Text preview for : TVSE 2130 Simple 2.pdf part of Aiwa - TV TV-SE1430 mod. TV-SE2130 (ver.KY EZY) - pag. 34



Back to : 1430-2130.part1.rar | Home

TV-SE2130 TV-SE1430

KY EZY KY EZY

SERVICE MANUAL
COLOR TELEVISION

SIMPLE-2
A par t of contents is adequate. Re-issuing is under r equest.

S/M Code No. 09-009-350-0N1

DA TA

NOTICES BEFORE REPAIRING

To make the best use of this equipment, make sure to obey the following items when repairing (or mending).
1. Do not damage or melt the tunicate of the leading wire on the AC1 side, including the power supply cord. 2. Do not soil or stain the letters on the spec. inscription plates, notice labels, fuse labels, etc. 3. When repairing the part extracted from the conducted side of the board pattern, fix it firmly with applying bond to the pattern and the part. 4. Restore the following items after repairing. 1) Conditions of soldering of the wires (especially, the distance on the AC1 side). 2) Conditions of wiring, bundling of wires, etc. 3) Types of the wries. 4) Attachment conditions of all types of the insulation. 5. After repairing, always measure the insulation resistance and perform the voltage-withstand test (See Fig-1). 1) The insulation resistance must be 7.3 M to 10.1 M when applying 500V per second. 2) In the voltage withstand test, apply 3.0 kV for 1 minute and check that the GO lamp lights. * * * * Breaking current set to 10 mA. Connect the safety checker as shown in Fig-1, then measure the resistance and perform the test. Do not touch the equipment during testing. For details of the safety checker, refer to the supplied Operation manual. Insulation resistance: 7.3M to 10.1 M (500 V/s) Voltage-withstand: 3.0 kV for 1 minute

Safety checker (Model 7110, etc.)

Earth cable

AC cable

Connect the earth cable to the outside metal part terminal.

Fig-1

When servicing and checking on the TV, note the followings.
1. Keep the notices As for the places which need special attentions, they are indicated with the labels or seals on the cabinet, chassis and parts. Make sure to keep the indications and notices in the operation manual. 2. Avoid an electric shock. There is a high voltage part inside. Avoid an electric shock while the electric current is flowing. 3. Use the designated parts. The parts in this equipment have the specific characters of incombustibility and withstand voltage for safety. Therefore, the part which is replaced should be used the part which has the same character. Especially as to the important parts for safety which is indicated in the circuit diagram or the table of parts as a ! mark, the designated parts must be used. 4. Put parts and wires in the original position after assembling or wiring. There are parts which use the insulation material such as a tube or tape for safety, or which are assembled so that these parts do not contact with the printed board. The inside wiring is designed not to get closer to the pyrogenic parts and high voltage parts. Therefore, put these parts in the original positions. 5. Take care of the cathode-ray tube. By setting an explosion-proof cathode-ray tube is set in this equipment, safety is secured against implosion. However, when removing it or serving from backward, it is dangerous to give a shock. Take enough care to deal with it. 6. Avoid an X-ray. Safety is secured against an X-ray by considering about the cathode-ray tube and the high voltage peripheral circuit, etc. Therefore, when repairing the high voltage peripheral circuit, use the designated parts and do not change the circuit. Repairing except indicates causes rising of high voltage, and the cathode-ray tube emits an X-ray. 7. Perform a safety check after servicing. Confirm that the screws, parts and wiring which were removed in order to service are put in the original positions, or whether there are the portions which are deteriorated around the places serviced.

! Safety Components Symbol
This symbol is given to important parts which serve to maintain the safety of the product, and which are made to confirm to special Safety Specifications. Therefore, when replacing a component with this symbol make absolutely sure that you use a designated part.

-2-

SPECIFICATIONS
Tuner system Picture tube TV system Channel coverage Frequency synthesized tuner TV-SE2130: 21 in.(50.8 cm "V"), 90 degree deflection TV-SE1430: 14 in.(34 cm "V"), 90 degree deflection PAL (B/G, D/K, I), SECAM (D/K, L) VHF: E2-E12 UHF: E21-E69 CABLE: S1-S41 75 ohms, unbalanced 1.0 Vp-p, 75 ohms, unbalanced 1.0 Vp-p, 75 ohms, unbalanced -3.8 dBs, 50 kohms -3.8 dBs less than 1 kohm 5°C to 40°C 220-240 V AC, 50 Hz TV-SE2130: 74 watts TV-SE1430: 60 watts TV-SE2130: 3 watts TV-SE1430: 3 watts TV-SE2130: 610(W) x 448(H) x 485(D) mm (241/8 x 173/4 x 191/8 in.) TV-SE1430: 450(W) x 332(H) x 377(D) mm (173/4 x 131/8 x 147/8 in.) TV-SE2130: Approx. 22 kg (48.4 lbs.) TV-SE1430: Approx. 11.5 kg (25.3 lbs.)

Antenna input Video input Video output Audio input Audio output Operating temperature Power requirements Power consumption Standby Dimensions

Weight

· Design and specifications are subject to change without notice.

ACCESSORIES LIST

REF. NO 1 1 2 2

PART NO.

KANRI NO.

DESCRIPTION

8A-JB4-901-010 8A-JB4-903-010 8A-JB4-610-010 8A-JB4-610-010

IB,K (E) -SE2130/ 1430<14KY,21KY> IB,EZ (EGDSI) -SE2130/ 1430<14EZY,21EZY> RC UNIT,RC-AVT02<14KY,14EZY> RC UNIT,RC-AVT02<21KY,21EZY>

-3-

DISASSEMBLY INSTRUCTIONS
1. REAR CABINET REMOVAL
(1) Remove eight screws 1, then remove the rear cabinet in the direction of the arrow. (See Figure1-1)
Front cabinet

Rear cabinet

Figure 1-1

2. HIGH-VOLTAGE CAP (ANODE CAP) REMOVAL 2-1. Cautions before Removing
Discharge the anode voltage (1) The anode voltage is not discharged completely from the CRT of this unit even after the power is turned off. Be sure to discharge the residual anode voltage before removing the anode cap. Do not use pliers (2) Do not use pliers, etc. to remove the anode cap. If you used pliers and bent the hook to remove the cap, the spring characteristics of the hook could be lost, and when reinstalled, the cap would come off from the CRT anode button easily, causing an accident. Do not turn the anode cap (3) If the anode cap is turned in the direction of its circumference, the hook is likely to come off.
Grip Hook CRT CRT GND Anode cap

CRT GND

Figure 2-1

2-2. Anode Cap Removal
(1) (2) (3) (4) Discharge the anode voltage. (See Figure 2-1) Connect a flat-bladed screwdriver to the CRT GND via an alligator clip. Use a tester to check the end of the screwdriver and ground of the TV for continuity. Touch the hook with the end of the screwdriver. Caution : Be careful not to damage the anode cap. Turn over the anode cap. Caution : Be careful not to damage the anode cap.
Anode cap

CRT Hook

Anode button

Figure 2-2

-4-

(5)

Push the anode cap with your thumb in the direction of arrow 1 as shown in the figure, then lift the cap in the direction of arrow 2 to release the hook on one side. (See Figure 2-3)
Anode cap

CRT

Hook

CRT Hook

Figure 2-3 (6) Turn over the anode cap on the side where the hook was released and pull out the cap in the direction opposite to that on which the cap was pushed. (See Figure 2-4) Caution : Do not pull out the anode cap straight up. : Do not pull the cap forcibly. After removing the cap, check that the hook is not deformed.

Anode cap

CRT Anode button Hook

Figure 2-4

3. ANODE CAP REINSTALLTION
Observe the cautions carefully so that no accident occurs due to a defect in installing the anode cap and so it does not come off.
Left

Anode cap

Right

3-1. Caution before Reinstalling
Never turn the anode cap after installing it Never re-use the hook when it has been deformed (1) If the anode cap is turned after it is installed, it may come off. Therefore, arrange the high-voltage cable before attaching the anode cap. (See Figure 3-1) If you have attached the anode cap before arranging the high-voltage cable, arrange the cable carefully so the cap does not turn. Figure 3-1

(2)

3-2. Anode cap reinstallation
(1) Use a clean cloth moistened slightly with alcohol to clean the installation section. (See Figure 3-2) Caution : Check that the installation section is free from dust, foreign matter, etc. Coat the anode cap installation circumference with an appropriate amount of the specified silicone grease (KS650N). Caution : Be careful that silicone grease does not enter the anode button.
Anode button

(2)

Installation section

-5-

Figure 3-2

(3)

Eliminate twisting, etc. of the high-voltage cable and arrange it so that no twisting occurs. (See Figure 3-3) Caution : If the cable is not arranged correctly, the anode cap could turn and cause an installation defect.

High-voltage cable

Anode cap

Figure 3-3

(4)

Turn over the rubber cap symmetrically on the left and right. (See Figure 3-4) Caution : Take great care not to damage the anode cap.

Figure 3-4

(5)

Fit your forefinger over the projection at the center of the cap and hold the cap between your thumb and middle finger. (See Figure 3-5)

Figure 3-5

-6-

(6)

(7)

Apply the hook on one side to the anode button as shown on the figure. (See Figure 3-6) Caution : Check that the hook is held securely. Apply the hook on the other side to the anode button as shown in Figure 3-7.

Hook

Anode button

Hook

Anode button

30°

Figure 3-6
Anode button

Hook

Figure 3-7

Pull the anode cap slightly with the rubber cap turned over and visually check that the hook is engaged securely. (9) Release your hand from the rubber cap of the anode cap. Caution : Cover the anode cap so that it does not lift. (10) Hold the skirt of the andoe cap slightly to improve the close contact between the cap and CRT. (11) Check that the anode cap is in close contact with the CRT. (See Figure 3-8)

(8)

Anode button

Skirt

Figure 3-8

-7-

4. NECK C.B. REMOVAL
(1) Disconnect P903 (CRT GND). (2) Remove the NECK C.B. in the direction of arrow 1 (See Figure 4-1).

Front Cabinet

5. MAIN C.B REMOVAL
(1) Remove connector (P601). (2) Remove connector (P801). (3) Remove connector (P802). (4) Remove connector (P402). (5) Pull out the MAIN C.B. in the direction of the arrow 2 (See Figure 4-1).

NECK C.B P903

P402 MAIN C.B

P601 (Speakers)

P801 (Power cord) P802 (Degauss cord)

Figure 4-1

-8-

ELECTRICAL MAIN PARTS LIST

REF. NO IC

PART NO.

KANRI NO.

DESCRIPTION

REF. NO C541 C542 C543 C550 C555 C561 C564 C580 C593 C602 C604 C605 C608 C610 C611 C612 C613 C614 C615 C616 C625 C626 C630 C636 C660 C690 C691 C770 !C801 C803 C804 C805 C806 C808 C810 !C812 C813 C814 C820 C823 C824 C831 C832 C835 C840 C841 C844 C861 C863 C866 C888 D707 !F801 HP01 JPA01 JPA02 JPA03 L101 L350 L380 L401 L401 L500 L501 L502 L510 L511 L512 L601 L602

S1-TDA-835-7J0 S1-TDA-936-7L0 S1-MSP-341-5D0 S1-TDA-894-4J0 SI-AL2-416-00B S1-TSO-P12-38W 87-A20-969-010 87-A91-033-010 SU-PC5-74J-000 S0-0SE-110-NS0 ST-X02-02D-A00 S1-KA7-805-000 S1-KA7-808-000 S1-LE3-3CZ-000 S1-TDA-610-7Q0 TRANSISTOR 87-A30-492-080 ST-R32-020-9AA 87-A30-050-010 87-A30-114-080 ST-R33-300-9DB DIODE SD-BAT-850-000 SD-1SS-85T-A00 SD-BYW-360-000 SD-TZX-12C-000 SD-TZX-22C-000 SD-UZ3-3B0-000 SD-BY2-280-000 87-A40-246-080 SD-TZX-2V4-A00 SD-TZX-5V1-B00 SD-BYT-51J-000 SD-TZX-5V6-B00 SD-BYW-760-000 SD-TZX-9V1-B00 SD-BAV-210-000 MAIN C.B C101 C102 C106 C121 C305 C315 C401 C404 C408 C408 C412 C415 C417 C420 C500 C501 C509 C514 C517 C519 C522 C528 C530 C532 C540 87-010-405-040 87-010-408-040 87-010-409-090 87-010-405-040 87-016-584-080 87-016-647-010 87-010-408-040 SC-MYT-3C7-52J SC-MYT-2D3-04J SC-MYE-2D2-74J S0-E7T-B3R-3M0 87-016-217-080 SC-MXL-2E1-04K 87-A10-469-080 87-015-694-080 87-010-405-040 87-A10-216-080 87-010-247-040 87-015-695-010 87-015-695-010 87-015-698-080 87-010-247-040 87-010-247-040 87-010-405-040 87-A12-092-080

IC,TDA8357J IC,TDA9367L IC,MSP-3415D IC,TDA8944J IC,AT24C08-10PC IC,TSOP1238WI1 IC,STR-F6653 IC,LTV-817C IC,UPC574J IC,SE110N THYRISTOR X0202DA IC,KA7805 IC,KA7808 IC,LE33CZ IC,TDA6107Q

KANRI NO. 87-A12-092-080 CAP,E 87-010-405-040 CAP,E 87-010-405-040 CAP,E 87-010-615-080 CAP,E 87-010-553-080 CAP,E 87-010-247-040 87-010-247-040 87-010-405-040 87-010-247-040 87-010-405-040 87-A10-493-080 87-A10-216-080 87-010-405-040 87-010-405-040 87-015-697-080 87-015-695-010 87-015-695-010 87-015-695-010 87-015-695-010 87-010-405-040 87-015-698-080 87-015-698-080 87-A10-216-080 87-010-408-040 87-010-405-040 87-015-698-080 87-015-698-080 87-010-247-040 SC-L1S-C34-74M SC-CXF-3A4-72Z SC-CXF-3A4-72Z SC-EYN-2G1-21P 87-010-407-040 87-015-698-080 87-012-397-090 87-A10-519-010 87-016-648-090 87-016-648-090 SC-CYR-3A4-71K 87-A10-493-080 SC-CYR-3A4-71K SC-CYR-3A4-71K 87-A10-493-080 87-010-408-040 87-010-285-010 87-010-285-010 87-010-247-040 87-A10-493-080 87-010-247-040 SC-CYR-3A4-71K 87-010-553-080 SD-SML-121-6W0 S5-FSC-B40-22R S4-859-102-130 S4-859-200-401 S4-859-200-401 S4-859-108-450 S5-CPZ-100-K02 S5-CPZ-109-M04 S5-CPZ-109-M04 S5-8H0-000-016 S5-8H0-000-040 S5-CPZ-120-K02 S5-CPZ-100-K02 S5-CPZ-100-K02 S5-CPZ-100-K02 S5-CPZ-100-K02 S5-CPZ-100-K02 S5-CPZ-479-K02 S5-CPZ-479-K02 CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E

PART NO.

DESCRIPTION 22MF-50V 10MF-50V 10MF-50V 2.2MF-50V 47MF-16V 100MF-25V 100MF-25V 10MF-50V 100MF-25V 10MF-50V 1000MF-25V 47MF-25V 10MF-50V 10MF-50V 3.3MF-50V 1MF-50V 1MF-50V 1MF-50V 1MF-50V 10MF-50V 4.7MF-50V 4.7MF-50V 47MF-25V 47MF-50V 10MF-50V

!

TR,2SC5343Y TR,KTC3202Y TR,2SD2499 TR,2SD1207-T TR,STA933-Y

DIODE,BAT85 DIODE,1SS85TA DIODE,BYW36 ZENER,TZX12C ZENER,TZX22C ZENER,UZ-33B DIODE,BY228 DIODE,1N4148 ZENER,TZX2V4A ZENER,TZX5V1B DIODE,BYT51J ZENER,TZX5V6B DIODE,BYW76 ZENER,TZX9V1B DIODE,BAV21

CAP,E 4.7MF-50V CAP,E 4.7MF-50V CAP,E 100MF-25V CAP,LINE ACROSS 0.47MF-275V CAP,CER 4700PF-1KV CAP,CER 4700PF-1KV CAP,E 120MF-400V CAP,E 33MF-50V CAP,E 4.7MF-50V CAP,CER 1000PF-2KV CAP,CER 4700PF-4KV CAP,E 100MF-160V CAP,E 100MF-160V CAP,CER 470PF-1KV CAP,E 1000MF-25V CAP,CER 470PF-1KV CAP,CER 470PF-1KV CAP,E 1000MF-25V CAP,E 47MF-50V CAP,E 2200MF-16V CAP,E 2200MF-16V CAP,E 100MF-25V CAP,E 1000MF-25V CAP,E 100MF-25V CAP,CER 470PF-1KV CAP,E 47MF-16V LED,SML1216W FUSE CERA 250V JACK EARPHONE SOCKET RGB SOCKET RGB JACK PIN BOARD COIL PEAKING 10UH 3.5MM COIL PEAKING 1UH 10.5MM COIL PEAKING 1UH 10.5MM COIL COIL COIL COIL COIL COIL COIL COIL COIL COIL H-LINEARITY L-102<14KY,14EZY> H-LINEARITY TRL-341G<21KY,21EZY> PEAKING 12UH 3.5MM PEAKING 10UH 3.5MM PEAKING 10UH 3.5MM PEAKING PEAKING PEAKING PEAKING PEAKING 10UH 3.5MM 10UH 3.5MM 10UH 3.5MM 4.7UH 3.5MM 4.7UH 3.5MM

CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,M CAP,M CAP,M

10MF-50V 47MF-50V 220MF-50V 10MF-50V 220MF-25V 47MF-160V 47MF-50V 7500PF-1.6KV 0.3MF-250V<14KY,14EZY> 0.27MF-200V<21KY,21EZY>

CAP,E 3.3MF-160V CAP,E 4.7MF-250V CAP,M 0.1MF-250V CAP,CER 2200PF-500V CAP,E 0.47MF-50V CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E CAP,E 10MF-50V 47MF-25V 100MF-25V 1MF-50V 1MF-50V 4.7MF-50V 100MF-25V 100MF-25V 10MF-50V 22MF-50V

-9-

REF. NO L603 L650 L801 L802 L803 !LF801 P401 P402 P501 P501 P601 P801 P802 R305 R350 R350 R351 R351 R415 R450 R597 R598 R801 R802 R803 R804 R808 !R819 R920 R920 SF1 SF2 SP1A SW700 SW701

KANRI NO. S5-CPZ-479-K02 COIL S5-MC0-000-100 COIL S5-MC0-000-100 COIL S5-8C9-430-599 COIL S5-MC0-000-100 COIL S5-PLF-24A-100 S4-850-705-N18 S4-859-240-020 S4-850-705-N16 S4-850-705-N14 S4-859-231-720 S4-859-287-320 S4-859-242-220 SR-S02-Y33-1JS 87-025-601-080 S4-25T-415-2F0 87-025-601-080 S4-25T-415-2F0 S3-U18-A10-2J0 S3-X18-A10-3J0 87-025-459-080 87-025-459-080 SD-T12-0B8-010 SR-S02-Y75-3JS 87-015-515-090 SR-F02-Y33-8K0 SR-S02-Y82-1JS SR-X10-B33-9JN 87-A00-767-090 87-029-131-010 S5-PK3-953-M00 S5-PK9-650-M00 S4-850-704-S31 S5-S50-101-090 S5-S50-101-090

PART NO.

DESCRIPTION PEAKING 4.7UH 3.5MM BEAD MD-5 BEAD MD-5 CHOKE(94MH) BEAD MD-5

REF. NO SW702 SW703 SW704 !SW801 T401 !T402 !T801 U100 X502 X601 Z501 Z601 Z602 Z603 Z604 Z605 Z606 Z607 Z608 Z609 Z610 ZZ100 NECK C.B C905 C965 C968 P903 SCT1

PART NO.

KANRI NO.

DESCRIPTION

S5-S50-101-090 S5-S50-101-090 S5-S50-101-090 S5-S40-101-143 S5-0D1-0A2-000 S5-0H0-000-204 S5-0M3-934-A20 S4-859-719-930 S5-XE1-2R0-00E S5-XE1-8R4-32E S5-PXP-S5R-5MB S5-PXF-1B4-71M S5-PXF-1B4-71M S5-PXF-1B4-71M S5-PXF-1B4-71M S5-PXF-1B4-71M S5-PXF-1B4-71M S5-PXF-1B4-71M S5-PXF-1B4-71M S5-PXF-1B4-71M S5-PXF-1B4-71M S4-8B4-544-A01

SW TACT SKHV17910A SW TACT SKHV17910A SW TACT SKHV17910A SW PUSH PS3-22SP TRANS DRIVE TD-10A2 FBT 1142.5106 TRANS SMPS 2084.0046 TUNER VARACTOR DT5-BF18D X'TAL12.00000MHZ X'TAL,18.43200MHZ FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER FILTER CERA TPS5.5MB-TF21 EMI 470PF EMI 470PF EMI 470PF EMI 470PF EMI EMI EMI EMI EMI 470PF 470PF 470PF 470PF 470PF

FILTER LINE LF-24A1 CONN AS BIC-05T-25T CONN WAFER YFW500-05 CONNECTOR BIC-05T-25T<14KY,14EZY> CONNECTOR BIC-05T-25T<21KY,21EZY> CONN WAFER YW025-04 CONN WAFER MKS2822 CONN WAFER YFW800-02 RES,M-OXIDE 330-2W RES,METAL 3.0K-1/4<14KY,14EZY> RES,R METAL 1.5K-1/4<21KY,21EZY> RES,METAL 3.0K-1/4<14KY,14EZY> RES,R METAL 1.5K-1/4<21KY,21EZY> RES,M-OXIDE 1K-2W RES,M-OXIDE 10K-2W RES,METAL 15K-1/4 RES,METAL 15K-1/4 POSISTOR T120-B80-A110 RES,M-OXIDE 75K-2W RES,M-OXIDE 47K-2W RES,FUSE 0.33-2W RES,M-OXIDE 820-2W RES,CEM 3.3-10W RES,FUSE 1.2-1W<14KY,14EZY> RES,FUSIBLE 1-1W<21KY,21EZY> FILTER SAW K3953M FILTER SAW K9650M CONN AS CP-385 SW TACT SKHV17910A SW TACT SKHV17910A

FILTER EMI 470PF TRANSMITTER REMOCON RC-AVT02

87-016-217-080 87-012-397-090 SC-MXL-2E1-04K S4-859-262-120 S4-859-303-430

CAP,E 4.7MF-250V CAP,CER 1000PF-2KV CAP,M 0.1MF-250V CONN WAFER YFW 800-01 SOCKET CRT PCS633A

TRANSISTOR ILLUSTRATIONS

ECB 2SC5343 STA933

BEC 2SD1207

ECB KTC3202

BCE 2SD2499

-10-

SCHEMATIC DIAGRAM -1 (MAIN C.B-1/4)
MAIN C. B -1/4 (AUDIO SECTION)

C698 5V

L601

AT24C08-10PC

MSP-3415D

C650

C629 +5V

L/R
5V

L/R
QSS

SCL EXT_2:L/R EXT_2:L/R
C660 50V 10u C668 C669

EXT_1:L/R EXT_1:L/R

C661

TO V901(CRT) GND
P903

A.MUTE

To MAIN C.B -2/4 To MAIN C.B -4/4

NECK C. B
I901 TDA6107Q

C666

L650 +VB

1 SCT1

V901 (CRT) A34JLL90X01 [TV-SE1430] A51EBV13X081 [TV-SE2130]

To MAIN C.B -2/4 P501

2

3

4

5

To MAIN C.B -2/4

SDA

R920 1.2 1W [TV-SE1430] 1.0 1W [TV-SE2130]

SPEAKER 5W 8
5 4 3 2 1

C965

-11-

To MAIN C.B -3/4 P401

To MAIN C.B -3/4

SCHEMATIC DIAGRAM -2 (MAIN C.B-2/4)

8V
TSOP1238WI1 25V

TXZ5V1B MAIN C. B -2/4 (u-COM/VIDEO,AUDIO PROCESS SECTION)

SDA SCL

SDA SCL EXT_1.L/R

EXT_2.L/R

EXT_2.L/R

To MAIN C.B -4/4

To NECK C.B P501A
1 2 G R 3 4 5

Q504,505,508 2SC5343Yx3

TZX5V6B 2200p 2200p

Q510,511 STA933Y

P501

DA06 TZX5V6B

B

POWER

TZX5V6B TZX5V6B D591 TZX2V4A TZX5V6B TZX5V6B R556 8.2k [TV-SE1430] 6.8k [TV-SE2130] Q502-503 2SC5343Y 25V 100u DA13 2200p

S/B3.3V 8V

To MAIN C.B -1/4

STA933-Y C528 25V 100u C585 C564 C587 C589 C588

10uH

DA11 TZX5V6B EXT-1(V.IN) TZX5V6B

50V 10u

A.MUTE

C560

27p 50V

27p

C565

TZX5V6B

2200p

DA15 TZX5V6B

S/B3.3V

TDA9367L

DA16 TZX5V6B

TZX5V6B

R103 12k

45V

8V
D707 SML1216W

5V
KTC3202Y

L101 10u

R105 3.9k

5V S/B_3.3V
Q700

5V

I805 uPC574J

D101 BAT85

Q101 2SC5343Y

U100
C108 R508 880

ANT

50V 47u

Vdr-B(+)

-12-

To MAIN C.B -3/4

SOUND

Vdr-B(-)

H OUT

C106

To MAIN C.B -3/4

R104 100k
C516

R700 3.3k (1/2W)

To MAIN C.B -1/4

S/B_6V

IC1501-35

QSS

SCHEMATIC DIAGRAM -3 (MAIN C.B-3/4)

MAIN C. B -3/4 (FLYBACK TRANS/DEFLECTION SECTION)
To MAIN C.B -4/4
110-126.5V

P402

DY UNIT

SOUND

11V
1000p

0.3/250V [TV-SE1430] 0.27/200V [TV-SE2130]

BYW36

L-102 [T-SE1430] TRL-341G [TV-SE2130]

D360 TZX22C H.OUT D361 UZ-33B

160V

To MAIN C.B -2/4

TZX12C
R350 3k [TV-SE1430] 1.5k [TV-SE2130] 7500p 1.6kV

11
VdrA(+)

D313 BYW36 VdrB(-)

10
1/2W 3.9 [TV-SE1430] 1/2W 1.5 [TV-SE2130] R351 3k [TV-SE1430] 1.5k [TV-SE2130]

BYW36

BYW36

45V BYW36 47u 160V 5 4 3 2 1

To NK C.B P401A

-13-

To NK C.B

SCHEMATIC DIAGRAM -4 (MAIN C.B-4/4)

MAIN C. B -4/4 (POWER SECTION)

+VB LE33CZ

S/B 3.3V

S/B 6V 5V

11V
D860 BYW76

C866 KA7808 TZX9V1B
BYW36

8V

C835 POWER R823 3.9k [TV-SE1430] 5.1k [TV-SE2130] L802 AZ9004Y(C)
BYW36

C888

BYW76

110-126.5V R803 2W 47k(M)

BYT51J

X0202DA

BYW36 BYW36 C806
BYW36

2SC5343Y

D808 BYW36

2SC5343Y LTV-817C 2SC5343Y

Q810 2SC5343Y

220-240 V AC 50 Hz
AC 4kV

PWC01

-14-

Q811 2SC5343Y

BYW36

TZX5V6B

To MAIN C.B -3/4

To MAIN C.B -2/4

BYW36

To MAIN C.B -1/4,2/4,3/4

To MAIN C.B -1/4

WIRING - 1 (MAIN C.B)
32 31 30 29 28 27 26 25
AV2 V L R EAR.

24

23

22

21

20

19

18

17
TV/AV MENU

16

15

14

13
P

12

11

10

9

8
L

7
R

6

5

4

3

2

1 A

MAIN C. B
POWER

REMOCON SENSOR

SP01 (SPEAKER)

SP02 (SPEAKER)

B

220-240 V AC 50 Hz
BLN RED BLK WHT

C

To MAIN P601

To NECK C.B P501A
BLK BLK BLK BLK BLU

D

BRN

BLU

E

P501

F

P801

G
P802
R544 R546 R548

DEGAUSSING COIL

R540 R549

H

I
C527 R521 R522

R524

J

K
I823

L
R715

M

N

O
DY UNIT
P402

P
IF
R101

Q

R

S

T

U
BLK BLK BLK BLK BLU

To NECK C.B

BLK GRY

RED

To V901 (CTR) ANODE

To NECK C.B P401A

AV2

AV1 ANT

-15-

WIRING - 2 (NECK C.B)
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 A

B

C

NECK C. B

GRY

To MAIN C.B T402(FBT)

D
9

E
I901

F

G
BLU BLK BLK BLK BLK BLK

H
To MAIN C.B T402(FBT)

I

BLU BLK BLK BLK BLK

J
To MAIN C.B P401 To V901(CRT) GND

To MAIN C.B P501

K

L

M

V901(CRT)

N

O

P

Q

R

S

T

U

-16-

WAVEFORMS

-17-

IC BLOCK DIAGRAMS
IC, TDA8357J

IC, TDA8944J

-18-

IC, STR-F6653
V IN 4

Drain 3

DRV. RE=8.6V

Start

O.V.P.

Rg2 Rg1

DRV Reg Latch

2 Source T.S.D. Vth1=0.73 ­ 0.05v 1 OCP/FB

OCP/FB comp. 1.35mA OSC

Vth2=1.3 ~ 1.6v

Tth(min)=1 S

INH comp.

4700pF

T OFF=50 S typ.

Iconst Irm.

5 GND

IC, TDA6107Q
Vdd 6

MIRROR 1

MIRROR 5

CASCODE 1

3 MIRROR 1 CURRENT SOURCE 1 THERMAL PROTECTION CIRCUIT Vi(1) 1 Vi(2) 2 Vi(3) 3 3 Rj Ra CASCODE 2 MIRROR 3 5 lo(m) Rf VIP REFERENCE DIFFERENTIAL STAGE 1 7 Voc(1) 8 Voc(2) 9 Voc(3)

MIRROR 2

4 GND

-19-

IC DESCRIPTIONS
IC, AT24C08-10PC
Pin No. 1 2 3 4 5 6 7 8 Pin Name E0 E1 E2 VSS SDA SCL WC VCC ­ I/O ­ ­ ­ ­ I/O ­ Ground Serial data/address input/output Serial clock Write control Supply voltage Device address Description

IC, MSP3415D · Block Diagram
XTAL IN XTAL OUT 62 63 Audio PLL SOUND IF ANA IN1+ ? Demodulator & NICAM Decoder FM1/AM FM2 NICAM A NICAM B IDENT

LOUDSPEAKER L LOUDSPEAKER R

D/A D/A

29 DACM L 28 DACM R LOUDSPEAKER

DSP
MONO IN 55 SC1 IN L 52 SCART1 SC1 IN R 53 SC2 IN L 49 SCART2 SC2 IN R 50 SCART Switching Facilitles A/D A/D SCART L SCART R SCART1 L SCART1 R D/A D/A

37 SC1 OUT L SCART 36 SC1 OUT R

· Description
Pin No. 1 2, 3 4, 5 6 7 8 9 10 Pin Name TP NC TP ADR SEL STANDBYQ NC I2C CL I2C DA I/O O ­ O I I ­ I/O I/O Test pin Not connceted Test pin I2C bus address select Standby (low-active) Not connceted I2C clock I2C data Description

-20-

Pin No. 11, 12 13 14 15 ~ 17 18 19 20 ~ 23 24 25, 26 27 28 29 30 31 32 ~ 34 35 36 37 38 39 40 41 42 43 ~ 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64

Pin Name TP TP NC TP DVSUP DVSS NC RESETQ NC VREF2 DACM R DACM L NC TP NC VREF1 SC1 OUT R SC1 OUT L NC AHVSUP CAPL M AHVSS AGNDC NC ASG2 SC2 IN L SC2 IN R ASG1 SC1 IN L SC1 IN R VREFTOP MONO IN AVSS AVSUP ANA IN1+ ANA IN1NC TESTEN XTAL IN XTAL OUT NC

I/O I/O O ­ O ­ ­ ­ ­ ­ ­ O O ­ ­ ­ ­ O O ­ ­ ­ ­ ­ ­ ­ I I ­ I I ­ I ­ ­ I I ­ I I O ­ Test pin Test pin Not connceted Test pin Digital power supply +5V Digital ground Not connceted Power-on-reset Not connceted Referecne ground 2 high voltage part Loudspeaker out right Loudspeaker out left Not connceted Test pin Not connceted Reference gound 1 high voltage part Scart output 1 in, right Scart output 1 in,left Not connceted Analog power supply 8.0 V Volune capacitor MAIN Analog ground

Description

Analog reference voltage high voltage part Not connceted Analog shield ground 2 Scart input 2 in, left Scart input 2 in, right Analog shield ground 1 Scart input 1 in, left Scart input 1 in, right Reference voltage IF A/D converter Mono input Analog ground Analog power supply IF input 1 IF common Not connected Test pin Crystal oscillator Crystal oscillator Test pin

-21-

IC, TDA9367 · Block Diagram

-22-

· Description
Pin No. 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 Pin Name NC SCL SDA SECAM L OUT OCP RF AGC IN KEY-IN S/SW VSS C/P LED1 LED2 VSSA SEC PLL VP2 DECDIG PH2LF PH1LF GND3 DECBG AVL/EWD VDRB VDRA IFIN1 IFIN2 IREF VSC TUNERAGC SIFIN1 SIFIN2 GND2 SIF AGC REF0 HOUT FBISO OSS OUT EHT0 PLLIF IFVO VP1 CVBSINT GND1 I/O ­ I I O O I I I ­ O O ­ ­ ­ ­ ­ ­ ­ ­ O O O I I I ­ O I I ­ ­ ­ O I/O O ­ ­ O ­ I ­ Port 1.3 Not used. I2C bus clock line I2C data line Port 2.0: high when L' selected (PushPull) Port 3.0: over current protection ADC1: for factory use only (high impedance) ADC2: local key input (high impedance) ADC3: scart slow switching input Digital ground for µ-contoller core and peripheral Port 0.5 (8 mA current sinking capability) Port 0.6 (8 mA current sinking capability) Analog ground of teletext decoder and digital ground of TV processor SECAM PLL decoupling 2nd supply voltage TV-processor Decoupling digital supply of TV-processor Phase-2 filter Phase-1 filter Ground 3 for TV-processor Bandgap decoupling East/West drive output Vertical drive B output Vertical drive A output IF input 1 IF input 2 Reference current input Vertical sawtooth capacitor Tuner AGC output SIF input 1 SIF input 2 Ground 2 for TV processor AGC sound IF Not used. Horzontal output Flyback input/sandcastle output QSS intercarrier output EHT/overvoltage protection IF PLL loop filter IF video output Main supply voltage TV-processor Internal CVBS input Ground 1 for TV-processor Description

-23-

Pin No. 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64

Pin Name CVBS/Y CHROMA AMOUT INSSW2 R2IN G2IN B2IN BCLIN BLKIN R0 G0 B0 VDDA VPE VDDC OSCGND XTALIN XTALOUT RESET VDDP AUDIO MUTE POWER IR IN

I/O I I ­ I I I I I O O O O ­ ­ ­ ­ I O ­ ­ O O I External CVBS/Y input Chrominance input (SVHS) Not used. 2nd RGB onsertion input 2nd R input 2nd G input 2nd B input Beam current limiter input Black current output RED output GREEN output BLUE output

Description

Analog supply of teletext decoder and digital supply of TV-Processore (3.3 V) OTP programming supply Digital supply to core (3.3 V) Oscillator ground supply Crystal oscillator input Crystal oscillator output Reset Digital supply to periphery (3.3 V) Port 1.0: audio mute output (PushPull) Port 1.1: power output (PushPull) Interrupt input 0: R/C infrared input

-24-

ADJUSTMENT
SET-UP FOR ADJUSTMENT
Because the video signal output from a pattern generator is used as the adjustment signal input during adjustment, the video signal output from the pattern generator must conform with the specifications. Measure the output waveform across 75 load. Confirm that the synchronizing signal has an amplitude of about 0.3 V, the video signal portion has an amplitude of about 0.7 V and the burst signal has an amplitude of about 0.3 V with flat envelope. Confirm that ratio of the burst signal amplitude and the red signal amplitude is 0.30 : 0.66. If the output signal does not conform with the specifications, calibrate the pattern generator. (Refer to pattern generator operation manual.) Use the LEADER: LCG 404 for the pattern generator.

1. CRT ADJUSTMENT 1-1. Precautions
(1) Receive the white raster signal, and then perform aging for at least 20 minutes. (2) Demagnetize the area surronding the CRT with a degausser before making adjustments. (3) Set the picture quality for each mode to the factory setting. (4) Position the front screen facing the east as much as possible.

1-2. Purpose
(1) Beam landing adjustment (purity magnet) Set the left/right balance of beam landing. If there is a discrepancy in this adjustment, a color irregularity will occur. After completion of the landing adjustment, it is necessary to perform convergence adjustment.

Approx. 0.7V 1 Vp-p White (Approx. 75%) Approx. 0.3V

Burst signal
Before adjustment After adjustment

Approx. 0.3V

Color irregularity

75% white Yellow

Fig. 1-1
Magenta Green Black Cyan Blue Red

TV display Color bar signal of a pattern generator

PRECAUTIONS BEFORE STARTING ADJUSTMENT
Satisfy the following setting conditions before starting adjustment. · Allow warm-up of 20 minutes or longer. (Do not turn off during warm-up.) · Set all picture quality controls of users' setting to initial set-up, unless otherwise specified. · Picture quality reset 1. Select "Picture" on the screen menu and press enter button. 2. Select "Normal" and press enter button. 3. Select "Reset" and press enter button. · Set the pattern generator's output level to 1.0Vp-p (across 75 load).

-25-

(2) Beam convergence adjustment (4-pole magnet) Align the R beam with the B beam. The G beam does not move with this adjustment.
(magenta)

(3) Beam convergence adjustment (6-pole magnet) With a 4-pole magnet align the G beam with the already aligned R/B beam.

B
R/B

(magenta)
R/B

R

(white)

G

G

G

RGB

Align the R beam with the B beam Fig. 1-2

Align the G beam with the R/B beam Fig. 1-3

(4) The composition of each magnet is as shown in Fig. 1-4. In making adjustments, rotate the lock ring clockwise (looking from the CRT's back screen) and disengage. Be careful not to loose the lock ring too much. If the magnet assembly has become shifted during adjustments, secure it to the position in Fig. 1-4.

DY lock screw

Purity 4-pole 6-pole Lock ring Magnet assembly lock screw NK C.B

CRT

DY

Magnet assembly

Fig 1-4

-26-

1-3. Beam Landing Adjustment
(1) Receive the green raster signal from the pattern generator. (2) Loosen the magnet lock screw, and shift the magnet assembly backward (toward the neck). (3) Loosen the DY lock screw, and shift the DY deflecting yoke backward (toward the neck). (4) After opening the two purity magnets to the same angle, adjust the color width of the bands on both sides of the screen so that they are equal. (refer to Fig. 1-5 (a)).
As there is occurrence of convergence distortion after completing the landing adjustments, be sure to carry out convergence adjustments. If the color irregularities in the screen's corner section are not improved, correct them with the landing magnet. After using the landing magnet, be sure to demagnetize the CRT with degausser and verify that there is no occurrence of color irregularity. (refer to Fig. 1-6) Landing magnet: 81-JTI-710-010 (two-sided adhesive tape) : 80-XVI-218-010 Cushion

R=B

R

G
Fig 1-5 (a)

B

As shown in Fig. 1-5 (b), the purity magnet functions in relation to the electron beam. (5) Gradually shift the deflecting yoke toward the front (toward the CRT funnel). Stop movement at the point when the screen has become completely green.

Landing magnet Cushion

S

N

N

S

NS

SN

Since the landing magnet is polarized, check the screen's improvement through rotation, not only by position.
S
N

S
N

SS

Fig 1-6
NN

Fig 1-5 (b) (6) Also, verify the respective monochromatics of red and blue. (7) While looking at the screen, adjust the tilt of the deflecting yoke and tighten the DY lock screw. (8) Shift the magnet assembly to the front (toward the CRT funnel), stop movement before the adjustment position and then tighten the magnet lock screw. At this time, be careful not to shift the position of the purity magnet.

-27-

1-4. Beam Center Convergence Adjustment
Make adjustments on the convergence with 4-pole and 6-pole magnets. Operate each magnet in relation to the electron beam as shown in Figs. 1-7 and 1-8. When performing this adjustment, verify whether there is distortion in the focus adjustment. If necessary, carry out adjustments again.

1-5. The Surrounding Convergence Adjustment
Perform this adjustment after completion of adjustment 1-4. (1) Shake the deflecting yoke up, down to the right and left, and adjust any discrepancies in the screen's surroundings. (2) Insert wedges in three locations in the gap between the deflecting yoke and the surface of the CRT funnel in order to secure the deflecting yoke. (Refer to Fig. 1-9)

S S B N G N R S S N
B G R

N

Wedge

Fig 1-7 Wedge In Fig. 1-7, two 4-pole magnets are stacked together so as to be of the same polarity. Move the B and R beams to their respective direction, by rotating the two 4-pole magnets together. By adjusting the opening of the two magnets, it is possible to adjust the amount of the beam's movement. Position of wedge
S
S
B G R

Wedge

N S

N

Fig. 1-9
N
B G R

S

N S

N

S

N

Fig 1-8

In Fig. 1-8, the two 6-pole magnets are stacked together so as to be of the same polarity. Move the B and R beams to their respective direction, by rotating the two 6-pole magnets together. By adjusting the opening of the two magnets, it is possible to adjust the amount of the beam's movement. (1) Receive the dot pattern signal from the pattern generator. (2) Pay attention to the center of the screen, and perform adjustments with two 4-pole magnets so that the R beam and B beam are perfectly aligned and become a magenta color. (Refer to Fig. 1-2) (3) In the same way, pay attention to the screen, and perform adjustments with a 6-pole magnet so that the magenta beam and G beam are aligned and become a white dot. (Refer to Fig. 1-3) (4) After adjustments are completed, secure all magnets with the lock link. (Refer to Fig. 1-4)

-28-

2. ELECTRICAL ADJUSTMENT
1. Use the numeric keys on the remote control to set the receiving channel to Pr91. 2. Set Sharpness on the Picture Menu screen to 0. 3. Press the buttons on remote control in the following order: Skip (R) Move (G) Menu The following menu will appear on the TV screen (the menu can be switched by the "P ^/v" button on the remote control):

1 SERVICE **AGC SERVICE **WP Green SERVICE **H Shift SERVICE **V Shift SERVICE **Dw Corner

1 SERVICE **Black R SERVICE **WP Blue SERVICE **V Slope SERVICE **H Width SERVICE **EW Tapez

1

1 SERVICE **Black G SERVICE **H Parall SERVICE **V Amp SERVICE **EW Parabo

1 SERVICE **Option

1

1 SERVICE **WP Red SERVICE **H Bow SERVICE **V S Cor SERVICE **Up Corner

1

4. To terminate the menu screen, press the MENU button on the remote control, or the power button on the TV or remote control. It is not necessary to adjust the above items marked 1.

-29-

5. G2 Alignment (SCREEN) Input signal: Black signal Adjustment point: SFR located at lower part of FBT (T402) Measuring instrument: Pattern generator/PAL Test point: R cathode (NECK C.B) 5-1. Set the TV to the "Normal I" mode. 5-2. Set the Black R and Black G data values on the menu screen to 8. 5-3. Set the WP Red, WP Green and WP Blue data values on the menu screen to 32. 5-4. Connect an oscilloscope to the test point. 5-5. Adjust the lower SFR of FBT (T402) so that the voltage at the test point is 125 ± 5 V. 6. White Balance * Perform aging before adjustment for at least 20 minutes. * Perform all adjustment steps several times. Set the TV to the "Normal I" mode when performing adjustment steps 6-1 _ 6-10. Cutoff Adjustment: Input signal: Stairstep (chroma OFF) Measuring instrument: Pattern generator/PAL 6-1. Supply a stairstep signal from the pattern generator. 6-2. Use the "Vol +/-" buttons on the remote control to adjust the Black R and Black G values on the menu screen so that the color of scales A is gray.

6-9. Lower the value until blue disappears. 6-10. Perform steps 2-1 _ 2-9 several times so that the picture is seen more white. 7. Focus Input signal: Dot pattern Adjustment point: SFR located at upper part of FBT (T402) Measuring instrument: Pattern generator/PAL Adjust SFR which B located at upper part of FBT (T402) in order to get the best focus for the dot. 8. Horizontal Center Input signal: Crosshatch Measuring instrument: Pattern generator/PAL 8-1. Set the TV to the "Normal I" mode. 8-2. Choose H. Shift from the menu screen. 8-3. Adjust the "Vol +/-" buttons on the remote control so that the dot mark at the center of crosshatch is positioned at the center of screen, and the number of squares on the left and right is the equal.
A Center B

Fig.8-1

A Fig. 6-1

Drive Adjustment: Input signal: White raster Measuring instrument: Pattern generator/PAL 6-3. Supply white raster from the pattern generator. 6-4. Use the Vol +/- buttons on the remote control to set the WP Red value to 63 so that the picture is reddish. 6-5. Lower the value until red disappears. 6-6. Use the Vol +/- buttons on the remote control to set the WP Green value to 63 so that the picture is greenish. 6-7. Lower the value until green disappears. 6-8. Use the Vol +/- buttons on the remote control to set the WP Blue value to 63 so that the picture is bluish.

-30-

9. Vertical Center Input signal: Crosshatch Measuring instrument: Pattern generator/PAL 9-1. Set the TV to the "Normal I" mode. 9-2. Choose V. Shift from the menu screen. 9-3. Adjust the "Vol +/-" buttons on the remote control so that the dot mark at the center of crosshatch is positioned at the vertical center of screen.

10-2. S-Correction 1) Choose V. S Cor from the menu screen. 2) Perform adjustment in the same way as with 6-1 Slope. * Repeat adjustments 10-1 and 10-2 so that A=B=C is available. 10-3. Amp 1) Choose V. Amp from the menu screen. 2) Adjust the "Vol +/-" buttons on the remote control so that the dot mark at the center of crosshatch is positioned at the vertical center of screen, the circle is a perfect circle, and each crosshatch is square. * If vertical center is not correct, perform adjustment in 5. Vertical Center again.

CRT center mark

Fig.9-1

A

10. Vertical Size Input signal: Crosshatch (with circle) Measuring instrument: Pattern generator/PAL Set the TV to the "Normal I" mode for adjustment items 10-1 _ 10-3. 10-1. Slope 1) Choose V. Slope from the menu screen. 2) Adjust the "Vol +/-" buttons on the remote control so that the vertical length of each square is equal (A=B=C).
A

Fig.10-2

B

11. AGC Input signal: Color bar (ANT RF=Input) Measuring instrument: Pattern generator/PAL Test point: 1501 6 pin RF AGC 11-1. Receive the pattern generator frequency at Pr91. 11-2. Connect an oscilloscope to the test point. 11-3. Choose AGC from the menu screen. 11-4. Use the "P " button on the remote control so that the voltage at the test point is 2.5 VDC.

C Fig.10-2

-31-

MECHANICAL EXPLODED VIEW 1/1
B 11 PWB

D G E

13

D

E E

D

C D 10

12

5 F 9 F 15 7 8 14 G

6 F

G G PWB 5 F

A

1 3 2

4

-32-

MECHANICAL MAIN PARTS LIST 1/1

REF. NO 1 1 2 2 3 3 4 4 5 5 6 6 7 8 8 9 9 10 10 11 11 12 12 13 13 14 15 A B C C D E E F

KANRI DESCRIPTION NO. 87-054-087-010 BADGE,AIWA 40<1430KY,1430EZY> 87-054-086-010 BADGE,AIWA 52.5<2130KY,2130EZY> 8A-JB7-004-010 LENS,SENSOR<1430KY,1430EZY> 8A-JB4-004-010 LENS,LED<2130KY,2130EZY> 8A-JB7-002-010 PANEL,FRONT<1430KY,1430EZY> 8A-JB4-002-010 8A-JB7-003-010 8A-JB4-003-010 S4-858-314-610 S4-858-310-810 8A-JB7-005-010 8A-JB4-005-010 S9-7P2-316-600 S4-859-906-310 S4-859-906-210 8A-JB7-001-010 8A-JB4-001-010 S4-859-607-140 S4-859-621-760 S5-8G0-000-084 S5-8G0-000-123 S4-851-9A4-710 S4-851-9A5-210 8A-JB7-006-010 8A-JB4-006-010 S4-856-818-300 S4-853-533-600 S7-172-401-011 S4-856-013-300 S4-856-013-301 S4-856-013-303 S4-856-215-402 S7-172-401-412 S7-172-401-612 87-741-096-410 PANEL,FRONT<2130KY,2130EZY> BTN,CHANNEL<1430KY,1430EZY> BTN,CHANNEL<2130KY,2130EZY> SPEAKER SP-50120F01 5W 8 OHM<1430KY,1430EZY> SPEAKER F2250C-2141<2130KY,2130EZY> BTN,POWER<1430KY,1430EZY> BTN,POWER<2130KY,2130EZY> HOLDER AC CORD CORD POWER 5A<1430KY,1430EZY> CORD POWER<2130KY,2130EZY> CABI,FRONT<1430KY,1430EZY> CABI,FRONT<2130KY,2130EZY> CRT 14' OEC A34JLL90X01<1430KY,1430EZY> CRT A51EBV13X081<2130KY,2130EZY> COIL DEGAUSSING DC-1450<1430KY,1430EZY> COIL DEGAUSSING DC-2072F<2130KY,2130EZY> CRT GROUND AS 14A3<1430KY,1430EZY> CRT GROUND AS 21A5<2130KY,2130EZY> CABI,BACK<1430KY,1430EZY> CABI,BACK<2130KY,2130EZY> CLAMP WIRE PH-WL-5034 HOLDER LED P.P BK SCREW TAPPING 4-10 SCREW CRT FIXING AS L-80 SCREW CRT FIXING AS L-140<1430KY,1430EZY> SCREW CRT FIXING AS L-240<2130KY,2130EZY> WASHER RUBBER SCREW TAPPING 4-14<1430KY,1430EZY> SCREW TAPPING 4-16<2130KY,2130EZY> SCREW TAPPTITE 3-10 SCREW TAPPTITE 3-8

PART NO.

! !

! !

G 87-741-095-410

COLOR NAME TABLE
Basic color symbol Color Basic color symbol Color Basic color symbol Color B Black C Cream D Orange G Green H Gray L Blue LT Transparent Blue N Gold P Pink R Red S Silver ST Titan Silver T Brown V Violet W White WT Transparent White Y Yellow YT Transparent Yellow LM Metallic Blue LL Light Blue GT Transparent Green LD Dark Blue DT Transparent Orange GM Metallic Green YM Metallic Yellow DM Metallic Orange PT Transparent Pink LA Aqua Blue

-33-

2­11, IKENOHATA 1­CHOME, TAITO-KU, TOKYO 110-8710, JAPAN TEL:03 (3827) 3111
737004 Printed in Singapore