clamp pulse
Range Data
Noise Detection Coring 0-3 FIX 1 1 1LSB coring for noise detection circuit
H-sync Non-Standard Detection Hysteresis 0-3 FIX 1 1 Low hysteresis (2 clock pulses)
H-sync Non-Standard Detection Sensitivity 0-3 FIX 1 1 Medium sensativity (+/- 8 clock pulses)
Frame Sync Non-Std Detection Sensativity 0-3 FIX 2 2 Low sensativity (1.5 clock pulses)
Internal ADC Input Range 0,1 FIX 0 0 Same input range on Y-ADC and C-ADC
Vertical Aperture Compensation Gain 0-7 FIX 4 4 0: Correction OFF, 7: Max Correction
Vertical Aperture Comp Convergence 0-31 FIX 12 12 0: Correction OFF, 31: Max Correction
Test Bit 0,1 FIX 0 0 Normal Mode
Y Peaking Filter Center Frequency 0-3 FIX 3 3 4.22 MHz
Y Peaking Filter Gain 0-15 FIX 7 6 0: -1 gain, 15: 0.875 gain
Horizontal Dot Supression Level 0-3 FIX 2 2 Medium suppression
Vertical Dot Supression Level 0-3 FIX 2 2 Medium supression
Line Comb C Separation Filter 0,1 FIX 0 0 Narrow bandwidth
C Signal Delay Time at NR 0,1 FIX 0 0 1H Delay
Y-ADC Clamp Test Bit 0,1 FIX 0 0 Normal Mode
DC Detection High Freq Sensativity 0,1 FIX 0 0 Low sensativity, Close to still pictures
DY detection Low Freq Sensativity 0,1 FIX 0 0 Low sensativity, Close to still pictures
Y High Freq Coring 0-3 FIX 1 0 Small Amount of coring (+/- 1LSB)
Y High Freq Coring Gain 0,1 FIX 0 0 Gain = 1
Non Standard Detection Test Bit 0,1 FIX 0 0 Normal Mode
H/V counter Test Bit 0,1 FIX 0 0 Normal Mode
H/V counter Test Bit 0-3 FIX 0 0 Normal Mode
Non Standard Detection Test Bits 0,1 FIX 0 0 Normal Mode
H/V counter Test Bit 0,1 FIX 0 0 Normal Mode
H/V counter Test Bit 0,1 FIX 0 0 Normal Mode
Clock Generator Test Bit 0,1 FIX 1 1 Normal Mode
Clock Generator Test Bit 0,1 FIX 0 0 Normal Mode
Clock Generator Test Bit 0,1 FIX 0 0 Normal Mode
Clock Generator Test Bit 0,1 FIX 0 0 Normal Mode
Horizontal PLL Filter 0,1 FIX 1 1 Quick convergence
Burst PLL Filter 0,1 FIX 1 1 Quick convergence
Burst Extraction Gain 0,1 FIX 0 0 High gain
PLL Loop Gain 0,1 FIX 1 1 High gain, quick convergence
Killer Detection Reference 0-15 FIX 3 3 0: Detection off, 15: High detection sensativity
Horizontal Sync Slice Level 0-15 FIX 12 12 0: 4LSB, 15: 19LSB
Vertical Sync Slice Level 0-15 FIX 8 8 0: HSSL + 0LSB, 15: HSSL + 15LSB
Burst Gate Start Position 0-15 FIX 5 5 0: Hsync center + 2ms, 15: Hsync center +5.75ms
Internal Burst Gate Pulse Width 0-15 FIX 10 10 0: 0.5ms, 15: 4.25ms
ADC Clock Delay 0-3 FIX 3 3 0: 0ns, 3: 20.5ns (typical)
ADC Power Down 0,1 FIX 1 1 Stop ADC when not in use
Non Standard Detection Test Bit 0,1 FIX 0 0 Normal Mode
CNR Section Test Bit 0,1 FIX 0 0 Normal Mode
Controls both DL APACON and SRT 0-127 Fix by Model 52 52 0: Minimum, 127: Maximum
Black Area Detect 0-3 FIX 0 0 0: 10IRE, 1: 20IRE, 2: 30IRE, 3: 40IRE
SRT Start Amplitude 0-3 FIX 3 3 0: 7IRE, 1: 10IRE, 2: 14IRE, 3: 28IRE
Controls YNR ON/OFF 0,1 FIX 1 1 YNR ON
Gamma Correction Start Point 0-3 FIX 3 3 0: 70IRE, 1: 80IRE, 2: 90IRE, 3: OFF
1 bit DAC Output 0,1 FIX 0 0 Open
1 bit DAC Output 0,1 FIX 0 0 Open
FV16 FV26 FX260
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
19
7
8
9
10
11
12
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
Register
Name
GCUR
BLKC
TEST
RS
RTC
VMLO
PIPH
PIPV
POFV
POFH
VACQ
HACQ
PVID
VERB
PSEL
SELD
4SLD
PCOR
AGCR
AGCM
AGCV
CLMD
CLMS
LMOF
PYDL
FRMY
FRSL
FRWH
FRWV
PBSW
CKIL
COLO
PSHU
4PSU
CPLL
SCAD
PCON
4PCN
PBRT
4PBR
IPER
4IPR
IPEG
4IPG
IPEB
4IPB
BLKR
BLKB
PVGA
4PVG
Controls Curve of Gamma Correction 0,1 FIX 0 0 0: -2.4dB, -1.6dB
Gain of DL APACON at 8MHz Peak 0-7 FIX 0 0 0: 0dB, 7: +6dB
TA1226N
PIC IMP
Compensation Ratio of SRT and DL APACON 0-7 FIX 4 4 0: Min, 7: Max
PIP
SDA9588X
PiP Block Selection (PIPBG vs PIPBLK) 0,1 FIX 0
Sub Carrier Freq Fine Adjustment 0-31 FIX 5
SDA9588X
PIP-YC
Peak Level V Output YUV Input 0-255 FIX 69
Description Data Adj/Fix Initial 32" Comments
Range Data
Black Conpensation 0,1 FIX 1 1 OFF
Test Bit 0-3 FIX 3 3 Pin 20 Output: 0=RS, 1=SHR, 2=RTC, 3=TEST3
Gain for Menu VM=LOW 0-2 FIX 1 1 0=off, 1=-6dB, 2=-3dB, 3=0dB
PIP H-position 0-127 FIX 34
PIP V-position 0-63 FIX 22
Position Ofset Vertical 0-15 FIX 4
Position Ofset Horizontal 0-31 FIX 17
PiP V-Acquisition Window 0-15 FIX 8
PiP H-Acquisition Window 0-15 FIX 8
PiP Vsync Delay 0-31 FIX 0
Vertical Blanking 0,1 FIX 0
SELDOWN Bit Control 0,1 FIX 1
Select PYS Delay 0-15 FIX 8
Select PYS Delay YUV Input 0-15 FIX 8
Position Correction 0,1 FIX 1
AGC Gain Control Reset 0,1 FIX 1
AGC Mode 0-3 FIX 0
ADC Value 0-15 FIX 11
Clamp Pulse Duration 0-3 FIX 3
Clamp Pulse Start 0-3 FIX 2
Luminance Offset 0-3 FIX 3
Y/C Delay 0-15 FIX 8
Frame Y Level 0-15 Fix by Model 6
Frame Type Select 0,1 FIX 1
Frame Width Horizontal 0-7 FIX 4
Frame Width Vertical 0-3 FIX 1
Color Killer Threshold 0-3 FIX 0
Color Killer Off 0,1 FIX 0
PiP Sub Hue 0-15 FIX 7
PiP Sub Hue YUV Input 0-15 FIX 7
Chroma PLL Off 0,1 FIX 0
PiP Contrast 0-15 FIX 0
PiP Contrast YUV Input 0-15 FIX 0
PiP Brightness 0-15 FIX 0
PiP Brightness YUV Input 0-15 FIX 0
V Pedestal 0-15 FIX 0
V Pedestal YUV Input 0-15 FIX 4
Y Pedestal 0-15 FIX 0
Y Pedestal YUV Input 0-15 FIX 0
U Pedestal 0-15 FIX 1
U Pedestal YUV Input 0-15 FIX 1
Invert V Pedestal 0,1 FIX 1
Invert U Pedestal 0,1 FIX 0
Peak Level V Output 0-255 FIX 84
FV16 FV26 FX260
34
22
4
17
8
8
0
0
1
8
8
1
1
3
9
3
2
3
2
5
1
4
1
1
0
0
7
7
0
6
0
0
0
0
0
0
0
0
1
1
0
1
84
69
0:Right, 127:Left
0:Up, 63:Down
Vertical PiP Offset from Center
Horizontal PiP Offset from Center
0: -8 lines up, 8: Center, 15: +7 pixels down
0: -16 pixels right, 8: Center, 15: +14 pixels left
Step size 3.56ms< 1 step < 6.4ms
0: DAC Blanking during line blanking interval,
1: DAC Blanking during line AND field intervals
0:Open out, 1:TTL out
0: -8 clock cycles, 8: NO delay, 15: +7 clock cycles
0: -8 clock cycles, 8: NO delay, 15: +7 clock cycles
0: OFF, 1: ON (Position correction during varying parent frequency)
0: Normal, 1: Reset (transition of 0-->1 resets AGC)
0: Sync height & ADC Overflow, 1: sync height,
2: ADC overflow, 3: AGC Fixed
0: Input valtage 0.5Vpp, 15: Input Voltage is 1.5Vpp
0: 0.5ms, 1: 0.9ms, 2: 1.2ms, 3: 1.5ms
0: 1.0ms, 1: 1.5ms, 2: 2.0ms, 3: 2.5ms
0: NO OFFSET, 1: +16LSB, 2: -8LSB, 3: -16LSB
0: -8 pixels, 15: +7 pixels
Adjusts 4 MSB of Frame Y Signal
0: Normal frame, 1: 3D frame
0: No frame, 7: 7 pixels
0: No frame, 3: 3 lines
Blocking Type: 0= PIPBG(gray), 1=PIPBLK(black)
0: -30dB, 1: -18dB, 2: -24dB, 3: color always off
0: Color killer active, 1: Color always on
PiP sub hue
PiP sub hue
0: Chroma PLL active, 1: Chroma PLL free running
0: -150 PPM, 7: default, 31: +310 PPM
0: nominal, 15: +30% increase
0: nominal, 15: +30% increase
0: nominal, 15: +20% increase
0: nominal, 15: +20% increase
0: nominal, 15: +15LSB offset
0: nominal, 15: +15LSB offset
0: nominal, 15: +15LSB offset
0: nominal, 15: +15LSB offset
0: nominal, 15: +15LSB offset
0: nominal, 15: +15LSB offset
0: Offset add during blanking, 1: Offset add during active
0: Offset add during blanking, 1: Offset add during active
0: 0.3Vpp, 192: 1.0Vpp, 255: 1.2Vpp
0: 0.3Vpp, 192: 1.0Vpp, 255: 1.2Vpp
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
ADJUSTMENT ITEMS (cont.)
Register
Name
20
PUGA
21
4PUG
22
PYGA
23
4PYG
24
CHRO
25
SATA
26
20
YPKG
27
4YPK
28
YCOR
29
CLPL
0
RTCO
1
T2CO
2
V2CO
3
4COL
4
T2HU
5
V2HU
6
4SHU
0
XJGL
1
LNJ1
0
DUM1
1
VOSD
0
DISP
1
RAMW
2
ICMP
3
IPOR
4
FAWD
5
TILT
0
VPIC
1
VBRT
2
VCOL
3
VSHP
4
VVM
5
VTRI
6
VGMA
7
VBLK
8
VAPA
9
VSRT
10
VNRM
0
RDOF
1
GDOF
2
BDOF
3
RCOF
4
GCOF
5
BCOF
6
DCOF
CXD2085
M306V5
SDA9588X
PIP-YC
CXA1315
DAC
ID1
CCD
OP
PROGRAM FOR EACH PALETTE MODE
Set Current Program Pallette PICTURE Reset Level 0-63 FIX by Palette 50
Set Current Program Pallette BRIGHTNESS Reset Level 0-63 FIX by Palette 31
Set Current Program Pallette COLOR Reset Level 0-63 FIX by Palette 31
Set Current Program Pallette SHARPNESS Reset Level 0-63 FIX by Palette 31
Set Current Program Pallette VM Reset Level 0-3 FIX by Palette 1
Set Current Program Pallette Color Temp Reset Setting 0-3 FIX by Palette 1
Set Current Program Pallette YC/J GAMMA 0-3 FIX by Palette 2
Set Current Program Pallette Black Stretch 0,1 FIX by Palette 1
PALETTE
PROGRAM
Set Current Program Palette APACON 0,1 FIX by Palette 1
Set Current Program Pallette SRT 0,1 FIX by Palette 0
Set Current Program Pallette NRMD 0,1 FIX by Palette 0
Red Drive offset for WARM 0-63 FIX 0 0 Red Drive MOVIE=RDRV(RDR4)-RDOF
Green Drive offset for WARM 0-63 FIX 4 4 Green Drive MOVIE=GDRV(GDR4)-GDOF
Blue Drive offset for WARM 0-63 FIX 15 15 Blue Drive MOVIE=BDRV(BDR4)-BDOF
Red Cutoff offset for WARM 0-31 FIX 0 0 Red Cutoff MOVIE=RCUT(RCU4)-RCOF
Green Cutoff offset for WARM 0-31 FIX 2 2 GREEN Cutoff MOVIE=GCUT(GCU4-GCOF)
Blue Cutoff offset for WARM 0-31 FIX 7 7 BLUE Cutoff MOVIE=BCUT(BCU4)-BCOF
TEMP OFFSET
WARM COLOR
Dynamic Color setting for WARM 0,1 FIX 0 0 0=OFF, 1=ON
Description Data Adj/Fix Initial 32" Comments
Peak Level U Output 0-255 FIX 52
Range Data
Peak Level U Output YUV Input 0-255 FIX 36
Peak Level Y Output 0-255 Fix by Model 104
Peak Level Y Output YUV Input 0-255 Fix by Model 129
UV Output Polarity 0,1 FIX 0
Color Saturation Adjustment 0-15 FIX 8
Y Peaking Adjustment 0-7 FIX 7
Y Peaking Adjustment YUV Input 0-7 FIX 7
Y Coring Enable 0,1 FIX 1
Clamp Pulse Length 0-3 FIX 0
Rotation Coil 0-63 FIX 31
Sub Color TV Input 0-7 Adj 120
Sub Color Video Input 0-7 Adj 120
Sub Color YUV Input 0-7 Adj 120
Sub Hue TV Input 0-7 Adj 15
Sub Hue Video Input 0-7 Adj 15
Sub Hue YUV Input 0-7 Adj 15
Decoding Result Held For VCR Scanning 0,1 FIX 0
ID-1 Signal Location 0,1 FIX 0
CCD Dummy Register Used to display CC data in Service Mode
VChip OSD Test Register 0,1 FIX 0
OSD Position 0-63 Adj 15
OSD RAM Window 0,1 FIX 0
OSD Non-interlace Threshold 0-15 FIX 4
OSD Non-interlace Even/Odd Display 0-3 Fix 1
Factory AutoWide Mode 0,1 Fix 0
Tilt Correction Spec 0,1 Fix 0
FV16 FV26 FX260
52
36
125
135
0
9
7
7
1
0
31
102
148
145
16
19
16
0
0
0
17
0
4
1
0
2
VIVID STD MOVIE
63 50 38 63
31 31 31 31
38 31 31 38
31 31 31 31
2102
0120
3222
1111
0111
1000
0001
0: 0.3Vpp, 192: 1.0Vpp, 255: 1.2Vpp
0: 0.3Vpp, 192: 1.0Vpp, 255: 1.2Vpp
0: 0.3Vpp, 192: 1.0Vpp, 255: 1.2Vpp
0: 0.3Vpp, 192: 1.0Vpp, 255: 1.2Vpp
0: +U/+V output, 1: -U/-V output
0: No color, 8: nominal saturation, 15: nominal x 1.875
0: No peaking, 7: Strongest Peaking
0: No peaking, 7: Strongest Peaking
0: OFF, 1: ON
0=5ms, 1=3.75ms, 2=2.5ms, 3=1.25ms
Rotation coil adjustment for nominal value
TV Sub Color Adjustment (CXA2039 YUV Models AT DAC)
VIDEO1-3 Sub Color Adjustment (CXA2039 YUV Models at DAC)
YUV Sub Color Adjustment (CXA2039 YUV Models at DAC)
TV Sub HUE Adjustment (CXA2039 YUV Models at DAC)
VIDEO1-3 Sub HUE Adjustment (CXA2039 YUV Models at DAC)
YUV Sub HUE Adjustment (CXA2039 YUV Models at DAC)
Hold data during VCR variable speed playback
Search for ID-1 data +/- one line in VBI
Used to display VChip data in Service Mode
OSD horizontal position
0: 0 fields, 15: 15 fields
0=Even OSD display, 1= Odd OSD display, 2&3=N/A
0= No Autowide in RF mode, 1= Autowide in RF Mode
0= New Tilt Spec for AA2U (less VANG offset), 1= AA2W/AA2H Tilt Spec
SPORTS
0=MIN, 63=MAX
0=MIN, 63=MAX
0=MIN, 63=MAX
0=MIN, 63=MAX
0=OFF, 1=LOW, 2=HIGH, 3=N/A
0=COOL, 1=NEUTRAL, 2=WARM, 3=N/A
0=GAMMA CORRECTION OFF, 3=+12 IRE CORRECTION @ 40 IRE INPUT
0=BLACK STRETCH OFF, 1=BLACK STRETCH ON
0=APACON OFF, 1=APACON ON
0=SRT OFF, 1=SRT ON
0=3D YCS, 1=2D YCS
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
Register
ID-6
Name
0
ID-0
1
ID-1
2
ID-2
3
ID-3
4
ID-4
5
ID-5
6
ID-6
7
ID-7
VALUE = Not Used for AA-2U
VALUE = Fixed Item For AA-2U
4-5. FEATURE ID MAP
21
ID ID7
24
TV
SERVICE 00011000
7
ID
MAP
Description Data Adj/Fix Initial 32" Comments
Range Data
ID-0 (Language/Color Systems) 0-255 Fix by model 89 See ID map
ID-1 (Input/Output Conifguration) 0-255 Fix by model 63 See ID map
ID-2 (Audio) 0-255 Fix by model 239 See ID map
ID-3 (OSD/Timer/V-chip/Ch Fix) 0-255 Fix by model 99 See ID map
ID-4 (CC/Spot Killer/etc) 0-255 Fix by model 139 See ID map
ID-5 (V-series Features/etc) 0-255 Fix by model 181 See ID map
ID-6 (PiP/Ant Sw related) 0-255 Fix by model 6 See ID map
ID-7 (Special Models/etc) 0-255 Fix by model 24 See ID map
FV16 FV26 FX260
refer to NVM ID Chart
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
M306V5ME-1015P VERSION: 1.0__
NVM:G
Note: Check to be sure NVM is good (NVM: G)
Model Destination ID-0 ID-1 ID-2 ID-3 ID-4 ID-5
KV-32FV16 US 89 63 239 99 139 181 6 17
KV-32FV26 US 89 63 239 99 139 181 6 24
KV-32FV26 CND 89 63 239 83 139 181 6 24
KV-34FV16 E 25 63 239 195 187 181 6 81
KV-34FV16C E 25 63 239 195 187 181 6 81
KV-34FX260 E 25 63 239 195 187 181 6 88
KV-34FX260C E 25 63 239 195 187 181 6 88
ID-7
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
W
GND
U
V
)
)
4-6. PROGRAM PALETTE SETTINGS
Vivid Standard Movie Sports
Picture (VPIC) 63 50 38 63
Brightnness (VBRT) 31 31 31 31
Color (VCOL) 38 31 31 38
Sharpness (VSHP) 31 31 31 31
1
VM
1)
C Temp
Gamma (VGMA) 3222
Blk Comp (VBLK) 1111
V Apa Comp (VAPA) 0111
SRT ON/OFF (VSRT) 1000
NRMD (VNRM) 0001
1
Setting of 3 is invalid for these registers
(VVM) 2102
(VTRI) 0 1 2 0
To Program Program Palette RESET Levels
1. Switch to Program Palette to edit.
2. Enter Service Mode.
3. Set desired values for current Program Palette settings.
4. Write into memory by
then .
5. Repeat steps 1-4 for each palette.
Example
To Set RESET Level of Standard Mode to 60%
1. Switch to STANDARD Palette.
2. Enter Service Mode.
3. Change value of VPIC to 38 (38/63 = 60%).
4. Write into memory by then .
5. Enter Video Menu and press
.
6. Reset level of picture for STANDARD PALETTE ONLY is now 38 steps.
4-7. A BOARD ADJUSTMENTS
Sub Bright Adjustment (SBRT)
1. Set to Service Adjustment Mode.
2. Input a gray scale pattern signal.
3. Set the PICTURE to minimum, and BRIGHT to normal.
4. Select SBRT with
5. Adjust SUB BRIGHT level with
and .
and so that the stripe
second from the right is faintly visible.
6. Write into the memory by pressing then .
white
second from the right
black
Sub Hue, Sub Color Adjustment (T2HU, T2CO, V2HU, V2CO, 4SHU, 4COL)
Note: T2HU and T2CO are for Tuner inputs.
V2HU and V2CO are for all other Video inputs. 4SHU and 4COL are for Video 4 input.
1. Input a 75% color-bar signal.
2. Set to Service Adjustment Mode and set: VIDEO mode =
Standard, PICTURE = 100%, COLOR = 50%, HUE = 50%.
3
3. Connect an oscilloscope to Pin
the A Board.
4. Select T2HU and T2CO with and .
5. Adjust with
and for flat ± 50mV.
6. Write into memory by
7. Repeat steps 1-6 for V2HU & V2C0 and 4SHU & 4COL.
of CN351 Blue Out on
then .
Sub Contrast Adjustment (RDRV, RDR4)
1. Input a 75% color-bar signal.
2. Set to: VIDEO mode = Standard, COLOR = Minimum, PICTURE = 100%, GON = 0 (OFF), BON = 0 (OFF).
3. Set to Service Adjustment Mode and connect an oscilloscope to pin
4. Set RDRV with
5. Adjust with
6. Write into memory by
7. Repeat steps 1-6 for RDR4 using Video 4 input.
of CN351 on the A Board.
and .
and for: 1.95 ± 0.05 Vp-p.
then .
White
1.95 ± 0.05 Vp-p
Black
22
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
V . Size Adjustment (VSIZ)
1. Input a cross-hatch signal.
2. Set to Service Adjustment Mode.
3. Select VSIZ with and .
4. Adjust with
5. Write into the memory by pressing
and for the best vertical size.
.
V . Position Adjustment (VPOS)
1. Input a cross-hatch signal.
2. Set to Service Adjustment Mode.
3. Select VPOS with and .
4. Adjust with
5. Write into the memory by pressing
and for the best vertical center.
.
then
then
V Linearity (VLIN), V Correction (VSCO), Pin Amp (PAMP) And Pin Phase (PPHA) Adjustments
1. Input a cross-hatch signal.
2. Set to Service Adjustment Mode.
3. Select VLIN, VSCO, PAMP, and PPHA with
4. Adjust with
5. Write the memory by pressing
and for the best picture.
V LINEARITY(VLIN)
VS CORRECTION (VSCO)
PIN AMP (PAMP)
PIN PHASE (PPHA)
and .
then .
H. Size Adjustment (HSIZ)
1. Input a monoscope signal.
2. Set to Service Adjustment Mode.
3. Select HSIZ with and .
4. Adjust with
5. Write into the memory by pressing
and for the best vertical size.
.
H. Position Adjustment (HPOS)
HPOS Range is from 0~15.
1. Input a monoscope signal.
2. Set the Service Adjustment Mode.
3. Select HPOS with
4. Adjust with
5. Write into the memory by pressing .
and .
and for the best horizontal center.
then
then
V Angle (VANG), V Bow (VBOW), Upper Pin (UPIN) And Low Pin (LPIN) Adjustments
1. Input a monoscope signal.
2. Set to Service Adjustment Mode.
3. Select VANG, VBOW, UPIN, and LPIN with and .
4. Adjust with
5. Write the memory by pressing
and for the best picture.
then .
V ANGLE (VANG)
V BOW (VBOW)
UPPER PIN (UPIN)
23
LOW PIN (LPIN)
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
OSD Position Adjustment (DISP)
1. Input a color-bar signal.
2. Set to Service Adjustment Mode.
3. Select DISP with
4. Adjust with
5. Write the memory by pressing
and .
and for adjustment of characters to center.
then .
TV
Item Data
SERVICE
Display Item
Mode
Item Number
OP 0 16 DISP
Rotation Coil Adjustment
1. Input a monoscope signal.
2. Push the Menu button on the Remote.
3. Select the "Set-up" mode.
4. Select "Tilt Correction". Confirm that number (0) color changes to red.
5. Push (+) on the Remote. Confirm that the number increases up to +5 and the picture rotates clockwise.
6. Push
7. Push (+) on the Remote. Return the value to 0.
(-) on the Remote. Confirm that the number decreases down to -5 and the picture rotates counter­clockwise.
Set-Up
24
5-1. BLOCK DIAGRAM (1/4)
S TERMINAL BLOCK 3P
VIDEO1
PIN JACK BLOCK 3P
VIDEO3
VIDEO4
(3D LINE COMB FILTER)
(AV SW)
J231
J232
J236
DVD
Y
B-Y
R-Y
L
34
12
V
L
R
V
L
R
YC
SECTION 6 DIAGRAMS
Q1201,Q1205,Q1207
BUFFER
Q201,Q204,Q207
BUFFER
Q210
BUFFER
Q202,Q205,Q208
BUFFER
Q211
BUFFER
Q203,Q206,Q209
BUFFER
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
CN262
10
DVD R-Y
11
DVD B-Y
8
5
C1
IC261
AV SWITCH
Q1202
3
6
SW
1
2
4
7
8
10
DVD Y
15
DVD B-Y
DVD R-Y
14
19
V4
Y1
20
L4
21
Y4
SSW1
22
R6
23
C4
SSW4
V1
TV R
TV L
L1
R1
TV V
V OUT3
V2
SCL
L2
SDA
R2
Y3
L3
Q1203
24
64
62 14
63
35
31
32
BUFFER
SW
BUFFER
Q264
DVD Y
Q1206
Q1208Q1204
BUFFER
AMP
Q265
BUFFER
Q262
BUFFER
DVD Y
12
9V
3
5
1
6
4
7
2 9
15
15
1
3
5
8
7
12
13
FRONT-V
FRONT-L
FRONT-Y
FRONT-R
FRONT-C
FRONT-S.SW
CN264
MAIN-C
MAIN-Y
O.MUTE
CH-BLK
9V
13
TV-R
TV-L
FSC
TV-V
SCL
SDA
TO A BOARD
CN270
E
TO A BOARD
CN271
(IR HEADPHONES) (KEY)
IR EMIT
D408-411
Q408
DRVR
Q406
DRVR
Q409
DRVR
IR EMIT
D404-407
Q407
DRVR
6
6
Q401
LCH OSC
L 401
L 402
RCH OSC
Q410
BUFF
Q404
2
BUFF
Q405
2
BUFF
Q402
Q411
BUFF
IC2001
POWER
CN2002
S2006
1
FNC SWS
S2001-S2005
POWER ON
2
3
KEY
TO A BOARD
E
CN1002
(IR DET)
CN2001
1
1
2
DET
2
4
5
STDBY 5V
TIMER LED
ST LED
SIRCS
SIRCS
TO A BOARD
CN1001
ALL EXCEPT
KV-32FV16
KV-34FV16
KV-34FV16C
CN401
9V
R
E
L
Q403
4
3
2
1
IC401
PRE AMP
L OUT
2
R IN
8
L IN
R OUT
9V
REG
D402
7
D403
3
PIN JACK BLOCK 2P
VAR. OR
PIN JACK BLOCK 3P
MONITOR
5V
9V
JACK 3P
SIRCS OUT
S-LINK IN1
JACK 3P
SIRCS OUT
S-LINK IN3
JACK 3P
SIRCS OUT
S-LINK IN4
JACK 3P
SIRCS IN
S-LINK OUT
FIX OUT
IC2005
3.3V
REG
I O
IC2006
5V REG
I O
16
FL2001
FL2002
R3
CN1465
1
IR L
2
E
3
IR R
4
9V
49
Y IN1
53
V OUT1
52
L OUT1
54
R OUT1
58
C OUT1
R OUT2
Y OUT1
56
L OUT2
R OUT1
L OUT1
27
Y5
V6
L6
R6
IC2009
9
SCL
VS IN
BUFFER
10
SDAVP IN
Q2003
23
BUFFER
Q2004
23
BUFFER
Q2014
IC2003
MEMORY
IC1051
D/A
CONVERTER
3
Y MUTE
15
SCL
14
SDA
43
41
54
52
60
59
61
IC2004
3D COMB
59
SCL
60
SDA
ACO
83
AYO
84
88
AYI
CSI
76
ACI
96
12
A1
1
IR
2
MUTE
Q1406
MUTE
FSC0
47
Q2119
CLOCK
BUFF
50
FSC1
2CH BLK
MAIN UP
MAIN HP
DVD SW2
OFF MUTE
Q1405
MUTE
P B-Y
P R-Y
P YS
Q1051
E
9V
PY
CN265
3
E
7
E
10
OFF MUTE
4
IR ON/OFF
2
IR R
1
IR L
9
R
8
L
5
VAR L
6
VAR R
CN263
6712
E
4
9V
5
AMUTE
P B-Y
8
P R-Y
9
10
PYS
11
2 CH BLCK
2
MAIN VP
3
MAIN HP
1
DVD SW2
CN261
1
2-DET
2
3
2-L/R
4
M-IN1
5
M-IN3
6
M-IN4
7
M-OUT
TO A BOARD
PY
E
CN272
CN1464
OFF MUTE
IR ON/OFF
CN1467
3
E
7
E
10
4
2
IR R
1
IR L
9
R
8
L
5
VAR L
6
VAR R
1
2-DET
2
E
3
2-L/R
4
M-IN1
5
M-IN3
6
M-IN4
7
M-OUT
Q451
9V
SW
IC1403
SRS
SDA
5717
SCL
2
R IN R OUT
3
L IN
1
2
7
6
Q1902SWQ1903SWQ1918
IC1402
VAR-AMP
Q106
BUFFER
28
1
L OUT
3
5
SUB TUNER
18
SDA
SCL
5
IN R
28
IN L
AUDIO PROC
21
12 12
TU101
DET OUT
DE-EM
MUTE OUT
AFT OUT
SCL
SDA
SW
IC1401
(AUDIO AMP)
(AUDIO CNTL/SRS)
(2ND TUNER)
(S-LINK)
18
SDA
17
SCL
21
L OUT
R OUT
IC1902
SIRCS I/O
11
V1
10
V3
9
V4
13
TV
OUT
SIRCS
STATUS
Q1464
MUTE
Q1463
MUTE
Q1462
MUTE
Q1461
MUTE
2
4
6
V1-S
7
V3-S
8
V4-S
R OUT
2
R IN
L OUT
4
L IN
IC1461
AUDIO AMP
6
11
MUTE
STBY 5V
Q105
SYNC SEP
IC1901
DAC
7
S-OUT
2
M-IN1
1
M-IN3
9
M-IN4
14
SDA
15
SCL
CN1462
CN1463
AUDIO +B
AUDIO +B
AUDIO -
AUDIO -
NC
NC
CN1468
CN1466
STBY 5V
SP MUTE
2H.SYNC
2-MUTE
2-AFT
S CLK
S DATA
SIRCS
M-BUS POW
SP. BOX (R)
R
E
E
L
SP. BOX (L)
TO G BOARD
CN642
TO GA BOARD
CN6006
TO G BOARD
E
9V
30V
E
CN646
TO GA BOARD
CN6009
TO A BOARD
CN1101
7
1
2
3
12
4
1
2
3
4
5
6
1
6
7
9V
12
30V
3
9
8
11
10
4
5
2
1
R
J233
J234
OUT
Q235
MUTE
L
Q236
R
V
L
R
MUTE
Q233
MUTE
Q234
MUTE
Q231 Q246
MUTE MUTE
BUFFER
Q237
Q238
BUFFER
Q239
BUFFER
Q268
BUFFER
Q263
BUFFER
3.3V
ALL EXCEPT
5V
Q2010
J903
BUFFER
BUFFER
Q2019
BUFFER
KV-34FV16
KV-34FV16CKV-32FV16
Q2017
Q2001
BUFFER
Q2007
BUFFER
AMPBUFFER
Q2008
AMP
BUFFER
FL2004
ID1 DECODER
6
7
Q2006Q2009
Q2005
Q2018
32
BUFFER
J904
J905
Q2015
Q2016
2 3
J902
BUFFER
FL2003
Q2011Q2013
BUFFER
BUFFERBUFFER
Q2012
BUFFER
AA2U-894-BD
— 26 —— 25 —
KV-32FV16/32FV26/34FV16/34FV16C/34FX260/34FX260C
1
2
3
4
5
6
7
8
9
10
11
1
2
3
4
5
6
8
9
10
11
1
2
3
4
5
6
7
8
9
10
11
1
2
3
4
5
6
8
9
10
11
1
2
3
4
5
6
7
8
T6002
T6003
TH6002
TH6000
TH6001
RY6000
RY6002
F6001
RY6001
T605
T621
RY601
T603
R607
RY600
F601
PIT
SBT
PIT
SBT
PRT
CN1641
CN1463
BOARD
FROM A
AC IN
CN641
CN642
(POWER SUPPLY)
FROM AK
BOARD
CN1641
CN1463
BOARD
FROM A
BOARD
FROM AK
CN6006
CN6007
AC WHT
AC
DRIVER
Q6009
AA2U-894-BD
+B
+B
9V
GND
N.C.
GND
9V
12V
GND
STBY 5V
PWRON
DGC
AUDIO +B
AUDIO +B
AUDIO -
AUDIO -
N.C.
N.C.
AU +B
AU +B
AU - E
AU - E
N.C.
N.C.
+B
+B
9V
GND
N.C.
GND
9V
12V
GND
STBY 5V
PWRON
DGC
9V REG
IC6005
+B RECT
D6020
12V REG
IC6004
AUDIO RECT
D6025
IC6003
PWR CNTL
POWER ON
Q6005
MAIN-SW
PH6001
FEEDBACK
FEEDBACK
PH6002
LATCH
Q6008
Q6010
5V REG
IC6007
Q6011
MCM SW
MAIN-SW
Q6004
REF V
IC6000
VCC-SW
Q6003
CONVERTER
Q6006
DRIVER
Q6000
NC
DGC
DGC
NC
DGC
DGC
IC6001
COMPRTR
AC RECT
D6008
Q6002
IC6002
CONVRTR
FULLRECT
Q6002
FULLRECT
T6000&T6001
Q6001
DBL-RECT
AC IN
DGC
DGC
(POWER SUPPLY)
+B
+B
9V
GND
N.C.
GND
9V
12V
GND
STBY 5V
PWRON
DGC
+B
+B
9V
GND
N.C.
GND
9V
12V
GND
STBY 5V
PWRON
DGC
AUDIO +B
AUDIO +B
AUDIO -
AUDIO -
N.C.
N.C.
AU +B
AU +B
AU - E
AU - E
NC
+B RECT
D643
AUDIO RECT
D641
12V REG
IC650
Q649,Q650
CNTL
9V REG
IC641
IC643
PWR CNTL
POWER ON
SOFT START
Q645,Q647
Q648
LATCH
FOLD BACK
Q652,Q653
Q624
5V REG
IC622
PROT
Q622
CONVERTER
Q621
DRIVER
Q644
DGC RELAY
FROM CN641
NC
DGC
DGC
AC RECT
D602
REG
IC601
T601&T602
NC
DGC
DGC
AC WHITE
AC
DRIVER
Q648
FROM CN641
PWR ON
DGC
DGC
KV-32FV16
KV-32FV26
ONLY
ALL EXCEPT
KV-32FV16
KV-32FV26
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
5
6
CN602
3
2
1
1
2
I
O
I
O
I
O
1
2
3
4
5
6
1
2
3
4
5
6
7
8
9
10
11
12
3
2
1
CN601
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
I
O
I
O
O I
3
2
1
CN6001
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
CN6003
1
2
5
6
5
6
3
2
1
CN6000
CN603
NC

BLOCK DIAGRAM (2/4)

— 28 —— 27 —
Loading...
+ 60 hidden pages