Philips 47PFL7008K/12 - wymiana płyty, brak obrazu, podświetlanie działa
Witam.
Wymiana płyty i przedstawia się w sieci domowej jako "42-quot--Philips-7008", działa sterowanie z pilota, jest podświetlanie matrycy, także świeci ambilight.
Na matrycy ciemność, czasami wyświetli jakiś pasek.
Płyta: 3104 303 54945 - 3104 313 66185
310432880961
Nowa z tymi samymi numerkami.
Proszę o pomoc w rozwiązaniu problemu.
W załączniku instrukcja serwisowa.
Download file - link to post
Colour Television
Chassis
QFU1.2E
LA
Contents
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Page
Revision List
2
Technical Specs, Diversity, and Connections
2
Precautions, Notes, and Abbreviation List
7
Mechanical Instructions
11
Service Modes, Error Codes, and Fault Finding 20
Alignments
40
Circuit Descriptions
45
IC Data Sheets
47
Block Diagrams
49
Circuit Diagrams and PWB Layouts
Drawing
59
310431366124 SSB
310431366185 SSB
101
310431366186 SSB
143
C 310431366652 Amplifier panel
185
272217190763, 272217190764, 272217190766
Keyboard Control Module
187
282206502664, 282206502665, 820400159661
Wireless LAN USB module, light sensor, IR/LED195
282206502668, 282206502669 Wireless LAN USB
module, light sensor, IR/LED
195
272217190759, 272217190761 Sensor Module 202
310431366033 AmbiLight
203
310431366043 AmbiLight
205
310431366053 AmbiLight
207
310431366063 AmbiLight
209
310431366292 AmbiLight
213
310431366302 AmbiLight
215
310431366312 AmbiLight
217
310431366372 AmbiLight
219
11. Styling Sheets
6000 series 42 " /47 "
222
7000 series 42 " /47 "
223
8000 series 40 " /46 "
224
8000 Design series 46 "
225
6000 series 55 " /60 "
226
7000 series 55 "
227
8000 series 55 "
228
8000 Design series 55 "
229
8000 series 60 "
230
9000 series 65 "
231
9000 series 84 "
232
Published by PvH/EL 1402 TV Quality
PWB
99-100
141-142
183-184
Printed in the Netherlands
Subject to modification
EN 3122 785 19374
2014-Jan-10
2014
©
TP Vision Netherlands B.V.
All rights reserved. Specifications are subject to change without notice. Trademarks are the
property of Koninklijke Philips Electronics N.V. or their respective owners.
TP Vision Netherlands B.V. reserves the right to change products at any time without being obliged to adjust
earlier supplies accordingly.
PHILIPS and the PHILIPS’ Shield Emblem are used under license from Koninklijke Philips Electronics N.V.
�EN 2
1.
Revision List
QFU1.2E LA
1. Revision List
Manual xxxx xxx xxxx.3
• Chapter 2: Table 2-1 updated (added CTNs).
• Chapter 6: added white tone values; see section 6.3.1.
Manual xxxx xxx xxxx.0
• First release.
Manual xxxx xxx xxxx.1
• Chapter 2: Table 2-1 updated (added CTNs).
• Chapter 4: added additional Ambilight unit handling info;
see section 4.3.2.
Manual xxxx xxx xxxx.4
• Chapter 2: Table 2-1 updated (added CTNs).
• Chapter 4: updated and added cable wiring (added CTNs).
• Chapter 6: added white tone values (added CTNs).
• Chapter 9: added wiring diagrams (added CTNs).
• Chapter 10: added schematics (AL).
• Chapter 11: added styling sheets (added CTNs).
Manual xxxx xxx xxxx.2
• Chapter 2: Table 2-1 updated (added CTNs).
2. Technical Specs, Diversity, and Connections
Index of this chapter:
2.1 Technical Specifications
2.2 Directions for Use
2.3 Connections
2.4 Chassis Overview
2.1
Technical Specifications
For on-line product support please use the CTN links in Table
2-1. Here is product information available, as well as getting
started, user manuals, frequently asked questions and
software & drivers.
Notes:
• Figures can deviate due to the different set executions.
• Specifications are indicative (subject to change).
Table 2-1 Described Model Numbers and Diversity
Sheet
(AmbiLight)
(Sensor Module)
(Wireless LAN USB, Light Sensor, IR/LED Module)
(Keyboard Control Module)
Amplifier control module
SSB
Supply lines
I2C
Audio
Power Supply
Styling
Control & Clock
11
Schem
atics
General Power Architecture
10
Block Diagrams
Descr.
Assembly Removal
CTN
Wire Dressing
Connection Overview
Mechanics
9
Video
7
Wiring Diagram
4
Power Supply
2
40PFL8008K/12
2.3
4-1
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.11
11.3
40PFL8008S/12
2.3
4-1
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.11
11.3
40PFL8008S/60
2.3
4-1
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.11
11.3
42PFL6008H/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6008K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6008S/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6008S/60
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6158K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6158S/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6188K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6188S/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6198K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6678K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL6678S/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
42PFL7008H/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
42PFL7008K/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
42PFL7008S/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
42PFL7008S/60
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
42PFL7008T/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
42PFL7108H/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
2014-Jan-10
back to
div. table
�Technical Specs, Diversity, and Connections
EN 3
Sheet
(AmbiLight)
(Sensor Module)
(Wireless LAN USB, Light Sensor, IR/LED Module)
(Keyboard Control Module)
Amplifier control module
SSB
Supply lines
I2C
Audio
Power Supply
Styling
Control & Clock
11
Schem
atics
General Power Architecture
10
Block Diagrams
Descr.
Assembly Removal
CTN
Wire Dressing
Connection Overview
Mechanics
2.
9
Video
7
Wiring Diagram
4
Power Supply
2
QFU1.2E LA
42PFL7108K/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
42PFL7108S/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
42PFL7108S/60
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
42PFL7108T/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.11
10.12
11.2
46PDL8908S/12
2.3
4-7
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.8
10.9
10.12
11.4
46PDL8908S/60
2.3
4-7
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.8
10.9
10.12
11.4
46PFL8008K/12
2.3
4-5
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.15
11.3
46PFL8008S/12
2.3
4-5
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.15
11.3
46PFL8008S/60
2.3
4-5
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.15
11.3
46PFL8008S/98
2.3
4-5
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.15
11.3
47PFL6008H/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6008K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6008S/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6008S/60
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6158K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6158S/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6188K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6188S/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6198K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6678K/12
2.3
4-3
4.3
7.2
7.3
9.2
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL6678S/12
2.3
4-3
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.15
11.1
47PFL7008H/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.12
10.13
11.2
47PFL7008K/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.12
10.13
11.2
47PFL7008S/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.12
10.13
11.2
47PFL7008S/60
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.12
10.13
11.2
47PFL7108H/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.12
10.13
11.2
47PFL7108K/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.12
10.13
11.2
47PFL7108S/12
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.12
10.13
11.2
47PFL7108S/60
2.3
4-4
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.12
10.13
11.2
55PDL8908D/78
2.3
4-7
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.3
-
10.5
-
10.9
10.11
10.12
10.14
11.8
55PDL8908S/12
2.3
4-7
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.13
10.10
10.11
11.8
55PDL8908S/60
2.3
4-7
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.13
10.10
10.11
11.8
55PDL8908S/98
2.3
4-7
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.1
-
10.5
10.7
10.9
10.13
10.10
10.11
11.8
55PFL6008H/12
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL6008K/12
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL6008S/12
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL6008S/60
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL6008T/12
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL6158K/12
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL6158S/12
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL6188K/12
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
back to
div. table
2014-Jan-10
�Technical Specs, Diversity, and Connections
QFU1.2E LA
Sheet
(AmbiLight)
(Sensor Module)
(Keyboard Control Module)
Amplifier control module
SSB
Supply lines
I2C
(Wireless LAN USB, Light Sensor, IR/LED Module)
Styling
Power Supply
11
Schem
atics
Control & Clock
10
Block Diagrams
Descr.
Assembly Removal
CTN
Wire Dressing
Connection Overview
Mechanics
9
Audio
7
Video
4
Wiring Diagram
2
General Power Architecture
2.
Power Supply
EN 4
55PFL6188S/12
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL6678K/12
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL6678S/12
2.3
4-3
4.3
7.2
7.3
9.3
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.16
11.5
55PFL7008H/12
2.3
4-8
4.3
7.2
7.3
9.4
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.13
10.10
10.11
11.6
55PFL7008K/12
2.3
4-8
4.3
7.2
7.3
9.4
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.13
10.10
10.11
11.6
55PFL7008S/12
2.3
4-8
4.3
7.2
7.3
9.4
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.13
10.10
10.11
11.6
55PFL7008S/60
2.3
4-8
4.3
7.2
7.3
9.4
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.13
10.10
10.11
11.6
55PFL7108H/12
2.3
4-8
4.3
7.2
7.3
9.4
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.13
10.10
10.11
11.6
55PFL7108K/12
2.3
4-8
4.3
7.2
7.3
9.4
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.13
10.10
10.11
11.6
55PFL7108S/12
2.3
4-8
4.3
7.2
7.3
9.4
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.13
10.10
10.11
11.6
55PFL7108S/60
2.3
4-8
4.3
7.2
7.3
9.4
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.13
10.10
10.11
11.6
55PFL8008K/12
2.3
4-9
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.15
11.7
55PFL8008S/12
2.3
4-9
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.15
11.7
55PFL8008S/60
2.3
4-9
4.3
7.2
7.3
-
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.8
10.9
10.15
11.7
60PFL6008H/12
2.3
4-3
4.3
7.2
7.3
9.5
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.17
11.5
60PFL6008K/12
2.3
4-3
4.3
7.2
7.3
9.5
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.17
11.5
60PFL6008S/12
2.3
4-3
4.3
7.2
7.3
9.5
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.17
11.5
60PFL6008S/60
2.3
4-3
4.3
7.2
7.3
9.5
9.9
9.9
-
-
9.10
-
10.2
-
10.5
10.7
10.9
10.17
11.5
60PFL8708S/12
2.3
4-11
4.3
7.2
7.3
9.6
9.9
9.9
-
-
9.10
-
10.3
-
10.5
-
10.9
10.18
11.9
60PFL8708S/60
2.3
4-11
4.3
7.2
7.3
9.6
9.9
9.9
-
-
9.10
-
10.3
-
10.5
-
10.9
10.18
11.9
65PFL9708S/12
2.3
4-12
4.3
7.2
7.3
9.7
9.9
9.9
-
-
9.10
-
10.3
-
-
-
10.9
10.11
10.12
10.14
11.10
65PFL9708S/60
2.3
4-12
4.3
7.2
7.3
9.7
9.9
9.9
-
-
9.10
-
10.3
-
-
-
10.9
10.11
10.12
10.14
11.10
84PFL9708S/12
2.3
4-14
4.3
7.2
7.3
9.8
9.9
9.9
-
-
9.10
-
10.3
10.4
-
-
10.9
10.11
10.12
10.14
11.11
84PFL9708/78
2.2
2.3
55PFL6198K/12
2.3
4-14
4.3
7.2
7.3
9.8
9.9
9.9
-
-
9.10
-
10.3
10.4
-
-
10.9
10.11
10.12
10.14
11.11
Directions for Use
You can download this information from the following websites:
http://www.philips.com/support
http://www.p4c.philips.com
2014-Jan-10
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div. table
�Technical Specs, Diversity, and Connections
2.3
QFU1.2E LA
2.
EN 5
Connections
Connections
Side
Rear
HDMI 4
HDMI 1
HDMI 2
HDMI 3
ARC
ARC
ARC
ARC
1
SCART
NETWORK
3
4
2
USB
USB
USB
Y Pb Pr - L R
AUDIO OUT
AUDIO IN ANTENNA SATELLITE
OPTICAL
5
L/R
7
8
6
11
9
(optional)
COMMON INTERFACE
10
19370_062_130201.eps
130404
Figure 2-1 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.
20 - Ground
3 - Video RGB - In, CVBS - In/Out, Audio - In/Out
20
2.3.1
H
Gnd
2
Connections
1 - Head phone (Output)
Bk - Head phone
32 - 600 ohm / 10 mW
21
ot
Figure 2-3 SCART connector
2 - HDMI 1, 2, 3, 4: Digital Video - In, Digital Audio with ARC
- In/Out
19
18
1
2
3
4
5
6
7
8
- D2+
- Shield
- D2- D1+
- Shield
- D1- D0+
- Shield
- D0- CLK+
- Shield
- CLK- Easylink/CEC
- ARC
- DDC_SCL
- DDC_SDA
- Ground
- +5V
- HPD
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Data channel
Gnd
Data channel
Control channel
Audio Return Channel
DDC clock
DDC data
Gnd
Hot Plug Detect
j
H
j
j
H
j
j
H
j
j
H
j
jk
k
j
jk
H
j
j
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div. table
- Ground Green
- n.c.
- Video Green
- n.c.
- Ground Red
- Ground P50
- Video Red
- Status/FBL
17
18
19
20
21
Figure 2-2 HDMI (type A) connector
- n.c.
- Audio R
- n.c.
- Ground Audio
- Ground Blue
- Audio L
- Video Blue
- Function Select
9
10
11
12
13
14
15
16
1
2
10000_017_090121.eps
090428
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
1
10000_001_090121.eps
090121
- Ground Video
- Ground FBL
- n.c.
- Video CVBS
- Shield
0.5 VRMS / 10 kohm
j
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
H
H
j
jk
j
H
0.7 VPP / 75 ohm
j
Gnd
Gnd
0.7 VPP / 75 ohm
0 - 0.4 V: INT
1 - 3 V: EXT / 75 ohm
Gnd
Gnd
H
H
j
1 VPP / 75 ohm
Gnd
j
H
j
H
H
2014-Jan-10
�EN 6
2.
QFU1.2E LA
Technical Specs, Diversity, and Connections
4 - RJ45: Ethernet
1
2
3
4
Transmit signal
Transmit signal
Receive signal
Centre Tap: DC level fixation
Centre Tap: DC level fixation
Receive signal
Gnd
Gnd
j
H
H
5 - USB2.0
kq
8 - Cinch: Audio - In (VGA/DVI)
Rd - Audio R
0.5 VRMS / 10 kohm
Wh - Audio L
0.5 VRMS / 10 kohm
k
k
j
jq
jq
jq
jq
jq
7 - Cinch: S/PDIF - Out
Bk - Coaxial
0.4 - 0.6VPP / 75 ohm
Figure 2-4 Ethernet connector
- TD+
- TD- RD+
- CT
- CT
- RD- GND
- GND
jq
jq
9 - Aerial - In
- - IEC-type (EU)
1
2
3
Gnd
k
jk
jk
H
6 - Cinch: Video YPbPr - In, Audio - In
Gn - Video Y
1 VPP / 75 ohm
Bu - Video Pb
0.7 VPP / 75 ohm
Rd - Video Pr
0.7 VPP / 75 ohm
Rd - Audio - R
0.5 VRMS / 10 kohm
Wh - Audio - L
0.5 VRMS / 10 kohm
10000_025_090121.eps
120320
1
2
3
4
5
6
7
8
- +5V
- Data (-)
- Data (+)
- Ground
Coax, 75 ohm
D
4
10000_022_090121.eps
090121
10 - Common Interface
68p - See Figure 10-1-35 B06I, CI conditional access
jk
Figure 2-5 USB (type A)
11 - SAT - In (optional)
- - F-type
Coax, 75 ohm
2.4
Chassis Overview
Refer to chapter 9. Block Diagrams for PWB/CBA locations.
2014-Jan-10
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D
�Precautions, Notes, and Abbreviation List
QFU1.2E LA
3.
EN 7
3. Precautions, Notes, and Abbreviation List
Index of this chapter:
3.1 Safety Instructions
3.2 Warnings
3.3 Notes
3.4 Abbreviation List
3.3.2
Schematic Notes
•
•
3.1
Safety Instructions
Safety regulations require the following during a repair:
• Connect the set to the Mains/AC Power via an isolation
transformer ( & gt; 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 M and 12 M.
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.
3.2
3.3.3
•
•
•
3.3.4
BGA Temperature Profiles
For BGA-ICs, you must use the correct temperature-profile.
Where applicable and available, this profile is added to the IC
Data Sheet information section in this manual.
3.3.5
General
•
•
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. 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.
Notes
3.3.1
BGA (Ball Grid Array) ICs
Introduction
For more information on how to handle BGA devices, visit this
URL: http://www.atyourservice-magazine.com. Select
“Magazine”, then go to “Repair downloads”. Here you will find
Information on how to deal with BGA-ICs.
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.
3.3
Spare Parts
For the latest spare part overview, consult your Philips Spare
Part web portal.
Warnings
•
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 k).
Resistor values with no multiplier may be indicated with
either an “E” or an “R” (e.g. 220E or 220R indicates 220 ).
All capacitor values are given in micro-farads ( 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 on the Philips
Spare Parts Web Portal.
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 with a colour bar signal and stereo
sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and
picture carrier at 475.25 MHz for PAL, or 61.25 MHz for
NTSC (channel 3).
Where necessary, measure the waveforms and voltages
with (D) and without (E) aerial signal. Measure the
voltages in the power supply section both in normal
operation (G) and in stand-by (F). These values are
indicated by means of the appropriate symbols.
3.3.6
Alternative BOM identification
It should be noted that on the European Service website,
“Alternative BOM” is referred to as “Design variant”.
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
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div. table
2014-Jan-10
�EN 8
3.
QFU1.2E LA
Precautions, Notes, and Abbreviation List
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.
AARA
ACI
ADC
AFC
AGC
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.
SN is Lysomice, RJ is Kobierzyce), 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 2010 week 10 / 2010
week 17). The 6 last digits contain the serial number.
AM
AP
AR
ASF
ATSC
ATV
Auto TV
AV
AVC
AVIP
B/G
BDS
BLR
BTSC
10000_053_110228.eps
110228
B-TXT
C
CEC
Figure 3-1 Serial number (example)
3.3.7
Board Level Repair (BLR) or Component Level Repair
(CLR)
CL
CLR
ComPair
CP
CSM
CTI
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!
3.3.8
•
•
3.4
CVBS
Practical Service Precautions
DAC
DBE
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.
DCM
DDC
D/K
DFI
DFU
DMR
DMSD
DNM
Abbreviation List
0/6/12
2014-Jan-10
SCART switch control signal on A/V
board. 0 = loop through (AUX to TV),
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div. table
6 = play 16 : 9 format, 12 = play 4 : 3
format
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
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
Business Display Solutions (iTV)
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
Computer aided rePair
Connected Planet / Copy Protection
Customer Service Mode
Color Transient Improvement:
manipulates steepness of chroma
transients
Composite Video Blanking and
Synchronization
Digital to Analogue Converter
Dynamic Bass Enhancement: extra
low frequency amplification
Data Communication Module. Also
referred to as System Card or
Smartcard (for iTV).
See “E-DDC”
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 Multi Standard Decoding
Digital Natural Motion
�Precautions, Notes, and Abbreviation List
DNR
DRAM
DRM
DSP
DST
DTCP
DVB-C
DVB-T
DVD
DVI(-d)
E-DDC
EDID
EEPROM
EMI
EPG
EPLD
EU
EXT
FDS
FDW
FLASH
FM
FPGA
FTV
Gb/s
G-TXT
H
HD
HDD
HDCP
HDMI
HP
I
I 2C
I2D
I2S
IF
IR
IRQ
ITU-656
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
Electronic Program Guide
Erasable Programmable Logic Device
Europe
EXTernal (source), entering the set by
SCART or by cinches (jacks)
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
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.
iTV
LS
LATAM
LCD
LED
L/L'
LPL
LS
LVDS
Mbps
M/N
MHEG
MIPS
MOP
MOSFET
MPEG
MPIF
MUTE
MTV
NC
NICAM
NTC
NTSC
NVM
O/C
OSD
OAD
OTC
P50
PAL
PCB
PCM
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QFU1.2E LA
3.
EN 9
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.
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
LG.Philips LCD (supplier)
Loudspeaker
Low Voltage Differential Signalling
Mega bits per second
Monochrome TV system. Sound
carrier distance is 4.5 MHz
Part of a set of international standards
related to the presentation of
multimedia information, standardised
by the Multimedia and Hypermedia
Experts Group. It is commonly used as
a language to describe interactive
television services
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
Mainstream TV: TV-mode with
Consumer TV features enabled (iTV)
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. Color system mainly used
in North America and Japan. Color
carrier NTSC M/N= 3.579545 MHz,
NTSC 4.43= 4.433619 MHz (this is a
VCR norm, it is not transmitted off-air)
Non-Volatile Memory: IC containing
TV related data such as alignments
Open Circuit
On Screen Display
Over the Air Download. Method of
software upgrade via RF transmission.
Upgrade software is broadcasted in
TS with TV channels.
On screen display Teletext and
Control; also called Artistic (SAA5800)
Project 50: communication protocol
between TV and peripherals
Phase Alternating Line. Color system
mainly used in West Europe (colour
carrier = 4.433619 MHz) and South
America (colour carrier
PAL M = 3.575612 MHz and
PAL N = 3.582056 MHz)
Printed Circuit Board (same as “PWB”)
Pulse Code Modulation
2014-Jan-10
�EN 10
3.
PDP
PFC
PIP
PLL
POD
POR
PSDL
PSL
PSLS
PTC
PWB
PWM
QRC
QTNR
QVCP
RAM
RGB
RC
RC5 / RC6
RESET
ROM
RSDS
R-TXT
SAM
S/C
SCART
SCL
SCL-F
SD
SDA
SDA-F
SDI
SDRAM
SECAM
SIF
SMPS
SoC
SOG
SOPS
SPI
S/PDIF
SRAM
SRP
SSB
SSC
STB
STBY
SVGA
SVHS
SW
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QFU1.2E LA
Precautions, Notes, and Abbreviation List
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
Point Of Deployment: a removable
CAM module, implementing the CA
system for a host (e.g. a TV-set)
Power On Reset, signal to reset the uP
Power Supply for Direct view LED
backlight with 2D-dimming
Power Supply with integrated LED
drivers
Power Supply with integrated LED
drivers with added Scanning
functionality
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
color signals for TV. By mixing levels
of R, G, and B, all colors (Y/C) are
reproduced.
Remote Control
Signal protocol from the remote
control receiver
RESET signal
Read Only Memory
Reduced Swing Differential Signalling
data interface
Red TeleteXT
Service Alignment Mode
Short Circuit
Syndicat des Constructeurs
d'Appareils Radiorécepteurs et
Téléviseurs
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 Mémoire.
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
Serial Peripheral Interface bus; a 4wire synchronous serial data link
standard
Sony Philips Digital InterFace
Static RAM
Service Reference Protocol
Small Signal Board
Spread Spectrum Clocking, used to
reduce the effects of EMI
Set Top Box
STand-BY
800 × 600 (4:3)
Super Video Home System
Software
SWAN
SXGA
TFT
THD
TMDS
TS
TXT
TXT-DW
UI
uP
UXGA
V
VESA
VGA
VL
VSB
WYSIWYR
WXGA
XTAL
XGA
Y
Y/C
YPbPr
YUV
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Spatial temporal Weighted Averaging
Noise reduction
1280 × 1024
Thin Film Transistor
Total Harmonic Distortion
Transmission Minimized Differential
Signalling
Transport Stream
TeleteXT
Dual Window with TeleteXT
User Interface
Microprocessor
1600 × 1200 (4:3)
V-sync to the module
Video Electronics Standards
Association
640 × 480 (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
1280 × 768 (15:9)
Quartz crystal
1024 × 768 (4:3)
Luminance signal
Luminance (Y) and Chrominance (C)
signal
Component video. Luminance and
scaled color difference signals (B-Y
and R-Y)
Component video
�Mechanical Instructions
QFU1.2E LA
4.
EN 11
4. Mechanical Instructions
Index of this chapter:
4.1 Cable Dressing4.2 Service Positions
4.3 Assy/Panel Removal
4.4 Set Re-assembly
Notes:
• Figures below can deviate slightly from the actual situation,
due to the different set executions.
4.1
Cable Dressing-
Figure 4-1 Cable dressing 40 " 8000 series
Figure 4-2 Back cover 40 " 8000 series
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�EN 12
4.
QFU1.2E LA
Mechanical Instructions
le
ab
l
ai
av
t
No
19210_104_120516.eps
120516
Figure 4-3 Cable dressing 42 " - 47 " - 55 " - 60 " 6000 series
le
ab
l
ai
av
t
No
19210_104_120516.eps
120516
Figure 4-4 Cable dressing 42 " - 47” 7000 series
2014-Jan-10
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�Mechanical Instructions
QFU1.2E LA
4.
EN 13
Figure 4-5 Cable dressing 46 " 8000 series
Figure 4-6 Back cover 46 " 8000 series
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2014-Jan-10
�EN 14
4.
QFU1.2E LA
Mechanical Instructions
le
ab
l
ai
av
t
No
19210_104_120516.eps
120516
Figure 4-7 Cable dressing 46 " - 55 " 8000 Design series
19370_082_130208.eps
130208
Figure 4-8 Cable dressing 55 " 7000 series
2014-Jan-10
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�Mechanical Instructions
QFU1.2E LA
4.
EN 15
Figure 4-9 Cable dressing 55 " 8000 series
Figure 4-10 Back cover 55 " 8000 series
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2014-Jan-10
�EN 16
4.
QFU1.2E LA
Mechanical Instructions
19374_027_140110.eps
140110
Figure 4-11 Cable dressing 60 " 8000 series
19374_028_140110.eps
140110
Figure 4-12 Cable dressing 65 " 9000 series
2014-Jan-10
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4.
EN 17
19374_029_140110.eps
140110
Figure 4-13 Cable dressing 65 " 9000 series - Back cover
19374_030_140110.eps
140110
Figure 4-14 Cable dressing 84 " 9000 series
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�EN 18
4.
QFU1.2E LA
Mechanical Instructions
19374_031_140110.eps
140110
Figure 4-15 Cable dressing 84 " 9000 series - Back cover
4.2
Service Positions
Caution: Failure to follow these guidelines can seriously
damage the display!
Ensure that ESD safe measures are taken.
For easy servicing of a TV set, the set should be put face down
on a soft flat surface, foam buffers or other specific workshop
tools. Ensure that a stable situation is created to perform
measurements and alignments. When using foam bars take
care that these always support the cabinet and never only the
display.
4.3.1
4.3
Assy/Panel Removal
Rear Cover
Warning: Disconnect the mains power cord before removing
the rear cover.
Attention: For Ambilight sets, the leading edge cover has to be
removed.
1
3
It is mandatory to remove the leading edge cover and
disconnect the cables prior to removal of the rear cover!
See Figure 4-16 and Figure 4-17 for details.
1. For sets equipped with Ambilight: remove the stand and
swivel block [1].
2. Remove the leading edge hatch that covers the Ambilight
connector [2].
3. Unplug the Ambilight connectors located underneath the
hatch [3].
4. Lift the rear cover from the TV. Make sure that wires and
flat foils are not damaged while lifting the rear cover from
the set.
2014-Jan-10
1
3
2
2
19370_080_130208.eps
130208
Figure 4-16 Rear cover removal Ambilight models -1-
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4.
EN 19
Click!
3
3
19370_081_130208.eps
130208
LVDS flat foil
Figure 4-17 Rear cover removal Ambilight models -24.3.2
Click!
Ambilight units in Rear Cover
The Ambilight units are affixed in the rear cover and will selfdestruct upon removal.
19222_001_120626.eps
120626
Attention: it is of the utmost importance to remove all remains
of any adhesive that might be left on the inside of the rear
cover.
Figure 4-19 SSB LVDS connector catches (optional) -2-
4.4
Set Re-assembly
The new units come with double-sided adhesive tape. Ensure
a correct mounting to avoid uneven light emission of the units.
4.3.3
To re-assemble the whole set, execute all processes in reverse
order.
SSB
Notes:
• While re-assembling, make sure that all cables are placed
and connected in their original position.
• Pay special attention not to damage the EMC foams in the
set. Ensure that EMC foams are mounted correctly.
Refer to Figure 4-18 and Figure 4-19 for details.
Some SSBs have a dedicated LVDS connector, requiring
pressing two catches as indicated in the figure, before
removing the LVDS cable.
19054_001_111010.eps
111010
Figure 4-18 SSB LVDS connector catches (optional) -1Upon re-connecting the LVDS cable, ensure the catches are
locked after having inserted the LVDS cable.
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�EN 20
5.
QFU1.2E 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 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
Digital SDM: use the RC-transmitter and key in the code
“062593”, directly followed by the “MENU” (or " HOME " )
button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it “off”, push the “MENU” (or
" HOME " ) button again.
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.
SDM
Perform measurements under the following conditions:
• Service Default Mode.
• Video: Colour bar signal.
• Audio: 3 kHz left, 1 kHz right.
5.2
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.
19370_061_130201.eps
130507
Figure 5-1 Service mode pad
Note: For the new model range, a new remote control (RC) is
used with some renamed buttons. This has an impact on the
activation of the Service modes. For instance the old “MENU”
button is now called “HOME” (or is indicated by a “house” icon).
5.2.1
After activating this mode, “SDM” will appear in the upper right
corner of the screen (when a picture is available).
How to Exit SDM
Use one of the following methods:
• Switch the set to STANDBY via the RC-transmitter.
• Via a standard customer RC-transmitter: key in “00”sequence.
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 the standby
processor and make the TV start up to the step just before
protection. See section “5.3 Start-up”.
• To start the blinking LED procedure where only LAYER 2
errors are displayed. (see also section “5.5 Error Codes”).
5.2.2
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.
Specifications
Table 5-1 SDM default settings
Region
Freq. (MHz)
475.25
PAL B/G
Europe, AP DVB-T
How to Activate SAM
Via a standard RC transmitter: Key in the code “062596”
directly followed by the “INFO” or “OK” button. After activating
SAM with this method a service warning will appear on the
screen, continue by pressing the “OK” button on the RC.
Default system
Europe, AP(PAL/Multi)
546.00 PID Video: 0B
DVB-T
06 PID PCR: 0B 06 PID
Audio: 0B 07
•
•
Contents of SAM
• Hardware Info.
– A. SW Version. Displays the software version of the
main software (example: QF2XX_1.2.3.4 =
AAABB_X.Y.W.Z).
• AAA= the chassis name.
• BB= Product ID.
• 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. Standby processor version. Displays the software
version of the standby 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
All picture settings at 50% (brightness, colour, contrast).
Sound volume at 25%.
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 5-1.
• Analogue SDM: use the RC-transmitter and key in the
code “062596”, directly followed by the “MENU” (or
“HOME”) button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch the main menu “off”, push the
“MENU” (or " HOME " ) button again.
Analogue SDM can also be activated by grounding the
solder path on the SSB, with the indication “SDM” (see
figure Service mode pad).
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Service Alignment Mode (SAM)
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�Service Modes, Error Codes, and Fault Finding
•
•
•
•
•
•
be re-written to NVM. The update can be done via the
NVM editor available in SAM.
Operation hours. Displays the accumulated total of
operation hours (not the standby hours). Every time the TV
is switched “on/off”, 0.5 hours is added to this number.
Errors (followed by maximum 10 errors). The most recent
error is displayed at the upper left (for an error explanation
see section “5.5 Error Codes”).
Reset Error Buffer. When “cursor right” (or “OK” button)
pressed here, followed by the “OK” button, the error buffer
is reset.
Alignments. This will activate the “ALIGNMENTS” submenu. See Chapter 6. Alignments.
Options numbers. Extra features for Service. For more
info regarding option codes, see chapter 6. Alignments.
Note that if the option code numbers are changed, these
have to be confirmed with pressing the “OK” button before
the options are stored, otherwise changes will be lost.
Initialise NVM. The moment the processor recognizes a
corrupted NVM, the “initialise NVM” line will be highlighted.
Now, two things can be done (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).
– Initialise the NVM.
•
•
•
•
•
Note: When the NVM is corrupted, or replaced, there is a high
possibility that no picture appears because the display code is
not correct. So, before initializing the NVM via the SAM, a
picture is necessary and therefore the correct display option
has to be entered. Refer to Chapter 6. Alignments for details.
To adapt this option, it’s advised to use ComPair (the correct
values for the options can be found in Chapter 6. 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” (or " HOME " )
button and “XXX” (where XXX is the 3 digit decimal display
code as mentioned on the sticker in the set). 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 standby mode. If the NVM was
corrupted or empty before this action, it will be initialized first
(loaded with default values). This initializing can take up to 20
seconds.
•
•
Display Option
Code
27mm
040
MODEL:
32PF9968/10
PROD.SERIAL NO:
AG 1A0620 000001
(CTN Sticker)
10000_038_090121.eps
090819
Figure 5-2 Location of Display Option Code sticker
•
•
5.
EN 21
Test settings. For development purposes only.
RF4CE pairing tables. Clear paired remote control. Repairing (coldboot of platform possibly needed) can be done
by pressing the red/blue hot keys simultaneously for a few
seconds.(be sure the distance between the remote control
and TV set RF4CE receiver is less then 30cm). Message
like “Pairing successful”, confirms the match-make.
Development 1 file versions. Not useful for Service
purposes, this information is mainly used by the
development department.
Development 2 file versions. Not useful for Service
purposes, this information is mainly used by the
development department.
Upload to USB. To upload several settings from the TV to
an USB stick, which is connected to the SSB. The items are
“Personal settings”, “Option codes”, “Alignments”,
“Identification data” (includes the set type and prod code +
all 12NC like SSB, display, boards), “History list”. The “All”
item supports the upload of all several items at once.
A directory “repair\” will be created in the root of the
USB stick.
To upload the settings, select each item separately, press
“cursor right” (or the “OK” button), confirm with “OK” and
wait until the message “Done” appears. In case the
download to the USB stick was not successful, “Failure” will
be displayed. 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
the USB stick and can be used to download into another TV
or other SSB. Uploading is of course only possible if the
software is running and preferably a picture is available.
This method is created to be able to save the customer’s
TV settings and to store them into another SSB.
Important remark : to upload the “channel list”, select
“Home” = & gt; “Setup” = & gt; “TV settings” = & gt; “General settings”
= & gt; “Channel list copy” = & gt; “Copy to USB”.The procedure is
also described in the (electronic) user manual.
Download from USB. To download several settings from
the USB stick to the TV, same way of working needs to be
followed as described in “Upload to USB”. The “All” item
supports to download all several items at once.
Important remark : to download the “channel list”, select
“Home” = & gt; “Setup” = & gt; “TV settings” = & gt; “General settings”
= & gt; “Channel list copy” = & gt; “Copy to TV”. The procedure is
also described in the (electronic) user manual.
NVM editor. For Smart TV the set “Type number” must be
entered correctly.
Also the “Production code” (factory location code), “12NC
SSB”, “12NC display” and “12NC supply” can be entered
here via the RC-transmitter.Be sure the cursor is put fully
to the left (use back key) of the dialog box before enter the
new data.
Correct data can be found on the side/rear sticker.
How to Navigate
• In SAM, the menu items can be selected 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.
39mm
PHILIPS
QFU1.2E LA
Store (go right). All options and alignments are stored
when pressing “cursor right” or the “OK” button.
Software maintenance.
– SW Events. In case of specific software problems, the
development department can ask for this info.
– HW Events. In case of specific software problems, the
development department can ask for this info :
- Event 26: refers to a power dip, this is logged after
the TV set reboots due to a power dip.
How to Exit SAM
Use one of the following methods:
• Switch the TV set to STANDBY via the RC-transmitter.
• Via a standard RC-transmitter, key in “00” sequence, or
select the “BACK” key.
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�EN 22
5.2.3
5.
QFU1.2E LA
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.
•
•
•
•
Provided CSM is activated, every menu from CSM can be used
as check for the back end chain video.So for all CSM content
displayed, it could be determined that the back end video chain
is working.
•
When CSM is activated and there is a USB stick connected to
the TV set, the software will dump the CSM content to the USB
stick.The file (CSM_model number_serial number.xml) will be
saved in the root of the USB stick. This info can be handy if no
information is displayed.
•
Additional in CSM mode (with USB stick connected), pressing
“OK” will create an extended CSM dump file on the USB stick.
This file (Extended_CSM_model number_serial number.xml)
contains:
• The normal CSM dump information,
• All items (from SAM “load to USB”, but in readable format),
• Operating hours,
• Error codes,
• SW/HW event logs.
•
Software versions
• Current main software. Displays the build-in main
software version. In case of field problems related to
software, upgrade can be done. As this software is
consumer upgradeable, it will also be published on the
Internet.
Example: QF2xx-1.2.3.4
• Standby software. Displays the build-in standby
processor software version. Upgrading this software will be
possible via USB (see section 5.9 Software Upgrading).
Example: STDBY_77.3.11.16
• e-UM version. Displays the electronic user manual SWversion (12NC version number). Most significant number
here is the last digit.
• Strings database version. Reflects the latest embedded
string database version.
• PQ back-end version.Displays the Scan/backlight
microProcessor software version.Device processes the
backlight + boost pwm control, scanning, 3D drive.
• NT 72314 software.Software version Novatek 72314
(Frame Rate Convertor) device, located on Quad full HD
Bolt-on board.
• NT 68361 software.Software version Novatek 68361 (4K
HDMI to LVDS) device, located on Quad full HD Bolt-on
board.
• RF4CE software.Software version for the RF4CE board.
To have fast feedback from the field, a flashdump can be
requested by development. When in CSM, push the “red”
button and key in serial digits ‘2679’ (same keys to form the
word ‘COPY’ with a cellphone). A file “Dump_model
number_serial number.bin” will be written on the connected
USB device. This can take 1/2 minute, depending on the
quantity of data that needs to be dumped.
Attention: for every dump which imply data tranfers to USB,
preferably execute without connected devices like HDD,
camera, etc.linked via USB port.This to avoid any possible data
corruption.
Also when CSM is activated, the LAYER 1 error is displayed via
blinking LED. (see also section 5.5 Error Codes).
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!
Quality items
• Signal quality. Bad / average /good (not for DVB-S).
• Ethernet MAC address. Displays the MAC address
present in the SSB.
• Wireless MAC address. Displays the wireless MAC
address to support the Wi-Fi functionality.
• ESN-Netflix. Netflix electronic serial number.
• CI module. Displays status if the common interface
module is detected.
• CI + protected service. Yes/No.
• Event counter :
S : 000X 0000(number of software recoveries : SW
EVENT-LOG #(reboots)
S : 0000 000X (number of software events : SW EVENTLOG #(events)
H : 000X 0000(number of hardware errors)
H : 0000 000X (number of hardware events : SW EVENTLOG #(events).
How to Navigate
By means of the “CURSOR-DOWN/UP” knob on the RCtransmitter, can be navigated through the menus.
Contents of CSM
The contents are reduced to 3 pages: General, Software
versions and Quality items. The group names itself are not
shown anywhere in the CSM menu.
General
• 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, the set type content has to be re-written to
NVM.The update can be done via the NVM editor available
in SAM.
2014-Jan-10
Production code. Displays the production code (the serial
number) of the TV. Note that if an NVM is replaced or is
initialized after corruption, the production code content has
to be re-written to NVM. The update can be done via the
NVM editor available in SAM.
Installed date. Indicates the date of the first installation of
the TV. This date is acquired by time extraction.
Options 1. Displays the option codes numbers of option
group 1 as set in SAM (Service Alignment Mode).
Options 2. Displays the option codes numbers 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. The update can be done via the NVM editor available
in SAM. This identification number is the 12nc number of
the SSB.
12NC display. Shows the 12NC of the display. Note that if
an NVM is replaced or is initialized after corruption, this
identification number has to be re-written to NVM. The
update can be done via the NVM editor available in SAM.
12NC supply. Shows the 12NC of the power supply. Note
that if an NVM is replaced or is initialized after corruption,
this identification number has to be re-written to NVM. The
update can be done via the NVM editor available in SAM.
12NC sensor board. Shows the 12NC of the sensor
board.
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�Service Modes, Error Codes, and Fault Finding
5.3
How to Exit CSM
Press “MENU” (or " HOME " ) / “Back” key on the RC-transmitter.
QFU1.2E LA
5.
EN 23
Start-up
As described, the start-up diagrams below, documents which
supplies are present at any certain moment.
Off
Mains
off
Mains
on
WakeUp
requested
- WakeUp requested
- Acquisition needed
St by
Semi
St by
- stby requested and
no data Acquisition
required
GoToProtection
(triggered during startup
by standby µP)
Active
St by
requested
WakeUp
requested
(SDM)
GoToProtection
GoToProtection
Protection
On
19210_076_120504.eps
120504
Figure 5-3 Transition diagram
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2014-Jan-10
�EN 24
5.
QFU1.2E LA
Service Modes, Error Codes, and Fault Finding
Off
Stand by or
Protection
AC~ Mains is applied
Standby Supply starts running.
All standby supply voltages become available.
st-by µP resets, resulting in a high impedant output
stage of the I/O ports.
Initialise I/O pins of the st-by µP
- Keep AVC system in reset (internal signal)
- Switch RESET-FUSION-OUTn LOW
- Switch RESET-HDMI-MUXn LOW
- Switch RESET-ETHERNETn LOW
- Switch AUDIO-MUTEn LOW
- Switch SPLASH-ON LOW
- Switch LCD-PWR-ONn High
If the protection state was left by short circuiting the
SDM pins, detection of a protection condition during
startup shall stall the startup. Protection conditions
occuring in a playing set shall be ignored. The
protection mode shall not be entered.
Switch ENABLE-WOLAN high to power Ethernet PHY
and Wifi dongle
Switch ENABLE-WOLANn high to power Ethernet
PHY and internal Wifi dongle if Networked Standby
was Off in the Standby mode.
start keyboard scanning, RC detection.
Wake up reasons are off.
Switch ON Platform supply by switching High the
STANDBYn line.
Startup shall continue from the
moment a valid detection is received.
12V platform is turned on, automatically enabling the
low voltage DCDC converter outputs
Detect2 high received
within 2 seconds?
No
Yes
12V error:
Layer1: 3
Layer2: 16
Enter protection
Wait 300ms
Enable the supply detection algorithm
All display related I/O lines should be
LOW as long as the Tcon is not
powered to avoid leakage current and
tcon startup problems.
These lines will furtheron be
dynamically controlled by the mainSW.
Start AVC system
No
Switch following lines asap:(part of preBOOT)
(GPIO2): LOW
CTRL-DISP2 (GPIO3): LOW
CTRL-DISP3 (GPIO8): LOW
CTRL-DISP4 (BKLGON): LOW
3D-LR (PWM0): LOW
BL-SPI-CS_BL-I-CTRL (PWM1): LOW
BL-DIM (BOOST): LOW
Small delay between AVC boot and
other platform ICs is preferred to limit
rush-in current on Platform.
Wait 10ms
Switch RESET-FUSION-OUTn, RESETHDMI-MUXn , RESET-ETHERNETn High
19210_080_120504.eps
120504
Figure 5-4 “Off” to “Semi Standby” flowchart (part 1)
2014-Jan-10
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�Service Modes, Error Codes, and Fault Finding
QFU1.2E LA
No
5.
EN 25
Wake up reason
coldboot to Active mode?
yes
No
AUDIO-MUTEn is switched by MIPS code
later on in the startup process when audio
needs to be released
No
Startup screen cfg file
present?
MIPS boots
yes
Reset-lines are switched
MIPS sends out startup screen
TV application starts
Standby µP monitors
boot process and will
init a restart if Boot
process hampers
MIPS starts up the display.
Boot is failing
Set was
started with
SDM pin?
Startup screen visible
Wait 4 seconds before restarting
No
Yes
No
Switch AVC in reset
Switch RESET-FUSION-OUTn, RESETHDMI-MUXn , RESET-ETHERNETn Low
Semi-Standby
3-th try?
Switch Standby I/O line LOW
Yes
Blink error code
Layer 1 error 2
Ignore boot failure:
Stall the startup process.
Blink Layer2 error 53.
Enter protection without
turning off the supplies
Enter protection
19210_081_120504.eps
120504
Figure 5-5 “Off” to “Semi Standby” flowchart (part 2)
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2014-Jan-10
�EN 26
5.
QFU1.2E LA
Service Modes, Error Codes, and Fault Finding
Semi Standby
The assumption here is that a fast toggle ( & lt; 2s) can
only happen during ON- & gt; SEMI - & gt; ON. In these states,
the AVC is still active and can provide the 2s delay. A
transition ON- & gt; SEMI- & gt; STB Y- & gt; SEMI- & gt; ON cannot be
made in less than 2s, because the standby state will
be maintained for at least 4s.
Wait until previous on-state is left more than 2
seconds ago. (to prevent LCD display problems)
Assert RGB video blanking
and audio mute
Display already on?
(cold boot with splash
screen)
Yes
Initialize audio and video
processing IC's and functions
according needed use case.
No
Startup display
(see separate tab)
Start POWER-OK line
detection algorithm as defined
in the CHS service.
Wait until valid and stable audio and video, corresponding to the
requested output is delivered
AND
the backlight has been switched on for at least the time which is
indicated in the display file as preheat time
return
Release audio mute
unblank the video
Set the Ambilight functionality according the last status
settings
Display cfg file present
and up to date, according
correct display option?
No
Yes
Prepare Start screen Display config
file and copy to Flash
Active
19210_079_120504.eps
120504
Figure 5-6 “Semi Standby” to “Active” flowchart
2014-Jan-10
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�Service Modes, Error Codes, and Fault Finding
QFU1.2E LA
5.
EN 27
Active
Mute all sound outputs according
information in the FMS AUDIO
Wait 100ms
Switch off POK line detection
algorithm (see CHS service)
Switch Off LCD backlight
Mute all video outputs
switch off Ambilight (see CHS ambilight)
Shut down the display
(see separate sheet)
Wait until Ambilight has faded out:
Output power Observer should be zero
Semi Standby
19210_077_120504.eps
120504
Figure 5-7 “Active” to “Semi Standby” flowchart
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2014-Jan-10
�EN 28
5.
Service Modes, Error Codes, and Fault Finding
QFU1.2E LA
Semi Stand by
If ambientlight functionality was used in semi-standby
(lampadaire mode), switch off ambient light (see CHS
ambilight)
*) 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.
Delay transition until ramping down of ambient light is
finished. *)
transfer Wake up reasons to the Stand by µP.
transfer specific Firmware and Wake up reasons to the
Wifi dongle to allow networked standby
Switch AVC system in reset state
Switch reset-USB, Reset-Ethernet and Reset-DVBs
LOW
Switch RESET-FUSION-OUTn, RESET-HDMI-MUXn ,
RESET-ETHERNETn Low
Wait 10ms
Disable all supply related protections and switch off
the DC/DC converters (ENABLE-3V3n)
Switch OFF all supplies by switching HIGH the
Standby I/O line
Important remarks:
release reset audio 10 sec after entering
standby to save power
Networked Standby
required?
No
Switch ENABLE-WOLAN Low to
power off the Ethernet PHY and
Internal Wifi dongle.
Also here, the standby state has to be
maintained for at least 4s before starting
another state transition.
Yes
Stand by
19210_078_120504.eps
120504
Figure 5-8 “Semi Standby” to “Standby” flowchart
2014-Jan-10
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�Service Modes, Error Codes, and Fault Finding
5.4
Service Tools
5.4.1
ComPair
•
The ComPair Tool is no longer supported.
5.5
Error Codes
5.5.1
Introduction
•
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.
•
•
•
•
•
•
•
•
5.5.3
QFU1.2E LA
5.
EN 29
On screen via the SAM (only when a picture is visible).
E.g.:
– 00 00 00 00 00: No errors detected
– 23 00 00 00 00: Error code 23 is the last and only
detected error.
– 37 23 00 00 00: Error code 23 was first detected and
error code 37 is the last detected error.
– Note that no protection errors can be logged in the
error buffer.
Via the blinking LED procedure. See section 5.5.3 How to
Clear the Error Buffer.
Via ComPair.
How to Clear the Error Buffer
Use one of the following methods:
• By activation of the “RESET ERROR BUFFER” command
in the SAM menu.
• 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
starting to repair (before clearing the buffer, write down the
content, as this history can give 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
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 standby processor.
• Via sensing of analog values on the standby processor or
the Mips.
• Via a “not acknowledge” of an I2C communication.
If no errors are there, the LED should not blink at all in
CSM or SDM. No spacer must be displayed as well.
There is a simple blinking LED procedure for board
level repair (home repair) so called LAYER 1 errors
next to the existing errors which are LAYER 2 errors (see
Table 5-2).
– LAYER 1 errors are one digit errors.
– LAYER 2 errors are 2 digit errors.
In protection mode.
– From consumer mode: LAYER 1.
– From SDM mode: LAYER 2.
Fatal errors, if I2C bus is blocked and the set reboots,
CSM and SAM are not selectable.
– From consumer mode: LAYER 1.
– From SDM mode: LAYER 2.
In CSM mode.
– When entering CSM: error(s) LAYER 1 will be
displayed via blinking LED.(attention: any new remote
control press will disable the error blinking LED
sequence, recovery by exit and invoke CSM again for
re-enabling the error blinking).
In SDM mode.
– When SDM is entered via Remote Control code or the
hardware pins, LAYER 2 is displayed via blinking LED.
Error display on screen.
– In CSM no error codes are displayed on screen.
– In SAM the complete error list is shown.
Take notice that some errors need several minutes 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.
Basically there are three kinds of errors:
• Errors detected by the Standby software which lead to
protection. These errors will always lead to protection and
an automatic start of the blinking LED LAYER 1 error.
(see section “5.6 The Blinking LED Procedure”).
• Errors detected by the Standby software which not
lead to protection. In this case the front LED should blink
the involved error. See also section “5.5 Error Codes, 5.5.4
Error Buffer”. Note that it can take up several minutes
before the TV starts blinking the error (e.g. LAYER 1
error = 2, LAYER 2 error = 15 or 53).
• Errors detected by main software (MIPS). In this case
the error will be logged into the error buffer and can be read
out via ComPair, via blinking LED method LAYER 1-2
error, or in case picture is visible, via SAM.
5.5.2
How to Read the Error Buffer
Use one of the following methods:
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2014-Jan-10
�EN 30
5.
Service Modes, Error Codes, and Fault Finding
QFU1.2E LA
Table 5-2 Error code overview
Description
Layer 1
Layer 2
Monitored
by
Error/
Prot
Error Buffer/
Blinking LED
Device
Defective Board
I2CM3 (SSB + SRF bus)
2
13
MIPS
E
BL / EB
SSB
SSB
I2CM2 (BE bus)
2
14
MIPS
E
BL / EB
SSB
SSB
I2CM1(FE bus)
2
18
MIPS
E
BL / EB
SSB
SSB
PNX (Fusion) doesn’t boot
2
15
Stby µP
P
BL
Fusion
SSB
12V
3
16
Stby µP
P
BL
/
Supply
HDMI mux
2
23
MIPS
E
EB
SII9287
SSB
I2C switch
2
24
MIPS
E
EB
PCA9540
SSB
Channel dec DVB-T2
2
27
MIPS
E
EB
CXD2834
SSB
Channel dec DVB-S2
2
28
MIPS
E
EB
SI2169
SSB
Lnb controller
2
31
MIPS
E
EB
LNBH25
SSB
Hybrid Tuner
2
34
MIPS
E
EB
SUT-RE214Z
SSB
Main NVM
2
35
MIPS
E
EB
M24C64
SSB
Tuner DVB-S2
2
36
MIPS
E
EB
STV611X
SSB
Class-D
2
37
MIPS
E
EB
TAS 5731 PHP
SSB
µProcessor PQ
2
38
MIPS
E
EB
LPC1114
SSB
IO Expander
2
41
MIPS
E
EB
PCA9554
SSB
T° sensor SSB/set
2
42
MIPS
E
EB
LM75
T° sensor/SSB
Light sensor
6
43
MIPS
E
EB
TSL2571
Set
µP touch control
6
44
MIPS
E
EB
/
Set
RF4CE
6
46
MIPS
E
EB
/
Set
MIPS doesn’t boot (SW cause)
2
53
Stby µP
P
BL
FUSION
SSB
NT72314
9
61
MIPS
E
EB
NT72314/
QFHD
NT68361
9
62
MIPS
E
EB
NT68361/
QFHD
NT72314 not alive
9
63
MIPS
E
EB
NT72314/
QFHD
NT68361 not alive
9
64
MIPS
E
EB
NT68361/
QFHD
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 section “5.8 Fault Finding and Repair Tips, 5.8.6
Logging). It’s shown that the loggings which are generated
by the main software keep continuing.
• Error 13 (I2C bus M3, SSB + SRF bus blocked). Current
situation: when this error occurs, the TV can reboot due to
the blocked bus. The best way for further diagnosis here, is
to check the logging output.
• Error 14 (I2C bus M2, BE bus blocked). Current situation:
when this error occurs. The best way for further diagnosis
here, is to check the logging output.
• Error 18 (I2C bus M1, FE bus blocked). Current situation:
when this error occurs. The best way for further diagnosis
here, is to check the logging output.
• Error 15 (Fusion 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 Fusion (supplies
not OK, Fusion device completely dead, link between Mips
and Standby Processor broken, etc...)
Other root causes for this error can be due to hardware
problems regarding the DDR’s and the bootscript reading
from the Fusion device.
• Error 16 (12V). This voltage is made in the power supply
and results in protection (LAYER 1 error = 3) in case of
absence. When SDM (maintain grounding continuously) is
activated we see blinking LED LAYER 2 error = 16.
• Error 17 (Display Supply). “Power OK” not applicable.
• Error 23 (HDMI mux). When there is no I2C
communication towards the HDMI mux after start-up,
LAYER 2 error = 23 will be logged and displayed via the
blinking LED procedure if SDM is switched on.
• Error 24 (I2C switch). When there is no I2C
communication towards the I2C switch, LAYER 2
error = 24 will be logged and displayed via the blinking LED
procedure when SDM is switched on.
• Error 27 (Channel dec DVB-T2). When there is no I2C
communication towards the DVB-T channel decoder,
LAYER 2 error = 27 will be logged and displayed via the
blinking LED procedure if SDM is switched on.
• Error 28 (Channel dec DVB-S2). When there is no I2C
communication towards the DVB-S channel decoder,
2014-Jan-10
•
•
•
•
•
•
•
•
•
•
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LAYER 2 error = 28 will be logged and displayed via the
blinking LED procedure if SDM is switched on.
Error 31 (Lnb controller). When there is no I2C
communication towards this device, LAYER 2 error = 31
will be logged and displayed via the blinking LED
procedure if SDM is activated.
Error 34 (Tuner). When there is no I2C communication
towards the tuner during start-up, LAYER 2 error = 34 will
be logged and displayed via the blinking LED procedure
when SDM is switched on.
Error 35 (main NVM). When there is no I2C
communication towards the main NVM during start-up,
LAYER 2 error = 35 will be displayed via the blinking LED
procedure when SDM is switched “on”. All service modes
(CSM, SAM and SDM) are accessible during this failure,
observed in the Uart logging as follows: " & lt; & lt; ERROR & gt; & gt; & gt;
PFPOW_.C: First Error (id19, Layer_1= 2 Layer_= 35) " .
Error 36 (Tuner DVB-S). When there is no I2C
communication towards the DVB-S tuner during start-up,
LAYER 2 error = 36 will be logged and displayed via the
blinking LED procedure when SDM is switched “on”.
Error 37 (Class-D). When there is no I2C communication
towards the Class-D amplifier during start-up, LAYER 2
error = 37 will be logged and displayed via the blinking LED
procedure when SDM is switched “on”.
Error 38 (microProcessor PQ). When there is no I2C
communication towards this processor device during startup, LAYER 2 error = 38 will be logged and displayed via
the blinking LED procedure when SDM is switched “on”.
This device supports the backlight + boost pwm control,
scanning, 3D drive.
Error 41 (I/O Expander). When there is no I2C
communication towards this processor device during startup, LAYER 2 error = 41 will be logged and displayed via
the blinking LED procedure when SDM is switched “on”.
Error 42 (Temp sensor). Only applicable for TV sets
equipped/stuffed with temperature devices.
Error 43 (Light sensor). When there is no I2C
communication towards the light sensor device during
start-up, LAYER 2 error = 43 will be logged and displayed
via the blinking LED procedure when SDM is switched “on”.
Error 44 (Touch control). When there is no I2C
communication towards the touch control micro processor
during start-up, LAYER 2 error = 44 will be logged and
�Service Modes, Error Codes, and Fault Finding
•
•
•
•
•
•
displayed via the blinking LED procedure when SDM is
switched “on”.
Error 46 (RF4CE). When there is no I2C communication
towards the RF4CE driver during start-up, LAYER 2
error = 46 will be logged and displayed via the blinking LED
procedure when SDM is switched “on”.
Error 53. This error will indicate that the Fusion device has
read his bootscript (when this would have failed, error 15
would blink) but initialization was never completed because
of hardware problems (NAND flash, DDR...) 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 a few minutes
before the TV starts blinking LAYER 1 error = 2 or in SDM
(maintain grounding continuously), LAYER 2 error = 53.
Error 61 (NT72314). When there is no I2C acknowledge
from the Novatek device (Quad full HD Bolt-on board)
towards the MIPS during start-up, LAYER 2 error = 61 will
be logged.Here, the Novatek device operates as frame rate
convertor.
Error 62 (NT68361). When there is no I2C acknowledge
from the Novatek device (Quad full HD Bolt-on board)
towards the MIPS during start-up, LAYER 2 error = 62 will
be logged.Here, the Novatek device supports the 4K HDMI
to LVDS conversion.
Error 63 (NT72314 not alive).Error generated via I2C by
the device itself, although acknowledge passed and
confirmed.
Error 64 (NT68361 not alive).Error generated via I2C by
the device itself, although acknowledge passed and
confirmed.
5.6
5.
EN 31
5. One long blink of 3 s to finish the sequence (spacer).
6. The sequence starts again.
5.6.2
How to Activate
Use one of the following methods:
• Activate the CSM. The blinking front LED will show the
layer 1 error(s), this works in “normal operation” mode or
automatically when the error/protection is monitored by the
standby processor.
In case no picture is shown and there is no LED blinking,
read the logging to detect whether “error devices” are
mentioned. (see section “5.8 Fault Finding and Repair
Tips, 5.8.6 Logging”).
• Activate the SDM. The blinking front LED will show the
entire content of the LAYER 2 error buffer, this works in
“normal operation” mode or when SDM (via hardware pins)
is activated when the tv set is in protection.
5.7
Protections
5.7.1
Software Protections
Most of the protections and errors use either the standby
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:
• Related to supplies: presence of the +5V, +3V3, +2V5,
+1V2 and +1V1 needs to be measured, no protection
triggered here.
• 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.
The Blinking LED Procedure
5.6.1
QFU1.2E LA
Introduction
The blinking LED procedure can be split up into two situations:
• Blinking LED procedure LAYER 1 error. In this case the
error is automatically blinked when the TV is put in CSM.
This will be only one digit error, namely the one that is
referring to the defective board (see table “5-2 Error code
overview”) which causes the failure of the TV. This
approach will especially be used for home repair and call
centres. The aim here is to have service diagnosis from a
distance.
• Blinking LED procedure LAYER 2 error. Via this
procedure, the contents of the error buffer can be made
visible via the front LED. In this case the error contains
2 digits (see table “5-2 Error code overview”) and will be
displayed when SDM (hardware pins) is activated. This is
especially useful for fault finding and gives more details
regarding the root cause of the defective board.
Important remark:
For an empty error buffer, the LED should not blink at all in
CSM or SDM. No spacer will be displayed.
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 optimize 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 section “5.3 Start-up”).
5.8
Fault Finding and Repair Tips
Read also section “5.5 Error Codes, 5.5.4 Error Buffer, Extra
Info”.
When one of the blinking LED procedures is activated, the front
LED will show (blink) the contents of the error buffer. Error
codes greater then 10 are shown as follows:
1. “n” long blinks (where “n” = 1 to 9) indicating decimal digit
2. A pause of 1.5 s
3. “n” short blinks (where “n”= 1 to 9)
4. A pause of approximately 3 s,
5. When all the error codes are displayed, the sequence
finishes with a LED blink of 3 s (spacer).
6. The sequence starts again.
5.8.1
Ambilight
Due to the aging process on the LED’s fitted on the Ambilight
module, there can be a difference in the colour and/or light
output of the spare ambilight modules in comparison with the
originals ones contained in the TV set. Via SAM = & gt; alignments
= & gt; ambilight, the spare module can be fine-tuned.
Other possibility: the original values can also be recovered via
SAM, Upload to USB = & gt; alignments. Now the original settings
are on the USB stick and can be reloaded into another SSB
(NVM).
Example: Error 12 8 6 0 0.
After activation of the SDM, the front LED will show:
1. One long blink of 750 ms (which is an indication of the
decimal digit) followed by a pause of 1.5 s
2. Two short blinks of 250 ms followed by a pause of 3 s
3. Eight short blinks followed by a pause of 3 s
4. Six short blinks followed by a pause of 3 s
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2014-Jan-10
�EN 32
5.8.2
5.
QFU1.2E LA
Service Modes, Error Codes, and Fault Finding
CSM
Start-up of switching converters is triggered by DETECT12V
signal that becomes high when +12V rises above 10V and
stays above 9V (1V hysteresis).DETECT12V is used as enable
signal by the +12V to +5V switching converter;+12V to +1V1FD and +12V to +1V5(and +1V2-MIPS) will start at the same
time with +5V due to ENABLE+1V5+1V1 that is set high by
DETECT12V signal.Tuners are supplied from their respective
linear voltage regulators when +5V starts.The rest of the supply
voltages (+3V3, +2V5, +1V2-FA, +1V2-FE and +1V1-FA) are
switched on a few milliseconds later by signal ENABLE+3V3.
When CSM is activated 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.xml) will be saved in the root of the
USB stick. If this mechanism works it can be concluded that a
large part of the operating system is already working (MIPS,
USB...)
5.8.3
Power conversion and distribution.
In case of TV sets having ambilight consumption from +12V
higher than 1A, the electronic protection circuit (7UAC or 7UAD
and surrounding components) is used instead of fuse 1UA2.
AMBI-POWER should be available shortly (100 ms) after +12V
starts if there is no load on it. The over-current trigger level is
around 4.1A for 7UAC and 3.5A for 7UAD. Once the overcurrent protection is triggered, it can be reset by removing the
shortcircuit cause and keeping it under no load condition for
about 100 ms.
Description
Input power for the TV platform comes from the main power
supply that delivers +3V5-STANDBY (pin 9 of connector 1M90)
and +12V (pins 11,12 and 25,26 of the same connector). +3V5STANDBY (3.5V nominal) is the permanent voltage while +12V
is started by the STANDBY signal (connector 1M90, pin 10)
when going from high to low. +12V is split in few branches via
fuses 1UA0 (+12Va), 1UA1 (+12Vb) and 1UP1(+12-DVBS):
• +12Va serves as input voltage for the switching voltage
regulators that deliver +1V1-FD and +1V5.
• +12Vb is used as input voltage for the switching voltage
regulators that deliver +3V3 and +5V.
• +12V-DVBS (if DVB-S functionality is present) goes to 12V
and +V-LNB switching regulators.
Important remark: for tests, GND-AL must be connected to
platform GND.
+V-LNB value is set via the I2C bus: around 13V for vertical
polarized satellite channels and around 18V for the horizontal
ones. Maximum output current is limited to 400mA
The on board power supply consists of 4 switching voltage
regulators (5 in case of DVB-S version), 8 linear voltage
regulators (9 in case of DVB-S version) and an over-current
protection circuit for 12V (AMBI-POWER) ambilight boards.
Debugging
The best way to find a failure in the DC/DC converters is to
check their start-up sequence at power “on”, presuming that
the external supply is operational. Take the STANDBY signal
" high " -to- " low " transition as trigger reference and check the
power start-up sequence as described above.
All switching voltage regulators have 12V input voltage and
deliver:
• +1V1-FD Fusion main core supply voltage (0.95V...1.2V depending on DVS1 signal), stabilized close to the point of
load by means of SENSE+1V1-FD signal.
• +1V5 supply voltage (1.53V nominal), for the DDR3
memories and DDR3 interface of the Fusion chip and +1V5
to +1V2-MIPS and +1V5 to +1V2-FE linear voltage
regulators.
• +3V3 supply voltage (3.32V nominal): overall 3.3V for on
board IC’s and external ambientlight panels, also used as
input voltage for linear voltage regulators delivering +1V1FA, +1V2-FA and +2V5.
• +5V (5.15V nominal) for USB ports, Conditional Access
Module and via linear voltage regulators, the DVB-T and
DVB-S tuner supplies.
• +V-LNB (13V or 18V) supply for outdoor satellite reception
equipment.
Tips
• Behaviour comparison with a working Fusion R3 platform
can be a fast way to locate failures.
• Check first the integrity of fuses 1UA0, 1UA1 and (if
present) 1UA2 and 1UP1.
• If a fuse is found interrupted: check the respective +12Va
(or +12Vb or +12V-DVBS) short circuit with all of the
derived supply voltages, for example: a +12Va - & gt; +1V5
short circuit will probably be caused by a defective 7UB5
integrated circuit.
• Switching frequency should be around 400KHz for 7UP2,
500KHz for 7UC0 and 7URA, 650KHz for 7UB5 and
800KHz for 7UR6.
• When a short circuit to GND is found on one of the supply
voltage delivered by a switching voltage regulator, then try
first removing the power coil(s) from the output filter of the
converter, this to point the location of the short circuit (at
converter side or at load side).
The linear voltage regulators are providing:
• +1V1-FA supply voltage (1.10V nominal, from +3V3) for
low power analog (PLL) blocks inside Fusion chip.
• +1V2-MIPS supply voltage (1.05...1.3V depending on
DVS2 signal, input voltage: +1V5) for Fusion auxiliary core.
• +1V2-FE supply voltage (1.20V nominal, from +1V5) for (if
present) DVB-T2 and DVB-S2 demodulator IC devices.
• +1V2-FA supply voltage (1.20V nominal, from +3V3) for
higher power analog Fusion internal blocks (mainly video
ADC’s).
• +2V5 supply voltage (2.5V nominal, from +3V3) for LVDS
or Vx1 interface and various other internal blocks of
Fusion.
• +3V3 supply voltages (3.3V nominal, from +5V) for RF
tuners, separate linear regulator per tuner.
• +3V3-STANDBY supply voltage(3.3V nominal, from +3V5STANDBY) for Fusion standby controller and IR/RF
remote-control receivers.
• +3V3-LAN supply voltage (3.37V nominal, from +3V5STANDBY) for WiFi module and LAN interface of Fusion,
this supply voltage is present when ENABLE-WOLAN is
high.
2014-Jan-10
5.8.4
Power Supply Unit
For fault finding tips, refer to section 7.2.1.
5.8.5
Exit “Factory Mode”
This mode can be recognized as state of no respons on any
random remote control request, this mode manifest by flashing
LED, visualized in front of the TV.
To exit this mode, push the “VOLUME minus” button on the
TV’s local keyboard for 10 seconds (this disables the
continuous mode).
Then push the “SOURCE” button for 10 seconds until to exit the
“Factory mode”.
5.8.6
Logging
When something is wrong with the TV set (f.i. the set is
rebooting) you can check for more information via the logging
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�Service Modes, Error Codes, and Fault Finding
in Hyperterminal. The Hyperterminal is available in every
Windows application via Programs, Accessories,
Communications, Hyperterminal. Connect a “ComPair UART”cable (3138 188 75051) from the service connector in the TV to
the “multi function” jack at the front of ComPair II box.
Required settings in ComPair before starting to log:
- Start up the ComPair application.
- Select the correct database (open file “QFUX.X”, this will set
the ComPair interface in the appropriate mode).
- Close ComPair
After start-up of the Hyperterminal, fill in a name (f.i. “logging”)
in the “Connection Description” box, then apply the following
settings:
1. COMx
2. Bits per second = 115200
3. Data bits = 8
4. Parity = none
5. Stop bits = 1
6. Flow control = none
During the start-up of the TV set, the logging will be displayed.
This is also the case during rebooting of the TV set (the same
logging appears over and over). Also available in the logging is
the “Display Option Code” (useful when there is no picture),
look for item “display number xxx” in the beginning of the
logging. Tip: when there is no picture available during rebooting
you are able to check for “error devices” in the logging (LAYER
2 error) which can be very helpful to determine the failure cause
of the reboot. For protection state, there is no logging.
5.8.7
QFU1.2E LA
5.
EN 33
Startup in Jett Mode:
Check Uart logging in Jet mode mentioned as : “JETT UART
READY”.
5.8.8
Memory test
The memory test is running in the background of the main
TV software.It allocates a memory pool used to write and
read back predefined data, as reference to detect possible
memory corruption.The memory test is enabled by dial-in
of sequence “6636” while the remote control (dedicated) is
in DVD mode and the TV in CSM.Once the red LED in the
front of the TV set starts blinking, exit CSM in order to
display video.As long as the memory test is running and
no error is detected, the standby LED is blinking.Upon
detection of errors, the standby LED stays continuous ON
and details will be shown in the prints of the Uart logging.It
is not possible to stop the memory test once launched
unless the TV is restarted, also increase/decrease the
frequency of the memory interface can not be set.
Startup procedure:
• Switch ON the TV set.
• Set TV use case (preferably DVBT H264 or HDMI1080p).
• Invoke CSM (dial-in “123654”on the remote control).
• Set the remote control in DVD mode, and enter sequence
“6636”.
• Check the loggings coming from the service connector
(Mips Uart prints) :
“**MemoryTest No errors found so far (loop xx)”
xx : number of tests done.
• As long as the memory test is running and no error is
detected, the standby LED is blinking continuously, upon
detection of errors, the standby LED stays ON.
• Get out of CSM in order to see video.
Guidelines Uart logging
Description possible cases:
Uart loggings are displayed:
• When Uart loggings are coming out, the first conclusion we
can make is that the TV set is starting up and
communication with the flash RAM seems to be supported.
The Fusion processor is able to read and write in the
DRAMs.
• We can not yet conclude: Flash RAM and DRAMs are fully
operational/reliable.There still can be errors in the data
transfers, DRAM errors, read/write speed and timing
control.
COM port settings:
• Baud rate: 115200
• Data: 8 bits
• Parity: none
• Stop: 1 bit
• Flow control: none
No Uart logging at all:
• No startup will end up in a blinking LED status: error
LAYER 1 = “2”, error LAYER 2 = “53” (startup with SDM
solder paths continuous short).
• Error LAYER 2 = “15” (hardware cause) is more related to
a supply issue while error LAYER 2 = “53” (software cause)
refers more to boot issues.
Error detection :
In case some errors are detected, the standby LED will stop
blinking and following logs can be retrieved in the Uart prints:
• Error: offset [address] (READ/WRITE) xxxxxxxx/yyyyyyyy/
zzzzzzzz should be nnnnnnnn.
with:
• Offset: offset address where error is detected from start of
buffer.
• Address: physical address where error is detected from
start of buffer.
• READ/WRITE: indicates if error occurred during read or
write memory access.
• xxxxxxxx/yyyyyyyy/zzzzzzzz: the 3 data reads from the
memory location where the error(s) occurred.
• nnnnnnnn: correct data (expected content).
Uart loggings reporting fault conditions, error messages, error
codes, fatal errors:
• Some failures are indicated by error codes in the logging,
check with error codes table (see Table “5-2 Error code
overview”). e.g. = & gt; & lt; & lt; & lt; ERROR & gt; & gt; & gt; PLFPOW_MERR.C :
First Error (id=10,Layer_1=2,Layer_2=23).
• I2C bus errors.
• Not all failures or error messages should be interpreted as
fault. For instance root cause can be due to wrong option
codes settings = & gt; e.g. “FpgaDimmingPresent: False/True”.
In the Uart log startup script we can observe and check the
enabled loaded option codes.
In some cases the TV software can crash before an error is
detected.Thus, symptoms of software crash (reboot, picture
freeze, no picture) should also be considered as test failure.
Defective sectors (bad blocks) in the Nand Flash can also be
reported in the logging.
5.8.9
Loudspeakers
Make sure that the volume is set to minimum during
disconnecting the speakers in the ON-state of the TV. The
audio amplifier can be damaged by disconnecting the speakers
during ON-state of the set!
Startup in the SW upgrade application and observe the Uart
logging:
Starting up the TV set in the Manual Software Upgrade mode
will show access to USB, meant to copy software content from
USB to the DRAM. Progress feedback can be found in the
logging.
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2014-Jan-10
�EN 34
5.
QFU1.2E LA
Service Modes, Error Codes, and Fault Finding
5.8.10 Power Supply
In case of no picture when CSM (test pattern) is activated and
backlight doesn’t light up, it’s recommended first to check the
LED drivers on the PSL(S).
Attention point for cable handling: (dis)connection for power
cable (power supply & lt; = & gt; SSB) should always be executed
without any bending or mechanical stress on the outisdes of
the connector 1M90.Risk of double pins inside the connector
should be avoid in this way.
5.8.11 Display option code
Attention: In case the SSB is replaced, always check the
display option code number (group 2, first option number e.g.
“44855”) in SAM, even when picture is available. Performance
with the incorrect display option code can lead to unwanted
side-effects for certain conditions.
Also supported in this chassis:
The display option code can be changed by “062598 HOME
XXX” special SAM command (XXX=display option in 3 digits).
2014-Jan-10
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�Service Modes, Error Codes, and Fault Finding
5.8.12 SSB Replacement
QFU1.2E LA
5.
EN 35
For a more general overview of steps to follow, refer to figure
5-11 SSB replacement flowchart.
Follow the instructions in the flowchart in case a SSB has to be
exchanged. See table 5-3 SSB replacement instructions.
Table 5-3 SSB replacement instructions
Step #
Action to do
Advise / Attention points / Remarks
1
Ensure ESD protection by using a wristband
-
2
If SSB is still functional: Go via SAM to “upload to USB” and copy Personal Upload to USB: a directory “repair” will be created on the USB, and all data will be copied in this
settings - Option codes - Alignments (Presets) - Set Identification.
directory. In case of issues by copying the program map table, it is advised to reinstall the
Advice: because of differences in memory allocation, it is advised to upgrade programs from Virgin mode instead of using copy via USB.
main SW before copying data from existing SSB. Copy of Preset list is
possible from normal user interface.
3
Disconnect set from mains and from antenna.
Safety and ESD!
4
Open the set and disconnect LVDS flat cable. Disconnect other cables /
connections.
Always take care for ESD! Be extra careful when removing connectors!
5
Dismount the (defective) SSB from the set.
Do not damage SSB copper tracks with your tools! Do not scratch bottom of SSB (be very careful
by moving SSB over SSB supports). See Figure 5-9 and Figure 5-10.
6
Place new SSB in the set, and fixate/mount carefully.
Do not damage SSB copper tracks with your tools! Do not scratch bottom of SSB (be very careful
by moving SSB over SSB supports). See Figure 5-9 and Figure 5-10.
7
Connect PSU and other connectors. Insert the optional WiFi module.
Make sure that the connectors are correctly plugged-in and locked (click). Special attention for the
optional WiFi module: a defective WiFi module can give reboots or no start-up of the SSB. In this
case do a trial without WiFi module.
8
Connect LVDS connector(s).
Be very careful: wrong or bad connection can damage the TCON part on the SSB and damage
the LCD display. Check if flat cables are fitted correctly before closing the connector lock.
9
Connect set to mains and switch TV “On”.
Check start-up of the set, backlight switching “On”.
10
If the set does not start (or reboots) check:
- The connectors from the power supply,
- The power supply cable and connection pins,
- LVDS cable connection.
Power supply connector must “snap” into the socket.
11
Before programming the new SSB, upgrade to latest software. If set is starting Some SSB’s will start-up in software upgrade mode, and software needs to be installed before you
up in software upgrade mode, then first install new software via software
can program the Display Option codes. It’s adviced to use an autorun.upg file for software
Upgrade Menu or via the autorun.upg file.
upgrade, this in case you have no OSD on the screen.
12
If set is starting up without picture or menu (OSD), first program the correct
Display Option codes.
13
Go to SAM and program “Set type” and “Serial number”. This is possible via Programming “Set type” and “Serial number” is mandatory to have all functionality of the set, like
the NVM editor and virtual keyboard. In case personal settings were
DLNA, Net TV… For certain sets you may need to use ComPair for this.
recovered from the defective SSB, you can use an “Upload from USB”.
14
Check if option codes are correct, and keys are present. SSBs with integrated Validity of HDCP, CI+, Marlin, and WDRM keys can be checked via ComPair.
TCON needs TCON alignment in SAM.
15
Update to latest software (Standby and main software). This step is necessary Even when the SSB already has the latest software, it is mandatory to upgrade again the software
to make sure that the (optional) 200 Hz T-CON board has the latest software. to update the 200 Hz T-CON part. At the end of the main software update process, a dedicated
software is loaded, from the main processor via the LVDS connection, to upgrade the
200 Hz T-CON part. For certain LCD displays, a dedicated Display software patch (autoscript) is
available. See General Service info GSC_85590.
16
Once the set is playing, check cable connection between PSU and SSB, by
moving the cable if there are no bad connections.
17
Fill in the Electronic DDF (Defect Description Form): Fault symptom, TV type It is mandatory to fill in the E-DDF form (see the “At Your Service” web portal).
and TV serial number.
18
Install presets or check if all presets are OK. Check in CSM if Type number,
Serial number, Main and Standby software are correct.
19
Check connectivity to Net TV and DLNA. Check AmbiLight functionality.
Only for sets having these functionalities.
20
Inform customer about Memory Card, USB, or Hard drive PVR (Personal
Video Recording) recordings.
Inform customer that previous recordings made on Memory Card (movie download), USB, or Hard
drive will be lost. USB or Hard drive needs to be re-formatted and matched with new SSB (WDRM
Keys!).
Use blind service mode “062598” + “Home” button, directly followed by the
Display Option code (3 digits). Set will switch to Standby after Display Option code is entered.
Check the two power connectors on 1M90. Bad contact or bad connection here can give reboots.
Special attention for Standby software: check if Standby software ID is matching with the D-RAM’s
mounted on the SSB (2 × Elpida = 73, 4 × Elpida = 64, 2 × Hynix = 72, 4 × Hynix = 63).
SSB fixation points
Significant risk of damaging the board
by the fixation point
Blue arrows: traces of friction
Red arrows: damaged components
19070_201_110728.eps
110804
19070_202_110728.eps
110804
Figure 5-9 Mounting attention points [1/2]
Figure 5-10 Mounting attention points [2/2]
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2014-Jan-10
�EN 36
5.
Service Modes, Error Codes, and Fault Finding
QFU1.2E LA
In st ru ct io n n o t e SSB rep lacem en t Q55x.x
ST AR T
Before starting:
- prepare a USB memory stick with the latest software
- download the latest Main Software (Fus) from www.p4c.philips.com
- unzip this file
- create a folder ”upgrades” in the root of a USB stick (size & gt; 50 MB) and
save the autorun.upg file in this " upgrades " folder.
Note: it is possible to rename this file, e.g. " Q54x_SW_version.upg " ; this in
case there are more than one " autorun.upg " files on the USB stick.
Set is still oper ating?
No
Yes
C onnect the U SB stick to the set,
go to SAM and save the current TV settings via “Upload to USB”
1. D ismount the defective SSB.
2. Replace the SSB by a Service SSB.
Start-up the set
Due to a possible wrong display option code in the received Service
SSB (NVM), it’s possible that no picture is displayed. Due to this
the download application will not be shown either. This tree enables you
to load the main software step-by-step via the UART logging on the PC
(this for visual feedback).
No pictur e displayed
1) Start up the TV set, equiped with the Service SSB,
and enable the UART logging on the PC.
Set behaviour?
Pictur e displayed
Set is starting up without software
upgrade menu appearing on screen
Pictur e displayed
Set is starting up with software
upgrade menu appearing on screen
2) The TV set will start-up automatically in the
download application if main TV software is not loaded.
1) Plug the USB stick into the TV set and select
the “autorun .upg” file in the displayed browser.
3) Plug the prepared USB stick into the TV set. Follow the
instructions in the UART log file, press “Right” cursor key to enter
the list. Navigate to the “autorun.upg” file in the UART logging
printout via the cursor keys on the remote control. When the
correct file is selected, press “Ok”.
2) Now the main software will be loaded automatically,
supported by a progress bar.
4) Press " Down " cursor and “Ok” to start flashing the main
TV software. Printouts like: “L: 1-100%, V: 1-100% and
P: 1-100%” should be visible now in the UART logging.
3) Wait until the message “Operation successful !” is displayed
and remove all inserted media. Restart the TV set.
5) Wait until the message “Operation successful !” is logged in
the UART log and remove all inserted media. Restart the TV set.
Set the correct “Display code” via “062598 -HOME- xxx” where
“xxx” is the 3 digit display panel code (see sticker on the side
or bottom of the cabinet)
After entering the “Display Option” code, the set is going to
Standby
(= validation of code)
Restart the set
No
Connect PC via the ComPair interface to Service connector.
Saved settings
on USB stick?
Yes
Start TV in Jett mode (DVD I + (OSD))
Open ComPair browser Q54x
Go to SAM and reload settings
via “Download from USB” function.
In case of settings reloaded from USB, the set type,
serial number, display 12 NC, are automatically stored
when entering display options.
Program set type number, serial number, and display 12 NC
Program E - DFU if needed.
If not already done:
Check latest software on Service website.
Update main and Stand-by software via USB.
Attention point for Net TV: If the set type and serial number are not
filled in, the Net TV functionality will not work. It will not be possible
to connect to the internet.
- Check if correct “display option” code is programmed.
- Verify “option codes” according to sticker inside the set.
- Default settings for “white drive” & gt; see Service Manual.
Check and perform alignments in SAM according to the
Service Manual. Option codes, colour temperature, etc.
Final check of all menus in CSM.
Special attention for HDMI Keys and Mac address.
Check if E - D F U is present.
End
Q55x.E SSB Board swap – ER on behalf of VDS
Updated 28-07-2011
19070_200_110728.eps
111103
Figure 5-11 SSB replacement flowchart
2014-Jan-10
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�Service Modes, Error Codes, and Fault Finding
QFU1.2E LA
5.
EN 37
Set is st art in g u p in F act o ry m o d e
Set is starting up in F actory m ode?
Noisy picture with bands/lines is visible and the
RED LED is continuous on.
An “F” is displayed (and the HDMI 1
input is displayed).
- Press the “volume minus” button on the TVs local keyboard for 5 ~10
seconds
- Press the “SOURCE” button for 10 seconds until the “F” disappears
from the screen or the noise on the screen is replaced by “blue mute”
The noise on the screen is replaced
with the blue mute or the “F” is disappeared!
Unplug the mains cord to verify the correct
disabling of the Factory mode.
Program display option code
via “062598 MENU”, followed by
the 3 digits code of the display
(this code can be found
on a sticker on - or inside - the set).
After entering “display option” code, the set is
going in stand-by mode (= validation of code)
R estart the set
H_16771_007b.eps
100322
Figure 5-12 SSB replacement flowchart - Factory mode
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2014-Jan-10
�EN 38
5.
QFU1.2E LA
Service Modes, Error Codes, and Fault Finding
18753_211_100811.eps
110810
Figure 5-13 SSB start-up
5.9
Software Upgrading
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” (part
of the one-zip file: e.g. QF2EU_0.88.0.0.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 eUM). The
“autorun.upg” file must be placed in the root of the USB stick.
How to upgrade:
1. Copy “AUTORUN.UPG” to the root of the USB stick.
2. Insert USB stick in the set while the set is operational. The
set will restart and the upgrading will start automatically. As
soon as the programming is finished, a message is shown
to remove the USB stick and restart the set.
Always check for the latest software version on the service
website in relation to the correct CTN!!!
5.9.1
Introduction
The set software and security keys are stored in a NANDFlash, which is connected to the Fusion processor.
It is possible for the user to upgrade the main software via the
USB port. This allows replacement of a software image in a
stand alone set, without the need of an E-JTAG debugger. A
description on how to upgrade the main software can be found
in the electronic User Manual.
Manual Software Upgrade
In case that the software upgrade application does not start
automatically, it can also be started 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 TV remote control or a
Philips DVD RC-6 remote control (attention : not supported
by use of RF4CE remote due to the fact this application is
not running yet at the time of the “OK” request). Keep the
“OK” button pressed while reconnecting the TV to the
Mains/AC Power.
3. The software upgrade application will start.
Important: When the NAND-Flash must be replaced, a new
SSB must be ordered, due to the presence of the security keys!
(CI +, MAC address, ...).
Perform the following actions after SSB replacement:
1. Set the correct option numbers (see rearcover sticker).
2. Update the TV software = & gt; see the eUM (electronic User
Manual) for instructions.
3. Perform the alignments as described in chapter 6 (section
6.5 Reset of Repaired SSB).
4. Check in CSM if Set type, MAC address are valid.
For the correct order number of a new SSB, always refer to the
Spare Parts list!
5.9.2
Attention!
In case the download application has been started manually,
the “autorun.upg” will maybe not be recognized.
What to do in this case:
Main Software Upgrade
•
2014-Jan-10
The “UpgradeAll.upg” file is only used in the factory.
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�Service Modes, Error Codes, and Fault Finding
QFU1.2E LA
5.
EN 39
1. Create a directory “UPGRADES” on the USB stick.
2. Rename the “autorun.upg” to something else, e.g. to
“software.upg”. Do not use long or complicated names,
keep it simple. Make sure that “AUTORUN.UPG” is no
longer present in the root of the USB stick.
3. Copy the renamed “upg” file into this directory.
4. Insert USB stick into the TV.
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 sector) via the above described
method, try activating 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 TV
remote control while reconnecting the TV to the Mains/AC
Power.(attention : not supported by use of RF4CE remote
due to the fact this application is not running yet at the time
of the “CURSOR-DOWN” request).
3. The back-up software upgrade application will start.
5.9.3
Standby Software Upgrade via USB
In this chassis it is possible to upgrade the Standby software
via a USB stick. The method is similar as upgrading the main
software via USB.
Use the following steps:
1. Create a directory “UPGRADES” on the USB stick.
2. Copy the Standby software (one-zip file StandbyUpgrade,
e.g. StandbyFactory_77.03.12.00_16.00.00.upg) into this
directory.
3. Insert the USB stick into the TV.
4. Start the download application manually (see section “
Manual Software Upgrade”.
5. Select the appropriate file and press the “OK” button to
upgrade.
5.9.4
Content and Usage of the One-Zip Software File
Below the content of the One-Zip file is explained, and
instructions on how and when to use it.
• BLCtrlµP_QF2EU_x.x.x.x.zip. Contains the BLCtrlµP
software in “upg” format.SW version available in CSM 2.5
PQ back-end software version.Attention : no power
interruption allowed during the upgrade process (upgrade
not full proof).
• FullUpgrade_QF2EU_x.x.x.x.zip. Contains the “upg” file
which is needed to upgrade the TV main software and the
standby software at once.
• ProcessNVM_QF2EU_x.x.x.x.zip. Default NVM content.
Must be programmed via ComPair or can be loaded via
USB, be aware that all alignments stored in NVM are
overwritten here.
• NovatekAfterburner314_QF2EU_x.x.x.x.zip. Contains
the software in “upg” format to drive the Novatek 72314
(Frame Rate Convertor) device, located on Quad full HD
Bolt-on board.
• NovatekQfhdHDMI_QF2EU_x.x.x.x.zip.Contains the
software in “upg” format to drive the Novatek 68361 (4K
HDMI to LVDS) device, located on Quad full HD Bolt-on
board.
5.9.5
UART logging 2K13 (see section “5.8 Fault Finding and
Repair Tips, 5.8.6 Logging).
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2014-Jan-10
�EN 40
6.
QFU1.2E LA
Alignments
6. Alignments
Index of this chapter:
6.1 General Alignment Conditions
6.2 Hardware Alignments
6.3 Software Alignments
6.4 Option Settings
6.5 Reset of Repaired SSB
6.6 Total Overview SAM modes
6.1
•
6.3.1
•
•
6.2
Contrast
50
Colour
0
Light Sensor
Off
Picture format
Unscaled
•
In menu “Picture”, choose “Pixel Precise HD” and set
picture settings as follows:
Picture Setting
Dynamic Contrast
Off
Dynamic Backlight
Off
Colour Enhancement
Off
Gamma (advanced)
0
•
Go to the SAM and select “Alignments”- & gt; “White point”.
White point alignment LCD screens:
• Use a 100% white screen (format: 720p50) to the HDMI
input and set the following values:
– “Colour temperature”: “Cool”.
– All “White point” values to: “127”.
First, set the correct options:
– In SAM, select “Option numbers”.
– Fill in the option settings for “Group 1” and “Group 2”
according to the set sticker (see also paragraph 6.4
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 standby.
Warming up ( & gt; 15 minutes).
In case you have a colour analyser:
• Measure, in a dark environment, with a calibrated
contactless color analyser (e.g.Minolta CA-210) in the
centre of the screen and note the x, y value.
• Apply a 90% full white screen to the HDMI input and select
this input.Format : 720p50.If a Quantum Data generator is
used, it’s recommended to select the “FLAT” predefined
setting from the device.
• 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 6-1 White D alignment
values : 40/46/55(8000 series) displays.6-2 White D
alignment values : 42/47/55(6000-7000 series) displays.).
Tolerance: dx: 0.002, dy: 0.002.
• 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
Not applicable.
6.3
100
Brightness
Alignment Sequence
•
Choose “Home”, “Setup”, “TV Settings” and then “Picture”
and set picture settings as follows:
Picture Setting
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%).
– US: 120 VAC / 60 Hz ( 10%).
– LATAM-NTSC: 120 - 230 VAC / 50 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 heat sinks
as ground.
• Test probe: Ri & gt; 10 M, Ci & lt; 20 pF.
• Use an isolated trimmer/screwdriver to perform
alignments.
6.1.1
White Point
•
General Alignment Conditions
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).
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 items can be aligned:
• White point
• Ambilight.
Table 6-1 White D alignment values : 40/46/55(8000 series)
displays.
Value
Cool (11000K)
Normal (9000K)
Warm (6500K)
x
0.280
0.292
0.320
y
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
• Switch the set to standby mode.
0.295
0.310
0.345
Table 6-2 White D alignment values : 42/47/55(6000-7000
series) displays.
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).
2014-Jan-10
Value
Cool (11000K)
Normal (9000K)
Warm (6500K)
x
0.277
0.289
0.317
y
0.299
0.313
0.348
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).
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�Alignments
•
•
•
•
Select a COLOUR TEMPERATURE (e.g. COOL,
NORMAL, or WARM).
Set the RED, GREEN and BLUE default values according
to the values in Table 6-5.
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.
White Tone
QFU1.2E LA
6.
EN 41
55PFL8008/x
Colour Temp
R
G
B
Normal
127
103
113
Cool
122
103
127
Warm
127
90
74
Table 6-9 White tone default settings 55 " PDL series
Table 6-3 White tone default settings 40 " PFL series
White Tone
55PDL8908/x
Colour Temp
White Tone
R
G
B
Normal
40PFL8008/x
127
96
98
Colour Temp
R
G
B
Cool
127
100
116
Normal
127
110
110
Warm
127
88
59
Cool
123
115
127
Warm
127
99
72
Table 6-10 White tone default settings 60 " PFL series
Table 6-4 White tone default settings 42 " PFL series
White Tone
60PFL6008/x
Colour Temp
White Tone
R
G
B
Normal
42PFLxxx8/x
127
108
103
Colour Temp
R
G
B
Cool
127
115
121
Normal
127
118
116
Warm
127
96
63
Cool
120
120
127
Warm
127
108
74
White Tone
60PFL8708/x
Colour Temp
46PFL8008/x
R
G
127
99
108
Cool
124
102
127
87
71
124
125
111
127
118
51
125
Warm
91
B
Normal
B
123
Warm
Colour Temp
G
127
Cool
White Tone
R
Normal
Table 6-5 White tone default settings 46 " PFL series
Table 6-11 White tone default settings 65 " PFL series
White Tone
65PFL9708/x
Colour Temp
Colour Temp
R
G
Normal
127
92
92
Cool
127
98
127
84
58
125
113
115
127
127
113
89
110
Warm
B
123
Warm
46PDL8908/x
G
125
Cool
White Tone
R
Normal
Table 6-6 White tone default settings 46 " PDL series
B
Table 6-12 White tone default settings 84 " PFL series
White Tone
84PFL9708/x
Colour Temp
47PFL6xx8/x
R
G
127
105
98
Cool
126
112
127
95
58
White Tone
47PFL7xx8/x
120
111
127
127
104
79
124
Warm
118
B
Normal
B
112
Warm
Colour Temp
G
127
Cool
White Tone
R
Normal
Table 6-7 White tone default settings 47 " PFL series
Colour Temp
R
G
127
109
110
Cool
123
112
127
Warm
127
96
63
Table 6-8 White tone default settings 55 " PFL series
White Tone
55PFL6xx8/x
Colour Temp
R
G
Normal
127
99
97
Cool
127
107
118
Warm
127
87
54
White Tone
B
55PFL7xx8/x
Colour Temp
R
G
B
Normal
127
97
101
Cool
127
102
122
Warm
127
85
Ambilight
Each ambient light module is aligned by a matrix and by the
brightness. After replacement of a spare module, the
brightness/color can be adjust/fine-tuned according the
neighbouring modules.
1. Go to SAM.
2. Select “Alignments”.
3. Select “Ambilight”. A white test pattern shall be displayed
by the ambilight modules.
4. Select the number of the module that have to be aligned.
Module 1 is the first one which will come across according
the wiring path, starting at the small signal panel,
proceeding towards the ambient light modules one by one
after the other. The first module will be attached to the next
module 2. Module number 2 to number 3 etc. Herewith the
way to define the ambilight module numbering.
5. Align the brightness, use as reference the neighbouring
modules output. Adjust now by eye side, the brightness is
automatically stored.
6. Select one of 10 matrixes which color matches most with
the neighbouring modules. (see table “6-13 Overview
matrix correction table).
7. The alignment is stored automatically (tip: don’t switch off
the set immediately after the alignment is done, automatic
storage can require a time frame of 10 seconds).
B
Normal
6.3.2
58
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2014-Jan-10
�EN 42
6.
QFU1.2E LA
Alignments
Table 6-13 Overview matrix correction table
Matrix #
fR
fG
fB
Matrix 0
1
1
1
Matrix 1
1
0.9
0.9
Matrix 2
0.9
1
0.9
Matrix 3
0.9
0.9
Diversity
Not all sets with the same Commercial Type Number (CTN)
necessarily have the same option code!
Use of Alternative BOM = & gt; an alternative BOM number usually
indicates the use of an alternative display or power supply. This
results in another display code thus in another Option code.
Refer to Chapter 2. Technical Specs, Diversity, and
Connections.
1
Matrix 4
0.9
1
1
Matrix 5
1
0.9
1
Matrix 6
1
1
0.9
Matrix 7
0.95
1
1
Matrix 8
1
0.95
1
Matrix 9
1
1
0.95
6.4
Introduction
The microprocessor communicates with a large number of I2C
ICs in the set. To ensure good communication and to make
digital diagnosis possible, the microprocessor has to know
which ICs to address.
After a repaired SSB has been mounted in the set (set repair
on board level), the type number (CTN) and production code +
12NC’s (SSB, display and supply) of the TV has to be set
according the type plate of the set (no info on 12NC’s here). For
this, you can use the NVM editor in SAM. This action also
ensures the correct functioning of the “Smart TV” feature and
access to the Smart TV portals. The loading of the CTN and
production code can also be done via ComPair (Model number
programming).
Notes:
• After changing the option number(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” / “standby” and “on” again with the mains
switch (the NVM is then read again).
6.4.2
After a SSB repair, the original channel map can be restored,
provided that the original channel map was stored on a USB
stick before repair was commenced and that basic functionality
of the TV, needed for this procedure, was not hampered as a
result of the defect. The procedure of “channel map cloning” is
clearly described in the (electronic) user manual.
(Service) Options
From 2011 onwards, it is not longer possible to change
individual option settings in SAM. Options can only be changed
all at once by using the option codes as described in section
6.4.4.
6.4.3
Option Code Overview
Refer to the rearcover sticker in the set for the correct option
codes.
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!
6.4.4
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 the rearcover sticker from the TV set.
Example: The options sticker gives the following option
numbers:
• Group 1 : 08192 00133 01387 45160
• Group 2 : 12232 04256 00164 00000
The first line (group 1) indicates hardware options 1 to 4, the
second line (group 2) indicate 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.
2014-Jan-10
Reset of Repaired SSB
A very important issue towards a repaired SSB from a Service
repair shop (SSB repair on component level) 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 needs to be set. To set all this, you can use
the ComPair tool or use the “NVM editor” and “Setup = & gt; TV
settings = & gt; General settings = & gt; Reinstall TV” (virgin mode).
Option Settings
6.4.1
6.5
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�Alignments
6.5.1
QFU1.2E LA
6.
EN 43
SSB identification
Whenever ordering a new SSB, it should be noted that the
correct ordering number (12nc) of a SSB is located on a sticker
on the SSB. The format is & lt; 12nc SSB & gt; & lt; serial number & gt; . The
ordering number of the correct “Service” SSB is the one
preceded by the letter “S” in case 2 or more ordering numbers
are present on the bar code sticker.
18310_221_090318.eps
090319
Figure 6-1 SSB identification
6.6
Total Overview SAM modes
Table 6-14 SAM mode overview
Main Menu
Sub-menu 1
Sub-menu 2
Hardware Info
A. SW version
e.g. “QF2EU_0.49.1.0
Sub-menu 3
B. Standby processor version e.g. “STDBY_77.3.11.16”
C. Production code
Description
Display TV & Standby SW version and CTN serial
number
e.g. “see type plate”
Operation hours
Displays the accumulated total of operation hours.TV
switched “on/off” & every 0.5 hours is increase one
Errors
Displays the most recent errors
Reset error buffer
Alignment
Clears all content in the error buffer
White point
Colour temperature
Normal
Warn
3 different modes of colour temperature can be
selected
Cool
White point red
LCD White Point Alignment. For values,
see Table 6-5 White tone default settings 46 " PFL
series to 6-8 White tone default settings 55 " PFL
series
White point green
White point blue
Ambilight
Select module
Brightness
Select matrix
Option numbers
Group 1
e.g. “00008.00001.15421.02239”
The first line (group 1) indicates hardware options 1
to 4
Group 2
e.g. “44816.34311.33024.00000”
The second line (group 2) indicates software options
5 to 8
Store
Store after changing
Initialise NVM
N.A.
Store
Select Store in the SAM root menu after making any
changes
Software maintenance
Software events
Display
Display information is for development purposes
Clear
Test reboot
Test kernel crash
Test application crash
Hardware events
Display
Display information is for development purposes
Clear
Test setting
Digital info
Current frequency: 538
QAM modulation: 64-qam
Display information is for development purposes
Symbol rate:
Original network ID: 12871
Network ID: 12871
Transport stream ID: 2
Service ID: 3
Hierarchical modulation: 0
Selected video PID: 35
Selected main audio PID: 99
Selected 2nd audio PID: 8191
Install start frequency
000
Install start frequency from “0” MHz
Install end frequency
999
Install end frequency as “999” MHz
Digital only
Select Digital only or Digital + Analogue before
installation
Default install frequency
Installation
Digital + Analogue
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2014-Jan-10
�EN 44
6.
Main Menu
QFU1.2E LA
Sub-menu 1
Alignments
Sub-menu 2
Sub-menu 3
RF4CE pairing tables
Development file
versions
Description
Clear paired remote control
Development 1 file version
Display parameters DISPT5.0.9.29
Display information is for development purposes
Acoustics parameters SNDPR
5.0.6.20
PQ parameters FUSIO 1.0.27.22
Ambilight parameters PRFAM 5.0.5.2
Temp comp parameters 1.3
Development 2 file version
12NC one zip software
Display information is for development purposes
Initial main software
NVM version QF2EU_0.4.5.0
e-Sticker software
Upload to USB
Channel list (not)
Item “Channel list” removed from the user interface
Personal settings
Option codes
Alignments
Identification data
History list
All (options included)
Download from USB
Channel list (not)
Item “Channel list” removed from the user interface
Personal settings
Option codes
Alignments
Identification data
All (options included)
NVM editor
see type plate
Production code
2014-Jan-10
Type number
see type plate
NVM editor; re key-in type number and production
code after SSB replacement
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�Circuit Descriptions
QFU1.2E LA
7.
EN 45
7. Circuit Descriptions
7.1
Index of this chapter:
7.1 Introduction
7.2 Power Supply
7.3 General Power Architecture
Introduction
The QFU1.2E LA chassis is part of the FUSION platform and
covers sets in the 6xxx, 7xxx, 8xxx and 9xxx range.
It uses the same chipset as the earlier QFU1.1E LA chassis.
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- (see chapter
9. Block Diagrams) and circuit diagrams (see chapter
10. Circuit Diagrams and PWB Layouts). Where
necessary, you will find a separate drawing for clarification.
Only circuits that differ from this chassis are described in this
manual. For all other info, refer to the QFU1.1E LA manual.
7.1.1
FUSION 2013 Architecture Overview
For details about the chassis block diagrams refer to
chapter 9. Block Diagrams. An overview of the FUSION 2013
architecture can be found in Figure 7-1.
1GB
DDR
32
VByOne OR LVDS
DVB-T2
GPIO
Tuner
16/32
DVB-S2
Fusion
CI+
#mapping
+I2C
AL
Hybrid
Tuner
1GB
FLASH
BL uP
HDMI
#Hub
architecture
+WOLAN
Wifi
ETH
USB
Class-D
19370_083_130208.eps
130208
Figure 7-1 Architecture of FUSION platform 2013
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2014-Jan-10
�EN 46
7.
Circuit Descriptions
QFU1.2E LA
7.2
Power Supply
7.2.1
Power Supply Unit
fuse with one with the correct specifications! This part is
available in the regular market.
Consult the Philips Service web portal for the order codes of the
boards.
All power supplies are a black box for Service. When any of
these power supplies is defective, a new board must be
ordered and the defective one must be returned, unless the
main fuse of the board is broken. Always replace a defective
7.3
General Power Architecture
For the power architecture, refer to figure 7-2
Fully integrated PSLS
1M09
Display interfacing
1316, 1319
Display-power
Ambient
Light
Platform
- Power
Control +
Power
1M90
With 16 DRV
Basic-SSBPlatform
Low Stby
power
PFC
Ac-input +
Mainsfilter
AC-IN
1308
1 power-PCB
19370_084_130208.eps
130208
Figure 7-2 High level power architecture
2014-Jan-10
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�IC Data Sheets
QFU1.2E LA
8.
EN 47
8. IC Data Sheets
This chapter shows the internal block diagrams and pin
configurations of ICs that are drawn as “black boxes” in the
8.1
electrical diagrams (with the exception of “memory” and “logic”
ICs).
Diagram 10-1-8 B02C, DVBT2 channel decoder B02C, CXD2834 (IC7KC0)
Block diagram
MPEG
Decoder
TUNER
IF+
IF-
(RFAGC-MON)
TAINP (IF)
TAINM (IF)
RFAIN
12-bit
ADC
10-bit
ADC
DVB-T2
Demodulator
LDPC/BCH
Decoder
Stream
Processor
TSCLK
TSCLK
TSVALID
TSIF
(RFAGC)
GPIO1 (PWM)
TSSYNC
GPIO
DVB-T
Demodulator
IFAGC
SCL
SDA
TIFAGC
TSDATA7-0
RS Decoder
AGC
DVB-C
Demodulator
TSDATA7-0
TS
Smoothing
SCL
TTUSCL
I2C IF
TTUSDA
41MHz or
20.5 MHz
TSVALID
TSSYNC
SDA
SCL
SDA
OSC
PLL
XTALI
XTALO
Pinning information
19220_025_120227.eps
120227
Figure 8-1 Internal block diagram and pin configuration
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2014-Jan-10
�EN 48
8.
QFU1.2E LA
IC Data Sheets
Personal Notes:
10000_012_090121
110
2014-Jan-10
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�Block Diagrams
QFU1.2E LA
9.
EN 49
9. Block Diagrams
9.1
Wiring Diagram Series 40 "
2014-Jan-10 back to
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�Block Diagrams
9.2
QFU1.2E LA
9.
EN 50
Wiring Diagram 42 " - 47 " 6xxx series
Wiring diagram 42 " - 47 " 6xxx series
v19374_025_140110.epsvv
140110
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�Block Diagrams
9.3
QFU1.2E LA
9.
EN 51
Wiring Diagram 55 " 6xxx series
Wiring diagram 55 " 6xxx series
19374_024_140110.eps
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2014-Jan-10 back to
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�Block Diagrams
9.4
QFU1.2E LA
9.
EN 52
Wiring Diagram 55 " 7xxx series
Wiring diagram 55 " 7xx8 series
v19374_026_140110.epsvv
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2014-Jan-10 back to
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�Block Diagrams
9.5
QFU1.2E LA
9.
EN 53
Wiring Diagram 60 " 6xxx series
Wiring diagram 60 " 6xxx series
19374_023_140110.eps
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2014-Jan-10 back to
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�Block Diagrams
9.6
QFU1.2E LA
9.
EN 54
Wiring Diagram 60 " 8xxx series
Wiring diagram 60 " 8xxx series
8C27
8M09
8016
PSU
RF4CE
8M90
8015
8G50
8G51
8C31
SSB
8C28
8T51
8C29
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�Block Diagrams
9.7
QFU1.2E LA
9.
EN 55
Wiring Diagram 65 " 9xxx series
Wiring diagram 65 " 9xxx series
1020 RF4CE
8C27
8319
8316
FRC
8702
8M90
809A
1050 PSU
809B
8M01
8G50
SSB
8G51
8C20
8G52 8G53
TCON
8803
1012 LED-RECEIVER PANEL
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�Block Diagrams
9.
EN 56
Wiring Diagram 84 " 9xx8 Series
Wiring diagram 84 " 9xx8 series
8L25
1020 RF4CE
8P43
8L26
LED driver
LED driver
8L25
8P42
8C27
1051 Standby Board
8L32
8L21
8L33
8P41
1052 PFC-board
8L11
8L24
8P40
8G50
8G52
1006 FRC Board
TCON
8G53
8M90
8702
8G51
8803
8S00
8P50
8S01
8M11
8M01
1050 EMI-board
I
1111 SSB
Amplifier board
1174
8D01
8D02
8C20
1073 Keyboard
9.8
QFU1.2E LA
5220
5219
5212
1043 WiFi module
5212
1012 LED board
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2014-Jan-10 back to
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�Block Diagrams
9.
EN 57
Block Diagram
Skype module
USB 1
camera & mic
USB-HDD-DM
USB-CAM-DM
USB
HUB
USB 2
USB-PORTA-DM
USB
HUB
Wi-Fi Module
GPIO for WoWLAN
BCM43235 / MIMO 2x2 11n
USB 3
USB-PORTB-DM
UART for
factory/Service
Ethernet
RF4CE module
Ti CC2533
L
I2S
Class D
LNB
DVB-S2
LNBH25
Sat In
R
Analogue
Stereo
TS-DVBS
CH DEC
SI2169
8K×8
EEPROM
/2
HP
1GB
8 bit SLC
NAND Flash
Memory
NVM
Ethernet
PHY
Atheros
AR8030
10/100Mbit
WoLAN
DVB-S + S2
STV
6111B
PHY
TS-DVBT2
CH DEC
CXD2834ER
SUTRE214
SCART L/R Audio
YPbPr L/R Audio
VGA L/R Audio
Analog
Audio
AFE
12bit
54MHz
S/PDIF-OUT
Optical
S/PDIF
USB
MAC
Audio
Postprocessing
PHY
G1
7
6
9
8
13
12
Status 1
R
I2C
STANDBY
MCU
- RTC
- IR decode
- Key pad
- CEC
PLF
CA TS In/ Out
Audio-Video
Decoder
CPU
15
14
19
17
16
18
Standby
NVM
512KB flash
GPIO
ADC in
IR in
APP CPU
Graphics Engine
MIPS 74Kf @ 700MHz
2D
3D
1GB
DDR3
21
2 × Channel Memory Bus
20
64/48bit
Display
CPU
FBL
YPbPr
L
Pr
CEC
SPI interface
- Slow ADC
MIPS 74kc @700MHz
YPbPr
audio
L/R
VIF/SIF, ATSC, DVBT/C, ISDB-B/QAM
DEMODULATOR
MIPS 24Ke
@ 400MHz
MULTI
VIDEO
ENCODER
DECODER
MAIN
MAIN
[...PQ processing...]
PCA9554BS
I²C driven
SCART RGB
Automatic association with:
- HDMI 1/2/3/4 with DVI video
SCART CVBS
Analog
Video
Mux
AFE:
108MHz
10bit
M
U
X
10bit 3D
comb
filter
Video
Decoder
Backlight
Meter
2D Dimming
Ambilight
Fingerprint
detection
S
E
L
E
C
T
Backlight
μP
BACKEND
cf. backend requirements
- Gamma
- White balance
- 12bit resolution
- RGB
processing
- xvYCC for
main channel
- 2x
programmable
colour matrix
- Bitmask Video
Source Select
Support for 3D
Halo
Free
ME/MC
FRC
L/R + V-sync
3D IR
Watermark
Insertion
PIP
PIP
[...PQ processing...]
[...PQ processing...]
2/4 LVDS 10 bit
RGB 1080p
Vx1
I/F
OR
PIP
1080p@60Hz
Quad
LVDS
I/F
8× V×1 10 bit RGB
1080p
VBI Slicer
Analog
Video
Mux
A
L
n
PWM
SPI
IDP
I/F
3D BLENDER
A
L
1
[...PQ processing...]
YPBPR-DETECTn
Y
H & V
Main
SC1-DETECTn
Pb
H & V
1080p@60Hz
MIPS 4KEc CPU
YPbPr
YPbPr
DVI
audio
L/R
UART
Registers
R1
11
10
PFLASH
OSD Scalers
5
4
UART
(8051)
TRANSPORT DEMUX
SCART
3
STANDBY POWER ISLAND
I2C
MIPS @ 1GHz
CA slot (CI+)
2
SDIO
(2)
EJTAG
SmartCard
1
10/100/
1000
Ethernet
MAC
USB
MAC
HDMI0_ARC
B1
PWM (3)
DVB-T2
RGMI
RF In
AFE
12bit 54MHz
9.9
QFU1.2E LA
Component / PC RGB
HDMI Audio Return Channel (ARC)
HDMI
#1
S2
S1
S0
Y4
Y0
HDMI ARC
Y1
74HCT4051
1:8 demux
HDMI
#2
CVBS Out
Scaler
Y2
HDMI-Rx
Y3
TV Encoder
Video DAC
Mux
&
6dB
Gain
CVBS
Not used
EDID
HDMI
#3
HDMI ARC
0
1
2
HDMI ARC
HDMI
#4
3
HDMI mux
SiI9287B (4 inputs)
CEC
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�Block Diagrams
9.
EN 58
Block Diagram Supplylines
+3V5-STANDBY
+12V-AUDIO
+12V-AUDIO
+12V
(Class-D)
pin 9
T 4A 32V
+12V
+VDISP
TCON switch
(TCON)
+3V3-LAN
((W)LAN)
ENABLE-WOLAN
3,5V to 3,37V
linear regulator
LCD-PWR-ONn
RT9187GSP (RICHTE)
pins 11, 12,
25 and 26
3,5V to 3,3V
linear regulator
+3V5-STANDBY
+3V3-STANDBY (Fusion, RC,...)
+12V-AUDIO
RT9193+33GB (RICHTE)
over-current protection
1A (2A fuse) or 2,8A
+12VAL
pins 13 and 14
AMBI-POWER (ambilight)
+3V3
+3V3AL
(ambilight)
+1V1-FA
(Fusion)
+12VAL
+12V detector,
power-up and
power-down
sequencer
pins 21 and 22
DETECT12V
ENABLE+1V5+1V1
ENABLE+2V5
ENABLE+3V3
+3V3
DVS2
+1V1-FD
+1V5
RT8228DGQW (7UC0)+ ext mosfet
ENABLE+1V5+1V1
pins 23 and 24
T 3A 32V
+12Va
12V to 1,5V
switching converter
3,3V to 1,1V
linear regulator
RT9187BGB (RICHTE)
DVS1
12V to 1,1V
switching converter
GND-AL
1,5V to 1,2V
linear regulator
(Fusion 2nd core voltage)
+1V2-MIPS
TI TPS7A7001DDA (TI00)
+3V3
+1V5
1UA0
3,3V to 1,2V
linear regulator
+1V2-FA
(Fusion)
NX1117C12Z (NXP0)
TI TPS54527DDA
ENABLE+1V5+1V1
+3V3
pins 7, 8, 15,
12V to 3,3V
switching converter
16, 27 and 28
ENABLE+2V5
+3V3
3,3V to 2,5V
linear regulator
Reserved
T 3A 32V
+12Vb
(Fusion, PLL)
+2V5
RT9025-12GSP (RICHTE)
RT7297CHZSP
+12V
+1V5
ENABLE+3V3
1,5V to 1,1V
linear regulator
+1V1-DVBT2
1UA1
STANDBY
1M90
+T
GND
9.10
QFU1.2E LA
RT9025-12GSP (RICHTE)
pin 10
12V to 5V
switching converter
+5V
+1V5
RT8288AZSP
1,5V to 1,2V
linear regulator
+1V2-FE
(DVB-T2, DVB-S2)
(chanel decoder)
RT9025-12GSP (RICHTE)
DETECT12V
T 3A 32V
1UP1
12V to +V-LNB
switching converter
+5V
+V-LNB
LNBH25LPQ (ST00)
5V to 3,3V
linear regulator
VCC-TUNER
(DVB-T/T2)
+3V3-DVBS
(DVB-S2)
NX1117C33Z (NXP0)
(I2C)
5V to 3,3V
linear regulator
NX1117C33Z (NXP0)
+5V-PORTA,B, C
+5V
(USB )
+T
1.5A
(0.5A per USB)
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�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 59
10. Circuit Diagrams and PWB Layouts
310431366124 SSB
B01A, Power connector
Power connector
B01A
B01A
+12V
+12V DETECTION
3
5
22K
7
6
FUAN
IUAD
POWER-OK
1
100n
BC857BS(COL)
7UF9-2
+3V3-STANDBY
3UG4-2
100R
GND-AL
IUF7
22K
3UAF-1
+3V3-STANDBY
3GYB
22K
100K
1M0
7UF9-1
BC857BS(COL)
8
+12VAL
BL-ON
BL-I-CTRL
BL-DIM1
BL-DIM2
100R
100R
100R
100R
3UG8
4K7
3GY7
3GY8
3GY9
3GYA
2UAJ
FUA8
FUAA
FUAK
FUAL
3UD0
3UAG RES
FUAD
1u0 RES
3UAE
FUA7
3UG4-3
1
+12V-AUDIO
100K
DETECT12V
2
FUAC
IUFQ
3UG4-4
2
7UA0-1
BC847BPN(COL)
IUAB
+12V
IUF8
100K
IUAC
22K
STANDBY
100R
FUAM
FUA5
1K0
IUAF
3UAF-2
3UA4
FUA2
RES
3UG3
3
IUAA
3UAF-4
FUAB
4
4
FUA6
FUA9
7UA0-2
BC847BPN(COL)
5
100K 1%
FUA3
3UD1
FUA4
BL-DIM3
BL-DIM4
BL-DIM5
BL-DIM6
BL-DIM7
BL-DIM8
1% 68K
ENABLE+3V3
100K
+12V
FUAE
3UG4-1
30 29
FUAV
+12V-AUDIO
SMAW200-H28S2
10n
1n0
2GYA
RES
2UA5
1n0
2GY9
1n0
1n0
2GY7
2GY8
1n0
1n0
2GY5
2GY6
10n
2GY4
1n0
1n0
2GY3
10n
2GY2
100n
2GY1
1u0
2UA3 RES
100p
2UA2
16V
2UA4
100u
100n
2UAT
1u0
2UAB RES
2UAA
100n
2UAU RES
FUAH
FUAF
AMBI-POWER
100p
100p
2UAL
10K
3UAS
+12V
4K7
4K7
RES 4 3UAP-4 5
RES 3 3UAP-3 6
4K7
4K7
RES 3UAP-2
2
7
RES 3UAP-1
1
8
4K7
4K7
RES 3UAN-4
5
4
4K7
RES 3UAN-3
3
6
10K
3UAT-3
10K
1u0
5
6
7
8
6UAC
PDZ15B(COL)
1
2
3
3u0
AMBILIGHT 3-SIDED PROTECTION
2UA1
2UAP
22K
22K
3UG0-1
RES
+3V3-STANDBY
3UG0-2
+3V3-STANDBY
AMBI-POWER
5UAA
IUAT
+3V3
FUAT
S1D
IUAS
+12Vb
T 3.0A 32V
6UAB
22u 16V
IUA1
7UAB
BC847BW
2
1u0
1UA1
1
6UAD
+3V3-WIFI
330u 6.3V
RES 2UAV
9UA1-1
9UA1-2
9UA1-3
9UA1-4
FUAG
7UAC
SI4778DY-GE3
PDZ15B(COL)
3
IUAR
10K
T 3.0A 32V
+12V
3UAT-2
+12Va
4
12K 1%
IUA0
+3V3-WIFI
B230LA-M3
3UAT-4
GND-AL
IUAN
100R
3UAV-2
1UA0
0R1
3UAW
3UAY
IUAP
REF
6UAF
2UAM
100p
IUAV
3UAV-4
2UAK
240R 1%
12K 1%
5
3
T
2.0A 63V
FOR DUAL SIDE AL ONLY
1u0
2UF8
22n
2UF7
2UF6
3UAR
1UA2
+12VAL
2UAN
12K 1%
IUFR
4
COM
IUAJ
FUAP
10K
BP
6
3UAT-1
OUT
EN
3K3 1%
IN
+3V3-STANDBY
+12VAL
4
BC857BS(COL)
7UAA-2
1
BC857BS(COL)
7UAA-1
2
3UAV-1
3
FUAU
5
AMBI-POWER
IUAL
IUAK
1%
12K 1%
FUA0
4K7
3UA6
1
3UAV-3
R
3UA5
7UF8
RT9193-33GB
4K7
1
RES
RES
RES
RES
2
A
7UAF
TS2431
9UA2-1
9UA2-2
9UA2-3
9UA2-4
RES
1u0
3
6.3V 330u
2UA0
K
2UA9 RES
RES 2 3UAN-2 7
+12VAL
+22V
+12VAL
+12VAL
RES 3UAN-1
1
8
GND-AL
+3V5-STANDBY
IUF0
3UA8
5
7UA2 RES
PMV31XN
IUA2
RES
3
IUF6
100K
CUA0
ENABLE+1V5+1V1
3UAH
1
2
+12VAL
IUFP
IUFS
4
IUFT
5
6
22K
IUFU
DETECT12V
3UG9
3
GND-AL
VIN
VOUT
EN
FLG
RSET
PG
9
10
AMBI-POWER
8
7
CSS
GND
+3V3
10K
100n
3UG2
2UAW
IUF3
1K8
2
3UGA
7UF7-1
BC847BPN(COL)
1
100n
STANDBY
2UAS
1X15
REF EMC HOLE
GND-AL
7UAD
SIP32429DN-GE4
optional
2UAR
22K
3UG0-4
22K
3UG0-3
1R0
RES 3UAC
220K
100n
RES 3UAB
7UA3
BC847BW
RES
10K
10K
3UAK
STANDBYn
2UAD
IUA3
3UA9
GND-AL
1u0
IUAM
47K
RES 9UA0
4
BC847BPN(COL)
7UF7-2
10K
3UA7
10K
RES
3UAL
IUF1
6
11
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
7 100R
6 100R
8 100R
5 100R
100R
100R
2
3GY1-2
3GY1-3 3
1
3GY1-1
3GY1-4
4
3GY5
3GY6
22K
3UAF-3
6
BL-I-CTRL
FUA1
2UF9
CUA1
BL-SPI-CS_BL-I-CTRL
1M90
2
10-1-1
1u0
10.1
GND-AL
GND-AL
GND-AL
GND-AL
4
Power connector
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 60
B01B, Fusion supply
B01B
Fusion supply
B01B
5UC1
IUC0
+12Va
2
3
4
10
5
6
7
8
22u
2UCC
+12Va
IUC1
IUC2
3UC0
1
7UC2
SI4778DY-GE3
RES
4
9
1
2
3
22u
2UCA
30R
22u
2UCB
10R
7UC4
AON7932
5
6
7
10u
2K2
2UCE
7UC0
RT8228DGQW
2UCF
1%
EN
MODE
2u0
5UC0
IUC8
4
10R
10R
FUC0
+1V1-FD
2u0
2
8
22u
3
22u
2UCY
FB
3R3
100n
4
2UCW
CS
1n0
1n0
5UC2
220u 2.5V
LGATE
IUCB
3UC8
2UCL
TON
PGOOD
IUC7
22u
PHASE
2UCH
2UCK RES
UGATE
IUC6
22u
13
11
10
GND GND_HS
15
150K
3UCA
ENABLE+1V5+1V1
IUCA
LTST-C190CKT
1n0
2K2
NC
5
17
+5V
BOOT
2UCJ RES
IUCP 14
12
6UC0 DBG
3UC3-4
2UC1
7
VCC
1
6
9
16
3UC9 DBG
5
6
3
10R
3UC3-3
2 3UC3-2 7
10R
7UC3
SI4172DY-GE3
RES
4
1 3UC3-1 8
IUC5
B340A-M3
5
6
7
8
6UC2
220p
PDZ5.6B(COL)
6UC1
10u
2UCD
IUC3
1
2
3
270K 5%
3UC7
3UC2
1R0
IUC4
2UCP
RES 3UC4
7UC1
BC847BW
3R3
3UC1
8
+5V
2UCR RES
GND-1V1F
CORE VOLTAGE SUPPLY FUSION
GND-1V1F
GND-1V1F
RES 2UCM
GND-1V1F
3UCG
DVS1
22p
3UCB
IUC9
22K 1%
22K 1%
120K 1%
3UCF
3UCE
220K 1%
1M0
3UCN
3UCR RES
12K 1%
180K 1%
3UCP
10-1-2
QFU1.2E LA
3UCC
10R
3UCD RES
FUC1
SENSE+1V1-FD
+1V1-FD
10R
2UCN
1u0
GND-1V1F
GND-1V1F
GND-1V1F
4
Fusion supply
2012-11-22
3104 313 6612
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�Circuit Diagrams and PWB Layouts
10.
EN 61
B01C, LNB supply
LNB supply
B01C
+12V
1UP1
T
+12V-DVBS
3.0A 32V
30R
100n
5UP6
+12V-DVBS
2UPL RES
10u
10u 25V
10u
RES 2UPM
10u
2UPE
5UP5
7UP2
LNBH25LPQ
100n
2UPD
2UPC
IUPJ
17
VCC
IUPF
3UPE
IUP2
9
VIA
ISEL
GND_HS
RS1D
47u 25V
IUPE
25
GND
PGND
22K
6UP5
DSQIN
2UPG
NC
22
F22-DISECQ-TX
1
5
10
11
12
13
14
24
26
27
28
29
30
31
32
33
B230LA-M3
DSQ
+V-LNB
1u0
47R
SDA
6UP6
8
FUPA
2UPH
47R
SCL
20
470n
47u 25V
3UPD
VOUT
21
2UPF
SDA-FE
7
ADDR
16
B230LA-M3
SCL-FE
3UPB
VUP
2UPJ
6UP4
VBYP
6
IUP4 +V-LNB
3
220n
LX
2UPK
Φ
4
B01C
2
15
18
19
23
10-1-3
QFU1.2E LA
4
LNB supply
2012-11-22
3104 313 6612
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�Circuit Diagrams and PWB Layouts
10.
EN 62
B01D, USB internal
USB internal
B01D
9EHE-1 RES
9EHE-2 RES
9EHE-3 RES
9EHE-4 RES
10u
2EHL
B01D
7EH2
RT9187GSP
IEH3
9
6
10
100u 6.3V
RES 2EHY
3EHY
1M0
1M0
10u
2EHM
NC
VIA
GND
GND HS
5
7
3EM1
BP|ADJ
33K 1%
EN
+3V3-LAN
10K 1%
8
3
4
VOUT
3EHW
+3V5-STANDBY
VIN
3EM0
1
2
ENABLE-WOLAN
7EH4 RES
TPS61200DRCG4
reserved
USB-WIFI-DM
10K
6
7
24
3EM7
10K
12
13
20
3EM8
10K
15
16
19
3EM9
10K
RESET-FUSION-OUTn
3EM3
10K
IEM2
680R
3EM5
DD3DD3+
OVR3
TEST|SCL
DD4DD4+
OVR4
VREG
RESET
SELFPWR
GANG
RREF
22u
22u
2EHT
RES
RES 2EHS
9EM3
22K 1%
+3V3
18
100K
RES 3EHP
120K 1%
47K
2EHN
RES 9EH8-1
RES 9EH8-2
RES 9EH8-3
RES 9EH8-4
3EHV
IEHJ
+3V3-LAN
26
IEH6
100n
3EHJ
10n
cEH0
22K
3EHT RES
21
VCC_D
27
5
VCC_A_1
9
VCC_A_2
14
VCC_A_3
SDA
DD2DD2+
OVR2
RES
100n
1C31
VIA1
VIA2
VIA3
VIA4
30
31
32
33
FEH1
FEH2
FEH3
FEH4
FEH5
USB-WIFI-DM
USB-WIFI-DP
IRQ-WOLANn
8
7
1
2
3
4
5
6
A1253WRA
RES 3EHN
+3V3-LAN
100n
2EM2
+3V3
DD+
DD1DD1+
OVR1
USB1-DM
USB1-DP
2EHJ
29
3EM4
28
17
IEM1 22
23
8
IEH5
1
2
7EHJ
BC847BW
22K
RES
3EM6
USB-CAM-DM
USB-CAM-DP
XOUT
RES
3EHU
2EHW
3
4
25
USB-WIFI-DM
USB-WIFI-DP
XIN
GND_HS
11
VCC
10
18p
+3V3
IEH4
100K
1EM0
7EM1
CY7C65632-28LTXCT
2EM1
+3V3
12
13
47n
18p
+3V3
L
2EHV
100n IEH1
10
2EH9
2EM0
+3V3
FB
UVLO
IEH0
1
+3V5-STANDBY
100n
100n
2EM7
100n
2EM6
100n
2EM5
2EM4
100n
2EM3
+3V3
+3V3
EN
9
4u7
3
VAUX
330K
3EHR
IEH2
PS
2
RES
RES 5EH0
1n0
2EHU RES
7
VOUT
3EHS
6
VIN
RES
22u
RES 2EHR
8
GND_HS
VIA
5
+3V3-WIFI
PGND
USB-WIFI-DP
11
9EM2
GND
USB1-DP
4
USB1-DM
9EM1
12M
10-1-4
QFU1.2E LA
10K
RES 2EHP
100n
1C30
USB-CAM-DM
USB-CAM-DP
+5V
FEH6
FEH7
FEH8
FEH9
7
6
1
2
3
4
5
A1253WRA
4
USB internal
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 63
B01E, Miscellaneous
Miscellaneous
B01E
3TA2
RES
10R
FTA4
FTA6
RES 2TA1
10R
10p
FTA3
SDA-SRF
FTA2
3TA1
RES
RES
1T71
10p
RES 2TA2
FTA1
SCL-SRF
1
2
3
4
A1253WRA
RES 5TA1
FTA5
RES 5TA2
+12V
ITA1
30R
TEMPERATURE
SENSOR
5TA3
+3V3-STANDBY
1u0
30R
RES 2TA3
+3V3
T 1.0A 63V
B01E
RES
1TA1
10-1-5
QFU1.2E LA
30R
4
Miscellaneous
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 64
B02A, Hybrid T/C tuner
B02A
Hybrid T/C tuner
B02A
22u 16V
30R
2FA5
5FA1
VCC-TUNER
100n
100R
30R
2FA9
100R
10p
5FA4
330n
3FA4
47R
5FA5
14
A3.3V
IF1_P
IF1_N
AGC1
NC1
NC2
IF2_P
IF2_N
AGC2
I2C_SCL
I2C_SDA
12
330n
10p
3FA3
47R
FFA3
2FAB
SOC-IF-N
SOC-IF-P
1
2
3
4
5
6
7
8
9
10
11
FFA2
10p
3FA2
10p
2FAC
30R 5FA6
FFA9
2FAA
3FA1
5FA7
FFA6
FFA7
TUNER
BM03B-SRSS-TBT
SDA-FE
SCL-FE
16
10p
2FA7
1F00
SUT-RE214Z
15
4
13
5
1
2
3
2FA8
1FA0 DBG
FFAA
FFA8
FFA4
1n0
2FA3
1
FFAD
3KA3
IF-AGC-DVBT2
2FAF
3KA5
22K
3FAD
2K7
10p
6K8
IFA6
2FAE
100R
3FA9
FFAC
7KA0
PDTA114EU
RES
VCC-TUNER
6
3
IFA3
5
2
7FA1-2
BC857BS(COL)
4
IFA4
3FAC
10K
3FAB
IFA5
470R
7FA1-1
BC857BS(COL)
1
3FAA
AGC-SWITCH
RES 3FA7
FFA5
100R
SOC-IF-AGC
10p
RES 3KA4
22n
FFAB
RES 3FA8
IF-AGC-DVBT2
2FAD
100R
RES 3KA2
100n
10u
2FA2
10p
VCC-TUNER
2FAH
OUT
2K7
IN
COM
2FA1
RES
2FA0
30R
5KA0
330n
47R
470R
+5V
FFAE
330n
3KA1
6K8
3
5KA1
3KA0
47R
2FAG
IFAA
5FAA
IF-N-DVBT2
IF-P-DVBT2
2
4
10p
7FAA
LD1117S33
330u 6.3V
10-1-6
QFU1.2E LA
VCC-TUNER
4
Hybrid T/C tuner
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 65
B02B, Satellite tuner
Satellite tuner
B02B
IRB1
3RB3
4R7
*
*
*
68p
*
10u
2RBV
2RBU
100n
100n
2RB6
1n0
2RB5
1n0
2RB4
1n0
2RB3
2RB2
10n
2RBK
22u
2RBL
IRB0
9RB9
2RB7
*
+3V3-DVBS
4n7
B02B
2RBE
2RBM
4,5
27P
2RB1
4,5
27P
2RBW
7
33N
9RB6
25
JUMP
9RB7
25
JUMP
2RB7
27
10U
2RBU
27
4N7
X
X
-
1R01
X
-
X
NC
VIA
RF_IN
GND
RF LNA LT MIX DIG BB VCO
5
3
9 10 15 17 25 26
34
35
36
37
38
39
40
41
42
*
8
100R
DVBS-QP
DVBS-QN
10p
7
DVBS-IP
DVBS-IN
10p
2
3RB1-2
5
100R
2RBS
AS
21
20
4
6 3RB1-4
100R
1
7 3RB1-1
100R
10p
RF_OUT
3
3RB1-3
10p
I2C-ADDRESS : C6
AGC
XTAL
10p
QP
QN
1K0
10p
SATELLITE
TUNER
18
19
3RB0
100p
10p
SCL
SDA
2RB8
32
SYN HS
2 9 33
2K2
2RB1
27p
*
9RB7
4R7
XTAL_CMD
IP
IN
Φ
9RB6
27
*
9RB8
3RB3
X
0p56
-
4
*
RES 2RBG
X
100p
JUMP
X
FRB0
+V-LNB
1n0
2RBH
68P
27
X
SM15T
2RBJ
27
9RB9
2RBM
XTAL_IN
27p
47p
6RB0
2RBV
*
1
2
3
4
5
6
7
8
9
10
X
X
-
23
24
+3V3-DVBS
XTAL_OUT
2RBR
X
SYN
2RBP
X
28
2RBN
-
2RBY
100P
JUMP
27n
4,5
4,5
5RB0
2RBY
9RB8
16
9RB0
RES
VCO
2RBC
Position Nr Affected Pin Default Value STV6110 STV6111
2
27
2RBB
2RBD
3n3
22
10p
RES
10p
14
MIX DIG BB
VSS
2RBA
12
13
11
33n
2RK1
DVBS-AGC
1
100p
Diversity Matrix (Satellite Tuner dependant)
31
10p
RES
10p
8
2RB9
2RK0
SCL-S-TUNER
SDA-S-TUNER
1
6
LNA LT
30
2RBW
1RB0
16M
2RBF
7RB0
STV6110AT
2 NC 4
NX3225JB
3
10p
RES 2RBT
10-1-7
QFU1.2E LA
* *
+3V3-DVBS
4
Satellite tuner
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 66
B02C, DVBT2 channel decoder
B02C
DVBT2 channel decoder
B02C
+3V3-DVBT2-D
+1V2-DVBT2-P
DKC0
IKC4
3KC7
2KCJ
100n
3KC8
3K3
48
10K
IKC5
3KC9
1
47
2
IKC6
46
45
RFAIN
GPIO0
GPIO1
GPIO2
I2C
ADDRESS
=
0XD8
SCL
SDA
TIFAGC
TTUSCL
TTUSDA
3K3
25
DKC1
26
29
RESET-FUSION-OUTn
30
5KC8
+3V3-DVBT2-D
IKCB
30R
33
40
SLVADR0
VIA
OSCEN_X
RST_X
SLVADR3
NC1
NC2
100n
20
21
100n
TS-CHDEC-CLK
TS-CHDEC-VALID
TS-CHDEC-SOP
3 3KC0-3
47R
TS-CHDEC-DATA
SENSE+1V1-DVBT2
+1V2-DVBT2-C
5KCA
IKC8
+1V2-FE
RES 5KC5
VCC-TUNER
3KC2
47R
SCL-FE
SDA-FE
3KC3
47R
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
+1V2-DVBT2-C
30R
RES 5KC7
IKC7
+3V3-DVBT2-D
+1V1-DVBT2
30R
30R
5KC6
+3V3
30R
+1V2-DVBT2-C
3KCE
IKC9
+1V2-DVBT2-P
22R
7KC0
GND_HS
+1V1-DVBT2
CXD2834
+1V2
GAIA3
FKC1
+1V1
RES
2KCL
VSS
6
11
18
23
27
31
36
39
43
RES
TESTMODE
8
9
12
13
14
15
16
17
1 3KC0-1
47R
49
24
2KC0
100n
30R
2KC1
32
100n
7
19
42
100n
2KC2
100n
TAINP
TAINM
7
1u0
41
IF-AGC-DVBT2
0
1
2
3
TSDATA
4
5
6
7
6p8
47R
8
2 3KC0-2
47R
6
2KCR
38
37
5
4
3
10u
3KCB
1K0
10n
XTALO
47R
3KC6
RES
34
3KC1
2KCS
47R
IKC3
2KCG
+3V3-DVBT2-D
2KC3
2KC5
3KCA
47p
4u7
35
1K0
IKC2
47p
2KCF
100n
IKC1
RES 2KCK
DVDD PVDD
TSCLK
TSVALID
TSSYNC
CVDD
XTALI
1u0
100n
100n 2KC4
2KC6
IKC0
2KCD
2KCE
9KC0
9KC1
5KC1
AGC-SWITCH
NC 2
1KC0 3KC4
7KC0
CXD2834ER
2KCP
4u7
IF-P-DVBT2
IF-N-DVBT2
1
4
5KC0
100n
12p
3
IKCA
10
22
28
44
41M
2KCB
12p
2KCC
100n
2KC7
5KC9
+1V2-DVBT2-C
2KCH
10-1-8
QFU1.2E LA
4
DVBT2 channel decoder
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 67
B02D, DVBS/S2 channel decoder
DVBS/S2 channel decoder
B02D
+3V3-DEMOD
2RDR
1
100n
10K
+3V3-DEMOD
31
3
RESET-FUSION-OUTn
9RD3
AGC-SWITCH
DVBS-QP
DVBS-QN
DVBS-IN
DVBS-IP
5RDB
2RD7
100n
2RDA
100n
3RD2
9RD2
IF-AGC-DVBT2
IRDB
2RDH
100n
+3V3-DEMOD
9RD0
9RD1
IF-P-DVBT2
IF-N-DVBT2
DRD1
3RD3
10K
2RDF
100n
SDA-S-TUNER
SCL-S-TUNER
1
2
29
30
DRD0
10K
DVBS-AGC
22u
2RDS
30R
43
37
38
39
40
2RD8
100n
2RD9
100n
41
42
2RDG
100n
3RD4
3RD5
IRD5
IRD6
45
46
IRD3
47R
4
5
6
47R
+V-LNB
4K7
4K7
3RD9
1K0
8
21
27
47
RESETB
GPIO_0|JTAG_TMS
ADDR
TS_SYNC
TS_VAL
TS_ERR|GPIO_1
TS_CLK
TS_DATA0|TS_SER
TS_DATA1
TS_DATA2
TS_DATA3
TS_DATA4
TS_DATA5
TS_DATA6
TS_DATA7
RSSI_ADC
S_ADC_IP
S_ADC_IN
S_ADC_QP
S_ADC_QN
MP_A
MP_B
MP_C
MP_D
100n
2RD6
36
VDD_VANA
2RD4
7
20
28
48
CLK_IN_OUT
SDA_HOST
SCL_HOST
TC_ADC_P
TC_ADC_N
VIA
SDA_MAST
SCL_MAST
DISEQC_CMD
DISEQC_IN
DISEQC_OUT
13
12
26
14
3RD0-2 2
3RD0-1 1
15
16
17
18
19
23
24
25
3RD0-3 3
11
10
3RD1
7
8 47R
TS-DVBS-SOP
TS-DVBS-VALID
6
TS-DVBS-DATA
47R
47R
TS-DVBS-CLK
47R
IRD0 3RD8
IRD1
47R
3RD7
SDA-FE
SCL-FE
47R
50
51
52
53
54
55
56
57
58
GND1|JTAG_TCLK
GND2|JTAG_TDI
GND3|JTAG_TDO
GND4|JTAG_TRSTB
GND5
35
10n
2RDN
2RDM
30R
3RDB RES
+3V3-ANA
+3V3-DVBS
2RDT
100p
F22-DISECQ-TX
IRDC
3RDA RES
5RDC
XTA_O
2RD5
100n
2RDB
3RD6
XTAL
VDD_VCORE
XTA_I|CLK_IN
9
VDD_VIO 22
10p
44
34
+3V3-DVBS
100n
100n
2RD3
100n
2RD2
100n
2RD1
22u
2RD0
22u
2RDL
RES 2RDJ
32
+3V3-DVBS
COM
100n
RES 2RDD
FRDA
33
6p8
30R
2
4
OUT
7RD0
SI2169-A10-GM
GND_HS
49
IN
16V
3
22u
IRDA
22u
5RDA
+5V
4
3
16M
RES 2RDE
7RDA
LD1117S33
NC
10p
2
1
22u
RES 2RDK
30R
1RD0
NX3225JB
100n
+3V3-ANA
IRD2
5RDD
+1V2-FE
RES 2RDC
B02D
2RDP
10-1-9
QFU1.2E LA
+3V3-DEMOD
4
DVBS/S2 channel decoder
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 68
B03A, Fusion
B03A
Fusion
B03A
7J00-6
FUSION240
FRA5
FRA6
FRA7
FRA8
CA-OEn
FRA10
FRA11
FRA12
NAND-CLE
NAND-ALE
FRD0_PODD0
FRD1_PODD1
FRD2_PODD2
FRD3_PODD3
FRD4_PODD4
FRD5_PODD5
FRD6_PODD6
FRD7_PODD7
FRD8_PODA0
FRD9_PODA1
FRD10_PODA2
FRD11_PODA3
FRD12_PODA10
FRD13_PODA11
FRD14_PODA12
FRD15_PODA13
PODA4
PODA5
POD_A7
POD_A8
POD_A9
PODIREQ
PODRST
PODVS1
PODWAIT
POD_DIR
PODCE1
PODCE2
PODCD1
POD_CD2
POD_VCC_EN
POD_VPP_EN
FRA0_AD0
FRA1_PODWE
FRA2_PODIORD
HPD
FRA3_PODIOWR
FRA4_PODREG
FRA5_AD1
GPIO0
FRA6_AD2
GPIO1
FRA7_AD3
GPIO2
FRA8_AD4
GPIO3
FRA9_PODOE
GPIO4
FRA10_AD5
GPIO5
FRA11_AD6
GPIO6
FRA12_AD7
GPIO7
GPIO8
FRA13_CLE
GPIO9
FRA14_ALE
GPIO10
FRA15_PODA14
GPIO11
7J00-7
FUSION240
AJ22
AH22
AF22
AJ23
AH23
CA-A04
CA-A05
CA-A07
CA-A08
CA-A09
AE27
AG30
AF30
AE28
AE30
CA-RDY
CA-RST
CA-VS1n
CA-WAITn
FJ16
AD28
AD27
AF29
AD30
CA-CE1n
CA-CE2n
CA-CD1n
CA-CD2n
TS_TSB_MCU
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
AG20
AH20
AJ20
AK20
AE21
AF21
AG21
AH21
CA-MOCLK
CA-MOSTRT
CA-MOVAL
AJ21
AK21
AE22
TS-CHDEC-DATA
TS-CHDEC-CLK
TS-CHDEC-SOP
TS-CHDEC-VALID
IF-IN-P
U28
U29
U30
T26
AE29
AD29
R30
B7
B10
C10
C9
B9
B8
A7
B11
A11
A10
C11
A9
GPIO0
GPIO1
GPIO2
GPIO3
IF-IN-N
2FZ1
F-OEn
F-WEn
F-CEn
TS-DVBS-DATA
TS-DVBS-VALID
TS-DVBS-SOP
TS-DVBS-CLK
CA-A06
F-RDY
AK29
AK24
AJ24
AE26
AF23
AK28
AH24
AG22
AG23
FOE
FWE
BOOTCS
FCE2N
FINT1
FINT2
FCLK
FAVD_PODA6
FREADY
GPIO14
GPIO15
GPIO16
GPIO17
GPIO18
GPIO19
GPIO20
GPIO21
GPIO22
GPIO23
GPIO24
A13
C12
D12
C13
E10
D11
E11
B12
A12
B13
D10
2FZ2
GPIO5
GPIO6
GPIO7
GPIO8
2J10
3FZ1
GPIO14
GPIO15
GPIO16
GPIO17
GPIO18
GPIO19
GPIO20
GPIO21
GPIO22
GPIO23
GPIO24
100n
2FZ3
100n
E28
E27
2FZ4
18p
GPIO11
33R
F30
F29
10p
H30
2
4
2J11
18p
RESET-STANDBYn
H29
J26
TEST-CON
TEST-MOD
P30
P29
ENABLE-STANDBY
H25
SPI-EN
SF-SDI
SF-SDO
SF-WP
SF-HOLDn
SF-CS
SF-CLK
K28
L28
L26
K30
L27
L29
L30
0
1
2
3
TS2OD
4
5
6
7
0
1
2
3
TS1D
4
5
6
7
TS2OCLK
TS2OSYNC
TS2ODEN
TS1CLK
TS1SYNC
TS1DEN
TAGCO_IF
TAGCO_RF
AH18
AJ18
AK18
AE19
AF19
AG19
AH19
AJ19
MDI0
MDI1
MDI2
MDI3
MDI4
MDI5
MDI6
MDI7
AK19
AE20
AF20
MICLK
MISTRT
MIVAL
2FZ5
TSSDI
TSSCLK
TSSSYNC
TSSDEN
10p
RES 2FZ6
47p
1
CA-A14
AG29
AD26
AH29
AJ29
AF28
AH30
AG28
AJ30
AJ28
AJ27
AF27
AG27
AG24
AE23
AK22
AJ26
FLASH_CI_GPIO
3
FRA0
CA-WEn
CA-IORDn
CA-IOWRn
CA-REGn
AK23
AF26
AE24
AK25
AH25
AH27
AK27
AJ25
AF25
AG26
AK26
AG25
AE25
AH26
AH28
AF24
24M
CA-D00
CA-D01
CA-D02
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-A00
CA-A01
CA-A02
CA-A03
CA-A10
CA-A11
CA-A12
CA-A13
1J00
10-1-10
QFU1.2E LA
P
IN
N
P
PD
N
XTLI24M
XTLO24M
RSTN
TESTCON
TESTMOD
STB_EN
SPI_EN
SFSI
SFSO
SFWPN
SFHOLDN
SFCES
SFSCK
DGPIO1
DGPIO2
0
1
2
3
4
STB_GP 5
6
7
8
9
10
STB_RXD
STB_TXD
STB_SDA
STB_SCL
LED
IR
KYBRD
LGSEN
CEC
PWRON
AVLINK
1
2
PCVS
PCHS
STB_RSTO
HP_DETECT
MUTE
F27
G26
3FZ0
4n7
SOC-IF-AGC
100R
FJ10
T28
T29
M27
M26
M25
N30
N29
N28
N27
N26
N25
P25
P26
STB-GP0
STB-GP1
STB-GP2
STB-GP3
STB-GP4
STB-GP5
STB-GP6
STB-GP7
STB-GP8
STB-GP9
STB-GP10
R28
R27
P27
P28
STB-RXD
STB-TXD
STB-SDA
STB-SCL
J25
M29
J30
M30
M28
R29
LED
IR
KYBRD
LGSEN
HDMI-CEC
PWRON
K25
K26
AVLINK1
AMBI-TEMP-FUS
J27
J28
J29
STB-RSTO
K27
HP-DETECT
H26
AUDIO-MUTEn
4
Fusion
2012-11-22
3104 313 6612
19370_136_130227.eps
130227
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 69
B03B, Fusion Umac controller
Fusion Umac controller
MM0ANA
0
MM0VREF
1
MZQ0
MM0ANA_TEST
MM1CK
P
N
0
1
MZQ1
MM1ANA_TEST
DDR_RETN
MM1VREF
L2
F2
H1
H3
F3
H5
F5
H2
G3
F4
K5
G1
L1
G5
F1
K2
M1-MA0
M1-MA1
M1-MA2
M1-MA3
M1-MA4
M1-MA5
M1-MA6
M1-MA7
M1-MA8
M1-MA9
M1-MA10
M1-MA11
M1-MA12
M1-MA13
M1-MA14
M1-MA15
M1
J5
K1
L3
M3
N2
K3
N1
H4
J4
M1-BA0
M1-BA1
M1-BA2
M1-CAS#
M1-RAS#
M1-WE#
M1-CKE
M1-ODT
M1-RESET#
M1-CS#
J1
J2
M1-MCLK0
M1-MCLK0#
U7
U6
T7
E1
AA7
M1-MVREF1
240R
+1V5-M1
2J04
3J00
FJ01
AE11
AE12
AE7
AD18
P
MM0CK
N
0
MM1BA 1
2
MM1CASN
MM1RASN
MM1WEN
MM1CKE
MM1ODT
MM1RESETN
MM1CSN
M1-DQS0
M1-DQS#0
M1-DQS1
M1-DQS#1
M1-DQS2
M1-DQS#2
M1-DQS3
M1-DQS#3
100n
240R
0
1 MM0BA
2
MM0CASN
MM0RASN
MM0WEN
MM0CKE
MM0ODT
MM0RESETN
MM0CSN
0
1
2
3
4
5
6
7
MM1A
8
9
10
11
12
13
14
15
DB46
DB47
FJ04
M1-MVREF1
1%
3J01
DB80
DB73
FJ03
DB86
DB82
MM1ANA
FJ02
DB85
DB81
MM1ANA
MM0ANA
DB87
+1V5-M1
3J02
2J05
100n
1K0
3J06
1%
0
1
2
3
4
5
6
7
MM0A
8
9
10
11
12
13
14
15
T2
T3
N3
N4
AA3
AA2
V4
V3
2J03
M0-MVREF0
MM0DQS3
M1-DQM0
M1-DQM1
M1-DQM2
M1-DQM3
2J00
3J05
2J06
1K0
M0-MVREF0
AK14
AJ14
MM0DQS2
T1
P3
AA1
W3
100n
M0-MCLK0
M0-MCLK0#
FJ05
AG12
AF14
AK13
AH12
AF12
AF11
AH13
AG11
AG15
AG14
MM0DQS1
P
N
P
MM1DQS1
N
P
MM1DQS2
N
P
MM1DQS3
N
MM1DQS0
DB75
1K0
M0-BA0
M0-BA1
M0-BA2
M0-CAS#
M0-RAS#
M0-WE#
M0-CKE
M0-ODT
M0-RESET#
M0-CS#
+1V5-M0
AJ12
AJ17
AK15
AH15
AH17
AF15
AF17
AJ15
AH16
AG17
AF13
AK16
AK12
AF16
AK17
AJ13
MM0DQS0
DB76
3J03
M0-MA0
M0-MA1
M0-MA2
M0-MA3
M0-MA4
M0-MA5
M0-MA6
M0-MA7
M0-MA8
M0-MA9
M0-MA10
M0-MA11
M0-MA12
M0-MA13
M0-MA14
M0-MA15
P
N
P
N
P
N
P
N
0
1
2
3
DB77
1K0
AK7
AK6
AJ10
AK10
AF2
AF1
AH4
AG4
DB14
DB16
MM1DM
DB78
3J04
M0-DQS0
M0-DQS#0
M0-DQS1
M0-DQS#1
M0-DQS2
M0-DQS#2
M0-DQS3
M0-DQS#3
0
1
MM0DM
2
3
DB79
M1-MD0
M1-MD1
M1-MD2
M1-MD3
M1-MD4
M1-MD5
M1-MD6
M1-MD7
M1-MD8
M1-MD9
M1-MD10
M1-MD11
M1-MD12
M1-MD13
M1-MD14
M1-MD15
M1-MD16
M1-MD17
M1-MD18
M1-MD19
M1-MD20
M1-MD21
M1-MD22
M1-MD23
M1-MD24
M1-MD25
M1-MD26
M1-MD27
M1-MD28
M1-MD29
M1-MD30
M1-MD31
2J02
AJ6
AK9
AE1
AH3
P2
V2
R1
V1
R3
U1
P1
U3
L5
R4
L4
P5
M5
R5
M4
P4
W1
AB1
Y3
AB3
Y1
AC2
Y2
AC1
U5
AA4
T5
Y5
U4
W5
V5
Y4
100n
DB74
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
MM1DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
1K0
DB72
DDR3
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
MM0DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
100p
AH8
AH5
AH7
AJ5
AK8
AH6
AJ8
AK5
AK11
AF9
AJ11
AG9
AF10
AG8
AH10
AH9
AG1
AF3
AE3
AH1
AH2
AD3
AD1
AD2
AK4
AG3
AJ3
AK2
AK3
AJ2
AG5
AJ1
DB71
M0-DQM0
M0-DQM1
M0-DQM2
M0-DQM3
100n
B03B
7J00-8
FUSION240
M0-MD0
M0-MD1
M0-MD2
M0-MD3
M0-MD4
M0-MD5
M0-MD6
M0-MD7
M0-MD8
M0-MD9
M0-MD10
M0-MD11
M0-MD12
M0-MD13
M0-MD14
M0-MD15
M0-MD16
M0-MD17
M0-MD18
M0-MD19
M0-MD20
M0-MD21
M0-MD22
M0-MD23
M0-MD24
M0-MD25
M0-MD26
M0-MD27
M0-MD28
M0-MD29
M0-MD30
M0-MD31
2J07
B03B
100n
10-1-11
QFU1.2E LA
DDR-RTN
DB83
DB88
DB89
4
Fusion Umac controller
2012-11-22
3104 313 6612
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10-1-12
QFU1.2E LA
10.
EN 70
B03C, Umac 1 DDR3
B03C
Umac 1 DDR3
B03C
+1V5-M1
3J1H
3J1K
3J1J
100R
3J1R
3J1Y
100R
3J25
3J27
3J26
100R
100R
100R
3J2B
100R
3J2D
3J2C
100R
100R
3J2H
3J2G
100R
100R
3J2K
100n
240R
DB48
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
DML
DMU
NC
VSS
J1
J9
L1
L9
DB50
DB51
DB52
H1
M8
DDR-MVREF12
L8
VSSQ
DB54
DB55
DBA8
M1-CKE
M1-CS#
M1-WE#
M1-RESET#
J3
K1
K3
J7
K7
K9
L2
L3
T2
E7
D3
A1
A8
C1
C9
D2
E9
F1
H2
H9
0
1
2
3
DQU
4
5
6
7
DQSU
DQSU
DQSL
DQSL
0
1
2
3
DQL
4
5
6
7
VREFDQ
VREFCA
ZQ
BA0
BA1
BA2
D7
C3
C8
C2
A7
A2
B8
A3
M1-MD21
M1-MD22
M1-MD23
M1-MD16
M1-MD17
M1-MD18
M1-MD19
M1-MD20
DB56
DB57
C7
B7
F3
G3
M1-DQS2
M1-DQS#2
DB58
DB59
M1-DQS3
M1-DQS#3
E3
F7
F2
F8
H3
H8
G2
H7
M1-MD28
M1-MD31
M1-MD30
M1-MD27
M1-MD26
M1-MD25
M1-MD24
M1-MD29
DB65
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
DML
DMU
NC
J1
J9
L1
L9
VSSQ
VSS
M1-MCLK0#
3J2R
M1-DQM3
M1-DQM2
100R
3J2T
3J2S
M2
N8
M3
DB64
DB53
M1-BA0
M1-BA1
M1-BA2
M1-RAS#
M1-ODT
M1-CAS#
M1-MCLK0
M1-MCLK0#
3J2P
3J2Q
M1-MD14
M1-MD15
M1-MD12
M1-MD11
M1-MD8
M1-MD9
M1-MD10
M1-MD13
DB49
DB63
3J2M
100R
100R
100R
100R
1K0
+1V5-M1
1K0
+1V5-M1
+1V5-M1
10n
DB98
DBA3
DB94
10n
2J1J
10n
2J1G
10n
2J1E
100n
2J1C
100n
2J21
100n
2J1Z
2J1V
10n
10n
2J84
10n
2J83
10n
2J82
100n
2J81
100n
2J1T
100n
2J1R
100n
2J1P
DB93
10u
2J1M
DB99
DBA4
DBA6
DBA2
DBA7
10n
10n
2J1K
10n
2J1H
10n
2J1F
100n
2J1D
100n
2J20
100n
2J1W
2J1U
10n
10n
2J88
10n
2J87
10n
2J86
100n
2J85
DBA5
+1V5-M1
+1V5-M1
100n
2J1S
DB01
DBA1
DB97
100n
2J1Q
DB95
DB96
100n
2J1N
DB66
FJ09
DDR-MVREF12
2J22
100R
E7
D3
BA0
BA1
BA2
E3
F7
F2
F8
H3
H8
G2
H7
100R
3J2N
M1-RESET#
DB92
ZQ
M1-DQS1
M1-DQS#1
M1-DQM1
M1-DQM0
100R
3J2L
M1-CKE
DB91
DB39
10u
2J1L
M1-ODT
100R
3J2J
10u
2J25
M1-CS#
100R
2J24
M1-WE#
J3
K1
K3
J7
K7
K9
L2
L3
T2
DB90
DB35
DB36
DB38
M1-CKE
M1-CS#
M1-WE#
M1-RESET#
3J2F
2J27
M1-CAS#
RES
100R
3J2E
47u 16V
M1-RAS#
100R
3J2A
75R
100R
M1-BA2
+1V5-M1
3J29
3J28
M1-BA1
M1-BA0
M1-BA1
M1-BA2
M1-RAS#
M1-ODT
M1-CAS#
M1-MCLK0
M1-MCLK0#
M1-MCLK0
100R
0
1
2
3
DQL
4
5
6
7
M1-DQS0
M1-DQS#0
DB44
DB45
VDDQ
0
1
2
3
4
5
A
6
7
8
9
10
11
12
13
14
15
BC
AP
2J1A
100R
100R
3J24
75R
M1-BA0
DB62
3J23
VREFDQ
VREFCA
DB42
DB43
F3
G3
N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3
T7
M7
2J1B
100R
M2
N8
M3
DQSL
DQSL
A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9
100R
M1-MA15
2J14
100R
3J22
M1-MA14
100n
2J15
3J21
3J20
L8
3J10
100R
1K0
100R
3J1Z
3J1W
3J12
100R
M1-MA13
H1
M8
DDR-MVREF11
3J1V
100R
100R
M1-MA12
DDR-MVREF11
100R
3J16
M1-MA11
FJ08
3J1T
3J1S
3J1U
DQSU
DQSU
DB41
C7
B7
100n
100R
DB33
DB34
100R
3J17
M1-MA10
1K0
100R
DB32
10n
M1-MA9
3J1P
3J1N
3J11
100R
10n
M1-MA8
100R
100R
2J16
M1-MA7
100n
3J1M
3J1L
DB31
VDD
M1-MA0
M1-MA1
M1-MA2
M1-MA3
M1-MA4
M1-MA5
M1-MA6
M1-MA7
M1-MA8
M1-MA9
M1-MA10
M1-MA11
M1-MA12
M1-MA13
M1-MA14
M1-MA15
100n
100R
2J17
M1-MA6
100R
100R
100n
M1-MA5
DB40
B1
B9
D1
D8
E2
E8
F9
G1
G9
100R
M1-MD1
M1-MD4
M1-MD3
M1-MD6
M1-MD5
M1-MD0
M1-MD7
M1-MD2
A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9
3J1F
3J1E
3J1G
D7
C3
C8
C2
A7
A2
B8
A3
3J14
100R
2J12
M1-MA4
100R
7J02
H5TQ2G63BFR-PBC
0
1
2
3
DQU
4
5
6
7
3J15
100R
2J89
M1-MA3
+1V5-M1
240R
3J1D
3J1C
100n
100R
100R
0
1
2
3
4
5
A
6
7
8
9
10
11
12
13
14
15
BC
AP
3J13
3J1A
M1-MA2
N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3
T7
M7
2J18
3J1B
100n
2J19
100R
B1
B9
D1
D8
E2
E8
F9
G1
G9
100R
M1-MA0
M1-MA1
M1-MA2
M1-MA3
M1-MA4
M1-MA5
M1-MA6
M1-MA7
M1-MA8
M1-MA9
M1-MA10
M1-MA11
M1-MA12
M1-MA13
M1-MA14
M1-MA15
3J19
3J18
M1-MA1
VDDQ
B2
D9
G7
K2
K8
N1
N9
R1
R9
VDD
M1-MA0
+1V5-M1
A1
A8
C1
C9
D2
E9
F1
H2
H9
7J01
H5TQ2G63BFR-PBC
B2
D9
G7
K2
K8
N1
N9
R1
R9
+1V5-M1
4
Umac 1 DDR3
2012-11-22
3104 313 6612
19370_138_130227.eps
130227
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10-1-13
QFU1.2E LA
10.
EN 71
B03D, Umac 0 DDR3
B03D
Umac 0 DDR3
B03D
+1V5-M0
3J3F
3J3E
100R
100R
3J41
3J49
100R
100R
3J4F
100R
100R
100R
100R
100n
240R
1%
E3
F7
F2
F8
DB69
H3
H8 DB17
G2
H7
M0-MD15
M0-MD12
M0-MD9
M0-MD10
M0-MD11
M0-MD14
M0-MD13
M0-MD8
NC
VSS
J1
J9
L1
L9
DB18
DB19
DB20
DB21
H1
M8
DDR-MVREF02
L8
DB67
DB22
M0-BA0
M0-BA1
M0-BA2
M0-RAS#
M0-ODT
M0-CAS#
M0-MCLK0
M0-MCLK0#
VSSQ
M0-DQM1
M0-DQM0
DB23
M2
N8
M3
J3
K1
K3
J7
K7
K9
L2
DB24 L3
T2
E7
D3
M0-CKE
M0-CS#
M0-WE#
M0-RESET#
A1
A8
C1
C9
D2
E9
F1
H2
H9
DQSU
DQSU
DQSL
DQSL
0
1
2
3
DQL
4
5
6
7
VREFDQ
VREFCA
ZQ
BA0
BA1
BA2
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
DML
DMU
NC
D7
C3
C8
C2
A7
A2
B8
A3
M0-MD16
M0-MD18
M0-MD20
M0-MD23
M0-MD17
M0-MD21
M0-MD19
M0-MD22
DB25
DB26
C7
B7
F3
G3
E3
F7
F2
F8
H3
H8
G2
H7
M0-DQS2
M0-DQS#2
DB27
DB29
M0-DQS3
M0-DQS#3
M0-MD29
M0-MD28
M0-MD25
M0-MD26
M0-MD27
M0-MD30
M0-MD31
M0-MD24
DB30
DB70
J1
J9
L1
L9
VSSQ
VSS
M0-MCLK0#
3J4M
3J4L
M0-DQM3
M0-DQM2
100R
3J4P
3J4N
+1V5-M0
1K0
100R
FJ0B
1K0
DDR-MVREF02
10n
10n
2J2V
10n
2J2T
100n
2J2R
100n
2J3E
100n
2J3C
2J3A
10n
10n
2J2P
10n
2J2M
10n
2J2K
100n
2J2H
100n
2J38
100n
2J36
100n
2J34
10u
2J32
10u
2J3G
2J3F
DBB3
DBC1
DBC6
DBC2
DBC7
10n
10n
2J30
10n
2J2W
10n
2J2U
100n
2J2S
100n
2J3D
100n
2J3B
2J39
10n
10n
2J2Y
10n
2J2N
10n
2J2L
100n
2J2J
100n
2J37
DBC5
DBB7
100n
2J35
DBC4
DBC0
DBB6
100n
2J33
DBC3
+1V5-M0
+1V5-M0
10u
2J31
DBB9
DBB5
10u
2J3J
DBB8
DBB4
2J3H
2J3K
10n
2J2Z
+1V5-M0
+1V5-M0
47u 16V
100R
DML
DMU
M0-DQS1
M0-DQS#1
3J4K
3J4J
M0-CKE
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
E7
D3
DB13
DB15
100R
100R
M0-RESET#
DBB2
M0-DQS0
M0-DQS#0
3J4H
3J4G
M0-ODT
75R
100R
3J4E
3J33
3J4C
100R
100R
10n
100R
3J4D
DB08
DBB1
M0-CKE
M0-CS#
M0-WE#
M0-RESET#
3J4B
3J4A
J3
K1
K3
J7
K7
K9
L2
L3
T2
DBA9
DB04
DB05
DB07
DBB0
DB11
DB12
F3
G3
0
1
2
3
DQU
4
5
6
7
2J2E
100R
RES
M0-BA0
M0-BA1
M0-BA2
M0-RAS#
M0-ODT
M0-CAS#
M0-MCLK0
M0-MCLK0#
10n
3J47
100R
75R
100R
3J48
M0-CS#
3J32
3J45
3J46
M0-WE#
+1V5-M0
100R
100R
M0-CAS#
M0-MCLK0
3J43
3J42
3J44
M0-RAS#
3J2U
100R
100R
100R
BA0
BA1
BA2
C7
B7
VDDQ
0
1
2
3
4
5
A
6
7
8
9
10
11
12
13
14
15
BC
AP
2J2F
100R
ZQ
M2
N8
M3
3J3Z
3J40
0
1
2
3
DQL
4
5
6
7
A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9
100R
M0-BA2
L8
DB68
100R
100R
M0-BA1
1K0
3J3V
3J3U
M0-BA0
3J2W
3J3T
100R
3J3W
M0-MA15
2J28
100R
100R
DQSL
DQSL
VREFDQ
VREFCA
3J3R
3J3S
M0-MA14
H1
M8
DDR-MVREF01
100n
2J29
100R
100R
M0-MA13
DDR-MVREF01
100R
3J3Y
M0-MA12
FJ0A
3J3P
DQSU
DQSU
DB10
3J30
100R
M0-MA11
DB02
DB03
3J3M
3J3L
3J3N
M0-MA10
1K0
100R
DB00
100R
100n
M0-MA9
3J3K
3J3J
100n
100R
2J2B
M0-MA8
100R
100R
3J2V
3J3G
M0-MA7
2J2A
3J3H
DB61
N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3
T7
M7
B1
B9
D1
D8
E2
E8
F9
G1
G9
100R
VDD
M0-MA0
M0-MA1
M0-MA2
M0-MA3
M0-MA4
M0-MA5
M0-MA6
M0-MA7
M0-MA8
M0-MA9
M0-MA10
M0-MA11
M0-MA12
M0-MA13
M0-MA14
M0-MA15
100n
100R
3J3D
3J3C
DB09
3J31
100R
M0-MA6
100R
100R
M0-MA5
2J01
M0-MA4
M0-MD0
M0-MD5
M0-MD4
M0-MD7
M0-MD2
M0-MD1
M0-MD6
M0-MD3
A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9
3J3B
D7
C3
C8
C2
A7
A2
B8
A3
240R
1%
100R
3J3A
7J04
H5TQ2G63BFR-PBC
0
1
2
3
DQU
4
5
6
7
100n
100R
2J2G
M0-MA3
+1V5-M0
100n
3J39
3J38
3J2Z
100R
100R
0
1
2
3
4
5
A
6
7
8
9
10
11
12
13
14
15
BC
AP
100n
2J2D
3J37
3J36
M0-MA2
N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3
T7
M7
2J2C
100R
B1
B9
D1
D8
E2
E8
F9
G1
G9
100R
M0-MA0
M0-MA1
M0-MA2
M0-MA3
M0-MA4
M0-MA5
M0-MA6
M0-MA7
M0-MA8
M0-MA9
M0-MA10
M0-MA11
M0-MA12
M0-MA13
M0-MA14
M0-MA15
3J35
3J34
M0-MA1
VDDQ
B2
D9
G7
K2
K8
N1
N9
R1
R9
VDD
M0-MA0
+1V5-M0
A1
A8
C1
C9
D2
E9
F1
H2
H9
7J03
H5TQ2G63BFR-PBC
B2
D9
G7
K2
K8
N1
N9
R1
R9
+1V5-M0
4
Umac 0 DDR3
2012-11-22
3104 313 6612
19370_139_130227.eps
130227
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10-1-14
QFU1.2E LA
10.
EN 72
B03E, Fusion
Fusion
B03E
B03E
7J00-4
FUSION240
A22
B22
E22
D22
A23
B23
E23
D23
A24
B24
E24
D24
AR-1
AL-1
AR-3
AL-3
AR-4
AL-4
D26
SPDIFIN
3J53
SCKIN
WSI2SIN
SDI2SIN
10R
3J55
10R
3J54
10R
IJ10
C26
B26
A26
AC28
C15
A15
B16
A16
CVBS
CVBS3
C16
Y-G1
PB-B1
PR-R1
A20
A19
A18
Y-G2
PB-B2
PR-R2
B20
B19
B18
Y-G3
PB-B3
PR-R3
C20
C19
C18
IJ12
IJ13
SC1-STATUS
FB1
D20
D19
D18
C17
B17
D17
A17
AV_IN_OUT
AR_1
AL_1
AR_2
AL_2
AR_3
AL_3
AR_4
AL_4
AR_5
AL_5
AR_6
AL_6
HPHOL
HPHOR
SUBO
SPK_AOR1
SPK_AOL1
AOR2
AOL2
B21
A21
HPHOL
HPHOR
C21
7J00-5
FUSION240
A25
B25
D25
C25
AUD-L
AUD-R
USB1-RREF
SPDIFO
SCKIN
WSI2SIN
SDI2SIN
SCKI2SOUT
WSI2SOUT
1
SDI2SOUT 2
3
I2SCLK
E26
Y26
Y27
AA30
AA29
AB28
Y25
GPANA1
SPDIFO
3J07
3J08
3J09
3J50
3J51
3J52
10R
10R
10R
10R
10R
10R
SCKI2SOUT
WSI2SOUT
SDI2SOUT1
SDI2SOUT2
SDI2SOUT3
I2SCLK
CVBS
CVBS2
CVBS3
CVBS4
C
Y_G4
PB_B4
PR_R4
FS1
FB1
FS2
FB2
EN-RXD0
EN-TXD0
EN-RXD1
EN-TXD1
FJ0F
FJ0G
FJ0H
FJ0J
W29
V29
W28
V28
W27
V27
W26
V26
V25
U25
USB2-DP
USB2-DM
EN-RXEN
EN-TXEN
1
CVBS_OUT
2
A14
B14
CVBS-OUT1
CVBS-OUT2
W30
V30
EN-MDC
EN-MDIO
CVBS-OUT2
Y_G1
PB_B1
PR_R1
Y_G3
PB_B3
PR_R3
USB2-RREF
AC30
AC29
AB25
AC27
EN-RXC
EN-TXC
SPDIFIN
Y_G2
PB_B2
PR_R2
AB30
AB29
AB26
AB27
USB1-DP
USB1-DM
W25
Y30
PANEL_USB
D1_P LAN_IO
D1_N
USBPPON1
TXRTUNE1
D2_P
D2_N
USBPPON2
TXRTUNE2
GBE_RXD0
GBE_TXD0
GBE_RXD1
GBE_TXD1
GBE_RXD2
GBE_TXD2
GBE_RXD3
GBE_TXD3
GBE_RXC
GBE_TXC
GBE_RXEN
GBE_TXEN
GBE_MDC
GBE_MDIO
IJ11
HDMIF-RX0+
HDMIF-RX0HDMIF-RX1+
HDMIF-RX1HDMIF-RX2+
HDMIF-RX2HDMIF-RXC+
HDMIF-RXC-
A29
B29
A28
B28
A27
B27
B30
C30
HEAC
T27
PWR5V
T30
RREF
C29
RX0_P
RX0_N
RX1_P
RX1_N
RX2_P
RX2_N
RXC_P
RXC_N
TX0_P
TX0_N
TX1_P
TX1_N
TX2_P
TX2_N
TX3_P
TX3_N
TX4_P
TX4_N
TX5_P
TX5_N
TX6_P
TX6_N
TX7_P
TX7_N
HTPDN
LOCKN
IDP_HPD
H_BK_LITE
PWM0
PWM1
BOOST
BKLGON
TCON_ON
A2
B2
V1-TX0P
V1-TX0N
C3
C2
V1-TX1P
V1-TX1N
B3
A3
V1-TX2P
V1-TX2N
A4
B4
V1-TX3P
V1-TX3N
C5
C4
V1-TX4P
V1-TX4N
B5
A5
V1-TX5P
V1-TX5N
A6
B6
RXD-SERVICE
TXD-SERVICE
Y29
Y28
EJT-TCK
EJT-TMS
EJT-TDO
EJT-TDI
EJT-TRSTN
D14
D13
E12
E13
C14
UART_JTAG
I2C SCLS
RXD
TXD
V1-TX6P
V1-TX6N
C7
C6
7J00-9
FUSION240
SDAS
U26
U27
V1-TX7P
V1-TX7N
D4
E5
D5
A8
E4
D2
E3
D3
C8
TCK
TMS
TDO
TDI
TRSTN
SCLM1
SDAM1
SCLM2
SDAM2
SCLM3
SDAM3
AA28
AA27
SCL-M1
SDA-M1
D1
E2
SCL-M2
SDA-M2
AA26
AA25
SCL-M3
SDA-M3
V1-HTPDn
V1-LOCKn
9GA2
BL-SPI-CLK-FUS
3D-LR-FUS
BL-SPI-CS_BL-I-CTRL-FUS
BL-DIM-FUS
BL-SPI-SDO-FUS
HEAC
PWR5V
RREF
4
Fusion
2012-11-22
3104 313 6612
19370_140_130227.eps
130227
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 73
B03F, Fusion power supply
Fusion power supply
2J79
2J7A
100n
2J7B
100n
2J7C
100n
2J6W
2J6Z
100n
2J70
100n
2J71
100n
2J72
100n
2J73
100n
2J74
100n
2J75
100n
2J76
100n
100n
10n
2J99
10n
10n
2J6N
10n
2J6M
10n
2J6Y
10n
2J6R
10n
2J6S
2J6E
10n
2J6D
10n
2J6G
10n
2J6H
10n
2J6J
2J66
10n
2J68
10n
2J69
10n
2J6A
10n
2J6P
10n
2J67
10n
2J65
10n
2J6U
10n
2J6L
10n
2J6F
10n
2J6C
10n
K11
L11
IJ0P
5J0G
+1V1-FA
120R
2J6B
K29
100n
22u
2J78
2J26
2J13
100u 2.0V
10u
VDD_1V2
VDDM0
VDDM0
10n
10n
2J93
2J5A
2J80
2J5L
10n
2J59
10u
2J5M
2J5B
10u
2J5F
10n
2J5C
100n
2J5G
10n
2J5K
10n
2J5D
100n
2J5H
10n
10n
2J5N
10n
100n
VSS
VSS
VDDF1
F6
F7
2J5R
2J5S
100n
2J5T
100n
2J5U
100n
2J5V
100n
2J5W
100n
2J5Z
100n
2J60
100n
2J61
100n
2J62
100n
2J64
100n
+3V3
10u
2J4R
LDO11_CAP
+1V5
+3V3-STANDBY
2J5Y
2J7E
2J7H
10u
2J7K
10u
2J7G
10u
2J7J
10u
2J7D
100n
100n
10n
10n
2J4G
2J96
G12
F12
+2V5-F
2J58
1n0
10u
1u0
10n
10n
K12
L12
VSS11A_3
2J77
100n
VDD33A
2J4N
GNDA2V5
VSS11A_2
5J0F
120R
2J63
10u
10n
10u
2J55
2J54
2J53
2J56
2J4H
IJ0N
IJ0K
5J0N
120R
D28
AVDD25_HDMI
VDDA2V5
GNDA1V1
D30
100n
120R
+3V3
IJ0J
5J0M
2J4F
N24
G13
F13
VDDA1V1
+2V5
C27
+2V5-F
5J0E
120R
10n
VQPS
VSS11A_1
2J4M
10u
D27
D29
VDD11A
2J4P
10u
2J52
10n
10u
2J51
2J50
120R
100n
C28
IJ0M
2J6V
10n
IJ0H
5J0L
R11
U11
R10
U10
2J98
GNDE2V5
VSS_M1P
+1V1-FA
AC3
AD4
AD5
1u0
VDD2V5_M1P
2J4Y
F14
G14
VDDE2V5
4n7
2J4Z
100n
B1
C1
120R
VSSAC_2
IJ0G
5J0K
120R
10u
2J4W
+2V5
VSS_M0P
VDD33
2J4L
AB24
VSSAC_1
2J4J
10u
100n
AC24
5J0D
+2V5-F
100n
AC25
2J4V
120R
Y12
Y13
Y14
AA13
AA14
100n
IJ0F
5J0J
2J4U
+3V3
VDD25
100n
AC26
AD6
AD7
10u
IJ0L
VDD2V5_M0P
2J97
SUPPLY_2
100n
2J4T
100n
2J4S
7J00-2
FUSION240
2J7L
10u
10u
IJ0E
5J0H
120R
10u
+2V5
2J5P
10n
IJ14
+1V1-FD
VSS
2J4C
2J4B
10u
+2V5-F
K15
L15
5J0P
120R
VDDF_STB
2J7V
2J7P
10n
2J7Y
10n
2J23
10n
5J0C
120R
9J04
VSSA_LPLL
IJ0D
E14
AA19
AA18
AA17
AA16
N10
K20
K19
K18
K14
K13
AK30
A30
W24
V24
U24
P24
AD21
AD20
Y19
U19
R19
N19
L19
Y18
U18
R18
N18
L18
AE17
AD17
Y17
U17
R17
N17
AJ16
AG16
AE16
AD16
Y16
U16
R16
N16
AE15
AD15
U15
R15
N15
AH14
U14
R14
N14
L14
AG13
U13
R13
N13
L13
U12
R12
N12
AH11
N11
AG10
AJ9
AJ7
Y7
W7
V7
L7
K7
J7
Y6
W6
V6
L6
K6
J6
AA5
N5
AJ4
W4
T4
G4
J3
AG2
AE2
AB2
W2
U2
R2
M2
G2
AK1
A1
R24
R25
R26
9J03
VDD25_LPLL
K16
L16
120R
2J4E
AVSSH
AVSSH
5J0B
+3V3
E15
100n
AVDDH
DAC2
VDDF2
2J44
2J43
10u
2J46
2J45
10u
IJ0C
2
3 INN
4
VDDM1
2J42
2J41
10u
+3V3
2J4D
10u
2J91
K17
L17
INN16
100n
2J90
100n
E18
E19
E20
AVSSH
AVSSH
5J0A
120R
PWR_GND
DAC1
2J4A
VDD33_XTAL
D15
2J49
10u
AVDDH
100n
100n
AVSS_STB
100n
2J3W
10u
2J3Z
100n
E17
2J40
+3V3
120R
VDDC
VDDF2
AVSS
AVDD33_STB
T10
AA20
AA21
Y21
W21
V21
U21
T21
R21
P21
N21
L21
K21
M21
M10
L10
K10
P14
L25
M24
L24
G21
Y20
W20
V20
U20
T20
R20
P20
N20
M20
L20
W19
V19
T19
P19
M19
W18
V18
T18
P18
M18
W17
V17
T17
P17
M17
V16
T16
P16
M16
V15
T15
P15
M15
V14
T14
M14
W13
V13
T13
P13
M13
W12
T12
M12
M11
G11
F11
G10
F10
G9
F9
E9
D9
G8
F8
E8
D8
E7
D7
E6
D6
5J09
G22
G23
E21
F21
IJ00
SENSE+1V1-FD
T11
IJ0B
J24
IJ06
120R
+3V3
IJ0A
AVDD
AVSSH_CH516
5J08 RES
120R
VDDF2
K24
5J06
100n
100n
AVDDH_CH516
IJ09
AE18
AF18
AG18
AD19
AD22
AD23
G24
H24
T24
Y24
AA24
AD24
F25
G25
T25
AD25
F26
100n
10u
2J3T
2J3U
G15
G16
H28
+3V3-STANDBY
AVSSL_CH516
SGNDAU
C22
C23
C24
E25
F22
F23
F24
2J48
100n
10u
2J3R
2J3S
F15
F16
120R
D21
100n
VREFAU
IJ05
120R
+1V2-FA
2J47
10u
100n
10u
2J3P
2J3Y
AVDDL_CH516
B15
5J04
5J07
E29
F28
AVSSH_CH234
IJ04
120R
+3V3
IJ08
AVDDL_DRX
F18
G18
D16
E16
5J03
E30
G27
G28
H27
120R
+1V5-M0
IJ0R
VDDC
AVDDH_CH234
AVSSH_DRX
5J05
G29
G30
100n
100n
2J3N
AVSSL_CH234
IJ03
120R
+3V3-STANDBY
F20
G20
F17
G17
5J02
+3V3
AVDDH_DRX
AVDDL_CH234
IJ02
5J01
120R
+1V2-FA
10u
2J3M
F19
G19
10u
2J3V
+3V3
IJ07
IJ01
5J00
120R
2J09
10n
SUPPLY_1
+1V2-FA
100n
7J00-1
FUSION240
B03F
SENSE+1V2-MIPS
VDDC
2J7W
100n
2J7T
10n
2J7U
2J7Z
100n
2J7S
10n
10u
2J92
100n
10n
2J94
10n
2J95
2J08
220u 2V0
120R
2J7R
10n
IJ0S
5J0R
Y10
W10
V10
P10
V12
P12
V11
P11
AC7
AB7
R7
P7
N7
M7
H7
G7
AC6
AB6
AA6
T6
R6
P6
N6
M6
H6
G6
AC5
AB5
AC4
AB4
K4
VDDC
+1V5-M1
+1V5
VDDM0
VDDM0
FUSION240
2J7F
10n
7J00-3
2J6T
+1V2-MIPS
W14
W15
W16
Y15
AA15
B03F
AE4
AF4
AE5
AF5
AE6
AF6
AG6
AF7
AG7
AD8
AE8
AF8
AD9
AE9
AD10
AE10
W11
Y11
AD11
AD12
AD13
AE13
AD14
AE14
AA10
AA11
AA12
10-1-15
QFU1.2E LA
4
Fusion power supply
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 74
B04A, Control
Control
B04A
B04A
+3V3
SDA-BE
7GM1 RES
PCA9540BGD
VDD
2
1
+3V3
100K
100K
SDA-BL
SCL-BL
3GM1
3GM2
3GM3
100K
3GM4
100K
6
SDA-BE
3CY3-3
RES 9GM1
SDA-DISP
SCL-DISP
SCL-BE
5
RES 9GM2
SCL-DISP
SDA-DISP
EJT-TRSTN
5
6
1
8
3CY3-2
47R
3CY3-1
47R
4
BM03B-SRSS-TBT
7
EJT-TDO
SDA-BE
8
EJT-TCK
RES 9GM3
SDA-BL
SCL-BE
RES 9GM4
SCL-BL
1CV3 DBG
FCVC
SCL-BL
SDA-BL
FCVD
FCVE
5
47R
3CY4
BM06B-SRSS-TBT
DBG
1
2
3
EJT-TMS
47R
2
FCY6
7
SDA-BL
SCL-BL
RES
4K7
3CY2
4K7
3CY1-4
5
3
FCY1
FCY2
FCY3
FCY4
FCY5
7
8
SD1
SC1
RES
SDA-DISP
SCL-DISP
1CV2
3CY3-4
47R
1
2
3
4
5
6
SCL
SDA-DISP
SCL-DISP
VSS
4
DBG
4
5
SD0
SC0
SDA
4
3
4K7
4K7
4K7
3CY1-2 2
3CY1-3
6
8
3CY1-1 1
SCL-BE
1CY1
3
4K7
4K7
RES 3GM6
+3V3
RES 3GM5
+3V3
7
4
1
2
3
BM03B-SRSS-TBT
EJT-TDI
3CVF
SCL-M2
SCL-BE
FCV2
FCV1
3CVG
SDA-M2
1CV1 DBG
SCL-BE
47R
SDA-BE
SDA-BE
FCV3
5
47R
3CV2
3D-LR-FUS
FCVB
4
1
2
3
BM03B-SRSS-TBT
3D-LR
47R
1CV6
1
2
3
FCY7
FCY8
4
FCY9
TXD-STANDBY
RXD-STANDBY
BL-SPI-CS_BL-I-CTRL-FUS
5
3GD5
BL-SPI-CS_BL-I-CTRL
10R
BM03B-SRSS-TBT
BL-DIM
RESET-RF4CEn
TXD-RF4CE
47R
3GM7 RES
3
10R
7GM2 RES
PDTC114EU
3CVW
FCVH
FCVJ
10R
3CVY
FCVK
10R
9 10
SCL-FE
TXD-SERVICE
SDA-FE
RXD-SERVICE
10p
2
3CV8
BL-SPI-CLK-FUS
AMBI-SPI-CCLK
2CV8
1
RC_IRQ-RF4CEn
3D-LED_3D-RF
10R
2CV9
10p
4K7
FCVG
3CVE
RXD-RF4CE
+3V3
SCL-M3
TXD-STANDBY
SDA-M3
RXD-STANDBY
3CVD
2CVA
10p
1CV5 DBG
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1C27
FCVF
3CVC
10R
2CVB
10p
FCVN
3CV3
BL-DIM-FUS
2CVC
10p
10-1-16
QFU1.2E LA
1
2
3
4
5
6
7
8
FH52-8S-0.5SH
+3V3-STANDBY
10R
STANDBYn
TXD-RF4CE
DETECT12V
RXD-RF4CE
LCD-PWR-ONn
BL-ON
RC_IRQ-RF4CEn
3CV9
BL-SPI-SDO-FUS
10R
3CVM
GPIO0
AMBI-SPI-MOSI
1CV4 DBG
TXD-RF4CE
GPIO1
FCVL
FCVA
47R
3CVP
TXD-RF4CE
RXD-RF4CE
FCVM
RXD-RF4CE
5
47R
21 22
GPIO5
BM20B-SRDS-G-TF
GPIO6
DC02
3CYC
POWER-OK
POWER-OK
BM03B-SRSS-TBT
3CVU
+3V3
47R
10K
3CVA
3CYB
DC03
4
1
2
3
3CVN
+3V3
10K
GPIO7
IRQ-EXPANDERn
TXD-RF4CE
47R
GPIO11
GPIO15
DC06
RES
3CV4
AMBI-SPI-CCLK
RXD-RF4CE
10R
RES
GPIO16
3CV5
GPIO20
+3V3-STANDBY
3CVR
10K
3CVB RES
AMBI-SPI-MOSI
10R
3CV7
RES
10K
+3V3
10K
POWER-OK
47R
GPIO21
GPIO23
DC07
3CVS
IRQ-EXPANDERn
47R
3D-LR
IRQ-EXPANDERn
3CVT
+3V3
10K
9GM5 RES
3D-LED_3D-RF
9GM6 RES
3D-LR-DISP
4
Control
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 75
B04B, V-by-One out
V-by-One out
B04B
V1-TX2N
V1-TX2P
2GW9
100n
V1-TX3N
V1-TX3P
2GWB
100n
V1-TX4N
V1-TX4P
2GWD
100n
V1-TX5N
V1-TX5P
2GWF
100n
V1-TX6N
V1-TX6P
2GW8
100n
2GWA
100n
2GWC
100n
2GWE
100n
2GWG
100n
2GWH
100n
V1-TX7N
V1-TX7P
SAMSUNG
SCL-DISP
2GWJ
100n
2GR5
100n
2GR7
100n
2GR9
100n
2GRB
100n
2GRD
100n
2GRF
100n
2GRH
100n
SAMSUNG
BGV3
2GR4
100n
BGV4
BGV5
2GR6
100n
BGV6
BGV7
2GR8
100n
BGV8
BGV9
2GRA
100n
BGVA
BGVB
2GRC
100n
BGVC
BGVD
2GRE
100n
BGVE
BGVF
2GRG
100n
BGVG
IGR3
BGVH
2GRJ
100n
BGVK
2GWM
3GW9
2GWN
3GWA
SHARP
SDA-DISP
2GWY
3GWN
GPIO2
GPIO3
RES
2GW2
1n0
GPIO8
(CTRL-DISP3)
SPLASH-ON
BL-ON
3GWB
2GWP
FGR1
FGR2
RES
100R
3GWD
FGR3
FGR4
FGR5
FGR6
IGR4
SAMSUNG
TO DISPLAY
IGR5
IGR6
100R
SAMSUNG
RES 3GWE
100R
SHARP 3GWG
10R
100R
RES 3GWK
FGR8
FGR9
IGR7
3GWF
SAMSUNG
100R
3GWH
10R
SHARP
3GWJ RES
FGR7
3D-LED_3D-RF
3D-LR-DISP
100R
1n0
3GWC RES
GPIO2
GPIO3
SCL-DISP
SDA-DISP
GPIO8
1n0
100R
SAMSUNG
3GWP
100R
9GW2
(CTRL-DISP1)
(CTRL-DISP2)
10p
10R RES
10p RES
10R RES
51
50
49
48
47
46
45
44
43
42
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
100R
SAMSUNG
IGR8
IGR9
IGRA
2GWW
2GW7
100n
2GW6
100n
9GW1
100R
2GR3
100n
BGVN
BGV1
BGV2
3GW8
100n
2GW5
100n
V1-TX1N
V1-TX1P
2GW4
100n
9GW3-2
9GW3-3
9GW3-4
100n
100R
V1-TX0N
V1-TX0P
(CTRL-DISP3)
2GWK
3GW7
2GW3
100n
(CTRL-DISP1)
(CTRL-DISP2)
IGR2
SHARP
SHARP
V1-HTPDn
V1-LOCKn
FGWT
FGWU
FGWV
FGWW
FGWY
FGWZ
SHARP
1u0
9GW4
IGR1
SAMSUNG
BGVL
BGVM
RES 2GWV
100n
FGU2
FGU3
FGU4
FGU5
100R
100R
2GWU
FGU0
FGU1
3GW4
3GW5
2GWT
10p
FGVU
FGVV
FGVW
FGVY
100R
60 61
58 59
56 57
54 55
52 53
IGR0
9GW0
3GW3
RES
2GWS
10p
FGVS
FGVT
SAMSUNG
+3V3
FGU7
FGVZ
FGW0
FGVE
FGU9
FGUF
FGWA
FGU6
FGWE
FGWB
FGWC
FGWD
FGWF
FGWG
FGWH
FGWJ
FGWK
FGWL
FGWM
FGWN
FGWP
FGWQ
FGWR
FGWS
BGVJ
2GWR
100p
FGVL
FGVM
FGVN
FGVP
FGVQ
FGVR
1K0 RES
9GW5
10K
FGVF
FGVG
FGVH
FGVJ
FGVK
100R RES
3GW1
3GW2
10K
FGVC
FGVD
IGV7
IGV5
IGW1
IGW2
IGW3
IGW4
IGW5
IGW6
IGU8
IGW7
IGW8
IGW9
1G55
20519-051E
+VDISP
2GWL
RES
FGV5
FGV0
FGV6
FGV7
FGV8
FGV9
FGVA
FGVB
BL-DIM
GPIO8
3D-LR
100p
(CTRL-DISP3)
3GW6
B04B
3GWM
10-1-17
QFU1.2E LA
3GWL
100R
4
V-by-One out
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 76
B04C, Output Vdisp
Output Vdisp
B04C
1 9GS1-1
RES
2 9GS1-2
RES
3 9GS1-3
RES
4 9GS1-4
RES
1 9GS2-1
RES
2 9GS2-2
RES
3 9GS2-3
RES
4 9GS2-4
RES
8
7
6
FGS1
5
5
2GS5
3GS4
IGS2
47K
IGS1
3GS5
4K7
27K
7GS3-1
PUMD12
1
3GS6
6
2
100n
RES
2GS2
100n
IGS5
LCD-PWR-ONn
22u
3GS1
7GS3-2
PUMD12
3
IGS4
+VDISP
3
4
2GS3 RES
FGS2
6
5
2
1
2GS1
7GS2
SI3443CDV
4
T 4.0A 32V
22n
5
RES
+12V
+3V3
7
6
47R
4
1GS1
8
8
7
6
5
3
2
7GS1 1
SI4835DDY-GE3
RES
4K7
B04C
3GS3
10-1-18
QFU1.2E LA
DBG
6GS1
DBG
LTST-C190KGKT
4
Output Vdisp
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 77
B04D, Tuner CVBS debug
Tuner CVBS debug
B04D
470R
3FW4 RES
IFW5
RES
33p
IFW3 5FW3 RES
3FW8 RES
75R
DFW1
1u8
2FW5
150R
RES
150R
RES 3FW7
IFW4
3
2FW3
270p
7FW1-1
BC847BPN(COL)
RES
3FW5 RES
1
2
IFW2
RES
47u
3K3
CVBS-OUT1
2FW4
5
4
7FW1-2
BC847BPN(COL)
RES
RES 2FW6
IFW1
6
100p
10K
3FW3
RES
+12V
3FW6
B04D
RES
10-1-19
QFU1.2E LA
DFW2
4
Tuner CVBS debug
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 78
B04E, Audio - video
Audio - video
B04E
2VW1
CVBS1
150R
150R
SC1-CVBS
100n
2VW3
3VWN
3VWP
CVBS
100n
2VW2
3VWM
150R
CVBS3
Y-G1
100n
2VW4
3VWR
150R
PB-B1
100n
2VW5
3VWS
150R
PR-R1
100n
2VW6
Y1-IN
150R
PB1-IN
150R
150R
150R
100n
2VWA
3VWB
SC1-B
150R
PB-B3
PR-R3
100n
3VWD
150R
3VWW
SC1-BLK
3VW3
YPBPR-RIN
Y-G3
100n
2VWB
3VWC
SC1-R
PR-R2
100n
2VW9
3VWV
SC1-G
PB-B2
100n
2VW8
3VWU
PR1-IN
Y-G2
100n
2VW7
3VWT
10K
IVW1
FB1
2VWC
8K2
33K
3VW4
3VW5
YPBPR-LIN
IVW2
2VWD
8K2
33K
IVW3
2VWE
8K2
33K
IVW4
2VWF
8K2
DVW2
SPDIFIN
DVW3
SCKIN
DVW4
33K
DVW1
WSI2SIN
AL-4
1u0
3VWA
SDI2SIN
AR-4
1u0
3VW8
3VW9
SC-LIN
AL-1
1u0
3VW6
3VW7
SC-RIN
AR-1
1u0
3VWF
4K7
DVW6
4K7
DVW5
AUD-L
3VWG
AUD-R
+3V3
RES
AUDIO-MUTEn
VGA-LIN
3VWH
2VWJ
IVW7
8K2
3VWK
33K
RES 3VWJ
VGA-RIN
AL-3
1u0
IVW8
2VWK
8K2
AR-3
1u0
33K
B04E
3VWL
10-1-20
QFU1.2E LA
4
Audio - video
2012-11-22
3104 313 6612
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�Circuit Diagrams and PWB Layouts
10.
EN 79
B04F, Fusion supply
Fusion supply
B04F
3
7UB1
TPS7A7001DDA
10u
2UB0
+1V5
IN
6
7
FB
3UB3
3UB4
22K 1%
220K 1%
3UB8
47K 1%
3UB7
RES 3UB6
3UB5
100K 1%
1K0
100p
3UBF
IUB4
FUB1
SENSE+1V2-MIPS
CORE VOLTAGE SUPPLY MIPS FUSION
1M0
10K 1%
3UBA
RES
3UB9
+1V2-MIPS
12K
1%
DVS2
IUB5
FUB0
RES
27K 1%
IUB3 2UB3
10u
9
8
GND
NC
10
11 VIA
GND_HS
OUT
1
4
5
100n
2UB6
Φ
EN
2UB4
2
5UB0
IUB6
+12Va
+1V5
2
4
SS
SW
EN
VREG5
5
9
GND_HS GND
VIA
6
2UBD
22u
2UBB
1 3UBE-1 8
10R
100n
2
3
22u
RES
IUB8
7
22u
2UBA
2UBC
VBST
1n0
10n
2UBH
1
VFB
3UBE-2
IUBC
3
3UBE-3
2UBJ
2UBK
1n0
7
10R
IUBA
1n0
6
10R
1u0
IUBB
2UBF
IUB9
22K 1%
2UBE RES
Φ
STEP DOWN
10
11
3UBB
470K RES
2UBG
FUB2
5UB1
8
VIN
22p
IUB7
2u0
7UB5
TPS54527DDA
+1V5
100n
2UB7
10u
10u
2UB9
2UB8
30R
22K 1%
3UBD
B04F
3UBC
10-1-21
QFU1.2E LA
4
3UBE-4
5
10R
GND-1V5
GND-1V5
GND-1V5
GND-1V5
CUB0
DDR3 SUPPLY FUSION
GND-1V5
ENABLE+1V5+1V1
4
Fusion supply
2012-11-22
3104 313 6612
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�Circuit Diagrams and PWB Layouts
10.
EN 80
B04G, Backlight microcontroller
B04G
Backlight microcontroller
B04G
+3V3
3GE1
4K7
4K7
100n
100n
2GE2
1u0
RES
2GE0
+3V3
3GE0
+3V3
2GE1
1GE0
FGE0
TXD-LPC
+3V3
RXD-LPC
RES
4
1
2 DBG
3
BM03B-SRSS-TBT
1K0
100n
RES
100R
FGE2
5
3GE2
3GEK
FGE1
+3V3
2GE3
RESET-FUSION-OUTn
LPC-RESETn
LPC-LED3
9GE2
AMBI-SPI-CCLK
AMBI-SPI-OUT-CCLK
100n
1
2
DBG
6GE3
330R
LTST-C190KGKT
3GEF DBG
+3V3
330R
3GEE DBG
DBG
330R
3GEC DBG
DBG
LTST-C190KGKT
AMBI-SPI-CCLK-OUT
6GE2
cGE1
+3V3
+3V3
6GE1
+3V3
BL-DIM7
2GE5
+3V3
LTST-C190KGKT
BL-DIM5
BL-DIM6
BL-DIM8
3D-LR-DISP
330R
10R
DBG
FGE5
LPC-LED4
AMBI-SPI-OUT-CCLK
3GEA
RES
3
4
3
4
DBG
1GE2
SKHUBHE010
3D-LR
LPC-LED1
LPC-LED2
DBG
3GEN
RES 100K
RES 100K
1u0
3GEM
10K
2GE6
3GEL
AMBI-SPI-CCLK
AMBI-SPI-MOSI
3D-LED_3D-RF
9GE1
RES
LTST-C190KGKT
BL-DIM
RXD-LPC
TXD-LPC
BL-SPI-CS_BL-I-CTRL
9GE0
RES
36
37
43
48
18
21
PIO3_0|DTR_|CT16B0_MAT0|TXD
PIO1_0|R|AD1|CT32B1_CAP0
PIO3_1|DSR_|CT16B0_MAT1|RXD
PIO1_1|R|AD2|CT32B1_MAT0
PIO3_2|DCD_|CT16B0_MAT2|SCK1
PIO1_2|R|AD3|CT32B1_MAT1
PIO3_3|RI_|CT16B0_CAP0
PIO1_3|SWDIO|AD4|CT32B1_MAT2
PIO3_4|CT16B0_CAP1|RXD
PIO1_4|AD5|CT32B1_MAT3|WAKEUP
PIO3_5|CT16B1_CAP1|TXD
PIO1_5|RTS_|CT32B0_CAP0
PIO1_6|RXD|CT32B0_MAT0
PIO1_7|TXD|CT32B0_MAT1
PIO1_8|CT16B1_CAP0
PIO1_9|CT16B1_MAT0|MOSI1
PIO1_10|AD6|CT16B1_MAT1|MISO1
PIO1_11|AD7|CT32B1_CAP1
VSS
100R
DBG
3GEB DBG
33
34
35
39
40
45
46
47
9
17
30
42
BL-DIM2
BL-DIM3
BL-DIM4
LPC-SWDIO
2
13
26
38
19
20
1
11
12
24
25
31
PIO2_0|DTR_|SSEL1
PIO2_1|DSR_|SCK1
PIO2_2|DCD_|MISO1
PIO2_3|RI_|MOSI1
PIO2_4|CT16B1_MAT1|SSEL1
PIO2_5|CT32B0_MAT0
PIO2_6|CT32B0_MAT1
PIO2_7|CT32B0_MAT2|RXD
PIO2_8|CT32B0_MAT3|TXD
PIO2_9|CT32B0_CAP0
PIO2_10
PIO2_11|SCK0|CT32B0_CAP1
100R
3GE5
6GE0
RES
3GE9 10R
AMBI-SPI-OUT-MOSI
LPC-SWCLK
BL-DIM1
10R
PIO0_0|RESET_
PIO0_1|CLKOUT|CT32B0_MAT2
PIO0_2|SSEL0|CT16B0_CAP0
PIO0_3
PIO0_4|SCL
PIO0_5|SDA
PIO0_6|SCK0
PIO0_7|CTS_
PIO0_8|MISO0|CT16B0_MAT0
PIO0_9|MOSI0|CT16B0_MAT
PIO0_10|SWCLK|SCK0|CT16B0_MAT2
PIO0_11|R|AD0|CT32B0_MAT3
FGE4
1GE1
SKHUBHE010
3GE8
LPC-ISPn
DBG
3GE4
1
2
10R
XTALOUT
FGE3
LPC-RESETn
100n
3GE7
3
4
10
14
15
16
22
23
27
28
29
32
VDD
XTALIN
2GE4
7
LPC-ISPn
SCL-SSB
SDA-SSB
6
5
41
IGE1
RES
3GE6
3GE3 100R
8
44
7GE0
LPC1114FBD48/301
+3V3
1K0
LPC-LED1
LPC-LED2
cGE2
AMBI-SPI-MOSI-OUT
LPC-LED3
9GE3
AMBI-SPI-MOSI
AMBI-SPI-OUT-MOSI
LPC-LED4
9GE4
BL-DIM
BL-DIM1
+3V3
ROW_1
1GE3-1
RES
3GEJ
1K0
1
3
5 DEBUG
7
9
ROW_2
1GE3-2
10K
+3V3
3GEG
10-1-22
QFU1.2E LA
2
4
DEBUG 6
8
10
FGE6
FGE7
FGE8
3GEH
RES
LPC-SWDIO
LPC-SWCLK
AMBI-SPI-OUT-MOSI
100R
LPC-RESETn
FTSH-105-01-L-DV
FTSH-105-01-L-DV
4
Backlight microcontroller
2012-11-22
3104 313 6612
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130227
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 81
B04H, eMMC
eMMC
B04H
100n
100n
2EJ6
2EJ5
+3V3
100n
100n
2EJ4
100n
2EJ3
100n
2EJ2
2EJ1
+3V3
SDIO2-CMD
FEJ2 M5
SDIO2-CLK
SDIO2-CLK
FEJ1 M6
33R
3EJ5
GPIO15
SDIO2-CMD
+3V3
33R
GPIO16
2
3EJ6-2
7
SDIO2-D0
3EJ0
FEJ0 K5
10K
SDIO2-RESETn
VDDI
C2
VCCQ
CMD
CLK
GPIO18
1
RST
VDDI
6
8
SDIO2-D1
VSS
G5
E7
K8
H10
33R
3EJ6-1
100n
3EJ6-3
2EJ7
3
VCC
0
1
2
3
DATA
4
5
6
7
VSSQ
MAIN
33R
GPIO17
+3V3
E6
F5
K9
J10
C6
M4
N4
P3
P5
7EJ0-1
H26M21001ECR
A3
A4
A5
B2
B3
B4
B5
B6
FEJ3
FEJ4
FEJ5
FEJ6
FEJ7
FEJ8
FEJ9
FEJA
SDIO2-D0
SDIO2-D1
SDIO2-D2
SDIO2-D3
SDIO2-D4
SDIO2-D5
SDIO2-D6
SDIO2-D7
SDIO2-D0
2 3EJ2-2 7
SDIO2-D1
3
47K
SDIO2-D2
6
4
3EJ2-4
5
47K
SDIO2-D3
FEJB
SDIO2-D3
3EJ2-3
47K
1
C4
N2
N5
P4
P6
3EJ4
GPIO14
4K7
+3V3
SDIO2-D4
33R
2
3EJ2-1
47K
3EJ3-2
8
7
47K
SDIO2-D5
1 3EJ3-1 8
SDIO2-D6
4 3EJ3-4 5
33R
47K
4 3EJ7-4 5
SDIO2-D7
3 3EJ3-3 6
4 3EJ6-4 5
GPIO20
1 3EJ7-1 8
GPIO21
SDIO2-D2
33R
SDIO2-CLK
SDIO2-CMD
47K
+3V3
SDIO2-D5
3
3EJ7-3
7EJ0-2
H26M21001ECR
6
GPIO23
SDIO2-RESETn
33R
GPIO24
2
3EJ7-2
SDIO2-D3
SDIO2-D6
SDIO2-D7
+3V3
7
47K
NC
SDIO2-D7
33R
3EJ8
+3V3
SDIO2-D6
33R
GPIO22
+3V3
M3
M7
M8
M9
M10
M11
M12
M13
M14
N1
N3
N6
N7
N8
N9
N10
N11
N12
N13
N14
P1
P2
P7
P8
P9
P10
P11
P12
P13
P14
GPIO19
SDIO2-D4
33R
+3V3
VDDI
SDIO2-D4
SDIO2-D5
A1
A2
A6
A7
A8
A9
A10
A11
A12
A13
A14
B1
B7
B8
B9
B10
B11
B12
B13
B14
C1
C3
C5
C7
C8
C9
C10
C11
C12
C13
C14
NC
NC
NC
H1
H2
H3
H5
H12
H13
H14
J1
J2
J3
J5
J12
J13
J14
K1
K2
K3
K6
K7
K10
K12
K13
K14
L1
L2
L3
L12
L13
L14
M1
M2
+3V3
SDIO2-RESETn
NC
D1
D2
D3
D4
D12
D13
D14
E1
E2
E3
E5
E8
E9
E10
E12
E13
E14
F1
F2
F3
F10
F12
F13
F14
G1
G2
G3
G10
G12
G13
G14
B04H
3EJ1
10-1-23
QFU1.2E LA
SDIO2-D4
SDIO2-D5
+3V3
4
eMMC
2012-11-22
3104 313 6612
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 82
B05A, Class-D amplifier
Class-D amplifier
3D60
A-STBY
+3V3D
+12V-AUDIO
10K
+12V-AUDIO
3
1
30R
220n
5D51
220n
2D65
2D64
10u
10u
2D59
10u
2D58
10u
2D57
10u
2D66
30R
2D63
220n
5D50
220n
2D62
10u
2D61
10u
2D92
2
10u
2D60
7D70
PDTC144EU
2D97
2D49
2D48
10K
3D82
100u 16V
2D5C
1u0
2D67 1u0
100n
2D93 RES
100n
2D69
STEST
VIA
10K
3D83
10n
10n
2D78
2D99
220n
220n
2D71
5D81
330p
10u
10n
2D70
2D98
10n
2041145-3
1D51
1D50
1D52
SPEAKER-R-
30R
10n
ID99
2D87
SPEAKER-R+
2D95
5D79
1
2
3
ID57
2
3
4
FD70
ID96
ID98
5D80
10n
10n
2D73
ID53
1D02
1
2041145-4
5D01
10u
22K
30R
3D73
3D71
FD33
FD32
330p
5D76
3D70 RES
18K2 1%
Left+
LeftRight+
Right-
SPEAKER-R-
30R
5D77
30R
GND_HS
49
47
48
37
38
17
PGND
AB
CD
18R
2D94
1D01
FD30
FD31
SPEAKER-LSPEAKER-R+
CD00
28
A
9
GND
29
30
AGND
VSS
D DO
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
3D74
ID52
ID83
ID84
SPEAKER-L-
2D81
SSTIMER
7
16
10u
33n
33n
36
5D74
1D56
OC_ADJ
OSC_RES
PBTL
33
2D85
ID94
30R
ID51
2D82
1D55
BST_D
2n2
26
ID62
ID63
ID70
6
39
42
1D54
2D54
FD69
30R
5D75
1D53
8
5D71
10n
ID97
9D51
33n
SPEAKER-L+
2D76
4n7
BST_C
VR_ANA
PLL_FLTP
PLL_FLTM
OUT_D
ID69
2D80
46
220n
2D55
47n
33n
100n
1
SPEAKER-L+
30R
ID93
470R
2D52
470R
2D53
ID82
ID91
2D79
43
5D00
ID88
10u
2D83
3D52
ID81
5D70
220n
12
11
10
4
ID50
100n
2D89
ID66
2D77
30R
OUT_B
RESET
PDN
ID80
5D83
BST_B
3D77
25
19
100u 16V
34
35
BST_A
A_SEL
31
2D56
40
41
OUT_A
ID79
18R
44
45
SDA
SCL
10u
2D74
18
330p
2
3
VR_DIG
2D75
14
2D5D
9D50
RES
5
32
13
AUDIO
AMPLIFIER
18R
ID90
4n7
3D51
47n
AUDIO-MUTE
+3V3
30R
2D72
OUT_C
2D51
ID61
23
24
3D76 RES
15K
2D50
ID65
A-STBY
5D85
+3V3D
D
3D75
ID56
D-RESET
7D50-2
PUMH2
ID58
C
PVDD
18R
10K
3D50
ID89
47K
3D54
+3V3D
SDI2SOUT3
B
3D72
3D55
47R
47R
10K
9D55
3D56
BM04B-SRSS-TBT
A
OUT
GVDD
VREG
RES
7D50-1
PUMH2
LRCLK
SCLK
MCLK
SDIN
FD50
6
D-RESET
AVDD DVDD
20
21
15
22
330p
5
FD64
FD66
7D60
TAS5711PHP
2D88
+3V3D
SCKI2SOUT
WSI2SOUT
RES 9D53
9D54
TAS5731P1
ID76 ID75
ID77
3D57
27
+3V3D
1R0
FD67
FD63
FD65
WSI2SOUT
I2SCLK
SCKI2SOUT
SDI2SOUT1
ID78
1R0
9D52
SDI2SOUT1
SDA-SSB
SCL-SSB
DETECT12V
10u
2D68
2D86
10K
3D79
2D5B
10R
1
2
3
4
3D58
+3V3D
DBG
1D03
RES 3D63
ID87
16V 100u
SPEAKER-R-
2
+3V3-STANDBY
ID55
SPEAKER-L7D71 RES
PDTC144EU
100u 16V
1
ID54
10n
2D91
3
3D78
AUDIO-MUTE
10K
AUDIO-MUTEn
2D5A
10R
3D62
+3V3D
100u 16V
100u 16V
10K
3D61
220n
RESET-FUSION-OUTn
B05A
10u
2D84
B05A
10u
2D96
10-1-24
QFU1.2E LA
1X02
REF EMC HOLE
4
Class-D amplifier
2012-11-22
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div. table
�Circuit Diagrams and PWB Layouts
10.
EN 83
B05B, Analogue externals
Analogue externals
B05B
FVA9
1VAG
6n8
2VA9
6VA8
100p
2VA8
1K0
CDS4C12GTA
12V
3VA7
SC-RIN
RES
FVAA
6n8
SCART
1VAH
6VA9
100p
2VAA
1K0
2VAB
RES
3VA8
SC-LIN
CDS4C12GTA
12V
B05B
49045-0011
25
26
FVA1
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
FVAB
IVA0
1VAJ
75R
3VAG
CDS4C12GTA
12V
FVAC
1VAK
CDS4C12GTA
12V
RES
100p
6VAC
2VAE
1K5
1u0
3VAA
12K
2VAD
PDZ2.4B(COL)
FVA2
3VA9
SC1-STATUS
6VAB
RES
6VAA
100p
2VAC
SC1-B
+3V3
FVA4
1VAL
75R
3VAB
CDS4C12GTA
12V
RES
6VAD
100p
1R0
FD90
1
SPDIFO
1VAM
75R
3VAC
CDS4C12GTA
12V
RES
6VAE
100R
1VAN
CDS4C12GTA
12V
RES
6VAG
100p
FVAE
75R
2VAH
6VAF
100p
3VAD
SC1-BLK
3VAE
IVA1
PDZ2.4B(COL)
2VAG
CDS4C12GTA
12V
FVAF
SC1-DETECTn
1VAP
150R
3VAF
CDS4C12GTA
12V
RES
6VAH
100p
2VAJ
SC1-CVBS
FVAG
3VAK
100p
47R
2VAK
RES 6D0A
V_NOM
100p
1D0A
1VA1
FVAD
SC1-R
3
RES 2D0B
GND
MT
5 4
ID95
100n
VIN
2VAF
1J50
3150-831-030-H1
2
VCC
3D90
SC1-G
2D0A
10-1-25
QFU1.2E LA
4
Analogue externals
2012-11-22
3104 313 6612
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 84
B05C, Sensor board and AmbiLight
Sensor board and AmbiLight
B05C
FAA0
FH52-11S-0.5SH
FH52-25S-0.5SH
13 12
27 26
FH52-40S-0.5SH
FAA1
42 41
3CAF
SDA-SRF
10R
FAA2
3CAE
IAA0
3CAG
FAA3
0R3
+T
SCL-SRF
3CAD
KEYBOARD_IRQ-SRFn
10R
FAA5
3CAB
3CAA
3AAA
FAA6
FAA7
FAA8
LED2-OUT
3D-LED_3D-RF
AMBI-TEMP
100R
100R
100R
3AAB
3AAC
AMBI-SPI-CCLK-OUT
1u0
10p
470p
2CAD
470p
2AAV
10p
10p
2AAC
2CAA
2CAB
100p
100p
2CAR
100p
1u0
100p
47R
2CAP
2CAS
AMBI-SPI-MOSI-OUT
47R
+3V3-STANDBY
2CAN
AMBI-POWER
IAA1 1u0
SDA-MC
2AAW
FAA9
GND-AL
9CAA
9CAB
+3V3-STANDBY
LED2-OUT
3CAC
GND-AL
3CAH
10K
RC_IRQ-RF4CEn
10R
FAA4
GND-AL
LED2-OUT
10R
+5V
AMBI-POWER
+3V3AL
AMBI-POWER
2CAT
2CAU
100n
RES
10u
GND-AL
2CAL
RES
3AAD
100n
+3V3
FAAZ
+3V3AL
10u
2AAE
GND-AL
1C26
10u
+T 0R3
2AAD
1C25
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
2CAJ
1C20
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
2CAM
11
10
9
8
7
6
5
4
3
2
1
1u0
B05C
2CAK
10-1-26
QFU1.2E LA
GND-AL
4
Sensor board and AmbiLight
2012-11-22
3104 313 6612
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div. table
�Circuit Diagrams and PWB Layouts
10.
EN 85
B06A, HDMI
HDMI
FHB2
DRX-HOTPLUG
3HA4
2HA1
DDRXCDDRXC+
19
20
DDRX0DDRX0+
21
22
FHAR
FHAS
DDRX1DDRX1+
23
24
1 3HAB-1 8
BIN-5V
BRX-HOTPLUG
DDRX2DDRX2+
25
26
47K
BRX-DDC-SCL
BRX-DDC-SDA
21 20
23 22
45
46
43
44
DRX-DDC-SDA
DRX-DDC-SCL
4
BRX0BRXC+
FHBA
47K
BIN-5V
5
10R
BRX1BRX0+
100K
DIN-5V
1u0
3HA1-4
BRX2BRX1+
100n
100n
2HAP
100n
2HAN
10u
2HAM
100n
2HAG
10u
2
37
38
SBVCC33
N
R0X2
P
TX2
DSDA1
DSCL1
N
P
TX1
(CBUS) HPD1
R1PWR5V
N
P
TX0
N
R1X0
P
N
R1X1
P
N
P
TXC
N
R1XC
P
N
P
TPWR_CI2CA
57
56
10u
HDMIF-RX2HDMIF-RX2+
59
58
HDMIF-RX1HDMIF-RX1+
61
60
HDMIF-RX0HDMIF-RX0+
63
62
HDMIF-RXCHDMIF-RXC+
3HB0
4K7
55
MICOM-VCC33
3HB1 RES
FHA4
4K7
N
R1X2
P
CEC_A
50
3HAS
(CBUS) HPD2
R2PWR5V
INT
52
3HAY
4K7
FHA3
CSCL
CSDA
N
R2X0
P
54
53
3HAV
3HAW
47R
47R
SCL-SSB
SDA-SSB
+1V5
RSVDL
N
R2X1
P
R4PWR5V
10R
DSDA2
DSCL2
N
R2XC
P
pin (49)
FHA6
+5V
+3V3
RES
+5V
+3V3
2HAB
10
28
7HA1-1
RT9025-12GSP
N
R2X2
P
1u0
VDD
3
(CBUS) HPD3
R3PWR5V
DSDA3
DSCL3
N
R3XC
P
VIA
N
R3X0
P
N
R3X1
P
N
R3X2
P
2
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
VIN
FHB5
6
VOUT
EN
ADJ
7
1
PGOOD
+1V2-FE
5
NC
GND
GND HS
22
23
24
25
26
17
18
CRX2CRX2+
N
R0X1
P
7HA1-2
RT9025-12GSP
VIA
18
19
20
21
VIA
VIA
10
11
12
13
VIA
14
15
16
17
15
16
10K
51
100K
13
14
3HBQ
10u
3
11
12
CRX1CRX1+
100K
CRXCCRXC+
BRX2+
BRXCPCEC-HDMI
HARC0
BRX-DDC-SCL
BRX-DDC-SDA
39
40
CRX0CRX0+
2HA2
CRX-DDC-SDA
CRX-DDC-SCL
47K
CIN-5V
CRX-HOTPLUG
21 20
23 22
41
42
FHB9
10K
1u0
6
10R
FHAN
FHAP
CRX-DDC-SCL
CRX-DDC-SDA
CRX-HOTPLUG
3HA3
R4PWR5V
3HBP
3HAR
FHB1
7
8
CEC_D
48
47
2HAA
CIN-5V
1u0
3HA1-3
47K
CRXCPCEC-HDMI
HARC1
CRX-DDC-SCL
CRX-DDC-SDA
3 3HAA-3 6
CRX0CRXC+
5
6
BRX2BRX2+
CIN-5V
N
R0X0
P
49
2HAD
BRX1BRX1+
CRX1CRX0+
7 3HAB-2 2
FHAG
3
4
DSCL4
DSDA4
4
CRX2CRX1+
1H02
HDMI CONNECTOR 2
1
2
BRX0BRX0+
2
BRXCBRXC+
CIN-5V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
33
34
BRX-DDC-SDA
BRX-DDC-SCL
CRX2+
5 3HAA-4 4
FHAF
35
36
R4PWR5V
N
R0XC
P
SBVCC33
RES
9
2HA4
7
10R
1H03
HDMI CONNECTOR 3
FHB8
DSDA0
DSCL0
IHB1
8
3HA2
DIN-5V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
71
72
(CBUS) HPD0
R0PWR5V
FHA7
30R
10u
1
FHB0
100K
BIN-5V
69
70
BRX-HOTPLUG
1u0
3HA1-2
21 20
23 22
67
68
ARX2ARX2+
47K
7 3HAA-2 2
DIN-5V
DRX-HOTPLUG
65
66
ARX1ARX1+
FHAL
FHAM
DRX-DDC-SCL
DRX-DDC-SDA
29
30
ARXCARXC+
100K
ARX-DDC-SDA
ARX-DDC-SCL
DIN-5V
DDRXCPCEC-HDMI
HARC2
DRX-DDC-SCL
DRX-DDC-SDA
31
32
ARX0ARX0+
DDRX1DDRX0+
DDRX0DDRXC+
FHB7
pin (38)
RES
5HA6
RES
2HA9
2HA5
10R
MICOM_VCC33
ARX-HOTPLUG
3HA0
FHAY
1u0
3HA1-1
8
AIN-5V
DDRX2DDRX1+
47K
FHAE
DDRX2+
1 3HAA-1 8
HDMI CONNECTOR 4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
9
27
64
VCC33
1H04
2HAJ
1
VOUT
2HAL
EN
EN
VCC33
3
FLG
100n
RES 2HAK
4
VIN
2HAF
30R
3HA5 RES
PDZ2.4B(COL)
5HA9
5
GND
7HA0
SII9287B
FHA8
30R
RES
IHB0
1u0
2HB5
FHBC
pins (9,27,64)
5HA5
+3V3
7HA5
RT9715EGB
10K
I2C ADDRESS
SII9287B=OXB2
1u0
3HAP
2HB4
SBVCC33
VCC33
MICOM-VCC33
3K3
6HA1
FHB4
B06A
+3V3
+5V
2K2
B06A
3HA6
10-1-27
QFU1.2E LA
73
EPAD
BIN-5V
1H01
ARX1ARX0+
AIN-5V
RES
+3V3-STANDBY
IHB3
IHB4
IHB5
3HB3
PCEC-HDMI
FHB6
9HA0
1M0
BC847BW
7HA3
AIN-5V
HDMI-CEC
100R
IHB6
27K
9HA1
RES
3HBS
PCEC-QHDMI
3HAL
21 20
23 22
FHAV
FHAW
ARX-DDC-SCL
ARX-DDC-SDA
3HB2
22K
7HA2
BC847BW
RES
AIN-5V
ARX-HOTPLUG
IHB2
47K
ARXCPCEC-HDMI
HARC4
ARX-DDC-SCL
ARX-DDC-SDA
3 3HAB-3 6
ARX0ARXC+
47K
FHAH
1V2 DVB-T2 and DVB-S2
ARX2ARX1+
5 3HAB-4 4
HDMI CONNECTOR 1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
ARX2+
3HB4
+3V3-STANDBY
22K
1X01
REF EMC HOLE
1X07
EMC HOLE
1X08
EMC HOLE
1X09
EMC HOLE
1X14
REF EMC HOLE
4
HDMI
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�Circuit Diagrams and PWB Layouts
10.
EN 86
B06B, HDMI-ARC
HDMI-ARC
B06B
IHD1
IHDF
HARC1
HARC2
FHD4
FHD5
FHD6
30R
5HD2
IHDH
ARC2
IHDM
ARC3
IHDK
ARC4
RES
9HD2
ARC4
100R
ARC1
5HD0
30R
5HD1
ARC0
IHDG
9HD4
3HD4
HARC0
ARC0
ARC1
ARC2
30R
IHD8
9HD5
5HD4
FHD8
3HD9
+5V-ARC
10p
5HD5
FHD3
+5V
100n
1u0
16
7HD0
74HC4051PW
2HDD
2HD6
30R
IHD7
9HD6
10
FHD2
9
9HD0
6
8X
0
0
7
1
2
2
G8
3
4
3
5
6
7
VEE
15
FHD7
12
9HD9
1
5
2
4
GND
8
IHD4
9HD8
3HDS
IHDL
3HDT
HDMI-ARC
RES
HDMI-ARC
14
100R
ARC-SEL2
MDX
0
3HDE
FHD1
100R
ARC-SEL1
13
3HDU
11
100R
FHD0
100R
VCC
ARC-SEL0
7
2HD5
10p
100R
ARC4
30R
10p
2HD3
HARC4
10p
2HD1
B06B
2HD0
10-1-28
QFU1.2E LA
4
HDMI-ARC
2012-11-22
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�Circuit Diagrams and PWB Layouts
10-1-29
QFU1.2E LA
10.
EN 87
B06C, USB external
B06C
USB external
B06C
+3V3
3EA7
+5V
+T 0R3
3EA8-1
+5V-PORTA
3EA8-2
100K
100n
100n
2EA7
100n
2EA6
2EA4
100n
2EA5
USB-PORTA-OC
100n
2EA3
100K
FEAD
3EA8-3
100K
2EA0
18p
USB-PORTB-DM
USB-PORTB-DP
USB-PORTB-OC
3
4
25
USB-PORTA-DM
USB-PORTA-DP
USB-PORTA-OC
6
7
24
USB-PORTC-DM
USB-PORTC-DP
USB-PORTC-OC
12
13
20
15
16
19
3EA1
+3V3
10K
28
17
22
23
8
RESET-FUSION-OUTn
IEA1
3EA3
3EA4
10K
IEA2
680R
100K
+3V3
100n
XOUT
21
VCC_D
DD+
DD1DD1+
OVR1
1
2
IEA3 USB2-DM
IEA4 USB2-DP
3EAC
+5V
+T 0R3
DD2DD2+
OVR2
SDA
3EAD-1
26
+5V-PORTB
100K
USB-PORTB-OC
DD3DD3+
OVR3
TEST|SCL
FEAE
3EAD-2
100K
18
3EAD-3
100K
DD4DD4+
OVR4
VREG
RESET
SELFPWR
GANG
RREF
3EAD-4
VIA1
VIA2
VIA3
VIA4
30
31
32
33
IEE0
USB1-RREF
1
3EE2-1
12K
2
IEE1
USB2-RREF
3
3EE2-2
100K
1%
8
1%
7
3EAG
12K
1%
3EE2-3
6
+5V
+T 0R3
12K
1%
4 3EE2-4 5
3EA5
2EA2
+3V3
XIN
5
VCC_A_1
9
VCC_A_2
14
VCC_A_3
11
GND_HS
10
2EA1
100K
29
7EA0
CY7C65632-28LTXCT
VCC
12M
1EA0
18p
27
3EA8-4
12K
3EAH-1
+5V-PORTC
100K
USB-PORTC-OC
FEAH
3EAH-2
100K
3EAH-3
100K
3EAH-4
100K
6
5401
USB-PORTB-DM
USB-PORTB-DP
FEA4
1E02
FEAA +5V-PORTB
FEAB
5
100n
100n
5
FEA9
1
2
3
4
6
5401
1
2
3
4
USB-PORTC-DM
USB-PORTC-DP
FEAC
FEA8
+5V-PORTC
FEA5
FEA6
1E03
5
2EAA
100n
1E01
2EAB
FEA3
2EA9
USB-PORTA-DM
USB-PORTA-DP
FEA1
+5V-PORTA
FEA2
6
1
2
3
4
FEA7
5401
4
USB external
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 88
B06D, Ethernet
Ethernet
5EF5
10n
2EFT
B06D
10n
30R
RES 5EF0
+3V3-STANDBY
30R
5EF4
VDD33-PHY
FEF9
VDD33-PHY
IEF1
100n
100n
2EFH
2EF2
100n
1u0
2EF0
30R
2EF1
AVDDL-1V1
+3V3-LAN
10u
2EF3
2EFS
B06D
6
3EFS
2
7EF1-1
PUMH2
1
3
5
7EF1-2
PUMH2
100n
2EFJ
100n
10u
2EFA
2EF9
100n
2EFV
2EFZ
1u0
22u
4
5
6
IEF2
15p
RX+
RX-
7
8
100n
RES 2EFN
4
5
CDA5C16GTH
16V
RES 6EF2-4
15p
RES 2EFM
3
6
21
22
24
CDA5C16GTH
16V
EN-TXD0
EN-TXD1
LED-RES
LED-ACT
FEFE
EN-TXEN
34
35
TX+
TX-
FEFC
15p
32
FEFB
RES 6EF2-3
LED_ACT
LED_RES
LED_10_100
RX-ER
1E00
5450-327-194-H3
1
2
3
FEFA
TXP
TXN
RXP
RXN
RES 2EFL
TXD0
TXD1
FEF7
IEF3
100n
2
NC
4u7
5EF1
38
DVDDL
3
VDD33
14
TX_EN
25
EN-RXD0
EN-RXD1
2EFP
2EFU
FEF6
10K
10K
3EFT
50
51
52
53
54
55
56
57
58
RX_ER
29
28
CLK-RMII
EN-RXEN
7
VDD33-PHY
VDD33-PHY
10K
3EF4
VDDH-2V5
RXD0
RXD1
22R
CDA5C16GTH
16V
15
16
18
19
36
37
MDC
MDIO
INT
33 3EF5
30
RES 6EF2-2
FEF5
CLK_RMII
CRS_DV
15p
VDD33-PHY
1%
1K5
RES0
RES1
RES 2EFK
40
39
20
EN-MDC
RBBIAS
TXP
TXN
RXP
RXN
1
26
31
RES0
RES1
3EF3
7
9
10
12
13
8
2K37
FEF4
TRXP0
TRXN0
TRXP1
TRXN1
FEF8
27
CDA5C16GTH
16V
1%
VDDIO_REG
RST
8
1u0
2EFG
3EF2
CLK_25M
VDDH_REG
2
RES 6EF2-1
1
FEF3
RESET-ETHERNETn
23
XTLO
LX
VDDH-2V5
2EFF
FEF2
FEFD
AVDD33
1M0
4
22p
EN-MDIO
IRQ-WOLANn
5
AVDDL
XTLI
VIA
41
GND_HS
42
43
44
45
46
47
48
49
2EFC
3EFY
25M
1EF0
22p
6
11
17
30R
7EF0
AR8030-AL1A-R
FEF1
2EFB
5EF6
100n
100n
2EF8
100n
2EF7
100n
2EF6
2EF5
FEF0
RES
10-1-30
QFU1.2E LA
VIA
DEF0
4
CLK-RMII
EN-TXC
EN-RXC
VDDH-2V5
3EFH
RES0
EN-RXD0
RES1
EN-RXD1
10K
3EFJ
3EFN
10K
10K
EN-RXEN
3EFP
10K
3EFR
10K
3EFL
LED-RES
10K
3EFM
10K
LED-ACT
RX-ER
3EFU
10K
4
Ethernet
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�Circuit Diagrams and PWB Layouts
10.
EN 89
B06E, NAND flash, serial flash and EEPROM
B06E
NAND flash, serial flash and EEPROM
B06E
+3V3
DJA1
DJA2
DJA3
DJA4
DJA5
DJA6
DJA7
3JA6
DJA8
F-RDY
10K
0
1
2
3 IO
4
5
6
7
7
R
B
33R
+3V3
DJA9
F-OEn
F-CEn
NAND-ALE
NAND-CLE
F-WEn
3JA5
8
9
17
16
18
19
DJAA
DJAB
DJAC
DJAD
DNU1
DNU2
4K7
3JA0
4K7
RES
3JA1
DJAE
RE
CE
ALE
CLE
WE
WP
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
26
27
28
33
35
40
45
46
4K7
FCT2
SF-SDO
3CTH
47R
+3V3-STANDBY
8
29
30
31
32
41
42
43
44
1
2
3
4
5
6
7
8
9
10
11
NC 12
13
14
15
16
17
18
19
20
21
22
23
7CT3
M25P05-AVMN6
ICT1
3CTR
+3V3-STANDBY
3CTJ
SF-SDI
4K7
SF-CLK
SF-CS
SF-CS
SF-WP
3CTK
ICT2
3CTB
SFB-SI
270R
3CTU
3CTZ
3CT2
ICT3
SF-HOLDn
SF-HOLDn
FCT3
SFB-SI
270R
SF-WP
4K7
3CT3
3CT0
270R
SF-CLK
4K7
4K7
SF-SDI
SFB-SCK
SFB-CS
SFB-WPn
SFB-SCK
FCT5
SFB-CS
SFB-WPn
47R
3CT9
SFB-HOLDn
FCT4
SFB-HOLDn
FCT6
FCT7
47R
4K7
VCC
5
6
1
3
7
D
C
Φ
512K
FLASH
2
Q
S
W
HOLD
VSS
4
DJA0
100n
3CT1
VCC
FRA0
FRA5
FRA6
FRA7
FRA8
FRA10
FRA11
FRA12
100n
2JA2
100n
2JA1
12
34
37
39
7JA0
MT29F8G08ABACAWP:C
9JA3
9JA4
2JA0
+3V3-STANDBY
FCT8
38
47
1CTZ
13
25
36
9JA6
+3V3
48
9JA5
VSS
RESET-STANDBYn
SF-SDO
SFB-SI
SFB-CS
SFB-SCK
8
7
1
2
3
4
5
6
1734260-6
+3V3
+3V3
8
100n
Φ
(8K × 8)
EEPROM
10K
3JA4
7JA2
M24C64-WDW6
IJA0
1
2
3
2JA4
IJA1
0
1
2
WC
SCL
ADR
SDA
7
6
5
3JA2
47R
SCL-SSB
3JA3
SDA-SSB
47R
4
10-1-31
QFU1.2E LA
FJA0
4
NAND flash, serial flash
and EEPROM
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 90
B06F, Analogue externals
Analogue externals
B06F
FVC1
AUDIO VGA/DVI
1VC7
1n0
2VC9
6VC6
RES
100p
2VC8
1K0
CDS4C12GTA
12V
3VC6
VGA-LIN
5
4
3
FVC2
1VC8
1n0
2VCB
6VC7
RES
100p
2VCA
1K0
CDS4C12GTA
12V
3VC7
VGA-RIN
1VA6
2
1
MSJ-035-75C-BL-RF-PBT-BRF
FVCB
FVC3
3VC8
YPBPR-DETECTn
100p
2VCC
47R
FVC4
1VC1
150R
3VC0
CDS4C12GTA
12V
RES
6VC0
47p
2VC0
Y1-IN
YPBPR
5
4
3
FVC5
1VC2
150R
3VC1
CDS4C12GTA
12V
RES
6VC1
47p
2VC1
PB1-IN
FVCC
1VA8
2
1
MSJ-035-75C-G-RF-PBT-BRF
FVC6
1VC3
150R
3VC2
CDS4C12GTA
12V
RES
6VC2
47p
2VC2
PR1-IN
FVC7
3VC9
CVBS-DETECTn
FVC8
1VC4
1n0
2VC6
CDS4C12GTA
12V
6VC3
100p
2VC3
1K0
RES
3VC3
YPBPR-RIN
FVC9
FVCD
1VC5
1n0
2VC7
CDS4C12GTA
12V
RES
6VC4
100p
1K0
CVBS +
AUDIO CVBS / YPBPR
5
4
3
3VC4
YPBPR-LIN
100p
2VCD
47R
2VC4
1VA4
2
1
MSJ-035-75C-Y-RF-PBT-BRF
FVCA
1VC6
150R
3VC5
CDS4C12GTA
12V
6VC5
RES
CVBS1
100p
B06F
2VC5
10-1-32
QFU1.2E LA
4
Analogue externals
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 91
B06G, DC-DC
DC-DC
B06G
B06G
5UR3
IUR0
IUR2
3UR3-1
+12Vb
100n
100n
2UY5
BAV99 COL
10R
10R
3UWJ-4
+5V +5V
+22V
33R
VIN
1
1n0
3URF
1M0
3URC
22K 1%
3URB
100p
IURF
3n3
2URG
CUR5
+3V3
68K 1%
IURK
6
10
11
4
9
1n0
2URJ
COMP
VIA
3URA
5
6K8 5%
RES 2URH
FB
GND-3V3r
GND-3V3r
GND-3V3r
6
7
100R RES
3UWK-3
3UWK-2
3
2
8
100R RES
1
100R RES
3UWK-4
4
5
RES
100R
3UWL
+3V3
IUWE
ENABLE+2V5
2UWY
RES
9
100n
47K
5
NC
GND
GND HS
3UWF
220K 1%
IUWF
3UWC
1% 470K
3UWD
2UWW
22K
22
23
24
25
26
8
EN
GND_HS GND
22u
ADJ
7
+2V5
7
PGOOD
100n
2UWU
EN
100n
3
GND-3V3r
FUW3
6
VOUT
2UWV
2
ENABLE+2V5
7UW2-2
RT9025-12GSP
1n0
VIA
18
19
20
21
VIA
VIA
10
11
12
13
+2V5
+2V5-F
VIA
470R
470R
3UWH-4
RES
470R
3UWH-2
3UWH-3
RES
RES
470R
3UWH-1
RES
470R
470R
3UWG-4
RES
470R
3UWG-3
RES
470R
3UWG-2
RES
3UWG-1
14
15
16
17
+3V3
RES
2UWT
VIN
2URE
+2V5
4
VDD
3
+3V3
SW
GND-3V3r
3UWK-1
1u0
SS
GND-3V3r
RES 2UWS
2UWR
7UW2-1
RT9025-12GSP
GND-3V3r
330R
6UW1
PDZ5.1B(COL)
RES 6UW0
FUW2
8
1
IURE
10n
ENABLE+3V3
LTST-C190CKT
3UWB DBG
DBG
1R0
3UWM
4K7 RES
4K7 RES
3UWA-4
4K7 RES
3UWA-3
4K7 RES
3UWA-2
3UWA-1
+3V3
IURC
BOOT
IURD
FURA
+3V3
3u6
Φ
STEP DOWN
2URF
5UR6
2
7UR6
RT7297CHZSP
IURB
22u
3URG-4
22u
2URD
3URG-3
1n0
2URC
RES
2URL
1n0
100n
2URB
22u
2URA
33R
RES
33R
RES
33R
RES
3URG-2
RES
2URK
30R
RES
3URG-1
RES
IURn
IURA
B230LA-M3
220K 1%
22K 1%
3UR7
3UR6
100p
5UR5
+5V
10
11
12
13
FUW4
120K 1%
2UY8
+12Vb
+12Vb
VIA
14
15
16
17
1M0
3UR5
6
VIA
VIA
RES 6UW3
2
3
9
8
1n0
VIA
18
19
20
21
3UR4
GND
GND HS
2UR2
IURM
100n
2UY3
FB
2UY2
100n
100n
IUR4
EN
2UY1
2UR1
22u
SW
IUR3
4
22u
2UY7
VCC
BOOT
10R
100n
7
VIN
5
DETECT12V
IURL
10R
33R
3UWJ-3
3UR3-4
2UY6
1
4u7
3UWJ-1
IUR9
7URA-2
RT8288AZSP
FUR1
+5V
33R
2UR3
7URA-1
RT8288AZSP
5UR2
IUR8
3UR3-3
3UWJ-2
1n0
22u
33R
2UR4
1n0
22u
2UR9
2UR0
22
23
24
25
26
3UR3-2
2UR8
10u
2UR5
10u
2UR7
2UR6
33R
30R
6UW2
+12Vb
1u0
30R
5UR1
10u
10-1-33
QFU1.2E LA
4
DC-DC
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 92
B06H, DC-DC
DC-DC
VDD
3UU1
8
IUU3
5
NC
GND
GND HS
82K 1%
1
1n0
ADJ
PGOOD
2UUA
EN
+1V1-DVBT2
9
1R0
1u0
+5V
7
22K
2
IUU7
2UU1
2UU0
3UU2
IUU2
6
VOUT
22u
VIN
2UU5
3
+1V5
B06H
7UU1-1
RT9025-12GSP
3UU7 RES
4
B06H
10u
IUU8
3UU6
FUU1
SENSE+1V1-DVBT2
VIA
18
19
20
21
VIA
VIA
220K 1%
3UU4
*
3UU5
7UU1-2
RT9025-12GSP
680K
82K 1%
22
23
24
25
26
10
11
12
13
14
15
16
17
VIA
7UV0
NX1117C12Z
3
+3V3
IN
2
4
OUT
FUV1
+1V2-FA
2UV7
22u 16V
1
2UV6
COM
100n
Optional
7UV2
RT9030-11GU5
4
10u
10u
2UVC
NC
+1V1-FA
OUT
EN
ADJ
FUV2
5
4
GND
+1V1-FA
100R
(*) 3UU5
IN
3UV6 RES
1
3
+1V1-DVBT2
EN
5
GND
10u
10u
+3V3
3
VOUT
2
2UV9
2UVB
IUV1
7UV1
RT9187GB
VIN
2UVD
1
+3V3
2
3UV1
120K 1%
RES
IUV3
1.20 V
68K 1%
1.10 V
3UV5
10-1-34
QFU1.2E LA
3UV2
33K 1%
680 kΩ
4
DC-DC
2012-11-22
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�Circuit Diagrams and PWB Layouts
10.
EN 93
B06I, CI conditional access
CI conditional access
B06I
+3V3
CA-CD1n
CA-CD2n
CA-VS1n
CA-WAITn
3PA1
+5VCA
10K
3PAD
3PAE
10K
10K
3PAF
10K
+3V3
2PA2
100n
CA-RST
3PAM
100K
19
3PA3
CA-MOVAL
CA-MOSTRT
CA-MDO0
CA-MDO1
CA-MDO2
8
3PA8-1
100R 1
3PA8-2
100R 2
7
3PA8-3
100R 3
6
5
3PA8-4
100R 4
VCC
3EN2
3EN1
G3
3PAL
+3V3
1
2
3
4
5
6
7
8
9
100R
CA-RDY
20
7PA1
74LVC245ABQ
1
B06I
3PAC
+3V3
+T 0R3
18
17
16
15
14
13
12
11
2
MOVAL
MOSTRT
MDO0
MDO1
MDO2
MOVAL
MOSTRT
MDO0
MDO1
MDO2
10K
CA-CE1n
CA-IORDn
3PA6
3PAA-1
1
CE2n
REGn
33R
+3V3
3PAP
10K
10K
8 3PAA-2
2
CA-IOWRn
10K
7
3PAA-3
3
10K
6
3PAA-4
4
CE2n
10K
5
REGn
RES
9PAA
CA-CE2n
RES
9PAB
CA-OEn
CA-WEn
RES 3PAS
10K
RES 3PAU
10K
CA-REGn
3PAN
10K
3PAR RES
10K
3PAT RES
10K
3PAV RES
10K
21
10
GND GND_HS
CA-WP
3PAW RES
10K
CA-INPACKn
3PAY RES
10K
+3V3
2PA3
19
3PA2
CA-MOCLK
100R
3PA9-1
8
100R
3PA9-2
7
3PA9-3
100R 6
2 100R
3PA9-4 5
100R
3PA4
3
1
+3V3
1
2
3
4
5
6
7
8
9
100R
4
1P00
VCC
3EN2
3EN1
G3
2
18
17
16
15
14
13
12
11
MOCLK
MDO7
MDO6
MDO5
MDO4
MDO3
MOCLK
MDO7
MDO6
MDO5
MDO4
MDO3
3PA5
10K
3PA7
10K
3PAB-3
3
10K
10K
7
6
GND GND_HS
3PAB-1
1
10K
8
3PAB-4
4
3PAB-2
2
21
CA-MDO7
CA-MDO6
CA-MDO5
CA-MDO4
CA-MDO3
100n
20
7PA2
74LVC245ABQ
1
10
2PA1
+5V
22u 16V
10-1-35
QFU1.2E LA
10K
5
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-CE1n
CA-A10
CA-OEn
CA-A11
CA-A09
CA-A08
CA-A13
CA-A14
CA-WEn
CA-RDY
+5VCA
MDI0
1 3PW2-1 8
CA-MIVAL
CA-MICLK
CA-A12
CA-A07
CA-A06
CA-A05
CA-A04
CA-A03
CA-A02
CA-A01
CA-A00
CA-D00
CA-D01
CA-D02
CA-WP
CA-MDI0
33R
3PW3
MDI1
CA-CD1n
MDO3
MDO4
MDO5
MDO6
MDO7
CE2n
CA-VS1n
CA-IORDn
CA-IOWRn
CA-MISTRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI1
33R
3PW4
MDI2
CA-MDI2
33R
MDI3
1
3PW1-1
8
CA-MDI3
5
CA-MDI4
33R
MDI4
4
3PW2-4
33R
3PW1-2
MDI5
2
7
CA-MDI5
MDI6
3 3PW2-3 6
CA-MDI6
MDI7
2 3PW2-2 7
33R
+5VCA
33R
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
MOCLK
CA-RST
CA-WAITn
CA-INPACKn
REGn
MOVAL
MOSTRT
MDO0
MDO1
MDO2
CA-CD2n
CA-MDI7
33R
3PW5
MICLK
CA-MICLK
33R
MIVAL
4
MISTRT
3
3PW1-4
5
CA-MIVAL
6
CA-MISTRT
33R
3PW1-3
33R
71 69
72 70
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
55
56
57
58
59
60
61
62
63
64
65
66
67
68
92789-055LF
4
CI conditional access
2012-11-22
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�Circuit Diagrams and PWB Layouts
10-1-36
QFU1.2E LA
10.
EN 94
B06J, FE
B06J
FE
B06J
+3V3
3KW1
560R
3KW3
TS-CHDEC-DATA
TS-CHDEC-CLK
TS-CHDEC-DATA
TS-CHDEC-CLK
TS-CHDEC-VALID
TS-CHDEC-VALID
3KW6
470R
560R
3KW7
470R
3KW4
470R
560R
3KW5
3KW2
TS-CHDEC-SOP
TS-CHDEC-SOP
3KW8
470R
560R
RES 2FS3
10p
2FS1
4u7
5FS2
100n
SOC-IF-N
5FS1
100n
2FS2
SOC-IF-P
4u7
IF-IN-P
IF-IN-N
2FS4 RES
10p
+3V3
3RW1
TS-DVBS-DATA
TS-DVBS-DATA
3RW2
560R
470R
3RW3
3RW4
TS-DVBS-CLK
TS-DVBS-CLK
560R
3RW5
560R
3RW7
560R
470R
TS-DVBS-VALID
TS-DVBS-SOP
TS-DVBS-VALID
TS-DVBS-SOP
3RW6
470R
3RW8
470R
4
FE
2012-11-22
3104 313 6612
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�Circuit Diagrams and PWB Layouts
10.
EN 95
B06K, HDMI
HDMI
B06K
RES
3HW6
390R
3HW1
FHW0
+5V
IHW3
HEAC
56R
1%
680R
RES
3HW2
HDMI-ARC
IHW1
3HW3
PWR5V
10n
27K
2HW1
10K
3HW4
3HW5
+3V3
12K
IHW2
RREF
1%
100n
B06K
2HW2
10-1-37
QFU1.2E LA
4
HDMI
2012-11-22
3104 313 6612
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�Circuit Diagrams and PWB Layouts
10.
EN 96
B06L, Control, temperature sensor and service
Control, temperature sensor and service
+3V3
7CW0
PCA9540BGD
B06L
VDD
3CW0
+3V3
3CW1
SDA-M3
SDA-M3
2
SCL-M3
SCL-M3
1
SD0
SC0
SDA
4K7
SCL
4K7
SD1
SC1
1CW4
SDA-SSB
SCL-SSB
3CWV
7
8
SDA-SRF
SCL-SRF
SDA-SRF
SCL-SRF
3CWY
+3V3
3CWW
4K7
4K7
VSS
SCL-M3
2K2
2K2
SDA-M3
FCWU
4
SDA-SSB
SCL-SSB
6
FCWT
FCWV
1
2
3
3CWU
4
5
5
3CWJ
SCL-M1
BM03B-SRSS-TBT
SCL-FE
3CR6
SCL-FE
+3V3
47R
SDA-M1
2K2
3CWF
3CR7
SDA-FE
SDA-FE
BM03B-SRSS-TBT
1CW7
+3V3
47R
SCL-SRF
SDA-SRF
2K2
FCWB
FCWC
FCW4
5
1CWG
1CW6
+3V3-STANDBY
FCW3
SCL-SSB
DCW5 FCWR
DCW6 FCWS
6
1
2
3
FCW2
TEST-MOD
TEST-CON
F-OEn
FCW1
SDA-SSB
5
4
1
2
3
+3V3-STANDBY
BM03B-SRSS-TBT
7
4K7
1
2
3
4
5
4
BM05B-SRSS-TBT
3CU3
EJTAG-MCU-TDO
47R
3CU4
47R
3CWB
STB-GP4
3CU5
STB-GP1
22K
DVS2
3CWD
STB-GP5
STB-GP2
100n
100n
2CW3
EJTAG-MCU-TCK
8
7
1
2
3
4
5
6
47R
22K
2CW2
FCWH
47R
3CWC
FCWG
FCWE
EJTAG-MCU-TMS
1K0
DVS1
1CW5
BM06B-SRSS-TBT
FCWD
FCWF
EJTAG-MCU-TMS
EJTAG-MCU-TDO
EJTAG-MCU-TCK
EJTAG-MCU-TDI
EJTAG-MCU-TDI
3CWS
STB-GP0
3CWT
1K0
LED
3CWR
B06L
3
10-1-38
QFU1.2E LA
3CU2
STB-GP3
3CR8
ENABLE-WOLAN
ENABLE-WOLAN
+3V3-STANDBY
47R
10K
3CWK
HP-DETECT
3EW0
IRQ-WOLANn
IRQ-WOLANn
+3V3-STANDBY
47R
10K
3CWG
STB-GP6
SPLASH-ON
47R
3CUA
STB-GP7
+3V3
RESET-ETHERNETn
100R
3CWM
STB-GP8
RESET-RF4CEn
3CU0
10K
RESET-RF4CEn
47R
FCW0 DCW4
3CWP
STB-GP10
+3V3-STANDBY
SDM
LCD-PWR-ONn
47R
10K
10K
3CS1
3CS0
DCW1
3CWN
STB-GP9
3CWE
SDMn
SDMn
+3V3-STANDBY
10K
AMBI-TEMP-FUS
10R
6CS0
1CS1
1CS0
3
3CS4-3
3CS3
6
47R
TXD-SERVICE
47R
47R
3CU1
AVLINK1
DETECT12V
10K
47R
1
47R
+3V3-STANDBY
RXD-SERVICE
10K
3CS4-1
3CS2
7
3CRA
8
3CS4-2
3CR9
47R
2
1
MSJ-035-75C-B-RF-PBT-BRF
2
4
6CS1
3CS4-4
PDZ5.1B(COL)
5
1u0
FCS1
FCS0
PDZ5.1B(COL)
5
4
3
2AW0
FCS2
1E06
AMBI-TEMP
100n
3AW0
2CW1
47R
47R
3CU6
STB-TXD
TXD-STANDBY
TXD-STANDBY
47R
RXD-STANDBY
3CU7
STB-RXD
RXD-STANDBY
47R
FCW8
STB-SCL
3CU9
STB-SDA
SDA-MC
47R
+3V3
3CUC
STB-RSTO
+3V3
47R
KYBRD
100n
+3V3-STANDBY
KEYBOARD_IRQ-SRFn
100n
2CW5
DCW2
1CT7
SKHUBHE010
IRQ-EXPANDERn
1
2
3
3
4
3TW0
SDA-SSB
SCL-SSB
DBG
3TW1
47R
47R
1
2
OS
17
100n
9TW0
RES
9TW1
RES
9TW2
2TW0
1n0
8
100R
+VS
FCW7
ARC-SEL0
ARC-SEL1
ARC-SEL2
3CR1
VSS GND_HS
6
100n
10K
3CR2 100R
3CR0
100R
7TW0
LM75BGD
A0
SDA
A1
SCL
A2
7
6
5
9TW5
RES
VIA
RESET-STANDBYn
9TW4
VIA
11
22
23
24
25
GND
9TW3
INT
18
19
20
21
FCT9
GND
SCL
SDA
+3V3-STANDBY
10K
+3V3
4
12
47R 13
47R
SC1-DETECTn
YPBPR-DETECTn
CVBS-DETECTn
3CW2
RC_IRQ-RF4CEn
1
3CUW
2
RESET
2
3
4
5
7
FCW5
8
9 FCW6
10
10K
IO0
IO1
IO2
IO3
IO4
IO5
IO6
IO7
RC_IRQ-RF4CEn
10R
VCC
3CR3
A0
A1
A2
3CW5
IR
10K
2CW4
10K
3CUS
10K
3CUP
7CT4
NCP803
2CT4
14
3CUR
RES 3CUN
10K
3CTY
VDD
3CUY
LGSEN
3
2CW6
10K
10K
3CUV
RES 3CUU
10K
3CUT
7CW1
PCA9554BS
15
16
1
SCL-SSB
SDA-SSB
STANDBYn
3CW3
10R
10K
10K
RES 3CUM
10K
3CUL
RES 3CUK
+3V3
RESET-FUSION-OUTn
3CTD 47R
PWRON
4
Control, temperature sensor
and service
2012-11-22
3104 313 6612
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�Circuit Diagrams and PWB Layouts
10-1-39
QFU1.2E LA
10.
EN 97
B06M, Strap options
B06M
Strap options
B06M
+3V3-STANDBY
10K
SPI-EN
SPI-EN
ICW1
3CUE RES
3CUD
ICA1
3CL0
+3V3-STANDBY
CA-IOWRn
CA-IOWRn
10K
3CL1 RES
10K
ICA2
3CL2
+3V3-STANDBY
10K
CA-WEn
CA-WEn
10K
3CL3 RES
10K
ICA3
CA-OEn
3CL4
10K
ICA4
3CL5
+3V3-STANDBY
CA-IORDn
CA-IORDn
10K
3CL7
+3V3-STANDBY
3CL6 RES
10K
RES
ICA5
CA-A14
CA-A14
3CL8
10K
10K
ICA6
NAND-CLE
3CP5
10K
3CP8
+3V3-STANDBY
RES
F-OEn
F-OEn
FCP6
10K
+3V3-STANDBY
3CT6
10K
3CT7 RES
+3V3-STANDBY
+3V3-STANDBY
10K
3CT8
3CP6
10K
TEST-CON
TEST-CON
TEST-MOD
RES
TEST-MOD
ENABLE-STANDBY
ENABLE-STANDBY
10K
3CTA
10K
3CTC
RES
10K
3CTF
10K
4
Strap options
2012-11-22
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div. table
�Circuit Diagrams and PWB Layouts
10.
EN 98
B06N, Headphone
Headphone
B06N
1
3DH3-1
8
68R
IDHM
22n
FDH2
22n
2DH9
CDS4C12GTA
12V
2DH8
6DH2
RES
6
CDS4C12GTA
12V
1DH3
3
3DH3-3
6DH1
68R
4V 100u
RES
4 3DH3-4 5
1DH2
IDHL
8
2DH7
1K0
IDHP
2
1DH4
3
1
MSJ-035-12D-B-AG-PBT-BRF
68R
4V 100u
HPHOR
FDH1
2 3DH3-2 7
1
2DH6
5
IDHN
1K0
3DH4-1
HPHOL
3DH4-4
B06N
4
10-1-40
QFU1.2E LA
FDH3
68R
4
Headphone
2012-11-22
3104 313 6612
19370_166_130227.eps
130227
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 99
Layout top
3UA8
3UAB
3UAC
2UAD
2EHY
9EHE
6UAF
2EHR
2UPH
5UC2
7UC2
1T71 1C31 1C30
3EM8
2UA9
7UF8
2UF7
7EHJ
3EHS
3EHR 9EM3
2EHV
2UPK
2UCK
2UCW
2UCJ
2UCY
5UC0
7UC3
6UC2
1CV5
3CY1
7EH4
5EH0
9GM6
9GM5
3EJ8
2VW3
3VWP
1CY1
3VWR 2VW4
2VWJ
2PA1
1P00
3CT1
3CTH
2UVC
2UVD
3CTF
6UW0
3UWL
2UF6
2UAT
2UAA
2UAM
2UAB
3GEM
3UAW
9GE1
3GE9
3GEL
3GEN
9GE2
2GE2
3GE0
3GE1
1GE0
2EJ1
3EJ2
3EJ3
3CY3
3CVT
3VWN
2VW2
3VWD
3VWS
7UV2
7UV0
3CP6 3CP8
2URC
3UR6
2UR0
3UR3
2UR1
5UR2
2UR4
3UR7
2UR2
3UR4
3UR5
2UR3
7URA
2UR6
2UR5
2UR7
5UR1
5UR3
2URB
2URA
6UW3
2URJ
3URF
3URB
3URC
2URH
2URG
3URA
5UR6
2DH6
2DH8
2DH9
1DH2
6DH2 3DH3 6DH1
1E03
1DH3
3CWT
1CW5
3CWS
3EAH
3EAG
2EAA
3EAD
2EAB
2URE
1CW6
3CWW
1VA6
3CWY
1CT7
1CW7
3VC6 2VC8
7UR6
2UV7
3CUE 3CUD
2VC9
6VC6
1CW4
3VC7
2URF
DCW4
2DH7
3CWE 2CW1
2VC5
1E02
3UC9
2UV6
3CW0
1VA4
1VC6
6VC5
2UPG
6UC0
3VWH
7CT3
3CT2
3CWK
3CW1
1VC8
3EM9
2CV8
2CV9
2CVB
3GEJ
2GRH
2GRJ
2GRB
2GRC
2GWD
2GWE
2GRD
2GRE
2GWF
2GWG
2GRG 2GRF
2GWH
2GWJ
2GR7
2GR8
2GW9
2GWA 2GR9
2GRA
2GWB
2GWC
2GR3
2GR5
2GW7
2GR6
2GW8
2GW3
2GW5
2GR4
2GW6
3GW7
2VWK
3CTK
3CT3
3EW0
2UPC
5UC1
2FZ3
2FZ5
3VWL
2FZ6
3FZ0
3VWK
2J42
5J05
5FS1 5FS2
2FS4
6VC7
2VCB
7UP2
2UPJ
3VW9
3UV6
3CT0
3CTR
3CTJ
3CUA
2VC4
3VC4
2UPL
2UWS
2VCA
2VC7
6VC4
2UPE
2UPD
2UPF
6UP6
2VWE3VW8
1CWG
3UWB
2UWU
5UP5
1UA0
2UWY
1VC7
1VC4
3EAC
3EA8
3VW4
2UPM
3VW7
1DH4
1H04
3VW6
1UA1
1UP1
5UP6
3CTZ
6UW1
1VC5
2VC6
2VC0 2VCD
3CY4
7UC4
7UA2
9EH8
2UCC
2UCA
2UCB
3CW2
3UWM
3UWA
2UWV
2UWR
3UWK
3UWD 2UWW
3UWF 3UWC
7UW2
2UWT
2EFA
3EF5
6VC0
6VC3
2VC1 3VC1
1VC1
3VC2
2VW5
3CY2
3CT8
7EA0
1E01
2EJ2 3EJ0
2UAV
3VWA
2VWF
3CTU
3CTD
3EE2
2J41
2FS3
3J50
3J09
2FS1
2FS2
1J00
3CR6
9HA1
3EA7
2EA9
2EJ6
3EJ4
3EJ5
3EJ1
2EJ5
2EJ3
2EHU
3VWJ
3KW6
3KW8
3KW2
3KW4
3RW2
3RW6
3RW8
3UU7
7UU1
2UU1
3UU2
3VW5
3VW3
3CR3
3CUN
3CUP
3CUS
3CUK
3CUR
9TW0
9TW1
9TW2
2TW0
3CUT
3CVR
3CVN
3CVF
3CVG
2VW8
2J10 2J11
3VC5
2VC2
3VWM
3VWV
2VWD
3VC0 3VC9
1VA8
3CYB 3CVS 3CV4
3J2U
3VWW
2VWB
2VWC
3CR7
3UG9
3GD5
3CV9
3CV8
DB71
5EF1
2EF9
3EF2
2EFZ
2HAB
3CS1
3CS0
1CS1
3CUW
7TW03TW1
3TW0
9TW4
9TW3
9TW5
1VC2
1CV6
DB11
3CUU
9HD9 3HDU
5HD5
2GW4
DB26
2J31
DB12
2J3H
2VC3
6VC2
3CUL
7EJ0
2EJ7
7J00
3VC3
3CUV
7HD0
2HDD
2J25
DB79
3JA6
6VC1
1E06
7CW1
2EJ4
9UA1
2UF8
2EHS
2UA1
1GE2 1GE1
3CS3
1VC3
6GE1
6GE0
2GE1
2J1G
3CV2
3EFU
6CS1 6CS0 3CS4
3HA1
2HA43HA2
3CUY
2CW6
3CUM
9GE0
3GW3
DB41
3CS2
1CS0
3GE7
2UCL
DB57
DB43
DB42
2VW1
3EFP
2VCC 3VC8
3HA3
2HA13HA4
1H02
2HA5
1H03
3EF3
2EFJ
3EFH
3HA0
2J1E 2J1M 2J14 2J1P 2J20 2J1V
DB90
7J01
2J1J
DB17
3HAR
2HA2
2HD6
2EFH
7EF0
2HA9
3HBQ
3GM4
3GM3
2J7S
2J21
3GE8
9GW4
DB40
DB56
DB66
DB76
2UU0
3UU1 3UU5
2UUA 3UU4
6EF2
7HA1
3EFY
7HA0
9GM2
2GWV
9GM1
2GW2
3GWN
3GWP
2J1N 2J82 2J1H 2J1B 2J1R 2J7T
2UB7
7UB1
7J02
DB48
DBA5
3CTA
2EFB 2EFC
3HBP
3GM2
3GM1
3GM6
3GM5
3GWD 3GWE
3VWG
3VWF
BGVK
2GWW
3GWC
9GW2
BGVH
BGVF
BGVG
BGV5
BGV6
2GWY
BGV2
3GW1
BGV1
BGV3
BGV4
DB53
3HW4
3HAV
7GE0
2J24
3J3V
3J3Y 3J43
3J42
3J3R
3J10
DBA2
1EF0
3HAW
3GEH 3GEG
DB49
3J55
3J54
3J53
2EFL 2EFK
2EFN 2EFM
DB32
3J2Z
2J59
1FA0
2FA0
7UAC 5UAA
2J3J
2J3F
3UU6
1H01
3J20 3J2R
3J21 3J2Q
3J2E
3J2F
DB31
3CV5
3UWG 3UWH
1E00
2UBF
2UBD
2UB9
2UB8
5D51
DB00
3RW4
3KC1
3KC7
3FA4
5FA1
DB61
2J3K
2KC5
2KC3
5KC9
2KCH
2KCJ
2KCP
2KCK
3FA3
2FA5
3J13
3J1B
3J1A
DB93
DB50
7EM1
2UA0
1UA2
6GE2
DB34
DB52
DB09
3FA1 5FA7
6GE3
1GE3
DB25
7J03
DB03
3KC2
2KC2 2KC4
9GE3
3J1W
3J1Z
2GE6
DB10
5KC55KC6
3KC0
2J27
2J92
DB22
3KC3
3KC6
3FA2 5FA6
2J08
3GEA
2J3D 2J30 2J29 2J2T 2J2V 2J2Z
2J39
3KC8
5FA4
5FA5
3J24
3J25
3J1R
3J1Y
2J95
5J0R
2J35
2KC0 2KC6
7KC0
2KC1
2KC7
3KC9
1CV3
2J26
5KC7
2KCS
5KC8
2KCD
3CVC
2J13
3J48
3J49
3CVE
2CVA
BGV8
2UB6
DB21
3RD8
3KCA
5KC0
1CV4
3GWG
1M90
3CVW
2CVC
2UB0
7J04
DB19
3KCB
9KC0 2KCE
1CV2
2J2W 2J33 2J2U 2J2D 2J2J 2J37
2KCG
9KC1 2KCF
1F00
3J3U
3J36 3J3S
3J37 3J3T
3J3C
3J3D
3J3H
3J47
3J46
3J3G
3GWH
2UBA
7UB5
3J44 3J4E
3J45 3J4F
3J3A
3J3B
2GWU
3CVD
3J1H
3KCE
2KCR
1KC0
3KC4
2KCB
3RD5
3RD4
9RD3
5KC1
BGV7
BGVC
1CV1
3CVY
3J3L
3RD7
3RDA
BGVB
3J1G
3J3M
2RDP
DRD0
5KA1 3KA0
5KA0 3KA1
BGVN
7D50
3RD1
2GWN
BGVE
2GWR
2UB4
1D03
2RDC
3RD0
9RD12RDG
9RD02RDF
2RBL
BGVA
3D54
7RDA
2RDJ
7RD0
2RD9
2KCC
9RB7
2RDE
2RBP
3RB12RBN
2RD8
2RBS
2RBR
2RD7
3RDB
6RB0
2RBK
2RB4
2RB2
3GW5
5UB1
2D63
2D65
7D70
2D59
2D58
2D57
BGVD
3GWA
BGVL
5D71
2D55
7D71
3D63
2D95
3D56
3D55
9D53
9D52
2D72
2D74
3D71
9D54
3D77
3D76
2D86
2D83
3D72
3D62
2D67
2D77
2D89
3D50 3D60 3D61
2RDA
2RK02RK1
2RBA
2RBB 2RB9
2RBW
9GW3
5D77
2D78
5D00
2AAD
5D74
2D94
2D61
2D69
3D57
2RDR
DRD1
3RD3
2RBC
7RB0
2RB3
2RBT
2D53
3D52 2D52
1RD0
2RB5
9RB0
2RBJ
9RB8 2RBY
2RBG
5RB0
2RBH
7D60
9D51
2RB7
2RBD
2RB1
2D85
2D54
5D01
3J40
3J41
9RB6
9RB9
1RB0
2RBM
2D88
3D70
2D68
BGVM
1C27
2GWT
BGV9
BGVJ
5D79
2D66
2D79
2D51
6GS1 3GS5
3RB0
2RBE2RBU 3RB3 2RBV
2RB6
2RB8
2RBF
2D5A
2D97
2D96
2D84
9D50
3D78
2D93
3D79
2VA8
3D51
2VAA
3D58
2VAC
2D62 2D64
2D75
3D73
2D5B 2D60
2D49
1VAG
3VAA
3D75
2D50
2VAF
5D76
2D80 2D82
3D74
2D92
6VAB
2VAG
1VAL
1VAK
1VAJ
1VAH
1VA1
1VAM
5D50
3VAD
2D87
9GW0
2D56
6VAF
1VAP
1VAN
2GWK
2D70
3GW4
9D55
2D48
2VAK 3VAK
2D73
5D83 5D80
2D71
3D83
2RDD
1J50
3D82
1G55
2D98
2D99
2D81
2D91
5D70
2D5C
2D76
2D5D
6D0A
3D90
2CAL
9CAB
2D0B
2D0A
5D85
9CAA 2CAS
2CAU
2AAC
2CAT
3CAB
2CAK
3AAB
2CAN
3CAG
2CAJ
1D0A
3CAH
3CAF
2CAB
1D02
1D56 1D55 1D54 1D53 1D51 1D50 1D52
2UBC
1D01
1C20 1C251C26
1R01
10-1-41
QFU1.2E LA
2URD
2UR8
2UR9
4
SSB layout bottom
2012-11-22
3104 313 6612
19370_167_130228.eps
130228
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 100
3CAA
IGRA
3GWL
FGWK
IGR2
IGW7
FGUF
FGR5
3GWB
FD33 ID99
IGR1
FD69 ID57
IGW6
FGR7
IGW5
FD31
ID96
DFW2
5FW3
2FW3
3FW4
3J14
2J1A
DB01
2J1W
DB65
2J1L
DB58
DB59
5TA1
IUB9
2UBJ
3UBE
IUB7
IUB6
5UB0
IUB3
3UB4
2UB3
3UB5
3UB6
ID69
ID66
ID58
ID56
ID65
ID54
FD50
ID90
ID87
FUB0
FD64 ID79
FD66
ID84
ID78
FD65
3J2G
DB99
ID89
FD63
3J2H
FD67
3J2N
3J2P
2J93 5J0P
DC07
3J34
3J35
3J4D
2J01 3J4L
2J2G
3J4M
3J4C
2J80
IJ0R
DB73
3J4A 3J4J
3J4B 3J4K
3J4G
3J4H
3J3W
2J1C
2J1K
FUC0
ID83
FVA2
3J2M
2J12
3J17
3J16
2VA9
FVA1
3J4N
DB97
FVA9
3VA7
IUB4
FUB1
3J3F 3J38
3J3E 3J39
3J3J 3J3P
3J3K 3J3N
3J4P 3J3Z
DB92
3VA8 2VAB
ID76
ID70
ID80
ID97
3J32
3J33
2J1S
DB63
2J1Q
2J85
3J11
2J16
2J86
DB98
2J84
DB95
DB44
2J1Z
FGE5
FTA6
DBA6
2J17
3J12
DB45
FJ08
3CV3
FCVB
DB54
2J18
3J15
3GM7
3CVP 3CVM
7GM2
3CVU
3CV7
IGE1
3UAL
FTA4
2UBK
2UBG
DB38
DB36
DB35
3VAG
FVAA
ID75
ID61
ID77
3UB7
FGE0
FVAC
3VA9 2VAE
2VAD
ID81
ID55
3J2K
3J2J
3J2L
3UB8
DB55
3VAB
IVA0
IUB8
IUB5
2J19
DB62
FVA4
ID53
2UBH
3UB9
2J1D
DBA3
3VAC
FVAD
FVAB
3UBA
2J15DBA7
FJ09
DB64
DB39
DB91
3GE3
FTA5
2J83 2J7P
DBA4
FGE2
FGE1
3VAE 2VAH
FVAE
ID63
3UB3 3UBF
9GE4
2GE3
3GEK
6VAH
6VAG
6VAE
6VAD
6VAC
6VAA
6VA9
6VA8
3VAF
FVAF2VAJ
IVA1
3UBC
3J28
3J29
DB51
DB94
2GE5 3GE4
FGE4
3GEB
DB33
FGE8
3J1F
3J1E
3J2A
3J2B
3J2D
3J2C
3J1U
3J26
3J1V
3J27
FVAG
ID50
ID82
ID62
IUBC
3UBD
IUBA
2J7U
FGE3
DBA1
2GE4
3GE5
FUAH
IUA3
3UBB
IJ0S
3J1L
FCVN
7UAA
2GE0
3UAT
ID95
ID93
2UBB
IUBB
2UBE
3J18
3J19
3J1K
3J1J
3J1M
3GE2
ID98
FD32
ID51
3J1S 3J1C
3J1T 3J1D
3J22 3J1N
3J23 3J1P
DBA8
3GE6
FGVE
ID52
3J2S
3J2T
2J1F 2J1U 2J81
3UA6
2UAL
3UAP 3UAN
FUB2
FGE7
FUAP
FD90
IGW2
IFW3
FGE6
2UAN
IAA0
FGV0
3FW8 2FW5
IFW5
2J89
IFW2
3GEE
3GEC
FUAF
7FW1
3FW6
FAA1
FAA8
ID88
3GEF
7UAF
2UAK
IFW4
3FW3 3FW5
IGS1
IGS2
FAA0
FAA5
IGW3
FGU6
3GS1
3GS6
FAA7
IAA1
FGR1
2FW6
2FW4
IGS52GS5
ID94
IGW1
FGR8
3AAA
IGW4
FGU9
FGR6
IGR4 2GWP
FAA3
2CAR
FAA9
IGW9
DFW1
IFW1
3FW7
7GS2 3GS3
3GS4
ID91
FD70
FAA4
FAA6
FAAZ
FGWD
IGR0
FGWE
3GWK
3AAD
FGWC
9GW5
IGW8
FGR3
IGR5
2GWM
2GWS
IGR9
3GW9
3CVA
3CVB
FGWJ
FGWA
FCVF
7GS3
2TA2
FTA3
2TA3
FGWF
FGWG
FD30
FGWM
2GWL
IGR3
3GWJ
IGV5
FGR2
FCVM
FCVG
7GS1
3CYC
2UAS
3UAR
3UGA
2UAW
IEH2
IUAV
FUAT
IUFT
IUFS
IUA2
3TA1
3UAS
IUAS
IUFU
FTA2
FTA1
2GS3
IGS4
2EHT
2TA1
FGWH
FGWL
FGWP
FGWQ
3GWM
FCV2
FJ03
IUAJ
2UAR
IEH0
IEH3
IUAT
3UA5
IUAK
3UAV
6UAB
IEH1
3EM0
1TA1
2GY2
IUAP
3UAY
IEH5
6UAC
IEHJ
6UAD
3EHP
3EHT
IEH4
2EH93EHU
2UAP
3EHV
FUAU
IUAL
IUAR
IUAN
ITA1 5TA2
3TA2
2GY1
7UAB
IEH62EHJ
3EM1
5TA3
3GY9
2UA4
3UAK
9UA0
3UA7
FUAG
3EHY
FGWS
IGR6
FGWB
FCVL
1GS1
IUFR
FEH1
3EHW
FGWR
FGWU
3GW6 3GW8 9GW1
9GM4
FUAK
FUA8
3GY7
3GY5
2GY6
3EM7
3EM6
FUAD
7UAD
FEH5
3UA9
2EHW
3EHN
7UA3
9UA2
FEH3
FUA7
FUA0
FUAE
IUAM
7EH2
2EHL
FEH2
FUA9
FUA3
2EM7
FEH4
2EHN
3GY1
9EM1
9EM2
2EM0
2EM2
2EHM
FEH9
2GY8
2GYA
FUA1
3EM4
FGWT
FGWW
FGR9
2EM3
2EM6
FGWV
FGWZ
FCV3
9GM3
FCVH
3EHJ
1EM0
FEH8
IEM1
FGVZ
7GM1
FCVE
FCVA
2EM4
3EM5
IEM2
2EHP
2GS1
9GS1 9GS2
3EM3
2EM5
2EM1
FGR4
FGW0
FCVC
3GWF
FGWN
IGV7
FGV5
FGVK
FGS22GS2
FGS1
FEH7
FGWY
FGU1
FGU3
IGR8
FCVK
FCVJ
FGU0
FGU2
FGU5
3CAE
FGU4
IGR7
2CAA
FAA2
FGV7
2CAP
FGV6
FGV9
3CAD
FGV8
2CAD
FGVB
2AAV
FGVA
FGVD
3AAC
FGVC
2AAW
FGVF
FGVG
2AAE
FGVH
FGVM
5D75
5D81
FGVL
FGVP
FGU7
FGVN
FGVR
3GW2
FGVQ
FGVT
FGVV
IGU8
FGVS
FGVU
FGVY
FGVJ
FGVW
FCVD
FCV1
FUAL
2UA2
2GY4
2UA3
FUAA
3GYA
FUA5
2UAU
FUAM
3UA4
3GY8
FUAB
2GY3
FUA6
3GYB
2UA5
3GY6
2GY5
2GY7
2GY9
FUA4
3CAC
Layout bottom
2CAM
10-1-42
QFU1.2E LA
IUA1
DBC3
FJ0B DBA9
2J5A
IRB1
DBB5
IRB0
2J2K
DB16
IKC7
2RDT
2FA8
2FAC
3FAD
FFAD
FFA7
2FA9
2FAA
3FAA
3KA2 3FA8
FFA6
IFAA
5FAA
7FAA
FFA2
FFAA
3J08
3J07 3J52
3J51
2FA2
2FA3
FFAB 3KA4 FFA5
FFA4
FFA3
3FAB
3FA7
FFAE
7FA1
3FA9
IFA5
3FAC
7KA0
IFA6
IFA4
IFA3
3KA5
5KCA
2FAB
2FA1
FJ16
5RDD
2RDL
3KW1
3RW5
3RW1
3RW3
3RW7
3KW7
3PW5
3KW3
3PW3
3KW5
3PW4
3PW2
5J0H
2J4T
2J4S
IJ0E
3KA3
FJ02
2J61
2FAH
2FAF
FFA8
IKC4
IJ10
IUU2
2UU5
IEF3
2EFP
FEFA
2HD5
DEF0
3CWD
3CU5
FCT2
IEE1
3HDS
IUU3
FEFB
3CWN
3CU4
ICT1
3CU3
3CTY
2CW4
ICT3 2AW0
3CTB
3CU0
IHDK
IUU7
9HD8
FEFC
3CWF
DCW1
IHD4
3CWJ
FEFE
FCWD
FEA4
2EFU
2HW1
3CWB
IHW1
FHW0
IEF2
FEF2
3HW3
FCWS
3CU2
2EF6
FEF0
2HAA
FEF8
5EF5
2EF5
DJAD
FVCC
FHBC
3HAB
IHB1
5HD0
7HA5
FHA7
3HA6
FVC7
IURD
5HA9
FVC5
FCW4
5HA6
5HA5
2HB4
FHAP
FVC2
2HAN
2HAF
2HAK
FHA8
2HAG
6HA1
FHB4
FHB2
FCS0
3HA5
3HAA
FHAM
3CUC
FEF5
3EF4
3HD4
IHDF
9HD4
2HAL
2HB5
2HAJ
2HD0
2HAM
3HAP
FEF6
2HAD
7EF1
3EFJ
IUWF
FVC8
FHD4
FHA3
FHA6
3EFT 3EFS
FEFD
DJA9
IURF
3HAY
2EF0
3EFM
DJAA
DJA7
9JA6
2EFG FEF7
3EFR
2JA0
3JA5
FEF9
2EF7
3HAS
2EF1
FUW3
3EFL
7JA0
9JA3
3HB0
FHA4
ICA6
DJAC
FHAG
FHBA
2HAP
2EFF
FEF4
3HB1
3JA1
DJAB
DJA3 DJA1
DJAE
9JA4
DJA6
DJA5
IDHP
2EF2
9JA5
FEF1
2EF8
FEF3
DCW6
FEA7
FHB5
5EF6
IEF1 2EF3
FUW2
2EFT
2JA2
3JA0
DJA8
FCWE
5EF0
5EF4
FCP6
IUWE
3CT6
3CWP
2EFS
ICW1
FCW8
DCW5
FCT9
2EFV 3EFN
3CWG
3CWC
3CU9
FCWR
3CP5
FCT8
7CT4
3PAA
3PA6
IEE0
5HD4
FHD8
IUU8
IEA4
DJA4
FHAH
FHB7
FHAY
IHB0
FHAV
FHB8
FHAN
IURE
FCWC
3CWU
7CW0
FCWV
FHAR
FHAW
FHB1
IUR9
FHB0
2UY8
2RD2
DBB0
2FAG
DKC0
DB81
2J5W
FJ0F
2JA1
IURK
9RD2 3RD2
FFA9
IKC6
2CW3
ICT2
2CT4
3CL4
3PAR
3PAC
3PAU
3CL6
3PAP
9PAA
3CL5
3PAS
FCT4
FCWF
2CW5
2CW2
FCT6
FCT3
3CT9
3CW5
IHW2
FCW0
IUR4
3RD9
5RDB
IRDB
IKC2
IKCA
DB08
DJA2 DJA0
ICA3
ICA4
3PAE
2UV9
2RDK
DBB8
2J2S 2J3B
2FAE
DBC4
2FA7
DB69
2J3A 2J3C2J3E
2FAD
DBC5
IKC3
3CWM
3CR8
9PAB
3CU6
3CRA
3CR9
3PAF
3PAY
3PAM
3PAL
3PA4
2PA3
3PAT
3CL1
7PA1
3PA8
3PA3
3AW0
3CU1
3CU7
2UVB FUV2
3CL0
3CL8
3CL7
3CL2
FCT5
2PA2
3CL3
3PAV
3PAN
FCT7
FUV1
3PA2
2JA4
7PA2
IUV3
3UV1
ICA1
IKC0
IKC1
DB67
FUU1
3CW3
3UV5 3UV2
ICA5
ICA2
IKCB
DKC1
2J2R
3J2V
2J2A
2J28
2J07
3J05
2J06
2J2Y
3J06
FJ05
2RDH
IKC8
DBB6
FRB0
IRD6
IRD5
DB15
DBB2
2HW2 3HW5
3PA9
2RDS
2J2C
DBB1
DB02
2J2B
2KCL
2J2P
DB14
8001
8002
7UV1
2RD0 2RD5
DB27
DB29
2J38
2J36
2J4H
2J96
2J98
2J4L
2J4F
2J4J
3J00
2J4G
5J0D
2J5N
DB68
DBB3
DB13
DB82
FFAC
FJ0J
3PAB
IRD3
IRD1
3PW1
FJ0G
5J06
DB04
3J2W
DB87
2J5M
2J5B
2J05
2J3G 2J7F
IJ0F
IRD2
2RD4 2RD3
IRD0
IKC9
DB18
2J2N
IKC5
2J5R
2J4V
FJ0H
2J5S
IRDA
DBB7
2J2M
2J62
5J0C 2J64
5RDA
2J2L 2J32
2J34
2RD6
2RD1
FKC1
2J5Z
2J7G
2J4U
2J7E
2J3W
FJ01
FRDA
DBC0
DBC2
FJ0A
2J5G
2J5L
DB20
2J2H
3J30
2J2E
3RD6
DB30
2J5F
2J5C
2J5H
2J60
2J6B
DBC6
IRDC
DBB9
DB07
DB05
DB85 DB74
DB72
5J0J
2J7C
2J70
2J7D
2J79
2J5P
2FZ4
IJ07
5J0E
2J87
2J88
IJ0N
2J7R
2J6Y
5J0M
2J3Z
2FZ1
5J0N 2J55 2J53
5J07IJ08 2J56 2J58
2J77
2J6T
2J6J 2J6N
IJ0J
2J44
DVW1
FJ10
2J6V 2J6H
2J71
2J78
DB96
IJ0L
2RDN
DB23
IEA3
3PAW
3PA1
3PA7
3PA5
IVW7
DVW4 DVW2
IVW8
2J6G 2J67
2J6D
2J47
2J5V 2J5T 2J3V 2J6E
2J43
2FZ2
DVW5
DVW6
IVW1
IJ06
IVW3
2J75
2J7A
5J08 2J63 5J04
IJ05
5J0L IJ0H
2J52 2J51 2J50
IJ0K
2J54
2J7W
2J94
2J73
2J76
2J5Y
IJ0A
2J40
DVW3
2J6W 2J99
2J97
2J45
IVW2
IVW4
2J1T
2J4E
5J00
2J3M
2J7V
2J03
2J22
5J0F
2J7K
2J6P
2J69
2J3N
5J09 2J48 2J46 IJ09
2J3Y
9J04 2J91
IJ01
2J68
2J4R
3VWU
IUAD
IJ12
2VW7
3VWB
FCY4
FCY6
2J3R
9J03 2J90
3J01
2J6C 2J6R
5J03
2J4D
5J0A
2J4B
2J3P 5J0B
5J02 5J01
2J66
IJ0C
FCY2
FUC1
2VW9
3UCC
2J49
IJ03
2J3S
IJ13
3UCD
2UCN
IJ0D
DB89
2J7H
2J6Z 2J7J
IJ02
FCY3
3UG2
IJ0B
2VWA
3VWC
IUC0
IUF6
2J3T
2J4A
2J4C
FCY1
2VW6
IUCA
DB88
2J6M
2J6F
2J6L
2J4P
2J4M
2J4N 2J7L
2J6A
2J7B
2J6U
DC02
3FZ1
2J3U
IJ04
IUCP
2J7Y
IJ0M
2J5K 2J5D
3EJ6
DC06
3UC0
2UCH
2UC1
FCY7
3UC4
3UCA
3UCB
3PAD
2J23
2J6S
2J65
2J72
FCY9
3UCE
2UCM
3UC7
3UCP
5J0G
IJ11
DB75
DB47
DB83
2J74 2J5U 2J09
FCY8
7UC0
2UCR
2J4Y
DC03
IUC5
3VWT
FHAS
FHAF
FCW1
3JA4
3UWJ
3JA2
3CWV
FVCD
FHD5
FHD2
FCW7
3CR1
FEA1
FCWU
3HBS 9HA0
FCW5
IHD8
IHB2
FCS2
IHB3
IEA2
3HDT
IHD7
IHB6
9HD6
7HA3
3HAL
FHD7
IHDL
FHD65HD2 3HDE
2HD3
IHDH
FHAL
3HW1
FEA2
3HW6
FEA3
3HW2
FEA9
3HB3
FEAA
2EA5
2EA0
IDHM
FHD3
IHW3
1EA0
IUV1
2EA1
2EA7
3EA4
FHB6
FDH1
2UY7
FEAB
7HA2
2EA4
FURA
FVCB
IHDG9HD5
FHD0
IHD1
9HD2
IHDM
FEAC
3HB4
3EA3
FEAH
IHB5
FEAD
2EA3
3HB2
3EA1
2EA2
FEA5
FDH2
IDHL
FHD1
3CR2
FEAE
3EA5
FEA6
FUW4
9HD0
FEA8
IEA1
2UY2
6UW2
3CTC
3CT7
2UY1
3CWR
IHB4
FJA0
2UY3
3HD9
FCW6
FCWG
2UY5
2UY6
FVCA
IJA0
IURM
FUR1
DCW2
FCS1
FVC3
2HD1
IURA
FVC4
5HD1
IDHN
5UR5
IURL
FVC9
FVC1
FCW2
3CR0
IURN
IUR2
FHB9
FCW3
FVC6
IUR8
IURC
FCWH
2URL
3URG
IURB
2URK
IUR0
IUR3
7JA2
FCWT
3JA3
FCWB
3DH4
3UAF IUAC
7UF7
IJ0P
3UC8
FCY5
IUFP
IUC4
3UC2
IUF3
IUCB
2J00
2J7Z
DB86
DB46
DB78
IUC1
3UCR
IUC9
3UCG
IUF0
2UCP
3UCF
IUF1
3UG0
3UCN
7UA0
IUFQ
IUF7
3UD1
3UAH
FUAV
FUAC
3UAE
IUAA
7UF9 2UF9
FUAN
3UG4
3UG3
3UD0
3UG8
2UAJ
IUPF
IUAF
IUF8
IUC6
7UC1
6UC1
IUPJ
IUAB
3UPE
IUP2
FUPA
IUC7
2UCF
3J02
IJ00
9GA2
2J2F
DBB4
3J31
DB70
DB77
IJ14
DB80
3UC3
2UCE
2J02
FEJ8
2UCD 3UC1
3UPD
3UAG
6UP4
6UP5
FUA2
2J04
3J03
3J04
2J4W
3EJ7
FEJ3
FEJ7
IUC2
IUC3
3UPB
FEJ0
IUC8
IUA0
IUP4
5J0K
2J4Z
FEJ6
FEJB
DBC1
FEJ5
FEJ4
IUPE
FJ04
IJ0G
FEJA
FEJ1
FEJ2
FEH6
5RDC
DB24
FEJ9
2RDB
2RDM
DBC7
FHAE
IJA1
2EA6
FDH3
4
SSB layout top
2012-11-22
3104 313 6612
19370_168_130228.eps
130228
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 101
310431366185 SSB
B01A, Power connector
Power connector
B01A
+12V
+12V DETECTION
3
5
7
7UA0-1
BC847BPN(COL)
DETECT12V
22K
1
8
22K
3UAF-1
IUAD
POWER-OK
BC857BS(COL)
7UF9-2
+3V3-STANDBY
3UG4-2
100R
GND-AL
7UF9-1
BC857BS(COL)
IUF7
100K
1M0
+3V3-STANDBY
3GYB
3UG8
4K7
+12VAL
BL-ON
BL-I-CTRL
BL-DIM1
BL-DIM2
100R
100R
100R
100R
2UAJ
3GY7
3GY8
3GY9
3GYA
FUA8
FUAA
FUAK
FUAL
3UD0
3UAG RES
FUAD
1u0 RES
3UAE
FUA7
3UG4-3
1
+12V-AUDIO
100K
100K
FUAN
2
FUAC
IUFQ
3UG4-4
100n
IUAB
+12V
IUF8
2
FUAM
22K
IUAC
6
22K
STANDBY
100R
FUA5
1K0
IUAF
3UAF-2
3UA4
FUA2
RES
3UG3
3
IUAA
3UAF-4
FUAB
4
4
FUA6
FUA9
7UA0-2
BC847BPN(COL)
5
100K 1%
FUA3
BL-DIM3
BL-DIM4
BL-DIM5
BL-DIM6
BL-DIM7
BL-DIM8
3UD1
FUA4
7 100R
6 100R
8 100R
5 100R
100R
100R
1% 68K
ENABLE+3V3
100K
+12V
30 29
FUAV
FUAE
3UG4-1
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
2
3GY1-2
3GY1-3 3
1
3GY1-1
3GY1-4
4
3GY5
3GY6
22K
3UAF-3
6
BL-I-CTRL
FUA1
2UF9
CUA1
BL-SPI-CS_BL-I-CTRL
1M90
+12V-AUDIO
SMAW200-H28S2
10n
1n0
RES
2UA5
1n0
1n0
1n0
2GYA
2GY9
2GY8
1n0
1n0
2GY7
1n0
2GY5
2GY6
1n0
10n
2GY4
10n
2GY2
2GY3
100n
2GY1
1u0
2UA3 RES
2UA2
16V
100p
2UA4
100u
100n
2UAT
100n
2UAA
1u0
2UAB RES
FUAH
2UAU RES
FUAF
AMBI-POWER
100p
100p
2UAL
10K
3UAS
+12V
4K7
4K7
RES 4 3UAP-4 5
RES 3 3UAP-3 6
4K7
4K7
RES 2 3UAP-2 7
4K7
RES 1 3UAP-1 8
4K7
RES 3UAN-4
4
5
3UAT-3
10K
10K
AMBI-POWER
5UAA
AMBILIGHT 3-SIDED PROTECTION
22u 16V
3u0
2UAP
22K
22K
3UG0-1
3UG0-2
+3V3
RES
FUAT
S1D
IUAT
+3V3-STANDBY
4K7
RES 3UAN-3
3
6
1
2
3
6UAB
IUAS
+12Vb
T 3.0A 32V
+3V3-STANDBY
1u0
5
6
7
8
6UAC
7UAB
BC847BW
2
PDZ15B(COL)
1
2UA1
IUA1
1u0
1UA1
6UAD
+3V3-WIFI
330u 6.3V
RES 2UAV
9UA1-1
9UA1-2
9UA1-3
9UA1-4
7UAC
SI4778DY-GE3
PDZ15B(COL)
IUAR
+12V
FUAG
10K
T 3.0A 32V
3
3UAT-2
+12Va
4
12K 1%
IUA0
+3V3-WIFI
B230LA-M3
3UAT-4
GND-AL
IUAN
100R
3UAV-2
1UA0
0R1
3UAY
IUAP
REF
6UAF
2UAM
100p
3UAW
240R 1%
2UAK
12K 1%
2UAN
3
IUAV
T
2.0A 63V
FOR DUAL SIDE AL ONLY
1u0
2UF8
22n
IUAJ
FUAP
5
3UAV-4
1UA2
+12VAL
COM
2UF7
6
4
BC857BS(COL)
7UAA-2
12K 1%
+3V3-STANDBY
IUFR
4
1
BC857BS(COL)
7UAA-1
2
10K
BP
+12VAL
3UAT-1
OUT
EN
3UA6
IN
FUAU
5
AMBI-POWER
IUAL
IUAK
1%
3UAV-1
3
4K7
12K 1%
FUA0
3UAR
3UA5
7UF8
RT9193-33GB
1
3UAV-3
K
R
2
4K7
1
RES
RES
RES
RES
3K3 1%
9UA2-1
9UA2-2
9UA2-3
9UA2-4
RES
1u0
A
6.3V 330u
2UA0
3
7UAF
TS2431
2UA9 RES
RES 2 3UAN-2 7
+12VAL
+22V
+12VAL
+12VAL
RES 3UAN-1
1
8
GND-AL
+3V5-STANDBY
2
IUF0
5
7UA2 RES
PMV31XN
IUA2
RES
3
IUF6
100K
CUA0
ENABLE+1V5+1V1
3UAH
1
2
+12VAL
IUFP
IUFS
4
IUFT
5
6
IUFU
DETECT12V
3UG9
3
GND-AL
VOUT
VIN
EN
FLG
RSET
PG
9
10
AMBI-POWER
8
7
CSS
GND
+3V3
10K
100n
22K
2UAW
3UG2
1K8
IUF3
2UAS
1X15
REF EMC HOLE
2
3UGA
7UF7-1
BC847BPN(COL)
1
100n
STANDBY
GND-AL
7UAD
SIP32429DN-GE4
optional
2UAR
3UG0-4
22K
22K
3UG0-3
1R0
RES 3UAC
220K
100n
RES 3UAB
7UA3
BC847BW
RES
10K
10K
3UAK
STANDBYn
2UAD
IUA3
3UA9
GND-AL
6
11
3UA8
1u0
IUAM
47K
RES 9UA0
4
BC847BPN(COL)
7UF7-2
10K
3UA7
10K
3UAL
IUF1
RES
B01A
1u0
10-2-1
2UF6
10.2
QFU1.2E LA
GND-AL
GND-AL
GND-AL
GND-AL
5
Power connector
2012-11-08
3104 313 6618
19370_001_130129.eps
130129
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 102
B01B, Fusion supply
Fusion supply
B01B
5UC1
IUC0
+12Va
2
3
4
10
5
6
7
8
22u
2UCC
+12Va
IUC1
IUC2
3UC0
1
7UC2
SI4778DY-GE3
RES
4
9
1
2
3
22u
30R
22u
2UCB
10R
7UC4
AON7932
5
6
7
10u
2K2
2UCE
7UC0
RT8228DGQW
2UCF
1%
EN
MODE
10R
3R3
100n
2u0
5UC0
IUC8
3
FUC0
+1V1-FD
2u0
2
8
22u
4
22u
2UCY
FB
1n0
1n0
5UC2
2UCW
CS
3UC8
220u 2.5V
LGATE
IUC7
2UCL
TON
PGOOD
2UCH
22u
PHASE
IUC6
2UCK RES
13
11
10
17
GND GND_HS
150K
3UCA
ENABLE+1V5+1V1
IUCA
LTST-C190CKT
1n0
2K2
UGATE
15
+5V
NC
5
22u
IUCP 14
12
BOOT
IUCB
2UCJ RES
1
6
9
16
6UC0 DBG
10R
2UC1
7
VCC
3UC9 DBG
4 3UC3-4 5
10R
3 3UC3-3 6
2
3UC3-2
7
8
10R
3UC3-1
7UC3
SI4172DY-GE3
RES
4
1
IUC5
B340A-M3
5
6
7
8
6UC2
220p
PDZ5.6B(COL)
6UC1
10u
2UCD
IUC3
1
2
3
270K 5%
3UC7
3UC2
1R0
IUC4
2UCP
RES 3UC4
7UC1
BC847BW
3R3
3UC1
8
+5V
2UCR RES
GND-1V1F
CORE VOLTAGE SUPPLY FUSION
GND-1V1F
GND-1V1F
RES 2UCM
GND-1V1F
3UCG
DVS1
22p
3UCB
10R
22K 1%
120K 1%
3UCF
3UCE
220K 1%
1M0
3UCR RES
12K 1%
3UCN
3UCC
22K 1%
IUC9
180K 1%
3UCP
B01B
2UCA
10-2-2
QFU1.2E LA
3UCD RES
FUC1
SENSE+1V1-FD
+1V1-FD
10R
2UCN
1u0
GND-1V1F
GND-1V1F
GND-1V1F
5
Fusion supply
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 103
B01C, LNB supply
LNB supply
B01C
+12V
1UP1
T
+12V-DVBS
3.0A 32V
30R
100n
5UP6
+12V-DVBS
2UPL RES
10u
10u 25V
10u
RES 2UPM
10u
2UPE
5UP5
7UP2
LNBH25LPQ
100n
2UPD
2UPC
IUPJ
17
VCC
IUPF
3UPE
IUP2
9
VIA
ISEL
GND_HS
RS1D
IUPE
25
GND
PGND
22K
47u 25V
DSQIN
6UP5
NC
22
F22-DISECQ-TX
2UPG
DSQ
+V-LNB
B230LA-M3
SDA
1
5
10
11
12
13
14
24
26
27
28
29
30
31
32
33
FUPA
1u0
SCL
20
6UP6
8
47R
VOUT
2UPH
47R
ADDR
470n
47u 25V
3UPD
7
21
2UPF
SDA-FE
3UPB
16
B230LA-M3
SCL-FE
VUP
2UPJ
6UP4
VBYP
6
IUP4 +V-LNB
3
220n
LX
2UPK
Φ
4
B01C
2
15
18
19
23
10-2-3
QFU1.2E LA
5
LNB supply
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 104
B01D, USB internal
USB internal
9EHE-1
9EHE-2
9EHE-3
9EHE-4
B01D
RES
RES
RES
RES
10u
2EHL
B01D
7EH2
RT9187GSP
IEH3
100u 6.3V
RES 2EHY
3EHY
1M0
1M0
7
10
9
6
VIA
GND
GND HS
5
3EM1
10u
2EHM
NC
33K 1%
BP|ADJ
10K 1%
EN
+3V3-LAN
3EHW
8
3
4
VOUT
VIN
3EM0
1
2
+3V5-STANDBY
ENABLE-WOLAN
7EH4 RES
TPS61200DRCG4
reserved
9EM1
USB-WIFI-DM
PGND
GND_HS
VIA
3EM6
10K
6
7
24
USB-CAM-DM
USB-CAM-DP
3EM7
10K
12
13
20
3EM8
10K
15
16
19
3EM9
10K
RESET-FUSION-OUTn
3EM3
10K
IEM2
680R
3EM5
TEST|SCL
DD4DD4+
OVR4
VREG
RESET
SELFPWR
GANG
RREF
22u
22u
2EHT
RES
120K 1%
IEHJ
2EHN
+3V3
18
RES 9EH8-1
RES 9EH8-2
RES 9EH8-3
RES 9EH8-4
3EHV
47K
100n
+3V3-LAN
26
IEH6
100K
RES 3EHP
2EHJ
3EHJ
10n
2EHW
cEH0
22K
3EHT RES
21
VCC_D
5
VCC_A_1
9
VCC_A_2
14
VCC_A_3
27
VCC
DD3DD3+
OVR3
USB1-DM
USB1-DP
RES
100n
1C31
VIA1
VIA2
VIA3
VIA4
30
31
32
33
FEH1
FEH2
FEH3
FEH4
FEH5
USB-WIFI-DM
USB-WIFI-DP
IRQ-WOLANn
8
7
1
2
3
4
5
6
A1253WRA
RES 3EHN
+3V3-LAN
100n
2EM2
+3V3
SDA
DD2DD2+
OVR2
1
2
7EHJ
BC847BW
22K
IEH5
DD+
DD1DD1+
OVR1
3EHU
29
3EM4
28
17
IEM1 22
23
8
XOUT
RES 2EHS
11
IEH4
RES
3
4
25
USB-WIFI-DM
USB-WIFI-DP
XIN
GND_HS
11
RES
+3V5-STANDBY
100n
100n
2EM7
100n
2EM6
100n
2EM5
2EM4
100n
2EM3
10
18p
+3V3
12
13
100K
1EM0
7EM1
CY7C65632-28LTXCT
2EM1
+3V3
L
2EHV
100n IEH1
10
47n
18p
+3V3
UVLO
GND
4u7
3
9
1n0
2EHU RES
IEH2
2EM0
+3V3
FB
2EH9
RES 5EH0
+3V3
+3V3
EN
IEH0
1
9EM3
7
VAUX
22K 1%
6
PS
2
RES 3EHR
8
VOUT
330K
RES
2EHR
USB-WIFI-DP
22u
9EM2
USB1-DP
VIN
RES 3EHS
5
+3V3-WIFI
4
USB1-DM
12M
10-2-4
QFU1.2E LA
10K
RES 2EHP
100n
1C30
USB-CAM-DM
USB-CAM-DP
+5V
FEH6
FEH7
FEH8
FEH9
7
6
1
2
3
4
5
A1253WRA
5
USB internal
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 105
B01E, Miscellaneous
Miscellaneous
B01E
RES
3TA2
RES
10R
FTA4
FTA6
RES 2TA1
10R
10p
SDA-SRF
FTA2
3TA1
FTA3
RES
1T71
10p
RES 2TA2
FTA1
SCL-SRF
1
2
3
4
A1253WRA
RES 5TA1
FTA5
RES 5TA2
+12V
ITA1
30R
TEMPERATURE
SENSOR
5TA3
+3V3-STANDBY
1u0
30R
RES 2TA3
+3V3
T 1.0A 63V
B01E
RES
1TA1
10-2-5
QFU1.2E LA
30R
5
Miscellaneous
2012-11-08
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�Circuit Diagrams and PWB Layouts
10-2-6
QFU1.2E LA
10.
EN 106
B02A, Hybrid T/C tuner
B02A
Hybrid T/C tuner
B02A
FFAE
VCC-TUNER
5
4
1
2
3
22u 16V
100n
OUT
1F00
SUT-RE214Z
30R
FFA3
2FA9
100R
10p
5FA4
330n
3FA4
47R
5FA5
12
10p
10p
2FAC
2FAB
330n
A3.3V
IF1_P
IF1_N
AGC1
NC1
NC2
IF2_P
IF2_N
AGC2
I2C_SCL
I2C_SDA
16
3FA2
TUNER
30R
3FA3
47R
SOC-IF-N
SOC-IF-P
1
2
3
4
5
6
7
8
9
10
11
FFA2
10p
14
15
100R
30R 5FA6
FFA9
2FAA
3FA1
5FA7
13
BM03B-SRSS-TBT
FFA6
FFA7
SDA-FE
SCL-FE
FFAA
5KA1
3KA0
330n
3KA1
5KA0
330n
10p
2FAG
47R
10p
47R
2FAH
IF-N-DVBT2
IF-P-DVBT2
FFA8
FFA4
3KA3
IF-AGC-DVBT2
2FAF
10p
3KA5
22K
3FAD
2K7
RES 3FA7
FFA5
10p
6K8
6K8
IFA6
2FAE
100R
100R
SOC-IF-AGC
7KA0
PDTA114EU
RES
2K7
FFAC
3FA9
AGC-SWITCH
RES 3KA4
22n
FFAB
RES 3FA8
IF-AGC-DVBT2
2FAD
100R
RES 3KA2
VCC-TUNER
6
3
IFA3
5
2
7FA1-2
BC857BS(COL)
4
3FAC
10K
IFA4
3FAB
470R
IFA5
470R
7FA1-1
BC857BS(COL)
1
3FAA
FFAD
1n0
2FA3
1
100n
10u
2FA2
COM
2FA1
2FA0
RES
330u 6.3V
30R
IN
10p
3
2FA7
IFAA
5FAA
2
4
2FA8
1FA0 DBG
7FAA
LD1117S33
+5V
2FA5
5FA1
VCC-TUNER
VCC-TUNER
5
Hybrid T/C tuner
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 107
B02B, Satellite tuner
Satellite tuner
B02B
IRB1
3RB3
4R7
*
68p
*
*
10u
2RBV
*
2RB7
2RBU
100n
100n
2RB6
1n0
2RB5
1n0
2RB4
1n0
2RB3
2RB2
10n
2RBK
22u
2RBL
IRB0
9RB9
4n7
*
+3V3-DVBS
2RBE
1R01
*
1
2
3
4
5
AS
NC
VIA
RF_IN
9RB8
27p
*
34
35
36
37
38
39
40
41
42
*
DVBS-QP
DVBS-QN
10p
7
8
100R
10p
2
3RB1-2
SYN HS
29 33
9RB7
2RB1
GND
RF LNA LT MIX DIG BB VCO
5
3
9 10 15 17 25 26
21
20
DVBS-IP
DVBS-IN
2RBS
RF_OUT
3
3RB1-3
5
100R
10p
I2C-ADDRESS: C6
AGC
XTAL
4
6 3RB1-4
100R
1
7 3RB1-1
100R
10p
QP
QN
1K0
10p
SATELLITE
TUNER
100p
18
19
3RB0
10p
SCL
SDA
9RB6
*
0p56
RES 2RBG
*
100p
2RBY
27n
100p
1n0
2RBH
SM15T
2RBJ
FRB0
+V-LNB
4
XTAL_CMD
IP
IN
Φ
27p
5RB0
6
7
8
9
10
2RBM
XTAL_IN
2RB8
32
2RBR
23
24
+3V3-DVBS
XTAL_OUT
2RBP
16
SYN
2RBN
9RB0
RES
28
2RBC
2
VCO
10p
2RBD
3n3
RES
10p
27
2RBB
12
13
22
10p
1
14
MIX DIG BB
VSS
2RBA
2RK1
DVBS-AGC
31
11
33n
SCL-S-TUNER
SDA-S-TUNER
30
10p
RES
10p
8
2RB9
2RK0
1
6
LNA LT
2RBW
1RB0
16M
2RBF
7RB0
STV6110AT
2 NC 4
NX3225JB
3
10p
47p
6RB0
B02B
RES 2RBT
10-2-7
QFU1.2E LA
* *
+3V3-DVBS
Diversity Matrix (Satellite Tuner dependant)
Position Nr Affected Pin Default Value STV6110 STV6111
2RBY
4,5
100P
-
9RB8
4,5
JUMP
X
2RBM
4,5
27P
X
X
-
27
10U
2RBU
27
4N7
2RBV
27
68P
X
X
-
9RB9
27
JUMP
X
-
3RB3
27
4R7
X
2K2
2RB1
4,5
27P
2RBW
7
33N
9RB6
25
JUMP
9RB7
25
JUMP
2RB7
X
X
-
X
X
X
5
Satellite tuner
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 108
B02C, DVBT2 channel decoder
B02C
DVBT2 channel decoder
B02C
+3V3-DVBT2-D
+1V2-DVBT2-C
RES
2KCH
1K0
DKC0
IKC4
3KC7
2KCJ
48
10K
IKC5
100n
3KC8
3K3
3KC9
1
47
2
IKC6
46
45
SCL
SDA
TIFAGC
TTUSCL
TTUSDA
3K3
25
DKC1
26
29
RESET-FUSION-OUTn
30
5KC8
+3V3-DVBT2-D
IKCB
30R
33
40
SLVADR0
VIA
OSCEN_X
RST_X
SLVADR3
NC1
NC2
100n
100n
TS-CHDEC-DATA
SENSE+1V1-DVBT2
+1V2-DVBT2-C
5KCA
IKC8
+1V2-DVBT2-C
+1V2-FE
RES 5KC5
IKC7
+3V3-DVBT2-D
VCC-TUNER
3KC2
SCL-FE
SDA-FE
3KC3
47R
47R
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
30R
RES 5KC7
+1V1-DVBT2
30R
5KC6
30R
+3V3
30R
+1V2-DVBT2-C
3KCE
IKC9
+1V2-DVBT2-P
22R
7KC0
GND_HS
+1V1-DVBT2
CXD2834
+1V2
GAIA3
FKC1
+1V1
RES
2KCL
VSS
6
11
18
23
27
31
36
39
43
RES
TESTMODE
20
21
3 3KC0-3
47R
49
24
2KC0
100n
2KC1
32
7
19
42
100n
100n
2KC2
2KC3
100n
10
22
28
44
GPIO0
GPIO1
GPIO2
IC
ADDRESS
=
0XD8
TS-CHDEC-CLK
TS-CHDEC-VALID
TS-CHDEC-SOP
1u0
3KC6
RFAIN
2
8
9
12
13
14
15
16
17
1 3KC0-1
47R
2KCR
41
IF-AGC-DVBT2
TAINP
TAINM
47R
0
1
2
3
TSDATA
4
5
6
7
6p8
47R
8
2 3KC0-2
47R
6
7
10u
3KCB
38
37
3KC1
5
4
3
2KCS
47R
IKC3
2KCG
+3V3-DVBT2-D
100n 2KC4
2KC6
12p
3KCA
47p
4u7
XTALO
1K0
IKC2
47p
2KCF
100n
34
RES 2KCK
DVDD PVDD
TSCLK
TSVALID
TSSYNC
CVDD
XTALI
1u0
100n
IKC1
35
2KCP
2KCE
5KC1
AGC-SWITCH
NC 2
1KC0 3KC4
IKCA
7KC0
CXD2834ER
IKC0
30R
+1V2-DVBT2-P
5KC9
9KC0
9KC1
1
2KCD
4u7
IF-P-DVBT2
IF-N-DVBT2
100n 2KC5
2KC7
100n
4
5KC0
2KCB
12p
2KCC
41M
3
10n
10-2-8
QFU1.2E LA
5
DVBT2 channel decoder
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 109
B02D, DVBS/S2 channel decoder
DVBS/S2 channel decoder
B02D
+3V3-DEMOD
FRDA
2RDR
1
100n
10K
+3V3-DEMOD
31
3
RESET-FUSION-OUTn
9RD3
AGC-SWITCH
DVBS-QP
DVBS-QN
DVBS-IN
DVBS-IP
5RDB
2RD7
100n
2RDA
100n
3RD2
9RD2
IF-AGC-DVBT2
IRDB
2RDH
100n
+3V3-DEMOD
9RD0
9RD1
IF-P-DVBT2
IF-N-DVBT2
2RD8
100n
2RD9
100n
3RD3
2RDF
100n
SDA-S-TUNER
SCL-S-TUNER
1
2
29
30
DRD0
DRD1
10K
DVBS-AGC
22u
2RDS
30R
43
37
38
39
40
10K
41
42
2RDG
100n
3RD4
3RD5
IRD5
IRD6
45
46
IRD3
47R
4
5
6
47R
+V-LNB
4K7
4K7
3RD9
1K0
8
21
27
47
RESETB
GPIO_0|JTAG_TMS
ADDR
TS_SYNC
TS_VAL
TS_ERR|GPIO_1
TS_CLK
TS_DATA0|TS_SER
TS_DATA1
TS_DATA2
TS_DATA3
TS_DATA4
TS_DATA5
TS_DATA6
TS_DATA7
RSSI_ADC
S_ADC_IP
S_ADC_IN
S_ADC_QP
S_ADC_QN
MP_A
MP_B
MP_C
MP_D
100n
2RD6
36
VDD_VANA
2RD4
9
VDD_VIO 22
7
20
28
48
XTA_O
CLK_IN_OUT
SDA_HOST
SCL_HOST
TC_ADC_P
TC_ADC_N
VIA
SDA_MAST
SCL_MAST
DISEQC_CMD
DISEQC_IN
DISEQC_OUT
13
12
26
14
3RD0-2 2
3RD0-1 1
15
16
17
18
19
23
24
25
3RD0-3 3
11
10
3RD1
7
8 47R
TS-DVBS-SOP
TS-DVBS-VALID
6
TS-DVBS-DATA
47R
47R
TS-DVBS-CLK
47R
IRD0 3RD8
IRD1
47R
3RD7
SDA-FE
SCL-FE
47R
50
51
52
53
54
55
56
57
58
GND1|JTAG_TCLK
GND2|JTAG_TDI
GND3|JTAG_TDO
GND4|JTAG_TRSTB
GND5
35
10n
2RDN
2RDM
30R
3RDB RES
+3V3-ANA
2RDT
100p
F22-DISECQ-TX
IRDC
3RDA RES
5RDC
+3V3-DVBS
VDD_VCORE
XTA_I|CLK_IN
2RD5
100n
2RDB
3RD6
XTAL
34
+3V3-DVBS
100n
100n
2RD3
100n
2RD2
100n
2RD1
22u
2RD0
22u
2RDL
RES 2RDJ
10p
32
44
+3V3-DVBS
COM
100n
33
6p8
30R
2
4
OUT
7RD0
SI2169-A10-GM
16M
GND_HS
49
IN
16V
3
22u
IRDA
22u
5RDA
+5V
4
3
RES 2RDD
7RDA
LD1117S33
NC
10p
RES 2RDE
2
1
22u
RES 2RDK
30R
1RD0
NX3225JB
100n
+3V3-ANA
IRD2
5RDD
+1V2-FE
RES 2RDC
B02D
2RDP
10-2-9
QFU1.2E LA
+3V3-DEMOD
5
DVBS/S2 channel decoder
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 110
B03A, Fusion
B03A
Fusion
B03A
7J00-6
FUSION120
AG29
AD26
AH29
AJ29
AF28
AH30
AG28
AJ30
AJ28
AJ27
AF27
AG27
AG24
AE23
AK22
AJ26
FRA5
FRA6
FRA7
FRA8
CA-OEn
FRA10
FRA11
FRA12
NAND-CLE
NAND-ALE
CA-A14
F-OEn
F-WEn
AK29
AK24
F-CEn
TS-DVBS-DATA
TS-DVBS-VALID
TS-DVBS-SOP
TS-DVBS-CLK
AJ24
AE26
AF23
AK28
AH24
AG22
AG23
CA-A06
F-RDY
PODA4
PODA5
POD_A7
POD_A8
POD_A9
PODIREQ
PODRST
PODVS1
PODWAIT
POD_DIR
PODCE1
PODCE2
PODCD1
POD_CD2
POD_VCC_EN
FRA0_AD0
POD_VPP_EN
FRA1_PODWE
HPD
FRA2_PODIORD
FRA3_PODIOWR
FRA4_PODREG
GPIO0
FRA5_AD1
GPIO1
FRA6_AD2
GPIO2
FRA7_AD3
GPIO3
FRA8_AD4
GPIO4
FRA9_PODOE
GPIO5
FRA10_AD5
GPIO6
FRA11_AD6
GPIO7
FRA12_AD7
GPIO8
FRA13_CLE
GPIO9
FRA14_ALE
GPIO10
FRA15_PODA14
GPIO11
FOE
FWE
BOOTCS
FCE2N
FINT1
FINT2
FCLK
FAVD_PODA6
FREADY
GPIO14
GPIO15
GPIO16
GPIO17
GPIO18
GPIO19
GPIO20
GPIO21
GPIO22
GPIO23
GPIO24
TS_TSB_MCU
AJ22
AH22
AF22
AJ23
AH23
CA-A04
CA-A05
CA-A07
CA-A08
CA-A09
AE27
AG30
AF30
AE28
AE30
CA-RDY
CA-RST
CA-VS1n
CA-WAITn
FJ16
AD28
AD27
AF29
AD30
CA-CE1n
CA-CE2n
CA-CD1n
CA-CD2n
AE29
AD29
R30
E1
F3
F4
F2
F1
G6
G5
G4
G3
G2
G1
H6
J6
J5
J4
J3
J2
J1
H1
H2
H3
H4
H5
GPIO0
GPIO1
GPIO2
GPIO3
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
AG20
AH20
AJ20
AK20
AE21
AF21
AG21
AH21
CA-MOCLK
CA-MOSTRT
CA-MOVAL
AJ21
AK21
AE22
TS-CHDEC-DATA
TS-CHDEC-CLK
TS-CHDEC-SOP
TS-CHDEC-VALID
IF-IN-P
U28
U29
U30
T26
IF-IN-N
2FZ1
F30
F29
10p
2FZ2
GPIO5
GPIO6
GPIO7
GPIO8
33R
GPIO14
GPIO15
GPIO16
GPIO17
GPIO18
GPIO19
GPIO20
GPIO21
GPIO22
GPIO23
GPIO24
E28
E27
2FZ4
2J10
GPIO11
3FZ1
100n
2FZ3
100n
18p
0
1
2
3
TS1D
4
5
6
7
H30
2
4
H29
TSSDI
TSSCLK
TSSSYNC
TSSDEN
IN_P
IN_N
P
PD
N
XTLI24M
XTLO24M
2J11
18p
RESET-STANDBYn
J26
TEST-CON
TEST-MOD
P30
P29
ENABLE-STANDBY
H25
SPI-EN
SF-SDI
SF-SDO
SF-WP
SF-HOLDn
SF-CS
SF-CLK
K28
L28
L26
K30
L27
L29
L30
0
1
2
3
TS2OD
4
5
6
7
TS2OCLK
TS2OSYNC
TS2ODEN
AH18
AJ18
AK18
AE19
AF19
AG19
AH19
AJ19
MDI0
MDI1
MDI2
MDI3
MDI4
MDI5
MDI6
MDI7
AK19
AE20
AF20
MICLK
MISTRT
MIVAL
2FZ5
TS1CLK
TS1SYNC
TS1DEN
10p
RES 2FZ6
47p
3
FRA0
CA-WEn
CA-IORDn
CA-IOWRn
CA-REGn
FRD0_PODD0
FRD1_PODD1
FRD2_PODD2
FRD3_PODD3
FRD4_PODD4
FRD5_PODD5
FRD6_PODD6
FRD7_PODD7
FRD8_PODA0
FRD9_PODA1
FRD10_PODA2
FRD11_PODA3
FRD12_PODA10
FRD13_PODA11
FRD14_PODA12
FRD15_PODA13
24M
AK23
AF26
AE24
AK25
AH25
AH27
AK27
AJ25
AF25
AG26
AK26
AG25
AE25
AH26
AH28
AF24
1J00
CA-D00
CA-D01
CA-D02
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-A00
CA-A01
CA-A02
CA-A03
CA-A10
CA-A11
CA-A12
CA-A13
7J00-7
FUSION120
FLASH_CI_GPIO
1
10-2-10
QFU1.2E LA
RSTN
TESTCON
TESTMOD
STB_EN
SPI_EN
SFSI
SFSO
SFWPN
SFHOLDN
SFCES
SFSCK
TAGCO
IF
RF
DGPIO
1
2
0
1
2
3
4
STB_GP 5
6
7
8
9
10
TXD
RXD
STB
SDA
SCL
LED
IR
KYBRD
LGSEN
CEC
PWRON
AVLINK
1
2
PCVS
PCHS
STB_RSTO
HP_DETECT
MUTE
F27
G26
3FZ0
4n7
SOC-IF-AGC
100R
FJ10
T28
T29
M27
M26
M25
N30
N29
N28
N27
N26
N25
P25
P26
STB-GP0
STB-GP1
STB-GP2
STB-GP3
STB-GP4
STB-GP5
STB-GP6
STB-GP7
STB-GP8
STB-GP9
STB-GP10
R27
R28
P27
P28
STB-TXD
STB-RXD
STB-SDA
STB-SCL
J25
M29
J30
M30
M28
R29
LED
IR
KYBRD
LGSEN
HDMI-CEC
PWRON
K25
K26
AVLINK1
AMBI-TEMP-FUS
J27
J28
J29
STB-RSTO
K27
HP-DETECT
H26
AUDIO-MUTEn
5
Fusion
2012-11-08
3104 313 6618
19370_010_130129.eps
130129
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 111
B03B, Fusion Umac controller
Fusion Umac controller
B03B
7J00-8
FUSION120
MM0ANA
FJ01
240R 1%
AE11
AE12
AE7
AD18
P1
P2
M1-MCLK0
M1-MCLK0#
U7
U6
AA5
K6
AB4
M1-MVREF1
3J01
240R 1%
MM1ANA
+1V5-M1
P
MM0CK
N
DDR-RTN
0
MM0VREF
1
MZQ0
MM0ANA_TEST
MM0ANA
+1V5-M1
2J04
2J05
100n
1K0
3J06
3J00
M1-BA0
M1-BA1
M1-BA2
M1-CAS#
M1-RAS#
M1-WE#
M1-CKE
M1-ODT
M1-RESET#
M1-CS#
100n
1K0
3J05
2J06
100n
M0-MVREF0
P
MM1CK
N
0
1 MM0BA
0
2
MM1VREF
1
MM0CASN
MZQ1
MM0RASN
MM0WEN
MM1ANA_TEST
MM0CKE
DDR_RETN
MM0ODT
MM0RESETN
MM0CSN
U1
P5
R1
T3
V2
U3
R3
V1
N4
P4
2J03
AK14
AJ14
M0-MVREF0
0
MM1BA 1
2
MM1CASN
MM1RASN
MM1WEN
MM1CKE
MM1ODT
MM1RESETN
MM1CSN
M1-MA0
M1-MA1
M1-MA2
M1-MA3
M1-MA4
M1-MA5
M1-MA6
M1-MA7
M1-MA8
M1-MA9
M1-MA10
M1-MA11
M1-MA12
M1-MA13
M1-MA14
M1-MA15
100n
M0-MCLK0
M0-MCLK0#
FJ05
MM0DQS3
0
1
2
3
4
5
6
7
MM0A
8
9
10
11
12
13
14
15
DB47
T2
L2
N1
N3
L3
N5
L5
N2
M3
L4
R5
M1
T1
M5
L1
R2
1K0
AG12
AF14
AK13
AH12
AF12
AF11
AH13
AG11
AG15
AG14
MM0DQS2
M1-DQS0
M1-DQS#0
M1-DQS1
M1-DQS#1
3J03
M0-BA0
M0-BA1
M0-BA2
M0-CAS#
M0-RAS#
M0-WE#
M0-CKE
M0-ODT
M0-RESET#
M0-CS#
+1V5-M0
MM0DQS1
AA2
AA3
V3
V4
M1-DQM0
M1-DQM1
1K0
AJ12
AJ17
AK15
AH15
AH17
AF15
AF17
AJ15
AH16
AG17
AF13
AK16
AK12
AF16
AK17
AJ13
MM0DQS0
DB78
DB75
3J04
M0-MA0
M0-MA1
M0-MA2
M0-MA3
M0-MA4
M0-MA5
M0-MA6
M0-MA7
M0-MA8
M0-MA9
M0-MA10
M0-MA11
M0-MA12
M0-MA13
M0-MA14
M0-MA15
P
N
P
N
P
N
P
N
0
1
2
3
4
5
6
7
MM1A
8
9
10
11
12
13
14
15
DB76
FJ04
M1-MVREF1
MM1ANA
DB73
FJ03
2J02
AK7
AK6
AJ10
AK10
AF2
AF1
AH4
AG4
DB14
DB16
P
N
P
MM1DQS1
N
MM1DQS0
AA1
W3
DB79
DB77
100n
M0-DQS0
M0-DQS#0
M0-DQS1
M0-DQS#1
M0-DQS2
M0-DQS#2
M0-DQS3
M0-DQS#3
0
1
MM0DM
2
3
0
1
M1-MD0
M1-MD1
M1-MD2
M1-MD3
M1-MD4
M1-MD5
M1-MD6
M1-MD7
M1-MD8
M1-MD9
M1-MD10
M1-MD11
M1-MD12
M1-MD13
M1-MD14
M1-MD15
1K0
AJ6
AK9
AE1
AH3
M0-DQM0
M0-DQM1
M0-DQM2
M0-DQM3
MM1DM
W2
AC2
Y1
AC1
Y3
AB1
W1
AB3
T5
Y4
T4
W5
U5
Y5
U4
W4
3J02
DB74
0
1
2
3
4
5
6
7
MM1DQ
8
9
10
11
12
13
14
15
2J00
DB72
DDR3
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
MM0DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
100p
AH8
AH5
AH7
AJ5
AK8
AH6
AJ8
AK5
AK11
AF9
AJ11
AG9
AF10
AG8
AH10
AH9
AG1
AF3
AE3
AH1
AH2
AD3
AD1
AD2
AK4
AG3
AJ3
AK2
AK3
AJ2
AG5
AJ1
DB71
M0-MD0
M0-MD1
M0-MD2
M0-MD3
M0-MD4
M0-MD5
M0-MD6
M0-MD7
M0-MD8
M0-MD9
M0-MD10
M0-MD11
M0-MD12
M0-MD13
M0-MD14
M0-MD15
M0-MD16
M0-MD17
M0-MD18
M0-MD19
M0-MD20
M0-MD21
M0-MD22
M0-MD23
M0-MD24
M0-MD25
M0-MD26
M0-MD27
M0-MD28
M0-MD29
M0-MD30
M0-MD31
2J07
B03B
100n
10-2-11
QFU1.2E LA
FJ02
DB80
DB85
DB81
DB86
DB82
DB87
DB83
DB88
DB89
5
Fusion Umac controller
2012-11-08
3104 313 6618
19370_011_130129.eps
130129
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 112
B03C, Umac 1 DDR3
B03C
Umac 1 DDR3
B03C
+1V5-M1
+1V5-M1
100R
3J1H
3J1G
100R
100R
100R
100R
100R
100R
3J27
3J26
100R
3J29
3J28
3J2D
100R
100R
100R
3J2F
3J2E
3J2H
3J2G
100R
100R
100R
100n
240R
DB41
M1-MD0
M1-MD5
M1-MD6
M1-MD1
M1-MD2
M1-MD7
M1-MD4
M1-MD3
DB50
DB49
DB52
DB51
A1
A4
A11
F2
F10
H2
H10
J8
N1
N11
BA0
BA1
BA2
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
NC
VSS
E2
J9
DDR-MVREF12
DB57
H9
M1-MA15
DB06
DB64
DB53
M1-BA0
M1-BA1
M1-BA2
M1-RAS#
M1-ODT
M1-CAS#
M1-MCLK0
M1-MCLK0#
VSSQ
DB54
DB55
F4
G2
G4
F8
G8
G10
H3
H4
N3
B10
C2
E3
E10
VDDQ
TDQS
TDQS
DM
DQS
DQS
0
1
2
3
DQ
4
5
6
7
VREFDQ
VREFCA
A8
B8
DB58
M1-DQM1
C4
D4
DB90
DB91
M1-DQS1
M1-DQS#1
B4
C8
C3
C9
E4
E9
D3
E8
M1-MD14
M1-MD15
M1-MD10
M1-MD11
M1-MD12
M1-MD13
M1-MD8
M1-MD9
ZQ
BA0
BA1
BA2
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
NC
VSS
M1-CKE
M1-CS#
M1-WE#
M1-RESET#
3J2P
3J2N
J3
K9
J4
VDD
0
1
2
3
4
5
6
7
A
8
9
10
11
12
13
14
BC
AP
A1
A4
A11
F2
F10
H2
H10
J8
N1
N11
M1-MA15
VSSQ
A2
A9
B2
D9
F3
F9
J2
J10
L2
L10
N2
N10
3J2M
K4
L8
L4
K3
L9
L3
M9
M3
N9
M4
H8
M8
K8
N4
N8
ZQ
100R
100R
3J2R
3J2Q
100R
M1-MCLK0#
3J2T
100R
2J1A
100n
1K0
2J1B
1K0
10n
10n
2J1J
10n
2J1G
10n
2J1E
100n
2J1C
100n
2J21
100n
2J1Z
+1V5-M1
2J1V
10n
10n
2J84
10n
2J83
10n
2J82
100n
2J81
100n
2J1T
10u
2J1R
2J22
3J15
FJ09
DDR-MVREF12
+1V5-M1
3J14
+1V5-M1
100n
3J2S
DB93
DB98
DBA3
DB94
DB99
DBA4
DB95
DBA6
DBA2
DBA7
10n
10n
2J1K
10n
2J1H
10n
2J1F
100n
2J1D
100n
2J20
100n
2J1W
+1V5-M1
2J1U
10n
10n
2J88
10n
2J87
10n
2J86
100n
2J85
10u
2J1S
10u
2J25
2J24
2J27
DBA5
DBA1
DB97
+1V5-M1
DB59
DB96
47u 16V
100R
100R
DB01
DB39
DB40
75R
3J2K
100R
3J2L
M1-RESET#
DB35
DB36
DB38
M1-DQS0
M1-DQS#0
M1-MA0
M1-MA1
M1-MA2
M1-MA3
M1-MA4
M1-MA5
M1-MA6
M1-MA7
M1-MA8
M1-MA9
M1-MA10
M1-MA11
M1-MA12
M1-MA13
M1-MA14
100R
3J2J
3J17
M1-CKE
F4
G2
G4
F8
G8
G10
H3
H4
N3
M1-CKE
M1-CS#
M1-WE#
M1-RESET#
100R
100R
M1-BA0
M1-BA1
M1-BA2
M1-RAS#
M1-ODT
M1-CAS#
M1-MCLK0
M1-MCLK0#
75R
100R
3J16
3J2B
3J2C
M1-ODT
+1V5-M1
100R
100R
M1-CS#
M1-MCLK0
100R
3J2A
M1-WE#
3J10
3J25
3J24
M1-CAS#
1K0
100R
100R
J3
K9
J4
DB62
3J23
DB42
DB43
B4
C8
C3
C9
E4
E9
D3
E8
0
1
2
3
DQ
4
5
6
7
VREFDQ
VREFCA
M1-DQM0
C4
D4
DQS
DQS
A2
A9
B2
D9
F3
F9
J2
J10
L2
L10
N2
N10
100R
M1-RAS#
H9
100R
3J22
M1-BA2
1K0
3J21
3J20
M1-BA1
3J12
3J1Z
100R
2J17
100R
3J1W
M1-BA0
2J14
100R
M1-MA15
E2
J9
DDR-MVREF11
3J1V
3J1U
M1-MA14
DDR-MVREF11
100n
2J15
100R
M1-MA13
FJ08
3J1T
100R
100R
100R
M1-MA12
DB33
DB34
3J1R
100R
3J1S
M1-MA11
DB32
100R
3J1Y
M1-MA10
3J11
3J1P
3J1N
2J16
100R
100n
3J1M
3J1L
100n
M1-MA9
100R
RES
M1-MA8
3J1K
3J1J
10n
M1-MA7
100R
100R
M1-MA6
2J12
M1-MA5
DB31
DB56
B3
B9
C10
D2
D10
100R
7J02
H5TQ2G83BFR
A8
B8
TDQS
TDQS
DM
240R
3J1F
10n
M1-MA4
+1V5-M1
100R
3J1E
100n
3J1D
3J1C
3J13
100R
VDDQ
VDD
0
1
2
3
4
5
6
7
A
8
9
10
11
12
13
14
BC
AP
2J18
100R
100R
M1-MA3
K4
L8
L4
K3
L9
L3
M9
M3
N9
M4
H8
M8
K8
N4
N8
100n
2J19
3J1B
3J1A
M1-MA2
M1-MA0
M1-MA1
M1-MA2
M1-MA3
M1-MA4
M1-MA5
M1-MA6
M1-MA7
M1-MA8
M1-MA9
M1-MA10
M1-MA11
M1-MA12
M1-MA13
M1-MA14
100R
100R
B3
B9
C10
D2
D10
3J19
3J18
M1-MA1
A3
A10
D8
G3
G9
K2
K10
M2
M10
M1-MA0
B10
C2
E3
E10
A3
A10
D8
G3
G9
K2
K10
M2
M10
+1V5-M1
7J01
H5TQ2G83BFR
2J89
10-2-12
QFU1.2E LA
5
Umac 1 DDR3
2012-11-08
3104 313 6618
19370_012_130129.eps
130129
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 113
B03D, Umac 0 DDR3
B03D
Umac 0 DDR3
B03D
+1V5-M0
100R
100R
3J3D
3J3C
100R
3J3F
3J3E
100R
100R
100R
100R
3J43
3J45
100R
3J47
3J46
100R
3J49
3J48
100R
100R
100R
3J4B
3J4A
100R
3J4D
100R
100R
3J4F
100R
3J4H
3J4G
100n
240R
1%
M0-DQS0
M0-DQS#0
F3
G3
DB13
DB15
M0-DQS1
M0-DQS#1
E3
F7
F2
DB69
F8
H3
H8 DB17
G2
H7
M0-MD15
M0-MD12
M0-MD9
M0-MD10
M0-MD11
M0-MD14
M0-MD13
M0-MD8
NC
VSS
J1
J9
L1
L9
VSSQ
N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3
T7
M7
DB18
DB19
DB20
DB21
H1
M8
DDR-MVREF02
L8
M2
N8
M3
DB67
DB22
M0-BA0
M0-BA1
M0-BA2
M0-RAS#
M0-ODT
M0-CAS#
M0-MCLK0
M0-MCLK0#
DB23
J3
K1
K3
J7
K7
K9
L2
DB24 L3
T2
E7
D3
M0-CKE
M0-CS#
M0-WE#
M0-RESET#
3J4K
3J4M
3J4L
100R
A1
A8
C1
C9
D2
E9
F1
H2
H9
VDDQ
0
1
2
3
4
5
A
6
7
8
9
10
11
12
13
14
15
BC
AP
0
1
2
3
DQU
4
5
6
7
DQSU
DQSU
DQSL
DQSL
0
1
2
3
DQL
4
5
6
7
VREFDQ
VREFCA
ZQ
BA0
BA1
BA2
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
DML
DMU
NC
VSS
D7
C3
C8
C2
A7
A2
B8
A3
DB25
DB26
C7
B7
M0-MD16
M0-MD18
M0-MD20
M0-MD23
M0-MD17
M0-MD21
M0-MD19
M0-MD22
M0-DQS2
M0-DQS#2
F3
G3
DB27
DB29
E3
F7
F2
F8
H3
H8
G2
H7
DB30
DB70
M0-DQS3
M0-DQS#3
M0-MD29
M0-MD28
M0-MD25
M0-MD26
M0-MD27
M0-MD30
M0-MD31
M0-MD24
J1
J9
L1
L9
VSSQ
M0-DQM3
M0-DQM2
M0-MCLK0#
3J4P
100R
2J2E
100n
1K0
2J2F
1K0
10n
10n
2J2V
10n
2J2T
100n
2J2R
100n
2J3E
100n
2J3C
2J3A
10n
10n
2J2P
10n
2J2M
10n
2J2K
100n
2J2H
100n
2J38
100n
2J36
100n
2J34
10u
2J32
10u
2J3G
10n
2J2Z
+1V5-M0
+1V5-M0
2J3F
3J31
FJ0B
DDR-MVREF02
DBC3
DBB3
DBB8
DBB4
DBB9
DBC4
DBB5
DBC0
DBC5
+1V5-M0
+1V5-M0
DBC1
DBC6
DBC2
DBC7
10n
10n
2J30
10n
2J2W
10n
2J2U
100n
2J2S
100n
2J3D
100n
2J3B
2J39
10n
10n
2J2Y
10n
2J2N
10n
2J2L
100n
2J37
100n
2J2J
100n
2J35
100n
2J33
10u
2J31
10u
2J3J
DBB6
DBB7
2J3H
2J3K
3J30
+1V5-M0
100n
3J4N
47u 16V
100R
100R
DML
DMU
DB11
DB12
VDD
M0-MA0
M0-MA1
M0-MA2
M0-MA3
M0-MA4
M0-MA5
M0-MA6
M0-MA7
M0-MA8
M0-MA9
M0-MA10
M0-MA11
M0-MA12
M0-MA13
M0-MA14
M0-MA15
100R
100R
M0-RESET#
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
E7
D3
C7
B7
100R
3J4J
M0-CKE
DB66
DB10
DB09
M0-DQM1
M0-DQM0
75R
M0-ODT
BA0
BA1
BA2
100R
3J4E
3J33
M0-CS#
DB65
DB08
M0-CKE
M0-CS#
M0-WE#
M0-RESET#
100R
3J4C
M0-WE#
RES
DB60
DB04
DB05
DB07
0
1
2
3
DQL
4
5
6
7
ZQ
J3
K1
K3
J7
K7
K9
L2
L3
T2
75R
100R
+1V5-M0
3J32
100R
M0-CAS#
M0-MCLK0
100R
3J44
M0-RAS#
3J2U
100R
100R
M0-BA2
2J28
3J41
3J40
3J42
M0-BA0
M0-BA1
M0-BA2
M0-RAS#
M0-ODT
M0-CAS#
M0-MCLK0
M0-MCLK0#
DQSL
DQSL
A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9
100R
M0-BA1
L8
3J3Z
100R
DQSU
DQSU
VREFDQ
VREFCA
M2
N8
M3
DB68
100R
3J3W
M0-BA0
1K0
3J3V
3J3U
100R
100R
M0-MA15
3J2W
3J3T
100R
100n
100R
3J3S
M0-MA14
H1
M8
DDR-MVREF01
100n
2J29
100R
100R
M0-MA13
DDR-MVREF01
3J3R
3J3Y
M0-MA12
FJ0A
3J3P
100R
100R
M0-MA11
1K0
3J3M
3J3L
3J3N
M0-MA10
DB02
DB03
100R
100R
M0-MA9
100n
3J3K
3J2V
100R
3J3J
M0-MA8
2J2A
3J3H
3J3G
2J2B
M0-MA7
100R
10n
M0-MA6
DB61
DB00
M0-MD0
M0-MD5
M0-MD4
M0-MD7
M0-MD2
M0-MD1
M0-MD6
M0-MD3
B1
B9
D1
D8
E2
E8
F9
G1
G9
100R
M0-MA5
2J01
M0-MA4
D7
C3
C8
C2
A7
A2
B8
A3
A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9
3J3B
3J3A
7J04
H5TQ2G63BFR-PBC
0
1
2
3
DQU
4
5
6
7
240R
1%
100R
100R
10n
M0-MA3
+1V5-M0
100n
3J39
3J2Z
100R
3J38
0
1
2
3
4
5
A
6
7
8
9
10
11
12
13
14
15
BC
AP
100n
2J2D
100R
N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3
T7
M7
2J2C
3J37
B1
B9
D1
D8
E2
E8
F9
G1
G9
100R
100R
3J36
M0-MA2
M0-MA0
M0-MA1
M0-MA2
M0-MA3
M0-MA4
M0-MA5
M0-MA6
M0-MA7
M0-MA8
M0-MA9
M0-MA10
M0-MA11
M0-MA12
M0-MA13
M0-MA14
M0-MA15
3J35
3J34
M0-MA1
VDDQ
B2
D9
G7
K2
K8
N1
N9
R1
R9
VDD
M0-MA0
+1V5-M0
A1
A8
C1
C9
D2
E9
F1
H2
H9
7J03
H5TQ2G63BFR-PBC
B2
D9
G7
K2
K8
N1
N9
R1
R9
+1V5-M0
2J2G
10-2-13
QFU1.2E LA
5
Umac 0 DDR3
2012-11-08
3104 313 6618
19370_013_130129.eps
130129
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10-2-14
QFU1.2E LA
10.
EN 114
B03E, Fusion
B03E
Fusion
B03E
7J00-5
FUSION120
PANEL_USB
LAN_IO TA1_P
7J00-4
FUSION120
A22
B22
E22
D22
A23
B23
E23
D23
A24
B24
E24
D24
AR-1
AL-1
AR-3
AL-3
AR-4
AL-4
D26
SPDIFIN
3J53
SCKIN
WSI2SIN
SDI2SIN
3J54
10R
10R
3J55
10R
IJ11
C26
B26
A26
AC28
C15
A15
B16
A16
CVBS
CVBS3
C16
Y-G1
PB-B1
PR-R1
A20
A19
A18
Y-G2
PB-B2
PR-R2
B20
B19
B18
Y-G3
PB-B3
PR-R3
C20
C19
C18
IJ12
IJ13
SC1-STATUS
FB1
D20
D19
D18
C17
B17
D17
A17
AV_IN_OUT
AR_1
AL_1
AR_2
AL_2
AR_3
AL_3
AR_4
AL_4
AR_5
AL_5
AR_6
AL_6
HPHOL
HPHOR
SUBO
SPK_AOR1
SPK_AOL1
AOR2
AOL2
B21
A21
HPHOL
HPHOR
C21
A25
B25
D25
C25
AUD-L
AUD-R
USB1-RREF
Y26
Y27
AA30
AA29
AB28
Y25
SPDIFO
3J07
3J08
3J09
3J50
3J51
3J52
GPANA1
10R
10R
10R
10R
10R
10R
SCKI2SOUT
WSI2SOUT
SDI2SOUT1
SDI2SOUT2
SDI2SOUT3
I2SCLK
1
2
CVBS
3
4
C
Y_G1
PB_B1
PR_R1
Y_G4
PB_B4
PR_R4
FS1
FB1
FS2
FB2
1
CVBS_OUT
2
A14
A13
USB2-RREF
EN-RXD0
EN-TXD0
EN-RXD1
EN-TXD1
FJ0F
FJ0G
FJ0H
FJ0J
W29
V29
W28
V28
W27
V27
W26
V26
V25
U25
W30
V30
EN-MDC
EN-MDIO
SCKI2SOUT
WSI2SOUT
1
SDI2SOUT 2
3
I2SCLK
E26
AC30
AC29
AB25
AC27
EN-RXEN
EN-TXEN
SPDIFO
SCKIN
WSI2SIN
SDI2SIN
Y_G3
PB_B3
PR_R3
AB30
AB29
AB26
AB27
EN-RXC
EN-TXC
SPDIFIN
Y_G2
PB_B2
PR_R2
USB1-DP
USB1-DM
W25
Y30
HDMIF-RX0+
HDMIF-RX0HDMIF-RX1+
HDMIF-RX1HDMIF-RX2+
HDMIF-RX2HDMIF-RXC+
HDMIF-RXC-
A29
B29
A28
B28
A27
B27
B30
C30
HEAC
T27
PWR5V
T30
RREF
C29
USB2-DP
USB2-DM
CVBS-OUT1
IJ10
D1_P
D1_N
USBPPON1
TXRTUNE1
D2_P
D2_N
USBPPON2
TXRTUNE2
GBE_RXD0
GBE_TXD0
GBE_RXD1
GBE_TXD1
GBE_RXD2
GBE_TXD2
GBE_RXD3
GBE_TXD3
GBE_RXC
GBE_TXC
GBE_RXEN
GBE_TXEN
GBE_MDC
GBE_MDIO
RX0_P
RX0_N
RX1_P
RX1_N
RX2_P
RX2_N
RXC_P
RXC_N
HEAC
PWR5V
TA1_N
TB1_P
TB1_N
TC1_P
TC1_N
TCLK1_P
TCLK1_N
TD1_P
TD1_N
TE1_P
TE1_N
TA2_P
TA2_N
TB2_P
TB2_N
TC2_P
TC2_N
TCLK2_P
TCLK2_N
TD2_P
TD2_N
TE2_P
TE2_N
TA3_P
TA3_N
TB3_P
TB3_N
TC3_P
TC3_N
TCLK3_P
TCLK3_N
TD3_P
TD3_N
TE3_P
TE3_N
TA4_P
TA4_N
TB4_P
TB4_N
TC4_P
TC4_N
TCLK4_P
TCLK4_N
TD4_P
TD4_N
TE4_P
TE4_N
RREF
H_BK_LITE
PWM0
PWM1
BOOST
BKLGON
TCON_ON
NC_IDP_HPD
NC_LOCKN
NC_HTPDN
B3
A3
C3
C4
A4
B4
B5
A5
C5
C6
A6
B6
TX1-ATX1-A+
TX1-BTX1-B+
TX1-CTX1-C+
TX1-CLKTX1-CLK+
TX1-DTX1-D+
TX1-ETX1-E+
B9
A9
C9
C10
A10
B10
B11
A11
C11
C12
A12
B12
TX2-ATX2-A+
TX2-BTX2-B+
TX2-CTX2-C+
TX2-CLKTX2-CLK+
TX2-DTX2-D+
TX2-ETX2-E+
E3
D3
E4
D4
F5
F6
D5
E5
D6
E6
D7
E7
TX3-ATX3-A+
TX3-BTX3-B+
TX3-CTX3-C+
TX3-CLKTX3-CLK+
TX3-DTX3-D+
TX3-ETX3-E+
E10
D10
F10
F11
D11
E11
E12
D12
F12
F13
D13
E13
TX4-ATX4-A+
TX4-BTX4-B+
TX4-CTX4-C+
TX4-CLKTX4-CLK+
TX4-DTX4-D+
TX4-ETX4-E+
D2
B2
C1
B1
A2
C2
E9
F9
G9
BL-SPI-CLK-FUS
3D-LR-FUS
BL-SPI-CS_BL-I-CTRL-FUS
BL-DIM-FUS
7J00-9
FUSION120
RXD-SERVICE
TXD-SERVICE
Y29
Y28
EJT-TCK
EJT-TMS
EJT-TDO
EJT-TDI
EJT-TRSTN
K2
K3
K1
K5
K4
JTAG_I2C
UART SCLS
RXD
TXD
TCK
TMS
TDO
TDI
TRSTN
SDAS
SCLM1
SDAM1
SCLM2
SDAM2
SCLM3
SDAM3
U26
U27
AA28
AA27
SCL-M1
SDA-M1
E2
D1
SCL-M2
SDA-M2
AA26
AA25
SCL-M3
SDA-M3
BL-SPI-SDO-FUS
9GA2 RES
IJ0T
IJ0U
5
Fusion
2012-11-08
3104 313 6618
19370_014_130129.eps
130129
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 115
B03F, Fusion power supply
Fusion power supply
10u
10u
2J63
100n
2J64
100n
2J62
100n
2J61
100n
2J5Z
100n
2J5W
100n
2J5V
100n
2J5U
100n
2J60
10u
10u
2J7L
100n
2J77
10n
100n
100n
2J76
100n
2J75
10n
2J6V
10n
10n
2J6U
10n
2J6L
10n
2J67
10n
10n
2J6F
10n
2J66
10n
2J6C
100n
2J74
100n
100n
2J73
10n
2J6E
10n
2J65
10n
2J6P
10u
2J7K
10u
2J7J
100n
2J7D
100n
2J7C
100n
2J71
100n
2J72
10n
2J6D
10n
2J68
10n
2J6N
100n
2J70
10n
2J6G
10n
2J69
10n
2J6Y
10n
2J6R
10n
2J6H
10n
2J6A
10n
2J6M
10u
2J7G
100n
2J7B
10u
2J7H
2J7E
2J79
100n
2J7A
100n
2J6Z
2J6W
2J6S
2J6J
2J6B
2J95
2J08
220u 2V0
100n
2J5A
2J80
10n
2J5L
10n
2J5M
+1V5
10n
2J59
10u
120R
2J93
2J5B
10u
10n
2J5C
100n
2J5F
5J0P
2J5K
10n
100n
2J5D
100n
2J5H
10n
2J5G
10n
10n
10n
10n
2J09
10n
2J23
+1V5-M0
IJ0R
10n
AA15
Y15
W15
W16
W14
2J94
VDDC
2J78
+1V2-MIPS
120R
2J5N
10n
100n
2J6T
SENSE+1V2-MIPS
+1V5
5J0R
10n
2J7Y
10n
10n
2J98
K29
+1V5-M1
IJ0S
10u
100n
2J4N
120R
10u
LDO11_CAP
5J0G
+1V1-FA
K13
L13
2J7F
10n
GNDP
G11
22u
1n0
2J58
10u
IJ0P
VDDP
2J26
IJ0K
5J0N
+3V3
A8
B8
C8
D9
K11
L11
100u 2.0V
LVDSGND
120R
2J13
VSS11A_3
5J0F
+2V5-F
2J4M
10u
VDD33A
IJ0N
2J4Y
2J55
10n
10u
2J54
2J53
100n
D30
D28
LVDSVDD
VSS11A_1
2J4P
10u
+2V5
AVDD25_HDMI
A7
B7
C7
D8
E8
F8
G8
100n
D29
C27
IJ0J
5J0M
VSS11A_2
4n7
2J52
10n
10u
2J51
2J50
100n
D27
VDD11A
2J4R
C28
R4
AB5
AC5
M6
N6
V6
W6
Y6
AA6
AB6
AC6
M7
N7
V7
W7
Y7
AA7
AB7
AC7
P11
V11
P12
V12
P10
V10
W10
Y10
10n
2J7P
VQPS
N24
100n
2J92
AVSS25
AVSS25
10n
2J7R
10n
10n
2J4G
2J96
1u0
10n
2J4H
2J4F
REF_BG
IJ0H
5J0L
+1V1-FA
120R
+2V5-F
R10
R11
U10
U11
120R
100n
2J7Z
100n
10u
2J4W
2J4Z
K12
L12
AVDD25
5J0E
AC3
AC4
VDDM0
VSS_M1P
G10
120R
120R
VSSAC_1
IJ0G
5J0K
+2V5
120R
VDD2V5_M1P
VDD33
1u0
AB24
IJ0M
VSSAC_2
2J4J
AC24
VDD25
2J4L
10u
100n
2J4U
AC25
2J4V
120R
100n
AC26
IJ0F
5J0J
+3V3
Y12
Y13
Y14
AA13
AA14
120R
2J99
VSS_M0P
+2V5-F
100n
10u
2J4S
100n
2J4T
120R
5J0D
AG6
AG7
SENSE+1V1-FD
10n
2J7S
IJ0L
VDD2V5_M0P
2J97
SUPPLY_2
IJ0E
5J0H
+2V5
+1V1-FD
IJ00
100n
2J7W
9J04
9J03
7J00-2
FUSION120
2J7V
+2V5-F
10n
2J7T
5J0C
120R
IJ14
2J7U
IJ0D
VDDC
K16
L16
VDDC
+3V3
G15
VDDM1
5J0B
120R
PWR_GND
2J44
2J43
10u
2J46
2J4A
IJ0C
VSS
2J42
2J41
10u
100n
VDD25_LPLL
VSSA_LPLL
B13
C13
100n
2J91
AVSSH
2
3 INN
4
100n
100n
2J90
DAC2
2J4C
100n
E18
E19
E20
AVDDH
INN16
+3V3
C14
2J4B
10u
E17
5J0A
120R
2J4E
DAC1
2J4D
10u
VDD33_XTAL
B14
100n
AVDDH
AVSSH
+3V3-STANDBY
10u
2J3Z
AVSS_STB
2J49
10u
100n
10u
2J3V
2J3W
IJ06
2J40
E21
F21
+3V3
120R
IJ0B
J24
H28
5J06
AVSS
AVDD33_STB
5J09
G22
G23
VDDM0
K24
120R
AVDD
AVSSH_CH516
M11
G12
M12
T12
W12
G13
M13
P13
T13
V13
W13
D14
E14
F14
G14
M14
P14
T14
V14
D15
E15
F15
M15
P15
T15
V15
M16
P16
T16
V16
M17
P17
T17
V17
W17
M18
P18
T18
V18
W18
M19
P19
T19
V19
W19
L20
M20
N20
P20
R20
T20
U20
V20
W20
Y20
G21
L24
M24
L25
T11
K10
K21
L10
L21
M10
M21
N21
P21
R21
T10
T21
U21
V21
W21
Y21
AA20
AA21
AA12
AA11
AA10
AE14
AD14
AE13
AD13
AD12
AD11
Y11
W11
AE10
AD10
AE9
AD9
AF8
AE8
AD8
AF7
AD7
AF6
AE6
AD6
AF5
AE5
AD5
AF4
AE4
AD4
IJ05
+3V3-STANDBY
IJ0A
AVDDH_CH516
VDD_1V2
100n
G16
100n
5J04
10u
2J3T
2J3U
120R
IJ09
VSS
B15
+3V3
D21
C22
F22
C23
F23
C24
F24
E25
2J45
10u
SGNDAU
AVSSL_CH516
IJ04
5J03
120R
VREFAU
120R
VSS
F16
AVDDL_CH516
+1V2-FA
2J48
D16
E16
100n
2J3S
120R
10u
2J3R
+1V2-FA
100n
AVSSH_CH234
IJ03
5J02
5J07
E29
F28
100n
100n
10u
2J3M
100n
10u
2J3P
2J3Y
120R
AVDDL_DRX
2J47
10u
F18
G18
IJ08
IJ02
5J01
+3V3
120R
AVDDH_CH234
AVSSH_DRX
A1
AK1
M2
U2
Y2
AB2
AE2
AG2
P3
M4
AA4
AJ4
V5
L6
P6
R6
T6
K7
L7
P7
R7
T7
AJ7
AJ9
AG10
N11
AH11
N12
R12
U12
N13
R13
U13
AG13
L14
N14
R14
U14
AH14
L15
N15
R15
U15
AD15
AE15
N16
R16
U16
Y16
AD16
AE16
AG16
AJ16
L17
N17
R17
U17
Y17
AD17
AE17
L18
N18
R18
U18
Y18
L19
N19
R19
U19
Y19
AD20
AD21
P24
U24
V24
W24
A30
AK30
K14
K15
K17
K18
K19
K20
N10
AA16
AA17
AA18
AA19
5J05
+3V3
AVSSL_CH234
F17
G17
2J3N
AVDDL_CH234
F20
G20
G29
G30
E30
G27
G28
H27
100n
F19
G19
+1V2-FA
120R
IJ07
AVDDH_DRX
VSS
SUPPLY_1
IJ01
VDDC
7J00-1
FUSION120
5J00
100n
2J5T
2J5R
J7
H7
G7
F7
VDDF1
VDDF2
F26
AD25
T25
G25
F25
AD24
AA24
Y24
T24
H24
G24
AD23
AD22
AD19
AG18
AF18
AE18
R26
R25
R24
VDDF_STB
7J00-3
FUSION120
100n
2J5S
+3V3
10u
+3V3-STANDBY
2J5Y
B03F
10n
2J5P
B03F
2J56
10-2-15
QFU1.2E LA
5
Fusion power supply
2012-11-08
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 116
B04A, Control
Control
B04A
+3V3
+3V3
7GM1
PCA9540BGD
VDD
SDA-BL
SCL-BL
RES
+3V3
100K
100K
SDA-BL
SCL-BL
3GM1
3GM2
3GM3
3GM4
100K
100K
6
4K7
4K7
3CY2
4K7
3CY1-4 4
4K7
3CY1-3 3
6
SD1
SC1
SDA-BE
RES 9GM1
SDA-DISP
SCL-DISP
SCL-BE
3 3CY3-3 6
RES 9GM2
SCL-DISP
SDA-DISP
5
BM03B-SRSS-TBT
2 3CY3-2 7
1
8
47R
3CY3-1
EJT-TDO
RES 9GM3
SDA-BE
8
EJT-TCK
SDA-BL
RES 9GM4
SCL-BE
SCL-BL
1CV3 DBG
FCVC
SCL-BL
FCVD
FCVE
SDA-BL
5
47R
3CY4
BM06B-SRSS-TBT
47R
4
1
2
3
EJT-TMS
47R
FCY6
7
7
8
RES
SDA-DISP
SCL-DISP
EJT-TRSTN
47R
1
2
3
4
5
6
SCL
SDA-DISP
SCL-DISP
1CV2 DBG
4 3CY3-4 5
FCY1
FCY2
FCY3
FCY4
FCY5
1
4
5
SD0
SC0
SDA
VSS
5
3CY1-2 2
7
1
4K7
SDA-BE
2
SCL-BE
1CY1 DBG
3
4K7
4K7
3GM6
3GM5
+3V3
3CY1-1
4
1
2
3
BM03B-SRSS-TBT
EJT-TDI
3CVF
SCL-M2
SDA-M2
1CV1 DBG
SCL-BE
SCL-BE
47R
3CVG
FCV2
FCV1
SDA-BE
SDA-BE
FCV3
5
47R
3CV2
3D-LR-FUS
FCVB
4
1
2
3
BM03B-SRSS-TBT
3D-LR
47R
1CV6
1
2
3
FCY7
FCY8
4
FCY9
TXD-STANDBY
RXD-STANDBY
BL-SPI-CS_BL-I-CTRL-FUS
5
3GD5
BL-SPI-CS_BL-I-CTRL
10R
BM03B-SRSS-TBT
BL-DIM
RESET-RF4CEn
TXD-RF4CE
47R
3GM7 RES
3
7GM2 RES
PDTC114EU
10R
3CVW
FCVJ
10R
3CVY
FCVK
10R
9 10
2
SCL-FE
TXD-SERVICE
SDA-FE
RXD-SERVICE
STANDBYn
TXD-RF4CE
DETECT12V
RXD-RF4CE
LCD-PWR-ONn
BL-ON
RC_IRQ-RF4CEn
3CV8
BL-SPI-CLK-FUS
10R
3CV9
BL-SPI-SDO-FUS
AMBI-SPI-CCLK
3CVM
47R
3CVP
GPIO1
GPIO5
BM20B-SRDS-G-TF
GPIO6
DC02
3CYC
1CV4 DBG
TXD-RF4CE
TXD-RF4CE
FCVL
FCVA
RXD-RF4CE
FCVM
RXD-RF4CE
5
POWER-OK
POWER-OK
4
1
2
3
BM03B-SRSS-TBT
3CVU
+3V3
10K
3CVA
47R
DC03
FH52-8S-0.5SH
AMBI-SPI-MOSI
47R
21 22
1
2
3
4
5
6
7
8
+3V3-STANDBY
10R
GPIO0
2CV8
1
RC_IRQ-RF4CEn
3D-LED_3D-RF
FCVH
2CV9
10p
4K7
10R
3CVE
RXD-RF4CE
+3V3
SCL-M3
TXD-STANDBY
SDA-M3
RXD-STANDBY
FCVG
10p
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
3CVD
2CVA
10p
1CV5 DBG
1C27
FCVF
3CVC
10R
2CVB
10p
FCVN
3CV3
BL-DIM-FUS
2CVC
10p
B04A
8
10-2-16
QFU1.2E LA
+3V3
10K
3CYB
GPIO7
GPIO11
GPIO15
DC06
RES
47R
3CV4
IRQ-EXPANDERn
AMBI-SPI-CCLK
TXD-RF4CE
RXD-RF4CE
RES
3CV5
10R
3CV7
GPIO20
RES
+3V3-STANDBY
10K
3CVR
10K
10R
GPIO16
3CVN
3CVB RES
AMBI-SPI-MOSI
+3V3
10K
POWER-OK
47R
GPIO21
GPIO23
DC07
3CVS
IRQ-EXPANDERn
47R
3D-LR
IRQ-EXPANDERn
3CVT
+3V3
10K
9GM5 RES
3D-LED_3D-RF
9GM6 RES
3D-LR-DISP
5
Control
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 117
B04B, LVDS
LVDS
10p
10p
2GVT
2GVS
10p
10p
IGV6
100R
FGR1
FGR2
FGR3
FGR4
FGR5
FGR6
FGR7
FGR8
FGR9
9GV6
IGV2
3GVN
PCEC-QHDMI
3GVP
AMBI-TEMP
3GVR
BL-SPI-CS_BL-I-CTRL
IGV1
100R
100R
100R
IGV0
FGV5
FGV6
FGV7
FGV8
FGV9
FGVA
FGVB
TX3-CLKTX3-CLK+
FGVC
FGVD
TX3-DTX3-D+
TX3-ETX3-E+
FGVF
FGVG
FGVH
FGVJ
FGVK
TX4-ATX4-A+
TX4-BTX4-B+
TX4-CTX4-C+
FGVL
FGVM
FGVN
FGVP
FGVQ
FGVR
TX4-CLKTX4-CLK+
FGVS
FGVT
TX4-DTX4-D+
TX4-ETX4-E+
IGR0
IGR1
IGR2
IGR3
IGR4
IGR5
IGR6
IGR7
IGR8
IGR9
IGRA
TX3-ATX3-A+
TX3-BTX3-B+
TX3-CTX3-C+
FGVU
FGVV
FGVW
FGVY
+3V3
AMBI-SPI-OUT-MOSI
AMBI-SPI-DO-QFHD
5
GPIO2
4
3GVF
GPIO2
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
RES
100R
3GVG
GPIO2
RES
100R
BL-ON
SPLASH-ON
9GV1
GPIO8
SDA-DISP
SCL-DISP
BL-ON
BL-DIM
GPIO3
3D-LED_3D-RF
FGU7 RES
FGVZ RES
FGW0 RES
FGVE RES
RES
RES
FGU9 RES
FGUF RES
FGWA RES
FGU6 RES
FGWE RES
3D-LR-DISP
GPIO3
SPLASH-ON
GPIO2
TX1-ATX1-A+
TX1-BTX1-B+
TX1-CTX1-C+
3GV0
3GVE
3GVD
3GV3
3GV4
3GV5
3GV6
3GV7
3GV8
3GV9
3GVA
100R
10R
10R
10R
100R
100R
100R
100R
100R
100R
100R
TX2-CLKTX2-CLK+
FGU0
FGU1
TX2-DTX2-D+
TX2-ETX2-E+
FGU2
FGU3
FGU4
FGU5
1
Y1
Z
3
AMBI-SPI-MOSI-OUT
Y0
1
2
3
4
S
6
3GVH-1
3GVH-2
3GVH-3
3GVH-4
+3V3
AMBI-SPI-MOSI-OUT
9GVC
8
AMBI-SPI-OUT-MOSI
9GV8
8
7
6
5
IGV5
+VDISP
9
9GVB
7GV0-3
NX3L4684TK
S
GND
AMBI-SPI-CCLK-OUT
9GV9
AMBI-SPI-CLK-QFHD
AMBI-SPI-CCLK-OUT
9GVA
AMBI-SPI-OUT-CCLK
KEYBOARD_IRQ-SRFn
4
5
100n
Z
Y0
1M01
1
2
3
2GV2
Y1
11
GPIO2
9GV7
AMBI-SPI-DO-QFHD
VCC
7
IGV3
IGV4
RES 9GV3
+3V3-STANDBY
AMBI-SPI-CLK-QFHD
10p
10p
VCC
7GV0-2
NX3L4684TK
10
51
50
49
48
47
46
45
44
43
42
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
FGWB
TX2-ATX2-A+
TX2-BTX2-B+
TX2-CTX2-C+
TX1-DTX1-D+
TX1-ETX1-E+
GND
AMBI-SPI-OUT-CCLK
1G51
20519-051E
60
61
58
59
56
57
54
55
52
53
IGW1
IGW2
IGW3
IGW4
IGW5
IGW6
FGU8
IGW7
FGW8
IGW9
FGWC
FGWD
FGWF
FGWG
FGWH
FGWJ
FGWK
FGWL
FGWM
FGWN
FGWP
FGWQ
FGWR
FGWS
RES 2GVJ
RES 2GVM
FGWT
FGWU
FGWV
FGWW
FGWY
FGWZ
TX1-CLKTX1-CLK+
TO DISPLAY
100n
+3V3
RES
100R
RES 2GVU
7GV0-1
NX3L4684TK
2
9GVD
3GVK
AMBI-SPI-CLK-QFHD
1K0
100R
9GV4
IGV7
9GV5
RES
100R
3GVC RES
3GVM
ARC3
100R
RES
3GVJ
AMBI-SPI-DO-QFHD
10p
10p
10p
10p
1n0
1n0
1n0
10p
10p
1n0
3GVB
GPIO8
FGV0
1G50
20519-041E
50
51
48
49
46
47
44
45
42
43
RES 2GV9
RES 2GVA
RES 2GVB
RES 2GVC
RES 2GVD
RES 2GVF
RES 2GVG
RES 2GVL
RES 2GVK
RES 2GVH
SPDIFIN
2GVP
3GVL
2GVR
2GVN
10p
B04B
1
B04B
TO DISPLAY
A1253WVA
GND_HS
6
10-2-17
QFU1.2E LA
1X03
EMC HOLE
1X05
REF EMC HOLE
5
LVDS
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 118
B04C, Output Vdisp
Output Vdisp
B04C
1 9GS1-1
RES
2 9GS1-2
RES
3 9GS1-3
RES
4 9GS1-4
RES
1 9GS2-1
RES
2 9GS2-2
RES
3 9GS2-3
RES
4 9GS2-4
RES
8
7
6
FGS1
5
5
3
2GS5
3GS4
IGS2
47K
IGS1
3GS5
DBG
4K7
27K
7GS3-1
PUMD12
1
3GS6
6
2
100n
RES
22u
100n
IGS5
LCD-PWR-ONn
2GS2
+VDISP
3GS1
7GS3-2
PUMD12
3
IGS4
FGS2
6
5
2
1
2GS1
7GS2
SI3443CDV
4
2GS3 RES
3GS3
5
4
T 4.0A 32V
22n
6
RES
4
+12V
+3V3
7
8
7
6
5
3
2
7GS1 1
SI4835DDY-GE3
RES
1GS1
8
47R
B04C
4K7
10-2-18
QFU1.2E LA
6GS1
DBG
LTST-C190KGKT
5
Output Vdisp
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 119
B04D, Tuner CVBS debug
Tuner CVBS debug
B04D
470R
3FW4 RES
IFW5
3FW8
IFW3 5FW3 RES
RES
75R
DFW1
1u8
2FW5
150R
RES
150R
RES 3FW7
IFW4
3
RES
33p
270p
47u
2FW3
2FW6
7FW1-1
BC847BPN(COL)
RES
3FW5
RES
1
2
IFW2
RES
3K3
CVBS-OUT1
2FW4
5
4
7FW1-2
BC847BPN(COL)
RES
RES
IFW1
6
100p
10K
3FW3
RES
+12V
3FW6
B04D
RES
10-2-19
QFU1.2E LA
DFW2
5
Tuner CVBS debug
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 120
B04E, Audio - video
Audio - video
B04E
2VW1
CVBS1
150R
150R
SC1-CVBS
100n
2VW3
3VWN
3VWP
CVBS
100n
2VW2
3VWM
150R
CVBS3
Y-G1
100n
2VW4
3VWR
150R
PB-B1
100n
2VW5
3VWS
150R
PR-R1
100n
2VW6
Y1-IN
150R
PB1-IN
150R
150R
100n
2VW9
150R
100n
2VWA
150R
100n
2VWB
3VWV
SC1-G
3VWB
SC1-B
3VWC
SC1-R
150R
3VW3
10K
IVW1
8K2
AL-1
2VWE
AR-4
33K
3VW8
IVW4
2VWF
AL-4
33K
1u0
3VWA
DVW1
2VWD
1u0
8K2
WSI2SIN
AR-1
33K
IVW3
8K2
3VW9
FB1
2VWC
1u0
3VW6
3VW7
SDI2SIN
PR-R3
33K
IVW2
8K2
SC-LIN
PB-B3
1u0
3VW4
3VW5
SC-RIN
Y-G3
3VWW
SC1-BLK
YPBPR-LIN
PR-R2
100n
3VWD
YPBPR-RIN
PB-B2
100n
2VW8
3VWU
PR1-IN
Y-G2
100n
2VW7
3VWT
DVW2
FVW0
DVW4
AUD-R
DVW5
AUD-L
DVW6
+3V3
4K7
SCKIN
3VWF
SPDIFIN
VGA-LIN
3VWH
4K7
RES 3VWG
AUDIO-MUTEn
IVW7
8K2
3VWK
AL-3
33K
1u0
RES 3VWJ
VGA-RIN
2VWJ
IVW8
8K2
2VWK
AR-3
1u0
33K
B04E
3VWL
10-2-20
QFU1.2E LA
5
Audio - video
2012-11-08
3104 313 6618
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div. table
�Circuit Diagrams and PWB Layouts
10.
EN 121
B04F, Fusion supply
Fusion supply
B04F
3
7UB1
TPS7A7001DDA
10u
2UB0
+1V5
IN
Φ
6
7
FB
3UB3
3UB4
22K 1%
3UB8
220K 1%
47K 1%
3UB7
RES 3UB6
3UB5
100K 1%
1K0
100p
3UBF
IUB4
FUB1
SENSE+1V2-MIPS
CORE VOLTAGE SUPPLY MIPS FUSION
1M0
10K 1%
3UBA
RES
3UB9
+1V2-MIPS
27K
1%
DVS2
IUB5
FUB0
RES
27K 1%
IUB3 2UB3
10u
9
8
GND
NC
10
11 VIA
GND_HS
OUT
2UB4
EN
1
4
5
100n
2UB6
2
5UB0
IUB6
+1V5
4
SW
SS
EN
VREG5
5
9
GND_HS GND
VIA
IUB8
7
6
3
2UBD
2UBB RES
22u
22u
2UBA
2UBC
VBST
1n0
10n
2UBH
1
VFB
1 3UBE-1 8
10R
100n
IUBA
3
10R
3UBE-3
IUBC
2UBJ
2UBK
1n0
2 3UBE-2 7
1n0
6
10R
1u0
2
2UBF
22K 1%
2UBE RES
IUBB
+1V5
10
11
3UBB
Φ
STEP DOWN
IUB9
470K RES
2UBG
FUB2
5UB1
8
VIN
22K 1%
IUB7
2u0
7UB5
TPS54527DDA
22p
100n
2UB7
10u
10u
2UB9
2UB8
30R
22u
+12Va
3UBD
B04F
3UBC
10-2-21
QFU1.2E LA
4 3UBE-4 5
10R
GND-1V5
GND-1V5
GND-1V5
GND-1V5
CUB0
DDR3 SUPPLY FUSION
GND-1V5
ENABLE+1V5+1V1
5
Fusion supply
2012-11-08
3104 313 6618
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 122
B04G, Backlight microcontroller
B04G
Backlight microcontroller
B04G
+3V3
3GE1
4K7
4K7
100n
100n
2GE2
1u0
RES 2GE0
+3V3
3GE0
+3V3
2GE1
1GE0
FGE0
TXD-LPC
+3V3
RXD-LPC
4
1
2 DBG
3
BM03B-SRSS-TBT
1K0
100R
FGE2
5
RES
3GEK RES
3GE2
RESET-FUSION-OUTn
FGE1
+3V3
LPC-RESETn
LPC-LED3
9GE2
AMBI-SPI-OUT-CCLK
1GE2
SKHUBHE010
1
2
100n
330R
3GEF DBG
DBG
6GE3
LTST-C190KGKT
330R
3GEE DBG
DBG
LTST-C190KGKT
330R
6GE2
DBG
6GE0
+3V3
+3V3
+3V3
+3V3
3GEC DBG
+3V3
LTST-C190KGKT
BL-DIM5
BL-DIM6
BL-DIM8
3D-LR-DISP
BL-DIM7
AMBI-SPI-CCLK
DBG
FGE5
330R
10R
2GE5
DBG
LPC-LED4
AMBI-SPI-OUT-CCLK
3GEA
RES
3
4
3
4
1GE1
SKHUBHE010
3D-LR
LPC-LED1
LPC-LED2
36
37
43
48
18
21
PIO1_0|R|AD1|CT32B1_CAP0
PIO3_0|DTR_|CT16B0_MAT0|TXD
PIO1_1|R|AD2|CT32B1_MAT0
PIO3_1|DSR_|CT16B0_MAT1|RXD
PIO1_2|R|AD3|CT32B1_MAT1
PIO3_2|DCD_|CT16B0_MAT2|SCK1
PIO1_3|SWDIO|AD4|CT32B1_MAT2
PIO3_3|RI_|CT16B0_CAP0
PIO1_4|AD5|CT32B1_MAT3|WAKEUP
PIO3_4|CT16B0_CAP1|RXD
PIO1_5|RTS_|CT32B0_CAP0
PIO3_5|CT16B1_CAP1|TXD
PIO1_6|RXD|CT32B0_MAT0
PIO1_7|TXD|CT32B0_MAT1
PIO1_8|CT16B1_CAP0
PIO1_9|CT16B1_MAT0|MOSI1
PIO1_10|AD6|CT16B1_MAT1|MISO1
PIO1_11|AD7|CT32B1_CAP1
VSS
AMBI-SPI-CCLK
AMBI-SPI-MOSI
3D-LED_3D-RF
9GE1
RES
6GE1
RES 100K
RES 100K
3GEN
1u0
3GEM
10K
2GE6
3GEL
9GE0
RES
100R
DBG
LTST-C190KGKT
BL-DIM
RXD-LPC
TXD-LPC
BL-SPI-CS_BL-I-CTRL
2
13
26
38
19
20
1
11
12
24
25
31
PIO2_0|DTR_|SSEL1
PIO2_1|DSR_|SCK1
PIO2_2|DCD_|MISO1
PIO2_3|RI_|MOSI1
PIO2_4|CT16B1_MAT1|SSEL1
PIO2_5|CT32B0_MAT0
PIO2_6|CT32B0_MAT1
PIO2_7|CT32B0_MAT2|RXD
PIO2_8|CT32B0_MAT3|TXD
PIO2_9|CT32B0_CAP0
PIO2_10
PIO2_11|SCK0|CT32B0_CAP1
100R
3GE5
3GEB DBG
33
34
35
39
40
45
46
47
9
17
30
42
BL-DIM2
BL-DIM3
BL-DIM4
LPC-SWDIO
PIO0_0|RESET_
PIO0_1|CLKOUT|CT32B0_MAT2
PIO0_2|SSEL0|CT16B0_CAP0
PIO0_3
PIO0_4|SCL
PIO0_5|SDA
PIO0_6|SCK0
PIO0_7|CTS_
PIO0_8|MISO0|CT16B0_MAT0
PIO0_9|MOSI0|CT16B0_MAT
PIO0_10|SWCLK|SCK0|CT16B0_MAT2
PIO0_11|R|AD0|CT32B0_MAT3
FGE4
DBG
RES
3GE9 10R
AMBI-SPI-OUT-MOSI
LPC-SWCLK
BL-DIM1
10R
LPC-ISPn
DBG
3GE4
1
2
3GE8
XTALOUT
FGE3
LPC-RESETn
100n
3GE7
10R
3
4
10
14
15
16
22
23
27
28
29
32
VDD
XTALIN
2GE4
3GE6
7
LPC-ISPn
SCL-SSB
SDA-SSB
6
5
41
100n
2GE3
IGE1
RES
3GE3 100R
8
44
7GE0
LPC1114FBD48/301
+3V3
1K0
LPC-LED1
LPC-LED2
LPC-LED3
9GE3
AMBI-SPI-MOSI
AMBI-SPI-OUT-MOSI
LPC-LED4
9GE4
BL-DIM
BL-DIM1
+3V3
ROW_1
1GE3-1
RES
3GEJ
1K0
1
3
5 DEBUG
7
9
ROW_2
1GE3-2
10K
+3V3
3GEG
10-2-22
QFU1.2E LA
2
4
DEBUG 6
8
10
FGE6
FGE7
FGE8
3GEH
RES
LPC-SWDIO
LPC-SWCLK
AMBI-SPI-OUT-MOSI
100R
LPC-RESETn
FTSH-105-01-L-DV
FTSH-105-01-L-DV
5
Backlight microcontroller
2012-11-08
3104 313 6618
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 123
B04H, eMMC
100n
2EJ5
100n
100n
2EJ4
100n
2EJ3
100n
2EJ2
2EJ1
B04H
+3V3
+3V3
100n
2EJ6
eMMC
SDIO2-CLK
33R
2
3EJ6-2
FEJ1 M6
SDIO2-CMD
+3V3
33R
GPIO16
FEJ2 M5
SDIO2-CMD
SDIO2-CLK
3EJ5
GPIO15
7
SDIO2-D0
3EJ0
FEJ0 K5
10K
SDIO2-RESETn
VDDI
C2
VCCQ
CMD
CLK
RST
VDDI
SDIO2-D1
33R
GPIO18
1
3EJ6-1
8
VSS
G5
E7
K8
H10
6
100n
3EJ6-3
2EJ7
3
VCC
0
1
2
3
DATA
4
5
6
7
VSSQ
MAIN
33R
GPIO17
+3V3
E6
F5
K9
J10
C6
M4
N4
P3
P5
7EJ0-1
H26M21001ECR
A3
A4
A5
B2
B3
B4
B5
B6
FEJ3
FEJ4
FEJ5
FEJ6
FEJ7
FEJ8
FEJ9
FEJA
SDIO2-D0
SDIO2-D1
SDIO2-D2
SDIO2-D3
SDIO2-D4
SDIO2-D5
SDIO2-D6
SDIO2-D7
SDIO2-D0
2
SDIO2-D1
3
SDIO2-D2
4
4
3EJ6-4
1
3EJ7-1
1
SDIO2-D4
5
SDIO2-D2
8
SDIO2-D5
SDIO2-CLK
SDIO2-CMD
3EJ7-4
+3V3
SDIO2-D5
3
3EJ7-3
5
+3V3
+3V3
SDIO2-D6
SDIO2-D7
SDIO2-D6
7EJ0-2
H26M21001ECR
6
3EJ8
SDIO2-RESETn
33R
GPIO24
2
3EJ7-2
8
2
3EJ3-2
7
1
3EJ3-1
8
4
3EJ3-4
5
SDIO2-D3
SDIO2-D6
SDIO2-D7
+3V3
7
3
3EJ3-3
6
47K
NC
SDIO2-D7
33R
GPIO23
3EJ2-1
47K
33R
GPIO22
5
47K
M3
M7
M8
M9
M10
M11
M12
M13
M14
N1
N3
N6
N7
N8
N9
N10
N11
N12
N13
N14
P1
P2
P7
P8
P9
P10
P11
P12
P13
P14
4
3EJ2-4
47K
33R
GPIO21
6
47K
33R
GPIO20
3EJ2-3
47K
33R
GPIO19
7
47K
SDIO2-D3
FEJB
SDIO2-D3
3EJ2-2
47K
C4
N2
N5
P4
P6
3EJ4
GPIO14
4K7
+3V3
SDIO2-D4
33R
+3V3
VDDI
SDIO2-D4
SDIO2-D5
A1
A2
A6
A7
A8
A9
A10
A11
A12
A13
A14
B1
B7
B8
B9
B10
B11
B12
B13
B14
C1
C3
C5
C7
C8
C9
C10
C11
C12
C13
C14
NC
NC
NC
H1
H2
H3
H5
H12
H13
H14
J1
J2
J3
J5
J12
J13
J14
K1
K2
K3
K6
K7
K10
K12
K13
K14
L1
L2
L3
L12
L13
L14
M1
M2
+3V3
SDIO2-RESETn
NC
D1
D2
D3
D4
D12
D13
D14
E1
E2
E3
E5
E8
E9
E10
E12
E13
E14
F1
F2
F3
F10
F12
F13
F14
G1
G2
G3
G10
G12
G13
G14
B04H
3EJ1
10-2-23
QFU1.2E LA
SDIO2-D4
SDIO2-D5
+3V3
5
eMMC
2012-11-08
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div. table
�Circuit Diagrams and PWB Layouts
10.
EN 124
B05A, Class-D amplifier
Class-D amplifier
B05A
3D60
A-STBY
+3V3D
+12V-AUDIO
10K
1
+12V-AUDIO
30R
220n
5D51
220n
2D65
2D64
10u
10u
2D59
10u
2D58
10u
2D57
10u
2D66
30R
2D63
220n
5D50
220n
2D62
10u
2D61
10u
2D60
10u
2D84
2
10u
2D92
7D70
PDTC144EU
2D97
2D49
2D48
5D85
10K
3D82
100u 16V
2D67
2D5C
1u0
1u0
100n
2D93 RES
100n
2D69
10u
2D68
2D86
+3V3
+3V3D
30R
SSTIMER
2n2
26
STEST
VIA
10K
3D83
10n
10n
2D78
2D99
220n
ID53
330p
10u
10n
2D70
2D98
10n
1D51
SPEAKER-R-
2D95
5D79
1D50
ID99
30R
1D52
SPEAKER-R+
10n
10u
22K
2041145-3
FD70
ID96
2D87
3D71
1
2
3
ID57
2041145-4
5D01
3D70 RES
18K2 1%
1D02
1
2
3
4
ID98
5D80
SPEAKER-R-
30R
5D77
30R
GND_HS
49
37
38
47
48
17
PGND
AB
CD
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
Left+
LeftRight+
Right-
FD33
FD32
18R
330p
5D76
ID52
ID83
ID84
2D94
1D01
FD30
FD31
SPEAKER-LSPEAKER-R+
CD00
28
A
9
GND
29
30
AGND
VSS
D DO
7
16
3D74
33n
36
SPEAKER-L-
10n
OC_ADJ
OSC_RES
PBTL
33
10u
33n
ID94
10n
2D73
BST_D
2D85
5D74
5D81
ID63
ID70
6
42
5D75
30R
ID51
2D82
2D81
2D54
39
1D56
8
FD69
30R
1D55
ID97
9D51
5D71
1D53
4n7
BST_C
VR_ANA
PLL_FLTP
PLL_FLTM
OUT_D
ID69
33n
2D76
47n
2D80
ID93
470R
2D52
470R
2D53
33n
220n
47n
ID82
46
220n
2D55
12
11
10
4n7
3D51
2D51
ID81 2D79
ID62
ID66
ID91
SPEAKER-L+
1D54
RESET
PDN
OUT_C
2D50
SPEAKER-L+
30R
10n
OUT_B
5D00
ID88
2D83
25
19
43
5D70
10u
100n
1
4
ID50
30R
BST_B
3D77
100n
30R
BST_A
A_SEL
ID80 2D77
220n
2D71
OUT_A
ID79
31
3D73
SDA
SCL
18
220n
14
100u 16V
34
35
VR_DIG
2D56
40
41
AUDIO
AMPLIFIER
330p
44
45
2D72
10u
2D74
18R
2
3
5
32
D
2D75
ID90
2D5D
9D50
RES
27
13
23
24
3D76 RES
15K
D-RESET
3D52
ID61
C
PVDD
2D89
ID56
7D50-2
PUMH2
ID58
B
18R
ID89
SDI2SOUT3
A
OUT
GVDD
3D75
10K
3D50
3D54
47R
47R
10K
9D55
+3V3D
BM04B-SRSS-TBT
ID65
AUDIO-MUTE
10K
3D55
3D56
RES
7D50-1
PUMH2
LRCLK
SCLK
MCLK
SDIN
VREG
6
D-RESET
AVDD DVDD
20
21
15
22
FD50
SDA-SSB
SCL-SSB
A-STBY
FD64
FD66
18R
5
RES 9D53
9D54
7D60
TAS5711PHP
3D72
SCKI2SOUT
WSI2SOUT
FD67
FD63
FD65
WSI2SOUT
I2SCLK
SCKI2SOUT
SDI2SOUT1
TAS5731P1
ID76 ID75
ID77
3D57
1R0
330p
+3V3D
+3V3D
9D52
SDI2SOUT1
ID78
1R0
2D88
10R
1
2
3
4
3D58
+3V3D
3D79
100u 16V
2D5B
DBG
1D03
RES 3D63
DETECT12V
16V 100u
SPEAKER-R-
2
ID87
ID55
SPEAKER-L7D71 RES
PDTC144EU
+3V3-STANDBY
ID54
10n
2D91
3
1
10K
AUDIO-MUTE
10K
AUDIO-MUTEn
2D5A
10R
3D62
+3V3D
100u 16V
100u 16V
3D78
3D61
5D83
RESET-FUSION-OUTn
3
10u
2D96
B05A
47K
10-2-24
QFU1.2E LA
1X02
REF EMC HOLE
5
Class-D amplifier
2012-11-08
3104 313 6618
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 125
B05B, Analogue externals
Analogue externals
B05B
FVA9
1VAG
6n8
2VA9
6VA8
100p
2VA8
1K0
CDS4C12GTA
12V
3VA7
SC-RIN
RES
FVAA
6n8
SCART
1VAH
6VA9
100p
2VAA
1K0
2VAB
RES
3VA8
SC-LIN
CDS4C12GTA
12V
B05B
49045-0011
25
26
FVA1
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
FVAB
IVA0
1VAJ
75R
3VAG
CDS4C12GTA
12V
RES
FVAC
1VAK
CDS4C12GTA
12V
RES
100p
6VAC
2VAE
1K5
1u0
3VAA
12K
2VAD
PDZ2.4B(COL)
FVA2
3VA9
SC1-STATUS
6VAB
6VAA
100p
2VAC
SC1-B
+3V3
FVA4
1VAL
75R
3VAB
CDS4C12GTA
12V
RES
6VAD
100p
1R0
FD90
1
SPDIFO
1VAM
75R
3VAC
CDS4C12GTA
12V
RES
6VAE
100R
1VAN
CDS4C12GTA
12V
RES
6VAG
100p
FVAE
75R
2VAH
6VAF
100p
3VAD
SC1-BLK
3VAE
IVA1
PDZ2.4B(COL)
2VAG
CDS4C12GTA
12V
FVAF
1VAP
150R
3VAF
CDS4C12GTA
12V
RES
FVAG
3VAK
SC1-DETECTn
6VAH
100p
2VAJ
SC1-CVBS
100p
47R
2VAK
RES 6D0A
V_NOM
100p
1D0A
1VA1
FVAD
SC1-R
3
100n
GND
MT
5 4
ID95
RES 2D0B
VIN
2VAF
1J50
3150-831-030-H1
2
VCC
3D90
SC1-G
2D0A
10-2-25
QFU1.2E LA
5
Analogue externals
2012-11-08
3104 313 6618
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div. table
�Circuit Diagrams and PWB Layouts
10.
EN 126
B05C, Sensor board and AmbiLight
Sensor board and AmbiLight
B05C
FAA0
FH52-11S-0.5SH
FH52-25S-0.5SH
FH52-40S-0.5SH
FAA1
42 41
3CAF
SDA-SRF
10R
FAA2
3CAE
IAA0
3CAG
FAA3
FAA4
+5V
0R3
+T
SCL-SRF
3CAD
10R
3CAB
3CAA
3AAA
FAA6
FAA7
FAA8
LED2-OUT
KEYBOARD_IRQ-SRFn
LED2-OUT
3D-LED_3D-RF
AMBI-TEMP
100R
100R
100R
3AAB
3AAC
AMBI-SPI-CCLK-OUT
1u0
10p
470p
2CAD
470p
2AAV
2AAC
10p
10p
2CAB
100p
2CAA
100p
100p
100p
47R
2CAR
2CAS
AMBI-SPI-MOSI-OUT
47R
+3V3-STANDBY
2CAP
AMBI-POWER
IAA1 1u0
SDA-MC
2AAW
FAA9
GND-AL
9CAA
9CAB
+3V3-STANDBY
10R
FAA5
GND-AL
3CAH
10K
RC_IRQ-RF4CEn
3CAC
GND-AL
LED2-OUT
10R
AMBI-POWER
+3V3AL
AMBI-POWER
2CAT
2CAU
100n
RES
10u
GND-AL
2CAL
RES
3AAD
100n
+3V3
FAAZ
+3V3AL
10u
2AAE
GND-AL
1C26
10u
+T 0R3
2AAD
1C25
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
2CAN
27 26
1u0
1C20
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
2CAJ
13 12
2CAM
11
10
9
8
7
6
5
4
3
2
1
1u0
B05C
2CAK
10-2-26
QFU1.2E LA
GND-AL
5
Sensor board and AmbiLight
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 127
B06A, HDMI
+3V3
100K
1H02
FHB2
15
16
DRX-HOTPLUG
3HA4
BRX1BRX0+
17
18
BRX-DDC-SCL
BRX-DDC-SDA
BIN-5V
BRX-HOTPLUG
21 20
23 22
45
46
43
44
DRX-DDC-SDA
DRX-DDC-SCL
DDRXCDDRXC+
19
20
DDRX0DDRX0+
21
22
FHAR
FHAS
1 3HAB-1 8
BRX0BRXC+
FHBA
47K
BIN-5V
2HA1
10R
100K
DIN-5V
1u0
4 3HA1-4 5
BRX2BRX1+
DDRX1DDRX1+
23
24
DDRX2DDRX2+
25
26
47K
FHAG
BRX2+
BRXCPCEC-HDMI
HARC0
BRX-DDC-SCL
BRX-DDC-SDA
13
14
CRX2CRX2+
7 3HAB-2 2
HDMI CONNECTOR 2
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
11
12
CRX1CRX1+
1u0
CRXCCRXC+
CIN-5V
39
40
CRX0CRX0+
2HA2
CRX-DDC-SDA
CRX-DDC-SCL
100n
100n
2HAN
10u
2HAM
2HAJ
100n
2HAP
100n
2HAG
2
37
38
SBVCC33
N
R0X2
P
TX2
(CBUS) HPD1
R1PWR5V
N
P
TX1
N
R1XC
P
N
P
TX0
DSDA1
DSCL1
N
P
TXC
N
R1X0
P
N
P
N
R1X1
P
TPWR_CI2CA
N
R1X2
P
CEC_A
57
56
HDMIF-RX2HDMIF-RX2+
59
58
HDMIF-RX1HDMIF-RX1+
61
60
HDMIF-RX0HDMIF-RX0+
63
62
HDMIF-RXCHDMIF-RXC+
3HB0
4K7
MICOM-VCC33
3HB1 RES
FHA4
55
4K7
50
3HAS
(CBUS) HPD2
R2PWR5V
INT
52
4K7
3HAY
FHA3
CSCL
CSDA
N
R2X0
P
54
53
3HAV
3HAW
47R
47R
SCL-SSB
SDA-SSB
+1V5
RSVDL
N
R2X1
P
R4PWR5V
10R
DSDA2
DSCL2
N
R2XC
P
pin (49)
FHA6
+5V
+3V3
RES
+5V
+3V3
2HAB
10
28
7HA1-1
RT9025-12GSP
N
R2X2
P
1u0
VDD
3
(CBUS) HPD3
R3PWR5V
DSDA3
DSCL3
N
R3XC
P
VIA
N
R3X0
P
N
R3X1
P
N
R3X2
P
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
2
VIN
FHB5
6
VOUT
EN
ADJ
7
1
PGOOD
+1V2-FE
5
NC
GND
GND HS
22
23
24
25
26
10R
41
42
FHB9
N
R0X1
P
100K
CRX-HOTPLUG
3HA3
3 3HA1-3 6
FHB1
10K
51
7HA1-2
RT9025-12GSP
VIA
18
19
20
21
VIA
VIA
10
11
12
13
VIA
14
15
16
17
CIN-5V
CRX-HOTPLUG
CIN-5V
FHAN
FHAP
CRX-DDC-SCL
CRX-DDC-SDA
21 20
23 22
47K
CRXCPCEC-HDMI
HARC1
CRX-DDC-SCL
CRX-DDC-SDA
3 3HAA-3 6
CRX0CRXC+
7
8
3HBQ
10u
BRX2BRX2+
CIN-5V
5
6
10K
1u0
BRX1BRX1+
CRX1CRX0+
3
4
R4PWR5V
3HBP
3HAR
BRX0BRX0+
CRX2CRX1+
47K
FHAF
1
2
CEC_D
48
47
2HAA
BRXCBRXC+
CRX2+
5 3HAA-4 4
HDMI CONNECTOR 3
33
34
N
R0X0
P
49
2HAD
BRX-DDC-SDA
BRX-DDC-SCL
DSCL4
DSDA4
4
1u0
DIN-5V
35
36
R4PWR5V
N
R0XC
P
SBVCC33
RES
9
10R
1H03
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
FHB8
DSDA0
DSCL0
RES
IHB1
8
FHB0
100K
BIN-5V
2 3HA1-2 7
21 20
23 22
71
72
BRX-HOTPLUG
3HA2
2HA4
DIN-5V
DRX-HOTPLUG
69
70
(CBUS) HPD0
R0PWR5V
FHA7
30R
10u
1u0
FHAL
FHAM
DRX-DDC-SCL
DRX-DDC-SDA
67
68
ARX2ARX2+
47K
7 3HAA-2 2
DDRXCPCEC-HDMI
HARC2
DRX-DDC-SCL
DRX-DDC-SDA
65
66
ARX1ARX1+
100K
ARXCARXC+
DIN-5V
29
30
ARX0ARX0+
DDRX1DDRX0+
DDRX0DDRXC+
31
32
ARX-DDC-SDA
ARX-DDC-SCL
pin (38)
RES
5HA6
10u
VOUT
2HA9
2HA5
10R
FHB7
MICOM_VCC33
ARX-HOTPLUG
3HA0
FHAY
1 3HA1-1 8
AIN-5V
DDRX2DDRX1+
47K
FHAE
DDRX2+
1 3HAA-1 8
HDMI CONNECTOR 4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
9
27
64
VCC33
1H04
B06A
1
2HAF
EN
EN
VCC33
3
FLG
10u
VIN
2HAL
4
100n
RES 2HAK
PDZ2.4B(COL)
5HA9
5
GND
7HA0
SII9287B
FHA8
30R
RES
IHB0
1u0
2HB5
2K2
FHBC
pins (9,27,64)
5HA5
+3V3
7HA5
RT9715EGB
10K
2HB4
I2C ADDRESS
SII9287B=OXB2
1u0
3HAP
MICOM-VCC33
3K3
6HA1
FHB4
SBVCC33
VCC33
3HA5 RES
+5V
30R
HDMI
3HA6
B06A
73
EPAD
BIN-5V
1H01
1V2 DVB-T2 and DVB-S2
ARX2ARX1+
ARX1ARX0+
AIN-5V
RES
+3V3-STANDBY
IHB3
RES
IHB4
IHB5
3HB3
PCEC-HDMI
FHB6
9HA0
BC847BW
7HA3
AIN-5V
HDMI-CEC
100R
IHB6
27K
9HA1
3HBS
PCEC-QHDMI
1M0
21 20
23 22
FHAV
FHAW
ARX-DDC-SCL
ARX-DDC-SDA
3HB2
22K
7HA2
BC847BW
3HAL
AIN-5V
ARX-HOTPLUG
IHB2
47K
ARXCPCEC-HDMI
HARC4
ARX-DDC-SCL
ARX-DDC-SDA
3 3HAB-3 6
ARX0ARXC+
RES
FHAH
ARX2+
47K
HDMI CONNECTOR 1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
5 3HAB-4 4
10-2-27
QFU1.2E LA
3HB4
+3V3-STANDBY
22K
1X01
REF EMC HOLE
1X07
EMC HOLE
1X08
EMC HOLE
1X09
EMC HOLE
1X14
REF EMC HOLE
5
HDMI
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 128
B06B, HDMI-ARC
HDMI-ARC
B06B
IHD1
IHDF
HARC1
HARC2
FHD4
5HD0
FHD5
30R
5HD1
FHD6
30R
5HD2
ARC1
IHDH
ARC2
IHDM
ARC3
IHDK
3HD4
HARC0
ARC0
IHDG
9HD4
ARC4
RES
9HD2
ARC4
100R
B06B
ARC0
ARC1
ARC2
30R
IHD8
9HD5
3HD9
+5V-ARC
10p
5HD5
FHD3
+5V
100n
1u0
16
7HD0
74HC4051PW
2HDD
2HD6
30R
IHD7
9HD6
10
9HD0
6
1
2
2
G8
3
4
3
5
6
7
VEE
15
FHD7
12
9HD9
1
5
2
4
GND
8
HDMI-ARC
14
IHD4
9HD8
IHDL
HDMI-ARC
100R
9
0
0
7
3HDT
FHD2
8X
RES
ARC-SEL2
MDX
0
3HDE
FHD1
100R
ARC-SEL1
13
3HDU
11
3HDS
FHD0
100R
VCC
ARC-SEL0
7
2HD5
10p
10p
2HD3
100R
ARC4
30R
100R
FHD8
10p
2HD1
HARC4
5HD4
2HD0
10-2-28
QFU1.2E LA
5
HDMI-ARC
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 129
B06C, USB external
B06C
USB external
B06C
+3V3
3EA7
+5V
+T
0R3
3EA8-1
100K
3EA8-2
FEAD
100K
100n
100n
2EA7
100n
2EA6
2EA4
100n
2EA5
USB-PORTA-OC
100n
2EA3
+5V-PORTA
3EA8-3
100K
3EA8-4
18p
3
4
25
USB-PORTB-DM
USB-PORTB-DP
USB-PORTB-OC
USB-PORTA-DM
USB-PORTA-DP
USB-PORTA-OC
6
7
24
USB-PORTC-DM
USB-PORTC-DP
USB-PORTC-OC
12
13
20
15
16
19
3EA1
+3V3
10K
28
17
22
23
8
RESET-FUSION-OUTn
IEA1
3EA3
3EA4
10K
680R
IEA2
100K
+3V3
+3V3
XOUT
21
VCC_D
XIN
5
VCC_A_1
9
VCC_A_2
14
VCC_A_3
11
DD+
DD1DD1+
OVR1
IEA3 USB2-DM
IEA4 USB2-DP
3EAC
+5V
+T
DD2DD2+
OVR2
SDA
TEST|SCL
26
+5V-PORTB
100K
3EAD-2
FEAE
100K
18
3EAD-3
100K
3EAD-4
DD4DD4+
OVR4
VIA1
VIA2
VIA3
VIA4
30
31
32
33
IEE0
USB1-RREF
100K
1%
1 3EE2-1 8
12K
1%
2 3EE2-2 7
IEE1
USB2-RREF
3
3EAG
12K
1%
3EE2-3
6
+5V
+T
12K
100n
3EA5
12K
0R3
3EAH-1
1%
4 3EE2-4 5
2EA2
0R3
3EAD-1
USB-PORTB-OC
DD3DD3+
OVR3
VREG
RESET
SELFPWR
GANG
RREF
1
2
GND_HS
10
2EA1
100K
29
7EA0
CY7C65632-28LTXCT
VCC
12M
1EA0
18p
27
2EA0
+5V-PORTC
100K
USB-PORTC-OC
FEAH
3EAH-2
100K
3EAH-3
100K
3EAH-4
100K
6
5401
USB-PORTB-DM
USB-PORTB-DP
FEA4
1E02
FEAA +5V-PORTB
FEAB
5
6
5401
1
2
3
4
USB-PORTC-DM
USB-PORTC-DP
FEAC
FEA8
+5V-PORTC
FEA5
FEA6
2EAA
1E03
5
100n
5
FEA9
1
2
3
4
100n
FEA3
1E01
2EAB
FEA1
+5V-PORTA
FEA2
100n
USB-PORTA-DM
USB-PORTA-DP
2EA9
10-2-29
QFU1.2E LA
6
1
2
3
4
FEA7
5401
5
USB external
2012-11-08
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div. table
�Circuit Diagrams and PWB Layouts
10.
EN 130
B06D, Ethernet
Ethernet
5EF5
10n
2EFT
B06D
10n
30R
RES 5EF0
30R
5EF4
VDD33-PHY
FEF9
VDD33-PHY
+3V3-STANDBY
IEF1
100n
100n
2EFH
2EF2
100n
1u0
2EF0
30R
2EF1
AVDDL-1V1
+3V3-LAN
10u
2EF3
2EFS
B06D
6
3EFS
2
7EF1-1
PUMH2
1
3
5
7EF1-2
PUMH2
100n
100n
2EFJ
2EF9
10u
2EFA
100n
2EFV
2EFZ
1u0
22u
15p
4
5
6
IEF2
RES 2EFN
CDA5C16GTH
16V
3
4
5
RES 6EF2-4
15p
RES 2EFM
21
22
24
6
EN-TXD0
EN-TXD1
LED-RES
LED-ACT
FEFE
EN-TXEN
34
35
TX+
TX-
FEFC
CDA5C16GTH
16V
32
FEFB
RX+
RX-
7
8
100n
RX-ER
RES 6EF2-3
LED_ACT
LED_RES
LED_10_100
FEF7
1E00
5450-327-194-H3
1
2
3
FEFA
TXP
TXN
RXP
RXN
15p
TXD0
TXD1
4u7
5EF1
38
DVDDL
VDD33
3
14
TX_EN
NC
25
EN-RXD0
EN-RXD1
IEF3
100n
2EFU
FEF6
10K
10K
3EFT
50
51
52
53
54
55
56
57
58
RX_ER
29
28
2EFP
RES 2EFL
VDD33-PHY
10K
VDD33-PHY
3EF4
VDDH-2V5
RXD0
RXD1
CLK-RMII
EN-RXEN
22R
2
15
16
18
19
36
37
MDC
MDIO
INT
33 3EF5
30
7
FEF5
CLK_RMII
CRS_DV
CDA5C16GTH
16V
VDD33-PHY
1%
1K5
RES0
RES1
TXP
TXN
RXP
RXN
RES 6EF2-2
40
39
20
RBBIAS
9
10
12
13
15p
26
31
EN-MDC
3EF3
7
TRXP0
TRXN0
TRXP1
TRXN1
27
RES 2EFK
2K37
RES0
RES1
FEF4
RST
FEF8
CDA5C16GTH
16V
1%
VDDIO_REG
8
1u0
2EFG
3EF2
CLK_25M
VDDH_REG
2
RES 6EF2-1
8
1
RESET-ETHERNETn
23
1
FEF3
XTLO
LX
2EFF
FEF2
FEFD
AVDDL
XTLI
AVDD33
4
22p
EN-MDIO
IRQ-WOLANn
5
VDDH-2V5
VIA
41
GND_HS
42
43
44
45
46
47
48
49
1M0
1EF0
25M
2EFC
3EFY
22p
6
11
17
30R
7EF0
AR8030-AL1A-R
FEF1
2EFB
5EF6
100n
100n
2EF8
100n
2EF7
100n
2EF6
2EF5
FEF0
RES
10-2-30
QFU1.2E LA
VIA
DEF0
4
CLK-RMII
EN-TXC
EN-RXC
VDDH-2V5
3EFH
RES0
EN-RXD0
RES1
EN-RXD1
10K
3EFJ
3EFN
10K
10K
EN-RXEN
3EFP
10K
3EFR
10K
3EFL
10K
3EFM
LED-RES
LED-ACT
RX-ER
10K
3EFU
10K
5
Ethernet
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 131
B06E, NAND flash, serial flash and EEPROM
NAND flash, serial flash and EEPROM
B06E
B06E
+3V3
DJA2
DJA3
DJA4
DJA5
DJA6
DJA7
3JA6
DJA8
F-RDY
10K
0
1
2
3 IO
4
5
6
7
7
R
B
33R
+3V3
DJA9
F-OEn
F-CEn
NAND-ALE
NAND-CLE
F-WEn
3JA5
8
9
17
16
18
19
DJAA
DJAB
DJAC
DJAD
DNU1
DNU2
4K7
3JA0
4K7
RES
3JA1
DJAE
RE
CE
ALE
CLE
WE
WP
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
26
27
28
33
35
40
45
46
SF-SDO
4K7
FCT2
3CTH
47R
+3V3-STANDBY
7CT3
M25P05-AVMN6
ICT1
3CTR
+3V3-STANDBY
3CTJ
4K7
SF-SDI
SF-CLK
4K7
SF-CLK
SF-CS
SF-CS
SF-WP
3CTK
SF-WP
4K7
3CT3
4K7
SF-SDI
ICT2
3CTB
4K7
ICT3
SF-HOLDn
SF-HOLDn
3CT0
SFB-SI
270R
3CTU
3CTZ
270R
270R
3CT2
SFB-SCK
SFB-CS
SFB-WPn
SFB-SI
SFB-SCK
SFB-CS
SFB-WPn
47R
3CT9
SFB-HOLDn
SFB-HOLDn
FCT3
FCT4
FCT5
FCT6
FCT7
VCC
5
6
1
3
7
47R
C
Φ
512K
FLASH
Q
2
S
W
HOLD
FCT8
38
47
48
1CTZ
RESET-STANDBYn
SF-SDO
SFB-SI
SFB-CS
SFB-SCK
9JA6
13
25
36
9JA5
D
VSS
VSS
+3V3
8
29
30
31
32
41
42
43
44
DJA1
1
2
3
4
5
6
7
8
9
10
11
NC 12
13
14
15
16
17
18
19
20
21
22
23
4
DJA0
100n
3CT1
VCC
FRA0
FRA5
FRA6
FRA7
FRA8
FRA10
FRA11
FRA12
100n
2JA2
100n
2JA1
12
34
37
39
7JA0
MT29F8G08ABACAWP:C
9JA3
9JA4
2JA0
+3V3-STANDBY
8
7
1
2
3
4
5
6
1734260-6
+3V3
+3V3
8
100n
Φ
(8K × 8)
EEPROM
10K
3JA4
7JA2
M24C64-WDW6
IJA0
1
2
3
2JA4
IJA1
0
1
2
WC
SCL
ADR
SDA
7
6
5
3JA2
47R
SCL-SSB
3JA3
SDA-SSB
47R
4
10-2-31
QFU1.2E LA
FJA0
5
NAND flash, serial flash
and EEPROM
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 132
B06F, Analogue externals
Analogue externals
B06F
FVC1
1n0
AUDIO VGA/DVI
1VC7
2VC9
6VC6
RES
100p
2VC8
1K0
CDS4C12GTA
12V
3VC6
VGA-LIN
5
4
3
FVC2
1VC8
1n0
2VCB
6VC7
RES
100p
2VCA
1K0
CDS4C12GTA
12V
3VC7
VGA-RIN
1VA6
2
1
MSJ-035-75C-BL-RF-PBT-BRF
FVCB
FVC3
3VC8
YPBPR-DETECTn
100p
2VCC
47R
FVC4
1VC1
150R
3VC0
CDS4C12GTA
12V
RES
6VC0
47p
2VC0
Y1-IN
YPBPR
1VC2
150R
3VC1
CDS4C12GTA
12V
RES
6VC1
47p
2VC1
1VA8
5
4
3
FVC5
PB1-IN
FVCC
2
1
MSJ-035-75C-G-RF-PBT-BRF
FVC6
1VC3
150R
3VC2
CDS4C12GTA
12V
RES
6VC2
47p
2VC2
PR1-IN
FVC7
3VC9
CVBS-DETECTn
FVC8
1VC4
1n0
2VC6
CDS4C12GTA
12V
6VC3
100p
2VC3
1K0
RES
3VC3
YPBPR-RIN
FVC9
FVCD
1VC5
1n0
2VC7
CDS4C12GTA
12V
RES
6VC4
100p
2VC4
1K0
CVBS +
AUDIO CVBS / YPBPR
5
4
3
3VC4
YPBPR-LIN
100p
2VCD
47R
1VA4
2
1
MSJ-035-75C-Y-RF-PBT-BRF
FVCA
1VC6
150R
3VC5
CDS4C12GTA
12V
6VC5
RES
CVBS1
100p
B06F
2VC5
10-2-32
QFU1.2E LA
5
Analogue externals
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 133
B06G, DC-DC
DC-DC
B06G
5UR3
IUR0
IUR2
3UR3-1
+12Vb
33R
100n
100n
2UY5
BAV99 COL
6UW2
10R
10R
2UY3
33R
VIN
3URF
1M0
3URC
22K 1%
3URB
100p
3n3
GND-3V3r
GND-3V3r
GND-3V3r
3 3UWK-3 6
100R RES
2 3UWK-2 7
100R RES
1 3UWK-1 8
100R RES
4 3UWK-4 5
100R RES
3UWL
+3V3
IUWE
ENABLE+2V5
RES 2UWY
9
220K 1%
IUWF
100n
47K
5
3UWC
1% 470K
3UWD
2UWW
22K
22
23
24
25
26
3UWF
2URG
IURF
6K8 5%
RES 2URH
CUR5
+3V3
68K 1%
IURK
6
10
11
4
9
1n0
2URJ
1n0
22u
1
NC
GND
GND HS
8
GND_HS GND
COMP
VIA
3URA
5
GND-3V3r
4
ADJ
FB
EN
+2V5
7
PGOOD
100n
2UWU
10u
EN
100n
+2V5
FUW3
6
VOUT
2UWV
2
ENABLE+2V5
VIN
7
GND-3V3r
VDD
3
+3V3
SW
SS
2URE
3
GND-3V3r
RES 2UWS
1u0
7UW2-1
RT9025-12GSP
GND-3V3r
330R
6UW1
2UWR
8
1
IURE
10n
ENABLE+3V3
LTST-C190CKT
3UWB DBG
DBG
1R0
3UWM
4K7 RES
4K7 RES
3UWA-4
4K7 RES
3UWA-3
3UWA-1
4K7 RES
3UWA-2
PDZ5.1B(COL)
RES 6UW0
FUW2
IURC
BOOT
IURD
FURA
+3V3
3u6
Φ
STEP DOWN
2URF
5UR6
2
7UR6
RT7297CHZSP
IURB
22u
3URG-4
22u
2URD
3URG-3
1n0
RES 2URC
RES
2URL
1n0
100n
2URB
22u
2URA
33R
RES
33R
RES
33R
RES
3URG-2
RES
2URK
30R
RES
3URG-1
B230LA-M3
IURn
IURA
RES 6UW3
220K 1%
22K 1%
3UR6
3UR7
9
8
1n0
+22V
100p
+3V3
10
11
12
13
FUW4
5UR5
+5V
VIA
VIA
+5V +5V
120K 1%
2UY8
+12Vb
+12Vb
VIA
14
15
16
17
1M0
3UR5
6
22u
2
3
GND
GND HS
2UR2
IURM
100n
VIA
18
19
20
21
3UR4
IUR4
FB
2UY2
100n
100n
22u
2UY7
SW
EN
2UY1
2UR1
4
2UY6
BOOT
10R
100n
7
VIN
5
DETECT12V
IURL
3UWJ-4
33R
10R
3UWJ-3
3UR3-4
IUR3
VCC
1
4u7
3UWJ-1
IUR9
7URA-2
RT8288AZSP
FUR1
+5V
33R
2UR3
7URA-1
RT8288AZSP
IUR8
3UR3-3
3UWJ-2
1n0
22u
2UR4
1n0
5UR2
22u
2UR9
2UR0
33R
22
23
24
25
26
3UR3-2
2UR8
10u
2UR5
10u
2UR7
30R
1u0
30R
5UR1
+12Vb
2UR6
B06G
7UW2-2
RT9025-12GSP
1n0
VIA
18
19
20
21
VIA
VIA
10
11
12
13
+2V5
+2V5-F
VIA
470R
470R
3UWH-4
RES
470R
3UWH-3
RES
3UWH-2
RES
470R
3UWH-1
RES
470R
470R
3UWG-4
RES
470R
3UWG-3
RES
470R
3UWG-2
RES
3UWG-1
14
15
16
17
+3V3
RES
2UWT
10-2-33
QFU1.2E LA
5
DC-DC
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 134
B06H, DC-DC
DC-DC
VDD
IUU3
5
NC
GND
GND HS
82K 1%
1
+1V1-DVBT2
1n0
7
PGOOD
8
3UU1
22K
1u0
2UU1
1R0
ADJ
2UUA
EN
2
IUU7
9
3UU2
+5V
IUU2
6
VOUT
22u
VIN
2UU5
3
+1V5
7UU1-1
RT9025-12GSP
3UU7 RES
4
B06H
10u
IUU8
3UU6
FUU1
SENSE+1V1-DVBT2
VIA
18
19
20
21
VIA
VIA
220K 1%
3UU4
*
3UU5
22
23
24
25
26
7UU1-2
RT9025-12GSP
680K
82K 1%
10
11
12
13
VIA
14
15
16
17
7UV0
NX1117C12Z
3
+3V3
IN
2
4
OUT
FUV1
+1V2-FA
22u 16V
2UV7
1
100n
COM
2UV6
Optional
7UV2
RT9030-11GU5
NC
4
+1V1-FA
10u
10u
2UVC
EN
5
2
OUT
EN
ADJ
FUV2
5
4
GND
+1V1-FA
100R
3
IN
10u
1
3UV6 RES
10u
+3V3
3
VOUT
GND
2UVB
IUV1
7UV1
RT9187GB
2UV9
VIN
2UVD
1
+3V3
2
3UV1
120K 1%
IUV3
(*) 3UU5
1.10 V
1.20 V
3UV2
RES
680 kΩ
68K 1%
+1V1-DVBT2
3UV5
B06H
2UU0
10-2-34
QFU1.2E LA
33K 1%
5
DC-DC
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 135
B06I, CI conditional access
CI conditional access
B06I
+3V3
CA-CD1n
CA-CD2n
10K
3PAD
10K
3PAF
10K
+3V3
+T 0R3
+3V3
2PA2
100n
CA-RST
3PAM
100K
19
CA-MOSTRT
CA-MDO0
CA-MDO1
CA-MDO2
VCC
3EN2
3EN1
G3
3PA3
CA-MOVAL
3PA8-1
100R 1
3PA8-2
100R 2
7
3PA8-3
100R 3
8
3PA8-4
100R 4
5
6
3PAL
18
17
16
15
14
13
12
11
2
MOVAL
MOSTRT
MDO0
MDO1
MDO2
MOVAL
MOSTRT
MDO0
MDO1
MDO2
3PAA-1
1
3PA6
10K
8 3PAA-2
2
3PAP
CE2n
REGn
10K
CA-CE1n
33R
+3V3
+3V3
1
2
3
4
5
6
7
8
9
100R
CA-RDY
20
7PA1
74LVC245ABQ
1
CA-IORDn
10K
RES 3PAS
10K
CA-IOWRn
10K
7
3PAA-3
3
10K
6
3PAA-4
4
CE2n
10K
5
REGn
RES
9PAA
CA-CE2n
RES
9PAB
CA-OEn
RES 3PAU
10K
CA-WEn
CA-REGn
3PAN
10K
3PAR RES
10K
3PAT RES
10K
3PAV RES
10K
21
10
GND GND_HS
CA-WP
3PAW RES
10K
CA-INPACKn
3PAY RES
10K
+3V3
2PA3
7PA2
74LVC245ABQ
1
19
100R
3PA9-1
100R
8
3PA9-2
7
3PA9-3
100R 6
2 100R
3PA9-4 5
100R
3PA4
4
1
2
3
4
5
6
7
8
9
100R
3
1
+3V3
2
18
17
16
15
14
13
12
11
MOCLK
MDO7
MDO6
MDO5
MDO4
MDO3
MOCLK
MDO7
MDO6
MDO5
MDO4
MDO3
3PA5
10K
3PA7
3PAB-3
3
10K
6
3PAB-2
2
10K
7
3PAB-1
1
10K
8
3PAB-4
4
10K
10K
GND GND_HS
21
CA-MDO7
CA-MDO6
CA-MDO5
CA-MDO4
CA-MDO3
1P00
VCC
3EN2
3EN1
G3
3PA2
CA-MOCLK
100n
20
2PA1
+5VCA
22u 16V
3PAE
CA-WAITn
3PA1
+5V
B06I
3PAC
10K
CA-VS1n
10
10-2-35
QFU1.2E LA
5
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-CE1n
CA-A10
CA-OEn
CA-A11
CA-A09
CA-A08
CA-A13
CA-A14
CA-WEn
CA-RDY
+5VCA
MDI0
1 3PW2-1 8
CA-MIVAL
CA-MICLK
CA-A12
CA-A07
CA-A06
CA-A05
CA-A04
CA-A03
CA-A02
CA-A01
CA-A00
CA-D00
CA-D01
CA-D02
CA-WP
CA-MDI0
33R
3PW3
MDI1
CA-MDI1
33R
3PW4
MDI2
CA-CD1n
MDO3
MDO4
MDO5
MDO6
MDO7
CE2n
CA-VS1n
CA-IORDn
CA-IOWRn
CA-MISTRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI2
33R
MDI3
1 3PW1-1 8
CA-MDI3
5
CA-MDI4
MDI5
2 3PW1-2 7
CA-MDI5
MDI6
33R
3 3PW2-3 6
CA-MDI6
MDI4
4
33R
3PW2-4
33R
+5VCA
33R
MDI7
2 3PW2-2 7
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
MOCLK
CA-RST
CA-WAITn
CA-INPACKn
REGn
MOVAL
MOSTRT
MDO0
MDO1
MDO2
CA-CD2n
CA-MDI7
33R
3PW5
MICLK
33R
3PW1-4
CA-MICLK
MIVAL
4
5
CA-MIVAL
MISTRT
3 3PW1-3 6
CA-MISTRT
33R
33R
71 69
72 70
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
55
56
57
58
59
60
61
62
63
64
65
66
67
68
92789-055LF
5
CI conditional access
2012-11-08
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�Circuit Diagrams and PWB Layouts
10-2-36
QFU1.2E LA
10.
EN 136
B06J, FE
B06J
FE
B06J
+3V3
3KW1
TS-CHDEC-DATA
TS-CHDEC-DATA
3KW3
TS-CHDEC-CLK
TS-CHDEC-CLK
560R
3KW5
3KW4
470R
TS-CHDEC-VALID
TS-CHDEC-VALID
560R
3KW7
3KW2
470R
560R
3KW6
470R
TS-CHDEC-SOP
TS-CHDEC-SOP
560R
3KW8
470R
RES 2FS3
10p
2FS1
100n
2FS2
SOC-IF-N
4u7
5FS2
100n
SOC-IF-P
5FS1
4u7
IF-IN-P
IF-IN-N
2FS4 RES
10p
+3V3
3RW1
TS-DVBS-DATA
TS-DVBS-DATA
560R
3RW3
470R
TS-DVBS-CLK
TS-DVBS-CLK
TS-DVBS-VALID
TS-DVBS-VALID
560R
3RW6
470R
560R
3RW7
3RW4
470R
560R
3RW5
3RW2
TS-DVBS-SOP
TS-DVBS-SOP
3RW8
470R
5
FE
2012-11-08
3104 313 6618
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div. table
�Circuit Diagrams and PWB Layouts
10.
EN 137
B06K, HDMI
HDMI
B06K
RES
3HW6
390R
3HW1
FHW0
+5V
IHW3
HEAC
56R
1%
680R
RES
3HW2
HDMI-ARC
IHW1
3HW3
PWR5V
10n
27K
2HW1
10K
3HW4
3HW5
+3V3
12K
IHW2
RREF
1%
100n
B06K
2HW2
10-2-37
QFU1.2E LA
5
HDMI
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 138
B06L, Control, temperature sensor and service
Control, temperature sensor and service
B06L
B06L
+3V3
3
7CW0
PCA9540BGD
VDD
3CW0
+3V3
3CW1
SDA-M3
2
SDA-M3
SCL-M3
1
SCL-M3
SD0
SC0
SDA
4K7
SCL
4K7
SD1
SC1
1CW4
SDA-SSB
SCL-SSB
7
8
3CWU
SDA-SSB
SCL-SSB
SDA-SRF
SCL-SRF
2K2
SDA-SRF
SCL-SRF
+3V3
3CWW
4K7
3CWY
4K7
VSS
SCL-M3
2K2
3CWV
SDA-M3
FCWU
5
3CWJ
SCL-M1
BM03B-SRSS-TBT
SCL-FE
SDA-M1
3CR6
SCL-FE
SDA-FE
47R
3CWF
SDA-FE
47R
+3V3
2K2
3CR7
BM03B-SRSS-TBT
1CW7
+3V3
SCL-SRF
SDA-SRF
2K2
FCWB
FCWC
FCW4
5
1CWG
1CW6
+3V3-STANDBY
FCW3
SCL-SSB
DCW5 FCWR
DCW6 FCWS
6
1
2
3
FCW2
TEST-MOD
TEST-CON
F-OEn
FCW1
SDA-SSB
5
4
1
2
3
+3V3-STANDBY
BM03B-SRSS-TBT
7
4K7
1
2
3
4
5
4
BM05B-SRSS-TBT
3CU3
EJTAG-MCU-TDO
47R
3CU4
STB-GP4
STB-GP1
DVS2
STB-GP5
STB-GP2
EJTAG-MCU-TCK
8
7
1
2
3
4
5
6
47R
100n
100n
2CW3
22K
2CW2
FCWH
EJTAG-MCU-TMS
47R
3CWD
1K0
22K
3CWC
FCWG
FCWE
1K0
3CWB
DVS1
EJTAG-MCU-TDI
47R
3CU5
3CWS
STB-GP0
1CW5
BM06B-SRSS-TBT
FCWD
FCWF
EJTAG-MCU-TMS
EJTAG-MCU-TDO
EJTAG-MCU-TCK
EJTAG-MCU-TDI
3CWT
LED
3CWR
4
4
5
6
FCWT
FCWV
1
2
3
3CU2
STB-GP3
+3V3-STANDBY
10K
3EW0
IRQ-WOLANn
IRQ-WOLANn
+3V3-STANDBY
47R
10K
3CWG
STB-GP6
3CR8
ENABLE-WOLAN
ENABLE-WOLAN
47R
3CWK
HP-DETECT
SPLASH-ON
47R
3CUA
STB-GP7
+3V3
RESET-ETHERNETn
100R
3CWM
STB-GP8
RESET-RF4CEn
3CU0
10K
RESET-RF4CEn
47R
10K
10K
3CS1
3CS0
DCW1
3CWN
STB-GP9
LCD-PWR-ONn
47R
3CWP
STB-GP10
+3V3-STANDBY
SDM
FCW0 DCW4
3CWE
SDMn
SDMn
+3V3-STANDBY
47R
FCS1
47R
+3V3-STANDBY
RXD-SERVICE
47R
47R
TXD-SERVICE
3CU1
AVLINK1
DETECT12V
10K
3CS3
10K
3 3CS4-3 6
3CR9
6CS1
6CS0
1CS0
1CS1
47R
PDZ5.1B(COL)
8 3CS4-1 1
PDZ5.1B(COL)
2
1
MSJ-035-75C-B-RF-PBT-BRF
47R
3CS2
2 3CS4-2 7
47R
3CRA
5 3CS4-4 4
1u0
FCS0
2AW0
5
4
3
100n
AMBI-TEMP
10R
FCS2
1E06
2CW1
10K
3AW0
AMBI-TEMP-FUS
47R
3CU6
STB-TXD
TXD-STANDBY
47R
3CU7
STB-RXD
TXD-STANDBY
RXD-STANDBY
RXD-STANDBY
47R
FCW8
STB-SCL
3CU9
STB-SDA
+3V3
47R
KYBRD
100n
+3V3-STANDBY
100n
2CW5
8
IRQ-EXPANDERn
1
2
3
4
3TW0
SDA-SSB
SCL-SSB
DBG
3TW1
47R
2
17
100n
7TW0
LM75BGD
A0
SDA
A1
SCL
A2
4
VSS GND_HS
47R
1
OS
+VS
3
1CT7
SKHUBHE010
DCW2
9TW0
RES
9TW1
RES
9TW2
2TW0
1n0
1
GND
RESET-STANDBYn
7
6
5
9TW4
VIA
22
23
24
25
FCT9
9TW5
RES
VIA
11
+3V3-STANDBY
10K
+3V3
9TW3
INT
18
19
20
21
3CW2
RC_IRQ-RF4CEn
GND
SCL
SDA
47R
10K
3CUY
12
47R 13
3CR3
3CUW
2
RESET
100n
VCC
2
SC1-DETECTn
3
YPBPR-DETECTn
4
CVBS-DETECTn
5
3CR2 100R
7
FCW5
ARC-SEL0
3CR0
8
ARC-SEL1
3CR1
9 FCW6
100R
ARC-SEL2
10
100R
FCW7
RC_IRQ-RF4CEn
10R
VDD
IO0
IO1
IO2
IO3
IO4
IO5
IO6
IO7
3CW5
IR
10K
2CW4
10K
10K
10K
3CUS
3CUP
7CT4
NCP803
2CT4
14
3CUR
RES 3CUN
10K
3CTY
A0
A1
A2
6
10K
7CW1
PCA9554BS
10K
3CUV
KEYBOARD_IRQ-SRFn
LGSEN
3
2CW6
10K
10K
RES 3CUM
10K
3CUL
RES 3CUK
3CUT
STANDBYn
3CW3
10R
15
16
1
SCL-SSB
SDA-SSB
RESET-FUSION-OUTn
3CTD 47R
PWRON
+3V3
SDA-MC
47R
3CUC
STB-RSTO
+3V3
10K
RES 3CUU
10-2-38
QFU1.2E LA
5
Control, temperature sensor
and service
2012-11-08
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�Circuit Diagrams and PWB Layouts
10-2-39
QFU1.2E LA
10.
EN 139
B06M, Strap options
B06M
Strap options
B06M
+3V3-STANDBY
10K
SPI-EN
SPI-EN
ICW1
3CUD
ICA1
3CL0
+3V3-STANDBY
CA-IOWRn
CA-IOWRn
10K
3CL1 RES
10K
ICA2
3CL2
+3V3-STANDBY
10K
3CUE RES
CA-WEn
CA-WEn
10K
3CL3 RES
10K
ICA3
CA-OEn
3CL4
10K
ICA4
3CL5
+3V3-STANDBY
CA-IORDn
CA-IORDn
3CL7
+3V3-STANDBY
3CL6 RES
10K
10K
RES
ICA5
CA-A14
CA-A14
10K
3CL8
10K
ICA6
NAND-CLE
3CP5
10K
3CP8
+3V3-STANDBY
RES
F-OEn
F-OEn
FCP6
10K
+3V3-STANDBY
3CT6
10K
3CT7 RES
+3V3-STANDBY
+3V3-STANDBY
10K
3CT8
3CP6
10K
TEST-CON
TEST-CON
RES
3CTA
10K
TEST-MOD
ENABLE-STANDBY
3CTC
TEST-MOD
ENABLE-STANDBY
10K
RES
10K
3CTF
10K
5
Strap options
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 140
B06N, Headphone
Headphone
B06N
1
3DH3-1
8
68R
IDHM
22n
FDH2
22n
2DH9
CDS4C12GTA
12V
2DH8
6DH2
RES
CDS4C12GTA
12V
1DH3
3 3DH3-3 6
6DH1
68R
RES
4 3DH3-4 5
1DH2
4V 100u
IDHL
8
2DH7
1K0
IDHP
2
1DH4
3
1
MSJ-035-12D-B-AG-PBT-BRF
68R
4V 100u
HPHOR
FDH1
2 3DH3-2 7
1
2DH6
5
IDHN
1K0
3DH4-1
HPHOL
3DH4-4
B06N
4
10-2-40
QFU1.2E LA
FDH3
68R
5
Headphone
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 141
Layout top
1E03
2VW3
3UA8
2UAD
3UAB
3UAC
6UAF
2EHR
3EHS
2EHY
9EHE
2UA9
7UF8
2UF7
7EHJ
2UPH
5UC2
7UC2
1T71 1C31 1C30
3EM8
2UPK
2UCK
2UCW
2UCJ
5UC0
2UCY
2UCL
7UC3
6UC2
1CV5
3VWP
3CY1
7EH4
3EHR 9EM3
2EHV
2GE2
2UF6
2UAT
2UAA
2UAM
2UAB
3GEM
3UAW
9GE1
3GE9
9GE2
9GM6
9GM5
1CV6
3CY3
3EM9
2CV8
3GE0
3EJ8
1E02
2PA1
1P00
2UVC
2URC
2UR0
3UR3
5UR2
2UR4
2UR2
3UR6
3UR7
3UR4
3UR5
2UR3
7URA
2UR6
2UR5
2UR7
5UR1
2UR1
5UR6
2URB
2URE
2DH6
2URA
5UR3
7UR6
3URA
6UW3
3URF
3URB
3URC
2URH
2URG
2URJ
2URF
2DH7
1CW7
3CWW
2DH9
2DH8
6DH2 3DH3 6DH1
7EA0
1E01
1DH2
3CWT
3CWS
3EAH
3EAG
1CW5
1DH4
1H04
2EAA
3EA8
3EAD
2EAB
9HA1
3EAC
2EA9
3EA7
3CR3
3CUN
3CUP
3CUS
3CUK
3CUR
9TW0
9TW1
9TW2
2TW0
3CUT
3CWY
2VCA
1VA6
2VC5
1CW6
6VC5
1CW4
1CT7
3CW1
1VA4
1VC6
3VC5
3VC2
3CT1
3CTH
3CTF
2UV7
3CUE 3CUD
3CW0
2VC0 2VCD
7UV2
2UVD
3VC6 2VC8
1DH3
6VC2
3CUL
3GE1
1GE0
3EJ2
3EJ3
2VWJ
3VWL
1VC8
3CVT
3VWR 2VW4
2VWK
3VWK
2FZ5
2FZ6
3FZ0
2J42
5J05
3VWH
7CT3
DCW4
2VC9
3UC9
6UC0
5UC1
2FZ3
3CTK
2FS4
3CWE 2CW1
6VC6
2UPG
1CTZ
2UWS
3VC7
2UPC
7UV0
3CP6 3CP8
1VC7
1VC5
1VC4
6VC7
2VCB
7UP2
2UPJ
2UV6
2UWY
2VC4
3VC4
2UPL
2UPF
6UP6
2UPE
2UPD
5UP6
3UV6
3CT0
3CTR
3CTJ
3CUA
5FS1 5FS2
3EW0
3CWK
6UW1
2VC7
6VC4
7UC4
2UPM
5UP5
1UA0
2UCC
2UCA
2UCB
3CTZ
3UWM
6UW0
2UWR
2UWT
3UWL
2UWV
3UWF 3UWC
3UWD 2UWW
3UWK
3EF5
6VC0
6VC3
1VC1
2VC1 3VC1
1CS1
2VC6
1UA1
1UP1
3VW9
1CWG
3UWB
3UWA
2EFA
2EF9
3EF2
2EFZ
2HAB
3CS1
3CS0
7UW2
2UWU
9EH8
2VWE3VW8
3CT2
3CUU
9HD9 3HDU
5HD5
1VA8
2VC2
3VW6
3CT8
3VC0 3VC9
3CUV
7HD0
2HDD
2VCC 3VC8
3HA3
3CUW
7TW03TW1
3TW0
9TW3
9TW4
9TW5
7CW1
2CW6
3CUM
2VC3
3VC3
1VC3
2EJ2 3EJ0
7UA2
3VW7
3CS3
1VC2
3CY4
3VW4
3VW3
3CS2
1E06
2EJ6
3EJ4
3EJ5
3EJ1
2EJ5
2EJ3
3CW2
3CT3
3JA6
6VC1
2VW5
3CY2
2UAV
3VWA
2VWF
3CTU
3CTD
3EE2
3CR6
2J41
2FS3
3J09
3J50
1J00
3CR7
3UG9
3VWJ
3KW6
3KW8
3KW4
2FS2
2FS1
3UU7
7UU1
2UU1
3UU2
3VW5
2VWD
3EFU
6CS1 6CS0 3CS4
3HA1
2HA43HA2
3CUY
2HD6
7EF0
1CS0
3VWN
2VW2
2VW8
3CV5
2J10 2J11
3EFP
2HA9
2HA13HA4
1H02
3HA0
1H03
2EFJ
3VWD
3VWV
2VWC
5EF1
3EF3
3VWM
3VWS
3VWW
2VWB
3CYB 3CVS 3CV4
3J2U
DB17
2VW1
3CTA
2EFH
3EFH
2HA5
2CVB
3GEJ
3CVG
3CVF
3CV9
3CV8
2J24
DB71
1CY1
DB11
2EHU
2EHS
2UA1
3GD5
3CV7
3CYC
7J01
2J7S
2J1H 2J1B 2J1R 2J7T
7J02
2J1E 2J14 2J82 2J20 2J1V
7UB1
2J35
2J31
3J2Z
DB12
9UA1
2UF8
5EH0
7EJ0
2EJ7
7J00
3HAR
2HA2
3GM4
3GM3
2UBF
2UB7
DB78
DB79
DB26
2UU0
3UU1 3UU5
2UUA 3UU4
6EF2
7HA1
3EFY
3HBP
3CVR
3CVN
2GVP
2GVN
3GM2
2J25
2EJ1
2EFB 2EFC
3HBQ
6GE1
6GE0
2GE1
1GE2 1GE1
3CV2
DB25
3HW4
7HA0
3GE7
2EJ4
1EF0
3HAV
2CV9
9GM2
3GM1
3GM6
9GM1
3VWG
3VWF
3GVH
6GS13GS5
2GVC
2GVA
3GVA
2GVK
2GVH
2GVL
2GVF
3GV0
3GV9
2UBC
DB40
DB42
DB43
3J55
3J54
3J53
2EFL 2EFK
2EFN 2EFM
DB41
2J3H
3KW2
3RW8
3RW6
1FA0
2FA0
3HAW
3GE8
2J3J
2J3F
3UU6
1H01
3GV4
3GVE
2UBD
3J3V
3J3Y 3J43
3J3R 3J42
DB00
3UWG 3UWH
1E00
DB56
DBA5
2J21
DB09
3RW4
2KCK
3FA1 5FA7
5FA1
2UB8
2UB9
5D51
3J3U
3J36 3J3S
3J37 3J3T
3J3D
2J59
2KCP
2KC2 2KC4
3FA4
2FA5
DB61
3KC2
3FA3
3FA2 5FA6
DB53
2J26
7J03
DB03
2J3K
2KC5
3KC1
3KC7
2KCH
2KCJ
1F00
DBA2
7GE0
DB10
5KC55KC6
3KC0
3J20 3J2R
3J21 3J2Q
3J2E
3J2F
3J10
7UAC 5UAA
9GE0
DB22
3KC3
3KC6
3GEH 3GEG
DB32
7EM1
2UA0
1UA2
6GE2
2J3D 2J30 2J29 2J2T 2J2V 2J2Z
2J39
3KC8
5FA4
5FA5
3J48
3J49
3J47
3J46
3J3C
2KC0 2KC6
2KC3
5KC9
3KC9
3J1B
3J1A
2J13
5KC7
5KC8
7KC0
2KC7
3J13
DB31
9GE3
6GE3
3J1Z
DB93
3GEL
1GE3
DB34
3J44 3J4E
3J45 3J4F
3J3A
3J3B
2J27
2J92
2GE6
3GEN
3GEA
3J1W
2UB6
DB21
3RD8
2KCD
2KC1
2J08
2UB0
7J04
DB19
2RDP
3KCA
5KC0
7UB5
3J24
3J25
3J1R
3J1Y
2J95
5J0R
2J2W 2J33 2J2U 2J2D 2J2J 2J37
3KCB
9KC0 2KCE
2UBA
3J3L
3KCE
2KCR
3KC4
1KC0
1M01
1CV3
3J1H
2KCG
9KC1 2KCF
3GVD
9GV9
7GV0
5UB1
3RW2
5KC1
2KCC
2KCB
3RD4
3RDA
5KA1 3KA0
5KA0 3KA1
3CVE
3CVC
3J3M
3RD7
9RD3
3RD5
3RD0
3RD1
1CV4
2CVA
3J1G
3J3H
1M90
3CVW
3CVD
2UB4
3J3G
2GVT
2GVS
1CV2
3GVC
7D50
2RDC
DRD0
3RDB
9RD02RDF
9RD12RDG
2RBL
3GV8
3D54
2KCS
7RD0
2RD9
3GVG
1CV1
2CVC
2D63
3D63
2D59
2D58
2D57
1D03
3D55
3D56
9D53
9D52
2D72
2D74
9D55
3D71
3D77
3D76
2RDJ
2RD8
2RBS
3RB1
2RBP
2RBN
2RBR
2RD7
2RDA
2RK02RK1
6RB0
2RBK
2RB4
2RB2
3GVJ
2GV9
1C27
3CVY
9GV7
2D83
7RDA
2RDE
9RB7
9RB6
2RBA
2RBB 2RB9
2RBW
2RDR
DRD1
2GVU
5D71
2D55
7D70
3D50 3D60 3D61
3RD3
2RBC
7RB0
9GVC
3D72
2D95
2D65
2D67
2D77
2D69
2D89
3D62
3D57
2D51
1G50
9GV3 2GV2
9GV8
5D77
2D78
5D00
2AAD
5D74
2D94
2D61
7D60
2D53
5D01
7D71
3D52 2D52
1RD0
2RB5
2RB3
2RBT
9GVB
3J40
3J41
9RB0
2RBJ
9RB8 2RBY
2RBG
5RB0
2RBH
2D85
2D54
3D70
9D51
2RB7
2RBD
2RB1
2D79
2D68
9RB9
1RB0
2RBM
2D87
3RB0
2RBE2RBU 3RB3 2RBV
2RB6
2RB8
2RBF
2D5A
2D97
2D96
2D84
2D66
2D88
2D86
3D78
9D50
3D79
2D93
2VAA
2VA8
9GVA 3GVK
5D79
3D51
2VAC
2D62 2D64
2D75
3D73
2D5B 2D60
2D49
1VAG
3VAA
3D75
2D50
2VAF
3D58
1VAL
1VAK
1VAJ
1VAH
5D76
2D80 2D82
3D74
2D92
6VAB
2VAG
5D50
3VAD
1VAM
1VA1
6VAF
1VAP
1VAN
9D54
2D48
2D56
2D71
3D83
2VAK 3VAK
2D73
5D83 5D80
2D70
9GVD
3D82
2RDD
1J50
1G51
2D98
2D99
2D81
2D91
5D70
2D5C
2D76
2D5D
6D0A
3D90
2CAL
9CAB
2D0B
2D0A
5D85
9CAA 2CAS
2CAU
2AAC
2CAT
3CAB
2CAK
3AAB
2CAN
3CAG
2CAJ
1D0A
3CAH
3CAF
2CAB
1D02
1D56 1D55 1D54 1D53 1D51 1D50 1D52
3GM5
1D01
1C20 1C251C26
1R01
10-2-41
QFU1.2E LA
2URD
2UR8
2UR9
5
SSB layout top
2012-11-08
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 142
3CAA
2GVR
IGV1
ID96
FD32
3GVN
3CAE
2CAA
3CAD
3CAC
2CAM
2AAV
3AAC
2AAW
ID95
ID93
2UBB
3J14
2J1A
2J1Z
2UBJ
3UBE
IUB8
5UB0
3VA7
ID97
2VA9
FVA2
ID69
3UB4
2UB3
3UB7
3UB8
3UB5
3UB6
ID58
IUB4
FUB1
IUB3
ID66
ID56
ID65
ID54
FD50
IUB5
ID90
ID87
FUB0
FD64 ID79
FD66
ID84
ID78
FD65
IJ0R
3J4A 3J4J
3J4B 3J4K
3J4G
3J4H
FJ0B
IUA1
2J5A
3J3W
3J34
3J35
3J4D
2J01 3J4L
2J2G
3J4M
3J4C
2J80
3J4N
2J93 5J0P
3J3K 3J3N
3J4P 3J3Z
FD67
3J2N
3J2P
FUC0
ID89
FD63
3J2H
2J1J
DC07
FVA9
ID80
3J2G
2J1F
2J1W
2J12
3J17
3J16
3VA8 2VAB
ID76
ID70
ID61
3J3F 3J38
3J3E 3J39
3J3J 3J3P
DB58
DB99
3VAG
FVAA
ID75
IUB6
3J32
3J33
DB59
2J1C
2J1U 2J81
2J1S
3J15
2J18
DB36
2J85
3J11
2J16
2J17
3J12
2J86
DB98
3VA9 2VAE
2VAD
ID81
FVA1
ID77
3J2M
DB54
DB97
2J1G
2J1K
DB95
IVA0
ID53
ID55
3UB9
DB52
3VAB
FVAB
3UBA
DBA3
2J19
DB55
3VAC
FVAD
FVA4
ID63
3J2K
3J2J
3J2L
DB38
2J84
3GM7
FTA6
DB06
DB62
DB35
FJ08
3CV3
FCVB
FGE5
FJ09
DBA6
DB01
7GM2
3UAL
2J15
DB39
2J7U 2J1D
3CVU
DB50
2J83 2J7P
DBA7
DB57
3VAE 2VAH
FVAE
3UBC
IUB9
3J28
3J29
DB94
IVA1
FVAC
2UBH
3J1F
3J1E
3J2A
3J2B
3J2D
3J2C
3J1U
3J26
3J1V
3J27
6VAH
6VAG
6VAE
6VAD
6VAC
6VAA
6VA9
6VA8
3VAF
FVAF2VAJ
IUB7
3UBD
IUBA
DB51
DB64
2UBK
2UBG
3UBB
IJ0S
FVAG
ID50
ID51
ID62
IUBC
ID83
5FW3
FGE2
IUBB
2UBE
3J18
3J19
3J1K
3J1J
DBA1
IGE1
5TA1
FD90
FD31
IGW3
FGU6
9GV1 FGVE
3UB3 3UBF
3J1S 3J1C
3J1T 3J1D
3J22 3J1N
3J23 3J1P
3J1M
FTA4
2TA3
FAA1
IAA0
IAA1
FGU7
FGU8
2FW3
3FW4
3J2S
3J2T
3GE3
FTA5
FAA0
IGW2
ID52
3GEK
2TA2
FTA3
FAA7
FAA8
FGV0
FGE0
FUAH
IGW5
3GV6
FGW8
FUB2
DBA4
FGE1
2GE3
FAA9
FAA2
FAA5
IFW3
FGE8
2GE5 3GE4
FGE4
FGR7
3FW8 2FW5
IFW5
DB49
3GE2
FD70
IGW1
FGU9
FGR83GV5
2J89
3UA6
7FW1
3J1L
9GE4
IUAV
6UAB
7UAF
2UAL
3UAS
IFW4
FGE6
2GE4
3GE5
FD69 ID57
3AAA
IGW4
ID82
3CVA
3CVB
IFW2
2FW4
IGS5
IGS1
2GS3
7GS2 3GS3
3FW7
3FW3 3FW5
DB33
3GEB
IGR1
FAA3
2CAR
ID88
FCVN
3UAT
FD33 ID99
3GV3
IGW6
FGWA
FGE3
3GEC
3UAP 3UAN
FGWE
IGR5
FGR5
3GV7
FAA4
FAA6
FAAZ
IGW9
FGR6
FGE7
IUAJ
FUAF
FGR3
3GEE
3GE6
IGR2
FGUF
IGR4
FJ03
2GE0
IGV4
FGR2
3GEF
FUAP
2GVM
IGR3
FGR1
3FW6
IGS2
2UAN
7UAA
6UAC
6UAD
2UAK
3UGA
2UAS
3UAR
FGWD
3AAD
FGWC
FGR9
3CVP 3CVM
FTA1
3GVL
FUAK
2UAP
IUA2
3UA5
IUAK
IUA3
IEH2
3UAV
FUAT
IUFT
IUFS
FTA2
3TA1
IUAT
IUAS
IUFU
2UAW
2TA1
2GY2
FUA8
7UAD
2EHT
ITA1 5TA2
3GY9
2GY1
2UA4
FUA7
FUAD
FUA0
3EHV
IUAP
3UAY
IEH5
IEH1
IEH0
IEH3
5TA3
3GY7
3EM6
3EM0
1TA1
3TA2
3GY5
FUA9
IEHJ
2EH93EHU
3EM1
3EHY
3EHP
3EHT
IEH4
FUAG
IUAL
IUAR
IUAN
2UAR
9UA0
3UAK
FUAU
FEH1
3EHW
7UAB
IEH62EHJ
FGWF
FGWG
2FW6 DFW2
IFW1
2GS5 3GS1
3GS6
FGWJ
DFW1
FCVF
7GS3
3GS4
FCV2
FCVM
FCVG
7GS1
IUFR
2EHW
FEH5
3UA9
3UA7
3EHJ
3EHN
7UA3
9UA2
FEH3
1GS1
IUAM
7EH2
2EHL
FEH2
FUAE
FUA3
IGS4
FEH4
2EHN
3GY1
2EM7
2EM2
9EM2
IEM2
9EM1
3EM4
3EM7
FUA1
2EM3
2EM6
2EM0
FGWH
FGWM
IGV5
9GM4
IGV7
FGWL
FGWQ
FGWK
FGWB
9GM3
FCVL
FGWP
FGWS
IGR8
7GM1
3GVM IGV6
FCVH
2GY8
2GYA
2EHM
FEH9
FEH8
IEM1
3EM5
FGWR
FGWU
FD30
IGR9
FGVZ
IGV2
FCVE
FCVA
2EM4
2GY6
1EM0
2EHP
2GS1
9GS1 9GS2
3EM3
2EM5
2EM1
FEH7
FCVC
FGWT
FGWW
FGR4
3GVP
FGW0
IGV0
FGWV
FGWZ
ID98
3GVR
FGWY
FGU1
FGU3
IGRA
FGWN
FGV5
FGVK
FGS22GS2
FGU0
FGU2
FGU5
2AAE
FCV1
FCVK
FCVJ
FGS1
FGU4
IGR7
ID91
FGV79GV5
ID94
FGV6
FGV9
5D75
5D81
FGV8
IGR0
FGVJ
FGVB
2GVG
FGVA
FGVD
2GVB
FGVC
2GVD
FGVF
FGVG
IGW7
FGVH
2GVJ
IGV3
FGVM
3GVF
FGVL
FGVP
IGR6
FGVN
FGVR
FCV3
FGVQ
FGVT
FGVV
9GV6
FGVS
FGVU
FGVY
9GV4
FGVW
FCVD
3GVB
FUAL
2UA2
2GY4
2UA3
FUAA
2UAU
FUA5
3GYA
3GY8
FUAM
3UA4
2GY3
FUAB
3GYB
2UA5
2GY5
FUA6
3GY6
2GY9
2GY7
FUA4
2CAP
Layout bottom
2CAD
10-2-42
QFU1.2E LA
DBC3
IRB1
DBB5
IRB0
2J2K
2RDM
IRDC
2FA8
IKC5
2FAG
FKC1
IFA4
FFAE
7FA1
3FAB
FFAD
FFA7
3FA9 IFA5 3FAA
3KA2 3FA8
2FA9
FFA6
IFAA
5FAA
2FA2
2FAA
7FAA
FFA4
FFA3
FFA2
FFAA
2FA3
FFAB 3KA4 FFA5
IJ11
2FAE
IFA3
2FAC
3FA7
3FAC
2FAB
2FA1
5RDD
5KCA
IFA6
2RDL
3RW5
3RW3
3RW7
3KW7
3KW1
3KW3
3PW5
3RW1
3PW2
3PW3
3PW1
5J0H
3PW4
3KA3
FJ02
IJ0E
3KA5
7KA0
FFAC
2J61
2FAF
FFA8
IKC4
DB81
3FAD
2J5Z
2FAH
DKC0
IKC7
2J5W
3J51
2UU5
2EFP
IEE0
FHD8
FCT2
FEFA
3HDS
IUU3
FEFB
3CWN
3CWD
3CU5
FCWF
2CW5
IEE1
IHDK
IUU7
9HD8
FEFC
3CWF
DCW1
IHD4
3CWJ
FEFE
FCWD
FEA4
3HW3
IHW1
FCWS
FHW0
IEF2
3CU2
3HB1
2HAP
2EFF
FVC5
FHBC
FHAP
3HAB
IHB1
FHB8
IURD
2HAK
IHDF
9HD4
2HAL
FHAH
FHAY
IHB0
FHAV
FHAN
IURE
FHB7
FHAR
FHAW
IUR9
2UY8
IURK
FVC7
2HD0
5HD0
3HA6
FCW4
3HD4
2HB5
2HAN
FHA7
5HA5
FVC2
IURF
5HA6
7HA5
FHA8
2HAG
5HA9
FHB4
2HAF
FCS0
3HA5
3HAS
2HAD
3HAA
FHAM
3CUC
FEF5
3EF4
3HAP
FEF6
2HAJ
2HB4
FEF7
7EF1
IUWF
FVC8
FHD4
2HAM
FHA6
3EFT 3EFS
DJA9
2EFG
DJAA
DJA7
9JA6
3EFL
3EFR
FEFD
FHA3
6HA1
3HAY
2EF0
2JA0
3JA5
FEF9
2EF7
3EFM
3CP5
FVCC
2EF1
FUW3
3EFJ
DJA5
9JA3
3HB0
2EF5
DJAB
7JA0
DJA4
DJAC
FHAG
FHBA
FEF8
5EF5
DJAD
ICA6
9JA4
DJA6
2EF6
FEF0
2HAA
FHA4
3JA1
FEF4
FHB2
DJA2 DJA0
FEF3
DJAE
2JA1
IDHP
2EF2
9JA5
FEF1
2EF8
2EFV 3EFN
DCW6
FEA7
FHB5
5EF6
IEF1 2EF3
FUW2
2EFT
2JA2
3JA0
DJA8
FCWE
2EFS
DCW5
FCP6
IUWE
3CT6
3CWP
5EF0
FCWR
ICW1
3CWG
5EF4
FEF2
FCW8
3CU9
FCT9
2EFU
2HW1
3CWB
FCW0
IUR4
2HD5
3CU4
DEF0
5HD4
ICT1
3CU3
3CTY
2AW0 2CW4
3CTB
3CU0
ICT3
3CW5
IHW2
IEF3
FUU1
IUU2
IEA3
IUU8
DJA3 DJA1
7CT4
3CT9
3AW0
3CWC
2CT4
3CL4
3PAU
3PAP
9PAA
3PAC
3PAR
3PAE
3CL6
3CL5
3PAS
3CL0
3PAT
3PA6
FRB0
FFA9
IKC6
IEA4
2CW3
ICT2
FCT8
3PAA
7PA1
3PA8
3PA3
IKCA
DB08
8001
8002
2CW2
FCT6
ICA4
FCT3
IKC2
2J2S 2J3B
2J3A 2J3C2J3E
3CWM
3CR8
ICA3
3CU6
3CRA
9PAB
3CR9
3PAF
3PAY
3PAM
3CU7
2PA2
3CL1
FCT5
2UVB FUV2
ICA1
3CL8
3CL7
3CL2
3CL3
3PAV
3PAL
2JA4
3PA4
2PA3
IUV3
3UV1
3UV5 3UV2
ICA5
ICA2
3CU1
FCT7
FUV1
3PA2
2UV9
3CW3
3PAN
IKC3
2RDK
DBB8
DBC1
2FAD
DBC4
IKC0
IKC1
DB67
IRD6
IRD5
2FA7
3J06
DBC5
DB69
DKC1
2J2R
3J2V
2J2A
2J28
DB15
DB66
DB16
2J07
2J2Y
IKCB
DBB6
DB02
2J2B
DB13
3J05
2J06
FJ05
2RDH
2KCL
3J2W
DBB3
DB82
DB14
FJ0F
8004
3PA9
5RDB
DBB7
DB68
2HW2 3HW5
7UV1
2RDS
FRDA
2J2C
DB04
IKC8
DB87
2J5F
2J5C
2J5H
FJ0J
3PAB
7PA2
IRD3
IRD1
9RD2 3RD2
2J2P
2J2N
2RDT
DB27
DB29
DBC7
2J38
2J36
IJ0L
2J4F
FJ16
FJ0G
5J06
2J4J
DB89
2J7V
2J7W
5J0D
2J96 2J4G
2J5B
2J05
2J5N
2J6T
2J3G 2J7F
IJ0F
IRD2
2RD4 2RD3
IRD0
DB18
DB72
2J5R
2J4V
IRDB
IKC9
2J2M
2J4T
2J5Y
FJ01
FJ0H
2J5S
2J5P
2J3Z
IJ07
2J4U
2J7E
5J0C 2J64
2J97
5J0M
2J7G
2J79
2J6B
IRDA
DB60
2J5L
3J00 2J5M
2J60
2J7C
2J70
2J77
2J7D
2J63 5J04 2J3W
2J6D
2J47
2J5V 2J5T 2J3V 2J6E
2J43
5J0E
2J6S
2J6F
2J7R
2J6P
2J69
2J66
2J71
2J78
2J5G
5RDA
2J2L 2J32
2J34
2RD6
2RD1
DB30
DBC2
FJ0A
DB96
5J0J
2J88
2J1T
2J87
2J09 2J23
2J4N
2J6M
2J7L
2J4W
IJ0G
2J6U
2J6L
2J65
IJ0H
IJ08
2J75
2J7A
2J6J 2J6N
2J4R
2J44
DVW1
DVW2
2J94
2J76 2J73
3J08
3J07 3J52
3PA7
5J0N 2J55 2J53
5J07 2J56 2J58
2J22
5J0F
2J6W 2J99
2J7Y
DBC6
DB74
DB85
DBC0
DVW4
IVW7
3PA5
FJ10
IJ06
2J6Y
2J74
IJ0J
2J54
IVW3
IVW8
5J0L
2J52 2J51 2J50
IJ0K
2J40
FVW0
3PAW
2J45
IJ05
DVW5
DVW6
IVW2
IVW1
3PAD
5J00
2J3M
IJ0A
IVW4
3PA1
2J7B
2J3T
2J49
IJ03
9J04 2J91
2J3N
5J09 2J48 2J46 IJ09
2FZ4
2VW9
IUAD
IJ12
2J4B
2FZ2
3VWU
FCY5
IJ01
FCY6
IJ02
3J01
2J03
IJ0N
5J0K 2J68
2J4Z 2J6C 2J6R
5J03
2J7K
5J0A 2J6G 2J67
2J3P 5J0B IJ14
5J02 5J01 2J6V 2J6H
2J4P
2J72
2J6A
2FZ1
3VWB
FCY4
FUC1
2J3R
9J03 2J90
2J7H
2J6Z 2J7J
2J3Y
2J4E
2J4D
2J4Y
FCY2
2UCN
3UCC
2J3S
IJ0C
IJ13
FCY3
IJ04
DB83
2J4L
2J98
DC02
IJ0P
5J0G
3VWC
3UCD
3UG2
DB76
2J4H
DB20
DB07
DB05
3RD6
2RD2
2RDN
DBB9
DB65
2J62
IJ00
3EJ7
2UC1
FCY1
IUC0
IUF6
IJ0U
IJ10
2J3U
2J4A
2J4C
IUCP
2VWA
IUCA
3UCB
3UC7
2UCM
2J4M
9GA2
3UC0
2UCH
3UC3
FCY8
3UC4
3UCG
3UCP
IJ0B
2VW7
FCWC
FHAS
FHB1
3CWU
7CW0
FCWV
FHB0
FHAF
FCW1
3JA4
3UWJ
3JA2
FVCD
FVC6
FCW7
FEA2
FEA1
3HBS 9HA0
IHDG9HD5
FHD0
IHB2
2EA0
IEA2
2EA5
IDHM
IHD1
9HD2
IHB3
3HDT
IHD7
IHB6
9HD6
7HA3
3HAL
FCS2
FHD7
IHDL
FHD65HD2 3HDE
2HD3
IHDH
FHAL
3HW6
FEA3
3HW1
FEA9
3HW2
FEAA
3HB3
FEAB
7HA2
FEAC
FCWU
3HB4
2EA4
IHB5
IHDM
2EA3
3HB2
3EA3
FEAH
2EA2
3EA1
IEA1
FEA5
FURA
FHD3
IHW3
1EA0
IUV1
2EA1
2EA7
3EA4
FHB6
FDH1
2UY7
FEAD
FEAE
3EA5
FEA6
FVCB
3HD9
FHD1
FCW5
3CR2
FEA8
FDH2
2UY2
6UW2
IHB4
3CT7
2UY1
3CTC
2UY3
IDHL
9HD0
FJA0
3CWR
FUW4
FHD5
3CR1
FCW6
FCWG
2UY5
2UY6
FVCA
FCWH
IJA0
IURM
FUR1
DCW2
FCS1
FVC3
2HD1
IURA
FVC4
5HD1
IDHN
5UR5
IURL
FVC9
FVC1
FCW2
IHD8
IURN
IUR2
FHB9
FCW3
FHD2
IUR8
IURC
3CR0
2URL
3URG
IURB
2URK
IUR0
IUR3
3CWV
FCWT
3JA3
FCWB
3DH4
FUAN
7UC0
2J5U
IJ0T
IJ0D
FCY7
2VW6
IUF7
7UF7
3UC8
IUC5
3UCA
IJ0M
DB77
FCY9
3UCE
DB75
DB88
IUC1
2UCR
2J00
3J02
2J7Z
DB86
3VWT
IUFP
3UAF IUAC
IUCB
DB91
DB23
2J2H
3J30
2J2E
DB70
2J02
DB80
FCT4
IUFQ
2UCF
3FZ1
DC03
7JA2
IUAA
FUAV
IUC4
3UC2
FUAC
IUF3
2UCP
3UCR
IUC9
3UCF
IUF1
3UG0
IUF0
IUC6
7UC1
3UAH
7UF9 2UF9
7UA0
3UG8
3UD1
3UAG
3UG4
3UG3
IUF8
3UD0
IUAB
2UAJ
IUPF
IUAF
FUPA
3UAE
IUC7
6UC1
3UPE
IUP2
IUPJ
DC06
FEJ8
2UCD 3UC1
3UPD
3UCN
6UP4
6UP5
FUA2
FEJ7
IUC2
IUC3
2UCE
3UPB
FEJ0
IUC8
IUA0
IUP4
IUPE
2J04
3J03
3J04
DB47
DB90
FEJ6
FEJ3
2J4S
FEH6
FEJ4
FEJB
2J5K 2J5D
3EJ6
FEJ5
FEJ2
2J2F
DBB4
3J31
3KW5
DB73
FEJA
FEJ1
FJ04
3RD9
FEJ9
2RDB
2RD0 2RD5
5RDC
DB24
FHAE
IJA1
2EA6
FDH3
5
SSB layout bottom
2012-11-08
3104 313 6618
19370_042_130130.eps
130130
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 143
310431366186 SSB
B01A, Power connector
Power connector
B01A
+12V
+12V DETECTION
3
5
7UA0-1
BC847BPN(COL)
FUAN
1
22K
8
4K7
3UAF-1
IUAD
POWER-OK
BC857BS(COL)
7UF9-2
+3V3-STANDBY
3UG4-2
100R
GND-AL
IUF7
100n
22K
7UF9-1
BC857BS(COL)
100K
1M0
+3V3-STANDBY
3GYB
3UG8
3UAG RES
+12VAL
BL-ON
BL-I-CTRL
BL-DIM1
BL-DIM2
100R
100R
100R
100R
2UAJ
3GY7
3GY8
3GY9
3GYA
FUA8
FUAA
FUAK
FUAL
3UD0
1u0 RES
3UAE
FUA7
FUAD
3UG4-3
1
+12V-AUDIO
100K
DETECT12V
2
FUAC
IUFQ
3UG4-4
100K
6
IUAB
+12V
IUF8
2
FUAM
7
IUAC
22K
STANDBY
100R
FUA5
1K0
IUAF
3UAF-2
3UA4
FUA2
RES
3UG3
3
5
22K
FUAB
4
IUAA
3UAF-4
FUA6
FUA9
7UA0-2
BC847BPN(COL)
4
FUA3
BL-DIM3
BL-DIM4
BL-DIM5
BL-DIM6
BL-DIM7
BL-DIM8
100K 1%
FUA4
7 100R
6 100R
8 100R
5 100R
100R
100R
3UD1
2
3GY1-2
3GY1-3 3
1
3GY1-1
3GY1-4
4
3GY5
3GY6
1% 68K
ENABLE+3V3
100K
+12V
30 29
FUAV
FUAE
3UG4-1
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
FUA1
22K
3UAF-3
6
BL-I-CTRL
2UF9
CUA1
BL-SPI-CS_BL-I-CTRL
1M90
+12V-AUDIO
SMAW200-H28S2
10n
1n0
1n0
RES
2UA5
2GYA
1n0
1n0
2GY8
2GY9
1n0
2GY6
2GY7
1n0
1n0
2GY5
10n
2GY3
2GY4
10n
1n0
2GY2
100n
2GY1
1u0
2UA3 RES
100p
2UA2
16V
2UA4
100u
100n
2UAT
100n
2UAA
1u0
2UAB RES
FUAH
2UAU RES
FUAF
AMBI-POWER
100p
100p
2UAL
10K
3UAS
+12V
4K7
4K7
RES 4 3UAP-4 5
RES 3 3UAP-3 6
4K7
4K7
RES 2 3UAP-2 7
4K7
RES 1 3UAP-1 8
10K
3UAT-3
10K
1u0
3UAT-4
5
6
7
8
6UAC
PDZ15B(COL)
1
2
3
3u0
AMBILIGHT 3-SIDED PROTECTION
2UA1
2UAP
22K
3UG0-1
22K
3UG0-2
+3V3
RES
+3V3-STANDBY
AMBI-POWER
5UAA
IUAT
+3V3-STANDBY
FUAT
S1D
IUAS
+12Vb
T 3.0A 32V
6UAB
22u 16V
IUA1
7UAB
BC847BW
2
1u0
1UA1
1
6UAD
+3V3-WIFI
330u 6.3V
FUAG
RES 2UAV
9UA1-1
9UA1-2
9UA1-3
9UA1-4
7UAC
SI4778DY-GE3
PDZ15B(COL)
IUAR
+12V
10K
T 3.0A 32V
3
3UAT-2
+12Va
4
12K 1%
IUA0
+3V3-WIFI
B230LA-M3
2UAM
GND-AL
IUAN
100R
3UAV-2
1UA0
0R1
3UAW
3UAV-4
3UAY
IUAP
REF
6UAF
4K7
RES 3UAN-4
4
5
12K 1%
100p
3
IUAV
T
2.0A 63V
FOR DUAL SIDE AL ONLY
1u0
2UF8
22n
2UF7
240R 1%
2UAK
3UAR
1UA2
+12VAL
COM
IUAJ
2UAN
12K 1%
IUFR
4
6
FUAP
5
10K
BP
+3V3-STANDBY
4
BC857BS(COL)
7UAA-2
1
BC857BS(COL)
7UAA-1
3UAT-1
EN
FUAU
5
+12VAL
2
3UAV-1
3
OUT
AMBI-POWER
IUAL
IUAK
1%
12K 1%
FUA0
IN
4K7
3UA6
1
3UAV-3
K
R
3UA5
7UF8
RT9193-33GB
4K7
1
RES
RES
RES
RES
2
3K3 1%
9UA2-1
9UA2-2
9UA2-3
9UA2-4
RES
1u0
A
6.3V 330u
2UA0
3
7UAF
TS2431
2UA9 RES
4K7
RES 3UAN-3
3
6
+12VAL
+22V
+12VAL
RES 2 3UAN-2 7
+12VAL
RES 3UAN-1
1
8
GND-AL
+3V5-STANDBY
2
IUF0
5
7UA2 RES
PMV31XN
IUA2
RES
3
IUF6
100K
CUA0
ENABLE+1V5+1V1
3UAH
1
2
+12VAL
IUFP
IUFS
4
IUFT
5
6
3UG9
3
GND-AL
VOUT
VIN
EN
FLG
RSET
PG
9
10
AMBI-POWER
8
7
CSS
GND
+3V3
10K
100n
22K
IUFU
DETECT12V
2UAW
3UG2
1K8
IUF3
3UGA
2
2UAS
7UF7-1
BC847BPN(COL)
1
100n
STANDBY
1X15
REF EMC HOLE
GND-AL
7UAD
SIP32429DN-GE4
optional
2UAR
22K
3UG0-4
22K
3UG0-3
1R0
RES 3UAC
220K
100n
RES 3UAB
10K
10K
7UA3
BC847BW
RES
3UA9
2UAD
IUA3
STANDBYn
GND-AL
6
11
3UA8
1u0
IUAM
47K
RES 9UA0
4
BC847BPN(COL)
7UF7-2
10K
3UA7
10K
RES
3UAL
IUF1
3UAK
B01A
1u0
10-3-1
2UF6
10.3
QFU1.2E LA
GND-AL
GND-AL
GND-AL
GND-AL
6
Power connector
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 144
B01B, Fusion supply
Fusion supply
B01B
5UC1
IUC0
+12Va
2
3
4
10
5
6
7
8
22u
2UCC
+12Va
IUC1
IUC2
3UC0
1
7UC2
SI4778DY-GE3
RES
4
9
1
2
3
22u
30R
22u
2UCB
10R
7UC4
AON7932
5
6
7
10u
2UCE
2K2
3UC2
7UC0
RT8228DGQW
2UCF
1%
MODE
2u0
5UC0
IUC8
10R
FUC0
+1V1-FD
2u0
2
8
22u
3
22u
2UCY
EN
3R3
100n
4
2UCW
FB
1n0
1n0
5UC2
220u 2.5V
CS
3UC8
2UCL
LGATE
IUCB
22u
PHASE
IUC7
2UCK RES
13
11
10
17
GND GND_HS
150K
3UCA
ENABLE+1V5+1V1
IUCA
LTST-C190CKT
1n0
2K2
UGATE
TON
PGOOD
15
+5V
NC
5
2UCH
22u
IUCP 14
12
BOOT
IUC6
2UCJ RES
1
6
9
16
6UC0 DBG
10R
2UC1
7
VCC
3UC9 DBG
4 3UC3-4 5
3 3UC3-3 6
10R
7
2
3UC3-2
8
10R
3UC3-1
7UC3
SI4172DY-GE3
RES
4
1
IUC5
B340A-M3
6UC2
6UC1
10u
5
6
7
8
PDZ5.6B(COL)
1R0
220p
1
2
3
270K 5%
3UC7
2UCD
IUC3
IUC4
2UCP
RES 3UC4
7UC1
BC847BW
3R3
3UC1
8
+5V
2UCR RES
GND-1V1F
CORE VOLTAGE SUPPLY FUSION
GND-1V1F
GND-1V1F
RES 2UCM
GND-1V1F
3UCG
DVS1
22p
3UCB
10R
22K 1%
120K 1%
3UCF
3UCE
1M0
220K 1%
3UCR RES
12K 1%
3UCN
3UCC
22K 1%
IUC9
180K 1%
3UCP
B01B
2UCA
10-3-2
QFU1.2E LA
3UCD RES
FUC1
SENSE+1V1-FD
+1V1-FD
10R
2UCN
1u0
GND-1V1F
GND-1V1F
GND-1V1F
6
Fusion supply
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 145
B01C, LNB supply
LNB supply
B01C
+12V
1UP1
T
+12V-DVBS
3.0A 32V
30R
100n
5UP6
+12V-DVBS
2UPL RES
10u
10u 25V
10u
RES 2UPM
10u
2UPE
5UP5
7UP2
LNBH25LPQ
100n
2UPD
2UPC
IUPJ
17
VCC
3UPE
IUP2
9
VIA
ISEL
GND_HS
6UP5
RS1D
2UPG
IUPE
25
GND
PGND
22K
47u 25V
DSQIN
6UP6
NC
22
F22-DISECQ-TX
+V-LNB
B230LA-M3
DSQ
1
5
10
11
12
13
14
24
26
27
28
29
30
31
32
33
1u0
SDA
FUPA
20
2UPH
8
47R
VOUT
47u 25V
47R
ADDR
SCL
2UPF
3UPD
7
470n
21
B230LA-M3
SDA-FE
3UPB
VUP
2UPK
SCL-FE
2UPJ
IUPF
VBYP
6
IUP4 +V-LNB
3
16
220n
LX
6UP4
Φ
4
B01C
2
15
18
19
23
10-3-3
QFU1.2E LA
6
LNB supply
2013-01-11
5
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�Circuit Diagrams and PWB Layouts
10.
EN 146
B01D, USB internal
USB internal
B01D
RES
RES
RES
RES
10u
2EHL
9EHE-1
9EHE-2
9EHE-3
9EHE-4
7EH2
RT9187GSP
IEH3
9
6
10
100u 6.3V
RES 2EHY
3EHY
1M0
1M0
10u
2EHM
NC
VIA
GND
GND HS
5
7
3EM1
BP|ADJ
33K 1%
EN
+3V3-LAN
10K 1%
8
3
4
VOUT
3EHW
+3V5-STANDBY
VIN
3EM0
1
2
ENABLE-WOLAN
7EH4 RES
TPS61200DRCG4
reserved
USB-WIFI-DM
L
10K
6
7
24
USB-CAM-DM
USB-CAM-DP
3EM7
10K
12
13
20
3EM8
10K
15
16
19
3EM9
10K
RESET-FUSION-OUTn
3EM3
10K
3EM5
DD4DD4+
OVR4
VREG
RESET
SELFPWR
GANG
RREF
22u
120K 1%
IEHJ
2EHN
+3V3
18
RES 9EH8-1
RES 9EH8-2
RES 9EH8-3
RES 9EH8-4
3EHV
47K
100n
+3V3-LAN
26
IEH6
100K
RES 3EHP
2EHJ
3EHJ
10n
cEH0
22K
3EHT RES
21
VCC_D
27
5
VCC_A_1
9
VCC_A_2
14
VCC_A_3
TEST|SCL
USB1-DM
USB1-DP
7EHJ
BC847BW
22K
RES
100n
1C31
VIA1
VIA2
VIA3
VIA4
30
31
32
33
FEH1
FEH2
FEH3
FEH4
FEH5
USB-WIFI-DM
USB-WIFI-DP
IRQ-WOLANn
8
7
1
2
3
4
5
6
A1253WRA
RES 3EHN
+3V3-LAN
100n
2EM2
+3V3
DD3DD3+
OVR3
22u
2EHT
+3V5-STANDBY
3EHU
29
IEM2
680R
SDA
RES
IEH4
100K
3EM4
28
17
IEM1 22
23
8
DD2DD2+
OVR2
1
2
RES 2EHS
12
13
IEH5
DD+
DD1DD1+
OVR1
RES
RES
3EM6
XOUT
2EHV
100n IEH1
10
2EHW
3
4
25
USB-WIFI-DM
USB-WIFI-DP
XIN
GND_HS
11
VCC
10
18p
+3V3
3
GND_HS
VIA
4u7
100n
100n
2EM7
100n
2EM6
100n
2EM5
2EM4
100n
2EM3
7EM1
CY7C65632-28LTXCT
2EM1
+3V3
UVLO
IEH0
1
47n
18p
+3V3
FB
EN
9
1n0
2EHU RES
IEH2
2EM0
+3V3
VAUX
2EH9
RES 5EH0
+3V3
+3V3
PS
2
9EM3
7
VOUT
22K 1%
6
VIN
RES 3EHR
22u
2EHR
RES
8
330K
5
+3V3-WIFI
RES 3EHS
USB-WIFI-DP
PGND
9EM2
11
USB1-DP
GND
9EM1
4
USB1-DM
12M
B01D
1EM0
10-3-4
QFU1.2E LA
10K
RES 2EHP
100n
1C30
USB-CAM-DM
USB-CAM-DP
+5V
FEH6
FEH7
FEH8
FEH9
7
6
1
2
3
4
5
A1253WRA
6
USB internal
2013-01-11
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�Circuit Diagrams and PWB Layouts
10.
EN 147
B01E, Miscellaneous
Miscellaneous
B01E
RES
FTA3
SDA-SRF
3TA2
RES
10R
FTA4
FTA6
RES 2TA1
10R
10p
SCL-SRF
RES
1T71
FTA2
3TA1
10p
RES 2TA2
FTA1
1
2
3
4
A1253WRA
RES 5TA1
FTA5
RES 5TA2
+12V
ITA1
30R
TEMPERATURE
SENSOR
5TA3
+3V3-STANDBY
1u0
30R
RES 2TA3
+3V3
T 1.0A 63V
B01E
RES
1TA1
10-3-5
QFU1.2E LA
30R
6
Miscellaneous
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 148
B02A, Hybrid T/C tuner
B02A
Hybrid T/C tuner
B02A
22u 16V
30R
2FA5
5FA1
VCC-TUNER
100n
2FA9
100R
10p
5FA4
330n
3FA4
47R
5FA5
14
A3.3V
IF1_P
IF1_N
AGC1
NC1
NC2
IF2_P
IF2_N
AGC2
I2C_SCL
I2C_SDA
12
10p
2FAB
330n
10p
2FAC
3FA3
47R
FFA3
TUNER
30R
SOC-IF-N
SOC-IF-P
1
2
3
4
5
6
7
8
9
10
11
FFA2
10p
3FA2
13
100R
30R 5FA6
FFA9
2FAA
3FA1
5FA7
FFAA
5KA1
3KA0
330n
3KA1
5KA0
330n
10p
2FAG
47R
2FAH
47R
10p
IF-N-DVBT2
IF-P-DVBT2
FFA8
FFA4
3KA3
IF-AGC-DVBT2
2FAF
10p
3KA5
22K
3FAD
2K7
IFA6
10p
2FAE
100R
7KA0
PDTA114EU
RES
2K7
FFAC
VCC-TUNER
6
3
IFA3
5
2
7FA1-2
BC857BS(COL)
4
3FAC
10K
IFA4
3FAB
470R
IFA5
470R
7FA1-1
BC857BS(COL)
1
3FAA
AGC-SWITCH
RES 3FA7
FFA5
100R
SOC-IF-AGC
22n
RES 3KA4
FFAB
6K8
IF-AGC-DVBT2
2FAD
100R
RES 3KA2
1n0
SDA-FE
SCL-FE
FFA6
FFA7
16
10p
2FA7
1F00
SUT-RE214Z
BM03B-SRSS-TBT
2FA3
100n
10u
2FA2
1
FFAD
4
15
5
VCC-TUNER
1
2
3
RES 3FA8
OUT
COM
2FA1
RES
2FA0
30R
IN
FFAE
3FA9
3
+5V
2
4
6K8
IFAA
5FAA
2FA8
1FA0 DBG
7FAA
LD1117S33
330u 6.3V
10-3-6
QFU1.2E LA
VCC-TUNER
6
Hybrid T/C tuner
2013-01-11
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�Circuit Diagrams and PWB Layouts
10.
EN 149
B02B, Satellite tuner
Satellite tuner
B02B
IRB1
3RB3
4R7
*
*
*
68p
*
10u
2RBV
2RBU
100n
100n
2RB6
1n0
2RB5
1n0
2RB4
1n0
2RB3
2RB2
10n
22u
2RBK
2RBL
IRB0
9RB9
2RB7
*
+3V3-DVBS
4n7
B02B
2RBE
4,5
JUMP
X
2RBM
4,5
27P
X
X
X
-
+3V3-DVBS
-
2RBU
27
4N7
2RBV
27
68P
9RB9
27
JUMP
X
-
3RB3
27
4R7
X
AS
NC
VIA
RF_IN
*
DVBS-QP
DVBS-QN
10p
8
100R
10p
7
34
35
36
37
38
39
40
41
42
DVBS-IP
DVBS-IN
10p
2
3RB1-2
5
100R
10p
RF_OUT
21
20
4
6 3RB1-4
100R
1
7 3RB1-1
100R
10p
I2C-ADDRESS: C6
AGC
XTAL
3
3RB1-3
10p
QP
QN
18
19
1K0
2K2
X
X
FRB0
+V-LNB
*
*
2RB1
GND
RF LNA LT MIX DIG BB VCO
5
3
9 10 15 17 25 26
27p
*
SYN HS
29 33
9RB7
10U
SATELLITE
TUNER
9RB6
27
100p
2RB7
-
X
2RBY
JUMP
4
9RB8
JUMP
25
0p56
25
9RB7
RES 2RBG
9RB6
X
27n
33N
100p
7
X
5RB0
2RBW
2RBM
SCL
SDA
27p
1n0
2RBH
27P
*
1
2
3
4
5
6
7
8
9
10
SM15T
2RBJ
4,5
1R01
47p
6RB0
2RB1
23
24
XTAL_CMD
IP
IN
Φ
3RB0
100p
2RBS
-
9RB8
16
9RB0
RES
X
XTAL_IN
2RB8
32
2RBR
100P
XTAL_OUT
2RBP
4,5
SYN
2RBN
2RBY
28
2RBC
Position Nr Affected Pin Default Value STV6110 STV6111
2
VCO
10p
2RBD
3n3
RES
10p
27
2RBB
12
13
22
10p
1
14
MIX DIG BB
VSS
2RBA
2RK1
DVBS-AGC
31
11
33n
Diversity Matrix (Satellite Tuner dependant)
30
10p
RES
10p
8
2RB9
2RK0
SCL-S-TUNER
SDA-S-TUNER
1
6
LNA LT
2RBW
1RB0
16M
2RBF
7RB0
STV6110AT
2 NC 4
NX3225JB
3
10p
RES 2RBT
10-3-7
QFU1.2E LA
* *
+3V3-DVBS
6
Satellite tuner
2013-01-11
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�Circuit Diagrams and PWB Layouts
10.
EN 150
B02C, DVBT2 channel decoder
B02C
DVBT2 channel decoder
B02C
+3V3-DVBT2-D
+1V2-DVBT2-P
DKC0
IKC4
3KC7
+3V3-DVBT2-D
48
10K
IKC5
100n
3KC8
3K3
3KC9
1
47
2
IKC6
46
45
GPIO0
GPIO1
GPIO2
I2C
ADDRESS
=
0XD8
SCL
SDA
TIFAGC
TTUSCL
TTUSDA
3K3
25
DKC1
26
29
RESET-FUSION-OUTn
30
5KC8
+3V3-DVBT2-D
IKCB
30R
33
40
SLVADR0
VIA
OSCEN_X
RST_X
SLVADR3
NC1
NC2
100n
100n
3 3KC0-3
47R
TS-CHDEC-DATA
SENSE+1V1-DVBT2
+1V2-DVBT2-C
5KCA
IKC8
+1V2-FE
RES 5KC5
IKC7
+3V3-DVBT2-D
VCC-TUNER
3KC2
47R
SCL-FE
SDA-FE
3KC3
47R
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
+1V2-DVBT2-C
30R
RES 5KC7
+1V1-DVBT2
30R
5KC6
30R
+3V3
30R
+1V2-DVBT2-C
3KCE
IKC9
+1V2-DVBT2-P
22R
7KC0
GND_HS
+1V1-DVBT2
CXD2834
+1V2
GAIA3
FKC1
+1V1
RES
2KCL
VSS
6
11
18
23
27
31
36
39
43
RES
TESTMODE
20
21
TS-CHDEC-CLK
TS-CHDEC-VALID
TS-CHDEC-SOP
49
24
2KC0
100n
30R
2KC1
32
100n
7
19
42
100n
2KC2
2KC3
100n
RFAIN
8
9
12
13
14
15
16
17
1 3KC0-1
47R
1u0
1K0
2KCJ
TAINP
TAINM
7
2KCR
41
IF-AGC-DVBT2
0
1
2
3
TSDATA
4
5
6
7
47R
3KC6
4u7
100n 2KC4
2KC6
3KCB
38
37
6p8
47R
8
2 3KC0-2
47R
6
10u
47p
RES
2KCH
AGC-SWITCH
3KCA
47R
IKC3
2KCG
5KC1
XTALO
1K0
IKC2
47p
2KCF
100n
34
5
4
3
2KCS
100n
35
3KC1
1u0
2KCE
IKC1
RES 2KCK
DVDD PVDD
TSCLK
TSVALID
TSSYNC
CVDD
XTALI
2KCP
9KC0
9KC1
NC 2
1KC0 3KC4
7KC0
CXD2834ER
IKC0
2KCD
4u7
IF-P-DVBT2
IF-N-DVBT2
1
4
5KC0
100n 2KC5
12p
3
IKCA
10
22
28
44
41M
2KCB
12p
2KCC
100n
2KC7
5KC9
+1V2-DVBT2-C
10n
10-3-8
QFU1.2E LA
6
DVBT2 channel decoder
2013-01-11
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2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 151
B02D, DVBS/S2 channel decoder
DVBS/S2 channel decoder
B02D
+3V3-DEMOD
FRDA
2RDR
1
100n
10K
3RD6
XTAL
+3V3-DEMOD
31
3
RESET-FUSION-OUTn
9RD3
AGC-SWITCH
DVBS-QP
DVBS-QN
DVBS-IN
DVBS-IP
5RDB
2RD7
100n
2RDA
100n
3RD2
9RD2
IF-AGC-DVBT2
IRDB
2RDH
100n
+3V3-DEMOD
9RD0
9RD1
IF-P-DVBT2
IF-N-DVBT2
2RD8
100n
2RD9
100n
3RD3
2RDF
100n
SDA-S-TUNER
SCL-S-TUNER
1
2
29
30
DRD0
DRD1
10K
DVBS-AGC
22u
2RDS
30R
43
37
38
39
40
10K
41
42
2RDG
100n
3RD4
IRD5
IRD6
45
46
IRD3
47R
3RD5
4
5
6
47R
+V-LNB
4K7
3RDB RES
3RD9
1K0
8
21
27
47
RESETB
GPIO_0|JTAG_TMS
ADDR
TS_SYNC
TS_VAL
TS_ERR|GPIO_1
TS_CLK
TS_DATA0|TS_SER
TS_DATA1
TS_DATA2
TS_DATA3
TS_DATA4
TS_DATA5
TS_DATA6
TS_DATA7
RSSI_ADC
S_ADC_IP
S_ADC_IN
S_ADC_QP
S_ADC_QN
MP_A
MP_B
MP_C
MP_D
100n
2RD6
VDD_VANA
36
2RD4
7
20
28
48
CLK_IN_OUT
SDA_HOST
SCL_HOST
TC_ADC_P
TC_ADC_N
SDA_MAST
SCL_MAST
VIA
DISEQC_CMD
DISEQC_IN
DISEQC_OUT
13
12
26
14
3RD0-2 2
3RD0-1 1
15
16
17
18
19
23
24
25
3RD0-3 3
11
10
3RD1
7
8 47R
TS-DVBS-SOP
TS-DVBS-VALID
6
TS-DVBS-DATA
47R
47R
TS-DVBS-CLK
47R
IRD0 3RD8
IRD1
47R
SDA-FE
SCL-FE
3RD7
47R
50
51
52
53
54
55
56
57
58
GND1|JTAG_TCLK
GND2|JTAG_TDI
GND3|JTAG_TDO
GND4|JTAG_TRSTB
GND5
35
10n
2RDN
2RDM
30R
4K7
+3V3-ANA
+3V3-DVBS
2RDT
100p
F22-DISECQ-TX
IRDC
3RDA RES
5RDC
XTA_O
2RD5
100n
2RDB
VDD_VCORE
XTA_I|CLK_IN
9
VDD_VIO 22
32
44
34
+3V3-DVBS
100n
100n
2RD3
100n
2RD2
100n
2RD1
22u
2RD0
22u
2RDL
RES 2RDJ
10p
33
+3V3-DVBS
COM
100n
2RDP
30R
2
4
OUT
7RD0
SI2169-A10-GM
16M
GND_HS
49
IN
16V
3
22u
IRDA
22u
5RDA
+5V
4
3
RES 2RDD
7RDA
LD1117S33
NC
10p
RES 2RDE
2
1
22u
RES 2RDK
30R
1RD0
NX3225JB
100n
+3V3-ANA
IRD2
5RDD
+1V2-FE
6p8
B02D
RES 2RDC
10-3-9
QFU1.2E LA
+3V3-DEMOD
6
DVBS/S2 channel decoder
2013-01-11
5
2012-11-08
3104 313 6618
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2014-Jan-10 back to
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�Circuit Diagrams and PWB Layouts
10-3-10
QFU1.2E LA
10.
EN 152
B03A, Fusion
B03A
Fusion
B03A
7J00-6
FUSION120
FRA5
FRA6
FRA7
FRA8
CA-OEn
FRA10
FRA11
FRA12
NAND-CLE
NAND-ALE
CA-A14
F-OEn
F-WEn
AK29
AK24
F-CEn
TS-DVBS-DATA
TS-DVBS-VALID
TS-DVBS-SOP
TS-DVBS-CLK
AJ24
AE26
AF23
AK28
AH24
AG22
AG23
CA-A06
F-RDY
PODIREQ
PODRST
PODVS1
PODWAIT
POD_DIR
PODCE1
PODCE2
PODCD1
POD_CD2
POD_VCC_EN
FRA0_AD0
POD_VPP_EN
FRA1_PODWE
HPD
FRA2_PODIORD
FRA3_PODIOWR
FRA4_PODREG
GPIO0
FRA5_AD1
GPIO1
FRA6_AD2
GPIO2
FRA7_AD3
GPIO3
FRA8_AD4
GPIO4
FRA9_PODOE
GPIO5
FRA10_AD5
GPIO6
FRA11_AD6
GPIO7
FRA12_AD7
GPIO8
FRA13_CLE
GPIO9
FRA14_ALE
GPIO10
FRA15_PODA14
GPIO11
FOE
FWE
BOOTCS
FCE2N
FINT1
FINT2
FCLK
FAVD_PODA6
FREADY
GPIO14
GPIO15
GPIO16
GPIO17
GPIO18
GPIO19
GPIO20
GPIO21
GPIO22
GPIO23
GPIO24
TS_TSB_MCU
AJ22
AH22
AF22
AJ23
AH23
CA-A04
CA-A05
CA-A07
CA-A08
CA-A09
AE27
AG30
AF30
AE28
AE30
CA-RDY
CA-RST
CA-VS1n
CA-WAITn
FJ16
AD28
AD27
AF29
AD30
CA-CE1n
CA-CE2n
CA-CD1n
CA-CD2n
AE29
AD29
R30
E1
F3
F4
F2
F1
G6
G5
G4
G3
G2
G1
H6
J6
J5
J4
J3
J2
J1
H1
H2
H3
H4
H5
GPIO0
GPIO1
GPIO2
GPIO3
CA-MDO0
CA-MDO1
CA-MDO2
CA-MDO3
CA-MDO4
CA-MDO5
CA-MDO6
CA-MDO7
AG20
AH20
AJ20
AK20
AE21
AF21
AG21
AH21
CA-MOCLK
CA-MOSTRT
CA-MOVAL
AJ21
AK21
AE22
TS-CHDEC-DATA
TS-CHDEC-CLK
TS-CHDEC-SOP
TS-CHDEC-VALID
IF-IN-P
U28
U29
U30
T26
2FZ1
F30
F29
10p
2FZ2
GPIO5
GPIO6
GPIO7
GPIO8
3FZ1
33R
GPIO14
GPIO15
GPIO16
GPIO17
GPIO18
GPIO19
GPIO20
GPIO21
GPIO22
GPIO23
GPIO24
100n
2FZ3
100n
E28
E27
2FZ4
2J10
18p
GPIO11
0
1
2
3
TS1D
4
5
6
7
H30
2
4
H29
TSSDI
TSSCLK
TSSSYNC
TSSDEN
IN_P
IN_N
P
PD
N
XTLI24M
XTLO24M
2J11
18p
RESET-STANDBYn
J26
TEST-CON
TEST-MOD
P30
P29
ENABLE-STANDBY
H25
SPI-EN
SF-SDI
SF-SDO
SF-WP
SF-HOLDn
SF-CS
SF-CLK
K28
L28
L26
K30
L27
L29
L30
0
1
2
3
TS2OD
4
5
6
7
TS2OCLK
TS2OSYNC
TS2ODEN
AH18
AJ18
AK18
AE19
AF19
AG19
AH19
AJ19
MDI0
MDI1
MDI2
MDI3
MDI4
MDI5
MDI6
MDI7
AK19
AE20
AF20
MICLK
MISTRT
MIVAL
2FZ5
TS1CLK
TS1SYNC
TS1DEN
10p
RES 2FZ6
47p
IF-IN-N
3
AG29
AD26
AH29
AJ29
AF28
AH30
AG28
AJ30
AJ28
AJ27
AF27
AG27
AG24
AE23
AK22
AJ26
PODA4
PODA5
POD_A7
POD_A8
POD_A9
24M
FRA0
CA-WEn
CA-IORDn
CA-IOWRn
CA-REGn
FRD0_PODD0
FRD1_PODD1
FRD2_PODD2
FRD3_PODD3
FRD4_PODD4
FRD5_PODD5
FRD6_PODD6
FRD7_PODD7
FRD8_PODA0
FRD9_PODA1
FRD10_PODA2
FRD11_PODA3
FRD12_PODA10
FRD13_PODA11
FRD14_PODA12
FRD15_PODA13
1J00
AK23
AF26
AE24
AK25
AH25
AH27
AK27
AJ25
AF25
AG26
AK26
AG25
AE25
AH26
AH28
AF24
1
CA-D00
CA-D01
CA-D02
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-A00
CA-A01
CA-A02
CA-A03
CA-A10
CA-A11
CA-A12
CA-A13
7J00-7
FUSION120
FLASH_CI_GPIO
RSTN
TESTCON
TESTMOD
STB_EN
SPI_EN
SFSI
SFSO
SFWPN
SFHOLDN
SFCES
SFSCK
TAGCO
IF
RF
DGPIO
1
2
0
1
2
3
4
STB_GP 5
6
7
8
9
10
TXD
RXD
STB
SDA
SCL
LED
IR
KYBRD
LGSEN
CEC
PWRON
AVLINK
1
2
PCVS
PCHS
STB_RSTO
HP_DETECT
MUTE
F27
G26
3FZ0
4n7
SOC-IF-AGC
100R
FJ10
T28
T29
M27
M26
M25
N30
N29
N28
N27
N26
N25
P25
P26
STB-GP0
STB-GP1
STB-GP2
STB-GP3
STB-GP4
STB-GP5
STB-GP6
STB-GP7
STB-GP8
STB-GP9
STB-GP10
R27
R28
P27
P28
STB-TXD
STB-RXD
STB-SDA
STB-SCL
J25
M29
J30
M30
M28
R29
LED
IR
KYBRD
LGSEN
HDMI-CEC
PWRON
K25
K26
AVLINK1
AMBI-TEMP-FUS
J27
J28
J29
STB-RSTO
K27
HP-DETECT
H26
AUDIO-MUTEn
6
Fusion
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
B03B, Fusion Umac controller
Fusion Umac controller
1K0
3J05
2J06
100n
M0-MVREF0
2J05
100n
1K0
3J06
100n
3J00
MM0ANA
FJ01
240R 1%
AE11
AE12
AE7
AD18
P
MM1CK
N
0
1 MM0BA
0
2
MM1VREF
1
MM0CASN
MM0RASN
MZQ1
MM1ANA_TEST
MM0WEN
DDR_RETN
MM0CKE
MM0ODT
MM0RESETN
MM0CSN
M1-MA0
M1-MA1
M1-MA2
M1-MA3
M1-MA4
M1-MA5
M1-MA6
M1-MA7
M1-MA8
M1-MA9
M1-MA10
M1-MA11
M1-MA12
M1-MA13
M1-MA14
M1-MA15
U1
P5
R1
T3
V2
U3
R3
V1
N4
P4
M1-BA0
M1-BA1
M1-BA2
M1-CAS#
M1-RAS#
M1-WE#
M1-CKE
M1-ODT
M1-RESET#
M1-CS#
P1
P2
M1-MCLK0
M1-MCLK0#
U7
U6
AA5
K6
AB4
M1-MVREF1
3J01
240R 1%
MM1ANA
+1V5-M1
P
MM0CK
N
DDR-RTN
0
MM0VREF
1
MZQ0
MM0ANA_TEST
MM0ANA
+1V5-M1
2J04
AK14
AJ14
0
MM1BA 1
2
MM1CASN
MM1RASN
MM1WEN
MM1CKE
MM1ODT
MM1RESETN
MM1CSN
DB47
T2
L2
N1
N3
L3
N5
L5
N2
M3
L4
R5
M1
T1
M5
L1
R2
100n
M0-MCLK0
M0-MCLK0#
M0-MVREF0
0
1
2
3
4
5
6
7
MM0A
8
9
10
11
12
13
14
15
M1-DQS0
M1-DQS#0
M1-DQS1
M1-DQS#1
2J03
AG12
AF14
AK13
AH12
AF12
AF11
AH13
AG11
AG15
AG14
MM0DQS3
AA2
AA3
V3
V4
M1-DQM0
M1-DQM1
100n
M0-BA0
M0-BA1
M0-BA2
M0-CAS#
M0-RAS#
M0-WE#
M0-CKE
M0-ODT
M0-RESET#
M0-CS#
+1V5-M0
MM0DQS1
MM0DQS2
DB78
DB75
1K0
AJ12
AJ17
AK15
AH15
AH17
AF15
AF17
AJ15
AH16
AG17
AF13
AK16
AK12
AF16
AK17
AJ13
MM0DQS0
0
1
2
3
4
5
6
7
MM1A
8
9
10
11
12
13
14
15
DB76
3J03
M0-MA0
M0-MA1
M0-MA2
M0-MA3
M0-MA4
M0-MA5
M0-MA6
M0-MA7
M0-MA8
M0-MA9
M0-MA10
M0-MA11
M0-MA12
M0-MA13
M0-MA14
M0-MA15
P
N
P
N
P
N
P
N
P
N
P
MM1DQS1
N
MM1DQS0
AA1
W3
DB79
DB77
1K0
AK7
AK6
AJ10
AK10
AF2
AF1
AH4
AG4
DB14
DB16
0
1
M1-MD0
M1-MD1
M1-MD2
M1-MD3
M1-MD4
M1-MD5
M1-MD6
M1-MD7
M1-MD8
M1-MD9
M1-MD10
M1-MD11
M1-MD12
M1-MD13
M1-MD14
M1-MD15
3J04
M0-DQS0
M0-DQS#0
M0-DQS1
M0-DQS#1
M0-DQS2
M0-DQS#2
M0-DQS3
M0-DQS#3
0
1
MM0DM
2
3
MM1DM
W2
AC2
Y1
AC1
Y3
AB1
W1
AB3
T5
Y4
T4
W5
U5
Y5
U4
W4
FJ04
M1-MVREF1
MM1ANA
DB73
FJ03
2J02
AJ6
AK9
AE1
AH3
M0-DQM0
M0-DQM1
M0-DQM2
M0-DQM3
0
1
2
3
4
5
6
7
MM1DQ
8
9
10
11
12
13
14
15
100n
DB74
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
MM0DQ
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
1K0
DB72
DDR3
3J02
AH8
AH5
AH7
AJ5
AK8
AH6
AJ8
AK5
AK11
AF9
AJ11
AG9
AF10
AG8
AH10
AH9
AG1
AF3
AE3
AH1
AH2
AD3
AD1
AD2
AK4
AG3
AJ3
AK2
AK3
AJ2
AG5
AJ1
DB71
M0-MD0
M0-MD1
M0-MD2
M0-MD3
M0-MD4
M0-MD5
M0-MD6
M0-MD7
M0-MD8
M0-MD9
M0-MD10
M0-MD11
M0-MD12
M0-MD13
M0-MD14
M0-MD15
M0-MD16
M0-MD17
M0-MD18
M0-MD19
M0-MD20
M0-MD21
M0-MD22
M0-MD23
M0-MD24
M0-MD25
M0-MD26
M0-MD27
M0-MD28
M0-MD29
M0-MD30
M0-MD31
FJ05
B03B
7J00-8
FUSION120
2J00
B03B
2J07
EN 153
100p
10-3-11
QFU1.2E LA
FJ02
DB80
DB85
DB81
DB86
DB82
DB87
DB83
DB88
DB89
6
Fusion Umac controller
2013-01-11
5
2012-11-08
3104 313 6618
19370_095_130222.eps
130222
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10-3-12
QFU1.2E LA
10.
EN 154
B03C, Umac 1 DDR3
Umac 1 DDR3
B03C
B03C
+1V5-M1
+1V5-M1
3J1H
3J1G
100R
3J1K
3J1J
100R
3J1P
100R
3J1R
3J1Y
100R
100R
100R
3J27
3J26
100R
3J29
3J28
100R
3J2F
3J2E
3J2H
3J2G
100R
3J2M
3J2L
100n
DB42
DB43
M1-DQS0
M1-DQS#0
B4
C8
C3
C9
E4
E9
D3
E8
DB40
DB41
M1-MD0
M1-MD5
M1-MD6
M1-MD1
M1-MD2
M1-MD7
M1-MD4
M1-MD3
M1-MA0
M1-MA1
M1-MA2
M1-MA3
M1-MA4
M1-MA5
M1-MA6
M1-MA7
M1-MA8
M1-MA9
M1-MA10
M1-MA11
M1-MA12
M1-MA13
M1-MA14
DB50
DB49
DB52
DB51
K4
L8
L4
K3
L9
L3
M9
M3
N9
M4
H8
M8
K8
N4
N8
ZQ
A1
A4
A11
F2
F10
H2
H10
J8
N1
N11
BA0
BA1
BA2
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
NC
VSS
E2
J9
DDR-MVREF12
DB57
H9
M1-MA15
DB06
DB64
DB53
M1-BA0
M1-BA1
M1-BA2
M1-RAS#
M1-ODT
M1-CAS#
M1-MCLK0
M1-MCLK0#
VSSQ
DB54
DB55
J3
K9
J4
F4
G2
G4
F8
G8
G10
H3
H4
N3
VDD
B10
C2
E3
E10
VDDQ
0
1
2
3
4
5
6
7
A
8
9
10
11
12
13
14
BC
AP
TDQS
TDQS
DM
DQS
DQS
0
1
2
3
DQ
4
5
6
7
VREFDQ
VREFCA
A8
B8
DB58
M1-DQM1
C4
D4
DB90
DB91
M1-DQS1
M1-DQS#1
B4
C8
C3
C9
E4
E9
D3
E8
M1-MD14
M1-MD15
M1-MD10
M1-MD11
M1-MD12
M1-MD13
M1-MD8
M1-MD9
ZQ
BA0
BA1
BA2
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
NC
VSS
M1-CKE
M1-CS#
M1-WE#
M1-RESET#
3J2P
3J2N
A1
A4
A11
F2
F10
H2
H10
J8
N1
N11
M1-MA15
VSSQ
100R
3J2R
100R
M1-MCLK0#
3J2T
2J1A
3J14
1K0
2J1B
1K0
10n
10n
2J1G
10n
2J1E
100n
2J21
100n
2J1C
100n
2J1Z
2J1V
10n
10n
2J84
10n
2J83
10n
2J82
100n
2J81
100n
2J1T
10n
2J1J
+1V5-M1
+1V5-M1
10u
2J1R
3J15
FJ09
DDR-MVREF12
2J22
100n
+1V5-M1
100R
100n
3J2S
DB59
DBA5
DBA1
DBA6
DBA2
DBA7
10n
10n
2J1K
10n
2J1H
10n
2J1F
100n
2J20
100n
2J1D
100n
2J1W
+1V5-M1
2J1U
10n
10n
2J88
10n
2J87
10n
2J86
100n
2J85
10u
2J1S
10u
2J25
DBA4
DB97
2J24
DBA3
DB99
DB96
2J27
DB98
DB95
+1V5-M1
DB93
DB94
47u 16V
100R
100R
C4
D4
100R
3J2Q
M1-RESET#
M1-DQM0
A2
A9
B2
D9
F3
F9
J2
J10
L2
L10
N2
N10
100R
M1-CKE
DB01
DB39
VREFDQ
VREFCA
DB56
75R
3J2K
100R
100R
M1-ODT
DB35
DB36
DB38
0
1
2
3
DQ
4
5
6
7
A8
B8
100R
3J2J
M1-CS#
F4
G2
G4
F8
G8
G10
H3
H4
N3
M1-CKE
M1-CS#
M1-WE#
M1-RESET#
100R
3J17
M1-WE#
100R
100R
100R
M1-BA0
M1-BA1
M1-BA2
M1-RAS#
M1-ODT
M1-CAS#
M1-MCLK0
M1-MCLK0#
75R
3J2D
RES
100R
3J16
3J2B
3J2C
M1-CAS#
+1V5-M1
100R
100R
M1-RAS#
M1-MCLK0
100R
3J2A
M1-BA2
3J10
3J25
3J24
M1-BA1
240R
3J23
100R
100R
J3
K9
J4
DB62
DQS
DQS
A2
A9
B2
D9
F3
F9
J2
J10
L2
L10
N2
N10
100R
M1-BA0
H9
100R
3J22
M1-MA15
2J14
3J21
3J20
M1-MA14
1K0
100R
3J12
3J1W
100R
2J17
3J1Z
100n
100R
100R
M1-MA13
DDR-MVREF11
3J1V
3J1U
100n
2J15
100R
M1-MA12
DDR-MVREF11
E2
J9
100R
100R
M1-MA11
FJ08
3J1T
3J1S
M1-MA10
DB32
DB33
DB34
100R
100R
M1-MA9
10n
M1-MA8
1K0
100R
3J11
3J1M
3J1L
3J1N
2J16
100R
100n
100R
M1-MA7
2J12
M1-MA6
DB31
7J02
H5TQ2G83BFR
TDQS
TDQS
DM
B3
B9
C10
D2
D10
100R
10n
M1-MA5
100R
100R
2J89
M1-MA4
+1V5-M1
3J1F
3J1E
240R
3J1D
100R
100n
100R
3J1C
VDDQ
3J13
100R
VDD
0
1
2
3
4
5
6
7
A
8
9
10
11
12
13
14
BC
AP
2J18
100R
M1-MA3
K4
L8
L4
K3
L9
L3
M9
M3
N9
M4
H8
M8
K8
N4
N8
100n
2J19
3J1B
3J1A
M1-MA2
M1-MA0
M1-MA1
M1-MA2
M1-MA3
M1-MA4
M1-MA5
M1-MA6
M1-MA7
M1-MA8
M1-MA9
M1-MA10
M1-MA11
M1-MA12
M1-MA13
M1-MA14
100R
100R
B3
B9
C10
D2
D10
3J19
3J18
M1-MA1
A3
A10
D8
G3
G9
K2
K10
M2
M10
M1-MA0
B10
C2
E3
E10
A3
A10
D8
G3
G9
K2
K10
M2
M10
+1V5-M1
7J01
H5TQ2G83BFR
6
Umac 1 DDR3
2013-01-11
5
2012-11-08
3104 313 6618
19370_096_130222.eps
130222
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10-3-13
QFU1.2E LA
10.
EN 155
B03D, Umac 0 DDR3
B03D
Umac 0 DDR3
B03D
+1V5-M0
100R
100R
100R
3J3F
3J3E
100R
100R
100R
100R
100R
3J43
3J42
3J45
100R
100R
3J49
100R
100R
100R
100R
3J4B
3J4A
3J4D
100R
100n
240R
1%
DB66
E7
D3
DML
DMU
100R
100R
DB10
C7
B7
DB11
DB12
M0-DQS0
M0-DQS#0
F3
G3
DB13
DB15
M0-DQS1
M0-DQS#1
DB09
E3
F7
F2
DB69
F8
H3
H8 DB17
G2
H7
M0-MD15
M0-MD12
M0-MD9
M0-MD10
M0-MD11
M0-MD14
M0-MD13
M0-MD8
NC
VSS
J1
J9
L1
L9
VSSQ
N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3
T7
M7
DB18
DB19
DB20
DB21
H1
M8
DDR-MVREF02
L8
M2
N8
M3
DB67
DB22
DB23
J3
K1
K3
J7
K7
K9
L2
DB24 L3
T2
E7
D3
M0-CKE
M0-CS#
M0-WE#
M0-RESET#
100R
3J4K
3J4J
100R
3J4M
3J4L
100R
A1
A8
C1
C9
D2
E9
F1
H2
H9
VDD
M0-MA0
M0-MA1
M0-MA2
M0-MA3
M0-MA4
M0-MA5
M0-MA6
M0-MA7
M0-MA8
M0-MA9
M0-MA10
M0-MA11
M0-MA12
M0-MA13
M0-MA14
M0-MA15
M0-BA0
M0-BA1
M0-BA2
M0-RAS#
M0-ODT
M0-CAS#
M0-MCLK0
M0-MCLK0#
M0-DQM1
M0-DQM0
75R
3J4H
3J4G
3J33
3J4F
100R
100R
VDDQ
0
1
2
3
4
5
A
6
7
8
9
10
11
12
13
14
15
BC
AP
0
1
2
3
DQU
4
5
6
7
DQSU
DQSU
DQSL
DQSL
VREFDQ
VREFCA
0
1
2
3
DQL
4
5
6
7
ZQ
BA0
BA1
BA2
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
DML
DMU
NC
D7
C3
C8
C2
A7
A2
B8
A3
M0-MD16
M0-MD18
M0-MD20
M0-MD23
M0-MD17
M0-MD21
M0-MD19
M0-MD22
DB25
DB26
C7
B7
F3
G3
E3
F7
F2
F8
H3
H8
G2
H7
M0-DQS2
M0-DQS#2
DB27
DB29
M0-DQS3
M0-DQS#3
M0-MD29
M0-MD28
M0-MD25
M0-MD26
M0-MD27
M0-MD30
M0-MD31
M0-MD24
DB30
DB70
J1
J9
L1
L9
VSSQ
VSS
M0-DQM3
M0-DQM2
M0-MCLK0#
3J4P
100R
2J2E
100n
1K0
2J2F
1K0
10n
10n
2J2Z
10n
2J2V
10n
2J2T
100n
2J2R
100n
2J3E
100n
2J3C
2J3A
10n
10n
2J2P
10n
2J2M
10n
2J2K
100n
2J2H
100n
2J38
100n
2J36
100n
2J34
10u
2J32
10u
2J3G
2J3F
+1V5-M0
DBB3
DBB8
DBC3
DBB4
DBB9
DBC4
DBB5
DBC6
DBC2
DBC7
10n
10n
2J30
10n
2J2W
10n
2J2U
100n
2J2S
100n
2J3D
100n
2J3B
2J39
10n
10n
2J2Y
10n
2J2N
10n
2J2L
100n
2J2J
100n
2J37
100n
2J35
100n
2J33
10u
2J31
DBC5
DBC1
DBB7
10u
2J3J
DBC0
DBB6
+1V5-M0
+1V5-M0
2J3H
2J3K
47u 16V
3J31
FJ0B
DDR-MVREF02
+1V5-M0
3J30
+1V5-M0
100n
3J4N
100R
DB65
DB08
RAS
ODT
CAS
CK
CK
CKE
CS
WE
RESET
100R
3J4E
M0-RESET#
BA0
BA1
BA2
J3
K1
K3
J7
K7
K9
L2
L3
T2
DB60
DB04
DB05
DB07
M0-CKE
M0-CS#
M0-WE#
M0-RESET#
100R
3J4C
M0-CKE
RES
M0-BA0
M0-BA1
M0-BA2
M0-RAS#
M0-ODT
M0-CAS#
M0-MCLK0
M0-MCLK0#
0
1
2
3
DQL
4
5
6
7
ZQ
M2
N8
M3
75R
3J47
3J46
3J48
M0-ODT
+1V5-M0
3J32
100R
M0-CS#
M0-MCLK0
100R
100R
M0-WE#
3J2U
3J41
100R
3J44
M0-CAS#
1K0
100R
3J40
DQSL
DQSL
A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9
100R
M0-RAS#
DB68
3J3Z
3J3W
M0-BA2
1K0
3J3V
DQSU
DQSU
VREFDQ
VREFCA
L8
100R
100R
M0-BA1
3J2W
100R
100n
3J3T
3J3S
M0-BA0
2J2B
100R
3J3U
M0-MA15
DDR-MVREF01
2J28
100R
M0-MA14
DDR-MVREF01
H1
M8
3J3R
3J3Y
M0-MA13
FJ0A
3J3P
100n
2J29
100R
M0-MA12
DB02
DB03
100R
100R
M0-MA11
DB00
3J3M
3J3L
3J3N
M0-MA10
DB61
100R
100R
M0-MA9
100n
3J3K
3J2V
100R
3J3J
M0-MA8
2J2A
3J3H
3J3G
10n
M0-MA7
3J3D
100R
2J01
M0-MA6
100R
3J3C
M0-MD0
M0-MD5
M0-MD4
M0-MD7
M0-MD2
M0-MD1
M0-MD6
M0-MD3
B1
B9
D1
D8
E2
E8
F9
G1
G9
100R
M0-MA5
10n
M0-MA4
D7
C3
C8
C2
A7
A2
B8
A3
A9
B3
E1
G8
J2
J8
M1
M9
P1
P9
T1
T9
3J3B
3J3A
7J04
H5TQ2G63BFR-PBC
0
1
2
3
DQU
4
5
6
7
240R
1%
100R
100R
2J2G
M0-MA3
+1V5-M0
100n
3J39
3J2Z
100R
3J38
100n
2J2D
100R
0
1
2
3
4
5
A
6
7
8
9
10
11
12
13
14
15
BC
AP
2J2C
3J37
N3
P7
P3
N2
P8
P2
R8
R2
T8
R3
L7
R7
N7
T3
T7
M7
B1
B9
D1
D8
E2
E8
F9
G1
G9
100R
100R
3J36
M0-MA2
M0-MA0
M0-MA1
M0-MA2
M0-MA3
M0-MA4
M0-MA5
M0-MA6
M0-MA7
M0-MA8
M0-MA9
M0-MA10
M0-MA11
M0-MA12
M0-MA13
M0-MA14
M0-MA15
3J35
3J34
M0-MA1
VDDQ
B2
D9
G7
K2
K8
N1
N9
R1
R9
VDD
M0-MA0
+1V5-M0
A1
A8
C1
C9
D2
E9
F1
H2
H9
7J03
H5TQ2G63BFR-PBC
B2
D9
G7
K2
K8
N1
N9
R1
R9
+1V5-M0
6
Umac 0 DDR3
2013-01-11
5
2012-11-08
3104 313 6618
19370_097_130222.eps
130222
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10-3-14
QFU1.2E LA
10.
EN 156
B03E, Fusion
B03E
Fusion
B03E
7J00-5
FUSION120
PANEL_USB
LAN_IO TA1_P
7J00-4
FUSION120
A22
B22
E22
D22
A23
B23
E23
D23
A24
B24
E24
D24
AR-1
AL-1
AR-3
AL-3
AR-4
AL-4
D26
SPDIFIN
3J53
SCKIN
WSI2SIN
SDI2SIN
10R
3J55
10R
3J54
10R
IJ11
C26
B26
A26
AC28
C15
A15
B16
A16
CVBS
CVBS3
C16
Y-G1
PB-B1
PR-R1
A20
A19
A18
Y-G2
PB-B2
PR-R2
B20
B19
B18
Y-G3
PB-B3
PR-R3
C20
C19
C18
IJ12
IJ13
SC1-STATUS
FB1
D20
D19
D18
C17
B17
D17
A17
AV_IN_OUT
AR_1
AL_1
AR_2
AL_2
AR_3
AL_3
AR_4
AL_4
AR_5
AL_5
AR_6
AL_6
HPHOL
HPHOR
SUBO
SPK_AOR1
SPK_AOL1
AOR2
AOL2
B21
A21
HPHOL
HPHOR
C21
A25
B25
D25
C25
AUD-L
AUD-R
USB1-RREF
E26
Y26
Y27
AA30
AA29
AB28
Y25
SPDIFO
3J07
3J08
3J09
3J50
3J51
3J52
GPANA1
10R
10R
10R
10R
10R
10R
SCKI2SOUT
WSI2SOUT
SDI2SOUT1
SDI2SOUT2
SDI2SOUT3
I2SCLK
1
2
CVBS
3
4
C
Y_G1
PB_B1
PR_R1
FS1
FB1
FS2
FB2
1
CVBS_OUT
2
A14
A13
USB2-RREF
AC30
AC29
AB25
AC27
EN-RXD0
EN-TXD0
EN-RXD1
EN-TXD1
FJ0F
FJ0G
FJ0H
FJ0J
W29
V29
W28
V28
W27
V27
W26
V26
V25
U25
W30
V30
EN-MDC
EN-MDIO
SCKI2SOUT
WSI2SOUT
1
SDI2SOUT 2
3
I2SCLK
Y_G4
PB_B4
PR_R4
D1_P
D1_N
USBPPON1
TXRTUNE1
EN-RXEN
EN-TXEN
SPDIFO
SCKIN
WSI2SIN
SDI2SIN
Y_G3
PB_B3
PR_R3
AB30
AB29
AB26
AB27
EN-RXC
EN-TXC
SPDIFIN
Y_G2
PB_B2
PR_R2
USB1-DP
USB1-DM
W25
Y30
HDMIF-RX0+
HDMIF-RX0HDMIF-RX1+
HDMIF-RX1HDMIF-RX2+
HDMIF-RX2HDMIF-RXC+
HDMIF-RXC-
A29
B29
A28
B28
A27
B27
B30
C30
HEAC
T27
PWR5V
T30
RREF
C29
USB2-DP
USB2-DM
CVBS-OUT1
IJ10
D2_P
D2_N
USBPPON2
TXRTUNE2
GBE_RXD0
GBE_TXD0
GBE_RXD1
GBE_TXD1
GBE_RXD2
GBE_TXD2
GBE_RXD3
GBE_TXD3
GBE_RXC
GBE_TXC
GBE_RXEN
GBE_TXEN
GBE_MDC
GBE_MDIO
RX0_P
RX0_N
RX1_P
RX1_N
RX2_P
RX2_N
RXC_P
RXC_N
HEAC
PWR5V
TA1_N
TB1_P
TB1_N
TC1_P
TC1_N
TCLK1_P
TCLK1_N
TD1_P
TD1_N
TE1_P
TE1_N
TA2_P
TA2_N
TB2_P
TB2_N
TC2_P
TC2_N
TCLK2_P
TCLK2_N
TD2_P
TD2_N
TE2_P
TE2_N
TA3_P
TA3_N
TB3_P
TB3_N
TC3_P
TC3_N
TCLK3_P
TCLK3_N
TD3_P
TD3_N
TE3_P
TE3_N
TA4_P
TA4_N
TB4_P
TB4_N
TC4_P
TC4_N
TCLK4_P
TCLK4_N
TD4_P
TD4_N
TE4_P
TE4_N
RREF
H_BK_LITE
PWM0
PWM1
BOOST
BKLGON
TCON_ON
NC_IDP_HPD
NC_LOCKN
NC_HTPDN
B3
A3
C3
C4
A4
B4
B5
A5
C5
C6
A6
B6
TX1-ATX1-A+
TX1-BTX1-B+
TX1-CTX1-C+
TX1-CLKTX1-CLK+
TX1-DTX1-D+
TX1-ETX1-E+
B9
A9
C9
C10
A10
B10
B11
A11
C11
C12
A12
B12
TX2-ATX2-A+
TX2-BTX2-B+
TX2-CTX2-C+
TX2-CLKTX2-CLK+
TX2-DTX2-D+
TX2-ETX2-E+
E3
D3
E4
D4
F5
F6
D5
E5
D6
E6
D7
E7
TX3-ATX3-A+
TX3-BTX3-B+
TX3-CTX3-C+
TX3-CLKTX3-CLK+
TX3-DTX3-D+
TX3-ETX3-E+
E10
D10
F10
F11
D11
E11
E12
D12
F12
F13
D13
E13
TX4-ATX4-A+
TX4-BTX4-B+
TX4-CTX4-C+
TX4-CLKTX4-CLK+
TX4-DTX4-D+
TX4-ETX4-E+
D2
B2
C1
B1
A2
C2
E9
F9
G9
BL-SPI-CLK-FUS
3D-LR-FUS
BL-SPI-CS_BL-I-CTRL-FUS
BL-DIM-FUS
7J00-9
FUSION120
RXD-SERVICE
TXD-SERVICE
Y29
Y28
EJT-TCK
EJT-TMS
EJT-TDO
EJT-TDI
EJT-TRSTN
K2
K3
K1
K5
K4
JTAG_I2C
UART SCLS
RXD
TXD
TCK
TMS
TDO
TDI
TRSTN
SDAS
SCLM1
SDAM1
SCLM2
SDAM2
SCLM3
SDAM3
U26
U27
AA28
AA27
SCL-M1
SDA-M1
E2
D1
SCL-M2
SDA-M2
AA26
AA25
SCL-M3
SDA-M3
BL-SPI-SDO-FUS
9GA2 RES
IJ0T
IJ0U
6
Fusion
2013-01-11
5
2012-11-08
3104 313 6618
19370_098_130222.eps
130222
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 157
B03F, Fusion power supply
Fusion power supply
10u
10u
2J63
100n
2J64
100n
2J62
100n
2J61
100n
2J5Z
100n
2J5W
100n
2J5V
100n
2J5U
100n
2J60
10u
100n
100n
2J77
100n
2J76
100n
2J75
10n
10n
2J6V
10n
10n
10n
2J6C
100n
2J74
10n
2J6L
10n
2J67
10n
2J6U
10u
2J7J
10u
2J7L
100n
100n
2J7D
100n
2J72
100n
2J73
10n
2J6F
10n
2J66
10n
2J6P
10n
2J6E
10n
2J65
10n
2J6N
10u
2J7K
100n
2J7C
100n
2J71
10n
2J6D
10n
2J68
10n
2J6M
10u
2J7G
10u
2J7H
10n
2J6G
10n
2J6H
10n
2J6A
10n
2J69
10n
2J6Y
10n
2J6R
100n
2J70
100n
2J6Z
100n
2J7B
100n
2J7A
2J7E
2J79
2J6W
2J6S
2J6J
2J6B
2J08
220u 2V0
2J95
100n
10n
2J09
10n
2J94
10n
2J23
+1V5-M0
10n
10n
2J5M
120R
+1V5
2J93
2J59
10u
2J5A
2J80
2J5L
10n
5J0P
2J5K
10n
2J5C
100n
2J5F
2J5B
10u
2J5D
100n
2J5G
10n
10n
100n
2J5H
10n
IJ0R
10n
AA15
Y15
W15
W16
W14
+1V2-MIPS
10n
VDDC
2J78
SENSE+1V2-MIPS
120R
2J5N
10n
100n
K29
+1V5
5J0R
10n
2J7Y
10n
2J99
10n
2J98
120R
2J6T
LDO11_CAP
5J0G
+1V1-FA
K13
L13
10u
GNDP
G11
+1V5-M1
IJ0S
10u
2J4N
100n
2J4M
10u
IJ0P
VDDP
2J7F
10n
2J58
1n0
10u
A8
B8
C8
D9
K11
L11
22u
LVDSGND
IJ0K
5J0N
+3V3
+2V5-F
2J26
VSS11A_3
5J0F
120R
100u 2.0V
D28
VDD33A
IJ0N
2J13
10n
10u
2J55
2J54
2J53
100n
D30
LVDSVDD
VSS11A_1
2J4Y
+2V5
AVDD25_HDMI
2J4P
10u
C27
A7
B7
C7
D8
E8
F8
G8
100n
D29
IJ0J
VSS11A_2
4n7
10n
10u
2J52
2J51
2J50
100n
D27
10n
2J7P
10n
10n
2J4G
2J96
N24
100n
2J92
VQPS
VDD11A
R4
AB5
AC5
M6
N6
V6
W6
Y6
AA6
AB6
AC6
M7
N7
V7
W7
Y7
AA7
AB7
AC7
P11
V11
P12
V12
P10
V10
W10
Y10
10n
2J7R
AVSS25
AVSS25
2J4R
C28
5J0M
120R
1u0
10n
REF_BG
IJ0H
5J0L
+1V1-FA
120R
AVDD25
100n
2J7Z
100n
10u
2J4W
2J4Z
K12
L12
+2V5-F
R10
R11
U10
U11
120R
VDDM0
VSS_M1P
G10
120R
120R
VSSAC_1
IJ0G
5J0K
+2V5
5J0E
AC3
AC4
1u0
AB24
VDD2V5_M1P
VDD33
120R
IJ0M
VSSAC_2
2J4J
AC24
2J4L
10u
100n
2J4U
AC25
2J4V
120R
100n
+3V3
VDD25
+2V5-F
Y12
Y13
Y14
AA13
AA14
2J4H
10u
2J4S
2J4T
100n
VSS_M0P
AC26
IJ0F
5J0J
5J0D
AG6
AG7
2J4F
VDD2V5_M0P
120R
100n
IJ0E
5J0H
+2V5
SENSE+1V1-FD
10n
2J7S
IJ0L
2J97
SUPPLY_2
+1V1-FD
IJ00
100n
2J7W
100n
9J04
9J03
7J00-2
FUSION120
10n
2J7T
+2V5-F
2J7V
5J0C
120R
IJ14
2J7U
IJ0D
VDDC
K16
L16
VDDC
2J4A
+3V3
G15
VDDM1
2J43
10u
2J44
5J0B
120R
PWR_GND
VDD25_LPLL
VSSA_LPLL
IJ0C
VSS
2J42
2J41
10u
100n
AVSSH
2J4C
2
3 INN
4
B13
C13
2J4B
10u
AVDDH
DAC2
100n
2J91
100n
2J90
E18
E19
E20
INN16
+3V3
C14
2J4E
100n
E17
5J0A
120R
2J4D
10u
DAC1
100n
VDD33_XTAL
B14
2J49
10u
AVDDH
AVSSH
+3V3-STANDBY
2J40
AVSS_STB
100n
IJ06
10u
2J3Z
E21
F21
+3V3
120R
IJ0B
H28
5J06
AVSS
AVDD33_STB
5J09
G22
G23
VDDM0
100n
100n
K24
120R
AVDD
AVSSH_CH516
M11
G12
M12
T12
W12
G13
M13
P13
T13
V13
W13
D14
E14
F14
G14
M14
P14
T14
V14
D15
E15
F15
M15
P15
T15
V15
M16
P16
T16
V16
M17
P17
T17
V17
W17
M18
P18
T18
V18
W18
M19
P19
T19
V19
W19
L20
M20
N20
P20
R20
T20
U20
V20
W20
Y20
G21
L24
M24
L25
T11
K10
K21
L10
L21
M10
M21
N21
P21
R21
T10
T21
U21
V21
W21
Y21
AA20
AA21
AA12
AA11
AA10
AE14
AD14
AE13
AD13
AD12
AD11
Y11
W11
AE10
AD10
AE9
AD9
AF8
AE8
AD8
AF7
AD7
AF6
AE6
AD6
AF5
AE5
AD5
AF4
AE4
AD4
10u
2J3T
10u
2J3V
J24
IJ05
+3V3-STANDBY
IJ0A
AVDDH_CH516
VDD_1V2
2J3U
2J3W
5J04
G16
VSS
B15
120R
IJ09
2J46
SGNDAU
D21
C22
F22
C23
F23
C24
F24
E25
2J45
10u
AVDDL_CH516
AVSSL_CH516
IJ04
5J03
+3V3
120R
VREFAU
120R
VSS
F16
+1V2-FA
2J48
D16
E16
100n
2J3S
120R
10u
2J3R
+1V2-FA
100n
AVSSH_CH234
IJ03
5J02
5J07
E29
F28
100n
100n
10u
2J3M
100n
10u
2J3P
2J3Y
120R
AVDDL_DRX
2J47
10u
F18
G18
IJ08
IJ02
5J01
+3V3
120R
AVDDH_CH234
AVSSH_DRX
A1
AK1
M2
U2
Y2
AB2
AE2
AG2
P3
M4
AA4
AJ4
V5
L6
P6
R6
T6
K7
L7
P7
R7
T7
AJ7
AJ9
AG10
N11
AH11
N12
R12
U12
N13
R13
U13
AG13
L14
N14
R14
U14
AH14
L15
N15
R15
U15
AD15
AE15
N16
R16
U16
Y16
AD16
AE16
AG16
AJ16
L17
N17
R17
U17
Y17
AD17
AE17
L18
N18
R18
U18
Y18
L19
N19
R19
U19
Y19
AD20
AD21
P24
U24
V24
W24
A30
AK30
K14
K15
K17
K18
K19
K20
N10
AA16
AA17
AA18
AA19
5J05
+3V3
AVSSL_CH234
F17
G17
2J3N
AVDDL_CH234
F20
G20
G29
G30
E30
G27
G28
H27
100n
F19
G19
+1V2-FA
120R
IJ07
AVDDH_DRX
VSS
SUPPLY_1
IJ01
VDDC
7J00-1
FUSION120
5J00
100n
2J5T
2J5R
J7
H7
G7
F7
VDDF2
VDDF1
F26
AD25
T25
G25
F25
AD24
AA24
Y24
T24
H24
G24
AD23
AD22
AD19
AG18
AF18
AE18
R26
R25
R24
VDDF_STB
7J00-3
FUSION120
100n
2J5S
+3V3
10u
+3V3-STANDBY
2J5Y
B03F
10n
2J5P
B03F
2J56
10-3-15
QFU1.2E LA
6
Fusion power supply
2013-01-11
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 158
B04A, Control
Control
B04A
7GM1
PCA9540BGD
VDD
2
SDA-BE
+3V3
100K
100K
SDA-BL
SCL-BL
3GM1
3GM2
3GM3
3GM4
100K
100K
6
4K7
4K7
3CY2
4K7
3CY1-4 4
4K7
3CY1-3 3
6
SDA-BL
SCL-BL
RES
1CV2 DBG
5
3CY1-2 2
7
1
3CY1-1
8
7
8
SD1
SC1
RES
SDA-DISP
SCL-DISP
SDA-BE
SDA-DISP
SCL-DISP
SCL-BE
3 3CY3-3 6
RES 9GM1
RES 9GM2
SCL-DISP
SDA-DISP
EJT-TRSTN
47R
5
EJT-TMS
47R
1
8
47R
3CY3-1
EJT-TDO
SDA-BE
8
EJT-TCK
RES 9GM3
SDA-BL
SCL-BE
RES 9GM4
SCL-BL
1CV3 DBG
FCVC
SCL-BL
SDA-BL
FCVD
FCVE
5
47R
3CY4
BM06B-SRSS-TBT
47R
4
1
2
3
BM03B-SRSS-TBT
2 3CY3-2 7
FCY6
7
SCL
SDA-DISP
SCL-DISP
VSS
4 3CY3-4 5
FCY1
FCY2
FCY3
FCY4
FCY5
4
5
SD0
SC0
SDA
1
SCL-BE
1CY1 DBG
3
4K7
4K7
3GM6
3GM5
+3V3
+3V3
1
2
3
4
5
6
B04A
+3V3
4K7
4
1
2
3
BM03B-SRSS-TBT
EJT-TDI
3CVF
SCL-M2
SDA-M2
1CV1 DBG
SCL-BE
SCL-BE
47R
3CVG
FCV2
SDA-BE
FCV3
FCV1
SDA-BE
5
47R
3CV2
3D-LR-FUS
FCVB
4
1
2
3
BM03B-SRSS-TBT
3D-LR
47R
1CV6
1
2
3
FCY7
FCY8
4
FCY9
TXD-STANDBY
RXD-STANDBY
BL-SPI-CS_BL-I-CTRL-FUS
5
3GD5
BL-SPI-CS_BL-I-CTRL
10R
BM03B-SRSS-TBT
BL-DIM
RESET-RF4CEn
TXD-RF4CE
47R
3GM7 RES
3
10R
7GM2 RES
PDTC114EU
3CVW
3CVY
FCVH
FCVJ
10R
FCVK
10R
9 10
STANDBYn
TXD-RF4CE
DETECT12V
RXD-RF4CE
LCD-PWR-ONn
BL-ON
RC_IRQ-RF4CEn
10p
2
SCL-FE
TXD-SERVICE
SDA-FE
RXD-SERVICE
3CV8
BL-SPI-CLK-FUS
10R
3CV9
BL-SPI-SDO-FUS
AMBI-SPI-CCLK
3CVM
47R
3CVP
GPIO1
GPIO5
BM20B-SRDS-G-TF
GPIO6
3CYC
DC02
1CV4 DBG
TXD-RF4CE
TXD-RF4CE
FCVL
FCVA
RXD-RF4CE
FCVM
RXD-RF4CE
5
POWER-OK
POWER-OK
47R
DC03
FH52-8S-0.5SH
AMBI-SPI-MOSI
47R
21 22
1
2
3
4
5
6
7
8
+3V3-STANDBY
10R
GPIO0
2CV8
1
RC_IRQ-RF4CEn
3D-LED_3D-RF
10R
2CV9
10p
4K7
FCVG
3CVE
RXD-RF4CE
+3V3
SCL-M3
TXD-STANDBY
SDA-M3
RXD-STANDBY
3CVD
2CVA
10p
1CV5 DBG
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1C27
FCVF
3CVC
10R
2CVB
10p
FCVN
3CV3
BL-DIM-FUS
2CVC
10p
10-3-16
QFU1.2E LA
4
1
2
3
BM03B-SRSS-TBT
3CVU
+3V3
10K
3CVA
+3V3
10K
3CYB
GPIO7
GPIO11
GPIO15
DC06
RES
47R
3CV4
IRQ-EXPANDERn
AMBI-SPI-CCLK
TXD-RF4CE
RXD-RF4CE
RES
3CV5
10R
3CV7
GPIO20
RES
+3V3-STANDBY
10K
3CVR
10K
10R
GPIO16
3CVN
3CVB RES
AMBI-SPI-MOSI
+3V3
10K
POWER-OK
47R
GPIO21
DC07
3CVS
GPIO23
IRQ-EXPANDERn
3D-LR
IRQ-EXPANDERn
3CVT
+3V3
10K
47R
9GM5 RES
3D-LED_3D-RF
9GM6 RES
3D-LR-DISP
6
Control
2013-01-11
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�Circuit Diagrams and PWB Layouts
10.
EN 159
B04B, LVDS
LVDS
IGV6
100R
FGR1
FGR2
FGR3
FGR4
FGR5
FGR6
FGR7
FGR8
FGR9
9GV6
IGV2
3GVN
PCEC-QHDMI
3GVP
AMBI-TEMP
3GVR
BL-SPI-CS_BL-I-CTRL
IGV1
100R
100R
100R
IGV0
FGV5
FGV6
FGV7
FGV8
FGV9
FGVA
FGVB
TX3-CLKTX3-CLK+
FGVC
FGVD
TX3-DTX3-D+
TX3-ETX3-E+
FGVF
FGVG
FGVH
FGVJ
FGVK
TX4-ATX4-A+
TX4-BTX4-B+
TX4-CTX4-C+
FGVL
FGVM
FGVN
FGVP
FGVQ
FGVR
TX4-CLKTX4-CLK+
FGVS
FGVT
TX4-DTX4-D+
TX4-ETX4-E+
IGR0
IGR1
IGR2
IGR3
IGR4
IGR5
IGR6
IGR7
IGR8
IGR9
IGRA
TX3-ATX3-A+
TX3-BTX3-B+
TX3-CTX3-C+
FGVU
FGVV
FGVW
FGVY
+3V3
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
TO DISPLAY
AMBI-SPI-OUT-MOSI
AMBI-SPI-DO-QFHD
5
GPIO2
4
1
100n
+3V3
RES
100R
3GVF
GPIO2
RES
100R
3GVG
GPIO2
RES
100R
BL-ON
SPLASH-ON
SDA-DISP
SCL-DISP
GPIO8
SDA-DISP
SCL-DISP
BL-ON
BL-DIM
GPIO3
3D-LED_3D-RF
3D-LR-DISP
GPIO3
SPLASH-ON
GPIO2
TX1-ATX1-A+
TX1-BTX1-B+
TX1-CTX1-C+
9GV1
RES
FGU7
FGVZ
RES
FGW0
RES
RES
FGVE
RES
RES
RES
FGU9
RES
FGUF
FGWA
RES
RES
FGU6
RES
FGWE
3GVS
3GVT
3GV0
3GVE
3GVD
3GV3
3GV4
3GV5
3GV6
3GV7
3GV8
3GV9
3GVA
47R
47R
100R
10R
10R
10R
100R
100R
100R
100R
100R
100R
100R
TX2-ATX2-A+
TX2-BTX2-B+
TX2-CTX2-C+
TX2-CLKTX2-CLK+
FGU0
FGU1
FGU2
FGU3
FGU4
FGU5
TX1-CLKTX1-CLK+
TX1-DTX1-D+
TX1-ETX1-E+
Z
3
AMBI-SPI-MOSI-OUT
Y0
1
2
3
4
S
6
3GVH-1
3GVH-2
3GVH-3
3GVH-4
+3V3
AMBI-SPI-MOSI-OUT
9GVC
8
AMBI-SPI-OUT-MOSI
9GV8
8
7
6
5
IGV5
+VDISP
9
9GVB
7GV0-3
NX3L4684TK
S
GND
AMBI-SPI-CCLK-OUT
9GV9
AMBI-SPI-CLK-QFHD
AMBI-SPI-CCLK-OUT
9GVA
1
2
3
KEYBOARD_IRQ-SRFn
4
5
100n
Z
Y0
1M01
AMBI-SPI-OUT-CCLK
2GV2
Y1
11
GPIO2
9GV7
AMBI-SPI-DO-QFHD
VCC
7
IGV3
IGV4
RES 9GV3
+3V3-STANDBY
AMBI-SPI-CLK-QFHD
10p
10p
VCC
Y1
7GV0-2
NX3L4684TK
10
51
50
49
48
47
46
45
44
43
42
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
FGWB
FGWC
FGWD
FGWF
FGWG
FGWH
FGWJ
FGWK
FGWL
FGWM
FGWN
FGWP
FGWQ
FGWR
FGWS
RES 2GVJ
RES 2GVM
FGWT
FGWU
FGWV
FGWW
FGWY
FGWZ
GND
AMBI-SPI-OUT-CCLK
1G51
20519-051E
60
61
58
59
56
57
54
55
52
53
IGW1
IGW2
IGW3
IGW4
IGW5
IGW6
FGU8
IGW7
FGW8
IGW9
TX2-DTX2-D+
TX2-ETX2-E+
RES 2GVU
7GV0-1
NX3L4684TK
2
9GVD
3GVK
AMBI-SPI-CLK-QFHD
1K0
100R
9GV4
IGV7
9GV5
RES
100R
10p
10p
10p
10p
1n0
1n0
1n0
10p
10p
1n0
10p
2GVT
10p
10p
2GVS
10p
100R
RES
3GVJ
AMBI-SPI-DO-QFHD
3GVC RES
3GVM
ARC3
FGV0
1G50
20519-041E
50
51
48
49
46
47
44
45
42
43
RES 2GV9
RES 2GVA
RES 2GVB
RES 2GVC
RES 2GVD
RES 2GVF
RES 2GVG
RES 2GVL
RES 2GVK
RES 2GVH
3GVB
GPIO8
2GVR
3GVL
SPDIFIN
2GVP
2GVN
10p
B04B
1
B04B
TO DISPLAY
A1253WVA
GND_HS
6
10-3-17
QFU1.2E LA
1X03
EMC HOLE
1X05
REF EMC HOLE
6
LVDS
2013-01-11
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�Circuit Diagrams and PWB Layouts
10.
EN 160
B04C, Output Vdisp
Output Vdisp
B04C
1 9GS1-1
RES
2 9GS1-2
RES
3 9GS1-3
RES
4 9GS1-4
RES
1 9GS2-1
RES
2 9GS2-2
RES
3 9GS2-3
RES
4 9GS2-4
RES
5
8
7
6
FGS1
5
5
2GS5
3GS4
IGS2
47K
IGS1
3GS5
4K7
27K
7GS3-1
PUMD12
1
3GS6
6
2
100n
RES
2GS2
100n
IGS5
LCD-PWR-ONn
22u
3GS1
7GS3-2
PUMD12
3
IGS4
+VDISP
3
4
2GS3 RES
FGS2
6
5
2
1
2GS1
7GS2
SI3443CDV
4
T 4.0A 32V
22n
6
RES
+12V
+3V3
7
47R
4
1GS1
8
8
7
6
5
3
2
7GS1 1
SI4835DDY-GE3
RES
4K7
B04C
3GS3
10-3-18
QFU1.2E LA
DBG
6GS1
DBG
LTST-C190KGKT
6
Output Vdisp
2013-01-11
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2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 161
B04D, Tuner CVBS debug
Tuner CVBS debug
B04D
470R
3FW4 RES
IFW5
3FW8
IFW3 5FW3 RES
RES
75R
DFW1
1u8
2FW5
150R
RES
150R
RES 3FW7
IFW4
3
270p
2
IFW2
RES
47u
RES
33p
2FW6
7FW1-1
BC847BPN(COL)
RES
3FW5
1
RES
2FW3
RES
5
3K3
CVBS-OUT1
2FW4
4
7FW1-2
BC847BPN(COL)
RES
IFW1
6
100p
10K
3FW3
RES
+12V
3FW6
B04D
RES
10-3-19
QFU1.2E LA
DFW2
6
Tuner CVBS debug
2013-01-11
5
2012-11-08
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 162
B04E, Audio - video
Audio - video
2VW1
CVBS1
150R
100n
2VW2
150R
100n
2VW3
3VWM
SC1-CVBS
3VWN
3VWP
150R
CVBS3
Y-G1
100n
2VW4
3VWR
150R
PB-B1
100n
2VW5
3VWS
150R
PR-R1
100n
2VW6
Y1-IN
150R
PB1-IN
150R
150R
100n
2VW9
150R
100n
2VWA
150R
100n
2VWB
3VWV
SC1-G
3VWB
SC1-B
3VWC
SC1-R
150R
3VW3
10K
IVW1
8K2
2VWD
AL-1
2VWE
AR-4
33K
3VW8
IVW4
2VWF
AL-4
33K
1u0
3VWA
DVW1
AR-1
1u0
8K2
WSI2SIN
2VWC
33K
IVW3
8K2
3VW9
FB1
1u0
3VW6
3VW7
SDI2SIN
PR-R3
33K
IVW2
8K2
SC-LIN
PB-B3
1u0
3VW4
3VW5
SC-RIN
Y-G3
3VWW
SC1-BLK
YPBPR-LIN
PR-R2
100n
3VWD
YPBPR-RIN
PB-B2
100n
2VW8
3VWU
PR1-IN
Y-G2
100n
2VW7
3VWT
B04E
CVBS
DVW2
FVW0
DVW4
AUD-R
DVW5
AUD-L
DVW6
+3V3
4K7
SCKIN
3VWF
SPDIFIN
VGA-LIN
3VWH
4K7
RES 3VWG
AUDIO-MUTEn
IVW7
8K2
3VWK
AL-3
33K
1u0
RES 3VWJ
VGA-RIN
2VWJ
IVW8
8K2
2VWK
AR-3
1u0
33K
B04E
3VWL
10-3-20
QFU1.2E LA
6
Audio - video
2013-01-11
5
2012-11-08
3104 313 6618
19370_104_130222.eps
130222
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 163
B04F, Fusion supply
Fusion supply
B04F
3
7UB1
TPS7A7001DDA
10u
2UB0
+1V5
IN
Φ
6
7
FB
3UB3
3UB4
22K 1%
3UB8
220K 1%
47K 1%
3UB7
RES 3UB6
3UB5
100K 1%
1K0
100p
3UBF
IUB4
FUB1
SENSE+1V2-MIPS
CORE VOLTAGE SUPPLY MIPS FUSION
1M0
10K 1%
3UBA
RES
3UB9
+1V2-MIPS
27K
1%
DVS2
IUB5
FUB0
RES
27K 1%
IUB3 2UB3
10u
9
8
GND
NC
10
11 VIA
GND_HS
OUT
2UB4
EN
1
4
5
100n
2UB6
2
5UB0
IUB6
100n
2UB7
10u
IUB7
+1V5
IUB9
IUB8
IUBB
2
4
VFB
VBST
SW
SS
EN
VREG5
1n0
1
10n
2UBH
470K RES
2UBG
22K 1%
+1V5
5
9
GND_HS GND
VIA
10
11
22K 1%
2UBE RES
7
6
3
2UBD
2UBB RES
22u
22u
2UBA
Φ
STEP DOWN
1 3UBE-1 8
10R
100n
IUBA
3
10R
3UBE-3
IUBC
2UBJ
2UBK
1n0
2 3UBE-2 7
1u0
VIN
3UBB
2UBC
8
7UB5
TPS54527DDA
22p
FUB2
5UB1
2u0
2UBF
10u
2UB9
2UB8
30R
22u
+12Va
3UBD
B04F
3UBC
10-3-21
QFU1.2E LA
1n0
6
10R
4 3UBE-4 5
10R
GND-1V5
GND-1V5
GND-1V5
GND-1V5
CUB0
DDR3 SUPPLY FUSION
GND-1V5
ENABLE+1V5+1V1
6
Fusion supply
2012-11-08
5
2013-01-11
3104 313 6618
19370_105_130222.eps
130222
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 164
B04G, Backlight microcontroller
Backlight microcontroller
B04G
B04G
+3V3
3GE1
4K7
4K7
100n
100n
2GE2
1u0
RES 2GE0
+3V3
3GE0
+3V3
2GE1
1GE0
FGE0
TXD-LPC
+3V3
RXD-LPC
5
RES
100R
4
1
2 DBG
3
BM03B-SRSS-TBT
1K0
3GEK RES
3GE2
RESET-FUSION-OUTn
FGE1
FGE2
+3V3
LPC-RESETn
LPC-LED3
9GE2
AMBI-SPI-CCLK
AMBI-SPI-OUT-CCLK
3
4
1GE2
SKHUBHE010
1
2
100n
330R
3GEF DBG
DBG
6GE3
LTST-C190KGKT
330R
3GEE DBG
DBG
+3V3
LTST-C190KGKT
6GE2
3GEC DBG
330R
LTST-C190KGKT
6GE0
+3V3
BL-DIM7
+3V3
+3V3
+3V3
DBG
BL-DIM5
BL-DIM6
BL-DIM8
3D-LR-DISP
330R
10R
DBG
FGE5
LPC-LED4
AMBI-SPI-OUT-CCLK
3GEA
RES
2GE5
3
4
DBG
6GE1
RES 100K
RES 100K
3GEN
1u0
3GEM
10K
2GE6
3GEL
3D-LR
LPC-LED1
LPC-LED2
36
37
43
48
18
21
PIO1_0|R|AD1|CT32B1_CAP0
PIO3_0|DTR_|CT16B0_MAT0|TXD
PIO1_1|R|AD2|CT32B1_MAT0
PIO3_1|DSR_|CT16B0_MAT1|RXD
PIO1_2|R|AD3|CT32B1_MAT1
PIO3_2|DCD_|CT16B0_MAT2|SCK1
PIO1_3|SWDIO|AD4|CT32B1_MAT2
PIO3_3|RI_|CT16B0_CAP0
PIO1_4|AD5|CT32B1_MAT3|WAKEUP
PIO3_4|CT16B0_CAP1|RXD
PIO1_5|RTS_|CT32B0_CAP0
PIO3_5|CT16B1_CAP1|TXD
PIO1_6|RXD|CT32B0_MAT0
PIO1_7|TXD|CT32B0_MAT1
PIO1_8|CT16B1_CAP0
PIO1_9|CT16B1_MAT0|MOSI1
PIO1_10|AD6|CT16B1_MAT1|MISO1
PIO1_11|AD7|CT32B1_CAP1
VSS
AMBI-SPI-CCLK
AMBI-SPI-MOSI
3D-LED_3D-RF
9GE1
RES
LTST-C190KGKT
BL-DIM
RXD-LPC
TXD-LPC
BL-SPI-CS_BL-I-CTRL
9GE0
RES
100R
DBG
3GEB DBG
33
34
35
39
40
45
46
47
9
17
30
42
BL-DIM2
BL-DIM3
BL-DIM4
LPC-SWDIO
2
13
26
38
19
20
1
11
12
24
25
31
PIO2_0|DTR_|SSEL1
PIO2_1|DSR_|SCK1
PIO2_2|DCD_|MISO1
PIO2_3|RI_|MOSI1
PIO2_4|CT16B1_MAT1|SSEL1
PIO2_5|CT32B0_MAT0
PIO2_6|CT32B0_MAT1
PIO2_7|CT32B0_MAT2|RXD
PIO2_8|CT32B0_MAT3|TXD
PIO2_9|CT32B0_CAP0
PIO2_10
PIO2_11|SCK0|CT32B0_CAP1
100R
3GE5
DBG
RES
3GE9 10R
AMBI-SPI-OUT-MOSI
LPC-SWCLK
BL-DIM1
10R
PIO0_0|RESET_
PIO0_1|CLKOUT|CT32B0_MAT2
PIO0_2|SSEL0|CT16B0_CAP0
PIO0_3
PIO0_4|SCL
PIO0_5|SDA
PIO0_6|SCK0
PIO0_7|CTS_
PIO0_8|MISO0|CT16B0_MAT0
PIO0_9|MOSI0|CT16B0_MAT
PIO0_10|SWCLK|SCK0|CT16B0_MAT2
PIO0_11|R|AD0|CT32B0_MAT3
FGE4
1GE1
SKHUBHE010
3GE8
LPC-ISPn
DBG
3GE4
1
2
10R
XTALOUT
FGE3
LPC-RESETn
100n
3GE7
3
4
10
14
15
16
22
23
27
28
29
32
VDD
XTALIN
2GE4
3GE6
7
LPC-ISPn
SCL-SSB
SDA-SSB
6
5
41
100n
2GE3
IGE1
RES
3GE3 100R
8
44
7GE0
LPC1114FBD48/301
+3V3
1K0
LPC-LED1
LPC-LED2
LPC-LED3
9GE3
AMBI-SPI-MOSI
AMBI-SPI-OUT-MOSI
LPC-LED4
9GE4
BL-DIM
BL-DIM1
+3V3
ROW_1
1GE3-1
RES
3GEJ
1K0
1
3
5 DEBUG
7
9
ROW_2
1GE3-2
10K
+3V3
3GEG
10-3-22
QFU1.2E LA
2
4
DEBUG 6
8
10
FGE6
FGE7
FGE8
3GEH
RES
LPC-SWDIO
LPC-SWCLK
AMBI-SPI-OUT-MOSI
100R
LPC-RESETn
FTSH-105-01-L-DV
FTSH-105-01-L-DV
6
Backlight microcontroller
2013-01-11
5
2012-11-08
3104 313 6618
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130222
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 165
B04H, eMMC
eMMC
B04H
100n
100n
2EJ6
2EJ5
+3V3
100n
100n
2EJ4
100n
2EJ3
100n
2EJ2
2EJ1
+3V3
SDIO2-CMD
FEJ2 M5
SDIO2-CLK
SDIO2-CLK
FEJ1 M6
33R
3EJ5
GPIO15
SDIO2-CMD
+3V3
33R
GPIO16
2
3EJ6-2
7
SDIO2-D0
3EJ0
FEJ0 K5
10K
SDIO2-RESETn
VDDI
C2
VCCQ
CMD
CLK
RST
VDDI
SDIO2-D1
GPIO18
1
3EJ6-1
8
VSS
G5
E7
K8
H10
6
33R
100n
3EJ6-3
2EJ7
3
VCC
0
1
2
3
DATA
4
5
6
7
VSSQ
MAIN
33R
GPIO17
+3V3
E6
F5
K9
J10
C6
M4
N4
P3
P5
7EJ0-1
H26M21001ECR
A3
A4
A5
B2
B3
B4
B5
B6
FEJ3
FEJ4
FEJ5
FEJ6
FEJ7
FEJ8
FEJ9
FEJA
SDIO2-D0
SDIO2-D1
SDIO2-D2
SDIO2-D3
SDIO2-D4
SDIO2-D5
SDIO2-D6
SDIO2-D7
SDIO2-D0
2
SDIO2-D1
3
SDIO2-D2
4
4
3EJ6-4
1
3EJ7-1
1
SDIO2-D4
5
SDIO2-D2
8
SDIO2-CLK
SDIO2-CMD
SDIO2-D5
3EJ7-4
+3V3
SDIO2-D5
3
3EJ7-3
5
+3V3
+3V3
SDIO2-D6
SDIO2-D6
SDIO2-D7
7EJ0-2
H26M21001ECR
6
3EJ8
SDIO2-RESETn
33R
GPIO24
2
3EJ7-2
8
2
3EJ3-2
7
1
3EJ3-1
8
4
3EJ3-4
5
SDIO2-D3
SDIO2-D6
SDIO2-D7
+3V3
7
3
3EJ3-3
6
47K
NC
SDIO2-D7
33R
GPIO23
3EJ2-1
47K
33R
GPIO22
5
47K
M3
M7
M8
M9
M10
M11
M12
M13
M14
N1
N3
N6
N7
N8
N9
N10
N11
N12
N13
N14
P1
P2
P7
P8
P9
P10
P11
P12
P13
P14
4
3EJ2-4
47K
33R
GPIO21
6
47K
33R
GPIO20
3EJ2-3
47K
33R
GPIO19
7
47K
SDIO2-D3
FEJB
SDIO2-D3
3EJ2-2
47K
C4
N2
N5
P4
P6
3EJ4
GPIO14
4K7
+3V3
SDIO2-D4
33R
+3V3
VDDI
SDIO2-D4
SDIO2-D5
A1
A2
A6
A7
A8
A9
A10
A11
A12
A13
A14
B1
B7
B8
B9
B10
B11
B12
B13
B14
C1
C3
C5
C7
C8
C9
C10
C11
C12
C13
C14
NC
NC
NC
H1
H2
H3
H5
H12
H13
H14
J1
J2
J3
J5
J12
J13
J14
K1
K2
K3
K6
K7
K10
K12
K13
K14
L1
L2
L3
L12
L13
L14
M1
M2
+3V3
SDIO2-RESETn
NC
D1
D2
D3
D4
D12
D13
D14
E1
E2
E3
E5
E8
E9
E10
E12
E13
E14
F1
F2
F3
F10
F12
F13
F14
G1
G2
G3
G10
G12
G13
G14
B04H
3EJ1
10-3-23
QFU1.2E LA
SDIO2-D4
SDIO2-D5
+3V3
6
eMMC
2013-01-11
5
2012-11-08
3104 313 6618
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 166
B05A, Class-D amplifier
Class-D amplifier
B05A
3D60
A-STBY
+3V3D
3
1
30R
220n
5D51
220n
2D65
2D64
10u
10u
2D59
10u
2D58
10u
2D57
10u
2D66
30R
2D63
220n
5D50
220n
2D62
10u
2D60
10u
2D92
2
10u
2D61
7D70
PDTC144EU
2D97
2D49
2D48
10K
3D82
100u 16V
2D5C
1u0
2D67
1u0
100n
2D93 RES
100n
2D69
10u
2D68
2D86
STEST
VIA
ID53
10K
10n
10n
2D78
2D99
220n
5D81
10n
2D70
2D98
10n
1D51
1D52
1D50
SPEAKER-R-
30R
10n
ID99
2D87
SPEAKER-R+
330p
10u
2041145-3
FD70
ID96
2D95
5D79
1
2
3
ID57
2
3
4
2041145-4
5D01
10u
22K
1D02
1
ID98
5D80
10n
3D71
FD33
FD32
18R
330p
5D76
3D70 RES
18K2 1%
Left+
LeftRight+
Right-
10n
2D73
ID83
ID84
2D94
1D01
FD30
FD31
SPEAKER-LSPEAKER-R+
2D81
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
3D74
ID52
SPEAKER-L-
SPEAKER-R-
30R
5D77
30R
GND_HS
49
37
38
47
48
17
PGND
AB
CD
7
16
10u
33n
33n
36
5D74
CD00
28
A
9
29
30
GND
VSS
D DO
33
2D85
ID94
30R
ID51
2D82
42
1D56
SSTIMER
AGND
3D83
39
1D55
OC_ADJ
OSC_RES
PBTL
2n2
26
FD69
30R
5D75
1D53
BST_D
ID70
6
5D71
1D54
33n
30R
2D80
10n
8
220n
2D71
3D73
33n
2D76
ID97
9D51
2D54
2D79
46
ID63
OUT_D
ID69
ID82
ID91
SPEAKER-L+
220n
47n
43
SPEAKER-L+
30R
220n
2D55
4n7
BST_C
VR_ANA
PLL_FLTP
PLL_FLTM
470R
2D52
470R
2D53
ID81
5D00
ID88
2D83
12
11
10
4n7
3D51
47n
4
5D70
10u
100n
1
ID62
ID66
ID50
ID93
OUT_C
2D51
100n
30R
OUT_B
RESET
PDN
ID80 2D77
220n
25
19
100u 16V
34
35
BST_B
3D77
31
2D56
40
41
BST_A
A_SEL
10u
2D74
18R
44
45
5
32
OUT_A
ID79
330p
14
SDA
SCL
18
2D75
ID90
2D5D
9D50
RES
27
13
23
24
3D76 RES
15K
2D50
3D52
ID61
VR_DIG
2D89
ID56
D-RESET
7D50-2
PUMH2
ID58
+3V3
30R
2D72
18R
RES
7D50-1
PUMH2
AUDIO-MUTE
5D85
+3V3D
D
3D75
10K
3D50
47K
3D54
ID89
ID65
A-STBY
47R
47R
10K
9D55
+3V3D
D-RESET
DETECT12V
10K
3D55
3D56
SDI2SOUT3
C
PVDD
VREG
6
BM04B-SRSS-TBT
B
AUDIO
AMPLIFIER
FD50
SDA-SSB
SCL-SSB
A
OUT
GVDD
18R
5
FD64
FD66
LRCLK
SCLK
MCLK
SDIN
3D72
SDI2SOUT1
SCKI2SOUT
WSI2SOUT
AVDD DVDD
20
21
15
22
330p
+3V3D
1
2
3
4
RES 9D53
9D54
TAS5731P1
7D60
TAS5711PHP
2D88
10R
1R0
ID76 ID75
ID77
3D57
9D52
FD67
FD63
FD65
WSI2SOUT
I2SCLK
SCKI2SOUT
SDI2SOUT1
ID78
1R0
+3V3D
2
3
DBG
1D03
RES 3D63
3D58
+3V3D
3D79
2D5B
7D71 RES
PDTC144EU
ID87
16V 100u
SPEAKER-R-
2
+3V3-STANDBY
ID55
SPEAKER-L100u 16V
1
ID54
10n
2D91
3
10K
AUDIO-MUTE
10K
AUDIO-MUTEn
2D5A
10R
3D62
+3V3D
100u 16V
100u 16V
3D78
3D61
5D83
RESET-FUSION-OUTn
+12V-AUDIO
+12V-AUDIO
10K
10u
2D84
B05A
10u
2D96
10-3-24
QFU1.2E LA
1X02
REF EMC HOLE
6
Class-D amplifier
2013-01-11
5
2012-11-08
3104 313 6618
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130222
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 167
B05B, Analogue externals
Analogue externals
B05B
FVA9
1VAG
6n8
2VA9
6VA8
100p
2VA8
1K0
CDS4C12GTA
12V
RES
3VA7
SC-RIN
FVAA
SCART
1VAH
6n8
2VAB
6VA9
100p
2VAA
1K0
CDS4C12GTA
12V
RES
3VA8
SC-LIN
49045-0011
25
26
FVA1
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
FVAB
IVA0
1VAJ
75R
3VAG
CDS4C12GTA
12V
RES
FVAC
1VAK
CDS4C12GTA
12V
RES
6VAC
100p
2VAE
1K5
1u0
3VAA
12K
2VAD
PDZ2.4B(COL)
FVA2
3VA9
SC1-STATUS
6VAB
6VAA
100p
2VAC
SC1-B
+3V3
FVA4
1VAL
75R
3VAB
CDS4C12GTA
12V
RES
100p
1R0
FD90
1
SPDIFO
1VAM
75R
3VAC
6VAE
100R
CDS4C12GTA
12V
RES
100p
2VAG
3VAD
1VAN
CDS4C12GTA
12V
6VAG
RES
100p
75R
2VAH
FVAE
3VAE
PDZ2.4B(COL)
6VAF
FVAF
1VAP
150R
3VAF
CDS4C12GTA
12V
6VAH
RES
100p
2VAJ
SC1-CVBS
FVAG
3VAK
100p
47R
2VAK
RES 6D0A
V_NOM
100p
1D0A
CDS4C12GTA
12V
IVA1
SC1-BLK
SC1-DETECTn
1VA1
FVAD
SC1-R
3
RES 2D0B
GND
MT
5 4
ID95
100n
VIN
6VAD
1J50
3150-831-030-H1
2
VCC
2VAF
SC1-G
3D90
B05B
2D0A
10-3-25
QFU1.2E LA
6
Analogue externals
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 168
B05C, Sensor board and AmbiLight
Sensor board and AmbiLight
B05C
FAA0
FH52-11S-0.5SH
FH52-25S-0.5SH
FH52-40S-0.5SH
FAA1
42 41
3CAF
SDA-SRF
10R
FAA2
3CAE
IAA0
3CAG
FAA3
FAA4
+5V
0R3
+T
SCL-SRF
3CAD
10R
3CAB
3CAA
3AAA
FAA6
FAA7
FAA8
LED2-OUT
KEYBOARD_IRQ-SRFn
LED2-OUT
3D-LED_3D-RF
AMBI-TEMP
100R
100R
100R
3AAB
3AAC
AMBI-SPI-CCLK-OUT
2AAV
1u0
10p
470p
2CAD
470p
10p
10p
2AAC
2CAA
2CAB
100p
100p
100p
100p
47R
2CAR
2CAS
AMBI-SPI-MOSI-OUT
47R
+3V3-STANDBY
2CAP
AMBI-POWER
IAA1 1u0
SDA-MC
2AAW
FAA9
GND-AL
9CAA
9CAB
+3V3-STANDBY
10R
FAA5
GND-AL
3CAH
10K
RC_IRQ-RF4CEn
3CAC
GND-AL
LED2-OUT
10R
AMBI-POWER
+3V3AL
AMBI-POWER
2CAT
2CAU
100n
RES
10u
GND-AL
2CAL
RES
3AAD
100n
+3V3
FAAZ
+3V3AL
10u
2AAE
GND-AL
1C26
10u
+T 0R3
2AAD
1C25
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
2CAN
27 26
1u0
1C20
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
2CAJ
13 12
2CAM
11
10
9
8
7
6
5
4
3
2
1
1u0
B05C
2CAK
10-3-26
QFU1.2E LA
GND-AL
6
Sensor board and AmbiLight
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 169
B06A, HDMI
HDMI
B06A
VOUT
100K
DRX-HOTPLUG
3HA4
DDRXCDDRXC+
19
20
DDRX0DDRX0+
21
22
FHAR
FHAS
DDRX1DDRX1+
23
24
1 3HAB-1 8
BIN-5V
BRX-HOTPLUG
DDRX2DDRX2+
25
26
47K
BRX-DDC-SCL
BRX-DDC-SDA
100K
43
44
2HA1
DRX-DDC-SDA
DRX-DDC-SCL
BIN-5V
21 20
23 22
45
46
FHBA
47K
10R
BRX1BRX0+
BRX0BRXC+
100n
100n
2HAP
100n
2HAN
10u
100n
2HAG
10u
2
38
37
TX1
N
R1X0
P
N
P
TXC
N
R1XC
P
N
P
TX0
DSDA1
DSCL1
N
P
N
P
TPWR_CI2CA
N
R1X1
P
57
56
HDMIF-RX2HDMIF-RX2+
59
58
HDMIF-RX1HDMIF-RX1+
61
60
HDMIF-RX0HDMIF-RX0+
63
62
HDMIF-RXCHDMIF-RXC+
3HB0
4K7
FHA4
55
MICOM-VCC33
3HB1 RES
4K7
CEC_A
N
R1X2
P
50
3HAS
(CBUS) HPD2
R2PWR5V
INT
52
3HAY
4K7
FHA3
CSCL
CSDA
N
R2X0
P
54
53
3HAV
3HAW
47R
47R
SCL-SSB
SDA-SSB
+1V5
RSVDL
N
R2X1
P
R4PWR5V
10R
RES
DSDA2
DSCL2
N
R2XC
P
pin (49)
FHA6
+5V
+3V3
100K
17
18
TX2
(CBUS) HPD1
R1PWR5V
+5V
+3V3
2HAB
10
28
7HA1-1
RT9025-12GSP
N
R2X2
P
1u0
VDD
3
(CBUS) HPD3
R3PWR5V
DSDA3
DSCL3
N
R3XC
P
VIA
N
R3X0
P
N
R3X1
P
N
R3X2
P
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
2
VIN
FHB5
6
VOUT
EN
ADJ
7
1
PGOOD
+1V2-FE
5
NC
GND
GND HS
22
23
24
25
26
FHB2
15
16
N
R0X2
P
7HA1-2
RT9025-12GSP
VIA
18
19
20
21
VIA
VIA
10
11
12
13
VIA
14
15
16
17
DIN-5V
13
14
CRX1CRX1+
1u0
4 3HA1-4 5
BRX2BRX1+
11
12
CRX0CRX0+
2HA2
CRXCCRXC+
BRX2+
39
40
CRX2CRX2+
21 20
23 22
CRX-DDC-SDA
CRX-DDC-SCL
N
R0X1
P
10u
41
42
10K
51
1u0
FHB9
10K
3HBQ
3HAR
10R
FHAN
FHAP
CRX-DDC-SCL
CRX-DDC-SDA
CIN-5V
CRX-HOTPLUG
BRXCPCEC-HDMI
HARC0
BRX-DDC-SCL
BRX-DDC-SDA
7
8
CRX-HOTPLUG
3HA3
1u0
3 3HA1-3 6
47K
CIN-5V
FHB1
47K
CRXCPCEC-HDMI
HARC1
CRX-DDC-SCL
CRX-DDC-SDA
3 3HAA-3 6
CRX0CRXC+
5
6
CEC_D
R4PWR5V
3HBP
2HAA
3
4
N
R0X0
P
49
48
47
2HAD
100K
1u0
2HA4
1
2
BRX2BRX2+
CIN-5V
7 3HAB-2 2
FHAG
BRXCBRXC+
BRX1BRX1+
CRX1CRX0+
1H02
HDMI CONNECTOR 2
33
34
BRX0BRX0+
CRX2CRX1+
CIN-5V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
BRX-DDC-SDA
BRX-DDC-SCL
CRX2+
5 3HAA-4 4
FHAF
35
36
DSCL4
DSDA4
4
10R
DIN-5V
HDMI CONNECTOR 3
FHB8
BRX-HOTPLUG
3HA2
1H03
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
71
72
R4PWR5V
N
R0XC
P
SBVCC33
RES
9
FHB0
69
70
DSDA0
DSCL0
IHB1
8
BIN-5V
67
68
(CBUS) HPD0
R0PWR5V
FHA7
30R
10u
21 20
23 22
2 3HA1-2 7
DIN-5V
DRX-HOTPLUG
100K
1u0
FHAL
FHAM
DRX-DDC-SCL
DRX-DDC-SDA
ARXCARXC+
65
66
ARX2ARX2+
47K
7 3HAA-2 2
DDRXCPCEC-HDMI
HARC2
DRX-DDC-SCL
DRX-DDC-SDA
29
30
ARX1ARX1+
DIN-5V
ARX-DDC-SDA
ARX-DDC-SCL
ARX0ARX0+
DDRX1DDRX0+
DDRX0DDRXC+
31
32
pin (38)
RES
5HA6
RES
2HA9
2HA5
10R
FHB7
SBVCC33
ARX-HOTPLUG
3HA0
FHAY
1 3HA1-1 8
DDRX2DDRX1+
47K
FHAE
AIN-5V
1 3HAA-1 8
HDMI CONNECTOR 4
DDRX2+
MICOM_VCC33
1H04
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
9
27
64
VCC33
2HAM
1
2HAF
EN
EN
3
FLG
10u
4
VIN
100n
RES 2HAK
5
VCC33
2HAJ
IHB0
GND
7HA0
SII9287B
FHA8
30R
RES
2HAL
PDZ2.4B(COL)
5HA9
2HB5
2K2
3HA6
FHBC
pins (9,27,64)
5HA5
+3V3
7HA5
RT9715EGB
10K
I2C ADDRESS
SII9287B=OXB2
1u0
3HAP
2HB4
SBVCC33
VCC33
MICOM-VCC33
+3V3
3K3
6HA1
FHB4
3HA5 RES
+5V
30R
B06A
1u0
10-3-27
QFU1.2E LA
73
EPAD
BIN-5V
1H01
1V2 DVB-T2 and DVB-S2
ARX2ARX1+
ARX1ARX0+
AIN-5V
RES
+3V3-STANDBY
IHB3
IHB4
IHB5
3HB3
PCEC-HDMI
FHB6
1M0
BC847BW
7HA3
AIN-5V
HDMI-CEC
9HA0
100R
IHB6
27K
9HA1
RES
3HBS
PCEC-QHDMI
3HAL
21 20
23 22
FHAV
FHAW
ARX-DDC-SCL
ARX-DDC-SDA
3HB2
22K
7HA2
BC847BW
RES
AIN-5V
ARX-HOTPLUG
IHB2
47K
ARXCPCEC-HDMI
HARC4
ARX-DDC-SCL
ARX-DDC-SDA
3 3HAB-3 6
ARX0ARXC+
47K
FHAH
ARX2+
5 3HAB-4 4
HDMI CONNECTOR 1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
3HB4
+3V3-STANDBY
22K
6
HDMI
2013-01-11
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�Circuit Diagrams and PWB Layouts
10.
EN 170
B06B, HDMI-ARC
HDMI-ARC
IHD1
HARC0
HARC1
HARC2
FHD4
5HD0
FHD5
30R
5HD1
FHD6
30R
5HD2
B06B
IHDF
ARC1
IHDH
ARC2
IHDM
ARC3
IHDK
ARC4
RES
9HD2
ARC4
100R
ARC0
IHDG
9HD4
3HD4
B06B
ARC0
ARC1
ARC2
30R
IHD8
9HD5
3HD9
+5V-ARC
10p
5HD5
FHD3
+5V
100n
1u0
16
7HD0
74HC4051PW
2HDD
2HD6
30R
IHD7
9HD6
10
FHD2
9
9HD0
6
8X
0
0
7
1
2
2
G8
3
4
3
5
6
7
9HD9
1
5
2
4
GND
IHD4
9HD8
3HDS
IHDL
3HDT
HDMI-ARC
RES
VEE
FHD7
12
8
HDMI-ARC
14
15
100R
ARC-SEL2
MDX
0
3HDE
FHD1
100R
ARC-SEL1
13
3HDU
ARC-SEL0
11
100R
VCC
FHD0
7
2HD5
10p
10p
2HD3
100R
ARC4
30R
100R
FHD8
10p
2HD1
HARC4
5HD4
2HD0
10-3-28
QFU1.2E LA
6
HDMI-ARC
2013-01-11
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�Circuit Diagrams and PWB Layouts
10.
EN 171
B06C, USB external
B06C
USB external
B06C
+3V3
3EA7
+5V
+T
0R3
3EA8-1
100K
3EA8-2
FEAD
100K
100n
100n
2EA7
100n
2EA6
2EA4
100n
2EA5
USB-PORTA-OC
100n
2EA3
+5V-PORTA
3EA8-3
100K
3EA8-4
18p
3
4
25
USB-PORTB-DM
USB-PORTB-DP
USB-PORTB-OC
USB-PORTA-DM
USB-PORTA-DP
USB-PORTA-OC
6
7
24
USB-PORTC-DM
USB-PORTC-DP
USB-PORTC-OC
12
13
20
15
16
19
3EA1
+3V3
10K
28
17
22
23
8
RESET-FUSION-OUTn
IEA1
3EA3
3EA4
10K
680R
IEA2
100K
+3V3
+3V3
XOUT
21
VCC_D
XIN
5
VCC_A_1
9
VCC_A_2
14
VCC_A_3
11
DD+
DD1DD1+
OVR1
IEA3 USB2-DM
IEA4 USB2-DP
3EAC
+5V
+T
DD2DD2+
OVR2
SDA
TEST|SCL
26
+5V-PORTB
100K
3EAD-2
FEAE
100K
18
3EAD-3
100K
3EAD-4
DD4DD4+
OVR4
VIA1
VIA2
VIA3
VIA4
30
31
32
33
IEE0
USB1-RREF
100K
1%
1 3EE2-1 8
12K
1%
2 3EE2-2 7
IEE1
USB2-RREF
3
12K
1%
3EE2-3
6
3EAG
+5V
+T
12K
100n
3EA5
12K
0R3
3EAH-1
1%
4 3EE2-4 5
2EA2
0R3
3EAD-1
USB-PORTB-OC
DD3DD3+
OVR3
VREG
RESET
SELFPWR
GANG
RREF
1
2
GND_HS
10
2EA1
100K
29
7EA0
CY7C65632-28LTXCT
VCC
12M
1EA0
18p
27
2EA0
+5V-PORTC
100K
USB-PORTC-OC
FEAH
3EAH-2
100K
3EAH-3
100K
3EAH-4
100K
6
5401
USB-PORTB-DM
USB-PORTB-DP
FEA4
1E02
FEAA +5V-PORTB
FEAB
5
6
5401
1
2
3
4
USB-PORTC-DM
USB-PORTC-DP
FEAC
FEA8
+5V-PORTC
FEA5
FEA6
2EAA
1E03
5
100n
5
FEA9
1
2
3
4
100n
FEA3
1E01
2EAB
FEA1
+5V-PORTA
FEA2
100n
USB-PORTA-DM
USB-PORTA-DP
2EA9
10-3-29
QFU1.2E LA
6
1
2
3
4
FEA7
5401
6
USB external
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 172
B06D, Ethernet
Ethernet
5EF5
10n
10n
2EFT
B06D
30R
RES 5EF0
VDD33-PHY
+3V3-STANDBY
30R
5EF4
VDD33-PHY
FEF9
IEF1
100n
100n
2EFH
2EF2
100n
1u0
2EF0
30R
2EF1
AVDDL-1V1
+3V3-LAN
10u
2EF3
2EFS
B06D
6
3EFS
2
7EF1-1
PUMH2
1
3
5
7EF1-2
PUMH2
100n
2EFJ
100n
10u
2EFA
2EF9
22u
100n
2EFV
1u0
2EFZ
FEFE
15p
4
5
6
IEF2
RX+
RX-
7
8
100n
RES 2EFN
4
5
CDA5C16GTH
16V
RES 6EF2-4
15p
RES 2EFM
21
22
24
3
EN-TXD0
EN-TXD1
LED-RES
LED-ACT
TX+
TX-
FEFC
EN-TXEN
34
35
FEFB
6
LED_ACT
LED_RES
LED_10_100
RX-ER
1E00
5450-327-194-H3
1
2
3
FEFA
TXP
TXN
RXP
RXN
CDA5C16GTH
16V
TXD0
TXD1
FEF7
32
IEF3
100n
RES 6EF2-3
NC
25
EN-RXD0
EN-RXD1
2EFP
15p
TX_EN
4u7
5EF1
38
DVDDL
3
VDD33
14
RX_ER
29
28
CLK-RMII
EN-RXEN
2EFU
FEF6
10K
10K
3EFT
50
51
52
53
54
55
56
57
58
RXD0
RXD1
22R
RES 2EFL
VDD33-PHY
10K
VDD33-PHY
3EF4
VDDH-2V5
MDC
MDIO
INT
33 3EF5
30
2
15
16
18
19
36
37
CLK_RMII
CRS_DV
7
FEF5
RES0
RES1
TXP
TXN
RXP
RXN
CDA5C16GTH
16V
VDD33-PHY
1%
1K5
RBBIAS
9
10
12
13
RES 6EF2-2
40
39
20
TRXP0
TRXN0
TRXP1
TRXN1
15p
26
31
EN-MDC
3EF3
7
FEF8
RES 2EFK
2K37
RES0
RES1
FEF4
VDDIO_REG
RST
8
27
CDA5C16GTH
16V
1%
CLK_25M
VDDH_REG
1u0
2EFG
3EF2
XTLO
2
RES 6EF2-1
8
1
1
FEF3
RESET-ETHERNETn
23
LX
VDDH-2V5
2EFF
FEF2
FEFD
AVDD33
1M0
4
22p
EN-MDIO
IRQ-WOLANn
5
AVDDL
XTLI
VIA
41
GND_HS
42
43
44
45
46
47
48
49
2EFC
3EFY
25M
1EF0
22p
6
11
17
30R
7EF0
AR8030-AL1A-R
FEF1
2EFB
5EF6
100n
100n
2EF8
100n
2EF7
100n
2EF6
2EF5
FEF0
RES
10-3-30
QFU1.2E LA
VIA
4
DEF0
CLK-RMII
EN-TXC
EN-RXC
VDDH-2V5
3EFH
RES0
EN-RXD0
RES1
EN-RXD1
10K
3EFJ
3EFN
10K
10K
EN-RXEN
3EFP
10K
3EFR
10K
3EFL
10K
3EFM
10K
LED-RES
LED-ACT
RX-ER
3EFU
10K
6
Ethernet
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�Circuit Diagrams and PWB Layouts
10.
EN 173
B06E, NAND flash, serial flash and EEPROM
B06E
NAND flash, serial flash and EEPROM
B06E
+3V3
DJA2
DJA3
DJA4
DJA5
DJA6
DJA7
3JA6
DJA8
F-RDY
10K
0
1
2
3 IO
4
5
6
7
7
R
B
33R
+3V3
DJA9
F-OEn
F-CEn
NAND-ALE
NAND-CLE
F-WEn
3JA5
8
9
17
16
18
19
DJAA
DJAB
DJAC
DJAD
DNU1
DNU2
4K7
4K7
RES
3JA1
3JA0
DJAE
RE
CE
ALE
CLE
WE
WP
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
26
27
28
33
35
40
45
46
4K7
FCT2
SF-SDO
3CTH
47R
+3V3-STANDBY
7CT3
M25P05-AVMN6
ICT1
3CTR
+3V3-STANDBY
3CTJ
4K7
SF-SDI
SF-CLK
4K7
SF-CLK
SF-CS
SF-CS
SF-WP
3CTK
SF-WP
4K7
3CT3
4K7
SF-SDI
ICT2
3CTB
4K7
ICT3
SF-HOLDn
SF-HOLDn
3CT0
SFB-SI
270R
3CTU
3CTZ
270R
270R
3CT2
SFB-SCK
SFB-CS
SFB-WPn
FCT3
SFB-SI
FCT4
SFB-SCK
FCT5
SFB-CS
FCT6
SFB-WPn
47R
3CT9
SFB-HOLDn
SFB-HOLDn
FCT7
47R
6
1
3
7
D
C
Φ
512K
FLASH
Q
2
S
W
HOLD
FCT8
38
47
48
1CTZ
RESET-STANDBYn
SF-SDO
SFB-SI
SFB-CS
SFB-SCK
9JA6
13
25
36
9JA5
VCC
5
VSS
VSS
+3V3
8
29
30
31
32
41
42
43
44
DJA1
1
2
3
4
5
6
7
8
9
10
11
NC 12
13
14
15
16
17
18
19
20
21
22
23
4
DJA0
100n
3CT1
VCC
FRA0
FRA5
FRA6
FRA7
FRA8
FRA10
FRA11
FRA12
100n
2JA2
100n
2JA1
12
34
37
39
7JA0
MT29F8G08ABACAWP:C
9JA3
9JA4
2JA0
+3V3-STANDBY
8
7
1
2
3
4
5
6
1734260-6
+3V3
+3V3
8
100n
Φ
(8K × 8)
EEPROM
10K
3JA4
7JA2
M24C64-WDW6
IJA0
1
2
3
2JA4
IJA1
0
1
2
WC
SCL
ADR
SDA
7
6
5
3JA2
47R
SCL-SSB
3JA3
SDA-SSB
47R
4
10-3-31
QFU1.2E LA
FJA0
6
NAND flash, serial flash
and EEPROM
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 174
B06F, Analogue externals
Analogue externals
B06F
FVC1
1n0
AUDIO VGA/DVI
1VC7
2VC9
6VC6
RES
100p
2VC8
1K0
CDS4C12GTA
12V
3VC6
VGA-LIN
5
4
3
FVC2
1n0
1VC8
2VCB
6VC7
RES
100p
2VCA
1K0
CDS4C12GTA
12V
3VC7
VGA-RIN
1VA6
2
1
MSJ-035-75C-BL-RF-PBT-BRF
FVCB
FVC3
3VC8
YPBPR-DETECTn
100p
2VCC
47R
FVC4
1VC1
150R
3VC0
CDS4C12GTA
12V
RES
6VC0
47p
2VC0
Y1-IN
YPBPR
5
4
3
FVC5
1VC2
150R
3VC1
CDS4C12GTA
12V
RES
6VC1
47p
2VC1
PB1-IN
FVCC
1VA8
2
1
MSJ-035-75C-G-RF-PBT-BRF
FVC6
1VC3
150R
3VC2
CDS4C12GTA
12V
RES
6VC2
47p
2VC2
PR1-IN
FVC7
3VC9
CVBS-DETECTn
FVC8
1n0
1VC4
2VC6
CDS4C12GTA
12V
6VC3
100p
2VC3
1K0
RES
3VC3
YPBPR-RIN
FVC9
1n0
FVCD
1VC5
2VC7
CDS4C12GTA
12V
RES
6VC4
100p
1K0
CVBS +
AUDIO CVBS / YPBPR
5
4
3
3VC4
YPBPR-LIN
100p
2VCD
47R
2VC4
1VA4
2
1
MSJ-035-75C-Y-RF-PBT-BRF
FVCA
1VC6
150R
3VC5
CDS4C12GTA
12V
6VC5
RES
CVBS1
100p
B06F
2VC5
10-3-32
QFU1.2E LA
6
Analogue externals
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 175
B06G, DC-DC
DC-DC
B06G
5UR3
IUR0
IUR2
3UR3-1
+12Vb
100n
100n
2UY5
6UW2
10R
10R
10R
+22V
3URG-3
1n0
3URG-4
33R
VIN
1n0
IURF
3URF
1M0
3URC
22K 1%
3URB
3n3
100p
CUR5
+3V3
68K 1%
GND-3V3r
GND-3V3r
GND-3V3r
4 3UWK-4 5
100R RES
3 3UWK-3 6
100R RES
2 3UWK-2 7
100R RES
22u
1
3UWL
+3V3
IUWE
ENABLE+2V5
RES 2UWY
9
220K 1%
IUWF
100n
47K
5
3UWC
1% 470K
3UWD
2UWW
22K
22
23
24
25
26
3UWF
2URG
COMP
VIA
10
11
9
1n0
2URJ
4
GND_HS GND
3URA
IURK
6
6K8 5%
RES 2URH
FB
+2V5
7
NC
GND
GND HS
8
EN
GND-3V3r
4
ADJ
PGOOD
100n
2UWU
EN
100n
+2V5
FUW3
6
VOUT
2UWV
2
ENABLE+2V5
VIN
2URE
5
GND-3V3r
VDD
3
+3V3
SW
SS
1
3
GND-3V3r
1 3UWK-1 8
100R RES
1u0
7
ENABLE+3V3
RES 2UWS
2UWR
7UW2-1
RT9025-12GSP
GND-3V3r
330R
DBG
6UW1
PDZ5.1B(COL)
RES 6UW0
FUW2
8
IURE
10n
LTST-C190CKT
3UWB DBG
+3V3
1R0
3UWM
4K7 RES
4K7 RES
3UWA-4
4K7 RES
3UWA-3
4K7 RES
3UWA-2
3UWA-1
+5V
IURC
BOOT
IURD
FURA
+3V3
3u6
Φ
STEP DOWN
2URF
5UR6
2
7UR6
RT7297CHZSP
IURB
22u
RES
2URL
1n0
100n
2URB
22u
2URA
33R
RES
33R
RES
33R
RES
3URG-2
RES
2URK
30R
RES
3URG-1
22u
2URD
IURA
RES 2URC
IURn
5UR5
B230LA-M3
220K 1%
22K 1%
3UR7
3UR6
100p
+12Vb
+12Vb
10
11
12
13
FUW4
9
8
1n0
2UR2
+5V +5V
120K 1%
2UY8
GND
GND HS
VIA
14
15
16
17
1M0
3UR5
6
VIA
VIA
RES 6UW3
2
3
2UY3
FB
IURM
100n
VIA
18
19
20
21
3UR4
IUR4
EN
2UY2
100n
100n
22u
SW
5
DETECT12V
2UY1
2UR1
4
22u
2UY7
BOOT
2UY6
VIN
BAV99 COL
IUR3
VCC
1
100n
7
7URA-1
RT8288AZSP
IURL
3UWJ-4
33R
3UWJ-1
IUR9
4u7
3UR3-4
10R
3UWJ-3
1n0
2UR3
7URA-2
RT8288AZSP
FUR1
+5V
33R
3UWJ-2
1n0
5UR2
IUR8
3UR3-3
22u
2UR4
2UR0
22u
2UR9
33R
22
23
24
25
26
3UR3-2
2UR8
10u
2UR5
10u
2UR7
2UR6
33R
30R
1u0
30R
5UR1
+12Vb
10u
7UW2-2
RT9025-12GSP
1n0
VIA
18
19
20
21
VIA
VIA
10
11
12
13
+2V5
+2V5-F
VIA
470R
470R
3UWH-4
RES
470R
3UWH-3
RES
3UWH-2
RES
470R
3UWH-1
RES
470R
470R
3UWG-4
RES
470R
3UWG-3
RES
470R
3UWG-2
RES
3UWG-1
14
15
16
17
+3V3
RES
B06G
2UWT
10-3-33
QFU1.2E LA
6
DC-DC
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 176
B06H, DC-DC
DC-DC
IUU3
5
NC
GND
GND HS
3UU7 RES
1
PGOOD
+1V1-DVBT2
82K 1%
ADJ
2UUA
EN
3UU1
8
2UU1
1R0
1u0
+5V
7
22K
2
IUU7
9
3UU2
IUU2
6
VOUT
22u
VIN
2UU5
3
+1V5
7UU1-1
RT9025-12GSP
VDD
1n0
4
B06H
10u
IUU8
3UU6
FUU1
SENSE+1V1-DVBT2
3UU4
VIA
18
19
20
21
VIA
VIA
220K 1%
*
3UU5
22
23
24
25
26
7UU1-2
RT9025-12GSP
680K
82K 1%
10
11
12
13
VIA
14
15
16
17
7UV0
NX1117C12Z
3
+3V3
IN
2
4
OUT
FUV1
+1V2-FA
22u 16V
2UV7
1
100n
COM
2UV6
Optional
7UV2
RT9030-11GU5
NC
4
+1V1-FA
10u
10u
2UVC
EN
5
2
OUT
EN
ADJ
FUV2
5
4
GND
+1V1-FA
100R
3
IN
3UV6 RES
1
10u
10u
+3V3
3
VOUT
GND
2UVB
IUV1
7UV1
RT9187GB
2UV9
VIN
2UVD
1
+3V3
2
+1V1-DVBT2
3UV1
(*) 3UU5
120K 1%
1.10 V
RES
1.20 V
68K 1%
IUV3
3UV5
B06H
2UU0
10-3-34
QFU1.2E LA
3UV2
33K 1%
680 kΩ
5
DC-DC
2012-11-08
6
2013-01-11
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�Circuit Diagrams and PWB Layouts
10.
EN 177
B06I, CI conditional access
CI conditional access
+3V3
CA-CD1n
10K
3PAD
10K
3PAF
CA-WAITn
3PA1
+5VCA
+5V
3PAE
10K
CA-VS1n
10K
+3V3
+T 0R3
+3V3
2PA2
100n
CA-RST
3PAM
100K
19
CA-MOSTRT
CA-MDO0
CA-MDO1
CA-MDO2
VCC
3EN2
3EN1
G3
3PA3
CA-MOVAL
3PA8-1
100R 1
3PA8-2
100R 2
7
3PA8-3
100R 3
8
3PA8-4
100R 4
5
6
3PAL
18
17
16
15
14
13
12
11
2
MOVAL
MOSTRT
MDO0
MDO1
MDO2
3PA6
MOVAL
MOSTRT
MDO0
MDO1
MDO2
3PAA-1
1
10K
8 3PAA-2
2
3PAP
CE2n
REGn
10K
CA-CE1n
33R
+3V3
+3V3
1
2
3
4
5
6
7
8
9
100R
CA-RDY
20
7PA1
74LVC245ABQ
1
B06I
3PAC
CA-CD2n
CA-IORDn
10K
RES 3PAS
10K
CA-IOWRn
10K
7
3PAA-3
3
10K
6
3PAA-4
4
CE2n
10K
5
REGn
RES
9PAA
CA-CE2n
RES
9PAB
CA-OEn
CA-WEn
RES 3PAU
10K
CA-REGn
3PAN
10K
3PAR RES
10K
3PAT RES
10K
3PAV RES
10K
21
10
GND GND_HS
CA-WP
3PAW RES
10K
CA-INPACKn
3PAY RES
10K
+3V3
2PA3
19
100R
3PA9-3
100R 6
2 100R
3PA4
4
1
2
3
4
5
6
7
8
9
100R
3
1
+3V3
2
18
17
16
15
14
13
12
11
MOCLK
MDO7
MDO6
MDO5
MDO4
MDO3
3PA5
MOCLK
MDO7
MDO6
MDO5
MDO4
MDO3
10K
3PA7
3PAB-3
3
10K
3PAB-2
2
6
GND GND_HS
10K
7
3PAB-1
1
10K
8
3PAB-4
4
10K
21
3PA9-1
100R
8
3PA9-2
7
3PA9-4 5
100R
1P00
VCC
3EN2
3EN1
G3
3PA2
CA-MOCLK
CA-MDO7
CA-MDO6
CA-MDO5
CA-MDO4
CA-MDO3
100n
20
7PA2
74LVC245ABQ
1
10
2PA1
B06I
22u 16V
10-3-35
QFU1.2E LA
10K
5
CA-D03
CA-D04
CA-D05
CA-D06
CA-D07
CA-CE1n
CA-A10
CA-OEn
CA-A11
CA-A09
CA-A08
CA-A13
CA-A14
CA-WEn
CA-RDY
+5VCA
MDI0
1 3PW2-1 8
CA-MIVAL
CA-MICLK
CA-A12
CA-A07
CA-A06
CA-A05
CA-A04
CA-A03
CA-A02
CA-A01
CA-A00
CA-D00
CA-D01
CA-D02
CA-WP
CA-MDI0
33R
3PW3
MDI1
MDI2
CA-CD1n
MDO3
MDO4
MDO5
MDO6
MDO7
CE2n
CA-VS1n
CA-IORDn
CA-IOWRn
CA-MISTRT
CA-MDI0
CA-MDI1
CA-MDI2
CA-MDI3
CA-MDI1
33R
3PW4
CA-MDI2
33R
MDI3
1 3PW1-1 8
MDI4
4
5
CA-MDI4
MDI5
2 3PW1-2 7
CA-MDI5
MDI6
33R
3 3PW2-3 6
CA-MDI6
MDI7
2 3PW2-2 7
33R
3PW2-4
CA-MDI3
33R
+5VCA
33R
CA-MDI4
CA-MDI5
CA-MDI6
CA-MDI7
MOCLK
CA-RST
CA-WAITn
CA-INPACKn
REGn
MOVAL
MOSTRT
MDO0
MDO1
MDO2
CA-CD2n
CA-MDI7
33R
3PW5
MICLK
33R
3PW1-4
CA-MICLK
MIVAL
4
5
CA-MIVAL
MISTRT
3 3PW1-3 6
CA-MISTRT
33R
33R
71 69
72 70
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
55
56
57
58
59
60
61
62
63
64
65
66
67
68
92789-055LF
6
CI conditional access
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10-3-36
QFU1.2E LA
10.
EN 178
B06J, FE
B06J
FE
B06J
+3V3
3KW1
TS-CHDEC-DATA
TS-CHDEC-DATA
3KW3
TS-CHDEC-CLK
TS-CHDEC-CLK
560R
3KW5
3KW4
470R
TS-CHDEC-VALID
TS-CHDEC-VALID
560R
3KW7
3KW2
470R
560R
3KW6
470R
TS-CHDEC-SOP
TS-CHDEC-SOP
560R
3KW8
470R
RES 2FS3
10p
2FS1
100n
2FS2
SOC-IF-N
4u7
5FS2
100n
SOC-IF-P
5FS1
4u7
IF-IN-P
IF-IN-N
2FS4 RES
10p
+3V3
3RW1
TS-DVBS-DATA
TS-DVBS-DATA
560R
3RW3
470R
TS-DVBS-CLK
3RW4
TS-DVBS-CLK
470R
560R
3RW5
TS-DVBS-VALID
TS-DVBS-VALID
3RW6
470R
560R
3RW7
3RW2
TS-DVBS-SOP
3RW8
TS-DVBS-SOP
470R
560R
6
FE
2013-01-11
5
2012-11-08
3104 313 6618
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div. table
�Circuit Diagrams and PWB Layouts
10.
EN 179
B06K, HDMI
HDMI
B06K
RES
3HW6
390R
3HW1
FHW0
+5V
IHW3
HEAC
56R
1%
680R
RES
3HW2
HDMI-ARC
IHW1
3HW3
PWR5V
10n
27K
2HW1
10K
3HW4
3HW5
+3V3
12K
IHW2
RREF
1%
100n
B06K
2HW2
10-3-37
QFU1.2E LA
6
HDMI
2013-01-11
5
2012-11-08
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�Circuit Diagrams and PWB Layouts
10.
EN 180
B06L, Control, temperature sensor and service
Control, temperature sensor and service
B06L
3
7CW0
PCA9540BGD
VDD
3CW0
+3V3
3CW1
SDA-M3
2
SDA-M3
4K7
SCL-M3
1
SCL-M3
SD0
SC0
SDA
SCL
4K7
SD1
SC1
1CW4
2K2
SDA-SRF
SCL-SRF
SDA-SRF
SCL-SRF
+3V3
3CWW
3CWY
4K7
4K7
VSS
SCL-M3
2K2
3CWV
SDA-M3
FCWU
4
7
8
3CWU
SDA-SSB
SCL-SSB
SDA-SSB
SCL-SSB
6
FCWT
FCWV
1
2
3
4
5
5
3CWJ
SCL-M1
BM03B-SRSS-TBT
SCL-FE
SDA-M1
3CR6
SCL-FE
SDA-FE
47R
3CWF
SDA-FE
47R
+3V3
2K2
3CR7
BM03B-SRSS-TBT
1CW7
+3V3
SCL-SRF
SDA-SRF
2K2
FCWB
FCWC
FCW4
5
1CWG
1CW6
+3V3-STANDBY
SCL-SSB
DCW5 FCWR
DCW6 FCWS
6
1
2
3
FCW3
SDA-SSB
FCW1
FCW2
TEST-MOD
TEST-CON
F-OEn
5
4
1
2
3
+3V3-STANDBY
BM03B-SRSS-TBT
7
4K7
1
2
3
4
5
4
BM05B-SRSS-TBT
3CU3
EJTAG-MCU-TDO
47R
3CU4
STB-GP4
STB-GP1
DVS2
STB-GP5
STB-GP2
EJTAG-MCU-TCK
8
7
1
2
3
4
5
6
47R
100n
100n
2CW3
22K
2CW2
FCWH
EJTAG-MCU-TMS
47R
3CWD
1K0
22K
3CWC
FCWG
FCWE
1K0
3CWB
DVS1
1CW5
BM06B-SRSS-TBT
FCWD
FCWF
EJTAG-MCU-TMS
EJTAG-MCU-TDO
EJTAG-MCU-TCK
EJTAG-MCU-TDI
EJTAG-MCU-TDI
47R
3CU5
3CWS
STB-GP0
3CWT
LED
3CWR
B06L
3CU2
STB-GP3
ENABLE-WOLAN
47R
3CWK
HP-DETECT
3CR8
ENABLE-WOLAN
+3V3-STANDBY
10K
3EW0
IRQ-WOLANn
IRQ-WOLANn
+3V3-STANDBY
47R
10K
3CWG
STB-GP6
SPLASH-ON
47R
3CUA
STB-GP7
+3V3
RESET-ETHERNETn
100R
3CWM
STB-GP8
RESET-RF4CEn
3CU0
10K
RESET-RF4CEn
47R
10K
10K
3CS1
3CS0
DCW1
3CWN
STB-GP9
LCD-PWR-ONn
47R
3CWP
STB-GP10
+3V3-STANDBY
SDM
FCW0 DCW4
3CWE
SDMn
SDMn
+3V3-STANDBY
10K
AMBI-TEMP-FUS
10R
6CS1
3CS3
47R
47R
47R
TXD-SERVICE
3CU1
AVLINK1
DETECT12V
10K
3 3CS4-3 6
10K
PDZ5.1B(COL)
6CS0
1CS1
47R
+3V3-STANDBY
RXD-SERVICE
3CR9
47R
8 3CS4-1 1
PDZ5.1B(COL)
47R
2
1
MSJ-035-75C-B-RF-PBT-BRF
3CS2
3CRA
2 3CS4-2 7
5 3CS4-4 4
1u0
FCS1
FCS0
1CS0
2AW0
FCS2
5
4
3
1E06
AMBI-TEMP
100n
3AW0
2CW1
47R
47R
3CU6
STB-TXD
TXD-STANDBY
47R
3CU7
STB-RXD
TXD-STANDBY
RXD-STANDBY
RXD-STANDBY
47R
FCW8
STB-SCL
3CU9
STB-SDA
+3V3
+3V3
47R
100n
+3V3-STANDBY
22
23
24
25
100n
1
2
3
4
3TW0
SDA-SSB
SCL-SSB
DBG
3TW1
47R
VSS GND_HS
47R
1
2
OS
17
9TW0
RES
9TW1
RES
9TW2
8
IRQ-EXPANDERn
100n
2TW0
1n0
2CT4
1
DCW2
3
7TW0
LM75BGD
A0
SDA
A1
SCL
A2
7
6
5
9TW5
RES
VIA
1CT7
SKHUBHE010
9TW4
VIA
6
18
19
20
21
11
GND
RESET-STANDBYn
9TW3
INT
FCT9
+VS
SCL
SDA
+3V3-STANDBY
10K
+3V3
GND
12
47R 13
3CW2
RC_IRQ-RF4CEn
4
3CUY
47R
10K
3CUW
2
RESET
2
SC1-DETECTn
3
YPBPR-DETECTn
4
CVBS-DETECTn
5
7
FCW5
3CR2 100R
ARC-SEL0
3CR0
8
ARC-SEL1
3CR1
9 FCW6
100R
ARC-SEL2
10
100R
FCW7
2CW5
VCC
3CR3
IO0
IO1
IO2
IO3
IO4
IO5
IO6
IO7
RC_IRQ-RF4CEn
10R
VDD
A0
A1
A2
3CW5
IR
10K
100n
10K
7CT4
NCP803
2CW4
10K
3CUS
3CUP
3CUR
10K
14
10K
3CTY
RES 3CUN
7CW1
PCA9554BS
10K
10K
KEYBOARD_IRQ-SRFn
LGSEN
3
2CW6
10K
10K
RES 3CUM
RES 3CUK
10K
3CUL
10K
RES 3CUU
3CUT
STANDBYn
3CW3
10R
15
16
1
SCL-SSB
SDA-SSB
RESET-FUSION-OUTn
3CTD 47R
PWRON
KYBRD
+3V3
SDA-MC
47R
3CUC
STB-RSTO
3CUV
10-3-38
QFU1.2E LA
6
Control, temperature sensor
and service
2013-01-11
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�Circuit Diagrams and PWB Layouts
10-3-39
QFU1.2E LA
10.
EN 181
B06M, Strap options
B06M
Strap options
B06M
+3V3-STANDBY
10K
SPI-EN
SPI-EN
ICW1
3CUD
3CUE RES
ICA1
3CL0
+3V3-STANDBY
CA-IOWRn
CA-IOWRn
10K
3CL1 RES
10K
ICA2
3CL2
+3V3-STANDBY
10K
CA-WEn
CA-WEn
10K
3CL3 RES
10K
ICA3
CA-OEn
3CL4
10K
ICA4
3CL5
+3V3-STANDBY
CA-IORDn
CA-IORDn
10K
3CL7
+3V3-STANDBY
3CL6 RES
10K
RES
ICA5
CA-A14
CA-A14
3CL8
10K
10K
ICA6
NAND-CLE
3CP5
10K
3CP8
+3V3-STANDBY
RES
F-OEn
F-OEn
FCP6
10K
+3V3-STANDBY
3CT6
10K
3CT7 RES
+3V3-STANDBY
+3V3-STANDBY
10K
3CT8
3CP6
10K
TEST-CON
TEST-CON
TEST-MOD
RES
TEST-MOD
3CTA
10K
ENABLE-STANDBY
ENABLE-STANDBY
10K
3CTC
RES
10K
3CTF
10K
6
Strap options
2013-01-11
5
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�Circuit Diagrams and PWB Layouts
10.
EN 182
B06N, Headphone
Headphone
B06N
1
3DH3-1
8
68R
IDHM
2
1DH4
3
1
MSJ-035-12D-B-AG-PBT-BRF
22n
FDH2
22n
2DH9
CDS4C12GTA
12V
2DH8
6DH2
RES
3 3DH3-3 6
CDS4C12GTA
12V
1DH3
68R
6DH1
4 3DH3-4 5
RES
4V 100u
IDHL
1DH2
2DH7
8
IDHP
1K0
HPHOR
FDH1
2 3DH3-2 7
68R
4V 100u
1
2DH6
5
IDHN
1K0
3DH4-1
HPHOL
3DH4-4
B06N
4
10-3-40
QFU1.2E LA
FDH3
68R
6
Headphone
2013-01-11
5
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�Circuit Diagrams and PWB Layouts
10.
EN 183
Layout top
2VW3
7UC2
3UAB
3UAC
2UAD
2EHY
9EHE
3UA8
2UPH
5UC2
1T71 1C31 1C30
3EM8
2EHR
6UAF
7UF8
2UF7
7EHJ
3EHS
7EH4
3EHR 9EM3
2EHV
2UPK
2UCK
2UCW
2UCJ
2UCY
2UCL
5UC0
7UC3
6UC2
1CV5
1CV6
3CY1
3VWP
1CY1
3CY3
2UA9
2UF6
2UAT
2UAA
2UAM
2UAB
3GEM
3UAW
3GE9
9GE1
9GE2
2GE2
3GE0
3GE1
9GM6
9GM5
3EJ8
1E03
3EM9
2CV8
1GE0
3EJ2
3EJ3
1E02
3CVT
3VWN
2VW2
2PA1
1P00
2UVC
3UR6
3UR7
2UR2
2UR0
3UR3
2UR4
3UR5
3UR4
2UR3
2UR1
5UR2
2DH8
2URC
7URA
2UR6
2UR5
2UR7
5UR1
5UR3
2URE
2URB
2DH6
2URA
6UW3
3URF
3URB
3URC
2URH
7UR6
2URG
2URJ
2URF
2DH7
1CW7
3CWW
3URA
5UR6
7EA0
1E01
1DH2
3CWT
3CWS
3EAH
3EAG
1CW5
1DH4
1H04
2EAA
3EA8
3EAD
2EAB
9HA1
3EAC
2EA9
3EA7
3CUN
3CUP
3CUR
3CUS
3CUT
3CUK
9TW0
9TW1
9TW2
2TW0
3CUL
3CR3
3CUU
3CWY
1CW4
2VCA
1VA6
2VC5
2DH9
6VC5
3CW1
1CT7
1CW6
3VC2
3CYB 3CVS 3CV4
3VWR 2VW4
2VWJ
2UV7
3CUE 3CUD
3VC6 2VC8
1VC7
1VC5
1VA4
1VC6
3VC5
2VC2
3CT1
3CTH
3CTF
1CTZ
3CW0
2VC0 2VCD
7UV2
2UVD
DCW4
1DH3
1VA8
3UC9
6UC0
7UV0
3CP6 3CP8
2VC9
2UPG
2UV6
3CWE 2CW1
6VC6
2UPC
3VWJ
3VWL
3VWK
3UWM
6UW0
2UWR
2UWT
3UWL
2UWV
3UWF 3UWC
3UWD 2UWW
3UWK
3EF5
6VC0
6VC3
1VC1
2VC1 3VC1
1VC8
3VC7
7UP2
2UPJ
5UC1
3VWH
3CTK
7CT3
1CWG
3UWB
3UWA
2EFA
2EF9
3EF2
2EFZ
2HAB
3CS1
3CS0
1CS1
1VC4
6VC7
2VCB
2UPL
2FZ3
2FZ5
2FZ6
3FZ0
2FS3
2FS4
5FS1 5FS2
3EW0
2UWS
2VC4
3VC4
2UPE
2UPD
2UPF
6UP6
3VW9
3CWK
6UW1
2VC7
6VC4
2UPM
5UP5
1UA0
2UCC
2UCA
2UCB
3CTZ
6DH2 3DH3 6DH1
7TW03TW1
3TW0
9TW3
9TW4
9TW5
2VC6
1UA1
1UP1
2VWE3VW8
3CT2
2UWY
3VC0 3VC9
3CUV
9HD9 3HDU
5HD5
1VC2
6VC2
7HD0
2HDD
2VC3
1E06
7CW1
7UW2
2UWU
7UC4
7UA2
9EH8
5UP6
3CW2
3CT3
3JA6
3VC3
2VCC 3VC8
3HA3
3HA1
2HA43HA2
3CUY
2CW6
3CUM
2EJ2 3EJ0
3UV6
3CT0
3CTR
3CTJ
3CUA
2J41
3VW6
3VW4
3VW3
3CS3
1VC3
2EJ6
3EJ4
3EJ5
3EJ1
2EJ5
2EJ3
3CT8
3EFU
6VC1
3CY4
3CY2
2UAV
3VW7
3CTU
3CTD
3EE2
3CR6
2J42
5J05
3J09
3J50
1J00
3CR7
3UG9
3VWA
2VWF
2VWK
2FS2
2FS1
3UU7
7UU1
2UU1
3UU2
3VW5
2VWD
3CS2
1CS0
2VW5
3CV5
2J10 2J11
3EFP
6CS1 6CS0 3CS4
3CUW
2HA5
1H03
2EFJ
3EFH
3HA0
2HD6
3EF3
3VWD
3VWV
3KW6
3KW4
3RW4
3VWW
2VWB
2VW8
2VWC
5EF1
2EFH
3VWM
3VWS
3J2U
DB17
2VW1
3CTA
7EF0
2HA9
2HA2
2CVB
3GEJ
3CVG
3CVF
3CV9
3CV8
2J24
DB71
7J00
3HAR
2HA13HA4
1H02
3HBP
3GM4
3GM3
DB11
2EHU
2EHS
2UA1
3GD5
3CV7
3CYC
7J01
2J7S
2J1H 2J1B 2J1R 2J7T
7J02
2J1E 2J14 2J82 2J20 2J1V
7UB1
2J35
2J31
DB12
9UA1
2UF8
5EH0
7EJ0
2EJ7
2UU0
3UU1 3UU5
2UUA 3UU4
6EF2
7HA1
3EFY
3HBQ
3CVR
3CVN
2GVP
2GVN
3GM2
2J25
2UBF
2UB7
DB79
DB26
3HW4
7HA0
2CV9
9GM2
3GM1
3GM6
9GM1
3VWG
3VWF
3GVH
6GS13GS5
2GVC
2GVK
2GVF
2GVA
3GVA
3GV9
2UBC
2EJ1
DB78
2EFB 2EFC
3HAV
6GE1
6GE0
2GE1
1GE2 1GE1
3CV2
DB25
1EF0
3HAW
3GE7
2EJ4
3J55
3J54
3J53
2EFL 2EFK
2EFN 2EFM
3GV4
2GVH
2GVL
3GV0
3GVE
3GVD
2UB8
2UBD
2UB9
3J3V
3J3Y 3J43
3J3R 3J42
3RW6
2FA0
3UU6
1H01
DB40
DB42
DB43
2J3H
3UWG 3UWH
1E00
3GE8
2J3J
2J3F
1FA0
5FA1
3FA1 5FA7
DB00
3RW2
2KCK
3FA4
2FA5
DB41
DB09
3RW8
2KCP
2KC2 2KC4
3FA3
3FA2 5FA6
DB61
2J3K
3KC1
3KC7
2KCJ
2KCH
5KC55KC6
3KC0
DB56
DBA5
2J21
2J26
7J03
DB03
3KC2
3KC8
5FA4
5FA5
DB53
3J2Z
3KC3
3KC6
DBA2
7GE0
DB10
2J59
2KC5
2KC3
5KC9
3KC9
3J20 3J2R
3J21 3J2Q
3J2E
3J2F
3J10
7UAC 5UAA
9GE0
DB22
3KW8
2KC0 2KC6
7KC0
2KC1
3GEH 3GEG
DB32
7EM1
2UA0
1UA2
6GE2
2J3D 2J30 2J29 2J2T 2J2V 2J2Z
2J39
3KW2
5KC8
2KCD
2KC7
1F00
3J3U
3J36 3J3S
3J37 3J3T
3J3C
3J3D
3J47
3J46
DB19
3RD8
3KCA
5KC0
3J48
3J49
DB21
2RDP
3KCB
9KC0 2KCE
3J1B
3J1A
2J13
7J04
2KCG
9KC1 2KCF
3J13
DB31
9GE3
6GE3
3J1Z
DB93
3GEL
1GE3
DB34
3J44 3J4E
3J45 3J4F
3J3A
3J3B
2J27
2J92
3J1W
2UB6
5KC7
3KC4
1KC0
2KCC
2KCB
3RD5
3RD4
9RD3
3RDB
5KC1
2J08
2UB0
2GE6
3GEN
3GEA
3J3L
3RD7
3RDA
7UB5
3J24
3J25
3J1R
3J1Y
2J95
5J0R
2J2W 2J33 2J2U 2J2D 2J2J 2J37
3J3M
3KCE
2KCR
3RD1
3RD0
9RD12RDG
9RD02RDF
2RDC
DRD0
5KA1 3KA0
5KA0 3KA1
2UBA
3J1H
2KCS
2RBP
2RBL
3GVT
5UB1
3J1G
1D03
2RDJ
7RD0
2RD9
2RBS
2RBA
3RB12RBN
2RBC
2RD8
2RDA
1M01
1CV3
7D50
3D56
3D55
9D53
9D52
2D72
2D74
3D71
9D54
9D55
3D77
3D76
2D86
3D58
2RDR
3CVE
2CVA
3CVD
2UB4
3J3H
1M90
3CVW
1CV4
3GVC
3GV8
3D54
3J3G
2GVT
2GVS
1CV2
3CVC
2D83
2D59
2D58
2D57
1CV1
9GV7
5D51
3D50 3D60 3D61
3GVG
2GV9
1C27
3CVY
2CVC
2D63
7D70
3D63
7D71
3D57
DRD1
3GVJ
9GV8
9GV9
2D89
7RDA
9RB6
2RDE
1RD0
1G50
9GV3 2GV2
5D71
2D55
5D01
3D62
2D67
2D69
2GVU
3D72
2D95
2D65
2D53
2D77
7D60
9D51
2D51
2RD7
2RK02RK1
6RB0
2RBK
2RB4
9RB0
2RB2
7GV0
5D77
2D78
5D00
2AAD
5D74
2D94
2D61
2D85
2D54
3D70
3RD3
2RBR
2RBW
2RB3
2RBT
9RB7
7RB0
9GVC
3J40
3J41
2RB5
2RBB 2RB9
9RB8 2RBY
2RBG
5RB0
2RBJ
2D88
3D52 2D52
2RB7
2RBD
2RB1
2D66
2D79
2D68
9RB9
1RB0
2RBM
9GVB
3RB0
2RBE2RBU 3RB3 2RBV
2RB6
2RB8
2RBF
2D5A
2D97
2D96
2D84
9D50
3D78
2D93
3D79
2VA8
9GVA 3GVK
2D87
5D79
3D51
2VAA
2D62 2D64
2D75
3D73
2D5B 2D60
2D49
1VAG
3VAA
2VAC
3D75
2D50
2VAF
5D76
2D80 2D82
3D74
2D92
6VAB
1VAL
1VAK
1VAJ
1VAH
1VA1
2VAG
5D50
3VAD
1VAM
2D71
2D48
2D56
6VAF
1VAP
1VAN
2RBH
3D82
3D83
2VAK 3VAK
2D73
5D83 5D80
2D70
9GVD
2RDD
1J50
1G51
2D98
2D99
2D81
2D91
5D70
2D5C
2D76
2D5D
6D0A
3D90
2CAL
9CAB
2D0B
2D0A
5D85
2CAT
9CAA 2CAS
2CAU
2AAC
2CAK
3AAB
2CAN
3CAG
3CAB
2CAJ
1D0A
3CAH
3CAF
2CAB
1D02
1D56 1D55 1D54 1D53 1D51 1D50 1D52
3GM5
1D01
1C20 1C251C26
1R01
10-3-41
QFU1.2E LA
2URD
2UR8
2UR9
6
SSB layout top
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�Circuit Diagrams and PWB Layouts
10.
EN 184
3GVR
3GVN
3CAE
2CAA
FAA2
3CAD
3CAC
2CAM
2AAV
3AAC
FAA7
FAA0
FAA1
FAA8
IAA0
IAA1
FD90
IGW2
FD31
IGW3
ID96
ID98
FD32
ID95
ID93
DFW2
2FW3
5FW3
2AAW
IGR0
IGW5
2UBB
3J14
2J1A
DB99
3VA9 2VAE
2UBJ
3UBE
IUB7
2VAD
3VAG
IUB6
5UB0
FVAA
ID81
3VA8 2VAB
ID75
ID76
ID70
ID61
FVA9
3VA7
ID80
ID97
2VA9
FVA1
ID83
FVA2
ID69
ID77
IUB4
IUB3
3UB4
2UB3
3UB5
3UB6
ID66
ID58
3UB7
FUB1
ID56
ID65
ID54
FD50
ID90
ID87
FUB0
FD64 ID79
FD66
ID84
ID78
FD65
3J2G
2J1Z
ID89
FD63
3J2H
2J80
IJ0R
3J4A 3J4J
3J4B 3J4K
3J4G
3J4H
3J4N
2J93 5J0P
3J34
3J35
3J4D
2J01 3J4L
2J2G
3J4M
3J4C
3J3W
FD67
3J2N
3J2P
FUC0
3J3K 3J3N
3J4P 3J3Z
DB58
2J1F
2J1J
DC07
FVAC
3J3F 3J38
3J3E 3J39
3J3J 3J3P
DB59
2J1C
2J1W
2J12
3J17
3J16
3VAB
IVA0
ID53
IUB8
3J32
3J33
2J1S
3J15
2J18
2J84
2J17
3J12
2J86
2J1G
2J1K
DB95
DB98
FVA4
ID55
3J2M
DB54
DB97
3VAC
FVAB
3J2K
3J2J
3J2L
DB52
3VAE 2VAH
FVAD
ID63
3UB8
3GM7
7GM2
FGE5
FTA6
2J19
D
DB36 B38
DB35
FJ08
3CV3
FCVB
DB62
DB55
DB01
3CVP 3CVM
IGE1
3UAL
2J15
DB39
DB06
6VAH
6VAG
6VAE
6VAD
6VAC
6VAA
6VA9
6VA8
3VAF
IVA1
FVAE
IUB5
3CVU
2J85
3J11
2J16
FGE0
DBA3
DBA6
FJ09
DB57
2J7U 2J1D
DBA7
DB64
DB50
2J83 2J7P
DBA4
FGE2
IUBC
2UBH
3UB9
DB94
ID62
3UBC
IUB9
3J1F
3J1E
3J2A
3J28 3J2B
3J29 3J2D
3J2C
3J1U
3J26
3J1V
3J27
DB49
2GE3
FVAF2VAJ
3UBD
IUBA
DBA1
3GEK
2UBK
2UBG
3UBB
IJ0S
DB51
DB33
IUBB
2UBE
3J18
3J19
3J1K
3J1J
3UBA
3J1S 3J1C
3J1T 3J1D
3J22 3J1N
3J23 3J1P
3UB3 3UBF
3J2S
3J2T
FVAG
ID50
ID51
ID82
ID52
FTA4
5TA1
FAA9
ID94
FGV0
3GE3
FTA5
3GV6
3AAA
FAA5
FGU6
9GV1 FGVE
FUB2
3J1M
3GE2
ID91
FD70
IGW1
FGU9
FGR83GV5
2J89
9GE4
3GEB
FUAH
FD69 ID57
IFW3
FGE8
FGE1
IGR1
FAA3
2CAR
IGW4
3GVS
FGR7
FD33 ID99
3GV3
IGW6
IGW9
3FW8 2FW5
IFW5
FGE3
2TA2
FTA3
2TA3
3GVL
3CVA
3CVB
IFW2
2GE5 3GE4
FGE4
FGWE
IGR5
FGR5
3GV7
FGUF
IGV3
FAA4
FAA6
FAAZ
ID88
3J1L
3GE6
IGV4
FGWA
FGE6
2GE4
3GE5
FGWD
3AAD
FGWC
FGR6
2J1U 2J81
3UA6
7FW1
3FW6
FCVN
6UAC
6UAD
7UAF
6UAB
2GE0
IGR2
FGWK
IGR4
FGE7
3UAT
IGR3
FGR2
3GEF
IUAJ
3UAS
2UAL
3UAP 3UAN
2GVM
FGR3
3GEE
FUAP
FGWF
FGWG
FGR9
FJ03
3GEC
FUAF
3FW4
7GS2 3GS3
3FW3 3FW5
IGS1
IGS2
2UAN
IUA3
FTA1
2GS3
IGS4
IEH2
2UAS
2UAW
3TA1
2UAK
3UGA
IUFU
IUA2
3UAR
FUAT
IUFT
IUFS
FTA2
IUAV
IFW4
3GS1
3GS6
FGWJ
FGR1
2FW6
IFW1
3FW7
IGS52GS5
FGWH
FGWM
DFW1
FCVF
7GS3
3GS4
FGWL
FGWQ
IGV5
9GM4
IGV7
FGWP
FGWS
FCV3
FCV2
FCVM
FCVG
7GS1
2FW4
2GY2
IUAS
3UA5
IUAK
3UAV
7UAA
IEH0
2EHT
IUAT
2UAP
IEH1
3EM0
ITA1 5TA2
2TA1
3GY9
IUAP
3UAY
IEH5
7UAD
3EHV
3EHP
IEHJ
IEH3
IUAL
IUAR
IUAN
3EHT
IEH4
2EH93EHU
3EM1
3EHY
7UAB
2UAR
3EHW
3TA2
2GY1
3UAK
9UA0
9UA2
FUAU
FUAG
1TA1
1GS1
IEH62EHJ
FEH1
5TA3
FUAK
FUA8
2UA4
FUAD
3GY7
3GY5
3EM6
3EM7
FUA7
IUFR
2EHW
FEH5
3UA9
3UA7
3EHJ
3EHN
7UA3
2EHM
2EHL
FEH3
FUA0
FUAE
FUA3
IUAM
7EH2
2EHN
3GY1
2EM7
9EM2
2EM0
2EM2
9EM1
3EM4
FEH4
FEH2
FUA9
FUA1
2EM3
2EM6
7GM1
9GM3
FCVL
FGWR
FGWU
IGR6
FGWB
FGVZ
3GVM IGV6
FCVH
2GY8
2GYA
2GY6
1EM0
FEH8
FEH9
IEM1
FGWT
FGWW
FD30
FGR4
3GVP
IGV2
FCVE
FCVA
2EM4
3EM5
IEM2
2EHP
2GS1
9GS1 9GS2
3EM3
2EM5
2EM1
FEH7
FCVC
FGWV
FGWZ
IGR9
FGWN
FGW0
IGV0
FGWY
FGU1
FGU3
2AAE
IGV1
FGV5
FGVK
FGS22GS2
FGU0
FGU2
FGU5
5D75
5D81
2GVR
3GVB
FCVK
FCVJ
FGS1
FGU4
IGR7
2GVG
FGV79GV5
FGU7
FGV6
FGV9
2GVB
FGV8
2GVD
FGVB
IGW7
FGVA
FGVD
FGW8
FGVC
FGU8
FGVF
FGVG
2GVJ
FGVH
FGVM
3GVF
FGVL
FGVP
IGRA
FGVN
FGVR
IGR8
FGVQ
FGVT
FGVV
9GV6
FGVS
FGVU
FGVY
FCVD
9GV4
FGVW
FGVJ
FUAL
FCV1
2GY4
2UA2
FUAA
2UA3
FUA5
2UAU
FUAM
3UA4
3GYA
FUAB
3GY8
FUA6
2GY3
3GY6
2GY5
2GY9
2GY7
FUA4
3GYB
2UA5
3CAA
2CAP
Layout bottom
2CAD
10-3-42
QFU1.2E LA
IUA1
DBC3
FJ0B
2J5A
IRB1
DBB5
IRB0
2J2K
2RDM
IRDC
5RDB
IRDB
FFA9
2FA8
IKC5
2FAG
FKC1
IKC7
3KA2 3FA8
FFA6
IFAA
2FA2
FFA2
FFAA
2UU5
IEF3
IEA3
2EFP
FEFA
2HD5
DEF0
3CWD
3CU5
IEE1
3HDS
IUU3
FEFB
3CWN
3CU4
ICT1
3CU3
3CTY
FCT2
2CW4
ICT3 2AW0
3CTB
3CU0
IHDK
IUU7
9HD8
FEFC
3CWF
DCW1
IHD4
3CWJ
FEFE
FCWD
FEA4
2EFU
2HW1
3CWB
IHW1
FCWS
FHW0
IEF2
FEF2
3HW3
3CU2
3JA1
2EF5
DJAD
2HAP
FVC5
FCW4
5HA6
3HAP
FHA7
FHBC
5HA5
2HB4
FHAP
FVC2
2HAN
2HAF
3HAB
IHB1
2HD0
5HD0
3HA6
FVC7
IURD
2HAK
FHA8
2HAG
5HA9
FHB4
FHB2
FCS0
7HA5
3HAA
FHAM
3CUC
FEF5
3EF4
3HD4
IHDF
9HD4
2HAL
2HB5
2HAJ
3HA5
3HAS
2HAD
7EF1
2HAM
FHA6
3EFT 3EFS
FEFD
FEF6
FHD4
FHA3
6HA1
3HAY
2EF0
3EFM
3EFJ
IUWF
FVC8
2EFG FEF7
3EFR
DJA9
2EFV 3EFN
DJA7
9JA6
IURF
FEF9
2EF7
2JA0
DJAA
3JA5
3HB0
FHA4
FVCC
2EF1
FUW3
3EFL
7JA0
9JA3
DJAC
FHAG
FHBA
FEF8
5EF5
ICA6
9JA4
DJA6
DJA5
IDHP
FEF4
2EF6
FEF0
2HAA
3HB1
DJAE
DJAB
DJA3 DJA1
DJA2 DJA0
9JA5
FEF1
2EF8
FEF3
DCW6
FEA7
FHB5
5EF6
IEF1 2EF3
FUW2
2EFF
2JA2
3JA0
DJA8
2EF2
FCP6
IUWE
2EFT
DCW5
3CT6
FCWE
2EFS
5EF4
ICW1
FCW8
3CWP
5EF0
FCWR
3CWG
3CWC
3CU9
FCT9
3CP5
FCT8
7CT4
3PAA
3PA6
IEE0
5HD4
FHD8
IUU8
IEA4
2JA1
FHAH
FHB7
FHAY
IHB0
FHAV
FHB8
FHAN
IURE
FCWC
3CWU
7CW0
FCWV
FHAR
FHAW
FHB1
IUR9
FHB0
2UY8
2FAA
7FAA
FFA4
2FA3
5FAA
IUU2
DJA4
IURK
2FAE
2FA9
FFAB 3KA4 FFA5
IJ11
3FAD
FFAD
FFA7
3FAA
FFA3
3FAB
3FA7
FFAE
7FA1
3FA9
2FAD
2FAC
IFA5
3FAC
7KA0
IFA6
IFA4
IFA3
3KA3
5KCA
2FAB
2FA1
FJ16
5RDD
2RDL
3RW5
3RW3
3RW7
3KW7
3KW1
3KW3
3PW1
3PW5
3RW1
3PW3
3KW5
3PW2
3PW4
3KA5
FJ02
IJ0E
FJ0F
2FAF
FFA8
IKC4
FFAC
2J61
2FAH
DKC0
DB81
2J5W
2CW3
ICT2
2CT4
3CL4
3PAP
3PAU
3PAR
3PAC
3CL6
3CL5
9PAA
3PAE
3PAS
FCT4
FCWF
2CW5
FCW0
IUR4
9RD2 3RD2
2KCL
IKC2
IKCA
IKC6
3CWM
ICA4
FCT3
3CT9
3CW5
IHW2
2CW2
FCT6
3CR8
ICA3
3CU6
3CRA
9PAB
3CR9
3PAF
3PAL
3PAY
2UV9
2PA3
3AW0
3CU1
3CU7
3PAM
3PA2
3PAT
3CL1
7PA1
3PA8
3PA3
FCT7
FCT5
2UVB FUV2
3CL0
3CL8
3CL7
3PA9
2PA2
3CL2
3CL3
3PAV
3PAN
FUV1
3PA4
2JA4
7PA2
IUV3
3UV1
ICA1
2RDK
DBB8
DB08
FUU1
3CW3
3UV5 3UV2
ICA5
ICA2
IKC3
2J2S 2J3B
2J3A 2J3C2J3E
2HW2 3HW5
7UV1
2RDS
2J2C
DBC4
IKC0
IKC1
2FA7
DB69
DBC1
DBC5
IKCB
DKC1
DB67
2J28
DB15
DB66
2J2Y
3J06
2J07
FJ05
2RDH
IKC8
DBB6
DB02
2J2B
2J2R
3J2V
2J2A
FRB0
IRD6
IRD5
2RDT
DB27
DB29
2J38
2J36
2J2P
DB68
3J2W
DB16
3J05
2J06
2J4J
DB04
DBB3
DB13
DB82
2J5F
2J5C
2J5H
FJ0J
3PAB
2J2N
DB87
2J4S
2J5P
FJ0G
5J06
IRD3
IRD1
DB18
5J0H
2J7W
5J0D
2J5N
2J96 2J4G
2J5B
2J05
2J3G 2J7F
IJ0F
IRD2
2RD4 2RD3
IRD0
IKC9
DBB7
2J2M
2J4F
DB14
2J5R
2J4V
FJ0H
2J5S
IRDA
DB60
2J4T
2J97
2J7G
2J7E
FJ01
5RDA
2J2L 2J32
2J34
2RD6
2RD1
DB30
DB72
2J5Z
2J79
2J6B
2J5G
DBC6
DB74
FRDA
DBC0
DBC2
FJ0A
2J5L
3J00 2J5M
2J60
2J7D
2J4H
IJ0LDB85
DB96
5J0J
2J7V
2J78
2J6T
2J70
2J77
2J7C
2J75
2J7A
2J71
DB07
DB05
3RD6
3J51
2J5Y
5J0E
2J09 2J23
IJ0N
2J6S
2J6F
2J7R
IJ0G
2J4R
IJ07
2J4L
2J98
DB86
DB77
2J88
2J1T
2J6M
2J4W
2J6W 2J99
2J94
2J76 2J73
5J0C 2J64
2J3Z
2FZ4
5J0N 2J55 2J53
5J07IJ08 2J56 2J58
2FZ1
DVW1
FJ10
5J0M
2J6D
2J47
2J5V 2J5T 2J3V 2J6E
2J43
2J7Y
3J08
3J07 3J52
3PA7
3PA5
3PAW
3PAD
IVW7
DVW4 DVW2
IVW8
2J44
IJ06
IVW3
2J22
5J0F
2J6J 2J6N
IJ0J
2J54
2FZ2
DVW5
DVW6
IVW1
IJ05
5J0L IJ0H
2J52 2J51 2J50
IJ0K
2J40
2J03
2J63 5J04 2J3W
IJ0A
IVW2
FVW0
2J87
2J4N
2J45
2J6Y
2J74
DB76
DB89
3J01
2J6U
2J6L
2J65
IJ02
2J7B
5J00
2J3M
2J6P
2J69
2J3N
5J09 2J48 2J46 IJ09
IVW4
3PA1
2J7L
9GA2
2J3T
9J04 2J91
IJ01
2J66
IUAD
IJ12
2J4B
5J0K 2J68
2J4Z 2J6C 2J6R
5J03
2J7K
5J0A 2J6G 2J67
2J3P 5J0B IJ14
5J02 5J01 2J6V 2J6H
2J3Y
2J4E
2J4D
3VWU
2VW6
FCY6
2VW7
3VWB
FCY4
FUC1
2J3R
9J03 2J90
IJ13
FCY2
2UCN
3UCC
2J3S
IJ0C
IJ04
2J7H
2J6Z 2J7J
2J4P
2J72
2J6A
IJ10
2J4Y
5J0G
2VWA
FCY3
3UCD
DB83
IJ0M
DB20
2RD2
2RDN
DBB9
DB65
2J62
FEJ6
2UC1
2J3U
2J4A
IJ03
2J4C
3VWC
2J49
3UC0
2UCH
3UC3
IJ0B
FCY1
IUC0
3UG2
IJ0U
FCY8
IUCP
IUF6
2J4M
IJ0P
3VWT
IUCA
3UCB
2J5U
IJ0T
IJ0D
FCY7
3UC4
3UC8
7UC0
3UCA
2J00
3J02
2J7Z
DB75
DB88
FCY9
3UCE
2UCM
3UC7
3UCP
DB80
DB23
2J2H
3J30
2J2E
DB70
DBC7
DC02
2VW9
FHAS
FHAF
FCW1
3JA4
3UWJ
3JA2
FVCD
FHD5
FHD2
FCW7
3CR1
FEA1
FCWU
3HBS 9HA0
FCW5
IHD8
IHB2
IDHM
FCS2
IHB3
IEA2
3HDT
IHD7
IHB6
9HD6
7HA3
3HAL
FHD7
IHDL
FHD65HD2 3HDE
2HD3
IHDH
FHAL
3HW6
FEA2
3HW1
FEA3
3HW2
FEA9
3HB3
FEAA
7HA2
FEAB
2EA5
2EA0
FHD3
IHW3
1EA0
IUV1
2EA1
2EA7
3EA4
FHB6
FDH1
2UY7
FEAC
3HB4
2EA4
FURA
FVCB
IHDG9HD5
FHD0
IHD1
9HD2
IHDM
2EA3
3HB2
3EA3
FEAH
IHB5
FEAD
IEA1
3EA1
2EA2
FEA5
FDH2
IDHL
FHD1
3CR2
FEAE
3EA5
FEA6
FUW4
9HD0
FEA8
3DH4
2UY2
6UW2
3CTC
3CT7
2UY1
3CWR
IHB4
FJA0
2UY3
3HD9
FCW6
FCWG
2UY5
2UY6
FVCA
IJA0
IURM
FUR1
DCW2
FCS1
FVC3
2HD1
IURA
FVC4
5HD1
IDHN
5UR5
IURL
FVC9
FVC1
FCW2
3CR0
IURN
IUR2
FHB9
FCW3
FVC6
IUR8
IURC
FCWH
2URL
3URG
IURB
2URK
IUR0
IUR3
3CWV
FCWT
3JA3
FCWB
7JA2
7UF7
IUCB
IUC5
2UCR
DC03
FCY5
IUFP
3UAF IUAC
IUC4
3UC2
IUF3
2UCF
IUC1
3UCR
IUC9
3UCG
IUF0
2UCP
3UCF
IUF1
3UG0
3UCN
7UA0
IUFQ
IUF7
3UD1
3UAH
FUAV
FUAC
3UAE
IUAA
7UF9 2UF9
FUAN
3UG4
3UG3
3UD0
3UG8
2UAJ
IUPF
IUAF
IUF8
7UC1
6UC1
IUPJ
IUAB
3UPE
IUP2
FUPA
IUC7
IUC6
2J2F
DBB4
3J31
2J02
DB91
DC06
FEJ8
2UCD 3UC1
3UPD
3UAG
6UP4
6UP5
FUA2
FEJ7
IUC2
IUC3
2UCE
3UPB
FEJ0
IUC8
IUA0
IUP4
IUPE
2J04
3J03
3J04
DB47
DB90
3FZ1
IJ00
3EJ7
FEJ3
2J5K 2J5D
3EJ6
FEJ5
FEJ4
FEJB
2J4U
FEJA
FEJ1
FEJ2
FEH6
FJ04
DB73
3RD9
FEJ9
2RDB
2RD0 2RD5
5RDC
DB24
FHAE
IJA1
2EA6
FDH3
6
SSB layout bottom
2013-01-11
3104 313 6618
19370_126_130226.eps
130226
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 185
10.4 C 310431366652 Amplifier panel
Power
Power
C01
100nF
C003A
R005A
16V
4.7K
+5V2
GND1
F006A
PS-ON
S011A
50m RES
3
U001A
BC847BW(COL)
R006A
1
47K
F007A
STANDBY
2
GND1
I006A
5% 33
R007A
3
6 RES
5% 33
RES
2
U002A
RT7297CHZSP
VIN
+5V2
7
8
SS
FB
5
22uF
GND1
3
I003A
C021A
9
X001A
68K
+3V3STBY
BL-ON
220K
1%
S010A
50m
BL-DIM1
1%
22K
1%
R002A
GND_HS
GND
COMP
GND-3V3STBY
4
R001A
I004A
6
GND-SND
GND-AL
+12V
+VSND
+12V-AL
+12V
TYPE
S012A
50m
X090
R003A
I001A
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
GND1
100nF
GND1
S013A
50m
PS-ON
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
30
6.8K
100pF
I005A
C008A
GND1
GND-3V3STBY
+3V3-STANDBY-KEYB
GND1
STANDBY
1K
R004A
GND-3V3STBY
GND-3V3STBY
50V
10nF
SW
16V
GND-3V3STBY
C002A
50V
C007A
EN
3.3nF
50V
I002A
1
16V
1nF
+5V2
+3V3STBY
3.6uH
GND1
BOOT
C009A
BL-DIM1
F001A
L001A
6.3V
8
5%
I008A
C004A
R007A
1
GND1
X204
7 RES
5% 33
22uF
R007A
2
6.3V
50V
RES
33
5 RES
C006A
50V
R007A
4
RES
1nF
B230LA-M3
C010A
RES
GND1
1nF
RES
BAT54 COL
D002A
RES
100nF
GND1
16V
C001A
22uF
6.3V
C005A
C011A
D001A
F008A
S001A
50m
+5V2
GND-3V3STBY
+3V3STBY
+12V
GND-3V3STBY
1
2
3
5
4
+VSND
R062A
X101
KEYBOARD
+3V3-STANDBY-KEYB
GND-SND
BL-ON
BL-DIM1
TYPE
GND-KEYB
+12V-AL
S018A
GND-AL
RES
GND-KEYB
X102
1
2
3
5
4
S014A
S009A
S008A
RES
+3V3-STANDBY-KEYB
+12V
RES
KEYBOARD
S015A
S016A
S017A
RES
RES
GND1
GND-KEYB
2
5
4
3
2
1
5
4
2
3
1
6
5
4
3
EMC
2
EMC
1
EMC
GND1
X011
5
2
GND1
X010
EMC
X002A
X001
4
X000
29
TYPE
+3V3-STANDBY-KEYB
TYPE
3
C01
1
10-4-1
Power
2013-05-07
3104 313 6665
19374_006_131121.eps
131121
2014-Jan-10 back to
div. table
�100K
BSPR
OUTPR
3
16
6
7
FAULTZ
SYNC
PLIMIT
GVDD
BSNR
OUTNR
26
27
13
14
15
AM2
AM1
AM0
Slave 500KC
2014-Jan-10 back to
div. table
22uH
L017A
50V
10nF
50V
220nF
50V
3.3
C060A
C019A
50V
220nF
50V
1nF
C061A
22uH
10nF
50V
22uH
L015A
50V
10nF
C087A
220nF
50V
C085A
C048A
220nF
50V
220nF
50V
C063A
C049A
50V
1uF
220nF
50V
4.7uF
4.7uF
220nF
50V
R041A
C055A
C018A
10nF
220nF
50V
1nF
C054A
50V
33pF
50V
C098A
50V
C110A
50V
C107A
50V
50V
10nF
C090A
10nF
C059A
2.2uF
50V
C103A
10nF
1uF
50V
C115A
10
100nF
50V
C068A
50V
C073A
R053A
35V
C058A 220nF
50V
C084A
C088A
50V
C089A
50V
220nF
50V
1nF
C053A
C017A
10nF
10
18
19
31
32
50V
C074A
220nF
50V
3.3
C052A
R040A
22uH
L013A
1uF
220nF
50V
35V
C057A 220nF
50V
C051A
33pF R052A
20
21
L012A
C097A
BSNL
OUTNL
C099A
220nF
50V
C086A
RES
RINP
RINN
30
29
C050A
22uH
50V
4
5
24
23
3.3
22uH
L011A
220nF
50V
16V
1K
1uF
S007A
50m
R019A
100K RES
50m S006A
R020A
100K RES
LINP
LINN
BSPL
OUTPL
10nF R043A
10
11
PVCC_1
PVCC_2
PVCC_3
PVCC_4
PVCC
33pF
50V
C081A
3.3
50V
220nF
50V
10nF
50V
C092A
C091A
220nF
50V
35V
220nF
50V
1uF
10nF
50V
10nF
50V
C093A
C047A
C041A
C083A
1nF
C012A
50V
220nF
50V
C046A
10nF
C071A
10
R051A
GND_1
GND_2
GND_3
GND_4
HS
10nF 50V
C072A
10
R050A
9
28
25
22
33
C040A
R038A
L008A
1nF
C029A
MODSEL
SDZ
MUTE
GAIN/SLV
17
PVCC
33pF
3.3
1nF
220nF
50V
220nF
50V
50V
C015A
C044A
C045A
R039A
50V
C080A
22uH
C062A
R048A
4.7uF
Master 500KC
22uH
L007A
220nF
50V
47K
50V
X003
26
27
220nF
50V
PVCC_1
PVCC_2
PVCC_3
PVCC_4
AVCC
3.3
220nF
50V
1nF
C037A
C013A
2.2uF
4.7uF
10nF
10
10nF
50V
R037A
1nF
220nF
50V
220nF
50V
33pF
50V
C078A
50V
C014A
C039A
C038A
35V
220nF
50V
220nF
50V
4.7uF
50V
C111A
1uF
4.7uF
50V
C108A
50V
2.2uF
50V
C104A
C069A
1uF
50V
C116A
50V
C067A
100nF
4.7uF
50V
C112A
50V
C106A
50V
C102A
10nF
1uF
50V
C114A
50V
100nF
100K
C066A
50V
10nF
C096A
C094A
C043A
C042A
C082A
50V
10nF
10
18
19
31
32
17
C070A
50V
C095A
50V
220nF
50V
C036A
R036A
R012A
3.3
10nF
50V
C077A
R035A
R045A
100nF
50V
C064A
33pF R044A
50V
C079A
22uH
L005A
50V
1
2
12
8
AVCC
U004A
TPA3118D2DAP
BSNR
OUTNR
C032A
L004A
C016A
S005A
R021A
100K
220nF
50V
22uH
C056A
1uF
R008A
AM2
AM1
AM0
C033A
C075A
1uF
13
14
15
BSPR
OUTPR
30
29
10nF
47K
FAULTZ
SYNC
PLIMIT
GVDD
220nF
50V
3.3
22uH
L003A
50V
50m
RES
3
16
6
7
C035A
C076A
PVCC
1K
50m S004A
R014A
RES 100K
S003A
R015A
RES 100K
RINP
RINN
20
21
220nF
50V
3.3
C028A
16V
RES
BSNL
OUTNL
C034A
R042A
R031A
1uF
C031A
16V
1uF
C027A
16V
4
5
C113A
100K
LINP
LINN
24
23
50V
C030A
16V
10
11
BSPL
OUTPL
33pF
F002A
100K
5.1K
MODSEL
SDZ
MUTE
GAIN/SLV
C100A
F003A
R010A
4.7uF
R046A
50V
50m S002A
R016A
C109A
R047A
R011A
1
2
12
8
10
100K
50m
2.2uF
PVCC
1uF
50V
F004A
R055A
R018A
1uF
C026A 1uF
16V
1uF
C022A 1uF
16V
R009A
C105A
16V
1uF
C024A
50V
F012A
C117A
C023A
16V
50V
10K
10K
R023A
R022A
R025A
R024A
C025A
16V
C065A 100nF
R027A
X070
U003A
TPA3118D2DAP
10
R030A
PVCC
33pF R054A
F016A
R029A
10K
10K
220uF 25V
PVCC
C101A
2K12
100K
R028A
R026A
100K
10.
GND_1
GND_2
GND_3
GND_4
TYPE
R013A
10K
1
2
3
4
5
6
7
8
9
R034A
50V
470pF
50V
470pF
2K12
F005A
QFU1.2E LA
9
28
25
22
3.9K
C121A
C120A
C125A
220uF 25V
C124A
R017A
HS
1
2
3
5
PVCC
100K
X172
50V
30H
L019A
R033A
15K
3.9K
15K
R032A
F015A
50V
1
2
3
470pF
F014A
50V
10K
470pF
F009A
10K
F010A
10K
F011A 10K
C119A
X170
470pF
1
2
3
4
6
C118A
30H
C123A
1K
+24V
RES
33
2K13
1K
30H
L018A
R049A
4
R058A
L020A
50V
+
SUB
470pF
X072
C122A
+24V
1K
F013A
R061A
1K
2K13
R057A
C02
R060A
5
1K
R+
R1
2
3
4
1K
L+
L-
R059A
10-4-2
R056A
Circuit Diagrams and PWB Layouts
EN 186
Amplifier
Amplifier
L002A
C02
F021A
F024A
22uH
F022A
L006A
Amplifier
6
4
3
2
1
TYPE
F023A
F019A
F020A
F017A
F018A
5
X004
22uH
L009A
22uH
L010A
1
2
3
5
X002
TYPE
4
22uH
L014A
1
2
3
5
X005
TYPE
4
L016A
22uH
2
2013-05-07
3104 313 6665
19374_007_131121.eps
131121
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 187
10.5 272217190763, 272217190764, 272217190766 Keyboard Control Module
10-5-1
E, Keyboard Control Module
E
Keyboard Control Module
E
J2
8
7
6
5
4
3
2
1
R6
6.8 kΩ (1 kΩ)
C1
0.01 μF
VSS
CON8
R1
R2
R3
R4
R5
1.5 kΩ
3.9 kΩ
150 Ω
330 Ω
680 Ω
(1.5 kΩ) (3.9 kΩ) (5.6 kΩ) (8.2 kΩ) (18 kΩ)
ZD1
5.6 V
VSS
VSS
VSS
CH+
CH-
VSS
VSS
SOURCE VOL-
VSS
VSS
VOL+
POWER
0.5
Keyboard Control Module
2012-09-27
2722 171 90763
2722 171 90764
2722 171 90766
19370_044_130131.eps
130417
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 188
10.6 J 272217190804 QFHD sensor board
QFHD sensor board
QFHD sensor board
J
J
AMBILIGHT CONNECTOR
+3.3V-AM
BI
J4
C1
1uF
R2
J1
27
RES
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
28
C4
10pF
RES R3
C5
10pF
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
TV-CONNECTOR
AMBI-SPI-MOSI
RES
AMBI-SPI-CCLK
R5
30R
AMBI-TEMP
C3
C6
100nF
RES
100nF
R4
J3
13
RES
12
GND-AMBI
11
10
9
8
7
6
5
4
3
2
1
RES
+12V-AMBI
+12V-AMBI
C2
1uF
R1
0R
GND-AMBI
FH52-11S-0.5
+3.3V-AM
BI
+3.3V-STANDBY
+12V-AMBI
R6
10K
R7
10K
GND-AMBI
AMBI-SPI-CCLK
GND-AMBI
AMBI-SPI-MOSI
AMBI-TEMP
3D-LED
LED2
GND-AMBI
KEYBOARD_IRQ-CRP
+3.3V-STANDBY
IR_IRQ-RF4CEn
+5V
SCL-SRF
SDA-SRF
FH52-25S-0.5SH
C7
1uF
27
GND-AMBI
C8
1uF
C9
10pF
C10
100pF
C11
10pF
C12
10pF
C13
10pF
FH34SRJ-26S-0.5SH(50)
R8
1
2
3
4
5
6
7
8
R28
100uF/6.3V
D2
C22
C21
ECAS D40J107M015
ECAS D40J107M
VSMY3850
D3
10
+3.3V-STANDBY
EN
C14
1uF/6.3V
SI2304BDS
Q3
4
C15 C16 1
18pF18pF
VDD
R27
10R
RES
1
GND
R16
10K
GND
TSOP75236
C20
10nF
74LVC1G126
+3.3V-STANDBY
+3.3V-STANDBY
LED2
R17
10K
R26
47K
2
SCL-SRF
SDA-SRF
10R
R20
10R
B
Q1
BC857
R21
10K
U3
R19
C17
1nF
2
6
SCL
VDD
10R
R15
100R
D1
OUT
INT
SDA
GND
R25
3
2
+3.3V-STANDBY
C18
1uF
U2
19- 213
5
4
1
LIGHT SENSOR
R18
47R
LDR
5
IRQ-SRFn
(NOT CONNECTOR)
4
TSL25715
3
R23
10K
R14 10R
IR_IRQ-RF4CEn
R30
4R7
2
100R
+3.3V-STANDBY
RED LED
9
3
R22
R29
4R7
C19
100nF
U4
3D-LED
+3.3V-STANDBY
SCL-SRF
R10
0R
0R SDA-SRF
R11
0R 3D-LED
R12
0R
R13
+5V
IR
+5V
10K
KEYBOARD_IRQ-CRP
FH52-8S-0.5SH
VSMY3850
R24
LED2
0R
C
3D-IR
R9
E
4R7
0R
1
+5V
J2
3
10-6-1
1.0
QFHD sensor board
2013-04-25
2722 171 90804
19374_008_131121.eps
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2014-Jan-10 back to
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�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 189
10.7 282206502664, 282206502665, 820400159661 Wireless LAN USB module, light sensor, IR/LED
10-7-1
J01, USB & control lines
J01
USB & control lines
J01
Chip default Description
Pad
mimophy_core1_ant0_tx
0
0 = SFlash Type is ST / 1 = SFlash Type is Atmel
mimophy_core0_ant0_tx
1
0 = OTP not present / 1 = OTP present
mimophy_core0_ant1_tx
1
0 = HSIC mode / 1 = USBPhy mode
mimophy_core0_ant1_rx
2
1
0 = SFlash not present / 1 = SFlash present
mimophy_core0_ant0_rx
J7
PBC04SAAN DEPOP
0
1
0 = backplane at 96 (98.4) MHz / 1 = backplane at 120 (123) MHz
1
VDD5
VDD5
R12
0 0603
R6
2
1
U1A
DEPOP TCM1210H900-2P-T000
+3V3-WIFI
USB-WIFI-DM
USB-WIFI-DP
4
USB_DMNS
USB_DPLS
1
1N1293
2
3
71
70
68
75
USB_DMNS
USB_DPLS
USB_MONCDR
USB_RREF
5
3
4
SFLASH_SS_L
UART_TX
UART_RX
2
SFLASH_CS
HSIC_STRB
HSIC_DATA
L2
74
73
1
R50
3.83K
R2
0
VDD3_3
VCC
8
SO/SIO1
GND
HS
SI/SIO0
SCLK
CS_N
WP_N/ACC
HOLD_N
2
4
H
SFLASH_MISO
2
C105
0.1UF
4Mbyte for self-install
GND
100K
1N1341
C19
100PF
R58
BCM43234KMLG QFN88H-0.40P
2
1
DNP MX25L3205DZNI-12G
R59
1
2
2
5
6
1
3
7
1
1
GND
VDD3_3
2
100K
VDD3_3
2
GND
R60
DNP 10K
1
U1B
RXG_0
RXG_1
39
30
37
28
RF_2G_ANTENNA_CORE0
RF_2G_ANTENNA_CORE1
GND_37
GND_28
MIMOPHY_CORE0_ANT0_RX
MIMOPHY_CORE0_ANT0_TX
MIMOPHY_CORE1_ANT0_RX
MIMOPHY_CORE1_ANT0_TX
7
6
10
9
C0A0RX = PD
C0A0TX = PU (OTP)
C1A0RX = NO PD/PU
C1A0TX = PD
TXG_0
TXG_1
42
33
35
26
PA_2G_CORE0
PA_2G_CORE1
GND_35
GND_26
MIMOPHY_CORE0_ANT1_RX
MIMOPHY_CORE0_ANT1_TX
MIMOPHY_CORE1_ANT1_RX
MIMOPHY_CORE1_ANT1_TX
87
86
65
64
C0A1RX
C0A1TX = PU (USB Mode)
14
15
19
18
16
JTAG_TRST_L
JTAG_TDI
JTAG_TDO
JTAG_TMS
JTAG_TCK
GPIO_0
GPIO_1
GPIO_2
GPIO_3
GPIO_4
GPIO_5
GPIO_6
GPIO_7
78
79
80
81
82
84
85
13
LED_WLAN
XTAL_BUF_OUT
51
PAREF
GND_24
55
24
GPIAO_GPIO_PAD
43
50
I_XTAL_VDD2P5/O_XTAL_VDD2P5
54
53
PAREF_CTRL1
PAREF_CTRL2
2
C3
1UF
2
VDD3_3
R63
1
1K
R61
GPIO_6
GPIO_7
PU
PD
1
0
2
IRQ-WOLANn
2
DNP HSMQ-C191
2
R65
DNP 10K
VDD3_3
10K
GND
R62 GPIO7/6 = 0/1
10K
0.1uF
C103
1
1
20MEGHZ CRITICAL
C2
ANALOG_WLAN_IQTEST_QP
ANALOG_WLAN_IQTEST_QN
ANALOG_WLAN_IQTEST_IP
ANALOG_WLAN_IQTEST_IN
1
30PF CRITICAL
2
C1
GND1 2
GND2 4
A 1
1
20
21
23
22
GND
R7
D1
C
1
1N1191
1
1K
2
3
2
1
XTAL_IN
XTAL_OUT
R1
221
Y1
1N850
49
48
1N582
2
1N1116
R5
2
1
GND
JTAG_TRST_L
JTAG_TDI
JTAG_TDO
JTAG_TMS
JTAG_TCK
C0A0RX
C0A0TX
C1A0RX
C1A0TX
2
GND
1
+3V3-WIFI
USB-WIFI-DM
USB-WIFI-DP
SFLASH_MISO
SFLASH_MOSI
SFLASH_CLK
61
62
SFLASH_MISO
SFLASH_MOSI
SFLASH_CLK
2
U2
UART_TX
UART_RX
1
2
0
GND
GND
BCM43234KMLG QFN88H-0.40P
GND
30PF CRITICAL
GND
GND
GND
P210
Wireless LAN USB module,
light sensor, IR/LED
2012-07-24
2822 065 02664
2822 065 02665
19370_063_130204.eps
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2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 190
J02, Connectors, LED
J02
Connectors, LED
J02
TP9
+3V3-WIFI
1
WIFI CONNECTOR
Xinya S1315-06RVB-SB3-KH
+3V3-AMBI
+3V3-WIFI
TP10
TP11
1C31
+12V-AMBI
AMBI-SPI-MOSI
AMBI-SPI-MOSI
AMBI-SPI-CCLK
Bead 30ohm
AMBI-TEMP
2A05
DNP 100n
9000
0
GND-AMBI
USB-WIFI-DM
IRQ-WOLANn
IRQ-WOLANn
3A17
10K
TP12
9A12
DNP 0
ANT1
9A13
1
2
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
9
10
0
KEYBOARD_IRQ-CRP
+3V3-STANDBY
9A09
DNP 0 SCL-SRF
9A10
9A08
9A11
DNP 0 SDA-SRF
DNP 0 3D-LED
DNP 0
SCL-SRF
SDA-SRF
3D-LED
+5V
ANT0
FH52-8S-0.5SH
1
U.FL-R-SMT-1(10)
3
10p
1A01
2A13
2A12
10p
2A14
GND-AMBI
1A00
2A11
1
2
DNP 10p
2A07
3
DNP 10p
1.5p
9A04
0
+3V3-STANDBY
AL1
1
2
47R
2A09
1u0
IR_IRQ-RF4CEn
7003
IR_IRQ-RF4CEn
10R
3A07
TP5
DNP 10K
IR
2A15
18p
3A13
1
3
DNP BC847BW
2
2A19 DNP 100p
3A12
100R
1
1n0
2A06
1
2
+3V3-STANDBY
2A20 DNP 100p
3A16
1
RED LED
1
3
DNP
2173487-2
7A02
TP4
AR1
1
2
2173487-1
LTST-S321KRKT-PH
6000
2
1
7A01
BC857BW
2
10K
3
2A18
1
2
DNP
6001
2
10K
3A06
LED2
LTST-S321KRKT-PH
1
47R
3A04
TP3
3
9A06
0
2A17
1
+3V3-STANDBY
1.5p
2A16 18p
+3V3-STANDBY
U.FL-R-SMT-1(10)
2
GND-AMBI
Everlight 12-21/R6C-AR1S2B/2C
Liteon
LTST-S321KRKT-PH
3A05
KEYBOARD_IRQ-CRP
DNP FH34SRJ-18S-0.5SH
2A08
TP2
USB-WIFI-DP
1C01
2A04
1u0
FH34SRJ-26S-0.5SH(50)
LED2
USB-WIFI-DP
1
1
1
USB-WIFI-DM
LED2
AMBI-TEMP
+12V-AMBI
9A02 0
1
2
3
4
5
6
7
8
+3V3-WIFI
AMBI-SPI-CCLK
5A00
1
2
3
4
5
6
7
8
10p
4A00 DNP
DNP 100n
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2A01
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
2A03
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
2A02
9A01
0
1A03
1A02
S1315-06RVB-SB3-KH
2A00
1u0
10p
AMBILIGHT CONNECTOR
1
10-7-2
QFU1.2E LA
2
3
1
4
TSOP75236
VS
OUT
GND1
GND2
P210
Wireless LAN USB module,
light sensor, IR/LED
2012-07-24
2822 065 02664
2822 065 02665
19370_064_130204.eps
130204
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 191
J03, Light sensor
Light sensor
J03
+3V3-STANDBY
LIGHT SENSOR
2B00
1u0
+3V3-STANDBY
3B02
10K
1
TP13
7103
VDD
SCL
SDA
INT
NC
5
4
GND
TP15
3
TSL25715FN
3B03
VSMY2853SL
1
1
2
6104
2
2
3D-IR
1
6102
VSMY2853SL
+5V TP7
6103
1
4R7
VSMY2853SL
MURATA ECASD40J107M015K00
100u 6V3
+5V
2B01
2
1
TP14
IRQ-SRFn
2B02
1
2
6
2
10R
10R
100u 6V3
SCL-SRF
SDA-SRF
3B00
3B01
1
SCL-SRF
SDA-SRF
1 1
2B03
DNP 100n
3B04
4R7
TP6
7B01
5
3B06
DNP 10K
3D
3D-LED
2
3B09
DNP 10K
1
3B07 DNP 10R
2
4
EN
3B11
7B02
4
SI2304DDS
3
3D-LED
3B05
4R7
5
3B10 DNP 100R
3
J03
1
10-7-3
QFU1.2E LA
1G
DNP 74LVC1G126GW
3B08
47K
2S
2B04
10n
10R
P210
Wireless LAN USB module,
light sensor, IR/LED
2012-07-24
2822 065 02664
2822 065 02665
19370_065_130204.eps
130204
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 192
J04, Connectors
Connectors
J04
1C26
DNP FH52-11S-0.5SH
DNP FH52-25S-0.5SH
FH52-40S-0.5SH
GND AMBI PAD
TV CONVERTER
+12V-AMBI
+3V3-STANDBY
3C10
GND-AMBI
3C11
DNP 10K
+12V-AMBI
DNP 10K
+3V3-AMBI
AMBI-SPI-CCLK
GND-AMBI
AMBI-SPI-MOSI
GND-AMBI
AMBI-TEMP
3D-LED
LED2
KEYBOARD_IRQ-CRP
+3V3-STANDBY
IR_IRQ-RF4CEn
+5V
SCL-SRF
SDA-SRF
2C04
1u0
AMBI-SPI-CCLK
AMBI-SPI-MOSI
AMBI-TEMP
3D-LED
LED2
KEYBOARD_IRQ-CRP
IR_IRQ-RF4CEn
SCL-SRF
SDA-SRF
2C03
1u0
2C09 10p
13
12
11
10
9
8
7
6
5
4
3
2
1
TP8
2C08 10p
13
12
11
10
9
8
7
6
5
4
3
2
1
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
GND-AMBI
2C07 10p
1C20
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
42
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
2C06100p
1C25
42
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
2C05 10p
J04
1
10-7-4
QFU1.2E LA
P210
Wireless LAN USB module,
light sensor, IR/LED
2012-07-24
2822 065 02664
2822 065 02665
19370_066_130204.eps
130204
2014-Jan-10 back to
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�Circuit Diagrams and PWB Layouts
10.
EN 193
J05, RF Front-end
RF Front-end
J05
2
C0A0TX
1
C12
9PF DEPOP
GND
C4
1
C0A0RX
2
2
RXG_0
C11
1
9PF
U3
C6
2
1
2
1
2
OUT
2
2
9PF
1
3
4
6
J2
J3
V1
V2
J1
GND
J3
4
6
5
2
A0_ANT0
C16
1
2
ANT0_RF_A I
G1
G2
G3
G4
9PF CRITICAL
L11
600pH DEPOP
GND
GND
GND
OUT
O
ANT1
ANT1
GND1
GND2
GND3
GND4
MM8430-2610RA1
1
GND
GND
2
DEA162500LT-1217A1 CRITICAL
IN
SKY13343-92LF
1
1
R102
0 DEPOP
5
GND1
GND2
GND3
GND4
IN
R100 0
R101
0 DEPOP
3
1
2
TXG_0
9PF DEPOP
GND
FL2
1
C7
0.5PF DEPOP
C1A0TX
2
GND
1
C10
9PF DEPOP
GND
C102
RXG_1 1
C1A0RX
2
2
C9
1
9PF
U4
C8
2
R103 0
R104
0 DEPOP
9PF
5
1
3
4
6
J2
4
6
5
2
A0_ANT1
C13
1
2
ANT1_RF_A I
G1
G2
G3
G4
9PF CRITICAL
L10
600PH DEPOP
GND
GND
OUT
O
ANT0
ANT0
GND1
GND2
GND3
GND4
MM8430-2610RA1
1
GND
IN
SKY13343-92LF
2
DEA162500LT-1217A1 CRITICAL
GND
V1
V2
J1
GND
1
R105
0 DEPOP
IN
OUT
GND1
GND2
GND3
GND4
2
J2
J3
2
2
1
2
3
1
GND
C5
1
TXG_1 1
9PF DEPOP
GND
FL1
2
J05
1
10-7-5
QFU1.2E LA
0.5PF DEPOP
GND
P210
Wireless LAN USB module,
light sensor, IR/LED
2012-07-24
2822 065 02664
2822 065 02665
19370_067_130204.eps
130204
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10-7-6
QFU1.2E LA
10.
EN 194
J06, Power supply
Power supply
J06
J06
VDD3_3
VDD1_2
C88
C63
1
2
0.1UF
0.1UF
C85
C75
1
2
1
2
1
2
0.1UF
0.001UF
U1C
VDD1_2A
GND
BCM43234KMLG QFN88H-0.40P
2
0.1UF
1
C23
1
2
1UF
2
2
0.1UF
C26
C70
VDD1_2C
1
2
VDD3_3
0.1UF
2
2
C69
1
GND
NC1
NC2
5
11
10K
0.1UF
2
1
2
C25
2
0
C67
1
PA_CORE1_VDD3P3
2
1
2.2UF
2
4.7UF
VDD3_3
C92
2
0.1UF
C58
2
1
C43
2
R20
GND
2
C31
Ferrite Bead 120ohm
R200
1
2
VDD1_2A
2
1
2.2UF
2
1
C54
10UF
2
C41
0.1UF
2
1
C40
22PF
1
C39
1
R30
1
2
59K
GND
GND
GND
0.1UF
2
3N325
GND
C91
0.001UF
1
C30
2
2
VDD1_2
1
2.2UH CURRENT=1.31A CRITICAL
L8
2
1
GND
0.1UF
GND1
GND2
HS-GND
0.1UF DEPOP
2
C64
1
2
150K
2
1
FB1
FB2
R29
3N330
1
R24
1
2
R33
GND
PAM2306AYPAA DFN12 CRITICAL
DNP 100K
1
C65
GND
DNP 59K
1
2
0.1UF
4
10
VIN1
VIN2
GND
R40
VDD3_3
8
2
EN1
EN2
R32
1
60.4K
2
0.1UF
C18
0.1UF
2
1
C28
10UF
2
C27
1
3
9
H
LX1
LX2
DNP 22PF
2
R31
3N344
6
12
1
GND
1
U5
7
1
C83
2
VDD3_3
C42
2
0
VDD5
GND
GND
0.1UF
DNP 2.2UH CURRENT=1.4A CRITICAL
L7
2
1
1
R21
0.1UF
1UF
1
GND
1
GND
0
GND
0.1UF
GND
C37
2.2UF
PA_CORE0_VDD3P3
2
1
2
1
C101
2
GND
VDD5
R49
GND
DNP 267K
1
GND
1
1
1
0.1UF
GND
1
0.1UF
1
H
C32
0.1UF
1
VREF
VDD1_2D
2
C78
GND
VDD3_3
C34
1
C62
1
0.1UF
2
56
GND
2
2.2UF
52
VREF
VDD2P5_USB_OUT
15K
C44
GND
C81
2
GND
0.1UF
2
C24
1
1
C22
3N938
10UF
0.1UF
2
2
0.1UF
C21
C80
2
EXT_POR_L
1
0.1UF
67
TX_2G_CORE0_VDD1P2_1
TX_2G_CORE0_VDD1P2_2
C77
VDD1_2B 2
0.1UF
R35
USBAVDD2P5
GND
1
PA_CORE0_VDD3P3
1
TX_2G_CORE1_VDD1P2_1
TX_2G_CORE1_VDD1P2_2
GND_SLUG
1
2
EXT_RST_L
31
27
1
0.001UF
C79
PA_CORE1_VDD3P3
1
2
C46
58
SYNTH_VCO_VDD1P2
SYNTH_VDD1P2
2
0.1UF
GND
1
2
46
47
GND
VDD1_2A
44
CORE_VDD1P2_1
CORE_VDD1P2_2
40
36
GND
69
VDDPLL/RF_AVDD_1P2
29
38
0.001UF
1
0.1UF
2
C86
C51
0.1UF
1
2
C87
1
0.1UF
VDD_PLL_LIN
ANALOG_WLAN_IQTEST_VDD1P2
59
0.001UF
VDD_PLL_LIN
1
C76
1
2
0.01UF
C53
2
57
USBLDO_2P5_OUT
17
GND
VREG3P3_VDD3P3
USB_AVDD3P3
VDD_66
VDD_60
C84
VDD3_3
45
LDO_3P3_IN
USB_AVDD_1P2
66
60
VDD1_2D
25
32
34
41
VDD_88
VDD_77
72
4.7UF
2
PA_2G_CORE1_VDD3P3_1
PA_2G_CORE1_VDD3P3_2
PA_2G_CORE0_VDD3P3_1
PA_2G_CORE0_VDD3P3_2
RCAL_RES_EXT_CORE
88
77
VDD1_2C
VDD3_3
1
63
11
76
83
C90
GND
C38
1
VDD1_2
0.1UF
1
VDDIO_1
VDDIO_63
VDDIO_11
VDDIO/OTP_VDD
VDDIO_83
VDD_12
VDD_8
2
GND
C71
2
12
8
1
VDD1_2B
GND
P210
Wireless LAN USB module,
light sensor, IR/LED
2012-07-24
2822 065 02664
2822 065 02665
19370_066_130204.eps
130204
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 195
10.8 282206502668, 282206502669 Wireless LAN USB module, light sensor, IR/LED
J01, Control lines
Control lines
J01
U4A
Pad
R1
10K 1% 1/16W
R0402
1
2
VDD3_3
61
UART_TX
SFLASH_MISO
62
UART_RX
SFLASH_MOSI
5
4
SFLASH_SS_L
USB_DMNS
70
HSIC_STRB
USB_RREF
HSIC_DATA
0=SFLASH NOT PRESENT/
1=SFLASH PRESENT
0
1=SFLASH Type is Atmel/ 0=SFLASH Type is ST
mimophy_core0_ant0_tx
74
0
1
0=OTP NOT PRESENT/
1=OTP PRESENT
USB_DPLS
USB_MONCDR
mimophy_core1_ant0_tx
mimophy_core0_ant0_rx
71
D+
75
USB_DPLS
D-
USB_DPLS
USB_DMNS
5
description
2
USB_DMNS
68
5
chip default
3
SFLASH_CLK
73
1
0=HSIC mode/ 1=USBPhymode
1
mimophy_core0_ant1_tx
1
BCM43235
LCC88_10X10_0P4
C60
100PF 25V
C0201
mimophy_core0_ant1_rx
2
2
R34
4.02K 1% 1/16W
R0402
1
0=backplane at 96(98.4)MHz/
1=backplane at 120(123)MHz
1
VDD3_3
R23
NP / 10K 1% 1/20W
R0201
3
RXG_0
RXG_0
39
RXG_1
RF_2G_ANTENNA_CORE0
2
U4B
MIMOPHY_CORE0_ANT0_RX
7
C0A0RX=PD
C0A0RX
C0A0TX=PU(OTP)
RXG_1
C0A0TX
30
RF_2G_ANTENNA_CORE1
MIMOPHY_CORE0_ANT0_TX
6
37
3
RF_5G_ANTENNA_CORE0
MIMOPHY_CORE1_ANT0_RX
10
C1A0RX=NO PD/PU
C1A0RX
MIMOPHY_CORE1_ANT0_TX
9
C1A0TX=PD
C1A0TX
MIMOPHY_CORE0_ANT1_RX
87
C0A1RX
C0A1TX=PU(USB Mode)
28
RF_5G_ANTENNA_CORE1
3
TXG_0
TXG_0
42
PA_2G_CORE0
3
TXG_1
TXG_1
33
PA_2G_CORE1
MIMOPHY_CORE0_ANT1_TX
PA_5G_CORE0
MIMOPHY_CORE1_ANT1_RX
PA_5G_CORE1
MIMOPHY_CORE1_ANT1_TX
JTAG_TRST_L
GPIO0
JTAG_TDI
GPIO1
JTAG_TDO
GPIO2
JTAG_TMS
GPIO3
81
16
JTAG_TCK
GPIO4
R47
1K 1% 1/16W
R0402 2
R54
NP / 10K 1% 1/16W
1 R0402 2
VDD3_3
NC
TP2
R62
NP / 10K 1% 1/16W
1 R0402 2
R24
NP / 10K 1% 1/16W
1 R0402 2
VDD3_3
NC
VDD3_3
NC
IRQ
IRQ
R41
10K 1% 1/20W
R0201
1
GPIO5
85
GPIO6
2
GPIO7
13
GPIO7
2
XTAL_OUT
1
R28
221 1% 1/16W
R0402
2
XTAL_BUF_OUT
50
3
51
55
C1
PAREF
23
ANALOG_WLAN_IQTEST_IP
22
GPIAO_GPIO_PAD
43
ANALOG_WLAN_IQTEST_QN
ANALOG_WLAN_IQTEST_IN
1
C2
1uF 6.3V
C0402
2
C48
33pF 50V
C0402
2
1
ANALOG_WLAN_IQTEST_QP
21
24
PAREF_CTRL2
20
2
1uF 6.3V
C0402
2
4
UNUSED
1
PAREF_CTRL1
53
1
1
I_XTAL_VDD2P5/O_XTAL_VDD2P5
54
2
VDD3_3
R48
10K 1% 1/20W
R0201
PAREF
X1
20MHz-10PPM-18PF
XTAL4_FA20H
5
XTAL_IN
48
84
GPIO6
49
C49
33pF 50V
C0402
R14
NP / 1K 1% 1/20W
R0201
2
1
82
1
1
3
80
18
3
C1A0TX
79
19
C1A0RX
78
15
3
64
14
3
C0A0TX
65
26
C0A0RX
86
35
1
J01
2
10-8-1
C28
0.1UF 6.3V
C0201
BCM43235
LCC88_10X10_0P4
2A
Wireless LAN USB module,
light sensor, IR/LED
2012-09-21
2822 065 02668
2822 065 02669
19370_073_130207.eps
130207
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 196
J02, Antenna switches
Antenna switches
J02
J02
C0A0TX
2
C25
NP / 9pF 25V
C0201
SW1
RF-SWITCH
SW_MS_901
R2
0ohm 5% 1/16W
R0402
1
2
GND3
GND4
10pF 50V
C0402
L1
NP / 1.5pF 50V
L0402
2
C20
10pF 25V
C0201
1
2
RXG_0
RXG_0
3
1
6
RX
ANT
5
GND
TX
C96
C21
10pF 25V
C0201
1
2
NP / 10pF 50V
C0402
P2
2
GND
IN
GND
SOT_363
NC
NC
GND
L2
1.2nH +-0.2nH/ NC
L0402
L3
NP / 1.8nH 0.3nH 300mA
L0402
ANT1
ANT_PHILIPS_2K13_L
NC
2
RX EN
2
4
FEED
2
1
U3
RTC6603
RX EN
ANT1
1
1
GND1
GND2
2
5
6
C18
NP / 9pF 25V
C0201
1
1
2
ANTIN ANTOUT
3
4
1
2
1
2
C10
1
2
2
1
2
C0A0TX
C0A0RX
NC
3
1
2
NP / AYU1_1P_02676_120_TF
ANTENNA_CON_IPEX_A
NC
TXG_0
C17
10pF 25V
C0201
1
2
Reserved for HTV
1
L8
10nH 5% 250mA
L0402
L4
NP / 1N +/-0.3N 300mA
L0201
1
2
2
1
C16
NP / 9pF 25V
C0201
1
3
4
6
2
1
GND1
GND2
GND3
GND4
TXG_0
2
C13
NP / 1P 25V
C0201
C1A0TX
2
1
2
C1A0TX
C74
NP / 9pF 25V
C0201
C1A0RX
2
2
C80
10pF 25V
C0201
2
C27
ANTIN ANTOUT
3
4
ANT2
1
10pF 50V
C0402
L5
NP / 1.5pF 50V
L0402
FEED
L7
1.2nH +-0.2nH/ NC
L0402
GND
L6
NP / 3.9nH 0.3N 300mA
L0402
ANT2
ANT_PHILIPS_2K13_R
1
2
1
L14
10nH 5% 250mA
L0402
1
GND
IN
GND
3
1
2
NP / 10pF 50V
C0402
NC
NC
NC
NC
NP / AYU1_1P_02676_120_TF
ANTENNA_CON_IPEX_A
2
L11
NP / 1N +/-0.3N 300mA
L0201
2
NC
2
Reserved for HTV
1
C24
NP / 9pF 25V
C0201
R4
0ohm 5% 1/16W
R0402
1
2
2
C97
P3
2
TXG_1
C36
10pF 25V
C0201
2
1
GND1
GND2
GND3
GND4
TXG_1
U5
DEA162500LT-1217A1
BPF6_1608
2 IN OUT 5
1
3
4
6
2
R8
10pF 25V
C0201
1
2
1
1
SOT_363
2
2
1
2
TX
1
1
ANT
5
1
6
RX
2
3
1
GND1
GND2
RXG_1
4
GND
RXG_1
RX EN
RX EN
2
SW2
RF-SWITCH
SW_MS_901
U10
RTC6603
GND3
GND4
C77
10pF 25V
C0201
1
2
C88
NP / 9pF 25V
C0201
5
6
1
2
C1A0RX
2
2
U1
DEA162500LT-1217A 1
BPF6_1608
2 IN OUT 5
R5
10pF 25V
C0201
1
2
1
10-8-2
QFU1.2E LA
C41
NP / 1P 25V
C0201
2A
Wireless LAN USB module,
light sensor, IR/LED
2012-09-21
2822 065 02668
2822 065 02669
19370_074_130204.eps
130204
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 197
J03, Micro processor
Micro processor
J03
VDD3_3
VDD1_2
C42
1
C86
2
0.1UF 6.3V
C0201
C46
1
C85
2
1
0.1UF 6.3V
C0201
1
2
1000pF 25V
C0201
C87
U4C
2
1
0.1UF 6.3V
C0201
C38
2
1
2
VDD3_3
0.1UF 6.3V
C0201
VDD1_2B
12
VDD3_3
VDDIO_1
1
VDD_8
VDDIO_63
88
VDD_88
VDDIO_11
11
77
VDD_77
VDDIO/OTP_VDO
76
1
83
1000pF 25V
C0201
63
0.1UF 6.3V
C0201
VDD_12
C69
1
8
VDD1_2
C43
VDD1_2B
2
1
0.1UF 6.3V
C0201
2
0.1UF 6.3V
C0201
C76
VDD1_2A
VDD1_2C
C44
0.1UF 6.3V
C0201
1
2
72
USB_AVDD_1P2
66
2
VDD_66
VDDIO_83
C4
VDD1_2D
2
VDD1_2D
60
C5
1000pF 25V
C0201
1
2
17
PA_5G_CORE1_VDD3P3
25
34
PA_2G_CORE1_VDD3P3
32
PA_2G_CORE1_VDD3P3
41
PA_2G_CORE0_VDD3P3
59
VDD3_3
VDD3_3
VDDPLL/RF_AVDD_1P2
VREG3P3_VDD3P3
CORE0_VDD1P2
LDO_3P3_IN
2
0.1UF 6.3V
C0201
45
57
69
CORE1_VDD1P2
38
C3
SYNTH_VDD1P2
1
C7
0.1UF 6.3V
C0201
31
TX_2G_CORE1_VDD1P2
27
USBLDO_2P5_OUT
1
1
1
C15
C9
0.1UF 6.3V
C0201
1
2
1uF 6.3V
C0402
58
67
C55
1uF 6.3V
C0402
VDD2P5_USB_OUT
VDD3_3
TX_5G_CORE1_VDD1P2
VDD2P5_USB
2
52
TX_5G_CORE0_VDD1P2
VREF
56
GND_SLUG
89
1
C12
0.1UF 6.3V
C0201
C54
2.2UF X5R 6.3V 20%
C0402
2
36
EXT_POR_L
2
1
TX_2G_CORE0_VDD1P2
2
40
PA_2G_CORE0_VDD3P3
1
R49
0ohm 5% 1/16W
R0402
1
VDD1_2A_CORE1
44
C53
0.1UF 6.3V
C0201
C79
2.2UF X5R 6.3V 20%
C0402
2
2
2
RCAL_RES_EXT_CORE
USBAVDD2P5
C8
1000pF 25V
C0201
R3
15K 1% 1/16W
R0402
1
2
1
1
47
SYNTH_VCO_VDD1P2
2
46
2
SYNTH_1P2
2
C61
0.1UF 6.3V
C0201
C72
0.1UF 6.3V
C0201
VREF
1
2
C6
10NF 10V
C0201
EXT_RST_L
1
2
C62
0.1UF 6.3V
C0201
BCM43235
LCC88_10X10_0P4
VDD3_3
C56
1
R29
2
1
2
VDD3_3
2
PA_2G_CORE1_VDD3P3
1
R60
0ohm 5% 1/16W
R0402
1
10K 1% 1/16W
R0402
C83
0.1UF 6.3V
C0201
2
1
C89
2.2UF X5R 6.3V 20%
C0402
2
0.1uF 10V
C0402
1
C73
0.1UF 6.3V
C0201
2
2
C82
0.1UF 6.3V
C0201
1
1
C58
0.1UF 6.3V
C0201
2
1
C68
0.1UF 6.3V
C0201
2
1
VDD1_2A
2
C78
0.1UF 6.3V
C0201
2
1
29
2
0.1UF 6.3V
C0201
1
USB_AVDD3P3
LOGEN_LNA
C19
1
ANALOG_WLAN_IQTEST_VDD1P2
PA_2G_CORE0_VDD3P3
VDD_PLL_LIN
2
0.1UF 6.3V
C0201
PA_5G_CORE0_VDD3P3
VDD_60
1
1
VDD1_2C
C47
4.7uF 6.3V
C0603
1
J03
2
10-8-3
QFU1.2E LA
C70
0.1UF 6.3V
C0201
2A
Wireless LAN USB module,
light sensor, IR/LED
2012-09-21
2822 065 02668
2822 065 02669
19370_075_130207.eps
130207
2014-Jan-10 back to
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�Circuit Diagrams and PWB Layouts
10.
EN 198
J04, USB
USB
J04
1
VDD3_3
R9
150K 5% 1/16W
R0402
VDD1_2
VDD1_2A
2
C91
10uF 6.3V
C0603
1
1
1
C92
0.1UF 6.3V
C0201
1
R61
0ohm 5% 1/16W
R0402
C94
2.2UF X5R 6.3V 20%
C0402
C93
1000pF 25V
C0201
2
1
R45
150K 1% 1/16W
R0402
C81
22pF 50V
C0402
2
2
1
5
1
VDD1_2
2
L15
2.2UH 20% 1.5A
L2_LPS3015
2
FB
1
2
EN
3
1
VIN
2
1
C71
0.1uF 10V
C0402
C26
1uF 10V
C0603
1
2
2
2
C59
10uF 10V
C0805
2
R39
150K 1% 1/16W
R0402
VDD3_3
VDD3_3
C51
VDD3_3
2
.1uF 50V
C0603
2
U2
1in
2in
1out
2out
USB_DPLS
USB_DMNS
4
1
1
NP / GBLC05C-LF-T7
SOD_323
2
D1
USB_DPLS
USB_DMNS
2
2
C14
NP / 10pF 50V
C0402
C11
NP / 10pF 50V
C0402
1
2
C99
NP / 100P 50V
C0402
3
2
F4P-2012
L4_2012
2
1
USB_D+
USB_D-
1
IRQ
2
.1uF 50V
C0603
2
2
C50
1
IRQ
NC
A1
1
R11
10K 5% 1/16W
R0402
6
5
4
3
2
1
S1315-06RVB-S03-K
A1253WRA_S_6
A2
L12
1000ohm 25% 800mA
L0603
P1
Shield
IRQ
GND1
USB+
USBPower
A3
2
1
1
1
GND3
GND2
8
2
R12
NP / 10K 5% 1/16W
R0402
7
C57
10uF 10V
C0805
1
1
4
RT8008PB
SOT_25 LX
GND
U9
2
VDD3_3
2
VDD3_3
1
J04
2
10-8-4
QFU1.2E LA
2A
Wireless LAN USB module,
light sensor, IR/LED
2012-09-21
2822 065 02668
2822 065 02669
19370_076_130207.eps
130207
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 199
J05, Connectors, IR, and LED
J05
Connectors, IR, and LED
J05
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
NC
2
2
1
0ohm 5% 1/16W
R0402
1
2
AMBI-SPI-CCLK 8
L0402
AMBI-TEMP
8
1
2
0.1uF 16V / NC
C0402
1
R31
C66
0.1uF 16V / NC
C0402
CONTROLS CONNECTOR
NC
R6
1
2
NP / 0ohm 5% 1/16W
R0402
+12V-AMBI
FH34SRJ-18S-0.5SH / NC
R0402
2
2
0ohm 5% 1/16W
AMBI-SPI-MOSI 8
C64
R30
1
C65
10pF 50V
C0402
NC
1
2
L13 120OHM 1.5A
GND-AMBI
C67
10pF 50V
C0402
C63
1uF 25V
C0603
1 R7
2
0ohm 5% 1/16W
R0402
NC
KEYBOARD_IRQ-CRP
J5
GND-AMBI
+3V3-STANDBY
+3V3-STANDBY
8
+3V3-STANDBY
1
2
3
4
5
6
7
8
9
10
GND-AMBI
FH34SRJ-26S-0.5SH
LED2
NC
1
+12V-AMBI
2
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
0ohm 5% 1/16W
R0402
R32
1
2
NP / 0ohm 5% 1/16W
R0402
2
J4
J3
1
C52
1U 10V
C0402
R33
2
1
1
+3V3-AMBI
NC
R66 2
1
NP / 0ohm 5% 1/16W
R0402
R67 2
1
NP / 0ohm 5% 1/16W
R0402
SCL-SRF
7,8
SDA-SRF
7,8
3D-LED
7,8
NC
1 R10
2
NP / 0ohm 5% 1/16W
R0402
FH52-8S-0.5SH
NC
R68 2
1
NP / 0ohm 5% 1/16W
R0402
+5V
U8
10K 5% 1/16W
R0402
1U 10V
C0402
1
10K 5% 1/16W
R0402
C37
1
Q2
2
1
NC
18pF 50V
C0402
18pF 50V
C0402
GND1
4
GND2
TSOP75236
Q1
BC847BW / NC
BC857BW
1000P 50V
C0402
2
LED2
NP / 100P 50V
C0402
C95
OUT
1
NC
R13
8
C98
VS
3
2
C40
1
LED (R)
KPBA_3010
C84
NP / 100P 50V
C0402
C29
2
LED (R) / NC
KPBA_3010
3
R19
3
1
NC
2
1 R22
2
10 5% 1/16W
R0402
1
8 IR_IRQ-RF4CEn
1 R21
2
100 5% 1/16W
R0402
2
+3V3-STANDBY
D4
1
D3
1
12
12
NC
47 5% 1/16W
R0402
RED LED
2
47 5% 1/16W / NC
R0402
+3V3-STANDBY
IR
R65
2
R59
1
1
NC
2
10-8-5
QFU1.2E LA
NC
R18
1
2
NP / 10K 5% 1/16W
R0402
NC
2A
Wireless LAN USB module,
light sensor, IR/LED
2012-09-21
2822 065 02668
2822 065 02669
19370_077_130207.eps
130207
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 200
J06, Light sensor and 3D IR
Light sensor and 3D IR
J06
+3V3-STANDBY
LIGHT
SENSOR
+3V3-STANDBY
1
C45
1
1U 10V
C0402
2
R26
10K 5% 1/16W
R0402
6,8
SCL-SRF
SCL INT
5
GND NC
1 R25
2
10 5% 1/16W
R0402
6
2
2
1 R27
10 5% 1/16W
R0402
VDD SDA
4
3
SDA-SRF
2
U7
1
6,8
IRQ-SRFn
(NOT CONNECTED)
TSL25715FN
R16
1
D5
100UF 6.3V
C7343
VSMY2853SL
3D-IR
2
1
2
1
+ C23
+
C22
100UF 6.3V
C7343
1
2
4.7 1% 1/8W
R0805
2
1
+5V
D6
R64
4.7 1% 1/8W
R0805
NC
1 R56
2
10 5% 1/16W
R0402
1
NC
C90
3
R55
47K 1/16W 5%
R0402
2
NC
Q3
1
2
R51
1
2
NP / 100 5% 1/16W
R0402
SI2304DDS
SOT_23
1
3D-LED
NC
0.01uF 25V
C0402
2
2
NC
6,8
NP / 0.1uF 10V
C0402
U6
NP / 74LVC1G126GW
SOT_353
1 OE Vcc 5
R20
2 A
3 Gnd Y 4
1
2
NP / 10 5% 1/16W
R0402
2
NP / 10K 5% 1/16W
R0402
2
4.7 1% 1/8W
R0805
2
1
1
R63
C39
IR_VSMY2853SL
1
2
2
VSMY2853SL
IR_VSMY2853SL
1
+5V
R15
IR_VSMY2853SL
1
D2
VSMY2853SL
1
J06
R50
NP / 10K 5% 1/16W
R0402
2
10-8-6
QFU1.2E LA
NC
2A
Wireless LAN USB module,
light sensor, IR/LED
2012-09-21
2822 065 02668
2822 065 02669
19370_078_130207.eps
130207
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 201
J07, Connectors
Connectors
J07
GND
TP4
F999
J1
FH52-25S-0.5SH / NC
NC
1
R36
NP / 10K 5% 1/16W
R0402
SDA-SRF
SCL-SRF
TP9
TP8
3D-LED
TP6
NC
GND-AMBI
AMBI-SPI-CCLK 6
GND-AMBI
AMBI-SPI-MOSI 6
GND-AMBI
AMBI-TEMP
3D-LED
LED2
6
6,7
6
KEYBOARD_IRQ-CRP
+3V3-STANDBY
IR_IRQ-RF4CEn
+5V
6
6
SCL-SRF
6,7
SDA-SRF
6,7
10pF 50V
C0402
100P 50V
C0402
10pF 50V
C0402
C75
10pF 50V
C0402
1
C35
1
C31
1
C33
2
C32
1U 10V
C0402
2
+5V
C34
1U 10V
C0402
2
+3V3-STANDBY
TP7
2
TP3
1
FH52-40S-0.5SH
1
NC
R35
NP / 10K 5% 1/16W
R0402
2
NC
+12V-AMBI
1
FH52-11S-0.5SH / NC
+3V3-AMBI
2
13
12
11
10
9
8
7
6
5
4
3
2
1
+3V3-STANDBY
2
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
GND-AMBI
+12V-AMBI
1
TP10
J2
GND-AMBI
2
GND-AMBI
J6
GND_Cable
42
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
1
J07
2
10-8-7
QFU1.2E LA
C30
10pF 50V
C0402
TP5
IR_IRQ-RF4CEn
TP1
LED2
2A
Wireless LAN USB module,
light sensor, IR/LED
2012-09-21
2822 065 02668
2822 065 02669
19370_079_130207.eps
130207
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 202
10.9 272217190759, 272217190761 Sensor Module
J, RF4CE Sensor Module
RF
RF4CE Sensor Module
RF
U3
CC2533F96RHA
3
CSn
SCLK
MOSI
MISO
VSS
+3.3V
104
R30 10R
U6
VCC
R32
10K
RESETn 20
RES
2
RESET
26 RF-N
RF_N
P2_4/XOSC32_Q1
P2_3/XOSC32_Q2
P0_0
P0_1
P0_2
P0_3
P0_4
P0_5
P0_6
P0_7
RESET_N
C16
4
3
B-Port
C24
2.2uF 0.1uF 0.1uF
B-Port
AT1
C25
1
U-port
1
2
1.8nH
NC
4
3
VSS
C26
SDBTPTR3015
2.7pF
VSS
2
32
SMA /UFLR/NI
VSS
33 IRQ-SRF
VSS
22
XOSC_Q1
23
XOSC_Q2
X1
32MHz
30
C34
C35
15pF
DCOUPL
3
40
RBIAS
15pF
C33
1uF
103
NPC803SN293D3T1G
C23
UFL
0
VSS
+3.3V
RXD-RF4CE
3
C32
GND
RES
TXD-RF4CE
R31 10R
19
18
17
16
15
14
13
12
25 RF-P
1
E
RJ2 10K
C22
U2
LFB182G45BG2D280
RF_P
P1_0
P1_1
P1_2
P1_3
P1_4
P1_5
P1_6
P1_7
C21
3
2
B
11
9
8
7
6
5
38
37
C20
6
1
C
Q4
VSS
BC847
P2_0
P2_1
P2_2
5
36
DD 35
DC 34
1.2pF
C15
C19
VSS
2
100k
IR-IRQ-RF4CE
C18
0.1uF 220pF 0.1uF 0.1uF 1uF
21
24
27
28
29
31
AVDD5
AVDD3
AVDD2
AVDD1
AVDD4
AVDD6
GND PAD
R37
NC
SCL
SDA
NC
DVDD1
1
2
3
4
+3.3V
DVDD2
C17
GND
39
10
L3
1uH
1
R34
56k
VSS
1
10-9-1
VSS
VSS
VSS
VSS
0 1
2
3
4
5
6
7
0 8
1C27
+3.3V
IR-IRQ-RF4CE
RXD-RF4CE
TXD-RF4CE
RESETn
VSS
VSS
1C02
1
2
3
4
5
VSS
VSS
VSS
DD
DC
RESETn
+3.3V
DEBUG
FH52-8S-0.5SH
0.9
RF4CE Sensor Module
2012-11-21
2722 171 90759
19370_043_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 203
10.10 310431366033 AmbiLight
AL1, 7 LED Master LiteOn
7 LED Master LiteOn
AL1
2101
+3V3
+3V3
F007
9109
+3V3
+3V3AL
3103
10K
+3V3
RES
9106
7102
F010
1
5
F006
-T
9105
10K 1%
27K
3102
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
100n
3101
+12V
1A02
FH34SRJ-26S-0.5SH(50)
6101
9107
4
F002
F004
2
LMV321AP5X
AMBI-TEMP
BAT54 COL
18K 1%
3107
3105
3K3 1%
-T 10K
F001
RES
3106
9101
100n
2104
3
AMBI-TEMP
F003
SCKI
F005
SDI
9104
+3V3
28
9102
+12V
27
9103
+3V3
+12V
2102
28
100n
15
16
VREG
IREF
R
OUT0 G
B
3104
R
OUT1 G
B
1K5 1%
SDI
10K
R
OUT2 G
B
SDI-BUF
SCKI-BUF
3108
1
2
SCKI-BUF
3
4
14
17
10p
2105
100R
R
OUT3 G
B
SDTI
SCKI
NC
VIA
SDI
18
GND
3109
SDTO
SCKO
PWM2-R1
PWM2-G1
PWM2-B1
22
23
24
PWM2-R2
PWM2-G2
PWM2-B2
7
8
9
PWM2-R3
PWM2-G3
PWM2-B3
10
11
12
PWM2-R4
PWM2-G4
PWM2-B4
6
5
26
27
28
29
3110
220R
SDO
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
9112
F116
9111
F009
AMBI-TEMP
SCKI
SDO
9113
+3V3
FH34SRJ-26S-0.5SH(50)
1A04
GND_HS
25
SCKI
10K
3112
3111
SCKI
19
20
21
100p
1u0
VCC
2107
2103
7101
TLC5971RGE
13
+3V3AL
SDI-BUF
100R
F011
10p
AL1
2106
10-10-1
F008
F012
F013
F014
F015
1X00
310430135421
3
7 LED Master LiteOn
2012-08-30
3104 313 6603
19370_045_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 204
AL2, 7 LED Master LiteOn
7 LED Master LiteOn
AL2
3202-2
7001
22R
5
3202-3
PWM2-R3
22R
2
560R
3201-2
6
5
BLUE
6
GREEN
2
1
GREEN
2
3
1 3201-1 8
BLUE
1
RED
4
3
RED
4
+12V
7
560R
3
3201-3
100n
22R
PWM2-G3
2202
3202-4
22R
100n
3202-1
PWM2-B3
7002
2201
6
560R
4 3201-4 5
560R
3205-1
7003
22R
3205-3
22R
5
3205-4
22R
6
5
BLUE
6
5
BLUE
6
GREEN
2
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
3
RED
4
+12V
560R
2203
7 3204-2 2
560R
100n
PWM2-R2
8 3204-1 1
BLUE
1
2204
PWM2-G2
7005
100n
3205-2
22R
PWM2-B2
7004
6 3204-3 3
560R
5 3204-4 4
560R
3206-1
7006
22R
PWM2-R1
3206-3
22R
22R
3206-4
5
8 3207-1 1
22R
7
560R
3207-2
BLUE
6
5
BLUE
6
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
2
560R
6
3207-3
+12V
100n
PWM2-G1
3206-2
2206
PWM2-B1
7007
100n
AL2
2205
10-10-2
QFU1.2E LA
3
560R
5 3207-4 4
560R
3
7 LED Master LiteOn
2012-08-30
3104 313 6603
19370_046_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 205
10.11 310431366043 AmbiLight
AL1, 8 LED LiteOn
8 LED LiteOn
AL1
2101
+3V3
+3V3
F007
9109
+3V3AL
3103
10K
+3V3
RES
9106
7102
F010
1
5
F006
+3V3
-T
9105
10K 1%
27K
3102
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
100n
3101
+12V
1A02
FH34SRJ-26S-0.5SH(50)
6101
9107
4
F002
F004
2
LMV321AP5X
AMBI-TEMP
BAT54 COL
18K 1%
3107
RES
3106
3105
3K3 1%
-T 10K
F001
9101
100n
2104
3
AMBI-TEMP
F003
SCKI
F005
SDI
9104
+3V3
28
9102
+12V
27
9103
+3V3
+12V
2102
28
100n
VCC
15
16
VREG
IREF
R
OUT0 G
B
3104
R
OUT1 G
B
1K5 1%
SDI
10K
R
OUT2 G
B
SDI-BUF
SCKI-BUF
3108
1
2
SCKI-BUF
3
4
14
17
10p
2105
100R
R
OUT3 G
B
SDTI
SCKI
NC
VIA
SDI
18
GND
3109
SDTO
SCKO
PWM2-R1
PWM2-G1
PWM2-B1
22
23
24
PWM2-R2
PWM2-G2
PWM2-B2
7
8
9
PWM2-R3
PWM2-G3
PWM2-B3
10
11
12
PWM2-R4
PWM2-G4
PWM2-B4
6
5
3110
220R
26
27
28
29
SDO
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
9112
F116
9111
F009
AMBI-TEMP
SCKI
SDO
9113
+3V3
FH34SRJ-26S-0.5SH(50)
1A04
GND_HS
25
SCKI
10K
3112
3111
SCKI
19
20
21
100p
1u0
2107
2103
7101
TLC5971RGE
13
+3V3AL
SDI-BUF
100R
F011
10p
AL1
2106
10-11-1
F008
F012
F013
F014
F015
1X00
310430135421
3
8 LED LiteOn
2012-08-30
3104 313 6604
19370_047_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 206
AL2, 8 LED LiteOn
8 LED LiteOn
AL2
3202-2
7001
22R
5
PWM2-R3
22R
2
560R
3201-2
5
BLUE
6
5
BLUE
6
2
1
GREEN
2
1
GREEN
2
3
1 3201-1 8
6
GREEN
RED
4
3
RED
4
3
RED
4
+12V
2201
3202-3
BLUE
1
7
560R
3
3201-3
100n
22R
PWM2-G3
2202
3202-4
22R
100n
3202-1
PWM2-B3
7003
7002
6
560R
4 3201-4 5
560R
3205-1
7004
22R
3205-3
22R
5
8 3204-1 1
3205-4
22R
5
BLUE
6
2
1
GREEN
2
RED
4
3
RED
4
+12V
560R
7 3204-2 2
560R
100n
PWM2-R2
6
GREEN
3
PWM2-G2
BLUE
1
2204
3205-2
22R
PWM2-B2
7005
100n
6 3204-3 3
560R
5 3204-4 4
560R
3206-1
22R
3206-4
5
8 3207-1 1
22R
7
560R
3207-2
BLUE
6
5
BLUE
6
5
BLUE
6
1
GREEN
2
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
3
RED
4
2
560R
6
3207-3
+12V
100n
PWM2-R1
3206-3
22R
2206
PWM2-G1
3206-2
7008
100n
PWM2-B1
7007
7006
22R
2205
AL2
2203
10-11-2
QFU1.2E LA
3
560R
5 3207-4 4
560R
3
8 LED LiteOn
2012-08-30
3104 313 6604
19370_048_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 207
10.12 310431366053 AmbiLight
AL1, 9 LED LiteOn
9 LED LiteOn
AL1
2101
+3V3
+3V3
F007
9109
+3V3
+3V3AL
3103
10K
+3V3
RES
9106
7102
F010
1
5
F006
-T
9105
10K 1%
27K
3102
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
100n
3101
+12V
1A02
FH34SRJ-26S-0.5SH(50)
6101
9107
4
F004
2
LMV321AP5X
AMBI-TEMP
BAT54 COL
18K 1%
3107
3105
3K3 1%
-T 10K
F002
RES
3106
F001
9101
100n
2104
3
AMBI-TEMP
F003
SCKI
F005
SDI
9104
+3V3
28
9102
+12V
27
9103
+3V3
+12V
2102
VCC
15
16
VREG
IREF
R
OUT0 G
B
3104
R
OUT1 G
B
1K5 1%
SDI
10K
R
OUT2 G
B
SDI-BUF
SCKI-BUF
3108
1
2
SCKI-BUF
3
4
14
17
10p
2105
100R
R
OUT3 G
B
SDTI
SCKI
NC
VIA
SDI
18
GND
3109
SDTO
SCKO
PWM2-R1
PWM2-G1
PWM2-B1
22
23
24
PWM2-R2
PWM2-G2
PWM2-B2
7
8
9
PWM2-R3
PWM2-G3
PWM2-B3
10
11
12
PWM2-R4
PWM2-G4
PWM2-B4
6
5
3110
220R
26
27
28
29
SDO
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
9112
F116
9111
F009
AMBI-TEMP
SCKI
SDO
9113
+3V3
FH34SRJ-26S-0.5SH(50)
1A04
GND_HS
25
SCKI
10K
3112
3111
SCKI
19
20
21
100p
1u0
2107
2103
7101
TLC5971RGE
13
+3V3AL
27
28
100n
SDI-BUF
100R
F011
10p
AL1
2106
10-12-1
F008
F012
F013
F014
F015
1X00
310430135421
3
9 LED LiteOn
2012-08-30
3104 313 6605
19370_049_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 208
AL2, 9 LED LiteOn
9 LED LiteOn
AL2
3202-2
5
PWM2-R3
22R
2
560R
3201-2
5
BLUE
6
5
BLUE
6
2
1
GREEN
2
1
GREEN
2
3
1 3201-1 8
6
GREEN
RED
4
3
RED
4
3
RED
4
+12V
2201
3202-3
BLUE
1
7
560R
3
3201-3
100n
22R
PWM2-G3
2202
3202-4
22R
7003
100n
3202-1
PWM2-B3
7002
7001
22R
6
560R
4 3201-4 5
560R
3205-1
7004
22R
3205-3
22R
5
3205-4
PWM2-R2
22R
6
5
BLUE
6
5
BLUE
6
GREEN
2
1
GREEN
2
1
GREEN
2
3
8 3204-1 1
BLUE
1
RED
4
3
RED
4
3
RED
4
+12V
560R
7 3204-2 2
560R
100n
22R
2204
PWM2-G2
3205-2
100n
PWM2-B2
7006
7005
2203
6 3204-3 3
560R
5 3204-4 4
560R
3206-1
7007
22R
PWM2-R1
3206-3
22R
22R
3206-4
5
8 3207-1 1
22R
7
560R
3207-2
BLUE
6
5
BLUE
6
5
BLUE
6
1
GREEN
2
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
3
RED
4
2
560R
6
3207-3
+12V
100n
PWM2-G1
3206-2
2206
PWM2-B1
7009
7008
100n
AL2
2205
10-12-2
QFU1.2E LA
3
560R
5 3207-4 4
560R
3
9 LED LiteOn
2012-08-30
3104 313 6605
19370_050_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 209
10.13 310431366063 AmbiLight
AL1, 10 LED Master LiteOn
10 LED Master LiteOn
AL1
2101
+3V3
+3V3
F007
9109
+3V3AL
3103
10K
+3V3
RES
9106
7102
F010
1
5
F006
+3V3
-T
9105
10K 1%
27K
3102
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
100n
3101
+12V
1A02
FH34SRJ-26S-0.5SH(50)
6101
9107
4
F002
F004
2
LMV321AP5X
AMBI-TEMP
BAT54 COL
18K 1%
3107
3105
3K3 1%
-T 10K
F001
RES
3106
9101
100n
2104
3
AMBI-TEMP
F003
SCKI
F005
SDI
9104
+3V3
28
9102
+12V
27
9103
+3V3
+12V
2102
28
100n
VCC
15
16
VREG
IREF
R
OUT0 G
B
3104
R
OUT1 G
B
1K5 1%
SDI
10K
R
OUT2 G
B
SDI-BUF
SCKI-BUF
3108
1
2
SCKI-BUF
3
4
14
17
10p
2105
100R
R
OUT3 G
B
SDTI
SCKI
NC
VIA
SDI
18
GND
3109
SDTO
SCKO
PWM2-R1
PWM2-G1
PWM2-B1
22
23
24
PWM2-R2
PWM2-G2
PWM2-B2
7
8
9
PWM2-R3
PWM2-G3
PWM2-B3
10
11
12
PWM2-R4
PWM2-G4
PWM2-B4
6
5
3110
220R
26
27
28
29
SDO
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
9112
F116
9111
F009
AMBI-TEMP
SCKI
SDO
9113
+3V3
FH34SRJ-26S-0.5SH(50)
1A04
GND_HS
25
SCKI
10K
3112
3111
SCKI
19
20
21
100p
1u0
2107
2103
7101
TLC5971RGE
13
+3V3AL
SDI-BUF
100R
F011
10p
AL1
2106
10-13-1
F008
F012
F013
F014
F015
1X00
310430135421
3
10 LED Master LiteOn
2012-08-30
3104 313 6606
19370_051_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 210
AL2, 10 LED Master LiteOn
10 LED Master LiteOn
AL2
3202-2
3202-3
PWM2-R4
22R
2
560R
3201-2
6
5
BLUE
6
5
BLUE
6
1
GREEN
2
1
GREEN
2
1
GREEN
2
3
1 3201-1 8
BLUE
RED
4
3
RED
4
3
RED
4
+12V
2201
PWM2-G4
5
7
560R
3
3201-3
100n
22R
2202
3202-4
22R
7003
100n
3202-1
PWM2-B4
7002
7001
22R
6
560R
4 3201-4 5
560R
3205-1
3205-3
22R
3205-4
22R
5
BLUE
6
2
1
GREEN
2
3
8 3204-1 1
6
RED
4
3
RED
4
+12V
560R
2203
7 3204-2 2
560R
100n
PWM2-R3
BLUE
GREEN
2204
PWM2-G3
5
1
100n
22R
PWM2-B3
7005
7004
22R
3205-2
6 3204-3 3
560R
5 3204-4 4
560R
3207-1
22R
PWM2-G2
3207-4
PWM2-R2
5
BLUE
2
1
GREEN
2
4
3
RED
4
5
22R
7
560R
3206-2
6
1
GREEN
3
8 3206-1 1
BLUE
RED
6
+12V
2
560R
6
3206-3
100n
3207-3
2206
3207-2
22R
PWM2-B2
7007
7006
22R
100n
3
560R
5 3206-4 4
560R
3209-1
22R
3209-4
22R
5
8
3208-1
1
BLUE
6
5
BLUE
6
5
BLUE
6
1
GREEN
2
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
3
RED
4
+12V
560R
7 3208-2 2
560R
100n
PWM2-R1
3209-3
22R
2208
PWM2-G1
3209-2
7010
100n
PWM2-B1
7009
7008
22R
2207
AL2
2205
10-13-2
QFU1.2E LA
6 3208-3 3
560R
5 3208-4 4
3
560R
10 LED Master LiteOn
2012-08-30
3104 313 6606
19370_052_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 211
10.14 310431366171 AmbiLight
AL1, 6 LED LiteOn
6 LED LiteOn
AL1
AL1
2101
+3V3
F007
9109
+3V3
+3V3AL
3103
10K
+3V3
RES
9106
7102
F010
1
5
F006
-T
9105
10K 1%
27K
6101
9107
4
F004
LMV321AP5X
AMBI-TEMP
BAT54 COL
18K 1%
3107
2
F002
-T 10K
3K3 1%
3105
RES
3106
F001
9101
100n
2104
3
AMBI-TEMP
F003
SCKI
F005
SDI
9108
+3V3
9102
+12V
27
9103
+3V3
+12V
2102
28
100n
16
VREG
IREF
R
OUT0 G
B
3104
R
OUT1 G
B
1K5 1%
SDI
10K
R
OUT2 G
B
SDI-BUF
SCKI-BUF
3108
1
2
SCKI-BUF
3
4
14
17
10p
2105
100R
R
OUT3 G
B
SDTI
SCKI
NC
VIA
SDI
18
GND
3109
SDTO
SCKO
PWM2-R1
PWM2-G1
PWM2-B1
22
23
24
PWM2-R2
PWM2-G2
PWM2-B2
7
8
9
PWM2-R3
PWM2-G3
PWM2-B3
10
11
12
PWM2-R4
PWM2-G4
PWM2-B4
6
5
26
27
28
29
3110
220R
SDO
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
9112
F116
9111
F009
AMBI-TEMP
SCKI
SDO
9113
+3V3
FH34SRJ-26S-0.5SH(50)
1A04
GND_HS
25
SCKI
10K
3112
3111
SCKI
19
20
21
100p
1u0
VCC
15
2107
2103
7101
TLC5971RGE
13
+3V3AL
SDI-BUF
100R
F011
10p
28
+3V3
3102
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
100n
3101
+12V
1A02
FH34SRJ-26S-0.5SH(50)
2106
10-14-1
F008
F012
F013
F014
F015
1X00
310430135421
1
6 LED LiteOn
2012-11-26
3104 313 6617
19374_001_130827.eps
130827
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 212
AL2, 6 LED LiteOn
6 LED LiteOn
AL2
3202-3
BLUE
6
1 3201-1 8
GREEN
2
1
GREEN
RED
4
3
RED
22R
2
560R
3201-2
3
5
BLUE
6
2
1
GREEN
2
4
3
RED
4
+12V
7
560R
3
3201-3
100n
3202-2
5
BLUE
1
PWM2-G2
PWM2-R2
6
5
2202
22R
100n
3202-1
7003
2201
3202-4
22R
PWM2-B2
7002
7001
22R
6
560R
4 3201-4 5
560R
3205-1
3205-3
22R
5
22R
8 3204-1 1
6
5
BLUE
6
5
BLUE
6
GREEN
2
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
3
RED
4
+12V
560R
7 3204-2 2
560R
100n
3205-4
BLUE
1
PWM2-G1
PWM2-R1
7006
2204
3205-2
22R
PWM2-B1
7005
7004
22R
100n
AL2
2203
10-14-2
QFU1.2E LA
6 3204-3 3
560R
5 3204-4 4
560R
1
6 LED LiteOn
2012-11-26
3104 313 6617
19374_002_130827.eps
130827
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 213
10.15 310431366292 AmbiLight
AL1, 7 LED Everlight
7 LED Everlight
AL1
2101
+3V3
+3V3
F007
9109
+3V3AL
3103
10K
+3V3
RES
9106
7102
F010
1
5
F006
+3V3
-T
9105
10K 1%
27K
3102
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
100n
3101
+12V
1A02
FH34SRJ-26S-0.5SH(50)
6101
9107
4
F004
2
LMV321AP5X
AMBI-TEMP
BAT54 COL
18K 1%
3107
3105
3K3 1%
-T 10K
F002
RES
3106
F001
9101
100n
2104
3
AMBI-TEMP
F003
SCKI
F005
SDI
9104
+3V3
28
9102
+12V
27
9103
+3V3
+12V
2102
28
100n
VCC
15
16
VREG
IREF
R
OUT0 G
B
3104
R
OUT1 G
B
1K5 1%
SDI
10K
R
OUT2 G
B
SDI-BUF
SCKI-BUF
3108
1
2
SCKI-BUF
3
4
14
17
10p
2105
100R
R
OUT3 G
B
SDTI
SCKI
NC
VIA
SDI
18
GND
3109
SDTO
SCKO
PWM2-R1
PWM2-G1
PWM2-B1
22
23
24
PWM2-R2
PWM2-G2
PWM2-B2
7
8
9
PWM2-R3
PWM2-G3
PWM2-B3
10
11
12
PWM2-R4
PWM2-G4
PWM2-B4
6
5
3110
220R
26
27
28
29
SDO
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
9112
F116
9111
F009
AMBI-TEMP
SCKI
SDO
9113
+3V3
FH34SRJ-26S-0.5SH(50)
1A04
GND_HS
25
SCKI
10K
3112
3111
SCKI
19
20
21
100p
1u0
2107
2103
7101
TLC5971RGE
13
+3V3AL
SDI-BUF
100R
F011
10p
AL1
2106
10-15-1
F008
F012
F013
F014
F015
1X00
310430135421
2
7 LED Everlight
2012-09-11
3104 313 6629
19370_053_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 214
AL2, 7 LED Everlight
7 LED Everlight
AL2
3202-2
7001
P5018/RSSGBB7W-M01/1G
22R
3202-3
PWM2-R3
5
22R
2
560R
3201-2
6
5
BLUE
6
GREEN
2
1
GREEN
2
3
1 3201-1 8
BLUE
1
RED
4
3
RED
4
+12V
7
560R
3
3201-3
100n
22R
PWM2-G3
2202
3202-4
22R
100n
3202-1
PWM2-B3
7002
P5018/RSSGBB7W-M01/1G
2201
6
560R
4 3201-4 5
560R
3205-1
7003
P5018/RSSGBB7W-M01/1G
22R
3205-3
22R
5
3205-4
PWM2-R2
22R
6
5
BLUE
6
5
BLUE
6
GREEN
2
1
GREEN
2
1
GREEN
2
3
8 3204-1 1
BLUE
1
RED
4
3
RED
4
3
RED
4
+12V
560R
2203
7 3204-2 2
560R
100n
22R
2204
PWM2-G2
3205-2
100n
PWM2-B2
7005
P5018/RSSGBB7W-M01/1G
7004
P5018/RSSGBB7W-M01/1G
6 3204-3 3
560R
5 3204-4 4
560R
3206-1
7006
P5018/RSSGBB7W-M01/1G
22R
PWM2-R1
3206-3
22R
22R
3206-4
5
8 3207-1 1
22R
7
560R
3207-2
BLUE
6
5
BLUE
6
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
2
560R
6
3207-3
+12V
100n
PWM2-G1
3206-2
2206
PWM2-B1
7007
P5018/RSSGBB7W-M01/1G
100n
AL2
2205
10-15-2
QFU1.2E LA
3
560R
5 3207-4 4
560R
2
7 LED Everlight
2012-09-11
3104 313 6629
19370_054_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 215
10.16 310431366302 AmbiLight
AL1, 8 LED Everlight
8 LED Everlight
AL1
2101
+3V3
+3V3
F007
9109
+3V3
+3V3AL
3103
10K
+3V3
RES
9106
7102
F010
1
5
F006
-T
9105
10K 1%
27K
3102
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
100n
3101
+12V
1A02
FH34SRJ-26S-0.5SH(50)
6101
9107
4
F002
F004
2
LMV321AP5X
AMBI-TEMP
BAT54 COL
18K 1%
3107
3105
3K3 1%
-T 10K
F001
RES
3106
9101
100n
2104
3
AMBI-TEMP
F003
SCKI
F005
SDI
9104
+3V3
28
9102
+12V
27
9103
+3V3
+12V
2102
28
100n
15
16
VREG
IREF
R
OUT0 G
B
3104
R
OUT1 G
B
1K5 1%
SDI
10K
R
OUT2 G
B
SDI-BUF
SCKI-BUF
3108
1
2
SCKI-BUF
3
4
14
17
10p
2105
100R
R
OUT3 G
B
SDTI
SCKI
NC
VIA
SDI
18
GND
3109
SDTO
SCKO
PWM2-R1
PWM2-G1
PWM2-B1
22
23
24
PWM2-R2
PWM2-G2
PWM2-B2
7
8
9
PWM2-R3
PWM2-G3
PWM2-B3
10
11
12
PWM2-R4
PWM2-G4
PWM2-B4
6
5
26
27
28
29
3110
220R
SDO
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
9112
F116
9111
F009
AMBI-TEMP
SCKI
SDO
9113
+3V3
FH34SRJ-26S-0.5SH(50)
1A04
GND_HS
25
SCKI
10K
3112
3111
SCKI
19
20
21
100p
1u0
VCC
2107
2103
7101
TLC5971RGE
13
+3V3AL
SDI-BUF
100R
F011
10p
AL1
2106
10-16-1
F008
F012
F013
F014
F015
1X00
310430135421
2
8 LED Everlight
2012-09-11
3104 313 6630
19370_055_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 216
AL2, 8 LED Everlight
8 LED Everlight
AL2
3202-2
2
1
4
3
22R
2
560R
3201-2
GREEN
3
1 3201-1 8
6
RED
6
5
BLUE
6
GREEN
2
1
GREEN
2
RED
4
3
RED
4
+12V
2201
3202-3
BLUE
BLUE
1
PWM2-G3
PWM2-R3
5
5
7
560R
3
3201-3
100n
22R
2202
3202-4
22R
7003
P5018/RSSGBB7W-M01/1G
100n
3202-1
PWM2-B3
7002
P5018/RSSGBB7W-M01/1G
7001
P5018/RSSGBB7W-M01/1G
22R
6
560R
4 3201-4 5
560R
3205-1
7004
P5018/RSSGBB7W-M01/1G
22R
3205-3
22R
22R
5
3205-4
PWM2-R2
22R
6
5
BLUE
6
GREEN
2
1
GREEN
2
3
8 3204-1 1
BLUE
1
RED
4
3
RED
4
+12V
560R
7 3204-2 2
560R
100n
PWM2-G2
3205-2
2204
PWM2-B2
7005
P5018/RSSGBB7W-M01/1G
100n
6 3204-3 3
560R
5 3204-4 4
560R
3206-1
22R
3206-4
5
22R
7
560R
3207-2
6
5
BLUE
6
5
BLUE
6
1
8 3207-1 1
BLUE
GREEN
2
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
3
RED
4
2
560R
6
3207-3
+12V
100n
PWM2-R1
3206-3
22R
2206
PWM2-G1
3206-2
7008
P5018/RSSGBB7W-M01/1G
100n
PWM2-B1
7007
P5018/RSSGBB7W-M01/1G
7006
P5018/RSSGBB7W-M01/1G
22R
2205
AL2
2203
10-16-2
QFU1.2E LA
3
560R
5 3207-4 4
560R
2
8 LED Everlight
2012-09-11
3104 313 6630
19370_056_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 217
10.17 310431366312 AmbiLight
AL1, 9 LED Everlight
9 LED Everlight
AL1
2101
+3V3
+3V3
F007
9109
+3V3
+3V3AL
3103
10K
+3V3
RES
9106
7102
F010
1
5
F006
-T
9105
10K 1%
27K
3102
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
100n
3101
+12V
1A02
FH34SRJ-26S-0.5SH(50)
6101
9107
4
F004
2
LMV321AP5X
AMBI-TEMP
BAT54 COL
18K 1%
3107
3105
3K3 1%
-T 10K
F002
RES
3106
F001
9101
100n
2104
3
AMBI-TEMP
F003
SCKI
F005
SDI
9104
+3V3
28
9102
+12V
27
9103
+3V3
+12V
2102
28
100n
15
16
VREG
IREF
R
OUT0 G
B
3104
R
OUT1 G
B
1K5 1%
SDI
10K
R
OUT2 G
B
SDI-BUF
SCKI-BUF
3108
1
2
SCKI-BUF
3
4
14
17
10p
2105
100R
R
OUT3 G
B
SDTI
SCKI
NC
VIA
SDI
18
GND
3109
SDTO
SCKO
PWM2-R1
PWM2-G1
PWM2-B1
22
23
24
PWM2-R2
PWM2-G2
PWM2-B2
7
8
9
PWM2-R3
PWM2-G3
PWM2-B3
10
11
12
PWM2-R4
PWM2-G4
PWM2-B4
6
5
3110
220R
26
27
28
29
SDO
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
9112
F116
9111
F009
AMBI-TEMP
SCKI
SDO
9113
+3V3
FH34SRJ-26S-0.5SH(50)
1A04
GND_HS
25
SCKI
10K
3112
3111
SCKI
19
20
21
100p
1u0
VCC
2107
2103
7101
TLC5971RGE
13
+3V3AL
SDI-BUF
100R
F011
10p
AL1
2106
10-17-1
F008
F012
F013
F014
F015
1X00
310430135421
2
9 LED Everlight
2012-09-11
3104 313 6631
19370_057_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
10.
EN 218
AL2, 9 LED Everlight
9 LED Everlight
AL2
3202-2
5
PWM2-R3
22R
2
560R
3201-2
5
BLUE
6
5
BLUE
6
2
1
GREEN
2
1
GREEN
2
3
1 3201-1 8
6
GREEN
RED
4
3
RED
4
3
RED
4
+12V
2201
3202-3
BLUE
1
7
560R
3
3201-3
100n
22R
PWM2-G3
2202
3202-4
22R
7003
P5018/RSSGBB7W-M01/1G
100n
3202-1
PWM2-B3
7002
P5018/RSSGBB7W-M01/1G
7001
P5018/RSSGBB7W-M01/1G
22R
6
560R
4 3201-4 5
560R
3205-1
3205-3
22R
5
3205-4
22R
5
BLUE
6
5
BLUE
6
2
1
GREEN
2
1
GREEN
2
RED
4
3
RED
4
3
RED
4
+12V
560R
100n
560R
7 3204-2 2
2204
PWM2-R2
8 3204-1 1
6
GREEN
3
PWM2-G2
BLUE
1
100n
3205-2
22R
PWM2-B2
7006
P5018/RSSGBB7W-M01/1G
7005
P5018/RSSGBB7W-M01/1G
7004
P5018/RSSGBB7W-M01/1G
22R
2203
6 3204-3 3
560R
5 3204-4 4
560R
3206-1
7007
P5018/RSSGBB7W-M01/1G
22R
PWM2-R1
3206-3
22R
22R
3206-4
5
8 3207-1 1
22R
7
560R
3207-2
BLUE
6
5
BLUE
6
5
BLUE
6
1
GREEN
2
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
3
RED
4
2
560R
6
3207-3
+12V
100n
PWM2-G1
3206-2
2206
PWM2-B1
7009
P5018/RSSGBB7W-M01/1G
7008
P5018/RSSGBB7W-M01/1G
100n
AL2
2205
10-17-2
QFU1.2E LA
3
560R
5 3207-4 4
560R
2
9 LED Everlight
2012-09-11
3104 313 6631
19370_058_130131.eps
130131
2014-Jan-10 back to
div. table
�Circuit Diagrams and PWB Layouts
QFU1.2E LA
10.
EN 219
10.18 310431366372 AmbiLight
AL1, Q LED panel
Q LED panel
AL1
AL1
IN
+3V3
28 27
10K
10K
3211
3210
3219
3215
100R
3214
SCKI-BUF
+3V3
9222
F210
7209
LMV321AP5X
4
5
3212
SCKI
-T 10K
+12V
10K
1%
27K
8
7
6
5
1
6201
3
SCKI
F208
+3V3
9220
F209
3213
SDI
+3V3AL
SDI-BUF
100R
SDI
2
AMBI-TEMP
AMBI-TEMP
BAT54 COL
18K 1%
SDI
+3V3
3218
F205
9219
100n
+3V3
3217
SCKI
9229
9231-1
9231-2
9231-3
9231-4
2221
-T 10K
F204
1
2
3
4
8
7
6
5
3K3 1%
AMBI-TEMP
F203
502382-0670
9226-1
9226-2
9226-3
9226-4
100n
F202
1
2
3
4
8
FH34SRJ-26S-0.5SH(50)
SCKI
3216
9218
7
+12V
3.0A 32V
2220
F201
T
10p
+12V
9228
SDI
+12VAL F206 1201
2218
9217
1
2
3
4
5
6
10p
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
2219
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
OUT
1M09
1A05
1A02
9230
9221
10-18-1
+3V3
28 27
FH34SRJ-26S-0.5SH(50)
FH34SRJ-26S-0.5SH(50)
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
28 27
9223
F211
+12V
9224
F212
AMBI-TEMP
SCKI
SDO
9225
+3V3
1A04
2nd driver
9211
1K5 1%
R
OUT1 G
B
R
OUT2 G
B
SDTO
SCKO
NC
VIA
PWM1-R2
PWM1-G2
PWM1-B2
7
8
9
10
11
12
13
PWM1-R3
PWM1-G3
PWM1-B3
PWM1-R4
PWM1-G4
PWM1-B4
3206
15
16
VREG
IREF
R
OUT0 G
B
1% 1K5
R
OUT1 G
B
R
OUT2 G
B
1
2
6
5
26
27
28
29
3
4
14
17
R
OUT3 G
B
SDTI
SCKI
SDTO
SCKO
NC
VIA
19
20
21
PWM2-R1
PWM2-G1
PWM2-B1
22
23
24
PWM2-R2
PWM2-G2
PWM2-B2
7
8
9
PWM2-R3
PWM2-G3
PWM2-B3
10
11
12
13
22
23
24
1u0
PWM2-R4
PWM2-G4
PWM2-B4
1u0
3202
15
16
VREG
R
OUT0 G
B
IREF
1K5 1%
R
OUT1 G
B
R
OUT2 G
B
6
5
1
2
26
27
28
29
3
4
14
17
R
OUT3 G
B
SDTI
SCKI
SDTO
SCKO
NC
VIA
GND_HS
GND
100n
7203
TLC5971RGE
VCC
2204
1X00
310430135421
+3V3
2205
7202
TLC5971RGE
VCC
2212
9206
+3V3AL
19
20
21
PWM3-R1
PWM3-G1
PWM3-B1
22
23
24
PWM3-R2
PWM3-G2
PWM3-B2
7
8
9
2206
1u0
3203
15
16
VREG
IREF
PWM3-R3
PWM3-G3
PWM3-B3
10
11
12
VCC
PWM3-R4
PWM3-G4
PWM3-B4
R
OUT0 G
B
1K5 1%
R
OUT1 G
B
R
OUT2 G
B
6
5
1
2
26
27
28
29
3
4
14
17
R
OUT3 G
B
SDTI
SCKI
SDTO
SCKO
NC
VIA
GND_HS
GND
19
20
21
PWM4-R1
PWM4-G1
PWM4-B1
22
23
24
PWM4-R2
PWM4-G2
PWM4-B2
7
8
9
PWM4-R3
PWM4-G3
PWM4-B3
10
11
12
PWM4-R4
PWM4-G4
PWM4-B4
6
5
26
27
28
29
3209
SDO
220R
GND_HS
GND
18
GND
100n
25
3
4
14
17
SDTI
SCKI
PWM1-R1
PWM1-G1
PWM1-B1
25
1
2
18
SDI-BUF
SCKI-BUF
R
OUT3 G
B
19
20
21
9205
+12V
+3V3AL
18
IREF
R
OUT0 G
B
25
VREG
100n
18
15
16
+3V3
2203
7206
TLC5971RGE
VCC
1u0
3201
4th driver
9204
9203
+12V
+3V3AL
13
7201
TLC5971RGE
2202
3rd driver
+3V3
2211
100n
100p
9212
+12V
2217
+3V3
2201
GND_HS
25
9202
+3V3AL
13
1st driver
9201
+12V
1X01
310430135421
2
Q LED panel
2012-11-30
1
2012-08-30
3104 313 6637
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2014-Jan-10 back to
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�Circuit Diagrams and PWB Layouts
10.
EN 220
AL2, Q LED panel
AL2
Q LED panel
3001-1
PWM1-B1
1
8
2
7
3017-1
22R
7T01
LTW-G45T-PH
7T02
LTW-G45T-PH
7T03
LTW-G45T-PH
3001-3
3
6
22R
5
BLUE
6
5
BLUE
6
5
BLUE
4
5
22R
1
GREEN
2
1
GREEN
2
1
GREEN
RED
4
3
RED
4
3
RED
22R
9T00-2
9T00-1
9T00-3
2
7
22R
7T19
LTW-G45T-PH
PWM3-B1
+12V
2
3
8
6
3001-4
1
3017-2
22R
3001-2
AL2
4
7T20
LTW-G45T-PH
7T21
LTW-G45T-PH
3017-3
3
6
22R
5
BLUE
6
5
BLUE
6
5
BLUE
3017-4
4
5
22R
1
GREEN
2
1
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
3
RED
+12V
6
4
PWM3-G1
560R
3002-3
3
6
4
5
1
8
22R
3003-2
2
7
7T06
LTW-G45T-PH
3
6
4
5
6
5
BLUE
6
5
BLUE
8
GREEN
2
1
GREEN
2
1
GREEN
3
6
3004-4
4
3005-1
3005-2
8
22R
7
22R
7T22
LTW-G45T-PH
4
3
RED
4
3
RED
1
2
4
BLUE
6
5
BLUE
6
5
BLUE
6
GREEN
2
1
GREEN
2
1
GREEN
2
RED
4
3
RED
4
3
RED
4
8 220R
3021-2
2
RED
7 220R
6
6
5
BLUE
GREEN
2
1
GREEN
2
1
GREEN
2
3021-3
4
3
RED
4
3
RED
100n
2006
100n
3022-1
1
8
+12V
5 220R
4
560R
7T27
LTW-G45T-PH
6 220R
4
PWM3-G3
2005
8
RED
3
3021-4
3
7T26
LTW-G45T-PH
7T25
LTW-G45T-PH
PWM3-B3
22R
PWM1-G3
1
+12V
6
22R
5
BLUE
750R
750R
3006-2
2
7
560R
3022-2
2
7
3006-3
3
6
560R
3022-3
3
6
750R
3006-4
4
5
560R
3022-4
4
5
750R
3007-1
1
8
22R
3031-1
1
8 220R
3007-2
2
7
22R
3031-2
2
2021
3
4
5
1
3005-3
3005-4
6
100n
7T09
LTW-G45T-PH
BLUE
2022
7T08
LTW-G45T-PH
5
100n
7T07
LTW-G45T-PH
PWM1-B3
PWM3-R2
100n
3021-1
22R
GREEN
3
2020
22R
7
1
4
100n
8
2
2
RED
560R
1
GREEN
3
2019
5
1
4
560R
4
100n
6
3020-4
2004
3
560R
100n
3020-3
5
2
RED
560R
560R
GREEN
+12V
6
560R
2003
8
7
BLUE
3
1
2
5
1
4
3020-2
6
22R
PWM3-G2
3020-1
BLUE
22R
5
5
5
6
4
6
3
3
3019-4
BLUE
1
3019-3
RED
7T24
LTW-G45T-PH
7T23
LTW-G45T-PH
5
2
PWM1-R2
3006-1
1
2
PWM3-B2
22R
560R
3004-3
560R
3019-1
+12V
560R
7
560R
5
6
3
2
6
4
22R
3003-4
BLUE
1
3003-3
PWM1-G2
1
3
3019-2
7T05
LTW-G45T-PH
7T04
LTW-G45T-PH
5
3004-2
560R
3018-3
22R
PWM1-B2
3004-1
7
PWM3-R1
560R
3003-1
2
3018-4
560R
3002-4
560R
3018-2
PWM1-R1
8
100n
7
1
2018
2
100n
3002-2
3018-1
2017
560R
100n
8
2002
1
2001
3002-1
100n
PWM1-G1
7 220R
5
3
6
4
5
5
BLUE
6
5
BLUE
GREEN
2
1
GREEN
2
1
GREEN
RED
4
3
RED
4
560R
3032-1
100n
8
3
2008
1
4
1
8
5
BLUE
6
5
BLUE
GREEN
2
1
GREEN
2
1
GREEN
2
RED
4
3
RED
4
3
RED
+12V
6
4
6 220R
4
5 220R
PWM3-G4
100n
3008-1
RED
3
3031-4
6
1
3031-3
BLUE
3
2
3
7T30
LTW-G45T-PH
7T29
LTW-G45T-PH
5
6
22R
PWM1-G4
7T28
LTW-G45T-PH
PWM3-B4
22R
3007-4
6
1
3007-3
BLUE
+12V
750R
750R
3008-2
2
7
560R
3032-2
2
7
3008-3
3
6
560R
3032-3
3
6
750R
3008-4
4
5
560R
3032-4
4
5
100n
7T12
LTW-G45T-PH
2032
7T11
LTW-G45T-PH
100n
7T10
LTW-G45T-PH
PWM1-B4
PWM3-R3
2031
PWM1-R3
2007
10-18-2
QFU1.2E LA
750R
PWM1-R4
PWM3-R4
2
Q LED panel
2012-11-30
1
2012-08-30
3104 313 6637
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2014-Jan-10 back to
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�Circuit Diagrams and PWB Layouts
10.
EN 221
AL3, Q LED panel
Q LED panel
7T13
LTW-G45T-PH
7T14
LTW-G45T-PH
7T15
LTW-G45T-PH
BLUE
6
BLUE
5
6
BLUE
5
3
6
3009-4
4
5
22R
1
GREEN
2
1
GREEN
3
RED
4
3
RED
3
6
4
5
560R
5
1
8
3011-2
2
7
PWM2-B2
3
6
3011-4
7T17
LTW-G45T-PH
100n
2010
100n
7T18
LTW-G45T-PH
BLUE
6
5
BLUE
6
BLUE
5
4
5
22R
3
6
GREEN
2
1
GREEN
2
1
GREEN
7T34
LTW-G45T-PH
4
3
RED
4
3
RED
4
3025-3
3
6
560R
4
5
100n
2012
2
7
6
5
8
7
6
5
BLUE
GREEN
2
1
GREEN
2
1
GREEN
2
RED
4
3
RED
4
3
RED
+12V
6
4
22R
22R
2
BLUE
560R
1
5
560R
4
6
560R
3
3027-2
100n
3026-2
BLUE
560R
3027-1
2011
8
3026-4
22R
PWM4-R2
9B06-1
9B06-2
9B06-3
560R
7B06
LTW-G45T-PH
PWM4-B3
7B07
LTW-G45T-PH
7B08
LTW-G45T-PH
5
2
7
7S02
LTW-G45T-PH
5
BLUE
6
9208-3
5
BLUE
6
5
BLUE
6
1
GREEN
2
9208-2
1
GREEN
2
1
GREEN
2
3
5
RED
4
9208-1
3
RED
4
3
RED
4
7
6
5
8
7
2
RED
4
22R
2
GREEN
3
560R
1
1
4
560R
4
2
RED
560R
3
GREEN
3
22R
560R
3014-3
3
6
560R
3014-4
4
5
100n
7
PWM2-R3
2014
560R
100n
2
2
3028-3
1
4
PWM4-R3
2013
3014-2
8
3028-2
22R
2
RED
22R
560R
3029-2
4
3028-1
GREEN
+12V
6
22R
5
BLUE
22R
3013-4
8
3029-1
6
1
3028-4
3
PWM2-G3
1
6
4
22R
3013-3
3014-1
3
3027-4
PWM4-G3
+12V
5
560R
7B10
LTW-G45T-PH
PWM4-B4
7S04
LTW-G45T-PH
7S03
LTW-G45T-PH
5
6
5
+12V
3030-1
3030-3
3030-4
BLUE
1
GREEN
2
7
6
5
GREEN
2
9S03-2
1
GREEN
2
1
GREEN
2
RED
4
9S03-3
3
RED
4
3
RED
4
22R
560R
100n
7B09
LTW-G45T-PH
2
RED
4
100n
22R
7
GREEN
3
2034
8
2
1
+12V
6
9B10-2
1
BLUE
9B10-3
3015-2
5
2033
9B10-4
100n
2035
4
2036
RED
3
PWM4-R4
100n
9209-3
3015-1
+12V
6
560R
4
BLUE
560R
3
5
560R
2
6
6
9209-2
8
BLUE
2029
5
1
3030-2
9209-1
5
22R
4
9S03-1
1
3
6
3
3029-3
3029-4
PWM4-G4
7B02
LTW-G45T-PH
BLUE
100n
3013-2
7S01
LTW-G45T-PH
7B01
LTW-G45T-PH
6
3
22R
BLUE
2030
8
5
2027
1
6
1
3027-3
3013-1
PWM2-B3
BLUE
100n
5
1
3026-3
PWM2-R2
4
7T36
LTW-G45T-PH
22R
3025-4
PWM4-G2
3026-1
3012-4
7T35
LTW-G45T-PH
1
2
RED
560R
3012-3
22R
560R
7
4
5
3
2
+12V
6
1
3012-2
2
RED
22R
7
GREEN
3
560R
22R
PWM2-G2
8
8
2
1
4
3
3011-3
1
1
2
RED
560R
3025-1
GREEN
3
PWM4-B2
5
3012-1
5
1
4
560R
4
2
RED
560R
6
3025-2
22R
7T16
LTW-G45T-PH
7
3024-4
2009
22R
2
3
GREEN
+12V
6
PWM4-R1
9T18-2
9T18-3
9T18-1
560R
3011-1
+12V
BLUE
100n
4
3024-2
3024-3
PWM2-R1
8
5
22R
PWM4-G1
1
6
22R
3023-4
4
BLUE
1
3023-3
2
4
3024-1
3010-4
7T33
LTW-G45T-PH
5
2028
6
7T32
LTW-G45T-PH
6
100n
3
2
RED
560R
3010-3
7T31
LTW-G45T-PH
BLUE
2023
7
22R
560R
2
GREEN
3
3010-2
22R
7
5
1
8
8
2
22R
PWM2-G1
1
1
3023-2
6
3
3009-3
3010-1
3023-1
+12V
PWM4-B1
5
100n
22R
2024
22R
7
100n
8
2
100n
1
3009-2
PWM2-B1
2026
3009-1
AL3
100n
AL3
2025
10-18-3
QFU1.2E LA
22R
7B05
LTW-G45T-PH
7B04
LTW-G45T-PH
7B03
LTW-G45T-PH
PWM2-B4
5
6
GREEN
2
1
GREEN
2
3
RED
4
3
RED
4
560R
6
1
4
560R
PWM2-R4
+12V
3016-4
4
5
560R
100n
7
3
2
RED
2016
2
3016-3
GREEN
+12V
6
560R
3016-2
BLUE
100n
8
5
2015
1
6
22R
PWM2-G4
3016-1
BLUE
22R
5
5
3
3
4
6
1
3015-3
3015-4
BLUE
9B18-2
9B18-3
9B18-1
2
Q LED panel
2012-11-30
1
2012-08-30
3104 313 6637
19374_005_130828.eps
130828
2014-Jan-10 back to
div. table
�Styling Sheets
QFU1.2E LA
11.
EN 222
11. Styling Sheets
11.1
6000 series 42 " /47 "
6000 series 42 " /47 "
0056
0155
1163
1111
0013
1010
1164
0112
1050
0453
5211
1020
5211
Pos No.
0007
0009
0013
0030
0056
0112
0155
0271
0453
1004
1010
1012
1020
1050
1111
1163
1164
1185
5211
1012
0007
0030
0009
1004
Description
Alu decoration frame
Leading edge
Back cover
Leading edge assembly
Leading edge cover
Standplate fixing
Stand assembly
3D glasses, 2 pieces
V0 sheet
LCD panel
Control board
WiFi sensor module
RF4CE module
Power supply
SSB
AmbiLight left
AmbiLight right
Remote control
Loudspeaker combination
Remarks
Not displayed
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
19370_069_130205.eps
130205
2014-Jan-10 back to
div. table
�Styling Sheets
11.2
QFU1.2E LA
11.
EN 223
7000 series 42 " /47 "
7000 series 42 " /47 "
1170
0056
0155
1163
1111
1172
0013
1010
0112
0453
5211
1164
1050
1020
5211
Pos No.
0007
0013
0030
0056
0112
0155
0271
0453
1004
1010
1012
1020
1028
1050
1111
1163
1164
1170
1172
1185
5211
1012
0007
0030
1004
Description
Alu decoration frame
Back cover
Leading edge assembly
Leading edge cover
Standplate fixing
Stand assembly
3D glasses, 2 pieces
V0 sheet
LCD panel
Control board
WiFi sensor module
RF4CE module
Skype camera
Power supply
SSB
AmbiLight left
AmbiLight right
AmbiLight top left
AmbiLight top right
Remote control
Loudspeaker combination
Remarks
Not displayed
Not displayed
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
19370_070_130205.eps
130205
2014-Jan-10 back to
div. table
�Styling Sheets
11.3
QFU1.2E LA
11.
EN 224
8000 series 40 " /46 "
8000 series 40 " /46 "
1170
0056
1050
1163
0155
5211
1172
1111
0013
1010
0453
1164
1020
5211
0112
Pos No.
0007
0013
0030
0056
0112
0155
0271
0453
1004
1010
1012
1020
1028
1050
1111
1163
1164
1170
1172
1185
5211
1012
1028
1004
0030
0007
Description
Alu decoration frame
Back cover
Leading edge assembly
Leading edge cover
Standplate fixing
Stand assembly
3D glasses, 2 pieces
V0 sheet
LCD panel
Control board
WiFi sensor module
RF4CE module
Skype camera
Power supply
SSB
AmbiLight left
AmbiLight right
AmbiLight top left
AmbiLight top right
Remote control
Loudspeaker combination
Remarks
Not displayed
Not displayed
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
19371_002_130404.eps
130404
2014-Jan-10 back to
div. table
�Styling Sheets
11.4
QFU1.2E LA
11.
EN 225
8000 Design series 46 "
8000 Design series 46 "
1172
1170
0155
0116
0101
1111
0100
1163
5211
1020
0103
0117
0011
1010
1050
0453
1164
0100
1012
0102
0030
1004
Pos No.
0007
0011
0030
0094
0100
0101
0102
0103
0116
0117
0155
0452
0453
1004
1010
1012
1020
1050
1111
1127
1163
1164
1170
1172
1185
5211
0094
0007
Description
Front glass
Back cover
Leading edge assembly
Bottom edge profil
Fix profil side
Fix profil top
Fix profil bottom left
Fix profil bottom right
Side I/O assembly
Bottom I/O assembly
Wallmount assembly
V0 sheet mains inlet
V0 sheet power supply
LCD panel
Control board
WiFi sensor module
RF4CE module
Power supply
SSB
Active 3D glasses
9 LED AmbiLight
9 LED AmbiLight
9 LED AmbiLight
9 LED AmbiLight
Remote control
Loudspeaker combination
Remarks
Not displayed
Not displayed
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
19374_017_131210.eps
131210
2014-Jan-10 back to
div. table
�Styling Sheets
11.5
QFU1.2E LA
11.
EN 226
6000 series 55 " /60 "
6000 series 55 " /60 "
Not available at time of issue
Pos No.
0007
0009
0013
0030
0056
0112
0155
0271
0453
1004
1010
1012
1020
1050
1111
1163
1164
1185
5211
Description
Alu decoration frame
Leading edge
Back cover
Leading edge assembly
Leading edge cover
Standplate fixing
Stand assembly
3D glasses, 2 pieces
V0 sheet
LCD panel
Control board
WiFi sensor module
RF4CE module
Power supply
SSB
AmbiLight left
AmbiLight right
Remote control
Loudspeaker combination
Remarks
Not displayed
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
19370_071_130205.eps
130205
2014-Jan-10 back to
div. table
�Styling Sheets
11.6
QFU1.2E LA
11.
EN 227
7000 series 55 "
7000 series 55 "
0056
0155
1170
1171
1163
1172
1111
0013
1010
1164
0112
1050
1020
5211
1012
Pos No.
0453
0007
0013
0030
0056
0112
0155
0271
0453
1004
1010
1012
1020
1028
1050
1111
1163
1164
1170
1171
1172
1185
5211
5211
1028
0007
0030
1004
Description
Alu decoration frame
Back cover
Leading edge assembly
Leading edge cover
Standplate fixing
Stand assembly
3D glasses, 2 pieces
V0 sheet
LCD panel
Control board
WiFi sensor module
RF4CE module
Skype camera
Power supply
SSB
AmbiLight left
AmbiLight right
AmbiLight top left
AmbiLight top middle
AmbiLight top right
Remote control
Loudspeaker combination
Remarks
Not displayed
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
19370_072_130205.eps
130205
2014-Jan-10 back to
div. table
�Styling Sheets
11.7
QFU1.2E LA
11.
EN 228
8000 series 55 "
8000 series 55 "
1171
1170
1111
0056
1063
0155
5211
1172
1050
0013
1020
1164
0453
5211
1010
0112
Pos No.
0007
0013
0030
0056
0112
0155
0271
0453
1004
1010
1012
1020
1028
1050
1111
1163
1164
1170
1171
1172
1185
5211
1012
1004
1028
0030
0007
Description
Alu decoration frame
Back cover
Leading edge assembly
Leading edge cover
Standplate fixing
Stand assembly
3D glasses, 2 pieces
V0 sheet
LCD panel
Control board
WiFi sensor module
RF4CE module
Skype camera
Power supply
SSB
AmbiLight left
AmbiLight right
AmbiLight top left
AmbiLight top middle
AmbiLight top right
Remote control
Loudspeaker combination
Remarks
Not displayed
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
19371_001_130404.eps
130404
2014-Jan-10 back to
div. table
�Styling Sheets
11.8
QFU1.2E LA
11.
EN 229
8000 Design series 55 "
8000 Design series 55 "
1170
1172
0155
1171
0116
0101
1111
0100
1163
5211
1020
0103
0117
0011
1010
1050
0453
1164
0100
1012
0102
0030
1004
Pos No.
0007
0011
0030
0094
0100
0101
0102
0103
0116
0117
0155
0452
0453
1004
1010
1012
1020
1050
1111
1127
1163
1164
1170
1171
1172
1185
5211
0094
0007
Description
Front glass
Back cover
Leading edge assembly
Bottom edge profil
Fix profil side
Fix profil top
Fix profil bottom left
Fix profil bottom right
Side I/O assembly
Bottom I/O assembly
Wallmount assembly
V0 sheet mains inlet
V0 sheet power supply
LCD panel
Control board
WiFi sensor module
RF4CE module
Power supply
SSB
Active 3D glasses
10 LED AmbiLight
10 LED AmbiLight
7 LED AmbiLight
8 LED AmbiLight
7 LED AmbiLight
Remote control
Loudspeaker combination
Remarks
Not displayed
Not displayed
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9
19374_018_131210.eps
131210
2014-Jan-10 back to
div. table
�Styling Sheets
11.9
QFU1.2E LA
11.
EN 230
8000 series 60 "
8000 series 60 "
1111
0117
0016
1163
0115
0116
0016
0013
1164
5211
1010
1020
1012
1104
0030
19374_020_131216.eps
131220
2014-Jan-10 back to
div. table
�Styling Sheets
11.10
QFU1.2E LA
11.
EN 231
9000 series 65 "
9000 series 65 "
1070
1071
1073
1072
1074
1072
1075
1006
1111
1076
1xxx
1050
5211
5212
1077
1004
5220
19374_021_131223.eps
140109
2014-Jan-10 back to
div. table
�Styling Sheets
11.11
QFU1.2E LA
11.
EN 232
9000 series 84 "
9000 series 84 "
1006
1051
1072
1076
1074
5212
1111
1075
1174
1071
1077
1043
1050
5219
1052
5212
1073
1070
5220
1012
1004
19374_019_131212.eps
131223
2014-Jan-10 back to
div. table
�
