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User Manual: LCD TV Philips LC7.1E LA Chassis - Service manuals and Schematics. Free.

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Page Count: 93

Content
1. Technical Specifications, Connections, and Chassis Overview
2. Safety Instructions, Warnings, and Notes
3. Directions for Use
4. Mechanical Instructions
5. Service Modes, Error Codes, and Fault Finding
6. Block Diagrams, Test Point Overview, and Waveforms
7. Circuit Diagrams and PWB Layouts
8. Alignments
9. Circuit Descriptions, Abbreviation List, and IC Data Sheets
10. Spare Parts List
11. Revision List

Published by WS 0763 BG CD Customer Service Printed in the Netherlands Subject to modification EN 3122 785 16940

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

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

Colour Television Chassis

LC7.1E

H_16940_000.eps

080307

ME7

Contents Page Contents Page

1. Technical Specifications, Connections, and Chassis

Overview 2

2. Safety Instructions, Warnings, and Notes 6

3. Directions for Use 8

4. Mechanical Instructions 9

5. Service Modes, Error Codes, and Fault Finding 16

6. Block Diagrams, Test Point Overview, and

Waveforms

Wiring Diagram 32” 27

Wiring Diagram 37”-42” 28

Block Diagram Supply 29

Block Diagram Video 30

Block Diagram Audio 31

Block Diagram Control & Clock Signals 32

Test Point Overview SSB (Bottom Side) 33

I2C IC’s Overview 34

Supply Lines Overview 35

7. Circuit Diagrams and PWB Layouts Diagram PWB

SSB: DC/DC (B02) 36 52-61

SSB: Tuner & Demodulator (B03A) 37 52-61

SSB: Micro Processor (B04A) 43 52-61

SSB: Video Processor (B04B) 44 52-61

SSB: PNX2015: Audio Processor (B04C) 45 52-61

SSB: YPBPR & Rear IO (B06A) 46 52-61

SSB: I/O Scart 1 & 2 (B06B) 47 52-61

SSB: HDMI (B06C) 48 52-61

SSB: Headphone Amp & Muting (B06D) 49 52-61

SSB: Audio (B07) 50 52-61

SSB: SRP List 51 52-61

Side A/V Panel (D) 62 63

Keyboard Control Panel (E) 64 65

Front IR / LED Panel (J) 66 67

8. Alignments 69

9. Circuit Descriptions, Abbreviation List, and IC Data

Sheets 73

Abbreviation List 80

IC Data Sheets 83

10. Spare Parts List 88

11. Revision List 92

Technical Specifications, Connections, and Chassis Overview

EN 2 LC7.1E LA1.

1. Technical Specifications, Connections, and Chassis Overview

Index of this chapter:

1.1 Technical Specifications

1.2 Connection Overview

1.3 Chassis Overview

Notes:

• Figures can deviate due to the different set executions.

• Specifications are indicative (subject to change).

1.1 Technical Specifications

1.1.1 Vision

Display type : LCD

Screen size : 32” (82 cm), 16:9

: 42” (107 cm), 16:9

Resolution (HxV pixels) : 1366 x 768

Min. contrast ratio : 4000:1 (32”)

: 5000:1 (42”)

Min. light output (cd/m2) : 500

Typ. response time (ms) : 8 (32”)

: 5 (42”)

Viewing angle (HxV degrees) : 178x178

Tuning system : PLL

TV Colour systems : PAL B/G, D/K, I

: SECAM B/G, D/K, L/L’

Video playback : NTSC

: PAL

: SECAM

Supported computer formats : WXGA (1366x768)

Supported video formats : 640x480i - 1fH

: 720x576i - 1fH

: 640x480p - 2fH

: 720x576p - 2fH

: 1920x1080i - 2fH

: 1280x720p - 3fH

Presets/channels : 100 presets

Tuner bands : VHF

: UHF

: S-band

: Hyper-band

1.1.2 Sound

Sound systems : NICAM D/K, I, L/L’

: 2CS D/K, B/G

Equalizer : 7-bands

Maximum power (WRMS) : 2 x 10

1.1.3 Miscellaneous

Power supply:

- Mains voltage (VAC) : 220 - 240

- Mains frequency (Hz) : 50 / 60

Ambient conditions:

- Temperature range (°C) : +5 to +40

- Maximum humidity : 90% R.H.

Power consumption (values are indicative)

- Normal operation (W) : ≈ 140 (32”)

:≈ 240 (42”)

- Stand-by (W) : < 1

Dimensions (WxHxD cm) : 80.5x54.6x11.5 (32”)

: 104.5x68.6x11.6 (42”)

Weight (kg) : 15.5 (32”)

: 25 (42”)

Technical Specifications, Connections, and Chassis Overview EN 3LC7.1E LA 1.

1.2 Connection Overview

Figure 1-1 Side and rear I/O connections

Note: The following connector colour abbreviations are used

(acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy=

Grey, Rd= Red, Wh= White, and Ye= Yellow.

1.2.1 Side Connections

EXT3: Headphone - Out

Bk - Headphone 32 - 600 ohm / 10 mW rt

EXT3: Cinch: Video CVBS - In, Audio - In

Rd - Audio R 0.5 VRMS / 10 kohm jq

Wh - Audio L 0.5 VRMS / 10 kohm jq

Ye - Video CVBS 1 VPP / 75 ohm jq

EXT3: S-Video (Hosiden): Video Y/C - In

1 - Ground Y Gnd H

2 - Ground C Gnd H

3 - Video Y 1 VPP / 75 ohm j

4 - Video C 0.3 VPPP / 75 ohm j

1.2.2 Rear Connections

EXT1: Video RGB - In, CVBS - In/Out, Audio - In/Out

Figure 1-2 SCART connector

1 - Audio R 0.5 VRMS / 1 kohm k

2 - Audio R 0.5 VRMS / 10 kohm j

3 - Audio L 0.5 VRMS / 1 kohm k

4 - Ground Audio Gnd H

5 - Ground Blue Gnd H

6 - Audio L 0.5 VRMS / 10 kohm j

7 - Video Blue 0.7 VPP / 75 ohm j

8 - Function Select 0 - 2 V: INT

4.5 - 7 V: EXT 16:9

9.5 - 12 V: EXT 4:3 j

9 - Ground Green Gnd H

10 - Easylink P50 0 - 5 V / 4.7 kohm jk

11 - Video Green 0.7 VPP / 75 ohm j

12 - n.c.

13 - Ground Red Gnd H

14 - Ground P50 Gnd H

15 - Video Red 0.7 VPP / 75 ohm j

16 - Status/FBL 0 - 0.4 V: INT

1 - 3 V: EXT / 75 ohm j

17 - Ground Video Gnd H

18 - Ground FBL Gnd H

19 - Video CVBS 1 VPP / 75 ohm k

20 - Video CVBS 1 VPP / 75 ohm j

21 - Shield Gnd H

EXT2: Video YC - In, CVBS - In/Out, Audio - In/Out

Figure 1-3 SCART connector

1 - Audio R 0.5 VRMS / 1 kohm k

2 - Audio R 0.5 VRMS / 10 kohm j

3 - Audio L 0.5 VRMS / 1 kohm k

4 - Ground Audio Gnd H

5-n.c.

6 - Audio L 0.5 VRMS / 10 kohm j

7 - C-out 0.7 VPP / 75 ohm k

8 - Function Select 0 - 2 V: INT

4.5 - 7 V: EXT 16:9

9.5 - 12 V: EXT 4:3 j

9-n.c.

10 - Easylink P50 0 - 5 V / 4.7 kohm jk

11 - n.c.

12 - n.c.

13 - n.c.

14 - Ground P50 Gnd H

15 - C 0.7 VPP / 75 ohm j

16 - Status/FBL 0 - 0.4 V: INT

1 - 3 V: EXT / 75 ohm j

17 - Ground Video Gnd H

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Technical Specifications, Connections, and Chassis Overview

EN 4 LC7.1E LA1.

18 - Ground FBL Gnd H

19 - Video CVBS 1 VPP / 75 ohm k

20 - Video CVBS/Y 1 VPP / 75 ohm j

21 - Shield Gnd H

Service Connector (UART)

1 - UART_TX Transmit k

2 - Ground Gnd H

3 - UART_RX Receive j

Aerial - In

- - IEC-type (EU) Coax, 75 ohm D

Service Connector (ComPair)

1 - SDA-S I2C Data (0 - 5 V) jk

2-SCL-S I

2C Clock (0 - 5 V) j

3 - Ground Gnd H

HDMI 1 & 2: Digital Video, Digital Audio - In

Figure 1-4 HDMI (type A) connector

1 - D2+ Data channel j

2 - Shield Gnd H

3 - D2- Data channel j

4 - D1+ Data channel j

5 - Shield Gnd H

6 - D1- Data channel j

7 - D0+ Data channel j

8 - Shield Gnd H

9 - D0- Data channel j

10 - CLK+ Data channel j

11 - Shield Gnd H

12 - CLK- Data channel j

13 - n.c.

14 - n.c.

15 - DDC_SCL DDC clock j

16 - DDC_SDA DDC data jk

17 - Ground Gnd H

18 - +5V j

19 - HPD Hot Plug Detect j

20 - Ground Gnd H

EXT4: Cinch: Video YPbPr - In, Audio - In

Gn - Video Y 1 VPP / 75 ohm jq

Bu - Video Pb 0.7 VPP / 75 ohm jq

Rd - Video Pr 0.7 VPP / 75 ohm jq

Wh - Audio L 0.5 VRMS / 10 kohm jq

Rd - Audio R 0.5 VRMS / 10 kohm jq

1.3 Chassis Overview

Figure 1-5 PWB/CBA locations (32” models)

19 1

18 2

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POWER SUPPLY UNIT

SIDE I/O PANEL

SMALL SIGNAL

BOARD

LED PANEL

CONTROL BOARD

Technical Specifications, Connections, and Chassis Overview EN 5LC7.1E LA 1.

Figure 1-6 PWB/CBA locations (42” models)

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POWER SUPPLY UNIT

SIDE I/O PANEL

SMALL SIGNAL

BOARD

LED PANEL

CONTROL PANEL

Safety Instructions, Warnings, and Notes

EN 6 LC7.1E LA2.

2. Safety Instructions, Warnings, and Notes

Index of this chapter:

2.1 Safety Instructions

2.2 Warnings

2.3 Notes

2.1 Safety Instructions

Safety regulations require the following during a repair:

• Connect the set to the Mains/AC Power via an isolation

transformer (> 800 VA).

• Replace safety components, indicated by the symbol h,

only by components identical to the original ones. Any

other component substitution (other than original type) may

increase risk of fire or electrical shock hazard.

Safety regulations require that after a repair, the set must be

returned in its original condition. Pay in particular attention to

the following points:

• Route the wire trees correctly and fix them with the

mounted cable clamps.

• Check the insulation of the Mains/AC Power lead for

external damage.

• Check the strain relief of the Mains/AC Power cord for

proper function.

• Check the electrical DC resistance between the Mains/AC

Power plug and the secondary side (only for sets that have

a Mains/AC Power isolated power supply):

1. Unplug the Mains/AC Power cord and connect a wire

between the two pins of the Mains/AC Power plug.

2. Set the Mains/AC Power switch to the "on" position

(keep the Mains/AC Power cord unplugged!).

3. Measure the resistance value between the pins of the

Mains/AC Power plug and the metal shielding of the

tuner or the aerial connection on the set. The reading

should be between 4.5 Mohm and 12 Mohm.

4. Switch "off" the set, and remove the wire between the

two pins of the Mains/AC Power plug.

• Check the cabinet for defects, to prevent touching of any

inner parts by the customer.

2.2 Warnings

• All ICs and many other semiconductors are susceptible to

electrostatic discharges (ESD w). Careless handling

during repair can reduce life drastically. Make sure that,

during repair, 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. Available

ESD protection equipment:

– Complete kit ESD3 (small tablemat, wristband,

connection box, extension cable and earth cable) 4822

310 10671.

– Wristband tester 4822 344 13999.

• Be careful during measurements in the high voltage

section.

• Never replace modules or other components while the unit

is switched "on".

• When you align the set, use plastic rather than metal tools.

This will prevent any short circuits and the danger of a

circuit becoming unstable.

2.3 Notes

2.3.1 General

• Measure the voltages and waveforms with regard to the

chassis (= tuner) ground (H), or hot ground (I), depending

on the tested area of circuitry. The voltages and waveforms

shown in the diagrams are indicative. Measure them in the

Service Default Mode (see chapter 5) with a colour bar

signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated

otherwise) and picture carrier at 475.25 MHz for PAL, or

61.25 MHz for NTSC (channel 3).

• Where necessary, measure the waveforms and voltages

with (D) and without (E) aerial signal. Measure the

voltages in the power supply section both in normal

operation (G) and in stand-by (F). These values are

indicated by means of the appropriate symbols.

• Manufactured under license from Dolby Laboratories.

“Dolby”, “Pro Logic” and the “double-D symbol”, are

trademarks of Dolby Laboratories.

2.3.2 Schematic Notes

• All resistor values are in ohms, and the value multiplier is

often used to indicate the decimal point location (e.g. 2K2

indicates 2.2 kohm).

• Resistor values with no multiplier may be indicated with

either an "E" or an "R" (e.g. 220E or 220R indicates 220

ohm).

• All capacitor values are given in micro-farads (μ= x10-6),

nano-farads (n= x10-9), or pico-farads (p= x10-12).

• Capacitor values may also use the value multiplier as the

decimal point indication (e.g. 2p2 indicates 2.2 pF).

• An "asterisk" (*) indicates component usage varies. Refer

to the diversity tables for the correct values.

• The correct component values are listed in the Spare Parts

List. Therefore, always check this list when there is any

doubt.

2.3.3 BGA (Ball Grid Array) ICs

Introduction

For more information on how to handle BGA devices, visit this

URL: www.atyourservice.ce.philips.com (needs subscription,

not available for all regions). After login, select “Magazine”,

then go to “Repair downloads”. Here you will find Information

on how to deal with BGA-ICs.

BGA Temperature Profiles

For BGA-ICs, you must use the correct temperature-profile,

which is coupled to the 12NC. For an overview of these profiles,

visit the website www.atyourservice.ce.philips.com (needs

subscription, but is not available for all regions)

You will find this and more technical information within the

"Magazine", chapter "Repair downloads".

For additional questions please contact your local repair help

desk.

2.3.4 Lead-free Soldering

Due to lead-free technology some rules have to be respected

by the workshop during a repair:

• Use only lead-free soldering tin Philips SAC305 with order

code 0622 149 00106. If lead-free solder paste is required,

please contact the manufacturer of your soldering

equipment. In general, use of solder paste within

workshops should be avoided because paste is not easy to

store and to handle.

• Use only adequate solder tools applicable for lead-free

soldering tin. The solder tool must be able:

– To reach a solder-tip temperature of at least 400°C.

– To stabilize the adjusted temperature at the solder-tip.

– To exchange solder-tips for different applications.

• Adjust your solder tool so that a temperature of around

360°C - 380°C is reached and stabilized at the solder joint.

Heating time of the solder-joint should not exceed ~ 4 sec.

Avoid temperatures above 400°C, otherwise wear-out of

tips will increase drastically and flux-fluid will be destroyed.

Safety Instructions, Warnings, and Notes EN 7LC7.1E LA 2.

To avoid wear-out of tips, switch “off” unused equipment or

reduce heat.

• Mix of lead-free soldering tin/parts with leaded soldering

tin/parts is possible but PHILIPS recommends strongly to

avoid mixed regimes. If this cannot be avoided, carefully

clear the solder-joint from old tin and re-solder with new tin.

2.3.5 Alternative BOM identification

The third digit in the serial number (example:

AG2B0335000001) indicates the number of the alternative

B.O.M. (Bill Of Materials) that has been used for producing the

specific TV set. In general, it is possible that the same TV

model on the market is produced with e.g. two different types

of displays, coming from two different suppliers. This will then

result in sets which have the same CTN (Commercial Type

Number; e.g. 28PW9515/12) but which have a different B.O.M.

number.

By looking at the third digit of the serial number, one can

identify which B.O.M. is used for the TV set he is working with.

If the third digit of the serial number contains the number “1”

(example: AG1B033500001), then the TV set has been

manufactured according to B.O.M. number 1. If the third digit is

a “2” (example: AG2B0335000001), then the set has been

produced according to B.O.M. no. 2. This is important for

ordering the correct spare parts!

For the third digit, the numbers 1...9 and the characters A...Z

can be used, so in total: 9 plus 26= 35 different B.O.M.s can be

indicated by the third digit of the serial number.

Identification: The bottom line of a type plate gives a 14-digit

serial number. Digits 1 and 2 refer to the production center (e.g.

AG is Bruges), digit 3 refers to the B.O.M. code, digit 4 refers

to the Service version change code, digits 5 and 6 refer to the

production year, and digits 7 and 8 refer to production week (in

example below it is 2006 week 17). The 6 last digits contain the

serial number.

Figure 2-1 Serial number (example)

2.3.6 Board Level Repair (BLR) or Component Level Repair

(CLR)

If a board is defective, consult your repair procedure to decide

if the board has to be exchanged or if it should be repaired on

component level.

If your repair procedure says the board should be exchanged

completely, do not solder on the defective board. Otherwise, it

cannot be returned to the O.E.M. supplier for back charging!

2.3.7 Practical Service Precautions

•It makes sense to avoid exposure to electrical shock.

While some sources are expected to have a possible

dangerous impact, others of quite high potential are of

limited current and are sometimes held in less regard.

•Always respect voltages. While some may not be

dangerous in themselves, they can cause unexpected

reactions that are best avoided. Before reaching into a

powered TV set, it is best to test the high voltage insulation.

It is easy to do, and is a good service precaution.

E_06532_024.eps

130606

MODEL :

PROD.NO:

32PF9968/10

MADE IN BELGIUM

220-240V 50/60Hz

128W

AG 1A0617 000001

VHF+S+H+UHF

BJ3.0E LA

Directions for Use

EN 8 LC7.1E LA3.

3. Directions for Use

You can download this information from the following websites:

http://www.philips.com/support

http://www.p4c.philips.com

Mechanical Instructions EN 9LC7.1E LA 4.

4. Mechanical Instructions

Index of this chapter:

4.1 Cable Dressing

4.2 Service Positions

4.3 Assy/Panel Removal

4.4 Set Re-assembly

Notes:

• Figures below can deviate slightly from the actual situation,

due to the different set executions.

• Follow the disassemble instructions in described order.

They apply to the 32” sets.

4.1 Cable Dressing

Figure 4-1 Cable dressing (32” models)

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Mechanical Instructions

EN 10 LC7.1E LA4.

Figure 4-2 Cable dressing (42” models)

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Mechanical Instructions EN 11LC7.1E LA 4.

4.2 Service Positions

For easy servicing of this set, there are a few possibilities

created:

• The buffers from the packaging.

• Foam bars (created for Service).

• Aluminium service stands (created for Service).

Note: the aluminium service stands can only be used when the

set is equipped with so-called “mushrooms”. Otherwise use the

original stand that comes with the set.

4.2.1 Foam Bars

Figure 4-3 Foam bars

The foam bars (order code 3122 785 90580 for two pieces) can

be used for all types and sizes of Flat TVs. See figure “Foam

bars” for details. Sets with a display of 42” and larger, require

four foam bars [1]. Ensure that the foam bars are always

supporting the cabinet and never only the display. Caution:

Failure to follow these guidelines can seriously damage the

display!

By laying the TV face down on the (ESD protective) foam bars,

a stable situation is created to perform measurements and

alignments. By placing a mirror under the TV, you can monitor

the screen.

4.2.2 Aluminium Stands

Figure 4-4 Aluminium stands (drawing of MkI)

The new MkII aluminium stands (not on drawing) with order

code 3122 785 90690, can also be used to do measurements,

alignments, and duration tests. The stands can be

(dis)mounted quick and easy by means of sliding them in/out

the "mushrooms". The new stands are backwards compatible

with the earlier models.

Important: For (older) FTV sets without these "mushrooms", it

is obligatory to use the provided screws, otherwise it is possible

to damage the monitor inside!

4.3 Assy/Panel Removal

4.3.1 Rear Cover

Warning: Disconnect the mains power cord before you remove

the rear cover.

1. Place the TV set upside down on a table top, using the

foam bars (see part "Service Position").

2. Remove rear cover screws and the stand (if mounted).

3. Remove rear cover.

4.3.2 Keyboard Control Panel

1. Remove the rear cover, as described earlier.

2. Refer to fig. “Keyboard control panel“ below.

3. Remove the T10 parker screws [1].

4. Unplug connector [2].

5. Remove the unit.

6. Release clips [3] and remove the board.

When defective, replace the whole unit.

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42”

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Mechanical Instructions

EN 12 LC7.1E LA4.

Figure 4-5 Keyboard control panel

4.3.3 Side I/O Panel

1. Remove the rear cover, as described earlier.

2. Unplug connector [a].

3. Remove screws [b] and remove the complete module. One

of the screws is T10 tapping, the other one is T10 parker.

See fig. “Side I/O module”.

4. Remove T10 parker screw [c]. See fig. “Side I/O panel 1”.

5. Push catch [d] (located at the underside of the bracket) and

slide the unit to the right from its bracket [e]. See fig. “Side

I/O panel 2”.

6. To remove the PWB from its bracket, you have to lift the

catch [f] loacted on top of the headphone connector. At the

same time, slide the PWB out of its bracket [g]. See fig.

“Side I/O panel 3”.

When defective, replace the whole unit.

Figure 4-6 Side I/O module

Figure 4-7 Side I/O panel [1/3] top side

Figure 4-8 Side I/O panel [2/3] bottom side

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b (1x)

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Mechanical Instructions EN 13LC7.1E LA 4.

Figure 4-9 Side I/O panel [3/3]

4.3.4 IR/LED Panel

1. Remove the rear cover, as described earlier.

2. Refer to fig. “IR/LED panel“ below.

3. Unplug connector(s) [1].

4. Release clip [2] and remove the board.

When defective, replace the whole unit.

Figure 4-10 IR/LED panel

4.3.5 Mid-range Speakers

1. Remove the rear cover, as described earlier.

2. Refer to fig. “Mid-range speakers“ below.

3. Unplug connectors [1].

4. Remove T10 parker screws [2].

Figure 4-11 Mid-range speakers

4.3.6 Tweeters

1. Remove the rear cover, as described earlier.

2. Refer to fig. “Tweeters” below.

3. Unplug connectors [1].

4. Remove T10 parker screws [2].

Figure 4-12 Tweeters

4.3.7 Small Signal Board (SSB)

1. Remove the rear cover, as described earlier.

2. Refer to fig. “SSB removal“ below.

3. Disconnect all cables [a] on the SSB.

4. Remove the T10 tapping screws [b] that hold the SSB. See

Figure “SSB removal”.

5. Remove the screws that hold the CINCH and HDMI

connectors at the connector panel.

6. Lift the SSB from the set.

Figure 4-13 SSB removal

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a a

b (2x)b (3x)

b (3x)

b (2x)

Mechanical Instructions

EN 14 LC7.1E LA4.

4.3.8 Main Supply Panel

1. Remove the rear cover, as described earlier.

2. Refer to fig. “Main supply panel“ below.

3. Unplug cables [a].

4. Remove the fixation screws [b].

5. Take the board out (it hinges at the left side).

Figure 4-14 Main supply panel

4.3.9 LCD Panel

1. Remove the rear cover, as described earlier.

2. Refer to fig. “LCD panel“ below.

3. Unplug the connectors on the Main Supply Panel [a] and

the LED & IR board [c].

4. Unplug the outer connectors [d] from the mid-range

loudspeakers.

5. Do NOT forget to unplug the LVDS connector [e] from the

SSB. Important: Be careful, as this is a very fragile

connector!

6. Remove T10 parker screw [b] that holds the Side I/O

module bracket.

7. Remove T10 parker screws [f] of the central sub-frame.

8. Remove LCD panel fixation screws [g] and lift the complete

central sub-frame from the set (incl. the PSU, SSB, and

Side I/O boards and wiring).

9. Lift the LCD panel [7] from the front cabinet.

Figure 4-15 LCD panel [1/2]

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b (3x)

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c (1x)

g (2x)

f (3x)

f (2x)

f (1x)

g (2x)

Mechanical Instructions EN 15LC7.1E LA 4.

Figure 4-16 LCD panel [2/2]

4.4 Set Re-assembly

To re-assemble the whole set, execute all processes in reverse

order.

Notes:

• While re-assembling, make sure that all cables are placed

and connected in their original position. See figure "Cable

dressing".

• Pay special attention not to damage the EMC foams.

Ensure that EMC foams are mounted correctly (one is

located above the LVDS connector on the display, between

the LCD display and the metal sub-frame).

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Service Modes, Error Codes, and Fault Finding

EN 16 LC7.1E LA5.

5. Service Modes, Error Codes, and Fault Finding

Index of this chapter:

5.1 Test Points

5.2 Service Modes

5.3 Service Tools

5.4 Error Codes

5.5 The Blinking LED Procedure

5.7 Fault Finding and Repair Tips

5.1 Test Points

In the chassis schematics and layout overviews, the test points

(Fxxx) are mentioned. In the schematics, test points are

indicated with a rectangular box around “Fxxx” or “Ixxx”, in the

layout overviews with a “half-moon” sign.

As most signals are digital, it will be difficult to measure

waveforms with a standard oscilloscope. Several key ICs are

capable of generating test patterns, which can be controlled via

ComPair. In this way it is possible to determine which part is

defective.

Perform measurements under the following conditions:

• Service Default Mode.

• Video: Colour bar signal.

• Audio: 3 kHz left, 1 kHz right.

5.2 Service Modes

The Service Mode feature is split into four parts:

• Service Default Mode (SDM).

• Service Alignment Mode (SAM).

• Customer Service Mode (CSM) and Digital Customer

Service Mode (DCSM).

• Computer Aided Repair Mode (ComPair).

SDM and SAM offer features, which can be used by the Service

engineer to repair/align a TV set. Some features are:

• A pre-defined situation to ensure measurements can be

made under uniform conditions (SDM).

• Activates the blinking LED procedure for error identification

when no picture is available (SDM).

• The possibility to overrule software protections when SDM

was entered via the Service pins.

• Make alignments (e.g. white tone), (de)select options,

enter options codes, reset the error buffer (SAM).

• Display information (“SDM” or “SAM” indication in upper

right corner of screen, error buffer, software version,

operating hours, options and option codes, submenus).

The (D)CSM is a Service Mode that can be enabled by the

consumer. Instructions on how to enable the CSM can be given

by telephone by either the dealer or the P3C (Philips Customer

Care Center). The CSM displays diagnosis information, which

the customer can forward to the dealer/P3C. In CSM mode,

“CSM”, is displayed in the top right corner of the screen.

The information provided in CSM and the purpose of CSM is to:

• Increase the home repair hit rate

• Decrease the number of nuisance calls

• Solved customers' problem without home visit

ComPair Mode is used for communication between a computer

and a TV on I2C /UART level and can be used by a Service

engineer to quickly diagnose the TV set by reading out error

codes, read and write in NVMs, communicate with ICs and the

uP (PWM, registers, etc.), and by making use of a faultfinding

database. It will also be possible to up and download the

software of the TV set via I2C with help of ComPair. To do this,

ComPair has to be connected to the TV set via the ComPair

connector, which will be accessible through the rear of the set

(without removing the rear cover).

5.2.1 General

Some items are applicable to all Service Modes or are general.

These are listed below.

Life Timer

During the life time cycle of the TV set, a life timer is kept. This

life timer counts the normal operation hours, but not the Stand-

by hours. The actual value of the life timer is displayed in SDM

and CSM in a decimal value. Every two soft-resets should

increase the hour by +1. Minimal five digits are displayed.

Software Identification, Version, and Cluster

The software identification, version, and cluster will be shown

in the main menu display of SDM, SAM, and CSM.

The screen will show: “AAAABCD X.YY”, where:

•AAAA is the chassis name: LC71 for analogue range

(non-DVB), LC72 for digital range (DVB).

•B is the region indication: E= Europe, A= AP/China, U=

NAFTA, L= LATAM.

•C is the display indication: L= LCD, P= Plasma.

•D is the language/features indication: 1= standard, H=

1080p full HD.

•X is the main version number: The main version number is

updated with a major change of specification (incompatible

with the previous software version). Numbering will go from

1 - 9 then from A - Z.

– If the main version number changes, the new version

number is written in the NVM

– If the main version number changes, the default

settings are loaded

•YY is the sub version number: The sub version number is

updated with a minor change (backwards compatible with

the previous versions) Numbering will go from 00 - 99.

– If the sub version number changes, the new version

number is written in the NVM

– If the NVM is fresh, the software identification, version,

and cluster will be written to NVM

Service Modes, Error Codes, and Fault Finding EN 17LC7.1E LA 5.

Display Option Code Selection

When after a display exchange, the display option code is not

properly set, it will result in a TV with “no display”. Therefore, it

is required to set this display option code after such a repair.

To do so, press the following key sequence on a standard RC

transmitter: “062598” directly followed by MENU and “xxx”,

where “xxx” is a 3 digit decimal value of the panel type (see first

column in table “Display Code Overview” or sticker on the side/

bottom of the cabinet). When the value is properly accepted

and stored in NVM, the set will switch to Stand-by, to indicate

that the process has been completed successfully.

Figure 5-1 Location of Display Option Code sticker

During this algorithm, the NVM-content must be filtered,

because several items in the NVM are TV-related and not SSB-

related (e.g. Model and Prod. S/N). Therefore, “Model” and

“Prod. S/N” data is changed into “See Type Plate”.

In case a call centre or consumer reads “See Type Plate” in

CSM mode, he needs to look to the side/bottom sticker to

identify the set, for further actions.

Table 5-1 Display option code overview

PHILIPS

MODEL:

32PF9968/10

PROD.SERIAL NO:

AG 1A0620 000001

040

39mm

27mm

(CTN Sticker)

Display Option

Code

E_06532_038.eps

290107

Display

option HEX

Display

type Brand Size

Vert.

resolution

Hor.

resolution Type number 12 NC

045 2D LCD LPL 26 768p 1366 LC260WX2-SLB2 9322 234 13682

046 2E LCD LPL 32 768p 1366 LC320W01-SL06 9322 230 03682

068 44 LCD CMO 26 768p 1366 V260B1-L03 9322 249 37682

069 45 LCD CMO 32 768p 1366 V315B1 L05 9322 248 65682

070 46 LCD CPT 32 768p 1366 CLLAA320WB02P 9322 245 31682

071 47 LCD LPL 37 768p 1366 LC370WX1-SLB1 9322 246 96682

072 48 LCD AUO 37 768p 1366 T370XW02V5 9322 249 77682

073 49 LCD LPL 42 768p 1366 LC420WX3-SLA1 9322 246 97682

076 4B LCD AUO 42 768p 1366 T420XW01V8 9322 249 10682

083 53 PDP SDI 42 768p 1024 S42AX-YD04(PS-426-PH) 9322 246 76682

085 55 PDP SDI 50 768p 1366 S50HW-YD05(PS-506-PH) 9322 246 81682

091 5B LCD AUO 32 768p 1366 T315XW02VD 9322 249 06682

093 5D LCD LPL 42 1080p 1920 LC420WU2-SLA1 9322 246 84682

103 67 LCD LPL 20 480p 640 LC201V02-SDB1 9322 242 65682

105 69 LCD CMO 19 900p 1440 TPM190A1-L02 9965 000 43654

106 6A LCD AUO 23 768p 1366 T230XW01V3 9322 249 79682

107 6B LCD LPL 42 768p 1366 LC420WX5-SLD1 9322 249 09682

Service Modes, Error Codes, and Fault Finding

EN 18 LC7.1E LA5.

5.2.2 Service Default Mode (SDM)

Purpose

Set the TV in SDM mode in order to be able to:

• Create a predefined setting for measurements to be made.

• Override software protections.

• Start the blinking LED procedure.

• Read the error buffer.

• Check the life timer.

Specifications

Table 5-2 SDM default settings

• Set linear video and audio settings to 50 %, but volume to

25 %. Stored user settings are not affected.

• All service-unfriendly modes (if present) are disabled, since

they interfere with diagnosing/repairing a set.. These

service unfriendly modes are:

– (Sleep) timer.

– Blue mute/Wall paper.

– Auto switch “off” (when there is no “ident” signal).

– Hotel or hospital mode.

– Child lock or parental lock (manual or via V-chip).

– Skipping, blanking of “Not favourite”, “Skipped” or

“Locked” presets/channels.

– Automatic storing of Personal Preset or Last Status

settings.

– Automatic user menu time-out (menu switches back/

OFF automatically.

– Auto Volume levelling (AVL).

How to Activate

To activate SDM, use one of the following methods:

• Press the following key sequence on the remote control

transmitter: “062596” directly followed by the MENU button

(do not allow the display to time out between entries while

keying the sequence).

• Short one of the “Service” jumpers on the TV board during

cold start (see Figures “Service jumper”). Then press the

mains button (remove the short after start-up). Caution:

Activating SDM by shorting “Service” jumpers will override

the DC speaker protection (error 1), the General I2C error

(error 4), and the Trident video processor error (error 5).

When doing this, the service-technician must know exactly

what he is doing, as it could damage the television set.

Figure 5-2 Service jumper (SSB component side)

On Screen Menu

After activating SDM, the following screen is visible, with SDM

in the upper right corner of the screen to indicate that the

television is in Service Default Mode.

Figure 5-3 SDM menu

Menu explanation:

•HHHHH: Are the operating hours (in decimal).

•AAAABCD-X.YY: See paragraph “Service Modes” ->

“General” -> “Software Identification, Version, and Cluster”

for the SW name definition.

•SDM: The character “SDM” to indicate that the TV set is in

Service mode.

•ERR: Shows all errors detected since the last time the

buffer was erased. Five errors possible.

•OP: Used to read-out the option bytes. See “Options” in the

Alignments section for a detailed description. Seven codes

are possible.

How to Navigate

As this mode is read only, there is not much to navigate. To

switch to other modes, use one of the following methods:

• Command MENU from the user remote will enter the

normal user menu (brightness, contrast, colour, etc...) with

“SDM” OSD remaining, and pressing MENU key again will

return to the last status of SDM again.

• To prevent the OSD from interfering with measurements in

SDM, command “OSD” (“STATUS” for NAFTA and

LATAM) from the user remote will toggle the OSD “on/off”

with “SDM” OSD remaining always “on”.

• Press the following key sequence on the remote control

transmitter: “062596” directly followed by the OSD/i+

button to switch to SAM (do not allow the display to time out

between entries while keying the sequence).

How to Exit

Switch the set to STANDBY by pressing the mains button on

the remote control transmitter or on the television set.

If you switch the television set “off” by removing the mains (i.e.,

unplugging the television), the television set will remain in SDM

when mains is re-applied, and the error buffer is not cleared.

The error buffer will only be cleared when the “clear” command

is used in the SAM menu.

Note:

• If the TV is switched “off” by a power interrupt while in SDM,

the TV will show up in the last status of SDM menu as soon

as the power is supplied again. The error buffer will not be

cleared.

• In case the set is in Factory mode by accident (with “F”

displayed on screen), by pressing and hold “VOL-“ and

“CH-” together should leave Factory mode.

Region Freq. (MHz) Default syst.

Europe (except France),

AP-PAL/-Multi

475.25 PAL B/G

France SECAM L

NAFTA, AP-NTSC 61.25 (channel 3) NTSC M

LATAM PAL M

G_16860_027.eps

260107

SDMSDM

SDM

HHHHH A A A A B C D- X . Y Y

ERR XX XX XX XX XX

O P X X X X X X X X X X X X X X X X X X

G_16860_030.ep

26010

Service Modes, Error Codes, and Fault Finding EN 19LC7.1E LA 5.

5.2.3 Service Alignment Mode (SAM)

Purpose

• To change option settings.

• To display / clear the error code buffer.

• To perform alignments.

Specifications

• Operation hours counter (maximum five digits displayed).

• Software version, error codes, and option settings display.

• Error buffer clearing.

• Option settings.

• Software alignments (Tuner, White Tone, and Audio).

• NVM Editor.

• ComPair Mode switching.

• Set the screen mode to full screen (all contents on screen

are viewable).

How to Activate

To activate SAM, use one of the following methods:

• Press the following key sequence on the remote control

transmitter: “062596" directly followed by the OSD/

STATUS/INFO/i+ button (it depends on region which

button is present on the RC). Do not allow the display to

time out between entries while keying the sequence.

• Or via ComPair.

After entering SAM, the following screen is visible, with SAM in

the upper right corner of the screen to indicate that the

television is in Service Alignment Mode.

Figure 5-4 SAM menu

Menu explanation:

1. LLLLL. This represents the run timer. The run timer counts

normal operation hours, but does not count Stand-by

hours.

2. AAAABCD-X.YY. See paragraph “Service Modes” ->

“General” -> “Software Identification, Version, and Cluster”

for the SW name definition.

3. SAM. Indication of the Service Alignment Mode.

4. ERR (ERRor buffer). Shows all errors detected since the

last time the buffer was erased. Five errors possible.

5. OP (Option Bytes). Used to read-out the option bytes. See

“Options” in the Alignments section for a detailed

description. Seven codes are possible.

6. Clear. Erases the contents of the error buffer. Select the

CLEAR menu item and press the MENU RIGHT key. The

content of the error buffer is cleared.

7. Options. Used to set the option bits. See “Options” in the

“Alignments” chapter for a detailed description.

8. Tuner. Used to align the tuner. See “Tuner” in the

“Alignments” chapter for a detailed description.

9. RGB Align. Used to align the White Tone. See “White

Tone” in the “Alignments” chapter for a detailed

description.

10. NVM Editor. Can be used to change the NVM data in the

television set. See also paragraph “Fault Finding and

Repair Tips” further on.

11. ComPaIr. Can be used to switch the television to “In

Application Programming” mode (IAP), for software

uploading via ComPair. Read paragraph “Service Tools” -

> “ComPair”. Caution: When this mode is selected without

ComPair connected, the TV will be blocked. Remove the

AC power to reset the TV.

12. SW Events. Only to be used by development to monitor

SW behaviour during stress test.

How to Navigate

• In the SAM menu, select menu items with the MENU UP/

DOWN keys on the remote control transmitter. The

selected item will be indicated. When not all menu items fit

on the screen, use the MENU UP/DOWN keys to display

the next / previous menu items.

• With the MENU LEFT/RIGHT keys, it is possible to:

– Activate the selected menu item.

– Change the value of the selected menu item.

– Activate the selected submenu.

• When you press the MENU button twice while in top level

SAM, the set will switch to the normal user menu (with the

SAM mode still active in the background). To return to the

SAM menu press the MENU button.

• Command “OSD/i+” key from the user remote will toggle

the OSD “on/off” with “SAM” OSD remaining always “on”.

• Press the following key sequence on the remote control

transmitter: “062596” directly followed by the MENU button

to switch to SDM (do not allow the display to time out

between entries while keying the sequence).

How to Store SAM Settings

To store the settings changed in SAM mode (except the

OPTIONS settings), leave the top level SAM menu by using the

POWER button on the remote control transmitter or the

television set.

How to Exit

Switch the set to STANDBY by pressing the mains button on

the remote control transmitter or the television set.

Note:

• When the TV is switched “off” by a power interrupt while in

SAM, the TV will show up in "normal operation mode" as

soon as the power is supplied again. The error buffer will

not be cleared.

• In case the set is in Factory mode by accident (with “F”

displayed on screen), by pressing and hold “VOL-“ and

“CH-” together should leave Factory mode.

5.2.4 Customer Service Mode (CSM)

Purpose

The Customer Service Mode shows error codes and

information on the TV’s operation settings. A call centre can

instruct the customer (by telephone) to enter CSM in order to

identify the status of the set. This helps them to diagnose

problems and failures in the TV before making a service call.

The CSM is a read-only mode; therefore, modifications are not

possible in this mode.

Specifications

• Ignore “Service unfriendly modes”.

• Line number for every line (to make CSM language

independent).

• Set the screen mode to full screen (all contents on screen

are viewable).

• After leaving the Customer Service Mode, the original

settings are restored.

• Possibility to use “CH+” or “CH-” for channel surfing, or

enter the specific channel number on the RC.

How to Activate

To activate CSM, press the following key sequence on the

remote control transmitter: “123654” (do not allow the display

to time out between entries while keying the sequence).

SAM

LLLL L A AAABCD- X. YY

ERR XX XX XX XX XX

O P X X X X X X X X X X X X X X X X X X

C l e a r > Y e s

O p t i o n s >

T u n e r >

R G B A l i g n >

N V M E d i t o r >

C o m p a i r >

S W E V E N T S >

G_16860_031.eps

260107

Service Modes, Error Codes, and Fault Finding

EN 20 LC7.1E LA5.

Upon entering the Customer Service Mode, the following

screen will appear:

Figure 5-5 CSM menu

Menu Explanation

1. MODEL. Type number, e.g. 32PFL5522D/10. (*)

2. PROD S/N. Product serial no., e.g. AG1A0712123456. (*)

3. SW ID. Software cluster and version is displayed.

4. OP. Option code information.

5. CODES. Error buffer contents.

6. SSB. Indication of the SSB factory identification code

(12nc). (*)

7. NVM. The NVM software version no.

8. Flash Data. PQ (picture quality) and AQ (audio quality)

data version. This is a sub set of the main SW.

9. LIFE TIMER. Operating hours indication.

10. TUNER. Indicates the tuner signal condition: “Weak” when

signal falls below threshold value, “Medium” when signal is

at mid-range, and “Strong” when signal falls above

threshold value.

11. SYSTEM. Gives information about the video system of the

selected transmitter (PAL/SECAM/NTSC).

12. SOUND. Gives information about the audio system of the

selected transmitter (MONO/STEREO/NICAM).

13. HDAU. HDMI audio stream detection. “YES” means audio

stream detected. “NO” means no audio stream present.

Only displayed when HDMI source is selected.

14. FORMAT. Gives information about the video format of the

selected transmitter (480i/480p/720p/1080i).

15. HD SW ID. Software version of the 1080p full HD module

(when present).

16. Reserved.

17. Reserved.

18. Reserved.

(*) If an NVM IC is replaced or initialised, this data must be re-

written to the NVM. ComPair will foresee in a possibility to do

this.

How to Exit

To exit CSM, use one of the following methods:

• Press the MENU button twice, or POWER button on the

remote control transmitter.

• Press the POWER button on the television set.

5.3 Service Tools

5.3.1 ComPair

Introduction

ComPair (Computer Aided Repair) is a Service tool for Philips

Consumer Electronics products. and offers the following:

1. ComPair helps you to quickly get an understanding on how

to repair the chassis in a short and effective way.

2. ComPair allows very detailed diagnostics and is therefore

capable of accurately indicating problem areas. You do not

have to know anything about I2C or UART commands

yourself, because ComPair takes care of this.

3. ComPair speeds up the repair time since it can

automatically communicate with the chassis (when the uP

is working) and all repair information is directly available.

4. ComPair features TV software up possibilities.

Specifications

ComPair consists of a Windows based fault finding program

and an interface box between PC and the (defective) product.

The (new) ComPair II interface box is connected to the PC via

an USB cable. For the TV chassis, the ComPair interface box

and the TV communicate via a bi-directional cable via the

service connector(s).

The ComPair fault finding program is able to determine the

problem of the defective television, by a combination of

automatic diagnostics and an interactive question/answer

procedure.

How to Connect

This is described in the chassis fault finding database in

ComPair.

Figure 5-6 ComPair II interface connection

Caution: It is compulsory to connect the TV to the PC as

shown in the picture above (with the ComPair interface in

between), as the ComPair interface acts as a level shifter. If

one connects the TV directly to the PC (via UART), ICs will be

blown!

How to Order

ComPair II order codes:

• ComPair II interface: 3122 785 91020.

• ComPair32 CD (update): 3122 785 60160.

• ComPair interface cable: 3122 785 90004.

• ComPair interface extension cable: 3139 131 03791.

• ComPair UART interface cable: 3122 785 90630.

Note: If you encounter any problems, contact your local

support desk

5.3.2 LVDS Tool

Introduction

This Service tool (also called “ComPair Assistant 1“) may help

you to identify, in case the TV does not show any picture,

whether the Small Signal Board (SSB) or the display of a Flat

TV is defective. Thus to determine if LVDS, RGB, and sync

signals are okay.

Furthermore it is possible to program EPLDs with this tool (Byte

blaster). Read the user manual for an explanation of this

feature.

When operating, the tool will show a small (scaled) picture on

a VGA monitor. Due to a limited memory capacity, it is not

possible to increase the size when processing high-resolution

CS M

1 M O D E L : 3 2 P F L 5 5 2 2 D / 1

2 P R O D S / N : AG1A0712123456

3 S W I D : L C 7 1 E L 1 - 1 . x x

4 O P : X X X X X X X X X X X X X X X X X X X X X

5 C O D E S : X X X X X X X X X X

6 S S B : 3 1 39 127 12341

7 N V M : X X X X X X X X

8 F l a s h D a t a : X X . X X . X X . X X

9 L I F E T I M E R : L L L L L

1 0 T U N E R : W E A K / G O O D / S T R O N G

1 1 S Y S T E M : P A L / N T S C / S E C A M

1 2 S O U N D : M O N O / S T E R E O / N I C A M

1 3 H D A U : Y E S / N O

1 4 F O R M A T : X X X X X X X X

G_16860_032.ep

21020

G_06532_036.eps

260107

UART SERVICE

CONNECTOR

I2C SERVICE

CONNECTOR

TO TV

RS232 /UART

HDMI

C only

Optional power

5V DC

ComPair II Developed by Philips Brugge

Multi

function

RC out

RC in

Optional

Switch

Power ModeLink/

Activity I

ComPair II

Service Modes, Error Codes, and Fault Finding EN 21LC7.1E LA 5.

LVDS signals (> 1280x960). Below this resolution, or when a

DVI monitor is used, the displayed picture will be full size.

How to Connect

Connections are explained in the user manual, which is packed

with the tool. The LVDS cables included in the package cover

most chassis. For some chassis, a separate cable must be

ordered.

Note: To use the LVDS tool, you must have ComPair release

2004-1 (or later) on your PC (engine version >= 2.2.05).

For every TV type number and screen size, one must choose

the proper settings via ComPair. The ComPair file will be

updated regularly with new introduced chassis information.

How to Order

• LVDS tool (incl. two LVDS cables: 31p and 20p, covering

chassis BJx.x, EJx.x, FJx.x and LC4.1):

3122 785 90671.

• LVDS tool Service Manual:

3122 785 00810.

• LVDS cable 20p/DF -> 20p/DF (standard with tool):

3122 785 90731.

• LVDS cable 31p/FI -> 31p/FI (standard with tool):

3122 785 90662.

For other chassis, a separare LVDS cable must be ordered.

Refer to table “LVDS cable order number” for an overview of all

deliverable cables.

Table 5-3 LVDS cable order number

Notes

1. Included in LVDS tool package (order code

3122 785 90671)

2. Pins 27 and 28 should be grounded or not connected.

5.4 Error Codes

5.4.1 Introduction

Error codes are required to indicate failures in the TV set. In

principle a unique error code is available for every:

• Activated protection.

• Failing I2C device.

• General I2C error.

• SDRAM failure.

The last five errors, stored in the NVM, are shown in the

Service menu’s. This is called the error buffer.

The error code buffer contains all errors detected since the last

time the buffer was erased. The buffer is written from left to

right. When an error occurs that is not yet in the error code

buffer, it is displayed at the left side and all other errors shift one

position to the right.

An error will be added to the buffer if this error differs from any

error in the buffer. The last found error is displayed on the left.

An error with a designated error code may never lead to a

deadlock situation. This means that it must always be

diagnosable (e.g. error buffer via OSD or blinking LED

procedure, ComPair to read from the NVM).

In case a failure identified by an error code automatically

results in other error codes (cause and effect), only the error

code of the MAIN failure is displayed.

Example: In case of a failure of the I2C bus (CAUSE), the error

code for a “General I2C failure” and “Protection errors” is

displayed. The error codes for the single devices (EFFECT) is

not displayed. All error codes are stored in the same error

buffer (TV’s NVM) except when the NVM itself is defective.

5.4.2 How to Read the Error Buffer

You can read the error buffer in 3 ways:

• On screen via the SAM/SDM/CSM (if you have a picture).

Example:

– ERROR: 0 0 0 0 0 : No errors detected

– ERROR: 6 0 0 0 0 : Error code 6 is the last and only

detected error

– ERROR: 9 6 0 0 0 : Error code 6 was detected first and

error code 9 is the last detected (newest) error

• Via the blinking LED procedure (when you have no

picture). See “The Blinking LED Procedure”.

•Via ComPair.

5.4.3 Error Codes

In case of non-intermittent faults, write down the errors present

in the error buffer and clear the error buffer before you begin

the repair. This ensures that old error codes are no longer

present.

If possible, check the entire contents of the error buffer. In

some situations, an error code is only the result of another error

and not the actual cause of the problem (for example, a fault in

the protection detection circuitry can also lead to a protection).

Chassis LVDS cable order number Remarks

BJ2.4 3122 785 906621

BJ2.5 3122 785 906621

BJ3.0 3122 785 906621

BJ3.1 3122 785 906621

EJ2.0 3122 785 906621

EJ3.0 3122 785 906621

EL1.1 3122 785 906621 / 3122 785 90821

FJ3.0 3122 785 906621

FTL2.4 3122 785 906621,2

LC4.1 3122 785 907311 / 3122 785 90851

LC4.3 3122 785 90821

LC4.31 3122 785 90821

LC4.41 3122 785 906621,2 / 3122 785 90851 only for 26 & 32” sets

LC4.8 3122 785 906621.2 / 3122 785 90851

LC4.9 3122 785 906621,2 / 3122 785 90851 MFD variant only

LC7.2 tbd

JL2.1 3122 785 90861

Service Modes, Error Codes, and Fault Finding

EN 22 LC7.1E LA5.

Table 5-4 Error code overview

Notes

1. Some of the error codes reported are depending on the

option code configurations.

2. This error means: no I2C device is responding to the

particular I2C bus. Possible causes: SCL/SDA shorted to

GND, SCL shorted to SDA, or SCL/SDA open (at uP pin).

The internal bus of the Trident platform should not cause

the entire system to halt as such an error can be reported.

5.4.4 How to Clear the Error Buffer

The error code buffer is cleared in the following cases:

• By using the CLEAR command in the SAM menu:

– To enter SAM, press the following key sequence on the

remote control transmitter: “062596” directly followed

by the OSD/i+ button (do not allow the display to time

out between entries while keying the sequence).

– Make sure the menu item CLEAR is selected. Use the

MENU UP/DOWN buttons, if necessary.

– Press the MENU RIGHT button to clear the error

buffer. The text on the right side of the “CLEAR” line will

change from “CLEAR?” to “CLEARED”

• If the contents of the error buffer have not changed for 50

hours, the error buffer resets automatically.

Note: If you exit SAM by disconnecting the mains from the

television set, the error buffer is not reset.

Error

code1) Description

Item

nr. Remarks

0 No error.

1 DC Protection of

speakers.

2 +12V protection error. 12V missing or "low".

3 Reserved.

4 General I2C error. note 2

5 Trident Video

Processor

communication error.

7202 When Trident IC is

defective, error 10

and 14 might also be

reported. Trident

communicates via

parallel bus, not via

the I2C bus. The I2C

bus of Trident is only

used in ComPair

mode.

6 I2C error while

communicating with

the NVM.

7315 The TV will not start-

up due to critical dta

not available from the

NVM, but the LED

will blink the error

code.

7 I2C error while

communicating with

the Tuner.

1101

8 I2C error while

communicating with

the IF Demodulator.

7113

9 I2C error

communicating with

the Sound Processor.

7411

10 SDRAM defective. 7204

11 I2C error while

communicating with

the HDMI IC.

7817

12 I2C error while

communicating with

the MOJO PNX8314.

7G00 if applicable

13 DVB HW

communication error.

7F01,

7K00,

7G00

if applicable

14 SDRAM defective. 7205

15 Reserved.

16 Reserved.

17 Reserved.

18 I2C error while

communicating with

the iBoard processor.

if applicable

19 I2C error while

communication with

1080p bolt-on module.

if applicable

Service Modes, Error Codes, and Fault Finding EN 23LC7.1E LA 5.

5.5 The Blinking LED Procedure

5.5.1 Introduction

The software is capable of identifying different kinds of errors.

Because it is possible that more than one error can occur over

time, an error buffer is available, which is capable of storing the

last five errors that occurred. This is useful if the OSD is not

working properly.

Errors can also be displayed by the blinking LED procedure.

The method is to repeatedly let the front LED pulse with as

many pulses as the error code number, followed by a period of

1.5 seconds in which the LED is “off”. Then this sequence is

repeated.

Example (1): error code 4 will result in four times the sequence

LED “on” for 0.25 seconds / LED “off” for 0.25 seconds. After

this sequence, the LED will be “off” for 1.5 seconds. Any RC5

command terminates the sequence. Error code LED blinking is

in red colour.

Example (2): the content of the error buffer is “12 9 6 0 0”

After entering SDM, the following occurs:

• 1 long blink of 5 seconds to start the sequence,

• 12 short blinks followed by a pause of 1.5 seconds,

• 9 short blinks followed by a pause of 1.5 seconds,

• 6 short blinks followed by a pause of 1.5 seconds,

• 1 long blink of 1.5 seconds to finish the sequence,

• The sequence starts again with 12 short blinks.

5.5.2 Displaying the Entire Error Buffer

Additionally, the entire error buffer is displayed when Service

Mode “SDM” is entered. In case the TV set is in protection or

Stand-by: The blinking LED procedure sequence (as in SDM-

mode in normal operation) must be triggered by the following

RC sequence: “MUTE” “062500” “OK”.

In order to avoid confusion with RC5 signal reception blinking,

this blinking procedure is terminated when a RC5 command is

received.

To erase the error buffer, the RC command “MUTE” “062599

“OK” can be used.

5.6 TV Main Software Upgrade

For instructions on how to upgrade the TV Main software, refer

to ComPair.

5.7 Fault Finding and Repair Tips

Notes:

• It is assumed that the components are mounted correctly

with correct values and no bad solder joints.

• Before any fault finding actions, check if the correct options

are set.

5.7.1 NVM Editor

In some cases, it can be convenient if one directly can change

the NVM contents. This can be done with the “NVM Editor” in

SAM mode. With this option, single bytes can be changed.

Caution:

•Do not change the NVM settings without

understanding the function of each setting, because

incorrect NVM settings may seriously hamper the

correct functioning of the TV set!

• Always write down the existing NVM settings, before

changing the settings. This will enable you to return to the

original settings, if the new settings turn out to be incorrect.

Table 5-5 NVM editor overview

5.7.2 Load Default NVM Values

It is possible to download default values automatically into the

NVM in case a blank NVM is placed or when the NVM first 20

address contents are "FF". After the default values are

downloaded, it is possible to start-up and to start aligning the

TV set. To initiate a forced default download the following

action has to be performed:

1. Switch “off” the TV set with the mains cord disconnected

from the wall outlet (it does not matter if this is from

"Standby" or "Off" situation).

2. Short-circuit the SDM jumpers on the SSB (keep short

circuited).

3. Press “P+” or “CH+” on the local keyboard (and keep it

pressed).

4. Reconnect the mains supply to the wall outlet.

5. Release the “P+” or “CH+” when the set is “on” or blue LED

is blinking.

When the downloading has completed successfully, the set

should be into Standby, i.e. red LED on.

Alternative method (1):

1. Go to SAM.

2. Select NVM Editor.

3. Select ADR (address) to 1 (dec).

4. Change the VAL (value) to 170 (dec).

5. Store the value.

6. Do a hard reset to make sure new default values took

place.

Alternative method (2):

It is also possible to upload the default values to the NVM with

ComPair in case the SW is changed, the NVM is replaced with

a new (empty) one, or when the NVM content is corrupted.

After replacing an EEPROM (or with a defective/no EEPROM),

default settings should be used to enable the set to start-up and

allow the Service Default Mode and Service Alignment Mode to

be accessed.

5.7.3 Start-up/Shut-down Flowcharts

Important note for DVB sets:

• When you put a DVB set into Stand-by mode with an RC,

the set will go to “Semi Stand-by” mode for 5 minutes. This,

to facilitate “Off the Air download” (OAD). If there is no

activity within these 5 minutes, the set will switch to Stand-

by mode. In “Semi Stand-by” mode, the LCD backlight and

Audio Amplifier are turned “off” but other circuits still work

as normal. The customer might think the set is in Stand-by.

However, in real Stand-by mode, only the uP and the NVM

are alive and all other circuits are switched “off”.

• If you press the mains switch at the local key board in a

DVB set, the set will switch to Stand-by mode.

On the next pages you will find start-up and shut-down

flowcharts, which might be helpful during fault finding.

It should be noted, that some events are only related to PDP

sets, and therefore not applicable to this LCD chassis.

Hex Dec Description

.ADR 0x000A 10 Existing value

.VAL 0x0000 0 New value

.Store Store?

Service Modes, Error Codes, and Fault Finding

EN 24 LC7.1E LA5.

Figure 5-7 Start-up flowchart

AC ON

Start Up

M16C RST_H = HIGH

RST_HDMI = LOW

RST_AUD = LOW

RESET_n = LOW

LCD_PWR_ON = LOW

SDI PDP => CTRL_DISP1 = LOW

M16C RST_H to LOW

RST_HDMI = HIGH

RST_AUD = HIGH

RESET_n = HIGH

RENEAS POR by +3VSTBY (2)

STANDBYn = LOW

+5VSTBY & +3V3STBY Available (1)

Initialise Trident CX

BL_ADJ = HIGH (100% Duty Cycle)

DPTVInit( )

LCD_PWR_ON = HIGH

(Same function as CTRL-DISP2)

SDI PDP => CTRL_DISP1 = LOW

For LCD:

BL_ON_OFF = HIGH

* BL_ADJ keep 100% for 3000ms

before dimming.

Switch ON LVDS Signal

Wait for 20 ms

Init. Warm Component

(For software)

Initialise IF Demodulator, Afric

TDA9886T

Initialise Tuner

Initialise HDMI, Sil9023

Initialise Micronas

Mute Audio

Initialise FHP Panel

* For FHP PDP Sets only

Initialise Bolt-ON

* For iTV, 1080P, Ambi Light

Last status is ON?

End

Wait for RC key or

Wake up event

20ms

STANDBYn = HIGH

(Same function as CTRL-DISP3)

Is Power Down =

HIGH?

Enable Power Down INT

Enable DC_PROT INT

Wait for 500ms

Wait for 100ms

Time out = 2000msNo

Error 2

[Protection]

Wait for 100ms

Blank Picture

Picture Mode Setup & Detection

Error 5 - Trident

[Protection]

Yes

DVB recording mode

Yes

WP for NVM

STANDBYn = LOW

Standby

Normal Mode

Recording Mode finished

Software Shutdown:

LED = BLUE for Normal mode

LED = RED for Recording mode

User wake up the sets

in DVB recording mode

BLOCK RC Key

Enable RC Key

Yes

Error 7

Error 8

Error 9

Error 11

Error 3

[Protection]

Standby Normal Mode

(RED LED)

1000ms to

1500ms

500ms

100ms

1700ms

SDI PDP => CTRL_DISP1 = HIGH

For DVB Sets only (Semistandby)

Recording mode

Notes:

---------

1. LC07 TV software only start communication with IBOZ once

receive the INT message from IBOZ.

160ms

Port Assignment in STANDBY

unBlank Picture &

UnMute Audio

Read NVM completed.

STOP I²C activities.

InitCold Component:

1. Check SDM port.

- If SDM pin = LOW and NVM first 20Byte =

0xFF, reload Software default NVM value.

2. Check Panel port.

- If Panel Pin = LOW and check slave address

0x65 = 0xA5, Enter Panel Mode.

Error 6 - NVM

[Protection]

Error 10 – SDRAM 7204

[Protection]

Error 14 – SDRAM 7205

[Protection]

Error 19 – 1080P

Error 17 – AmbiLight

Error 18 – iTV iFace

For PDP:

3000ms delay

(2) to be measured at pin 4

of BD45275G (item 7312)

(1) +5VSTBY to be measured

at PDTC114ET (item 7322)

G_16860_070.eps

220207

Service Modes, Error Codes, and Fault Finding EN 25LC7.1E LA 5.

Figure 5-8 Semi Stand-by/Stand-by flowchart

SEMISTANDBY/ STANDBY

Start

Mute Audio

WriteProtect for NVM

STANDBYn = LOW

Software Shutdown:

BL_ON_OFF = LOW

Wait 300ms

Switch OFF LVDS

Wait 20ms

LCD_PWR_ON = LOW

End

LED = NO LED

for Standby soft mode

Standby using

“power key”

LED = RED No

Yes

For DVB Sets only (Semistandby)

SDI PDP => CTRL_DISP1 = HIGH

Off Air Downloading/ Recording Mode

IBOZ send shut down command

BL_ADJ stop dimming

(PWM duty cycle 100%)

Port Assignment in STANDBY

300ms

20ms

Total = 360ms

40ms

Wait for 3000ms

Sets go to standby here

Blocking for the next start up to ensure

power supply discard properly.

Disable Power Down INT &

DC_PROT_INT

Wait for 3000ms

Except power tact switch

BL_ADJ = LOW

(PWM duty cycle 0%)

G_16860_071.eps

220207

Service Modes, Error Codes, and Fault Finding

EN 26 LC7.1E LA5.

Figure 5-9 Power Down & DC_PROT flowchart

Start

WriteProtect for NVM

Mute Audio & VIdeo

Power Down INT:

AC OFF or Transient INT

DC_PROT INT

STANDBYn = LOW

Wait 5000 ms

Re-start: Start up

End

Notes:

1. Power Down INT will be based on fall edge triggering

2. +3V3STBY will stay for 15ms, software must perform

WriteProtect for NVM within 15ms.

Poll the Power Down

INT for 5 times

End

Avoid false trigger

Start

Mute Audio & VIdeo

End

Avoid false trigger

is DC_PROT = LOW

for 3 sec?

Log Error Code

STANDBYn = LOW

WriteProtect for NVM

Error 1

[Protection]

End

Yes

G_16860_072.eps

220207

Block Diagrams, Test Point Overview, and Waveforms 27LC7.1E LA 6.

6. Block Diagrams, Test Point Overview, and Waveforms

Wiring Diagram 32”

1304

11P

1G51

30P

1735

1M20

1C01

1M01

1M20

1304

11P

CN1

2P3

INLET

CN7

CN2

14P

CN3

12P

WIRING 32” LCD (STYLING ME7)

CN2

14P

CN3

12P

G_16860_034.eps

200207

RIGHT SPEAKER LEFT SPEAKER

BSSB

EKEYBOARD CONTROL

DSIDE I/O

IR/LED/LIGHT

SENSOR

8304

8M20

8C01

87358735

8521

8520

8002

CN6

1M01

8M01

LVDS

30P

1P11

8P11

8G51

SUPPLY

INVERTER INVERTER

8191

8192(UK)

(1005)

(1116)

(1114)

(1112)

LCD DISPLAY

(1004)

28LC7.1E LA 6.

Block Diagrams, Test Point Overview, and Waveforms

Wiring Diagram 37”-42”

1304

11P

1G51

30P

1735

1M20

1C01

1M01

1M20

1304

11P

CN1

2P3

INLET

X403

12P

X404

14P

WIRING 37”- 42” LCD (STYLING ME7)

CN2

14P

CN3

12P

H_16940_012.eps

050307

RIGHT SPEAKER LEFT SPEAKER

BSSB

EKEYBOARD CONTROL

DSIDE I/O

IR/LED/LIGHT

SENSOR

8304

8M20

8735

8521

8520

8002

1M01

8M01

LVDS

30P

1P11

8G51

SUPPLY

INVERTER INVERTER

X406

X412

8C01

8P11

8191

8192(UK)

(1005)

(1116)

(1114)

(1112)

LCD DISPLAY

(1004)

Block Diagrams, Test Point Overview, and Waveforms 29LC7.1E LA 6.

Block Diagram Supply

CN1

CN2

DISPLAY SUPPLY

1. +24V

2. +24V

3. +24V

4. +24V

5. +24V

6. GND

7. GND

8. GND

9. GND

10. GND

11. DIM

12. BL-ON

13. PWM

14. N.C.

PRIMARY SIDE

AC-IN

SUPPLY 32” LCD

G_16860_035.eps

200207

CN3

DISPLAY SUPPLY

1. +24V

2. +24V

3. +24V

4. +24V

5. +24V

6. GND

7. GND

8. GND

9. GND

10. GND

11. N.C.

12. N.C.

SECONDARY SIDE

CN6

CONTROL:

1. BL-DIM

2. PG

3. BL-ON

4. GND

5. N.C.

6. PSON

7. N.C.

8. 12V.

CN7

CONTROL:

1. -12VA

2. +12VA

3. GND

4. 5.2VS

5. 5.2VS

6. 5.2VS

7. GND

8. GND.

9. GND

220 - 240V

50/60Hz

30LC7.1E LA 6.

Block Diagrams, Test Point Overview, and Waveforms

Block Diagram Video

VIDEO

ADC

HDMI

B06C

YPBPR & REAR IO

B06A

IO - SCART 1 & 2

B06B

VIDEO PROCESSOR

B04B

SIDE FACING SIDE AV

DMICROPROCESSOR

B04A

TUNER IF & DEMODULATOR

B03A

ANALOG

MUX

1102

SIF1

SIF2

VIF1

VIF2

CVBS

DEMODULATOR

7113

TDA9886T/V4

1304 1304

S VIDEO

1301

1302

FRONT_C_IN

FRONT_Y_CVBS_IN

IF_ATV

VIDEO

1101

TD1318S/A

MAIN

TUNER

IF_OUT3

VIF1

VIF2

1103 SIF1

SIF2

1504

2x SCART

EXT1

CVBS_RF

163

3535 EF

7503

189

1506

EXT2

7114

SC1_B_IN

SC1_G_IN

SC1_R_IN

SC1_CVBS_IN

181

197

SC2_Y_CVBS_IN

SC2_C_IN

SC2_CVBS_MON_OUT

198

1615

188

180

196

19 1

18 2

1810

RX2+A

RX2-A

RX1+A

RX1-A

RX0+A

RX0-A

RXC+A

RXC-A

2x HDMI

CONNECTOR

7814

HDMI_HOTPLUG_RESET

B04A

7817

SII9025CTU

182

192

FRONT_Y_CVBS_IN_T

FRONT_C_IN_T

HDMI

(MAIN)

H_16940_001.eps

270207

VIDEO

PROCESSOR

-R0X2

-R0X1

-R0X0

-R0XC

HDMI_H

HDMI_V

VSYNC

HSYNC

121 HDMI_VCLK

ODCK 23

8SC1_STATUS

16 SC1_FBL_IN

8SC2_STATUS

B04A

HD_Pr_IN

HD_Y_IN

HD_Pb_IN

CVBS_OUT1

Y_G2

PB_B3

FB1

PB_B2

1201

14M31

205

204

XTALI

XTALO

173

B04A

19 1

18 2

1811

RX2+B

RX2-B

RX1+B

RX1-B

RX0+B

RX0-B

RXC+B

RXC-B

7860

HDMI_HOTPLUG_RESET

B04A

-R1X2

-R1X1

-R1X0

-R1XC

HDMI_Cb(0-7)

HDMI_Y(0-7)

HDMI_Cr(0-7)

HDMI_DE

7202

SVP CX32-LF

DP_HS

DP-CLK

DP_DE_FLD

7204

IS42S16400D-6TL

DRAM

1Mx16x4

7205

IS42S16400D-6TL

DRAM

1Mx16x4

DQ(0-31)

CX_MA

1G51

1212

TXCn

TXCp

TXCLKn

TXCLKp

TXDn

TXDp

1213

1214

TXAp

TXBn

TXBp

1210

1211

TXAn

LVDS

CONNECTOR

TO DISPLAY

BOLT_ON_SCL

BOLT_ON_SDA

TXCn1

TXCp1

TXCLKn1

TXCLKp1

TXDn1

TXDp1

TXAp1

TXBn1

TXBp1

TXAn1

TA1

TB1

TC1

TCLK1

TD1

VDISP

SC1_RF_OUT_CVBS

PR_R2

162

190 PR_R3

FS2

CVBS_OUT2

Y_G1

PB_B3

PR_R1

Y_G3

RF_AGC

169 CVBS1

MEMORY

8-BIT

SINGLE

LVDS TX

DIN_PORTD

(24BIT)

SOUND TRAPS

4.5 to 6.5 Mhz

VIF-PLL

SINGLE REFERENCE QSS MIXER

INTERCARRIER MIXER AND

AM-DEMODULATOR

TUNER AGC VIF AGC

TAG C

SIF AGC

I2C-BUS TRANSCEIVER

MAD

SCL

SDA

SUPPLY

+5VS

(16-31)

(0-15)

(0-11)

3528

3523

3516

3545

3528

3518

3522

3529

3552

3550

3537

7500

3521

3617

3618

3619

4120

+VTUN

3111

1104

4M0

Block Diagrams, Test Point Overview, and Waveforms 31LC7.1E LA 6.

Block Diagram Audio

AUDIO

HEADPHONE AMP & MUTING

B06D

AUDIO

B07

HDMI

B06C

I0 - SCART 1 & 2

B06B

AUDIO PROCESSOR

B04C

YPBPR &REAR IO

B06A

MICROPROCESSOR

B04A

SIDE FACING SIDE AV

TUNER IF & DEMODULATOR

B03A

B04A MICRO

PROCESSOR

1304 1304

1102

1304 1304

IF-ATV

1101

TD1318S/A

MAIN

TUNER

IF_OUT3

RF_AGC

VIF1

VIF2

1103 SIF1

SIF2

1504

2x SCART

EXT1

7411

MSP4450P-VK-E8 000 Y

SIF 50

SC1_AUDIO _OUT_L

SC1_AUDIO_IN_R

SC1_AUDIO _OUT_R

SC1_AUDIO_IN_L

1302

19 1

18 2

2x HDMI

CONNECTOR

7817

SII9025CTU

HDMI

H_16940_002.eps

270207

SOUND

PROCESSOR

-RX2

-RX1

-RX0

-RXC

58 SC5-IN-R

L_FRONT_IN

R_FRONT_IN

ANA-IN1+

SC2-OUT-R

SC2-IN-R

SC2-OUT-L

SC2-IN-L

DACM-L

DACM-R

1506

EXT2

SC1_AUDIO _OUT_L

SC2_AUDIO_IN_R

SC2_AUDIO _OUT_R

SC2_AUDIO_IN_L

36 SC1-OUT-R

53 SC1-IN-R

37 SC1-OUT-L

54 SC1-IN-L

AUDIO

L/R IN

SIDE_AUDIO_IN_L_CON

SIDE_AUDIO_IN_R_CON

RXxxA

1615

COMP_AUDIO_IN_L

COMP_AUDIO_IN_R

AUDIO

L/R IN

7810

UDA1334ATS/N2

HDMI_AUDIO_IN_L

HDMI_AUDIO_IN_R

57 SC5-IN-L

50 SC3-IN-L

51 SC3-IN-R

AUDIO-LS_L

AUDIO-LS_R

7A01

TDA8932T/N1

CLASS D

POWER

AMPLIFIER

ENGAGE 5

RIGHT

SPEAKER

HDMI_I2S_SCK

HDNI_I2S_WS

HDMI_I2S_SD

BCK

DATAI

MUTE

SCK

SD0

MUTE

AUDIO

DAC

1735

LEFT

SPEAKER

DC-DETECTION

STANDBYn 6

3A19

3A03

3A11

7901

HP_AUDIO_OUT_L

HP_AUDIO_OUT_R

HP_LOUT

HP_ROUT

MUTING

ANTI_PLOP

19 1

18 2

RXxxB

VOUTL

VOUTR

SC1_AUDIO _MUTE_R

SC1_AUDIO _MUTE_L

SC2_AUDIO _MUTE_R

SC2_AUDIO _MUTE_L

B06D

DACA-L

DACA-R

COMP_AUDIO_IN_L

COMP_AUDIO_IN_R

SC4-IN-L

SC4-IN-R

1303

HEAD_PH_L

HEAD_PH_R

HEADPHONE

CONTROL

POWER_DOWN

STANDBY

MUTEn

B04A

DC_PROT

B04A

4CL

7DA1

5WS

SIF1

SIF2

VIF1

VIF2

CVBS

DEMODULATOR

7113

TDA9886T/V4

SOUND TRAPS

4.5 to 6.5 Mhz

VIF-PLL

SINGLE REFERENCE QSS MIXER

INTERCARRIER MIXER AND

AM-DEMODULATOR

TUNER AGC VIF AGC

TAGC

SIF AGC

I2C-BUS TRANSCEIVER

MAD

SCL

SDA

SUPPLY

SIOMAD

+5VS

7109

B04A

SAW_SW

6103

1411

18M432

XTALIN

XTALOUT

3A26

5A03

5A04

SC1_AUDIO _MUTE_R

SC1_AUDIO _MUTE_L

SC2_AUDIO _MUTE_R

SC2_AUDIO _MUTE_L

B06B

+VTUN

3111 15

1104

4M0

SUPPLY

+5V_D

+8V

+5V_AUD

7A05÷7A07

32LC7.1E LA 6.

Block Diagrams, Test Point Overview, and Waveforms

Block Diagram Control & Clock Signals

MICROPROCESSOR

B04A

KEYBOARD CONTROL

IR/LED/LIGHT-SENSOR

VIDEO PROCESSOR

B04B

HDMI

B06C

CONTROL & CLOCK SIGNALS

1G51

7311

M30300SAGP

MICRO

PROCESSOR

KEYBOARD

LED1

SENSOR

1M20 1M20

7011

+5V2_STBY

7010

3010

6010

LED1

BLEU

+5V2-STBY

3012

1M01

1011

1012

1013

1014

1015

1016

ON / OFF

CHANNEL -

VOLUME +

VOLUME -

CHANNEL +

LED2

7012

6011

LED2

RED

+5V2-STBY

3013

LED1

LED2

REMOTE

KEYB

25 4301 SDM

3361

3366

+3V3_STBY

1301

10M

7202

SVP CX32-LF

VIDEO

PROCESSOR

7204

IS42S16400D-6TL

DRAM

1Mx16x4

7205

IS42S16400D-6TL

DRAM

1Mx16x4

DQ(0-31)

CX_MA(0-11)

-R0

HDMI_Cb(0-7)

HDMI_Y(0-7)

HDMI_Cr(0-7)

19 1

18 2

2x HDMI

CONNECTOR

RXxxA

19 1

18 2

RXxxB

7817

SII9025CTU

-R1

112

111

CX_MCLK

CX_CLKE

HDMI_CCLK

121 23

TXCLKn

TXCLKn1

TXCLKP

TXCLKP1 TO DISPLAY

(LVDS)

1312

ITV_SPI_CLK

ITV_CONNECTOR A

11 LIGHT_DENSOR

N.C.

SC1_STATUS

B06B

SC2_STATUS

B06B

89 HDMI_HOTPLUG_RESET

B06C

88 RST_AUD

B04C

3STANDBYn

B04B

7322 STANDBY

B07

B02 B06D

4RST_H

B04B

100 E_PAGE

7315

M24C64-WMN6P

EEPROM

8Kx8

99 LCD_PWR_ON

B04B

19 DCC_RESET

B06C

ITV_SPI_DATA_IN

23 SAW_SW

B03A

21 DVB_SW

B03A

RST

102

78 MUTEn

B06D

75 BL_ON_OFF

B02

74 ANTI_PLOP

B06D

72 POWER_DOWN

B6D

DC_PROT

B07

104

HDMI_INT

B06C

H_16940_003.eps

270207

7310

M29W800DT

EPROM

1Mx8

512Kx16

A(0-19)

AD(0-7)

A(0-7)

AD(0-7)

86 4

RST_H

56 18

INT

61 45

63 42

62 44

84 38

ALE_EMU

CPU_RST

11 28

7312

BD45275G

(3V3)

VOUT

2,3

+3V3_STBY

Block Diagrams, Test Point Overview, and Waveforms 33LC7.1E LA 6.

Test Point Overview SSB (Bottom Side)

3139 123 6261.1 G_16860_018.eps

240107

A110 E5

A115 E5

A116 E5

A124 E5

A125 E5

F111 E5

F112 E7

F114 E7

F115 F6

F116 F6

F117 F6

F118 E6

F119 E6

F120 E6

F121 E6

F122 E6

F123 D6

F126 E7

F127 E7

F128 D5

F129 D5

F130 D5

F131 E6

F132 E7

F133 E6

F134 F7

F140 D5

F210 A5

F211 C4

F212 A4

F213 A4

F214 A4

F215 A4

F217 A4

F218 A4

F219 A5

F220 A5

F221 A5

F222 A4

F223 A4

F224 A4

F225 A4

F226 A4

F227 A4

F228 A4

F229 A4

F230 A4

F231 C4

F232 B4

F302 B3

F303 C4

F304 A3

F305 B4

F309 B4

F310 A4

F311 B4

F312 A3

F313 B4

F314 A3

F315 B3

F316 A3

F317 B4

F318 A3

F319 B3

F320 A3

F321 B3

F322 A3

F323 A3

F324 B4

F325 A3

F326 B3

F327 A3

F328 B3

F329 B3

F330 A5

F331 B3

F332 B3

F333 B3

F334 B3

F335 B3

F336 A3

F337 A3

F338 B4

F339 B4

F340 B3

F341 B3

F342 F7

F343 F7

F344 F6

F345 C7

F346 B5

F347 B5

F348 B5

F349 B5

F350 B5

F351 A3

F352 A4

F353 B5

F354 B5

F356 A5

F357 A3

F360 A3

F361 B4

F362 A4

F363 B5

F364 B5

F365 B5

F366 B3

F367 A4

F368 A3

F369 B4

F370 F7

F379 A4

F380 A4

F381 B4

F382 A3

F383 A3

F384 A3

F385 A4

F386 A5

F387 A3

F401 B3

F402 C3

F403 C4

F510 E2

F511 E3

F512 E1

F513 E2

F514 E1

F515 E3

F516 D2

F517 D2

F518 D1

F519 E2

F520 D2

F521 D2

F522 D2

F523 D2

F524 D2

F525 C3

F526 C3

F527 C2

F528 C2

F529 C1

F530 C2

F531 D3

F532 D2

F534 E3

F535 E3

F536 E2

F537 E2

F538 D3

F539 D2

F540 D3

F541 D3

F542 D2

F543 E1

F544 D1

F601 F5

F602 F5

F603 E5

F604 F5

F605 F1

F606 F2

F607 F2

F608 F2

F609 F2

F610 F6

F611 F5

F612 F1

F613 E1

F614 F2

F615 F5

F616 F3

F801 E3

F802 E3

F805 D3

F806 E3

F832 F4

F840 F4

F841 F4

F842 F4

F843 F4

F850 F4

F851 E4

F861 F3

F869 F3

F870 F3

F871 F4

F872 F4

F873 F3

F874 F4

F875 E3

F876 D3

F877 E4

F901 B2

F902 B2

F903 B1

F904 C2

F905 B1

F908 B2

F910 B2

FA01 A3

FA02 A2

FA04 A2

FA05 A3

FA06 A3

FA07 A1

FA08 A1

FA09 B3

FA10 A1

FA11 A1

FA12 A3

FA32 A2

FB10 B8

FB11 C4

FB13 C6

FB14 E6

FB15 A8

FB16 C8

FB17 D6

FB19 D7

FB20 C8

FB21 A8

FB22 A8

FB23 A8

FB24 A8

FB25 A8

FB26 A8

FB27 B6

FB28 A9

FB29 A7

FB30 A8

FB31 A7

FB32 A6

FB33 A6

FB34 A6

FC25 A7

FC26 A6

FC27 A6

FC28 A6

FC29 A6

FF10 C8

FF11 E8

FF12 F8

FF13 F7

FF14 F8

FF16 E7

FF17 E8

FF18 E7

FF19 E8

FF20 E7

FF21 F7

FF22 E8

FF23 E7

FF24 C10

FF25 F8

FF26 E7

FF27 F8

FF28 E7

FF29 E7

FF30 E7

FG10 B10

FG11 B10

FG12 B10

FG13 D10

FG14 C10

FG15 B10

FG16 B10

FG17 C10

FG18 B10

FG19 C10

FG20 C10

FG21 C10

FG24 C9

FG25 C9

FG26 C10

FG27 C9

FG28 C9

FG29 C8

FG30 B9

FG31 B10

FG32 C10

FG33 B10

FG34 C10

FG35 C10

FG36 C10

FG37 B9

FG39 C9

FG40 C9

FG41 C9

FG42 C10

FH00 B9

FH01 D9

FH02 B10

FH03 B10

FH04 B10

FH05 D10

FH06 D9

FH07 C8

FH08 D10

FJ01 D9

FJ02 F9

FJ22 C9

FJ23 C9

FJ24 F9

FJ25 F9

FJ26 C8

FJ27 C9

FK01 F9

FK02 F10

FK05 D8

FK06 E9

FK10 E9

FK11 E9

FK12 D9

FK13 E9

FK14 E9

FK15 E9

FK16 D9

FK17 E9

FK18 E9

FK19 E9

FK20 D9

FK21 E9

FK22 E9

FK23 E9

FK24 D9

FK25 E9

FK26 E9

FK27 E9

FK28 D9

FK29 E9

FK30 E9

FK31 E9

FK32 E9

FK33 E9

FK34 D9

FK35 E9

FK36 E9

FK37 E9

FK38 D9

FK39 E9

FK40 E9

FK41 E8

FK42 D9

FK43 E9

FK44 E8

FK45 E8

FK46 D8

FK47 E8

FK48 E8

FK49 E8

FK50 D8

FK51 E8

FK52 E8

FK53 E8

FK54 D8

FK55 E8

FK56 E8

FK57 E8

FK58 D8

FK59 E8

FK60 E8

FK61 E8

FK62 E10

FK63 E8

FK67 E10

FK68 E10

FK69 E10

FK70 D10

FK71 E10

FK72 E10

FK73 E9

FK74 D9

FK75 E9

FK80 D10

FK81 F10

FK82 F9

FK83 D9

FK84 F9

FL20 A2

FL21 A2

FL22 A2

FL23 A2

FL24 A2

FL25 A2

FL26 A2

I110 E5

I111 E7

I112 E5

I114 E5

I118 E5

I120 E5

I121 E7

I122 F6

I123 E6

I124 D5

I125 D5

I126 D5

I127 D5

I128 D5

I129 D5

I130 D5

I131 D5

I133 D5

I135 D5

I136 D4

I137 E6

I138 D5

I139 D5

I141 D6

I142 D5

I143 D5

I144 D5

I145 E6

I146 D6

I147 E6

I210 B5

I211 A5

I213 D6

I214 C4

I215 A5

I216 A5

I217 D5

I218 D5

I220 A5

I224 A5

I225 A5

I230 C4

I231 B5

I232 C4

I233 C4

I236 A3

I238 C4

I239 C5

I240 C4

I241 B5

I242 D5

I243 D4

I244 C4

I245 D5

I246 C4

I247 C4

I248 D4

I249 C4

I250 D5

I251 C4

I252 D4

I253 D4

I254 C4

I255 B4

I256 B4

I257 D4

I258 D4

I259 C4

I260 D4

I261 C4

I262 C4

I263 C4

I264 D5

I265 D3

I266 D3

I267 D3

I268 D4

I269 D4

I270 D4

I271 D4

I311 A4

I312 A4

I313 A4

I314 A4

I315 A4

I317 A4

I318 A5

I320 A4

I321 B3

I322 B3

I323 A3

I326 A5

I328 A3

I329 A3

I330 A4

I331 A4

I332 A3

I333 A4

I334 A4

I335 B4

I336 A4

I337 A4

I338 A4

I339 D3

I341 B5

I342 B4

I344 B4

I345 C8

I347 B4

I349 B4

I351 B5

I352 A4

I353 A4

I354 B5

I357 A5

I359 B5

I362 A4

I363 B4

I364 A4

I365 B4

I366 B4

I367 B4

I368 B4

I369 B4

I370 B4

I373 A3

I374 A3

I376 A3

I380 A4

I382 B4

I383 B4

I384 B4

I387 B5

I388 F7

I389 A5

I390 A5

I391 B5

I392 B5

I393 A4

I394 A4

I395 A4

I396 B5

I397 A5

I398 B4

I399 D3

I412 C3

I413 C3

I414 B3

I415 B3

I416 B3

I417 B3

I418 B3

I419 B3

I420 C3

I421 C3

I422 C3

I423 C3

I424 C3

I425 C3

I426 B3

I427 D4

I428 D4

I429 D4

I430 D3

I431 D4

I432 D3

I510 E2

I512 E2

I517 E1

I520 D1

I528 C2

I530 C2

I533 C1

I540 E2

I541 E2

I543 C2

I544 C1

I545 D2

I548 C3

I549 C3

I550 C3

I551 C2

I552 C2

I553 D3

I554 C3

I556 C2

I557 C2

I610 E2

I611 E2

I615 E5

I623 E2

I627 E2

I631 E5

I632 F5

I633 F5

I635 F5

I636 E5

I801 E3

I802 E2

I803 E2

I804 E2

I805 E3

I806 E2

I813 E3

I814 E4

I820 E4

I821 E4

I822 E4

I823 E4

I828 F3

I831 F4

I833 F3

I840 E3

I841 E3

I842 E3

I843 E3

I844 E4

I845 E4

I846 E3

I847 E3

I848 E3

I850 F3

I851 E3

I852 F4

I853 E4

I854 E4

I855 F3

I856 E3

I857 E3

I858 E4

I861 F3

I862 E3

I863 F2

I864 E3

I865 E3

I866 E3

I901 B2

I902 B2

I903 B2

I904 B2

I905 B2

I911 B1

I912 E1

I913 C1

I914 B1

I915 C1

I916 B1

I917 B1

I918 C1

I919 E2

I920 E1

I921 E2

I922 E1

I923 C1

I924 B2

IA01 A2

IA02 A2

IA03 A2

IA04 A2

IA05 A3

IA06 A3

IA07 A2

IA09 B2

IA10 B3

IA11 B3

IA12 B3

IA13 B2

IA14 A2

IA15 A2

IA16 B2

IA17 A1

IA18 A2

IA19 B2

IA20 B2

IA21 A2

IA22 B2

IA23 A2

IA24 A2

IA25 A2

IA26 A2

IA27 A2

IA29 A2

IA30 A2

IA31 A2

IA33 A3

IA34 A2

IA35 A2

IA36 A2

IA37 A1

IA38 B2

IA39 B2

IA40 A2

IA41 A3

IB10 A8

IB11 B8

IB12 A8

IB13 A8

IB14 B6

IB15 B6

IB17 A8

IB18 A6

IB19 A8

IB20 B8

IF10 F7

IF11 C9

IF12 F7

IF13 F8

IF14 E7

IF15 E7

IF16 E8

IF17 E7

IF18 E8

IF19 F8

IF20 F9

IF21 F8

IF22 F8

IF23 F9

IF24 F8

IF25 F8

IF26 F8

IF27 F9

IF28 F8

IF29 F8

IF30 F8

IF31 E8

IF32 E7

IG13 C9

IG14 C9

IG15 C10

IG16 C10

IG17 C10

IG18 B10

IG19 C10

IG20 B10

IG21 B10

IH04 C10

IH06 D10

IH07 D9

IJ01 D8

IJ02 D8

IJ11 B9

IJ63 C9

IJ64 C9

IJ65 C9

IJ66 C9

IJ67 F9

IJ68 F9

IK68 E9

IK69 F9

IK70 F9

IK72 E9

IK73 E9

IK75 C9

IK76 F9

IK84 F8

IK85 F9

IL20 A2

IL21 A3

IL22 A2

IL23 A2

34LC7.1E LA 6.

Block Diagrams, Test Point Overview, and Waveforms

I2C IC’s Overview

I²C

MICROPROCESSOR

B04A B06C

AUDIO PROCESSOR

B04C

VIDEO PROCESSOR

B04B

VIDEOPROCESSOR

B04B

TUNER IF & DEMODULATOR

B03A

HDMI

IIC_SDA_up

IIC_SCL_up

7311

M30300SAGP

MICRO

PROCESSOR

27 28

+3V3_STBY

3379

3377

IIC_SDA

IIC_SCL

3897

3896

3382

3378

BOLT_ON_SDA

BOLT_ON_SCL

3354

3356

19 1

18 2

2x HDMI

CONNECTOR

1810

7850

M24C02

EEPROM

DOC_SDAA

DOC_SCLA

1101

TD1316AF/IHP

TUNER

ERR

SDA2

SCL2

RXD0

TXD0

PROT

H_16940_004.eps

270207

3120

3121

7411

MSP4450P

SOUND

PROCESSOR

3411

3410

+3V3_STBY

3351

3352

19 1

18 2

1811

DOC_SDAB

7817

SII9025CTU

HDMI

CONTROL

7811

M24C02

EEPROM

DOC_SCLB

1G51

3246

3247

ERR

7851-7852

7812-7813

ERR

58 57

7202

SVP CX32-LF

VIDEO

PROCESSOR

3215

3212

ERR

1314

COMPAIR

SERVICE

CONNECTOR

3343

3345

1311

UART

CONNECTOR

(FOR DEVELOPMENT ONLY)

3L09

3L08

+3V3_STBY

3L07

3L06

TXD1

RXD1

10 11

7113

TDA9886T/V4

DEMODULATOR

3129

3128

ERR

7315

M24C64

EEPROM

(NVM)

3357

3355

ERR

7320

7321

+3V3_SW

3388

3305

(LVDS CONNECTOR)

(NOT STUFFED)

7204

IS42S16400D

DRAM

1Mx16x4

7205

IS42S16400D

DRAM

1Mx16x4

ERR

7310

M29W800DT

EPROM

1Mx8

512Kx16

A(0-19)

AD(0-7)

+5V_SW +3V3_SW

Block Diagrams, Test Point Overview, and Waveforms 35LC7.1E LA 6.

Supply Lines Overview

SUPPLY LINES OVERVIEW

B02

DC-DC

B03C

DVB-COMMON INTERFACE

B03D

DVB-MOJO

B03E

DVB-MOJO MEMORY

B04A

MICROPROCESSOR

B04B

VIDEO PROCESSOR

B06A

YPBPR & REAR IO

B06C

HDMI

B06D

HEADPHONE AMP & MUTING

B07

AUDIO

B03A

TUNER IF & DEMODULATOR

B03B

DVB-DEMODULATOR

B06B

IO - SCART 1 & 2

IR/LED/LIGHT-SENSOR

OCM ON CHIP MICROCONTROLLER

FLASH & NVM

LVDS IN

LVDS OUT

SUPPLY IN

LVDS IN

DC POWER SUPPLY

B04C

AUDIO PROCESSOR

B06B

IO - SCART 1 & 2

1M20

SUPPLY

+3V3+3V3

+1V2_MOJO +1V2_MOJO

+3V3_VDDP

5G04

+3V3+3V3

+3V3_STBY +3V3_STBY

+3V3_SW+3V3_SW

+5V_SW +5V_SW

+3V3_SW+3V3_SW

B02

B03f

B02

B03f

1CO1

-AUDIO_POWER

+AUDIO_POWER

B07

+5V_STANDBY

B04a,B06d

55 +5V_SW

B03a,b,c,e,

B04c,

B06a,b,c,d

1P11

+5V_STANDBY

+12V_DISP

B04b,c

7B02

IN OUT

COM

+3V3_STBY

7B05

STANDBY

+5V_SW

7B04

IN OUT

COM

+3V3_SW

7B06

IN OUT

COM

+3V3_MOJO

7B08

IN OUT

COM

+1V2_MOJO

STEP

DOWN

REG.

7B01 5B035B02

+1V8S_SW

+VTUN

5B06

6B03

7B03(34V)

3B13

+3V3_SW+3V3_SW

+5V_SW +5V_SW

5115 +5V_IF

+5VS

5114

B02

3133

3134

+VTUN +VTUN

B02

+12V_DISP +12V_DISP

B02

+3V3+3V3

5F10 +3V3FE

B03f

+1V8S_SW +1V8S_SW

B02

+5V_SW +5V_SW

B02

+3V3_BUF

5K05

+3V3_STV

5K03

+3V3_CORE

5K04

+5V_SW +5V_SW

B02

PCMCIA_5V

7K05

IN OUT

COM

5K02

PCMCIA_VPP

5K01

PCMCIA_AVCC

+3V3clean+3V3clean

B03f

+3V3_NOR48

5H02

+3V3+3V3

B03f

+5V_SW +5V_SW

B02

+5V_STANDBY +5V_STANDBY

B02

+1V8S_SW +1V8S_SW

CX_PAVDD1

CX_PAVDD

CX_PAVDD2

CX_PDVDD

5224

5226

B02

3244

3248

CX_AVDD_ADC4

5227

CX_AVDD_ADC3

CX_AVDD_ADC1

CX_AVDD_ADC2

5222

5225

5220

+3V3_SW+3V3_SW

B02

CX_AVDD3_ADC2

5221

CX_AVDD3_ADC1

CX_AVDD3_BG_ASS

CX_AVDD3_OUTBUF

5223

5218

5219

VDISP

+12V_DISP +12V_DISP

7210

B02

5215

7208

CONTROL

5217

+5V_SW +5V_SW

B02

+5VHDMI_A

HDMI

CONNECTOR-1

+5VHDMI_B

1811

HDMI

CONNECTOR-2

1810

+5V_SW +5V_SW

+3V3_STBY +3V3_STBY

B02

+AUDIO_POWER +AUDIO_POWER

+AUDIO_POWER_+12V_DISP

B02

4A01

RES

VDDA

VDD

5A05

3A01

-AUDIO_POWER -AUDIO_POWER

B02

VSSA

VSS

5A06

3A02

B04a

B03a,f,B04a,b,

B06c

B03f

B03d

B03a

B03b,B04b

CN7

X412

CN6

X406

3L10 1M20

+5V_STANDBY +5V_STANDBY

B04A

1M20

SSB

1M20

IR/LED

B04A

4C57÷4C60

ONLY FOR LCD

5B01

ONLY FOR ANALOG TV

5304

LCD_PWR_ON

B04A

ONLY FOR LCD

5A07

RES

+3V3_SW+3V3_SW

+3V3_IO +3V3_IO

+3V3_SW+3V3_SW

+3V3_LVDSA+3V3_LVDSA

+3V3_LVDSVCC +3V3_LVDSVCC

+3V3_LVDSD+3V3_LVDSD

1G51

40 +VDISP

TO 1710

1080P

1G52

+1V8_CORE +1V8_CORE

+1V8_DVI +1V8_DVI

+1V8_ADC +1V8_ADC

+3V3_IO +3V3_IO

+3V3_ADC +3V3_ADC

+3V3_SW+3V3_SW

+3V3_PLL +3V3_PLL

+3V3_LVDSA+3V3_LVDSA

+3V3_LVDSD+3V3_LVDSD

+3V3_LBADC +3V3_LBADC

+3V3_DVI +3V3_DVI

+1V8_CORE +1V8_CORE

+2V5_DDR_MAL +2V5_DDR_MAL

+3V3_SW+3V3_SW

STEP

DOWN

REG.

7710

7701-2

1710

1+12V

5A07

7701-1

+3V3

5A07

+3V3_IO

5716

5717

5718

5719

5720

5721

+3V3_LVDSA

+3V3_LVDSD

+3V3_LBADC

+3V3_ADC

+3V3_SW

5722 +3V3_DVI

5723+3V3_PLL

5724 +3V3_LVDSVCC

7714

IN OUT

COM

+1V8

5712

5713

5714

+1V8_CORE

+1V8_ADC

+1V8_DVI

+2V5

7713

IN OUT

COM

5715 +2V5_DDR_MAL

B03F

DVB-MOJO ANALOF BACK END

+3V3clean

5JO1

+3V3_MOJO +3V3_MOJO

B02

7J04

+3V3

IJ01

CONTROL

+1V8S_SW

B03b,c,d

B03d

+12V_DISP +12V_DISP

+AUDIO_POWER_+12V_DISP

+5V_SW +5V_SW

+5V_AUD

+5V_D

5401

B02

4401

+8V

7410

IN OUT

COM

3402

5402

+5V_SW +5V_SW

B02

B04B

1G51

SSB

SUPPLY

F2,F5

F3,F5

F1,F2,

F5,F6

G_16860_040.eps

090307

DISPLAY

1G51

1080P

1G51

X405

+VDISP+VDISP

(ONLY FOR 1080P)

36LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

7. Circuit Diagrams and PWB Layouts

SSB: DC/DC

COM

OUTIN

COM

OUTIN

COM

OUTIN

COM

OUTIN

OUT

COMP

VREFVCC

INH

SYNC

GND GND_HS

DC - DC

ITV Connector

RES RES

RES

ONLY FOR LCD

LCD

PDP

4C55 / 4C56 / 4C61 / 4C62

4C57 / 4C58 / 4C59 / 4C60

RES

TO / FROM PSU

5V2

-12V2

+12V2

TO / FROM PSU

2V9

2V8

1V6

0V(5V)

(---V) MEASURED IN STANDBY

34V

123456789

1B11 D2

1C01 A3

1P11 C3

2B10 B8

2B11 B9

2B12 B4

2B13 B8

2B14 B6

2B15 B6

2B16 B7

2B17 D1

2B18 D3

2B19 C8

2B20 D7

2B21 E7

2B22 F2

2B23 E7

2B24 F3

2B25 F3

2B26 F7

2C55 A2

2C56 A2

2C57 B2

2C58 C2

2C59 B2

2C60 A2

2C61 A2

3B10 B7

3B11 C6

3B12 B7

3B13 C6

3B14 C7

3B15 D6

3B17 F2

3B18 F2

3B19 C7

4B01 A8

4C01 C2

4C55 B1

4C56 B1

4C57 B1

4C58 B1

4C59 B1

4C60 B1

4C61 B1

4C62 B1

5B01 A4

5B02 A8

5B03 A8

5B04 C7

5B05 A8

5B06 C7

5B10 A1

5B11 A1

6B01 B7

6B02 C9

6B03 C8

7B01 A5

7B02 D3

7B03 D7

7B04 D6

7B05 F3

7B06 E6

7B08 F6

FB10 A5

FB11 A9

FB13 D4

FB14 C9

FB15 E2

FB16 D6

FB17 D7

FB19 E7

FB20 F7

FB21 A3

FB22 A3

FB23 A3

FB24 A3

FB25 A3

FB26 A3

FB27 A3

FB28 A3

FB29 B3

FB30 B3

FB31 B3

FB32 C2

FB33 C2

FB34 C2

FC25 B3

FC26 C1

FC27 C1

FC28 C1

FC29 C1

IB10 A8

IB11 A7

IB12 B6

IB13 B7

IB14 C6

IB15 C7

IB17 F2

IB18 C2

IB19 B6

IB20 B8

LD1117DT33C

7B02

10n

2C61

10n

2C60

100n

2C59

4C60

4C62

4C59

4C61

FB34

5B11 22u

22u

5B10

IB20

IB18

IB19

FB33

FB32

FB30

FB31

FB29

FB28FB27

FB25

FB23

FB26

FB24

FB21

5B06

FB22

68u

10K

3B19

5B05

33u

2C58

1n0

4C01

+5V_SW 4C57

4C58

4C56

4C55

GNDSND GNDSND

+5V_STANDBY

FC28

FC29

FC27

FC26

FC25

2C56 1n0

1n0

2C57 2C55 1n0

-AUDIO_POWER

+AUDIO_POWER

GNDSND

+12V_DISP

+5V_STANDBY

B8B-PH-K-S

1P11

1C01

B9B-PH-K

2B19

22u 35V

1B11

345

B3B-PH-SM4-TBT(LF)

6K8

3B18

FB14

IB15

3B10

IB14

GNDTUN

2B20

100p

1K0

3B15

6B02

BZX384-C33

+VTUN

6B03BAV99

5B04

100u

7B03

2N7002

220R

3B13

2B16

10n

2B11

100n

2B25

4B01

3B11

4K7

10u

5B02

5B03

33u

100n

2B17

16V470u

2B13

IB17

FB15

FB10

FB11

IB12

IB10

6K8

3B17

35V4u7

2B22

+5V_SW

+5V_STANDBY

+1V8S_SW

7B05

SI4423DY

SS24

470R

3B12

6B01

+5V_SW

1%1K0

3B14

IB11

IB13

2B14

220p

2B15

22n

GNDDC

10u

5B01

2B12

22u

L5973D

7B01

+1V2_MOJO

+5V_SW

FB20

2B26

16V10u

FB19

+3V3_MOJO

FB16

+3V3_SW

10u

2B23

16V 16V

FB17

+3V3_STBY

+5V_SW

10u

2B21

FB13

LD1117DT

7B08

16V

2B10

100u

47u

7B06

LD1117DT33C

2B18

10u 16V

16V

2B24

LD1085D2T33

7B04

+5V_STANDBY

POWER_DOWN

STANDBY

BACKLIGHT_BOOST

BL_ADJUST

BL_ON_OFF

STANDBY

B02 B02

3139 123 6261.1

G_16860_001.eps

250107

Item

EU-LCD

EU-PDP

EU iTV - LCD

Description

R LOC 02MP 7U4 V53 MS PACLE22B2

R LOC 02MP U01 V61 MS PACLE32B2

R LOC 02MP U01 V61 MS PACLE62B2

LOC 5MP

8K6 3060 MS TSR71B3

LOC 5MP 8K6 3060 MS TSR81B3

LOC 50R0 .PMUJ 3060 MS TSR55C4

LOC 50R0 .PMUJ 3060 MS TS

R65C4

LOC 50R0 .PMUJ 3060 MS TSR75C4

LOC 50R0 .PMUJ 3060 MS TSR85C4

LOC 50R0 .PMUJ 3060 MS TSR95C4

LOC 50

R0 .PMUJ 3060 MS TSR06C4

LOC 50R0 .PMUJ 3060 MS TSR16C4

LOC 50R0 .PMUJ 3060 MS TSR26C4

R)HSIV(50B7

R )00T

S( C33TD7111DL MS CI60B7

R )00TS( TD7111DL MS CI80B7

Circuit Diagrams and PWB Layouts 37LC7.1E LA 7.

SSB: Tuner & Demodulator

COM

OUTIN

O2ISWI

GND

O2IGND

GND

4X1

4X2

VDD

VEEVSS

MTMT

SIF

AGC

AFC DETECTOR

PORTS

INTERCARRIER MIXER AND

AM-DEMODULATOR

I C-BUS TRANSCEIVER

RC VCO

NARROW-BAND FM-PLL

DIGITAL VCO CONTROL

SOUND TRAPS

4.5 to 6.5 Mhz

AUDIO PROCESSING

MAD

TUNER AGC VIF AGC

SUPPLY OUTPUT

VIF-PLL

SINGLE REFERENCE QSS MIXER

AND SWITCHES

DEMODULATOR

TUNER IF & DEMODULATOR

RES

DEMODULATOR

TUNER

SAW FILTERS DVB ONLY

ANALOG DIGITAL

4110

4111

4112

4113

4114

4115

4116

4117

4118

4119

RES

RESERVED

40.4MHz

Trap

3113/4110 & 2110/4111

at same position

RES

4120

4121

4122

4123

4124

ONLY FOR ANALOG TV

RES

RES RES

RES

1V3

4V9

4V3

2V1

1V5

2V1

2V3

** ***

12345678910111213

1101 A6

1102 B4

1103 C4

1104 E4

2110 B2

2111 B2

2112 B11

2113 B10

2114 B2

2115 B6

2116 B6

2117 C3

2118 C10

2119 C8

2120 C9

2121 E7

2122 D7

2123 F3

2124 F2

2125 F3

2126 F3

2127 F5

2128 F7

2129 H11

2130 H11

2131 I11

2132 I11

2133 G6

2134 H7

2135 H8

2136 H6

2137 H5

2138 H2

2139 H5

2140 I3

2141 I3

2142 C9

2143 F5

2144 I3

2145 I3

2146 B6

2147 A8

2148 A9

2149 B11

2151 C9

3110 A12

3111 A11

3113 B2

3115 B12

3116 B3

3117 C3

3118 D2

3119 D1

3120 D8

3121 E8

3122 D2

3123 E3

3124 E2

3125 G7

3126 H7

3127 H6

3128 I4

3129 I3

3130 B8

3131 D10

3132 E10

3133 H10

3134 H10

3135 F7

3136 A8

3137 A9

4110 B2

4111 B2

4112 B6

4113 B8

4114 C7

4115 C7

4116 C7

4117 C7

4118 C7

4119 C7

4120 D8

4121 D10

4122 E10

4123 D7

4124 G8

4125 B11

5110 B2

5111 B1

5112 B9

5113 C5

5114 H11

5115 H11

5116 G8

5117 B5

5118 A8

5120 D8

5121 E8

6103 C3

6110 A11

7109 D2

7111 B10

7113 F2

7114 G7

7131 D11

7132 E11

7133 A8

A110 B1

A115 B5

A116 B5

A124 C5

A125 C5

F111 B3

F112 B6

F114 H10

F115 B7

F116 B7

F117 B7

F118 B7

F119 B7

F120 B7

F121 B7

F122 B7

F123 B7

F126 C7

F127 C7

F128 F2

F129 H11

F130 G6

F131 H11

F132 B6

F133 B9

F134 A8

F140 G8

I110 B2

I111 A12

I112 B3

I114 C4

I118 C4

I120 D2

I121 D10

I122 D7

I123 E10

I124 E3

I125 F4

I126 F3

I127 F3

I128 G6

I129 G6

I130 H6

I131 H5

I133 I4

I135 I4

I136 I4

I137 B8

I138 G7

I139 G7

I141 D1

I142 F5

I143 H3

I144 H4

I145 A9

I146 A8

I147 A8

I131

7109

BC847B

4125

5121 120R

5120 120R

I147I146

2149

2u2

50V

10u

2151

I145

5118

220R

+12V_DISP

100n

2148

330n

2147

47R

3137

47R

3136

7133

L78M05CDT

1u0

2146

3135

15R

I143 I144

I142

+5V_IF

I141

3134

1R0

3133

2144 10n

1n0

2143

2145 1n0

5114

5115

10u

220R

5112

I139 F140

I138

I136

I137

+3V3_SW

+5V_IF

7132

BSH111

4K7

3132

+3V3_SW

BSH111

7131

3131

4K7

+5V_IF

F132

50V

2142

10u

1K0

3130

5117

RES

4124

5u6

5116

2135

15p

2134

I110

I112

180R

3126

A116

A115

F112

F130

41114110

I111

I123

F134

I121

F115

F116

2128

10n

1u0

2115

2116

1u0

F111

2114

3p3

2111

68p

2110

220p

3113

47R

5110

A125

A124

150R

3125

+5VS

BC847B

7114

F114

38M9

1102

OFWK3953M

4123

OFWK9656M

1103

38M9

F123

F122

F121

F119

F120

F118

I120

F117

I114

I118

+5V_IF

F131

6K8

3116

2K2

3117

2117

10n

5113

RES

10n

2113

2120

22u

15p

2121

4122

4121

4116

2122

15p

100n

2119

+5V_IF

2131

22u 2132

+5V_SW

22u

SCL

SDA

6XTAL_OUT

4112

IF_AGC

9IF_OUT1

IF_OUT2

11 IF_OUT3

1314

RF_AGC

TUNER

7+5V

DC_PWR

TD1316AF/IHP-2

1101

4120

+VTUN

4113

4118

4119

4117

4115

4114

74HCT4053D

7111

MDX 6

F127

F126

3120 10R

F133

I122

3121 10R

10n

2118

3110

+5V_IF

3111 5K6

8K2

BAS316

6110

39K

3115

10u

2112

A110

+5V_IF

3118

2K2

6103

5111

390n

1SS356

3119

22K

3122

18K

I130

I128

I129

I125

I133

+5VS

F128

+5VS

+5V_SW

9TOP

VAGC 16

1VIF1

2VIF2

19VPLL

20 Vp

OP2

15REF

11 SCL

10 SDA

23 SIF1

24 SIF2

12 SIOMAD

14TAGC

AGND

8AUD

17CVBS

5DEEM

7 DGND

4 FMPLL

13 NC

3 OP1

TDA9886T/V4

7113

21AFC

6AFD

2136

470n

10n

2133

3127

5K6

10n

2137

390p

2139

I126

I127

I135

I124

F129

2141

2140

22u

2129 2130

10n

100R

100R3129

10n

3128

2138

22p

4M0

1104

2127

330R

3123

1n5

2123

2125

470n

220n

2126

100R

22n

2124

3124

+12V_DISP

I2C_TDA_SDA

CVBS_RF

IF_ATV

DVB_SW

WAGC_SW

IIC_SDA

IIC_SCL

I2C_TDA_SCL

VIP_IBO

VIM_IBO

RF_AGC_IBO

IF_AGC_IBO

4MHZ_CLK

SAW_SW

SIF1

RF_AGC

IF_ATV VIF2

VIF1

SIF2

VIF2

VIF1

SIF2

SIF1

SIF

RF_AGC

IIC_SCL

IIC_SDA

B03A B03A

3139 123 6261.1

G_16860_002.eps

240107

38LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

SSB: DVB - Demodulator (Not implemented in this chassis)

MPEG-TS (PARALLEL)

I2C

MPEG-TS (SERIAL)

JTAG

DVB - DEMODULATOR

COFDM

CHANNEL DECODER

3V2

1V3 1V6

3V2

1V3 1V6

2V8

1V3

1V5

0V7

0V6

2V3

3V2

4V6

2V4

2V2

1V7

1V3

2V2

3V3

3V2

IF11 B6

IF12 C5

IF13 C7

IF14 D3

IF15 D4

IF16 D6

IF17 D6

IF18 D2

IF19 E6

IF20 E10

IF21 E10

IF22 E10

IF23 E10

IF24 E10

IF25 E10

IF26 F10

IF27 F10

IF28 F10

IF29 F10

IF30 F10

IF31 F9

IF32 C1

3F46 F6

3F48 F6

4F11 D3

4F12 D3

5F10 A10

5F11 B10

7F01 C7

7F02 B4

7F03 B4

7F04-1 C2

7F04-2 D2

FF10 B5

FF11 B8

FF12 B9

FF13 C5

FF14 C9

FF16 D4

FF17 D6

FF18 D4

FF19 D6

FF20 D4

FF21 D6

FF22 E6

FF23 E6

FF24 E6

FF25 F6

FF26 F6

FF27 F6

FF28 F6

FF29 F6

FF30 F6

IF10 B4

3F15 C4

3F16 C6

3F17 C5

3F18 C6

3F19 C5

3F20 C6

3F21 C10

3F22 D3

3F23 D1

3F24 D2

3F25 D5

3F26 D5

3F27 D3

3F28 D4

3F29 D5

3F30 E6

3F31-1 E9

3F31-2 E9

3F31-3 E9

3F31-4 E9

3F32-1 F9

3F32-2 F9

3F32-3 F9

3F32-4 E9

3F33 E6

3F34-1 F9

3F34-2 F9

3F34-3 F9

3F40 F6

3F41 F3

3F42 F3

3F44 F6

2F10 B10

2F11 B10

2F12 B7

2F13 B9

2F14 B8

2F15 B8

2F16 B8

2F17 B9

2F18 B10

2F19 B9

2F20 B9

2F21 B10

2F22 C7

2F23 C9

2F24 C10

2F25 C10

2F26 C6

2F27 C2

2F28 D3

2F29 D5

2F30 D1

2F31 D5

2F32 D5

2F33 D4

3F10 B5

3F11 B4

3F12 B6

3F13 B5

3F14 C5

TDA_DAT(0:7)

123456

TDA10046AHT

7891011

1234567891011

IF32

+3V3FE

2F10

100n

+3V3

5F10

60R

16V

2F11

47u

FF14

FF12

FF30

FF11

FF29

FF27

FF19

FF25

FF13

FF17

FF10

2F18

+5V_SW

+3V3

100n

+5V_SW

+3V3FE

+5V_SW

+3V3FE

10K

3F33

IF12

74AHC1GU04GW

330R

7F03

3F12

220K3F17

330R

3F14

680K

3F15

IF11

+3V3

74AHC1GU04GW

7F02

390R

3F16

220K3F13

330R

3F10

680K

+3V3FE

+1V8S_SW

3F11

+5V_SW +5V_SW

+1V8S_SW

+5V_SW

+5V_SW +5V_SW

IF18 IF17

2F16

100n

3F21

33R

FF16

FF20

FF24

FF18

FF21

33R

3F30

IF29

IF30

33R

3F34-3 36

IF28

33R

3F34-2

33R

3F34-1

33R3F32-1

33R27

33R3F32-3 3 6

3F32-2

3F32-4 4 5

33R

3F31-1 33R

3F31-2 33R

33R3F31-3 3 6

33R45

10p

2F33

3F31-4

100n

2F30

4K7

3F23

IF31

4F11

100n

2F27

3F24

100K

LM393D

7F04-2

LM393D

7F04-1

60R

5F11

IF26

IF27

IF25

IF24

IF22

IF23

IF21

FF28

IF20

FF26

FF22

IF10

IF13

IF16IF15

4F12

IF14

1K0

4K7

3F20

100n

3F26

2F29

3F48 100R

100R3F46

16V47u

2F21

3F44 100R

100R

3F40

100n

2F26

680K

100n

2F28

100K

3F223F27

4K7

3F19

100K

3F25

100K

3F28 3F29

100K

FF23

2F31

IF19

2F32 100n

100n

2K7

3F41 3F42

2K7

2F15

100n

2F14

2F12

100n

2F20

2F17

100n

2F19

100n

2F13

2F24

100n

2F25

100n

2F23

100n

2F22

3F18

10K

VSSA_OSCVSSA_OSC

VSS_PLL_ADCVSS_PLL_ADC

XIN

54 XIN

55 XOUTXOUT

VSS1

VSS2VSS2

VSS3

VSS4VSS4

VSS5VSS5

VSS6

VSS7

VSSA_ADCVSSA_ADC

VDDE33_2VDDE33_2

VDDE33_3VDDE33_3

475

VDDI18_1VDDI18_1

VDDI18_2VDDI18_2

VDDI18_3

VDDI18_4VDDI18_4

VIM

61 VIM

VIP

62 VIP

VSS1

TRST

UNCOR 33

UNCOR

VDD18_PLL_ADC

VDD33_ADCVDD33_ADC

VDDA18_OSC

VDDA18_PLL

VDDA33_ADCVDDA33_ADC

VDDE33_1VDDE33_1

S_PSYNC

S_UNCORS_UNCOR 27

TCKTCK 18

TDI 17

TDI

TDO 20

TDO

TEST

12 TEST

TMSTMS

TRST 14

SADDR1SADDR1

SCLSCL

SCL_TUNSCL_TUN

SDA

8SDA

4SDA_TUNSDA_TUN

S_DENS_DEN

S_DOS_DO

S_OCLKS_OCLK 31

GPIO0

GPIO1GPIO1

GPIO2

25 GPIO2

GPIO3GPIO3

OCLK 37

OCLK

PSYNC 35

PSYNC

SACLK 51

SACLK

SADDR0

11 SADDR0

DO2 41

DO2

DO3DO3 43

DO4DO4

DO5DO5 46

DO6 48

DO6

DO7 49

DO7

ENSERI 13

ENSERI

GPIO0

7F01

AGC_IF

2AGC_IF

AGC_TUNAGC_TUN

9CLR_CLR_

DEN 36

DEN

DO0 38

DO0

DO1 39

DO1

4MHZ_CLK

TDA_CLK

TDA_VALID

TDA_SYNC

FE_LOCK

TDA_DAT(1)

TDA_DAT(2)

TDA_DAT(3)

TDA_DAT(4)

TDA_DAT(5)

TDA_DAT(6)

TDA_DAT(7)

COMP_OUT

IF_AGC_IBO

4MHz_MOJO

TDA_DAT(0)

I2C_TDA_SCL

I2C_TDA_SDA

VIP_IBO

VIM_IBO

RF_AGC_IBO

I2C_LOCAL_SDA

I2C_LOCAL_SCL

STV_TDO

10046_TDO

JTAG_TMS

JTAG_TRST

RES

RESET_FE_n

COMP_OUT

JTAG_TCK

B03B B03B

3139 123 6261.1 G_16860_003.eps

240107

Circuit Diagrams and PWB Layouts 39LC7.1E LA 7.

SSB: DVB - Common Interface (Not implemented in this chassis)

3EN2

3EN1

INTERRUPTS

UCSG

INTERFACE

TS INTERFACE

I C

MANAGEMENT

PCMCIA

CONTROLLER

68p PCMCIA

CONNECTOR

LATCH

BUS TRANSCEIVER

CURRENT

SWITCH

DVB-COMMON INTERFACE

3V2

2V8

4V6

1V6

2V2

1V3

2V2

1V5

1V3

2V2

2V5

3V2

EMC

FK74 H7

FK75 H8

FK80 H7

FK81 H15

FK82 I15

FK83 I15

FK84 E15

IK68 C10

IK69 C10

IK70 F15

IK72 F16

IK73 C10

IK75 F11

IK76 C11

IK84 F8

IK85 C4

FK39 I8

FK40 I7

FK41 I8

FK42 I7

FK43 I8

FK44 J7

FK45 J8

FK46 J7

FK47 J8

FK48 J7

FK49 J8

FK50 J7

FK51 J8

FK52 J7

FK53 J8

FK54 J7

FK55 J8

FK56 J7

FK57 J8

FK58 J7

FK59 J8

FK60 J7

FK61 J8

FK62 J8

FK63 J7

FK67 H8

FK68 H7

FK69 H8

FK70 H7

FK71 H8

FK72 H7

FK73 H8

FK02 E10

FK05 F9

FK06 F14

FK10 H7

FK11 H8

FK12 H7

FK13 H8

FK14 H7

FK15 H8

FK16 H7

FK17 H8

FK18 I7

FK19 I8

FK20 I7

FK21 I8

FK22 I7

FK23 I8

FK24 I7

FK25 I8

FK26 I7

FK27 I8

FK28 I7

FK29 I8

FK30 I7

FK31 I7

FK32 I7

FK33 I8

FK34 I7

FK35 I8

FK36 I7

FK37 I8

FK38 I7

3K33 B3

3K34-1 B3

3K34-2 C3

3K34-3 C4

3K34-4 C4

3K38 B4

3K39 B4

3K40 B4

3K41 B5

3K42 B5

3K43 B5

3K44 B5

3K45 B5

3K46 B5

3K47 B5

3K48 B6

3K49 H2

3K50 H2

3K51 J6

3K52 B4

5K01 G14

5K02 H14

5K03 H14

5K04 I14

5K05 I14

7K00 E1

7K01 H3

7K02 I3

7K03 J3

7K04 F8

7K05 E15

FK01 E9

3K06 J9

3K07 J9

3K08 J6

3K09 F9

3K10 E14

3K11 F16

3K12 F10

3K13 F14

3K15 B9

3K16 B9

3K17 B9

3K18 B9

3K19 B9

3K20 B9

3K21 B9

3K22 B9

3K23-1 K4

3K23-2 K4

3K23-3 K4

3K23-4 K4

3K24-1 K4

3K24-2 K4

3K24-3 K4

3K24-4 K4

3K25 J4

3K26 K4

3K27 B2

3K28 B2

3K29 B3

3K30 B3

3K31 B3

3K32 B3

2K00 H4

2K01 I4

2K02 H15

2K03 H15

2K04 J2

2K05 G15

2K06 H15

2K07 F14

2K08 H15

2K09 H15

2K10 H15

2K11 I15

2K12 I15

2K13 I15

2K14 F9

2K15 K4

2K16 F8

2K17 G8

3K00 F2

3K01 F2

3K02-1 F4

3K02-2 F4

3K02-3 F4

3K03-1 F5

3K03-2 F5

3K03-3 F5

3K03-4 F5

3K04 H9

3K05-1 F5

3K05-2 F5

3K05-3 F5

3K05-4 F6

9 10111213141516

1K00-A H7

1K00-B H8

1 2 3 4 5 6 7 8 9 10111213141516

12345678

IK85

IK84

47n

2K17 2K16

47n

FK83

FK81

FK82

+3V3_BUF

+3V3_CORE

+3V3

+3V3_CORE

2K13

10u 16V

60R

5K05

+3V3

100n

2K12

10u

2K11

16V

5K04

60R

+3V3 +3V3_STV

2K10

100n

2K09

2K08

100n

2K06

10u 16V

60R

5K03

33R

3K50

33R3K49

4K7

3K51

4K7

3K52

47R3K34-4

47R3K34-3

47R

3K34-2

47R3K48

3K47 47R

47R3K46

3K45

47R3K44

47R

3K43 47R

47R3K42

3K41 47R

47R3K40

3K39 47R

3K38

47R

3K34-1

3K33 47R

47R3K32

47R3K31

47R3K30

3K29 47R

47R3K28

3K27 47R

2K15 100p

33R3K26

3K25

33R

33R3K24-4 33R3K24-3

33R3K24-2 2 7 33R3K24-1 1 8

33R3K23-4

33R3K23-3

33R

3K23-2 33R

3K23-1 1

PCMCIA_AVCC

PCMCIA_VPP

PCMCIA_AVCC

+3V3_STV

PCMCIA_5V

PCMCIA_VPP

GND

VCC

+3V3_BUF

7K03

PCMCIA_5V

74LVC245A

+3V3_STV

+5V_SW

2K14

1n0 FK01

FK02

+3V3_STV

FK05

10K

RDY|BSY

VCC1

VPP1

WE|P 15

WP|IOIS16 33

3K09

GND1

GND2 34

6970

A8 12

CE1

A14

A15 19

A16

A2 26

A3 25

A4 24

A6 23

ROW_A

1K00-A

A0 28

A10 8

A11

A12

A13

VS2

WAIT

IORD

44 IOWR

7172

REG

RESET

VCC2

51 VPP2

VS1

39 D13

D14

40 D15

64 D9

GND3

GND4

INPACK

BVD2|SPKR

CD1

CD2

CE2

D10

D11

38 D12

A19

48 A20

49 A21

A22

53 A23

54 A24

55 A25

BVD1|STSCHG

ROW_B

1K00-B

A17

46 A18

FK63

FK67

FK62

FK80

FK69

FK71

FK68

FK70 FK73

FK75

FK72

FK74

FK11

FK13

FK10

FK12

FK15

FK17

FK14

FK16 FK19

FK21

FK18

FK20

FK23

FK25

FK22

FK24

FK27

FK29

FK26

FK28

FK31

FK30

FK33

FK32

FK34 FK35

FK37FK36

FK38 FK39

FK41FK40

FK42 FK43

FK45FK44

FK46 FK47

FK49FK48

FK50 FK51

FK53FK52

FK54 FK55

FK57FK56

FK58 FK59

FK61

IK68

FK60

IK69

IK73

IK75 IK76

FK84

FK06

IK72

IK70

VDD 3

+5V_SW

27M

7K04

GND

33R

3K05-4

3K12

10K

3K05-3 33R

33R

3K05-2

3K05-1 33R

3K03-4

3K03-3 33R

33R

3K03-2

3K03-1 33R

33R

3K02-3

33R

3K02-1

3K02-2 33R

100n

2K03 100n

2K05

2K02

100n

5K01 PCMCIA_AVCC

PCMCIA_VPP

60R

5K02

60R

PCMCIA_5V

5SET

10K

3K06

FAULT_

GND

IN1 1

IN2 2

ON_

OUT1

6OUT2

ST890C

7K05

2K0

3K13

2K07

10u

3K01

PCMCIA_5V

100R

3K00

3K07

10K

+3V3_STV

3K04

3K08

+3V3_STV

10K

2K00

100n

2K01

100n

2K04

15Q4

14Q5

13Q6 12Q7

VCC

8D6

9D7

GND

OE_1

19Q0 18Q1

17Q2

16Q3

2D0

3D1

4D2

5D3

6D4

Q3 16

15Q4

14Q5

13Q6 12Q7

VCC

7K01

74LVC573ADB

6D4

7D5

8D6

9D7

GND

1 OE_

Q0 19

18Q1

7K02

74LVC573ADB

2D0

D13

4D2

5D3

10K

3K11

3K16 10K

10K

3K15

10K

3K22

3K17 10K

3K20 10K

10K

3K18

3K21 10K

10K

3K19

10K

3K10

121

WAITB_

WAIT|ACK

WE_ 97

WR|STR

+3V3_STV

TRST_

VCC-CORE 36

109

VCC-PROC

VCC-TSI 51

VCC-TSO 64

VCCEN 70

WAITA_ 122

119

32 SA0

SA1

31 SCL

SDA

TCK

TDI

TDO

TMS

OE_

RDY|IRQA_ 101

RDY|IRQB_ 100

17 RD|DIR

REG_ 123

RESET

RSTA 120

RSTB

63 118

MOCLKA

MOCLKB 117

MOSTRT

62 MOSTRTA 127

126

MOSTRTB

MOVAL

61 MOVALA 125

MOVALB 124

108

MICLKB

MISTRT

49 MISTRTA 92

MISTRTB 91

MIVAL

48 105

MIVALA

MIVALB 104

MOCLK

MDOB2

MDOB3 73

MDOB4 75

MDOB5 77

MDOB6 79

MDOB7 83

50 MICLK MICLKA 110

MDOA2

MDOA3 74

MDOA4 76

MDOA5 78

MDOA6 80

MDOA7 84

MDOB0 128

MDOB1 2

MDO3

57 MDO4

MDO5

MDO6

MDO760

MDOA0 1

MDOA1 3

102

MDIB3

MDIB4 106

MDIB5 111

MDIB6 113

MDIB7 115

MDO0

MDO1

MDO2

103

MDIA3

MDIA4 107

MDIA5 112

MDIA6 114

MDIA7 116

MDIB0 93

MDIB1 95

MDIB2

43 MDI3

MDI4

MDI5

MDI6

MDI747

MDIA0 94

MDIA1

MDIA2

GND-TSI

GND-TSO 52

INT

IORD_ 89

IOW_R 90

MDI0

41 MDI1

MDI2

18 CS

DATDIR 68

DATOE_ 69

EXTCS

EXTINT

GND-CORE 37

GND-DVB2 86

GND-PROC 9

CD1B_

CD2A_ 7

CD2B_ 6

CE1A_ 82

CE1B_ 81

CE2A_ 87

CE2B_ 85

CLK

A21

A22

A23

A24

A25

ADLE 66

ADOE_ 67

CD1A_ 72

A15

A16

A17

A18

A19

A20

A_MDO(0:7)

A_MDI(0:7)

STV0700L

7K00

|DATOE

DATDIR

TDA_DAT(0:7)

TS_DATA(0:7)

TS_SYNC

TS_CLK

TS_VALID

A_MOSTRT

A_MOVAL

A_MISTRT

A_MOCLK

A_RESET

A_|WAIT

A_|INPACK

PCMCIA_|REG

A_MOVAL

A_MOSTRT

A_|CD2

A_MOCLK

A_|RDY|IRQ

A_MIVAL

A_MICLK

A_|IOIS16

A_|CD1

A_|CE2

A_|VS1

PCMCIA_|IORD

PCMCIA_|IOWR

|ADOE

ADLE

A_|CE1

PCMCIA_|OE

PCMCIA_|WE

I2C_LOCAL_SCL

I2C_LOCAL_SDA

VCCEN

JTAG_TMS

JTAG_TRST

VCCEN

A_|WAIT

PCMCIA_|WE

A_MISTRT

A_MICLK

A_MIVAL

PCMCIA_|OE

A_|RDY|IRQ

PCMCIA_|REG

RESET_STV

A_RESET

JTAG_TCK

STV_TDI

STV_TDO

MIU_ADDR(20)

STV_A25

ADLE

|ADOE

A_|CD1

A_|CD2

A_|CE1

A_|CE2

DATDIR

|DATOE

STV_INT

PCMCIA_|IORD

PCMCIA_|IOWR

STV_CS

MIU_DATA(0:15)

MIU_DATA(0)

MIU_DATA(1)

MIU_DATA(2)

MIU_DATA(7)

MIU_DATA(6)

MIU_DATA(5)

MIU_DATA(4)

MIU_DATA(3)

TDA_VALID

TDA_SYNC

MIU_ADDR(0)

MIU_ADDR(1)

MIU_ADDR(2)

MIU_ADDR(3)

MIU_ADDR(4)

MIU_ADDR(5)

MIU_ADDR(6)

MIU_ADDR(7)

MIU_WEN

MIU_OEN

MIU_RDY

MIU_ADDR(21)

MIU_ADDR(22)

MIU_ADDR(23)

MIU_ADDR(24)

MIU_ADDR(12)

MIU_ADDR(10)

MIU_ADDR(11)

MIU_ADDR(8)

MIU_ADDR(9)

MIU_ADDR(14)

MIU_ADDR(13)

TS_DATA(6)

TS_DATA(5)

TS_DATA(4)

TS_DATA(3)

TS_DATA(2)

TS_DATA(1)

TS_DATA(0)

MIU_ADDR(0:24)

MIU_ADDR(15)

MIU_ADDR(16)

MIU_ADDR(17)

MIU_ADDR(18)

MIU_ADDR(19)

PCMCIA_A(1)

PCMCIA_A(0)

PCMCIA_A(10)

PCMCIA_A(11)

PCMCIA_A(9)

PCMCIA_A(8)

PCMCIA_A(13)

PCMCIA_A(14)

PCMCIA_A(12)

TDA_DAT(0)

TDA_DAT(1)

TDA_DAT(2)

TDA_DAT(3)

TDA_DAT(4)

TDA_DAT(5)

TDA_DAT(6)

TDA_DAT(7)

TDA_CLK

TS_DATA(7)

A_MDO(2)

A_MDI(0)

A_MDI(1)

A_MDI(2)

A_MDI(3)

A_MDI(4)

A_MDI(5)

A_MDI(6)

A_MDI(7)

PCMCIA_A(7)

PCMCIA_A(6)

PCMCIA_A(5)

PCMCIA_A(4)

PCMCIA_A(3)

PCMCIA_A(2)

PCMCIA_A(1)

PCMCIA_A(0) PCMCIA_D(0)

PCMCIA_D(1)

PCMCIA_D(2)

A_MDO(3)

A_MDO(4)

A_MDO(5)

A_MDO(6)

A_MDO(7)

A_MDO(0)

A_MDO(1)

PCMCIA_D(5)

PCMCIA_D(6)

PCMCIA_D(7)

PCMCIA_A(0:14)

PCMCIA_A(10)

PCMCIA_A(11)

PCMCIA_A(9)

PCMCIA_A(8)

PCMCIA_A(13)

PCMCIA_A(14)

PCMCIA_A(12)

PCMCIA_A(7)

PCMCIA_A(6)

PCMCIA_A(5)

PCMCIA_A(4)

PCMCIA_A(3)

PCMCIA_A(2)

A_MDI(0:7)

A_MDI(0)

A_MDI(1)

A_MDI(2)

A_MDI(3)

A_MDI(4)

A_MDI(5)

A_MDI(6)

A_MDI(7)

A_MDO(0:7)

A_MDO(0)

A_MDO(1)

A_MDO(2)

A_MDO(3)

A_MDO(4)

A_MDO(5)

A_MDO(6)

A_MDO(7)

PCMCIA_D(0:7)

PCMCIA_D(0)

PCMCIA_D(1)

PCMCIA_D(2)

PCMCIA_D(7)

PCMCIA_D(6)

PCMCIA_D(5)

PCMCIA_D(4)

PCMCIA_D(3)

PCMCIA_D(4)

B03C B03C

3139 123 6261.1

G_16860_004.eps

240107

40LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

SSB: DVB - Mojo (Not implemented in this chassis)

AVDD

IDUMP

(PWR)

VDDC

VDDP

VSSC

VSSP

TS_DATA

(TS)

TS_VAL

TS_STROBE

TS_SYNC

CVBS

SD_OUT

SCK_OUT

WS_OUT

SPDIF

FSCLK

CVBS

(AV)

DQM0

(SDRAM)

SDRAM_DATA

SDRAM_ADDR

HSCKB

CKE

RAS

CAS

DQM1

MIU_CS_N3

MIU_OE_N

MIU_WEN

MIU_MASK0

MIU_DATA

MIU_LBA

MIU_BAA

MIU_CLK

MIU_ADDR

(MIU)

MIU_MASK1

MIU_RDY

MIU_CS_N0

MIU_CS_N1

MIU_CS_N2

SC0_CCK

USB_DM

USB_DP

USB_PWR

SC0_CMDVCC

(I2C-USB-SCO)

SCL1

SDA0

SCL0

SDA1

SC0_DA

USB_OVRCUR

SC0_OFF

SC0_RST

PIO <0:15>

SC1_DA

SC1_CMDVCC

SC1_RST

SC1_OFF

SC1_CCK

CTS0

RTS0

RX0

TX0

DCD0

PLL_OUTX0

VCXO_CLOCK

BOOT <0:3>

PIO <16:27>

ITU_OUT

(GPIO)

TX1

DTR0

RX1

ITU_CLOCK

IR_IN

IR_OUT

PWM

VPP

DSU_TPC0

SYS_RESETN

TDI

TDO

PCST0

PCST1

TMS

TRST

TCK

RESETN

XTAL_IN

XTAL_OUT

AVDD_PLL

AVSS_PLL

(JTAG-ETAG-SYS)

DSU_CLK

DSU_TPC1

DVB-MOJO

100MHz

2V2

1V6

1V3

1V6

4V6

3V3

3V2

3V3

1V2

3V3

1V2

2V1

3V1

2V9

3V3

1V5

2V3

2V5

2V9

2V3

3V3

4V6

3V3

2V6

RES

3V3

3V2

POWER ON RESET

FOR DEV. ONLY

3V3

RES

FOR DVE. ONLY

PRO. FOR USB

CONFIGURABLE

RES

4G05 FOR DEVELOPMENT ONLY

4G01, 4G02, 4G03,4G04 FOR PRODUCTION

RES

1234567891011121314

1G01-1 A8

1G01-2 A9

1G03 D2

1G04 I1

2G02 G5

2G03 G6

2G04 G6

2G05 G6

2G06 H6

2G07 H6

2G08 H6

2G09 H6

2G10 H6

2G11 H6

2G12 F6

2G13 G6

2G14 G6

2G15 G6

2G16 G6

2G17 G6

2G18 G6

2G19 H9

2G20 I9

2G21 I9

2G22 H6

2G23 I6

2G24 I6

2G31 B4

2G32 C5

2G33 C5

2G34 D1

3G11 E6

3G12 E9

3G15 A4

3G16 A4

3G17 A4

3G18 A4

3G19 A4

3G20 A4

3G28 E14

3G29 F14

3G30 E14

3G31 E14

3G33 G2

3G34 G2

3G35 F2

3G36 F14

3G37 F14

3G38 A4

3G40 I8

3G41 E14

3G43 H2

3G44 H2

3G46 H2

3G47 I2

3G48 C6

3G51 G13

3G54 G13

3G55 G13

3G56-1 H10

3G56-2 H10

3G56-3 H10

3G56-4 H10

3G57-1 G10

3G57-2 H10

3G57-3 G10

3G57-4 H10

3G58-1 G10

3G58-2 H10

3G58-3 G10

3G58-4 H10

3G59-1 H10

3G59-2 H10

3G59-3 H10

3G59-4 H10

3G60 I11

3G61 I11

3G62 I11

3G63 F10

3G65 C2

4G01 B9

4G02 B9

4G03 B9

4G04 C8

4G05 C8

4G09 A2

4G10 A2

4G31 C4

5G01 F5

5G02 G5

5G03 C4

5G04 I6

7G00-1 F7

7G00-2 E3

7G00-3 F3

7G00-4 A12

7G00-5 G12

7G00-6 H4

7G00-7 D12

7G00-8 D7

7G06 C1

FG10 A7

FG11 A7

FG12 A7

FG13 A9

FG14 A7

FG15 A7

FG16 A7

FG17 H2

FG18 C6

FG19 H2

FG20 E13

FG21 E13

FG22 E13

FG23 E13

FG24 E14

FG25 E14

FG26 E9

FG27 F14

FG28 F13

FG29 F13

FG30 F13

FG31 H2

FG32 H3

FG33 H2

FG34 H3

FG35 H3

FG36 I3

FG37 C5

FG39 F6

FG40 A7

FG41 A7

FG42 C1

IG13 I8

IG14 F1

IG15 G1

IG16 G1

IG17 F11

IG18 F2

IG19 G2

IG20 G2

IG21 E6

FG26

FG10

FG11

IG21

FG21

FG20

4G31

100n

2G31

100n

IG19

IG20

2G32

IG18

4G05

4G04

4G03

4G02

4G01

567

BM05B-SRSS-TBT

1G04

FG13

FTSH

ROW_2

1G01-2

FG42

FTSH

ROW_1

1G01-1

+3V3_VDDP

3G11

10K

IG17

IG15

IG16

IG14

3G20 10K

4G10

4G09 FG40

FG41

10u

2G24

16V

2G23

10u 16V

2G22

16V10u

3G18

60R

10K

10u

5G04

16V2G18

2G17 16V10u

FG27

FG28

FG25

FG24

FG35

FG36

FG34

FG32

FG18

FG39

FG37

+3V3

3G65

1K0

33n

2G34

NCP303LSN30

7G06

GND

INP

OUTP

+3V3

SKQTLB

1G03

+3V3

10K

FG29

3G54

3G55

10K

3G51

FG30

3G37

10K3G36

10K

10K3G31

3G28 +3V3

3G29

10K

3G30

3G63 10K

3G62

3G61

33R

3G60

33R

3G59-4 33R

3G59-2 2

3G56-4 45

33R

3G56-2 27

33R

3G58-4 45

33R

733R3G57-4

3G58-2 33R

3G57-2 33R

33R

3G59-1 36

3G56-3 33R

33R3G59-3

33R3G56-1

3G58-3 333R3G58-1 1

33R

33R18

3G57-3

+1V2_MOJO

3G57-1

3G15

+1V2_MOJO

FG16

10K FG12

FG15

FG14

+3V3

3G40

1K2

FG33

FG31

10u 16V

2G33

IG13

10K

3G12

3G48 33R

10K

3G38

3G19 10K

5G03

100n2G11

2G10

2G09

100n

2G06

2G07 100n

2G08

2G03 100n

100n

2G04

100n

2G05

2G14 100n

100n

2G16

2G15

2G12 100n

5G02

100n

2G13

5G01

2G02 10u 16V

+3V3clean

2G21 100n

100n2G20

100n2G19

159

196

195 4

208

207

158

157

160

186

187

194

189

188

197

7G00-8

PNX8314HS

178

179

180

181

182

183

184

185

176

177

7G00-7

PNX8314HS

201

200

198

199

7G00-6

PNX8314HS

110

106

107

109

108

101

102

103

104

105

100

7G00-5

123

115

116

117

118

121

122

132

129

139

PNX8314HS

147

146

145

144

113

114

128

127

126

125

124

154

152

143

142

150

151

155

156

149

148

7G00-4

PNX8314HS

140

137

138

133

136

141

153

203

202

206

204 170

163

168

172

205 165

167

PNX8314HS

7G00-3

112

131

162

193

PNX8314HS

7G00-2

130

161

190

173

120

135

192

174

119

134

191

111

7G00-1

175

169

164

171

166

10K

PNX8314HS

3G16

10K

3G17

3G35 22R

3G33 22R

3G41 10K

FG22

FG23

22R

FG17

3G34

FG19

3G44 100R

100R3G43

3G47 100R

4MHZ_MOJO

JTAG_TCK

JTAG_TRST

JTAG_TMS

STV_TDI

100R

3G46

TS_DATA(0:7)

SDRAM_DATA(0:15) SDRAM_ADDR(0:14)

MIU_ADDR(0:24)

MIU_DATA(0:15)

MIU_WEN

NOR_RYBY

PIO21|ITU_OUT2|BOOT2

IBO_IRQ

DSW_I2C_enable

MOJO_TDI

10046_TDO

PIO19|ITU_OUT0|BOOT0

PIO20|ITU_OUT1|BOOT1

PIO22|ITU_OUT3|BOOT3

TS_CLK

TS_SYNC

TS_VALID DSW_n

MIU_DATA(13)

MIU_DATA(12)

MIU_DATA(11)

MIU_DATA(10)

MIU_DATA(9)

MIU_DATA(8)

MIU_DATA(7)

MIU_DATA(6)

MIU_DATA(5)

MIU_DATA(4)

MIU_DATA(3)

MIU_DATA(2)

MIU_DATA(1)

MIU_DATA(0)

MIU_OEN

STV_CS

NOR_CS

RXD0

TXD0

USB_DM

USB_DP

USB_OVRCUR

USB_PWR

MOJO_TCK

MOJO_TMS

MOJO_TRST

RESET_n

MIU_DATA(15)

MIU_DATA(14)

MIU_ADDR(0)

MIU_ADDR(1)

MIU_ADDR(10)

MIU_ADDR(11)

MIU_ADDR(12)

MIU_ADDR(13)

MIU_ADDR(14)

MIU_ADDR(15)

MIU_ADDR(16)

MIU_ADDR(17)

MIU_ADDR(18)

MIU_ADDR(19)

MIU_ADDR(2)

MIU_ADDR(20)

MIU_ADDR(21)

MIU_ADDR(22)

MIU_ADDR(23)

MIU_ADDR(24)

MIU_ADDR(3)

MIU_ADDR(4)

MIU_ADDR(5)

MIU_ADDR(6)

MIU_ADDR(7)

MIU_ADDR(8)

MIU_ADDR(9)

1V2_CORE

MOJO_I2S_OUT_SD

MIU_RDY

NOR_RYBY

SDRAM_CKE

SDRAM_DQM0

SDRAM_CAS

SDRAM_WE

1V2clean

SDRAM_ADDR(12)

SDRAM_ADDR(13)

MIU_WEN

MOJO_I2S_OUT_WS

STV_A25

STV_INT

NOR_WP

C_CVBS

B|Pb

G|Y

R|Pr

SDRAM_DQM1

SDRAM_RAS

SDRAM_CLK

SDRAM_ADDR(1)

SDRAM_ADDR(2)

SDRAM_ADDR(3)

SDRAM_ADDR(4)

SDRAM_ADDR(5)

SDRAM_ADDR(6)

SDRAM_ADDR(7)

SDRAM_ADDR(8)

SDRAM_ADDR(9)

SDRAM_ADDR(10)

SDRAM_ADDR(11)

SDRAM_ADDR(14)

SDRAM_DATA(0)

SDRAM_DATA(1)

SDRAM_DATA(2)

SDRAM_DATA(3)

SDRAM_DATA(4)

SDRAM_DATA(5)

SDRAM_DATA(6)

SDRAM_DATA(7)

SDRAM_DATA(8)

SDRAM_DATA(9)

SDRAM_DATA(10)

SDRAM_DATA(11)

SDRAM_DATA(12)

SDRAM_DATA(13)

SDRAM_DATA(14)

SDRAM_DATA(15)

FE_LOCK

user_EEPROM_WP

SDRAM_ADDR(0)

TS_DATA(1)

TS_DATA(2)

TS_DATA(3)

TS_DATA(4)

TS_DATA(5)

TS_DATA(6)

TS_DATA(7)

RESET_STV

RX_ZAP

TX_ZAP

I2C_LOCAL_SCL

I2C_LOCAL_SDA

RES

RESET_FE_n

IIC_SCL

IIC_SDA

MOJO_I2S_OUT_SCK

TS_DATA(0)

B03D B03D

3139 123 6261.1

G_16860_005.eps

240107

Circuit Diagrams and PWB Layouts 41LC7.1E LA 7.

SSB: DVB - Mojo Memory (Not implemented in this chassis)

SCL

ADR

2SDA

32M-1

VPP/WP_

BYTE

A-1

DQM L

CLK

RAS

CAS

VSS VSSQ

VDD VDDQ

CKE

2/4/8MB

NOR

FLASH

I2C ADDRESS:A0

DVB-MOJO MEMORY

100MHz

1V5

3V3

1V3

1V2

1V4

1V3

1V4

1V3

1V2

0V7

3V3

2V2

4V6

3V2

100MHz

12345678

2H03 C2

2H04 A7

2H06 B1

2H07 A6

2H08 C2

2H09 C2

2H10 C2

2H11 C2

2H12 C2

2H13 C2

2H14 D6

2H15 D6

3H00 C4

3H05 C7

3H09 E7

3H10 E7

3H11 E7

3H12 E7

3H13 E7

3H14 D5

4H00 C5

4H01 C5

4H02 C5

4H03 C5

4H04 C5

4H05 C7

4H12 E7

4H15 C7

5H01 B1

5H02 A6

5H03 D5

7H00 A6

7H02 C1

7H03 D5

FH00 E7

FH01 D5

FH02 E7

FH03 D6

FH04 E7

FH05 D5

FH06 D5

FH07 B2

FH08 A6

IH04 C5

IH06 C7

IH07 C7

100n

2H03

FH03

FH05

3H14

1R0

2H15

220n

FH08

IH07

+3V3_NOR48

16V10u

2H07

+5V_SW

220n

2H14

3H13 3K3

3K33H12

10K

3H11

+3V3 5H02

FH04

FH02

+3V3

+5V_SW

+3V3_NOR48

FH01

IH04

4H04

4H01

3H00 4H003K3

27 46

4Mx8/2Mx16

EPROM

M29W320ET70N

7H00

FH00

4H12

3H09

100R

3H10

M24C64-WMN6

7H03

(8Kx8)

EEPROM

5H03

4H02

4H03

4H05

FH06

IH06

4H15

10K

3H05

2H04

100n

FH07

43 49

28 41 54 6 12 46 52

114 27 3 9

EDS1216AGTA

SYNC

4x2Mx16

SDRAM

5H01

7H02

16V10u

2H06

2H11 100n

2H08

100n2H12

100n

100n2H09

100n

2H10

2H13 100n

NOR_RYBY

MIU_ADDR(20)

MIU_ADDR(21)

SDRAM_ADDR(0:14)

SDRAM_DATA(0:15)

MIU_DATA(0:15)

I2C_LOCAL_SCL

I2C_LOCAL_SDA

user_EEPROM_WP

MIU_DATA(1)

NOR_CS

NOR_WP

MIU_DATA(8)

MIU_DATA(9)

MIU_DATA(10)

MIU_DATA(11)

MIU_DATA(12)

MIU_DATA(13)

MIU_DATA(14)

MIU_WEN

MIU_ADDR(0:24)

MIU_ADDR(12)

MIU_ADDR(13)

MIU_ADDR(14)

MIU_ADDR(15)

MIU_ADDR(16)

MIU_ADDR(17)

MIU_DATA(15)

MIU_DATA(0)

MIU_DATA(2)

MIU_DATA(3)

MIU_DATA(4)

MIU_DATA(5)

MIU_DATA(6)

MIU_DATA(7)

MIU_ADDR(18)

MIU_ADDR(19)

MIU_ADDR(20)

MIU_ADDR(22)

MIU_OEN

RESET_n

SDRAM_ADDR(6)

SDRAM_ADDR(5)

SDRAM_ADDR(4)

SDRAM_ADDR(3)

SDRAM_ADDR(2)

SDRAM_ADDR(1)

SDRAM_ADDR(0)

SDRAM_ADDR(14)

SDRAM_ADDR(13)

MIU_ADDR(1)

MIU_ADDR(2)

MIU_ADDR(3)

MIU_ADDR(4)

MIU_ADDR(5)

MIU_ADDR(6)

MIU_ADDR(7)

MIU_ADDR(8)

MIU_ADDR(9)

MIU_ADDR(10)

MIU_ADDR(11)

SDRAM_DATA(5)

SDRAM_DATA(6)

SDRAM_DATA(7)

SDRAM_DATA(8)

SDRAM_DATA(9)

SDRAM_DATA(10)

SDRAM_DATA(11)

SDRAM_DATA(12)

SDRAM_DATA(13)

SDRAM_DATA(14)

SDRAM_DATA(15)

SDRAM_ADDR(11)

SDRAM_ADDR(10)

SDRAM_ADDR(9)

SDRAM_ADDR(8)

SDRAM_ADDR(7)

SDRAM_ADDR(12)

SDRAM_DQM1

SDRAM_DQM0

SDRAM_WE

SDRAM_CAS

SDRAM_RAS

SDRAM_CKE

SDRAM_CLK

SDRAM_DATA(0)

SDRAM_DATA(1)

SDRAM_DATA(2)

SDRAM_DATA(3)

SDRAM_DATA(4)

RES

B03E B03E

3139 123 6261.1

G_16860_006.eps

240107

42LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

SSB: DVB - Mojo Analog Back End (Not implemented in this chassis)

DVB-MOJO ANALOG BACK END

ESD Protection

UART CON FOR COMPAIR ONLY

RES

RES RES

RES

EMC

RESRES RES

1V8

1V2

123456789

1001 D7

1002 D7

1J14 D6

2J01 B7

2J02 B7

2J04 B8

2J05 C8

2J06 C9

2J14 D8

2J15 D8

2J60 A2

2J62 B3

2J63 B2

2J64 C2

2J66 C2

2J67 C3

2J68 D2

2J69 D2

2J70 D3

2J71 E2

2J72 E2

2J73 E2

3J01 B8

3J02 B8

3J03 B6

3J14 D8

3J15 D8

3J59 B2

3J60 B3

3J61 C2

3J62 C3

3J63 D2

3J64 D3

3J65 E2

3J66 E3

4J14 D8

4J15 D8

5J01 A6

5J52 A2

5J53 C2

5J54 D2

5J55 E2

6J03 C7

6J14 D7

6J15 D8

6J60 B3

6J61 C3

6J62 D3

6J63 E3

7J04 B9

7J05 B7

FJ01 B9

FJ02 D6

FJ22 A4

FJ23 C4

FJ24 D8

FJ25 D8

FJ26 D4

FJ27 E4

IJ01 B7

IJ02 B8

IJ11 A8

IJ63 B1

IJ64 C1

IJ65 C1

IJ66 C1

IJ67 D8

IJ68 D8

FJ22

PESD5V0S1BA

6J63 6J62

PESD5V0S1BA PESD5V0S1BA

6J61 6J60

PESD5V0S1BA

BAS316

6J03

3J03

100R

IJ68

IJ67

2J06

100n

FJ23

IJ11

FJ02

FJ01

IJ02

IJ01

1002

1001

4J14

4J15

FJ25

FJ24

330p

2J14

100R3J15

2J15

3J14 100R

6J15

BZX384-C6V8

345

BZX384-C6V8

6J14

1J14

S3B-PH-SM4-TB

2J01

10u 16V

60R

5J01

+3V3clean

2J02

100n

+3V3_MOJO

+1V8S_SW

+3V3

SI2301BDS

7J04

2J05

100u 16V

2J04

22u 16V

22K

3J01

3J02

12K

+3V3_MOJO

7J05

PDTC114ET

FJ27

FJ26

47R

3J66

3J64

47R 47R

3J62

47R

3J60

2J71

22p

2J68

2J64

22p

2J73

2J60

68p

2J72

180p

68p

2J70

2J69

180p

68p

2J67

180p

2J66

2J62

180p

68p

2J63

180R

3J61

3u3

5J53

3J65

5J55

3u3

180R

3J59

3u3

180R

5J52

3J63

180R

3u3

5J54

IJ66

IJ64

IJ65

IJ63

TXD0

RXD0

IBO_G_IN

IBO_B_IN

IBO_CVBS_IN

IBO_R_IN

B|Pb

R|Pr

C_CVBS

G|Y

B03F B03F

3139 123 6261.1

G_16860_007.eps

240107

Circuit Diagrams and PWB Layouts 43LC7.1E LA 7.

SSB: Micro Processor

BYTE

A-1

8M-1

DA1

TA3OUT

ADDR

P1<0:7>

ANEX0

HLDA

HOLD

RXD1

INT<3:5>

TA2IN

XTAL

TA4OUT

RESET

SOUT4

CLK4

AVCC

TA1IN

VSS

TA2OUT

SIN4

TXD1

BYTE

P9<0:7>

CLK3

CTS1

SDA2

RDY

WRL

NMI

TA3IN

CLK1

TA1OUT

TB5IN

TA0OUT

SIN3

ANEX1

DA0

P6<0:7>

TA4IN

INT

D<0:7>

ADDR

KI<0:3>

AN0<0:7>

WRH

BHE

P3<0:7>

RTS1

P7<0:7>

DATA

CLK2

CTS2

RTS2

D<0:7>

TBIN<0:4>5

VCC

CLKOUT

P4<0:7>

ALE

P5<0:7>

OUT

AVSS

P0<0:7> SOUT3

BCLK

ADDR

ADTRG

CNVSS

TA0IN

RXD2

SCL2

XCOUT

A<0:7>

P2<0:7>

P8<0:7>

SDA1

SDA0

SCL1

CTS0

RTS0

CTS0

CLK0

CLKS1

VREF

TXD0

RXD0

TXD2

DATA

P10<0:7>

XCIN

AN2<0:7>

SCL1

SUB

GND

VOUT

VDD

SCL

ADR

2SDA

MICROPROCESSOR

RES

SDM

COMPAIR

ITV_Connector A:

EMC

TO / FROM IR/ LED & KEYBOARD

RES

RES RES

RES FOR PSU_STBY

RES

For Development only

BOOT LOADER

RES

UART CON

PANEL

RES

FOR DVB ONLY

RES FOR BDS

RES

TO / FROM SIDE IO

RES

FOR EMC

RES

1V5

3V3

0V8

3V2

3V3

3V2

1 2345678910111213

1301 B3

1302 I2

1303 I2

1304 A9

1305 I9

1306 H8

1307 I8

1308 I8

1309 I8

1310 I9

1311 H7

1312 H5

1314 I3

1M20 H8

2310 A4

2311 C13

2312 A4

2313 A4

2314 B3

2315 B1

2316 B3

2317 B2

2318 C3

2319 E11

2320 F9

2321 G7

2322 G7

2323 G1

2324 F7

2325 F8

2326 E8

2327 H9

2328 I10

2329 I10

2330 I10

2331 I10

2332 I12

2333 I10

2334 I11

2335 I11

2336 I11

2337 I12

2338 E2

2339 I12

2340 I10

2L20 A10

2L21 A10

2L22 A11

2L23 A11

2L24 A12

2L25 A12

2L26 B10

2L27 B10

2L28 B11

2L29 B11

2L30 B10

2L31 B10

2L32 B11

2L33 B11

3300 C1

3303 B5

3304 D6

3305 G12

3306 F7

3307 G7

3308 G12

3309 G12

3310 B6

3311 B5

3312 B5

3313 B5

3314 B3

3315 B5

3316 B2

3317 B5

3318 B3

3319 B2

3320 B5

3321 B3

3322 B5

3323 B3

3324 C5

3325 C1

3326 D11

3327 C5

3328 D10

3329 C5

3330 D10

3331 C2

3332 D2

3333 C1

3334 C2

3335 C2

3336 E11

3337 E9

3338 D3

3339 D3

3340 D3

3341 D3

3342 D3

3343 I1

3344 D5

3345 I1

3346 D5

3347 D5

3348 D5

3349 E5

3350 E5

3351 G7

3352 G7

3353 F11

3354 G7

3355 G11

3356 G7

3357 G11

3358 F7

3359 F7

3360 G5

3361 F5

3362 C6

3363 D2

3364 D3

3365 F5

3366 F5

3367 F5

3368 C5

3369 G5

3370 G5

3371 G5

3372 H2

3373 G5

3374 G13

3375 H2

3376 D6

3377 E7

3378 F7

3379 E7

3380 D5

3381 G2

3382 E7

3383 F2

3384 H2

3385 H2

3386 H2

3387 E5

3388 E5

3389 I11

3390 I11

3391 I11

3392 I11

3393 E1

3394 D1

3395 E2

3396 C7

3397 E5

3398 E2

3399 E2

3L01 G6

3L02 H5

3L04 E2

3L05 B5

3L06 H6

3L07 H7

3L08 H5

3L09 H5

3L10 H11

3L11 C7

3L12 G7

3L13 G7

3L14 G9

3L15 F1

3L20 A11

3L21 A11

3L22 B11

3L23 B11

3L24 A11

3L25 A11

3L26 D5

4301 F6

4302 H11

4303 H12

4306 G12

4307 G12

4308 H5

4309 I12

4310 I11

4313 H6

4314 H11

4315 H11

4316 G9

4323 F1

4324 D2

4325 D2

4L20 A11

4L21 A11

4L24 A11

4L25 A11

5301 A4

5302 C13

5304 I11

6301 B2

6302 D10

6303 E10

6304 E10

6305 F9

6306 I2

6307 I2

6308 H8

6309 I8

6310 I8

6311 I9

6312 I9

6313 I9

6317 D1

6318 E2

7308 E1

7310 C12

7311 B3

7312 B1

7313-1 D9

7313-2 C10

7314 F6

7315 F10

7316 F2

7317 E1

7320 H11

7321 H12

7322 C7

7323-1 G1

7323-2 F1

F302 C6

F303 G6

F304 C6

F305 F5

F309 H5

F310 C11

F311 C11

F312 C13

F313 C11

F314 C13

F315 C11

F316 C13

F317 C11

F318 C13

F319 C11

F320 C13

F321 C11

F322 C13

F323 B6

F324 D11

F325 D13

F326 D11

F327 D13

F328 D11

F329 D11

F330 B1

F331 D11

F332 D11

F333 D11

F334 D11

F335 D11

F336 D11

F337 D13

F338 D11

F339 D11

F340 D11

F341 E11

F342 I2

F343 I2

F344 I3

F345 G10

F346 H5

F347 I5

F348 I5

F349 I5

F350 F8

F351 I5

F352 I5

F353 I5

F354 I5

F356 E8

F357 H8

F360 I9

F361 D3

F362 C5

F363 G11

F364 G11

F365 G11

F366 E11

F367 E11

F368 C13

F369 E11

F370 G6

F379 D2

F380 B3

F381 B3

F382 I10

F383 I10

F384 I10

F385 D3

F386 C5

F387 I10

FL20 A9

FL21 A9

FL22 A9

FL23 A9

FL24 A9

FL25 A9

FL26 A9

I311 B5

I312 B3

I313 B5

I314 B5

I315 B5

I317 B5

I318 G9

I320 C5

I321 D10

I322 D10

I323 D10

I326 C5

I328 D10

I329 E9

I330 D1

I331 D3

I332 D1

I333 D3

I334 D1

I335 D3

I336 D5

I337 D1

I338 D3

I339 D1

I341 D5

I342 D5

I344 D5

I345 E5

I347 G6

I349 G6

I351 F5

I352 D3

I353 D1

I354 F5

I357 C5

I359 G5

I362 D6

I363 G5

I364 D5

I365 G3

I366 E6

I367 E6

I368 G3

I369 H5

I370 H5

I373 I10

I374 I11

I376 I12

I380 E1

I382 G5

I383 H5

I384 H3

I387 B3

I388 D6

I389 C5

I390 C6

I391 H6

I392 H6

I393 E2

I394 E2

I395 B5

I396 E5

I397 E5

I398 E5

I399 D1

IL20 A11

IL21 A12

IL22 A11

IL23 A12

I388

100R3L26

I399 4325

4324

4L20

4L21

4L25

4L24

IL22

IL20

IL23

IL21

3L24

33R

3L25

1n02L33

2L32 1n0

2L31 1n0

1n02L30

B11B-PH-K

1304

2L24 220n

220n2L25

FL26

FL23

FL25

FL22

FL21

FL20

2L22 10p

10p

2L21

3L20 100R

22n

2L26

2L29

3L23

100p

33R

22n

2L28

100p2L27

33R3L22

10p

2L23

10p

2L20

100R3L21

FL24

330R

3L15

4323

100n

2323

+3V3_STBY

NL27WZ08USG

7323-2

NL27WZ08USG

7323-1

I397

I398

I396

I394

I395

I393

4310

4309

2339 1n0

1n02340

I391

I392

I390

I318

4316 3L14

+3V3_STBY

F302

10K

3K33L13

+3V3_STBY

3L12 3K3

100R

I389

3L11

4314

4315

1R0

3L10

4313

F361

F362

F386

100R

100R3L09

3L08

4308

1311

10K

3L07

+3V3_STBY

10K

3L06

3L05 100R

6318

PDZ6.2-B

+12V_DISP

220n

2338

3L04

1K5

7308

BC847BW

+3V3_STBY

BZX384-C3V3

6317

F309

+3V3_STBY

100R3L02

3L01

1K23300

4K7

+3V3_STBY

3397 47K

3396 +5V_STANDBY

1K0

PDTC114ET

7322

+3V3_SW

4306 4307

3K3

3308

3305

3K3

3374

3309

7320

7321

BSH111

+3V3_SW

BSH111

+3V3_STBY

+3V3_SW

+3V3_STBY

4K73372

+3V3_SW

+3V3_STBY

3321 1K0

4K7

3375

+3V3_STBY

47K

3385

+3V3_STBY

3307

3306

1K0

3304 1K5

3303 100R

+3V3_SW

I387

I384 I383

+3V3_STBY

I382

47K

3383

100K

3398

BC847BW

7316

3399

10K

I380

F379

7317

BC847BW

22K

3394

3395

3393

1K5

15K

1307

6309

BZX384-C6V8

1308

BZX384-C6V8

1309

6310

6311

BZX384-C6V8

1310

BZX384-C6V8

6312

1305

6313

BZX384-C6V8

1306

BZX384-C6V8

6308

F363

F365

F364

+5V_SW

2324 22u

4K7 +3V3_SW

3359

3358 4K7

100R

23360

+5V_STANDBY

BC847BW

7314

F305

I374

4301

I376

4303

+5V_STANDBY

4302

10n

F357

2327

+3V3_STBY

I373

1n02328

2329 1n0

2330 1n0

1n0

2331

2334 1n0

1n02335

2336 1n0

1n02332

3390 47R

47R3392

3391 47R

47R3389

F360

B7B-PH-K

1M20

1n02337

2333 1n0

5304 220R

F384

F387

F383

F382

1303

BZX384-C6V8

6307

1302

6306

BZX384-C6V8

100R3345

3343 100R

100p2321

3K3 +3V3_SW

3352

3351 3K3

3355 100R

F352

3384

3381 22R

22R

3386 100R

3318 100R

I321

I329

I322

I323

F356

I328

F350

F346

F343 F344

F342

2318

100n

+3V3_STBY

2322 100p

100R

100R3356

3354

I362

F303

F304

F370

I313

I353

I314

I317

I315

I320

I336

I326

I344

I341

I351

I342

I352

I354

I359

I357

I369

I364

I370

I339

I337

I332

I334

I330

I338

F385

I335

1N4148

6304

1N4148

6302

F353

F348

F349

F351

F347

F354

B10B-PH-SM4-TBT(LF)

1312

3326 100R

+3V3_STBY

+5V_STANDBY

S3B-PH-SM4-TB

1314

3371 10K

3373 100R

3331 10K

100R3342

3334 10K

10K3335

100R3338

3339 100R

100R

3388

3387 100R

3369 10K

3370 100R

10K

3332

3333

100R3340

10K

3341 100R

5302

60R

100R

3344

100R

3346

3315

F339

3317 330R

4548

M29W800DT-70N6

7310

1Mx8/512Kx16

EPROM

100n

2310

2312

100n

100R

3329

I368

I347

I363 I349

I345

I333

I311

F340

I331

F323

3347 10K

100

7311

M30300SAGP

+3V3_STBY

1K0

3350 10K

3310

3327 10K

100n2319

F337

F327

F322

F325

F320

F316

F318

F314

F312

F338

F341

F336

F334

F335

F333

F332

F331

F328

F329

F326

F321

F324

F319

F315

F317

F313

F310

F311

+3V3_STBY

I366

I367

I365

I312

10K

3330

7313-2

BC847BPN

+12V_DISP

7313-1

BC847BPN

3337

100R

3336

6303

BZX384-C12

3328

47K

2313

100n

60R

5301

F330

10K

3325

100n

2317

6301 BAS316

F380

F368

F381

F369

F367

F366

F345

47R

10u

3348

3311

2311

+3V3_STBY

10K

+3V3_STBY

100R3323

+3V3_STBY

10K3363

3362

10K

3367

3313 330R

3319 10K

100n

2315

BD45275G

7312

3361 100R

100R3364

3365 100R

100R3368

10K3349

100p

10K

3316

2325

2326 100p

3382 100R

3379 3K3

100R

3K3

3378

100R

3377

3380

3376

10K3366

10K

100R3320

3322 100R

3324 330R

3314 10K

10K3312

15p

2314

2316 15p

3357 100R

10M

1301

10K

3353

6305

BZX384-B5V1

16V100n

2320

(8Kx8)

ESD_INT WAGC_SW

EEPROM

7315

M24C64-WMN6

HEAD_PH_R

FRONT_Y_CVBS_IN FRONT_Y_CVBS_IN_T

SIDE_AUDIO_IN_R_CON

SIDE_AUDIO_IN_L_CON

HP_ROUT

HP_LOUT

FRONT_C_IN

FRONT_C_IN_T

L_FRONT_IN

R_FRONT_IN

HEAD_PH_L

BOLT_ON_SDA IIC_SDA

BOLT_ON_SCL IIC_SCL

RESET_n

RST_AUD

STANDBY

DC_PROT

SAW_SW

ITV_SPI_CLK

ITV_SPI_DATA_IN

HDMI_HOTPLUG_RESET

BACKLIGHT_BOOST

KEYB

LED1

LED2

REMOTE

LIGHT_SENSOR

IIC_SCL

BOLT_ON_SCL

BOLT_ON_SDA

ITV_SPI_CLK

REMOTE

STANDBY

BOLT_ON_SCL

BOLT_ON_SDA

SC1_CVBS_RF_OUT

CPU_RST

CTRL_DISP1_up

ITV_SPI_DATA_IN

IIC_SDA_up

IIC_SCL_up

ANTI_PLOP

BL_ON_OFF

DVB_SW

CTRL_DISP4_up A(10)

A(9)

A(8)

A(19)

DDC_RESET

BL_ADJUST

A(17)

A(16)

A(15)

A(14)

A(13)

A(12)

A(11)

A(1:7)

A(8:19)

RST_H

A(18)

LCD_PWR_ON

IBO_IRQ

REMOTE

E_PAGE

IBO_RESET

A(19)

A(18)

A(17)

A(16)

A(0)

A(0:7)

A(15)

A(13)

A(12)

A(11)

A(10)

A(9)

A(8)

A(14)

A(8:19)

A(7)

A(6)

A(5)

A(4)

A(3)

A(2)

A(1)

AD(0)

POWER_DOWN

HDMI_INT

AD(7)

AD(6)

AD(5)

AD(4)

AD(3)

AD(2)

AD(1)

ESD_RST

CPU_RST

ISP

AD(2)

AD(3)

AD(4)

AD(5)

AD(6)

AD(7)

RST

LED1

IIC_SCL_up

IIC_SDA_up

AD(0)

AD(1)

CNVSS

STANDBYn

MUTEn

AD(0:7)

INT

AD(0:7)

LED2

SC2_STATUS

SC1_STATUS

LIGHT_SENSOR

KEYB

ALE_EMU

IIC_SDA

E_PAGE

A(0)

A(1)

A(2)

A(3)

A(4)

A(5)

A(6)

A(7)

B04A B04A

3139 123 6261.1

G_16860_008.eps

250107

Item

iTV

with Side AV

Other region

Description

B HP 00.2 M P11 V NOC4031

R HP MS 00.2 M P01 V NOC2131

B HP 00.2 M P6 V NOC5131

B HP 00.2 M P7 V NOC02M1

LOC P22 V05 0PN 3060 1REC1232

LOC P22 V05 0PN 3060 1REC2232

LOC 5MP R001 3060 MS TSR0233

LOC 5MP R001 30

60 MS TSR2233

LOC 5MP 3K3 3060 MS TSR1533

LOC 5MP 3K3 3060 MS TSR2533

LOC 5MP R001 3060 MS TSR4533

LOC 5M

P R001 3060 MS TSR6533

LOC 5MP R001 3060 MS TSR0733

LOC 5MP R001 3060 MS TSR80L3

LOC 5MP R001 3060 MS TS

R90L3

R 5MP R1 6021 ESUF MS TSR01L3

LOC 5MP K01 3060 MS TSR21L3

LOC 5MP K01 3060 MS TSR31L3

LOC 50R0 .PMU

J 3060 MS TSR90L4

44LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

SSB: Video Processor

TA1

TB1

VDDC

N_1

RD_

SCL

SDA

INTN

RESET

VDDH VDDM

AVDD3_ADC

AVDD_ADC

PAVDD

VSSC VSSH VSSM AVSS_ADC PAVSS

ALE

AIN_HS

AIN_VS

DP_HS

DP_VS

CVBS1

PLF2

MLF1

DP_CLK

WR_

PC_G

PB_B

Y_G

CVBS_OUT

DP_DE_FLD

TESTMODE

V5SF

LVDSVDDP

LVDSVCC

ADDR

A_D

DQM

TCLK1

VREF

N_2

LVDSGND

XTAL

GPIO

PR_R

PC_B

PC_R

PLL_VCC

TC1

TD1

PDVDD

AVDD3_OUTBUF

AVDD3_BG_ASS

MCK

WE_

CAS_

RAS_

CS0_

P_2

CLKE

PWM0

P_1

PLL_GND

PDVSS

AVSS_BG_ASS

AVSS_OUTBUF

VSS

VDDQ

1M-1

DQM

VDD

VSSQ

BA 1

CAS

RAS

CKE

CLK

VSS

VDDQ

1M-1

DQM

VDD

VSSQ

BA 1

CAS

RAS

CKE

CLK

RES

VIDEO PROCESSOR

RES

VDISP-SWITCH

CPU-GO

PDP-GO

PDWIN

RESET

DISPLAY CONTROL

LVDS

CONNECTOR

RES

RES RES

RES

FHPSDI

LGE

CTRL-DISP1

CTRL-DISP2(LCD_PWR_on)

CTRL-DISP3(Rev_Standby)

CTRL-DISP4

Semi standby : H

Normal and off : L

On time : H

Off time : Don’t care On time : H

Off time : Don’t care

On time : H

Off time : Don’t care

On time : H

Semi standby : L

Off time : Don’t care

RES

FOR ITV ONLY

DISPEN

RES

LCD

PDP

RES

FOR NON

SIDE IO

FOR NON SIDE IO

RES RES

RES

12V1

3V2

RES

FOR LCD ONLY

RES RES

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

1201 D4

1210 H12

1211 I12

1212 I12

1213 J12

1214 J12

1215 L7

1216 L7

1G50 H15

1G51 H17

2205 K7

2206 K7

2207 B17

2208 B16

2209 B16

2210 B17

2211 C5

2212 C5

2213 C5

2214 C5

2215 C5

2216 D9

2217 B13

2218 B13

2219 B13

2220 B13

2221 B13

2222 B13

2223 B14

2224 E12

2225 E12

2226 E13

2227 E13

2228 E13

2229 B14

2230 C5

2231 C5

2232 C5

2233 D8

2234 D8

2235 D8

2236 D3

2237 D4

2238 D4

2239 D4

2240 D4

2241 D4

2242 D4

2243 D5

2244 D5

2245 D8

2246 D3

2247 E3

2248 C15

2250 F4

2251 F4

2252 F4

2253 F4

2254 F4

2255 F4

2256 F4

2257 F4

2258 F4

2259 F4

2260 F4

2261 F4

2262 F16

2263 F16

2264 F16

2265 F16

2266 J11

2267 I8

2268 I8

2269 J11

2270 J11

2271 J10

2272 J10

2273 J3

2274 J10

2275 J3

2276 J3

2277 J3

2278 K9

2279 A7

2280 A6

2281 L8

2282 A9

2283 K15

2284 A4

2285 K15

2286 B7

2287 B9

2288 B6

2289 B4

2290 B7

2291 B9

2292 C7

2293 C9

2294 K3

2295 E13

2296 E13

2297 E13

2298 D8

3201-1 I4

3201-2 I4

3201-3 I4

3201-4 I4

3202-1 I4

3202-2 I4

3202-3 I4

3202-4 I4

3203-1 I4

3203-2 I4

3203-3 I4

3203-4 I4

3204-1 J4

3204-2 J4

3204-3 J4

3204-4 J4

3210 C16

3211 D8

3212 D2

3213 C15

3215 D2

3216 C15

3217 C16

3219 E1

3220 E2

3221 E1

3222 E2

3223 E16

3224 E16

3225 E16

3226 E16

3227 E16

3228 G2

3229 G2

3230 G2

3231 G2

3232 G3

3233 E16

3235 E16

3238 E16

3239 K4

3240 K3

3241 K9

3242 K9

3243 K9

3244 A7

3245 K8

3246 J14

3247 J14

3248 B7

3250 J2

3251 J3

3253 K3

3254 K2

3255 K3

3256 L3

3257 J1

3258 K1

3260-1 B12

3260-2 B12

3260-3 B12

3260-4 B12

3261-1 B12

3261-2 B12

3261-3 B12

3261-4 B12

3262-1 B12

3262-2 B12

3262-3 C12

3262-4 C12

3263-1 E12

3263-2 E12

3263-3 E12

3263-4 E12

3264-1 E12

3264-2 E12

3264-3 E12

3264-4 E12

3265-1 E12

3265-2 E12

3265-3 F12

3265-4 F12

3266 C12

3267 F13

3268-1 F12

3268-2 C12

3268-3 F12

3268-4 C12

3271-1 C12

3271-2 F12

3271-3 C12

3271-4 F12

3272 J9

3273 A2

3274 B2

3275 A3

3276 B3

4203 B14

4204 B15

4205 B15

4206 B15

4207 L9

4208 E2

4209 I2

4210 L6

4211 L7

4212 L7

4213 L8

4214 B16

4215 B16

5210 B4

5211 A16

5212 A14

5213 C9

5214 C4

5215 A16

5216 C3

5217 B16

5218 A6

5219 A4

5220 A8

5221 B6

5222 B8

5223 B4

5224 B7

5225 B8

5226 C7

5227 C8

5228 D13

6201 C17

6202 C15

7202 D4

7203 L9

7204 B11

7205 E11

7206 K9

7207 B16

7208 C15

7210 A15

7211-1 J2

7211-2 K2

7211-3 K2

7211-4 L2

7211-5 L4

7211-6 L5

7213-1 A3

7213-2 B3

7213-3 B3

7213-4 B3

7213-5 C3

7213-6 C3

7214 A2

F210 A17

F211 C9

F212 E16

F213 E16

F214 E16

F215 E16

F217 I17

F218 I15

F219 I15

F220 I15

F221 I15

F222 I15

F223 I15

F224 I15

F225 J15

F226 J15

F227 J15

F228 J15

F229 J15

F230 J15

F231 C5

F232 E4

I210 B5

I211 A16

I213 A13

I214 C5

I215 C16

I216 B15

I217 D8

I218 E8

I220 C15

I224 C15

I225 C16

I230 E4

I231 E4

I232 E4

I233 E4

I236 E15

I238 J4

I239 K4

I240 K8

I241 K9

I242 A6

I243 A7

I244 L8

I245 A4

I246 A9

I247 B7

I248 A6

I249 B9

I250 B4

I251 B7

I252 B9

I253 C9

I254 C7

I255 D2

I256 D2

I257 J4

I258 J4

I259 J10

I260 J10

I261 J10

I262 J10

I263 K8

I264 L3

I265 A3

I266 A2

I267 B3

I268 K6

I269 K7

I270 K7

I271 K8

4215 4214

I271

I269

I270

4212

I268

4213

2206

DLW21S

1216

4211

4210

2205

1215

DLW21S

I266

I267

I265

3276

560R

3275

3274

10K

3273 7214

BC847BW

7213-6

74LVC04APW

714

7213-5

74LVC04APW

7213-4

74LVC04APW

7213-3

74LVC04APW

714

74LVC04APW

714

7213-2

7213-1

74LVC04APW

4208

4209

BC847BW

7206

2298

100n

2207

100u 16V16V100u

2208 2209

4207

I264

22R

3267

3272

150R

3266 22R

4205

4206

147

132

205

204

180

181

182

120

137

161

110

135

108

134

146

175

185

174

184

119

136

160

157

188

189

190

130

196

197

198

199

183

191

200201

38 39

148

145

144

207

202

208

203

206

152

151

150

149

107

106

105

104

153

103

102

101

100

114

113

111

155

154

143

142

141

140

139

138

124

123

125

126

122

121

118

117

116

115

173

172

171

170

47 46

156

133

109

162

128

127

192

131

112

129169

163

194

179

167

164

168

195

166

165

177

186

193

178

176

187

158

159

VIDEO PROCESSOR

SVP CX32

7202

22R

3271-4

22R

3271-3

22R

3271-2

22R3271-1

22R

3268-4

3268-3 22R

3268-2 22R

3265-4

3268-1 22R

22R

3265-3 22R

3265-2 22R

22R

3264-4

3265-1 22R

3264-2

22R

3264-3

22R

22R3264-1

3263-4 22R

3263-3 22R

3263-2

22R

3263-1 22R

22R

3262-4 22R

3262-3

22R

3262-2

3261-4 22R

22R3262-1

3261-3 22R

3261-2 22R

3261-1 22R

22R

3260-3

22R

3260-4

22R

3260-2 22R3260-1

2295 100n

100n2296

2229 5212

60R

+3V3_SW

22u

6.3V

1M X 16 X 4

7205

IS42S16400D-6TL

DRAM

7204

IS42S16400D-6TL

Φ23

714

DRAM

1M X 16 X 4

74LCX14T

7211-6

74LCX14T

714

+5V_SW

7211-5

+5V_SW

3257

4K7

+3V3_SW

4K7

3258

2294

100n

22R

3250

3254

22R

3256

22R

3255

22R

3253

22R

3251

7211-4

714

74LCX14T

7211-3

74LCX14T

7211-2

714

+5V_STANDBY

74LCX14T

7211-1

I263

I261

I262

I260

I258

I259

I257

I256

I255

I236

I253

60R

5227

10u

2293

I252

5225

60R

2291

10u

60R

5222 I249

10u

2287

I248

10u

2288

60R

5221

100R3247 100R3246

32 33

34 35

36 37

1G50

1214

DLW21S DLW21S

1213 1212

DLW21S DLW21S

1211 1210

DLW21S

F217

F218

F230

F229

2285 100p

100p

2283

0-1453230-3

1G51

VDISP

F228

F227

F226

F225

F223

F224

F222

F221

F219

F220

I215

100R

3238

7210

SI4835BDY

4K7

2263 100p 3224

I211

4203

4204

+5V_STANDBY

F213

I225

I216

I220

100R

3235

3233

100R

3227

100R

6201

SML-310

1K0

F210

3210

220R

5217

5211

220R

5215

220R

2210

100n

SI3441BDV

+3V3_SW

7207

3225 4K7

4K7

3223

2264

2265

100p

F212

100p

F214

VDISP

F215

100p

2262

I224

3226 4K7

1u0

2248

47R

3216

+12V_DISP

BZX384-C5V6

6202

PDTC114ET

7208

3217

47K

3213

47K

150R

3232

150R3229

3228 150R

3231 150R

150R3230

3240

150R

I213

F211

F231

I239

I218

I240

I217

I241

I250

I244

I242I245

I251

I254

I247

I246

I243

I238

I233

I231

I232

I230

I214

F232

I210

100R

3202-4 4

3202-3 100R36

3202-2 100R

3202-1 100R18

+3V3_SW

3204-4 220R45

3204-3 36

220R

3204-2 220R3204-1

220R

3203-4 45

3203-3 36

220R

3203-2 220R

3203-1 220R

6100R

3201-4

3201-3 100R3

3201-2 100R

100R183201-1

5214 60R

10u

2281

+3V3_SW

10u

2280

+1V8S_SW

5220

60R

2282

10u

14M31818

1201

+3V3_SW

4K7

3221

3222

4K7

3219

3220

+3V3_SW

5213

60R

+1V8S_SW

60R

5210

30R

5216

+3V3_SW +1V8S_SW

22u

2278

22u

2297 6.3V

100n2223

2224 100n

100n2227

2226 100n

100n2225

2228 100n

60R

5228

100n2217

100n2218

2221 100n

100n

2219 100n

2220

100n2222

10K

3245

3211

100R

1K0

3215

3212

100R

2n72276

2286

10u

22R

3248

2279

2275 2n7

10u

22R

3244

5219

60R

2284

10u

2289

5223

60R

5218

60R

2236 10u

10u2230

60R

5226

2292

10u

5224

60R

10u

2290

2211 10u

100n2212

2215

2213 100n

100n

100n2214

2232 100n

100n

2231

2237 100n

2238

100n

2241

100n2240

2239 100n

100n2244

2243 100n

100n2242

4K7

3242 220R

3241

100R

3243

7203

BC847BW

100n

2245

100n

2266

100n

2270

2269 100n

2274

100n

2271

100n

2272

10u

2216

2235 100n

100n2234

2233 100n

20p2246

20p2247

100R

3239

2268 100n

2258

100n2267

100n

100n2261

2260

2259 100n

2277 100n

100n

2257 100n

2256

2255 100n

100n

100n2254

2253 100n

100n2252

2251 100n

100n2273

100n2250

ESD_INT

ESD_RST

DQ(24)

DQ(25)

DQ(26)

DQ(27)

DQ(28)

DQ(29)

DQ(30)

DQ(31)

CX_DQM(1)

CX_DQM(0)

FRONT_C

FRONT_Y_CVBS

DQ(2)

DQ(1)

DQ(0)

DQ(5)

DQ(6)

DQ(7)

DQ(10)

DQ(11)

DQ(12)

DQ(13)

DQ(14)

DQ(15)

DQ(8)

DQ(9)

DQ(16)

DQ(17)

DQ(18)

DQ(19)

DQ(20)

DQ(21)

DQ(22)

DQ(23)

CX_MA(0)

CX_MA(1)

CX_MA(10)

CX_MA(2)

CX_MA(3)

CX_MA(4)

CX_MA(5)

CX_MA(6)

CX_MA(7)

CX_MA(8)

CX_MA(9)

CX_MA(11)

CX_MCLK

CX_CLKE

CX_CS0#

CX_WE#

CX_CAS#

CX_RAS#

DQ(4)

DQ(3)

CX_BA0

CX_BA1

CX_AVDD_ADC2

CX_AVDD_ADC3

CX_AVDD_ADC4

CX_AVDD_ADC2

CX_AVDD_ADC3

CX_AVDD_ADC4

HDMI_Y(0:7)

HDMI_Cb(0:7)

HDMI_Cr(0:7)

TXDn1

BOLT_ON_SCL

BOLT_ON_SDA

CX_AVDD3_ADC2

TXDn

TXDp1

TXCLKn1

TXCLKp

CTRL_DISP4

TXCLKn

CTRL_DISP3

TXDp

TXCp1

TXCLKp1

TXCn

TXBn

CTRL_DISP1

TXBn1

TXCp

TXAn1

TXBp CTRL_DISP2

TXBp1

TXCn1

TXAp1

TXAn

CTRL_DISP1_up

CTRL_DISP4_up

STANDBYn

TXAp

LCD_PWR_ON

CTRL_DISP1

CTRL_DISP3

CTRL_DISP4

CTRL_DISP2

SC1_FBL_IN

ALE_EMU

VGA_H

VGA_V

FRONT_C_IN_T

TXCLKp

TXCn

TXCp

TXDn

TXDp

CX_AVDD_ADC1

TXAn

TXAp

TXBn

TXBp

CX_MA(11)

CX_BA1

CX_BA0

CVBS_RF

DQ(27)

DQ(26)

DQ(25)

DQ(24)

CX_MCLK

CX_CLKE

CX_CS0#

CX_WE#

CX_CAS#

CX_RAS#

DQ(7)

DQ(6)

DQ(5)

DQ(4)

DQ(3)

DQ(2)

DQ(1)

DQ(0)

DQ(23)

DQ(22)

DQ(21)

DQ(20)

DQ(19)

DQ(18)

DQ(17)

DQ(16)

DQ(31)

DQ(30)

DQ(29)

DQ(28) CX_DQM(2)

CX_DQM(3)

HDMI_H

HDMI_V

HDMI_VCLK

HDMI_DE

DQ(0:31)

DQ(15)

DQ(14)

DQ(13)

DQ(12)

DQ(11)

DQ(10)

DQ(9)

DQ(8)

CX_MA(0)

CX_MA(1)

CX_MA(10)

CX_MA(2)

CX_MA(3)

CX_MA(4)

CX_MA(5)

CX_MA(6)

CX_MA(7)

CX_MA(8)

CX_MA(9)

CX_BA1

CX_DQM(0)

CX_DQM(1)

CX_CS0#

CX_RAS#

CX_CAS#

CX_WE#

CX_MCLK

CX_CLKE

CX_AVDD3_BG_ASS

CX_AVDD3_OUTBUF

CX_AVDD3_ADC1

CX_AVDD_ADC1

CX_PAVDD

CX_PAVDD1

CX_PAVDD2

CX_PDVDD

IIC_SCL

IIC_SDA

CX_MA(0)

CX_MA(0:11)

CX_MA(1)

CX_MA(2)

CX_MA(3)

CX_MA(4)

CX_MA(5)

CX_MA(6)

CX_MA(7)

CX_MA(8)

CX_MA(9)

CX_MA(10)

CX_MA(11)

CX_DQM(0:3)

CX_DQM(2)

CX_DQM(3)

CX_PAVDD1

CX_PAVDD2

A(0:7)

AD(0:7)

CX_AVDD3_ADC1

CX_AVDD3_OUTBUF

CX_AVDD3_BG_ASS

CX_PDVDD

CX_PAVDD

INT

RST_H

BL_ADJUST

AD(3)

AD(4)

AD(5)

AD(6)

AD(7)

AD(0)

AD(1)

AD(2)

A(0)

A(1)

A(2)

A(3)

A(4)

A(5)

A(6)

A(7)

TXCLKn

SC1_RF_OUT_CVBS

SC2_CVBS_MON_OUT

SC1_B_IN

SC1_CVBS_IN

IBO_B_IN

IBO_CVBS_IN

SC2_C_IN

HD_PR_IN

SC1_R_IN

SC2_Y_CVBS_IN

IBO_R_IN

HD_PB_IN

HD_Y_IN

SC1_G_IN

FRONT_Y_CVBS_IN_T

IBO_G_IN

HDMI_Y(2)

HDMI_Cr(4)

HDMI_Cr(5)

HDMI_Cr(6)

HDMI_Cr(7)

HDMI_Y(3)

HDMI_Y(4)

HDMI_Y(5)

HDMI_Y(6)

HDMI_Y(7)

HDMI_Cb(0)

HDMI_Cb(1)

PC_VGA_H

PC_VGA_V

HDMI_Y(0)

HDMI_Y(1)

HDMI_Cb(2)

HDMI_Cb(3)

HDMI_Cb(4)

HDMI_Cb(5)

HDMI_Cb(6)

HDMI_Cb(7)

HDMI_Cr(0)

HDMI_Cr(1)

HDMI_Cr(2)

HDMI_Cr(3)

B04B B04B

3139 123 6261.1

G_16860_009.eps

250107

Item

EU LCD

EU PDP

EU/US LCD-iTV

AP/CH/LT LCD

AP/CH/LT PDP

Description

1217 FIL CM SM 50V 100MHZ 67R R

1218 FIL CM SM 50V 100MHZ 67R R

2207 CER2 0603 X7R 16V 100N COL

2208 ELCAP SM SEV 25V 100U PM20 R

ELCAP SM 16V 100U PM20 COL R

2209 ELCAP SM SEV 25V 100U PM20 R

ELCAP SM 16V 100U PM20 COL R

2210 CER2 0603 X7R 16V 100N COL

2248 CER2 0805 X7R 16V 1U PM10 R

2267 CER2 0603 X7R 16V 100N COL

2294 CER2 0603 X7R 16V 100N COL

3213 RST SM 0603 47K PM5 COL

3216 RST SM 0603 47R PM5 COL

3217 RST SM 0603 47K PM5 COL

3227 RST SM 0603 100R PM5 COL

3233 RST SM 0603 100R PM5 COL

3235 RST SM 0603 100R PM5 COL

3238 RST SM 0603 100R PM5 COL

3241 RST SM 0603 220R PM5 COL

3242 RST SM 0603 4K7 PM5 COL

3243 RST SM 0603 100R PM5 COL

3245 RST SM 0603 10K PM5 COL

3246 RST SM 0603 100R PM5 COL

3247 RST SM 0603 100R PM5 COL

3250 RST SM 0603 22R PM5 COL

3253 RST SM 0603 22R PM5 COL

3254 RST SM 0603 22R PM5 COL

3256 RST SM 0603 22R PM5 COL

3257 RST SM 0603 10K PM5 COL

3258 RST SM 0603 10K PM5 COL

4204 RST SM 0603 JUMP. 0R05 COL

4205 RST SM 0603 JUMP. 0R05 COL

4206 RST SM 0603 JUMP. 0R05 COL

4208 RST SM 0603 JUMP. 0R05 COL

4209 RST SM 0603 JUMP. 0R05 COL

5215 IND FXD 0805 EMI 100MHZ 220R R

5217 IND FXD 0805 EMI 100MHZ 220R R

6202 DIO REG SM BZX384-C5V6 COL R

7203 TRA SIG SM BC847BW (COL) R

7206 TRA SIG SM BC847BW (COL) R

7208 TRA SIG SM PDTC114ET (COL) R

7210

E3(VISH)R

7211 IC SM 74LCX14T (COL) R

Circuit Diagrams and PWB Layouts 45LC7.1E LA 7.

SSB: PNX2015: Audio Processor

OUT

SC3_OUT

DEL

CL3

2AH

VREFTOP

RESETQ

SUB

ADR_SEL

TESTEN

XTAL

I2C

I2S

ANA

SC1_IN

SC2_IN

SC3_IN

SC4_IN

VSS VREF

IN-

IN1+

IN2+

RSC5_IN

SPDIF_OUT

AUD_CL_OUT

DVSUP

STNDBYQ

OUT

SC2_OUT

SC1_OUT

DCTR_IO

DACM

DACA

CAPL

SUP

WS3

DA_OUT

AGNDC

COM

OUTIN

AUDIO PROCESSOR

RES

2V4

1V4

1V6

1V5

2V6

0V6

0V2

6V7

6V3

3V8

123456789

1411 B3

2408 A4

2409 A4

2410 A4

2411 A2

2412 A4

2413 A6

2414 B2

2415 B3

2416 B3

2417 B7

2418 B7

2419 C3

2420 C6

2421 C7

2422 C7

2423 C6

2424 D7

2425 D7

2426 D7

2427 D7

2428 D6

2429 D7

2430 D7

2431 D7

2432 D2

2433 D3

2434 E3

2435 E3

2436 E3

2437 F4

2438 F4

2439 A3

2440 A3

2441 A4

2442 A4

2443 A6

2444 A6

2445 E3

2446 C3

2447 C3

3402 A1

3410 C3

3411 C3

3416 E2

3417 D8

3418 D8

3419 D8

3420 D8

4401 A2

4402 A2

4403 E3

4406 F3

4407 C3

4408 C3

4409 D3

4410 D3

4411 D3

4412 D3

5401 A1

5402 B1

5403 E2

7410 A4

7411 B4

F401 A4

F402 A4

F403 A5

I412 C3

I413 C3

I414 C6

I415 C6

I416 D6

I417 D6

I418 D6

I419 D6

I420 D3

I421 D4

I422 D4

I423 E4

I424 E4

I425 F4

I426 A3

I427 C4

I428 C4

I429 C2

I430 C2

I431 D4

I432 D2

I432

I431

I430

I428

I429

I427

4411

4412

4410

4409

4407

4408

4406

4403

2408 470p

2409 1n5

I426

2447 100p

100p

2446

470p

2444

470p

2442

2443

1n5

2441

100n2445

2440

470n 470n

2439

3420 100R

100R3419

3418 100R

100R3417

1R0

4402

3402

4401

+12V_DISP

I425

I417

I416

I418

I419

I414

I415

I413

I412

2424 10u

10u2425

10u2426

10u2427

15 12

MULTISTANDARD

SOUND PROCESSOR

MSP4450P-VK-E8 000

7411

2413

220p

2412

100n 2419

I421I420

10u

2436 I424

100n

10u

2437

2438

+5V_D

5401

120R

10u

2411

+5V_SW

+5V_AUD

120R

5402

2414

10u

+5V_AUD

+5V_D

2433 330p

+8V

F401

F402 F403

I422

+5V_AUD

+8V

I423

+AUDIO_POWER_+12V_DISP

16V

10u

2410

16V

7410

L78L08ACU

2423 10u

16V10u2420

1411

18M432

22u5403

470R3416

56p2432

330p2435

330p

2417

330p

2418

330p

2421 2422

330p

2430

100p 100p

24312428

100p 100p

2429

2416

3p3

2415

3410 100R

100R3411

330p2434

SIDE_AUDIO_IN_R_CON

SIDE_AUDIO_IN_L_CON

MOJO_I2S_OUT_SD

MOJO_I2S_OUT_WS

MOJO_I2S_OUT_SCK

SC2_AUDIO_OUT_L

SC2_AUDIO_OUT_R

SC1_AUDIO_OUT_L

SC1_AUDIO_OUT_R

SC2_AUDIO_IN_R

SC1_AUDIO_IN_R

SC1_AUDIO_IN_L

HP_AUDIO_OUT_R

HP_AUDIO_OUT_L

HDMI_AUDIO_IN_L

HDMI_AUDIO_IN_R

SIDE_AUDIO_IN_R

COMP_AUDIO_IN_R

COMP_AUDIO_IN_L

SC2_AUDIO_IN_L

HDMI_WS

HDMI_SCK

HDMI_SD

RST_AUD

AUDIO_LS_R

SIDE_AUDIO_IN_L

IIC_SCL

AUDIO_LS_L

SIF

XTALIN

XTALOUT

IIC_SDA

B04C B04C

3139 123 6261.1

G_16860_010.eps

250107

Item

iTV

Description

4403 RST SM 0603 JUMP. 0R05 COL

4406 RST SM 0603 JUMP. 0R05 COL

4407 RST SM 0603 JUMP. 0R05 COL

4408 RST SM 0603 JUMP. 0R05 COL

4411 RST SM 0603 JUMP. 0R05 COL

EU- with Side AV

AP/CH/LT with Side AV

46LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

SSB: YPBPR & Rear IO

YPBPR & REAR IO

CVBS

SVHS YPbPr

ITV Connector D

RES

FOR NON SIDE IO / ITV

RES

F603 D2

F604 D1

F605 B7

F606 B7

F607 C7

F608 D7

F609 D7

F610 F3

F611 E3

F612 F7

F613 F7

F614 C7

F615 C2

F616 F1

I610 C10

I611 D10

I615 B4

I623 D9

I627 D9

I631 C4

I632 D3

I633 B1

I635 E4

I636 F4

3609 C2

3611 D8

3612 D9

3613 E1

3615 F3

3616 F3

3617 B9

3618 B9

3619 C9

3620 F3

3621 E3

3622 D4

3623 D4

3624 E4

3625 D4

4601 C2

4602 D2

4603 E5

4604 F5

6604 C3

6605 G3

6606 D3

6607 F3

6610 B8

6611 C8

6612 C8

6613 D8

6614 D8

6615 E2

7601 D4

F601 B3

F602 C3

1611 D7

1612 D2

1613 D7

1614 F2

1615-1 B7

1615-2 C7

1615-3 D7

1618 F2

1619 E7

2600 B3

2601 E2

2602 B8

2603 B8

2606 C8

2607 C9

2608 D9

2609 D4

2610 D9

2612 D9

2613 F4

2614 F4

2615 E4

2616 F4

2617 D2

3600 B4

3601 B8

3602 C4

3603 B8

3604 B4

3605 C8

3607 D8

3608 D9

7891011

1601-1 B2

1601-2 D1

1601-3 B2

1603 E2

1606 B7

1607 C7

1608 D3

1609 C3

1610 C7

1234567891011

123456

3625

100R

PESD5V0S1BA

6615

4604

4603

MSD-242V-01 NIDIP (765A) LF

I636

1603

I635

3616

33K

3615

3612

33K

3608

150R

3611

150R

3607

150R

3621

150R

3620

GND

1601-3

1601-1

1601-2

I633

3619

100R

3618

100R

3617

100R

F615

F616

F613

F614

F612

I611

I610

F606

F607

F605

F609

F610

F608

F611

6606

PESD5V0S1BA

6604

+5V_SW

F602

F601

I631

F603

I632

F604

1K0

3622

100K

3623

56K

3624

2617

1u0 7601

BC857BW

4602

4601 3609

75R

3604

75R

2600

3600

10R

2615 220n

2614 220n

1619

BM06B-SRSS-TBT

PESD5V0S1BA

6614

6613

PESD5V0S1BA PESD5V0S1BA

6612

6611

PESD5V0S1BA PESD5V0S1BA

6610

MSD-246V1-145 NIDIP

1615-3

MSD-246V1-145 NIDIP

1615-2

MSD-246V1-145 NIDIP

1615-1

I623

I627

16111613 1607 16061610

2603 3603

75R

3601

2602

75R

2606 3605

75R

2607

220n

2610

3n3

2608

2612

3n3

PESD5V0S1BA

6607

6605

PESD5V0S1BA

75R

3613 2601

1608

I615

3n3

2613

1614

2616

3n3

1618

3602

10R

1609

1612

2609

HD_PB_IN

SIDE_AUDIO_IN_L

SIDE_AUDIO_IN_R

HD_PR_IN

HD_Y_IN

HD_PR_IN_ITV

HD_Y_IN_ITV

HD_PB_IN_ITV

VGA_V

VGA_H

COMP_AUDIO_IN_L

HD_PB_IN_ITV

HD_PR_IN_ITV

HD_Y_IN_ITV

COMP_AUDIO_IN_R

FRONT_C

FRONT_Y_CVBS

B06A B06A

3139 123 6261.1

G_16860_011.eps

240107

Circuit Diagrams and PWB Layouts 47LC7.1E LA 7.

SSB: I/O Scart 1 & 2

Audio-R_out

Audio-R_in

Audio-L_out

RGB-B_in

Function_Sw

RGB-G_in

Audio-L_in

RGB-R_in

RGB-BL_in

Video_in

Terr_CVBS_out

Audio-R_out

Audio-R_in

Audio-L_out

Function_Sw

Audio-L_in

RGB-R_out/YC-C_in

Video/YC-Y_in

CVBS_out

SCART 1

SCART 2

5V2

3V7

IO - SCART 1 & 2

ITV-Connector B ITV-Connector C

RES

RESRESRESRES

RESRESRES

RES

RESRESRES

RES

12345678910111213

1500 C9

1501 C9

1502 C3

1503 D9

1504 C2

1505 C3

1506 D8

1507 D3

1508 E9

1509 D2

1510 E9

1511 D3

1512 E2

1513 E9

1514 E9

1515 F9

1516 E3

1517 E3

1518 G9

1519 F3

1520 G3

1521 H9

1522 G3

1523 H3

1524 H3

1525 A2

1526 A1

2502 C10

2506 C10

2508 B4

2509 D12

2512 D10

2514 C4

2515 C5

2517 D4

2518 D12

2520 E10

2521 D5

2523 D4

2524 F10

2525 G10

2526 G10

2527 F4

2528 E4

2529 F4

2530 H10

2531 G4

2533 I11

2534 I10

2535 H3

2536 G10

2538 H3

3500 B10

3502 C10

3503 B4

3506 D10

3507 C4

3508 D11

3510 C4

3511 D4

3512 D10

3513 E11

3514 D4

3515 D4

3516 E4

3517 E4

3518 E3

3519 G10

3520 E4

3521 G12

3522 G10

3523 F4

3524 I11

3525 G10

3526 F4

3528 F4

3529 H10

3530 G4

3531 H10

3532 G4

3533 G4

3535 H3

3536 H4

3537 I12

3538 G11

3540 I12

3545 H4

3546 H4

3550 E10

3551 E10

3552 F11

3553 F11

3554 I12

3555 H12

4502 G11

4504 I12

6501 D10

6504 D3

6505 E10

6507 D3

6509 F10

6510 H9

6511 H3

6512 G5

6513 G5

6514 E3

6515 F3

6516 G3

6517 H3

6518 C3

6519 C3

6520 E3

6521 G3

6522 C10

6523 C10

6524 E10

6525 G9

7500 G10

7502 G11

7503 I11

7504 I11

F510 D9

F511 C2

F512 D9

F513 C2

F514 D9

F515 C2

F516 D9

F517 C2

F518 D9

F519 D2

F520 D2

F521 D2

F522 D2

F523 F9

F524 E2

F525 E2

F526 F2

F527 F9

F528 F2

F529 F9

F530 H5

F531 E2

F532 E9

F534 B4

F535 C4

F536 C4

F537 D4

F538 E5

F539 E4

F540 F4

F541 F5

F542 G4

F543 D11

F544 D11

I510 B11

I512 C11

I517 D12

I520 D12

I528 G12

I530 G10

I533 H12

I540 C5

I541 D5

I543 G10

I544 G12

I545 E11

I548 I11

I549 I11

I550 G4

I551 G10

I552 G11

I553 I11

I554 I12

I556 H12

I557 F12

PESD5V0S1BA

6525

6524

PESD5V0S1BA PESD5V0S1BA

6523 6522

PESD5V0S1BA

65206521

PESD5V0S1BA

6519

PESD5V0S1BA

6518

PESD5V0S1BA

6517

PESD5V0S1BA

6516

PESD5V0S1BA

6515

PESD5V0S1BAPESD5V0S1BA

6514

4504

BC857BW

7504

4502

BC857BW

7502

3540

4K7

3538

I556

I557

3555

68R

I553

I554

I552

I551

1N4148

6513

1N4148

6512

220n

2534

2536

220n

PPTV/55

1506

1504

PPTV/55

33K

3515

3511

33K

3513 3508

33K

3512

150R

3506

150R

3514

150R

3510

150R

68R

3554

I550

I548

I549

15R

3524

2533

220n

+5V_SW

7503

BC847B 1K0

3537

3536

1K0

567

1525

1526

F532

F531

I544

I543

I541

I545

I540

F536

2528

6510

PESD5V0S1BA

6511

100R

3552

3553

75R

6K8

3551

3550

27K

3520

6K8

220n

2518

220n

2509

3n3

2520

3n3

2512 2506

330p 330p

2502

3533

75R 75R

3530 3526

75R

3517

75R

220n

2521

220n

2515

3n3

2523

3n3

2517

330p

2514

330p

2508

3502

150R

3500

3507

150R

3503

150R

3519

15R

220n

2525

2526

2524

2535

2531

2529

2527

I528

1518

PESD5V0S1BA

6509

PESD5V0S1BA

6505

PESD5V0S1BA

6501

PESD5V0S1BA

6507

PESD5V0S1BA

6504

2530

2538

1510

I520

F523

F522

1515

F516

I517

I530

+5V_SW

F525

F517

3518

27K

3525

1K0 BC847B

7500

3521

1K0

I512

F543

F544

1508 1501

1503 1500

3532

1K0

100R

3528

3523

100R

I510

I533

F542

F541

F539

F540

F538

F537

F535

F534

1513

1512

1509

F527

F512

F510

F518

F514

F529

F526

F511

F528

F515

F513

F519

F520

F524

F521

F530 100R

3529

75R

3531

1521

3522

68R

1514

100R

3545

75R

3546

1524 1523

3535 68R

1522 1520 1519 1517

100R

3516

1516 1511 1505

1507 1502

SC1_AUDIO_OUT_L

SC1_AUDIO_OUT_R

SC1_CVBS_RF_OUT

SC2_CVBS_MON_OUT_ITV

SC2_Y_CVBS_IN_ITV

SC2_C_IN_ITV

SC2_AUDIO_MUTE_L

SC1_AUDIO_MUTE_R

SC1_AUDIO_MUTE_L

SC2_AUDIO_MUTE_R

SC1_RF_OUT_CVBS

SC2_STATUS

SC2_C_IN

SC1_B_IN

SC1_G_IN

SC1_R_IN

SC1_FBL_IN

SC2_AUDIO_IN_R

SC2_AUDIO_IN_L

SC1_AUDIO_IN_R

SC2_CVBS_MON_OUT

SC1_FBL_IN

SC1_AUDIO_IN_L

SC2_Y_CVBS_IN

SC2_AUDIO_OUT_R

SC2_C_IN_ITV

SC2_Y_CVBS_IN_ITV

SC1_AUDIO_OUT_L

SC2_AUDIO_OUT_L

SC1_G_IN

SC1_STATUS

SC1_B_IN

SC1_AUDIO_OUT_R

SC2_AUDIO_IN_R

SC2_AUDIO_IN_L

SC1_CVBS_IN

SC1_R_IN

B06B B06B

3139 123 6261.1 G_16860_012.eps

250107

Item

non-iTV

Description

1504 SOC EURO V 21P F BK R-GRND B

1506 SOC EURO V 21P F BK R-GRND B

1525 CON V 5P M 1.00 SM SR R

1526 CON V 8P M 1.00 SM SR R

3516 RST SM 0603 100R PM5 COL

RST SM 0603 680R PM5 COL

3523 RST SM 0603 100R PM5 COL

RST SM 0603 680R PM5 COL

3528 RST SM 0603 100R PM5 COL

RST SM 0603 680R PM5 COL

iTV Analog

iTV-Digital

48LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

SSB: HDMI

VOUTR

SFOR

PLL1

CLKOUT

VOUTL

VDDD

VDDA

BCK

SYSCLK

DATAI

PLL0

MUTE

VSSA

VSSD

VREF_DAC

DEEM

SCL

ADR

2 SDA

R0X0

R0X1

R0X2

R1X0

R1X1

R1X2

R1XC

PWR5V

SCK

R0XC

MCLKOUT

XTALOUT

XTALIN

SCDT

RSVDL

RSVD_A

INT

RESET

DSCL0

DSDA0

DSCL1

DSDA1

CSCL

CSDA

CLK48B

EVNODD

SD0

SPDIF

MUTEOUT

ODCK

VSYNC

HSYNC

TMDS GND_HS

CGND IOGND

CVCC18 IOVCC

PVCC

REGVCC

AUDPVCC18AVCC

AGND AUDPGND PGND

XTALVCC

VIA

SCL

ADR

2 SDA

HDMI CONNECTOR-1

HDMI CONNECTOR-2

AUDIO DAC

RES

RESRES

RES

12345678910111213

1810 A1

1811 D1

1823 H8

2801 G3

2802 H3

2803 C7

2804 A7

2805 G3

2806 H3

2807 H2

2808 H2

2809 H8

2810 H6

2811 H2

2812 I2

2813 H8

2814 I2

2815 I2

2816 B11

2817 B11

2818 C11

2819 B11

2828 H8

2829 B10

2830 B10

2833 B11

2835 B12

2836 B12

2838 B12

2839 B12

2840 B12

2843 B13

2844 B13

2845 B13

2847 C10

2848 C10

2849 C11

2850 C11

2851 C11

2852 C11

2853 C12

2854 C12

2855 C12

2856 C12

2857 C12

2858 C13

2859 C13

2860 C13

2861 C13

2865 C10

2866 C10

2867 C11

2868 C11

2869 C11

2870 C12

2871 C12

2872 C12

2873 C12

2874 C12

2875 C13

2876 C13

3801 C6

3802 C7

3803 G3

3804 G3

3805 I2

3806 I2

3807-1 I5

3807-2 I5

3807-3 I5

3807-4 I5

3809 H5

3810 C6

3811 H8

3815 H8

3819 I8

3828 D7

3830 A6

3831 A6

3832 A7

3833 B7

3834 B7

3835 E11

3846 E7

3850 H7

3851-1 E11

3851-2 E11

3851-3 E11

3851-4 F11

3852-1 F11

3852-2 F11

3852-3 F11

3852-4 F11

3853-1 F11

3853-2 F11

3853-3 G11

3853-4 G11

3854-1 G11

3854-2 G11

3854-3 G11

3854-4 G11

3855-1 H11

3855-2 H11

3855-3 H11

3855-4 H11

3856-1 H11

3856-2 H11

3856-3 H11

3856-4 I11

3857 I11

3858 I11

3859 I11

3860 I11

3862 B2

3863 C2

3864 C2

3877 C3

3880 E2

3881 F2

3882 F2

3883 F3

3884 I6

3885 I7

3886 I7

3896 G5

3897 G5

4802 H6

4803 H6

4804 A6

4805 C6

5810 A11

5811 A11

5812 A11

5813 A12

5814 A12

5815 A13

5816 A13

5817 A10

5818 A13

6801 C5

6802 C5

6830 A5

6831 A5

7810 I3

7811 C5

7812 D7

7813 E7

7814 C2

7816 C3

7817-1 E9

7817-2 D10

7817-3 C9

7824 H5

7825 H7

7850 A5

7851 B7

7852 B7

7860 F2

7861 F3

F801 G3

F802 H4

F805 I12

F806 I12

F832 A1

F840 B1

F841 B1

F842 B1

F843 B1

F850 H6

F851 H7

F861 D1

F869 E1

F870 E1

F871 E1

F872 E1

F873 C6

F874 A6

F875 D13

F876 F6

F877 G6

I801 H2

I802 H2

I803 H3

I804 I2

I805 I2

I806 I2

I813 I12

I814 I12

I820 D7

I821 E7

I822 B7

I823 C7

I828 I6

I831 C2

I833 C2

I840 C3

I841 C3

I842 F3

I843 F3

I844 G6

I845 G6

I846 H8

I847 H9

I848 I8

I850 A10

I851 A11

I852 A11

I853 A12

I854 A12

I855 A13

I856 A13

I857 A13

I858 A11

I861 F2

I862 H9

I863 H3

I864 I7

I865 I7

I866 I7

I866

I864

I865

+5V_SW

6802

BAT54 COL

6801

BAT54 COL

6831

+5V_SW

6830

BAT54 COL

33R

3886

3885

33R

3884

I863

I862

3803

1R0

+3V3_SW

2801

6.3V 47u

I801

+3V3_SW 48034802

DAC

UDA1334ATS

7810

I805

I806

2815

10n

F802

F801

I803

I804

I802

3806

220R

2812 10u

10n

220R

2814

10u2811

3805

2808

6.3V 47u

2807

100n

1R0

3804

100n

2802

+3V3_SW

2805

6.3V 47u

100n

2806

3807-3 36

3807-4 33R

33R

3807-2

33R

3807-1 1

33R18

33R27

3856-1

33R36

3856-2

3856-3

3856-4 33R

33R3855-1 1

33R27

33R36

3855-2

33R45

3855-3

3855-4

33R3835

33R3854-1 1

3854-2 2 7

33R36

33R

3854-3

33R3854-4

33R3853-1

33R3853-2

3853-3 33R36

33R3853-4 4 5

33R

3851-1

33R

3851-2

33R3851-3

33R1

3852-2 33R27

3852-1

3852-3 3 6

33R45

33R

3852-4

3851-4 33R

F877

F876

F875

I822

I823

I820

I821

I856I857I855I853 I854

I858

I852I850 I851

F874

F851

F873

F850

I847

I848

I845

I846

I841

I844

I843

I840

I842

4805 4804

2816

+1V8S_SW

2223

1n0

2021

1811

10n

2809

10K

3850

7825

BSN20

+3V3_SW

+5VHDMI_B

4K7

3834

+3V3_SW

3833

4K7

7851

BSN20

+3V3_SW

7852

3830

4K7

+5VHDMI_B

100n

2804

47K

3831 3832

47K

7850

(256x8)

EEPROM

M24C02-WMN6

2K2

3883

100R

3882

7861

BC847BW

2021

2223

I861

1810

DC1R019JBAR190

2K2

3881

BC847BW

1K0

3880

7860

F861

F872

F871

F869

F870

+5VHDMI_B

1823

28M322

3877

2K2

3864

100R

7816

BC847BW

I831

I833

2K2

3863

BC847BW

7814

3862 1K0

F832

F842

F843

F841

F840

+3V3_SW

+5VHDMI_A

3846

4K7

3828

+3V3_SW

167

168

169

170

148

149

150

151

152

153

154

158

159

160

161

162

163

164

147

165

166

SII9025CTU

7817-3

VIA

146

155

156

157

122

134

108

120

135

109

105

114

128

139

145

106

115

127

138

95 94

7817-2

SII9025CTU

POWER

102

101

103

133

132

131

117

116

142

113

112

111

110

141

140

137

136

144

143

130

129

126

125

124

123

119

118

100

121

104

107

+3V3_SW

7817-1

SII9025CTU

MAIN

7812

+3V3_SW

BSN20

7813

BSN20

3859

3858 33R

33R

2861 1n0 100n

2845 120R

5816 +3V3_SW

2860 1n0

2859 1n0

100n

2844

+3V3_SW

100n

2843

5815

120R

2869 1n0

+1V8S_SW

2817 100n 5810

120R

1n0

2856 100n

2839

2840 100n

2857

1n0

2858

1n0

2873

1n0

2874

2876 1n0

2875

5814 +3V3_SW

1n0

120R

100n

2836

100n

1n0

2855

2835

2854 1n0

1n0

2853

2852 1n0

2871

2872 1n0

1n0

2870 1n0

2818 100n

2838 100n 120R +3V3_SW

5813

28192833 100n +1V8S_SW

100n

120R

5811

+3V3_SW

2868 1n0

3811

4K7

10n

2810

3809

10K

+3V3_SW

+5VHDMI_A

BSN20

7824

18p

2828

2813

18p

I828

3819 33R

1M0

120R

3815

5818

100n

2830

100n

28292847 1n0

1n0

2851

3810

4K7

1n0

2867

2866 1n0 2848 1n0

+5VHDMI_A

2803

100n47K

3802

3801

47K

7811

M24C02-WMN6

EEPROM

(256x8)

I813

I814

F806

F805

33R3860

33R3857

2849 1n0

5812

120R

3897 100R

3896

5817

100R

120R

2865 1n0

2850 1n0

HDMI_Cb(5)

HDMI_Cb(6)

HDMI_Cb(7) HDMI_Y(0:7)

HDMI_Cb(0:7)

HDMI_Cr(0:7)

HDMI_SCK

HDMI_WS

HDMI_SD

HDMI_Cr(2)

HDMI_Cr(3)

HDMI_Cr(4)

HDMI_Cr(5)

HDMI_Cr(6)

HDMI_Cr(7)

HDMI_Cb(0)

HDMI_Cb(1)

HDMI_Cb(2)

HDMI_Cb(3)

HDMI_Cb(4)

HDMI_Y(0)

HDMI_Y(1)

HDMI_Y(2)

HDMI_Y(3)

HDMI_Y(4)

HDMI_Y(5)

HDMI_Y(6)

HDMI_Y(7)

HDMI_Cr(0)

HDMI_Cr(1)

HDMI_AUDIO_IN_R

HDMI_I2S_SCK

HDMI_I2S_SD

HDMI_I2S_WS

HDMI_AUDIO_IN_L

DOC_SDAB

DDC_RESET

DOC_SCLB

DOC_SDAB

DOC_SCLB

RX1-B

RX2+B

RX2-B

RXC+B

RXC-B

DDC_RESET

HDMI_HOTPLUG_RESET

RX0+B

RX0-B

RX1+B

DOC_SDAA

RXC-A

DOC_SCLA

RX1+A

RX1-A

RX2+A

RX2-A

RXC+A

HDMI_HOTPLUG_RESET

RX0+A

RX0-A

RX1-B

RX0+B

RX0-B

RXC+B

RXC-B

HDMI_INT

RST

RX0+A

RX0-A

RXC+A

RXC-A

RX1+A

RX1-A

RX2+A

RX2-A

RX2+B

RX2-B

RX1+B

DOC_SCLA

DOC_SDAA

HDMI_H

HDMI_V

IIC_SCL

IIC_SDA

HDMI_DE

HDMI_VCLK

B06C B06C

3139 123 6261.1

G_16860_013.eps

240107

HDMI

Circuit Diagrams and PWB Layouts 49LC7.1E LA 7.

SSB: Headphone Amp & Muting

HEADPHONE AMP & MUTING

MUTING CIRCUIT

2V6

2V6 2V6

5V3

2V6

2V6 2V6

5V3

ITV Connector E

EMC

RES

FOR NON SIDE IO

3V3

1234567

1900 B7

1901 B2

2901 A4

2902 A2

2903 B5

2904 C2

2905 B4

2906 C5

2907 C3

2908 B5

2909 A7

2910 C7

2911 A7

2912 C7

2913 B5

2940 E2

3901 A3

3902 A4

3903 A6

3904 B6

3905 C3

3906 B3

3907 C3

3908 B4

3909 B6

3910 C6

3911 D2

3912 D4

3913 D4

3914 E4

3915 E4

3916 F4

3917 C4

3918 D4

3934 E3

3935 E2

3937 E1

3938 E2

3940 F3

3942 F5

3943 F6

4901 D3

4902 A7

4903 C7

6914 E2

6916 E3

6919 F4

7901-1 A4

7901-2 B4

7902 D3

7911 C5

7912 D5

7913 D5

7914 E5

7915 E5

7916 F5

7917 E3

7919 E2

7922 F6

F901 B3

F902 B6

F903 C6

F904 C3

F905 D2

F908 A2

F910 B2

I901 A3

I902 B5

I903 C5

I904 B6

I905 C5

I911 D2

I912 D3

I913 E2

I914 E1

I915 E2

I916 E2

I917 E3

I918 E4

I919 D6

I920 E6

I921 E6

I922 F6

I923 F6

I924 B5

4903

4902

I924

2913

220n

1K0

3916

1K0

3915

1K0

3914

1K0

3913

1K0

3918

3917

1K0

10K

3912

3938

10K

10n

2912

2911

10n

I923

I922

I920

I921

I919

I918

I915

I917

I914

I916

I913

4901

BAS316

6919

3940

+3V3_STBY

10K

BAT54 COL

6914

7922

BC847BW

10K

3943

1K0

3942

3937

BC847BW

10K

7919

6916

BAS316

BC857BW

7917

6.3V47u

2940

3935

4K7

3934

+3V3_STBY

4K7 3

BC847BW

7914

7915

BC847BW

I911

I912

F905

10n

2909

2910

10n

F903

1901

F902

YKB21-5157N

1900

470n

2907

3911

10K

7916

BC847BW

7913

BC847BW

7911

BC847BW

7912

BC847BW

3909

33R

3903

33R

2905

2901

33p

3910

33R

3904

I901

F910

F908

2908

220n

+5V_SW

7901-1

TS482IDT

7901-2

TS482IDT

F904

F901

I905

I904

I902

I903

3907

100K

3902 120K

3905

47K

3901

47K

3906

100K

470n

120K3908

2902

2904

470n

16V100u

2903

16V

2906

100u

7902

BC857BW

+3V3_STBY

ENGAGE

MUTEn

SC2_CVBS_MON_OUT_ITV

HP_LOUT

HP_ROUT

SC2_AUDIO_MUTE_R

SC2_AUDIO_MUTE_L

POWER_DOWN

STANDBY

HPIC_RIN

ANTI_PLOP

SC1_AUDIO_MUTE_L

SC1_AUDIO_MUTE_R

HPIC_ROUT

HPIC_LOUT

HPIC_LINHP_AUDIO_OUT_L

HP_AUDIO_OUT_R

B06D B06D

3139 123 6261.1 G_16860_014.eps

250107

Item Description

1901 CON V 4P M 1.00 SM SR R

2901 CER1 0603 NP0 50V 33P COL

2902 CER2 0603 Y5V 10V 470N COL

2903 ELCAP SM 16V 100U PM20 COL R

2904 CER2 0603 Y5V 10V 470N COL

2905 CER1 0603 NP0 50V 33P COL

2906 ELCAP SM 16V 100U PM20 COL R

2907 CER2 0603 Y5V 10V 470N COL

2909 CER2 0603 X7R 50V 10N COL

2910 CER2 0603 X7R 50V 10N COL

2911 CER2 0603 X7R 50V 10N COL

2912 CER2 0603 X7R 50V 10N COL

3901 RST SM 0603 47K PM5 COL

3902 RST SM 0603 RC21 120K PM5 R

3904 RST SM 0603 33R PM5 COL

3905 RST SM 0603 47K PM5 COL

3906 RST SM 0603 100K PM5 COL

3907 RST SM 0603 100K PM5 COL

3908 RST SM 0603 RC21 120K PM5 R

3910 RST SM 0603 33R PM5 COL

3917 RST SM 0603 1K PM5 COL

3918 RST SM 0603 1K PM5 COL

4902 RST SM 0603 JUMP. 0R05 COL

4903 RST SM 0603 JUMP. 0R05 COL

7901 IC SM TS482ID (ST00) R

7911 TRA SIG SM BC847BW (COL) R

7912 TRA SIG SM BC847BW (COL) R

EU iTV

non-iTV

US iTV

50LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

SSB: Audio

VSSD|HW

IN1N

IN2P

IN2N

INREF

OSCREF

OSCIO

HVPREF

DREF

ENGAGE

POWERUP

TEST

VDDP

VSSP

VDDA

STAB2

STAB1

BOOT2

BOOT1

HVP2

HVP1

DIAG

OUT2

OUT1

CGND VSSA

IN1P

LEFT +

GND

RIGHT -

EMC

AUDIO

DC-DETECTION

RES

11V9

12V2

-12V2

+12V2

TO SPEAKERS

2V6

8V9

3V9

-1V3

-2V8

-7V6

-8V2

4V7

3V2

-2V6

LCD PDP

3A03

3A04

3A06

3A07

3A08

3A11

10K 6K8

12K 22K

10K 6K8

12K 22K

10K 6K8

IA38 E7

IA39 F7

IA40 A7

IA41 A6

IA03 D6

IA04 D9

IA05 D3

IA06 D4

IA07 D6

IA09 D4

IA10 D3

IA11 E3

IA12 E3

IA13 E4

IA14 E6

IA15 E4

IA16 E6

IA17 E9

IA18 E5

IA19 E4

IA20 E6

IA21 F4

IA22 F4

IA23 D6

IA24 B7

IA25 B9

IA26 B7

IA27 B9

IA29 F10

IA30 E10

IA31 E10

IA33 E4

IA34 C8

IA35 D7

IA36 D7

IA37 E8

3A19 F3

3A26 E3

3A27 F9

3A28 F9

3A29 E10

3A30 E10

3A31 F11

4A01 A6

4A02 A6

5A03 C7

5A04 E7

5A05 B6

5A06 B8

5A07 A6

7A01 D4

7A05 E11

7A06 F10

7A07 F10

FA01 C6

FA02 B8

FA04 D6

FA05 D2

FA06 D2

FA07 D11

FA08 D11

FA09 E2

FA10 D11

FA11 D11

FA12 E2

FA32 E11

IA01 D3

IA02 D3

2A27 E6

2A28 E8

2A29 E3

2A30 F6

2A31 F7

2A32 F4

2A33 F5

2A34 F5

2A35 E7

2A36 F7

2A37 D8

2A38 E8

2A40 F3

2A41 F9

2A45 E7

2A46 A6

2A47 B6

3A01 B6

3A02 B8

3A03 D2

3A04 D3

3A05 D9

3A06 D2

3A07 D2

3A08 D3

3A09 D7

3A11 E2

3A12 E6

3A13 E3

3A14 E9

3A15 E6

3A17 E7

10 11

1735 D11

2A01 B7

2A02 B9

2A04 C7

2A08 B9

2A09 D5

2A10 D5

2A11 D3

2A12 D4

2A13 D8

2A14 D8

2A15 D3

2A16 D3

1234567891011

123456789

5A04

22u

2A17 D8

2A18 D6

2A19 D4

2A20 E3

2A21 D7

2A22 E3

2A23 E8

2A24 E3

2A25 E6

2A26 E8

22u

IA41

5A03

GNDSND

47n

2A47 2A46

47n

+AUDIO_POWER

60R

5A07

+AUDIO_POWER_+12V_DISP

IA40

4A02

4A01

VSS

VSSA

GNDSND

IA39

IA38

IA37

IA36

IA35

IA34

IA33

470n

2A28

470n

2A14

2A45

1n0

FA32

IA31

IA29

IA30

220u

2A04

220u 25V

25V

GNDSND

2A08

GNDSND

2A41

1u0

3A28

220K

3A27

220K

7A06

BC847BW

7A07

BC847BW

3A31

10K

BC857BW

7A05

47K

3A30 3A29

47K

2A40

470n

GNDSND

VDD

3A26 22K

2A38

220n

GNDSND

220n

2A37

1n0

2A35

1n0

2A36

GNDSND

GNDSNDGNDSND

GNDSND

IA25

IA27

IA26

IA24

IA17

IA23 IA04

IA20

IA16

IA18

IA14

IA03

FA04

IA07

IA19

IA22

IA21

IA13

IA15

IA11 IA12

IA09

IA06

IA10

IA01

IA05

FA07

FA10

FA08

FA11

FA02

FA01

FA09

FA12

FA06

FA05 IA02

3A07 1u0

3A06

2A16

2A15 1u0

100n

2A02

2A01

100n

2A17

1n0

2A23

1M0

3A15

1n0

3A12 1M0

VDD

10K

3A19

VSS

220n

2A26 3A14

22R

2A13

220n 22R

3A05

10R

3A17

10R

3A09

2A18

1n0

2A32

1n0

VSS

5A06 30R

30R

5A05

3A11

3A03

3A08

220p

3A04

2A19

2A12

220p

10R

VDDA

VSSA

10R

3A02

-AUDIO_POWER

3A01

1735

+AUDIO_POWER

B4B-PH-K

2A31

1n0

2A21

1n0

2A34 100n

VDD

100n2A09

2A25 15n

2A30

100n

2A27 15n

100n2A33

2A10

100n

2A20

2A29

2A22 100n

1u0

VSSA

GNDSND

3A13 39K

100n2A24

VDDA

VSSA

2A11 1u0

7A01

TDA8932T

AMPLIFIER

POWER

CLASS D

DC_PROT

AUDIO_LS_R

ENGAGE

AUDIO_LS_L

STANDBYn

B07 B07

3139 123 6261.1

G_16860_015.eps

240107

Circuit Diagrams and PWB Layouts 51LC7.1E LA 7.

SSB: SRP List

3104 313 6261.1

G_16860_026.eps

250107

Netname Schematic

+12V_DISP B02 (1x)

+12V_DISP B04A (1x)

+12V_DISP B04B (1x)

+1V2_MOJO B02 (1x)

+1V2_MOJO B03D (2x)

+1V8S_SW B02 (1x)

+1V8S_SW B03B (2x)

+1V8S_SW B03F (1x)

+1V8S_SW B04B (3x)

+1V8S_SW B06C (3x)

+3V3 B03B (3x)

+3V3 B03C (3x)

+3V3 B03D (8x)

+3V3 B03E (2x)

+3V3 B03F (1x)

+3V3_BUF B03C (4x)

+3V3_CORE B03C (2x)

+3V3_MOJO B02 (1x)

+3V3_MOJO B03F (2x)

+3V3_NOR48 B03E (4x)

+3V3_STBY B02 (1x)

+3V3_STBY B04A (30x)

+3V3_STBY B06D (3x)

+3V3_STV B03C (10x)

+3V3_SW B02 (1x)

+3V3_SW B04A (8x)

+3V3_SW B04B (13x)

+3V3_SW B06C (19x)

+3V3_VDDP B03D (3x)

+3V3clean B03D (1x)

+3V3clean B03F (1x)

+3V3FE B03B (5x)

+5V_AUD B04C (3x)

+5V_D B04C (2x)

+5V_IF B03A (4x)

+5V_STANDBY B02 (4x)

+5V_STANDBY B04A (4x)

+5V_STANDBY B04B (2x)

+5V_SW B02 (6x)

+5V_SW B03A (4x)

+5V_SW B03B (9x)

+5V_SW B03C (2x)

+5V_SW B03E (3x)

+5V_SW B04A (1x)

+5V_SW B04B (2x)

+5V_SW B04C (2x)

+5V_SW B06A (2x)

+5V_SW B06B (2x)

+5V_SW B06D (1x)

+5VHDMI_A B06C (3x)

+5VHDMI_B B06C (3x)

+5VS B03A (3x)

+8V B04C (2x)

+AUDIO_POWER B02 (1x)

+AUDIO_POWER B04C (1x)

+AUDIO_POWER B06A (1x)

+AUDIO_POWER B07 (1x)

+IO_POWER B06A (10x)

+IO_POWER B06B (7x)

+VTUN B02 (1x)

+VTUN B03A (1x)

+VTUN B04A (1x)

10046_TDO B03B (1x)

10046_TDO B03D (1x)

4MHZ_CLK B03A (1x)

4MHZ_CLK B03B (1x)

4MHz_MOJO B03B (1x)

4MHz_MOJO B03D (1x)

A(0) B04A (1x)

A(0) B04B (1x)

A(0:7) B04A (1x)

A(0:7) B04B (1x)

A(1) B04A (2x)

A(1) B04B (1x)

A(1:7) B04A (1x)

A(10) B04A (2x)

A(11) B04A (2x)

A(12) B04A (2x)

A(13) B04A (2x)

A(14) B04A (2x)

A(15) B04A (2x)

A(16) B04A (2x)

A(17) B04A (2x)

A(18) B04A (2x)

A(19) B04A (2x)

A(2) B04A (2x)

A(2) B04B (1x)

A(3) B04A (2x)

A(3) B04B (1x)

A(4) B04A (2x)

A(4) B04B (1x)

A(5) B04A (2x)

A(5) B04B (1x)

A(6) B04A (2x)

A(6) B04B (1x)

A(7) B04A (2x)

A(7) B04B (1x)

A(8) B04A (2x)

A(8:19) B04A (2x)

A(9) B04A (2x)

A_MICLK B03C (1x)

A_MISTRT B03C (1x)

A_MIVAL B03C (1x)

A_MOCLK B03C (1x)

A_MOSTRT B03C (1x)

A_MOVAL B03C (1x)

AD(0) B04A (2x)

AD(0) B04B (1x)

AD(0:7) B04A (2x)

AD(0:7) B04B (1x)

AD(1) B04A (2x)

AD(1) B04B (1x)

AD(2) B04A (2x)

AD(2) B04B (1x)

AD(3) B04A (2x)

AD(3) B04B (1x)

AD(4) B04A (2x)

AD(4) B04B (1x)

AD(5) B04A (2x)

AD(5) B04B (1x)

AD(6) B04A (2x)

AD(6) B04B (1x)

AD(7) B04A (2x)

AD(7) B04B (1x)

ALE_EMU B04A (1x)

ALE_EMU B04B (1x)

ANTI_PLOP B04A (1x)

ANTI_PLOP B06D (1x)

AUDIO_LS_L B04C (1x)

AUDIO_LS_L B07 (1x)

AUDIO_LS_R B04C (1x)

AUDIO_LS_R B07 (1x)

-AUDIO_POWER B02 (1x)

-AUDIO_POWER B07 (1x)

BACKLIGHT_BOOST B02 (1x)

BACKLIGHT_BOOST B04A (1x)

BL_ADJUST B02 (1x)

BL_ADJUST B04A (1x)

BL_ADJUST B04B (1x)

BL_ON_OFF B02 (1x)

BL_ON_OFF B04A (1x)

BOLT_ON_SCL B04A (2x)

BOLT_ON_SDA B04A (2x)

CE B04A (1x)

COMP_AUDIO_IN_L B04C (1x)

COMP_AUDIO_IN_L B06A (1x)

COMP_AUDIO_IN_R B04C (1x)

COMP_AUDIO_IN_R B06A (1x)

CPU_RST B04A (1x)

CS B04A (1x)

CS B04B (1x)

CTRL_DISP1 B04B (2x)

CTRL_DISP1_up B04A (1x)

CTRL_DISP1_up B04B (1x)

CTRL_DISP2 B04B (2x)

CTRL_DISP3 B04B (2x)

CTRL_DISP4 B04B (2x)

CTRL_DISP4_up B04A (1x)

CTRL_DISP4_up B04B (1x)

CVBS_RF B03A (1x)

CVBS_RF B04B (1x)

CX_AVDD_ADC1 B04B (2x)

CX_AVDD_ADC2 B04B (2x)

CX_AVDD_ADC3 B04B (2x)

CX_AVDD_ADC4 B04B (2x)

CX_AVDD3_ADC1 B04B (2x)

CX_AVDD3_ADC2 B04B (2x)

CX_AVDD3_BG_ASS B04B (2x)

CX_AVDD3_OUTBUF B04B (2x)

CX_PAVDD B04B (2x)

CX_PAVDD1 B04B (2x)

CX_PAVDD2 B04B (2x)

CX_PDVDD B04B (2x)

DC_PROT B04A (1x)

DC_PROT B07 (1x)

DDC_RESET B04A (1x)

DDC_RESET B06C (2x)

DVB_SW B03A (1x)

DVB_SW B04A (1x)

E_PAGE B04A (1x)

ENGAGE B06D (1x)

ENGAGE B07 (1x)

FE_LOCK B03B (1x)

FE_LOCK B03D (1x)

FRONT_C_IN B04B (1x)

FRONT_C_IN B06A (1x)

FRONT_Y_CVBS_IN B04B (1x)

FRONT_Y_CVBS_IN B06A (1x)

GNDDC B02 (1x)

GNDSND B02 (3x)

GNDSND B07 (21x)

GNDTUN B02 (1x)

HD_PB_IN B04B (1x)

HD_PB_IN B06A (2x)

HD_PR_IN B04B (1x)

HD_PR_IN B06A (2x)

HD_Y_IN B04B (1x)

HD_Y_IN B06A (2x)

HDMI_AUDIO_IN_L B04C (1x)

HDMI_AUDIO_IN_L B06C (1x)

HDMI_AUDIO_IN_R B04C (1x)

HDMI_AUDIO_IN_R B06C (1x)

HDMI_Cb(0) B04B (1x)

HDMI_Cb(0) B06C (1x)

HDMI_Cb(0:7) B04B (1x)

HDMI_Cb(0:7) B06C (1x)

HDMI_Cb(1) B04B (1x)

HDMI_Cb(1) B06C (1x)

HDMI_Cb(2) B04B (1x)

HDMI_Cb(2) B06C (1x)

HDMI_Cb(3) B04B (1x)

HDMI_Cb(3) B06C (1x)

HDMI_Cb(4) B04B (1x)

HDMI_Cb(4) B06C (1x)

HDMI_Cb(5) B04B (1x)

HDMI_Cb(5) B06C (1x)

HDMI_Cb(6) B04B (1x)

HDMI_Cb(6) B06C (1x)

HDMI_Cb(7) B04B (1x)

HDMI_Cb(7) B06C (1x)

HDMI_Cr(0) B04B (1x)

HDMI_Cr(0) B06C (1x)

HDMI_Cr(0:7) B04B (1x)

HDMI_Cr(0:7) B06C (1x)

HDMI_Cr(1) B04B (1x)

HDMI_Cr(1) B06C (1x)

HDMI_Cr(2) B04B (1x)

HDMI_Cr(2) B06C (1x)

HDMI_Cr(3) B04B (1x)

HDMI_Cr(3) B06C (1x)

HDMI_Cr(4) B04B (1x)

HDMI_Cr(4) B06C (1x)

HDMI_Cr(5) B04B (1x)

HDMI_Cr(5) B06C (1x)

HDMI_Cr(6) B04B (1x)

HDMI_Cr(6) B06C (1x)

HDMI_Cr(7) B04B (1x)

HDMI_Cr(7) B06C (1x)

HDMI_DE B04B (1x)

HDMI_DE B06C (1x)

HDMI_H B04B (1x)

HDMI_H B06C (1x)

HDMI_HOTPLUG_RESET B04A (1x)

HDMI_HOTPLUG_RESET B06C (2x)

HDMI_INT B04A (1x)

HDMI_INT B06C (1x)

HDMI_V B04B (1x)

HDMI_V B06C (1x)

HDMI_VCLK B04B (1x)

HDMI_VCLK B06C (1x)

HDMI_Y(0) B04B (1x)

HDMI_Y(0) B06C (1x)

HDMI_Y(0:7) B04B (1x)

HDMI_Y(0:7) B06C (1x)

HDMI_Y(1) B04B (1x)

HDMI_Y(1) B06C (1x)

HDMI_Y(2) B04B (1x)

HDMI_Y(2) B06C (1x)

HDMI_Y(3) B04B (1x)

HDMI_Y(3) B06C (1x)

HDMI_Y(4) B04B (1x)

HDMI_Y(4) B06C (1x)

HDMI_Y(5) B04B (1x)

HDMI_Y(5) B06C (1x)

HDMI_Y(6) B04B (1x)

HDMI_Y(6) B06C (1x)

HDMI_Y(7) B04B (1x)

HDMI_Y(7) B06C (1x)

HP_AUDIO_OUT_L B04C (1x)

HP_AUDIO_OUT_L B06D (1x)

HP_AUDIO_OUT_R B04C (1x)

HP_AUDIO_OUT_R B06D (1x)

I2C_LOCAL_SCL B03B (1x)

I2C_LOCAL_SCL B03C (1x)

I2C_LOCAL_SCL B03D (1x)

I2C_LOCAL_SCL B03E (1x)

I2C_LOCAL_SDA B03B (1x)

I2C_LOCAL_SDA B03C (1x)

I2C_LOCAL_SDA B03D (1x)

I2C_LOCAL_SDA B03E (1x)

I2C_TDA_SCL B03A (1x)

I2C_TDA_SCL B03B (1x)

I2C_TDA_SDA B03A (1x)

I2C_TDA_SDA B03B (1x)

IBO_B_IN B03F (1x)

IBO_B_IN B04B (1x)

IBO_CVBS_IN B03F (1x)

IBO_CVBS_IN B04B (1x)

IBO_G_IN B03F (1x)

IBO_G_IN B04B (1x)

IBO_IRQ B03D (1x)

IBO_IRQ B04A (1x)

IBO_R_IN B03F (1x)

IBO_R_IN B04B (1x)

IF_AGC_IBO B03A (1x)

IF_AGC_IBO B03B (1x)

IF_ATV B03A (2x)

IIC_SCL B03A (2x)

IIC_SCL B03D (1x)

IIC_SCL B04A (1x)

IIC_SCL B04B (2x)

IIC_SCL B04C (1x)

IIC_SCL B06C (1x)

IIC_SCL_up B04A (2x)

IIC_SDA B03A (2x)

IIC_SDA B03D (1x)

IIC_SDA B04A (1x)

IIC_SDA B04B (2x)

IIC_SDA B04C (1x)

IIC_SDA B06C (1x)

IIC_SDA_up B04A (2x)

INT B04A (1x)

INT B04B (1x)

ISP B04A (1x)

ITV_SPI_CLK B04A (2x)

ITV_SPI_DATA_IN B04A (2x)

JTAG_TCK B03B (1x)

JTAG_TCK B03C (1x)

JTAG_TCK B03D (1x)

JTAG_TMS B03B (1x)

JTAG_TMS B03C (1x)

JTAG_TMS B03D (1x)

JTAG_TRST B03B (1x)

JTAG_TRST B03C (1x)

JTAG_TRST B03D (1x)

KEYB B04A (2x)

LCD_PWR_ON B04A (1x)

LCD_PWR_ON B04B (1x)

LED1 B04A (2x)

LED2 B04A (2x)

LIGHT_SENSOR B04A (2x)

MIU_ADDR(0) B03C (1x)

MIU_ADDR(0) B03D (1x)

MIU_ADDR(0:24) B03D (1x)

MIU_ADDR(1) B03C (1x)

MIU_ADDR(1) B03D (1x)

MIU_ADDR(1) B03E (1x)

MIU_ADDR(10) B03C (1x)

MIU_ADDR(10) B03D (1x)

MIU_ADDR(10) B03E (1x)

MIU_ADDR(11) B03C (1x)

MIU_ADDR(11) B03D (1x)

MIU_ADDR(11) B03E (1x)

MIU_ADDR(12) B03C (1x)

MIU_ADDR(12) B03D (1x)

MIU_ADDR(12) B03E (1x)

MIU_ADDR(13) B03C (1x)

MIU_ADDR(13) B03D (1x)

MIU_ADDR(13) B03E (1x)

MIU_ADDR(14) B03C (1x)

MIU_ADDR(14) B03D (1x)

MIU_ADDR(14) B03E (1x)

MIU_ADDR(15) B03C (1x)

MIU_ADDR(15) B03D (1x)

MIU_ADDR(15) B03E (1x)

MIU_ADDR(16) B03C (1x)

MIU_ADDR(16) B03D (1x)

MIU_ADDR(16) B03E (1x)

MIU_ADDR(17) B03C (1x)

MIU_ADDR(17) B03D (1x)

MIU_ADDR(17) B03E (1x)

MIU_ADDR(18) B03C (1x)

MIU_ADDR(18) B03D (1x)

MIU_ADDR(18) B03E (1x)

MIU_ADDR(19) B03C (1x)

MIU_ADDR(19) B03D (1x)

MIU_ADDR(19) B03E (1x)

MIU_ADDR(2) B03C (1x)

MIU_ADDR(2) B03D (1x)

MIU_ADDR(2) B03E (1x)

MIU_ADDR(20) B03C (1x)

MIU_ADDR(20) B03D (1x)

MIU_ADDR(20) B03E (1x)

MIU_ADDR(21) B03C (1x)

MIU_ADDR(21) B03D (1x)

MIU_ADDR(21) B03E (1x)

MIU_ADDR(22) B03C (1x)

MIU_ADDR(22) B03D (1x)

MIU_ADDR(22) B03E (1x)

MIU_ADDR(23) B03C (1x)

MIU_ADDR(23) B03D (1x)

MIU_ADDR(24) B03C (1x)

MIU_ADDR(24) B03D (1x)

MIU_ADDR(3) B03C (1x)

MIU_ADDR(3) B03D (1x)

MIU_ADDR(3) B03E (1x)

MIU_ADDR(4) B03C (1x)

MIU_ADDR(4) B03D (1x)

MIU_ADDR(4) B03E (1x)

MIU_ADDR(5) B03C (1x)

MIU_ADDR(5) B03D (1x)

MIU_ADDR(5) B03E (1x)

MIU_ADDR(6) B03C (1x)

MIU_ADDR(6) B03D (1x)

MIU_ADDR(6) B03E (1x)

MIU_ADDR(7) B03C (1x)

MIU_ADDR(7) B03D (1x)

MIU_ADDR(7) B03E (1x)

MIU_ADDR(8) B03C (1x)

MIU_ADDR(8) B03D (1x)

MIU_ADDR(8) B03E (1x)

MIU_ADDR(9) B03C (1x)

MIU_ADDR(9) B03D (1x)

MIU_ADDR(9) B03E (1x)

MIU_DATA(0) B03C (1x)

MIU_DATA(0) B03D (1x)

MIU_DATA(0) B03E (1x)

MIU_DATA(0:15) B03D (1x)

MIU_DATA(0:15) B03E (1x)

MIU_DATA(1) B03C (1x)

MIU_DATA(1) B03D (1x)

MIU_DATA(1) B03E (1x)

MIU_DATA(10) B03D (1x)

MIU_DATA(10) B03E (1x)

MIU_DATA(11) B03D (1x)

MIU_DATA(11) B03E (1x)

MIU_DATA(12) B03D (1x)

MIU_DATA(12) B03E (1x)

MIU_DATA(13) B03D (1x)

MIU_DATA(13) B03E (1x)

MIU_DATA(14) B03D (1x)

MIU_DATA(14) B03E (1x)

MIU_DATA(15) B03D (1x)

MIU_DATA(15) B03E (1x)

MIU_DATA(2) B03C (1x)

MIU_DATA(2) B03D (1x)

MIU_DATA(2) B03E (1x)

MIU_DATA(3) B03C (1x)

MIU_DATA(3) B03D (1x)

MIU_DATA(3) B03E (1x)

MIU_DATA(4) B03C (1x)

MIU_DATA(4) B03D (1x)

MIU_DATA(4) B03E (1x)

MIU_DATA(5) B03C (1x)

MIU_DATA(5) B03D (1x)

MIU_DATA(5) B03E (1x)

MIU_DATA(6) B03C (1x)

MIU_DATA(6) B03D (1x)

MIU_DATA(6) B03E (1x)

MIU_DATA(7) B03C (1x)

MIU_DATA(7) B03D (1x)

MIU_DATA(7) B03E (1x)

MIU_DATA(8) B03D (1x)

MIU_DATA(8) B03E (1x)

MIU_DATA(9) B03D (1x)

MIU_DATA(9) B03E (1x)

MIU_OEN B03C (1x)

MIU_OEN B03D (1x)

MIU_OEN B03E (1x)

MIU_RDY B03C (1x)

MIU_RDY B03D (1x)

MIU_WEN B03C (1x)

MIU_WEN B03D (1x)

MIU_WEN B03E (1x)

MOJO_I2S_OUT_SCK B03D (1x)

MOJO_I2S_OUT_SCK B04C (1x)

MOJO_I2S_OUT_SD B03D (1x)

MOJO_I2S_OUT_SD B04C (1x)

MOJO_I2S_OUT_WS B03D (1x)

MOJO_I2S_OUT_WS B04C (1x)

MUTEn B04A (1x)

MUTEn B06D (1x)

NOR_CS B03D (1x)

NOR_CS B03E (1x)

NOR_RYBY B03D (1x)

NOR_RYBY B03E (1x)

NOR_WP B03D (1x)

NOR_WP B03E (1x)

PCMCIA_5V B03C (4x)

PCMCIA_AVCC B03C (3x)

PCMCIA_VPP B03C (3x)

POWER_DOWN B02 (1x)

POWER_DOWN B04A (1x)

POWER_DOWN B06D (1x)

RD B04A (1x)

RD B04B (1x)

REMOTE B04A (3x)

RESET_FE_n B03B (1x)

RESET_FE_n B03D (1x)

RESET_n B03D (1x)

RESET_n B03E (1x)

RESET_STV B03C (1x)

RESET_STV B03D (1x)

RF_AGC B03A (2x)

RF_AGC_IBO B03A (1x)

RF_AGC_IBO B03B (1x)

RST B04A (1x)

RST B06C (1x)

RST_AUD B04A (1x)

RST_AUD B04C (1x)

RST_H B04A (1x)

RST_H B04B (1x)

RXD0 B03D (1x)

RXD0 B03F (1x)

SAW_SW B03A (1x)

SAW_SW B04A (1x)

SC1_AUDIO_IN_L B04C (1x)

SC1_AUDIO_IN_L B06B (1x)

SC1_AUDIO_IN_R B04C (1x)

SC1_AUDIO_IN_R B06B (1x)

SC1_AUDIO_MUTE_L B06B (1x)

SC1_AUDIO_MUTE_L B06D (1x)

SC1_AUDIO_MUTE_R B06B (1x)

SC1_AUDIO_MUTE_R B06D (1x)

SC1_AUDIO_OUT_L B04C (1x)

SC1_AUDIO_OUT_L B06B (2x)

SC1_AUDIO_OUT_R B04C (1x)

SC1_AUDIO_OUT_R B06B (2x)

SC1_B_IN B04B (1x)

SC1_B_IN B06B (2x)

SC1_CVBS_IN B04B (1x)

SC1_CVBS_IN B06B (1x)

SC1_CVBS_RF_OUT B04A (1x)

SC1_CVBS_RF_OUT B06B (1x)

SC1_FBL_IN B04B (1x)

SC1_FBL_IN B06B (2x)

SC1_G_IN B04B (1x)

SC1_G_IN B06B (2x)

SC1_R_IN B04B (1x)

SC1_R_IN B06B (2x)

SC1_RF_OUT_CVBS B04B (1x)

SC1_RF_OUT_CVBS B06B (1x)

SC1_STATUS B04A (1x)

SC1_STATUS B06B (1x)

SC2_AUDIO_IN_L B04C (1x)

SC2_AUDIO_IN_L B06B (2x)

SC2_AUDIO_IN_R B04C (1x)

SC2_AUDIO_IN_R B06B (2x)

SC2_AUDIO_MUTE_L B06B (1x)

SC2_AUDIO_MUTE_L B06D (1x)

SC2_AUDIO_MUTE_R B06B (1x)

SC2_AUDIO_MUTE_R B06D (1x)

SC2_AUDIO_OUT_L B04C (1x)

SC2_AUDIO_OUT_L B06B (1x)

SC2_AUDIO_OUT_R B04C (1x)

SC2_AUDIO_OUT_R B06B (1x)

SC2_C_IN B04B (1x)

SC2_C_IN B06B (2x)

SC2_CVBS_MON_OUT B04B (1x)

SC2_CVBS_MON_OUT B06B (1x)

SC2_CVBS_MON_OUT B06D (1x)

SC2_STATUS B04A (1x)

SC2_STATUS B06B (1x)

SC2_Y_CVBS_IN B04B (1x)

SC2_Y_CVBS_IN B06B (2x)

SDRAM_ADDR(0) B03D (1x)

SDRAM_ADDR(0) B03E (1x)

SDRAM_ADDR(0:14) B03D (1x)

SDRAM_ADDR(1) B03D (1x)

SDRAM_ADDR(1) B03E (1x)

SDRAM_ADDR(10) B03D (1x)

SDRAM_ADDR(10) B03E (1x)

SDRAM_ADDR(11) B03D (1x)

SDRAM_ADDR(11) B03E (1x)

SDRAM_ADDR(12) B03D (1x)

SDRAM_ADDR(12) B03E (1x)

SDRAM_ADDR(13) B03D (1x)

SDRAM_ADDR(13) B03E (1x)

SDRAM_ADDR(14) B03D (1x)

SDRAM_ADDR(14) B03E (1x)

SDRAM_ADDR(2) B03D (1x)

SDRAM_ADDR(2) B03E (1x)

SDRAM_ADDR(3) B03D (1x)

SDRAM_ADDR(3) B03E (1x)

SDRAM_ADDR(4) B03D (1x)

SDRAM_ADDR(4) B03E (1x)

SDRAM_ADDR(5) B03D (1x)

SDRAM_ADDR(5) B03E (1x)

SDRAM_ADDR(6) B03D (1x)

SDRAM_ADDR(6) B03E (1x)

SDRAM_ADDR(7) B03D (1x)

SDRAM_ADDR(7) B03E (1x)

SDRAM_ADDR(8) B03D (1x)

SDRAM_ADDR(8) B03E (1x)

SDRAM_ADDR(9) B03D (1x)

SDRAM_ADDR(9) B03E (1x)

SDRAM_CAS B03D (1x)

SDRAM_CAS B03E (1x)

SDRAM_CKE B03D (1x)

SDRAM_CKE B03E (1x)

SDRAM_CLK B03D (1x)

SDRAM_CLK B03E (1x)

SDRAM_DATA(0) B03D (1x)

SDRAM_DATA(0) B03E (1x)

SDRAM_DATA(0:15) B03D (1x)

SDRAM_DATA(1) B03D (1x)

SDRAM_DATA(1) B03E (1x)

SDRAM_DATA(10) B03D (1x)

SDRAM_DATA(10) B03E (1x)

SDRAM_DATA(11) B03D (1x)

SDRAM_DATA(11) B03E (1x)

SDRAM_DATA(12) B03D (1x)

SDRAM_DATA(12) B03E (1x)

SDRAM_DATA(13) B03D (1x)

SDRAM_DATA(13) B03E (1x)

SDRAM_DATA(14) B03D (1x)

SDRAM_DATA(14) B03E (1x)

SDRAM_DATA(15) B03D (1x)

SDRAM_DATA(15) B03E (1x)

SDRAM_DATA(2) B03D (1x)

SDRAM_DATA(2) B03E (1x)

SDRAM_DATA(3) B03D (1x)

SDRAM_DATA(3) B03E (1x)

SDRAM_DATA(4) B03D (1x)

SDRAM_DATA(4) B03E (1x)

SDRAM_DATA(5) B03D (1x)

SDRAM_DATA(5) B03E (1x)

SDRAM_DATA(6) B03D (1x)

SDRAM_DATA(6) B03E (1x)

SDRAM_DATA(7) B03D (1x)

SDRAM_DATA(7) B03E (1x)

SDRAM_DATA(8) B03D (1x)

SDRAM_DATA(8) B03E (1x)

SDRAM_DATA(9) B03D (1x)

SDRAM_DATA(9) B03E (1x)

SDRAM_DQM0 B03D (1x)

SDRAM_DQM0 B03E (1x)

SDRAM_DQM1 B03D (1x)

SDRAM_DQM1 B03E (1x)

SDRAM_RAS B03D (1x)

SDRAM_RAS B03E (1x)

SDRAM_WE B03D (1x)

SDRAM_WE B03E (1x)

SIDE_AUDIO_IN_L B04C (1x)

SIDE_AUDIO_IN_L B06A (1x)

SIDE_AUDIO_IN_R B04C (1x)

SIDE_AUDIO_IN_R B06A (1x)

SIF B03A (1x)

SIF B04C (1x)

SIF1 B03A (2x)

SIF2 B03A (2x)

STANDBY B02 (2x)

STANDBY B04A (2x)

STANDBY B06D (1x)

STANDBYn B04A (1x)

STANDBYn B04B (1x)

STANDBYn B07 (1x)

STV_A25 B03C (1x)

STV_A25 B03D (1x)

STV_CS B03C (1x)

STV_CS B03D (1x)

STV_INT B03C (1x)

STV_INT B03D (1x)

STV_TDO B03B (1x)

STV_TDO B03C (1x)

TDA_CLK B03B (1x)

TDA_CLK B03C (1x)

TDA_DAT(0) B03B (1x)

TDA_DAT(0) B03C (1x)

TDA_DAT(0:7) B03B (1x)

TDA_DAT(1) B03B (1x)

TDA_DAT(1) B03C (1x)

TDA_DAT(2) B03B (1x)

TDA_DAT(2) B03C (1x)

TDA_DAT(3) B03B (1x)

TDA_DAT(3) B03C (1x)

TDA_DAT(4) B03B (1x)

TDA_DAT(4) B03C (1x)

TDA_DAT(5) B03B (1x)

TDA_DAT(5) B03C (1x)

TDA_DAT(6) B03B (1x)

TDA_DAT(6) B03C (1x)

TDA_DAT(7) B03B (1x)

TDA_DAT(7) B03C (1x)

TDA_SYNC B03B (1x)

TDA_SYNC B03C (1x)

TDA_VALID B03B (1x)

TDA_VALID B03C (1x)

TS_CLK B03C (1x)

TS_CLK B03D (1x)

TS_DATA(0) B03C (1x)

TS_DATA(0) B03D (1x)

TS_DATA(0:7) B03D (1x)

TS_DATA(1) B03C (1x)

TS_DATA(1) B03D (1x)

TS_DATA(2) B03C (1x)

TS_DATA(2) B03D (1x)

TS_DATA(3) B03C (1x)

TS_DATA(3) B03D (1x)

TS_DATA(4) B03C (1x)

TS_DATA(4) B03D (1x)

TS_DATA(5) B03C (1x)

TS_DATA(5) B03D (1x)

TS_DATA(6) B03C (1x)

TS_DATA(6) B03D (1x)

TS_DATA(7) B03C (1x)

TS_DATA(7) B03D (1x)

TS_SYNC B03C (1x)

TS_SYNC B03D (1x)

TS_VALID B03C (1x)

TS_VALID B03D (1x)

TXAn B04B (2x)

TXAp B04B (2x)

TXBn B04B (2x)

TXBp B04B (2x)

TXCLKn B04B (2x)

TXCLKp B04B (2x)

TXCn B04B (2x)

TXCp B04B (2x)

TXD0 B03D (1x)

TXD0 B03F (1x)

TXDn B04B (2x)

TXDp B04B (2x)

user_EEPROM_WP B03D (1x)

user_EEPROM_WP B03E (1x)

VCCEN B03C (1x)

VDD B07 (3x)

VDDA B07 (2x)

VDISP B04B (2x)

VGA_H B04B (1x)

VGA_H B06A (1x)

VGA_V B04B (1x)

VGA_V B06A (1x)

VIF1 B03A (2x)

VIF2 B03A (2x)

VIM_IBO B03A (1x)

VIM_IBO B03B (1x)

VIP_IBO B03A (1x)

VIP_IBO B03B (1x)

VSS B07 (3x)

VSSA B07 (5x)

WR B04A (1x)

WR B04B (1x)

1.1. Introduction

SRP (Service Reference Protocol) is a software tool that creates a list with all references to signal lines. The list contains

references to the signals within all schematics of a PWB. It replaces the text references currently printed next to the signal

names in the schematics. These printed references are created manually and are therefore not guaranteed to be 100%

correct. In addition, in the current crowded schematics there is often none or very little place for these references.

Some of the PWB schematics will use SRP while others will still use the manual references. Either there will be an SRP

reference list for a schematic, or there will be printed references in the schematic.

1.2. Non-SRP Schematics

There are several different signals available in a schematic:

1.2.1. Power Supply Lines

All power supply lines are available in the supply line overview (see chapter 6). In the schematics (see chapter 7) is not

indicated where supplies are coming from or going to.

It is however indicated if a supply is incoming (created elsewhere), or outgoing (created or adapted in the current schematic).

+5V +5V

Outgoing Incoming

1.2.2. Normal Signals

For normal signals, a schematic reference (e.g. B14b) is placed next to the signals.

signal_name

B14b

1.2.3. Grounds

For normal and special grounds (e.g. GNDHOT or GND3V3 etc.), nothing is indicated.

1.3. SRP Schematics

SRP is a tool, which automatically creates a list with signal references, indicating on which schematic the signals are used.

A reference is created for all signals indicated with an SRP symbol, these symbols are:

+5V +5V

Power supply line.

name name

Stand alone signal or switching line (used as less as possible).

name name

Signal line into a wire tree.

name name

Switching line into a wire tree.

name

Bi-directional line (e.g. SDA) into a wire tree.

name

Signal line into a wire tree, its direction depends on the circuit (e.g. ingoing for PDP, outgoing for LCD sets).

Remarks:

• When there is a black dot on the "signal direction arrow" it is an SRP symbol, so there will be a reference to the signal

name in the SRP list.

• All references to normal grounds (Ground symbols without additional text) are not listed in the reference list, this to keep

it concise.

• Signals that are not used in multiple schematics, but only once or several times in the same schematic, are included

in the SRP reference list, but only with one reference.

Additional Tip:

When using the PDF service manual file, you can very easily search for signal names and follow the signal over all the

schematics. In Adobe PDF reader:

• Select the signal name you want to search for, with the "Select text" tool.

• Copy and paste the signal name in the "Search PDF" tool.

• Search for all occurrences of the signal name.

• Now you can quickly jump between the different occurrences and follow the signal over all schematics. It is advised to

"zoom in" to e.g. 150% to see clearly, which text is selected. Then you can zoom out, to get an overview of the complete

schematic.

PS. It is recommended to use at least Adobe PDF (reader) version 6.x, due to better search possibilities in this version.

52LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

Layout Small Signal Board (Overview Top Side)

3139 123 6261.1

G_16860_016.eps

240107

Part 1

G_16860_016a.eps

Part 2

G_16860_016b.eps

Part 4

G_16860_016d.eps

Part 3

G_16860_016c.eps

1101 E3

1102 E6

1103 E6

1104 D6

1201 D7

1210 A7

1211 A7

1212 A7

1213 A7

1214 A7

1301 B6

1304 A9

1305 A8

1306 A8

1307 A8

1308 A8

1309 A8

1310 A8

1311 A5

1312 B5

1500 E10

1501 E10

1502 E9

1503 E10

1504 D9

1505 E9

1506 D10

1507 E9

1508 D10

1509 D9

1510 D10

1511 D9

1512 D9

1513 D10

1514 D10

1515 D10

1516 D9

1517 D9

1518 C10

1519 D9

1520 D9

1521 C10

1522 D9

1523 C9

1524 C9

1525 B10

1526 F10

1601 F6

1603 F6

1606 F10

1607 F10

1608 F6

1609 F6

1610 F9

1611 F9

1612 F6

1613 F9

1614 F6

1615 F9

1618 F6

1619 F10

1735 A10

1810 F7

1811 F8

1823 E8

1900 B9

1901 B10

1B11 A2

1C01 A3

1G03 B1

1G04 B2

1G50 A7

1G51 A7

1K00 E5

1M20 A8

1P11 A5

2110 E6

2111 E6

2114 E6

2117 E6

2127 D6

2128 D6

2129 D6

2130 D6

2134 D6

2135 D6

2138 D6

2142 E5

2143 D6

2144 D6

2151 D5

2208 A6

2209 A6

2211 C6

2212 C6

2214 C6

2215 C6

2242 C6

2243 C6

2246 D7

2247 D7

2250 D7

2251 D7

2252 D7

2253 D7

2254 D7

2255 D7

2256 D7

2257 D7

2259 D7

2260 D7

2261 D7

2262 A7

2263 A7

2264 A7

2265 A7

2267 D7

2268 D6

2273 D6

2277 D7

2283 A7

2285 A7

2311 A8

2314 B6

2315 A6

2316 B6

2317 B6

2319 B8

2327 A8

2328 A8

2329 A8

2330 A8

2331 A8

2332 A8

2333 A8

2334 A8

2335 A8

2336 A8

2337 A8

2339 A8

2340 A8

2408 B8

2409 B8

2410 B8

2411 C8

2412 C8

2413 C8

2414 C8

2417 C8

2418 C8

2419 C8

2420 B8

2421 C8

2422 C8

2423 B8

2432 C8

2433 C8

2434 C8

2435 C8

2436 C8

2437 C8

2438 C8

2439 B8

2440 B8

2441 C8

2442 C8

2443 C8

2444 C7

2445 C8

2446 C8

2447 C8

2600 F6

2601 F6

2609 F6

2613 E6

2614 E6

2615 F6

2616 F6

2617 F6

2801 F8

2802 F8

2805 F9

2806 E9

2807 F9

2808 F9

2809 F7

2810 F7

2811 E9

2812 E9

2813 E8

2814 E9

2815 E9

2828 E8

2901 B9

2902 B9

2903 B9

2906 B9

2907 B9

2909 B10

2910 B10

2911 B10

2912 B10

2940 B10

2A01 A9

2A02 A9

2A04 B9

2A08 A9

2A09 A9

2A10 B9

2A11 A9

2A12 A9

2A13 A10

2A14 A10

2A15 A8

2A16 B8

2A17 A10

2A18 A9

2A19 B9

2A20 B8

2A22 B9

2A23 A10

2A24 B9

2A26 A10

2A28 A10

2A29 B9

2A30 A9

2A32 B9

2A33 A9

2A34 A9

2A37 A10

2A38 A10

2A40 A9

2A41 A9

2B10 B4

2B11 B4

2B12 B3

2B13 B4

2B14 A3

2B15 A3

2B16 B3

2B18 C5

2B19 B5

2B20 B5

2B21 D5

2B22 A3

2B23 D3

2B24 A2

2B26 C3

2C55 A3

2C56 A3

2C57 A3

2C58 A5

2C59 A4

2C60 A3

2C61 A3

2F10 D3

2F11 D3

2F12 F3

2F13 F3

2F20 D3

2F21 D3

2F22 E3

2G02 C3

2G17 B1

2G18 C1

2G22 D3

2G23 D1

2G24 B1

2G33 B2

2G34 C1

2H06 C3

2H07 D1

2H08 D3

2J01 B1

2J04 D3

2J05 D3

2J06 D3

2K06 F1

2K07 E1

2K11 D3

2K13 D3

2K14 F2

2K16 F3

2K17 F3

2L20 A9

2L21 A8

2L22 A8

2L23 A8

2L24 A9

2L25 A9

2L26 A9

2L27 A9

2L28 A9

2L29 A9

2L30 A9

2L31 A9

2L32 A9

2L33 A9

3113 E6

3116 E6

3117 E6

3118 E6

3119 E6

3122 E6

3125 D6

3126 D6

3130 D5

3133 D6

3135 D6

3201 B7

3202 B7

3203 B7

3204 B7

3212 B7

3213 A6

3215 B7

3216 A6

3223 A7

3224 A7

3225 A7

3226 A7

3227 A7

3229 D7

3231 D7

3232 D7

3233 A8

3235 A8

3238 A8

3239 D6

3240 D7

3246 A7

3247 A7

3266 C6

3268 C6

3271 C6

3272 D6

3304 B6

3319 A6

3325 A6

3327 A6

3328 B8

3329 A6

3330 A8

3336 B8

3337 A8

3344 B6

3350 B6

3351 B6

3352 B6

3354 B7

3356 B7

3361 B6

3365 B6

3366 B6

3367 B6

3369 B6

3370 B6

3371 B7

3373 B7

3381 B7

3383 A7

3384 B7

3386 B6

3387 B6

3388 B6

3389 A8

3390 A8

3391 A8

3392 A8

3398 A7

3399 A7

3402 C8

3410 C8

3411 C8

3416 C8

3600 F6

3602 F6

3604 F6

3609 F6

3613 F6

3615 E6

3616 F6

3620 F6

3621 F6

3622 F6

3623 E6

3624 F6

3625 E6

3803 F8

3804 E9

3805 E9

3806 E9

3807 E8

3809 F7

3811 E8

3815 E8

3819 E8

3828 E7

3833 E7

3834 E7

3835 E7

3846 E7

3850 F7

3851 E7

3852 E7

3853 E7

3854 E8

3855 E8

3856 E8

3857 E8

3858 E8

3859 E8

3860 E7

3862 F7

3863 F7

3880 F8

3881 F8

3896 E7

3897 E7

3901 B9

3902 B9

3903 B9

3904 B9

3907 B9

3909 B10

3910 B10

3942 B10

3943 B10

3A01 A9

3A02 A9

3A03 A8

3A04 A9

3A05 A9

3A06 A8

3A07 B8

3A08 B9

3A11 B8

3A13 B9

3A14 A10

3A19 A9

3A26 A8

3A27 A9

3A28 A9

3A29 A9

3A30 A9

3A31 A9

3B10 B3

3B11 A3

3B12 A3

3B13 B5

3B14 A3

3B15 B5

3B17 A3

3B18 A3

3B19 A3

3G15 B1

3G19 B1

3G48 B1

3G56 D1

3G57 D1

3G58 D1

3G59 D1

3G60 D2

3G61 D2

3G65 B1

3J01 D3

3J02 D3

3J03 D3

3K00 F2

3K01 F2

3K02 E3

3K03 F3

3K05 E3

3K09 F2

3K12 F2

3K15 E1

3K16 E2

3K18 F2

3K21 F2

3K25 E2

3K26 E2

3K27 F1

3K28 E2

3K29 E1

3K30 E2

3K31 E2

3K32 E2

3K33 E1

3K34 F1

3K49 E2

3K50 E2

3K51 E1

3K52 F1

3L06 B6

3L07 B6

3L08 A6

3L09 B6

3L10 A8

3L12 B6

3L13 B6

3L20 A8

3L21 A9

3L22 A9

3L23 A9

3L24 A9

3L25 A9

3L26 B6

4110 E6

4111 E6

4117 E5

4120 E5

4124 D6

4203 A6

4204 A6

4205 A6

4206 A6

4208 D7

4209 D7

4214 A6

4215 A6

4301 B6

4302 A8

4303 A8

4308 B7

4309 A8

4310 A8

4314 B6

4315 B6

4401 A8

4402 A8

4403 B8

4406 C8

4601 F6

4602 F6

4603 C8

4604 C8

4802 E8

4803 F8

4902 B9

4903 B9

4B01 B4

4C01 A5

4C55 A3

4C56 A3

4C57 A4

4C58 A4

4C59 A4

4C60 A4

4C61 A3

4C62 A3

4H01 D2

4H02 D2

4H03 D3

4H04 D2

4H05 D2

4L20 A8

4L21 A9

4L24 A9

4L25 A9

5110 E6

5111 E6

5113 E6

5114 D6

5116 D6

5210 C6

5302 A8

5304 A8

5401 C8

5402 C8

5403 C8

5A03 A10

5A04 B10

5A05 A9

5A06 A9

5B01 B3

5B02 B4

5B03 B3

5B04 B5

5B05 B4

5B06 A5

5B10 A4

5B11 A5

5F10 D3

5F11 D3

5G01 C3

5G02 C3

5G04 D3

5H01 D3

5H02 D1

5K03 F1

5K04 D2

5K05 D3

6103 E6

6301 A6

6302 B8

6303 B8

6304 B8

6308 A8

6309 A8

6310 A8

6311 A8

6312 A8

6313 A8

6604 F6

6605 F6

6606 F6

6607 F6

6615 E6

6B01 B3

6B02 B5

6B03 B5

6J03 D3

7109 E6

7113 D6

7114 D6

7202 C7

7207 A6

7311 B7

7312 A6

7313 A8

7316 B7

7410 B8

7601 F6

7810 E8

7812 E7

7813 E7

7814 F7

7817 E7

7824 F7

7825 F7

7851 E7

7852 E7

7860 F8

7922 B10

7A01 A9

7A05 A9

7A06 A9

7A07 A9

7B01 B3

7B03 B5

7B04 C4

7B05 A3

7G00 C2

7G06 C1

7H00 D2

7H02 C3

7J04 D3

7J05 D3

7K00 F2

7K04 F3

Circuit Diagrams and PWB Layouts 53LC7.1E LA 7.

Layout Small Signal Board (Part 1 Top Side)

G_16860_016a.eps

240107

Part 1

54LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

Layout Small Signal Board (Part 2 Top Side)

G_16860_016b.eps

240107

Part 2

Circuit Diagrams and PWB Layouts 55LC7.1E LA 7.

Layout Small Signal Board (Part 3 Top Side)

G_16860_016c.eps

240107

Part 3

56LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

Layout Small Signal Board (Part 4 Top Side)

G_16860_016d.eps

240107

Part 4

Circuit Diagrams and PWB Layouts 57LC7.1E LA 7.

Layout Small Signal Board (Overview Bottom Side)

3139 123 6261.1

G_16860_017.eps

240107

Part 1

G_16860_017a.eps

Part 2

G_16860_017b.eps

Part 4

G_16860_017d.eps

Part 3

G_16860_017c.eps

1001 F9

1002 F9

1215 D4

1216 C4

1302 F7

1303 F7

1314 F7

1411 C3

1G01 C10

1J14 F9

2112 F7

2113 E7

2115 F6

2116 F6

2118 E6

2119 E6

2120 E6

2121 F6

2122 E6

2123 D5

2124 D5

2125 D5

2126 D5

2131 E7

2132 E7

2133 D5

2136 D5

2137 D5

2139 D5

2140 D5

2141 D5

2145 D5

2146 F6

2147 E6

2148 E7

2149 F7

2205 D4

2206 D4

2207 A5

2210 A5

2213 B5

2216 C4

2217 D6

2218 C5

2219 D5

2220 C5

2221 D5

2222 D5

2223 D5

2224 C5

2225 C5

2226 C5

2227 C5

2228 C5

2229 D5

2230 C4

2231 C4

2232 C4

2233 C4

2234 C4

2235 C4

2236 C4

2237 C4

2238 C4

2239 B4

2240 C4

2241 B5

2244 D5

2245 B4

2248 A5

2258 D4

2266 C4

2269 D4

2270 C4

2271 C4

2272 D4

2274 C4

2275 D4

2276 D4

2278 C4

2279 D4

2280 D4

2281 C4

2282 D4

2284 D5

2286 C4

2287 D4

2288 D4

2289 D5

2290 C4

2291 D4

2292 C4

2293 D4

2294 D4

2295 C5

2296 C5

2297 C4

2298 B4

2310 A4

2312 B4

2313 B4

2318 A4

2320 B5

2321 B4

2322 B4

2323 B4

2324 B5

2325 B4

2326 B4

2338 A4

2415 D3

2416 D3

2424 B3

2425 B3

2426 B3

2427 B3

2428 B3

2429 B3

2430 B3

2431 B3

2502 E2

2506 E2

2508 E3

2509 E1

2512 E1

2514 E3

2515 E2

2517 E2

2518 D1

2520 D1

2521 E2

2523 E2

2524 D2

2525 C2

2526 C2

2527 D3

2528 D3

2529 D3

2530 C1

2531 D2

2533 D3

2534 D3

2535 C3

2536 C2

2538 C2

2602 F1

2603 F2

2606 F2

2607 F2

2608 F2

2610 F2

2612 F2

2803 F3

2804 F4

2816 E3

2817 E3

2818 E4

2819 E4

2829 F3

2830 F3

2833 F3

2835 F4

2836 E4

2838 E4

2839 E3

2840 E3

2843 F3

2844 F3

2845 E3

2847 F3

2848 F3

2849 F3

2850 F4

2851 F3

2852 E4

2853 E3

2854 E3

2855 E3

2856 E4

2857 E4

2858 E3

2859 F4

2860 F4

2861 E3

2865 F4

2866 F4

2867 F4

2868 F4

2869 F4

2870 E4

2871 E4

2872 E3

2873 E3

2874 E3

2875 F3

2876 E4

2904 C2

2905 C2

2908 B2

2913 B2

2A21 A2

2A25 A2

2A27 B2

2A31 B2

2A35 A2

2A36 B2

2A45 A1

2A46 A2

2A47 A2

2B17 C7

2B25 C7

2F14 E8

2F15 E8

2F16 E8

2F17 E8

2F18 E7

2F19 F8

2F23 F8

2F24 E8

2F25 E8

2F26 F7

2F27 E7

2F28 E7

2F29 E7

2F30 E7

2F31 E7

2F32 E7

2F33 E7

2G03 C9

2G04 D9

2G05 D10

2G06 C9

2G07 C9

2G08 C9

2G09 C10

2G10 C10

2G11 D9

2G12 C9

2G13 D9

2G14 C9

2G15 C9

2G16 C10

2G19 B9

2G20 B9

2G21 C9

2G31 C9

2G32 C9

2H03 C8

2H04 D9

2H09 C8

2H10 C8

2H11 C8

2H12 C8

2H13 C8

2H14 B9

2H15 B9

2J02 B9

2J14 F9

2J15 F9

2J60 C9

2J62 C9

2J63 C9

2J64 C9

2J66 C9

2J67 C9

2J68 C8

2J69 C8

2J70 C8

2J71 C9

2J72 C9

2J73 C9

2K00 D10

2K01 D9

2K02 E9

2K03 E9

2K04 D9

2K05 E9

2K08 F9

2K09 F9

2K10 E9

2K12 F9

2K15 D10

3110 E7

3111 E7

3115 E7

3120 E6

3121 F6

3123 D5

3124 D5

3127 D5

3128 D5

3129 D5

3131 E6

3132 F6

3134 E7

3136 E6

3137 E7

3210 A5

3211 B5

3217 A5

3219 C4

3220 C4

3221 C4

3222 C4

3228 D4

3230 D4

3241 C4

3242 C4

3243 C4

3244 D4

3245 C4

3248 D4

3250 D4

3251 D4

3253 D4

3254 D4

3255 D5

3256 D5

3257 D4

3258 D4

3260 D6

3261 C6

3262 D6

3263 C5

3264 C5

3265 C5

3267 C5

3273 D3

3274 D3

3275 D3

3276 D3

3300 B4

3303 A4

3305 A5

3306 B5

3307 B5

3308 A5

3309 A5

3310 A4

3311 A4

3312 A4

3313 A4

3314 A4

3315 A4

3316 B4

3317 A4

3318 B4

3320 A4

3321 B4

3322 A4

3323 B4

3324 A4

3326 B3

3331 A4

3332 A4

3333 A4

3334 A4

3335 A4

3338 A4

3339 A4

3340 A4

3341 A4

3342 A4

3343 F7

3345 F7

3346 B4

3347 B4

3348 B4

3349 B4

3353 B5

3355 B5

3357 B5

3358 B5

3359 B5

3360 B4

3362 A5

3363 A4

3364 A4

3368 A4

3372 B4

3374 A5

3375 B4

3376 A4

3377 B4

3378 B4

3379 B4

3380 A4

3382 B4

3385 B4

3393 A4

3394 A4

3395 A4

3396 A5

3397 B4

3417 B3

3418 B3

3419 B3

3420 B3

3500 E2

3502 E2

3503 E3

3506 E1

3507 E3

3508 E1

3510 E2

3511 E2

3512 D1

3513 D1

3514 E2

3515 E2

3516 D3

3517 D3

3518 D2

3519 C2

3520 D2

3521 C2

3522 C2

3523 D3

3524 C3

3525 C2

3526 D3

3528 D3

3529 C1

3530 D3

3531 C1

3532 D2

3533 D2

3535 C3

3536 C3

3537 C3

3538 C2

3540 C3

3545 C2

3546 C2

3550 D2

3551 D2

3552 D2

3553 D2

3554 C3

3555 C2

3601 F1

3603 F2

3605 F2

3607 F2

3608 F2

3611 F2

3612 F2

3617 F1

3618 F2

3619 F2

3801 F3

3802 F3

3810 F3

3830 F4

3831 F4

3832 F4

3864 E3

3877 E3

3882 E3

3883 E3

3884 E3

3885 E3

3886 E3

3905 C2

3906 B2

3908 C2

3911 B1

3912 B1

3913 E1

3914 B1

3915 E1

3916 C1

3917 B1

3918 B1

3934 B1

3935 C1

3937 B1

3938 B1

3940 B1

3A09 A2

3A12 A2

3A15 B2

3A17 B2

3F10 C9

3F11 C8

3F12 C9

3F13 C9

3F14 F7

3F15 F7

3F16 F7

3F17 F7

3F18 F7

3F19 E7

3F20 E7

3F21 F8

3F22 E7

3F23 E7

3F24 E7

3F25 E7

3F26 E7

3F27 E7

3F28 E7

3F29 E7

3F30 F8

3F31 F8

3F32 F8

3F33 F8

3F34 F8

3F40 F7

3F41 E7

3F42 E7

3F44 F7

3F46 E7

3F48 E7

3G11 B10

3G12 D10

3G16 C10

3G17 C10

3G18 C10

3G20 D9

3G28 C9

3G29 C9

3G30 C9

3G31 C9

3G33 B10

3G34 B10

3G35 C10

3G36 C9

3G37 C9

3G38 B10

3G40 C9

3G41 C10

3G43 C10

3G44 C10

3G46 C10

3G47 C10

3G51 C9

3G54 B9

3G55 B9

3G62 D9

3G63 C10

3H00 D9

3H05 D10

3H09 B9

3H10 B9

3H11 B9

3H12 B9

3H13 B9

3H14 C9

3J14 F9

3J15 F9

3J59 C9

3J60 C9

3J61 C9

3J62 C8

3J63 C8

3J64 C8

3J65 C9

3J66 C9

3K04 E9

3K06 E9

3K07 E8

3K08 D8

3K10 E9

3K11 F9

3K13 F9

3K17 E8

3K19 E9

3K20 E9

3K22 F9

3K23 D10

3K24 D10

3K38 E9

3K39 E8

3K40 E8

3K41 E8

3K42 E8

3K43 E8

3K44 E10

3K45 E10

3K46 E9

3K47 E9

3K48 E9

3L01 B4

3L02 B4

3L04 A4

3L05 A4

3L11 A5

3L14 B5

3L15 B4

4112 E7

4113 E6

4114 F6

4115 F6

4116 E6

4118 E6

4119 E6

4121 E6

4122 F6

4123 F6

4125 F7

4207 C4

4210 C4

4211 D4

4212 D4

4213 C4

4306 A5

4307 A5

4313 B4

4316 B5

4323 B4

4324 D3

4325 D3

4407 D4

4408 D4

4409 D3

4410 D3

4411 D3

4412 D3

4502 C2

4504 C3

4804 F4

4805 F3

4901 B1

4A01 A2

4A02 A2

4F11 E7

4F12 E7

4G01 C10

4G02 C10

4G03 C10

4G04 C10

4G05 C10

4G09 D9

4G10 C10

4G31 C9

4H00 D9

4H12 B9

4H15 D10

4J14 F9

4J15 F9

5112 E6

5115 E7

5117 D5

5118 D6

5120 E6

5121 F6

5211 A5

5212 D5

5213 C4

5214 C4

5215 A5

5216 C4

5217 A5

5218 D4

5219 D4

5220 C4

5221 C4

5222 C4

5223 D5

5224 C4

5225 C4

5226 C4

5227 C4

5228 C4

5301 B4

5810 E3

5811 F4

5812 E4

5813 E4

5814 E3

5815 F3

5816 E3

5817 E3

5818 E3

5A07 A2

5G03 B9

5H03 C9

5J01 B9

5J52 C9

5J53 C9

5J54 C8

5J55 C9

5K01 E9

5K02 E9

6110 E7

6201 A5

6202 A5

6305 B5

6306 F7

6307 F6

6317 A4

6318 A4

6501 E1

6504 E2

6505 D1

6507 E2

6509 D2

6510 C1

6511 C2

6512 D2

6513 D2

6514 D3

6515 D3

6516 D3

6517 D3

6518 E3

6519 D3

6520 D2

6521 D2

6522 E1

6523 E2

6524 D2

6525 C2

6610 F1

6611 F2

6612 F2

6613 F2

6614 F2

6801 F4

6802 F3

6830 F4

6831 F4

6914 C1

6916 B1

6919 B1

6J14 F9

6J15 F9

6J60 C9

6J61 C8

6J62 C8

6J63 C9

7111 F7

7131 E6

7132 F6

7133 D6

7203 C4

7204 D5

7205 C5

7206 C4

7208 A5

7210 A5

7211 D4

7213 D3

7214 D3

7308 A4

7310 B3

7314 B5

7315 B5

7317 A4

7320 A5

7321 A5

7322 A5

7323 B4

7411 C3

7500 C2

7502 C2

7503 C3

7504 C3

7811 F3

7816 E3

7850 F4

7861 E3

7901 B2

7902 B1

7911 B1

7912 B1

7913 E2

7914 B1

7915 E1

7916 C1

7917 B1

7919 B1

7B02 C6

7B06 D7

7B08 C7

7F01 F8

7F02 C8

7F03 F7

7F04 E7

7H03 B10

7K01 D9

7K02 D9

7K03 D10

7K05 F9

58LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

Layout Small Signal Board (Part 1 Bottom Side)

Part 1

G_16860_017a.eps

050307

Circuit Diagrams and PWB Layouts 59LC7.1E LA 7.

Layout Small Signal Board (Part 2 Bottom Side)

Part 2

G_16860_017b.eps

050307

60LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

Layout Small Signal Board (Part 3 Bottom Side)

Part 3

G_16860_017c.eps

050307

Circuit Diagrams and PWB Layouts 61LC7.1E LA 7.

Layout Small Signal Board (Part 4 Bottom Side)

G_16860_017d.eps

050307

Part 4

62LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

Side A/V Panel

HEADPHONE

CVBS

SVHS

SIDE FACING SIDE AV

TO 1M60 OF EBJ SSB

USB

TO 1M36 OF BJ/EBJ SSB

TO 1H01 OF BJ SSB /

2313

2314

3314

3315

3308

3310

3309

3311

EBJ 2K7 BJ 2K7

NA 680p

NA 33K

100R 1K

100K NA

DIVERSITY TABLE

** **

LC07

150R

33K

2305

2306

100p 100p

S305 E2

S306 F2

S307 F2

S308 F2

S310 E8

S311 E8

S312 E8

6301 B3

6302 B3

6303 C3

6304 D3

6305 E3

6306 F3

6307 F3

I303 A3

I306 C2

I308 D2

I309 E2

I311 F2

I312 F2

I314 B7

I315 B7

I316 B7

I317 B7

I318 C7

I319 C7

I320 C7

I321 B9

I325 D8

I326 D8

I327 E8

I328 E8

I330 D7

I331 D7

I332 E7

S301 A2

S302 A2

S303 C2

S304 D2

1301 A1

1302-1 C1

1302-2 D1

1302-3 E1

1303 E1

1304 B9

1308 D9

1309 D7

1310 D9

2301 A4

2302 A4

2303 A2

2304 B4

2305 D4

2306 E4

2307 F4

2308 F4

2309 F4

2310 F4

123456789

2311 C2

2312 D8

2313 D3

2314 E3

3301 B2

3302 A4

3303 A4

3304 A5

3305 B4

3306 B5

3307 C5

3308 D4

3309 D4

3310 E4

3311 E4

3312 F5

3313 F5

3314 D4

3315 E4

4301 D2

4302 D2

4303 E8

4304 A5

4306 B5

4307 C5

4308 F4

4309 F4

4310 E7

4311 E7

5300 D7

2313 3314

2314 3315

YKB21-5101A

1303

1310

B3B-PH-K

2312 100u

16V

4311

22p

2311

4310

I330

I331

I332

5300 220R

B5B-PH-K

1309

I328

I326

I327

I325

I311

I312

I309

I308

6306

DF3A6.8

6307

4307

6305

DF3A6.8

1212

DF3A6.8

6304 6303

DF3A6.8

4303

S312

S310

S311

292303-4

1308

4304

4306

100R

3304

3306

100R

47p

23022301

47p

2304

2303

22p

10R

3305

3303

10R

DF3A6.8

6301

4302

4301

6302

DF3A6.8

33133312

10K 10K10n

2310

4309

2309

10n

4308

3310

3308

1301

YKF51-5564

I306

I303

S302

2100R

3307

1302-1

YELLOW

3302

75R

S301

S303

1302-3

RED

1302-2

WHITE

23053309

S304

23063311

S305

I317

I320

I319

I321

I314

I315

1304

2308

22n

S306

22n

2307

S307

I316

S308

I318

75R

3301

FRONT_Y_CVBS_IN

Y_CVBS

FRONT_DETECT

FRONT_C_IN

L_FRONT_IN

R_FRONT_IN

HEAD_PH_R

HEAD_PH_L

D D

G_16850_023.eps

110107

3139 123 6229.1

Circuit Diagrams and PWB Layouts 63LC7.1E LA 7.

Layout Side A/V Panel (Top Side)

Layout Side A/V Panel (Bottom Side)

1301 A1 1302 A2 1303 A3 1304 A2 1308 A4 1309 A3 1310 A3

G_16850_026.eps

120107

3139 123 6229.1

G_16850_027.eps

020207

3139 123 6229.1

2301 A4

2302 A4

2303 A4

2304 A3

2305 A3

2306 A3

2307 A2

2308 A2

2309 A2

2310 A2

2311 A4

2312 A1

2313 A3

2314 A3

3301 A4

3302 A4

3303 A4

3304 A4

3305 A3

3306 A3

3307 A3

3308 A3

3309 A3

3310 A3

3311 A3

3312 A2

3313 A2

3314 A3

3315 A3

4301 A3

4302 A3

4303 A1

4304 A4

4306 A3

4307 A3

4308 A2

4309 A2

4310 A1

4311 A1

5300 A2

6301 A4

6302 A4

6303 A4

6304 A3

6305 A2

6306 A2

6307 A2

64LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

Keyboard Control Panel

KEYBOARD CONTROL

Diversity Resistor

RES

VOLUME-

VOLUME+

CHANNEL-

CHANNEL+

ON / OFF

*LC06 Jaguar

3012

3014

3011

3013

3010

150R

390R

560R

1K8

820R

6011

6013

6012

YES

RES

150R

390R

560R

1K8

820R

1234

1001 C1

1002 C1

1003 C1

1004 C2

1005 C2

1011 C1

1012 C1

1013 C2

1014 C2

1015 C2

1016 C3

1M01 A4

2001 B3

3010 B1

3011 B2

3012 B2

3013 B1

3014 B2

3015 B1

3016 B2

3017 B2

3099 D1

4001 B4

5001 B4

6011 B3

6012 C3

6013 B3

6014 C1

6015 C1

6016 C1

6017 C2

6018 C2

F001 B4

F002 B3

F310 D1

F311 D1

I110 B3

I111 B1

I112 B1

I113 B2

I114 B2

I115 B2

I116 C1

I117 C2

I118 C2

SKQNAB

1005

1004

1003

1002

1001

6018 BZX384-C5V6

BZX384-C5V66017

6014 BZX384-C5V6

6016 BZX384-C5V6

BZX384-C5V66015

5001

4001

270R

1K8

3012

820R

3014

560R

3011

390R

3010

150R

3013

BZX384-C3V9

6013

2001

470p

BZX384-C3V9

6012

S3B-PH-K

1M01

3016

3017

3015

BZX384-C3V9

6011

I118I116 I117

I110

1016

SKQNAB

1015

SKQNAB

1014

SKQNAB

1013

1012

SKQNAB

I115I114I112 I113I111

F002

F001

1011

F310 F311

3099

KEYBOARD

E E

G_16850_024.eps

110107

3139 123 6219.1

Personal Notes:

E_06532_012.eps

131004

Circuit Diagrams and PWB Layouts 65LC7.1E LA 7.

Layout Keyboard Control Panel (Top Side)

Layout Keyboard Control Panel (Bottom Side)

1011 A5 1012 A6 1013 A3 1014 A2 1015 A1 1016 A7 1M01 A8

G_16850_028.eps

120107

3139 123 6219.1

G_16850_029.eps

020207

3139 123 6219.1

2001 A1

3010 A4

3011 A6

3012 A8

3013 A5

3014 A7

3015 A3

3016 A6

3017 A7

3099 A8

4001 A1

5001 A1

6011 A2

6012 A3

6013 A1

6014 A4

6015 A3

6016 A5

6017 A6

6018 A8

66LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

Front IR / LED Panel

IR/LED/LIGHT-SENSOR

RESERVED

RES

Bi- LED

ITV

RES

ITV

RES

IR Tx

ITV

MFD

MFD ITVREF

820R 180R3013

YN4010

YN4015

NY4013

NY4014

NY4011

N Bi-GR/RD6001

BLUE LED N6010

RED LED N6011

N IR ED6002

YN4017

RES

ITV

MFD

YN4012

RES

ITV

MFD

ITV

FOR LIGHT SENSOR ONLY

YN4018

YN4019

3K3 82R

3012

F015 E2

F016 E2

12345

1M01 E1

1M20 E1

1M21 E1

2001 A2

2002 D2

3010 A2

S7B-PH-K

3011 A2

3012 B4

3013 B4

3014 B2

3015 C2

3016 C3

3017 D2

3018 D3

3019 E3

3020 E3

3021 C3

3022 C5

4010 A4

4011 B5

4012 D3

4013 D4

4014 D5

4015 D5

4016 D2

4017 B4

4018 B4

4019 B5

6001-1 D5

6001-2 D4

6002 B4

6010 B3

6011 B4

6012 B2

6013 B3

6014 D2

6015 E2

6016 E2

7010 B1

7011 C4

7012 B5

7013 C2

7014 C2

F010 E2

F011 E2

F012 E2

F013 E2

F014 E2

4018

4019

L-174A2F3BT

6002

10K

3022

3021

10K

4017 4010

4011

6001-2

SPR-325MVW

GREEN

SPR-325MVW

RED

4015

6001-1

4012

4014

L-934F3BT

4013

6013

BZX384-C5V6

6014

F010

F011

F012

F014

F013

F016

F015

S6B-PH-K

1M21

2M2

3016

6012

BZX384-C4V7

6015

6016

BZX384-C4V7

BC847B

7012

7011

BC847B

820R

22u

2001

3013

4016

6K8

3012

+5V_STANDBY

3014

10K 6K8

3011

330R

3010

GP1UE260RKVF

7010

GND

OUT

+5V_STANDBY+5V_STANDBY

BPW34

7013

4M7

3018

2002

1u0

3015

3017

10K

7014

+5V_STANDBY +5V_STANDBY

BC847B

3019 150R

150R3020

L-174A2PBC-A

6010

BLUE

L-174A2IT

RED

6011

S3B-PH-K

1M01

+5V_STANDBY

1M20

LED1

LIGHT_SENSOR

KEYBOARD

LED2

J J

G_16850_025.eps

110107

3139 123 6210.1

Personal Notes:

E_06532_012.eps

131004

Circuit Diagrams and PWB Layouts 67LC7.1E LA 7.

Layout Front IR / LED Panel (Top Side)

G_16850_030.eps

020207

3139 123 6210.1

1M01 D4

1M20 D2

1M21 D2

6001 B2

6002 B1

6010 B2

6011 B1

6013 A1

7010 A3

7013 B4

Layout Front IR / LED Panel (Bottom Side)

G_16850_031.eps

020207

3139 123 6210.1

2001 C2

2002 B1

3010 C2

3011 C3

3012 B4

3013 B4

3014 B2

3015 B1

3016 A2

3017 C1

3018 B1

3019 C3

3020 C3

3021 C3

3022 C3

4001 D3

4002 C3

4004 C2

4005 C2

4010 A3

4011 B4

4012 B3

4013 B3

4014 B4

4015 C4

4016 C1

4017 A4

4018 A3

4019 B4

6012 D3

6014 D4

6015 C3

6016 C2

7011 B3

7012 C4

7014 C1

68LC7.1E LA 7.

Circuit Diagrams and PWB Layouts

Personal Notes:

E_06532_013.eps

131004

Alignments EN 69LC7.1E LA 8.

8. Alignments

Index of this chapter:

8.1 General Alignment Conditions

8.2 Hardware Alignments

8.3 Software Alignments

8.4 Option Settings

Note: Figures below can deviate slightly from the actual

situation, due to the different set executions.

General: The Service Default Mode (SDM) and Service

Alignment Mode (SAM) are described in chapter 5. Menu

navigation is done with the CURSOR UP, DOWN, LEFT or

RIGHT keys of the remote control transmitter.

8.1 General Alignment Conditions

Perform all electrical adjustments under the following

conditions:

• Power supply voltage (depends on region):

– AP-NTSC: 120 VAC or 230 VAC / 50 Hz (± 10%).

– AP-PAL-multi: 120 - 230 VAC / 50 Hz (± 10%).

– EU: 230 VAC / 50 Hz (± 10%).

– LATAM-NTSC: 120 - 230 VAC / 50 Hz (± 10%).

– US: 120 VAC / 60 Hz (± 10%).

• Connect the set to the mains via an isolation transformer

with low internal resistance.

• Allow the set to warm up for approximately 15 minutes.

• Measure voltages and waveforms in relation to correct

ground (e.g. measure audio signals in relation to

AUDIO_GND).

Caution: It is not allowed to use heatsinks as ground.

• Test probe: Ri > 10 Mohm, Ci < 20 pF.

• Use an isolated trimmer/screwdriver to perform

alignments.

8.2 Hardware Alignments

There are no hardware alignments foreseen for this chassis,

but below find an overview of the most important DC voltages

on the SSB. These can be used for checking proper functioning

of the DC/DC converters.

8.3 Software Alignments

With the software alignments of the Service Alignment Mode

(SAM) the Tuner and RGB settings can be aligned.

To store the data: Use the RC button “Menu” to switch to the

main menu and next, switch to “Stand-by” mode.

8.3.1 Tuner Adjustment (RF AGC Take Over Point)

Purpose: To keep the tuner output signal constant as the input

signal amplitude varies.

The LC7.xx chassis comes with two tuner types: the UV1318S

for the analogue sets (LC7.1x) and the TD1316AF for the

hybrid sets (LC7.2x).

For the digital tuner TD1316AF, no alignment is necessary, as

the AGC alignment is done automatically (standard value:

“15”), even during analogue reception.

The analogue tuner UV1318S can also use the default value of

“15”, however in case of problems use the following method

(use multimeter and RF generator):

• Apply a vision IF carrier of 38.9 MHz (105 dBuV = 178

mVrms) to test point F111 (input via 50 ohm coaxial cable

terminated with an RC network of series 10nF with 120

ohm to ground).

• Measure voltage on pin 1 of the tuner.

• Adjust AGC (via SAM menu: TUNER -> AGC), until voltage

on pin 1 is 3.3 +0.5/-1.0 V.

• Store settings and quit SAM.

8.3.2 RGB Alignment

Before alignment, choose “TV MENU” -> “Picture” and set:

• “Brightness” to “50”.

• “Colour” to “50”.

• “Contrast” to “100”.

White Tone Alignment:

• Activate SAM.

• Select “RGB Align.” -> “White Tone” and choose a colour

temperature.

• Use a 100% white screen as input signal and set the

following values:

– All “White point” values initial to “256”.

– All “BlackL Offset” values to “0”.

In case you have a colour analyser:

• Measure with a calibrated (phosphor- independent) colour

analyser (e.g. Minolta CA-210) in the centre of the screen.

Consequently, the measurement needs to be done in a

dark environment.

• Adjust the correct x,y coordinates (while holding one of the

White point registers R, G or B on “256”) by means of

decreasing the value of one or two other white points to the

correct x,y coordinates (see table “White D alignment

values”). Tolerance: dx: ± 0.004, dy: ± 0.004.

• Repeat this step for the other colour Temperatures that

need to be aligned.

• When finished return to the SAM root menu and press

STANDBY on the RC to store the aligned values to the

NVM.

Table 8-1 White D alignment values

If you do not have a colour analyser, you can use the default

values. This is the next best solution. The default values are

average values coming from production (statistics).

• Set the RED, GREEN and BLUE default values per

temperature according to the values in the “Tint settings”

table.

Description Test Point

Specifications (V)

DiagramMin. Typ. Max.

+AUDIO_POWER FB21 11.40 12.00 12.60 B02_DC-DC

-AUDIO_POWER FB23 -11.40 -12.00 -12.60 B02_DC-DC

+12V_DISP FB34 11.40 12.00 12.60 B02_DC-DC

+8V F401 7.60 8.00 8.40 B04C_Audio Proc.

+5V_STANDBY FB27 4.94 5.20 5.46 B02_DC-DC

+5V_SW FB16 4.93 5.19 5.45 B02_DC-DC

+5V_D I411 4.75 5.00 5.25 B04C_Audio Proc.

+5V_AUD I410 4.75 5.00 5.25 B04C_Audio Proc.

+5V_TUN I115 4.75 5.00 5.25 B03_Tuner IF

+3V3_STBY FB13 3.10 3.30 3.50 B02_DC-DC

+3V3_SW FB17 3.1 3.3 3.5 B02_DC-DC

+3V3_MOJO FB19 3.1 3.3 3.5 B02_DC-DC

+3V3 FJ01 3.2 3.27 3.4 B03F_DVB-MOJO

+3V3FE FF14 3.2 3.27 3.4 B03B_DVB-Demod

+1V8S_SW FB11 1.70 1.80 1.90 B02_DC-DC

+1V2_MOJO FB20 1.18 1.25 1.31 B02_DC-DC

+1V2_CORE FG39 1.14 1.24 1.34 B03D_DVB-MOJO

VDISP F210 11.40 12.00 12.60 B04B_Video proc.

Value Cool (11000 K) Normal (9000 K) Warm (6500 K)

x 0.278 0.289 0.314

y 0.278 0.291 0.319

Alignments

EN 70 LC7.1E LA8.

• When finished return to the SAM root menu and press

STANDBY on the RC to store the aligned values to the

NVM.

Table 8-2 Tint settings

Black Level Offset Alignment

• Activate SAM.

• Select “RGB Align.” -> “BlackL Offset” and choose a colour.

• Set all “BlackL Offset” values to “0”.

• When finished return to the SAM root menu and press

STANDBY on the RC to store the aligned values to the

NVM.

Note: For models with “Pixel Plus”, the “Black Offset” (black

level offset) should NOT be changed in SAM. These offset

values of RGB should be set to “0”, and should NOT be

adjusted. Any adjustment of these values will affect the low

light white balance.

ADC YPbPr Gray Scale Alignment

When the grey scale is not correct, use this alignment:

• Activate SAM.

• Select “NVM Editor”.

• Enter address “ 26(dec)” (ADR).

• Set value (VAL) to “197(dec) ± 25”.

• Store (STORE) the value.

8.4 Option Settings

8.4.1 Introduction

The microprocessor communicates with a large number of I2C

ICs in the set. To ensure good communication and to make

digital diagnosis possible, the microprocessor has to know

which ICs to address. The presence/absence of these specific

ICs (or functions) is made known by the option codes.

Notes:

• After changing the option(s), save them with the STORE

command.

• The new option setting becomes active after the TV is

switched "off" and "on" again with the mains switch (the

EAROM is then read again).

8.4.2 How To Set Option Codes

When the NVM is replaced, all options will require resetting. To

be certain that the factory settings are reproduced exactly, you

must set all option numbers. You can find the correct option

numbers in table “Option Codes OP1...OP7“ below.

How to Change Options Codes

An option code (or “option byte”) represents eight different

options (bits). When you change these numbers directly, you

can set all options very quickly. All options are controlled via

seven option numbers (OP1... OP7).

Activate SAM and select “Options”. Now you can select the

option byte (OP1.. OP7) with the CURSOR UP/ DOWN keys,

and enter the new 3 digit (decimal) value. For the correct

factory default settings, see the table “Option codes

OP1...OP7“ below. For more detailed information, see the

second table “Option codes at bit level“. If an option is set

(value “1”), it represents a certain decimal value.

When all the correct options (bits) are set, the sum of the

decimal values of each Option Byte (OP) will give the option

code.

Figure 8-1 Option codes OP1...OP7 (for all LC7.1E models)

Colour Temp. R G B

Cool 249 241 246

Normal 251 238 229

Warm 246 222 199

H_16940_006.eps

090307

LPL : LC260WX2-SLB2 045

CMO : V260B1-L03 068

867000025487 26PFL5322/10

AUO : T260XW03 V1 067

000

LPL : LC320W01-SL06 046

AUO : T315XW02 VD 091

867000025408 32PFL5322/10

CMO : V315B1-L05 069

001

LPL : LC370WX1-SLB1 071

867000025489 37PFL5322/10 AUO : T370XW02 V5 072

LPL : LC420WX3-SLA1 073

AUO : T420XW01 V8 076

867000025492 42PFL5322/10

LPL : LC420WX5-SLD1 107

003 023 010 223 009 000

002

LC07_EU_ATV_LCD_Pan Europe (/12)

LPL : LC260WX2-SLB2 045

CMO : V260B1-L03 068

867000025488 26PFL5322/12

AUO : T260XW03 V1 067

000

LPL : LC320W01-SL06 046

AUO : T315XW02 VD 091

867000025439 32PFL5322/12

CMO : V315B1-L05 069

001

LPL : LC370WX1-SLB1 071

867000025491 37PFL5322/12 AUO : T370XW02 V5 072

LPL : LC420WX3-SLA1 073

AUO : T420XW01 V8 076

867000025493 42PFL5322/12

LPL : LC420WX5-SLD1 107

003 023 010 223 009 000

002

LC07_EU_ATV_PDP_Europe (/10)

SDI : 42 HD W2 083

867000025494 42PFP5332/10 LG : 42 HD X4 084 003 007 011 223 009 000 003

LC07_EU_ATV_PDP_Pan Europe

(/12)

SDI : 42 HD W2 083

867000025495 42PFP5332/12 LG : 42 HD X4 084 003 007 011 223 009 000 003

Sets 12NC Sets Type Panel Type

Panel

Code

(Dec)

Option Byte

Group 1 Group 2

1 2 3 4 5 6 7

LC07_EU_ATV_LCD_Europe (/10)

Alignments EN 71LC7.1E LA 8.

Option Bit Overview

Below find an overview of the Option Codes on bit level.

Table 8-3 Option codes at bit level (OP1-OP4)

Option Byte & Bit Dec. Value Option Name Description

Byte OP1

Bit 7 (MSB) 128 Reserved Not Used (Reserved)

Bit 6 64 CHINA ON = SW is for CHINA only OFF = SW is for Non-China AP cluster

Bit 5 32 DTV_CHINA ON = DTV_CHINA will be available (Reserved) OFF = DTV_CHINA will not be available

Bit 4 16 DTV_EU ON = DTV will be available OFF = DTV will not be available

Bit 3 8 UK_PNP ON = UK PNP is available OFF = UK PNP is not available

Bit 2 4 VIRGIN_MODE ON = Virgin Mode (PNP) is available OFF = Virgin Mode (PNP) is not available

Bit 1 2 ACI ON = ACI is available OFF = ACI is not available

Bit 0 (LSB) 1 ATS ON = ATS is available OFF = ATS is not available

Total DEC Value

Byte OP2

Bit 7 (MSB) 128 1080P ON = 1080p is available OFF = 1080p is not available

Bit 6 64 LIGHT_SENSOR ON = Light Sensor is available OFF = Light Sensor is not available

Bit 5 32 AMBILIGHT ON = Ambilight Feature will be available OFF = Ambilight Feature will not be available

Bit 4 16 BACKLIGHT_DIMMING ON = Backlight Dimming is available OFF = Backlight Dimming is not available

Bit 3 8 HUE ON = Hue is available OFF = Hue is not available

Bit 2 4 2D3DCF ON = 3D Comb Filter is available OFF = 2D Comb Filter is available

Bit 1 2 WSSB ON = WSS is available OFF = WSS is not available

Bit 0 (LSB) 1 WIDE_SCREEN ON = TV is 16x9 set OFF = TV is 4x3 set

Total DEC Value

Byte OP3

Bit 7 (MSB) 128 CVI2 ON=CVI1 (YPbPr) (For ROW)

Bit 6 64 Reserved Not Used (Reserved)

Bit 5 32 Reserved Not Used (Reserved)

Bit 4 16 VCHIP ON = VChip is available OFF = VChip is not available

Bit 3 8 VIDEO_TEXT ON = Video-TXT is available OFF = Video-TXT is not available

Bit 2 4 STEREO_DBX ON = Stereo DBX detection is available (LATAM) OFF = Stereo DBX detection is not available

Bit 1 2 STEREO_NICAM_2CS ON = Stereo NICAM 2CS detection is available (EU/AP/China) OFF = Stereo NICAM 2CS

detection is not available

Bit 0 (LSB) 1 LIP_SYNC ON = Lip Sync is available OFF = Lip Sync is not available

Total DEC Value

Byte OP4

Bit 7 (MSB) 128 HDMI2 ON = HDMI2 is available OFF = HDMI2 is not available

Bit 6 64 HDMI1 ON = HDMI1 is available OFF = HDMI1 is not available

Bit 5 32 VGA ON = VGA is available OFF = VGA is not available

Bit 4 16 SVHS3 ON = SVHS3 is available OFF = SVHS3 is not available

Bit 3 8 AV3 ON = AV3 is available OFF = AV3 is not available

Bit 2 4 CVI ON = CVI is available OFF = CVI is not available

Bit 1 2 SVHS2 ON = SVHS2 is available OFF = SVHS2 is not available

Bit 0 (LSB) 1 AV2 ON = AV2 is available OFF = AV2 is not available

Total DEC Value

Alignments

EN 72 LC7.1E LA8.

Table 8-4 Option codes at bit level (OP5-OP7)

Option Byte & Bit Dec. Value Option Name Description

Byte OP5

Bit 7 (MSB) 128 NVM_CHECK ON = NVM (range) checking is available OFF = NVM (range) checking is not available

Bit 6 64 Reserved Not Used (Reserved)

Bit 5 32 Reserved Not Used (Reserved)

Bit 4 16 MP_ALIGN ON = Using multi-point alignment for Gamma & White Point OFF = Using old way for Gamma (pre-

defined) & WP alignment

Bit 3 8 SYS_RECVRY ON = System Recovery is available OFF = System Recovery is not available

Bit 2 4 SL_WIRED ON = BDS Smart Loader Wired is available OFF = BDS Smart Loader Wired is not available

Bit 1 2 HOTEL ON = Hotel/BDS is available OFF = Hotel/BDS is not available

Bit 0 (LSB) 1 SS_DEMO ON = Split Screen Demo is available OFF = Split Screen is not available

Total DEC Value

Byte OP6

Bit 7 (MSB) 128 Reserved Not Used (Reserved)

Bit 6 64 Reserved Not Used (Reserved)

Bit 5 32 Reserved Not Used (Reserved)

Bit 4 16 Reserved Not Used (Reserved)

Bit 3 8 TUNER PROFILE 0 = ATV_EU_PHILIPS UV1318S/AIH-3 1 = ATV_EU_Panasonic EN57K28G3F2 =

DTV_EU_PHILIPS TD1316AF/IHP-24 = ATV_AP_PHILIPS UV1316E/AIH-45 = ATV_AP_Tuner2

(Reserved)6 = ATV_CHINA_ALPS TEDE9-286B7 = ATV_CHINA_Tuner2 (Reserved)8 =

ATV_LATAM_PHILIPS UV1338/AIH-4 9 = ATV_LATAM_Tuner2 (Reserved)10 =

DTV_CHINA_Tuner1 (Reserved)11 = DTV_CHINA_Tuner2 (Reserved)12 = Not Used

(Reserved)13 = Not Used (Reserved)14 = Not Used (Reserved)15 = Not Used (Reserved)

Bit 2 4

Bit 1 2

Bit 0 (LSB) 1

Total DEC Value

Byte OP7

Bit 7 (MSB) 128 Reserved Not Used (Reserved)

Bit 6 64 Reserved Not Used (Reserved)

Bit 5 32 Reserved Not Used (Reserved)

Bit 4 16 CABINET PROFILE 0 = Cabinet_Profile_26_LCD_ME7 1 = Cabinet_Profile_32_LCD_ME7 2 =

Cabinet_Profile_37_42_47_LCD_ME73 = Cabinet_Profile_42_50_PDP_ME7 4 =

Cabinet_Profile_26_LCD_ME5P5 - 32 = Reserved

Bit 3 8

Bit 2 4

Bit 1 2

Bit 0 (LSB) 1

Total DEC Value

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 73LC7.1E LA 9.

9. Circuit Descriptions, Abbreviation List, and IC Data Sheets

Index of this chapter:

9.1 Introduction

9.2 LCD Power Supply

9.3 DC/DC converters

9.4 Front-End

9.5 Video Processing

9.6 Memory addressing

9.7 Audio Processing

9.8 HDMI

9.9 Abbreviation List

9.10 IC Data Sheets

Notes:

•Only new circuits (circuits that are not published recently)

are described.

• Figures can deviate slightly from the actual situation, due

to different set executions.

• For a good understanding of the following circuit

descriptions, please use the Wiring, Block (chapter 6) and

Circuit Diagrams (chapter 7). Where necessary, you will

find a separate drawing for clarification.

9.1 Introduction

The LC7.x (development name “LC07”) is a new global chassis

for the year 2007 (LC7.1 is the analogue range, LC7.2 is the

digital range). It covers a screen size of 26 to 47 inch for LCD

and 42 to 50 inch for Plasma sets with a new styling called

“ME7”. Some key components are:

•Audio: Sound processing is performed by a multi-standard

sound processor MSP4450 (item 7411)

•Video: Video processing is performed by the Trident video

processor SVP CV32-LF (item 7202).

For analogue reception, a standard IF demodulator is used,

whereas digital input signals (DVB-T) are processed through a

COFDM channel decoder together with an MPEG decoder. A

so-called “Reneas” microprocessor performs the control

functionality.

Important features of this chassis are:

•AmbiLight: LED AmbiLight (where applicable) is

introduced as the successor of glass-tube AmbiLight

•1080p Full HD (where applicable).

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 74 LC7.1E LA9.

9.1.1 SSB Cell Layout

Figure 9-1 SSB top view

Figure 9-2 SSB bottom view

H_16940_010.eps

060307

DC-DC CONVERSION

TRIDENT

VIDEO

PROC.

RENEAS

AUDIO CLASS D

ANALOG TUNER IF DEM

HDMI

VIF SAW

SIF SAW

H_16940_011.eps

060307

DC-DC CONVERSION

AUDIO CLASS D

FLASH

MEM

SDRAM

MICRONAS

AUDIO PROC.

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 75LC7.1E LA 9.

9.2 LCD Power Supply

The Power Supply Unit (PSU) in this chassis is a buy-in and is

a black-box for Service. When defective, a new panel must be

ordered and the defective panel must be sent for repair, unless

the main fuse of the unit is broken. Always replace the fuse with

one with the correct specifications! This part is available in the

regular market.

Three different PSU can be used in this chassis:

• 26 and 32 inch sets use a “Delta” PSU

• 37 and 42 inch sets use a “PPS” (Philips Power Solutions)

PSU

• 47 inch sets use a “Delta” PSU.

Figure “Overview of PSU connectivity” shows the connectivity

of the Power Supply Unit with the other panels in the set.

Figure 9-3 Overview of PSU connectivity

All Power Supply Units deliver the following voltages to the

chassis:

• +24 V to the inverters

• +12 V to SSB

• +12 V and -12 V to Audio Supply

• 12 V to Bolt-on Supply (where applicable)

• +5.2 V Standby voltage.

9.3 DC/DC converters

A switch generates the +5.2 V (+5V_SW) from the +5.2 V

(+5V_STANDBY) supply voltage. For LCD sets, this switch is

mounted on-board the SSB. For PDP sets, this switch is

mounted on the Power Supply Panel. This results in the

+5V_STANDBY (and +5V_SW for PDP sets) voltage(s),

coming from the Power Supply Unit, is (are) used as input for

the on-board DC/DC converters.

They deliver the following voltages to the board:

• +3.3 V (+3V3_STBY)

• +5.2 V (+5V_SW) (only for LCD sets)

• +1.8 V (+1V8S_SW)

• +34 V (+VTUN)

• +3.3 V (+3V3_SW)

• +3.3 V (+3V3_MOJO)

• +1.2 V (+1V2_MOJO)

An overview can be found in figure “DC-DC converter block

diagram”.

Figure 9-4 DC-DC converter block diagram

9.4 Front-End

This chassis uses different tuners depending on the region and

execution. An overview of the different executions can be found

in table “Tuner diversity”.

Table 9-1 Tuner diversity

For a general outline of tuner applications in this chassis see

figure “Tuner IF diagram”.

Figure 9-5 Tuner IF diagram

In the LC7.1x chassis (analogue sets), the signal coming from

the tuner is fed to the IF demodulator (through the SAW filters)

and then passed to the Trident Video Processor.

In the LC7.2x chassis (digital sets), the TD1316AF hybrid tuner

is used which is capable of receiving both analogue and digital

(DVB-T) signals. While receiving analogue signals, the signal

coming from the tuner is fed to the IF demodulator (through the

SAW filters) and then passed to the Trident Video Processor.

While receiving digital signals, the signal coming from the tuner

is first fed to the channel decoder, then to the MPEG decoder

and then to the Trident Video Processor.

G_16860_051.eps

310107

Region Tuner Type

Europe TD1316AF hybrid

UV1318S analogue

AP UV1316E analogue

China TEDE9 analogue

Latam UV1338 analogue

G_16860_063.eps

310107

Tuner

Video

SAW filter

Audio

SAW filter

Switch IC

IF Demodulator

CVBS

SIF

Digital IF

36.16MHz

4MHz

RFAGC

RF AGC_analogue

I2C

IF AGC

Supply

+5V/+33V

RF AGC_digital

I2C_analogue

I2C_digital

G_16860_054.eps

020207

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 76 LC7.1E LA9.

9.4.1 Video IF Amplifier

The IF-filter is integrated in a SAW (Surface Acoustic Wave)

filter. One for filtering IF-video (item 1102) and one for IF-audio

(item 1103). The type of these filters depends on the

standard(s) received (region-dependency). Some filters can be

switched to another standard, what makes them suitable for

applications in multi-standard platforms. An overview of the

SAW filter diversity can be found in table “SAW filter diversity”.

Table 9-2 SAW filter diversity

Switching is done by the microcontroller via SAW_SW. In table

“SAW filter switching” is explained how to address the different

system standards.

Table 9-3 SAW filter switching

The hybrid tuner TDA1316AF, used in Europe sets, needs to

be switched between digital and analogue mode. This is done

by the microcontroller via DVB_SW. Refer to table “Hybrid

tuner digital/analogue switching” for details.

Table 9-4 Hybrid tuner digital/analogue switching

The pin assignment of all analogue tuners is equal and can be

found in table “Pin assignment analogue tuners”.

Table 9-5 Pin assignment analogue tuners

The pin assignment of the hybrid tuner can be found in table

“Pin assignment hybrid tuner”.

Table 9-6 Pin assignment hybrid tuner

9.4.2 Automatic Gain Control

In the LC7.2x chassis (digital sets), the automatic gain control

depends on if the set is receiving a digital or an analogue

signal. During analogue reception, the hybrid tuner receives an

external AGC voltage, coming from the demodulator, to

perform automatic gain control. During digital reception, no

external AGC voltage is used but the tuners internal AGC loop

is used.

In the LC7.1x chassis (analogue sets), the tuner receives an

external AGC voltage, coming from the demodulator, to

perform automatic gain control.

9.5 Video Processing

The video processing is completely handled by the Trident SVP

CX32 video processor which features:

• CVBS-input for analogue signals

• RGB-input for digital (DVB-T) signals

• Motion and “edge-adaptive” deinterlacing

• Integrated ADC

• Built-in 8-bit LVDS transmitter

• Colour stretch

• Skin colour enhancement

• 3D Digital Comb Video Decoder

• Interlaced and Progressive Scan refresh

• Teletext decoding

• OSD and VBI/Closed Caption.

SAW filter Switching Y/N Region Video/Audio

OFWK3953M No Europe Video

OFWK9656M Yes Europe Audio

OFWK7265L Yes AP Video

OFWK9361L No AP Sound

OFWK3956L No China Video

OFWK3955L No China Video

OFWK9352L No China Audio

OFWM1967L No LATAM Video/Audio

Region SAW_SW System

Europe 1 L’

0 other systems

AP 1 B/G, D/K, I

0M/N

China 1 B/G, D/K, I

0M/N

LATAM n.a. M/N

Region DVB_SW Mode

Europe 1 analogue reception

0 Digital reception

number Description DC voltage (V)

1 RF AGC voltage 3.3 - 4.5 (weak or no

signal) < 3.3 (strong signal)

2n.c.

2C-bus address select 0

4 SCL 0 to 3.3

5 SDA 0 to 3.3

6n.c.

7 supply voltage 5 ±0.25

8n.c.

9 tuning supply voltage 33

10 n.c.

11 TV IF output

number Description DC voltage (V)

1n.c.

2 RF AGC voltage 3.3 - 4.5 (weak or no

signal) < 3.3 (strong signal)

2C-bus address select 0

4 SCL 0 to 3.3

5 SDA 0 to 3.3

6 4 MHz reference

output

7 supply voltage 5 ±0.25

8 broadband IF output

9 IF AGC voltage 0 to 3

10 narrowband IF output

11 narrowband IF output

number Description DC voltage (V)

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 77LC7.1E LA 9.

9.5.1 Region-dependent applications

Figure 9-6 Block diagram video processing - EU version

“Block diagram video processing - EU version” shows the input

and output signals to and from the Trident Video Processor in

EU applications.

During analogue reception, a CVBS signal coming from the

analogue front-end is fed to the video processor via pin

CVBS1. During digital reception, the video signal coming from

the MPEG decoder (MOJO) is fed to the video processor via

pins FS1, PC_B, PC_G and PC_R.

The video processor also interfaces the SCART1 & 2 input,

side AV, EXT4 (HD where applicable) and HDMI1 & 2 input.

Through the SCART1 & 2 connectors, a monitor output is

foreseen.

Figure 9-7 Block diagram video processing - AP version

IB O _ R _IN

Trident

Video Processor

SVP CX32

( D V B-T

demodulator

Digital Front End

and decoder)

CVBS

SCART1

SC1_R_IN

SC1_CVBS_IN

SC1_FBL_IN

HD_Y_IN

SCART2

SIDE AV

FRONT_Y_CVBS_IN_T

SC2_Y_CVBS_IN

EXT4

HDMI

Decoder

HDMI1

HDMI2

HDMI_Y(0:7)

HDMI_Cb(0:7)

HDMI_Cr(0:7)

SCART2 Monitor out

On board EXT3

CVBS

SCART1 Monitor out

PR_R2

PB_B2

Y_G2

SC1_G_IN

SC1_B_IN

PB_B3

FB1

IB O _G _IN

IB O _B _IN

IB O _C V B S_ IN

PC_R

PC_G

PC_B

FS1

HD_PB_IN

HD_PR_IN

Y_G1

PB_B1

PR_R1

SC2_C_IN

FRONT_C_IN_T Y_G3

PR_R3

FS2

CVBS_OUT1

CVBS_OUT2

Analogue

Front End

CVBS_RF CVBS1

G_16860_060.eps

310107

IBO _R_IN

MUX

CVBS

PC VGA

SC1_R_IN

PC_VGA_H

PC_VGA_V

HD_Y_IN

AV1

SIDE AV

FRONT_Y_CVBS_IN_T

SC2_Y_CVBS_IN

CVI2

HDMI1

HDMI2

HDMI_Y(0:7)

HDMI_Cb(0:7)

HDMI_Cr(0:7)

CINCH Monitor out

PR_R2

PB_B2

Y_G2

SC1_G_IN

SC1_B_IN

AIN_HS

AIN_VS

IBO _G _IN

IBO _B _IN

IBO _CVBS_IN

PC_R

PC_G

PC_B

FS1

HD_PB_IN

HD_PR_IN

Y_G1

PB_B1

PR_R1

SC2_C_IN

FRONT_C_IN_T Y_G3

PR_R3

FS2

CVBS_OUT2

Analogue

Front End

CVBS_RF CVBS1

DMMI YPbPr IN

CVI YPbPr

CVI1

DMMI connector CVI_DTV_SEL

Trident

Video Processor

SVP CX32

HDMI

Decoder

G_16860_061.eps

310107

Circuit Descriptions, Abbreviation List, and IC Data Sheets

EN 78 LC7.1E LA9.

“Block diagram video processing - AP version” shows the input

and output signals to and from the Trident Video Processor in

AP applications.

During analogue reception, a CVBS signal coming from the

analogue front-end is fed to the video processor via pin

CVBS1. No digital reception (DVB-T) reception is foreseen in

AP region. However, an internal DMMI connector is

implemented for future digital reception applications in

combination with IBO. CVI_DTV_SEL is a control signal from

the microprocessor. When this signal is LOW, then the MUX

passes the CVI1 YPbPr input signal to the Trident Video

Processor. When this signal is HIGH, then the YPbPr input

signal coming from the DMMI connector is passed to the video

processor. Currently, this signal is always LOW since no IBO is

used.

The video processor also interfaces the AV1 and Side AV

input, CVI2 (HD), VGA(PC), HDMI1 & 2. A cinch output

connector for Monitor output is foreseen.

9.6 Memory addressing

Figure “Memory block diagram” shows the interconnection

between the microprocessor, the FLASH memory, the Trident

Video Processor and the SDRAM.

Figure 9-8 Memory block diagram

Control signals CPU_RST, WR, RD and CE, address lines

A[0:19] and data lines D[0:7] are used for transferring data

between the microprocessor (item 7311) and the flash memory

(item 7310). Control signals CS, WR and RD, address lines

A[0:7] and data lines D[0:7] are used for transferring data

between the Trident Video Processor (item 7202) and the

microprocessor (item 7311). Control signals CX_BA0,

CX_BA1, CX_MCLK, CX_CLKE, CX_CS0, CX_RAS, CX_CAS

and CX_WE, address lines CX_MA[0:11] and data lines

DQ[0:15] are used for transferring data between the Trident

Video Processor and the SDRAM ICs (items 7204 and 7205).

9.7 Audio Processing

The audio decoding is done entirely via the Multistandard

Sound Processor (MSP) 4450P (item 7411).

This processor covers the processing of both analogue and

(NICAM) digital input signals by processing the (analogue) IF

signal-in to processed (analogue) AF-out (baseband audio). An

internal 40 ms (stereo) audio delay line (LIP SYNC) is foreseen

and therefore no external delay line is necessary.

All internal clock signals are derived from an external

18.432 MHz oscillator, which, in NICAM or I2S-mode, on its

turn is locked to the corresponding source.

The following functionality is included:

• Automatic Standard Detection (ASD) automatically detects

the actual broadcasted TV standard

• Automatic Sound Select (ASS) automatically switches

(without any I2C-bus action) between mono/stereo/

bilingual mode when the broadcast mode changes.

9.7.1 Region-dependent applications

Figure 9-9 Block diagram audio processing - EU application

In EU applications, the MSP features:

• Sound IF input for signals coming from the analogue front-

end

• Three I2S-inputs for signals (“DATA”, “CLK” and “WS”)

coming from the MOJO in case of digital reception

• Five analogue inputs: for EXT1 to EXT4 and HDMI

• Loudspeaker output path

• Headphone output path

• SCART-1 output path (RF)

• SCART-2 output path (WYSIWYG = monitor).

Digital audio signals coming from HDMI sources are fed to a

digital-to-analogue converter and then fed to the MSP.

In case of reception of digital TV signals, digital audio signals

coming from the MOJO are directly fed to the MSP via the

I2S_DA_IN1, I2S_WS1 and I2S_CL1 lines. This ensures a

“true digital path”.

Figure 9-10 Block diagram audio processing - AP application

In AP applications, the MSP features:

• Sound IF input for signals coming from the analogue front-

end

7311

7202

7310

7204

7205

micro-

processor

1MB

Flash Memory

Trident CX

8MB

SDRAM

8MB

SDRAM

CPU_RST/WR/RD/CE

D[0:7]

A[0:19]

A[0:7]

D[0:7]

CS/WR/RD

CX_BA0/BA1/MCLK/

CLKE/CS0/RAS/CAS/WE

CX_MA[0:11]

DQ[0:15]

DQ[16:31]

CX_MA[0:11]

CX_BA0/BA1/MCLK/

CLKE/CS0/RAS/CAS/WE

Reneas

G_16860_062

220207

ANALOGUE

FRONT END

DVB / MOJO

(if present)

HDMI IN

SCART 1 IN

SCART 2 IN

COMP IN SC3-IN

SC4-IN

SC5-IN

CLASS D

AMPLIFIER

HP AMPLIFIER

SCART 1 OUT

LOUDSPEAKER

MSP 4450P

DACM

DACA

SC1-OUT

I2S_DA_IN1

I2S_WS

I2S_CL

ANA_IN1+

SIDE IN

AUDIO

DAC

SC1-IN

SC2-IN

SC2-OUT SCART 2 OUT

HDMI

2nd SIF

I2S1

G_16860_055.eps

090307

ANALOGUE

FRONT END

HDMI AUDIO

PC AUDIO IN

AV 2 IN

CVI 1 IN SC3-IN

SC4-IN

SC5-IN

CLASS D

AMPLIFIER

HP AMPLIFIER

LOUDSPEAKER

HEADPHONE

MSP 4450P

DACM

DACA

SC1-OUT

I2S_DA_IN3

I2S_WS3

I2S_CL3

ANA_IN1+

AV 1 IN

SC1-IN

SC2-IN

SC2-OUT MONITOR OUT

2nd SIF

I2S3

AUDIO

MUX

CVI2 IN

** FOR AP ANALOGUE &

LATAM SET

CHINA DTV IN

G_16860_056.eps

090307

Circuit Descriptions, Abbreviation List, and IC Data Sheets EN 79LC7.1E LA 9.

• Three I2S-inputs for signals (“DATA”, “CLK” and “WS”)

coming from the HDMI interface

• Five analogue inputs: for CVI1, CVI2, AV1, AV2, DTV

(China) and PC audio

• Loudspeaker output path

• Headphone output path

• Monitor output path (WYSIWYG).

Digital audio signals coming from HDMI sources are directly

fed to the MSP via the I2S_DA_IN3, I2S_WS3 and I2S_CL3

lines. This ensures a “true digital path”.

In case of reception of digital TV signals, a multiplexer is used

to switch between China DTV or DVI2 audio. In China sets, the

audio signal coming from the DTV module is in analogue

format. The output from the multiplexer is fed to the MSP via

the SC5-input.

In both applications, the microprocessor (item 7311) controls

the audio part with the following control lines:

• MUTEn: used to mute the Class D amplifiers

• ANTI_PLOP: used to detect any DC failure in the Class D

amplifiers

• DC_PROT: used to detect any DC failure in the Class D

amplifiers.

9.7.2 Audio Amplifier

The audio amplifier is an integrated class-D amplifier

(TDA8932T, item 7A01). It combines a good performance with

a high efficiency, resulting in a big reduction in heat generation.

Principle

Figure 9-11 Principle Class-D Amplifier

The Class D amplifier works by varying the duty cycle of a

Pulse Width Modulated (PWM) signal.

By comparing the input voltage to a triangle wave, the amplifier

increases duty cycle to increase output voltage, and decreases

duty cycle to decrease output voltage.

The output transistors of a Class D amplifier switch from 'full off'

to 'full on' (saturated) and then back again, spending very little

time in the linear region in between. Therefore, very little power

is lost to heat. If the transistors have a low 'on' resistance

(RDS(ON)), little voltage is dropped across them, further

reducing losses.

A Low Pass Filter at the output passes only the average of the

output wave, which is an amplified version of the input signal.

In order to keep the distortion low, negative feedback is

applied.

The advantage of Class D is increased efficiency (= less heat

dissipation). Class D amplifiers can drive the same output

power as a Class AB amplifier using less supply current.

The disadvantage is the large output filter. The main reason

for this filter is that the switching waveform results in maximum

current flow. This causes more loss in the load, which causes

lower efficiency. An LC filter with a cut-off frequency less than

the Class D switching frequency, allows the switching current

to flow through the filter instead of the load, thus reducing the

overall loss and increasing the efficiency.

DC-protection

A DC-detection circuit is foreseen to protect the speakers. It is

built around three transistors (items 7A05 to 7A07) and

generates a protection signal (DC_PROT) to the

microprocessor in case of a DC failure in the Class D

amplifiers.

9.8 HDMI

9.8.1 Introduction

Note: Text below is an excerpt from the ”HDMI Specification”

that is issued by the HDMI founders (see http://www.hdmi.org).

The High-Definition Multimedia Interface is developed for

transmitting digital signals from DVD players, set-top boxes

and other audiovisual sources to television sets, projectors and

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