Combo Funai Emerson Sylvania Chasis-lcd-A1504
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Transcript of Combo Funai Emerson Sylvania Chasis-lcd-A1504
15″/20″ COLOR LCD TELEVISION
LCD-A1504LCD-A2004
The LCD panel is manufactured to provide many years of useful life.Occasionally a few non active pixels may appear as a tiny spec of color.This is not to be considered a defect in the LCD screen.
1-1 L4100SP
SPECIFICATIONS
<TUNER> ANT. Input ------------------- 80 dBµV, Video: PAL 87.5%, Audio: 30 kHz dev (1 kHz Sin)
Test Input Signal----------- 400Hz 30% modulation
<LCD PANEL>
<VIDEO>
<AUDIO> All items are measured across 8Ω load at speaker output terminal with L.P.F.
Note:Nominal specifications represent the design specifications. All units should be able to approximate these. Some will exceed and some may drop slightly below these specifications. Limit specifications represent the absolute worst condition that still might be considered acceptable. In no case should a unit fail to meet limit specifications.
Description Condition Unit Nominal Limit
1. Intermediate Freq. PictureSound
MHzMHz
45.7541.25
--
2. Color Killer Sens. CH-3 dBµV 20 23
3. AFT Pull In Range(10mV input)
– MHz ±1.6 ±0.7
Description Condition Unit Nominal Limit
1. Number of Pixels HorizontalVertical
pixelspixels
640 x 3480
--
2. Brightness cd/m2 450 -
3. Response Time - msec 16 -
4. Support Color - - 16mil.(8bit) -
5. Viewing Angle HorizontalVertical
°°
-85 to 85-85 to 70
-
Description Condition Unit Nominal Limit
1. Over Scan HorizontalVertical
%%
8.56.5
10±510±5
2. Color Temperature -xy
°K 85000.290.30
-0.29±0.030.30±0.03
3. Resolution HorizontalVertical
lineline
400350
<250<300
Description Condition Unit Nominal Limit
1. Audio Output Power 10% THD: Lch/Rch W 1.0/1.0 0.8/0.8
2. Audio Distortion 500mW: Lch/Rch % 1.0/1.0 <3
3. Audio Freq. Response -6dB: Lch-6dB: Rch
HzHz
50 to 12K50 to 12K
--
4. Audio S/N RFVIDEO 1VIDEO 2
dBdBdB
606060
454545
4-3 L4100DC
Wiring Diagram
Fig. D3
T402CN101A CN102A
CN31A
CN31B
CN801CN802
To Speaker
To LCD Module Assembly
To LCD Module Assembly
Function CBA
Main CBA
LCD Main CBA
To Speaker
CN103A
CN101B
CN320A CN321A
CN102B CN103B
T401
4-6 L4200DC
Cable Wiring Diagram
Fig. D3
T1402CN101A CN102A
CN53
CN405CN1401
CN51
CN51A
CN801CN802
To Speaker
To LCD Module Assembly
Function CBAIR Sensor CBA
Inverter CBA Main CBA
LCD Main CBA
To Speaker
CN103A
CN101B
CN310A CN311A CN313A
CN102B CN103B
T1401
T1404To LCD ModuleAssembly
To LCD ModuleAssembly
T1403
5-1 L4100INT
HOW TO INITIALIZE THE LCD TELEVISION
To put the program back at the factory-default, initialize the LCD television as the following procedure.
How to initialize the LCD television:1. Turn the power on. (Use main power on the TV
unit.)
2. To enter the service mode, press [STANDBY], [2], [7], [1], and [MUTE] buttons on the remote control unit in that order within 5 seconds.
- To cancel the service mode, press [STANDBY] button on the remote control.
3. To initialize the LCD television, press “DISPLAY” button on the remote control unit.
4. Confirm "FF" indication on the upper right of the screen.
6-1 L4100EA
ELECTRICAL ADJUSTMENT INSTRUCTIONSGeneral Note: “CBA” is abbreviation for “Circuit Board Assem-bly.”NOTE:
Electrical adjustments are required after replacing circuit components and certain mechanical parts. It is important to perform these adjustments only after all repairs and replacements have been completed. Also, do not attempt these adjustments unless the proper equipment is available.
Test Equipment Required1. DC Voltmeter
2. Pattern Generator
3. Color Analyzer
How to Set up the Service mode:1. Turn the power on. (Use main power on the TV
unit.)
2. Press [STANDBY], [2], [7], [1], and [MUTE] buttons on the remote control unit in that order within 5 seconds.
- To cancel the service mode, press [STANDBY] button on the remote control.
1. Initial SettingGeneralEnter the Service mode.
Set the each initial data as shown on table 1 below.
Table 1: Initial Data
ITEMBUTTON
(on the remote control)
DATA VALUE
LCD-A1504
LCD-A2004
BRT(PAL)
MENU → 1
130 134 CNT(PAL) 174 174 CLR-R(PAL) 78 74 CLR-B(PAL) 78 74 SHR(PAL) 143 143 S-BRT(PAL)
MENU → 2
130 134 S-CNT(PAL) 174 174 S-CLR-R(PAL) 78 74 S-CLR-B(PAL) 78 74 S-SHR(PAL) 143 143 C-BRT(PAL)
MENU → 3
134 134 C-CNT(PAL) 122 132 C-CLR-R(PAL) 156 154 C-CLR-B(PAL) 156 154 C-SHR(PAL) 143 143 BRT(SECAM)
MENU → 4
130 134 CNT(SECAM) 174 174 CLR-R(SECAM) 78 74 CLR-B(SECAM) 78 74 SHR(SECAM) 143 143 S-BRT(SECAM)
MENU → 5
130 134 S-CNT(SECAM) 174 174 S-CLR-R(SECAM) 78 74 S-CLR-B(SECAM) 78 74 S-SHR(SECAM) 143 143 C-BRT(SECAM)
MENU → 6
134 134 C-CNT(SECAM) 122 132 C-CLR-R(SECAM) 156 154 C-CLR-B(SECAM) 156 154 C-SHR(SECAM) 143 143 BRT(NTSC)
MENU → 7
134 134 CNT(NTSC) 172 174 CLR-R(NTSC) 78 70 CLR-B(NTSC) 78 70 TNT(NTSC) 148 148 SHR(NTSC) 143 143 S-BRT(NTSC)
MENU → 8
134 134 S-CNT(NTSC) 172 174 S-CLR-R(NTSC) 78 70 S-CLR-B(NTSC) 78 70 S-TNT(NTSC) 148 148 S-SHR(NTSC) 143 143
6-2 L4100EA
2. +B AdjustmentPurpose: To obtain correct operation.
Symptom of Misadjustment: The picture is dark and
the unit does not operate correctly.
Note: TP401(+B), TP300(GND), VR649 --- Main CBA
1. Connect DC Volt Meter to TP401 and TP300(GND).
2. Adjust VR649 so that the voltage of TP401 becomes +13.0±0.3V DC [LCD-A1504] or +21.0±0.3V DC [LCD-A2004].
3. Flicker AdjustmentAdjustment Point: R977 (LCD Main CBA)
1. Enter the Service mode.
2. Press “2” button on the remote control unit.The following screen appears.
3. If Flicker Adjustment is not fit, the screen become the following.
4. Adjust R977 so that flash stops.
C-BRT(NTSC)
MENU → 9
134 134 C-CNT(NTSC) 122 132 C-CLR-R(NTSC) 156 154 C-CLR-B(NTSC) 156 154 C-TNT(NTSC) 148 148 C-SHR(NTSC) 143 143BRIGHT 0 0 0NORMAL 0 40 65DARK 0 95 98 COR(C/D/S-1) VOL. p → 1 131 131 COG(C/D/S-1) VOL. p → 2 131 131 COB(C/D/S-1) VOL. p → 3 131 131 DR(C/D/S-1) VOL. p → 4 145 145 DG(C/D/S-1) VOL. p → 5 143 143 DB(C/D/S-1) VOL. p → 6 140 140 SBR(C/D/S-1) VOL. p → 7 0 0 SBB(C/D/S-1) VOL. p → 9 0 0 C-COR(C/D/S-2) VOL. p → 1 131 131 C-COG(C/D/S-2) VOL. p → 2 131 131 C-COB(C/D/S-2) VOL. p → 3 131 131 C-DR(C/D/S-2) VOL. p → 4 145 145 C-DG(C/D/S-2) VOL. p → 5 143 143 C-DB(C/D/S-2) VOL. p → 6 140 140 C-SBR(C/D/S-2) VOL. p → 7 0 0 C-SBB(C/D/S-2) VOL. p → 9 0 07F
VOL. p
FF FFLAST POWER OFF OFFSYSTEM PAL-BG PAL-BGNCM ON ONASPECT OFF OFFRUSSIAN OFF OFF
Test Point Adj. Point
TP401 (+B)TP300 (GND)
VR649
M. EQ. Spec.
DC Voltmeter +13.0±0.3V DC [LCD-A1504]+21.0±0.3V DC [LCD-A2004]
ITEMBUTTON
(on the remote control)
DATA VALUE
LCD-A1504
LCD-A2004
R977
LCD Main CBA
FLASH(Go and Off)
6-3 L4100EA
The following adjustment normally are not attempted in the field. Only when replacing the LCD Panel then adjust as a preparation.
4. White Balance AdjustmentPurpose: To mix red, green and blue beams correctlyfor pure white. Symptom of Misadjustment: White becomes bluishor reddish.
1. Operate the unit for more than 20 minutes.
2. Input the White Purity (APL 80% or APL 40%).
3. Set the color analyzer to the CHROMA mode and bring the optical receptor to the center on the LCD-Panel surface after zero point calibration as shown above.Note: The optical receptor must be set perpendicularly to the LCD Panel surface.
4. [RF/AV2(CVBS)]Enter the Service mode. Press “VOL p ” button on the remote control unit and select “C/D/S-1” mode. [AV1(RGB)]Enter the Service mode. Press “VOL p ” button on the remote control unit and select “C/D/S-2” mode.
5. [RF/AV2(CVBS)]When “x” value and “y” value are not within specification, adjust “DB (C/D/S-1)” or “DR (C/D/S-1)”. Refer to “1. Initial Setting.”Note: “DB(C/D/S1)” or “DR(C/D/S1)” must be adjusted within ±10.[AV1(RGB)]When “x” value and “y” value are not within specification, adjust “C-DB(C/D/S-2)” or “C-DR(C/D/S-2)”. Refer to “1. Initial Setting.”Note: “C-DB(C/D/S-2)” or “C-DR(C/D/S-2)” must be adjusted within ±10.
6. Turn the power off and on again. (Main power button on the TV unit.)
Test Point Adj. Point Mode Input
ScreenVOL. pbuttons
[RF/AV2(CVBS)] C/D/S-1[AV1(RGB)] C/D/S-2
White Purity (APL 80%)
or(APL 40%)
M. EQ. Spec.
Pattern Generator, Color analyzer
x: 260 to 320,y: 270 to 330
Figure
Color Analyzer
It carries out in a darkroom.
L = 50 cm
Perpendicularity
INPUT: WHITE 80%
7-1
System Control Block Diagram
L4100BLS
BLOCK DIAGRAMS
KE
Y-IN
-14
4CN
31B
KE
Y-IN
-23
3
RC
V30
RE
MO
TE
SE
NS
OR
CN
31A
FU
NC
TIO
N C
BA
KE
Y-IN
-14
4CN
51A
KE
Y-IN
-23
3
IR S
EN
SO
R C
BA
CLN
53R
CV
51D
51R
CV
-IN
33
RE
MO
TE
SE
NS
OR
IC15
1(M
ICR
O C
ON
PU
TE
R)
9310 52 89 5922
KE
Y-IN
-14
4
CN
103B
CN
103A
RC
V-I
N1
1
BACK
LIG
HT-S
W3
3BA
CKLI
GHT-A
DJ2
2
P-O
N-H
66
PR
OT
EC
T-1
1313
PR
OT
EC
T-2
1414
VO
LUM
E7
7A
-MU
TE(N
U)
88
INP
UT-
09
9IN
PU
T-1
1010
S-S
W15
15
SC
L18
18S
DA
1919
16K
EY-
IN-1
RC
V-I
N
RE
SE
T
P-O
N-H
PR
OT
EC
T-1
PR
OT
EC
T-2
VO
LUM
ES
DA
SC
L
INP
UT-
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T-1
S-S
W
SC
LS
DA
88 24 77462778 452813 11
X15
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MH
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K D
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CK
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HT-
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HT-
AD
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P-O
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PR
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T-1
PR
OT
EC
T-2
VO
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UT-
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T-1
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CL
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A
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IN C
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LC
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AIN
CB
A U
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92K
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55
KE
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-2
CN
51
CN
53
RE
SE
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IC15
3
4
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CN
102B
CN
102A
EE
P-S
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BU
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IC15
2(M
EM
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SC
L6
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WP
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AL+
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P-C
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LK
DV
P-R
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T-PC
8DV
P-CL
K-PC
5CN
301
(NO
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DVP-
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ERR
EG
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25 19
2DV
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P-C
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2DV
P-C
LK
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H-S
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2DV
P-R
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ET
30 3931 4432
9190
7
56
29
AF
T-IN
1111
P-O
N-H
222
22
AF
T-IN
P-O
N-H
2
PR
OT
EC
T-3
PR
OT
EC
T-3
1616
BUS-
OPE
N(NU
)20
20
23S
LOW
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1919
SP
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TE
2020
FB
IN25
25
1
SLO
W-S
W-I
N
SP
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TE
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SE
L-M
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AP
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18R
AP
ID-S
W-I
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20 8385 2558
INS
EL-
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17
P-O
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(NU
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24RG
B-CON
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(NU)
2626
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M-R
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2222
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(NU
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RO
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SP
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EL-
MU
TE
NIC
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SE
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FB
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AP
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LOW
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S/C
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CK
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TO IF
/VID
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BLO
CK
DIA
GR
AM
AF
T-IN
BU
SY-
FLA
SH
SC
LK-F
LAS
HR
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SH
CE
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SH
(NU
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PM
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SH
(NU
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NV
SS
TX
D-F
LAS
H
IC30
1(L
CD
DR
IVE
/ S
IGN
AL
PR
OC
ES
S) 5850 6057 5983 89 7
RC
V-I
N7
7
KEY
SWIT
CH
KEY
SWIT
CH
KEY
SWIT
CH
KEY
SWIT
CH
P-2
5V-O
N
5
AL+
5V
INV
ER
TE
R C
BA
CN
1401
BACK
LIGH
T-SW
1010
BACK
LIGH
T-ADJ
1111
CN
405
PR
OT
EC
T-1
1212
P-O
N-H
1313
TO L
CD
BA
CK
LIG
HT
BLO
CK
DIA
GR
AM
(B
)
BA
FU
NC
TIO
N C
BA
BA
CK
LIG
HT-
AD
JB
AC
KLI
GH
T-S
W
PR
OT
EC
T-1
TO L
CD
BA
CK
LIG
HT
B
LOC
K D
IAG
RA
M (
A)
BA
CK
LIG
HT-
SW
BA
CK
LIG
HT-
AD
J
PR
OT
EC
T-1
P-O
N-H
A
Co
mp
aris
on
Ch
art
of
Mo
del
s &
Mar
ksM
od
elM
ark
LCD
-A15
04LC
D-A
2004
A B
D30 STA
ND
BY
STA
ND
BY
7-2
IF/Video Block Diagram
L4100BLIF
JK75
1
15 11 7V
IDE
O-P
b
VID
EO
-Y
VID
EO
-Pr
TO
AU
DIO
BLO
CK
DIA
GR
AM
CN
103A
INP
UT-
0(IN
V)
INP
UT-
1(IN
V)
TU
1
SIF
SD
AS
CL
7 109
SIFM
AIN
CB
A
VID
EO
SIG
NA
LA
UD
IO S
IGN
AL
TO A
UD
IO B
LOC
KD
IAG
RA
M
Q73
4
JK72
2V
IDE
O1
-IN
JK72
1S
-VID
EO
-IN
TO S
YS
TE
M
CO
NT
RO
L B
LOC
KD
IAG
RA
M
CY
TO LCD
BLO
CK
D
IAG
RA
M (
A),
(B)
CN
103B
IC78
1(I
NP
UT
SE
LEC
T)
Q75
4
Q70
2
Q70
1S
WC
ON
TR
OL
109
11
INP
UT-
0
INP
UT-
1
TO
SY
ST
EM
CO
NT
RO
LB
LOC
K D
IAG
RA
M
Q87
2
Q87
1Q
753
Q75
2
Q75
1
(TU
NE
R U
NIT
)
BU
FF
ER
BU
FF
ER
BU
FF
ER
BU
FF
ER
BU
FF
ER
BU
FF
ER
WF
7
WF
2
WF
3
WF
6
WF
5
WF
4
3 54
CV
BS
18
S-V
IDE
O-C
5S
-VID
EO
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VID
EO
-Pr
1V
IDE
O-Y
2V
IDE
O-P
b3
CV
BS
29
8 19 20V
IDE
O-I
N
VID
EO
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SLO
W-S
W
17 16
16R
AP
ID-S
W
AF
TV
IDE
O
Q78
1
BU
FF
ER
WF
8
SD
A
SC
L
S-S
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6A
UD
IOA
UD
IO
AF
T-IN
S/C
-JA
CK
-MU
TE
FB
IN
Q11
SLO
W-S
W
Q73
1
RA
PID
-SW
Q73
0
Q79
1
Q74
4Q
792AL+
5V
Q74
3BU
FF
ER
7-3
Audio Block Diagram
L4100BLA
MA
IN C
BA
AU
DIO
SIG
NA
L
VO
LUM
E
TO S
YS
TE
M
CO
NT
RO
L B
LOC
K
INP
UT-
0(IN
V)
INP
UT-
1(IN
V)
SC
LS
DA
IC87
1(I
NP
UT
SE
LEC
T)
SW
CT
L
3
11 15 12 4 1
910
dBX
/MN
RPA
ND
A1
FM
/AM
PR
ES
CA
LE
I2C
RE
AD
RE
GIS
TE
R
AU
TOM
ATIC
SO
UN
DS
ELE
CT
NIC
AM
PR
ES
CA
LE
L-C
HR
-CH
VO
LUM
E
AG
CD
EM
OD
ULA
TOR
A/D
CO
NV
ER
TE
R
I2C
DE
CO
RD
ER
TO IF
/VID
EO
B
LOC
KD
IAG
RA
M
TU
NE
RA
UD
IO1
AU
DIO
2
TU
NE
RA
UD
IO1
AU
DIO
2(L-C
H)
(R-C
H)
2 1213
IC83
1(S
OU
ND
PR
OC
ES
SO
R)
AU
DIO
1(L)
-IN
JK72
3
SIF
JK72
4A
UD
IO1(
R)
-IN
14
IC80
1(A
UD
IO A
MP
)
7
VO
LUM
E
11 A
MP
AM
P
MU
TE
/STA
ND
BY
CO
NT
RO
L
6 1(R
-CH
)
(L-C
H)
25RF
JK80
1H
EA
DP
HO
NE
JAC
K
CN
801
SP
-R1
GN
D2
SP
802
SP
EA
KE
RL-
CH
CN
802
SP
-L1
GN
D2
TO IF
/VID
EO
B
LOC
KD
IAG
RA
M
13
2W
F1
CLN
802
CLN
801
SP
801
SP
EA
KE
RR
-CH
TO S
YS
TE
M
CO
NT
RO
L B
LOC
KD
IAG
RA
MN
ICA
M-R
ES
ET
4322
AU
DIO
RE
SE
T
6INH
JK75
1
1 3A
UD
IO2(
L)-O
UT
AU
DIO
2(R
)-O
UT
6A
UD
IO2(
L)-I
N
2A
UD
IO2(
R)
-IN
Q73
2Q
733
Q74
1
Q74
2A
L+5V
INS
EL-
MU
TE
S/C
-JA
CK
-MU
TE
SP
-MU
TE
DE
EM
PH
AS
IS
SO
UN
DS
ELE
CT
A/D
CO
NV
ER
TE
RS
CA
RT
DS
PIN
PU
T S
ELE
CT
SC
AR
TP
RE
SC
ALE
D/A
CO
NV
ER
TE
RV
OLU
ME
SC
AR
T1
OU
TP
UT
SE
LEC
TS
CA
RT
1C
HA
NN
EL
MAT
RIX
QU
AS
I-P
EA
KC
HA
NN
EL
MAT
RIX I2
C R
EA
DR
EG
IST
ER
30 31
QU
AS
I-P
EA
KD
ET
EC
TOR
LOU
D S
PE
AK
ER
CH
AN
NE
L M
ATR
IX
AV
C
D/A
CO
NV
ER
TE
R
STA
ND
ER
DA
ND
SO
UN
DD
ET
EC
TIO
N
7-4 L4100BLLCD
LCD Block Diagram ( A )
LC
D M
AIN
CB
A U
NIT
VID
EO
SIG
NA
L
IC30
1(L
CD
DR
IVE
/ S
IGN
AL
PR
OC
ES
S)
TO IF/V
IDE
OB
LOC
KD
IAG
RA
MC
N10
3A
CN
103B
182
181
180
179
175
174
173
OD
DIN
V
EV
EN
INV
ST
H1
PO
L
ST
V1
CLK
V
CLK
H1
LCD
MO
DU
LE VR
EF
(4)
25
VR
EF
(0)
29V
RE
F(1
)28
VR
EF
(2)
27V
RE
F(3
)26
VR
EF
(7)
21
VR
EF
(5)
23V
RE
F(6
)22
VR
EF
(8)
20V
RE
F(9
)19
104
105
103
VC
OM
35V
CO
M36
PAN
EL+
10.8
V
R97
7V
CO
M
CN
320A
169
168
167
166
165
161
160
159
158
155
154
153
152
151
150
146
145
LCD
MO
DU
LE
TP
322
TP
323
TP
318
TP
319
TP
320
TP
321
143
142
141
140
139
135
134
133
132
131
130
129
128
127
123
122
121
120
119
116
115
114
113
106
TP
316
TP
317
TP
312
TP
313
TP
314
TP
315
CN
321A
OR
(3)
32O
R(4
)31
OR
(5)
30
OR
(0)
35O
R(1
)34
OR
(2)
33
OG
(3)
25O
G(4
)24
OG
(5)
23
OR
(0)
28O
G(1
)27
OG
(2)
26
OB
(3)
18O
B(4
)17
OB
(5)
16
OB
(0)
21O
B(1
)20
OB
(2)
19
ER
(3)
5E
R(4
)4
ER
(5)
3
ER
(0)
8E
R(1
)7
ER
(2)
6
EG
(3)
47E
G(4
)46
EG
(5)
45
EG
(0)
50E
G(1
)49
EG
(2)
48
EB
(3)
40E
B(4
)39
EB
(5)
38
EB
(0)
43E
B(1
)42
EB
(2)
41
CV
BS
18
CV
BS
29
S-V
IDE
O-C
5S
-VID
EO
-Y6
VID
EO
-Pb
3
VID
EO
-Pr
1V
IDE
O-Y
2
VC
OM
3V
CO
M4C
N32
1A
8485
X30
154
MH
zXIN
XO
UT
CLE
AR
15C
LKV
14V
CO
MC
ON
TR
OL
Q97
1IC
981,
CLE
AR
91 95 96 98
ST
V1
13
LP44C
N32
0A
PO
L43
HM
S1-
E10
CLK
H12
ST
H1
42H
MS
1-O
14
WF
11W
F10
WF
12W
F9
VID
EO
SIG
NA
LP
RO
CE
SS
NT
SC
/PA
L S
EPA
RAT
ION
BU
RS
T
LOC
KE
D
OU
TP
UT
CO
NT
RO
L
CH
RO
MA
D
EC
OD
ER
SE
CA
M P
DM
RC
O
PAN
EL
SIG
NA
LP
RO
CE
SS
TV
SIG
NA
LP
RO
CE
SS
INP
UT
CO
NT
RO
L
CV
BS
YC
BGRA
/D
A/D
A/D
A/D
3344 1342 4021 31
LP97 18
7
WF
14W
F13
Co
mp
aris
on
Ch
art
of
Mo
del
s &
Mar
ksM
od
elM
ark
LCD
-A15
04LC
D-A
2004
A B
BGR BGR
R90
5R
907
R90
1R
904
R90
2
R99
7
7-5
LCD Block Diagram ( B )
L4200BLLCD
CN
310A
LC
D M
AIN
CB
A U
NIT
VID
EO
SIG
NA
L
IC30
1(L
CD
DR
IVE
/ S
IGN
AL
PR
OC
ES
S)
TO IF/V
IDE
OB
LOC
KD
IAG
RA
MC
N10
3A
CN
103B
182
181
180
179
175
174
173
CN
311A
OD
DIN
V
EV
EN
INV
ST
H1
PO
LLP C
LKH
1
LCD
MO
DU
LE VR
EF
(4)
10
VR
EF
(0)
14V
RE
F(1
)13
VR
EF
(2)
12V
RE
F(3
)11
VR
EF
(7)
6
VR
EF
(5)
8V
RE
F(6
)7
VR
EF
(8)
5V
RE
F(9
)4
104
105
OR
(0)
29O
R(1
)28
OR
(2)
27O
R(3
)26
OR
(4)
25O
R(5
)24
OG
(0)
22O
G(1
)21
OG
(2)
20O
G(3
)19
OG
(4)
18O
G(5
)17
OB
(0)
15O
B(1
)14
OB
(2)
13O
B(3
)12
OB
(4)
11O
B(5
)10
ER
(0)
39E
R(1
)38
ER
(2)
37E
R(3
)36
ER
(4)
35E
R(5
)34
EG
(0)
32E
G(1
)31
EG
(2)
30E
G(3
)29
EG
(4)
28E
G(5
)27
EB
(0)
25E
B(1
)24
EB
(2)
23E
B(3
)22
EB
(4)
21E
B(5
)20
169
168
167
166
165
161
160
159
158
155
154
153
152
151
150
146
145
LCD
MO
DU
LE
TP
322
TP
323
TP
318
TP
319
TP
320
TP
321
143
142
141
140
139
135
134
133
132
131
130
129
128
127
123
122
121
120
119
116
115
114
113
106
TP
316
TP
317
TP
312
TP
313
TP
314
TP
315
CV
BS
18
CV
BS
29
S-V
IDE
O-C
5S
-VID
EO
-Y6
VID
EO
-Pb
3
VID
EO
-Pr
1V
IDE
O-Y
2
VC
OM
17V
CO
M18
97 95 96
ST
V1
CLK
V10
3
CN
311A
CN
313A
ST
V1
14C
LKV
16V
CO
M1
VC
OM
2
98
EV
EN
INV
2
OD
DIN
V8
CLK
H5C
N31
0A
ST
H1
37P
OL
38LP
39
WF
14W
F13
WF
11W
F10
WF
12W
F9
PAN
EL+
10.8
V
R97
7V
CO
MV
CO
MC
ON
TR
OL
Q97
1IC
981,
VID
EO
SIG
NA
LP
RO
CE
SS
NT
SC
/PA
L S
EPA
RAT
ION
BU
RS
T
LOC
KE
D
OU
TP
UT
CO
NT
RO
L
CH
RO
MA
D
EC
OD
ER
SE
CA
M P
DM
RC
O
PAN
EL
SIG
NA
LP
RO
CE
SS
TV
SIG
NA
LP
RO
CE
SS
INP
UT
CO
NT
RO
L
CV
BS
YC
BGRA
/D
A/D
A/D
A/D
8485
X30
154
MH
zXIN
XO
UT
3344 1342 4021 31 91
Co
mp
aris
on
Ch
art
of
Mo
del
s &
Mar
ksM
od
elM
ark
LCD
-A15
04LC
D-A
2004
A B
BGR BGR
R90
5R
907
R90
1R
904
R90
2
R99
4
7-6 L4100BLP
Power Supply Block DiagramC
AU
TIO
N !
FO
R C
ON
TIN
UE
D P
RO
TE
CT
ION
AG
AIN
ST
FIR
E H
AZ
AR
D,
RE
PLA
CE
ON
LY W
ITH
TH
E S
AM
E T
YP
E T
4A
, 25
0 V
FU
SE
.
NO
TE
: T
he v
olta
ge fo
r pa
rts
in h
ot c
ircui
t is
mea
sure
d us
ing
hot G
ND
as
a co
mm
on te
rmin
al.
CA
UT
ION
!F
ixed
vol
tage
(or
Aut
o vo
ltage
sel
ecta
ble
) po
wer
sup
ply
circ
uit i
s us
ed in
this
uni
t.If
Mai
n F
use
(F60
1) is
blo
wn,
che
ck to
see
that
all
com
pone
nts
in th
e po
wer
sup
ply
circ
uit a
re n
ot d
efec
tive
befo
re y
ou c
onne
ct th
e A
C p
lug
to th
e A
C p
ower
sup
ply.
Oth
erw
ise
it m
ay c
ause
som
e co
mpo
nent
s in
the
pow
er s
uppl
y ci
rcui
t to
fail.
LIN
EF
ILT
ER
L601
AC
601
AC
CO
RD
BR
IDG
ER
EC
TIF
IER
D60
5
HO
TC
OL
D
T60
1
119121415167
4 3
1 2
MA
IN C
BA
CN
101A
Q50
5Q50
4
Q50
3
HO
T C
IRC
UIT
. BE
CA
RE
FU
L.
5 3 2
Q51
1
Q50
2
Q50
1
RE
G+
5V
AL+
3.3V
AL+
8V
PR
OT
EC
T-1
+12
V
AL+
33V
P-O
N-H
Q50
6
Q63
3
PR
OT
EC
T-2
IC63
1+
5VR
EG
1013
IC50
4+
3.3V
RE
G
IC60
1E
RR
OR
VO
LTA
GE
DE
TQ
507
Q51
2
VR
649
TP
401
+B
Q51
0
41 2 75 6
PR
OT
EC
T-3
CN
103A
AL+
5V
P-O
N-H
2
AL+
13V
Q50
8
CN
101B
PAN
EL+2
5V7
7PA
NEL
+3.3
V4
4PA
NEL
+10.
8V1
1
PAN
EL+
25V
PAN
EL+
3.3V
LC
D M
AIN
CB
A U
NIT
PAN
EL-6
V10
10PA
NE
L-6V
PAN
EL+
10.8
V
CN
103B
AL+
8V14
14A
L+5V
1313
AL+
3.3V
1111
RE
G+
3.3V
AL+
5V
AL+
8V15
15
RE
G+
1.8V
AL+
3.3V
IC10
1+
3.3V
RE
G
IC10
2+
1.8V
RE
G
Q51
1
SW
ITC
HIN
GR
EG
ULA
TOR
IC60
2
+B
AD
J
P-2
5V-O
N
AL+
21V
TO L
CD
BA
CK
LIG
HT
BLO
CK
DIA
GR
AM
(A
)
TO L
CD
BA
CK
LIG
HT
BLO
CK
DIA
GR
AM
(B
)
4 3
1 2
+8V
RE
G
IC50
3
IC60
3E
RR
OR
VO
LTA
GE
DE
T
IC50
7+
5VR
EG
INV
ER
TE
R C
BA
AL+
21V
33
AL+
21V
22
AL+
21V
11
AL+
21V
44
CN
405
CN
1401
P-O
N-L
B
Co
mp
aris
on
Ch
art
of
Mo
del
s &
Mar
ksM
od
elM
ark
LCD
-A15
04LC
D-A
2004
A B
B
B
B
A
A
F60
1T
4A L
250
V
Q60
3
Q60
2
D50
5S
HU
NT
RE
GU
LAT
OR
(
(
D52
5S
HU
NT
RE
GU
LAT
OR
((
D64
9S
HU
NT
RE
GU
LAT
OR
((
7-7 L4100BLLB
LCD Backlight Block Diagram ( A )
T40
1
3 4
BA
CK
LIG
HT
CN
401
2 1
2 5 1 610978
OV
ER
VO
LTA
GE
PR
OT
EC
TOR
Q42
3,Q
427
OV
ER
VO
LTA
GE
PR
OT
EC
TOR
Q42
4,Q
428
T40
2
3 4 2 5 1 610978
BA
CK
LIG
HT
CN
402
2 1
SW
ITC
HIN
G
Q42
5,Q
426
SW
ITC
HIN
G
Q42
1,Q
422
OV
ER
CU
RR
EN
TP
RO
TE
CTO
R
Q46
2
PW
MC
ON
TOR
OL
Q46
8B
AC
KLI
GH
T-A
DJ
OV
ER
VO
LTA
GE
PR
OT
EC
TOR
Q46
4
+
Q46
1
Q46
0
+12
VS
WIT
CH
ING
Q46
6
BA
CK
LIG
HT-
SW
SW
ITC
HIN
GB
AC
KLI
GH
T-O
N
Q46
9
PR
OT
EC
T-1
LC
D M
OD
UL
E
MA
IN C
BA
AL+
13V
Q46
3
TO PO
WE
R
SU
PP
LYB
LOC
KD
IAG
RA
M
SW
ITC
HIN
GB
AC
KLI
GH
T-O
N
Q46
7
Q47
1
Q47
0
TO SY
ST
EM
CO
NT
RO
LB
LOC
KD
IAG
RA
M
Co
mp
aris
on
Ch
art
of
Mo
del
s &
Mar
ksM
od
elM
ark
LCD
-A15
04LC
D-A
2004
A B
7-8
LCD Backlight Block Diagram ( B )
L4200BLLB
SW
/S
W C
TL
BA
CK
LIG
HT-
SW
RL1
401
Q14
05,
Q14
06
IC14
01 (
DC
-AC
INV
ER
TE
R C
ON
TR
OL)
Q14
03
Q14
02
VC
C
1 2
T14
01
CN
1402
LC
D M
OD
UL
EIN
VE
RT
ER
CB
A
BA
CK
LIG
HT-
AD
J
PR
OT
EC
T-1
SW
/S
W C
TL
Q14
07,
Q14
08
Q14
01
BA
CK
LIG
HT
BA
CK
LIG
HT
BA
CK
LIG
HT
BA
CK
LIG
HT
26 27 23 24 28 14 11 913 12
11516
+10
VR
EG
.
OU
TP
UT
LOG
IC1
OU
TP
UT
LOG
IC2
LOG
IC
OV
ER
VO
LTA
GE
PR
OT
EC
T
SLO
WS
TAR
T
OS
C
PW
M2
PW
M1
STA
ND
BY
PR
OT
EC
T
MO
DE
SW
4 5 7
OV
ER
VO
LTAG
EP
RO
TEC
TOR
Q14
10,1
411
OV
ER
VO
LTAG
EP
RO
TEC
TOR
Q14
12,1
413
T14
02C
N14
03
OV
ER
VO
LTAG
EP
RO
TEC
TOR
Q14
14,1
415
1 2
T14
03C
N14
04
OV
ER
VO
LTAG
EP
RO
TEC
TOR
Q14
16,1
417
OV
ER
VO
LTAG
EP
RO
TEC
TOR
Q14
18,1
419
T14
04C
N14
05
OV
ER
VO
LTAG
EP
RO
TEC
TOR
Q14
20,1
421
1 2
10
9 7
3 1 64 2 5
10 8 9 7
3 1 64 2 5
10 8 9 7
3 1 64 2 5
10 8 9 7
3 1 64 2 5
10 8
TO PO
WE
RS
UP
PLY
BLO
CK
DIA
GR
AM
AL+
21V
P-O
N-H
1 2
IC14
02(A
MP
)
IC14
03(A
MP
)
17
26
53
+-
+-+-
+-
+-
+-
8
1314
9
1012
17
26
35
TO SY
ST
EM
CO
NT
RO
LB
LOC
KD
IAG
RA
M
Co
mp
aris
on
Ch
art
of
Mo
del
s &
Mar
ksM
od
elM
ark
LCD
-A15
04LC
D-A
2004
A B
L4100SCM18-3
Main 1/4 & IR Sensor Schematic DiagramComparison Chart of Models and Marks
MODEL MARKLCD-A1504 ALCD-A2004 B
L4100SCM2
Main 2/4 Schematic Diagram
8-4
L4100SCM3
Main 3/4 Schematic Diagram
8-5
Comparison Chart of Models and Marks
MODEL MARKLCD-A1504 ALCD-A2004 B
L4100SCM4
Main 4/4 Schematic Diagram
8-6
Comparison Chart of Models and Marks
MODEL MARKLCD-A1504 ALCD-A2004 B
CAUTION !Fixed voltage (or Auto voltage selectable) power supply circuit is used in this unit.If Main Fuse (F601) is blown , check to see that all components in the power supplycircuit are not defective before you connect the AC plug to the AC power supply.Otherwise it may cause some components in the power supply circuit to fail.
CAUTION !For continued protection against fire hazard,replace only with the same type fuse.
NOTE:The voltage for parts in hot circuit is measured usinghot GND as a common terminal.
L4100SCF
Function Schematic Diagram ( A )
8-7
Comparison Chart of Models and Marks
MODEL MARKLCD-A1504 ALCD-A2004 B
8-8
Function Schematic Diagram ( B )Comparison Chart of Models and Marks
MODEL MARKLCD-A1504 ALCD-A2004 B
L4200SCF
L4200SCINV
Inverter Schematic Diagram ( B )
8-9
Comparison Chart of Models and Marks
MODEL MARKLCD-A1504 ALCD-A2004 B
L4100SCL1
LCD Main 1/2 Schematic Diagram
8-10
Comparison Chart of Models and Marks
MODEL MARKLCD-A1504 ALCD-A2004 B
L4100SCL2
LCD Main 2/2 Schematic Diagram
8-11
Comparison Chart of Models and Marks
MODEL MARKLCD-A1504 ALCD-A2004 B
1 NOTE : CN104, CN105, CN301 are used for adjustment at factory.
9-1 L4100WF
WAVEFORMS
Input: PAL Color Bar Signal (with 1kHz Audio Signal)
WF1 ~ WF8 = Waveforms to be observed at Waveform check points. (Shown in Schematic Diagram.)
WF1 Pin 14 of IC801
AUDIO 0.1V 0.5ms
WF2 Q701 EMITTER
S-VIDEO-Y 0.2V 10µs
WF3 Q702 EMITTER
S-VIDEO-C 0.2V 20µs
WF4 Q751 EMITTER
B 0.5V 5µs
WF7 Q754 EMITTER
CVBS2 0.2V 20µs
WF5 Q752 EMITTER
G 0.5V 20µs
WF8 Q781 EMITTER
CVBS1 0.2V 20µs
WF6 Q753 EMITTER
R 0.5V 10µs
9-2 L4100WF
Input: PAL Color Bar Signal (with 1kHz Audio Signal)
WF9 ~ WF14 = Waveforms to be observed at Waveform check points. (Shown in Schematic Diagram.)
WF9 R997 ( A )R994 ( B )
WF10 R902
WF11 R901
WF12 R904
WF13 R907
WF14 R905
CTKH 1V 20ns
STH1 1V 1µs
POL 1V 20µs
LP 1V 10µs
STV1 1V 5ms
CLKV 1V 10µs
Comparison Chart of Models and Marks
MODEL MARKLCD-A1504 ALCD-A2004 B
10-1 L4100WI
LC
D M
OD
UL
E
LC
D M
AIN
CB
A U
NIT
1 32 54 76 8 9 10 131211 14 15 1716 1918 2120 22 23
BAC
KLI
GH
T-S
W
RC
V-I
NB
ACK
LIG
HT-
AD
J
KE
Y-IN
-1K
EY-
IN-2
P-O
N-H
A-M
UT
E(N
U)
VO
LUM
E
INP
UT-
0IN
PU
T-1
AF
T-IN
NU
SD
A
S-S
W
SC
L
BU
S-O
PE
N(N
U)
GN
D
NU
P-O
N-H
2N
U
2524 26
NU
GN
DG
ND
CN
102A
2624 25
CN
102B
2319 2115 17 222018161410 126 8 13119751 3 42
TU
1 T
UN
ER
UN
IT
BA
CK
LIG
HT
CN
401
21
BA
CK
LIG
HT
CN
402
21
CN
301
1 32 54 76 8D
VP
-RE
SE
T-P
CD
VP
-SIN
-PC
SV
P-S
OU
T-P
CD
VP
-CLK
-PC
DV
P-C
S-P
CM
PS
EL-
0B
US
-OP
EN
GN
D
CN
320A
1 32 54 76 8 9 10 131211 14 15 1716 1918 2120 22 23 24 272625 28 29 30
GN
DH
MS
1-E
GN
D
GN
DG
ND
CLK
HG
ND
HM
S1-
OG
ND
GN
D
GN
D
333231 34 35 3736 3938 40
GN
D
MA
IN C
BA
CLN
801
SP
801
SP
EA
KE
R CLN
802
SP
802
SP
EA
KE
R
CN
802
2624 25P
-ON
-L(N
U)
RGB-
CONT
ROL(
NU)
FB
IN
1 53 97
CN
103A
2 4 6 8 10 1412 181611 13 15 17
VID
EO
-Pb
GN
D
GN
D
CV
BS
1C
VB
S2
AL+
3.3V
19 232120 22
S-V
IDE
O-Y
VID
EO
-Y
GN
DS
-VID
EO
-C
VID
EO
-Pr
NIC
AM
-RE
SE
T
SP
-MU
TE
NU
SLO
W-S
W
INS
EL-
MU
TE
GN
D
AL+
8V
S/C
-JAC
K-M
UTE
AL+
5V
AL+
8V
RA
PID
-SW
P-2
5V-O
N2319 2115 17 22201816
CN
103B
1410 126 8 13119751 3 42
AC
601
AC
CO
RD
CN
321A
1G
ND
2N
U3
VC
OM
4V
CO
M5
TE
ST
6 7T
ES
T8 9
NU
10 11N
U12
OF
FE
V13
ST
V1
14C
LKV
15X
A0
16G
ND
17N
U18 19 20 21 22 23 24 25 26 27 28 29 30
GN
D
GN
D
31N
U32
PAN
EL+
3.3V
PAN
EL+
2.5V
PAN
EL-
6V
33PA
NE
L+10
.8V
PAN
EL+
10.8
V
34N
U35
VC
OM
PAN
EL+
3.3V
PAN
EL+
3.3V
PAN
EL+
3.3V
PAN
EL+
3.3V
36V
CO
M37
GN
D38 39 40 4241 43 44
GN
D45 46 47 48 49 50
12
34
56
78
910
1112
1314
1516
1718
1920
21JK75
1
P-O
N-L
(NU
)
RGB-
CONT
ROL(
NU)
FB
IN
VID
EO
-Pb
GN
D
GN
D
CV
BS
1C
VB
S2
AL+
3.3V
S-V
IDE
O-Y
VID
EO
-Y
GN
DS
-VID
EO
-C
VID
EO
-Pr
NIC
AM
-RE
SE
T
SP
-MU
TE
NU
SLO
W-S
W
INS
EL-
MU
TE
GN
D
AL+
8V
S/C
-JAC
K-M
UTE
AL+
5V
AL+
8V
RA
PID
-SW
P-2
5V-O
N
PR
OT
EC
T-1
PR
OT
EC
T-2
PR
OT
EC
T-3
BAC
KLI
GH
T-S
W
RC
V-I
NB
ACK
LIG
HT-
AD
J
KE
Y-IN
-1K
EY-
IN-2
P-O
N-H
A-M
UT
E(N
U)
VO
LUM
E
INP
UT-
0IN
PU
T-1
1 32 54 76 8 9 10
CN
101A
CN
101B
106 8 9751 3 42
AF
T-IN NU
SD
A
S-S
W
SC
L
BU
S-O
PE
N(N
U)
GN
D
NU
P-O
N-H
2N
U
2624 25
PR
OT
EC
T-1
PR
OT
EC
T-2
PR
OT
EC
T-3
NU
GN
DG
ND
ER
(5)
OB
(5)
OG
(5)
OG
(4)
OG
(3)
OG
(2)
OG
(1)
OG
(0)
OR
(5)
OR
(4)
OR
(3)
OR
(2)
OR
(1)
OR
(0)
41 4342 4544
ST
H1
PO
LLP G
ND
GN
D
OB
(4)
OB
(3)
OB
(2)
OB
(1)
OB
(0)
ER
(4)
ER
(3)
CN
105
1 32 54
EE
P-S
DA
EE
P-S
CL
GN
DB
US
-OP
EN
NU
ER
(2)
ER
(1)
ER
(0)
NU
VR
EF
(8)
VR
EF
(9)
VR
EF
(7)
VR
EF
(6)
VR
EF
(5)
VR
EF
(3)
VR
EF
(4)
VR
EF
(2)
VR
EF
(1)
VR
EF
(0)
EB
(5)
EB
(4)
EB
(3)
EB
(2)
EB
(1)
EB
(0)
EG
(5)
EG
(4)
EG
(3)
EG
(2)
EG
(1)
EG
(0)
PAN
EL+
10.8
V
GN
DG
ND
PAN
EL+
25V
PAN
EL-
6V
GN
DG
ND
PAN
EL+
3.3V
GN
DG
ND
PAN
EL+
10.8
V
GN
DG
ND
PAN
EL+
25V
PAN
EL-
6V
GN
DG
ND
PAN
EL+
3.3V
GN
DG
ND
1 3
CN
31A
2 4
1 32 4
CN
31B
5 65 6
KE
Y-IN
-2
AL+
5VK
EY-
IN-1NU
POW
ER-C
ONTR
OL(N
U)PO
WER
-CON
TROL
(NU)
KE
Y-IN
-2
AL+
5VK
EY-
IN-1
GN
D7 8
7 8R
CV
-IN
NU
GN
DR
CV
-IN
NU
NU
FU
NC
TIO
N C
BA
1S
P-R
2G
ND
CN
802
1S
P-R
2G
ND
AU
DIO
(L)
-IN
S-V
IDE
OIN
VID
EO
-IN
AU
DIO
(R)
-IN
CN
104
1A
L+5V
2B
US
Y3
SC
LK4
RX
D5
NU
6N
U7
GN
D8
RE
SE
T9
CN
VS
S10
TX
D
Co
mp
aris
on
Ch
art
of
Mo
del
s &
Mar
ksM
od
elM
ark
LCD
-A15
04LC
D-A
2004
A B
< N
O C
ON
NE
CT
ION
>
< N
O C
ON
NE
CT
ION
>
< N
O C
ON
NE
CT
ION
>
CN
105
IS
US
ED
FO
R
AD
JUS
TM
EN
TA
T F
AC
TO
RY
WIRING DIAGRAMS ( A )
10-2 L4200WI
WIRING DIAGRAMS ( B )
LC
D M
OD
UL
E
LC
D M
AIN
CB
A U
NIT
1 32 54 76 8 9 10 131211 14 15 1716 1918 2120 22 23
BAC
KLI
GH
T-S
W
RC
V-I
NB
ACK
LIG
HT-
AD
J
KE
Y-IN
-1K
EY-
IN-2
P-O
N-H
A-M
UT
E(N
U)
VO
LUM
E
INP
UT-
0IN
PU
T-1
AF
T-IN
NU
SD
A
S-S
W
SC
L
BU
S-O
PE
N(N
U)
GN
D
NU
P-O
N-H
2N
U
2524 26
NU
GN
DG
ND
CN
102A
2624 25
CN
102B
2319 2115 17 222018161410 126 8 13119751 3 42
TU
1 T
UN
ER
UN
IT
CN
313A
1 32 54 76 8 9 10 131211 14 15 1716 1918 20
VC
OM
VC
OM
NU
VG
HV
GH
NU
PAN
EL+
3.3V
PAN
EL+
3.3V NU
PAN
EL-
6VPA
NE
L-6V NU
GN
DS
TV
1G
ND
CLK
VG
ND
GN
DX
DO
NG
ND
IR S
EN
SO
R C
BA
5G
ND
1 3
CN
53
42R
CV
-IN
AL+
5V NU
NU
51 3 42
CLN
53
INV
ER
TER
CB
A
1 53
CN
1401
2 4 6G
ND
GN
D
97 8 10
GN
D
1 532 4 6
CN
405
AL+
21V
GN
D
AL+
21V
AL+
21V
GN
D
AL+
21V
AL+
21V
AL+
21V
AL+
21V
AL+
21V
97 8 10
GN
D
1211 131211 13
BA
CK
LIG
HT
CN
1403
21
BA
CK
LIG
HT
CN
1402
21
BA
CK
LIG
HT
CN
1404
21
CN
311A
1 32 54 76 8 9 10 131211 14 15 1716 1918 2120 22 23 24 272625 28 29 30
VR
EF
(3)
VR
EF
(4)
GN
DV
RE
F(5
)V
RE
F(6
)V
RE
F(7
)V
RE
F(8
)V
RE
F(9
)G
ND
PAN
EL-
6VPA
NE
L-6V
VR
EF
(2)
VR
EF
(1)
VR
EF
(0)
PAN
EL+
10.8
VPA
NE
L+10
.8V
VC
OM
VC
OM
GN
DE
B (
5)E
B (
4)E
B (
3)E
B (
2)E
B (
1)E
B (
0)G
ND
EG
(5)
EG
(4)
EG
(3)
EG
(2)
333231 34 35 3736 3938 40
EG
(1)
EG
(0)
GN
DE
R (
5)E
R (
4)E
R (
3)E
R (
2)E
R (
1)E
R (
0)G
ND
BA
CK
LIG
HT
CN
1405
21
MA
IN C
BA
CLN
801
SP
801
SP
EA
KE
R CLN
802
SP
802
SP
EA
KE
R
CN
802
2624 25P
-ON
-L(N
U)
RGB-
CONT
ROL(
NU)
FB
IN
1 53 97
CN
103A
2 4 6 8 10 1412 181611 13 15 17
VID
EO
-Pb
GN
D
GN
D
CV
BS
1C
VB
S2
AL+
3.3V
19 232120 22
S-V
IDE
O-Y
VID
EO
-Y
GN
DS
-VID
EO
-C
VID
EO
-Pr
NIC
AM
-RE
SE
T
SP
-MU
TE
NU
SLO
W-S
W
INS
EL-
MU
TE
GN
D
AL+
8V
S/C
-JAC
K-M
UTE
AL+
5V
AL+
8V
RA
PID
-SW
P-2
5V-O
N2319 2115 17 22201816
CN
103B
1410 126 8 13119751 3 42
AC
601
AC
CO
RD
CN
310A
1G
ND
2E
VE
NIN
V3
GN
D4
GN
D5
CLK
H6
GN
D7
GN
D8
OD
DIN
V9
GN
D10
OB
(5)
11O
B (
4)12
OB
(3)
13O
B (
2)14
OB
(1)
15O
B (
0)16
GN
D17
OG
(5)
18O
G (
4)19
OG
(3)
20O
G (
2)21
OG
(1)
22O
G (
0)23
GN
D24
OR
(5)
25O
R (
4)26
OR
(3)
27O
R (
2)28
OR
(1)
29O
R (
0)30
GN
D31
NU
32PA
NE
L+3.
3V
PAN
EL+
3.3V
33 34 35 36N
U37
ST
H1
38P
OL
39LP
40G
ND
12
34
56
78
910
1112
1314
1516
1718
1920
21JK75
1
P-O
N-L
(NU
)
RGB-
CONT
ROL(
NU)
FB
IN
VID
EO
-Pb
GN
D
GN
D
CV
BS
1C
VB
S2
AL+
3.3V
S-V
IDE
O-Y
VID
EO
-Y
GN
DS
-VID
EO
-C
VID
EO
-Pr
NIC
AM
-RE
SE
T
SP
-MU
TE
NU
SLO
W-S
W
INS
EL-
MU
TE
GN
D
AL+
8V
S/C
-JAC
K-M
UTE
AL+
5V
AL+
8V
RA
PID
-SW
P-2
5V-O
N
PR
OT
EC
T-1
PR
OT
EC
T-2
PR
OT
EC
T-3
BAC
KLI
GH
T-S
W
RC
V-I
NB
ACK
LIG
HT-
AD
J
KE
Y-IN
-1K
EY-
IN-2
P-O
N-H
A-M
UT
E(N
U)
VO
LUM
E
INP
UT-
0IN
PU
T-1
1 32 54 76 8 9 10
CN
101A
CN
101B
106 8 9751 3 42
AF
T-IN NU
SD
A
S-S
W
SC
L
BU
S-O
PE
N(N
U)
GN
D
NU
P-O
N-H
2N
U
2624 25
PR
OT
EC
T-1
PR
OT
EC
T-2
PR
OT
EC
T-3
NU
GN
DG
ND
GN
D
RC
V-I
N
AL+
5VN
U
NU
GN
DG
ND
GN
DG
ND
BAC
KLIG
HT-
ADJ
PR
OT
EC
T-1
BAC
KLI
GH
T-S
WBA
CKL
IGH
T-AD
JP
RO
TE
CT-
1P
-ON
-HP
-ON
-H
BAC
KLI
GH
T-S
W
PAN
EL+
3.3V
PAN
EL+
3.3V
PAN
EL+
3.3V
PAN
EL+
10.8
V
GN
DG
ND
PAN
EL+
25V
PAN
EL-
6V
GN
DG
ND
PAN
EL+
3.3V
GN
DG
ND
PAN
EL+
10.8
V
GN
DG
ND
PAN
EL+
25V
PAN
EL-
6V
GN
DG
ND
PAN
EL+
3.3V
GN
DG
ND
1 3
CN
51
2 4
1 32 4
CN
51A
5 65 6
FU
NC
TIO
N C
BA
KE
Y-IN
-2
AL+
5VK
EY-
IN-1
GN
D
NU
POW
ER-C
ONTR
OL(N
U)PO
WER
-CON
TROL
(NU)
KE
Y-IN
-2
AL+
5VK
EY-
IN-1
GN
D
NU
1S
P-R
2G
ND
CN
802
1S
P-R
2G
ND
AU
DIO
(L)
-IN
S-V
IDE
OIN
VID
EO
-IN
AU
DIO
(R)
-IN
Co
mp
aris
on
Ch
art
of
Mo
del
s &
Mar
ksM
od
elM
ark
LCD
-A15
04LC
D-A
2004
A B
CN
104
1A
L+5V
2B
US
Y3
SC
LK4
RX
D5
NU
6N
U7
GN
D8
RE
SE
T9
CN
VS
S10
TX
D
< N
O C
ON
NE
CT
ION
>C
N30
11 32 54 76 8
DV
P-R
ES
ET-
PC
DV
P-S
IN-P
CS
VP
-SO
UT-
PC
DV
P-C
LK-P
CD
VP
-CS
-PC
MP
SE
L-0
BU
S-O
PE
NG
ND
< N
O C
ON
NE
CT
ION
>
CN
105
1 32 54
EE
P-S
DA
EE
P-S
CL
GN
DB
US
-OP
EN
NU
< N
O C
ON
NE
CT
ION
>C
N10
5 IS
U
SE
D F
OR
A
DJU
ST
ME
NT
AT
FA
CT
OR
Y