Colour Television
Chassis
TPM15.6L LA
Contents
Page
1 2 3 4
2 2 7 11 11 12 12 13 13 20 28 30 35
Revision List Technical Specs Diversity and Connections Precautions Notes and Abbreviation List Mechanical Instructions Cable dressing (24" PHG4100 series) Cable dressing (32" PFG5000 series) Cable dressing (32"PHG5000 series) Cable dressing (40" 5000 series) Cable dressing (48" 5000 series) 5 Service Modes Error Codes and Fault Finding 6 Alignments 7 Circuit Descriptions 8 IC Data Sheets 9 Block Diagrams Block diagram 4100 & 5000 series 10 Circuit Diagrams and PWB Layouts A 715G6550 PSU A 715G6863 PSU A 715G6934 PSU A 715G6338 PSU B 715G6836 SSB J 715G61767 IR/LED Panel J 715G7325 IR/LED Panel E 715G6316 Keyboard control panel 11 Styling Sheets 5000 series 32" 4100 series 24" 5000 series 40" 5000 series 48"
Published by YPC/SC 1528 Quality
41 Drawing 42 46 49 53 60 78 80 82
Contents
Page
PWB 44-45 47-48 51-52 58-59 76-77 79 81 83
84 85 86 87
Printed in the Ne herlands
Subject to modification
EN 3122 785 19771 2015-July-10
Š
TP Vision Netherlands B.V.
All rights reserved. Specifications are subject to change without notice. Trademarks are the property of Koninklijke Philips Electronics N.V. or their respective owners. TP Vision Netherlands B.V. reserves the right to change products at any time without being obliged to adjust earlier supplies accordingly. PHILIPS and the PHILIPS’ Shield Emblem are used under license from Koninklijke Philips Electronics N.V.
2
1.
Revision List
TPM15.6L LA
1. Revision List Manual xxxx xxx xxxx.0 • First release.
•
Manual xxxx xxx xxxx.1 • Chapter 2: Updated table 2.1 Technical Specifications and connection 2.4 Connections (for 4100 series).
• • • •
Chapter 4: Added figure 4-1 Cable dressing (24" PHG4100 series) and section 4.4 Assembly/Panel Removal (for 4100 series). Chapter 6: Updated tables 6-2 White tone default settings and 6-3 Display code overview. Chapter 7: Updated table 7-1 Connector overview. Chapter 10: Added circuit diagram 10.7 J 715G7325 IR/LED Panel. Chapter 11: Added styling sheet 11.2 4100 series 24".
2. Technical Specs, Diversity, and Connections • •
Index of this chapter: 2.1 Technical Specifications 2.2 Directions for Use 2.3 Connections (for 5000 series) 2.4 Connections (for 4100 series) 2.5 Chassis Overview
2.1
Figures can deviate due to the different set executions. Specifications are indicative (subject to change).
Technical Specifications For on-line product support please use the links in back to div.table 2-1. Here is product information available, as well as getting started, user manuals, frequently asked questions and software & drivers.
Notes: Table 2-1 Described Model Numbers and Diversity 4
9
10
2.2
Styling
E (Key board/Leading Edge)
SSB
J (IR/LED)
Block Diagram
SSB Removal
Stand Removal
Rear Cover Removal
CTN
11
Schematics
Wire Dressing
Connection Overview
Mechanics
Power Supply
2
24PHG4100/77
2-5
4-1
4-10
4-10
4-12
9.1
10.2
10.5
10.7
10.8
11 2
32PFG5000/77
2-1
4-2
4-7
4-6
4-9
9.1
10.1
10.5
10.6
10.8
11.1
32PHG5000/77
2-1
4-3
4-7
4-6
4-9
9.1
10.2
10.5
10.6
10.8
11.1
40PFG5000/77
2-1
4-4
4-7
4-6
4-9
9.1
10.3
10.5
10.6
10.8
11 3
48PFG5000/77
2-1
4-5
4-7
4-6
4-9
9.1
10.4
10.5
10.6
10.8
11.4
Directions for Use Directions for use can be downloaded from the following websites: http://www.philips.com/support http://www.p4c.philips.com
2015-July-10
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Technical Specs, Diversity, and Connections 2.3
TPM15.6L LA
2.
3
Connections (for 5000 series)
Rear Connectors
Side Connectors
6
HDMI2 ARC
USB
1 SERV.U
HDMI1
2
5
7 TV ANTENNA
R
SPDIF OUT
L
8
3 CVBS
4 19770_001 eps
Figure 2-1 Connection overview 5 - Service / UART 1 - Ground 2 - UART_TX 3 - UART_RX
Note: The following connector colour abbreviations are used (acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy= Grey, Rd= Red, Wh= White, Ye= Yellow. 2.3.1
Gnd Transmit Receive
H k j
Side Connections 6- HDMI 2: Digital Video - In, Digital Audio with ARC - In/Out 1 - USB2 2.0
19 18
1
2
3
1 2
10000_017_090121.eps 090428
4
10000_022_090121 eps 090121
Figure 2-3 HDMI (type A) connector
Figure 2-2 USB (type A) 1 2 3 4
- +5V - Data (-) - Data (+) - Ground
Gnd
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
k jk jk H
2- Head phone (Output) Bk - Head phone 80 - 600 W / 10 mW ot 3 - EXT: Video YPbPr - In, Audio - In Gn - Video - CBVS2 1 VPP / 75 W Wh - Audio - L 0.5 VRMS / 10 kW Rd - Audio - R 0.5 VRMS / 10 kW 2.3.2
jq jq jq
Rear Connections 4- TV ANTENNA - In Signal input from an antenna, cable or satellite.
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- D2+ - Shield - D2- D1+ - Shield - D1- D0+ - Shield - D0- CLK+ - Shield - CLK- Easylink/CEC - ARC - DDC_SCL - DDC_SDA - Ground - +5V - HPD - Ground
Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Control channel Audio Return Channel DDC clock DDC data Gnd Hot Plug Detect Gnd
j H j j H j j H j j H j jk k j jk H j j H
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2.
TPM15.6L LA
Technical Specs, Diversity, and Connections
7- HDMI 1: Digital Video - In, Digital Audio with ARC - In/Out 19 18
1 2
10000_017_090121.eps 090428
Figure 2-4 HDMI (type A) connector 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
- D2+ - Shield - D2- D1+ - Shield - D1- D0+ - Shield - D0- CLK+ - Shield - CLK- Easylink/CEC - ARC - DDC_SCL - DDC_SDA - Ground - +5V - HPD - Ground
Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Control channel Audio Return Channel DDC clock DDC data Gnd Hot Plug Detect Gnd
8 - Cinch: Digital Audio - Out BK - Coaxial 0.4 - 0.6VPP / 75 W
2015-July-10
j H j j H j j H j j H j jk k j jk H j j H
kq
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Technical Specs, Diversity, and Connections 2.4
TPM15.6L LA
2.
5
Connections (for 4100 series)
Rear Connectors
Side Connectors
6
HDMI2 ARC
USB
1 HDMI1
SCART (RGB/CVBS)
SERV.U
AUDIO IN
2
5
VGA / DVI
7 TV ANTENNA
R
SPDIF OUT
L
8
3 CVBS
9
4
10
19771_001.eps
Figure 2-5 Connection overview 5 - Service / UART 1 - Ground 2 - UART_TX 3 - UART_RX
Note: The following connector colour abbreviations are used (acc. to DIN/IEC 757): Bk= Black, Bu= Blue, Gn= Green, Gy= Grey, Rd= Red, Wh= White, Ye= Yellow. 2.4.1
Gnd Transmit Receive
H k j
Side Connections 6- HDMI 2: Digital Video - In, Digital Audio with ARC - In/Out 1 - USB2 2.0
19 18
1
2
3
1 2
10000_017_090121.eps 090428
4
10000_022_090121 eps 090121
Figure 2-7 HDMI (type A) connector
Figure 2-6 USB (type A) 1 2 3 4
- +5V - Data (-) - Data (+) - Ground
Gnd
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
k jk jk H
2- Head phone (Output) Bk - Head phone 80 - 600 W / 10 mW ot 3 - EXT: Video YPbPr - In, Audio - In Gn - Video - CBVS2 1 VPP / 75 W Wh - Audio - L 0.5 VRMS / 10 kW Rd - Audio - R 0.5 VRMS / 10 kW 2.4.2
jq jq jq
Rear Connections 4- TV ANTENNA - In Signal input from an antenna, cable or satellite.
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- D2+ - Shield - D2- D1+ - Shield - D1- D0+ - Shield - D0- CLK+ - Shield - CLK- Easylink/CEC - ARC - DDC_SCL - DDC_SDA - Ground - +5V - HPD - Ground
Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Control channel Audio Return Channel DDC clock DDC data Gnd Hot Plug Detect Gnd
j H j j H j j H j j H j jk k j jk H j j H
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2.
TPM15.6L LA
Technical Specs, Diversity, and Connections 9- EXT1: Video RGB/YC - In, CVBS - In/Out, Audio - In/Out
7- HDMI 1: Digital Video - In, Digital Audio with ARC - In/Out 19 18
20
1 2
10000_017_090121.eps 090428
21
- D2+ - Shield - D2- D1+ - Shield - D1- D0+ - Shield - D0- CLK+ - Shield - CLK- Easylink/CEC - ARC - DDC_SCL - DDC_SDA - Ground - +5V - HPD - Ground
Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Data channel Gnd Data channel Control channel Audio Return Channel DDC clock DDC data Gnd Hot Plug Detect Gnd
8 - Cinch: Digital Audio - Out BK - Coaxial 0.4 - 0.6VPP / 75 W
1
Figure 2-9 HDMI (type A) connector
Figure 2-8 HDMI (type A) connector 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
2
j H j j H j j H j j H j jk k j jk H j j H
kq
1 2 3 4 5 6 7 8
- Audio R - Audio R - Audio L - Ground Audio - Ground Blue - Audio L - Video Blue/C-out - Function Select
9 10 11 12 13 14 15 16
- Ground Green - n.c. - Video Green - n.c. - Ground Red - Ground P50 - Video Red/C - Status/FBL
17 18 19 20 21
- Ground Video - Ground FBL - Video CVBS - Video CVBS/Y - Shield
0.5 VRMS / 1 k 0.5 VRMS / 10 k 0.5 VRMS / 1 k Gnd Gnd 0.5 VRMS / 10 k 0.7 VPP / 75 0 - 2 V: INT 4.5 - 7 V: EXT 16:9 9.5 - 12 V: EXT 4:3 Gnd
Chassis Overview Refer to 9. Block Diagrams for PWB/CBA locations.
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j H
0.7 VPP / 75
j
Gnd Gnd 0.7 VPP / 75 0 - 0.4 V: INT 1 - 3 V: EXT / 75 Gnd Gnd 1 VPP / 75 1 VPP / 75 Gnd
H H j
10 - Audio - In: Left / Right, VGA Bu - Audio L/R in 0.5 VRMS / 10 kW
2.5
k j k H H j jk
j H H k j H
jq
Precautions, Notes, and Abbreviation List
TPM15.6L LA
3.
7
3. Precautions, Notes, and Abbreviation List Index of this chapter: 3.1 Safety Instructions 3.2 Warnings 3.3 Notes 3.4 Abbreviation List
3.3.2
Schematic Notes •
•
3.1
Safety Instructions Safety regulations require the following during a repair: • Connect the set to the Mains/AC Power via an isolation transformer (> 800 VA). • Replace safety components, indicated by the symbol h, only by components identical to the original ones. Any other component substitution (other than original type) may increase risk of fire or electrical shock hazard.
• • • •
Safety regulations require that after a repair, the set must be returned in its original condition. Pay in particular attention to the following points: • Route the wire trees correctly and fix them with the mounted cable clamps. • Check the insulation of the Mains/AC Power lead for external damage. • Check the strain relief of the Mains/AC Power cord for proper function. • Check the electrical DC resistance between the Mains/AC Power plug and the secondary side (only for sets that have a Mains/AC Power isolated power supply): 1. Unplug the Mains/AC Power cord and connect a wire between the two pins of the Mains/AC Power plug. 2. Set the Mains/AC Power switch to the “on” position (keep the Mains/AC Power cord unplugged!). 3. Measure the resistance value between the pins of the Mains/AC Power plug and the metal shielding of the tuner or the aerial connection on the set. The reading should be between 4.5 M and 12 M. 4. Switch “off” the set, and remove the wire between the two pins of the Mains/AC Power plug. • Check the cabinet for defects, to prevent touching of any inner parts by the customer.
3.2
3.3.3
• • •
3.3.4
Notes
3.3.1
General •
•
BGA (Ball Grid Array) ICs Introduction For more information on how to handle BGA devices, visit this URL: http://www.atyourservice-magazine.com. Select “Magazine”, then go to “Repair downloads”. Here you will find Information on how to deal with BGA-ICs. BGA Temperature Profiles For BGA-ICs, you must use the correct temperature-profile. Where applicable and available, this profile is added to the IC Data Sheet information section in this manual.
3.3.5
Lead-free Soldering Due to lead-free technology some rules have to be respected by the workshop during a repair: • Use only lead-free soldering tin. If lead-free solder paste is required, please contact the manufacturer of your soldering equipment. In general, use of solder paste within workshops should be avoided because paste is not easy to store and to handle. • Use only adequate solder tools applicable for lead-free soldering tin. The solder tool must be able: – To reach a solder-tip temperature of at least 400°C. – To stabilize the adjusted temperature at the solder-tip. – To exchange solder-tips for different applications. • Adjust your solder tool so that a temperature of around 360°C - 380°C is reached and stabilized at the solder joint. Heating time of the solder-joint should not exceed ~ 4 sec. Avoid temperatures above 400°C, otherwise wear-out of tips will increase drastically and flux-fluid will be destroyed. To avoid wear-out of tips, switch “off” unused equipment or reduce heat. • Mix of lead-free soldering tin/parts with leaded soldering tin/parts is possible but PHILIPS recommends strongly to avoid mixed regimes. If this cannot be avoided, carefully clear the solder-joint from old tin and re-solder with new tin.
All ICs and many other semiconductors are susceptible to electrostatic discharges (ESD w). Careless handling during repair can reduce life drastically. Make sure that, during repair, you are connected with the same potential as the mass of the set by a wristband with resistance. Keep components and tools also at this same potential. Be careful during measurements in the high voltage section. Never replace modules or other components while the unit is switched “on”. When you align the set, use plastic rather than metal tools. This will prevent any short circuits and the danger of a circuit becoming unstable.
3.3
Spare Parts For the latest spare part overview, consult your Philips Spare Part web portal.
Warnings •
All resistor values are in ohms, and the value multiplier is often used to indicate the decimal point location (e.g. 2K2 indicates 2.2 k). Resistor values with no multiplier may be indicated with either an “E” or an “R” (e.g. 220E or 220R indicates 220 ). All capacitor values are given in micro-farads ( 10-6), nano-farads (n 10-9), or pico-farads (p 10-12). Capacitor values may also use the value multiplier as the decimal point indication (e.g. 2p2 indicates 2.2 pF). An “asterisk” (*) indicates component usage varies. Refer to the diversity tables for the correct values. The correct component values are listed on the Philips Spare Parts Web Portal.
Measure the voltages and waveforms with regard to the chassis (= tuner) ground (H), or hot ground (I), depending on the tested area of circuitry. The voltages and waveforms shown in the diagrams are indicative. Measure them in the Service Default Mode with a colour bar signal and stereo sound (L: 3 kHz, R: 1 kHz unless stated otherwise) and picture carrier at 475.25 MHz for PAL, or 61.25 MHz for NTSC (channel 3). Where necessary, measure the waveforms and voltages with (D) and without (E) aerial signal. Measure the voltages in the power supply section both in normal operation (G) and in stand-by (F). These values are indicated by means of the appropriate symbols.
3.3.6
Alternative BOM identification It should be noted that on the European Service website, “Alternative BOM” is referred to as “Design variant”. The third digit in the serial number (example: AG2B0335000001) indicates the number of the alternative B.O.M. (Bill Of Materials) that has been used for producing the specific TV set. In general, it is possible that the same TV model on the market is produced with e.g. two different types of displays, coming from two different suppliers. This will then
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2015-July-10
8
3.
TPM15.6L LA
Precautions, Notes, and Abbreviation List
result in sets which have the same CTN (Commercial Type Number; e.g. 28PW9515/12) but which have a different B.O.M. number. By looking at the third digit of the serial number, one can identify which B.O.M. is used for the TV set he is working with. If the third digit of the serial number contains the number “1” (example: AG1B033500001), then the TV set has been manufactured according to B.O.M. number 1. If the third digit is a “2” (example: AG2B0335000001), then the set has been produced according to B.O.M. no. 2. This is important for ordering the correct spare parts! For the third digit, the numbers 1...9 and the characters A...Z can be used, so in total: 9 plus 26= 35 different B.O.M.s can be indicated by the third digit of the serial number.
AARA
ACI
ADC AFC
AGC Identification: The bottom line of a type plate gives a 14-digit serial number. Digits 1 and 2 refer to the production centre (e.g. SN is Lysomice, RJ is Kobierzyce), digit 3 refers to the B.O.M. code, digit 4 refers to the Service version change code, digits 5 and 6 refer to the production year, and digits 7 and 8 refer to production week (in example below it is 2010 week 10 / 2010 week 17). The 6 last digits contain the serial number.
AM AP AR ASF
ATSC
ATV Auto TV
AV AVC AVIP B/G BDS BLR BTSC
10000_053_110228.eps 110228
B-TXT C CEC
Figure 3-1 Serial number (example) 3.3.7
Board Level Repair (BLR) or Component Level Repair (CLR)
CL CLR ComPair CP CSM CTI
If a board is defective, consult your repair procedure to decide if the board has to be exchanged or if it should be repaired on component level. If your repair procedure says the board should be exchanged completely, do not solder on the defective board. Otherwise, it cannot be returned to the O.E.M. supplier for back charging! 3.3.8
•
•
3.4
CVBS
Practical Service Precautions
DAC DBE
It makes sense to avoid exposure to electrical shock. While some sources are expected to have a possible dangerous impact, others of quite high potential are of limited current and are sometimes held in less regard. Always respect voltages. While some may not be dangerous in themselves, they can cause unexpected reactions that are best avoided. Before reaching into a powered TV set, it is best to test the high voltage insulation. It is easy to do, and is a good service precaution.
DCM
DDC D/K DFI DFU DMR DMSD DNM
Abbreviation List 0/6/12
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SCART switch control signal on A/V board. 0 = loop through (AUX to TV),
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6 = play 16 : 9 format, 12 = play 4 : 3 format Automatic Aspect Ratio Adaptation: algorithm that adapts aspect ratio to remove horizontal black bars; keeps the original aspect ratio Automatic Channel Installation: algorithm that installs TV channels directly from a cable network by means of a predefined TXT page Analogue to Digital Converter Automatic Frequency Control: control signal used to tune to the correct frequency Automatic Gain Control: algorithm that controls the video input of the feature box Amplitude Modulation Asia Pacific Aspect Ratio: 4 by 3 or 16 by 9 Auto Screen Fit: algorithm that adapts aspect ratio to remove horizontal black bars without discarding video information Advanced Television Systems Committee, the digital TV standard in the USA See Auto TV A hardware and software control system that measures picture content, and adapts image parameters in a dynamic way External Audio Video Audio Video Controller Audio Video Input Processor Monochrome TV system. Sound carrier distance is 5.5 MHz Business Display Solutions (iTV) Board-Level Repair Broadcast Television Standard Committee. Multiplex FM stereo sound system, originating from the USA and used e.g. in LATAM and AP-NTSC countries Blue TeleteXT Centre channel (audio) Consumer Electronics Control bus: remote control bus on HDMI connections Constant Level: audio output to connect with an external amplifier Component Level Repair Computer aided rePair Connected Planet / Copy Protection Customer Service Mode Color Transient Improvement: manipulates steepness of chroma transients Composite Video Blanking and Synchronization Digital to Analogue Converter Dynamic Bass Enhancement: extra low frequency amplification Data Communication Module. Also referred to as System Card or Smartcard (for iTV). See “E-DDC” Monochrome TV system. Sound carrier distance is 6.5 MHz Dynamic Frame Insertion Directions For Use: owner's manual Digital Media Reader: card reader Digital Multi Standard Decoding Digital Natural Motion
Precautions, Notes, and Abbreviation List DNR DRAM DRM DSP DST
DTCP
DVB-C DVB-T DVD DVI(-d) E-DDC
EDID EEPROM EMI EPG EPLD EU EXT FDS FDW FLASH FM FPGA FTV Gb/s G-TXT H HD HDD HDCP
HDMI HP I I 2C I2D I2S IF IR IRQ ITU-656
Digital Noise Reduction: noise reduction feature of the set Dynamic RAM Digital Rights Management Digital Signal Processing Dealer Service Tool: special remote control designed for service technicians Digital Transmission Content Protection; A protocol for protecting digital audio/video content that is traversing a high speed serial bus, such as IEEE-1394 Digital Video Broadcast - Cable Digital Video Broadcast - Terrestrial Digital Versatile Disc Digital Visual Interface (d= digital only) Enhanced Display Data Channel (VESA standard for communication channel and display). Using E-DDC, the video source can read the EDID information form the display. Extended Display Identification Data (VESA standard) Electrically Erasable and Programmable Read Only Memory Electro Magnetic Interference Electronic Program Guide Erasable Programmable Logic Device Europe EXTernal (source), entering the set by SCART or by cinches (jacks) Full Dual Screen (same as FDW) Full Dual Window (same as FDS) FLASH memory Field Memory or Frequency Modulation Field-Programmable Gate Array Flat TeleVision Giga bits per second Green TeleteXT H_sync to the module High Definition Hard Disk Drive High-bandwidth Digital Content Protection: A “key” encoded into the HDMI/DVI signal that prevents video data piracy. If a source is HDCP coded and connected via HDMI/DVI without the proper HDCP decoding, the picture is put into a “snow vision” mode or changed to a low resolution. For normal content distribution the source and the display device must be enabled for HDCP “software key” decoding. High Definition Multimedia Interface HeadPhone Monochrome TV system. Sound carrier distance is 6.0 MHz Inter IC bus Inter IC Data bus Inter IC Sound bus Intermediate Frequency Infra Red Interrupt Request The ITU Radio communication Sector (ITU-R) is a standards body subcommittee of the International Telecommunication Union relating to radio communication. ITU-656 (a.k.a. SDI), is a digitized video format used for broadcast grade video. Uncompressed digital component or digital composite signals can be used.
iTV LS
LATAM LCD LED L/L'
LPL LS LVDS Mbps M/N MHEG
MIPS
MOP MOSFET MPEG MPIF MUTE MTV NC NICAM
NTC NTSC
NVM O/C OSD OAD
OTC P50 PAL
PCB PCM back to div.table
TPM15.6L LA
3.
9
The SDI signal is self-synchronizing, uses 8 bit or 10 bit data words, and has a maximum data rate of 270 Mbit/s, with a minimum bandwidth of 135 MHz. Institutional TeleVision; TV sets for hotels, hospitals etc. Last Status; The settings last chosen by the customer and read and stored in RAM or in the NVM. They are called at start-up of the set to configure it according to the customer's preferences Latin America Liquid Crystal Display Light Emitting Diode Monochrome TV system. Sound carrier distance is 6.5 MHz. L' is Band I, L is all bands except for Band I LG.Philips LCD (supplier) Loudspeaker Low Voltage Differential Signalling Mega bits per second Monochrome TV system. Sound carrier distance is 4.5 MHz Part of a set of international standards related to the presentation of multimedia information, standardised by the Multimedia and Hypermedia Experts Group. It is commonly used as a language to descr be interactive television services Microprocessor without Interlocked Pipeline-Stages; A RISC-based microprocessor Matrix Output Processor Metal Oxide Silicon Field Effect Transistor, switching device Motion Pictures Experts Group Multi Platform InterFace MUTE Line Mainstream TV: TV-mode with Consumer TV features enabled (iTV) Not Connected Near Instantaneous Compounded Audio Multiplexing. This is a digital sound system, mainly used in Europe. Negative Temperature Coefficient, non-linear resistor National Television Standard Committee. Color system mainly used in North America and Japan. Color carrier NTSC M/N= 3.579545 MHz, NTSC 4.43= 4.433619 MHz (this is a VCR norm, it is not transmitted off-air) Non-Volatile Memory: IC containing TV related data such as alignments Open Circuit On Screen Display Over the Air Download. Method of software upgrade via RF transmission. Upgrade software is broadcasted in TS with TV channels. On screen display Teletext and Control; also called Artistic (SAA5800) Project 50: communication protocol between TV and peripherals Phase Alternating Line. Color system mainly used in West Europe (colour carrier = 4.433619 MHz) and South America (colour carrier PAL M = 3.575612 MHz and PAL N = 3.582056 MHz) Printed Circuit Board (same as “PWB”) Pulse Code Modulation 2015-July-10
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3. PDP PFC PIP PLL
POD
POR PSDL PSL PSLS
PTC PWB PWM QRC QTNR QVCP RAM RGB
RC RC5 / RC6 RESET ROM RSDS R-TXT SAM S/C SCART
SCL SCL-F SD SDA SDA-F SDI SDRAM SECAM
SIF SMPS SoC SOG SOPS SPI
S/PDIF SRAM SRP SSB SSC STB STBY SVGA SVHS SW
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TPM15.6L LA
Precautions, Notes, and Abbreviation List
Plasma Display Panel Power Factor Corrector (or Pre-conditioner) Picture In Picture Phase Locked Loop. Used for e.g. FST tuning systems. The customer can give directly the desired frequency Point Of Deployment: a removable CAM module, implementing the CA system for a host (e.g. a TV-set) Power On Reset, signal to reset the uP Power Supply for Direct view LED backlight with 2D-dimming Power Supply with integrated LED drivers Power Supply with integrated LED drivers with added Scanning functionality Positive Temperature Coefficient, non-linear resistor Printed Wiring Board (same as “PCB”) Pulse Width Modulation Quasi Resonant Converter Quality Temporal Noise Reduction Quality Video Composition Processor Random Access Memory Red, Green, and Blue. The primary color signals for TV. By mixing levels of R, G, and B, all colors (Y/C) are reproduced. Remote Control Signal protocol from the remote control receiver RESET signal Read Only Memory Reduced Swing Differential Signalling data interface Red TeleteXT Service Alignment Mode Short Circuit Syndicat des Constructeurs d'Appareils Radiorécepteurs et Téléviseurs Serial Clock I2C CLock Signal on Fast I2C bus Standard Definition Serial Data I2C DAta Signal on Fast I2C bus Serial Digital Interface, see “ITU-656” Synchronous DRAM SEequence Couleur Avec Mémoire. Colour system mainly used in France and East Europe. Colour carriers = 4.406250 MHz and 4.250000 MHz Sound Intermediate Frequency Switched Mode Power Supply System on Chip Sync On Green Self Oscillating Power Supply Serial Peripheral Interface bus; a 4-wire synchronous serial data link standard Sony Philips Digital InterFace Static RAM Service Reference Protocol Small Signal Board Spread Spectrum Clocking, used to reduce the effects of EMI Set Top Box STand-BY 800 × 600 (4:3) Super Video Home System Software
SWAN SXGA TFT THD TMDS TS TXT TXT-DW UI uP UXGA V VESA VGA VL VSB WYSIWYR
WXGA XTAL XGA Y Y/C YPbPr
YUV
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Spatial temporal Weighted Averaging Noise reduction 1280 × 1024 Thin Film Transistor Total Harmonic Distortion Transmission Minimized Differential Signalling Transport Stream TeleteXT Dual Window with TeleteXT User Interface Microprocessor 1600 × 1200 (4:3) V-sync to the module Video Electronics Standards Association 640 × 480 (4:3) Variable Level out: processed audio output toward external amplifier Vestigial Side Band; modulation method What You See Is What You Record: record selection that follows main picture and sound 1280 × 768 (15:9) Quartz crystal 1024 × 768 (4:3) Luminance signal Luminance (Y) and Chrominance (C) signal Component video. Luminance and scaled color difference signals (B-Y and R-Y) Component video
Mechanical Instructions
TPM15.6L LA
4.
11
4. Mechanical Instructions Index of this chapter: 4.1 Cable Dressing 4.2 Service Positions 4.3 Assembly/Panel Removal (for 5000 series) 4.4 Assembly/Panel Removal (for 4100 series) 4.5 Set Re-assembly
Cable Dressing
ECN408 ECN701
(1056)
LOUDSPEAKER (1184)
CN408
B
SSB (1053)
CN601
ECN601
IR LED BOARD
(1054)
ECN401
E J
MAIN POWER SUPPLY
ECN401
1057)
KEYBOARD CONTROL
A
CN401 CN701
CN8604
CN9101
ECN401
4.1
Notes: • Figures below can deviate slightly from the actual situation, due to the different set executions.
ECN601 LOUDSPEAKER (1184)
19771_100.eps
Figure 4-1 Cable dressing (24" PHG4100 series)
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4.
Mechanical Instructions
TPM15.6L LA
CN701
ECN408
ECN701
MAIN POWER SUPPLY
ECN408
CN9101
(1054)
B
SSB (1053)
CN601
A
CN408
CN401
CN8602
ECN401
0
E
ECN601
1057)
ECN401
KEYBOARD CONTROL
ECN601
LOUDSPEAKER (1184)
J
ECN601 LOUDSPEAKER (1184)
IR/LED BOARD (1056)
19770_100 eps
Figure 4-2 Cable dressing (32" PFG5000 series)
CN701
ECN408
MAIN POWER SUPPLY (1054)
B
SSB (1053)
ECN701 CN9101
CN601
A
CN408 CN401
CN8604
1057)
KEYBOARD CONTROL
ECN401
ECN408
ECN401
ECN601
E
LOUDSPEAKER (1184)
ECN601
J
R/LED BOARD (1056)
LOUDSPEAKER (1184) 19770_101.eps
Figure 4-3 Cable dressing (32"PHG5000 series)
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Mechanical Instructions
TPM15.6L LA
4.
13
ECN408
CN701
CN8601
CN403
MAIN POWER SUPPLY (1054)
0
E
ECN403
ECN601
1057)
ECN408
ECN403
KEYBOARD CONTROL
SSB (1053)
CN601
CN9101
ECN701
B
ECN601
A
CN408
LOUDSPEAKER (1184)
LOUDSPEAKER (1184)
IR LED BOARD
J
(1056)
19770_102 eps
Figure 4-4 Cable dressing (40" 5000 series)
ECN701
CN8101
CN9301
ECN408
MAIN POWER SUPPLY
CN408
CN403
(1054)
CN701
ECN408
A
SSB (1053)
CN601
B
ECN403
KEYBOARD CONTROL (1057)
E
ECN601
ECN601
ECN403 LOUDSPEAKER (1184)
J
IR LED BOARD
LOUDSPEAKER (1184)
(1056)
19770_103 eps
Figure 4-5 Cable dressing (48" 5000 series)
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14 4.2
4.
TPM15.6L LA
Mechanical Instructions
Service Positions
4.3
For easy servicing of a TV set, the set should be put face down on a soft flat surface, foam buffers or other specific workshop tools. Ensure that a stable situation is created to perform measurements and alignments. When using foam bars take care that these always support the cabinet and never only the display. Caution: Failure to follow these guidelines can seriously damage the display! Ensure that ESD safe measures are taken.
Assembly/Panel Removal (for 5000 series) Instructions below apply to the 32PFG5000/77, but will be similar for other 5000 series models.
4.3.1
Stand Refer to Figure 4-6 for details. 1. Remove the fixation screws [1] that secure the stand bracket. Refer to Figure 4-6 for details. 2. Take the stand bracket out from the set.
1
1 5
5
1
1
M4 Ă— 16
Q3 Ă— 8
1
5
19770_104.eps
Figure 4-6 Stand removal 4.3.2
Rear Cover Refer to Figure 4-6 and Figure 4-7 for details. Warning: Disconnect the mains power cord before removing the rear cover. 1. Remove the fixation screws [2], [3] and [5] that secure the rear cover. Refer to Figure 4-6 and Figure 4-7 for details. 2. At the indicated areas [4] the cover is secured by clips. Be very careful with releasing those. 3. Gently lift the rear cover from the TV. Make sure that wires and cables are not damaged while lifting the rear cover from the set.
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Mechanical Instructions
2
2
2
2
TPM15.6L LA
4.
15
2
3 M3Ă— 8
2
2
2 M3Ă— 6
4
3 2
2
2 2
2
19770_105 eps
Figure 4-7 Rear cover removal 4.3.3
Keyboard Control Unit Refer to Figure 4-8 for details. 1. Release the connector [2] from the keyboard control panel. Caution: be careful, as these are very fragile connectors! 2. Remove all the fixation screws from the keyboard control panel [1]. When defective, replace the whole unit.
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4.
TPM15.6L LA
Mechanical Instructions
1
2 1 19770_106.eps
Figure 4-8 Keyboard Control unit removal 4.3.4
Small Signal Board (SSB) Refer to Figure 4-9 for details. Caution: it is mandatory to remount all different screws at their original position during re-assembly. Failure to do so may result in damaging the SSB. 1. Release the clips from the LVDS connector that connect with the SSB [1]. Caution: be careful, as these are very fragile connectors! 2. Unplug all other connectors [2] . 3. Remove all the fixation screws from the SSB [3]. 4. The SSB can now be shifted from side connector cover, then lifted and taken out of the I/O bracket. Refer to Figure 4-9 for details.
3
3
2
1
3
3
19770_107.eps
Figure 4-9 SSB removal 4.3.5
Power Supply Unit (PSU) Caution: it is mandatory to remount all different screws at their original position during re-assembly. Failure to do so may result in damaging the PSU. 1. Gently unplug all connectors from the PSU. 2. Remove all fixation screws from the PSU. 3. The PSU can be taken out of the set now.
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Mechanical Instructions 4.3.6
Speakers
4.4
Instructions below apply to the 24PHG4100/77. 4.4.1
Stand and Rear cover Refer to Figure 4-10 for details. Warning: Disconnect the mains power cord before removing the rear cover. 1. Remove the fixation screws [1] that secure the stand bracket. Refer to Figure 4-10 for details. 2. Remove the fixation screws [2] that secure the rear cover. 3. At the indicated areas [3] the cover is secured by clips. Be very careful with releasing those. 4. Gently lift the rear cover from the TV. Make sure that wires and cables are not damaged while lifting the rear cover from the set.
LCD Panel 1. 2. 3. 4. 5.
17
Assembly/Panel Removal (for 4100 series)
IR/LED Board 1. Remove the stand bracket as described earlier. 2. Gently release the clips that hold the board and take it out from the bezel. 3. Unplug both the connectors from the IR/LED board. When defective, replace the whole unit.
4.3.8
4.
6. Remove the fixations screws that fix the metal clamps to the front bezel. Take out those clamps. 7. Remove all other metal parts not belonging to the panel. 8. Lift the LCD Panel from the bezel. When defective, replace the whole unit.
1. Gently release the tapes that secure the speaker cables. 2. Unplug the speaker connector from the SSB. 3. Take the speakers out. When defective, replace the both units. 4.3.7
TPM15.6L LA
Remove the SSB as described earlier. Remove the PSU as described earlier. Remove the keyboard control panel as described earlier. Remove the stand bracket as described earlier. Remove the IR/LED as descr bed earlier.
Q4 Ă— 12 1 M3 Ă— 8
3
3
2
2
1
1
19771_101 eps
Figure 4-10 Stand & Rear cover removal 4.4.2
Speakers & Keyboard Control Unit Refer to Figure 4-11 for details. 1. Gently release the tapes that secure speakers and keyboard cables. 2. Release the connector [3] from the keyboard control panel. 3. Remove fixation screws[1] and [2] that secure speskers and keyboard. 4. Gently take the speakers and keyboard out.Refer to Figure 4-11 for details. When defective, replace the whole unit.
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4.
Mechanical Instructions
TPM15.6L LA
Q4 Ă— 6 1 Q3 Ă— 6
2
2 3
1
1
1
1
2
19771_101.eps
Figure 4-11 Speakers & Keyboard control unit removal 4.4.3
Small Signal Board (SSB) Refer to Figure 4-12 for details. Caution: it is mandatory to remount all different screws at their original position during re-assembly. Failure to do so may result in damaging the SSB. 1. Release the clips from the LVDS connector that connect with the SSB [1]. Caution: be careful, as these are very fragile connectors! 2. Unplug all other connectors [2] . 3. Remove all the fixation screws from the SSB [3]. 4. The SSB can now be shifted from side connector cover, then lifted and taken out of the I/O bracket. Refer to Figure 4-12 for details.
3
3
2
1
3
3
19770_107.eps
Figure 4-12 SSB removal 4.4.4
Power Supply Unit (PSU) Caution: it is mandatory to remount all different screws at their original position during re-assembly. Failure to do so may result in damaging the PSU. 1. Gently unplug all connectors from the PSU. 2. Remove all fixation screws from the PSU. 3. The PSU can be taken out of the set now.
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Mechanical Instructions 4.4.5
TPM15.6L LA
4.
19
IR/LED Board 1. Remove the stand bracket as described earlier. 2. Gently release the clips that hold the board and take it out from the bezel. 3. Unplug both the connectors from the IR/LED board. When defective, replace the whole unit.
4.4.6
LCD Panel 1. 2. 3. 4. 5. 6.
Remove the SSB as described earlier. Remove the PSU as described earlier. Remove the keyboard control panel as described earlier. Remove the stand bracket as described earlier. Remove the IR/LED as descr bed earlier. Remove the fixations screws that fix the metal clamps to the front bezel. Take out those clamps. 7. Remove all other metal parts not belonging to the panel. 8. Lift the LCD Panel from the bezel. When defective, replace the whole unit.
4.5
Set Re-assembly To re-assemble the whole set, execute all processes in reverse order. Notes: • While re-assembling, make sure that all cables are placed and connected in their original position. See Figure 4-1 to Figure 4-5. • Pay special attention not to damage the EMC foams on the SSB shields. Ensure that EMC foams are mounted correctly.
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5.
TPM15.6L LA
Service Modes, Error Codes, and Fault Finding
5. Service Modes, Error Codes, and Fault Finding Index of this chapter: 5.1 Test Points 5.2 Service Modes 5.3 Stepwise Start-up 5.4 Service Tools 5.5 Software Upgrading 5.6 Error Codes 5.7 The Blinking LED Procedure 5.8 Fault Finding and Repair Tips
5.1
SAM in a decimal value. Every two soft-resets increase the hour by + 1. Stand-by hours are not counted. Software Identification, Version, and Cluster The software ID, version, and cluster will be shown in the main menu display of SAM and CSM. The screen will show: “AAAAAAB-XXX.YYY.MMM.TTT”, where: • AAAAAA is the chassis name: TPM144L. • B is the region indication: E = Europe, A = AP/China, U = NAFTA, L = LATAM. • XXX is the main version number: this is updated with a major change of specification (incompatible with the previous software version). Numbering will go from 0- 255. • YYY is the sub version number: this is updated with a minor change of specification (incompat ble with the previous versions). Numbering will go from 0- 255. • MMM is the number of the mandatory (upgrade) release in association with the area of the mandatory (upgrade) release. Numbering will go from 0 - 255. • TTT bit 7 to 1 is the area of the mandatory (upgrade) release where 0 - none, 1 - Netflix, rest reserved. • TTT bit 0 : 0 = development release, 1 = production release.
Test Points As most signals are digital, it will be difficult to measure waveforms with a standard oscilloscope. However, several key ICs are capable of generating test patterns, which can be controlled via ComPair. In this way it is possible to determine which part is defective. Perform measurements under the following conditions: • Service Default Mode. • Video: Colour bar signal. • Audio: 3 kHz left, 1 kHz right.
5.2
Service Modes The Service Mode feature is split into five parts: • Service Alignment Mode (SAM). • Factory Mode. • Customer Service Mode (CSM). • Computer Aided Repair Mode (ComPair).
Display Option Code Selection When after an SSB or display exchange, the display option code is not set properly, it will result in a TV with “no display”. Therefore, it is required to set this display option code after such a repair. To do so, press the following key sequence on a standard RC transmitter: “062598” directly followed by MENU and “xxx”, where “xxx” is a 3 digit decimal value of the panel type: see column “Display Code” in back to div.table 6-3. When the value is accepted and stored in NVM, the set will switch to Stand-by, to indicate that the process has been completed. During this algorithm, the NVM-content must be filtered, because several items in the NVM are TV-related and not SSB related (e.g. Model and Prod. S/N). Therefore, “Model” and “Prod. S/N” data is changed into “See Type Plate”. In case a call centre or consumer reads “See Type Plate” in CSM mode.
SAM and the Factory mode offer features, which can be used by the Service engineer to repair/align a TV set. Some features are: • Make alignments (e.g. White Tone), reset the error buffer (SAM and Factory Mode). • Display information (“SAM” indication in upper right corner of screen, error buffer, software version, operating hours, options and option codes, sub menus). The CSM is a Service Mode that can be enabled by the consumer. The CSM displays diagnosis information, which the customer can forward to the dealer or call centre. In CSM mode, “CSM”, is displayed in the top right corner of the screen. The information provided in CSM and the purpose of CSM is to: • Increase the home repair hit rate. • Decrease the number of nuisance calls. • Solved customers’ problem without home visit.
5.2.2
Purpose • To modify the NVM. • To display/clear the error code buffer. • To perform alignments.
ComPair Mode is used for communication between a computer and a TV on I2C /UART level and can be used by a Service engineer to quickly diagnose the TV set by reading out error codes, read and write in NVMs, communicate with ICs and the micro processor (PWM, registers, etc.), and by making use of a fault finding database. It will also be possible to up and download the software of the TV set via I2C with help of ComPair. To do this, ComPair has to be connected to the TV set via the ComPair connector, which will be accessible through the rear of the set (without removing the rear cover).
Specifications • Operation hours counter (maximum five digits displayed). • Software version, error codes, and option settings display. • Error buffer clearing. • Option settings. • Software alignments (White Tone). • NVM Editor. • Set screen mode to full screen (all content is visible).
Note: For the new model range, a new remote control (RC) is used with some renamed buttons. This has an impact on the activation of the Service modes. For instance the old “MENU” button is now called “HOME” (or is indicated by a “house” icon). 5.2.1
How to Activate SAM To activate SAM, use one of the following methods: • Press the following key sequence on the remote control transmitter: “062596”, directly followed by the “INFO/OK” button. Do not allow the display to time out between entries while keying the sequence. • Or via ComPair. After entering SAM, the following items are displayed, with “SAM” in the upper right corner of the screen to indicate that the television is in Service Alignment Mode.
General Next items are applicable to all Service Modes or are general. Life Timer During the life time cycle of the TV set, a timer is kept (called “Op. Hour”). It counts the normal operation hours (not the Stand-by hours). The actual value of the timer is displayed in
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Service Modes, Error Codes, and Fault Finding
TPM15.6L LA
5.
21
Table 5-1 SAM mode overview Main Menu
Sub-menu 1
Sub-menu 2
Description
System Information
Op Hour
e.g. 00057
This represents the life timer. The timer counts normal operation hours, but does not count Stand-by hours.
Main SW ID
e.g. “TPM144L_002.004 000.00 1”
See paragraph Software Identification Version and Cluster for the software name definition.
ERR
e.g. “000 000 000 000 000”
Shows all errors detected since the last time the buffer was erased. Five errors possible.
OP1
e.g. “001 224 032 000 038 137 220 015”
Used to read-out the option bytes. See paragraph 6.4 Option Settings in the Alignments section for a detailed description. Ten codes are possible.
OP2
e.g. “159 255 127 045 011 017 000 000”
Clear Codes
Press [OK] to clean the Error Codes immediately
Erases the contents of the error buffer. Select this menu item and press the MENU RIGHT key on the remote control. The content of the error buffer is cleared.
Options
OP#1-OP#8
e.g. “032”
Option code
Alignments
Warm
R Gain
To align the White Tone. See paragraph 6.3 Software Alignments in the Alignments section for a detailed description
G Gain B Gain Normal
R Gain G Gain B Gain
Cool
R Gain G Gain B Gain
Store
Store the RGB value
NVM editor
NVM editor
NVM-editor will function as in the past: Address and Value field is a decimal value via digit entry
Service Date
Edit and display the applicable service data by using the displayed key pad.
Upload to USB
Channel List
To upload several settings from the TV to an USB stick
NVM Copy Readable info EDID Copy Download from USB Channel List
To download several settings from the USB stick to the TV
NVM Copy EDID Copy Initialize NVM
Press [OK] to Initialize NVM immediately
To initialize a (corrupted) NVM. Be careful, this will erase all settings.
How to Navigate • In the SAM menu, select menu items with the UP/DOWN keys on the remote control transmitter. The selected item will be indicated. When not all menu items fit on the screen, use the UP/DOWN keys to display the next/previous menu items. • With the “LEFT/RIGHT” keys, it is possible to: – (De) activate the selected menu item. – (De) activate the selected sub menu. – Change the value of the selected menu item. • When you press the MENU button once while in top level SAM, the set will switch to the normal user menu (with the SAM mode still active in the background).
Specifications • Displaying and or changing Panel ID information. • Displaying and or changing Tuner ID information. • Error buffer clearing. • Various software alignment settings. • Testpattern displaying. • Public Broadcasting Service password Reset. • etc. How to Activate the Factory mode To activate the Factory mode, use the following method: • Press the following key sequence on the remote control transmitter: from the “menu/home” press “1999”, directly followed by the “Back/Return” button. Do not allow the display to time out between entries while keying the sequence. After entering the Factory mode, the following items are displayed,
How to Store SAM Settings To store the settings changed in SAM mode (except the RGB Align settings), leave the top level SAM menu by using the POWER button on the remote control transmitter or the television set. The mentioned exceptions must be stored separately via the STORE button. How to Exit SAM Use one of the following methods: • Switch the set to STANDBY by pressing the mains button on the remote control transmitter or the television set. • Via a standard RC-transmitter, key in “00” sequence. Note: When the TV is switched “off” by a power interrupt while in SAM, the TV will show up in “normal operation mode” as soon as the power is supplied again. The error buffer will not be cleared. 5.2.3
Contents of the Factory mode: Purpose • To perform extended alignments.
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5.
Service Modes, Error Codes, and Fault Finding
TPM15.6L LA
Table 5-2 Factory mode overview Default value Item Item value
24"
0
F/W VERSION
Press OK
32"
40"
48"
Description Displays the software versions of the supplier, Flash PQ, Smart Picture, BL Dimming, Source Meter, the Picture Quality checksum, the Dimming library, the Source meter library, the Flash AQ, the MTK, MCU and OAD software versions.
1
PANEL_ID
see back to div.table 6-3
Displays and changes the Panel D with the left and right cursor; be careful changing this, it can result in not correct displaying the screen!
2
ERR Code: xxx xxx xxx xxx xxx
000 000 000 000 000
Values showing the last 5 errors during the last 50 hours of operation, according to table 5-4 Error code table
3
CLEAR ERROR BUFFER
Press OK
Selecting this clear all current error codes.
4
NVM ADDRESS
0
NVM address 0 to 8191, Use Item 6 to change and 7 to store the data to the correct NVM address
5
NVM VALUE
0
Displays the value at the NVM address of item 5
6
NVM STORE
Press OK
Use this option to save the data of item 6 to NVM address of item 5
7
NVM COPY TV to USB
Press OK
Use this to store the NVM data to the REPAIR folder of a FAT formatted USB memory stick. The TV will write two files in the REPAIR folder of the memory stick. It will create this folder if it does not exist. The items are “Channel list”, “Personal settings”, “Option codes”, “Display-related alignments” and “History list”. In case the download to the USB stick was not successful “Failure” will appear. In this case, check if the USB stick is connected properly. Now the settings are stored onto the 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 a picture is available. This method is created to be able to save the customer’s TV settings and to store them into another SSB.
8
NVM READ USB to TV
Press OK
Use this to store the NVM data from the USB memory stick to the TV. The TV will save the two files which were created in item 8 to the NVM of the set. Use these options when replacing a SSB. When “USB to TV Success” is displayed remove the power and restart the TV
9
CLR_TEMP_R
128
128
128
128
Red colour temperature setting
10
CLR_TEMP_G
120
125
128
128
Green colour temperature setting
11
CLR_TEMP_B
111
102
128
128
Blue colour temperature setting
12
AUTO_COLOR
Press OK
PC: any pattern that has black and white, YPbPr: SMPTE bar (colour bar), any timing.
13
ADC_GAIN_R
0
Red ADC gain
14
ADC_GAIN_G
128
128
128
128
15
ADC_GAIN_B
128
128
128
128
Blue ADC gain
16
ADC_OFFSET_R
255
255
255
255
Red ADC offset Green ADC offset
Green ADC gain
17
ADC_OFFSET_G
255
255
255
255
18
ADC_OFFSET_B
255
255
255
255
19
VIRGING_MODE
off
20
E_Fuse
on
E-fuse mode
21
ORT_MODE
off
ORT mode
22
AGEING MODE
off
Use this for aging a new LCD panel
23
RESET_PBS_PWD
Press OK
Use this to reset the Child Lock
24
V DEO_PWM_MEDIUM
0
VIDEO PWM Medium value
25
V DEO_PWM_M NIIMUN
0
VIDEO PWM Minimum value
26
V DEO_PWM_MAX MUN
0
VIDEO PWM Maximum value
27
PWM_RATIO_BEST_PICTURE 0
PWM ratio best picture
28
PWM_RATIO_STD_TOP
0
PWM ratio standard top
29
PWM_RATIO_STD_BOTTOM
0
PWM ratio standard bottom
30
PWM_RATIO_BEST_POWER
0
PWM ratio best power
31
VIDEO_STD_TH_HIGH
0
VIDEO standard threshold high VIDEO standard threshold low
Blue ADC offset Use this to return the set to virgin mode. Depends whether the set has been used already.
32
VIDEO_STD_TH_LOW
0
33
YPBPR_PHASE
InValid
34
AUD_GAIN_L NE N
0
0
1
1
Line-in audio gain
35
AUD_GAIN_HDMI
0
0
0
0
HDMI audio gain
36
AUD_GAIN_ATV
0
0
0
0
Analogue TV audio gain
37
AUD_GAIN_DTV
0
0
0
0
Digital TV audio gain
38
AUD_GAIN_USB
0
0
0
0
USB audio gain
39
ESTICKER NVM1
0
0
0
0
ESTICKER value
40
ESTICKER NVM2
0
0
0
0
ESTICKER value
41
ESTICKER NVM3
0
0
0
0
ESTICKER value
42
ESTICKER NVM4
0
0
0
0
ESTICKER value
43
ESTICKER NVM5
0
0
0
0
ESTICKER value
44
ESTICKER NVM6
0
0
0
0
ESTICKER value
45
ESTICKER NVM7
0
0
0
0
ESTICKER value
46
ESTICKER NVM8
0
0
0
0
ESTICKER value
47
ESTICKER NVM9
0
0
0
0
ESTICKER value
48
ESTICKER NVM10
0
0
0
0
ESTICKER value
49
ESTICKER NVM11
0
0
0
0
ESTICKER value
50
ESTICKER NVM12
0
0
0
0
ESTICKER value
51
ESTICKER NVM13
0
0
0
0
ESTICKER value
52
ESTICKER NVM14
0
0
0
0
ESTICKER value
53
ESTICKER NVM15
0
0
0
0
ESTICKER value
54
ESTICKER NVM16
0
0
0
0
ESTICKER value
55
ESTICKER NVM17
0
0
0
0
ESTICKER value
56
ESTICKER NVM18
0
0
0
0
ESTICKER value
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Not available for this chassis
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Service Modes, Error Codes, and Fault Finding
TPM15.6L LA
5.
23
Default value Item Item value
24"
32"
40"
48"
Description
57
ESTICKER NVM19
0
0
0
0
ESTICKER value
58
ESTICKER NVM20
0
0
0
0
ESTICKER value
59
ESTICKER RESET
Press OK
ESTICKER reset
60
DIM_L B RESET
Press OK
Reset the Dimming
61
SRC_METER-RESET
Press OK
Reset the Source meter
62
AMBLIGHT RESET
Press OK
AMBLIGHT RESET
63
ACFG RESET
Press OK
64
AQ_INDEX
7
65
AUDIO TEST MODE
off
66
AUDIO CHANNEL TYPE
2.0
Defines the installed speaker system
67
TEST PATTERN
Press OK
With the “left” and “right” keys of the remote control various test patterns can be chosen Used to enter a new ED D codes into the NVM
REST ACFG 5
5
6
Audio Quality index Used for audio testing during production
68
EDID UPDATE
Press OK
69
TCON_GAMMA_UPDATE
Invalid
TCON gamma update
70
DUMP PQ FROM TV
Press OK
Saves the picture quality data to a file “pq bin” to the root of a FAT formatted USB memory stick
71
LOAD PQ to TV
Press OK
Loads the picture quality data from a file “pq bin” in to the TV
72
DUMP AQ FROM TV
Press OK
Saves the audio quality data to a file “AQ.bin” to the root of a FAT formatted USB memory stick
73
LOAD AQ to TV
Press OK
74
PANEL FLIP
OFF
Loads the audio quality data from a file “AQ.bin” in to the TV
75
CVI_SOURCE
OFF
OFF
OFF
OFF
Enable/Disable CVI source
76
VGA_SOURCE
OFF
OFF
OFF
OFF
Enable/Disable VGA source
OFF
OFF
OFF
Flip panel
77
HDMI2
OFF
Enable/Disable HDMI2 source
78
HDMI SIDE
ON
Enable/Disable HDMI S DEsource
79
RESET_OPTION_CODE
Press OK
Reset Option Code
80
EXIF_FACTORY
Press OK
Exits the Factory mode
How to Exit the Factory mode Use one of the following methods: • Select EXIT_FACTORY from the menu and press the “OK” button. Note: When the TV is switched “off” by a power interrupt, or normal switch to “stand-by” while in the factory mode, the TV will show up in “normal operation mode” as soon as the power is supplied again. The error buffer will not be cleared.
•
• 5.2.4
Customer Service Mode (CSM) •
Purpose The Customer Service Mode shows error codes and information on the TVs operation settings.The call centre can instruct the customer (by telephone) to enter CSM in order to identify the status of the set.This helps the call centre to diagnose problems and failures in the TV set before making a service call. The CSM is a read-only mode; therefore, modifications are not possible in this mode.
• •
• • •
Specifications • Ignore “Service unfriendly modes”. • Line number for every line (to make CSM language independent). • Set the screen mode to full screen (all contents on screen is visible). • After leaving the Customer Service Mode, the original settings are restored. • Possibility to use “CH+” or “CH-” for channel surfing, or enter the specific channel number on the RC.
•
• • • • • •
How to Activate CSM To activate CSM, press the following key sequence on a standard remote control transmitter: “123654” (do not allow the display to time out between entries while keying the sequence). After entering the Customer Service Mode, the following items are displayed.
• • •
Note: Activation of the CSM is only possible if there is no (user) menu on the screen!
•
Contents of CSM • 1.1 Set Type This information is very helpful for a helpdesk/workshop as reference for further diagnosis. In back to div.table
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. 1.2 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. 1.3 Installation date Indicates the date of the first installation of the TV. This date is acquired via time extraction. 1.4 a Option Code 1 Gives the option codes of option group 1 as set in SAM. 1.4b Option Code 2 Gives the option codes of option group 2 as set in SAM. 1.5 SSB Gives an identification of the SSB as stored in NVM. Note that if an NVM is replaced or is initialized after corruption, this identification number has to be re-written to NVM. This identification number is the 12NC number of the SSB. 1.6 Display 12NC NVM read/write. 1.7 PSU 12NC NVM read/write. 2.1 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. 2.2 Standby SW Displays the built-in stand-by processor software version. Upgrading this software will be poss ble via USB. 2.3 Panel Code Displays the Display Code number. 2.4 Bootloader ID ID of Bootloader. 2.5 NVM version Detects and displays NVM version. 2.6 Flash ID ID of flash model. 2.7 e-UM version eDFU (help) version. 2.8 Channel Table Structure Version version of channel table structure. 2.9 Error Codes Detects and displays errors. 3.1 Signal Quality Analog/digital signal strength. 3.2 Child lock Not active / active. This is a combined item for locks. If any lock (channel lock, parental lock) is active,it is indicated as “active”. 3.3 HDCP keys Indicates the validity of the HDMI keys (or HDCP keys). In case these keys are not valid and the customer wants to make use of the HDMI functionality, the SSB has to be replaced.
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5.
TPM15.6L LA
Service Modes, Error Codes, and Fault Finding
How to Navigate By means of the “CURSOR-DOWN/UP” knob (or the scroll wheel) on the RC-transmitter, can be navigated through the menus.
5.3
How to Exit CSM To exit CSM, use one of the following methods. • Press the MENU/HOME button on the remote control transmitter. • Press the POWER button on the remote control transmitter. • Press the POWER button on the television set.
Stepwise Start-up
Standby Soft Mode Command Received, previously in Standby Soft Mode (Power tact switch)
TV Wakeup commands Received (TV Wakeup keys)
Standby
Digital background tasks started Standby commands
TV Wakeup commands Received (TV Wakeup keys)
Digital background tasks completed
SemiStandby
Received (RC Standby key)
Power On
Switch Off(Mains Power Plug)
Standby Soft Mode Command Received (Power tact switch)
Standby Soft Mode Command Received, previously in Standby Soft Mode (Power tact switch)
Switch On, previously in Power On Mode (Power tact switch)
Swith On, previously in Standby/SemiStandby (Mains Power Plug)
Switch Off (Mains Power Plug)
Switch Off (Mains Power Plug)
Standby Soft Mode
Standby Soft Mode Command Received, (Power tact switch)
Swith On, previously in Standby Soft Mode (Mains Power Plug)
Switch Off (Mains Power Plug)
Power Off
Switch On,previously in TV Operation Mode (Mains Power Plug) 19080_206_110323 eps 120224
Figure 5-1 Stepwise Start-up
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Service Modes, Error Codes, and Fault Finding
TPM15.6L LA
5.4
Service Tools
5.5
Software Upgrading
5.4.1
ComPair
5.5.1
Description
Introduction ComPair (Computer Aided Repair) is a Service tool for Philips Consumer Electronics products. and offers the following: 1. ComPair helps to quickly get an understanding on how to repair the chassis in a short and effective way. 2. ComPair allows very detailed diagnostics and is therefore capable of accurately indicating problem areas. No knowledge on I2C or UART commands is necessary, because ComPair takes care of this. 3. ComPair speeds up the repair time since it can automatically communicate with the chassis (when the micro processor is working) and all repair information is directly available. 4. ComPair features TV software up poss bilities.
5.5.2
Preparing a portable memory for software upgrade The following requirements have to be met: 1. A personal computer connected to the internet. 2. An archive utility that supports the ZIP-format (e.g. WinZip for Windows or Stufflt for Mac OS). 3. A FAT formatted USB memory stick (preferably empty). Note: 1. Only FAT/DOS-formatted memory sticks are supported. 2. Only use software update files that can be found on the http://www.philips.com/support web site. 5.5.3
RC in
RC out
TO UART SERV CE CONNECTOR
Multi function
5.5.4
Optional Power Link/ Mode Switch Activity
I2C
Download the latest software
RS232 /UART
1. Open the internet page http://www.philips.com/support. 2. Find information and software related to the TV. 3. Select the latest software update file and download it to the PC. 4. Insert the USB memory stick into one of the USB ports of the PC. 5. Decompress the downloaded ZIP file and copy it to the root directory of the USB flash drive.
PC
ComPair II Developed by Ph lips Brugge
HDMI I2C only
Check the current TV software version Before starting the software upgrade procedure, it is advised to check that what the current TV software: 1. Press the “1 2 3 6 5 4” button on the remote control to enter the CSM mode. 2. Use the up/down cursor keys to select “Current Main Software”. If the current software version of the TV is the same as the latest update file found on http://www.philips.com/support, it is not necessary to update the TV software.
TO TV
ComPair II
Introduction Philips continuously tries to improve its products, and it’s recommend that the TV software is updated when updates are available. Software update files can be obtained from the dealer or can be downloaded from the following websites: http://www.philips.com/support
How to Connect This is described in the chassis fault finding database in ComPair.
TO I2C SERVICE CONNECTOR
25
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. A description on how to upgrade the main software can be found in the DFU or on the Philips website.
Specifications ComPair consists of a Windows based fault finding program and an interface box between PC and the (defective) product. The ComPair II interface box is connected to the PC via an USB cable. For the TV chassis, the ComPair interface box and the TV communicate via a bi-directional cable via the service connector(s). The ComPair fault finding program is able to determine the problem of the defective television, by a combination of automatic diagnostics and an interactive question/answer procedure.
TO UART SERVICE CONNECTOR
5.
Optional power 5V DC
5.5.5 10000_036_090121 eps 091118
Update the TV software 1. Turn the TV on and wait for it to boot completely. 2. Insert the USB memory stick that contains the software update files in one of the TV’s USB ports. 3. The TV will detect the USB memory stick automatically. Then a window jumps out as Figure 5-3. Note: If the USB flash drive is not detected after power up, disconnect it and re-insert it. 4. Select [Update] and press OK. See Figure 5-3. 5. To proceed, In next menu select [Start] and press OK to start software updates. See Figure 5-4. 6. Upgrading will now begins and the status of the updating progress will be displayed. 7. When the TV software is updated. Remove your USB flash drive, then select [Restart] and press OK to restart the TV.See Figure 5-5.
Figure 5-2 ComPair II interface connection Caution: It is compulsory to connect the TV to the PC as shown in the picture above (with the ComPair interface in between), as the ComPair interface acts as a level shifter. If one connects the TV directly to the PC (via UART), ICs can be blown! How to Order ComPair II order codes: • ComPair II interface: 3122 785 91020. • Software is available via the Philips Service web portal. • ComPair UART interface cable for TPM10.1x xx. (using DB9 to 2mm pitch JST connector): 3122 785 90630. Note: When you encounter problems, contact your local support desk. back to div.table
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5.
TPM15.6L LA
Service Modes, Error Codes, and Fault Finding •
•
5.5.7
FUS_clustername_version.zip: Contains the file downloaded which is needed to upgrade the TV main software and the software download application. NVM_clustername_version.zip: Default NVM content. Must be programmed via ComPair.
How to Copy NVM Data to/from USB When copying data to and from a USB memory stick, the folder “repair” is used. When inserting an empty USB memory stick, and downloading data to the stick, the TV will create this folder. When sending data from a USB memory stick to a TV, the intended data must be available in the “repair” folder. Note that when copying EDID data to the TV, all necessary EDID files must be in this folder. Service mode overview for your reference.
19080_207_110324 eps 110324
Figure 5-3 Update the TV software [1/3] Table 5-3 Service mode overview Service Modes
Description
SAM
Service alignment mode
Factory Mode
Used for extended alignments
CSM
3-page compact CSM pages. There will be CSM dump to USB-stick upon entering CSM-mode
USB SW upgradeable SW-upgrading of flash memories MT5561LVNT can be done via USB. The main SW can be upgraded via the ZIP file downloaded.
19080_208_110324 eps 110324
Figure 5-4 Update the TV software [2/3]
Service Data
New Service data in SAM for CTN, Prod. no., 12NC programming with virtual keyboard
USB copy/paste in SAM
Channel list, NVM data, Readable info, EDID
UART logging
There will be printout available in UART. No specifications of the printout, per MTK provision/definition.
Blind SAM
RC sequence “062598” + “Menu” + “Panel code”
Clear Buffer
RC sequence “062599” + “OK” or via SAM
Error Codes
5.6.1
Introduction Error codes are required to indicate failures in the TV set. In principle a unique error code is available for every: • Activated (SW) protection. • Failing I2C device. • General I2C error. The last five errors, stored in the NVM, are shown in the Service menu’s. This is called the error buffer. The error code buffer contains all errors detected since the last time the buffer was erased. The buffer is written from left to right. When an error occurs that is not yet in the error code buffer, it is displayed at the left side and all other errors shift one position to the right. An error will be added to the buffer if this error differs from any error in the buffer. The last found error is displayed on the left. An error with a designated error code never leads to a deadlock situation. It must always be diagnosable (e.g. error buffer via OSD or blinking LED or via ComPair). In case a failure identified by an error code automatically results in other error codes (cause and effect), only the error code of the MAIN failure is displayed.
Figure 5-5 Update the TV software [3/3] Note: • Do not remove the USB flash drive during the software update. • If a power failure occurs during the update, do not remove the USB flash drive from the TV. The TV will continue the software update as soon as the power comes up again. • If an error occurs during the update retry the procedure or contact the dealer. • We do not recommend downgrading to an older version. • Once the upgrade is finished, use the PC to remove the TV software from the USB portable memory.
5.6.2
How to Read the Error Buffer You can read the error buffer in three ways: • On screen via the SAM/CSM (if you have a picture). Example: – ERROR: 000 000 000 000 000: No errors detected – ERROR: 013 000 000 000 000: Error code 13 is the last and only detected error
Content and Usage of the One-Zip Software File Below you find a content explanation of the One-Zip file, and instructions on how and when to use it. Only files that are relevant for Service are mentioned here. • EDID_clustername.zip: Contains the EDID content of the different EDID NVMs. See ComPair for further instructions.
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NVM-editor will function as in the past: Address and Value field is a decimal value via digit entry
5.6
19080_209_110324 eps 110324
5.5.6
NVM-Editor in SAM
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Service Modes, Error Codes, and Fault Finding –
• • 5.6.3
ERROR: 034 013 000 000 000: Error code 13 was detected first and error code 34 is the last detected (newest) error Via the blinking LED procedure (when you have no picture). See paragraph 5.7 The Blinking LED Procedure. Via ComPair.
Layer-2 error code
Defective device
13
General I2C bus error on the SSB
16
+12 V missing or low, PSU defective
27
Channel decoder error on the SSB
34
Tuner I2C bus error on the SSB
35
EEPROM I2C error on SSB, M24C64
Load Default NVM Values It is possible to upload the default values to the NVM with ComPair in case the SW is changed, the NVM is replaced with a new (empty) one, or when the NVM content is corrupted. After replacing an EEPROM (or with a defective/no EEPROM), default settings should be used to enable the set to start-up and allow the Service Default Mode and Service Alignment Mode to be accessed.
Table 5-4 Error code table
5.8.3
No Picture When you have no picture, first make sure you have entered the correct display code. See paragraph 6.4 Option Settings for the instructions. See also back to div.table 6-3.
How to Clear the Error Buffer 5.8.4 The error code buffer is cleared in the following cases: • By using the CLEAR command in the SAM menu • By using the CLEAR command in the Factory mode: • By using the following key sequence on the remote control transmitter: “062599” directly followed by the OK button. • If the contents of the error buffer have not changed for 50 hours, the error buffer resets automatically.
5.7
The Blinking LED Procedure
5.7.1
Introduction
Unstable Picture via HDMI input Check (via ComPair or factory mode) if HDMI EDID data is properly programmed.
5.8.5
No Picture via HDMI input Check if HDCP key is valid. This can be done in CSM.
Note: If you exit SAM by disconnecting the mains from the television set, the error buffer is not reset.
5.8.6
TV Will Not Start-up from Stand-by Possible Stand-by Controller failure. Re-flash the software.
5.8.7
Audio Amplifier The Class D-IC U606 has a powerpad for cooling. When the IC is replaced it must be ensured that the powerpad is very well pushed to the PWB while the solder is still liquid. This is needed to insure that the cooling is guaranteed, otherwise the Class D-IC could break down in short time.
The software is capable of identifying different kinds of errors. Because it is poss ble that more than one error can occur over time, an error buffer is available, which is capable of storing the last five errors that occurred. This is useful if the OSD is not working properly. Errors can also be displayed by the blinking LED procedure. The method is to repeatedly let the front LED pulse with as many pulses as the error code number, followed by a period of 1.5 seconds in which the LED is “off”. Then this sequence is repeated. Example (1): error code 4 will result in four times the sequence LED “on” for 0.25 seconds / LED “off” for 0.25 seconds. After this sequence, the LED will be “off” for 1.5 seconds. Any RC command terminates the sequence. Error code LED blinking is in red color.
5.8.8
CSM When CSM is activated and there is a USB memory stick connected to the TV, the software will dump the complete CSM content to the USB memory stick. The file (Csm.txt) will be saved in the root of the USB memory stick.
5.8.9
Loudspeakers Make sure that the volume is set to minimum during disconnecting the speakers in the ON-state of the TV. The audio amplifier can be damaged by disconnecting the speakers during ON-state of the set!
Fault Finding and Repair Tips Note: • It is assumed that the components are mounted correctly with correct values and no bad solder joints. • Before any fault finding actions, check if the correct options are set.
5.8.1
27
Error codes 5.8.2
5.8
5.
Caution: • Do not change these, without understanding the function of each setting, because incorrect NVM settings may seriously hamper the correct functioning of the TV set! • Always write down the existing NVM settings, before changing the settings. This will enable you to return to the original settings, if the new settings turn out to be incorrect.
In this chassis only “layer 2” error codes are available and point to problems on the SSB. They are triggered by LED blinking when CSM is activated. Only the following layer 2 errors are defined:
5.6.4
TPM15.6L LA
5.8.10 Display option code Attention: In case the SSB is replaced, always check the Panel Code in CSM, even when picture is available. Performance with the incorrect display option code can lead to unwanted side-effects for certain conditions.
NVM Editor In some cases, it can be convenient if one directly can change the NVM contents. This can be done with the “NVM Editor” in SAM mode. With this option, single bytes can be changed.
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6.
Alignments
TPM15.6L LA
6. Alignments Index of this chapter: 6.1 General Alignment Conditions 6.2 Hardware Alignments 6.3 Software Alignments 6.4 Option Settings 6.5 Reset of Repaired SSB
6.1
In case you have a colour analyser: • Measure with a calibrated (phosphor- independent) color analyser (e.g. Minolta CA-210) in the centre of the screen. Consequently, the measurement needs to be done in a dark environment. • Adjust the correct x, y coordinates (while holding one of the White point registers R, G or B on max. value) by means of decreasing the value of one or two other white points to the correct x, y coordinates (see Table 6-1 White D alignment values). Tolerance: dx: ± 0.003, dy: ± 0.003. • Repeat this step for the other colour Temperatures that need to be aligned. • When finished return to the SAM root menu and press STANDBY on the RC to store the aligned values to the NVM.
General Alignment Conditions Perform all electrical adjustments under the following conditions: • Power supply voltage: 90 - 264 VAC, 50/ 60 ± 3 Hz. • Connect the set to the mains via an isolation transformer with low internal resistance. • Allow the set to warm up for approximately 15 minutes. • Measure voltages and waveforms in relation to correct ground (e.g. measure audio signals in relation to AUDIO_GND). Caution: It is not allowed to use heat sinks as ground. • Test probe: Ri > 10 MW, Ci < 20 pF. • Use an isolated trimmer/screwdriver to perform alignments.
6.2
Table 6-1 White D alignment values Value
Hardware Alignments
Warm (6500 K)
0.287
0.313
y
0.282
0.296
0.329
Software Alignments Put the set in SAM mode (see Chapter 5. Service Modes, Error Codes, and Fault Finding). The SAM menu will now appear on the screen. Select RGB Align and go to one of the sub menus. The alignments are explained below. The following items can be aligned: • White point.
6.3.2
Display Adjustment You can use the default values. The default values are average values coming from production. • Enter SAM mode. • Select a colour temperature (e.g. COOL, NORMAL, or WARM). • Set the RED, GREEN and BLUE default values according to the values in back to div.table 6-2. • When finished press OK on the RC, then press STORE to store the aligned values to the NVM. • Restore the initial picture settings after the alignments.
To store the data: • Press OK on the RC before the cursor is moved to the left. • Select “Store” and press OK on the RC. • Switch the set to stand-by mode. For the next alignments, supply the following test signals via a video generator to the RF input: • EU/AP-PAL models: a PAL B/G TV-signal with a signal strength of at least 1 mV and a frequency of 475.25 MHz • US/AP-NTSC models: an NTSC M/N TV-signal with a signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3). • LATAM models: an NTSC M TV-signal with a signal strength of at least 1 mV and a frequency of 61.25 MHz (channel 3).
Table 6-2 White tone default settings Colour temperature Picture mode
Screen size
Normal (9000K)
24PHG4100/77 128
120
111
32PFG5000/77 128
123
102
32PHG5000/77 125
125
103
40PFG5000/77 128
127
112
Cool (11000K)
6.3.1
Normal (9000 K)
0.276
If you do not have a colour analyser, you can use the default values. This is the next best solution. The default values are average values coming from production (statistics).
Not applicable.
6.3
Cool (11000 K)
x
RGB Alignment Before alignment, set the picture as follows: Picture Setting
Warm (6500K)
Red
Green
Blue
48PFG5000/77 128
124
128
24PHG4100/77 124
124
128
32PFG5000/77 124
128
116
32PHG5000/77 123
128
118
40PFG5000/77 115
128
125
48PFG5000/77 109
107
128
24PHG4100/77 128
99
67 56
Dynamic backlight
Off
32PFG5000/77 124
105
Dynamic Contrast
Off
32PHG5000/77 123
106
58
Color Enhancement
Off
40PFG5000/77 128
117
72
Picture Format
Unscaled
48PFG5000/77 128
108
78
Light Sensor
Off
Brightness
50
Color
0
Contrast
100
This group setting of colour temperature will be applied automatically to the TV / VGA / HDMI / AV sources.
White Tone Alignment: • Activate SAM. • Select “RGB Align.” and choose a color temperature. • Use a 100% white screen as input signal and set the following values: – “Red BL Offset” and “Green BL Offset” to “7” (if present). – All “White point” values initial to “128”.
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6.4
Option Settings
6.4.1
Introduction The microprocessor communicates with a large number of I2C ICs in the set. To ensure good communication and to make digital diagnosis possible, the microprocessor has to know
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Alignments which ICs to address. The presence / absence of these MT5561 ICs is made known by the option codes.
• •
Notes: • After changing the option(s), save them by pressing the OK button on the RC before the cursor is moved to the left, select STORE and press OK on the RC. • The new option setting is only active after the TV is switched “off” / “stand-by” and “on” again with the mains switch (the NVM is then read again).
•
•
TPM15.6L LA
6.
29
After the NVM has been replaced, go to SAM and scroll to the <Reload MAC address> . Select the item and press <OK> on the RC. Only applicable to all related models that are “Smart TV level 0”enabled (only YouTube access). For models without internet connection feature, no action is needed. HDCP keys are located in the NVM. If you are loading NVM with the ComPair tool, there is warning message displayed.
New NVM EEPROMs are shipped with pre-loaded HDCP keys. 6.4.2
Option Code Overview 6.5.2 Enter SAM mode to check the option codes. they could be edited in the NVM.
6.4.3
SSB’s of this chassis are identified by a “715” code on the SSB. 715Axxxx-Nnn-MMM-OOOO • 715 main category, Printed Wiring Board • Axxxx sub category, sequential coding number • Nnn Version code • N Development number • nn Production number • MMM Mounting variation code • OOOO Optional variation code Make sure when replacing an SSB the SSB identification codes match the replacement panel. Notes:
Display Code Overview Press the following key sequence on a standard RC transmitter: “062598” directly followed by MENU and “xxx”, where “xxx” is a 3 digit decimal value of the panel type: see column “Display Code” in back to div.table 6-3. After resetting the Display Code, restart the set immediately. Table 6-3 Display code overview
6.5
CTN ALT BOM#
Panel Type
Display Code
24PHG4100/77
TPM236H3-BJ1L01
188
32PFG5000/77
TPT315B5-EUJFFE S1J
185
32PHG5000/77
TPT315B5-0TU3A.Q S11E
172
32PHG5000/77
TPT315B5-XVN02 S900J
178
40PFG5000/77
TPT400LA-J6PE1 SC1AN
173
40PFG5000/77
TPT400LA-J6PE1 SC1AL
186
48PFG5000/77
TPT480H2-HWU23 SC2C
174
48PFG5000/77
TPT480H2-HWU23 SC2G
183
48PFG5000/77
TPT480LS-HN05.S SB01J
189
SSB Identification
Reset of Repaired SSB A very important issue towards a repaired SSB from a Service repair shop (SSB repair on component level) implies the reset of the NVM on the SSB. A repaired SSB in Service should get the service Set type “00PF0000000000” and Production code “00000000000000”. Also the virgin bit is to be set. To set all this, you can use the ComPair tool or use the “NVM editor” and “Dealer options” items in SAM (do not forget to “store”). After a repaired SSB has been mounted in the set (set repair on board level), the type number (CTN) and production code of the TV has to be set according to the type plate of the set. For this, you can use the NVM editor in SAM. The loading of the CTN and production code can also be done via ComPair (Model number programming). In case of a display replacement, reset the “Operation hours display” to “0”, or to the operation hours of the replacement display. Remark: - After the NVM has been replaced, go to SAM and scroll to the <Reload MAC address> (see figure 1*). - Select the item and press <OK> on the RC.
6.5.1
Reset of Repaired SSB Instruction After NVM replacement, reload MAC address via SAM menu.This ensures the correct MAC address to be available in CSM for future repair actions. Way of working:
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7.
TPM15.6L LA
Circuit Descriptions
7. Circuit Descriptions 7.1
Index of this chapter: 7.1 Introduction 7.2 Power Supply 7.3 DC/DC Converters 7.4 Front-End Analogue and DVB-T, DVB-C; ISDB-T reception 7.5 HDMI 7.6 Video and Audio Processing - MT5561LVNT/B PBGA-329
Introduction The TPM15.6L LA is a new chassis launched in LATAM in 2015. The whole range is covered by MT5561. The major deltas versus its predecessor support NTSC; PAL-M; PAL-N AND ISDB-T with also multi-media, CEC, ARC, SPDIF functionality. The TPM15.6L LA chassis comes with the following stylings: • series xxPxG5000xx • series xxPHG4100xx
Notes: • Only new circuits (circuits that are not published recently) are described. • Figures can deviate slightly from the actual situation, due to different set executions. • For a good understanding of the following circuit descriptions, please use the wiring, block (see chapter 9. Block Diagrams) and circuit diagrams (see chapter 10. Circuit Diagrams and PWB Layouts).Where necessary, you will find a separate drawing for clarification.
7.1.1
Implementation Key components of this chassis are: • SCALER MT5561LVNT/B PBGA-329 • FLASH TC58NVG1S3HTAI0 2GB TSOP-48 • Tuner: RF V/T 5P 1*1 - 9mm • Silicon Tuner MxL661-AG-R • DEMODULATOR TC90537FG LQFP-48 for tuner signal demodulation • AUDIO TAS5729MDDCAR 10W TSSOP-48 for AUDIO Amplifier.
7.1.2
TPM15.6L LA Architecture Overview For details about the chassis block diagrams refer to 9. Block Diagrams.
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Circuit Descriptions 7.1.3
TPM15.6L LA
7.
31
SSB Cell Layout
DC/DC
USB
DDR
MT5561
HDMI Headphone
ANALOG I/O SERVICE CONNECTOR TUNER
HDMI
SPDIF OUT
19770_200.eps
Figure 7-1 SSB layout cells (top view)
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32 7.2
7.
TPM15.6L LA
Circuit Descriptions
Power Supply Refer to figure Figure 7-2 for the power architecture of this platform.
AMP
CN8802(FOR 715G6550) CN8604(FOR 715G6863) CN8601(FOR 715G6934) CN8101(FOR 715G6338)
LVDS AMP 12V
12V
Platform power BL-ON/OFF DIM
Display power
12V
Platform MTK5561
12V-Audio CN701
Low stby power
PFC
Ac-input + Mains filter AC IN
1 power- PCB
CN9901
19770_201 eps
Figure 7-2 Power Architecture 7.2.1
Power Supply Unit
7.2.2
All power supplies are a black box for Service. When defective, a new board must be ordered and the defective one must be returned, unless the main fuse of the board is broken. Always replace a defective fuse with one with the correct specifications! This part is available in the regular market. Consult the Philips Service web portal for the order codes of the boards.
The diversity in power supply units is mainly determined by the diversity in displays. The following displays can be distinguished: • CCFL/EEFL backlight: power panel is conventional IPB • LED backlight: - side-view LED without scanning: PSL power panel - side-view LED with scanning: PSLS power panel - direct-view LED without 2D-dimming: PSL power panel - direct-view LED with 2D-dimming: PSDL power panel.
Important delta’s with the TPM15.6L LA classis platform are: • New power architecture for LED backlight • “Boost”-signal is now a PWM-signal + continuous variable.
PSL stands for Power Supply with integrated LED-drivers. PSLS stands for a Power Supply with integrated LED-drivers with added Scanning functionality (added microcontroller). PSDL stands for a Power Supply for Direct-view LED backlight with 2D-dimming.
The control signals are: • Stand-by (PS_ON)(only for 48 inch-715G6338) • Lamp “on/off” • Backlight adjust (DIM) (not for PSDL) In this manual, no detailed information is available because of design protection issues. The output voltages to the chassis are: • 12V output (stand-by and on-mode for 32 and 40 inch) • 8.5V output (stand-by for 48 inch) • 12V output (on-mode for 48 inch) • +12V_audio (audio AMP power) (on-mode) • Output to the display; in case of - IPB: High voltage to the LCD panel - PSL and PSLS (LED-driver outputs) - PSDL (high frequent) AC-current.
2015-July-10
Diversity
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Circuit Descriptions 7.2.3
TPM15.6L LA
7.
33
Connector overview Table 7-1 Connector overview Connector 32"PFG5000
32"PHG5000 & 32"PHG4100
40"
CN9101
CN8602
CN9101
CN8604
CN9101
CN8601
CN9301
Description
to SSB
to Panel
to SSB
to Panel
to SSB
to panel
to SSB
to panel
Pin
14
6
14
6
14
9
14
12
Number
7.3
48" CN8101
1
DM
VLED+
DIM
VLED+
DIM
VLED+
DM
VLED+
2
ON/OFF
VLED+
ON/OFF
VLED+
ON/OFF
n.c.
ON/OFF
n.c.
3
PS_ON
n.c.
PS_ON
n c.
PS_ON
n.c.
PS_ON
VLED_1
4
n c.
n.c.
n.c.
n c.
n.c.
n.c.
n c.
VLED_1
5
GND
LED-
GND
LED_
GND
n.c.
GND-
n.c.
6
GND
LED-
GND
LED_
GND
VLED-
GND
n.c.
7
GND
-
GND
-
GND
VLED-
GND
n.c.
8
GND
-
GND
-
GND
n.c.
GND
n.c.
9
+12V_AUDIO
-
+12V_AUDIO
-
+12V_AUDIO
VLED-
+12V_AUDIO
VLED_2
10
+12V_AUDIO
-
+12V_AUDIO
-
+12V_AUDIO
-
+12V_AUDIO
VLED_2
11
+12V
-
+12V
-
+12V
-
+12V
n.c.
12
+12V
-
+12V
-
+12V
-
+12V
VLED+
13
+12V
-
+12V_AL
-
+12V_AL
-
+12V
-
14
+12V
-
+12V_AL
-
+12V_AL
-
+12V
-
15
-
-
-
-
-
-
-
-
16
-
-
-
-
-
-
-
-
DC/DC Converters
• • • • • •
The on-board DC/DC converters deliver the following voltages (depending on set execution): • +3V3SB, transform from +12V and +5VSB by DCDC, permanent voltage for the Stand-by controller, LED/IR receiver and controls. • +12V, input from the power supply for the panel common (active mode) • +12V, input from the power supply for audio amplifier • VCCK,AVDD1V2, core voltage supply for MT5561
+12V_AMP
+DDRV(1.5V),for the DDR integrated in Scaler IC +3V3, general supply voltage +5V_sw, supply voltage for USB TUNER3.3V, supply voltage for tuner TUNER3.3V TUNER1V8, voltage for ATV single decoder. +1V2, voltage for DTV single decoder.
Figures gives a graphical representation of the DC/DC converters with its current consumptions :
+12VSB_PRE
R719 AVDD1V2 (1.2V)
FB703 +12V
U706 SY8104ADC
+5V_SB
U703 M5723B-33F61U
+3.3V_SB U702 G903T63UF
FB702 VCCK (1.2V)
FB403 VCC3.3VA_A1
FB413 AVDD_DMPLL
FB414 AVDD_AU
FB601 PVDD_R
U601 AD87588
FB504
FB602 PVDD_L
Q701
U503 G529A1TP1U
5V_Normal
MHL
U116 APL3511
Wi-Fi_VCC
AO3401A
U705 G5695T11U
DVDD3V3 AVDD3V3
19770_202.eps
Figure 7-3 DC/DC converters back to div.table
2015-July-10
34 7.4 7.4.1
7.
Circuit Descriptions
TPM15.6L LA
Front-End Analogue and DVB-T, DVB-C; ISDB-T reception
7.5
HDMI Refer to figure 7-6 HDMI input configuration for the application.
Front-End Analogue part The Front-End for analogue tuner consist of the following key components: • • •
MTK5561
RX
I2C
Tuner: RF V/T 5P 1*1 - 9mm Silicon Tuner MxL661-AG-R SCALER MT5561LVNT/B PBGA-329
I2C Below find a block diagram of the front-end application for analogue part.
RX
CN501 REAR HDMI
CN502
MxL661-AG-R
HDMI Side
I2C
I2C
19770_205.eps
IF
RF_AGC
Figure 7-6 HDMI input configuration
IF_AGC
IF_AGC
The following HDMI connector can be used: • HDMI 1: HDMI input ( TV digital interface support HDCP) with digital audio/PC DVI input/ARC • Rear HDMI: HDMI input ( TV digital interface support HDCP) with digital audio/PC DVI input • +5V detection mechanism • Stable clock detection mechanism • Integrated EDID • HPD control • Sync detection • TMDS output control • CEC control
X MTK5561
RF_AGC
19770_203 eps
Figure 7-4 Front-End Analogue block diagram 7.4.2
DTV part The Front-End for DVT part consist of the following key components:
7.6 • •
Tuner: RF V/T 5P 1*1 - 9mm Silicon Tuner MxL661-AG-R (NTSC,PAL-M, PAL-N and ISDB-T) SCALER MT5561LVNT/B PBGA-329 DEMODULATOR TC90537FG LQFP-48 for tuner signal demodulation
• •
The MT5561LVNT/B is the main audio and video processor (or System-on-Chip) for this platform. It has the following features: • • • • • • • • •
Below find a block diagram of the front-end application for DTV part. MxL661-AG-R
I2C
I2C
Video and Audio Processing - MT5561LVNT/B PBGA-329
Multi-standard digital video decoder (MPEG 1-2, H.264, MPEG-4) A transport de-multiplexer A muti-standard video decoder Rich format audio codec HDMI 1.4a receiver with 3D support 2D/3D converter Local dimming (LED backlight)(0ption) Panel overdrive control Two-link LVDS
IF
The MT5561LVNT/B combines front-end video processing functions, such as ATSC,DVB-T/T2,DVB-C,DVB-S2 channel decoding, MPEG 1-2/H.264 decode, analog video decode and HDMI reception, with advanced back-end video picture improvements. It also includes next generation Motion Accurate Picture Processing High flat panel screen resolutions and refresh rates are supported with formats including 1360 × 768 @ 60Hz and 1920 x 1080 @ 60Hz.It integrates high-quality HDMI 1.4a, USB 2.0 receiver, Ethernet MAC+PHY, Single core CPU. Professional error-concealment provides stable, smooth and mosaic-free video quality
TC90537FG LQFP-48
IF-AGC IF_AGC RF_AGC RF_AGC X
TS DATA
MTK5561
19770_204 eps
Figure 7-5 Front-End DVB-T2 DTV block diagram
For a functional diagram of the MT5561LVNT/B, refer to Figure 8-2.
2015-July-10
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IC Data Sheets
TPM15.6L LA
8.
35
8. IC Data Sheets This chapter shows the internal block diagrams and pin configurations of ICs that are drawn as “black boxes” in the electrical diagrams (with the exception of “memory” and “logic” ICs).
Diagram 10-5-1 System Power B01, M5723B (IC U703)
Block diagram N1 Current Sense
M5723B
+
8.1
OC
OSC
HDRV
VREF 100mΩ
+
0.6V
A1
+
R
S
Q
EA
LX CONTROL
FB1
LDRV 80mΩ
UVLO
Compensation
Thermal Shutdown
PGND Zero Current Detect
EN1 N2 EN2
炼 ERROR AMP 為
SHUTDOWN LOGIC
OVER CURRENT PROTECT & DYNAMIC FEEDBACK
OUT2
R1 OVER TEMP. PROTECT
1.25V Vref
R2 AGND
Pinning information
LX
EN1
1
10
AGND
2
9
PGND
FB1
3
8
IN1
AGND
4
7
OUT2
EN2
5
6
IN2
Thermal Pad
19770_300.eps
Figure 8-1 Internal block diagram and pin configuration
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2015-July-10
36 8.2
8.
IC Data Sheets
TPM15.6L LA
Diagram 10-5-2 Peripheral, B02, MT5561LVNT (IC U401B)
Block diagram MT5561LVNT TS Input
TS Demux
Demod
LVDS/min-LVS/ EPI OD, TCON (option)
JPEG/MP2/MP4/ DivX/H.264/VC-1/ RM/AVS/VP8 Decoders (option)
Panel
Tuner Input
NTSC/ PAL/ SECAM ATD
Deinterlace
Vplane scaler
2D/3D Converter Post Processing (option)
Video Input
Grapihc
OSD scaler
TV Decoder CVBS/YC Input Component Analog Input HDMI Input/ MHL
SIF
Video ADC HDMI Rx MHL Rx Audio Demod
Audio DSP
Audio ADC
Audio I/F
SPDIF Out, I2S ADAC L/R x 2
Audio DAC
Audio Input
Audio Input
ARM
DDR3 Controller
SPDIF In
JTAG PCR
IrDA
I2C
USB2.0
PWM
Watchdog
Serial Flash
RTC
Smart Card
UART
SDIO
Ethernet
NAND Flash
Servo ADC
16-bit Embedded DDR3
T8032
19620_300_140111 eps 140111
Figure 8-2 Internal block diagram
2015-July-10
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IC Data Sheets
TPM15.6L LA
8.
37
Pinning Information MT5561LVNT 329
1
2
3
4
5
6
7
8
9
10
A
DVSS
AO0P
AOCKP
AE1P
DVSS
CI_A3
B
GPIO0
AO0N
AOCKN
AE1N
CI_D0
CI_REG#
C
TCON4
TCON2
AO1P
AO2P
AO3P
AE0P
AE2P
AE3P
CI_A1
CI_MOVAL
D
TCON5
TCON7
AO1N
AO2N
AO3N
AE0N
AE2N
AE3N
CI_A0
CI_A4
TCON3
TCON0
GPIO1
OPWM0
CI_MDO1
CI_MDO2
CI_A12
CI_A5
CI_D2
CI_A2
DVSS
DVSS
VCCK
DVSS
E F
TCON8
TCON1
TCON6
OSCL1
OSDA1
DVSS
CI_CD2#
G
PDD6
PDD0
PDD3
PDD1
OPWM1
OPWM2
DVSS
PDD4
GPIO4
GPIO3
H
DVSS
J
POOE #
POCE1#
PDD7
POCE0#
POWE#
PDD5
DVSS
K
PACLE
PAALE
PDD2
PARB#
VCCK
VCCK
VCCK
VCCK
DVSS
DVSS
L
VCCK
VCCK
VCCK
VCCK
VCCK
VCCK
VCCK
VCCK
DVSS
DVSS
M
DVSS
DVSS
DVSS
DVSS
DVSS
DVSS
VCCK
VCCK
DVSS
DVSS
N
DDRV
DDRV
DDRV
DDRV
DDRV
DDRV
DVSS
DVSS
DVSS
VCC3IO
P
DDRV REF
ZQ
AOLRC K
DVSS
ADIN1
VCC3IO
VCC3IO
R
AOBC K
AOMCLK
AOSDAT A0
ASPDIF O
OSCL0
DVSS
ADIN7
AVDD33_E TH
AVDD33_HD MI
OPWRSB
OIRI
AOSDAT A1
DVSS
ADIN6
ADIN0
ADIN4
U0RX
OPCTRL 0
OPCTRL 4
ADIN5
ADIN3
HDMI_0_SCL
ADIN2
HDMI_0_R X_1B
HSYNC
OPCTRL1
OPCTRL 2
VGA_SD A
VGA_SCL
HDMI_0_S DA
HDMI_0_RX_ 0B
HDMI_0_RX_0
HDMI_0_R X_1
VSYNC
RXVP
REXT_E TH
HDMI_0_HPD
HDMI_0_RX_ CB
HDMI_0_R X_2B
ORESETB
DVSS
AVDD12 _ETH
AVDD12_HDM I_0
HDMI_0_RX_ C
HDMI_0_R X_2
AVDD10_LD O
T U
U0TX
V
OPCT RL3
W Y
RXVN TXVN
1
TXVP
2
3
OSDA0
4
5
6
7
8
9
10 19620_301_140111 eps 140111
Figure 8-3 Internal pin configuration [1/2]
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2015-July-10
38
8.
IC Data Sheets
TPM15.6L LA
Pinning Information MT5561LVNT 11 A B
12
13
CI_MCLKO
CI_MDI4
14
CI_A6
CI_MIVAL
C
CI_WAIT#
CI_RESET
CI_MDI3
CI_MDI2
D
CI_MOSTRT
CI_A7
CI_D1
CI_MCLKI
E
CI_MDO0
CI_MDI5
CI_MDI7
F
CI_IREQ#
CI_MDI6
15
16
17
CI_A14
CI_MDI0
CI_WE#
CI_A13
CI_MDI1
CI_A8
CI_A9
CI_MISTRT
18
19
20
CI_IORD#
CI_A10
FSRC_WR
CI_A11
CI_CE1#
CI_D7
CI_OE#
CI_MDO7
CI_MDO6
CI_IOWR#
CI_D6
CI_MDO5
CI_D5
CI_MDO3
CI_D3
CI_CD1#
CI_D4
CI_MDO4
ASPDIFI
GPIO5
CI_PWR_EN
USB_DP1
DVSS
GPIO2
DVSS
USB_DM1
USB_DP0
USB_DM0
AVDD12_HDMI_1
HDMI_1_SCL
HDMI_2_RX_2
HDMI_2_RX_2B
HDMI_2_RX_0
HDMI_2_RX_1
HDMI_2_RX_1B
HDMI_1_RX_2
HDMI_1_RX_2B
G H
DVSS
DVSS
DVSS
DVSS
J
DVSS
DVSS
DVSS
HDMI_2_SDA
IF_AGC
HDMI_2_HPD_CBUS
K
DVSS
DVSS
HDMI_1_SDA
MHL_SENCE
HDMI_CEC
L
DVSS
DVSS
DVSS
AVDD33_CAP
RF_AGC
HDMI_1_HPD
HDMI_2_RX_0B
M
DVSS
DVSS
DVSS
AVDD33_AADC
AVDD33_ADAC
HDMI_2_RX_C
HDMI_2_RX_CB
N
DVSS
DVSS
DVSS
AVSS33_CLN
DVSS
HDMI_1_RX_1
HDMI_1_RX_1B
P
DVSS
DVSS
DVSS
AR0_ADAC
HDMI_1_RX_0
HDMI_1_RX_0B
HDMI_1_RX_C
HDMI_1_RX_CB
R
DVSS
DVSS
DVSS
DVSS
AL0_ADAC
AIN_R1
AIN_R3
AIN_R2
AIN_R0
AVSS33_RGB
DVSS
AVSS33_VIDEO
DVSS
VMID_AADC
AVDD33_REG_STB
AL1_ADAC
AIN_L3
AIN_L2
AR1_ADAC
AIN_L0
T
DVSS
DVSS
HDMI_2_SCL
U
SOG
SOY1
COM1
Y0
PB0
DVSS
AVDD33_VIDEO_STB
V
BP
RP
Y1
SOY0
COM0
DVSS
AVDD33_RGB_STB
CVBS0
XTALI
AIN_L1
W
GP
PB1
PR0
VDAC_OUT
ADCINP_DEMOD
DVSS
XTALO
Y
COM
PR1
CVBS_COM
CVBS1
ADCINN_DEMOD
AVDD12_DEMOD
19
20
11
12
13
14
15
16
17
18
19620_303_140111.eps 140111
Figure 8-4 Internal pin configuration [2/2]
2015-July-10
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IC Data Sheets
8.
39
Diagram 10-5-4 Speaker Amp B04, TAS5729MDDCAR (IC U601)
Block diagram TAS5729MD DVDD
AVDD
ANA_REG1 ANA_REG2 DIG_REG DRVDD DR_CN DR_CP
Analog Supply Regulators
DRVSS
PVDD
PWM Power Stage Full Bridge Power Stage A
Digital Audio Processor MCLK SCLK LRCLK SD N
Serial Audio Port
Digital Equalizer, Two-Band AGL, Coarse/Fine Volume Control, THD Manager, PWM Level Meter
Open Loop Digital PWM Modulator
-
DR_INx
Gate Drives Gate Drives
SPK_OUTA
OverCurrent Protection
Full Bridge Power Stage B
SPK_OUTB SPK_OUTC SPK_OUTD
Clock Monitoring
Stereo HP / Line Driver DR_INA DR_INB
GVDD_REG
Gate Drive Regulator
Charge Pump
Digital Supply Regulator
+
8.3
TPM15.6L LA
Die Temp. Monitor
DRVDD
DR_OUTA DR_OUTB
DR_OUTx DRVSS Internal Control Registers and State Machines
ADR / SPK_FAULT
DR_SDI
PDN
RST
SCL
SDA
Pinning information PGND SPK_OUTA BSTRPA PVDD TEST1 TEST2 DR_INA DR_OUTA DR_OUTB DR_INB DRVSS DR_CN DR_CP DRVDD PLL_GND PLL_FLTM PLL_FLTP ANA_REG1 AVDD ADR / SPK_FAULT MCLK OSC_RES OSC_GND DIG_REG
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Thermal Pad
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25
SPK_OUTB BSTRPB BSTRPC SPK_OUTC PGND SPK_OUTD BSTRPD PVDD GVDD_REG DR_SDI SSTIMER ANA_REG2 AGND DGND DVDD TEST3 RST NC SCL SDA SDIN SCLK LRCLK PDN 19690_301.eps
Figure 8-5 Internal block diagram and pin configuration
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2015-July-10
40 8.4
8.
IC Data Sheets
TPM15.6L LA
Diagram 10-5-6 Video YPbPr/CVBS B09, MxL661 (IC U104)
Block diagram
IF1 Out RF Input
Balun
Channel Filtering
LNA
IF2 Out
Synth Calibration
RF Synth
Gain Control
IF Synth
Crystal Reference
I2C
AGC1 AGC2
Voltage Regulator
CLK_OUT
AS
RESET_N
VDD_1p8
GND_XTAL
XTAL_P
XTAL_N
24
23
22
21
20
19
Pinning information
VDD_3p3
1
18
CLK_OUT
LNA_INP
2
17
SDA
LNA_INN
3
16
SCL
VDD_1p8
4
15
VDD_IO
AGC_2/GPO_3
5
14
GND_DIG
AGC_1
6
13
VDD_1p2
7
8
9
10
11
12
IF_OUTP_2/GPO_1
IF_OUTN_2/GPO_2
IF_OUTP_1
IF_OUTN_1
VDD_3p3
VDD_1p8
MxL661
19760_301 eps
Figure 8-6 Internal block diagram and pin configuration
2015-July-10
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Block Diagrams
TPM15.6L LA
9.
EN 41
9. Block Diagrams 9.1
Block diagram 4100 & 5000 series
Silicon Tuner MxL661-AG-R IF+/-
ATV
TSB Demod TC90537
LVDS
DTV DEMOD
VGA SPIDF Out
MT5561 PC Audio in
Headphone AMP L/R
APA2176A
Headphone
CVBS / L / R
CN501 (Side) CN502 Rear CN103 (Side) CN104 (Rear)
AUDIO AMP
HDMI1 L/R
5W SPK R
TI 31100 L
HDMI2 w/ARC
5W SPK
USB1 (Share to Wi-Fi modul) USB2
KeyPad
UART
Remote Control 19770_400.eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
TPM15.6L LA
10.
EN 42
10. Circuit Diagrams and PWB Layouts 10 1 A 715G6550 PSU
Power
A01
A01
A
+18V
1 -
1
2
-
2
+
2
HOT 1
3
C9801 Full range:367G215X121PKY low side:367G215X331MKY high side:367G215X101PKY
2 L9903 4mH
Q9101 Full range:357G0667650004/TK8A65D or 357G0667650006/TK11A65D low and high side:357G06119080HF/TK6A65D
1
C9903 220PF 250V
5
R9112 510K 1/4W
4
NC
1
R9102 510K 1/4W
R9103 510K 1/4W
R9150 NC
6 7
4 2
82K OHM %
R9142 3.3M 1/4W
R9902
!
U9101 PF6003AS 1 2 3 4
BNO FB CS GND
VCC NC VCC OUT
!
Q9101
8 7 6 5
0
C9126 100PF
D9105 1N4007
+
1N4148W
HS9101 HEAT SINK
+ C9104 100N 50V
C9105
R9138 22 OHM 1/4W
!
0U 50V
1 2 3 4
1
2 FB9906 NC
R9101 0.27R 2W
4
!
C9124 1NF CN9902
U9102 EL817M(X)
JUMPER
NC D2 D2 NC
2 1 2 3 4
+12VS
1
1 3 5 7 9 11 13 15
2 4 6 8 10 12 14 16
NC C9128 1N 50V +12V_A +12V
C9129 NC
+12V_A NC ON/OFF
+12V +12V_A
PS_ON DIM
CN9102
NC
PGND EN VIN LX AGND COMP VCC FB
8 7 6 5
L9301
+5.2V
R9348
C9335
+ +
2
C9331
C9336
C9334 C9330
C9323
R9144 R9143 Q9106
U9103 AS431AN-E1
R9126 9.31K +-1% 1/8W C9140
R9342
C9333 R9358
C9332
PS_ON
R9145 R9141 680R 1/8W 1%
R9361
R9347
3 1
CN9901 SOCKET
ZD9104 BZT52-B16 1
FB9902 127R
F9901 T4AL 250V_NC
C9117
2
220N 50V
U9301
4 2
1
!
2
1
R9344 NC/3K OHM 1%
FB9901 127R 2
!
ZD9301
R9345
C9910 100PF 250V
!
R9125 620K 1/8W 1%
R9122 9.1K OHM
1 2
! RV9901 680V
+12V
+12VS
R9123 43K 1/8W 1%
FB9301
C9906
C9907 100PF 250V
2 4 6 8 10 12 14 16
FB9302 BEAD
1
!
1 3 5 7 9 11 13 15
+5.2V
R9119 NC
2
NC D1 D1 NC
8 7 6 5
R9908
U9901
+12V
R9124 10K OHM +-5% 1/8W
1 2 3 4
R9121 2K4 1/8W 5%
C9108 470pF 1KV
1
3
PS_ON
+12V_A
R9139 NC
R9909
2 1
C9127 1N 50V
R9118 NC
C9908 NC
ON/OFF CN9101 CONN
R9140 22 OHM 1/4W
For Q9101
R9907
2 1
+
D9106
C9106 330P 50V
NC
DIM
R9120 22 OHM 1/4W
%
R9113 1K 1/4W
C9901 470nF 275V
+18V
! C9904 1NF 250V
C9125
1NF
D9107 SR515-04 1 2 D9108 SR515-04 1 2
10K OHM -5% 1/8W
+
R9114 110K
NC
1
R9111 R9 46
C9102 2.2UF 50V
!
D9102 SR515-04 1 2
R9108 4R7 1/4W 5%
TK6A65D(STA ,X,M)
620K -1% 1/ W 620K -1% 1/ W 620K -1% 1/ W
!
R9107
R9109 10R 1/8W 5%
R9110 47R 1%
C9306
C9116 330UF 35V
R9128 3.3M 1/4W
! R9901 620K +-1% 1/4W
R9904
R9906
D9104 1N4148W
R9131 1K 1/8W
C9119 100N 50V
PS_ON
C9122 330UF 35V
R9905 620K +-1% 1/4W
C9308
R9307
D9103 FR107G-A0
R9127 3.3M 1/4W
!
Q9102 BTN5551A3 R9304
R9117 NC
0
L9901 18MH
R9903 620K +-1% 1/4W
C9107
Q9305
2 SG9901
C9112 100N 50V
C9111 470UF 25V
R9116 22 OHM 1/4W
8 9
C9103 2.2NF R9105 82K OHM 1%
SG9902
+
C9307
R9149 22 OHM 1/4W
3
C9113 2.2NF
+
C9902 220PF 250V
!
Q9306
JUMPER
3.3NF 500V
R9104 R9106 82K OHM 1% 82K OHM %
C9801 82uF 450V
C9121 C9110 470uF 25V C9109 100N 50V 470uF 25V + + + C9101 NC
2
A
!
3UH
R9148 22 OHM 1/4W
!
NC
! T9101 POWER X'FMR
FB9908 BEAD
!
3
R9115 22 OHM 1/4W
R9130 1K OHM +12V
D9101 SR510-22 1 2
COLD
ZD9101 BZT52-B22
+12V_A
L9101
R9302
! 4
2
+12VS
D9112 SR510-22 1 2
Full range:BD9901/093G 50460938 low and high side:BD9902/393G0050460A03
D9109 SR34H
R9129 470OHM +-5% 1/8W
D9111 SR510-22 1 2
NR9901 2.5R
t
1
1
4
D9110 SR510-22 1 2
+
4
BD9902 GBL408-C
3
3
NC
2
BD9901
2
1 F9902
T4AH/250V 201 -12 01
POWER
715G6550 19770_500 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 43
LED DRIVER
LED DRIVER
A01 R8615 22K 1/4W
C8617 100PF 500V
L8603 33uH
FB8605 BEAD 1
L8602
VLED+ 2
D8601 SR510-22
NC OUT
D8602 1N4148
R8616 0 OHM +-5% 1/8W
R8604 33R 1/8W 5%
R8602 NC
D8603 1N4148W
R8609 10R 1/8W 5%
+
C8621 100N 50V
R8612 100K
R8611 NC
C8623 NC
ZD8601 BZT52-B18 2 1
R8617 62K 1/8W 1%
Q8601 SM1A23NSUC-TRG
+
C8616 220uF 50V
C8605 100N 50V
+
1
C8612 220uF 50V
C8601 330UF 35V
2
R8647 10K OHM +-5% 1/8W
7
LEDC8602 220nF50V
OUT
1 2 3 4 5 6
U8601 1 2 3 4
LED FB VCC GM CS/OVP DIM OUT GND
8 7 6 5
PF7708BS C8606 1NF
R8608 4.7KOHM +-1% 1/8W
DIM C8607
R8603
220P 50V
33K 1/8W 5%
C8603 47N 50V
D8604 1N4148W
C8610 22pF 50V
R8601 0R05
R8654 1oHM 1% 1/4W
LED-
Q8603 DTA144WN3/S Vcc2 C8611 0.47UF 50V
Q8602 2N7002K
ON/OFF R8653 1R6 1%
1 2 3
+12V
C8604 0.47UF 50V
R8652 1R6 1%
VLED+
8
Vcc2
CN8601 CONN_NC
CN8602 CONN 1
ZD8602 BZT52-B18
4
+18V
5
A01
2
10-1-2
TPM15.6L LA
R8655 1R6 1%
R8605 1K 1/8W
R8656 1oHM 1% 1/4W
R8606 330K 1/8W 5%
C8609 100N 50V
201 -12 01
LED DRIVER
715G6550 19770_501 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 44
Power layout top
MH2
CN8602
FB9906 MH28
Q9101 C9105
C9126 DR7
C9102
R9101
T9101
C9901
C9801
J9 20
J9 07
J9 08
J9109
J9
C9906
J9
C9111
J9
7
D9107
CN9101 CN9102
J9
6
D9108
5
3 J9
D9112
D9111
D9110
D9101
Q9102
9
8
D9102
L9101
CN9901 C9109 C9121
L9301
C9332
C9101
MH8
SU3
C9116
DR11
C9122
C9910
MH7
J9
F9902
0
R9130
FB9902
FB9901
F9901
L8602 L8603
DR10
RV9901
C9907
D8601
C8601
J9
R9909
J9
2
R9908
R9907
J9 04
DR8
J9 06
J9
L9901
SU4
C9904
SG9902
C9903
D9105
U9102
SG9901
DR3
DR5
FB9908
FB8605
R8601
C9113
J9 02
CN9902
SU1
D9103
C9902
C9103
DR1
L9903
D8602
DR4
HS9101
SU2
C8612
BD9901 BD9902
C9908 J9 03
J9 0
DR2
NR9901
C8616
CN8601
MH5
MH1
DR6
10-1-3
TPM15.6L LA
FB9301 C9331
FB9302
MH3 201 -06
LAYOUT TOP
715G6550 19770_502.eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 45
Power layout bottom
R9102
R9127 R9112
R9111
D9104
R9113
JR9102
R9109 R9110
C9125
R9114
R9103
MH14
C9308
JR9109
SG1
R9905 R9904
C9117
R9122 U9103
R9144
JR9108
C9128
R9141
R9126
C9129 R9125
C9127
Q9106
ZD9104 C9140
R9143
R9903
R9107
SG2
R9106
R9124 R9121
U9901
R9304
R9123
R9302
Q9305
C9306
C9307
R9105
C8603
R9307
R9145
C8604
D8604 Q8602
JR9104
R9104
R9901
C8606 R8603 C8607
C8602
R9906
JR9103
R9902
R9146
C9104 C9106
D9106
R8653
R8652
R8655 ZD8601
JR9105 C8610
R8602 C8611 R8606
R9128
R9108
R8605
JR9107
U9101
R9142
U8601
Q8603
Q8601
R8617 C8605
R8616
C8609
R8647
D8603
C8617
R8608
R8604 R8609
R8611
R8654
R8656
R8612
ZD8602
JR9101
C9124
C8623
C8621
MH19
R8615
R9139
C9119
C9323
R9348
R9138
R9150
R9149
R9148
R9140
R9116
R9120
C9107
ZD9101
C9108
R9115
R9129
R9117
R9119
R9131
Q9306
D9109
C9112
R9118
R9342
C9336
U9301
C9110
ZD9301
C9330
R9344
R9358
C9335
C9334 C9333
R9347
R9345
R9361
10-1-4
TPM15.6L LA
MH4
MH11
201 -06
SSB Layout Bottom
715G6550 19770_503 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
TPM15.6L LA
10.
EN 46
10.2 A 715G6863 PSU 10-2-1
Power
POWER
A01
2
A01
! +
1
Hot
R9129 30 OHM 1/4W
D9105
POWER X'FMR
1
2 L9901 3
! 1
R9104 330K +-1% 1/4W
4 NC
R9134 330K +-1% 1/4W
R9106 330K +-1% 1/4W
R9112 33R 1% 1/8W
R9114 3.3M 1% C9109 1NF 50V
C9108 100N 50V
+
R9 40 33ohm
LED_a
R8604 0.2oHM 1% 1/4W
R8610 0.2oHM 1% 1/4W CN8601
NC/1NF 630V
LED_a
8 33ohm
4W + 5%
R9 39 33ohm
R9
4W + 5%
C9106 4.7UF 50V
+
R9 4
33ohm
+16V1
4W + -5%
R9 42 33ohm
C8608 10UF 50V
LED2
OUT
4W + -5%
VLED+
D9107 SR515
C9113 1NF 500V
VLED+
+16V_AL
D9109 SR515
R9115 470OHM +-5% 1/8W
C8603 470NF 50V
LED1 LED4
R9101 0.36R
+
NC/CONN
D8604 1N4148W
+12V1
1
4
R9120 22K 1/8W 1%
IC9102 C9119 2N2 50V
R9128 1K5 -1% 1/8W
2
3
EL817M(X)
IC9103 AS431AN-E1
R9123 10K OHM +-5% 1/8W
Q9102 2N3904
R8615 1K OHM +-5% 1/8W
R8616 330K 1/8W 5%
C8612 100N 50V
CN8605
3 2 1
NC/CONN
1
4
ZD9101 BZT52-B15
2
2
t
1 2 3 4
C8610 100N 50V
Q8603 2N7002K
R9138 470 OHM 1/4W ON/OFF
2
NR9901 5R
CN8604 CONN
6 5 4 3 2 1
R9136 470R 5%
C9112 220N 50V
1
1
1
C8611 100N 50V
ZD9102 GDZJ22B
R9124 390K 1/8W 1%
HS9101
NR9902 5R
Vcc2 Q8602 DTA144WN3/S
7
JR901 0R05 1/4W
+12V
+16V_AL
+16V1
R9127 NC/100K 1/8W 1%
8
+12V1
4W
680V RV9901
!
CN8603
2 1
R9125 680R 1/8W 1%
t
NC/CONN
4W
NC 750K + 5%
FB9907 BEAD
CN8602
3 2 1
LED3 FB C9115 330UF 35V
R9906 4W
6 5 4 3 2 1
5
NC 750K + 5%
4W
NC/CONN
Vcc2
4W + -5%
R9907 1.5M 1/2W
2
R8608 5.6K 1/4W C8609
R9122 12K 5% 1/4W + C9111 220uF 25V
2
NC 750K +-5%
C9117 + 470UF 25V
1
4W
4W + 5%
IC8601 PF7708AS
ZD8102 BZT52-B22 R8605 33K +-1% 1/4W
R8614 1R 1%
NC 750K + 5%
NC 750K +-5%
+12V 3UH
R8603 10K OHM -5% 1/8W
+
+ C9103 4.7UF 50V
C9105 220P 50V
L9101
C8607 10NF 50V
R9901
R9902
R9904
C9104 100N 50V
C8606 10N 50V
R8611 1.2R 1%
4W
ZD9103 BZT52-B20
C9107 1NF 500V
ZD8101 BZT52-B16G R8607 33K +-1% 1/4W
R8602 10ohm +/-1% 1/8W
1N4148W
R8606 1.2R 1%
NC 750K +-5%
R9905
D9104 1N4148W
R9113
C9902 NC/470NF 305V C9901 0.47uF 305V
R9903
6 5 4
7 33ohm
D8602
100KOHM -5% 1/8W
+12V_AL
C9118 470UF 25V R9
+12V_Audio
R8609 1.2R 1%
R9103 100K 1/8W 1%
!
OUT VCC CS
PF6003AG
R9135 3M3 1%
!
GND FB BNO
C9100 NC/100PF
R9121 10K OHM +-5% 1/8W
0 OHM +-5% 1/8W
1
!
1 2 3
R9102 3M3 1%
Q9101 TK5A65D
2
C9904 100PF 250V
D9110 SR510-22 1 2
D9106 1N4007
IC9101 C9903 100PF 250V
R9111 10ohm +/-1% 1/8W
R8613
5
D9103 1N4148W
R8601 47OHM 1/8W
ON/OFF
+12V1
D9102 SR510-22 1 2
23mH
D9108 NC/SR204 1 2
C9114 1NF 500V
D9101 SR510-22 2 1
R9105 4R7 1/4W 5%
C8614 100N 50V
4
4
DIM
R9119 30 OHM 1/4W
1
FR107
3 L9902 2
FB
R9130 30 OHM 1/4W
11
D8605
+
C8615 1N4148W 220uF 50V
Q8601 AO4486
R9116 30 OHM 1/4W
4 2
C8602 + NC/100UF 50V
2
8 7
R9110 82K OHM 1%
OUT
1
R9109 82K OHM 1%
C8613 NC/100N 50V
2
C9102 2.2NF
C8604 100N 50V
1
5
+
8
+ C9802 47UF 450V
C8601 220UF 35V
10
7
+
R9108 82K OHM 1%
G S S S
C9801 47UF 450V
VLED+
2
T9101
8 7 6 5
R9107 82K OHM 1%
FB9903 BEAD
1
5 6 7 8
! 6
2
1
C8605 NC/100PF 500V
D8601 SR506
+16V_AL
LED FB VCC GM CS/OVP DIM OUT GND
2
R8612 NC/22K 1%
L8601 NC/47UH
127R
C9906 NC/100PF 250V A
C9907 NC/100PF 250V
L8602 47UH
FB9905 BEAD
FB9906
1
Cold
D D D D
3
B+
4 3 2 1
BD9901 GBL408-C
1 2 3 4
-
4
HEAT SINK
1
R9126 5K1 1/8W 1%
FB9908 BEAD A
2
1 C9905 1NF 250V
!
C9121 100N 50V
FB9901 BEAD
2
R9137 1K OHM +-5% 1/8W
DIM CN9101 ON/OFF PS_ON
R9131 0 OHM +-5% 1/8W
R9132 Scan_BL_EN C9120 NC/0 OHM +-5% 1/8W 100P 50V
!
+12V_Audio
!
F9901 FUSE 2.5A
1 3 5 7 9 11 13 15
+12V GND3
+12V_AL CONN
CN9901 JR902 0R05 1/4W
1 2
2 4 6 8 10 12 14 16
1 SOCKET
Hot
Cold
GND
3
POWER
201 -06 21
715G9863 19760_500 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 47
S13 J9 2
D9108
C8601
J9 0
CN8603 CN8604
C8608
J909
CN9101
C9111
J908
J907
J906
J9
D8601
CN8605 C8615 C8602
MH4 MH5
L8602 L8601
J9 3
CN8601
FB9903
MH2 MH3
CN8602
power layout top
GND3
J9
J905
D9107
C9106
HS9101
J903
Q9102 C9103
Q9101
D9110
D9105
SU3
D9101
C9102
C9905 NR9902 C9906
S7
J90
ZD9102
D9102
S10
R9101
C9100
S6
T9101
L9101 C9117 C9118
IC9102
D9106
D9109
C9115
S12
R9136
J90
SU1
S3
FB9901 S15
C9902
L9901 L9902 J902
C9801
F9901
FB9908
C9901
C9802
BD9901
SU2
R9907
FB9905
NR9901
S11
CN9901
S
FB9906
S5
MH1
S8
C9904
RV9901 C9907
10-2-2
TPM15.6L LA
FB9907
C9903 S9
201 -06 05
LAYOUT TOP
715G6863 19760_501 eps
2015-July-10 back to
div table
back to 2015-July-10 div table
R9102
R9114
R9111
R9106
R9121
R9134
R9113
D9103
R9112
R9105 JR901 IC910
ZD9103
R9103
C9119
C9109
C8614
R8614
R8606
R8611
R8609
C8607
R8613
D8605
C8606 C9120
IC8601
C9105
ZD9101
R8605
R8607
C8605
R8612
SM5
ZD8101
ZD8102
R8604
R8610
D8602
R8602
R8601
R8603
R8608 C8609
R9132 C8610
C8604
Q8601
10.
C9104
D9104
IC9103
R9126
R9125 R9128
R9127
C9112
R9123
R9124 R9131
TPM15.6L LA
R9115
C9121 R9120
C8613
S2
R9906
R9141
R9118
R9122
C8611
R8616
JR902
S1
R9903
R9901
R9130
R9905
R9140
R9117
R9137
R9142
C9113
R9139
R9138
R8615 SM6
R9904
R9902
C9114
R9107
R9116
C9107
C9108 C8603 C8612
D8604
Q8603
10-2-3
Q8602
Circuit Diagrams and PWB Layouts EN 48
Power layout bottom
R9129
R9108
R9119 R9110
R9109
R9104
R9135
SM7
LAYOUT BOTTOM 201 -06 05
715G6863 19760_502 eps
Circuit Diagrams and PWB Layouts
TPM15.6L LA
10.
EN 49
10.3 A 715G6934 PSU POWER
Power
A01
3
A01
R9161 33ohm 1/4W +/-5%
FB9902 127R
! 4
1
HOT COLD 2
2
-
BD9901 KBJ608G-FUC
+
+ C9802 NC/68UF 450V
R9105 75K
C9104 2.2NF
D9151 FMEN-220A 2
C9105 2.2NF
+12V'
L9101 3UH
+
+
C9154 470UF 25V
C9153 470UF 25V
1 SG9901 NC/DSPL-501N-A21F AC-1
D9101 FR107G-A0
C9914 220PF 250V
!
R9111 2M2 5% 1/2W
! 6
R9102 47K 1/4W
T9101 C9123 1NF 500V
10 +
1
8 7 6 5
+ C9122 220uF 50V
2
2
D9103 FR107G-A0
Q9121 BTN5551A3
!
C9308 NC/2N2 50V C9305 NC/100N 50V
C9304 NC/100N 50V
C9303 NC/220N 50V
NC/220R 1%
R9306 NC/2K 1/8W 1%
4 3 2 1
C9901 470nF 275V
t
NR9902 2.5R 1
+22V
L N
CN9101 CONN 2 4 6 8 10 12 14 16
ON/OFF
FB9903 BEAD 2
1 2
+12V'
+12V1
1
CN9902 NC
GND1 GND
1
R9171 2K OHM
R9174 3K9 1/8W 1%
CN9901 SOCKET
R9186 100KOHM +-5% 1/8W
U9103 AS431AN-E1
GND2 GND
GND3 GND
GND4 NC
GND5 NC
1
Q9183 2N7002K
2 1
2 4
C9171 22NF 50V
!
PS_ON C9157 100N 50V +12V_AUDIO
1
D9152 SR34
+12V
1
C9172 220N 50V
ZD9171 BZT52-B15
2
1 3
1
!
F9902 5A 250V
!
NR9901 2.5R
2
C9106 NC/4N7 50V
F9901 NC/5A 250V
t
+5V R9176 10K 1%
-5% 1/8W
RV9901 680V
1
DIM 1 3 5 7 9 11 13 15
R9185
!
!
10K OHM
Q9102 NC/LMBT3906LT1G
4 U9102 EL817M(X) 3
C9301 NC/220N 50V
PS_ON
R9184 6.8KOHM +-1%
C9912 100PF 250V
R9129 330K 1%
1
!
C9911 100PF 250V
R9175 0 OHM +-5% 1/8W
1
D9105 NC/1N4148W
R9172 1K5 +-1% 1/8W
2 FB9905 BEAD
R9173 680R 1/8W 1%
1
2
R9305
C9920 470PF 250V
2
FB_1
!
R9303 NC/30 OHM 1/4W
HS-GND 2 1
1
!
1
C9125 100N 50V
4
!
FB9904 BEAD
HS9101 HEAT SINK
R9128 1K 1/8W
C9302 NC/470UF 25V
R9906 510K 1/4W
SG9902 NC/DSPL-501N-A21F
R9301 NC/20K 1/4W
+
C9921 470PF 250V
L9901 3 18MH 2
C9309 NC/2N2 50V
8 7 6 5
PGND EN VIN LX AGND COMP VCC FB
C9307 NC/220N 50V
R9101 0.22OHM +-5%
1 2 3 4
R9302 NC/30 OHM 1/4W
HS-GND C9108 220P 50V
+5V +
U9301 NC/AOZ3015AI
FB9301 NC/BEAD
R9304
R9126 1K OHM
NC/10.5K OHM 1%
R9125 1K OHM
L9301 NC/47uH
ZD9301 NC/BZT52-B5V1 1
2
ZD9121 BZT52-B27
R9127 470 OHM 1/4W
R9109 470 OHM 1/4W
C9107 22UF 50V
C9306 NC/470UF 25V
C9109 2N2 50V
2
+ C9112 4.7UF 50V
1
C9111 100N 50
HS9901 NC/HEAT SINK
R9183 NC/100KOHM
+12V1 D9104 SS1060FL ZD9101 NC/BZT52-B30
C9110 1NF 50V
R9110 100K 1/8W 1%
R9904 510K 1/4W
!
2
R9124 150 OHM 1/4W
D9121 FMXA-2202S 2
R9103 10 OHM 1/4W
VCC NC VCC OUT
R9108 10 OHM 1/4W
BNO FB CS GND
C9103 NC
+
R9902 510K 1/4W
! !
R9107 10K 1/4W
U9101 PF6003AHS
R9901 510K 1/4W
R9905 510K 1/4W
Q9101 TK8A65D
R9114 3.3M 1/4W
1 2 3 4
R9903 510K 1/4W
1
+22V
C9121 220uF 50V
FB_1
R9907 NC/390K
! !
11 8
R9106 47OHM 1/8W
U9901 NC/CAP004DG-TL 8 NC NC 7 D1 D2 6 D1 D2 5 NC NC
! ! !
4 2 R9104 22OHM 1/8W
R9113 3.3M 1/4W
C9907 NC/47pF
1 2 3 4
R9123 150 OHM 1/4W
D9102 SS1060FL
R9908 NC/390K
!
PS_ON
7
R9112 3.3M 1/4W
C9902 470nF 275V
!
R9187 NC/10K OHM +-5%
Q9182 NC/2N7002K
R9122 150 OHM 1/4W
C9182 NC/100N 50V
5
C9124 1NF 500V
C9156 100N 50V
C9155 220N 50V
C9158 1uF
R9182 NC/100KOHM
R9121 150 OHM 1/4W
POWER X'FMR
1
C9913 220PF 250V
1
!
2
3
3
Q9181 NC/AOD4185
+ R9181 NC/100KOHM
C9152 470UF 25V
+
C9159 NC/100N 50V
C9151 470UF 25V
+12V
+
C9160 NC/4.7UF 50V
L9902 18MH
+12V1
R9164 33ohm 1/4W +/-5%
1
AC-1
4
R9162 33ohm 1/4W +/-5% R9163 33ohm 1/4W +/-5%
3
2
+
FB9901 BEAD
C9801 82UF 450V
!
C9162 1N5 50V
C9161 1N5 50V
2
10-3-1
HS9152 NC/HEAT SINK
HS9151 HEAT SINK 1 2 3 4
3 4
1 2
HS9121 NC/HEAT SINK 1 2 3 4
HS9122 HEAT SINK 1 2 3 4
201 -03 05
POWER
715G6934 19760_503 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 50
LED DRIVER
LED DRIVER
A02
A02 L8602 NC
+22V
D8605 NC/1N4148
FB8602 NC/BEAD D8602 NC/SR506 1 2
L8601 33uH
D8601 SR506
8
1
6 4
VLED+
FB8601 BEAD 1
2
+ OUT
C8601 220uF 50V
C8605 100N 50V
+
+
C8603
C8604 220uF 50V
2
220uF 50V
1
VCC
2 1
10-3-2
TPM15.6L LA
R8609 10R 1/8W 5%
OUT
R8612 33K 1/8W 1%
R8605 10ohm +/-1% 1/8W
ZD8601 NC/BZT52-B22
D8603 SS1060FL R8606 33K 1/8W 1%
Q8601 CYS9240
C8606 1uF
C8607 1uF
D8604 SS1060FL
R8607 5.1R 1/8W
R8608 10K 1/8W
Q8602 LMBT3906LT1G
VCC
+12V
R8602 NC/0R05 1/4W
VLED-
R8604 NC
R8619 10 OHM
C8613 100pF 50V
ZD8602 NC/BZT52-B22
R8603 100K
C8615 100N 50V
ON/OFF
R8620 2K2 1/8W
C8616 2.2UF 25V
U8601 PF7708AS 1 2 3 4
LED FB VCC GM CS/OVP DIM OUT GND
8 7 6 5
R8610 4K3 1/8W 1% DIM
R8621 1K 1/8W 1% R8601 0.05R
R8611 33K 1/8W 1%
+ C8609 220P 50V
C8610 1NF 50V
C8614 NC/22UF 50V
C8608 220N 50V
ON/OFF
C8611 22pF 50V C8612 47N 50V
R8622 10K 1/8W 1%
R8623 300K 1/8W 5%
Q8603 LMBT3904LT1G
C8617 100N 50V
CN8601 CONN VLED+ VLEDVLEDR8613 R8614 R8615 R8616 R8617 1R2 1% 1R2 1% 1R2 1% 1R2 1% 1R2 1%
R8618 1R2 1% VLEDVLEDVLED+
12 11 10 9 8 7 6 5 4 3 2 1
201 -06 05
LED DRIVER
715G6934 19760_504 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 51
Power layout top
GND3 MH1
CN8601
J908
D8602
J909
C9103
D8601
D8605
D9103
C9104
FB9901
R9101
MH2 MH3
DR1
D9101
J926
FB9904
R9126 R9125 T9101
Q9121
U9102
C8601 J917 J915
H6
C9901
J903 J919
J920
C9160
CN9101
J910
J902 J925
C9153
CN9901
HS9121 HS9122
J924
L9101
C9302
C9306
L9301
MH4
TP5
C9912
D9121
C9152
HS9151
C9151
F9901 F9902
HS9152
J921
TP4
D9151 RV9901
C9121
H2
C9154
C9911
NR9901
C9122
FB9903
FB9301
FB9905
J913
J912
J901
J914
SG9902
NR9902
J916
TP6
L9901
C9920
H1 CN9902
J923
L8601 L8602
J911
C9907 R9908
C9902
R9105
TP2
BD9901
HS9901
L9902
TP3
C9107
C9105
C9914
C9913
J904
FB9902
SG9901
R9907
MH8
GND4
TP8
R9111
C9801
R8601
J905
C9112
J918
H5
C8603
J906
TP9
Q9101
H3 FB8602
C8614
HS9101
FB8601
TP7
C8604
C9921
C9802
GND5
MH6 GND1 MH7
J922
10-3-3
TPM15.6L LA
H4
MH5 GND2 201 -06 06
LAYOUT TOP
715G6934 19760_505 eps
2015-July-10 back to
div table
SM2 C9305
C9309 C9162
R9124
R9123
R9121
R9122
back to 2015-July-10 div table
R9903
R9905
SG3
R9904
R9906
R9901
R9902
JR904
SG4
U9901
D9104
R9106
R9112
JR903
C9111
C9109
R9114
R9102
C9110
R9110
JR901
U9101
C9108
D9105
Q9102
R9109
D9102
R9107
10.
R9161
R9175
ZD9101
C8612
R8618
R8613
R8617
R8616
C8606
C8607
SM3
R9162
R9174
TPM15.6L LA
R9164
JR902
U8601
C8610
C8609
R8611
C9106
R9163
C9171
ZD8601
R8609
D8603
R8605
C8611
C9123
C9172
ZD8602
R8612
R9173
R8607
R9172
R8606
C8613
R9171
ZD9171
U9103
Q8601 R8608
R9176
R9184
R9129
ZD9121
R8615
R8614
C8608
C9124
C9159
Q9183
R8619
R8610
C9308
R9305
R9304
C9155 R9181
R8623
R9306
C9158 R9186
R9185
R9182
R8602
U9301
C9156
Q9181
C8617
Q9182
R9187
R8604
C9182
R9183
D8604
C8616
R8622
R8603
ZD9301
D9152
Q8602
Q8603
C8605
R9303
R9302
C9307
C9157
R8621
C9301
R8620
10-3-4
C8615
Circuit Diagrams and PWB Layouts EN 52
Power layout bottom
R9113 SM5
R9104
R9103
R9108
R9127
C9125
R9128
C9161
SM4
R9301
C9303 C9304
LAYOUT BOTTOM 201 -06 06
715G6934 19760_506 eps
Circuit Diagrams and PWB Layouts
TPM15.6L LA
10.
EN 53
10.4 A 715G6338 PSU POWER
AC input
A01
A01 A
NR9902 2.5R 1
2
3 1
BD9901 TS10K80-02 1
4 4
3
4
2
1
2
!
! C9906 470pF 250V
Vsin
2
t
SG9902 NC
2.5R
A B
HOT COLD !
R9901 NC
!
HS9901 HEAT SINK
NC D1 D1 NC
1 2 3 4
C9907 470pF 250V
C9908 NC
NC D2 D2 NC
IC9901 NC
1 2 3 4
8 7 6 5
2
!
NR9901 1
L9902 12mH
2
C9904 100PF 250V
!
!
!
C9905 470pF 250V
L9901 12mH
C9902 100NF 305V
!
! C9901 100NF 305V
CN9901 SOCKET
!
! RV9901 680V
C9903 100PF 250V
R9902 3.9MOHM +-5% 1/2W
!
!
3
FUSE T5AH/250V
2 4
t
1 3
1
SG9901 NC
F9901
-
!
+
10-4-1
R9903 NC
! HS9902 1 2 B HEAT SINK
2013-10 18
AC input
715G6338 19610_500 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 54
LED DRIVER
A02
LED Driver
A02 CN8101 CONN
L8101 VLED+ 3
33uH
2
+36V/+24V
D8101 MBRF10100CT 2 2 FB8101
1
127R
+
C8106 100N 50V C8133 1N 50V IC8101
R8149 20K
24 23 22 21 20 19 18 17 16 15 14 13
LD7890GS
VLED_1
R8106 R8148 0R051/8W
DIM
R8155 200K 1/8W G2
C8143 100P 50V
Q8143 MTBA5N10J3
G1
Q8149 MTBA5N10J3
R8164 200K OHM S1
SENSE2
R8161 4.7R 1%
R8160 4.7R 1%
R8147 0R68 1W 5%
R8146 0R68 1W 5%
R8144 0R68 1W 5%
R8156 0R68 1W 5%
R8145 0R68 1W 5%
R8157 0R68 1W 5%
R8124 100K 1/4W
R8115 VLED_1 1M 1/8W 5%
VLED+
10K 1/8W 1%
R8121 100KOHM -1% 1/8W
S1
R8104 0R1 5% 2W
1K 1/8W 1%
R8123 240K 1% 1/8W
G2
VIN DRV OVP GND EN CS RT DIM COMP LOSC PARL STATUS SENSE1 FB4 Gate1 Gate4 FB1 SENSE4 SENSE2 FB3 Gate2 Gate3 FB2 SENSE3
R8120 240K 1% 1/8W
G1 SENSE2
1 2 3 4 5 6 7 8 9 10 11 12
R8110 R8109 240K 1% 1/8W 100KOHM +-1% 1/8W
C8109 1UF 50V
C8110 100N 50V
510 OHM +-1% 1/8W
Q8147 P5002CMG
2D/3D
C8144 100N 50V
Q8145 P5002CMG R8143 10K 1/8W 1%
R8142 100KOHM +-5% 1/8W
R8108 330K 1% 1/8W
R8140
100K 1/8W 1%
C8131 1N 50V
OVP_L
R8105
C8107
R8139 10ohm 1%
OVP_L C8114 10N 50V
100K 1/8W 1%
150K 1/4W +/-1%
R8116 0R1 5% 2W
1N 50V
20K OHM
R8138
VLED_2
+
R8113 10KOHM +-1% 1/8W
+12V
20K OHM R8137
R8112
R8102 33 OHM
+
C8105 220nF50V
R8135 10ohm +/-1% 1/8W
Q8103 2N7002K
P3710BTF R8103 0K 1% 1/8W
BZT52-B9V1_R1_00001 2 1
D8102 SS1060FL R8101
ZD8101 R8136
150K 1/4W +/-1%
Q8101
2.2 OHM 1/8W
R8134 10K 1/4W
+36V/+24V
R8111
C8108 100N 50V
C8101 330UF 50V
C8103 82uF 100V
R8133 10K OHM +-5% 1/8W
1 2 3 4 5 6 7 8 9 10 11 12
VLED_1
VLED+
C8102 82uF 100V
C8132 100N 50V
1 C8104 220nF50V
Q8102 PMBT3906
ON/OFF
R8107
10-4-2
TPM15.6L LA
FB8103 BEAD 1
2 FB8102 BEAD
1
2
GND801
GND802
1
GND803
1
1
HS8101 1 2 3 4
GND
GND
GND
GND804
GND805
GND806
1
HEAT SINK
GND
1
GND
1
GND
GND807 1
GND
2013-10 18
LED Driver
715G6338 19610_501 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
EN 55
LLC 36V
LLC 36V
R9103 1MOHM +-5% 1/2W
C9102 100N 50V
R9105 0.1R
T9101 R9106 4R7 +-5% 1/8W
C9101 10NF
IC9101 LCS700LG-TL D VCCH HB
VCC
10 10 C9103 470NF 50V
1 2
16
8 9
L9102 1.1uH
+36V/+24V
2 14 13
5 6 11 7
11 10 9 8 7 6 5 4 3
D9104 FMEN-2308
R9132 + C9121 330UF 50V
+ C9122 NC
9 210uH
R9108 1K 1/8W 1%
1
R9121
R9122
+
C9123 NC
S2 S1 NC IS DT/BF FB OV/UV G VREF
12
!
D9105 UF1010G
R9133 C9125 100N 50V
12K 5% 1/4W
2
1 2 3 4
R9104 22K 1/8W 1%
12K 5% 1/4W
1
HS9109 HEAT SINK
12K 5% 1/4W
FB9101 BEAD
COLD
HOT
12K 5% 1/4W
R9102 1MOHM +-5% 1/2W
1
R9101 1MOHM +-1% 1/4W
A03
3
A03
C9106 47pF
1 2 3 4 5 6 7 8 9 10 11 12 13 14
+36V/+24V R9107 2.2R
C9107 470pF 50V
VCC_ON
C9105 22nF
R9109 120R 1%
+36V/+24V +12V +
ON/OFF 2D/3D DIM
2
C9120 10UF 50V
1 R9125 1K 1/8W 1%
R9112 12K 1/8W
C9110 2.2UF 25V R9113 91KOHM +-1% 1/8W
C9111 33N 50V
C9128 1uF
D9108 SS1060FL OVP
R9126 4K7 1/8W 1%
R9115 3K 1/8W +/-1%
22KOHM +-1% 1/8W
R9136 1K 1/8W 1%
D9110 SS1060FL
Q9103 PMBS3906R9137 0 OHM +-5% 1/8W C9126 2.2nF 50V
IC9102 PS2561DL1-1
C9113 1uF D9107 SS1060FL
R9138 1K 1/8W 1%
R9129 2.4KOHM +-1% 1/8W
! 1
D9106 SS1060FL
R9114 HEAT SINK
+36V/+24V
R9124 2.4KOHM +-1% 1/8W
2
1 2
2.4KOHM +-1% 1/8W
C9108 1uF
HS9101
R9111 150KOHM +-1% 1/8W
C9109 4N7 50V
R9110 8.2K 1/4W
C9104 1uF
CN9101 CONN
ZD9103 BZT52-B43
R9128
4
B+
10.
3
10-4-3
TPM15.6L LA
C9117 2.2nF 50V
R9123 100KOHM +-1% 1/8W
C9116 47nF 50V R9120 2K4 +/-1% 1/8W
R9139 100 OHM 1%
Q9104 PMBS3904
R9127 43R 1%
R9140 1K 1/8W 1%
C9133 100N 50V
IC9103 AS431AN-E1
R9119 11K 1%
C9127 1uF
A
LLC 36V
2013-10 18
715G6338 19610_502 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 56
Main Power 12V
Main Power 12V
A04
R9306 0.1R
B+
HOT
C9301 10NF
R9309 100K 1/4W
ZD9303
R9301 6.8K 1/4W
COLD
! 5
1
R9307 100K 1/4W
R9326 51 OHM 1/4W
T9301 6
C9302 1NF
NC/P6KE160AA0
4
2
R9308 100K 1/4W
10 7
R9310 100K 1/4W
3 2
R9302 6.8K 1/4W
R9327 51 OHM 1/4W
R9322 51 OHM 1/4W
R9323 51 OHM 1/4W
R9318 51 OHM 1/4W
R9319 51 OHM 1/4W
R9320 51 OHM 1/4W
R9321 51 OHM 1/4W
9 1 R9303 6.8K 1/4W
1 2
1
D9302 FR107
Q9301 TK13A65U
1
+
+
+
2
IC9301
C9321 NC/ 470UF 25V
+
C9318 470UF 25V
D9306 FME-220B
+
C9317 470UF 25V
2.2 OHM 1/4W
R9311 10 OHM
+
R9324 NC
R9325 NC
+ C9314 330UF25V
C9315 100N 50V
C9319 100N 50V
3
8 6 5
R9314 0.27R
LD7752B VCC
R9315 470 OHM 1/4W C9305 470P 50V
D9304 FR107
D9303 FR107 CN9301 CONN
+
+
C9307 10UF 50V
C9308 100N 50V
DIM
C9320 47UF 50V
PS_ON
HOT COLD
+12V OVP
1 3 5 7 9 11 13
2 4 6 8 10 12 14
ON/OFF 2D/3D
+12"V DV5 +12V_audio +12V
R9337 2Kohm 1/4W +/-5%
Q9341 R9341 2N7002K 10K OHM +-5% 1/8W
HOT COLD
1 2 3 4
FB9301 BEAD
C9316 1NF 250V 1
+
1 2
ZD9330 BZT52-B15 2
C9332 10UF 50V
HS9301 HEAT SINK
R9334 10K OHM
Q9331 2N7002K
R9331 10K OHM +-5% 1/8W PS_ON
1
R9342 100K 1/8W 1%
R9338 100K 1/8W 1%
VCC_ON R9344 3.9K 1% 1/8W
R9333 10K 1/8W 1%
R9335 10K OHM +-5% 1/8W
DV5
AS431AN-E1
!
4
C9341 220N 50V
3
2
R9348 1K 1/8W 1%
Q9333 BTC4672M3
IC9331 PS2561DL1-
D9331 SS1060FL
R9345 6.2K OHM +-1% 1/8W
IC9342
ZD9340 BZT52-B16
+12V R9336 2Kohm 1/4W +/-5%
! R9343 9.53KOHM +-1% 1/8W
R9347 2.2KOHM +-1% 1/8W
1
!
Q9332 PMBT3906
VCC
R9346 2Kohm 1/4W +/ 5%
2
R9305 NC/100KOHM +-5% 1/8W
C9303 47nF 50V
L9301 3UH
C9313 470UF 25V
R93 16
C9312 470UF 25V
C9306 NC
R9313 10KOHM
C9311 470UF 25V
R9312 51 OHM 1/4W
C9304 1N 50V
C9310 2N2 500V
+12V_audio
SS1060FL
1
CT HV COMP CS VCC GND OUT
+12V
2
ZD9301 BZT52-B30
1 2 3 4
D9305 FME-220B
3
2
D9301
+12"V
C9309 2N2 500V
POWER X'FMR/380GL32P133H00 ZD9302 BZT52-B30
1
A04
IC9341 PS2561DL1-1 3 4
10-4-4
TPM15.6L LA
C9331 100N 50V
R9332 330K 1% 1/8W
HOT COLD
HS9302 HEAT SINK
!
C9328 470pF 250V
1 2 3 4
2
A
Main Power 12V
2013-10 18
715G6338 19610_503 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 57
PFC
PFC
A05 L9803 NC 1
D9801 IN5408G-04
D9805 IN5408G-04
2
L9802 BEAD
!
FB9803
L9801 240UH
B+
D9806 NC/FMNS-1106S
BEAD 1
3 R9807 10 OHM 1/8W
D9803 SS1060FL
R9808 75 OHM 1/8W
Q9801 TK16A60W
C9808 100PF
+
C9815 2.2NF
R9801 1MOHM +-1% 1/4W
R9809 10K 1/8W
R9805 20K 1/4W
+
C9812 68uF 450V
+
C9811 68uF 450V
C9801 1UF 450V
2
C9810 68uF 450V
C9813 1UF 450V
1
2
2
FB9802 BEAD
D9802 MUR460-28 4
1
Vsin
5
R9802 1MOHM +-1% 1/4W VCC_ON
C9802 47P 50V
R9806 3.3KOHM +-1% 1/8W
R9811 0.1R R9803
R9 81 5
1MOHM +-1% 1/4W
C9803 100N 50V
INV VCC COMP OUT RAMP GND ZCD CS
8 7 6 5
2.2R
IC9801 LD7591T C9809 100P 50V
R9814 NC
R9804 19K1 +-1% 1/8W
R9810 470 OHM 1/4W
1 2 3 4
A05
1
10-4-5
TPM15.6L LA
C9807 1N 50V R9812 27K 1/8W 1%
HOT COLD !
R9813 10K 1/8W C9805 100N 50V
C9806 470NF 50V HS9801 HEAT SINK 1 2 3 4
C9814 470pF 250V
A
PFC
2013-10 18
715G6338 19610_504 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 58
Power layout top
GND3 MH1
CN8601
J908
D8602
J909
C9103
D8601
D8605
D9103
C9104
FB9901
R9101
MH2 MH3
DR1
D9101
J926
FB9904
R9126 R9125 T9101
Q9121
U9102
C8601 J917 J915
H6
C9901
J903 J919
J920
C9160
CN9101
J910
J902 J925
C9153
CN9901
HS9121 HS9122
J924
L9101
C9302
C9306
L9301
MH4
TP5
C9912
D9121
C9152
HS9151
C9151
F9901 F9902
HS9152
J921
TP4
D9151 RV9901
C9121
H2
C9154
C9911
NR9901
C9122
FB9903
FB9301
FB9905
J913
J912
J901
J914
SG9902
NR9902
J916
TP6
L9901
C9920
H1 CN9902
J923
L8601 L8602
J911
C9907 R9908
C9902
R9105
TP2
BD9901
HS9901
L9902
TP3
C9107
C9105
C9914
C9913
J904
FB9902
SG9901
R9907
MH8
GND4
TP8
R9111
C9801
R8601
J905
C9112
J918
H5
C8603
J906
TP9
Q9101
H3 FB8602
C8614
HS9101
FB8601
TP7
C8604
C9921
C9802
GND5
MH6 GND1 MH7
J922
10-4-6
TPM15.6L LA
H4
MH5 GND2 201 -06 06
LAYOUT TOP
715G6934 19760_505 eps
back to 2015-July-10 div table
SM2 C9305
C9309 C9162
R9124
R9123
R9121
R9122
2015-July-10 back to
div table
R9903
R9905
SG3
R9904
R9906
R9901
R9902
JR904
SG4
U9901
D9104
R9106
R9112
JR903
C9111
C9109
R9114
R9102
C9110
R9110
JR901
U9101
C9108
D9105
Q9102
R9109
D9102
R9107
10.
R9161
R9175
ZD9101
C8612
R8618
R8613
R8617
R8616
C8606
C8607
SM3
R9162
R9174
TPM15.6L LA
R9164
JR902
U8601
C8610
C8609
R8611
C9106
R9163
C9171
ZD8601
R8609
D8603
R8605
C8611
C9123
C9172
ZD8602
R8612
R9173
R8607
R9172
R8606
C8613
R9171
ZD9171
U9103
Q8601 R8608
R9176
R9184
R9129
ZD9121
R8615
R8614
C8608
C9124
C9159
Q9183
R8619
R8610
C9308
R9305
R9304
C9155 R9181
R8623
R9306
C9158 R9186
R9185
R9182
R8602
U9301
C9156
Q9181
C8617
Q9182
R9187
R8604
C9182
R9183
D8604
C8616
R8622
R8603
ZD9301
D9152
Q8602
Q8603
C8605
R9303
R9302
C9307
C9157
R8621
C9301
R8620
10-4-7
C8615
Circuit Diagrams and PWB Layouts EN 59
Power layout bottom
R9113 SM5
R9104
R9103
R9108
R9127
C9125
R9128
C9161
SM4
R9301
C9303 C9304
LAYOUT BOTTOM 201 -06 06
715G6934 19760_506 eps
Circuit Diagrams and PWB Layouts
TPM15.6L LA
10.
EN 60
10.5 B 715G6836 SSB System Power
System Power
B01
B01 3V3SB
+5V_SW
+5VSB
4,5,6,7,8,9,10,11,12,13,14,15,16,17,18
90mil
CN701
FB703 120R
2 4 6 8 10 AC_DET# INVERTER_ON_OFF 12
1 3 5 7 9 11
Pre_12V Pre-12V_AMP
1 Pre_12V Pre-12V_AMP 1 FB701
Main power On/Off control
R705
R709 22K 1%
LO = > POWER_ON HI = > POWER_OFF
PS_ON
Q702
C706 1UF 10V
1 2 3 4
1K 1/16W 1% OPWRSB
Q708 BC847C
PS_ON /STANDBY CONN
VCCK
R739 4.7K 1/16W
H = > POWER_ON L = > DC_OFF
R710 51K 1/16W 5% R713
S S S G
8 7 6 5
+ C707 100UF 16V
+5VSB
Q701 AO3401A 100pF 50V
8,13,15 AVDD1V2 17 VCCK
AVDD1V2 VCCK
Control Interface
+5V_SW
R746 0R05 1/16W
+5V_SW
R748 13K 1/10W
1
1
C743
FB
U705 2
1 2 3
120R
6
BS
DVDD3V3
FB706
R747 100K 1% U706
0.1uF 50V +5VSB
R749
2
36K 1%
EN
R750 20K OHM 1/16W 1%
C744
GND
R752
4
IN
R751
R728
VIN GND EN
LX VFB
L701
5
2.2uH
4
R1
G5695T11U
0R05 1/16W
82K 1% R729
C722 10UF 6.3V 20%
+ C719 C731 100NF 16V 100UF 16V
R730 R2 18Kohm 1/16W +/-1% +12V
4.7uH 3
C721 2.2UF
L703
5
LX
OPWRSB BL_DIMMING BL_ON/OFF AC_DET AC_Off
4 OPWRSB 14 BL_DIMMING 14 BL_ON/OFF 10 AC_DET 10 AC_Off
C708 NC/4.7UF 10% 10V
C742
12V_AMP +12V +5V_SW +5VSB 3V3SB DVDD3V3
NC SM4310PSKC
Q703 LMBT3904LT1G
2.2K 1%
D D D D
GND
12V_AMP +12V +5V_SW +5VSB 3V3SB DVDD3V3
6 10 9,10,11,12,15 7,9,16 4,8,10,13,14 4,5,6,8,9,10,11,13,15,16,17,18
R738 4.7K 1/16W
+12V 12V_AMP
2 2 120R
STANDBY BRIGHT_ADJ
0R051/8W
C746 22UF 10V
C747 22UF 10V
+ C748 100UF 16V R706
SY8104ADC C745 1UF 10% 16V
10N 50V
100K 1%
40.2K 1/16W 1%
INVERTER ON/OFF AC_Off
DVDD3V3 +12V AC_DET#
ZD701 R754
1
1K 1/16W 1% Q704 LMBT3906LT1G
3V3SB
AC_DET R704 100R 1/16W 5%
2
R779 1K 1/16W 5%
R778 4.7K 1/16W
INVERTER_ON_OFF
H = > AC_ON L = > AC_OFF_DET
CORE POWER 1.2V +5VSB
VCCK U703 M5723B-33F61U IN1
LX
L702
10
R717 10K +-1% 1/16W 1 6
EN1
FB1
PGND tGND
3V3SB
BL_DIMMING
C730 10UF 6.3V 20%
R787 4.7K 1/16W
BRIGHT_ADJ R785 100R 1/10W 5% R718 10K +-1% 1/16W
BL_DIMMING
R786 1K 1/16W 5%
Max 3.3V Min: 0V
Q705 MMBT3904
R788
BRIGHT_ADJ
R723 NC 100R 1/16W 5%
R725 NC 10K +-1% 1/16W
C726 NC/22uF 10V
BL_DIMMING
4.7K 1/16W
7 C710 4.7UF 10% 10V
9 11
AGND AGND
OUT2
Low active
DVDD3V3
IN2
EN2
BL_ON/OFF
BRIGHT ADJUST
FB702 120R C714 NC/100N 16V
C725 NC/10UF 10V
R724 NC 10K +-1% 1/16W
R780 4.7K 1/16W
Q707 MMBT3904
2
3
3V3SB R714 10K +-1% 1/16W 5
1
2.2uH
C712 2.2UF
C713 1UF 10% 16V
INVERTER ON/OFF H: ON L: OFF
AVDD1V2
R719 0R051/8W
8
INVERTER_ON_OFF
NC 0R05 1/16W
AC_DET
PS_ON
R722
BL_ON/OFF C705 100NF 16V
PDZ5.1B R753 10K +-1% 1/16W
2 4
10-5-1
3
System Power
201 -07 07
715G6836 19760_507 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 61
Peripheral
B02
Peripheral
B02 U401B
DVDD3V3
AVDD10_LDO
Y 10
AVDD10_LDO
PACLE PAALE POWE# Flash_WP#
C402 4.7UF 10% 10V
MT5561LVNT
R407 4.7K 1/16W
4.7K 1/16W
FSRC_WR
AVDD33_REG_STB
4.7K 1/16W
FSRC_WR A20
T17
DVDD3V3 R404
C403 100NF 16V
3V3SB
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
3,5,6,7,8,9,10,11,12,13,14,15,16,17,18 GND
U405 TC58NVG0S3ETAI0 48 NC NC 47 NC NC 46 NC NC 45 NC NC 44 NC I/O7 43 NC I/O6 42 R/B1 I/O5 41 RE I/O4 40 CE1 NC 39 NC NC 38 NC NC 37 VDD VDD 36 VSS VSS 35 NC NC 34 NC NC 33 CLE NC 32 ALE I/O3 31 WE I/O2 30 WP I/O1 29 NC I/O0 28 NC NC 27 NC NC 26 NC NC 25 NC NC
3V3SB DVDD3V3
3,8,10,13,14 3V3SB 3,5,6,8,9,10,11,13,15,16,17,18 DVDD3V3 PDD7 PDD6 PDD5 PDD4
GPIO Interface OPWRSB 3 SY S_EEPROM_WP OPWRSB SY S_EEPROM_WP 14 OIRI OIRI 10
DVDD3V3
C401 100NF 16V
I2C & UART Interface
PDD3 PDD2 PDD1 PDD0
OSCL0 OSDA0 OSCL1 OSDA1
OSCL0 OSDA0 OSCL1 OSDA1
U0TX U0RX
U0TX U0RX
6 6 11,18 11,18 16 16
AVDD33_REG_STB LED_POWER_RED LED_PWR_GREEN C404 100NF 16V
C405 100NF 16V
LED_POWER_RED 10,14 LED_PWR_GREEN 10,14
RESET Circuit 3V3SB LED_POWER_RED R473 0R05 1/16W LED_PWR_GREEN R474 0R05 1/16W
R477 16K 1%
UART Port 0
OPCTRL0 OPCTRL1
3V3SB
4.7K 1/16W R170
U0RX
R171
XTALI
1
1 2 3
100R 1/16W 5% 100R /16W 5%
1
U0TX
2
10mil CN402
4
4.7K 1/16W
R412
C406 15PF 50V
1
R411
ORESET# X401 3
XTALO
STRAPPING R479 22K 1%
24MHz
TXC
ZD109
R425 0R05 1/16W
R416
NC/10K 1/16W 5%
R415
10K +-1% 1/16W
3V3SB
R417
NC/10K 1/16W 5% OPCTRL0
R418
10K +-1% 1/16W
R419
NC/10K 1/16W 5% OPCTRL1
R420
10K +-1% 1/16W
DVDD3V3
BGA ICE ICE ICE ICE
5/28
SY S_EEPROM_WP OSCL0 OSDA0
PACLE
DVDD3V3
AZ5123-01H
SYSTEM EEPROM
10K +-1% 1/16W
10K +-1% 1/16W
C407 15PF 50V
LO = >WRITE HI = >WP R422
R414
ZD110
AZ5123-01H
R421 4.7K 1/16W
OPWRSB
C462 100NF 16V
CONN
2
TP401
U0RX U0TX
PARB# POOE# POCE1#
OPWRSB OIRI
R405
AVDD33_REG_STB
U2 U1
120R 2 ORESET#
4.7K 1/16W
U0RX U0TX
XTALI XTALO
4.7K 1/16W
ORESETB OPWRSB OIRI
V19 W20 FB409 W10 1 T2 T3
NAND Flash
R403
XTALI XTALO
R402
OSCL0 OSDA0 OSCL1 OSDA1
OSCL0 OSDA0 OSCL1 OSDA1
4.7K 1/16W
PDD0 PDD1 PDD2 PDD3 PDD4 PDD5 PDD6 PDD7 PARB# POOE# POCE1# POCE0# PACLE PAALE POWE#
R5 P5 F4 F5
R401
TP409
G2 G4 K3 G3 H3 J6 G1 J3 K4 J1 J2 J4 K1 K2 J5
PDD0 PDD1 PDD2 PDD3 PDD4 PDD5 PDD6 PDD7 PARB# POOE# POCE1# POCE0# PACLE PAALE POWE#
2
10-5-2
TPM15.6L LA
Heat Sink
R423 U406
10K +-1% 1/16W
8 7 R172 100R 1/16W 5%6 5 R173 100R 1/16W 5%
VCC E0 WC E1 SCL E2 SDA VSS
1 2 3 4
HS401 2 1
M24128-BRMN6TP
Strapping mode + 24M moce + 24M mode + 27M moce + 27M
+ + + +
serial ROM to serial ROM to
boot Nand boot boot Nand boot
OPCTRL1 X X X X
PACLE 0 1 0 1
OPWRSB 0 0 0 0
OPCTRL0 0 0 1 1
HEAT SINK
201 -07 07
Peripheral
715G6836 19760_508 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 62
Audio A-in/I2S/HP
B03
Audio A-in/I2S/HP
C687 22PF 50V SPDIF_OUT
FB405
120R
1
3,4,6,7,8,9,10,11,12,13,14,15,16,17,18 U401C
ARC_SPDIF
FB406 120R AOMCLK AOBCK AOLRCK AOSDATA0
1
2 R60122R 1/16W 5% R602 22R 1/16W 5% R603 22R 1/16W 5% R604 22R 1/16W 5%
R4 F16
MCLK BCK LRCK SDATA0
AIN_R0 AIN_L0 AIN_R1 AIN_L1 AIN_R2 AIN_L2 AIN_R3 AIN_L3
ASPDIFO ASPDIFI
R2 R1 P3 R3 T4
AOMCLK AOBCK AOLRCK AOSDATA0 AOSDATA1
TP404
C603 NC/33P 50V
AR0_ADAC AL0_ADAC AR1_ADAC AL1_ADAC
TP
C604 NC/33P 50V C605 NC/33P 50V
AVDD33_ADAC AVDD33_AADC AVDD33_CAP VMID_AADC
C606 NC/33P 50V
VMID_AADC T16
R20 U20 R17 V20 R19 T20 R18 T19 P16 R16 U19 T18 M16 M14 L15
3,4,6,8,9,10,11,13,15,16,17,18 YPBPR_R_IN YPBPR_L_IN CVBS_R_IN CVBS_L_IN VGA_IN_R VGA_IN_L
OSDA0 OSCL0 U0TX U0RX
C607
C684
100NF 16V
10UF 6.3V 20%
CVBS_R_IN CVBS_L_IN
0R05 1/16W
C688
YPBPR_R_IN YPBPR_L_IN VGA_IN_R VGA_IN_L
22UF
TP408 TP
AOMCLK AOBCK AOLRCK AOSDATA0 SPDIF_OUT ARC_SPDIF HP_DET#
PreAmp output for Headphone
HPL_IN HPR_IN 27K 1/16W 5%
C647
27K 1/16W 5%
R617 10K +-1% 1/16W
R618
10K +-1% 1/16W
2.2UF
OUTL C643 47pF 50V HPL_IN
2 C601
OUTR
R615
1
4,6
CVBS_R_IN CVBS_L_IN
8 8
YPBPR_R_IN YPBPR_L_IN VGA_IN_R VGA_IN_L
8 8 7 7
AOMCLK AOBCK AOLRCK AOSDATA0
6 6 6 6
SPDIF_OUT ARC_SPDIF HP_DET#
9 16 10
HPL_IN HPR_IN
6 6
OUTR OUTL
6 6
2
FB611 NC 30R
C648 330pF 50V
C644 AL0O
C646 47pF 50V HPR_IN
C602
2.2UF
10K +-1% 1/16W
OUTR OUTL
CN605 2
OUTL
NC 22NF25V
R623
OUTR
NC 22NF25V
R622 10K +-1% 1/16W
4,6 4,16 4,16
I2S Interface
C608 1UF 25V
R620
OSDA0 OSCL0 U0TX U0RX
Audio Input Interface
DVDD3V3 R678
AVDD33_ADAC AVDD33_AADC AVDD33_CAP
MT5561LVNT
DVDD3V3
DVDD3V3
I2C & UART Interface
AR0O AL0O
15mil
AR0O
GND
2
A
1 1
4
FB612 NC 30R
B
3
NC CONN
C645 330pF 50V
DVDD3V3
PreAmp output for Line out
HPOUT RT R637 4.7K 1/16W
HPOUT LT 5 CN602 4 3 2 6 7 1 PHONE JACK
C650 AR0O
OUTR +
B03
HP_DET# OUTL
FB608
2 120R
FB609
2 120R
FB610
2 120R
1
C660 6.8NF 50V
C651 AL0O
1
HPOUT_RT
R625 10 OHM 1/10W
NC 100UF 16V
+
10-5-3
TPM15.6L LA
1
HPOUT_LT
R626 10 OHM 1/10W
C662 NC 100UF 16V R628 NC 22K 1/16W
C661 6.8NF 50V R627 NC 22K 1/16W
HP Detect
C663
C664 NC/100N 16V
10N 50V 10N 50V
H = > HP Detect L = > Normal
3
Audio A-in/I2S/HP
201 -07 07
715G6836 19760_509 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 63
Speaker Amp
B04
B04
Speaker Amp
12V_AMP
PVDD
DVDD3V3
PVDD
FB602 1
1 FB603 120R
2 120R
+ C616 100nF 50V
C690 100uF 25V
3 3,4,5,8,9,10,11,13,15,16,17,18
2
C614 10UF 6 3V 20%
+ C609 100uF 25V
3,4,5,7,8,9,10,11,12,13,14,15,16,17,18
AMP3V3
C617 100nF 50V
C612 C610 C613 100NF 16V 10UF 6.3V 20% 100NF 16V
C615 C611 10UF 6 3V 20% 100NF 16V
GND 12V_AMP DVDD3V3
12V_AMP DVDD3V3
GPIO & I2C Control HP_AC_MUTE
HP_AC_MUTE 9
OSDA0 OSCL0
OSDA0 OSCL0
4 4
I2S Interface
AMP Mute
AOMCLK AOBCK AOLRCK AOSDATA0
DVDD3V3 U601
Q602 R633 NC 10K 1/16W 5%
NC MMBT3904
C691 100NF 16V
33nF50V
C624
3 4
PVDD
5 6 7
HPL_ N
R635
AMP_MUTE NC 22R 1/16W 5%
AMP_PDN OUTL
8
OUTR
9 10
HPR_ N
11 C634
1UF 25V
C636 1UF 25V
12 13 14
AMP3V3
15 16 C637 47nF 16V
C638 4.7nF 50V
R610
17
470R 1/16W 5%
18
C639 4.7nF 50V
R612 470R 1/16W 5%
AMP3V3
C641 47nF 16V
AMP3V3 R613
19 ADR
10K +-1% 1/16W
AOMCLK
20 21 22 23 24
R614 18.2K OHM +-1% 1/16W
GND OUTA
BSTB
BSTA
BSTC
PVDD
OUTC
PWM1
GND
PWM2
OUTD
HPIL
BSTD
HPOL
PVDD
HPOR
GVDD_REG
HPIR
HP_SD
HPVSS
SSTIMER
CN
AVDD_REG2
CP
GND
HPVDD
GND
GND
DVDD
FLTM
TEST
FTLP
RESET
AVDD_REG1
NC
AVDD
SCL
ADR
SDA
MCLK
SDIN1
ROSC
SCLK
GND DVDD_REG
C642 4.7UF 10% 10V
OUTB
TAS5729MD
LRCLK PDN
48
OUTB
47
C623
33nF50V
46
C625
33nF50V
45
HPL_IN HPR_IN OUTR OUTL AMP_MUTE
5 5 5 5 14
FB604 120R 3A 1
OUTA 43
OUTD C618
42
C628
R605 18R 1/10W 5% 330pF 50V
33nF50V
41
PVDD
40
C630
39
C633
37
C635
L601 10uH C620 1UF 16V
C622
R606 18R 1/10W 5% 330pF 50V
2.2nF 50V
L602 10uH
2
C619 470NF 16V FB605 120R 3A 1
OUTB
1UF 25V
HP_AC_MUTE
38
2
C621 470NF 16V L+ LR+ R-
100NF 16V
36
AMP3V3
CN601
4 3 2 1
L+ LR+ R-
FB606 120R 3A
35
1
OUTC 34
AMP3V3
33 32
R609 10K +-1% 1/16W
C627
OSCL0 33R 1/16W 5%
29
R632
28
AOSDATA0
27
AOBCK
26
AOLRCK
33R 1/16W 5%
2
CONN
5/28 C626 470NF 16V
C629 1UF 16V FB607 120R 3A
2.2UF
OSDA0 AMP3V3
1
OUTD
C640 R631
L603 10uH
R607 18R 1/10W 5% 330pF 50V
AMP_RESETN R611 1K 1/16W 1%
31
25
5 5 5 5
OUTC
44
30
HPL_ N HPR_ N OUTR OUTL AMP_MUTE
6
AMP_MUTE
2
OUTA
AOMCLK AOBCK AOLRCK AOSDATA0
5
1
AMP_PDN TP065
E-Pad
TP063 R634 NC 10K 1/16W 5%
C632 R608 18R 1/10W 5% 330pF 50V
L604 10uH
2
C631 470NF 16V
R616 10K +-1% 1/16W
AMP_PDN
Heat Sink
49
10-5-4
TPM15.6L LA
HS601 2 1
NC/HEAT S NK
3
Speaker Amp
201 -07 07
715G6836 19760_510 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 64
VGA
VGA
B05
B05
VGA IN (V/T)
VGA_R
1
R1207
+5VSB
NC 100R 1/16W 1%
C1203
VGA_RIN
NC 10N 50V
NC 0R05 1 16W
R1201
ZD1106
NC 75R 1/16W 1%
C1208 NC 10PF 50V
11
VGA_SCL_ 5
15
VGA_SOG R1208 NC 0R05 1/16W VGA_G NC 0R05 1/16W
ZD1107
R1202 NC 75R
C1204
VGA_GIN
NC 10N 50V
C1207
6W %
NC 10PF 50V
R1212 NC 100R 1/16W 1%
088G353GFF1ACL
TP1107
VGA_SCL VGA_SDA VGA_VS VGA_HS VGA_BIN SOG0 VGA_GIN VGACOM VGA_R N
1
R1210
C1205
R1203
VGA_HSYNC
R1217 NC 100R 1/16W 5%
VGA_HS
VGA_VSYNC
R1218 NC 100R 1/16W 5%
VGA_VS
NC 100R 1/16W 1%
NC 0R05 1 16W
NC 75R 1/16W 1%
VGA_SCL VGA_SDA VGA_VS VGA_HS VGA_BIN SOG0 VGA_GIN VGACOM VGA_R N
VGACOM
VGA_ N_R VGA_ N_L
TP1111 R1206
2
NC/AZ5123-01H
2
NC/AZ5123-01H
2
2
2
NC/AZ5123-01H
ZD1108
2
AVDD1V2 VCCK
NC 10N 50V
R1211 NC 0R05 1/16W
ZD1123
C1210
8 8 8 8 8 8 8 8 8
2
ZD1104
R1205 NC 100R 1/16W 1%
2
18 16 ZD1103
NC/AZ5123-01H
ZD115 NC BZT52-B5V6S NC BZT52-B5V6S
3,8,13,15 AVDD1V2 3,17 VCCK SOG0
NC 1 5nF 50V
R1209
NC/AZ5123-01H ZD1102
C1206
TP1106
NC AZ5123-01H ZD1105
1
14
1
VGA_VSYNC
1
13
1
12
1
VGA_SDA_12 VGA_HSYNC
CN101 NC D-SUB 15P 6 1 7 2 8 3 9 4 VGA_TX 10 TP1108 5
1
TP1105
VGA_RX
NC/AZ5123-01H
12V_AMP +12V +5V_SW +5VSB 3V3SB DVDD3V3
2
TP1104
19 17
TP1103
TP1102
NC 4.7K 1/16W
ZD1101
GND
12V_AMP +12V +5V_SW +5VSB 3V3SB DVDD3V3
3,6 3,10 3,9,10,11,12,15 3,9,16 3,4,8,10,13,14 3,4,5,6,8,9,10,11,13,15,16,17,18
TP1110
NC/AZ5123-01H
R1220 NC 4.7K 1/16W TP1101
R1219
3,4,5,6,8,9,10,11,12,13,14,15,16,17,18
TP1109 R1204
VGA_BIN
VGA_IN_R VGA_IN_L
5 5
NC 10N 50V
C1209 NC 10PF 50V
2
NC/AZ5123-01H
2
VGA_TX
R1213
NC 33R
VGA_RX
R1214
NC 33R
VGA_SDA_12
R1215
NC/33R
VGA_SDA
VGA_SCL_15
R1216
NC/33R
VGA_SCL
ZD116
TP1116 C1201 2 3 4 1
VGA_ N_R
NC 2.2uF 10V R1227
NC 30K OHM
R1228
NC 30K OHM
VGA_ N_L
NC 2.2uF 10V
2
C1202
ZD1110
NC 470pF 50V NC 470pF 50V
TP1117
ZD1111
1
2
C1212 C1211
NC VPORT0603100KV05
NC PHONE JACK
1
CN606
NC VPORT0603100KV05
10-5-5
TPM15.6L LA
3
VGA
-12 07 1 201 -07
715G 715G6836 19 1 eps 19760_511 130114
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 65
Video YPbPr/CVBS
B06
B06
Video YPbPr/CVBS Merged Analog 3.3V Power
Analog 1.2V Power
3,4,5,6,7,9,10,11,12,13,14,15,16,17,18
GND
AVDD1V2 3V3SB
U401D
IFAGC_Scaler
L16 J15
ADCINN_DEMOD ADCINP_DEMOD
Y19 W18
TP405 TP
Y20
2 AVDD12_DEMOD 1 FB102 120R
V5 R1301 NC 33R 1/16W 5% V4 R1302 NC 33R 1/16W 5% V10 VGA_VS U10 VGA_HS V11 VGA_BIN U11 SOG0 W12 VGA_GIN Y12 VGACOM V12 VGA_RIN
VGA_SCL VGA_SDA VSYNC HSYNC BP SOG GP COM RP
RF_AGC IF_AGC ADCINN_DEMOD ADCINP_DEMOD AVDD12_DEMOD
U12 V13 U13 W14 Y14
SOY1 Y1 COM1 PB1 PR1 V17
AVDD33_RGB_STB
AVDD33_VIDEO_STB U17 N14 T12
AVSS33_CLN AVSS33_RGB
T14
AVSS33_VIDEO
AVDD33_RGB_STB AVDD33_VIDEO_STB AVSS33_CLN AVSS33_RGB AVSS33_VIDEO
VGA_SCL VGA_SDA
SOY0 Y0 COM0 PB0 PR0
3V3SB
AVDD12_DEMOD
AVDD33_VIDEO_STB
AVDD33_RGB_STB
C104
C101
C102
100NF 16V
NC/100N 16V
100NF 16V
V18 Y17 Y16
YPBPR_R_IN YPBPR_L_IN
5 5
CVBS_R_IN CVBS_L_IN
5 5
CVBS Audio Input DVDD3V3 CVBS_R_IN CVBS_L_IN 10mil R121 NC 47K 1/16W 5%
H = > Pr Plug-in (YPbPr) L = > Pr Plug-out (AV)
Control Interface
R122 PR_DET
CVBS0 CVBS1 CVBS_COM
YPbPr Audio Input
C103 1UF 10V
YPBPR_R_IN YPBPR_L_IN
SOY1 Y1P COM1 PB1P PR1P
3V3SB AVDD1V2 DVDD3V3
3,4,10,13,14 3V3SB 3,13,15 AVDD1V2 3,4,5,6,9,10,11,13,15,16,17,18 DVDD3V3
20mil
V14 U14 V15 U15 W16
PR1_DET
10
CVBS0P
PR1_DET
PR1_DET
NC 100R 1/16W 5% CVBS_COM
W17
VDAC_OUT
TP
VGA_SCL VGA_SDA VGA_VS VGA_HS VGA_BIN SOG0 VGA_GIN VGACOM VGA_RIN
TP407 C105 1UF 10V
MT5561LVNT
VGA_SCL VGA_SDA VGA_VS VGA_HS VGA_BIN SOG0 VGA_GIN VGACOM VGA_RIN
7 7 7 7 7 7 7 7 7
IF Interface ADCINN_DEMOD ADCINP_DEMOD
ADCINN_DEMOD 11 ADCINP_DEMOD 11
YPbPr Video/Audio Input Control Interface
R102 NC 10R 1/16W 1%
C108 NC 10N 50V
IFAGC_Scaler
IFAGC_Scaler
11
Side CVBS Video/Audio input
Y1P
C109 NC 10PF 50V NC 75R 1/16W 1% R108
R109 NC 100R 1/16W 5%
NC 0R05 1/10W
4 3 2 1
A
R110
R112 NC 100R 1/16W 5%
NC 0R05 1/10W
C110 NC 10N 50V C111 NC 10N 50V
R1001 AV_CVBS_IN
1
NC 75R 1/16W 1%
47nF 16V
4 B
3
C
7 6 5
AV_AudioLIN
R1003 75R 1/16W 1% ZD106 AZ5123-01H
PB1P AV_AudioRIN
C1003 NC 10PF 50V
C1001 47pF 50V
2.2UF AV_L_In
JACK
R1004
CVBS_L_IN
30K OHM
12
R1005 C113
C1214 330PF 50V
NC/0R05 1/16W NC 10PF 50V
ZD107 AZ5123-01H
R114 2
ZD103 NC/AZ5123-01H
NC 75R 1/16W 1%
C1004
R115 2
R117 NC 100R 1/16W 5%
NC 0R05 1/10W
C114 NC 10N 50V
1
1
R120
ZD105 2
ZD104
AV_R_In
R1006
CVBS_R_IN
30K OHM
PR1P
C115 NC 2.2uF
R118
C116 NC 2.2uF
R119
YPBPR_L_IN
ZD108 AZ5123-01H
NC 30K OHM YPbPr1R_IN
NC/0R05 1/16W
2.2UF
C1215 330PF 50V
YPbPr1L_IN
NC/AZ5123-01H
CVBS0P
100R 1/16W 5%
C112 ZD102 NC/AZ5123-01H
C1002
R1002
0R05 1/10W
COM1
R113
NC/RCA JACK
2
2
PR_IN_1 PR_DET
1
CN102
ZD101 NC/AZ5123-01H
2
A
NC 100R 1/16W 5%
PB_IN_1
C118
B
NC 0R05 1/10W R107
NC 1N 50V
C
9 8 7 6 5
Y_IN_1
R105
C117
D
13 12 11 10
R106
NC 1N 50V
E
SOY1 C106 NC 1.5nF 50V
2
CN116
2
10-5-6
TPM15.6L LA
YPBPR_R_IN
NC 30K OHM
NC/AZ5123-01H 3
Video YPbPr/CVBS
201 -07 07
715G6836 19760_512 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 66
SPDIF/Mute contorl
B07
B07
SPDIF/ Mute contorl
BAS316 D602
+5VSB
DVDD3V3 10mil
Audio Mute for SCART
AC OFF DVDD3V3
DC OFF
R664
+5V_SW
1K 1/16W 1%
R679 5.1K 1%
R657 10K +-1% 1/16W
3,7,16 +5VSB 3,10,11,12,15 +5V_SW
HP_AC_MUTE
+ R658 4.7K 1/16W
C681 22uF 16V A_MUTE
R668 470R 1/16W 5%
3,4,5,6,7,8,10,11,12,13,14,15,16,17,18 GND 3,4,5,6,8,10,11,13,15,16,17,18 DVDD3V3
D601 3 2
R659 Q601 LMBT3904LT1G
2.2K 1% BAV70 R660 4.7K 1/16W
C680 HP_MUTE H: MUTE L: UN-MUTE
+5VSB +5V_SW
A_MUTE1
HP_MUTE
Q603 LMBT3904LT1G
DVDD3V3
C678 10UF 6.3V 20%
GPIO Control Mute 10 HP_MUTE
HP_MUTE
C679 NC/10UF 6.3V 20%
Mute Control
100NF 16V
R669 10K +-1% 1/16W
6 HP_AC_MUTE
5
SPDIF_OUT
HP_AC_MUTE
SPDIF_OUT
SPDIF OUT R654 180R 1/16W 5% 1
C685 SPDIF_OUT
2
CN604
RCA JACK
ZD602 AZ5123-01H
100NF 16V R624 100R 1/16W 5%
C686 33P 50V
1
2
10-5-7
TPM15.6L LA
15mil +5V_SW R656 NC 33R 1/16W 5%
C677 NC 100N 16V
CN603 3 2 1
VIN VCC GND NC CONNNECTOR
3
SPDIF/ Mute contorl
201 -07 07
715G6836 19760_514 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 67
LVDS_Keypad_IR
LVDS_Keypad_IR
B08
B08
U401G
E4 F2 C2 E3 C1 D1 F3 D2 F1
DEMOD_RST HP_MUTE SW_CTL PR1_DET AC_DET HP_DET# ARC_on/off
AO0P AO0N AO1P AO1N AO2P AO2N AO3P AO3N AOCKP AOCKN AE0P AE0N AE1P AE1N AE2P AE2N AE3P AE3N
TCON0 TCON1 TCON2 TCON3 TCON4 TCON5 TCON6 TCON7 TCON8
A2 B2 C3 D3 C4 D4 C5 D5 A4 B4 C6 D6 A6 B6 C7 D7 C8 D8
3,4,5,6,7,8,9,11,12,13,14,15,16,17,18
TX_AO0P TX_AO0N TX_AO1P TX_AO1N TX_AO2P TX_AO2N TX_AO3P TX_AO3N TX_AOCKP TX_AOCKN TX_AE0P TX_AE0N TX_AE1P TX_AE1N TX_AE2P TX_AE2N TX_AE3P TX_AE3N
LVDSVDD
Panel_VCC
2
120R
C409
LED_PWR_GREEN
H = > Standby L = > Power ON
H = > Power ON L = > Standby
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30
TX_AO0P TX_AO1P TX_AO2P TX_AOCKP TX_AO3P TX_AE0P TX_AE1P TX_AE2P TX_AOCKP TX_AE3P
C474 NC/100pF 50V
R409 DVDD3V3 C410 4.7K 1/8W 100NF 16V R427 NC/1K 1/16W
+
100UF 35V
CN408
LED_POWER_RED
3 3,9,11,12,15 3,4,8,13,14 3,4,5,6,8,9,11,13,15,16,17,18
FB401 1
MT5561LVNT
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29
+12V +5V_SW 3V3SB DVDD3V3
GPIO Interface LED_POWER_RED LED_PWR_GREEN OIRI KEY_UP_DN_DCSW KEY_MENU_L_R_SOURCE LVDS_PWR_EN
Panel_Select TX_AO0N TX_AO1N TX_AO2N TX_AOCKN TX_AO3N
GND
+12V +5V_SW 3V3SB DVDD3V3
LED_POWER_RED 4,14 LED_PWR_GREEN 4,14 OIRI 4 KEY_UP_DN_DCSW 14 KEY_MENU_L_R_SOURCE LVDS_PWR_EN 14
14
R428 NC 0R05 1/16W DEMOD_RST HP_MUTE PR1_DET AC_DET ARC_on/off SW_CTL KEY_On_board AC_Off HP_DET#
TX_AE0N TX_AE1N TX_AE2N TX_AOCKN TX_AE3N
R482 NC/0R05 1/16W
DEMOD_RST HP_Mute PR1_DET AC_DET ARC_on/off SW_CTL KEY_On_board AC_Off HP_DET#
18 9 8 3 16 11 14 3 5
CONN
R483 NC/191K OHM 1% 1/16W U403 R484 NC/10K 1/10W 1%
R485
1
2
NC/36K 1%
FB
EN
C475 BS
LX
6
16Vto12V
IR/KEY BOARD
NC/0.1uF 50V
NC/20K OHM 1/16W 1% R 86
GND
IN
3V3SB
3V3SB
L402
5
NC/4.7uH +12V
3 NC/10N 50V C 76
C478 NC/22UF 10V
R488 0R051/8W
4
C479 NC/22UF 10V
+
Q408 NC AO3401
C480 NC 100UF 25V
Q409 NC AO3401
LED-R
LED-B
NC/SY8104ADC C477 10UF 16V
LED_POWER_RED
Q421 NC BC847C R4050 NC 1.2K 1/16W
LED_PWR_Blue
Q422 NC/BC847C
R4052 NC 1.2K 1/16W
R4054 NC/10K
R4055 NC/10K
R487 NC/40.2K 1/16W 1% AC_Off
3V3SB
1
3V3SB
LVDS POWER Control
+5V_SW +12V
LED-R
KEY_UP_DN_DCSW KEY_MENU_L_R_SOURCE
R437 R438
LVDSVDD
CN401 NC CONN 3V3SB
R436
H = > LVDS POWER ON
47K 1/16W 5%
C411 470NF 16V
1 2 3 4
Q401 S S S G
D D D D
8 7 6 5 C412
Panel_VCC
SM4310PSKC
3 1
SW401
100NF 16V
L = > LVDS POWER OFF
NC SW
R439
4 2
R492 NC 4.7K 1/16W R490 NC 100R 1/16W 1% R491 NC 100R 1/16W 5%
KEY_On_board KEY_UP_DN_DCSW
Q402 LMBT3904LT1G
2.2K 1%
R440 NC/470R 1/10W 1%
C413 NC/100N 16V
R444
CN406 7 6 5 4 3 2 1
Joy_Key IR_PWR IR LED-B LED-R
Q403 NC/2N7002K 8
R441 4.7K 1/16W
100R 1/16W 1% 100R 1/16W 1%
2 4 6 8 10
NC AO3401A
R432 47K 1/16W 5%
LVDS_PWR_EN
1 3 IR_PWR 5 7 9 Joy_Key
IR
C419 100NF 16V
2 220R
LED-B
100R 1/16W 5% 100R 1/16W 5%
C417 NC/100N 16V
1 FB404
Q405
100R 1/16W 5%
R434 R435
C416 NC 100N 16V
2 NC/220R
R433
LED_POWER_RED OIRI
C415 NC 100N 16V
1 FB402
LED_PWR_GREEN
C418 100NF 16V
2 NC/220R
panel_power
C414 100NF 16V
1 FB408
FB403 30R
R431 6.8K 1/16W
9
16Vto12V
R430 6.8K 1/16W
2
10-5-8
TPM15.6L LA
NC/1K 1/16W 1%
CONN
3
LVDS_Keypad_IR
201 -07 07
715G6836 19760_515 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 68
TUNER
B09
TUNER
B09 3,4,5,6,7,8,9,10,12,13,14,15,16,17,18
TUNER3.3V
L102
4 3 2 1
D_IFP D_IFN
IFAGC_Scaler
L101 NC 2.2nH
IFAGC_Scaler
OSCL1 OSDA1 C137 1nF 50V
4 3 2 1
D_IFP D_IFN
18 18 18 10
C158 1nF 50V
D101
18 18
Control Interface
3
5
82nH
C134 1nF 50V
ADCINN_DEMOD 8 ADCINP_DEMOD 8
FAT_IN+
BAV99
8
OSCL1 4,18 OSDA1 4,18 TUNER_SCL TUNER_SDA IFAGC_Toshiba_demo SW_CTL
TUNER_SCL TUNER_SDA IFAGC_Toshiba_demo SW_CTL
2
ANT
C132 1nF 50V
C142
C141
C136 1nF 50V
0R05 1/10W
100NF 16V
1
1UF 10% 16V
IF InterfaceFAT_IN-
R116
10UF 6.3V 20%
C190
Notch_On1
FCN101
+5V_SW DVDD3V3
TUNER3.3V
4
D102 BAS316
2
ADJ(GND)
1 220R
U113 AZ1117CH-3.3TRG1 3 2 VIN VOUT
4
FB104 R127 1K 1/16W 1%
GND
3,9,10,12,15 +5V_SW 3,4,5,6,8,9,10,13,15,16,17,18 DVDD3V3
+5V_SW
1
DVDD3V3
R128 2.2K 1%
D103 BAS316
Notch_On2
C160 1nF 50V
RF CONN
R159
R160
2.2K 1% T_SCL T_SDA
NC/100N 16V
8
GND3
TUNER3.3V
1
NC/PE 2750
R165
100R 1/16W 5% 100R 1/16W 5%
R449 R450
0R05 1/16W 0R05 1/16W
R1089 R1090
NC/0R05 1/16W NC/0R05 1/16W
TUNER_SCL TUNER_SDA
C155 22PF 50V
7
RF2
PADDLE
RFC
6 5
OSCL1 OSDA1
R169
0N 50V L106 8.2NH
L107 27nH
C120 1nF 50V LNA_INP
NC 0R05 1/16W
4
GND2
13
GND4
C192
C169 5P6 50V
C121 1nF 50V LNA_INN
4.7PF 50V
3
C147
SW_CTL
NC/10N 50V
C154 22PF 50V
R162
C140
C2 C1 VDD
GND1
C146
10 11 12
RF1
NC/1MOHM 1/16W +/-5%
2
TUNER3.3V
NC/0R05 1/16W
R130
GND6
U102
GND5
9
C139 10N 50V
R129
2.2K 1%
R168 NC 0R05 1/16W
L104
FCN102
4 3 2 1
C159 NC/1nF 50V
C168 NC/1nF 50V
L103 27nH
3
5 4 3 2 1
L105 NC 2.2nH
D104 NC/BAV99
2
ANT
1
TUNER3.3V
C143 10N 50V
0R05 1/16W R149 1K 1/16W 1%
R151 10K +-1% 1/16W IFAGC_Scaler
2
R150
IFAGC
R123 510K 1%
C144 47nF 16V
XTALN 1
X102 3
XTALP
+1V8TUNER 4
NC/RF CONN RESET
16MHZ
C164 15PF 50V
C165 15PF 50V
C128 1UF 10V R153 10K +-1% 1/16W IFAGC_Toshiba_demo
C166 10N 50V XTALP XTALN
TUNER3.3V
C145 22N 25V U104 C125
E-PAD AS RESET_N VDD_1p8 GND_XTAL XTAL_P XTAL_N
C133
25 24 23 22 21 20 19
R152 0R05 1/16W
100NF 16V
TUNER3.3V
10UF 6.3V 20%
MxL661
R133 560R 1/16W 1%
R1029 51R 1/16W 5% FAT_IN+
R155 R101
C148 1UF 10% 16V
0R05 1/16W
1 2 FB108 1000R
Notch_On2
1 2 FB109 1000R
100R 1/16W 5%
LNA_INP LNA_INN 2 1000OHM
+1V8TUNER FB103 1
VDD_3p3 LNA_INP LNA_INN VDD_1p8 AGC_2/GPO_3 AGC_1
C197 100NF 16V
R156 330R 1/16W 1%
C150
C151
1UF 10% 16V
0R05 1/16W
C163 NC/47pF 50V
R1030 51R 1/16W 5% FAT_IN-
R157
C149
R104
IFOUT1N
100R 1/16W 5% C191
IFAGC C161
C162
22PF 50V
NC/47pF 50V
R124
NC/47pF 50V C167 100NF 16V
C152
R1111 0R05 1/16W
1UF 10% 16V
C156 1UF 10% 16V
R161 0R05 1/16W C153 NC/22pF 50V
R1112 0R05 1/16W
R167 0R05 1/16W
CLK_OUT SDA SCL VDD_IO GND_DIG VDD_1p2
T_SDA
17 16 15 1 13
T_SCL
C122
2.2nF 50V
C123 100NF 16V
C126 7pF 50V
C124 7pF 50V
1K 1/16W 1%
NC/47pF 50V 22PF 50V
TUNER3.3V 18
IF_OUTP_2/GPO_1 IF_OUTN_2/GPO_2 IF_OUTP_1 IF_OUTN_1 VDD_3p3 VDD_1p8
IFOUT1P
Notch_On1
1 2 3 4 5 6
MxL661-AG-R C135 100NF 16V
7 8 9 10 11 12
10-5-9
TPM15.6L LA
+1V8TUNER TUNER3.3V
C127 D_IFP
100NF 16V
R164 NC 150R 1/16W 1%
IFOUT1P
C130
4.7NF 50V
IFOUT1N
C129
4.7NF 50V
C131 1UF 10V
D_IFN
C157 NC/22pF 50V
3
TUNER
201 -07 07
715G6836 19760_516 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts 10-5-10
TPM15.6L LA
10.
EN 69
DDR3
B10
B10
DDR3
3,4,5,6,7,8,9,10,11,13,14,15,16,17,18 GND +5V_SW
3,9,10,11,15 +5V_SW
DDRV U401A DDRV DDRV DDRV DDRV DDRV DDRV DDRVREF ZQ TN_MEMPLL TP_MEMPLL
N1 N2 N3 N4 N5 N6 P1 P2
+5V_SW
Main Chip Ref Voltage.
DRAM POWER DDRV U411 1 2 3
RVREF
C428
VFB
L401
5
2.2uH
4
R1
2.2UF
R2
R455
R456 33K 1/16W 1%
R460
240R 1%
H8 J8
LX
G5695T11U
0R05 1/16W
R457
ZQ
R480
VIN GND EN
DDRV
DDRV
C426 22UF 6.3V
C427 100NF 16V
C425 NC/100N 16V
RVREF
22K 1%
R410 MT5561LVNT
1K 1/16W 1%
R461 1K 1/16W 1%
100K 1%
C429 NC/100N 16V
DRAM# Bypass Cap DDRV
C430 10UF 6.3V 20%
C439 C196 NC/4.7UF 10% 10V
C433 100NF 16V
C434 100NF 16V
C435 1UF 10V
C436 100NF 16V
C437 100NF 16V
C432 100NF 16V
C441 1UF 10V
C438 100NF 16V
NC/10UF 6.3V 20%
C440 4.7UF 10% 10V
3
DDR3
201 -07 07
715G6836 19760_517 eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
10.
EN 70
HDMI/MHL
B11
B11
HDMI/MHL
3,4,5,6,7,8,9,10,11,12,14,15,16,17,18 GND 3,9,10,11,12,15 3,7,9,16 3,4,8,10,14 3,4,5,6,8,9,10,11,15,16,17,18 3,8,15
REAR HDMI 2 (with ARC)
HDMI_SCL2 HDMI_SDA2 HDMI_SCL2/RX HDMI_SDA2/TX
1
1
1
1
UART_SEL
UART_SEL
16
22R 1/16W 5% HDMI_SCL2/RX 22R 1/16W 5% HDMI_SDA2/TX R508 47K 1/16W 5%
R506 R507
3V3SB
R509 910R 1/16W R512 75 OHM 1/16W
R514 HDMI_2M_HPD 10K 1/16W 5%
Q504 Q506
BC847C
2
2
CEC
HDMI CONN
2
K16
Control Interface
OPWR2_5V ZD517
HDMI_SCL2 HDMI_SDA2 HDMI_2M_HPD
HDMI_SCL2 16 HDMI_SDA2 16 HDMI_SCL2/RX 16 HDMI_SDA2/TX 16
UART_SEL
R503 0R05 1/10W
HDMI_SCL2_IN HDMI_SDA2_IN
ZD516
HDMI_CEC
J17 J14 J16 K15
RX_2_0B RX_2_C CEC_A2
Interface
OPWR2_5V
RX_2_1B RX_2_0
RX_2_CB
C510 NC/100N 16V C509 NC/100N 16V
HDMI_2_SCL HDMI_2_SDA HDMI_2_HPD_CBUS MHL_SENCE
RX_2_2B RX_2_1
ZD515
AVDD12_HDMI_0 AVDD12_HDMI_1
RX_2_CB RX_2_C RX_2_0B RX_2_0 RX_2_1B RX_2_1 RX_2_2B RX_2_2
HPWR2
2
AVDD33_HDMI
M18 M17 L18 K18 K20 K19 J20 J19
RX_2_2
ZD514
HDMI_2_RX_CB HDMI_2_RX_C HDMI_2_RX_0B HDMI_2_RX_0 HDMI_2_RX_1B HDMI_2_RX_1 HDMI_2_RX_2B HDMI_2_RX_2
24
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
100N 16V
Y5 H20
AVDD12_HDMI_0 AVDD12_HDMI_1
HDMI_0_SCL HDMI_0_SDA HDMI_0_HPD
J18 K14 L17
SHELL3 D2+ SHELL4 D2 Shield D2D1+ D1 Shield D1D0+ D0 Shield D0CK+ SHELL5 CK Shield CKCE Remote NC DDC CLK DDC DATA GND +5V HP DET SHELL1 SHELL2
10K 1/16W 5%
R10
AVDD33_HDMI
HDMI_1_SCL HDMI_1_SDA HDMI_1_HPD
22 23
C511
U7 V6 W5
HDMI_0_RX_CB HDMI_0_RX_C HDMI_0_RX_0B HDMI_0_RX_0 HDMI_0_RX_1B HDMI_0_RX_1 HDMI_0_RX_2B HDMI_0_RX_2
P20 P19 P18 P17 N18 N17 M20 M19
10K 1/16W 5%
HDMI_SCL0 HDMI_SDA0 HDMI_0M_HPD
HDMI_1_RX_CB HDMI_1_RX_C HDMI_1_RX_0B HDMI_1_RX_0 HDMI_1_RX_1B HDMI_1_RX_1 HDMI_1_RX_2B HDMI_1_RX_2
R505
W7 Y7 V7 V8 U9 V9 W9 Y9
R504
RX_0_CB RX_0_C RX_0_0B RX_0_0 RX_0_1B RX_0_1 RX_0_2B RX_0_2
+5V_SW +5VSB 3V3SB DVDD3V3 AVDD1V2
+5V_SW +5VSB 3V3SB DVDD3V3 AVDD1V2
I2C & UART
CN502 U401E
NC/AZ5123-01H
R513 100K1/16W
BC847C
MT5561LVNT
Merged Analog Power AVDD1V2
REAR HDMI 1
C502 100NF 16V
CN501
CH1 CH2 VN CH3 CH4
10 9 8 7 6
RX_0_CB RX_0_C RX_0_0B RX_0_0
47K 1/16W 5%
3V3SB
R524 910R 1/16W R561 75 OHM 1/16W
R525
HDMI_0M_HPD
10K +-1% 1/16W
Q502 R502 100K 1%
BC847C
Q503 BC847C
U502 NC NC VN NC NC
HDMI_SCL0 HDMI_SDA0
NC/AZ5123-01H
U501 RX_0_CB RX_0_C 2 3 RX_0_0B4 RX_0_0 5
ZD507
ESD protcetion
100R 1/16W 5%
R560
C506 NC/100N 16V
HDMI CONN
OPWR0_5V
C505 NC/100N 16V
FB503 120R AZ5123-01H
-1% 1/16W
CEC R501 100R 1/16W 5%
2
ZD506
CEC_A0 1
R520
ZD505
2
100R 1/16W 5%
R519
ZD504
ZD518
HDMI_SCL0_IN HDMI_SDA0_IN
100NF 16V
HDMI_CEC 1
RX_0_CB CEC_A0
C504
2
FB501 120R
RX_0_0B RX_0_C
-1% 1/16W
CEC_A2 1
OPWR0_5V
RX_0_1B RX_0_0
10K
2
AZ5123-01H
HPWR0 RX_0_2B RX_0_1
10K
1
ZD501
RX_0_2
R511
24
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
R510
HDMI CEC
SHELL3 D2+ SHELL4 D2 Shield D2D1+ D1 Shield D1D0+ D0 Shield D0CK+ SHELL5 CK Shield CKCE Remote NC DDC CLK DDC DATA GND +5V HP DET SHELL1 SHELL2
1
22 23
1
C503 100NF 16V
2
C501 100NF 16V
AVDD12_HDMI_1
2
AVDD12_HDMI_0
1
AVDD1V2 AVDD33_HDMI
1
DVDD3V3
2
Analog Power
2
10-5-11
TPM15.6L LA
RX_0_1B1 RX_0_1 2 3 RX_0_2B4 RX_0_2 5
AOZ8804DI
CH1 CH2 VN CH3 CH4
NC NC VN NC NC
10 9 8 7 6
RX_0_1B RX_0_1
10 9 8 7 6
RX_2_1B RX_2_1
RX_0_2B RX_0_2
AOZ8804DI
ESD protcetion U506 RX_2_CB RX_2_C 2 3 RX_2_0B4 RX_2_0 5
CH1 CH2 VN CH3 CH4
U507 NC NC VN NC NC
AOZ8804DI
10 9 8 7 6
RX_2_CB RX_2_C RX_2_0B RX_2_0
RX_2_1B1 RX_2_1 2 3 RX_2_2B4 RX_2_2 5
CH1 CH2 VN CH3 CH4
NC NC VN NC NC
RX_2_2B RX_2_2
AOZ8804DI
3
HDMI/MHL
201 -07 07
715G6836 19760_518 eps
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Circuit Diagrams and PWB Layouts 10-5-12
TPM15.6L LA
10.
EN 71
GPIO
B12
B12
GPIO
3,4,5,6,7,8,9,10,11,12,13,15,16,17,18 GND 3,4,8,10,13 3V3SB LVDS_PWR_EN BL_ON/OFF 3V3SB LED_POWER_RED LED_PWR_GREEN R499 10K +-1% 1/16W
R481 10K +-1% 1/16W
R448 NC 10K +-1% 1/16W
USB_PWR_EN0 SY S_EEPROM_WP
U401I
AMP_MUTE KEY _On_board
U3 V2 V3 V1 U4
T7 P8 U8 U6 USB_PWR_OCP0 T8 KEY _UP_DN_DCSW KEY _MENU_L_R_SOURCE U5 T6 R8 USB_OC
OPCTRL0 OPCTRL1 OPCTRL2 OPCTRL3 OPCTRL4 ADIN0 ADIN1 ADIN2 ADIN3 ADIN4 ADIN5 ADIN6 ADIN7
GPIO0 GPIO1 GPIO2 GPIO3 GPIO4 GPIO5 OPWM2 OPWM1 OPWM0
B1 E5 G17 H5 H4 F17 G6 G5 E6
LVDS_PWR_EN BL_ON/OFF USB_PWR_EN0
WiFi_PWR_EN BL_DIMMING LED_POWER_RED LED_PWR_GREEN KEY _On_board
SY S_EEPROM_WP USB_PWR_OCP0 KEY _UP_DN_DCSW KEY _MENU_L_R_SOURCE USB_OC WiFi_PWR_EN BL_DIMMING
AMP_MUTE
3V3SB LVDS_PWR_EN 10 BL_ON/OFF 3 USB_PWR_EN0 15 SY S_EEPROM_WP 4 WiFi_PWR_EN 15 BL_DIMMING 3 LED_POWER_RED 4,10 LED_PWR_GREEN 4,10 KEY _On_board 10 USB_PWR_OCP0 15 KEY _UP_DN_DCSW 10 KEY _MENU_L_R_SOURCE 10 USB_OC 15 AMP_MUTE
6
MT5561LVNT
3
GPIO
201 -07 07
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2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts 10-5-13
TPM15.6L LA
10.
EN 72
USB/WiFi
B13
B13
USB/ WiFi
U401F
3,4,5,6,7,8,9,10,11,12,13,14,16,17,18
USB_DM_P0 USB_DP_P0 USB_DM_P1 USB_DP_P1 R1114
3,8,13 AVDD1V2
AVDD1V2
DVDD3V3 USB_OC
AVDD12_ETH AVDD33_ETH
R1027 24K 1%
HI = > POWER ON LO = > POWER OFF
R1025
C176
CN103 USB CONN
NC/10P 50V
HI = > NORMAL LO => OC
100NF 16V
NC/G5250M1T1U
C175 NC/10P 50V
USB_PWR_OCP0
NC 0R05 1/16W
ZD119
1 2 3
C174
EN
OUT GND OC
ZD118
IN
NC 4.7K 1/16W
AVDD1V2
6
U404 5
4 3 2 1
USB_DP_P0 USB_DM_P0 USB_PR C173 10UF 10V
R1026
R1032 10K +-1% 1/16W
NC 10K 1/16W 5%
4
USB_PWR_EN0
MT5561LVNT
R1024
2
Control Interface
5
TH101 PTCR 1
1
REXT
1
Y4 R9
+5V_SW DVDD3V3
USB_PWR_OCP0 USB_PWR_EN0 USB_OC WiFi_PWR_EN
4 3 2 1
18 18 18 18
DEMOD_TSCLK DEMOD_TSVAL DEMOD_TSSYNC DEMOD_TSDATA0
USB_PWR_OCP0 14 USB_PWR_EN0 14 USB_OC 14 WiFi_PWR_EN 14 DEMOD_TSCLK DEMOD_TSVAL DEMOD_TSSYNC DEMOD_TSDATA0
NC/AZ5123-01H
DVDD3V3
AVDD12_ETH
AVDD33_ETH
C170 1UF 10% 16V
C171 NC/100N 16V
C172 NC/100N 16V
U401H
DEMOD_TSCLK DEMOD_TSVAL DEMOD_TSSYNC DEMOD_TSDATA0
D14 B13 D16 A16 C15 C14 C13 A13 E12 F12 E13 F18
CI_MCLKO CI_MOVAL CI_MOSTRT CI_MDO0 CI_MDO1 CI_MDO2 CI_MDO3 CI_MDO4 CI_MDO5 CI_MDO6 CI_MDO7 CI_MCLKI CI_MIVAL CI_MISTRT CI_MDI0 CI_MDI1 CI_MDI2 CI_MDI3 CI_MDI4 CI_MDI5 CI_MDI6 CI_MDI7 CI_PWR_EN
CI_A0 CI_A1 CI_A2 CI_A3 CI_A4 CI_A5 CI_A6 CI_A7 CI_A8 CI_A9 CI_A10 CI_A11 CI_A12 CI_A13 CI_A14 CI_OE# CI_WE# CI_IORD# CI_IOWR# CI_RESET CI_IREQ# CI_WAIT# CI_REG# CI_CE1# CI_CD2# CI_CD1#
B8 D13 F9 E17 E19 D20 D18 B20 D9 C9 F10 A10 D10 E10 B12 D12 C16 C17 A19 B18 E9 B16 A15
DVDD3V3 R1115
WiFi
NC 10K 1/16W 5% Q706
WiFi_PWR_EN
+5V_SW
6
A12 C10 D11 E11 E7 E8 E16 E20 D19 C20 C19
CI_D0 CI_D1 CI_D2 CI_D3 CI_D4 CI_D5 CI_D6 CI_D7
4 3 2 1
CN403 NC CONN
NC AO3401A R451 R452
NC 5R6 1/16W 5% NC 5R6 1/16W 5%
USB_DM_P1 USB_DP_P1
5
AVDD12_ETH AVDD33_ETH
TP410 TP411 TP412 TP413
+5V_SW
3,9,10,11,12 +5V_SW 3,4,5,6,8,9,10,11,13,16,17,18 DVDD3V3
2.5 = > NORMAL < 2.0 = >OC
10K +-1% 1/16W
t
RXVN RXVP TXVN TXVP REXT_ETH
W2 W3 Y1 Y2 W4
GND
2
H19 H18 G19 F19
2
USB_DM0 USB_DP0 USB_DM1 USB_DP1
C18 B15 A18 D17 C12 F11 C11 B10 B19 F7 E18
MT5561LVNT
3
USB/ WiFi
201 -07 07
715G6836 19760_520 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts 10-5-14
TPM15.6L LA
10.
EN 73
FACTORY DEBUG PORT
B14
B14
FACTORY DEBUG PORT
+5VSB
3,4,5,6,7,8,9,10,11,12,13,14,15,17,18 GND 3,9,10,11,12,15 +5V_SW 3,7,9 +5VSB 3,4,5,6,8,9,10,11,13,15,17,18 DVDD3V3
R406 10K +-1% 1/16W +5VSB
R464 10K +-1% 1/16W
R466
Q404
60.4K 1%
9
S1
10
S0 UART_SEL
HDMI_SCL2 HDMI_SDA2 HDMI_SCL2/RX HDMI_SDA2/TX
U414 6
LMBT3904LT1G
HDMI_SCL2/RX
3
HDMI_SDA2/TX
13
R467 40.2K 1/16W 1%
8 7 D401 16
+5VSB BAS316
+5V_SW +5VSB DVDD3V3
/E
2Y 3 1Y 3
4
HDMI_SCL2
11
HDMI_SDA2
2
U0RX
15
U0TX
U0TX U0RX
S1 S0
2Y 2 1Y 2
HDMI_SCL2 13 HDMI_SDA2 13 HDMI_SCL2/RX 13 HDMI_SDA2/TX 13
ARC_on/of f ARC_SPDIF UART_SEL
U0TX U0RX
4 4
ARC_on/of f ARC_SPDIF UART_SEL
10 5 13
2Z 1Z
2Y 1 1Y 1
5 14
HDMI pin14
S0
S1
1
NC/ARC
H
H
HDMI function
+12V
L
H
Debug mode
CHANNEL
GND VEE
2Y 0
VCC
C408 100NF 16V
1Y 0
12
74HC4052PW
HDMI_SCL2/RX
HDMI_SCL2
R493 NC 0R05 1/16W
HDMI_SDA2/TX
HDMI_SDA2
R494 NC 0R05 1/16W
DVDD3V3
10mil R468 10K +-1% 1/16W
ARC_on/of f
ARC_SPDIF
DVDD3V3
U410 1 2 3
OE Vcc A GND B
5 4
C443 100NF 16V R470 180R 1/10W 1%
74CBTLV1G125GW
C444 UART_SEL 1UF 25V R471 82R 1/10W 1%
ARC on/off enable control
L :ON-state H :OFF-state 3
FACTORY DEBUG PORT
201 -07 07
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div table
Circuit Diagrams and PWB Layouts 10-5-15
TPM15.6L LA
10.
EN 74
VCCK & DVSS
B15
B15
VCCK & DVSS
U401J M12 M13 M11 L12 M9 R13 H9 H10 H12 A1 J10 J11 J12 K9 K10 K11 K12 A8 F6 F20 G7 G18 H13 H11 J13 L9 L11 L13 M1 M2 L10 N13 N11 N12 N15 T13 N16 P7 P11 P12 P14 G8 V16 U16 T15
VCC3IO
DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS
VCC3IO VCC3IO VCC3IO
DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS
VCCK VCCK VCCK VCCK VCCK VCCK
DVSS DVSS DVSS DVSS
P9 N10 P10
3,4,5,6,7,8,9,10,11,12,13,14,15,16,18 GND DVDD3V3 VCCK
3,4,5,6,8,9,10,11,13,15,16,18 DVDD3V3 3 VCCK
3.3V IO Power VCCK
VCCK VCCK VCCK VCCK VCCK VCCK VCCK VCCK VCCK
DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS DVSS
L6 L5 L4 L3 L2 L1 J9 K5 K6 K7 K8 L7 L8 M7 M8
DVDD3V3
C463
C446 C447
10UF 6.3V 20%
1UF 10V
C448
10N 50V
10N 50V
Core Power VCCK
M4 M3 N8 M5 R6 M6 R11 R12 R14 T5 W19 Y3
VCC3IO
+ C449 100UF 16V
C450
C451
C452
C453
1UF 10V
1UF 10V
C454 10UF 6.3V 20%
10UF 6.3V 20%
4.7UF 10% 10V
VCCK
C461 10UF 6.3V 20%
C456 10UF 6.3V 20%
C457
C458
C459
C460
100NF 16V
100NF 16V
100NF 16V
100NF 16V
H14 H16 J7 M10 N7 N9
MT5561LVNT
3
VCCK & DVSS
201 -07 07
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Circuit Diagrams and PWB Layouts
10.
EN 75
DEMOD_Toshiba TC90537
B16
B16
DEMOD_Toshiba TC90537
XT_O DVDD3V3
DVDD3V3
R136
3,4,5,6,7,8,9,10,11,12,13,14,15,16,17
XT_I
GND
1M 1/10W 5% 3,4,5,6,8,9,10,11,13,15,16,17
R126 R137 1.2K OHM 1/16W 1%
SLADRS0
2
NC/ 10K+-5%1/16W SLADRS1
R135 10K 1/10W
FAGC_Toshiba_demo R134 C119 100NF 16V
10K +-1% 1/16W
C138 100NF 16V
X101 3
DEMOD_TSCLK DEMOD_TSVAL DEMOD_TSSYNC DEMOD_TSDATA0
C179 27PF
OSCL1 OSDA1 R139
20K OHM 1/16W 1%
DVDD3V3
R138
4,11 4,11
DEMOD_RST
10 DEMOD_RST
U101
13
14
15
16
18
OSCL1 OSDA1
GPIO Interface
NC 0R05 OHM
C177 100NF 16V 17
20
21
22
24
23
+1V2
19
TP101
XT_O XT_I
TUNER_SCL TUNER_SDA FAGC_Toshiba_demo D_IFP D_IFN
11 TUNER_SCL 11 TUNER_SDA 11 IFAGC_Toshiba_demo 11 D_IFP 11 D_IFN
SBYTE_ORR TUNER_SCL TUNER_SDA
DVDD3V3 DEMOD_TSCLK DEMOD_TSVAL DEMOD_TSSYNC DEMOD_TSDATA0
16MHZ
C178 27PF
SLADRS0
AGCCNTI
10K +-1% 1/16W
4
R125
1
15 15 15 15
DVDD3V3
35 2
1 C186 100NF 16V
VSS
VDDS
RSEORF
SBYTE
SLADRS0
GPIO1
ADCVSS
GPIO0
VREFL
VSS
VREFH
VDDC A NP I
FB1008 120R
36
ADCVDD
12
SRCK_ORR
11
PBVAL_ORR
10
SRDT_ORR
9
TP102
8
TP103
7
TP104
6
TP105
5
TP106
4
TP107
3
TP108
1
RP101 33 OHM +-5% 1/16W 5 4 6 3 7 2 8 1
2
DEMOD_TSSYNC 15 DEMOD_TSCLK 15 DEMOD_TSVAL 15 DEMOD_TSDATA0 15
C1074 NC 10PF 50V
2
+1V2 2
1 C199
1 FB1009 120R
100NF 16V
VDDS
34
VSS
C185
10UF 6.3V 20%
48
C184 100NF 16V
GPIO2
SDA
FB1010 120R
VDDC
47
33
46
1
SCL
2
SLPEN
STSFLG0
32
RERR
VSS
45
1
TSMD
44
2
RLOCK
STSFLG1
31
C183 100NF 16V
SLADRS1
SYRSTN
FB107 120R
SLOCK
43
30
CKI
VPGM
29
SLADRS1
SRDT
42
C182 100NF 16V
VDDC
41
28
PBVAL
A NN Q
27
1
PLLVSS
A NP Q
26
10UF 6.3V 20%
SRCK
40
2
100NF 16V
FB407 10R
PLLVDD
A NN I
FB106 120R
25
C181
39
C180
AGCCNT1
AGCCNTR
TNSCL
TNSDA
XCKO
1
38
2
XO
XI
TC90537FG FB105 120R
DVDD3V3
DVDD3V3
+1V2
U103 D_IFP D_IFN
1 C188 100NF 16V
R143
DVDD3V3
00R
6W 5%
R144 00R
C187 100NF 16V
R140
C189
6W 5%
C194 1UF 10V
R145 100R 1/16W 5%
100NF 16V
2 DVDD3V3
0R05 OHM
3
IN
OUT
GND SHDN
SET
G9141T11U R141 10K +-1% 1/16W
R146 4.7K 1/16W
TP110 TP109 DEMOD_RST
R147 4.7K 1/16W
5
4
R154 2.2K 1%
R111 NC/ 10K+-5%1/16W
37
10-5-16
TPM15.6L LA
C195 10UF 6 3V 20%
R148 10K +-1% 1/16W
OSDA1 OSCL1
C193 10N 50V
R142 NC 10K 1/16W 5%
3
DEMOD_Toshiba TC90537
201 -07 07
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div table
ME3 C631
FB606
C626
SCREW2
FB604
C619
C629
L601 C116 R120
C115 ZD103
back to 2015-July-10 div table R115
CN116
CN504
R110 ZD102 ZD101
R102
R106 C109
R107 R128
R130 C146
D1 3
R5 C140
R6 L105
D101
C137 C136
L102
FCN101
D102
FB109FB108 C160 L104
R123 C128 C125
C133 L103 C121 C135 C169 L107 C120 FB103
C122
R124
C167
C130
LAYOUT TOP
R129
FCN102 R2
ZD107
R149
ZD108
C1215
R1005
C1214 FB610
C660 FB608 C663
R625
C184 C186 C153 C157
C662
R493
SEN6
C1074 FB407
ZD118 ZD119
R140
RP101
R175
U414
C175 C176
C177
R139
R125
R111
C188
C719
R164
FB609
C193
C661
R143 R142
C1004
R506
R626
R141
C187
R152
R167
R406
R153 C145
R144 R147
C1003
R165 R162
R1112
R161
C189
R150
R1111
C179
R136
R464
Q404
U404
C174
C173
TH101
C190
R450 R449 R101
C152 C156
FB1008
C185
FB104
C131
R148 R154
U103 C195
R104
R160
R1089
R1090
R174
X101
R137
C178
C443
R470
C199 FB1009
ZD106
R127
R176
R1001
L101
R628
C651
C511 R504
FB1010
C123
R514 R159
R171 R412
ZD517
CN502
U507
U410
C413 R441
R1026
R409
C409
C198
R1003
CN605
R126 R134
C1001
C1212
C183
FB107
C197
C1202
ZD1110
C1211
CN402
U101
R133
C1201
ZD1111
Q506
C182
FB106
C126
C148
ZD109 ZD110
C180
C181
U104
C149
C163
Q504
C194
C124
C191
R505
X102
X401
R513
FB105
C166
FB102
R512
L106
C102
C510
R135
R169
C407 C406
ZD515
C134
C503
R678
C138 R138
C165 C164
C502
C688 R507
U506
C171
C119
C192
C404
FB501
D401
R3
C405
R1004
R170
R1228
ZD501
ZD516
R1006
C509
R1227 C144
ZD514
R501
R411
R1301
C170
R509
R151
R508
R414
C650
U401 HS401 C684
R1027
C607
C451
R503
R494 C408
C158
C132
C162 R1030
R407
R471 R467 C444 R466
C411
R786
R405 R415 R416
R427
R428
R403
R402
R401
ICT2
Q706
R4 SEN1
L701
U705
R452
R451
R1115
C731
C722
FB706
C721 R706 R728
CN403
C142
CN101
R156
C139
R617
R468 R729
R116 C141
R618 C161 R1029
C708
R627
C105 R622
C454
R730
R168
R525 R157
C608 C647 C644
C402
C453 C458
R710
FB611
1002
R155
C114
R117
R122
R1002
C110 C111
R112
C106 C108 R109
R634
R105
C432
C706
C601
B409
R118
R119
R448
R481 R499 C462
C438 C441
C452 C457
R444
C410
FB612
R1201
R479
C 204
C101
C104
C446
C433
R779
C602
R1202
C1 03
C1 05 C12 6
C429
Q402
R440
CN408 CN409
R108
C1208
R477
C1207 ZD1106
R12 4
R1214 C1210
R121
R 20
R1212
C172 C447
C448
C434
R439
R1207
R1203 R1209
R1206
C461
ZD1107
C1209 R1211
R455
C430
R1208
R457
R461
R432 R436
Q403
CN606
R1210
C501
C435
C425
C440
C412
R113
CN501 ZD1103 ZD1102
FB401
C112
C645
Q401
SEN2
ZD104
C437
U405
ZD1108
FB405
C463
FB406 R601
R1213
R604
R1302
ZD1105
C603
R1218
R1217
R603
D115
R602
C604
D116
R719 C436
FB702
C449
C459
ZD1101 R1215
C730 C196 C439
FB402
D104
R654
R717
C707 Q70
R484 C474 R482
R785
C159 C168
ZD602
C460
Q40
C113
U501 U502
C456 C450
R1220
C606 C605
C401
R1219 R1216
L702
ZD1104 ZD1123
Q503
U703
C714 R718
R713
C103
D602
C687
R714
R524 R560
R425
C504
C690 C609
Q502
U411
R511 R519
C428
FB503
R421
R502 R561
C712
R510 R520
C713 C710
ZD518
ICT1
Q701
R485 R486 C476
C480
FB408
10.
R114
R605 C624 R423
Q703
R709
C748
C477
R487
SEN4
R788 R787
R404 C403
C118
R615 R172
U406
ZD506
C642
ZD507
C426
C427
L401
C743
R488
R780 R778
TPM15.6L LA
ZD105
R620 R456
ZD505 C506
R460
C505
C614 C634 C636 R422
R480
R410
R752
FB404
C117
R623
Q702
C685
R606 C623
L703
ZD504
C612 R612
FB403
C637 R610 C641
R751
C723
C747
R173
U601 Q408
C745
C648
Q409 Q421
R474 R435
C615
R753
C611
R739
R656
C678 C630 C744
C638 C639
C705 Q705
C686
C633
C646
Q422 R747
Q708
L402 C746
R624
C635 R749
C479 C478
C677
R631 R750
U706
R748
R4050 R4054
R722 R724
C643
C616
R679 R614
C742 R746
R723 R725
C618
R632
U403
SEN3
R607 R754 Q704
C726
L602
C632
ZD701
C725 C475
R613
R491 R4052 R4055
C418 C417 C414 R434 R433 R473 R420 R418 R419 R417
FB701
R483
CN604 CN603
FB607 R490
R492
C419
CN406
R431 R430
R438 R437
C415 C416
CN701 FB703
L603
R611
HS601
R616
C691
CN401 SCREW1
C622
Q601
C625
C679 C617
R633
FB602
R704
C620
R608 C613
Q602
C681 R635
R609
R664
R669
R668
R705
L604
R659
C610 C640
Q60
R738
C621
FB605
D601 FB603
R658
R657
C680
ME1 GND4
C627
R660
10-5-17
C628
CN601
Circuit Diagrams and PWB Layouts EN 76
SSB layout top
R1
ME2 GND3
R1114 R1032
C129
U113
SW401
R1025
R1024
R145 R146
CN103
CN602 C664 R637
C154 C155 C151 C150 C143
C127
CN102
C147
U102
GND2 ME4
715G6836 19760_524 eps
Circuit Diagrams and PWB Layouts
10.
EN 77
SSB layout bottom
TP107 TP106
TP105
TP102 TP104
TP409
TP108
TP103
TP401 TP101
TP1105
TP1101 TP1104
TP065
TP063
TP412
TP1103 TP1102
TP1108
TP1107
TP1106
TP1110
TP1109
TP410
TP413
TP1111
TP411
TP404
TP408 TP405
TP407
TP110
TP1116
TP109
TP1117
10-5-18
TPM15.6L LA
Circuit Diagrams and PWB Layouts
TPM15.6L LA
10.
EN 78
10.6 J 715G61767 IR/LED Panel IR
IR/LED panel
J
J 3V3SB
R001 470R 1/16W 5% 1
3V3SB
2
LED001 LED R003 NC/2K7 1/16W 5%
R002 1K 1/16W 5%
C001
Q001 BC847C
100N 16V
1
POWER
TSOP75436WTT
ZD002 VPORT0603100KV05
C003
SW001
ZD003 VPORT0603100KV05
2
Key1
----><----|
GND Vs OUT GND
2
C002 NC/1N 50V
TACT SW FWRD H1.5MM
NC/100N 50V
C004
0R051/8W
R005
1
----><----|
3V3SB
LED_R RC6 ----><----|
7
1 2 3 4 5 CONN
U001 1 2 3 4
1UF16V
6
CN001
R004 100R 1/16W 5%
----><----|
10-6-1
C
IR/LED panel
2013-0 -29
715G6167 19641_500.eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
TPM15.6L LA
10.
EN 79
Layout IR/LED panel (top side)
LED001 C001
SW001
R004
R005
ZD003
R001
SPG2
U001
Q001
C004 SPG1 R002
Layout IR/LED panel (bottom side)
SPG3
C003
SPG4
C1
R003
C2
ZD002
CN001
C002
C
IR/LED panel layout top/bottom
2013-0 -29
715G6167 19641_501.eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
TPM15.6L LA
10.
EN 80
10.7 J 715G7325 IR/LED Panel IR/LED panel
IR/LED panel
J 3V3SB
1
R2 470R 1/16W 5%
LED1
CONN CN1 1 2 3 4 5
3
2
12-22/BHR6C-C31/2C
6
R5 1K 1/16W 5% LED_R LED_B IR
LED_R
Q1 BC847C
3V3SB
R6 1K 1/16W 5% LED_B
Q2 BC847C
3V3SB 3V3SB
R8 100R 1/16W 5% R1 10K 1/16W 5%
C
U
1
IR
U1 1 2 3 4
ZD201 MLVG0402
C1 1uF 10V
GND VCC Vout GND TSOP75436TR
2
J
7
10-7-1
C
U
201 -08-22
IR/LED panel
715G7325 19771_500.eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 81
IR/LED board layout
Layout IR/LED panel (top side)
ZD4
R6
R5
Q1
Q2
R2
R1
R8 C1
10-7-2
TPM15.6L LA
ZD201
U1
LED1 ZD7
Layout IR/LED panel (bottom side)
CN1
ZD5
ZD8 201 -08-29
IR/LED panel layout top/bottom
715G7325 19771_501.eps
2015-July-10 back to
div table
Circuit Diagrams and PWB Layouts
TPM15.6L LA
10.
EN 82
10.8 E 715G6316 Keyboard control panel Key
Key
E
switch
Voltage
Center
2-5 short
Menu
0R
0V
Right
1-5 short
CH+
1K2
0.5V
Left
4-5 short
CH-
2K2
0.81V
Down
3-5 short
VOL-
6K8
1.65V
Up
6-5 short
VOL+
15K
2.27V
Key functionResistance
No function
3.3V
7
100N 50V
SW01 1 F5
F4 6
2 F1
5
3 F3
F2 4
SW 6P
8
Joystick circuit diagram pin1
pin2
pin3
pin4
pin5
pin6
F1 F2 F3 F4
NC/100N 50V
C05
15K 1/10W 1%
R05
C04
NC/100N 50V
R04
2K2 1/10W 1%
NC/100N 50V
C03
R03
NC/100N 50V
C02
0R05 1/10W
F5
Up ----><----|
R02
Left ----><----|
C01
Down ----><----|
NC/100N 50V
Center ----><----|
----><----|
1K2 1/10W 1%
Right
6K8 1/10W 1%
C06 CONN
Direction
KEY1 ----><----|
1 2
R01
CN01
3
E
4
10-8-1
1
Keyboard control panel
2013-09 17
715G6316 19610_545 eps
back to 2015-July-10 div table
Circuit Diagrams and PWB Layouts
10.
EN 83
Key board layout
SW4
R01 C01 R02 C02
SW5
SW3
SW2
SW01
CN01
C06
R1
C05
R05
Layout Keyboard control panel (top side)
SW6
10-8-2
TPM15.6L LA
C04 R04
SW7
C03 R03
R2
Layout Keyboard control panel (bottom side)
1
Keyboard control panel layout top/bottom
2013-09 17
715G6316 19610_546 eps
2015-July-10 back to
div table
Styling Sheets
TPM15.6L LA
11.
EN 84
11. Styling Sheets 11.1
5000 series 32"
5000 series 32"
1053
1184 0095 0040 1054 0030
1056
1184
1057
0050 1050
Pos No.
0030
Description
Remarks
Bezel
0040
Rear cover
0050 0095
Stand Assembly V0 SHEET
1050 1053 1054 1056
Display panel Panel SSB Power Supply Unit
1057
IR/LED panel Keyboard control panel
1176 1184
Remote control Speakers
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9 19770_800.eps
back to 2015-July-10 div table
Styling Sheets 11.2
TPM15.6L LA
11.
EN 85
4100 series 24"
4100 series 24"
1184 1053
0040 1050
1057 1054
1184
0095
0050R
0050L
0030
1056 Pos No.
Description
0030
Bezel
0040
Rear cover
0050 0095
Stand Assembly V0 SHEET
1050 1053 1054 1056
Display panel Panel SSB Power Supply Unit
1057
IR/LED panel Keyboard control panel
1176 1184
Remote control Speakers
Remarks
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9 19771_800.eps
2015-July-10 back to
div table
Styling Sheets 11.3
TPM15.6L LA
11.
EN 86
5000 series 40"
5000 series 40"
1053 0040 1184
1057 1054 0030
1184
0095 0050
Pos No.
1050
1056
Description
0030
Bezel
0040
Rear cover
0050 0095
Stand Assembly V0 SHEET
1050 1053 1054 1056
Display panel Panel SSB Power Supply Unit
1057
IR/LED panel Keyboard control panel
1176 1184
Remote control Speakers
Remarks
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9 19770_801.eps
back to 2015-July-10 div table
Styling Sheets 11.4
TPM15.6L LA
11.
EN 87
5000 series 48"
5000 series 48"
1053
1184
0030
1054 0095 0040
1050
1184 1057
1056
0050
Pos No.
Description
0030
Bezel
0040
Rear cover
0050 0095
Stand Assembly V0 SHEET
1050 1053 1054 1056
Display panel Panel SSB Power Supply Unit
1057
IR/LED panel Keyboard control panel
1176 1184
Remote control Speakers
Remarks
Not displayed
FOR ELECTRICAL PARTS/ASSEMBLIES SEE WIRING DIAGRAM CHAPTER 9 19770_802.eps
2015-July-10 back to
div table