Fujitsu X176 Schematic

- 17 -
GENERAL INFORMATION
All adjustment are thoroughly checked and corrected when the monitor leaves the factory, but sometimes several adjustments may be required. Adjustment should be following procedure and after warming up for a minimum of 30 minutes.
- IBM compatible PC.
- Programmable Signal Generator. (eg. VG-819 made by Astrodesign Co.)
- EPROM or EEPROM with saved each mode data.
- Alignment Adaptor and Software.
- Digital Voltmeter.
- White Balance Meter.
- Luminance Meter.
- High-voltage Meter.
AUTOMATIC AND MANUAL DEGAUSSING
The degaussing coil is mounted around the CDT so that automatic degaussing when turn on the monitor. But a monitor is moved or faced in a different direction, become poor color purity cause of CDT magnetized, then
press
(DEGAUSSING) on the OSD menu.
ADJUSTMENT PROCEDURE & METHOD
- Install the cable for adjustment such as Figure 1and run
the alignment program on the DOS for IBM compatible PC.
- Set external Brightness and Contrast volume to max position.
1. Adjustment for B+ Voltage.
Display cross hatch pattern at Mode 12. Adjust C951 voltage to 190V 0.5V with VR901.
2. Adjustment for High-Voltage.
Display cross hatch pattern at Mode 12. Adjust CDT Anode voltage to 26kV 0.5kV with
VR501.
3. Adjustment for Horizontal Raster Center.
Display cross hatch pattern at Mode 10. Adjust the raster should be center of the screen with SC701.
4. Adjustment for Factory Mode (Preset Mode).
Display cross hatch pattern at Mode 10. Run alignment program for 790SC, 795SC or CF795 on the IBM compatible PC. EEPROM 2408_INIT Y(Yes) command. EEPROM ALL CLEAR Y(Yes) command. Power button of the monitor turn off turn on. COMMAND START Y(Yes) command. DIST. ADJ. TILT command. Adjust tilt as arrow keys to be the best condition. Adjust H-SIZE as arrow keys to max of the screen. DIST. ADJ. BALANCE command. Adjust balance of side-pincushion as arrow keys to be the best condition. DIST. ADJ. BALANCE command. Adjust parallelogram as arrow keys to be the best condition. DIST. ADJ. FOS. ADJ command. Adjust H-SIZE as arrow keys to 310 2mm. Adjust H-POSITION as arrow keys to center of the screen. Adjust V-SIZE as arrow keys to 230 2mm. Adjust V-POSITION as arrow keys to center of the screen. Adjust S-PCC (Side-Pincushion) as arrow keys to be the best condition. Adjust TRAPEZOID as arrow keys to be the best condition. Display from Mode 2 to Mode 12 and repeat above from number
to .
PRESET EXIT Y (Yes) command.
5. Adjustment for White Balance and Luminance.
Set the White Balance Meter. Press the (DEGAUSSING) on the OSD menu for demagnetization of the CDT. Display color 0,0 pattern at Mode 12. COLOR ADJ. LUMINANCE command of the alignment program. Set Bright and Contrast to max position. COLOR ADJ. BIAS ADJ. command of the alignment program. Check whether blue color or not at R-BIAS and G­BIAS to min position and B-BIAS to 130 (decimal) position. If it's not blue color, the monitor must repair.
ADJUSTMENT
- 18 -
Figure 1. Cable Connection
220
Monitor to be
adjusted
Video
Signal Generator
IBM Compatible PC
Parallel Port
Power inlet (required)
Power LED
ST Switch
Power Select Switch (110V/220V)
Control Line
Not used
RS232C
PARALLEL
V-SYNC
POWER
ST
VGS
MONITOR
E
E
V-Sync On/Off Switch (Switch must be ON.)
F
F
A
A
B
B
C
C
15
10
5
5
69
1
1
1
14
13
25
6
5V
5V
5V
4.7K
4.7K
4.7K
74LS06
74LS06
OFF ON
OFF
ON
11
Adjust Screen control on the FBT to 0.1 0.02FL of the raster luminance. Adjust R-BIAS and G-BIAS command to x=0.281
0.006 and y=0.311 0.006 on the White Balance Meter with PC arrow keys. Adjust SUB-Brightness command to 0.5 0.1FL of the raster luminance. Display color 15,0 box pattern (70 70mm) at Mode 12. Set Bright and Contrast to max position. DRIVE ADJ command. Set B-DRIVE to 100 (decimal) at DRIVE of the alignment program. Adjust R-DRIVE and G-DRIVE command to white balance x=0.281
0.003 and y=0.311 0.003 on
the White Balance Meter with PC arrow keys.
Adjust SUB-CONTRAST command to 51 1FL of the color 15,0 box pattern (70x70mm) luminance at Mode 12. Display color 15,0 full white patten at Mode 12. COLOR ADJ. LUMINANCE ABL command.
Adjust ABL to 34 1FL of the luminance.
Exit from the program.
6. Adjustment for Focus.
Set the Brightness and Contrast to max position. Display H character in full screen at Mode 8. Adjust two Focus control on the FBT that focus should be the best condition.
BLOCK DIAGRAM
- 14 -
CONTROL PANEL
POWER
BRIGHTNESS
CONTRAST
ENTER
ADJUST
ADJUST
EXIT
5V
USB-
USB+
SOG
SOGOFF
H-SIZE
H-SIZEMAX
H-STC
V-STC
DDC-SDA
DDC-SDA
DDC-SCL
CS1
CS2
CS3
CS4
CS0
TILT
ST-IN
STBY & SUS
POWER OFF
H-SYNC SIG.
V-SYNC SIG.
R/G/B
DDC-SCL
7.5V
STBY & SUS
RECTIFIER
D901
PURITY
CONTRAST
CLAMP
SUB-BRT
C-BRT
ABL
1/2 FH
LED
DEG
D-SUB
(SIGNAL CABLE)
VIDEO PRE-AMP
M52743SP
(IC302)
SPCC &
H-SIZE MIXING
(IC401)
D/D DRIVE
(IC402, Q411,
Q412, Q413, Q414)
H-LINRARITY
CORRECTION
(Q712, Q713,
Q714, Q715)
H-OUTPUT
2SC5047
(Q707)
H-DRIVE TRANS
(T701)
D/D CONVERTER
(Q503)
H-DRIVE TRANS
B CONTROL
(Q704, Q721, IC702)
HIGH-VOLTAGE
PWM IC
M62501P
(IC501)
FBT DRIVE
& SWITCHING
(Q505, Q506, Q507)
D/D CONVERTER
(Q404)
DUMY FBT
(T702)
VIDEO POWER AMP
VPS13
(IC304)
OSD PROCESSOR
(IC301)
CLAMP
CONTROL
EEPROM
(IC207)
TILT CONTROL
(IC603)
5V STC CONTROL
AN5769
(IC204)
H-STC
V-STC
12V
CS1
6.3V
TILT
SIGNAL
15V
-12V
PURITY CONTROL
(IC603)
PURITY
SIGNAL
15V
-12V
8 BIT
MICOM
(IC202)
CDT
12V
80V
R/G/B
H STC COIL
CS2
CS3
CS4
CS0
HIGH VOLTAGE
DYNAMIC FOCUS
SCREEN
5V
OSD SIGNAL
(R/G/B)
V-OUTPUT
TDA8172
(IC601)
R/G
BIAS
190V
15V
5V
-12V
AFC
AFC
POWER
& DPM
LED
DEGAUSSING
CIRCUIT
(RL901)
R
G
DEGAUSSING
COIL
LINE
FILTER
(LF901)
SMPS
MAIN
(T901)
SMPS
SUB
(T902)
POWER INPUT
100-240Vac
(50/60Hz)
+
PFC IC
(IC901)
PWM IC
(IC902)
25V
15V
12V
-12V
80V
190V
5V
7.5V
12V
5V
EW
H-DRV
DF
H/V SYNC
PROCESSOR
UPC1884CT
(IC701)
H-SYNC
V-SYNC
V-SAW
SDA
SCL
AFC
15V
15V
25V
MUTE H-SIZE
190V 190V
15V
DF 12V
DYNAMIC
FOCUS VR
DYNAMIC
FOCUS VR
SCREEN VR
190V
X-RAY
X-RAY
H/V DETECT
15V
H-CENTERING
COIL
D-FOCUS AMP
DYNAMIC FOCUS
OUTPUT
LF353
(IC209)
FLY
BACK
TRANS
(T703)
F/V
C906
IIC
SIGNAL
DF B
+
+
HD FBT
I C-SDA
I C-SCL
2
I C-SCL
2
2
2
I C-SDA
I C-SDA
2
I C-SCL
2
I C-SCL
2
I C-SDA
2
- 15 -
DESCRIPTION OF BLOCK DIAGRAM
1. Line Filter & Associated Circuit.
This is used for suppressing noise of power input line flowing into the monitor and/or some noise generated in this monitor flowing out through the power input line. That is to say, this circuit prevents interference between the monitor and other electric appliances.
2. Degauss Circuit & Coil.
The degauss circuit consists of the degaussing coil, the PTC (Positive Temperature Coefficient) thermistor (TH902), and the relay (RL901). This circuit eliminates abnormal color of the screen automatically by degaussing the slot mask in the CDT when turn on the power switch. When you need to degauss while using the monitor, select
(DEGAUSS) in the ETC on the OSD menu.
3. SMPS (Switching Mode Power Supply).
This circuit works with power of 110-240Vac (50/60Hz). The operation procedure is as follows:
1) AC input voltage is rectified and smoothed by the
bridge diode (D901) and the capacitor (C906).
2) The rectified voltage (DC voltage) is applied to the
primary coil of the transformer (T901, T902) and PFC IC (IC901).
3) The PFC (Power Factor Correction) IC (IC901)
corrects power factor caused by different between current phase and voltage phase.
4) The control IC (IC902) generates switching pulse to
turn on and off the primary coil of the transformer (T901) repeatedly.
5) Depending on the turn ratio of the transformer, the
secondary voltages appear at the secondary coil of the transformer (T901).
6) These secondary voltages are rectified by each
diode (D921, D922, D924, D925, D926) and operate the other circuits. (Deflection, Video Amplifier, etc.)
7) The switching IC (IC903) controls input-pulse-width
and generates secondary voltages by sub­transformer (T902).
4. Display Power Management Circuit.
This circuit control power consumption of the monitor by detecting H and V sync signal. There are stand-by and suspend mode. When no horizontal or vertical sync signal input, the circuit consists of Q903 and IC916 becomes stand-by and suspend mode. ItÕs power consumption is below 8W.
5. X-ray Protection.
This circuit detects the rectified DC voltage comes from the FBT pin 4. If the high voltage of the FBT reaches up to about 28kV (abnormal state), high voltage control PWM IC (IC501) detects it. And PWM IC (IC501) prevent output voltage to the gate of high-voltage-D/D-convert-transistor (Q503). It stops B+voltage supplied to the FBT (T703), and high voltage is not be generated, (In the normal state, the high voltage is about 26kV.)
6. Micom (Microprocessor) Circuit.
The operating procedure of Micom (Microprocessor) and its associated circuit is as follows:
1) H and V sync signal is supplied from the D-Sub to the Micom (IC202).
2) The Micom (IC202) distinguishes polarity and frequency of H and V sync.
3) The Micom controls each OSD function signals. (H-size, H-position, V-size, etc.)
4) The controlled data of each mode is stored in itself. User can adjust screen condition by each OSD function. The data of the adjust screen condition is stored automatically.
7. Horizontal and Vertical Synchronous Processor.
This circuit generates the horizontal drive pulse and the vertical drive pulse by taking sync-signal from the D-SUB (P202). This circuit consists of the µPC1884CT (IC701) and the associated circuit.
8. Oscillating Circuit for D/D Converter.
This circuit generates the saw-tooth wave which has the horizontal period by taking the output of the µPC1884CT (IC701).
9. D/D (DC to DC) Converter.
This circuit supplies DC voltage to the horizontal deflection output circuit by decreasing DC 190V which is the secondary voltage of the SMPS in accordance with the input horizontal sync signal.
10. Side-Pincushion Correcting Cirucit.
This circuit improves the Side-pincushion of the screen by mixing east-west wave to the output of the horizontal deflection D/D converter which is used for the supply voltage source (B+) of the deflection circuit.
- 16 -
11. D/D Drive & Convert Circuit.
This circuit is used for supplying B+voltage to horizontal deflection output transistor (Q707). This circuit makes to add side-pincushion correcting signal to B+voltage.
12. Horizontal Deflection Output Circuit.
This circuit makes the horizontal deflection by supplying the saw-tooth current to the horizontal deflection yoke.
13. High Voltage Output & FBT (Flyback Transformer).
The high voltage output circuit is used for generating pulse wave to the primary coil of the FBT (Flyback Transformer (T703)). A boosted voltage (about 26kV) appears at the secondary of the FBT and it is supplied to the anode of the CDT. And there are another output voltages such as the dynamic focus voltage.
14. H-Linearity Correction Circuit.
This circuit corrects the horizontal linearity for each horizontal sync frequency.
15. H-Raster Centering Circuit.
This circuit makes the back raster stay in the center of the screen by selecting the switch (SC701).
16. Vertical Output Circuit.
This circuit takes the vertical ramp wave from the UPC1884CT (IC701) and performs the vertical deflection by supplying the saw-tooth wave current from the TDA8172 (IC601) to the vertical deflection yoke.
17. Dynamic Focus Output Circuit.
This circuit takes H and V parabola wave from the UPC1884CT (IC701), and amplifies these waves to offer to the FBT (T703).
18. H & V Blanking and Brightness Control.
This circuit eliminates the retrace line by supplying a negative pulse to the G1 of the CDT. The brightness control circuit is used to control of the screen brightness by changing the DC level of G1.
19. Image Rotation (Tilt) Circuit.
This circuit corrects the tilt of the screen by supplying the image rotation signal to the tilt coil which is attached to the CDT near the deflection.
20. Earth Magnetic Correction (purity) Circuit.
This circuit corrects the purity of the screen by supplying the purity signal to the purity coil which is attached to the CDT near the front.
21. Static Convergence Control Circuit.
This circuit corrects the convergence of the screen by supplying the convergence signal to the 4H (STC) coil which is attached to the CDT near the deflection.
22. MoirŽ Reduction Circuit
This circuit reduce interference between the periodical display pattern and the CDT's slot (or dot). The positions of every other one dot video signal beams (red, green, and blue beam) are shifted finely, thus reducing interference.
23. OSD Circuit.
This circuit is used for performing the OSD (On-Screen­Display) function. When a user selects the OSD Select/Adjustment control, the adjustment status displays on the screen.
24. Video Pre-Amp Circuit.
This circuit amplifies the analog video signal from 0-0.7V to 0-4V. This circuit is operated by taking the clamp, R, G, B drives, and contrast signals from the Micom (IC202).
25. Video Output Amp Circuit.
This circuit amplifies the video signal which comes from the video pre-amp circuit and amplified video signal is applied to the CDT cathode.
- 10 -
CONTROL LOCATIONS
CDT
INTERFACE
4
2
5
3
6
7
8
9
10
1
MAIN
CONTROL
NO.
1
2
3
4
5
6
7
8
9
10
Ref. No.
SW101
VR102
VR101
SW105
SW103
SW104
SW102
VR901
VR651
VR501
Control Function
POWER BUTTON
CONTRAST
BRIGHTNESS
OSD SELECT/ADJUSTMENT (
)
EXIT BUTTON
OSD SELECT/ADJUSTMENT(
)
ENTER BUTTON
B+ADJUSTMENT
TCO ADJUSTMENT
HIGH-VOLTAGE ADJUSTMENT
- 30 -
5. CONTROL BOARD (Component Side)
6. CONTROL BOARD (Solder Side)
- 12 -
DISASSEMBLY
1. TILT/SWIVEL REMOVAL
Set the monitor face downward. Pressing the latch , carefully remove the Tilt/Swivel
by pulling it upward.
3. TOP SHIELD REMOVAL
Remove six screws . Remove seven screws .
2. BACK COVER REMOVAL
Remove two screw caps . Remove four screws . Slide the Back Cover away from the Front Cabinet of the monitor.
4. TOTAL CHASSIS ASSEMBLY REMOVAL
Disconnect P903 (Degaussing pin), P704 (DY pin), P610 (Purity pin), and P609 (Tilt pin). Remove four screws from the Total Chassis Assembly. Remove the Total Chassis Assembly.
- 13 -
5. CONTROL PCB ASSEMBLY REMOVAL
Disconnect P101 from the Control PCB Total. Remove three screws . Remove the Control PCB Assembly.
7. BOTTOM BRACKET REMOVAL
Remove six screws . Remove four screws . Remove two screws . Remove the Bottom Bracket.
6. CDT BOARD ASSEMBLY REMOVAL
Remove CDT ground connector . Carefully separate the CDT Board Assembly from the CDT neck. Discharge the remaining static electricity by shorting between the Anode Cap and the CDT ground. Disconnect the Anode Cap from the CDT.
Bottom Bracket
8. INTERFACE ASSEMBLY REMOVAL
Disconnect P213, P301 and P201 from the Interface PCB Total. Remove six screws . Remove the Interface PCB Total from the Bottom Bracket. Remove three screws . Disconnect remaining connectors from the Interface PCB Total.
Shield, Interface Front
Interface PCB Total
Shield, Interface Rear
5
7
8
32
34
35
B
3
9
33
6
4
2
20
19
18
23
D
1
36
22
21
10
11
12
13
14
17
15
16
24
A
25
26
30
EXPLODED VIEW PARTS LIST
Material
LGC LUPOY UL94-5V LGC ABS AF303G GE PLASTIC SEA2
SBHG1-A SBHG1-A SPTE-C (t=0.3)
AL
TERNE SHEET AL AL AL AL SPTE-C (t=0.3) SPTE-C (t=0.3) AL AL AL AL LGC ABS 303S UL94-V0 LGC ABS 303S UL94-V0 SBHG1-A SBHG1-A
SBHG1-A SBHG1-A AL AL LGC ABS 303S UL94-V0 LGC ABS 303S UL94-V0 LGC LUPOY UL94-5V LGC ABS AF303G GE PLASTIC SEA2
LGC HIPS 60HR (BASE) LGC LUPOY UL94-5V( TOP)
27
C
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
A
B
C
D
E
Part No.
3091TKC016M
6318TH1706A 6140TC3001A
170-128C
339-002H 4951TKS028A 4814TKK049A 4815TKT003C
6174T13003C
407-T98P
381-228E
407-937C
407-T68B 4920TKP026B 4920TKC016B
407-S29B 4814TKK052A 4814TKK051A
407-T68D
407-T98N
407-T68H 4920TKC003B 4940TKC008B 4810TKK065A 4950TKK052B 4950TKS074B
6601TZZ001A 4814TKV015A 6871TCH005A
407-T76A 4814TKV016A 3550TKK035A 3550TKK034A
3809TKC009D
332-102F 3043TKK031A 6871TMT044A
6871TVT043A
6871TCT006A
6871TST051A 3313T17024A
Description
CABINET ASS'Y
CDT, M41KSX683X68, HITACHI DEGAUSSING COIL CDT GROUND WIRE SCREW, PHP+5x20+GW18 FRAME ASS’Y SHIELD, CDT SHIELD, TOP FBT, Y265382A PLATE, HEAT SINK FOR Q503, Q507 AC SOCKET PLATE, HEAT SINK FOR D901 PLATE, HEAT SINK FOR IC903 PLATE, HEAT SINK FOR Q901, D902 PLATE, HEAT SINK FOR Q902 PLATE, HEAT SINK FOR IC911 IC SHIELD, BOTTOM IC SHIELD, TOP PLATE, HEAT SINK FOR Q712 PLATE, HEAT SINK FOR IC601 PLATE, HEAT SINK FOR Q515, Q516 PLATE, HEAT SINK FOR D714, Q404, Q707 KNOB, BRIGHT & CONTRAST BRACKET PCB SUPPORTER METAL, MAIN BRACKET BOTTOM SHIELD SWITCH ASS’Y FRONT SHIELD, INTERFACE BOARD PCB ASS’Y, INTERFACE PLATE, HEAT SINK FOR IC303 REAR SHIELD, INTERFACE BOARD COVER, SCREW(L) COVER, SCREW(R)
BACK COVER
SCREW, PTP+4x20 TILT SWIVEL ASS’Y PCB ASS'Y, MAIN BOARD TOTAL
PCB ASS'Y, CDT BOARD TOTAL PCB ASS'Y, INTERFACE BOARD TOTAL PCB ASS'Y, CONTROL BOARD MAIN CHASSIS ASS’Y TOTAL
Q'ty
1
1 1 1 4 1 1 1 1 1 1 1 1 1 1 1 1 1 4 1 2 1 2 2 1 1 1 1 1 1 1 1 1
1
4 1 1
1 1 1 1
Ref. No.
31
29
28
E
- 31 -
7. INTERFACE BOARD (Component Side)
8. INTERFACE BOARD (Solder Side)
- 27 -
PRINTED CIRCUIT BOARD
1. MAIN BOARD (Component Side)
- 28 -
2. MAIN BOARD (Solder Side)
SCHEMATIC DIAGRAM CB790 / CB795 / CF795 P/N : 3854T17010A DATE : 1998. 05. 26
SCHEMATIC DIAGRAM
REPLACEMENT PARTS LIST
CAUTION: BEFORE REPLACING ANY OF THESE COMPONENTS,
READ CAREFULLY THE SAFETY PRECAUTIONS IN THIS MANUAL.
* NOTE : S Safety mark
AL Alternative Parts
MODEL: 790SC DATE: 1998. 5. 15.
*S *AL LOC. NO. PART NO. DESCRIPTION / SPECIFICATION REMARK
C401 0CN1040K949 CAPACITOR, TUBULAR(HIGH DIELEC), 0.1M 50V Z F TA52
C402 181-310B CAPACITOR, AL.ELECTROLYTIC, CE SM-BP(D) 50V 3.3UF
C407 181-304W CAPACITOR, POLYPROPYLENE, PU 400V 473J S=10.0 060E
C411 0CE476ER618 CAPACITOR, AL.ELECTROLYTIC, 47UF KMG 250V M FL
C421 0CE6856K618 CAPACITOR, AL.ELECTROLYTIC, 6.8 UF SMS,SG 50V M FL
C422 0CK1020K515 CAPACITOR, CERAMIC (HIGH DIELECTRIC), 1000PF 50V
C423 0CN1010K519 CAPACITOR, TUBULAR(HIGH DIELEC), 100P 50V K B TA52
C424 181-288D CAPACITOR, POLYESTER, MKT 100V 473JTR PHS26473
C426 0CK1020K515 CAPACITOR, CERAMIC (HIGH DIELECTRIC), 1000PF 50V
C427 0CE1076H618 CAPACITOR, AL.ELECTROLYTIC, 100M SMS 25V M FM5
C428 0CN1040K949 CAPACITOR, TUBULAR(HIGH DIELEC), 0.1M 50V Z F TA52
C429 0CN1020K519 CAPACITOR, TUBULAR(HIGH DIELEC), 1000P 50V K B TA52
C431 0CE3376H618 CAPACITOR, AL.ELECTROLYTIC, 330M SMS 25V M FL
C432 0CN1040K949 CAPACITOR, TUBULAR(HIGH DIELEC), 0.1M 50V Z F TA52
C433 0CN1210K519 CAPACITOR, TUBULAR(HIGH DIELEC), 120P 50V K B TA52
C434 0CN1040K949 CAPACITOR, TUBULAR(HIGH DIELEC), 0.1M 50V Z F TA52
C435 0CQ1021N419 CAPACITOR, POLYESTER, 1000P 100V J POLY NI TP
C436 0CN5610K519 CAPACITOR, TUBULAR(HIGH DIELEC), 560P 50V K B TA52
C437 0CE3376H618 CAPACITOR, AL.ELECTROLYTIC, 330M SMS 25V M FL
C501 0CE1076H618 CAPACITOR, AL.ELECTROLYTIC, 100M SMS 25V M FM5
C502 0CN1020K519 CAPACITOR, TUBULAR(HIGH DIELEC), 1000P 50V K B TA52
C503 0CQ1021N419 CAPACITOR, POLYESTER, 1000P 100V J POLY NI TP
C504 0CE1056K618 CAPACITOR, AL.ELECTROLYTIC, 1.0U SMS 50V M FM5
C505 0CE4766K618 CAPACITOR, AL.ELECTROLYTIC, 47M SMS 50V M FM5
C506 0CN5610K519 CAPACITOR, TUBULAR(HIGH DIELEC), 560P 50V K B TA52
C507 0CK5610K515 CAPACITOR, CERAMIC (HIGH DIELECTRIC), 560P 50V
C508 0CN4710K519 CAPACITOR, TUBULAR(HIGH DIELEC), 470P 50V K B TA52
C509 0CN2710K519 CAPACITOR, TUBULAR(HIGH DIELEC), 270P 50V K B TA52
C511 181-288H CAPACITOR, POLYESTER, MKT 100V 333JTR PHS 86333
C512 0CE2266K618 CAPACITOR, AL.ELECTROLYTIC, 22M SMS 50V M FM5
C513 0CE4766K618 CAPACITOR, AL.ELECTROLYTIC, 47M SMS 50V M FM5
C514 0CK10302945 CAPACITOR, CERAMIC (HIGH DIELECTRIC), 0.01UF 2KV
C516 181-477W CAPACITOR, POLYPROPYLENE, PU 250V 473J(S=7.5)TAPING
C518 0CN1030H949 CAPACITOR, TUBULAR(HIGH DIELEC), 0.0100UF 25V Z F TA52
C521 181-482G CAPACITOR, POLYPROPYLENE, MPP 250V 334J(S=7.5)TAPING
C522 0CE1076H618 CAPACITOR, AL.ELECTROLYTIC, 100M SMS 25V M FM5
C523 0CN2210K519 CAPACITOR, TUBULAR(HIGH DIELEC), 220P 50V K B TA52
- 35 -
MAIN BOARD CAPACITORs
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