Sony KE-32TS2U User Manual
SERVICE MANUAL
SPECIFICATIONS
KE-32TS2U
US Model
Canadian Model
Television system:
American TV standard
Channel coverage:
VHF: 2–13/UHF: 14–69/CATV: 1–125
Antenna:
75 Ω external terminal for VHF/UHF
Screen size (measured diagonally):
32 inches
Panel System:
Plasma Display panel
Display resolution:
852 dots (horizontal) x 1024 lines (vertical)
VIDEO IN 1/2:
S VIDEO IN (4-pin mini DIN):
Y:1 Vp-p, 75 Ω unbalanced,
sync negative
C:0.286 Vp-p (Burst signal),
75 Ω
VIDEO (phono jack):
1 Vp-p, 75 Ω unbalanced, sync
negative
AUDIO (phono jacks):
500 mVrms (100% modulation),
Impedance: 47 kΩ
VIDEO IN 3:
DVI-HDTV: 1 terminal, 3.3V T.M.D.S., 50 Ω
DVI-HDTV input terminal is compliant
with the EIA-861 standard and is not
intended for use with personal computers.
AUDIO (phono jacks):
500 mVrms (100% modulation),
Impedance: 47 kΩ
VIDEO IN 4:
Y:1 Vp-p, 75 Ω, 0.3 V negative sync
B
:0.7 Vp-p, 75 Ω
P
R
:0.7 Vp-p, 75 Ω
P
or
G:0.7 Vp-p, 75 Ω, Sync on Green
B:0.7 Vp-p, 75 Ω, Sync on Green
R:0.7 Vp-p, 75 Ω, Sync on Green
or
G:0.7 Vp-p, 75 Ω, non Sync on Green
B:0.7 Vp-p, 75 Ω, non Sync on Green
R:0.7 Vp-p, 75 Ω, non Sync on Green
HD:1–5 Vp-p
VD:1–5 Vp-p
AUDIO (phono jacks):
SUB WOOFER:
AUDIO OUT (phono jacks):
Headphones: Stereo minijack
CONTROL S IN/OUT:
Speaker: 50 x 130 mm (2 x 5 1/8 inches)
Speaker output: 7W
Power requirement:
500 mVrms (100% modulation),
Impedance: 47 kΩ
phono
jack
500 mVrms (100% modulation)
minijacks
x
2
x
2
120 V AC, 60 Hz
Power consumption:
Dimensions (W/H/D):
Mass: 26 kg (57 lbs 3 oz.)
Supplied accessories
Optional accessories
Note that some optional accessories may be out of
stock.
Headphones plug adapter
Connecting cables
Design and specifications are subject to change
without notice.
In use (Max.): 300W
In standby: 1.7W
856 x 627 x 132 mm
3
/4 x 24 3/4 x 5 1/4 inch)
(33
Remote control RM-928Y (1)
Batteries size AA (2)
75 Ω coaxial cable (1)
AC power cord (1)
Brackets (2)
Cleaning cloth (1)
Operating instructions (1)
VMC-810S/820S, YC-15V/30V,
RK-74A, VMC-10HG, SMF-403
FLAT PANEL COLOR TELEVISION
1.5 k
Ω
0.15 µF
AC
Voltmeter
(0.75 V)
To Exposed Metal
Parts on Set
Earth Ground
SAFETY CHECK-OUT
After correcting the original service problem, perform the following safety
checks before releasing the set to the customer:
1. Check the area of your repair for unsoldered or poorly-soldered
connections. Check the entire board surface for solder splashes and
bridges.
2. Check the interboard wiring to ensure that no wires are “pinched” or
contact high-wattage resistors.
3. Check that all control knobs, shields, covers, ground straps, and
mounting hardware have been replaced. Be absolutely certain that you
have replaced all the insulators.
4. Look for unauthorized replacement parts, particularly transistors, that
were installed during a previous repair. Point them out to the customer
and recommend their replacement.
5. Look for parts which, though functioning, show obvious signs of
deterioration. Point them out to the customer and recommend their
replacement.
6. Check the line cords for cracks and abrasion. Recommend the
replacement of any such line cord to the customer.
7. Check the connector shell, metal trim, “metallized” knobs, screws, and
all other exposed metal parts for AC Leakage. Check leakage as described right.
LEAKAGE TEST
The AC leakage from any exposed metal part to earth ground and from all
exposed metal parts to any exposed metal part having a return to chassis,
must not exceed 0.5 mA (500 microamperes).
Leakage current can be measured by any one of three methods.
1. A commercial leakage tester, such as the Simpson 229 or RCA WT540A. Follow the manufacturers’ instructions to use these instruments.
2. A battery-operated AC milliammeter. The Data Precision 245 digital
multimeter is suitable for this job.
3. Measuring the voltage drop across a resistor by means of a VOM or
battery-operated AC voltmeter. The “limit” indication is 0.75 V, so
analog meters must have an accurate low-voltage scale. The Simpson 250
and Sanwa SH-63Trd are examples of a passive VOMs that are suitable.
Nearly all battery operated digital multimeters that have a 2 V AC range
are suitable. (See Fig. A)
Fig. A. Using an AC voltmeter to check AC leakage.
KE-32TS2U(UC) 2
SAFETY-RELATED COMPONENT WARNING!!
COMPONENTS IDENTIFIED BY SHADING AND MARK ! ON THE
SCHEMATIC DIAGRAMS, EXPLODED VIEWS AND IN THE
PARTS LIST ARE CRITICAL FOR SAFE OPERATION. REPLACE
THESE COMPONENTS WITH SONY PARTS WHOSE PART
NUMBERS APPEAR AS SHOWN IN THIS MANUAL OR IN
SUPPLEMENTS PUBLISHED BY SONY. CIRCUIT ADJUSTMENTS THAT ARE CRITICAL FOR SAFE OPERATION ARE
IDENTIFIED IN THIS MANUAL. FOLLOW THESE PROCEDURES
WHENEVER CRITICAL COMPONENTS ARE REPLACED OR IMPROPER OPERATION IS SUSPECTED.
ATTENTION AUX COMPOSANTS RELATIFS À LA SÉCURITÉ!!
LES COMPOSANTS IDENTIFIÉS PAR UNE TRAME ET UNE
MARQUE ! SONT CRITIQUES POUR LA SÉCURITÉ. NE LES
REMPLACER QUE PAR UNE PIÈCE PORTANT LE NUMÉRO
SPECIFIÉ. LES RÉGLAGES DE CIRCUIT DONT L’IMPORTANCE EST
CRITIQUE POUR LA SÉCURITÉ DU FONCTIONNEMENT SONT
IDENTIFIÉS DANS LE PRÉSENT MANUEL. SUIVRE CES
PROCÉDURES LORS DE CHAQUE REMPLACEMENT DE
COMPOSANTS CRITIQUES, OU LORSQU’UN MAUVAIS
FONCTIONNEMENT EST SUSPECTÉ.
KE-32TS2U(UC) 3
TABLE OF CONTENTS
Section Title Page Section Title Page
1. DISASSEMBLY
1-1. Rear Cover Removal ................................................... 1-1
1-2. Main Shield Removal ................................................. 1-2
1-3. Stand Assembly Removal ........................................... 1-3
1-4. Supports Removal ....................................................... 1-4
1-5. Q Board Removal ........................................................ 1-5
1-6. B Board Removal ........................................................ 1-6
1-7. TU Board Removal...................................................... 1-7
1-8. H1 Board Removal ...................................................... 1-8
1-9. H2 Board Removal ...................................................... 1-9
1-10. Switching Regulator Removal ..................................... 1-10
1-11. Plasma Display Panel Removal ................................... 1-11
2. ADJUSTMENTS
2-1. White Balance Adjustment .......................................... 2-1
2-2. Calibration Adjustment of A/D Converter
and Video Coder .......................................................... 2-2
2-2-1. Preparation for adjustment ........................................ 2-2
2-2-2. RGB AD adjustment ................................................. 2-2
3. DIAGRAMS
3-1. Block Diagrams ........................................................... 3-1
3-2. Circuit Boards Location............................................... 3-5
3-3. Schematic Diagrams and Printed Wiring Boards ........ 3-6
(1) Schematic Diagrams of B (a, b, c, d, e, f, g)
Board .......................................................................... 3-7
(2) Schematic Diagram of H1 Board ................................ 3-15
(3) Schematic Diagram of H2 Board................................. 3-16
(4) Schematic Diagrams of Q (a, b) Board ................. 3-18
(5) Schematic Diagram of TU Board ............................... 3-21
(6) Schematic Diagram of UD Board ............................... 3-23
3-4. Semiconductors ........................................................... 3-25
4. EXPLODED VIEWS .............................................. 4-1
4-1. Cover .......................................................................... 4-2
4-2. Chassis ........................................................................ 4-4
4-3. Packing Materials ........................................................ 4-6
2-2-3. Component AD adjustment....................................... 2-2
2-2-4. Video AD adjustment................................................ 2-3
2-2-5. Video coder input adjustment ................................... 2-3
2-3. Adjustment of Sub-color and Sub-hue......................... 2-4
5. ELECTRICAL PARTS LIST ............................... 5-1
KE-32TS2U(UC) 4
1-1. REAR COVER REMOVAL
SECTION 1
DISASSEMBLY
1 Four screws
(+PSW 5x25)
2 Six screws
(+BVTP 4x16)
2 Seven screws
(+BVTP 4x16)
3 Rear cover
KE-32TS2U(UC) 1-1
1-2. MAIN SHIELD REMOVAL
2 Fourteen screws
(+BVTP 4x16)
1 Eight screws
(+PSW 3x8)
3 Main shield
KE-32TS2U(UC) 1-2
1-3. STAND ASSEMBLY REMOVAL
1 Four screws
(+PSW 5x12)
2 Stand base assembly
Stand base assembly
KE-32TS2U(UC) 1-3
1-4. SUPPORTS REMOVAL
1 Eight screws
(+BVTP 4x16)
2 Support (left)
4 Support (right)
3 Eight screws
(+BVTP 4x16)
KE-32TS2U(UC) 1-4
1-5. Q BOARD REMOVAL
1 Two connector screws
2 Nut
9 DVI Adapter
8 UD board
3 Four screws
(+BVTP 3x12)
4 Connector panel
5 Q top shield
6 Two screws
(+PSW 3x6)
7 Q board
KE-32TS2U(UC) 1-5
1-6. B BOARD REMOVAL
3 Five screws
(+PSW 3x6)
1 Two screws
(+PSW 3x6)
1 Four screws
(+PSW 3x6)
4 B board
Board
holders
Board holders
2 B top shield
KE-32TS2U(UC) 1-6
1-7. TU BOARD REMOVAL
1 TU board
KE-32TS2U(UC) 1-7
1-8. H1 BOARD REMOVAL
2 Two screws
(+BVTP 3x12)
1 Screw
(+BVTP 3x12)
3 H1 earth plate
4 H1 board
KE-32TS2U(UC) 1-8
1-9. H2 BOARD REMOVAL
1 Three screws
(+BVTP 4x16)
3 Insulation
panel H
2 Four screws
(+PSW 3x6)
4 H2 board
KE-32TS2U(UC) 1-9
1-10. SWITCHING REGULATOR REMOVAL
1 Eight screws
(+PSW 3x6)
2 Switching regurator
KE-32TS2U(UC) 1-10
1-11. PLASMA DISPLAY PANEL REMOVAL
1Screw
(+BVTP 4x16)
2 Plasma display panel
1 Screw
(+BVTP 4x16)
KE-32TS2U(UC) 1-11
SECTION 2
ADJUSTMENTS
<Service Mode>
The service mode is not displayed in the normal state. It is displayed by
entering a pass code.
All hidden menus are displayed when you enter the pass code below.
The uppermost item of the displayed menus is the service mode menu.
Pass code: Enter in the standby state (when the red LED lights) as follows:
Screen display → 5 → Vol+ → Power ON
== Service Mode Menu ==
1) EEP ROM Initialize
2) Chroma Decoder
3) AD Converter
4) White Balance
5) General
6) Manual Control
7) Preset Edit
8) Service Status
2-1. White Balance Adjustment
1. Set the service mode then select White Balance menu.
2. Select Large in the Window menu to output an internal adjustment signal.
3. Set the color temperature to "High".
4. Adjust the white balance so that the color temperature is set to the value
below during R, G, and B gain adjustments.
Color Temperature: 10000K + 2.5MPCD (x=0.280 y=0.290 ±0.005)
5. Set the color temperature to "Middle".
6. Adjust the white balance so that the color temperature is set to the value
below during R, G, and B gain adjustments.
Color Temperature: 8000K + 2.5MPCD (x=0.295 y=0.306 ±0.005)
7. Set the color temperature to "Low".
8. Adjust the white balance so that the color temperature is set to the value
below during R, G, and B gain adjustments.
Color Temperature: 6500K + 2.5MPCD (x=0.313 y=0.326 ±0.005)
KE-32TS2U(UC) 2-1
2-2. Calibration Adjustment of A/D Converter and
Video Coder
2-2-1. Preparation for adjustment
1. Set [RGB MODE] of the Custom Setup menu in the service mode to
[Other].
2. Set the [Cal Mode] of the AD Converter in the service mode to [ON].
3. Set the image quality mode to AV professional standard state.
2-2-2. RGB AD adjustment
1. Input All white 90 IRE signal of VGA (640x480/60Hz) to the RGB input
terminal.
2. Select RGB Calibration from the AD Converter menu, then adjust the R
gain and the B gain in the menu and balance so that the detection values
of R and B approximate to the detection value of G.
3. Adjust the Sub Contrast (RGB), that is, adjust the detection values of R,
G, and B to the set value.
Detection set value: 230 ± 3
4. Set the RGB input signal to All gray 20 IRE signal of VGA (640x480/
60Hz).
5. Adjust the RGB Bias, that is, adjust the detection values of R, G, and B
to the set value.
2-2-3. Component AD adjustment
1. Input All white 90 IRE signal of 1080/60i to the component input terminal.
2. Adjust the Sub Contrast (YUV), that is, adjust the detection value of G to
the set value.
Detection set value: 230 ± 3
3. Set the component input signal to All gray 20 IRE signal of 1080/60i .
4. Adjust the Sub Bright (YUV), that is, adjust the detection value of G to
the set value.
Detection set value: 51 ± 3
5. Adjust the CB Offset (YUV), that is, adjust so that the detection value of
B is the same as that of G.
6. Adjust the CR Offset (YUV), that is, adjust so that the detection value of
R is the same as that of G.
7. Repeat steps 4 to 6 until the detection set value in step 4 is obtained.
8. Repeat steps 2 to 7 until the detection set value in steps 2 and 4 are
obtained.
Detection set value: 51 ± 3
6. Repeat steps 1 to 5 described above until the detection set value is obtained.
KE-32TS2U(UC) 2-2
2-2-4. Video AD adjustment
2-2-5. Video coder input adjustment
1. Set the image quality mode to the AV professional standard state.
Set the dynamic picture to OFF.
2. Set the input to Video, then input All white 90 IRE signal of NTSC to the
video input terminal.
3. Adjust the Sub Contrast (Video), that is, adjust the detection value of G
to the set value.
Detection set value: 230 ± 3
4. Set the video input signal to All gray 20 IRE signal of NTSC.
5. Adjust the Sub Bright (Video), that is, adjust the detection values of G to
the set value.
Detection set value: 51 ± 3
6. Adjust the CB Offset (Video), that is, adjust so that the detection value
of B is the same as that of G.
7. Adjust the CR Offset (Video), that is, adjust so that the detection value
of R is the same as that of G.
8. Repeat steps 5 to 7 until the detection set value in step 5 is obtained.
9. Repeat steps 2 to 8 until the detection set values in steps 3 and 5 are
obtained.
10.Add 15 to the Sub Contrast (Video) and subtract 35 from the Sub Bright
(Video), and then write them.
1. Input All white 30 IRE signal of SECAM to the video input terminal.
2. Select BY Adj from the Chroma decoder menu.
3. Adjust the BY Adj (SECAM), that is, adjust so that the detection value
of B is the same as that of G.
4. Select RY Adj from the Chroma decoder menu.
5. Adjust the RY Adj (SECAM), that is, adjust so that the detection value
of R is the same as that of G.
6. Repeat steps 3 to 5 until the detection values of R, and B reach the allowable error range.
Allowable error ± 5
7. Set [Cal Mode] to [OFF] after the A/D calibration adjustment is completed.
KE-32TS2U(UC) 2-3
2-3. Adjustment of sub-color and sub-hue
(1)
(A)
(2)
(B)
(3)
(C)
(4)
(D)
1. Input an NTSC SMPTE 75% color-bar signal to VIDEO 1.
2. Set the image quality to the AV professional standard state.
3. In the service mode, put the unit into the Blue Only mode.
4. Adjust the NTSC sub-color and sub-hue while viewing the screen.
Set the Sub-color value to 8 and adjust the C Out level so that the brightness of (1) and (A) is equal to each other and that of (4) and (D) is equal
to each other. Then adjust the Sub-hue so that the brightness of (2) and
(B) is equal to each other and that of (3) and (C) is equal to each other.
Confirm the C Out level and Sub-hue again. (The C Out level and Subhue require tracking several times.)
5. Input a PAL SMPTE 75% color-bar signal to VIDEO 1.
6. Adjust the PAL sub-color while viewing the screen.
Adjust the Sub-color so that the brightness of (1) and (A) is equal to each
other and that of (4) and (D) is equal to each other.
If the adjustment is omitted, set the Sub-color value to 10.
SMPTE color-bar signal
7. Input a SECAM SMPTE 75% color-bar signal to VIDEO 1.
8. Adjust the SECAM Sub-color while viewing the screen.
Adjust the Sub-color so that the brightness of (1) and (A) is equal to each
other and that of (4) and (D) is equal to each other.
If the adjustment is omitted, set the Sub-color value to 9.
9. Cancel the Blue Only mode.
KE-32TS2U(UC) 2-4
3-1. BLOCK DIAGRAMS
AN5V
AN5V
CN1
CN3006
C_SIG
Y_SIG
VID_SIG
STBY 5V
POWER
THERMO
DIG3.3V
DIG3.3V
DIG5V
DIG5V
AN 6V
AN 6V
A13V
STBY5V
CLOCK
STBY5V
STBY5V
SIRCS
LEDA
LED B
POWER SW
INPUT SEL
D3 DETECT
AUDIO MUTE
LINE MUTE
SCL LS
SDA LS
UART TX
UART RX
CPU RESET
FLASH MODE
FAN DRIVE
FAN FB
FAN DETECT
Q SENS
RGB 3
CONT 1
CPSL
RESET
A13V
RESET
MUTE
CN4501
KEY MATRIX
S4502-4505
1
2
3
H2(KEY INPUT)
Q BOARD
CN3001
TO POWER BOARD
TO Q BOARD
STBY5V
KEY
GND
Q BOARD
CN3003
TU BOARD
CN6003
UD BOARD
CN7002
A
D
G
I
TO
TO
TO
TO
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
KEY
GND
GND
GND
GND
LPF
GND
GND
FWE
GND
GND
CLK
GND
GND
A6V
5V
VGA
GND
SI
SO
CN102
CN101
CN1003
CN1004
CN1001
CN103
CN1006
SECTION 3
DIAGRAMS
1
5V-3
2
3
4
5
6
7
8
9
10
11
COM.Y
COM.C
STBY 5V
1
2
3
4
3.3V-2
5
6
7
8
5V-2
9
10
11
12
13
14
15
1
2
3
1
2
3
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
1
2
3
4
5
6
7
8
9
1
2
3
4
5
STBY 5V
STBY 5V
SCL_LS
SDA_LS
AN6V
DIG 5V-2
IC7
5V-3 REG
5V-3
IC1017
46
43
44
1
Q9,12,14
FL3
Q5,13
FL2
5V-3
Q1 10 SCP
SCL_LS
SDA_LS
PDP_IRQ
SRX_4W
7 CE
1
4
TX
CLK 6
2
STBY 3.3VSTBY 5V 5V-2 STBY 5V
3
32KOUT
SI
SCLK
X1
16.2MHz
IC1011
IC1003
OSC_OUT
INTR
5
7
38
13
14
17
182
SO
COLOR DECODER
C2
CVBS/Y2
CVBS/Y1
COMB Y
COMB C/FORCED
Xtal
SCL
SDA
IC1009
652
3
9OSC_IN
X1001
32.768k
8
3
IC1006(1/2)
35
IC1006(2/2)
35
IC1020
5V REG3.3V REG
12
IC1012(1/2)
118
IC2
Cr OUT
Cb OUT
Y OUT
SYNC IN
Y FOR SYNC
YS/YM
CVBS OUT(2VPpp)
FSC OUT
6
PDP_IRQ
4W_RX
116
111
RTC_CS
90
RTC_IRQ
97
KEY
28
POWRE
106
THERMO
18
SIRCS
99
LED A
100
LED B
12
POWER SW
14
INPUT SELECT
95
D3_DET
17
LPF_SW
16
A MUTE
LINE MUTE15
87 NC
TXD2(FWR)
22
RXD2(FWR)
23
RES
71
74
FWE
120
MD2
9
PWM0
102
FAN_FB
89
NC
101
Q_SENS
85
RGB3
86
CONT1
TU_TX
61
TU_RX
60
TU_CLK
59
CS_TU
62
TUNER RESET
84
34
35
36
Cr1
Y1
Cb1
VS
HS
R2
G2
B2
MAIN CPU
23
22
21
17
19
18
2
11
4
9
35
34
33
36
3
46
IC1004
CC VID/YUV
PICTURE AGC
SOG DUTY 1
SOG DUTY 2
SYSTEM_RESET
VIDEOuMUTE
SOLSYS N/M
IC1 BUFF
2
5
Q6,8,10
Q11
Q2,4
FL1
SYNC SW
H.SYNC
V.BLK
V.SYNC
PDP_CPU
PDP_ACT
SC PLL SW
4W_CLK
4W_TX
OSD_CS
H STATUS
V STATUS
SC_CS
PLD_CS
PANELDET1
PANELDET2
SDA_LS
SCL_LS
NTSC/PAL
VEH1
VEH2
VEH3
COMF SW
SDA_HS
SCL_HS
SDTOVF
XTAL
EXTAL
SCL_LS
SDA_LS
43
45
40
64
63
29
30
33
1
2
3
19
115
117
112
65
66
4
114
113
27
26
53
55
39
47
46
48
49
50
51
5
58
67
75
77
6
3
IC3
6
7
5
18
17
15
14
Q7
SW
Q18
IC1012(2/2)
65
26
IC1018
IC1018 BUFFTX CLK
9
3
4
5
6
X1002
12.288MHz
BUFF
1
Q3
IC4
MAIN V CHIP/CC
5 HIN
R
G
2
B
3
BOX
SCL
SDA
AMP/BUFF
Q15,16,20
Q22,26,27
34
21
PDP_CPU
62
PDP_ACT
SYS_RESET
1
17
16
15
14
H_STATUS
V_STATUS
PANELDET1
PANELDET2
STBY 3.3V
IC1005
7VIDEO
SYS_HS
VBLK
SYS_VS
SC_PLL
SCK_4W
STX_4W
CS_OSD
VMUTE
CS_SC
CS_PLD
12
IC403
34
DSYNC/DIVOUT
IC405
ABC
11 10 9
5V-4
6
8
84
83
SYNCIN1
SYNCIN2
CLPIN
UNLOCK
1/2CLK
14
X
4
Z
15
Y
RR0
41
RR7
RL0
22
RL7
31
56 60
BR0
58
BR7
BL0
49
BL7
78 81
GR0
87
GR7
88
68
GL0
75
GL7
103
111
112
113
109
101
Q407-416
IC401
5V-4 REG
IC402
VCC REG
Q205
Q207
Q211
Q206
Q209
Q212
Q217
Q215
Q218
2421
28
64
5145
53
85
BUFF
BUFF
Q402
BUFF
Q403
5V-4AN6V
VCC
Q404
SOG_DUSY1
Q405
SOG_DUTY2
SW
Q214
IC404 SYNC SEP
4
GREENIN
6
C/H
8
VIN
R/V
G/Y
B/U
DSUB_H
DSUB_V
IC208
6
1
7
5
IC209
6
1
7
5
STBY5V
V.POL
H.POL
VD
HD
13
14
19
18
COM.Y
COM.C
H_STATUS
1
2
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
V_STATUS
CN401
GND
R/V
GND
G/Y
GND
B/U
GND
DSUB_H
GND
DSUB_V
CN1002
STBY5V
UART TX
GND
UART RX
CPU RESET
FWE
FLACH MODE
GND
F
TO
Q BOARD
CN3002
TO 2/2
BUFF
Q28
BUFF
IC5
1
3
2
IC6
X2
14.318MHz
SDA_LS
3
SCL_LS
6
PDP_SDA
362
PDP_SCL
IC1007
1
2
3
ADIN6
IO
11
XI26
25
XO
15 SCL
16
SDA
5
6
AUTO WIDE
SDA_HS
SCL_HS
Q17,19,21
SCL_LS
SDA_LS
IC1019
2
5
1
7
IC1015
5
1
7
2
4
Q1001
1
Q1002
Q29
BUFF
Q23,24,30
BUFF
Q33
BUFF
Q31
BUFF
Q32
Q203,204
Q208,210
VEH1
VEH2
VEH3
BUFF
Q201
Q213
Q216
IC207
SYNC SEP
2 1
IN CS
3.3V-2
IC204
R/V
G/Y
B/U
IC201
1
3
IC202
1
3
42
R/CRIN1
139
B/YIN1
124
B/CBIN1
133
R/CRIN2
141
G/YIN2
126
B/CBIN2
136
SOGIN2
135
SOGIN1
132
SDA
9
SCL
10
13
X1
DSUB_H
12
X0
3
Z1
5
Z0
1
Y1
DSUB_V
2
Y0
Q406
SYNC_SW
7
AVDD
8
7
DVDD
8
IC205 3LINE COMB
VIN
15
YOUT
RBT
14
C7
25
C3
29
D7
33
C6
26
C2
30
COUT
D6
34
C5
27
C1
31
D5
35
N/M
46
PAL/NTSC
47
FSC
45
IC206 SD COMB
52
FSCI
88
AYI
AYO
96
ACI
ACO
76
CSI
59
SCL
60
SDA
B(1/2)(MAIN CPU,COLOR DECODER,SYSTEM IC)
KE-32TS2U(UC) 3-1
TO 1/2
IC604
RETRIGGERABLE
SINGLE SHOT
10
5
2
13
SYS_RESET
SYS_HS
SYS_VS
SDA_HS
SCL_HS
IC601 SYSTEM IC
148
RRI0
154
RRI0
158
RR7
RL0
159
RL7
166
GR0
167
GR7
174
BL0
184
BL7
191
BR0
192
BR7
199
BL0
200
BL7
207
177
IHD
178
IVD
33
VDO
4
PLLHD
3
CLAMP
7
COAST
181
ADCLK
14
HCS1
15
V1
18
V2
17
HCS2
179
RESET
180
STNBY
29
HSO
30
VSO
12
SDA
13
SCL
3.3V-2
RR0
RR7
RL0
RL7
GR0
GR7
GL0
GL7
BR0
BR7
BL0
BL7
OCLK
OFLD
OHD
OVD
DQ0
DQ15
A0
A10
RMDQM
RMWE
RMCAS
RMRAS
RMCS
DSCLK
X601
70MHz
93 98
96
83 86
84
92
77
63 67
65
54 61
59
43
50
36
37
38
39
143
132
129
126
118
116
114
107
120
124
123
122
121
147
101
90
8073
82
71
62
2
3
5
6
8
9
11
12
39
40
42
43
45
46
48
49
21
24
27
32
20
36
14
15
16
17
18
35
DQ0
DQ15
ADDR0
ADDR10
UDOM
LDOM
WE
CAS
RAS
CS
CLK
IC603
3.3V-2
FB801
FB802
STX_4W
SCK_4W
CS_SC
SC_PLL
SYS_RESET
POFLD
POVS
POHS
SRX_4W
POCLK
190
197
203198
199
207
201
208 214
211
217
225218
226
223
227
234
235
238
244
248
250
246
245
254
252
253
99
100
115
116
117
1
105
97
R0_OD
R7_OD
R0_EV
R7_EV
G0_OD
G7_OD
G0_EV
G7_EV
B0_OD
B7_OD
B0_EV
B7_EV
PICLK
PIFLD
PIHS
PIVS
SI
SCLK
SS
MCLKSEL
RST
POHS
POVS
POFLD
SO
POCLK
MCLK
IC801
POD2
POD9
POD12
POD19
POD22
POD29
MD0
MD47 73
MA0
MA11
CS
DQM1
DQM0
BA0
MWR
RAS
CAS
IC1203
5
RO0
122
125
127
129
131
136
138
140
142
145
150
152
155
159
10
7
12
17
14
24
20
31
27
38
34
45
41
51
48
53
58
55
64
61
66
71
68
80
83
96
92
2
4
3
76
77
78
79
DQ0
DQ15
IC802-804 SDRAM
A0
A10
CS
UDQM
LDQM
BA
WE
RAS
CAS
CLK
SYS_RESET
CS_OSD
STX_4W
SCK_4W
PANELDET1
PANELDET2
POVS
POHS
POFLD
POCLK
SRX_4W
VBLK
VMUTE
CS_PLD
13
1
2
3
IC1205
RESET
CS
SIN
SCLK
Q1003
Q1004
DA0
DA3
VSYNC
HSYNC
DISP
VOBA
DCLKI
100
99
96
93
87
RO7
86
GO0
85
83
80
76
GO7
BO0
75
74
67
BO7
62
49
28
25
11
10
12
24
5
DA0
46
DA3
42
41
43
44
40
50
56
PANELDET1
28
PANELDET2
29
102
POVS
103
POHS
101
POFLD
91
GCK1
58
SRX_4W
60
VBLK
59
VMUTE
57
CS_PLD
R0
R7
G0
G7
B0
B7
VSYNC
HSYNC
PARITY
BLANK
PDP_CLK
DIN
PROGRAM
DONE
CCLK
TDI
TDO
TMS
TCK
3
141
140
138
6
139
137
136
134
131
129
133
132
126
122
120
118
117
124
123
114
115
116
113
112
39
69
72
68
37
32
34
142
2
IC1202
VCC REG
7
83
IC1201
1
D0
7
D4/CF
TDI
10
CE
8
OE
TMS
3
CLK
TCK
17
TDO
1
4
5
6
3.3V-2
51 IN0
52
54
56
3
IN6
50
IN27
IN5
2
4
IN7
6
7
IN9
11
IN12
12
14
IN14
8
IN10
10
IN11
15
IN15
19
IN18
20
22
IN22
24
IN16
16
IN17
18
28
IN25
27
IN24
25
IN23
30
IN26
31
CLKIN
IC1204
CLKOUT-
CLKOUT+
OUT0-
OUT0+
OUT1-
OUT1+
OUT2-
OUT2+
OUT3-
OUT3+
48
47
46
45
42
41
38
37
40
39
PDP_SCL
PDP_SDA
PDP_CPU
PDP_ACT
PDP_IRQ
3.3V-2
B(2/2)(MAIN CPU,COLOR DECODER,SYSTEM IC, )
CN1204
LVDSGND
1
OUT0-
2
OUT0+
3
OUT1-
4
OUT1+
5
OUT2-
6
OUT2+
7
CLKOUT-
8
CLKOUT+
9
OUT3-
10
OUT3+
11
LVDSGND
12
TO
PLASMA DISPLAY PANEL
CN1(A)
CN1201
1
VCC
2
TRST
TDI
3
TDO
4
TMS
5
TCK
6
MODE
7
GND
8
FOR TEST
CN1203
1
LVDSGND
2
SCL
3
GND
4
SDA
5
CPU_GO
6
RDP_GO
7
IRQ
8
DOWN
TO
PLASMA DISPLAY PANEL
CN1(B)
KE-32TS2U(UC) 3-2
COMPONENT VIDEO IN 2
/ RGB IN
J
TO
UD BOARD
CN7002
SUB WOOFER OUT
COMPONENT VIDEO IN 2
/ RGB IN
COMPONENT VIDEO IN 1
COMPONENT VIDEO IN 2
/ RGB IN
HEADPHONE
GND
GND
GND
GND
AUDIO
AUDIO
PR/CR/R
PB/CB/B
PR
PB
Y
HD
VD
J4001
J3001
Y/G
CN3011
1
2
3
4
5
6
7
8
9
J3011
VD
HD
J3004
L
R
J3002
L
R
J3008
H1 (SIRCS, P-SW)
D3009
PROTECT
D3008
PROTECT
Y
CB
CR
5V
Q3033
MUTE
D4000
D3007
PROTECT
5V
Q3032
MUTE
D4001
Q4007Q4001
IC3001
VIDEO SW
R
2
B
7
IN1
35
R
G
5
OUT2730
B
R
G
G
IN2
B
19
Q3005 Q3017
SW
INPUT SELECT
IC3007
3
4
5
1
15
2
91011
INPUT SELECT
IC3006
L3
L2
LOUT2
L1
R3
ROUT1
R2
ROUT2
R1
28
27
SCL_LSSDA_LS
IC3015
AMP
AN+12V
POWER ON MUTE
&
LINE MUTE
POWER SW
IC4001
REMOTE
IN
MUTE
MUTE
12LOUT1
14
13
15
3
5
LINE MUTE
5V
Q2005
ATT
Q2004
ATT
CN4000
STBY5V
1
P ON
2
P SW(-)
3
P SW(+)
4
LED G
5
LED R
6
7
GND
8
SIRCS
9
GND
10
HP SW
11
HP MUTE
12
GND
13
HP R
14
GND
15
HP L
VID_L
VID_R
CR
Y
CB
11
13
16
6
5
4
23
24
25
1
7
Q3028,3029
5V S4001
Q3104-3106
LPF
Q2006
SW
R
2
B
7
G
5
R
11
G
13
B
16
IC2003
16
LIN
2
MODE2
15
RIN
STBY 5V
P SW(+)
HP MUTE
TO
B BOARD
CN1003
CONTROLS OUT
CONTROLS IN
IC3001
VIDEO SW
IN1
IN2
SW
LOUT
ROUT
P ON
P SW(-)
LED G
LED R
GND
SIRCS
GND
HP SW
GND
HP_L
GND
HP_R
OUT
19
LPF
10
9
CN3006
CN3010
CN3001
1
A5V
IC3014
SCL_LS SDA_LS
IC2002
DRIVE AMP
STB
12
IC2001
DRIVE AMP
STB
12
VIDEO PROCESSOR
COUT1
YOUT1
VOUT1
TV
LTV
RTV
LOUT1
ROUT1
SDASCL
2726
411 OUTIN
Q2001,2003
SP MUTE
CONTROL
HP_SW
AN+12V
Q3034,3035
POWER ON MUTE
&
SP MUTE
Q3025
BUFF
45
43
40
47
46
48
VID_L
39
VID_R
41
Q3027
BUFF
Q3026
BUFF
IC3013
+12V
REG
IC3012,Q3022-3024
FAN
DRIVE AMP
FAN_DRV
FAN_FB
FAN_DET
IC3017
AUDIO-12V
AUDIO+12V
STBY5V
Q3038
MUTE
J3000
4
3
1
2
V1
L1
R1
43
2
1
V2
L2
R2
IN OUT11 4
R
35
B
30
G
27
CN3002
1 R/V
4 G/Y
6 B/U
F
TO
B BOARD
CN401
10 DSUB_V
8 DSUB_H
IC2000
20
LOUT
6
LIN
22
L+R
7
SDA_LS SCL_LS
Q3036
Q3039
MUTE
5V
1
2
3
4
LED A
5
LED B
6
7
8
9
10
11
12
1332K CLK
14GND
1
2
3
Q3006,3008
SIRCS2
AMP
Q3007
SIRCS1
AMP
RIN
28 29
IC3016
SW
AMP
ROUT
1
3
19
37
IC3031
HP AMP
Q3037
76MUTE
Q (VIDEO SW, FAN DRIVE, AUDIO AMP, INPUT TERMINAL)
GND
2
GND
3
AN5V
4
AN5V
5
GND
6
C_SIG
7
GND
8
Y_SIG
9
GND
10
VID_SIG
11
GND
CN3004
TUNER VID
1
GND
2
TUNER L
3
GND
4
TUNER R
5
GND
6
CN3009
FAN-DRV
1
2
FAN1
3
GND
4
FAN-DRV(NC)
5
FAN2
6
GND
7
FAN-DRV(NC)
8
FAN3
9
GND
10
NC
11
NC
12
NC
CN3007
1
L_SP(+)
2
L_SP(-)
4
R_SP(+)
3
R_SP(-)
CN3005
A13V
1
F.GND
2
GND
3
GND
4
AUDIO-12V
5
AUDIO GND
6
AUDIO GND
7
AUDIO+12V
8
CN3008
1
STBY5V
2
UART TX
3
GND
4
UART RX
5
CPU RESET
6
FWE
7
FLASH MODE
8
GND
SDA
109SCL
11 UD_BINT
12 GND
13 32K CLK
14 GND
CN3012
SDA
1
2
SCL
3 UD_BINT
4 GND
CN3003
STBY5V
30
GND
29
SIRCS
28
GND
27
LEDA
26
LEDB
25
POWER SW
24
INPUT SEL
23
GND
22
D3 DETECT
21
LPF
20
AUDIO MUTE
19
LINE MUTE
18
GND
17
SCL LS
16
SDA LS
15
GND
14
UART TX
13
UART RX
12
CPU RESET
11
FWE
10
FLASH MODE
9
GND
8
FAN DRIVE
7
6
FAN FB
5
FAN DETECT
4
GND
3
Q SENS
2
RGB3
1 CONT1
B BOARD
CN102
TU BOARD
CN6001
TO FAN
TO
SPEAKER
C
POWER BOARD
CN3005
H
UD BOARD
CN7004
D
B BOARD
CN1001
A
TO
B
TO
TO
TO
TO
KE-32TS2U(UC) 3-3
7
6
24
23
18
17
10
9
2
1
SDA
SCL
RXC-
RXC+
RX0+
RX0-
RX1+
RX1-
RX2+
RX2-
CN7001
IC7007-7009
OVER VOLTAGE
PROTECT
47
46
53
52
59
58
61
62
RX2-
RX2+
RX1-
RX1+
RX0-
RX0+
RXC+
RXC-
16
IOB/PR
IOG/PB
13
IOR/Y
10
IC7004
PD MONITOR
SI
SCK
5
6
IC7001
EEPROM
DVI_SDA35
DVI_SCL
36
SCL
31
SDA
32
IC7006
EEPROM
5
6
SI
SCK
2
1
SCL
3UD_BINT
4GND
SDA
CN7004
IC7005
8RESET
18
VGA
PA7/OCMP2/IT4
19
OSCIN
OSCOUT
PA2/SCL
PA1/SDA
3
2
24
10
28
H
TO Q BOARD
CN3012
MUTE 21
29
HS_OUT
94
TCLK
95
XTALOUT
33
RESETN
X7002
12MHz
14.31818MHz
X7001
11VDRV
2 C/HSYNCIN
HDRV
13
CLAMP
15
SYNC DET.
IC7010
FL7004
LPF
LPF
FL7003
LPF
FL7002
4
2
3
12
10
8
6
7
MUTE
RESET
VGA
HD
Y
11 GND
13 GND
14 VD
PB
9
PR
GND
GND
CN7002
Q7001,
7002
MIX
CN1006
TO B BOARD
I
CN3011
TO Q BOARD
J
1 3
IC7002
3.3V REG.
3.3V5V
2.5V
2.5V REG.
IC7003
31
UD
(DVI INPUT)
7
WP
TU 6001
TUNER
DET OUT 2
DET OUT
L OUT
R OUT
RF AGC
AFT
STLED
BILLED
MODE
FMONO
MUTE
SCL
SDA
(TUNER,SYS-COM)
Q6004,6012
SYNC SEP
TU
Q6005
V BUFFER
IC6007
EEP ROM
BCLK
BSDA
WRPT
IC6008
BUFFER
3
2
5
6
6
5
7
1
7
IC6006
SYS-COM
37 I-VPN
I-HS22
23
Q6009,6010
MUTE CONT
SI
24
SO
25
SCK
38CPSL
28
XTAL
29
EXTAL
11
IC6004 RESET
X6001
4.19MHz
Q6007
MUTE
54 +5V
AGC51
AFT35
STR62
BIL63
MODE52
MONO64
MUTE54
RST30
SCL050
SDA048
31
IC6005
4
1
2
Q6011
BUFFER
Q6008
MUTE
1
3
5
1
2
3
4
5
2
3
4
CN6001
TUNER VID
TUNER L
TUNER R
CN6003
SI
SO
SCK
CPSL
RESET
CN6002
BINT
SDA
SCL
B
TO Q BOARD
CN3004
G
TO B BOARD
CN103
FOR
CHECK
KE-32TS2U(UC) 3-4
3-2. CIRCUIT BOARDS LOCATION
H2
Q
B
H1
TU
UD
KE-32TS2U(UC) 3-5
3-3. SCHEMATIC DIAGRAMS AND PRINTED WIRING BOARDS
Note:
• All capacitors are in µF unless otherwise noted. (pF: µµF)
Capacitors without voltage indication are all 50 V.
• Indication of resistance, which does not have one for rating electrical
power, is as follows.
Pitch: 5 mm
Rating electrical power 1/4 W (CHIP : 1/10 W)
• All resistors are in ohms.
• : nonflammable resistor.
• : fusible resistor.
T : internal component.
•
• : panel designation, and adjustment for repair.
• All variable and adjustable resistors have characteristic curve B, unless
otherwise noted.
• : earth-ground.
• : earth-chassis.
• When replacing the part in below table, be sure to perform the related
adjustment.
• All voltages are in V.
• Readings are taken with a 10 M digital multimeter.
• Readings are taken with a color-bar signal input.
• Voltage variations may be noted due to normal production tolerances.
•
• Circled numbers are waveform references.
: Can not be measured.
*
• : B + bus.
• :B – bus.
Note: The components identified by shading and
mark ! are critical for safety. Replace only
with part number specified.
Note: Les composants identifiés par un tramé et
une marque ! sont critiques pour la
sécurité. Ne les remplacer que par une pièce
portant le numéro spécifié.
• Divided circuit diagram
One sheet of B and Q boards are circuit diagram is divided into three sheets,
each having the code B-a to B-c. For example, the destination
ab1 on the code B-a sheet is connected to ab1 on the B-b sheet.
a b 1
Ref. No.
Circuit diagram division code
Terminal name of semiconductors in silk screen
printed circuit ( )
Device Printed symbol Terminal name
Transistor
1
Transistor
2
3
Diode
4
Diode
Diode
5
Diode
6
Diode
7
8
Diode
Diode
9
Diode
0
!¡
Diode
Diode
!™
Transistor
!£
(FET)
Transistor
!¢
(FET)
Transistor
!∞
(FET)
Transistor
!§
Transistor
!¶
Transistor
!•
Transistor
!ª
Transistor
@º
Transistor
@¡
Transistor
@™
Transistor
@£
Discrete semiconductot
–
(Chip semiconductors that are not actually used are included.)
*
Collector
Base
Collector
Base
Cathode
Cathode
Anode
Cathode
Anode
Common
Anode
Common
Anode Cathode
Common
Anode
Common
Anode Anode
Common
Cathode
Common
Cathode
Anode
Anode
Cathode
Drain
Drain
B1 E1
C2
B2 C1
E2
B2 E2
C1
B1 C2
E1
B2 E2
C1
B1 C2
E1
B2 E2
C1
B1 C2
E1
E2
B1 E1
C2
(B2)
E1
B1
C1
(B2)
E1
E2
C2
Emitter
Emitter
(NC)
(NC)
Cathode
Anode
Cathode
Cathode
Cathode
Anode
Anode
Source
Gate
Source
Gate
Source
Drain
Gate
Emitter
Collector
Base
C1(B2)
E2
C2
B1
C1
Anode
Circuit
D
G
D
S
B1
B1
B1
B1
B1
B1
D
G
S
S
D
G
S
C2B2C1
E1
E2
C2B2C1
E1
E2
E2B2E1
C1
C2
C2C1(B2)
E2
E2
E2E1(B2)
C1
C2
C2E1(B2)
C1
C2
Ver.1.6
G
KE-32TS2U(UC) 3-6
(1) Schematic Diagrams of B (a, b, c, d, e, f, g) Board
+5V
+13V
+6V
+5V
+5V
+5V
+13V
+6V
6.1
5.0
0.4
0.2
0.4
0.1
4.8
3.2
3.1
2.1
1.3
5.0
5.0
0
1.2
1.1
1.4
0.4
5.0
0
0
5.0
2.7
0
2.3
2.7
2.4
2.4
2.4
0
2.4
2.4
2.4
0
0.9
4.0
3.4
2.4
2.9
1.8
4.9
1.9
3.0
1.7
5.0
5.0
5.0
2.3
2.7
0.9
2.5
3.0
0.1
2.1
1.8
3.0
2.9
2.9
1.4
2.3
1.5
1.9
R116
470
1/16W
:CHIP
R117
0
1/16W
:CHIP
C88
220p
CH:CHIP
C87
220p
CH:CHIP
C86
220p
CH:CHIP
R119
1M
1/16W
:CHIP
R118
1M
1/16W
:CHIP
CH:CHIP
CH:CHIP
CH:CHIP
CH:CHIP
100p
50V
470p
CH:CHIP CH:CHIP
CH:CHIP
CH:CHIP
SMS
VIDEO
G
B
SEN
HIN
CSYNC
LPF
AS
SDO
SCL
SDA
VDD
VSS
R
BOX
RREF
INTRO
OUT
IN0
IN1
C3
APC-Fil
CVBS/Y3
C2
CVBS/Y2
COMB SYS
AFC.Fi
C1
FSC OUT
ADD(8EH)
B1G1R1
Y/C GND
Cr2
Cb2
Y2
Y/C Vcc
B2
G2
BPH-Fil
Xtal
R2
YS/YM
CVBS/Y1
SYNC IN
CVBS OUT(2VPpp)
VS
COMB Y
COMB C/FORCED S
D-GNDHSSCP
Y FOR SYNC
SYNC-Vcc
D-VDD
SCL
SDA
SYNC-GND
Cr1
Cb1
Y1
Y OUT
Cb out
Cr out
YS1
YS3
APL FIL
ae-7
ae-6
YCA 1
YCA 2
AMP
V BUFFER
C BUFFER
C BUFFER
V BUFFER
Y BUFFER
Y BUFFER
Y BUFFER
V AMP
V AMP
V BUFFER
ab-21
ab-20
ab-19
ac-18
ae-17
ac-16
abe-15
abe-14
ae-13
SW
BUFF
AMP
AMP
AMP
AMP
BUFF
BUFF
Y AMP
Y AMP
BUFFER
BUFFER
BUFFER
0
BUFFER
BUFFERBUFFERBUFFER
BUFFER
COMP
INVERTER
ac-2
TO Q( a )BOARD
CN3001
ab-3
INVERTER
ag-5
ag-4
CN
TO POWER BOARD
+5V REG
ae-12
ae-11
ae-10
ae-9
ae-8
B-SS11402<UC.>-B..-P1
(COLOR DECODER,AUTO WIDE)
- a
B
COMB C
COMB Y
Y
GND
OAW1
OED
OWSS
VRB
ADIN
AVSS
AVDD
VRT
AVDD
IO
AVSS
ISET
TST SCL
SDA
I2CAD
XRST
VDD
VDD
VDD
VSS
VSS
VSS
XO
XI
O169
OLBX
OAW2
STBY5V
DIG5V
GND
GND
DIG3.3V
AN6V
AN6V
GND
POWER
DIG5V
DIG3.3V
GND
GND
A13V
THERMO
SI
SO
CLK
CPSL
RESET
GND
GND
A13V
A6V
C_SIG
Y_SIG
VID_SIG
GND
GND
AN5V
AN5V
GND
GND
GND
GND
HS
VS
R-Y
B-Y
Y
1 2 3 4 5 6 7 8 9 10 11 12 13 14
15
16
17
18
19
20
21
22
23
24
2526272829303132333435363738
39
40
41
42
43
44
45
46
47
48
1234
5 6 7 8
136
7 10
245
9 12
136
7 10
245
9 12
1 2 3 4
5678
1 3 6
710
2 4 5
912
OUTVCC
GND
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1
2
3
4
5
6
7
8
9
10
11
123456789
10 11 12 13 14 15 16 17 18
1 2 3 4
5678
1234567891011121314
15 16 17 18 19 20 21 22 23 24 25 26 27 28
R1
R2
R4
R6
R7
R8
R9
R10
R11
R12
R13
R14
R15
R16
R17
R18
R19
R20
C55
IC3
IC5
L1
L2
L3
L4
FL2
FL3
Q5
Q9
Q12
Q13
Q14
X1
L7
C1
C3
C6
C11
C12
C13
C17
C24
C25
C26
C35
C39
C42
C54
C59
C60
C65 C66
IC6
R21
R23
R24
R25
R26
R28
R29
R30
R31
R33
R34
R37
R39
R41
R42
R43
R44
R46
R47
R48
R52
R53
R54
R55
R58
R59
R60
R61
R62
R64
R65
R66
R67
R68
R69
R70
R72
R73
R74
R75
R76
R77
R78
R80
R81
R82
R83
R85
R86
R89 R90
R91
R92
R93
R94
R95
R96
R98
R100
R101
R102
R103
R104
R105
C16
C19
C22
C23
C29
C37
C40
C44
C48
C49
C50
C58
C61
C62
C64
C68
R45
JL5
JL4
JL3
JL2
C5
C30
C38
L5
L6
JL1
R3
R57
R49
R50
C20
C21
C28
C27
C41
R40
R27
FL1
IC7
C70
IC2
IC4
Q3
Q6
Q7
Q8 Q10
Q11
Q17
Q18
Q21
Q22
Q23
Q24
Q25
Q26
R99
TP1
TP2
TP3
TP4
TP5
TP6
TP7
TP8
C14
Q15
Q16
Q19
Q27
D1
X2
IC1
R51
R79
R84
R71
R32
R35
Q1
Q2
Q28
Q29
Q30
Q4
C2
C34
C36
C51
CN101
CN103
R106
R107
TP9
R22 R36
R56
C53
C71
Q20
C67
C18
C56
C10
C15
C9
C8
C43
C45
C46
C47
C57
C74
C75
C76
CN102
R108
R109
R110
JL10
JL11
JL12
JL13
JL14
JL15
JL16
JL17
JL18
JL19
JL20
JL21
JL22
JL24
JL27
JL28
JL29
JL30
JL31
JL32
C31
C32C33
R97
C63
C78
C79
C80
L8
C7
C52
C84
C82
C69
C083
R112
R113
C72
R1227
1k
1/16W
:RN-CP
7.5k
1/16W
:RN-CP
100
1/10W
:CHIP
100
1/10W
:CHIP
100
1/10W
:CHIP
27k
1/16W
:RN-CP
100
1/10W
:CHIP
100
1/10W
:CHIP
16.2MHz
47
1/10W
:CHIP
47
1/10W
:CHIP
100
1/10W
:CHIP
100
1/10W
:CHIP
10k
1/10W
:CHIP
680k
1/10W
:CHIP
680k
1/10W
:CHIP
2.2k
1/10W
:CHIP
47
1/10W
:CHIP
2SB709A
2SB709A
H355LNK7849
2SB709A
2SB709A
2SB709A
H355LNK7849
TC4W53FU
18p
CH:CHIP
CXA1211M
3.9k 1/10W:CHIP
1µH
:CHIP
1µH
:CHIP
1µH
:CHIP
1µH
:CHIP
10µH
:CHIP
0.01 25V B:CHIP
0.022 25V B:CHIP
0.01
25V
B:CHIP
0.01
25V
B:CHIP
0.01
25V
B:CHIP
0.01
25V
B:CHIP
10p
CH:CHIP
0.01
25V
B:CHIP
0.01
25V
B:CHIP
0.01
25V
B:CHIP
15p
50V
50V
CH:CHIP
120p
CH:CHIP
470p
50V
0.01
25V
B:CHIP
0.01
25V
B:CHIP
15p
50V
15p
50V
CXD2057M
AUTO WIDE
100
1/10W
:CHIP
560
1/10W
:CHIP
680
1/10W
:CHIP
4.7k
1/10W
:CHIP
680
1/10W
:CHIP
680
1/10W
:CHIP
5.6k
1/10W
:CHIP
4.7k
1/10W
:CHIP
33k
1/10W
:CHIP
6.8k
1/10W
:CHIP
680
1/10W
:CHIP
1k
1/10W
:CHIP
5.6k
1/10W
:CHIP
1.5k
1/10W
:CHIP
6.8k
1/16W
:RN-CP
680
1/10W
:CHIP
1k
1/10W
:CHIP
470
1/16W
:RN-CP
10k
1/16W
:RN-CP
560
1/10W
:CHIP
680
1/10W
:CHIP
100
1/10W
:CHIP
5.6k
1/10W
:CHIP
560
1/10W
:CHIP
100k
1/10W
:CHIP
100
1/10W
:CHIP
22k
1/16W
:RN-CP
1.8k
1/16W
:RN-CP
2.2k
1/10W
:CHIP
2.2k
1/10W
:CHIP
4.7k
1/10W
:CHIP
100
1/10W
:CHIP
5.6k
1/16W
:RN-CP
1k
1/10W
:CHIP
1k
1/10W
:CHIP
4.7k
1/16W
:RN-CP
2.7k
1/16W
:RN-CP
1k
1/10W
:CHIP
100
1/10W
:CHIP
1k
1/16W
:RN-CP
1k
1/16W
:RN-CP
820
1/10W
:CHIP
220
1/16W
:RN-CP
1k
1/16W
:RN-CP
1k
1/16W
:RN-CP
100
1/10W
:CHIP
1.1k
1/10W
:RN-CP
3.3k
1/16W
:RN-CP
10k
1/10W
:CHIP
10k
1/10W
:CHIP
470
1/16W
:RN-CP
1.2k
1/16W
:RN-CP
1k
1/10W
:CHIP
150
1/16W
:RN-CP
4.7k
1/16W
:RN-CP
2.7k
1/16W
:RN-CP
100
1/10W
:CHIP
100
1/16W
:RN-CP
47
1/10W
:CHIP
47
1/10W
:CHIP
47
1/10W
:CHIP
1k
1/10W
:CHIP
1k
1/10W
:CHIP
1k
1/10W
:CHIP
0.1
16V
B:CHIP
0.1
16V
B:CHIP
0.22 10V B:CHIP
0.1
16V
B:CHIP
0.1
16V
B:CHIP
0.1
16V
B:CHIP
0.1 16V B:CHIP
0.1
16V
B:CHIP
0.1
16V
B:CHIP
0.1
16V
B:CHIP
0.1
16V
B:CHIP
0.1
16V
F:CHIP
0.1
16V
B:CHIP
0.1
16V
B:CHIP
0.1
16V
F:CHIP
0.1
16V
B:CHIP
1k
1/16W
:RN-CP
0.47
16V
B:CHIP
4.7
10V
B:CHIP
0.068
25V
B:CHIP
10µH
:CHIP
10µH
:CHIP
47
1/10W
:CHIP
2.2k 1/16W :RN-CP
100
1/10W
:CHIP
100
1/10W
:CHIP
0.1 16V B:CHIP
0.1 16V B:CHIP
0.1 16V B:CHIP
0.1 16V B:CHIP
0.0068
25V
B:CHIP
220
1/10W
:CHIP
4.7k
1/10W
:CHIP
H355LNK7849
BA05FP
0.1
16V
B:CHIP
CXA2163AQ-T6
COLOR DECODER
Z8622912SSC-00TR
MAIN V CHIP/CC
2SC4617
2SC4617
DTC144EE
2SC4617 2SC4617
2SC4617
2SC4617
DTC144EE
2SC4617
2SC4617
2SC4617
2SC4617
2SC4617
2SC4617
0
1/16W
:CHIP
4.7
10V
B:CHIP
2SA1774
2SA1774
2SA1774
2SA1774
1SS387
14.318MHz
TC7WH241FU
BUFF
330
1/10W
:CHIP
0
1/16W
:CHIP
3.3k
1/16W
:RN-CP
8.2k
1/16W
:RN-CP
47k
1/10W
:CHIP
1k
1/10W
:CHIP
2SA1037AK
2SA1037AK
2SA1037AK
2SA1037AK
2SA1037AK
2SA1037AK
4.7 10V B:CHIP
4.7
6.3V
B:CHIP
4.7
6.3V
B:CHIP
10
6.3V
B:CHIP
15P
9P
220
1/10W
:CHIP
220
1/10W
:CHIP
680
1/10W
:CHIP
1k
1/10W
:CHIP
1k
1/10W
:CHIP
100
10V
:AL-CP
47
6.3V
:AL-CP
2SC4617
100
10V
:AL-CP
10
16V
:AL-CP
10
16V
:AL-CP
100
6.3V
:AL-CP
100
6.3V
:AL-CP
100
6.3V
:AL-CP
2.2
10V
B:CHIP
47
6.3V
:AL-CP
10
16V
:AL-CP
10
16V
:AL-CP
47
6.3V
:AL-CP
1
10V
B:CHIP
100p
CH:CHIP
100p
50V
50V
CH:CHIP
11P
47
1/10W
:CHIP
47
1/10W
:CHIP
47
1/10W
:CHIP
0.22
16V
B:CHIP
0.22
16V
B:CHIP
0.22
16V
B:CHIP
100
1/10W
:CHIP
47
6.3V
:AL-CP
100p
50V
100p
50V
100p
50V
33µH
:CHIP
0.1 16V B:CHIP
47
6.3V
:AL-CP
100
6.3V
:AL-CP
100
10V
470
10V
:AL-CP
10
16V
B:CHIP
0
1/16W
:CHIP
0
1/16W
:CHIP
47
25V
:CHIP
AN 5V-3
AN 5V-3
AN 5V-3
AN 5V-3
AN 5V-3
AN 5V-3
STBY
DIG
DIG
AN
AN
5V
5V-2
3.3V-2
6V
5V-3
AN 5V-3
V.Y
V.B-Y
V.R-Y
G/Y
B/U
R/V
1/16W
:CHIP
1/16W
:CHIP
1/16W
:CHIP
1
2
43
A
B
98765
10
11
12
13
14
15
C
D
E
F
G
H
I
J
• Divided circuit diagram
One sheet of B and Q boards are circuit diagram is divided into three sheets,
each having the code B-a to B-c. For example, the destination
ab1 on the code B-a sheet is connected to ab1 on the B-b sheet.
a b 1
Ref. No.
Circuit diagram division code
KE-32TS2U(UC) 3-7
A
B
C
D
E
F
G
H
IC208
TC4W53FU
COMP
Q214
DTC144EE
2SC4617
Y BUFFER
Q213
2SA1774
Y BUFFER
R289
4.7k
1/16W
:RN-CP
R286
1/10W
:CHIP
R287
33k
1/10W
:CHIP
R288
18k
1/10W
:CHIP
10
Q216
330
ab-20
R295
15k
1/10W
:RN-CP
ae-25
ab-19
R292
560
1/16W
:RN-CP
R293
470
1/16W
:RN-CP
R294
680
1/16W
:RN-CP
R290
1k
1/10W
:CHIP
Q215
2SC4617
C BUFFER
R291
1k
1/10W
:CHIP
R296
100
1/10W
:CHIP
R298
100
1/10W
:CHIP
2SA1774
Y BUFFER
R299
1k
1/10W
:CHIP
Q217
R301
100
1/10W
:CHIP
11
Q218
2SA1774
C BUFFER
B
12
ab-21
GND
TP202
+5V
C270
100
10V
:AL-CP
- b
13
14
15
C218
6.3V
:AL-CP
C208
220
35V
:AL-CP
47
1.8k 1/10W :CHIP
1.8k 1/10W :CHIP
1.8k 1/10W :CHIP
1.8k 1/10W :CHIP
123
IC204
TC7S04F
43
VEH1
VEH2
VEH3
RB201
C220
47x4
0.1
16V
B:CHIP
4.9
5.0
D3
37
D2
38
D1
39
D0
40
BYPASS
41
VH
42
D GND
43
D VCC
44
FSC
45
2.0
N/M
46
0
PAL/NTSC
47
4.9
COMB/BPF
48
1.9
O VCC
BIAS
PCO
C223
47
1 2 3 4 5 6 7 8 9 10 11 12
6.3V
:AL-CP
R213
100
1/10W
:CHIP
C221
:AL-CP
10
16V
+2.5V
+2.5V
R216
R217
R218
R219
1/16W
:RN-CP
C202
100
6.3V
:AL-CP
C224
24p
CH:CHIP
C222
24p
CH:CHIP
4 5
C228
0.1
16V
B:CHIP
R214
51
B:CHIP
L201
47µH
C274
0.1
16V
B:CHIP
TP201
C225
0.1
16V
C226
0.1
16V
B:CHIP
FSC
RB202
47x4
0
5.0
1.9
1.9
FILIN
R223
43k
1/16W
:RN-CP
C229
0.1
16V
B:CHIP
AN 5V-3
L207
1µH
:CHIP
C237
100
6.3V
:AL-CP
RB203
47x4
IC205
MC141627FT
3LINE COMB
252627282930313233343536
C6C5C4C3C2C1C0D7D6D5D4
0
0
4.9
4.9
5.0
4.9
4.9
5.0
0.9
1.1
DA VCC
DA GND
C OUT
Y OUT
C230
C232
0.1
0.1
16V
16V
B:CHIP
B:CHIP
31
DVDDRAM
32
DVDDRAM
TEST15
33
TEST16
34
TEST17
35
TEST18
36
TEST19
37
DVDDIO
38
TEST20
39
DGND
40
TEST21
41
TEST22
42
TEST23
43
TEST24
44
DVDD
45
AVDD
46
XI
47
XO
48
AGND
49
FSCO
50
51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80
C231
47
6.3V
:AL-CP
1.3
1.5
I BIAS
DA REF
AD GND
R232
10k
1/10W
:CHIP
DGNDRAM
DGNDRAM
EXTDYC09
FSCI
AVDD
AGND
C227
0.1
16V
B:CHIP
TE1
24
TE0
23
MODE1
22
MODE0
21
AD CLK
20
D GND
19
NC
18
CLC
17
CLOUT
16
VIN
15
1.7
RBT
14
0.5
RTP
13
2.5
AD VCC C7
C233
0.1
16V
B:CHIP
EXTDYCO6
EXTDYCO7
EXTDYCO8
CKMD
DGND
CLK8
C234
1
10V
B:CHIP
C235
0.1
16V
B:CHIP
EXTDYCO5
EXTDYCO3
EXTDYCO4
RSTB
SLA0
SCL
EXTDYCO2
SDA
B:CHIP
µPD64083
EXTDYCO0
EXTDYCO1
ST0
ST1
R240
15k
1/10W
:CHIP
C239
0.1
16V
B:CHIP
C238
0.1
16V
B:CHIP
2SA1774
BUFFER
C236
0.1
16V
IC206
3D COMB
TEST14
TEST13
EXTALTF
NSTD
DVDD
DYCO0
Q203
C240
B:CHIP
TEST12
DYCO1
0.1
16V
C241
0.1
16V
B:CHIP
TEST10
TEST11
DYCO2
DYCO3
R245
220
1/10W
:CHIP
1/10W
:CHIP
1/10W
:CHIP
TEST09
DYCO4
R252
1.2k
1/10W
:CHIP
C242
47
6.3V
:AL-CP
Q205
2SA1774
Y BUFFER
R246
100
C244
0.01
B:CHIP
R248
100
TEST07
TEST08
DYCO5
DYCO6
B:CHIP
R255
1.8k
1/10W
:CHIP
1/10W
:CHIP
25V
1/10W
:CHIP
TEST06
DYCO7
+5V
Q204
2SC4617
BUFFER
C243
0.01
25V
Y BUFFER
R257
33k
R258
18k
TEST04
TEST05
DYCO8
DYCO9
RB204RB205RB206
1kx41kx41kx4
Q208
2SC4617
BUFFER
R260
220
1/10W
:CHIP
Q207
2SC4617
R256
100
1/10W
:CHIP
R266
820
1/16W
:RN-CP
R262
1k
1/10W
:CHIP
R261
100
1/10W
:CHIP
R263
1k
1/16W
:RN-CP
TEST01
TEST02
TEST03
CSI
ALTF
RPLL
C245
1
10V
B:CHIP
C247
47
6.3V
:AL-CP
R265
1k
1/10W
:CHIP
R272
680
1/16W
:RN-CP
Q209
2SA1774
C BUFFER
Q206
2SC4617
C BUFFER
123456789101112131415161718192021222324252627282930
DGND
DVDD
TESTIC2
TESTIC1
TEST26
TEST25
AGND
ACI
VRBC
VRTC
AVDD
AVDD
VRTY
VRBY
VCLY
AYI
AGND
AGND
CBPY
AYO
ACO
CBPC
AVDD
LINE
DGND
KIL
B:CHIP
VCC
CSINVS
1 2 3 4
Q210
2SC4617
BUFFER
R269
1k
1/10W
:CHIP
R276
1/10W
:CHIP
Q211
2SA1774
Y BUFFER
R273
6.8k
1/16W
:RN-CP
R271
390
1/10W
:CHIP
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
C275
10
16V
5678
CR
BP
PAR
1.2
2.3
4.3
GND
R274
100
1/10W
:CHIP
100
C261
0.1
16V
B:CHIP
R275
100
1/10W
:CHIP
C262
0.1
16V
B:CHIP
C276
47
6.3V
:AL-CP
C252
47 6.3V
:AL-CP
C257
0.1
16V
B:CHIP
C249
0.1
16V
B:CHIP
R277
680k
1/10W
:CHIP
IC207
LM1881M
SYNC SEP
C259
0.1
16V
B:CHIP
1
2
be-22
AN 5V-3
+5V
L204
1µH
:CHIP
be-23
be-24
DIG 5V-2
L202
C201
68µH
0.1
:CHIP
16V
B:CHIP
DIG
3.3V-2
C203
0.1
16V
B:CHIP
+5V
ab-3
I
abe-15
abe-14
C204
100
6.3V
:AL-CP
L208
1µH
:CHIP
C205
0.1
16V
B:CHIP
C271
47
6.3V
:AL-CP
C272
0.1
16V
B:CHIP
C273
0.1
16V
B:CHIP
IC201
SI-3025LSA
+2.5V REG
1234
VIN
NC
VIN
CTL
1234
VIN
NC
VIN
CTL
IC202
SI-3025LSA
+2.5V REG
R204
1/10W
:CHIP
R201
6.8k
1/10W
:CHIP
C209
0.01
25V
B:CHIP
R202
39k
1/10W
:CHIP
1/10W
:CHIP
:AL-CP
2.5
2.5
220
R205
2.2k
C210
100
6.3V
VOUT
VOUT
GND
5 6 7 8
GND
VOUT
VOUT
GND
5 6 7 8
GND
C211
0.001
B:CHIP
Q201
2SA1774
100 1/16W :RN-CP
C216
0.1
16V
B:CHIP
C212
0.01
25V
B:CHIP
C206
6.3V
C207
47
6.3V
:AL-CP
C214
B:CHIP
AMP
R207
L205
:CHIP
47
0.1
16V
1µH
98765
+5V
0.81.6
OUTOUT
1 2 3 4
1 2 3 4
C260
1
10V
B:CHIP
C264
0.1
16V
C250
B:CHIP
0.1
16V
B:CHIP
C251
0.1 16V B:CHIP
C253
0.1 16V B:CHIP
C254
0.1 16V B:CHIP
C255
0.1 16V B:CHIP
C256
0.1
16V
B:CHIP
R279
1.5k
1/10W
:CHIP
C263
0.1
16V
B:CHIP
C258
0.1
16V
B:CHIP
R280
100
1/10W
:CHIP
IN1
IN0
0.8
IN0
IN1
1.6
C265
6.3V
B:CHIP
R281
1.5k
1/10W
:CHIP
C266
0.01
25V
B:CHIP
1.8
1.4
R282
6.8k
1/10W
:CHIP
5678
5678
0
IC209
TC4W53FU
COMP
R283
2.2k
1/10W
:CHIP
10
R284
1k
1/10W
:CHIP
Q212
2SC4617
Y BUFFER
R285
470
1/16W
:RN-CP
(3D COMB FILTER,3LINE FILTER)
B-SS11402<UC.>-B..-P2
J
• Divided circuit diagram
One sheet of B and Q boards are circuit diagram is divided into three sheets,
each having the code B-a to B-c. For example, the destination
ab1 on the code B-a sheet is connected to ab1 on the B-b sheet.
a b 1
Ref. No.
Circuit diagram division code
KE-32TS2U(UC) 3-8
1
2
43
98765
10
11
12
13
14
15
A
B
C
D
E
F
G
H
RB412
47x4
C438
0.1
16V
B:CHIP
DVCCAD
DVCCADTTL
DVCCADTTL
DVCCAD3
C439
0.1
C437
16V
0.1
B:CHIP
16V
RB401
47x4
cg-33
cg-34
cg-35
GR5
GR6
GR7
GR6
GR7
DGNDAD3
DGNDADTTL
DGNDADTTL
DGNDAD3
RL1
RL0
RL0
RL1
RL2
GR2
GR0
GR1
GR3
GR4
GR5
GR1
GR2
GR3
GR4
AGNDAD3
DGNDAD3
RL5
AGNDAD3
DGNDAD3
RL6
RL4
RL3
RL2
RL5
RL3
RL4
RL6
RL7
RB402 RB403
47x4 47x4
GL5
GL6
GL7
RB410RB411
C440
0.1
16V
B:CHIP
47x447x4
737475767778798081828384858687888990919293949596979899
cf-40
GR0
DGNDADTTL
DVCCADTTL
DVCCADTTL
DGNDADTTL
RL7
C441
0.1
16V
B:CHIP
RR0
GL4
GL3
GL2
GL1
GL0
DGNDADTTL
DGNDAD3
DVCCADTTL
BR7
BR6
BR5
BR4
BR3
GNDAD3
BR2
BR1
BR0
DGNDADTTL
DVCCADTTL
BL7
BL6
BL5
DGNDAD3
BL4
BL3
BL2
BL1
BL0
DGNDADTTL
DGNDAD3
DVCCADTTL
RR7
RR6
RR5
RR4
RR3
RR2
RR1
RR0
RR1
RR2
RR3 GL4
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
C442
0.1
16V
B:CHIP
C443
0.1
16V
B:CHIP
C444
0.1
16V
B:CHIP
B
RB409
RB408
RB407
47x4
RB406
RB405
47x4
RB404
47x4
- c
GL3
GL2
GL1
GL0
47x4
BR7
BR6
BR5
BR4
47x4
BR3
BR2
BR1
BR0
BL7
BL6
BL5
BL4
47x4
BL3
BL2
BL1
BL0
RR7
RR6
RR5
RR4
GL5
GL6
GL7
(SYNC SEP,AD CONVERTER)
AN 5V-4
IC401
AN 6V
BA05FP
+5V REG
OUTVCC
GND
C401
220
35V
:AL-CP
DIG
5V-2
L401
1µH
:CHIP
ac-16
R445
1k
1/10W
:CHIP
BUFFERBUFFER
ac-2
R448
3.3k
1/16W
:RN-CP
C1240
0.1
16V
B:CHIP
R450 R451
2.2k
1/16W
:RN-CP
Q414
2SA1774
BUFFER
2SC4617
BUFFER
4.7k
1/10W
:CHIP
Q409
R442
2.2k
1/10W
:CHIP
R454
10
1/10W
:CHIP
R416
470
1/10W
:CHIP
ce-27
ce-28
ce-29
ce-30
R414
470
1/10W
:CHIP
R415
470
1/10W
:CHIP
R452
4.7k
1/10W
:CHIP
Q410
2SC4617
D406
BUFFER
1SS387
R462
15k
1/16W
:RN-CP
C445
4.7
10V
B:CHIP
R421
18k
1/16W
:RN-CP
C448
0.01
25V
B:CHIP
C446
4.7 10V B:CHIP
R302
470
1/10W
:CHIP
R303
470
1/10W
:CHIP
R304
470
1/10W
:CHIP
D407
1SS387
R449
4.7k
1/16W
B:CHIP
:RN-CP
Q401
2SA1774
BUFFER
Q404
DTC144EE
BUFFER
R419
18k
1/16W
:RN-CP
C447
0.01
25V
B:CHIP
2SA1462
BUFFER
2SA1462
BUFFER
2SA1462
BUFFER
R453
3.3k
1/16W
:RN-CP
C1241
0.1
16V
Q405
DTC144EE
BUFFER
Q402
2SC4617
D402
DAN202K
Q403
2SC4617
D403
DAN202K
CN401
10P
GND
R/V
GND
G/Y
GND
B/U
GND
DSUB_H
GND
DSUB_V
TO Q( a )BOARD
CN3002
1
2
3
4
5
6
7
8
9
10
SN74LV4053APWR
ce-26
IC405
SELECTOR
12345678
Y1
VCC
Y0
Z1
Z
Z0
INH
VEE
GND
Q406
DTC144EE
SW
JL80
C464
R440
0.1
6.8k
16V
1/10W
B:CHIP
:CHIP
Y
X
X1
X0
A
B
9 10 11 12 13 14 15 16
C
R308
1.5k
1/10W
:CHIP
D401
1SS387
R441
2.2k
1/10W
:CHIP
C1239
16V
B:CHIP
Q415
2SA1774
BUFFER
1
2SC4617
CLAMP
R446
150k
1/10W
:CHIP
Q407
C1238
470p
CH:CHIP
R444
1/10W
:CHIP
JL79
R443
1/10W
:CHIP
Q408
2SC4617
BUFFER
1/10W
:CHIP
1k
JL76
JL77
JL78
JL81
Q411
2SA1774
BUFFER
R455
1k
1/10W
:CHIP
R447
3.3k
Q412 Q413
2SA17742SA1774
100
I
Q31
Q32
Q33
+5V
R417
1.5k
1/10W
:CHIP
R418
1/10W
:CHIP
C449
220p
CH:CHIP
R420
220
1/16W
:CHIP
47
AN 5V-3
R305
1.5k
1/10W
:CHIP
R306
1.5k
1/10W
:CHIP
R307
1.5k
1/10W
:CHIP
B:CHIP
G/Y
B/U
R/V
ac-18
R461
0
1/16W
:CHIP
R423
150k
1/16W
:RN-CP
C468
0.1
1/16V
B:CHIP
10k 1/10W :CHIP 5.6k 1/10W :CHIP
C457
6.3V
:AL-CP
C453
0.1
16V
B:CHIP
C450
4.7
10V
B:CHIP
R422
220
1/16W
:CHIP
C451
4.7
10V
B:CHIP
C454
C455
0.1
16V
B:CHIP
:AL-CP
C462
0.1
16V
V.Y
0.22 50V B:CHIP
0.22 50V B:CHIP
V.B-Y
V.R-Y
C465
0.022
25V
B:CHIP
R456
68k
1/10W
:CHIP
Q416
DTC144EE
IC406
CLP
TC7S08FU
123
GND
R459 R460
+5V
C458
47
0.1
16V
B:CHIP
12345678910
H.STATE
V.STATE
CLAMPSW
GREENIN
GND
C/H
C/H DET
V IN
V DET
VTIMING
GATESW
C456
0.1
16V
B:CHIP
16V
10
SYNC SEP
cg-31
cg-32
C402
330p
CH:CHIP
C412
C413
0.22 50V B:CHIP
C404
0.22 50V B:CHIP
0.22 50V B:CHIP
0.22 50V B:CHIP
R457
68k
1/10W
:CHIP
Q417
DTC144EE
VCC
BK2125HM601T
CLAMP
TIMING
V.POL
H.POL
CLAMP
VS/S OUT
VS/S IN
IC404
M52347
B:CHIP
C414
0.1
16V
B:CHIP
C408
100p
CH:CHIP
R401
3.3k
1/10W
C407
:CHIP
0.33
16V
B:CHIP
C411
100p CH:CHIP
C418
0.1 16V B:CHIP
C419
0.1 16V B:CHIP
C420
0.1 16V B:CHIP
C403
0.22 50V B:CHIP
C405
C406
0.22 50V B:CHIP
C409
C410
TP401
G
C466
0.022
25V
B:CHIP
R458
68k
1/10W
:CHIP
Q418
DTC144EE
DIG
3.3V-2
4 5
DIG
5V-2
FB401
0uH
VCC
HD
HD
VD
11 12 13 14 15 16 17 18 19 20
C415
0.1
16V
R425
82k
1/16W
:RN-CP
CH:CHIP
C421
0.1
16V
B:CHIP
R405
3k
1/16W
:RN-CP
C425
0.1
16V
B:CHIP
C467
0.022
25V
B:CHIP
CH:CHIP
R424
4.3k
1/16W
:RN-CP
C459
100p
IC402
C416 C429
BA033FP
220
+3V REG
35V
:AL-CP
C417
47
6.3V
:AL-CP
GND
OUTVCC
B:CHIP
R407
1/16W
:CHIP
C428
0.1
16V
0
3.36.1 5.0
EVEN/ODO
109
XCLKIN
110
CLKIN
111
SYNCIN1
112
SYNCIN2
113
CLPIN
114
DVCCPLL
115
C426
0.1
16V
R406
820
C423
C427
B:CHIP
+5V
116
117
118
119
B:CHIP
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
DGNDPLL
AVCCVCO
AGNDVCO
RC1
RC2
AVCCIR
IREF
DPGND
AGNDIR
G/YIN1
AVCCAMPG
G/YIN2
AGNDAMPG
G/YCLP
B/CBCLP
R/CRCLP
DPGND
SOGIN1
B/CBIN1
AVCCAMPB
SOGIN2
B/CBIN2
AGNDAMPB
DPGND
R/CRIN1
AVCCAMPR
R/CRIN2
AGNDAMPR
C/YOUT
DACTESTOUT
ADDRESS
B/CBOUT
R409
820
1/16W
:RN-CP
C422
0.1
16V
B:CHIP
C424
0.1
16V
B:CHIP
0.116V
0.116V
B:CHIP
1/16W
:RN-CP
+5V
15KRGB
C460
220p
R426
2.2k
1/16W
:RN-CP
R427
2.2k
1/16W
:RN-CP
TP402 TP403
R428
2.2k
1/16W
:RN-CP
R429
1k
1/16W
:RN-CP
TH401
B R
CH:CHIP
220
35V
:AL-CP
C463
470
10V
R411
47
1/10W
:CHIP
HOLD
XTLOAD
SOGOUT
FL400
NFM51R10P
EMI
47 1/10W :CHIP
R435
100101102103104105106107108
DPGND
UNLOCK
1/2CLK
DSYNC/DIVOUT
CLK
XCLK
1/2XCLK
+3.3V
C434 C436
C432
0.1
1
16V
10V
B:CHIP
B:CHIP
AVCCAD3
AGNDADREF
DGNDPLLTTL
DVCCPLLTTL
0.1
16V
B:CHIP
VRB
DVCCAD3
IC403
CXA3516R
AD CONVERTER
R/CROUT
SDA
SCL
DVCCREG
1/10W
:CHIP
SEROUT
3WIRE/I2C
X SENABLE
C431
0.1
16V
B:CHIP
100
AVCCADREF
DPGND
AVCCAD3
C433
0.1
16V
B:CHIP
B:CHIP
ceg-36
ceg-37
C435
1
10V
VRT
B:CHIP
XPOWERSAVE
DGNDREG
NC
NC
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 36
R410
820
1/16W
:RN-CP
R412 R413
100
1/10W
:CHIP
cg-38
C461
R432
22p
47
1/16W
:RN-CP
cg-39
B-SS11402<UC.>-B..-P3
J
One sheet of B and Q boards are circuit diagram is divided into three sheets,
each having the code B-a to B-c. For example, the destination
ab1 on the code B-a sheet is connected to ab1 on the B-b sheet.
a b 1
Ref. No.
• Divided circuit diagram
Circuit diagram division code
KE-32TS2U(UC) 3-9
1
2
43
98765
10
11
12
13
14
15
A
B
C
D
E
F
G
H
dg-41
RR5
RR6
RR7
POD38
POD39
MD10
MD9
POD36
POD37
MD11
MD12
C812
0.1
16V
B:CHIP
VDD
POD35
MD13
GND
GND
VDD
POD33
POD34
MD15
MD14
B:CHIP
POD31
POD32
MD16
MD17
C814
0.1
16V
POD30
MD18
dg-42
dg-43
dg-44
dg-45
def-46
de-47
def-48
RR4
RR3
RR2
RR1
RR0
RL7
RL6
RL5
RL4
RL3
RL2
RL1
RL0
GR7
GR6
GR5
GR4
GR3
GR2
GR1
GR0
GL7
GL6
GL5
GL4
GL3
GL2
GL1
GL0
BR7
BR6
BR5
BR4
BR3
BR2
BR1
BR0
BL7
BL6
BL5
BL4
BL3
BL2
BL1
BL0
DIG 3.3V-2
C801
47
6.3V
:AL-CP
C802
0.1
16V
B:CHIP
C803
0.1
16V
B:CHIP
C804
0.1
16V
B:CHIP
C805
0.1
16V
B:CHIP
C806
0.1
16V
B:CHIP
+3.3V
POD42
POD43
MD5
MD6
POD40
POD41
MD7
MD8
C810
0.1
16V
B:CHIP
VDD
GND
GND
VDD
C807
R801
100
0.1
1/10W
16V
:CHIP
L801
OµH
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
R3_OD
R4_OD
R5_OD
R6_OD
R7_OD
R0_EV
R1_EV
GND
R2_EV
VDD
R3_EV
R4_EV
R5_EV
R6_EV
R7_EV
G0_OD
G1_OD
G2_OD
G3_OD
GND
VDD
G4_OD
G5_OD
G6_OD
G7_OD
G0_EV
G1_EV
G2_EV
G3_EV
G4_EV
G5_EV
GND
G6_EV
G7_EV
B0_OD
B1_OD
B2_OD
B3_OD
B4_OD
B5_OD
B6_OD
B7_OD
B0_EV
GND
VDD
B1_EV
B2_EV
B3_EV
B4_EV
B5_EV
B6_EV
B7_EV
PIVS
PIHS
GND
PICLK
VDD
PIFLD
PIVSGO
SCLK
SS
SI
GND
VDD
B:CHIP
VDD
POEXT
R0_OD
R1_OD
R2_OD
SO
CS
DQMO
DQM1
GND
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 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60
GND
VDD
POACT
POD47
MD0
MD1
C808
B:CHIP
POD45
POD46
MD2
MD3
0.1
16V
VDD
GND
GND
POD44
MD4
VDD
def-49
I
CS
LDQM
UDQM
MD1
MD2
MD0
MD3
MD4
B:CHIP
C809
0.1
16V
MD5
MD6
MD7
MD8
MD9
C811
0.1
16V
B:CHIP
MD10
MD11
MD12
• Divided circuit diagram
J
One sheet of B and Q boards are circuit diagram is divided into three sheets,
MD13
MD14
C813
0.1
16V
B:CHIP
MD15
MD16
MD17
MD18
BO7
RB801
47x4
GND
VDD
POD29
IC801
IP00C713
IPC
MD19
GND
VDD
MD19
C815
0.1
16V
B:CHIP
BO5
BO6
POD28
MD20
MD20
MD21
BO4
B:CHIP
POD26
POD27
MD21
MD22
MD22
RB802
47x4
C816
0.1
16V
POD25
MD23
MD23
BO3
GND
VDD
GND
VDD
C817
0.1
16V
B:CHIP
BO2
POD24
MD24
MD24
BO1
POD23
MD25
MD25
BO0
POD22
MD26
MD26
MD27
C818
0.1
16V
B:CHIP
POD20
POD21
MD27
MD28
MD28
RB803
47x4
VDD
GND
C819
0.1
16V
B:CHIP
GND
VDD
GO7
GO6
POD19
MD29
MD29
MD30
GO5
POD17
POD18
MD30
MD31
MD31
GO4
RB804
47x4
C820
0.1
16V
B:CHIP
VDD
POD16
MD32
GND
MD32
GO3
POD15
MD33
MD33
C821
0.1
16V
B:CHIP
GND
VDD
GO2
POD14
MD34
MD34
GO1
GO0
POD13
MD35
MD35
MD36
C822
B:CHIP
POD11
POD12
MD36
MD37
MD37
0.1
16V
GND
VDD
GND
VDD
C823
0.1
16V
B:CHIP
RO7
RO6
129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192
POD8
POD9
POD10
MD38
MD39
MD40
61 62 63 64
MD38
MD39
MD40
RO5
RO4
RB805
47x4
+3.3V
POD7
VDD
POD6
GND
POD5
POD4
POD3
POD2
VDD
POD1
GND
POD0
POFLD
POVS
POHS
GND
VDD
OSDDT3
OSDDT2
OSDDT1
AVDD
AGND
OSDDT0
OSDEN
POCLK
PODMD
TESTH
TEST1
TEST0
RST
MCLKSEL
VDD
MCLK
GND
GND
VDD
MA11
MA10
MA9
MA8
MA7
MA6
MA5
MA4
VDD
GND
MA3
MA2
MA1
MA0
CAS
RAS
MWR
BA0
BA1
VDD
MD47
GND
MD46
MD45
MD44
MD43
VDD
MD42
GND
MD41
MD41
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
C824
0.1
16V
B:CHIP
C832
0.1
16V
B:CHIP
C825
0.1
16V
B:CHIP
C826
0.1
16V
B:CHIP
C827
0.1
16V
B:CHIP
C828
0.1
16V
B:CHIP
C829
0.1
16V
B:CHIP
C830
0.1
16V
B:CHIP
C831
0.1
16V
B:CHIP
RB806
47x4
RB807
47x4
MA10
MA9
MA8
MA7
MA6
MA5
MA4
MA3
MA2
MA1
MA0
CAS
RAS
WE
BA
MD47
MD46
MD45
MD44
MD43
MD42
RO3
RO2
RO1
RO0
TP801
TP802
OCLK
MD0
MD1
MD2
MD3
MD4
MD5
MD6
MD7
LDQM
WE
CAS
RAS
CS
BA
MA10
MA0
MA1
MA2
MA3
TP803
TP804
TP805
IC803
K4S161622D
SDRAM
C841
0.1
16V
B:CHIP
12345678910111213141516171819202122232425
C844
0.1
16V
B:CHIP
C845
0.1
16V
B:CHIP
C848
0.1
16V
B:CHIP
VDD
DQ0
DQ1
VSSQ
DQ2
DQ3
VDDQ
DQ4
DQ5
VSSQ
DQ6
DQ7
VDDQ
LDQM
N.C/RFU
WE
CAS
RAS
CS
BA
A10/AP
A0
A1
A2
A3
VDD
IC804
K4S161622D
SDRAM
12345678910111213141516171819202122232425
VDD
DQ0
1.1
DQ1
1.3
VSSQ
DQ2
1.1
DQ3
1.0
VDDQ
DQ4
1.0
DQ5
1.0
VSSQ
DQ6
0.9
DQ7
0.5
VDDQ
LDQM
N.C/RFU
1.6
WE
3.0
CAS
2.6
RAS
2.6
CS
2.8
BA
0.6
A10/AP
2.9
A0
0.3
A1
0.3
A2
0.3
A3
0.8
VDD
MCLK
+3.3V
R805
100k
1/10W
:CHIP
C834
0.1
16V
B:CHIP
C835
0.1
16V
B:CHIP
X801
65MHz
X802
80MHz
C833
0.1
16V
B:CHIP
C836
0.1
16V
B:CHIP
DIG 3.3V-2
FB801
0uH
:CHIP
CONT VDD
DIG 3.3V-2
FB802
0uH
:CHIP
CONT VDD
IC802
K4S161622D
SDRAM
12345678910111213141516171819202122232425
VSS
VDD
DQ15
DQ0
DQ14
DQ1
VSSQ
VSSQ
DQ13
DQ2
DQ12
DQ3
VDDQ
VDDQ
DQ11
DQ4
DQ10
DQ5
VSSQ
VSSQ
DQ9
DQ6
DQ8
DQ7
VDDQ
VDDQ
LDQM
N.C/RFU
UDQM
WE
CLK
CAS
CKE
RAS
CS
N.C
BA
A10/AP
A0
A1
A2
A3
VDD
VSS
MD16
MD17
R803
47
1/10W
:CHIP
OUT
C837
0.1
16V
B:CHIP
R802
47
1/10W
:CHIP
OUT
C838
0.1
16V
B:CHIP
R804
47
1/10W
:CHIP
MD15
MD14
MD13
MD12
C839
0.1
16V
MD11
B:CHIP
MD10
MD9
MD8
C840
0.1
16V
B:CHIP
UDQM
A9
A8
A7
A6
A5
A4
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
MA9
MA8
MA7
MA6
MA5
MA4
MD18
MD19
C842
0.1
16V
MD20
B:CHIP
MD21
MD22
MD23 MD24
C843
0.1
16V
LDQM
B:CHIP
WE
CAS
RAS
CS
BA
MA10
MA0
MA1
MA2
MA3
MD32
MD33
MD34
MD35
C846
0.1
16V
MD36
B:CHIP
MD37
MD38
MD39
C847
0.1
16V
B:CHIP
LDQM
WE
CAS
RAS
CS
BA
MA10
MA0
MA1
MA2
MA3
- d
B
(INTERLACE PROGRESSIVE CONVERTER)
df-50
df-51
SCVS
df-52
SCHS
df-53
SCCLK
df-54
defg-55
de-56
VSS
DQ15
DQ14
VSSQ
DQ13
DQ12
VDDQ
DQ11
DQ10
VSSQ
DQ9
DQ8
VDDQ
UDQM
CLK
CKE
N.C
A9
A8
A7
A6
A5
A4
VSS
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
C851
47
6.3V
:AL-CP
VSS
DQ15
0.5
DQ14
0.9
VSSQ
DQ13
1.0
DQ12
1.0
VDDQ
DQ11
1.1
DQ10
1.1
VSSQ
DQ9
1.3
DQ8
1.1
VDDQ
C853
0.1 16V
B:CHIP
UDQM
1.6
CLK
1.6
CKE
N.C
A9
0.3
A8
0.3
A7
1.6
A6
0.3
A5
1.5
A4
1.5
VSS
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
B-SS11402<UC.>-B..-P4
C849
0.1
16V
B:CHIP
C850
0.1
16V
B:CHIP
C852
0.1
16V
B:CHIP
MD31
MD30
MD29
MD28
MD27
MD26
MD25
UDQM
MA9
MA8
MA7
MA6
MA5
MA4
MD47
MD46
MD45
MD44
MD43
MD42
MD41
MD40
UDQM
MA9
MA8
MA7
MA6
MA5
MA4
each having the code B-a to B-c. For example, the destination
ab1 on the code B-a sheet is connected to ab1 on the B-b sheet.
a b 1
Ref. No.
Circuit diagram division code
KE-32TS2U(UC) 3-10
A
B
C
D
E
F
G
H
R1022
47k
1/10W
:CHIP
Q1001
2SC4617
RB1010
47x4
H STATUS
SOG DUTY2
SOG DUTY1
COL SYS N/M
PICTURE AGC
CC VID/YUV
POWER
R1011
1/10W
:CHIP
1234
10
Q1002
2SA1774
R1023
1k
1/10W
:CHIP
616263646566676869707172737475767778798081828384858687888990
TU_RX
TU_CLK
SCL_HS
SDA_HS
VSS
SCL_LS
PVCC2
SDA_LS
COMF SW
VEH3
VEH2
VEH1
NTSC/PAL
PVCC1
VSS
V.SYNC
H.SYNC
V.BLK
47
C1037
B:CHIP
STBY 5V
R1008
10k
1/10W
:CHIP
STBY
5V
0.1
16V
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
B:CHIP
C1028
B:CHIP
C1036
0.1
16V
0.1
16V
+5V
1234
E0
VCC
E1
WC
E2
SCL
GND
SDA
IC1007
M24C64-WMN(B)
EEPROM
ce-30
ce-29
ce-27
ce-28
STBY 5V
R1026
2.2k
1/10W
:CHIP
R1024
10
1/10W
:CHIP
10 1/10W :CHIP
R1025
C1026
0.1 16V B:CHIP
C1027
0.1
16V
B:CHIP
C1049
0.1
16V
B:CHIP
11
5 6 7 8
R1030
10k
1/10W
R1027
:CHIP
2.2k
1/10W
:CHIP
R1028
10
1/10W
:CHIP
10 1/10W :CHIP
R1029
RB1011
47x4
RB1012
47x4
JL1011
RB1013
47x4
RB1014
47x4
1234567
1A
VCC
1Y
6A
2A
6Y
2Y
5A
3A
5Y
3Y
4A
GND 4Y
IC1012
TC74VHCT14AFT
R1055
0
0
0
0
0
1/16W
1/16W
1/16W
1/16W
1/16W
R1056
:CHIP
:CHIP
:CHIP
:CHIP
:CHIP
0
0
1/16W
1/16W
1/16W
:CHIP
:CHIP
:CHIP
VEH3
VEH2
VEH1
JL1012
JL1013
JL1014
JL1015
JL1016
DIG
5V-2
C1030
0.1
16V
B:CHIP
8 9 10 11 12 13 14
C1048
0.1
16V
B:CHIP
R1031
10k
1/10W
:CHIP
12
R1063
10k
1/10W
:CHIP
C1040
CH:CHIP
be-22
be-25
be-23
be-24
be-17
be-13
ae-26
C1047
0.1
16V
B:CHIP
STBY 5V
100
STBY5V
ae-10
ef-63
eg-66
eg-67
ef-64
ef-65
R1049
0 1/16W
:CHIP
:CHIP
:CHIP
ae-6
IC1015
SN74CBTD3306
1234
SDA5
SDA3
GND SCL5
IC1019
SN74CBTD3306
1234
SDA5
SDA3
GND SCL5
Q1005
DTC144EE
R1051
0
0
0
0
1/16W
1/16W
1/16W
1/16W
:CHIP
:CHIP
:CHIP
:CHIP
13
ae-12
ae-11
ae-8
ae-9
ceg-36
ceg-37
STBY
3.3V
R1032
3.3k
1/10W
:CHIP
VCCOE
OE
SCL3
5 6 7 8
R1062
2.2k
1/10W
:CHIP
DIG
5V-2
R1061
2.2k
1/10W
:CHIP
VCCOE
OE
SCL3
5 6 7 8
DIG 5V-2
C1046
0.1
16V
B:CHIP
R1006
1/16W
:CHIP
B
(MAIN CPU)
B-SS11402<UC.>-B..-P5
R1033
3.3k
1/10W
:CHIP
C1031
0.1
16V
B:CHIP
ef-68
ef-69
C1029
0.1
16V
B:CHIP
abe-14
abe-15
0
- e
14
C1041
10
16V
:AL-CP
5
4
3
2
1
CN1006
5P
GND
MUTE
VGA
RESET
5V
TO UD BOARD
CN7002
15
STBY 5V
R1003 R1004
10k
1/10W
:CHIP
DIG
3.3V-2
R1046
1k
1/10W
:CHIP
C1043
0.1 16V B:CHIP
D1005
1SS387
43
IC1003
RS5C348A
32KOUT
VCC
SCLK
OSC_IN
OSC_OUT
CE
6 7 8 9 10
GND
/INTR
C1009
0.1
16V
B:CHIP
DIG 5V-2
R1047
47k
1/10W
:CHIP
5 6 7 8
IC1009
TC7W241FU
BUFFER
R1014
470
1/16W
:CHIP
12345
SO
SI
100
1/10W
:CHIP
R1048
22k
1/10W
:CHIP
C1044
0.1
16V
B:CHIP
1234
IC1018
TC7WH125FU
BUFFER
1234
STBY
3.3V
5 6 7 8
STBY 5V
C1011
47
6.3V
:AL-CP
STBY 5V
R1218
100k
1/16W
:RN-CP
C1053
0.1
16V
B:CHIP
C1054
0.1 16V B:CHIP
ae-7
D1006
1SS387
IC1017
BA033F-E2
3.3V REG
1234
NC
NC
NC
VCC
C1038
0.1
16V
B:CHIP
D3_DET
C1056
0.1
16V
B:CHIP
LEDA
LEDB
Q_SENS
FAN_FB
C1055
0.1 16V B:CHIP
JL1022
JL1023
C1045
0.1
16V
B:CHIP
F_MODE
RB1005
47x4
DIG
5V-2
R1068 R1069
27k
1/10W
:CHIP
C1052
2.2
10V
B:CHIP
STBY 3.3V
GND
NC
OUT
C1039
5 6 7 8
NC
0.1
16V
B:CHIP
C1012
0.1
16V
B:CHIP
JL1020
JL1019
JL1017
RB1001
10x4
JL1018
RB1002
10x4
R1071
100k 1/16W :CHIP
RB1003
10x4
RB1004
10x4
STBY 5V
R1007 R1013
47k
1/10W
:CHIP
STBY 5V
10k
1/10W
:CHIP
12
3 4
IC1020
S-80842ANNP-ED6
R1041
47
1/10W
:CHIP
+3.3V
C1010
47
6.3V
:AL-CP
91
AVCC
92
VREF
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
AVSS
110
111
RTC_CS
112
OSD_CS
113
PLD_CS
114
SC_CS
115
4W_CLK
116
4W_RX
117
4W_TX
118
MD0
119
MD1
120
MD2
10k
1/10W
:CHIP
R1005
100
1/10W
:CHIP
STBY
3.3V
D1004
HN1D03FU
FWE
RES
R1015
10k
OP_SW1
OP_SW2
NC
RGB3
CONT1
TUNER RESET
VSS
VIDEO_MUTE
PDP_IRQ
VCC
STBY
3.3V
C1013
0.1
16V
B:CHIP
RB1009
47x4
1/10W
:CHIP
RB1007
47x4
VSS
PWM0
FAN_DRV
FEN_DET
NC
NC
RTC-IRQ
SYSTEM_RESET
PDP_CPU
PDP_ACT
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
R1017
27k
1/10W
:CHIP
C1015
2.2
10V
B:CHIP
OSC2
PVCC1
VSS
PWM1
RB1008
47x4
POW_SW
R1016
100
1/10W
:CHIP
0.1 16V B:CHIP
C1014
OSC1
POWER SW
C1035
B:CHIP
IC1005
S-80828ANNP
12
3 4
R1018
10k
1/10W
:CHIP
X1002
12.288MHz
10p CH:CHIP
0.1 16V B:CHIP
C1016
C1018
VSS
VCC
EXTAL
IC1004
HD64F2633TE
MAIN CPU
INPUT SELECT
LINE MUTE
PVCC1
0.1 16V B:CHIP
C1017
INPUT_SEL
AMUTE
LMUTE
0.1
16V
1
STBY 5V
CN1003
3P
STBY5V
1
CLOCK
2
GND
3
STBY5V
1
GND
2
SIRCS
3
4
GND
5
LED A
6
LED B
7
POWER SW
GND
LPF
GND
SCL LS
SDA LS
GND
UART TX
UART RX
FWE
GND
FAN FB
GND
Q SENS
RGB3
CONT1
CN3003
CN1001
30P
STBY5V
KEY
GND
CN4501
CN1004
3P
CN1002
8P
STBY5V
UART TX
GND
UART RX
FWE
GND
CN3008
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
FB1205
1
2
3
STBY 5V
1
2
3
4
5
6
7
8
INPUT SEL
D3 DETECT
AUDIO MUTE
LINE MUTE
CPU RESET
FLASH MODE
FAN DRIVE
FAN DETECT
TO Q( a )BOARD
TO H2 BOARD
I
CPU RESET
FLASH MODE
TO Q( a )BOARD
JL69
JL70
JL71
JL50
JL51
JL52
JL53
JL54
JL55
JL56
JL57
FAN_DRV
JL63
JL64
FEN_DET
JL65
JL66
JL67
STBY
5V
C1001
0uH
:AL-CP
FB1207
0
1/16W
:CHIP
C1033
0.1 16V B:CHIP
de-56
def-46
def-48
ef-57
defg-55
fef-49
ef-58
ef-59
de-47
ef-60
JL84
JL85
JL86
JL87
JL88
JL89
2
STBY 5V
SIRCS
LEDA
LEDB
POW_SW
JL72
D3_DET
AMUTE
LMUTE
UR_TX
UR_RX
F_MODE
FAN_FB
Q_SENS
OP_SW1
OP_SW2
47
6.3V
JL75
DIG
3.3V-2
R1012
1/16W
:CHIP
LPF
RES
FWE
UR_TX
UR_RX
F_MODE
10k
INPUT_SEL
abe14
abe15
D1003
1SS387
R1001
1k
1/10W
:CHIP
BAT500
3V
FB1206
0uH
D1007
MA3075WA
IC1010
TC74VHC541FT
VCC
G1
A1
G2
A2
Y1
A3
Y2
A4
Y3
A5
Y4
A6
Y5
A7
Y6
A8
Y7
Y8 GND
11 12 13 14 15 16 17 18 19 20
STBY
IC1011
TC74VHCT541AFT
12345678910
G1
VCC
A1
G2
A2
Y1
A3
Y2
A4
Y3
A5
Y4
A6
Y5
A7
Y6
A8
Y7
Y8
GND
RES
FWE
STBY 5V
1SS387
C1005
6.3V
:AL-CP
X1001
32.768K
JL74
12345678910
5V
11 12 13 14 15 16 17 18 19 20
D1002
47
AN 6V
R1044
47k
1/10W
:CHIP
R1045
47k
1/10W
:CHIP
C1034
0.1
16V
B:CHIP
C1007
0.1
16V
B:CHIP
3 4
C1042
0.1
16V
B:CHIP
STBY
R1034
47k
1/10W
:CHIP
C1008
0.1
16V
B:CHIP
12
R1035
10k
1/10W
:CHIP
C1032
:AL-CP
ef-61
ef-62
5V
100
6.3V
10p CH:CHIP
C1020
FWE
XTAL
LPF_SW
AMUTE
LPF
C1025
0.1
16V
B:CHIP
TC7S08FU
R1019
100
1/10W
:CHIP
C1019
0.1
16V
B:CHIP
C1022
0.1
16V
B:CHIP
C1023
470p
CH:CHIP
R1021
3k
1/16W
:RN-CP
NMI
STBY
SIRCS
SC PLL SW
98765
STBY 5VSTBY 5V
IC1006
1 2 3
C1021
0.1
16V
B:CHIP
C1024
0.1
16V
B:CHIP
R1020
200
1/16W
:RN-CP
RES
PLLVSS
PLLCAP
TXD2(FWR)
NC
RB1006
UR_TX
UR_RX
SIRCS
IC1016
TC7W14FU
45
VCC
GND
PLLVCC
WDTOVF
V STATUS
RXD2(FWR)
VSS
NC
47x4
R1009
47k
1/10W
:CHIP
R1010
47k
1/10W
:CHIP
5 6 7 8
J
One sheet of B and Q boards are circuit diagram is divided into three sheets,
each having the code B-a to B-c. For example, the destination
ab1 on the code B-a sheet is connected to ab1 on the B-b sheet.
a b 1
Ref. No.
• Divided circuit diagram
Circuit diagram division code
KE-32TS2U(UC) 3-11
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