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Sony Tft Monitor Sdm N80 Chassis Slm1 Service Manual

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							SDM-N80 (E) 1-9
6Screw (+BTP 3X6)
2Four screws
(+BTP 3X6)
8Switching regulator
5Screw (+BTP 3X6)
7Three screws
(+BTP 3X6)
4Q board
3Wire holder
1Shield (L)
CN1
CN960GND
1-9. Q  BOARD,  SWITCHING REGULATOR  REMOVAL

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							SDM-N80 (E) 2-1
SECTION  2
ADJUSTMENTS
Computer for jig
Audio input
to USB upstream to INPUT 1
to INPUT 2USB checker Analog signal
generator
(VG-819, etc) Digital signal
generator
(VG-828, etc)
USB mouse
•Adjustment conditions
(1) impressed voltage:10%UP than rating voltage
(2) time: 30 minutes or more
(3) temperature: 25 ± 3˚C
(4) Brightness: Aging mode
•Adjustment of preset mode
Check the screen in the following five modes of the preset frequencies.
< Signal mode >
1. MODE 0 (640x480 60Hz)
2. MODE 11 (800x600 85Hz)
3. MODE 18 (1024x768 85Hz)
4. MODE 29 (1280x1024 60Hz)
5. MODE 40 (1600x1200 60Hz)
1. Generate the crosshatch signal.
2. Observing the ends, check that both ends can be seen or a white line at the end is not far away
from the edge of display area.
Note: Deviation up to 2 dots is allowable.
OK if either left or right side satisfies the above specification.Connect the personal computer, monitor, and signal generator as shown below, and control the monitor.
•Adjustment of white balance (Analog input 1)
[Measuring instrument position]
H/ L side:
C/ O side:H Center
V Center
V CenterH Center

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							SDM-N80 (E) 2-2 1. Adjustment of 9300K
(1) Receive MODE 29 (1280x1024 60Hz) 80IRE with the input 1. Set SOURCEID1=00h.
(2) Set R_USER_DRV=235.
Set R_USER_BKG=132.
(3) Make adjustment with G/B_USER_DRV to set the chromaticity within the specification.
x adjustment ..... Make adjustment with B_USER_DRV.
(The value y also changes.)
B_USER_DRV UP Values x and y decrease.
B_USER_DRV DOWN Values x and y increase.
y adjustment ..... Make adjustment with G_USER_DRV.
G_USER_DRV UP Value y increases.
G_USER_DRV DOWN Value y decreases.
Spec: 9300K (x, y) = (0.285, 0.298)
Within 3JND at 80IRE
9300K (x, y) = (0.277, 0.287)
Within 4JND at 20IRE
Note: Make adjustment up to ± 0.002.
(4) Make the signal 20IRE all white to check that it is within the specification.
(5) Input a gray scale to check the picture quality.
(5) (4) If out of specification, adjust the B/G_USER_BKG so as to satisfy the specification.
(6) Input a gray scale to check the picture quality.
2. Adjustment of 6500K
(1) Receive MODE 29 (1280x1024 60Hz) 80IRE with the input 1. Set SOURCEID1=01h.
(2) Set R_USER_DRV=235.
Set R_USER_BKG=132.
(3) Make adjustment with G/B_USER_DRV to set the chromaticity within the specification.
x adjustment ..... Make adjustment with B_USER_DRV.
(The value y also changes.)
B_USER_DRV UP Values x and y decrease.
B_USER_DRV DOWN Values x and y increase.
y adjustment ..... Make adjustment with G_USER_DRV.
G_USER_DRV UP Value y increases.
G_USER_DRV DOWN Value y decreases.
Spec: 6500K (x, y) = (0.314, 0.328)
Within 3JND at 80IRE
6500K (x, y) = (0.298, 0.317)
Within 4JND at 20IRE
Note: Make adjustment up to ± 0.002.
(4) Make the signal 20IRE all white to check that it is within the specification.
(5) Input a gray scale to check the picture quality.
(5) (4) If out of specification, adjust the G/B_USER_BKG so as to satisfy the specification.(6) Input a gray scale to check the picture quality.
3. Adjustment of 5000K
(1) Receive MODE 29 (1280x1024 60Hz) 80IRE with the input 1. Set SOURCEID1=02h.
(2) Set R_USER_DRV=235.
Set R_USER_BKG=135.
(3) Make adjustment with G/B_USER_DRV to set the chromaticity within the specification.
x adjustment ..... Make adjustment with B_USER_DRV.
(The value y also changes.)
B_USER_DRV UP Values x and y decrease.
B_USER_DRV DOWN Values x and y increase.
y adjustment ..... Make adjustment with G_USER_DRV.
G_USER_DRV UP Value y increases.
G_USER_DRV DOWN Value y decreases.
Spec: 5000K (x, y) = (0.345, 0.358)
Within 3JND at 80IRE
5000K (x, y) = (0.316, 0.335)
Within 4JND at 20IRE
Note: Make adjustment up to ± 0.002.
(4) Make the signal 20IRE all white to check that it is within the specification.
(5) Input a gray scale to check the picture quality.
(5) (4) If out of specification, adjust the G/B_USER_BKG so as to satisfy the specification.
(6) Input a gray scale to check the picture quality.
4. Data copy to USER
Set SOURCEID1=03h and copy the data of R/G/B USER DRV and R/G/B USER BKG of
SOURCEID1=01h (Adjustment of 6500K).
5. Data copy to analog 2 input
(1) 9300K data copy
Set SOURCEID1=20h and copy the data of R/G/B USER DRV and R/G/B USER BKG of
SOURCEID1=00h (Adjustment of 9300K).
(2) 6500K data copy
Set SOURCEID1=21h and copy the data of R/G/B USER DRV and R/G/B USER BKG of
SOURCEID1=01h (Adjustment of 6500K).
(3) 5000K data copy
Set SOURCEID1=22h and copy the data of R/G/B USER DRV and R/G/B USER BKG of
SOURCEID1=02h (Adjustment of 5000K).
(4) USER data copy
Set SOURCEID1=23h and copy the data of R/G/B USER DRV and R/G/B USER BKG of
SOURCEID1=01h (Adjustment of 6500K).

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							SDM-N80 (E) 2-3 •Adjustment of white balance (Digital input)
1. Adjustment of 9300K
(1) Receive MODE 29 (1280x1024 60Hz) 80IRE with digital input. Set SOURCEID1=10h.
(2) Set R_USER_DRV=230.
Set R_USER_BKG=132.
(3) Make adjustment with G/B_USER_DRV to set the chromaticity within specification.
x adjustment ..... Make adjustment with B_USER_DRV.
(The value y also changes.)
B_USER_DRV UP Values x and y decrease.
B_USER_DRV DOWN Values x and y increase.
y adjustment ..... Make adjustment with G_USER_DRV.
G_USER_DRV UP Value y increases.
G_USER_DRV DOWN Value y decreases.
Spec: 9300K (x, y) = (0.285, 0.298)
Within 3JND at 80IRE
9300K (x, y) = (0.277, 0.287)
Within 4JND at 20IRE
Note: Make adjustment up to ± 0.002.
(4) Make the signal 20IRE all white to check that it is within the specification.
(5) Input a gray scale to check the picture quality.
(5) (4) If out of specification, adjust the R/B_USER_BKG so as to satisfy the specification.
(6) Input a gray scale to check the picture quality.
2. Adjustment of 6500K
(1) Receive MODE 29 (1280x1024 60Hz) 80IRE with digital input. Set SOURCEID1=11h.
(2) Set R_USER_DRV=220.
Set R_USER_BKG=128.
(3) Make adjustment with G/B_USER_DRV to set the chromaticity within the specification.
x adjustment ..... Make adjustment with B_USER_DRV.
(The value y also changes.)
B_USER_DRV UP Values x and y decrease.
B_USER_DRV DOWN Values x and y increase.
y adjustment ..... Make adjustment with G_USER_DRV.
G_USER_DRV UP Value y increases.
G_USER_DRV DOWN Value y decreases.
Spec: 6500K (x, y) = (0.314, 0.328)
Within 3JND at 80IRE
6500K (x, y) = (0.298, 0.317)
Within 4JND at 20IRE
Note: Make adjustment up to ± 0.002.(4) Make the signal 20IRE all white to check that it is within the specification.
(5) Input a gray scale to check the picture quality.
(5) (4) If out of specification, adjust the G/B_USER_BKG so as to satisfy the specification.
(6) Input a gray scale to check the picture quality.
3. Adjustment of 5000K
(1) Receive MODE 29 (1280x1024 60Hz) 80IRE with the digital input. Set SOURCEID1=12h.
(2) Set R_USER_DRV=215.
Set R_USER_BKG=130.
(3) Make adjustment with R/B_USER_DRV to set the chromaticity within the specification.
x adjustment ..... Make adjustment with B_USER_DRV.
(The value y also changes.)
B_USER_DRV UP Values x and y decrease.
B_USER_DRV DOWN Values x and y increase.
y adjustment ..... Make adjustment with G_USER_DRV.
G_USER_DRV UP Value y increases.
G_USER_DRV DOWN Value y decreases.
Spec: 5000K (x, y) = (0.345, 0.358)
Within 3JND at 80IRE
5000K (x, y) = (0.316, 0.335)
Within 4JND at 20IRE
Note: Make adjustment up to ± 0.002.
(4) Make the signal 20IRE all white to check that it is within the specification.
(5) Input a gray scale to check the picture quality.
(5) (4) If out of specification, adjust the G/B_USER_BKG so as to satisfy the specification.
(6) Input a gray scale to check the picture quality.
4. Data copy to USER
Set SOURCEID1=13h and copy the data of R/G/B USER DRV and R/G/B USER BKG of
SOURCEID1=11h (Adjustment of 6500K).

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							SDM-N80 (E) 2-4
•User Sensor Adjustment
(1) After clearing up to the position of 2m in front of the set, place an object
for sensor detection in front of the set.
< Condition >
The panel must be vertical.
Object: A4 size paper for instance
Position: Flush with right end of the screen at the height of set stand
Distance: 1m from the screen(4) After several seconds, check that IR_STATUS is 140 or less.
If IR_STATUS is not less than 140, write smaller value to
IRLED_PW1.
(5) Raise IRLED_PW1 by 3 steps, and after about 2 seconds, check if
IR_STATUS is 160 or more.
If IR_STATUS is not more than 160, raise further the IRLED by 3
steps.
Repeat this until the IR_STATUS exceeds 160.
(6) When IR_STATUS exceeded 160, write value attained by adding 30 to
the IRLED_PW1 value to the following:
IRLED_PW1
IRLED_PW2
IRLED_PW3
(7) Write 0 to AUTO_PW for service saving.(TOP VIEW)
SET
1m
1m (SIDE VIEW)
Object for detection
Object for detection
SET
(2) Set the AUTO_PW_SW to “1”.
(3) Write 40 to IRLED_PW1.

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							SDM-N80 (E) 3-1
SECTION  3
DIAGRAMS
3-1. BLOCK  DIAGRAMS
HOTPLUGD+D–USB POWERAUDIO_LAUDIO_RSUB_SDASUB_SCLPANEL_MODE
R/CrN1 139
B/CbIN1 133
G/YIN1 124SOGIN1 132
IC101
ROMSDA
SCL
VCLK 5
7 6
GREEN1
DDCGND1
H1
ADPDN
V1
INPUT1
(HD15)CN101
XPOWER SAVE 6
SDA_SC
SDA 9SCL_SC
SCL
GREEN2DDCGND2SDA2SCL2H2V2RXC–RXC+RX0+RX1–RX1+RX2–RX2+RX0–
GHS_AGCOAST
HOLD 106GHSFOUT
EVEN/ODD 108GCLK
1/2CLK 101GFBK
DSYNC/DIVOUT 103GSOG
SOGOUT 105G_SEPIN
G/YOUTH1_ADIN
SYNCIN1H2_ADIN
SYNCIN2 112 143
111GBLKSPLCLAMP
CLPIN 113
XCLK
CLK 99
1/2XCLK 10098
IC102
A/D CONVERTER
IC204
TMDS RECEIVER
RXC–
RXC– 90RXC+
RXC+ 89RX0–
RX0–RX0+
RX0+RX1–
RX1– 84 87
86RX1+
RX1+ 83RX2–
RX2–RX2+
RX2+
C3 681
80
IC202
ROM
VCLK
SCL
SDA 7
5 6
DDC_WPANALOG
C2 5C1 13
DIGITAL
C4 12OI4 10
SCL2
OI3 9OI2 3
SDA2
OI1 2
IC203
ROMSDA
SCL
VCLK 5
7 6
IO38IO24IO411IO11
V2
IC201
SELECTOR
GVSGHSFOUT GHS
GHS 144
GVS 159
GHSFOUT
GBLKSPL
GFBK 136 166
141
GCLK 158
GSOG
GPEN 151
152
GBLKSPLGFBKGCLKGSOGGPENGCOART
GCOART 142SDA_SC
PORTA0 53
RA0 – 7GRE0 – 7GRE0 – 7
GRE0 –7 21, 22, 24 – 28, 31208, 213 – 216, 221 – 223
QE16 – 23
GRE0 – 7 30 – 37GRO0 – 7
QQ16 – 2369 – 75, 77GBE0 –7
QE0 – 710 – 17
GRO0 – 7GRO0 – 7 34 – 41190 – 192, 197 – 200, 207GBE0 – 7GBE0 – 7 45, 44, 51 – 5326, 51, 52, 77, 78, 102, 109, 110
GRO0 – 7
GBE0 – 7 RB0 – 7
BA0 – 7
GBO0 –7
QQ0 – 749 – 56GBO0 – 7GBO0 – 7 56 – 58, 60 – 6423, 24, 48, 49, 74, 75, 99, 100
GBO0 – 7 BB0 – 7
GGE0 –7
QE8 – 1520 – 27GGE0 – 7GGE0 – 7 68 – 75128, 133, 135, 181 – 184, 189
GGE0 – 7 GA0 – 7
GGO0 –7
QE8 – 1559 – 66GGO – 7GGO0 – 7 78, 81 – 85,
87, 88103, 104, 111, 112, 117 – 120
GG0 – 7 GB0 – 7 10
R/CrIN2 141B/CbIN2 136G/YIN2 126SOGIN2 135
PDGCLK
2
44 PD
ODCKPDO
9
PDO
SCDT
8
SCDTGPEN
46
DEV3 47
VSYNCH3 48
HSYNCGVS_DGHS_DGFBK
INPUT2
(DVI-I) CN201
SW
Q201
INVERTER
Q310IC408
ROM
WP
SCL
SDA7
5 6
PORTA4 83
SCL_SC
PORTA1 54
PORTB3 4PORTB4 58
PORTB5
PORTB6 31
5
PRE_PXOFFPRE_ADCPDBL_MUTEAU_MUTEPX_WD
PORTB7 32
SW
Q4063 4SW
Q4052 6
X401
21.6MHz1IC406
PLL CLOCK
MULTIPLIER
S1
S0
CLK5 X1
6 5
DCKEXT 341
IC407
PLL CLOCK
MULTIPLIER
3 2
MCKEXT 315
X1 CLK5
1
IC409
X402
21.6MHz
IC401
SCAN CONVERTER
DRE0 – 7
DBE0 – 7
DGE0 – 7
DRO0 – 7
DBO0 – 7
DGO0 – 7231, 237 – 240,
248, 273, 27416 – 23
R0 – 7
292, 295,
317 – 319, 322,
323, 3492 – 5,
44 – 47
B0 – 7245, 270, 272,
297, 300, 324,
350, 3516 – 11,
14, 15
G0 – 7260, 286,
310 – 312,
337 – 33916, 23
R0 – 7IC601
GVIF TRANSMITTER254, 279, 303,
305 – 307,
330, 3322 – 5,
44 – 47
B0 – 7256, 257, 282,
283, 309, 333,
334, 3366 – 11,
14, 15
G0 – 7 DRE0 – 7
DBE0 – 7
DGE0 – 7
DRO0 – 7
DBO0 – 7
DGO0 – 7
IC410
FLASH ROM
A1 – 18
209 – 212, 217,
219, 220, 233,
235, 242 – 244,
249, 251, 275,
276, 301, 3273 – 11,
34 – 42
A0 – 17 A1 – 18
D0 – 15130, 131, 139,
140, 145, 146,
153 – 156, 163,
164, 169,
170 – 17215 – 22,
24 – 31
DQ0 – 15 D0 – 15
PORTA22 27
WPROMOE14 186
QEROMWE43 185
WE
DCLKDHSDVSDEN
SFTCLK
HSYNC
VSYNCDE40
41
43 42
DCLKDHSDVS DEN
SFTCLK
HSYNC
VSYNCDE40
41
43 42
DENGDCLKDHSDVS DENG
DCLK
DHS
DVS264
287
263
289
IC309 (1/3)RXD
TXD
RXD
TXD79
80
DVS
RESET105
PORTA5
IC405
INVERTER
PANEL_MODERESET_SC
29RX_RSTN
IC404
RESETINVERTER
Q404
+3.3V GVIF_ON
26
CEGVIF_ON26
CE
SDATAP30SDATAN31
4
6
9
11
15
16
17
18
24
26
31
33
35
36
13
2
38SDATAN-B
SDATAP-B
SDATAN-A
SDATAP-A
B-CPU-ST
PANEL MODE
SCL
SDA
AUDIO-R
AUDIO-L
USB POWER
USB SIG–
USB SIG+
HOTPLUG
STBY6V
PANEL/DVIF 18V
BL18V
CN603
A
TO B BOARD
CN1201
31
SDATAN
30
SDATAPCPU_ST
+5V
1
2
3
4
5
6+18V
+18V
+18V
+18V
+18V
+18V
CN604
B
TO Q BOARD
CN961
1
2
3
7
8CONV_4V
CONV_4V
CONV_4C
CONV_6V
CONV_6V
CN502
C
TO Q BOARD
CN963
+18V+4V+6V12
A (1/2)
B-SS3558-BD1-EPS05
A/D CONVERTER, TMDS RECEIVER, DDC,
SCAN CONVERETER, GVIF TRANSMITTER
IC602
GVIF TRANSMITTER

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							SDM-N80 (E) 3-2
A (2/2)µ-COM, SYNC_IRQ GENERATOR,
SYNC SEPARATOR, INPUT SELECT
INPUT
SELECT
IC310 – IC313
SYNC_IRQ1
SYNC1_IRQ H1 75
SYNC_IRQ2
SYNC2_IRQ H2 76
V1V2
COMP1
COMP1 GREEN1 97COMP2
COMP2 GREEN2 98HIN
HIN GHS 65VIN
VSIN GVS 23POLH
SYNC_SEP1 CLAMP 82
DDC_GND1 DDC_GND1 113DDC_GND2 DDC_GND2 114ADP_DN ADPDN 101SCDT SCDT 77PDD PDO 100PD PD 99DDC_WP DDC_WP 102P73/DA0 PRE_PXOFF 40P74/DA1 PRE_ADCPD 41P84/AN4 BL_MUTE 50P85/AN5 AU_MUTE 51P86/AN6 PX_WD 52DIGITAL ANALOG 61
EXIH
SYNC_SEP2 G_SEPIN 83POLV
SYNC_SEP3 GHS_A 84EXIV
H_SEPIN
SYNC_SEP4
ANA_DIG
X0A
X1A GHS_D
GVS_DH1H2H3V1V2V3H1_ADINH2_ADIN85
58
74
73
SYNC_IRQ
GENERATOR
IC103,
Q101 – Q128SYNC
SEPARATOR
IC301, IC308
IC314, Q304V_SEPIN
65
IC309
(2/3)
X302
32.768kHz
X0
X1
INPUT_SEL 92
93
103EEP_WP 55EEP_SCL 56EEP_SDA WC
SCL
SDA57 7
6
5 X301
4MHz
IC304
EEP ROM
INVERTER
Q302
INVERTER
Q303
1
2
5
6
7
8
12
13
10
11STBY_6V
STBY_6V
POWERON
PON_4
PON_6
PON_13
ANALOG
DIGITAL
RXD
TXD10
7
8
3
4
6
5
2
1PX_RSTN
RXD
TXD
TVPP1
TRES
TCK
TAUS
TAUX3
TMODE
POWER_ON+6V
TO Q BOARD
CN962
PON_4PON_6PON_13ANALOGDIGITAL
1
24
53
60
116
81
70
71
72
112141213
1011886
6 3
890
89 11
95
8766
68
110
109 69 92
4
+5V
10 3
11
5 DVS
VSOUT
PANEL_DET2
PANEL_MODE
RESET_SC
GVIF_ON
SUB_SDA
SUB_SCL
SUB_IRQ
P_MEM
SC_SEL
SC_RX
SC_TX
ECS_RX
ECS_TX
WDT
HST
RESET
WDT_STOP
TCK
TAUX
MD2
MD0
USB_SEL
HUBON
USB1_EXIST
USB2_EXIST
AUDIO_SEL
LED_GREEN
LED_REDHOTPLUG
PANEL_MODE
RESET_SC
GVIF_ON
SVB_SDA
SVB_SCL
CPU_ST
1CKIC305 D-FF
IC303 RESET/WDT 2CK
CLK
RSTN 1Q
RCT
2
4IC306
Y
A
1
OE
FLASH SW
Q301CN301 CN501
7
6
5
4
3
2
1D+
D–
US_P_CONT
HUBON
USB_SEL
UP2_EXIST
UP1_EXIST
CN602
1
2
3
7
8CONV_4V
CONV_4V
CONV_4V
CONV_6V
CONV_6V
CN502
1
3
5AUDIO_R
AUDIO_L
AUDIO_SEL
CN601
USB POWERD–
AUDIO_L AUDIO_RD+
SW
Q306
SW
Q307
2
3
1LED_GREEN
LED_RED
STBY 5V
CN302
111
POWER_ON106
PON_4
107
PON_6
108
PON_13
105
+6V
IC501
+5V REGIC502
+3.3V REGIC503, IC505
+3.3V REGIC504
+3.3 REGIC507, IC508
+5V REG
IC506
+2.5V REG +5V
+3.3V +4V +3.3V +4V+3.3V +6V +5V +4V+5V
+6V +4V+2.5V
+2.5V
B-SS3558-BD2-EPS05 PON_S33
2
INVERTER
Q305
H2 
(AC POWER LED)
IO
IO
IO
IOIO
IO
3
2
4 LED_GREEN
LED_RED
STBY 5V
CN95
LED DRIVE
Q96
LED DRIVE
Q95
AC
POWERD95 +5V
+5VG
R IC302
CPU
1D
1PR
2PR
IC309
(3/3)
IC307
TXD
RXD45
610 98 9
8 13
21311
12
FLASH
D
TO Q BOARD
CN903
E
TO Q BOARD
CN932
F
TO Q BOARD
CN963
G
POWER_ONM_RSTN M_RSTN
PON_4
PON_6
PON_13 117
64
67
IC509+
– +5V3
21
SW
Q501, 502

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							SDM-N80 (E) 3-3
9
11
4
6
15
16
17
18
24
26
31
33
35
36
2
38
13 SDATAN-A
SDATAP-A
SDATAN-B
SDATAP-B
B-CPU-ST
PANEL MODE
SCL
SDA
AUDIO_R
AUDIO_L
USB_POWER
USB SIG–
USB SIG+
HOT PLUG
PANEL /DVIF 18V
BL18V
STBY6V
TO A BOARD
CN603A
SCL B_CPU_STSDAAUDIO_RAUDIO_LUSB D+USB POWERUSB D–
A7 A8
A10 A11
A13 A14
A17 A18A20 A21
A23 A24
A27 A28
A30 A31
RA0
ı
RA7
GA0
ı
GA7
A37 A38
A40 A41
A43 A44
A46 A47BA0
ı
BA7
A33 CLKA
A35 DEA
R OLD0 – 7 R0 –718, 19, 22 – 25, 30, 31G OLD0 – 7 G0 –7
SFTCLK
DE6, 7, 10 – 15B OLD0 – 7 B0 –72 – 5, 58, 59, 62, 63
51
50
REFRQN
SDATAN
SDATAP
REFRQP
SDATAN REFRQN
REFRQP SDATAP 42
41
40
39
42
41
40
39B7 B8
B10 B11
B13 B14
B17 B18
B20 B21
B23 B24
B27 B28
B30 B31
RB0
ı
RB7
GB0
ı
GB7
B37 B38
B40 B41
B43 B44
B46 B47BB0
ı
BB7
B33 CLKB
B35 DEBA5
A1 – A3
B1 – B3BLON_P
VCC
R NEW0 – 7 R0 –718, 19, 22 – 25, 30, 31G NEW0 – 7 G0 –7
SFTCLK
DE6, 7, 10 – 15B NEW0 – 7 B0 –72 – 5, 58, 59, 62, 63
51
50
BL_ON_P CN1201CN1204
1
2
5
6
7
8
3
4 TMODE
TAUX3
TAUX
TCX
RXD
TXD
TVPP1
TRES
CN1402IC1202 GVIF RECEIVER IC1201 GVIF RECEIVER
+5V
BL ON SW
Q1205
PON_P12PROTECT
USB POWER
USB D–USB D+USB DET
B_CPU_ST
P71/IRQ1 48+12V
+18V
+12V SW
Q1202, 1203
LCD
DISPLAY
2
3
4
5
1
8PROTECT
USB POWER CONT
USB D–
USB D+
USB 18V
USB DET
TO US BOARD
CN1101H
CN1203
B
SUB µ-COM, GVIF RECEIVER,
D/D CONVERTER, INVERTER,
AUDIO, SENSOR AMP
+5V+6V +18V
SW
Q1204
+18V SW
Q1201
FLASH
BL_ON_P
P07/IRQ1 92SDA
P50/SDA0/SOT0 28SCL
P51/SCL0/SIN0 29
MD0 49MD2 51P00/AD00 85P40/SCK 18P42/SIN 20P41/SOT 19FLASH SW
HSTX
PA2
RSTX 76IC1310
INVERTER CONTROLLER IC1300
+18V
T1303
SWITCHING
Q1312
SW
Q1308
CLAMP SW
Q130724
86
+
–IC1309
(2/2)
76
5
+
– +5V3
21
ENANDA
PDA
CMP
FB
LCLMP
HCLMP11
10G1S1 S2
G2D1
D2
7
6
3
2 CT
ADJ
REF 12
14
5
1
1
2HOT-4
COOL-4
CN1303
IC1307
INVERTER CONTROLLER
T1302
SWITCHING
Q1311
SW
Q1306
CLAMP SW
Q130524
86
+
–IC1309
(1/2)
12
3
ENANDA
PDA
CMP
FB
LCLMP
HCLMP11
10G1S1 S2
G2D1
D2
7
6
3
2 CT
ADJ
REF 12
14
5
1
1
2HOT-3
COOL-3
CN1302
IC1305
INVERTER CONTROLLER
T1301
SWITCHING
Q1310
SW
Q1304
CLAMP SW
Q130324
86
+
–IC1304
(2/2)
76
5
ENANDA
PDA
CMP
FB
LCLMP
HCLMP11
10G1S1 S2
G2D1
D2
7
6
3
2 CT
ADJ
REF 12
14
5
1
1
2HOT-2
COOL-2
CN1301
IC1302
INVERTER CONTROLLER
T1300
SWITCHING
Q1309
SW
Q1301
CLAMP SW
Q130024
86
+
–IC1304
(1/2)
12
3
ENANDA
PDA
CMP
FB
LCLMP
HCLMP11
10G1S1 S2
G2D1
D2
7
6
3
2 CT
ADJ
REF
IC1452 AMP
IN1+IN1–
OUT1
OUT2
IN2– IN2+
IC1501
POWER AMPIN_B–OUT_A+
OUT_A–
OUT_B+
OUT_B–
HP_IN IN_A–
SDOWN
IC1505 AMPIC1451 AMP
OUTBINB–
INA–
OUTA IC1502
AUDIO CONTROL
L_IN IN_R
L_OUT
BOUT_R
BIN_R
BOUT_L
BIN_L R_OUT
SDA
SCL12
14
5
1
1
2HOT-1
COOL-1
CN1451
CN1501
CN1502 CN1300
1
2ROUT+
ROUT–2
3
4
7
8
9
10
11
12
16
15
13
145V (STBY)
5V (SENS)
12V
PWKEY
KEY
PWLED_G
PWLED_R
LEDCLK
LEDDATA
BRT DET
IRDET
IRLED1
IRLED2
+5V
TO H1 BOARD
CN001
I
+12V
BL ON
PWM
BL_STAT
H_PWKEYH_KEYH_PWLEDGH_PWLEDRH_LEDCLKH_LEDDATAH_BRTDETIROUTH_IRLED1H_IRLED2H_PPG2
H_PPG4
AUDIO_R
AUDIO_L
SDA
SCL6
116
15
1 19
2016
17
15
14
13
12
RESETHP_STAT
MUTEAUDIO_ON
PON_5AUPON_G33R
AUDIO ON3
53
5
10
13
14127 6
8
9
1
2
BUFF
Q1451
AMP
Q1452
BUFF
Q1454
AMP
Q1456
AMP
Q1455
IN2+
IN3+
IN4+
OUT4IN2–
IN3–
OUT1
IN1– OUT2
IN4+
OUT3 IN1+
1
2LOUT+
LOUT–
3
2
5R OUT
L OUT
HP_STAT
CN1503
3
2
5 R OUT
L OUT
HP_STAT
CN1701
RESET
Q1505
HP SW
Q1506
LATCH
Q1512MUTE SW
Q1503, 1504,
1508
3
5
18
16
20
IC1503
+9V REG+9V +18VIO
IC1204, IC1205
+3.3V REG+3.3V +5VIO
IC1203
+5V REG+5V +6VIO
7
16
2
SWITCHING
Q1615AMP
Q1610, 1611
+18V
+5V
+18V
+12V
AUDIO +5V SW
Q1613, 1614
PROTECT
Q1612
+5V
SWITCHING
Q1665SWITCHING
Q1685
PROTECT
Q1662PROTECT
Q1682
AMP
Q1660, 1661AMP
Q1680, 1681
PROTECT IC1651 SW CONTROLLER IC1601 SW CONTROLLER
DT1
INV1
FB1
VREF
DT2
INV2
FB2 6 310
14 6
16
11
13
124
5
16
11
13
1210
14
7
3 OUT2
NON2
OUT1
NON1
PROTECT
AUDIO ON
NON1 OUT2
NON2 DT1
VREF
DT2
INV2
FB2
P17/AD15
X0 100 PON_G33R82
X1
83P13/AD11 96 PON_5AU
P12/AD10 95 AUSCLP11/AD09 94 AUSDAP10/AD08 93 PROTECTP96/PPG4 73 H_PPG4P94/PPG2 71 H_PPG2P92/PPG0 69 PWMP86/IN2 65 H_REMP70/IRQ0 47 H_PWKEYP67/AN7 46 H_KEYP65/AN5 44 H_BRTDETP63/AN3 41 IROUTP61/AN1 39 BL_STATP60/AN0 38 BL ONP31/RDX 10 H_LEDDATAP30/ALE 9 H_LEDCLKP27/A23 8 MUTE
P24/A20 5 HP_STATP23/A19 4 H_IRLED2P22/A18 3 H_IRLED1P21/A17 2 H_PWLEDRP20/A16 1 H_PWLEDGP80/TIN0 59 USB DETP16/AD14 99 PON_P12
IC1401
RESET/ WDT
RESETRCT
CK
RST
6
3
852
78
77
X1401
4MHz
FLASH SW
Q1401
CN1700
(HEADPHONE)
U
(PHONE)
IC1402 SUB-CPU
(SPEAKER R)
(SPEAKER L)
B-SS3558-BD3-EPS05LCD
BACK LIGHT
LCD
BACK LIGHT
LCD
BACK LIGHT
LCD
BACK LIGHT

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							SDM-N80 (E) 3-4
QD/D CONVERTER,
AUDIO IN,
USB CONTROL
1
2
3
7
8CONV_4V
CONV_4V
CONV_4V
CONV_6V
CONV_6V
CN963CN001
CN1101
TO A BOARD
CN502
G
3
5
6
7
1
2
4USB_SEL
US_P_CONT
D–
D+
UP1_EXIST
UP2_EXIST
HUB ON
CN903
TO A BOARD
CN602
E
8
1
2
10
11
12
13
5PON_12
STBY 6V
STBY 6V
RXD
TXD
ANALOG
DIGITAL
POWER_ON
CN962
TO A BOARD
CN501
D
1
2
3
4
5
618V
18V
18V
18V
18V
18V
CN961
8
7
6
1
2 +18V
+18V
+18V
STBY 6V
POWER_ON
CN960
TO A BOARD
CN604
B
5
3
1AUDIO_SEL
AUDIO_L
AUDIO_R
CN932
TO A BOARD
CN601
F
+5V
IC963
+5V REG
OI
+3.3V +5V
IC903
+3.3V REG
OI
SWITCHING
Q964SWITCHING
Q965
AMP
Q962, 963AMP
Q966, 967
IC960 SW CONTROLLER+18V
11
13
12
6
4
5DT2
INV2
FB2
DT1
INV1
FB110
14
7
3 OUT2
NON2
OUT1
NON1
3
2
13
2
1
25
1
3
5
2
9
1210
13
3
11
6
82410
43
42 41
40
37 +3.3VX901
12MHz
IO
+18V+6V
876
543
21
V1IC931
AUDIO_L INPUT SELECT CN902
CN901
V2 1
3SW1
V_OUT2
7V1IC932
AUDIO_R INPUT SELECT
J961
ECS V2 1
3SW1
V_OUT2
7
–IN2IC930
ISOLATOR IC902
RESET IC906
USB SELCTOR
IC901
USB HUB
–IN1 6
2OUT2
OUT17
1
INVERTER
Q902
POWER SW
Q901
AC IN
SWITCHING
REGULATOR
+6V +18V5
3
113
1412
11
2R1IN
T1OUT
V+R1OUT
T1IN IC965
RS232 DRIVER
+12VIC961
+12V REG
OI
ANALOGDIGITALS960
INPUT1
AUDIO INCN930INPUT2
AUDIO INCN931
XOUT
XIN
DM0
DP0
RST
POW_1
DM1
DP1 10E
20E
2A
1A
3A
4A30E
40E
1B
4B
2B
3B
10
9
14
12
11
13
5
6
19
18
17
7
8 LEDCLK
LEDDATA
PWKEY
PWLED_G
PWLED_R
KEY
BRTDET
IRDET
5V (STBY)
5V (SENS)
12V
IRLED2
IRLED12
4
5
3
1 PROTECT
USB D–
USB D+
USB POWER CONT
USB 18V
 LED DRIVE
Q013
 PROTECT
Q1105
 LED DRIVE
Q011, 012
IN1
OUT1
OUT2
IN2
OUT
VCCIC011
LIGHT SENSOR
D013+5V+12VKEY +12V+5V
+5V3
357
+5V
D011, 012DET OUT
IC031, 032, 041, 051, 052, 061, 071,
072, 081, Q001 – 006 PWKEY3
2CLOCK
DATA
LED_G
LED_R
+12V
D22
D25
D21D35
D36 D23 D24 D28
D26 D37D38
D39 D27
+5V
4
6
10
5
7
8
912
1413Q0
Q2
Q6
Q3
Q4
Q8
Q5
Q9
Q10 Q1
IC011
AMP
MENU TP001MENU D021, 022
VOLUMED027 TP002
BRIGHTTP004
BRIGHTD023
CONTRASTTP005
CONTRASTD024
INPUTD028OK D37
DOWND035
UP D036
IN-1D38IN-2D39
– D025
+ D026
–/
DOWNTP006
INPUT/
OK TP003
+/
UP
+5V
G
AD001
S001 IC36
LED
CONTROL
LED_R
LED_G
PWKEY
POWER D001, S001
D011 – D013
IR LEDH(USER CONTROL)
US
(USB CONTROL)
3
2
11
2
3 CN1102
CN1103 IC1101
UBS HUB
IC1106 REGULATOR
IC1105 +3.3V REG
IC1103 SW CONTROLLERIC1104
RESET +3.3V
+5.5V
X1101
12MHz +5.5VIO
IO
 SWITCHING
Q1106 BUFF 
Q1101, 1102
POWER SW
Q1104POWER SW
Q1103
NON2
DT2
VREF
DT1
OUT1
NON1 INV1
FBI 14
12
16
6
4
57
3
DM0
DP0DP1
DM1
DVR-1
POW_1
POW_2
DVR-2
DP2 DM2 RST
XOUT
XIN 41
40
37
25
2442
43
32
2 3 11 10 31
5 11 16
7 3 15
121
FLG1
VC1
VC2 VC1
VC2V OUT1
V OUT2
FLG2
TO B BOARD
CN1451
I
TO B BOARD
CN1203
H
AMP
Q016
REF
IR SENSOR
Q015
B-SS3558-BD4-EPS05

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							SDM-N80 (E) 3-5
3-2. FRAME  SCHEMATIC  DIAGRAMCN101
HD15P
INPUT1INPUT1CN201
DVI-I
1
2
3
4
CN302
4PSTBY5V
GND LED_GREEN
LED_RED
1
2
3
4
5
6
7
8
9
10CN301
10PTMODE
TAUX3
TVPP1
TRES
TAUS
TCK
RXD
TXD
GND
PX_RSTN
FLASH
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
A23
A24
A25
A26
A27
A28
A29
A30
A31
A32A33
A34B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
B21
B22
B23
B24
B25
B26
B27
B28
B29
B30
B31
B32
B33
B34A35
B35
CN401
70PGND
A19
GND
A18
GND
A17
GND
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
GND
BHENN
GND
ROMOEN
GND
ROMOEN
3.3V
3.3V
3.3V
CS2
3.3V
CS3
GND
RESETN
GND
GND NMI
FCEN
GND
BOOTWE
GND
VPPEN
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
NC
NC
6V
6V
6V
6V ROMWEN
ROMWEN
1
2
3
4
5
6
7
8
9
101
2
3
4
5
6
7
8
9
10
11
12
13
CN502 CN501
10P 13PSTBY_6V
STBY_6V
GND
GND
POWERON
GND
RXD
TXD
ANALOG
DIGITAL
CONV_4V
CONV_4V
CONV_4V
GND
GND
GND
GND
GND CONV_6V
CONV_6VPON_4
PON_6
PON_13
1
2
3
4
5
6
7
8
9
10
11
12
CN604
12PGND
GND +18V
+18V
+18V
+18V +18V
+18V
GND
GND
GND
GND1
2
3
4
51
2
3
4
5
6
7
8CN601
CN6025P
8P
AUDIO_SEL AUDIO_GNDAUDIO_L AUDIO_GNDAUDIO_R
1
2
3
4
5AUDIO_SEL AUDIO_GND AUDIO_LAUDIO_GND AUDIO_R
UP1_EXIST
UP2_EXIST
USB_SEL
US_P_CONT
D-
D+
GND HUBON
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
3637
38
CN603
38PBL GND CN-SENS
SDA PANEL MODE
AUDIO-R
AUDIO-L GVIF-GND
GND SCL SDATAGND-A
SDATAGND-B
PANEL/GVIF GNDGVIF-GND
GVIF-GND GVIF-GND
STBY5V
B-CPU-ST
AUDIO-GND1
AUDIO-GND1
AUDIO-GND2IEEE1394 TPB*
IEEE1394 TPB*
IEEE1394 TPA*
IEEE1394 TPA*USB POWERUSB POWER GNDUSB SIG-USB SHIELD GNDUSB SIG+
HOT PLUG
BL18VPANEL/GVIF 18VSDATAN-B
SDATAP-B
SDATAN-A
SDATAP-A
AUDIO-GND1
AUDIO-GND1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
3637
38CN603
38PBL GND CN-SENS
SDA PANEL MODE
AUDIO-R
AUDIO-L GVIF-GND
GND SCL SDATAGND-A
SDATAGND-BPANEL/GVIF GNDGVIF-GND
GVIF-GND GVIF-GND
STBY5V
B-CPU-ST
AUDIO-GND1
AUDIO-GND1
AUDIO-GND2IEEE1394 TPB*
IEEE1394 TPB*
IEEE1394 TPA*
IEEE1394 TPA*USB POWERUSB POWER GNDUSB SIG-USB SHIELD GNDUSB SIG+
HOT PLUG
BL18VPANEL/GVIF 18VSDATAN-B
SDATAP-B
SDATAN-A
SDATAP-A
AUDIO-GND1
AUDIO-GND1
A
H
1
2
3
4
5
6
7
8CN1203
8P
USB GND
USB DET
USB POWER CONTUSB D-
USB D+USB SHIELD GND
USB 18V
PROTECT
A1
B1
A2
B2
A3
B3
A4
B4
A5
B5
A6
B6
A7
B7
A8
B8
A9
B9
A10
B10
A11
B11
A12
B12
A13
B13
A14
B14
A15
B15
A16
B16
A17
B17
A18
B18
A19
B19
A20
B20
A21
B21
A22
B22
A23
B23
A24
B24
A25
B25
A26
B26
A27
B27
A28
B28
A29
B29
A30
B30
A31
B31
A32
B32
A33
B33
A34
B34
A35
B35
A36
B36
A37
B37
A38
B38
A39
B39
A40
B40
A41
B41
A42
B42
A43
B43
A44
B44
A45
B45
A46
B46
A47
B47
A48
B48
A49
B49
A50
B50
CN1204
FX10A-100SGND
GND VCC
VCC
RA0 RA1 RA2 RA3 RA4 RA5 RA6
RB0 RB1 RB2 RB3 RB4 RB5 RB6
GND
GND
GND
GND
GB0 GB1 GB2 GB3 GB4 GB5 GB6 GB7
GA0 GA1 GA2 GA3 GA4 GA5 GA6 GA7
GND
GND
CLKA
CLKBGND
GND
DEA
DEB GND
GND
BA7
BB7
BA6
BB6
BA5
BB5
BA4
BB4
BA3
BB3
BA2
BB2
BA1
BB1
BA0
BB0 GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND VCC
VCC
VCC
VCC
GND
GND
RA7
RB7
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND WHT BLON-P
1
2
3
4
5
6
7
8
9
10CN1402
10P1
2
3
4
5
6
7
8
9
10TMODE
FLASHTAUX3
TVPP1
TRES
TAUX
TCK
RXD
TXD
GND
SUB5V
1
21
21
21
2
CN1300
CN1301
CN1302
CN13032P
BHS
2P
BHS
2P
BHS
2P
BHSHOT-1
HOT-2
COOL-2 COOL-1
HOT-3
COOL-3
HOT-4
COOL-4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
CN1451
20P
12V
GND
GND
PWLED_G
PWLED_R
LEDDATA
IRLED1
IRLED2
IRDET
H_AGND LEDCLK 5V(STBY)
5V(SENS)
BRTDET
H_AGND PWKEY
KEY PON_5KY
H_REV1
H_REV2
1
21
21
2
3
4
5CN1501
CN1502CN1503
2P RED
2P WHITE 5PROUT+GND
L OUT
R OUT
GND
HP-STATROUT-
LOUT+
LOUT-
(SPEAKER R)
(SPEAKER L)
1 2 3
4 5 6 7 8
9 10 11
12 13 14 15 16
17 18 19
20CN001
(20P)
5V(STBY)
5V(SENS)
12V
GND
GND
KEY PWKEY
PWLED_G
PWLED_R
LEDCLK
LEDDATA
IRLED1
IRLED2
IRDET
BRTDET
H_AGND
H_AGND
H_REV1
H_REV2 PON_5KY
1 2
3 4CN95
4PGNDLED_GREEN
LED_RED STBY 5V
H2(AC POWER LED)(USER CONTROL)
US(USB CONTROL)
1
2
3
4
5
6
7
8CN903
8PD-
D+
GNDUS_P_CONT HUB ON USB_SEL UP2_EXIST
UP1_EXIST1
2
3
4
5
6
7
8
9
10
11
12CN961
12P18V
18V
18V
18V
18V
18V
GND
GND
GND
GND
GND
GND
1 2 3 4 5
6 7 8
CN960
8PGND
GND +18V
+18VPOWER_ON+18V
GNDSTBY 6V
1
2
3
4
5
6
7
8
9
10CN963
10PCONV_4V
CONV_4V
CONV_4V
GND
GND
GND
CONV_6V
CONV_6V
GND
GND1
2
3
4
5
6
7
8
9
10
11
12
13CN962
13PSTBY 6V
GND
GND STBY 6V
POWER_ON
GND
RXD
TXD
ANALOG
DIGITAL PON_4
PON_6
PON_12CN932
5P
876
54321 J961
ECS
AC IN
SWITCHING
REGULATOR
QD/D CONVERTER,
AUDIO IN,
USB CONTROL()
B
SUB µ-COM, GVIF RECEIVER, 
D/D CONVERTER,
INVERTER, AUDIO, SENSOR AMP()
CN930
CN9313P
3PINPUT1
AUDIO ININPUT2
AUDIO IN
LCD
DISPLAY
LCD
BACK LIGHTLCD
BACK LIGHTLCD
BACK LIGHTLCD
BACK LIGHT
1
2
3
4
5
6
7
8CN1101
8P
USB D-
USB D+
USB GND
USB DETUSB POWER CONT
USB SHIELD GNDPROTECT USB 18V
1
2 3 4 5
6 7
CN1700
(HEAD PHONE)CN1701
7P
GND L OUT
R OUTGND
HP_STATS-GND S-GND
U(PHONE)
B-SSS3558-KESSENZU-EPS05
A/D CONVERTER, SYNC_IRQ GENERATOR,
TMDS RECEIVER, DDC, µ-COM, INPUT SELECT,
SYNC SEPARATOR, SCAN CONVERTER,
GVIF TRANSMITTER ()

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