Philips FPF42C128135UA 52 User Manual

Colour Television

Module

FHP PDP Repair Manual

FPF42C128135UA-52 (42” A4)

Contents

1. Technical Specifications

2. Safety Instructions, Warnings, and Notes

3. Directions for Use

Page

4. Mechanical Instructions

5. Service Modes, Error Codes, and Fault Finding 10

6. Block Diagrams, Test point Overview, and Wave

Forms

7. Circuit Diagrams and PWB Layouts

8. Alignments

9. Circuit Descriptions and Abbreviation List

10. Spare Parts List

11. Revision List

retrieval system or transmitted, in any form or by any means, electronic,

mechanical, photocopying, or otherwise without the prior permission of Philips.

Published by MW 0667 BG CD Customer Service

Printed in The Netherlands

Subject to modification

EN 3122 785 16400

Technical Specifications

FHP PDP

EN 3

1.3 Chassis overview

㪯㪄㪪㪬㪪

㪰㪄㪪㪬㪪

㪧㪪㪬

㪣㪦㪞㪠㪚

㪘㪙㪬㪪㪄㪣

㪘㪙㪬㪪㪄㪩

㪘㪛㪤㪌㪘㪛㪤㪍㪘㪛㪤㪎㪘㪛㪤㪏

㪘㪛㪤㪈㪘㪛㪤㪉㪘㪛㪤㪊㪘㪛㪤㪋

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Figure 1-5 PWB locations

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Figure 1-6 Connector positions

Technical Specifications

EN 4

FHP PDP

1.4 Some connector layouts

Pin No.

Signal name

Pin No.

Signal name

RA-

RA+

GND (LVDS)

SCL

RB-

GND

RB+

SDA

RC-

GND (LVDS)

CPUGO

PDPGO

IRQ

RC+

RXCLKIN-

RXCLKIN+

RD-

PDWN

GND (LVDS)

GND

RD+

RE-

RE+

GND

G_16400_035.eps

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Figure 1-7 LVDS connector CN1 Logic Board

Pin No.

Symbol

Vcc

GND

Vpr2

GND

Vra

Vrs

VCEGO

VSAGO

PFCGO

G_16400_036.eps

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Figure 1-8 Power supply connector CN6 Logic Board

Pin No.

Symbol

N.C.

Vcc

GND

N.C.

G_16400_037.eps

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Figure 1-9 Power supply connector CN23 X-SUS Board

Safety Instructions, Warnings, and Notes

FHP PDP

EN 5

2. Safety Instructions, Warnings, and Notes

LED is positioned at the right side of IR-receiver eye of the

E-box. Take into account that receiver-LED on DST is

positioned not in the middle but at the left side. Point

corresponding LEDs to each other. In case the amount of

Infrared produced by the screen pollutes the

2.1 Safety Instructions h

It is not allowed to operate the FTV-set without glass plate. One

function of this glass plate is to absorb Infrared Radiation.

Without this glass plate the level of Infrared Radiation produced

by the plasma display could damage your eyes.

communication, the set can be set in Stand-by-mode. Then

still the error-messages can be retrieved.

1. Safety regulations require that during a repair:

–

the set should be connected to the mains via an

isolating transformer (in this particular case a

transformer of ≥ 800 VA).

2.3.1 Notes on Safe Handling of the Plasma Display

–

safety components, indicated by the symbol h,

should be replaced by components identical to the

original ones.

Notes to Follow During Service

•

The work procedures shown with the Note indication are

important for ensuring the safety of the product and the

servicing work. Be sure to follow these instructions.

Before starting the work, secure a sufficient working space.

At all times other than when adjusting and checking the

product, be sure to turn OFF the main POWER switch and

disconnect the power cable from the power supply of the

display during servicing.

2. Safety regulations require that after a repair the set must

be returned in its original condition. In particular attention

should be paid to the following points.

•

–

Note: The wire trees should be routed correctly and

fixed with the mounted cable clamps.

The insulation of the mains lead should be checked for

external damage.

The electrical DC resistance between the mains plug

and the secondary side should be checked (only for

sets that have a mains isolated power supply). This

check can be done as follows:

•

To prevent electric shock and breakage of PC board, start

the servicing work at least 30 seconds after the main power

has been turned off. Especially when installing and

removing the power supply PC board and the SUS PC

board in which high voltages are applied, start servicing at

least 2 minutes after the main power has been turned off.

While the main power is on, do not touch any parts or

circuits other than the ones specified. The high voltage

power supply block within the PDP module has a floating

ground. If any connection other than the one specified is

made between the measuring equipment and the high

voltage power supply block, it can result in electric shock or

activation of the leakage-detection circuit breaker.

When installing the PDP module in, and removing it from

the packing carton, be sure to have at least two persons

perform the work white being careful to ensure that the

flexible printed-circuit cable of the PDP module does not

get caught by the packing carton.

When the surface of the panel comes into contact with the

cushioning materials, be sure to confirm that there is no

foreign matter on top of the cushioning materials before the

surface of the panel comes into contact with the cushioning

materials. Failure to observe this precaution may result in,

the surface of the panel being scratched by foreign matter.

When handling the circuit PC board, be sure to remove

static electricity from your body before handling the circuit

PC board.

•

unplug the mains cord and connect a wire between

the two pins of the mains plug;

set the mains switch to the on position (keep the

mains cord unplugged!);

measure the resistance value between the pins of

the mains plug and the metal shielding of the tuner

or the aerial connection on the set. The reading

should be between 4.5 MΩ and 12 MΩ;

switch off the TV and remove the wire between the

two pins of the mains plug.

•

–

The cabinet should be checked for defects to avoid

touching of any inner parts by the customer.

2.2 Warnings

ESD w

All ICs and many other semiconductors are susceptible to

electrostatic discharges (ESD w). Careless handling during

repair can reduce life drastically. When repairing, make sure

that you are connected with the same potential as the mass of

the set by a wristband with resistance. Keep components and

tools also at this same potential.

•

Be sure to handle the circuit PC board by holding the large

parts as the heat sink or transformer. Failure to observe

this precaution may result in the occurrence of an

abnormality in the soldered areas.

1. Available ESD protection equipment:

–

complete kit ESD3 (combining all 6 prior products -

small table mat) 4822 310 10671

–

wristband tester 4822 344 13999

•

Do not stack the circuit PC boards. Failure to observe this

precaution may result in problems resulting from scratches

on the parts, the deformation of parts, and short-circuits

due to residual electric charge.

2. Never replace modules or other components while the unit

is switched on.

3. When making settings, use plastic rather than metal tools.

This will prevent any short circuits and the danger of a

circuit becoming unstable.

Routing of the wires and fixing them in position must be

done in accordance with the original routing and fixing

configuration when servicing is completed. All the wires are

routed far away from the areas that become hot (such as

the heat sink). These wires are fixed in position with the

wire clamps so that the wires do not move, thereby

ensuring that they are not damaged and their materials do

not deteriorate over long periods of time. Therefore, route

the cables and fix the cables to the original position and

states using the wire clamps.

Perform a safety check when servicing is completed. Verify

that the peripherals of the serviced points have not

undergone any deterioration during servicing. Also verify

that the screws, parts and cables removed for servicing

purposes have all been returned to their proper locations in

accordance with the original setup

2.3 Notes

1. A glass plate is positioned before the plasma display. This

glass plate can be cleaned with a slightly humid cloth. If

due to circumstances there is some dirt between the glass

plate and the plasma display panel it is recommended to do

some maintenance by a qualified service employee only.

2. Never disconnect the power display cable when the set is

operating

3. With DST no failures (error-codes) can be red, when the

set is in Service-mode.

4. If DST reacts with "error 2", there is no communication

between the TV and the DST. Note that the IR-transmitter

•

Directions for Use

EN 6

FHP PDP

3. Directions for Use

Not applicable.

4. Mechanical Instructions

Notes:

4.1.2 X-SUS and X-BUS Circuit Boards

•

Figures below can deviate from the actual situation, due to

different set executions.

•

For more detailed instructions regarding the (dis)assembly

of the TV chassis that hold these PDPs, read the

corresponding TV Service Manual.

4.1 Board Swap Instructions

4.1.1 General

Before dismounting panels read notes below!

Caution when removing circuit board!

When removing the circuit board after the main power is turned

on/off, wait for at least one minute before starting to remove the

circuit board.

If the circuit board removal is started immediately after turning

off the main power, it can result in electric shock or damage to

the circuit due to residual electric charge.

Caution on handling the FPC connector!

To release the black lock lever of the connector, flip it up gently

in the middle with the nail of the thumb or forefinger, from the

side with the cable.

Never pinch the lock lever with fingers or tools. Doing so might

damage the lock lever.

G_16400_007.eps

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Figure 4-2 X-BUS and X-SUS board removal (1/2)

X-BUS

X-SUS

E_14580_025.eps

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Figure 4-1 Handling the FPC connector

G_16400_008.eps

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Figure 4-3 X-BUS and X-SUS board removal (2/2)

Remove the circuit boards by following the steps below. To

install the circuit boards, reverse the removal procedure.

1. Release the lock of the FPC connector [1] and unplug the

signal cable.

2. Unplug the connectors [2].

3. Unplug the 4 XFPC’s [3] on the X-BUS board.

4. Remove the fixing screws [4].

5. Release the white stand-offs [5] from the X-SUS board,

and from the top and bottom of the X-BUS board.

Mechanical Instructions

FHP PDP

EN 7

6. Remove the X-BUS board and the X-SUS board together.

Make sure that you do not touch the heat sink when removing

the Y-SUS board.

Threaded bush for

SDM-U board

4.1.3 Y-SUS Circuit Board

Adhesive side should be

against the IC of SDM-U

SDM-U board

Y-SUS board

Radiation Plate

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Figure 4-6 Radiation plate position

G_16400_009.eps

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Figure 4-4 Y-SUS board removal (1/2)

Y-SUS

G_16400_011.eps

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Figure 4-5 Y-SUS board removal (2/2)

Remove the circuit board by following the steps below. To

install the circuit board, reverse the removal procedure.

1. Release the lock of the FPC connector [1] and unplug the

signal cable.

2. Unplug the connector [2].

3. Remove the fixing screws [3].

4. Release the white stand-offs [4] from the Y-SUS board.

5. Pull out the Y-SUS board horizontally, in this way

unplugging the connectors [5].

6. Remove the Y-SUS board.

Make sure that you do not touch the heat sink when removing

the Y-SUS board.

Note: Make sure the radiation plate is positioned correctly. It is

located underneath the upper SDM, and the threaded bush

should sit in the hole of the radiation plate.

Mechanical Instructions

EN 8

FHP PDP

4.1.4 ABUS-L Circuit Board

4.1.5 ABUS-R Circuit Board

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G_16400_014.eps

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Figure 4-7 ABUS-L board removal (1/2)

Figure 4-9 ABUS-R board removal (1/2)

ABUS-R

ABUS-L

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G_16400_013.eps

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Figure 4-10 ABUS-R board removal (2/2)

Figure 4-8 ABUS-L board removal (2/2)

Remove the circuit board by following the steps below. To

install the circuit board, reverse the removal procedure.

1. Unplug the connector [1].

Remove the circuit board by following the steps below. To

install the circuit board, reverse the removal procedure.

1. Unplug the connector [1].

2. Remove the screws [2] fixing the ADMs.

3. Release the lock of the FPC connectors [3], and remove

the ADM flexible board.

2. Remove the screws [2] fixing the ADMs.

3. Release the lock of the FPC connectors [3], and remove

the ADM flexible board.

4. Release the lock of the FPC connector [4] and unplug the

signal cable.

4. Release the lock of the FPC connector [4] and unplug the

signal cable.

5. Unplug the connector [5].

6. Remove the screws [6] fixing the ABUS-R board.

7. Remove the ABUS-R board.

8. When installing the ABUS-R board, put the board in such a

position that it is locked by the tabs [7] before fixing it with

the screws.

5. Remove the screws [5] fixing the ABUS-L board.

6. Remove the ABUS-L board.

7. When installing the ABUS-L board, put the board in such a

position that it is locked by the tabs [6] before fixing it with

the screws.

Mechanical Instructions

FHP PDP

EN 9

4.1.6 LOGIC Board

Remove the circuit board by following the steps below. To

install the circuit board, reverse the removal procedure.

1. Unplug connectors [1].

2. Remove screws [2].

3. Remove the PSU.

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Figure 4-11 LOGIC board removal (1/2)

Logic

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Figure 4-12 LOGIC board removal (2/2)

Remove the circuit board by following the steps below. To

install the circuit board, reverse the removal procedure.

1. Unplug connectors [1].

2. Release the lock of the FPC connectors [2] and unplug the

signal cables.

3. Remove the screws [3] fixing the LOGIC board.

4. Remove the LOGIC board.

5. When installing the LOGIC board, put the board in such a

position that it is locked by the tabs [4] before fixing it with

the screws.

4.1.7 PSU Board

E_06532_032.eps

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Figure 4-13 PSU board removal

Service Modes, Error Codes, and Fault Finding

EN 10

FHP PDP

5. Service Modes, Error Codes, and Fault Finding

Index of this chapter:

5.1 Repair Tools

5.3 Process Flow

5.4 Repair Instructions

5.5 Defect Description Form

5.1 Repair Tools

To be able to repair the Plasma Display Panels on board level,

the following repair tools are available:

•

Special LVDS cable: T.B.D.

Foam buffers: 3122 785 90581.

E_14580_024.eps

250304

CN06

CN01

3k3

Figure 5-2 Foam buffers for FTV

Vpr

SDA

GND

SCL

I²C

Power Supply

5.2 Error codes

Compair

When an error causes the PDP to switch “OFF”, an error code

is put into an EEPROM on the Logic Board. You can read out

the contents of the error code memory with the ComPair tool.

CN06

I²C

5.2.1 How to Connect the ComPair Tool

Compair

G_16400_018.eps

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CN01

Logic Board

•

Carefully disconnect the LVDS cable from CN01 on the

Logic Board.

If necessary connect a PSU with a voltage of 3.3V to drive

the LOGIC board.

Connect the cable from the ComPair tool to connector

CN01 of the LOGIC board.

Figure 5-1 Extension cable kit ALiS PDP

•

Turn on the ComPair tool.

Launch the ComPair software.

Read out the error buffer.

5.2.2 Error Code Overview

Table 5-1 Error code table

Error code Detected by board

Error description

Suspected board(s)

X-SUS

Vxx power voltage is too high

Vxx power voltage is too low

Vex power voltage is too high

Vex power startup is faulty

Vey power voltage is too low

Vey power voltage is too high

Vey power startup is faulty

Temperature too high

X-SUS

Y-SUS

X-SUS

LOGIC

Y-SUS

LOGIC

Y-SUS

LOGIC

Y-SUS

LOGIC

Y-SUS

LOGIC

X-SUS

Y-SUS

X-SUS

Y-SUS

X-SUS

LOGIC

Y-SUS

LOGIC

X-SUS

Y-SUS

Vs power voltage is too high

Vs power startup is faulty

Ve power voltage is too low

Ve power voltage is too high

Ve power startup is faulty

Vw power voltage is too low

Vw power voltage is too high

Vw power startup is faulty

LOGIC

PSU

LOGIC

Y-SUS

Vw power current is too high (during operation) Y-SUS

Vs power voltage is too high (during startup) Y-SUS

LOGIC

Service Modes, Error Codes, and Fault Finding

FHP PDP

EN 11

the defective PDP, accompanied by a completely filled in

Defect Description Form (see figure “Defect Description Form

(DDF)“), in this flight case to EuroService. EuroService makes

sure the defect PDP is repaired and afterwards added to its

swap pool. The workshop makes the TV set complete by

building in the refurbished PDP. Afterwards the TV set is

returned to the customer.

5.3 Process Flow

The selected workshop receives the defect TV set and

investigates the PDP. Two possible solutions follow:

5.3.1 Advanced PDP Exchange (Actual Way-of-Working)

In case of:

5.3.2 Customized Repair

•

Glass broken,

Flex foil damaged,

Y-COM IC on flex foil is damaged, or

NVM on logic board defect: no communication with

ComPair

If the defect is not mentioned in 5.2.1, the workshop orders the

necessary spare parts, being boards, at EuroService. After

receipt the workshop swaps the concerning board and makes

the TV set complete by building in the PDP. Afterwards the TV

set is returned to the customer.

the procedure for repair is as follows:

A new PDP will be ordered at EuroService. They issue an RMA

number and ship a refurbished PDP from its swap pool in a

flight case to the workshop. After receipt, the workshop sends

PDP flow chart

(from 1st May 2003 onwards)

End user contacts dealer because his

plasma TV set is defective

Dealer requests VIP workshop

to contact end user

VIP workshop pays home visit to end user

and swaps defective TV set with a loan set

VIP workshop analyses the PDP

of the defective plasma TV set

PDP:

glass repair

YES

VIP workshop orders refurbished PDP

at EuroService

flex cable machine

needed

VIP workshop orders spare part(s)

being boards at EuroService

EuroService ships refurbished PDP from its

swap pool to VIP workshop in a flight case

EuroService ships spare part(s) with

next-day-delivery to VIP workshop

VIP workshop swaps PDP's

and makes plasma TV set complete

VIP workshop repairs PDP on board level

and makes plasma TV set complete

VIP workshop brings plasma TV set to

end user and swaps with loan set

VIP workshop brings plasma TV set to

end user and swaps with loan set

E_14580_027.eps

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Figure 5-3 PDP flow chart

Service Modes, Error Codes, and Fault Finding

EN 12

FHP PDP

5.4 Repair Instructions

5.4.1 General

In case of:

•

a broken glass panel,

a defective flex foil, or

a defective Y-COM IC on the flex foil

the PDPs need to be send back via the central repair procedure

of EuroService.

In other cases the Plasma Display Panels must be repaired on

board level.

5.4.2 42” A4 ALiS Plasma Display Panel

The involved Plasma Display Panel is:

Display type

Service code number

FPF42C128135UA-52

9322 235 43682

The available modules for these Plasma Display Panels are:

FHP code number

FPF33R-XSS0041

FPF33R-YSS0042

FPF33R-LGC0061

FPF33R-ABL0038

FPF33R-ABR0039

FPF33R-XBU0035

FPF29R-CBL001411

FPF29R-CBL001412

FPF29R-CBL001401

Service code number

9965 000 35647

9965 000 35648

9965 000 35646

9965 000 35649

9965 000 35650

9965 000 35651

9965 000 32669

9965 000 32670

9965 000 32668

9965 000 32671

9965 000 32672

9965 000 32673

Module description

X-SUS board

Y-SUS board

Logic board

A-BUS Left

A-BUS Right

X-BUS board

Signal Cable LOGIC-X-SUS

Signal Cable LOGIC-Y-SUS

Signal Cable LOGIC-ABUS-L

Signal Cable LOGIC-ABUS-R FPF29R-CBL001421

Power Cable X-SUS-Y-SUS FPF29R-CBL003601

Power Cable X-SUS-ABUS-R FPF29R-CBL003701

Remark:

1. If the LOGIC board is defective, the procedure mentioned

in figures "Logic Board Exchange (1 and 2)" must be used.

Service Modes, Error Codes, and Fault Finding

FHP PDP

EN 13

5.4.3 Fault Finding Flowcharts

Problem analysis procedure: PDP repair / board swap

PDP Repair procedure Board Swap

Horizontal bar?

Go to the

Vertical Line / Vertical Bar?

Go to the

"Vertical line/Vertical bar"

problem analysis procedure

The entire Screen does not light.

The set is going into protection.

(PSU is OK)

"Horizontal bar"

problem analysis procedure

Go to Step 1 in the procedure

Check the 3.3V Vpr2 on the PSU

and the Logic board

Logic Board Exchange

procedure.

Use of ComPair

Go to Step 2 in the procedure

Check if there is a short circuit

on boardsY-SUS, X-SUS, SDMs,

X-BUS, or XFPCs

Copy data from the

defective Logic board

Restore data into the new

board

Go to Step 3 in the procedure

Check if there is a short circuit on

boards ABUS-L, ABUS-R, or ADMs

Ship Out

Auto alignment procedure

Go to Step 4 in the procedure

Check if Vcc (5V), Vs (85V) and

Va (63V) are present

on PSU and boards

G_16400_025.eps

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Figure 5-4 Problem analysis procedure: PDP repair / board swap

Service Modes, Error Codes, and Fault Finding

EN 14

FHP PDP

Problem Analysis Procedure: The entire screen does not light

The entire screen does not light

Caution 1: never disconnect connectors or

remove boards when the mains plug is connected.

Allow discharge of power supplies before

Remove CN06

(on LOGIC Board,

PSU-LOGIC cable)

disconnecting connectors!

Caution 2: do not interchange boards between

different PDPs, this might damage your PDP

All the boards are connected

Connect the set to mains.

Switch “ON” the set

via the mains switch

Vpr2 (3.3 V) on

the PSU board is present?

PSU board is

defective

Turn “OFF” AC power

Connect CN 6 (LOGIC)

Turn on AC power

Replace the

Power Supply

Vpr2 (3.3 V) on

LOGIC board is

defective

the PSU board is present?

Disconnect the mains plug.

Remove the following power connections:

on X-SUS: CN23 (PSU -> X-SUS)

on X-SUS: CN26 (X-SUS -> ABUS-R)

on X-SUS: CN32 (X-SUS -> Y-SUS)

on ABUS-R: CN47 (ABUS-R -> ABUS-L)

Replace Logic Board

Follow the

“Logic Board Exchange” procedure

G_16400_026.eps

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Figure 5-5 Problem analysis procedure: the entire screen does not light

Service Modes, Error Codes, and Fault Finding

FHP PDP

EN 15

Short-circuit check on Boards and Power Supply Lines

Check with an ohmmeter if following

pins are shorted

X-SUS

X-SUS Board:

CN23 pins 3 - 4

CN23 pins 6 - 8

CN22 pins 10 - 13

are shorted?

CN23

[X-SUS - PSU]

CN22

[X-SUS - Y-SUS]

X-SUS board is

defective

-Vs

GND

(Switching circuit (power

supply) has a short-circuit)

GND

Vcc

GND

Y-SUS Board:

On Y-SUS board,

CN32 pins 1 - 4

CN32 pins 8 - 10

CN32 pins 10 - 13

are shorted?

Y-SUS board is

defective

(Switching circuit (power

supply) has a short-circuit)

Y-SUS

CN32

[Y-SUS - X-SUS]

GND

Remove SDM from the following

two connectors of Y-SUS:

CN34 and CN35

Vcc

GND

On SDM board,

A1-A2, B1-B2,

C1-C2, D1-D2,

are shorted?

SDM is defective

(PDP is defective)

-Vs

A2 A1

B2 C1 C2 D1 D2

On X-BUS board,

CN61 pins 1 - 9

are shorted?

Remove the 4 XFPCs

(disconnect CN63, CN64, CN65, CN66)

On X-BUS board,

CN61 pins 1 - 9

are shorted?

X-BUS board is

defective

PDP

is defective

End of analysis

G_16400_027.eps

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Figure 5-6 Short circuit check on boards and power supply lines (1/3)

Service Modes, Error Codes, and Fault Finding

EN 16

FHP PDP

ABUS-L board:

CN52 pins 1 - 3 or

CN52 pins 4 - 7

are shorted?

Remove ADM from the

following connectors.

CN 53, CN 54,

ABUS-L

CN 55, CN 56

ABUS-L board:

CN52 pins 1 - 3 or

CN52 pins 4 - 7

are shorted?

ADM is defective

(PDP is defective)

ABUS-L board is defective.

ABUS-R board

CN42 pins 1 - 3 or

CN42 pins 3 - 5

are shorted?

Remove ADM from the

following connectors:

CN 43, CN 44,

ABUS-R

CN 45, CN 46

ABUS-R board

CN42 pins 1 - 3 or

CN42 pins 3 - 5

are shorted?

ADM is defective

(PDP is defective)

ABUS-R board is defective.

Replace the defective part

G_16400_028.eps

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Figure 5-7 Short circuit check on boards and power supply lines (2/3)

Service Modes, Error Codes, and Fault Finding

FHP PDP

EN 17

Connect CN23 (X-SUS) and

CN32 (Y-SUS), and

give the “PDP-go” signal (*1)

When turning “ON” the PDP with PDP-go, refer to following procedure:

1. Connect the special LVDS cable (see paragraph “Repair Tools”)

between CN01 and CN06

2. Supply power to the PSU

Are Vcc (5V), Vs (85V),

and Va (63V) present on

the PSU board?

Logic board, or X-SUS board, or

Y-SUS board is defective

In case that Vs Power system or Va Power

system of X-SUS or Y-SUS is defective, Vcc

starts but goes down in a few seconds.

Turn “OFF” AC power

Connect SDM (with CN34 and CN35)

Give the “PDP-go” signal (*1)

On PSU board

Vcc (5V), Vs (85V)

exist ?

SDM or PDP is defective

Turn “OFF” AC power.

Connect CN 26 (X-SUS)

Give the “PDP-go” signal (*1)

Turn “OFF” AC power.

And remove ADMs from following connectors

CN43, CN44, CD45, CN46

PSU board

Va (63V) exists ?

Afterwards give the “PDP-go” signal (*1)

PSU board

Va (63V) exists ?

ABUS-R board is defective

Turn “OFF” the AC power.

Connect CN 47 (ABUS-R)

Give the “PDP-go” signal (*1)

ADM is defective

(PDP is defective)

Turn “OFF” AC power.

And remove ADMs from following connectors

CN53, CN54, CD55, CN56

PSU board

Va (63V) exists ?

Afterwards give the “PDP-go” signal (*1)

PSU board

Va (63V) exists ?

ABUS-L board is defective

ADM is defective

(PDP is defective)

End of analysis

Replace defective boards

(In case of Logic Board replacement:

Follow the “Logic Board Exchange”

procedure!)

G_16400_029.eps

310706

Figure 5-8 Short circuit check on boards and power supply lines (3/3)

Service Modes, Error Codes, and Fault Finding

EN 18

FHP PDP

"Vertical line/Vertical bar" problem analysis procedure

Vertical line / Vertical bar

–

LOGIC board ABUS-R/L

Signal cable is

defective

board signal cable has

abnormal appearance?

ADM is defective

(PDP is defective)

ADM flexible cable has

abnormal appearance?

When turning “ON” the PDP with PDP-go, refer to following procedure:

1. Connect the special LVDS cable (see paragraph “Repair Tools”)

between CN01 and CN06

Give the “PDP-go” signal (*1)

2. Supply power to the PSU

Tap lightly heat seal portion on

ADM flexible cable

One vertical line?

Any

changes?

Heat-melted junction is defective

(PDP is defective)

Panel address has open circuit or

ADM IC chip is defective

(PDP is defective)

Logic board is defective,

or ABUS-R board is defective,

or Signal cable is defective,

or loose contact of

Left half of the

panel does

not light?

CN02 (LOGIC) or CN41(ABUS-R)

Right half of the

panel does

not light?

Logic board is defective,

or ABUS-L board is defective,

or Signal cable is defective,

or loose contact of

Va (63V) exists on

RL41(resistor) on

ABUS-L board?

CN03 (LOGIC) or CN51 (ABUS-L)

Power cable (CN52 to CN47) is defective

or loose contact of CN47 (ABUS-R)

Replace defective parts

(1)

G_16400_030.eps

310706

Figure 5-9 Vertical line / vertical bar problem analysis procedure (1/3)

Service Modes, Error Codes, and Fault Finding

FHP PDP

EN 19

(1)

When turning “ON” the PDP with PDP-go, refer to following procedure:

1. Connect the special LVDS cable (see paragraph “Repair Tools”)

between CN01 and CN06

Is vertical bar

2. Supply power to the PSU

monochromatic?

Does the vertical bar

appear in left

half of panel?

Turn “OFF” the AC power

Replace ABUS-L board

Give the “PDP-go” signal (*1)

Normal?

ABUS-L board is defective

Turn “OFF” AC power

Replace LOGIC board

Give the “PDP-go” signal (*1)

Normal?

LOGIC board is defective

Turn “OFF” AC power

Replace LOGIC - ABUS-L signal cable

Give the “PDP-go” signal (*1)

Signal cable is defective

Normal?

ADM is defective

(PDP is defective)

Replace the defective parts

G_16400_031.eps

310706

(2)

(3)

Figure 5-10 Vertical line / vertical bar problem analysis procedure (2/3)

Service Modes, Error Codes, and Fault Finding

EN 20

FHP PDP

(2)

(3)

When turning “ON” the PDP with PDP-go, refer to following procedure:

1. Connect the special LVDS cable (see paragraph “Repair Tools”)

between CN01 and CN06

2. Supply power to the PSU

Turn “OFF” the main power

Replace ABUS-R board

Give the “PDP-go” signal (*1)

Normal?

ABUS-R board is defective

Turn “OFF” the main power

Replace LOGIC board

Give the “PDP-go” signal (*1)

Normal?

LOGIC board is defective

Turn “OFF” the main power

Replace signal cables LOGIC - ABUS-R

Give the “PDP-go” signal (*1)

Signal cable is defective

Normal?

ADM is defective

(PDP is defective)

Panel is defective

(PDP is defective)

Replace the defective parts

G_16400_032.eps

310706

Figure 5-11 Vertical line / vertical bar problem analysis procedure (3/3)

Service Modes, Error Codes, and Fault Finding

FHP PDP

EN 21

"Horizontal bar" problem analysis procedure

Horizontal bar

When turning “ON” the PDP with PDP-go, refer to following procedure:

1. Connect the special LVDS cable (see paragraph “Repair Tools”)

between CN01 and CN06

Turn “OFF” the main power

Replace the X-SUS board

Give the “PDP-go” signal (*1)

2. Supply power to the PSU

Normal?

X-SUS board is defective

Turn “OFF” the main power

Remove the X-SUS board

Put back the initial X-SUS board

Replace Y-SUS board

Give the “PDP-go” signal (*1)

Y-SUS board is defective

Normal?

PDP is defective

Replace the defective parts

G_16400_033.eps

310706

Figure 5-12 Horizontal line problem analysis procedure

Remark: Do not interchange boards between different PDPs,

this might damage your PDP

Service Modes, Error Codes, and Fault Finding

EN 22

FHP PDP

Logic Board Exchange (1)

1. Copy NVM Data from defective Logic Board

Remove the Small Signal Board

Disconnect the LVDS cable from CN01 and

the power cable from CN06 of the Logic Board

Connect the FHP A4 Service cable to CN01

and CN06 of the Logic Board. Reconnect the power

cable from the PSU to the FHP A4 Service cable on the

CN06 side of the Logic Board. Connect the ComPair

cable to the CN01 side of the FHP A4 Service cable.

Plug in the Mains cable to the Mains filter and the

screen will start up in Stand alone mode.

Set will go into protection or into stand-by

Click the link in ComPair to open the Logic Board

exchange window

Click the "On" button.

In the title bar the module type will appear

Click button "copy from original"

Use the "Save" button to save the information to a file

10.

11.

Click the "Off" button

Remove the Mains cable from the Mains filter.

G_16400_019.eps

010806

Figure 5-13 Logic Board Exchange (1/2)

1. Remove the SSB. Now you can reach the cable going to

connector CN01 on the Logic Board.

5. Click the link in ComPair to open the Logic Board exchange

window.

2. Unplug the LVDS cable from the SSB at connector CN01.

Also unplug the power cable at CN06.

6. Click the 'On' button. In the title bar the module type will

appear: 42A4, or something similar.

3. Connect the FHP A4 service cable to CN01 and CN06.

Connect the ComPair I2C cable to the CN01 side of the

service cable, and the power cable to the CN06 side of it.

4. Plug in the mains cable. The display starts up in stand-

alone mode.

7. Click button 'Copy from original'

8. The data is read from the EEPROM on the logic board and

displayed in the list.

9. Use the 'Save' button to save the information to a file. This

is optional, but better safe than sorry!

Note: If you close the window without saving, all settings

Service Modes, Error Codes, and Fault Finding

FHP PDP

EN 23

will be lost. If you intend to close this window before

replacing the board, you should save the settings so you

can load them later.

11. Switch off the set and replace the Logic Board with another

one.

10. Click the 'Off' button.

Logic Board Exchange (2)

2. Write NVM Data to the new Logic Board

Remove the Mains cable from the Mains filter.

Connect the FHP A4 Service cable to CN01

and CN06 of the Logic Board. Connect the power

cable from the PSU to the FHP A4 Service cable on the

CN06 side of the Logic Board. Connect the ComPair

cable to the CN01 side of the FHP A4 Service cable.

Click the "On" button

Load the saved values

Click button “paste to replacement”

Click button "Ship Out" (1)

(1) The PDP screen will be blanked for about 15s,

then 15s later, the 'Ship out' process will end

Disconnect the ComPair cable and Power cable from the

FHP A4 Service cable on the CN01 and CN06 sides of the

Logic Board. Disconnect the FHP A4 Service cable. Reconnect

the Power cable from the PSU to CN06 and the LVDS cable

to CN01 on the Logic Board.

G_16400_020.eps

010806

Figure 5-14 Logic Board Exchange (2/2)

1. Switch off the set and replace the Logic Board by another

one. Now connect the service cable to connectors CN01

and CN06. Connect the power cable to the CN06 side of

the service cable, and the ComPair cable to the CN01 side.

2. Restart the display with the new board.

8. Disconnect ComPair and remove the service cable, plug in

the power cable at CN06 and the original LVDS cable at

CN01.

3. Click the 'On' button.

4. The module type will again appear in the title bar. This may

be different now from step 6 on the previous page, because

now another Logic Board is used. If you closed the window

after step 9 and did save the settings you should load them

now. Use the ‘Load’ button to do so.

5. Click button 'Paste to replacement'. The settings previously

copied from the old board are now written to the new board.

If successful the button 'Ship out' will be enabled.

6. Click button 'Ship out'.

7. Now a process of voltage feedback initialization and self-

adjustment starts. This will take a few seconds. When

ready you can switch off the display.

Service Modes, Error Codes, and Fault Finding

EN 24

FHP PDP

Fault

contents

Fault status

Suspected

fault location

Analysis procedure

and measure

Entire screen After momentarily going on, the

X-SUS

Refer to

does not

light.

screen becomes black

immediately or after a few

seconds (main power is turned

off.)

Y-SUS

PSU

Panel chassis

LOGIC

“Entire screen

does not light”

ABUSL

ABUSR

Screen lights dimly even on the

back screen.

LOGIC

Replace the LOGIC

board, following the

“Logic Board

Exchange” procedure

Vertical line

Single vertical line (of different

color)

Panel chassis

LOGIC

Refer to

“Vertical line/bar”

Vertical line from the middle of

effective scan area (vertical line

of different color)

Panel chassis

Replace panel

chassis

Vertical bar

Bar width of 1/7 of horizontal size

or in multiples of 1/7, is displayed.

Abnormal display

Panel chassis

ABUS-L

ABUS-R

Refer to

“Vertical line/bar”

LOGIC

Above boards

are connected

Bar width of 3/7 or 4/7 of the

screen width, is displayed.

Abnormal display (vertical line of

different color)

ABUS-L

ABUS-R

LOGIC

Above boards

are connected.

Horizontal

line

Single horizontal line (no light) or

single horizontal line does not

light among the effective scanning

Panel chassis

X-SUS

Y-SUS

Replace panel

chassis

ABUS-L

ABUS-R

area.

Single horizontal line does not

light.

X-SUS

Replace

X-SUS, Y-SUS

Every other line (no light) in entire

screen

Y-SUS

ABUS-L

ABUS-R

G_16400_023.eps

280706

Figure 5-15 Fault symptom overview (1/2)

Service Modes, Error Codes, and Fault Finding

FHP PDP

EN 25

NO Fault contents

Fault status

Suspected

fault

Analysis procedure

and measure

location

Horizontal bar

Bar width of 1/8 or multiples of

1/8 of the screen height, is

displayed.

Panel chassis

Replace panel

chassis

Abnormal (screen does not

light)

Bar width of 1/2 of the screen

height.

Panel chassis

Y-SUS

Refer to

“Horizontal bar”

Abnormal display

(screen does not light)

X-SUS

Above boards

are connected.

Image sticking

(Image

retention)

Fixed display contents are

always displayed.

Panel chassis

Perform all white heat

run. After judgement,

replace panel chassis

#$%&'(

Twinkle

Flicker

The entire screen momentarily

becomes brighter or darker.

Poor connector

contact

The entire screen flickers

continuously.

Poor connector Connector / cable

contact

(CN2,3,21,31)

re-connection or

cable exchange

Luminance is

abnormal

Screen is too dark or too bright.

(Out of specifications)

Chrominance

is abnormal

Colors cannot be displayed

correctly.

Replace Logic

LOGIC board

board, following the

“Logic Board

Exchange” procedure

Sync is

disturbed

Picture

distorted

Steps of

Luminance linearity is poor.

gradation are

skipped

Abnormal

sound

PSU

X-SUS

Y-SUS

Locate cause of

abnormality from

listening and viewing.

(Core is broken, Replace the cause of

or transformer

is abnormal.)

problem.

Control on

external

communication changed.

is abnormal

Contrast, color temperature

adjustment and ϒ cannot be

Replace Logic

LOGIC board

board, following the

“Logic Board

Exchange” procedure

G_16400_024.eps

190706

Figure 5-16 Fault symptom overview (2/2)

Service Modes, Error Codes, and Fault Finding

EN 26

FHP PDP

5.5 Defect Description Form

This form must be used by the workshops for warranty claims:

DDF FLAT TV (panels & boards) version 1.1

Date last modified: 08/03/2005

To be filled in by WORKSHOP / WORK CENTER

Type nr./Model nr. set

Country:

Philips

Serial nr. set

Customer Account nr.:

Job sheet nr.:

LCD & Plasma

Type nr. display

Serial nr. display

Part nr display (12nc)

Return number

DEFECT DESCRIPTION

FORM

0170 _ _ _ _ _ _

❐

Constantly

❐

In a hot environment

In a cold environment

Intermittently

After a while

Condition

Other : …………………………………

❐

Flickering / flashing picture

Lines across/down image

Inactive row(s)

❐

No backlight

No picture

Picture too bright

Inactive column(s)

Shading / smearing on

picture

Symptom(s)

Missing colour(s)

❐

Only partial picture

Unstabel picture

Other: ………………………………………………

……………………………………………….

Qty of dots

---------- Picture ----------

Mark

Pixel

Defect(s):

……..

❐

Dark dots

Insert picture or mark defect !

Defect(s)

Bright dots

Following defect symptoms are out of warranty:

Symptoms

These

symptoms

are not

• Broken glass

• Number of dark/bright pixels within spec.

Out of

claimable.

warranty

• Scratch(es) on display

• Burn in (only for Plasma TV)

Spare Part Nr. New Board Barcode Nr. Defect Board

Barcode Nr. Replaced Board

For Plasma

TV repair

only

To be filled in by EUROSERVICE

RMA number:

Date of receipt:

Note 1:

Note 2:

The defective LCD-panel / PDP needs to be returned in the same packaging as the new part was send. If not

the warranty claim will be rejected.

Please fill out this form completely and correctly, otherwise Euroservice is unable to fulfil the repair request!

Owner: PHILIPS CE EUROSERVICE

DE10WEG

F_15590_115.eps

110705

Figure 5-17 Defect Description Form (DDF)

Block Diagrams, Test point Overview, and Wave Forms

FHP PDP

EN 27

6. Block Diagrams, Test point Overview, and Wave Forms

6.1 Block Diagrams

X-SUS

Y-SUS

X-SUS

EVEN SW

Y-SUS

EVEN SW

X-SCAN

Y-SCAN

EVEN SW

X-SUS

Y-SUS

ODD SW

X-SCAN

ODD SW

Y-SCAN

ODD SW

ADM1 ADM2 ADM3 ADM4 ADM5 ADM6 ADM7 ADM8

POS

ABUS-R

CN41

ABUS-L

CN51

POS /NEG

RESET SW

CN31

CN21

LOGIC Board

TIMING ROM

CN3

SCAN CONTROLLER

OSC

24MHz

CN1

DATA CONVERTER

DATA PROCESSOR

SIGNAL

INPUT

RGB

γ comp.

DITHER

/ERR

SUB FIELD

PRC.

MEMORY

LVDS

GAIN

CONTROLLER

MPU

FRAME

V-SYNC cont.

OSC

MEMORY

40MH

80MH

I²C

SCI.

Failure DET.

FLASH

EEPROM

Analog Sw

APC cont.

I/O

Vrs

Vra

Vrw

Vrx

OSC

D/A

10MHz

CN7

PSU

CN69

PFCgo

Vsago

Vcego

G_16400_021.eps

190706

Figure 6-1 Signal block diagram

Block Diagrams, Test point Overview, and Wave Forms

EN 28

FHP PDP

X-SUS

EVEN SW

Y-SUS

EVEN SW

X-SCAN

EVEN SW

Y-SCAN

EVEN SW

X-SUS

ODD SW

Y-SUS

ODD SW

X-SCAN

ODD SW

Y-SCAN

ODD SW

ADM2

ADM4

ADM5

ADM1

ADM3

ADM6 ADM7 ADM8

CN52

CN42

CN26

POS/NEG

RESET SW

POS/NEG

RESET SW

ABUS-L

ABUS-R

Va 63V

Vcc 5V

Va 63V

Vcc 5V

CN36

Vcc 5V

Vs 85V

Va 63V

Vcc 5V

Vs 85V

Va 63V

Vw 190V

Vu 55V

CN32

CN22

Vxwgo

DC/DC

CONVERTER

Vs 85V

Vra

Vrs

Vrw

Vrx

YFVE Vy VE

18V 18V 17V

D/A

CPUgo

XFVE

18V

Vxx

20V

17V

PDPgo

DC/DC

MPU

CONVERTER

Vcc

DC/DC

CONVERTER

RST

Vpr2 3.3V

Vrst

Vcc

LOGIC board

85V

CN6

CN23

AC100

~240V

10A

380V

63V

PFC

CN61

Vsago

Vcc

CN68

Vcego

Servce

85V

PFCgo

Vpr2 3.3V

Vpr1 5V

5/3.3V

Control

PFCgo

CN64

Vsago

Vcego

PSU

V^ra

G_16400_022.eps

190706

Figure 6-2 Power block diagram

6.2 Test Points

6.3 Wave Forms

Not available.

Circuit Diagrams and PWB Layouts

FHP PDP

EN 29

7. Circuit Diagrams and PWB Layouts

Not applicable.

8. Alignments

8.1 Voltage Setting Procedure

On the back of the PDP, in the top right hand corner, you find the Voltage Setting label:

G_16400_034.eps

270706

Figure 8-1 Voltage setting label

This Voltage Setting label shows the following messages:

Table 8-1

Item

Adjustment items

Measurement point

Adjustment value (conditions)

Vs voltage adjustment

Va voltage adjustment

Pins 8-9-10 of CN23 on the X-SUS board

Pin 1 of CN23 on the X-SUS board

Voltage setting label indication value* 1%

If the voltage adjustments Vs and Va on the Power Supply Unit must be performed, depends on the version of the Power Supply Unit.

Circuit Descriptions and Abbreviation List

EN 30

FHP PDP

9. Circuit Descriptions and Abbreviation List

9.1.3 Function of Y-SUS Board

9.1 Board Function Description

9.1.1 Logic Board Function

Data Processor

DC/DC Power Supply Block

•

Vcc (+5V) -> Ve (+17V) / YFve (+ 18V, floating)

Vs (+85V) -> Vw (+185V)

•

Gamma adjustment (1 / 2.2 / 2.4 / 2.6 / 2.8).

NTSC/EBU format (Colour matrix) Switch.

RGB gain Control (White balance adjustment, amplitude

limitation).

Error diffusion technology (grey scale adjustment).

Dither (grey scale adjustment).

Switching Block

•

Switching during address period.

Switching during sustain period.

Switching during reset period.

•

Burn-in pattern generation.

Current Detector Block

•

I_sy (sustain) current detection.

I_sp (SDM) current detection.

Data Converter

Quasi out-line adjustment (luminous pattern control).

•

9.1.4 Function of ADM Board

Scan Controller

•

Address driver control signal generator (ADM).

Scan driver control signal generator (SDM).

X/Y sustain control signal generator.

Address Driver Module

•

Supplies voltage Va to the glass plate.

9.1.5 Function of SDM Board

Scan Driver Module

Waveform ROM

Waveform pattern for drive / timing memory.

•

Supplies voltage Vs to the glass plate.

MPU

•

Synchronous detection.

System control.

Driving voltage (Va, Vs, Vr, Vw) adjustment.

Abnormal watch (breakdown detection) / abnormal

processing.

9.1.6 Function of PSU Board

Stand-by Power Supply Block

•

AC100-240: +5V & +3V3 Stand-by.

•

I_s (sustain) current control (sustain pulse control).

I_a (address) current control (sub-field control).

External communication control.

Flash memory (firmware).

PFC Block (AD/DC Power Supply Block)

AC100-240: +390V.

•

AD/DC Power Supply Block

+380V, Vcc (+5V), Vs (+80V), Va (+60V).

•

EEPROM

•

Control parameter memory.

Counts operating time (number of hours).

Abnormal status memory (16 places).

Current Detection Block

l_a (address) current detection.

•

Abnormal Voltage Monitoring

9.1.2 Function of X-SUS Board

•

Vs excess voltage monitoring.

Va excess voltage monitoring.

DC/DC power supply block

•

Vcc (+5V) -> Ve (+17V) / XFve (+18V, floating).

X Switching Block

•

Switching during address period.

Switching during sustain period.

Switching during reset period.

Current Detector Block

•

I_sx (sustain) current detection.

I_ax (address) current detection.

Circuit Descriptions and Abbreviation List

9.2 Differences between the Versions A1, A2, A3, and A4

FHP PDP

EN 31

9.2.1 Specifications

Table 9-1 Specifications

42A1

994 x 585 x 66

42A2

994 x 585 x 66

42A3

42A4

Item

Dimensions (mm)

Weight (kg)

994 x 587 x 66

Resolution (h x v)

1024 x 1024

1,100

1024 x 1024

1,200

1024 x 1024

1,400

1024 x 1080

1,400

Brightness (cd/m²)

(display load 1%,

standard)

Contrast (dark room)

1000 : 1

3000 : 1

9.2.2 Layouts

X-SUS

Y-SUS

PSU

LOGIC

ABUS-L

ABUS-R

ADM1 ADM2 ADM3 ADM4

ADM5 ADM6 ADM7 ADM8

G_16400_038.eps

310706

Figure 9-1 Layout 42A1

PSU

X-SUS

Y-SUS

LOGIC

ABUS-L

ADM1 ADM2 ADM3 ADM4

ABUS-R

ADM5 ADM6 ADM7 ADM8

G_16400_039.eps

310706

Figure 9-2 Layout 42A2

Differences with respect to 42A1:

•

The signal cable from the PSU to the Logic Board is

standardised.

The power cable from the PSU to the Logic Board is

standardised.

•

The signal cable arrangement has changed.

The power cable arrangement has changed.

An 80-pin FPC cable is used between Logic Board and

ABUS-L and ABUS-R.

•

Circuit Descriptions and Abbreviation List

EN 32

FHP PDP

X-SUS

Y-SUS

PSU

LOGIC

ABUS-L

ADM1 ADM2 ADM3 ADM4

ABUS-R

ADM5 ADM6 ADM7 ADM8

G_16400_040.eps

310706

Figure 9-3 Layout 42A3

Differences with respect to 42A2:

•

The signal cable arrangement has changed (now similar to

42A1).

•

The power cable arrangement has changed (now similar to

42A1).

•

The XBB has been replaced by XFPC and X-BUS.

A new connector type is used on ABUS-L, ABUS-R, and X-

BUS.

X-SUS

Y-SUS

PSU

LOGIC

ABUS-L

ABUS-R

ADM1 ADM2 ADM3 ADM4

ADM5 ADM6 ADM7 ADM8

G_16400_041.eps

310706

Figure 9-4 Layout 42A4

Differences with respect to 42A3:

There are no differences in cable arrangements with

respect to 42A3.

•

Spare Parts List

FHP PDP

10.

EN 33

Probe

A cable with contact finger that can

transfer the status of the electric circuit

to be measured to an oscilloscope

A cover made of aluminium to protect

the PDP entirely during test

Memory that stores the drive

sequence and other data

Scaler Control Audio Video Output &

Input

9.3 List of abbreviations

ADM

Address driver module

Protection cover

Burn-in rack

Test equipment of the shelf test in

which the PDP unit is left to stand in

drive condition

ROM

CPU

The unit for controlling the circuit

operation

SCAVIO

DOXE

The control voltage for even-

numbered lines in the X direction

The control voltage for odd-numbered

lines in the X direction

SDM

SUS

Tapping

Unit of COM

Scan driver module

X-SUS or Y-SUS

Light impact

DOXO

The unit of circuits connected to the

panel with flexible cable (YCOM UP/

DOWN, X-BUS UP/DOWN, address

sections, the unit of PC boards in

ACOM 1 to 5).

The power supply at 60 V, which is

used to write data on the panel

The power supply at 5 V, which is used

to operate the logic section mainly

The power supply ranging from 127 V

to 180 V, which is used to maintain

display data. In addition, this can serve

as the primary side for the secondary

voltage (Vw, -Vy, Vsc)

DOYSD

DOYSU

External power ON

Used in the drive voltage in the Y

direction (down)

Used in the drive voltage in the Y

direction (up)

Running the external powers (Vcc, Va,

Vs) on the designated voltage. Unless

otherwise specified

Vcc

External power OFF

Making the external powers (Vcc, Va,

Vs) to stop their operation completely.

Unless otherwise specified

The cable to connect the electric

circuit to the panel

Continuous switching between bright

and dark views by the PDP itself

Shading of the display colour

The name of a circuit where the

current from X/Y-SUS is returned

A device that allows the flow and

strength of the running current to be

visually checked and measured

The indication part of the plasma

display panel (PDP)

Flexible cable

Flicker

Solid white

X-SUS

A condition when the screen display is

entirely white

Gradation

OPUMP

The name of the circuit that controls

the panel operation in the X direction

The circuit used to output a panel Y

line selection signal and the voltage of

a display data keep signal

The name of the panel drives voltage

signal output from YCOM UP/DOWN

section

Oscilloscope

YCOM

Panel

YCOMDV

Y-SUS

Panel voltage

Parts

The voltage required operating the

PDP normally

Each PC board and parts mounted in

the PC boards

The name of the circuit that controls

the panel operation in the Y direction

PDP

Plasma display panel abbreviated

10. Spare Parts List

For spare parts list see chapter 5

Revision List

EN 34

11.

FHP PDP

11. Revision List

This manual is a supplement to the following service manuals:

Table 11-1 Overview of chassis and manuals, covered by

this manual

Display type

Model CTN

Chassis

12NC Manual

42" A4

42PF5331/10

42PF5411/10

42PF9531/79

42PF9531/93

42PF9531/98

42PF9631D/10

LC4.41E AA

BJ3.0A PA

BJ3.0E PA

3122 785 16240

3122 785 15980

3122 785 15960

11.1 Service Manual xxxx xxx xxxx.0

First release.

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