SONY KV-BM212M10, KV-BM212P42 Service Manual

REVISION HISTORY BX1S

CHASSIS
MODEL
KV-BM212M10 KV-BM212P42
NO. SUFFIX DATE SUPP / CORR DESCRIPTION
1 -01 2004/7 _ _ 1st Issue
PA RT NO. : 9-872-460-01

SERVICE MANUAL BX1S

CHASSIS
MODEL COMMANDER DEST. CHASSIS NO.
KV-BM212M10 KV-BM212P42
RM-W101 Oceania SCC-V03H-A
RM-W101 Thailand SCC-V20C-A
RM-W101
TRINITRON
®
COLOR TV
KV-BM212M10/BM212P42
RM-W101

TABLE OF CONTENTS

Section Title Page
SELF DIAGNOSTIC FUNCTION.............................. 3
1. DISASSEMBLY
1-1. Rear Cover Removal ................................................. 6
1-2. Speaker Removal ...................................................... 6
1-3. Chassis Assy Removal .............................................. 6
1-4. Service Position ........................................................ 6
1-5. Terminal Bracket Removal ....................................... 6
1-6. A Board Removal ...................................................... 6
1-7. Picture Tube Removal ............................................... 7
2. SET-UP ADJUSTMENTS
2-1. Beam Landing ........................................................... 8
2-2. Convergence .............................................................. 9
2-3. Focus Adjustment .................................................... 11
2-4. G2 (SCREEN) Adjustments ................................... 11
2-5 White Balance Adjustment ..................................... 11
2-6 Sub Bright Adjustment ........................................... 11
3. CIRCUIT ADJUSTMENTS
3-1. Adjustment With Commander ................................ 12
3-2. Adjustment Method ................................................ 13
3-3. Picture Quality Adjustment .................................... 29
3-4. Deflection Adjustment ............................................ 29
3-5. Picture Distortion Adjustment ................................ 30
Section Title Page
4. DIAGRAMS
4-1. Block Diagram ........................................................ 32
4-2. Circuit Boards Location .......................................... 33
4-3. Schematic Diagram Information ............................ 33
4-3-1. C Board Schematic Diagram ...................... 34
4-3-2. A Board — Processor (Block 001) .............. 35
4-3-3. A Board — Audio (Block 002) .................... 37
4-3-4. A Board — Power Supply (Block 003) ....... 39
4-3-5. A Board — Deflection (Block 004)............. 41
4-3-6. A Board — Tuner (Block 005) .................... 43
4-3-7. A Board — Jack (Block 006) ...................... 45
4-3-8. A Board — Heat Sink (Block 007).............. 47
4-4. Voltage Measurement and Waveforms ................... 48
4-5. Printed Wiring Boards and Parts Location ............. 51
4-6. Semiconductors ....................................................... 54
5. EXPLODED VIEWS
5-1. Chassis ..................................................................... 56
6. ELECTRICAL PARTS LIST .................................... 58
OPERATING INSTRUCTIONS
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.
SAFETY-RELATED COMPONENT WARNING!!
COMPONENTS IDENTIFIED BY SHADING AND MARK ! ON THE SCHEMATIC DIAGRAMS, EXPLODED VIEWS AND IN THE PARTS LIST ARE CRITICAL TO SAFE OPERATION. REPLACE THESE COMPONENTS WITH SONY PARTS WHOSE PART NUMBERS APPEAR AS SHOWN IN THIS MANUAL OR IN SUPPLEMENTS PUBLISHED BY SONY.
– 2 –
KV-BM212M10/BM212P42

SELF DIAGNOSTIC FUNCTION

The units in this manual contain a self diagnostic function. If an error occurs, the STANDBY (1) indicator will automatically begin to flash. A description of the self-diagnosis function is explained in the instruction manual. The number of times the STANDBY (1) indicator flashes translates to a probable source of the problem. If an error symptom cannot be reproduced, the remote commander can be used to review the failure occurrence data stored in memory to reveal past problems and how often these problems occur.
1. DIAGNOSTIC TEST INDICATORS
When an errors occurs, the STANDBY (1) indicator will flash a set number of times to indicate the possible cause of the problem. If there is more than one error, the indicator will identify the first of the problem areas.
Result for all of the following diagnosis items are displayed on screen. No error has occured if the screen displays a "0".
RM-W101
Diagnosis
Item
Description
Power does not turn on
+B overcurrent (OCP)*
V-Protect
IK (AKB)
Power supply NG (+5V) for Video Processor
* If a +B overcurrent is detected, stoppage of the vertical deflection is detected simultaneously. The symptom that is
diagnosed first by the mirco controller is displayed on the screen.
** Refer to Screen (G2) Adjustment in this manual.
No. of timer
STANDBY (1)
indicator flashes
Does not light
2 times
4 times
5 times
8 times
Self-Diagnostic
display/
Diagnosis result
2:0
or
2:1 ~ 255
4:0
or
4:1 ~ 255
5:0
or
5:1 ~ 255
8:0
or
8:1 ~ 255
Probable Cause
Location
Power cord is not plugged in.
Fuse is burned out (F600) A board.
H OUT (Q805) is shorted. (A board)
IC751 is shorted. (C board)
+13V is not supplied.
(A board)
IC804 is faulty. (A board)
Video OUT (IC1545) is
faulty. (A board)
IC001 is faulty. (A board)
Screen (G2) is improperly
adjusted.**
IC604 faulty.
IC602 faulty.
Detected
Symptoms
Power does not turn on.
No power is supplied on
TV.
AC Power supply is faulty.
Power does not turn on.
Load on power line is
shorted.
Has entered standby state after horizontal raster.
Vertical deflection pulse is stopped.
Power line is shorted or power supply is shorted.
No raster is generated.
CRT Cathode current
detection reference pulse output is small.
No power supply to CRT ANODE.
No RASTER is generated.
3
KV-BM212M10/BM212P42
RM-W101
2. DISPLAY OF STANDBY (1) INDICATOR
FLASH COUNT
Diagnostic Item Flash Count*
+B overcurrent 2 times V-Protect 4 times IK (AKB) 5 times Power Supply NG (+5V) 8 times for Video processor
Lamp ON 300ms
Lamp OFF 300ms
3. STOPPING THE
Lamp OFF 3 sec
STANDBY (1) INDICATOR FLASH
* One flash count is not used for self-diagnosis.
STANDBY u indicator
Turn off the power switch on the TV main unit or unplug the power cord from the outlet to stop the STANDBY (1) indicator from flashing.
4. SELF-DIAGNOSTIC SCREEN DISPLAY
For errors with symptoms such as "power sometimes shuts off" or "screen sometimes goes off" 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 / Volume / Power / TV
˘
Note that this differs from entering the service mode (volume [+]).
The following screen will be displayed indicating the error count.
SELF DIAGNOSTIC
2 : 0 3 : N/A 4 : 0 5 : 1 8 : 0
101 : N/A
Numeral "0" means that no fault was detected. Numeral "1" means the number of a fault occurrence (1 ~ 255).
– 4 –
KV-BM212M10/BM212P42
5. 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-diagnosis 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 subsequent as shown below when the self-diagnostic screen is being displayed.
8 , -
[Quitting Self-diagnostic screen]
To quit the entire self-diagnostic screen, turn off the power switch on the remote commander or the main unit.
6. SELF-DIAGNOSTIC CIRCUIT
RM-W101
FROM
C BOARD
IC751 PIN 5
A BOARD
FROM
Q804
COLLECTOR
A BOARD
IC001
Y/CHROMA JUNGLE
IK
32
EHTO
A BOARD
IC804
V.OUT
F.B-PLS
A BOARD
IC001
SYSTEM
SDA1
3 1384
V.GUARD
RED LED
99
122
DISPLAY
A BOARD
IC003
MEMORY
5
SDA
[+B overcurrent $OCP%] Occurs when an overcurrent on the +B(135V) line is detected by pin 32 of IC001 (A board).
If the voltage of pin 32 of IC001 (A board) is more than 4V, the unit will automatically go to standby.
[V-PROTECT] Occurs when an absence of the vertical deflection pulse is detected by pin 13 of IC001
(A board).
[IK $AKB%] If the RGB levels* do not balance within 15 sec after the power is turned on, this error will
be detected by IC001 (A board). TV will stay on, but there will be 5 times LED blinking.
POWER SUPPLY NG (+5V) for VIDEO PROCESSOR
Occurs when IC001 internal HV protect detects an abnormal H-Pulse (frequency) due to improper power supply to IC001. TV cuts off high voltage power of anode CRT. No picture will be detected. eg: IC602, IC604 go faulty.
* (Refers to the RGB levels of the AKB detection Ref pulse that detects IK.)
– 5 –
KV-BM212M10/BM212P42
RM-W101
SECTION 1

DISASSEMBLY

1-1. REAR COVER REMOVAL
1 Rear cover
2 Eight screws
(+BVTP 4 × 16)
1-2. SPEAKER REMOVAL
1-3. CHASSIS ASSY REMOVAL 1-4. SERVICE POSITION
1 Two screws
(+BVTP 3 × 12)
1-5. TERMINAL BRACKET REMOVAL 1-6. A BOARD REMOVAL
4 Terminal bracket
1 One screw (+BVTP 4 × 16)
2 FBT Bracket
3 Two screws
(+BVTP 4 × 16)
– 6 –
A Board
KV-BM212M10/BM212P42
1-7. PICTURE TUBE REMOVAL
Note:
The picture tube is upside-down for KV-BM212M10 (OCE) only and the position for the anode cap and tension springs are changed accordingly.
Please make sure the TV set is not in standing position before removing necessary CRT support located on bottom right and left.
1) Place the TV set with the CRT face down on a cushion jig.
2) Remove the rear cover.
3) Unplug all under connecting leads from the Deflection Yoke, Degaussing Coil and CRT grounding strap.
qf Top Switch Block
Nut, Special, CRT (x4)
4 Anode Cap Removal
qs Earth Coating Assy
0 Degaussing Coil
5 C Board Removal
RM-W101
qa Spring Tension Removal
8 Support, CRT Removal (x2)
6 Loosen the Deflection Yoke
fixing screw and remove
7 Chassis Assy Removal
• REMOVAL OF ANODE-CAP
Note:
After removing the anode, short circuit the anode of the picture tube and the anode cap to the metal chassis, CRT shield or carbon paint on the CRT.
REMOVING PROCEDURES
a
a
1 Turn up one side of the rubber cap in the direction
indicated by the arrow A.
b
b
anode button
turning up the rubber cap and pulling it up in the direction of the arrow C.
HOW TO HANDLE AN ANODE-CAP
1 Do not damage the surface of anode-caps with
sharp shaped objects.
2 Do not press the rubber too hard so as not to
damage the inside of anode-cap. A metal fitting called the shatter-hook terminal is built into the rubber.
3 Do not turn the foot of rubber over too hard.
The shatter-hook terminal will stick out or damage the rubber.
c
2 Using a thumb pull up the rubber cap firmly in the di-
rection indicated by the arrow B.
3 When one side of the rubber cap is separated from
the anode button, the anode-cap can be removed by
7
KV-BM212M10/BM212P42
Purity control
RM-W101
SECTION 2

SET-UP ADJUSTMENTS

The following adjustments should be made when a complete realignment is required or a new picture tube is installed.
Perform the adjustments in the following order :
1. Beam Landing
2. Convergence
3. Focus Set the controls as follows unless otherwise noted:
VIDEO model ..................................................... Standard
PICTURE control .................................................. normal
BRIGHTNESS control .......................................... normal
4. Screen(G2)
5. White Balance
Note : Test Equipment Required.
1. Pattern Generator
2. Degausser
3. DC Power Supply
4. Digital Multimeter
5. Oscilloscope
......................................................................................................................................................................................................................
Preparation :
In order to reduce the influence of geomagnetism on
the set's picture tube, face it east or west.
Switch on the set's power and degauss with the
degausser.
2-1. BEAM LANDING
Picture Mode: DYNAMIC
1. Input a white signal with the pattern generator.
Contrast Brightness
}
normal
2. Set the pattern generator raster signal to a green
raster.
3. Move the deflection yoke to the rear and adjust with
purity control so that the green is at the center and the blue and the red take up equally sized areas on each side. (See Figures 2-1 through 2-4.)
4. Move the deflection yoke forward and adjust so that
the entire screen is green. (See Figure 2-1.)
5. Switch the raster signal to blue then to red and verify
the condition.
6. When the position of the deflection yoke has been
decided fasten the deflection yoke with the screws and DY spacers.
7. If the beam does not land correctly in all the corners,
use a magnet to adjust it. (See Figure 2-4.)
Purity control corrects this area.
b
Fig. 2-2
Blue
Red
Green
Fig. 2-3
Disk magnets or rotatable disk magnets correct these
a
areas (a-d).
d
c
Deflection yoke positioning corrects these areas.
b
c
a
d
Fig. 2-1 Fig. 2-4
8
KV-BM212M10/BM212P42
RM-W101
2-2. CONVERGENCE
Before starting this adjustment, adjust the focus, horizontal size and vertical size.
Receive dot/hatch signal.
Pic mode: Standard.
(1) Horizontal and Vertical Static Convergence
Center dot
R G B
H. STAT VR
R
G
B
V. STAT
Magnet
RV750 H. STAT
C Board
Operation of V.STAT magnet
If the V.Stat magnet is moved in the A and B” arrows, the red, green and blue dots moves as shown below.
A
B
A
B
G
R
B
B
G
R
Moved RV750 H.STAT.
the red, green and blue dots move as shown below.
A
RGGBB
B
R
4. BMC (Hexapole) Magnet. If the red, green and blue dots are not balanced or aligned, then use the BMC magnet to adjust in the manner described below.
RG B R G B R GB
1. (Moving vertically), adjust the V.STAT magnet so that the red, green and blue dots are on top of each other at the center of the screen.
2. (Moving horizontally), adjust the H.STAT control so that the red, green and blue dots are on top of each other at the center of the screen.
3. If the H.STAT variable resistor cannot bring the red, green and blue dots together at the center of the screen, adjust the horizontal convergence with the H.STAT variable resistor and the V.STAT magnet in the manner given below. (In this case, the H.STAT variable resistor and the V.STAT magnet influence each other, so be sure to perform adjustments while tracking.)
BMCPurity
BMC (Hexapole)
Purity
RB
G
RG
GB
RB
DY pocket
V.STAT
V.STAT
– 9 –
KV-BM212M10/BM212P42
RM-W101
(2) Convergence Rough Adjustment
Preparation:
Before starting this adjustment, adjust the horizontal static convergence and the vertical static convergence
B
R
B
R
TLH
RB
YCH
TLH Insert TLH Correction Plate to DY Pocket
(Left or Right)
YCH Insert YCH VOL on DY
TLV Rotate TLV VOL on DY
XCV Rotate XCV Adj core on DY
(3) Screen corner Convergence
1. Affix a Piece A (90), conv. correct corresponding to the misconverged areas.
R B
ON DY:
TLV
XCV
YCH
TLV
XCV
TLV
DY pocket
TLH Plate
XCV
ba
a-d : screen-corner misconvergence
cd
– 10 –
DY pocket
a
d
Piece A (90), conv. correct
b
c
KV-BM212M10/BM212P42
RM-W101
2-3. FOCUS ADJUSTMENT
FOCUS adjustment should be completed before the W/B adjustment:
1. Receive digital monoscope pattern.
2. Set picture mode: DYNAMIC.
3. Adjust focus VR to obtain a just focus at the center of the screen.
4. Change receiving signal to white pattern and blue back.
5. Confirm MAGENTA RING is not noticeable. Incase magenta ring is obvious, then adjust FOCUS VR to balance magenta ring and FOCUS.
FOCUS
SCREEN
2-5. WHITE BALANCE ADJUSTMENT
1. Set to Service Mode (Refer Section 3-1: ADJUSTMENTS WITH COMMANDER)
2. Input white raster signal.
3. Set Picture to <DYNAMIC mode>.
4. Select RDRV (002) with value to 37 (Dec) with
5. Adjust WHBL GDRV (003) and BDRV (004) with
1 and 4 and fixed the
3 and 6.
1
and 4 and adjust the data with 3 and 6 for best white balance in Highlight condition.
6. Write into the memory by pressing [MUTING] then
7. Adjust WHBL BKOR (000) and BKOG (001) with
-.
1
and 4 and adjust the level with 3 and 6 for best white balance cut-off condition.
8. Write into memory by pressing [MUTING] then
-.
9. US model need to apply only for colour temperature in Neutral.
2-6. SUB BRIGHT ADJUSTMENT
1. Set to service mode.
2. Brightness set to 50%, Picture....Minimum
3. Select WHBL SBRT (010) with SBRT (010) data with
3 and 6 so that the third
stripe from right dimly lit.
4. Write into the memory by pressing [MUTING] then
5. GA models C/O: 20 IRE
S/G: 30 IRE
1 and 4 and adjust
-.
FLYBACK TRANSFORMER (T802-14") FLYBACK TRANSFORMER (T801-21")
2-4. G2 (SCREEN) ADJUSTMENTS
1. Set the PICTURE & BRIGHTNESS to STANDARD.
2. Put the Video input mode signal.
3. Connect R,G,B of the C board cathode to oscilloscope.
4. Adjust Brightness to obtain the cathode value to value below.
5. Adjust G2 (screen) on the FBT until picture shows the point before cut off.
165 ± 2VDC
– 11 –
KV-BM212M10/BM212P42
RM-W101
SECTION 3

CIRCUIT ADJUSTMENTS

3-1. ADJUSTMENTS WITH COMMANDER

Service adjustments to this model can be performed using the supplied remote commander RM-W101.
a. ENTERING SERVICE MODE
With the unit on standby t [DISPLAY] t 5 t [VOL $+% ] t [POWER]
This operation sequence puts the unit into service mode. This screen display is:
category in decimal item name in decimal NG service command frequency video input name
GEOM 006 HSIZ 031 x SERVICE 60 S VIDEO 1
item no. service data NVM field channel no./
release ID version in binary for factory color system (decimal)
SUS01 0.69U 0001 1111 FF FF NTSC3 65535
111 11 11 1 7 11 FG xy 111 000000 000000
S : for Sony A : Aiwa
U S : US/Latin/Taiwan E U : Europe G A : General Area J P : Japan
software service data reserved power on time
Status Byte Status Byte
Flash DCXO #1 SSD #2 SSD
VDSP_C Flag
CO_LOCKED
VDSP
Detected Stereo Type (Direct Value from CZ_ Stereo_Mode)
111 Needed for Nicam DCXO aligment Purpose
xy Value of x = 0 - Unknown, 1 - BTSC, 2 - A2, 3 - NICAM,
4 - KOREAN, 5 - Japan, 6 - AV Stereo Value of y = 0 - Mono, 1 - Stereo, 2 - Bilingual, 4 - SAP/Single
0 1 : serial no. of the M/P release
for each destination
b. METHOD OF CANCELLATION FROM SERVICE MODE
Set the standby condition (Press [POWER] button on the commander), then press [POWER] button again, hereupon it becomes TV mode.
c. METHOD OF WRITE INTO MEMORY
1. Set to Service Mode.
2. Press 1 (UP) and 4 (DOWN), to select the adjustment item.
3. Change item by pressing 3, 6.
4. Press [MUTING] button to indicate WRITE on the screen.
5. Press - button to write into memory.
1, 4 Select the adjustment item.
r
3, 6 Raise/lower the data value.
r
[MUTING] Writes.
r
- Executes the writing.
d. MEMORY WRITE CONFIRMATION METHOD
1. After adjustment, pull out the plug from AC outlet, and then plug into AC outlet again.
2. Turn the power switch ON and set to Service Mode.
– 12 –
KV-BM212M10/BM212P42
3. Call the adjusted items again to confirm adjustments were made.
e. OTHER FUNCTION VIA REMOTE COMMANDER
7, - All the data becomes the values in memory. 8, - All user control goes to the standard state. Display, - Service data initialization (Be sure not to use usually.) 2, 5 Select Device or Category

3-2. ADJUSTMENT METHOD

Item Number 000 HPOS This explanation uses H POSITION as an example.
1. Select "000 HPOS" with the 1 and 4 buttons, or 2 and 5.
2. Raise/lower the data with the 3 and 6 buttons.
3. Select the optimum state. (The standard is IF for PAL reception.)
4. Write with the [MUTING] button. (The display changes to WRITE.)
5. Execute the writing with the - button. (The WRITE display will be changed to red color while excuting, and back to SERVICE.)
Example on screen display :-
GREEN
RM-W101
GEOM 000 HPOS 039 SERVICE 50 VIDEO 1
Adjusted with [3] and [6] buttons.
GREEN
GEOM 000 HPOS 039 WRITE 50 VIDEO 1
write with [MUTING].
RED
GEOM 000 HPOS 039 WRITE 50 VIDEO 1
Write executed with [0].
The WRITE display then returns to green SERVICE
Use the same method for all Items. Use 1 and 4 to select the adjustment item, use 3 and 6 to adjust, write with [MUTING], then execute the write with -.
Note : 1. In [WRITE], the data for all items are written into memory together.
2. For adjustment items that have different standard data between 50Hz or 60Hz, be sure to use the respective input signal after adjustment.
– 13 –
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200WOBH130360TSUJDAwoBlatnoziroH06w/05w/06/05
13131313
300NILV130360TSUJDAytiraeniLlacitreV06w/05w/06/05
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400RCSV130360TSUJDAllorcSlacitreV06w/05w/06/05
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500ZISH130360TSUJDA)WE(htdiWWE06w/05w/06/05
13/6213/5213/5213/82
600WPWE130360TSUJDA)WP(htdiW/alobaraPWE06w/05w/06/05
42131313
700POCU710360TSUJDAalobaraPrenroCreppUWE06w/05w/06/05
71/1371/1371/1371/13
800POCL710360TSUJDAalobaraPrenroCrewoLWE06w/05w/06/05
71/1371/1371/1371/13
900ZTWE130360TSUJDAmuizeparTWE06w/05w/06/05
13131313
010PLSV130360TSUJDA)SV(epolSlacitreV06w/05w/06/05
13131313
110ZISV510360TSUJDAedutilpmAlacitreV06w/05w/06/05
42515162
210ROCS410360TSUJDA)CS(noitcerroC-S06w/05w/06/05
41/5241/5241/5241/52
310SOPV130360TSUJDA)HSV(tfihSlacitreV06w/05w/06/05
93131382
410MOZV130360XIF)ZV(mooZlacitreV 9:61<>06w/05w/06/05neercS3:4<
>)Z/F/N/ZW(*)06/05(neercS
510LBH000100XIFedoMgniknalBBGR06w/05w/06/05
10101010
610FBW700510XIF)FBW(gniknalBediWfognimiT06w/05w/06/05 70707070
710RBW700510XIF)RBW(gniknalBediWfognimiT06w/05w/06/05
01010101
810LBS000100XIFgniknalBecivreSenon00
910YPOC000100XIFaeraMVNzH06/05llaotatadOEGehtypoCenon00/
Adjustment Item Table
NOTE
a) In the initial value (detailed)column, the data after the slash mark ("/") refers to NTSC model data.
No("/") means data is common for multi and NTSC model. b) Item remarked "*" and "**", please refer page 25~26 for the data. c)
shaded items are no data. d) Standard data listed on the Adjustment Item Table are reference values, therefore it may be different for each model and for each mode. e) Note for the Different Data those are the standard data values written on the microprocessor. Therefore, the data values of the models are stored respectively in the memory.
In the case of a device replacement, adjustment by rewriting the data value is necessary for some items.
f) Multi ver5.18, NTSC ver5.23
– 14 –
KV-BM212M10/BM212P42
RM-W101
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73/1373/1373/1373/1373/1373/1373/1373/1373/13
400VRDB730360TSUJDABtnioPetihW )srehtO/BGR/VU(*)lamroN/WOL/HGIH(pmetloc
73/1373/1373/1373/1373/1373/1373/1373/1373/13
500GPL000100XIFteserPniaGBGR enon10
600RGP130721XIF)RGP(RniaGteserP enon*
700GGP130721XIF)GGP(GniaGteserP enon*
800BGP130721XIF)BGP(BniaGteserP enon*
900FONG000510XIFtesffOniaGteserP enonpoolCCC51
010TRBS130360TSUJDAssenthgirB-buS VUY/BGR/srehtO
131313
110ORBS000300XIF)ciPtnegilletnI(tesffOssenthgirB-buS enon00
210LGE000100XIFmetsySCCCnipooLniaGelbanE enon00
310LGS000300XIFmetsySCCCnitnerruChgiHfonoitceleS enon00
410BKA000100XIFnoitazilibatStnerruCkcalB enon00
510SBC000100XIFgnitimiLtnerruCmaeBfoecneuqeSlortnoC enon00
610BBGR000300XIFgniknalBBGR enon00
710GBLB000100XIFtuptuOneerG&eulBfogniknalB enon00
810BFO000100XIFeulBtesffOleveLkcalB enon10
910RBSN000510XIFtesffOssenthgirBdradnatSnoN enon00/50
020PBW000300XIF)woL:3,2,lamroN:1,hgiH:0(gnitteSpmeTroloC edoMerutciP
00102000/10
– 15 –
KV-BM212M10/BM212P42
RM-W101
KV-BM212M10/BM212P42
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC )deliateD(eulaVlaitinI
yrogetaC.oNemaNceDceD
VUYlap05
)VT(
lap05
)oediV(
maces05
)VT(
maces05 )oediV(
VT06oediV06VUY05VUY06BGR05BGR06edomciP
0
edomciP
1
edomciP
2
edomciP
3
VToediVVT
ediW
oediV ediW
MVA
)npJ(
ediWVA
)npJ(
JDAS000XAMP360360TSUJDAmumixaMerutciP >ediW/lamroN</)ediW/lamroN(*)oediV/VT( rossecorP-VT
737373730000
100EUHS700510TSUJDAeuH-buS oediV/VT
7070
200PHSS510360XIFssenprahS-buS VUY/oediV/VT
*
**
300OHSS000300XIF)ciPtnegilletnI(tesffOssenprahS-buS enon60
400LOCS130360TSUJDAroloC-buS /)oediv(maces05/)vt(maces05/)oediv(lap05/)vt(lap05
BGR06/BGR05/VUY06/VUY05/oediv06/VT06
00/131300/1313131300/131300/1313
500OOCS000300XIF)ciPtnegilletnI(tesffOroloC-buS enon20
600CIP130721XIF;)dilavni(001>,)dilav(001-0:AG[lortnoCerutciP
])dilavni(6tiberongi;)dilav(36-0:srehtO
)ataDteseRresU=lanosreP:AG(ledoMerutciP
36/00105/0814/5636/001
700LOC130721XIF;)dilavni(001>,)dilav(001-0:AG[lortnoCroloC
])dilavni(6tiberongi;)dilav(36-0:srehtO
)ataDteseRresU=lanosreP:AG(ledoMerutciP
53/6523/0552/0483/05
800TRB130721XIF,)dilav(001-0:AG[lortnoCssenthgirB
tiberongi;)dilav(36-0:srehtO;)dilavni(001>
])dilavni(6
)ataDteseRresU=lanosreP:AG(ledoMerutciP
23/0523/0583/0623/05
900EUH130721XIF;)dilavni(001>,)dilav(001-0:AG[lortnoCeuH
otdneS*(])dilavni(6tiberongi;)dilav(36-0:srehtO
)ledomSUhtiw)0-5(hE1#TNIT
)ataDteseRresU=lanosreP:AG(ledoMerutciP
13/0513/0513/0513/05
010PHS130721XIF,)dilav(001-0:AG[lortnoCssenprahS
tiberongi;)dilav(36-0:srehtO;)dilavni(001>
])dilavni(6
)ataDteseRresU=lanosreP:AG(ledoMerutciP
53/0623/0523/0523/05
RM-W101
16
17
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC )deliateD(eulaVlaitinI
yrogetaC.oNemaNceDceD srehtOVUY)VT(LAP)VT(CSTN)VT(MACES)oediV(LAP)oediV(CSTN)oediV(MACESTUPNI-SMACESCSTNVT
CY000QRFP000300XIFyaleDdnaycneuqerFretneCgnikaeP rossecorP-VT
00
00
100APR100300XIFtoohSrevO&erPoitaR rehto/VT
20
30/20
200OPR200300XIFskaePevitageN&evitisoPfooitaR rehto/VT
20
10/20
300YLDY210510XIFyaleD-Y TUPNI-S/VUY+)OEDIV/VT(*)MACES/CSTN/LAP(
** * * * * * *
400TAMC000300XIFxirtaM)ASU/napaJ(CSTNroMACES-LAP 00
500LCA100100XIFgnitimiLroloCcitamotuA 10
600BC000100XIFycneuqerFretneCssapdnaBamorhC )xif0:oediV*(VThtiwylnodilav00/10
700OBS100300XIFtesffOkcalBMACES 00
800ESHC100300XIFytivitisneStnedICSTN/LAP 20
900OLC000100XIFretliF)lleB(ehcolCfoycneuqerFretneC 00
010PRTC000100XIFedoMparTamorhC srehto/MACES
00
00/10
110SPB000100XIFeniLyaleDdnab-esaBamorhCfossapyB srehto/CSTN
*
*
210OCF000100XIFnOroloCdecroF 00
310TNIT130360XIFlortnoCtniTdnaB-esaB srehto/VUY
1313
410VUT000100XIFslangiSVUnolortnoCtniT 00
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC)deliateD(eulaVlaitinI
yrogetaC.oNemaNceDceD 0506srehtoVUYVToediVtxeteleTpi-VTlangisoN
CNYS000SYS000100XIFtupnICNYSYnonoitazinorhcnyS 00
100OF000300XIFtnatsnoCemiT1esahP )FR(langisoNrogninuTotuA/txeteleT/oediV/FFOPIVT/NOPIVT
30/**3000/1000/**00
200DIV000100XIFedoMtnedIoediV 06/05
0000
300LSF000100XIFcnySlacitreVrofleveLgnicilSdecroF 00
400LSS000100XIFrotarapeScnySleveLgnicilS 06/05
0000
500DIVS100700XIFnoitacifitnedIoediVrofnoitceleSecruoS srehtO/VUY
0070
600FROF000300XIFycneuqerFdleiFdecroF 10/30
700KVM000100XIFgniyeKnoisiVorcaM 10
800TCFA000300XIF)611niP:SU,AG(lortnoChctiwSgnimiTCFA 30
KV-BM212M10/BM212P42
RM-W101
KV-BM212M10/BM212P42
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC )deliateD(eulaVlaitinI
yrogetaC.oNemaNceDceD
srehtOBGReviLVT
)nyD(
VT
)srehtO(
oediV
)nyD(
oediV
)srehtO(
pmeTroloC
)HGIH(
pmeTroloC
)srehtO(
roloC
)WOL(pmeT
pmeTroloC )LAMRON(
TCIP000LDAC700510XIFleveLevirDedohtaC **/00
100AFC000300XIFedoMretliFbmoC *
200COS200300XIFleveLgnippilCtfoS 00
300LWP100100XIFhctiwSgnitimiLetihWkaeP 10
400LTHW600510XIFgnitimiLetihWkaeP *
500MAG100100XIFammaG 00
600STW100300XIFhctertSetihWdnalortnoCammaGsrehtO/eviL
20
20
700RFT000100XIFlangiSecnanimuLfooitaRrefsnarTCDsrehtO/eviL
100010
800ROC300300XIFgniroC )srehto/anyD(*)oediV/VT(
00000000
900OROC000100XIF)ciPtnegilletnI(tesffOgniroC 20
010SKB300300XIFhctertSkcalBsrehto/BGR
2020
110SAA100100XIFhctertSkcalBehtffohctiwSotaerAkcalB 10
210KSD000100XIFlortnoCnikScimanyD 00
310SLB000100XIFhctertSeulB )SREHTO/HGIH(pmetloc
0000
410SLBN000100XIFtiucriChctertSeulBnoitarepO 00
510RRN000100XIFnoitcudeRdeRnoN )LAMRON/WOL/HGIH(pmetloc
10
1010
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC)deliateD(eulaVlaitinI
yrogetaC.oNemaNceDceD VUYVToediV
WS0002VC000100XIFnoitceleSlangiStupnI2SBVC 00
100OVS100300XIF84@niPISBVC/OVS/OVFIfonoitcnuFVUY/oediV/VT
201010
200LFD000100XIFnoitcetorPhsalF 10
RM-W101
18
19
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC
yrogetaC.oNemaNceDceD
FIV000DFIO630360XIFrotaludomeDFItesffO rossecorP-VT63
100TCGA130360XIFrevo-ekaTCGA 13
200MTS000100XIFedoMgninuThcraeS 10
300DG000100XIFlangiS1SBVCnoyaleDpuorG 00
400SCGA100300XIFdeepSCGAFI 10
500IFF000100XIFLLPFIretliFtsaF 00
600IANL100100XIFeulavlaitinitibANLpmAFR 00
700TANL591522XIFleveLdlohserhTpmAFR 00/591
800NSNL400700XIFdlohserhTleveLNSpmAFR 00/30
900DSNL200700XIFdlohserhTporDleveLNSpmAFR 00/10
010XENL610360XIFgnimiTporDNSkcehcpmAFR 00/03
110RTHC840721XIFedoMresUpmAFRtesotgrPotuAretfadlohserhTlennahC 00/52
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC)deliateD(eulaVlaitinI
yrogetaC.oNemaNceDceD 0edomciP1edomciP2edomviP3edomciP
MV000DBGR300700XIFtuptuOMVottuptuOBGRfoyaleDenonrossecorP-VT40
100AMV300300XIFtuptuOMVfoedutilpmAenon*
200PAMV200300XIF)FFO:3,2,woL:1,hgiH:0(gnittesMVedoMerutciP
00102000
300OMMV300300XIFedoMMV 10
KV-BM212M10/BM212P42
RM-W101
KV-BM212M10/BM212P42
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC
yrogetaC.oNemaNceDceD
MEDS000SWMF000300XIFrotaludomeDMFrofnoitceleSwodniW rossecorP-VT20
100SSQ100100XIF )metsysMitlumAGrofA/N(edoMreifilpmA)SSQ(dnuoStilpSisauQ 10/**
200BPB000100XIFretliFssapdnaBdnuoSfossapyB 00
300OLMA000100XIFdnuoSMAroflangiStuptuOoiduA 00
400CVPH000100XIFlortnoCemuloVenohPdaeH 00
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC
yrogetaC.oNemaNceDceD
TXT000VXT930360XIFspilihProfnoitisoPlacitreVtxeteleT redoceDtxeT00/93
100DHT500721XIFtfihSegdEevitcAcnys-HtxeteleT 00/01
200RBT400510XIFssenthgirBBGRtxeteleT 00/11
300BCL000100XIF)XETSAFrofgnittes(elbane:1elbasid:0BCLtxeteleT 00/00
RM-W101
– 20 –
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFetoN&elbaTemaNeciveDnommoC )deliateD(eulaVlaitinI
yrogetaC.oNemaNceDceD )oruE(L-VTVToediVffOWOW/SRSdnuorrusurToeretsIonomI
PSDS000MVA200700XIFedoMLVA DSS20
100VVA500510XIFleveLecnerefeRLVA 90
200LBB000510XIFruotnoCEBB *
300HBB000510XIFssecorPEBB
*
400WLBB000510XIFtesffOruotnoCEBB
60/**
500FOVS000510XIFtesffOemuloVedoMtceffE/dnuorruS onomI/oeretsI/dnuorrusurT/)WOW/SRS(ffO
** * **
600FOVI000700XIFtesffOevitisoPemuloVretsaM 60
700FOVE000700XIFtesffOevitageNemuloVretsaM 60
800DAL000130XIFtsujdAleveLredoceD 50
900MAL000130XIFtsujdAleveLonoM 50
010NAL000130XIFtsujdAleveLmaciN 22
110SAL000130XIFtsujdAleveLPAS 80
210AAL000130XIFtsujdAleveLCDA oediV/Lnon-VT/L-VTI)oruEnoN(oediV/vT
000000
310FES300700XIFtceffEoeretS/onoMelbidercnI onomI/oeretsI
5030
410L1A000552XIFtfeLemuloV1XUA 00
510R1A000552XIFthgiRemuloV1XUA 00
610SAB000510XIFtesffOssaBniaM *
710ERT000510XIFtesffOelberTniaM *
8101QE000510XIFtesffO)zH001(dnaBlennahCniaMrezilauqE *
9102QE000510XIFtesffO)zH003(dnaBlennahCniaMrezilauqE *
0203QE000510XIFtesffO)zH0001(dnaBlennahCniaMrezilauqE *
1204QE000510XIFtesffO)zH0003(dnaBlennahCniaMrezilauqE *
2205QE000510XIFtesffO)zH0008(dnaBlennahCniaMrezilauqE *
320TCFB500700XIFlortnoCEBBdnaBUD,EBD *
420NECS100510XIFlortnoCretneCD3SRS 40
520APSS000510XIFlortnoCecapSD3SRS 10
620WHBB000510XIFedomWOWnitesffossecorpEBB 00/**
720ERTS200700XIFedomdnuorrusroftesffOelberT 10/**
820THBB000510XIFedomVTnitesffOEBB 00
920AWD000000XIF???AWD 00
030ERTT200700XIFedoMVTnitesffOelberT 20
– 21 –
KV-BM212M10/BM212P42
RM-W101
JVTytilanoitcnuF.tinIegnaRataDnoitcnuF etoN&elbaTemaNeciveDnommoC
yrogetaC.oNemaNceDceD
CEDS000UTPM300510XIF)CSTB(noitcetedtolipXPMrofdlohserhTreppU DSS20
100LTPM900510XIF)CSTB(noitcetedtolipXPMrofdlohserhTrewoL 50
200UTPS300510XIFnoitcetedreirracPASrofdlohserhTreppU 50/80
300LTPS600510XIFnoitcetedreirracPASrofdlohserhTrewoL 51
400HT1C000130XIF1CSfonoitcetedrofdlohserhTlamroN 00
500PA1C000130XIF1CSfonoitcetedrofdlohserhTmargorPotuA 00
600HTPS000130XIFPASfoetumotuarofdlohserhTesioN 50/00
700YHPS400510XIFPASfoetumotuarofezissiseretsyH 30
800HTMF000130XIFdradnats2AMFni2CSfoetumotuarofdlohserhTesioN 00/81
900YHMF400510XIFdradnats2AMFni2CSfoetumotuarofezissiseretsyH 40/70
010HTTB000130XIFreirracoeretsCSTBfoetumotuarofdlohserhTesioN 00
110YHTB400510XIFoeretsCSTBfoetumotuarofezissiseretsyH 30
210HTJE000130XIFreirracbusMFJAIEfoetumotuarofdlohserhTesioN 00
310YHJE400510XIFreirracbusMFJAIEfoetumotuarofezissiseretsyH 40
410YLNO000100XIFtuptuoCEDnoMACINdetalerylnoecudorpeR 00
510MAXE000100XIF)PEDD(LdradnatsnietumotuafoesacniecruoskcabllaF 00
610TMIN000100XIF)PEDD(etarrorretibnodnepednoitcnufetumotuaMACIN 00
710ELIN001552XIF)PEDD(timilrorrerewolMACIN 50
810EUIN002552XIF)PEDD(timilrorrereppuMACIN 002
910DMPE100300XIF)PEDD(gnimmargorPysaECEDMED
1=tiB3POdna0=SDTSdna0=DMPEfI
revoekatlliwyrogetacCKDSdnaelbasiDsiyrogetacCEDS
10/20
020SDTS910130XIFsedomSSSdnaDSArofdexelpitlumstiB **/13
120AMVO100100XIFnoitpadanoitaludomrevoMF 00
220WBLF000300XIFhtdiwdnabretlifrotaludomedMA/MF **/30
320DMDI000300XIFedomSSSnideepstnediMF 10/00
420LAPF000100XIFgnidocedCSTBrofycneuqefeniL 00
520TMVO100200XIFlanimonotevitalerdlohserhtlevelnoitaludomrevO 30
620IXCD000100XIFretrevnIlortnoCgnilacSOXCDMACIN 00/**
720GXCD000700XIFniaGlortnoCgnilacSOXCDMACIN 00/**
820LLCD110510XIF)L(timiLlortnoCgnilacSOXCDMACIN 00
920HLCD000130XIF)H(timiLlortnoCgnilacSOXCDMACIN 00/**
030UEDI100300XIFDTS2AnaeporuErofgnittesDOMDI 00
130RKDI100300XIFDTSMnaeroKrofgnittesDOMDI 00
230PJDI100300XIFDTSJAIErofgnittesDOMDI 10
– 22 –
KV-BM212M10/BM212P42
RM-W101
– 23 –
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFemaNeciveDnommoC)deliateD(eulaVlaitinI
yrogetaC.oNemaNceDceD 0506
MTPO000THSA600700XIF)nim5*atad(remitffotuhsotuA 00
100BDSO000510XIFssenthgirbDSO h06orciM/RMM50
200HDSO500510XIFnoitisoPlatnoziroHDSO h06orciM/ATADX50/80
300VDSO730360XIFnoitisoPlacitreVDSO h06orciM/RMM
93/3693/13
400ETUM000100XIF)delbane=1(hctiwSetuMlangiSoN 00
500LUFR510510XIF)hf0nehwelbasiD(dekcolnUretfaretnuoCegnahClangiSFR 40
600KLFR510510XIF)hf0nehwelbasiD(dekcoLretfaretnuoCegnahClangiSFR 00
700GNAL000300XIFnoitidnocgnippihsegaugnalDSO *
800TXTH000100XIFwsrotarepescnyS rossecorP-VT00
900SSMC000100XIFwscnyS rossecorP-VT10
010OXCD060592XIFeulaVOXCD PSD/h06orciM/RFS*
110LBXE000510XIFesioNetihWetanimilEotremiTgniknalBdednetxE 40/70
210SYST000300XIF )ledoMAG(]M:3,K/D:2,I:1,G/B:0[teseRtseTtaMVNnisySVTeziromeM 00/**
310WSNL100100XIF)ffO:0,otuA:1(noitidnocteseRtseT/gnippihSretsooBlangiS 00/**
410LBL100100XIFnoitidnoclangiSoNtAnoitcudeRssenthgirB 00
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFemaNeciveDnommoC)deliateD(eulaVlaitinI
yrogetaC.oNemaNceDceD srehtOVUY
SUPO000FFOS000100XIF)noCAhtiwybdnats:1,noCAhtiwyromemtsalwollof:0(ffoyatS **/00
100RBCC000510XIFssenthgirBDSOCC h06orciM/RMM00
200HCPS100721XIFnoitidnoCgnippihSretfarebmuNlennahC 70/00
300ACPS100100XIF)nOelbaC=1(noitidnoCgnippihSretfanoitceleSelbaC **/00
400VUO000100XIF)SUrofylno(slangiStupniVUnolortnoCtesffO
0000
5002AFC000100XIF)SUrofylno(nOretliFbmoCdecroF 00
(For NTSC model only)
KV-BM212M10/BM212P42
RM-W101
KV-BM212M10/BM212P42
JVTytilanoitcnuF.tinIegnaRataDnoitcnuFemaNeciveDnommoC
yrogetaC.oNemaNceDceD
BTPO000LLAI000100XIF)MVNnideziromemton(hctiwSetirWdradnatS x
1001BPO000552XIF)detalermetsyS(1noitpO esaelP
2002BPO000552XIF)detalerlangiSoediV(2noitpO refer
3003BPO000552XIF)detalergnidoceDoeretS(3noitpO ot
4004BPO000552XIF)suoenallecsiM(4noitpO tiBnoitpO
5005BPO000552XIF)suoenallecsiM(5noitpO hcaerof
6006BPO000552XIF)detaleregaugnaLDSO(6noitpO ledom
RM-W101
– 24 –
Data Variant depend on models
Category No Name Model Data
WHBL 006 PGR With VM 50
Without VM 45
007 PGG With VM 50
Without VM 45
008 PGB With VM 50
Without VM 45
Category No Name Model Data
VM 001 VMA With VM 03
Without VM 00
KV-BM212M10/BM212P42
RM-W101
Category
YC 003 YDLY Comb Model 08 08 08 11 09 11 09 09
Category No Name Model Table
SADJ 002 SSHP 21" Comb models 30 35 35
Category No Name Model Data
PICT 001 CFA Comb models 00
Category No Name Model Table
YC 011 BPS Comb models 01 00
No Name Model Table
PAL NTSC SECAM PAL NTSC SECAM YUV S-Input
(TV) (TV) (TV) (VIDEO) (VIDEO) (VIDEO)
Non-Comb Model 02 02 10 2 2 2 09 09
TV Video YUV
21"Non-Comb models
& All 14" models
Non Comb models 01
Non-Comb models 00 00
30 38 35
NTSC Others
Category No Name BM142/212
& BT212 Mono
SDSP 002 BBL 00
003 BBH 00 004 BBLW 06
016 BAS 00
017 TRE 00 018 EQ1 00
019 EQ2 00
020 EQ3 00 021 EQ4 00
022 EQ5 00
023 BFCT 00 026 BBHW 00
027 STRE 01
– 25 –
KV-BM212M10/BM212P42
RM-W101
Category No Name Other country Hong Kong model
OPTM 014 TSYS 00 01
Category No Name Model Table
SDSP 005 SVOF BM142/212 00 07 00 02 00
Category No Name GA Stereo GA AV ST/US NTSC ST GA Mono/US NTSC
OPTM 010 DCXO 50 70 61
Category No Name 21" Models
PICT 004 WHTL 00
Category No Name Mono & AV Stereo models Stereo, China & India models
SDEM 001 QSS 00 01
Off SRS/WOW Trusurround Istereo Imono
& BT212 mono
/GA NTSC
Category No Name Stereo models Non- stereo models
SDEC 026 DCXI 01 00
027 DCXG 03 00
029 DCLH 06 00
Category No Name Other models
OPTM 013 LNSW 01
Category No Name Other models
OPTM 007 LANG 00
Category No Name Model Other models
SYNC 001 FO TV 03
TV_IP 00
– 26 –
ITEM INFORMATION No. OPB1
Item
KV-BM212M10
KV-BM212P42
No. OPB2
Item
KV-BM212M10
KV-BM212P42
KV-BM212M10/BM212P42
Speed Search
0
0
SPEED SEARCH (Time of speed search) 00 = disabled (original cycle speed),
TV System Selection 0 = disabled, 1 = enabled Home Theatre 1 = Home Theatre mode available Wide Screen 1 = Wide Screen model
Party Mode
0
0
1
1
PAM(GA)
0
0
Home
Theatre
0
0
Component
0
0
Wide
Screen
0
0
1
1
M (GA)
1
0
0
0
B/G
1
1
01 = 4 time speed from the original, 10 = 6 time speed from the original, 11 = 8 time speed from the original
SECAM
1
1
I
1
1
Color DecordingComposite (SCART)
0
0
D/K
1
1
0
0
RM-W101
DEC
79
71
DEC
20
20
No. OPB3
Item
KV-BM212M10
KV-BM212P42
Party Mode (Karaoke function) 0 = not available, 1 = available PAM Portable Audio Mode - GA 0 = not available, 1 = available Component (Component [YCbCr] Terminals) 0 = not available, 1 = available Composite (No. of Composite Terminals)
BX1S/BX1L-Basic 00 = no composite terminal
01 = 1 composite terminal 10 = 2 composite terminals 11 = 3 composite terminals
BX1L-Full 00 = no composite terminal
01 = 2 composite terminals 10 = 3 composite terminals
11 = 4 composite terminals SECAM (SECAM Color System) 0 = not disabled, 1 = enabled Color decording (Color Crystal Selection) 00 = PAL/NTSC (Multi)
01 = NTSC (3.58MHz)
10 = PAL/NTSC (4.43MHz),
11 = PAL/NTSC (Tri-Norma)
HDEV
0
0
NICAM
ST
0
0
NICAM BI
0
0
A2 ST
0
0
Thai
Bilingual
0
1
US ST
0
0
Korean
ST
0
0
MONO
1
1
DEC
01
09
HDEV (High Deviation Mode) 0 = disabled, 1 = enabled NICAM ST (NICAM Stereo) 0 = disabled, 1 = enabled NICAM BI (NICAM Bilingual) 0 = disabled, 1 = enabled A2 ST/BI (A2 [West German]
Stereo/Bilingual) 0 = disabled, 1 = enabled
Thai Bilingual (A2 [Thai] Bilingual)
or Force SAP if US ST is active 0 = disabled, 1 = enabled US ST (US Stereo) 0 = disabled, 1 = enabled Korean ST (Korean Stereo) 0 = disabled, 1 = enabled MONO (Monaural Model) 0 = Stereo (SSD) Model,
1 = Monaural Model
– 27 –
KV-BM212M10/BM212P42
RM-W101
No. OPB4
Item
KV-BM212M10
KV-BM212P42
No. OPB5
SMAT
1 spk
Models 1
1
SMAT Surround Matrix 0 = Active, 1 = Passive 1 spk Models 1 Speaker Models 0 = 2 or 3 Speaker Models,
VM (Velocity Modulation) 0 = disabled, 1 = enabled Equalizer (5-band Equalizer Model) 0 = Bass/Treble Model, 1 = Equalizer Model Surround Surround Selection 00 = Off/Simulated/Surround
TOP (Forced TOP) TEXT (Teletext Model) 0 = Non-Teletext Model, 1 = Teletext Model
1
1
VM
0
0
0
0
SurroundEqualizer
0
0
0
0
1 = 1 speaker Models
01 = Off/Simulated/SRS (3D) Surround 10 = Off/Simulated/WOW/TruSurround 11 = Off/Simulated/WOW/TruSurround/
Virtual Bolby (not working Now)
0 = Auto Mode (TOP/FLOF), 1 = Forced TOP
To p
0
0
Te xt
0
0
DEC
192
192
Item
KV-BM212M10
KV-BM212P42
No. OPB6
Item
KV-BM212M10
KV-BM212P42
Full
Surround
0
0
Full Surround (Full Surround option-no 0 = Normal Surround Model
No Surround (No Surround Model) 0 = Surround Model, 1 = Non-Surround Model COSMIC ASD Automatic Standard Detection 0 = disabled, 1 = enabled
ASD (Automatic Standard Detection) 0 = disabled, 1 = enabled Tilt (Tilt Correction/PIC Rotation) 0 = disabled, 1 = enabled IP Plus (Intelligent Picture Plus) 0 = disabled, 1 = enabled IP (Intelligent Picture) 0 = disabled, 1 = enabled Wide (Wide Mode/V-Compressed) 0 = disabled, 1 = enabled
GA US
0
0
GA US (US Model Destination) 0 = US/CANADA/Latin
3D OSD (BX1L Full Version GA Multi 0 = Normal with 3D Intelligent Picture OSD
Feature 2 (Temporary for BX1L) 0 = Comb Not available
Feature 1 (Temporary for BX1L) 0 = PiP Not Available
No
Surround
3D OSD
COSMIC
ASD
1
1
0
0
Destination ONLY) 1 = Disable 3D Intelligent Picture OSD
1
0
for Euro model) 1 = Full Surround Model
using COSMIC (Non-Stereo)
Feature 2
0
0
ASD
0
0
Feature 1
0
0
Tilt
1
1
1
0
IP Plus
1
1
(Off/simulated/surround/ SRS/WOW/TruSurround)
OSD Language Selection
0
0
1 = Taiwan/Korea/Philippine
(Wake-up timer enable); (GA Surround Spec:OFF, SIMULATED, SRS)
1 = Comb available
1 = PiP available
IP
1
1
0
1
Wide
0
0
0
0
DEC
110
78
DEC
08
02
OSD Language Selection US 1x1x = Complicated Chinese
(GA NTSC) 1xx1 = Korean
(Note: For BX1L, combination of C. Chinese & Korean not available)
GA 1xxx = Simplified Chinese
x1xx = Arabic xx1x = Thai xxx1 = Vietnamese
– 28 –
KV-BM212M10/BM212P42
RM-W101

3-3. PICTURE QUALITY ADJUSTMENTS

PMAX/CONTRAST ADJUSTMENT
1. Select Video Mode.
2. Input PAL CB to TV set (others), Input NTSC 75% CB to TV set (NTSC model).
3. Set PICT 003 "PWL" to 00h and WHBL 017 "BLBG" to 01h.
4. Set the following condition: PICTURE 100%, COLOR 0%, BRIGHTNESS 50%.
5. Connect an oscilloscope to pin 4 (R output) of CN004.
6. Set to Service Mode "PWL" to 00h, "BLBG" to 01h.
7. Select SADJ 000 "PMAX" with commander then adjust VR within spec with
Black
1 and 4 of the
3 and 6.
VR
8. Select "WIDE" Mode for TV and Video Mode, write the "PMAX DATA-8 steps" (For models with V-Compression features only).
9. Then press [MUTING] t
- to write the data.
10. Set "PWL" and "BLBG" back to initial data repectively. (PWL: 01h and BLBG: 00h)
SUB COLOR ADJUSTMENT
1. Select Video and set Picture mode.
2. Input PAL 100% CB to TV set (others), Input NTSC 75% CB to TV set (NTSC model).
3. Set PICT 006 "WTS" to 00h, and Intelligent Picture to "OFF".
4. Set the following condition: PICTURE 100%, COLOR 50%, BRIGHTNESS 50%, HUE (OTHER, SHP 50%).
5. Connect an oscilloscope to pin 2 (B output) of CN004.
6. Select to Service Mode and adjust SADJ 004 "SCOL" with
1 and 4 of commander then adjust to
VB2 = VB3 = VB4 with data as +10 step with +5 step offset.
VB1
3 and 6, and write in the
VB2 VB3 VB4
SUB HUE ADJUSTMENT
1. Select Video.
2. Input NTSC 3.58 Color Bar to TV set.
3. Set the following condition: PICTURE 100%, COLOR 50%, BRIGHTNESS 50%, HUE Center, SHP 50%.
4. Connect an oscilloscope to pin 2 (B output) of CN004.
5. Set to service mode and select SADJ 001 "SHUE"
1 and 4 of commander then adjust to
with VB1=VB2=VB3=VB4 with
6. Then press [MUTING] t
3 and 6.
- to write the data.
7. Select TV channel with 3.58 and repeat 3-6.
8. Select TV channel with 3.58 repeat 3-5, +1 step data offset (applied to GA NTSC models) then press [MUTING] t
- to write the data.
VB1
VB2
VB3
VB4
110mV
The highest level of VB1, VB2, VB3, VB4 must be aligned at the same time. The ideal difference between VB2 and VB3 is within ±110mV.
9. Single systems models with NTSC 4.43 select TV channel with NTSC 4.43 repeat item 4-6.
SUB HUE ADJUSTMENT FOR YUV INPUT (FOR HW & AR SERIES ONLY)
1. Select YUV input.
2. Input a NTSC 3.58 Color Bar into YUV mode.
3. Connect an oscilloscope to pin 2 (B output) of CN004.
4. Set the service mode and select YC 013 "TINT" with
1 and 4 of the commander then adjust to
VB1=VB2=VB3=VB3 with
5. Then press [MUTING] t
VB1
VB2
VB1 = VB2 = VB3 = VB4
3 and 6.
- to write the data.
VB3
VB4
The highest level of VB1, VB2, VB3, VB4 must be aligned at the same time. The ideal difference between VB2 and VB3 is within ±80mV.

3-4. DEFLECTION ADJUSTMENT

VB2 = VB3 = VB4
(Difference is within 70mV)
7. Then press [MUTING] t
- to write the data.
8. Set "WTS" back to original data, and set Intelligent Picture to "ON".
H-TRAPEZOID ADJUSTMENT
1. Receive cross hatch/dotsignal.
2. Adjust on to make H-Trapezoid distortion best.
NORMAL MODE (50Hz)
1. Set to Service Mode.
2. Input SPCB Signal.
3. Using the
1 and 4 button select GEOM (Service
Mode).
– 29 –
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