Sharp 81gf-66e User manual

81GF-66E

SHARP CORPORATION

PAL

B/G, I

/ SECAM

L/L’, B/G, D/K

SYSTEM COLOUR TELEVISION

SEJB81GF66E00

DA-100W CHASSIS

SERVICE MANUAL

MODEL 81GF-66E

Issued: 25th July ‘00

This document has been published to

be used for after sales service only.

CONTENTS

ELECTRICALSPECIFICATION.......................2

IMPORTANT SERVICE NOTES.......................3

SERVICEADJUSTEMENTS.............................4

PRINTED WIRING BOARDS............................7

SCHEMATICDIAGRAM..................................16

PARTLIST........................................................29

BLOCKDIAGRAM...........................................28

In the interests of user safety (required by safety

regulationsinsomecountries)thesetshouldrestored

to its original condition and only parts identical to

those specified should be used.

RTV servis Horvat

Tel: ++385-31-856-842

Tel/fax: ++385-31-856-139

Mob: 098-788-319

www.rtv-horvat-d .hr

81GF-66E

Normal Operating...................................200W

(1800uA, S-out Max.)

ELECTRICAL SPECIFICATIONS

•Power Input .......................220V-240 Volts AC 50Hz

•Power Consumption

•Audio Power Output Rating

Speakers

Left / Right.........................7Ω12W, 4 x 13cm

•Aerial Input Impedance

•Tuning Ranges..............45.75MHz thru 855.25 MHz

•Intermediate Frequencies

•Adjacent Sound Carrier Trap

•Sound Carrier Trap

L’.........................................................33.9MHz

L,B/G,D/K,I............................................38.9MHz

L’..........................................................40.4MHz

L, D/K...................................................32.4MHz

B/G.............................................................33.4MHz

I...................................................................32.9MHz

VHF/UHF...........................75 ohm Unbalanced

CATV Special Channels

Normal Operating...................................110W

(Method IEC 60107)

Stand-by Operating.................................0,9W

Internal Left Speaker.....................15W (MPO)

Internal Right Speaker..................15W (MPO)

Internal Centre Speaker...........15W (MPO)

Centre ...............................7Ω12W, 6 x 13cm

•White Level

Set brightness control to get total picture tube cathode current of 600 milliamperes under no signal condition.

Maximum necessary correction of each picture tube cathode current to get 8550 degrees K+1MPCD screen

temperature should not exceed 15% of its original value.

X=0.290 Y=0.300

WARNING

Convergence.........................Self Converging System

Focus...........................High Bi-Potencial Electrostatic

Sweep Deflection...........................................Magnetic

L’..........................................................32.4MHz

L,D/K,B/G................................................40.4MHz

I...................................................................40.9MHz

•Adjacent Picture Carrier Trap

L’..........................................................41.9MHz

L,D/K,I......................................................30.9MHz

B/G.......................................................31.9MHz

Specifictions are subject to change without prior notice.

The chassis in this receiver is partially hot. Use an isolation transformer between the line

cord plug and power receptable, when servicing this chassis.

To prevent electric shock, do not remove cover. No user-serviceable parts inside. Refer

servicing to qualified sercice personnel.

Internal Subwoofer......................20W (MPO)

Subwoofer.................4.5Ω20W, 11cm Round

81GF-66E

IMPORTANT SERVICE NOTES

SERVICING OF HIGH VOLTAGE SYSTEM AND PICTURE TUBE

Maintenance and repair of this receiver should be done by qualified service personnel only.

When servicing the high voltage system, remove static charge from it by connecting a 10K ohm

resistor in series with an insulated wire (such as test probe) between picture tube ground tag and

high voltage lead. (AC line cord should be disconnected from AC outlet).

1. Picture tube this receiver employs Integral Implosion protection.

2. Replace with tube of the same type number for continued safety.

3. Do not lift picture tube by the neck.

4. Handle the picture tube only when wearing shatterproof goggles and after discharging the high

voltage completely.

X-RAY

This receiver is designed so that any X-Ray radiation is kept to an absolute minimum. Since certain

malfunctions are servicing may produce potentially hazardous radiation with prolonged exposure at

close range, the following precautions should be observed:

1. When repairing the circuit, be sure not to increase the high voltage to more than 33.5 KV, (at beam

1800µΑ) for the set.

2. To keep the set in a normal operation, be sure to make it function on 32KV±1.5KV (at beam 1800µΑ)

in the case of the set. The set has been factory - adjusted to the above mentioned high voltage. If

there is a possibility that high voltage fluctuates as a result of the repairs, never forget to check for

such high voltage after the work.

3. Do not substitute a picture tube with unauthorized types and/or brands which may cause excess

X-Ray radiation.

BEFORE RETURNING THE RECEIVER

In addition to the checks necessary as a result of a repair having been carried out, the following

additional safety checks should also be made before returning the units to the user.

1. Inspect all lead dress to make certain that leads are not pinched or that hardware is not logged

between the chassis and other metal parts in the receiver.

2. Inspect all protective devices such as non-metallic control knobs, insulating fish papers, cabinet

backs, adjustment and compartment covers or shields, insolation resistor-capacity networks,

mechanical insulators etc.

81GF-66E

Horizontal:

-Adjust HORIZONTAL SHIFT.

-Adjust E-W WIDTH.

-Adjust PIN PHASE.

-Adjust PIN AMPLITUDE.

-Adjust UPPER CORNER CORRECTION.

-Adjust LOWER CORNER CORRECTION.

SERVICE ADJUSTMENTS

All the adjustments required for this chassis will be done in Service Mode, except G2 and Focus.

••

•G2 ADJUSTMENT

1. Receive cross hatch pattern signal.

2. Set contrast to 80/100 and brightness to 40/100.

3. Connect the oscilloscope to the red cathode and adjsust G2 to read

155 V on the cut pulse level as in the drawing:

NOTE:

Oscilloscope should be adjusted for vertical TV field trigger and synchronized

with wideo signal.

••

•SERVICE MODE FUNCTION

This mode function is provided to assist with the settings of those adjustments that may vary from one

Picture Tube to another, or between models.

In order to use the Service Mode:

1. Connect Test Pattern signal to antenna terminal.

2. Press main switch to «OFF».

3. Press volume-down and channel-up buttons and

main switch to «ON» simultaneously.

4. Service mode is now entered.

The required adjustments can then be made from the Remote Control Unit.

The only buttons required are the following:

Up/Down-channel for movement in adjustment options menu; Up/Down-volume are used to carry out an

adjustment in said menu; ON/OFF is used to memorize a new adjustment.

Adjustment menu is as follows: -BLUE GAIN.

-RED CUT OFF.

-GREEN CUT OFF.

-BLUE CUT OFF.

-ALTER NVM PAGE.

-ALTER NVM POSITION.

-ALTER NVM VALUE.

-TELETEXT MIX MODE CONTRAST.

-TELETEXT CONTRAST.

-OSD CONTRAST.

-DVCO ADJUSTMENT (Only PAL).

-DVCO ADJUSTMENT (Only NTSC).

-LUMA CROMA DELAY.

-AGC ADJUSTMENT.

-AFT ADJUSTMENT (BG-I-L)

-AFT ADJUSTMENT (L’)

-OPC VALUE.

-AUTOINSTALLATION ON/OFF.

To exit service mode, press main switch to OFF.

Adjustment menu is as follows:

All adjustments for Geometries are based on internal pattern (fig.1)

The procedure for making adjustments is as follows:

Vertical:

-Adjust VERTICAL AMPLITUDE.

-Adjust S-CORRECTION.

-Adjust VERTICAL SHIFT.

-Adjust VERTICAL LINEARITY.

-Adjust VERTICAL ANGLE.

-Adjust VERTICAL BOW. Fig.1

155 V

-SERVICE SOFTWARE AND HEXADECIMAL

COUNTER DISPLAY: «SW ON XXXX SW OFF

XXXX HOURS ON XXXX

-HORIZONTAL SHIFT.

-EAST WEST WIDTH.

-PIN PHASE.

-PIN AMP.

-UPPER CORNER CORRECTION.

-LOWER CORNER CORRECTION.

-VERTICAL LINEARITY.

-VERTICAL ANGLE.

-VERTICAL BOW.

-VERTICAL AMPLITUDE.

-S CORRECTION.

-VERTICAL SHIFT.

-RED GAIN.

-GREEN GAIN.

CH1 gnd

81GF-66E

5− 5−

5− UPPER CORNER CORRECTION

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, slide pincushion changes from

pincushion to barrel shape.

c) When volume-down button is pressed, slide pincushion changes from barrel

shape to pincushion.

d) Adjust the UPPER CORNER CORRECTION to obtain condition as in (fig.6).

6− 6−

6− LOWER CORNER CORRECTION

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, slide pincushion changes from pincushion

to barrel shape.

c) When volume-down button is pressed, slide pincushion changes from barrel

shape to pincushion.

d) Adjust the LOWER CORNER CORRECTION to obtain condition as in (fig. 7).

9− 9−

9− VERTICAL BOW

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, vertical bow changes to the right.

c) When volume-down button is pressed, vertical bow changes to the left.

d) Adjust the VERTICAL BOW to obtain overscan (fig. 10).

Fig. 2

Fig. 3

Fig. 4

Fig. 5

Fig. 6

Fig. 9

Fig. 8

Fig. 7

7− 7−

7− VERTICAL LINEARITY

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, upper picture scanning decreases and

lower picture scanning increase.

c) When volume-down button is pressed, upper picture scanning increases and

lower picture scanning decrease.

d) Adjust the vertical symmetry to obtain symmetry scanning between upper and

lower picture (fig. 8).

8− 8−

8− VERTICAL ANGLE.

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, vertical angle changes to the right.

c) When volume-down button is pressed, vertical angle changes to the left.

d) Adjust the VERTICAL ANGLE to obtain condition as in (fig. 9).

4− 4−

4− PIN AMPLITUDE

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, slide pincushion changes from

pincushion to barrel shape.

c) When volume-down button is pressed, slide pincushion changes from

pincushion to barrel shape.

d) Adjust the PIN AMPLITUDE to obtain condition as in (fig. 5).

3− 3−

3− PIN PHASE

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, slide pincushion changes.

c) When volume-down button is pressed, slide pincushion changes.

d) Adjust the PIN PHASE to obtain condition as in (fig. 4).

2− 2−

2− E-W WIDTH

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, horizontal scanning increases.

c) When volume-down button is pressed, horizontal scanning decreases.

d) Adjust the horizontal amplitude to obtain 9% overscan (fig. 3).

1− 1−

1− HORIZONTAL SHIFT

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, picture moves to the left.

c) When volume-down button is pressed, picture moves to the right.

d) Adjust the horizontal location to obtain picture centering (fig. 2).

Fig. 10

81GF-66E

11− 11−

11− S-CORRECTION

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, upper and lower scanning decreases, and

center scanning increases.

c) When volume-down button is pressed, upper and lower scanning increases,

and center scanning decreases.

d) Adjust the S-CORRECTION to obtain a balance between upper, lower and

center (fig. 12).

12− 12−

12− VERTICAL SHIFT

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, picture moves up.

c) When volume-down button is pressed, picture moves down.

d) Adjust the horizontal location to obtain picture centering (fig. 13).

COLOUR ADJUSTMENT

The following adjustments are only required when Picture Tube,

IC801 or IC1801 are changed:

1. RED CUT OFF / GREEN CUT OFF / BLUE CUT OFF

2. RED GAIN / GREEN GAIN / BLUE BAIN

ACCESS TO NVM

a) Receive Philips pattern signal.

b) When Stand-by button is pressed (Remote Control

Unit), start

DVCO ADJUSTMENT (PAL)

Up/Down volume buttons are used to adjust the contrast

of the following items:

-TELETEXT MIX MODE CONTRAST.

-TELETEXT CONTRAST.

-OSD CONTRAST.

CONTRAST ADJUSTMENT

DVCO ADJUSTMENT (NTSC)

Adjust not required.

AUTO INSTALLATION OFF/ON

WhenONisselected, the TV will perform theautoinstallation

sequence as soon as service mode is removed.

a) Connect Test Pattern signal to antenna terminal.

b) Press main switch to OFF.

c) Press volume-down and channel-up buttons and main

switch to ON simultaneously.

d)»Service Software Vxx.xx» appears o screen.

e)Press main switch to OFF.

PROTECTIONS CANCEL

AGC ADJUSTMENT

a) Tune the TV into CH10 (pattern generator).

b) Adjust the signal strength to 57dB µV

c) Press the stand-by button on the Remote Control (red

button).

The TV will perform automatically the AGC.

AFTADJUSTMENTPAL BG - I, SECAM L

a) Tune the TV into CH69 (pattern generator).

b) Press the stand-by button on the Remote Control (red

button).

The TV will perform automatically the AFT.

1.1 Adjust G2.

1.2 Tune a white card.

1.3 Adjust colour to minimum.

1.4 Position colourimeter in the center of screen.

1.5 Adjust brightness and contrast to obtain a luminance of ≈20

NITS.

1.6 Operate in Service Mode and select location RED CUT OFF /

GREEN CUT OFF / BLUE CUT OFF, to obtain colour

coordinates:

X=0.290 ± 0.015 Y=0.300 ± 0.015

To increase press volume-up button and to decrease press

volume down button.

RED CUT OFF alter «X» coordinate.

GREEN CUT OFF alter «Y» coordinate.

BLUE CUT OFF alter «X» and «Y» coordinate.

2.1 Using brightness and contrast buttons, select a luminance

of ≈120 NITS.

2.2 Operate in Service Mode and select location RED GAIN /

GREEN GAIN / BLUE GAIN, to obtain colour coordinates:

X=0.290 ± 0.015 Y=0.300 ± 0.015

To increase press volume-up button and to decrease press

volume down button.

RED CUT OFF alter «X» coordinate.

GREEN CUT OFF alter «Y» coordinate.

BLUE CUT OFF alter «X» and «Y» coordinate.

2.3 Exit Service Mode and check colour coordinates «X» and

«Y» at 20 and 120 NITS. It may be necessary to repeat

procedure 1 and 2 of COLOUR ADJUSTMENT.

Press CH ∧ to move in the following sequence: ALTER

NVM PAG⇒ALTER NVM POS ⇒ALTER VNM VAL to alter

presseting adjustments, press up/down-volume buttons on

ALTER NVM VAL.

CAUTION: Do not change NVM VALUE to avoid risk

of serious damages to TV set.

AFT ADJUSTMENT SECAM L’

a) Tune the TV into CH04 (pattern generator).

b) Press the stand-by button on the Remote Control (red

button).

The TV will perform automatically the AFT.

10− 10−

10− VERTICAL AMPLITUDE

a) Internal pattern signal will be displayed.

b) When volume-up button is pressed, vertical size of picture increases.

c) When volume-down button is pressed, vertical size of picture decreases.

d) Adjust the vertical size to obtain overscan (fig. 11).

Fig. 13

Fig. 12

Fig. 11

81GF-66E DESCRIPTION OF SCHEMATIC DIAGRAM

1. The unit of resistance «ohm»is omitted

(K=1000 ohms. M= Megaohm).

2. All resistors are 1/8 watt. unless otherwise

noted.

3.All capacitorsareµF, unlessotherwisenoted

(P= µµF).

4. The capacitor with Part No.

RC-FZ9XXXBMNJ is designed to with stand

63V.

NOTE:

SAFETY NOTE:

1. DISCONNECT THE AC PLUG FROM THE AC

OUTLET BEFORE REPLACING PARTS.

2.SEMICONDUCTORHEAT SINKS SHOULD BE

REGARDED AS POTENTIAL SHOCK HAZARDS

WHEN THE CHASSIS IS OPERATING.

IMPOTANT SAFETY NOTE:

PARTS MARKED WITH « » ( )ARE

IMPORTANT FOR MAINTAINING THE SAFETY

OF THE SET. BE SURE TO REPLACE THESE

PARTS WITH SPECIFIED ONES FOR

MAINTAININGTHESAFETYANDPERFORMAN-

CE OF THE SET.

SERVICE PRECAUTION:

THE AREA ENCLOSED BY THIS LINE ( )

IS DIRECTLY CONNECTED WITH AC MAINS

VOLTAGE.

WHEN SERVICING THE AREA, CONNECT AN

ISOLATING TRANSFORMER BETWEEN TV

RECEIVER AND AC LINE TO ELIMINATE

HAZARD OF ELECTRIC SHOCK.

CAUTION

This circuit diagram is original one,

thereforethere maybe light difference from

yours.

WAVEFORM MEASUREMENT CONDITION:

Colour bar genetator signal of 70 dB from RF input.

400Hz

1234

5678

910 11 12

580V 1.3 KV 31.25 KHz 4 Vp-p 31.25 KHz

41 Vp-p 31.25 KHz 1.8 Vp-p 100Hz 3.3V 100Hz

19V 100Hz 25 Vp-p 100Hz 400Hz1.15 Vp-p 31.25KHz

350 Vp-p 100Hz

45 Vp-p 113 KHz FM

GND GND GND GND

GND

81GF-66E

M6701

11 122233 3

123

+5V

GND

+5V

GND

LED

OPC1

123

OPC

LEDOPC

+5V

RRMCU0228CEZZ

TSL235

(A)

GN0207

(M)

GN0304

(SW1)

GN0341

(SW2)

GN0341

(OPC)

GN0341

R6701

120K

1/2W

R6702

120K

1/2W

S6702

KZ007

S6703

KZ007

S6704

KZ007

S6705

KZ007

R6751

3K3

S6701

P0600

F6701

FS-C3226

D6751

PX0105

D6752

PX0105

R6738

100

R673

100

(ST)

GN0341

C6715

1uF

(16V)

LP6701

P0001

(RC)

GN0341

POWER SWITCH SCHEMATIC DIAGRAM.

234567

81GF-66E

234567

Page 19

Page 20

81GF-66E SCHEMATIC DIAGRAM (00 Version).

123123123

LED

GND

+5V

GND

+5V

+3.3V

+5V

+3.3V

+5V

+3.3V

+5V

+8V

+3.3V

+5V

+16V

-16V

+140V

+5V

PROT

LEDOPC

PAGC

ABL

LED

OPC

CAG

BLU

A16

A17

A18

ALCLOCK

AFT2

AFT1

PAFT

SDA

SCL

SELV

TLTXT

Q708

2SC2412

R733

47K

R712

560

FB701

LN0037

FB702

LN0037

R728

180

(1/2W)

R1041

4K7

R715

47K

Q505

C101

22pF

C1022

100nF

C1020

22pF

C1021

100nF

R1026

220

R2406

2K2

R2407

2K2

C718

1000uF

(25V)

C71

1000uF

(25V) C2401

22pF

C2402

22pF

FB703

LN0037

C2404

100nF

C2403

100nF

CF701

C0121

R740

47K

R711

1K8

R727

180

(1/2W)

Q70

2SC2412

R713

560K

1/2W

R714

560K

1/2W

D703

DX0555

RF2005

D704

DX0555

RF2005

D701

DX0555

RF2005

D702

DX0555

RF2005

D711

DX053

BYT52M

R1048

820

R1002

3K3

R1001

3K3

D721

C8V2

EX0550

D2401

EX053

D706

DX0551

D730

DX0551

Q701

TX01 8

S5F10N80

D720

DX0587

MR826

X2401

B0214

20.48MHz

(G)

PLGN0207

C705

EZ011

220uF

(385V)

L701

F0108

R2402

4K7

D718

MBR3100

D71

MBR3100

C710

47nF

400V

FZ0156

R716

.27

R758

100

R754

2R7

Q710

2SC2412

D725

DX0551

Q711

BC547

TX0106

R751

R1017

3K3

R1052

4K7

R2408

3K3

Q712

2SC2412

J701

100nF

J13

3,3uH

(CF)

C711

220pF

2KV

KZ0035

R755

3 0

R1055

470K

R1028

100

R1004

3K3

R1022

100

R1035

4K7

R1050

220

C728

100nF

R73

47K

R738

47K

R737

180K

R101

3K3

R1018

100

R1020

3K3

R240

270

R1023

220

R1032

27K

(RGB)

GN0441

R2410

100

R2411

100

R2412

100

(SW1)

GN0341

(SW2)

GN0341

D1003

DX0606

BAS85

R1033

10K

Q1005

2SC2412

IC1001

ST10R272L

IX1686BM

P5.13

P5.14 AFT1

P5.15 AFT2

VSS

XTAL1

XTAL2

VDD

3.0

3.1

3.2 MICRO OUT

3.3 LED OPC

3.4 AGC OUT

3.5 ABL

3.6 LEDST

3.7 OPC IN

3.8 AV LINK

3. CAG

3.10 M3CLK

3.11 M3LDA

3.12 I2CEN

VSS

VDD

A20

A21

A22

A23

WR/WRL

READY

ALE

VDD

VSS

RPD

P5.12 100

P5.11

P5.10 8

P7.3 PAFT 7

P7.2 SDA1 6

P7.1 SDA2 5

P7.0 SCL1 4

P2.11 3

P2.10 AVLINK 2

P2. IR 1

P2.8 0

P6.7 8

P6.6 88

P6.5 87

P6.4 SCL2 86

P6.3 SELV 85

3.13 SERV DATA

P3.15

A16

A17

A18

R777

47 C73

220uF

(16V)

L702

IC708

FX0111

T702

BTW34

Q714

2SA1037

R767

10K

R768

220

(TQ)

R762

220

(TQ)

D727

DX0551

C1017

33nF

C723

2200uF

(10V)

D733

DX0551

D707

DX0502

1N4005

D708

DX0502

1N4005

R774

470K

(TQ)

R775

470K

(TQ)

LP701

R721

150K

(1/2W)

R703

150K

(1/2W)

R735

470K

R736

470K

(RC)

GN0341

(AA)

CM0672FC

X1002

17.734

B0200BM

T701

NZ0577BM

D728

C5V1

EX0545

D732

C15

EX0556

C737

1uF

(16V)

C704

KZ0165

3n3 250V

R763

100

(1/2W)

XZ0224

R770

270

(1/2W)

XZ022

D731

DX0502

1N4005

D734

DX0502

1N4005 R105

100 R1058

100

POR701

P0001BM

D72

C47

EX0568

R708

D710

EX0545

5V1

FB1001

R771

470K

(1W)

Q715

TX0215

2SK2715

R76

820

C702

47nF

400V

FZ0173

C701

0,1uF

470nF

250V

C703

KZ0165

3n3 250V

L703

C746

100nF

D1004

EX054

D1005

EX054

FB1002

RBLN-0037

R1008

3K3

IC701

PST52

133

R788

18K

C706

22uF

(16V)

C707

100uF

(16V)

R78

18K

R7 0

18K

IC703

FX0106

R7 2

6K8

R7 1

18K

IC702

ST6203B

IX1646

VDD

OSCIN

OSCOUT

NMI

TEST

RESET

PB7

PB6

8PB5

PB3 10

PB1 11

PB0 12

PA3 13

PA2 14

PA1 15

VSS 16

R102

4K7

C1027

47uF

(16V)

C725

4.7nF

(HB)

C724

220uF

(16V)

(OPC)

GN0341

C733

10nF

R2401

470

IC1003

X24645

IX1603

VSS

4SDA 5

SCL 6

WP 7

VCC 8

IC1004

X24645

IX1603

VSS

4SDA 5

SCL 6

WP 7

VCC 8

C1001

470uF

(6.3V)

R1030

4K7

IC704

FX0106

R787

47K

Q717

2SC2412

C731

10nF

R776

82K

C1032

2.2uF

C730

10nF

D724

C2V7

EX0538

C732

10nF

C1002

100nF

R1031

4K7

C240

180pF

RTV servis Horvat

Tel: ++385-31-856-842

Tel/fax: ++385-31-856-139

Mob: 098-788-319

www.rtv-horvat-d .hr

81GF-66E

8 9 10 11 12 13 14

Page 21

Page 18

81GF-66E SCHEMATIC DIAGRAM (00 Version).

TB0001

GND

V OUT

V IN

12 34 5

+200V

+140V

+5V

+140V

+8V

+140V

+5V

-1 V

+140V

-13V

+13V

+5V

+25V

+140V

+5V

-13V

CAG

PROT

BLU

VI3

AV3

SC3INL

SC3INR

SC1OUTL

SC1OUTR

VI2

R722

D620

DX0551

R641

(1/2W)

R607

6K8

R540

4K7

L603

P0262

R627

180

(TQ)

C631

470nF

D605

DX0585BM

DMV32AF5

R530

XZ0200

(1/2W)

R625

180

(TQ)

L601

3.3uH

R514

3 0

Q505

2SC2412

C522

100nF

R544

L503

3.3uH

(CF)

R54

27K

D504

DX0551

C518

10pF

FB703

LN0037

C2406

100nF

R2405

100K

Q2401

2SC2412

R2403

1K5

R53

3K3

R527

Q501

2SC2412

R537

8K2

R524

R435

Q404

2SC2412

R545

100K

R611

560

(2W)

C712

100pF

R720

10K

R71

220

R408

(1/4W)

R508

680

L2402

10uH

(DF)

D712

EX041

C15

BYT52M

D610

DX051

1N581

D611

DX051

1N581

D621

1N4 36

DX0506

R610

XZ200BM

1/2W

Q602

TX01 2

KSC2500

R717

22K

R745

1K8

(1%)

Q702

TX0182

2PD602

IC705

FX0106

D403

EX054

7V5

D404

EX054

7V5

D502

DX0551

D506

DX0551

D713

DX0551

D715

DX0551

Q701

TX01 8

S5F10N80

MR826

B0214

20.48MHz

C770

KZ0156

3K3pF/ 4KV

R603

330

C616

470uF

(35V)

L605

Z0715

4K7

C713

100nF

IC706

KA431AZ

IX1674

D510

DX0505

1N4 35

R513

100K

R750

R605

2K2

C515

3 0pF

R526

3K3

C717

1nF

R718

R716

.27

R534

27K

C524

100nF

R533

820

(1/4W)

R2408

3K3

FB603

LN0037

C63

3 0pF

C633

22pF

Q603

2SC2412

Q604

2SA1037

Q605

KSC2500

TX01 2

Q601

TX01 7

BU2525

C607

330uF

(10V)

C635

1nF

D608

DX0505

1N4 35

C638

2n2

(500V)

D60

DX0505

1N4 35

C637

2n2

(500V)

C52

270pF

C530

10nF

R623

.56

(3W)

R51

100K

1/2W

C516

100pF

R2404

C714

82nF

R50

3 K

FB602

R614

10K

(1/2W)

Q606

2SC2412

C644

220uF

(16V)

D613

DX0506BM

1N4 36

R723

270

(1W)

C618

470nF

C634

470pF

2KV

KZ0038

C61

2.2uF

(160V)

C620

2.2uF

(160V)

Q703

TX0151

2SD23 1Q

C738

56pF

R765

100

(TQ)

R766

100

(TQ)

R724

270

(TQ)

R522

330

D61

DX551

R608

(1/4W)

R628

(1/4W)

D716

EX0411

6V8

D606

DX0505

1N4 35

R406

100

C406

3 0pF

FB301

LN0037

R401

C401

100pF

C403

100pF

C404

100pF

C405

100pF

C721

470uF

(35V)

C722

100nF

C740

22nF

R706

20K

C723

2200uF

(10V)

C613

560nF

(400V)

FZ7564

R613

3K3

(3W)

(LU)

(H)

GN0541

CN1

CZ210 BM

C611

560nF

(400V)

L604

P02 0

C715

330pF

C716

3.3nF

(HB)

C517

27nF

(HB)

C742

68nF

(HB)

R743

47K

(TQ)

R744

47K

(TQ)

L611

22uH

(CF)

L612

22uH

(CF)

R617

2.2

1/2W

XZ0204

M0017CE

C433

47uF

C743

100nF

C610

22nF

(630V)

C601

11nF

1600 V

FZ0185BM

R647

C514

18nF

C514P

2,7NF

C525

5K6

R616

0.56

(2W)

R61 A

560

R61 B

560

D612

DX051

1N581

C640

2n2

(HB)

T601

F2071

R730

150

(1W)

C606

68nF

(HB)

R646

560K

D622

1K5

D623

C22

EX0423

R512

2K2

R515

2K2

J248

220

(1/2W)

R451

220

(1/2W)

D722

MBR1100RL

DX05 0

J207

1.5uH

P0282

L60 A

R606

1K (1W)

R60

R604

.33

(1W)

R634

220

R552

3K2

R747

2K7

R746

12K

R404

100

R405

100

C402

3 0pF

D415

C6V2

EX0547

R453

18K

D414

DX0551

R455

10K

R456

15K

R403

100

C645

150pF

R521

10K

R452

22K

R454

680

D402

EX054

7V5

R402

D401

EX054

7V5

D412

DX0551

Q406

2SA1037

R1008

3K3

D413

B6V2

EX0584

C2407

220nF

D601

DX0551

R407

D421

4V7

EX0544

D726

12V

EX0554

C526

10uF

R538

27K

C720

EZ0258

100uF

(200V)

+VS

-VS

IC503

BA103 3

IX1556BM

L705

50uH

P0285

D1006

C5V6

EX0546

L2401

3.3uH

(DF)

C527

100nF

+VS

-VS

IC502

BA4558

Q506

2SK2 63

IC2401

SDA5275-3

IX170

CLK

TSCQ

XOUT

XIN

GPO

CVBS

VDD_1

VDDA

VSSA_1

VDD_2

RES

VDD_3

VREF

VDD_4

INTQ 52

I2CEN 51

M3LDA 50

M3CLK 4

CORQ 48

BLAN 47

B46

G45

R44

VSS_1 43

RGB_GND 42

VSSA_2 41

VSS_2 40

VBB 3

VSS_3 38

CASQ 37

VSS_4 36

D3 35

D2 34

D0 33

D1 32

WEQ 31

RASQ 30

A11 2

A10 28

A 27

IC2402

KM44C1000DT

IX1656BM

D0 1

D1 2

WR 3

RAS 4

NC 5

A1 10

A2 11

A3 12

CAS

VSS

VCC 13

IC707

L4 78

IX1704

GND

OSC

OUT

10 10

VCC 11

BOO 12

COM 13

FB 14

15 15

16 16

C615

470uF

(25V)

C2405

220nF

R532

6K8

C735

2.7nF

(HB)

R748

4K7

FB705

LN0020CE

C741

100nF

R742

8M2

1/2W

R741

8M2

1/2W

M0017CE

FB601

D50

DX0551

R548

6K8

C520

470uF

(35V)

D515

C4V7

EX0544

D714

MBR340

DX0605

R1061

4K7

R707

C2408

100nF

D503

DX0551

R615

560

R525

10K

180pF

81GF-66E

1234567

Page 21

Page 18

81GF-66E SCHEMATIC DIAGRAM (00 Version).

(YA)

(YB)

3123123

4 OUT L

GND

OUT R

GND

OUT R

OUT L

OUT R

OUT L

GND

IN CHROMA

GND

IN LUMA

LED OPC

OPC

LED

GND

+5V

MUTE

CN1285

+16V

+5V

-16V

+5V

-16V

+16V

+5V

-16V +5V

-16V

+3.3V

+16V

+5V +3.3V

+5V

+3.3V

+5V

+8V

+5V

+5V +8V +5V

+25V

+5V

+3.3V

+5V

+3.3V

OPC

LEDOPC

LED

SC2OUTR

SC2OUTL

SELV

SC1OUTR

D4 D2 SC1OUTL

A12

D5 D1

D6 D0

D7 A0 SC4INL

A1 SC4INR

A2 VI2

A3 SC4INL

CIN SC4INR

A7 SC3INL

A6 SC3INR

A5 SC2INL

A12

A3 SC2INR

A17 A15

A2 I2SIN

A18 A16

A1 SC1INL I2SOUT

A0 I2SWS

SC1INR

I2SCL

HSDA

SCL

L/L'

VI3

BG/L

SELFI

D5 VS

SELFI

SELV

D0 AV1

AV2

AV3

HEADL

HEADR

MUTE

SCL

SDA

AGC

RES2

VI1

MUTE

RES2

HEADL

HEADR

PROT

TLTXT

GND

C351

220uF

(25V)

R350

10K

R353

150

R357

150

R358

100K

R361

10K

C350

100nF

C360

560pF

C375

560pF

C361

470nF

(FZ)

Q303

2SC2412

R360

10K

C36

100pF

R356

12K

C373

100nF

C367

100nF

R354

10K

R355

27K

C371

1nF

L316

3.3uH

(CF)

C378

220uF

(25V)

C37

100nF

L350

3.3uH

(CF)

C354

100pF

R352

12K

C353

100nF

C358

100nF

C356

3,3nF

C357

1nF C362

2.2uF

L351

3.3uH

(CF)

C363

220uF

(25V)

L315

3.3uH

(CF)

C366

100nF

C365

220uF

(25V)

C364

100nF

C368

100nF

C321

100nF

L301

10uH (DF)

C332

330uF

(10V)

C334

5pF

C335

5pF

C330

47pF

C327

100nF

C326

10uF

(16V)

R323

100K

R318

100K

R321

100K

C325

330nF

C324

330nF

C323

330nF

C322

330nF

C314

10uF

(16V)

C313

10uF

(16V)

R320

100

R303

100

R302

100K

R301

100K

R304

100

R312

22K

R1037

4K7

R30

22K

R311

100K

R1046

1K8

C1014

100nF

R1042

8K2

C1018

100nF

R1024

8K2

R1025

8K2

R528Q505

R205

3 0

L201

12uH

(DF)

C376

470nF

R1036

4K7

R351

27K

R35

100K

R1027

10K

R306

100

R307

100

R315

100

C328

100nF

C32

47pF

C341

220nF

R308

100

C318

330nF

C317

330nF

X301

B0203

18,432MHz

R504

3 K

R505

2K2

L352

P0278

L353

P0278

R373

10K

Q304

2SA1037

R1053

100K

R1003

3K3

Q1006

2SC2412

R1043

8K2

R1054

100K

Q1007

2SC2412

R362

4K7

R363

4K7

R375

47K

Q305

2SC2412

R372

10K

C370

330nF

C372

2.2uF

D301

DX0551

R376

4K7

R1047

10K

Q1004

2SA1037

R314

100K

R313

C320

1nF

R310

C340

220nF

Q302

2SC2412

R31

100

C305

10uF

(16V)

C343

10uF

C342

10uF

C306

10uF

(16V)

R1044

10K

C31

1nF

C33

100nF

R104

10K

R1055

470K

R1021

4K7

D100

DX0551

C1033

68nF

R1032

27K

R448

220

C431

330nF

R465

10K

R445

100K

C311

330uF

(10V)

C427

R467

33K

(TQ)

D1003

DX0606

BAS85

IC1001

ST10R272L

IX1686BM

ALE

VDD

VSS

RPD

A14 75

A13 74

A12 73

A11 72

A10 71

VSS 70

VDD 6

A 68

A8 67

A7 66

A6 65

A5 64

A4 63

A3 62

A2 61

A1 60

A0 5

P0H.7 58

HOUT 57

RES2OUT 56

P6.7 8

P6.6 88

P6.5 87

P6.4 SCL2 86

P6.3 SELV 85

P6.2 SLW1 84

P6.1 SLW2 83

P6.0 SLW3 82

NMI 81

VDD

VSS

SELFI 51

BG/L 52

L/L' 53

RESOUT 54

ROT OUT 55

A15 76

VSS 77

VDD 78

RSTIN 7

RSTOUT 80

(SS)

GN0341

(FV)

GN0241

(CC)

GN0241

(RT)

GN241

(VS)

GN0341

(SP)

GN0441CE

C451

10nF

(HB)

C35

4.7nF

(HB)

C374

4.7nF

(HB)

R1005

4K7

C377

10uF

(SB)

GN0685

(ST)

GN0341

R1056

C432

1uF

(16V)

R43

100pF

R440

100pF

R468

R1057

037

C438

100pF

Q408

2SC2412

D41

DX0551

R461

100K

C821

2,2uF

VEE

VSS

VDD

IC401

HEF4053

IX1602

C352

100nF

R447

220

C430

330nF

IC305

MSP3410D

IX1636BM

AUD_CL_OUT 1

NC 2

NC 3

D_CTR_OUT1 4

D_CTR_OUT0 5

ADR_SEL 6

STBY 7

NC 8

SCL

SDA 10

I2SCL 11

I2SWS 12

I2SDAOUT 13

I2SDAIN 14

ADR_DA 15

ADR_WS 16

ADR_CL 17

DVSUP 18

DVSS 1

I2S_DA_IN2 20

NC 21

NC 22

NC 23

RESET 24

DAC_R 25

DAC_L 26

VREF2 27

DACM_R 28

DACM_L 2

NC 30

NC 31

NC 32

XTAL_OUT

XTAL_IN

TESTIO1

ANA_IN2+

ANA_IN-

ANA_IN1+

AVSUP

AVSS

MONO_IN

VREFTOP

SC1_IN_R

SC1_IN_L

ASG1

SC2_IN_R

SC2_IN_L

ASG2

SC3_IN_R

SC3_IN_L

ASG4

SC4_IN_R

SC4_IN_L

AGNDC

AHVSS

CAPL_M

AHVSUP

CAPL_A

SC1_OUT_L

SC1_OUT_R

VREF1

SC2_OUT_L

SC2_OUT_R

IC304

M5218L

+12V

OUTL

-INL

+INL

GND

+INR

-INR

OUTR

D303

7V5

EX054

C331

100nF

D302

7V5

EX054

)

C380

47nF

(HD)

GN0341

D305

7V5

EX054

Q306

2SC2412

C316

100nF

C1005

100nF

R458

R208

R20

3K3

IC1002

M27C801

IX1787BM

VPP 1

A16 2

A15 3

A12 4

A7 5

A6 6

A5 7

A4 8

A2 10

A1 11

A0 12

A10

A11

A13

A14

A17

A18

VCC

D0 13

D1 14

D2 15

VSS 16

IC301

TDA7480

IC302

TDA7480

R1045

8K2

C30

1nF

C1028

100nF

IC1005

PST52

133

C310

1nF

R374

47K

R441

100pF

C312

100nF

C333

47pF

Q1001

2SC2412

R322

100K

R466

R45

C1032

2.2uF

C338

100nF

D304

7V5

EX054

Q1003

2SC2412

C315

3.3uF

C1026

10nF

Q1002

2SC2412

C1031

330MF

(6,3V)

R1040

100

C381

680nF

R377

33K

C382

680nF

R378

33K

81GF-66E

89 10 11 121314

Page 20

Page 19

81GF-66E SCHEMATIC DIAGRAM (00 Version).

MOTHER BOARD

(YB)

(YC)

12345

R OUT

R IN

L OUT

L IN

V OUT

V IN

R OUT

R IN

L OUT

L IN

V OUT

AV LINK

SERVICIO

17-02-2000

0 L'

1234

E/W +13V -13V

GHHVV

CN1285

81GF66E

+5V

+140V

+33V

+3.3V

+33V

+5V

+25V

+13V

+5V

-13V

1 L

L/L´

Hasta INFO

SHARP

ELECTRONICA ESPANA S.A.

NOMBRE CODIGO

ESCALA

MODELO

FECHA REVISIONES N

FECHA

A-2/A-1

UN T K 7 BMV32

REALIZADO VERIFICADO APROBADO

08.02.2000 538

AFT1

AFT2

GNDU

BLU

BG/L

PROT

AGC

ABL

PAFT

SC2INR

SC2INL

AGC

SDA

SCL

CIN

AVCLOCK

AV2

SC1INL

SC1OUTL

SC1OUTR

SC1INR

AV1

VI1

SC2OUTR

SC2OUTL

GND

TH201

C208

22nF

R413

100

R414

100

R415

100

C416

100pF

R40

R412

100

C410

3 0pF

C412

100pF

C413

100pF

FB302

LN0037

C414

3 0pF

C417

100pF

C503

100pF

C502

100nF

L502

3.3uH

(CF)

R514

3 0

R528

100K

Q505

2SC2412

C522

100nF

R544

R54

27K

D508

DX0551

R506

120

(TQ)

Q503

IRFR010

TX0172

C512

220nF

R517

15K

C510

100nF

C50

220uF

(25V)

R516

C511

2.2uF

D504

DX0551

R435

R450

Q405

2SA1037

C420

100pF

C421

100pF

R433

100K

R431

100

R42

100

C41

3 0pF

FB303

LN0037

C415

47uF

R41

1/4W

R418

1/2W

C418

3 0pF

R427

R426

R424

Q403

2SC2412

C422

47uF

(10V)

C204

2.2uF

R216

150

R21

47K

L202

15uH

R205

3 0

R204

R237

680

C220

1uF

IC203

IX0037

R231

8K2

1/2W

R230

8K2

1/2W

R22

8K2

1/2W

C217

220pF

C216

27pF

Q201

2SA1037

R428

100

R425

1/4W

R408

(1/4W)

R232

560

R233

560

C508

560pF

R511

150

R503

J202

J203

C505

100nF

C506

100nF

Q507

2SB852

TX0203

D403

EX054

7V5

D410

EX054

7V5

D40

EX054

7V5

D408

EX054

7V5

D407

EX054

7V5

C501

470uF

(25V)

C523

1nF

C521

1nF

R504

3 K

R547

L501

P0271

R505

2K2

Q502

KSA 28A

TX0201

R244

33K

R210

1K5

D204

BBY40

DX0548

R464

220

C524

100nF

R240

220K

C225

10nF

(HB)

R1051

22K

C1030

330pF

R245

1K5

Q20

2SC2412

R241

100K

R242

10K

R243

10K

R510

8K2

L203

6,8uH

(CF)

R251

68K

R252

18K

R217

680

C534

1nF

FB501

LN0020

R420

L204

0.61uH

P022 BM

C205

470nF

C228

8.2pF

500V

(N1500)

R553

1.2

(1/3W)

XZ0101

C504

680nF

R421 75

R422 75

R423

C434

100nF

C435

100nF

D420

C5V6

EX0546

C528

10uF

(100V)

C221

22pF

C222

22pF

D507

C12

EX0554

D417

C6V2

EX0547

R416

22K

R410

22K

JF14

RTUNH013 BM

(MO)

GN0441

D1007

C5V6

EX0546

(F)

GN0505CE

CN2

CZ2107BM

L205

0.61uH

P022 BM

C507

4.7nF

(HB)

R462

18K

R203

R463

100

C223

33nF

C203

100nF

C224

10nF

(HB)

R215

10K

R248

C213 R226

C212

C533

10nF

C535

100pF

R235

15K

R236

5K6

D203

DX0551

LL4148

R234

100

R502

2K2

R518

1.5 Ohm

(2W)

C442

33pF

R536

(2W)

(LU)

C227

10nF

C226

10nF

R432

100K

R430

100

C408

10nF

C40

100pF

C411

100pF

D416

C6V2

EX0547

R460

18K

D205

DX0045

R1060

12K

C215

470uF

(10V)

D421

4V7

EX0544

D405

EX054

7V5

R211

D406

EX054

7V5

C206

2.2uF

R434

D1008

C5V6

EX0546

R208

R20

3K3

R436

XZ0112

(1/3W)

IC501

IX1786

IC201

TDA4470

IX1671BM

SIF 1

SIF 2

IS 3

GND 4

SAGC 5

VIF 6

VIF 7

VAGC 8

GND

AGC 10

RFAGC 11

VOUT 12

PLL

AFC

VCO

AFC

OFS

SIF2

ST 13

L/L' 14

SF202

C0286BM

K 356M

SF201

K3 53M

C0278BM

C436

100nF

C21

1uF

R246

220K

R535

6K8

R247

CF202

C0020

C211

10uF

R220

47K

R437

470

R507

8K2

R548

6K8

C218

100uF

(10V)

C20

100uF

(16V)

R501

150

1/2W

C214

10nF

SF203

L 354M

C028 BM

D411

C5V6

EX0546

C207

10nF

IC202B

BA103 3

IX1556BM

IC202A

BA103 3

IX1556BM

C444

68pF

C445

68pF

C446

68pF

R25

4K7

RTV servis Horvat

Tel: ++385-31-856-842

Tel/fax: ++385-31-856-139

Mob: 098-788-319

www.rtv-horvat-d .hr

81GF-66E CRT MODULE SCHEMATIC DIAGRAM.

Page 23

SVM

GND

+5V

SENS

GND

+12V

REALIZADO VERI

Q854

TX0142

BC547

R861

1K5

R1801

220

R882

100

R881

R5433

100

R857

100

R86

100

R855

R867

Q852

TX0142

Q853

TX0142

Q855

TX0143

Q858

TX0143

Q857

TX0142

Q856

TX0142

Q85

TX0142

Q860

TX0142

Q861

TX0143

C85

100nF

C856

220nF

Q5410

TX0142

R854

470

R864

470

R874

470

R5438

R543

C8 2

100pF

C8 3

100pF

R5440

C8 1

100pF

D86

DX0045

(K)

GN0841CE

R1617

2K2

R1624

100

R1622

470

R1621

100

(1W)

R1623

100

(1W)

GN0241

(B)

GN0341

Q1603

BC547

Q1604

BC557

R860

220

R873

220

R886

220

L1603

47uH

(DF)

R1620

10K

R1618

100K

R1616

100K

R1615

D1607

C2V4

EX0400

D868

C5V6

EX040

+VS

-VS

IC1601

IX15 6BM

R161

47K

C1612

220uF

(25V)

R858

C1608

10uF

(16V)

C863

10uF

(16V)

R870

R885

C160

10uF

(16V)

C1613

220uF

(25V)

C854

10pF

C857

10pF

C855

10pF

C5416

10pF

C1611

1nF

C1610

100nF

234567

81GF-66E

CRT MODULE SCHEMATIC DIAGRAM.

Page22

H.V.

27.5 KV

V1012CE

FOCUS

(L3)

+200V

GND

+140V

+13V

-13V

+12V

GND

+12V

-12V

N.C.

+12V

GND

SHARP

ELECTRONICA ESPANA S.A.

NOMBRE CODIGO

ESCALA

MODELO

FECHA REVISIONES N

FECHA

A-3

UN T K 7 BMV

07-03-2000

6 3

PLACA T.R.C.

81GF66E

ERIFICADO APROBADO

561

07-02-2000 Hasta INFO

C880

33nF

(250V)

D861

DX0501

D862

DX0501

D863

DX0501

D864

DX0045

R862

R865

3K3

R85

100

C852

10nF

R853

22K

C853

1000uF

(16V)

R8 5

D5408

DX0045

D540

DX0045

R5427

2K2

Q5407

A1837

IC851

TDA6111Q

IC852

TDA6111Q

Q5408

C47 3

68LPF350X

R856

(1/4W)

D851

DX0045

D852

DX0045

C887

220uF

(16V)

R5435

220

R5431

1K2

5433

5410

0142

Q5411

TX0142

Q5412

TX0143

Q5414

BC635

P653

M0017CE

R880

68K

(2W)

R883

68K

(2W)

R884

68K

(2W)

R850

C881

560pF

C883

560pF

R851

R852

D5410

R5415

R5416

82K

R5418

82K

R5417

R541

D5403

R5420

3.3

(1/4W)

R887

330

R888

680

(1/2W)

R8 1

680

(1/2W)

R88

330

R8 2

330

R8 4

680

(1/2W)

FB850

FB851

FB852

C5422

47nF

R5445

150

R5425

2K7

(2W)

Q851

A1246

C885

560pF

Q5405

TX0111

C5420

470nF

C861

5pF

C865

7pF

(H)

GN0541CE

(SVM)

GN0341CE

(MO)

GN0441

C5408

1nF

(500V)

R863

1K5

R868

1K5

R866

1K5

R5442

R5444

R5443

C5405

220nF

R5432

C8 0

22nF

D5411

C13

EX0418

D866

C5V1

EX0408

D865

C5V1

EX0408

D867

C5V1

EX0408

R5441

330

(1/2W)

L864

47uH

C862

7pF

R5424

(2W)

C5424

68nF

C540

1,2nF

R5436

100

R5437

1R0

(1/2W)

(Q)

GN0441

C8 4

1uF

C882

33nF

(250V)

C868

100uF

(250V)

C851

47uF

(16V)

R872

10K

C5426

10uF/16V

R5448

220

Q5415

BC635

C871

10nF

R5434

1K5

R5421

3.3

(1/4W)

C850

330uF

(16V)

D871

7 C13V

R5446

C5425

47uF/16V

R544

1R0

IC850

TDA6111Q

Q5406

TX0135

C5407

10nF

R876

10K

C5418

47uF

(16V)

C86

10nF

KZ015JCE

C5421

470nF

C541

10uF

(50V)

R875

10K

C874

10nF

C884

33nF

(250V)

C877

10nF

C5414

22uF

(160V)

5416

0pF

8 9 10 11 12 13 14

81GF-66E

Y(A)

GN1285

10 X 100

Y(B)

12 X 100

GN01285

123

REALIZADO VERIFI

RES1

CLK

AVI

VI1

VI3

VI4

CLK

FB1FB1

VI1

FB1

VI3

VI2

VI4

RES1

DUM

VIDEO

AVI

VI2

SCL

SDA

SCL

RES

SDA

GND

RES

FBM

GND

+5V

+3.3V

+5V

+3.3V

+5V

R6014

R6016

R6018

R601

R6013

R6015

R6017

R6012

R6011

R6010

R600

R6008

C6081

220pF

Q6021

2SC2412

R6100

100K

R6104

4M7

L6001

3.3uH

L6002

3.3uH

L6010

3.3uH

C6074

100nF

D6007

DX0551

Q6024

2SA1037

R6103

10K

C6110

3 nF

R6106

68K

D6010

DX0551

R6088

10K

R6101

100K

Q6023

2SC2412

R6102

330K

R60 6

220 R60 7

100

Q6022

2SA1037

R60 8

330

L6005

1uH

R6030

100

C6021

22uF

(16V)

C6022

22nF

R6031

100

L6004

10uH

C6011

100nF

C6066

100nF

R60 5

100

R6087

100

C6013

100nF

C600

10uF

(16V)

Q6006

2SC2412

L6003

3.3uH

R6004

220

R6117

100K

R6118

100K

R6080

100

R6081

100 C6042

100nF

C6043

150pF

(CH)

C6050

150pF

C6057

150pF

(CH)

C6063

56pF

(CH)

X6001

20.25MHz

B021 BM

C6065

10uF

(16V)

C6008

100nF

C6031

3.3pF

C602

10nF

C6053

330nF

C6054

330nF

R6003

C603

330nF

C6040

330nF

R6001

R6002

C6046

330nF

C6047

330nF

C6060

1nF

R6071

R6072

R6073

R6074

L6008

3.3uH

L6013

3.3uH

L6014

3.3uH

L6015

3.3uH

L6017

3.3uH

C6037

47nF

C6026

1n5

C6055

330pF C605

330pF

C6061

330nF

C6062

330nF

C6070

150pF

L6012

3.3uH

C6032

3.3pF

L600

3.3uH

R6107

560K

C6051

1n5

C6052

220nF

C6038

3 0pF

C6036

47nF

IC6001

VPC3230

IX1790BM

ASGF

VSUPCAP

VSUPD

GNDD

GNDCAP

SCL

SDA

RESQ

TEST

VGAV

YCOEQ

FFIE

FFWE

FFRSTW

FFRE

FFOE

CLK20

GNDPA 25

VSUPPA 26

LLC2 27

LLC1 28

VSUPLLC 2

GNDLLC 30

Y7 31

Y6 32

Y5 33

Y4 34

GNDY 35

VSUPY 36

Y3 37

Y2 38

Y1 3

Y0 40

C7 41

C6 42

C5 43

C4 44

VSUPC 45

GNDC 46

C3 47

C2 48

C1 4

C0 50

GNDSY 51

VSUPSY 52

INTLC 53

AV0 54

FSY 55

MSY 56

VS 57

FPDAT 58

VSTBY 5

CLK5 60

NC 61

XTAL1 62

XTAL2 63

ASGF 64

GNDF

VRT

I2CSEL

ISGND

VSUPF

VOUT

CIN

VIN1

VIN2

VIN3

VIN4

VSUPAI

GNDAI

VREF

FB1IN

AISGND

IC6002

SDA9400

IX1681BM

YOUT5 1

VSS1 2

YOUT4 3

YOUT3 4

YOUT2 5

YOUT1 6

YOUT0 7

VSS1 8

VDD1

UVOUT7 10

UVOUT6 11

UVOUT5 12

UVOUT4 13

UVOUT3 14

UVOUT2 15

UVOUT1 16

UVOUT0 17

INTERL 18

TEST 1

SCL 20

SDA 21

VIN 22

HIN 23

VSS1 24

VDD1 25

CLKOUT1 26

X2 27

X1/CLK2 28

SYNCEN 2

RESET 30

UVIN0 31

UVIN1 32

YIN5

48 YIN4

47 YIN3

46 YIN2

45 YIN1

44 YIN0

43 VSS1

42 VDD1

41 UVIN7

40 UVIN6

3 UVIN5

38 UVIN4

37 VSS2

36 VDD2

35 UVIN3

34 UVIN2

YOUT6

64 YOUT7

63 HREF

62 VOUT

61 HOUT

60 VDD2

5 VSS2

58 VDD2

57 VDD1

56 VSS1

55 CLK1

54 VDD2

53 VSS2

52 VDD2

51 YIN7

50 YIN6

R6075

C6027

10uF

(16V)

C6056

330pF

C6012

100nF

R6022

C6028

47nF

C6010

68nF

C6058

330pF

C6001

68nF

R6025

C6002

1n5

C6025

3 0pF

C6030

470uF

(6.3V)

C6041

100nF

C6005

220nF

R6023

C6034

470uF

(6.3V)

R6026

R6082

100

C6004

68nF

C6007

1n5

R6027

R6021

R6028

R6084

R6083

C6048

100nF

R602

C604

100nF

R6020

C6033

10nF

C6035

10uF

(16V)

R6024

R60 2

C610

1uF

C6306

150pF

R60

R6105

22K

FB6208

(TQ)

FB6206

(TQ)

FB6207

FB6205

X6002

27 MHz

B0242BM

C6045

27pF

C6044

27pF

JF1

C6006

10uF

(16V)

C6085

33pF

C6084

2,2nF

234567

Page 25

7295 DIGITAL MODULE SCHEMATIC DIAGRAM.

81GF-66E

3456

Y(C)

GN1285

234

GND

SENS

+5V

SHARP

ELECTRONICA ESPANA S.A.

NOMBRE CODIGO

ESCALA

MODELO

FECHA REVISIONES N

FECHA

A-2

UN T K 7 BMV

22-03-2000

Module Digital

81GF66E

VERIFICADO APROBADO

VPROT

HFB

DUM

VIDEO

HFB

VPROT

VERT+

FBM

PWM2

HOUT

SCL

SDA

VERT-

RES

HOUT

PWM2

RES

SDA

VERT-

SCL

+5V

+5V +3.3V

+5V

(RGB)

GN0442

L6006

3.3uH

C601

15nF

R6043

22K

R6042

2K2

C6020

15nF

C6015

100nF

C6017

22nF

R603

4K7

R6086

1M C6078

1uF

D6008

DX0551

D6005

DX0551

R604

R6037

5K6

R60 0

15K

R606

15K

L6007

3.3uH

C6023

22uF

(16V)

Q6008

2SC2412

C6073

33pF

C6024

100nF

R6048

10K

R6307

10K

R6031

100

C6014

3.3uF

D6002

DX0551

D6006

C24

EX0561

+VS

-VS

IC6006

IX1556

BA103 3

R6032

10K 1%

C607

22nF

(FZ)

R6051

270

C6068

1nF

R6052

820

(1%)

IC6005

TL431

C606

100uF

(16V)

R6050

2.2

(1/2W)

R6005

820

R6006

820

R6007

820

R6068

680

R6127

22K

R608

1K2

Q6025

2SC2412

R6124

R6125

220

R6041

180

C6064

1nF

D6014

5V6

R6128

R612

Q6003

BC635

D6003

DX0551

R6036

47K

R6038

47K

C6018

15nF

C6016

22uF

(16V)

D6004

C4V7

EX0544

D6001

C4V7

EX0544

R6035

X1003

5MHz

B0236BM

R6040

1K2

C6072

33pF

R6054

2K7

(1%)

Q6026

2SC2412

C6067

100nF

IC6003

DDP3310-E4

IX1788BM

GNDO 27

VSUPO 28

VRD/BCS 2

FBLIN1 30

RIN1 31

GIN1 32

BIN1 33

FBLIN2 34

RIN1 35

GIN2 36

BIN2 37

TEST 38

RESQ 3

PWM1 40

PWM2 41

HCS 42

C0 43

BOUT 26

GOUT 25

ROUT 24

SVMOUT 23

XREF 22

EW 21

VERT- 20

VERT+ 1

GNDM 18

SENSE 17

RSW1 16

RSW2 15

CM0 14

CM1 13

SELF 12

PROT 11

SAFE 10

VSUPD

GNDD

LLC2

HFLB

HOUT

8FIFORWR

7FIFOWR

6FIFORD

5FIFORRD

4VS2

3GNDP

2VSUPP

1SCL

68 SDA

67 XTAL1

66 XTAL2

65 VS

64 HS

63 LLC1

62 Y7

(KA)

GN0842

C6083

150nF

(FZ)

FB6210

(TQ)

FB6211

(TQ)

FB6212

(TQ)

D6013

EX0540BM

D6015

(TQ)

R6126

89 10 11 121314

Page 24

7295 DIGITAL MODULE SCHEMATIC DIAGRAM.

81GF-66E

234567

CENTRAL SPEAKER / SUBWOOFER UNIT SCHEMATIC DIAGRAM.

+5V

+16V

-16V

+16V

-16V

+5V

-16V

+16V

SUBWOOFER

MUTE

R1325

150

C1357

560pF

R1316

15K

IC1303

TDA7481

Q1707

2SC2412

C1361

100nF

C1360

100uF

(25V)

C1355

100nF

C1358

470nF

(FZ)

C1356

4.7nF

C1350

100nF

C134

100uF

(25V)

C1348

100pF

L1306

P0278

68uH

R1324

12K

IC1302

TDA7480

C1347

100nF

C1303

1000uF

(25V)

C1301

1000uF

(25V)

R1717

47K

L1305

P0285

50uH

R1318

150

C1334

100nF

C1333

100nF

C1343

560pF

C133

100nF

C1345

100nF

C1338

100pF

C1337

4.7nF

C1344

470uF

(25V)

R1320

10K

C1353

1nF

R1317

10K

R1322

10K

R1301

2K2

SPW

GN0241

SPC

GN0241

+VS

-VS

IC1301

BA4558F

R132

47K

R1327

47K

R1328

47K

R1330

6K8

R1331

100K

GN0685CE

GN0341CE

C1354

2.2uF

50V

C1365

22uF

C1364

22uF

L1302

K0000

L1301

K0000

L1308

K0000

L1307

K0000

C1367

47nF

C1366

680nF

1uF

R1321

10K

R1332

680

R1333

680

R1334

33K

R1314

R1323

C1342

100nF

C1351

100nF

C1340

330nF

C1346

470nF

C1336

1nF

C1335

47uF

(25V)

C1341

2.2uF

C1353

3,3nF

R1335

47K

81GF-66E

A/V FRONT SCHEMATIC DIAGRAM.

345 54321

(F)

0505

(FF)

0505

C1602

470pF

2Kv

C1601

330pF

2Kv

T1602

NZ0575BM

R-Z0001BM

C1603

1000 pF

2Kv

FOC

FOC IN

R1602

3K3

R1603

3K3

R1601

180.

1/2W

D1601

EX0431BM

D1602

EX0421BM

(EW)

GN0241

Q1601

TIP32

DINAMIC FOCUS SCHEMATIC DIAGRAM.

12 3

1231212

OUT L

OUT R

GND

OUT R

OUT L

GND

CHROMA IN

GND

LUMA IN

L318

3.3uH

C428

1nF

C42

1nF

J401

0015B

R316

3 0

C336

10nF

CN4

JAKJ0047CEZZ

R44

(1/4W)

L317

3.3uH

(DF)

(HD)

GN0341 (SS)

GN0341

(CC)

GN0241

(FV)

GN0241

C337

10nF

R317

3 0

234567

81GF-66E

234567

81GF-66E BLOCK DIAGRAM

1 1

2 2

3 3

4 4

+16V AUDIO

-16V AUDIO

+148V

Q 713

Q 704

Q 706

Q 705

Q 707

+5V DIGITAL

T 701

POR 701

ON/ST-BY

POWER ST-BY

CONTROL

+5V

Micro Proc. COMUNICATION

MAIN POWER

M 6701

DETECTOR

+ CH - + VOL -

TH 201

TUNER

SAW

SF 201

SAW

SF 203

SF 202

SAW

IC 201

TDA 4470

IC 401

HEF 4053

SWITCH

IC 1001

ST10 R 272 L

Micro Proc.

IC 1002

M27C801

EPROM

IC 2401

SDA 5275S

MT TEXT

+16V

-16V

+16V

-16V

Q 304

Q 303

Q 302 AUDIO

PROTECTOR

Q 305

Q 306

MUTE

+16V

-16V

MSP 3410 D

IC 305

Q 901

Q 902

Q 903

Q 905

Q 904

Q 906

Q 908

Q 907

Q 909

Q 5410

Q 5411

Q 5412

Q 1603

Q 1604

C.R.T.

H.V.

VERT.

DEFLEX.

COIL

HORIZ.

DEFLEX.

COIL

BA 4558

DRIVER TDA 7480

VERTICAL

POWER

Q 502

Q 503

VERTICAL

FLYBACK

+13V

-13V

H.V.

+145 V

HEATER

SVM

ROTATION COIL

FM AUDIO

CVBS

PERIPHERICS

AUDIO L/R

M3L

ROTATION

COIL

SVM

ROTATION

COIL

RGB

V. OUT

Q 506

E/W

EMULATOR

Q 601

POWER UNIT

Q603

Q605

Q604

Q602

H. DRIVE

Q 501 E/W

DRIVE

H. OUT

H.OUT

HORIZ. DEFLECTION

+13 V

-13 V

FOCUS

FOCUS 2

SCREEN

F.B.T.

E/W

OUT

H.OUT

E/W

OUT

E/W

OUT

81GF-66E BLOCK DIAGRAM

Micro Proc. COMUNICATION

RGB

21 PINS

AV-2

S-VIDEO

21 PINS

RGB

AV-FRONT

21 PINS

AV-1

CRT MODULE

CENTRAL

SPEAKER

MODULE

DIGITAL MODULE 7295

IC 6001

VIDEO

PROCESSOR

IC 6002 IC 6003

VPC 3230

DIGITAL SCAN

CONVERTER +

PIP PROCESSOR

SDA 9400 DDP 3310-E4

DISPLAY

DEFLECTION

PROCESSOR

IC 2402

DRAM

OSD

C 1602

C 1601

E/W

OUT

C 1603

DINAMIC FOCUS MODULE

C705

IC 850

TDA 6111A

IC 851

TDA 6111A

IC 852

TDA 6111A

81GF-66E 0028JB00 00

BLOCK DIAGRA 81GF-66E.

11onday, July 10, 2000

Title

Size Document Number Rev

Date: Sheet

IC 705

IC 706

IC 701

IC 704

IC 703

IC 702

icro Proc.

S 6701

PTC

SENSOR

Q703 DRIVER

Q701

ADG COIL

D 1101

F6701

IC 301

IC 302

AUDIO OUT L

AUDIO OUT R

CENTER

IC1302

IC 304

HEADPHONE CONECTOR

IC 501

IC 502

IC 503

D 605

Q 6101

T 1602

D 701...D 704

R742

C770

Q702

CESH

R741

I2C

IC2

I2C

81GF-66E

ARK *: SPARE PARTS DELIVERY SECTION

PARTS DESCRIPTION *

SN CODE EX CODE

PICTURE TUBE

VB76ERF3144*N CRT 32" FLAT W76ERF031X044PH S CU **

RCILG0418B ZZ Degaussing Coil 81GF66E S AS AZ

PWB-A DUNTK7293CJV2 OTHER UNIT 81GF66EDE-F/NL S -- --

PWB-B DUNTK7269B V3 TRC UNIT 81GF66E S -- --

PWB-C DUNTK7295B V4 DIGITAL ODULE UNIT (VPC 3230) 81GF

S-- --

PWB-D DUNTK7304B V1 AUDIO A PLIFIER UNIT 81GF66E S -- --

PWB-E DUNTK7305B V0 FRONTAL POWER UNIT 81GF66E S -- --

PWB-F DUNTK7306B V0 FRONTAL A/V UNIT 81GF66E S -- --

PWB-G DUNTK7314B V0 DINA IC FOCUS + E/W UNIT 81GF66E S -- --

PWB-A MOTHER UNIT

TUNER

TH 0201 RTUNH0139B ZZ TUNER CTT5020E S AP BA

INTEGRATED CIRCUITS

IC 0050 RH-IX1786B ZZ C.I. TDA 7480L THO SON S AD AL

IC 0201 RH-IX1671B ZZ IC TDA4470- FL TE IC S D S AF AQ

IC 0202 RH-IX1556B ZZ IC BA10393 S0P8 S D ROH S AC AD

IC 0203 RH-IX0037CEZZ IC UPC574J 33V NEC S AF AD

IC 0301 VHITDA7480/-1 IC TDA7480 THO SON S AF AK

IC 0302 VHITDA7480/-1 IC TDA7480 THO SON S AF AK

IC 0304 VHI 5218L//-1 IC 5218L S AA AD

IC 0305 RH-IX1789B ZZ CI SP3410D-PP-C5 ICRONA S AS BD

IC 0401 RH-IX1602B ZZ IC HEF4053 S D S AA AD

IC 0502 VHIBA4558F/-1 IC BA4558F-E2 ROH OP-A P S AA AC

IC 0503 RH-IX1556B ZZ IC BA10393 S0P8 S D ROH S AC AD

IC 0701 VHIPST529C2-1 IC PST529C2 ITSU I S AD AD

IC 0702 RH-IX1646B ZZ IC ST6203B S D SGS-THO SON S AF AL

IC 0703 RH-FX0106B ZZ OPTOCOUPLER 0C8106SR2V- S AC AD

IC 0704 RH-FX0106B ZZ OPTOCOUPLER 0C8106SR2V- S AC AD

IC 0705 RH-FX0106B ZZ OPTOCOUPLER 0C8106SR2V- S AC AD

IC 0706 RH-IX1674B ZZ IC KA431AZ SA SUNG S AA AD

IC 0707 RH-IX1704B ZZ IC L4978 THO SON S AD AK

IC 0708 RH-FX0111B ZZ OPTOCOUPLER TLP165J TOSHIBA S AB AE

IC 1001 RH-IX1686B ZZ IC ST10R272L THO SON S AK AW

IC 1002 QSOCZ0115SC32 SOCKET IC 32 PIN S AA AB

IC 1003 RH-IX1603B ZZ NV X24645S8 XICOR S D S AS AV

IC 1004 RH-IX1603B ZZ NV X24645S8 XICOR S D S AS AV

IC 1005 VHIPST529C2-1 IC PST529C2 ITSU I S AD AD

IC 2401 RH-IX1709B ZZ IC SDA5275-3 TXT NIVEL2,5 S AT BD

IC 2402 RH-IX1656B ZZ RA D K 44C1000DT-6T SA SUNG S AR AY

TRANSISTORS

Q 0201 VS2SA1037KQ-1 TRT BC807 S D S AA AA

Q 0209 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0302 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0303 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0304 VS2SA1037KQ-1 TRT BC807 S D S AA AA

Q 0305 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

PART LIST

REPLACEMENT PARTS

Replacement parts which have special safety characteristics are identi-

fied in this manual. Electrical components having such features are iden-

tified by

in the Replacement Part List.

The use of a substitute replacement part which does not have the same

safety characteristics as the factory recommended is not permitted.

Replacement parts not shown in this service manual may create shock

fire, or other hazards.

HOW TO ORDER REPLACEMENT PARTS

To have your order completed promplty and corretly please supply the

following information.

1. MODEL NUMBER

3. PART NO.

5. CODE

2. REF. NO.

4. DESCRIPTION

6. QUANTITY

PARTS DESCRIPTION *

SN CODE EX CODE

Q 0306 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0403 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0404 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0405 VS2SA1037KQ-1 TRT BC807 S D S AA AA

Q 0406 VS2SA1037KQ-1 TRT BC807 S D S AA AA

Q 0408 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0501 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0502 RH-TX0201B ZZ TRT KSA928A SA GUNG S AA AC

Q 0503 RH-TX0172B ZZ IRFR010T SA SUNG N S AD AE

Q 0505 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0506 RH-TX0219B ZZ TRT OSFET TOSHIBA 2SK2963 S D S AA AD

Q 0507 RH-TX0203B ZZ TRT 2SB852 ROH S AA AB

Q 0602 RH-TX0192B ZZ TRT KSC2500 SA SUNG S AB AC

Q 0603 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0604 VS2SA1037KQ-1 TRT BC807 S D S AA AA

Q 0605 RH-TX0192B ZZ TRT KSC2500 SA SUNG S AB AC

Q 0606 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0702 RH-TX0182B ZZ TRT 2PD602AR PHILIPS S AA AB

Q 0703 RH-TX0151B ZZ TRT 2SD2391Q S D ROH S AC AD

Q 0708 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0709 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0710 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0711 RH-TX0106B ZZ TRT BC547 S AA AB

Q 0712 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 0714 VS2SA1037KQ-1 TRT BC807 S D S AA AA

Q 0715 RH-TX0215B ZZ OSFET 2SK2715 ROH S AA AE

Q 0717 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 1001 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 1002 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 1003 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 1004 VS2SA1037KQ-1 TRT BC807 S D S AA AA

Q 1005 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 1006 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 1007 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

Q 2401 VS2SC2412KQ-1 TRT 2SC2412 ROH S AA AA

DIODES

D 0203 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0204 RH-DX0548B ZZ DIODE VARICAP BBY40 S AC AE

D 0205 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0206 RH-DX0045B ZZ DIODE 1N4148 S AA AA

D 0301 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0302 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0303 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0304 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0305 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0401 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0402 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0403 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0404 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0405 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0406 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0407 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0408 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0409 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0410 RH-EX0549B ZZ ZENER DIODE TZ C7V5 TFK S D S AA AA

D 0411 RH-EX0546B ZZ ZENER DIODE TZ C5V6 TFK S D S AA AA

D 0412 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0413 RH-EX0584B ZZ ZENER DIODE TZ B6V2 TFK S D 2% S AA AA

D 0414 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0415 RH-EX0547B ZZ ZENER DIODE TZ C6V2 TFK S D S AA AA

D 0416 RH-EX0547B ZZ ZENER DIODE TZ C6V2 TFK S D S AA AA

D 0417 RH-EX0547B ZZ ZENER DIODE TZ C6V2 TFK S D S AA AA

D 0419 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0420 RH-EX0546B ZZ ZENER DIODE TZ C5V6 TFK S D S AA AA

D 0421 RH-EX0544B ZZ ZENER DIODE TZ C4V7 TFK S D S AA AA

D 0422 RH-EX0419B ZZ ZENER DIODE BZX79C15V 0,4W S AA AB

D 0423 RH-EX0417B ZZ ZENER DIODE BZX79C12V S AA AA

D 0502 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0503 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0504 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0506 RH-DX0551B ZZ DIODE LL4148 TFK S D S AA AA

D 0507 RH-EX0554B ZZ ZENER DIODE TZ C12 TFK S D S AA AA

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