MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO.
KP-51WS500
KP-57WS500
KP-65WS500
RM-Y909 US/CND SCC-P65HA
RM-Y909 US/CND SCC-P65JA
RM-Y909 US/CND SCC-P65KA
RA-6
CHASSIS
ORIGINAL MANUAL ISSUE DATE: 7/2002
ALL REVISIONS AND UPDATES TO THE ORIGINAL MANUAL ARE APPENDED TO THE END OF THE PDF FILE.
REVISION DATE REVISION TYPE SUBJECT
7/2002 No revisions or updates are applicable at this time.
8/2002 Supplement-1 New CRT’s introduced for KP-57WS500 ONLY after S/N’s 9200001 (P. 88)
Correction to Service Data List for KP-65WS500 to improve greenish cutoff in
MOVIE mode and VIVID mode. (P22)
Correction to Exploded View Cover (KP-51WS500/57WS500 ONLY) parts lists
to indicate correct location and new part numbers for Screen Holders. (P. 85)
10/2002 Correction-1 HV Hold Down Circuit Operation Check and Adjustment Table Corrected
(C8188 should be C8118)
Added Locator Lists to D and A PWB’s
1/2003 Supplement-2 New CRT’s introduced. Affects S/N’s 9,700,001 and up.
7. Electrical Parts List ........................................................................ 89
— 3 —
SPECIFICATIONS
KP-51WS500/57WS500/65WS500
Power Requirements
Power Consumption (W)
In Use (Max)In Standby
Inputs/Outputs
120V AC, 60Hz
230W
Under 1 W
DVI-HDTV
1 terminal, 3.3V T.M.D.S., 50 ohms
The DVI-HDTV input terminal is compliant with the EIA-861
standard and is not intended for use with personal computers.
Video (IN)
4 total (1 on front panel)
1Vp-p, 75ohms unbalanced, sync negative
S Video (IN)
3 total (1 on front panel)
Y: 1Vp-p, 75ohms unbalanced, sync negative
C: 0.286Vp-p (Burst signal), 75ohms
Audio (IN)
6 total (1 on front panel)
500 mVrms (100% modulation)
Impedance:47 kilo ohms
Audio (VAR/RIX)
1 total
500 mVrms at the maximum volume setting (Variable)
500 mVrms (Fixed)
Impedance (Output):1 kilo ohm
TV Out
1 total
Video: 1 Vp-p 75 ohms unbalanced, Sync negative
Audio: 500 m Vrms (100% modulation)
Impedance (output): 1 kilo ohms
A/V Cable (VMC-810/820/830 HG)
Audio Cable (RKC-515HG)
Component Video Cable (VMC-10/30 HG)
Control S Cable (RK-G69HG)
AV Receiver (STR-V555ES or equivalent)
Channel Coverage
VHF: 2-13/ VHF: 14-69/ CATV: 1-125
Design and specifi cations are subject to change without notice.
— 4 —
KP-51WS500/57WS500/65WS500
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.
— 5 —
SAFETY CHECK-OUT
e
KP-51WS500/57WS500/65WS500
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 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
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
.15 µF
kΩ
1.5
Earth Ground
AC Outlet Box
AC V oltmeter
(0.75 V)
Figure A. Using an AC voltmeter to check AC leakage.Figure B. Checking for earth ground.
— 6 —
Cold-water Pip
KP-51WS500/57WS500/65WS500
SELF-DIAGNOSTIC FUNCTION
Self Diagnosis
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. If the screen displays a “0”, no error has occurred.
No. of times
Diagnostic Item
Power does not turn onDoes not light
+B overcurrent (OCP)*2 times
+B overvoltage (OVP)3 times
Vertical deflection stopped4 times
White Balance Failure
(Not Balanced)
Low B OCP/OVP
(Overcurrent/Overvoltage) ***
Horizontal deflection stopped7 times
High-voltage error8 times
Audio error9 times
STAND BY /
TIMER
lamp flashes
5times
6times
Probable Cause LocationDetected Symptoms
• Power cord is not plugged in.
• Fuse is burned out (F6001). (G Board)
• H.OUT (Q8024) is shorted. (D Board)
• +B PWM (Q8035, Q8038) is shorted.
(D Board)
• IC501 is faulty. (G Board)
• IC5002 is faulty. (G Board)
±15V is not supplied. (D Board)
•
• IC8003 is faulty. (A Board)
• Video OUT (IC7101, IC7201, IC7301)
is faulty. (CR, CG, CB Boards)
• CRT drive (IC309) is faulty. (A Board)
• Screen (G2) is improperly adjusted. **
• +5 line is overloaded. (A, B Boards)
• +5 line is shorted. (A, B Boards)
• Q8035, Q8038 is shorted. (D Board)
• T8005 is faulty. (D Board)
•±19V line is shorted. (A, B Boards)
• 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 shorted.
• Has entered standby mode.
• 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.
• No picture
• No sound
• IC708 is faulty. (A Board)
• PS701 or PS702 is opened.
(A Board)
*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 2-2 of this manual
***If TIMER or STAND BY indicator blinks six (6) times, unplug the unit and wait 10 minutes before performing the adjustment.
— 7 —
KP-51WS500/57WS500/65WS500
Display of Standby/Timer LED Flash Count
* One blink is not used for self-diagnosis.
< FRONT PANEL >
• EXAMPLE
<Diagnosis Items> <Number of Blinks>
• +B overcurrent 2 times
• +B overvoltage3 times
• Vertical deflection stop4 times
Lamp ON : 0.3 seconds
Lamp OFF : 0.3 seconds
TIMER/STAND BY indicator
Release of TIMER STAND BY indicator blinking
The TIMER/STANDBY indicator blinking display is released by turning OFF the power switch on the TV main unit or removing the plug from the
power.
Lamp OFF :
3.0 seconds
Self-Diagnosis Screen Displays
In cases of malfunctions where it is not possible to determine the symptom such as when the power goes off occasionally or when the screen
disappears occasionally, there is a screen display on whether the malfunction occurred or not in the past (and whether the detection circuit operated
or not) in order to allow confi rmation.
Screen Display Method
Quickly press the remote command button in the following order from the standby state.
Display
Channel
Sound Volume*
5
*Note that this differs from entering the service mode (sound volume
Numeral "1" means a fault was detected
one time or more
_
Power ON
)
+
Self-Diagnosis Screen Display
The results display is not automatically cleared. In case of repairs and after repairs, check the self-diagnosis screen and be sure to return the
results display to “ 0 ”.
If the results display is not returned to “ 0 ” it will not be possible to judge a new malfunction after completing repairs.
Method of Clearing Results Display
1. Power off (Set to the standby mode.)
2.
Display
3. Channel
8
Channel
ENTER
Sound Volume
5
(Test reset = Factory preset condition)
+
Power ON (Service Mode)
Method of Ending Self Diagnosis Screen
When ending the self-diagnosis screen completely, turn the power switch OFF on the remote commander or the main unit.
— 8 —
Self-Diagnosis Function Operation
Q8001
Q378
Q378
OCP Low B and +B line detect DET SHORT, and shut-down POWER ON RELAY.
Reset by turning power on/off. In case of +B is loaded approx. 1.5A or more, microcomputer detects it via
IC5005.
KP-51WS500/57WS500/65WS500
OVP In case of +B becomes approx. 150V or more, POWER ON RELAY shuts down and microcomputer detects it via
Reset by turning power on/off just the same as OCP.
Low B Occurs when set +5V is out
V Stop In the case of the V Drive disappearing,
causes the LED to blink.
AKB IK detection. Makes LED blink when microcomputer doesn’t detect IK, returns of
H Stop In case H DRIVE disappears,
Microcomputer receives H Stop data from
HV Stop In case HV becomes 33kV or more,
The microcomputer makes the LED blink.
Audio In case of DC component overlaps the output of Audio Amp., the microcomputer detects it and shuts-down POWER ON RELAY.
The microcomputer makes the LED blink.
Self-Diagnosis Block Diagram
Q378 detects it and shuts-down POWER ON RELAY.
49
Q8001 detects it and shuts-down the POWER ON RELAY. The microcomputer detects it and
(The extension cable is not
supplied because of the
countermeasure for radiation.)
2
Covers
Remove covers from chassis assembly
with pliers when checking printed circuit boards.
After checking, turn the covers over
and re-secure them with the screws.
1-12. TERMINAL BOARD, A BOARD, D BOARD, U BOARD, AND UD BOARD REMOVAL
3
Two screws
(+BVTP 3x12)
5
6
Six screws
(+BVTP 3x12)
8
D board
Main bracket
6
Screws
(+BVTP 3x12)
7
A board
U board
Claws
5
1
(+BVTP 4x20 dome washer)
4
UD board
Five screws
1
(+BVTP 3x12)
Two screws
2
Terminal board
— 13 —
1-13. PICTURE TUBE REMOVAL
CAUTION Removing the arrow-marked
screws is strictly prohibited.
If removed, it may cause liquid spill.
Lens
Picture tube
2
Four screws,
dome washer
HEX tap 4x20
3
4
dome washer HEX tap 4x20
5
11
(+BVTP 4x12)
12
10
7
Neck assy
6
Four screws,
Lens
Four screws
Picture tube
Deflection yoke
9
V board
Two screws
8
(+BVTP 3x12)
CR board
KP-51WS500/57WS500/65WS500
1
Four screws,
dome washer HEX tap 4x20
1-14. HIGH-VOLTAGE CABLE INSTALLATION AND REMOVAL
(1) Removal
1
Rubber cap
2
HV cable
turn 90°
(2) Installation
1
HV cable
Hook
— 14 —
Gutter
SECTION 2: SET-UP ADJUSTMENTS
KP-51WS500/57WS500/65WS500
2-1. SCREEN VOLTAGE ADJUSTMENT
(COARSE ADJUSTMENT)
1. Receive the Monoscope signal..
2. Set BRIGHTNESS to 50% and PICTURE to minimum.
3. Turn the red VR on the focus block all the way to the left and then
gradually turn it to the right until the retrace line is barely visible.
4. Gradually turn the control to the left until the retrace line disappears.
RGB
SCREEN
RGB
FOCUS
FOCUS Block
2-2. SCREEN (G2) ADJUSTMENT
(FINE ADJUSTMENT)
If the jig described below is available, it is recommended that the G2
Fine Mode Adjustment be performed to set the screen controls to their
optimal condition. If desired, you can build the jig illustrated below,
using 3-watt resistors. Please note that if the proper voltage is not
obtained with the listed resistor’s values, then increase or decrease one
of the values in the resistor network to obtain the correct voltage.
2-3. DEFLECTION YOKE TILT ADJUSTMENT
1. Connect the color bar generator monoscope pattern to Video 1 input.
2. Cover the red and blue CRT lenses with lens caps to allow only green
to show (or use the method shown in the note below for turning off the
CRTs individually without using lens caps).
3. Loosen the CRT’s deß ection yoke set screw and align the tilt of
the deß ection yoke so that the horizontal bars at the center of the
monoscope pattern are horizontal.
4. After aligning the deß ection yoke fasten it securely to the
funnel-shaped portion (neck) of the CRT.
The tilt of the deß ection yoke is aligned in the mode.
5. Cover the green and blue CRT lenses with lens caps to allow only
green to show (or use the method shown in the note below for turning
off the CRTs individually without using lens caps), then repeat steps
3 and 4 for the red CRT.
Cover the green and red CRT lenses with lens caps to allow only
green to show (or use the method shown in the note below for turning
off the CRTs individually without using lens caps), then repeat steps
3 and 4 for the blue CRT.
Note: If lens caps are unavailable, you can cut off the unnecessary color
beams by controlling the service mode 2150P-2 1 RGBS.
4-pole magnet
2-pole magnet
Deflection yoke
1. Select VIDEO-1 mode no signal applied (the screen must be black).
2. Connect the G2 JIG.
3. SW on JIG.
4. Connect an oscilloscope to the TP7101(KR), TP7202(KG) and
TP7301(KB) of CR board, CG board, and CB board.
5. Adjust red, green, and blue screen voltage to 177.5+/-0.5V with screen
VR on the focus block.
K
G2 JIG
TO CG BOARD
TP7202
(210V)
GND
3.3k3.9k 5.6k 6.8k
177.5V +/- 0.5V
SW
GND
All resistors are 3W type
pedestal level
Centering magnet
Anode cap
— 15 —
KP-51WS500/57WS500/65WS500
2-4. FOCUS LENS ADJUSTMENT
In this adjustment, use the remote commander while in service mode.
For details on the usage of the service mode and the remote
commander, please refer to section
2-10. ELECTRICAL ADJUSTMENTS BY REMOTE COMMANDER.
1. Loosen the lens screw.
2. Cover the red and blue CRT lenses with lens caps to allow only green
to show (or use the method shown in the note below for turning off the
CRTs individually without using lens caps).
3. Turn the green lens to adjust to the optimum focus point with the
crosshatch signal.
4. Tighten the lens screw.
5. Cover the green and blue CRT lenses with the lens caps to allow only
red to show (or use the method shown in the note below for turning off
the CRTs individually without using lens caps).
6. Turn the red lens to adjust to the optimum focus point with the
crosshatch signal.
7. Tighten the lens screw.
8. Cover the green and red CRT lenses with the lens caps to allow only
blue to show (or use the method shown in the note below for turning
off the CRTs individually without using lens caps).
9. Turn the blue lens to adjust to the optimum focus point with the
crosshatch signal.
10. Tighten the lens screw.
11. After adjusting the items:
2-5. FOCUS VR ADJUSTMENT,
2-6. 2-POLE MAGNET ADJUSTMENT,
2-8. 4-POLE MAGNET ADJUSTMENT,
reconÞ rm the optimum focus point and adjust again if necessary.
2-5. FOCUS VR ADJUSTMENT
1. Set generator to crosshatch.
2. Cover the red and blue CRT lenses with lens caps to allow only green
to show (or use the method shown in the note below for turning off the
CRTs individually without using lens caps).
3. Turn the green focus VR on the focus block to adjust to the optimum
focus point with the crosshatch signal.
4. Cover the green and blue picture lenses with lens caps to allow only
red to show (or use the method shown in the note below for turning off
the CRTs individually without using lens caps).
5. Turn the red focus VR on the focus block to adjust to the optimum
focus point with the crosshatch signal.
6. Cover the green and red picture lenses with lens caps to allow only
blue to show (or use the method shown in the note below for turning
off the CRTs individually without using lens caps).
7. Turn the blue focus VR on the focus block to adjust to the optimum
focus point with the crosshatch signal.
8. After adjusting the items:
2-4. FOCUS LENS ADJUSTMENT,
2-6. 2-POLE MAGNET ADJUSTMENT,
2-8. 4-POLE MAGNET ADJUSTMENT,
reconÞ rm the optimum focus point and adjust again if necessary.
Note: If lens caps are unavailable, you can cut off the unnecessary color
beams by controlling the service mode 2150P-2 1 RGBS.
Scanning line visible.
* Every time 6 is pressed, the test signal changes to:
“crosshatch+video signal” → “crosshatch+borderline(black)” →
”crosshatch(black)” → “dots(black)” → off
Test Signal
Note: If lens caps are unavailable, you can cut off the unnecessary color
beams by controlling the service mode 2150P-2 1 RGBS.
Lens
A
Minimize both A and B.
B
Center of crosshatch
— 16 —
KP-51WS500/57WS500/65WS500
2-6. 2-POLE MAGNET AND CENTERING
MAGNET ADJUSTMENT
1. Set the picture mode to PRO and picture to MAX.
2. Either select the PJED Test Pattern dot hatch signal or apply an
external dot signal.
3. Cover the red and blue CRT lenses with lens caps to allow only green
to show (or use the method shown in the note below for turning off the
CRTs individually without using lens caps).
4. Turn the focus VR on the focus block to the left (counter clockwise)
and set it to overfocus to enlarge the spot.
5. Adjust the CRT’s 2-pole magnet so that the small bright spot is in
the center.
6. Align the focus VR on the focus block and set it for the best focus.
7. Apply a Monoscope signal to the set.
8. Adjust the H-CENTERING and V-CENTERING roughly by the
centering magnets.
9. Check 2-pole magnet adjustment. If necessary repeat steps 1-6.
10. Repeat steps 1 through 9 for the red CRT covering the
green and blue CRT lenses with lens caps to allow only
red to show (or use the method shown in the note below
for turning off the CRTs individually without using lens caps) and
adjust the red focus control on the focus block.
11. Repeat steps 1 through 9 for the blue CRT covering the
red and green CRT lenses with lens caps to allow only
blue to show (or use the method shown in the note below
for turning off the CRTs individually without using lens caps) and
adjust the blue focus control on the focus block.
Note: If lens caps are unavailable, you can cut off the unnecessary color
beams by controlling the service mode 2150P-2 1 RGBS.
2-8. 4-POLE MAGNET ADJUSTMENT
1. Set the picture mode to PRO and picture to MAX.
2. Receive the Dot signal.
3. Cover the red and blue CRT lenses with lens caps to allow only green
to show (or use the method shown in the note below for turning off the
CRTs individually without using lens caps).
4. Turn the (green) focus VR on the focus block to the right (clockwise)
and set it to under-focus to reduce the spot.
5. Adjust the 4-pole magnet so that the small spot in the center of the
screen becomes round for green and red.
6. Adjust the blue spot to an oval shape X:Y=1:1.2
Note: If lens caps are unavailable, you can cut off the unnecessary color
beams by controlling the service mode 2150P-2 1 RGBS.
Use the center dot
x
y
x : y = 1:1 (Green, Red)
2-9. BLUE DEFOCUS ADJUSTMENT
1. Setup: Apply a Dot Hatch Signal and set the mode to Pro Mode.
Change the color temperature to Cool in the user’s menu.
2. Cover the red and green CRT lenses with lens caps to allow only blue
to show (or use the method shown in the note below for turning off the
CRTs individually without using lens caps).
4. Turn the blue focus VR on the focus block to the right (clockwise) to
make the round dot oval.
D2
2-7. CENTERING MAGNET ADJUSTMENT
Not required - Combined with 2-6 2-Pole And Centering Magnet
Adjustment.
D1
Blue
D1:D2 = 1:1.2
5. Check the ß are with a high luminance signal to make sure the ß are is
minimal while the bright spot is located in the center, If not, readjust
the 2 and 4-pole magnets.
6. Check for uniformity on a 100% IRE to an all white signal.
Note: If lens caps are unavailable, you can cut off the unnecessary color
beams by controlling the service mode 2150P-2 1 RGBS.
— 17 —
KP-51WS500/57WS500/65WS500
2-10. ELECTRICAL ADJUSTMENTS BY
REMOTE COMMANDER
All of the circuit adjustments can be made by using the remote
commander (RM-Y909).
NOTE : The following test equipment is required:
1. Pattern Generator (with component outputs)
2. Frequency counter
3. Digital multimeter
4. Audio oscillator
2-10-1.METHOD OF ENTERING THE SERVICE
ADJUSTMENT MODE
SERVICE MODE PROCEDURE
1. TV must be in Standby mode. (Power off)
2. Press “DISPLAY”, “5”, “VOL +”, then “POWER” on the remote
commander.
(Press each button within 1 second of pressing the previous button.)
SERVICE MODE ADJUSTMENT
Data
SERVICE
TV
Category
Adjustment Item
3D-COMB
NRMD
Item NO.
0 0
WSL : XXX
7. If you want to go back to the most recently saved value, press “0”
then “ENTER” to read the memory.
8. Press “MUTING” then “ENTER” to write the new adjustment data into
memory.
9. When you want to exit the service mode, turn the power off.
Note: Press “8” then “ENTER” on the remote commander to restore the
factory settings for user controls and channel memories (this will also
turn set off and then on to exit the service mode).
2-10-2.MEMORY WRITE CONFIRMATION
METHOD
1. After adjustment, turn the power off with the remote commander.
2. Turn the power ON and set to service mode.
3. Cycle through the adjusted items again and confi rm that the
adjustments were saved.
2-10-3.ADJUSTING BUTTONS AND
INDICATOR
Note: When the PJE mode (which displays an internally generated
signal) is activated, several buttons on the remote commander will have
different functions than the ones listed below. Therefore, when in the PJE
mode, refer to section 2-12-3 for button functions.
F / A FLAG : XXXXXXXX
CBA FLAG : XXXXXXXX
3. The screen displays the item being adjusted within that category.
4. Press 1 or 4 on the remote commander to select the adjustment item.
5. Press 3 or 6 on the remote commander to change the data.
6. Press 2 or 5 on the remote commander to select the adjustment
category.
Every time you press 2 (Category up), service mode changes in the
order shown below:
3D-COMB
2103-1
2103-2
2150P-1
2150P-2
2150P-3
2150P-4
2150D-1
2150D-2
2150D-3
2151
AP
TRUS
DLBY
MID1
MID2
MID3
MID5
OSD
SNNR
ID-1
CCD
PJE
OP
ID
MUTING
Category up
Adjustment
item up
Adjustment
item down
Category
down
VOLUME +
POWER
DISPLAY
Data Up
Data Down
ENTER
RM-Y909
— 18 —
SERVICE DATA LISTS 2-11
e
yby
g
y
t
y
g
g
g
l
f
w
7
11. APPENDIX
3D-COMB uPD64082
Reg.No &Nam
0 NRMD
1 YAPS
2 CLKS
3 NSDS
4 MSS
5 KILS
6 CDL
7 DYCO
8 DYGA
9 DCCO
10 DCGA
11
YNRL
12
CNRL
13 VTRH
14 VTRR
15 LDSR
16
VAPG
17 VAPI
18 YPET
19 YPFG
20
YHCO
21 YHCGdirectl
22
HSSL
23 VSSL
24 ADCL
25 D2GA
26 KILR
Operation mode settin
Y-output correction
System clock setting
Selection for standard/non-standard signal processin
Selection for inter-frame/inter-line processin
Killer processing selection
C-signal phase with respect to the Y-signa
DY detection coring level
DY detection gain
DC detection coring level
DC detection gain
Frame recursive YNR nonlinear filter limit level
Frame recursive CNR nonlinear filter limit level
Hysteresis for Hsysnc non-standard signal detection
Sensitivity for Hsysnc non-standard signal detection
Sensitivity for frame non-standard signal detection
V-aperture compensation gain
V-aperture compensation convergence poin
Y peaking filter center frequenc
Y peaking filter gain
Y output high frequency component corin
Y output high frequency component coring gain
Hsync slice level
Vsync slice level
ADC clock dela
Moving detection gain
Killer detection reference
FUNCTION
RF/Video1-4
0
3
1
RF/Video1-4Svideo
StandardStandardNon-standard
0
0
1
RF
3
NRMD=0NRMD=1
2
10
5
5
1(
1
1
1
2
VM=of
0
0
3
8
SNNR=0
0
1
12
8
3
NRMD=0NRMD=1
4
3
1
Non-standard
0
Video1-4
3
2
10
5
5
Video1-4RF
1
1
2
VM=Lo
0
0
SNNR=0
0
0
SNNR=1
1
1
4
Video5,6,
Svideo
33
NRMD=2
2
10
5
5
1
1
2
VM=MidVM=High
0
0
SNNR=1
0
1
SNNR=2
1
1
NRMD=2
4
Non-standardStandardNon-standardStandard
00
NRMD=3
2
10
5
5
0
0
SNNR=2
0
2
SNNR=3
1
1
NRMD=3
4
SNNR=3
Note: YHCO & YHCG are defined
KP-51WS500/57WS500/65WS500
0
3
SNNR data.
— 19 —
SERVICE DATA LISTS
g
e
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V
V
Y
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6
7
7
t
t
3D-COMB uPD64082
.No &Nam
Re
27
OP
28
NR1
29
NR2
30 WSL
31 HPLL
32 BPLL
33 FSCF
34
PLLF
35 CC3N
36 HDP
37
BGPS
38 BGPW
39 TEST
40 WSC
41 LIND
42 PFGO
Option:Selection of comb filter&recursive n.reduction types
Noise reduction on/off0
SNNR control on/of
Noise level detection level data
H-PLL filte
Burst PLL filte
Burst extraction gain
PLL loop gain
Selection if a line-comb filter C separation filter characteristic
Fine adjustment of the system H-phase
Internal burst gate start position
Test bit * forbidden settin
Amount of noise detection corin
DRC-M line-doubling setting for non-standard signal
FUNCTION
* Not used
RF
RF
10
RF
KP-51WS500/57WS500/65WS500
1
0
0
1
1
0
1
0
5
4
0
1
0
3
CVideo1SVideo1
0
Read data
Video1-4
0
Video1-4
0
1
Video5,6,
0
Video5,6,
2
CVideo2SVideo2
CVideo3
0
SVideo3
10
CVideo4
01
#16 VAPG
NTSC-YCT CXA2103-1
Re
.No &Nam
0
YLE
1 CLE
2 SCON
3 SCOL
4
SHUE
5 YDL
6 SHAP
7 SHF0
8
PREO
9 BPF0
10 BPFO
11 BPSW
12
TRAP
13
LPF
14
AFCG
15
CDMD
16 SSMD
17
HMSK
18
HALI
19
PPHA
Y-Out gain
Cb&Cr-Out gain
Sub contras
Sub colo
Sub hu
Y/C delay tim
Sharpness
Sharpness f0 selector
Sharpness pre/over-shoot ratio
Chroma band filter f0 settin
Chroma band filter O setting
Chroma band filter on/of
Y block chroma trap filter on/of
Y Cb Cr-Output LPF on/of
AFC Loop gain
V countdown system mode selecto
H&Vsync slide level settin
Masking of macrovision signal on/of
H automatic adjustment on/of
H TIM phase adjustment vide
FUNCTION
SNNR=0
0
RF/Video1-4
P&P Lef
-DRC
34
27
RF
0
RF
5
3
3
3
0
1
0
1
RF
1
3
0
1
00
7
Video5,6-480i Video7-480i
P&P Lef
-DRC
40
46
Video1-4
0
Video1-4
4
3
0
0
3
0
0
1
Video1-4
0
3
0
1
SNNR=1
0
P&P Lef
-DRC
40
46
Svideo
4
3
0
0
3
0
0
1
Video5,
0
3
0
1
0
7
SNNR=2
00
Video 5,6-480i
4
3
0
0
3
0
0
1
Video7
0
3
0
0
0
77
SNNR=3
Video7-480i
0
SNNR=1SNNR=0
0
3
0
3
0
0
1
SNNR=2
281
SNNR=3
3
— 20 —
SERVICE DATA LISTS
7
7
7
7
t
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V
Y
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t
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NTSC-YCT CXA2103-1
20 CBOFNote: CBOF adjustment does not affect Video
21
CROF
22 CBO2Note: CB02 adjustment onlyaffects Video
23
Sharpness
Sharpness f0 selector
Sharpness pre/over-shoot ratio
Chroma band filter f0 settin
Chroma band filter O setting
Chroma band filter on/of
Y block chroma trap filter on/of
Y Cb Cr-Output LPF on/of
AFC Loop gain
V countdown system mode selecto
H&Vsync slide level settin
Masking of macrovision signal on/of
H automatic adjustment on/of
H TIM phase adjustment vide
Cb Offset Adjustmen
Cr Offset Adjustmen
Auto-pedestal Inflection Point P&P & Favorit
DC Transmission Ratio P&P & Favorit
0
RF/Video1-4
P&P Lef
-DRC
0
0
UBLK-0
0
Single Pictur
0
0
Video5,6-480i
P&P Lef
-DRC
0
0
P&P & Favorit
0
0
RF/Video1-4
P&P Righ
34
27
RF
0
RFCvideo
4
3
0
0
0
0
00
RF
1
3
0
1
0
7
RF/Video1-4
P&P Righ
UBLK-0
0
0
Video7-480i
P&P Lef
-DRC
34
32
2
1
Video5,6,7-480
P&P Righ
, DRC
38
31
Video1-4
0
3
0
00
0
0
Video1-4
0
3
0
1
0
7
Video5,6,7-480
P&P Righ
, DRC
P&P & Favorit
UBLK-1
0
0
Note: CROF adjustment does not affect Video
Note: CR02 adjustment onlyaffects Video
UBLK-3UBLK-4UBLK-1UBLK-2UBLK-5UBLK-6
0
0
Note: Data in the ri
Note: Sub si
Svideo
4
3
0
0
0
00
0
0
Note: Re
Note: Reg.No 22 and 23 are the same data as CXA2103-1.
.No 14 to 19 are the same data as CXA2103-1.
UBLK-2
2
1
02
0
ht column is used when main signal is NOT 480i
nalgoes through DRC, when main signal is 480p, 1080i, or 720p
SNNR=0
0
UBLK-3
0
2
SNNR=1
13
0
0
P&P & Favorit
SNNR=2
UBLK-5UBLK-4
KP-51WS500/57WS500/65WS500
2
24
P&P & Favorit
2
2
UBLK-7
23
3
SNNR=3
3
2
UBLK-7UBLK-6
2
30
— 21 —
SERVICE DATA LISTS
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)
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)
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p
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)
.No &Nam
Re
0
SBOT
1 YOF
2 CBOF
3
CROF
4
SBRT
5 RDRV
6 GDRV
7 BDRV
8
RCUT
9 GCUT
10 BCUT
11
WBSW WB_S
12
SBOF
13 RDOF Offset for RDR
14 GDOF Offset for GDR
15 BDOF Offset for BDR
16 RCOF Offset for RCU
17 GCOF Offset for GCU
18
BCOF
CRT Driver CXA2150P-2 settings for Vivid mod
Reg.No &Nam
0
ALB
1
RGBS
2 BLKB
3 LIML
4 PABL
5 SABL
6 AGNG
7 AKBO
8 SYPH
9 CLPH
10
CLGA
11 JAXS
12 BLKO
FUNCTION
Offset for SBR
DC-offset for
DC-offset for Cb
DC-offset for C
Sub Brigh
R output driv
G output driv
B output driv
R output cutof
G output cutof
B output cutof
Offset for SBR
Offset for BCU
FUNCTION
PIC_ON:RGB output including AKB reference pulse on/of
R_ON/G_ON/B_ON : R/G/B outputs on/of
BLK_BTM:RGB output bottom limit level
PLIMIT_LEV:Threshold level for excessively high input
P_ABL:DC-level in RGB output detection for PEAK AB
S_ABL:S ABL gain
AGING_W/AGING_B:AGING_W/AGING_B modes on/of
AKBOFF:Automatic/Manual =Cut off settin
SYNC_PHASE:Hsync delay with respect to Vide
CLP_PHASE:Internal clamp pulse phase
CLP_GATE:Switch for the gated internal clamp pulse with Hsyn
JAXIS:color axis switch
BLKO:Blanking switch
RF
0
0
3535
31
31
VividStd
63
63 (no memory
64
63 (no memory
63
63 (no memory
63 (no memory
69
63 (no memory
63
63
63 (no memory
65
63 (no memory
51WS500
Svideo
0
0
35
363636
Movie
63
67
63
56
63
63
61
Video5,6 480i
5
37
Pro
63 (no memory
63 (no memory
63 (no memory
63 (no memory
63 (no memory
63 (no memory
63 (no memory
RF/Video1-4 Video5,6 480i Video5,6 480
Video5,6 480
40
4139
VividMovie
0 (no memory) 0 (no memory) 0 (no memory) 0 (no memory)
6363 (no memory
6563 (no memory
6363 (no memory
6963 (no memory
6363 (no memory
6363 (no memory
6663 (no memory
1
7
3
0
15
0
0
0
0
3
0
0
0
Cvideo
0
00
0 (no memory) 0 (no memory)0 (no memory)0 (no memory)
0
Video5,6 1080
7
0
31
31
Std
0
3
0
KP-51WS500/57WS500/65WS500
P&P
7
0
36
57WS50065WS500
63
6763 (no memory
63
5663 (no memory
6463 (no memory
6363 (no memory
6263 (no memory
Video5,6 1080
0
3
0
7
7
49
49
Pro
63 (no memory
63 (no memory
0
3
0
Video7 480iVideo7 vga
5
3235
31
Vivid
0 (no memory) 0 (no memory) 0 (no memory) 0 (no memory)
6363 (no memory
6563 (no memory
6363 (no memory
7063 (no memory
6363 (no memory
6363 (no memory
6563 (no memory
P&P
0
3
0
Video7 480
50
7
49
49
StdMoviePro
Video7 1080i
157
7
49
49
6363 (no memory
6763 (no memory
6363 (no memory
5663 (no memory
6463 (no memory
6363 (no memory
6163 (no memory
CRT Driver CXA2150P-2 Video7 Settings for Vivid Mod
Reg.No &Nam
0
ALB
1
RGBS
2 BLKB
3 LIML
4 PABL
5 SABL
6 AGNG
7 AKBO
8 SYPH
9 CLPH
10
CLGA
11 JAXS
12 BLKO
SYSTEM:Signal bandwidth settin
VM_LEV:VM_OUT level
System Micro pin#4
VM_COR:VM_OUT coring level
VM_LMT:VM_OUT limit level
VM F0: VM f0
VM_DLY:VM_OUT phas
Offset for USHP=SHOF x
SHP_F0:Sharpness circuit f
PRE/OVER:Y signal pre/over-shoot rati
SHP_F1:Sharpness for higher f
SHP_CD:Sharpness in part of high color saturation
LTI_LEV:Luminance transient improvemen
LTI_MODE:LTI mode settin
CTI_LEV:Chrominance transient improvemen
CTI_MODE:CTI mode setting
Offset for UBR
Offset for UCOL=UCOF x
Offset for UHUE
MID enhancement settin
SYNC_PHASE:Hsync delay with respect to Vide
CLP_PHASE:Internal clamp pulse phase
CLP_GATE:Switch for the gated internal clamp pulse with Hsyn
SYSTEM:Signal bandwidth settin
VM_LEV:VM_OUT level
System Micro pin#4
VM_COR:VM_OUT coring level
VM_LMT:VM_OUT limit level
VM F0: VM f0
VM_DLY:VM_OUT phas
Offset for USHP=SHOF x
SHP_F0:Sharpness circuit f
PRE/OVER:Y signal pre/over-shoot rati
SHP_F1:Sharpness for higher f
SHP_CD:Sharpness in part of high color saturation
LTI_LEV:Luminance transient improvemen
LTI_MODE:LTI mode settin
CTI_LEV:Chrominance transient improvemen
CTI_MODE:CTI mode setting
Offset for UBR
Offset for UCOL=UCOF x
Offset for UHUE
MID enhancement settin
HC_PARA_DC:Horizontal cente
H_POSITION:Horizontal position
H_SIZE:Horizontal siz
MP_PARA_DC:Horizontal S-correction
MP_PARA_AMP:Horizontal middle pin
PIN_AMP:Horizontal pin
PIN AMP offse
UP_CPIN:Upper corner pin
LO_CPIN:Lower corner pin
UP_UCG:Upper extra corner pin gain
LO_UCG:Lower extra corner pin gain
UP_UCP:Upper extra corner pin position
LO_UCP:Lower extra corner pin position
UC_POL:Extra corner pin polarit
PIN_PHASE:Pin phas
AFC_ANGLE:AFC angl
HC_PARA_PHASE:Linearity angl
AFC_BOW:AFC bo
HC_PARA_AMP:Linearity bo
Copy function 1: * Not use
Volume:Offset for Volum
Balance Offset for Balanc
Bass:Offset for Bas
Treble:Offset for Trebl
BBE low pass filte
BBE high pass filte
Surround effec
Auto gain contro
BBE on/of
FUNCTION
FUNCTION
Video5,6 480i
15.75kh
0
0
9
1
1
Video5,
1
0
0
V5,6,7 1080i
0
Video5,6 480P
31.50kh
0
Video7
1
ELSE
1
0
7
10
7
0
2
11
0
0
Video5,6 1080
33.75kh
Sub
0
45kh
11
KP-51WS500/57WS500/65WS500
Video7 480iVideo7 480P Video7 1080iVideo5,6 720
15.75kh
0011
31.50kh
33.75kh
Video7 720
45kh
TruSurround NJM2180
Re
.No &Nam
0 TSMD
1 ATT
DLBY NJW110
Reg.No &Nam
0 DBMD
1 SCH
2 ADSW
3 CECH
4 DEL
5 SSEL
Trusurround effect selection
No used for Wide model
FUNCTION
2
0
FUNCTION
0
0
0
0
7
0
— 29 —
SERVICE DATA LISTS
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C
x
P
r
r
P
MID-1
.No &Nam
Re
Displa
0 DHPH
1 DVPH
2 DHAR
3 DVAR
4 DHPW
5 DVPW
22 DPSW
23 MDL
Misc. Common Data
6 DYCD
7 DYSD
Favorite / Othe
8 MDHP
10 MDHS
Sin
9 MDVP
11 MDVS
Index / Other
12 MLHP
13 MLVP
Favorite
14 SDHP
15 SDVP
Favorite
16 SDHS
17 SDVS
PinP Position
18 PDHP
19 PDVS
PinP Size
20 PDHS
21 PDVS
Sin
24 BCOL
Data
H active display area phas
V active display area phas
H active display area siz
V active display area siz
display H pulse width
display V pulse width
display PLL switch
model select