Manual de serviço tv philips 42pfl7603d 12 chassis q528 2e

Page 1

Colour Television

Chassis

Q528.2E LA

ME8

ME8+ H_17650_000.eps 160108

Contents

Page

1. Technical Specifications, Connections, and Chassis Overview 2 2. Safety Instructions, Warnings, and Notes 6 3. Directions for Use 7 4. Mechanical Instructions 8 5. Service Modes, Error Codes, and Fault Finding 16 6. Block Diagrams, Test Point Overview, and Waveforms Wiring Diagram 32" (ME8) 37 Wiring Diagram 42" (ME8) 38 Block Diagram Video 39 Block Diagram Audio 40 Block Diagram Control & Clock Signals 41 SSB: Test Points (Top Side) 42 SSB: Test Points (Bottom Side) 43 I2C IC Overview 44 Supply Lines Overview 45 7. Circuit Diagrams and PWB Layouts Drawing LCD Supply (37 & 42"): Part 1(A1) 46 LCD Supply (37 & 42"): Part 2 (A2) 47 Small Signal Board (B02-B10) 50 SSB: SRP List Explanation 95 SSB: SRP List Part 1 96 SSB: SRP List Part 2 97 Keyboard Control Panel (E) 108 IR & LED Panel (J) 109 Light Guide Panel (32") (LG) 111 Light Guide Panel (47 & 52") (LG) 113

Contents

Page

8. 9. 10. 11.

115 123 135 135

Alignments IC Data Sheets Spare Parts List & CTN Overview Revision List

PWB 48-49 48-49 98-107

108 110 112 114

Š Copyright 2008 Koninklijke Philips Electronics N.V. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, or otherwise without the prior permission of Philips.

Published by JY 0866 BU TV Consumer Care

Printed in the Netherlands

Subject to modification

EN 3122 785 17651

EN 2

1.

Technical Specifications, Connections, and Chassis Overview

Q528.2E LA

1. Technical Specifications, Connections, and Chassis Overview 1.1.3

Index of this chapter: 1.1 Technical Specifications 1.2 Connections 1.3 Chassis Overview Notes: • Figures can deviate due to the different set executions. • Specifications are indicative (subject to change).

1.1.4

1.1 1.1.1

Supported file formats

: JPEG : MP3 : Slideshow (.alb)

USB input

: USB2.0

Miscellaneous

Technical Specifications Vision Display type Screen size Resolution (H × V pixels) Light output (cd/m2) Contrast ratio Viewing angle (H × V degrees) Tuning system Colour systems

Video playback

Tuner bands Supported video formats

Supported computer formats: - 60, 70, 75, 85 Hz - 60, 72, 75, 85 Hz - 60, 70, 75, 85 Hz 1.1.2

Multimedia

: : : : : : : : : : : : : : : : : : : : : : : : : : :

LCD 32" (82 cm), 16:9 42" (107 cm), 16:9 1366 × 768p (32") 1920 × 1080p (42") 500 (32") 550 (42") 40000:1 (32") 30000:1 (42") 176 × 176 PLL PAL B/G, D/K, I SECAM B/G, D/K, L/L’ DVB-T DVB-C (in some sets) DVB-T MPEG4 (42PFL5603H/10) NTSC PAL SECAM UHF, VHF, S, Hyper 480i @ 60 Hz 480p @ 60 Hz 576i @ 50 Hz 576p @ 50 Hz 720p @ 50/60 Hz 1080i @ 50/60 Hz 1080p @ 24/25/30/ 50/60 Hz

: 1024 × 768 : 800 × 600 : 640 × 480

Sound Maximum power (WRMS)

: 2 × 15

Power supply: - Mains voltage (VAC) - Mains frequency (Hz)

: 220 - 240 ±10% : 50 / 60

Ambient conditions: - Temperature range (°C)

: +5 to +35

Power consumption (values are indicative) - Normal operation (W) : 140 (32") : 200 (42") : 210 (42PFL7603D/12) - Standby (W) : < 0.15 Dimensions (W × H × D in cm)

Weight (kg)

: 81.9 × 51.8 × 9.5 (32") : 104.6 × 64.4 × 8.8 (42") : 104.6 × 64.4 × 11.1 (42PFL7603D/12) : 19 (32") : 21 (42") : 22.5 (42PFL7603D/12)

Technical Specifications, Connections, and Chassis Overview 1.2

Q528.2E LA

1.

EN 3

Connections

SPDIF OUT

SERV. U

EXT 3

EXT 2

(RGB/CVBS)

EXT 1

(RGB/CVBS)

Y L AUDIO OUT

Pb

R Pr L AUDIO IN R

75X TV ANTENNA

OPTIONAL

AUDIO IN: HDMI 3 HDMI 2 HDMI 1

LEFT / RIGHT HDMI 1 / DVI HDMI 2 / DVI HDMI 3 / DVI

H_17650_083.eps 160108

Figure 1-1 Connection overview 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, Ye= Yellow. 1.2.1

HDMI: Digital Video, Digital Audio - In 19 18

1 2 E_06532_017.eps 250505

Side Connections Headphone (Output) Bk - Headphone 32 - 600 ohm / 10 mW Cinch: Video CVBS - In, Audio - In Rd - Audio R 0.5 VRMS / 10 kohm Wh - Audio L 0.5 VRMS / 10 kohm Ye - Video CVBS 1 VPP / 75 ohm S-Video (Hosiden): Video Y/C - In 1 - Ground Y Gnd 2 - Ground C Gnd 3 - Video Y 1 VPP / 75 ohm 4 - Video C 0.3 VPP / 75 ohm

Figure 1-3 HDMI (type A) connector ot

jq jq jq

H H j j

USB2.0

1

2

3

4

E_06532_022.eps 300904

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

- D2+ - Shield - D2- D1+ - Shield - D1- D0+ - Shield - D0- CLK+ - Shield - CLK- n.c. - n.c. - DDC_SCL - DDC_SDA - Ground - +5V - HPD - Ground

Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel

DDC clock DDC data Gnd Hot Plug Detect Gnd

j H j j H j j H j j H j j jk H j j H

Figure 1-2 USB (type A) 1 2 3 4

- +5V - Data (-) - Data (+) - Ground

Gnd

k jk jk H

Common Interface 68p - See diagram B09A

jk

EN 4 1.2.2

1.

Technical Specifications, Connections, and Chassis Overview

Q528.2E LA

Rear Connections Service Connector (UART) 1 - Ground Gnd 2 - UART_TX Transmit 3 - UART_RX Receive

H k j

Cinch: S/PDIF - Out Bk - Coaxial

0.4 - 0.6VPP / 75 ohm

kq

Cinch: Audio - Out Rd - Audio - R Wh - Audio - L

0.5 VRMS / 10 kohm 0.5 VRMS / 10 kohm

kq kq

EXT3: Cinch: Video YPbPr - In Gn - Video Y 1 VPP / 75 ohm Bu - Video Pb 0.7 VPP / 75 ohm Rd - Video Pr 0.7 VPP / 75 ohm EXT3: Cinch: Audio - In Rd - Audio - R 0.5 VRMS / 10 kohm Wh - Audio - L 0.5 VRMS / 10 kohm

jq jq jq

jq jq

EXT2, EXT1: Video RGB - In, CVBS - In/Out, Audio - In/Out

20

2

21

1

E_06532_001.eps 050404

Figure 1-4 SCART connector 1 2 3 4 5 6 7 8

- Audio R - Audio R - Audio L - Ground Audio - Ground Blue - Audio L - Video Blue - Function Select

9 10 11 12 13 14 15 16

- Ground Green - Easylink P50 - Video Green - n.c. - Ground Red - Ground P50 - Video Red - Status/FBL

17 18 19 20 21

- Ground Video - Ground FBL - Video CVBS - Video CVBS - Shield

Aerial - In - - IEC-type (EU)

0.5 VRMS / 1 kohm 0.5 VRMS / 10 kohm 0.5 VRMS / 1 kohm Gnd Gnd 0.5 VRMS / 10 kohm 0.7 VPP / 75 ohm 0 - 2 V: INT 4.5 - 7 V: EXT 16:9 9.5 - 12 V: EXT 4:3 Gnd 0 - 5 V / 4.7 kohm 0.7 VPP / 75 ohm

k j k H H j jk j H jk j H H j

Gnd Gnd 0.7 VPP / 75 ohm 0 - 0.4 V: INT 1 - 3 V: EXT / 75 ohm Gnd Gnd 1 VPP / 75 ohm 1 VPP / 75 ohm Gnd

j H H k j H

Coax, 75 ohm

D

HDMI 1, 2 (& 3: optional): Digital Video, Digital Audio - In 19 18

1 2 E_06532_017.eps 250505

Figure 1-5 HDMI (type A) connector 1 2

- D2+ - Shield

Data channel Gnd

j H

3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

- D2- D1+ - Shield - D1- D0+ - Shield - D0- CLK+ - Shield - CLK- n.c. - n.c. - DDC_SCL - DDC_SDA - Ground - +5V - HPD - Ground

Data channel Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel

DDC clock DDC data Gnd Hot Plug Detect Gnd

Mini Jack: HDMI/DVI Audio - In Rd - Audio - R 0.5 VRMS / 10 kohm Wh - Audio - L 0.5 VRMS / 10 kohm

j j H j j H j j H j j jk H j j H

jq jq

Technical Specifications, Connections, and Chassis Overview 1.3

Q528.2E LA

EN 5

Chassis Overview

A

MAIN SUPPLY PANEL

E

KEYBOARD CONTROL PANEL

SMALL SIGNAL BOARD

H_17650_083.eps 160108

J

1.

IR & LED PANEL

LIGHT GUIDE PANEL

B

LG

H_17650_086.eps 230508

Figure 1-6 PWB/CBA locations sets with AmbiLight

A

MAIN SUPPLY PANEL

E

KEYBOARD CONTROL PANEL

SMALL SIGNAL BOARD

H_17650_083.eps 160108

J

IR & LED PANEL

LIGHT GUIDE PANEL

B

LG

H_17650_084.eps 230508

Figure 1-7 PWB/CBA locations sets without AmbiLight

EN 6

2.

Q528.2E LA

Safety Instructions, Warnings, and Notes

2. Safety Instructions, Warnings, and Notes •

Index of this chapter: 2.1 Safety Instructions 2.2 Warnings 2.3 Notes

2.1

Safety Instructions

2.3.2

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 MΩ and 12 MΩ. 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

• • • • •

• • •

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. 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).

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 kΩ). Resistor values with no multiplier may be indicated with either an “E” or an “R” (e.g. 220E or 220R indicates 220 Ω). All capacitor values are given in micro-farads (μ = × 10-6), nano-farads (n = × 10-9), or pico-farads (p = × 10-12). 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.

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.

Warnings •

Schematic Notes •

2.3.3

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.

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. 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.

Directions for Use 2.3.5

Q528.2E LA

3.

EN 7

Alternative BOM identification MODEL

: 32PF9968/10

Note: on European Service website, “Alternative BOM” is referred to as “Design variant”. PROD.NO: AG 1A0617 000001

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 centre (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.

3. Directions for Use You can download this information from the following websites: http://www.philips.com/support http://www.p4c.philips.com

MADE IN BELGIUM 220-240V ~ 50/60Hz 128W VHF+S+H+UHF

S

BJ3.0E LA E_06532_024.eps 260308

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.

EN 8

4.

Mechanical Instructions

Q528.2E LA

4. Mechanical Instructions Index of this chapter: 4.1 Cable Dressing 4.2 Service Positions 4.3 Assy/Panel Removal ME8(+) Styling 4.4 Set Re-assembly

4.1

Notes: • Figures below can deviate slightly from the actual situation, due to the different set executions.

Cable Dressing

I_17651_001.eps 110608

Figure 4-1 Cable dressing 32" sets without AmbiLight

Mechanical Instructions

Q528.2E LA

4.

H_17650_085.eps 170108

Figure 4-2 Cable dressing 42" sets with AmbiLight

H_17650_087.eps 160108

Figure 4-3 Cable dressing 42" sets without AmbiLight

EN 9

EN 10 4.2

4.

Q528.2E LA

Mechanical Instructions

Service Positions For easy servicing of this set, there are a few possibilities created: • The buffers from the packaging (see figure “Rear cover”). • Foam bars (created for Service). • Aluminium service stands (created for Service).

4.2.1

Foam Bars

1

1

Required for sets 42"

E_06532_018.eps 171106

Figure 4-4 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.

4.3

Assy/Panel Removal ME8(+) Styling

4.3.1

Rear Cover Warning: Disconnect the mains power cord before you remove the rear cover. Note: it is not necessary to remove the stand while removing the rear cover. Warning: Most sets have an additional hatch located in the rear cover. These are meant for disconnecting the flat cables to the AmbiLight units in the rear cover, before the rear cover is lifted from the set. The hatches are not always located at the same place for all sets, therefore the figures below are only meant as indication. It is mandatory to locate these hatches first, open them, and unplug connectors behind. Lifting the back cover without having done so, could result in damaging the connectors inside! Refer to next figures for details. 1. First remove the screws [1] from the back cover hatch and remove the hatch. 2. Then unplug connector [3].

3. Remove the screws [2], gently lift the back cover from the set and unplug the Ambilight power connector [4]. 4. Lift the back cover from the TV. Make sure that wires and flat coils are not damaged while lifting the rear cover from the set.

Mechanical Instructions

4.

2

2

2 2

2

1 2 2

1

2

2

2

EN 11

2 2

2

2

2

2 2

Q528.2E LA

2

2

2

2

2

H_17650_100.eps 180108

Figure 4-5 Back Cover Removal [1/3]

3 4

H_17650_101.eps 180108

H_17650_099.eps 180108

Figure 4-7 Back Cover Removal [3/3] Figure 4-6 Back Cover Removal [2/3]

EN 12 4.3.2

4.

Q528.2E LA

Mechanical Instructions

Ambilight

1

Refer to next figure for details. 1. Unplug the connectors [1]. 2. Remove the screws [2]. 3. Pull the unit sidewards from the back cover. When defective, replace the whole unit.

2 H_17650_095.eps 180108

Figure 4-10 Tweeter

2

4.3.5

IR & LED Board Refer to next figure for details. 1. Unplug connectors [1]. 2. Use a flat screw driver to release the clip by pushing it in the indicated direction [2]. 3. Lift the board and take it out of the set. When defective, replace the whole unit.

1

H_17650_097.eps 180108

1

Figure 4-8 Ambilight Unit 4.3.3

Woofers Refer to next figure for details. 1. Remove the screws [1] and lift the whole unit from the back cover. Take the speakers out together with their casing. When defective, replace the whole unit.

2 H_17650_098.eps 180108

Figure 4-11 IR & LED Board

1 H_17650_096.eps 180108

Figure 4-9 Woofer 4.3.4

Tweeters Refer to next figure for details. Warning: The speakers should never be connected or disconnected when the set is playing! This can damage the amplifiers on the SSB. 1. Remove the screws [1] lift the whole unit from the back cover. When defective, replace the whole unit.

Mechanical Instructions 4.3.6

4.3.7

Key Board Refer to next figure for details. 1. Unplug the key board connector from the IR & LED board. 2. Remove the screws [1]. 3. Lift the unit and take it out of the set. When defective, replace the whole unit.

Q528.2E LA

4.

EN 13

Display Supply Panel Refer to next figure for details. 1. Unplug connectors [1]. 2. Remove the fixation screws [2]. 3. Take the board out.

2

1 1 2

2

2 1

1 2 2

1 2

2

H_17650_102.eps 180108

H_17650_094.eps 180108

Figure 4-13 Display Supply Panel Figure 4-12 Key Board

EN 14 4.3.8

4.

Q528.2E LA

Mechanical Instructions

Small Signal Board (SSB) Refer to next figure for details. Caution: it is mandatory to remount all different screws at their original position during re-assembly. Failure to do so may result in damaging the SSB. Refer to next figures or details. 1. Unplug the LVDS connector [1]. Caution: be careful, as this is a very fragile connector! 2. Unplug the connectors [2]. 3. Remove the screws [3]. 4. The SSB can now be taken out of the set, together with the front shield and the side cover. 5. To remove the shield, remove the screws [4] and lift it of. 6. To remove the side cover remove the screws [5]. 7. Release clip [6] and slide the pull the cover sidewards from the SSB.

3

1 3

3

6

3 3 5 2

4

4

4 3

3

4

4

4 3 H_17650_103.eps 180108

Figure 4-14 Small Signal Board

Mechanical Instructions 4.3.9

Q528.2E LA

4.

LCD Panel / Lightguide Refer to next figures for details. 1. Unplug the LVDS connector [1]. Caution: be careful, as this is a very fragile connector! 2. Unplug the connectors [2]. 3. Remove the fixation screws [3] from rim. 4. Take the rim from the set. 5. Remove the fixation screws [4] and [5]. 6. Lift the subframe from the set. 7. The LCD panel can now be lifted from the front cabinet. When the Lightguide is defective the entire front cabinet has to be removed. To do so follow the previous steps to remove the LCD panel as well as removing the IR LED panel and Tweeters.

4

4

5 3

4

5

5

5

1

2

2

3 5

5

5 4

4

4

5

4

4

2 H_17650_104.eps 180108

Figure 4-15 LCD Panel / Lightguide

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 on the SSB shields. Ensure that EMC foams are mounted correctly.

EN 15

EN 16

5.

Q528.2E LA

Service Modes, Error Codes, and Fault Finding

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

Index of this chapter: 5.1 Test Points 5.2 Service Modes 5.3 Stepwise Start-up 5.4 Service Tools 5.5 Error Codes 5.6 The Blinking LED Procedure 5.7 Protections 5.8 Fault Finding and Repair Tips 5.9 Software Upgrading

5.1

How to Activate SDM For this chassis there are two kinds of SDM: an analogue SDM and a digital SDM. Tuning will happen according table “SDM Default Settings”. • Analogue SDM: use the standard RC-transmitter and key in the code “062596”, directly followed by the “MENU” button. Note: It is possible that, together with the SDM, the main menu will appear. To switch it “off”, push the “MENU” button again. • Digital SDM: use the standard RC-transmitter and key in the code “062593”, directly followed by the “MENU” button. Note: It is possible that, together with the SDM, the main menu will appear. To switch it “off”, push the “MENU” button again. • Analogue SDM can also be activated by shorting for a moment the two solder pads [1] (see figure “Service mode pads”) on the SSB, with the indication “SDM”. Activation can be performed in all modes, except when the set has a problem with the Stand-by Processor.

Test Points As most signals are digital, it will be difficult to measure waveforms with a standard oscilloscope. However, 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

Picture mute (blue mute or black mute). Automatic volume levelling (AVL). Skip/blank of non-favourite pre-sets.

Service Modes Service Default mode (SDM) and Service Alignment Mode (SAM) offers several features for the service technician, while the Customer Service Mode (CSM) is used for communication between the call centre and the customer.

SDM

This chassis also offers the option of using ComPair, a hardware interface between a computer and the TV chassis. It offers the abilities of structured troubleshooting, error code reading, and software version read-out for all chassis. (see also paragraph “ComPair”). 5.2.1

Service Default Mode (SDM) Purpose • To create a pre-defined setting, to get the same measurement results as given in this manual. • To override SW protections detected by stand-by processor and make the TV start up to the step just before protection (a sort of automatic stepwise start up). See paragraph “Stepwise Start Up”. • To override SW protections detected by MIPS. See also paragraph “Error codes”. • To start the blinking LED procedure (not valid for protections detected by standby software).

H_17650_088.eps 160108

Figure 5-1 Service mode pads After activating this mode, “SDM” will appear in the upper right corner of the screen (if you have picture). How to Navigate When you press the “MENU” button on the RC transmitter, the set will toggle between the SDM and the normal user menu (with the SDM mode still active in the background).

Specifications Table 5-1 SDM default settings

Freq. (MHz)

Default system

Europe, AP(PAL/Multi)

475.25

PAL B/G

Europe, AP DVB-T

DVB-T 546.00 PID Video: 0B 06 PID PCR: 0B 06 PID Audio: 0B 07

Region

• • •

All picture settings at 50% (brightness, colour, contrast). All sound settings at 50%, except volume at 25%. All service-unfriendly modes (if present) are disabled, like: – (Sleep) timer. – Child/parental lock.

How to Exit SDM Use one of the following methods: • Switch the set to STAND-BY via the RC-transmitter. • Via a standard customer RC-transmitter: key in “00”sequence. 5.2.2

Service Alignment Mode (SAM) Purpose • To perform (software) alignments. • To change option settings. • To easily identify the used software version. • To view operation hours. • To display (or clear) the error code buffer.

Service Modes, Error Codes, and Fault Finding

Contents of SAM: • Hardware Info. – A. SW Version. Displays the software version of the main software (example: Q582E-1.2.3.4 = AAAAB_X.Y.W.Z). • AAAA= the chassis name. • B= the region: A= AP, E= EU, L= LatAm, U = US. For AP sets it is possible that the Europe software version is used. • X.Y.W.Z= the software version, where X is the main version number (different numbers are not compatible with one another) and Y.W.Z is the sub version number (a higher number is always compatible with a lower number). – B. SBY PROC Version. Displays the software version of the stand-by processor. – C. Production Code. Displays the production code of the TV, this is the serial number as printed on the back of the TV set. Note that if an NVM is replaced or is initialized after corruption, this production code has to be re-written to NVM. ComPair will foresee in a possibility to do this. • Operation Hours. Displays the accumulated total of operation hours (not the stand-by hours). Every time the TV is switched “on/off”, 0.5 hours is added to this number. • Errors (followed by maximal 10 errors). The most recent error is displayed at the upper left (for an error explanation see paragraph “Error Codes”). • Reset Error Buffer. When you press “cursor right” (or the “OK button) and then the “OK” button, the error buffer is reset. • Alignments. This will activate the “ALIGNMENTS” submenu. • Dealer Options. Extra features for the dealers. • Options. Extra features for Service. For more info regarding option codes, see chapter 8 “Alignments”. Note that if you change the option code numbers, you have to confirm your changes with the “OK” button before you store the options. Otherwise you will loose your changes. • Initialize NVM. The moment the processor recognizes a corrupted NVM, the “initialize NVM” line will be highlighted. Now, you can do two things (dependent of the service instructions at that moment): – Save the content of the NVM via ComPair for development analysis, before initializing. This will give the Service department an extra possibility for diagnosis (e.g. when Development asks for this). – Initialize the NVM. Note: When you have a corrupted NVM, or you have replaced the NVM, there is a high possibility that you will not have picture anymore because your display code is not correct. So, before you can initialize your NVM via the SAM, you need to have a picture and therefore you need the correct display option. Refer to chapter 8 for details. To adapt this option, you can use ComPair (the correct HEX values for the options can be found in chapter 8 “Alignments”) or a method via a standard RC (described below). Changing the display option via a standard RC: Key in the code “062598” directly followed by the “MENU” button and “XXX”, where XXX is the 3 digit decimal display code (see table “Option code overview” in chapter 8 “Alignments”, or sticker on the side/bottom of the cabinet). Make sure to key in all three digits, also the leading zero’s. If the above action is successful, the front LED will go out as an indication that the RC sequence was correct. After the display option is changed in the NVM, the TV will go to the Stand-by mode. If the NVM was corrupted or

5.

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empty before this action, it will be initialized first (loaded with default values). This initializing can take up to 20 seconds.

Display Option Code

39mm

PHILIPS 27mm

How to Activate SAM Via a standard RC transmitter: key in the code “062596” directly followed by the “INFO” button. After activating SAM with this method a service warning will appear on the screen, you can continue by pressing the red button on the RC.

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040

MODEL: 32PF9968/10 PROD.SERIAL NO: AG 1A0620 000001

(CTN Sticker)

E_06532_038.eps 240108

Figure 5-2 Location of Display Option Code sticker •

• •

Store. All options and alignments are stored when pressing “cursor right” (or the “OK” button) and then the “OK”-button. SW Maintenance. – SW Events. Not useful for Service purposes. In case of specific software problems, the development department can ask for this info. – HW Events. Not useful for Service purposes. In case of specific software problems, the development department can ask for this info. Test settings. For development purposes only. Upload to USB. To upload several settings from the TV to a USB stick, which is connected to the Side I/O. The items are “Channel list”, “Personal settings”, “Option codes”, “Display-related alignments” and “History list”. First you have to create a directory “repair” in the root of the USB stick.To upload the settings you have to select each item separately, press “cursor right” (or the “OK button), confirm with “OK” and wait until “Done” appears. In case the download to the USB stick was not successful “Failure” will appear. In this case, check if the USB stick is connected properly and if the directory “repair” is present in the root of the USB stick. Now the settings are stored onto your USB stick and can be used to download onto another TV or other SSB. Uploading is of course only possible if the software is running and if you have a picture. This method is created to be able to save the customer’s TV settings and to store them into another SSB. Download from USB. To download several settings from the USB stick to the TV. Same way of working as with uploading. To make sure that the download of the channel list from USB to the TV is executed properly, it is necessary to restart the TV and tune to a valid preset if necessary. Note: The “History list item” can not be downloaded from USB to the TV. This is a “read-only” item. In case of specific problems, the development department can ask for this info.

How to Navigate • In SAM, you can select the menu items with the “CURSOR UP/DOWN” key on the RC-transmitter. The selected item will be highlighted. When not all menu items fit on the screen, move the “CURSOR UP/DOWN” key to display the next/previous menu items. • With the “CURSOR LEFT/RIGHT” keys, it is possible to: – (De) activate the selected menu item. – (De) activate the selected sub menu. • With the “OK” key, it is possible to activate the selected action. How to Exit SAM Use one of the following methods: • Press the “MENU” button on the RC-transmitter. • Switch the set to STAND-BY via the RC-transmitter.

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Service Modes, Error Codes, and Fault Finding

Customer Service Mode (CSM) Purpose When a customer is having problems with his TV-set, he can call his dealer or the Customer Helpdesk. The service technician can then ask the customer to activate the CSM, in order to identify the status of the set. Now, the service technician can judge the severity of the complaint. In many cases, he can advise the customer how to solve the problem, or he can decide if it is necessary to visit the customer. The CSM is a read only mode; therefore, modifications in this mode are not possible. When in this chassis CSM is activated, a colour bar test pattern will be visible for 5 seconds. This test pattern is generated by the Pacific3. So if you see this test pattern you can determine that the back end video chain (Pacific3, LVDS, and display) of the SSB is working. In case of a set with DFI panel, an extra test picture is generated. So you will see the Pacific3 test picture for 3 seconds and then the DFI EPLD test picture for another 3 seconds. With this extra test picture you can determine if the DFI board is working properly. Also new in this chassis: when you activate CSM and there is a USB stick connected to the TV, the software will dump the complete CSM content to the USB stick. The file (Csm.txt) will be saved in the root of your USB stick. This info can be handy if you do not have picture. Another new item in this chassis is when CSM is activated, the complete error-buffer content will be shown via the blinking LED procedure.

• •

• •

How to Activate CSM Key in the code “123654” via the standard RC transmitter. Note: Activation of the CSM is only possible if there is no (user) menu on the screen! How to Navigate By means of the “CURSOR-DOWN/UP” knob on the RCtransmitter, you can navigate through the menus. Contents of CSM • Set Type. This information is very helpful for a helpdesk/ workshop as reference for further diagnosis. In this way, it is not necessary for the customer to look at the rear of the TV-set. Note that if an NVM is replaced or is initialized after corruption, this set type has to be re-written to NVM. ComPair will foresee in a possibility to do this. • Production Code. Displays the production code (the serial number) of the TV. Note that if an NVM is replaced or is initialized after corruption, this production code has to be re-written to NVM. ComPair will foresee a in possibility to do this. • Code 1. Gives the last five errors of the error buffer. As soon as the built-in diagnose software has detected an error, the buffer is adapted. The last occurred error is displayed on the leftmost position. Each error code is displayed as a 2-digit number. When less than 10 errors occur, the rest of the buffer is empty (00). See also paragraph “Error Codes” for a description. • Code 2. Gives the first five errors of the error buffer. See also paragraph “Error Codes” for a description. • Options 1. Gives the option codes of option group 1 as set in SAM (Service Alignment Mode). • Options 2. Gives the option codes of option group 2 as set in SAM (Service Alignment Mode). • 12NC SSB. Gives an identification of the SSB as stored in NVM. Note that if an NVM is replaced or is initialized after corruption, this identification number has to be re-written to NVM. ComPair will foresee in a possibility to do this. This identification number consists of 14 characters and is built up as follows: - Seven last characters of the 12NC of the SSB itself.

• •

• • •

- the serial number of the SSB, which consists of seven digits. Both can be found on a sticker on the PWB of the SSB itself. The format of the identification number is then as follows: <last seven characters of 12NC of SSB><serial number of SSB> (total fourteen characters). Installed date. Indicates the date of the first installation of the TV. This date is acquired via time extraction. Digital Natural Motion. Gives the status of the Digital Natural Motion setting as set by the customer. Remark: a customer can choose between “OFF”, “MINIMUM” and “MAXIMUM”, but in CSM this item will only show “OFF” or “ON” (“ON” in case the customer has choosen “MINIMUM” or “MAXIMUM”) Pixel Plus. Gives the last status of the Perfect Pixel HD setting, as set by the customer. Possible values are “ON” and “OFF”. See DFU on how to change this item. DNR. Gives the last status of the Noise reduction setting, as set by the customer. Possible values are “OFF”, “MINIMUM”, “MEDIUM” and “MAXIMUM”. See DFU on how to change this item. Noise Figure. Gives an indication of the signal quality for the selected transmitter. Possible values are “BAD”, “AVERAGE”, “GOOD“ and “DIGITAL”. In case of a digital channel, this item will never indicate: “BAD”, “GOOD” or “AVERAGE” but only displays “DIGITAL”. 12NC Display. Shows the 12NC of the display. Headphone Volume. Gives the last status of the headphone volume, as set by the customer. The value can vary from 0 (volume is minimum) to 100 (volume is maximum). See DFU on how to change this item. Surround Mode. Indicates the by the customer selected sound mode (or automatically chosen mode). Possible values are “STEREO” and “VIRTUAL DOLBY SURROUND”. It can also have been selected automatically by signalling bits (internal software). See DFU on how to change this item. AVL. Indicates the last status of AVL (Automatic Volume Level) as set by the customer: See DFU on how to change this item. Delta Volume. Indicates the last status of the delta volume for the selected preset as set by the customer: from “-12” to “+12”. See DFU on how to change this item. Volume. Indicates the last status of the volume for the selected preset as set by the customer: from “0” to “100”. See DFU on how to change this item. Balance. Indicates the last status of the balance for the selected preset as set by the customer: from “-10” to “+10”. See DFU on how to change this item. Preset Lock. Indicates if the selected preset has a child lock: “LOCKED” or “UNLOCKED”. See DFU on how to change this item. Lock after. Indicates at what time the channel lock is set: “OFF” or e.g. “18:45” (lock time). See DFU on how to change this item. Parental rating lock. Indicates the “Parental rating” as set by the customer. See DFU on how to change this item. Parental rating status. Indicates the “Parental rating” as transmitted by the broadcaster (if applicable). If the parental rating status is indicating a higher age then the parental rating lock as set by the customer, you will need to enter the child lock code. TV ratings lock. Only applicable for US. Movie ratings lock. Only applicable for US. On timer. Indicates if the “On timer” is set “ON” or “OFF” and when it is set to “ON”, also start time, start day and program number is displayed. See DFU on how to change this item. Location. Gives the last status of the location setting as set via the installation menu. Possible values are “SHOP” and “HOME”. If the location is set to “SHOP”, several settings are fixed. So for a customer location must be set to “HOME”. Can be changed via the installation menu (see also DFU). HDMI key validity. Indicates if the HDMI keys (or HDCP keys) are valid or not. In case these keys are not valid and

Service Modes, Error Codes, and Fault Finding

• •

• •

• • • • • • • • •

the customer wants to make use of the HDMI functionality, the SSB has to be replaced. Tuner frequency. Indicates the frequency the transmitter is tuned to. TV System. Gives information about the video system of the selected transmitter. In case a DVBT signal is received this item will also show ATSC. – BG: PAL BG signal received – DK: PAL DK signal received – L/La: SECAM L/La signal received – I: PAL I signal received – M: NTSC M signal received – ATSC: ATSC signal received – DVB: DVBT signal received 12NC one zip SW. Displays the 12NC number of the onezip file as it is used for programming software in production. In this one-zip file all below software versions can be found. Initial main SW. Displays the main software version which was initially loaded by the factory. Current main SW. Displays the built-in main software version. In case of field problems related to software, software can be upgraded. As this software is consumer upgradeable, it will also be published on the Internet. Example: Q582E_1.2.3.4. Flash utils SW. Displays the software version of the software which contains all necessary components of the download application. To program this software, EJTAG tooling is needed. Example: Q582E_1.2.3.4. Standby SW. Displays the built-in stand-by processor software version. Upgrading this software will be possible via ComPair or via USB (see chapter Software upgrade). Example: STDBY_3.0.1.2. MOP SW. Only applicable for US. At the time of release of this manual, there was still a problem with this item, and some rubbisch was displayed. Ignore this. Pacific 3 Flash SW. Displays the Pacific 3 software version. NVM version. Displays the NVM version as programmed by factory. Display parameters. for development purposes only. Private PQ parameters. for development purposes only. Public PQ parameters. for development purposes only. Ambilight parameters. for development purposes only. Acoustics parameters. for development purposes only. DFI software (if applicable). Displays the DFI EPLD software. DFI ambilight software (if applicable). Displays the DFI ambilight EPLD software.

How to Exit CSM Press “MENU” on the RC-transmitter.

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EN 20 5.3

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Service Modes, Error Codes, and Fault Finding

Stepwise Start-up

due to overvoltage. It is recommended to measure first the FET 7U08 on short-circuit before activating SDM via the service pads. When the TV is in protection state due to an error detected by main software (MIPS protection) and SDM is activated via short-cutting the service pads on the SSB, the TV starts up and ignores the error. In this chassis, only error “63” (power-ok) is a MIPS protection and already displays the failure via blinking LED.

There are two possible situations: one for protections detected by the stand-by software and one for protections detected by the main software. When the TV is in a protection state due to an error detected by stand-by software (and thus blinking an error) and SDM is activated via short-circuiting the pins on the SSB, the TV starts up until it reaches the situation just before protection. So, this is a kind of automatic stepwise start-up. In combination with the start-up diagrams below, you can see which supplies are present at a certain moment. Important to know is, that if e.g. the 3V3 detection fails (and thus error 8 is blinking) and the TV is restarted via SDM, the Stand-by Processor will enable the 3V3, but will not go to protection now. The TV will stay in this situation until it is reset (Mains/AC Power supply interrupted). Caution: in case the start up in this mode with a faulty FET 7U08 is done, you can destroy all IC’s supplied by the +3V3,

Mains off

The abbreviations “SP” and “MP” in the figures stand for: • SP: protection or error detected by the Stand-by Processor. • MP: protection or error detected by the MIPS Main Processor.

Mains on

WakeUp requested

- WakeUp requested - Acquisition needed

St by - Tact switch Pushed - last status is hibernate after mains ON

- No data Acquisition required - tact SW pushed - last status is hibernate after mains ON

Semi St by

Tact switch pushed

Active - St by requested - tact SW pushed

WakeUp requested (SDM) GoTo Protection

Hibernate GoTo Protection

Protection

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Figure 5-3 Transition diagram

Service Modes, Error Codes, and Fault Finding

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Stand by or Protection

Off Mains is applied

Standby Supply starts running. All standby supply voltages become available.

st-by µP resets

If the protection state was left by short circuiting the SDM pins, detection of a protection condition during startup will stall the startup. Protection conditions in a playing set will be ignored. The protection mode will not be entered.

All I/O lines have a High default state: - Switch PNX8541 in reset (active LOW). - Keep the Audio-reset high. - NVM power line is high, no NVM communication possible.

- Switch Audio-Reset high. It is low in the standby mode if the standby mode lasted longer than 10s.

Initialise I/O pins of the st-by µP, start keyboard scanning, RC detection. Wake up reasons are off.

Restart PDPGO line is high (either HW wise in a non FHP set or because of the stby µP reset in an FHP set) which will start the FHP PDP.

Switch ON PSU supply by switching LOW the Standby I/O line.

+12V is switched on Wait 50ms and then start polling the DETECT 2 every 40ms.

DETECT 2 received within 2900 ms

No

12V supply” error 6

Yes

SP

activate DETECT 2 algorithm

Enable the +1V2 supply (ENABLE-1V2) Enable-1V2 is reserved , not use in TV522-82M Wait 100ms Enable the supply for +3V3 and +5V (ENABLE-3V3) Start polling the detect 1 every 40ms

DETECT 1 = High within 250 ms after enable-3V3 toggle?

No

Supply Fault = High?

Yes

No

Activate DETECT 1 algorithms

Standby line set to HIGH for 5 seconds

Yes

Voltage output error: 8

SP

Wait 20ms

SUPPLY-FAULT I/O line is High?

No

Detect 1 = High?

Yes No

Enable the supply fault detection algorithm No

Set I²C slave address of Standby µP to (A0h)

Yes

Supply fault error 9

SP

Standby line set to HIGH for 5 seconds

Switch LOW the RESET-NVM_WP-NANDFLASH line. Add a 2ms delay before trying to address the NVM to allow correct NVM initialization.

Figure 5-4 “Off” to “Semi Stand-by” flowchart (part 1)

This will allow access to NVM and NAND FLASH and can not be done earlier because the FLASH needs to be in Write Protect as long as the supplies are not available.

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Yes

No

SP

No

Enable the supply fault detection algorithm

Standby line set to HIGH for 5 seconds

Set I²C slave address of Standby µP to (A0h)

This will allow access to NVM and NAND FLASH and can not be done earlier because the FLASH needs to be in Write Protect as long as the supplies are not available.

Switch LOW the RESET-NVM_WP-NANDFLASH line. Add a 2ms delay before trying to address the NVM to allow correct NVM initialization.

Detect EJTAG debug probe (pulling pin of the probe interface to ground by inserting EJTAG probe)

An EJTAG probe (e.g. WindPower ICE probe) can be connected for Linux Kernel debugging purposes.

EJTAG probe connected ?

Yes

No

Cold boot?

No

Yes No

Release AVC system reset Feed initializing boot script disable alive mechanism

Release AVC system reset Feed cold boot script

Release AVC system reset Feed warm boot script

This is still the timing of the Jaguar 2k6. Timing need to be updated if more mature info is available. Bootscript ready in 1250 ms?

No

Yes Set I²C slave address of Standby µP to (60h)

RPC start (comm. protocol) This is still the timing of the Jaguar 2k6. Timing needs to be updated if more mature info is available. Flash to Ram image transfer succeeded within 30s?

No

Code = 5 This is still the timing of the Jaguar 2k6. Timing needs to be updated if more mature info is available.

Yes

Switch AVC PNX8541 in reset (active low)

Wait 10ms

Code = 53

No

SW initialization succeeded within 20s?

Yes

Enable Alive check mechanism Switch the NVM reset line HIGH.

Disable all supply related protections and switch off the +2V5, +3V3 DC/DC converter.

MIPS reads the wake up reason from standby µP.

Wait until AVC starts to communicate

In case of an LCD set, check the Power-OK display line Wait 5ms

switch off the remaining DC/DC converters

3-th try?

Switch Standby I/O line high.

Power-ok display high?

No

Log power-ok error and enter protection

MP

Yes Reset the Pacific by pulling LOW the Pacific hardware reset line during 100ms.

No

Yes Blink Code as error code

Release Pacific reset and wait 200ms

Ping the Pacific through I²C

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SP

Figure 5-5 “Off” to “Semi Stand-by” flowchart (part 2)

Service Modes, Error Codes, and Fault Finding

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Yes Release Pacific reset and wait 200ms

Blink Code as error code

Ping the Pacific through I²C

SP Pacific acknowledges?

No

Third Pacific boot retry?

Yes

Initialize Pacific

Enable the Pacific output by sending the PanelConfig.PanelOn to the Pacific in case of a DFI set

Start 4 seconds preheating timer in case of an LPL scanning backlight LCD set.

Yes

Log Pacific error

This is needed here because the Pacific has to deliver an output clock towards the DFI. Otherwise the DFI cannot deliver ambilight functionality in the lampadaire mode. The presence of the DFI can be determined via the display option.

Initialize audio - Channeldecoder type TDA10060 cannot be reloaded without reset of the channeldecoder. - Channeldecoder type TDA10048 can be reloaded without reset.

No

Channel decoder TDA 10048?

Yes

Release reset MPEG4 module: BOLT-ON-IO: High

Download firmware into the channel decoder

MPEG4 module will start booting autonomously.

No

No

Third try?

Downloaded successfully? Wait TBD ms

Yes

Yes

Log channel decoder error

initialize tuner, Master IF and channel decoder

POR polling positive?

Log SW event: STi7100PorFailure

No

Initialize source selection

Wait TBD ms yes

Important remark: Input vertical frequency changes (48/50/60Hz) detected during startup sequence should not be taken into account. The end situation should always be safeguarded. If not, these changes will lead to EPLD resets which will switch on the display and disturb the startup performance.

Wait until Cpipe delivers a stable output clock

Reset EPLD

Wait 100ms

Reset Pacific clock

EPLD and Pacific should be reset when a stable input clock become s available at their input.

Start alive IIC polling mechanism

yes

POR polling positive?

No Alive polling

bootSTi7100PorFailure: Log HW error 38 and generate cold boot

NOK

Log SW event STi7100AliveFailedError and generate fast cold reboot eventually followed by a cold reboot.

Initialize video processing IC's: - PNX5050 in /82 - scaler EPLD

initialize AutoTV by triggering CHS AutoTV Init interface

Initialize Pacific or EPLD related Ambilight settings (if applicable)

Initialize Ambilight with Lights off.

Because of a bug in the Pacific IC, all video and display related Pacific parameters should be initialized before initializing the ambilight related Pacific parameters. If not, initializing the video and display related Pacific parameters will overwrite the ambilight parameters.

Do not enter semi-standby state in case of an LPL scanning backlight LCD set before 4s preheating timer has elapsed.

Semi-Standby Figure 5-6 “Off” to “Semi Stand-by” flowchart (part 3)

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Semi Standby

action holder: AVC action holder: St-by autonomous action

Wait until previous on-state is left more than 2 seconds ago. (to prevent LCD display problems)

Assert RGB video blanking and audio mute

Rewrite Pacific register 0x03 (output format) with TcuUpdate: this command is sometimes not processed properly by the Pacific at initialisation time, resending it here solves the issue.

Switch on the display by sending the PanelConfig.PanelOn (I²C) command to the Pacific

Initialize audio and video processing IC's and functions according needed use case.

wait 250ms (min. = 200ms)

Switch off the dimming backlight feature and make sure PWM output is set to 100%

Switch on LCD backlight

The higher level requirement is that audio and video should be demuted without transient effects and that the audio should be demuted maximum 1s before or at the same time as the unblanking of the video.

Wait until valid and stable audio and video, corresponding to the requested output is delivered by the AVC AND the backlight PWM has been on for 1second.

Switch Audio-Reset low and wait 5ms

Release audio mute and wait 100ms before any other audio handling is done (e.g. volume change)

Restore dimming backlight feature, PWM output and unblank the video.

Active

Figure 5-7 “Semi Stand-by” to “Active” flowchart (non DFI)

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Service Modes, Error Codes, and Fault Finding

Active

Q528.2E LA

action holder: AVC action holder: St-by autonomous action

Mute all sound outputs via softmute

Wait 100ms

Set main amplifier mute (I/O: audio-mute)

Force ext audio outputs to ground (I/O: audio reset) And wait 5ms

switch off LCD backlight

Mute all video outputs

Wait 250ms (min. = 200ms)

Switch off the display by sending the PanelConfig.PanelOff (I²C) command to the Pacific

switch off ambient light

Semi Standby

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Figure 5-8 “Active” to “Semi Stand-by” flowchart (non-DFI)

5.

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Service Modes, Error Codes, and Fault Finding

Semi Stand by

If ambientlight functionality was used in semi-standby (lampadaire mode), switch off ambient light (see CHS ambilight)

Delay transition until ramping down of ambient light is finished. *)

*) If this is not performed and the set is switched to standby when the switch off of the ambilights is still ongoing, the lights will switch off abruptly when the supply is cut.

transfer Wake up reasons to the Stand by µP.

Switch Memories to self-refresh (this creates a more stable condition when switching off the power).

Switch AVC system in reset state

Wait 10ms

Switch the NVM reset line HIGH.

Disable all supply related protections and switch off the DC/DC converter (via the Enable-3V3 I/O line)

Wait 5ms

switch off the +1V2 DC/DC converters

Switch OFF all supplies by switching HIGH the standby I/O line..

Important remark: release reset audio 10 sec after entering standby to save power

Stand by

Figure 5-9 “Semi Stand-by” to “Stand-by” flowchart

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MP action holder: MIPS

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SP

Log the appropriate error and set stand-by flag in NVM

action holder: St-by autonomous action

Redefine wake up reasons for protection state and transfer to stand-by µP.

Switch off LCD lamp supply

Wait 250ms (min. = 200ms)

Switch off LVDS signal

Switch off 12V LCD supply within a time frame of min. 0.5ms to max. 50ms after LVDS switch off.

Ask stand-by µP to enter protection state

Switch AVC in reset state

Wait 10ms

Switch the NVM reset line HIGH.

Disable all supply related protections and switch off the +1V8 and the +3V3 DC/DC converter.

Wait 5ms

switch off the +1V2 DC/DC converter

Switch OFF all supplies by switching HIGH the Standby I/O lines.

Flash the Protection-LED in order to indicate protection state*

(*): This can be the standby LED or the ON LED depending on the availability in the set under discussion.

Protection Figure 5-10 “Protection” flowchart

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supply detection algorithms for DC-DC outputs

Polling every 40ms

No

DETECT 1 = Low ?

Yes Check DETECT1 5 times ( within 500us ) Yes

No

DETECT 1 = Low ? 5 consecutive times ?

Shutdown ( Active to Semistdby to standby )

Wait for 5 seconds

Restart

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Figure 5-11 “Supply detection algorithm for DC-DC outputs” flowchart

supply fault detection algorithm

N0

SUPPLY-FAULT = LOW for 1ms ?

Yes

No

DETECT1 = High ?

Shutdown ( Active to Semistdby to standby ) Yes

Wait for 5 seconds

Restart

Error 9

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Figure 5-12 “Supply fault detection algorithm” flowchart

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Q528.2E LA

+12V supply detection algorithm. See CHS protections.

Polling every 40ms

No

DETECT 2 = Low ?

Yes Check DETECT2 5 times ( within 500us) Yes

No

DETECT 2 = Low ? 5 consecutive times ?

Shutdown ( Active to Semistdby to standby )

Wait for 5 seconds

Restart I_17960_069.eps 220508

Figure 5-13 “+12 V supply detection algorithm” flowchart

5.

EN 29

EN 30

5.

Service Modes, Error Codes, and Fault Finding

Q528.2E LA

5.4

Service Tools

5.5

Error Codes

5.4.1

ComPair

5.5.1

Introduction

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.

The error code buffer contains all detected errors since the last time the buffer was erased. The buffer is written from left to right, new errors are logged at the left side, and all other errors shift one position to the right. When an error occurs, it is added to the list of errors, provided the list is not full. When an error occurs and the error buffer is full, then the new error is not added, and the error buffer stays intact (history is maintained). To prevent that an occasional error stays in the list forever, the error is removed from the list after more than 50 hrs. of operation. When multiple errors occur (errors occurred within a short time span), there is a high probability that there is some relation between them.

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).

Basically there are three kinds of errors: • Errors detected by the Stand-by software. These errors will always lead to protection and an automatic start of the blinking LED for the concerned error (see paragraph “The Blinking LED Procedure”). In these cases SDM can be used to start up (see chapter “Stepwise Start-up”). Note that it can take up to 90 seconds before the TV goes to protection and starts blinking the error (e.g. error 53) • Errors detected by main software that lead to protection. In this case the TV will go to protection and the front LED should also blink the concerned error. See also paragraph “Error Codes” -> “Error Buffer” -> “Extra Info”. For this chassis only error 63 is a protection error detected by main software. • Errors detected by main software that do not lead to protection. In this case the error will be logged into the error buffer and can be read out via ComPair, via blinking LED method, or in case you have picture, via SAM.

How to Connect This is described in the ComPair chassis fault finding database. TO TV TO UART SERVICE CONNECTOR

ComPair II RC in

RC out

TO I2C SERVICE CONNECTOR

TO UART SERVICE CONNECTOR

Multi function

Optional Power Link/ Mode Switch Activity

I 2C

RS232 /UART

5.5.2

Use one of the following methods: • On screen via the SAM (only if you have a picture). E.g.: – 00 00 00 00 00: No errors detected – 06 00 00 00 00: Error code 6 is the last and only detected error – 09 06 00 00 00: Error code 6 was first detected and error code 9 is the last detected error • Via the blinking LED procedure (when you have no picture). See next paragraph. • Via ComPair. • Via CSM. when CSM is activated the blinking LED procedure will start and the CSM content will be written to a USB stick (if present).

PC

ComPair II Developed by Philips Brugge

HDMI I2C only

Optional power 5V DC

E_06532_036.eps 150208

Figure 5-14 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 RS232 cable: 3104 311 12742 (to be used with chassis Q52x). Note: If you encounter any problems, contact your local support desk. 5.4.2

LVDS Tool Support of the LVDS Tool has been discontinued.

How to Read the Error Buffer

5.5.3

How to Clear the Error Buffer Use one of the following methods: • By activation of the “RESET ERROR BUFFER” command in the SAM menu. • With a normal RC, key in sequence “MUTE” followed by “062599” and “OK”. • If the content of the error buffer has not changed for 50+ hours, it resets automatically.

5.5.4

Error Buffer In case of non-intermittent faults, clear the error buffer before you begin the repair (before clearing the buffer, write down the content, as this history can give you significant information). This to ensure 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

Service Modes, Error Codes, and Fault Finding code and not the actual cause (e.g., a fault in the protection detection circuitry can also lead to a protection). There are several mechanisms of error detection: • Via error bits in the status registers of ICs. • Via polling on I/O pins going to the stand-by processor. • Via sensing of analogue values on the stand-by processor or the PNX85xx. • Via a “not acknowledge” of an I2C communication. Take notice that some errors need more than 90 seconds before they start blinking or before they will be logged. So in case of problems wait 2 minutes from start-up onwards, and then check if the front LED is blinking or if an error is logged.

Table 5-2 Error code overview Error Description

Error/ Detected Device Prot by

Result

3

I2C3

E

MIPS

PNX85xx

Error logged.

5

PNX85xx does not boot (HW cause)

E

Stby P

PNX85xx

Error blinking.

6

5V, 12V supply

P

Stby P

/

Protection + Error blinking.

8

1V2, 1V4, 2V5, 3V3 supply

P

Stby P

/

Protection + Error blinking.

9

Supply fault

P

Stby P

/

Protection + Error blinking.

11

I

2C-MUX1

E

MIPS

PCA9540

Error logged.

12

I2C-MUX2

E

MIPS

PCA9540

Error logged.

22

PNX5050

E

MIPS

PNX5050

Error logged.

23

HDMI mux

E

MIPS

AD8190/ AD8191

Error logged.

2C

24

I

switch

E

MIPS

PCA9540

Error logged.

26

Master IF

E

MIPS

TDA9898/ 9897/9890

Error logged.

28

MOP (Ambilight MOP on DFI panel)1)

E

MIPS

EP2CXXF4 84C7N

Error logged.

34

Tuner

E

MIPS

TD1716

Error logged.

37

Channel decoder E

MIPS

TDA10060/ TDA10048

Error logged.

46

Pacific3

E

MIPS

T6TF4

Error blinking + Error logged.

53

PNX85xx does not boot (SW cause)

E

Stby P

PNX85xx

Error blinking.

63

Power OK

E/P

MIPS

/

Error logged in case of a PDP set. Protection in case of an LCD set.

65

DFI (EPLD on DFI panel)1)

E

MIPS

/

Error blinking + Error logged.

• •

Note 1). Where applicable. Extra Info • Rebooting. When a TV is constantly rebooting due to internal problems, most of the time no errors will be logged or blinked. This rebooting can be recognized via a ComPair interface and Hyperterminal (for Hyperterminal settings, see paragraph “Stand-by software upgrade). You will see that the loggings which are generated by the main software keep continuing. In this case (rebooting) diagnose has to be done via ComPair. • Error 3 (I2C bus 3 blocked). At the time of release of this manual, this error was not working as expected (error 3 is logged and can be read out). Current situation: when this error occurs, the TV will constantly reboot due to the blocked bus. The best way for further diagnosis here, is to use ComPair (e.g. read out the NVM content). Instead of error “3” it is possible you will see error “2” in the error buffer. • Error 5 (PNX85xx doesn’t boot). Indicates that the main processor was not able to read his bootscript. This error will point to a hardware problem around the PNX85xx (supplies not OK, PNX 8535 completely dead, I2C link between PNX

Q528.2E LA

5.

EN 31

and Stand-by Processor broken, etc...). When error 5 occurs it is also possible that I2C2 bus is blocked (NVM). I2C2 can be indicated in the schematics as follows: SCLUP-MIPS, SDA-UP-MIPS, SCL-SLAVE, SDA-SLAVE, SCL-2 or SDA-2. Error 11 (I2C MUX1). Indicates a blocked (short circuited) I2C-MUX1 bus. At the time of release of this manual, this error was not working as expected. Current situation: when this error occurs the TV will constantly reboot due to the blocked bus. The best way for further diagnosis, is to use ComPair (e.g. read out the NVM content). Error 12 (I2C MUX2). Indicates a blocked (short circuited) I2C-MUX2 bus. At the time of release of this manual, this error was not working as expected. Current situation: when this error occurs the TV will constantly reboot due to the blocked bus. The best way for further diagnosis, is to use ComPair (e.g. read out the NVM content). Error 24 (I2C switch). As a side effect of error 24 it is possible that error 47(no existing error) will also be logged. Error 28 (DFI Ambilight MOP). It can take up to 2 minutes or more before this error is logged. So if you suspect that this MOP is defective: clear the error buffer, restart the TV and wait for about 2 minutes before checking the error buffer. Error 37 (Channel decoder). When this error occurs, there probably will be no picture and sound from tuner input. As a side effect of error 37 it is possible that error 4 (no existing error) is also logged. Error 46 (Pacific 3). When there is an actual problem with or around the Pacific during start-up, you will have no picture and error 46 will be blinked via the blinking LED procedure. For further diagnosis you can always dump the CSM content on USB stick (see CSM) or use ComPair. Error 53. This error will indicate that the PNX85xx has read his bootscript (if this would have failed, error 5 would blink) but initialization was never completed because of hardware problems (NAND flash, ...) or software initialization problems. Possible cause could be that there is no valid software loaded (try to upgrade to the latest main software version). Note that it can take up to 2 minutes before the TV starts blinking error 53. Error 63 (POWER OK). When this error occurs, it means that the POWER-OK line did not became “high”. This error is only applicable for TV’s with an LCD display. For PDP displays there will be no protection during a POWER-OK line failure, but error 63 will be logged in the error buffer. Caution: in case a PDP TV ends up into power-ok protection, it can indicate that the display option code is set to “LCD”. To change the display option code to “PDP” you need to activate SDM via the service pads (see figure “Service mode pads”). Then change the display option code blindly via a standard RC: key in the code “062598” directly followed by the “MENU” button and “XXX” (where XXX is the 3 digit decimal display option code as mentioned in figure “Display option code overview”). Error 65 (DFI EPLD error). When this error occurs it means that there is a problem with the I2C communication towards the EPLD (picture processing EPLD, not the Ambilight EPLD) on the DFI panel.

EN 32

5.

Q528.2E LA

Service Modes, Error Codes, and Fault Finding

5.6

The Blinking LED Procedure

5.7

Protections

5.6.1

Introduction

5.7.1

Software Protections

The blinking LED procedure can be split up into two situations: • Blinking LED procedure in case of a protection. In this case the error is automatically blinked. This will be only one error, namely the one that is causing the protection. Therefore, you do not have to do anything special, just read out the blinks. A long blink indicates the decimal digit, a short blink indicates the units. • Blinking LED procedure in the “on” state. Via this procedure, you can make the contents of the error buffer visible via the front LED. This is especially useful for fault finding, when there is no picture.

Most of the protections and errors use either the stand-by microprocessor or the MIPS controller as detection device. Since in these cases, checking of observers, polling of ADCs, and filtering of input values are all heavily software based, these protections are referred to as software protections. There are several types of software related protections, solving a variety of fault conditions: • Protections related to supplies: check of the 12V, +5V, +1V2, +1V4, 2V5 and +3V3. • Protections related to breakdown of the safety check mechanism. E.g. since the protection detections are done by means of software, failing of the software will have to initiate a protection mode since safety cannot be guaranteed any more.

When the blinking LED procedure is activated in the “on” state, the front LED will show (blink) the contents of the error-buffer. Error-codes > 10 are shown as follows: 1. “n” long blinks (where “n” = 1 - 9) indicating decimal digit, 2. A pause of 1.5 s, 3. “n” short blinks (where “n”= 1 - 9), 4. A pause of approx. 3 s, 5. When all the error-codes are displayed, the sequence finishes with a LED blink of 3 s, 6. The sequence starts again. Example: Error 12 8 6 0 0. After activation of the SDM, the front LED will show: 1. 1 long blink of 750 ms (which is an indication of the decimal digit) followed by a pause of 1.5 s, 2. 2 short blinks of 250 ms followed by a pause of 3 s, 3. 8 short blinks followed by a pause of 3 s, 4. 6 short blinks followed by a pause of 3 s, 5. 1 long blink of 3 s to finish the sequence, 6. The sequence starts again. 5.6.2

Remark on the Supply Errors The detection of a supply dip or supply loss during the normal playing of the set does not lead to a protection, but to a cold reboot of the set. If the supply is still missing after the reboot, the TV will go to protection. Protections during Start-up During TV start-up, some voltages and IC observers are actively monitored to be able to optimise the start-up speed, and to assure good operation of all components. If these monitors do not respond in a defined way, this indicates a malfunction of the system and leads to a protection. As the observers are only used during start-up, they are described in the start-up flow in detail (see paragraph “Stepwise Start-up”). 5.7.2

Hardware Protections The only real hardware protection in this chassis is (in case of an audio problem) the audio protection circuit that will switch “off” immediately the supply of the SSB. The supply will buzz during the protection and +12VS drops to approx. 5V5 and +5V Stand-by to approx. to 1V9. Other indication of the audio protection is that the red LED lights up with an intensity of 50%.

How to Activate Use one of the following methods: • Activate the SDM or CSM. The blinking front LED will show the entire contents of the error buffer (this works in “normal operation” mode). • Transmit the commands “MUTE” - “062500” - “OK” with a normal RC. The complete error buffer is shown. Take notice that it takes some seconds before the blinking LED starts. • Transmit the commands “MUTE” - “06250x” - “OK” with a normal RC (where “x” is a number between 1 and 5). When x= 1 the last detected error is shown, x= 2 the second last error, etc.... Take notice that it takes some seconds before the blinking LED starts.

Repair Tips • It is also possible that you have an audio DC protection because of an interruption in one or both speakers (the DC voltage that is still on the circuit cannot disappear through the speakers). Caution: (dis)connecting the speaker wires during the ON state of the TV at high volume can damage the audio amplifier.

5.8

Fault Finding and Repair Tips Read also paragraph “Error Codes” -> “Error Buffer” -> “Extra Info”.

5.8.1

Ambilight Due to a degeneration process of the AmbiLight, it is recommended to change all ambilight units in case one unit needs to be repaired.

5.8.2

CSM When you activate CSM and there is a USB stick connected to the TV, the software will dump the complete CSM content to the USB stick. The file (Csm.txt) will be saved in the root of your USB stick. If this mechanism works you can conclude that a large part of the operating system is already working (MIPS, USB...)

Service Modes, Error Codes, and Fault Finding 5.8.3

DC/DC Converter Introduction • The best way to find a failure in the DC-DC converters is to check their starting-up sequence at “power-on via the mains cord”, presuming that the standby microprocessor is operational. • If the input voltage of DC-DC converters is around 12.7V (measured on decoupling capacitors 2U0W and 2U0Y and the enable signals are "low" (active) then the output voltages should have their normal values. +12Vand +5VPOD supplies start-up first (enabled by PODMODE signal from the standby microprocessor). There is a supplementary condition for +12V to start-up: if +5V-POD does not start up due to a local defect, then +12V will not be available as well. +5V-ON supply is enabled by the ONMODE signal (coming also from the standby microprocessor) . +1V2 supply starts-up when +12V appears, then at least 100 ms later, +1V8, +2V5 and+3V3 will be activated via the ENABLE-3V3 signal from the standby microprocessor. If +12V value is less than 10 V then the last enumerated voltages will not show-up due to the under-voltage detection circuit 7U01-1 + 6U04 and surrounding components. Furthermore, if +12V is less than 8V then also +1V2 will not be available. The third DC-DC convertor that delivers +1V4 out of +12V is started up when the ENABLE-1V2 becomes active (low) and +12V is present. The +Vtun generator (present only for the analogue version of China platforms) will generate +33V for the analogue tuner as soon as the 12V/3.3V DC-DC converter will start to operate. • The consumption of controller IC 7U0A is around 19 mA (that means almost 200 mV drop voltage across resistor 3U70) and the consumption of controller IC 7U0L is around 12 mA. • The current capability of DC-DC converters is quite high (short-circuit current is 7 to 10 A), therefore if there is a linear integrated stabiliser that, for example, delivers 1.8V from +3V3 with its output overloaded, the +3V3 stays usually at its normal value even though the consumption from +3V3 increases significantly. • The +1V8 and +2V5 supply voltages are obtained via linear stabilizer made with discrete components that can deliver a lot of current, therefore in case +1V8 or +2V5 are shortcircuited to GND then +3V3 will not have the normal value but much less. • The SUPPLY-FAULT signal (active low) is an internal protection (error 9) of the DC-DC convertor and will occur if the output voltage of any DC-DC convertor is out of limits (10% of the normal value). Fault Finding • Symptom: +1V2 not present (even for a short while ~10 ms) 1. Check 12 V availability (resistor 3U70, MOS-FETs 7U05 and 7U06), value of +12 V, and surrounding components) 2. Check the voltage on pin 9 (1.5 V), 3. Check for +1V2 output voltage short-circuit to GND that can generate pulsed over-currents 7...10 A through coil 5U00. 4. Check the over-current detection circuit (2U00 or 3U17 interrupted). • Symptom: +1V4 not present (even for a short while ~10ms) while +12V is okay (also across input capacitors 2U8A and 2U8E). 1. Check resistor 3U3T and power MOS-FETs 7U0D-1/2 . 2. Check the voltage on pin 4 (4 V). 3. Check enable signal ENABLE-1V2 (active "low"). 4. Check for +1V4 output voltage short-circuit to GND that can generate pulsed over-currents 7...10 A through coil 5U05. • Symptom: +1V2 present for about 100ms, +1V8, +2V5 and +3V3 not rising.

Q528.2E LA

5.

EN 33

1. Check the ENABLE-3V3 signal (active "low"), 2. Check the voltage on pin 8 (1.5 V), 3. Check the under-voltage detection circuit (the voltage on collector of transistor 7U01-1 should be less than 0.8 V), 4. Check for output voltages short-circuits to GND (+3V3, +2V5 and +1V8) that can generate pulsed overcurrents 7...10 A through coil 5U01, 5. Check the over-current detection circuit (2U04 or 3U14 interrupted). Symptom: +1V2 OK, +2V5 and +3V3 present for about 100 ms. Possible cause: SUPPLY-FAULT line stays “low” even though the +3V3 and +1V2 is available - the standby microprocessor is detecting that and switching "off" all supply voltages. 1. Check the drop voltage across resistor 3U70 or 3U3T (they could be too high, meaning a defective controller IC or MOS-FETs), 2. Check if the boost voltage on pin 4 of controller IC 7U0A is less than 14 V (should be 19 V), 3. Check if +1V2 or +3V3 are higher than their normal values - that can be due to defective DC feedback of the respective DC-DC convertor (ex. 3U1J, 3U75). Symptom: +1V2, +1V4, +1V8, +2V5 or +3V3 shows a high level of ripple voltage (audible noise can come from the filtering coils 5U00, 5U01 or 5U04). Possible cause: instability of the frequency and/or duty cycle of a DC-DC converter or stabilizer. 1. Check the resistor 3U0H and 3U2E, capacitors 2U0C and 2U0A, input and output decoupling capacitors. 2. Check a.c. feedback circuits (2U08+2U09+3U07+3U08 for +1V2, 2U8P+2U0Y+3U24 for +1V4 and 2U03+2U05+3U04). Symptom: +1V2, +1V4, +2V5 and +3V3 ok, no +Vtun (analogue sets only). Possible cause: the “+VTUN GENERATOR” circuit (7U0P +7 U0Q + surroundings components) is defective: check transistor 7U0P (it has to have gate voltage pulses of about 10 V amplitude and drain voltage pulses of about 35 V amplitude) and surrounding components. A high consumption (more than 6 mA) from +Vtun voltage can cause also +Vtun voltage to be too low or zero.

Note: when a pair of power MOSFETs (7U02+7U08, 7U05+7U06 or 7U0D-1/2) becomes defective the controller IC 7U0A or 7U0L should be replaced as well. 5.8.4

Exit “Factory Mode” When an “F” is displayed in the screen’s right corner, this means that the set is in “Factory” mode, and it normally happens after a new SSB has been mounted. To exit this mode, push the “VOLUME minus” button on the TV’s keyboard control for 5 seconds and restart the set.

EN 34 5.8.5

5.

Q528.2E LA

Service Modes, Error Codes, and Fault Finding

SSB Replacement Follow the instructions in the flowchart in case you have to exchange the SSB. See figure “SSB replacement flowchart”.

START

Set is still operating?

Yes

No

Activate SAM and save the TV settings via “Upload to USB”

- Replace SSB board by a Service SSB. - Make the SSB fit mechanically to the set.

Start-up set

If necessary, adapt the connector plate and/or the shielding to make the assy fit mechanically.

Set behaviour?

Set is starting up but no display Set is starting up & display is OK

Set goes into protection

Upgrade main TV SW to the latest version via USB stick (#) Activate SDM via shorting the Service pins on the SSB

Program “Display Option” code via 062598 MENU, followed by 3 digits code (this code can be found on a sticker inside the set or in the Service Manual)

- Program Display Option code via 062598 MENU followed by the 3 digit code (see sticker inside set or in the Service Manual) - Or program “Display Option” code in SAM via “062596 i+”, Options, Display, Screen

After entering “Display Option” code, set is going to Standby (= validation of code)

Restart the set

If set is starting-up in Factory mode “F”, push the “Volume minus” button on the local keyboard for 5 seconds and restart the set

Method 1; In some sets it is possible to program “Display Option” code before set is going into protection. Method 2; First bring set in SDM and program “Display Option” code. Method 3; Bring the PDP power supply in stand-alone mode and program the “Display Option” code.

Saved settings on USB stick?

No

Yes Connect ComPair, load JETT software and program set type- and serial number

In case of settings reloaded from USB, the set type- and set serial number are automatically stored when entering display options.

Activate SAM and reload settings via “Download from USB”

Check latest software on Service website. Update main and Standby software via USB

- Check if correct “Display Option” code is programmed. - Verify “Option Codes” according sticker inside the set. - Default settings for White drive ...see Service Manual

Check and perform alignments in SAM according to the Service Manual

Check changes in CSM

(#) Some new “Display Option” codes are not recognised by SSB’s with old(er) SW, resulting in “no display”. Therefore it is advised to ALWAYS update the main TV SW (autorun.upg) via a USB stick to the latest version, before setting the “Display Option” code.

END

Figure 5-15 SSB replacement flowchart

Instruction note SSB replacement 3122 785 00982 05-FEB-2007

H_16771_007.eps 130707

Service Modes, Error Codes, and Fault Finding 5.8.6

Q528.2E LA

5.

EN 35

Display option code Caution: In case you have replaced the SSB, always check the display option code in SAM, even if you have picture. With a wrong display option code it is possible that you have picture, but that in certain conditions you have unwanted side-effects.

5.8.7

Upgrade EDID NVM To upgrade the EDID NVM you must short circuit pin 7 of the EDID NVM to ground. Therefore some test points (EDID1, EDID2 and EDID3) are foreseen next to the HDMI connectors (figure “EDID-NVM pins”). See ComPair for further instructions.

EDID 3 EDID 2

EDID 1

H_17650_089.eps 160108

Figure 5-16 EDID-NVM pins ONE ZIP Nand Flash content FUS UPG Partition

Content

erase

JFFS2 partition 1 (application read write data)

Channel table, EPG data, …

JFFS2 partition 0 (Application read only once data)

HDMI keys, back up display file, …

JFFS2 partition 0 (Application read only upgradable data)

wizard pictures, display file, cabinet file, upgrade assistant, …

SQUASHFS partition

Main software (Mips) Linux structure (root file system)

BFFS partition 2 (DVD OK)

Default software upgrade application TriMedia software boot batch file 2

BFFS partition 1 (DVD cursor down)

Back up software upgrade application boot batch file 1 Linux kernel JETT : needed for ComPair

BFFS partition 0

Jaguar Boot loader boot batch file 0

Block 0

µBTM partition table

UpgradeAll UPG

program

erase

program

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

FlashUtils UPG erase

program

X

X

X

X

X H_16770_099.eps 220307

Figure 5-17 NAND-Flash content •

• •

The above overview of the NAND Flash shows the content of the different partitions. It also shows which part of the one-zip file erases and programs which part of the NAND Flash. Remark: the above does not mean that you can reprogram your HDMI keys with the “UpgradeAll.upg” file from the one zip file. This can only be done in a secure environment (e.g. the factory). The “UpgradeAll.upg” file is only used in the factory. The “FlashUtils.upg” file is only used by service centra which are allowed to do component level repair on the SSB.

Automatic Software Upgrade In “normal” conditions, so when there is no major problem with the TV, the main software and the default software upgrade application can be upgraded with the “AUTORUN.UPG” (FUS part of the one-zip file: e.g. 3104 337 03801 _FUS _Q582E_ 0.37.0.0_commercial.zip). This can also be done by the consumers themselves, but they will have to get their software from the commercial Philips website or via the Software Update Assistant in the user menu (see DFU). The “autorun.upg” file must be placed in the root of your USB stick. How to upgrade: 1. Copy “AUTORUN.UPG” to the root of your USB stick.

2. Insert USB stick in the side I/O while the set is in ON MODE. The set will restart and the upgrading will start automatically. As soon as the programming is finished, you will get the message that you can remove your USB stick and restart the set. Manual Software Upgrade In case that the software upgrade application does not start automatically, you can also start it manually. How to start the software upgrade application manually: 1. Disconnect the TV from the Mains/AC Power. 2. Press the “OK” button on a Philips DVD RC-6 remote control (it is also possible to use the TV remote in “DVD” mode). Keep the “OK” button pressed while reconnecting the TV to the Mains/AC Power. 3. The software upgrade application will start. Attention! In case that you have started the download application manually, the “autorun.upg” will maybe not be recognized. What to do in this case: 1. Create a directory “UPGRADES” on your USB stick. 2. Rename the “autorun.upg” to something else, e.g. to “software.upg”. Do not use long or complicated names,

EN 36

5.

Q528.2E LA

Service Modes, Error Codes, and Fault Finding 9. After successful programming, you must see the following info (this can take several minutes!): – DCSUM=0xC67E – :Ok – MCSUM=0xC67E – Programming – PCSUM=0xC67E – Finished 10. If you do not see this info, restart the complete procedure. 11. Close HyperTerminal. 12. Disconnect and connect Mains/AC Power again. (*) When having problems with upgrading, use the values between brackets.

keep it simple. Make sure that “AUTORUN.UPG” is no longer present in the root of your USB stick. 3. Copy the renamed “upg” file into this directory. 4. Insert USB stick in the side I/O. 5. The renamed “upg” file will be visible and selectable in the upgrade application. Back-up Software Upgrade Application If the default software upgrade application does not start (could be due to a corrupted boot 2 sector) via the above described method, you can try to activate the “back-up software upgrade application”. How to start the “back-up software upgrade application” manually: 1. Disconnect the TV from the Mains/AC Power. 2. Press the “CURSOR DOWN” button on a Philips DVD RC6 remote control (it is also possible to use the TV remote in “DVD” mode). Keep the “cursor down” button pressed while reconnecting the TV to the Mains/AC Power. 3. The software upgrade application will start. 5.9.3

5.9.4

Content and Usage of the One-Zip Software File Below you find a content explanation of the One-Zip file, and instructions on how and when to use it. •

Stand-by Software Upgrade

There are two methods now to upgrade stand-by software:

Upgrade via USB In this chassis it is possible to upgrade the Stand-by software via a USB stick. The method is similar to upgrading the main software via USB. Use the following steps: 1. Create a directory “UPGRADES” on your USB stick. 2. Copy the Stand-by software (part of the one-zip file, e.g. StandbySW_CFT01_9.0.0.0.upg) into this directory. 3. Insert the USB stick into the TV. 4. Start the download application manually (see paragraph “Manual start of the Software Upgrade Application”. 5. Select the appropriate file and press the “red” button to upgrade.

Upgrade via PC and ComPair interface It will be possible to upgrade the Stand-by software via a PC and the ComPair interface. Check paragraph “ComPair” on how to connect the interface. To upgrade the Stand-by software, use the following steps: 1. Disconnect the TV from the Mains/AC Power. 2. Short circuit the SPI pins [2] on the SSB (see figure “Service mode pads” earlier in this chapter). 3. Keep the SPI pins shorted while connecting the TV to the Mains/AC Power. 4. Release the short circuit after approx. two seconds. 5. Start up HyperTerminal (can be found in every Windows application via Programs -> Accessories -> Communications -> HyperTerminal). Use the following settings: – COM1 – Bits per second = 38400 (9600)* – Data bits = 8 – Parity = none – Stop bits = 1 – Flow control = None 6. Press “Shift U” on your PC keyboard. You should now see the following info: – PNX2015 Loader V1.0 – 19-09-2003 – DEVID=0x05 – Erasing – MCSUM=0x0000 – = 7. If you do not see the above info, restart the above procedure, and check your HyperTerminal settings and the connections between PC and TV. 8. Via “Transfer” -> “Send text file ...”, you can send the proper upgrade file to the TV (e.g. *.hex).

• •

• •

• • • •

1.1 Ambilight_PRFAM_x.x.x.x.zip. Not to be used by Service technicians. 1.2 Cabinet_ACOUS_x.x.x.x.zip. Not to be used by Service technicians. 1.3 Ceisp2padll_P2PAD_x.x.x.x.zip. Not to be used by Service technicians. For ComPair development only. 1.4 Display_DISPT_x.x.x.x.zip. Not to be used by Service technicians. 1.5 EDID_Q582X_x.x.x.x.zip. Contains the EDID content of the different EDID NVM’s. See ComPair for further instructions. For sets with three HDMI connectors. - For HDMI 1 NVM, use “*port 1*.bin - For HDMI 2 NVM, use “*port 2*.bin - For HDMI 3 NVM, use “*port 3*.bin 1.6 EJTAGDownload_Q582X_x.x.x.x.zip. Only used by service centra which are allowed to do component level repair. 1.7 Factory_Q582X_x.x.x.x_commercial.zip. Only for production purposes, not to be used by Service technicians. 1.8 FlashUtils_Q582X_x.x.x.x_commercial.zip. Not to be used by Service technicians. 1.9 FUS_Q582X_x.x.x.x_commercial.zip. Contains the “autorun.upg” which is needed to upgrade the TV main software and the software download application. 2.0 MOP_IACXX_x.x.x.x.zip. Not to be used by Service technicians. A programmed MOP device can be ordered via your regional Service organization. 2.1 OpenSourceFile_Q582X_x.x.x.x.zip. Not to be used by Service technicians. 2.2 Pacific3_P3FW0_x.x.x.x.zip. Not to be used by Service technicians. A programmed PACIFIC device can be ordered via your regional Service organization. 2.3 PQPrivate_U5207_x.x.x.x.zip. Not to be used by Service technicians. 2.4 PQPublic_U5207_x.x.x.x.zip. Not to be used by Service technicians. 2.5 ProcessNVM_Q531X_x.x.x.x.zip. Default NVM content. Must be programmed via ComPair. 2.6 StandbySW_CFTxx_x.x.x.x_commercial.zip. Contains the Stand-by software in “upg” and ”hex” format. - The “StandbySW_xxxxx_prod.upg” file can be used to upgrade the Stand-by software via USB. - The “StandbySW_xxxxx.hex” file can be used to upgrade the Stand-by software via ComPair. -The files “StandbySW_xxxxx_exhex.hex” and “StandbySW_xxxxx_dev.upg” may not be used by Service technicians (only for development purposes). 2.7 UpgradeAll_Q531X_x.x.x.x_commercial.zip. Only for production purposes, not to be used by Service technicians. Caution: Never use this file, because it will overwrite the HDCP keys ! ! !

Block Diagrams, Test Point Overview, and Waveforms

Q528.2E LA

6.

37

6. Block Diagrams, Test Point Overview, and Waveforms Wiring Diagram 32" (ME8) WIRING DIAGRAM 32” (STYLING ME8)

LCD DISPLAY (1004) LVDS INPUT 30P

14. ANALOG_PWM 13. DIM 12. BL_ON_OFF 11. BOOSTI 10. SGND3 9. SGND3 8. SGND3 7. SGND3 6. SGND3 5. 24VI 4. 24VI 3. 24VI 2. 24VI 1. 24VI

A

1D12 (B10A)

MAIN POWER SUPPLY

4. 3. 2. 1.

(1005)

8D12

14P

8521

CN2 (1319)

41. VDISP 40. VDISP 39. VDISP 38. VDISP ... 2. SCL-I2C4-DISP 1. SDA-I2C4-DISP

INVERTER

1G50 (B06A)

8G50

CN6 (1M95) 1. 3.3VSB 2. PSON 3. SGND1 4. SGND1 5. SGND1 6. 12V 7. 12V 8. 12V 9. 12VA 10. SGND2 11. -12VA

8M95

RIGHTGNDSND GNDSND LEFT+

B

SSB (1150)

1D10 (B10A) 9. 8. 7. 6. 5. 4. 3. 2. 1.

KEYBOARD +5V KEYBOARD LED1 +3V3-STANDBY LED2 RC GNDSND LIGHT-SENSOR

1M95 (B02B)

1. 2. 3. 4. 5. 6. 7. 8.

CN1 (1308) 2. L 1. N

E KEYBOARD CONTROL

CN7 (1M99) 12V 12V SGND1 SGND1 BL_ON_OFF DIM BOOST ANALOG_PWM

8M99

11. -AUDIO-POWER 10. GNDSND 9. +AUDIO-POWER 8. +12V 7. +12V 6. +12V 5. GND 4. GND 3. GND 2. STANDBY 1. +3V3-STANDBY

1M99 (B02B)

(0025)

8002

INLET

8. 7. 6. 5. 4. 3. 2. 1.

GND BACKLIGHT-BOOST MACKLIGHT-OUT LAMP-ON-OUT GND GND +12VD +12VD

1N10 8D10

J

IR LED PANEL (1112)

LIGHT-SENSOR GNDSND RC LED2 +3V3-STANDBY LED1 KEYBOARD +5V KEYBOARD 1. 2. 3. 4. 5. 6. 7. 8. 9.

1P10

1. +3V3STBY 2. +5V_SW 3. LED1

1P09

GND KEYBOARD +3V3STBY TACT_SWITCH_INT

8P11

1. 2. 3. 4.

GND KEYBOARD +3V3STBY INTERRUPT

1P11

1. 2. 3. 4.

+ -

+ -

RIGHT SPEAKER (5212) IN BACK COVER

LEFT SPEAKER (5211) IN BACK COVER

I_17651_002.eps 110608

Block Diagrams, Test Point Overview, and Waveforms

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Wiring Diagram 42" (ME8) WIRING DIAGRAM 37"- 42" (STYLING ME8) 8GC3

8GC1

BEHIND DOOR IN BACK COVER

LCD DISPLAY (1004) 8402

CN3 1. HV2 2. N.C. 3. HV2

8G51

7. 6. 5. 4. 3. 2. 1.

GND 3.3V I2C SEL2 I2C SEL1 S-SDA GND S-SCL

CN4 1. 2. 3. 4. 5. 6.

1GC0 (B06B)

24VA SGND3 24VA SGND3 24VA SGND3

7. 6. 5. 4. 3. 2. 1.

J4

J1 GND +24V GND +24V

1D12 (B10A)

MAIN POWER SUPPLY

4. 3. 2. 1.

(1005)

CN6 1. 3.3VSB 2. PSON 3. SGND1 4. SGND1 5. SGND1 6. 12V 7. 12V 8. 12V 9. 12VA 10. SGND2 11. -12VA

8M95

CN7 1. 2. 3. 4. 5. 6. 7. 8.

CONTROL E KEYBOARD (0025)

SSB (1150)

1D10 (B10A) 9. 8. 7. 6. 5. 4. 3. 2. 1.

J1

KEYBOARD +5V KEYBOARD LED1 +3V3-STANDBY LED2 RC GNDSND LIGHT-SENSOR

1. 2. 3. 4.

J4 1. 2. 3. 4. 5. 6. 7. 8.

1M95 (B02B) 11. -AUDIO-POWER 10. GNDSND 9. +AUDIO-POWER 8. +12V 7. +12V 6. +12V 5. GND 4. GND 3. GND 2. STANDBY 1. +3V3-STANDBY

8M99

+24V GND +24V GND

+24V +24V GND S-SCL S-SDA GND 3.3V I2C SEL2

J2 1. 2. 3. 4. 5. 6. 7.

S-SCL GND S-SDA I2C SEL1 I2C SEL2 3.3V GND

CN1 2. L 1. N

8. 7. 6. 5. 4. 3. 2. 1.

GND BACKLIGHT-BOOST MACKLIGHT-OUT LAMP-ON-OUT GND GND +12VD +12VD

INLET

(5212) IN BACK COVER (5215) TWEETER

* AMBI-LIGHT UNITS AND LIGHT GUIDE MODULE ARE OPTIONAL

J

IR LED PANEL (1112)

LIGHT-SENSOR GNDSND RC LED2 +3V3-STANDBY LED1 KEYBOARD +5V KEYBOARD 1. 2. 3. 4. 5. 6. 7. 8. 9.

1P10

1P09

1. +3V3STBY 2. +5V_SW 3. LED1

RIGHT SPEAKER

1P11

+ -

1001

8D10

8P11

1. +3V3_STBY 2. +5V_SW 3. LED1

GND KEYBOARD +3V3STBY INTERRUPT

GND KEYBOARD +3V3STBY TACT_SWITCH_INT

1. 2. 3. 4.

B

8002

1. 2. 3. 4.

1N10

12V 12V SGND1 SGND1 BL_ON_OFF DIM BOOST ANALOG_PWM

RIGHTGNDSND GNDSND LEFT+

1M99 (B02B)

1M01 3P

(1175)

*AMBI-LIGHT UNIT (IN BACK COVER)

4. 3. 2. 1.

A

8D12

I2C SEL2 3.3V GND S-SDA S-SCL GND +24V +24V

TO BACKLIGHT 8521

8. 7. 6. 5. 4. 3. 2. 1.

GND +3V3 +3V3 1 GND SDA-AMBI-3V3 GND SCL-AMBI-3V3

1G50 (B06A)

J2

TO BACKLIGHT

DANGEROUS HIGH VOLTAGE

41. VDISP 40. VDISP 39. VDISP 38. VDISP ... 2. SCL-I2C4-DISP 1. SDA-I2C4-DISP

DANGEROUS HIGH VOLTAGE

CN2 1. HV1 2. N.C. 3. HV1

LVDS INPUT (1080p) 51P

(1175)

8401

*AMBI-LIGHT UNIT (IN BACK COVER)

8GC2

4P

4P

8GC0

LG

*LIGHT GUIDE MODULE (Optional) (1110)

+ -

LEFT SPEAKER (5211) IN BACK COVER (5215) TWEETER

H_17650_074.eps 110608

Block Diagrams, Test Point Overview, and Waveforms

Q528.2E LA

6.

39

Block Diagram Video VIDEO B03A MAIN TUNER 1T04 TD1716F/BHXP

3 8

IF-OUT2 IF-OUT1

5T61

MAIN HYBRID TUNER 11

4

IF-FILTP1

6

5

IF-FILTN1

7

IF1-A

33

CVBS

6

1 2

7

IF-FILTN2

10 9

IF-FILTP2

XTAL_OUT

3

47

TUN-AGC

8

4-MHz

46

IF-P

FREF

FLASH

7A00 STI7101BWC

7A50 M29W640FT70N6

M2

VIDEO LAYER

B03E FLASH EMI

EMI-D(0-15)

B03C CHANNNEL DECODER DVBT-C

7T17 TDA10048HN

7T18

AGC_TUN 42 AGCT_CTL 32

TDA-IF-AGC

9

4-MHz

7

XIN

VI-M

STI7101

B03F STI7101:

AGC_TUN

2 16

B04E

DATA

VIM

MBVP-TV SNR/TNR EDDI HV SCALER

57

MSP VMPG MPEG DEMUX AND DECODING

B09A DIGI I/O: PCMCIA INTERFACE & BUFFERS TSI0-ST-D(0-7) TSI1-ST-D(0-7)

16Mx16 P33

MPEG-TX2+

B03G P34 AV-INTER R33 FACE R34 AV T33 INTER T34 FACE

7AA2 EDD2516AETA

LMI-A(0-12)

16Mx16

U33

MPEG-TXC+

U34

MPEG-TXC-

B08B

BUFFER

MDO(0-7) PCMCIA

MPEG-TX0-

Only for MPEG4 DIGI I/O: HDMI CONNECTORS + DVI AUDIO INPUTS

Only for MPEG4

1N00

MPEG-TX1MPEG-TX0+

MEMORY CONTROLLER

VIDEO OUTPUT LVDS

7N09 74LVC245

MPEG-TX2MPEG-TX1+

AC14

AH15

DV-VS

AF12

RxP3_B(0-9)

TX8535oA-

AJ22

TX8535oB-

AK22

TX8535oB+

AG22

TX8535oC-

AH22

TX8535oC+

AJ23

TX8535oCLK-

AK23

TX8535oCLK+

AG23

TX8535oD-

AH23

TX8535oD+

AJ24

TX8535oE-

AK24

TX8535oE+

B05B PNX5050: DDR1 7CA0 EDD1216AJTA

(0-12) B05B DDR1

DDR SDRAM 16Mx16

MM_DATA(0-15)

1 2 19 18 1 2

HDMI 3 CONNECTOR (Optional)

MM-A(0-12)

B07B ANALOGUE I/O: YPBPR AUDIO OUT

19 18

HDMI 2 CONNECTOR

3

DRX2DRX1+ DRX1DRX0+

9 10

DRXC+

12

DRXC-

PR EXT 3

PB

1 2 19 18 1 2 19 18

TXEB-

30

77

TXEB+

29

81

TXEC-

28

80

TXEC+

27

84

TXECLK-

25

83

TXECLK+

24

87

TXED-

22

86

TXED+

21

90

TXEE-

20

89

TXEE+

19

93

TXOA-

17

92

TXOA+

16

96

TXOB-

15

95

TXOB+

14

99

TXOC-

13

98

TXOC+

12

101

TXOCLK-

10

100

TXOCLK+

9

103

TXOD-_

7

102

TXOD+

6

107

TXOE-

5

106

TXOE+

4

LVDS CONNECTOR

DDR SDRAM

7GE1 M25P05

L1

AV4-PB

R3

AV4-Y

G3

CRX2+

3

CRX2CRX1+

CRXC+

12

CRXC-

SINGLE LVDS (50HZ 768P)

BRX2+ BRX2BRX1+

BRXC+

12

BRXC-

BRX0-

ARX2ARX1+

7

ARXC+

12

ARXC-

16

7HA0 NAND512W3A2CN6E

REGIMBEAU_CVBS-SWITCH

B04A

PCI XIO

NAND FLASH 512Mx8

BOLT-ON

15

SC1-R

9EA3

AV1-PR

K2

7

SC1-B

9EA1

AV1-PB

P5

11

11

SC1-G

9EA2

AV1-Y

F2

20

SC1-CVBS

9EA6

AV1-Y_CVBS

H2

8

AV1_STATUS

21

PCI-AD<->NAND-AD

B07D ANALOGUE I/O:

7E09 16

AV1_BLK

B04G PNX 8541: DDR2 7HG0 EDE2516ACSE

B04G DDR2 (0-12)

B04A

DDR2 SDRAM 8Mx16x4

B04A DDR2-D(0-15)

1E02

7E04

DDR

19

ARX0-

7

1

15

AV3_PB

R1

AV3-PR

K3

7HG1 EDE2516ACSE

DDR2-A(0-12)

7

8

11

B08C DIGI I/O: HDMI MUX

SINGLE LVDS (50HZ 768P)

B04F CONTROL PCI

15

EXT 1

ARX1ARX0+

9 10

CVBS-TER-OUT

7E05

SCART1 ARX2+

3

Y_CVBS-MON-OUT-SC

19 1

20

1

1

5 9,10,11

BRX1BRX0+

9 10

9GE5-9GE7

7E02 14

1E01

3

BYPASS

B04Q PNX8541: FLASH

B07A ANALOGUE I/O: SCART 1 & 2

CRX0-

1

BYPASS 9G13-9G15

Y_CVBS-MON-OUT A3

CRX1CRX0+

9 10

B06A PACIFIC 3: LVDS

7E16 7E06

1P35

HDMI SIDE CONNECTOR

AV4-PR

MPEG4 or 3th HDMI

1

4 6 7

31

78

(16-31)

Y

1P32

HDMI 1 CONNECTOR

32

TXEA+

1E03

DRX0-

4 6 7

TXEA-

74

512K FLASH

DRX2+

4 6 7

75

CA-MDI(0-7) CONDITIONAL ACCESS

16Mx16

1

1P33

38

7CA1 EDD1216AJTA

MEMORIE

1P34

4 6 7

40

TX8535oA+

VIDEC, 3D COMB AND VBI CAPTURING

CA-MDO(0-7)

PICTURE ENHANCEMENT

VIDEO OUT / LVDS

68P

LMI-D(0-31)

DV-HS

DUAL LVDS ONLY

PACIFIC3

RxP3_R(0-9)

RxP3_G(0-9)

AG15

B04O DIGITAL AJ21 VIDEO OUT AK21 LVDS

B04N VIDEO STREAMS

DATA

PNX5050

DV-UV(0-9)

OR

Only for DVB-C

LMI

DDR SDRAM

GFX LAYER STILL MPEG/PC

58

FE-DATA(0-7) B03F DDR1

VIDEO OUTPUT TTL

CLRB

RESET-SYSTEM

DDR1 7AA1 EDD2516AETA

41

39

B04O PNX8541: DIGITAL

DTV RECEIVER

CLR 41 Only for MPEG4

VIP

DTV 3 RECEIVERVI-P

EMI-A(1-22)

VDISP

10-bit RGB

DV-Y(0-9)

GFX OSD LAYER

VIDEO ANALOGUE SWITCH/ ADC/MUX/SRC

7TA4 TDA10023HT

43

AGC-COMP

7GE2 T6TF4HFG

10-bit YUV

MAIN VIDEO OUT

36

AGC-DIN

B03B CHANNNEL DECODER DVBT-T

B03E STI7101: B03D STI7101: CONTROL

DDR SDRAM

M1

DIF-N

MPP-2

1G50 7C00 PNX5050EH/M1

PNX8541

CPIPE-TV

TUN-AGC-MON 16 VTUN

8Mx8 4Mx16

IF-N

3T58

TDA-IF-IN-P

27

OUT1-B

3T59

TDA-IF-IN-N

26

OUT1-A

TAGC

B06A PACIFIC 3: LVDS

CVBS-TER-OUT

IF2-B IF2-A

B06C PACIFIC 3

B04O DIGITAL VIDEO OUT LVDS

J3

DIF-P

+5V 9

FLASH EPROM

B05C PNX5050: VIDEO

7H00 PNX8541E/M1 B04K ANALOGUE AV

CVBS4

IF PROCESSING

SAW 37M6 RF-AGC

7T56 EF

IF1-B

10

10

B04 PNX8541

7T57 TDA9898HL

1T75

EXT 2 16

AV2-STATUS

20

15

DDR2 SDRAM 8Mx16x4

B04A

(16-31)

AV2-Y_CVBS

J1

7E14 7P70 AD8197A-ASTZ

20

74

62

DRX2+

CRX2CRX1+

73 71

61 59

DRX2DRX1+

CRX1CRX0+

70 68

58 56

DRX1DRX0+

CRX0-

67

55

DRX0-

CRXC+

65

53

DRXC+

CRXCBRX2+

64 12

52

DRXC-

BRX2BRX1+

11 9

BRX1BRX0+

8 6

BRX0-

5

BRXC+

3

BRXCARX2+

2 24

ARX2ARX1+

23 21

ARX1ARX0+

20 18

ARX0-

17

ARXC+

15

ARXC-

14

16

21

SCART2

CRX2+

HDMI SWITCH

AV2-BLK

B04A

11

AV3-Y

G1

B07C ANALOGUE I/O: SIDE AV 1E11

CVBS 1E14 1

FRONT-Y_CVBS

FRONT-Y_CVBS

J2

FRONT-C

FRONT_C

P2

3

SVHS IN 5 2

34 OP0 33 ON0 37 OP1 36 ON1 40 OP2 ON2 39 43 OP3 42 ON3 44

B04H DIGITAL VIDEO IN

4

RXC+ RXCRX0+

RESET-SYSTEM

B08B

HOT-PLUG D10 A10 A9

HDMI-DVI RX/RX2DTL RECEIVER DETECTION MATRICING

B7

RX0RX1+

B6 A8

RX1-

A7

RX2+

B9

RX2-

B8

B04E H_17650_075.eps 110608

Block Diagrams, Test Point Overview, and Waveforms

Q528.2E LA

6.

40

Block Diagram Audio AUDIO B03A

MAIN TUNER 1T04 TD1716F/BHXP

4

IF-FILTP1

6

5

IF-FILTN1

7

1

6

IF-FILTN2

10

2

7

IF-FILTP2

9

3 8

IF-OUT2 IF-OUT1

5T61

MAIN HYBRID TUNER 11

IF1-A

XTAL_OUT

3

47

TUN-AGC

8

46

4-MHz

B03D

B03B

STI7101: CONTROL

B04K ANALOGUE AV CVBS4

FLASH EPROM

EMI-D(0-15)

8Mx8 4Mx16

EMI-A(1-22)

IF2-A

OUT1-A OUT1-B

TAGC

26

TDA-IF-IN-N

3T59

27

TDA-IF-IN-P

3T58

M1

IF-P

M2

B04F CONTROL PCI

PCI XIO

PCI-AD <-> NAND-AD

NAND FLASH 512Mx8

36

AGC-DIN

MPP-2

B03C

CHANNNEL DECODER DVB-C

43 AGC-COMP

32

7TA4 TDA10023HT

AGC_TUN 42 AGCT_CTL

TDA-IF-AGC

9

7

4-MHz

XIN

STI7101

STI7101: DDR1

VIP AGC_TUN

DTV 3 RECEIVERVI-P 2

VI-M

16

B04E

DATA

58

VIM

57

B04G

PNX 8541: DDR2

DTV RECEIVER

CLR 41

B04N VIDEO STREAMS

CLRB

RESET-SYSTEM

DATA FE-DATA(0-7)

7HG0 EDE2516ACSE

Only for DVB-C

7AA1 EDD2516AETA

B09A

DIGI I/O: PCMCIA INTERFACE & BUFFERS

B04G DDR2 (0-12)

TSI0-ST-D(0-7)

DDR SDRAM

DDR2 SDRAM 8Mx16x4

TSI1-ST-D(0-7)

B03F DDR1

LMI-D(0-31)

P33

B03G P34 AV-INTER R33 FACE R34 AV T33 INTER T34 FACE

LMI

7AA2 EDD2516AETA

LMI-A(0-12)

MPEG-TX2+

1N00

MPEG-TX2MPEG-TX1+ PCMCIA

7HG1 EDE2516ACSE

DDR

BUFFER

MDO(0-7)

MPEG-TX1MPEG-TX0+ MPEG-TX0-

U33 MPEG-TXC+ U34 MPEG-TXC-

16Mx16

DDR2-D(0-15) 7N09 74LVC245

CA-MDO(0-7)

DDR2-A(0-12)

68P

16Mx16

DDR2 SDRAM 8Mx16x4

(16-31)

CA-MDI(0-7) CONDITIONAL ACCESS

Only for MPEG4

B08B

B07A

DIGI I/O: HDMI CONNECTORS + DVI AUDIO INPUTS

1 2

DRX2+

3

DRX2DRX1+

19 18

4 6 7

1 2

HDMI 3 CONNECTOR (Optional)

DRX1DRX0+

9 10

DRXC+

12

DRXC-

CRX2+

3

CRX2CRX1+

4 6 7

CRX1CRX0+

19 18

9 10

HDMI 2 CONNECTOR

1 2

3

BRX2BRX1+

BRXC+

12

BRXC-

5 ADAC(8)

AP-SCART-OUT-L

3EA7

AUDIO-CL-L

1

3 ADAC(7) AK8

B07D

15

1 2

B08C

BOLT-ON

SC1-AUDIO-R

9HM1

AUDIO-IN1-R

AK6

6

SC1-AUDIO-L

9HM2

AUDIO-IN1-L

AJ6

AIN1 21

7E01

AP-SCART-OUT-R

A-PLOP 7

EXT 2

11

16

3

AP-SCART-OUT-L

2

AUDIO-IN2-R

B04I

PNX 8541: AUDIO

ARX2+

3

ARX2ARX1+

4 6 7

7D10 TDA8932BTW/N2

AG5

AUDIO-IN2-L

AF5

AJ13

ADAC(1)

9HM1

ARXC+

12

ARXC-

DAC AK12

AUDIO IN L+R

AUDIO-IN3-L

AH5

AUDIO-IN3-R

AJ5

ADAC(2)

9HM2

B04I

1E08

62

DRX2+

73 71

61 59

DRX2DRX1+

CRX1CRX0+

70 68

58 56

DRX1DRX0+

CRX0-

67

55

DRX0-

HDMI SWITCH

CRXC+

65

53

DRXC+

CRXCBRX2+

64 12

52

DRXC-

BRX2BRX1+

11 9

BRX1BRX0+

8 6

BRX0-

5

BRXC+

3

BRXCARX2+

2 24

ARX2ARX1+

23 21

ARX1ARX0+

20 18

A-PLOP

ARX0-

17

ARXC+

15

ARXC-

14

AUDIO-OUT-L

8

AUDIO-OUT-R

14

A-PLOP

B04M

DIGITAL AUDIO OUT

AUDIO

ADC

10

ADAC(5)

AJ10

DEMDEC

I²C Main

12

ADAC(6)

AK9

7E03 EF

SPDIF-OUT

B04A

EPICS

W2

P2.4

V4

P0.6

SPDIF OUT DELAYED AUDIO-IN5-L

AJ4 AK4

B02A DETECT1

AUDIO-PROT

DC DETECTION

B04A

DAC SPDIF DECODING, MULTICHANNEL, DOWNMIX AND SRC

AJ15

AUDIO-IN5-R

ENGAGE 6D01

B04A STANDBY CONTROLLER

AUDIO IN L+R

Speaker R

4 7D11 7D12 7D15

5

MEMORY CONTROL

B04B

PNX 8541: STANDBY CONTROLLER

AUDIO-MUTE-UP

6H00

AUDIO-RESET

6H03

AUDIO-MUTE

PNC8541: DEBUG

AIN5

B04M

B07C

PNX 8541: AUDIO

ANALOGUE I/O: SIDE AV

7HVA

B08B

B07A

DIGI I/O: HDMI CONNECTORS + DVI AUDIO INPUTS

A-PLOP

AUDIO-RESET 7HV0 TPA6111A2DGN

B07B

1P6A

2

AUDIO-IN4-L

AK5

3

AUDIO-IN4-R

AH4

AIN4 5

4 AH11

RXC+ RXC-

34 OP0 33 ON0 37 OP1 36 ON1 40 OP2

RX0+

RESET-SYSTEM

22

Main Delayed

ANALOGUE I/O: SIDE AV

AUDIO IN L+R

ON2 39 43 OP3 42 ON3 44

3

IN2N OUT2

1E11

74

14

Speaker L

2

7D13

7HM1

7E10

7P70 AD8197A-ASTZ

1D12 1

27

AIN3

AUDIO OUT L+R

B07C

CRX2CRX1+

-AUDIO-R

DAC

AUDIO-MUTE

DIGI I/O: HDMI MUX

OUT1

IN1P

CLASS D POWER AMPLIFIER

ANALOGUE I/O: YPBPR_AUDIO OUT 1E03

ARX0-

CRX2+

2

+AUDIO-L

21

SCART2

ARX1ARX0+

9 10

CLASS D

B04M

BRX0-

1

B10A

AIN2 6

20

A-PLOP

15

1P35

HDMI SIDE CONNECTOR

AJ8

2

SCART1 1E02 1 1

BRX1BRX0+

9 10

7

B04L AUDIO

B07B BRX2+

4 6 7

19 18

20

CRXC-

1

AUDIO-CL-R

11

16

CRX0-

1P32

HDMI 1 CONNECTOR

3

CRXC+

12

3EA8

7

EXT 1

MPEG4 or 3th HDMI

1

AP-SCART-OUT-R

1

DRX0-

1P33

B04L AUDIO

AUDIO

7HM1

1E01 1

1

B04I

ANALOGUE I/O: SCART 1 & 2

1P34

19 18

Only for MPEG4

IF-N

7HA0 NAND512W3A2BN6E

PNX8541

DIF-N

FREF

7T17 TDA10048HN

7T18

B03E FLASH EMI

Only for MPEG4

DDR SDRAM

J3

IF2-B

CHANNNEL DECODER DVBT-T

7A00 STI7101BWC

7A50 M29W640FT70N6

B03F

PNX8541: FLASH

DIF-P TUN-AGC-MON 16 VTUN

STI7101: FLASH

B04Q

7H00 PNX8541E/M1

IF PROCESSING

+5V 9

B03E

PNX8541

IF1-B

SAW 37M6 RF-AGC

7T56 EF

33

CVBS

10

10

B04

7T57 TDA9898HL

1T75

B08D

HOT-PLUG D10 A10 A9 B7

RX0RX1+

B6 A8

RX1-

A7

RX2+

B9

RX2-

B8

B04H DIGITAL VIDEO IN

ADAC(3)

HEADPHONE AMPLIFIER

1

AUDIO-HDPH-L-AP

1E15 2

7

AUDIO-HDPH-R-AP

3

2

DAC

4 B04A

AH10

ADAC(4)

HP-DETECT

Headphone Out 3.5mm

6

HDMI-DVI RX/RX2DTL RECEIVER DETECTION MATRICING

B04E H_17650_076.eps 150508

Block Diagrams, Test Point Overview, and Waveforms

Q528.2E LA

6.

41

Block Diagram Control & Clock Signals CONTROL + CLOCK SIGNALS B05B PNX5050: DDR1

B02B DC/DC 2V5_1V

7CA0 EDD1216AJTA

7C00 PNX5050EH/M1 B05B DDR1

7CA1 EDD1216AJTA

7HG0 EDE2516ACSE

5

MM_A(0-12)

16Mx16

BACKLIGHT-BOOST

B06B N.C.

STANDBY

B05A PNX5050: CONTROL

DDR2-CLK_P DDR2-CLK_N

N8

N28 N29

BOOTMODE 1 0 : HOST ASSISTED 1 1 : EEPROM

BOOTMODE6

AD23

BOOTMODE5 BOOTMODE4

AF26 AF25

BOOTMODE3

A4

F23 D24

BOOTMODE2

A3

H23 D26 D11

BOOTMODE1

B3

BOOTMODE0

B4

PCI-CLK-PNX5050

E23

18

C4

FE-SOP

17

RESET-SYSTEM

B04E PCMCIA

PCI-GNT-PNX5050 PCI-REQ-USB20 PCI-GNT-USB20

CONDITIONAL ACCESS

D9 D18

7N13

RxP3CLK

CA-DATADIR CA-DATAEN

7T17 DA10048HN

FE-CLK

35

FE-VALID

36

FE-SOP

34

A22

1TA1

DTV RECEIVER DVB-C

2

16M

3

16

41

B04E

FE-DATA(0-7) Only for DVB-C

B04F PNX 8541: CONTROL_PCI

B04F CONTROL

7N11 7N12

CA-ADDEN

B04Q PNX 8541: FLASH 7HA0 NAND512W3A2CN6E

B22 PCI-AD(24-31) --> NAND-AD(0-7)

PCI-AD(0-14)

PCMCIA-A(0-14) CA-MDI(0-7) 7N09

B04E PNX 8541: CONTROL_MIPS

B04E CONTROL AK26

CA-MDO(0-7)

68

PCI-CLK-OUT

AK17 B04O DIGITAL VIDEO OUT / LVDS

7A00 STI7101BWC

NAND FLASH (512Mx8)

PCI-CLK-PNX8535

A21

MDO(0-7)

B06C

8

D22

DV-CLK

AF7

4-MHz

PCI-AD(24-31)

PCMCIA-D(0-7)

PCI-REQ-PNX5050

7

DTV RECEIVER DVB-T

MAIN TUNER

RESET-SYSTEM

B04E

A11 C7

7AA1 EDD2516AETA

3HF4

PCI-CLK-USB20

3HFH

PCI-CLK-PNX5050

3HF2

B08A

19

7HA1 WP-NANDFLASH-INV

B05A

PCI-CLK-PNX8535

RESET-SYSTEM

AJ26

B08C DIGI I/O: HDMI MUX

B03B B03C B04A B05A B08C

7P70 AD8197A-ASTZ

TSI1-ST-D(0-7)

LMI-D(0-31) TSI0-ST-D(0-7)

DDR SDRAM

19

FE-VALID

B03D STI7101: CONTROL

B03F STI7101: DDR1

7AA2 EDD2516AETA

FE-CLK

PNX8541

1N00 1

1C05

ROM_WIDTH HC_FASTMODE 0 : 8-Bit ROM /100kHz 1 : 16-Bit ROM/400kHz

AC18 B05C VIDEO

COMMON INTERFACE

CAS_LATENCY 0 : 2.5 CLKS 1 : 3 CLKS

BOOTMODE7

27M

MEM_SIZE 1 0 0 : 32MB Product SW 1 0 1 : 64MB Assert SW 1 1 0 : 128MB Assert SW

C5 D5

B09A DIGI I/O: PCMCIA INTERFACE & BUFFER

B05A CONTROL

PCI-AD(0-31)

EN_PCI_ARB 0 : DISABLES 1 : ENABLES

46 7T17 DA10048HN

DDR2-A(0-12)

B03C CHANNEL DECODER DVB-C

1T04 TD1716F

IF PROCESSING

DDR2-D(0-31)

M8

MM_CLK_P M2

45

1T04 TD1716F

B04G SDRAM

DDR SDRAM 1-2

B04A

B03A MAIN TUNER

B04N VIDEO STREAMS

8Mx16x4

TO 2 POWER SUPPLY

MM_CLK_N M1

B03B CHANNEL DECODER DVB-T

7H00 PNX8541E

7HG1 EDE2516ACSE

B06B

BACKLIGHT-OUT

1M95

PNX5050 46

LAMP-ON-OUT

6 TO POWER SUPPLY 7

MM_DATA(0-31)

DDR SDRAM

B04 PNX8541

B04G PNX 8541: DDR2

1M99

CTRL1-MIPS_LCD-PWR-ON

T2

STI7101

LMI-A(0-12)

RESET-SYSEM

B04E

44

HDMI SWITCH

16Mx16 U1 LMI-CLK LMI-CLKnot U2 LMI-CLKEN Y5

B03E STI7101: FLASH

C1

8Mx8 4Mx16

1P07 1

4

B04E

E27 USB 2.0 CONNECTOR SIDE

27M

CHANNEL VOLUME + VOLUME -

1N10

1N16

INTERRUPT

4

1N11

KEYBOARD

2

83

9

85

8

RESET-USB20

5

D21

PCI-GNT-PNX8535 PCI-REQ-USB20 PCI-GNT-USB20

E21 E22 E20

1N15

6001

3001

2

3H08

RESET-STBY

3

KEYBOARD TACT_SWITCH_INT

B10A CLASS D

AA3 AB4

AB2

B07C

U5

B04E

RESET-SYTEM

AC3

3P10

7P11

LED1 WHITE 6P10

+3V3STBY

LED1

1D10

7

7

6

6

B07A

W4

AV2-BLK

AC2

AV1-STATUS

AF2

AV2-STATUS

AF1

KEYBOARD

AF4

B07A KEYBOARD LED1

LED1

AD2

7P10 LED2

LED2 RED

4

4

LED2

LED2

3P16 IR RECEIVER +5V_SW

+5V_SW

IR

3

3

+3V3STBY

5

5

+5V_SW

8

8

LIGHT_SENSOR

1

1

7P13 7P12

RC

9H0D

RC_uP

AA2

+3V3-STANDBY +5V LIGHT-SENSOR

V5

CTRL1-STBY_LAMP-ON (P0.5)

Y4

CTRL4-STBY_SELECT-PWM-ANA (P2.6) CONTROL

BACKLIGHT-OUT

7H02 M25P05-AVMN6P SPI-CLK

6

AE4

SPI-WP

3

AE3 AD4 AE1

SPI-CSB SPI-SDO SPI-SDI

1 5 2

AD1

CTRL1-STBY_LAMP-ON

BACKLIGHT-CONTROL

AG2

7GE2 T6TF4HFG

168

REGIMBEAU_CVBS-SWITCH (P0.3)

RxP3CLK

7

7GE0 P87LPC761BDH 7 MICRO CONTROLLER (AMBI LIGHT) 6

PACIFIC 3

172

AD3 CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3

U2

LIGHT-SENSOR

AF3

U1

ENABLE-3V3 (P0.4)

U3

ENABLE-1V2 (P0.2)

V3

UART-SWITCH (P0.7)

V4

AUDIO-RESET (P0.6)

W2

AUDIO-MUTE-UP (P2.4)

B06B

B06C PACIFIC 3

178

STANDBY (P2.3)

B02B

CTRL4-P3

512K FLASH

W3

B06A

B02B

B02B B04B

B05C

1GE0 10M

7GE1 M25P05-AVMN6P

AA1

7P14 +3V3STBY

CTRL-DISP1 LAMP-ON-OUT

W1

AV1-BLK (P2.2)

B07A

6P11

B06B PACIFIC 3: DISPLAY INTERFACING

SPI-PROG

AG1

DETECT1

B07A

9

AA4

HP-DETECT (P0.0)

4

9

EA

B04A B10A

2

1P10

Y2

AB2

+12VD 1P11

Y1

ALE

DETECT-1V2-2V5-3V3 3H41 DETECT2 (P2.5)

B04A

GND

3

2

1P09 2

3002

3

1001

6002

PSEN

CEC-HDMI

B04H

+5V_SW

3P11

9H03

SPI-PROG

B04A STANDBY CONTROLLER

RESET-STBY-J

IN

MENU

+5V_SW

9H01

SDM

9H08

B04A STANDBY CONTROLLER 3H06

RST 1

EEPROM (8Kx8)

9H02

B04E

3H07

LIGHT GUIDE MODULE (OPTIONAL)

8

SDM

+3V3-STANDBY 7HD0 NCP303LSN

LG

LED PANEL

AC1

AE2

+3V3-STANDBY

1N13

J

PCI-REQ-PNX5050

7HC3 M24C64-WDW6P

7HC47

RESET-NVM_WP-NANDFLASH (P0.1)

U4

74

B04D PNX 8541: MMISCELLANEOUS

1N12 1N14

USB20-1-DM USB20-1-DP

3HD3

CHANNEL +

7

B04C PNX 8541: NVM B08B B04B

75

PCI-CLK-USB20

RESET-SYSTEM

HOT-PLUG

D10

27M

KEYBOARD CONTROL ON / OFF

87

B04H DIGITAL VIDEO IN

PCI-AD(0-31)

Only for MPEG4

Only for MPEG4

E

2 3

USB20-OC2

PCI HOST CONTROLLER

1H00

27MHZ-3V3

3 2

7A12

4

1

AH30 WP-FLASH-ST

78

12M

EMI-A(1-22)

7A10-3

USB-OC

FLASH EPROM

USB20-OC1

1P01

EMI-D(0-15)

Only for MPEG4

CPU-27MHZ

B04F CONTROL

7P00 ISP1564HL 7A50 M29W640FT70N6

1

B04F PNX8535: CONTROL

B08A DIGI I/O: USB CONNECTOR + CONTROLLER

B04B B07A

6 3

B02A B02C B04B

1 5 2

B02A B02C B04B

512K FLASH

B04B B04C B04M AUDIO-MUTE

1GE1 164

B10A 165

60M

H_17650_077.eps 220508

Block Diagrams, Test Point Overview, and Waveforms

Q528.2E LA

6.

42

SSB: Test Points (Top Side) FAC1 FH03 IA2C IC57 IGBC IGHH IH06 IHBT IHBU IHPF IHR0 IHR3 IHR4 IHR5 IHR6 IHRC IHRF INAZ IP0P IP3L IP3T IP4M IP5K

3139 123 6341.1

H_17650_048.eps 070108

E4 C5 F4 B2 A4 A3 B5 B5 B5 C5 C5 C5 C5 C5 C5 C5 C5 E5 D2 E6 D8 E6 E6

Block Diagrams, Test Point Overview, and Waveforms

Q528.2E LA

6.

43

SSB: Test Points (Bottom Side) F1 F2 F3 F4 F5 F6 F7 F8

B1 B1 B1 B1 B1 A1 B1 A1

F9 I1 I2 I3 I4 I5 I6 I7

A1 A8 A2 B7 B7 A2 A2 A2

I8 I9 U1 F10 F11 F12 F13 F14

B1 B7 D6 A1 B2 B2 A4 A1

F15 F16 F17 F18 F19 F20 F21 F22

A4 A4 A4 A4 A4 A4 B1 B1

3139 123 6341.1

F23 F24 F25 F26 F27 F28 F29 F30

B1 B1 B1 B1 A2 A1 F8 A1

F31 F32 F33 F34 F35 F36 F37 F38

A2 A2 A2 A2 A3 A2 E7 B2

F39 F40 F41 F42 F43 F44 F45 F46

B1 B2 B1 B2 D8 B2 A2 A2

F47 F48 F49 F50 F51 F52 F53 F54

A2 E8 F8 B2 B2 B2 A3 A3

F55 F58 F59 F60 F62 F63 F64 F65

C1 A3 B3 B3 A4 A4 A4 A4

F66 F67 F68 F69 F70 F71 F72 F73

A4 A4 A4 A4 A4 A4 A1 A1

F74 F75 F76 F77 F78 F79 F80 F81

A1 B1 B1 A1 A1 A1 A1 A1

F83 F84 F85 F86 F87 F88 F89 F90

B1 A1 B1 B1 C1 C1 B1 C1

F92 I10 I11 I12 I13 I14 I15 I16

A1 A7 A7 A7 A7 B7 B7 A7

I17 I18 I19 I20 I21 I22 I23 I24

B2 B2 A7 A7 F8 A7 A7 A1

I25 I26 I27 I28 I29 I30 I31 I32

A5 A4 A4 A4 A4 A4 A4 A4

I33 I34 I35 I36 I37 I38 I39 I40

A4 A5 A4 A1 F8 F7 A1 A1

I41 I42 I43 I44 I45 I46 I47 I48

F7 F8 A1 F7 F7 F7 B3 B3

I49 I50 I51 I52 I53 I54 I55 I56

A3 D7 D8 B1 D8 A1 D7 A3

I57 I58 I59 I60 I61 I62 I63 I64

E8 D8 B3 A1 A1 B1 B1 B1

I65 I66 I67 I68 I69 I70 I71 I72

B1 A1 B1 B1 B2 B2 A1 B3

I73 I74 I75 I76 I77 I78 I79 I80

A3 E8 E8 E8 E8 E7 E7 E8

I81 I82 I83 I84 I85 I86 I87 I88

E7 E7 E7 E8 E8 E8 E7 E7

I89 I90 I91 I92 I93 I94 I95 I96

E8 D7 D8 E7 E8 D8 E7 D8

I97 I98 I99 AH00 AT62 AT63 AT64 AT65

D8 D7 E7 B4 D2 D2 C2 C2

FA10 FA11 FA50 FA51 FA52 FA53 FA54 FA55

E6 E5 F5 F5 F5 F6 F5 F5

FA56 FA57 FAA0 FAA1 FAA2 FAA3 FAC0 FAM0

F5 F5 F7 F6 E6 E6 E5 F5

FAM1 FAM2 FAM3 FAM4 FAM5 FAM6 FAM7 FAM8

F5 F5 E4 E4 F4 F4 F4 F4

FAM9 FAMA FAMB FAME FAMJ FC10 FC11 FC12

F4 F4 F4 F4 E4 A5 A7 A8

FC13 FC14 FC16 FC17 FC1A FC1B FC1C FC1D

A7 A7 A7 A5 A5 A5 A7 A5

FC1E FC1F FC41 FC42 FC43 FC44 FC45 FC46

A5 A7 B7 A7 A7 A7 A7 A7

FC47 FC48 FCA2 FCA3 FCD1 FCD2 FCD3 FD10

B7 B7 B7 A8 A6 B6 B6 D8

FD11 FD12 FD13 FD14 FD15 FD16 FD17 FD19

C8 D8 D8 D8 D8 D8 D8 D8

FD20 FD21 FD22 FD23 FD24 FD25 FD26 FD27

D8 D7 C8 C8 C8 C8 C8 C7

FD28 FD29 FD30 FE10 FE11 FE12 FE14 FE17

D7 C8 C7 B1 B1 B1 A1 C1

FE18 FE20 FE21 FE22 FE23 FE24 FE25 FE27

B1 C1 C1 B1 B1 A1 B1 A4

FE28 FE29 FE30 FE31 FE32 FE33 FE34 FE35

A1 A1 A1 A1 A1 B1 B1 A1

FE36 FE37 FE38 FE39 FE40 FE41 FE42 FE43

H_17650_049.eps 070108

A1 A1 A4 A4 A4 A4 A4 A4

FE44 FE45 FE46 FE47 FE48 FE49 FE50 FE51 FE52 FE53 FE56 FE57 FE59 FE60 FE61 FE62 FE63 FE64 FE65 FE66 FE67 FE68 FE69 FE70 FE71 FE72 FE73 FE74 FE75 FE76 FE77 FE78 FE79 FE80 FE81 FE82 FE83 FE84 FE85 FE86 FE87 FE88 FE89 FE90 FE91 FE92 FE93 FE94 FE95 FE96 FE97 FE98 FE99 FEA0 FEA1 FEA2 FEA3 FEA4 FEA5 FEA6 FEA7 FEA8 FEA9 FEB0 FEB1 FEB2 FEB3 FEB4 FEB5 FEB6 FEB7 FG00 FG01 FG02 FG03 FG04 FG05 FG06 FG07 FG08 FG09 FG10 FG11 FG12 FG13 FG14 FG15 FG16 FG17 FG18 FG19 FG20 FG21 FG22 FG23 FG24 FG25 FG26 FG50 FG51 FG52 FG53 FG54 FG55 FG56 FG59 FG5A FG5B FG5C FGE0 FGE1 FGE2 FGE3 FGE4 FGE5 FGE8 FGE9 FGF2 FGF3 FGG0 FGG1 FGG3 FGG4 FH00 FH01 FH02 FH04 FH06 FH07 FHC1 FHC2 FHC3 FHC4 FHC5

A4 A4 A4 A4 A3 B3 B3 A3 B3 A3 C1 A3 A3 B2 B2 B2 B3 B2 B2 A2 A2 B2 A3 B2 B1 B2 B1 B2 B1 A2 A3 A2 A2 A2 A2 A1 A2 A1 A2 B1 B1 B1 B1 B1 B1 A4 A4 A4 A4 A4 A4 A1 A4 B2 B2 A1 A1 A1 A1 A1 A1 B1 B1 B1 B1 A1 A1 B1 B1 B1 B1 A7 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A6 A7 A7 A7 A7 A7 A7 A7 A8 A8 A5 C8 C8 C8 A5 A6 A6 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 C4 C4 B5 A4 B6 C6 B6 B6 B4 B4 B4

FHC6 FHC7 FHC9 FHD0 FHD1 FHE1 FHE2 FHE3 FHG0 FHM0 FHM1 FHM2 FHM3 FHP2 FHP3 FHP4 FHP5 FHPA FHPB FHQE FHR1 FHR2 FHR3 FHR4 FHR5 FHR6 FHR7 FHR8 FHR9 FHRA FHRB FHRC FHV3 FHV4 FHV5 FHV6 FN05 FNA4 FNA5 FNA6 FNA7 FNA8 FNA9 FNAA FNAB FNAC FNAD FNAE FNAF FP00 FP07 FP08 FP09 FP0A FP0B FP0V FP30 FP31 FP32 FP33 FP34 FP35 FP3K FP3R FP3S FP3T FP3U FP3V FP3W FP41 FP42 FP46 FP47 FP48 FP49 FP4A FP4B FP4C FP4L FP4M FP4N FP4P FP4Q FP4S FP4T FP61 FP62 FP63 FP70 FP71 FP72 FP73 FT11 FT15 FT17 FT36 FT37 FT38 FT39 FT40 FT41 FT42 FT50 FT51 FT56 FT57 FT58 FT5B FT5C FT76 FTA1 FTA2 FTA3 FTA4 FTA5 FTA7 FTA8 FU00 FU01 FU02 FU03 FU04 FU05 FU06 FU07 FU08 FU09 FU0A FU0B FU0C FU0D FU0E FU10 FU11

B6 B6 C6 B5 B5 C5 C5 C5 C7 B4 B4 B5 B5 B4 A5 A5 B4 A5 A5 B4 C4 C4 C4 C5 C4 D4 C4 C4 C4 C4 C4 C4 B5 A5 A5 A5 E2 D4 D3 D4 D3 D4 D3 D4 D4 D4 D4 D4 E4 D6 D1 C1 C1 D1 E3 D1 E3 E3 E3 E3 F3 F3 E3 D1 D1 D1 D1 D1 D1 E3 E3 E4 E3 E3 E3 E3 E3 F3 E3 E4 E3 E3 E4 E3 E4 D2 D2 D1 D3 E3 E3 D3 B2 C2 C2 C4 C2 C2 C2 C3 C3 C3 C2 C2 C2 C2 D2 D1 D1 C2 C3 C2 C4 C3 C3 C4 C4 E8 E8 E7 E8 E8 F8 E8 E8 E7 E7 E7 E7 E8 D8 E7 E8 E8

FU12 FU13 FU14 FU15 FU16 FU17 FU18 FU19 FU1A FU1B FU1C FU1D FU1F FU1G FU20 FU21 FU22 FU23 FU27 FU28 FU29 FU80 FU81 FU82 FU83 FU84 FU85 FU86 FU87 FU88 FU89 FU8A FU8B FU8C I100 I101 I102 I103 I104 I105 I106 I107 I108 I109 I110 IA10 IA11 IA16 IA17 IA18 IA19 IA20 IA21 IA22 IA23 IA24 IA25 IA26 IA27 IA28 IA29 IA2A IA2B IA50 IA53 IAA0 IAA1 IAA2 IAA3 IAA4 IAA5 IAC2 IAC3 IAC4 IAC5 IAC6 IAC7 IAE1 IAE2 IAE3 IAE4 IAE5 IAE6 IAE8 IAE9 IAEA IAM1 IAM2 IAM3 IC00 IC01 IC02 IC03 IC04 IC05 IC06 IC07 IC08 IC43 IC44 IC56 ICA0 ICA1 ICA2 ICA3 ICA4 ICD1 ICDA ICDB ICDC ICDD ICDE ICDF ICG0 ICG1 ICG2 ICG3 ICG4 ICG5 ICG6 ICG7 ICG8 ICG9 ID10 ID11 ID12 ID13 ID14 ID15 ID16 ID17 ID18 ID19 ID20

E8 F8 F8 E8 F8 F8 E8 F8 E8 E8 E8 E8 D8 E7 E8 E8 E8 E8 F8 E8 E7 F7 F7 F7 F8 F8 F7 F7 F7 F7 F8 F8 F8 F7 E8 D8 D8 D8 E8 D8 E8 D8 D8 D8 D8 E5 F6 E6 E6 D6 D6 E6 E6 E6 F5 E5 F5 F5 F5 F5 E5 F5 E5 F5 F5 E5 E6 E5 E5 F6 E6 E5 E5 E5 E5 F4 E5 F5 F5 E5 E6 F6 E5 E6 E5 E5 E4 F4 F4 A7 B7 B7 B7 B7 A7 A7 B7 A7 B7 B7 B7 B7 B7 A7 A8 A8 A8 B7 A7 A7 B6 B6 B6 A7 A7 A7 A7 B7 A7 A7 A7 A7 A7 C8 C8 C7 C7 C7 C7 C7 C8 C7 C8 C8

ID21 ID22 ID23 ID24 ID25 ID26 ID27 ID28 ID29 ID30 ID31 ID32 ID33 ID34 ID35 ID36 ID38 ID39 ID40 ID41 ID42 ID43 ID44 ID45 ID46 ID47 ID48 ID49 ID50 ID51 ID52 ID53 IE00 IE01 IE02 IE03 IE04 IE05 IE06 IE07 IE09 IE15 IE18 IE20 IE21 IE22 IE23 IE24 IE25 IE26 IE29 IE31 IE33 IE34 IE35 IE38 IE48 IE51 IE57 IE58 IE60 IE61 IE62 IE66 IE67 IE68 IE70 IE72 IE73 IE75 IE76 IE79 IE80 IE81 IE82 IE84 IE85 IE86 IE87 IE88 IE89 IE90 IE91 IE92 IE93 IE94 IE96 IE98 IEA1 IEA2 IEA3 IEA4 IEA5 IEA6 IEA7 IEA8 IEB0 IEB1 IEB2 IEB3 IEB4 IEB5 IEB8 IEB9 IEBA IEBB IEBC IEBD IEC0 IEC1 IEC2 IEC3 IEC4 IEC5 IEC7 IEC8 IEC9 IECA IECB IG53 IG65 IG67 IG70 IG71 IG72 IG73 IG75 IG77 IG78 IG79 IG89 IG90 IG92 IG93

D8 D7 C7 C8 C8 D7 D7 C8 C7 C8 D7 C7 C7 C7 C7 C7 C7 C7 C8 C7 C7 C8 C8 C8 C7 C8 C7 C8 C8 C7 C8 C8 B3 A4 A4 A3 A3 B3 A2 A1 A1 A4 B1 B2 B2 B1 B1 A4 A4 A3 B3 B3 A4 A4 A4 A1 A1 A2 A4 B1 A1 A1 A4 B1 B1 A4 A1 B1 A1 A4 A5 A4 A4 A4 A4 A4 A4 A4 A4 A5 A1 A1 A2 A2 A3 A3 A1 A1 A2 A2 A2 A2 A2 A2 A2 B1 B2 B2 B1 B1 B1 B1 A1 A4 B2 A2 B1 B1 B2 B2 B2 B2 A2 A2 A2 A2 A2 A2 B1 A8 A7 B8 B8 A8 A8 A8 A7 A7 A7 A5 A5 A5 A8 A8

IG94 IG95 IG97 IGA2 IGA3 IGA4 IGA7 IGA8 IGA9 IGB1 IGB2 IGB3 IGB4 IGB5 IGB6 IGB7 IGB8 IGB9 IGBA IGBB IGE0 IGE2 IGE8 IGE9 IGF5 IGH0 IGH7 IGH8 IGH9 IGHA IGHB IGHC IGHD IGHE IGHG IH00 IH01 IH02 IH03 IH04 IH07 IH08 IH09 IH0Z IH10 IH11 IH14 IH16 IH17 IH18 IH19 IH26 IH28 IH91 IH9D IH9E IH9F IH9G IH9H IH9K IH9M IH9N IH9P IH9Q IH9R IH9T IHAR IHAS IHAT IHAU IHB0 IHB1 IHBF IHBG IHBH IHBJ IHBK IHBL IHBM IHBV IHBW IHBY IHBZ IHC1 IHC2 IHC5 IHC6 IHC7 IHD0 IHF0 IHF5 IHF6 IHF7 IHF8 IHF9 IHFA IHFB IHG0 IHG1 IHG5 IHG6 IHK1 IHK2 IHK3 IHK4 IHKM IHM1 IHM2 IHM3 IHM6 IHM9 IHMG IHMV IHMW IHMY IHMZ IHN0 IHN3 IHN4 IHN6 IHN8 IHNA IHNB IHND IHNE IHNF IHNG IHNH IHNJ IHNK IHQ3 IHQC IHQD IHQW

A8 A8 A8 A5 A5 A6 A5 A5 A7 A5 A5 A5 A5 A8 A7 B8 B8 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A6 C4 B4 B4 C4 B4 B5 B4 C6 B5 C6 C6 B5 B4 B4 B4 B4 B4 C5 B5 B4 B4 C4 B4 B5 B5 C4 C4 C4 C4 C4 B4 D6 D6 C5 D5 B4 B4 B5 B5 B4 B4 B5 C4 C5 B4 B4 B4 B4 B6 B6 A5 D1 B6 B5 B6 B6 B5 C6 C6 B4 B5 B6 B5 B5 A5 C6 D5 C5 C5 C5 C5 B6 B6 B5 C6 B6 B6 B4 B5 B4 B5 B6 B5 B5 B4 B5 B5 B5 B5 B5 B6 B6 B5 B6 B5 B4 B4 B5 B5

IHQY IHR1 IHR8 IHRA IHRB IHRE IHS2 IHS3 IHS4 IHS5 IHS6 IHSA IHSB IHSC IHSD IHSE IHSG IHSH IHSK IHSL IHSM IHSN IHSP IHSS IHST IHV1 IHV2 IHV3 IHV4 IHV5 IHV6 IHV7 IHV8 IHV9 IHVA IHVB IHVC IHVD IHVF IHVG IHVH IHW0 IHWA IHWB IHY0 IHY1 IHY2 IHY3 IHY4 IHY5 IHY6 IHY7 IHY8 IHYA IHYB IHYC IHYD IHYF IM2N IM2P IM2Q IN03 IN10 IN11 IN18 IN20 IN22 IN24 IN25 IN26 IN27 IN28 IN29 IN2A IN2B IN2C IN2D IN2E IN2F IN2G IN2H IN2J IN2K IN2L IN2M INAF INAG INAK INAM INAN INAP INAQ INAR INAS INAT INAU INAV INAW INAY IP00 IP01 IP02 IP04 IP05 IP06 IP07 IP08 IP09 IP0A IP0B IP0C IP0D IP0E IP0F IP0G IP0H IP0J IP0K IP0L IP0M IP0N IP32 IP33 IP3A IP3B IP3D IP3E IP3F IP3G IP3H IP3J IP3K IP3M IP3N

B4 C4 D4 C4 C4 C4 C4 C4 C4 C4 C4 C5 D4 C4 C5 C4 C5 C4 C4 C4 C5 C4 C4 C4 C4 B5 B5 A5 B5 B5 A5 B5 B5 B5 B5 B5 B5 B5 B5 A5 A5 C5 B5 B5 B5 C5 C5 C6 C5 C5 C5 C5 C5 D5 C5 C5 C6 C5 D6 D5 F2 F2 E2 F2 E2 D6 D6 D4 D4 E2 E2 E2 E2 E2 E2 E2 E2 E2 E2 F2 F2 F2 F2 F2 F2 F3 F2 F3 F3 F3 E4 E4 E4 D3 E4 E4 E4 E4 E4 D7 D7 D1 D6 D7 D6 D6 D6 D6 D6 D7 D6 D7 D6 D6 D6 D6 D3 D7 D6 D6 D6 D2 E4 E3 E3 D1 E3 E3 E3 E3 E3 E3 D1 D1

IP3P IP3Q IP42 IP49 IP4B IP4C IP4D IP4H IP4L IP4P IP4Q IP4U IP4Y IP5R IP5Z IP64 IP67 IP70 IP7A IP7B IP7C IP7D IP7E IT01 IT02 IT03 IT06 IT07 IT08 IT09 IT11 IT12 IT13 IT14 IT15 IT16 IT17 IT18 IT19 IT20 IT21 IT22 IT23 IT24 IT25 IT26 IT27 IT28 IT31 IT32 IT33 IT41 IT42 IT43 IT45 IT5A IT70 IT71 IT73 IT74 IT75 IT76 IT77 IT78 IT79 IT7A IT7B IT81 IT82 IT83 IT86 IT89 IT90 IT91 IT92 IT93 IT94 IT95 IT96 IT97 ITA2 ITA3 ITA4 ITA5 ITA6 ITA7 ITA8 ITA9 ITAA ITAB ITAC ITAD ITAE ITAF ITAG IU00 IU01 IU02 IU03 IU04 IU05 IU06 IU07 IU08 IU09 IU0A IU0B IU0C IU0D IU0E IU0F IU0G IU0H IU0K IU0M IU0N IU0P IU0R IU0S IU0T IU0U IU0V IU0W IU0Y IU0Z IU10 IU11 IU12 IU13 IU14 IU15 IU16 IU19 IU1B

D1 E1 E2 E3 E3 E3 E2 E2 E3 E4 E3 D1 D1 D1 D1 D1 D2 E3 D3 D3 E3 D3 D3 D3 C2 C2 D3 C4 C2 D3 C2 D3 D2 D2 C2 C3 C3 C3 C2 C2 C2 C3 C2 C2 C2 C2 B2 C2 C2 C2 C2 C2 C2 C2 C3 D1 C2 C2 C2 C2 C2 C2 C2 C2 D1 D2 D2 D1 C2 C2 C2 D2 C3 C3 C2 C2 C2 C2 C2 C2 C3 C3 C3 C3 C3 C3 D3 D4 C2 D3 C2 C2 C2 C2 C2 D8 E8 E7 D7 D8 D8 E7 D8 E8 E7 D8 E7 E8 E7 E7 E8 E8 E8 E7 E7 E7 E8 E8 E8 E7 E8 E7 E7 D7 D8 E7 E8 E7 E7 E7 E8 E8 E7 E8

IU1D IU1E IU1F IU1G IU1H IU1K IU1M IU1N IU1P IU1R IU1S IU1T IU20 IU21 IU22 IU23 IU24 IU25 IU26 IU28 IU29 IU2A IU2C IU2D IU2E IU2F IU2G IU2H IU2J IU2M IU2P IU2R IU2T IU2V IU2Y IU2Z IU34 IU35 IU36 IU37 IU38 IU39 IU3B IU3C IU3D IU3E IU3F IU3G IU3H IU3K IU3M IU3N IU3P IU3R IU3S IU3T IU3U IU3V IU80 IU81 IU82 IU83 IU84 IU85 IU86 IU87 IU88 IU89 IU8A IU8B IU8C IU8D IU8E

D7 D8 D8 D7 D8 E7 E7 E8 E8 D7 D8 D8 F8 F7 F7 F7 F7 F8 F8 F7 F7 F7 F8 F8 F8 F8 F8 F8 F8 F7 F7 F7 F8 F7 F7 F8 D8 D8 F8 E8 E8 E8 F8 D8 D8 D8 E8 D8 E8 D8 D8 D8 D8 D8 D8 D8 E8 E7 D8 F7 F7 F7 F7 F8 F7 F7 F7 F7 F7 F8 F7 F8 F7

Block Diagrams, Test Point Overview, and Waveforms

Q528.2E LA

6.

44

I2C IC Overview I²C PNX8541: CONTROL_MIPS

DIGI I/O: HDMI MUX

B08C

7H00 PNX8541E

B06C

PACIFIC 3

B03B

CHANNEL DECODER DVB-T

B03A

MAIN TUNER

B03C

CHANNEL DECODER DVB-C

STI7101: CONTROL

B03D

SDA-SSB

B04Q

PNX8541: FLASH

85

PCRX-DDC-SDA

86

PCRX-DDC-SCL

80

PDRX-DDC-SDA

81

PDRX-DDC-SCL

3P3S

4

7HG1 EDE2516ACSE

2 CHANNEL I2C MULTIPLEXER

DDR2 SDRAM 8Mx16x4

DDR2-A

I2C2-SDA I2C2-SCL

SCL1

3HPD

SCL-UP-MIPS

AK28

SDA2

3HPG

AK29

SCL2

3HPF

AK27

B04A

B04A

SDA-UP-MIPS SCL-UP-MIPS

PNX8541: STANDBY CONTROLLER

3H02

3H03

I2C uP-SCL AG4

3H38-1

EEPROM

EEPROM

EEPROM

EEPROM

SDA-SSB

SDA-PNX5050

SCL-SSB

SCL-PNX5050

P0.7

HDMI 2 BACK

CHANNEL RECEIVER

IF PROCESSING

CHANNEL RECEIVER

ERR 37

ERR 26

7GE1 M25P05

ERR 46

512K FLASH

4x HDMI CONNECTOR

PACIFIC 3: DISPLAY-INTERFACING

7GE0 P87LPC764BDH

SDA-SSB-MUX1

CG01

SDA-I2C4-DISP

CG02

SCL-I2C4-DISP

3G53

1 2

61

PWM-3

68

PWM-OR

7AA2 EDD2516A

LMI-D

DDR SDRAM 16Mx16

LMI-A

3A44

STI7101: FLASH 7A50 M29W640FT70N6

FLASH EPROM 8Mx8 4Mx16

MICRO 18 1 CONTROLER

SDA-AMBI-3V3

17

SCL-AMBI-3V3

8

EMI-D(0-15)

EMI-A(1-22)

Only for MPEG4 1GC0 9G60

SDA-AMBI

3G97

9G59

SCL-AMBI

3G95

3 1 5

69

LVDS CONNECTOR TO DISPLAY

DIGITAL INTERFACE

B03E

+3V3

62

PACIFIC 3: LVDS

AJ30

7A00 STI7101BWC

Only for DVB-C B06B

HDMI 3 BACK

*3th HDMI CONNECTOR IS OPTIONAL (3th HDMI or MPEG4)

3A45

3TB7

3TB8

3T56

3T57

3T28

3T26

3GG2-4

PACIFIC 3

AJ31

7AA1 EDD2516A

+3V3

6 4

TO AMBI-LIGHT MODULE (OPTIONAL)

MAIN TUNER

SDA-SSB-MUX2

9T62

SCL-SSB-MUX2

9T65

6

PNX5050: VIDEO

1T04 TD1716F/BHXP MAIN TUNER

PNX8541: NVM

C8

SCL-UP-MIPS

PNX5050

6

PNX5050: DDR1

B05B D8

ERR 34

7CA0 EDD1216AJTA

7C00 PNX5050EH/M1

SDA-UP-MIPS

7CA1 EDD1216AJTA

MM_DATA

DDR SDRAM 16Mx16

MM_A

ERR 22

7HC3 M24C64 EEPROM (MAIN NVM)

7HC4

V3

15

SCL-SSB-MUX1

B03A

B05C

512K FLASH

P0.1

DRX-DDC-SCL

7

PNX5050: CONTROL

5

U4

DRX-DDC-SDA

1P34* 16

3G52

7H02 M25P05

STANDBY CONTROL

3P4P

7P38 M24C02

ERR 12

B04C 3H38-2

7P31 M24C02

+3V3-PER

+3V3-STANDBY

I2C uP-SDA AH3

7P44 M24C02

ERR 24

8

B05A

15

3T36

I2C1-SCL

CRX-DDC-SCL

7TA4 TDA10023HT

6

7P36 M24C02

B06A

CRX-DDC-SDA

HDMI 1 BACK

7T57 TDA9898HL

STI7101: DDR1

6

3C50-3

I2C1SDA

SDA-UP-MIPS

5

6

15 1P33 16

B03F 17

ERR 11

7 3HPE

SDA1

5

6

BRX-DDC-SCL

18

7T17 TDA10048HN

1G50

5

2 1

AH27

5

6

PACIFIC 3: DISPLAY-INTERFACING

3HPZ

DDR2-D

3HPY

DDR

B06B

3HPX

+3V3-PER 7HP5 PCA9540BDP

7HG0 EDE2516ACSE

3P4Q

3P4L

5

PNX8541: DDR2

3P3D

3P4M

NAND FLASH (512x8)

3HPC

B04G B04G

3P3B

3P3F

PCI XIO PCI-AD<>NAND-AD

3P46

3P3G

7HA0 NAND512W3A

B04F

3P44

3P48

24

3G92-2

ERR 53

PBRX-DDC-SCL

BRX-DDC-SDA

23

35

3G92-3

PNX8541

94

3P4C

15 1P32 16

34

7GE2 T6TF4HFG

1 2

ERR 23

PBRX-DDC-SDA

ARX-DDC-SCL

200

19 18

DDC-SCL

93

3P3Y

HDMI SIDE

198

3T35

90

PARX-DDC-SCL

1P35 16

3P4W

DDC-SCL

99

ARX-DDC-SDA

4P4S

C9

DDC-SDA

HDMI MUX

DIN-5V

3P3C

89

3P3Z

3P3A

DDC-SDA

PARX-DDC-SDA

3P40

E10

98

3P43

7P70 AD8197A

PNX8541: DIGITAL VIDEO IN

B04H

HDMI

49

3C50-1

B04H

50

CIN-5V

BIN-5V

AIN-5V 3P3V

ERR 03

3GG2-3

SCL-SSB

3P3U

3HPH

3PRT

3HPJ

SCL3

3HPK

SDA3

AJ28

3HPM

AJ27

3P76

I2C3-SCL

3P79

I2C3-SDA

ERR 05

DIGI I/O: HDMI CONNECTORS + DVI AUDIO INPUTS

B08B

+3V3-PER

RESET-NVM_WP-NANDFLASH

B07D

8

ANALOG I/O: BOLT-ON

7HC1

UART-SWITCH 7HC0 74HC4066PW

+3V3-STANDBY

TXD

3H58

RXD AB1

3H60

B04E

AC5

5 RXD-UP

2

TXD-UP

9

2

1 8

RXD TXD

9 10

11 RXD TXD

E27

RXD-MIPS

3

D28

TXD-MIPS

10

B04O

B04O

B0_UART B1_UART

R2-OUT

1

UART FOR FACTORY USE ONLY

T2-IN RS232 INTERFACE

R2-IN 8

3J11

7

3J12

PNX8541: DIGITAL VIDEO OUT / LVDS

T2-OUT

VID_OUT TTL

1E50 3

7E17 ST3232C

4

AF15

9HWH

DV-B0_UART2-RX

12 R1-OUT

AK16

9HWG

DV-B1_UART2-TX

11

1E06 3 2

UART SERVICE CONNECTOR

T1-IN UART LEVEL ADAPTER

H_17650_078.eps 220508

Block Diagrams, Test Point Overview, and Waveforms

Q528.2E LA

6.

45

Supply Lines Overview SUPPLY LINES OVERVIEW

1U02

5U51

SGND1 BL-ON

MAIN BL-DIM POWER SUPPLY BOOST

2

2

3

3

5

LAMP-ON-OUT

6

6

BACKLIGHT-OUT

7U0H-1 15

12V/5V CONVERSION

Dual 7U0H-2 Out-of-Phase Synchronous 2 Buck Controller

B04A

+5V

5U05

B03a, B04a,l,B06b, B07a,d,B08a, B09a,B10a

B02a B02c

B02a

BACKLIGHT-BOOST

7U0D-1

N.C.

12V/1V4 CONVERSION

7U0D-2

8

8

3.3VSB

+3V3-STANDBY

PSON SGND1 SGND1

2

2

3

3

4

4

5

5

+1V2-STANDBY

7U0M

7U0N VOLT. REG.

12V 12V

6

6

7

7

8

8

-12VA

+3V3 5HYA

B02c

B04A

+3V3

+3V3

+2V5

+2V5

5HK3

5U52

B03B

+12V

7U0R +2V5-REF VOLT. REG.

T3A

+5V-TUN

B02a B05d

CHANNEL DECODER DVB-T

5HY1

+12VD

+VCC-LM

B04B

B02l

5HY4

B04Q

+3V3-STANDBY

11

B05A

+3V3

B02a B05d

+1V2DVB

+33VTUN

B04G

5A10

B03d,f,h,B04a

+3V3F +1V8-PNX8541 3HJ1 3HJ3

B04H

STI701: DDR1

+2V5

B02b

+2V5-LMI 3AAN

+12VF

7U08 14]0 1

Dual 7U02 Out-of-Phase Synchronous 2 Buck Controller

12V/3V3 COVERTER 5U01

+3V3

5U03

+3V3F

7U28

+1V8

LMI-VREF-ST

B03b,c,d,e,h,i, B04a,c,l,m,p,q, B05a,c,d,B06b,c, B07a,d,B08a,c, B09a,b,B10a

3AAR

LMI-VREF2-ST

7U05

7U06

12V/1V2 COVERTER 5U00 +1V2-PNX8541

STI701: AV-INTERFACE

B04K

1V2-STANDBY

1V2-STANDBY B02a

VDDE-2V5

5AE7

+2V5-CLKGENA

5AE0

VDDE-3V3

7G54

24VA SGND3 24VA

B04M

PNX8541: AUDIO

SGND3

VDISP

+3V3-STANDBY

+3V3

+3V3

+5V

+5V

DIGI I/O: ETHERNET

+3V3

+3V3 5NA1

+3V3AN

5NA2

+3V3DN

B06a

B02b

B10A

CLASS D

+3V3

+3V3

+AUDIO-POWER 5D14

B02b

5D15

B06C

PACIFIC 3 +3V3 5GE2

B04N

PNX8541: VIDEO STREAMS

+3V3-P3

7GE3 +2V5-PF

+3V3-PER

IN OUT COM

+3V3-PER

2V5-LMI

VDDA (12V2) VDD (12V2) -AUDIO-POWER

3D15

VSSA (-12V2) VSS (-12V2)

5D10

B02a

B03g

3D19

-AUDIO-POWER

+3V3-STANDBY +3V3

+3V3

+AUDIO-POWER

5D11

B02c

+3V3-STANDBY

B02a

5GE0

+2V5-P3

5GE1

+2V5-PLL

5GE3

+1V5-P3

5GE4

+1V5-PLL

B02b B02c

+3V3-STANDBY

+3V3-STANDBY

+5V

+5V 5D16

1D10 5 8

TO 1G50 B06A SSB

7GE5 +1V5

B04O

2 3 TO J1 4 AMBI-LIGHT UNIT

+5V

B02a

CN4 1

5 6

5G55

B04P

+3V3

B03f

24VA SGND3

PCMCIA-VCC-VPP

+12VD

B04P 2V5-LMI

3N09

+8V2-PAS

+3V3

+3V3TMDS

B09B

1G50 41

B02a

+3V3 5AE2

+3V3_BUF

B02b +5V

+3V3

+1VTMDS

5AE4

+3V3 5N01

+5V

PACIFIC 3: DISPLAY-INTERFACING

+3V3-STANDBY

+2V5

+3V3

VDISP

+12VD

PNX8541: AUDIO

VDDA-AUDIO

B02b

B02b

B06B

B02b

+2V5

DIGI IO: PCMCIA INTERFACE & BUFFER

+3V3

PACIFIC 3: LVDS

VDISP

B06b

7HQ0

SENCE+1V

B02b

+5V-CON

+T

B06A

+1V

15

+5V-MUX

B05b B08b

STI701: POWER

5AE8

B02b,B03b, B04a,e,p

+2V5-PNX5050

7CD1

+3V3-PER

+5V

B02c +3V3TMDS

+1V

B02a

+3V3F

B02a

B04g

PNX8541: ANALOGUE AV

+3V3-PER

5P76

B04P

B02a

B03H

B09A

+1V8-PNX8541

IN OUT COM

B02b

CONTR+1V8-PNX8541

B02a

B04L B03G

+3V3TMDS

B03h

7U27 1V8 STAB.

16

3AAA

+3V3-ANA

+2V5-REF

B03h

LMI-VREF

B02b,c

+V-LM833

3CD7

AUDIO-VEE

5P75

3CD0 7CD0-2

-AUDIO-POWER

5HM1

+2V5 5AA0

+12V

+3V3-DIG

+5V-CON

AUDIO-VDD

-AUDIO-POWER

B02b

DC/DC 3V3_1V2

5P74

B08b

+AUDIO-POWER

5HM0

7UA0 NCP5422

3CD8

RREF-PNX8535

+AUDIO-POWER

+3V3

B02c

+12VD

PNX8541: DIGITAL VIDEO IN

PNX8541: AUDIO

B08c

+3V3-STANDBY

DIGI I/O: HDMI MUX

+2V5-DDR

+12VD

+3V3F

+3V3

+3V3

5U02

+2V5-DDR

B05b

DDR2-VREF-DDR

STI701: FLASH

B04I

DIN-5V

+5V-CON

+3V3

B02a

SENCE+1V4-PNX5050

B04P

B02a

+12V

CIN-5V

B05a

+1V4-PNX5050

B02a

B02b

RREF-PNX8535

B08C

+3V3-D

+2V5-REF

B02b

B02b

1P34* 18

BIN-5V

+3V3-STANDBY

B02b

+3V3 5CD1

B02b

B02a

B03F

HDMI CONNECTOR

1P33 18

PNX5050: SUPPLY

+3V3

B02a

B02A

HDMI CONNECTOR

AIN-5V

*(Optional)

DDR2-VREF-CTRL

V_LVC04

+1V2-PNX8541

7U70-2 +2V5-REF

+3V3

+1V4-PNX5050 +3V3F

B02a

+2V5

B02b

B03E

VREF-PNX5050

B05d

1P32 18

PNX5050: VIDEO

B02a

PNX8541: DDR2

STI701: CONTROL

+2V5

B03h

3CA1

B02a

B05d

+1V

VREF-DDR

+3V3 +3V3-10023

+3V3

7U72

+2V5-DDR 3CA3

1P35 18

+3V3-PER

+1V8-PNX8541

+1V2-PNX8541

+2V5-PNX5050

+3V3

PNX8541: CONTROL_PCI

B05D

VSW

+2V5

DIGI I/O: HDMI CONNECTORS + DVI AUDIO INPUTS

HDMI CONNECTOR

B04P

7TA3 +1V8DVB

7U0P

7U70-1 +2V5-REF

+5V

HDMI CONNECTOR

+3V3-PER

+3V3-PER

+3V3

7TA2

+3V3F

+3V3

+5V

B08B

PNX5050: DDR1

+1V2-PNX8541

+3V3-PER

B04F

7TA1

+12VF

7U71

+3V3-D

PNX8541: CONTROL_MIPS

+1V2-PNX8541

B02a

CHANNEL DECODER DVB-C

B02a

+3V3F

+3V3-D

+2V5-PNX5050

IN OUT COM

B02a

PNX5050: CONTROL

+3V3

B04P

+3V3

B03D

B02c

5CA1

B04E

B04c

B08A DIGI I/O: USB CONNECTOR + CONTROLLER

+3V3-NAND

+3V3

B05B

+3V3-STANDBY

3V3-EXT

+3V3

+3V3

B05C

(RESERVED)

+5V 1E50 4

PNX8541: MISCELANEOUS

+3V3-STANDBY

+1V8DVB

5U08

+3V3

FACTORY USE ONLY

5HA0

+3V3-PER

+3V3

+5V-TUN

B02a

6U0B

ANALOGUE I/O: BOLT-ON

+5V

+1V2-PNX8541

+5V-TUN

B04i,B10a

+12VD

+3V3

+3V3-EXT

B03b

+3V3DVB

5T09

B03C

+3V3

+12VD

B07D B02a

PNX8541: NVM

+3V3-PER

B04P B02a

B04i,B10a

3U42

AUDIO-ADC

ANALOGUE I/O: YPBPR AUDIO OUT

B04o

PNX8541: FLASH

+3V3 5T08

-AUDIO-POWER

+12VF

B04h

VDDA-DAC

+3V3

+AUDIO-POWER

10

VDDA-LVDS

B02c

PNX8541: DEBUG

+3V3-STANDBY

B02b

B02b

+3V3

B02a

+5V

B04c,e,f,k,n +3V3

VDDA-AUDIO

+5V

B05d

B02a

+3V3

+5V

V1

+1V2-PNX8541

11

RREF-PNX8535

B02a

B02c

B04D 1U01

ANALOGUE I/O: SCART 1 & 2

+3V3

B07B

+3V3-PER

5HY7

B07d +5V

5T53

10

+3V3

B02a

+3V3-STANDBY

+3V3-EXT

MAIN TUNER

+5V

B03a

12VA

+1V2-STANDBY

B02c

B02a

5T63

9

+1V2-STANDBY

B02a

B03A

STANDBY

9

+3V3-STANDBY

B02a

3U60

SGND2

+1V4-PNX5050

B04C

SGND1 12V

+3V3-STANDBY

B02a

5U04 +1V4-PNX5050

SENCE+1V4-PNX5050

SENCE+1V4-PNX5050

B05d B04b,d,m, B08b,B10a

+1V2-PNX8541

+1V4-PNX5050

+12VD

B04a,B05d

1M95 1

+1V2-PNX8541

B02a

+1V2-PNX8541

+5V

B02c

15 CN6 1

B02b

B07A

PNX8541: POWER

+1V2-PNX8541

VDDA-AUDIO

B02b 7

7

PNX8541: STANDBY CONTROLLER

+3V3-STANDBY

B02b

B02b

B06B

16 SGND1

B02a

B04A 1

5

B02a

+12VFF

9U82

7U0L NCP5422

4

+3V3

B02a

+12VD

B04a,B06b, B07b

4

B04P

STI701: DEBUG

+3V3

6P63

12V

+12VF

+12VF

1M99 1

T3A

SGND1

B03I

DC/DC 5V_1V4

6P66

CN7 1

B02C

6P64

12V

DC / DC 2V5_1V

6P65

B02B

A

3U3T

SUPPLY

3U70

A

PNX8541: DIGITAL VIDEO OUT / LVDS

VDDA-LVDS B04P

VDDA-LVDS

IN OUT COM

5GE5

+1V5-TX

5GE6

+1V5-RX

H_17650_079.eps 220508

4401 Q601

CT601 100:1 1/2 D606 100/0805 BAV103 R623

R204D 3.01K/1206

SB560 D204

R205D 3.01K/1206

C614 100u/50v

R204C 3.01K/1206

D201 SB560 C208 470u/25V

C210 0.1u

0.47u C609 CB-3.0-01 L203

C207 470u/25V

2K R504

C625 220P/1KV

CB-3.0-01 L202

R506 1K C504 1Kp

CY5 1.5KP/250V

CB-3.0-01 L201

C953 0.1u

C952 1Ku/10V

CB-3.0-01 L951

1

C506 1u

R509 5.11K

PC601 PC123

IC951 APL431 1.25V

IC501 APL431 2.5V

R954 2k

C951 1Ku/10V

1N5917B ZD951

C920

ZD908 P6KE300A

A1 DISPLAY SUPPLY (37” & 42”): PART 1

C203 0.1u

C955 0.1u

R955 1.13K

0.47u C954

C202 220u/35V

STPS10H100CFP CR201

R510 2K

R952 2k

PC901 PC123

10K R953

R201L 7.5k/1206

R503 3.83K

2

R201K 7.5k/1206

R511 C505 1K 1U

C956 2.2u

BYV26E D909

C921 0.047u/450V

SB340 D950

C206 0.1u

R502 1K

3.3B ZD602

1/2

C205 220u/35V

100 1

R201J 7.5k/1206

BAS316

D903 EGP10D

D608 R512 BAS316 D607

5.1/1206 R916

R201I 7.5k/1206

R201H 7.5k/1206

R201G 7.5k/1206

BAV103 D906

3.5x6 FB902

Z3 TVR10511

EF12.6 T901

R203B 3.01K/1206

CR202 STPS10L60CFP

R203A 3.01K/1206

C912 47u/63V

ZD902 20A

BAS316 D908

R201F 7.5k/1206

R201E 7.5k/1206

R201D 7.5k/1206

C914 0.1u

47P/1KV C916

Q905 FQPF3N80C

R926 22

0.1u/275V CX2

Q906 2N7002

1K /1W R904

C211 0.1u

D605

R202D 3.01K/1206

3

R202C 3.01K/1206

4

C906 100U/50V

R905 5.1K

R201C 7.5k/1206

R906 10K

1K R919

R201B 7.5k/1206

40.2K R915

1/2 PC902 PC123

4401 Q901

R201A 7.5k/1206

R928 1

2/1W R903

R923

ZD901 10D

4

R205C 3.01K/1206

BAS316 D604

10K R924

1/2 PC901 PC123

ZD906 20A

100

R202B 3.01K/1206

BAS316 D603

C201 470u/35V

R634 0.1 FUSIBLE

0.22u C901

R927 1.5K

D904 BAS316

R801 100

R917 2K/0805

3

R922 40.2K

0.01U C905

4401 Q904

C918 220p

IC901

R204B 3.01K/1206

Q603 2SK3569

ZD900 20A

1Kp

MUR460 D805

R205B 3.01K/1206

100 R620

C917 220p

ICE3AS02

R202A 3.01K/1206

100 R617

C904

MUR460 D803

C204 1Ku/16V

R618 15

D911 1N4007

R204A 3.01K/1206

15 R621

C808 180u/450V 0.22u C903

C813 220P/1KV

220P/1KV C812

Q903 2N7002

C911 0.01u

402K R913

1u

C910

F2 FL4 T1AL/250V HFV-CE5085

0.022u/630V C613

511

BAS316 D907

R901 C902 1 FUSIBLE 33u/450V 06J05 R902

R205A 3.01K/1206

C608 1u/0805

R7

D202 SB560

STTH1R06

BD2 S1NB80

200K/1W R605

R631

FB804 FB803 Q801 3.5X6 3.5X6 SPA15N60C3

D801

C626 220P/1KV

R810 100

0.1U C907

22 R809

1N4007 D910

D203 SB560

IC601

BAS316

2K/0805

R808 51.1K/0805

18A

DDA 001B

L800A PQ3220

R624

750K/0805 R803

FB802 FB801 3.5X6 3.5X6

L800B PQ3220

10K R619

R812 51.1K/0805

BAS316 D802

R802 10K

22 R813

7.

10K R622

R816 0.056/3W

NC P1606B IC801

R804 750K/0805

Q802 SPA15N60C3

R805 750K/0805

CR-18-LP3009 L801

51.1k

DSP-210M GT2

R914 1M 4401 Q902

15 R626

P0102BL SCR211

2M/1206 BAS316 1M R910 D905 R912

R627

BD1 D15XB60

1u/450V C811

L

Z2 TVR10511 1u/450V C810

OTC28 FL2

ZD905 7.5B

R918 1M

R615 121K

R811 10K

N

C809 1u/450V

75/1206 R701

C607 0.1u

C802 *

R806 750K/0805

R814 10

R909 2M/1206

R614 19.6K

C801 0.1u

DSP-210M GT1

C606 0.47u

1M/1206 R822

1Kp C612

FL1

R613 3.01K

1u/0805

R612 1.5M

CX1 0.33u/275V

1M R5

HFV- DP722

100 R630

CY3 470P/250V

1M R6

835-1A-B-C RL701

C807 100p

C803 0.47u

CR-20-LP2048

R818 *

R817 15K

470P/250V CY4

2M/1206 R908

Q528.2E LA

ZD601

1/2

C805 1.2kp

C804 0.1u

4.7M R40

C605 2.2u

R632 200

C806 1kp

NTC1 NTC2 SCK201R0SCK201R0

C610 0.1u 8.06K R628

C703

C611 1Kp

D602 BAS316

75/1206 75/1206 R704 R703

R611 15K

2K R629

T5AH/250V F1

CT601 100:1

18.7K R819

Z1 TVR14681

BAV70 D716

C603 1KP

R609 100

1M/1206 R821

C108 0.1U

R102 1K 4.7M R39

C602 1Kp

R602 402K/1206

C107 0.1U

R101 1K

1M/1206 R820

R604 402K/1206

402K/1206 R603

R633 PC601 1K 1/2 PC123

CY1 100P/250V L802

R608 3.83K

R616 10K

C601 1KP

CY2 100P/250V

PE

10 R601

CN1

R607 25.5K

Circuit Diagrams and PWB Layouts 46

7. Circuit Diagrams and PWB Layouts LCD Supply (37 & 42"): Part 1

A1

5.1/1206 1KP/1206 R950 C950

3.5X6 FB901

750 R951

4403 Q900 1/2

2

C502 0.047u

100 R815

T1 ER39L 3.5X6 FB201

2SK3569 Q602 3.5X6 FB202

3.5X6 FB203

T5A/125V F201

CB-3.0-01 L204 F200 T5A/125V

H_16750_068.eps 110108

0.1u 0.1u

C213 C214

0.1u

0.1u

C217 3.01K BAS316 R736 D713 R711 3M

LM324 IC703

D707 LL4148 1/4

D708

BAS316 2K R748

10K R739

511 R757

10K R731

C330 33p /6KV 10K R729

4.7M R730

0.47u C710

LM324 BAS316 IC703 D705 1/4

2.55K R733

2K R741

4.7M R732

0.1u C715

D314 BAV99

R221 10K

R217 1K

C327 33p/6kV

R218 200

P0102BL SCR210

R219 10K

40.2 R320 C317 0.01u/1206

C315 0.47u/450V

D317 D307 BAV99

BAS316

R344 60.4K

C319 0.01u

R341 1K

R340 1K

R327 27/2W

R321 27/2W

BAV99 D305

BAS316 D304

C311 330P/1KV

R319 10K

0.1u/630V C316

*

*

0.47u/450V

C312

C310 330P/1KV

R318 10K

D312 R342

C958 1u

R963 100K

D211 D210 R216 BAS316BAS316 100

R964 5.11K

1/2 PC902 PC123

C957 1u

R214 2K

R220 1K

R213 100/1206

R212 100/1206

D311 BAV99

C314 0.015u

R326 10K

33p/6kV C333

C309 0.22u

22

R332 2K

C302 1u

BAS316

APL431 2.5V IC705

1/4

C326 220p

2

3.01K R749

0.1u R339 22

C329 22p /6KV

1

1K R750

1/4

C325 220p

1/4 BAS316 D212

4401/DIP Q702

LM324 IC703

2N7002 Q707

0.47u C714

20K R737

R343 22

BAV99 D313

C718 1Kp

10K R740

1/2

D306

1u C720

LM324 IC703 C713 0.1u

51.1K R743

2K R744

1/2 1K R215

R745 2K

0.1u

T301 UU35

Q703 4401 1u C726

IC702 LM358

13C ZD210

2K R304

D703 BAS316

1/4 R742 2K

LM324 IC701 0.015u C313

30.1K R333 CN3

R747 10K

C219

10K R325

BAV99 D308

DDA 001A

R746 10K

CN7

R338

D309

C723 0.1u

C218 D715 BAS316

BAS316 D717

STP11NM60 Q302

PC123 PC302 1/2

CN5_1 R720 30.1K

R765 4.22K

R710 1K C705 0.1U

10 R301

2K R738

0.1u STTH 1R06

100 R316

1u C725

C212 D709 BAS316

LM324 IC701

BAS316 D303

10K R728

CN6

22 R314

STP11NM60 Q301

2N7002 Q304

LM358 IC702 60.4K R753 17.4K R769

R308 5.11K

C301 1KP

R307 1.3K

PC301 1/2 PC123

R329 R328 1M/1206 1M/1206

R337 2K

R330

1M/1206

22 R313

2K/1206 R756

20K R726 13K R766

R336 20K

0.47u/0805 C308

100 R315

BAS316 D710

BAS316 D714 R721 200K

BAS316 D711

C709 0.01u

20K R708 R709 100K

1/4

R712 20K

R331 19.6K

C306 2.2u

R310 5.11K

R311 1M

C304 4.7u/0805

R309 20K

C318 1KP

C305 1KP

R312 8.87K

C307 1KP

R323 30.1K

R303 10K

C303 0.1U

R302 10K

D310 BAS316

2K R735

1/4 0.1u C727

1/2 PC123 PC301

R718 4.02K

LM324 IC701

R719 1K

34K R707

30.1K R717

1KP C708

D712 BAS316

C704 0.1u

2N7002 Q706

C711 0.01u

C724 *

R716 *

R761

5.11K

PC302 PC123 1/2

IC301

7.

C716 1Kp

CN5_2 R722

10K

Q708

R723 *

*

R768

3.24K

10K R706

Q528.2E LA

R755100K

IC701 LM324 887 R705

C321 1u

ZD301 5.1A

R334 750

1K R306

4403 Q303

0.1u C717

CN4 C707 0.1u

BAS316 D702 R714 10K

0.022u C706

R715 6.49K

BAS316 D701

R713 100K 0.47u C722

4.7kp C701 100K R702

R335 2K

Circuit Diagrams and PWB Layouts 47

LCD Supply (37 & 42"): Part 2

A2 DISPLAY SUPPLY (37” & 42”): PART 2 A2

0.1/FUSE RES R317

BAS316 D302 CN2

Q604 4403

LL4148 D704

10K R734

LL4148 D706

4403 Q701

C216 0.1u

C215

H_16750_069.eps 110108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

48

Layout LCD Supply (37 & 42") (Top Side)

H_16750_070.eps 110108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

49

Layout LCD Supply (37 & 42") (Bottom Side)

H_16750_071.eps 110108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

50

SSB: DC / DC 2U00 D5 2U01 E7 2U02 E6 2U03 B8 2U04 C6 2U05 B8 2U06 B9

2U07 D9 2U08 E8 2U09 D8 2U0A C4 2U0B G2 2U0C C2 2U0D G2

2U0N A2 2U0P G9 2U0R D9 2U0S C3 2U0T D9 2U0U D9 2U0V D9

2U0E G2 2U0F A5 2U0G B4 2U0H B8 2U0J E8 2U0K E8 2U0M B7

1

2U14 A11 2U15 B13 2U16 D12 2U17 D13 3U00 D5 3U01 D6 3U02 E7

2U0W A5 2U0Y A11 2U0Z B9 2U10 D12 2U11 D13 2U12 C8 2U13 B6

2

3U03 B8 3U04 C8 3U05 C5 3U06 C6 3U07 D8 3U08 E8 3U09 F8

3U0A F9 3U0B D3 3U0C D3 3U0D D2 3U0E D1 3U0F G1 3U0G G1

3

3U0S B3 3U0T A3 3U0U A3 3U0V B2 3U0W B2 3U0Y E10 3U0Z D11

3U0H C4 3U0J B8 3U0K D8 3U0M C6 3U0N B5 3U0P B5 3U0R B6

4

3U10 E11 3U11 E11 3U12 D11 3U13 D11 3U14 C6 3U15 C7 3U16 D7

5

3U1N B5 3U1P C6 3U1R B6 3U1S B5 3U1T B6 3U1U D4 3U1V D2

3U1E D7 3U1F E7 3U1G B3 3U1H B3 3U1J F14 3U1K E7 3U1M B8

3U17 D6 3U18 E2 3U19 E4 3U1A D4 3U1B E5 3U1C G9 3U1D F11

6

3U70 A4 3U71 B5 3U72 B5 3U73 B6 3U74 D8 3U75 E9 3U76 D9

7

3U77 B1 5U00 D8 5U01 B8 5U02 A11 5U03 D12 6U00 D6 6U01 E7

6U02 B3 6U03 F7 6U04 E5 7U00-1 B3 7U00-2 A2 7U01-1 E3 7U01-2 E4

8

7U02 B6 7U03 E7 7U04-1 D4 7U04-2 C2 7U05 B7 7U06 C6 7U07-1 D11

9

FU00 B8 FU01 C10 FU02 G12 FU03 E4 FU04 C6 FU05 A7 FU06 E10

7U07-2 E10 7U08 A5 7U09 C3 7U0A B4 9U01 D3 9U02 B5 9U03 B6

FU07 B4 FU08 B3 FU09 D6 FU0A D7 FU0B D9 FU0C D11 FU0D E7

10

IU06 A4 IU07 E8 IU08 B8 IU09 A3 IU0A D11 IU0B G9 IU0C E2

FU0E D12 IU00 E7 IU01 B8 IU02 C8 IU03 E7 IU04 D8 IU05 E8

11

IU0D D5 IU0E D5 IU0F C5 IU0G B5 IU0H C5 IU0K C6 IU0M C6

12

IU0N B7 IU0P B5 IU0R A6 IU0S C4 IU0T C4 IU0U C4 IU0V C4

IU0W C4 IU0Y D3 IU0Z E5 IU10 D2 IU11 B2 IU12 A2 IU13 B3

13

IU1F D11 IU1G F14 IU1H D4 IU1K C6 IU1M C6 IU1N C6 IU1P A5

14

DC / DC 3V3 1V2

B02A

IU14 B3 IU15 E11 IU16 E4 IU19 G3 IU1B C8 IU1D E9 IU1E E8

IU1R C2 IU1S D6 IU1T A12

15

B02A +12VF 5U02

22u

22u 2U0Y

RES 2U14

2U15 2U17 RES

2U16

2U11

100u 4V

2U10

100R

330u 6.3V

+3V3F

10u

1K0

3U12

D

FU0E

5U03

IU1D 1% 120R

3U0Y FU06 3 10K

7U07-2 BC847BS 4

5

IU15

3U11

E

3K3 3U10

3U75

100n

IU0A

330u 6.3V

RES 3U76

10R

2

7U07-1 BC847BS 1

1u0

2U09

3n3 2U0R

6K8

22R 3U07

IU05

3U08

470R

3

6

10K

1K0

2U0J

IU03 FU0D

1% 1K0

3U0A

4K7

RES 3U09

6U03

BOOSTER

PDZ18-B

1

7U03 BC817-25W 2

12V UNDER-VOLTAGE DETECTIO N

220u 25V

22u

3U0Z FU0C

IU04

IU1E 470R 3U02

2U0K

6U01

100n 3U1K

BAS316

3

2U01 IU00

1n0

+12VF

1n0

IU07

68R

IU0Z 1K0

2U08

68R 3U1F

22R 3U74

3U0K

3U1E

1u0

E

IU1S

3U1B

2U02

3U19

IU0C

IU16

5 FU03

PDZ9.1-B

10K

4 BC857BS 7U01-2

6U04

6

2

6U00

100K

1 BC857BS 7U01-1

BAS316 1K0

330R

3U1A

+1V2-STANDBY

IU1F

10u 3K3

GND-SIG

* 47u

5U00

+1V2-PNX8541 2U0V

2U07

FU0A

2U0U RES

6K8

22u

1K0

3U00 GND-SIG GND-SIG GND-SIG 3U1U IU1H

FU01

FU0B

3U16

22u

3U01

IU0E 2U00

FU09

2U0T RES

6K8

7U04-1 BC847BS 1

GND-SIG

3U18

22u 2U0Z

12V/1V2 CONVERSION

3U05

3

RES 3U0B GND-SIG

3n3 2U06

100n

2U03

1K0

3U04

6K8

IU0D GND-SIG

2U05

6K8

22R 3U03

3U0J

22R 3U1M

C

3U15

3U13

IU0F

1n0

22R

2U0H

4 1 2 3 SI4800BDY

FU04

1n0

IU0K

3K3

12 11

IU02

IU1B 5 6 78 2U12

4R7

3U1T 22R

3n3

6K8

GND

39K

100n

3U0H

2U0A

4R7 3U06

IU0M 7U06

22u

2

2U0M

3K3

IU0Y

+2 -2

10R

3U14

ROSC

IU1N

100n

3K3

6

*

D

IS

+1V2-PNX8541

2

10K

2

13

IU1M

5 6

+1 -1

3U1P

B

1 2 3

10R

4R7 3U0M

IU01

IU08

RES 3U0R

IU1K

9U01

33K

4

RES 2U0S

COMP

IU0H

15

1

9 IU0W

100n RES 3U0C

5

33K 3U0D

*

7U04-2 BC847BS 3

RES 3U1V

GND-SIG 3U0E IU10

3

1

22K

100n

2U0C

* IU1R

16

RES 3U1R

100n

L2

8 IU0U IU0V

GAT E

IU0G

5 6 7 8 7U05 SI4800BDY

4

9U03

3U17

2

IU0T RES 7U09 BC847BW

2

L1 H2

VFB

4R7 3U72

1

H1 GAT E

C

7U02 1 2 3 SI4800BDY

2K2

22u

Φ

1

10

10u

IU0N

BST

7 IU0S

4

+3V3

5U01

FU00

2U04

4

3n3

3U73

FU07

A

VSW

14 VCC

22K

7U0A NCP5422ADR2G

12V/3V3 CONVERSION

2U13

5 6 7 8

IU0P

GND-SIG

10K

10K

22u 2U0W 3U1N

3V3

IU0R

10R RES 3U1S 10R 9U02

3U0P

100R 7U00-1 BC847BPN 1

2

10K

5 6 7 8 SI4800BDY 1 2 3

4 RES 3U71

SUPPLY-FAUL T

3U1H

IU11 0V

3U77

FU08

3U0S

3U1G

AUDIO-PROT

3U0W

B

10K

3U0V

BAS316 IU14

IU1P

+12V

10u

7U08

22R 3U0N 22R

IU13

6

10R RES 2U0F

IU06

22K 6U02

1u0

3

3U0U

2U0G

5 IU09

IU12

3U70

22K

100n RES 3U0T

2U0N 4 BC847BPN 7U00-2

IU1T

100u 4V

A

FU05

3U1D

+1V2-PNX8541 GND-SIG

F

1%

1K0

GND-SIG

3U1J

IU1G

F

SENSE+1V2-PNX8541 120R 1%

ENABLE-3V3 PROT-D C

ENABLE-1V2 FU02

IU19

470n

RES 2U0P

2U0D

G

RES 3U1C 22K

100p

2U0B

IU0B

GND-SIG

100n

2U0E

4K7

3U0G

3U0F

1% 470R

GND-SIG

G

1X08 EMC REF HOLE

100p

GND-SIG

H_17650_001.eps 171207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

51

SSB: DC / DC

1

2

3

4

5

6

7

8

9

DC / DC 2V5 1V

B02B

B02B

+VCC-LM

IU3F

1K0 100n

2 4 2U64

3U41

330p IU3H

22R

IU3U

120R

68K

+2V5 1n0 2U68

22K

3U67

FU27

100n

1

2U63

1K0 +2V5-REF

7U0R TS2431

FU28

+VCC-LM +1V2-PNX8541 2

FOR ANALOG BACKLIGHT DIMMING

8

IU3K IU3M 6

3

B

7U70-2 IU3N LM833 7

5

A

10K

3U4B

IU3V

4 9U55

1

2U25 22n

NC

K

IU35

4

1u0

3U50

3U51

150R

150R

1K0 3U52

NC

1u0

D

R

1u0

2U50

3K3

3U54

A

7U50 TS2431

E RESERVED

+3V3-Standby stabilizer

100K

1u0 3U43

2U2A

7U0Q BC847BW

IU37 220p

33p 2U28

2U27

2 10K

68R

68R

3U47

3U40

3

1K0 1

1K0

* +12VF

IU36

3U53

2K2

IU38

7U0P BSH112

IU3R 2

3 33K

3U45 RES

220n 3U44 RES

*

+33VTUN

3U42

VSW

3U3Y

*

RES

IU3B

3U3Z

2U2B RES

E

BZX384-C27

220n 6U0C

2U29

220u

5U08

BAS316

33K

FU1G

K

1

100n

100n

RES 2U23

100n

RES 2U22

RES 2U72

7U51 BC847BW

2K2

6U0B

1 2 3 4 5

IU3S

3U3V

-AUDIO-POWER

+12VD

IU3T

+12V

2

5

1M96

2U70

+1V2-STANDBY

+3V3-STANDBY

GNDSND

1-1735446-1

F

C

FU1F

7U0N TS431AILT +AUDIO-POWER

SENSE+1V

1K0

7U0M BC847BW 2

1

REF

120R

1n0 3U69

3

2U26

2U57

5U52

1K0 3

+12V 3.0A T 3A 452

IU3C

3U4A

1n0

1n0 2U56 1U01

STANDBY

2U67

4K7

68K

RES

3U46

4K7

3U3W

1u0

2U24

1n0

2U55

*

A

D

FU1A FU1B FU20 FU23 FU1C FU22 FU21 FU1D FU10 FU11 FU12

1 2 3 4 5 6 7 8 9 10 11

68R

330p IU3P

3U68

IU34 3U58

+1V

2U66

+3V3-STANDBY

1M95

FU29

22R

+3V3-STANDBY

C

7U72 PHD38N02LT

1u0 2U71

RES 3U55

R

100p 100p 2U53 2U54

2U51 2U52

B

LAMP-ON-OUT BACKLIGHT-OUT BACKLIGHT-BOOST +3V3

100p 100p

1735446-8

68R 68R

A

7U71 PHD38N02LT

2U65

4K7 3U66

3U64

3U56 3U57

FU16 FU17 FU18 FU15

3U65

2K2

FU14

2K2

3.0A

10K

3U62

+12V

6K8

+12VD

3U49

FU19

5U51

1U02

3U48

FU13

K

1M99 1 2 3 4 5 6 7 8

3U63

T 3A 452

1u0

2U62

100n

2U60

A

7U70-1 IU3G LM833 1

3

+2V5-REF

10R

+3V3F

8

IU3E

3U61

+VCC-LM

1u0 2U69

IU3D

3U60

IU39

F

RES

+5V-TCON

1735446-5

FOR +5V-TCON (PAC3) H_17650_002.eps 171207

3139 123 6341.1

1

2

3

4

5

6

7

8

9

1M95 C1 7U70-2 B7 1M96 F1 7U71 A8 1M99 A1 7U72 B8 1U01 D1 9U55 B2 1U02 A1 FU10 D1 2U22 D1 FU11 D1 2U23 D1 FU12 D1 2U24 C4 FU13 A1 2U25 C5 FU14 A1 2U26 D5 FU15 B1 2U27 F4 FU16 B1 2U28 F4 FU17 B1 2U29 E4 FU18 B1 2U2A E4 FU19 A1 2U2B E5 FU1A C1 2U50 E8 FU1B C1 2U51 B1 FU1C D1 2U52 B1 FU1D D1 2U53 B1 FU1F C6 2U54 B2 FU1G E5 2U55 C1 FU20 D1 2U56 D2 FU21 D1 2U57 D2 FU22 D1 2U60 A4 FU23 D1 2U62 A6 FU27 B4 2U63 B6 FU28 A9 2U64 A7 FU29 B9 2U65 A7 IU34 C4 2U66 B7 IU35 D5 2U67 C7 IU36 F3 2U68 A9 IU37 F4 2U69 A9 IU38 E4 2U70 C9 IU39 F5 2U71 C9 IU3B E4 2U72 D1 IU3C C4 3U3V D5 IU3D A4 3U3W C4 IU3E A7 3U3Y E3 IU3F A7 3U3Z F3 IU3G A8 3U40 E4 IU3H A7 3U41 A8 IU3K B7 3U42 E5 IU3M B7 3U43 E5 IU3N B8 3U44 E6 IU3P C7 3U45 E6 IU3R D8 3U46 C5 IU3S D7 3U47 E4 IU3T C8 3U48 A4 IU3U A8 3U49 A4 IU3V B8 3U4A C4 3U4B B8 3U50 D7 3U51 D7 3U52 D7 3U53 D8 3U54 E8 3U55 B2 3U56 A1 3U57 B1 3U58 C2 3U60 A4 3U61 A6 3U62 A6 3U63 A6 3U64 B6 3U65 A7 3U66 A7 3U67 B7 3U68 C7 3U69 C7 5U08 E4 5U51 A1 5U52 D2 6U0B E4 6U0C E4 7U0M C5 7U0N D4 7U0P F3 7U0Q E5 7U0R B4 7U50 D7 7U51 D8 7U70-1 A7

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

52

SSB: DC / DC 2U80 C2 2U81 B4 2U82 D4 2U83 G2 2U84 G2 2U85 E6

2U86 D5 2U87 E7 2U88 C7 2U89 B6 2U8A A5 2U8B B8

2U8C B9 2U8D B9 2U8E A9 2U8F B13 2U8G D9 2U8H D9

2U8Q E8 2U8R E8 2U8S C6 2U8T G2 2U8U C8 2U8V C8

2U8J B13 2U8K D9 2U8L D7 2U8M D9 2U8N G9 2U8P E8

1

2U8W C8 2U8Y E9 2U8Z D8 3U1W D5 3U1Y D6 3U1Z E7

2

3

3U2J C6 3U2K B5 3U2N B5 3U2R A3 3U2U E11 3U2V D11

3U2C G1 3U2D G1 3U2E D4 3U2F E9 3U2G B8 3U2H D8

3U26 F8 3U27 F9 3U28 D3 3U29 D3 3U2A D2 3U2B D2

3U20 B8 3U21 C8 3U22 D6 3U23 C6 3U24 D8 3U25 E8

4

3U2W E11 3U2Y E12 3U2Z E11 3U30 D11 3U31 C6 3U32 C7

5

3U33 D7 3U34 D6 3U39 G9 3U3A F12 3U3B E6 3U3C E6

6

6U06 E7 6U07 B3 6U08 F7 6U09 F7 7U0D-1 B7 7U0D-2 C6

3U3T A4 5U04 D8 5U05 B8 5U06 A10 5U09 A10 6U05 E6

3U3K B5 3U3L C6 3U3M B5 3U3N D8 3U3P C6 3U3Q C6

3U3D B3 3U3E B3 3U3F D10 3U3G F13 3U3H E7 3U3J B8

7

7U0I-2 E11 7U0L B4 9U81 D3 9U82 A10 9U83 A10 9U84 D4

7U0E F7 7U0G-1 D2 7U0G-2 D3 7U0H-1 A6 7U0H-2 B6 7U0I-1 D11

8

9

9U85 D5 9U86 D5 9U87 F9 9U99 D5 FU80 D11 FU81 D11

FU88 D6 FU89 C6 FU8A C4 FU8B A7 FU8C B8 IU20 C5

FU82 E11 FU83 F12 FU84 G12 FU85 D9 FU86 E7 FU87 D7

10

IU28 B6 IU29 B5 IU2A A5 IU2C C4 IU2D C4 IU2E C4

IU21 C5 IU22 C5 IU23 C6 IU24 C6 IU25 C6 IU26 C6

11

IU2F C4 IU2G C4 IU2H D3 IU2J D2 IU2M B3 IU2P E11

12

IU81 B5 IU82 B8 IU83 B8 IU84 C8 IU85 E8 IU86 E8

IU2R E6 IU2T G3 IU2V C8 IU2Y E9 IU2Z E8 IU80 B3

14

13

DC / DC 5V 1V4

B02C

IU8D D5 IU8E D5

IU87 E8 IU88 E7 IU89 F14 IU8A D11 IU8B G9 IU8C E7

B02C

9U82 +12VF

RES 5U09

15

220R

A

A

RES 5U06

7 8 SI4936BDY

2

1n0 FU8C

1n0

IU8A

3U2Z 10K

FU82

3

7U0I-2 BC847BS 4

5

IU2P

E

3U2Y 3K3

1K0

1K0 6K8

470R

3U30 2

1K0

6

7U0I-1 BC847BS 1

3U2W

3U25

2U8R

3U26

470R

470R

10R

2U8M RES

1% 120R

3U2F

3U2U

IU87

IU2Z

IU88

FU81

IU2Y

100n

2U8P

3U3H

3U1Z

3U2V

IU86

1n0

1u0

2U85

IU85

IU8C 6U06

E

100n 2U8Q

68R

1n0

68R 3U3C

BAS316

6U05

D

1u0

6K8

+12VFF

*

10K

3n3 2U8Y

3U3B

2U8Z

IU2R

22R 3U24

BAS316

22R

10u

100n 2U87

3U3N

2U8L 3K3

GND-SIG1

+1V4-PNX5050

RES 3U3F

5U04

2U8K RES

FU87

6K8

22u

2U86

3U33

1K0

22u

3U1Y

IU8E

3U1W GND-SIG1 GND-SIG1

2U8F

22u

22u 2U8D

3n3 2U8C

2U8B

6K8

22R 3U20 2U8W

100n

FU80

FU85

2U8H

9U85 9U86

FU88

22u

3K3

3U2H

GND-SIG1

1K0

3

3K3

3U31

100n

12V/1V4 CONVERSION

3U22

9U81 GND-SIG1

3U21

2U8U

22R

6K8

IU8D GND-SIG1

22R

2U8V

1

4R7

3U3M

4R7

3U3Q

3U32

22u

3U2E

GND-SIG1

4

IU20

C

SI4936BDY

2U8G

5

4 IU25 FU89

1K0

12 11

+2 -2

RES 3U28

33K

3U2A

IU2H

IS ROSC

4R7 3U23

IU84

IU2V

5 6

3K3

10K

1

3

13

IU26

3U34

2

33K

7U0G-2 BC847BS

22K

RES 3U29

RES 9U84

7U0G-1 BC847BS 6

2U82

100n

IU2G

2

39K

100n

2U80

GND-SIG1 3U2B IU2J

D

9

1n0 7U0D-2

4R7 3U2J

B

IU83

IU82

2U88

IU24

5 6

+1 -1

7 8 SI4936BDY

2

3U3P

IU23

15

L2 1 COMP

IU22

2U8S

8 IU2E

GATE

GND

IU2D

IU2F

16

H2

VFB 2

IU21

3

C

10

9U99

IU2C

2

L1 1

22R

H1 GATE

7

3U3L

BST

1

100n

4

Φ

3U2N

VCC

FU8A

IU28

14

22K

10K

3U3E

3U3D

7U0L NCP5422ADR2G

3U3J

3U2G

7U0D-1

3

4

1n0

IU29

GND-SIG1

+5V

5U05 10u

5 6 SI4936BDY

220u 25V EMC 2U8J

7U0H-2

1n0

B

22R

3U3K

BAS316

2U89

22R 3U2K

IU2M

1u0

2U81

22K 6U07

+12VFF

12V/5V CONVERSION

1

IU81

9U83

22u

7U0H-1 IU2A

3U2R IU80

220R 2U8E

22u

2U8A

10R

3U3T

FU8B

9U87

*

1% 1K0

PDZ18-B

6U08

PDZ18-B 6U09

BOOSTER

F

3U27

FU86 7U0E BC817-25W

3U3A 1%

+1V4-PNX5050 GND-SIG1

F

1K0

GND-SIG1

3U3G

IU89 SENSE+1V4-PNX5050

270R 1%

ENABLE-3V3

FU83 PROT-DC RES 3U39

2U8T IU2T

470n

RES 2U8N

G

ENABLE-1V2 FU84

22K

100p

2U83

IU8B

G

GND-SIG1

GND-SIG1

100n

2U84

1K8

3U2D

3U2C

1% 270R

100p

GND-SIG1

H

H

H_17650_003.eps 171207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

53

SSB: Main Tuner 1T71 E13 1T75 B5 1T85 G13 2T03 H8 2T44 E10 2T45 E10

1T04 D2 1T06 A2 1T55 C5 1T60 A5 1T65 E5 1T70 D5

2T59 F2 2T5A B8 2T5B B9 2T5C B10 2T5D B7 2T60 F13

2T46 E10 2T47 G8 2T48 D9 2T49 D9 2T51 F13 2T53 F3

1

2T67 G1 2T68 G2 2T69 G3 2T71 G1 2T72 G2 2T73 G13

2T61 G1 2T62 F5 2T63 H11 2T64 E12 2T65 H11 2T66 G13

2T74 G13 2T75 G13 2T77 H10 2T78 F13 2T79 E11 2T80 G10

2

2T81 H10 2T82 H10 2T83 H10 2T84 E12 2T85 H14 2T86 F8

3

2T97 H10 2T98 I8 2T99 E13 3T24 G8 3T25 G9 3T35 F2

2T87 E9 2T88 E8 2T91 F2 2T92 H12 2T93 F5 2T96 F13

3T36 F2 3T37 F2 3T38 G2 3T39 H13 3T40 G10 3T41 G14

3T42 G9 3T54 G10 3T55 H10 3T56 F13 3T57 F13 3T58 F9

4

3T59 F8 3T5A B7 3T5B B7 3T5C B8 3T5D B9 3T5E C9

5

3T5F C8 3T64 F13 3T65 D7 3T66 D7 3T67 D9 3T70 I9

3T71 I8 3T74 H10 3T75 H10 3T76 E13 3T78 G9 3T79 G9

6

9T56 G2 9T57 G7 9T58 G2 9T59 G5 9T60 G5 9T61 F3

7T57 F11 7T5A B7 7T5B B9 9T53 F1 9T54 F1 9T55 D4

5T61 F4 5T63 A10 6T56 D8 6T57 D8 7T20 H8 7T56 I9

3T85 I9 3T86 E10 3T87 E10 5T52 D9 5T53 E12 5T54 F5

7

9T62 G5 9T63 F3 9T64 F3 9T65 G5 9T66 F14 9T67 G14

9T78 E8 9T79 E8 AT62 F3 AT63 F4 AT64 E9 AT65 E9

9T68 G13 9T69 G13 9T6A G14 9T6B G14 9T70 H7 9T77 F3

8

FT50 G11 FT51 G11 FT56 I8 FT57 H13 FT58 D10 FT5B B8

9

IT09 E2 IT12 E2 IT13 E2 IT14 E2 IT19 I9 IT20 I9

FT5C B9 FT76 H8 IHC6 B8 IT01 E2 IT02 G8 IT06 E2

10

IT21 G9 IT23 G13 IT28 E14 IT5A B8 IT70 E12 IT71 F13

IT73 G10 IT74 G11 IT75 H10 IT76 H12 IT77 H10 IT78 E13

IT86 H11 IT89 F4 IT90 G4 IT91 G4 IT92 F13 IT93 H11

IT79 D8 IT7A E3 IT7B E3 IT81 D9 IT82 E7 IT83 E7

11

ITAC G9 ITAD G14 ITAE E11

IT94 H10 IT95 H10 IT96 H11 IT97 H11 ITAA G9 ITAB F1

12

13

14

15

MAIN TUNER

B03A

B03A +5V 1T60

+12VD

2

1T75

7T5B PHD38N02LT

IT5A

NC

IF-FILTN2 IF-FILTP 2

3

1 FT5B

2T5A 22n

3T5D

1K0

1K0

+5V-TUN

OFWK6274K 38M

C

3

R

7T5A TS2431

RES 1T55

2 A

3T5E 10K

O1 O2

4 5

IF-FILTP1 IF-FILTN 1

1K0

3

*

I IGND

K

FT5C IHC6

3T5F

1 2

2T5B

1

GND

3T5C

2T5C

6 7

IF-FILTP 1 IF-FILTN1

1u0

4 5

O1 O2

IN ISWI IGND

3 8

2K2

3T5A

* 1 10 2

12

10K

13 MT

1 2 3 4 5 6 7 8 9 10 11

B

RESERVED

1n0 3T5B

MT

ITEMS DVB-T ONLY TD1716MK3 X TDXXXXX 1T06 UV1316LMK5 1T55 X7355B 1T65 X9263B X7356B 1T70 1T71 4MHZ 1T75 X3451K X 2T44 X 10N 2T45 10N X 2T53 220N X X 4N7 2T67 2T71 4N7 X 2T72 X 4N7 2T78 100P X 2T87 3P3 X 4P7 22P 2T99 3T35 47R 47R X 3T36 47R X 3T37 3T38 47R 330R 3T86 3T87 330R 0R 9T53 9T54 0R X 9T55 0R 0R 9T56 9T58 0R X 9T61 0R X 0R 9T62 X 9T63 0R 0R 9T64 X X 9T65 0R 9T77 0R 2T28 100N 2T29 100N 3T01 330R 0R X 3T02 330R X 0R 330R 3T05 X 0R 3T05 1K 4K7 3T09 10K X 4K7 X 9T01 0R 9T02 X 0R 3T64 2K2

GND X6874D 36M125

220n RES 2T48

SCL-TUNER

9T62

SDA-SSB-MUX2

3T78

3T79

G

47R

IT91

*

9T65

TUN-AGC

9T57

3T40

SCL-SSB-MUX2

V1

100n

3T38

47 31 33 12 16

4K7

15

IT96 8 IT97 5

IT77 4n7

20 470n

2T83

1K8 IT75 FT76

CVBS-TER-OUT

V1

2T98

1T65

470R

100n 2n2 IT94

TUN-AGC-MON

X6768 K7266D (video not M) (video + audio DK) M1973D M1973D (video + audio M) (video + audio M) K9362M (aidio not M)

1T70

2T82

3T74

2T65

1T55

UV1718

2T97

22p

TD1716 X6768 (ana video) + X6872 (ana audio + dig)

3T75

9T70 RES

47p

100n

3T55 IT95

CH TUN-AGC

IT74 13 IT93 19 IT86 38 1

3

I

2T64

100u 16V

X X X

2T84

22u FREF

SDA SCL BVS ADRSEL

A OUT1 B

IF1

A OUT2 B

IF2

TAG C AUD CVBS

IF3

A B A B A B

FILI

1 MPP 2

EXT FMI

EXTFILO

X X

X X X X X

AGCDIN

TOP2

CTAG C CIFAG C CDEEM

CAF1

GND

GNDD

X X X

E

3K3

2K2

39

*

2T96

2T78

4-MHz

100p

3T57

23 24 32 25 6 7

RES

IT92 100p

46

CAF2 GNDA

F

SDA-SSB SCL-SSB

100R

3T56 100R

9T66 2T60 10n

RES RES 2T51 10n 9T68

IF-FILTP1 IF-FILTN 1

9T67 RES 2T74 10n

9 10 RES 2T73 10n 9T69 3 4

IF-FILTP2 IF-FILTN 2

RES 9T6A RES 2T75 10n RES 2T66 10n RES 9T6B

IF-FILTP3 IF-FILTN 3

G

IT23

17 21

1T85 3

36

ITAD

RES 3T39 150R

O

I

11

GND

1 2

RES 3T41 150R

SFSKA 4M5 RES

28 FT57

34 IT76

TDA-IF-AGC

H

100R

BC847BW 220R

3T85

IT20

I

3T70

2

H_17650_004.eps 171207

2

3

4

5

6

7

8

D

3T76

VIF FM LF SYN1 SYN2

C

X X X X

*

3139 123 6341.1 1

X X X

7T56

IT19

3T71 68R

X X X

I…C ADRESS 86

1 FT56 CVBS4

X X X

22u

H

AP

EUR TD1716

220n

2T81

7T20 BC847BW

5K6

1T04 1T06 1T75

2T80

IT73

3T54 330R

IF PROCESSING

48

3T42 330R

2T63

10K

470R

3T25

ITAA

3T24

2T77

1n0

IT02 2T03

2T69

IT21

4n7

*

4n7

2T68

9T58

* *

X X X

3T64 RES

OPTXTAL

NC

1T71

2T85

9T60

Φ

B

X

4M0

*

1n5

SDA-TUNER

RES

ITAC

*

29 30

IT78

IT71 VP

IC

2T92

9T59

FT50 FT51

*

22p

41 40

RES

26 27

DIF-N DIF-P

1K0

IT90

3p3

IF-P TUN-AGC 4-MHz

*

4n7

*

9T56

*

2T72

4n7 2T61

*

4n7

2T71

4n7

*

2T67

9T64

22u

*

1K0

9T61

2T86

47R

47R

*

IT89

2 18 35 37 42

IF-N

2T47

ITA B

9T53

AT63

3T37

3T35 47R

9T54

*

*

*

3T36

*

F

220R

5T53 14 45

AT62 100n 2T93

100n

7T57 TDA9898HL/V2

+5V-TUN

220R 2T62

2T99

44

RES 2T49

220n

330R

X X X X X

RES

10n

3T87

22

*

RES 2T45

X X X X X X X X

IT28

330R

A

X X

IT70

V1

10n

3T86

AT65

9T79

3T59

560n

5T61

2T91

IT83 TDA-IF-IN-P 5T54

AT64

9T78

TDA-IF-IN-N

+VTUN

9T77

150p

9T63 2T53 220n

150p

2T59

*

X6874D 36M125

* **

10n RES 2T44 IT82

43

IT14

O1 O2

GND

2T79

IT7A

I IGND

ITAE

2T46

IF-FILTN 3 IF-FILTP3

4p7

IT7B

IT13

+5V-TUN

0R

3

4 5

2T87

IT12

FT58

30R

RES 1T65

*

0R 3T58

1 2

RES 5T52

IT81

100R

IT79

*

IT06

* +VTUN

100R

12

IT09

E

RES 3T67

3T66

6T57

9T55

13 MT

1 2 3 4 5 6 7 8 9 10 11 IT01

100R +33VTUN

4p7

MT

15

IF-FILTP2 IF-FILTN 2

X6874D 36M125

DC_PWR NC1 RF_AGC NC2 AS SCL SDA XTAL_OUT +5V IF_OUT1 IF_OUT2

14

4 5

GND

TUNER RF-IN

O1 O2

PDZ33-B

3

* I…C ADRESS C0

I IGND

RES 3T65

2T88

1T04 TD1716F/BHXP-3

D

RES 1T70

PDZ33-B 6T56

* 1 2

MHP DVB-T/DVB-C

1T04

OFWK6274K 38M

AGC TU AS SCL SDA NC1 +5V ADC +33V_TUN NC2 IF_OUT1

14 15

IF-FILTN1 IF-FILTP 1

GND

TUNER RF-IN

IF-FILTN3 IF-FILTP 3

6 7

10n

NC

4 5

4u7

3 8

* I…C ADRESS C0

O1 O2

EMC 2T5D

1T06 UV1316L

IN ISWI IGND

5T63

1 10 2

1u0

RES

A

9

10

11

12

13

14

15

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

54

SSB: Channel Decoder DVB-T 2T25 B7 2T26 D4 2T27 B8 2T28 H5

2T19 E8 2T20 E6 2T21 E6 2T24 F6

1

2

3T06 D8 3T07 G8 3T08 E7 3T09 E7

3

3T10 E7 3T11 E7 3T13 D2 3T14 D4

3T16 D3 3T17-1 F11 3T17-2 F11 3T17-3 F11

3T17-4 F11 3T18 G8 3T19 C2 3T20 B7

5

4

3T27-2 F12 3T27-3 G12 3T28 G6 3T29 G8

3T22-4 F11 3T23 H9 3T26 G6 3T27-1 G12

3T21 D3 3T22-1 G11 3T22-2 G11 3T22-3 F11

6

7

CHANNEL DECODER DVB-T

+1V2-PNX8541

7T17-2 H10 7T18-1 D4 7T18-2 D3 7T25 A8

3T34 H9 5T08 B8 5T09 A8 7T17-1 E9

3T30 G8 3T31 H8 3T32 G13 3T33 G13

8 IT41

5T09

FT15

FT37 G9 FT38 H9 FT39 H9 FT40 F9

FT11 B8 FT15 A8 FT17 G9 FT36 G9

9T01 H5 9T02 H5 9T03 G9 9T20 C3

9

FT41 F4 FT42 D2 IT03 B7 IT07 D9

10

IT25 B8 IT26 D3 IT27 D3 IT31 G6

IT17 H12 IT18 F8 IT22 D4 IT24 B8

IT08 E7 IT11 C3 IT15 D3 IT16 H12

11

IT32 F6 IT33 H10 IT41 A7 IT42 C2

12

13

B03B

+1V2DVB

A

7T25 LD3985M122 1 IT24

1u0

3T20

3

IN INH

100K

5

OUT

IT25

4

BP

COM

B

2

B

100n

RES

2T25

22u 6.3V

A

IT43 F11 IT45 H9

14

120R 2T01

B03B

2T36 D9 3T01 H4 3T02 H4 3T05 E11

2T29 H5 2T31 D2 2T32 A8 2T35 D9

2T27

2T14 D12 2T15 D12 2T16 D11 2T18 E8

2T08 D9 2T09 D9 2T12 D11 2T13 D11

100n 2T32

2T01 A8 2T04 C8 2T05 C8 2T07 D8

IT03

5T08

FT11

+3V3DVB

+3V3

+1V2DVB

+1V2DVB

+3V3DVB

+1V2DVB

+1V2DVB

+3V3DVB

+1V2DVB

+3V3DVB

+3V3DVB

+1V2DVB

9T20

C

22u 6.3V

IT11

100n 2T05

2T04

120R

C

RES +3V3DVB IT42

IT22

100n

100n 2T15

100n 2T14

100n 2T13

100n 2T12

2T16

100n

100n 2T36

100n 2T09

100n 2T08

100n RES 2T35

3

2T07

5

10K

4 BC847BPN 7T18-2

IT15

100K

100n 3T14

TUN-AGC-MON

100K RES 3T13

FT42

2T26

3T19

TUN-AGC

6 IT27 2

7T18-1 BC847BPN 1

100n

2T19

100n

4K7

RES 2T18

IT08

3T10 18K

TDA-IF-AGC

3T09

3T08

IT07

AGC-COMP RESET-SYSTE M

E

D

+5V-TUN +5V-TUN

56K

3T21

100n

2T31

1K0

47K RES

3T16

3T06

IT26

1K8

D

3T11

E

TDA-IF-AGC-SPLIT

TDA-IF-IN-N

3T01

RES 2T28

330R 3T02

100n RES 2T29

330R

33R

3T05

12 31 45

VDDE33

VDDI12

28 46

11

9

1 VDDA33_ADC

VDDA12_PLL

VSSE

GND_HS

5 6 7 8 5 6 7 8

0R 0R 0R 0R 0R 0R 0R 0R

19

3T27-1 1

8

0R

17

3T27-3

SCL SDA

FE-CLK

0R

FE-SOP

16 15

IT16

IT17

IT45

100n

SCL-TUNER

50 51 52 53

SDA-TUNER

H

VIA VIA

VIA

VIA

61 60 59 58

VIA 54 55 56 57

2K2

3T23

2K2

3T34

9T02 10K

G

+3V3DVB

IT33

7T17-2 TDA10048HN

3T31

F

FE-DATA0 FE-DATA1 FE-DATA2 FE-DATA3 FE-DATA4 FE-DATA5 FE-DATA6 FE-DATA7

65 64 63 62

TDA-IF-IN-P

4 3 2 1 4 3 2 1

3T17-4 3T17-3 3T17-2 3T17-1 3T22-4 3T22-3 3T22-2 3T22-1

20 21 22 23 24 25 26 27

13 30 VSSIS 44

FT39

TUN

14 29

JTAG-TRST

9T01

49

FT38

OCLK

M VI P

FT37

JTAG-TM S

0 1 2 3 4 5 6 7

PSYNC

2 3

FT36

JTAG-TD-PACIFIC-TDA10048

H

RES 9T03

3T18 RES 3K3

10K RES 3T29

3K3 RES 3T07

JTAG-TCK

RES 3T30

G

FE-VALID AGC-COMP

GPIO<0:3>

VSSA_PLL

10K +3V3DVB

TCK TDI TDO TMS TRST

10

FT17

JTAG-TD-TDA10048-TDA10023

I2C ADDRESS 10

VSSA_OSC

100R

DO

SCL SDA

0R

3T32 RES

39 38 40 37 36

100R

SADDR

VSSA_ADC

3T28

SCL-SSB

IT31

3T27-2

18 32

CLR

6

3T26

SDA-SSB

IT43

43

RES 4K7

35 34

DEN

MAIN

42

3T33 4K7

33

AGC_IF

AGC_TUN

TDA10048HN

XOUT

41

IT32

48

XIN

8

4

F

VDDA12_OSC

7 FT40

VSA_ANA

IT18

100n

47

2T24

FT41

4-MHz

VDD33_ADC

7T17-1

VDA_12_ANA

5

100n

100n 2T21

2T20

4K7

I

I H_17650_005.eps 171207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

14

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

55

SSB: Channel Decoder DVB-C

1

B03C

2

3

4

5

6

7

8

9

CHANNEL DECODER DVB-C

B03C

+3V3

A

A

2TAK

ITA5 3

SI2301BDS 7TA2

2

OUT

5TA1

+1V8DVB

60R

2TA8 2TAA 2TA9 100n 100n 100n

100n 100n 100n 100n 100n 5TA2

22u

100n

2TA1

1

100n

ITA6

2TA3 2TA4 2TA5 2TA6 2TA7

C

B

2TA2

100n

2TAN

2TAL

6TA1

IN

COM

FTA8

1n0 2TAM

5K6 7TA3 PDTC114ET

BAS316

100R

B

ITA3

3TB1

100u 16V

+1V8DVB

ITA4

3TB2

+1V8DVB 7TA1 LD1117ADT18

EMC 2TAP

ITA7

+3V3

22K

22u

3TB0

+3V3-10023

C

FTA1

+1V8DVB 60R

2TAB 2TAD 2TAC

ITA9

RESET-SYSTEM

RES 3TB3 2TAG 2TAJ

10K 100n FTA4 100n FTA5

FTA7 FTA3

2K2

+3V3-10023

F

58 57 10 12 17 18 20 19 13 51 52 53 54 56 62 63 64

3TBF

RES 3TBG RES 3TBH

2K2

100R 100R 100R 100R 4K7

E

3TB7 3TB8 RES 3TB9 RES 3TBA

330R 330R 330R 330R

3TBE

SCL-SSB SDA-SSB SCL-TUNER SDA-TUNER

3TB5 3TB6 3TBK 3TBL

4K7

TDA-IF-IN-P TDA-IF-IN-N DIF-P DIF-N

21 6 16

50

60

VDDD33 ADC VDD18 ADCPLL

7 24 41 14 30 43

55

RES

XOUT ENSERI TEST CLRB

9TA1 TCK TDI TRST TMS TDO

AGCTUN AGCIF SACLK

VIP VIM IICDIV SADDR SCL SDA SCLT SDAT

DO

0 1 2 3 4 5 6 7

DEN OCLK PSYNC UNCOR

NC

4

59

VSSA GNDA OSC ADC

VSSI

VSSE

GND ADCPLL

GPIO CTRL

22 23 26 27 28

D

JTAG-TCK JTAG-TD-TDA10048-TDA10023 JTAG-TRST JTAG-TMS JTAG-TDO

9 ITA2 11 5

FTA2 33R 2TAR

3TB4

9TA2 9TA3

ITAF TDA-IF-AGC-SPLIT

TDA-IF-AGC ITAG

10n

48 47 46 45 40 39 38 37

3TA5-1 3TA5-2 3TA5-3 3TA5-4 3TA2-1 3TA2-2 3TA2-3 3TA2-4

36 35 34 33

3TBB 3TBC 3TBD

1 2 3 4 1 2 3 4

8 7 6 5 8 7 6 5

33R 33R 33R 33R 33R 33R 33R 33R

FE-DATA0 FE-DATA1 FE-DATA2 FE-DATA3 FE-DATA4 FE-DATA5 FE-DATA6 FE-DATA7

33R 33R 33R

E

FE-VALID FE-CLK FE-SOP

29 32

F

49

3

56p

XIN

15 31 44

2

Φ VDDI VDDE CHANNEL RECEIVER

8 25 42

2TAF

56p 1TA1 16M

2TAE

D

VDDA18

OSC PLL ITA8

VDDA33 ADC

1

7TA4 TDA10023HT

61

100n 100n 100n

H_17650_006.eps 171207

3139 123 6341.1

1

2

3

4

5

6

7

8

9

1TA1 D4 ITA7 B3 2TA1 B6 ITA8 D4 2TA2 B7 ITA9 D4 2TA3 C4 ITAF D8 2TA4 C4 ITAG E8 2TA5 C4 2TA6 C4 2TA7 C5 2TA8 C6 2TA9 C7 2TAA C7 2TAB C4 2TAC C5 2TAD C4 2TAE D4 2TAF D4 2TAG E3 2TAJ E3 2TAK A3 2TAL B4 2TAM B6 2TAN B4 2TAP B5 2TAR E7 3TA2-1 E7 3TA2-2 E7 3TA2-3 E7 3TA2-4 E7 3TA5-1 E7 3TA5-2 E7 3TA5-3 E7 3TA5-4 E7 3TB0 A3 3TB1 B3 3TB2 B2 3TB3 D3 3TB4 E7 3TB5 E3 3TB6 E3 3TB7 E3 3TB8 E3 3TB9 E3 3TBA E3 3TBB E7 3TBC F7 3TBD F7 3TBE F4 3TBF F4 3TBG F3 3TBH F4 3TBK E3 3TBL E3 5TA1 C7 5TA2 C3 6TA1 B2 7TA1 B6 7TA2 B4 7TA3 B3 7TA4 D5 9TA1 D8 9TA2 E8 9TA3 E8 FTA1 C3 FTA2 D7 FTA3 E4 FTA4 E4 FTA5 E4 FTA7 E4 FTA8 B4 ITA2 E7 ITA3 B3 ITA4 B2 ITA5 B6 ITA6 C6

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

56

SSB: STI7100 Control 1

2

3

4

5

6

7

8

9

10

11

13

12

STI7100: Control 10K

A

JTAG-TDI-S T JTAG-TMS-ST JTAG-TCK-ST

10K 10K 10K

RES 3A49

V_LVC04

JTAG-TRSTn-S T JTAG-TDO-ST

B

V_LVC04

3A24

3A18

V_LVC0 4 V_LVC04

10K

3A14

27MHZ-3V3

FA11

IA17

9A21 RES

1

+3V3

3A26

6

RES

+3V3

3A28

27M

9A22

D17 D18

8 6

3A25-2 2 10K 3A25-4 4 10K

27MHZ-3V3

AK25 AK26 AK27 AK28

7 5 IA10

3A15 10K

TSI0-ST-CL K TSI0-ST-VAL

2

18p RES

27M RES

2A23

12

18p RES

2A22

14

IA18

1

3A25-1 1 10K 3A25-3 3 10K

IA24

3A13 10K

TRIG-IN TRIG-OUT

IA21 3

9A29 9A30

+3V3

10K

IA22

1A10

7A10-6 74LVCU04APW 13

TRIG-IN

TMUCLK BOLT-ON-IO_RESET-STI7100 BUF-RST-TARGETn ASEBRKn

4

10

7A12 2560TK 1

560R RES

1

1M0 RES

7

C

TMUCLK CPU-27MHZ 3A43

3A27 IA20

14

7A10-5 74LVCU04APW 11

IA29

10K FA10

68R 15p

4

2A21

1

3A17

14

14

IA16

7

2

7A10-3 74LVCU04APW 5

7

1

7A10-2 74LVCU04APW 3

7

7

8

14

14

22R 7A10-1 74LVCU04APW 1

C1 AP27 AN27 E27 E17 D16 E18 D19 E19 E20

CPU-27MHZ

10K

1

Φ

D22 E21 D21 D20 E22

JTAG-TDI-S T JTAG-TMS-ST JTAG-TCK-ST JTAG-TRSTn-S T JTAG-TDO-ST

10K RES 3A16

7A10-4 74LVCU04APW 9

7A00-4 STI7101BWC

E16

AK6 AJ5 10K AH4 AJ4

3A12

7

TSI0-ST-STRT

IA11

TSI0-ST-D0 TSI0-ST-D1 TSI0-ST-D2 TSI0-ST-D3 TSI0-ST-D4 TSI0-ST-D5 TSI0-ST-D6 TSI0-ST-D7

D

AG5 AF5 10K AE4 AF4

TSI1-ST-CL K TSI1-ST-VAL 3A11

EMI-A2

EMI-A1

E

EMI-A4

EMI-A3

EMI-A8

EMI-A7

F

2

1

4

3

4

3

EMI-A6

2

EMI-A5

1

3A29-2 10K 3A29-1 10K 3A29-4 10K 3A29-3 10K 3A30-4 10K 3A30-3 10K 3A30-2 10K 3A30-1

Mode pin

EMI pin

MODE[1:0]

EMIADDR[2:1]

Purpose

TSI1-ST-STRT

7

8

5 MODE[3:2]

PLL1 startup configuration

EMIADDR[4:3]

AE5 AD4 AD5 AC4 AC5 AB4 AB5 AA4

TSI1-ST-D0 TSI1-ST-D1 TSI1-ST-D2 TSI1-ST-D3 TSI1-ST-D4 TSI1-ST-D5 TSI1-ST-D6 TSI1-ST-D7

PLL0 startup configuration

3A10

6

10K

5

EMIADDR[8:5]

AM3 AN3 AP2 AP3 AP1 AN2 AN1 AM2 AM1 AL2 AL1 AL3

6 MODE[7:4]

AH5 AG4 AK1 AK2 AJ1 AJ2 AH1 AH2

Reserved

7

8

TDI TMS TCK TRST TDO

DIGITAL INTERFACE DAA

SYSA CLKIN SYSB SYSBCLKOSC SYSBCLKINALT SYSCLKOUT RTCCLKIN TMUCLK RSETIN WDOGRSTOUT ASEBRK

10K

MODE[9:8] EMI-A9

2

0 1 SYSITRQ 2 3

PIO1

0 1 2 3 4 5 6 7

PIO2

0 1 2 3 4 5 6 7

PIO3

0 1 2 3 4 5 6 7

NMI BYTECLK BYTECLKVALID TSIN0 ERROR PACKETCLK 0 1 2 3 TSIN0DATA 4 5 6 7 BYTECLK BYTECLKVALID TSIN1 ERROR PACKETCLK 0 1 2 3 TSIN1DATA 4 5 6 7 BYTECLK BYTECLKVALID TSIN2 ERROR PACKETCLK 0 1 2 3 TSIN2DATA 4 5 6 7

PIO4

0 1 2 3 4 5 6 7

PIO5

0 1 2 3 4 5 6 7

REF RXN ATA RXP TXN TXP

AM25 AP25 AN25

IA23

G

EMI-A13

EMI-A12

RES

EMI-A14

1K5

4

10K 3A32-1

AL34 AL33 AK34 AK33 AJ34 AJ33 AH34 AH33

C IA25

PCMOUT4

STx71000 master/slave mode

3A44

AJ30 AJ31 AH30 AH31 AG30 AG31 AE31 AE30 AE32 AE34 AE33 AD34 AD33 AC34 AC33 AB34

100R

3A45

SCL-SSB SDA-SSB

100R +3V3

D

3A02 IA2A

3AC8-4 3A4A

WP-FLASH-ST

100R

5

4

33R 33R

LAN-RST PHY-CL K

AD32 AD30 AD31 AC30 AC31 AB30 AB31 AA30

RXD-ASC2 TXD-ASC2

AB33 AA34 AA33 Y34 Y33 AA31 Y30 Y31

IA2B

E

IA2C

RES

9A31 IA28

AM30 AP31 AN31 AP30 AN30

MII-RX-ER

3A34

F

470R 2A24 IA26

IA27

10n 2A25 10n

10K 3A31-4

G

8

EMI-A15

3

PCMOUT3

2

1

10K 3A32-3 10K 3A36-2 10K 3A36-1

MODE[12:11]

EMIADDR[13:12]

Reserved

MODE[13]

EMIADDR[14]

Long resetout mode

5

10K 3A35

EMI-A14

PCMOUT2

EMI banks port size at boot

B

AM32 AP33 AN33 AP34 AN34 AM33 AM34 AL32

7

MODE[10] 1

10K

H

3A31-2

EMIADDR[10:9]

3A33

10K 3A21

PCMOUT4

3A19

PIO0

0 1 2 3 4 5 6 7

AP5 AN5

EMI-A10

+3V3

+3V3

REF USB DM DP

IN TRIGGER OUT

10K 3A31-3

C2A C1A

10K

RES 3A46 RES 3A47 RES 3A48

+3V3

3A23

3A22

3A20

1n0

100n 2A20

2A19

100n

2A18

220R

3A01

V_LVC04

10K

+2V5

10K

IA19

5A10

A

B03D 10K

B03D

6

MODE[14]

EMIADDR[15]

Reserved

7

MODE[15]

PCMOUT3

Reserved

8

MODE[16]

PCMOUT2

Reserved

H

10K

H_17650_007.eps 171207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

1A10 C4 2A18 A2 2A19 A2 2A20 A3 2A21 C6 2A22 C3 2A23 C4 2A24 F11 2A25 F11 3A01 D12 3A02 D11 3A10 E9 3A11 D9 3A12 C9 3A13 C9 3A14 B9 3A15 C9 3A16 B6 3A17 B7 3A18 B9 3A19 G1 3A20 A8 3A21 G2 3A22 A9 3A23 A9 3A24 A9 3A25-1 C8 3A25-2 C9 3A25-3 C8 3A25-4 C9 3A26 B6 3A27 C4 3A28 C4 3A29-1 E2 3A29-2 E2 3A29-3 E2 3A29-4 E2 3A30-1 F2 3A30-2 F2 3A30-3 F2 3A30-4 F2 3A31-2 G2 3A31-3 F1 3A31-4 G2 3A32-1 G2 3A32-3 H2 3A33 B11 3A34 F11 3A35 G2 3A36-1 H2 3A36-2 H2 3A43 B7 3A44 C11 3A45 C12 3A46 A6 3A47 A6 3A48 B6 3A49 B6 3A4A E11 3AC8-4 D11 5A10 A2 7A00-4 A10 7A10-1 B3 7A10-2 B4 7A10-3 B6 7A10-4 B2 7A10-5 C2 7A10-6 C2 7A12 C4 9A21 B5 9A22 C5 9A29 B9 9A30 B9 9A31 F11 FA10 B7 FA11 B9 IA10 C9 IA11 D9 IA16 B4 IA17 B5 IA18 C4 IA19 A2 IA20 C3 IA21 C5 IA22 C5 IA23 B11 IA24 B9 IA25 C11 IA26 F11 IA27 G11 IA28 F11 IA29 B7 IA2A D11 IA2B E11 IA2C E11

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

57

SSB: STI7100 Flash 2

1

B03E

3

4

5

6

7

8

STI7100: FLASH

9

B03E

A

A +3V3

2A50 100n

C

3A54

FA54

+3V3

+3V3

FA52 RESET-FLASH-STn

10K

D

3A55

FA53

EMI-OEn

+3V3

FA55

EMI-RB-WAIT RESET-FLASH-STn EMI-WRn EMI-OEn

15 12 11 28 26 47

B 0 1 2 3 4 5 6 7 8 9 10 11 A 12 13 14 15 16 17 18 19 20 21

EMI-FLASH-CSn

+3V3

EPROM 8Mx8/4Mx16

0 1 2 3 4 5 6 7 D 8 9 10 11 12 13 14 15 A-1

0 64M-1

RB RP WE OE CE BYTE

VPP/WP_

29 31 33 35 38 40 42 44 30 32 34 36 39 41 43 45

EMI-D0 EMI-D1 EMI-D2 EMI-D3 EMI-D4 EMI-D5 EMI-D6 EMI-D7 EMI-D8 EMI-D9 EMI-D10 EMI-D11 EMI-D12 EMI-D13 EMI-D14 EMI-D15

14

WP-FLASH-ST

C

FA50

WP-FLASH-ST

RES

3A50

FA51

10K

D 27

+3V3 10K 3A56

25 24 23 22 21 20 19 18 8 7 6 5 4 3 2 1 48 17 16 9 10 13

EMI-RB-WAIT

10K 3A52

EMI-A1 EMI-A2 EMI-A3 EMI-A4 EMI-A5 EMI-A6 EMI-A7 EMI-A8 EMI-A9 EMI-A10 EMI-A11 EMI-A12 EMI-A13 EMI-A14 EMI-A15 EMI-A16 EMI-A17 EMI-A18 EMI-A19 EMI-A20 EMI-A21 EMI-A22

46

B

37

7A50 M29W640FT70N6F

EMI-FLASH-CSn

10K 3A57

RESET-FLASH-STn

100R BOLT-ON-IO_RESET-STI7100

7A00-2 STI7101BWC AP9 AL6 AM5 G5

E

AK9 AL8 AM8 AP8 AK8

EMI-FLASH-CSn

AP11 AN11 EMI-OEn

F

FA56 FA57 IA53 3A51

RES

EMI-RB-WAIT EMI-WRn

9A51

AK22

10K AN10 AP20 AP19 AP18 AP17 AP15 AP14 AP13 AP12 AN20 AN19 AN18 AN17 AN15 AN14 AN13 AN12

EMI-D0 EMI-D1 EMI-D2 EMI-D3 EMI-D4 EMI-D5 EMI-D6 EMI-D7 EMI-D8 EMI-D9 EMI-D10 EMI-D11 EMI-D12 EMI-D13 EMI-D14 EMI-D15

G

AP10 AP22 AP21

Φ

AM31 L31 C30 A29 AN9

EMI NC

NC

CSA CSB CSC EMI CSD CSE

GNT EMIBUS REQ EMIDMAREQ

BE0 EMI BE1

EMIFLASHCLK

OE LBA EMI BAA READYORWAI T EMI RDNOTWR 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

EMIADDR

EMIDATA

0 1

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23

AM21 AM20 AN22 AL22

E +3V3 IA50

8 3A53-1 1 10K

3A53-3 6 3 10K

7

2

3A53-2

10K

AN21

AL9 AK10 AL10 AK11 AL11 AK12 AL12 AK13 AL13 AK14 AL14 AK15 AL15 AK17 AL17 AK18 AL18 AK19 AL19 AK20 AL20 AK21 AL21

F

EMI-A1 EMI-A2 EMI-A3 EMI-A4 EMI-A5 EMI-A6 EMI-A7 EMI-A8 EMI-A9 EMI-A10 EMI-A11 EMI-A12 EMI-A13 EMI-A14 EMI-A15 EMI-A16 EMI-A17 EMI-A18 EMI-A19 EMI-A20 EMI-A21 EMI-A22

G

H

H

I

I

H_17650_008.eps 171207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

2A50 B5 3A50 D7 3A51 F3 3A52 D2 3A53-1 E6 3A53-2 F7 3A53-3 F6 3A54 D2 3A55 D2 3A56 D2 3A57 E2 7A00-2 E4 7A50 B4 9A51 F3 FA50 D7 FA51 D8 FA52 D2 FA53 D2 FA54 D2 FA55 D2 FA56 F3 FA57 F3 IA50 E5 IA53 F4

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

58

SSB: STI7100 DDR1 3

4

5

STI7100: DDR1

B03F

6

7

8

9

10

11

LMI DDR SDRAM SYS

2AA2

2 1 4 3

4 3 22R 2 22R 1 22R 22R

7 8 22R 5 22R 6 22R 22R

AB1 J2 AC2 K1

3AAK 22R 3AAM 22R

A14 B14 A15 B15 A16 B16 A17 B17 A1 B2 A2 B3 A3 B4 A4 B5 A20 B20 A21 B21 A22 B22 A23 B23 A7 B8 A8 B9 A9 B10 A10 A11

G

H

I

A18 A5 B19 B7

LMISYSADD LMISYSDAT A

LMIVIDBKSEL

0 1

LMISYSDATAMAS K

0 1 2 3

LMISYS

0 1 LMISYSDATASTROB E 2 3

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31

VREF CLKEN REF GNDBCOMP

CLK CLK CS0 LMIVID CS1 RAS CAS WE

LMIVIDADD LMIVIDDAT A

0 1 2 3 4 5 6 7 8 9 10 11 12

LMIVIDBKSEL

0 1

0 1 LMIVIDDATAMASK 2 3

LMIVID

0 1 LMIVIDDATASTROBE 2 3

VREF CLKEN REF GNDBCOMP

61

55

15

9

3

33

18

64

12

6

66

LMI-CSnot LMI-RASnot LMI-CASnot LMI-WEnot

M4 N5 N4 P5 U4 V5 V4 W5 W4 U5 P4 T5 T4

LMI-A(0) LMI-A(1) LMI-A(2) LMI-A(3) LMI-A(4) LMI-A(5) LMI-A(6) LMI-A(7) LMI-A(8) LMI-A(9) LMI-A(10) LMI-A(11) LMI-A(12)

K4 L5

LMI-BA0 LMI-BA1

AB2 J1 AC1 K2

LMI-DQM0 LMI-DQM1 LMI-DQM2 LMI-DQM3

H5 Y5 R1 R2

LMI-VREF-ST IAA1

3AAH 120K

RES 3AAG 9AA2

A13 B13 D11 E11 E14 D15 E15

33R

LMI-CLKEN

G

FAA2

H

FAA3

D14 E13

2V5-LMI

A6 A19 B6 B18 C11 D13 B12 B11

F

LMI-VREF-ST

2V5-LMI

E10 D10 E9 D9 D6 E6 D5 E5 D4 E7 D8 E8 D7

E

IAA2

120K

I

IAA3

LMI-VREF2-ST

LMI-VREF2-ST 3AAT

560R 1%

3AA9 22R 3AAL 22R

LMI-DQS0 LMI-DQS1 LMI-DQS2 LMI-DQS3

3AA8-2 3AA8-1 3AA8-4 3AA8-3

5 6 7 8

4 3 22R 2 22R 1 22R 22R

0 1 2 3 4 5 6 7 8 9 10 11 12

H_17650_009.eps 171207

3139 123 6341.1 1

D

LMI-CLKnot

560R 1%

7 8 22R 5 22R 6 22R 22R

3AA6-4 3AA6-3 3AA6-2 3AA6-1

5 6 7 8

8 7 22R 6 22R 5 22R 22R

CLK CLK CS0 LMISYS CS1 RAS CAS WE

LMI-CLKnot

3AAR

2 1 4 3

4 3 22R 2 22R 1 22R 22R

3AA4-4 3AA4-3 3AA4-2 3AA4-1

1 2 3 4

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31

AT T-POINT

120R 22R

3AAF RES

U1 U2 L4 M5 K5 J4 J5

3AAQ

IAA5

3AAS

3AA7-2 3AA7-1 3AA7-4 3AA7-3

5 6 7 8

4 3 22R 2 22R 1 22R 22R

3AA2-1 3AA2-2 3AA2-3 3AA2-4

V1 V2 W1 W2 Y1 Y2 AA1 AA2 E2 E1 F2 F1 G2 G1 H2 H1 AD1 AD2 AE1 AE2 AF1 AF2 AG1 AG2 L2 L1 M2 M1 N2 N1 P2 P1

LMI-CLK

9AA1

1n0 2ABA

3AA5-4 3AA5-3 3AA5-2 3AA5-1

5 6 7 8

8 7 22R 6 22R 5 22R 22R

LMI-DQS1 LMI-DQS3

IAA4

10u 2AB9

1n0

1n0 2AAW

2AAV

1n0

2AB7

1n0

1n0 2AB6

1n0 2AB5

1n0 2AB4

1n0 2AB3

1n0 2AB2

1n0 2AB1

1n0 2AB0

2AAZ

F

3AA3-4 3AA3-3 3AA3-2 3AA3-1

1 2 3 4

16 51

B

C

LMI-CLK

3AAA

100n

100n 2AAU

100n 2AAT

100n 2AAS

100n 2AAR

100n 2AAP

100n

2AAN

100n

2AAM

100n 2AAL

100n 2AAK

100n 2AAJ

100n 2AAH

100n 2AAG

100n 2AAF

100n 2AAE

100n

2AAB

2AAA

1n0

E

3AA1-1 3AA1-2 3AA1-3 3AA1-4

L U

LMI-D(8) LMI-D(9) LMI-D(10) LMI-D(11) LMI-D(12) LMI-D(13) LMI-D(14) LMI-D(15) LMI-D(24) LMI-D(25) LMI-D(26) LMI-D(27) LMI-D(28) LMI-D(29) LMI-D(30) LMI-D(31)

VSSQ

22R

3AAD

LMI-D(7) LMI-D(6) LMI-D(5) LMI-D(4) LMI-D(3) LMI-D(2) LMI-D(1) LMI-D(0) LMI-D(15) LMI-D(14) LMI-D(13) LMI-D(12) LMI-D(11) LMI-D(10) LMI-D(9) LMI-D(8) LMI-D(23) LMI-D(22) LMI-D(21) LMI-D(20) LMI-D(19) LMI-D(18) LMI-D(17) LMI-D(16) LMI-D(30) LMI-D(31) LMI-D(28) LMI-D(29) LMI-D(26) LMI-D(27) LMI-D(24) LMI-D(25)

220R EMC

3AAE RES

LMI

2V5-LMI 2ABC

DQS

2 4 5 7 8 10 11 13 54 56 57 59 60 62 63 65

9AA0

Φ

IAA0

+2V5

CK CK CKE CS RAS CAS WE VSS

7A00-3 STI7101BWC 5AA0

VREF

58

LMI-CLKnot LMI-CLK LMI-CLKEN LMI-CSnot LMI-RASnot LMI-CASnot LMI-WEnot

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

D

48

12

6

66

48

49 3AAC RES 390R 46 45 44 24 23 22 21

LMI-VREF

NC

L DM U

VSSQ

VSS 34

L U

LMI-DQS0 LMI-DQS2

20 47

A

14 17 19 25 43 50 53

VDDQ

52

DQS

16 51

LMI-DQM1 LMI-DQM3

Φ

DDR SDRAM 16Mx16

100n

CK CK CKE CS RAS CAS WE

26 27

1

61

55

15

9

3

33

18

VREF

LMI-BA0 LMI-BA1

VDD 0 1 2 3 4 5 A 6 7 8 9 10 11 12 AP 0 BA 1

34

C

L DM U

LMI-D(0) LMI-D(1) LMI-D(2) LMI-D(3) LMI-D(4) LMI-D(5) LMI-D(6) LMI-D(7) LMI-D(16) LMI-D(17) LMI-D(18) LMI-D(19) LMI-D(20) LMI-D(21) LMI-D(22) LMI-D(23)

29 30 31 32 35 36 37 38 39 40 28 41 42

10u

560R 1%

FAA1

D

2 4 5 7 8 10 11 13 54 56 57 59 60 62 63 65

LMI-A(0) LMI-A(1) LMI-A(2) LMI-A(3) LMI-A(4) LMI-A(5) LMI-A(6) LMI-A(7) LMI-A(8) LMI-A(9) LMI-A(10) LMI-A(11) LMI-A(12)

560R 1% 2AB8

49 3AAB RES 390R 46 45 44 24 23 22 21

LMI-CLKnot LMI-CLK LMI-CLKEN LMI-CSnot LMI-RASnot LMI-CASnot LMI-WEnot

100n

1n0 2AA8

10u 2AA7

560R 1% 2AA6

3AAP

FAA0

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

1n0

20 47

NC

2AA9

LMI-DQM0 LMI-DQM2

DDR SDRAM 16Mx16

14 17 19 25 43 50 53

64

26 27

Φ

0 1 2 3 4 5 A 6 7 8 9 10 11 12 AP 0 BA 1

7AA2 EDD2516AETA-5B-E

VDDQ

58

LMI-BA0 LMI-BA1

VDD

52

3AAN

B

LMI-VREF

560R 1%

2V5-LMI

29 30 31 32 35 36 37 38 39 40 28 41 42

1

7AA1 EDD2516AETA-5B-E LMI-A(0) LMI-A(1) LMI-A(2) LMI-A(3) LMI-A(4) LMI-A(5) LMI-A(6) LMI-A(7) LMI-A(8) LMI-A(9) LMI-A(10) LMI-A(11) LMI-A(12)

2V5-LMI 10u

10u

10u

14

B03F

2AA3 RES

2V5-LMI

A

D

13

LMI DDR SDRAM SYS

2AA1 RES

2AA0

12

100n

2

2ABB

1

2

3

4

5

6

7

8

9

10

11

12

13

14

2AA0 A5 2AA1 A6 2AA2 A11 2AA3 A12 2AA6 C3 2AA7 C3 2AA8 C3 2AA9 C9 2AAA D1 2AAB D2 2AAE D2 2AAF D2 2AAG D2 2AAH D3 2AAJ D3 2AAK D3 2AAL D3 2AAM D3 2AAN D4 2AAP D4 2AAR D4 2AAS D4 2AAT D5 2AAU D5 2AAV E5 2AAW E5 2AAZ E3 2AB0 E3 2AB1 E3 2AB2 E3 2AB3 E3 2AB4 E4 2AB5 E4 2AB6 E4 2AB7 E4 2AB8 H11 2AB9 H11 2ABA H12 2ABB I12 2ABC D1 3AA1-1 D7 3AA1-2 D7 3AA1-3 D7 3AA1-4 D7 3AA2-1 D8 3AA2-2 E8 3AA2-3 E8 3AA2-4 E8 3AA3-1 E7 3AA3-2 E7 3AA3-3 E7 3AA3-4 E7 3AA4-1 E8 3AA4-2 E8 3AA4-3 E8 3AA4-4 E8 3AA5-1 F7 3AA5-2 E7 3AA5-3 E7 3AA5-4 E7 3AA6-1 F8 3AA6-2 F8 3AA6-3 F8 3AA6-4 F8 3AA7-1 F7 3AA7-2 F7 3AA7-3 F7 3AA7-4 F7 3AA8-1 F8 3AA8-2 F8 3AA8-3 F8 3AA8-4 F8 3AA9 G7 3AAA G11 3AAB B4 3AAC B10 3AAD H11 3AAE D10 3AAF D10 3AAG F11 3AAH F10 3AAK G8 3AAL G7 3AAM G8 3AAN B3 3AAP C3 3AAQ D13 3AAR I12 3AAS I12 3AAT I10 5AA0 D1 7A00-3 D9 7AA1 A5 7AA2 A11 9AA0 D10 9AA1 D10 9AA2 F11 FAA0 B3 FAA1 C2 FAA2 H11 FAA3 H12 IAA0 D1 IAA1 F10 IAA2 I10 IAA3 I12 IAA4 D13 IAA5 D13

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

59

SSB: STI7100 AV Interface

1

B03G

2

3

4

5

6

7

8

9

STI7100: AV-INTERFACE

B03G

A

A

B

B

7A00-1 STI7101BWC

Φ

C

3AC6-1 3AC6-2 3AC6-3 3AC6-4 3ACB-4 3ACC 3ACD 3ACB-1 3AC8-2 3AC8-1 3A03 3A04 3ACB-3 3AC7-1 3AC7-2 3AC7-3

MII-TXD(0) MII-TXD(1) MII-TXD(2) MII-TXD(3) MII-TXEN MII-MDIO MII-MDC MII-RXCLK MII-RXD(0) MII-RXD(1) MII-RXD(2) MII-RXD(3) MII-TXCLK MII-COL MII-CRS MII-MDINT

D

3ACB-2 3AC8-3

MII-RX-ER MII-RX-DV

1 2 3 4 4

8 7 6 5 5

1 2 1

8 7 8

3 1 2 3

6 8 7 6

2 3

33R 33R 33R 33R 33R 33R 33R 33R 33R 33R 47R 47R 33R 33R 33R 33R

7 6

33R 33R

C28 C27

1u0 560R 5%

M34 M33

IAC4

2AC0 3AC1

L34 L33 K34 K33 J34 J33 H34 H33 U30 T31 T30 R31 R30 P31 P30 N31

IAC5

B28 A28 B27 A27

E

IAC6 SPDIF-IN

3AC0 68R

0 1 2 3 4 5 6 7 8 VIDDIGOUTYC 9 10 11 12 13 14 15

D24 E24 E26 D26

R0OUT VIDANA G0OUT B0OUT

IDUMPR0 VIDANA IDUMPG0 IDUMPB0 C1OUT VIDANA CV1OUT Y1OUT IDUMPC1 VIDANA IDUMPCV1 IDUMPY1 VIDANA

VSYNC VIDDIGOUT HSYNC VBGFIL AUDANA IREF

VIDANA

MRIGHT PRIGHT AUDANAOUT MLEFT PLEFT

IAC7

A25 B25 C25 D25 E25

PCMOUT2 PCMOUT3 PCMOUT4

AV INTERFACE

SPDIF SCLK AUDOUT LRCLK PCMCLK

REXT0 REXT1

GNDAREXT0 GNDAREXT1

TXCP TXCN TX0P TX0N TMDS TX1P TX1N TX2P TX2N TMDSREF

C

D34 F34 E34 D33 F33 E33 A34 FAC1 C34 B34 IAC2

A33 C33 B33

3AC2 12K 3AC3

A31 A32 IAC3 B31 B32

PEND NEW 12NC 6AC1 ESDA6V1SC6

12K 3AC5

MPEG-TXC+ MPEG-TXC+ MPEG-TXCMPEG-TX0+ MPEG-TX0MPEG-TX1+ MPEG-TX1MPEG-TX2+ MPEG-TX2-

FAC0

DATAIN AUDDIG DSTRBIN DLRCLKIN

D29 D28 E28

MPEG-TX0-

6

2

5

3

4

MPEG-TX0+

1

6

MPEG-TX1-

2

5

3

4

MPEG-TXC-

E

PEND NEW 12NC 6AC2 ESDA6V1SC6

3AC9 +3V3TMDS 100R 1%

0 1 2 AUDPCMOUT 3 4

1

22K

U33 U34 T33 T34 R33 R34 P33 P34 T32

D

22K 3AC4

MPEG-TX1+

3ACA 100R 1% COMPENSATION RESISTO R

MPEG-TX2-

MPEG-TX2+

F

F

G

G H_17650_010.eps 171207

3139 123 6341.1

1

2

3

4

5

6

7

8

9

2AC0 D3 3A03 D3 3A04 D3 3AC0 E3 3AC1 E3 3AC2 D6 3AC3 D6 3AC4 D6 3AC5 D6 3AC6-1 C3 3AC6-2 C3 3AC6-3 C3 3AC6-4 C3 3AC7-1 D3 3AC7-2 D3 3AC7-3 D3 3AC8-1 D3 3AC8-2 D3 3AC8-3 D3 3AC9 E6 3ACA F6 3ACB-1 D3 3ACB-2 D3 3ACB-3 D3 3ACB-4 C3 3ACC C3 3ACD C3 6AC1 D8 6AC2 E8 7A00-1 C5 FAC0 E5 FAC1 D5 IAC2 D6 IAC3 D6 IAC4 D4 IAC5 E3 IAC6 E3 IAC7 E3

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

60

SSB: STI7100 Power 1

2

3

4

5

6

7

8

9

10

11

12

13

14

STI7100: POWER

B03H

B03H A

A 7A00-5 STI7101BWC

VDDE-2V5

D30 E30 H32

DA_HD_0_VCCA DA_SD_0_VCCA VDDE2V5_VID_ANA

DA_HD_0_GNDA DA_SD_0_GNDA GNDE_VID_ANA

C32 F30 J32

ADAC B29 D31 IAE2 +2V5-CLKGENA +1V

100n

B1 F3 C2 E4 C3

CKGA_PLL1_AVDDPLL2V5 CKGA_PLL1_DVDDPLL1V0 CKGA_PLL2_AVDDPLL2V5 CKGA_PLL2_DVDDPLL1V0 CKGA_PLL_VDDE2V5 CLOCKGENB

M30 J30 L30 H30 G32 N30 K30 E29

VDDE-2V5 IAE3 VDDE-2V5 100n

M31 J31 L32 H31 F31 D32 K31 K32

GND

CLOCKGENC

+2V5-CLKGENA

FS0_GNDA FS0_GNDD GNDE_FS0_ANA

C31 G31 F32

LMI 100n

2V5-LMI

IAE8 2V5-LMI 1n0 IAE9

5AE5 +1V

LMISYSVDDE2V5

LMISYSDLL_VDD

E IAE5

5AE0 +3V3

VDDE-3V3 220R

F

G

LMIVIDDLL_VDD D27 M32

+1V 100n 2AEU

100n 2AEM

+1V 1n0 2AEA

GND_ANA1 GND_ANA2

1n0 2AEZ

1n0

ANALOG

H

H_17650_011.eps 171207

3139 123 6341.1 1

D

LMIVIDVDDE2V5

2AE5

H

100n 2AGH

2AGG

30R

G3 C12

1n0 2AET

2AEH

G

100n 2AGT

30R

LMISYSDLL_VSS LMIVIDDLL_VSS

1n0 2AEL

5AE9 +1V

T1 T2 U3 V3 W3 Y3 Y4 AA3 AA5 AB3 AC3 H4 C4 C5 C6 C7 C8 C9 C10 C13 D12 E12 A12

1n0 2AE9

1n0 2AGD

2AGC

30R

FS0_VCCA FS0_VDDD VDDE2V5_FS0_ANA

C

100n

+2V5

F

C29 G30 E31

IAE4

1n0 2AE6

5AE7

GNDE

GNDE 3V3

100n 2AFT

100n 2AGN

100n 2AGB

1n0 2AGA

1n0 2AG9

1n0 2AG8

1n0 2AG7

1n0 2AG6

1n0 2AG5

100n 2AG4

1n0 2AFY

2AFW

220R

CKGB_4FS0_GNDA CKGB_4FS0_GNDD CKGB_4FS1_GNDA CKGB_4FS1_GNDD GNDE_4FS_ANA AGNDPLL80v0 DGNDPLL80v0 GNDE_PLL80_ANA

VDDE-2V5

100n 2AFS

+2V5

CKGB_4FS0_VCCA CKGB_4FS0_VDDD CKGB_4FS1_VCCA CKGB_4FS1_VDDD VDDE2V5_4FS_ANA AVDDPLL80v0 DVDDPLL80v0 VDDE2V5_PLL80_ANA

D1 D3 D2 E3

100n 2AER

5AE4

CKGA_PLL1_AGNDPLL2V5 CKGA_PLL1_DGNDPLL1V0 CKGA_PLL2_AGNDPLL2V5 CKGA_PLL2_DGNDPLL1V0

100n 2AGP

1n0 2AF5

2AF4

30R

E

A30 B30 E32

CLOCKGENA

+3V3TMDS

+3V3

AUD_GNDA AUD_GNDAS GNDE_AUD_ANA

100n 2AFL

5AE2

AUD_VCCA VDDE2V5_AUD_ANA

VDD

100n 2AF8

100n

100n 2AE7

1n0 2AE2

2AE8

1n0 2AEB

N34 N33 V34 V32 P32 V33 U32 N32 R32

VDAC

220R

D

TMDSVSSC0 TMDSVSSC1 TMDSVSSC2 TMDSVSSCK TMDSVSSP TMDSVSSX TMDSVSSSL TMDSVSSD TMDSGNDE

B

100n

+1VTMDS

+1V

TMDSVDDC0 TMDSVDDC1 TMDSVDDC2 TMDSVDDCK TMDSVDDP TMDSVDDX TMDSVDDSL TMDSVDDD TMDSVDDE3V3 TMDSVDD

100n 2AFK

+3V3TMDS IAE1

5AE8

W31 Y32 W34 W32 AC32 W33 AA32 AB32 W30 V31

VDDE 3V3

A24 B24 C14 C15 C16 C17 C18 C19 C20 C21 C22 C23 C24 D23 E23 J3 K3 L3 M3 N3 P3 R3 R4 R5 T3 AD3 AE3 AF3 AG3 AH3 AJ3 AM4 AM6 AN4 AN6 AP4 AP6 V30 U31 AH32 AK32 AJ32 AG34 AG33 AG32

100n 2AFJ

TMDS +1VTMDS

C

VDDE 2V5

100n 2AFH

AP28 AN28 AM27 AL27 AM28

POWER (2V5, 3V3)

1n0 2AFE

SATAVSST SATAVSSR SATAVSSREF SATAVSSOSC SATAVSSDLL

A26 B26 C26 G33 G34 AF31 AF32 AF33 AF34 AK23 AK24 AM9 AM10 AM11 AM12 AM13 AM14 AM15 AP7 AN8

1n0 2AFD

SATAVDDT0 SATAVDDT1 SATAVDDR0 SATAVDDR1 SATAVDDREF SATAVDDOSC2V5 SATAVDDOSC SATAVDDDLL

VDDE-3V3

1n0 2AFC

1n0

1n0 2AFR

1n0 2AFQ

1n0 2AFP

1n0 2AFN

1n0 2AEP

100n 2AEN

100n 2AEK

100n 2AEJ

100n 2AEG

1u0 2AEF

1u0 2AEE

VDDE-2V5

AN29 AP29 AM29 AL28 AL30 AM26 AL26 AL29

VDDE-2V5

1n0 2AFB

SATA- I

IAE6 +1V 2AED

USBVSSC2V5 USBVSSBS USBVSSP2V5 USBVSSP

2AEC

B

USBVDDBC2V5 USBVDDBS USBVDDP2V5 USBVDDP

AK3 AK7

1n0

VDDE-2V5

H3 N13 N14 N15 N20 N21 N22 P13 P14 P15 P16 P19 P20 P21 P22 R14 R15 R16 R19 R20 R21 T15 T16 T17 T18 T19 T20 U15 U16 U17 U18 U19 U20 V15 V16 V17 V18 V19 W15 W16 W17 W18 W19 W20 Y14 Y15 Y16 Y19 Y20 Y21 AA13 AA14 AA15 AA16 AA19 AA20 AA21 AA22 AB13 AB14 AB15 AB20 AB21 AB22 AK4 AK5 AK29 AK30 AK31 AL4 AL5 AL31 AM22 AN26 AN32 AP26 AP32 V20

100n 2AF0

SENSE+1V

Φ

POWER (1V0)

EMC

VDDE-3V3

cA00

+1V

F4 F5 G4 N16 N17 N18 N19 P17 P18 R13 R17 R18 R22 T13 T14 T21 T22 U13 U14 U21 U22 V13 V14 V21 V22 W13 W14 W21 W22 Y13 Y17 Y18 Y22 AA17 AA18 AB17 AB18 AB19 AF30 AK16 AL7 AB16 AL16 AM7 AM16 AM17 AM18 AM19 AN7 AN16 AP16

+1V

AN23 AL23 AM23 AP23

2AGU

IAEA

USB2 AL24 AM24 AL25 AN24 AP24

7A00-6 STI7101BWC

Φ

100n 2AFG

Φ

POWER (MISC)

1n0 2AFF

7A00-7 STI7101BWC

2

3

4

5

6

7

8

9

10

11

12

13

14

2AE2 D2 2AE5 H8 2AE6 H9 2AE7 D2 2AE8 D1 2AE9 H9 2AEA H10 2AEB D1 2AEC F12 2AED B2 2AEE B2 2AEF B3 2AEG B3 2AEH G5 2AEJ B3 2AEK B3 2AEL H9 2AEM H10 2AEN B3 2AEP B4 2AER H11 2AET H9 2AEU H10 2AEZ H10 2AF0 H10 2AF4 E1 2AF5 E1 2AF8 H11 2AFB F12 2AFC F12 2AFD F12 2AFE F13 2AFF F13 2AFG F13 2AFH F13 2AFJ F13 2AFK F14 2AFL H11 2AFN B4 2AFP B4 2AFQ B4 2AFR B4 2AFS H11 2AFT H12 2AFW E1 2AFY E1 2AG4 E2 2AG5 E2 2AG6 E2 2AG7 E2 2AG8 E2 2AG9 E3 2AGA E3 2AGB E3 2AGC F1 2AGD F1 2AGG H5 2AGH H5 2AGN E3 2AGP H11 2AGT G5 2AGU F11 5AE0 E12 5AE2 D1 5AE4 E1 5AE5 H4 5AE7 F1 5AE8 D1 5AE9 G4 7A00-5 A10 7A00-6 A13 7A00-7 A7 IAE1 D1 IAE2 D1 IAE3 E1 IAE4 F1 IAE5 E12 IAE6 B2 IAE8 G5 IAE9 H5 IAEA B9 cA00 B2

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

61

SSB: STI7100 Debug

1

B03I

2

3

4

6

5

STI7100: DEBUG

B03I

A

A

+3V3

B

IAM1

100n

IAM2

1

100n

2

V+

2AM2 2AM3 100n

C2+

C

C2-

11 10

100R

IAM3 6

V-

5

3AM1

TXD-ASC2

VCC

C1-

4

100n

C

C1+

3

2AM4

Φ

RS232

OUT

R1 IN R2

R1 OUT R2

3AM2

14 7

T1 T2

1AM0

100R

12 9

FAM0 3AM3

FAM1

FAM2 5

100R

4

1 2 3

RS232 FOR MPEG4

B3B-PH-SM4-TBT(LF)

15

13 8

T1 IN T2

GND

2AM1

16

7AM0 ST3232C

100n

2AM0

B

D

D RXD-ASC2

14

+3V3

2

7AM1-1 74LVC07APW 3AM7 1

E

ST40 DEBUG LINK

+3V3

10K

7

9AM1

TRIG-OUT

FAM3

TRIG-IN

FAM4 9AM0 RES

ASEBRKn

FAM5 FAM6

JTAG-TMS-ST 3AM0

JTAG-TCK-ST

33R

JTAG-TDI-ST

F

1AM2

FAMJ

FAM7 FAM8

JTAG-TDO-ST

FAM9

RST-TARGETn

FAMA

JTAG-TRSTn-ST

FAMB FAME

+3V3

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20

E

F

14 4

3 7

BUF-RST-TARGETn

7AM1-2 74LVC07APW

10K

RES 3AM4

5-147279-5

G

3AM8

+3V3

10K

G

RES 9AM2

H_17650_012.eps 171207

3139 123 6341.1 1

2

3

4

5

6

1AM0 C5 1AM2 E5 2AM0 B4 2AM1 C2 2AM2 C4 2AM3 C4 2AM4 C2 3AM0 E5 3AM1 C2 3AM2 C4 3AM3 C4 3AM4 G3 3AM7 E4 3AM8 G4 7AM0 B3 7AM1-1 E3 7AM1-2 G3 9AM0 E5 9AM1 E2 9AM2 G3 FAM0 C5 FAM1 C5 FAM2 C5 FAM3 E5 FAM4 E5 FAM5 E5 FAM6 E5 FAM7 F5 FAM8 F5 FAM9 F5 FAMA F5 FAMB F5 FAME F5 FAMJ E5 IAM1 C3 IAM2 C3 IAM3 C4

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

62

SSB: PNX85xx: Standby Controller 1

2

3

4

27M

1H00

P0.7 2H00 1n0 RC_uP LED2 CEC-HDMI SUPPLY-FAUL T DETECT1

3H51 3H21

100K

IH9Q IH9R

10K 3H24 10K 3H27 10K 3H30 10K

10K 3H26 10K 3H28 100K 3H31 10K

P0.6

P2.0 P2.1 P2.2 P2.3 P2.4 P2.5

IH9F

P2.6 P2.7

3H58

3H60 10K

RXD-UP TXD-UP

10K 3H36 Include for 22M

10K

U5 U4 U3 U2 U1 V5 V4 V3

RC_uP LED2 CEC-HDMI SUPPLY-FAUL T DETECT1

AA2 AA1 AB4 AB3 AB2

P2.0 P2.1 P2.2 P2.3 P2.4 P2.5 P2.6 P2.7

V2 V1 W4 W3 W2 W1 Y4 Y3

IRQ-FRAME-SYNC

IH02

3H37 10K RES

RESET-SYSTEM

3H64 10K 3H52

10K

3H70

SDM KEYBOARD 100n IRQ-FRAME-SYNC

680R

2H01 BOOTMODE

9H06 Include for 22M

I2C uP

SCL SDA 0 1

PWM

0 1 2 P1 3 7

PSEN ALE EA

8

AG4 AH3

3H38-2 7

3H38-1

2

1 100R

SCL-UP-MIPS SDA-UP-MIPS

100R 3H38-3 6 3 3H38-4 5 100R 4

AD3 AD2 Y1 Y2

IH9K AA4

100R

3H53-2

3H54

100R

100R

3H56

CTRL2-STBY_BACKLIGHT-CTRL_RESET-P 3 LED1 IH9H PSEN ALE EA

SCL-UP-MIPS SDA-UP-MIPS

4K7

9H0A

CTRL2-STBY_BACKLIGHT-CTRL_RESET-P 3

RES 9H0B

BOOTMODE

CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3_BOOTMODE

7H02 M25P05-AVMN6 5 IH03 6

SPI-CLK

1 IH07 3

SPI-WP

4 P6 5

7

RES

100p

C

FH01

IH01

512K FLASH

Q

2

S

D

W HOLD VSS 4

+5V

+3V3

+3V3

RES 10K DETECT1

DETECT2

FH04

+12VD

3H41 10K

3

3K3

E

IH09

3H43

2

C

9H01

FOR SERVICE ONLY

SPI-SDI

4K7 RES

IH9T 7H14 PDTC114EU

1

7H16-1 BC847BS 1

Φ

10K

7 3H78-2 2

10K

8 3H78-1 1 2

1

7H03 BC847BW RES

IH10 IH11 9H05

6H02

10K

9H03

FH03

9H02 D

IH06 SPI-CSB

1

IH19

2 3H86-2 7

BAS316

IH9D

10K

10K

6 3H86-3 3

1 3H86-1 8

IH9E

10K

FH00

100p

VCC

IH00 SPI-SDO

0 1 P5 2 3

IH14

9H08 SPI-PROG

SDM

3

4 3H86-4 5

10K

2H07 RES

+3V3-STANDBY

+3V3

3H07

10K

+3V3-STANDBY

6

10K 3H08

FOR SERVICE ONLY

+3V3-STANDBY

SPI-PROG SPI-WP

E

10K

ALE

B

3H05

3H06

EA

DEVELOPMENT ONLY

2H06 RES

0 1 2 P3 3 4 5

AE2 AE4

3H03 4K7

10K

PSEN

KEYBOARD

10K

3H04

CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3 LED1

+3V3-STANDBY

3H01

10K 3H02

100R 0 1 2 3 P2 4 5 6 7

AF4 AF3 AF2 AF1

RESET-SYSTE M AV2-BLK SDM KEYBOARD LIGHT-SENSOR AV1-STATUS AV2-STATUS

10K 3H00

SPI-PROG SPI-WP

0 1 2 3 P0 4 5 6 7

AB1 AC5 AC4 AC3 AC2 AC1

RXD-UP TXD-UP IRQ-FRAME-SYNC

3H32

SPI-SDI

RES 9H04

P0.4 P0.5

P0.0 P0.1 P0.2 P0.3 P0.4 P0.5 P0.6 P0.7

SPI-SDO SPI-SDI SPI-CLK SPI-CSB

2

P0.3

IH9P

10K 3H46 27K

3H23

P0.1 P0.2

3H39

10K

D

14

3H25

22K 3H42

O RESET_IN

AD4 AE1 AD1 AE3

1

3H20

P0.0

SDO SDI SPI CLK CSB

XTAL

AG2

3H22

10K

+3V3-STANDBY

13

B04A

3H12 4K7 RES

10K 3H17

C

12

2H10

3H15

+3V3-STANDBY

11

A

I

AA3

IH9M IH9N

10K 3H14 10K 3H16 10K 3H19 4K7

10K

3H48 100K

10

8

3H13

+3V3-STANDBY

9

100n

AG1

RESET-STBY- J

B

8

STANDBY CONTROL 27p

RC2 RC1

3H10 +3V3-STANDBY

7

7H00-6 PNX85xx

AH00

+3V3-STANDBY 2H02

9H0F 9H0E RES FOR ITV

27p

2H04 RC

10K

9H0D

RES 3H0A

A

6

PNX85xx: STANDBY CONTROLLER

B04A RC_uP

5

IH16 1

1

2H03

CTRL1-STBY_LAMP-ON

2

LAMP-ON-OUT

1u0

5

F

7H16-2 BC847BS 4

10K

7 3H92-2 2 8 3H92-1 1

10K

10K

IH04

6 3H92-3 3

3H29

+1V2-PNX8541

3H0B

9H07

CTRL3-STBY_POWER-OK-DISP

100R 3H0C

IH17 1

10K

F

+3V3-STANDBY

RESERVED

3

+12VD 7H06 PDTC114EU

100R

7H07 PDTC114EU

6 IH26

10K

2

7H93-1 BC847BS 1

10K

4 3H92-4 5

G

9H0C

+1V4-PNX5050

3 3H78-3 6

G

AUDIO-MUTE-UP

FH02

6H00 BAS316

Include for 22M

6H03

3 3H87-3 6

10K

10K

7 3H87-2 2

10K

10K

1 3H87-1 8

5 3H87-4 4

7H93-2 BC847BS IH18

H

3

5 4

H_17650_013.eps 140108

3139 123 6341.1 1

IH0Z

1 3H44

+5V

IH9G

AUDIO-MUTE BAS316

10K

H

IH08

10K

4 3H78-4 5

IH91

AUDIO-RESET

2

3

4

5

6

7

8

9

10

11

12

13

14

1H00 A4 2H00 B3 2H01 D3 2H02 A3 2H03 F6 2H04 A3 2H06 C14 2H07 C14 2H10 C11 3H00 A11 3H01 B12 3H02 B11 3H03 B12 3H04 B11 3H05 B12 3H06 B11 3H07 B12 3H08 B11 3H0A A3 3H0B F13 3H0C F11 3H10 A2 3H12 E12 3H13 B1 3H14 B2 3H15 B1 3H16 B2 3H17 B1 3H19 B2 3H20 B1 3H21 C2 3H22 E12 3H23 C1 3H24 C2 3H25 E12 3H26 C1 3H27 C2 3H28 C1 3H29 F12 3H30 C2 3H31 C1 3H32 A11 3H36 C2 3H37 C4 3H38-1 B7 3H38-2 B7 3H38-3 B7 3H38-4 B7 3H39 B2 3H41 E9 3H42 B1 3H43 E8 3H44 H4 3H46 B2 3H48 B1 3H51 B2 3H52 D2 3H53-2 B7 3H54 B7 3H56 B7 3H58 C2 3H60 C1 3H64 D1 3H70 D2 3H78-1 E5 3H78-2 E6 3H78-3 G4 3H78-4 H4 3H86-1 E4 3H86-2 E4 3H86-3 E3 3H86-4 E2 3H87-1 H3 3H87-2 H3 3H87-3 H2 3H87-4 H4 3H92-1 G4 3H92-2 F4 3H92-3 F3 3H92-4 G3 6H00 G13 6H02 F5 6H03 G13 7H00-6 A5 7H02 C11 7H03 E12 7H06 G12 7H07 G13 7H14 E6 7H16-1 E5 7H16-2 F5 7H93-1 G5 7H93-2 H4 9H01 C14 9H02 C14 9H03 B14 9H04 B13 9H05 F12 9H06 D2 9H07 F12 9H08 B14 9H0A C8 9H0B C8 9H0C G5 9H0D A1 9H0E A1 9H0F A2

AH00 A4 FH00 B13 FH01 C13 FH02 G13 FH03 C13 FH04 E8 IH00 D10 IH01 D11 IH02 C4 IH03 D10 IH04 F4 IH06 D10 IH07 D10 IH08 H5 IH09 E12 IH0Z H13 IH10 E12 IH11 F12 IH14 E5 IH16 F5 IH17 G5 IH18 H4 IH19 E4 IH26 G4 IH91 H4 IH9D E3 IH9E E3 IH9F C3 IH9G H3 IH9H B8 IH9K B6 IH9M A3 IH9N B3 IH9P B3 IH9Q C3 IH9R C3 IH9T E6

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

63

SSB: PNX85xx: NVM

4

B04B

5

+3V3-PER

A FHC6

A FHC9

1 3HC2-1 8

BC857BW 7HC4

C

P2.0 P2.1 P2.2 P2.3 P2.4 P2.5 P2.6 P2.7 RES 9H09 RES 9H10

+3V3-STANDBY

+3V3-STANDBY

RESET-STB Y

ALE PSEN EA RESET-STBY- J

FTSH-125-01-L-DV

3HC2-3

8

6

B

7

WC

6

SCL ADR

5

SDA

FHC1

SCL-UP-MIPS

FHC2

SDA-UP-MIPS

FHC7

MAIN NVM

6HC1 BAS316

C

IHC5

C

+3V3-EXT

+3V3

2HC1

B

7HC0-1 74HC4066PW 1 1

RXD

13

FHC3

100n

1

2

RXD-UP

1

3

RXD-MIPS

1

9

TXD-UP

X1 7

BOLT-ON-IO_RESET-STI7100 EJTAG-DETECT AV1-BLK STANDBY AUDIO-MUTE-UP DETECT2 CTRL4-STBY_SELECT-PWM-ANA CTRL3-STBY_POWER-OK-DISP

2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50

0 1 2

D

7HC0-2 74HC4066PW 4 1 5

UART-SWITCHn

D

X1 7

P0.0 P0.1 P0.2 P0.3 P0.4 P0.5 P0.6 P0.7

1 2 3

7HC0-3 74HC4066PW 8 1

TXD

6

E

X1

E

7

B

HP-DETECT RESET-NVM_WP-NANDFLASH ENABLE-1V2 REGIMBEAU_CVBS-SWITCH ENABLE-3V3 CTRL1-STBY_LAMP-ON AUDIO-RESET UART-SWITC H

IHC7

100n

Φ (8Kx8) EEPROM

4

1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49

B

ROW_2 1H10-2

10K

RES

7HC3 M24C64 3HC9

RES

3

2HC0 RES IHC1

+3V3-PER

A

8

B04C

IHC2

10K

ROW_1 1H10-1

7

PNX85xx: NVM RESET-NVM_WP-NANDFLASH

A

6

14

PNX85xx: DEBUG

B04C

4

14

3

3

14

2

2

C

7HC0-4 74HC4066PW 11 1

FTSH-125-01-L-DV

1

10

TXD-MIPS

X1

F

UART-SWITCHn

FHC4

FHC5 UART-SWITCH

10K

1 3HC8 2

7

12

14

1

B04B

1

9H10 C3

10K

9H09 C3

10K

1H10-2 A4

7 3HC2-2 2

SSB: PNX85xx: Debug 1H10-1 A1

1 3HC7 2

F

10K 7HC2 PDTC144EU 7HC1 PDTC144EU

H_17650_015.eps 140108

3139 123 6341.1 1

D

D

H_17650_014.eps 140108

3139 123 6341.1

1

2

3

4

2

3

4

5

6

7

8

2HC0 B5 2HC1 C7 3HC2-1 A4 3HC2-2 A4 3HC2-3 B5 3HC7 F7 3HC8 F6 3HC9 B4 6HC1 C6 7HC0-1 C7 7HC0-2 D7 7HC0-3 E7 7HC0-4 E7 7HC1 F6 7HC2 F7 7HC3 B4 7HC4 A4 FHC1 B5 FHC2 B5 FHC3 D6 FHC4 F5 FHC5 F5 FHC6 A3 FHC7 C5 FHC9 A4 IHC1 B4 IHC2 A4 IHC5 C7 IHC7 B4

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

64

SSB: PNX85xx: Miscellaneous

1

B04D

2

3

4

5

6

7

8

PNX 85xx: MISCELLANEOUS

B04D

A

A

B

B

2

FHD1

3 IHD0

6 3HD3-3 3

D

CD

NC

RESET-STBY

C

1

4

100n

2HD0

10K

RST GND

FHD0

D

10K

2 3HD3-2 7

5

IN

10K

3HD3-4 5 7HD0 NCP303LSN10T1

4

C

+3V3-STANDBY

10K

1 3HD3-1 8

+3V3-STANDBY

E

E

F

F H_17650_016.eps 140108

3139 123 6341.1

1

2

3

4

5

6

7

8

2HD0 D2 3HD3-1 C2 3HD3-2 D2 3HD3-3 D2 3HD3-4 C3 7HD0 C3 FHD0 C4 FHD1 C2 IHD0 C2

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

65

SSB: PNX85xx: Control MIPS

1

3

4

5

6

7

PNX85xx: CONTROL MIPS

+3V3-PER

330R

MIPS C0NTROL AK1 AJ2 AK3 AJ3 AK2

EJTAG-TDI EJTAG-TCK EJTAG-TMS EJTAG-TRSTN EJTAG-TDO

AK27 AH27 AK29 AK28 AJ28 AJ27

SCL1 SDA1 SCL2 SDA2 SCL3 SDA3

B

TDI TCK TMS EJTAG TRST TDO

AE27

C +3V3-PER

3HP8

IHF8

3HF0

IRQ-CA

A

7HF2 PDTC114EU

RESET-SYSTEM IHF6

PCI-CLK-OUT

33R

B PCI-CLK-OUT

IHF5

3HFH

IHF0

VPP_ID

USE WHEN PCI CLK IS DIRECT FROM 8541

PCI-CLK-PNX5050

33R

T1 T2 T3 G27 E27 D28

IHF7

AK26

0 1 2 GPIO 3 4 5

IHFA

3HF2

PCI-CLK-PNX8535

33R IHFB

3HF4

PCI-CLK-USB20

C

33R

9HF4 RES

2HF2 100n

BOOTMODE CTRL1-MIPS_LCD-PWR-ON IRQ-PCI 9HF3 IRQ-CA RXD-MIPS TXD-MIPS

27MHz_OUT

AJ26

SCL I2C1 SDA SCL I2C2 SDA SCL I2C3 SDA

+1V2-PNX8541 9HF8

RESET_SYS

B04E

SML-310

RESET-SYSTEM

7H00-4 PNX85xx

9

RES

6HF0

10K

3HF3

A

8

+3V3-PER

3HF9

B04E

2

+3V3-PER

10K

RESERVED USE FOR PCI CLK

2HF5 IHF9

3HFY

BOOTMODE

10n 2HF6

+3V3-PER

10K

IRQ-PCI

Φ

10K

VDD

ZERO DELAY BUFFER

D 3HFR

PCI-CLK-OUT

1

100n

6

7HF1 CY2305S

3HF1

REF

1 2

CLK

33R

3 4 CLKOUT

4

GND

SDA2 SCL3

3HPH

3HPJ

SDA3

100R

33R

15p

7 8

3HFM

PCI-CLK-PNX5050 3HFN

PCI-CLK-USB20

4K7

100R

4K7

100R

2HF8

5

D

PCI-CLK-PNX8535

E

SCL-UP-MIPS

3HPY

3HPG

SDA-UP-MIPS

4K7

3HPF

3HPX

100R

4K7

100R

3HPC

SCL2

3HPE

3HPZ

SDA1

3HFK

100p

E

10p

33R

SCL-UP-MIPS 2HP1

3HPD

2

2HF7

33R

+3V3-PER SCL1

3

SDA-UP-MIPS SCL-SSB

SCL-SSB

SDA-SSB

SDA-SSB

FHP2

3HPK +3V3-PER

FHP5

2K2

7HP5 PCA9540BDP

3 VDD

3HPM

SC0

2K2

100R

F

1

SCL

2

SDA

INP FIL

I2 C -BUS CTRL

FHP3

5

SC1

8

SD0

4

SD1

7

FHP4 FHPA

SCL-SSB-MUX1 SCL-SSB-MUX2 SDA-SSB-MUX1

FHPB

SDA-SSB-MUX2

F

VSS 6

3139 123 6341.1

1

RES RES

SDA-SSB SCL-SSB

2

3

4

5

6

9HF1 9HF2

SDA-SSB-MUX2 SCL-SSB-MUX2

7

H_17650_017.eps 140108

8

9

2HF2 C1 2HF5 C7 2HF6 D7 2HF7 D8 2HF8 D8 2HP1 E5 3HF0 B5 3HF1 D2 3HF2 C6 3HF3 A6 3HF4 C6 3HF9 A7 3HFH B6 3HFK D8 3HFM E8 3HFN E8 3HFR D6 3HFY D2 3HP8 C1 3HPC E7 3HPD E1 3HPE E1 3HPF E1 3HPG E1 3HPH E1 3HPJ F1 3HPK E3 3HPM F3 3HPX E7 3HPY E7 3HPZ E6 6HF0 A7 7H00-4 A3 7HF1 D7 7HF2 B7 7HP5 E5 9HF1 F7 9HF2 F7 9HF3 C2 9HF4 C3 9HF8 B2 FHP2 E3 FHP3 E7 FHP4 F7 FHP5 F3 FHPA F7 FHPB F7 IHF0 B6 IHF5 B7 IHF6 B4 IHF7 C3 IHF8 C2 IHF9 C2 IHFA C7 IHFB C7

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

66

SSB: PNX85xx: Control PCI

1

B04F

2

3

4

5

6

7

8

PNX 85xx: CONTROL PCI

B04F

A

A

7H00-5 PNX85xx

PCI XIO

B

A11 B10

XIO-ACK

XIO-SEL-NAND

3HE5 100R

B11 C11 D11 E11

FHE1 FHE2 FHE3

A20 B20 C20 D20 A19 B19 C19 D19 E19 A18 B18 C18 D18 E18 A17 B17 E15 D15 C15 B15 A15 E14 D14 C14 B14 A14 E13 D13 C13 B13 A13 E12

PCI-AD0 PCI-AD1 PCI-AD2 PCI-AD3 PCI-AD4 PCI-AD5 PCI-AD6 PCI-AD7 PCI-AD8 PCI-AD9 PCI-AD10 PCI-AD11 PCI-AD12 PCI-AD13 PCI-AD14 PCI-AD15 PCI-AD16 PCI-AD17 PCI-AD18 PCI-AD19 PCI-AD20 PCI-AD21 PCI-AD22 PCI-AD23 PCI-AD24 PCI-AD25 PCI-AD26 PCI-AD27 PCI-AD28 PCI-AD29 PCI-AD30 PCI-AD31

C

D

ACK XIO AD25 0 1 XIO SEL 2 3 0 1 2 3 4 5 6 7 8 9 10 PCI AD 11 12 13 14 15 16 17 18 19 20 PCI AD 21 22 23 24 25 26 27 28 29 30 31

0 1 CBE 2 3 PCI_CLK DEVSEL FRAME IRDY TRDY PCI CTRL STOP IDSEL PAR PERR SERR REQ GNT REQ_B GNT_B INTA_OUT

D12 C12 B12 A12

PCI-DEVSEL PCI-FRAME PCI-IRDY PCI-TRDY PCI-STOP PCI-PERR PCI-SERR

PCI-CBE0 PCI-CBE1 PCI-CBE2 PCI-CBE3

A21

PCI-CLK-PNX8535

A16 C17 D17 E17 B16 B21 E16 C16 D16

PCI-DEVSEL PCI-FRAME PCI-IRDY PCI-TRDY PCI-STOP PCI-AD24 PCI-PAR PCI-PERR PCI-SERR

3HEU 100R

3HED-1 8

1 10K 3HED-3 6 4 10K 3HED-2 7 310K 110K 3HEE-2 7

3HED-4 5 3HEE-3 6 3HEE-1 8

9HE6 2 10K

7 3HES-2

PCI-REQ PCI-GNT PCI-REQ-B

1 10K

8 3HES-1

PCI-REQ PCI-GNT PCI-REQ-B PCI-GNT-B

PCI-GNT-B

3 10K

6 3HES-3

4 10K

5 3HES-4

B

+3V3-PER

2 10K

PCI-REQ-PNX5050

C PCI-GNT-PNX5050

+3V3-PER 9HE4

C21

2 10K

+3V3-PER 9HE7

D21 E21 E22 E20

3 10K

PCI-REQ-USB20

+3V3-PER 9HE5

PCI-GNT-USB20

+3V3-PER

D

E

E

H_17650_018.eps 140108

3139 123 6341.1

1

2

3

4

5

6

7

8

3HE5 B2 3HED-1 B7 3HED-2 B7 3HED-3 B7 3HED-4 B7 3HEE-1 B7 3HEE-2 B7 3HEE-3 B7 3HES-1 C7 3HES-2 C7 3HES-3 C7 3HES-4 D7 3HEU C5 7H00-5 B3 9HE4 C7 9HE5 D7 9HE6 C7 9HE7 C7 FHE1 B2 FHE2 B2 FHE3 B2

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

67

SSB: PNX85xx: DDR2 1

2

4

22R 3HGK 22R 3HGH 22R

DDR2-BA0 DDR2-BA1

3HGF

DDR2-DQS0_N DDR2-DQS1_N DDR2-DQS2_N DDR2-DQS3_N

10K RES

3HGB 22R 3HG9 22R 3HG7 22R 3HG5 22R 3HG3 22R 3HG1 22R

2HHQ

0 1 2 3 4 5 6 7 A 8 9 10 11 12 NC

SS24

A 3HJ3

560R

3HJ4

FH07

560R

330u 6.3V

560R

2HGX

1u0

3HJ1

6HD2

IHG5

2HHT

22R

DDR2-D0 DDR2-D1 DDR2-D3 DDR2-D2 DDR2-D6 DDR2-D5 DDR2-D4 DDR2-D7 DDR2-D8 DDR2-D9 DDR2-D10 DDR2-D11 DDR2-D12 DDR2-D13 DDR2-D14 DDR2-D15 DDR2-D16 DDR2-D17 DDR2-D19 DDR2-D18 DDR2-D22 DDR2-D23 DDR2-D20 DDR2-D21 DDR2-D24 DDR2-D30 DDR2-D26 DDR2-D25 DDR2-D28 DDR2-D31 DDR2-D27 DDR2-D29

FH06

DDR2-VREF-CTRL

560R

DDR2-VREF-DDR

3HJ2

DQS3

0 BA 1

P26 R30 N26 U28 M26 R27 M27 V26 M28 R26 T28 L26 U27 J27

3HGC 22R 3HGA 22R 3HG8 22R 3HG6 22R 3HG4 22R 3HG2 22R

22R

DQS2

P CLK N ODT CKE WEB CSB RASB CASB

T27 R29

22R

3HGD

DDR2-A0 DDR2-A1 DDR2-A2 DDR2-A3 DDR2-A4 DDR2-A5 DDR2-A6 DDR2-A7 DDR2-A8 DDR2-A9 DDR2-A10 DDR2-A11 DDR2-A12

DQS1

0 1 DQM 2 3

N28 N29 P27 U26 R28 P28 P29 P30

3HJW 0R 3HGM 22R 3HGJ 22R 3HGG 22R 3HGE

DQS0

V30 AD28 AB28 AB30 AD29 V29 AD27 V28 W30 AC30 AA30 AC28 AD30 W28 AC29 Y30 E30 L28 J29 J28 L29 E29 L27 E28 F30 K30 H30 K28 L30 F29 J30 F28

+1V8-PNX8541

B +1V8-PNX8541

7HG2 NCP5208DR2G

VDDQ IHG6

4 6 7

Φ

SD

8

VTT IN

PV

GND

C

1

POK

AV

3

VFB

FHG0 VTT-TERM-DDR

D

100n

0R

3HGN

100u 4V

100n

3HJV

DDR2-CLK_P DDR2-CLK_N DDR2-ODT DDR2-CKE DDR2-WE DDR2-CS DDR2-RAS DDR2-CAS

0 1 2 3 4 5 6 7 8 9 DQ 10 11 12 13 14 15 16 17 18 19 DQ 20 21 22 23 24 25 26 27 28 29 30 31

+1V8-PNX8541

100n 2HHJ

10K RES

U29 U30 M30 M29

P N P N P N P N

+1V8-PNX8541

100n 2HHH

3HKV

10K RES

DDR2-DQM0 DDR2-DQM1 DDR2-DQM2 DDR2-DQM3

VREF IREF

7H01 PHD38N02LT

IHG1

100n 2HHG

3HKT

AA28 AA29 Y28 Y29 H28 H29 G28 G29

3HHQ

CONTR+1V8-PNX8541

22u

C 3HKS 10K RES

DDR2-DQS0_P DDR2-DQS0_N DDR2-DQS1_P DDR2-DQS1_N DDR2-DQS2_P DDR2-DQS2_N DDR2-DQS3_P DDR2-DQS3_N

22R

220R

3HKR

T30 AE26

2HHF

3HJ0

DDR2-ODT DDR2-CLK_P DDR2-CLK_N

2HH5 100n

2HHE

3HJU 47R

DDR DDR2-VREF-CTRL

820R

5

3K3

RES

14

2

DDR2-BA0 DDR2-BA1 DDR2-CAS DDR2-RAS DDR2-CS DDR2-WE DDR2-CKE

7H00-2 PNX85xx

10K

RES

13

B04G

3HHL

RES

12

1u0

RES

11

22u

D

RESERVED +1V8-PNX8541

1u0

22u

100n

2HH2

100n 2HH1

100n 2HH0

100n 2HGZ

100n 2HGY

100n 2HGW

2HGU

100n 2HGV

RES 2HHN

E

100n

100n 2HGT

100n 2HGS

100n 2HGR

100n 2HGP

100n 2HGN

100n 2HGM

100n 2HGK

100n 2HGJ

2HGH

22u

100n 2HGG

100n 2HGF

100n 2HGE

100n 2HGD

100n 2HGC

100n 2HGB

2HG9

100n 2HGA

1u0

100n

100n 2HG8

100n 2HG7

100n 2HG6

100n 2HG5

100n 2HG4

100n 2HG3

100n 2HG2

100n 2HG1

2HG0

E

330u 6.3V 2HHM

RES 2HHK

+1V8-PNX8541

330u 6.3V 2HHP

B

DDR2-A12 DDR2-A11 DDR2-A10 DDR2-A9 DDR2-A8 DDR2-A7 DDR2-A6 DDR2-A5 DDR2-A4 DDR2-A3 DDR2-A2 DDR2-A1 DDR2-A0

IHG0

5K6

100n

RES

3HJ6 47R RES 3HJ7 3HJ8 47R 47R RES 3HJ9 3HJA 47R 47R RES 3HJB 3HJC 47R 47R RES 3HJD 3HJE 47R 47R RES 3HJF 3HJG 47R 47R RES 3HJH 3HJJ 47R RES 47R 3HJK 47R RES 3HJM 3HJN 47R 47R RES 3HJP 3HJR 47R 47R RES 3HJS 3HJT 47R RES 3HJZ 47R

3HJ5

3HJY

2HHR

RES

10

2HHD

RES RES

9

2HHS

RES

8

100n

RES

7

+3V3F

2HH4

A

6

PNX 85xx: DDR2 +1V8-PNX8541

VTT-TERM-DDR

5

2HHC

B04G

3

P2 P3 P1

RES 3HKM DDR2-CLK_P DDR2-CLK_N DDR2-CS DDR2-CKE DDR2-RAS DDR2-CAS DDR2-WE DDR2-ODT

M8 N8 P8 N2 N7 P7 N3 N9

220R

E3 J3

DDR2-DQM1 DDR2-DQM0

Φ

VDDQ VREF

DDR2 SDRAM 8MX16X4

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

DQ

0 1 BA 2 CK CK CS CKE RAS CAS WE ODT

DQS

U U L L

U DM L NC

H RFU VSSDL

K8 K2 L7 L3 L1 L9 J1 J9 F8 F2 G7 G3 G1 G9 E1 E9 E7 D8 J7 H8 A1 A2 A8 A9 D2 H2 V8 AA1 AA2 AA8 AA9

2HHA 100n 3HGR 22R 3HGT 22R 3HGV 22R 3HGY 22R 3HH0 22R 3HH2 22R 3HH4 22R 3HH6 22R 3HH8 22R 3HHA

DDR2-VREF-DDR 3HGP 22R 3HGS 22R 3HGU 22R 3HGW 22R 3HGZ 22R 3HH1 22R 3HH3 22R 3HH5 22R

DDR2-D0 DDR2-D1 DDR2-D2 DDR2-D3 DDR2-D4 DDR2-D5 DDR2-D6 DDR2-D7 DDR2-D8 DDR2-D9 DDR2-D10 DDR2-D11 DDR2-D12 DDR2-D13 DDR2-D14 DDR2-D15

3HH7 22R 3HH9 22R

DDR2-DQS1_P DDR2-DQS1_N DDR2-DQS0_P DDR2-DQS0_N

22R

P2 P3 P1

DDR2-BA0 DDR2-BA1 RES

3HKN 220R

DDR2-CLK_P DDR2-CLK_N DDR2-CS DDR2-CKE DDR2-RAS DDR2-CAS DDR2-WE DDR2-ODT

M8 N8 P8 N2 N7 P7 N3 N9 E3 J3

DDR2-DQM3 DDR2-DQM2

VDD

D9 F1 F3 F7 F9 H9 K1 K3 K7 K9

M1

7HG1 MT47H32M16BT-37E R8 R3 R7 T2 T8 T3 T7 U2 U8 U3 R2 U7 V2

DDR2-A0 DDR2-A1 DDR2-A2 DDR2-A3 DDR2-A4 DDR2-A5 DDR2-A6 DDR2-A7 DDR2-A8 DDR2-A9 DDR2-A10 DDR2-A11 DDR2-A12

VDDL

VDDQ

Φ

0 1 2 3 4 5 6 A 7 8 9 10 11 12

VREF

DDR2 SDRAM 8MX16X4

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

DQ

0 1 BA 2 CK CK CS CKE RAS CAS WE ODT

DQS

U U L L

U DM L NC

V3 V7

VSSQ

RFU VSS

D7 E2 E8 G2 G8 H7 J2 J8 L2 L8

D3 H3 M3 T1 U9

VSS

M7

V3 V7

M2

D1 H1 M9 R9 V1

D9 F1 F3 F7 F9 H9 K1 K3 K7 K9

VDDL

CODE 9322 249 12668 IN ECM

VSSDL

M2 K8 K2 L7 L3 L1 L9 J1 J9 F8 F2 G7 G3 G1 G9 E1 E9 E7 D8 J7 H8 A1 A2 A8 A9 D2 H2 V8 AA1 AA2 AA8 AA9

2HH3 100n 3HHC 22R 3HHE 22R 3HHG 22R 3HHJ 22R 3HHM 22R 3HHP 22R 3HHS 22R 3HHU 22R 3HHW 22R 3HHZ

DDR2-VREF-DDR 3HHB 22R 3HHD 22R 3HHF 22R 3HHH 22R 3HHK 22R 3HHN 22R 3HHR 22R 3HHT 22R

DDR2-D16 DDR2-D17 DDR2-D18 DDR2-D19 DDR2-D20 DDR2-D21 DDR2-D22 DDR2-D23 DDR2-D24 DDR2-D25 DDR2-D26 DDR2-D27 DDR2-D28 DDR2-D29 DDR2-D30 DDR2-D31

3HHV 22R 3HHY 22R

DDR2-DQS3_P DDR2-DQS3_N DDR2-DQS2_P DDR2-DQS2_N

F

G

22R

H

VSSQ

D7 E2 E8 G2 G8 H7 J2 J8 L2 L8

DDR2-BA0 DDR2-BA1

VDD 0 1 2 3 4 5 6 A 7 8 9 10 11 12

M7

G

R8 R3 R7 T2 T8 T3 T7 U2 U8 U3 R2 U7 V2

D3 H3 M3 T1 U9

F

DDR2-A0 DDR2-A1 DDR2-A2 DDR2-A3 DDR2-A4 DDR2-A5 DDR2-A6 DDR2-A7 DDR2-A8 DDR2-A9 DDR2-A10 DDR2-A11 DDR2-A12

M1

D1 H1 M9 R9 V1

7HG0 MT47H32M16BT-37E

CODE 9322 249 12668 IN ECM

I

I

H_17650_019.eps 140108

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8

9

10

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12

13

14

2HG0 E2 2HG1 E3 2HG2 E3 2HG3 E3 2HG4 E3 2HG5 E4 2HG6 E4 2HG7 E4 2HG8 E4 2HG9 E6 2HGA E7 2HGB E7 2HGC E7 2HGD E7 2HGE E7 2HGF E8 2HGG E8 2HGH E9 2HGJ E9 2HGK E9 2HGM E9 2HGN E10 2HGP E10 2HGR E10 2HGS E10 2HGT E10 2HGU E12 2HGV E12 2HGW E13 2HGX A11 2HGY E13 2HGZ E13 2HH0 E13 2HH1 E14 2HH2 E14 2HH3 F13 2HH4 A3 2HH5 A5 2HHA F7 2HHC D10 2HHD D10 2HHE D12 2HHF D12 2HHG D12 2HHH D13 2HHJ D13 2HHK E6 2HHM E6 2HHN E11 2HHP E12 2HHQ A10 2HHR B10 2HHS B10 2HHT A11 3HG1 D4 3HG2 D5 3HG3 D4 3HG4 D5 3HG5 C4 3HG6 C5 3HG7 C4 3HG8 C5 3HG9 C4 3HGA C5 3HGB C4 3HGC C5 3HGD C4 3HGE C4 3HGF C4 3HGG C5 3HGH B4 3HGJ B5 3HGK B4 3HGM B5 3HGN B4 3HGP F7 3HGR F7 3HGS F8 3HGT F7 3HGU F8 3HGV F7 3HGW F8 3HGY G7 3HGZ G8 3HH0 G7 3HH1 G8 3HH2 G7 3HH3 G8 3HH4 G7 3HH5 G8 3HH6 G7 3HH7 G8 3HH8 G7 3HH9 G8 3HHA G7 3HHB F13 3HHC F13 3HHD F14 3HHE F13 3HHF F14 3HHG F13 3HHH F14 3HHJ G13 3HHK G14 3HHL C11 3HHM G13 3HHN G14 3HHP G13 3HHQ A9 3HHR G14 3HHS G13 3HHT G14 3HHU G13 3HHV G14

3HHW G13 3HHY G14 3HHZ G13 3HJ0 C1 3HJ1 A11 3HJ2 B11 3HJ3 A12 3HJ4 B12 3HJ5 A4 3HJ6 A1 3HJ7 A1 3HJ8 A1 3HJ9 A1 3HJA A1 3HJB A1 3HJC A1 3HJD A1 3HJE A1 3HJF A1 3HJG B1 3HJH B1 3HJJ B1 3HJK B1 3HJM B1 3HJN B1 3HJP B1 3HJR B1 3HJS B1 3HJT B1 3HJU C1 3HJV B4 3HJW B5 3HJY A4 3HJZ B1 3HKM G4 3HKN G10 3HKR C1 3HKS C1 3HKT C1 3HKV D1 6HD2 A10 7H00-2 A6 7H01 A10 7HG0 F5 7HG1 F11 7HG2 C12 FH06 A12 FH07 A11 FHG0 D13 IHG0 A4 IHG1 A10 IHG5 A10 IHG6 C10

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

68

SSB: PNX85xx: Digital Video In

1

B04H

3

2

4

5

6

7

PNX 85xx: DIGITAL VIDEO IN

3HK0 C2 7H00-3 B2 9HK0 C2 IHKM C2

B04H

A

A

B

B

7H00-3 PNX85xx

HDMI B8 B9 A7 A8 B6 B7 A9 A10

RX2RX2+ RX1RX1+ RX0RX0+ RXCRXC+ RES 9HK0

CEC-HDMI DDC-SCL DDC-SDA

C RREF-PNX8535

3HK0

C10 C9 E10 C7

P N P N P N P N

RX_0

HOT_PLUG

D10

HOT-PLUG

RX_1 RX_2 RX_C

CEC SCL DDC SDA RREF

C

IHKM

12K

D

D

E

E

H_17650_020.eps 140108

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Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

69

SSB: PNX85xx: Audio 1

B04I

2

3

4

5

6

7

8

9

11

10

12

13

PNX 85xx: AUDIO

B04I

A

A AUDIO-VDD 2HMJ IHMY 100n

IHMW 3

ADAC(7) IHMV

4

7HM1-1 LM324

FHM0

1

AUDIO-CL-L

2 11

B

B

2HMN

IHMZ 100n AUDIO-VEE

RESERVED

2

AUDIO-VDD

3HME-2

7

1

3HME-1

10K

8

10K 2HMP

C

1K2

3HMY

33p

1

IHN8

2 BC857BW 7HM3

C

3

6 IHM2

3HMZ

ADAC(1)

IHN0 2

5HM0

180R

3HMA

1u0

2HM4

3n3

2HM3

1u0

2HMG

220R

IHM1

3HML

9HM1

AUDIO-VDD IHM6

AUDIO-VDD

7HM2-1 BC847BS 1 IHNG

5K6 +AUDIO-POWER

+AUDIO-L

820R IHN3 5

ADAC(8)

4

IHN6

7HM1-2 LM324 7

FHM1

AUDIO-CL-R

6

D

IHNJ 3HMC

5HM1 AUDIO-VEE 220R

AUDIO-VEE

1u0

2HMH

IHM9

D

11

5K6

-AUDIO-POWER

3

3HME-3

5

6

3HME-4

4

10K 2HMT

10K AUDIO-VDD

3HMW

1K2

33p

E

1

E

2 BC857BW 7HM4

IHNF 3

3 5

5K6

7HM2-2 BC847BS 4 IHNH 180R

3HMB

1u0

2HM5

3n3

2HM8

IHMG

3HMU

9HM2

F

AUDIO-VDD

IHN4

-AUDIO-R

4

IHNB

7HM1-3 LM324 8

10

ADAC(5)

820R

IHNA

FHM2

AUDIO-OUT- L

9 3n3

3HMV

2HN1

IHM3 ADAC(2)

F

11

5K6

3HMD

IHNK

AUDIO-VEE 1

3HMM-1

2

8

3HMM-2

7

10K 2HMW

10K

33p

G

G

AUDIO-VDD

IHND 12

ADAC(6)

H

4

7HM1-4 LM324 14

FHM3

H

AUDIO-OUT-R

13 3n3

2HMY

IHNE 11

AUDIO-VEE 3

3HMM-3 10K

I

6

5

3HMM-4

4

10K 2HMZ

I

33p

H_17650_021.eps 140108

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9

10

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12

13

2HM3 D4 2HM4 D5 2HM5 F5 2HM8 F4 2HMG D2 2HMH D2 2HMJ A10 2HMN B10 2HMP C10 2HMT E10 2HMW G10 2HMY H9 2HMZ I10 2HN1 F9 3HMA D6 3HMB F6 3HMC D5 3HMD F5 3HME-1 B10 3HME-2 B9 3HME-3 E9 3HME-4 E10 3HML D7 3HMM-1 G9 3HMM-2 G10 3HMM-3 I9 3HMM-4 I10 3HMU F7 3HMV F5 3HMW E6 3HMY C6 3HMZ C5 5HM0 D2 5HM1 D2 7HM1-1 B10 7HM1-2 D10 7HM1-3 F10 7HM1-4 H10 7HM2-1 C6 7HM2-2 F6 7HM3 C7 7HM4 E7 9HM1 D5 9HM2 F5 FHM0 B11 FHM1 D11 FHM2 F11 FHM3 H11 IHM1 D7 IHM2 C4 IHM3 E4 IHM6 D2 IHM9 D2 IHMG F7 IHMV B9 IHMW B9 IHMY A10 IHMZ B10 IHN0 C6 IHN3 D9 IHN4 E6 IHN6 D10 IHN8 C6 IHNA F10 IHNB F9 IHND H9 IHNE H10 IHNF E6 IHNG D6 IHNH F6 IHNJ D6 IHNK F6

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

70

SSB: PNX85xx: Analogue AV 4

5

6

7

8

9 2HS4

MHP

3HSH

2HS9

100p

47R 2HS8

AV1-Y

NON MHP

3HRR

330n

27R

NON MHP

2HT6 IHSD

22n 22n

2HT8

2HUP

100p

2HSM

100p

47R 2HTU

100p

47R 2HSD

3HRY

27R

3HRZ

AV2-Y_CVBS

D

FRONT-Y_CVBS

E

27R

47R

3HS0

IHR4

22n 2HSV

3HS9 27R

22n RES

22n 22n

2HS0

22n

IHRB

IHRF

2HSP

3HST

22n

75R

F

3HSW

27R 2HTB 22n

30R

FHR2

5HR9

3HSB

330n

27R

AV4-Y 2HTE 22n

4K7

G

IHR8

5HRA

3HSE

330n

27R

100p

330n

+3V3-PER

3HT9

AV4-PR

2HTG

5HR7

3HS5

3HSR

47R 2HTF

FHR4 IHSG 4K7

IHSP

5HRL

IHRE

2HSN 22n

270p

3HSD

IHS3

100p

270p

2HTD

2HKL

47R

3HSV

IHSE

100p

2HUK

3HS7 75R

47R 2HTC

3HS6 75R

3HSA

IHSB

FRONT- C

27R

22n

100p

2HSY IHSH

100p

IHSM 2HSW 2HSB

IHR6

22n

IHSL 2HST

L4 K5

3V3_TEST_DAC 3V3_VIDEO_REF

AV3-PB

2HUN 2HTK

D4 C3

3V3_VIDEO_DAC VDAC_BIAS

C

3HRW

22n

IHSK

A1

AGC

100p

22n

F3 T4

HSYNC_IN VSYNC_IN

5HR3 330n

AV3-PR

22n

A2 B2

P DAC2 CVBS2_C N

IHR3

2HSF

A3 B3

P N

27R

AV3-Y

2HU0

DAC1 CVBS1_Y

F

N2 N3 N4 P1 P2 P3

27R

2HT5 22n IHSC 2HA5

100n

SPARE60 C4 C1|YC1 C2|YC2 C3|YC3 REF6

3HS1

330n

100p

ADC4

5HR5

3HSM

330n

22n

3HSU

E

22n

2HA4

M1 M2 M3 M4 M5 N1

IF_N IF_P SPARE52 ADC4 SPARE53 FM_P FM_N

22n

5HRG

47R

P4 P5 R1 R2 R3 R4

SPARE40 Pb1_B1 Pb2_B2 ADC3 Pb3_B3 Pb4_B4 REF4

IHR5

2HSJ 2HT7

47R 2HTZ

K1 K2 K3 K4 L1 L2

SPARE30 Pr1_R1 Pr2_R2 Pr3_R3 Pr4_R4 REF3

22n

22n

3HS8

D

ADC2

2HSC 2HTH 22n IHSA 2HA3

47R 2HSK

H1 H2 J1 J2 J3 J4

SPARE20 CVBS1_Y1_YC1 CVBS2_Y2_YC2 ADC2 CVBS3_Y3_YC3 CVBS4 REF2

22n

2HA2

3HS2

F1 F2 G1 G2 G3 G4

SPARE10 Y1_G1 Y2_G2 Y3_G3 Y4_G4 REF1

10u

C

ADC1

100n 2HT4

VSYNC_OUT

3HSN

22n

2HT2

R5

IHRC

2HSA

VIDEO ANALOGUE IHSN

B

AV1-PB

100p

HD-PB_PC-B

5HR0 100p

IHR0 47R 2HS2

27R

IHSS

27R

9HS3

MHP

3HRP

330n

100p

47R 2HU6

3HU3

5HU1 2HU7

IHS5

22n

100p

2HU8

AV1-PR

A

IHST 3HRU

HD-PR_PC-R

2HS1

3HU6

330n

2HS3

27R

100p

3HU5

330n

3HRV

100n

5HU2

FHR1

2HS7

22n

7H00-9 PNX85xx

B04K

9HS4

9HS2 5HR2

100p

MHP

HD-Y_PC-G

100p

2HU2

330n

27R

100p

100p

47R 2HU3

B

3HU4

100p

47R 2HU1

3HU0

IHRA

22n 3HU1

2HT3

AV1-Y_CVBS

27R MHP

13

NON MHP

5HU0

2HU4

IHS4

12

100p

2HTR

100p

3HSJ

47R 2HTP

RESERVED FOR ITV 22n

11 3HRS

27R

330n

22n

A

9HS1 5HRC

IHPF

NON MHP

47R

22n

2HRZ

2HU5

RES FOR MHP 3HRT

PNX 85xx: ANALOGUE AV

B04K

10

IHR1

2HTV

3

100p

2

2HSE

1

AV4-PB

G

5HR6

FHR3

IHS6

22n

RESERVED FOR ITV

H

PC VGA 1HA1

120R

2K2

8

3HTB

3HTA 3HTC

7

390R

2HSS

H-SYNC-VGA V-SYNC-VGA

220R

3HS3

100n

3HT4

CVBS4

27R

H IF-N

12p

2HSQ

HD-PR_PC-R HD-Y_PC-G HD-PB_PC-B

100p

FHR7 FHR8 FHR9 FHRA FHRB FHRC

2HUC

1 2 3 4 5 6

2HSR

3HT3

2HUB

47R

10u

22n 2HT1

100n 2HT0

2HSZ

+3V3-PER 30R

3HS4

IF-P

390R

100n

IHS2

I

270p

2HTL

Y_CVBS-MON-OUT

75R

220R

3HSF

3HTE

120R

2K2

3HTD 3HTF

I

100p

2HUD

BM06B-SRSS-TBT

FHR5 FHR6

H-SYNC-VGA V-SYNC-VGA

H_17650_022.eps 140108

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13

1HA1 H1 2HA2 C2 2HA3 C3 2HA4 D3 2HA5 D3 2HKL F3 2HRZ A7 2HS0 E3 2HS1 B7 2HS2 B7 2HS3 B7 2HS4 A8 2HS7 A7 2HS8 B7 2HS9 B7 2HSA C9 2HSB E3 2HSC C9 2HSD C9 2HSE C9 2HSF D9 2HSJ D7 2HSK D7 2HSM D7 2HSN F7 2HSP F8 2HSQ H8 2HSR H8 2HSS H8 2HST E3 2HSV E3 2HSW E3 2HSY F2 2HSZ G3 2HT0 G3 2HT1 G4 2HT2 G3 2HT3 B3 2HT4 G4 2HT5 D2 2HT6 E2 2HT7 D2 2HT8 E7 2HTB F8 2HTC G9 2HTD G9 2HTE G10 2HTF G10 2HTG G10 2HTH C2 2HTK E3 2HTL I9 2HTP A7 2HTR A8 2HTU C9 2HTV C10 2HTZ F7 2HU0 F8 2HU1 A4 2HU2 A4 2HU3 B4 2HU4 B4 2HU5 A3 2HU6 B4 2HU7 B4 2HU8 B3 2HUB H10 2HUC I2 2HUD I2 2HUK F3 2HUN E3 2HUP E3 3HRP B7 3HRR B8 3HRS A10 3HRT A9 3HRU A8 3HRV B7 3HRW C10 3HRY C9 3HRZ D10 3HS0 D9 3HS1 D8 3HS2 D7 3HS3 H9 3HS4 H9 3HS5 G3 3HS6 F3 3HS7 F3 3HS8 E7 3HS9 E10 3HSA G8 3HSB F9 3HSD G10 3HSE G11 3HSF I8 3HSH A8 3HSJ A7 3HSM C10 3HSN C9 3HSR F9 3HST F10 3HSU F7 3HSV F9 3HSW F4 3HT3 H10 3HT4 H11 3HT9 G3 3HTA I2 3HTB I3 3HTC I2 3HTD I2 3HTE I3 3HTF I2 3HU0 A3 3HU1 B3

3HU3 B3 3HU4 A4 3HU5 B4 3HU6 B4 5HR0 B7 5HR2 A7 5HR3 C9 5HR5 D7 5HR6 G4 5HR7 G4 5HR9 F9 5HRA G10 5HRC A7 5HRG C9 5HRL F8 5HU0 A4 5HU1 B4 5HU2 B4 7H00-9 B1 9HS1 A7 9HS2 A7 9HS3 B7 9HS4 A10 FHR1 A7 FHR2 F9 FHR3 G3 FHR4 G3 FHR5 I8 FHR6 I8 FHR7 H2 FHR8 H2 FHR9 H2 FHRA H2 FHRB I2 FHRC I2 IHPF A7 IHR0 B7 IHR1 A9 IHR3 C9 IHR4 D9 IHR5 D7 IHR6 E7 IHR8 G10 IHRA B4 IHRB E4 IHRC C9 IHRE F7 IHRF F9 IHS2 I8 IHS3 F4 IHS4 A4 IHS5 B4 IHS6 H10 IHSA C2 IHSB F2 IHSC D2 IHSD E2 IHSE F2 IHSG G2 IHSH F2 IHSK E2 IHSL E3 IHSM E3 IHSN C2 IHSP F8 IHSS A8 IHST A8

Circuit Diagrams and PWB Layouts

SSB: PNX85xx: Audio 1 2

B04L

3

Q528.2E LA

4

7.

71

5

6

7

8

9

10

11

PNX 85xx: AUDIO

B04L A

A

ITEM NO

NO MHP

3HB0 3HB1 3HB2 3HB4 2HB1 2HB3

IHBJ

RES

33p

IHBH

33K

RES

2HB2 33p

IHB1

2 3HB3-2 7 33K

RES

33p

3HB3-3 6 33K

RES

2HB6 33p

33K

3 IHBT 5

2

3HBJ-1

AUDIO-IN5-L 1

33K

3HBJ-2

7 33K

IHBU

2HBF 1u0

RES

2HBJ 33p

2HBK 1u0

2HBG RES

2HBH

33p

8

1u0

IHBG AG6 AF6 AH8 AH7

IHBF

5HBZ

E

AJ7 AK7

VDDA-AUDIO

AH6 L5 L3 M6

10u

100n 2HBP

100n 2HBV

100n

2HBU

100n 2HBN

2HBM

30R

AK15

AIN2

ADAC2

AIN3

ADAC3

AIN4

ADAC4

AIN5

ADAC5

P N P N P N P N P N P N

ADAC6 R AADC L VREF VSSA_AUDIO_DAC1 POS 3V3A_AUDIO_DAC1 NEG POS AADC1_VR NEG

DAC_CAP

R L

1 2 3 4 ADAC 5 6 7 8

VCOM_ADC1 AOUT1 RES_REF GND1 SPDIF_IN

SPDIF_OUT OSCLK SCK WS 1 SD 2

4K7

IHBL

4K7

75R

10u 3HBK

100n 2HBY

2HBW

F

3HBM

IHBM

IHBK

ADAC1

3HBN

SPDIF-IN1

AIN1

AG12 AK13 AH12 AJ12 AK11 AJ11 AF10 AG10 AG9 AK10 AH9 AJ9

IHQ3

FHQE

5 IHQC 4

30R

OUT BP

IN INH

+5V

1 3

COM

D

10u

RES

2HBE 33p

R L R L R L R L R L

2HQA

AK6 AJ6 AG5 AF5 AJ5 AH5 AH4 AK5 AK4 AJ4

1u0

3HBJ-3

6 33K

2HBD

33p

5HQ2

3HQG +3V3 22K

AE10 AF11 AG7 AG8

3HQ8-1 1 3HQ8-2 7

AJ13 AK12 AH11 AH10 AJ10 AK9 AK8 AJ8

3HQ8-4 4 3HQ8-3 3 3HQ5-1 1 3HQ5-2 2 3HQ5-3 3 3HQ5-4 4 RES 3HQ1 RES 3HQ0 3HQN

AJ15

8 33R 2 33R

ADAC(8) ADAC(7)

5 33R 6 33R 8 33R 7 33R 6 33R 5 33R 33R 33R

ADAC(1) ADAC(2) ADAC(3) ADAC(4) ADAC(5) ADAC(6) ADAC(7) ADAC(8) IHQD

68R

ADAC(8) ADAC(7)

E 3n3

4

IHBV

5

IHQW

3n3 2HQT

AUDIO-IN5-R

33K 3HBJ-4

3 3HBC-3 6 33K

RES

7HQ0 LD2985BM33R

AUDIO

1u0

IHQY

4

IHBW

2HBB

2HBC

22K

AUDIO-IN4-L

33K 8 3HBC-4

RES

7H00-1 PNX85xx

3HQH

1

2 3HBC-2 7 33K

VDDA-AUDIO 1u0

2HQS

3HBC-1

AUDIO-IN4-R

IHBY 5

2HB9

33p 2HBA 33p

2

33K

2HB8 RES

10n

4

3 3HB8-3 6 33K

8

3HB8-4

AUDIO-IN3-L

7 33K

10u 2HQB

33K

2

3HB8-2

IHBZ

1u0

2HQ4

1

D

5

33K 3HB8-1

C

1u0 2HB7

100n

4 AUDIO-IN3-R

3 IHB0

2HB5

100n 2HQ5

33K 8 3HB3-4

AUDIO-IN2-L

1u0

2HB4

100n 2HQ6

C

2HB3

100n 2HQ7

33K 1 3HB3-1

AUDIO-IN2-R

1u0

3HB4

3HB1

AUDIO-IN1-L

2HB1

33K

33K

B

2HB0

3HB2 3HB0

AUDIO-IN1-R

JMP JMP RES RES JMP JMP

2HQ8

B

MHP

33K 33K 33K 33K 33K 33K

SPDIF-OUT

AF14 AJ14 AK14 AH14 AG14

F

G

G

H

H

H_17650_023.eps 140108

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9

10

11

2HB0 B4 2HB1 B4 2HB2 C4 2HB3 C4 2HB4 C4 2HB5 C4 2HB6 C4 2HB7 C4 2HB8 C4 2HB9 C4 2HBA D4 2HBB D4 2HBC D4 2HBD D4 2HBE D4 2HBF D4 2HBG D4 2HBH D4 2HBJ D4 2HBK D4 2HBM E2 2HBN E3 2HBP E3 2HBU E3 2HBV E3 2HBW F3 2HBY F4 2HQ4 D8 2HQ5 D8 2HQ6 D8 2HQ7 D7 2HQ8 D7 2HQA D10 2HQB D9 2HQS E10 2HQT E10 3HB0 B2 3HB1 C2 3HB2 B3 3HB3-1 C2 3HB3-2 C3 3HB3-3 C3 3HB3-4 C2 3HB4 C3 3HB8-1 C2 3HB8-2 C3 3HB8-3 C3 3HB8-4 D2 3HBC-1 D2 3HBC-2 D3 3HBC-3 D3 3HBC-4 D2 3HBJ-1 D2 3HBJ-2 D3 3HBJ-3 D3 3HBJ-4 D2 3HBK F4 3HBM F4 3HBN F4 3HQ0 F7 3HQ1 F7 3HQ5-1 E7 3HQ5-2 E7 3HQ5-3 E7 3HQ5-4 F7 3HQ8-1 E7 3HQ8-2 E7 3HQ8-3 E7 3HQ8-4 E7 3HQG D10 3HQH E9 3HQN F7 5HBZ E2 5HQ2 D8 7H00-1 C5 7HQ0 D9 FHQE D8 IHB0 C3 IHB1 C3 IHBF E4 IHBG E5 IHBH C3 IHBJ C3 IHBK F3 IHBL F4 IHBM F4 IHBT D3 IHBU D3 IHBV D3 IHBW D3 IHBY D3 IHBZ C3 IHQ3 D10 IHQC D9 IHQD F8 IHQW D7 IHQY D9

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

72

SSB: PNX85xx: Audio

1

B04M

2

3

4

5

6

7

8

9

PNX 85xx: AUDIO

B04M 2HVH 33p

1 3HV3-1 8 22K

A

4

3HV3-4

A

5

22K 2HVK +3V3-STANDBY 33p

7

3HV3-2

3

IHVC

2

22K

Φ

2 6 5

2HVF

IHV5

3

1

8 1

VDD

AMPLIFIER

2

IHVD

AUDIO-HDPH-L-AP

IHV1

AUDIO-HDPH-R-AP

B

VO

SHUTDOWN

IHV8

2 IHVA

5

4 BC847BPN 7HVA-2 A-PLOP 3

IHV7

6 AUDIO-RESET

FHV3 3HV4-4 4 5 22K

C

3HV4-2 22K

3HV5

AUDIO-RESET

7

10 11

BYPASS 4

7

2

VIA GND GND_HS

1u0

1

1

IN-

IHV9

IHVB

2

7HVA-1 BC847BPN 1

C

3

10K

1n0

1u0

6

IHVF

6

2HVE

IHV4

3HV3-3 22K

22K 2HVG

ADAC(4)

IHV2

1u0

3HV4-3

ADAC(3)

2HVD

9

B

22K

3HV4-1

8

7HV0 TPA6111A2DGN

1u0

2HVC

+3V3

3HVA

7HV1 BC847BW

IHVG

D

7HV2 BC847BW

5K6

3HVB

3HV8

5K6

470R

IHV3

IHVH

470R

3HV7

10K

3HV9

10K

3HV6

IHV6

D

RESERVED

AUDIO-VDD

AUDIO-VDD

RESERVED FOR ITV BATHROOM SPEAKER 1HV1

FHV4

ADAC(3)

FHV5

ADAC(4)

FHV6 5

E

4

1 2 3

E

BM03B-SRSS-TBT

H_17650_024.eps 171207

3139 123 6341.1

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2

3

4

5

6

7

8

9

1HV1 E4 2HVC B3 2HVD B1 2HVE B1 2HVF B2 2HVG C6 2HVH A2 2HVK A2 3HV3-1 A2 3HV3-2 B1 3HV3-3 B1 3HV3-4 A2 3HV4-1 B8 3HV4-2 B8 3HV4-3 C6 3HV4-4 C6 3HV5 C1 3HV6 D2 3HV7 D1 3HV8 D2 3HV9 D3 3HVA D2 3HVB D3 7HV0 B2 7HV1 D2 7HV2 D3 7HVA-1 C8 7HVA-2 B8 FHV3 C6 FHV4 E3 FHV5 E3 FHV6 E3 IHV1 B3 IHV2 B1 IHV3 D1 IHV4 B1 IHV5 B2 IHV6 D2 IHV7 C9 IHV8 B7 IHV9 C7 IHVA B8 IHVB C6 IHVC B2 IHVD B3 IHVF B2 IHVG D2 IHVH D3

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

73

SSB: PNX85xx: Video Streams

1

B04N

2

3

4

5

6

7

8

9

PNX 85xx: VIDEO STREAMS

B04N 9HY0 RES 3HWZ

A

33R

CA-MDI0

A

9HY1 RES 3HWY

33R

CA-MDI1 9HY2

RES 3HWW

33R

CA-MDI2

9HY3 RES

3HWV

33R

CA-MDI3 9HY4

RES 3HWU

RES

3HWT

33R 9HY6 RES

C

D IHW0

3HWK

FE-ERR

+3V3-PER

CA-MOVAL CA-MOSTRT CA-MOCLK_VS2

A24 D25 C24

CA-VS1 CA-CD1 CA-CD2

A30 D29 B23

FE-DATA0 FE-DATA1 FE-DATA2 FE-DATA3 FE-DATA4 FE-DATA5 FE-DATA6 FE-DATA7

E5 A4 B4 C6 D6 E6 A5 B5

FE-VALID FE-SOP FE-CLK FE-ERR

D5 C4 C5 A6

0 1 2 3 CA_MDO 4 5 6 7 MOVAL MOSTRT VS2_MOCLK_CI

0 1 2 3 CA_MDI 4 5 6 7 MIVAL MISTRT MICLK

VS1 1 CD 2 0 1 2 3 FEDATA TNR_TSDI 4 5 6 7

RST DATA_DI R DATA_EN OOB_EN ADD_EN VCCEN VPPEN

A26 C27 B27 A27 A25 D26 C26 B26

3HWS

33R

CA-MDI6

9HY7 RES 3HWR

33R

CA-MDI7 9HY8

RES

3HWM

33R

CA-MIVAL

9HY9 RES 3HWN

B25 B30 B28

33R

CA-MISTRT 9HYA

RES 3HWP

B24 D22 A22 C22 B22 A23 D24

33R

C

CA-MICLK

CA-RST CA-DATADI R CA-DATAEN CA-ADDEN

D

FEVAL FESOP FECLK FEERR

RES 9HW0

4K7

C25 D23 C23 C29 C30 D30 A28 A29

B

CA-MDI5

VIDEO STREAMS CA-MDO0 CA-MDO1 CA-MDO2 CA-MDO3 CA-MDO4 CA-MDO5 CA-MDO6 CA-MDO7

CA-MDI4

9HY5

7H00-10 PNX85xx

B

33R

E

E

F

F

H_17650_025.eps 140108

3139 123 6341.1

1

2

3

4

5

6

7

8

9

3HWK D2 3HWM C8 3HWN C7 3HWP C8 3HWR B7 3HWS B8 3HWT B7 3HWU B8 3HWV B7 3HWW A8 3HWY A7 3HWZ A8 7H00-10 B5 9HW0 D2 9HY0 A8 9HY1 A8 9HY2 A8 9HY3 A8 9HY4 B8 9HY5 B8 9HY6 B8 9HY7 B8 9HY8 C8 9HY9 C8 9HYA C8 IHW0 D2

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

74

SSB: PNX85xx: Digital Video Out / LVDS

1

B04O

2

3

4

5

6

7

8

9

PNX85xx: DIGITAL VIDEO OUT / LVDS

B04O

A

A 7H00-8 PNX85xx

CODE 47R IN ECM

VID_OUT_TTL

B

R0_Y2 R1_Y3 R2_Y4 R3_Y5 R_OUT R4_Y6 R5_Y7 R6_Y8 R7_Y9 G0_UV2 G1_UV3 G2_UV4 G3_UV5 G_OUT G4_UV6 G5_UV7 G6_UV8 G7_UV9

C

B0_UART B1_UART B2_GPIO B3_GPIO B_OUT B4_UV0 B5_UV1 B6_Y0 B7_Y1 CLK VSYNC HSYNC AUX2

AJ19 AH19 AG19 AF19 AK20 AJ20 AH20 AG20

9HW5 9HW4 9HW3 9HWZ 9HWY 9HWW 9HWV 9HWU

DV-R0_Y2 DV-R1_Y3 DV-R2_Y4 DV-R3_Y5 DV-R4_Y6 DV-R5_Y7 DV-R6_Y8 DV-R7_Y9

AG17 AF17 AK18 AJ18 AH18 AG18 AF18 AK19

9HWT 9HWS 9HWR 9HWP 9HWN 9HWM 9HWK 9HWJ

DV-G0_UV2 DV-G1_UV3 DV-G2_UV4 DV-G3_UV5 DV-G4_UV6 DV-G5_UV7 DV-G6_UV8 DV-G7_UV9

AF15 AK16 AJ16 AH16 AG16 AF16 AJ17 AH17

9HWH 9HWG 9HWF 9HWE 9HWD 9HWC 9HWB 9HWA

AK17 AH15 AG15 AF20

9HW6 9HW7 9HW8 9HW9

DV-B0_UART2-RX DV-B1_UART2-TX DV-B2_DEBUG-BREAK IHWA DV-B3_MHP-SWITCH DV-B4_UV0 DV-B5_UV1 DV-B6_Y0 DV-B7_Y1

7H00-7 PNX85xx

B

LVDS IHWB IREF CLK A B C D E

P N P N P N P N P N P N

AG21 AK23 AJ23 AK21 AJ21 AK22 AJ22 AH22 AG22 AH23 AG23 AK24 AJ24

3HP9 VDDA-LVDS 12K Tx8535oCLK+ Tx8535oCLKTx8535oA+ Tx8535oATx8535oB+ Tx8535oBTx8535oC+ Tx8535oCTx8535oD+ Tx8535oDTx8535oE+ Tx8535oE-

C

DV-CLK DV-VS DV-HS DV-FF_DE

D

D

E

E

H_17650_026.eps 140108

3139 123 6341.1

1

2

3

4

5

6

7

8

9

3HP9 B5 7H00-7 B4 7H00-8 A1 9HW3 B2 9HW4 B2 9HW5 A2 9HW6 C2 9HW7 C2 9HW8 D2 9HW9 D2 9HWA C2 9HWB C2 9HWC C2 9HWD C2 9HWE C2 9HWF C2 9HWG C2 9HWH C2 9HWJ C2 9HWK C2 9HWM B2 9HWN B2 9HWP B2 9HWR B2 9HWS B2 9HWT B2 9HWU B2 9HWV B2 9HWW B2 9HWY B2 9HWZ B2 IHWA C3 IHWB B5

Circuit Diagrams and PWB Layouts

SSB: PNX85xx: Power 1

2

3

4

Q528.2E LA

5

7.

75

6

7

8

9

10

11

12

13

14

PNX 85xx: POWER

B04P

B04P 7H00-11 PNX85xx

E7 F7 E8 AG24 AH24 AF23

5HK1

+3V3-PER 120R

D

IHK4

VDDA-LVDS

AE22

+3V3-PER

AE21

PLLCCO 3V3A HDMI

100n

5HY6

IHYF

P6

100n

R6 2HYA

2HYB

30R

1n0

100n EMC 2HZQ

100n 2HZ1

100n 2HZ0

100n 2HYZ

100n 2HYY

1u0 2HYW

1u0 2HYV

1u0 2HYU

1u0 2HYT

2HYS

100n

100n 2HZ4

2HZ3

2HZ2

1u0

1n0

1n0 EMC 2HZZ

100n

100n 2HYR

100n 2HYP

100n 2HYN

100n 2HYM

100n 2HYK

100n 2HYJ

C

+3V3-STANDBY

BIAS

V6 W5 W6

3V3 SB PER

3V3 HDMI

+3V3 220R 1n0 EMC 2HZY

1V2A HDMI PLL

+3V3-PER

5HYA

100n 2HYH

EQ

IHYA

10u

3V3 PER

B

AD25 AG11 AG13 AH1 AH13 E23 E24 K25 K26 Y5

3V3 LVD S

3V3A LVDS NC

3V3A LVDS PLL 1V2A CAB 3V3A 1.7 MCAB

D

100n

2HK6

100n

2HK4

100n

120R

120R

1u0

+1V2-PNX8541

1u0

30R 2HZA

RREF-PNX8535

3V3A DDR

IHY8

5HY9

2HZJ

IHK3

1u0

5HK3

2HZN

+3V3-PER

2HZT

IHK2

2HK2

5HK2 +3V3-PER

100n

+1V2-PNX8541

PLL DLL1 DLL2

+1V2-STANDBY

AC26 AC27 AD26 AE17 AE18 AE19 F14 F15 F16 F17 F24 F25 F6 G25 G6

1V8_2V5 DDR

IHY7

5HY8 30R

1V2 SB CORE

EMC 2HZW

C8

1V2A DDR

SENSE+1V2-PNX8541

2HYG

D7

DLL0 DLL3

CHY1

AA5 AA6 AB5 AB6

100n

100n

100n 2HY0

IH28

1V2A VIDEO ADC

10u 2HYF

1u0

2HY8

2HY9

W27 F27

100n

100n 2HH9

2HH6

100n

G26

100n

100n 2HH8

2HH7

100n

1u0

2HK8

2HK7

100n 2HKA

30R 5HG1

330u 6.3V

IHYB

30R

IHYD

+3V3-PER

P18 R18 T18 U18

+1V8-PNX8541

+3V3-PER

30R 2HKC

100n 2HY1

J26

IHK1

5HK4

1u0

2HY3

IHYC

30R

5HY5

+1V2-PNX8541

C

5HG0

AB27

2HZ9

100n

2HK1

+1V2-PNX8541

2HY2

30R 30R

1V2 CORE

DAC

10u 2HYE

5HK0

B

J5 J6 K6

100n

+1V2-PNX8541

IHY4

5HY0

+1V2-PNX8541

REF 3V3A AUDIO

2HZ8

AF8

AE12 AE13 AE14 F10 F21 F22 F9 U25 V25 W25

ADC

10u 2HYD

AF7 VDDA-DAC

+1V2-PNX8541

1u0

100n

1u0

2HY6

2HY7

AE6

VDDA-ADC

1V2A AUDIO ADC

2HYC

AE7

30R

A

VDD

IHY6

5HY3

+1V2-PNX8541

2HZ7

A

5HY2

E

IHY5

E

+3V3-PER 100n

1u0

2HY4

2HY5

30R

VDDA-LVD S

IHY0

5HY1 +3V3-PER 1u0

2HZU

100n

100n 2HZS

2HZP

100n 2HZR

220R

F

F

IHY1

5HY4 VDDA-AUDIO

VDDA-DAC 100n

2HZH

AF9 AE9 AE16 AE15

G

VSS

VSSA VIDEO

VSSA VIDEO

7H00-12 PNX8535

VSSA AUDIO

N6 N5 H5 H4 H3 G5 F5 F4 E4 E3 E2 E1 D3 D2 D1 C2 C1 B1

J25 F26 W26 AB26 VSSA DDR DLL

VSS

VSS

G

VSS

AJ25 AJ1 AH30 AH29 AH28 AH26 AH25 AH21 AH2 AG30 AG3 AG29 AG28 AG27 AG26 AG25 AF30 AF29 AF28 AF27 AF26 AF25 AF24 AF22 AF21 AF13 AF12 AE5 AE30 AE29 AE28 AE25 AE24 AD6 AD5 AB29 AB25 AA27 AA26 AA25

30R

IHY2

5HY7

VDDA-ADC

VDDA-AUDIO 100n

2HZV

VSS

VSS

VSS

VSS

H

Y27 Y26 W29 V27 V18 V17 V16 V15 V14 V13 U6 U17 U16 U15 U14 U13 T6 T5 T29 T26 T25 T17 T16 T15 T14 T13 R25 R17 R16 R15 R14 R13 P25 P17 P16 P15 P14 P13 N30 N27 N25 N18 N17 N16 N15 N14 N13 M25 K29 K27 H27 H26 G30 F19 F18 F13 F12 E9 E26 E25 D9 D8 D27 C28 B29 AK30 AK25 AJ30 AJ29

H

VSS

VSS

30R

10n

10n 2HZG

10n 2HZF

+1V8-PNX8541

10n 2HZE

2HZD

1u0

1u0 2HZC

2HZB

IHY3

I

H_17650_027.eps 140108

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

14

2HH6 B5 2HH7 C5 2HH8 C5 2HH9 B5 2HK1 B3 2HK2 E2 2HK4 E2 2HK6 E4 2HK7 C2 2HK8 C3 2HKA C2 2HKC C1 2HY0 B7 2HY1 B7 2HY2 B7 2HY3 B7 2HY4 E8 2HY5 E7 2HY6 A8 2HY7 A8 2HY8 C6 2HY9 C6 2HYA E9 2HYB E8 2HYC C11 2HYD C11 2HYE C11 2HYF C12 2HYG C12 2HYH C12 2HYJ C12 2HYK C12 2HYM C13 2HYN C13 2HYP C13 2HYR C13 2HYS B12 2HYT B12 2HYU B12 2HYV B12 2HYW B13 2HYY B13 2HYZ B13 2HZ0 B13 2HZ1 B14 2HZ2 B12 2HZ3 B12 2HZ4 B13 2HZ7 D11 2HZ8 D11 2HZ9 D12 2HZA D7 2HZB I10 2HZC I10 2HZD I10 2HZE I10 2HZF I11 2HZG I11 2HZH G10 2HZJ D7 2HZN D6 2HZP F10 2HZQ B14 2HZR F10 2HZS F10 2HZT D6 2HZU F11 2HZV H10 2HZW C14 2HZY C14 2HZZ C14 5HG0 B4 5HG1 C4 5HK0 B2 5HK1 D4 5HK2 D1 5HK3 D2 5HK4 C2 5HY0 B6 5HY1 F11 5HY2 E7 5HY3 A8 5HY4 G11 5HY5 C6 5HY6 D8 5HY7 H11 5HY8 D6 5HY9 D7 5HYA C14 7H00-11 A9 7H00-12 G7 CHY1 B11 IH28 C8 IHK1 C2 IHK2 D1 IHK3 D2 IHK4 D4 IHY0 E11 IHY1 G11 IHY2 H10 IHY3 H10 IHY4 B9 IHY5 E9 IHY6 A9 IHY7 D9 IHY8 D9 IHYA B13 IHYB C7 IHYC B5 IHYD C5 IHYF D9

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

76

SSB: PNX85xx: Flash

1

2

B04Q

3

4

5

6

7

8

9

PNX85xx: FLASH

B04Q A

A 5HA0 +3V3-NAND

+3V3

IHSR

+3V3-NAND

37 12 3HA4-1 3HA4-2 3HA4-3 3HA4-4 3HA8-1 3HA8-2 3HA8-3 3HA8-4

PCI-AD24 PCI-AD25 PCI-AD26 PCI-AD27 PCI-AD28 PCI-AD29 PCI-AD30 PCI-AD31

1 2 3 4 1 2 3 4

8 100R 7 100R 6 100R 5 100R 8 100R 7 100R 6 100R 5 100R

NAND-AD(0) NAND-AD(1) NAND-AD(2) NAND-AD(3) NAND-AD(4) NAND-AD(5) NAND-AD(6) NAND-AD(7)

NAND-AD(0) NAND-AD(1) NAND-AD(2) NAND-AD(3) NAND-AD(4) NAND-AD(5) NAND-AD(6) NAND-AD(7)

29 30 31 32 41 42 43 44 26 27 28 33 34 35 38 39 40 45 46 47 48 6

C

0 1 2 3 IO 4 5 6 7

R B CLE ALE CE RE WE WP

NC

NC

NC

NC

D

3HAC-1 3HAC-2 3HAE-1 3HAE-2

PCI-AD0 PCI-AD1 PCI-CBE1 PCI-CBE2

1 2 8 2

8 7 100R 1 100R 7 100R 100R

16 17 9 8 18 19

100n

2HA1 IHSS

XIO-ACK

3HA3

XIO-ACK

+3V3-NAND 2K2

NAND-CLE NAND-ALE IHST XIO-SEL-NAND NAND-REn NAND-WEn RESET-NVM_WP-NANDFLASH-INV

1 2 3 4 5 10 11 14 15 20 21 22 23 24 25

B

+3V3-NAND

RESET-NVM_WP-NANDFLASH-INV IHA0 IHA1

3

1

RESET-NVM_WP-NANDFLASH

7HA3 PDTC114EU

C

2

13

36

VSS

7

10K

B

Φ

NAND FLASH (128Mx8)

3HA2

VCC

RES

XIO-SEL-NAND

10K

7HA0 NAND128W3A2BN6E

9HA0

3HA0 +3V3-NAND

100n

2HA0

30R

D

NAND-CLE NAND-ALE NAND-WEn NAND-REn

E

E

H_16801_043.eps 240707

3104 313 6226.1

1

2

3

4

5

6

7

8

9

2HA0 A7 2HA1 A7 3HA0 B2 3HA2 C9 3HA3 B8 3HA4-1 B3 3HA4-2 B3 3HA4-3 B3 3HA4-4 B3 3HA8-1 B3 3HA8-2 B3 3HA8-3 B3 3HA8-4 C3 3HAC-1 D3 3HAC-2 D3 3HAE-1 D3 3HAE-2 D3 5HA0 A2 7HA0 B6 7HA3 C9 9HA0 C8 IHA0 C9 IHA1 C9 IHSR A6 IHSS B7 IHST B7

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

77

SSB: PNX85xx: Flash

1

B04Q

2

3

4

5

6

7

8

9

PNX 8541: FLASH

B04Q

A

A

5HA0 +3V3-NAND

+3V3

IHAR

+3V3-NAND

B

100n

100n

2HA1

2HA0

30R

B

1 2 3 4 1 2 3 4

C

8 7 100R 6 100R 5 100R 8 100R 7 100R 6 100R 5 100R

NAND-AD(0) NAND-AD(1) NAND-AD(2) NAND-AD(3) NAND-AD(4) NAND-AD(5) NAND-AD(6) NAND-AD(7)

100R

Φ

[FLASH] 512Mx8 0 1 2 3 IO 4 5 6 7

NC

3HAC-2 3HAC-3 3HAC-4 3HAC-1

PCI-AD0 PCI-AD1 PCI-CBE1 PCI-CBE2

2 3 4 1

7 6 5 8

100R 100R 100R

3HA3

XIO-ACK

+3V3-NAND 2K2

29 30 31 32 41 42 43 44

NAND-AD(0) NAND-AD(1) NAND-AD(2) NAND-AD(3) NAND-AD(4) NAND-AD(5) NAND-AD(6) NAND-AD(7)

IHAU WP-NANDFLASH-INV

16 17 9 8 18 19 7

3HA1 +3V3-NAND 10K

RESET-NVM_WP-NANDFLASH CLE ALE CE RE WE WP R B

NAND-CLE NAND-ALE IHAT XIO-SEL-NAND NAND-REn NAND-WEn WP-NANDFLASH-INV IHAS XIO-ACK

C

7HA1 PDTC144EU

D

VSS 36

D

VCC

RES

3HA4-1 3HA4-2 3HA4-3 3HA4-4 3HA8-1 3HA8-2 3HA8-3 3HA8-4

PCI-AD24 PCI-AD25 PCI-AD26 PCI-AD27 PCI-AD28 PCI-AD29 PCI-AD30 PCI-AD31

9HA1

1 2 3 4 5 6 10 11 14 15 20 21 22 23 24 25 26 27 28 33 34 35 38 39 40 45 46 47 48

13

XIO-SEL-NAND

10K

12

3HA0 +3V3-NAND

37

7HA0 NAND512W3A2CN6

NAND-CLE NAND-ALE NAND-WEn NAND-REn

100R

E

E

H_17650_028.eps 171207

3139 123 6341.1

1

2

3

4

5

6

7

8

9

2HA0 B7 2HA1 B7 3HA0 B2 3HA1 C9 3HA3 B9 3HA4-1 B3 3HA4-2 B3 3HA4-3 C3 3HA4-4 C3 3HA8-1 C3 3HA8-2 C3 3HA8-3 C3 3HA8-4 C3 3HAC-1 E3 3HAC-2 D3 3HAC-3 E3 3HAC-4 E3 5HA0 B2 7HA0 B6 7HA1 C9 9HA1 C8 IHAR B6 IHAS D7 IHAT D7 IHAU C9

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

78

SSB: PNX5050: Control 2

1

3

4

5

7

6

8

9

10

11

12

13

14

PNX5050: CONTROL

B05B

B05B

A

A

B

B FOR DEVELOPMENT

7C00-4 PNX5050EH/M1

JTAG-TRST 1C01 1 2 3 4 5 6 7 8 9 10

10K

10K RES 3C01-1

6 3

3C30 3C33

TD0 TDI TMS TCK

5-147279-2

FC1E

10K

3C35

10K

22R FC1D

FC1A

10K

RES 3C31

FC1B

3C32

10K

3C34

10K

+3V3-D

FC1C

1

7

10K RES 3C01-3

RES 3C01-2 2

8

+3V3-D +3V3-D +3V3-D

C

FC17

7C00-1 PNX5050EH/M1

Φ

D

D9 FC14

RESET-SYSTEM 27p

2C01

27p

2C00

27M

A11 C7

RESET-SYSTEM FC1F

GND-PLL

E25

XTAL_IN

RESERVED2

XTAL_OUT JTAG

POR_IN

TDI TDO TCK TMS

RESET_IN SYS_RST_OUT_ PCI_SYS_CLK

AB23 A1 D6 B1 D5 D10

FC10 FC11 FC12 FC13

TDI TDO TCK TMS

9C14 9C11 9C12 9C13

RES

1C05

9C10

9C04

SYSTEM D11

JTAG-TDO

JTAG-TD-PNX5050-PACIFIC JTAG-TCK JTAG-TMS

FC16

PNX5050-RST-OUTn

GND-PLL

PCI-CLK-PNX5050

E23

PCI-AD0 PCI-AD1 PCI-AD2 PCI-AD3 PCI-AD4 PCI-AD5 PCI-AD6 PCI-AD7 PCI-AD8 PCI-AD9 PCI-AD10 PCI-AD11 PCI-AD12 PCI-AD13 PCI-AD14 PCI-AD15 PCI-AD16 PCI-AD17 PCI-AD18 PCI-AD19 PCI-AD20 PCI-AD21 PCI-AD22 PCI-AD23 PCI-AD24 PCI-AD25 PCI-AD26 PCI-AD27 PCI-AD28 PCI-AD29 PCI-AD30 PCI-AD31

Y23 W23 Y26 W24 W25 W26 V23 V26 U23 U24 T23 U26 T24 T25 T26 R26 M25 N23 M23 M24 L26 L25 L24 L23 J26 J25 K23 H26 H25 J23 G26 H24

E

+3V3

4

3C10-4 10K

SCL-SSB SDA-SSB

5

IC07

AC20 AC22 AE26 AC19 Y25 Y24 AD25 AA26 AA25

PCI_CLK 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31

Φ

PCI_XIO

PCI_C_BE

PCI_PAR PCI_FRAME_ PCI_IRDY_ PCI_TRDY_ PCI_STOP_ PCI_AD<0:31>

PCI_IDSEL PCI_DEVSEL_ PCI_REQ_ PCI_GNT_ PCI_REQ_A_ PCI_GNT_A_ PCI_REQ_B_ PCI_GNT_B_ PCI_PERR_ PCI_SERR_

XIO_ACK 8 9 10 11 12 13 14 15

0 1 2 3

PCI_INTA_ XIO_AD

XIO_D<8:15>

0 1 XIO_SEL 2 3 4

V25 R23 M26 K24

PCI-CBE0 PCI-CBE1 PCI-CBE2 PCI-CBE3

R24

PCI-PAR

N26

PCI-FRAME

N25

PCI-IRDY

N24

PCI-TRDY

P24

PCI-STOP 3C06

K26

1

PCI-DEVSEL

3C00-1

8 100R 3C00-4 4

PCI-REQ-PNX5050 PCI-GNT-PNX5050

5

D

100R

G23 D25 H23 D26

PCI-AD25

100R

P26 F23 D24

C

3C04 RES

100R

3C05 100R RES

P23 R25

PCI-REQ-USB20 PCI-GNT-USB20 PCI-PERR PCI-SERR

E

D23 AA24 AB26 AB25 AD26 AC23 AB24

GPIO<26:34> +3V3-D

SDA-PNX5050

F

F

SCL-PNX5050

10K

RES

10K RES

3C07

3C37

+3V3-D

6 10K

IC01

G

BOOTMODE7 +3V3-D

RES

IC02

3C53-4 4

+3V3-D 10K RES

3C15

BOOTMODE6 IC03 7

BOOTMODE

BOOTMODE5

0 : DISABLES

IC04

MEM_SIZE

6

10K

+3V3-D

5 4

1 : ENABLES 1 0 0 : 32MB

product SW

1 0 1 : 64MB 110 : 128MB

assert SW

8

7

+3V3-D

3C27-2

IC05 2

BOOTMODE3

+3V3-D

6

3C27-3

0 : 2.5 CLKS 1 : 3 CLKS

IC00

10K

RES

3C28

H

CAS_LATENCY

3

10K

1

3C27-1

10K

3C10-3

EN_PCI_ARB

7

BOOTMODE4

3

G

FUNCTION

10K

6

RES

3C53-3 3

2

5 10K 3C10-2

BOOTMODE2

ROM_WIDTH

2

HC_FASTMODE

IC06 3

H

0:8-bit ROM/100khz 1:16-bit ROM/400khz

BOOTMODE1

10K

1

BOOTMODE

1 0 : HOST-ASSISTED 1 1 : EEPROM

0

1X01 EMC REF HOLE

IC08

9C1F

9C1E

9C1D

9C1C

9C1A

9C1B

TESTLANDS USED IN TV522/22M

5

I

10K

3C27-4

4

BOOTMODE0

ICG0 ICG1 ICG2 ICG3 ICG4 ICG5 ICG6 ICG7 ICG8 ICG9

H_17650_029.eps 171207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

14

I

1C01 B6 1C05 D2 2C00 D2 2C01 D2 3C00-1 D13 3C00-4 D13 3C01-1 C6 3C01-2 C5 3C01-3 C6 3C04 E13 3C05 E14 3C06 D13 3C07 G1 3C10-2 G2 3C10-3 H1 3C10-4 E10 3C15 G1 3C27-1 H2 3C27-2 H2 3C27-3 H2 3C27-4 I2 3C28 H2 3C30 C7 3C31 C7 3C32 C8 3C33 C7 3C34 C7 3C35 C7 3C37 F3 3C53-3 G1 3C53-4 G2 7C00-1 D5 7C00-4 B11 9C04 D7 9C10 D8 9C11 D7 9C12 D7 9C13 D7 9C14 D7 FC10 D6 FC11 D6 FC12 D6 FC13 D6 FC14 D4 FC16 D6 FC17 B7 FC1A C7 FC1B C7 FC1C C7 FC1D C7 FC1E C7 FC1F D4 IC00 H3 IC01 G3 IC02 G3 IC03 G3 IC04 G3 IC05 H3 IC06 H3 IC07 E11 IC08 I3

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

79

SSB: PNX5050: DDR1 1

3

2

4

6

5

7

8

9

10

11

12

13

14

15

PNX5050: DDR1

B05B

B05B

A

A ICA4

49

VREF-DDR MM_CLK_N

46 45 44 24 23 22 21

MM_CLK_P

CK CK CKE CS RAS CAS WE

DQS

L U

3CAE 3CAF 3CAG 3CAH 3CAK 3CAM 3CAN 3CAP 3CAR 3CAS 3CAT 3CAV 3CAW 3CAY 3CAZ 3CBA

22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R

MM_DATA_3 MM_DATA_2 MM_DATA_1 MM_DATA_0 MM_DATA_4 MM_DATA_5 MM_DATA_6 MM_DATA_7 MM_DATA_8 MM_DATA_9 MM_DATA_10 MM_DATA_11 MM_DATA_12 MM_DATA_13 MM_DATA_14 MM_DATA_15

16 51

DQS0 DQS1

DQS0 DQS1

3CAA 3CAB

22R 22R

MM_DQS0 MM_DQS1

MM_DATA_16 MM_DATA_17 MM_DATA_18 MM_DATA_19 MM_DATA_20 MM_DATA_21 MM_DATA_22 MM_DATA_23 MM_DATA_24 MM_DATA_25 MM_DATA_26 MM_DATA_27 MM_DATA_28 MM_DATA_29 MM_DATA_31 MM_DATA_30

3CBB 3CBC 3CBD 3CBE 3CBF 3CBG 3CBH 3CBK 3CBM 3CBN 3CBP 3CBR 3CBS 3CBT 3CBV 3CBW

22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R

DQ(16) DQ(17) DQ(18) DQ(19) DQ(20) DQ(21) DQ(22) DQ(23) DQ(24) DQ(25) DQ(26) DQ(27) DQ(28) DQ(29) DQ(30) DQ(31)

DQ(16) DQ(17) DQ(18) DQ(19) DQ(20) DQ(21) DQ(22) DQ(23) DQ(24) DQ(25) DQ(26) DQ(27) DQ(28) DQ(29) DQ(30) DQ(31)

2 4 5 7 8 10 11 13 54 56 57 59 60 62 63 65

MM_DQS2 MM_DQS3

3CAC 3CAD

22R 22R

DQS2 DQS3

DQS2 DQS3

16 51

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

L U

VREF CK CK CKE CS RAS CAS WE

L DQS U

VSSQ

CODE 9322 249 67671 IN ECM

1 DM

10n

2CBP

D

VSSQ

CODE 9322 249 67671 IN ECM

18

33

3

9

15

61

DQ(0) DQ(1) DQ(2) DQ(3) DQ(4) DQ(5) DQ(6) DQ(7) DQ(8) DQ(9) DQ(10) DQ(11) DQ(12) DQ(13) DQ(14) DQ(15)

55

22u

1u0 2CBK

100p 2CBH

2CBF

100p 2CBB

22u

1u0 2CBD

100p 2CBC

100p 2CBG

2CBA

61

55

VREF

VSS

MM_CKE MM_CS0 MM_RAS MM_CAS MM_WE

15

9

3

33

18

L DM U

DQ(0) DQ(1) DQ(2) DQ(3) DQ(4) DQ(5) DQ(6) DQ(7) DQ(8) DQ(9) DQ(10) DQ(11) DQ(12) DQ(13) DQ(14) DQ(15)

26 27 20 47

C

2CBS 1n0 49 46 45 44 24 23 22 21

VREF-DDR MM_CLK_N

220R

1n0

D

2 4 5 7 8 10 11 13 54 56 57 59 60 62 63 65

RES 3CA5

20 47 2CBT

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

DDR SDRAM 16Mx16

NC

B MM_A0 MM_A1 MM_A2 MM_A3 MM_A4 MM_A5 MM_A6 MM_A7 MM_A8 MM_A9 MM_A10 MM_A11 MM_A12 MM_BA0 MM_BA1 MM_DQM_2 MM_DQM_3 2CBN 10n

29 30 31 32 35 36 37 38 39 40 28 41 42

D MM_CLK_P

VSS 34

0 1 MM_DQS 2 3

MM_DQM_0 MM_DQM_1

NC

0 1 2 3 4 5 A 6 7 8 9 10 11 12 AP 0 BA 1

48

J1 G1 Y1 V1

26 27

DDR SDRAM 16Mx16

Φ

66

MM_DQS0 MM_DQS1 MM_DQS2 MM_DQS3

0 1 MM_DQM 2 3

MM_BA0 MM_BA1

Φ

0 1 2 3 4 5 A 6 7 8 9 10 11 12 AP 0 BA 1

7CA1 K4H561638H-UCCC

VDD

6

D

K2 J4 V3 U2

0 1 2 3 4 5 MM_ADDR<0:12> 6 7 MM_DATA<0:31> 8 9 10 11 12

29 30 31 32 35 36 37 38 39 40 28 41 42

VDDQ

12

MM_DQM_0 MM_DQM_1 MM_DQM_2 MM_DQM_3

0 MM_BA 1

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31

MM_A0 MM_A1 MM_A2 MM_A3 MM_A4 MM_A5 MM_A6 MM_A7 MM_A8 MM_A9 MM_A10 MM_A11 MM_A12

14 17 19 25 43 50 53

52

R2 P3 T3 U4 U3 T1 R1 P1 N4 L4 T4 K3 K4

AVREF

MM_DATA_0 MM_DATA_1 MM_DATA_3 MM_DATA_2 MM_DATA_4 MM_DATA_5 MM_DATA_6 MM_DATA_7 MM_DATA_8 MM_DATA_9 MM_DATA_10 MM_DATA_11 MM_DATA_12 MM_DATA_13 MM_DATA_14 MM_DATA_15 MM_DATA_16 MM_DATA_17 MM_DATA_19 MM_DATA_18 MM_DATA_20 MM_DATA_22 MM_DATA_21 MM_DATA_23 MM_DATA_24 MM_DATA_25 MM_DATA_26 MM_DATA_27 MM_DATA_29 MM_DATA_28 MM_DATA_30 MM_DATA_31

14 17 19 25 43 50 53

VDDQ

58

C

R4 P4

MM_A0 MM_A1 MM_A2 MM_A3 MM_A4 MM_A5 MM_A6 MM_A7 MM_A8 MM_A9 MM_A10 MM_A11 MM_A12

MM_CKE

ICA1

C2 C1 E2 D1 E1 F2 F1 H2 H4 G3 G4 F3 E3 E4 D3 C3 AD3 AC3 AB4 AB3 AA3 Y4 Y3 W4 W2 AA1 AA2 AB1 AC1 AB2 AD1 AD2

VDD

64

1n0 MM_BA0 MM_BA1

MM_WE

7CA0 K4H561638H-UCCC

MM_CS0 MM_CS1

64

N2

100R

58

3CA0 1K0

3CA9 L3 V4

52

J2 RES

VREF-PNX5050 2CA0

MM_CLK_N

9CA2

M2

12

MM_CKE

0 MM_CS 1

+2V5-DDR

+2V5-DDR

+2V5-DDR

6

N3

MM_CLK

MM_CAS

66

MM_WE

MM_RAS

1

M4

48

L1

MM_CAS

34

MM_RAS

+2V5-DDR

RES 220R 3CA6

B

MM_CLK_P

ICA3

10n

ICA2 9CA1

M1

10n 2CB8

Φ

MEMORIES MM_CLK

2CB7

7C00-3 PNX5050EH/M1

MM_CKE MM_CS0 MM_RAS MM_CAS

E

MM_WE

F

E

F

+2V5-DDR 560R 1%

3CA3

560R 1%

3CA1

+2V5-DDR

FCA3 FCA2 1u0

2CB6

100n

2CB5

100p

2CB4

3CA4

560R 1%

10n

3CA2

2CA2

100n RES 2CA3

2CA1

1u0 RES

560R 1%

VREF-DDR VREF-PNX5050

G

5CA1

+2V5-PNX5050

H

ICA0

22u 16V

2CB3

100n

100n 2CAR

100n 2CAP

100n 2CAN

100n 2CAM

100n 2CAK

100n 2CAH

100n 2CAG

100n 2CAF

100n 2CAE

100n 2CAD

100n 2CAC

100n 2CAB

100n 2CAA

100n 2CA9

100n 2CA8

100p

1n0 2CA6

2CA5

100n

2CA7

220R 2CA4

2CB2

+2V5-DDR 330u 10V RES

H

G

I

I H_17650_030.eps 171207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

2CA0 B2 2CA1 G4 2CA2 G4 2CA3 G4 2CA4 H1 2CA5 I2 2CA6 I2 2CA7 H3 2CA8 H4 2CA9 H4 2CAA H4 2CAB H4 2CAC H4 2CAD H5 2CAE H5 2CAF H5 2CAG H5 2CAH H6 2CAK H6 2CAM H6 2CAN H6 2CAP H6 2CAR H7 2CB2 H1 2CB3 H7 2CB4 G8 2CB5 G8 2CB6 G9 2CB7 B6 2CB8 B6 2CBA B9 2CBB B1 2 2CBC B9 2CBD B9 2CBF B1 1 2CBG B9 2CBH B1 2 2CBK B1 2 2CBN C15 2CBP B1 5 2CBS D15 2CBT C7 3CA0 B3 3CA1 F4 3CA2 G4 3CA3 F8 3CA4 G8 3CA5 D15 3CA6 D6 3CA9 B5 3CAA D1 0 3CAB D1 0 3CAC D11 3CAD D11 3CAE C10 3CAF C10 3CAG C10 3CAH C10 3CAK C1 0 3CAM C10 3CAN C10 3CAP C10 3CAR C10 3CAS C10 3CAT C1 0 3CAV C1 0 3CAW D1 0 3CAY D1 0 3CAZ D10 3CBA D1 0 3CBB C1 1 3CBC C11 3CBD C11 3CBE C11 3CBF C11 3CBG C11 3CBH C11 3CBK C1 1 3CBM C11 3CBN C11 3CBP C11 3CBR C11 3CBS D11 3CBT D11 3CBV D11 3CBW D11 5CA1 H2 7C00-3 B3 7CA0 B7 7CA1 B1 4 9CA1 B5 9CA2 B5 FCA2 G4 FCA3 F9 ICA0 H2 ICA1 B5 ICA2 B5 ICA3 B5 ICA4 A6

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

80

SSB: PNX5050: Video 1

B05C

2

3

4

5

6

7

8

9

10

11

PNX5050: VIDEO

12

B05C

A

A

AF7 AC6

DV-CLK

AE4 AF3 AE3 AF4 AD5 AD6 AD7 AC7 AF5 AE5 AC8 AE8 AD8 AF6 AC9 AE7 AC10 AC11 AD9 AF8 AE9 AD10 AC12 AF9 AE10 AF10 AD11 AC13 AF11 AE12 AF12 AC14 AE2 AC5 AF13 AE1

B DV-FF_DE DV-B4_UV0 DV-B5_UV1 DV-G0_UV2 DV-G1_UV3 DV-G2_UV4 DV-G3_UV5 DV-G4_UV6 DV-G5_UV7 DV-G6_UV8 DV-G7_UV9 DV-B6_Y0 DV-B7_Y1 DV-R0_Y2 DV-R1_Y3 DV-R2_Y4 DV-R3_Y5 DV-R4_Y6 DV-R5_Y7 DV-R6_Y8 DV-R7_Y9 DV-VS DV-HS

C

D 3C48

DV-DE

+3V3

IC56

DV-DE

+3V3

4K7

3C49 IC57

4K7

3C53-1 1 7 10K

8 10K IC43 IC44

E

Φ VDO_CLK

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 VDI_D 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 1 VDI_V 2

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 VDO_D 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 VDO_AUX

GPIO<51:52>

AF23 AD20 AD21 AE23 AF24 AC17 AD22

AI_OSCLK AI_SCK AI_WS 0 1 AI_SD 2 3 GPIO<16:20>

A6 AF22

AF16 AC24

F

AA23 AE16 AF17 AD16 AD17 AE15 AD15

G BOOTMODE4 BOOTMODE5 BOOTMODE6 BOOTMODE7

A20 A21 B20 C19 D16 A22 B21 B22 C20 A23 C21 B23 C22 D17 A24 B24 A25 A26 C23 D21 D22 B26 C25 D19 G25 G24 F26 F25 F24 D20 E26 C26 B18 A19 B2 E24

3C62

RxP3CLK 56R

FC42 3C71-3 3

6 33R 7 33R 6 33R 8 33R 6 33R 7 33R 5 33R 7 33R 5 33R 7 33R 8 33R 6 33R 8 33R 6 33R 8 33R 7 33R 5 33R

3C67-2 2 3C67-3 3 3C63-1 1 3C63-3 3 3C71-2 2 3C75-4 4 3C75-2 2 3C79-4 4 3C79-2 2 3C83-1 1 3C83-3 3 3C87-1 1 3C87-3 3 3C91-1 1 3C91-2 2 3C91-4 4

FOR /82 ONLY

3C71-4 4 3C67-1 1 3C67-4 4 3C63-2 2 3C63-4 4 3C71-1 1 3C75-3 3 3C75-1 1 3C79-3 3 3C79-1 1 3C83-2 2 3C83-4 4 3C87-2 2 3C87-4 4 3C91-3 3

33R

5 33R 8 33R 5 33R 7 33R 5 33R 8 33R 6 33R 8 33R 6 33R 8 33R 7 33R 5 33R 7 33R 5 33R 6 33R 3C94 RES

4 3 1 2 4 3 2 1 4 3

9C40-4 9C40-3 9C40-1 9C40-2 9C41-4 9C41-3 9C41-2 9C41-1 9C42-4 9C42-3

5 6 8 7 5 6 7 8 5 6

RxP3oD+_B0 RxP3oD-_B1 RxP3oCLK-_B2 RxP3oCLK+_B3 RxP3oC+_B4 RxP3oC-_B5 RxP3oB+_B6 RxP3oB-_B7 RxP3oA+_B8 RxP3oA-_B9 RxP3eCLK-_G0 RxP3eCLK+_G1 RxP3eC+_G2 RxP3eC-_G3 RxP3eB+_G4 RxP3eB-_G5 RxP3eA+_G6 RxP3eA-_G7 RxP3oE+_G8 RxP3oE-_G9 RxP3R0 RxP3R1 RxP3R2 RxP3R3 RxP3R4 RxP3R5 RxP3eE+_R6 RxP3eE-_R7 RxP3eD+_R8 RxP3VS RxP3HS_DE RxP3FF RxP3eD-_R9

B

C

D

FC43 FC44

A18 C17

FC45 FC46

AD19 AE18 AE20 AF19 AE19 AF20 AF21

E

I2C-ADDRESS = 0XE4

GPIO<21:25>

SPDI SPDO

IIC_SDA IIC_SCL

LAN_TX_CLK LAN_REF_CLK LAN_RX_CLK LAN_REF_CLK LAN_CRS LAN_CRS_DV LAN_COL 0 1 LAN_RXD 2 3 LAN_RX_DV LAN_RX_ER

LAN_MDIO LAN_MDC

C8 D8

3C50-3 3

6 100R

3C50-1 1

8 100R

SDA-PNX5050 SCL-PNX5050

AC26 AC25

GPIO<49:50> LAN_TX_EN 0 1 LAN_TXD 2 3 LAN_TX_ER LAN_CLK

AD13 AE14 AC15 AD14 AF15 AE13 AF18

F FC47

GPIO<35:40> 0 GCLOCK 1 2 WAKEUP

GPIO<41:48> B4 B3 A3 A4 A7 A8 B9 AE24 AF25 AF26 AD23 AC18

BOOTMODE0 BOOTMODE1 BOOTMODE2 BOOTMODE3

D18 B19

GPIO<53:55> FGPO_BUF_SYNC FGPO_REC_SYNC GPIO60 AO_OSCLK AO_SCK AO_WS 0 1 AO_SD 2 3

GPIO<56:57> AF14

1 2

RES

10p

10p

INTERFACES

GPIO<58:59>

FC41 3C53-2 2

1 VDI_CLK 2

2C51

2C50 RES

7C00-5 PNX5050EH/M1

0 1 2 3 CLOCK 4 5 6

AC16 AE21 AE22 AC21

FC48

GPIO<12:15>

G

WDOG_OUT

GPIO<0:11> BOOT_MODE<0:7>

H

H

3139 123 6341.1 1

H_17650_031.eps 171207

2

3

4

5

6

7

8

9

10

11

12

2C50 A8 2C51 A9 3C48 D4 3C49 D6 3C50-1 E9 3C50-3 E8 3C53-1 E5 3C53-2 E5 3C62 B8 3C63-1 B8 3C63-2 B9 3C63-3 B8 3C63-4 B9 3C67-1 B9 3C67-2 B8 3C67-3 B8 3C67-4 B9 3C71-1 C9 3C71-2 C8 3C71-3 B8 3C71-4 B9 3C75-1 C9 3C75-2 C8 3C75-3 C9 3C75-4 C8 3C79-1 C9 3C79-2 C8 3C79-3 C9 3C79-4 C8 3C83-1 C8 3C83-2 C9 3C83-3 C8 3C83-4 C9 3C87-1 D8 3C87-2 D9 3C87-3 D8 3C87-4 D9 3C91-1 D8 3C91-2 D8 3C91-3 D9 3C91-4 D8 3C94 D9 7C00-5 A7 9C40-1 B10 9C40-2 B10 9C40-3 B10 9C40-4 B10 9C41-1 B10 9C41-2 B10 9C41-3 B10 9C41-4 B10 9C42-3 B10 9C42-4 B10 FC41 E6 FC42 B8 FC43 D8 FC44 D8 FC45 E8 FC46 E8 FC47 F8 FC48 G8 IC43 E6 IC44 E6 IC56 D5 IC57 D6

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

81

SSB: PNX5050: Supply 2

3

4

5

6

7

5CD1

ICDA

13

A

G

H

5CD2

ICDB

+3V3-A

+3V3

B5 D7 D14 A16 C13 D15

10u

+1V4-PLL

ICDC

A10

I

10u

100n

RES 2CDT

30R

2CDN

GND-ANA GND-ANA GND-ANA GND-ANA GND-ANA

5CD3

10n

+1V4-PNX5050

2CDP

100n

2CFG

2CFF

100n

2CFE

100n

10n

2CFD

2CFA

30R

VDDA

VSSA_1.2

2CDS

330u 10V 2CDW

220u 25V

10n

2CDR

10n 2CDM

10n 2CDK

10n 2CDH

10n 2CDG

100n RES 2CDF

10n 2CEU

10n 2CDD

100n 2CDC

10n 2CET

100n

2CDA

100n 2CD9

100n 2CD8

100n 2CER

100n 2CD6

100n RES 2CD5

100n RES 2CD4

100n 2CD3

100n 2CD2

100n 2CD1

10n

10n 2CEM

10n 2CEK

10n 2CEH

10n RES 2CEG

10n 2CEF

10n 2CEE

10n 2CED

10n 2CEC

10n 2CEB

100n

2CEA

100n 2CE9

100n 2CE8

100n 2CE7

100n 2CE6

10n

10n 2CDZ

100n 2CDY

100n 2CF9

100n 2CF8

100n 2CF7

100n 2CF6

F 100n

+1V8-PNX8541

2CF5

FCD3

100R

E

+3V3-D

100n 2CF4

1n0 1K0

3CD7

G22 H22 J24 V24 W22 Y22 AB20 AB19 AD24 AD18 AD12 AE6 A2 B6 C24 C18 C12 E20 E19 AF2 E8 E7 E14 E13 N22 P22 AB14 AB13 AB8 AB7

100n 2CF3

F

+3V3-D

100n 2CF2

2CFR 3CD6

1K0

2CFT

ICDF

330p

4

10K

3CD2

470R

FCD2

100n 2CF1

7 CONTR+1V8-PNX8541

100n RES 2CE5

7CD0-2 LM833

6

100n RES 2CE4

5

10u RES 2CF0

ICDD

8

470R

+V-LM833

+2V5-DDR

2CDX

1u0

1u0 2CEP

2CFP

22K

3CE2

+2V5-REF

100n 2CE3

K1 L2 V2 Y2 AC2 AC4 D4 D2 W5 G5 H5 G2 J3 L5 M5 N1 R3 U1 R5 T5 Y5

1K0

C

D

100n 2CE2

+2V5-DDR +2V5-PNX5050

FCD1

3CD5

+1V4-PNX5050

100n 2CE1

1n0 1K0

3CD4

330p

2CFN

2CFM

4

100n

D

B

10u 2CD0

7CD1 PHD38N02LT

1

22R

VSS

3CD9

2

VSSA

2CFU

7CD0-1 LM833 1

VCCM

3

3

8

2

+V-LM833

ICDE

2CFK

100u 4V

1K0 1%

3CE1

C

POWER

D12 C9 C6 C10 D13 B14 A17 A12 A15 J22 K22 N5 P5 R22 T22 AB9 AB16 AB15 AB10 E9 E16 E15 E10

+2V5-REF

VCCP

+1V4-PNX5050

VCCA

+3V3F

VDD

CCD0

SENSE+1V4-PNX5050

2CE0

100n

2CFH

B

10u 2CDV

+V-LM833 10R

B10 B7 C5 B12 C14 AB17 AB12 AB11 AA22 AB6 AB5 E22 E21 E18 E17 E12 E11 F22 AF1 AA4 AA5 L22 M22 U22 V22 F5 F4 J5 H3 M3 T2 U5 V5 C16 AB22 AB21 AB18 H1 K5 K25 P25 P2 U25 W3 W1 L16 L15 L14 L13 L12 L11 M16 M15 M14 M13 M12 M11 N16 N15 N14 N13 N12 N11 A9 A13 C15 AD4 AE25 AE17 AE11 B25 B17 B11 C4 E6 E5 P16 P15 P14 P13 P12 P11 R16 R15 R14 R13 R12 R11 T16 T15 T14 T13 T12 T11

2CDU

2CFB

47u 16V

ICD1

3CD8 +12VD

3CD0

12

+3V3-D 30R

100n 3CD1

11

7C00-2 PNX5050EH/M1

+3V3

3CD3

10

B05D

A

2CEN

9

PNX5050: SUPPLY

B05D

E

8

330u 10V

1

G

H

B8 A5 A14 B16 B13 B15

GND-ANA

C11 GND-PLL

I

GND-PLL GND-PLL GND-PLL

H_17650_032.eps 171207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

2CD0 D8 2CD1 D8 2CD2 D8 2CD3 D8 2CD4 D9 2CD5 D9 2CD6 D9 2CD8 D9 2CD9 D10 2CDA D10 2CDC D10 2CDD D11 2CDF D11 2CDG D11 2CDH D11 2CDK D12 2CDM D12 2CDN I5 2CDP I6 2CDR D12 2CDS D12 2CDT I6 2CDU D7 2CDV D8 2CDW D13 2CDX F9 2CDY F11 2CDZ F11 2CE0 E8 2CE1 E8 2CE2 E8 2CE3 E8 2CE4 E9 2CE5 E9 2CE6 E9 2CE7 E9 2CE8 E9 2CE9 E10 2CEA E10 2CEB E10 2CEC E10 2CED E11 2CEE E11 2CEF E11 2CEG E11 2CEH E11 2CEK E12 2CEM E12 2CEN E1 2CEP E4 2CER D9 2CET D10 2CEU D11 2CF0 F9 2CF1 F9 2CF2 F9 2CF3 F9 2CF4 F10 2CF5 F10 2CF6 F10 2CF7 F10 2CF8 F11 2CF9 F11 2CFA H3 2CFB A4 2CFD H3 2CFE H4 2CFF H4 2CFG H4 2CFH B2 2CFK D1 2CFM D3 2CFN D2 2CFP E3 2CFR E3 2CFT F2 2CFU C4 3CD0 E1 3CD1 E1 3CD2 E1 3CD3 F1 3CD4 D3 3CD5 D3 3CD6 F3 3CD7 F3 3CD8 B1 3CD9 C3 3CE1 C1 3CE2 E2 5CD1 A4 5CD2 H3 5CD3 H5 7C00-2 A6 7CD0-1 C2 7CD0-2 E2 7CD1 C3 CCD0 B5 FCD1 D4 FCD2 E3 FCD3 F3 ICD1 B2 ICDA A5 ICDB H5 ICDC H6 ICDD E1 ICDE C1 ICDF F1

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

82

SSB: Pacific 3: LVDS 1

2

B06A

3

4

5

6

7

8

9

10

11

12

13

14

PACIFIC 3: LVDS

B06A

A

A FOR /32 ONLY

1G50 FX15SC-41S-0.5SH

BYPASS

FG00

VDISP

Tx8535oB+

1

9G13-1 8

RxP3oB+_B6

Tx8535oC-

4

9G14-4 5

RxP3oC-_B5

Tx8535oC+

3

9G14-3 6

RxP3oC+_B4

Tx8535oCLK+

1

9G14-1 8

RxP3oCLK+_B3

Tx8535oCLK-

2

9G14-2 7

RxP3oCLK-_B2

Tx8535oD-

4

9G15-4 5

RxP3oD-_B1

Tx8535oD+

3

9G15-3 6

RxP3oD+_B0

Tx8535oE-

2

9G15-2 7

RxP3oE-_G9

Tx8535oE+

1

9G15-1 8

RxP3oE+_G8

RxP3oA-_B9

CTRL-DISP1 CTRL-DISP2 CTRL-DISP3 CTRL-DISP4

Dual LVDS only

RxP3oB+_B6

FG01 FG02 FG03 FG04 FG05 FG06

TXEA-

RxP3oB-_B7

2G00 2G01

4p7 4p7

2G02 2G03

4p7 4p7

2G04 2G05

4p7 4p7

2G06 2G07

4p7 4p7

2G08 2G09

4p7 4p7

TXEA+

RxP3oC+_B4

FG07 FG08

TXEB-

RxP3oC-_B5

FG09 FG10 FG11 FG12

TXEB+

RxP3oCLK-_B2

100R

3G04

RxP3oD+_B0

D

TXEC+

100R

FG19 FG20

TXECLK-

RxP3oD-_B1 RxP3oE+_G8

3G05

FG13 FG14 FG15 FG16 FG17 FG18

TXEC-

RxP3oCLK+_B3

FG21 FG22 FG23 FG24

TXECLK+

TXED-

RxP3oE-_G9

SCL-I2C4-DISP SDA-I2C4-DISP

100R 2G53

TXED+

TXEE-

E

RES 3G53

2G10 2G11

4p7 4p7

2G12 2G13

4p7 4p7

2G14 2G15

4p7 4p7

2G16 2G17

4p7 4p7

2G18 2G19

4p7 4p7

2G20 2G21

4p7 4p7

2G22 2G23

4p7 4p7

FG25

RES 3G52

FG26 100R

41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

B

C

D

LVDS CONNECTOR

100p

RxP3oB-_B7

2G52

9G13-2 7

100p

2

100R

Tx8535oB-

100R

RxP3oA+_B8

3G01

9G13-3 6

100R

3

3G02

Tx8535oA+

100R

RxP3oA-_B9

3G03

C

9G13-4 5

TO PACIFIC

FROM PNX8541

B

4

3G00

RxP3oA+_B8 Tx8535oA-

50 51 48 49 46 47 44 45 42 43

E

RESERVED FOR DFI

TXEE+

TXOA-

TXOA+

F

F

TXOB-

TXOB+

TXOC-

TXOC+

G

G

TXOCLK-

TXOCLK+

TXOD-

TXOD+

H

H

TXOE-

TXOE+

H_17650_033.eps 140108

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

14

1G50 A13 2G00 B9 2G01 C9 2G02 C9 2G03 C9 2G04 D9 2G05 D9 2G06 D9 2G07 D9 2G08 E9 2G09 E9 2G10 E9 2G11 E9 2G12 F9 2G13 F9 2G14 F9 2G15 F9 2G16 G9 2G17 G9 2G18 G9 2G19 G9 2G20 H9 2G21 H9 2G22 H9 2G23 H9 2G52 E13 2G53 E12 3G00 B4 3G01 B4 3G02 C4 3G03 C4 3G04 D4 3G05 D4 3G52 E12 3G53 D13 9G13-1 B2 9G13-2 B2 9G13-3 B2 9G13-4 B2 9G14-1 C2 9G14-2 C2 9G14-3 C2 9G14-4 B2 9G15-1 C2 9G15-2 C2 9G15-3 C2 9G15-4 C2 FG00 A13 FG01 B12 FG02 B12 FG03 B12 FG04 C12 FG05 C12 FG06 C12 FG07 C12 FG08 C12 FG09 C12 FG10 C12 FG11 C12 FG12 C12 FG13 C12 FG14 C12 FG15 D12 FG16 D12 FG17 D12 FG18 D12 FG19 D12 FG20 D12 FG21 D12 FG22 D12 FG23 D12 FG24 D12 FG25 D13 FG26 E13

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

83

SSB: Pacific 3: Display & Interfacing 1

2

B06B

3

4

5

6

7

8

9

10

11

12

13

14

PACIFIC 3: DISPLAY-INTERFACING

B06B

A

A

+3V3 +3V3

FOR AMBILIGHT ONLY RES

47K

VDISP-SWITCH

+3V3

IGBA

47K SDA-AMBI-3V3

9G60

100n

2G60

2

SDA-AMBI

10p

9GA9 1G02

1G01

1 2 3 4 5 6 7

C

1735446-7

3G97 100R

IG70

IG97

+12VD 3G72

CTRL4-P3

+3V3

1n0

1

3G67-4 IG94 3G67-3 4 5 6 3

EMC 2G7A

BZX384-C5V6

IG71

+5V 4

10K RES 7G61-2 BC847BS

RES 3GA3

3

470p 3G92-4

2G73

5 +3V3

10p

2G74

100R

FG5A FG5B FG5C I2C_SEL1 I2C_SEL2

2K2

47K 7G55 BC847BW

+3V3

D

4K7

3G60

CTRL1-MIPS_LCD-PWR-ON

IG67

3

IG95

1GC0

3G95

IG93

8 3G67-1 1

1u0

RES 9GA8

RES 3GA0

2K2

2 6

1

SCL-AMBI

RES 2G68

47K IGB5 2G57

TO AMBILIGHT BD

9G59

SCL-AMBI-3V3

6G50

D

10K

2 3G92-2 7 IGB9

2 3G67-2 7

IG72

10K RES 7G61-1 BC847BS

+5V

5

47R

6G51 SML-310

4

C

2K2

10K

3G63

7G54 SI3441BDV

+3V3

B

IGB7 IGB8

470p 8 3G92-1 1

100n IGB6

3 3G92-3 6

IG53

RES 2G67

2G54

220R 3G56 2G76

+12VD

9GA3 9GA4 9GA5

5G56

9GA6 RES 9GA7

VDISP IG92

7G52 SI4835BDY RES FG56

FG50

220R

1n0

EMC 2G7B

B

5G55

9G61 RES

9GA0 9GA1 9GA2

10u 16V RES

FG55

+5V-TCON

100R RES FG59

CTRL4-STBY_SELECT-PWM-ANA

1M0

RES 3GC5

2G75

47K

1u0 RES

E

3

470p 9G56

1K0

RES

IG90

1K0

3G62

3G66

+3V3

3G65

PDP-GO

3G70

CPU-GO

CTRL-DISP4

3G69

100p

100p

2G65

2G66

47R 3G96

100p

IG79

CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3

2G64

47R 3G93

100p

IG78

CTRL-DISP3

4K7 RES 2G55

+3V3-STANDB Y

2G63

47R 3G91

4K7

IG77 CTRL1-STBY_LAMP-ON

3G94

CTRL5-STBY_BACKLIGHT-BOOST

F

FG54

47R 3G90

PDWN

RES 12K 7G53 BC847BW 2

1

15K RES

3G88

CTRL-DISP2

IG89

BACKLIGHT-CONTROL

7G58-1 BC847BPN 1

BC847BPN 7G58-2

5

1u0 RES

FG53 IG75 CTRL3-STBY_POWER-OK-DISP

RESET

6

4

IGBB

2G59

FG52

3G86

IRQ

2K2 RES

CTRL-DISP1

RES 3GA6

F

IGB1

10K

IG73

27K 3

RES 3G58 3G61

PDP LCD 3G86 47R 10K

SDI

FHP FG51

IGBC 2

22K RES

10K

47R

3G79

47R

3G78

E

47R 3G77

3G76

RES 3G57

FOR PDP ONLY

CTRL1-MIPS_LCD-PWR-ON

3G55

+8V2-PAS

+3V3

7G56 RES PDTC114EU

CTRL4-STBY_SELECT-PWM-ANA

+3V3

47R

G

STANDBY

10K

3GA4

9GAD

9GAC

9GAB

7G57 BC847BW

9GAA

100K

3G98

3G99

IG65

6 3G73

100K

IGB2 3

IGB3

FOR LCD ONLY

IGB4 2

47K

7G59-1 BC847BS 1

5

2G58

1u0 7G59-2 BC847BS 4

G

BACKLIGHT-OUT

H

H IGA9

CTRL5-STBY_BACKLIGHT-BOOST SDA-SSB-MUX1

CG01

SDA-I2C4-DISP

SCL-SSB-MUX1

CG02

SCL-I2C4-DISP

CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3

9G48 RES

I

I

H_17650_034.eps 171207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

14

1G01 C13 1G02 C13 1GC0 C14 2G54 B5 2G55 E11 2G57 C3 2G58 G12 2G59 F12 2G60 D5 2G63 F5 2G64 F5 2G65 F5 2G66 F6 2G67 B11 2G68 C11 2G73 C13 2G74 C12 2G75 D13 2G76 B4 2G7A C13 2G7B B1 3G55 D13 3G56 B4 3G57 E11 3G58 E11 3G60 D4 3G61 E11 3G62 F11 3G63 C2 3G65 F12 3G66 F13 3G67-1 C4 3G67-2 C2 3G67-3 C5 3G67-4 C5 3G69 F11 3G70 F12 3G72 D4 3G73 G11 3G76 E5 3G77 E5 3G78 E5 3G79 E5 3G86 E3 3G88 F4 3G90 F4 3G91 F4 3G92-1 B11 3G92-2 B10 3G92-3 C10 3G92-4 C11 3G93 F4 3G94 F4 3G95 C12 3G96 F4 3G97 C12 3G98 G4 3G99 G4 3GA0 B1 1 3GA3 C11 3GA4 G11 3GA6 E12 3GC5 E12 5G55 B4 5G56 B4 6G50 C3 6G51 B5 7G52 B2 7G53 E12 7G54 B3 7G55 C4 7G56 F12 7G57 G4 7G58-1 E13 7G58-2 E13 7G59-1 G11 7G59-2 G12 7G61-1 B11 7G61-2 C11 9G48 I11 9G56 F13 9G59 C11 9G60 C11 9G61 B3 9GA0 B2 9GA1 B2 9GA2 B2 9GA3 B2 9GA4 C2 9GA5 C2 9GA6 B1 3 9GA7 B1 3 9GA8 B1 3 9GA9 B1 3 9GAA G5 9GAB G5 9GAC G5 9GAD G6 CG01 I3 CG02 I3 FG50 B5 FG51 E6 FG52 E6 FG53 E6 FG54 F6 FG55 B1 FG56 B1 FG59 D14 FG5A C14 FG5B C14 FG5C C14 IG53 C2 IG65 G4 IG67 C11

IG70 D11 IG71 C5 IG72 D2 IG73 E2 IG75 F2 IG77 F2 IG78 F2 IG79 F2 IG89 E10 IG90 F13 IG92 B4 IG93 C4 IG94 C5 IG95 C3 IG97 D4 IGA9 H11 IGB1 F12 IGB2 G12 IGB3 G11 IGB4 G11 IGB5 C2 IGB6 B5 IGB7 B1 3 IGB8 B1 3 IGB9 C10 IGBA C1 0 IGBB E12 IGBC E13

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

84

SSB: Pacific 3 1

2

3

4

5

6

7

8

9

10

11

12

13

14

PACIFIC 3

B06C

5GE3

FGE4

+1V5

+2V5-PF

+1V5-P3

5GE0

IGH9

+2V5-P3

FGE0

+2V5-PF

B06C

FGE1 +2V5-PLL

5GE1

10n

7

IGHB

RES 3GF0-2 2

+3V3 IGHC JTAG-TD-PACIFIC-TDA10048

FGG1

7 10K 8 10K

3GF0-1 1

JTAG-TCK JTAG-TD-PNX5050-PACIFI C JTAG-TD-PACIFIC-TDA10048 JTAG-TMS JTAG-TRST

1

8

3GF1-1 4K7

FGE5

47K RES

4 FGG0 173 207 3 205 1 2 206

JTAG-TD-PNX5050-PACIFIC

6 5

TXOATXOA+

RxP3oB-_B7 RxP3oB+_B6

1 2

9GE5-1 9GE5-2

8 7

TXOBTXOB+

RxP3oC-_B5 RxP3oC+_B4

3 4

9GE6-3 9GE6-4

6 5

TXOCTXOC+

RxP3oCLK-_B2 RxP3oCLK+_B3

1 2

9GE6-1 9GE6-2

8 7

TXOCLKTXOCLK+

RxP3oD-_B1 RxP3oD+_B0

3 4

9GE7-3 9GE7-4

6 5

TXODTXOD+

RxP3oE-_G9 RxP3oE+_G8

1 2

9GE7-1 9GE7-2

8 7

TXOETXOE+

3GG1 4K7

SDA-SSB SCL-SSB FGF2

3GG2-3 3 100R 6 100R 4 5 3GG2-4

IGE8

IGE9

FGF3

MINTN

198 200

+1V5-P3

59

PLL2_GNDA PLL1_GNDA

55 213

PLL2_GNDD PLL1_GNDD

57 215

10n RES

3GB9

C

1K0 RES BACKLIGHT-BOOST

3GC8 1K0 RES 3 1

133 134 135 137 139 140 141

7G65 BC847BW 2

RES

D

BACKLIGHT BOOST

143 145 146

PE<7:9> 7 6 5 4 D 3 2 1 0 PSEN WRN

SSDA SSCL DEO

148 149 151 153 154 155 159 160 161 162

E

64 73 88 104

N ERX1 P N ERX2 P

44 45

RxP3eE-_R7 RxP3eE+_R6

N ECLK P

98 99

TXOC+ TXOC-

100 101

TXOCLK+ TXOCLK-

102 103

TXOD+ TXOD-

106 107

TXOE+ TXOE-

PWM-3

2K2

P N

N ERX3 P N ERX4 P

ETX3

P N

ETX4

P N

ETX5

P N

FGG3

7 FGG4 6 1 20 19 18 17 16 14 13

PWM-OR

SDA-AMBI-3V3 SCL-AMBI-3V3

IGHH

Φ

100n

TXOB+ TXOB-

PWM-3

P87LPC764BDH 7GE0

2GJ1

95 96

3

6GE1 3GH0

15

TXOA+ TXOA-

10K

92 93

10K

P N

3

ETX0

IGHG BAS316

3GF0-3

TXEE+ TXEE-

6

89 90

4

P N

5

OTX5

G 3GF0-4

TXED+ TXED-

10p RES

86 87

2

TXECLK+ TXECLK-

2GJ3

P N

P ETX2 N

VDD

CLKOUT uC X2 4Kb OTP X1 TXD P2<0:1> RXD CMP2 SCL T0 2B 2A SDA CIN 1B 0 INT 1A 1 RST CMPREF 6 CMP1 7 T1 P0<0:7> P1<0:7>

12 11 10

H

9 8 4 3 2

3GG6

PWM-OR

1K0 3GG7 RES

+3V3

4K7

VSS

3GG9 RES

PC<0:9>

I

+3V3

4K7 GND

GND-RX

3

OTX4

ETX1

46 47 48 49 52 53

RxP3R5 RxP3R4 RxP3R3 RxP3R2 RxP3R1 RxP3R0

83 84

PB<0:9>

G<9:0> 40 41

RxP3eD-_R9 RxP3eD+_R8

P N

+3V3

5

RxP3eCLK-_G0 RxP3eCLK+_G1

38 37

N ERX0 P

OTX3

6

10n

34 35

N ORX4 P

R<9:0>

2

18 50

63 70 79 91

B<9:0>

RxP3eC-_G3 RxP3eC+_G2

TXEC+ TXEC-

2GJ2

31 32

N ORX3 P

P N

2GJ4

RxP3eB-_G5 RxP3eB+_G4

80 81

+3V3

PA<0:9> OTX2

FOR AMBILIGHT ONLY

1GE0 10M 10p RES

28 29

TXEB+ TXEB-

4K7

RxP3eA-_G7 RxP3eA+_G6

N OCLK P

TXEA+ TXEA-

77 78

3GH2

25 26

P OTX1 N

74 75

BAV70S

RxP3oE-_G9 RxP3oE+_G8

P N

F

BAV70S

22 23

OTX0

N ORX2 P

61 62 66 67 68 69

6GE0-1

20 19

RxP3oD-_B1 RxP3oD+_B0

LVDS

N ORX1 P

3139 123 6341.1 1

+3V3 IGA8

1

RxP3oCLK-_B2 RxP3oCLK+_B3

VDD_TX_3V3

15 16

VDD_RX_3V3

13 14

RxP3oC-_B5 RxP3oC+_B4

VDD_TX_1V5

RxP3oB-_B7 RxP3oB+_B6

N ORX0 P

VDD_RX_1V5

9 10

3 4 5 PWM 6 7 8

5

VDD_3V3

SUPPLY SSCG_GND

RxP3oA-_B9 RxP3oA+_B8

CLKI HSI

6GE0-2

199 216 211 208 203 195 189 186 181 175 171 163 157 152 142 131 125 112 108 5

7 8

BAV70W

209 197 190 182 176 156 147 136 119 111 105 94 85 72 65 43 39 33 24 21 12

VDD_2V5

RxP3CLK RxP3HS_DE

4

166 6

+2V5-P3

GND

+3V3-P3

VDD_1V5

210 201 196 184 180 174 167 158 150 144 138 130 124 118 113 110

VIA

PLL2_VCCD_1V5 56 PLL1_VCCD_1V5 214

241 240 239 238 237 236 235 234 233 232 231 230 229 228 227 226 225 224 223 222 221 220 219 218 217

7GE2-1 T6TF4HFG-0002

6GE3

+1V5-PLL

SSCG_VCC_1V5

RXD RDN TXD

+3V3-P3

17 27 36 51 60 71 76 82 97

58

117 120 121 122 123 126 127 128 129 132

IGA7

A<19:0>

MSDA MSCL

202 204

BACKLIGHT-CONTROL

168 169 170

PF<0:9> 242

11 30 42

GND_HS PLL2_VCCA_2V5 54 PLL1_VCCA_2V5 212

+1V5-TX

0 1 2 PE 3 4 5 6

00 01 02 GPIO 03 04 05 SCL SDA

114

+1V5-RX

9GE0

VSI

178 179 183 185 187 188

CTRL4-P3

CTRL4-P3

0 1 2 3 4 PD 5 6 7 8 9

T1 TCK TDI TDO TMS TRST TRIGOUT

177 +3V3-P3

RxP3FF

+2V5-PLL

10n 2GG5

2GG3 3GE3

1M0

3 1 10p RES 1GE1

2GL3

60M

2GL2

10p RES

1

3 4K7

RxP3VS

SI SCK SO CS

109 115 116

1u0

3

RES

2GK3

1u0

9GE5-3 9GE5-4

4u7

2GJ0

120R

3GH4

240R

3GH5

3GE5-3 4K7 6

1

VSS 7GE1 M25P05-AVMN6 4

120R

3 4

RxP3oA-_B9 RxP3oA+_B8

IGA2

CLKO VSO HSO 0 PWM 1 2

RSTN

193 191 192 194

6

C

MISC

OSC_CLK_I

5

D

W

BYPASS

OSC_Z

164 172

Φ

512K FLASH

HOLD

7GE2-3 T6TF4HFG-0002

1u0 2GG4

10n

3GE0 Q

165

B

2G79

100n 2GK2

2

S

RES 3GG0

IGE2

VCC

+1V5 1K0 2GK1

3GH3

1 IGH0

4 3GF1-4 5

FGE9

2 OUT

COM GND

8

GND-RX

7GE2-2 T6TF4HFG-0002

10K

OUT

GND-RX

47R

CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3_BOOTMODE

IGHD

3GE4 2

IGHE

4K7

3GB8

IN

GND-RX

9GE1

3 IN

100n

RES 9GE4

GND-RX

3GE5-1 4K7 8

+1V5-RX

10n

2GH0

IGA3

10n

2GH9

10n

2GH8

10n

GND-TX

47u 4V

6GE7 2GK0

6GE6

10n 2GG2

10n

2GH5

10n

2GH4

10n

2GH3

10n

2GH2

1u0

2GH6

220R

+3V3-P3

GND-TX GND-TX

3GE1

+3V3-P3

+1V5-TX

IGE0

GND-TX

2GH7

1u0

GND-TX 5GE6

10n

2GJ7

2

1u0

2GH1

220R

IGHA

COM

IGH7 STPS2L30A STPS2L30A IGH8

1u0 2GG1

2GG0

10n

10n

10n

10n

10n 2GG6

10n 2GF9

10n 2GF8

10n

1u0 2GG8

2GG7

+2V5-PF

IGA4

4 2GJ6

100n

2GJ5

FGE3

BP

A

+3V3-P3

+1V5-PLL

5GE5 5

OUT

INH

10n 2GG9

10n 2GF3

10n 2GF2

10n 2GF1

10n 2GF0

10n 2GE9

10n 2GE8

10n 2GE7

10n 2GE6

10n 2GE5

10n 2GE4

10n 2GE3

10n 2GE2

1u0

2GL1

2GE0

10n 2GE1 IN

FGE8

7GE5 LD1117DT

+3V3

120R

220R

7GE3 LD3985M25

3

10n 2GF7

10n 2GF6

2GF4 5GE4

+3V3

120R

+3V3-P3

FGE2

120R

1

2GK4

5GE2

2GK5

+3V3

2GK6

IGF5

4u7 2GF5

220R

4

CODE 9322 247 80671 IN ECM H_17650_035.eps 171207

GND-TX

5

6

7

8

9

10

11

12

13

14

1GE0 F10 1GE1 B11 2G79 D14 2GE0 A1 2GE1 A2 2GE2 A2 2GE3 A2 2GE4 A2 2GE5 A2 2GE6 A3 2GE7 A3 2GE8 A3 2GE9 A3 2GF0 A3 2GF1 A4 2GF2 A4 2GF3 A4 2GF4 A5 2GF5 A5 2GF6 A5 2GF7 A6 2GF8 A6 2GF9 A6 2GG0 A10 2GG1 A10 2GG2 A11 2GG3 A12 2GG4 A12 2GG5 A13 2GG6 A6 2GG7 A5 2GG8 A5 2GG9 A5 2GH0 B8 2GH1 B5 2GH2 B6 2GH3 B6 2GH4 B6 2GH5 B7 2GH6 B5 2GH7 B6 2GH8 B6 2GH9 B6 2GJ0 B11 2GJ1 G12 2GJ2 H10 2GJ3 G10 2GJ4 G9 2GJ5 B1 2GJ6 B2 2GJ7 B2 2GK0 C1 2GK1 C2 2GK2 C3 2GK3 C2 2GK4 A7 2GK5 A7 2GK6 A7 2GL1 A1 2GL2 B10 2GL3 B10 3GB8 C13 3GB9 C13 3GC8 C13 3GE0 A11 3GE1 B12 3GE3 B11 3GE4 B11 3GE5-1 B8 3GE5-3 B8 3GF0-1 C10 3GF0-2 C10 3GF0-3 G10 3GF0-4 G10 3GF1-1 C11 3GF1-4 B8 3GG0 C2 3GG1 D9 3GG2-3 E11 3GG2-4 E11 3GG6 H13 3GG7 H13 3GG9 I13 3GH0 H9 3GH2 I8 3GH3 C2 3GH4 C2 3GH5 D2 5GE0 A10 5GE1 A12 5GE2 A1 5GE3 A5 5GE4 A5 5GE5 B5 5GE6 B5 6GE0-1 G8 6GE0-2 H8 6GE1 H9 6GE3 I8 6GE6 C1 6GE7 C1 7G65 D13 7GE0 H11 7GE1 D7 7GE2-1 F4 7GE2-2 B12 7GE2-3 E1 7GE3 B2 7GE5 C2 9GE0 B13 9GE1 D9 9GE4 C1 9GE5-1 D5 9GE5-2 D5 9GE5-3 D5 9GE5-4 D5 9GE6-1 E5 9GE6-2 E5

9GE6-3 D5 9GE6-4 D5 9GE7-1 E5 9GE7-2 E5 9GE7-3 E5 9GE7-4 E5 FGE0 A10 FGE1 A12 FGE2 A1 FGE3 B10 FGE4 A5 FGE5 D10 FGE8 A6 FGE9 C3 FGF2 E10 FGF3 E10 FGG0 C11 FGG1 D9 FGG3 H10 FGG4 H11 IGA2 C9 IGA3 B7 IGA4 B7 IGA7 C13 IGA8 C13 IGE0 B10 IGE2 B11 IGE8 E11 IGE9 E11 IGF5 A5 IGH0 C2 IGH7 C1 IGH8 C2 IGH9 A10 IGHA B2 IGHB C8 IGHC C8 IGHD B11 IGHE B12 IGHG G9 IGHH I8

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

85

SSB: Analog IO: Scart 1 & 2 1

2

3

4

5

6

7

8

9

10

11

14

B07A RES 6E01

PESD5V0S1BA PESD5V0S1BA

0001

RES 6E03

0001

100p

2E06

100K

RES

2E88

1K0

1n0

3E07

SC1-AUDIO-R

3E27

2E51

RES 6E08

RES

IEC3

3EB0

PESD5V0S1BA

AP-SCART-OUT- R

0001

RES

100p

10u FEA1

7E01-2 3

1K0 2E30

150R

IE22

FE61

3E11

AUDIO-CL-R

1023

2EA5

100K

IEC2

1n0

IE20

AUDIO-IN2-R 3EA8

RES

5

IE23

AV3-PB

PESD5V0S1BA

0001 RES 6E07

1n0

PESD5V0S1BA

1015

100p

2E04

100K

1n0

RES

8

6

100p

FE74

7

FE75

9 10

11

FE80

11

330p

2E18

RES 6E22

0001

8K2

10

12 13

12

FE82

14

100p

PESD5V0S1BA 2E14

0001 RES 6E26

20

F

MRC-021H-09 PC 9E1C 5E13

IECA

RES

100p

3E54

47R 2E1E

3EBD 27R

330n

100p

NON MHP MHP

IEC9

PESD5V0S1BA

0001 RES 6E35

1011

75R

RES 3E55

19

21

21

SC1-R 100p

FE84

FE85

AV3-PR 2E19

FE83

20

MRC-021H-09 PC

G

100p

100p

3E38

47R 2E1C

19

PESD5V0S1BA 2E12

FE79

18

27R

330n

0001 6E28

FE78

3EBC

1E19

PESD5V0S1BA

0001 RES 6E34

1E13

75R

RES 3E51

100p

2E17

F

IEC8

1E18

5E12

SC1-G

18 FE77

16 17

MHP

IEC7

16 17

AV3-Y

E

15

9E1B

NON MHP 15

7

FE76

2E1D

FE67

CVBS-TER-OUT

VSS VEE 8

14 FE81

13

3 5 9

100p

4

2E1F

E

D

8

3E31

IE18

AV1-STATUS

PESD5V0S1BA 2E15

0001 6E23

1E12

100p

2E1B

100p

7

PESD5V0S1BA

IE96

FE65

27R

330n

9

FE66

FE73

3EBB

1001

0001 RES 6E02

1028

3K3

3E17

330p

2E33 Y_CVBS-MON-OUT-SC

IEC5

3K3

FE64

3E16 8K2

5E11

3E32

IE05

PESD5V0S1BA

AV2-STATUS

1 2 10

3E22

MHP

6

13 12 11

3

5 IEC4

SC1-B

5

FE63

2

4

4

6

C

1

9E1A

3

VDD

15

FE72

NON MHP

7E02 74HC4053PW

1 2 4X1 4X2

1E01 FE70

2

FE68

3E28

0001 RES 6E24

1027

100p

2E16

2E75

2

75R

RES 3E02

1

G4

RES

FE71

47R 2E1A

REGIMBEAU_CVBS-SWITCH

MDX

RES

1

7E15 PDTC114EU

+5V

SCART2 (AV2)

SCART1 (AV1)

1E02

PESD5V0S1BA

3

IE98

2E82

0001 RES 6E14

1025

100p

RES 2E31

100K

3E99

100n

2E77 8K2

RES 3E34

+5V

PESD5V0S1BA

1K0

C

0001 RES 6E09

1K0

1n0

3E19

3E14

2E91

IE21

2E90

RES

SC1-AUDIO-L AUDIO-IN2-L

1009

100p

RES

2E10

FE62

3E30

470R 1n0

RES 6E12

0001

1024

100p

100K RES 2E32

RES 3E21

A-PLOP

B

3E15

AP-SCART-OUT-L

3E64 470R

100K

AP-SCART-OUT- L

2E70

4 BC847BS

PESD5V0S1BA

1K0

16

A

1 BC847BS

14

2E87

2

1K0

IE04

1E00

100p

100K

2E01

RES 3E12

RES

1E31

1n0

470R

1n0

3E37

AP-SCART-OUT-R

2E50

PESD5V0S1BA

0001 RES 6E10

100p

AP-SCART-OUT- L

RES

IEC1

3EA9

B

3E24

RES

3E18

A

AUDIO-CL-L

10u FEA0

2E29

150R 7E01-1 6

470R 1022

2EA4

100K

IEC0

FE60

3E63

AP-SCART-OUT- R 3EA7

100n

13

ANALOG IO: SCART 1 & 2

B07A

D

12

G

AV1-BLK-BO

+3V3

+3V3 100n

2E24

2E02

22u 10V

4K7

3E44

100n

4K7

2E13

3E73

IE91 IE48 3 3E68

1E22

0001

1E25

0001

1E23

75R

3E43

100R

NON MHP

H

PESD5V0S1BA

1

PESD5V0S1BA

IE09

100R

PESD5V0S1BA

IE06

7E09 BC847BW 2

RES 6E29

AV1-BLK 3E69

1

0001

7E14 BC847BW 2

75R 1E26

IE51

CVBS-OUT-SC1

RES 6E36

3EB7

H

IE92

390R

7E05 BC847BW

RES 6E32

3

AV2-BLK

100R

PESD5V0S1BA 3E61

3EB6

100n

2E74

+5V

9E1D

IECB

SC1-CVBS

2

3

4

5

100p

2E44

6

0001

RES 6E30

68R 1E24

PESD5V0S1BA

RES 6E31

390R

3139 123 6341.1

7

8

9

I

3E45

CVBS-OUT-SC1

68R

MHP

1X12 EMC REF HOLE

10

11

12

0001

1X03 EMC HOLE

47R

3E59

100p

2E41

0001

1E27

75R

1X02 EMC REF HOLE

3E52

7E04 BC847BW

1

3EBA 27R RES 3E62

RES 6E37

IE93

100R

PESD5V0S1BA

RES 9E10

IE94

3EB8

I

100n

2E73

+5V

3EB9

AV2-Y_CVBS

H_17650_036.eps 181207

13

14

1001 E11 1009 B12 1011 G6 1015 C12 1022 A6 1023 B6 1024 B6 1025 C6 1027 D6 1028 E6 1E00 A12 1E01 C14 1E02 C8 1E12 D12 1E13 F6 1E18 F12 1E19 G12 1E22 H13 1E23 I13 1E24 I6 1E25 I13 1E26 H7 1E27 I6 1E31 B12 2E01 A11 2E02 G11 2E04 C11 2E06 B11 2E10 B11 2E12 G12 2E13 H6 2E14 F12 2E15 D12 2E16 D5 2E17 F5 2E18 E12 2E19 G5 2E1A D11 2E1B D11 2E1C F11 2E1D F11 2E1E G11 2E1F G11 2E24 G12 2E29 A5 2E30 B5 2E31 C5 2E32 B5 2E33 E5 2E41 I6 2E44 I12 2E50 A7 2E51 B7 2E70 B6 2E73 I2 2E74 G2 2E75 D1 2E77 C2 2E82 C6 2E87 A11 2E88 B11 2E90 B11 2E91 C11 2EA4 A3 2EA5 A3 3E02 D5 3E07 A11 3E11 A6 3E12 A11 3E14 C6 3E15 B11 3E16 D6 3E17 E5 3E18 B5 3E19 C11 3E21 B5 3E22 C11 3E24 A5 3E27 B11 3E28 D10 3E30 B11 3E31 D11 3E32 E11 3E34 C5 3E37 A11 3E38 F10 3E43 H12 3E44 G11 3E45 I11 3E51 F5 3E52 I5 3E54 G10 3E55 G5 3E59 I11 3E61 H7 3E62 I6 3E63 A6 3E64 B6 3E68 H12 3E69 H6 3E73 H6 3E99 C2 3EA7 A2 3EA8 A2 3EA9 A2 3EB0 B2 3EB6 H1 3EB7 H2 3EB8 I1 3EB9 I1 3EBA I1 1 3EBB D11 3EBC E11 3EBD G11 5E11 D11 5E12 E11 5E13 G11

6E01 A12 6E02 E6 6E03 B12 6E07 B12 6E08 B6 6E09 C12 6E10 A6 6E12 B6 6E14 C6 6E22 E12 6E23 D12 6E24 D6 6E26 F12 6E28 G12 6E29 H12 6E30 I12 6E31 I5 6E32 I12 6E34 F6 6E35 G6 6E36 H6 6E37 I5 7E01-1 A2 7E01-2 B2 7E02 D2 7E04 I1 7E05 H1 7E09 H11 7E14 H6 7E15 C3 9E10 I2 9E1A D11 9E1B E11 9E1C F11 9E1D I11 FE60 A7 FE61 A7 FE62 B7 FE63 D7 FE64 D7 FE65 E7 FE66 E7 FE67 E7 FE68 D7 FE70 C13 FE71 C13 FE72 C13 FE73 D13 FE74 D13 FE75 D13 FE76 E7 FE77 F7 FE78 F7 FE79 F7 FE80 D13 FE81 E13 FE82 E13 FE83 F13 FE84 F13 FE85 F13 FEA0 A3 FEA1 B3 IE04 D1 IE05 D5 IE06 H6 IE09 H11 IE18 D10 IE20 A5 IE21 C5 IE22 A11 IE23 C11 IE48 H11 IE51 H5 IE91 H1 IE92 H2 IE93 I2 IE94 I1 IE96 E2 IE98 C2 IEC0 A3 IEC1 A2 IEC2 A3 IEC3 B2 IEC4 D10 IEC5 D11 IEC7 E10 IEC8 E11 IEC9 G10 IECA G11 IECB I10

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

86

SSB: Analog IO: YPBR Audio Out 1

2

B07B

3

4

5

6

7

8

9

10

12

11

13

ANALOG IO: YPBR AUDIO OUT

14

B07B A

A 3E25

75R 100p

IE34

IE33

3E50

1u0

3E08

2E71

1E0S

6E47

1E0T 1E0Q

6E52

PESD5V0S1BA

12p

2E22

120R

22p

RES 3E40

1

D

RES

100p

3E95

1E08-1 BLACK MSP-303H-BBB-132-03 2

FE59

1K0

2E07

AUDIO-IN3-R 2E72 RES

+3V3 2E52

E

1

10p

4K7

3E04-1

8

100p

3E98

100n

IE31

1K0 RES 100K

PESD5V0S1BA

6E06

2E23

AUDIO-IN3-L

3E97

1E0Z

1n0

2E93

FE50

E

IE29

RES 100K

PESD5V0S1BA

1E0Y

RES 6E38

1n0

2E92

D

PESD5V0S1BA

RES 6E48

1n0

2E68

100p

RES 2E95

2E67

100p

75R

IE15

3E96

C

AV4-PR

9E00

75R

4

BC847BS

IE26

30R FE49

PESD5V0S1BA

5

5

1K0

RES 3E36

PESD5V0S1BA

6EA1

1E0W

1n0

470R

IE35

3E56

A-PLOP

FE48

MSP-636H1-01

1E08-3 RED MSP-303H-BBB-132-03 6

FE53

3E48

150R

7E10-2

3 2 1

RES 2E96

2E64

AV4-PB

3E53 RES

4

2E34

AUDIO-OUT-R

IE03 9E02

3 RES 3E92

PESD5V0S1BA

6EA0

1E0V

5

C

B

FE51

6

RES

2E28 100K

7

1

AV4-Y

9E03

RES 100p

8

RES 3E42

6E53

9

PESD5V0S1BA

1E0R

B

3 3E60 RES

2

IE00

FE52

12 11 10

FE69

6 BC847BS 7E10-1

IE62

3E58

1E08-2 WHITE MSP-303H-BBB-132-03 4

470R

1K0 1E03

3E33

150R

1u0

A-PLOP

IE68

100p

AUDIO-OUT-L

IE57

2E49 100K

2E21

7

7E03 BC847BW

3

2E08

3E20 47R

IE02 3E13

4K7

100n

IE01

180R

3E04-2

6

2

IE24

3E04-3

100n

IE25

4K7

SPDIF-OUT

2E05

F

F RES 9E06

IE90

5E02 +12VD

4 BC847BPN 7E06-2

100n

5

IE07 1

3EB3

100K IE60

IE38

2E78

2

10u

3EB1 IE61 22K

330R

10K

3EA5

330R

100R 3EB2

RES 9E21

H

560R

Y_CVBS-MON-OUT-SC

3EB5

6 7E06-1 BC847BPN 1

3

H

3EA1

1K0 IE70

3EA6

2E76

G

IE89

3

7E16 BC847BW 2

3EA2

33R

+5V

G

3EA3

3EA4

100n

2E81

1u0

1n0

EMC 2E9A

220R

I

I Y_CVBS-MON-OUT

H_17650_037.eps 181207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

1

1

12

13

14

1E03 B1 1E08-1 C11 1E08-2 A11 1E08-3 B11 1E0Q D10 1E0R B3 1E0S B10 1E0T C10 1E0V C3 1E0W C3 1E0Y D3 1E0Z E3 2E05 E7 2E07 E8 2E08 E10 2E21 A8 2E22 D8 2E23 D7 2E28 C9 2E34 B8 2E49 B9 2E52 E8 2E64 B4 2E67 C4 2E68 C4 2E71 D5 2E72 E5 2E76 G9 2E78 G12 2E81 G10 2E92 D3 2E93 E3 2E95 C10 2E96 B10 2E9A G9 3E04-1 E8 3E04-2 E8 3E04-3 F8 3E08 D8 3E13 F9 3E20 E10 3E25 A8 3E33 A10 3E36 C4 3E40 D8 3E42 B4 3E48 B10 3E50 B8 3E53 C9 3E56 C8 3E58 B8 3E60 B9 3E92 C4 3E95 D4 3E96 D4 3E97 E4 3E98 E4 3EA1 G12 3EA2 G11 3EA3 G11 3EA4 G10 3EA5 H12 3EA6 H11 3EB1 H11 3EB2 H11 3EB3 H9 3EB5 H10 5E02 G10 6E06 E3 6E38 D3 6E47 B10 6E48 C10 6E52 D10 6E53 B3 6EA0 C3 6EA1 C3 7E03 E9 7E06-1 G11 7E06-2 G11 7E10-1 B9 7E10-2 C8 7E16 H9 9E00 C5 9E02 C5 9E03 B5 9E06 F9 9E21 H10 FE48 C4 FE49 D3 FE50 E3 FE51 C4 FE52 B4 FE53 B10 FE59 D9 FE69 A10 IE00 B5 IE01 F10 IE02 F9 IE03 B5 IE07 H10 IE15 D8 IE24 E8 IE25 E8 IE26 C5 IE29 D4 IE31 D4 IE33 B9 IE34 B8 IE35 C8 IE38 H10 IE57 A8

IE60 G12 IE61 H11 IE62 B8 IE68 A9 IE70 G11 IE89 G11 IE90 F11

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

87

SSB: Analog IO: Side AV

1

3

4

5

6

7

8

9

ANALOG IO: SIDE AV 75R

100p

MDC-013V1-B

FE88

FE89

FE21

AUDIO-IN5-R

CVBS

FE98

1 2 3 4 5 6 7 8 9 10 11

AUDIO-HDPH-L-AP IE58

1-1735446-1

1K0 100p

100p

2E57

2E97

100K

30R

RES

RES

C

5E00

FE90 100p

TO SIDE I/O

5E01 FE91

PESD5V0S1BA PESD5V0S1BA

1002 6E46

100u 4V

2E45

2E80

RES

100u 4V

100p

2E98

100K

100p

RES

100R FOR ITV

E

RC1

IE66

IE67

RC2 1 3E26-1 8

FE24

FE25

RES

33R 3E26-2

7

33R

3 3E26-3 6

1n0

33R 1K0 2E40

1n0

2E39

1K0

PESD5V0S1BA 3E79

1000 6E45

PESD5V0S1BA

RIGHT

RES

9E16

2

9E15 FOR ITV

1010 6E44

IE73

LEFT

3E80

5 4 2

3 7 8 FE18 1 MSJ-035-10A B AG PPO

D

3E82

RES

HEADPHONE

30R

1K0

FEA2

E

IE72

3E78

2E37

6E43

1003

FE23

3E77

MTJ-032-37BAA-432 NI 8 9 1E11-3 7 RED FE17

2E58

(RED)

100p

RIGHT

F

3E81

2E42

1004

6E21

LEFT MTJ-032-37BAA-432 NI 5 6 1E11-2 4 WHITE

PESD5V0S1BA

FE22 (WHITE)

1E15

AUDIO-HDPH-R-AP

(YELLOW)

3E76

1E11-1 1 YELLOW

B

1M36

HP-DETECT

1005

MTJ-032-37BAA-432 NI 2

D

AUDIO-IN5-R

AUDIO-IN5-L

1E14

C

AUDIO-IN5-L

100R

100p

FE87 FE86

100R 3EC0

100p

2E55

FRONT- C

F

4 3E26-4 5 33R

H_17650_038.eps 181207

3139 123 6341.1

1

A

FRONT-Y_CVBS

3EC1

2E56

2E53 75R

FRONT-Y_CVBS

FRONT- C

9E14 2E54

1

B

9E13

100p

RES 3E74

6E20

1006

FE20

RES 6E41

3

100p

Y/CVBS

RES 3E75

4 5

RESERVED

FE56

2E36

SVHS IN

C

PESD5V0S1BA

2

100p

A

PESD5V0S1BA

B07C 1007 2E35

B07C

2

2

3

4

5

6

7

8

9

1000 F3 IE58 C5 1002 E3 IE66 E5 1003 D3 IE67 E6 1004 C3 IE72 D5 1005 B3 IE73 F2 1006 B3 1007 A3 1010 F4 1E11-1 B2 1E11-2 C2 1E11-3 D2 1E14 B1 1E15 E1 1M36 B8 2E35 A3 2E36 B3 2E37 D4 2E39 F3 2E40 F4 2E42 C4 2E45 D5 2E53 A7 2E54 A7 2E55 A8 2E56 B8 2E57 C8 2E58 D8 2E80 E5 2E97 C4 2E98 D4 3E26-1 E5 3E26-2 F5 3E26-3 F5 3E26-4 F5 3E74 A4 3E75 B4 3E76 C4 3E77 D4 3E78 D4 3E79 F3 3E80 F4 3E81 C4 3E82 E4 3EC0 A8 3EC1 A8 5E00 C8 5E01 D8 6E20 A3 6E21 C3 6E41 B3 6E43 D3 6E44 F4 6E45 F3 6E46 E3 9E13 A8 9E14 A8 9E15 F2 9E16 F2 FE17 D2 FE18 F2 FE20 B2 FE21 B2 FE22 C3 FE23 D3 FE24 F3 FE25 F4 FE56 A2 FE86 B7 FE87 B7 FE88 B7 FE89 B8 FE90 C8 FE91 D7 FE98 B8 FEA2 E3

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

88

SSB: Analog IO: Bolt On 1

2

6

7

8

9

10

FE47

EJTAG-TRST N EJTAG-DETECT EJTAG-TDI

FE46 FE45 FE44

EJTAG-TDO

FE43

EJTAG-TMS

5 3E39-4 4

EJTAG-TD I

10K 7 3E39-2 2

EJTAG-TD I

8

EJTAG-TM S

FE99 7E17 ST3232C 2E62

1

IE85

+3V3

10K

FE42 FE38

100n

IE86

2E63

IE87

3EAR +3V3

EJTAG-TC K

100n

10K

RES

3EAS

10K

FE41 FE40 FE39

DV-B1_UART2-TX

+3V3

IE88

IE81

1 3 4 5

11 10

FOR DEBUG

C1+

VCC

RS232

IE75 V-

C1V+

6

2E60

100n

2

2E61

100n

IE76

C2+

RS232-2

C2-

T1 IN T2 R1 IN R2

OUT

OUT

14 7

T1 T2

TXD2

FE93

RXD2

IE79

12 9

R1 R2

B3B-PH-SM4-TBT(LF) 1E51

FE92

5

3E85

100R

+3V3-EXT

IE84

SDA-SSB

9EAB FE31 FE30

FE97

AP-SCART-OUT- L AP-SCART-OUT- R

9 10 SC1-B

9EA1

SC1-G

9EA2

AV1-Y

SC1-R

9EA3

AV1-PR

FE37

100R 100R 100R 100R 100R

9EA7

DV-B0_UART2-RX

TXD-BOLT-ON

9EA8

DV-B1_UART2-TX

FOR MHP BOLT-ON

SCL-SSB SDA-SSB

9EA9 RES

RXD2

RC

9EAA RES

TXD2

IEA1 2EA9

IEBA BOLT-ON-IO_RESET-STI7100 STANDBY CVBS-TER-OUT

+5V

7EA1 ADG733BRU

Φ EN

47K

47K

47K 3EC5

3EC4

47K

3EC3

47K

3EC2

2E20

BO-R

2EA1

4u7

IEA2

12

SC1-R

2EA2

4u7

IEA3

13

BO-B

2EA3

4u7

IEA4

2

SC1-B

2EAP

4u7

IEA5

1

BO-G

2EAQ

4u7

IEA6

5

S1A

1K0 1K0

3ECL 3ECM

FEA4

AUDIO-IN5-L AUDIO-IN5-R

NC

3ECN 3ECP

FEB2 FEB3

1K0 1K0

AUDIO-OUT- R AUDIO-OUT- L

2EA6

SC1-G

IEA7

4u7

D1

DV-B3_MHP-SWITCH

14

AV1-PR

S2A D2

15

AV1-PB

4

AV1-Y

F

S2B S3A D3

3

S3B 7

47K

47K 3EAC

47K

3EAB

47K

3EAA

3EC8

47K

47K

3EC6

3EC7

VSS GND 47R

3ECC

47R

47R

3ECB

3ECA

1n0

1n0 2ECL

2ECK

1n0

1n0 2ECH

1n0 2ECG

1n0 2ECF

100K

S1B

10 11 2ECE

3ECK

8

FRONT-Y_CVBS FRONT- C

IEBB

6 11 10 9

A0 A1 A2

1R09

FEA3

E

100n

VDD

100p

100p 2E09

100p

100p 100p 100p 2ECM 2ECN 2ECP

2E03

RXD-BOLT-ON

30R

FE34 FEB7

BM09B-SRSS-TBT

D

60R

3ECU 3ECV 3ECW 3E57 3ECY

RXD-BOLT-ON TXD-BOLT-ON

5EA1

FEB4 FEB5 FEB6

IEB8 IEB9

16

100R

+3V3-STANDBY

11 12

100R

3E23

47K

5E03

3E09

FE35

3EAT

FE33

AV1-PB

+5V FE36

3EAV

1R08

F

C

FE57

1029

FE14

D

1 2 3 4 5 6 7 8 9

USE ONLY

MSJ-035-29D PPO (PHT) RS232 2 SERVICE 3 CONNECTOR 1 1E06

FOR ITV

SC1-B SC1-G SC1-R AV1-BLK-BO

BM08B-SRSS-TBT

1 2 3 4 5 6 7 8 9 10

1 TXD1 2 3 RXD1 4

B4B-PH-SM4-TBT(LF)

FE96

FE32

5

B

3E93

100R

1R07 1 2 3 4 5 6 7 8

E

6

1008

FE28

FE95

IE80

SCL-SSB

FOR FACTORY

1E50

DV-B0_UART2-R X

C

4

1 2 3

RS232-1

FE94

15 FE29

5

A

16

Φ

RXD

FE27 4

13 8

IE82

TXD

SDA

B07D

BAS316

DEBUG / RS232 INTERFACE

100K 3E39-1

14

+3V3-EXT

+3V3

10K RES 3E41

EJTAG-TC K

1HP0

13

6E50 +3V3

B 1 2 3

12

100n

EJTAG-TRST N

5-147279-3

SCL

11

2EAR

1HE0

A

5

ANALOG IO: BOLT - ON

FOR FACTORY USE ONLY 1 2 3 4 5 6 7 8 9 10 11 12 13 14

4

GND

B07D

3

G

G

60R

5EA2

+5V

2EAA IEA8

+5V

10u 2EAB

BOLT-ON-IO_RESET-STI7100 RXD-BOLT-ON TXD-BOLT-ON 3ECE

33K 3EAJ

47K

3EAH

47K

3EAG

3EAF

33K

33K

33K

12

IEB1

13

4u7

IEB2

2

2EA7

4u7

IEB3

1

BO-AUDIO-L

2EAF

2u2

3ECS

3K3

IEB4

5

SC1-AUDIO-L

2EAE

2u2

3ECT

3K3

IEB5

3

16

S1A D1

S2A

3EAW

100K

DV-B3_MHP-SWITCH

14

AUDIO-IN1-R

15

AV1-Y_CVBS

4

AUDIO-IN1-L

H

D2 S2B S3A D3 S3B 7

VSS GND 33K

33K 3EAQ

3ECD

BO-R BO-G BO-B

47K

FE12 FE11 FE10

3EAP

BO-CVBS

47K

BO-AUDIO-L BO-AUDIO-R

3EAN

SC1-CVBS

IEBC

S1B

SPDIF-IN-MHP

68R

1K0 1K0

3EAM

3EAY 3EAZ

3K3

33K

FEA9 FEB0

2u2 3ECR

33K

FEB1

IEB0

3K3

3EAL

FEA8

2EAC SC1-AUDIO-R IEBD 2EA8 BO-CVBS

2u2 3ECQ

3EAK

FEA7

100R 100R 100R

47R

FEA6

3ECF 3ECG 3ECH

6 11 10 9

8

2EAD

BO-AUDIO-R FEA5

I 100p

100p

RES 2EAN

RES 2EAM

1n0

1n0 2EAL

2EAK

22p

BM14B-SRSS-TBT

100p RES 2ECD

15 16 100p RES 2ECC

I

Φ EN A0 A1 A2

1R12 1 2 3 4 5 6 7 8 9 10 11 12 13 14

100n

VDD

FOR MHP BOLT-ON

RES 2ECB

H

3EAE

3EAD

7EA3 ADG733BRU

3139 123 6341.1 1

2

3

4

5

6

SC1-AUDIO-R

9EA4

SC1-AUDIO-L

9EA5

AUDIO-IN1-L

SC1-CVBS

9EA6

AV1-Y_CVBS

7

8

9

10

AUDIO-IN1-R

11

12

H_17650_039.eps 181207

13

14

1008 C12 1029 C12 1E06 C13 1E50 B13 1E51 B13 1HE0 A1 1HP0 B1 1R07 C1 1R08 D1 1R09 F1 1R12 H1 2E03 E1 2E09 E2 2E20 E2 2E60 A10 2E61 A10 2E62 A9 2E63 A9 2EA1 F8 2EA2 F8 2EA3 F8 2EA6 F8 2EA7 H7 2EA8 H7 2EA9 E10 2EAA G1 0 2EAB G1 0 2EAC H7 2EAD H7 2EAE I7 2EAF I7 2EAK I2 2EAL I2 2EAM I3 2EAN I3 2EAP F8 2EAQ F8 2EAR A1 0 2ECB I2 2ECC I2 2ECD I2 2ECE G2 2ECF G2 2ECG G2 2ECH G2 2ECK G3 2ECL G3 2ECM E2 2ECN E2 2ECP E2 3E09 D2 3E23 E2 3E39-1 A3 3E39-2 A3 3E39-4 A3 3E41 A3 3E57 E2 3E85 B2 3E93 C2 3EAA G9 3EAB G9 3EAC G9 3EAD H8 3EAE H8 3EAF H9 3EAG H9 3EAH H9 3EAJ H9 3EAK I8 3EAL I8 3EAM I9 3EAN I9 3EAP I9 3EAQ I9 3EAR A3 3EAS B3 3EAT E8 3EAV E8 3EAW H1 1 3EAY I3 3EAZ I3 3EC2 E9 3EC3 E9 3EC4 E9 3EC5 E9 3EC6 G8 3EC7 G8 3EC8 G9 3ECA G7 3ECB G7 3ECC G8 3ECD I7 3ECE H3 3ECF H3 3ECG H3 3ECH H3 3ECK E11 3ECL F2 3ECM F2 3ECN F2 3ECP F2 3ECQ H8 3ECR H8 3ECS I8 3ECT I8 3ECU E2 3ECV E2 3ECW E2 3ECY E2 5E03 E1 5EA1 E10 5EA2 G10 6E50 A10 7E17 A9 7EA1 E10 7EA3 G10

9EA1 D10 9EA2 D10 9EA3 D10 9EA4 I10 9EA5 I10 9EA6 I10 9EA7 D5 9EA8 E5 9EA9 E5 9EAA E5 9EAB C2 FE10 I4 FE11 I4 FE12 I4 FE14 C1 FE27 B2 FE28 C2 FE29 B2 FE30 D2 FE31 D2 FE32 C1 FE33 E1 FE34 E2 FE35 E2 FE36 D2 FE37 D1 FE38 A1 FE39 B1 FE40 B1 FE41 B1 FE42 A1 FE43 A1 FE44 A1 FE45 A1 FE46 A1 FE47 A1 FE57 C12 FE92 B12 FE93 B12 FE94 B12 FE95 B12 FE96 C12 FE97 C12 FE99 A10 FEA3 F2 FEA4 F2 FEA5 H2 FEA6 H2 FEA7 H2 FEA8 H2 FEA9 I2 FEB0 I2 FEB1 I1 FEB2 F1 FEB3 F1 FEB4 E2 FEB5 E2 FEB6 E2 FEB7 E2 IE75 A10 IE76 A10 IE79 B10 IE80 B9 IE81 B9 IE82 B9 IE84 C9 IE85 A9 IE86 A9 IE87 A9 IE88 B9 IEA1 E10 IEA2 F10 IEA3 F10 IEA4 F10 IEA5 F10 IEA6 F10 IEA7 F10 IEA8 G10 IEB0 H10 IEB1 H10 IEB2 H10 IEB3 H10 IEB4 I10 IEB5 I10 IEB8 D3 IEB9 E3 IEBA E3 IEBB E1 1 IEBC H11 IEBD H7

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

89

SSB: Digi IO: USB 1

B08A

2

3

4

5

6

7

8

9

10

11

12

13

DIGI IO: USB CONNECTOR + CONTROLLER

B08A

A

A

5P03

1n0

1n0 EMC 2P0U

IP0K

B

0R4

3P0G

100n

2P0F

+T

30R

B

1n0 EMC 2P0T

30R

1n0 EMC 2P0R

EMC 2P0P

5P04

1n0 EMC 2P0Q

+5V

IP02

5P07

5 IP04

22u 6.3V

100n

2P0V

22u

2P0N 2P01

100n

100n 2P08

100n 2P07

100n 2P06

100n 2P05

2P04

D

6

1 2 3 4

IP05 IP09

30R

2P02

+3V3

22u 6.3V

5P00

IP0J

100n 2P0W

RES 7P01 PDTC114EU

47u 6.3V

FP07 FP08 FP09 FP0A

USB20-1-DM USB20-1-DP

292303-4

D

100n

9P01

2P0K

100n

100n 2P03

2P0B

100n

2P0C

1P07

IP0H

RESET-SYSTEM

C USB CONNECTOR

IP06

30R

10K

RES 3P06

5P01

RESET-USB20

56K

C

3P0E

100n

U1 USB-OC

+3V3

100n

2P0D

2P0E

30R

100K

IP07

3P0F

220R 5P02

IP08

27p

4K7 3P05

F

IP0P

+3V3

PCI-REQ-USB20

RES 3P0A

IP0M

10K

3P0B

IRQ-PCI 10K

IP0E

3P0D

G

35

PCI-CBE3

23

PCI-REQ-USB20 PCI-GNT-USB20 PCI-AD22 IRQ-PCI PCI-FRAME PCI-DEVSEL PCI-IRDY

9 8 24 4 36 39 37 42 47 44 45 38 41

IP01

3P00 100R

USB20-OC1

33R 3P0C

USB-OC

PCI-CBE2

USB20-OC2

33R

PCI-PAR PCI-PERR PCI-SERR PCI-TRDY PCI-STOP 3P07

RES 3P08 3P0L

10K

15K 3P02

USB20-OC1

USB20-OC1

USB20-1-DM USB20-1-DP

USB20-1-DM USB20-1-DP

USB20-OC2

USB20-OC2

USB20-2-DM USB20-2-DP

USB20-2-DM USB20-2-DP

81

RES 10K

3P03 15K

IP0G

AD

OC1 PWE1 ATX1 DM1 DP1

87 88 90 92

100n

2P00

16

2 73

3

86 93

AD

RREF

78 79 83 85

15K 3P01

+3V3 15K

IP0C

11K

+3V3

H

C0 BE0 C1 BE1 C2 BE2 C3 BE3 REQ GNT IDSEL INTA FRAME DEVSEL IRDY CLKRUN PAR PERR SERR TRDY STOP

PCI-GNT-USB20

+3V3

RES

60 48

VREG1V8

PCICLK PME

10K

RES

+3V3

SCL SDA

IP0D

PCI-CBE0 PCI-CBE1

PCI HOST CONTROLLER

RST

7 99

PCI-CLK-USB20

IP0B

VREG3V3

Φ

XTAL 2

5

1 2 3V3 1V8 VDDA VAUX AUX

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31

18 43 58 70 69 68 67 66 65 63 62 59 57 56 54 53 52 51 50 34 33 31 30 29 28 27 26 22 21 20 15 14 13 12 10

22u 2P0A

1

75

9P00

96 97

3P0H

11 25 40 55 71

12M

74 IP0L

2P0G RESET-USB20

AUX VCCIO

2P0M

E

1P01

27p

7P00 ISP1564HL

FP00

2P0H

77 98 100

IP00

2P09

IP0A IP0N

E 100n

2P0L 100n

PCI-AD0 PCI-AD1 PCI-AD2 PCI-AD3 PCI-AD4 PCI-AD5 PCI-AD6 PCI-AD7 PCI-AD8 PCI-AD9 PCI-AD10 PCI-AD11 PCI-AD12 PCI-AD13 PCI-AD14 PCI-AD15 PCI-AD16 PCI-AD17 PCI-AD18 PCI-AD19 PCI-AD20 PCI-AD21 PCI-AD22 PCI-AD23 PCI-AD24 PCI-AD25 PCI-AD26 PCI-AD27 PCI-AD28 PCI-AD29 PCI-AD30 PCI-AD31

F

G

OC2 PWE2 ATX2 DM2 DP2

IP0F

H

3P04

1X06 EMC HOLE

GNDA

1X07 EMC HOLE

9P02

1X05 EMC HOLE

GNDA

1 17 46 61 72 80 82 84 89 91

6 19 32 49 64 76 94 95

GNDD

I

I H_17650_040.eps 181207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

U1 C11 1P01 E6 1P07 C13 2P00 E9 2P01 D9 2P02 D10 2P03 C7 2P04 D6 2P05 D6 2P06 D6 2P07 D7 2P08 D7 2P09 E10 2P0A E9 2P0B C7 2P0C C6 2P0D C7 2P0E C6 2P0F B7 2P0G E6 2P0H E6 2P0K C12 2P0L E10 2P0M E9 2P0N D9 2P0P B12 2P0Q B12 2P0R B12 2P0T B12 2P0U B13 2P0V D10 2P0W E10 3P00 G6 3P01 H3 3P02 H3 3P03 H3 3P04 H3 3P05 F6 3P06 C3 3P07 G6 3P08 H3 3P0A F3 3P0B F2 3P0C G3 3P0D G3 3P0E C12 3P0F C12 3P0G B12 3P0H F3 3P0L H3 5P00 D6 5P01 C6 5P02 B6 5P03 B6 5P04 A6 5P07 B12 7P00 E7 7P01 D3 9P00 E6 9P01 D2 9P02 I8 FP00 E6 FP07 D13 FP08 D13 FP09 D13 FP0A D13 IP00 D9 IP01 G6 IP02 B12 IP04 D7 IP05 D9 IP06 C7 IP07 B7 IP08 E7 IP09 D9 IP0A E9 IP0B E9 IP0C G6 IP0D F6 IP0E G3 IP0F H6 IP0G H6 IP0H D3 IP0J D2 IP0K B7 IP0L E6 IP0M F3 IP0N E9 IP0P F3

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

90

SSB: Digi IO: HDMI & DVI 1

2

3

4

5

6

7

9

8

10

11

12

13

DIGI IO: HDMI CONNECTORS + DVI AUDIO INPUTS

B08B

1P32

6

SCL ADR SDA

DC1R019WBER220

47K

10K

3P3E

3P3C

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 22

IP3G IP3A

3P34

7P32 BC847BW

HOT-PLUG

10n

2P3A

1P3W

10K

1K0

3P35

22R

RES 3P6A 10K

BAT54

4K7

6P63

RES 3P36

CIN-5V

D

EDID NVM HDMI 1

BRX-HOTPLUG

FP4C

100n

2P46

100n

2P45

1 2 3

0 1 2

7

WC SCL

47K

10K

3P46

B

100R

5

SDA

FP0B

3P40

6

ADR

3P47

EDID1 IP5K

9P43 RES

8

Φ

(256x8) EEPROM

3P43 100R

1P36

100R

3P33

CRX-HOTPLUG

BIN-5V

20

HDMI CONNECTOR 1

3P3A

HDMI CONNECTOR 2

C

7P44 M24C02-WDW6

DC1R019WBER220

100R

5

A

6P41 RES

BRXCPCEC-HDMI BRX-DDC-SCL BRX-DDC-SDA

23 22 25 24 26

PBRX-DDC-SDA

+5V-CON

ITV PROVISION

C 5 6

9P63-4 9P63-3

4 3

BRXCBRXC+

7 8

9P63-2 9P63-1

2 1

BRX0BRX0+

5 6

9P64-4 9P64-3

4 3

BRX1BRX1+

7 8

9P64-2 9P64-1

2 1

BRX2BRX2+

IP4H

3P41

BRX-HOTPLUG

22R

IP4B

IP42

3P4A

7P41 BC847BW

HOT-PLUG

10K 10n

0 1 2

FP3K

+5V

2P4C

1 2 3

IP3L 7

WC

IP49

FP47

FP48 FP49 FP4A

IP4C

30R BAV70W

1P4V

FP35

Φ

(256x8) EEPROM

47K 3P3B

EDID NVM HDMI 2

CRX-HOTPLUG

EDID2

3P3D

CIN-5V

8

7P31 M24C02-WDW6

9P31 RES

CRX-DDC-SCL CRX-DDC-SDA

BRX0BRXC+

FP46

PBRX-DDC-SCL 3P4C 100R

4

100n

2P38

100n

6P30 RES IP3J

9P42

BIN-5V BRX1BRX0+

0001-0015

IP3F

+5V

20 23 22 25 24 26

2P37

1P3V

1P3Z

1P3Y

BAV70W

CRXCPCEC-HDMI

FP32 FP33

100R

5P32

PCRX-DDC-SDA

30R

CRX0CRXC+

FP30 FP31

3P3G

5P41

RES 3P6C

21

D

BIN-5V 10K 4K7

6P65

RES 3P45

1759392-1

BAT54

IP3B 9P30

CIN-5V

CRX1CRX0+

PCRX-DDC-SCL

100R

IP3H 0001-0015 1P4Y

3P3F

IP4D

3P48 100R

1K0

CRX-DDC-SDA

BRX-DDC-SDA

1P4W

CRX-DDC-SCL

CRX2CRX1+

BRX-DDC-SCL

BRX2BRX1+

3P4B

FP34

CRX2+

4

B

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 21

IP3E

BRX2+

0001-0015 1P4Z

1P33

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 21

47K 3P44

B08B A

14

+5V-CON 1P34

47K

100R

DC1R019WBER220

3P3S

MPEG-TXCMPEG-TXC+ MPEG-TX0MPEG-TX0+ MPEG-TX1MPEG-TX1+ MPEG-TX2MPEG-TX2+

IP3Q IP3M 7P30 BC847BW

3P3M

HOT-PLUG

10K 2P3M

1P3Q

1K0

3P3N

22R

1 2 3 4 1 2 3 4

9P61-1 9P61-2 9P61-3 9P61-4 9P62-1 9P62-2 9P62-3 9P62-4

DRXCDRXC+ DRX0DRX0+ DRX1DRX1+ DRX2DRX2+

8 7 6 5 8 7 6 5

2P4M

100n

3P4N

10K

100n

2P4L

1P4T

5

47K

3P4Q

47K

3P4P

9P4L RES

8

SDA

FP41

F

3P4W 100R

3P4S 100R

3P4R

IP4P FP42 7P4P BC847BW

3P4Z

HOT-PLUG

10K

10K

FOR 3X HDMI VERSION

+5V-CON

IP64 CEC-HDMI

+5V-CON

PESD5V0S1BA

RES 3P6E

1K0

RES 3P6F

100R 9P4M

PCEC-HDMI 100p

7P4Q BSH111

1P45

5

IP4Y

4

1 2 3

9P4J 2

3

H

BM03B-SRSS-TBT

FOR IKEA PROJECT 1

100K

RES 2P61

IP4U

FP63

100R

9P65

RES 9P4K AUDIO-IN4-R

RES 3P68

RES 6P62

1n0

RES

IP67

3P67

1P6Z

2P69

FP61 1P6A MSJ-035-29D PPO (PHT) 1 3 2

G

RES 3P6D

BAT54

6P64

ADR

6

DIN-5V

10K 4K7

IP4M WC SCL

22R

FOR MPEG4 BOLT-ON

RES 3P6B

RES 3P3P

0 1 2

DRX-HOTPLUG

AIN-5V

H

EDID3 7

10n

100R

10n

3P3L

ARX-HOTPLUG

FP4Q

1 2 3

Φ

(256x8) EEPROM

HDMI CONNECTOR 3

HDMI CONNECTOR SIDE

G

EDID NVM HDMI 3

DRX-HOTPLUG

20

3P3U

E

IP4Q

IP33

2P4P

5

+5V

1P4U

SDA

BAV70W

7P38 M24C02-WDW6

6P66

ADR

6

DIN-5V

PDRX-DDC-SDA

6P4L RES

DRX-DDC-SCL DRX-DDC-SDA

FP4S FP4N

100R

5P4L

BAT54

WC SCL

9P4N

DRXCPCEC-HDMI FP4L FP4T

PDRX-DDC-SCL 3P4M

30R

DRX0DRXC+

23 22 25 24 26

FP0V

4

10029449-002

0 1 2

FP4P

FP4M

IP3K

DIN-5V

1K0

1 2 3

47K 3P3T

EDID NVM HDMI SIDE

ARX-HOTPLUG

FP3W

(256x8) EEPROM

EDID SIDE IP3T 7

3P3V

AIN-5V

Φ

10K

7P36 M24C02-WDW6

3P3W

ARX-DDC-SCL ARX-DDC-SDA

9P3L RES

IP5R

DRX1DRX0+

IP4L

3P4L 100R

4

100n

2P3L

6P3M RES

20 23 22

100n

+5V

2P3K

1P3T

1P3S

BAV70W

ARXCPCEC-HDMI

FP3T FP3U

PARX-DDC-SDA IP3P

30R

ARX0ARXC+

FP3R FP3S

100R

DRX-DDC-SDA

3P4T

9P3K

AIN-5V

ARX1ARX0+

3P3Z

5P3K

DRX-DDC-SCL

DRX2DRX1+

1P4S

100R IP3D

DRX2+

4K7

ARX-DDC-SDA

PARX-DDC-SCL

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 21

RES 3P4U

FP3V

ARX2ARX1+

3P3Y

8

F

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 21

ARX-DDC-SCL

1P3R

E

ARX2+

IP3N

1P4R

1P35

PESD5V0S1BA

9P4P

+3V3-STANDBY

100p

RES 2P68

I

RES 7P4R BC847BW

AUDIO-IN4-L

1K0 RES 3P66

RES 6P61

1P6Y

1n0

2P66

IP32

3P65

FP62

100K

I

RES 3P6G

IP5Z

180K

H_17650_041.eps 181207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

14

1P32 A8 1P33 A1 1P34 E8 1P35 E1 1P36 C8 1P3Q G4 1P3R E3 1P3S E3 1P3T E4 1P3V A3 1P3W C4 1P3Y A3 1P3Z A3 1P45 H14 1P4R E10 1P4S E10 1P4T E11 1P4U G11 1P4V D11 1P4W A10 1P4Y A10 1P4Z A10 1P6A H1 1P6Y I1 1P6Z I1 2P37 A5 2P38 A5 2P3A C5 2P3K E5 2P3L E5 2P3M G5 2P45 A12 2P46 A12 2P4C D12 2P4L E12 2P4M E12 2P4P G12 2P61 I3 2P66 I1 2P68 I3 2P69 I1 3P33 C4 3P34 C6 3P35 C3 3P36 D3 3P3A B5 3P3B B6 3P3C B5 3P3D B6 3P3E B5 3P3F A6 3P3G A6 3P3L G4 3P3M G6 3P3N G3 3P3P H3 3P3S G5 3P3T F6 3P3U F5 3P3V F6 3P3W F5 3P3Y E6 3P3Z E6 3P40 B12 3P41 C11 3P43 B13 3P44 B13 3P45 D10 3P46 B13 3P47 B12 3P48 A13 3P4A C13 3P4B D10 3P4C A13 3P4L E13 3P4M E13 3P4N F12 3P4P F13 3P4Q F13 3P4R G11 3P4S F12 3P4T G10 3P4U H10 3P4W F12 3P4Z G13 3P65 I2 3P66 I3 3P67 H2 3P68 I3 3P6A D6 3P6B H6 3P6C D13 3P6D G13 3P6E H8 3P6F H10 3P6G I8 5P32 A5 5P3K E5 5P41 A12 5P4L E12 6P30 B4 6P3M F4 6P41 A11 6P4L E11 6P61 I2 6P62 I2 6P63 D3 6P64 H4 6P65 D10 6P66 H11 7P30 G5 7P31 B4 7P32 C5 7P36 F4 7P38 F11 7P41 C12

7P44 B11 7P4P G12 7P4Q H9 7P4R I9 9P30 A4 9P31 B5 9P3K E4 9P3L F5 9P42 A11 9P43 B12 9P4J I10 9P4K H9 9P4L F12 9P4M I9 9P4N E11 9P4P I8 9P61-1 G9 9P61-2 G9 9P61-3 G9 9P61-4 G9 9P62-1 G9 9P62-2 G9 9P62-3 G9 9P62-4 G9 9P63-1 C9 9P63-2 C9 9P63-3 C9 9P63-4 C9 9P64-1 D9 9P64-2 D9 9P64-3 D9 9P64-4 D9 9P65 H14 FP0B B12 FP0V F5 FP30 B1 FP31 B1 FP32 B1 FP33 B1 FP34 B1 FP35 B1 FP3K B5 FP3R F1 FP3S F1 FP3T F1 FP3U F1 FP3V F1 FP3W F1 FP41 F12 FP42 G12 FP46 A9 FP47 B8 FP48 B8 FP49 B9 FP4A B9 FP4C B8 FP4L F8 FP4M E10 FP4N F8 FP4P F8 FP4Q F8 FP4S F8 FP4T F8 FP61 H1 FP62 I1 FP63 H13 IP32 I3 IP33 F11 IP3A C5 IP3B A4 IP3D E4 IP3E A6 IP3F A7 IP3G C5 IP3H A11 IP3J B4 IP3K E11 IP3L B5 IP3M G5 IP3N E6 IP3P E7 IP3Q G5 IP3T F5 IP42 C13 IP49 A12 IP4B C12 IP4C A14 IP4D A13 IP4H C11 IP4L E13 IP4M F12 IP4P G12 IP4Q E14 IP4U I9 IP4Y I10 IP5K B12 IP5R F4 IP5Z I9 IP64 H14 IP67 H3

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

91

SSB: Digi IO: HDMI MUX

1

B08C

3

2

4

5

7

6

8

9

DIGI IO: HDMI MUX

B08C A +5V-MUX

82

D3

29 95

PCRX-DDC-SCL PCRX-DDC-SDA

81 80 79 78

PDRX-DDC-SCL PDRX-DDC-SDA

FP71

5P75

+3V3-ANA

AVEE

+5V-CON

FP73

220R

IP70

5P76

9P71 FP4B

F

FP72

+5V-MUX

220R

BAV70W +5V 6P70 RES

3139 123 6341.1

1

E

+3V3-DIG 220R

2

3

4

5

1n0

D0 D1 AUX D2 D3

D2

86 85 84 83

1n0 2P7J

D1

FP70

100n

D0

5P74 +3V3

2P7L

C0 C1 AUX C2 C3

PBRX-DDC-SCL PBRX-DDC-SDA

100n 2P7H

C3

94 93 92 91

2P7G

B0 B1 B2 B3

1n0

C2

PARX-DDC-SCL PARX-DDC-SDA

1n0

AUX

C1

99 98 97 96

1n0 2P7C

A0 A1 A2 A3

C0

DVEE

F

AUX

D

DDC-SCL DDC-SDA

2P7F

B3

90 89 88 87

100n

B2

COM0 COM1 COM2 COM3

RX2+ RX2-

1n0 2P7B

AUX

43 42

2P7E

IN IP IN IP IN IP IN IP

B1

RX1+ RX1-

1n0 2P7A

52 53 55 56 58 59 61 62

DRXCDRXC+ DRX0DRX0+ DRX1DRX1+ DRX2DRX2+

OP3 ON3

B0

40 39

100n 2P79

2K2

IN IP IN IP IN IP IN IP

A3

RX0+ RX0-

100n 2P76

CRXCCRXC+ CRX0CRX0+ CRX1CRX1+ CRX2CRX2+ IP7E 3P77

OP2 ON2

37 36

100K

64 65 67 68 70 71 73 74

A2

RXC+ RXC-

1n0

2K2

IN IP IN IP IN IP IN IP

OP1 ON1

A1

34 33

100n 2P75

2 3 5 6 8 9 11 12

OP0 ON0

A0

1n0 3P7A

100K

BRXCBRXC+ BRX0BRX0+ BRX1BRX1+ BRX2BRX2+ IP7D 3P75

IN IP IN IP IN IP IN IP

4 10 16 25 51 60 66 72

14 15 17 18 20 21 23 24

100n 2P78

2K2

ARXCARXC+ ARX0ARX0+ ARX1ARX1+ ARX2ARX2+ IP7C 3P73

C

100n 2P74

0 PP_PRE 1

100 48 76 77

100n 2P7D

OTO OCL PP EN EQ

10u

0 PP_CH 1

35 41

2P72

75 63 54 22 13 1

VTTO

10u

IP7B 3P71

SCL I2C SDA

+3V3-ANA

2P73

45 46

C

E

30 31

VTTI

2P77

100R

49 50

Φ

0 1 I2C_ADDR 2

7 19 57 69

2P70

3P79

B

AMUXVCC

2P71

100R SDA-SSB

26 27 28

AVCC

DVCC RESET

220u 25V

3P76

SCL-SSB

44

7P70 AD8197A-ASTZ

2P7K

IP7A 9P70

RESET-SYSTEM

D

47 38 32

B

10K RES

3P78

+3V3-DIG

+3V3-ANA

A

H_17650_042.eps 140108

6

7

8

9

2P70 E6 2P71 F6 2P72 E7 2P73 F7 2P74 F7 2P75 F7 2P76 F7 2P77 F7 2P78 E7 2P79 F7 2P7A F8 2P7B F8 2P7C F8 2P7D F7 2P7E E8 2P7F E8 2P7G F8 2P7H F9 2P7J F9 2P7K F6 2P7L F9 3P71 C1 3P73 D1 3P75 D1 3P76 B1 3P77 E1 3P78 B1 3P79 C1 3P7A F7 5P74 E6 5P75 E6 5P76 F6 6P70 F6 7P70 B3 9P70 B1 9P71 F5 FP4B F5 FP70 E7 FP71 E7 FP72 F7 FP73 F2 IP70 F6 IP7A B1 IP7B C1 IP7C D1 IP7D D1 IP7E E1

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

92

SSB: Digi IO: PCMCIA Interf. & Buffer 3

4

5

6

DIGI IO: PCMCIA INTERFACE & BUFFER

B09A

7

8

11

12

13

B09A

+3V3_BUF 60R

IM2N

5N02

2N20

A

+3V3

IN29

3N12 10K

CA-CD1

IN03

3N13 10K

CA-CD2

IN10

3N14 10K

IN11

3N15 10K

IN2A

3N19 10K

3N26-3 10K 6 3

IN2F

3N26-2 10K 7 2

MDO2 IN2G

3N26-1 10K 8 1

IN2H

3N27-4 10K 5 4

IN2J

3N27-3 10K 6 3

IN2K

3N27-2 10K 7 2

IN2L

3N27-1 10K 8 1

MDO3 MDO4 MDO5 MDO6

CA-MOCLK_VS2

PCI-AD14 PCI-AD13 PCI-AD12 PCI-AD11

2 4 6 8

CA-ADDEN

7N12-2 74LVC244APW 19

3N18-1 1

EN

7N10-2 SN74LVC125APW

3N23 10K

6 4

20

PCMCIA-A14 PCMCIA-A13 PCMCIA-A12 PCMCIA-A11

3N18-4 4

5

47R

D

EN

17 15 13 11

PCI-AD8 PCI-AD9 PCI-AD10

5

MOSTRTA

18 16 14 12

100n

14

2N16

C

100n

EN

+3V3_BUF

3 1

20 10

47R

CA-ADDEN

3 5 7 9

PCMCIA-A8 PCMCIA-A9 PCMCIA-A10

IN22

CA-MOSTRT

EN

7N10-3 SN74LVC125APW

E

9

MOVALA

8 10

3N18-3 3

6

47R

CA-MOVAL

EN

7

MDO7

8

2N22 7N12-1 74LVC244APW 1

2

MOCLKA

3N26-4 10K 5 4

IN2E MDO1

CA-MDO1 CA-MDO2 CA-MDO3 CA-MDO4 CA-MDO5 CA-MDO6 CA-MDO7

7N10-4 SN74LVC125APW

11

1

EN 18 16 14 12

CA-CE1 CA-CE2 CA-OE CA-WE

F

10

7

EN

7N14-1 74LVC244APW

2 4 6 8

PCI-AD17 PCI-AD16 PCI-CBE2 PCI-CBE1

12 13

IN20

CA-ADDEN

100n

IN2D MDO0

10K

CA-MDO0

47R 47R 47R 47R 47R 47R 47R

2N21

MOVALA

3N25

47R

6 7 8 5 6 7 8

3 2 1 4 3 2 1

20

PCMCIA-VCC-VPP

IN26

10K

5

3N16-3 3N16-2 3N16-1 3N17-4 3N17-3 3N17-2 3N17-1

CA-MICLK CA-MIVAL CA-MISTRT

9N11-1 8 9N11-4 5 9N11-3 6

1 4 3

TSI0-ST-CLK TSI0-ST-VAL TSI0-ST-STRT

CA-MDI0 CA-MDI1 CA-MDI2 CA-MDI3

9N10-1 9N10-4 9N10-3 9N10-2

8 5 6 7

1 4 3 2

TSI0-ST-D0 TSI0-ST-D1 TSI0-ST-D2 TSI0-ST-D3

CA-MDI4 CA-MDI5 CA-MDI6 CA-MDI7

9N12-4 9N12-3 9N12-1 9N12-2

5 6 8 7

4 3 1 2

TSI0-ST-D4 TSI0-ST-D5 TSI0-ST-D6 TSI0-ST-D7

7N14-2 74LVC244APW 19

CA-ADDEN

20

IN2C

3N24

3N16-4 4

3 4 5 6 7 8 9

3N21

IN2B MOSTRTA

7N10-1 SN74LVC125APW

2

7

CA-VS1 MOCLKA

2

20

IRQ-CA

1

10

3N11 10K

17 16 15 14 13 12 11 10

18

MDO1 MDO2 MDO3 MDO4 MDO5 MDO6 MDO7

9N02

19

14

10K

MDO0

IN27

PCMCIA-A0 PCMCIA-A1 PCMCIA-A2 PCMCIA-A3

7

PCMCIA-VCC-VPP

IN18

3N10 10K

IN28

CA-INPACK

1

3EN1 3EN2 G3

+3V3_BUF

3 5 7 9

10

PCMCIA-VCC-VPP

20

7N09 74LVC245A

17 15 13 11

PCI-AD0 PCI-AD1 PCI-AD2 PCI-AD3

100n

B

EN

EN

17 15 13 11

PCI-AD23 PCI-AD22 PCI-AD19 CA-WAIT

3 5 7 9

CA-IOWR CA-IORD CA-REG PCI-AD18

G

10

G

10

2N15

CA-WAIT

CA-MIVAL CA-MICLK PCMCIA-A12 PCMCIA-A7 PCMCIA-A6 PCMCIA-A5 PCMCIA-A4 PCMCIA-A3 PCMCIA-A2 PCMCIA-A1 PCMCIA-A0 PCMCIA-D0 PCMCIA-D1 PCMCIA-D2 3N20

7N11-2 74LVC244APW 19

CA-ADDEN

10K

PCMCIA-D3 PCMCIA-D4 PCMCIA-D5 PCMCIA-D6 PCMCIA-D7 CA-CE1 PCMCIA-A10 CA-OE PCMCIA-A11 PCMCIA-A9 PCMCIA-A8 PCMCIA-A13 PCMCIA-A14 CA-WE IRQ-CA

9N01

F

PCMCIA-A7 PCMCIA-A6 PCMCIA-A5 PCMCIA-A4

20

60R

ROW_B 1N00-B GND3 35 CD1 CA-CD1 36 D11 MDO3 37 D12 MDO4 38 D13 MDO5 39 D14 MDO6 40 D15 MDO7 41 CE2 CA-CE2 42 VS1 CA-VS1 43 IORD CA-IORD 44 IOWR CA-IOWR 45 A17 CA-MISTRT 46 A18 CA-MDI0 47 A19 CA-MDI1 48 A20 CA-MDI2 49 A21 CA-MDI3 50 VCC2 51 PCMCIA-VCC-VPP VPP2 52 A22 CA-MDI4 53 A23 CA-MDI5 54 A24 CA-MDI6 55 A25 CA-MDI7 56 VS2 MOCLKA 57 RESET CA-RST 58 WAIT CA-WAIT 59 INPACK CA-INPACK 60 REG CA-REG 61 BVD2|SPKR MOVALA 62 BVD1|STSCHG MOSTRTA 63 D8 MDO0 64 D9 MDO1 65 D10 MDO2 66 CD2 CA-CD2 67 GND4 68 FN05 71 72

E

18 16 14 12

14

D

EN

IM2Q

5N04

14

22u

2N05

C

2 4 6 8

10u

PCMCIA-VCC-VPP +T 0R4

PCI-AD7 PCI-AD6 PCI-AD5 PCI-AD4

+3V3 2N04

3N09 +5V

10u

2N03

(POD IS THE EQUIVALENT OF COMMON INTERFACE) CABLE CARD INTERFACE

CA-ADDEN

7N11-1 74LVC244APW 1

IM2P

5N03 +3V3 60R

ROW_A 1N00-A 10074595-050LF GND1 1 D3 2 D4 3 D5 4 D6 5 D7 6 CE1 7 A10 8 OE 9 A11 10 A9 11 A8 12 A13 13 A14 14 WE|P 15 RDY|BSY 16 VCC1 17 VPP1 18 A16 19 A15 20 A12 21 A7 22 A6 23 A5 24 A4 25 A3 26 A2 27 A1 28 A0 29 D0 30 D1 31 D2 32 WP|IOIS16 33 GND2 34 69 70

100n

10u

2N02

60R

POD : SUPPLY / CONTROL

B

10

IN2M

5N01 +3V3

A

9

10u

2

2N01

1

I

CA-MICLK-OUT CA-MIVAL-OUT CA-MISTRT-OUT

1 9N16-1 3 9N16-3 4 9N16-4

8 6 5

CA-MICLK CA-MIVAL CA-MISTRT

CA-MOCLK_VS2 CA-MOVAL CA-MOSTRT

4 2 1

9N15-4 9N15-2 9N15-1

5 7 8

TSI1-ST-CLK TSI1-ST-VAL TSI1-ST-STRT

CA-MDI0-OUT CA-MDI1-OUT CA-MDI2-OUT CA-MDI3-OUT

1 2 3 4

9N17-1 9N17-2 9N17-3 9N17-4

8 7 6 5

CA-MDI0 CA-MDI1 CA-MDI2 CA-MDI3

CA-MDO0 CA-MDO1 CA-MDO2 CA-MDO3

3 1 2 4

9N14-3 9N14-1 9N14-2 9N14-4

6 8 7 5

TSI1-ST-D0 TSI1-ST-D1 TSI1-ST-D2 TSI1-ST-D3

CA-MDI4-OUT CA-MDI5-OUT CA-MDI6-OUT CA-MDI7-OUT

1 2 3 4

9N18-1 9N18-2 9N18-3 9N18-4

8 7 6 5

CA-MDI4 CA-MDI5 CA-MDI6 CA-MDI7

CA-MDO4 CA-MDO5 CA-MDO6 CA-MDO7

4 2 3 1

9N13-4 9N13-2 9N13-3 9N13-1

5 7 6 8

TSI1-ST-D4 TSI1-ST-D5 TSI1-ST-D6 TSI1-ST-D7

IN24 CA-DATADI R

7N13 74LVC245A 1

IN25 CA-DATAEN

19

PCMCIA-D2

2

PCMCIA-D1 PCMCIA-D3 PCMCIA-D4 PCMCIA-D5 PCMCIA-D6 PCMCIA-D7 PCMCIA-D0

3 4 5 6 7 8 9

100n

CA-MICLK-OUT CA-MIVAL-OUT CA-MISTRT-OUT

3EN1 3EN2 G3

H 1

2

18

PCI-AD26

17 16 15 14 13 12 11

PCI-AD25 PCI-AD27 PCI-AD28 PCI-AD29 PCI-AD30 PCI-AD31 PCI-AD24

10

H

CA-MDI0-OUT CA-MDI1-OUT CA-MDI2-OUT CA-MDI3-OUT CA-MDI4-OUT CA-MDI5-OUT CA-MDI6-OUT CA-MDI7-OUT

20

1N01 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 22

2N23

10074595-050LF

I

21

1759392-1

FOR ITV

3139 123 6341.1 1

2

3

4

5

6

7

H_17650_043.eps 181207

8

9

10

11

12

13

1N00-A B2 1N00-B E2 1N01 H2 2N01 A7 2N02 A7 2N03 B7 2N04 B7 2N05 B1 2N15 B8 2N16 D8 2N20 A12 2N21 E12 2N22 C12 2N23 H12 3N09 B1 3N10 C5 3N11 C5 3N12 C5 3N13 C5 3N14 D5 3N15 D5 3N16-1 C8 3N16-2 C8 3N16-3 C8 3N16-4 C8 3N17-1 C8 3N17-2 C8 3N17-3 C8 3N17-4 C8 3N18-1 D8 3N18-3 E8 3N18-4 E8 3N19 D5 3N20 D3 3N21 E11 3N23 D11 3N24 D5 3N25 D5 3N26-1 E5 3N26-2 E5 3N26-3 E5 3N26-4 D5 3N27-1 E5 3N27-2 E5 3N27-3 E5 3N27-4 E5 5N01 A7 5N02 A7 5N03 A7 5N04 B7 7N09 B7 7N10-1 D8 7N10-2 D8 7N10-3 E8 7N10-4 F8 7N11-1 A11 7N11-2 B11 7N12-1 C11 7N12-2 D11 7N13 H12 7N14-1 E12 7N14-2 G12 9N01 F7 9N02 C8 9N10-1 G9 9N10-2 G9 9N10-3 G9 9N10-4 G9 9N11-1 G9 9N11-3 G9 9N11-4 G9 9N12-1 G9 9N12-2 H9 9N12-3 G9 9N12-4 G9 9N13-1 I9 9N13-2 I9 9N13-3 I9 9N13-4 I9 9N14-1 H9 9N14-2 H9 9N14-3 H9 9N14-4 H9 9N15-1 H9 9N15-2 H9 9N15-4 H9 9N16-1 H7 9N16-3 H7 9N16-4 H7 9N17-1 H7 9N17-2 H7 9N17-3 H7 9N17-4 H7 9N18-1 I7 9N18-2 I7 9N18-3 I7 9N18-4 I7 FN05 G3 IM2N A8 IM2P A8 IM2Q B8 IN03 C5 IN10 C5 IN11 D5 IN18 D3 IN20 F11 IN22 E11 IN24 H11 IN25 H11 IN26 D3 IN27 C5 IN28 C5 IN29 C5

IN2A D5 IN2B D5 IN2C D5 IN2D D5 IN2E D5 IN2F E5 IN2G E5 IN2H E5 IN2J E5 IN2K E5 IN2L E5 IN2M A7

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

93

SSB: Digi IO: Ethernet 1

2

3

4

5

7

6

8

9

10

11

12

13

DIGI IO: ETHERNET

B09B 5NA1

B09B

+3V3AN

FNAD

A 10n

10n 2NA5

10n 2NA4

10n 2NA3

2NA1

2NA2

A

30R

100u 16V

+3V3

+3V3AN

3NAD

RJ45

10n

10n 2NA9

10n 2NA8

2NA7

2NA6

100u 16V

B

49R9

+3V3DN 9NA2

FNAE

30R

49R9 3NAE

5NA2 +3V3

FNA4

TPOP TPOM TPIP

FNA6 FNA8

9NA1

TPIM GNDLAN

11 28 64 63

MII-TXD(0) MII-TXD(1) MII-TXD(2) MII-TXD(3)

D

3NA3

1K0

55 56 57 58 52

INAR

1K0 RES 3NAL

+3V3DN

3NAK 1K0

1K0

+3V3DN

3NAM

RES 3NAN

1K0

1K0

3NAP

RES 3NAQ

+3V3DN

+3V3DN

+3V3DN

F

TPIM

19 18

MII-MDC MII-MDIO MII-MDINT

42 41 61 5 4 3 2 1 6 INAZ

0 CFG 1

RIP

0 1 2 TXD 3 4 TX_ER

0 1 RXD 2 3 4 RX_ER

TX_EN TX_CLK

RX_CLK RX_DV

P RX N

TEST TEST_SE

FDE

3NAR

RES 3NAT

PWRDWN GNDE

1K0

1K0

RES 3NAU

3NAV

P N

R10 TR L LED C S

0 1 2 MF 3 4

1K0

27

TX

C IO MD INT

1K0

9NA3

9 13 16 17 22

39 45 62

IREF

25 40 50

NC

29

4K99 1%

C

100n

INAS

NC MII-RXD(0) MII-RXD(1) MII-RXD(2) MII-RXD(3) MII-RX-ER

49 48

MII-RXCLK MII-RX-DV TPOP

21 23

D

TPOM INAY INAT INAU INAV INAW

3NA6 3NA7 3NA9 3NAB 3NAC

1K5 270R 270R 1K5 1K5

RJLED_G RJLED_Y 3NA8 3NAA

1K5 1K5

+3V3DN

E

26 33 9NA4 8 30 31 32

+3V3 NC

GNDLAN

GNDA INAF GNDLAN

+3V3DN

GNDLAN

GNDLAN

47 46 44 43 51

38 37 36 35 34

FNAC

14

MII-CRS 3NA5

15

1K0

1K0

3NAW

RES 3NAY

2NAE

E

INAP INAQ

RESET

60

10u

1K0

100R

CRS

FNAA

MII-COL

100n 2NAG

3NAH

3NA4

TRANSCEIVER

X2

59

1n0 2NAF

+3V3DN

54 53

MII-TXEN MII-TXCLK TPIP

RES 3NAJ

COL

ETHERNET

YELLOW 11

B FNAB

2R2

NC FNAF

LAN-RST

X1

GREEN 9 12

1840419-1

GNDLAN GNDLANGNDLANGNDLANGNDLAN

VCCA

3NB3

12

Φ

7 10 14 20 24

PHY-CLK

VCCE

10

13

100n 2NAD

10K 7NA1 E-STE100P

3NA2

C

10p 2NAC

+3V3AN

+3V3DN

10p 2NAB

2NAA

+3V3DN

1NA1 1 FNA5 2 3 4 FNA7 5 6 FNA9 7 NC 8

F INAK

3NB4

INAM

22K

7NA2-5 74HCU04PW 11

7NA2-3 74HCU04PW 5

1

1

10

7NA2-4 74HCU04PW 9

6

7NA2-6 74HCU04PW 13

4

1

3NB6

SPDIF-IN1

68R

G 8

1

12

7

7

1

INAN

14

7NA2-2 74HCU04PW 3

2

7

G

100n

1

7

2NAH

14

INAG

7

9NA6

14

SPDIF-IN

14

1K0

7NA2-1 74HCU04PW 1

7

1K0

9NA5

14

3NB1

SPDIF-IN-MHP

14

1K0 RES 3NB2

75R

1K0

3NB5

+3V3DN

RES

H

H

H_17650_044.eps 181207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

1NA1 B11 2NA1 A1 2NA2 A2 2NA3 A2 2NA4 A2 2NA5 A2 2NA6 B1 2NA7 B2 2NA8 B2 2NA9 B2 2NAA C9 2NAB C9 2NAC C10 2NAD C10 2NAE F9 2NAF F9 2NAG F9 2NAH G9 3NA2 C4 3NA3 D4 3NA4 D4 3NA5 C6 3NA6 E6 3NA7 E6 3NA8 E7 3NA9 E6 3NAA E7 3NAB E6 3NAC E6 3NAD B9 3NAE B9 3NAH E1 3NAJ E1 3NAK E1 3NAL E1 3NAM E1 3NAN E1 3NAP E1 3NAQ E1 3NAR F1 3NAT F1 3NAU F1 3NAV F1 3NAW F1 3NAY F1 3NB1 G1 3NB2 G1 3NB3 F9 3NB4 F10 3NB5 G9 3NB6 G12 5NA1 A1 5NA2 B1 7NA1 C4 7NA2-1 F10 7NA2-2 F11 7NA2-3 H10 7NA2-4 G11 7NA2-5 G10 7NA2-6 H11 9NA1 B2 9NA2 B10 9NA3 F4 9NA4 E10 9NA5 F8 9NA6 G8 FNA4 B10 FNA5 B10 FNA6 B10 FNA7 B10 FNA8 B10 FNA9 B10 FNAA B11 FNAB B12 FNAC B12 FNAD A2 FNAE B2 FNAF C4 INAF F9 INAG G9 INAK F10 INAM F11 INAN F12 INAP E1 INAQ E1 INAR D4 INAS C6 INAT E6 INAU E6 INAV E6 INAW E6 INAY E6 INAZ E4

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

94

SSB: Digi IO: Class D 1

2

B10A

3

4

5

6

7

8

9

10

11

12

13

CLASS-D

B10A

A

A

+5V

TO LED PANEL

1D10

LED1 KEYBOARD

C

100R 100R 30R 100R

100p

100p

100p

100p

9D0A 11 10

2D22

2D23

100p

100p

2D20

2D21 100p

100p

100p

2D18

2D19

100p

2D5E

2D5C

2D5B

2D5A

FD19

10u

-AUDIO-POWER

10R

3D15

ID13

2D11

5D15

12V2

B

VSSA -12V2

100n

VDDA

ID21 1 2 3 4 5 6 7 8 9

GNDSND 5D11

30R

ID18

GNDSND 5D10

VDD

2D16 220u 25V

30R

ID17

GNDSND

12V2

VSS -12V2

2D17 220u 25V

GNDSND

C GNDSND

BM09B-SRSS-TBT

GNDSND

ID16

1n0

3D11 3D12 5D16 ID14 3D16 ID15 9D10

10R

2D14

ID11 ID12

RC LED2

FD10 FD11 FD12 FD13 FD14 FD15 FD16 FD17

100R

1n0

3D10

2D12

ID10 LIGHT-SENSOR

3D14

5D14

FD20

100n

10u

+AUDIO-POWER

2D10

+3V3-STANDBY

B

GNDSND

GNDSND

GNDSND

D

D

1D11 VDD

ID51

EMC 2D51 1n0

DREF

STAB2

21 3V9 25

2D44 ID36 2D45 ID38

15n

GNDSND

15n

ID39

470n 2D40 470n

2D41 1n0

5D13 22u

3D29 10R

ENGAGE

TEST CGND VSSA VSSP

7D11 BC857BW

ID40 AUDIO-PROT

24 -1V3 ID43

POWERUP

47K

28 8V9

2D49 1n0

2D48 100n VSS

VSSD|HW

VSSA

F

+3V3

3D28

19

2D38 1n0

ID45 7D12 BC847BW

ID49 2D53 1n0

(DC-DC) G

ID47

3D36 220K 3D38 220K

FD29 10K

STAB1

2D37 1n0

3D35

HVPREF

LEFT + GNDSND GNDSND RIGHT -

1735446-4 30

47K

BOOT2

1 2 3 4

3D33

BOOT1

OSCIO

GNDSND

220n

OSCREF

47K

3D41

10K

22K

3D39

10K

VDDA 2D52

7D13 BC847BW

AUDIO-MUTE

RESERVED

+3V3

3D40

3D37

HVP2

ID30

GNDSND

10u

G

INREF

4 2V6

EMC 2D35 FD27 1n0

1u0

100n 4K7

HVP1

ID28

FD22 FD23 FD24 FD26

2D54

3D34

DIAG

IN2N

22

2D31 1n0

2D5F

2D47

VSSA FD30

11 -8V2 ID41 18 ID42 4V7 5 3V2 ID46 6 -2V6 ID48 13 470n

MUTE

31

IN2P

ID25

2D46

GNDSND 6D01

BAS316

NC

OUT2

27

ID44

DETECT1

OUT1

220n

VSSA

1u0 2D42 2D43 3D27

E

22R

220n

2D50

2D39

1735446-3

TO SPEAKERS

ID50

10K

3D24 12K

3D18

1D12

VDDP

22R

*

3D25

ID32

ID20

2D29 1n0

3D42

-AUDIO-R

*

ID31

IN1N

GNDSND 2D25

GNDSND

ID24

GNDSND

FD28

1u0 1u0

Φ

CLASS D POWER AMPLIFIER

IN1P

GND_HS

F

* *

2 -2V8 3 ID29 -2V8 15 2D36 -2V8 220p 14 ID33 -2V8 ID34 12 100n 100n -7V6 ID35 10 39K

GNDSND

ID19

220n

1 16 17 32

FD25

2D32 220p

ID27

2D24

3D19 10R

29 20

8 VDDA

*

3D21 12K

33

ID26 10K 2D33 2D34 10K

1u0

26 23

3D22 3D23

7D10 TDA8932BTW

ID23 2D30

7

ID22 10K

9

+AUDIO-L

*

3D20

5D12 22u

2D28

GNDSND FD21

1 2 3 100n

100n

E

2D26

*

3D20 3D21 3D22 3D23 3D24 3D25

PDP 6K8 22K 6K8 6K8 22K 6K8

2D27

VDDA LCD 10K 12K 10K 10K 12K 10K

GNDSND

7D15 BC847BW

3D44 10K

7D16 PDTC114ET

STANDBY

GNDSND

GNDSND

2D55 2D56

10K 12K

1X09 EMC HOLE

3D43

3D45

H

A-STDBY

GNDSND

VSSA

ID52 GNDSND

100n 100n

VSS ID53

GNDSND GNDSND

DC-DETECTION

H

GNDSND GNDSND GNDSND

GNDSND

H_17650_045.eps 181207

3139 123 6341.1 1

2

3

4

5

6

7

8

9

10

11

12

13

1D10 B5 1D11 E12 1D12 F12 2D10 B8 2D11 B12 2D12 C7 2D14 C10 2D16 C9 2D17 C12 2D18 C3 2D19 C3 2D20 C3 2D21 C4 2D22 C4 2D23 C4 2D24 E10 2D25 E10 2D26 E6 2D27 E7 2D28 E9 2D29 E10 2D30 E5 2D31 F9 2D32 F6 2D33 F5 2D34 F5 2D35 F8 2D36 F6 2D37 F9 2D38 F9 2D39 F5 2D40 F9 2D41 F10 2D42 F5 2D43 F5 2D44 F8 2D45 F8 2D46 G10 2D47 G5 2D48 G7 2D49 G9 2D50 G10 2D51 G6 2D52 G5 2D53 G9 2D54 H11 2D55 H7 2D56 H7 2D5A C2 2D5B C2 2D5C C2 2D5E C2 2D5F H11 3D10 B3 3D11 C3 3D12 C3 3D14 B8 3D15 B11 3D16 C3 3D18 E11 3D19 E9 3D20 E4 3D21 F5 3D22 F4 3D23 F4 3D24 F5 3D25 F4 3D27 F5 3D28 F12 3D29 G9 3D33 G12 3D34 G5 3D35 G12 3D36 G11 3D37 G2 3D38 G11 3D39 G2 3D40 G4 3D41 G4 3D42 G10 3D43 H4 3D44 H5 3D45 H4 5D10 C11 5D11 C8 5D12 E9 5D13 F9 5D14 B8 5D15 B11 5D16 C3 6D01 G4 7D10 E6 7D11 F12 7D12 G11 7D13 G3 7D15 G12 7D16 H4 9D0A C5 9D10 C3 FD10 B4 FD11 C4 FD12 C4 FD13 C4

FD14 C4 FD15 C4 FD16 C4 FD17 C4 FD19 B11 FD20 B7 FD21 E4 FD22 F12 FD23 F12 FD24 F12 FD25 F4 FD26 F12 FD27 F7 FD28 F4 FD29 G12 FD30 G4 ID10 B2 ID11 C2 ID12 C2 ID13 B12 ID14 C2 ID15 C2 ID16 B9 ID17 C12 ID18 C9 ID19 E10 ID20 E11 ID21 B8 ID22 E4 ID23 E5 ID24 E9 ID25 F7 ID26 F4 ID27 F5 ID28 F7 ID29 F5 ID30 F9 ID31 F4 ID32 F4 ID33 F5 ID34 F6 ID35 F6 ID36 F7 ID38 F7 ID39 G7 ID40 G12 ID41 G6 ID42 G6 ID43 G9 ID44 G10 ID45 G11 ID46 G6 ID47 G11 ID48 G6 ID49 G9 ID50 G10 ID51 G2 ID52 H4 ID53 H5

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

95

SSB: SRP List Explanation Example Net Name

Diagram

+12-15V AP1 (4x) +12-15V AP4 (4x) +12-15V AP5 (12x) +12-15V AP6 (4x) +12-15V AP7 (8x) +12V AP1 (4x) +12V_NF AP1 (2x) +12VAL AP1 (2x) +25VLP AP1 (4x) +25VLP AP2 (1x) +3V3-STANDBY AP5 (3x) +400V-F AP1 (2x) +400V-F AP2 (2x) +400V-F AP3 (2x) +5V2 AP1 (6x) +5V2 AP2 (1x) +5V2-NF AP1 (1x) +5V2-NF AP2 (1x) +5V-SW AP1 (6x) +5V-SW AP2 (1x) +8V6 AP1 (3x) +AUX AP1 (2x) +AUX AP2 (1x) +DC-F AP1 (2x) +DC-F AP3 (2x) +SUB-SPEAKER AP5 (1x) +SUB-SPEAKER AP6 (2x) -12-15V AP1 (4x) -12-15V AP4 (6x) -12-15V AP5 (14x) -12-15V AP6 (6x) -12-15V AP7 (8x) AL-OFF AP1 (2x) AUDIO-L AP4 (1x) AUDIO-L AP5 (1x) AUDIO-PROT AP5 (3x) AUDIO-R AP4 (1x) AUDIO-R AP5 (1x) AUDIO-SW AP5 (1x) AUDIO-SW AP7 (1x) BOOST AP1 (2x) CPROT AP4 (2x) CPROT AP5 (1x) CPROT-SW AP5 (1x) CPROT-SW AP6 (2x) -DC-F AP1 (2x) -DC-F AP3 (2x) DC-PROT AP1 (1x) DC-PROT AP5 (2x) DIM-CONTROL AP1 (2x) FEEDBACK+SW AP6 (2x) FEEDBACK-L AP4 (2x) FEEDBACK-R AP4 (2x) FEEDBACK-SW AP6 (2x) GND-AL AP1 (2x) GNDHA AP1 (40x) GNDHA AP2 (20x) GNDHA AP3 (2x) GNDHOT AP3 (2x) GND-L AP1 (2x) GND-L AP4 (4x) GND-L AP5 (34x) GND-LL AP4 (7x) GND-LL AP5 (1x) GND-LR AP4 (7x) GND-LR AP5 (1x) GND-LSW AP5 (1x) GND-LSW AP6 (15x) GND-S AP1 (11x) GND-SA AP4 (8x) GND-SA AP5 (2x) GND-SA AP6 (8x) GND-SA AP7 (6x) GNDscrew AP3 (2x) GNDscrew AP5 (2x) GND-SSB AP5 (3x) GND-SSP AP1 (51x) GND-SSP AP2 (15x) IN+SW AP6 (2x) IN-L AP4 (2x) IN-R AP4 (2x) IN-SW AP6 (2x) INV-MUTE AP4 (1x) INV-MUTE AP5 (1x) INV-MUTE AP6 (1x) LEFT-SPEAKER AP4 (1x) LEFT-SPEAKER AP5 (1x) MUTE AP4 (2x) MUTE AP5 (1x) MUTE AP6 (2x) ON-OFF AP1 (3x) OUT AP6 (1x) OUT AP7 (2x) OUTN AP6 (1x) OUTN AP7 (1x) POWER-GOOD AP1 (2x) POWER-OK-PLATFORM AP1 (2x) RIGHT-SPEAKER AP4 (1x) RIGHT-SPEAKER AP5 (1x) SOUND-ENABLE AP5 (3x) STANDBY AP1 (5x) STANDBY AP2 (1x) -SUB-SPEAKER AP5 (1x) -SUB-SPEAKER AP6 (2x) V-CLAMP AP1 (1x) V-CLAMP AP3 (2x)

1.1.

Personal Notes:

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

Outgoing 1.2.2.

+5V

Incoming

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

1.2.3.

signal_name

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

name

name

+5V

Power supply line.

name

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

E_06532_031.eps 230606

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

96

SSB: SRP List Part 1 Netname

Diagram

+12V +12V +12VD +12VD +12VD +12VD +12VD +12VD +12VF +12VF +12VF +12VFF +1V +1V +1V2DVB +1V2-PNX8541 +1V2-PNX8541 +1V2-PNX8541 +1V2-PNX8541 +1V2-PNX8541 +1V2-PNX8541 +1V2-STANDBY +1V2-STANDBY +1V2-STANDBY +1V4-PNX5050 +1V4-PNX5050 +1V4-PNX5050 +1V5 +1V5-P3 +1V5-PLL +1V5-RX +1V5-TX +1V8DVB +1V8-PNX8541 +1V8-PNX8541 +1V8-PNX8541 +1VTMDS +2V5 +2V5 +2V5 +2V5 +2V5-CLKGENA +2V5-DDR +2V5-DDR +2V5-P3 +2V5-PF +2V5-PLL +2V5-PNX5050 +2V5-PNX5050 +2V5-REF +2V5-REF +33VTUN +33VTUN +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3 +3V3_BUF +3V3-10023 +3V3AN +3V3-ANA +3V3-D +3V3-D +3V3-DIG +3V3DN +3V3DVB +3V3-EXT +3V3-EXT +3V3F +3V3F +3V3F +3V3F +3V3-NAND +3V3-P3 +3V3-PER +3V3-PER +3V3-PER +3V3-STANDBY +3V3-STANDBY +3V3-STANDBY +3V3-STANDBY +3V3-STANDBY +3V3-STANDBY +3V3-STANDBY +3V3-STANDBY +3V3-STANDBY +3V3-STANDBY +3V3TMDS +3V3TMDS +5V +5V +5V +5V +5V +5V +5V +5V +5V +5V +5V +5V +5V-CON +5V-CON +5V-MUX +5V-TCON +5V-TCON +5V-TUN +5V-TUN +8V2-PAS

B02A (1x) B02B (3x) B02B (2x) B03A (1x) B04A (2x) B05D (1x) B06B (2x) B07B (1x) B02A (2x) B02B (1x) B02C (1x) B02C (2x) B02B (1x) B03H (9x) B03B (7x) B02A (3x) B02B (1x) B03B (1x) B04A (1x) B04E (1x) B04P (8x) B02A (1x) B02B (1x) B04P (1x) B02C (2x) B04A (1x) B05D (3x) B06C (2x) B06C (2x) B06C (2x) B06C (2x) B06C (2x) B03C (4x) B04G (7x) B04P (2x) B05D (1x) B03H (2x) B02B (1x) B03D (1x) B03F (1x) B03H (2x) B03H (2x) B05B (7x) B05D (2x) B06C (2x) B06C (4x) B06C (2x) B05B (1x) B05D (1x) B02B (2x) B05D (2x) B02B (1x) B03A (1x) B02A (1x) B02B (1x) B03B (1x) B03C (2x) B03D (7x) B03E (7x) B03H (2x) B03I (5x) B04A (3x) B04C (1x) B04L (1x) B04M (1x) B04P (1x) B04Q (1x) B05A (1x) B05C (2x) B05D (2x) B06B (10x) B06C (8x) B07A (2x) B07B (1x) B07D (5x) B08A (7x) B08C (1x) B09A (4x) B09B (3x) B10A (2x) B09A (3x) B03C (2x) B09B (3x) B08C (3x) B05A (11x) B05D (3x) B08C (2x) B09B (12x) B03B (8x) B04C (1x) B07D (2x) B02A (2x) B02B (1x) B04G (1x) B05D (1x) B04Q (5x) B06C (7x) B04C (2x) B04E (7x) B04P (11x) B02B (3x) B04A (10x) B04B (2x) B04D (2x) B04M (1x) B04P (1x) B06B (1x) B07D (1x) B08B (1x) B10A (1x) B03G (1x) B03H (2x) B02C (1x) B03A (1x) B04A (2x) B04L (1x) B06B (2x) B07A (4x) B07B (1x) B07D (4x) B08A (1x) B08B (4x) B08C (1x) B10A (1x) B08B (4x) B08C (1x) B08C (2x) B02B (1x) B06B (1x) B03A (3x) B03B (2x) B06B (1x)

+AUDIO-L +AUDIO-L +AUDIO-POWER +AUDIO-POWER +AUDIO-POWER +VCC-LM +V-LM833 +VTUN 27MHZ-3V3 2V5-LMI 2V5-LMI 4-MHz 4-MHz ADAC(1) ADAC(1) ADAC(2) ADAC(2) ADAC(3) ADAC(3) ADAC(4) ADAC(4) ADAC(5) ADAC(5) ADAC(6) ADAC(6) ADAC(7) ADAC(7) ADAC(8) ADAC(8) AGC-COMP AIN-5V ALE ALE A-PLOP A-PLOP A-PLOP AP-SCART-OUT-L AP-SCART-OUT-L AP-SCART-OUT-R AP-SCART-OUT-R ARX0ARX0ARX0+ ARX0+ ARX1ARX1ARX1+ ARX1+ ARX2ARX2ARX2+ ARX2+ ARXCARXCARXC+ ARXC+ ARX-DDC-SCL ARX-DDC-SDA ARX-HOTPLUG ASEBRKn ASEBRKn AUDIO-CL-L AUDIO-CL-L AUDIO-CL-R AUDIO-CL-R AUDIO-HDPH-L-AP AUDIO-HDPH-L-AP AUDIO-HDPH-R-AP AUDIO-HDPH-R-AP AUDIO-IN1-L AUDIO-IN1-L AUDIO-IN1-R AUDIO-IN1-R AUDIO-IN2-L AUDIO-IN2-L AUDIO-IN2-R AUDIO-IN2-R AUDIO-IN3-L AUDIO-IN3-L AUDIO-IN3-R AUDIO-IN3-R AUDIO-IN4-L AUDIO-IN4-L AUDIO-IN4-R AUDIO-IN4-R AUDIO-IN5-L AUDIO-IN5-L AUDIO-IN5-L AUDIO-IN5-R AUDIO-IN5-R AUDIO-IN5-R AUDIO-MUTE AUDIO-MUTE AUDIO-MUTE-UP AUDIO-MUTE-UP AUDIO-OUT-L AUDIO-OUT-L AUDIO-OUT-L AUDIO-OUT-R AUDIO-OUT-R AUDIO-OUT-R -AUDIO-POWER -AUDIO-POWER -AUDIO-POWER AUDIO-PROT AUDIO-PROT -AUDIO-R -AUDIO-R AUDIO-RESET AUDIO-RESET AUDIO-RESET AUDIO-VDD AUDIO-VDD AUDIO-VEE AV1-BLK AV1-BLK AV1-BLK-BO AV1-BLK-BO AV1-PB AV1-PB AV1-PR AV1-PR AV1-STATUS AV1-STATUS AV1-Y AV1-Y AV1-Y_CVBS AV1-Y_CVBS AV2-BLK AV2-BLK AV2-STATUS AV2-STATUS AV2-Y_CVBS AV2-Y_CVBS

B04I (1x) B10A (1x) B02B (1x) B04I (1x) B10A (1x) B02B (3x) B05D (3x) B03A (2x) B03D (2x) B03F (6x) B03H (2x) B03A (2x) B03B (1x) B04I (1x) B04L (1x) B04I (1x) B04L (1x) B04L (1x) B04M (2x) B04L (1x) B04M (2x) B04I (1x) B04L (1x) B04I (1x) B04L (1x) B04I (1x) B04L (3x) B04I (1x) B04L (3x) B03B (2x) B08B (3x) B04A (2x) B04B (1x) B04M (1x) B07A (1x) B07B (2x) B07A (3x) B07D (1x) B07A (3x) B07D (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (2x) B08B (2x) B08B (2x) B03D (1x) B03I (1x) B04I (1x) B07A (1x) B04I (1x) B07A (1x) B04M (1x) B07C (1x) B04M (1x) B07C (1x) B04L (1x) B07D (2x) B04L (1x) B07D (2x) B04L (1x) B07A (1x) B04L (1x) B07A (1x) B04L (1x) B07B (1x) B04L (1x) B07B (1x) B04L (1x) B08B (1x) B04L (1x) B08B (1x) B04L (1x) B07C (2x) B07D (1x) B04L (1x) B07C (2x) B07D (1x) B04A (1x) B10A (2x) B04A (1x) B04B (1x) B04I (1x) B07B (1x) B07D (1x) B04I (1x) B07B (1x) B07D (1x) B02B (1x) B04I (1x) B10A (1x) B02A (1x) B10A (1x) B04I (1x) B10A (1x) B04A (1x) B04B (1x) B04M (2x) B04I (7x) B04M (2x) B04I (5x) B04B (1x) B07A (1x) B07A (1x) B07D (1x) B04K (1x) B07D (2x) B04K (1x) B07D (2x) B04A (1x) B07A (1x) B04K (1x) B07D (2x) B04K (1x) B07D (2x) B04A (1x) B07A (1x) B04A (1x) B07A (1x) B04K (1x) B07A (1x)

AV3-PB AV3-PB AV3-PR AV3-PR AV3-Y AV3-Y AV4-PB AV4-PB AV4-PR AV4-PR AV4-Y AV4-Y BACKLIGHT-BOOST BACKLIGHT-BOOST BACKLIGHT-CONTROL BACKLIGHT-CONTROL BACKLIGHT-OUT BACKLIGHT-OUT BIN-5V BO-AUDIO-L BO-AUDIO-R BO-B BO-CVBS BO-G BOLT-ON-IO_RESET-STI7100 BOLT-ON-IO_RESET-STI7100 BOLT-ON-IO_RESET-STI7100 BOLT-ON-IO_RESET-STI7100 BOOTMODE BOOTMODE BOOTMODE0 BOOTMODE0 BOOTMODE1 BOOTMODE1 BOOTMODE2 BOOTMODE2 BOOTMODE3 BOOTMODE3 BOOTMODE4 BOOTMODE4 BOOTMODE5 BOOTMODE5 BOOTMODE6 BOOTMODE6 BOOTMODE7 BOOTMODE7 BO-R BRX0BRX0BRX0+ BRX0+ BRX1BRX1BRX1+ BRX1+ BRX2BRX2BRX2+ BRX2+ BRXCBRXCBRXC+ BRXC+ BRX-DDC-SCL BRX-DDC-SDA BRX-HOTPLUG BUF-RST-TARGETn BUF-RST-TARGETn CA-ADDEN CA-ADDEN CA-CD1 CA-CD1 CA-CD2 CA-CD2 CA-CE1 CA-CE2 CA-DATADIR CA-DATADIR CA-DATAEN CA-DATAEN CA-INPACK CA-IORD CA-IOWR CA-MDI0 CA-MDI0 CA-MDI0-OUT CA-MDI1 CA-MDI1 CA-MDI1-OUT CA-MDI2 CA-MDI2 CA-MDI2-OUT CA-MDI3 CA-MDI3 CA-MDI3-OUT CA-MDI4 CA-MDI4 CA-MDI4-OUT CA-MDI5 CA-MDI5 CA-MDI5-OUT CA-MDI6 CA-MDI6 CA-MDI6-OUT CA-MDI7 CA-MDI7 CA-MDI7-OUT CA-MDO0 CA-MDO0 CA-MDO1 CA-MDO1 CA-MDO2 CA-MDO2 CA-MDO3 CA-MDO3 CA-MDO4 CA-MDO4 CA-MDO5 CA-MDO5 CA-MDO6 CA-MDO6 CA-MDO7 CA-MDO7 CA-MICLK CA-MICLK CA-MICLK-OUT CA-MISTRT CA-MISTRT CA-MISTRT-OUT CA-MIVAL CA-MIVAL CA-MIVAL-OUT CA-MOCLK_VS2 CA-MOCLK_VS2

B04K (1x) B07A (1x) B04K (1x) B07A (1x) B04K (1x) B07A (1x) B04K (1x) B07B (1x) B04K (1x) B07B (1x) B04K (1x) B07B (1x) B02B (1x) B06C (1x) B06B (1x) B06C (1x) B02B (1x) B06B (1x) B08B (3x) B07D (2x) B07D (2x) B07D (2x) B07D (2x) B07D (2x) B03D (1x) B03E (1x) B04B (1x) B07D (2x) B04A (2x) B04E (2x) B05A (1x) B05C (1x) B05A (1x) B05C (1x) B05A (1x) B05C (1x) B05A (1x) B05C (1x) B05A (1x) B05C (1x) B05A (1x) B05C (1x) B05A (1x) B05C (1x) B05A (1x) B05C (1x) B07D (2x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08B (2x) B08B (2x) B03D (1x) B03I (1x) B04N (1x) B09A (6x) B04N (1x) B09A (2x) B04N (1x) B09A (2x) B09A (2x) B09A (2x) B04N (1x) B09A (1x) B04N (1x) B09A (1x) B09A (2x) B09A (2x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (2x) B04N (1x) B09A (2x) B04N (1x) B09A (2x) B04N (1x) B09A (2x) B04N (1x) B09A (2x) B04N (1x) B09A (2x) B04N (1x) B09A (2x) B04N (1x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (3x) B09A (2x) B04N (1x) B09A (2x)

CA-MOSTRT CA-MOSTRT CA-MOVAL CA-MOVAL CA-OE CA-REG CA-RST CA-RST CA-VS1 CA-VS1 CA-WAIT CA-WE CEC-HDMI CEC-HDMI CEC-HDMI CIN-5V CONTR+1V8-PNX8541 CONTR+1V8-PNX8541 CPU-27MHZ CRX0CRX0CRX0+ CRX0+ CRX1CRX1CRX1+ CRX1+ CRX2CRX2CRX2+ CRX2+ CRXCCRXCCRXC+ CRXC+ CRX-DDC-SCL CRX-DDC-SDA CRX-HOTPLUG CTRL1-MIPS_LCD-PWR-ON CTRL1-MIPS_LCD-PWR-ON CTRL1-STBY_LAMP-ON CTRL1-STBY_LAMP-ON CTRL1-STBY_LAMP-ON CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3 CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3 CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3_BOOTMODE CTRL2-STBY_BACKLIGHT-CTRL_RESET-P3_BOOTMODE CTRL3-STBY_POWER-OK-DISP CTRL3-STBY_POWER-OK-DISP CTRL3-STBY_POWER-OK-DISP CTRL4-P3 CTRL4-P3 CTRL4-STBY_SELECT-PWM-ANA CTRL4-STBY_SELECT-PWM-ANA CTRL5-STBY_BACKLIGHT-BOOST CTRL-DISP1 CTRL-DISP1 CTRL-DISP2 CTRL-DISP2 CTRL-DISP3 CTRL-DISP3 CTRL-DISP4 CTRL-DISP4 CVBS4 CVBS4 CVBS-OUT-SC1 CVBS-TER-OUT CVBS-TER-OUT CVBS-TER-OUT DDC-SCL DDC-SCL DDC-SDA DDC-SDA DDR2-A0 DDR2-A1 DDR2-A10 DDR2-A11 DDR2-A12 DDR2-A2 DDR2-A3 DDR2-A4 DDR2-A5 DDR2-A6 DDR2-A7 DDR2-A8 DDR2-A9 DDR2-BA0 DDR2-BA1 DDR2-CAS DDR2-CKE DDR2-CLK_N DDR2-CLK_P DDR2-CS DDR2-D0 DDR2-D1 DDR2-D10 DDR2-D11 DDR2-D12 DDR2-D13 DDR2-D14 DDR2-D15 DDR2-D16 DDR2-D17 DDR2-D18 DDR2-D19 DDR2-D2 DDR2-D20 DDR2-D21 DDR2-D22 DDR2-D23 DDR2-D24 DDR2-D25 DDR2-D26 DDR2-D27 DDR2-D28 DDR2-D29 DDR2-D3 DDR2-D30 DDR2-D31 DDR2-D4 DDR2-D5 DDR2-D6 DDR2-D7 DDR2-D8 DDR2-D9 DDR2-DQM0 DDR2-DQM1 DDR2-DQM2 DDR2-DQM3 DDR2-DQS0_N DDR2-DQS0_P DDR2-DQS1_N DDR2-DQS1_P DDR2-DQS2_N

B04N (1x) B09A (2x) B04N (1x) B09A (2x) B09A (2x) B09A (2x) B04N (1x) B09A (1x) B04N (1x) B09A (2x) B09A (3x) B09A (2x) B04A (2x) B04H (1x) B08B (1x) B08B (3x) B04G (1x) B05D (1x) B03D (2x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (2x) B08B (2x) B08B (2x) B04E (1x) B06B (2x) B04A (1x) B04B (1x) B06B (1x) B04A (3x) B06B (2x) B04A (1x) B06C (1x) B04A (1x) B04B (1x) B06B (1x) B06B (1x) B06C (2x) B04B (1x) B06B (2x) B06B (2x) B06A (1x) B06B (1x) B06A (1x) B06B (1x) B06A (1x) B06B (1x) B06A (1x) B06B (1x) B03A (1x) B04K (1x) B07A (2x) B03A (1x) B07A (1x) B07D (1x) B04H (1x) B08C (1x) B04H (1x) B08C (1x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (4x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (2x) B04G (3x) B04G (2x) B04G (3x) B04G (2x) B04G (3x)

DDR2-DQS2_P DDR2-DQS3_N DDR2-DQS3_P DDR2-ODT DDR2-RAS DDR2-VREF-CTRL DDR2-VREF-DDR DDR2-WE DETECT1 DETECT1 DETECT2 DETECT2 DIF-N DIF-N DIF-P DIF-P DIN-5V DQ(0) DQ(1) DQ(10) DQ(11) DQ(12) DQ(13) DQ(14) DQ(15) DQ(16) DQ(17) DQ(18) DQ(19) DQ(2) DQ(20) DQ(21) DQ(22) DQ(23) DQ(24) DQ(25) DQ(26) DQ(27) DQ(28) DQ(29) DQ(3) DQ(30) DQ(31) DQ(4) DQ(5) DQ(6) DQ(7) DQ(8) DQ(9) DQS0 DQS1 DQS2 DQS3 DRX0DRX0DRX0+ DRX0+ DRX1DRX1DRX1+ DRX1+ DRX2DRX2DRX2+ DRX2+ DRXCDRXCDRXC+ DRXC+ DRX-DDC-SCL DRX-DDC-SDA DRX-HOTPLUG DV-B0_UART2-RX DV-B0_UART2-RX DV-B1_UART2-TX DV-B1_UART2-TX DV-B3_MHP-SWITCH DV-B3_MHP-SWITCH DV-B4_UV0 DV-B4_UV0 DV-B5_UV1 DV-B5_UV1 DV-B6_Y0 DV-B6_Y0 DV-B7_Y1 DV-B7_Y1 DV-CLK DV-CLK DV-DE DV-FF_DE DV-FF_DE DV-G0_UV2 DV-G0_UV2 DV-G1_UV3 DV-G1_UV3 DV-G2_UV4 DV-G2_UV4 DV-G3_UV5 DV-G3_UV5 DV-G4_UV6 DV-G4_UV6 DV-G5_UV7 DV-G5_UV7 DV-G6_UV8 DV-G6_UV8 DV-G7_UV9 DV-G7_UV9 DV-HS DV-HS DV-R0_Y2 DV-R0_Y2 DV-R1_Y3 DV-R1_Y3 DV-R2_Y4 DV-R2_Y4 DV-R3_Y5 DV-R3_Y5 DV-R4_Y6 DV-R4_Y6 DV-R5_Y7 DV-R5_Y7 DV-R6_Y8 DV-R6_Y8 DV-R7_Y9 DV-R7_Y9 DV-VS DV-VS EA EA EJTAG-DETECT EJTAG-DETECT EJTAG-TCK EJTAG-TCK EJTAG-TDI

B04G (2x) B04G (3x) B04G (2x) B04G (4x) B04G (4x) B04G (2x) B04G (3x) B04G (4x) B04A (3x) B10A (1x) B04A (1x) B04B (1x) B03A (1x) B03C (1x) B03A (1x) B03C (1x) B08B (3x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08C (1x) B08B (2x) B08B (2x) B08B (2x) B04O (1x) B07D (2x) B04O (1x) B07D (2x) B04O (1x) B07D (2x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B05C (2x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04O (1x) B05C (1x) B04A (2x) B04B (1x) B04B (1x) B07D (1x) B04E (1x) B07D (2x) B04E (1x)

EJTAG-TDI EJTAG-TDO EJTAG-TDO EJTAG-TMS EJTAG-TMS EJTAG-TRSTN EJTAG-TRSTN EMI-A1 EMI-A1 EMI-A10 EMI-A10 EMI-A11 EMI-A12 EMI-A12 EMI-A13 EMI-A13 EMI-A14 EMI-A14 EMI-A15 EMI-A15 EMI-A16 EMI-A17 EMI-A18 EMI-A19 EMI-A2 EMI-A2 EMI-A20 EMI-A21 EMI-A22 EMI-A3 EMI-A3 EMI-A4 EMI-A4 EMI-A5 EMI-A5 EMI-A6 EMI-A6 EMI-A7 EMI-A7 EMI-A8 EMI-A8 EMI-A9 EMI-A9 EMI-D0 EMI-D1 EMI-D10 EMI-D11 EMI-D12 EMI-D13 EMI-D14 EMI-D15 EMI-D2 EMI-D3 EMI-D4 EMI-D5 EMI-D6 EMI-D7 EMI-D8 EMI-D9 EMI-FLASH-CSn EMI-OEn EMI-RB-WAIT EMI-WRn ENABLE-1V2 ENABLE-1V2 ENABLE-1V2 ENABLE-3V3 ENABLE-3V3 ENABLE-3V3 FE-CLK FE-CLK FE-CLK FE-DATA0 FE-DATA0 FE-DATA0 FE-DATA1 FE-DATA1 FE-DATA1 FE-DATA2 FE-DATA2 FE-DATA2 FE-DATA3 FE-DATA3 FE-DATA3 FE-DATA4 FE-DATA4 FE-DATA4 FE-DATA5 FE-DATA5 FE-DATA5 FE-DATA6 FE-DATA6 FE-DATA6 FE-DATA7 FE-DATA7 FE-DATA7 FE-ERR FE-SOP FE-SOP FE-SOP FE-VALID FE-VALID FE-VALID FRONT-C FRONT-C FRONT-C FRONT-Y_CVBS FRONT-Y_CVBS FRONT-Y_CVBS GND-ANA GNDLAN GND-PLL GND-PLL GND-RX GND-SIG GND-SIG1 GNDSND GNDSND GND-TX HD-PB_PC-B HD-PR_PC-R HD-Y_PC-G HOT-PLUG HOT-PLUG HP-DETECT HP-DETECT H-SYNC-VGA IF-FILTN1 IF-FILTN2 IF-FILTN3 IF-FILTP1 IF-FILTP2 IF-FILTP3 IF-N

B07D (3x) B04E (1x) B07D (1x) B04E (1x) B07D (2x) B04E (1x) B07D (2x) B03D (1x) B03E (2x) B03D (1x) B03E (2x) B03E (2x) B03D (1x) B03E (2x) B03D (1x) B03E (2x) B03D (2x) B03E (2x) B03D (1x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03D (1x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03D (1x) B03E (2x) B03D (1x) B03E (2x) B03D (1x) B03E (2x) B03D (1x) B03E (2x) B03D (1x) B03E (2x) B03D (1x) B03E (2x) B03D (1x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (2x) B03E (3x) B03E (3x) B03E (1x) B03E (2x) B02A (1x) B02C (1x) B04B (1x) B02A (1x) B02C (1x) B04B (1x) B03B (1x) B03C (1x) B04N (1x) B03B (1x) B03C (1x) B04N (1x) B03B (1x) B03C (1x) B04N (1x) B03B (1x) B03C (1x) B04N (1x) B03B (1x) B03C (1x) B04N (1x) B03B (1x) B03C (1x) B04N (1x) B03B (1x) B03C (1x) B04N (1x) B03B (1x) B03C (1x) B04N (1x) B03B (1x) B03C (1x) B04N (1x) B04N (2x) B03B (1x) B03C (1x) B04N (1x) B03B (1x) B03C (1x) B04N (1x) B04K (1x) B07C (2x) B07D (1x) B04K (1x) B07C (2x) B07D (1x) B05D (6x) B09B (10x) B05A (2x) B05D (4x) B06C (5x) B02A (14x) B02C (14x) B02B (1x) B10A (29x) B06C (6x) B04K (2x) B04K (2x) B04K (2x) B04H (1x) B08B (4x) B04B (1x) B07C (1x) B04K (2x) B03A (4x) B03A (3x) B03A (3x) B03A (4x) B03A (3x) B03A (3x) B03A (1x)

IF-N IF-P IF-P IRQ-CA IRQ-CA IRQ-FRAME-SYNC IRQ-PCI IRQ-PCI JTAG-TCK JTAG-TCK JTAG-TCK JTAG-TCK JTAG-TCK-ST JTAG-TCK-ST JTAG-TDI-ST JTAG-TDI-ST JTAG-TDO JTAG-TDO JTAG-TDO-ST JTAG-TDO-ST JTAG-TD-PACIFIC-TDA10048 JTAG-TD-PACIFIC-TDA10048 JTAG-TD-PNX5050-PACIFIC JTAG-TD-PNX5050-PACIFIC JTAG-TD-TDA10048-TDA10023 JTAG-TD-TDA10048-TDA10023 JTAG-TMS JTAG-TMS JTAG-TMS JTAG-TMS JTAG-TMS-ST JTAG-TMS-ST JTAG-TRST JTAG-TRST JTAG-TRST JTAG-TRST JTAG-TRSTn-ST JTAG-TRSTn-ST

B04K (1x) B03A (1x) B04K (1x) B04E (2x) B09A (2x) B04A (3x) B04E (2x) B08A (2x) B03B (1x) B03C (1x) B05A (1x) B06C (1x) B03D (2x) B03I (1x) B03D (2x) B03I (1x) B03C (1x) B05A (1x) B03D (2x) B03I (1x) B03B (1x) B06C (2x) B05A (1x) B06C (2x) B03B (1x) B03C (1x) B03B (1x) B03C (1x) B05A (1x) B06C (1x) B03D (2x) B03I (1x) B03B (1x) B03C (1x) B05A (1x) B06C (1x) B03D (2x) B03I (1x)

3139 123 6341.1 H_17650_062.eps 110608

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

97

SSB: SRP List Part 2 Netname KEYBOARD KEYBOARD LAMP-ON-OUT LAMP-ON-OUT LAN-RST LAN-RST LED1 LED1 LED2 LED2 LIGHT-SENSOR LIGHT-SENSOR LMI-A(0) LMI-A(1) LMI-A(10) LMI-A(11) LMI-A(12) LMI-A(2) LMI-A(3) LMI-A(4) LMI-A(5) LMI-A(6) LMI-A(7) LMI-A(8) LMI-A(9) LMI-BA0 LMI-BA1 LMI-CASnot LMI-CLK LMI-CLKEN LMI-CLKnot LMI-CSnot LMI-D(0) LMI-D(1) LMI-D(10) LMI-D(11) LMI-D(12) LMI-D(13) LMI-D(14) LMI-D(15) LMI-D(16) LMI-D(17) LMI-D(18) LMI-D(19) LMI-D(2) LMI-D(20) LMI-D(21) LMI-D(22) LMI-D(23) LMI-D(24) LMI-D(25) LMI-D(26) LMI-D(27) LMI-D(28) LMI-D(29) LMI-D(3) LMI-D(30) LMI-D(31) LMI-D(4) LMI-D(5) LMI-D(6) LMI-D(7) LMI-D(8) LMI-D(9) LMI-DQM0 LMI-DQM1 LMI-DQM2 LMI-DQM3 LMI-DQS0 LMI-DQS1 LMI-DQS2 LMI-DQS3 LMI-RASnot LMI-VREF LMI-VREF2-ST LMI-VREF-ST LMI-WEnot MDO0 MDO1 MDO2 MDO3 MDO4 MDO5 MDO6 MDO7 MII-COL MII-COL MII-CRS MII-CRS MII-MDC MII-MDC MII-MDINT MII-MDINT MII-MDIO MII-MDIO MII-RXCLK MII-RXCLK MII-RXD(0) MII-RXD(0) MII-RXD(1) MII-RXD(1) MII-RXD(2) MII-RXD(2) MII-RXD(3) MII-RXD(3) MII-RX-DV MII-RX-DV MII-RX-ER MII-RX-ER MII-RX-ER MII-TXCLK MII-TXCLK MII-TXD(0) MII-TXD(0) MII-TXD(1) MII-TXD(1) MII-TXD(2) MII-TXD(2) MII-TXD(3) MII-TXD(3) MII-TXEN MII-TXEN MM_A0 MM_A1 MM_A10 MM_A11 MM_A12 MM_A2 MM_A3 MM_A4 MM_A5 MM_A6 MM_A7

Diagram B04A (3x) B10A (1x) B02B (1x) B04A (1x) B03D (1x) B09B (1x) B04A (2x) B10A (1x) B04A (2x) B10A (1x) B04A (1x) B10A (1x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (3x) B03F (4x) B03F (3x) B03F (4x) B03F (3x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (2x) B03F (3x) B03F (2x) B03F (2x) B03F (2x) B03F (3x) B09A (3x) B09A (3x) B09A (3x) B09A (3x) B09A (3x) B09A (3x) B09A (3x) B09A (3x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03D (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B03G (1x) B09B (1x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x)

MM_A8 MM_A9 MM_BA0 MM_BA1 MM_CAS MM_CKE MM_CLK_N MM_CLK_P MM_CS0 MM_CS1 MM_DATA_0 MM_DATA_1 MM_DATA_10 MM_DATA_11 MM_DATA_12 MM_DATA_13 MM_DATA_14 MM_DATA_15 MM_DATA_16 MM_DATA_17 MM_DATA_18 MM_DATA_19 MM_DATA_2 MM_DATA_20 MM_DATA_21 MM_DATA_22 MM_DATA_23 MM_DATA_24 MM_DATA_25 MM_DATA_26 MM_DATA_27 MM_DATA_28 MM_DATA_29 MM_DATA_3 MM_DATA_30 MM_DATA_31 MM_DATA_4 MM_DATA_5 MM_DATA_6 MM_DATA_7 MM_DATA_8 MM_DATA_9 MM_DQM_0 MM_DQM_1 MM_DQM_2 MM_DQM_3 MM_DQS0 MM_DQS1 MM_DQS2 MM_DQS3 MM_RAS MM_WE MOCLKA MOSTRTA MOVALA MPEG-TX0MPEG-TX0MPEG-TX0+ MPEG-TX0+ MPEG-TX1MPEG-TX1MPEG-TX1+ MPEG-TX1+ MPEG-TX2MPEG-TX2MPEG-TX2+ MPEG-TX2+ MPEG-TXCMPEG-TXCMPEG-TXC+ MPEG-TXC+ NAND-AD(0) NAND-AD(1) NAND-AD(2) NAND-AD(3) NAND-AD(4) NAND-AD(5) NAND-AD(6) NAND-AD(7) NAND-ALE NAND-CLE NAND-REn NAND-WEn P0.0 P0.0 P0.1 P0.1 P0.2 P0.2 P0.3 P0.3 P0.4 P0.4 P0.5 P0.5 P0.6 P0.6 P0.7 P0.7 P2.0 P2.0 P2.1 P2.1 P2.2 P2.2 P2.3 P2.3 P2.4 P2.4 P2.5 P2.5 P2.6 P2.6 P2.7 P2.7 PARX-DDC-SCL PARX-DDC-SCL PARX-DDC-SDA PARX-DDC-SDA PBRX-DDC-SCL PBRX-DDC-SCL PBRX-DDC-SDA PBRX-DDC-SDA PCEC-HDMI PCI-AD0 PCI-AD0 PCI-AD0 PCI-AD0 PCI-AD0 PCI-AD1 PCI-AD1 PCI-AD1 PCI-AD1 PCI-AD1 PCI-AD10

B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (3x) B05B (1x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (3x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (2x) B05B (3x) B05B (3x) B09A (3x) B09A (3x) B09A (3x) B03G (2x) B08B (1x) B03G (2x) B08B (1x) B03G (2x) B08B (1x) B03G (2x) B08B (1x) B03G (2x) B08B (1x) B03G (2x) B08B (1x) B03G (2x) B08B (1x) B03G (2x) B08B (1x) B04Q (2x) B04Q (2x) B04Q (2x) B04Q (2x) B04Q (2x) B04Q (2x) B04Q (2x) B04Q (2x) B04Q (2x) B04Q (2x) B04Q (2x) B04Q (2x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B04A (2x) B04B (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (5x) B04F (1x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x)

PCI-AD10 PCI-AD10 PCI-AD10 PCI-AD11 PCI-AD11 PCI-AD11 PCI-AD11 PCI-AD12 PCI-AD12 PCI-AD12 PCI-AD12 PCI-AD13 PCI-AD13 PCI-AD13 PCI-AD13 PCI-AD14 PCI-AD14 PCI-AD14 PCI-AD14 PCI-AD15 PCI-AD15 PCI-AD15 PCI-AD16 PCI-AD16 PCI-AD16 PCI-AD16 PCI-AD17 PCI-AD17 PCI-AD17 PCI-AD17 PCI-AD18 PCI-AD18 PCI-AD18 PCI-AD18 PCI-AD19 PCI-AD19 PCI-AD19 PCI-AD19 PCI-AD2 PCI-AD2 PCI-AD2 PCI-AD2 PCI-AD20 PCI-AD20 PCI-AD20 PCI-AD21 PCI-AD21 PCI-AD21 PCI-AD22 PCI-AD22 PCI-AD22 PCI-AD22 PCI-AD23 PCI-AD23 PCI-AD23 PCI-AD23 PCI-AD24 PCI-AD24 PCI-AD24 PCI-AD24 PCI-AD24 PCI-AD25 PCI-AD25 PCI-AD25 PCI-AD25 PCI-AD25 PCI-AD26 PCI-AD26 PCI-AD26 PCI-AD26 PCI-AD26 PCI-AD27 PCI-AD27 PCI-AD27 PCI-AD27 PCI-AD27 PCI-AD28 PCI-AD28 PCI-AD28 PCI-AD28 PCI-AD28 PCI-AD29 PCI-AD29 PCI-AD29 PCI-AD29 PCI-AD29 PCI-AD3 PCI-AD3 PCI-AD3 PCI-AD3 PCI-AD30 PCI-AD30 PCI-AD30 PCI-AD30 PCI-AD30 PCI-AD31 PCI-AD31 PCI-AD31 PCI-AD31 PCI-AD31 PCI-AD4 PCI-AD4 PCI-AD4 PCI-AD4 PCI-AD5 PCI-AD5 PCI-AD5 PCI-AD5 PCI-AD6 PCI-AD6 PCI-AD6 PCI-AD6 PCI-AD7 PCI-AD7 PCI-AD7 PCI-AD7 PCI-AD8 PCI-AD8 PCI-AD8 PCI-AD8 PCI-AD9 PCI-AD9 PCI-AD9 PCI-AD9 PCI-CBE0 PCI-CBE0 PCI-CBE0 PCI-CBE1 PCI-CBE1 PCI-CBE1 PCI-CBE1 PCI-CBE1 PCI-CBE2 PCI-CBE2 PCI-CBE2

B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B04F (1x) B05A (1x) B08A (1x) B04F (1x) B05A (1x) B08A (2x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (2x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B04Q (1x) B05A (2x) B08A (1x) B09A (1x) B04F (1x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B04F (1x) B04Q (1x) B05A (1x) B08A (1x) B09A (1x) B04F (1x) B04Q (1x) B05A (1x)

PCI-CBE2 PCI-CBE2 PCI-CBE3 PCI-CBE3 PCI-CBE3 PCI-CLK-OUT PCI-CLK-PNX5050 PCI-CLK-PNX5050 PCI-CLK-PNX8535 PCI-CLK-PNX8535 PCI-CLK-USB20 PCI-CLK-USB20 PCI-DEVSEL PCI-DEVSEL PCI-DEVSEL PCI-FRAME PCI-FRAME PCI-FRAME PCI-GNT PCI-GNT-B PCI-GNT-PNX5050 PCI-GNT-PNX5050 PCI-GNT-USB20 PCI-GNT-USB20 PCI-GNT-USB20 PCI-IRDY PCI-IRDY PCI-IRDY PCI-PAR PCI-PAR PCI-PAR PCI-PERR PCI-PERR PCI-PERR PCI-REQ PCI-REQ-B PCI-REQ-PNX5050 PCI-REQ-PNX5050 PCI-REQ-USB20 PCI-REQ-USB20 PCI-REQ-USB20 PCI-SERR PCI-SERR PCI-SERR PCI-STOP PCI-STOP PCI-STOP PCI-TRDY PCI-TRDY PCI-TRDY PCMCIA-A0 PCMCIA-A1 PCMCIA-A10 PCMCIA-A11 PCMCIA-A12 PCMCIA-A13 PCMCIA-A14 PCMCIA-A2 PCMCIA-A3 PCMCIA-A4 PCMCIA-A5 PCMCIA-A6 PCMCIA-A7 PCMCIA-A8 PCMCIA-A9 PCMCIA-D0 PCMCIA-D1 PCMCIA-D2 PCMCIA-D3 PCMCIA-D4 PCMCIA-D5 PCMCIA-D6 PCMCIA-D7 PCMCIA-VCC-VPP PCMOUT2 PCMOUT2 PCMOUT3 PCMOUT3 PCMOUT4 PCMOUT4 PCRX-DDC-SCL PCRX-DDC-SCL PCRX-DDC-SDA PCRX-DDC-SDA PDRX-DDC-SCL PDRX-DDC-SCL PDRX-DDC-SDA PDRX-DDC-SDA PHY-CLK PHY-CLK PNX5050-RST-OUTn PROT-DC PROT-DC PSEN PSEN PWM-3 PWM-OR RC RC RC RC_uP RC1 RC1 RC2 RC2 REGIMBEAU_CVBS-SWITCH REGIMBEAU_CVBS-SWITCH RESET-FLASH-STn RESET-NVM_WP-NANDFLASH RESET-NVM_WP-NANDFLASH RESET-NVM_WP-NANDFLASH RESET-STBY RESET-STBY RESET-STBY-J RESET-STBY-J RESET-SYSTEM RESET-SYSTEM RESET-SYSTEM RESET-SYSTEM RESET-SYSTEM RESET-SYSTEM RESET-SYSTEM RESET-USB20 RREF-PNX8535 RREF-PNX8535 RST-TARGETn RX0RX0RX0+ RX0+ RX1RX1RX1+ RX1+ RX2-

B08A (1x) B09A (1x) B04F (1x) B05A (1x) B08A (1x) B04E (3x) B04E (2x) B05A (1x) B04E (2x) B04F (1x) B04E (2x) B08A (1x) B04F (2x) B05A (1x) B08A (1x) B04F (2x) B05A (1x) B08A (1x) B04F (2x) B04F (2x) B04F (1x) B05A (1x) B04F (1x) B05A (1x) B08A (2x) B04F (2x) B05A (1x) B08A (1x) B04F (1x) B05A (1x) B08A (1x) B04F (2x) B05A (1x) B08A (1x) B04F (2x) B04F (2x) B04F (1x) B05A (1x) B04F (1x) B05A (1x) B08A (2x) B04F (2x) B05A (1x) B08A (1x) B04F (2x) B05A (1x) B08A (1x) B04F (2x) B05A (1x) B08A (1x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (2x) B09A (5x) B03D (1x) B03G (1x) B03D (1x) B03G (1x) B03D (1x) B03G (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B08B (1x) B08C (1x) B03D (1x) B09B (1x) B05A (1x) B02A (1x) B02C (1x) B04A (2x) B04B (1x) B06C (2x) B06C (2x) B04A (1x) B07D (1x) B10A (1x) B04A (3x) B04A (1x) B07C (1x) B04A (1x) B07C (1x) B04B (1x) B07A (1x) B03E (3x) B04B (1x) B04C (1x) B04Q (1x) B04B (1x) B04D (1x) B04A (1x) B04B (1x) B03B (1x) B03C (1x) B04A (2x) B04E (2x) B05A (2x) B08A (1x) B08C (1x) B08A (2x) B04H (1x) B04P (1x) B03I (2x) B04H (1x) B08C (1x) B04H (1x) B08C (1x) B04H (1x) B08C (1x) B04H (1x) B08C (1x) B04H (1x)

RX2RX2+ RX2+ RXCRXCRXC+ RXC+ RXD RXD RXD2 RXD-ASC2 RXD-ASC2 RXD-BOLT-ON RXD-MIPS RXD-MIPS RXD-UP RXD-UP RxP3CLK RxP3CLK RxP3eA-_G7 RxP3eA-_G7 RxP3eA+_G6 RxP3eA+_G6 RxP3eB-_G5 RxP3eB-_G5 RxP3eB+_G4 RxP3eB+_G4 RxP3eC-_G3 RxP3eC-_G3 RxP3eC+_G2 RxP3eC+_G2 RxP3eCLK-_G0 RxP3eCLK-_G0 RxP3eCLK+_G1 RxP3eCLK+_G1 RxP3eD-_R9 RxP3eD-_R9 RxP3eD+_R8 RxP3eD+_R8 RxP3eE-_R7 RxP3eE-_R7 RxP3eE+_R6 RxP3eE+_R6 RxP3FF RxP3FF RxP3HS_DE RxP3HS_DE RxP3oA-_B9 RxP3oA-_B9 RxP3oA-_B9 RxP3oA+_B8 RxP3oA+_B8 RxP3oA+_B8 RxP3oB-_B7 RxP3oB-_B7 RxP3oB-_B7 RxP3oB+_B6 RxP3oB+_B6 RxP3oB+_B6 RxP3oC-_B5 RxP3oC-_B5 RxP3oC-_B5 RxP3oC+_B4 RxP3oC+_B4 RxP3oC+_B4 RxP3oCLK-_B2 RxP3oCLK-_B2 RxP3oCLK-_B2 RxP3oCLK+_B3 RxP3oCLK+_B3 RxP3oCLK+_B3 RxP3oD-_B1 RxP3oD-_B1 RxP3oD-_B1 RxP3oD+_B0 RxP3oD+_B0 RxP3oD+_B0 RxP3oE-_G9 RxP3oE-_G9 RxP3oE-_G9 RxP3oE+_G8 RxP3oE+_G8 RxP3oE+_G8 RxP3R0 RxP3R0 RxP3R1 RxP3R1 RxP3R2 RxP3R2 RxP3R3 RxP3R3 RxP3R4 RxP3R4 RxP3R5 RxP3R5 RxP3VS RxP3VS SC1-AUDIO-L SC1-AUDIO-L SC1-AUDIO-R SC1-AUDIO-R SC1-B SC1-B SC1-CVBS SC1-CVBS SC1-G SC1-G SC1-R SC1-R SCL1 SCL2 SCL3 SCL-AMBI SCL-AMBI-3V3 SCL-AMBI-3V3 SCL-I2C4-DISP SCL-I2C4-DISP SCL-PNX5050 SCL-PNX5050 SCL-SSB SCL-SSB SCL-SSB SCL-SSB SCL-SSB SCL-SSB SCL-SSB SCL-SSB SCL-SSB SCL-SSB-MUX1 SCL-SSB-MUX1 SCL-SSB-MUX2 SCL-TUNER SCL-TUNER SCL-TUNER SCL-UP-MIPS

B08C (1x) B04H (1x) B08C (1x) B04H (1x) B08C (1x) B04H (1x) B08C (1x) B04C (1x) B07D (1x) B07D (1x) B03D (1x) B03I (1x) B07D (3x) B04C (1x) B04E (1x) B04A (2x) B04C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06A (2x) B06C (2x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B05C (1x) B06C (1x) B07A (1x) B07D (2x) B07A (1x) B07D (2x) B07A (1x) B07D (3x) B07A (1x) B07D (2x) B07A (1x) B07D (3x) B07A (1x) B07D (3x) B04E (2x) B04E (2x) B04E (2x) B06B (1x) B06B (1x) B06C (1x) B06A (1x) B06B (1x) B05A (1x) B05C (1x) B03A (1x) B03B (1x) B03C (1x) B03D (1x) B04E (3x) B05A (1x) B06C (1x) B07D (2x) B08C (1x) B04E (1x) B06B (1x) B04E (12x) B03A (1x) B03B (1x) B03C (1x) B04A (2x)

SCL-UP-MIPS SCL-UP-MIPS SDA1 SDA2 SDA3 SDA-AMBI SDA-AMBI-3V3 SDA-AMBI-3V3 SDA-I2C4-DISP SDA-I2C4-DISP SDA-PNX5050 SDA-PNX5050 SDA-SSB SDA-SSB SDA-SSB SDA-SSB SDA-SSB SDA-SSB SDA-SSB SDA-SSB SDA-SSB SDA-SSB-MUX1 SDA-SSB-MUX1 SDA-SSB-MUX2 SDA-TUNER SDA-TUNER SDA-TUNER SDA-UP-MIPS SDA-UP-MIPS SDA-UP-MIPS SDM SENSE+1V SENSE+1V2-PNX8541 SENSE+1V2-PNX8541 SENSE+1V4-PNX5050 SENSE+1V4-PNX5050 SPDIF-IN SPDIF-IN SPDIF-IN1 SPDIF-IN1 SPDIF-IN-MHP SPDIF-IN-MHP SPDIF-OUT SPDIF-OUT SPI-CLK SPI-CSB SPI-PROG SPI-SDI SPI-SDO SPI-WP STANDBY STANDBY STANDBY STANDBY STANDBY SUPPLY-FAULT SUPPLY-FAULT TDA-IF-AGC TDA-IF-AGC TDA-IF-AGC TDA-IF-AGC-SPLIT TDA-IF-AGC-SPLIT TDA-IF-IN-N TDA-IF-IN-N TDA-IF-IN-N TDA-IF-IN-P TDA-IF-IN-P TDA-IF-IN-P TMUCLK TPIM TPIP TPOM TPOP TRIG-IN TRIG-IN TRIG-OUT TRIG-OUT TSI0-ST-CLK TSI0-ST-CLK TSI0-ST-D0 TSI0-ST-D0 TSI0-ST-D1 TSI0-ST-D1 TSI0-ST-D2 TSI0-ST-D2 TSI0-ST-D3 TSI0-ST-D3 TSI0-ST-D4 TSI0-ST-D4 TSI0-ST-D5 TSI0-ST-D5 TSI0-ST-D6 TSI0-ST-D6 TSI0-ST-D7 TSI0-ST-D7 TSI0-ST-STRT TSI0-ST-STRT TSI0-ST-VAL TSI0-ST-VAL TSI1-ST-CLK TSI1-ST-CLK TSI1-ST-D0 TSI1-ST-D0 TSI1-ST-D1 TSI1-ST-D1 TSI1-ST-D2 TSI1-ST-D2 TSI1-ST-D3 TSI1-ST-D3 TSI1-ST-D4 TSI1-ST-D4 TSI1-ST-D5 TSI1-ST-D5 TSI1-ST-D6 TSI1-ST-D6 TSI1-ST-D7 TSI1-ST-D7 TSI1-ST-STRT TSI1-ST-STRT TSI1-ST-VAL TSI1-ST-VAL TUN-AGC TUN-AGC TUN-AGC-MON TUN-AGC-MON Tx8535oATx8535oATx8535oA+ Tx8535oA+ Tx8535oBTx8535oBTx8535oB+ Tx8535oB+ Tx8535oCTx8535oC-

B04C (1x) B04E (2x) B04E (2x) B04E (2x) B04E (2x) B06B (1x) B06B (1x) B06C (1x) B06A (1x) B06B (1x) B05A (1x) B05C (1x) B03A (1x) B03B (1x) B03C (1x) B03D (1x) B04E (3x) B05A (1x) B06C (1x) B07D (2x) B08C (1x) B04E (1x) B06B (1x) B04E (12x) B03A (1x) B03B (1x) B03C (1x) B04A (2x) B04C (1x) B04E (2x) B04A (3x) B03H (1x) B02A (1x) B04P (1x) B02C (1x) B05D (1x) B03G (1x) B09B (1x) B04L (1x) B09B (1x) B07D (1x) B09B (1x) B04L (1x) B07B (1x) B04A (2x) B04A (2x) B04A (3x) B04A (3x) B04A (2x) B04A (3x) B02B (1x) B04B (1x) B06B (1x) B07D (1x) B10A (2x) B02A (1x) B04A (2x) B03A (1x) B03B (1x) B03C (1x) B03B (1x) B03C (1x) B03A (1x) B03B (1x) B03C (1x) B03A (1x) B03B (1x) B03C (1x) B03D (2x) B09B (2x) B09B (2x) B09B (2x) B09B (2x) B03D (2x) B03I (1x) B03D (1x) B03I (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03D (1x) B09A (1x) B03A (3x) B03B (1x) B03A (1x) B03B (1x) B04O (1x) B06A (1x) B04O (1x) B06A (1x) B04O (1x) B06A (1x) B04O (1x) B06A (1x) B04O (1x) B06A (1x)

Tx8535oC+ Tx8535oC+ Tx8535oCLKTx8535oCLKTx8535oCLK+ Tx8535oCLK+ Tx8535oDTx8535oDTx8535oD+ Tx8535oD+ Tx8535oETx8535oETx8535oE+ Tx8535oE+ TXD TXD TXD2 TXD-ASC2 TXD-ASC2 TXD-BOLT-ON TXD-MIPS TXD-MIPS TXD-UP TXD-UP TXEATXEATXEA+ TXEA+ TXEBTXEBTXEB+ TXEB+ TXECTXECTXEC+ TXEC+ TXECLKTXECLKTXECLK+ TXECLK+ TXEDTXEDTXED+ TXED+ TXEETXEETXEE+ TXEE+ TXOATXOATXOA+ TXOA+ TXOBTXOBTXOB+ TXOB+ TXOCTXOCTXOC+ TXOC+ TXOCLKTXOCLKTXOCLK+ TXOCLK+ TXODTXODTXOD+ TXOD+ TXOETXOETXOE+ TXOE+ UART-SWITCH UART-SWITCH UART-SWITCHn USB20-1-DM USB20-1-DP USB20-2-DM USB20-2-DP USB20-OC1 USB20-OC2 USB-OC V_LVC04 V1 VDD VDDA VDDA-ADC VDDA-AUDIO VDDA-AUDIO VDDA-DAC VDDA-LVDS VDDA-LVDS VDDE-2V5 VDDE-3V3 VDISP VDISP VREF-DDR VREF-PNX5050 VSS VSSA VSW VSW V-SYNC-VGA VTT-TERM-DDR WP-FLASH-ST WP-FLASH-ST WP-NANDFLASH-INV XIO-ACK XIO-ACK XIO-SEL-NAND XIO-SEL-NAND Y_CVBS-MON-OUT Y_CVBS-MON-OUT Y_CVBS-MON-OUT-SC Y_CVBS-MON-OUT-SC

B04O (1x) B06A (1x) B04O (1x) B06A (1x) B04O (1x) B06A (1x) B04O (1x) B06A (1x) B04O (1x) B06A (1x) B04O (1x) B06A (1x) B04O (1x) B06A (1x) B04C (1x) B07D (1x) B07D (1x) B03D (1x) B03I (1x) B07D (3x) B04C (1x) B04E (1x) B04A (2x) B04C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (1x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B06A (1x) B06C (2x) B04B (1x) B04C (1x) B04C (2x) B08A (3x) B08A (3x) B08A (2x) B08A (2x) B08A (3x) B08A (3x) B08A (2x) B03D (5x) B03A (3x) B10A (2x) B10A (3x) B04P (2x) B04L (2x) B04P (2x) B04P (2x) B04O (1x) B04P (2x) B03H (7x) B03H (3x) B06A (1x) B06B (1x) B05B (3x) B05B (2x) B10A (3x) B10A (5x) B02A (1x) B02B (1x) B04K (2x) B04G (2x) B03D (1x) B03E (2x) B04Q (2x) B04F (1x) B04Q (2x) B04F (1x) B04Q (2x) B04K (1x) B07B (1x) B07A (1x) B07B (1x)

3139 123 6341.1 H_17650_063.eps 110608

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

98

Layout Small Signal Board (Overview Top Side) 1000 1001 1002 1003 1004 1005 1006 1007 1008 1009 1010

A8 A7 A8 B8 A8 C8 C8 C8 A5 B7 A8

1011 1015 1022 1023 1024 1025 1027 1028 1029 1AM0 1AM2

A7 B8 B7 B7 B7 B7 B7 A7 A5 F4 F5

1C01 1D10 1D11 1D12 1E00 1E01 1E02 1E03 1E06 1E08 1E0Q

A4 D1 D1 C1 B7 A7 A7 A6 A5 A6 A5

1E0R 1E0S 1E0T 1E0V 1E0W 1E0Y 1E0Z 1E11 1E12 1E13 1E14

A6 A5 A5 A6 A6 B6 B6 B8 B7 A7 C8

1E15 1E18 1E19 1E22 1E23 1E24 1E25 1E26 1E27 1E31 1E50

A8 A7 A7 A7 A7 A7 A7 A7 A7 B7 A5

1E51 1G01 1G02 1G50 1GC0 1GE0 1H10 1HA1 1HE0 1HP0 1HV1

A5 C1 C1 A2 B1 A4 B5 C5 A5 A8 A4

1M36 1M95 1M96 1M99 1N00 1N01 1NA1 1P01 1P07 1P32 1P33

B8 E1 F1 F1 E7 E8 D5 D3 C8 E6 E6

1P34 1P35 1P36 1P3Q 1P3R 1P3S 1P45 1P6A 1P6Y 1P6Z 1R07

E5 D8 F6 D8 D8 D8 E8 D7 D7 D7 A8

1R08 1R09 1R12 1T04 1T06 1T55 1T60 1T65 1T70 1T71 1T75

B8 A8 B8 C7 C6 C8 C8 C8 C8 C8 C8

1U01 2AEA 2AEM 2AEU 2AGU 2CB3 2CBT 2CDR 2CFB 2CFH 2CFU

E1 F4 F4 F4 E2 B1 A1 B1 B2 A1 B3

2D10 2D11 2D12 2D14 2D16 2D17 2D18 2D19 2D20 2D21 2D22

D1 D1 D1 D1 C1 C1 D1 D1 D1 D1 D1

2D23 2D26 2D27 2D28 2D29 2D30 2D33 2D34 2D38 2D39 2D40

D1 C1 C1 C1 C1 D2 D2 D2 C1 D2 C1

2D41 2D44 2D45 2D47 2D48 2D51 2D55 2D56 2D5A 2D5B 2D5C

C1 C2 C2 C2 C2 C2 C1 C2 D2 D2 D2

2D5E 2E03 2E09 2E20 2E35 2E36 2E37 2E40 2E42 2E45 2E53

D2 A8 A8 A8 C8 C8 C8 B8 B8 B8 B8

2E54 2E55 2E56 2E57 2E58 2E80 2E97 2E98 2EAK 2EAM 2EAN

B8 B8 B8 B8 B8 B8 B8 B8 B8 B8 B8

Part 1 H_17650_046a.eps

B8 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3

2G10 2G11 2G12 2G13 2G14 2G15 2G16 2G17 2G18 2G19 2G20

A3 A3 A3 A3 A3 A3 A3 A3 A3 A3 A3

2G21 2G22 2G23 2G52 2G53 2G54 2G55 2G57 2G67 2G68 2G73

A3 A3 A3 A4 A4 A2 A4 A1 A4 A4 B1

2G74 2G75 2G76 2G79 2G7B 2GE0 2GE1 2GE2 2GE3 2GE4 2GE5

B1 A4 A2 A4 B1 A3 A3 A3 A4 A4 A3

2GE6 2GE7 2GE8 2GE9 2GF0 2GF1 2GF2 2GF3 2GF4 2GF5 2GF6

A3 A3 A3 A3 A3 A4 A4 A3 A4 A3 A3

2GF7 2GF8 2GF9 2GG0 2GG1 2GG2 2GG3 2GG4 2GG5 2GG6 2GG7

A4 A3 A3 A4 A4 A4 A4 A3 A4 A3 A3

2GG8 2GG9 2GH0 2GH1 2GH2 2GH3 2GH4 2GH5 2GH6 2GH7 2GH8

A4 A3 A4 A3 A3 A3 A3 A3 A4 A4 A3

2GH9 2GJ1 2GJ2 2GJ3 2GJ4 2GJ5 2GJ6 2GJ7 2GK1 2GK2 2GK4

A3 A4 A4 A4 A4 A4 A4 A4 A4 A4 A3

2GK5 2GK6 2GL1 2H10 2HA0 2HA1 2HB0 2HB1 2HB2 2HB3 2HB4

A3 A3 A3 B4 D4 D3 B5 B5 B5 B5 B5

2HB5 2HB6 2HB7 2HB8 2HB9 2HBA 2HBB 2HBC 2HBD 2HBE 2HBF

B5 B5 B5 B5 B5 B5 B5 B5 B5 B5 B5

2HBG 2HBH 2HBJ 2HBK 2HGX 2HHQ 2HHT 2HKA 2HKC 2HMH 2HRZ

B5 B5 B5 B5 C2 B3 A4 D3 C3 B4 C5

2HS0 2HS1 2HS2 2HS3 2HS4 2HS7 2HS8 2HS9 2HSA 2HSB 2HSC

C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5

2HSD 2HSE 2HSF 2HSJ 2HSK 2HSM 2HSP 2HT8 2HTL 2HTP 2HTR

C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5

2HTU 2HTV 2HU8 2HVC 2HVF 2N02 2N20 2N22 2NA1 2NA2 2NA5

C5 C5 C5 B4 B4 D3 D3 D3 D4 E5 E5

2NA6 2NA8 2NAA 2NAB 2NAC 2NAD 2NAE 2NAF 2NAG 2NAH 2P00

D5 D5 E5 E5 D6 D6 F6 F6 F6 F7 D2

2P01 2P02 2P08 2P0A 2P0F 2P0G 2P0H 2P0K 2P0M 2P0N 2P0V

D3 D2 D2 D2 D2 D3 D3 D8 D2 D2 D2

2P0W 2P3M 2P7K 2T48 2T49 2T53 2T59 2T5A 2T5B 2T5C 2T61

D2 D8 D7 D7 D7 D7 D7 D8 D8 D7 D6

2T62 2T64 2T67 2T68 2T69 2T71 2T72 2T91 2T93 2TA3 2TA4

Part 2 H_17650_046b.eps

Part 3 H_17650_046c.eps

3139 123 6341.1

2ECD 2G00 2G01 2G02 2G03 2G04 2G05 2G06 2G07 2G08 2G09

Part 4 H_17650_046d.eps

H_17650_046.eps 070108

D7 D7 D6 D7 D7 D6 D6 D7 D7 C6 C6

2TA5 2TA6 2TA7 2TA8 2TA9 2TAA 2TAB 2TAC 2TAD 2TAL 2TAP 2TAR 2U05 2U06 2U08 2U09 2U0F 2U0J 2U0K 2U0R 2U0W 2U0Y 2U0Z 2U10 2U11 2U14 2U15 2U22 2U23 2U24 2U25 2U26 2U50 2U51 2U52 2U53 2U54 2U55 2U56 2U57 2U60 2U62 2U63 2U64 2U65 2U66 2U67 2U68 2U69 2U72 2U86 2U8A 2U8C 2U8D 2U8E 2U8F 2U8G 2U8H 2U8K 2U8M 2U8Q 2U8R 2U8U 2U8V 3A18 3A33 3A34 3A53 3AA1 3AA2 3AA3 3AA4 3AA5 3AA6 3AA7 3AA8 3AA9 3AAB 3AAC 3AAE 3AAF 3AAK 3AAL 3AAM 3AM4 3AM7 3AM8 3C30 3C31 3C32 3C33 3C34 3C35 3C49 3CA5 3CA6 3CAA 3CAB 3CAC 3CAD 3CAE 3CAF 3CAG 3CAH 3CAK 3CAM 3CAN 3CAP 3CAR 3CAS 3CAT 3CAV 3CAW 3CAY 3CAZ 3CBA 3CBB 3CBC 3CBD 3CBE 3CBF 3CBG 3CBH 3CBK 3CBM 3CBN 3CBP 3CBR 3CBS 3CBT 3CBV 3CBW 3CD8 3D10

C6 C6 C6 C6 C6 C5 C6 C6 C6 C5 C6 C6 E2 E2 D1 D1 D1 D1 D1 D2 D1 E1 E2 E1 E1 E1 F1 D1 E1 D1 D1 D1 D1 F1 E1 E1 F1 E1 E1 E1 D1 D1 D1 E1 E1 D1 D1 E1 E1 E1 F1 F2 F2 F2 F1 D1 F2 E2 E2 E2 F1 F1 F2 F2 F4 F4 F4 F4 F3 F3 E3 E3 F3 F3 E3 E3 F3 F2 E2 E3 E3 E3 F3 E3 E4 E5 E4 A4 A4 A4 A4 A4 A4 B2 B1 A1 A1 A1 B1 B1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 A1 B1 B1 B1 B1 B1 B1 B1 B1 B1 B1 B1 B1 B1 B1 B1 B1 A1 D2

3D11 3D12 3D14 3D15 3D16 3D20 3D22 3D23 3D25 3D34 3D36 3D37 3D38 3D39 3D40 3D41 3D43 3D44 3D45 3E09 3E23 3E26 3E74 3E75 3E76 3E77 3E78 3E80 3E81 3EAY 3EAZ 3EC0 3EC1 3ECE 3G00 3G01 3G02 3G03 3G04 3G05 3G52 3G53 3G55 3G56 3G57 3G58 3G61 3G63 3G66 3G92 3G95 3G97 3GA0 3GA3 3GA6 3GB8 3GB9 3GC5 3GC8 3GF0 3GG6 3GG7 3GG9 3GH0 3GH2 3H01 3H06 3H07 3H08 3H0B 3H0C 3H12 3H22 3H25 3H29 3H41 3H43 3H53 3H54 3H56 3HA0 3HA1 3HA3 3HA4 3HA8 3HAC 3HB0 3HB1 3HB2 3HB3 3HB4 3HB8 3HBC 3HBJ 3HF9 3HHQ 3HJ0 3HKM 3HQ0 3HQ1 3HQ5 3HRP 3HRR 3HRS 3HRT 3HRU 3HRV 3HRW 3HRY 3HRZ 3HS0 3HS1 3HS2 3HS8 3HS9 3HSF 3HSH 3HSJ 3HSM 3HSN 3HST 3HSV 3HSW 3HV5 3HV6 3HV7 3HV8 3HV9 3HVA 3HVB 3NA2 3NA4 3NA5 3NAD

D2 D2 D1 D1 D2 D2 D2 D2 D2 C2 C1 D2 C1 D2 C1 C1 C1 C2 C2 A8 A8 B8 C8 C8 B8 B8 B8 B8 B8 B8 B8 B8 B8 B8 A3 A3 A3 A3 A3 A3 A4 A4 A4 A2 A4 A4 A4 A1 A4 A4 B1 B1 A4 A4 A4 A4 A4 A4 A4 A4 A3 A4 A4 A4 A3 B4 B4 B4 B4 A4 A4 D3 D3 D3 A4 A4 A4 B4 B4 B4 D3 D4 D3 D4 D4 D3 B5 B5 B5 B5 B5 B5 B5 B5 B4 B4 C3 C3 B4 B4 B4 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 B4 B4 B4 A4 B4 B4 A4 E5 E5 E5 E5

3NAE 3NAM 3NAN 3NAP 3NAQ 3NAR 3NAT 3NAU 3NAV 3NAW 3NAY 3NB1 3NB2 3NB3 3NB4 3NB5 3NB6 3P01 3P06 3P0A 3P0B 3P0E 3P0F 3P0G 3P0H 3P0L 3P3L 3P3M 3P3N 3P3P 3T35 3T36 3T37 3T38 3T5A 3T5B 3T5C 3T5D 3T5E 3T5F 3T65 3T66 3T67 3TB3 3TB4 3TB7 3TB8 3TB9 3TBA 3TBG 3TBH 3U07 3U08 3U09 3U0A 3U0K 3U1J 3U1W 3U1Y 3U2G 3U2H 3U33 3U34 3U3J 3U3N 3U3T 3U3V 3U3W 3U42 3U46 3U4A 3U50 3U51 3U52 3U53 3U54 3U55 3U56 3U57 3U58 3U60 3U61 3U62 3U63 3U64 3U65 3U66 3U67 3U68 3U69 3U70 3U74 3U75 3U76 5D10 5D11 5D12 5D13 5D14 5D15 5D16 5E00 5E01 5E03 5G55 5G56 5GE0 5GE1 5GE2 5GE3 5GE4 5GE5 5GE6 5HA0 5HM1 5HR0 5HR2 5HR3 5HR5 5HRC 5HRG 5N02 5NA1 5NA2 5P03 5P04 5P07 5T52 5T54 5T61 5T63 5TA1 5TA2 5U00

E5 E5 E5 E5 E5 E5 E5 E5 E5 E5 E5 E5 E5 F6 F6 F7 F6 D3 D2 D2 D2 D8 D8 D8 D2 D3 D8 D8 D8 D8 D7 D7 D7 D6 D7 D7 D8 D8 D8 D8 D8 D7 D8 C5 C6 C6 C6 C6 C6 C6 C6 D1 D1 D1 D2 D1 D2 F1 F2 F2 F1 F2 F2 F2 F1 F2 D1 D1 F1 D1 D1 D1 D1 D1 D1 D1 E1 F1 E1 E1 D1 D1 D1 D1 D1 E1 E1 E1 D1 D1 E2 D1 D2 D2 C1 C1 C1 C1 D1 D1 D1 B8 B8 A8 A2 A2 A4 A4 A4 A4 A4 A3 A4 D3 B4 C5 C5 C5 C5 C5 C5 D3 D4 D5 D2 D2 D8 D7 D7 D7 D8 C6 C6 D2

5U01 5U02 5U03 5U04 5U05 5U06 5U08 5U09 5U52 6AC1 6AC2 6D01 6G50 6G51 6GE0 6GE1 6GE3 6HD2 6HF0 6T56 6T57 7A00 7AA1 7AA2 7AM1 7C00 7CD0 7D10 7D13 7D16 7G52 7G53 7G54 7G58 7G61 7G65 7GE0 7GE3 7H00 7H01 7H02 7H03 7H06 7H07 7HA0 7HA1 7HF2 7HG0 7HG1 7HV0 7HV1 7HV2 7N11 7N12 7NA1 7NA2 7P00 7P01 7P30 7P70 7T5A 7U02 7U05 7U06 7U08 7U0D 7U0H 7U0M 7U0N 7U0Q 7U50 7U51 9A29 9A30 9A31 9AA0 9AA1 9AM0 9AM1 9AM2 9C04 9C10 9C11 9C12 9C13 9C14 9C1B 9C1D 9C1E 9C40 9C41 9C42 9D0A 9D10 9E13 9E14 9EA7 9EA8 9EA9 9EAA 9G13 9G14 9G15 9G48 9G56 9G59 9G60 9G61 9GA0 9GA1 9GA2 9GA3 9GA4 9GA5 9GA6 9GA7 9GA8 9GA9 9H01 9H05 9H07 9H08 9H09 9H10 9HA1 9HS1 9HS2 9HS3 9HS4 9N13 9N14 9N15 9N16 9N17

E2 E1 E1 F2 F2 F1 F1 F1 E1 E5 E5 C2 A1 A2 A3 A4 A3 B4 B4 D8 D8 E4 F2 E2 E4 B2 B3 C2 C2 D1 A1 A4 A1 A4 A4 A4 A3 A4 C3 B4 B5 D3 A4 A4 D4 D4 B4 B3 C3 B4 A4 A4 D3 D3 E5 F6 D3 D5 D8 D6 D8 E1 E2 E1 E2 F1 F2 D1 D1 F1 D1 D1 E4 E4 E5 E3 E3 E5 E5 E5 A4 A4 A4 A4 A4 A4 A1 A1 A1 A3 A4 A4 D1 D2 B8 B8 A5 A5 A5 A5 A3 A3 A3 A4 A4 A4 A4 A1 A1 A1 A1 A1 A1 A1 B1 B1 B1 B1 D4 D3 A4 C5 B4 B4 D4 C5 C5 C5 C5 F5 F5 F5 E8 F8

9N18 9NA1 9NA2 9NA3 9NA4 9NA5 9NA6 9P00 9P01 9P61 9P62 9P63 9P64 9T53 9T54 9T55 9T56 9T58 9T61 9T63 9T64 9T77 9TA1 9U55 9U82 9U83 9U85 9U86

F8 E5 D6 E5 F7 F7 F7 D3 D5 E5 E5 E6 E6 D6 D6 D8 D6 D7 D7 D7 D7 D7 C5 E1 F1 F1 F1 F1

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

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Layout Small Signal Board (Part 1 Top Side)

Part 1

H_17650_046a.eps 070108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

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Layout Small Signal Board (Part 2 Top Side)

Part 2

H_17650_046b.eps 070108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

101

Layout Small Signal Board (Part 3 Top Side)

Part 3

H_17650_046c.eps 070108

Circuit Diagrams and PWB Layouts

Q528.2E LA

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102

Layout Small Signal Board (Part 3 Top Side)

Part 4

H_17650_046d.eps 070108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

103

Layout Small Signal Board (Overview Bottom Side) 1A10 1C05 1GE1 1H00 1P3T 1P3V 1P3W 1P3Y 1P3Z 1P4R 1P4S 1P4T 1P4U 1P4V 1P4W 1P4Y

E6 A7 A5 B4 D1 E3 E3 E3 E3 E4 E4 E4 E4 E3 E3 E3

1P4Z 1T85 1TA1 1U02 2A18 2A19 2A20 2A21 2A22 2A23 2A24 2A25 2A50 2AA0 2AA1 2AA2

E3 C2 D3 F8 E6 D6 E6 E6 E6 E6 F5 F5 F6 F6 F6 E6

2AA3 2AA6 2AA7 2AA8 2AA9 2AAA 2AAB 2AAE 2AAF 2AAG 2AAH 2AAJ 2AAK 2AAL 2AAM 2AAN

E6 F7 F6 F7 E6 E7 E6 E7 E6 E6 E6 E6 E6 F7 F7 F7

2AAP 2AAR 2AAS 2AAT 2AAU 2AAV 2AAW 2AAZ 2AB0 2AB1 2AB2 2AB3 2AB4 2AB5 2AB6 2AB7

F6 F6 F6 F6 F6 F6 F6 E5 E5 E6 E6 E6 E6 F6 F6 F6

2AB8 2AB9 2ABA 2ABB 2ABC 2AC0 2AE2 2AE5 2AE6 2AE7 2AE8 2AE9 2AEB 2AEC 2AED 2AEE

E6 E6 E6 E5 E7 E5 F5 F5 F5 F5 F5 F5 F5 F6 E5 E5

2AEF 2AEG 2AEH 2AEJ 2AEK 2AEL 2AEN 2AEP 2AER 2AET 2AEZ 2AF0 2AF4 2AF5 2AF8 2AFB

E5 E5 E6 E5 E5 F5 E5 E5 F5 E5 E5 F5 E5 E5 F5 F6

2AFC 2AFD 2AFE 2AFF 2AFG 2AFH 2AFJ 2AFK 2AFL 2AFN 2AFP 2AFQ 2AFR 2AFS 2AFT 2AFW

F6 F6 E5 F5 E5 E5 F5 F5 F5 E5 E5 E5 E5 E6 E6 E5

2AFY 2AG4 2AG5 2AG6 2AG7 2AG8 2AG9 2AGA 2AGB 2AGC 2AGD 2AGG 2AGH 2AGN 2AGP 2AGT

E5 E5 E5 E5 E5 E5 F5 F6 F6 E6 E6 E5 E5 F6 F5 E6

2AM0 2AM1 2AM2 2AM3 2AM4 2C00 2C01 2C50 2C51 2CA0 2CA1 2CA2 2CA3 2CA4 2CA5 2CA6

F5 F4 F4 F5 F4 A7 A7 A7 A7 A7 A7 B7 B7 B7 B7 B7

2CA7 2CA8 2CA9 2CAA 2CAB 2CAC 2CAD 2CAE 2CAF 2CAG 2CAH 2CAK 2CAM 2CAN 2CAP 2CAR

B8 B8 B8 B8 B8 B8 B8 B8 A8 A8 A8 A8 A8 A8 A8 A8

2CB2 2CB4 2CB5 2CB6 2CB7 2CB8 2CBA 2CBB 2CBC 2CBD 2CBF 2CBG 2CBH 2CBK 2CBN 2CBP

B6 A8 A8 A8 A8 B7 A8 B8 A8 A8 B8 B7 B8 B7 B8 B8

Part 1 H_17650_047a.eps

2CBS 2CD0 2CD1 2CD2 2CD3 2CD4 2CD5 2CD6 2CD8 2CD9 2CDA 2CDC 2CDD 2CDF 2CDG 2CDH

B8 B7 A7 B7 A7 A7 B7 B7 A7 B7 B7 B7 A7 B7 A7 B7

2CDK 2CDM 2CDN 2CDP 2CDS 2CDT 2CDU 2CDV 2CDW 2CDX 2CDY 2CDZ 2CE0 2CE1 2CE2 2CE3

A7 A7 A7 A7 B7 A7 B7 A7 B6 A7 B7 B7 B7 B7 B7 A7

2CE4 2CE5 2CE6 2CE7 2CE8 2CE9 2CEA 2CEB 2CEC 2CED 2CEE 2CEF 2CEG 2CEH 2CEK 2CEM

B7 A7 A7 A7 A7 A7 B7 B7 B7 A7 B7 A7 A7 B7 A7 A7

2CEN 2CEP 2CER 2CET 2CEU 2CF0 2CF1 2CF2 2CF3 2CF4 2CF5 2CF6 2CF7 2CF8 2CF9 2CFA

B6 B7 A7 A7 A7 B7 B7 B7 B7 B7 B7 A7 A7 A7 A7 A7

2CFD 2CFE 2CFF 2CFG 2CFK 2CFM 2CFN 2CFP 2CFR 2CFT 2D24 2D25 2D31 2D32 2D35 2D36

A7 A7 A7 A7 B6 B6 B6 B7 B6 B6 C8 C8 C8 C7 C7 C7

2D37 2D42 2D43 2D46 2D49 2D50 2D52 2D53 2D54 2D5F 2E01 2E02 2E04 2E05 2E06 2E07

C8 C7 C7 C8 C8 C8 C7 C8 C8 C8 B2 A1 B1 A4 B1 A4

2E08 2E10 2E12 2E13 2E14 2E15 2E16 2E17 2E18 2E19 2E1A 2E1B 2E1C 2E1D 2E1E 2E1F

A4 B2 A2 A2 A2 B2 B3 A3 B1 A3 A2 B2 A2 A2 A2 A2

2E21 2E22 2E23 2E24 2E28 2E29 2E30 2E31 2E32 2E33 2E34 2E39 2E41 2E44 2E49 2E50

A4 A4 A4 A1 A4 B3 B2 B2 B3 A2 A4 A1 A2 A1 A4 B3

2E51 2E52 2E60 2E61 2E62 2E63 2E64 2E67 2E68 2E70 2E71 2E72 2E73 2E74 2E75 2E76

B2 A4 A4 A4 A4 A5 B3 A3 A3 B3 B3 B3 A3 A2 A1 A1

2E77 2E78 2E81 2E82 2E87 2E88 2E90 2E91 2E92 2E93 2E95 2E96 2E9A 2EA1 2EA2 2EA3

A1 A1 A1 B2 B2 B1 B2 B1 B3 B3 A4 A4 A4 A2 A2 A2

2EA4 2EA5 2EA6 2EA7 2EA8 2EA9 2EAA 2EAB 2EAC 2EAD 2EAE 2EAF 2EAL 2EAP 2EAQ 2EAR

B2 B2 A2 B1 B1 A2 B1 B1 B2 B2 B1 B1 B1 A2 A2 A4

2ECB 2ECC 2ECE 2ECF 2ECG 2ECH 2ECK 2ECL 2ECM 2ECN 2ECP 2G58 2G59 2G60 2G63 2G64

A1 A1 A1 A1 A1 A1 A1 A1 B1 B1 B1 A5 A5 A8 A7 A7

2G65 2G66 2G7A 2GJ0 2GK0 2GK3 2GL2 2GL3 2H00 2H01 2H02 2H03 2H04 2H06 2H07 2HA2

A7 A7 B8 A5 A5 A5 A5 A5 C4 B4 B4 B4 B4 C4 C4 C4

2HA3 2HA4 2HA5 2HBM 2HBN 2HBP 2HBU 2HBV 2HBW 2HBY 2HC0 2HC1 2HD0 2HF2 2HF5 2HF6

C4 C4 C4 B5 B5 B4 B5 B5 B5 B5 B6 B4 B5 B5 B6 B5

2HF7 2HF8 2HG0 2HG1 2HG2 2HG3 2HG4 2HG5 2HG6 2HG7 2HG8 2HG9 2HGA 2HGB 2HGC 2HGD

B6 B6 B6 B6 B6 C6 B6 B6 C6 B6 B6 B6 C6 C6 B6 B6

2HGE 2HGF 2HGG 2HGH 2HGJ 2HGK 2HGM 2HGN 2HGP 2HGR 2HGS 2HGT 2HGU 2HGV 2HGW 2HGY

B6 C6 B6 C6 C6 C6 C6 C6 C6 C6 C6 C6 C6 C6 C6 C6

2HGZ 2HH0 2HH1 2HH2 2HH3 2HH4 2HH5 2HH6 2HH7 2HH8 2HH9 2HHA 2HHC 2HHD 2HHE 2HHF

C6 C6 C6 C6 C6 C5 C6 C5 C5 C5 C5 B6 C7 C6 C7 C6

2HHG 2HHH 2HHJ 2HHK 2HHM 2HHN 2HHP 2HHR 2HHS 2HK1 2HK2 2HK4 2HK6 2HK7 2HK8 2HKL

C7 C6 C7 C6 B6 C6 C6 C6 C6 C5 C5 C5 C5 C5 C5 C4

2HM3 B6 2HM4 B6 2HM5 B5 2HM8 B6 2HMG B6 2HMJ B4 2HMN B5 2HMP B4 2HMT B4 2HMW B5 2HMY B5 2HMZ B5 2HN1 B5 2HP1 A5 2HQ4 B4 2HQ5 B5

2HQ6 2HQ7 2HQ8 2HQA 2HQB 2HQS 2HQT 2HSN 2HSQ 2HSR 2HSS 2HST 2HSV 2HSW 2HSY 2HSZ

B5 B5 B5 B4 B4 C5 B5 C4 C4 C4 C4 C4 C4 C5 C4 C4

2HT0 2HT1 2HT2 2HT3 2HT4 2HT5 2HT6 2HT7 2HTB 2HTC 2HTD 2HTE 2HTF 2HTG 2HTH 2HTK

C4 C4 C4 C4 C5 C4 C5 C5 C4 C4 C4 C4 C4 D4 C4 C4

2HTZ 2HU0 2HU1 2HU2 2HU3 2HU4 2HU5 2HU6 2HU7 2HUB 2HUC 2HUD 2HUK 2HUN 2HUP 2HVD

C4 C4 C4 C4 C4 C4 C4 C4 C4 D4 C4 C4 C4 C4 C4 B5

2HVE 2HVG 2HVH 2HVK 2HY0 2HY1 2HY2 2HY3 2HY4 2HY5 2HY6 2HY7 2HY8 2HY9 2HYA 2HYB

B5 B5 B5 B5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5

2HYC 2HYD 2HYE 2HYF 2HYG 2HYH 2HYJ 2HYK 2HYM 2HYN 2HYP 2HYR 2HYS 2HYT 2HYU 2HYV

Part 2 H_17650_047b.eps

Part 4 H_17650_047d.eps Part 3 H_17650_047c.eps

3139 123 6341.1

H_17650_047.eps 070108

C5 C5 C5 C5 C5 B5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5

2HYW 2HYY 2HYZ 2HZ0 2HZ1 2HZ2 2HZ3 2HZ4 2HZ7 2HZ8 2HZ9 2HZA 2HZB 2HZC 2HZD 2HZE 2HZF 2HZG 2HZH 2HZJ 2HZN 2HZP 2HZQ 2HZR 2HZS 2HZT 2HZU 2HZV 2HZW 2HZY 2HZZ 2N01 2N03 2N04 2N05 2N15 2N16 2N21 2N23 2NA3 2NA4 2NA7 2NA9 2P03 2P04 2P05 2P06 2P07 2P09 2P0B 2P0C 2P0D 2P0E 2P0L 2P0P 2P0Q 2P0R 2P0T 2P0U 2P37 2P38 2P3A 2P3K 2P3L 2P45 2P46 2P4C 2P4L 2P4M 2P4P 2P61 2P66 2P68 2P69 2P70 2P71 2P72 2P73 2P74 2P75 2P76 2P77 2P78 2P79 2P7A 2P7B 2P7C 2P7D 2P7E 2P7F 2P7G 2P7H 2P7J 2P7L 2T01 2T03 2T04 2T05 2T07 2T08 2T09 2T12 2T13 2T14 2T15 2T16 2T18 2T19 2T20 2T21 2T24 2T25 2T26 2T27 2T28 2T29 2T31 2T32 2T35 2T36 2T44 2T45 2T46 2T47 2T51 2T5D 2T60 2T63 2T65 2T66 2T73 2T74 2T75 2T77 2T78 2T79 2T80 2T81 2T82 2T83 2T84

B5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 C5 B5 C5 D6 B5 B5 B5 C5 C5 A4 D4 B5 E2 D4 F1 E2 F2 E2 D5 D4 E4 E4 E4 E4 D7 D6 D7 D6 D6 D6 D7 D6 D6 D6 D6 D3 D7 D3 D3 D5 E3 E3 E3 E1 D1 E3 E3 E3 E3 E3 E3 D2 D2 D2 D2 D3 D3 D3 E3 D3 E3 D3 E3 D3 D3 D3 D3 D3 E3 D3 D3 D3 D3 E3 E3 C2 C2 C2 C2 C3 C2 C3 C2 C2 C2 C3 C3 C2 C2 C2 C2 C3 C2 C3 C2 C3 C3 C3 C2 C3 C3 C2 C2 C2 C2 C2 D1 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2

2T85 2T86 2T87 2T88 2T92 2T96 2T97 2T98 2T99 2TA1 2TA2 2TAE 2TAF 2TAG 2TAJ 2TAK 2TAM 2TAN 2U00 2U01 2U02 2U03 2U04 2U07 2U0A 2U0B 2U0C 2U0D 2U0E 2U0G 2U0H 2U0M 2U0N 2U0P 2U0S 2U0T 2U0U 2U0V 2U12 2U13 2U16 2U17 2U27 2U28 2U29 2U2A 2U2B 2U70 2U71 2U80 2U81 2U82 2U83 2U84 2U85 2U87 2U88 2U89 2U8B 2U8J 2U8L 2U8N 2U8P 2U8S 2U8T 2U8W 2U8Y 2U8Z 3A01 3A02 3A03 3A04 3A10 3A11 3A12 3A13 3A14 3A15 3A16 3A17 3A19 3A20 3A21 3A22 3A23 3A24 3A25 3A26 3A27 3A28 3A29 3A30 3A31 3A32 3A35 3A36 3A43 3A44 3A45 3A46 3A47 3A48 3A49 3A4A 3A50 3A51 3A52 3A54 3A55 3A56 3A57 3AAA 3AAD 3AAG 3AAH 3AAN 3AAP 3AAQ 3AAR 3AAS 3AAT 3AC0 3AC1 3AC2 3AC3 3AC4 3AC5 3AC6 3AC7 3AC8 3AC9 3ACA 3ACB 3ACC 3ACD 3AM0 3AM1 3AM2 3AM3 3C00 3C01

C2 C2 C2 C2 C2 C2 C2 C2 C2 C3 C3 D3 D4 C3 C3 C3 D3 C3 E7 D8 D8 E8 E8 D7 E7 E8 E8 E8 E7 E8 E8 E7 E7 D7 D7 D7 D7 D7 E8 E8 D7 D8 E8 E8 E7 E8 E7 E7 E7 F8 F7 F8 F8 F8 E7 F7 F7 F7 F7 D8 F7 F8 F7 F8 F8 F7 F7 F7 F5 F5 E5 E4 F6 F6 F6 E5 E6 E5 F4 E5 F6 F4 E5 F4 F4 F4 F5 E6 E6 E6 F5 F5 F5 F5 F6 E5 F4 F5 F5 F4 F4 F4 F4 E4 F5 F5 F5 F5 F6 F5 F5 E6 E6 F6 E6 F6 F7 F6 E5 E5 E5 E5 E5 E5 E5 E5 E5 E4 E5 E4 E5 E5 E5 E4 E5 F4 F5 F5 F5 A6 A7

3C04 3C05 3C06 3C07 3C10 3C15 3C27 3C28 3C37 3C48 3C50 3C53 3C62 3C63 3C67 3C71 3C75 3C79 3C83 3C87 3C91 3C94 3CA0 3CA1 3CA2 3CA3 3CA4 3CA9 3CD0 3CD1 3CD2 3CD3 3CD4 3CD5 3CD6 3CD7 3CD9 3CE1 3CE2 3D18 3D19 3D21 3D24 3D27 3D28 3D29 3D33 3D35 3D42 3E02 3E04 3E07 3E08 3E11 3E12 3E13 3E14 3E15 3E16 3E17 3E18 3E19 3E20 3E21 3E22 3E24 3E25 3E27 3E28 3E30 3E31 3E32 3E33 3E34 3E36 3E37 3E38 3E39 3E40 3E41 3E42 3E43 3E44 3E45 3E48 3E50 3E51 3E52 3E53 3E54 3E55 3E56 3E57 3E58 3E59 3E60 3E61 3E62 3E63 3E64 3E68 3E69 3E73 3E79 3E82 3E85 3E92 3E93 3E95 3E96 3E97 3E98 3E99 3EA1 3EA2 3EA3 3EA4 3EA5 3EA6 3EA7 3EA8 3EA9 3EAA 3EAB 3EAC 3EAD 3EAE 3EAF 3EAG 3EAH 3EAJ 3EAK 3EAL 3EAM 3EAN 3EAP 3EAQ 3EAR 3EAS 3EAT 3EAV

A7 A6 A7 B7 B7 B7 A7 A7 B7 B7 B7 B7 A7 A7 A7 A7 A7 A7 A7 A7 A7 A5 A7 B7 B7 A8 A8 A8 B6 B6 B6 B6 B6 B6 B6 B6 B6 B6 B6 C8 C7 C7 C7 C7 C8 C7 C8 C8 C8 B3 A4 B1 A4 B2 B2 A4 B2 B2 A2 A2 B2 B1 A4 B3 B1 B3 A4 B1 B2 B2 B1 B1 A4 B2 A3 B2 A2 A4 A4 A4 B3 A1 A1 A2 A4 A4 A3 A3 A4 A2 A3 A4 B1 A4 A1 A4 A2 A2 B3 B3 A1 A2 A2 B1 A1 A1 A3 A1 B3 B3 B3 B3 A1 A1 A1 A1 A1 A1 A1 B2 B2 B2 A2 A2 A2 B1 B1 B1 B1 B2 B2 B1 B1 B1 B1 B2 B2 A4 A4 A2 A2

3EAW 3EB0 3EB1 3EB2 3EB3 3EB5 3EB6 3EB7 3EB8 3EB9 3EBA 3EBB 3EBC 3EBD 3EC2 3EC3 3EC4 3EC5 3EC6 3EC7 3EC8 3ECA 3ECB 3ECC 3ECD 3ECF 3ECG 3ECH 3ECK 3ECL 3ECM 3ECN 3ECP 3ECQ 3ECR 3ECS 3ECT 3ECU 3ECV 3ECW 3ECY 3G60 3G62 3G65 3G67 3G69 3G70 3G72 3G73 3G76 3G77 3G78 3G79 3G86 3G88 3G90 3G91 3G93 3G94 3G96 3G98 3G99 3GA4 3GE0 3GE1 3GE3 3GE4 3GE5 3GF1 3GG0 3GG1 3GG2 3GH3 3GH4 3GH5 3H00 3H02 3H03 3H04 3H05 3H0A 3H10 3H13 3H14 3H15 3H16 3H17 3H19 3H20 3H21 3H23 3H24 3H26 3H27 3H28 3H30 3H31 3H32 3H36 3H37 3H38 3H39 3H42 3H44 3H46 3H48 3H51 3H52 3H58 3H60 3H64 3H70 3H78 3H86 3H87 3H92 3HBK 3HBM 3HBN 3HC2 3HC7 3HC8 3HC9 3HD3 3HE5 3HED 3HEE 3HES 3HEU 3HF0 3HF1 3HF2 3HF3 3HF4 3HFH 3HFK 3HFM 3HFN 3HFR 3HFY 3HG1

B1 B2 A1 A1 A1 A1 A2 A2 A3 A3 A1 B2 A2 A2 A2 A2 A2 A2 A2 A2 A2 A2 A1 A1 B1 B1 A1 A1 A2 A1 A1 A1 A1 B1 B1 B1 B1 B1 B1 B1 B1 A8 A5 A5 A8 A5 A5 A8 A5 A7 A7 A7 A7 A8 A7 A7 A7 A7 A7 A7 A7 A7 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 A5 C4 B4 B4 B4 C4 C4 B4 B4 B4 B4 B4 B4 B4 B4 B4 B4 B4 B4 B4 B4 B5 B5 B4 C4 B4 B4 C4 C4 B4 C4 C4 C4 C4 C4 C4 B4 B4 B5 B4 B4 B4 C5 C4 C4 B6 B4 B4 B6 B5 C5 C5 C5 C5 C5 B6 C5 B6 B5 B6 B6 B6 B6 B6 B6 C5 C5

3HG2 C5 3HG3 C5 3HG4 C5 3HG5 C5 3HG6 C5 3HG7 C5 3HG8 C5 3HG9 C5 3HGA C5 3HGB C5 3HGC C6 3HGD C5 3HGE C5 3HGF C6 3HGG C5 3HGH C5 3HGJ C5 3HGK C6 3HGM C5 3HGN C5 3HGP C6 3HGR B6 3HGS B6 3HGT B6 3HGU B6 3HGV C6 3HGW B6 3HGY C6 3HGZ C6 3HH0 B6 3HH1 C6 3HH2 B6 3HH3 B6 3HH4 C6 3HH5 B6 3HH6 C6 3HH7 C6 3HH8 C6 3HH9 B6 3HHA B6 3HHB C6 3HHC C6 3HHD C6 3HHE C6 3HHF C6 3HHG C6 3HHH C6 3HHJ C6 3HHK C6 3HHL C6 3HHM C6 3HHN C6 3HHP C6 3HHR C6 3HHS C6 3HHT C6 3HHU C6 3HHV C6 3HHW C6 3HHY C6 3HHZ C6 3HJ1 C5 3HJ2 C5 3HJ3 B6 3HJ4 B6 3HJ5 C5 3HJ6 C7 3HJ7 C6 3HJ8 C6 3HJ9 C6 3HJA C6 3HJB C6 3HJC C6 3HJD C7 3HJE C6 3HJF C6 3HJG C6 3HJH C6 3HJJ C6 3HJK C6 3HJM C6 3HJN C6 3HJP C6 3HJR C6 3HJS C6 3HJT C6 3HJU C6 3HJV C5 3HJW C5 3HJY C5 3HJZ C5 3HK0 C5 3HKN C6 3HKR B6 3HKS C6 3HKT C6 3HKV C6 3HMA B6 3HMB B5 3HMC B6 3HMD B5 3HME B4 3HML B6 3HMM B5 3HMU B6 3HMV B6 3HMW B6 3HMY B6 3HMZ B6 3HP8 D5 3HP9 B5 3HPC A5 3HPD B6 3HPE B5 3HPF B6 3HPG B5 3HPH B5 3HPJ B5 3HPK B5 3HPM B5 3HPX A5 3HPY A5 3HPZ A5 3HQ8 B5 3HQG B4 3HQH B4 3HQN B5 3HS3 C4 3HS4 C4 3HS5 C4 3HS6 C4 3HS7 C4 3HSA C4 3HSB C4 3HSD C4 3HSE D4 3HSR C4 3HSU C4 3HT3 C4 3HT4 D4 3HT9 C4

3HTA C4 3HTB C4 3HTC C4 3HTD C4 3HTE C4 3HTF C4 3HU0 C4 3HU1 C4 3HU3 C4 3HU4 C4 3HU5 C4 3HU6 C4 3HV3 B5 3HV4 B5 3HWK C5 3HWM C5 3HWN C5 3HWP C5 3HWR C5 3HWS C5 3HWT C5 3HWU C5 3HWV C5 3HWW C5 3HWY C5 3HWZ C5 3N09 E2 3N10 E2 3N11 E2 3N12 F2 3N13 F2 3N14 E2 3N15 F2 3N16 F2 3N17 F2 3N18 E2 3N19 E2 3N20 E2 3N21 D5 3N23 D6 3N24 E2 3N25 E2 3N26 F2 3N27 F2 3NA3 E4 3NA6 E4 3NA7 E4 3NA8 E4 3NA9 E4 3NAA E4 3NAB E4 3NAC E4 3NAH E4 3NAJ E4 3NAK E4 3NAL E4 3P00 D7 3P02 D6 3P03 D6 3P04 D6 3P05 D7 3P07 D6 3P08 D6 3P0C D6 3P0D D6 3P33 E3 3P34 E3 3P35 E3 3P36 E3 3P3A E3 3P3B E3 3P3C E3 3P3D E3 3P3E E3 3P3F E3 3P3G E3 3P3S D1 3P3T D1 3P3U D1 3P3V D1 3P3W D1 3P3Y D1 3P3Z D1 3P40 E3 3P41 E3 3P43 E3 3P44 E3 3P45 E3 3P46 E3 3P47 E3 3P48 E2 3P4A E3 3P4B E3 3P4C E2 3P4L E3 3P4M E3 3P4N E4 3P4P E4 3P4Q E4 3P4R E3 3P4S E4 3P4T E3 3P4U E3 3P4W E4 3P4Z E3 3P65 D2 3P66 D2 3P67 D2 3P68 D2 3P6A E3 3P6B E1 3P6C E3 3P6D E3 3P6E D1 3P6F D1 3P6G D1 3P71 D3 3P73 E3 3P75 D3 3P76 D3 3P77 D3 3P78 D3 3P79 D3 3P7A E3 3T01 C2 3T02 C2 3T05 C2 3T06 C2 3T07 C2 3T08 C2 3T09 C2 3T10 C2 3T11 C2 3T13 C3 3T14 C3 3T16 C2 3T17 C3 3T18 C2 3T19 C2 3T20 C2 3T21 C2

3T22 3T23 3T24 3T25 3T26 3T27 3T28 3T29 3T30 3T31 3T32 3T33 3T34 3T39 3T40 3T41 3T42 3T54 3T55 3T56 3T57 3T58 3T59 3T64 3T70 3T71 3T74 3T75 3T76 3T78 3T79 3T85 3T86 3T87 3TA2 3TA5 3TB0 3TB1 3TB2 3TB5 3TB6 3TBB 3TBC 3TBD 3TBE 3TBF 3TBK 3TBL 3U00 3U01 3U02 3U03 3U04 3U05 3U06 3U0B 3U0C 3U0D 3U0E 3U0F 3U0G 3U0H 3U0J 3U0M 3U0N 3U0P 3U0R 3U0S 3U0T 3U0U 3U0V 3U0W 3U0Y 3U0Z 3U10 3U11 3U12 3U13 3U14 3U15 3U16 3U17 3U18 3U19 3U1A 3U1B 3U1C 3U1D 3U1E 3U1F 3U1G 3U1H 3U1K 3U1M 3U1N 3U1P 3U1R 3U1S 3U1T 3U1U 3U1V 3U1Z 3U20 3U21 3U22 3U23 3U24 3U25 3U26 3U27 3U28 3U29 3U2A 3U2B 3U2C 3U2D 3U2E 3U2F 3U2J 3U2K 3U2N 3U2R 3U2U 3U2V 3U2W 3U2Y 3U2Z 3U30 3U31 3U32 3U39 3U3A 3U3B 3U3C 3U3D 3U3E 3U3F 3U3G 3U3H 3U3K 3U3L

C3 C3 C2 D2 C2 C3 C2 C2 C2 C2 C3 C3 C3 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C3 C3 C3 C3 C3 C2 C2 C3 C3 C3 C3 C3 C2 C2 E7 E7 D8 E8 E8 E8 E8 D7 D7 D7 D8 E8 E8 E7 E8 E7 E8 E8 E7 E7 E7 E7 E7 E7 E8 E8 E8 E8 D8 D8 E8 E8 E7 E7 D8 D8 D8 D8 D7 E8 D8 D8 E7 E7 D8 E8 E8 E7 E7 E8 E7 D8 D8 F7 F7 F7 F8 F8 F7 F7 F7 F7 F8 F8 F8 F8 F8 F8 F7 F7 F7 F7 F7 F7 F7 F7 F7 F7 F7 F7 F8 F8 F8 F7 F7 F7 F7 F7 F7 F7 F7 F7 F7

3U3M 3U3P 3U3Q 3U3Y 3U3Z 3U40 3U41 3U43 3U44 3U45 3U47 3U48 3U49 3U4B 3U71 3U72 3U73 3U77 5A10 5AA0 5AE0 5AE2 5AE4 5AE5 5AE7 5AE8 5AE9 5CA1 5CD1 5CD2 5CD3 5E02 5E11 5E12 5E13 5EA1 5EA2 5HBZ 5HG0 5HG1 5HK0 5HK1 5HK2 5HK3 5HK4 5HM0 5HQ2 5HR6 5HR7 5HR9 5HRA 5HRL 5HU0 5HU1 5HU2 5HY0 5HY1 5HY2 5HY3 5HY4 5HY5 5HY6 5HY7 5HY8 5HY9 5HYA 5N01 5N03 5N04 5P00 5P01 5P02 5P32 5P3K 5P41 5P4L 5P74 5P75 5P76 5T08 5T09 5T53 5U51 6E01 6E02 6E03 6E06 6E07 6E08 6E09 6E10 6E12 6E14 6E20 6E21 6E22 6E23 6E24 6E26 6E28 6E29 6E30 6E31 6E32 6E34 6E35 6E36 6E37 6E38 6E41 6E43 6E44 6E45 6E46 6E47 6E48 6E50 6E52 6E53 6EA0 6EA1 6GE6 6GE7 6H00 6H02 6H03 6HC1 6P30 6P3M 6P41 6P4L 6P61 6P62 6P63 6P64 6P65 6P66 6P70 6TA1 6U00 6U01

F7 F7 F7 E8 E8 E8 E8 E8 E7 E7 E8 E8 F8 E7 E8 E8 E7 E8 E6 E5 F6 E5 E5 E5 E6 F5 E6 B7 A7 A7 A7 A1 A2 A2 A2 A2 B1 B5 C5 C5 C5 C5 C5 C5 C5 B6 B5 C4 C5 C4 D4 C4 C4 C4 C4 C5 C5 C5 C5 C5 C5 C5 C5 B5 C5 C6 E2 D4 F1 D7 D6 D6 E3 D1 E3 E3 D3 D3 E3 C2 C2 C2 F8 B2 A2 B1 B3 B2 B2 B1 B3 B3 B2 C1 B1 B1 B2 B3 A2 A2 A1 A2 A3 A1 A3 A3 A2 A2 B3 C1 B1 B1 A1 A1 A4 A4 A4 A4 B3 A3 A3 A5 A5 B5 B4 B5 B5 E3 D1 E3 E3 D2 D2 E3 E1 E3 E3 E3 C3 D8 D7

6U02 6U03 6U04 6U05 6U06 6U07 6U08 6U09 6U0B 6U0C 7A10 7A12 7A50 7AM0 7CA0 7CA1 7CD1 7D11 7D12 7D15 7E01 7E02 7E03 7E04 7E05 7E06 7E09 7E10 7E14 7E15 7E16 7E17 7EA1 7EA3 7G55 7G56 7G57 7G59 7GE1 7GE2 7GE5 7H14 7H16 7H93 7HC0 7HC1 7HC2 7HC3 7HC4 7HD0 7HF1 7HG2 7HM1 7HM2 7HM3 7HM4 7HP5 7HQ0 7HVA 7N09 7N10 7N13 7N14 7P31 7P32 7P36 7P38 7P41 7P44 7P4P 7P4Q 7P4R 7T17 7T18 7T20 7T25 7T56 7T57 7T5B 7TA1 7TA2 7TA3 7TA4 7U00 7U01 7U03 7U04 7U07 7U09 7U0A 7U0E 7U0G 7U0I 7U0L 7U0P 7U0R 7U70 7U71 7U72 9A21 9A22 9A51 9AA2 9C1A 9C1C 9C1F 9CA1 9CA2 9E00 9E02 9E03 9E06 9E10 9E15 9E16 9E1A 9E1B 9E1C 9E1D 9E21 9EA1 9EA2 9EA3 9EA4 9EA5 9EA6 9EAB 9GAA 9GAB 9GAC 9GAD 9GE0 9GE1 9GE4 9GE5 9GE6 9GE7 9H02 9H03 9H04 9H06

E7 D8 D8 F8 F7 F7 F7 F7 E8 E8 E6 E6 F5 F5 A8 B8 B6 C8 C8 C8 B2 A1 A4 A3 A2 A1 A1 A4 A2 A1 A1 A4 A2 B1 A8 A5 A7 A5 A5 A6 A5 B4 B4 B4 B4 B4 B4 B6 B6 B5 B6 C6 B5 B6 B6 B6 A5 B4 B5 F2 E2 D4 D5 E3 E3 D1 E3 E3 E3 E3 D1 D1 C3 C3 D2 C2 C2 C2 D1 C3 C3 C3 C3 E7 D8 D8 D7 E8 D7 E8 F7 F8 F7 F8 E8 E8 D8 E8 E7 E6 E6 F5 E6 A8 A8 A8 A7 A8 A3 A3 B3 A4 A2 A1 A1 A2 A2 A2 A1 A1 B2 A2 A2 B1 B1 B1 A1 A7 A7 A7 A7 A5 A5 A5 A6 A6 A6 D5 C4 B4 C4

9H0A B4 9H0B B4 9H0C B4 9H0D B4 9H0E B4 9H0F B4 9HE4 C5 9HE5 C5 9HE6 C5 9HE7 C5 9HF1 A5 9HF2 A5 9HF3 C5 9HF4 C5 9HF8 B5 9HK0 D5 9HM1 B6 9HM2 B6 9HW0 C5 9HW3 B5 9HW4 B5 9HW5 B5 9HW6 B5 9HW7 B5 9HW8 B5 9HW9 C5 9HWA B5 9HWB B5 9HWC B5 9HWD B5 9HWE B5 9HWF B5 9HWG B5 9HWH B5 9HWJ B5 9HWK B5 9HWM B5 9HWN B5 9HWP B5 9HWR B5 9HWS B5 9HWT B5 9HWU B5 9HWV B5 9HWW B5 9HWY B5 9HWZ B5 9HY0 C5 9HY1 C5 9HY2 C5 9HY3 D5 9HY4 C5 9HY5 C5 9HY6 C5 9HY7 C5 9HY8 C5 9HY9 C5 9HYA C5 9N01 E2 9N02 F2 9N10 F4 9N11 F4 9N12 F4 9P02 D6 9P30 E3 9P31 E3 9P3K E1 9P3L D1 9P42 E3 9P43 E3 9P4J D1 9P4K D1 9P4L E4 9P4M D1 9P4N E3 9P4P D1 9P65 D1 9P70 D3 9P71 E3 9T01 C3 9T02 C3 9T03 C2 9T20 C3 9T57 C2 9T59 C3 9T60 C3 9T62 C3 9T65 C3 9T66 C2 9T67 C2 9T68 C2 9T69 C2 9T6A C2 9T6B C2 9T70 C2 9T78 C2 9T79 C2 9TA2 C2 9TA3 C2 9U01 D7 9U02 E8 9U03 E7 9U81 F8 9U84 F8 9U87 F7

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

104

Layout Small Signal Board (Part 1 Bottom Side)

Part 1

H_17650_047a.eps 090108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

105

Layout Small Signal Board (Part 2 Bottom Side)

Part 2

H_17650_047b.eps 090108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

106

Layout Small Signal Board (Part 3 Bottom Side)

Part 3

H_17650_047c.eps 090108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

107

Layout Small Signal Board (Part 4 Bottom Side)

Part 4

H_17650_047d.eps 090108

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

108

Keyboard Control Panel 1N13 C3 1N14 C4 1N15 C4

1N10 A1 1N11 C2 1N12 C3

1N16 C4 2N10 B1 2N11 B2

3N08 B1 3N09 B2 3N11 B2

Layout Keyboard Control Panel (Top Side) 3N12 B3 3N13 B3 3N14 B3

1

6N10 B2 FN09 B1 FN10 B1

3N15 B4 3N16 B4 4N10 B4

2

FN11 B1 FN12 B1 IN11 B3

IN12 B3 IN13 B3 IN14 B4

IN15 B4

3

KEYBOARD CONTROL

E

1N11 1N12 1N13 1N14 1N15 1N16

4

E

A

F1 H1 D1 A1 B1 J1

1N10 2N10 2N11 3N08 3N09 3N11 3N12 3N13 3N14 3N15 3N16 4N10 6N10

A TO KEYBD 1N10

3N17

680R 4N10

KEYBOARD

3N13 3K9

3N16 8K2

3N15 18K

SKRE 1N13 2

2

SKRE 1N12

CH+

CH-

IN14

IN15

SKRE 1N15

SKRE 1N14

MENU

VOL+

1

IN13

1

IN12

1 SKRE 1N11

C

SKRE 1N16

VOL-

ON / OFF H_17650_050.eps 090108

3139 123 6323.1

1

B

RES

IN11

C

3N14 5K6

2

RES

3N12 1K5

1

RES

3N11 2K2

2

3N09 10R

1

3N08 2N11 10R 10n

2

2N10 1n0 RES

1

BM04B-SRSS-TBT

B

INTERRUPT

FN09 FN10 FN11 FN12

2

6

6N10

5

BZX384-C4V7

4 3 2 1

2

3

4

3139 123 6323.1

3139 123 6323.1 H_17650_051.eps 140108

H_17650_052.eps 090108

I1 H1 H1 H1 H1 H1 G1 H1 D1 A1 B1 H1 I1

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

109

IR & LED Panel

1

3

4

5

7

8

IR & LED PANEL +5V_SW

1P09

19-113/T7D-CS2T2B2-3T

1P10 FP10 FP20 FP11 FP12 FP13 FP14 FP15 FP16 FP17

LIGHT_SENSOR

3P11 1K8

3P13 270R

IP10

IP22

6P11

IP12

4P01 RES

IR LED2

+3V3STBY

LED1 KEYBOARD

3P15

RES 6P12

IP11

B

IP15 7P10 BC847BW

10K TACT_SWITCH_INT

10 11 +3V3STBY +3V3STBY

1P11

3P07 680R RES

LED2

3P08 680R RES

3P28 10K

3P14 10K

3P27 10K

FROM ME8 KEYB

KEYBOARD

C

+3V3STBY TACT_SWITCH_INT 6

FP18

LIGHT_SENSOR

5

IR

C

6P10

IP13

7P11 BC847BW

BM09B-SRSS-TBT

1 2 3 4

A

3P10 1K8

4P02 (RES FOR BDS)

IP14

LED1

+5V_SW

3P12 270R

SML-512

5

SAME LOCATION WITH 7012

4

TO ME8 SSB

B

+3V3STBY

+3V3STBY

BM03B-SRSS-TBT RES

1 2 3 4 5 6 7 8 9

J

"RED"

"WHITE"

TO ME8 LIGHT GUIDE 1 2 3

A

6

TSML1020

J

2

BM04B-SRSS-TBT

+5V_SW

+5V_SW

+5V_SW

+3V3STBY

"LIGHT SENSOR"

D

3P16 100R

7P12

3P09 10K RES

3P18 100K

D

3 2

IP16 1 +5V_SW

"IR RECEIVER"

3P19 6K8

7P14 GP1UE260RKVF VS OUT

E

3P17 100R

IP17

7P13 BC847BW

2

3P20

IP20

1

IP18

IP19 10K

3

3P21 150K

3P22 10K

5

4

GND

2P10 10u

TEMT6000X01

2P11 10u

3P23 100K

2P12 10u

3P25 33K

2P13 10u

3P24 10K

IP21 3P26 150K

H_17650_053.eps 090108

3139 123 6327.3

1

2

3

4

5

6

7

8

E

1P09 A1 1P10 B1 1P11 C1 2P10 E5 2P11 E5 2P12 E6 2P13 E6 3P07 C3 3P08 C2 3P09 D6 3P10 A7 3P11 A5 3P12 A6 3P13 A6 3P14 B6 3P15 B4 3P16 D4 3P17 E5 3P18 D8 3P19 E4 3P20 E6 3P21 E8 3P22 E8 3P23 E4 3P24 E7 3P25 E6 3P26 E8 3P27 B5 3P28 B6 4P01 B5 4P02 B6 6P10 A7 6P11 A5 6P12 A6 7P10 B7 7P11 B5 7P12 D8 7P13 E7 7P14 E3 FP10 B1 FP11 B1 FP12 B1 FP13 B1 FP14 B1 FP15 B1 FP16 B1 FP17 B1 FP18 C1 FP20 B1 IP10 A5 IP11 A7 IP12 B5 IP13 B7 IP14 B4 IP15 B6 IP16 D5 IP17 E7 IP18 E8 IP19 E7 IP20 E4 IP21 E8 IP22 A6

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

110

Layout IR & LED Panel (Top Side) 2P10 2P11 3P07 3P08

A4 A6 A4 A4

3P09 3P10 3P11 3P12

A6 A3 A2 A6

3P13 3P14 3P15 3P16

A6 A2 A2 A4

3P17 3P18 3P19 3P20

A5 A6 A4 A6

3P21 3P22 3P23 3P24

A6 A6 A4 A6

3P25 3P26 3P27 3P28

A6 A6 A2 A3

4P01 4P02 6P10 6P11

A2 A2 A3 A3

6P12 7P10 7P11 7P12

A5 A2 A2 A5

7P13 A6 7P14 A4

Personal Notes:

H_17650_054.eps 140108

3139 123 6327.3

Layout IR & LED Panel (Bottom Side) 1P09 A4

1P10 A5

3139 123 6327.3

1P11 A1

1P12 A1

1P13 A1

H_17650_055.eps 140108

E_06532_012.eps 131004

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

111

Light Guide Panel (32")

1

Personal Notes:

LIGHT GUIDE PANEL (32”)

6001

I06 6002

99-113UTC/710/TR8

2

1

I05

100R

I04

3002

4001 4002

99-113UTC/710/TR8 2 1

A

I01 I02 I03

100R

1001 SM03B-SRSS-TB +3V3_STBY 1 +5V_SW 2 3 4 5

LG

3001

LG

2

A

I01 A1 I02 A1 I03 A1 I04 A2 I05 A2 I06 A2 1001 A1 3001 A2 3002 A2 4001 A2 4002 A2 6001 A2 6002 A2

H_17650_056.eps 140108

3139 123 6369.1

1

2

E_06532_012.eps 131004

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

112

Layout Light Guide Panel (32") (Top Side)

6001 A7 6002 A1

3139 123 6369.1

H_17650_057.eps 140108

Layout Light Guide Panel (32") (Bottom Side)

1001 3001 3002 4001 4002 4001 1001

4002

3002

3001

3139 123 6369.1

H_17650_058.eps 140108

A1 A1 A7 A1 A1

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

113

Light Guide Panel (47 & 52")

1

Personal Notes:

LIGHT GUIDE PANEL (47”-52”)

I04

3002

6001

2

1

I05

I06 6002

99-113UTC/710/TR8

3001

100R

A

4001 4002

99-113UTC/710/TR8 2 1

1001 SM03B-SRSS-TB I01 +3V3_STBY 1 I02 +5V_SW 2 I03 3 4 5

LG

100R

LG

2

A

I01 A1 I02 A1 I03 A1 I04 A2 I05 A2 I06 A2 1001 A1 3001 A2 3002 A2 4001 A1 4002 A1 6001 A2 6002 A2

H_17650_059.eps 140108

3139 123 6367.1

1

2

E_06532_012.eps 131004

Circuit Diagrams and PWB Layouts

Q528.2E LA

7.

114

Layout Light Guide Panel (47 & 52") (Top Side)

6001 A9 6002 A1

3139 123 6367.1

H_17650_060.eps 140108

Layout Light Guide Panel (47 & 52") (Bottom Side)

4001 1001

3002 4002 3001

3139 123 6367.1

H_17650_061.eps 140108

1001 3001 3002 4001 4002

A1 A1 A9 A1 A1

Alignments

Q528.2E LA

8.

EN 115

8. Alignments For the next alignments, supply the following test signals via a video generator to the RF input: • EU/AP-PAL models: a PAL B/G TV-signal with a signal strength of at least 1 mV and a frequency of 475.25 MHz • US/AP-NTSC models: an NTSC M/N TV-signal with a signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3). • LATAM models: an NTSC M TV-signal with a signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3). • DVB-T models: see table “SDM default settings” in chapter 5.

Index of this chapter: 8.1 General Alignment Conditions 8.2 Hardware Alignments 8.3 Software Alignments 8.4 Option Settings Note: 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 8.3.1 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.

8.1.1

Alignment Sequence •

8.2

First, set the correct options: – In SAM, select “Options”, and then “Option numbers”. – Fill in the option settings for “Group 1” and “Group 2” according to the set sticker (see also paragraph "Option Settings"). – Press OK on the remote control before the cursor is moved to the left. – In submenu “Option numbers” select “Store” and press OK on the RC. OR: – In main menu, select “Store” again and press OK on the RC. – Switch the set to Stand-by. Warming up (>15 minutes).

White Point • •

Set “Active control” to “Off”. Choose “TV menu”, “TV Settings” and then “Picture” and put: – “Dynamic contrast” to “Off”. – “Colour enhancement” to “Off”. – “Light sensor” to “Off” where applicable. – “Clear LCD” to “On” where applicable. – “Brightness” to “50”. – “Colour” to "0". – “Contrast” to "100". Go to the SAM and select “Alignments”-> “Whitepoint”.

White point alignment LCD screens: • Use a 100% white screen as input signal and set the following values: – “Colour temperature”: "Normal". – All “Whitepoint” values to: "127". – “Red BL offset” values to “8”. – “Green BL offset” values to “8”. In case you have a colour analyser: • Measure with a calibrated (phosphor- independent) colour analyser 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 127) 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 press OK on the RC and then press STORE (in the SAM root menu) to store the aligned values to the NVM. • Restore the initial picture settings after the alignments.

Hardware Alignments Table 8-1 White D alignment values Not applicable. Value

8.3

Software Alignments Put the set in SAM mode (see Chapter 5 "Service Modes, Error Codes and Fault Finding"). The SAM menu will now appear on the screen. Select ALIGNMENTS and go to one of the sub menus. The alignments are explained below. The following item can be aligned: • Whitepoint. To store the data: • Press OK on the RC before the cursor is moved to the left. • In main menu select “Store” and press OK on the RC. • Press MENU on the RC to switch back to the main menu. • Switch the set to stand-by mode.

Cool (11000 K)

Normal (9000 K)

Warm (6500 K)

x

0.278

0.289

0.314

y

0.278

0.291

0.319

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). • Select a COLOUR TEMPERATURE (e.g. COOL, NORMAL, or WARM). • Set the RED, GREEN and BLUE default values according to the values in the “Tint settings" table. • When finished press OK on the RC, then press STORE (in the SAM root menu) to store the aligned values to the NVM. • Restore the initial picture settings after the alignments.

EN 116

8.

Alignments

Q528.2E LA

Table 8-2 Tint settings Colour Temp.

R

G

B

Cool

127

127

127

Normal

127

127

127

Warm

127

127

127

8.4

Option Settings

8.4.1

Introduction

Note: These values were not available at the time of writing, therefore they come from an early production sample (for indication only). As soon as the production data become available, a Service Info or Service Manual update will be issued via the appropriate channels.

8.4.2

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 by pressing the OK button on the RC before the cursor is moved to the left, select STORE in the SAM root menu and press OK on the RC. • The new option setting is only active after the TV is switched "off" / “stand-by” and "on" again with the Mains switch (the NVM is then read again).

Dealer Options For dealer options, in SAM select “Dealer options” and then “Personal options”. Table 8-3 Dealer options Menu item

Subjects

Options

Description

Personal Options

Picture Mute

On

Picture is muted / not muted in case no input signal is detected at input connectors

Virgin Mode

On

Off TV starts up / does not start up (once) with a language selection menu after the Mains switch is turned "on" for the first time (virgin mode)

Off

8.4.3

(Service) Options Select the sub menu's to set the initialization codes (options) of the set via text menus. Table 8-4 Service options Menu-item

Subjects

Options

Description

PIP/DS

Dual Screen

None

No DS

Display

Video Repro

Source selection Audio Repro

One tuner dual screen

One tuner DS

Two tuner dual screen

Two tuner DS

Screen

“Value”

Used screen size, type, and resolution (see table “Option code overview” in this chapter)

Dimming Backlight

On / Off

Feature present / not present

Perfect Pixel

On / Off

Perfect Pixel On / Off

Ambient Light

Off / Mono / Stereo/Triple / Quad

Inverter not present / one inverter / two inverters / three inverters / four inverters

Ambient Light technology

CCFL / LED

CCFL / LED

Ambient Light driver

Pacific 3 / MOP / DFI

Ambient Light driver

MOP

Present / Not present

MOP present / not present

Light sensor

Present / Not present

MOP present / not present

Light sensor type

Step / ME7 / MS7 / ME8 / Canvas / Aurea Styling

HDMI 3

Present / Not present

HDMI 3 Present / Not present

HDMI CEC

On / Off

HDMI CEC On/ Off

Acoustic System (Cabinet design, None used for setting dynamic audio Top A 2k7 parameters) MS7 model A 2k7 MS7 model B 2k7 ME7 32" 2k7 ME7 model A 2k7 ME7 model B 2k7 Step 63" Combat Coscone 2k7 Aurea ME8

Miscellaneous

Opt. no.

Tuner Type

TD1736 / TD1716

TD1736 = US, TD1716 = Europe

Nyquist SAW filter

On / Off

SAW filter on/off

I2C configuration

with PCA9540 / with PCA9515 / via channel decoder

Upgrade assistant

Present / Not present

Group 1

xxxxx xxxxx xxxxx xxxxx (see set sticker)

Group 2 Store

xxxxx xxxxx xxxxx xxxxx (see set sticker) Store

Alignments 8.4.4

8.

EN 117

Opt. No. (Option numbers) Select this sub menu to set all options at once (expressed in two long strings of numbers). An option number (or "option byte") represents a number of different options. When you change these numbers directly, you can set all options very quickly. All options are controlled via eight option numbers. When the NVM is replaced, all options will require resetting. To be certain that the factory settings are reproduced exactly, you must set both option number lines. You can find the correct option numbers on a sticker inside the TV set and in Table “Option code overview”. It should be noted that option codes are subject to modification. In case of a mismatch between the codes in the table below and the codes on the sticker inside the set, the info on the sticker is leading! Example: The options sticker gives the following option numbers: • 04368 00005 01066 08707 • 00000 00032 00512 00000

8.4.5

Q528.2E LA

The first line (group 1) indicates hardware options 1 to 4, the second line (group 2) indicates software options 5 to 8. Every 5-digit number represents 16 bits (so the maximum value will be 65536 if all options are set). When all the correct options are set, the sum of the decimal values of each Option Byte (OB) will give the option number. See tables “Option code overview” for the options. Diversity Not all sets with the same Commercial Type Number (CTN) necessarily have the same option code! Use of Alternative BOM An alternative BOM number usually indicates the use of an alternative display. This results in another display code thus in another Option code. Refer to chapter 2 “Safety Instructions, Warnings, and Notes”.

Option Code Overview Table 8-5 Option code overview CTN_alt BOM#

Options Group 1

Options Group 2

32PFL7403D/79_1

41481 04109 04175 45165

10118 00096 00000 00000

134

32PFL7403D/79_2

41481 04109 04175 45165

10138 00096 00000 00000

154

32PFL7403D/79_3

41481 04109 04175 45165

10138 00096 00000 00000

154

32PFL7403D/79_4 42PFL5603D/10_1

41481 04109 04175 45165 41481 04107 04175 45160

10138 00096 00000 00000 10115 00098 00004 00000

131

42PFL5603D/10_2

41481 04107 04175 45160

10114 00098 00004 00000

130

42PFL5603D/12_1

41481 04107 04175 45160

10115 00098 00004 00000

131

42PFL5603D/12_2

41481 04107 04175 45160

10114 00098 00004 00000

130

42PFL5603H/10_1

41481 04107 04171 45160

10115 00102 00004 00000

131

42PFL5603H/10_2

41481 04107 04171 45160

10114 00102 00004 00000

130

42PFL7603D/10_1

41641 04108 04175 45160

10115 00098 00001 00000

131

42PFL7603D/10_2

41641 04108 04175 45160

10114 00098 00001 00000

130

42PFL7603D/12_1

41641 04108 04175 45160

10115 00098 00001 00000

131

42PFL7603D/12_2

41641 04108 04175 45160

10114 00098 00001 00000

130

Important: after having edited the option numbers as described above, you must press OK on the remote control before the cursor is moved to the left!

8.5

Reset of Repaired SSB A very important issue towards a repaired SSB from a service repair shop, implies the reset of the NVM on the SSB. A repaired SSB in service should get the service Set type “00PF0000000000” and Production code “00000000000000”. Also the virgin bit is to be set. To set all this, you can use the ComPair tool.

Displ. (code)

154

EN 118

9.

Q528.2E LA

Circuit Descriptions, Abbreviation List, and IC Data Sheets

9. Circuit Descriptions, Abbreviation List, and IC Data Sheets Some more delta’s w.r.t. the previous Q528.1E LA chassis are: • The addition of a PCMCIA controller (STI7101) with Common Interface slot. • The implementation of an integrated audio Class-D Power Amplifier (TDA8932BTW/N2). • Integrated SAW filter for IF filtering. • Decoding of MPEG4-encoded transport streams through the STi7101 MPEG4 PCMCIA decoder/controller. • Reception of DVB-C (in some sets). • Some modifications to the on-board DC-DC converters.

Index of this chapter: 9.1 Introduction 9.2 Main Supply 9.3 Abbreviation List 9.4 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

The STi7101 MPEG4 decoder/PCMCIA controller has been described in the Q528.1E LB Service Manual. Unlike there, in current chassis this device is now incorporated onto the SSB (no bolt-on panel needed). For a description of all other circuitry, refer to the Q528.1E LA Service Manual.

Introduction 9.1.1

This chassis (member of the “TV522“ platform) is a derivative from the Q528.1E LA chassis (member of the “TV520” platform). It comes with a new styling called “ME8(+)” which, in some sets, incorporates a light strip on the front side of the set referred to as “Light Guide”. This generates a diffuse light through a light pipe.

Features The main features for this chassis are: • The introduction of a module referred to as “Light Guide” on the front side of the set (in some sets). • Support of DVB-C reception (in some sets). • For all other features: refer to the Q528.1E LA/LB Service Manual.

9.1.2

TV522 Architecture Overview For details about the chassis block diagrams refer to chapter “Block diagrams, Test Point Overview, and Waveforms”. An overview of the TV522 architecture can be found in next figure “Architecture of TV522 platform”.

TV522/82M/22M - Architecture Block Diagram HDMI Side HDMI 1 HDMI 2 HDMI 3 / MPEG4

DDR-II 64MB

ADI8191 HDMI HDMI switch switch

Hybrid Tuner Saw

MASTER IF

TDA10048

DDR-I 32MB

32

32

YUV20

NXP PNX8541

PNX5050

Matrix Matrix

RGB30

Pac3

HD-DNM

Digital Colour Digital Colour Decoder Decoder 10-bit video 3-field HD MADI DVB-T MPEG2

HD@50Hz HD@50Hz HD@100Hz HD@100Hz FHD@50Hz FHD@50Hz

AmbiLight 2

PCI/XIO CI

FLASH 64MB

DDR1 64MB

USB2.0

HP Amp

32

STi7101 Class D TDA8932T

MPEG4 HD

8

H_17650_092.eps 160108

FLASH

Figure 9-1 Architecture of TV522 platform

Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.1.3

Q528.2E LA

SSB Cell Layout

SERVICE CONNECTOR

ANALOG I/O

SIDE I/O

PNX5050

AUDIO CLASS - D

PNX85XX

DC - DC CONVERSION

MPEG4 (OPT)

DIGITAL I/O

COMMON INTERFACE

H_17650_090.eps 160108

Figure 9-2 SSB top view

PACIFIC3 (OPT)

H_17650_091.eps 160108

Figure 9-3 SSB bottom view

9.

EN 119

EN 120

9.

9.2

Main Supply

9.2.1

32" Sets

Q528.2E LA

Circuit Descriptions, Abbreviation List, and IC Data Sheets

The 32" sets in this chassis come with the PLCD170PS09B power supply unit. From this supply unit, no detailed description is available. When defective, a new panel must be ordered and the defective panel must be sent for repair, unless the main fuse of the panel is broken. Always replace a defective panel with one with the correct specifications! This part is available in the regular market. Refer to the Spare Parts list for the correct order number of the supply unit. 9.2.2

9.3

Abbreviation List 0/6/12

2DNR 3DNR AARA

ACI

42" Sets The 42" sets in this chassis come with a buy-in Delta Supply unit 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 panel is broken. Always replace a defective fuse with one with the correct specifications! This part is available in the regular market. Refer to the Spare Parts list for the order number of the Supply unit.

ADC AFC

AGC

AM ANR

The Supply unit delivers the following voltages to the chassis: • High voltage to drive the backlight units (no inverters needed) • 3.3 VSB (connector CN6) • 12 V (connector CN7) • +12 VA (connector CN6) • - 12 VA (connector CN6) • 24 VA (connector CN4).

AP AR ASF

DC output protections

ATV Auto TV

Over Voltage Protection In case of an over-voltage situation, the Supply unit will shut down. To restart: disconnect from AC, except in the event the over-voltage situation occurred at the 3.3 VSB output (autorecovery). Short Circuit Protection In case a short-circuit situation occurs at the 12 V, 12 VB or 24 VA output, the Supply unit will shut down. To restart: disconnect from AC. In case a short-circuit situation occurs at one of the + 12 VA or - 12 VA outputs, the fuse will break. In case a short-circuit situation occurs at the 3.3 VSB output, the Supply unit will auto-recover when the fault condition is removed. AC output protections Both Short-Lamp and Open-Lamp protections have been foreseen. To restart: disconnect from AC.

ATSC

AV AVC AVIP B/G BLR BTSC

B-TXT C CEC

CL CLR COLUMBUS ComPair CP CSM CTI

CVBS DAC DBE DDC

SCART switch control signal on A/V board. 0 = loop through (AUX to TV), 6 = play 16:9 format, 12 = play 4:3 format Spatial (2D) Noise Reduction Temporal (3D) Noise Reduction Automatic Aspect Ratio Adaptation: algorithm that adapts aspect ratio to remove horizontal black bars; keeps the original aspect ratio Automatic Channel Installation: algorithm that installs TV channels directly from a cable network by means of a predefined TXT page Analogue to Digital Converter Automatic Frequency Control: control signal used to tune to the correct frequency Automatic Gain Control: algorithm that controls the video input of the feature box Amplitude Modulation Automatic Noise Reduction: one of the algorithms of Auto TV Asia Pacific Aspect Ratio: 4 by 3 or 16 by 9 Auto Screen Fit: algorithm that adapts aspect ratio to remove horizontal black bars without discarding video information Advanced Television Systems Committee, the digital TV standard in the USA See Auto TV A hardware and software control system that measures picture content, and adapts image parameters in a dynamic way External Audio Video Audio Video Controller Audio Video Input Processor Monochrome TV system. Sound carrier distance is 5.5 MHz Board-Level Repair Broadcast Television Standard Committee. Multiplex FM stereo sound system, originating from the USA and used e.g. in LATAM and AP-NTSC countries Blue TeleteXT Centre channel (audio) Consumer Electronics Control bus: remote control bus on HDMI connections Constant Level: audio output to connect with an external amplifier Component Level Repair COlour LUMinance Baseband Universal Sub-system Computer aided rePair Connected Planet / Copy Protection Customer Service Mode Colour Transient Improvement: manipulates steepness of chroma transients Composite Video Blanking and Synchronization Digital to Analogue Converter Dynamic Bass Enhancement: extra low frequency amplification See "E-DDC"

Circuit Descriptions, Abbreviation List, and IC Data Sheets D/K DFI DFU DMR DNM DNR DRAM DRM DSP DST

DTCP

DVB-C DVB-T DVD DVI(-d) E-DDC

EDID EEPROM EMI EPLD EU EXT FBL FDS FDW FLASH FM FPGA FTV Gb/s G-TXT H HD HDD HDCP

HDMI HP I I2 C I2 D I2 S IF Interlaced

Monochrome TV system. Sound carrier distance is 6.5 MHz Dynamic Frame Insertion Directions For Use: owner's manual Digital Media Reader: card reader Digital Natural Motion Digital Noise Reduction: noise reduction feature of the set Dynamic RAM Digital Rights Management Digital Signal Processing Dealer Service Tool: special remote control designed for service technicians Digital Transmission Content Protection; A protocol for protecting digital audio/video content that is traversing a high speed serial bus, such as IEEE-1394 Digital Video Broadcast - Cable Digital Video Broadcast - Terrestrial Digital Versatile Disc Digital Visual Interface (d= digital only) Enhanced Display Data Channel (VESA standard for communication channel and display). Using E-DDC, the video source can read the EDID information form the display. Extended Display Identification Data (VESA standard) Electrically Erasable and Programmable Read Only Memory Electro Magnetic Interference Erasable Programmable Logic Device Europe EXTernal (source), entering the set by SCART or by cinches (jacks) Fast BLanking: DC signal accompanying RGB signals Full Dual Screen (same as FDW) Full Dual Window (same as FDS) FLASH memory Field Memory or Frequency Modulation Field-Programmable Gate Array Flat TeleVision Giga bits per second Green TeleteXT H_sync to the module High Definition Hard Disk Drive High-bandwidth Digital Content Protection: A "key" encoded into the HDMI/DVI signal that prevents video data piracy. If a source is HDCP coded and connected via HDMI/DVI without the proper HDCP decoding, the picture is put into a "snow vision" mode or changed to a low resolution. For normal content distribution the source and the display device must be enabled for HDCP "software key" decoding. High Definition Multimedia Interface HeadPhone Monochrome TV system. Sound carrier distance is 6.0 MHz Inter IC bus Inter IC Data bus Inter IC Sound bus Intermediate Frequency Scan mode where two fields are used to form one frame. Each field contains half the number of the total amount of

IR IRQ ITU-656

ITV JOP LS

LATAM LCD LED L/L'

LORE LPL LS LVDS Mbps M/N MIPS

MOP MOSFET MPEG MPIF MUTE NC NICAM

NTC NTSC

NVM O/C OSD OTC P50 PAL

Q528.2E LA

9.

EN 121

lines. The fields are written in "pairs", causing line flicker. Infra Red Interrupt Request The ITU Radio communication Sector (ITU-R) is a standards body subcommittee of the International Telecommunication Union relating to radio communication. ITU-656 (a.k.a. SDI), is a digitized video format used for broadcast grade video. Uncompressed digital component or digital composite signals can be used. The SDI signal is self-synchronizing, uses 8 bit or 10 bit data words, and has a maximum data rate of 270 Mbit/s, with a minimum bandwidth of 135 MHz. Institutional TeleVision; TV sets for hotels, hospitals etc. Jaguar Output Processor Last Status; The settings last chosen by the customer and read and stored in RAM or in the NVM. They are called at start-up of the set to configure it according to the customer's preferences Latin America Liquid Crystal Display Light Emitting Diode Monochrome TV system. Sound carrier distance is 6.5 MHz. L' is Band I, L is all bands except for Band I LOcal REgression approximation noise reduction LG.Philips LCD (supplier) Loudspeaker Low Voltage Differential Signalling Mega bits per second Monochrome TV system. Sound carrier distance is 4.5 MHz Microprocessor without Interlocked Pipeline-Stages; A RISC-based microprocessor Matrix Output Processor Metal Oxide Silicon Field Effect Transistor, switching device Motion Pictures Experts Group Multi Platform InterFace MUTE Line Not Connected Near Instantaneous Compounded Audio Multiplexing. This is a digital sound system, mainly used in Europe. Negative Temperature Coefficient, non-linear resistor National Television Standard Committee. Colour system mainly used in North America and Japan. Colour carrier NTSC M/N= 3.579545 MHz, NTSC 4.43= 4.433619 MHz (this is a VCR norm, it is not transmitted offair) Non-Volatile Memory: IC containing TV related data such as alignments Open Circuit On Screen Display On screen display Teletext and Control; also called Artistic (SAA5800) Project 50: communication protocol between TV and peripherals Phase Alternating Line. Colour system mainly used in West Europe (colour carrier= 4.433619 MHz) and South America (colour carrier PAL M=

EN 122

9.

PCB PCM PDP PFC PIP PLL

POR Progressive Scan

PTC PWB PWM QRC QTNR QVCP RAM RGB

RC RC5 / RC6 RESET ROM R-TXT SAM S/C SCART

SCL SCL-F SD SDA SDA-F SDI SDRAM SECAM

SIF SMPS SoC SOG SOPS S/PDIF SRAM SSB STBY SVGA SVHS SW SWAN SXGA TFT THD TMDS TXT TXT-DW UI uP UXGA

Q528.2E LA

Circuit Descriptions, Abbreviation List, and IC Data Sheets

3.575612 MHz and PAL N= 3.582056 MHz) Printed Circuit Board (same as "PWB") Pulse Code Modulation Plasma Display Panel Power Factor Corrector (or Preconditioner) Picture In Picture Phase Locked Loop. Used for e.g. FST tuning systems. The customer can give directly the desired frequency Power On Reset, signal to reset the uP Scan mode where all scan lines are displayed in one frame at the same time, creating a double vertical resolution. Positive Temperature Coefficient, non-linear resistor Printed Wiring Board (same as "PCB") Pulse Width Modulation Quasi Resonant Converter Quality Temporal Noise Reduction Quality Video Composition Processor Random Access Memory Red, Green, and Blue. The primary colour signals for TV. By mixing levels of R, G, and B, all colours (Y/C) are reproduced. Remote Control Signal protocol from the remote control receiver RESET signal Read Only Memory Red TeleteXT Service Alignment Mode Short Circuit Syndicat des Constructeurs d'Appareils Radiorecepteurs et Televisieurs Serial Clock I2C CLock Signal on Fast I2C bus Standard Definition Serial Data I2C DAta Signal on Fast I2C bus Serial Digital Interface, see “ITU-656” Synchronous DRAM SEequence Couleur Avec Memoire. Colour system mainly used in France and East Europe. Colour carriers= 4.406250 MHz and 4.250000 MHz Sound Intermediate Frequency Switched Mode Power Supply System on Chip Sync On Green Self Oscillating Power Supply Sony Philips Digital InterFace Static RAM Small Signal Board STand-BY 800x600 (4:3) Super Video Home System Software Spatial temporal Weighted Averaging Noise reduction 1280x1024 Thin Film Transistor Total Harmonic Distortion Transmission Minimized Differential Signalling TeleteXT Dual Window with TeleteXT User Interface Microprocessor 1600x1200 (4:3)

V VCR VESA VGA VL VSB WYSIWYR

WXGA XTAL XGA Y Y/C YPbPr

YUV

V-sync to the module Video Cassette Recorder Video Electronics Standards Association 640x480 (4:3) Variable Level out: processed audio output toward external amplifier Vestigial Side Band; modulation method What You See Is What You Record: record selection that follows main picture and sound 1280x768 (15:9) Quartz crystal 1024x768 (4:3) Luminance signal Luminance (Y) and Chrominance (C) signal Component video. Luminance and scaled colour difference signals (B-Y and R-Y) Component video

Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.4

Q528.2E LA

9.

IC Data Sheets This section shows the internal block diagrams and pin configurations of ICs that are drawn as "black boxes" in the electrical diagrams (with the exception of "memory" and "logic" ICs). Diagram B02A, NCP5422AD (IC 7U00)

Block Diagram

VCC

ROSC

BIAS

VCC

+

8.6 V − 7.8 V

CURRENT SOURCE GEN

− +

RAMP2

RAMP1

BST

IS+1 CLK1

+ IS−1

CLK2

non−overlap VCC

GATE(H)1

GATE(L)1

R

+

FAULT

PWM Comparator 1

+

FAULT

70 mV

Q FAULT

S

+

Set Dominant

RAMP1 BST

0.425 V

R

− +

+

− 0.25 V

+

GATE(L)2

R FAULT GND E/A OFF

0.425 V

1.2 mA

E/A1

1.0 V

non−overlap VCC

Reset Dominant

FAULT

RAMP2

E/A OFF

5.0 A

GATE(H)2

S

PWM Comparator 2

− +

IS−2

S Reset Dominant

70 mV

+

IS+2

BST

OSC

+

9.4.1

+

FAULT

E/A2

1.0 V

VFB1

COMP1

VFB2

COMP2

Pin Configuration SO−16 16

1

A WL Y WW

NCP5422A AWLYWW

GATE(H)1 GATE(L)1 GND BST IS+1 IS−1 VFB1 COMP1

GATE(H)2 GATE(L)2 VCC ROSC IS+2 IS−2 VFB2 COMP2

= Assembly Location = Wafer Lot = Year = Work Week

Figure 9-4 Internal block diagram and pin configuration

F_15400_129.eps 240505

EN 123

EN 124 9.4.2

9.

Circuit Descriptions, Abbreviation List, and IC Data Sheets

Q528.2E LA

Diagram B03A, TDA9898HL (IC 7T57)

Block Diagram R(2)

4 MHz reference input R(2)

SDA

SCL

23

i.c.

24

ADRSEL BVS

14

25

EXTERNAL SOUND BAND-PASS FILTER(1)

GNDD

32

VP 43, 44

LFSYN2 1

22

I2C-BUS

SYNTHESIZER AND VCO

GNDA 40, 41

EXTFILO 15

EXTFILI 17

FREF 46

OPTXTAL 39

4 MHz FREQUENCY REFERENCE

SUPPLY +3 dB

A

TDA9897 AGCDIN

AM average

36

SIF AGC

B

29

TDA9897

FM peak

30

OUT2A OUT2B

BP on/off IF3A IF3B

sideband

3

OUTPUT SWITCH

C

Q 4

26

BAND-PASS FILTER

SIDEBAND FILTER

I

27

D IF1A IF1B

IF2A IF2B

6

21 VIF AGC

7

EXTFMI

20 CDEEM

I NYQUIST FILTER

Q

10

OUT1B

34 CAF2

sideband

9

OUT1A

FM SWITCH

E

31

FM AMPLIFIER

AUD

28 CAF1 FM CARRIER AGC I2C-BUS TOPNEG

DECODER i.c.

45

PEAK AGC TUNER

TAGC

47

RSSI DETECTOR AND IF BASED TUNER AGC

VIF PLL AND ACQUISITION HELP

SOUND CARRIER TRAP

VIF AFC

GROUP DELAY EQUALIZER

AM F

AM DEMODULATOR FM AND FM NARROW-BAND PLL AM

trap reference

16 TAGC SIF AGC FM AGC AFC

standard

SYNTHESIZER AND VCO

33

I2C-BUS TOP2

G

AND RSSI

H

VIF AGC I2C-bus

13 LFVIF

35, 42

38 LFSYN1

MPP1

port

19 LFFM

40 GNDA

41 GNDA

42 n.c.

43 VP

44 VP

45 i.c.

46 FREF

48 GND

47 TAGC

Pin Configuration

37 n.c.

n.c.

38 LFSYN1

n.c.

11 TOP2 optional tuner AGC TOP for IF based tuner AGC and radio signal strength detector onset

CVBS

LFSYN2

1

36 AGCDIN

n.c.

2

35 n.c.

IF3A

3

34 CAF2

IF3B

4

33 CVBS

CIFAGC(1)

5

IF1A

6

IF1B

7

CTAGC

8

29 OUT2A

IF2A

9

28 CAF1

32 BVS 31 AUD

TDA9897HL TDA9898HL

30 OUT2B

EXTFMI 21

CDEEM 20

LFFM 19

n.c. 18

EXTFILI 17

MPP2 16

25 ADRSEL

EXTFILO 15

26 OUT1A

MPP1 12

i.c. 14

27 OUT1B

TOP2 11

LFVIF 13

IF2B 10

SCL 24

CTAGC

39 OPTXTAL

8

SDA 23

2, 5, 18, 37

GND

GNDD 22

48

12

MPP2

Figure 9-5 Pin configuration

H_16800_029.eps 111007

Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.4.3

Q528.2E LA

9.

EN 125

Diagram B03B, TDA10048HN (IC7T17-1)

Block Diagram

AGC_TUN

ANALOG

AGC_IF

ΣΛ STEP INTERFACE

VIM

DUAL AGC

ADC VIP

DIGITAL FRONT-END AND OFDM DEMODULATION

ΣΛ

CHANNEL ESTIMATION AND CORRECTION

STEP INTERFACE

XIN

TIME RECOVERY

CARRIER RECOVERY

OSCILLATOR XOUT

DYNAMIC TIMESHIFT

CCI CANCELLER

ACI FILTERING

COARSE TIME ESTIMATOR

CPE CALCULATION

I2C-BUS INTERFACE

ΣΔ

ΣΔ

ΣΔ

ΣΔ

DSP CORE SYNCHRONISATION

FREQUENCY INTERPOLATION

FREQUENCY, TIME, FRAME RECOVERY FFT WINDOW POSITIONING TPS DECODING

GPIO[3:0]

PARTIAL CHANNEL ESTIMATION

TIME INTERPOLATION

TDA10048HN

SCL_TUN SDA_TUN SCL, SDA SADDR

FFT 2K / 4K / 8K

DIGITAL AGC

PLL

CONFIDENCE CALCULATION

CHANNEL CORRECTION

confidence MPEG-2 OUTPUT INTERFACE

DESCRAMBLER

RS DECODER

CPT_UNCOR

BIT DEINTERLEAVER

VITERBI DECODER CBER

VBER

DEMAPPER

(I,Q)

INNER FREQUENCY DEINTERLEAVER CHANNEL DECODER

37 TMS

38 TDI

39 TCK

41 CLR_N

40 TDO

42 AGC_IF

43 AGC_TUN

44 VSSDC

45 VDDDC(1V2)

terminal 1 index area

46 VDDD(3V3)

48 VDDD(ADC/PLL)(1V2) 47 VSSD(ADC/PLL)

Pin Configuration

VDDA(ADC)(3V3)

1

36 TRST_N

VIM

2

35 SCL

VIP

3

34 SDA

VSSA(ADC)

4

33 SADDR

VDDD(ADC)(3V3)

5

VSSA(OSC)

6

XIN

7

30 VSSDC

XOUT

8

29 VSSD

VDDA(OSC)(1V2)

9

28 VDDD(3V3)

32 GPIO0 31 VDDDC(1V2)

TDA10048HN

DO4/GPIO3 24

DO3/GPIO2 23

DO2/GPIO1 22

DO1/S_DO 21

DO0/S_UNCOR 20

OCLK/S__OCLK 19

DEN/S_DEN 18

PSYNC/S_PSYNC 17

25 DO5

SCL_TUN 16

26 DO6

VDDDC(1V2) 12

SDA_TUN 15

27 DO7

VDDA(PLL)(1V2) 11

VSSD 14

VSSA(PLL) 10

VSSDC 13

MPEG TS DO[7:0]/S_DO (parallel/serial)

OUTER FORNEY DEINTERLEAVER

Transparent top view

Figure 9-6 Internal block diagram and pin configuration

H_16800_127.eps 090507

EN 126 9.4.4

9.

Circuit Descriptions, Abbreviation List, and IC Data Sheets

Q528.2E LA

Diagram B03C, TDA10023HT (IC7TA4)

Block Diagram VDDA1 XIN 2

VSSA1

VDDD3

XOUT 3

VSSD3

3 4

1

7, 24, 41

VSSD2

VDDD2

3 8, 25, 42

VDDD1

VSSD1

VDDA2

VDDA3

VSSA3

VDDD4

50

49

61

55

59

60

3

3

15, 31, 44

14, 30, 43

9

PWM PLL SACLK

CTRL

ADC

10

BASEBAND CONVERSION

11

PWM

HALF NYQUIST

TIMING INTERPOLATOR

DECIMATION FILTERS

CLRB VIP VIM

29

32

RS DECODER

DE-INTERLEAVER

GPIO

8

JQAM FILTER

DE-SCRAMBLER

6

TRELLIS DEMODULATOR

FRAME SYNC

DERANDOMIZER

36

16

35 34 33

MPEG2 TS CKSUM

REED SOLOMON DECODER

DEINTERLEAVER

37 to 40, 45 to 48

28

58

27

57

TDA10023HT

JTAG

22 23

IICDIV

26

10

21 19

I2C-BUS INTERFACE

17

20

DO[7:0] DEN programmable interface

OCLK PSYNC UNCOR

TDO TMS serial interface

TCK TDI TRST ENSERI SDAT SCLT

13, 51, 52, 53, 54, 56, 62, 63, 64

12

001aac555

SADDR

n.c.

49 VSSD1

50 VDDD1

52 n.c.

51 n.c.

53 n.c.

55 VDDA3

54 n.c.

56 n.c.

58 VIP

57 VIM

59 VSSA3

61 VDDA2

60 VDDD4

63 n.c.

62 n.c.

64 n.c.

Pin Configuration

VDDA1

1

48 DO[0]

XIN

2

47 DO[1]

XOUT

3

46 DO[2]

VSSA1

4

45 DO[3]

SACLK

5

44 VSSD2

TEST

6

43 VDDD2

VDDD3

7

42 VSSD3

VSSD3

8

AGCTUN

9

41 VDDD3

TDA10023HT

40 DO[4]

IICDIV 10

39 DO[5]

AGCIF 11

38 DO[6]

SADDR 12

37 DO[7]

n.c. 13

36 DEN

CTRL 32

VSSD2 31

VDDD2 30

TDO 28

GPIO 29

TMS 27

TRST 26

VSSD3 25

TDI 23

VDDD3 24

TCK 22

33 UNCOR SCLT 20

34 PSYNC

CLRB 16 ENSERI 21

35 OCLK

VSSD2 15

SDAT 19

VDDD2 14

SCL 17

SCL

18

SDA 18

SDA

AGCIF

DECISION DIFFERENTIAL DECODER

CARRIER RECOVERY

EQUALIZER

OUTPUT INTERFACE

TEST

AGCTUN

AGC

5

IF

GPIO

CLOCK RECOVERY

Figure 9-7 Internal block diagram and pin configuration

H_17650_072.eps 150108

Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.4.5

Q528.2E LA

9.

EN 127

Diagram B03D to H, STi7101 (IC7A00)

Block Diagram

DDR SDRAM

32

5 x 2-ch S/PDIF PCM out AudioL 2-ch PCM in AudioR

32

Audio DACs

ST40 core 266 MHz 16 K Icache

UDI

Video LMI

32 K Dcache

Serial ATA interface

Audio decoder and interfaces

Int. control MMU

System LMI

ST231 core

Peripheral I/O and external interrupts

SD video in

Digital video input

USB 2.0

2x I/F SmCard

IR Tx/Rx

MAFE interface

PWM

6x GPIO

ILC

4x UARTs

3x SSCs

STBus

2 x PDES

PTI

PTI

TSmerger/router

CP

Video decoder H264/MPEG-2

FDMA

Clock generator and system services

CUR

ST231 core

Ethernet, MII/RMII

MII/RMII for 100BT Ethernet TSIN0 TSIN1 TS I/O NRSS-A

2D gamma blitter

DVI-HDCP HDMI

TMDS main video output (HD)

3 x GDP Display compositor

Output stage

DENC

DACs

DACs

Main video output (HD) YPbPr

Aux video output (SD) YC/CVBS

DEI Main video display Aux video display

EMI

EMPI

Flash or companion chip

H_16780_085.eps 070907

Figure 9-8 Internal block diagram and pin configuration

EN 128 9.4.6

9.

Circuit Descriptions, Abbreviation List, and IC Data Sheets

Q528.2E LA

Diagram B04, PNX85xx (IC 7H00)

Block Diagram DDR-II 32 MB

DDR-II 32 MB

16

16

LCD Matrix Display 1368 × 768

PNX85xx A/V INPUTS MIPS32@240MHz TV control, Pixel OSD Source select 3D-Comb Digital color decoder Audio decoding Full audio processing, inc SRS MPEG-2 HD/SD decode MA DI 8-bit video processing Enhanced PQ processing Single LVDS output HDMI / DVI CA option

VGA

HDMI

TDA10060 Channel

TD1736OF

TDA9897

Tuner

IF

SPDIF Out

TDA8933T Audio Amp.

8/16

USB2 Option

FLASH 16 MB

Pin Configuration ball A1 index area

2 1

B D F H K M P T V Y AB AD AF AH AK

4 3

6 5

7

8 10 12 14 16 18 20 22 24 26 28 30 9 11 13 15 17 19 21 23 25 27 29

A C E G J

PNX85xx

L N R U W AA AC AE AG AJ

Transparent top view

Figure 9-9 Pin configuration

H_16800_128.eps 230707

Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.4.7

Q528.2E LA

9.

Diagram B05, PNX5050 (IC 7C00)

Block Diagram DDR SDRAM

PNX5050

MAIN MEMORY INTERFACE SD video ITU-R BT.656 HD video YUV 4:2:2

4 : 2 : 2 VIDEO IN ROUTER

HD / PC YUV / RGB 4 : 4 : 4

4 : 4 : 4 VIDEO IN

I2S-bus audio

AUDIO IN

SPDIF audio

SPDIF IN

I2C-bus

PICTURE IMPROVEMENT IMAGE COMPOSITION

LCD OUTPUT

24-bit RGB/ 30-bit RGB

AUDIO OUT

I2S-bus audio

SPDIF OUT

SPDIF audio

I2C

BOOT, RESET, CLOCKS

27 MHz

MISCELLANEOUS I/O, TIMERS, COUNTERS

GPIO

SCALER, DEINTERLACER 2D DRAWING ENGINE

INSTR CACHE

300 MHz 32-BIT CPU

DATA CACHE XIO INTERFACE

FLASH MEMORY

Pin Configuration

AF AD AB Y V T P M K H F D B

AE AC AA W U R N L J G E C A 1

3 2

5 4

7 6

9 8

11 13 15 17 19 21 23 25 10 12 14 16 18 20 22 24 26

H_16800_129.eps 090507

Figure 9-10 Pin configuration

EN 129

EN 130

Circuit Descriptions, Abbreviation List, and IC Data Sheets

Q528.2E LA

Diagram B06C, T6TF4HFG (IC 7GE2)

30

Output buffering

Content Detection

30

AmbiLight

Timing control Unit

256B 16kB MRAM XRAM

32kB ROM

Control reg. IF

Interrupt contr

UART

3

3

PWM Test control

SPI

SPI

SPI

I2Cs1

test

TRST

TDI

TMS

TCK

PWM

Interrupt

6 X GPIO

reset PWM

OSC

PACIFIC3-N2

108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55

A data output Ambi-PWM

B data output LVDS-o output

C data output LVDS-e output

Figure 9-11 Internal block diagram and pin configuration

E data output UART

162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109

D data output Proc address bus

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54

F data output Proc data bus

216 215 214 213 212 211 210 209 208 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163

I2Cs0

clko

R data input

I2Cm

sync o

LVDS-o input B data input

sync i

JTAG

JTAG

BST

6

GPIO

RSTN

Pin Configuration

INT_N

CS

SI

SO

SCK

I2C_3

I2C_2

I2C_1

6

T1

IC2_2

TRIGOUT

80C51 IC2_1

PWM

PSEN/TXD/RXD

SYNC

CLK_OUT

ADDR/DATA/RDN/WRN/

PLL2 inp_sync

60 MHZ RES

LVDS/CMOS RGB OUT

Color LUT & Dithering

P FLASH AND UART

Video Q meter Noise estimator

PLL1

CLK_IN

Sharpness Contr. enhance H LTI Histogram Text enhance Color processing

2ND CMOS RGB OUT /

LVDS decoder

Color gamut mapping

Contrast Reserve & Clip Measure

CMOS output

CMOS input

MVL manager

LVDS decoder

LVDS/CMOS RGB IN

30

Contr, Brightness & White-point corr

LVDS encoder

Input Proc

Pat gen

LVDS encoder

2

TDO

SYNC

Block Diagram

LVDS-e input G data input

9.4.8

9.

G_16840_099.eps 090207

Circuit Descriptions, Abbreviation List, and IC Data Sheets 9.4.9

Q528.2E LA

EN 131

Diagram B08A, ISP1564HL (IC 7P00)

Block Diagram PME# CLK 32

AD[31:0]

C/BE[3:0]#

SCL

SDA

96

99

97 77, 98, 100

7 10, 12 to 15, 20 to 22, 26 to 31, 33, 34, 50 to 54, 56, 57, 59, 62, 63, 65 to 70

REQ#

9

GNT#

8

IDSEL

24

INTA#

4

FRAME#

36

DEVSEL#

39

IRDY#

37

CLKRUN#

42

PAR

47

PERR#

44

SERR#

45

TRDY#

38

STOP#

41

RST# VCC(IO) VCC(REG) REG(1V8)

5

PCI CORE

VOLTAGE REGULATOR (Vaux)

PCI MASTER

2, 73

VCC(AUX)

AUX(1V8)

Vaux(1V8) core PCI SLAVE

CONFIGURATION SPACE

OHCI (FUNCTION 0)

EHCI (FUNCTION 2)

RAM

RAM

CONFIGURATION FUNCTION 0

81

CONFIGURATION FUNCTION 2

80

RREF

GND _RREF

1, 17, 46, 61, 72, 82, 84, 89, 91

PORT ROUTER

CORE RESET_N

GNDA

POR

11, 25, 40, 55, 71 ATX1

16 18, 43, 58

VCC CORE

VOLTAGE REGULATOR

ORIGINAL USB ATX

ATX2 ORIGINAL USB ATX

Hi-SPEED USB ATX

Hi-SPEED USB ATX

19, 32, 49, 64, 76, 94, 95

6

74

GND

SYS_TUNE

XOSC PLL 90

92 DP2

76 GND

77 VCC(IO)AUX

79 PWE1_N

78 OC1_N

DP1 OC2_N PWE2_N DM2

82 GNDA

83 DM1

84 GNDA

86 VCCA(AUX)

85 DP1

87 OC2_N

89 GNDA

88 PWE2_N

90 DM2

91 GNDA

93 VCCA(AUX)

92 DP2

94 GND

96 SCL

95 GND

97 SDA

99 PME#

98 VCC(IO)AUX

100 VCC(IO)AUX

88

87

85

OC1_N PWE1_N DM1

VCCA(AUX)

Pin Configuration

83

79

80 GND_RREF

78

81 RREF

86, 93

GNDA

1

75 XTAL2

AUX(1V8)

2

74 XTAL1

VCC(AUX)

3

73 AUX(1V8)

INTA#

4

72 GNDA

RST#

5

71 VCC(IO)

SYS_TUNE

6

70 AD[0]

CLK

7

69 AD[1]

GNT#

8

68 AD[2]

REQ#

9

67 AD[3]

AD[31] 10

66 AD[4] 65 AD[5]

VCC(IO) 11

ISP1564HL

AD[30] 12

64 GND

AD[29] 13

63 AD[6]

AD[28] 14

62 AD[7]

AD[27] 15

61 GNDA 60 C/BE[0]#

VCC(REG) 16

59 AD[8]

GNDA 17

58 REG(1V8)

REG(1V8) 18

57 AD[9]

GND 19 AD[26] 20

56 AD[10]

AD[25] 21

55 VCC(IO)

AD[24] 22

54 AD[11]

GND 49

AD[15] 50

C/BE[1]# 48

PAR 47

GNDA 46

SERR# 45

PERR# 44

REG(1V8) 43

CLKRUN# 42

STOP# 41

VCC(IO) 40

DEVSEL# 39

TRDY# 38

C/BE[2]# 35

AD[16] 34

GND 32

AD[17] 33

AD[18] 31

AD[19] 30

51 AD[14]

AD[20] 29

VCC(IO) 25 AD[21] 28

52 AD[13]

AD[23] 26

53 AD[12]

IDSEL 24

AD[22] 27

C/BE[3]# 23

IRDY# 37

75

FRAME# 36

XTAL2

3

ISP1564

VCC(I/O) DETECT XTAL1

VCC(IO)AUX

GLOBAL CONTROL

23, 35, 48, 60

32-bit, 33 MHz PCI bus

9.

Figure 9-12 Internal block diagram and pin configuration

H_17650_073.eps 150108

EN 132

9.

Circuit Descriptions, Abbreviation List, and IC Data Sheets

Q528.2E LA

9.4.10 Diagram B08C, AD8197A (IC 7P70)

06471-001

Block Diagram

Figure 1.

TYPICAL APPLICATION

04:20

AMUXVCC

AUX_D1

AUX_D2

AUX_D3

PP_EQ

PP_EN

80

79

78

77

76

AUX_C3

AUX_D0 81

AUX_C2 84

82

83

AUX_COM3 87

AUX_C0

AUX_COM2 88

AUX_C1

AUX_COM1 89

85

AUX_COM0

86

AUX_B2

AUX_B3

92

91

90

AUX_B0

AUX_B1 93

DVEE 95

94

AUX_A2

AUX_A3 96

AUX_A1

97

AUX_A0

PP_OTO

99

100

98

Pin Configuration

75

AVCC

74

IP_C3

AVCC

1

IN_B0

2

IP_B0

3

73

IN_C3

AVEE

4

72

AVEE IP_C2

PIN 1 INDICATOR

IN_B1

5

71

IP_B1

6

70

IN_C2

VTTI

7

69

VTTI IP_C1

IN_B2

8

68

IP_B2

9

67

IN_C1

AVEE

10

66

AVEE

IN_B3

11

IP_B3

12

AVCC

13

IN_A0

14

IP_A0

15

61

IN_D3

AVEE

16

60

AVEE IP_D2

AD8197 TOP VIEW (Not to Scale)

65

IP_C0

64

IN_C0

63

AVCC

62

IP_D3

IN_A1

17

59

IP_A1

18

58

IN_D2

VTTI

19

57

VTTI

IN_A2

20

56

IP_D1

IP_A2

21

55

IN_D1

AVCC

22

54

AVCC

IN_A3

23

53

IP_D0

49

I2C_SCL

50

48

PP_OCL

I2C_SDA

46

47

DVCC

45

PP_PRE0

PP_PRE1

42

41

VTTO

44

40

OP2

43

39

ON2

OP3

38

ON3

37

OP1

DVCC

RESET

34

35

36

OP0

ON1

33

ON0

VTTO

31

32

DVCC

30

PP_CH0

PP_CH1

29

27

DVEE

26

AVEE

28

IN_D0

51

I2C_ADDR0

52

25

I2C_ADDR2

24

AVEE

I2C_ADDR1

IP_A3

H_17650_080.eps 150108

Figure 9-13 Internal block diagram and pin configuration

Circuit Descriptions, Abbreviation List, and IC Data Sheets

Q528.2E LA

9.

EN 133

9.4.11 Diagram B09B, STE100P (IC 7NA1)

Block Diagram LEDS

LEDS

TX Channel

100Mb/s

Parallel to Serial

Scrambler

4B/5B

TX_CLK TXD[3:0]

Binary To MLT3 Encoder

NRZ To NRZI Encoder

TRANSMITTER 10/100

TX_ER

10Mb/s

MDC

MII

MDIO

RXD[3:0] RX_ER RX_DV

Interface / Controller

Serial Management

TX_EN

HW configuration pins

Loopback

Clock Generation

RX Channel Serial to Parallel

NRZ To Manchester Encoder

10Mb/s

NRZI To NRZ Decoder

BaseLine Wander

Clock Recovery

10 TX Filter

Link Pulse Detector

System Clock

Adaptive Equalization

Binary To MLT3 Decoder

100Mb/s Descrambler Code Align

TXN

10 TX Filter

Auto Negotiation

REGISTERS

4B/5B

RX_CLK

Link Pulse Generator

NRZ To Manchester Encoder

TXP

RECEIVER 10/100

RXP RXN

SMART Squelch

Clock Recovery

HW Config Power Down

rx_clk

gnde/i

tx_er/txd4

rx_er/rxd4

tx_clk

tx_en

txd1

txd0

txd2

txd3

col

crs

mdint

cfg1

vcce/i

cfg0

Pin Configuration

64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 mf4

1

48

rx_dv

mf3

2

47

rxd0

mf2

3

46

rxd1

mf1

4

45

vcce/i

mf0

5

44

rdx2

fde

6

43

rdx3

gnda

7

42

mdc

nc

8

41

mdio

vcca

9

40

gnde/i

gnda

10

39

vcce/i

x2

11

38

ledr10

x1

12

37

ledtr

vcca

13

36

ledl

gnda

14

35

ledc

iref

15

34

leds

vcca

16

33

test_se

STE100P

nc

nc

nc

rip

reset

pwrdwn

test

gnda

gnde

txn

vcca

txp

gnda

rxp

rxn

vcca

17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

Figure 9-14 Internal block diagram and pin configuration

H_17650_081.eps 150108

EN 134

9.

Circuit Descriptions, Abbreviation List, and IC Data Sheets

Q528.2E LA

9.4.12 Diagram B10A, TDA8932B (IC 7D10)

Block Diagram

OSCREF

OSCIO

10

VDDA

31

8 28

IN1P

2

OSCILLATOR

29 DRIVER HIGH PWM MODULATOR

VSSD

IN1N INREF IN2P

26

DRIVER LOW

3

21

MANAGER

12

20

15

DRIVER HIGH PWM MODULATOR

IN2N

27

CTRL

22

CTRL 23

DRIVER LOW

14 PROTECTIONS: OVP, OCP, OTP, UVP, TF, WP

VDDP1 OUT1 VSSP1

BOOT2 VDDP2 OUT2 VSSP2

VDDA STABILIZER 11 V

DIAG

BOOT1

4

25

STAB1

VSSP1 VDDA STABILIZER 11 V

CGND

POWERUP

7

6

REGULATOR 5 V

18

DREF

VSSD

5 11

VDDA

30

TEST

STAB2

VSSP2

MODE

ENGAGE

24

VSSA

TDA8932B

13

19

HVPREF

HVP1

HVP2

HALF SUPPLY VOLTAGE 9

1, 16, 17, 32

VSSA

VSSD(HW)

Pin Configuration VSSD(HW)

1

32 VSSD(HW)

VSSD(HW)

1

32 VSSD(HW)

IN1P

2

31 OSCIO

IN1P

2

31 OSCIO

IN1N

3

30 HVP1

IN1N

3

30 HVP1

DIAG

4

29 VDDP1

DIAG

4

29 VDDP1

ENGAGE

5

28 BOOT1

ENGAGE

5

28 BOOT1

POWERUP

6

27 OUT1

POWERUP

6

27 OUT1

CGND

7

26 VSSP1

CGND

7

26 VSSP1

VDDA

8

25 STAB1

VDDA

8

VSSA

9

24 STAB2

VSSA

9

OSCREF 10

23 VSSP2

OSCREF 10

23 VSSP2

HVPREF 11

22 OUT2

HVPREF 11

22 OUT2

TDA8932BT

TDA8932BTW

25 STAB1 24 STAB2

INREF 12

21 BOOT2

INREF 12

21 BOOT2

TEST 13

20 VDDP2

TEST 13

20 VDDP2

IN2N 14

19 HVP2

IN2N 14

19 HVP2

IN2P 15

18 DREF

IN2P 15

18 DREF

VSSD(HW) 16

17 VSSD(HW)

VSSD(HW) 16

17 VSSD(HW) H_17650_082.eps 150108

Figure 9-15 Internal block diagram and pin configuration

Spare Parts List & CTN Overview

10. Spare Parts List & CTN Overview For the latest spare part overview, please consult the Philips Service website. Table 10-1 Sets described in this manual: CTN

Styling

32PFL7403D/79

ME8

42PFL5603D/10

ME8

42PFL5603D/12

ME8

42PFL5603H/10

ME8

42PFL7603D/10

ME8+

42PFL7603D/12

ME8+

11. Revision List Manual xxxx xxx xxxx.0 • First release. Manual xxxx xxx xxxx.1 • All Chapters: added 32PFL7403D/79 (Australia). • Chapter 5: replaced start-up diagrams. • Chapter 7: replaced SRP List.

Q528.2E LA

10.

EN 135

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