Page 1
Colour Television Chassis
BJ3.0E
PA
For manual FHP plasma panel see: 3122 785 14580
For manual SDI plasma panel see: 3122 785 14990
For manual LGE plasma panel see: 3122 785 15590
G_15960_000.eps
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Contents Page Contents Page
1. Technical Specifications, Connections, and Chassis
Overview 2
2. Safety Instructions, Warnings, and Notes 6
3. Directions for Use 8
4. Mechanical Instructions 9
5. Service Modes, Error Codes, and Fault Finding 17
6. Block Diagrams, Test Point Overviews, and
Waveforms
Wiring Diagram 42” FHP 45
Wiring Diagram 50” SDI 46
Block Diagram Display Supply 42” FHP 47
Block Diagram Platform Supply 42” FHP 48
Block Diagram Video 49
Block Diagram Audio 50
Block Diagram Control & Clock Signals 51
Test Point Overview SSB 52-57
I2C IC’s Overview 58
Supply Lines Overview 59
7. Circuit Diagrams and PWB Layouts Drawing PWB
Display Supply FHP: Filter Standby (AD1) 60 65-66
Display Supply FHP: Protection (AD2) 61 65-66
Display Supply FHP: Preconditioner (AD3) 62 65-66
Display Supply FHP: LLC Supply (AD4) 63 65-66
Display Supply FHP: AUX Supply (AD5) 64 65-66
Ambi Light (AL1) 67 70
Ambi Light (AL2) 68 70
Ambi Light (AL3) 69 70
Platform Supply: AUX Supply (AP1) 71 73-74
Platform Supply: Standby Supply (AP2) 72 73-74
Small Signal board (B1-B12) 75-113 116-121
SSB: SRP List Part 1 114
SSB: SRP List Part 2 115
Externals: A (BE1) 122 125
Externals: B (BE2) 123 125
©
Copyright 2006 Philips Consumer Electronics B.V. Eindhoven, The Netherlands.
All rights reserved. No part of this publication may be reproduced, stored in a
retrieval system or transmitted, in any form or by any means, electronic,
mechanical, photocopying, or otherwise without the prior permission of Philips.
Externals: C (BE2) 124 125
Audio Panel: Left / Right (C1) 126 128
Audio Panel: Protection & Mute Control (C2) 127 128
Side I/O Panel (D) 129 130
Control Board (E) 131 131
LED Panel (J) 132 133
8. Alignments 135
9. Circuit Descriptions, Abbreviation List, and IC Data
Sheets 141
Abbreviation List 149
IC Data Sheets 152
10. Spare Parts List 164
11. Revision List 176
Published by EL 0664 BG CD Customer Service Printed in the Netherlands Subject to modification EN 3122 785 15961
Page 2
EN 2 BJ3.0E PA1.
Technical Specifications, Connections, and Chassis Overview
1. Technical Specifications, Connections, and Chassis Overview
Index of this chapter:
1.1 Technical Specifications
1.2 Connection Overview
1.3 Chassis Overview
Notes:
• Data below can deviate slightly from the actual situation,
due to the different set executions
• Specifications are indicative (subject to change).
1.1 Technical Specifications
1.1.1 Vision
Display type : Plasma FHP (42”)
Screen size : 42” (107 cm), 16:9
Resolution (HxV pixels) : 1024(*3)x1080i (42”)
Typ. contrast ratio : 10000:1
Min. light output (cd/m
Viewing angle (HxV degrees) : 160x160
Tuning system : PLL
TV Colour systems : PAL
Video playback : PAL
Cable : Unscrambled digital
Tuner bands : VHF
Supported video formats : 640x480i - 1fH
Supported computer formats : 640x480 @ 60Hz
2
) : 1200 (42”)
: Plasma SDI (50”)
: 50” (127 cm), 16:9
: 1366(*3)x768p (50”)
: 1500 (50”)
: DVB-T
: SECAM
:NTSC
cable - QAM
: Digital cable ready -
Common Interface
: UHF
: S-band
: Hyper-band
: 640x480p - 2fH
: 720x576i - 1fH
: 720x576p - 2fH
: 1280x720p - 3fH
: 1920x1080i - 2fH
: 800x600 @ 60Hz
: 1024x768 @ 60Hz
: 1366x768 @ 60Hz
1.1.3 Miscellaneous
Power supply:
- Mains voltage (V
- Mains frequency (Hz) : 50/60 Hz
Ambient conditions:
- Temperature range (°C) : +5 to +40
- Maximum humidity : 90% R.H.
Power consumption (values are indicative)
- Normal operation (W) : ≈ 325 (42”)
- Standby (W) : < 2
Dimensions (WxHxD in cm) : 114x80x11.4 (42”)
Weight (kg/lbs) : t.b.d. (42”)
) : 110 - 240
AC
: ≈ t.b.d. (50”)
: 132x92x11.4 (50”)
: t.b.d. (50”)
1.1.2 Sound
Sound systems : AV Stereo
Maximum power (W
) : 2 x 15
RMS
: FM/FM (5.5-5.74)
(B/G)
: NICAM B/G (5.5-5.85)
: NICAM D/K
(6.5.-5.85) (Hung)
: NICAM I (6.0-6.52)
Page 3
Technical Specifications, Connections, and Chassis Overview
1.2 Connection Overview
Figure 1-1 Side and rear I/O connections
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EN 3BJ3.0E PA 1.
Note: The following connector colour abbreviations are used
(acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy=
Grey, Rd= Red, Wh= White, and Ye= Yellow.
1.2.1 Side Connections
S-Video (Hosiden): Video Y/C - In
1 -Ground Y Gnd H
2 -Ground C Gnd H
3 -Video Y 1 V
4 -Video C 0.3 V
/ 75 ohm j
PP
P / 75 ohm j
PP
Cinch: Video CVBS - In, Audio - In
Ye -Video CVBS 1 V
Wh -Audio L 0.5 V
Rd -Audio R 0.5 V
/ 75 ohm jq
PP
/ 10 kohm jq
RMS
/ 10 kohm jq
RMS
Headphone - Out
Bk -Headphone 32 - 600 ohm / 10 mW ot
USB2.0
1234
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Figure 1-2 USB (type A)
1-+5V k
2 -Data (-) jk
3 -Data (+) jk
4 -Ground Gnd H
HDMI 1 & 2: Digital Video, Digital Audio - In
19
18 2
1
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Figure 1-3 HDMI (type A) connector
1 -D2+ Data channel j
2-Shield Gnd H
3 -D2- Data channel j
4 -D1+ Data channel j
5-Shield Gnd H
6 -D1- Data channel j
7 -D0+ Data channel j
8-Shield Gnd H
9 -D0- Data channel j
10 - CLK+ Data chann el j
11 - Shield Gnd H
12 - CLK- Data channel j
13 - n.c.
14 - n.c.
15 - DDC_SCL DDC clock j
16 - DDC_SDA DDC data jk
17 - Ground Gnd H
18 - +5V j
19 - HPD Hot Plug Detect j
20 - Ground Gnd H
Aerial - In
- -IEC-type (EU) Coax, 75 ohm D
DIGITAL AUDIO Cinch: S/PDIF - In
Bk -Coaxial 0.2 - 0.6V
/ 75 ohm jq
PP
1.2.2 Rear Connections
Common Interface
68p-See diagram B10A jk
Service Connector (UART)
1-UART_TX Transmit k
2 -Ground Gnd H
3 -UART_RX Receive j
AUDIO OUT Cinch: Audio - Out
Wh -Audio L 0.5 V
Rd -A udio R 0.5 V
/10 kohm kq
RMS
/ 10 kohm kq
RMS
DIGITAL AUDIO Cinch: S/PDIF - Out
Bk -Coaxial 0.2 - 0.6V
PP
/ 75 ohm kq
Page 4
EN 4 BJ3.0E PA1.
Technical Specifications, Connections, and Chassis Overview
EXT1: Video RGB/YC - In, CVBS - In/Out, Audio - In/Out
21
20
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2
1
050404
Figure 1-4 SCART connector
1 -Audio R 0.5 V
2 -Audio R 0.5 V
3 -Audio L 0.5 V
/ 1 kohm k
RMS
/ 10 kohm j
RMS
/ 1 kohm k
RMS
4 -Ground Audio Gnd H
5 -Ground Blue Gnd H
6 -Audio L 0.5 V
7 -Video Blue/C-out 0.7 V
8 -Function Select 0 - 2 V: INT
/ 10 kohm j
RMS
/ 75 ohm jk
PP
4.5 - 7 V: EXT 16:9
9.5 - 12 V: EXT 4:3 j
9 -Ground Green Gnd H
10 - n.c.
11 - Video Green 0.7 V
12 - n.c.
/ 75 ohm j
PP
13 - Ground Red Gnd H
14 - Ground P50 Gnd H
15 - Video Red/C 0.7 V
16 - Status/FBL 0 - 0.4 V: INT
/ 75 ohm j
PP
1 - 3 V: EXT / 75 ohm j
17 - Ground Video Gnd H
18 - Ground FBL Gnd H
19 - Video CVBS/Y 1 V
20 - Video CVBS/Y 1 V
21 - Shield Gnd H
/ 75 ohm k
PP
/ 75 ohm j
PP
EXT2: Video RGB/YC - In, CVBS - In/Out, Audio - In/Out
21
20
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2
1
050404
Figure 1-5 SCART connector
1 -Audio R 0.5 V
2 -Audio R 0.5 V
3 -Audio L 0.5 V
/ 1 kohm k
RMS
/ 10 kohm j
RMS
/ 1 kohm k
RMS
4 -Ground Audio Gnd H
5 -Ground Blue Gnd H
6 -Audio L 0.5 V
7 -Video Blue/C-out 0.7 V
8 -Function Select 0 - 2 V: INT
/ 10 kohm j
RMS
/ 75 ohm jk
PP
4.5 - 7 V: EXT 16:9
9.5 - 12 V: EXT 4:3 j
9 -Ground Green Gnd H
10 - Easylink P50 0 - 5 V / 4.7 kohm jk
11 - Video Green 0.7 V
12 - n.c.
/ 75 ohm j
PP
13 - Ground Red Gnd H
14 - Ground Data Gnd H
15 - Video Red/C 0.7 V
16 - Status/FBL 0 - 0.4 V: INT
/ 75 ohm j
PP
1 - 3 V: EXT / 75 ohm j
17 - Ground Video Gnd H
18 - Ground FBL Gnd H
19 - Video CVBS/Y 1 V
20 - Video CVBS/Y 1 V
21 - Shield Gnd H
/ 75 ohm k
PP
/ 75 ohm j
PP
EXT3: Cinch: Video YPbPrHV- In
Gn -Video Y 1 V
Bu - Video Pb 0.7 V
Rd -Video Pr 0.7 V
Bk -H-sync 0 - 5 V jq
/ 75 ohm jq
PP
/ 75 ohm jq
PP
/ 75 ohm jq
PP
Bk -V-sync 0 - 5 V jq
EXT3: Mini Jack: Audio - In
Rd -Audio R 0.5 V
Wh -Audio L 0.5 V
/ 10 kohm j
RMS
/ 10 kohm j
RMS
Page 5
Technical Specifications, Connections, and Chassis Overview
1.3 Chassis Overview
EN 5BJ3.0E PA 1.
AMBI LIGHT PANEL
AL
DISPLAY SUPPLY
AD
PANEL
SMALL SIGNAL
B
BOARD
CONTROL BOARD
E
LED PANEL
J
Figure 1-6 PWB/CBA locations (42-inch model)
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PLATFORM SUPPLY
PANEL
AMBI LIGHT PANEL
AUDIO PANEL
SIDE I/O PANEL
EXTERNAL I/O
PANEL
AP
AL
C
D
BE
Page 6
EN 6 BJ3.0E PA2.
Safety Instructions, Warnings, and Notes
2. Safety Instructions, Warnings, and Notes
Index of this chapter:
2.1 Safety Instructions
2.2 Warnings
2.3 Notes
2.1 S af et y In st ruc tions
Safety regulations require the following during a repair:
• Connect the set to the Mains/AC Power via an isolation
transformer (> 800 VA).
• Replace safety components, indicated by the symbol h,
only by components identical to the original ones. Any
other component substitution (other than original type) may
increase risk of fire or electrical shock hazard.
Safety regulations require that after a repair, the set must be
returned in its original condition. Pay in particular attention to
the following points:
• Route the wire trees correctly and fix them with the
mounted cable clamps.
• Check the insulation of the Mains/AC Power lead for
external damage.
• Check the strain relief of the Mains/AC Power cord for
proper function.
• Check the electrical DC resistance between the Mains/AC
Power plug and the secondary side (only for sets that have
a Mains/AC Power isolated power supply):
1. Unplug the Mains/AC Power cord and connect a wire
between the two pins of the Mains/AC Power plug.
2. Set the Mains/AC Power switch to the "on" position
(keep the Mains/AC Power cord unplugged!).
3. Measure the resistance value between the pins of the
Mains/AC Power plug and the metal shielding of the
tuner or the aerial connection on the set. The reading
should be between 4.5 Mohm and 12 Mohm.
4. Switch "off" the set, and remove the wire between the
two pins of the Mains/AC Power plug.
• Check the cabinet for defects, to prevent touching of any
inner parts by the customer.
2.2 Warnings
• All ICs and many other semiconductors are susceptible to
electrostatic discharges (ESD w). Careless handling
during repair can reduce life drastically. Make sure that,
during repair, you are connected with the same potential as
the mass of the set by a wristband with resistance. Keep
components and tools also at this same potential. Available
ESD protection equipment:
– Complete kit ESD3 (small tablemat, wristband,
connection box, extension cable and earth cable) 4822
310 10671.
– Wristband tester 4822 344 13999.
• Be careful during measurements in the high voltage
section.
• Never replace modules or other components while the unit
is switched "on".
• When you align the set, use plastic rather than metal tools.
This will prevent any short circuits and the danger of a
circuit becoming unstable.
2.3 Notes
2.3.1 General
• Measure the voltages and waveforms with regard to the
chassis (= tuner) ground (H), or hot ground (I), depending
on the tested area of circuitry. The voltages and waveforms
shown in the diagrams are indicative. Measure them in the
Service Default Mode (see chapter 5) with a colour bar
signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated
otherwise) and picture carrier at 475.25 MHz for PAL, or
61.25 MHz for NTSC (channel 3).
• Where necessary, measure the waveforms and voltages
with (D) and without (E) aerial signal. Measure the
voltages in the power supply section both in normal
operation (G) and in stand-by (F). These values are
indicated by means of the appropriate symbols.
• The semiconductors indicated in the circuit diagram and in
the parts lists, are interchangeable per position with the
semiconductors in the unit, irrespective of the type
indication on these semiconductors.
• Manufactured under license from Dolby Laboratories.
“Dolby”, “Pro Logic” and the “double-D symbol”, are
trademarks of Dolby Laboratories.
2.3.2 Schematic Notes
• All resistor values are in ohms, and the value multiplier is
often used to indicate the decimal point location (e.g. 2K2
indicates 2.2 kohm).
• Resistor values with no multiplier may be indicated with
either an "E" or an "R" (e.g. 220E or 220R indicates 220
ohm).
• All capacitor values are given in micro-farads (µ= x10
nano-farads (n= x10
• Capacitor values may also use the value multiplier as the
decimal point indication (e.g. 2p2 indicates 2.2 pF).
• An "asterisk" (*) indicates component usage varies. Refer
to the diversity tables for the correct values.
• The correct component values are listed in the Spare Parts
List. Therefore, always check this list when there is any
doubt.
2.3.3 Rework on BGA (Ball Grid Array) ICs
General
Although (LF)BGA assembly yields are very high, there may
still be a requirement for component rework. By rework, we
mean the process of removing the component from the PWB
and replacing it with a new component. If an (LF)BGA is
removed from a PWB, the solder balls of the component are
deformed drastically so the removed (LF)BGA has to be
discarded.
Device Removal
As is the case with any component that, is being removed, it is
essential when removing an (LF)BGA, that the board, tracks,
solder lands, or surrounding components are not damaged. To
remove an (LF)BGA, the board must be uniformly heated to a
temperature close to the reflow soldering temperature. A
uniform temperature reduces the risk of warping the PWB.
To do this, we recommend that the board is heated until it is
certain that all the joints are molten. Then carefully pull the
component off the board with a vacuum nozzle. For the
appropriate temperature profiles, see the IC data sheet.
Area Preparation
When the component has been removed, the vacant IC area
must be cleaned before replacing the (LF)BGA.
Removing an IC often leaves varying amounts of solder on the
mounting lands. This excessive solder can be removed with
either a solder sucker or solder wick. The remaining flux can be
removed with a brush and cleaning agent.
After the board is properly cleaned and inspected, apply flux on
the solder lands and on the connection balls of the (LF)BGA.
Note: Do not apply solder paste, as this has been shown to
result in problems during re-soldering.
-9
), or pico-farads (p= x10
-12
-6
),
).
Page 7
Safety Instructions, Warnings, and Notes
EN 7BJ3.0E PA 2.
Device Replacement
The last step in the repair process is to solder the new
component on the board. Ideally, the (LF)BGA should be
aligned under a microscope or magnifying glass. If this is not
possible, try to align the (LF)BGA with any board markers.
So as not to damage neighbouring components, it may be
necessary to reduce some temperatures and times.
More Information
For more information on how to handle BGA devices, visit this
URL: www.atyourservice.ce.philips.com (needs subscription,
not available for all regions). After login, select “Magazine”,
then go to “Repair downloads”. Here you will find Information
on how to deal with BGA-ICs.
2.3.4 Lead-free Solder
Philips CE is producing lead-free sets (PBF) from 1.1.2005
onwards.
Identification: The bottom line of a type plate gives a 14-digit
serial number. Digits 5 and 6 refer to the production year, digits
7 and 8 refer to production week (in example below it is 1991
week 18).
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230205
avoid mixed regimes. If this cannot be avoided, carefully
clear the solder-joint from old tin and re-solder with new tin.
• Use only original spare-parts listed in the Service-Manuals.
Not listed standard material (commodities) has to be
purchased at external companies.
• Special information for lead-free BGA ICs: these ICs will be
delivered in so-called "dry-packaging" to protect the IC
against moisture. This packaging may only be opened
shortly before it is used (soldered). Otherwise the body of
the IC gets "wet" inside and during the heating time the
structure of the IC will be destroyed due to high (steam-)
pressure inside the body. If the packaging was opened
before usage, the IC has to be heated up for some hours
(around 90°C) for drying (think of ESD-protection!).
Do not re-use BGAs at all!
• For sets produced before 1.1.2005, containing leaded
soldering tin and components, all needed spare parts will
be available till the end of the service period. For the repair
of such sets nothing changes.
In case of doubt whether the board is lead-free or not (or with
mixed technologies), you can use the following method:
• Always use the highest temperature to solder, when using
SAC305 (see also instructions below).
• De-solder thoroughly (clean solder joints to avoid mix of
two alloys).
Caution: For BGA-ICs, you must use the correct temperatureprofile, which is coupled to the 12NC. For an overview of these
profiles, visit the website www.atyourservice.ce.philips.com
(needs subscription, but is not available for all regions)
You will find this and more technical information within the
"Magazine", chapter "Repair downloads".
For additional questions please contact your local repair help
desk.
Figure 2-1 Serial number example
Regardless of the special lead-free logo (which is not always
indicated), one must treat all sets from this date onwards
according to the rules as described below.
P
b
Figure 2-2 Lead-free logo
Due to lead-free technology some rules have to be respected
by the workshop during a repair:
• Use only lead-free soldering tin Philips SAC305 with order
code 0622 149 00106. If lead-free solder paste is required,
please contact the manufacturer of your soldering
equipment. In general, use of solder paste within
workshops should be avoided because paste is not easy to
store and to handle.
• Use only adequate solder tools applicable for lead-free
soldering tin. The solder tool must be able:
– To reach a solder-tip temperature of at least 400°C.
– To stabilise 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 stabilised 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
2.3.5 Alternative BOM identification
In September 2003, Philips CE introduced a change in the way
the serial number (or production number, see Figure 2-1) is
composed. From this date on, the third digit in the serial
number (example: AG2B0335000001) indicates the number of
the alternative BOM (Bill of Materials used for producing the
specific model of TV set). 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 O.E.M.s.
By looking at the third digit of the serial number, the service
technician can see if there is more than one type of B.O.M.
used in the production of the TV set he is working with. He can
then consult the At Your Service Web site, where he can type
in the Commercial Type Version Number of the TV set (e.g.
28PW9515/12), after which a screen will appear that gives
information about the number of alternative B.O.M.s used.
If the third digit of the serial number contains the number 1
(example: AG1B033500001), then there is only one B.O.M.
version of the TV set on the market. If the third digit is a 2
(example: AG2B0335000001), then there are two different
B.O.M.s. Information about 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.
2.3.6 Practical Service Precautions
• It makes sense to avoid exposure to electrical shock.
While some sources are expected to have a possible
dangerous impact, others of quite high potential are of
limited current and are sometimes held in less regard.
• Always respect voltages. While some may not be
dangerous in themselves, they can cause unexpected
reactions that are best avoided. Before reaching into a
powered TV set, it is best to test the high voltage insulation.
It is easy to do, and is a good service precaution.
Page 8
EN 8 BJ3.0E PA3.
3. Directions for Use
You can download this information from the following websites:
http://www.philips.com/support
http://www.p4c.philips.com
Directions for Use
Page 9
4. Mechanical Instructions
Mechanical Instructions
EN 9BJ3.0E PA 4.
Index of this chapter:
4.1 Cable Dressing
4.2 Service Positions
4.3 Assy/Panel Removal
4.4 Set Re-assembly
4.1 Cable Dressing
Notes:
• Figures below can deviate slightly from the actual situation,
due to the different set executions.
• Follow the disassemble instructions in described order.
4.2 Service Positions
For easy servicing of this set, there are a few possibilities
created:
• The buffers from the packaging.
• Foam bars (created for service).
• Aluminium service stands (created for Service).
Figure 4-1 Cable dressing (42-inch model)
4.2.1 Foam Bars
The foam bars (order code 3122 785 90580 for two pieces) can
be used for all types and sizes of Flat TVs. By laying the TV
face down on the (ESD protective) foam bars, a stable situation
is created to perform measurements and alignments.
By placing a mirror under the TV, you can monitor the screen.
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Figure 4-2 Foam bars
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EN 10 BJ3.0E PA4.
Mechanical Instructions
4.2.2 Aluminium Stands
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Figure 4-3 Aluminium stands (drawing of MkI)
The new MkII aluminium stands (not on drawing) with order
code 3122 785 90690, can also be used to do measurements,
alignments, and duration tests. The stands can be
(dis)mounted quick and easy by means of sliding them in/out
the "mushrooms". The new stands are backwards compatible
with the earlier models.
Important: For (older) FTV sets without these "mushrooms", it
is obligatory to use the provided screws, otherwise it is possible
to damage the monitor inside!.
4.3.2 Rear Cover
1. Remove the T10 tapping screws [4] underneath the main I/
O panel that hold the rear cover.
2. Remove the T10 parker screws [5] around the edges of the
rear cover.
3. Lift the metal rear cover from the set. Make sure that wires
and flat foils are not damaged.
4.3.3 Speaker
After removing the rear cover, you gain access to the speakers.
Each speaker is fixed with four T10 screws [1]. See Figure
“Speaker removal”. After removal of these screws, the
speakers can be removed.
Caution: never disconnect the speakers with a playing set,
because otherwise the class-D audio amplifiers could be
damaged!
1
4.3 Assy/Panel Removal
4.3.1 Metal Back Plate
Disconnect the Mains/AC Power cord before you remove the
rear cover!
Note: a sticker containing the type number [1] has been added
on the right lower corner of the rear cover, allowing the
customer to read the number without lifting the set from the
wall.
1. Place the TV set upside down on a table top, using the
foam bars (see part “Foam Bars”).
Caution: do not put pressure on the display, but let the
monitor lean on the Front cover.
2. Remove T10 tapping screws [2] from the top, centre,
bottom, left and right side of the back plate.
3. Remove “mushrooms” [3] from the back plate.
4. Lift the back plate from the TV. Make sure that wires and
flat foils are not damaged while lifting the back plate.
5
5
2
5
2
5
2
2
2
43
2
5
2
2
5
5
5
2 2
5
2
2
2
5
5
2
2
2
212
2
4 444
2
2
5
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5
2
2
2
2
2
5 5
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Figure 4-5 Speaker removal
4.3.4 Speaker Frame
After the speakers have been removed, the plastic speaker
frame underneath the set can be removed. See Figure
“Speaker frame removal”.
1. Remove the cables that are guided by the speaker frame
from its clamps [1].
2. Remove parker T10 screws [2] that hold the frame and pull
the frame downwards.
5
2
2
5
2
2
5
2
Figure 4-6 Speaker frame removal
21
2
2
2
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2
2
2
2
2
2
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Note: the speaker frame cannot be removed without the
speakers being removed first, since on each side of the frame
there is a hidden screw underneath the speaker.
Figure 4-4 Metal back plate and rear cover removal
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Mechanical Instructions
EN 11BJ3.0E PA 4.
4.3.5 AmbiLight Inverter Panel
There are two AmbiLight Inverter Panels used in this set. The
instructions to remove the right one (seen from the back side of
the set) are as follows:
1. Disconnect the cables [1] from the panel.
2. Push back the clamps [2] on the right side that hold the
assy.
3. Take out the panel (it hinges on the left side).
When defective, replace the whole unit.
11
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The assy is packed into two plastic frames. To unpack the
inner frame, lift the two clamps [1] of the outer frame and take
the inner frame out. See Figure “Control panel frame removal”.
11
12
Figure 4-9 Control panel frame removal
To take the assy out of the inner frame, lift the two clamps of
the frame [2] and slightly pull the assy out. Only now the cable
can be disconnected.
When defective, replace the whole unit.
4.3.7 Side I/O Panel
The Side I/O Panel can be removed together with its plastic
frame.
1. Disconnect the USB cable and the flat cable [1] from the
panel.
2. Push the plastic frame slightly downwards towards the
bottom of the set [2], and take the frame out together with
the assy.
3. Push back the clamps [3] on the left side that hold the assy.
4. Take out the assy from the plastic frame, it hinges on the
right side.
When defective, replace the whole unit.
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Figure 4-7 AmbiLight right side inverter panel removal
4.3.6 Control Panel
The Control Panel can be taken out by removing the two T10
screws [1] that hold the plastic frame. See Figure “Control
panel removal”. The cable can not be disconnected from the
assy at this moment. While still connected to the assy, the
cable must now be released from the two clamps on the
chassis nearest to the assy.
11
Figure 4-10 Side I/O panel removal
4.3.8 Audio Panel
3
41
22
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Figure 4-8 Control panel removal
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1. Disconnect all cables from the Audio Panel.
2. Remove the two T10 mounting screws [1] from the Audio
Panel. See Figure “Audio Panel removal”.
3. Take out the Audio Panel (it hinges at the right side).
Page 12
EN 12 BJ3.0E PA4.
Mechanical Instructions
11
Figure 4-11 Audio Panel removal
4.3.9 Small Signal Board (SSB) and Main I/O Panel
Caution: it is absolutely mandatory to remount all different
screws at their original position during re-assembly. Failure to
do so may result in damaging the SSB.
Removal from the set
1. Remove the two T10 tapping screws [1] that hold the SSB.
This will disconnect the earth cable to the PDP. See Figure
“SSB top shielding”.
2. Disconnect the mains power supply cable on the PDP
supply panel [2].
3. Disconnect all cables [3] from the SSB. This includes the
USB plug and the fragile LVDS cable [4]. For the latter, a
plastic cover has to be removed first.
4. Lift the SSB, together with the mains filter and Main I/O
Panel from the set.
21
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Figure 4-13 SSB bottom shielding
Removing the SSB and Main I/O Panel
See Figure “SSB and main I/O panel”.
11
2
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Figure 4-14 SSB and Main I/O Panel
1. The SSB is mounted with two tapping T10 screws [1]. After
having unplugged the cables to the main I/O panel, they
are accessible.
2. The Main I/O Panel is mounted with four tapping T10
screws [2].
4
2
1
5 5
5
55
33
55
56
56
55
44
55
5
5 55
55
51
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Figure 4-12 SSB top shielding
Removing the shielding
1. Unplug the mains filter earth cable from the top shielding.
2. Remove the T10 tapping screws [5]. See Figure “SSB top
shielding”.
3. Remove the T10 parker screws [6].
4. On the bottom shield, remove the T10 tapping screws [1].
See Figure “SSB bottom shielding”.
5. Remove two T10 tapping screws [2] and three T10 parker
screws [3].
6. After the rear shielding is removed, the top shielding can be
removed.
4.3.10 Platform Supply Panel
See Figure “Platform Supply Panel” for details.
Figure 4-15 Platform Supply Panel
1. Remove the T10 tapping screws [1] (the upper one is
hidden but can be accessed via a hole in the metal frame).
2. Unplug the cables except for the upper ones.
3. Take the panel out (it hinges on the left side) and unplug
the remaining upper cables.
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Mechanical Instructions
EN 13BJ3.0E PA 4.
4.3.11 PDP Supply Panel
See Figure “PDP supply Panel Removal” for details.
21
Figure 4-16 PDP Supply Panel removal
1. Unplug all cables except the ones on the right side.
2. Remove the T10 tapping screws [1].
3. Carefully pull the panel to the left, unplug the remaining
cables and take the panel out.
4.3.12 AmbiLight Diffusor Frame
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speaker frame must be removed, as described earlier in this
chapter. See figure “AmbiLight diffusor frame removal” for
details.
22
1
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Figure 4-17 AmbiLight Diffusor Frame removal
1. Remove the remaining tapping T10 screws [1].
2. From the right AmbiLight Inverter Panel, unplug two cables
[2] that lead to the SSB.
3. Remove the side I/O panel and Control Panel as previously
described without unplugging the cables. Unclamp the
cables in the set and place the units in the centre of the set.
4. Carefully lift the plastic frame from the set. See Figure
“AmbiLight diffusor frame lift”.
Before the AmbiLight lamp units can be removed, the
AmbiLight diffusor frame must be lifted. Before this, the
Figure 4-18 AmbiLight diffusor frame lift
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Page 14
EN 14 BJ3.0E PA4.
Now the AmbiLight lamp units can be removed from the frame.
Each of them is fixed with four T10 parker screws: two on the
inside and two on the outside of the frame.
4.3.13 LED Panel
1. After the AmbiLight diffusor frame has been removed, the
LED Panel is accessible.
2. Remove the T10 mounting screws that hold the panel.
3. Take out the panel.
When defective, replace the whole unit. Reconnect the earthcable during re-assembly.
4.3.14 Plasma Display Panel / Glass Plate
Before removing the PDP, related panels and the glass plate,
the primary and secondary chassis frames have to be
removed.
Primary Chassis Frame Removal
23
Mechanical Instructions
1
2
6
24
25
1
32
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Figure 4-19 Primary chassis frame removal
1. Take out the SSB and main I/O panel as previously
described.
2. Remove the T10 parker screws [1].
3. Remove one T10 tapping screw [2] that connects the top
frame with the bottom frame.
4. Remove two supply cables [3] that connect the PDP supply
panel with the platform supply panel from their clamps.
5. Remove the cable tie [4] of the ferrite core. During reassembly, replace it by a new one.
6. Disconnect two cables [5] from the Audio Panel.
7. Disconnect one cable [6] from the Platform Supply Panel.
8. Remove the LED Panel as previously described without
disconnecting the cable. Release the cable from its clamps
and place the panel in the middle of the set.
9. Now the primary chassis frame can be lifted, together with
the Side I/O-, the LED- and the Control Panel. See Figure
“Primary chassis frame lift”.
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Mechanical Instructions
EN 15BJ3.0E PA 4.
Figure 4-20 Primary chassis frame lift
Secondary Chassis Frame Removal
2 2
1
5
2 2
1
64
1
3
2 2
1
2 2
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Figure 4-21 Secondary chassis frame removal
1. Remove the T25 tapping screws [1].
2. Remove the T10 parker screws [2].
3. Remove one T20 tapping screw [3].
4. Disconnect one connector [4] at the bottom of the Display
Supply Panel.
5. Disconnect two cables [5] at the top of the Platform Supply
Panel.
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Plasma Display Panel Removal
21
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Figure 4-22 Plasma Display Panel removal
Now the PDP and the glass plate can be removed. Before
sending the PDP for repair, remove the Display Supply Panel
(only for FHP panels) and the LVDS cable. The glass plate can
be removed after lifting the surrounding metal frame [1].
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EN 16 BJ3.0E PA4.
4.4 Se t Re -a ss embly
To re-assemble the whole set, execute all processes in reverse
order.
Notes:
• While re-assembling, make sure that all cables are placed
and connected in their original position. See figure "Cable
dressing".
• Pay special attention not to damage the EMC foams on the
SSB shields. Ensure that EMC foams are mounted
correctly.
Mechanical Instructions
Page 17
Service Modes, Error Codes, and Fault Finding
5. Service Modes, Error Codes, and Fault Finding
EN 17BJ3.0E PA 5.
Index of this chapter:
5.1 Test Points
5.2 Service Modes
5.3 Stepwise Start-up
5.4 Service Tools
5.5 Error Codes
5.6 The Blinking LED Procedure
5.7 Protections
5.8 Fault Finding and Repair Tips
5.9 Software Upgrading
5.1 Test Points
The chassis is equipped with test points (Fxxx) printed on the
circuit board assemblies. As most signals are digital, it will be
difficult to measure waveforms with a standard oscilloscope.
Several key ICs are capable of generating test patterns, which
can be controlled via ComPair. In this way it is possible to
determine which part is defective.
Perform measurements under the following conditions:
• Service Default Mode.
• Video: Colour bar signal.
• Audio: 3 kHz left, 1 kHz right.
5.2 Service Modes
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.
This chassis also offers the option of using ComPair, a
hardware interface between a computer and the TV chassis. It
offers the abilities of structured troubleshooting, error code
reading, and software version read-out for all chassis.
Minimum requirements for ComPair: a Pentium processor, a
Windows OS, and a CD-ROM drive (see also paragraph
"ComPair").
• All sound settings at 50%, except volume at 25%.
• All service-unfriendly modes (if present) are disabled, like:
– (Sleep) timer.
– Child/parental lock.
– Picture mute (blue mute or black mute).
– Automatic volume levelling (AVL).
– Auto switch "off" (when no video signal was received
for 10 minutes).
– Skip/blank of non-favourite pre-sets.
– Smart modes.
– Auto store of personal presets.
– Auto user menu time-out.
How to Activate SDM
For DVBT TV’s there are two kinds of SDM: an analogue SDM
and a digital SDM. Tuning will happen according table “SDM
Default Settings”.
• Analogue SDM: use the standard RC-transmitter and key
in the code “062596”, directly followed by the “MENU”
button.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it "off", push the “MENU”
button again.
• Digital SDM: use the standard RC-transmitter and key in
the code “062593”, directly followed by the “MENU” button.
Depending on the software version it is possible that the
tuning will not work correctly.
Note: It is possible that, together with the SDM, the main
menu will appear. To switch it "off", push the “MENU”
button again.
• Analogue SDM can also be activated by shorting for a
moment the two solder pads [1] on the SSB, with the
indication “SDM”. They are located outside the shielding.
Activation can be performed in all modes, except when the
set has a problem with the Stand-by Processor. See figure
“Service mode pads”.
5.2.1 Service Default Mode (SDM)
Purpose
• To create a pre-defined setting, to get the same
measurement results as given in this manual.
• To override SW protections detected by stand-by
processor and make the TV start up to the step just before
protection (a sort of automatic stepwise start up). See
paragraph “Stepwise Start Up”.
• To override SW protections detected by Viper. Depending
on the SW version it is possible that this mechanism does
not work correctly. See also paragraph “Error codes”.
• To start the blinking LED procedure (not valid in protection
mode).
Specifications
Table 5-1 SDM default settings
Region Freq. (MHz)
Europe, AP(PAL/Multi) 475.25 PAL B/G
Europe, AP DVBT 546.000
PID Video: 0B 06
PID PCR: 0B 06
PID Audio: 0B 07
• All picture settings at 50% (brightness, colour, contrast).
Default
system
DVBT
2
SPI2SPI
SDM1SDM
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Figure 5-1 Service mode pads
After activating this mode, “SDM” will appear in the upper right
corner of the screen (if you have picture).
How to Navigate
When you press the “MENU” button on the RC transmitter, the
set will toggle between the SDM and the normal user menu
(with the SDM mode still active in the background).
How to Exit SDM
Use one of the following methods:
• Switch the set to STAND-BY via the RC-transmitter.
• Via a standard customer RC-transmitter: key in “00”sequence.
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EN 18 BJ3.0E PA5.
Service Modes, Error Codes, and Fault Finding
5.2.2 Service Alignment Mode (SAM)
Purpose
• To perform (software) alignments.
• To change option settings.
• To easily identify the used software version.
• To view operation hours.
• To display (or clear) the error code buffer.
How to Activate SAM
Via a standard RC transmitter: key in the code “062596”
directly followed by the “INFO” button. After activating SAM
with this method a service warning will appear on the screen,
you can continue by pressing the red button on the RC.
Contents of SAM:
• Hardware Info.
– A. SW Version. Displays the software version of the
VIPER software (main software) (example: BX31E-
1.2.3.4_12345 = AAAAB_X.Y.W.Z_NNNNN).
• AAAA= the software name.
• B= the region: A= AP, E= EU, L= LatAm, U = US.
For AP sets it is possible that the Europe software
version is used.
• X.Y.W.Z= the software version, where X is the
main version number (different numbers are not
compatible with one another) and Y.W.Z is the sub
version number (a higher number is always
compatible with a lower number).
• NNNNN= last five digits of 12nc code of the
software.
– B. SBY PROC Version. Displays the software version
of the stand-by processor.
– C. Production Code. Displays the production code of
the TV, this is the serial number as printed on the back
of the TV set. Note that if an NVM is replaced or is
initialized after corruption, this production code has to
be re-written to NVM. ComPair will foresee in a
possibility to do this.
• Operation Hours. Displays the accumulated total of
operation hours (not the stand-by hours). Every time the
TV is switched "on/off", 0.5 hours is added to this number.
• Errors. (Followed by maximal 10 errors). The most recent
error is displayed at the upper left (for an error explanation
see paragraph “Error Codes”).
• Defective Module. Here the module that generates the
error is displayed. If there are multiple errors in the buffer,
which are not all generated by a single module, there is
probably another defect. It will then display the message
“UNKNOWN” here. Not all errors will display a defective
module name.
• Reset Error Buffer. When you press “cursor right” and
then the “OK” button, the error buffer is reset.
• Alignments. This will activate the “ALIGNMENTS” submenu.
• Dealer Options. Extra features for the dealers.
• Options. Extra features for Service. For more info
regarding option codes, see chapter 8.
Note that if you change the option code numbers, you have
to confirm your changes with the “OK” button before you
store the options. Otherwise you will lose your changes.
• Initialise NVM. When an NVM was corrupted (or replaced)
in the former EMG based chassis, the microprocessor
replaces the content with default data (to assure that the
set can operate). However, all preferences and alignment
values are gone now, and option numbers are not correct.
Therefore, this was a very drastic way. In this chassis, the
procedure is implemented in another way: The moment the
processor recognizes a corrupted NVM, the “initialize
NVM” line will be highlighted. Now, you can do two things
(dependent of the service instructions at that moment):
– Save the content of the NVM via ComPair for
development analysis, before initializing. This will give
the Service department an extra possibility for
diagnosis (e.g. when Development asks for this).
– Initialize the NVM (same as in the past, however now it
happens conscious).
Note: When you have a corrupted NVM, or you have replaced
the NVM, there is a high possibility that you will not have picture
any more because your display option is not correct. So, before
you can initialize your NVM via the SAM, you need to have
picture and therefore you need the correct display option. To
adapt this option, you can use ComPair (the correct HEX
values for the options can be found in the table below) or a
method via a standard RC (described below).
Changing the display option via a standard RC:
Key in the code “062598” directly followed by the “MENU”
button and “XXX” (where XXX is the 3 digit decimal display
option code as mentioned in the first column of the next table).
Make sure to key in all three digits, also the leading zero’s.
If the above action is successful, the front LED will go out as an
indication that the RC sequence was correct.
After the display option is changed in the NVM, the TV will go
to the Stand-by mode.
If the NVM was corrupted or empty before this action, it will be
initialised first (loaded with default values). This initialising can
take up to 20 seconds.
Table 5-2 Display option code overview
Display
Option
000 00 PDP SDI HD V3 42” 768p
001 01 PDP SDI HD V3 50” 768p
002 02 PDP FHP 42” 1024i
003 03 LCD LPL 30” 768p
004 04 LCD LPL 37” 768p
005 05 LCD LPL 42” 768p
006 06 LCD SHARP 32” 768p
007 07 PDP SDI SD V3 42” 480p
008 08 PDP FHP 37” 1024i
009 09 LCOS XION - 720p
010 0A LCD AUO 30” 768p
011 0B LCD LPL 32” 768p
012 0C LCD AUO 32” 768p
013 0D LCD SHARP 37” 768p
014 0E LCD LPL full HD 42” 1080p
015 0F PDP SDI SD 37” 480p
016 10 PDP FHP 37” 1080i
017 11 PDP FHP 42” 1080i
018 12 PDP FHP 55” 768p
019 13 LCOS VENUS - 720p
020 14 LCOS VENUS full HD - 1080p
021 15 LCD LPL 26” 768p
022 16 LCD LPL clear lcd 32” 768p
023 17 PDP LG SD 42” 480p
024 18 PDP SDI V4 42” 480p
025 19 PDP SDI V4 42” 768p
026 1A PDP FHP A2 42” 1024i
027 1B PDP SDI HD V4 50” 768p
028 1C LCD Sharp full HD 37” 1080p
029 1D LCD AUO 32” 768p
030 1E for development sample only
031 1F LCD Sharp full HD clear lcd V3.0 37” 1080p
032 20 LCD LPL 20” 768p
033 21 LCD QDI 23” 768p
034 22 ECO PTV 51” 1080i
035 23 ECO PTV 55” 1080i
036 24 ECO PTV 61” 1080i
037 25 PDP FHP A3 42” 1024i
038 26 DLP 50” 720p
039 27 DLP 60” 720p
040 28 LCD Sharp V2.3 32” 768p
041 29 LCD LPL clear lcd 42” 768p
042 2A PDP SDI V4 63” 768p
043 2B LCD Sharp V3.0 clear lcd 37” 768p
044 2C LCD Sharp V2.3 37” 768p
045 2D LCD LPL 26” 768p
046 2E LCD LPL 32” 768p
HEX Display Type Size Vertical
Resolution
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Service Modes, Error Codes, and Fault Finding
EN 19BJ3.0E PA 5.
• Store. All options and alignments are stored when
pressing “cursor right” and then the “OK”-button
• SW Maintenance.
– SW Events. Not useful for Service purposes. In case
of specific software problems, the development
department can ask for this info.
– HW Events. Not useful for Service purposes. In case
of specific software problems, the development
department can ask for this info.
• Operation hours PDP. Here you are able to reset the
operations hours of the plasma display. This has to be
done in case of replacement of the display.
• Upload to USB. Here you are able to upload several
settings from the TV to a USB stick which is connected to
the Side IO. The four items are “Channel list”, “Personal
settings”, “Option codes” and “Display-related alignments”.
First you have to create a directory “repair\” in the root of
the USB stick.To upload the settings you have to select
each item separately, press “cursor right”, confirm with
“OK” and wait until “Done” appears. Now the settings are
stored onto your USB stick and can be used to download
onto another TV or other SSB. Uploading is of course only
possible if the software is running and if you have picture.
This method is created to be able to save the customer’s
TV settings and to store them into another SSB.
• Download from USB. Here you are able to download
several settings from the USB stick to the TV. Same way of
working as with uploading. To make sure that the download
of the channel list from USB to the TV is executed properly,
it is necessary to restart the TV and tune to a valid preset if
necessary.
How to Navigate
• In SAM, you can select the menu items with the “CURSOR
UP/DOWN” key on the RC-transmitter. The selected item
will be highlighted. When not all menu items fit on the
screen, move the “CURSOR UP/DOWN” key to display the
next/previous menu items.
• With the “CURSOR LEFT/RIGHT” keys, it is possible to:
– (De) activate the selected menu item.
– (De) activate the selected sub menu.
• With the “OK” key, it is possible to activate the selected
action.
How to Exit SAM
Use one of the following methods:
• Press the “MENU” button on the RC-transmitter.
• Switch the set to STAND-BY via the RC-transmitter.
5.2.3 Customer Service Mode (CSM)
Purpose
When a customer is having problems with his TV-set, he can
call his dealer or the Customer Helpdesk. The service
technician can then ask the customer to activate the CSM, in
order to identify the status of the set. Now, the service
technician can judge the severity of the complaint. In many
cases, he can advise the customer how to solve the problem,
or he can decide if it is necessary to visit the customer.
The CSM is a read only mode; therefore, modifications in this
mode are not possible.
When in this chassis, CSM is activated, a colour bar test
pattern will be visible for 5 seconds. This test pattern is
generated by the Pacific3. So if you see this test pattern you
can determine that the back end video chain (Pacific3, LVDS
and display) is working.
Also new in this chassis: when you activate CSM and there is
a USB stick connected to the TV, the software will dump the
complete CSM content to the USB stick. The file (Csm.txt) will
be saved in the root of your USB stick. This info can be handy
if you don’t have picture.
How to Activate CSM
Key in the code “123654” via the standard RC transmitter.
Note: Activation of the CSM is only possible if there is no (user)
menu on the screen!
How to Navigate
By means of the “CURSOR-DOWN/UP” knob on the RCtransmitter, you can navigate through the menus.
Contents of CSM
• Set Type. This information is very helpful for a helpdesk/
workshop as reference for further diagnosis. In this way, it
is not necessary for the customer to look at the rear of the
TV-set. Note that if an NVM is replaced or is initialized after
corruption, this set type has to be re-written to NVM.
ComPair will foresee a possibility to do this.
• Production Code. Displays the production code (the serial
number) of the TV. Note that if an NVM is replaced or is
initialized after corruption, this production code has to be
re-written to NVM. ComPair will foresee a possibility to do
this.
• Code 1. Gives the latest five errors of the error buffer. As
soon as the built-in diagnose software has detected an
error the buffer is adapted. The last occurred error is
displayed on the leftmost position. Each error code is
displayed as a 2-digit number. When less than 10 errors
occur, the rest of the buffer is empty (00). See also
paragraph Error Codes for a description.
• Code 2. Gives the first five errors of the error buffer. See
also paragraph Error Codes for a description.
• Options 1. Gives the option codes of option group 1 as set
in SAM (Service Alignment Mode).
• Options 2. Gives the option codes of option group 2 as set
in SAM (Service Alignment Mode).
• 12NC SSB. Gives the 12NC of the SSB as stored in NVM.
Note that if an NVM is replaced or is initialized after
corruption, this 12NC has to be re-written to NVM. ComPair
will foresee a possibility to do this. The 12NC of the SSB
itself can be found back on a sticker of the SSB (not the
sticker on the shielding but the one on the PWB itself).
• Digital Natural Motion. Gives the last status of the Digital
Natural Motion setting, as set by the customer. Possible
values are “Off”, “Minimum” and “Maximum”. See DFU on
how to change this item.
• Pixel Plus. Gives the last status of the Pixel Plus setting,
as set by the customer. Possible values are “On” and “Off”.
See DFU on how to change this item.
• DNR. Gives the last status of the DNR setting, as set by the
customer. Possible values are “Off”, “Minimum”, “Medium”
and “Maximum”. See DFU on how to change this item.
• Noise Figure. Gives the noise ratio for the selected
transmitter. This value can vary from 0 (good signal) to 127
(average signal) and to 255 (bad signal). For some
software versions, the noise figure will only be valid when
“Active Control” is set to “medium” or “maximum” before
activating CSM. Noise figure is not applicable for DVBT
channels.
• Headphone Volume. Gives the last status of the
headphone volume, as set by the customer. The value can
vary from 0 (volume is minimum) to 100 (volume is
maximum). See DFU on how to change this item.
• Dolby. Indicates whether the received transmitter
transmits Dolby sound (“ON”) or not (“OFF”). Attention: The
presence of Dolby can only be tested by the software on
the Dolby Signalling bit. If a Dolby transmission is received
without a Dolby Signalling bit, this indicator will show “OFF”
even though a Dolby transmission is received.
• Surround Mode. Indicates the by the customer selected
sound mode (or automatically chosen mode). Possible
values are “STEREO” and “VIRTUAL DOLBY
SURROUND”. It can also have been selected
automatically by signalling bits (internal software). See
DFU on how to change this item.
Page 20
EN 20 BJ3.0E PA5.
Service Modes, Error Codes, and Fault Finding
• Audio System. Gives information about the audible audio
system. Possible values are “Stereo”, ”Mono”, “Mono
selected”, “Dual I”, “Dual II”, “Nicam Stereo”, “Nicam
mono”, Nicam dual I”, “Nicam dual II”, “Nicam available”,
“Analog In: No Dig. Audio”, “Dolby Digital 1+1”, “Dolby
Digital 1/0”, “Dolby Digital 2/0”, “Dolby Digital 2/1”, “Dolby
Digital 2/2”, “Dolby Digital 3/0”, “Dolby Digital 3/1”, “Dolby
Digital 3/2”, “Dolby Digital Dual I”, “Dolby Digital Dual II”,
“MPEG 1+1”, “MPEG 1/0”, “MPEG 2/0” and “Not supported
signal”. This is the same info as you will see when pressing
the “INFO” button in normal user mode (item “Sound”).
When the audio is muted, there will be no info displayed.
• AVL. Indicates the last status of AVL (Automatic Volume
Level) as set by the customer: See DFU on how to change
this item.
• Delta Volume. Indicates the last status of the delta volume
for the selected preset as set by the customer: from “-12”
to “+12”. See DFU on how to change this item..
• Preset Lock. Indicates if the selected preset has a child
lock: “LOCKED” or “UNLOCKED”. See DFU on how to
change this item..
• Child lock. Indicates if “Child lock” is set to “UNLOCK”,
“LOCKED” or “CUSTOM LOCK. See DFU on how to
change this item..
• Lock after. Indicates at what time the channel lock is set:
“OFF” or e.g. “18:45” (lock time). See DFU on how to
change this item.
• Parental rating lock. Gives the last status of the parental
rating lock as set by the customer. See DFU on how to
change this item.
• Parental rating status. Gives the value of the parental
rating status as sent by the current preset.
• TV ratings lock. Only applicable for US.
• Movie ratings lock. Only applicable for US.
• V-Chip TV status. Only applicable for US.
• V-Chip movie status. Only applicable for US.
• Region rating status (RRT). Only applicable for US.
• On timer. Indicates if the “On timer” is set “ON” or “OFF”
and when it is set to “ON”, also start time, start day and
program number is displayed. See DFU on how to change
this item.
• Location. Gives the last status of the location setting as
set via the installation menu. Possible values are “Shop”
and “Home”. If the location is set to “Shop”, several settings
are fixed. So for a customer location must be set to “Home”.
Can be changed via the installation menu (see also DFU).
• HDMI key validity. Indicates if the HDMI keys (or HDCP
keys) are valid or not. In case these keys are not valid and
the customer wants to make use of the HDMI functionality,
the SSB has to be replaced.
• IEEE key validity. Not applicable.
• POD key validity. Not applicable.
• Tuner Frequency. Indicates the frequency the selected
transmitter is tuned to.
• TV System. Gives information about the video system of
the selected transmitter. In case a DVBT signal is received
this item will also show ATSC.
– BG: PAL BG signal received
– DK: PAL DK signal received
– L/La: SECAM L/La signal received
– I: PAL I signal received
– M: NTSC M signal received
– ATSC: ATSC or DVBT signal received
• Source. Indicates which source is used and the video
quality of the selected source. (Example: Tuner, Video)
Source: “TUNER”, “EXT1”, “EXT2”, “EXT3”, “EXT4”,
“YPbPr1”, “YPbPr2”, “VGA”, “DVI-I”, ““HDMI 1”, “HDMI 2”,
“SIDE” and “DVI”. Video signal quality: “VIDEO”, “SVIDEO”, “RGB 1FH”, “YUV”, “VGA”, “SVGA”, “XGA”,
“CVBS”, Y/C”, “YPBPR 1FH 480p”, “YPBPR 1FH 576p”,
“YPBPR 1FH 1080I”, “YPBPR 2FH 480p”, “YPBPR 2FH
576p”, “YPBPR 2FH 1080i”, “RGB 2FH 480p”, “RGB 2FH
576p”, “RGB 2FH 1080i”, “720p” or “Unsupported”.
• Tuned Bit. Due to the DVBT architectural setup this item
does not give useful information any more.
• Digital signal modulation. No useful information for
Service purposes.
• 12NC one zip SW. Displays the 12NC number of the one-
zip file as it is used for programming software in production.
In this one-zip file all below software version can be found.
• Initial main SW. Displays the main software version which
was initially loaded by the factory.
• Current main SW. Displays the built-in main software
version. In case of field problems related to software,
software can be upgraded. As this software is consumer
upgradeable, it will also be published on the Internet.
Example: BX31E_1.2.3.4.
• Flash utils SW. Displays the software version of the
software which contains all necessary components of the
download application. To program this software, EJTAG
tooling is needed. Example: FLASH_1.1.0.0.
• Standby SW. Displays the built-in stand-by processor
software version. Upgrading this software will be possible
via ComPair or via USB.(see chapter Software upgrade).
Example: STDBY_3.0.1.2.
• MOP SW. Not applicable for this chassis.
• Pacific 3 Flash SW. Displays the Pacific 3 software
version.
• NVM version. Displays the NVM version as programmed
by factory.
How to Exit CSM
Press “MENU” on the RC-transmitter.
5.3 Stepwise Start-up
The stepwise start-up method, as known from FTL/FTP sets
(EMG based sets) is not valid any more. There are two possible
situation: one for protections detected by standby software and
one for protections detected by main software.
When the TV is in a protection state due to an error detected by
standby software (and thus blinking an error) and SDM is
activated via shortcutting the pins on the SSB, the TV starts up
until it reaches the situation just before protection. So, this is a
kind of automatic stepwise start-up. In combination with the
start-up diagrams below, you can see which supplies are
present at a certain moment. Important to know here is, that if
e.g. the 3V3 detection fails (and thus error 11 is blinking) and
the TV is restarted via SDM, the Stand-by Processor will
enable the 3V3, but will not go to protection now. The TV will
stay in this situation until it is reset (Mains/AC Power supply
interrupted).
When the TV is in protection state due to an error detected by
main software (Viper protection) and SDM is activated via
shortcutting the pins on the SSB, the TV starts up and ignores
the error. Due to architectural reasons it is possible that the TV
will end up in an undefined state (e.g. when the fast I
blocked). In this case diagnose has to be done via ComPair.
The abbreviations “SP” and “MP” in the figures stand for:
• SP: protection or error detected by the Stand-by
Processor.
• MP: protection or error detected by the VIPER Main
Processor.
In the next transition diagrams for “POD” should be read “CI”.
2
C bus is
Page 21
Service Modes, Error Codes, and Fault Finding
Off
Mains
off
Mains
on
EN 21BJ3.0E PA 5.
- WakeU p
requested
- Acquisition
St by
(Off St by)
- POD Card removed
- tact SW pushed
needed
- No data Acquisition
required
and no POD present
- tact SW pushed
- WakeU p
requested
- Acquisition
needed
Acquisition
required and
POD present
POD
St by
On
For detailed information concerning the triggers that cause the state
transitions, please consult the Jaguar FRS or the ATSC SAD.
The protection state is hardware wise identical to the standby state but
has other, limited wake up reasons.
Figure 5-2 Transition diagram
No data
Semi
St by
GoToProtection
GoToProtection
WakeUp
requeste
- St by
requested
- tact SW
pushed
WakeUp
requeste
d
d
Protection
Active
GoToProtection
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EN 22 BJ3.0E PA5.
Service Modes, Error Codes, and Fault Finding
action holder: M IPS
action holder: St-by
autonomous action
The audio protection circuit shuts down the supply
autonomously. This triggers a set restart and during that restart
(so at this check here), it will be observed that the audio
protection line is high and the audio protection mode is entered.
This condition is not valid for an SDI PDP . I n this PDP set , the
audio protection latch is not present and hence the HIGH
condition here will never be observed. As a result, when an
audio protection occurs, the set will restart and will enter a
supply protection mode because of a missing power supply.
Off
Mains is appl ied
Standby Supply starts running.
+5V2, 1V2Stb, 3V3Stb and +2V5D become present.
In case of PDP 3V3 Vpr to CPU PDP becomes present.
st-by µP resets
All I/O lines have a High default state:
- Sound-Enable and Reset-Audio should remain high.
- NVM power line is high, no NVM communication possible.
Initialise I/O pins of the st-by µP, start keyboard scanning, RC
PDPGO line is high (either HW wise in a non FHP set or
because of the stby µP reset in a FHP set) which is the good
Switch LOW the NVM power reset line. Add a 2ms delay
before trying to address the NVM to allow correct NVM
Switch ON all supplies by switching LOW the POD-MODE
- Assert the Viper reset.
detection, P50 decoding. Wake up reasons are off.
state at cold boot to be able to start the FHP.
Audio Protecti on Line
HIGH?
No
initialization.
and the ON-M ODE I/O lines.
Stand by or
Protection
If the protection state was left by short circuiting the
SDM pins, detection of a protection condition during
startup will stall the startup. Protection conditions in a
playing set will be ignored. The protection mode will
- Switch Sound-Enable and Reset-Audio high.
not be entered.
They are low in the standby mode if the
standby mode lasted longer than 10s.
Yes
Audio Error
SP
Swi tching t he POD -M ODE
low in an FHP PDP set
makes the CP U GO go high
and starts the P DP CP U .
Swi tching t he POD-MO DE and t he
ON-mode low in an SDI PDP set
makes the PD P supplies go to the
ON mode.
+5V, +8V6, +12VS, +12VSW and Vsound are switched on
Wait 50ms and then start polling the detect-
5V, detect-8V6 and detect-12V every 40ms.
No
detect-5V
received within 2900 ms after
POD-MODE I/O line
toggle?
- Only when the PDPGO is low, a retry should be
considered (the PDP could have reset internally). If
the PDPGO is already high, there is no use in trying
to restart.
- PDPGO li ne is pulled high i n all non FHP sets so
this extra startup delay in case of a fault condition
is not valid.
- Switching the PDPGO high will give a visual
artefact and should only be done if really
necessary.
activate +5V supply detection algorithm
Yes
The availability of the supplies is checked through detect signals (delivered by
dedicated detect-IC's) going to the st-by µP. These signals are available for
+12V, +8V6, +5V, +1V2 and +2V5. A low to high transition of the signals should
occur within a certain time after toggling the standby line. If an observers is
detected before the time-out elapses, of course, the process should continue in
No
Switch PDPGO high:
PDP should start: 5V, 8V6 and
12V are activated
Yes
received within
2900 ms after PD PGO
PDPGO
=
High?
No
detect-5V
toggle?
order to minimize start up time.
No
Yes
+5V erro r
SP
detect-12VSW received within
2900 ms after POD -m ode I /O
line toggle?
Yes
activate +12VSW supply
detection algorithm
No
+12V error
SP
No need to wait for the 8V6 detection at this point.
within 6300 ms after POD-mode I/O line
Enable the +1V2 supply (ENABLE-1V2)
To part BTo part B To part B To part B
Figure 5-3 “Off” to “Semi Stand-by” flowchart (part 1)
detect-8V6 rece ived
toggle? Startup shall not wait for this
detection and continue startup.
No
Yes
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Service Modes, Error Codes, and Fault Finding
From part AFrom part A From part A From part A
action holder: M IPS
action holder: St-by
autonomous action
Start polling the detect-1V2 every 40ms
+8V6 erro r
activate +8V6 supply
detection algorithm
EN 23BJ3.0E PA 5.
SP
detect-1V2
received within
250ms?
No
Start polling the detect-3V3 every 40ms
Activate supply detection algorithms for
Yes
Enable the supply for
+2.5V and +3.3V (ENABLE-3V3)
detect-3V3
received within
250 ms?
Yes
+1V2 and +3V3
SUPPLY-FAULT I/O line
is High?
Yes
Enable the supply fault detection
interrupt
No
+1.2V err or
SP
No separate enable and
detect is present for the +2V5
supply in the Baby Jaguar.
+3.3V err orNo
SP
Supply fa ult erro rNo
SP
return
Set I²C slave address
of Standby µP to (A0h)
Detect EJ TAG debug probe
(pulling pin of the probe interface to
ground by inserting EJTAG probe)
EJTAG probe
connected ?
No
No
Release viper reset
Feed warm boot script(2)
No
No
Cold boot?
Yes
Release viper reset
Feed cold boot script(1)
Release PNX2015 reset 100ms after
Viper reset is released
Bootscript ready
in 1250 ms?
Yes
Set I²C slave address
of Standby µP to (64h)
Yes
Release viper reset
Feed initializing boot script (3)
disable alive mechanism
Release PNX2015 reset 100ms
after Viper reset is released
RPC start (comm . protocol )
To part C To part C To part C
Figure 5-4 “Off” to “Semi Stand-by” flowchart (part 2)
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EN 24 BJ3.0E PA5.
Code = 5
Switch Viper in reset
Wait 10ms
Switch the NVM reset
line HIGH.
Disable all supply related protections and
switch off the +2V5, +3V3 DC/DC converter.
Service Modes, Error Codes, and Fault Finding
From part B From part BFrom part BFrom part A
No
Code = 53
Flash to Ram im age
transfer succeeded
wit hin 30 s?
Yes
Viper SW initialization
No
succeeded
wit hin 20 s?
Yes
Enable Alive check mechanism
MIPS reads the wake up reason
from standby µP.
Wait until Viper starts to
communicate
action holder: M IPS
action holder: St-by
autonomous action
3-th try?
Yes
Log Code as
error code
SP
Wait 5ms
switch off the remaining DC/DC
converters
Switch POD-MODE and ON-MODE
I/O line hi gh.
Wait for the +8V6 to be d etected if not yet present. (if
it does not come, the standby µP will enter a
protection mode, this is not a dead end here)
FHP PDP
Set?
No
Init FHP PDP by triggering
CHS displays
Initialize_display interface
- Register PIIConfig of the Pacific3: LVDS function should be set to 0
(CMOS input) in the Baby Jaguar platform.
- POIConfig: lvds function should be set to 0 (CMOS out on Baby)
- PanelConfig register: PanelOff = 0, PanelOn = 1. P3 can always be
on, switching of lvds is done through PNX.
Start 4 seconds preheating timer in case of
an LPL scanning backlight LCD s et.
(AVIP's need to be started before the MPIF's in order to have a good clock distribution).
AVIP default power-up mode is Standby. The Viper instructs AVIP via I²C to enable all the
PLL's and clocks and hence enter to Full Power mode. See FMS AVIP for further details
and the rest of the initialization.
initialize PNX2015 HD subsystem according
FMS i nform atio n
MPI F's should be initial ized according the FMS inform ation.
MPIF should deliver 2 observers:
POR= 0; normal operation
ROK = 1; reference frequency is present (coming from AVIP)
Yes
Send STBYEN = 1
PFCON = 1
VCCON = 1
to PDP dis pla y (I ²C )
Switch PDPGO l ow
All observers present with correct state?
Yes
initialize tuners and Hirate according FMS
Initialize video processing IC's according FMS information:
- Spider
initialize Columbus by triggering CHS Columbus Init interface
initialize 3D Combfilter by triggering CHS 3D Comb filter Init interface
initialize AutoTV by triggering CHS AutoTV Init interf ace
See appropriate CHS documents for further details.
Do not enter semi-standby state in case of an LPL
scanning backlight LCD set before 4s preheating timer has
elapsed.
information
Initialize source selection according FMS
and CHS inform ation
Initialize Pacific related Ambilight settings
(if applicable)
Initialize Ambilight with Lights off.
No
Semi-Standby
Figure 5-5 “Off” to “Semi Stand-by” flowchart (part 3)
Log appropriate
Observer error
Because of a bug in the Pacific IC, all video and
display related Pacific parameters should be
initialized before initializing the ambilight related
Pacific parameters. If not, initializing the video and
display rela ted Pacif ic par ameters will over write the
ambilight param eters.
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Service Modes, Error Codes, and Fault Finding
42" FHP 1024i A3
Semi Standby
EN 25BJ3.0E PA 5.
Assert RGB video blanking
and audio m ut e
Initialize audio and video processing IC's and
functions according needed use case.
Wait until QVCP generates a valid lvds output
Switch off RGB blanking after valid, stable video, corresponding to
the requested output is delivered by the Viper
Vs and Va become active
No
clock.
Make PDPGO high:
Power-OK display
detected within 2s after
switching PDPGO?
PDPON mode [CNDC] = 4
detected within 10s after
switching PDPGO?
action holder: M I P S
action holder: St-by
autonomous ac tion
No
Log display error
MP
Yes
Add 800ms delay before resuming startup to avoid transients
because of slow rising high tension voltages
Switch on LVDS transmitter
(PNX2015)
Enable anti-agi ng through Anti -
agingEnable interface of CHS
displays
Unblank by sending ADEN = 1
to PDP displ ay
Switch Audio-Reset and sound enable low and demute
(see CHS audio LdspMute interface).
Start polling PDP-IRQ
Active
Yes
Return
Yes
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Figure 5-6 “Semi Stand-by” to “Active” flowchart 42” FHP 1024i A3
Page 26
EN 26 BJ3.0E PA5.
Service Modes, Error Codes, and Fault Finding
42" FHP 1080i A4
Semi Standby
Assert RGB video blanking
and audio m ut e
MP
Initialize audio and video processing IC's and
functions according needed use case.
Wait until QVCP generates a valid lvds output
Switch off RGB blanking after valid, stable video, corresponding to
the requested output is delivered by the Viper
Vs and Va become active
No
clock.
Make PDPGO high:
Power-OK display
detected within 2s after
switching PDPGO?
Yes
PDP ON m ode [CN DC] = 4
detected within 10s after
switching PDPGO?
Yes
action holder: M I P S
action holder: St-by
autonomous ac tion
No
Log display error
Add 800ms delay before resuming startup to avoid transients
because of slow rising high tension voltages
Switch on LVDS transmitter
(PNX2015)
Enable anti-agi ng through
Anti-agingEnable interface of
CHS displays
Unblank by sending ADEN = 1
to PDP displ ay
Switch Audio-Reset and sound enable low and demute
(see CHS audio LdspMute interface).
Start polli ng PDP-IRQ
Active
Return
Yes
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Figure 5-7 “Semi Stand-by” to “Active” flowchart 42” FHP 1080i A4
Page 27
Service Modes, Error Codes, and Fault Finding
42" / 50" SDI V5
63" SDI V4
Semi Standby
Assert RGB video blanking
and audio m ute
Initialize audio and video processing IC's and
functions according needed use case.
EN 27BJ3.0E PA 5.
action holder: M IPS
action holder: St-by
autonomous action
Wait unti l QV CP generates a valid lvds output
clock.
Switch off RGB blanking after valid, stable video, corresponding to
the requested output is delivered by the Viper
Switch on LVDS transmitter
(PNX2015) (if not already on)
Switch the SDI Picture Flag low to enable picture. 1.5
seconds later, the display will unblank automatically
and show the lvds content.
Enable anti -aging through
Anti-agingEnable interface of
CHS displa ys
Switch Audio-Reset and sound enable low and
demute
(see CHS audio LdspMute interface).
This unblank is moved forwards on demand
of SW to allow to obtain valid QVCP output
PWR-OK-PDP
received within 10s
after Picture flag toggle
?
Yes
No
Log error and
enter protection
mode
Active
Figure 5-8 “Semi Stand-by” to “Active” flowchart 42 & 50” SDI V5 and 63” SDI V4
SPreturn
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Page 28
EN 28 BJ3.0E PA5.
Service Modes, Error Codes, and Fault Finding
42" FHP 1024 A3
Active
Mute al l sound outputs.
Switch reset-audio and sound-enable
lines high
Blank by sending ADEN = 0
to PDP display
Mute al l video outputs
Switch off LVDS signal
(Viper I/O: PD-L VDS)
action holder: M IPS
action holder: St-by
autonomous action
Switch off PDP display by switching PDPGO low
Stop I RQ polli ng
Semi Standby
Figure 5-9 “Active” to “Semi Stand-by” flowchart 42” FHP 1024 A3
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Service Modes, Error Codes, and Fault Finding
42" FHP 1080i A4
Active
Mute al l sound outputs.
EN 29BJ3.0E PA 5.
action holder: M IPS
action holder: St-by
autonomous action
Switch reset-audio and sound-enable
Blank by sending ADEN = 0
Switch off PDP display by switching PDPGO low
lines high
to PDP display
Mute al l video outputs
Switch off LVDS signal
(Viper I/O: PD-LVDS)
Stop I RQ polli ng
Semi Standby
Figure 5-10 “Active” to “Semi Stand-by” flowchart 42” FHP 1080i A4
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EN 30 BJ3.0E PA5.
Service Modes, Error Codes, and Fault Finding
42" / 50" SDI V5
63" SDI V4
Active
Mute al l sound outputs.
Switch reset-audio and sound-enable
lines high
Blank P DP displ ay
Mute al l video outputs
Wait 600ms to prevent image
retention
(display error)
action holder: M IPS
action holder: St-by
autonomous action
Switch off LVDS signal
(PNX2015)
Switch the SDI Picture Flag high to prevent
testpattern display in semi-standby mode
Semi Standby
Figure 5-11 “Active” to “Semi Stand-by” flowchart 42 & 50” SDI V5 and 63” SDI V4
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Service Modes, Error Codes, and Fault Finding
Semi Stand by
Delay transition until ramping down of ambient light is
finished. *)
EN 31BJ3.0E PA 5.
action holder: M I P S
action holder: St-by
autonomous ac tion
Switch ambient light to passive mode with RGB
values on zero. *)
transfer Wake up reasons to the
Stand by µP.
Images are re-transferred to DDR-RAM from
Flash RAM (verification through checksum)
MI P S i m age com plet es the appli cation rel oad,
stops DDR- RAM access, puts itself in a
sleepmode and signals the standby µP when the
standby mode can be entered.
DDR-RAM is put in self refresh mode and the images
are kept in the hibernati ng DDR -RAM .
Wait 5ms
Switch Viper in reset state
*) If this is not performed and the set is
switched to standby when the ramping of
the EPLD is still ongoing, the lights will
remain l it in standby.
Important remark:
release reset audio and sound-
enable 10 sec after entering
standby to save power
Wait 10m s
Switch the NVM reset line HIGH.
Disable all supply related protections and switch off
the +2V5, +3V3 DC/DC converter.
Wait 5ms
switch off the remaining DC/DC converters
Switch OFF all supplies by switching HIGH the POD-
MODE and the ON-MO DE I/O lines .
Stand by
For PDP this m eans CPU GO
becomes low.
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Figure 5-12 “Semi Stand-by” to “Stand-by” flowchart
Page 32
EN 32 BJ3.0E PA5.
Service Modes, Error Codes, and Fault Finding
Semi Stand by
action holder: M IPS
This state transition is entered when standby is requested
and an authenticated POD is present. When in semi-
action holder: St-by
autonomous action
standby, the CEservices will set the POD standby NV M
bit and ask infra to reboot. After the reboot, POD standby
will be entered. The Trimedia images are not started in
this case and CEsvc will ask infra to enter the Hardware
Reboot
Power-down HDMI and 1394 hardware by keeping
POWE RDOWN -1394 GPI O 0 line hi gh.
Set Viper HW blocks (TM1, TM2, MBS, VMSP1 and
VMSP2) t o power down mode .
H ibernate the PN X2015 m em ory and keep the
PNX2015 in reset state
POD standby state.
Disable +8V6 supply detection algorithm
Disable audi o protecti on algorithm
Switch OFF all supplies which are not needed in POD
standby by switching HIGH the ON-MODE I/O line.
POD standby
Figure 5-13 “Semi Stand-by” to “POD Stand-by” flowchart
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Service Modes, Error Codes, and Fault Finding
EN 33BJ3.0E PA 5.
POD stand by
Switch ON all supplies by switching LOW
the ON-MODE I/O line.
Full SSB power and the display related supplies
become availabl e
+8V6
detected within
2000 ms after ON -M ODE
toggle?
Yes
activate +8V6 supply
detection algorithm
Wait 2000ms to allow main supply to
deliver full power.
Enable audio protection algorithm
SDI PDP
Set?
Yes
These LVDS items are
SDI V 3 dis play onl y !!
No
Switch ON the LVDS output of
the PNX2015 with a correct
clock frequency within 4s after
switching the POD and ON-
mode to prevent PDP dis play
supply protection.
+8V6 erro r
SP
action holder: M IPS
action holder: St-by
autonomous action
PWR-OK-PDP
received within 5s
after POD and ON m ode
toggle ?
Yes
Init SDI PDP by tr iggering
CHS displays'
Initialize_display interface
Switch LVDS back off if
end state is not the active
state.
action holder: M I P S
action holder: St-by
autonomous ac tion
No
Log display
error and enter
protection mode
SP
Power-up HDMI and 1394 hardware by putting
POWERDOWN-1394 GPIO 0 line low.
Enable Viper HW blocks (TM1, TM2, MBS, VMSP1 and
VMSP2) which were in powerdown mode.
Release PNX2015 reset
(AVIP's need to be started before the MPIF's in order to have a good clock distribution).
AVIP default power-up mode is Standby. The Viper instructs AVIP via I²C to enable all the
PLL's and clocks and hence enter to Full Power mode. See FMS AVIP for further details
and the rest of the initialization.
initialize PNX2015 HD subsystem according
FMS information
MPI F's should be initi alized according the FMS inform ati on.
MPIF should deliver 4 observers:
POR= 0; normal operation
MSUP = 1: Main supply is present
ASUP = 1; audio supply is present
ROK = 1; reference frequency is present (coming from AVIP)
All observers present with correct state? appropriate Observer errorNo
Yes
initializ e tuners and Hirate according FM S
Initialize video processing IC's according FMS information:
- Spider
information
Initialize source selection according FMS
and CHS inform ation
MP
initializ e C olum bus by triggering CH S C olum bus Ini t interfac e
initializ e 3D Com bfil ter by triggering CHS 3D Comb f ilter Ini t interfac e
initialize AutoTV by triggering CHS AutoTV Init interface
See appropriate CHS documents for further details.
Semi-Standby
Figure 5-14 “POD Stand-by” to “Semi stand-by” flowchart
G_15960_135.eps
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Page 34
EN 34 BJ3.0E PA5.
Service Modes, Error Codes, and Fault Finding
POD
transfer Wake up reasons to the
Stand by µP.
Images are re-transferred to DDR-RAM from
Flash RAM (verification through checksum)
MI P S im age com pl etes the appl icati on reload,
stops DDR-RAM acces s , puts itself in a
sleepmode and signals the standby µP when the
standby mode can be entered.
DDR-RAM is put in se lf refresh mode and the images
are kept in the hibernating DDR-RAM.
Wait 5ms
Switch Vip er in re set sta te
action holder: M IPS
action holder: St-by
autonomous action
Wait 10m s
Switch the NVM reset line HIGH.
Disable all supply related protections and switch off
the +2V5, +3V3 DC/DC converter.
Wait 5ms
switch off the remaining DC/DC converters
Switch OFF all supplies by switching HIGH the POD-
MODE I/O line.
Important remark:
release reset audio and sound-
enable 2 sec after ente ring
standby to save power
Stand by
Figure 5-15 “POD” to “Stand-by” flowchart
G_15960_136.eps
100306
Page 35
Service Modes, Error Codes, and Fault Finding
EN 35BJ3.0E PA 5.
action holder: M I P S
action holder: St-by
autonomous ac tion
If needed to speed up this transition,
this block could be omitted. This is
depending on the outcome of the
safety investigations.
MP
Log the appropriate error and
set stand-by flag in NVM
Redefine wake up reasons for protection
state and transfer to stand-by µP.
Switch off LCD lamp supply
Wait 250ms (min. = 200ms)
Switch off LVDS signal
Switch off 12V LCD supply within a time frame
of min. 0.5ms to max. 50ms after LVDS switch
off.
Ask stand-by µP to enter protection state
SP
Switch Viper in reset state
Wait 10ms
Switch the NVM reset line HIGH.
Disable all supply related protections and switch off
the +2V5, +3V3 DC/DC converter.
Wait 5ms
switch off the remaining DC/DC con vert ers
Switch OFF all supplies by switching HIGH the POD-
MODE and the ON-MO DE I/O lines .
Flash LED i n order to indicat e
protection state*. (see FRS) (*): This can be the standby LED or the ON LED
depending on the availability in the set under
discussion.
Protection
Figure 5-16 “Protection” flowchart
G_15960_137.eps
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EN 36 BJ3.0E PA5.
5.4 Service Tools
5.4.1 ComPair
Introduction
ComPair (Computer Aided Repair) is a service tool for Philips
Consumer Electronics products. ComPair is a further
development on the European DST (service remote control),
which allows faster and more accurate diagnostics. ComPair
has three big advantages:
1. ComPair helps you to quickly get an understanding on how
to repair the chassis in a short time by guiding you
systematically through the repair procedures.
2. ComPair allows very detailed diagnostics (on I
is therefore capable of accurately indicating problem areas.
You do not have to know anything about I
yourself because ComPair takes care of this.
3. ComPair speeds up the repair time since it can
automatically communicate with the chassis (when the
microprocessor is working) and all repair information is
directly available. When ComPair is installed together with
the Force/SearchMan electronic manual of the defective
chassis, schematics and PWBs are only a mouse click
away.
Specifications
ComPair consists of a Windows based fault finding program
and an interface box between PC and the (defective) product.
The ComPair interface box is connected to the PC via a serial
(or RS-232) cable.
For this chassis, the ComPair interface box and the TV
communicate via a bi-directional service cable via the service
connector(s).
The ComPair fault finding program is able to determine the
problem of the defective television. ComPair can gather
diagnostic information in two ways:
• Automatically (by communicating with the television):
ComPair can automatically read out the contents of the
entire error buffer. Diagnosis is done on I
ComPair can access the I
ComPair can send and receive I
the microcontroller of the television. In this way, it is
possible for ComPair to communicate (read and write) to
devices on the I
2
C/UART buses of the TV-set.
• Manually (by asking questions to you): Automatic
diagnosis is only possible if the microcontroller of the
television is working correctly and only to a certain extent.
When this is not the case, ComPair will guide you through
the fault finding tree by asking you questions (e.g. Does the
screen give a picture? Click on the correct answer: YES /
NO) and showing you examples (e.g. Measure test-point I7
and click on the correct oscillogram you see on the
oscilloscope). You can answer by clicking on a link (e.g.
text or a waveform picture) that will bring you to the next
step in the fault finding process.
By a combination of automatic diagnostics and an interactive
question / answer procedure, ComPair will enable you to find
most problems in a fast and effective way.
How to Connect
This is described in the chassis fault finding database in
ComPair.
Caution: It is compulsory to connect the TV to the PC as
shown in the picture below (with the ComPair interface in
between), as the ComPair interface acts as a level shifter. If
one connects the TV directly to the PC (via UART), ICs will be
blown!
2
C/UART bus of the television.
2
C/UART commands to
Service Modes, Error Codes, and Fault Finding
2
C level) and
2
C commands
2
C/UART level.
5.4.2 LVDS Tool
Figure 5-17 ComPair interface connection
How to Order
ComPair order codes (EU/AP/LATAM):
• Starter kit ComPair32/SearchMan32 software and
ComPair interface (excl. transformer): 3122 785 90450.
• ComPair interface (excl. transformer): 4822 727 21631.
• Starter kit ComPair32 software (registration version): 3122
785 60040.
• Starter kit SearchMan32 software: 3122 785 60050.
• ComPair32 CD (update): 3122 785 60070 (year 2002),
3122 785 60110 (year 2003 onwards).
• SearchMan32 CD (update): 3122 785 60080 (year 2002),
3122 785 60120 (year 2003), 3122 785 60130 (year 2004).
• ComPair firmware upgrade IC: 3122 785 90510.
• Transformer (non-UK): 4822 727 21632.
• Transformer (UK): 4822 727 21633.
• ComPair interface cable: 3122 785 90004.
• ComPair interface extension cable: 3139 131 03791.
• ComPair UART interface cable: 3122 785 90630.
Note: If you encounter any problems, contact your local
support desk.
Introduction
This service tool (also called “ComPair Assistant 1“) may help
you to identify, in case the TV does not show any picture,
whether the Small Signal Board (SSB) or the display of a Flat
TV is defective.
Furthermore it is possible to program EPLDs with this tool (Byte
blaster). Read the user manual for an explanation of this
feature.
Since 2004, the LVDS output connectors in our Flat TV models
are standardised (with some exceptions). With the two
delivered LVDS interface cables (31p and 20p) you can cover
most chassis (in special cases, an extra cable will be offered).
When operating, the tool will show a small (scaled) picture on
a VGA monitor. Due to a limited memory capacity, it is not
possible to increase the size when processing high-resolution
LVDS signals (> 1280x960). Below this resolution, or when a
DVI monitor is used, the displayed picture will be full size.
Generally this tool is intended to determine if the SSB is
working or not. Thus to determine if LVDS, RGB, and sync
signals are okay.
How to Connect
Connections are explained in the user manual, which is packed
with the tool.
TO
UART SERVICE
CONNECTOR
PC VCR I2CPower
I2C SERVICE
CONNECTOR
9V DC
E_06532_021.eps
180804
TO
Page 37
Service Modes, Error Codes, and Fault Finding
EN 37BJ3.0E PA 5.
Note: To use the LVDS tool, you must have ComPair release
2004-1 (or later) on your PC (engine version >= 2.2.05).
For every TV type number and screen size, one must choose
the proper settings via ComPair. The ComPair file will be
updated regularly with new introduced chassis information.
How to Order
• LVDS tool (incl. two LVDS cables: 31p and 20p):
3122 785 90671.
• LVDS tool Service Manual:
3122 785 00810.
• LVDS cable 31p/FI -> 31p/FI (for JL2.1 chassis):
3122 785 90861.
• LVDS cable 30p/DF -> 31p/FI (for LC4.3 chassis):
3122 785 90821.
• LVDS cable 41p/FI -> 31p/FI (dual -> single LVDS):
3122 785 90831.
• LVDS cable 20p/DF -> 20p/DF (standard with tool):
3122 785 90731.
• LVDS cable 31p/FI -> 31p/FI (standard with tool):
3122 785 90662.
• LVDS cable 20p/DF -> 20p/DF (for LC4.1 chassis):
3122 785 90851.
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), except when the error is a
protection error.
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.
Basically there are three kinds of errors:
• Errors detected by the Stand-by Processor. These
errors will always lead to protection and an automatic start
of the blinking LED for the concerned error (see paragraph
“The Blinking LED Procedure”). In these cases SDM can
be used to start up (see chapter “Stepwise Start-up”). Note
that it can take up to 90 seconds before the TV goes to
protection and starts blinking the error (e.g. error 53)
• Errors detected by VIPER that lead to protection. In this
case the TV will go to protection and the front LED should
also blink the concerned error. Depending on the software
version it is possible that this mechanism does not work.
See also paragraph “Error Codes” -> “Error Buffer” ->
“Extra Info”.
• Errors detected by VIPER that do not lead to
protection. In this case the error will be logged into the
error buffer and can be read out via ComPair, via blinking
LED method, or in case you have picture, via SAM.
• Via the blinking LED procedure (when you have no
picture). See next paragraph.
•Via ComPair.
5.5.3 How to Clear the Error Buffer
Use one of the following methods:
• By activation of the “RESET ERROR BUFFER” command
in the SAM menu.
• With a normal RC, key in sequence “MUTE” followed by
“062599” and “OK”.
• If the content of the error buffer has not changed for 50+
hours, it resets automatically.
5.5.4 Error Buffer
In case of non-intermittent faults, clear the error buffer before
you begin the repair (before clearing the buffer, write down the
content, as this history can give you significant information).
This to ensure that old error codes are no longer present.
If possible, check the entire contents of the error buffer. In
some situations, an error code is only the result of another error
code and not the actual cause (e.g., a fault in the protection
detection circuitry can also lead to a protection).
There are several mechanisms of error detection:
• Via error bits in the status registers of ICs.
• Via polling on I/O pins going to the stand-by processor.
• Via sensing of analogue values on the stand-by processor
or the Viper.
• Via a “not acknowledge” of an I
Take notice that some errors need more than 90 seconds
before they start blinking. So in case of problems wait 2
minutes from start-up onwards, and then check if the front LED
is blinking.
2
C communication
5.5.2 How to Read the Error Buffer
Use one of the following methods:
• On screen via the SAM (only if you have a picture). E.g.:
– 00 00 00 00 00: No errors detected
– 06 00 00 00 00: Error code 6 is the last and only
detected error
– 09 06 00 00 00: Error code 6 was first detected and
error code 9 is the last detected error
Page 38
EN 38 BJ3.0E PA5.
Service Modes, Error Codes, and Fault Finding
Table 5-3 Error code overview
Error Description Error/Prot Detected by Device Defective module Result
1
I2C1
2
I2C2
3
I2C3
4
I2C4
5 VIPER does not boot P Stby µP PNX8550 / Protection + Error blinking
6 5V supply P Stby µP / / Protection + Error blinking
7 8V6 supply P Stby µP / / Protection + Error blinking
8 1.2V DC/DC P Stby µP / / Protection + Error blinking
11 3.3V DC/DC P Stby µP / / Protection + Error blinking
12 12V supply P Stby µP / / Protection + Error blinking
14 Audio P Stby µP / / Protection + Error blinking
18 MPIF1 ref. freq. E VIPER PNX3000 IF I/O Error logged
25 Supply fault P Stby µP n.a. / Protection + Error blinking
27 PNX2015 HD subsystem part E VIPER / / see extra info
29 AVIP 1 E VIPER / / see extra info
31 AVIP 2 E VIPER / / see extra info
32 MPIF1 E VIPER PNX3000 Analog 1 front end 1 Error logged
34 Tuner1 E VIPER / Tuner 1 Error logged
36 OFDM (channel decoder) E VIPER TDA10046 / Error logged
39 POD/Common Interface E VIPER STV0701 / Error logged
43 Hi Rate Front End E VIPER TDA9975 HDMI Error logged
44 NVM P Stby µP / / see extra info
45 Columbus 1 E VIPER PNX2015 Comb filter Error logged
46 Pacific 3 E VIPER / / TV to standby + Error logged
53 VIPER P Stby µP PNX8550 / Protection + Error blinking
55 Spider E VIPER / / see extra info
63 Power OK P VIPER / / Protection + E rror blinki ng (see ex tra info)
64 Display E VIPER / / Error logged
P VIPER /
E VIPER /
P Stby µP / / Protection + Error blinking
P VIPER /
I2C1_blocked
I2C2_blocked
I2C4_blocked
Protection + Error blinking
Error logged
Protection + Error blinking
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 recognised via a ComPair
interface and Hyperterminal (for Hyperterminal settings,
see paragraph “Stand-by software upgrade). You will see
that the loggings which are generated by the main software
keep continuing. In this case (rebooting) diagnose has to
be done via ComPair.
• Error 1 (I
2
C bus 1 blocked). When this error occurs, the
TV will go to protection and the front LED will blink error 1.
Now you can start up the TV via the SDM short-cut pins on
the SSB. The TV will start up and ignore the error.
Depending on the problem it is even possible that you have
picture.
• Error 2 (I2C bus 2 blocked). Due to hardware restriction
(I2C bus 2 is the fast I2C bus) it will be impossible to start
up the VIPER when I2C bus 2 is blocked. When this error
occurs, the TV will not start (but probably you will see the
green led). Starting up the TV via the SDM short-cut pins
will not work. So it will not be possible to read out error 2
via internal software (allthough it will be logged). Use
ComPair for further diagnose (e.g. read out the NVM
content).
• Error 3 (I
on I
2
C bus 3 blocked). There are only three devices
2
C bus 3: VIPER, Stand-by Processor, and NVM. The
Stand-by Processor is the detection device of this error, so
this error will only occur if the VIPER or the NVM is blocking
the bus. This error will also blink when the NVM gives no
acknowledge on the I
2
C bus. Note that if the 12 V supply is
missing, the DC/DC supply on the SSB will not work.
Therefore the VIPER will not get supplies and could block
2
C bus 3. So, a missing 12 V can also lead to an error 3.
I
• Error 4 (I
2
C bus 4 blocked). When this error occurs, the
TV will go to protection and the front LED will blink error 4.
Now you can start up the TV via the SDM short-cut pins on
the SSB. The TV will start up and ignore the error.
Depending on the problem it is even possible that you have
picture.
• Error 5 (VIPER does not boot). This error will point to a
severe hardware problem around the VIPER (supplies not
2
OK, VIPER completely dead, I
C link between VIPER and
Stand-by Processor broken, etc...).
• Error 7 (8V6 error). In case of a TV with SDI display you
will see error 7 blink in case of an audio protection. So
except a problem with the 8V6 itself it is also possible that
there is something wrong with the audio part. See also
paragraph "Hardware Protections" for this.
• Error 14 (Audio protection). The detection is done on the
audio board itself. Several items are monitored:
overvoltage, overcurrent, DC level on the speakers and the
audio supply voltages. If one of these items fails, the
audioprotection will switch off the main supply. All supplies
will drop, the standby processor “thinks” there is a mains
dip, and will reboot. At the beginning of the boot process,
the audio-protection line is monitored: if this line is “active”,
the set will go to protection and will blink error 14.
• Error 27 (PNX2015 HD subsystem part). Diagnosing this
error will not be possibly via the normal errorcodes. In case
this device can not communicate with the Viper via I²C, it
will not be possible to initialise the tunnelbus. Hence the
software will not be able to start up, and will re-boot
constantly. Diagnosing these problems will only be
possible via ComPair. In theory it is possible that the error
is logged in the NVM (that’s why this error is still mentioned
here).
• Error 29 (AVIP 1). Same remark as for error 27.
• Error 31 (AVIP 2). Same remark as for error 27.
• Error 44 (NVM). This error will probably never occur
because it is masked by error 3 (I
mechanism for error 3 checks on an I
2
C bus 3). The detection
2
C acknowledge of
the NVM. If NVM gives no acknowledge, the stand-by
software assumes that the bus is blocked, the TV goes to
protection and error 3 will be blinking..
• Error 46 (Pacific 3). When this errors occurs the TV will go
to stand-by. The reason for this is, when there is an
occasional boot problem of the Pacific, it will look like the
TV has started up in stand-by mode, and the customer can
switch it on again. When there is an actual problem with or
around the Pacific the TV will go to stand-by every time you
try to start up. So this behaviour is an indication of a Pacific
problem.
Page 39
Service Modes, Error Codes, and Fault Finding
EN 39BJ3.0E PA 5.
• Error 53. This error will indicate that the VIPER has started
to function (by reading his boot script, if this would have
failed, error 5 would blink) but initialization was never
completed because of hardware peripheral problems
(NAND flash, ...) or software initialization problems.
Possible cause could be that there is no valid software
loaded (try to upgrade to the latest main software version).
Note that it takes 90 seconds before the TV goes to
protection in this case.
• Error 55 (SPIDER error). Same remark as for error 27.
• Error 63 (POWER OK). When this error occurs, it means
that the POWER-OK line did not became “high”. This error
is only applicable for TV’s with a SDI display, a FHP display
or a Sharp full HD display. Depending on the software
version it is possible that the detection mechanism of this
error does not function and that the TV keeps rebooting.
• Error 64 (Display error). When this error occurs it means
that there is a problem with the I
the display. Allthough several display types communicate
2
C, this error will only work for TV’s with a FHP display.
via I
2
C communication towards
5.6 The Blinking LED Procedure
5.6.1 Introduction
The blinking LED procedure can be split up into two situations:
• Blinking LED procedure in case of a protection detected by
the stand-by processor. In this case the error is
automatically blinked. This will be only one error, namely
the one that is causing the protection. Therefore, you do
not have to do anything special, just read out the blinks. A
long blink indicates the decimal digit, a short blink indicates
the units.
• Blinking LED procedure in the “on” state. Via this
procedure, you can make the contents of the error buffer
visible via the front LED. This is especially useful for fault
finding, when there is no picture.
When the blinking LED procedure is activated in the “on” state,
the front LED will show (blink) the contents of the error-buffer.
Error-codes > 10 are shown as follows:
1. “n” long blinks (where “n” = 1 - 9) indicating decimal digit,
2. A pause of 1.5 s,
3. “n” short blinks (where “n”= 1 - 9),
4. A pause of approx. 3 s.
5. When all the error-codes are displayed, the sequence
finishes with a LED blink of 3 s,
6. The sequence starts again.
Example: Error 12 8 6 0 0.
After activation of the SDM, the front LED will show:
1. 1 long blink of 750 ms (which is an indication of the decimal
digit) followed by a pause of 1.5 s,
2. 2 short blinks of 250 ms followed by a pause of 3 s,
3. 8 short blinks followed by a pause of 3 s,
4. 6 short blinks followed by a pause of 3 s,
5. 1 long blink of 3 s to finish the sequence,
6. The sequence starts again.
second last error, etc.... Take notice that it takes some
seconds before the blinking LED starts.
5.7 Protections
5.7.1 Software Protections
Most of the protections and errors use either the stand-by
microprocessor or the VIPER controller as detection device.
Since in these cases, checking of observers, polling of ADCs,
filtering of input values are all heavily software based, these
protections are referred to as software protections.
There are several types of software related protections, solving
a variety of fault conditions:
• Protections related to supplies: check of the 12V, +5V,
+8V6, +1.2V and +3.3V.
• Protections related to breakdown of the safety check
mechanism. E.g. since a lot of protection detections are
done by means of the VIPER, failing of the VIPER
communication will have to initiate a protection mode since
safety cannot be guaranteed any more.
Remark on the Supply Errors
The detection of a supply dip or supply loss during the normal
playing of the set does not lead to a protection, but to a cold
reboot of the set. If the supply is still missing after the reboot,
the TV will go to protection.
Protections during Start-up
During TV start-up, some voltages and IC observers are
actively monitored to be able to optimise the start-up speed,
and to assure good operation of all components. If these
monitors do not respond in a defined way, this indicates a
malfunction of the system and leads to a protection. As the
observers are only used during start-up, they are described in
the start-up flow in detail (see paragraph “Stepwise Start-up").
5.7.2 Hardware Protections
There are no real hardware protections in this chassis..
Allthough, in case of an audio problem, the audio protection
circuit will switch off the main supply. The stand-by
microprocessor will interpret this as a mains dip and will try to
start up again.
In case of a TV with SDI display this will probably lead to
protection error 7 (8V6 error) and an internal error 11 (so it
looks like an overvoltage protection of the SDI supply itself).
In other cases it will lead to error 14 (audio protection).
Repair Tips
• It is also possible that you have an audio DC protection
because of an interruption in one or both speakers (the DC
voltage that is still on the circuit cannot disappear through
the speakers).
5.6.2 How to Activate
Use one of the following methods:
• Activate the SDM. The blinking front LED will show the
entire contents of the error buffer (this works in “normal
operation” mode).
• Transmit the commands “MUTE” - “062500” - “OK”
with a normal RC. The complete error buffer is shown.
Take notice that it takes some seconds before the blinking
LED starts.
•Transmit the commands “MUTE” - “06250x” - “OK”
with a normal RC (where “x” is a number between 1 and
5). When x= 1 the last detected error is shown, x= 2 the
Page 40
EN 40 BJ3.0E PA5.
5.8 Fault Finding and Repair Tips
Read also paragraph "Error Codes" - "Extra Info".
Service Modes, Error Codes, and Fault Finding
42" BJ3.0 FHP PDP
Power supply start-up behaviour
Switch set on via Local keyboard or RC
N
SSB Board defective
Standby command linefrom PNX
BLR Procedure
+5V-SW, +12V, & +8V6 becomes available
Power Supply Check
Mains cord is connected
LED is on?
Y
Red LED is on +5V2 is ok.
Standby supply is working
Standby line goes
low pin 7 1M03
Y
from platform supply
Check on connector 1M46
No
Check if vacation switch is closed
+5V2 is OK?
No
Y
Check Stanby supply on platform
Check Fuse 1400, on Diplay supply
400VF = 295V, drive circuit, T 7S02
and components in standby supply
Y
SSB Start-up process
DC/DC converters start up via
Standby processor
Protection?
Blinking LED?
Y
If protection blinking LED.
Check if error code is related to
DC/DC converter on SSB
error code is
from DC/DC ?
Y
Change SSB
BLR procedure
Check 25V-Hot & +3V3 Display on
Preconditioner and LLC supply starts
No
Check preconditioner control
circuit. and components (AD3)
No
SSB Start-up process
Continue
Viper & I2C commands
Power OK platform
pin 2 1M03 is OK?
Y
Display supply (AD1)
Relay on Display supply is closed
+400V Preconditioner
is OK?
No
Y
LLC supply
is working?
Y
PDP Start up process
I2C command from VIPER
No
No start-up of platform sypply check
+Vaux from standby supply
Check platform supply
Drive 7U10, Vcc = 15V
Switch on control part 7P12 & 7P26
If protection blinking LED
Check protection error code = xx xx xx
is related to platform supply
N
Check SW25V-Hot
LLC supply components, control
circuit....
Protection Latch
Check PDP PS as standalone
G_15960_114.eps
090306
Figure 5-18 First line fault find tree
Page 41
Service Modes, Error Codes, and Fault Finding
EN 41BJ3.0E PA 5.
5.8.1 Exit “Factory Mode”
When an "F" is displayed in the screen's right corner, this
means that the set is in "Factory" mode, and it normally
happens after a new SSB has been mounted.
To exit this mode, push the "VOLUME minus" button on the
TV's keyboard control for 5 seconds and restart the set.
When a DVBT TV starts up in factory mode, the TV will tune to
preset 0. When there is no channel installed on preset 0, there
will be no picture and it will look like the set is in standby mode.
De-activating factory mode can also be done via the above
method.
5.8.2 MPIF
Important things to make the MPIF work:
• Supply.
• Clock signal from the AVIP.
2
C from the VIPER.
•I
When there is no sound an external sources, check the audio
supply of the MPIF.
5.8.3 AVIP
Important things to make the AVIP work:
• Supplies.
• Clock signal from the VIPER.
2
C from the VIPER (error 29 and 31).
•I
5.8.4 PACIFIC 3
In case the Pacific fails, the TV will go to stand-by. The reason
for this is, when there is an occasional boot problem of the
Pacific, it will look like the TV has started up in stand-by mode,
and the customer can switch it on again. When there is an
actual problem with or around the Pacific the TV will go to
stand-by every time you try to start up. So this behaviour is an
indication of a Pacific problem.
5.8.5 Ambilight
Note: in case of Ambilight protection, the TV itself will not go to
protection, only the Ambilight board. When you disconnect the
TV from the mains and reconnect again, the Ambilights will
work again.
In case of multiple protections, check and replace the invertor
transformers and/or the lamp unit(s).
Protections on the ambilight boards:
Parallel arcing protection.In normal operation the inverter
frequency is ±63 kHz. In case of short circuit of the transformer
output the frequency is >100 kHz. Protection is done via
sensing the switching frequency.
Serial arcing protection. The detection of the arcing is done
in the ground wire of lamp units. The µProcessor is counting the
protection pulses. When 50 pulses are counted within 2
seconds protection will be triggered.
5.8.6 Sanken display supply.
All 42” LCD sets for this chassis have a Sanken display supply.
If this supply fails there will be no error or protection because
there is no feedback foreseen from the supply towards the
SSB. The result of a failing Sanken display supply could be that
there is no picture, but that you will probably have sound and 1
out of 3 ambilights will still work (in case ambilight is switched
on).
Another result of a failing Sanken display is of course that the
set is completely dead.
When the primary circuit of the platform supply fails, there is a
high possibility that the main fuse of the Sanken display supply
will break. In this case the Sanken supply must not be replaced
completely. That fuse can be ordered separately (see partslist).
For safety reasons, make sure to use the correct fuse type.
5.8.7 DC/DC Converter
Introduction
• The best way to find a failure in the DC-DC converters is to
check their starting-up sequence at power-on via the mains
cord, presuming that the standby µP is operational.
• If the input voltage of DC-DC converters is around 12V
(measured on decoupling capacitors 2U17/2U25/2U45)
and the enable signals are low (active) then the output
voltages should have their normal values. First, the
standby µP activates the +1V2 supply (via ENABLE-1V2)
then, after this voltage becomes present and is detected
OK (about 100ms), the other two voltages (+2V5 and
+3V3) will be activated (via ENABLE-3V3). The Vtun
generator (present only for the analogue version of Jaguar
Baby) will generate +33V for the analogue tuner as soon as
the 12V/3.3V DC-DC converter will start operating.
• The consumption of controller IC 7U00 is around 30mA
(that means around 300mV drop voltage across resistor
3U22).
• The current capability of DC-DC converters is quite high
(short-circuit current is 7 to 10A), therefore if there is a
linear integrated stabilizer that, for example delivers 1.8V
from +3V3 with its output overloaded, the +3V3 stays
usually at its normal value even though the consumption
from +3V3 increases significantly.
• The +2V5 supply voltage is obtained via a linear stabilizer
made with discrete components that can deliver a lot of
current, therefore in case +2V5 (or +2V5D) is shortcircuited to GND then +3V3 will not have the normal value
but much less. There is a +2V5D low power linear stabilizer
(to supply the DDR memories in standby mode) that is not
used. In normal operation mode the value of this supply
voltage will be close to +2V5 (20..30 mV difference).
• The supply voltages +5V and +8V6 are available from
connector 1M46; they are not protected by fuses. +12VSW
is protected for over-currents by the fuse 1U04 while 1U01
is protecting in case of defects in DC-DC converters. There
are on-board switches for +8V6-SW (see "DC-DC
CONNECTIONS" schematic) and +12VSW but they are
not used (by-passed).
Fault Finding
• Symptom: +1V2, +2V5 and +3V3 not present (even for a
short while ~10ms)
1. Check 12V availability (fuse 1U01, resistor 3U22,
power MOS-FETs) and enable signal ENABLE-1V2
(active low),
2. Check the voltage on pin 9 (1.5V),
3. Check for +1V2 output voltage short-circuit to GND that
can generate pulsed over-currents 7...10A through coil
5U03,
4. Check the over-current detection circuit (2U12 or 3U97
interrupted).
• Symptom: +1V2 present for about 100ms, +2V5 and +3V3
not rising
1. Check the ENABLE-3V3 signal (active LOW),
2. Check the voltage on pin 8 (1.5V),
3. Check the under-voltage detection circuit (the voltage
on collector of transistor 7U10-1 should be less than
0.8V),
4. Check for output voltages short-circuits to GND (+3V3,
+2V5 and +2V5D) that can generate pulsed overcurrents 7...10A through coil 5U00,
5. Check the over-current detection circuit (2U18 or 3U83
interrupted).
Page 42
EN 42 BJ3.0E PA5.
• Symptom: +1V2 OK, +2V5 and +3V3 present for about
100ms. Cause: SUPPLY-FAULT line stays low even
though the +3V3 and +1V2 is available - the standby µP is
detecting that and switching off all supply voltages.
1. Check the value of +2V5 and the drop voltage across
resistor 3U22 (they could be too high),
2. Check if +1V2 or +3V3 are higher than their normal
values - that can be due to defective DC feedback of
the respective dc-dc converter (ex. 3U18 or 3UA7).
• Symptom: +1V2, +2V5 and +3V3 look ok, except the
ripple voltage that is increased (audible noise can come
from the filtering coils 5U00 or 5U03). Cause: instability of
the frequency and/or duty cycle of one or both dc-dc
converters.
1. Check the resistor 3U06, decoupling capacitors, AC
feedback circuits (2U20 + 2U21 + 3U14 + 3U15 for
+1V2 or 2U19 + 2U85 + 3U12 + 3U13 for +3V3),
compensation capacitors 2U09, 2U10, 2U23 and
2U73, IC 7U00.
• Symptom: +1V2, +2V5 and +3V3 ok, no +Vtun (analogue
sets only). Cause: the “VTUN GENERATOR” circuit
(second schematic) is defective.
1. Check transistor 7U24 (has to have gate pulses of
about 10V amplitude and drain pulses of about 35V
amplitude) and surrounding components.
Note: fuse 1U01 broken means usually a pair of power MOSFETs (7U01 or 7U03) defective. The IC 7U00 should be
replaced as well in this case
5.9 Software Upgrading
5.9.1 Introduction
The set software and security keys are stored in a NANDFlash, which is connected to the VIPER via the PCI bus.
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 chapter 3 "Directions For Use".
Service Modes, Error Codes, and Fault Finding
Partition 1
Trimedia2 image
Trimedia1 image
MIPS image
Partition 0
USB Download Application
uBTM (boot block)
Figure 5-19 NAND-Flash format
Executables are stored as files in a file system. The boot loader
(uBTM) will load the USB Download Application in partition 0
(USB drivers, boot script, etc.). This application makes it then
possible to upgrade the main software via USB.
Installing "Partition 0" software is possible via an external
EJTAG tool, but also in a special way with the USB stick (see
description in paragraph “Partition 0“).
Partition 1 (Customer)
To do a main software upgrade (partition 1) via USB, the set
must be operational, and the "Partition 0" files for the VIPER
must be installed in the NAND-Flash!
The new software can be uploaded to the TV by using a
portable memory device or USB storage compliant devices
(e.g. USB memory stick). You can download the new software
from the Philips website to your PC.
Partition 0 (Service)
If the "Partition 0" software is corrupted, the software needs to
be re-installed.
To upgrade this “USB download application” (partition 0 except
the boot block), insert an USB stick with the correct software,
and press the “red” button on the remote control (in ”TV” mode)
when it is asked via the on screen text.
USB CUSTOMER
USB SERVICE
EJTAG
E_14700_082.eps
120505
Important: When the NAND-Flash must be replaced, a new
SSB must be ordered, due to the presence of the security
keys!!! (copy protection keys, MAC address, for US the POD
keys, ...). See table “SSB service kits” for the order codes.
Perform the following actions after SSB replacement:
1. Set the correct option codes (see sticker inside the TV).
2. Update the TV software (see chapter 3 for instructions).
3. Perform the alignments as described in chapter 8.
4. Check in CSM if the HDMI keys are valid.
Table 5-4 SSB service kits
Model Number New SSB order code
42PF9631D/10 3104 328 47151
50PF9631D/10
42PF9968D/10 3104 328 47171
42PF9531/79
42PF9531/98
50PF9531/69 3104 328 47181
42PF9531/93 3104 328 47191
3104 328 47151
3104 328 47181
3104 328 47181
5.9.2 Main Software Upgrade
The software image resides in the NAND-Flash, and is
formatted in the following way:
Caution:
• The USB download application will now erase both
partitions (except the boot block), so you need to reload the
main SW after upgrading the USB download application.
As long as this is not done, the USB download application
will start when the set is switched “on”.
• When something goes wrong during the progress of this
method (e.g. voltage dip or corrupted software file), the set
will not start up, and can only be recovered via the EJTAG
tool!
5.9.3 Manual Start of the Software Upgrade Application
Normally, the software upgrading procedure will start
automatically, when a memory device with the correct software
is inserted, but in case this does not work, it is possible to force
the TV into the software upgrade application. To do so:
• Disconnect the TV from the Mains/AC Power.
• Press the “OK” button on a Philips DVD RC-6 remote
control (it is also possible to use the TV remote in "DVD"
mode).
• Keep the “OK” button pressed while connecting the TV to
the Mains/AC Power.
• The software upgrade application will start.
• When a memory device with upgrade software is
connected, the upgrade process will start.
Page 43
Service Modes, Error Codes, and Fault Finding
5.9.4 Stand-by Software Upgrade
There are two methods now to upgrade stand-by software:
Upgrade via USB
In this chassis it is possible to upgrade stand-by software via a
USB stick. The method is similar to upgrading main software
via USB.
Use the following steps:
1. create a directory “upgrades” on your USB stick.
2. Copy the stand-by software (delivered via the Service
organisation) into this directory.
3. Insert the USB stick into the TV.
4. Start the download application manually (see paragraph
“Manual start of the Software Upgrade Application”.
5. Select the appropriate file and press the red button to
upgrade:
Upgrade via PC and ComPair interface
It will be possible to upgrade the Stand-by software via a PC
and the ComPair interface. Check paragraph "ComPair" on
how to connect the interface. To upgrade the Stand-by
software, use the following steps:
1. Disconnect the TV from the Mains/AC Power.
2. Short circuit the SPI pins [2] on the SSB. They are located
outside the shielding (see figure “Service mode pads”).
3. Keep the SPI pins shorted while connecting the TV to the
Mains/AC Power.
4. Release the short circuit after approx. two seconds.
5. Start up HyperTerminal (can be found in every Windows
application via Programs -> Accessories ->
Communications -> HyperTerminal. Use the following
settings:
–COM1
– Bits per second = 38400
– Data bits = 8
– Parity = none
– Stop bits = 1
– Flow control = Xon / Xoff.
6. Press “Shift U” on your PC keyboard. You should now see
the following info:
– PNX2015 Loader V1.0
– 19-09-2003
– DEVID=0x05
–Erasing
– MCSUM=0x0000
–=
7. If you do not see the above info, restart the above
procedure, and check your HyperTerminal settings and the
connections between PC and TV.
8. Via “Transfer” -> “Send text file ...”, you can send the
proper upgrade file to the TV. This file will be distributed via
the Service Organization.
9. After successful programming, you must see the following
info:
– DCSUM=0xECB3
–:Ok
– MCSUM=0xECB3
– Programming
– PCSUM=0xECB3
– Finished
10. If you do not see this info, restart the complete procedure.
11. Close HyperTerminal.
12. Disconnect and connect Mains/AC Power again.
EN 43BJ3.0E PA 5.
Page 44
EN 44 BJ3.0E PA5.
Personal Notes:
Service Modes, Error Codes, and Fault Finding
E_06532_012.eps
131004
Page 45
Block Diagrams, Test Point Overviews, and Waveforms
6. Block Diagrams, Test Point Overviews, and Waveforms
Wiring Diagram 42” FHP
WIRING 42” FHP
45BJ3.0E PA 6.
AL
3P
11P
3P
11P
AMBI
LIGHT
1M16
1M11
1M15
1M13
1M39
1M59
1M49
1M10
1M09
1M08
8539
8402
3P
5P
4P
6P
4P
6P
8900
AD
DISPLAY SUPPLY
2P3
1P02
0308
2P3
1P10
10P
1P22
2P3
0311
9P
8422
0323
10P
AP
PLATFORM
SUPPLY
10P
1P10
11P
1M46
2P3
1P02
2P3
1P22
1M18
8323
4P
8508
10P
0323
AL
6P
4P
6P
4P
4P5
3P
1M08
1M09
1M10
1M49
1M59
1M39
AMBI
LIGHT
1M13
1M15
1M11
1M16
11P
3P
11P
3P
AMBILIGHT UNIT RIGHT
CONTROL BOARD
E
1M01
3P
8101
J
LED PANEL
6P
1M21
8410
8103
8549
8199
11P
10P
1M46
1M03
B
SMALL SIGNAL BOARD
8921
Shielding
AC INLET
8191
8192(UK)
8121
8735
SPEAKER RIGHT SPEAKER LEFT
3P
1M63
4P5
1M59
4P
USB
1H01
1M64
1N62
31P
1G50
4P
8264
4P
8202
8150
20P
1E62
31P
LVD S
1E40
40P
9P
1M52
8262
8146
8240
3P
11P
1M01
1M36
9P
DISPLAY
40P
1E40
BE
EXTERNALS
20P
1E62
6P
1M21
8136
10P
1M03
C
2P3
2P3
1M02
1M02
AUDIO
1735
1736
7P
8302
7P
8152
9P
1M52
8509
8736
8201
D
AMBILIGHT UNIT LEFT
SIDE I/O
1H01
4P
USB
11P
1M37
G_15960_081.eps
030306
Page 46
Block Diagrams, Test Point Overviews, and Waveforms
Wiring Diagram 50” SDI
WIRING 50” SDI
46BJ3.0E PA 6.
AL
3P
11P
3P
11P
AMBI
LIGHT
1M16
1M11
1M15
1M13
1M39
1M59
1M49
1M10
1M09
1M08
8539
3P
5P
4P
6P
4P
6P
4P
1M09
7P
1M02
8900
10P
1M03
11P
1M46
SDI PDP
POWER SUPPLY
0308
2P3
8508
AL
6P
4P
6P
4P
4P5
3P
1M08
1M09
1M10
1M49
1M59
1M39
AMBI
LIGHT
1M13
1M15
1M11
1M16
11P
3P
11P
3P
AMBILIGHT UNIT RIGHT
CONTROL BOARD
E
1M01
3P
8101
J
LED PANEL
6P
1M21
4P5
1M59
8549
4P
USB
1H01
1M64
8136
C
6P
9P
1E62
20P
1M52
1E40
40P
8240
31P
1G50
4P
8264
11P
1M36
40P
BE
1E40
3P
1M01
1M21
2P3
2P3
8199
8921
Shielding
8103
8146
8150
31P
LVD S
11P
10P
1M46
1M03
B
SMALL SIGNAL BOARD
3P
1M63
EXTERNALS
4P
1N62
AC INLET
8194(AUS/NZ)
8191
8192(UK)
8121
8735
SPEAKER RIGHT SPEAKER LEFT
8262
20P
1E62
1M02
AUDIO
1735
1736
8302
7P
8152
9P
1M52
8509
8736
8201
D
SIDE I/O
1H01
4P
USB
11P
1M37
AMBILIGHT UNIT LEFT
G_15960_080.eps
100406
Page 47
Block Diagrams, Test Point Overviews, and Waveforms
Block Diagram Display Supply 42” FHP
DISPLAY SUPPLY 42” FHP
DISPLAY SUPPLY: FILTER STANDBY
AD1
5401
1400
T6.3A
7500
TNY256P
4
EN|UV
SOURCE
DRAIN
6510
5005
5402
MAINS
FILTER
3507
3035
3026
5
2
6511
0308
2
1
MAINS
INPUT
95-264Vac
400V_HOT
AD3
3510
35113512
6503
7462
3514
3514
DISPLAY SUPPLY: PROTECTION
AD2
(For Platform Supply)
3450
+T
3036
+T
6513
6512
3506
+T
5500
5
2
4
6501
1
6502
6506
HOT GROUND COLD GROUND
1P02
TO 1P02
1
PLATFORM
2
SUPPLY
RELAY CONTROL
ACTIVATING
6503
2505
6
7
8
9
AP1
12
34
SUPPLY_ON
3517
VCC-5V
AD5
1450
ACTIVATING
DELAY
6503
+T
A6
3451
3450
+T
1460
12
34
7540
IN OUT
COM
6507
100-230VAC1
100-230VAC2
25V_HOT
400V_HOT
AD3
3V3_DISPLAY
+5V_INT_SW
VCC-5V
3V3_DISPLAY
AD5
AD4
AD2
AD2
+5V_STBY
AD2
(390VDC)
+5V_STBY
1004
T2A
VRA
VRS
VCEGO
VSAGO
1P22
0311
1
2
PLATFORM
1
2
3
4
5
6
7
8
9
TO 1P22
AP1
SUPPLY
TO CN11
PDP
DISPLAY
DISPLAY SUPPLY: PRECONDITIONER
AD3
PRECONDITIONER
5600
16
6605
6605
6600
GBU8J
400V_HOT
3608 3606
3666
3609
3603
3604
3605
3648
3696
3651
1246
3660
3661
3659
3671
3104
14
3610
7608
3663
2663
PRECONDITIONER
CONTROL
7650
MC33368P
7
ZCDET
6
CS
3
FB
5
MULT
7610
VCC
GATE
LEB
6661
5612
12
11
47BJ3.0E PA 6.
DISPLAY SUPPLY: LLC SUPPLY
AD4
3090
7090
7091
7092
PROTECTION
SOFTSTART
CONTROL
&
CURRENT
PROTECTION
3092
- CONTROL -
2611
6611
5601
7661
MC34063D
6
VCC
SWE
3675
1
SWC
7
IS
8
DCOL
9
3641
7640
2640
2
5
5660
3677
400V_HOT
SW25V_HOT
6665
7641
6642
2664
BIAS
2662
25V_HOT
AD1
DISPLAY SUPPLY: AUX SUPPLY
AD5
7001
MC34067P
15
VCC
3
OSCCC
6
EAO
8
lp
7
ln
7093
LM317T
IN OUT
COM
6111
3095
3096
3097
14
OA
10
FI
12
OB
3675
5001
4
2
3050
6
7
10
9
SW25V_HOT
7007
7020
HIGH
SIDE
DRIVE
7008
7021
LOW
SIDE
DRIVE
2053
400V_HOT
7005
7006
HOT GROUND COLD GROUND
5002
3
6
5004
3
6
2143
16
14
12
11
10
9
16
14
12
9
10
11
2143
7003
TCET1102
7002
TCET1102
+5V_INT_SW
LATCH
6044
1082
T2.5A
1083
T2.5A
6029
6012
A3
70-90V
3072
VTUN
VB
3037
7042
3039
VS
3022
3080
2045
6045
2029
6021
7010
7011
6042
3057
VRS
FEEDBACK
VRS
+30V
AD1
+5V_INT_SW
- 2.5 Vref -
+5V_INT_SW
3304
7304
1
K
A
3
AD1
R
- VS PROTECTION -
3308
70-90V
3300
3301
7308 3+4
7
2V5
3324
2
3306
3102
3307
1
6
5
2
4
- VA PROTECTION - - VCC PROTECTION - - 12V PROTECTION -
6312
6313
3312
VA
3311
7308 1+2
11
3313
3317
VSAGO
VCEGO
+8V6
10
9
8
6325
2V5
AD1
AD1
3314
13
14
+30V
7332
7333
7375
3373
7376
VSA
CONTROL
+5V_INT_SW
7352
3349
7351
VCEGO
+5V_STBY
7341
7004
7348
LATCH
+5V_INT_SW
7326
3328
7327
8V6
UNDERVOLTAGE
PROTECTION
6321
6322
VCC
3320
3103
3321
2V5
3322
3323
VSA_CONTROL
VCC_GO
LATCH
POK
7333 3+4
7
6
5
4
AD5
AD5
AD4
6333
3333
1
2
6334
2V5
3393
3392
+12V
3302
7333 1+2
11
10
9
3334
8
3335
+5V_INT_SW
7363
7366-1
POWER
OK
PROTECTION
Only used with LC4.x SSB
+5V_STBY
7391
7366-4
STANDBY
13
14
6340
3340
6341
SUPPLY_ON
A6
+5V_SYBY
STANDBY
POWER_GOOD
3359
6365
POK
1P10
9
7
4
2
TO 1P10
AP1
PLATFORM
SUPPLY
AD5
70-90V
AD4
AD2
1110
T5A
1200
T2A
VCC_GO
7110
1
3107÷3109
3
3202
7202
6202
+5V_INT_SW
POK
7112
TEA1507P
CONTROL
DRAIN
VCC
ISENCE
DRIVER
CTRL
3206
3209
7200
3203
GND
DEM
3084
7117
8
5
6
2
3113
4
6111
3214
VA
7050
SEQUENCE
DISCHARGE
3116 3117
6113
2114
7212
TEA1507P
CONTROL
3
CTRL
4
DEMAG
1
VCC
6211
6142
VS
6050
3118
DRAIN
DRIVE
GND
6213
- VA-SUPPLY -
5121
3115
7120
TCET1102
2143
- VCC-SUPPLY -
8
7217
3149
6
3213
3053
+T
7052
3218
3220
+5V_INT_SW
6133
3111
5220
1
4
5
7
3
7121
7130
14
13
12
11
8
14
7220
TCET1102
2
VA
2121
+30V
3111
2021
3229
VRA
VSA_CONTROL
6226
5229
3228
7227
1
K
A
3
VA
Adj.
6230
R
AD1
AD2
5225
7230
IN OUT
COM
3224
2
VCC-5V
VCC-5V
+8V6
VS
0323
VA
VS
1
3
4
5
TO CN23
6
PDP DISPLAY
8
9
10
G_15960_083.eps
230306
Page 48
Block Diagrams, Test Point Overviews, and Waveforms
Block Diagram Platform Supply 42” FHP
PLATFORM SUPPLY 42” FHP
MAINS FILTER + STANDBY
AP1
48BJ3.0E PA 6.
HOT GROUND COLD GROUND
FROM 1P22
AD1
DISPLAY
SUPPLY
FROM 1P02
AD1
DISPLAY
SUPPLY
HOT GROUND
COLD GROUND
1P22
1P02
1
2
2
1
5P00
5
3
2
1
5
3
2
1
5
3
2
1
6
7
8
9
10
5P01
6
7
8
9
10
3P61 3PP2
14
7P11
3P62
2
3
7U05
K
R
A
5S00
6
5S12
7
8
5S03
9
10
14
7S03
TCET1102
2
3
7S04
K
R
A
Feedback
Circuit
1P10
10
1M03
10
1P03
F1A
AL-OFF
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
9
TO 1P10
AD2
DISPLAY
SUPPLY
TO 1M03
B5E
SSB
+400V-F
+400V-F
1P16
Res For
2
4 Side
1
Ambi Light
14
7P12
2
3
AP2
+400V-F
AP1
AP2
+AUX
3P13
STANDBY
5S05
7P27
TEA1506AT
SPMS
CONTROL
DRAIN
DRIVER
6
CTRL
2
VCC
INSENSE
7
DEM
RC FOR
DEMAGNETIZATION
7P26
SUPPLY FOR
CONTROLLER
7100
TEA1533AT/N1
14
6
2
7
DEMAGNETIZATION
7107
14
3P04
11
3P33
9
DRIVER
SPMS
CONTROL
DRAIN
ISENSE
CTRL
VCC
DEM
RC FOR
SUPPLY FOR
CONTROLLER
5P26
STP6NK607
3P27
+AUX
11
9
3S17
3S22
3S29
7P02
5PO7
3P50
3P16
6P27
+
2P06
5P04
7S02
STP6NK60
3S30
5P06
3S50
3108
6S12
5P05
5P03
5S09
5S10
5S01
3S36
+AUX
HOT GROUND COLD GROUND
6P06 6P10
6P05
1
GBL06
+
3
+5V2-NF
STANDBY
ON-OFF
AUDIO-PROT
DIM_CONTROL
POWER-GOOD
ON-OFF
BOOST
STANDBY
2
-
4
1450
12
34
CONTROL
+5V-SW
AP2
DIM_CONTROL
POWER-OK-PLATFORM
ON-OFF
+5V-SW
AP2
STANDBY
BOOST
POWER-GOOD
3P56
+T
3S14
5P10
5P11
5P12
5P13
7P09
2S07
2S04
6S01
2S13
6S07
2P12
3P12
3S28
3S19
6P13
6P11
6P12
3S24
3S23
1P06
T5A
1P07
T5A
+12V_NF
+8V6
+5V_SW
+5V2
+
2S41
+
2S50
7P20
STANDBY
7P23
STANDBY
3S21
5S11
5P20
5P19
1P30
POWER OK
7S31
STANDBY
+
2P49
+
2P50
+
2P48
3P57 3P58
T5A
POWER-OK-PLATFORM
5P14
5P16
+12V_NF
7P14
STANDBY
+25VLP
+5V2-NF
+5V_SW
AUDIO-PROT
+AUDIO-POWER
-AUDIO-POWER
+12VAL
+12V
+8V6
STANDBY
+5V2
+8V6
+12V
+5V-SW
+5V2
+12VAL
1M02
7
6
5
4
3
2
1
1M46
3
4
5
7
9
11
1M18
1
2
3
4
TO 1M02
C
AUDIO
TO 1M46
B1B
SSB
TO 1M09
AL
AMBI
LIGHT
G_15960_082.eps
100406
Page 49
Block Diagrams, Test Point Overviews, and Waveforms
Block Diagram Video
VIDEO
B2A
DVB-T: TUNER
1T06*
UV1318S/A
9T25*
11
MAIN
IF1
TUNER
(ANALOGUE)
1T05
TD1316AF
MAIN
TUNER
(HYBRIDE)
*(Only for Analogue Sets)
B2B
DVB-T: CHANNEL DECODER
7T17
TDA10046AHT
CHANNEL
ESTIMA.
AND
CORREC.
B10A
COMMON
INTERFACE:
PART 1
PCMCIA
CONDITIONAL
ACCES
AGC
IF_OUT1
IF_OUT2
IF_OUT3
RF_AGC
IF_AGC
XTAL_OUT
CHANNEL
DECODER
DIGITAL FRONT-END
AND OFDM
DEMODULATIE
DSP
CORE
SYNCH
ANALOG
CHANNEL
DECODER
1
8
10
11
2
9
6
AGC-IF
AGC-TUN
INTERF
FE-DATA
1P01
I2C
GPIO0
MDIA
VIM
VIP
XIN
9T19
MDOA
2
1
21
61
62
54
AGC-IF
AGC-IF
7P03
STV0701
COMMON
INTERFACE
HARDWARE
CONTROLLER
7T18
49BJ3.0E PA 6.
MM_DATA
MM_A(0-12)
DAC-CVBS
VSYNC-HIRATE
HSYNC-HIRATE
DV-ROUT
DV-GOUT
DV-BOUT
7210
1
7
3
9
5
B5B
VIPER: MAIN MEMORY
7V01
K4H561638F
DDR
SDRAM 1
8Mx16
7V02
K4D551638F
DDR
SDRAM 2
8Mx16
B3B
MPIF MAIN: SUPPLY
7C32
EF
B7A
BE
B6B
PACIFIC3: PART 2
7G04
T6TF4AFG
PICTURE ENHANCEMENT
116
115
109
114
B4G
PNX2015: DISPLAY INTERFACE
5J50
5J52
5J54
5J56
5J58
5J60
VDISP
22
AV1-AV6_FBL-HSYNC
14
21
19
15
AV6-VSYNC
AV1-AV5-AV6_R-PR
AV1-AV5-AV6_G-Y
AV1-AV5-AV6_B-PB
Y-CVBS-MON-OUT
C-MON-OUT
PACIFIC3
1G50
13
12
15
16
18
19
LVDS
21
CONNECTOR
22
TO DISPLAY
24
25
27
28
1
2
3
4
BE2
BE2
BE2
BE2
BE2
G_15960_084.eps
B3f
B3f
(Optional)
110406
B3
MPIF MAIN:
1B01
1B02
1
3
4
6
7
9
10
12
15
16
19
1
3
4
6
7
9
10
12
15
16
19
1C52
2
7C56-2
EF
4
7C56-1
EF
1
ARX2+
ARX2ARX1+
ARX1ARX0+
ARX0ARXC+
ARXC-
ARX-DCC-SCL
ARX-DCC-SDA
ARX-HOTPLUG
BRX2+
BRX2BRX1+
BRX1BRX0+
BRX0BRXC+
BRXC-
BRX-DCC-SCL
BRX-DCC-SDA
BRX-HOTPLUG
7A02
EF
5
2
7A01
7
8
3C73
3C71
7B30
7B31
EF
EF
7T11
EF
IF-TER2
7T10*
P-IF
N-IF
AGC-TUN
FREF-TUN
EF
AGC-TUN
N-IF
P-IF
FREF-TUN
B10C
COMMON
INTERFACE”
PART 3
7P76
7P77
BUFFER
POD-DATA
DV1F-DATA
To DV1F
B5C
VIPER
B3a,B7b
B3a,B7b
B3a,B7b
B3a,B7b
B3a,B7b
B3a,B7b
B3f
B3f
B3f
B3f
B3f
B3f
B2f
N.C
B7a
B7a
B7a
B3f
B3f
B3f
B3f
B3f
B3f
B3f
B3f
B3f
B3f
B3f
B3f
B3f
B4a
B3a
B3a
B3b
B5c
B4e
N.C
B5a
B3a
B3a
N.C
B4e
B3a
B3a
B3a
B7b
B7b
B7b
2C84
5C70
AGC-IF
CVBS-TER-OUT
CVBSOUTIF-MAIN
AV1_CVBS
AV2_Y-CVBS
AV2_C
FRONT_Y-CVBS
FRONT_C
AV7_Y-CVBS
AV7_C
AV1-AV5-AV6_R-PR
AV1-AV5-AV6_G-Y
AV1-AV5-AV6_B-PB
AV2-AV4_R-PR
AV2-AV4_G-Y
AV2-AV4_B-PB
B7A
HDMI
1
18 2
19
HDMI
CONNECTOR
1
18 2
19
HDMI
CONNECTOR
AV1-AV6_FBL-HSYNC
AV6_VSYNC
AV2-AV4_G-Y
AV1-AV5-AV6_G-Y_SYNC
AV2-AV4_R-PR
AV1-AV5-AV6_R-PR
AV2-AV4_G-Y
AV1-AV5-AV6_G-Y
AV2-AV4_B-PB
AV1-AV5-AV6_B-PB
B3F
MPIF MAIN: CONNECTION A
AV2-AV4_R-PR
AV2-AV4_G-Y
AV2-AV4_B_PB
AV2-FBL
AV2_C
AV2_Y-CVBS
Y-CVBS-MON-OUT
C-MON-OUT
AV2-STATUS
REGIMBEAU-AV6-VSYNC
REGIMBEAU
AV1_CVBS
AV7_Y-CVBS
AV1-STATUS-AV7-C
AV1_STATUS
CVBS-TER-OUT
FRONT_Y-CVBS
FRONT_C
B3G
MPIF MAIN: CONNECTIONS B
AV1-AV5-AV6_R-PR
AV1-AV5-AV6_G-Y
AV1-AV5-AV6_B-PB
AV1-AV6_FBL-HSYNC
AV6_VSYNC
AV1-AV5_G-Y_SYNC
107
108
AUDIO
100
105
120
123
126
VSYNC-HIRATE
B5A
VSYNC-HIRATE
B5A
BE2
1E40
1E40
1
1
2
2
3
3
4
4
6
6
7
7
9
9
10
10
11
11
12
12
22
22
23
23
25
25
33
33
34
34
1E62
1E62
1
1
2
2
3
3
5
5
20
20
7C00
PNX3000HL
IF
B3C
VIFINP
VIFINN
SIFINP
99
SIFINN
CVBSOUTIF
B3A
SOURCE SELECTION
CVBS-IF
CVBS1
1
CVBS2
CVBS_DTV12
CVBS|Y34
C35
CVBS|Y48
C49
Y_COMB15
C_COMB16
R|PR|V_125
G|Y|Y_126
B|PB|U_127
R|PR|V_230
G|Y|Y_231
B|PB|U_232
B7B
HDMI: I/O + CONTROL
PBRX-DCC-SCL
PBRX-DCC-SDA
M135-CLK
EXTERNALS B
CVBS/Y RIM
+
YUV
RGB
CLAMP
7B11
TDA9975
RX2+A
RX2-A
RX1+A
RX1-A
RX0+A
RX0-A
RXC+A
RXC-1
RX2+B
RX2-B
RX1+B
RX2-B
RX0+B
RX0-B
RXC+B
RXC-B
HSCL B
HSDA B
R16
HSYNC
M16
VSYNC
T12
R12
SOG
T14
R/PR
R14
T9
G/Y
R9
T7
B/PB
R9
AV2-AV4_R-PR
AV2-AV4_G-Y
AV2-AV4_B_PB
AV2-FBL
AV2_C
AV2_Y-CVBS
Y-CVBS-MON-OUT
C-MON-OUT
AV2-STATUS
REGIBEAU
AV1_CVBS
AV1_STATUS
CVBS-TER-OUT
FRONT_Y-CVBS
FRONT_C
AV1-AV5-AV6_R-PR
AV1-AV5-AV6_G-Y
AV1-AV5-AV6_B-PB
AV1-AV6_FBL-HSYNC
AV6_VSYNC
LPF
BPF
LPF
C-PRIM
CVBS SEC
LEVEL
ADAPT
INV.
PAL
Termination
resistance
control
Termination
resistance
control
Line time
measuremebt
Activity
detection &
sync selec.
Slicers
ADC
SOUND
TRAP
BE1
BE1
BE1
BE1
BE1
BE1
BE1
BE1
BE1
BE1
BE1
BE1
BE1
BE3
BE3
BE3
BE3
BE3
GROUP
DELAY
QSS
TO AM INTERNAL
LPF
PMALC
LPF
LPF
PMALC
Yyuv
U
V
MONO SEC.
HDMI
receiver
QSSOUT
LPF
AUDIO SWITCH
A
D
Yyuv
2FH
A
D
2nd
SIF
A/D
Yyuv
2Fh
A
D
U,V
A
D
CLP PRIM
CLP SEC
CLP yuv
HDMI
Upsample
Derepeater
HDCP
Sync
seperator
Clocks
generator
FRONT_Y-CVBS
FRONT_C
MPIF
DATA
LINK
1
DATA
LINK
3
DATA
LINK
TIMING
CIRCUIT
2
SUPPLY
DIGITAL
BLOCK
CVBS-OUTA
CVBS-OUTB
STROBE1N
STROBE1P
DATA1N
DATA1P
STROBE3N
STROBE3P
DATA3N
DATA3P
STROBE2N
STROBE2P
DATA2N
DATA2P
Video
output
formatter
VHREF
timing
generator
I2C slave
interface
1M36
D1
A2
A1
C2
L16
L15
2
4
14
28
35
44
43
19
22
60
61
62
63
50
51
52
53
55
56
57
58
46
40
D
1M36
(1304)
2
4
S VIDEO
N.C.
N.C.
SIDE I/O
VIDEO
+5VMPIF-MAIN
SCL-DMA-BUS2
SDA-DMA-BUS2
STROBE1N-MAIN
STROBE1P-MAIN
DATA1N-MAIN
DATA1P-MAIN
STROBE3N-MAIN
STROBE3P-MAIN
DATA3N-MAIN
DATA3P-MAIN
STROBE2N-MAIN
STROBE2P-MAIN
DATA2N-MAIN
DATA2P-MAIN
HV-PRM-MAIN
B3f
AV6_VSYNC
N.C
DV4-DATA
DV5-DATA
DV4-CLK
DV-HREF
DV-VREF
DV-FREF
SDA-MM-BUS1
SCL-MM-BUS1
7LA7
M25P05
512K
FLASH
1002
(1302)
1001
(1301)
1
5
2
CLK-MPIF
AV2_FBL
SPI-SDO
5
SPI-CLK
6
SPI-CSB
1
SPI-WP
3
Y
C
3
4
Y/CVBS
B4
PNX2015:
7J00
PNX2015E
B4C
B4A
R4
AVP1_DLK1SN
R3
AVP1_DLK1SP
R2
AVP1_DLK1DN
R1
AVP1_DLK1DP
N4
AVP1_DLK3SN
N3
AVP1_DLK3SP
N2
AVP1_DLK3DN
N1
AVP1_DLK3DP
P4
AVP1_DLK2SN
P3
AVP1_DLK2SP
P2
AVP1_DLK2DN
P1
AVP1_DLK2DP
M3
AVP1_HVINFO1
M4
MPIF_CLK
L2
AVP2_HSYNCFBL2
G2
AVP2_VSYNC2
B4B
DV4_DATA_0 T0 9
DV5_DATA_0 T0 9
AK8
AH9
DV-HREF
AJ9
DV-VREF
AK9
DV-FREF
B4E
STANDBY
AK10
PROCESSOR
AH10
AG10
AJ27
Block digram
C
( ) Only For 26” LCD
TUNNELBUS
AUDIO/VIDEO
DV I/O INTERFACE
STANDBY
See
Control
DATA LINK 1
DATA LINK 3
DATA LINK 2
BE1
EXTERNALS A
SCART 2
1
21
SCART 1
1
21
AVIP-1
AVIP-2
1020
15
11
16
19
20
EXT2
1030
11
15
16
19
20
EXT1
7
8
7
8
North tunnel
Memory
based scaler
Video MPEG
decoder
VIP
CVBS
PNX2015
COLUMBUS
3D Comb
filter and
noice
reduction
B4D
DDR INTERFACE
7002
4
14
15
7011
24
VO-2
MUX
VO-1
LVDS_TX
Memory
controller
2
9
2
1
12
Y-CVBS-MON-OUT
1
5
AV1-AV5-AV6_B-PB-B1
AV1-AV5-AV6_G-Y-G1
AV1-AV5-AV6_R-PR-R1
South tunnel
DV1_CLK
DV2_CLK
DV3_CLK
DV1_DATA(0-9)
DV2_DATA(0-9)
DV3_DATA(0-9)
RGB_HSYNC
RGB_VSYNC
RGB_CLK_IN
LVDS_AN
LVDS_AP
LVDS_BN
LVDS_BP
LVDS_CN
LVDS_CP
LVDS_CLKN
LVDS_CLKP
LVDS_DN
LVDS_DP
LVDS_EN
LVDS_EP
PMX-MA(0-12)
PNX-MDATA
(0-15)
AV2_FBL
C-MON-OUT
AV2-AV4_R-PR
AV2_C
AV2-AV4_B-PB
AV2-AV4_G-Y
AV2-STATUS
AV2_FBL
AV2_Y-CVBS
CVBS-TER-OUT
AV1-STATUS
AV1-CVBS
RGB_UD
RGB_DE
RIN (0-9)
GIN (0-9)
BIN (0-9)
MCLK_P
MCLK_N
FBL
B5
TUN-VIPER-RX-DATA
TUN-VIPER-TX-DATA
DV1F-CLK
AD28
DV2A-CL K
AF30
DV3F-CLK
AK28
From
B10C
COM. INTERF.
DV1F-DATA 0 TO 7
DV2A-DATA 0 TO 7
DV3F-DATA 0 TO 7
B6A
J29
J28
J30
J27
K26
B26
C26
A25
B25
D25
E25
C23
D23
B24
C24
E24
F24
B4D
A17
A16
BE3
BE2
BE2
BE2
BE2
BE2
BE3
BE2
BE2
BE2
BE3
BE2
BE3
BE3
BE3
BE2
VIPER:
7V00
PNX8550
B5C
TUNNELBUS
Tunnel
B5C
AUDIO/VIDEO
2-Layer
secondary
video out
Dual SD
single HD
MPE2 decoder
250Mhz
MIPS32
CPU
Video
router
TS
Scaler and
de-interlacer
1SD+1HD
YUV
Video in
Dual
con
acces
DV1F
PACIFIC3: PART 1
MP-OUT-HS
MP-OUT-VS
MP-CLKOUT
MP-OUT-FFIELD
MP-OUT-DE
PNX2015: DDR INTERFACE
PMX-MA
PNX-MDATA
PNX-MCLK-P
PNX-MCLK-N
EXTERNALS C
1050
H-SYMC
1060
V-SYNC
1070
R
G
B
B5B
DDR INTERFACE
VIPER
Temporal
noise redux
TXPNXATXPNXA+
TXPNXBTXPNXB+
TXPNXCTXPNXC+
TXPNXCLKTXPNXCLK+
TXPNXDTXPNXD+
TXPNXETXPNXE+
7L50
K4D261638F
DDR
SDRAM
16Mx16
45
46
AV1-AV5-AV6_R-PR-R1
AV1-AV5-AV6_G-Y-G1
AV1-AV5-AV6_B-PB-B1
Memory
controller
DVD
CSS
2D DE
5 Layer
primary
video out
HD/VGA/
656
FBL
H2
V2
R2
Y2
B2
AG28
AJ30
AD27
AE28
G26
MP-HS
MP-VS
MP-CLK
DV-OUT-FFIELD
MP-DE
MP-RMP-ROUT
MP-GMP-GOUT
MP-BMP-BOUT
24
23
12
13
11
Page 50
Block Diagrams, Test Point Overviews, and Waveforms
Block Diagram Audio
AUDIO
DVB-T: TUNER
B2A
DVB-T: CHANEL DECODER
B2B
COMMON INTERFACE: PART 1
B10A
1T06*
UV1318S/A
MAIN
TUNER
(ANALOGUE)
1T05
TD1316AF
MAIN
TUNER
(HYBRIDE)
7T17
TDA10046AHT
POD
CHANNEL
DECODER
11
8
FE-DATA
DATA
7P03
STV0701
COMMON
INTERFACE
HARDWARE
CONTROLLER
7T11
EF
IF-TER2
*(Only For Analogue Sets)
FOR MORE MORE DETAILS
SEE ALSO BLOCK DIAGRAM
VIDEO AND CONTROL
COMMON INTERFACE:
B10C
PART 3
7P76
7P77
BUFFER
POD-DATA
To
DV1of VIPER
B5C
(SEE VIDEO)
MPIF MAIN: AUDIO SOURCE SELECTION
B3D
B3f
B3f
B3f
B3f
B3f
B3f
1C52
2
1C51
2
7
8
7
8
AUDIO-IN1-R
AUDIO-IN1-L
AUDIO-IN2-R
AUDIO-IN2-L
AUDIO-IN5-L
AUDIO-IN5-R
7C00
PNX3000HL
107
108
99
100
85
86
83
84
128
127
B3C
VIFINP
VIFINN
SIFINP
SIFINN
R1
L1
R2
L2
L5
R5
IF
SEE ALSO
BLOCKDIAGRAM
VIDEO
AUDIO SWITCH
A
LPF
AM SOUND
AUDIO SWITCH
(DIGITAL OUT)
D
MPIF
DLINK1
DLINK2
AUDIO SWITCH
(ANALOG OUT)
AUDIO
AMPS
DATA LINK
72
73
74
DSND
75
40
50BJ3.0E PA 6.
DATA LINK 1
DATA LINK 2
DATA LINK 3
DSNDR2
DSNDL2
DSNDR1
DSNDL1
CLK-MPIF
B4
AC3
AD3
AE3
AF3
M4
PNX2015
7J00
PNX2015E
I2D
ADCAC12
ADCAC11
ADCAC10
ADCAC19
PNX2015
DEM DEC
AVIP
ADAC1
AUDIO
PROCESSING
ADAC2
B3E
AH1
AG1
MPIF MAIN:
AUDIO AMPLIFIER
ADAC1
ADAC2
7A05-4
7A05-3
B5A
B4E
MPIF MAIN:
B3G
CONNECTIONS B
AUDIO-L
AUDIO-R
SOUND-ENABLE
PROT-AUDIOSUPPLY
AC5
AUDIO LEFT RIGHT
AC4
SA5 SA4 SA5
C C C
+12-15V
7D10-1
7D10-2
CONTROL
-12-15V
+12-15V
7D35-1
7D35-2
CONTROL
-12-15V
1M52
1M52
11
33
88
77
SA3
7D05÷7D09
7D00-01
AUDIO-L
7D00-2
AUDIO-R
7D30÷7D34
SOUND-ENABLE
AUDIO-PROT
“AC” For 26” LCD Sets
“SA” For 32” LCD Sets
“C” For 37” LCD & 42”- 50” Plasma Sets
AUDIO
1736
1735
MUTE
AC5
3
1
LEFT-SPEAKER
3DF2
7DF7-1
7DF7-2
RIGHT-SPEAKER
3
1
7D26
PROTECTION /
MUTE CONTROL
LEFT
SPEAKER
7DF3÷7DF4
CONTROL
3DF3
RIGHT
SPEAKER
CONTROL
+12-15V
DC-PROT
INV-MUTE
-12-15V
*1M02
*(Not for 26”)
1
2
3
TO
5
SUPPLY
6
7
BE2
DIGITAL
AUDIO IN
AUDIO
L+R+DIG
BE1
SCART
BE3
AUDIO
D
AUDIO IN
OUT
2X
IN
L+R
L+R
EXTERNALS B
1090
1080
EXTERNALS A
1020
1
2
1
3
6
EXT2
1030
1
2
3
21
6
EXT1
EXTERNALS C
1040
SIDE I/O
1002
(1302)
SPI-OUT
AP-AUDIO-OUT-R
AP-AUDIO-OUT-L
AP-SCART2-OUT-R
AUDIO-IN2-R
AP-SCART2-OUT-L
AUDIO-IN2-L
AP-SCART1-OUT-R
AUDIO-IN1-R-SC1
AP-SCART1-OUT-L
AUDIO-IN1-L-SC1
AUDIO-IN-2FH-R
3
AUDIO-IN-2FH-L
2
L
R
SPI-1
AUDIO-OUT2-REG-R
AUDIO-OUT2-REG-L
7218
74HC4053
MULTI
3
PLEXER
5
1
2
1M37
(1304)
( ) Only For 26” LCD
CONNECTIONS B
B3G
1E62
1E62
SPI-1
8 8
1E40
10
17
16
31
30
14
13
28
27
36
37
SPI-OUT
AUDIO-OUT2-R
AUDIO-OUT2-L
AUDIO-IN2-R
AUDIO-IN2-L
AUDIO-OUT1-R
AUDIO-OUT1-L
4
15
6
8
1M36
6
8
AUDIO-IN1-R
AUDIO-IN1-L
AUDIO-IN5-L
AUDIO-IN5-R
10
CONNECTIONS A
B3F
1E40
17
16
31
30
14
13
28
27
36
37
SPI-OUT
SPI-1
AUDIO-OUT2-R
AUDIO-OUT2-L
AUDIO-IN2-R
AUDIO-IN2-L
AUDIO-OUT1-R
AUDIO-OUT1-L
AUDIO-IN1-R
AUDIO-IN1-L
AUDIO-IN5-L
AUDIO-IN5-R
B3e
B3e
B3d
B3d
B3d
B3d
B3d
B3d
B3d
B3d
B3d
B3d
B3f
B3f
B3f
B3f
B3g
B3g
B3E
SPI-OUT
B5B
7V02
7V01
B7A
1B01
CONNECTOR
AUDIO-OUT2-R
AUDIO-OUT2-L
AUDIO-OUT1-R
AUDIO-OUT1-L
HDMI
AUDIO AMPLIFIER
SPI-1
VIPER: MAIN MEMORY
MT46V32M16P
2X DDR
SDRAM
HDMI
1
2
18
19
1
12
8Mx16
CONNECTOR
7A13
1B02
2
1
10
1
19
HDMI
67
68
70
69
LINE / SCART L/R
3
SPDIF-IN1
4
SPI-OUT1
11
13
MM_DATA(0-15)
MM_A(0-12)
ARX2+
2
BRX2+
AUDIO
MULTIPLEXED
WITH VIDEO
18
SEE ALSO
BLOCKDIAGRAM
VIDEO
AUDIO VIDEO I/O
B5
7V00
PNX8550EH
B5C
AC30
SPDIF-IN1
AB29
SPDIF-OUT1
DDR
INTERFACE
HDMI: I/O + CONTROL
B7B
7B11
TDA9975
HDMI PANELLINK
RX2+
RX2-
RX1+
Termination
RX1-
Resistance
Control
RX0+
RX0-
RXC+
RXC-
HDMI
receiver
VIPER
RECEIVER
Audio PLL
HDCP
I2S_IN1_WS
I2S_IN1_SCK
I2S_OUT2_SD0
I2S_OUT2_SD1
I2S_OUT2_SD2
I2S_OUT1_SD0
I2S_OUT2_SD3
Audio
Formatter
Audio FIFO
Packet
extraction
R30
U27
R29
T29
T30
T28
T27
AA27
A7
I2S-WS-MAIN
I2S-BCLK-MAIN
I2S-MCH-LR
I2S-MCH-CSW
I2S-MCH-SLR
I2S-SUB-D
I2S-MAIN-D
SPDIF-HDMI
SPDIF-HDMI
DV4- DATA
DV5-DATA
+16V+19V
7700
TDA7490
1739
1
AUDIO-L
3
AUDIO-R
V3
I2S
V2
OUT
U2
U3
I2S
U4
IN
V5
V4
(Only For 42” LCD)
CONNECTIONS A
B3F
3A55
7A04-1
7A04-2
A-PLOP
7A09
3A66
7A11
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
CONTROL
DV
INPUT
ADAC7
ADAC8
ADAC7
AB1
ADAC8
AA1
SOUND-ENABLE
8
9
7
POR-CLASSD
PROT_AUDIOSUPPLY
BE2
1E40
1E40
19
19
20
20
EXTERNALS B
AUDIO-HDPH-L
AUDIO-HDPH-R
10
6
stby-mute
18
7701÷7707
4,22
PWM
OSC
PWM
2,24
-16V-19V
SOUND
ENABLE
7708÷7711
AUDIO
SUPPLY
PROT, CIRCUIT
N.C.
1M36
10
11
3
23
PROT1
7
6703
6702
D
1M37
(1304)
3764
3761
10
11
7
5731
5701
3718
5730
5702
3717
-16 V-19V
+16 V+19V
SIDE I/O
SOUND L-HEADPHONE-OUT
SOUND R-HEADPHONE-OUT
DETECT
-16 V-19V
+16 V+19V
1736
1
2
3
Speaker L
1735
1
2
3
Speaker R
DCPROT
1010
(1303)
2
3
5
( ) Only For 26” LCD
15W/8Ω
15W/8Ω
1M02
G_15960_085.eps
1
2
3
4
5
6
7
TO 1002
A4
SUPPLY
Headphone
Out 3.5mm
310306
Page 51
Block Diagrams, Test Point Overviews, and Waveforms
Block Diagram Control & Clock Signals
CONTROL & CLOCKSIGNALS
B5A
VIPER: CONTROL
1H01
1
2
3
4321
4
1O10
1
2
3
4
5
6
7
8
MDOA(0-7)
MDIA(0-7)
7Q01
USB20-OC1
FLGA
OUTA
USB20-PWE1
ENB
IN
+5V
+3V3ET-ANA
N.C.
POD-D(0-7)
7P03
STV0701
USB 2.0
CONNECTOR
To Memory Card Reader
or Side I/O
B9A
ETHERNET
18
ETHERNET
CONNECTOR
(Optional)
B10A
COMMON INTERFACE: PART1
1P01
1
35
68P
COMMON
INTERFACE
HARDWARE
CONTROLLER
1
2
3
4
1
2
3
7001
P87LPC760
7
SCL
MICRO
CONTROLLER
6
SDA
8
RXD
AL1
34
68
AMBI LIGHT
TO 1M49
B5E
VIPER
See also
block diagram
I2C
TO 2nd
AMBI LIGHT
PWB
(Optional)
RDY_IRQA
WAITA
RSTA
CD1
CD2
CE1
CE2
MICLKA
MISTRTA
MIVALA
OE
WE
VS1
VSE
IORD
IOWR
1M49
1M48
1M46
1
2
3
4
POD-A(0-13)
DATOE
DATDIR
20
18
19
16
13
14
B8
USB 2.0: HOST
1N62
1
USB20-DM1
2
3
USB20-DP1
4
1O00
25M
B10C
POD: BUFFERING
7P34
BUFFERING
POD-DATA(0-7)
POD-CLK
41
POD-SOP
42
POD-VALID
43
B2B
DVB-T: CHANNEL DECODER
FE-DATA(0-7)
FE-CLK
35
FE-SOP
34
FE-VALID
33
VPPEN
21
VCCEN
22
7018
7009
7019
7010
7020
7011
AL2
AMBI LIGHT
7118
7109
7119
7110
7120
7111
7015
7016
7017
7115
7116
7117
37
35
36
7N00
ISP1561BM
PCI
HOST
CONTROLLER
(Optional)
7O00
DP83816AVNG
46
45
MAC
PHYTER II
54
53
17
18
(Optional)
7P31
7P32
BUFFERING
PCI-AD(24-31)
7P76
7P77
BUFFERING
7T17
TDA10046AHT
DTV
CABLE AND
TERRESTRIAL
RECEIVER
7P00
TPS2211AIDB
POWER
INTERFACE
SWITCH
5014
5015
5016
5114
5115
5116
19
60
DV1F-CLK
(Only used for Digital Sets)
RESET-FE-MAIN
9
54
1T08 RES
16M
55
1M11
11
6
1
1M13
11
6
1
PCI-CLK-USB20
PCI-CLK-ETHERNET
PCI-AD(25-31)
XIO-A(0-23)
(Only used for Digital Sets)
RED
BLUE
GREEN
RED
BLUE
GREEN
D
SIDE I/O
1005
1
2
3
4321
4
USB CONNECTOR
USB 2.0
B10D
POD: TS BUFFERING
7P81
BUFFERING
STBY-WP-NAND-FLASH
B4A
XIO-A(16-23)
PCI-AD(0-31)
B11B
FIREWIRE 1394: BUFFERING
7Z10
7Z11
7Z12
BUFFERING
DV1F-DATA(0-7)
B4B
E
J
(Optional)
(Optional)
5000
(5001)
1050
7P80
TC58DVM92F1T
EEPROM
32Mx16
NAND
FLASH
(Only used for Digital Sets)
CONTROL BOARD
ON / OFF
CHANNEL +
CHANNEL VOLUME +
VOLUME MENU
LED SWITCH PANEL
6051-1
LED1
GREEN
+5V2-STBY
+5V2-STBY
3040
6051-2
LED2
RED
LIGHT
SENSOR
1H01
+5V2-STBY
7062
1040
+5V2-STBY
7052
7070
B5
VIPER: A/V + TUNNELBUS
3H14
3H12
1
TO 1H01
2
B5A
3
SSB
4
PCI-AD(0-31)
3061
3068
7061
IR
SENSOR
3051
3058
7051
7061
51BJ3.0E PA 6.
PLL-OUT
3H06
PCI-CLK-VPR
DV1F-DATA(0-7)
KEYBOARD
LED1
RC
LED2
LIGHT-SENSOR
May Differ Per Screen Size
D28
AD2
1M01
1M21
7V00
PNX8550EH
B5A
B5C
BE2
1M01
2
1M21
6
3
4
1
B5C
VIPER
B5B
EXTERNALS B
2
6
3
4
1
E30
TUN-VIPER-TX-CLKN
T2
TUN-VIPER-TX-CLKP
T2
K3
AH19
AG25
AH16
C4
A2
T30
AA28
V27
W30
B25
RESET-ETHERNET
E26
F1
SOUND-ENABLE-VPR
C27
AE29
D29
A18
B18
AH19
DV1F-DATA(0-7)
1E40
39
38
40
1E62 1E62
18
19
DV-CLKIN
1H00
27M
I2S-BCLK-SUB
RESET-USB20
RESET-FE-MAIN
RESET-POD-CI
B7B
HDMI: I/O + CONTROL
M15
B5B
VIPER: MAIN MEMORY
MM_CLK_N
MM_CLK_P
46
45
M27-CLK
B3F
B3E
1E40
39
38
LED1
40
B3G
18
LED2
19
TUN-VIPER-RX-CLKP
DV2A-CLK
DV3F-CLK
DV1F-CLK
I2S-BCLK-MAIN
I2S-BCLK-AVIP
B10A
7B11
TDA9975
HDMI
CONTROL
7V02
SDRAM
7J08
1
EN
B4E
B3G
B3G
B10D
B3G
B7A
B5EB3G
B1A
B10A
7LA2
EF
7LA3
EF
B9A
B8
B2B
B3G
DDR
8Mx16
M27-PNX
DETECT-1V2
DETECT-3V3
DETECT-5V
DETECT-8V6
DETECT-12V
AV1-STATUS
AV2-STATUS
RXD-UP
P50
P50-HDMI
PROT-AUDIOSUPPLY
SUPPLY-FAULT
KEYBOARD
LED1-3V3
RC
LIGHT-SENSOR
D1
DV4-CLKM135-CLK
LED2-3V3
B4
PNX2015: DV I/O INTERFACE
7J00
PNX2015E
U30
AUDIO/VIDEO
B4C
U28
M29
AF30
DV I/O INTERFACE
B4B
AK28
AD28
PNX2015
TUNNELBUS
B4A
V2
Y2
U1
AK8
DDR INTERFACE
B4D
STANDBY & CONTROL
B4E
Y28
AF16
AH17
AG17
AK18
AJ18
AK24
AJ24
AK19
AJ13
AG13
AG18
AG13
AK23
AK21
AK13
AG20
AH23
B6B
PACIFIC3: PART 2
7G04
T6TF4HFG-OOO2
7
PACIFIC3
LVD S
BACKLIGHT-CONTROL-OUT
TO
Supply
MP-CLKOUT
J30
C23
TXPNXCLKTXPNXCLK+
D23
PNX_MCLK_N
A16
PNX_MCLK_P
A17
AJ12
1LA0
16M
AH12
AK10
SPI-SDO
SPI-CLK
AH10
SPI-CSB
AG10
AJ27
AG22
AK16
AH15
AJ21
AH21
AH16
AJ16
AJ19
M4
AK27 SPI-PROG
AH20 SDM
AH26
AJ26
SPI-WP
STBY-WP-NANDFLASH
ENABLE-3V3
ENABLE-1V2
RESET-SYSTEM
RESET-AUDIO
COM-SND
LAMP-ON
TXD-UP
CLK-MPIF
SCL-UP-VIP
SDA-UP-VIP
109
68
TO 1G50
B4G
DISPLAY
B10D
B1A
B5A
B4A
B3G
B6A
B10D
PWM-OR
7G03
P87LPC760BDH
PWM-3
MICRO
CONTROLER
7G02
M25P05-AVMN6P
512K
FLASH
B6A
PACIFIC3: PART 1
MP-CLK
BACKLIGHT-CONTROL
CONTROL
B4D
PNX2015: DDR INTERFACE
7L50
K4D261638F
46
45
B4E
PNX2015: STANDBY &
CONTROL
7LA7
M25P05-AVMN6
5
6
1
3
B3B
MPIF MAIN: SUPPLY
40
5
4
CTRL1-VIPER
DDR
SDRAM
16Mx16
512K
FLASH
7C00-3
PNX3000HL
MPIF
SUPPLY E/W
CONTROL
9C47
9C48
9C45
G_15960_086.eps
SPI
SDM
1G02
10M
3G08
310306
Page 52
Block Diagrams, Test Point Overviews, and Waveforms
Test Point Overview SSB (Top Side)
52BJ3.0E PA 6.
3104 313 6073.5
Part 1
G_15960_055ta.eps
Part 2
G_15960_055tb.eps
G_15960_055t.eps
030406
I137 A2
I156 A2
I548 E4
I549 E4
I550 E4
I551 G2
I552 D2
I553 C4
I554 D4
I555 C3
I556 C3
I557 B3
I558 C3
I559 B3
I560 C3
I561 B2
I562 B3
I563 B3
I564 E3
I565 E3
I566 E3
I567 F1
I568 F2
I569 F2
I571 E3
I572 E2
I573 E2
I574 E3
I575 E3
I576 E3
I577 C3
I578 C2
I579 C3
I580 E3
I581 F2
I582 A2
IA04 A2
IC47 A2
IC47 A2
IC51 A2
IC51 A2
IC81 A2
IC82 A2
IC86 A2
IC86 A2
IG01 F2
IG02 F2
IG04 F1
IG04 F1
IG06 F1
IG06 F1
IG07 F1
IG08 F1
IG08 F1
IG15 F2
IG15 F2
IG26 F1
IG26 F1
IG28 F2
IG28 F2
IG35 F1
IG35 F1
IG38 F2
IG38 F2
IG39 F2
IG39 F2
IG41 F2
IH00 E3
IH01 E3
IH06 E3
IH07 E3
IH07 E3
IH08 E3
IH20 E2
IH20 E2
IH21 E2
IH21 E2
IJ00 B3
IJ01 B3
IJ01 B3
IJ02 B3
IJ02 B3
IJ03 B3
IJ04 B3
IJ04 B3
IJ05 B2
IJ06 C3
IJ07 B3
IJ10 B1
IJ10 B1
IJ11 C3
IJ11 C3
IJ12 B1
IJ12 B1
IJ13 B1
IJ13 B1
IJ20 C1
IJ20 C1
IJ29 C3
IJ36 C3
IJ36 C3
IJ37 C3
IK95 B3
IK95 B3
IL03 C3
IL04 B2
IL04 C2
IL05 C3
IL05 C3
IL15 C3
IL15 C3
IL16 C3
IL16 C3
IL18 B3
IL18 B3
IL19 B3
IL34 C2
IL34 C2
ILB5 C3
ILB6 C3
ILB6 C3
ILB7 B3
ILB7 B3
ILB9 C3
ILB9 C3
ILC2 C3
ILC2 C3
ILN1 B2
ILN1 B2
ILN3 C3
ILN4 B3
ILN4 B3
ILN5 C3
IO01 D4
IO01 D4
IO03 D4
IO03 D4
IO06 D4
IO06 D4
IO07 D4
IO08 C4
IQ00 E3
IQ00 E3
IQ01 E3
IQ02 E3
IQ08 E3
IQ09 D2
IQ10 E2
IQ27 E3
IQ27 E3
IQ35 D2
IQ35 D2
IQ50 E2
IQ51 E3
IU19 G2
IU19 G2
IU46 G2
IU47 G2
IU47 G2
IU54 G3
IU54 G3
IZ03 E4
IZ04 E4
IZ04 E4
IZ05 E4
IZ05 E4
IZ06 E4
IZ08 E4
IZ08 E4
IZ12 E4
IZ12 E4
IZ13 E4
Page 53
Block Diagrams, Test Point Overviews, and Waveforms
Test Point Overview SSB Part 1 (Top Side)
53BJ3.0E PA 6.
Part 1
G_15960_055ta.eps
Page 54
Block Diagrams, Test Point Overviews, and Waveforms
Test Point Overview SSB Part 2 (Top Side)
54BJ3.0E PA 6.
Part 2
G_15960_055tb.eps
310306
Page 55
Block Diagrams, Test Point Overviews, and Waveforms
Test Point Overview SSB (Bottom Side)
55BJ3.0E PA 6.
3104 313 6073.5
Part 1
G_15960_056ta.eps
Part 2
G_15960_056tb.eps
G_15960_056t.eps
020406
A1 A3
A2 A2
A3 A3
A4 A3
A5 A3
A6 C2
A7 A1
A8 A2
A9 A2
F1 B3
F2 A2
F3 A2
F4 A2
F5 A2
F6 A3
F7 A3
F8 A2
F9 A2
I1 B3
I2 A3
I3 A3
I4 A3
I5 A3
I6 A3
I7 A3
I8 A3
I9 A3
A10 D1
A11 C1
A12 C3
A13 D3
A14 E2
A15 C1
F10 A3
F11 A3
F12 C1
F13 B3
F14 A3
F15 A3
F16 A3
F17 A3
F18 B3
F19 B3
F20 B3
F21 C1
F22 B4
F23 B4
F24 B4
F25 B4
F26 A4
F27 A2
F28 B3
F29 A4
F30 A4
F31 A4
F32 B3
F33 C3
F34 A4
F35 B4
F36 B4
F37 B4
F38 B4
F39 B4
F40 B3
F41 A4
F42 A4
F43 A4
F44 A4
F45 A4
F46 A4
F47 A4
F48 A4
F49 A4
F50 A4
F51 A4
F52 A4
F53 A4
F54 A4
F55 A4
F56 A4
F57 A4
F58 A4
F59 A4
F60 A4
F61 A4
F62 A4
F63 A4
F64 A4
F65 A4
F66 A4
F67 A4
F68 A4
F69 A4
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F74 B4
F75 B4
F76 B4
F77 B4
F78 B4
F79 B4
F80 B4
F81 A2
F82 E1
F83 E1
F84 E1
F85 E1
F86 A2
F87 B3
F88 A3
F89 E1
F90 E1
F91 E1
F92 E1
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F94 G4
F95 G4
F96 G4
F97 G4
F98 G4
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I10 B2
I11 B2
I12 B2
I13 B2
I14 A2
I15 A2
I16 A2
I17 A2
I18 A2
I19 A2
I20 A2
I21 A2
I22 A2
I23 A2
I24 A2
I25 A2
I26 A2
I27 B2
I28 A2
I29 A1
I30 B2
I31 A1
I32 B2
I33 A2
I34 A2
I35 A2
I36 A2
I37 A2
I38 A2
I39 A2
I40 A4
I41 B3
I42 B3
I43 A2
I44 A3
I45 A2
I46 A2
I47 B3
I48 B2
I49 B3
I50 B2
I51 A2
I52 A2
I53 A2
I54 A2
I55 A3
I56 B2
I57 A3
I58 A3
I59 A3
I60 A3
I61 A3
I62 A3
I63 B3
I64 B3
I65 B3
I66 B3
I67 B3
I68 B3
I69 B3
I70 A3
I71 A3
I72 A3
I73 A3
I74 A2
I75 A3
I76 G2
I77 A3
I78 A3
I79 A3
I80 A3
I81 G3
I82 A3
I83 A2
I84 A3
I85 B3
I86 A3
I87 A3
I88 A3
I89 A3
I90 B2
I91 A3
I92 A3
I93 A3
I94 A3
I95 A3
I96 B3
I97 B3
I98 A3
I99 A3
AB45 B1
AC01 A 3
AC02 A 3
AC03 A 3
AC04 A 2
AC05 A 3
AH10 E2
AH11 D3
AJ10 C3
ALB0 C2
AN01 C1
AO01 D1
AT02 A2
AT15 A2
AT40 A1
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F101 G3
F102 F3
F103 F3
F104 F3
F105 F2
F106 F3
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F108 F3
F109 F3
F110 F3
F111 F3
F112 F3
F113 F3
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F115 F2
F116 G2
F117 G2
F118 G4
F119 G2
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F121 G4
F122 F2
F123 G4
F124 G3
F125 G2
F126 G3
F127 F2
F128 G3
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F130 G3
F131 G3
F132 G4
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F134 A1
F135 A1
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F138 A1
F139 A1
F140 A1
F141 A1
F142 A1
F143 A1
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F147 E4
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F159 F2
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F164 E4
F165 E4
F166 E4
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F186 D3
F187 D3
F188 D3
F189 D3
F190 D3
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F192 F1
F193 F1
F194 F1
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F196 F2
F197 G1
F198 G1
F199 G1
F200 G1
F201 G1
F202 F1
F203 F1
F204 F1
F205 F1
F206 F1
F207 G1
F208 G1
F209 F1
F210 F1
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F212 G1
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F214 D1
F215 D1
F216 D1
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F218 C1
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F220 D1
F221 D1
F222 D1
F223 D1
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F225 C1
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F227 A2
F228 A2
F229 B1
F230 B1
F231 B2
F232 B1
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F234 A2
F235 C2
F236 C3
F237 C4
F238 C3
F239 B4
F240 C2
F241 B3
F242 B3
F243 B2
F244 B2
F245 B2
F246 B1
F247 B1
F248 B2
F249 B3
F250 C2
F251 C4
F252 C4
F253 C4
F254 C4
F255 C4
F256 C4
F257 C4
F258 C4
F259 C4
F260 C4
F261 C4
F262 C4
F263 B3
F264 C4
F265 B4
F266 B4
F267 C3
F268 C4
F269 C4
F270 C4
F271 C4
F272 C4
F273 D2
F274 F3
F275 G3
F276 G3
F277 F3
F278 F3
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F280 F4
F281 F4
F282 F3
F283 F4
F284 G4
F285 F4
F286 F3
F287 F3
F288 F3
F289 F3
F290 F3
F291 G3
F292 G3
F293 F3
F294 F3
F295 F3
F296 B1
F297 B1
F298 B1
F299 B1
F300 B1
F301 B1
F302 B1
F303 C1
F304 B1
F305 C1
F306 B1
F307 B1
F308 B1
F309 B1
F310 C1
F311 C1
F312 C1
F313 C1
F314 C1
F315 C1
F316 C1
F317 C1
F318 C1
F319 C1
F320 C1
FA0 0 B4
FA0 1 B4
FA0 2 B4
FA0 3 B4
FA0 4 B4
FA0 5 B4
FA0 6 A4
FA0 7 A4
FA0 8 A4
FA0 9 A4
FA1 0 A4
FA1 1 A4
FA1 2 A4
FA1 3 A4
FA1 4 A4
FA1 5 A4
FA1 6 A4
FA1 7 A4
FA1 8 A4
FA1 9 A4
FA2 0 A4
FA2 1 A4
FA2 2 A4
FA2 3 A4
FA2 4 A4
FA2 5 A4
FA2 6 A4
FA2 7 A4
FA2 8 A4
FA2 9 A4
FA3 0 A4
FA3 1 A4
FA3 2 A4
FA3 3 A4
FA3 4 A4
FA3 5 A4
FA3 6 A4
FA3 7 A4
FA3 8 A4
FA3 9 B3
FA4 0 B4
FA4 1 B4
FA4 2 B4
FA4 3 B4
FA4 6 A2
FA4 7 B3
FA4 8 A4
FA4 9 A4
FA5 0 A4
FA5 4 B4
FA5 5 B4
FA5 6 B4
FA5 7 B4
FA5 8 B3
FA6 0 B4
FA6 1 B4
FA6 2 B4
FB09 C1
FB10 C1
FB11 C1
FB12 C1
FB13 C1
FB14 C1
FB15 C1
FB20 C1
FB21 C1
FB22 C1
FB23 C1
FB28 C1
FB29 B1
FB30 B1
FB31 B1
FB32 B1
FB34 C1
FB35 C1
FB36 B1
FB40 C1
FB48 B1
FB50 B1
FB51 B1
FB52 B1
FB55 B1
FB56 B1
FB57 B1
FC02 A3
FC03 B3
FC04 B3
FC06 B3
FC10 A4
FC31 A3
FC32 A3
FC36 A3
FC37 A3
FC38 B3
FC40 B3
FC41 A3
FC52 A3
FC73 A2
FG00 F3
FG01 F3
FG02 F3
FG03 F3
FG10 G3
FG14 F3
FG15 F3
FG16 F3
FG17 F3
FG18 F3
FG19 F4
FG20 G4
FG21 F4
FG22 F3
FG23 F4
FG24 F4
FG25 F4
FG26 F3
FG27 F3
FG36 F3
FG37 G3
FG40 F3
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FJ10 C4
FJ11 C4
FJ12 C4
FJ13 C4
FJ14 C3
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FJ16 B4
FJ18 C4
FJ20 B3
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FJ24 C4
FJ25 C4
FJ26 C4
FJ27 C4
FJ28 C4
FJ29 C4
FJ30 C4
FJ31 C4
FJ32 C4
FJ36 C4
FJ37 C4
FJ40 C2
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FK01 A2
FK02 A3
FK03 A3
FK07 A2
FK09 A2
FK11 A2
FK17 A2
FK18 B3
FK65 A2
FLA0 B2
FLA1 B1
FLA2 B1
FLA3 B2
FLA4 B2
FLA5 B2
FLA6 B3
FLA7 B3
FLA8 C2
FLB1 B4
FLB2 C3
FLB3 C3
FLB4 C4
FLB5 C3
FLB7 C2
FM07 A2
FM10 A2
FM20 A1
FM21 A2
FM22 B1
FM23 B1
FM70 A2
FM71 A2
FM72 B2
FN10 C1
FN11 C1
FO01 D1
FO02 D1
FO03 D1
FO04 D1
FO05 D1
FO06 C1
FO07 C1
FO08 D1
FO10 D1
FO11 D1
FO12 D1
FP01 G1
FP02 G1
FP22 F1
FP23 F1
FP24 G1
FP25 G1
FP31 F1
FP32 F1
FP33 F1
FP34 F1
FP35 F1
FP36 G1
FP37 G1
FP38 G1
FP39 G1
FP40 G1
FP41 F2
FP42 G1
FP43 F1
FP44 F1
FP45 F1
FP46 G1
FQ00 D3
FQ01 D3
FQ02 D3
FQ03 D3
FQ04 D3
FQ05 C3
FQ06 D3
FQ07 D3
FQ08 E4
FQ09 E4
FQ10 E2
FQ11 D4
FQ12 F4
FQ13 D4
FQ14 D4
FQ15 D2
FQ16 D4
FQ17 D4
FQ19 E2
FQ20 F3
FQ21 F3
FQ22 F2
FQ23 F3
FQ24 D4
FQ25 E4
FQ26 E4
FQ35 E4
FQ36 E4
FQ40 D4
FQ41 D2
FQ42 D3
FQ43 E2
FQ44 E2
FQ46 F4
FQ47 F4
FQ48 E4
FQ49 E4
FQ50 D3
FQ52 E2
FQ53 E2
FQ54 D3
FQ55 E4
FQ56 E4
FQ57 E4
FQ58 F4
FQ59 E4
FT01 A2
FT03 A1
FT04 A1
FT05 A1
FT06 A1
FT07 A1
FT11 A1
FT15 B1
FT16 A1
FT20 A1
FT21 A1
FT22 A1
FU01 G4
FU02 G3
FU03 G3
FU05 F2
FU06 G3
FU07 F2
FU08 G3
FU09 G2
FU13 G3
FU14 G4
FU15 F2
FU16 G4
FU18 G3
FU19 G2
FU20 G4
FU21 G2
FU23 G2
FU30 F2
FU31 G2
FU32 F3
FU40 F3
FU41 F3
FU42 F3
FU43 F3
FU44 F3
FU45 F3
FU46 F3
FU47 F3
FU48 F3
FU49 F3
FU50 F3
FU51 G3
FU52 G2
FU60 G4
FU61 G4
FU62 G4
FU63 G4
FU64 G4
FU65 G4
FU66 G4
FZ01 E1
FZ02 E1
FZ03 E1
FZ04 E1
FZ05 E1
FZ07 E1
FZ09 E1
FZ11 E1
I100 B3
I101 A3
I102 A3
I103 A3
I104 A3
I105 A3
I106 A3
I107 B3
I108 B3
I109 A4
I110 B2
I111 B2
I112 A3
I113 A2
I114 B2
I115 B3
I116 A3
I117 A3
I118 A2
I119 A3
I120 A3
I121 A3
I122 A2
I123 A3
I124 A3
I125 A3
I126 B3
I127 A3
I128 A3
I129 A4
I130 A4
I131 A4
I132 A4
I133 A3
I134 A3
I135 B4
I136 A3
I138 A3
I139 A3
I140 B3
I141 B3
I142 B3
I143 B3
I144 B3
I145 B3
I146 B4
I147 A3
I148 A3
I149 B3
I150 B3
I151 B3
I152 B3
I153 B4
I154 B3
I155 A4
I157 A2
I158 A3
I159 B1
I160 D1
I161 E1
I162 E1
I163 E1
I164 E1
I165 E1
I166 E1
I167 E1
I168 E1
I169 G2
I170 G3
I171 F2
I172 G3
I173 F3
I174 F3
I175 F2
I176 F3
I177 F2
I178 F2
I179 F2
I180 F2
I181 F2
I182 F2
I183 G3
I184 G2
I185 F2
I186 G3
I187 F2
I188 F3
I189 G4
I190 G3
I191 G2
I192 G2
I193 G2
I194 G2
I195 G3
I196 G3
I197 G3
I198 G3
I199 G3
I200 G3
I201 G3
I202 G3
I203 F2
I204 G2
I205 G2
I206 G3
I207 G4
I208 G2
I209 G2
I210 G2
I211 G2
I212 G3
I213 G3
I214 G3
I215 G3
I216 G3
I217 G3
I218 G3
I219 G3
I220 G3
I221 G4
I222 G3
I223 G3
I224 G3
I225 G4
I226 G2
I227 G4
I228 G3
I229 G4
I230 G4
I231 G4
I232 G3
I233 G3
I234 G3
I235 G3
I236 G3
I237 G3
I238 G3
I239 G3
I240 G3
I241 G3
I242 G3
I243 G3
I244 G3
I245 G3
I246 G3
I247 G3
I248 G2
I249 G3
I250 G3
I251 G3
I252 G3
I253 G3
I254 G3
I255 G3
I256 G3
I257 G3
I258 G2
I259 G4
I260 G4
I261 F2
I262 B1
I263 A1
I264 B1
I265 A1
I266 A1
I267 A1
I268 A1
I269 B1
I270 A1
I271 A1
I272 A1
I273 A1
I274 B1
I275 A1
I276 A1
I277 A1
I278 A1
I279 B1
I280 B1
I281 B1
I282 B1
I283 B1
I284 B1
I285 A1
I286 A1
I287 A1
I288 A1
I289 A1
I290 A1
I291 A1
I292 A1
I293 A1
I294 A2
I295 A2
I296 A2
I297 A2
I298 A1
I299 A1
I300 A1
I301 A1
I302 A2
I303 A1
I304 A1
I305 A1
I306 A1
I307 A2
I308 A1
I309 A1
I310 A1
I311 A1
I312 F3
I313 D3
I314 D3
I315 F3
I316 F3
I317 F3
I318 F3
I319 F3
I320 F4
I321 F4
I322 F4
I323 D4
I324 F2
I325 F4
I326 F4
I327 E4
I328 F4
I329 F4
I330 F4
I331 F3
I332 E4
I333 E2
I334 D3
I335 D2
I336 E2
I337 E4
I338 D2
I339 D2
I340 E3
I341 E2
I342 D2
I343 D2
I344 D3
I345 D3
I346 D3
I347 D3
I348 D3
I349 D3
I350 D3
I351 G1
I352 G1
I353 G1
I354 G1
I355 G1
I356 G1
I357 G1
I358 F1
I359 F1
I360 F1
I361 G1
I362 F1
I363 F1
I364 F1
I365 F2
I366 F2
I367 F1
I368 F1
I369 G1
I370 D1
I371 C1
I372 C1
I373 C1
I374 D1
I375 D1
I376 D1
I377 D1
I378 C1
I379 C1
I380 C1
I381 C1
I382 C1
I383 C1
I384 C1
I385 C1
I386 C1
I387 C1
I388 C1
I389 C1
I390 C1
I391 C1
I392 C1
I393 C1
I394 C1
I395 B2
I396 A2
I397 B2
I398 A2
I399 A2
I400 A2
I401 A2
I402 A2
I403 A2
I404 A2
I405 A2
I406 A2
I407 A2
I408 A2
I409 A2
I410 C3
I411 B2
I412 C2
I413 B2
I414 C1
I415 B2
I416 C1
I417 C2
I418 B2
I419 C3
I420 C3
I421 C3
I422 B4
I423 B4
I424 B4
I425 C3
I426 C4
I427 C4
I428 C4
I429 C4
I430 C4
I431 C3
I432 C3
I433 C3
I434 B2
I435 B1
I436 B1
I437 B1
I438 B1
I439 B1
I440 C3
I441 C4
I442 C4
I443 C3
I444 C4
I445 C4
I446 C4
I447 C4
I448 B4
I449 C2
I450 D2
I451 C2
I452 C4
I453 C2
I454 B4
I455 C2
I456 B3
I457 B3
I458 B3
I459 B3
I460 B3
I461 B3
I462 C3
I463 C3
I464 C3
I465 C4
I466 C4
I467 C4
I468 C4
I469 C4
I470 C4
I471 C2
I472 C2
I473 E4
I474 D2
I475 D2
I476 D2
I477 E2
I478 E2
I479 E2
I480 E2
I481 E2
I482 E2
I483 E2
I484 E2
I485 E2
I486 E2
I487 F3
I488 G3
I489 F3
I490 F3
I491 F4
I492 F4
I493 F4
I494 A4
I495 A2
I496 B1
I497 B1
I498 B1
I499 B1
I500 B1
I501 B1
I502 B1
I503 C1
I504 B1
I505 B1
I506 C1
I507 B1
I508 B1
I509 B1
I510 B1
I511 B1
I512 B1
I513 C1
I514 C1
I515 C1
I516 C1
I517 C1
I518 C1
I519 C1
I520 C1
I521 C1
I522 B1
I523 B3
I524 D2
I525 E1
I526 E1
I527 E1
I528 E1
I529 E1
I530 E1
I531 E1
I532 E1
I533 G2
I534 G3
I535 G4
I536 G3
I537 G3
I538 D3
I539 D3
I540 D4
I541 D3
I542 G1
I543 G1
I544 G1
I545 G1
I546 G1
I547 C1
I570 B1
IA00 A3
IA01 B4
IA02 A3
IA03 A3
IA05 B3
IA10 A4
IA11 A4
IA12 A4
IA15 A4
IA16 B3
IA17 B4
IA18 B3
IA19 B3
IA20 B3
IA21 B3
IA22 A3
IA23 A3
IA25 B4
IA26 B3
IA27 B3
IA28 B3
IA44 B3
IA45 B3
IA46 B3
IB05 B1
IB06 C1
IB14 C1
IB17 C1
IB18 C1
IB20 C1
IB24 C1
IB41 C1
IB42 C1
IB43 C1
IB44 B1
IB45 B1
IB46 C1
IB47 B1
IB48 B1
IB49 B1
IB50 B1
IB51 B1
IB60 B1
IB61 B1
IB62 B1
IB63 C1
IB64 B1
IB67 B1
IB68 B1
IB69 B1
IB70 B1
IB71 B1
IB72 B1
IC01 A3
IC02 A3
IC04 B3
IC05 B3
IC06 A3
IC07 A3
IC08 A3
IC09 A3
IC10 A3
IC11 A3
IC12 A3
IC13 A3
IC14 A3
IC15 A3
IC16 A3
IC32 A3
IC33 A3
IC34 A3
IC35 B3
IC36 A3
IC37 A3
IC38 A3
IC39 A3
IC40 A3
IC41 A3
IC44 B3
IC45 B3
IC46 A3
IC48 A2
IC49 A4
IC52 A3
IC54 A3
IC55 A3
IC56 A3
IC57 A3
IC58 A3
IC59 A3
IC60 A3
IC61 A3
IC63 A3
IC64 A3
IC65 A2
IC72 A3
IC74 A3
IC75 A3
IC76 A3
IC77 A3
IC78 A3
IC79 A3
IC80 A3
IC83 A3
IC84 A3
IC85 A2
IC87 A3
IC88 A3
IC89 A3
IG03 F4
IG05 F4
IG25 F4
IG29 F3
IG30 F3
IG31 F3
IG32 F3
IH03 E2
IH04 E2
IH05 E2
IH09 E2
IH10 E2
IH11 E2
IH12 E2
IH13 E2
IH14 E1
IH15 E2
IH16 D2
IH17 D2
IH18 D2
IH22 E4
IJ08 C2
IJ09 C2
IJ14 C4
IJ15 C4
IJ16 C4
IJ18 C4
IJ19 C4
IJ21 C4
IJ22 C3
IJ23 C3
IJ24 C3
IJ26 B3
IJ31 B3
IJ33 B3
IJ39 B3
IJ44 B3
IJ46 B3
IJ48 C2
IJ49 B4
IJ50 C2
IJ51 C4
IJ53 C2
IJ54 D2
IJ55 C2
IJ61 B4
IJ67 C4
IJ68 C4
IJ69 C4
IJ70 C4
IJ71 C3
IJ72 C4
IJ73 C4
IJ81 C3
IK01 A3
IK02 B2
IK03 A3
IK04 A3
IK05 A2
IK06 A2
IK10 A3
IK11 B3
IK12 B3
IK13 B3
IK14 B3
IK15 B3
IK16 B3
IK17 B3
IK18 A3
IK21 A3
IK22 A3
IK23 A3
IK24 A3
IK25 A2
IK30 B2
IK31 B2
IK32 B3
IK33 B2
IK46 A3
IK47 A2
IK48 A2
IK49 A2
IK50 A2
IK51 B2
IK52 B3
IK53 B2
IK54 B3
IK55 A2
IK56 A2
IK57 A3
IK58 B3
IK59 B3
IK60 B3
IK62 A2
IK63 A2
IK64 A2
IK66 A2
IK67 A2
IK68 A2
IK69 A2
IK70 B2
IK71 A4
IK72 B2
IK73 A4
IK74 A2
IK75 A2
IK76 A2
IK77 A2
IK78 A2
IK79 A2
IK80 A2
IK81 A2
IK82 A2
IK83 A2
IK84 A2
IK85 A2
IK86 A2
IK87 A2
IK88 A2
IK89 B2
IK90 B2
IK91 B2
IK92 B2
IK93 A3
IK94 A3
IK96 A2
IK97 A4
IK98 A2
IK99 A2
IL10 B1
IL11 B1
IL12 B1
IL13 B1
IL14 B1
IL17 B2
IL20 C3
IL21 C3
IL22 C3
IL23 C4
IL24 C4
IL25 C4
IL26 C4
IL27 C4
IL28 C3
IL29 B4
IL30 B4
IL31 B4
IL32 C3
IL33 C3
IL35 C3
IL40 B2
IL41 B2
IL42 B1
IL43 B2
ILB3 C1
ILB8 B2
ILC3 C2
ILN2 B2
ILN6 C3
IM00 A2
IM01 A2
IM02 A2
IM03 A2
IM04 A2
IM05 A2
IM06 A2
IM08 A2
IM11 A2
IM12 A2
IM13 A2
IM14 A2
IM15 A2
IM16 A2
IM17 A2
IN01 C1
IN02 C1
IN03 C1
IN04 C1
IN05 C1
IN06 C1
IN07 C1
IN08 C1
IN09 C1
IN10 C1
IN11 C1
IN12 C1
IN13 C1
IN14 C1
IN17 C1
IN20 C1
IN21 C1
IO02 D1
IO04 D1
IO05 D1
IO10 D1
IO11 C1
IO12 C1
IO13 C1
IO14 C1
IP05 G1
IP06 F1
IP07 F1
IP11 G1
IP12 G1
IP13 G1
IP14 F2
IP15 F2
IP16 F1
IP17 F1
IP18 F1
IP19 G1
IP20 G1
IP21 F1
IP22 F1
IP23 F1
IP24 G1
IP25 G1
IP26 G1
IP27 G1
IP28 G1
IP29 G1
IP30 G1
IP31 G1
IQ03 D3
IQ04 D3
IQ05 D3
IQ06 D3
IQ07 D3
IQ11 D2
IQ13 D3
IQ14 D3
IQ15 D3
IQ16 D3
IQ17 D3
IQ21 D3
IQ22 D2
IQ23 D2
IQ24 E2
IQ25 E3
IQ26 D2
IQ28 D2
IQ29 E4
IQ30 E2
IQ31 D3
IQ32 D3
IQ33 E2
IQ34 E4
IQ40 F3
IQ41 F4
IQ42 E4
IQ43 E4
IQ44 E4
IQ45 F4
IQ46 F4
IQ47 F2
IQ49 D4
IQ52 F4
IQ53 F4
IQ54 F4
IQ55 F3
IQ56 F3
IQ57 F3
IQ58 F3
IQ59 F3
IQ60 D3
IQ61 D3
IQ62 F3
IT01 A1
IT02 A1
IT03 A1
IT04 A1
IT05 A1
IT09 A2
IT10 A1
IT11 A1
IT13 A1
IT14 A1
IT15 A2
IT17 A1
IT18 A1
IT19 A1
IT20 A1
IT22 A2
IT23 A2
IT24 A2
IT25 A2
IT26 A1
IT31 A1
IT32 A1
IT33 A1
IT35 A1
IT37 A1
IT38 A1
IT39 A1
IT40 A1
IT44 B1
IT46 B1
IT47 B1
IT48 B1
IT49 A1
IT50 A1
IT51 A1
IT52 A1
IT53 A1
IT55 A1
IT56 A1
IT57 B1
IT58 A1
IT59 A1
IT60 A1
IT61 A1
IT64 A1
IT65 B1
IT66 A1
IT70 A1
IT71 A1
IT72 A1
IT73 B1
IT74 A1
IT75 B1
IU00 F2
IU01 G4
IU02 G4
IU03 G2
IU04 G3
IU05 G3
IU06 G3
IU07 G3
IU08 G3
IU09 G3
IU10 G3
IU11 G3
IU12 G3
IU13 G2
IU14 G3
IU15 G3
IU16 G3
IU17 G3
IU18 G3
IU20 G2
IU21 G3
IU22 G3
IU23 G3
IU24 G3
IU25 G3
IU26 G3
IU27 G3
IU28 G3
IU29 G3
IU30 G3
IU31 G3
IU32 G3
IU33 G4
IU34 G4
IU35 G4
IU36 G3
IU37 G4
IU38 G2
IU39 G4
IU40 G3
IU41 G3
IU42 G3
IU43 G4
IU44 G3
IU45 G3
IU48 G3
IU49 G3
IU50 G3
IU51 G3
IU52 G3
IU53 G3
IU55 G3
IU56 G2
IU57 G2
IU58 G2
IU59 G2
IU60 G4
IU61 G3
IU62 G2
IU63 G2
IU64 F2
IU65 G3
IU66 G3
IU67 G3
IU68 G3
IU69 G3
IU70 G3
IU71 G3
IU72 G3
IU73 G2
IU74 G2
IU75 G2
IU76 G2
IU77 G3
IU78 G3
IU79 G3
IU80 G4
IU81 G3
IU82 G2
IU83 G4
IU84 F3
IU85 F2
IU86 G3
IU87 F2
IU88 G2
IU89 G3
IU90 F2
IU91 F2
IU92 F2
IU93 F2
IU94 F2
IU95 F2
IU96 F3
IU97 F2
IU98 F3
IU99 F3
IUA0 G3
IUA1 F2
IUA2 G3
IUA3 G2
IZ00 E1
IZ01 E1
IZ02 E1
IZ07 E1
IZ14 E1
IZ15 E1
IZ16 E1
IZ18 E1
IZ19 E1
IZ20 E1
IZ21 E1
IZ22 E1
IZ25 E1
IZ26 D1
IZ27 E1
IZ28 E1
IZ50 D1
Page 56
Block Diagrams, Test Point Overviews, and Waveforms
Test Point Overview SSB Part 1 (Bottom Side)
56BJ3.0E PA 6.
Part 1
G_15960_056ta.eps
310306
Page 57
Block Diagrams, Test Point Overviews, and Waveforms
Test Point Overview SSB Part 2 (Bottom Side)
57BJ3.0E PA 6.
Part 2
G_15960_056tb.eps
310306
Page 58
I2C IC’s Overview
I²C
VIPER: CONTROL
B5A
7V00-5
PNX8550
VIPER
ERR
05
Block Diagrams, Test Point Overviews, and Waveforms
HDMI
B7A
+3V3
I2C1-SDA
I2C1-SCL
ERR
53
A25
C25
F26
E27
B27
D25
A29
A28
C2
AD4
3Q11
SDA-MM
3Q10
SCL-MM
TXD-VIPER
RXD-VIPER
EJTAG-TDI
EJTAG-TDO
EJTAG-TMS
EJTAG-TCK
JTAG-TRST
RESET-SYSTEM
3H22
B1C
+3V3
3H23
PROT
01
1
18 2
19
2x HDMI
CONNECTOR
MPIF MAIN: SUPPLY
B3B
1B01
16
15
1B02
16
15
3B08
5 6
7B02
M24C02
EEPROM
3B07
SDA-MM-BUS1
SCL-MM-BUS1
ARX-DDC-SDA
ARX-DDC-SCL
BRX-DDC-SDA
BRX-DDC-SCL
3B20
5 6
M24C02
EEPROM
7B03
3B02
3B19
3B14
3B03
3B15
58BJ3.0E PA 6.
HDMI: I/O + CONTROL
B7B
3B60
3B61
PARX-DDC-SDA
PARX-DDC-SCL
PBRX-DDC-SDA
PBRX-DDC-SCL
JTAG-TRST JTAG-TRST
PNX2015: STANDBY & CONTROL
B4E
K16
K15
J16
J15
L14
L16 L15
7B11-2
TDA9975EL
HDMI
CONTROL
ERR
43
COMMON INTERFACE: PART 1
B10A
3P13
16 10
7P03
STV0701
COM. INTERFACE
HW CONTROLLER
ERR
39
3P12
5
JTAG-TRST
PACIFIC3: PART 2
B6B
3G78
3G77
198 200
7G04
T6TF4AFG
PACIFIC3
LVD S
PWM-OR
ERR
46
DVB-T: CHANNEL DECODER
B2B
PWM-3
7G03
P87LPC760BDH
MICRO
CONTROL
B2A
SDA-AMBI
SCL-AMBI
(Optional)
DVB-T: TUNER
MPIF MAIN: CONNECTIONS B
B3G
VIPER: DISPLAY DIVERSITY + AMBILIGHT
B5E
7Q05-2
7Q05-1
3Q29
+5V
3Q30
+3V3
3Q73
3Q72
1E62
17
16
1M59
3
1
(Optional)
BE2
1E62
AL1
1M59
17
16
3
1
EXTERNALS B
AMBI LIGHT
3038
910
P87LPC764BDH
MICRO
CONTROLLER
7003
SDA-MM-BUS1
SCL-MM-BUS1
3037
SDA
SCL
1M39
1
AMBI LIGHT PWB
3
TO SECOND
I2C2-SDA
I2C2-SCL
I2C3-SDA
I2C3-SCL
I2C4-SDA
I2C4-SCL
AF29
AD26
AE27
AG29
A3
B4
3Q13
SDA-DMA
3Q12
SCL-DMA
3Q15
SDA-UP-VIP
3Q14
SCL-UP-VIP
VIPER: MAIN MEMORY
B5B
3H99
3H98
7V01
K4D551638F
SDA-I2C4
SCL-I2C4
DDR
SDRAM 1
7V02
K4D551638F
DDR
SDRAM 2
3H04
3Q04
+3V3
3H05
3Q03
PROT
02
MISCELLANEOUS
B12
POD: TS BUFFERING
B10D
PROT
03
PNX2015: DISPLAY INTERFACE
B4G
PROT
04
SDA-DMA-BUS2
SCL-DMA-BUS2
3C40
43 44
7C00-3
PNX3000HL
MPIF
ERR
ERR
32
SDA-DMA-BUS1
SCL-DMA-BUS1
5 6
7P14
M24C64
EEPROM
(8Kx8)
PROT
44
9J16
9J17
7J04
PCA9515DP
3C39
18
3LF8
3LG9
AG9 AF9
ERR
45
PNX2015: STANDBY & CONTROL
B4E
+3V3-STANDBY
3LE3
3LE4
3LJ1
TXD-UP
RXD-UP
7LA7
M25P05-AVMN6P
FLASH
3LJ0
B10D
512K
SDA-I2C4-DISP
SCL-I2C4-DISP
3LH4
G5 G4
7J00-6
PNX2015E
CONTROL
AVIPCOLUMBUS HD
ERR
ERR
29
29
9M05
9M04
3LF0
AG26 AH26
AJ19
7J00-5
PNX2015E
AK19
PNX2015
STANDBY
1G50
31
30
ERR
64
3LH3
ERR
31
TO
DISPLAY
3LE2
3LH1
B27 C27
AG16
AF14
AG14
3LH0
AF11
AF21
AJ21
7L50
ERR
27
K4D261638F
SDA-DMA-BUS1-DVBT
SCL-DMA-BUS1-DVBT
3LM7
UART-SWITCH
+3V3-STANDBY
3LH8
SDA-UP-SW
3LH9
SCL-UP-SW
TYPE
42PF9631D/10
50PF9631D/10
32PF9531/93
37PF9531/93
42PF9531/93
JTAG-TRST
EJTAG-DETECT
RESET-SYSTEM
DDR
SDRAM
16Mx16
3LC7
9J16
9J17
X
X
X
X
X
X
X
X
X
X
3LC6
7J04
-
-
-
-
-
3T90*
8
TDA10046AHT
RECEIVER
*(Only for Digital sets)
NVM / NAND / UART SWITCH
B10D
B5A
B4E
B4E
B5A
7P16
7T17*
DTV
ERR
36
3T92*
6
4
3
TXD-VIPER
TXD-UP
RXD-UP
RXD-VIPER
UART-SWITCHn
7P17
SDA-MM-BUS1
SCL-MM-BUS1
SDA-CD-TUN-BUS
SCL-CD-TUN-BUS
3T09*
3T07*
5
6
1T05*
TD1316AF
MAIN
TUNER
(HYBRIDE)
ERR
34
10
9
2
3
5
12
6
13
7P15
74HC4066PW
9T06
8
11
1
4
Only For
Analogue sets
9T05
3T69
3T09
3T07
6
1T06
UV1318S
MAIN
TUNER
(ANALOGUE)
ERR
34
B1C
+5V
3T68
5
RS232 INTERFACE
B5A
B9B
9U07
RES
UART
3O15
TXD
3O16
RXD
TXD
RXD
JTAG-TRST
EJTAG-DETECT
EJTAG-TDI
EJTAG-TDO
EJTAG-TMS
EJTAG-TCK
RESET-SYSTEM
3U79
3U81
1M15
1U03
1H07
1
2
3
1
3
1
2
3
5
7
9
11
(Optional)
COMPAIR
SERVICE
CONNECTOR
(UART)
UART
CONNECTOR
RES
EJTAG
CONNECTOR
(FACTORY USE
ONLY)
RES
G_15960_087.eps
310306
Page 59
Block Diagrams, Test Point Overviews, and Waveforms
Supply Lines Overview
SUPPLY LINE OVERVIEW
PDP
(PLATFORM) SUPPLY
1M46
11
22
33
44
55
66
77
88
99
11 11
1M03
5
9
1M02
1
2
5
6
1M18
(1M09)
1
B1B
DC/DC CONNECTIONS
1M46
B1a
B1b
TO 1M03
VIPER
TO 1M02
AMPLIFIER
TO 1M09
LIGHT
B1a
B1b
B1b
B1b
B1a
B1a
B3b
B1b
B1b
5U04
5U05
5U06
5U07
5U08
5U12
6U01
7U26
3UA0
DC/DC
B1A
+12VS
1U04
1U01
5U03
1
16
3T06
3T85
7T14
IN OUT
COM
7C00
MPIF
7T14
IN OUT
COM
5C35
7U01
7U03
3T05
7T19
7C31-1
2
7C31-2
20
3C31
B5E
7U00
AUDIO
AL1
AMBI
C2
CONTROL
RS232 INTERFACE
B1C
+3V3 +3V3
DVB-T: TUNER
B2A
+8V6-SW
+5V +5V
+VTUN
DVB-T: CHANNEL DECODER
B2B
+3V3
+5V
MPIF MAIN: VIDEO SOURCE SELECTION
B3A
+5VMPIF-MAIN +5VMPIF-MAIN
MPIF MAIN: SUPPLY
B3B
+5V +5V
1C33
+8V6-SW +8V6-SW
3U57
5U00
5U03
5T04
5T05
5T08
+8V6-SW
+8V6
+12VS
+5V
+5V2-STBY
+5V2-STBY_
9V-STBY
+VTUN+12VSW
7U03
+2V5
Stabilizer
+8V6-SW
+5VTUN_MPIF
+5VTUN
+VTUN
+33VTUN
+5VMPIF-MAIN
VREF-AUD-POS
VREF-AUD
VREF-DEFL
+8VMPIF-MAIN
+12VS
+12VSW
+3V3
+1V2
+2V5
+2V5D
+3V3
+1V8DVB
+3V3DVB
+5V
B2b,B6a,b,
B3b,e,f,g
B1a,B4a
B2b,B3b,e,g,B4e,
B5a,e,B6a,b,B7c,
B10a
B1a,c,B3e,f,
B4a,e,g,B7c,
B10d,B12
B5e
B2a
59BJ3.0E PA 6.
PNX 2015: SUPPLY
MPIF MAIN: IF + SAW FILTER
B3C
B3b
B3b
B3e
B3e
B1a
B1b
B1b
B1a
B3b
B1b
B1b
B1b
B1b
B1b
B1a
B1a
B1b
B1b
B3b
B1a
B4c
B1a
B1a
B1a
B12
B1a
B12
B1b
B1b
B1b
B1a
+8VMPIF-MAIN +8VMPIF-MAIN
5C52
+5VMPIF-MAIN +5VMPIF-MAIN
3C51
5C54
MPIF MAIN: AUDIO SOURCE SELECTION
B3D
+5V-AUD +5V-AUD
+8V-AUD +8V-AUD
MPIF MAIN: AUDIO
B3E
+3V3 +3V3
+5V +5V
+5V2-STBY +5V2-STBY
+12VSW +12VSW
7A05
VREF-AUD VREF-AUD
+8V6-SW +8V6-SW
B1b,B4e,g
B4a,d,e,f
B5d
B4c,d,f
B5d
B5b
B3a,c
B4a
B3eB3e
B3c
B1c,B2b,B3e,
B4a,e,f,g,B5a,c,d,e,B6a,b,
B7b,c,B8,B9a,B10a,b,c,d,
B11a,b,B12
MPIF MAIN: CONNECTIONS A
B3F
5A07
+5V2-STBY +5V2-STBY
+8V6-SW +8V6-SW
5A06
MPIF MAIN: CONNECTIONS B
B3G
+5V +5V
+8V6-SW +8V6-SW
PNX2015: AUDIO / VIDEO
B4A
+1V2 +1V2
+3V3 +3V3
+5V2-STBY +5V2-STBY
+12VS +12VS
VREF-AUD-POS VREF-AUD-POS
PNX 2015: TUNNELBUS
B4C
+2V5 +2V5
3L38
5L01
PNX 2015: DDR INTERFACE
B4D
VREF-PNX VREF-PNX
+1V2 +1V2
+2V5 +2V5
5L52
5L51
PNX 2015: STANDBY & CONTROL
B4E
+1V2 +1V2
+1V2-STANDBY +1V2-STANDBY
+3V3 +3V3
+3V3-STANDBY +3V3-STANDBY
+5V2-STBY +5V2-STBY
+5V +5V
+8V6-SW +8V6-SW
+12VSW +12VSW
7A07
7A06
+8VaM
+5VbM
+5VaM
+8V-AUD
+5V-AUD
+5V2-CONN
+8V6-CONN
VREF-PNX
+2V5-DDRPNX
1E40
B1a
B1a
B12
B12
B1a
B4d
B1a
N.C.
B1a
B12
B1b
B1a
B1b
24
B5c
8
B1a
B5c
B1a
B5d
B1a
B1a
B1a
B1b
B1a
B1a
To 1M03
AP1
Platform
Supply
B1a
B1b
B1b
B4F
+1V2 +1V2
+3V3 +3V3
+1V2-STANDBY +1V2-STANDBY
+3V3-STANDBY +3V3-STANDBY
+2V5 +2V5
+2V5-DDRPNX +2V5-DDRPNX
B4G
+3V3 +3V3
+5VDISP +5VDISP
B3d
+12VSW +12VSW
+3V3-STANDBY +3V3-STANDBY
B3d
+5V2-STBY +5V2-STBY
B5A
+3V3 +3V3
+5V +5V
To 1E40
B5B
BE2
Externals
VREF-VPR VREF-VPR
+2V5D +2V5D
+2V5-VPR +2V5-VPR
B5C
+3V3 +3V3
+2V5-VPR +2V5-VPR
B5D
1V2 1V2
+2V5 +2V5
B4d
+3V3 +3V3
B5E
+5V +5V
+3V3 +3V3
+12VSW +12VSW
B4f
1M03
5
9
B6A
+3V3 +3V3
+5V +5V
+8V6-SW +8V6-SW
B7A
2x HDMI
CONNECTOR
5LN1
5LN3
5LN0
5LN2
PNX 2015: DISPLAY INTERFACE
5J10
7J06
VIPER: CONTROL
VIPER: MAIN MEMORY
5V01
3V47
3V46
VIPER: A/V + TUNNELBUS
3H50
5H05
VIPER: SUPPLY
5Q07
VIPER: DISPLAY DIVERSITY + AMBILIGHT
+5V2-STBY_9V-STBY
PACIFIC3: PART 1
HDMI
1B01
18
1B02
18
PLL-1V2
LVDS-3V3
PLL-3V3
UP-3V3
VDISP
+2V5D-DDR
VREFD-DDR
VREF-VPRDDR
VREF-VPR
+2V5-VPR
1M63
+5V-CON
+5V2-STBY_9V-STBY
AIN-5V
BIN-5V
1
TO
MEMORY
CARD
READER
B1a
B1b
B1b
B1a
B7c
B1a
B1b
B1a
B1b
B1a
B5b
B12
B5b,c
B1a
B1b
B1b
B1a
B1a
B1a
B12
B1b
PACIFIC3: PART 2
B6B
+3V3 +3V3
5G01
7G01
IN OUT
COM
5G03
5G02
7G07
5G04
IN OUT
COM
5G05
+5V +5V
+8V6-SW +8V6-SW
HDMI: I/O + CONTROL
B7B
+3V3 +3V3
3V3-DIG
B7C
+3V3 +3V3
+5V +5V
B8
+3V3 +3V3
+5V2-STBY +5V2-STBY
+3V3-STANDBY-B-TRANS
B9A
+3V3 +3V3
B9B
+3V3-STANDBY +3V3-STANDBY
B10A
+3V3 +3V3
+5V +5V
B10B
+3V3 +3V3
B10C
+3V3 +3V3
B10D
+3V3 +3V3
+3V3-STANDBY +3V3-STANDBY
+5V2-STANDBY +5V2-STBY
3B40
HDMI: SUPPLY
5B17
5B11
5B12
7B12
3B52
IN OUT
COM
7B38
IN OUT
COM
USB 2.0: HOST
3N31
7N10
ETHERNET
5O00
5O01
UART
COMMON INTERFACE: PART 1
5P02
7P00
31110
Control
9
COMMON INTERFACE: PART 2
COMMON INTERFACE: PART 3
NVM / NAND UART SWITCH
5B18
5B10
3N33
+3V3-P3
+2V5-PF
+2V5-PLL
+2V5-P3
+1V5-P3
+1V5-PLL
3V3-DIG
+3V3-APLL
3V3-PLL
3V3-DIG
+1V8
+1V8-PLL
+3V3-AV
+3V3-AVI
3V3-STANDBY
+3V3-ET-DIG
+3V3-ET-ANA
VCC_EXTO
POD-VPP
POD-VCC
To 1E40
B3F
SSB
To 1M18
Supply
To 1M02
Supply
B1a
B1a
B1a
B1b
BE2
BE2
BE2
BE2
BE2
C2
C2
C2
FIREWIRE 1394: MAIN
B11A
+3V3 +3V3
5Z02
5Z00
FIREWIRE 1394: BUFFERING
B11B
+3V3 +3V3
5Z50
MISCELLANEOUS
B12
+3V3 +3V3
+5V2-STBY +5V-STBY
BE1
+8V6 +8V6
VREF VREF
+5V +5V
BE2
1E40
8
24
BE3
+5V +5V
+8V6 +8V6
J
1M21
5
AL1
1M09
6
(OPTIONAL)
C1
+12-15V +12-15V
-12-15V -12-15V
VP1 VP1
C2
1M02
1
2
5
6
7M05
3M73
IN OUT
COM
7M06
3M79
IN OUT
COM
EXTERNALS A
EXTERNALS B
+8V6_AIO +8V6_AIO
5100
+5V2-STBY +5V2-STBY
EXTERNALS C
LED SWITCH PANEL
+5V2-STBY +5V2-STBY
AMBI LIGHT
1010
+12Va +5V
AUDIO LEFT / RIGHT
5D06
5D05
PROTECTION MUTE CONTROL
3DD0
3153
3154
3156
7002
IN OUT
COM
+3V3-VCCA
+3V3-VCCD
+3V3BUFF
+3V3-STANDBY
+1V2-STANDBY
+8V6
VREF
+5V
VN
VP
-12-15V
VP1
+12-15V
1M21
1M08
5
TO SECOND
1
AMBI LIGHT
PWB
B3g,B4e,f,g
B8,B9b,B10d
B4e,f
BE1,BE3
BE1
BE1,BE3
C1
C1
C1
G_15960_088.eps
100406
Page 60
Circuit Diagrams and PWB Layouts
60BJ3.0E PA 7.
7. Circuit Diagrams and PWB Layouts
Display Supply FHP: Filter Standby
1 23456789
AD1 AD1
A
B
C
D
E
F
G
H
I
MAINS
INPUT
95-264Vac
0308
2
1
B2P-VA-BF
25V_HOT
3104 313 6126.3
DISPLAY SUPPLY: FILTER STANDBY
MAINS
FILTER
1402
3404
I400
220R
500V
DSP-501N
F401
F405
F402
F406
F403
F404
F407
I419 I420
3401
T6,3AH/250V
1M0
VR37
F408
1400
181
F409
400V_HOT
400V_HOT
9031
3517
10R
F410
2400
470n
MEASURED DC-VOLTAGES
NORMAL . . .
STANDBY (. . .)
1
I401
V
470n
2402
2002
470n
3400
2322595
495
3510
470R
I528
3511
470R
I529
CONTROL
3512
560R
I530
6509
I531
BZX384-C22100n
2514
3513
560R
ONLY USED WITH
*
PLATFORM SUPPLY
23456
ERC12
5401
12
34
DMF28
2404
47p
1000V
I501
6510
BYG10
F514
7462
BC847BW
I533
3514
100R
2003
GROUND
6511
BYG10
3507
3035
3026
2504
0203
123
470n
I524
I525
2405
2408
680K
680K
680K
1n0
100n
I402
470n
2001
I403
250V
470p
3506
I508
50V
2513
50V
470n
2019
GROUND
+T
10R
8
7
6
3
2
I509
123
250V
470p
I502
600V
232266293
S5
S4
S3
S2
S1
HEATSINK
0201
5005
12
34
DMF28
2406
47p
1000V
1P22
B2P-VA-BF-BK
6512
BYG10
I504
7500
TNY256P
EN|UV
4
2004
250V
2407
470p
GROUND
1
PLATFORM
2
SUPPLY
I503
6R8
2505
1m0 50V
F500
4
D
5
BP
1
2403
470n
2401
470n
I404
1406
500V
COLD
GROUND
TO
6513
BYG10
9030
3509
12R
I532
I518
3508
PR02
400V47u
2503
F501
I510
HOT
I521
470n
RS1J
6502
I520
5402
1
2
3
4
DMF28
I516
3402
220R
I505
6503
12
5500
5
4
3
2
1
BS16421-00
9025
6501
BZT03C200
I511
9023
6506
BZT03C200
I523
BZT03C200
7501
TCET1102(G)
32
*
GROUND
I405
1P02
3452
3036
I506
-T
-T
6
7
8
9
14
7502
TS2431
B57464
1R0
B57464
1R0
I515
2501
680p
I522
2507
100p
6504
2
1
RS1J
I507
2509
100p
6505
SS34
F504
I512
3501
1K0
I513
1
K
R
A
3
B2P-VA-BF
I410
STANDBY SUPPLY
2506
680p
2502
I418
100p
1005
F750mA
9003
9004
50V
2508
2510
F505
3502
470R
100n
2511
16V
2512
I514
16V
100n
2
ONLY USED WHEN
NO PLATFORM SUPPLY
COLD
GROUND
7891011
TO
1
PLATFORM
2
SUPPLY
12
34
SDT-SS-105DM
G5PA1ME5DC
I407
3515
1K0
3516
1K0
16V100u
F503
16V1m0
1%
4K7
3505
1%
33K
4K7
3504
3503
1450
F502
I406
9028
5503
10u
3V3_DISPLAY
1404
3450
+T
10R
232266293
600V
1460
12
34
SDT-SS-105DM
G5PA1ME5DC
I519
F508
VSAGO
VCEGO
F510
VRS
VRA
F513
F512
EMC HOLE
GROUND
1405
I408
I409
F507
F509
F511
F506
1004
T2A/250V
VCC-5V
EMC HOLE
10 11 12 13
3451
+T
10R
232266293
600V
6461
0311
B9B-PH-K
19382
I412
3460
9
8
7
6
5
4
3
2
1
I411
6460
7460
BC817-25W
1K5
10K
3461
RELAY CONTROL
TO
CN11
PDP (DISPLAY)
VCC-5V
6508
6507
SS34
16V100u
2540
2542
0309
0-106451-1
BAS316
BAS316
S1D
I527
100n
3463
10K
LD1117DT33
3
COM
2465
OUTIN
1
7540
3473
10K
3467
I413
16V
100u
3465
I414
7461
BC869
1K0
2
2541
9401
7465
BC857BW
I415
10K
3K3
3469
I416
10K
3470
F412
3471
1u0
2534
16V
100u
2532
3472
1K0
1K0
I526
I517
100u 16V
2533
12 13
100u
16V
100-230VAC2
100-230VAC1
6471
BAS316
I417
6470
BAS316
7470
BC817-25W
SUPPLY_ON
F411
RELAY_VOLTAGE
+9V_STBY
+5V_INT_SW
3V3_DISPLAY
+5V_STBY
HOT
GROUND
COLD
GROUND
9029
G_15960_001.eps
060206
0201 I4
0203 I3
0308 B1
0309 I10
0311 F10
1004 G9
1005 E7
1400 B1
1402 A3
1404 I8
1405 I9
1406 B5
A
1450 A8
1460 A9
1P02 A7
1P22 D4
2001 B4
2002 B2
2003 B3
2004 B5
2019 C4
2400 B2
B
2401 B5
2402 B2
2403 B5
2404 B3
2405 C4
2406 B4
2407 C5
2408 B4
2465 D11
C
2501 E6
2502 E7
2503 F5
2504 G3
2505 F4
2506 E7
2507 E6
2508 F7
2509 F7
2510 F7
D
2511 I7
2512 I7
2513 G4
2514 G2
2532 I12
2533 I12
2534 H12
2540 I10
2541 I11
2542 I10
E
3026 G3
3035 F3
3036 B6
3400 B2
3401 B1
3402 B6
3404 A3
3450 A9
3451 A10
3452 A6
F
3460 D10
3461 D10
3463 D11
3465 D11
3467 C11
3469 D12
3470 D12
3471 G12
3472 H12
G
3473 H11
3501 H7
3502 H7
3503 I7
3504 I8
3505 H8
3506 E4
3507 F3
3508 E5
3509 E5
H
3510 F2
3511 F2
3512 G2
3513 G2
3514 H3
3515 E7
3516 E7
3517 F1
5005 B4
5401 B3
I
5402 B6
5500 F6
5503 F8
6460 D10
6461 C10
6470 D12
6471 C12
6501 G6
6502 H5
6503 E5
6504 E6
6505 F7
6506 G6
6507 H10
6508 H10
6509 G2
6510 E3
6511 E3
6512 E5
6513 E5
7460 D10
7461 G11
7462 G3
7465 C12
7470 D12
7500 G4
7501 H6
7502 I6
7540 I11
9003 F7
9004 F7
9023 G5
9025 G5
9028 E8
9029 F13
9030 E5
9031 E1
9401 G11
F401 B1
F402 B1
F403 B1
F404 B1
F405 B1
F406 B1
F407 B1
F408 B1
F409 B1
F410 B1
F411 D13
F412 E12
F500 F5
F501 G5
F502 E8
F503 F8
F504 F7
F505 G7
F506 G9
F507 F9
F508 G9
F509 G9
F510 G9
F511 G9
F512 G9
F513 G9
F514 E3
I400 A3
I401 A2
I402 B4
I403 B4
I404 B5
I405 A6
I406 A8
I407 C8
I408 A9
I409 A9
I410 A7
I411 C10
I412 D10
I413 C11
I414 D11
I415 D12
I416 D12
I417 C12
I418 E7
I419 E1
I420 E1
I501 E3
I502 E4
I503 E5
I504 E4
I505 E6
I506 E6
I507 F6
I508 F4
I509 G4
I510 G5
I511 G6
I512 H6
I513 H7
I514 I7
I515 E7
I516 B5
I517 H11
I518 E5
I519 F9
I520 A6
I521 B5
I522 E7
I523 H6
I524 F4
I525 F4
I526 H12
I527 H11
I528 F2
I529 F2
I530 G2
I531 G2
I532 E5
I533 G3
Page 61
Circuit Diagrams and PWB Layouts
Display Supply FHP: Protection
1J02 A15
1M03 B15
1P10 G15
2304 D1
2305 D1
2306 D3
2307 H14
2310 G3
2311 G2
2322 D4
2324 E6
2343 E8
2350 D9
2352 E10
2364 E11
2366 F15
2376 G2
2377 G10
2381 H2
2385 F5
2386 G4
2387 G5
2388 G6
2397 C13
2398 C1
3068 F10
3074 G10
3102 E1
3103 C4
3300 B1
3301 C1
3304 D1
3306 D1
3307 E2
3308 C2
3310 B3
3311 C3
3312 D3
3313 D3
3314 D4
1 23456789101112131415
3315 G3
3316 G2
3317 E3
3318 G3
3320 C4
3321 D4
3322 D4
3323 E4
3324 E1
3325 G12
3326 G12
3327 G13
3328 F13
3332 C6
3333 D6
3334 D6
3335 E6
3338 G2
3339 H1
3340 D7
3341 C7
3342 D7
3343 E7
3344 D8
3345 C8
3346 C8
3347 D8
3348 C8
3349 C9
3350 D9
3351 D9
3352 E9
3353 E10
3354 E9
3355 D13
3356 D15
3357 D14
3358 C11
3360 D10
3361 D10
3362 D15
3363 E10
3364 E11
3365 D10
3366 D12
3367 D12
3369 D13
3370 D13
3371 F1
3372 G1
3373 F2
3374 F2
3376 G2
3377 G1
3378 E13
3380 H2
3381 H2
3383 E15
3384 F15
3386 G4
3389 F8
3390 G5
3391 F11
3392 G4
3393 G4
3394 G4
3395 G5
3396 G5
3397 F5
3398 F5
3399 F6
3806 H10
3807 H12
3808 G10
3809 F10
3811 G11
6312 D2
6313 D23359 C11
6321 D4
6322 D4
6325 F12
6333 D5
6334 D5
6335 H11
6340 D7
6341 D7
6344 D8
6347 C8
6362 D10
61BJ3.0E PA 7.
6364 D11
6365 E12
6366 G11
6367 F7
6375 F2
6376 G1
6378 F14
7004 D8
7304 E1
7308-1 D4
7308-2 D4
7308-3 D2
7308-4 D2
7326 G13
7327 G14
7330-1 D6
7330-2 D6
7330-3 D5
7330-4 D5
7332 F3
7333 G3
7341 D8
7348 D8
7351 D10
7352 D9
7362 D11
7363 G4
7366-1 F6
7366-2 E14
7366-3 D12
7366-4 F11
7375 F2
7376 H1
9005 C1
9006 C13
9009 F1
9010 F1
9011 F1
9020 B14
9021 G6
9022 F14
F311 G5
F320 H1
F322 H2
F323 H1
F325 D13
F326 D2
F327 D4
F328 D5
F329 D7
F330 C1
F335 D12
F343 E7
F368 C3
F369 C6
F370 B15
F371 B15
F372 B15
F374 B15
F375 B15
F376 B15
F377 B15
F378 C15
F379 C13
F381 F13
F383 A15
F384 A14
F385 A15
F386 A15
F387 A15
F388 A15
F389 B15
F390 F9
F937 D15
I301 G4
I302 C2
I303 F2
I304 D1
I305 F1
I306 E1
I307 E1
I308 F2
I309 G127391 F12
I310 H1
I311 H2
I312 C3
I313 C1
I314 F1
I315 G1
I316 D3
I317 F11
I318 C8
I319 D8
I320 D10
I321 D11
I322 D4
I323 D13
I325 G12
I326 G13
I327 F13
I330 D5
I335 E6
I339 E11
I341 D7
I344 D8
I345 D8
I347 D8
I348 D8
I349 D9
I350 D9
I351 D9
I352 D10
I355 G3
I356 G2
I363 D11
I364 D11
I367 D11
I379 E14
I380 E15
I381 F10
I382 F1
I383 D1
I384 C4
I385 F5
I386 F6
I387 F6
I390 B13
I392 F11
I393 G4
I905 G8
I906 H2
I935 F12
I936 D14
I939 G10
I942 G11
AD2 AD2
DISPLAY SUPPLY: PROTECTION
2397
3355
3378
10K
100u 16V
100R
3357
POK
VSND_NEG
VSND_POS
GND_SND
F384
+5V_STBY
+12VL
STANDBY
9020
STANDBY
POWER_GOOD
2K7
I936
I379
4
5
6
11
9022
6378
BAT54 COL
8V6 UNDER VOLTAGE
7327
BC847BW
PROTECTION
2307
100n
+5V_STBY
F386
F370
F372
F375
F377
7366-2
LM324
F387
7
F388
F389
F385
3356
F371
F374
F376
F378
F383
F937
560R
3383
3384
1J02
1M03
3362
10K
I380
10K
2366
1P10
B10B-EH-A
1
2
3
4
5
6
7
8
9
10
11
12
13
1
2
3
4
5
6
7
8
9
10
2K7
3V8 (0V1)
100n 16V
1
2
3
4
5
6
7
8
9
10
POK
VCC_GO
A
5V (0V3)
LATCH
I347
1K0
6347
3347
BC847BW
P0102BL
3348
BAT54 COL
330R
I348
7348
3389
1K0
5V1 (0V)
330R
I350
4K7
3350
7352
4K7
3354
+5V_INT_SW
VCEGO
I349
2350
I351
3351
10K
BC847BW
3352
3349
F390
DCPROT
1K0
16V
100u
I352
10K
2352
16V
100n
7351
BC847BW
3353
3365
10K
+5V_STBY
3360
220R
I320
3363
RELAY_VOLTAGE
4K7
3361
1K2
I321
6362
BAS316
1K0
STANDBY
33K
10K
3809
3068
I381
4
12
I939
3074
330K
2377
100n
3806
470R
3808
13
11
10K
I942
BAS316
9011
2398
I305
2304
I304
+12V
10u 16V
50V
1n0
9010
3304
1
K
A
3
2V5
TS2431
F320
+5V_STBY
9005
2.5 Vref
1K0
(0V)
3324
7304
2R
+9V_STBY
9009
I382
3372
I315
3377
I310
3339
70-90V
1%
3300
220K
I313
RES
1%
3301
220K
F330
16V
7
2305
100n
61
1%
3306
10K
I383
1%1K0
1K0
3102
I307
I306
3307
VSA
CONTROL
I314
3371
6K8
6K8
6376
BAS316
5K6
7376
BC847BW
10K
F323
VS
PROTECTION
3308
1K0
7308-4
3
LM339PW
5V (0V)
F326
12
+5V_INT_SW
3
7308-3
5
LM339PW
4
3373
5K6
6375
BAS316
3338
1%
12K
0V7(0V)
2381
2
12
I303
7375
BC847BW
10K
2376
3316
470K
I311
3380
47K
16V
47K
3381
100n
F322
F343
+5V_STBY
1K0
3346
3345
I318
7341
BC857BW
I344
I319
3344
1K0
I345
7004
6344
BZX384-C3V3
50V
1K0
2343
2u2
I905
6333
6334
10n 16V
F369
3333
BAT54 COL
BAT54 COL
16V100n
I335
2324
I386
10n
2388
+12V
3
2
12V
PROTECTION
1%
68K
3332
1K0
11
10
1%
9
10K
3334
8
1%
15K
3335
+5V_INT_SW
4
7366-1
LM324
1
11
9021
3
3
I387
7330-2
LM339PW
12
7330-1
LM339PW
12
3399
13
14
5K6
6367
BAS316
6340
6341
BAT54 COL
F329
BAT54 COL
3340
3341
1K0
I341
3342
LATCH
10K10K
3343
VA
VA
1%
PROTECTION
3310
100K
I312
1%
3311
120K
3312
BAT54 COL
2306
BAT54 COL
F368
1K0
16V
3313
100n
I316
3317
7308-2
3314
3
11
LM339PW
10
1%
7K5
9
8
1%
7K5
12
+5V_INT_SW
7308-1
3
LM339PW
12
13
14
I302
6312
6313
F327
VCC-5V
VCC
PROTECTION
1%
3320
10K
I384
1%1K0
3103
1K0
10K
3321
6321
6322
BAT54 COL
BAT54 COL
16V
2322
100n
I330
1%
3322
I322
1%
3323
7330-4
3
LM339PW
7
6
3K9
5
4
10K
7330-3
3
LM339PW
F328
1
12
2
12
POWER_OK PROTECTION
47K
3374
I308
0V7
(0V)
47K
3376
100n 16V
I356
1n0
2311
I906
3315
10K
7333
BC847BW
VSAGO
7332
BC847BW
I355
10K
3318
2310
3395
3386
100R
100R
I393
1n0
47K
3394
2386
7363
BC847BW
10n
I301
47K
47K
3393
3392
47K
3397
I385
1K0
2385
3398
3396
F311
3390
1K0
16V100u
2387
ONLY USED WITH LC4.x SSB
*
VCEGO
+5V_INT_SW
B
C
D
E
+30V
F
G
H
6335
7366-4
LM324
7362
BC847BW
3391
10K
I317
14
I367
DC_PROT
3358
6364
2364
I392
3811
100R
2K2
3359
I363
BAS316
16V100n
I339
6366
5K6
I364
3364
I309
BAS316
RELAY_VOLTAGE
F335
7366-3 10
LM324
8
2K7
6365
BAS316
7391
BC857BW
I935
10K
3807
VCC-5V
+5V_STBY
4
11
+8V6
6325
BZX384-C6V8
I325
3325
470R
I390
9006
10K
3366
3370
9
I323
10K
3367
3369
F379
+T
470R
F325
4K7
+5V_INT_SW
F381
10K
3328
10K
POWER_GOOD
STANDBY
I327
7326
BC847BW
3326
I326
4K7
3327
TO
SSB
TO
SSB
TO
PLATFORM
SUPPLY
A
B
C
D
E
F
G
H
VSA_CONTROL
3104 313 6126.3
12345
VSAGO
VCEGO
6
7
8 9 10 11 12 13 14 15
SUPPLY_ON
G_15960_002.eps
060206
Page 62
Circuit Diagrams and PWB Layouts
62BJ3.0E PA 7.
Display Supply FHP: Preconditioner
231
AD3 AD3
DISPLAY SUPPLY: PRECONDITIONER
A
2600
S3J
6605
1000V
F601
1n0
1u0
2603
2605
RES
3609
470K
I650
3603
470K
I651
3604
470K
I637
6601
BZX384-C39
3605
3607
470K
220K
I647
RES
S3J
6606
100-230VAC2
3
6600
2601
F602
GBU8J
1000V
1n0
4M7
3602
I602
4M7
3601
4
1
2
2604
RES
RES
B
100-230VAC1
C
D
COLD GROUND
E
MEASURED DC-VOLTAGES
NORMAL . . .
F
STANDBY ( . . . )
G
10K
3654
I663
6654
BAS316
1K8
3656
H
I615
2654
3655
1K0
47u 16V
I617
I633
BC857BW
7654
16V
22K
3651
2656
100n
2655
2651
1u0
I
HOT GROUND
3104 313 6126.3
1234
45678910111213
F997
F996
5600
BS42228-02
16
1
I603
2
12R
3608
I610
3660
270R
I653
4
3606
100R
2612
1n0
I654
7609
BC869
614
I605
6608
SS14
50V
2602
2n2
BC369
7608
3662
RES
1R0
NFR25
3663
I631
1R0
NFR25
PRECONDITIONER
3661
270R
I652
3659
6651
I616
2653
BAT54 COL
220R
I620
50V
680p
6653
I621
3652
1M0
I618
I619
16V
3612
10n
50V
2K2
3666
2666
100R
SS14
6652
4n7
3623
1K0
BZX384-C8V2
CONTROL
MC33368P
3667
PRECONDITIONER
I634
I606
3610
3R3
50V
2613
1n0
3611
I611
I632
I649
6602
BZX384-C15
12
7650
VCC
2
CONTROL
RD
3
FB
4
COMP
5
MULT
9
LEB
6
CS
7
ZCDET
AGND PGND
8
10K
I664
3693
2K2
7656
BC847BW
10K
I666
I607
2614
2n2
2663
1u0
LINE
VREF
GATE
NC1
NC2
10
STW29NK50Z
I601
I655
50V
FC
I665
2690
7610
2677
16
1
11
13
14
15
3692
1n0
BZG05C18
2n2
I612
6660
I622
10K
BC847BW
6609
I635
6661
BYG22D
BYG22D
7655
3686
2611
I614
2W
0R27
2661
I623
2665
PDZ8.2-B
3K9
8K2
3615
1n0
3678
6611
FESF8JT
5601
50R
I630
2W
0R27
I639
3676
47K
3619
3613
I644
7601
BC847BW
50V
2672
470p
3620
3675
I641
4K7
3K3
I645
10K
2000V220p
I609
2W
0R27
MC34063AD
1R5
I656
3677
2608
100n
F600
400V220u
2617
2616
220u 400V
2R2
2R2
3621
3622
F604
7661
DCOL8
QRS
IS7
IPK
OSC
6
VCC
CIN_NEG5
47K
F609
3665
3616
270K
12K
50V
470p
470R
F610
I624
6643
7602
BC857BW
I646
2640
50V
1K0
3639
1n0
3640
REFERENCE
REGULATOR
3641
470R
G
BZX384-C18
I625
SWC 1
SWE 2
TIMC
GND 4
3668
1K0
NFR25H
6641
D
7640
BSH112
S
3
BAS316
F606
I604
50R
5612
2610
1n8
I608
15R
3614
32V
(0V)
I613
50V
2664
100u
47K
3617
I643
33K
3618
6666
I667
3690
I668
1n0
2691
3691
I642
2660
F605
I638
6663
470p
1V5 (0V)
7641
BC817-25W
3999
1K0
5660
220u
SS14
I626
F999
F998
1%
68K
3648
I671
1%
68K
3647
F608
I669
68K
36463645
I672
1% 1%
I640
6665
SS14
BIAS
25V
2662
1m0
1K0
3673
630V
10n
330K
I657
330K
I658
330K
16V
100n
16V
100n
2673
2676
3664
3669
10n 630V
220K
68K
630V
10n
NFR25H
3104
I662I648
3671
3643
220R
3642
220R
6640
SS14
2642
I627
630V
2675
2674
10n
I628
3683
6642
3684
SS14
3685
I629
2671
I636
2670
50V
1n0
5V
(0V)
68K
I670
1%
68K
3674
68K
3679
1%
I659
68K
3680
1% 1%
68K
3694
I660
3681
68K
1%
68K
3695
I661
3682
68K
1%
1%
3696
68K
1%
1K0
1%
10K
5 6 7 8 9 10111213
400V_HOT
SW25V_HOT
G_15960_003.eps
060206
A
B
C
D
E
F
G
H
I
2600 B3
2601 B2
2602 C6
2603 C3
2604 C2
2605 C3
2608 H8
2610 B7
2611 B8
2612 B5
2613 C6
2614 C6
2616 C9
2617 C9
2640 H8
2642 H11
2651 H3
2653 H5
2654 H1
2655 H3
2656 H2
2660 E10
2661 F8
2662 F11
2663 E6
2664 F7
2665 H8
2666 H4
2670 I12
2671 H12
2672 H8
2673 G12
2674 G12
2675 G11
2676 G12
2677 C7
2690 I7
2691 I7
3104 H12
3601 D2
3602 D2
3603 E3
3604 E3
3605 F3
3606 C5
3607 F3
3608 C5
3609 E3
3610 C6
3611 C6
3612 H4
3613 G8
3614 C7
3615 C8
3616 G9
3617 G7
3618 G7
3619 F8
3620 C8
3621 C8
3622 C9
3623 G6
3639 H8
3640 H9
3641 H9
3642 G11
3643 F11
3645 E13
3646 D13
3647 C13
3648 C13
3651 H3
3652 G5
3654 G1
3655 H1
3656 H1
3659 G5
3660 F5
3661 F5
3662 E6
3663 E6
3664 H12
3665 F9
3666 H4
3667 I6
3668 F10
3669 I12
3671 I12
3673 F12
3674 E13
3675 E8
3676 F8
3677 F8
3678 F8
3679 E13
3680 F13
3681 G13
3682 G13
3683 G12
3684 G12
3685 H12
3686 C7
3690 I7
3691 I7
3692 I7
3693 I6
3694 F13
3695 G13
3696 H13
3999 A10
5600 A5
5601 B8
5612 B7
5660 E10
6600 B2
6601 F3
6602 G6
6605 A3
6606 A2
6608 B6
6609 C7
6611 B8
6640 G11
6641 H10
6642 H11
6643 H9
6651 H5
6652 H4
6653 H5
6654 H1
6660 F7
6661 E7
6663 E10
6665 E11
6666 H7
7601 G8
7602 F8
7608 C6
7609 C5
7610 B7
7640 H10
7641 G10
7650 G6
7654 H2
7655 I7
7656 I6
7661 D8
F600 B10
F601 B3
F602 D2
F604 D10
F605 D10
F606 I10
F608 D11
F609 F9
F610 G9
F996 A10
F997 A10
F998 A11
F999 A11
I601 C6
I602 D2
I603 B4
I604 B7
I605 B5
I606 C6
I607 C6
I608 C7
I609 C8
I610 E5
I611 E6
I612 E7
I613 E7
I614 B8
I615 H1
I616 G5
I617 G2
I618 H4
I619 H4
I620 H5
I621 G4
I622 G7
I623 H8
I624 H9
I625 G10
I626 H10
I627 F12
I628 G12
I629 H11
I630 C8
I631 E5
I632 E6
I633 H1
I634 B6
I635 C7
I636 H12
I637 F3
I638 E10
I639 E8
I640 E11
I641 E8
I642 E10
I643 G7
I644 G8
I645 G8
I646 G8
I647 F3
I648 H12
I649 G6
I650 E3
I651 E3
I652 G5
I653 F5
I654 C5
I655 C7
I656 E8
I657 G12
I658 H12
I659 F13
I660 F13
I661 G13
I662 H12
I663 G1
I664 I6
I665 I7
I666 I6
I667 I7
I668 I7
I669 D13
I670 E13
I671 C13
I672 D13
Page 63
Circuit Diagrams and PWB Layouts
63BJ3.0E PA 7.
Display Supply FHP: LLC Supply
U13 E9
U14 E6
0204 H9
1000 G6
1001 G7
1002 H14
1006 G8
1008 G9
1009 G8
1082 F11
1083 F11
1084 G10
1M02 H14
2000 G10
2005 C1
2006 C2
2007 F1
2008 F4
2009 E5
2010 F5
2011 E9
2012 D9
2013 C9
2014 F6
2015 F5
2016 E6
2017 C9
2018 C1
2020 C11
2022 E11
2023 E14
2024 E12
2025 D13
2026 F3
2027 E2
2028 C11
2029 G11
2030 F12
2031 F15
2032 D2
2033 D2
2034 E2
2035 F1
2036 D2
2037 E2
2038 C14
2039 D7
2040 D7
2041 D8
2042 D9
2043 D13
2044 D11
2045 F11
2046 C8
2047 E1
2048 F6
2049 C2
2052 B3
2053 B5
2060 F6
2062 A4
2070 E7
2071 C7
2090 B2
2290 H10
2291 G11
2292 H12
2293 H11
2294 H12
2295 G11
2296 H11
3001 E6
3002 C6
3003 C1
3004 D1
3005 C2
3006 D2
3007 E2
3008 E2
3009 F1
3010 E4
3011 E5
3012 F3
3013 F4
3014 C7
3015 C7
3016 C7
3017 D7
3018 D7
3019 E7
3020 F5
3021 F5
3022 C12
3023 E12
3024 E13
3027 F3
3028 F13
3029 E13
3030 F12
3031 F13
3032 F14
3033 D8
3034 F13
3037 C13
3038 C13
3039 C14
3040 E13
3041 F13
3042 D1
3043 D1
3044 D1
3045 E2
3046 E1
3047 E2
3048 D1
3049 D3
3050 F8
3052 E12
3054 D6
3056 E4
3057 D12
3059 D8
3060 C8
3061 D8
3064 F3
3065 E4
3066 F2
3067 F5
3069 E1
3070 E5
3071 F2
3072 B13
3073 D7
3075 B8
3076 C8
3077 E8
3078 E8
3080 C12
3081 A43025 F13
3082 B5
3089 A4
3090 A2
3091 B2
3092 A3
3093 B2
3094 A3
3095 A5
3096 A5
3097 B5
3098 F15
3100 F14
3127 D12
3129 D13
3290 C12
3291 C12
3292 H10
3293 C6
3294 E6
5001 C6
5002 C9
5004 E9
5290 G10
5291 H12
5292 H12
5293 G12
6002 A4
6003 A3
6004 D5
6005 D5
6006 D7
6007 C7
6008 D7
6009 F4
6010 F4
6011 F4
6012 B11
6013 F11
6014 F11
6018 C8
6019 E7
6021 F11
6023 E13
6027 C7
6028 E7
6029 B11
6030 B11
6031 D2
6032 D2
6033 E1
6034 D2
6035 D2
6042 C13
6044 C11
6045 F11
6075 B8
6077 D8
6095 A5
6291 H11
6292 H11
7001 B3
7002 B9
7003 A9
7005 C8
7006 D8
7007 C7
7008 E7
7009 E4
7010 E12
7011 F13
7012 D7
7013 A3
7014 F7
7015 C7
7017 F3
7018 F3
7020 C8
7021 E8
7022 C9
7023 E9
123456789
7042 C13
7090 A2
7091 A3
7092 A3
7093 A4
9007 A3
F001 A6
F002 C7
F003 C5
F004 C5
F005 C9
F006 D8
F007 F3
F008 D5
F009 D5
F010 A4
F014 F12
F016 C13
F017 C11
F040 B14
F290 H12
F292 H12
F293 G12
F294 H12
F295 H12
F297 H12
F298 H12
I001 A2
I002 A3
I003 A5
I004 A5
I005 B2
I006 B4
I007 C2
I008 C2
I009 C2
I010 D2
I011 D1
I012 D4
I013 D2
I014 E1
I015 D2
I016 E2
I017 E2
I018 E2
I019 E1
I020 E3F296 G13
I021 E1
I022 F2
I023 F3
I024 F4
I025 F2
I026 F2
I027 C2
I028 G3
I029 G3
I030 E5
I031 E4
I032 E4
I033 F4
I034 F5
I035 F5
I036 F5
I037 C7
I038 C8
I039 D6
I040 B12
I041 B8
I042 C7
I043 B7
I044 B8
I045 C6
I046 C7
I047 D7
I048 D7
I049 D8
I050 D8
I051 E7
I052 D7
I053 E7
I054 E8
I055 E8
I056 A2
I057 D8
I058 C7
I059 E8
I060 A10
I061 A10
I062 B10
I063 B10
I064 B8
I065 C9
I066 C8
I067 C8
I068 C12
I069 E13
I070 B11
I071 F10
I072 D11
I073 F10
I074 F11
I075 C13
I076 E7
I077 F11
I078 C14
I079 C13
I080 G10
I081 F7
I082 F7
I083 F8
I084 F9
I085 E12
I086 G11
I087 H11
I088 E13
I089 E12
I090 E13
I091 E14
I092 F13
I093 F13
I094 F12
I095 H6
I096 H7
I097 D9
I098 H8
I282 D1
I283 F14
I284 F15
I286 A4
I287 A4
I288 B5
I289 A5
I290 G11
I291 H11
I292 H10
I293 H12
I294 D13
I295 D6
I296 F6
I297 E6
I298 C7
I299 B11
I300 B11
I901 E15
10 11 12 13 14 15
DISPLAY SUPPLY: LLC SUPPLY
AD4 AD4
2047
GND4
25V_HOT
BC857BW
7090
VS-CONTROLLER
50V
2049
2018
100p
3003
100K
GND4
50V
15K
100p
2005
3004
GND4
3042
I282
100n
3069
I019
2035
3043
470R
3046
VR25
4K7
470R
5M6
50V
1n0
3044
1K0
I014
BZX384-C47
3009
GND4
3048
I021
6033
4K7
I011
47p
1K0
2007
2033
BZX384-C5V6
3045
1K0
2034
1000V
I026
I009
100n
2032
6031
I017
3008
100p
2006
1n0
16V
100n
I015
1K0
16V
2090
50V
50V
50V
22n
BAS316
BAS316
BZX384-C5V6
2037
47p
3047
150K
3006
6034
6035
25V (0V5)
I007
I008
6032
3007
4K7
I025
3091
3090
100R
4u7 35V
1K0
10K
2036
25V
(0V5)
3093
I005
3005
27K
50V
22n
I010
I016
2027
I022
3066
3071
47K
3094
1K0
3092
I001
1K0
7092
BC807-25W
24V
(0V)
I056
7091
BC857BW
1K0
2052
I027
I013
3049
12K
SOFTSTART
CONTROL
I018
16V
15n
BC857BW
7017
I023
10K
3064
F007
47K
2026
3027
I002
6003
BZX384-C33
35V
1m0
CONTROL
I020
3012
10K
7018
BC847BW
50V
2n2
I028
9007
BCP56
9
1
2
3
16
6
11
4K7
I029
7013
7001
MC34067P
8
7
EN|UA
OSCC
OSCR
OSCCC
OS
EAO
Ip
In
SOST
I024
2008
MEASURED DC-VOLTAGES
NORMAL . .
STANDBY ( . . . )
3104 313 6126.3
12
BIAS SUPPLY
24V3
(0V5)
F010
10K
3089
3081
I286
1K5
50V
2062
2u2
GND4
I006
15
VCC
VREF
OA
OB
PGND
FI
GND
I012
4
3010
15K
1K0
3056
330R
3065
I031
CURRENT
PROTECTION
6011
BAS316
50V
10K
3013
10n
453
7093
LM317T
IN OUT
32
ADJ
1
16V4
I003
I287
6002
BAS316
5
14
12
13
10
F008
7009
BC847BW
2009
I032
I033
10n
6009
BAS316
6010
BAS316
18V6 (0V)
I004
2015
I035
2010
3095
3096
3097
I030
2u2 50V
50V
50V
10n
BAS316
470R
6095
5K6
3082
I288
1K5
820R
F003
F004
6005
6004
BAS316
3011
3070
560R3067
I034
I036
3020
56K
15K
HOT GROUND
10K
I289
F009
3021
GND4
2053
4
3
2
BAS316
GND4
6R8
PR02
F001
4V5 (4V2)
2
2
2290
3292
560R
1084
3
5290
1
I060
I061
I062
I063
6030
BZX384-C3V9
6044
STTH2003CFP
I072
I071
T2,5A/250V
I073
T2,5A/250V
19370
F1A/250V
I080
4
BD15403
2
470p 50V
I292
470p
2291
2293
LATCH
I070
1
1082
19382
1083
19382
50V
I300
BZX384-C3V9
2028
220p
3
2
2044
220p
I077
I074
I086
I087
+5V_INT_SW
6029
200V
200V
2022
1m0
BYG22D
6013
6045
BYV28-200
2045
220p
BYG22D
6014
6021
BYV28-200
2029
220p
2295
470p
2296
470p
I299
2020
50V
200V
200V
6291
6292
6012
BZX384-C4V7
82V (4V)
3m3 100V
F017
I290
I291
STPS8H100FP
STPS8H100FP
I293
2292
2294
3057
100R
3030
33V (0V)
35V(4V)
F040
3072
4K7
I040
F016
10K
3037
3038
I294
1u0
3040
I079
I090
TS2431
33K
2025
100K
7011
100K
50V
2038
1n0
I078
VRS
FEEDBACK
12K
3029
3031
1%
10K
1
K
R2
A
3
3039
1M0
I091
I283
3080
330R
3022
330R
I068
3291
3290
330R
330R
3127
I085
1
K
A
3
18K
3023
7010
TS2431
R2
I094
3052
I089
2024
47K
3n3
50V
2V5 (0V)
F014
16V
2030
100n
I075
7042
PMST5401
6042
BZX384-C47
32V (0V)
2043
50V 1u0
82K
82K
3129
3024
3025
3034
68K
6023
BAS316
3028
1K8
220R
50V
I088
7K5
1%
I092
3041
I069
68K
I093
Vs_unsw
70-90V
VS
2023
3100
1K0
1%
VTUN
100n
3032
I284
3098
1K0
10K
1%
10n
2031
+30V
VB
VSND_POS
F293
5293
22u
F297
1m0
5291
22u
1m0
5292
22u
F298
F294
F292
F290
F295
VSND_POS
GND_SND
VSND_NEG
VSND_NEG
ONLY USED WHEN NO PLATFORM SUPPLY
F296
1M02
1002
7
7
6
6
5
4
3
2
1
B7B-PH-K
TO
AUDIO
5
4
3
2
1
*
22u 35V
5001
S13932-04
3054
2016
2060
2048
SW25V_HOT
400V_HOT
I064
I041
100p
3060
220K
3059
56K
GND4
3077
3078
3075
3076
6075
BZG03-C270
1M0
STP15NK50ZFP
7005
100K
I066
3061
6077
BZG03-C270
7006
1M0
100K
GND3
I083
EMC HOLE
1006
18K
7023
BCV27
7022
BCV27
2042
330p
U13
I084
HIGH SIDE
I042
3002
470R
3293
560R
6007
BAS316
I058
I298
3016
470R
2071
1n0
I045
6
7
9
LOW SIDE
10
I295
470R
I039
3294
560R
470R
3001
50V2u2
I297
U14
2014
2000V
1n5
220n
I296
220n
EMC HOLE
1000
I095
GND4
I076
BAS316
2070
1n0
GND4
6008
3019
470R
I081
7012
BC847BW
3073
I053
BC807-25W
7014
3014
33R
6027
BAS316
7007
DRIVE
I048
1M0
2039
GND4
I052
6028
BAS316
7008
BC327-25
BAS316
I082
EMC HOLE
1001
I096
I043
6006
BAS316
2n2
3017
33R
6019
DRIVE
F002
I046
I037
7015
BC327-25
GND4
I051
3018
3015
I047
2040
6018
BAS316
10R
180K
27p
I057
10R
I059
I054
EMC HOLE
I098
2046
33p
3033
1009
GND4
7021
BC517
I044
I038
7020
BC517
BC807-25W
I067
I050
2041
F006
I055
3050
3R9
NFR25
I049
COLD GROUND
TCET1102(G)
TCET1102(G)
2000V
2013
330p
2017
F005
2000V
2012
330p
STP15NK50ZFP
2011
EMC HOLE
1008
HEATSINK
0204
123
4
7003
3
4
7002
3
1600V
15n
I065
I097
BS42315-02
1600V
15n
BS42315-02
5002
3
6
5004
3
6
470p
2000
250V
1
1
16
14
12
11
10
9
16
14
12
11
10
9
10n 50V
6 7 8 9 101112131415
I901
VRS
1V2 (0V5)
DC_PROT
G_15960_004.eps
A
B
C
D
E
F
G
H
060206
Page 64
Circuit Diagrams and PWB Layouts
64BJ3.0E PA 7.
Display Supply FHP: AUX Supply
1
DISPLAY SUPPLY: AUX SUPPLY
AD5 AD5
A
VB
B
3055
I158
C
2054
I675
2056
D
I159
6054
E
BAS321
POK
VCC_GO
F
G
H
47K
3085
I225
0V5 (0V)
3087
47K
3104 313 6126.3
10K
SFR16
50V
220p
220p
50V
2113
6055
BAS321
SEQUENCE
DISCHARGE
+5V_INT_SW
3084
I207
7058
BC847BW
123
6111
10K
6086
BAS316
25V
220u
70-90V
F110
1110
I105
2K7
3106
I163
3107
I164
2K7
1K0
2112
3112
I115
50V
2111
BAS321
220p
I113
2114
220n
6112
BAS321
3086
47K
0V (0V)
I203
47K
3088
2059
2345678910111213
1260
BAS316
I246
I135
BSH114
330K
BZX384-C18
2205
F265
7200
35V
4u7
VCC-5V
6132
3143
I212
2210
5260
100u
7260
Φ
REGULATOR
GND
13
14
3119
75K 1%
1%
3122
75K
50V
I127
2K2
2126
220R
6
7
8
10K
2219
10p
15
I169
I674
OUTVCC
COMP
SYNC
INH
I242
3137
3138
6123
BAS316
3124
7K5
3125
7K5
16V
100n
3149
4R7
NFR25
35V(4V)
SS
1%
75K
1%
75K
1%
1%
2
3
11
18
17
10
3265
I120
I126
I673
BZX384-C18
I141
I140
2122
3123
3128
I216
I219
I130
3264
560R
I133
1K0
2264
470n
2266
I247
6201
BZX384-C3V9
+30V
3133
100R
63V
1u0
I174
12K
18K
3130
I128
7130
1
TS2431
K
R
A
33K
3
VCC-SUPPLY
I236
7217
PSMN070
D
G
S
6216
3217
10K
2217
330n
16V
6269
BYG10
3218
I245
6270
BYG10
2265
4u7
BZX384-C4V7
I123
10K
1%1K0
3101
2
2218
I209
I240
0R051
6268
2271
330p
2267
6114
3147
3131
1%
I132
TCET1102(G)
1600V
3n3
I148
33R
3220
I176
7220
3
1
4
5
7
SS14
100p
100p
I152
1%
10K
2133
5220
BS29238-01
6267
3230
3079
50V22u
F111
I125
SB540
330R
330R
I138
2268
3231
3134
I134
I136
330R
I119
7134
BC847BW
3136
47K
14
13
12
11
8
220n
330R
2274
5268
100u
3267
3063
1K0
10n
I129
14
2
I233
STPS20L40CFP
I238
2229
470u
9013
9012
I175
12V4 (OV)
16V2m2
2K7
2269
3269
1K0
1K0
3268
VRA
VSA_CONTROL
I902
6207
SB540
6208
SS34
3222 3221
I104
150R
I177
150R
+12VL
RELAY_VOLTAGE
+9V_STBY
VTUN
+5V_STBY
VCC-5V
+8V6
F124
F122
F115
F264
9008
+12V
9000
9001
F380
1M10
B6B-PH-K
I137
1M46
I111
F382
B11B-PH-K
1M08
B4B-PH-K
VA
VS
F102
F130
2273
F131
I122
3135
0V5
(0V)
47K
F126
F125
2225
I235
25V
2m2
11V4 (0V)
3235
3224
470R
I230
I231
5225
4u7
1%
12K
2226
I237
2V5 (0V)
3225
1%
10K
2230
3229
560R
2223
100p
50V
3
6225
2222
100p
50V
5229
220u
16V
I170
6230
SS34
2232
100p
50V
100V
2121
2200u
F127
F128
I234
2227
100p
50V
3226
10K
16V100n
TS2431
R
2
I171
1%1K0
3210
7230
L4940P
13
2234
COM
2
1u0
I243
16V
470u
F119
F120
1
7227
K
A
3
F116
OUTIN
F118
F129
F133
F134
3228
150R
F135
+12V
F136
VCC-5V
STANDBY
F140
F139
F138
16V
2236
2237
10u
ONLY USED WHEN
*
NO PLATFORM SUPPLY
F114
16V
MEASURED DC-VOLTAGES
1u0
2231
2235
47u
RES
100n
F121
F123
F132
F106
B9B-PH-K
3236
150R
10u 16V
+8V6
NORMAL . . .
STANDBY (. . . )
VCC-5V
0323
B10P-VH
1007
3237
I103
7121
25V
47u
3120
I124
1
K
A
3
+12V-SUPPLY
L4973V3.3
7
8
16
V5.1
12
VFB
1
OSC
9
BOOT
456
6203
BZX384-C3V9
1K8
I121
3121
2123
47K
3n3
TS2431
2V5 (0V)
R
2
3126
I131
VA
3132
Adj.
10K
3262
220n
2262
I173
50V
2261
1m0
10K
3263
I139
I142
2270
2n2
2260
470p
2263
S1D
1M0
3150
4K7
11V5(0V7)
I167
3
4
5
120K
3208
2K7
7212
TEA1507P
SMPS CONTROL
CONTROL
CTRL
DEM
ISENSE
I217
6213
BAS316
I223
33K
3213
I168
GND
2
3215
Φ
1
VCC
DRIVER
DRAIN
1K0
3216
270K
3209
2K7
HVS
3219
I224
3212
2215
470p
I166
3206
3207
2K7
2K7
I215
1K0
6062
16V
47u
2212
BZX384-C18
I143
6211
BYG22D
2051
16V
220n
470p
2211
I214
I218
3214
I221
10n
12 13
T5A/250V
I101
3108
2K7
I109
50V
1n0
16V
100n
I160
19382
3
4
5
I162
3109
2K7
7112
TEA1507P
CTRL
DEM
ISENSE
3113
470K
3058
3083
7059
PMST5550
7110
PMST5401
I147
Φ
SMPS CONTROL
CONTROL
DRIVER
GND
2
I116
3114
I114
1M0
I161
250V
2058
1u0
1K0
3062
I204
1
VCC
DRAIN
560K
HVS
BAS316
1n5
1K0
2061
3110
6113
2055
3051
1K0
8K2
50V
0V (0V)
I202
16V
100n
F260
+30V
MP200
39812
FROM
PROTECTION
+5V_INT_SW
7120
I102
7117
PSMN035
I106
6117
3116
1K0
220K
I110
BZX384-C18
3117
10K
2117
330n
16V
6
7
8
I112
I117
3115
1000V
2118
1n0
I248
3118
0R051
I118
4
3
63V (0V)
I107
6120
TCET1102(G)
21
34
BYW29FP-200
5121
BD21232
I108
6133
1
10K
3111
2
I249
Vs_unsw
70-90V
I165
2057
1n5
I211
6206
6204
+30V
BZX384-C5V6
BAS316
VA
6050
I200
99V
(0V)
2050
BZX384-C18
PSMN063
1
6061
81V
(0V)
50V
22n
7052
BZX384-C18
2
3
7050
PSMN035
I201
I244
3053
2214
2213
VS
10R
+T
3n3
3n3
F113
600V
232266293
2021
6142
1200
T2A/250V
19382
S3J
81V
(0V)
7202
BSH112
I220
6202
BAS316
16V
I222
100V3m3
2203
100n
3203
100R
3204
(0V)
3201
100K
I210
3200
0V
I213
3202
100R
100R
I208
6205
3205
150K
4567891011
1
2
3
4
5
6
7
8
9
150R
1
2
3
4
5
6
11
10
9
8
7
6
5
4
3
2
1
1
2
3
4
10
VS
9
8
7
NC
6
5
4
3
VCC
2
NC
1
VA
TO
AMBI LIGHT
TO
SSB
TO
AMBI LIGHT
TO
CN23
PDP
(DISPLAY)
G_15960_005.eps
060206
3213 I7
3214 H7
3215 I7
3216 H7
3217 H8
3218 I9
3219 I7
3220 I9
3221 B11
3222 C11
3224 G11
3225 H11
3226 G11
3228 F12
3229 F10
3230 C9
3231 C10
3235 I10
3236 H13
3237 H13
3262 A6
3263 A6
3264 A9
3265 B8
3267 B10
3268 B10
3269 A10
5121 C5
5220 G9
5225 G11
5229 H10
5260 A6
5268 A10
6050 H3
6054 E1
6055 E1
6061 I3
6062 H6
6086 I1
6111 D1
6112 E1
6113 D2
6114 B9
6117 C3
6120 D4
6123 D8
6132 B6
6133 B5
6142 G4
6201 B8
6202 I4
6203 B7
6204 F4
6205 I5
6206 F5
6207 A11
6208 A11
6211 I6
6213 H7
6216 H8
6225 G10
6230 I10
6267 B9
6268 A9
6269 H8
6270 I8
7050 G3
7052 I3
7058 I1
7059 I2
7110 C2
7112 C2
7117 C3
7120 B5
7121 D7
7130 E8
7134 E10
7200 G6
7202 H5
7212 G7
7217 G9
7220 F9
7227 H12
7230 I12
7260 A8
9000 A13
9001 A13
9008 B12
9012 A11
9013 A11
F102 D12
F106 E13
F110 A1
F111 D9
F113 G4
F114 I12
F115 A12
F116 I12
F118 E12
F119 E12
F120 F12
F121 E13
F122 B12
F123 E13
F124 B12
F125 E11
F126 E11
F127 E11
F128 E11
F129 E12
F130 D12
F131 D12
F132 E13
F133 E12
F134 F12
F135 G12
F136 G12
F138 H12
F139 H12
F140 G12
F260 A5
F264 A12
F265 A6
F380 B13
F382 B13
I101 B2
I102 B3
I103 A7
I104 A11
I105 B1
I106 C3
I107 C4
I108 D5
I109 D2
I110 D3
I111 B13
I112 D3
I113 D1
I114 E2
I115 D2
I116 D2
I117 D3
I118 D4
I119 D10
I120 D8
I121 D7
I122 E10
I123 D9
I124 D7
I125 D9
I126 D8
I127 D8
I128 D8
I129 E10
I130 A9
I131 E7
I132 E9
I133 B9
I134 B10
I135 C6
I136 B10
I137 B13
I138 A10
I139 A7
I140 B8
I141 A8
I142 A6
I143 I6
I147 C2
I148 H9
I152 C9
I158 C1
I159 E1
I160 E2
I161 G2
I162 C2
I163 C2
I164 C1
I165 E3
I166 F6
I167 F7
I168 F7
I169 H8
I170 H10
I171 H11
I173 A6
I174 D9
I175 A10
I176 B9
I177 C11
I200 G3
I201 H3
I202 I3
I203 I1
I204 I2
I207 I1
I208 H5
I209 H9
I210 G5
I211 F5
I212 F6
I213 G5
I214 G7
I215 G6
I216 G8
I217 H7
I218 H7
I219 H8
I220 H4
I221 H7
I222 I4
I223 I7
I224 I7
I225 I1
I230 F11
I231 F11
I233 F10
I234 G11
I235 G11
I236 G9
I237 H11
I238 G10
I240 H9
I242 B8
I243 I11
I244 I3
I245 I8
I246 B6
I247 B9
I248 C4
I249 C5
I673 G8
I674 H8
I675 C1
I902 C10
0323 E13
1007 F13
1110 B1
1200 G5
1260 A5
1M08 C13
1M10 A13
1M46 B13
2021 I4
2050 H3
2051 H6
2054 C1
A
2055 E2
2056 D1
2057 E3
2058 G2
2059 I1
2061 I2
2111 D1
2112 D1
2113 E1
2114 E2
2117 D3
2118 C4
2121 E11
2122 D8
2123 D7
2126 E8
B
2133 E9
2203 I4
2205 I5
2210 I6
2211 I6
2212 H6
2213 I4
2214 I4
2215 I6
2217 H8
2218 G9
2219 I8
C
2222 G10
2223 F10
2225 H10
2226 G11
2227 G11
2229 H10
2230 I11
2231 I12
2232 I10
2234 I11
2235 I12
2236 H12
2237 H12
D
2260 B6
2261 A6
2262 A6
2263 B6
2264 B8
2265 A9
2266 B9
2267 B9
2268 B10
2269 A10
2270 B7
2271 A9
2273 D12
E
2274 D10
3051 G2
3053 H4
3055 B1
3058 G2
3062 H2
3063 D10
3079 D9
3083 H2
3084 I1
3085 I1
3086 I2
F
3087 I1
3088 I1
3101 D9
3106 C1
3107 C1
3108 C2
3109 C2
3110 C2
3111 C5
3112 D1
3113 D2
3114 D2
3115 D3
G
3116 D3
3117 D3
3118 C4
3119 D7
3120 D7
3121 D7
3122 D7
3123 D8
3124 D8
3125 E8
3126 E7
3128 E8
3130 D8
H
3131 D9
3132 E7
3133 C8
3134 D10
3135 E10
3136 E10
3137 D8
3138 D8
3143 E6
3147 D9
3149 G8
3150 D7
3200 G5
3201 H5
I
3202 H5
3203 I4
3204 I5
3205 I5
3206 F6
3207 F7
3208 F7
3209 F7
3210 H11
3212 H6
Page 65
Circuit Diagrams and PWB Layouts
Layout Display Supply FHP (Top Side)
3104 313 6126.3
65BJ3.0E PA 7.
0201 B4
2229 E6
3006 A4
3132 E5
3383 G6
5001 B4
6513 F3
6600 E3
6601 A2
6602 A3
6605 D3
6606 E3
6608 B2
6609 B2
6611 C3
6640 A2
6641 A2
6642 A2
6643 A2
6651 A3
6652 A2
6653 A2
6654 B3
6660 A3
6661 A3
6663 A2
6665 A1
6666 A2
7001 A4
7002 D5
7003 E5
7004 G6
7005 D5
7006 B5
7007 C4
7008 B4
7009 A3
7010 E5
7011 E5
7012 B3
7013 B4
7014 B4
7015 C4
7017 A4
7018 A4
7020 C4
7021 B4
7022 C4
7023 B4
7042 D8
7050 D8
7052 D8
7058 D8
7059 D8
7090 A3
7091 B3
7092 B4
7093 A3
7110 D6
7112 D5
7117 D6
7120 D5
7121 D6
7130 D6
7134 D5
7200 F6
7202 F5
7212 G6
7217 F6
7220 E8
7227 E8
7230 E8
7260 G8
7304 G7
7308 G7
7326 F8
7327 G8
7330 G7
7332 G6
7333 G6
7341 G6
7348 G6
7351 G6
7352 G6
7362 G5
7363 G4
7366 G6
7375 G6
7376 G6
7391 G6
7460 F5
7461 G5
7462 G3
7465 F5
7470 E5
7500 G4
7501 G4
7502 G5
7540 F5
7601 B2
7602 B2
7608 B2
7609 B2
7610 B3
7640 A2
7641 A2
7650 A2
7654 A3
7655 B3
7656 B3
7661 A2
9000 G7
9001 G8
9003 F4
9004 G4
9005 G6
9006 G5
9007 B4
9008 G7
9009 G6
9010 G6
9011 G6
9012 F8
9013 F8
9020 G5
9021 G6
9022 G6
9023 F3
9025 F3
9028 G6
9029 G5
9030 D4
9031 C3
9401 G5
G_15960_006.eps
060206
0203 D3
0204 C7
0308 G1
0309 G1
0311 G3
0323 F8
1002 A8
1004 F8
1005 G4
1007 G4
1082 C8
1083 C8
1084 A8
1110 D7
1200 E6
1260 F8
1400 F1
1402 F1
1406 E2
1450 F4
1460 E4
1J02 B8
1M02 B8
1M03 G5
1M08 A8
1M10 A8
1M46 G8
1P02 C1
1P10 G2
1P22 G3
2000 A5
2001 E2
2002 G1
2003 E2
2004 E2
2005 A4
2006 A4
2007 A5
2008 A4
2009 A4
2010 A3
2011 B5
2012 A5
2013 C5
2014 B5
2015 A4
2016 A4
2017 C5
2018 A4
2019 E1
2020 B8
2021 D8
2022 B8
2023 E5
2024 E5
2025 E8
2026 A4
2027 A4
2028 C8
2029 C8
2030 E5
2031 E5
2032 A4
2033 A4
2034 B5
2035 A5
2036 A4
2037 B5
2038 D8
2039 B3
2040 B3
2041 B3
2042 B4
2043 D8
2044 C8
2045 C8
2046 B4
2047 A4
2048 A5
2049 A4
2050 E8
2051 F6
2052 B4
2053 A4
2054 D8
2055 D8
2056 D8
2057 D8
2058 C8
2059 D8
2060 A5
2061 D8
2062 A4
2070 B4
2071 B4
2090 B4
2111 D5
2112 D5
2113 D5
2114 D5
2117 D6
2118 D6
2121 C8
2122 E6
2123 D5
2126 D6
2133 E5
2203 F5
2205 F5
2210 F6
2211 F6
2212 F6
2213 D8
2214 D8
2215 F6
2217 F6
2218 E6
2219 F5
2222 F8
2223 F8
2225 F8
2226 E8
2227 E8
2230 E6
2231 E7
2232 E6
2234 E8
2235 E8
2236 E8
2237 E8
2260 G8
2261 G8
2262 G8
2263 G8
2264 G8
2265 G8
2266 G8
2267 G8
2268 G8
2269 F8
2270 G8
2271 G8
2273 G8
2274 D6
2290 B8
2291 B8
2292 A8
2293 C8
2294 A8
2295 B8
2296 C8
2304 G7
2305 G7
2306 G7
2307 G2
2310 G6
2311 G6
2322 G7
2324 G7
2343 G6
2350 G7
2352 G6
2364 G6
2366 G7
2376 G6
2377 G6
2381 G6
2385 G6
2386 G4
2387 G4
2388 G6
2397 G4
2398 G7
2400 G1
2401 E1
2402 G1
2403 E1
2404 F2
2405 E1
2406 E2
2407 D1
2408 E2
2465 E5
2501 F5
2502 F5
2503 F4
2504 G4
2505 B3
2506 F5
2507 F5
2508 F5
2509 F5
2510 F5
2511 G4
2512 G4
2513 G4
2514 G3
2532 G4
2533 G4
2534 G5
2540 G5
2541 G5
2542 F5
2600 E2
2601 D2
2602 B2
2603 B1
2604 B1
2605 C1
2608 A2
2610 C2
2611 D2
2612 B2
2613 B2
2614 B2
2616 D4
2617 C4
2640 A2
2642 A2
2651 A2
2653 A2
2654 B2
2655 A3
2656 B3
2660 A2
2661 A1
2662 A3
2663 A2
2664 A2
2665 B3
2666 A2
2670 A3
2671 A3
2672 A2
2673 B2
2674 B2
2675 B2
2676 B2
2677 B2
2690 B3
2691 B3
3001 B4
3002 B4
3003 A4
3004 A4
3005 A4
3007 A4
3008 A5
3009 A5
3010 A4
3011 A4
3012 A4
3013 A4
3014 B4
3015 C4
3016 B4
3017 B4
3018 B4
3019 B4
3020 A3
3021 B5
3022 E5
3023 E5
3024 D8
3025 E5
3026 G4
3027 A4
3028 E5
3029 E5
3030 E5
3031 E5
3032 E5
3033 B3
3034 E5
3035 F4
3036 D1
3037 D8
3038 D8
3039 D8
3040 E5
3041 E5
3042 A4
3043 A4
3044 A4
3045 A4
3046 A5
3047 A4
3048 A4
3049 A3
3050 B5
3051 D8
3052 D8
3053 D8
3054 B3
3055 C8
3056 A3
3057 E5
3058 D8
3059 B4
3060 C3
3061 B4
3062 D8
3063 D6
3064 A4
3065 A4
3066 A4
3067 A4
3068 G5
3069 A4
3070 A4
3071 A4
3072 D8
3073 B3
3074 G6
3075 D5
3076 C4
3077 A5
3078 B3
3079 D6
3080 E5
3081 B4
3082 B3
3083 D8
3084 D8
3085 D8
3086 D8
3087 D8
3088 D8
3089 A4
3090 A3
3091 B3
3092 A3
3093 B3
3094 A3
3095 A4
3096 A4
3097 A4
3098 E5
3100 E5
3101 D6
3102 G7
3103 G7
3104 A3
3106 D6
3107 D6
3108 D6
3109 D6
3110 D6
3111 E5
3112 D5
3113 D5
3114 D5
3115 D5
3116 D6
3117 D6
3118 D7
3119 E5
3120 D5
3121 D5
3122 E5
3123 E6
3124 D6
3125 D6
3126 E6
3127 D8
3128 E6
3129 D8
3130 D5
3131 D6
3133 E5
3134 D6
3135 D5
3136 D5
3137 E6
3138 E6
3143 E6
3147 D6
3149 F5
3150 D5
3200 F5
3201 F6
3202 F6
3203 G6
3204 F5
3205 F5
3206 F5
3207 F5
3208 F5
3209 F5
3210 E8
3212 F6
3213 F6
3214 F6
3215 F6
3216 F6
3217 F6
3218 F6
3219 F5
3220 G6
3221 A8
3222 A8
3224 E8
3225 E8
3226 E8
3228 E8
3229 E8
3230 D5
3231 D5
3235 E7
3236 F8
3237 F8
3262 G8
3263 G8
3264 G8
3265 G8
3267 G8
3268 G8
3269 G7
3290 E5
3291 E5
3292 B8
3293 C4
3294 B4
3300 E6
3301 E6
3304 G7
3306 G7
3307 G7
3308 G6
3310 F8
3311 F8
3312 G7
3313 G7
3314 G7
3315 G6
3316 G6
3317 G7
3318 G6
3320 G7
3321 G7
3322 G7
3323 G7
3324 G7
3325 F7
3326 G7
3327 F7
3328 G8
3332 G7
3333 G7
3334 G7
3335 G7
3338 G6
3339 G6
3340 G7
3341 G6
3342 G6
3343 G6
3344 G6
3345 G6
3346 G6
3347 G6
3348 G6
3349 G7
3350 G7
3351 G7
3352 G6
3353 G6
3354 G6
3355 G5
3356 G4
3357 G5
3358 G6
3359 G6
3360 G5
3361 G5
3362 G4
3363 G5
3364 G6
3365 G5
3366 G7
3367 G6
3369 G6
3370 F7
3371 G6
3372 G6
3373 G6
3374 G6
3376 G6
3377 G6
3378 G5
3380 G6
3381 G6
3384 G6
3386 G4
3389 G7
3390 G6
3391 G6
3392 G4
3393 G5
3394 G5
3395 G4
3396 G4
3397 G6
3398 G6
3399 G6
3400 F2
3401 G1
3402 E2
3404 E1
3450 E4
3451 E4
3452 C1
3460 E5
3461 E5
3463 F5
3465 F5
3467 F5
3469 E5
3470 F5
3471 G5
3472 G5
3473 G5
3501 G4
3502 G4
3503 G5
3504 G5
3505 F5
3506 E4
3507 F4
3508 D4
3509 D4
3510 F3
3511 F3
3512 F3
3513 G3
3514 G3
3515 F5
3516 F5
3517 B3
3601 A5
3602 A5
3603 A2
3604 A2
3605 A2
3606 B2
3607 A2
3608 B2
3609 A2
3610 B2
3611 B2
3612 A2
3613 B2
3614 C2
3615 C2
3616 B2
3617 A2
3618 A2
3619 B2
3620 C2
3621 C2
3622 C2
3623 A3
3639 A2
3640 A2
3641 A2
3642 A2
3643 A2
3645 B2
3646 B2
3647 B2
3648 B2
3651 A2
3652 B2
3654 B2
3655 A3
3656 B2
3659 A2
3660 A2
3661 A2
3662 A2
3663 A2
3664 A3
3665 B2
3666 A2
3667 A2
3668 B2
3669 A3
3671 A3
3673 B2
3674 B2
3675 A1
3676 A1
3677 A1
3678 A1
3679 B2
3680 B2
3681 B2
3682 B2
3683 B2
3684 B2
3685 B2
3686 B2
3690 B3
3691 B3
3692 B3
3693 A2
3694 B2
3695 B2
3696 B2
3806 G6
3807 G6
3808 G6
3809 G6
3811 G6
3999 A7
5002 A5
5004 C5
5005 E1
5121 D6
5220 E7
5225 E8
5229 E8
5260 G8
5268 G8
5290 A8
5291 A8
5292 A8
5293 A8
5401 F3
5402 D2
5500 F4
5503 F5
5601 B3
5612 C2
5660 A1
6002 B3
6003 B4
6004 B4
6005 B4
6006 B3
6007 C4
6008 B4
6009 A4
6010 A3
6011 A3
6012 E5
6013 C8
6014 C8
6018 C4
6019 B4
6021 C8
6023 E5
6027 C4
6028 B4
6029 E5
6030 E5
6031 A4
6032 A4
6033 A5
6034 A4
6035 A4
6042 D8
6044 C8
6045 C8
6050 E8
6054 D8
6055 D8
6061 D8
6062 F6
6075 D5
6077 B5
6086 D8
6095 A3
6111 D5
6112 D5
6113 D5
6114 E5
6117 D7
6120 D8
6123 D6
6132 D6
6133 D6
6142 E8
6201 E5
6202 F5
6203 E5
6204 G6
6205 F6
6206 G6
6207 F8
6208 F8
6211 F6
6213 F5
6216 F6
6225 F8
6230 E6
6267 G8
6268 G8
6269 E5
6270 E5
6291 B8
6292 B8
6312 G6
6313 G7
6321 G7
6322 G7
6325 F7
6333 G7
6334 G7
6335 G6
6340 G7
6341 G7
6344 G6
6347 G6
6362 G6
6364 G6
6365 G6
6366 G6
6367 G6
6375 G6
6376 G6
6378 G6
6460 F5
6461 E5
6470 E5
6471 E5
6501 F4
6502 F3
6503 D4
6504 F4
6505 F5
6506 F3
6507 F5
6508 F5
6509 G3
6510 E3
6511 E3
6512 E3
Page 66
Circuit Diagrams and PWB Layouts
Layout Display Supply FHP (Bottom Side)
66BJ3.0E PA 7.
3104 313 6126.3
G_15960_007.eps
060206
Page 67
Circuit Diagrams and PWB Layouts
67BJ3.0E PA 7.
Ambi Light
0101 D1
1010 A2
1011 B2
1060 D5
1M08 A1
1M09 A1
1M10 B1
1M11 A10
1M12 B1
1M39 E1
1M49 D1
1M59 C1
2001 A3
2002 A3
2007 E6
2008 E6
2009 C6
2010 C6
2011 B6
2012 B6
2013 E5
2014 C5
2015 B5
2016 E5
2017 D2
2018 E2
2019 E2
2020 A7
2021 A7
2022 A8
2023 E2
2024 C3
2030 A7
2031 A7
2032 A8
2040 B7
2041 B7
2042 B8
2050 C7
2051 C7
2052 C8
2060 D7
2061 D7
2062 D8
2070 D7
2071 D7
2072 D8
2073 E5
2078 E8
2080 A7
2081 B7
2082 B7
2083 C7
2084 C7
2085 D7
2086 E9
3004 E6
3005 E6
3006 D7
3007 D7
3008 C6
3009 C6
3010 C7
3011 B7
3012 B6
3013 B6
3014 A7
3015 A7
3016 C2
3017 B5
3018 A4
3019 A4
3020 A4
3021 D2
3022 D3
3023 D2
3024 C5
3025 C4
3026 D2
3027 E8
3028 C2
3029 A5
3030 B4
3031 C5
3032 E7
3034 E5
3035 C5
3036 B5
3037 E2
3038 E2
3039 E4
3041 D5
3042 E6
3043 E7
3044 E7
3045 E7
3046 E8
3047 E8
3050 A7
3051 B7
3052 B7
3053 C7
3054 C7
3055 E7
3060 A8
3061 A8
3062 A9
3064 E6
3065 E6
3999 E5
5002 A9
5007 A9
5008 A9
5011 C2
5014 A10
5015 C10
5016 D9
6000 A6
6001 A6
6002 B6
6003 C6
6004 D6
6005 D6
6006 B6
6007 B6
6008 C6
6009 C6
6010 E6
6011 E7
6012 B2
6013 E8
6014 E8
6015 E6
6016 D8
6017 E7
6018 B8
6019 E9
6020 A8
7002 A3
7003 D3
7009 A5
7010 C5
7011 D5
7015-1 A7
7015-2 A7
7016-1 B7
7016-2 C7
7017-1 D7
7017-2 D7
7018 A5
7019 B5
7020 D6
9000 E4
9001 C2
A027 A10
A028 B10
A029 C10
F001 B4
F002 C4
F003 C4
F006 C2
F007 E1
F009 D1
F011 D1
F012 D1
F013 D1
F014 D1
F018 C1
F019 C2
F020 B2
F022 B1
F023 A1
F025 A1
F026 A3
F034 D7
F035 D7
F036 D7
F037 C7
F038 B7
F040 B7
123456789 10
I040
6007
6n82010
560R3005
I023
BZX384-C15
2080
100p
3015
1K0
BZX384-C18
2082
100p
3011
1K0
4
3010
1K0
6009
3007
1K0
I012
2
7017-2
4
3006
1K0
6011
2008 6n8
6017
3043
1R0
2
4
3014
1K0
2081
100p
2
BZX384-C18
BZX384-C18
AL1 AL1
A
B
C
1M59
1
2
3
4
5
D
1M49
1
2
3
4
E
3104 313 6097.5
1M39
1
2
3
B3B-PH-K
F014
0101
1M09
1
2
3
4
B4B-PH-K
1M08
1
2
3
4
5
6
B6B-PH-K
1M12
1
2
3
4
B4B-PH-K
1M10
1
2
3
4
5
6
B6B-PH-K
F013
F011
F009
F007
F023
F022
F025
F018
F012
+5V
F019
3021
100R
3023
100R
3037
560R
3038
560R
F020
1010
F 3A
1011
F 3A
5011
120R
2017
2018
2019
2023
I001
6012
STPS2L30A
9001
I015
1n0
1n0
I027
1n0
I026
1n0
3016
AL1
AL2
AL3
+12Va
F006
4K7
I014
PROT
3028
3026
7002
LD1117DT
32
OUTIN
16V1m0
2001
10K
1K0
3022
I013
COM
1
12-13V
I002
4K7
15
VDD
Φ
uC
TXD
RXD
SCL
T0
SDA
0
INT
1
RST
6
7
P1<0:7>
4Kb OTP
VSS
12
11
10
9
8
4
3
2
F026
2002
100n
2024
7003
P87LPC764BDH
CLKOUT
X1
P2<0:1>
CMP2
CIN
CMPREF
CMP1
P0<0:7>
5
+5V
I007
470R3012
I009
6008
BZX384-C18
6004
BAS316
6005
BAS316
6010
BZX384-C18
I022
RED
6n82011
470R
3008
470R3004
BAS316
I008
560R3013
BLUE
2009 6n8
GREEN
6n82007
6015
3042
1R0
2012 6n8
I010
3009560R
I011
4K7
3019
3018
+5V
100n
F001
F003
7
X2
6
1
20
2B
19
2A
18
1B
17
1A
16
14
13
T1
3039
10K
F049
I035
9000
R2
G2
B2
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3030
3025
F002
I031
4K7
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3020
AL2
AL2
AL2
F098
4K7
3029
4K7
3017
4K7
F050
BC847BW
F046
3041
220R
2073
F048
F045
7019
7010
BC847BW
F047
1060
20M
15p
3999
10K
7018
BC847BW
7009
BC847BW
3024
4K7
7011
BC847BW
2016
I032
I006
I005
F099
15p
3031
F060
4K7
3036
2015
3035
I017
2014
I004
3034
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2013
6000
BAS316
6001 BAS316
6006
47R
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BZX384-C18
22n
6002
BAS316
47R
6003
BAS316
22n
7020
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3064
68K
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68K
AMBI LIGHT
I042
2083
100p
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100p
7
1
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7
1
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5
7
8
7017-1
SI4946
1
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SI4946
5
6
2085
100p
PROT
8
7015-1
SI4946
SI4946
7015-2
6
I041
8
7016-1
SI4946
SI4946
7016-2
6
F036
F035
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1R0
F043
F042
F041
3052
47R
F040
F038
F037
I043
I044
3050
47R
I045
47n
2020
47n
2030
3051
47R
47n
2040
47n
2050
3053
47R
3054
47R
47n
2060
47n
2070
PROTB
AL1
AL2
AL3
3032
1M0
3055
47R
30453044
1R0
2021 47n
47n2031
47n2041
2051 47n
2061 47n
47n2071
47n2022
2032 47n
2042 47n
47n2052
47n2062
2072 47n
I019
2078
10n
3046
1R0
3027
123456789 10
3060
6013
BAS316
15K
F041 A7
F042 A7
F043 A7
F045 A5
F046 C5
F047 D5
F048 A5
F049 E4
F050 B5
F060 D5
F098 E4
F099 E5
3K3
3061
6020
BAS316
BAS316
6018
6016
BAS316
I036
6014
3047
1R0
3K3
3062
2086
1n0
BAS316
3K3
I003
6019
GND-HV
22u5008
I029
1
3
4
5
6
7
I013 E3
I014 D2
I015 D2
I016 E6
I017 C6
I018 B6
I019 E8
I022 E6
I023 E6
I026 E2
I027 E2
I028 E9
5002 22u
1
3
I030
4
5
6
7
1
2
3
4
5
6
7
5016
BD21416-00
5014
BD21416-00
5015
BD21416-00
132
11
9
I001 A2
I002 C3
I003 A9
I004 D5
I005 B5
I006 A5
I007 A6
I008 A6
I009 B6
I010 B6
I011 D6
I012 D6
5007 22u
I028
BZX384-C10
WARNING HIGH VOLTAGE
I029 C9
I030 A9
I031 D4
I032 D5
I035 E4
I036 E8
I040 A7
I041 B7
I042 B7
I043 C7
I044 C7
I045 D7
132
11
9
13
11
9
A027
A028
A029
GND-HV
G_15960_142.eps
1M11
11
10
9
8
7
6
5
4
3
2
1
B11B-XASK-1
TO
CCFL
300306
A
B
C
D
E
Page 68
Circuit Diagrams and PWB Layouts
68BJ3.0E PA 7.
Ambi Light
F143
F142
F141
F140
F138
F137
I129
2183
100p
2181
100p
2160
2170
2120
2130
2150
47n
47n
2185
100p
7118 A4
7119 C4
7120 D5
7130-1 B1
7130-2 B2
7132-1 D1
7132-2 D2
A127 A10
47n
47n
47n
2140
47n
2161
2171
2121
2131
2141
2151
47n
47n
2174
2162
2172
I122
A128 B10
A129 D10
A130 D9
A131 E9
F101 B3
F102 C4
F103 D3
F126 A2
47n
2122
47n
2132
47n
2142
47n
2152
47n
10n
3137
47n
47n
47n
47n
47n
6113
BAS316
15K
F134 E6
F135 D6
F136 D6
F137 C6
F138 C6
F140 B6
F141 B6
F142 A6
3K3
3150
6119
BAS316
6117
BAS316
6115
BAS316
I138
6114
3151
2177
1n0
BAS316
3K3
I11J
F143 A6
F145 B4
F146 C4
F147 D4
F148 A4
F150 C4
F160 D4
I101 A3
3K3
3152
6118
BZX384-C10
I11G
5107
I104 E5
I105 C4
I106 A5
I107 A5
I108 A5
I109 B5
I110 C5
I111 D6
22u
5108
I11H
I112 D6
I113 B5
I114 E4
I115 D4
I11G A8
I11H A8
I11I A9
I11J A8
22u
22u
5102
I11I
5114
1
3
4
5
6
7
BD21416-00
5115
1
3
4
5
6
7
BD21416-00
5116
1
132
3
4
5
6
7
BD21416-00
11
9
WARNING HIGH VOLTAGE
I120 D2
I121 D2
I122 E7
I123 A6
I124 B6
I125 B6
I127 C6
I128 D6
132
11
9
132
11
9
A131
A128
A130
GND-HV
I129 E6
I130 B2
I131 B2
I132 D2
I133 D1
I134 D2
I135 B2
I136 B1
A127
A129
I137 B2
I138 E8
1M13
11
10
9
8
7
6
5
4
3
2
1
B11B-XASK-1
TO
CCFL
G_15960_143.eps
3134
2115
47R
22n
47R
6100
BAS316
6101
BAS316
47R
6106
22n
6102
BAS316
6103
BAS316
6108
7120
BC847BW
6104
BAS316
6105
BAS316
6110
BZX384-C18
5115 C9
5116 E9
6100 A5
6101 B5
6102 C5
6103 C5
6104 E5
6105 E5
BZX384-C18
I109
BZX384-C18
4K7
3129
4K7
3117
4K7
F150
7119
BC847BW
F146
3151 A8
3152 A8
3153 B1
3154 B1
3155 B2
3156 B2
3157 B2
3160 D2
F148
F145
BC847BW
7110
BC847BW
4K7
3124
F147
7111
BC847BW
7118
BC847BW
7109
I115
3131
4K7
F160
I114
2113
3161 D2
3162 D1
3163 D1
3164 D2
5102 A9
5107 A8
5108 A8
5114 A9
I106
I113
I105
3133
2114
I104
3132
22n
1M13 A10
2101 A3
2102 A2
2107 E5
2108 E5
2109 D5
2110 D6
2111 B5
2112 B6
2113 E4
2114 D4
2115 B5
2120 A6
2121 A7
2122 A7
2130 A6 3124 D4
2131 A7
2132 A7
2140 C7
2141 C7
2142 C7
2150 C7
2151 C7
2152 C7
12345678910
2160 D6
2161 D7
2162 D7
2170 E6
2171 E7
2172 E7
2173 E3
2174 E7
AMBI LIGHT
2177 E8
2180 A6
2181 B7
2182 B6
2183 C6
2184 D6
2185 E7
3104 E5
3105 E5
3106 E6
3107 D6
3108 D5
3109 D5
3110 C6
3111 B6
3112 B5
12-13V
3113 B5
3114 B6
3115 A6
3117 B4
3118 A3
3119 A3
3120 A4
I101
AL2 AL2
5
6120
BAS316
5
6121
BAS316
+5V
3157
+5V
3161
I134
F126
2102
100R
I137
100R
6112
+5V
A
+12Va
33K
3156
7130-1
BC857BS
PROTB
AL1
B
C
D
E
3153
100R
3162
100R
I136
I133
AL1(2X)
AL3
2
7132-1
BC857BS
2
1
6
I130
3154
12-13V
1
6
I120 I121
3163
PROT
I135
100R
3160
I132
100R
4
3
3155
33K
4
3164
3
7130-2
BC857BS
I131
33K
BC857BS
33K
7132-2
2101
100n
AL1
R2
AL1
G2
AL1
B2
47K
2173
3136
BZX384-C4V7
16V1m0
10n
F101
3125 C4
3129 A4
3130 C4
3131 D4
3132 E4
3133 C4
3134 B5
3136 E3
3118
F103
4K7
3119
3137 E7
3140 A6
3141 B6
3142 B6
3143 C6
3144 D6
3145 E6
3150 A7
4K7
3130
4K7
F102
3125
4K7
3120
I107
RED
3112
BLUE
3108
GREEN
470R
2107
3104
470R
2111
470R
2109
6n8
6106 B5
6107 B6
6108 D5
6109 D6
6110 E5
6111 E6
6112 E2
6113 E7
I108
6n8
3113
I110
6n8
3109
3105
560R
2108
560R
2112
560R
2110
I111
I112
6n8
6n8
6n8
3144
6111
6114 E7
6115 D8
6117 C8
6118 E8
6119 A8
6120 B2
6121 D2
7109 B4
6107
BZX384-C18
3110
1K0
6109
BZX384-C18
47R
3107
1K0
3106
1K0
BZX384-C18
3140
47R
3115
1K0
3114
1K0
3142
47R
3111
1K0
2
4
2
4
2
4
3143
47R
I128
3141
47R
3145
47R
7110 C4
7111 E4
7115-1 A6
7115-2 A6
7116-1 C6
7116-2 C6
7117-1 D6
7117-2 E6
I123
I125
I127
2184
100p
7
7117-1
SI4946
1
3
SI4946
7117-2
5
7
7115-1
SI4946
1
3
SI4946
7115-2
5
I124
7
7116-1
SI4946
1
3
SI4946
7116-2
5
F136
8
F135
6
F134
2180
100p
8
6
2182
100p
8
6
3104 313 6097.5
12345678910
A
B
C
D
E
300306
Page 69
Ambi Light
Circuit Diagrams and PWB Layouts
69BJ3.0E PA 7.
A
B
C
D
12
34567
AMBI LIGHT
AL3 AL3
1M15
B03B-XASK-1
1
2
3
I202
1K0
3200
I205
5201
600R
1M16
B03B-XASK-1
2
3
I211
1
3201
5202
5200
120R
1K0
6201
BAS316
600R
5203
120R
I201
I203
GND-HV
I210
6200
BAS316
3202
47R
6203
BAS316
3203
1M0
I204
6202
BZX384-C6V8
2200
1
470p
3
7200
SI2302ADS
2
I215
3212
220R
3204
3206
10K
220R
2201
I206
470n
GND-HV
3207
22K
7201
TCET1102(G)
+5V
I208I207
3205
1K0
PROT
AL1(2X)
AL2
A
B
C
D
1M15 A1
1M16 D1
2200 B3
2201 D5
2202 E3
3200 B1
3201 B1
3202 B2
3203 B2
3204 C4
3205 C6
3206 D4
3207 D5
3208 E1
3209 E1
3210 E2
3211 E2
3212 B4
5200 A1
5201 B1
5202 B1
5203 D1
5204 E1
5205 E1
6200 A2
6201 B1
6202 B2
6203 D2
6204 E1
6205 E2
6206 E4
7200 B3
7201 C6
7202 E3
I201 A2
I202 A1
I203 B2
I204 B3
I205 B1
I206 C5
I207 C5
I208 C6
I209 E4
I210 D2
I211 D1
I212 E2
I213 E3
I214 E1
I215 B4
I214
E
3104 313 6097.5
3208
5204
1K0
600R
3209
5205
1K0
600R
6204
BAS316
I212
3210
47R
GND-HV
3211
1M0
I213
6205
BZX384-C6V8
2202
1
470p
3
7202
SI2302ADS
2
I209
6206
GND-HV
BZX384-C12
G_15960_143.eps
300306
1234567
E
Page 70
Circuit Diagrams and PWB Layouts
70BJ3.0E PA 7.
Layout Ambi Light (Top Side)
3104 313 6097.5
G_15960_145.eps
300306
1010 C1
1011 A1
1060 C1
1M08 B1
1M09 B1
1M10 B1
1M11 D2
1M12 A1
1M13 A2
1M15 B2
1M16 E2
1M39 D1
1M49 C1
1M59 D1
2001 D1
2016 C1
2024 C1
2073 C1
2078 E1
2086 E1
2101 A1
2102 B1
2174 C1
2177 C1
2200 C2
2201 E2
2202 E2
3022 C1
3027 E1
3032 E2
3041 C1
3042 E2
3043 E2
3044 E2
3045 E2
3046 E2
3047 E2
3060 D1
3061 D1
3062 D1
3064 E1
3065 E1
3136 E1
3137 C1
3150 A1
3151 B1
3152 B1
3153 E1
3154 E1
3155 E1
3156 E1
3157 E1
3160 B1
3161 B1
3162 B1
3163 B1
3164 B1
3202 C2
3203 C2
3204 E2
3205 E1
3206 E2
3207 E2
3210 E2
3211 E2
3212 C2
5002 D1
5007 E1
5008 D1
5011 C1
5014 C2
5015 D2
5016 D2
5102 A1
5107 B1
5108 A1
5114 A2
5115 B2
5116 B2
6012 B1
6013 E1
6014 E1
6015 E1
6016 E1
6017 E1
6018 D1
6019 E1
6020 D1
6112 E1
6113 C1
6114 C1
6115 B1
6117 A1
6118 C1
6119 A1
6120 E1
6121 B1
6202 C2
6205 E2
6206 E2
7002 B1
7130 E1
7132 B1
7200 C2
7201 E2
7202 E2
Layout Ambi Light (Bottom Side)
3104 313 6097.5
G_15960_146.eps
300306
2002 B2
2007 E2
2008 E2
2009 E2
2010 E2
2011 D2
2012 D2
2013 E2
2014 E1
2015 D2
2017 D2
2018 C2
2019 C2
2020 C2
2021 C2
2022 C2
2023 C2
2030 C1
2031 C1
2032 C1
2040 D2
2041 D2
2042 D2
2050 D1
2051 D1
2052 D1
2060 E2
2061 E2
2062 E2
2070 E1
2071 E2
2072 E2
2080 D2
2081 D2
2082 D2
2083 D2
2084 E2
2085 E2
2107 C2
2108 B1
2109 B2
2110 B2
2111 A2
2112 A2
2113 C2
2114 B2
2115 A2
2120 A2
2121 A2
2122 A2
2130 A1
2131 A2
2132 A2
2140 A2
2141 A2
2142 A2
2150 A1
2151 A2
2152 A2
2160 B2
2161 B2
2162 B2
2170 B1
2171 B2
2172 B2
2173 C2
2180 A2
2181 A2
2182 A2
2183 A2
2184 B2
2185 B2
3004 E2
3005 E1
3006 E1
3007 E2
3008 E2
3009 E2
3010 D1
3011 D2
3012 D2
3013 D2
3014 C2
3015 D2
3016 D2
3017 D2
3018 E2
3019 D2
3020 D2
3021 D2
3023 C2
3024 E2
3025 D2
3026 E2
3028 D2
3029 D2
3030 D2
3031 E2
3034 E2
3035 E2
3036 D2
3037 C2
3038 C2
3039 C2
3050 D2
3051 D2
3052 D2
3053 D2
3054 E2
3055 E2
3104 C2
3105 B2
3106 B1
3107 B2
3108 B2
3109 B2
3110 A2
3111 B2
3112 A2
3113 A2
3114 A1
3115 A2
3117 A2
3118 B2
3119 B2
3120 B2
3124 B2
3125 A2
3129 A2
3130 A2
3131 B2
3132 C2
3133 B2
3134 A1
3140 A2
3141 A2
3142 A2
3143 B2
3144 B2
3145 B2
3200 B1
3201 B1
3208 E1
3209 E1
3999 A1
5200 C1
5201 B1
5202 C1
5203 E1
5204 E1
5205 E1
6000 D2
6001 D2
6002 D2
6003 E2
6004 E2
6005 E2
6006 D2
6007 D1
6008 E2
6009 E2
6010 E2
6011 E2
6100 A1
6101 A1
6102 B1
6103 B1
6104 C2
6105 C1
6106 A2
6107 A2
6108 B2
6109 B2
6110 C2
6111 B2
6200 C1
6201 C1
6203 E1
6204 E1
7003 C2
7009 D2
7010 D2
7011 E2
7015 C2
7016 D2
7017 E2
7018 D2
7019 E2
7020 E2
7109 A2
7110 A2
7111 C2
7115 A2
7116 A2
7117 B2
7118 A2
7119 A2
7120 C2
9000 C2
9001 B2
Page 71
Circuit Diagrams and PWB Layouts
71BJ3.0E PA 7.
Platform Supply: AUX Supply
0P01 G9
1M02 G3
1M03 G3
1M10 H13
1M18 H14
1M46 G15
1M63 G10
1P00 G4
1P01 G4
1P02 B1
1P03 A2
1P05 H7
1P06 A11
1P07 B11
1P10 G12
1P16 B1
1P17 C1
1P22 A1
1P30 E13
2P01 F15
2P02 H10
2P03 D7
2P04 F5
2P05 G7
2P06 D9
2P07 B4
2P08 B4
2P09 A2
2P10 B2
2P11 G6
2P12 F12
2P13 E15
2P14 B5
2P15 B7
2P16 B4
2P17 B3
2P18 B6
2P19 B6
2P20 B7
2P21 A15
2P22 A14
2P23 F14
2P24 F15
2P25 B11
2P26 A13
2P27 B11
2P28 B12
2P29 B11
2P30 B12
2P31 D13
2P32 E2
2P33 H6
2P34 C15
2P35 A11
2P36 D1
2P37 B14
2P40 E10
2P41 F12
2P42 C11
2P43 C11
2P45 F3
2P47 C11
2P48 D15
2P49 C12
2P50 D14
2P51 A12
2P52 B5
2P53 A12
2P54 E2
2P55 D14
2P56 F12
2P57 F11
2P64 B11
2P80 E10
3P00 B12
3P01 B12
3P02 B12
3P03 B12
3P04 C6
3P05 D13
3P06 H10
3P07 D5
3P08 C7
3P09 E15
3P10 E15
3P11 A13
3P12 G12
3P13 C5
3P14 F2
3P15 C2
3P16 C7
3P17 A15
3P18 A14
3P19 A14
3P20 A14
3P21 A13
3P22 B14
3P23 B14
3P24 C14
3P25 F6
3P26 C14
3P27 D7
3P28 B5
3P29 B7
3P30 D2
3P31 D1
3P32 D3
3P33 E7
3P34 D3
3P35 E1
3P36 A12
3P37 E1
3P38 D2
3P39 F3
3P40 F5
3P41 D2
3P42 C4
3P43 C4
3P44 D3
3P45 D2
1 2345
AP1 AP1
A
1P22
1
2
B2P-VA-BF-BK
1P02
1
2
B2P-VA-BF
B
1P16
2
1
B2P-VA-BF-BK
C
D
E
F
G
H
HOT GROUND
COLD GROUND
STANDBY
ON-OFF
AUDIO-PROT
AUDIO-PROT
DIM-CONTROL
POWER-OK-PLATFORM
ON-OFF
STANDBY
BOOST
POWER-GOOD
PLATFORM SUPPLY: AUXILIARY SUPPLY
+400V-F
IP42
6P06
FP29
FP02
3P31
1K0
3P35
47K
GND-SSP
+AUDIO-POWER
FP00
FP01
2314
1P17
FP03
IP07
100n
2P36
GND-SSP
3P37
100K
GND-SSP
-AUDIO-POWER
GND-L
3V3 (0V5)
0V2 (4V2)
BYG10
IP1A
GND-SSP
IP44
2P32
3P14
47K
FP35
3
2P10
56n
BC847BW
3P30
100n
-14V (0V)
+5V-SW
2P09
56n
6P05
GBL06
2
41
9P56
10K
6P34
BAS316
G5PA-1-5VDC
FP12
+5V2-NF
IP0B
7P38
+5V2
3P41
220K
3P95
100K
IP1D
7P30
BC847BW
2P54
GND-SSP
GND-SSP
FP30
FP36
14V4 (0V)
FP32
FP31
0V (0V)
0V2 (0V4)
FP10
FP25
GND-SSP
3P56
GND-SSP
1P03
T1A-250V
3P15
3P45
47K
3P38
1M0
1u0
IP5E
IP5F
+T
2K04
BYG10
FP24
1M0
3P46
3P32
GND-SSP
FP15
FP14
FP13
FP06
FP11
6P07
9P85
+5V2
47K
BC857BW
IP1E
4K7
IP2A
BC857BW
7P31
IP45
GND-SSP
1M02
B7B-EH-A
1M03
B10P-PH-K-S
IP01
450V10u
2P17
FP04
IP08
7P07
1
2
3
4
5
6
7
1
2
3
4
5
6
7
8
9
10
2P45
3P44
100n
GND-SSP
2K2
IP1F
GND-SSP
3P39
FP23
IP09
3P34
FP26
450V
2P08
2P16
10u 450V
10u
GNDHA
GNDHA
+5V-SW
AL-OFF
7P06
BC817-25W
2K2
47K
GND-SSP
6P10
6P11
1P01
HEATSINK
GND-SSP
3P42
IP94
3P43
7P10
BC847BW
2K2
2K2
6P12
6P13
1P00
HEATSINK
GND-SSP
COLD GROUND
2P07
GNDHA
1
2
FP05
10u 450V
3P58 E14
3P46 D3
3P59 F13
3P47 F15
3P60 A12
3P48 C7
3P61 E10
3P49 A10
3P62 F10
3P50 C7
3P63 F11
3P51 F13
3P64 G11
3P52 F14
3P65 F11
3P53 F14
3P66 G11
3P54 A10
3P67 F12
3P55 F14
3P68 A10
3P56 H2
3P69 F6
3P57 E13
IP10
5P06
80R
10n
2P52
GNDHA
+AUX
7P12
IP13
4
TCET1102(G)
3
3K3
3P07
GNDHA
IP40
IP38
2P04
GNDHA
IP6A
HOT GROUND
3PP3
100K
3P28
17V (16V)
TEA1506AT
3P40
100K
1u0
4K7
3P78
3P13
47K
7P27
6
7
9
14
3P70 C13
3P71 C14
3P72 C14
3P73 F6
3P74 F6
3P75 F8
3P76 B12
3P77 G7
3P78 G5
3P79 D10
3P80 D10
3P81 D10
IP16
GNDHA
7P26
BC817-25W
IP41
GNDHA
3P82 E10
3P83 C10
3P84 C11
3P85 D11
3P86 E11
3P87 E11
3P88 C11
3P89 D11
3P90 E11
3P91 E11
3P92 H6
3P93 B13
2P18
10n
2P14
220p
6P02
BYV27-600
2
VCC
Φ
SPMS
CTRL
CTRL
DEM
ISENSE DRIVER
DRAIN
HVS
GND
3
GNDHA
6P28
BAS316
3P69
470K
IP37
3P25
10K
2P11
6P31
BZX384-C15
GNDHA
2P33
GNDHA
3P94 B14
3P95 D2
3P96 A12
3P97 A13
3P98 A12
3P99 A12
3PP1 A10
3PP2 E12
3PP3 B5
5P00 A9
5P01 B9
5P03 E8
5P04 B8
5P05 C8
5P06 A5
5P07 B7
5P08 C8
5P10 A10
5P11 B10
5P12 B10
5P13 C10
5P14 C15
5P16 D15
5P18 B15
5P20 A15
5P21 B11
5P22 B11
5P23 C11
5P24 C11
5P25 B6
5P26 B7
5P27 B6
5P28 B7
6P01 B6
6P02 B6
6P03 C15
6P04 A11
6P05 B2
6P06 A2
6P07 B3
6P09 C7
6P10 A11
6P11 B11
6P12 C11
6P13 B11
6P22 C15
6P23 A13
6P27 F7
6P28 F6
6P31 G6
6P34 C2
6P47 C8
6P50 F14
6P51 F14
6P52 C14
6P53 F15
6P80 E10
6P81 E10
6P82 C10
6P83 D10
6P84 D10
6P85 E10
6P86 A10
7P02 C7
7P03 A12
7P04 A14
7P06 C4
7P07 D3
7P09 F12
7P10 F4
7P11 F9
7P12 C5
7P14 E13
7P15 F13
7P16 F10
7P17 D13
7P18 C14
7P19 E15
7P20 A13
7P21 A12
7P22 B13
7P23 B15
7P24 B14
7P26 F6
7P27 D5
7P30 E2
7P31 E3
7P38 D2
7P80 D11
7P81 D11
7P82 C12
9P56 B2
9P57 C12
9P58 B3
9P60 A11
9P61 B15
9P65 C14
9P67 H11
9P68 H11
9P80 H12
9P81 H12
FP00 A1
FP01 B2
FP02 B1
FP03 C1
FP04 B3
FP05 B4
FP06 H3
FP08 D15
FP09 C15
FP10 H2
FP11 H3
FP12 C2
FP13 G3
FP14 G3
FP15 G3
FP16 H13
FP17 H12
FP18 H15
FP19 H15
FP20 H15
FP21 H15
FP22 H15
FP23 C3
FP24 B3
FP25 H2
FP26 A4
FP27 H14
FP29 B1
FP30 G2
FP31 G2
FP32 G2
FP35 H2
FP36 G2
FP37 C13
FP38 H11
FP39 H13
FP40 H13
FP79 E12
IP01 A3
IP02 A10
IP03 A10
IP04 B12
IP05 A14
IP06 A14
IP07 D1
IP08 C3
IP09 C3
IP0A C7
IP0B D2
IP0C B11
IP0D C13
IP0E C13
IP0F C14
IP10 A5
IP11 C7
IP12 D7
IP13 C5
IP14 E7
IP15 C6
IP16 B5
IP17 B7
IP18 B7
IP19 C7
IP1A D2
IP1B F13
IP1C A13
IP1D E2
IP1E D3
IP1F D3
IP20 D7
IP23 E13
IP24 E13
IP25 E14
IP26 F14
IP27 E8
IP28 C9
IP29 F8
IP2A D3
IP30 A14
IP31 B11
IP32 C14
IP33 B14
IP35 F7
IP36 F6
IP37 F5
IP38 F5
IP40 F5
IP41 G5
IP42 A2
IP44 E2
IP45 F3
IP46 F9
IP47 C9
IP48 B8
IP49 A10
IP50 B10
IP51 B10
IP52 B11
IP53 A11
IP54 D11
IP55 D11
IP56 C11
IP57 D10
IP58 B7
IP59 E10
IP5A B14
IP5B A12
IP5C A13
IP5D E7
IP5E G2
IP5F H2
IP60 E11
IP61 C10
IP62 C10
5P19 B15
6 7 8 9 101112131415
IP05
3P11
100K
10K
IP1C
470n
GND-S
3P93
IP0E
7P17
BC847BW
GND-SSP
IP24
IP98
IP93
1K0
7P15
2P22
GND-S
100K
BC857BW
7P24
IP5A
IP32
3P72
330K
3P71
1K0
3P58
2R2
7P14
6P50
BZX384-C15
GND-SSP
1M18
B4B-PH-K
3P19
100K
3P20
10K
220n
BC847BW
IP30
3P94
IP0F
2P55
GND-SSP
IP74
1
2
+5V-SW
3
4
GND-SSP
6K8
390K
3P22
6K8
3P23
IP25
2P23
3P52
7P03
2P28
2P30
1m0 25V
+5V2
7P82
FP79
5V2 (0V)
2P41
IP72
3V7 (0V)
TS2431
1u0
1
K
A
3
1m0 35V
1m0 35V
3PP2
2P56
3P67
B10B-EH-A
7P21
BC847BW
3P36
2P53
R
2
3P98
IP04
10K
3P00
3P02
10K
3P03
3P01
9P57
25V
2P49
1m0
GND-SSP
POWER-OK-PLATFORM
100R
220n
IP70
10K
7P09
BC847BW
1P10
1
2
3
4
5
6
7
8
9
10
+12V
+12VAL
470R
2P51
10n
100p
IP5B
6K8
3P76
10K
10K
+12V_NF
AL-OFF
3P96
2K2
3P60
3P99
220K
GND-SSP
2P12
3P12
GND-SSP
9P80
9P81
FP17
GND-SSP
10K
6K8
3P97
1K8
GND-S
IP91
1P30
T1A-250V
+25VLP
100n
IP1B
470K
FP16
FP39
FP40
GND-S
3P70
22K
2P31
12
IP6C
IP90
BC857BW
+25VLP
100n
IP97
IP23
1M10
1
2
3
4
5
6
B6B-PH-K
7P22
IP0D
3P05
GND-SSP
3P51
100K
BSP030
6P23
22K
3P57
2R2
GND-SSP
7P20
IP5C
3P21
BZX384-C15
2P26
FP37
STP16NF06FP
3P59
BC847BW
HOT GROUND
5P00
BS25405-00
56
5P27
220R
IP79
5P25
220R
2P19
IP65
1
4
5
NC
8
10
11
12
13
3P73
IP36
33K
33K
3P74
+AUX
GNDHA
1u0
22n
1K0
3P92
GNDHA
IP15
3P04
GNDHA
220p
6P01
BZX384-C15
33R
IP20
3P48
6P27
2P05
BYV27-600
6P09
33R
IP11
IP12
IP14
BYG22D
22u 50V
5P28
220R
5P26
220R
3P50
3P27
3P33
7S02
7P02
1P05
HEATSINK
IP17
IP58
7P02
STP6NK60Z
IP19
10R
3P16
12K
2P03
470R
IP5D
IP35
IP18
GNDHA
2P15
3P29
5P07
80R
10R
GNDHA
1u0
3P77
3P08
220p
470R
IP0A
2P20
0R47
GNDHA
3K3
220p
5P08
6P47
5P04
80R
50R
IP92
BZG05C6V8
IP27
IP48
5P05
50R
GNDHA
5P03
22u
3P75
4K7
IP29
3
2
110
5P01
BS25405-00
56
3
IP28
2
110
IP47
IP46
4
7P11
TCET1102(G)
3
HOT GROUND
GNDHA
COLD GROUND
+25VLP
7
8
9
GND-SSP
7
8
9
GND-SSP
2P06
IP75
220p
GND-SSP
IP76
+5V-SW
GND screw
0P01
1
GND-SSP
COLD GROUND
BAS316
IP50
3P79
3P80
6P80
2P80
GND-SSP
1
IP67
IP71
2
IP81
6P86
IP49
IP61
+5V-SW
2K7
2K7
IP80
BAS316
PDZ18-B
220n
GND-SSP
+8V6
+5V2
6P81
3P61
470R
3P62
220R
5P10
45R
+12V_NF
1M63
B2B-PH-K
GND-SSP
3P06
10K
2P02
100p
3P49
3PP1
IP02
IP03
4K7 4K7
IP84
GND-S
5P11
45R
5P12
45R
5P13
45R
3P81
IP57
3P82
IP59
GND-SSP
IP66
IP68
1
2
RES
RES
22K
2K2
6P85
1
3P54
3P68
IP51
IP62
3P83
3K3
6P82
BAS316
6P83
BAS316
6P84
BAS316
BC847BW
TS2431
K
GND-S
4K7 4K7
IP83
BYW29FP-200
2P64
220p
2P25
220p
BYW29FP-200
BYW29FP-200
IP63
IP56
2P40
100n
BAS316
GND-SSP
7P16
A
R
2
GND-SSP
6P10
6P13
6P11
2P42
220p
3P84
IP55
3P85
7P80
3P63
10K
3
DIM-CONTROL
POWER-GOOD
ON-OFF
BOOST
STANDBY
6P04
GND-S
IP53
220R
5P21
IP86
IP85
5P22
220R
IP52
5P23
IP87
6P12
BYW29FP-200
2P43
220p
3K3
7P81
TS2431
2K7
IP54
3P86
330R
IP60
2K2
3P87
IP69
2P57
3P64
GND-SSP
+5V-SW
+5V2
2P35
BZG05C27
GND-S
1P06
T
5A
1P07
T 250V5A
IP0C
220R
IP64
5P24
IP88
R
2
150K
3P90
33K
3P91
220n
47K
GND-SSP
9P67
9P68
220n
2P27
2P29
GND-SSP
220R
3P88
IP78
3P89
1
K
A
3
GND-SSP
3P65
3P66
GND-SSP
IP89
35V1m0
35V
1m0
IP31
2P47
1K0
BC857BW
3K3
IP77
1%
GND-SSP
6K8
1%
1K8
FP38
9P60
3104 313 6094.4
1 23456789101112131415
IP63 C10
IP64 C11
IP65 B6
IP66 E10
IP67 F10
IP68 F10
IP69 F11
IP6A G5
IP6B E15
IP6C B13
IP70 F12
IP71 F10
IP06
7P04
GND-SSP
2P37
100n
7P18
6P52
BZX384-C15
220n
IP96
1n0
IP99
10K
GND-SSP
+8V6
+12V
+5V2
+12V
+25VLP
GND-S
3P26
GND-SSP
3P53
22K
IP33
BSP030
FP27
IP72 F12
IP73 F15
IP74 E14
IP75 D10
IP76 E10
IP77 D11
IP78 C11
IP79 B6
IP80 D10
IP81 G10
IP82 C14
IP83 A10
IP95
3P18
10K
3P24
BC847BW
PDZ6.8-B
3P55
GND-SSP
22K
5P20
5P18
5P19
220K
9P65
IP82
2P50
7P19
GND-SSP
6P51
IP26
330R
GND-SSP
100n
2P21
33u
33u
33u
7P23
BSP030
6P22
BZX384-C15
5P14
25V
1m0
GND-SSP
2P48
GND-SSP
100n
2P13
GND-SSP
2P01
FP18
FP19
FP20
FP21
FP22
IP84 B10
IP85 B11
IP86 B11
IP87 C11
IP88 C11
IP89 A11
IP90 B13
IP91 B13
IP92 C8
IP93 F13
IP94 C4
IP95 A14
3P17
22K
80R
5P16
80R
25V
1m0
IP6B
3P10
1u0
IP96 E14
IP97 E13
IP98 E13
IP99 F14
+AUDIO-POWER
GND-L
-AUDIO-POWER
9P61
6P03
GND-S
FP09
FP08
3P09
22K
22K
2P24
IP73
3P47
6P53
BAS316
B11B-PH-K
G_15960_012.eps
STANDBY
2P34
BZG05C27
GND-S
+12VAL
+12V
STANDBY
1u0
4K7
GND-SSP
1M46
220n
1
2
3
4
5
6
7
8
9
10
11
A
B
C
D
E
+8V6
F
G
H
070206
Page 72
Circuit Diagrams and PWB Layouts
72BJ3.0E PA 7.
Platform Supply: Standby Supply
3999
1K0
7S31
BSP030
BZX384-C15
GND-SSP
6S10
BZX384-C2V7
1211109
2S33
FS02
+5V2
+5V-SW
25V100u
54321 13
AP2 AP2
PLATFORM SUPPLY: STANDBY SUPPLY
876
A
5S00
2S06
220p
COLD GROUND
IS05
IS23
6S07
1S01
HEATSINK
IS03
3S14
IS11
1
3
GND-SSP
5S12
50R
5S03
50R
2K2
2S07
47n
K
R
2
A
7
8
9
10
GND-SSP
GND-SSP
1
2
7S04
TS2431
COLD GROUND
IS07
IS37
STPS8H100FP
SB360
3S28
22R
IS16
15K
3S19
2S04
100p
6S01
BYV27-600
GND-SSP
2S13
2n2
6S07
6S02
GND-SSP
IS38
5S14
3S24
3S23
2S41
IS58
IS14
220R
6K8
6K8
IS12
220n
3S20
3S21
+5V2-NF
GND-SSP
82K
GND-SSP
1K0
2S50
10V2m2
IS59
GND-SSP
3S59
2S39
3S16
FS06
220K
GND-SSP
1u0
100R
6S04
2S56
BZX384-C27
GND-SSP
7S40
BC847BW
GND-SSP
3S18
220n
IS10
+25VLP
FS01
5S11
80R
5S13
RES
15u
IS04
1K0
6S49
IS61
3S41
2S54
GND-SSP
2S14
GND-SSP
BZX384-C5V6
470R
IS68
15n
3S76
GND-SSP
25V
RES
220u
IS48
6S31
3S15
IS08
10K
10K
HOT GROUND
IS50
5S01
5S05
80R
10n
2S52
GNDHA
IS30
IS15
IS45
IS09
5S15
220R
3S30
12K
2S15
1u0
3S36
4K7
6S05
BZX384-C15
3S29
470R
22u
+AUX
7S02
STP6NK60Z
10R
3S50
IS49
IS02
10R
3S39
IS32
3S08
IS13
IS19
IS33
2R7
5S08
6S47
GNDHA
50R
IS99
BZG05C6V8
FS00
GNDHA
3S51
2S40
5S09
80R
5S10
30R
10n
B
7S10
TEA1533AT/N1
C
6
7
9
14
D
IS29
IS27
3S31
100K
6S13
BAS316
E
F
IS28
G
2S17
GNDHA
50V22u
2S18
GNDHA
22n
GNDHA
2
VCC
Φ
SPMS
CTRL
CTRL
DEM
ISENSE DRIVER
DRAIN
HVS
GND
3
GNDHA
6S11
BAS316
3S32
IS39
470K
7S11
BC817-25W
IS26
IS25
1K0
3S37
NC
10
11
12
13
6S09
BZX384-C15
GNDHA
1
4
5
8
IS47
IS01
IS20
3S33
IS17
33K
33K
3S34
6S12
GNDHA
IS21
3S35
4K7
2S16
3S17
47R
3S22
47R
+400V-F
50V
22u BYG22D
GNDHA
H
IS51
6S30
BYV27-600
5S16
220R
56
IS18
IS71
3
2
1
IS24
TCET1102(G)
4
3
IS53
HOT GROUND
7S03
3104 313 6094.4
7654321
111098
STANDBY
G_15960_013.eps
1312
070206
1S01 E8
2S04 B8
2S06 C7
2S07 F8
2S13 D8
2S14 E11
2S15 D4
2S16 F3
A
2S17 G1
2S18 G1
2S33 F12
2S39 E9
2S40 B6
2S41 C8
2S50 E9
2S52 B4
2S54 G11
2S56 C10
3999 C12
B
3S08 D5
3S14 F8
3S15 F11
3S16 F9
3S17 C3
3S18 F10
3S19 F8
3S20 G9
3S21 B9
3S22 D3
C
3S23 G8
3S24 F8
3S28 F8
3S29 D4
3S30 D4
3S31 E1
3S32 E2
3S33 E2
3S34 E2
3S35 F2
D
3S36 F4
3S37 G1
3S39 D5
3S41 F11
3S50 D5
3S51 B6
3S59 C9
3S76 G11
5S00 B7
5S01 E3
5S03 D8
E
5S05 B4
5S08 D5
5S09 C6
5S10 C6
5S11 D10
5S12 B8
5S13 D10
5S14 D8
5S15 C4
5S16 B6
F
6S01 B8
6S02 E8
6S04 C9
6S05 C4
6S07 D8
6S09 F2
6S10 F12
6S11 E2
6S12 E3
6S13 F1
6S30 B6
G
6S31 E11
6S47 D5
6S49 F11
7S02 C5
7S03 F7
7S04 G7
7S10 C1
7S11 F2
7S31 E12
7S40 G10
H
FS00 D5
FS01 C11
FS02 C12
FS06 C9
IS01 D2
IS02 D5
IS03 F8
IS04 D10
IS05 B8
IS07 C8
IS08 F12
IS09 D4
IS10 F10
IS11 F7
IS12 B9
IS13 B5
IS14 E9
IS15 C4
IS16 F8
IS17 E2
IS18 C6
IS19 C5
IS20 E3
IS21 F2
IS23 C8
IS24 C6
IS25 F2
IS26 F1
IS27 F1
IS28 G1
IS29 E1
IS30 C4
IS32 C5
IS33 C5
IS37 D8
IS38 D8
IS39 E1
IS45 E4
IS47 C3
IS48 E12
IS49 D5
IS50 B6
IS53 G6
IS58 G9
IS59 E9
IS61 F11
IS68 F11
IS71 F6
IS99 D5
Page 73
Circuit Diagrams and PWB Layouts
Layout Platform Supply (Top Side)
0P01 A7
1M02 A9
1M03 C9
1M10 A9
1M18 A9
1M46 C8
1M63 C8
1P00 A8
1P01 B6
1P02 B1
1P05 A3
1P06 B7
1P07 A8
1P10 C7
1P16 C1
1P17 C2
1P22 A1
1P30 C9
1S01 B3
2P05 B4
2P06 A6
2P07 A2
2P08 A2
2P09 C1
2P10 C1
2P14 A5
2P15 A5
2P16 A1
2P17 C2
2P18 A5
2P19 A5
2P20 A5
2P27 B9
2P28 A9
2P29 B9
2P30 A9
2P47 B9
2P48 B9
2P49 A7
2P50 A8
2P52 A4
2S04 B3
2S06 B3
2S14 C6
2S16 A2
2S17 A3
2S33 C7
2S40 A1
2S50 C4
2S52 A2
3P08 A4
3P28 A5
3P29 B5
3P56 C9
3P57 B9
3P58 C9
3P77 B4
3PP3 A5
3S08 A3
3S51 A1
5P00 B6
5P01 A6
5P03 B4
5P04 B5
5P05 B4
5P06 A4
5P07 B5
5P08 A4
5P10 B7
5P11 A7
5P12 B8
5P13 A7
5P14 A8
5P16 C8
5P18 A9
5P19 A9
5P20 A9
5S00 A2
5S03 C3
5S05 A2
5S08 A3
73BJ3.0E PA 7.
5S09 A2
5S11 C5
5S12 B2
5S13 C5
6P01 B5
6P02 A5
6P05 C1
6P10 C7
6P11 C8
6P12 B7
6P13 B8
6S01 C2
6S02 C4
6S07 C4
6S30 A2
7P02 B4
7P11 B4
7P12 B4
7P14 C9
7S02 B3
7S03 B3
9P01 C7
9P02 C9
9P05 C9
9P06 C9
9P07 C3
9P08 C7
9P09 C9
9P10 C8
9P11 A4
9P12 A7
9P13 B8
9P14 B9
9P15 B9
9P16 B1
9P17 A7
9P18 C7
9P19 C3
9P20 C6
9P21 C8
9P22 C8
9P23 C7
9P24 C7
9P26 C7
9P27 C5
9P28 C7
9P29 C8
9P30 B8
9P32 B8
9P33 C6
9P34 C8
9P35 C6
9P36 B8
9P37 A6
9P38 C8
9P39 C7
9P40 B9
9P42 B9
9P43 B4
9P44 C8
9P45 A4
9P46 B9
9P47 A3
9P48 B8
9P49 B7
9P50 C9
9P51 A8
9P52 C8
9P53 B8
9P54 C9
9P55 A6
9P56 C1
9P57 B7
9P60 B9
9P61 A8
9P62 B9
9P65 A7
9P67 C7
9P68 C7
9P75 B4
9P76 A5
9P78 C7
9P79 B7
9P82 A1
9P84 C3
9P85 A1
9S03 C4
9S16 C5
9S17 C4
9S18 B4
9S20 A9
9S25 A2
3104 313 6094.4
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Circuit Diagrams and PWB Layouts
Layout Platform Supply (Top Side)
1P03 B9
2P01 C2
2P02 B2
2P03 A6
2P04 A6
2P11 B6
2P12 C5
2P13 B1
2P21 B1
2P22 A1
2P23 B1
2P24 C1
2P25 A2
2P26 B1
2P31 A2
2P32 C4
2P33 B6
2P34 A1
2P35 B1
2P36 C4
2P37 A1
2P40 B3
2P41 C5
2P42 B2
2P43 A3
2P45 C3
2P51 B1
2P53 B1
2P54 C4
2P55 A2
2P56 C5
2P57 C5
2P64 B3
2P80 B3
2S07 B7
2S13 C6
2S15 A7
2S18 A7
2S39 C2
2S41 C8
2S54 C6
2S56 C1
3999 B3
3P00 A1
3P01 B1
3P02 A1
3P03 B1
3P04 B6
3P05 A2
3P06 B2
3P07 A6
3P09 B1
3P10 B1
3P11 A1
3P12 C5
3P13 B6
3P14 C3
3P15 C7
3P16 A6
3P17 B1
3P18 B1
3P19 A1
3P20 B1
3P21 B1
3P22 A1
3P23 A1
3P24 A2
3P25 B6
3P26 A1
3P27 A6
3P30 C4
3P31 C4
3P32 C4
3P33 A6
3P34 C4
3P35 C4
3P36 B1
3P37 C4
3P38 C4
3P39 C3
3P40 B6
3P41 C4
3P42 C4
3P43 C4
3P44 C4
3P45 C4
3P46 C4
3P47 C2
3P48 B6
3P49 A2
3P50 A6
3P51 C1
3P52 B1
3P53 C1
3P54 A2
3P55 B1
3P59 B1
3P60 B1
3P61 C6
3P62 C6
3P63 C5
3P64 C5
3P65 C5
3P66 C5
3P67 C5
3P68 A2
3P69 B6
3P70 A3
3P71 A3
3P72 A2
3P73 B6
3P74 B6
74BJ3.0E PA 7.
3P75 B6
3P76 B1
3P78 B6
3P79 A3
3P80 A3
3P81 B2
3P82 B2
3P83 B3
3P84 B2
3P85 B2
3P86 B2
3P87 B2
3P88 B2
3P89 B3
3P90 B2
3P91 B2
3P92 B6
3P93 A1
3P94 A1
3P95 C4
3P96 A1
3P97 B1
3P98 B1
3P99 B1
3PP1 A2
3PP2 C4
3S14 C7
3S15 C6
3S16 C2
3S17 B7
3S18 C6
3S19 C7
3S20 C7
3S21 C7
3S22 B7
3S23 C7
3S24 C7
3S28 C7
3S29 B7
3S30 B7
3S31 A7
3S32 A7
3S33 A7
3S34 A7
3S35 A7
3S36 B7
3S37 A7
3S39 A7
3S41 C6
3S50 B7
3S59 C7
3S76 C6
5P21 B3
5P22 A2
5P23 B2
5P24 A3
5P25 A5
5P26 B5
5P27 A5
5P28 B5
5S01 A8
5S10 A8
5S14 C7
5S15 B7
5S16 B8
6P03 B1
6P04 B1
6P06 B9
6P07 A9
6P09 A6
6P22 A2
6P23 B1
6P27 B6
6P28 B6
6P31 B6
6P34 C8
6P47 A6
6P50 C1
6P51 C1
6P52 A3
6P53 B2
6P80 B3
6P81 B3
6P82 B2
6P83 B2
6P84 B2
6P85 B2
6P86 A2
6S04 C7
6S05 B7
6S09 A7
6S10 C5
6S11 A7
6S12 A8
6S13 A7
6S31 C2
6S47 A7
6S49 C5
7P03 B1
7P04 B1
7P06 C4
7P07 C4
7P09 C5
7P10 C4
7P15 B1
7P16 C5
7P17 A2
7P18 A3
7P19 B1
7P20 B1
7P21 B1
7P22 A1
7P23 A2
7P24 A1
7P26 B6
7P27 A6
7P30 C4
7P31 C3
7P38 C4
7P80 B3
7P81 B3
7P82 B2
7S04 C7
7S10 A7
7S11 A7
7S31 C2
7S40 C6
9P03 C3
9P04 C3
9P58 A6
9P80 A1
9P81 A1
9S01 C6
9S02 C3
3104 313 6094.4
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Page 75
SSB: DC / DC
1U01 A10
1U04 A11
2U09 F2
2U10 G2
2U11 E6
2U12 C5
2U13 C1
2U14 A2
2U15 C3
2U16 A4
2U17 A4
2U18 C5
2U19 A7
2U20 D8
2U21 D8
2U23 F2
2U24 A8
2U25 A9
2U26 D7
1
2U27 B7
2U28 B7
2U29 D7
2U30 D7
2U31 A5
2U32 B6
2U37 F8
2U38 E5
2U40 G7
2U41 G8
2U42 B11
2U45 A9
2U46 E12
2U47 H7
2U50 A13
2U55 E3
2U59 E13
2U71 B14
2U72 B9
Circuit Diagrams and PWB Layouts
2U73 D11
2U74 C13
2U85 A8
3U00 C1
3U01 C1
3U02 C2
3U03 C2
3U04 C3
3U05 C3
3U06 C4
3U07 C5
3U08 B6
3U09 D5
3U10 C5
3U11 D7
3U12 B72U22 C8
3U13 B7
3U14 D8
3U15 E8
3U16 E8
3U17 E8
3U18 D8
3U19 F9
3U20 D7
3U21 A7
3U22 A4
3U23 A5
3U24 A5
3U25 B5
3U26 B5
3U27 B5
3U28 B5
3U29 D4
3U30 D4
3U31 D3
3U32 D3 3U94 D10
3U33 D32U58 B10
3U34 B13
3U35 C13
3U36 H6
3U37 G1
3U38 G1
3U39 F10
3U40 B12
3U41 D5
3U42 E4
3U43 B13
3U44 A13
3U45 D5
3U46 E5
3U52 A14
3U53 B14
3U54 D10
3U55 D9
3U56 D10
3U62 H7
3U63 H8
3U64 H8
3U65 H8
3U66 H8
3U67 H9
3U68 H9
3U69 H9
3U70 H8
3U71 H7
3U80 E4
3U82 B6
3U83 C6
3U84 B11
3U85 A2
3U86 A2
3U87 A1
3U88 A2
3U89 B1
3U93 D9
3U95 E10
3U96 C6
3U97 C5
3UA1 B10
3UA2 B9
3UA3 D11
3UA4 D13
3UA5 D12
3UA6 F10
3UA7 E10
3UA8 D7
3UA9 D7
3UB1 B3
3UB2 B3
75BJ3.0E PA 7.
5U00 A8
5U02 A9
5U03 C8
6U05 E11
6U06 D11
6U07 G10
6U11 B13
6U12 A14
6U17 G10
6U18 B12
6U21 E7
6U22 D6
6U23 D7
6U24 A2
7U00 B4
7U01-1 A5
7U01-2 A5
7U03-1 B6
7U03-2 B6
7U05-1 C2
7U05-2 C3
7U07 E6
7U10-1 D3
7U10-2 D4
7U11 D4
7U13-1 A2
7U13-2 A2
7U14-1 B13
7U14-2 B14
7U15-1 D10
7U15-2 D9
7U16 B12
7U17 H7
7U18 H8
7U19 H9
7U27 C12
7U28 D11
7U29-1 B9
7U29-2 B9
9U03 H13
9U04 A12
9U05 A12
9U06 E11
9U08 E11
FU01 A13
FU02 B3
FU03 A7
FU05 E12
FU06 C8
FU07 E12
FU08 D12
FU09 E11
FU13 C6
FU15 C14
FU18 F12
FU19 F12
FU23 A3
IU01 A13
IU02 B13
IU04 B3
IU05 B3
IU06 B3
IU07 B3
IU08 C3
IU09 C3
IU10 C4
IU11 C2
IU12 C1
IU13 D5
IU14 B5
IU15 C5
IU16 B5
IU17 B5
IU18 A5
IU19 A5
IU20 A1
IU21 B7
IU22 B7
IU23 A5
IU24 A4
IU25 C5
IU26 D6
IU27 E6
IU28 E7
IU29 B5
IU30 B6
IU31 B5
IU32 B5
IU33 B14
IU34 B13
IU35 B13
IU36 B5
IU37 B14
IU38 G7
IU40 D8
IU41 D8
IU42 A10
IU43 A12
IU44 B6
IU45 C6
IU46 B11
IU47 B11
IU48 H7
IU49 H7
IU50 H8
IU51 H8
IU52 H9
IU53 H9
IU54 B7IU03 B2
IU55 D7
IU56 D9
IU57 D10
IU58 D9
IU59 D10
IU60 D7
IU61 F2
IU62 A2
IU63 A2
IU65 D4
IU66 D3
IU67 D5
IU68 D3
IU69 E5
IU78 B9
IU79 B10
IU80 D11
IU81 D12
IU83 A14
IU86 A7
IU88 F8
IUA0 E3
IUA1 E12
IUA3 A3
234567891011121314
B1A B1A
4
BC847BPN
3U87
3U89
IU20
7U13-2
10K
10K
A
5
3
0V
2
IU03
B
3U02
100n
2U13
C
3U00
33K
GND-SIG
IU12
3U01
GND-SIG
220R
IU11
6
2
7U05-1
BC847BS
1
22K
GND-SIG
D
E
IU62
IU63
6
7U13-1
BC847BPN
1
BAS316
3U88
100R
3U03
10K
3U86
10K
6U24
FU23
3V3
IU09
3U04
GND-SIG
3U31
10K
3U33
10K
3UB1
5
22K
BC857BS
7U10-1
IUA3
10K
1
6
IU68
2U55
SUPPLY-FAULT
22K
3UB2
3U05
220R
IU08
3
7U05-2
BC847BS
4
GND-SIG
2
IU66
100n
IUA0
FU02
IU07
2U15
GND-SIG
BC857BS
3U32
NCP5422ADR2
IU04
IU05
IU06
100n
GND-SIG
4
7U10-2
3
10K
3U80
2U16
GND-SIG
IU10
3U06
10K
10K
100n
3U85
2U14
4
7
10
8
9
7U00
39K
10R
3U22
IU24
1u0
14
VCC
BST
1
VFB
2
1
COMP
2
ROSC
GND-SIG
1K0
3U29
5
IU65
22u
2U17
Φ
3
3U30
3U42
GATE
GATE
GND
2K2
10R
7U11
H1
L1
H2
L2
+1
IS
+2
TS2431
IU31
1
2
16
15
5
6
-1
1213
11
-2
IU13
1
K
R
A
3
IU69
12V UNDER-VOLTAGE DETECTION
IU18
IU32
3U24
2
10R
IU19
IU15
3U09
3K3
3U41
3U46
3U25
3U23
4R7
IU17
IU25
2R2
IU16
33K 1%
12K 1%
2
3U27
3U07
6K8
2U12
2U38
3U45
7U01-1
IU23
10R
IU67
4
IU29
3U28
2R2
100n
1M0
100n
78
SI4936ADY
1
2U31
3n3
7U01-2
3U26
4R7
SI4936ADY
IU14
2U18
3U10
1K0
IU36
100n
3U97
6
5
SI4936ADY
3
IU30
7U03-1
2
3U08
3K3
IU45
7U03-2
56
SI4936ADY
4
3
2U32
3n3
78
1
IU44
6K8
3U83
3U96
6K8
3K3
2U11
3U82
6K8
FU13
IU26
1u0
7U07
BC817-25W
BOOSTER
IU86
12V/3V3 CONVERSION
FU03
10R
100n
2U19
3U21
IU54
IU22
1n0
6K8
2U27
3U13
IU21
1n0
2U28
1K0
3U12
12V/1V2 CONVERSION
BAS316
6U23
3UA8
IU60
68R
3UA9
68R
2U26
100n
6U22
BAS316
3U11
220R
6U21
IU28
BZX384-C18
IU27
IU55
3U20
2U29
2U30
10R
1n0
1n0
5U00
10u
2U20
IU40
3U14
IU41
3U15
3U16
GND-SIG
100n
6K8
1K0
4K7
5U03
VSW1
2U45
3n3
22u
2U85
2U24
4
BC857BS
7U29-2
3
FU06
22u
2U21
3n3
3U18
3U17
GND-SIG
220R
1%
1K0
1%
2U22
3U93
10K
BC847BS
10u
DC / DC
22u
IU58
7U15-2
2U72
5
IU78
3U55
10K
3
4
2U25
100n
BC857BS
7U29-1
BC847BS
5U02
10u
22u
1
6
3UA2
IU56
7U15-1
5
100K
6
1
IU59
3U95
IU42
420
1U04
T3A
IU43
1U01
420
3AT
1K0
3UA1
1u0
2
2U58
IU79
2U42
470n
3U84
IU46
10R
BAV99 COL
6U18
IU47
3U40
100K
9U04
9U05
SI4835BDY
12V SWITCH
( RESERVED )
7U27
TS2431
IU80
PDZ9.1-B
FU09
3UA3
6U06
6U05
STPS2L30A
9U08
2K2
2U73
1n0
FU08
FU07
*
9U06
FU18
3
A1K
R
2
+2V5 STABILIZER
IU81
47R
2U46
IUA1
FU05
0V
10R
3U54
2
IU57
7U28
PHD38N02LT
1K0
3U56
3U94
3K3
2K2
3UA7
1%
1K0
*
*
7U16
3UA5
IU01
1M0
2U50
3U44
7U14-1
BC847BS
3UA4
1K0
IU35
1%
BZX384-C12
3U43
6
1
6U11
47K
IU02
1u0
+12VSW
FU01
+12VS
1u0
IU34
2
3U35
2U59
2U74
6U12
BZX384-C12
3U52
4
5
BC847BS
3
7U14-2
3U53
IU37
3U34
47K
47K
FU15
+1V2
6.3V330u
+3V3
+2V5
330u 6.3V
+2V5D
IU83
1K0
IU33
330R
2U71
+5V
POD-MODE
ENABLE-3V3
VSW
100n
A
B
C
D
E
F
G
GND-SIG
H
3104 313 6073.5
3U37
560R
1%
3U38
GND-SIG
IU88
3U19
150R
2U37
470n
3U66
22K
3UA6
1%
*
1K0
3U39
1%
*
1K0
6U07
STPS2L30A
6U17
150R
3U67
3U69
150R
7U19
BC847B
IU53
4R7
IU52
3U68
150R
BZX384-C3V3
( RESERVED )
100p
2U23
2U09
IU61
100p
6K8
2U10
GND-SIG
100n
0u02
0U03
3U36
1M0
3U71
1K0
3U63
2U41
1u0
3U64
150R
3U65
150R
IU51
7U18
BC847B
IU50
4R7
3U70
+2V5D LINEAR STABILIZER
2U40
IU38
3U62
2U47
1u0
1K0
IU48
1n0
IU49
+5V2-STBY
7U17
TS2431
3
A1K
R
2
*
FU19
0V
9U03
GND-SIG
12345678910111213
ENABLE-1V2
14
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G
H
Page 76
Circuit Diagrams and PWB Layouts
76BJ3.0E PA 7.
SSB: DC / DC Connections
12345
6
78
DC/DC CONNECTIONS
B1B B1B
A
B
C
D
E
F
3104 313 6073.5
VSW1
220u
VSW
5U09
*
1K0
10K
3UB0
1K0
1M46
1
2
3
4
5
6
7
8
9
10
11
B11B-PH-K
1U10
7U24
BSH112
1U13
1U15
1U11
1U14
2U43
1U16
33p
1U12
3U59
IU76
3U61
12345678
VTUN GENERATOR
6U00
BAS316
2U08
IU75
33R
3U60
IU82
220p
2U44
+5V-CON
FU14
FU16
FU63
FU64
2U01
100p
2U00
220n
5U14
100p
2U02
FU60
FU62
2U03
100p
IU73
6U01
2U34
FU61
100p
2U39
3U57
100R
BZX384-C27
1u0
3UA0
100K
5U10
5U04
5U05
5U06
5U07
5U08
5U11
FU65
FU66
5U12
5U13
2U33
100p
IU74
100p
FU21
5U01
3U58
2K2
+12VSW
BC847BW
7U26
IU77
+VTUN
2U04
100n
2U05
100n
2U06
100n
IU39
2U07
100n
9U10
9U11
9U12
*
7U08
SI4835BDY
1u0
2U35
6U25
+8V6
+12VS
+5V
+5V2-STBY
*
+5V2-STBY_9V-STBY
100K
3U48
BZX384-C12
7U09
BC847BW
IU71
IU89
2U36
100n
47K
3U49
+8V6 SWITCH
ON-MODE
IU72
3U51
47K
IU70
3U50
47K
3U47
1R0
FU20
+8V6-SW
+5V
G_15960_017.eps
070206
A
B
C
D
E
F
1M46 D2
1U10 E2
1U11 E2
1U12 E3
1U13 E2
1U14 E2
1U15 F2
1U16 F2
2U00 F3
2U01 E3
2U02 F3
2U03 E3
2U04 F4
2U05 F5
2U06 F5
2U07 F5
2U08 B3
2U33 E4
2U34 B3
2U35 B5
2U36 B7
2U39 F3
2U43 B2
2U44 C3
3U47 B7
3U48 B6
3U49 C6
3U50 C7
3U51 C7
3U57 A4
3U58 B4
3U59 B1
3U60 B3
3U61 B1
3UA0 C4
3UB0 B2
5U01 D4
5U04 D4
5U05 D4
5U06 D4
5U07 D4
5U08 E4
5U09 B2
5U10 D4
5U11 E4
5U12 E4
5U13 E4
5U14 D3
6U00 A3
6U01 B3
6U25 B6
7U08 B6
7U09 C6
7U24 B2
7U26 B4
9U10 D5
9U11 E5
9U12 B6
FU14 D3
FU16 D3
FU20 B7
FU21 A4
FU60 D3
FU61 D4
FU62 D3
FU63 D3
FU64 E3
FU65 E4
FU66 E4
IU39 D5
IU70 B7
IU71 B6
IU72 C7
IU73 A3
IU74 B4
IU75 B3
IU76 B1
IU77 C4
IU82 B3
IU89 C6
Page 77
SSB: RS232 Interface
Circuit Diagrams and PWB Layouts
77BJ3.0E PA 7.
B1C B1C
A
B
C
D
FOR FACTORY
USE ONLY
E
3104 313 6073.5
1234
RS232 INTERFACE
+5V2-STBY
150R
3U73
3U72
IU90
7U20
BC847B
2U61
150R
+3V3-UART
10u 10V
GLINK-TXD
TXD
RXD
GLINK-RXD
2U63
100n
2U66
100n
9U15
IU87
IU99
9U16
1H07
1
2
3
4
5
6
7
8
9
10
11
12
13
14
147279-3
FU40
FU41
FU42
FU43
FU44
FU45
FU46
FU47
FU48
FU50
+3V3
TS431AILT
FU49
7U21
IUA2
3U74
3
5
K
A
9U07
1K0
1
2
NCNC
REF
3U91
*
10K
2U60
4
3U76
+3V3
3U90
10n
1V3
1K0
10K
3U92
IU91
3U75
IU92
1K0
1K5
3U77
JTAG-TRST
EJTAG-DETECT
EJTAG-TDO
EJTAG-TMS
EJTAG-TCK
RESET-SYSTEM
10K
EJTAG-TDI
5678
9U13
+3V3-UART
FU30
7U22
*
ST3232C
IU93
1
IU94
IU95
IU96
C1+
3
C1-
4
C2+
5
C2-
11 14
T1
10 7
T2
13 12
R1
89
R2
16
Φ
RS232
IN
OUT
IN OUT
GND
15
9U01
9U02
9U14
VCC
IU84
IU85
2U65
100n
2U64
100n
FOR
FACTORY
6
V-
2
V+
USE ONLY
IU00
T1
T2
R1
R2
IU98
IU64
IU97
3U98
100R
3U79
100R
3U81
100R
3U99
100R
FU51
FU52
FU31
FU32
1U02
1
2
3
45
B3B-PH-SM4-TBT(LF)
1U03
*
1
2
3
45
B3B-PH-SM4-TBT(LF)
G_15960_018.eps
070206
A
B
C
D
E
1H07 D1
1U02 D8
1U03 D8
2U60 B3
2U61 B3
2U63 C5
2U64 C6
2U65 C6
2U66 D5
3U72 A3
3U73 A4
3U74 A2
3U75 B3
3U76 B3
3U77 B3
3U79 D7
3U81 E7
3U90 D3
3U91 D2
3U92 E3
3U98 D7
3U99 D7
7U20 B3
7U21 B2
7U22 C5
9U01 E6
9U02 E6
9U07 E2
9U13 B6
9U14 E6
9U15 D4
9U16 E4
FU30 C6
FU31 D7
FU32 E7
FU40 D2
FU41 D2
FU42 D2
FU43 D2
FU44 D2
FU45 D2
FU46 E2
FU47 E2
FU48 E2
FU49 E2
FU50 E2
FU51 D8
FU52 D8
IU00 D7
IU64 D7
IU84 C6
IU85 D6
IU87 D5
IU90 A3
IU91 B3
IU92 B3
IU93 C5
IU94 C5
IU95 D5
IU96 D5
IU97 D7
IU98 D6
IU99 E5
IUA2 B2
12345678
Page 78
Circuit Diagrams and PWB Layouts
78BJ3.0E PA 7.
SSB: DVB-T: Tuner
12345
B2A B2A
A
B
C
D
E
F
G
DVB-T: TUNER
1T06
*
AGC-TUN
FREF-TUN
AGC-IF
P-IF
N-IF
*
TD1316AF/IHP-3
2T02
+5V
SCL-CD-TUN-BUS
SCL-MM-BUS1
+5V
SDA-CD-TUN-BUS
SDA-MM-BUS1
*
TEQ-716A
100n
3T68
*
4K7
*
UV1318S
1T05
1T04
*
3T69
4K7
TUNER
9T12
3T13
1K0
TUNER
IT18
9T06
9T05
*
1314
IF2|NC2
1314
MTMT
IF_OUT3
IF_OUT2
IF_AGC
IF_OUT1
XTAL_OUT
RF_AGC
DC_PWR
1314
TUNER
IT20
12
15
IFOUT
12
VST
ADC
NC1
SDA
SCL
AGC
15
2T34
RES
+5V
SDA
SCL
12
TU2
MB2
MB1
SDA
SCL
AGC
15
3T07
100R
IF1
NC
VS
AS
TU
CS
AS
100R
3T09
11
10
9
8
7
6
5
4
3
2
1
1u0
2T35
*
11
10
9
8
7
6
5
4
3
2
1
11
9
8
7
6
5
4
3
1
IT04
RES
IT05
RES
+33VTUN
100n
100n
2T32
2T09
*
*
FT03
IT02
9T08
+5VTUN
IT14
IT13
9T07
RES
FT06
FT07
2T04
2T33
100n
+5VTUN
100n
2T31
AT02
9T25
*
9T19
*
10n
5T01
1u0
1u0
1u0
2T36
*
FT21
9T24
220R
5T10
47p
2T13
*
9T23
5T11
220R
47p
2T10
*
*
2T27
9T73
IT26
+5VTUN
100n
2T24
*
7T10
*
BC847BW
3T29
*
IT19
47u 16V
22K
2K2
3T28
*
100n
2T28
*
*
2T29
100n
2T30
RES
1u0
+5VTUN
*
33K
3T26
IT10
*
100K
RES
3T25
RES
3T27
*
10K
6T02
BAS316
6T03
BAS316
RES
FT04
9T01
RES
100n
2T25
*
*
H
I
NOT FOR TD1316 TUNER
AGC2
3104 313 6073.5
123456789
6 7 8 9 10 11 12
IT17
IT11
RES
AT15
3T50
100K
2T84
RES
+5VTUN
IT24
5T12
3T24
3T23
10p
7T11
BFS20
IT25
30R
33R
270R
+8V6-SW
2T22
10n
2T23
IF-TER2
2T12
100n
10n
+VTUN
7T02
L78M05CDT
IT01
2T03
1
OUTIN
IN
COM
IT15
GND
2
FT20
FT22
*
6T01
PDZ33-B
*
100n
3T04
*
100R
3T06
*
100R
OUT
3T05
100R
IT03
3
10u
2T18
IT09
220n
220n
2T01
2T26
*
*
*
NOT FOR TD1316 TUNER
5T04
220R
2T08
*
220n
5T05
1K0
FT05
FT01
+5VTUN_MPIF
+5VTUN
+33VTUN
2T21
10n
10n
2T85
3T51
100K
*
*
2K2
3T20
2K7
3T22
33R
9T20
RES
IT23
IT22
3T21
10 11 12
G_15960_019.eps
070206
A
B
C
D
E
F
G
H
I
1T04 E2
1T05 C2
1T06 A2
2T01 E10
2T02 F1
2T03 C8
2T04 D5
2T08 E10
2T09 B5
2T10 G3
2T12 C8
2T13 F3
2T18 C9
2T21 G6
2T22 G7
2T23 G8
2T24 H3
2T25 I2
2T26 E9
2T27 I2
2T28 I4
2T29 I4
2T30 I4
2T31 D5
2T32 B5
2T33 G5
2T34 C2
2T35 C2
2T36 C3
2T84 A7
2T85 A6
3T04 D9
3T05 D9
3T06 D9
3T07 F2
3T09 G2
3T13 C2
3T20 G6
3T21 H6
3T22 G7
3T23 H7
3T24 G7
3T25 H1
3T27 H2
3T28 I3
3T29 I3
3T50 A7
3T51 A6
3T68 F2
3T69 G2
5T01 G5
5T04 C10
5T05 D10
5T10 F3
5T11 G3
5T12 F7
6T01 E9
6T02 H2
6T03 I2
7T02 B9
7T10 H3
7T11 G7
9T01 H2
9T05 G2
9T06 F2
9T07 F3
9T08 F3
9T12 C2
9T19 G5
9T20 G7
9T23 G3
9T24 F3
9T25 G5
9T73 H3
AT02 G5
AT15 G7
FT01 D10
FT03 B3
FT04 H2
FT05 C10
FT06 C4
FT07 C4
FT20 C9
FT21 F3
IT01 C8
IT02 F3
IT03 C10
IT04 F2
IT05 G2
IT09 D10
IT10 H1
IT11 A6
IT13 D3
IT14 B3
IT15 D9
IT17 A7
IT18 F2
IT19 I3
IT20 G2
IT22 G6
IT23 G7
IT24 G7
IT25 G7
IT26 H3
Page 79
Circuit Diagrams and PWB Layouts
79BJ3.0E PA 7.
SSB: DVB-T: Channel Decoder
12345
B2B B2B
DVB-T: CHANNEL DECODER
6
A
+3V3
22K
2T17
33K
6.3V
22u
3T64
iT65
6
2
7T19-1
BC847BPN
1
+3V3DVB
7T14
*
B
C
+3V3
+3V3
LD1117DT18
32
OUTIN
COM
1
100n
2T75
RES
7T19-2
BC847BPN
FT15
9T44
4
5
RESET-FE-MAIN
+1V8DVB
5T08
600R
IT73
2T89
FT11
2T74
100n
3T65
100n
3T66
22K
10V10u
2T76
IT75
3
RES
10n
2T67
3T85
IT72
1K0
N-IF
D
E
F
G
P-IF
AGC-IF
FREF-TUN
AGC-TUN
3T93
100K
IT74
3T76
3T80
IT33
560R
330R
IT40
2T77
3T73
IT38 IT39
10K
100n
100n
2T78
2T81
100n
IRQ-FE-MAIN
SEL-POD
CISEL-3V3
IT31
5T15
+3V3DVB
IT66
IT71
+3V3DVB
10K
100n
3T98
2T88
IT35
6
2
7T18-1
BC847BPN
1
4
BC847BPN
7T18-2
5
3
3T97
IT70
1K0
10K
3T96
1K0
2
5
NC
7T13
3
74LVC1GU04GW
1
2T92
100n
3T70
220K
4
SDA-DMA-BUS1-DVBT
SCL-DMA-BUS1-DVBT
SDA-CD-TUN-BUS
SCL-CD-TUN-BUS
H
I
3104 313 6073.5
123456
7 8 9 10 11 12 13
+3V3DVB
+1V8DVB
+1V8DVB
+3V3DVB
2T72
7T17
9
1
2
62
61
54
55
21
23
25
26
11
10
8
6
4
3
12
100n
2T71
CLR_
AGC_TUN
AGC_IF
VIP
VIM
XIN
XOUT
GPIO0
GPIO1
GPIO2
GPIO3
SADDR0
SADDR1
SDA
SCL
SDA_TUN
SCL_TUN
TEST
100n
64
VDD33_ADC
IT64
60
59
53
57
VDDA18_PLL
VDDA33_ADC
VDD18_PLL_ADC
I2C
VSSA_ADC63VSSA_OSC
VSS_PLL_ADC
56
58
VDDA18_OSC
IT37
+3V3DVB
+5V
RES
3T71
3T74
100n
2T73
+5V
TDA10046AHT
47K
3T52
4K7
2K2
3T72
1K0
2T82
39p
3T90
100R
3T92
100R
2T91
RES
100n
2T93
RES
1T08
16M
RES
9T35
9T37
47p
47p
2T90
RES
RES
9T38
2T80
10n
AT40
RES 2T83
39p
9T36
2T86
2T79
10n
IT57
IT58
IT59
IT60
IT61
IT46
IT47
100n
IT44
IT56
IT55
IT48
789
VSS7
52
+1V8DVB
50
VDDI18_4
45
+1V8DVB
42
VDDI18_3
VSS6
40
+1V8DVB
22
VDDI18_2
VSS5
29
+3V3DVB
+1V8DVB
+3V3DVB
5
VDDI18_1
VSS4
47
VSS3
15
24
2T58
19
34
VDDE33_1
VDDE33_2
VDDE33_3
TDO
TDI
TMS
JTAG
TCK
MPEG-TS (SERIAL)
TRST
ENSERI
S_DO
S_OCLK
S_DEN
S_PSYNC
MPEG-TS (SERIAL)
S_UNCOR
DO0
DO1
DO2
DO3
DO4
DO5
DO6
DO7
OCLK
DEN
MPEG-TS (PARALLEL)
PSYNC
UNCOR
SACLK
VSS1
VSS2
7
100n
2T59
20
17
16
18
14
13
32
31
30
28
27
38
39
41
43
44
46
48
49
37
36
35
33
51
+3V3DVB
IT32
100n
2T60
3T95RES
9T43
IT49
IT50
IT51
IT52
IT53
100n
10K
3T91-1
3T82-2
3T86-1
3T86-3
9T39
9T41
68R
68R
68R
68R
2T63
3T91-2
3T91-4
FT16
100n
2T64
100n
2T65
100n
2T66
100n
JTAG-TD-DVB-HDMI
9T40
3T82-1
68R
3T82-3
68R
3T86-2
68R
3T86-4
68R
68R
3T91-3
68R
RES
68R
JTAG-TD-PNX2015-DVB
10 11 12 13
JTAG-TMS
JTAG-TCK
JTAG-TRST
FE-DATA0
FE-DATA1
FE-DATA2
FE-DATA3
FE-DATA4
FE-DATA5
FE-DATA6
FE-DATA7
FE-CLK
FE-VALID
FE-SOP
G_15960_020.eps
070206
A
B
C
D
E
F
G
H
I
1T08 F7
2T17 C5
2T58 D11
2T59 D11
2T60 D11
2T63 D11
2T64 D11
2T65 D12
2T66 D12
2T67 C4
2T71 C8
2T72 C8
2T73 C8
2T74 C5
2T75 B3
2T76 B4
2T77 F6
2T78 F6
2T79 F8
2T80 F8
2T81 F6
2T82 F7
2T83 F8
2T86 E8
2T88 F3
2T89 B5
2T90 H7
2T91 H7
2T92 E5
2T93 E7
3T52 D8
3T64 B6
3T65 B5
3T66 B5
3T70 D5
3T71 E7
3T72 E7
3T73 E6
3T74 E7
3T76 F5
3T80 F5
3T82-1 G12
3T82-2 G11
3T82-3 G12
3T85 D4
3T86-1 G11
3T86-2 G12
3T86-3 G11
3T86-4 G12
3T90 G7
3T91-1 G11
3T91-2 G11
3T91-3 G12
3T91-4 H11
3T92 G7
3T93 F2
3T95 E11
3T96 G2
3T97 G3
3T98 F3
5T08 C5
5T15 E4
7T13 E4
7T14 B3
7T17 D8
7T18-1 G3
7T18-2 F2
7T19-1 B6
7T19-2 C3
9T35 G7
9T36 H8
9T37 G7
9T38 H8
9T39 E11
9T40 E12
9T41 E11
9T43 F11
9T44 C4
AT40 F8
FT11 C5
FT15 B4
FT16 H11
IT31 D5
IT32 F11
IT33 D6
IT35 F3
IT37 E7
IT38 E6
IT39 E8
IT40 F6
IT44 E8
IT46 F8
IT47 G8
IT48 G8
IT49 F11
IT50 F11
IT51 F11
IT52 F11
IT53 F11
IT55 F8
IT56 F8
IT57 F8
IT58 G8
IT59 G8
IT60 G8
IT61 G8
IT64 H9
IT66 F2
IT70 G3
IT71 G3
IT72 D4
IT73 B5
IT74 F2
IT75 C4
iT65 B6
Page 80
Circuit Diagrams and PWB Layouts
SSB: MPIF Main: Video Source Selection
0T00 B11
2C01 C4
2C02 D4
2C03 C2
2C04 D4
2C05 D3
2C06 D2
2C07 D3
2C08 D2
2C09 E3
2C11 E2
2C12 E4
12345
2C13 E5
2C14 E3
2C15 F2
2C16 F3
2C17 F3
2C18 G2
2C19 G3
2C20 G2
2C22 F6
2C23 F8
80BJ3.0E PA 7.
2C27 G4
2C28 G4
5C01 F4
5C03 G4
7C00-4 C7
FC02 C5
FC03 F5 IC06 C4
FC04 F11
FC06 G5
IC02 C4
IC04 F6
IC05 F8
678
IC07 D4
9
IC08 E5
IC09 E5
10 11 12
IC10 C3
IC11 C8
IC12 D8
B3A B3A
MPIF MAIN: VIDEO SOURCE SELECTION
A
0T00
B
C
D
E
F
G
CVBSOUTIF-MAIN
AV1_CVBS
AV2_Y-CVBS
AV2_C
FRONT_Y-CVBS
FRONT_C
AV7_Y-CVBS
AV7_C
AV1-AV5-AV6_R-PR
AV1-AV5-AV6_G-Y
AV1-AV5-AV6_B-PB
AV2-AV4_R-PR
AV2-AV4_G-Y
AV2-AV4_B-PB
2C03
22n
2C06
22n
2C08
22n
2C11
22n
2C15
22n
2C18
22n
2C20
22n
IC10
2C01
IC02
*
22n
2C05
2C07
22n
2C09
22n
2C14
22n
2C16
22n
2C17
22n
2C19
22n
22n
+5VMPIF-MAIN
+5VMPIF-MAIN
2C02
IC06
IC07
22n
22n
2C04
IC09
IC08
*
2C12
5C01
30R
5C03
30R
2C27
2C28
*
22n
2C13
FC03
100n
FC06
100n
FC02
22n
IC04
22n
2C22
7C00-4
PNX3000HL/N2
123
126
119
12
4
5
8
9
15
16
6
25
26
27
30
31
32
49
48
47
54
64
59
SOURCE SELECT
CVBS_IF
AND DATA LINK
CVBS1
CVBS2
CVBS_DTV
CVBS|Y3
C3
CVBS|Y4
C4
Y_COMB
C_COMB
GND_VSW
R|PR|V_1
G|Y|Y_1
B|PB|U_1
R|PR|V_2
G|Y|Y_2
B|PB|U_2
VCC_DIG
GND_DIG
VD2V5
FUSE10
VCC_I2D
GND_I2D
CVBS_OUTA
CVBS_OUTB
STROBE1N
STROBE1P
DATA1N
DATA1P
STROBE3N
STROBE3P
DATA3N
DATA3P
STROBE2N
STROBE2P
DATA2N
DATA2P
HV_PRIM
HV_SEC
IC11
IC12
22
60
61
62
63
50
51
52
53
55
56
57
58
46
IC05
45
22n
2C23
FC04
STROBE1N-MAIN
STROBE1P-MAIN
DATA1N-MAIN
DATA1P-MAIN
STROBE3N-MAIN
STROBE3P-MAIN
DATA3N-MAIN
DATA3P-MAIN
STROBE2N-MAIN
STROBE2P-MAIN
DATA2N-MAIN
DATA2P-MAIN
HV-PRM-MAIN
A
B
C
D
E
F
G
H
3104 313 6073.5
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H
G_15960_021.eps
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7891011
12
Page 81
Circuit Diagrams and PWB Layouts
81BJ3.0E PA 7.
SSB: MPIF Main: Supply
12345678910
B3B B3B
A
B
C
D
E
F
G
H
I
3104 313 6073.5
MPIF MAIN: SUPPLY
7C00-3
PNX3000HL/N2
MPIF-SUPPLY
E/W & CONTROL
IC01
3C46
4
3
3C38
33R
10K
IC41
5
BC847BPN
3C37
330R
IC34
7C32-1
3C35
6
1
3C42
1K0
IC40
330R
+8V6-SW
Y-CVBS-MON-OUT
DAC-CVBS
5C37
120R
2C32
100n
2C33
10u 10V
BC847BPN
7C32-2
IC33
123
5C35
VOUTO
VAUDS
VDEFLO
VDEFLS
RREF
BGDEC
FUSE9
FUSE8
FUSE7
GND_FILT
GND_RGB
GND_VADC
VCC_FILT
VCC_RGB
VCC_VADC
TESTPIN3
TESTPIN2
EWVIN
REW
EWIOUT
SCL
SDA
XREF
ADR
FUSE6
IC39
2
FC31
IC35
2C31
2C43
10V10u
100n
100u 4V
2C39
3C31
10R
1C33
500mA F
30R
FC32
3V2
FC41
5C33
30R
100n
FC40
IC15
IC16
2
22p
IC38
1V4
IC81
3V9
IC82
2C40
RES
15K
3C41
+5VMPIF-MAIN
1V4
100n
5C62
*
3C30
3C32
3C34
5C34
220R
30R
3C48
6
7C31-1
BC847BS
1
560R
IC37
1K2
1K2
5
33K
1%
3C43
3C44
IC83
3
7C31-2
BC847BS
4
1K8
1K2
FC36
+5VMPIF-MAIN
3C49
180R
9C50
2C45
+8V6-SW
+5V
IC36
3V9
res
2C41
2
3
20
21
13
7
33
10
23
11
29
34
14
28
35
18
24
36
38
37
44
43
42
IRQ
40
39
41
82K
3C36
47K
3C47
IC89
IC46
IC44
IC45
2C34
1u0
2C37
1u0
IC47
FC38
3C33
820R
+5VMPIF-MAIN
2C44
3C45
47K
2C35
3C39
100R
100n
100n
2AB5
1n0
IC32
2C36
5C36
220R
5C61
30R
3C40
100R
1u0
2C46
2C42
1u0
+5VMPIF-MAIN
22p
FC37
+5VMPIF-MAIN
VREF-AUD-POS
VREF-AUD
VREF-DEFL
+5VMPIF-MAIN
EW-DRIVE
SCL-DMA-BUS2
SDA-DMA-BUS2
IRQ-MPIF
CLK-MPIF
SPI-PROG
SDM
+8VMPIF-MAIN
+5VMPIF-MAIN
456789
10
9C47
2C47
100p
2C48
100p
9C48
9C46
11
G_15960_022.eps
070206
11
A
B
C
D
E
F
G
H
I
1C33 I8
2AB5 B5
2C31 A7
2C32 H2
2C33 H3
2C34 H5
2C35 C5
2C36 C5
2C37 H5
2C39 E7
2C40 E6
2C41 B6
2C42 C6
2C43 B7
2C44 E5
2C45 E7
2C46 C6
2C47 F10
2C48 G10
3C30 B6
3C31 I8
3C32 B6
3C33 E5
3C34 B6
3C35 H4
3C36 H4
3C37 I3
3C38 I3
3C39 E5
3C40 F5
3C41 F6
3C42 I4
3C43 C7
3C44 D7
3C45 C5
3C46 H3
3C47 I4
3C48 F6
3C49 F7
5C33 D8
5C34 D6
5C35 A8
5C36 D5
5C37 H2
5C61 E5
5C62 D6
7C00-3 A4
7C31-1 A6
7C31-2 C7
7C32-1 H4
7C32-2 H3
9C46 G10
9C47 F10
9C48 G10
9C50 A7
FC31 A7
FC32 A8
FC36 D7
FC37 D6
FC38 D5
FC40 F8
FC41 C8
IC01 H3
IC15 I8
IC16 I8
IC32 C5
IC33 H3
IC34 H4
IC35 F7
IC36 A6
IC37 B7
IC38 B6
IC39 H4
IC40 I4
IC41 G3
IC44 E5
IC45 F5
IC46 E5
IC47 C5
IC81 C6
IC82 C6
IC83 A7
IC89 E5
Page 82
Circuit Diagrams and PWB Layouts
SSB: MPIF Main: IF & SAW Filter
1C51 A5
1C52 C5
1C53 D5
1C54 A10
2AB4 B9
2AB8 C9
2C50 A5
2C51 B10
2C52 A1 3C70 A9
2C53 A1
2C55 B7
2C57 B7
2C58 B8
2C60 B1
2C63 B6
2C65 C9
2C67 C6
2C68 C8
2C70 D2
2C72 E2
2C75 B7
2C78 C6
2C79 C8
2C83 D6
2C84 B3
2C85 B4
2C86 B4
3C50 D3
3C51 A6
3C53 B7
3C56 D2
3C57 D2
3C58 D4
3C59 D3
3C61 E4
82BJ3.0E PA 7.
3C63 D7
3C65 D3
3C66 D4
3C67 E2 9C53 C4
3C71 B9
3C72 B10
3C73 B9
3C74 C10
3C75 C10
3C76 A9
3C77 A9
3C80 B3
5C51 A6
5C52 A1
5C53 B7
5C55 C9
5C56 C9
5C57 D2
5C58 A1
5C59 B1
5C60 A7
5C70 B3
6C51 D4
6C52 D3
7C00-2 B7
7C53 D4
7C54 E3
7C55 E2
7C56-1 B10
7C56-2 B9
7C57 A9
9C51 A4
9C52 A4
9C54 C4
9C56 C4
9C57 C4
9C58 E2
9C61 C7
AC01 C6
AC02 C6
AC03 C6
AC04 C6
AC05 C4
FA46 D7
FC10 B3
FC52 C6
FC73 D1
IC13 B8
IC14 C8
IC48 B4
IC49 C4
IC51 A1
IC52 B1
IC54 D3
IC55 C3
IC56 D23C60 E1
IC57 D4
IC58 E2
IC59 B7
IC60 B7
IC61 C7
IC63 C9
IC64 C8
IC65 C8
IC72 B7
IC74 D4
IC75 B6
IC76 A9
IC77 A9
IC78 C105C54 B1
IC79 B9
IC80 B9
IC84 C4
IC85 A4
IC86 B8
IC87 B8
IC88 B8
123
456789
10
MPIF MAIN: IF + SAW FILTER
B3C B3C
+5VbM
+5VbM
2C78
AC01
AC02
AC03
AC04
5C51
30R
3C51
4R7
5C60
IC75
IC59
2C63
100n
1u0
1u0
2C67
FC52
2C83
30R
5C53
220R
10n
2C57
2C75
330u 6.3V
7C00-2
PNX3000HL/N2
IC60
3C53
111
IC61
FA46
VIFPLL
107
VIFINP
108
VIFINN
99
SIFINP
100
SIFINN
101
SIFAGC
105
TUNERAGC
113
2NDSIFEXT
106
FUSE4
3C63
100R
390R
9C61
10n
IC72
112115
GND1_IF
GND2_IF
2C55
IC88
110
VCC_IF
DTVIFPLL
IF PART
GND_SUP
FUSE5
121
119
100n
109
2C58
10n
IC86
103
DTVIFINP
DTVIFINN
TESTPIN1
124
IC87
104
CVBSOUTIF
DTVOUTP
DTVOUTN
VCC1_VSW
VCC_SUP
VCC2_VSW
2NDSIFAGC
DTVIFAGC
IC13
120
IC14
116
117
122
118
125
+5VaM
+5VaM
IC64
114
102
1u0
1u0
2C68
2C79
IC65
40M4 1C51
A
2C84
220p
9C51
*
9C52
*
IC85
2C85
*
68p
*
3p3
2C86
9C53
*
IC55
9C54
*
AC05
IC84
9C56
*
9C57
*
6C51
IC74
*
+8VaM
BA591
*
BA591
3C59
22K
*
4K7
4K7
3C66
3C58
IC57
3C61
7C53
*
BC847BW
47K
*
*
*
6C52
*
IC49
IC48
2
3
1
4
5
6
9
10
13
14
15
18
+8VMPIF-MAIN
2C52
+5VMPIF-MAIN
B
5C54
220R
IC51
5C52
220R
5C58
30R
10u 16V
30R
5C59
IC52
2C53
2C60
+8VaM
10n
3C80
**
33R
5C70
6
*
+5VaM
10n
VALUE
8
FC10
7
1234
C
+8VaM
*
6K8
3C56
*
3C57
9C58
+8VaM
*
3C67
2K2
*
4K7
IC58
7C55
BC847BW
*
RES
5C57
2C72
2C70
10n
30R
IC56
1n0
IF-TER2
FC73
D
SEL-IF-LL2
3C60
27K
E
IC54
3C65
+8VaM
**
4K7
4K7
3C50
7C54
BC847BW
2
I
3
ISWI
1
4
OFWK9656L
5
6
9
10
GND
13
14
15
18
38M9 1C52
*
I1
I2
GND
OFWK3953L
38M
2
I1
3
I2
1
4
5
6
9
10
GND
13
14
OFWK3955L
15
18
*
7
O1
8
O2
11
12
16
NC
17
7
O1
8
O2
11
12
NC
16
17
1C53
*
7
O1
8
O2
11
12
16
NC
17
2C50
*
10n
+5VTUN_MPIF
+5VMPIF-MAIN
2NDSIFEXTM
IC76
3C70
3
1
7C57
100R
2C65
2
3C76
IC63
10n
BC847BW
IC77
120R
3C71
100R
3C73
100R
3C77
1K0
5C55
30R
5C56
220R
1C54
13
2
IC80
2
RES
100p
2AB4
BC847BS
7C56-2
IC79
5
RES
100p
2AB8
I
GND
+5VbM
+5VbM
SFSKA
6
7C56-1
BC847BS
1
3
4
IC78
O
180R
3C72
3C74
180R
+5VTUN_MPIF
2C51
100n
3C75
180R
2NDSIFEXTM
CVBS-TER-OUT
CVBSOUTIF-MAIN
AGC2
A
B
C
D
E
3104 313 6073.5
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Page 83
Circuit Diagrams and PWB Layouts
83BJ3.0E PA 7.
SSB: MPIF Main: Audio Source Selection
12
B3D B3D
MPIF MAIN: AUDIO SOURCE SELECTION
34 78
56
A
B
IK94
7C00-1
91
77
98
88
92
93
94
95
89
90
97
96
78
76
71
87
PNX3000HL/N2
VAADCP
VCC_AADC
VCC1_ASW
VCC2_ASW
MIC2N
MIC2P
MIC1N
MIC1P
VAADCREF
VAADCN
GND1_ASW
FUSE1
FUSE2
GND_AADC
FUSE3
GND2_ASW
AUDIO SOURCE SELECT
1u0
1u0
2K47
2K40
IK24
100n
2K45
IK93
100n
2K46
2K41
100n
IK25
IK23
2K43
9C60
100n
C
+5V-AUD
+8V-AUD
D
E
9 12
10 11
A
B
C
D
E
2K40 C4
2K41 C3
2K43 C3
2K45 D4
2K46 C3
2K47 C3
2K58 H10
2K60 H10
2K61 I10
2K63 I10
2K64 I3
2K65 H3
2K67 F3
2K68 G3
2K75 G3
2K76 G3
7C00-1 B5
9C60 C3
IK01 F4
IK03 G4
IK04 G4
IK10 H4
IK11 F8
IK12 F8
IK13 G8
IK14 G8
IK15 H8
IK16 H8
IK17 I8
IK18 I8
IK21 I4
IK22 G4
IK23 C3
IK24 C4
IK25 C3
IK93 D4
IK94 B3
AMEXTL1R1
86
17
85
R3L4R4L5R5L2DSNDL1
R2
L3
83
81
84
79
82
80
F
AUDIO-IN1-L
AUDIO-IN1-R
G
AUDIO-IN2-L
AUDIO-IN2-R
2K67
1u0
2K68
1u0
2K75
1u0
2K76
1u0
IK01
IK22
IK03
IK04
H
AUDIO-IN5-L
AUDIO-IN5-R
2K65
1u0
2K64
1u0
IK10
IK21
I
DSNDR1
DSNDR2
LINEL
LINER
SCART1L
SCART1R
SCART2L
DSNDL2
757374
72
68
127
128
67
706966
SCART2R
65
IK11
AUDIO-OUT2-R
F
IK12
IK13
IK14
IK15
IK16
IK17
IK18
1u0
2K60
1u0
2K58
1u0
2K63
1u0
2K61
AUDIO-OUT2-L
AUDIO-OUT1-R
AUDIO-OUT1-L
DSNDR2
DSNDL2
DSNDR1
DSNDL1
G
H
I
3104 313 6073.5
1
23
456789
10 11
12
G_15960_024.eps
070206
Page 84
Circuit Diagrams and PWB Layouts
84BJ3.0E PA 7.
SSB: MPIF Main: Audio
1
23456789101112
13
MPIF MAIN: AUDIO
B3E B3E
A
B
C
D
E
F
G
H
I
3104 313 6073.5
1234
ADAC4
ADAC2
ADAC1
+5V2-STBY
A-PLOP
100K
3A52
IK53
3A53
6
10K
1
2A91
6A02
BAS316
IK51
1u0
47K
3A28
3A51
680K
BC847BPN
IK52
0V
7A08-1
2
ADAC7
ADAC8
+12VSW
+12VSW
+12VSW
RES
3A80
470K
IK89
**
1u0
3A81
120K
2AA6
IK91
2AA5
*
220n
*
3A82
150K
*
33K
3A14
IK95
+12VSW
7A05-3
3A26
18K
3A24
18K
LM324
10
9
7A05-4
LM324
12
13
IK48
IK47
9A80
11
9A81
+12VSW
11
*
4
2A89
33p
3A27
47K
*
4
2A90
33p
3A25
47K
IK70
IK72
2A96
IK90
9A90
3AA1
8
220R
IK98
3A40
1K0
100n
3AA2
14
220R
IK99
3A39
1K0
*
3A83
*
3A85
1K2
7A14-1
BC847BPN
IK92
390R
*
IK71
IK73
*
9A86
IK31
BC847BPN
7A14-2
*
2AB3
*
1n0
*
3A84
IK97
*
1K0
BC847BPN
IK54
5
0V
AUDIO-SW
AUDIO-R
AUDIO-L
+5V2-STBY
7A08-2
3A54
4
3
10K
VREF-AUD
2A88
100n
+5V-AUD
3A31
3A32
3A33
LM324
5
6
7A05-2
33K
IK67
47K
2A87
100K
+12VSW
4
11
FK07
5
6
IK88
1u0
IK49
74HCU04PW
74HCU04PW
3A87
10K
BC847BW
+5V
100n
2A93
84
7
2A98
33p
3A37
100K
3A21
27K
3A78
22K
7A13-1
1
1
714
9A88
*
7A13-5
1
11
714
7A13-3
1 1
5
714
+5V
2A20
IK62
*
220K
IK96
2
1V
+8V-AUD
IK02
FK01
2A79
18K 68R
3A59
3A63
3A65
220K
1u0
100K
BC847BPN
7A10-2
10K
+5V-AUD
2A22
IK46
100u16V
+5V2-STBY
4
3
IK66
5V1
1u0
2AA3
2A85
100n
100n
3A15
100u16V
2AA0
5
IK86
2AA4
3A62
4V4
IK55
+5V-AUD
3A34
3A35
3A36
4V100u
2A23
1n0
75R
FK02
1K0
3A64
10K
33K
1u0
47K
2A86
7A04-2
TS482IST
IK87
100K
9A83
*
2A83
3A20
15K
+3V3
2R2
3A77
FK18
IK57
2A32
3A56
IK75
3A50
FK03
2A81
3A30
47u 16V
220R
7A10-1
BC847BPN
1u0
+8V6-SW
18K
IK76
3A55
100K
BC807-25W
470K
3A57
FK65
0V4
1
0V3
6A00
*
18R
3A90
7A06
BC817-25W
10K
3A43
220K
3A44
7A09
IK64
3A58
150R
6
BAT54 COL
3A91
3A45
7A04-1
84
2A84
10K
3
2
IK69
3A46
1K0
TS482IST
FK00
1
2A99
33p
3A38
100K
1u0
3A23
IK50
27K
IK78
1
2AB1
IK63
IK06
+12VSW
15R
3A95
7A07
BC817-25W
10K
3A48
IK79
10K
3A49
IK74
3A41
1K0
1n0
10K
3A42
IK68
1u0
9A82
*
3A22
15K
IK77
7
1n0
3A47
2AB2
+12VSW
7A05-1
LM324
4
3
2
11
SPDIF-OUT1
+5V2-STBY
IK30
7A16
2
10
6
3A29
FK09
IK83
470K
2AA1
3A73
BC857BW
7A15
3A60
33R
3A61
33R
IK33
7A11
16V47u
IK82
220R
BC847BPN
3A88
3A66
100K
BC807-25W
FK17
0V4
7A12-1
0V3
1K0
3A71
1
6A01
IK59
3A79
IK81
3A72
150R
6
BAT54 COL
47K
IK32
IK80
220K
IK05
2
1V0
74HCU04PW
7A13-6
74HCU04PW
74HCU04PW74HCU04PW
3A70
7A13-2
7A13-4
16V 100u
100K
BC847BPN
3A74
10K
3A76
220K
3
13
9
2A21
100u16V
2AA2
RES
+5V2-STBY
7A12-2
IK84
5V1
1
714
1
714
714
3A16
220R
3A17
3A67
33R
3A68
33R
BC847BW
120R
7A17
FK11
IK85
1K0
3A69
4V5
4
IK56
3A75
5
3
4
12
8
10K
3A86
68R
2A24
IK60
IK58
100n
5678910111213
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
3A89
1K0
SPDIF-IN1SPI-1
SPI-OUT
14
G_15960_025.eps
070206
14
2A20 A8
2A21 C12
2A22 G8
2A23 H9
2A24 H12
2A32 B7
2A79 G8
2A81 F7
2A83 D9
2A84 B6
2A85 C9
2A86 C9
A
2A87 B6
2A88 B5
2A89 G3
2A90 I3
2A91 B3
2A93 C10
2A96 H3
2A98 D10
2A99 B7
2AA0 A8
2AA1 C10
B
2AA2 C12
2AA3 G9
2AA4 G9
2AA5 E2
2AA6 E3
2AB1 G7
2AB2 E6
2AB3 E4
3A14 F2
3A15 H9
3A16 I13
3A17 I13
C
3A20 E9
3A21 E10
3A22 B6
3A23 B7
3A24 I2
3A25 I3
3A26 G2
3A27 G3
3A28 B3
3A29 C10
3A30 B7
3A31 A5
D
3A32 B5
3A33 B5
3A34 C9
3A35 C9
3A36 D9
3A37 D10
3A38 B7
3A39 I3
3A40 G3
3A41 F7
3A42 G7
E
3A43 G8
3A44 G8
3A45 G8
3A46 E6
3A47 E6
3A48 F7
3A49 F7
3A50 F7
3A51 A3
3A52 A4
3A53 A4
3A54 B5
F
3A55 A8
3A56 B7
3A57 B8
3A58 B8
3A59 B8
3A60 A11
3A61 B11
3A62 B9
3A63 C8
3A64 B9
3A65 C8
3A66 C11
G
3A67 C13
3A68 C13
3A69 C12
3A70 C11
3A71 D11
3A72 D11
3A73 D10
3A74 D11
3A75 D12
3A76 D11
3A77 G9
H
3A78 G10
3A79 H11
3A80 E2
3A81 E2
3A82 E2
3A83 D3
3A84 E4
3A85 F3
3A86 H12
3A87 A10
3A88 B11
3A89 D13
I
3A90 F8
3A91 F8
3A95 E7
3AA1 G3
3AA2 H3
6A00 C8
6A01 E11
6A02 A3
7A04-1 A7
7A04-2 C9
7A05-1 F6
7A05-2 E5
7A05-3 F2
7A05-4 H2
7A06 F8
7A07 E7
7A08-1 A4
7A08-2 A5
7A09 A8
7A10-1 C8
7A10-2 B9
7A11 C11
7A12-1 D11
7A12-2 D12
7A13-1 H10
7A13-2 H11
7A13-3 I10
7A13-4 I11
7A13-5 H10
7A13-6 H11
7A14-1 E3
7A14-2 E4
7A15 A11
7A16 B10
7A17 C13
9A80 I3
9A81 G3
9A82 B6
9A83 D9
9A86 D4
9A88 H10
9A90 F3
FK00 A7
FK01 G8
FK02 A9
FK03 E7
FK07 B9
FK09 C10
FK11 C12
FK17 D11
FK18 G9
FK65 B8
IK02 F8
IK05 D11
IK06 C7
IK30 A10
IK31 D4
IK32 A11
IK33 B11
IK46 B9
IK47 I3
IK48 G3
IK49 E10
IK50 C6
IK51 A3
IK52 A3
IK53 A4
IK54 A4
IK55 B9
IK56 D12
IK57 G9
IK58 I12
IK59 H11
IK60 I12
IK62 A8
IK63 B7
IK64 B8
IK66 C8
IK67 B6
IK68 A6
IK69 B6
IK70 F2
IK71 G4
IK72 H2
IK73 H4
IK74 F7
IK75 F7
IK76 G7
IK77 E6
IK78 E7
IK79 F7
IK80 C11
IK81 C11
IK82 D11
IK83 D10
IK84 D12
IK85 C12
IK86 C9
IK87 D9
IK88 D9
IK89 E3
IK90 E3
IK91 E2
IK92 E3
IK95 F2
IK96 B8
IK97 E4
IK98 G3
IK99 I3
Page 85
Circuit Diagrams and PWB Layouts
85BJ3.0E PA 7.
SSB: MPIF Main: Connections A
123456789
B3F B3F
MPIF MAIN: CONNECTIONS A
A
9A32
2A41
100p
9A33
G
2A42
100p
9A34
2A43
B
1E41
1
C
FOR 32"
D
TO EXTERNALS
E
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
40FMN-BMT-A-TFT
+8V6-CONN
+5V2-CONN
F
100p
2A44
100p
2A45
100p
2A46
100p
2A47
100p
2A48
100p
2A49
100p
2A50
100p
2A51
100p
2A52
100p
2A53
100p
2A54
100p
2A33
100p
2A40
100p
2A55
100p
2A56
10p
2A57
100p
2A58
100p
2A59
100p
2A60
100p
2A61
100p
2A62
100p
2A63
100p
2A64
100p
2A65
100p
2A66
100p
2A67
100p
2A68
100p
9A35
9A36
9A37
9A38
9A39
9A40
9A41
9A44
9A45
9A46
9A47
9A58
9A59
9A60
9A54
9A52
9A62
9A63
9A64
9A65
9A66
9A67
9A61
9A68
9A55
9A56
9A57
+8V6-SW
Y-CVBS-MON-OUT
REGIMBEAU-AV6-VSYNC
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
AV1_CVBS-AV7-Y-CVBS
AV1-STATUS-AV7-C
FRONT_Y-CVBS
AV2_FBL
AV2_C
AV2_Y-CVBS
C-MON-OUT
AV2-STATUS
AUDIO-OUT1-L
AUDIO-OUT1-R
AUDIO-OUT2-L
AUDIO-OUT2-R
CVBS-TER-OUT
AUDIO-IN1-L
AUDIO-IN1-R
AUDIO-IN2-L
AUDIO-IN2-R
FRONT_C
AUDIO-IN5-L
AUDIO-IN5-R
LED1
KEYBOARD
5A08
AV2-AV4_R-PR
AV2-AV4_G-Y
AV2-AV4_B-PB
AV2_FBL
AV2_C
AV2_Y-CVBS
Y-CVBS-MON-OUT
C-MON-OUT
AV2-STATUS
AV6_VSYNC
REGIMBEAU
REGIMBEAU-AV6-VSYNC
AUDIO-OUT1-L
AUDIO-OUT1-R
AUDIO-OUT2-L
AUDIO-OUT2-R
AUDIO-HDPH-L-AP
AUDIO-HDPH-R-AP
AV1_CVBS
AV7_Y-CVBS
AV1_CVBS-AV7-Y-CVBS
AV1-STATUS
AV7_C
AV1-STATUS-AV7-C
CVBS-TER-OUT
AUDIO-IN1-L
AUDIO-IN1-R
AUDIO-IN2-L
AUDIO-IN2-R
FRONT_Y-CVBS
FRONT_C
AUDIO-IN5-L
AUDIO-IN5-R
LED1
KEYBOARD
RC
RC
9A15
600R
2A25
100n
IA16
IA20
IA15
100R
IA21
7A20-1
BC847BS
3A13
FA15
FA16
IA22
IA23
IA17
IA02
IA03
IA05
IA04
6
2
1
3A18
560R
3A01
100R
3A02
100R
IA01
9A06
9A01
9A16
9A19
3A06
100R
7A21 7A20-2
BC847BW
9A17
100R
IA18
+8V6-SW
9A29
9A11
+5V2-STBY
3A03
100R
3A04
100R
3A05
100R
3A97
560R
5A07
120R
2A31
BC847BS
9A18
3A98
100R
+8V6-CONN
5A06
120R
+5V2-CONN
100n
3
4
IA19
2A29
5
3A993A19
560R
100n
FA07
H
3104 313 6073.5
123456
7891011
10 11 12
1E45
4-1735042-0
0A01
0A03
40
39
38
37
36
35
34
33
32
31
30
29
FOR 37",42",50"
28
27
26
25
24
23
22
21
20
TO EXTERNALS
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
FA03
FA04
FA05
FA06
FA08
FA09
FA10
FA11
FA12
FA13
FA14
FA17
FA18
FA28
FA31
FA32
FA19
FA20
FA21
FA23
FA22
FA25
FA26
FA27
FA24
FA29
FA30
FA00
FA01
FA02
1E40
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
40FMN-BMT-A-TFT
0A02
0A00
12
G_15960_026.eps
070206
A
B
C
D
E
F
G
H
0A00 G10
0A01 G11
0A02 G10
0A03 G11
1E40 C10
1E41 C2
1E45 C11
2A25 B7
2A29 C9
2A31 E8
2A33 D5
2A40 E5
2A41 B5
2A42 B5
2A43 B5
2A44 B5
2A45 B5
2A46 C5
2A47 C5
2A48 C5
2A49 C5
2A50 C5
2A51 D5
2A52 D5
2A53 D5
2A54 D5
2A55 E5
2A56 E5
2A57 E5
2A58 E5
2A59 F5
2A60 F5
2A61 F5
2A62 F5
2A63 F5
2A64 G5
2A65 G5
2A66 G5
2A67 G5
2A68 G5
3A01 C7
3A02 C8
3A03 E8
3A04 F8
3A05 F8
3A06 G8
3A13 B7
3A18 B8
3A19 B8
3A97 B8
3A98 B9
3A99 B9
5A06 C9
5A07 E8
5A08 B6
7A20-1 B7
7A20-2 B9
7A21 B8
9A01 E8
9A06 E8
9A11 D8
9A15 B6
9A16 E8
9A17 B8
9A18 B9
9A19 F8
9A29 D8
9A32 A5
9A33 B5
9A34 B5
9A35 B5
9A36 B5
9A37 C5
9A38 C5
9A39 C5
9A40 C5
9A41 C5
9A44 D5
9A45 D5
9A46 D5
9A47 D5
9A52 E5
9A54 E5
9A55 G5
9A56 G5
9A57 G5
9A58 D5
9A59 D5
9A60 E5
9A61 F5
9A62 E5
9A63 E5
9A64 F5
9A65 F5
9A66 F5
9A67 F5
9A68 G5
FA00 C10
FA01 C10
FA02 C10
FA03 C10
FA04 D10
FA05 D10
FA06 D10
FA07 C9
FA08 D10
FA09 D10
FA10 D10
FA11 D10
FA12 D10
FA13 D10
FA14 D10
FA15 E7
FA16 E7
FA17 E10
FA18 E10
FA19 E10
FA20 E10
FA21 E10
FA22 F10
FA23 E10
FA24 F10
FA25 F10
FA26 F10
FA27 F10
FA28 E10
FA29 F10
FA30 F10
FA31 E10
FA32 E10
IA01 D7
IA02 E7
IA03 E7
IA04 F7
IA05 E7
IA15 B7
IA16 B7
IA17 B7
IA18 B8
IA19 B9
IA20 B7
IA21 C7
IA22 F7
IA23 G7
Page 86
Circuit Diagrams and PWB Layouts
86BJ3.0E PA 7.
SSB: MPIF Main: Connections B
123456789
B3G B3G
MPIF MAIN: CONNECTIONS B
1M52
1
2
3
BAV99S
6
2AAB
100p
2A80
100p
2A72
100p
2A73
100p
2A74
100p
9A02
9A03
9A04
9A05
9A07
9A08
9A09
9A10
9A21
9A22
9A69
9A70
9A71
4
5
6
7
8
9
10 11
1
4
9A77
9A78
9A75
9A72
9A73
9A74
BAV99S
FA47
6A10-2
3
A
B
C
D
E
F
FOR 32"
TO EXTERNALS
FOR 37",42",50"
TO EXTERNALS
6A10-1
2
+5V
2A78
100p
2A82
100p
IA10
IA11
IA12
FA61
FA54
FA40
FA42
FA43
FA60
1E63
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
1E62
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
FA62
2A92
100p
2A94
100p
2A97
1n0
2AA8
100p
2AA9
100p
2AAA
100p
2AB6
100p
2A69
10p
2A70
100p
2A71
10p
2V7
FA48
FA33
FA34
FA35
FA36
FA37
FA38
5
+5V
9A79
2A34
2A35
2A36
2A37
2A38
2A39
FA49
FA50
FA58
FA55
FA56
FA57
FA39
FA41
3AA7
100p
100p
100p
100p
100p
1n0
9A12
9A13
9A14
100R
5A01
5A02
5A03
3AA3
100R
5A05
3AA4
220R
6
2
7A01-1
BC847BS
1
3A07
100R
3A08
560R
3104 313 6073.5
123456
100p
100p
100p
IA00
10n
9A23
9A24
2A75
2A76
2A77
0V
2AAC
RES
RES
RES
+3V3-STANDBY
100R
3AA6
PROT-AUDIOSUPPLY
7A02
BC847BW
IA27IA26
3A10
560R
AUDIO-L
AUDIO-R
AUDIO-SW
SOUND-ENABLE
9A25
3A09
100R
3AA5
9A26
RES
5
100R
IA28
3
7A01-2
BC847BS
4
3A12
560R
3A11
100R
SC1-RGB_2FH-RGB
AV1-AV6_FBL-HSYNC
IA44
AV1-AV5-AV6_B-PB
IA45
AV1-AV5-AV6_G-Y
IA46
AV1-AV5-AV6_R-PR
AV1-AV5-AV6_G-Y_SYNC
IA25
5A10
100n
2A01
789
LIGHT-SENSOR
LED2
SDA-MM-BUS1
SCL-MM-BUS1
P50
A-PLOP
GLINK-RXD
GLINK-TXD
GLINK-IR-OUT
SPI-OUT
SPI-1
AV1-STATUS
AV6_VSYNC
+8V6-SW
G_15960_027.eps
070206
A
B
C
D
E
F
1E62 E2
1E63 C2
1M52 A4
2A01 E8
2A34 A6
2A35 A6
2A36 A6
2A37 A6
2A38 A6
2A39 A6
2A69 D3
2A70 D3
2A71 D3
2A72 D3
2A73 E3
2A74 E3
2A75 A7
2A76 A7
2A77 A7
2A78 B3
2A80 D3
2A82 B3
2A92 B3
2A94 C3
2A97 C3
2AA8 C3
2AA9 C3
2AAA C3
2AAB D3
2AAC A7
2AB6 C3
3A07 F6
3A08 F6
3A09 F7
3A10 F7
3A11 F8
3A12 F8
3AA3 A6
3AA4 A6
3AA5 F8
3AA6 F7
3AA7 E6
5A01 A6
5A02 A6
5A03 A6
5A05 A6
5A10 E9
6A10-1 B3
6A10-2 B4
7A01-1 F6
7A01-2 F8
7A02 F7
9A02 B4
9A03 B4
9A04 B4
9A05 C4
9A07 C4
9A08 C4
9A09 C4
9A10 C4
9A12 D6
9A13 E6
9A14 E6
9A21 C4
9A22 C4
9A23 D7
9A24 D7
9A25 E7
9A26 E8
9A69 D4
9A70 D4
9A71 D4
9A72 D4
9A73 E4
9A74 E4
9A75 D4
9A77 D4
9A78 D4
9A79 D5
FA33 A5
FA34 A5
FA35 A5
FA36 A5
FA37 A5
FA38 A5
FA39 D6
FA40 D3
FA41 D6
FA42 D3
FA43 D3
FA47 D4
FA48 B4
FA49 B6
FA50 B6
FA54 C3
FA55 C6
FA56 C6
FA57 C6
FA58 C6
FA60 F3
FA61 F2
FA62 F2
IA00 A6
IA10 C3
IA11 C3
IA12 C3
IA25 E9
IA26 F6
IA27 F7
IA28 F8
IA44 D9
IA45 E9
IA46 E9
Page 87
Circuit Diagrams and PWB Layouts
SSB: PNX2015: Audio / Video
87BJ3.0E PA 7.
123456789
5J00
B4A B4A
PNX2015: AUDIO / VIDEO
IJ00
DATA1N-MAIN
DATA1P-MAIN
STROBE1N-MAIN
STROBE1P-MAIN
DATA2N-MAIN
DATA2P-MAIN
STROBE2N-MAIN
STROBE2P-MAIN
DATA3N-MAIN
DATA3P-MAIN
STROBE3N-MAIN
STROBE3P-MAIN
120R
3J03 68R
3J09 68R
IJ01
3J13 120R
68R3J07
3J08 68R
120R
3J12
IJ03
9J24
I2S-BCLK-AVIP
I2S-MAIN-ND
I2S-SUB-ND
I2S-WS-AVIP
IJ31
100R
2J12
100p
3J78
100R
2J11
100p
IJ44
A
B
C
D
E
F
VREF-AUD-POS
ADAC1
ADAC2
ADAC4
ADAC7
ADAC8
DSNDL1
DSNDR1
DSNDL2
DSNDR2
I2S-MCH-LR
I2S-MCH-CSW
I2S-MCH-SLR
I2S-MAIN-D
I2S-SUB-D
I2S-BCLK-MAIN
I2S-WS-MAIN
CLK-MPIF
I2S-BCLK-SUB
I2S-WS-SUB
0E02
0E03
2J01
100n
Y5
ADAC_CLK
AH1
ADAC1
AH2
2LA5
3n3
2LA6
3n3
2LA7
3n3
2LA8
3n3
2LA9
3n3
2J22
3n3
2J23
3n3
2J24
3n3
2J25
3n3
123
3J11 68R
AH3
AG1
AG2
AG3
AF1
AF2
AG4
AE1
AE2
AB5
AD1
AD2
AB4
AC1
AC2
AB3
AB1
AB2
AA4
AA1
AA2
AA3
AF3
AF4
AF5
AE3
AE4
AE5
AD3
AD4
AD5
AC3
AC4
AC5
W5
M4
U2
U3
U4
V4
V5
V2
V3
U1
U5
ADAC1N
ADAC1P
ADAC2
ADAC2N
ADAC2P
ADAC3
ADAC3N
ADAC3P
ADAC4
ADAC4N
ADAC4P
ADAC5
ADAC5N
ADAC5P
ADAC6
ADAC6N
ADAC6P
ADAC7
ADAC7N
ADAC7P
ADAC8
ADAC8N
ADAC8P
ADAC9
ADAC9N
ADAC9P
ADAC10
ADAC10N
ADAC10P
ADAC11
ADAC11N
ADAC11P
ADAC12
ADAC12N
ADAC12P
I2S_IN_SD1
I2S_IN_SD2
I2S_IN_SD3
I2S_IN_SD4
I2S_IN_SD5
I2S_IN_SD6
I2S_SCK_SYS
I2S_WS_SYS
MPIF_CLK
I2S_SCK_XTRA
I2S_WS_XTRA
7J00-7
2015
PNX
Φ
AUDIO / VIDEO
AVP1_DLK_VDDA
AVP1_DLK_VDDD
AVP1_DLK_VSSA
AVP1_DLK_VSSD
AVP1_DLK1DN
AVP1_DLK1DP
AVP1_DLK1SN
AVP1_DLK1SP
AVP1_DLK2DN
AVP1_DLK2DP
AVP1_DLK2SN
AVP1_DLK2SP
AVP1_DLK3DN
AVP1_DLK3DP
AVP1_DLK3SN
AVP1_DLK3SP
AVP1_DTC_CLVSS
AVP1_DTC_VDD3
AVP1_DTC_VDDA
AVP1_DTC_VSSA
AVP1_HSYNCFBL1
AVP1_HSYNCFBL2
AVP1_HVINFO1
AVP1_VSYNC1
AVP1_VSYNC2
AVP2_DLK_VDDA
AVP2_DLK_VDDD
AVP2_DLK_VSSA
AVP2_DLK_VSSD
AVP2_DLK1DN
AVP2_DLK1DP
AVP2_DLK1SN
AVP2_DLK1SP
AVP2_DLK2DN
AVP2_DLK2DP
AVP2_DLK2SN
AVP2_DLK2SP
AVP2_DLK3DN
AVP2_DLK3DP
AVP2_DLK3SN
AVP2_DLK3SP
AVP2_DTC_CLVSS
AVP2_DTC_VDD3
AVP2_DTC_VDDA
AVP2_DTC_VSSA
AVP2_HSYNCFBL1
AVP2_HSYNCFBL2
AVP2_HVINFO1
AVP2_VSYNC1
AVP2_VSYNC2
I2S_OUT_SCK
I2S_OUT_SD1
I2S_OUT_SD2
I2S_OUT_SD3
I2S_OUT_SD4
I2S_OUT_SD5
I2S_OUT_SD6
I2S_OUT_WS
N5
M5
P5
R5
R2
R1
R4
R3
P2
P1
P4
P3
N2
N1
N4
N3
T6
T3
T4
T5
T1
T2
M3
M1
M2
H5
G6
J5
K5
K2
K1
K4
K3
J2
J1
J4
J3
H2
H1
H4
H3
K6
L3
L4
L5
L1
L2
G3
G1
G2
Y2
W1
W2
V1
W3
W4
Y4
Y3
3JA2
3J01 120R
3J79
2J03
100n
2J06
100n
2J08
100n
2J10
100n
IJ04
IJ05
IJ06
IJ07
IJ02
2J30
100n
BC847BW
2J33
100n
2J13
2J16
2J18
2J20
7J11
3J66
7J13
BC847BW
3J75
5J04
100n
5J05
100n
5J06
100n
5J07
100n
2K2
IJ26
IJ39
IJ48
IJ49
5J01
5J02
5J03
5J15
IJ33
IJ46
2K2
+3V3
+1V2
+1V2
+3V3
+1V2
+3V3
3J67
10K
5J16
3J76
10K
+1V2
RESET-AUDIO
A-PLOP
+3V3
M27-CLK
FJ20
FJ42
FLA8
+3V3
SN74LVC1G126DCK
AV1-AV6_FBL-HSYNC
IJ11
3L03
470K
HV-PRM-MAIN
1
0V
5J13
7J08
2
1
AV2_FBL
AV6_VSYNC
3L01
IJ55
3
7J01
BC847BW
2
IJ29
0V
EN
IJ08
100K
2
2LT6
100n
9J08
+12VS
100K
6J07
3L02
10K
3J06
22R
IJ53
3J05
22R
BAS316
2LT0
11V6
IJ37
IJ09
1u0
5
5
4
3
3L00
IJ36
11V1
6
7J02-1
BC847BPN
1
IJ50
3104 313 6073.5
123456789
M27-PNX
M27-POD
+5V2-STBY
IJ54
6J08
BAT54 COL
11V7
4
BC847BPN
7J02-2
3
0V
G_15960_028.eps
020306
A
B
C
D
E
F
0E02 F1
0E03 F1
2J01 A1
2J03 A6
2J06 A6
2J08 A6
2J10 A6
2J11 C5
2J12 C5
2J13 E6
2J16 E6
2J18 F6
2J20 F6
2J22 D1
2J23 D1
2J24 E1
2J25 E1
2J30 B6
2J33 C6
2LA5 B1
2LA6 B1
2LA7 C1
2LA8 C1
2LA9 D1
2LT0 E9
2LT6 A9
3J01 E4
3J03 E4
3J05 A9
3J06 A9
3J07 F4
3J08 F4
3J09 F4
3J11 F2
3J12 D4
3J13 D4
3J66 C4
3J67 B7
3J75 D6
3J76 D7
3J78 C5
3J79 C5
3JA2 E4
3L00 E9
3L01 E8
3L02 E9
3L03 E8
5J00 A6
5J01 A6
5J02 A6
5J03 A6
5J04 E6
5J05 E6
5J06 F6
5J07 F6
5J13 A8
5J15 B7
5J16 C7
6J07 D9
6J08 D9
7J00-7 A3
7J01 E8
7J02-1 F9
7J02-2 E9
7J08 A8
7J11 B6
7J13 D6
9J08 A9
9J24 C5
FJ20 B8
FJ42 D7
FLA8 E7
IJ00 A4
IJ01 A4
IJ02 A6
IJ03 C5
IJ04 E6
IJ05 E6
IJ06 F6
IJ07 F6
IJ08 A8
IJ09 D9
IJ11 E8
IJ26 B6
IJ29 F8
IJ31 B5
IJ33 B7
IJ36 E9
IJ37 E9
IJ39 D6
IJ44 D5
IJ46 D7
IJ48 D6
IJ49 E6
IJ50 F9
IJ53 D9
IJ54 D9
IJ55 E8
Page 88
Circuit Diagrams and PWB Layouts
SSB: PNX2015: DV I/O Interface
88BJ3.0E PA 7.
A
B
C
D
123456
789
PNX 2015: DV I/O INTERFACE
B4B B4B
7J00-4
PNX
2015
Φ
DV4-CLK
DV4-VALID
DV4-DATA0_SOP
DV4-DATA1_ERR
DV4-DATA2_0
DV4-DATA3_1
DV4-DATA4_2
DV4-DATA5_3
DV4-DATA6_4
DV4-DATA7_5
DV4-DATA8_6
DV4-DATA9_7
DV5-DATA0_SOP
DV5-DATA1_ERR
DV5-DATA2_0
DV5-DATA3_1
DV5-DATA4_2
DV5-DATA5_3
DV5-DATA6_4
DV5-DATA7_5
DV5-DATA8_6
DV5-DATA9_7
DV-VREF
DV-FREF
DV-HREF
AK8
AH8
AG8
AK7
AJ7
AH7
AG7
AF7
AK6
AJ6
AH6
AG6
AF6
AK5
AH5
AG5
AK4
AJ4
AH4
AK3
AJ3
AK2
AJ9
AK9
AH9
DV_CLK
DV_VALID
DV4_DATA_0
DV4_DATA_1
DV4_DATA_2
DV4_DATA_3
DV4_DATA_4
DV4_DATA_5
DV4_DATA_6
DV4_DATA_7
DV4_DATA_8
DV4_DATA_9
DV5_DATA_0
DV5_DATA_1
DV5_DATA_2
DV5_DATA_3
DV5_DATA_4
DV5_DATA_5
DV5_DATA_6
DV5_DATA_7
DV5_DATA_8
DV5_DATA_9
DV_VREF
DV_FREF
DV_HREF
DV INPUT
DV1_CLK
DV1_VALID
DV1_DATA0
DV1_DATA1
DV1_DATA2
DV1_DATA3
DV1_DATA4
DV1_DATA5
DV1_DATA6
DV1_DATA7
DV1_DATA8
DV1_DATA9
DV2_CLK
DV2_VALID
DV2_DATA0
DV2_DATA1
DV2_DATA2
DV2_DATA3
DV2_DATA4
DV2_DATA5
DV2_DATA6
DV2_DATA7
DV2_DATA8
DV2_DATA9
DV3_CLK
DV3_VALID
DV3_DATA0
DV3_DATA1
DV3_DATA2
DV3_DATA3
DV3_DATA4
DV3_DATA5
DV3_DATA6
DV3_DATA7
DV3_DATA8
DV3_DATA9
AD28
AD29
AB27
AA30
AA29
AA28
AB29
AB28
AC30
AC28
AC27
AB30
AF30
AF27
AE30
AF28
AD27
AD26
AD30
AE26
AE27
AE28
AE29
AG27
AK28
AK30
AJ30
AH29
AG29
AG30
AH30
AG28
AH27
AJ28
AK29
AH28
3LR4-1
33R
3LR3-233R
33R
3LR3-3
3LR4-433R
3LR5-433R
3LR5-233R
33R 3LR7-1
33R 3LR7-3
33R
3LR6-3
33R 3LR6-2
33R 3LR8-3
33R 3LR7-2
33R 3LS1-2
3LR9-333R
33R
3LR9-4
3LS0-433R
3LS1-333R
3LS0-233R
9LA7
33R
3LR3-4
33R
33R
3LR3-1
3LR4-3
3LR5-3
3LR133R
3LR8-2
3LR6-4
3LR6-1
3LR8-133R
3LR8-4
3LR9-1
3LS0-3
3LS1-4
3LS1-1
33R
33R
33R 3LR4-2
33R
33R
33R
33R
33R 3LR0
33R
33R
33R 3LR9-2
33R
DV1F-CLK
DV1F-VALID
DV1F-DATA0
DV1F-DATA1
DV1F-DATA2
DV1F-DATA3
DV1F-DATA4
DV1F-DATA5
DV1F-DATA6
DV1F-DATA7
DV1F-DATA8_ERR
DV1F-DATA9_SOP
DV2A-CLK
DV2A-VALID
DV2A-DATA0_SOP
DV2A-DATA1_ERR
DV2A-DATA2_0
DV2A-DATA3_1
DV2A-DATA4_2
DV2A-DATA5_3
DV2A-DATA6_4
DV2A-DATA7_5
DV2A-DATA8_6
DV2A-DATA9_7
DV3F-CLK
DV3F-VALID
DV3F-DATA0_SOP
DV3F-DATA1_ERR
DV3F-DATA2_0
DV3F-DATA3_1
DV3F-DATA4_2
DV3F-DATA5_3
DV3F-DATA6_4
DV3F-DATA7_5
DV3F-DATA8_6
DV3F-DATA9_7
MP-ROUT-0
MP-ROUT-1
MP-ROUT-2
MP-ROUT-3
MP-ROUT-4
MP-ROUT-5
MP-ROUT-6
MP-ROUT-7
MP-ROUT-8
MP-ROUT-9
MP-GOUT-0
MP-GOUT-1
MP-GOUT-2
MP-GOUT-3
MP-GOUT-4
MP-GOUT-5
MP-GOUT-6
MP-GOUT-7
MP-GOUT-8
MP-GOUT-9
MP-BOUT-0
MP-BOUT-1
MP-BOUT-2
MP-BOUT-3
MP-BOUT-4
MP-BOUT-5
MP-BOUT-6
MP-BOUT-7
MP-BOUT-8
MP-BOUT-9
A27
A28
A29
A30
B28
B30
C28
C29
C30
D27
D28
D29
D30
E27
E28
E30
F26
F27
F28
F29
F30
G26
G27
G28
G29
G30
H27
H28
H30
J26
7J00-2
PNX
OUTPUT INTERFACE
RIN0
RIN1
RIN2
RIN3
RIN4
RIN5
RIN6
RIN7
RIN8
RIN9
GIN0
GIN1
GIN2
GIN3
GIN4
GIN5
GIN6
GIN7
GIN8
GIN9
BIN0
BIN1
BIN2
BIN3
BIN4
BIN5
BIN6
BIN7
BIN8
BIN9
Φ
2015
LVDS_CLKN
LVDS_CLKP
RGB_CLK_IN
RGB_HSYNC
RGB_VSYNC
LVDS_AN
LVDS_AP
LVDS_BN
LVDS_BP
LVDS_CN
LVDS_CP
LVDS_DN
LVDS_DP
LVDS_EN
LVDS_EP
RGB_UD
RGB_DE
B26
C26
A25
B25
D25
E25
B24
C24
E24
F24
C23
D23
J30
J27
J29
J28
K26
AJ10
2LR1
22p
TXPNXA-
TXPNXA+
TXPNXB-
TXPNXB+
TXPNXC-
TXPNXC+
TXPNXD-
TXPNXD+
TXPNXE-
TXPNXE+
TXPNXCLK-
TXPNXCLK+
MP-CLKOUT
MP-OUT-FFIELD
MP-OUT-HS
MP-OUT-VS
MP-OUT-DE
A
B
C
D
2LR1 D8
3LR0 D4
3LR1 C4
3LR3-1 B4
3LR3-2 B4
3LR3-3 B4
3LR3-4 B4
3LR4-1 B4
3LR4-2 B4
3LR4-3 B4
3LR4-4 B4
3LR5-2 C4
3LR5-3 B4
3LR5-4 B4
3LR6-1 C4
3LR6-2 C4
3LR6-3 C4
3LR6-4 C4
3LR7-1 C4
3LR7-2 D4
3LR7-3 C4
3LR8-1 C4
3LR8-2 C4
3LR8-3 C4
3LR8-4 C4
3LR9-1 D4
3LR9-2 D4
3LR9-3 D4
3LR9-4 D4
3LS0-2 E4
3LS0-3 D4
3LS0-4 D4
3LS1-1 D4
3LS1-2 D4
3LS1-3 D4
3LS1-4 D4
7J00-2 B7
7J00-4 A2
9LA7 B4
AJ10 C8
E
3104 313 6073.5
1234567
E
G_15960_029.eps
020306
89
Page 89
SSB: PNX2015: Tunnel Bus
123456
PNX 2015: TUNNELBUS
B4C B4C
A
B
C
D
+2V5
Circuit Diagrams and PWB Layouts
7J00-1
PNX
Φ
TUNNELBUS
A1
TUNN_TX_BUSY
D2
TUNN_TX_CLKN
C2
TUNN_TX_CLKP
C4
TUNN_TX_D0
B4
TUNN_TX_D1
A4
TUNN_TX_D2
F3
TUNN_TX_D3
B3
TUNN_TX_D4
C3
TUNN_TX_D5
D3
TUNN_TX_D6
E3
TUNN_TX_D7
F2
TUNN_TX_D8
A3
TUNN_TX_D9
F1
TUNN_TX_D10
A2
TUNN_TX_D11
B1
TUNN_TX_D12
C1
TUNN_TX_D13
D1
TUNN_TX_D14
E1
TUNN_TX_D15
D9
TUNN_RX_D0
C9
TUNN_RX_D1
A9
TUNN_RX_D2
D8
TUNN_RX_D3
B9
TUNN_RX_D4
D7
TUNN_RX_D5
C8
TUNN_RX_D6
A8
TUNN_RX_D7
D6
TUNN_RX_D8
C6
TUNN_RX_D9
B6
TUNN_RX_D10
A6
TUNN_RX_D11
D5
TUNN_RX_D12
C5
TUNN_RX_D13
A5
TUNN_RX_D14
E4
TUNN_RX_D15
D4
9LA8
9LA9
B7
C7
A7
TUNN_RX_BUSY
TUNN_RX_CLKN
TUNN_RX_CLKP
TUNN_REF
2015
TUNS_TX_BUSY
TUNS_TX_CLKN
TUNS_TX_CLKP
TUNS_TX_D0
TUNS_TX_D1
TUNS_TX_D2
TUNS_TX_D3
TUNS_TX_D4
TUNS_TX_D5
TUNS_TX_D6
TUNS_TX_D7
TUNS_TX_D8
TUNS_TX_D9
TUNS_TX_D10
TUNS_TX_D11
TUNS_TX_D12
TUNS_TX_D13
TUNS_TX_D14
TUNS_TX_D15
TUNS_RX_D0
TUNS_RX_D1
TUNS_RX_D2
TUNS_RX_D3
TUNS_RX_D4
TUNS_RX_D5
TUNS_RX_D6
TUNS_RX_D7
TUNS_RX_D8
TUNS_RX_D9
TUNS_RX_D10
TUNS_RX_D11
TUNS_RX_D12
TUNS_RX_D13
TUNS_RX_D14
TUNS_RX_D15
TUNS_RX_BUSY
TUNS_RX_CLKN
TUNS_RX_CLKP
TUNS_REF
R28
M30
M29
K28
K27
L30
L28
K29
N26
L27
K30
M27
N28
N27
P28
P27
N30
N29
R29
R27
P30
T27
R30
T28
T29
T30
U27
V27
V28
V29
V30
W26
W27
W28
W29
W30
U30
U28
M28
47R3L09
47R3L12
3L14 47R
3L16 47R
47R3L18
47R3L21
3L25 47R
3L29 47R
47R3L33
3L08
100R 3L35
RES
89BJ3.0E PA 7.
3L10 47R
3L11 47R
3L13
3L15
3L17
3L19
3L23
3L27
3L31
47R
47R
47R
47R
47R
47R
47R
47R
TUN-VIPER-RX-BUSY
TUN-VIPER-RX-CLKN
TUN-VIPER-RX-CLKP
TUN-VIPER-RX-DATA0
TUN-VIPER-RX-DATA1
TUN-VIPER-RX-DATA2
TUN-VIPER-RX-DATA3
TUN-VIPER-RX-DATA4
TUN-VIPER-RX-DATA5
TUN-VIPER-RX-DATA6
TUN-VIPER-RX-DATA7
TUN-VIPER-RX-DATA8
TUN-VIPER-RX-DATA9
TUN-VIPER-RX-DATA10
TUN-VIPER-RX-DATA11
TUN-VIPER-RX-DATA12
TUN-VIPER-RX-DATA13
TUN-VIPER-RX-DATA14
TUN-VIPER-RX-DATA15
TUN-VIPER-TX-DATA0
TUN-VIPER-TX-DATA1
TUN-VIPER-TX-DATA2
TUN-VIPER-TX-DATA3
TUN-VIPER-TX-DATA4
TUN-VIPER-TX-DATA5
TUN-VIPER-TX-DATA6
TUN-VIPER-TX-DATA7
TUN-VIPER-TX-DATA8
TUN-VIPER-TX-DATA9
TUN-VIPER-TX-DATA10
TUN-VIPER-TX-DATA11
TUN-VIPER-TX-DATA12
TUN-VIPER-TX-DATA13
TUN-VIPER-TX-DATA14
TUN-VIPER-TX-DATA15
TUN-VIPER-TX-BUSY
TUN-VIPER-TX-CLKN
TUN-VIPER-TX-CLKP
VREF-PNX
A
B
C
D
2L01 E5
2L06 F2
2L07 F3
2L08 F3
2L64 E2
3L08 D4
3L09 B4
3L10 B4
3L11 B4
3L12 B4
3L13 B4
3L14 B4
3L15 B4
3L16 B4
3L17 B4
3L18 B4
3L19 B4
3L21 B4
3L23 B4
3L25 C4
3L27 C4
3L29 C4
3L31 C4
3L33 C4
3L35 D4
3L38 F3
3L39 F3
5L01 E2
7J00-1 A3
9LA8 D2
9LA9 D2
IL03 E3
IL05 F4
E
F
3104 313 6073.5
100n
2L64
2L01
100n
E
+2V5
5L01
*
2L06
100n
IL03
3L38
1K0
IL05
1V4
VREF-PNX
F
3L39
1K0
2L08
1n0
G_15960_030.eps
070206
123456
Page 90
Circuit Diagrams and PWB Layouts
90BJ3.0E PA 7.
SSB: PNX2015: DDR Interface
123456789
PNX 2015: DDR INTERFACE
B4D B4D
3
9
Φ
DDR
SDRAM
16Mx16
6
12
+2V5-DDRPNX
2L50
15
55
VDDQVDD
D
VSSQ
58
52
100n
61
DQS
64
2L51
NC
100n
22R
2L61
3L56
22R
3L58
22R
3L60
22R
3L62
22R
3L64
22R
3L66
22R
3L68
22R
3L70
3L89
22R
1n0
2L52
100n
14
17
19
25
43
50
53
2
0
22R
4
1
3L57
5
2
7
22R
3
3L59
8
4
22R
10
512
3L61
11
6
22R
13
7
3L63
54
8
22R
56
9
3L65
57
10
22R
59
11
3L67
60
12
22R
62
13
3L69
63
14
22R
65
15
16
L
3L71
51
U
2L54
3L50
22R
100n
2L53
100n
A
B
C
D
E
PNX-MA-0
PNX-MA-1
PNX-MA-2
PNX-MA-3
PNX-MA-4
PNX-MA-5
PNX-MA-6
PNX-MA-7
PNX-MA-8
PNX-MA-9
PNX-MA-10
PNX-MA-11
PNX-MA-12
PNX-MDATA-0
PNX-MDATA-1
PNX-MDATA-2
PNX-MDATA-3
PNX-MDATA-4
PNX-MDATA-5
PNX-MDATA-6
PNX-MDATA-7
PNX-MDATA-8
PNX-MDATA-9
PNX-MDATA-10
PNX-MDATA-11
PNX-MDATA-12
PNX-MDATA-13
PNX-MDATA-14
PNX-MDATA-15
3L41
3L43
3L47
3L49
3L92
33R
33R3L45
33R
33R
33R
33R
33R
3L40
33R
3L42
33R
3L44
33R
3L46
33R
3L48
33R
33R
3L93
3L91
C12
D12
D11
C10
D21
C21
D20
D19
C19
D18
D13
C18
D17
A11
B12
C11
A12
A10
B13
B10
A13
A18
B21
B18
A21
A19
C20
B19
A20
DDR INTERFACE
MA_0
MA_1
MA_2
MA_3
MA_4
MA_5
MA_6
MA_7
MA_8
MA_9
MA_10
MA_11
MA_12
MD_0
MD_1
MD_2
MD_3
MD_4
MD_5
MD_6
MD_7
MD_8
MD_9
MD_10
MD_11
MD_12
MD_13
MD_14
MD_15
7J00-3
PNX
Φ
2015
MBA_0
MBA_1
MCKE_0
MCLK_N
MCLK_P
MCS_0
MDQM_0
MDQM_1
MDQS_0
MDQS_1
Mem_DLL0
Mem_DLL1
MM_VREF
MRAS
MCAS
MWE
D15
D14
C13
C17
A16
A17
C14
B15
D16
A15
B16
E21
E10
C16
A14
C15
3L90
3L51
3L52
3L97 33R
1K0
100R
22R
3L96
+2V5-DDRPNX
2L56
100n
100n
2L57
2L58
100n
33R3L95
3L94
33R
3L53
22R
3L99
22R
ILN1
3L98
33R
33R
PNX-MRAS
PNX-MCAS
PNX-MWE
PNX-MBA0
PNX-MBA1
PNX-MCKE
PNX-MCLK-N
PNX-MCLK-P
PNX-MCS-0
PNX-MDQM-0
PNX-MDQM-1
PNX-MDQS-0
PNX-MDQS-1
VREF-PNX
2L59
2L60
100n
100n
+2V5
+1V2
5L50
PNX-MA-0
PNX-MA-1
PNX-MA-2
PNX-MA-3
PNX-MA-4
PNX-MA-5
PNX-MA-6
PNX-MA-7
PNX-MA-8
PNX-MA-9
PNX-MA-10
PNX-MA-11
PNX-MA-12
PNX-MBA0
PNX-MBA1
PNX-MDQM-0
PNX-MDQM-1
VREF-PNX
PNX-MCLK-N
PNX-MCLK-P
PNX-MCKE
PNX-MCS-0
PNX-MRAS
PNX-MCAS
PNX-MWE
MT46V16M16D3TG-7L
2L55
100n
5L52
5L51
7L50
29
30
31
32
35
36
37
38
39
40
28
41
42
26
27
20
47
49
46
45
44
24
23
22
21
IL04
2L62
1n0
0
1
2
3
4
5
6
7
8
9
10
11
AP
0
BA
1
L
DM
U
VREF
CK
CK
CKE
CS
RAS
CAS
WE
2L63
1
18
A
VSS
34
48
+2V5-DDRPNX
100p
33
66
PNX-MDATA-0
PNX-MDATA-1
PNX-MDATA-2
PNX-MDATA-3
PNX-MDATA-4
PNX-MDATA-5
PNX-MDATA-6
PNX-MDATA-7
PNX-MDATA-8
PNX-MDATA-9
PNX-MDATA-10
PNX-MDATA-11
PNX-MDATA-12
PNX-MDATA-13
PNX-MDATA-14
PNX-MDATA-15
PNX-MDQS-0
PNX-MDQS-1
A
B
C
D
E
2L50 A8
2L51 A8
2L52 A8
2L53 A8
2L54 A8
2L55 C6
2L56 A6
2L57 A7
2L58 A7
2L59 C5
2L60 C5
2L61 A9
2L62 E6
2L63 E7
3L40 A1
3L41 A1
3L42 A1
3L43 A1
3L44 A2
3L45 A1
3L46 B1
3L47 B1
3L48 B2
3L49 B1
3L50 B8
3L51 B4
3L52 B4
3L53 B4
3L56 B9
3L57 B8
3L58 B9
3L59 B8
3L60 C9
3L61 C8
3L62 C9
3L63 C8
3L64 C9
3L65 C8
3L66 C9
3L67 C8
3L68 C9
3L69 C8
3L70 C9
3L71 D8
3L89 C9
3L90 A4
3L91 B2
3L92 B1
3L93 B2
3L94 A4
3L95 A4
3L96 C4
3L97 C4
3L98 C4
3L99 B4
5L50 C5
5L51 E6
5L52 D6
7J00-3 A3
7L50 A6
IL04 D6
ILN1 B5
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G_15960_031.eps
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Page 91
Circuit Diagrams and PWB Layouts
91BJ3.0E PA 7.
SSB: PNX2015: Standby & Control
123456789
B4E B4E
+3V3-STANDBY
A
B
C
D
E
F
G
H
3LA3 10K
3LA0
3LA1 10K
3LA5 1K0
3LA7 10K
3LC5 100K
3LC7 4K7
3LG4
3LG2
3LC9
3LD0
3LD1
3LR2 10K
3LD3
3LD4 10K
3LD6 10K
3LD7410K
3LD8 10K
3LE8 10K
3LC1
3LC8
3LE5 10K
3LH6 10K
+5V
+8V6-SW
+12VSW
I
PNX 2015: STANDBY & CONTROL
P0.0
100R
10K
CD
CD
CD
9LC7
9LC6
7LB2
IN
GND
7LB1
IN
GND
7LB0
IN
GND
*
ILB3
FJ40
RST
NC
RST
NC
RST
NC
3LM0
3LM1
3LM2
3LM3
3LM4
3LM5
3LM7
3LG7 100R
3LG6
3LD2 10K
3LG8
3LH8 100R
3LN0
3LN1
3LN2
3LN3
3LN4
3LN5
3LN6
3LN7
3LJ1 100R
3LJ4 100R
3LJ5 100R
3LJ7 100R
3LJ9
3LK1 100R
3LK3 100R
3LK5 100R
3LK7 100R
3LL1
3LL3 100R
3LL7 100R
3LL5 100R
3LL6
+3V3-STANDBY
10K
3LU4
FLB3
1
3V4
4
+3V3-STANDBY
3LV3
FLB4
1
3V4
4
+3V3-STANDBY
10K 10K
3LV4
FLB5
1
3V4
4
100R
100R
100R
100R
100R
100R
100R
100R3LG3
100R3LG5
100R
100R
100R3LH9
100R
100R
100R
100R
100R
100R
100R
100R
100R3LJ0
100R3LJ6
100R3LJ8
100R
100R3LK0
100R3LK2
100R3LK4
100R3LK6
100R3LK9
100R
100R3LL2
100R3LL4
100R
P0.1
P0.2
P0.3
P0.4
P0.5
P0.6
P0.7
P2.0
P2.1
P2.2
P2.3
P2.4
P2.5
P2.6
P2.7
100R3LK8
100R3LL0
DETECT-5V
DETECT-8V6
DETECT-12V
10K
10K3LA2
10K3LA4
10K3LA6 3LM6
10K3LC0
10K3LC2
10K3LC3
10K3LC4
4K73LC6
10K3LA9
100K
10K
10K
POWER-OK-PLATFORM-3V3
10K
10K
10K
10K3LD5
10K3LD9
10K3LE7
ILC2
10K3LE9
680R3LS2
10K
10K
10K3LE6
10K3LH5
3LU8
10R
3LU9
47K
3LV8
10R
ON-MODE
POD-MODE
ENABLE-1V2
ENABLE-3V3
LAMP-ON
COM-SND COM-SND
UART-SWITCH
2LB3 1n0
P50-HDMI-3V3
SUPPLY-FAULT
P50-3V3
POWER-OK-DISPLAY
SCL-UP-SW
SDA-UP-SW
ILC3
PROT-AUDIOSUPPLY
RESET-MIPS
RESET-PNX2015
ILB9
FLB7
LED2-3V3
LED1-3V3
RESET-SYSTEM
RESET-AUDIO
DEBUG-BREAK
EJTAG-DETECT
CTRL3-STBY
RESET-MAIN-NVM
STBY-WP-NAND-FLASH
KEYBOARD
100n2LB4
TEMP-SENSOR
FRONT-DETECT
SPI-PROG
SPI-WP
IL20
3LU7
180K
BAS316
IL23
3LV0
330K
BAS316
IL27
3LV7
560K
BAS316
ON-MODE
POD-MODE
ENABLE-1V2
ENABLE-3V3
LAMP-ON
UART-SWITCH
RC
RC
P50-3V3
P50-HDMI-3V3
SUPPLY-FAULT
+3V3-STANDBY
POWER-OK-DISPLAY-3V3
SCL-UP-SW
SDA-UP-SW
DETECT-1V2
DETECT-3V3
DETECT-5V
DETECT-8V6
DETECT-12V
CTRL4-STBY
PROT-AUDIOSUPPLY
RXD-UP
TXD-UP
SDM
IRQ-POD
RESET-MIPS
RESET-PNX2015
SDM
LED2-3V3
LED1-3V3
RESET-SYSTEM
RESET-AUDIO
DEBUG-BREAK
EJTAG-DETECT
CTRL3-STBY
RESET-MAIN-NVM
STBY-WP-NAND-FLASH
KEYBOARD
LIGHT-SENSOR
TEMP-SENSOR
FRONT-DETECT
AV1-STATUS
AV2-STATUS
SPI-PROG
SPI-WP
+3V3-STANDBY
6L02
6L01
+3V3-STANDBY
6L00
68K
3LU6
22K
3LU5
+3V3-STANDBY
3LV1
IL24
3LV2
68K
3LV6
22K
3LV5
IL21
IL26
3LA8
6L04
RES
+3V3-STANDBY
BAT54 COL
3V2
3V2
3V2
*
*
*
*
10K
10K
10K
3LB1
3LB3
3LB2
NCP303LSN10T1
2
3
IL22
2LT3
5
100n
68K
22K
2LT4
100n
2LT5
100n
2
3
IL25
5
2
3
IL28
5
NCP303LSN10T1
NCP303LSN10T1
AK15
AJ15
AH15
AG15
AK16
AJ16
AH16
AG16
AK13
AJ13
AH13
AG13
AK14
AH14
AG14
AF14
AF16
AK17
AH17
AG17
AK18
AJ18
AH18
AG18
AK19
AJ19
AH19
AG19
AK20
AH20
AG20
AK21
AJ21
AH21
AG21
AF21
AK22
AJ22
AH22
AG22
AK23
AH23
AG23
AF23
AK24
AJ24
AH24
AG24
AK27
AJ27
P0_0
P0_1
P0_2
P0_3
P0_4
P0_5
P0_6
P0_7
P1_0
P1_1
P1_2
P1_3
P1_4
P1_5
P1_6
P1_7
P2_0
P2_1
P2_2
P2_3
P2_4
P2_5
P2_6
P2_7
P3_0
P3_1
P3_2
P3_3
P3_4
P3_5
P3_6
P3_7
P4_0
P4_1
P4_2
P4_3
P4_4
P4_5
P4_6
P4_7
P5_0
P5_1
P5_2
P5_3
P5_4
P5_5
P5_6
P5_7
P6_4
P6_5
POWER-OK-DISPLAY
DETECT-1V2
DETECT-3V3
7J00-5
2015
PNX
Φ
STANDBY PROCESSOR
MC_RESET
SPI_CSB
SPI_SDO
XTAL_MC_VDD
XTALI_MC
XTALO_MC
XTAL_MC_VSS
+3V3-STANDBY
3L36
+3V3-STANDBY
3LT8
FLB1
1
3V4
4
+3V3-STANDBY
3LU3
FLB2
1
3V4
4
PWM1
ALE
EA
SCL_MC
SDA_MC
SPI_CLK
SPI_SDI
PSEN
PWM0
10K
7LB6
PDTC114EU
10K
7LB4
NCP303LSN10T1
RST
GND
NC
7LB3
10K
NCP303LSN10T1
RST
GND
NC
AJ25
AG25
AF25
AK26
AH26
AG26
AH10
AG10
AJ10
AK10
AK12
AJ12
AH12
AG12
AH25
AK25
RES
3LF2
RES
3LF9
+3V3-STANDBY
2
IN
3
IL29
5
CD
2
IN
3
IL34
5
CD
100R
100R
100R
100R
10K
3LF1
3LE1
3LH7
100R
3LH2
3LE2
3LF0
2LB0
1LA0
DSX840GA
BACKLIGHT-CONTROL_RESET-P3
IL35
9LC5
RES
IL30
2LT1
100n
2LT2
100n
100R
FLA0
IL33
100n
16M
5LA2
3LQ6
100R
*
3LB6
+1V2
3LT3
3LT4
3LT5
+3V3-STANDBY
3LU1
3LU2
RESET-STBY
SCL-UP-VIP
SDA-UP-VIP
+1V2-STANDBY
2LA0
22p
1M0
2LA1
22p
10R
4K7
7LB5
BC847BW
180K
68K
22K
ALE
EA
SPI-CLK
SPI-CSB
SPI-SDI
SPI-SDO
PSEN
+3V3-STANDBY
3L37
7LB7
PDTC114EU
6L03
BAS316
CTRL1-STBYCTRL1-STBY
ALE
EA
SCL-UP-VIP
SDA-UP-VIP
SPI-SDI
PSEN
SPI-SDO
SPI-CLK
SPI-CSB
SPI-WP
ILB8
+3V3-STANDBY
10K
+3V3-STANDBY
3LT7
3LT6
IL32
M25P05-AVMN6
FLA1
FLA2
FLA3
FLA4
10K
3LB4
100K
IL31
68K
3LU0
100K
+3V3-STANDBY
3LE0
10K100R
3LB7
10K
3LB8
10K
3LE3
4K7
3LE4
4K7
3LB9
10K
+3V3-STANDBY
7LA7
5
6
1
3
7
3LT9
10R
D
C
S
W
HOLD
+3V3-STANDBY
3LB5
84
VCC
2
Φ
Q
512K
FLASH
VSS
POWER-OK-DISPLAY-3V3
+3V3
10K
FLA5
M27-PNX
JTAG-TCK
JTAG-TD-VIPER-PNX2015
JTAG-TD-PNX2015-DVB
JTAG-TMS
JTAG-TRST
RESET-MIPS
RESET-PNX2015 IRQ-HD2
3104 313 6073.5
1
234
56
7
8 9 10 11 12 13 14
10 11 12 13 14
LED1-3V3
LED2-3V3
+1V2
ALB0
RES
9LA2
2LA2
9LA0
9LA1
9LA3
5LA3
+5V2-STBY
10K
3LS3
3LS6
IL10
10K
6
IL13
3LS4
2
7LA2-1
2LB1
2
3LT2
10K
3LS5
10K
+5V2-STBY
IL40
+1V2
5LA1
100n
AH11
AK11
AJ11
AG11
AF11
AA27
ILB6
Y29
Y28
Y27
Y26
AD6
AE6
D10
Y30
AJ1
AJ2
3LS8
Y1
BC847BPN
1
9LA5
10K
3LT0
10K
6
7LA3-1
BC847BPN
1
9LA6
SDAC_VDDD
SDAC_VSSD
*
*
XTAL_SYS_VDD
XTALI_SYS
XTALO_SYS
XTAL_SYS_VSS
JTAG_TCK
JTAG_TDI
JTAG_TDO
JTAG_TMS
JTAG_TRSTN
RESET_IN
NC_1
NC_3
NC_4
NC_5
NC_6
10K
IL14
IL43
IL17
3LT1
10K
10p
3LL8
330R
ILB5
3LL9
220R
+3V3
3LJ310K
RES
ILB7
100n
2LA4
IL11
IL42
+5V2-STBY
5
+5V2-STBY
3LS9
5
7J00-6
2015
PNX
Φ
CONTROL
+5V2-STBY
+5V2-STBY
3LS7
330R
IL12
4
BC847BPN
7LA2-2
3
560R
IL41
BC847BPN
7LA3-2
3
HD_EXINT1
HD_EXINT2
SCL_COL
SDA_COL
SCL_HD
SDA_HD
INT_HD1
INT_HD2
SCL_AVIP
SDA_AVIP
INT_AVIP1
INT_AVIP2
3LF6
LED1
LED2POWER-OK-PLATFORM-3V3
9LC8
100R
9LC9
100R
3LF3
3LF5
7LA4
7LA5
10K3LJ2
100R3LH3
IL16
RES
IL19
RES
2LB5
2LB7 2LB6
2LB8
FLA6
FLA7
+3V3
100p
22n
100p
22n
3LF8 100R
AF9
3LG9 100R
AG9
3LH0 100R
C27
3LH1 100R
B27
F4
F5
C22
D22
G4
3LH4 100R
G5
A22
B22
IL15
BSH112
+3V3-STANDBY
3LF4
10K
IL18
BSH112
+3V3-STANDBY
10K
SCL-DMA-BUS2
SDA-DMA-BUS2
SCL-DMA-BUS2
SDA-DMA-BUS2
IRQ-HIRATE
IRQ-HD1
SCL-DMA-BUS2
SDA-DMA-BUS2
IRQ-AVIP
IRQ-AVIP-SUB
P50-3V3
P50
P50-HDMI-3V3
P50-HDMI
G_15960_032.eps
070206
3LM2 A4
3LM3 A4
3LM4 B4
3LM5 B4
3LM6 B4
3LM7 B4
3LN0 C4
3LN1 C4
3LN2 C4
3LN3 C4
3LN4 C4
3LN5 C4
3LN6 C4
3LN7 C4
3LQ6 C7
3LR2 C1
3LS2 D1
3LS3 A11
3LS4 A11
3LS5 B11
3LS6 A12
3LS7 A12
3LS8 B11
3LS9 B12
3LT0 C11
3LT1 C11
3LT2 C11
3LT3 H7
3LT4 H7
3LT5 H7
3LT6 H8
3LT7 H8
3LT8 H6
3LT9 I8
3LU0 I8
3LU1 I7
3LU2 I7
3LU3 I6
3LU4 G4
3LU5 G2
3LU6 G2
3LU7 G1
3LU8 G1
3LU9 H1
3LV0 H1
3LV1 H2
3LV2 H2
3LV3 H4
3LV4 I4
3LV5 I2
3LV6 I2
3LV7 I1
3LV8 I1
5LA1 D11
5LA2 C7
5LA3 F10
6L00 I2
6L01 H2
6L02 G2
6L03 I8
6L04 B3
7J00-5 A5
7J00-6 D12
7LA2-1 A11
7LA2-2 A12
7LA3-1 C11
7LA3-2 C12
7LA4 G13
7LA5 H13
7LA7 D8
7LB0 I3
7LB1 H3
7LB2 G3
7LB3 I6
7LB4 H6
7LB5 H7
7LB6 F6
7LB7 F8
9LA0 E10
9LA1 F10
9LA2 E10
9LA3 F10
9LA5 B11
9LA6 D11
9LC5 G7
9LC6 C3
9LC7 C3
9LC8 G13
9LC9 H13
ALB0 D10
FJ40 E3
FLA0 C7
FLA1 D8
FLA2 D8
FLA3 D8
FLA4 D8
FLA5 D9
FLA6 E14
FLA7 E14
FLB1 H6
FLB2 I6
FLB3 G4
FLB4 H4
FLB5 I4
FLB7 C2
IL10 A11
IL11 A12
IL12 A12
IL13 A11
IL14 B11
IL15 G13
IL16 G13
IL17 C10
IL18 H13
IL19 H13
IL20 G2
IL21 G2
IL22 G3
IL23 H2
IL24 H2
IL25 H3
IL26 I2
IL27 I2
IL28 I3
IL29 H6
IL30 H7
IL31 H8
IL32 I8
IL33 I7
IL34 I6
IL35 F7
IL40 C11
IL41 B12
IL42 C12
IL43 C11
ILB3 D4
ILB5 E11
ILB6 D11
ILB7 F11
ILB8 E8
ILB9 C1
ILC2 D1
ILC3 B2
1LA0 D7
2LA0 D7
2LA1 D7
2LA2 D10
2LA4 F11
2LB0 C7
2LB1 E11
2LB3 B1
2LB4 E2
2LB5 G14
2LB6 H14
2LB7 I14
2LB8 I14
2LT1 H7
A
2LT2 I7
2LT3 G3
2LT4 H3
2LT5 I3
3L36 F6
3L37 F8
3LA0 A1
3LA1 A1
3LA2 A1
3LA3 A1
3LA4 B1
3LA5 B1
3LA6 B1
B
3LA7 B1
3LA8 E2
3LA9 C1
3LB1 E3
3LB2 E3
3LB3 E3
3LB4 E8
3LB5 B9
3LB6 D7
3LB7 A8
3LB8 B8
3LB9 C8
3LC0 B1
C
3LC1 E1
3LC2 B1
3LC3 B1
3LC4 B1
3LC5 B1
3LC6 B1
3LC7 B1
3LC8 E1
3LC9 C1
3LD0 C1
3LD1 C1
3LD2 B4
3LD3 D1
D
3LD4 D1
3LD5 D1
3LD6 D1
3LD7 D1
3LD8 D1
3LD9 D1
3LE0 A8
3LE1 A7
3LE2 B7
3LE3 B8
3LE4 B8
3LE5 E1
3LE6 E1
E
3LE7 D1
3LE8 D1
3LE9 D1
3LF0 B7
3LF1 A7
3LF2 D6
3LF3 H13
3LF4 H13
3LF5 I13
3LF6 I13
3LF8 E13
3LF9 E6
3LG2 C1
F
3LG3 B4
3LG4 C1
3LG5 B4
3LG6 B4
3LG7 B4
3LG8 B4
3LG9 E13
3LH0 E13
3LH1 E13
3LH2 B7
3LH3 F13
3LH4 F13
G
3LH5 E1
3LH6 E1
3LH7 B7
3LH8 B4
3LH9 B4
3LJ0 C4
3LJ1 C4
3LJ2 F13
3LJ3 E11
3LJ4 C4
3LJ5 C4
3LJ6 C4
3LJ7 D4
H
3LJ8 D4
3LJ9 D4
3LK0 D4
3LK1 D4
3LK2 D4
3LK3 D4
3LK4 D4
3LK5 D4
3LK6 D4
3LK7 D4
3LK8 D4
3LK9 E4
3LL0 E4
I
3LL1 E4
3LL2 E4
3LL3 E4
3LL4 E4
3LL5 E4
3LL6 E4
3LL7 E4
3LL8 D11
3LL9 E11
3LM0 A4
3LM1 A4
Page 92
SSB: PNX2015: Supply
Circuit Diagrams and PWB Layouts
92BJ3.0E PA 7.
A
B
C
D
E
12
3456
78
PNX 2015: SUPPLY
B4F B4F
2L80
2u2
2L81
2u2
2L82
2u2
B2
B5
B8
B11
B14
B17
B20
B29
C25
D24
D26
E2
E23
E26
E29
H29
L29
N13
N14
N15
N16
N17
N18
P13
P14
P15
P16
P17
P18
U26
U25
P29
R13
R14
R15
2L83
2u2
2L84
VSS_1
VSS_2
VSS_3
VSS_4
VSS_5
VSS_6
VSS_7
VSS_8
VSS_9
VSS_10
VSS_11
VSS_12
VSS_13
VSS_14
VSS_15
VSS_16
VSS_17
VSS_18
VSS_19
VSS_20
VSS_21
VSS_22
VSS_23
VSS_24
VSS_25
VSS_26
VSS_27
VSS_28
VSS_29
VSS_30
VSS_31
VSS_32
VSS_33
VSS_34
VSS_35
100n
2L85
100n
2L86
7J00-9
PNX
Φ
GND
2L87
100n
2015
100n
2L88
100p
VSS_36
VSS_37
VSS_38
VSS_40
VSS_41
VSS_42
VSS_43
VSS_44
VSS_45
VSS_46
VSS_47
VSS_48
VSS_49
VSS_50
VSS_51
VSS_52
VSS_53
VSS_54
VSS_55
VSS_56
VSS_57
VSS_58
VSS_59
VSS_60
VSS_61
VSS_62
VSS_63
VSS_64
VSS_65
VSS_66
VSS_67
VSS_68
VSS_69
VSS_70
2L89
1n0
2L90
R16
R17
R18
T13
T14
T15
T16
T17
T18
J6
U6
U13
U14
U15
U16
U17
U18
U29
V13
V14
V15
V16
V17
V18
AC29
AF29
AJ5
AJ8
AJ14
AJ17
AJ20
AJ23
AJ26
AJ29
1n0
2L91
1n0
2L92
1n0
+2V5-DDRPNX
+2V5
+1V2
E11
E12
E16
E17
F10
F12
F16
F17
AA6
J25
K25
AB6
AB25
F22
F21
AA5
AE10
AE12
AF10
AF12
AF13
E20
E22
AA25
E13
E14
E15
E18
E19
F13
F14
F15
F18
F19
L26
M25
M26
N25
R26
P25
T26
R25
E9
F9
P6
R6
E5
E6
E7
E8
F6
F7
C1V2_VDD_1
C1V2_VDD_2
C1V2_VDD_3
C1V2_VDD_4
C1V2_VDD_5
C1V2_VDD_6
C1V2_VDD_7
C1V2_VDD_8
C1V2_VDD_9
C1V2_VDD_10
C1V2_VDD_11
C1V2_VDD_12
C1V2_VDD_13
C1V2_VDD_14
C1V2_VDD_15
C1V2_VDD_16
C1V2_VDD_17
C1V2_VDD_18
C1V2_VDD_19
C1V2_VDD_20
C1V2_VDD_21
C1V2_VDD_22
C1V2_VDD_23
C1V2_VDD_24
C1V2_VDD_25
C1V2_VDD_27
C1V2_VDD_28
P2V5VDD_1
P2V5VDD_2
P2V5VDD_3
P2V5VDD_4
P2V5VDD_5
P2V5VDD_6
P2V5VDD_7
P2V5VDD_8
P2V5VDD_9
P2V5VDD_10
P2V5VDD_11
P2V5VDD_12
P2V5VDD_13
P2V5VDD_14
P2V5VDD_15
P2V5VDD_16
P2V5VDD_17
P2V5VDD_18
P2V5VDD_19
P2V5VDD_20
P2V5VDD_21
P2V5VDD_22
P2V5VDD_23
P2V5VDD_24
7J00-8
PNX
2015
Φ
SUPPLY
P3V3VDD_1
P3V3VDD_2
P3V3VDD_3
P3V3VDD_4
P3V3VDD_5
P3V3VDD_6
P3V3VDD_7
P3V3VDD_8
P3V3VDD_9
P3V3VDD_11
P3V3VDD_12
P3V3VDD_13
P3V3VDD_14
P3V3VDD_15
P3V3VDD_16
P3V3VDD_17
P3V3VDD_18
P3V3VDD_19
SB1V2VDD_1
SB1V2VDD_2
SB1V2VDD_3
SB1V2VDD_4C1V2_VDD_26
SB1V2VDD_5
SB1V2VDD_6
SB1V2VDD_7
SB3V3VDD_1
SB3V3VDD_2
SB3V3VDD_3
SB3V3VDD_4
SB3V3VDD_5
VDD_LVDS_1
VDD_LVDS_2
VDD_LVDS_3
VDD_LVDS
VDDA_SYS_PLL
VCCA_LVDS_PLL
VDDA_1_7_MCAB
VCCA_U5PLL
ADC_VSSA
ADC3V3VDDA
AVDD_MCAB
AVSS_MCAB
SDAC_3V3
F25
G25
H26
M6
N6
V6
W6
AF8
AA26
AB26
AC26
AD25
AE7
AE13
AE14
AE24
AE25
AF26
AE15
AE16
AE17
AE18
AF15
AF17
AF18
AE19
AE21
AE22
AF19
AF20
A23
A24
A26
B23
AE9
T25
V25
P26
AF24
AF22
V26
W25
AK1
+3V3
+1V2-STANDBY
ILN2
100n
2LS5
+3V3-STANDBY
LVDS-3V3
PLL-1V2
LVDS-3V3
+3V3
PLL-3V3
UP-3V3
+1V2
5LN4
+3V3
+1V2
+2V5
+3V3
+1V2
+3V3-STANDBY
+3V3
2LN2
4V47u
2LN3
5LN0
5LN1
5LN2
5LN3
100n
2LN4
2LP0
ILN3
ILN4
ILN5
ILN6
100n
4V100u
2LN5
2LP7
2LR5
2LR8
100n
4V100u
100n
100n
2LN6
2LP2
2LP8
2LR2
2LR4
2LR6
2LR9
100n100n
100n
100n
100n
100n
100n
2LN7
2LP3
2LP9
2LN8
100n
2LP4
100n 100n
2LR0
PLL-3V3
PLL-1V2
UP-3V3
LVDS-3V3
100n100n
100n
A
B
C
D
E
2L80 E1
2L81 E1
2L82 E1
2L83 E1
2L84 E1
2L85 E1
2L86 E2
2L87 E2
2L88 E2
2L89 E2
2L90 E2
2L91 E3
2L92 E3
2LN2 A7
2LN3 A7
2LN4 A7
2LN5 A8
2LN6 A8
2LN7 A8
2LN8 A8
2LP0 B7
2LP2 B8
2LP3 B8
2LP4 B8
2LP7 B8
2LP8 B8
2LP9 B8
2LR0 B8
2LR2 C8
2LR4 D8
2LR5 D8
2LR6 D8
2LR8 E8
2LR9 E8
2LS5 E6
5LN0 C7
5LN1 C7
5LN2 D7
5LN3 E7
5LN4 E6
7J00-8 A5
7J00-9 A2
ILN2 E6
ILN3 C8
ILN4 C8
ILN5 D8
ILN6 E8
3104 313 6073.5
1 2345678
G_15960_033.eps
080206
Page 93
Circuit Diagrams and PWB Layouts
93BJ3.0E PA 7.
SSB: PNX2015: Display Interface
123456789
10
11 12 13
PNX 2015: DISPLAY INTERFACE
B4G B4G
3J28-4
10K
2J74
5J10
5J11
5J12
3J86
1K0
IJ69
2J57
100n
FJ14
3J28-1
18
10K
100n
47R
3J42 *
3J43
1n0
2J70
2J37
FJ13
2J71
100n
6J06
SML-310
3J28-3
36
10K
+3V3
*
10K
47R
47R
3J44
3J88
1n0
1n0
2J69
2J64
1n0
can be C or Jumper
+3V3
IJ73
0V2
FJ12
FJ11
FJ10
FJ09
VDISP
+3V3
NOTE:
DISABLE-12V
ENABLE-5V
CTRL-DISP1
CTRL-DISP2
CTRL-DISP3
CTRL-DISP4
FHP
(IRQ)
(PDWIN)
(CPU-GO)
(PDP-GO)
SDI
RESET
TXPNXA-
TXPNXA+
TXPNXB-
TXPNXB+
TXPNXC-
TXPNXC+
TXPNXCLK-
TXPNXCLK+
TXPNXD-
TXPNXD+
TXPNXE-
TXPNXE+
SDA-I2C4
SCL-I2C4
4
5J50
1
4
5J521
4
5J541
4
5J561
4
5J58
1
4
5J601
+5V2-STBY
+3V3
3
DLW21S
2
3
DLW21S
2
3
DLW21S
2
3
DLW21S
2
3
DLW21S
2
3
DLW21S
2
2J40
2J41
2J43
2J45
2J47
2J49
2J73
I2C-BUFFER *
5J82
RES
5J85
RES
PCA9515DP
10p
10p
2J42
10p
10p
2J44
10p
10p
2J46
10p
10p
2J48
10p
2J72
10p
10p
10p
IJ10
8
RES7J04
VCC
SDA03 SDA1 6
SCL02SCL17
EN
5
GND
4
9J16
9J17
RES
2J60
1
NC
100n
FJ24
FJ25
FJ27
FJ30
FJ31
FJ36
2J75
RES
100n
RES
VDISP
IJ61
FJ15
3LQ8
100R
3LQ7
100R
2J67
FJ16
2J68
1G50
FI-WE31P-HFE-E1500
100p
100p
33
SCL-I2C4-DISP
SDA-I2C4-DISP
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
LVDS
16
17
CONNECTOR
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
RES9J15
RES
FJ23
FJ26
FJ28
FJ29
FJ32
FJ37
3J31
RES
4K7
3J32
6J03
4K7
BAV99 COL
IJ12
6J04RES
BAV99 COL
IJ13
CTRL-DISP1
CTRL-DISP2
CTRL-DISP3
CTRL-DISP4
SCL-I2C4-DISP
SDA-I2C4-DISP
10 11 12 13
A
B
C
VDISP-SWITCH
D
E
F
G
H
I
3104 313 6073.5
IJ16
7J07-2
BC847BS
100K
FJ18
3
4
IJ14
72
2
+3V3-STANDBY
7J09
BC847BW
5
3J28-2
10K
3J52
IJ68
54
IJ72
4K7
+5VDISP
SCL-AMBI
SDA-AMBI
CTRL1-VIPER
CTRL2-VIPER
CTRL4-VIPER
CTRL1-STBY
CTRL3-STBY
CTRL4-STBY
POD-MODE
ON-MODE
+12VSW
7J07-1
BC847BS
IJ67
3J25
47K
6
1
3J56
7J06
SI3441BDV
3J92
47K
6J01
BZX384-C5V6
3J99
IJ18
IJ19
IJ20
IJ21
IJ22
IJ23
IJ24
IJ71
2J76
IJ15
47R
3J26
22K
3J49
100R
3J46
100R
3J45
100R
3J91
100R
3J24 *
47R
3J23
47R
3J50
47R
3J47 *
47R
3J51
47R
3J53
100K
3J55
100K
IJ70
1u0
IJ51
*
*
*
*
IJ81
*
123456789
G_15960_034.eps
080206
G
A
B
C
D
E
F
H
I
1G50 F12
2J37 H4
2J40 F9
2J41 F9
2J42 F9
2J43 G9
2J44 G9
2J45 G9
2J46 H9
2J47 H9
2J48 H9
2J49 I9
2J57 C4
2J60 C10
2J64 H5
2J67 C12
2J68 E12
2J69 H5
2J70 H5
2J71 A5
2J72 I9
2J73 I9
2J74 E4
2J75 B11
2J76 C3
3J23 G2
3J24 G2
3J25 C3
3J26 D2
3J28-1 D5
3J28-2 D4
3J28-3 C5
3J28-4 C4
3J31 C10
3J32 C11
3J42 F4
3J43 F5
3J44 F5
3J45 G2
3J46 G2
3J47 H2
3J49 F2
3J50 H2
3J51 H2
3J52 H4
3J53 H2
3J55 I2
3J56 I3
3J86 B5
3J88 F5
3J91 G2
3J92 B2
3J99 C2
3LQ7 C12
3LQ8 D12
5J10 A5
5J11 A5
5J12 A5
5J50 F8
5J52 G8
5J54 G8
5J56 H8
5J58 H8
5J60 I8
5J82 B9
5J85 B9
6J01 B2
6J03 C11
6J04 D11
6J06 B5
7J04 C9
7J06 B3
7J07-1 D3
7J07-2 C4
7J09 H4
9J15 B10
9J16 D10
9J17 D10
FJ09 G5
FJ10 G5
FJ11 F5
FJ12 F5
FJ13 A5
FJ14 C5
FJ15 C12
FJ16 D12
FJ18 A4
FJ23 G11
FJ24 G10
FJ25 G10
FJ26 G11
FJ27 H10
FJ28 H11
FJ29 H11
FJ30 H10
FJ31 H10
FJ32 H11
FJ36 H10
FJ37 H11
IJ10 B10
IJ12 C11
IJ13 D11
IJ14 D4
IJ15 C2
IJ16 C3
IJ18 G2
IJ19 G2
IJ20 G2
IJ21 H2
IJ22 H2
IJ23 H2
IJ24 H2
IJ51 E3
IJ61 B12
IJ67 B3
IJ68 C4
IJ69 C5
IJ70 C3
IJ71 H2
IJ72 D4
IJ73 D5
IJ81 H3
Page 94
Circuit Diagrams and PWB Layouts
94BJ3.0E PA 7.
SSB: Viper: Control
0H00 B10
0H01 A11
0H02 B11
0H04 B10
0H05 B10
1H00 A2
1H01 G15
1M00 A10
1M64 H13
2H06 H9
2H07 H9
2H08 A2
2H09 A2
2Q67 E13
2Q68 E13
2Q69 F14
2Q70 F14
3H01 C1
3H03 C3
3H04 A13
3H05 A13
3H06 A9
3H08 C3
3H09 D1
3H10 D1
3H11 D1
3H12 A9
3H13 D1
3H14 B9
3H15 F7
3H16 C3
3H22 C13
3H23 C13
3H24 F7
3H25 F7
3H26 F7
3H27 D2
3H29 E2
3H31 E2
3H33 D3
3H34 E3
3H40 H3
3H41 H1
3H70 E8
3H71 C1
3H72 D7
3H73 A7
3H74 A7
3H75 A2
1 23456789101112131415
B5A B5A
A
4K7
B
C
D
G
H
3Q27
FQ19
FQ20
FQ21
FQ22
FQ23
3H10
+3V3
3H11 4K7
E
6H01
BAS316
IQ30
F
4K7
3H97
VIPER: CONTROL
2H08
+3V3
+3V3
4K7
3H90
9H04
RES
22R3Q69
+3V3
+3V3
+3V3
IRQ-MPIF
IRQ-AVIP
4K7
IH09
*
+3V3
+3V3
3H85
4K7
+3V3
FQ10
6H03
BAS316
POWER-OK-PLATFORM
GLINK-IR-OUT-VIP
27p
2H09
27p
3Q03
3Q04
JTAG-TD-P3-CON
JTAG-TD-CON-VIPER
47K3Q70
3H71
4K7
9H08
9H07
9H13
4K73H09
RES
3H27
10K
3H87
4K7
3H83
4K7
+3V3
9H30
+3V3
3H41
1H00
4K7
4K7
4K73H01
4K73H13
*
RES
3H29
4K7
3H31
4K7
IQ60
10R
AH11
IQ50
IQ51
JTAG-TRST
JTAG-TMS
JTAG-TCK
IQ52
3H75
100R
1M0
27M
3H82
DSX840GA
SCL-I2C4
SDA-I2C4
JTAG-TD-VIPER-PNX2015
JTAG-TD-CON-VIPER
JTAG-TMS
IRQ-IEEE1394
IRQ-MAINIRQ-FE-MAIN
CTRL4-VIPER
REGIMBEAU
DEBUG-BREAK
SOUND-ENABLE-VPR
IRQ-ETHERNET
GLINK-IR-OUT-VIP
IRQ-USB20
RESET-FE-MAIN
IRQ-POD
IRQ-SUB
IRQ-HIRATE
IRQ-AVIP-SUB
SOUND-ENABLE
IQ53
7H01
PDTC114EU
7H02
PDTC114EU
*
9H40
A-PLOP
IQ61
RESET-SYSTEM
SDA-MM
SCL-MM
SDA-DMA
SCL-DMA
SDA-UP-VIP
SCL-UP-VIP
SDA-I2C4
SCL-I2C4
JTAG-TD-VIPER-PNX2015
JTAG-TD-CON-VIPER
JTAG-TCK
JTAG-TMS
JTAG-TRST
4K7
3H16
4K7
3H08
4K7
3H03
POWERDOWN-1394
SEL-IF-LL1
SEL-IF-LL2
IRQ-IEEE1394
IRQ-MAIN
RESET-ETHERNET
POWER-OK-PLATFORM-3V3
RESET-USB20
CTRL4-VIPER
REGIMBEAU
DEBUG-BREAK
SOUND-ENABLE-VPR
IRQ-ETHERNET
GLINK-IR-OUT-VIP
4K7
+3V3
FQ03
+3V3
3H33
RESET-TM
3H34
IRQ-USB20
RESET-FE-MAIN
IRQ-POD
IRQ-HD2
SC1-RGB_2FH-RGB
VSYNC-HIRATE
IRQ-SUB
RESET-POD-CI
IRQ-HIRATE
IRQ-HD1
RESET-1394
HDMI-COAST
POWER-OK-PLATFORM-3V3
+3V3
*
10K
3H40
GLINK-IR-OUT
4K7
3104 313 6073.5
1 2345678910
3H79 A7
3H80-1 D7
3H80-2 C8
3H80-3 D8
3H80-4 C8
3H81-1 D8
3H81-2 C8
3Q48
100R
100R 3Q11
3Q10100R
3Q13100R
100R
3Q12
100R 3Q15
3Q14100R
100R 3H99
3H98100R
9H03
9H16
EJTAG-TDO
EJTAG-TDI
EJTAG-TCK
EJTAG-TMS
FQ50
FQ54
3Q50
100R
3Q52
100R
9H06
FQ52
9H05
FQ53
9H14
9H15
AF29
AD26
AE27
AG29
AE28
AD27
AF30
AE29
AD28
AC27
AE30
AD29
AD30
AB27
AB28
C4
A2
AD4
A25
C25
A3
B4
D2
C1
E4
D3
C2
D25
B27
A28
A29
B5
E5
D4
B1
E7
A5
A26
B25
D5
E26
D27
B29
B28
C27
E25
D26
F3
G4
E2
G5
F4
H4
F1
G3
F2
E1
3H81-3 D8
3H82 A2
3H83 E2
3H84 E8
3H85 E1
3H86 E8
3H87 E2
XTALO
RESET_IN
I2C1_SDA
I2C1_SCL
I2C2_SDA
I2C2_SCL
I2C3_SDA
I2C3_SCL
I2C4_SDA
I2C4_SCL
JTAG_TDO
JTAG_TDI
JTAG_TCK
JTAG_TMS
JTAG_TRST
DBG_TDO
DBG_TDI
DBG_TCK
DBG_TMS
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
GPIO8
GPIO9
GPIO10
GPIO11
GPIO12
GPIO13
GPIO14
GPIO15
SC1_SCCK
SC1_OFFN
SC1_RST
SC1_CMD
SC1_DA
SC2_SCCK
SC2_OFFN
SC2_RST
SC2_CMD
SC2_DA
QVCP2L_DATA_OUT0
QVCP2L_DATA_OUT1
QVCP2L_DATA_OUT2
QVCP2L_DATA_OUT3
QVCP2L_DATA_OUT4
QVCP2L_DATA_OUT5
QVCP2L_DATA_OUT6
QVCP2L_DATA_OUT7
QVCP2L_DATA_OUT8
QVCP2L_DATA_OUT9
QVCP2L_CLK_OUT
3H88 E8
3H89 E11
3H90 B1
3H93 E8
3H94 H7
3H95 H7
3H97 F1
7V00-5
VIPER REV C
CONTROL
3H98 B4
3H99 B4
3Q03 B2
3Q04 B2
3Q10 A4
3Q11 A4
3Q12 B4
PLL_OUTXTALI
M135_CLK
M27_CLK
PCI_AD10
PCI_AD11
PCI_AD12
PCI_AD13
PCI_AD14
PCI_AD15
PCI_AD16
PCI_AD17
PCI_AD18
PCI_AD19
PCI_AD20
PCI_AD21
PCI_AD22
PCI_AD23
PCI_AD24
PCI_AD25
PCI_AD26
PCI_AD27
PCI_AD28
PCI_AD29
PCI_AD30
PCI_AD31
PCI_PAR
PCI_PERR
PCI_STOP
PCI_TRDY
PCI_IRDY
PCI_FRAME
PCI_DEVSEL
PCI_IDSEL
PCI_CBE3
PCI_CBE2
PCI_CBE1
PCI_CBE0
PCI_SERR
PCI_REQ
PCI_REQ_A
PCI_REQ_B
PCI_GNT
PCI_GNT_A
PCI_GNT_B
XIO_ACK
XIO_SEL0
XIO_SEL1
XIO_SEL2
XIO_SEL3
XIO_SEL4
UA2_RTSN
UA2_CTSN
USB1_DM
USB1_DP
USB2_DM
USB2_DP
USB_BUS_PWR
USB_OVRCUR
SYS_RSTN_OUT
PCI_AD0
PCI_AD1
PCI_AD2
PCI_AD3
PCI_AD4
PCI_AD5
PCI_AD6
PCI_AD7
PCI_AD8
PCI_AD9
PCI_CLK
INTA
XIO_D8
XIO_D9
XIO_D10
XIO_D11
XIO_D12
XIO_D13
XIO_D14
XIO_D15
XIO_A25
UA1_TX
UA1_RX
UA2_TX
UA2_RX
3Q13 B4
3Q14 B4
3Q15 B4
3Q16 H10
3Q17 H11
3Q18 H11
3Q19 H11
D28
D29
C30
AK12
AJ12
AH12
AG12
AJ11
AG11
AK10
AJ10
AG10
AK9
AJ9
AH9
AG9
AK8
AG8
AK7
AJ5
AG5
AJ4
AH4
AK3
AJ3
AK2
AJ1
AH2
AG2
AG3
AG4
AF1
AF2
AF4
AF5
AH7
AF7
AK6
AH6
AG6
AF6
AJ6
AJ2
AD2
AH1
AK5
AJ7
AG7
AH10
AD1
AE1
AE2
AE4
AD5
AE3
AE5
AA3
AA4
AB1
AB2
AB3
AB4
AC1
AC4
W3
W4
AA2
AA1
Y4
Y2
W2
E24
B26
F26
E27
C29
B30
AJ28
AH27
AF26
AK29
AJ29
AG27
AD3
3Q38-1
3Q38-3
3Q40-1
3Q40-2
IH16
IH17
IH18
IQ22
100R
100R
100R
100R
3Q20 G11
3Q21 H11
3Q22 H11
3Q23 H10
3Q24 E10
3Q27 B1
3Q38-1 E7
3H73
PCI-AD0
PCI-AD1
PCI-AD2
PCI-AD3
PCI-AD4
PCI-AD5
PCI-AD6
PCI-AD7
PCI-AD8
PCI-AD9
PCI-AD10
PCI-AD11
PCI-AD12
PCI-AD13
PCI-AD14
PCI-AD15
PCI-AD16
PCI-AD17
PCI-AD18
PCI-AD19
PCI-AD20
PCI-AD21
PCI-AD22
PCI-AD23
PCI-AD24
PCI-AD25
PCI-AD26
PCI-AD27
PCI-AD28
PCI-AD29
PCI-AD30
PCI-AD31
100R3H72
IQ27
3Q38-2
100R
3Q38-4
100R
3Q40-3
100R
3Q40-4
100R
3H24
100R
100R
3H15
3H26 100R
100R3H25
IQ24
IQ25
FH12
4K7
3H94
6H00
RES
3H95
+3V3
3H79
22R
22R
SML-310
330R
3Q38-2 F7
3Q38-3 F7
3Q38-4 F7
3Q40-1 F7
3Q40-2 F7
3Q40-3 F7
3Q40-4 F7
AH10
3H74
3H80-1
IQ28
IQ23
USB-BUS-PW
USB-OVERCUR
68R
+3V3
4K7
3H80-4
3H80-2
4K7
4K7
3H80-3
PCI-INTA
PCI-REQ
PCI-REQ-A
PCI-REQ-B
PCI-GNT
PCI-GNT-A
XIO-D8
XIO-D9
XIO-D10
XIO-D11
XIO-D12
XIO-D13
XIO-D14
XIO-D15
XIO-ACK
XIO-SEL0
XIO-SEL1
XIO-SEL2
XIO-SEL0
GLINK-TXD
GLINK-RXD
TXD-VIPER
RXD-VIPER
USB1-DM
USB1-DP
USB2-DM
USB2-DP
RESET-MIPS
3Q48 A4
3Q50 D4
3Q52 D4
3Q69 C1
3Q70 C1
5H01 H11
5H02 G11
PLL-OUT
M135-CLK
M27-CLK
4K7
3H81-2
4K7
3H81-1
3H81-3
4K7
4K7
PCI-INTA
PCI-REQ
PCI-REQ-A
PCI-REQ-B
PCI-GNT
USB-BUS-PW
USB-OVERCUR
5H03 F14
5H04 F14
6H00 H7
6H01 E1
6H03 F1
6H06-1 H14
6H06-2 H12
PLL-OUT
PCI-CLK-VPR
PLL-OUT
PCI-CLK-ETHERNET
PLL-OUT
PCI-CLK-USB20
PCI-PAR
PCI-PERR
PCI-STOP
PCI-TRDY
PCI-IRDY
PCI-FRAME
PCI-DEVSEL
PCI-AD16
PCI-CLK-VPR
PCI-CBE3
PCI-CBE2
PCI-CBE1
PCI-CBE0
PCI-SERR
3H70
3H84
3H88 4K7
3H93 4K7
2H07
1n0
2H06
1n0
3H06
3H12
3H14
4K7
4K7
4K73H86
22R
22R
22R
6H07-1 G13
6H07-2 G12
7H01 G2
7H02 H2
7Q01 E12
7V00-5 A5
9H03 B4
+3V3
USB-OVERCUR
USB20-OC1
USB-BUS-PW
USB20-PWE1
USB1-DM
USB1-DP
USB2-DM
USB2-DP
9H04 B1
9H05 F4
9H06 E4
9H07 C2
9H08 C2
9H13 C2
9H14 F4
0H00
IQ14
IQ32
9H15 F4
9H16 B4
9H30 E1
9H40 H2
9Q13 F11
9Q14 F11
9Q15 F11
IQ03
IQ04
IQ05
IQ06
EMC HOLE
+3V3
3Q24
3Q23
IQ26
15K
1M00
0H04
0H05
10K
0H01
9Q14
9Q13
9Q16
9Q15
3Q20
3Q16
IQ29
22R
15K
9Q16 F11
9Q17 H13
9Q18 H13
9Q66 A13
9Q67 A14
AH10 A7
AH11 A2
22R
3Q21
22R
3Q22
3Q18
3Q17
15K
IQ34
IQ33
FH12 H7
FQ00 G15
FQ01 G15
FQ02 G15
FQ03 E3
FQ04 H15
FQ05 H15
0H02
+3V3
3H89
22R
3Q19
+5V
15K
5H02
10K
5H01
FQ06 H15
FQ10 F1
FQ19 C1
FQ20 C1
FQ21 C1
FQ22 C1
FQ23 C1
DLW21S
DLW21S
FQ41 B14
FQ42 B14
FQ43 C14
FQ44 C14
FQ50 C4
FQ52 E4
FQ53 F4
SCL-DMA
SDA-DMA
SCL-DMA
SDA-DMA SDA-DMA-BUS2
SCL-MM
SDA-MM
7Q01
LM3526MX-LNOPB
IQ15
1
IQ16
2
3
4
6H07-2
BAV99S
BAV99S
6H06-2
FQ54 C4
IH09 D1
IH16 F7
IH17 F7
IH18 F7
IQ03 G10
IQ04 G10
+3V3
+3V3
1K8
3H05
+3V3
+3V3
4K7
3H22
+5V
IQ13
ENA_
FLGA
FLGB
ENB_
100n
2Q67
IN
OUTA
OUTB
GND
67
+5V
9Q17
9Q18
1K8
3H04
4K7
3H23
16V470u
2Q68
8
5
6H07-1
BAV99S
1M64
1
2
3
4
56
B4B-PH-SM4-TBT(LF)
IQ05 H10
IQ06 H10
IQ13 E12
IQ14 E10
IQ15 E12
IQ16 F12
IQ17 F13
IQ17
IQ21
TO SSB
IQ21 F13
IQ22 F7
IQ23 F7
IQ24 G7
IQ25 G7
IQ26 H10
IQ27 E7
RES
RES
9Q66
9Q67
FQ41
FQ42
FQ43
FQ44
5H03
220R
5H04
220R
2Q70
2Q69
6H06-1
16V100u
100u 16V
BAV99S
11 12 13 14 15
IQ28 F7
IQ29 H11
IQ30 E1
IQ32 F10
IQ33 H11
IQ34 H11
IQ50 B2
SCL-DMA-BUS1
SDA-DMA-BUS1
SDA-I2C4
SCL-I2C4
SCL-DMA-BUS2
SCL-MM-BUS1
SDA-MM-BUS1
CONNECTOR
FQ00
FQ01
FQ02
FQ04
FQ05
FQ06
1-1470168-1
IQ51 B2
IQ52 G2
IQ53 G2
IQ60 H2
IQ61 H3
USB
1H01
1
2
3
4
5
6
7
8
91011
12
G_15960_035.eps
A
B
C
D
E
F
G
H
080206
Page 95
Circuit Diagrams and PWB Layouts
95BJ3.0E PA 7.
SSB: Viper: Main Memory
12 5 78910
B5B B5B
VIPER: MAIN MEMORY
34
6
11
A
7V00-2
VIPER REV C
7V01
DDR INTERFACE
B
C
D
E
F
G
MM_A0
MM_A1
MM_A2
MM_A3
MM_A4
MM_A5
MM_A6
MM_A7
MM_A8
MM_A9
MM_A10
MM_A11
MM_A12
MM_BA0
MM_BA1
MM_CS0
MM_DQM_0
MM_DQM_1
MM_DQM_2
MM_DQM_3
MM_DQS0
MM_DQS1
MM_DQS2
MM_DQS3
MM_RAS
MM_CAS
MM_WE
MM_CKE
MM_CLK_N
MM_CLK_P
2V02
VREF-VPRDDR
1n0
IH20
3V44
100R
3V78
100n
IQ35
2V37
VREF-VPRDDR
100p
2V38
D19
B19
C19
A21
D20
D21
B21
C21
A24
B22
A22
D22
C24
C22
B24
D23
C6
B6
D7
C7
B7
C9
D8
A7
A8
B9
D10
A9
D9
C10
A10
D11
1u0
B13
MM_ADDR0
D15
MM_ADDR1
B14
MM_ADDR2
A15
MM_ADDR3
C15
MM_ADDR4
B15
MM_ADDR5
A16
MM_ADDR6
D16
MM_ADDR7
B16
MM_ADDR8
C16
MM_ADDR9
D14
MM_ADDR10
C18
MM_ADDR11
B17
MM_ADDR12
C12
MM_AVREF
D13
MM_BA0
A13
MM_BA1
B12
MM_CS0
D17
MM_CS1
A19
MM_DQM_0
D24
MM_DQM_1
D6
MM_DQM_2
B11
MM_DQM_3
B20
MM_DQS_0
A23
MM_DQS_1
A6
MM_DQS_2
B10
MM_DQS_3
C13
MM_RAS
A12
MM_CAS
D12
MM_WE
D18
MM_CKE
A18
MM_CLK_N
B18
MM_CLK_P
1K0
+2V5-VPR
3V46
3V45
560R
560R
MM_DATA0
MM_DATA1
MM_DATA2
MM_DATA3
MM_DATA4
MM_DATA5
MM_DATA6
MM_DATA7
MM_DATA8
MM_DATA9
MM_DATA10
MM_DATA11
MM_DATA12
MM_DATA13
MM_DATA14
MM_DATA15
MM_DATA16
MM_DATA17
MM_DATA18
MM_DATA19
MM_DATA20
MM_DATA21
MM_DATA22
MM_DATA23
MM_DATA24
MM_DATA25
MM_DATA26
MM_DATA27
MM_DATA28
MM_DATA29
MM_DATA30
MM_DATA31
2V36
MM_DATA_7
MM_DATA_3
MM_DATA_5
MM_DATA_4
MM_DATA_1
MM_DATA_6
MM_DATA_2
MM_DATA_0
MM_DATA_13
MM_DATA_12
MM_DATA_10
MM_DATA_8
MM_DATA_11
MM_DATA_14
MM_DATA_15
MM_DATA_9
MM_DATA_21
MM_DATA_17
MM_DATA_23
MM_DATA_16
MM_DATA_20
MM_DATA_22
MM_DATA_19
MM_DATA_18
MM_DATA_24
MM_DATA_26
MM_DATA_27
MM_DATA_28
MM_DATA_30
MM_DATA_29
MM_DATA_31
MM_DATA_25
+2V5D-DDR
3V47
3V48
MM_A0
MM_A1
MM_A2
MM_A3
MM_A4
MM_A5
MM_A6
MM_A7
MM_A8
MM_A9
MM_A10
MM_A11
MM_A12
MM_BA0
MM_BA1
MM_DQM_0
MM_DQM_1
VREFD-DDR
MM_CLK_N
MM_CLK_P
MM_CKE
MM_CS0
MM_RAS
MM_CAS
MM_WE
560R
560R
IH22
2V39
100n
2V40
100p
2V00
3V25
2V41
*
MT46V32M16P-5BTR
29
30
31
32
35
36
37
38
39
40
28
41
42
26
27
20
47
1n0
49
180R
46
45
44
24
23
22
21
VREFD-DDR
1u0
+2V5D-DDR
1183339
VDD
0
1
2
3
4
5
A
6
7
8
9
10
11
AP
0
BA
1
L
DM
U
VREF
CK
CK
CKE
CS
RAS
CAS
WE
VSS
344866612
SD RAM1
+2V5D-DDR
VDDQ
Φ
DDR
SDRAM
8Mx16
VSSQ
+2V5D
55
15
D
525864
2V03
DQS
61
DNU
NC
100n
0
1
2
3
4
512
6
7
8
9
10
11
12
13
14
15
L
U
1u0
2Q01
14
17
25
43
53
19
50
2
4
5
7
8
3V10 22R
10
11
13
3V14 22R
54
56
3V18 22R
57
59
3V22
60
62
63
65
16
3V42 22R
51
5V01
220R
5V02
220R
2Q03
*
1u0
22R3V02
22R3V06
22R
22R3V34
22R3V38
22R3V40
IH21
2V04
3V08
3V12
3V16
3V20 22R
3V32
MM_DQS0 MM_DQS2
MM_DQS1
1n0
100p
2V05
MM_DATA_0
22R3V00
MM_DATA_1
MM_DATA_2
22R3V04
MM_DATA_3
MM_DATA_4
22R
MM_DATA_5
MM_DATA_6
22R
MM_DATA_7
MM_DATA_8
22R
MM_DATA_9
MM_DATA_10
MM_DATA_11
MM_DATA_12
22R
MM_DATA_13
MM_DATA_14
22R3V36
MM_DATA_15
MM_DQS3
+2V5D-DDR
MM_DATA_16
MM_DATA_17
MM_DATA_18
MM_DATA_19
MM_DATA_20
MM_DATA_21
MM_DATA_22
MM_DATA_23
MM_DATA_24
MM_DATA_25
MM_DATA_26
MM_DATA_27
MM_DATA_28
MM_DATA_29
MM_DATA_30
MM_DATA_31
2V42
+2V5D-DDR
2V16
10n
100n
2V43
2V17
10n
100n
2V44
2V18
3V03 22R
3V07 22R
3V11 22R
3V19 22R
3V23 22R
3V35
+2V5D-DDR
10n
2V45
100n
2V19
10n
100n
22R3V15
22R
22R3V39
2V46
2V20
3V13 22R
3V17 22R
3V37 22R
22R3V43
22R3V41
10n
2V47
100n
2V21
12 13 14
SD RAM2
VSSQ
10n
100n
15
Φ
DDR
SDRAM
8Mx16
52
10n
2V52
100n
2V26
9
12
2V53
2V27
+2V5D-DDR
33
3
VDD
VSS
6
66
10n
2V54
100n
2V28
10n
100n
18
A
AP
BA
DM
VREF
CK
CK
CKE
RAS
CAS
48
2V55
2V29
10n
100n
+2V5D-DDR
61
14
17
25
43
53
19
50
2
22R3V01
4
5
22R3V05
7
8
22R3V09
10
11
13
54
56
57
22R3V21
59
60
22R3V33
62
63
65
16
51
10n
2V48
2V49
100n
2V23
2V22
55
VDDQ
NC
DNU
0
1
2
3
4
512
6
7
D
8
9
10
11
12
13
14
15
L
DQS
U
58
64
10n
10n
2V51
2V50
100n
100n
2V25
2V24
2Q21
*
7V02
1
MT46V32M16P-5BTR
29
0
30
1
31
2
32
3
35
4
36
5
37
6
38
7
39
8
40
9
28
10
41
11
42
26
0
27
1
20
L
47
U
49
46
45
44
24
CS
23
22
21
WE
34
10n
10n
2V57
2V56
100n
100n
2V30
2V31
1u0
3V24
2Q23
10n
100n
2V58
2V35
1u0
1n02V01
10n
330u 6.3V
180R
MM_A10
MM_A11
MM_A12
MM_BA0
MM_BA1
MM_DQM_2
MM_DQM_3
VREFD-DDR
MM_CLK_N
MM_CLK_P
MM_CKE
MM_CS0
MM_RAS
MM_CAS
MM_WE
MM_A0
MM_A1
MM_A2
MM_A3
MM_A4
MM_A5
MM_A6
MM_A7
MM_A8
MM_A9
2Q01 B8
2Q03 B9
2Q21 B13
2Q23 B14
2V00 C7
2V01 C14
2V02 C2
2V03 G8
2V04 G9
2V05 G9
A
2V16 G10
2V17 G11
2V18 G11
2V19 G11
2V20 G11
2V21 G11
2V22 G12
2V23 G12
2V24 G12
2V25 G12
2V26 G12
2V27 G13
B
2V28 G13
2V29 G13
2V30 G13
2V31 G14
2V35 G14
3V00 C9
3V01 C11
3V02 C9
3V03 C11
3V04 C9
3V05 C11
3V06 C9
C
3V07 C11
3V08 C9
3V09 C11
3V10 C9
3V11 C11
3V12 C9
3V13 C11
3V14 C9
3V15 C11
3V16 C9
3V17 C11
D
3V18 C9
3V19 C11
3V20 C9
3V21 C11
3V22 C9
3V23 C11
3V24 D14
3V25 D6
3V32 C9
3V33 C11
3V34 C9
3V35 C11
E
3V36 D9
3V37 D11
3V38 D9
3V39 D11
3V40 D9
3V41 D11
3V42 D9
3V43 D11
3V44 E2
3V78 E3
5V01 G9
5V02 G9
7V00-2 A4
7V01 B7
7V02 B13
IH20 D2
IH21 G9
G
3104 313 6073.5
123456F7 8 10 14
G_15960_036.eps
080206
9
11 12 13
Page 96
Circuit Diagrams and PWB Layouts
96BJ3.0E PA 7.
SSB: Viper: A/V & Tunnel Bus
12345
7891011126
13
VIPER: A/V + TUNNELBUS
B5C B5C
7V00-1
VIPER REV C
68R
68R 3Q34-2
68R 3Q90
68R
G2
G1
J4
J3
H1
K4
J2
J1
K1
L4
L2
M4
M3
M2
M1
N4
K3
N3
3H4868R
3Q68
3Q28-4
3Q28-168R
3Q26-368R
3Q44-468R
3Q44-168R
3Q08-268R
3Q07-368R
3Q05-468R
3Q05-168R
3H0268R
47R
68R
68R 3Q87
68R
RES
IH08
IH07
TS-DATA0
TS-DATA1
TS-DATA2
TS-DATA3
TS-DATA4
TS-DATA5
TS-DATA6
TS-DATA7
TS-VALID
TS-SOP
TS-CLK
68R 3H49
3Q65 100R
IH06
RES
3Q28-368R
3Q34-468R
3Q34-168R
3Q25-268R
3Q44-368R
3Q08-468R
3Q08-168R
3Q07-2
3Q05-368R
3Q25-468R
3Q91
DV-OUT-FFIELD
DV-OUT-DE_HS
39R3H21
3H20 39R
TUN-VIPER-RX-DATA0
TUN-VIPER-RX-DATA1
TUN-VIPER-RX-DATA2
TUN-VIPER-RX-DATA3
TUN-VIPER-RX-DATA4
TUN-VIPER-RX-DATA5
TUN-VIPER-RX-DATA6
TUN-VIPER-RX-DATA7
TUN-VIPER-RX-DATA8
TUN-VIPER-RX-DATA9
TUN-VIPER-RX-DATA10
TUN-VIPER-RX-DATA11
TUN-VIPER-RX-DATA12
TUN-VIPER-RX-DATA13
TUN-VIPER-RX-DATA14
TUN-VIPER-RX-DATA15
TUN-VIPER-RX-CLKP
TUN-VIPER-RX-CLKN
TUN-VIPER-RX-BUSY
DV-BOUT-0
DV-BOUT-1
DV-BOUT-2
DV-BOUT-3
DV-BOUT-4
DV-BOUT-5
DV-BOUT-6
DV-BOUT-7
DV-BOUT-8
DV-BOUT-9
DV-GOUT-0
DV-GOUT-1
DV-GOUT-2
DV-GOUT-3
DV-GOUT-4
DV-GOUT-5
DV-GOUT-6
DV-GOUT-7
DV-GOUT-8
DV-GOUT-9
DV-ROUT-0
DV-ROUT-1
DV-ROUT-2
DV-ROUT-3
DV-ROUT-4
DV-ROUT-5
DV-ROUT-6
DV-ROUT-7
DV-ROUT-8
DV-ROUT-9
DV-CLKIN
DV-OUT-VS
1K03H19
+3V3
6H10
BAT54 COL
IQ00
IH12
3Q06
75R
39R
3H92
47R
3Q00
120R
3Q01
IQ01
IH13
2Q25
2H13
5Q05
1u0
2Q29
100p
12p
5Q06
2u2
2H11
100p
*
12p
IQ02
560p
2Q31
IH14
*
27p
2H12
BACKLIGHT-CONTROL_RESET-P3
DAC-CVBS
C-MON-OUT
I2S-SUB-D
CTRL1-VIPER
CTRL2-VIPER
I2S-MCH-LR
I2S-MCH-CSW
I2S-MCH-SLR
I2S-MAIN-D
I2S-WS-MAIN
I2S-BCLK-MAIN
SPDIF-OUT1
I2S-WS-SUB
I2S-BCLK-SUB
G_15960_037.eps
3104 313 6073.5
123456
I2S-MAIN-ND
I2S-SUB-ND
I2S-WS-AVIP
I2S-BCLK-AVIP
+2V5-VPR
5H05
1K0
2H03
100n
+3V3
DV1F-DATA0
DV1F-DATA1
DV1F-DATA2
DV1F-DATA3
DV1F-DATA4
DV1F-DATA5
DV1F-DATA6
DV1F-DATA7
DV1F-DATA8_ERR
4K7
3H28
4K7
3H32
4K7
3H18
9H18
9H32
IQ31
10K
100n
2H00
3H50
1V3
10K
100n
2H02
3H51
FQ15
9H19
9H33
VREF-VPR
DV1F-VALID
DV2A-VALID
DV3F-VALID
SPDIF-HDMI
SPDIF-IN1
DV1F-DATA9_SOP
DV1F-VALID
DV1F-CLK
DV2A-DATA2_0
DV2A-DATA3_1
DV2A-DATA4_2
DV2A-DATA5_3
DV2A-DATA6_4
DV2A-DATA7_5
DV2A-DATA8_6
DV2A-DATA9_7
DV2A-VALID
DV2A-CLK
DV2A-DATA1_ERR
DV2A-DATA0_SOP
DV3F-DATA2_0
DV3F-DATA3_1
DV3F-DATA4_2
DV3F-DATA5_3
DV3F-DATA6_4
DV3F-DATA7_5
DV3F-DATA8_6
DV3F-DATA9_7
DV3F-VALID
DV3F-CLK
DV3F-DATA1_ERR
DV3F-DATA0_SOP
IH10
IH11
IH15
IH01
IH03
IH00
TUN-VIPER-TX-DATA0
TUN-VIPER-TX-DATA1
TUN-VIPER-TX-DATA2
TUN-VIPER-TX-DATA3
TUN-VIPER-TX-DATA4
TUN-VIPER-TX-DATA5
TUN-VIPER-TX-DATA6
TUN-VIPER-TX-DATA7
TUN-VIPER-TX-DATA8
TUN-VIPER-TX-DATA9
TUN-VIPER-TX-DATA10
TUN-VIPER-TX-DATA11
TUN-VIPER-TX-DATA12
TUN-VIPER-TX-DATA13
TUN-VIPER-TX-DATA14
TUN-VIPER-TX-DATA15
TUN-VIPER-TX-CLKP
TUN-VIPER-TX-CLKN
TUN-VIPER-TX-BUSY
AG13
AH13
AJ13
AK13
AG14
AJ14
AG15
AH15
AJ15
AK15
AG16
AH16
AJ16
AK16
AJ17
AG17
AK18
AJ18
AH18
AG19
AK19
AH19
AJ19
AG18
AK24
AJ24
AK25
AG23
AH24
AJ25
AK26
AG24
AJ26
AG25
AF24
AH25
AG26
AK28
AJ27
AA30
AA29
AA28
AB30
W28
W27
AA27
AC30
Y29
Y27
DV1_DATA0
DV1_DATA1
DV1_DATA2
DV1_DATA3
DV1_DATA4
DV1_DATA5
DV1_DATA6
DV1_DATA7
DV1_DATA8
DV1_DATA9
DV1_VALID
DV1_CLK
DV2_DATA0
DV2_DATA1
DV2_DATA2
DV2_DATA3
DV2_DATA4
DV2_DATA5
DV2_DATA6
DV2_DATA7
DV2_VALID
DV2_CLK
DV2_ERR
DV2_SOP
DV3_DATA0
DV3_DATA1
DV3_DATA2
DV3_DATA3
DV3_DATA4
DV3_DATA5
DV3_DATA6
DV3_DATA7
DV3_VALID
DV3_CLK
DV3_ERR
DV3_SOP
DV_FREF
DV_VREF
DV_HREF
I2S_IN1_SD
I2S_IN1_WS
I2S_IN1_SCK
I2S_IN1_OSCLK
I2S_IN2_SD
I2S_IN2_WS
I2S_IN2_SCK
I2S_IN2_OSCLK
SPDIF_IN2
SPDIF_IN1
47R3Q33
47R3Q39
47R3Q45
3Q47 47R
47R3Q51
47R3Q57
47R3Q63
47R3Q35
47R3Q41
47R3Q53
3Q55 47R
47R3Q59
3Q61 47R
47R3Q66
AUDIO/VIDEO
47R3Q37
47R3Q43
47R3Q49
47R3Q67
VREF-VPR
QVCP5L_DATA_OUT10
QVCP5L_DATA_OUT11
QVCP5L_DATA_OUT12
QVCP5L_DATA_OUT13
QVCP5L_DATA_OUT14
QVCP5L_DATA_OUT15
QVCP5L_DATA_OUT16
QVCP5L_DATA_OUT17
QVCP5L_DATA_OUT18
QVCP5L_DATA_OUT19
QVCP5L_DATA_OUT20
QVCP5L_DATA_OUT21
QVCP5L_DATA_OUT22
QVCP5L_DATA_OUT23
QVCP5L_DATA_OUT24
QVCP5L_DATA_OUT25
QVCP5L_DATA_OUT26
QVCP5L_DATA_OUT27
QVCP5L_DATA_OUT28
QVCP5L_DATA_OUT29
N2
N1
P4
P2
R1
R2
R3
R4
T3
T4
U2
U4
V1
V2
V3
V4
T1
T2
W1
K2
100n
2H01
QVCP5L_DATA_OUT0
QVCP5L_DATA_OUT1
QVCP5L_DATA_OUT2
QVCP5L_DATA_OUT3
QVCP5L_DATA_OUT4
QVCP5L_DATA_OUT5
QVCP5L_DATA_OUT6
QVCP5L_DATA_OUT7
QVCP5L_DATA_OUT8
QVCP5L_DATA_OUT9
QVCP5L_CLK_OUT
QVCP5L_VSYNC
QVCP5L_HSYNC
QVCP5L_AUX1
QVCP5L_AUX2
DAC_IRSET
DAC_RDUMPY
DAC_RDUMPC
DAC_CVBS
DAC_CHROMA
TS_DATA0
TS_DATA1
TS_DATA2
TS_DATA3
TS_DATA4
TS_DATA5
TS_DATA6
TS_DATA7
TS_VALID
TS_SOP
TS_CLK
I2S_OUT1_SD0
I2S_OUT1_SD1
I2S_OUT1_SD2
I2S_OUT1_SD3
I2S_OUT1_WS
I2S_OUT1_SCK
I2S_OUT1_OSCLK
I2S_OUT2_SD0
I2S_OUT2_SD1
I2S_OUT2_SD2
I2S_OUT2_SD3
I2S_OUT2_WS
I2S_OUT2_SCK
I2S_OUT2_OSCLK
SPDIF_OUT
9H34
9H29
TUNNELBUS
TUN_TX_DATA0
TUN_TX_DATA1
TUN_TX_DATA2
TUN_TX_DATA3
TUN_TX_DATA4
TUN_TX_DATA5
TUN_TX_DATA6
TUN_TX_DATA7
TUN_TX_DATA8
TUN_TX_DATA9
TUN_TX_DATA10
TUN_TX_DATA11
TUN_TX_DATA12
TUN_TX_DATA13
TUN_TX_DATA14
TUN_TX_DATA15
TUN_TX_CLOCKP
TUN_TX_CLOCKN
TUN_TX_BUSY
TUN_AVREF
J28
J27
H30
H27
G30
G29
G28
G27
F30
F29
M28
M27
L29
L27
K30
K29
K28
K27
J30
J29
R28
R27
P29
P27
N30
N29
N28
N27
M30
M29
E30
F28
F27
G26
E29
AH30
AF27
AH29
AG28
AJ30
AJ22
AG21
AK22
AH21
AJ21
AK21
AG20
AJ20
AK23
AH22
AG22
U27
V30
V29
V28
V27
W30
W29
T28
T27
R30
R29
T29
T30
U29
AB29
7V00-4
VIPER REV C
68R 3Q26-4
68R
3Q09
33R
22R3H07
IH04
IH05
9H26
TUN_RX_DATA0
TUN_RX_DATA1
TUN_RX_DATA2
TUN_RX_DATA3
TUN_RX_DATA4
TUN_RX_DATA5
TUN_RX_DATA6
TUN_RX_DATA7
TUN_RX_DATA8
TUN_RX_DATA9
TUN_RX_DATA10
TUN_RX_DATA11
TUN_RX_DATA12
TUN_RX_DATA13
TUN_RX_DATA14
TUN_RX_DATA15
TUN_RX_CLOCKP
TUN_RX_BUSY
3Q28-268R
3Q34-368R
3Q25-168R
3Q44-268R
3Q08-3
3Q07-468R
3Q07-168R
3Q05-268R
3Q25-368R
3Q8868R
3Q64
9H27
7 8 9 10111213
080206
2H00 H3
2H01 I6
2H02 H3
2H03 H2
2H11 C12
2H12 D12
2H13 D12
2Q25 C12
2Q29 B12
2Q31 C12
3H02 C9
3H07 E8
3H18 C3
A
3H19 C10
3H20 D10
3H21 D9
3H28 B3
3H32 B3
3H48 G9
3H49 F9
3H50 H3
3H51 H3
3H92 D11
3Q00 B11
3Q01 D11
B
3Q05-1 C9
3Q05-2 C8
3Q05-3 C9
3Q05-4 C9
3Q06 C11
3Q07-1 B8
3Q07-2 B9
3Q07-3 B9
3Q07-4 B8
3Q08-1 B9
3Q08-2 B9
3Q08-3 B8
C
3Q08-4 B9
3Q09 E8
3Q25-1 B8
3Q25-2 B9
3Q25-3 C8
3Q25-4 C9
3Q26-3 A9
3Q26-4 A8
3Q28-1 A9
3Q28-2 A8
3Q28-3 A9
D
3Q28-4 A9
3Q33 H5
3Q34-1 A9
3Q34-2 A9
3Q34-3 A8
3Q34-4 A9
3Q35 H5
3Q37 H6
3Q39 H5
3Q41 H5
3Q43 H6
3Q44-1 B9
E
3Q44-2 B8
3Q44-3 B9
3Q44-4 B9
3Q45 H5
3Q47 H5
3Q49 H6
3Q51 H5
3Q53 H5
3Q55 H6
3Q57 H5
3Q59 I5
3Q61 I6
F
3Q63 I5
3Q64 F8
3Q65 I9
3Q66 I5
3Q67 I6
3Q68 I9
3Q87 C9
3Q88 C8
3Q90 C9
3Q91 C9
5H05 H2
G
5Q05 B12
5Q06 C12
6H10 D10
7V00-1 A6
7V00-4 G7
9H18 D3
9H19 D4
9H26 G8
9H27 G8
9H29 G7
9H32 D3
9H33 D4
H
9H34 G7
FQ15 H3
IH00 E4
IH01 D4
IH03 D4
IH04 E8
IH05 F8
IH06 D9
IH07 C9
IH08 C9
IH10 D5
IH11 D5
I
IH12 C11
IH13 C12
IH14 C13
IH15 D5
IQ00 B11
IQ01 B12
IQ02 B13
IQ31 H3
Page 97
Circuit Diagrams and PWB Layouts
97BJ3.0E PA 7.
SSB: Viper: Supply
2Q00 C10
2Q04 C11
2Q05 C12
2Q06 C12
2Q07 C12
2Q08 C12
2Q09 C13
12345678910111213
B5D
A
B
+1V2
C
M12
7V00-3
VIPER REV C
2Q10 C13
2Q11 C13
2Q12 C13
2Q13 C14
2Q14 C14
2Q15 C14
2Q16 C14
2Q18 C15
2Q20 E10
2Q22 E11
2Q24 E11
2Q26 E12
2Q27 E12
2Q28 E12
VIPER: SUPPLY
M17
M18
M19
M14
M15
M16
M13
VDDC_1
VDDC_2
VDDC_4
VDDC_3
VDDC_5
VDDC_6
VDDC_7
VDDC_8
N12
N19
VDDC_9
P12
P19
VDDC_11
VDDC_10
R12
R19
VDDC_13
VDDC_12
T12
T19
VDDC_15
VDDC_14
U12
U19
VDDC_17
VDDC_16
V12
V19
VDDC_18
VDDC_19
W12
W13
VDDC_20
VDDC_21
W15
W14
VDDC_22
VDDC_23
W16
VDDC_24
VDDC_25
W17
W18
VDDC_27
VDDC_26
W19
VDDC_28
+3V3
J26
2Q30 E12
2Q32 E13
2Q33 E13
2Q34 E13
N26
L26
VDD_2
VDD_1
R26
VDD_3
VDD_4
U26
W26
VDD_5
AA5
VDD_6
AA26
VDD_8
VDD_7
2Q35 E14
2Q37 E14
2Q38 E14
2Q39 E14
AC26
AC5
VDD_9
VDD_10
AF9
AF13
AF11
VDD_11
VDD_12
AF15
VDD_13
VDD_14
AF17
VDD_15
AF19
AF21
VDD_16
2Q40 D10
2Q42 D11
2Q43 D11
2Q44 D11
AF23
D1
Y3
VDD_17
VDD_18
VDD_19
AC2
AF3
VDD_20
VDD_21
SUPPLY
AH5
VDD_22
VDD_23
2Q45 D12
2Q46 D122Q19 C15
2Q47 D12
2Q48 D12
AH17
AH11
VDD_24
VDD_25
AH23
VDD_26
AJ8
VDD_27
AK1
AK20
AK14
VDD_28
VDD_29
AK27
VDD_30
VDD_31
2Q49 D13
2Q50 D13
2Q51 D13
2Q52 D13
H29
P30
L28
VDD_32
VDD1_33
U28
Y30
VDD1_35
VDD1_34
AC28
AG30
VDD1_36
VDD1_37
2Q53 D14
2Q54 D14
2Q55 D14
2Q56 D14
AH28
E28A4A30
VDD1_39
VDD1_38
VDD1_40
VDD2_41
C3
C26
VDD2_42
VDD2_43
+2V5-VPR
E23
VDD2_45
VDD2_44
2Q57 D15
2Q58 D15
2Q59 D15
2Q60 F10
E9
E13
E11
VDD_2V5_2
VDD_2V5_1
E15
E17
E19
VDD_2V5_5
VDD_2V5_4
VDD_2V5_3
2Q61 F11
2Q62 F11
2Q63 C8
2Q64 C9
L5
E21
J5
VDD_2V5_8
VDD_2V5_7
VDD_2V5_6
N5R5U5W5H3
VDD_2V5_9
VDD_2V5_11
VDD_2V5_10
L1
VDD_2V5_12
VDD_2V5_13
VDD_2V5_15
VDD_2V5_14
2Q65 C9
2Q66 C102Q02 C11
2Q76 C8
2Q77 C9
P3
U1
A11
VDD_2V5_16
VDD_2V5_17
1n0
2Q76
A17
B23
C8
VDD_2V5_20
VDD_2V5_21
VDD_2V5_18
VDD_2V5_19
2Q78 C9
2Q90 C10
2Q96 C11
2Q97 D10 IQ10 C92Q17 C15
+3V3
2Q63
IQ09
C14
C20
VDD_2V5_22
VDD_2V5_23
100n
E6F5B3
VDDA_3V3
5Q01
IQ10
VDDA_1V2
2Q98 E10
2Q99 E11
2V06 E15
2V07 E15
+1V2
5Q02
100n
2Q77
2Q64
AE26B2
VDD_DAC
VDDA_1_7_MCAB
2V08 E15
2V09 E15
2V59 C11
2V60 D11
2V61 E11
2V62 E10
2V63 E10
2V64 E10
2V65 E9
5Q01 B9
5Q02 B9
5Q03 B9
5Q04 B10
5Q07 F11
5Q08 F11
7V00-3 C1
IQ07 C9
IQ08 C9
IQ09 C8
IQ11 F11
14 15
B5D
A
IQ08
5Q03
100n
2Q78
+3V3
5Q04
1n0
100n
2Q66
+3V3
6.3V4u7
2Q96
2Q00
2Q90
4u7 6.3V
4u7
4u7
2Q02
1u01u0
2Q04
+2V5-VPR
100n
2Q05
100n
2Q06
100n
2Q07
100n
2Q08
100n
2Q09
100n
2Q10
100n
2Q11
100n
2Q12
100n
2Q13
100n
2Q14
100n
2Q15
100n
2Q16
10n
2Q17
10n
10n
2Q18
2Q19
B
C
10n
DD
2Q40
2Q97
6.3V4u7
6.3V4u7
4u7
2Q42
2Q43
4u7 6.3V
2V60
2Q44
100n
2Q45
100n
2Q46
100n
2Q47
100n
2Q48
100n
2Q49
100n
2Q50
100n
2Q51
100n
2Q52
100n
2Q53
100n
2Q54
100n
2Q55
100n
2Q56
10n
2Q57
10n
2Q58
2Q59
10n
10n
+1V2
1n0
2Q65
IQ07
E
F
G
3104 313 6073.5
VSSC_35
VSSC_36
V17
V18
VSSC_34
V15
V16
VSSC_32
VSSC_33
V13
V14
VSSC_30
VSSC_31
U18
U17
VSSC_29
VSSC_28
U15
U16
VSSC_26
VSSC_27
U13
U14
VSSC_24
VSSC_25
T17
T18
VSSC_22
VSSC_23
T16
T15
VSSC_20
VSSC_21
T13
T14
VSSC_18
VSSC_19
R17
R18
VSSC_16
VSSC_17
R15
R16
VSSC_14
VSSC_15
R13
R14
VSSC_12
VSSC_13
P17
P18
VSSC_10
VSSC_11
P16
P15
VSSC_8
VSSC_9
P14
VSSC_7
P13
VSSC_6
N17
N18
VSSC_4
VSSC_5
N16
VSSC_3
N15
N14
VSSC_1
VSSC_2
N13
VSS_68
M26
AK30
VSS_66
AK17
AK11
VSS_64
AK4
AJ23
VSS_62
VSS_63
AH26
VSS_61
AH20
VSS_60
AH14
VSS_59
AH8
VSS_58
AG1
AH3
VSS_56
VSS_57
AF28
VSS_55
AF20
AF22
VSS_53
VSS_54
AF18
VSS_52
AF16
AF14
VSS_50
VSS_51
VSS_49
AF10B8AF12
VSS_48
AF8
AC29
VSS_46
VSS_47
AC3
VSS_45
AB26
VSS_44
AB5
VSS_43
Y28
VSS_42
Y26
VSS_41
Y5
VSS_40
Y1
VSS_39
V26
VSS_38
V5
VSS_37
U30
VSS_36
U3
VSS_35
T26
VSS_34
T5
P28
VSS_33
VSS_32
P26
VSS_31
P5
VSS_30
P1
M5
VSS_28
VSS_29
L30
VSS_27
L3
VSS_26
K26
VSS_25
K5
H28
VSS_23
VSS_24
H26
VSS_22
H5
VSS_21
H2
VSS_20
E22
VSS_19
E20
VSS_18
E18
VSS_17
E14
E16
VSS_15
VSS_16
E12
VSS_14
E10
VSS_13
E8
VSS_12
E3
D30
VSS_67
VSS_65
1234567
VSS_3
VSS_4
VSS_5
VSS_9
VSS_8
VSS_2
VSS_6
VSS_7
VSS_10
VSS_11
C28
C11
C17
C23
VSS_1
VSS_DAC
VSSA_1_7_MCAB
A1
C5
A27
A20
A14
AF25
2V65
10n
2V64
89
+1V2
6.3V4u7
2Q99
4u7
2Q22
4u7 6.3V
5Q07
5Q08
100n
1u0
4u7
2V61 2V59
IQ11
2Q24
100n
2Q26
100n
2Q27
+2V5-VPR
100n
2Q28
100n
2Q30
100n
2Q32
100n
2Q33
100n
2Q34
100n
2Q35
100n
2Q37
100n
2Q38
100n
2Q39
*
1n0
100p
2Q61
2Q62
+2V5
2Q98
10n
10n
2V62
2Q20
2Q60
10n
2V63
10 11 12 13 14 15
100n
2V06
10n
10n
10n
G_15960_038.eps
2V07
2V08
2V09
080206
E
10n
F
G
Page 98
Circuit Diagrams and PWB Layouts
SSB: Viper: Display Diversity & Ambi Light
1D40 A3
1M03 G2
1M59 C14
1M63 E2
2Q36 C4
2Q41 F3
2Q71 D13
2Q72 D13
2Q73 F5
2Q74 F5
2Q75 F5
2Q79 G5
2Q80 G5
2Q81 H5
2Q82 H5
2Q83 E2
2Q84 B2
2Q85 C1
2Q86 E2
2Q87 A4
2Q88 E2
2Q89 D4
2Q91 D11
2Q92 B11
2Q93 G5
2Q94 A9
2Q95 B9
2QA0 H7
3H00 C14
3Q29 E12
1234567891011121314
3Q30 C12
3Q31 B11
3Q32 D10
3Q36 C6
3Q42 B6
3Q46 H8
3Q54 B5
3Q56 B5
3Q72 C12
3Q73 C12
3Q74 F6
3Q75 F6
3Q76 G6
3Q79 G6
3Q80 H6
3Q81 H6
3Q83 A9
3Q84 B9
3Q85 A10
3Q86 C10
3Q89 B5
3Q92 C6
3Q93 C6
3Q94 H9
98BJ3.0E PA 7.
3Q96 C6
3Q98 D10
3Q99 C12
5Q09 B1
5Q10 B1
5Q11 D1
5Q12 D1
5Q13 D1
6H04 B12
6H05 E12
6H08 E6
6H09 E7
7Q05-1 C11
7Q05-2 D11
7Q06-1 A9
7Q06-2 B9
9Q10 D14
9Q19 D12
9Q62 C11
9Q63 D11
9Q64 B9
9Q65 C9
FQ08 B3
FQ09 B3
FQ11 B3
FQ12 B3
FQ13 B3
FQ14 B3
FQ16 B3
FQ17 B3
FQ24 C4
FQ25 C14
FQ26 C14
FQ35 B4
FQ36 D14
FQ40 C43Q97 C10
FQ46 F3
FQ47 F3
FQ48 G3
FQ49 G3
FQ55 D14
FQ56 G4
FQ57 H4
FQ58 H3
FQ59 H3
IQ40 B11FQ07 D7
IQ41 C10
IQ42 C11
IQ43 D11
IQ44 B6
IQ45 D10
IQ46 E11
IQ47 B6
IQ49 B6
IQ54 H9
IQ55 C9
IQ56 C10
IQ57 B9
IQ58 B10
IQ59 A9
IQ62 B9
B5E
A
+12VSW
B
C
D
+5VDISP
E
F
G
H
3104 313 6073.5
VIPER: DISPLAY DIVERSITY + AMBILIGHT
*
2Q87
2Q41
1D40
1
2
3
4
5
6
7
8
9
10
11
12
B12P-PH-K
+5V-CON
100n
FQ58
FQ59
FQ46
FQ47
FQ48
FQ49
FQ56
FQ57
FQ35
FQ40
FQ24
2Q36
100p
100p
2Q89
RES
100p
3Q54
100R
2Q73
2Q74
2Q75
2Q93
2Q79
2Q80
2Q82
2Q81
3Q89
47R
3Q56
100R
1K0
3Q96
3Q36
3Q93
3Q92
100p
RES
100p
100n
1n0
1n0
1n0
1n0
1n0
IQ44
3Q42
BACKLIGHT-CNTRL-OUT
IQ49
IQ47
47R
100R
100R
100R
+5V
6H08
BAV99 COL
3Q74
100R
3Q75
100R
3Q76
100R
3Q79
100R
3Q80
100R
3Q81
100R
5Q09
2Q85
5Q11
5Q12
5Q13
5Q10
220R
220R
100n
*
220R
*
220R
*
220R
TO
MEMORY
CARD
READER
2Q84
*
2Q86
100n
10n
2Q83
B2B-PH-K
10n
100p
2Q88
1M63
1
2
1M03
1
2
3
4
5
6
7
8
9
10
B10P-PH-K-S
FQ08
FQ09
FQ11
FQ12
FQ13
FQ14
FQ16
FQ17
ENABLE-5V
MP-OUT-VS
SUPPLY-FAULT
DISABLE-12V
SCL-I2C4
SDA-I2C4
FQ07
+5V
6H09
+5V2-STBY_9V-STBY
2QA0
1u0
BAV99 COL
SCL-UP-SW
SDA-UP-SW
SCL-AMBI
SDA-AMBI
+5V-CON
+3V3-STANDBY
470p
3Q83
10K
+3V3-STANDBY
470p
3Q84
10K
RES
3Q46 100R
2Q94
2Q95
IQ62
IQ55
RESERVED
IQ59
1
9Q64
IQ57
9Q65
IQ54
2
BC847BS
7Q06-1
6
IQ58
5
BC847BS
7Q06-2
34
IQ56
RES
RES
3Q94 100R
+5V2-STBY
3Q85
+5V2-STBY
3Q86
2K2
2K2
+3V3
4K7
4K7
3Q97
IQ41
+3V3
3Q32
3Q98
IQ45
I2C AMBILIGHT *
+5V
2Q92
470p
3Q31
10K
7Q05-1
BC847BS
2Q91
470p
10K
7Q05-2
BC847BS
9Q62
RES
9Q63
RES
2
IQ43
5
IQ40
+5V
61
2K2
IQ42
+5V
34
2K2
IQ46
6H04
BAV99 COL
3Q30
100R
100R
3Q29
3Q72
3Q73
+5V
BAV99 COL
RES
6H05
+5V
RES
100R
3Q99
9Q19
100p
2Q72
100p
2Q71
NOTE: 9Q10/9Q19
Can be C or jumper
B5E
+5V
RES
3H00
100R
BACKLIGHT-CNTRL-OUT
FQ25
FQ26
FQ55
FQ36
9Q10
POWER-OK-PLATFORM
PROT-AUDIOSUPPLY
BACKLIGHT-CONTROL
POWER-OK-DISPLAY
B5B-PH-K-K
TO AMBILIGHT
LIGHT-ON-OUT
STANDBY
CTRL1-VIPER
G_15960_039.eps
1M59
1
2
3
4
5
240306
A
B
C
D
E
F
G
H
12
34
5678 1211109
13 14
Page 99
SSB: Pacific 3: Part 1
2G36 D7
2G37 D7
2G60 C9
3G01 E10
3G02 D9
3G03 D8
3G05 D10
3G08 B4
12345678910
3G09 B4
3G10 B4
3G11 B4
3G12 B4
Circuit Diagrams and PWB Layouts
3G13 B4
3G14 B4
3G15 C4
3G16 C4
3G17 D4
3G18 D4
3G20 B9
3G21 B9
3G23 C8
3G25 C7
3G26 C9
3G27 D8
3G32 D9
3G34 D6
3G35 D7
3G51 C7
3G55-1 C4
3G55-2 C4
3G55-3 C4
3G55-4 C4
3G56-1 C4
3G56-2 C4
3G56-3 C4
3G56-4 C4
99BJ3.0E PA 7.
3G57-1 D4
3G57-2 D4
3G57-3 D4
3G57-4 D4
3G58-1 D4
3G58-2 D4
3G58-3 D4
3G58-4 D4
3G59-1 E4
3G59-2 E4
3G59-3 E4
3G59-4 D4
3G60-1 E4
3G60-2 E4
3G60-3 E4
3G60-4 E4
7G31-1 C6
7G31-2 C7
7G33 B9
7G34 C8
7G35 E7
7G36-1 E8
7G36-2 E9
9G30 D7
9G35 B9
IG01 B9
IG02 C9
IG03 C7
IG04 C8
IG05 C7
IG06 C8
IG07 C9
IG08 D6
IG15 B9
A
B
C
D
E
B6A
PACIFIC3: PART 1
MP-CLK
MP-HS
MP-VS
MP-DE
DV-OUT-FFIELD
MP-R0
MP-R1
MP-R2
MP-R3
MP-R4
MP-R5
MP-R6
MP-R7
MP-R8
MP-R9
MP-G0
MP-G1
MP-G2
MP-G3
MP-G4
MP-G5
MP-G6
MP-G7
MP-G8
MP-G9
MP-B0
MP-B1
MP-B2
MP-B3
MP-B4
MP-B5
MP-B6
MP-B7
MP-B8
MP-B9
3G08
3G09
3G10
3G11
3G12
3G13
3G14
183G55-1
3G55-2 2 7
36
3G55-3
45
3G55-4
3G56-1 1 8
3G56-2
27
3G56-3
3
3G56-4 4 5
3G15
3G16
3G57-4 4 5
36
3G57-3
2
3G57-1 1 8
453G58-4
36
3G58-3
3G58-2 2 7
1
3G17
3G18
453G59-4
3G59-3 3 6
27
3G59-2
3G59-1
18
3G60-4 4 5
36
3G60-3
3G60-2
27
18
3G60-1
68R
68R
68R
68R
68R
68R
68R
6
68R
68R
73G57-2
83G58-1
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
68R
MP-CLKOUT
MP-OUT-HS
MP-OUT-VS
MP-OUT-DE
MP-OUT-FFIELD
MP-ROUT-0
MP-ROUT-1
MP-ROUT-2
MP-ROUT-3
MP-ROUT-4
MP-ROUT-5
MP-ROUT-6
MP-ROUT-7
MP-ROUT-8
MP-ROUT-9
MP-GOUT-0
MP-GOUT-1
MP-GOUT-2
MP-GOUT-3
MP-GOUT-4
MP-GOUT-5
MP-GOUT-6
MP-GOUT-7
MP-GOUT-8
MP-GOUT-9
MP-BOUT-0
MP-BOUT-1
MP-BOUT-2
MP-BOUT-3
MP-BOUT-4
MP-BOUT-5
MP-BOUT-6
MP-BOUT-7
MP-BOUT-8
MP-BOUT-9
+8V6-SW
6
IG03
1
3G34
2
1K0
7G31-1
BC847BPN
IG08
RES
BACKLIGHT-CNTRL-OUT
+8V6-SW
3G51
4
BC847BPN
3
RES
9G30
47K
7G31-2
5
IG05
3G35
PDTC114EU
33K
RES2G37
7G35
3G25
10K
1u0
2G36
BC847BW
1u0
+8V6-SW
3G23
7G34
3G03
12K
IG04
22K
7G36-1
BC847BS
IG06
3G27
RES
6
1
2K2
2G60
470p
3G26
4K7
3G32
1K0
2
9G35
RES
BC847BS
+5V
IG01
7G36-2
RES
4K7
3G21
IG02
IG07
+8V6-SW
3G02
3
4
7G33
IG15
BC847BW
10K
RES
10K
LIGHT-ON-OUT
BACKLIGHT-CONTROL
+3V3
10K
5
3G01
RES3G20
+3V3
LAMP-ON
10K
RES 3G05
CTRL1-VIPER
B6A
A
B
C
D
E
3104 313 6073.5
12345678910
G_15960_040.eps
080206
Page 100
Circuit Diagrams and PWB Layouts
100BJ3.0E PA 7.
SSB: Pacific 3: Part 2
1G01 C12
1G02 A14 2G45 B8
2G01 A4
2G02 A4
2G03 A4
2G04 A4
2G05 A4
2G06 A5
2G07 A5
2G09 A5
2G10 A5
2G11 A6
2G12 A6
2G13 B3
2G14 B3
2G15 B3
2G16 B4
2G17 B4
2G18 B4
2G19 B4
2G20 B4
2G21 B5
2G22 B5
2G23 B5
2G24 B5
2G25 B6
2G26 C3
2G27 C3
2G28 C3
2G40 B1
2G41 B2
2G42 B2
2G43 C2
2G44 B7
2G46 B82G00 A3
2G48 B10
2G49 B8
2G50 A9
2G51 A10
2G52 A10
2G53 A12
2G54 B142G08 A5
2G56 A3
2G57 C11
2G58 C9
2G59 A12
3G52 C13
3G61 C10
3G62 C10
3G63 C10
3G64 B12
3G65 B12
3G66 B12
3G67 B12
3G70 A12
3G71 A12
3G72 C11
3G73 C12
3G74 C12
3G75 E10
3G76 E10
3G77 F12
3G78 F12
3G82 D15
3G83 D12
3G84 D15
3G85 D15
3G86 D15
3G87 E15
3G89 A14
3G90 A15
3G91 B2 IG26 C12
3G92 C2
3G93 C22G47 B9
3G94 G9
3G95 D11
5G01 A3
5G02 B9
5G03 A9
5G04 B3
5G05 C3
6G01 A122G55 B15
6G02 E9
6G03 F9
6G04 G9
7G01 A7
7G02 C9
7G03 A13
7G04-1 D6
7G04-2 C13
123456789101112
B6B B6B
A A
B
+3V3
C
D
E
F
G
H H
PACIFIC3: PART 2
+3V3
7G07
LD1117DT
3
OUTIN
IN
COM
100n
2G40
GND
IG32
1
100R
3G92
100R
3G93
+2V5-PLL
+1V5-PLL
158
+3V3-P3
+2V5-P3
+1V5-P3
54
212
58
56
214
210
201
196
184
180
174
167
150
144
138
130
124
118
113
110
166
6
209
197
190
182
176
156
147
136
119
111
105
94
85
72
65
43
39
33
24
21
12
2
OUT
3G91
2G43
7G04-3
T6TF4HFG-0002
PLL2_VCCA_2V5
PLL1_VCCA_2V5
SSCG_VCC_1V5
PLL2_VCCD_1V5
PLL1_VCCD_1V5
VDD_3V3
VDD_2V5
VDD_1V5
PLL2_GNDD
PLL1_GNDD
IG31
1K0
2G41
1u0
SUPPLY
SSCG_GND
PLL2_GNDA
PLL1_GNDA
100n
2G42
GND_HS
VIA
GND
+2V5-PF
5G03
+2V5-PF
2G58
600R
5G02
600R
+3V3-P3
10n
2
M25P05-AVMN6
6G02
BAV70W
6G03
BAV70W
6G04
BAV70W
2G11
10n
ORX0
ORX1
ORX2
OCLK
ORX3
ORX4
ERX0
ERX1
ERX2
ECLK
ERX3
ERX4
10n
2G12
+1V5-P3
11
30
VDD_RX_1V5
10n
42
637079
1727365160
+3V3-P3
VDD_TX_1V5
LVDS
GND
91
18
717682
+3V3
50
647388
VDD_TX_3V3
VDD_RX_3V3
PA<0:9>
PB<0:9>
PC<0:9>
97
PWM
OTX0
OTX1
OTX2
OTX3
OTX4
OTX5
ETX0
ETX1
ETX2
ETX3
ETX4
ETX5
7G01
LD2985BM25R
1
3
1u0
2G44
104
61
3
62
4
66
5
67
6
68
7
69
8
74
P
75
N
77
P
78
N
80
P
81
N
83
P
84
N
86
P
87
N
89
P
90
N
92
P
93
N
95
P
96
N
98
P
99
N
100
P
101
N
102
P
103
N
106
P
107
N
OUTIN
INH BP
COM
2
5
IG35
4
2G46
100n
2G45
MP-R0
MP-R1
MP-R2
MP-R3
MP-R4
MP-R5
MP-R6
MP-R7
MP-R8
MP-R9
+2V5-PF
1n0
1u0
2G49
5G01
FG00
120R
10n
10n
FG10
10n
2G00
10n
2G28
2G15
FG01
10n
2G01
10n
10n
2G16
+1V5-PLL
2G02
10n
2G17
2G03
10n
2G18
10n
2G04
10n
2G19
10n
10n
2G05
10n
2G20
DV-CLKIN
DV-OUT-DE_HS
DV-BOUT-9
DV-BOUT-8
DV-BOUT-7
DV-BOUT-6
DV-BOUT-5
DV-BOUT-4
DV-BOUT-2
DV-BOUT-3
DV-BOUT-1
DV-BOUT-0
DV-GOUT-9
DV-GOUT-8
DV-GOUT-7
DV-GOUT-6
DV-GOUT-5
DV-GOUT-4
DV-GOUT-3
DV-GOUT-2
DV-GOUT-0
DV-GOUT-1
DV-ROUT-9
DV-ROUT-8
DV-ROUT-7
DV-ROUT-6
DV-ROUT-5
DV-ROUT-4
DV-ROUT-3
DV-ROUT-2
DV-ROUT-1
DV-ROUT-0
2G06
10n
2G21
10n
2G07
10n
2G22
1u0
2G56
5G04
30R
4V47u
242
241
240
239
238
237
236
235
234
233
232
231
230
229
228
227
226
225
224
223
222
221
220
219
218
217
199
216
211
208
203
195
189
186
181
175
171
163
157
152
142
131
125
112
108
5
59
55
213
57
215
5G05
600R
2G26
2G13
1u0
2G14
1u0
2G27
10n
2G08
10n
10n
2G09
10n
2G24
2G23
T6TF4HFG-0002
10n
10n
2G10
10n
2G25
+1V5-P3 +3V3-P3
7G04-1
7
CLKI
8
HSI
9
N
10
P
13
N
14
P
15
N
16
P
20
N
19
P
22
N
23
P
B<9:0>
25
N
26
P
28
N
29
P
31
N
32
P
34
N
35
P
38
N
37
P
G<9:0>
40
N
41
P
44
N
45
P
46
47
48
49
52
53
R<9:0>
2G50
2G47
1u0
2G51
1u0
2G48
7G02
Q
FLASH
3G94
0G00
FG03
FG02
VCC
Φ
512K
VSS
4K7
2u2
10n
84
HOLD
FG20
+2V5-PLL
2G52
+2V5-P3
D
C
S
W
10n
FG37
3G61
5
6
1
3
7
RES
100R
IG38
0G01
4K7
3G76
+3V3
3G62
100R
FG36
4K7
3G75
7G04-3 D2
7G07 B2
9G10 E12
9G11 A14
9G12 A13
4K7
3G63
RES
PWM-3
PWM-OR
+3V3-P3
100K
3G72
1u0
2G57
FG21
FG22
FG23
+3V3
DV-OUT-VS
JTAG-TCK
JTAG-TD-POD-P3
JTAG-TD-P3-CON
JTAG-TMS
JTAG-TRST
PWM-3
PWM-OR
9G13 A13
9G50 D11
9G51 C14
FG00 A3
FG01 B4
FG24
FG25
3G95
10K
6G01
BAS316
3G70
2K2
3G71
1K0
9G50RES
SDA-DMA-BUS1
SCL-DMA-BUS1
MP-DE
FG02 B10
FG03 A10
FG10 C3
FG14 F12
FG15 F12
FG26
2G53
+3V3 +3V3
4K7
3G64
RES
4K7
3G66
RES
1G01
2
3G78
10n
3G65
RES
3G67
RES
3G83
9G10
13
4K7
4K7
IG25
100R
3G77
2G59
60M
3G73
100R
FG16 A14
FG17 A14
FG18 B12
FG19 D12
FG20 E10
FG27
FG18
47R
1K0
IG41
IG28
FG14
IG39
IG26
IG30
IG29
10n
3G74
9
8
7
6
2
1
FG19
FG15
MICROCONTROLLER
TXD
RXD
SCL
T0
INT0
SDA
P1<0:3>
RST
P1.5
P1.7
1M0
165
164
172
193
191
192
194
4
173
207
3
205
1
2
206
177
178
179
183
185
187
188
198
200
202
204
114
FG21 C11
FG22 D11
FG23 D11
FG24 C11
FG25 C11
FG26 A12
FG27 A12
FG36 E10
FG37 E10
FG40 A14
IG25 C12
IG28 E12
IG29 F12
IG30 F12
IG31 B2
IG32 C2
IG35 B8
IG38 G10
IG39 B12
13 14 15
9G12
+3V3
113
VDD
Φ
VSS
7G04-2
T6TF4HFG-0002
OSC_Z
MISC
OSC_CLK_I
RSTN
SI
SCK
SO
CS
VSI
T1
TCK
TDI
TDO
TMS
TRST
TRIGOUT
MINTN
00
01
02
GPIO
03
04
05
SCL
SDA
MSDA
MSCL
SSDA
SSCL
DEO
CIN1B
CIN1A
CMPREF
CMP1
P0<3:6>
CLKOUT
P2<0:1>
9G13
RES
PE<7:9>
PF<0:9>
7G03
P87LPC760BDH
X2
X1
RES 3G52
CLKO
VSO
HSO
PWM
PD
PE
A<19:0>
RXD
RDN
TXD
D
PSEN
WRN
+5V
14
FG16
13
12
FG17
10
FG40
5
9G11
4
BACKLIGHT-CONTROL_RESET-P3
100R
9G51
RES
109
115
116
168
0
169
1
170
2
117
0
120
1
121
2
122
3
123
4
126
5
127
6
128
7
129
8
132
9
133
0
134
1
135
2
137
3
139
4
140
5
141
6
143
145
146
148
7
149
6
151
5
153
4
154
3
155
2
159
1
160
0
161
162
3G89
100R
100R
1G02
10M
10p
RES 2G54
MP-CLK
MP-VS
MP-HS
BACKLIGHT-CONTROL
MP-G0
MP-G1
MP-G2
MP-G3
MP-G4
MP-G5
MP-G6
MP-G7
MP-G8
MP-G9
MP-B0
MP-B1
MP-B2
MP-B3
MP-B4
MP-B5
MP-B6
MP-B7
MP-B8
MP-B9
3G90
2G55
RES
MP-G1
MP-G2
MP-G6
MP-G7
MP-G8
IG41 E12
10p
SDA-AMBI
SCL-AMBI
3G84
3G85
3G86
3G87
RES
4K7
RES3G82
4K7
4K7
4K7
4K7
B
C
D
E
F
G
3104 313 6073.5
123456
78
G_15960_041.eps
080206
9 101112131415
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