47LX650047LX65001080P 47LX650047LX6500LED Backlights
1080PDirect View LCD
Training
LCD-DV Troubleshooting42" Class Full HD 1080PLCD TV (42" diagonally)
Published December 7th, 2010Updated January 26th, 2011
OUTLINEOUTLINE
Preliminary Section:yContact Information, Preliminary Matters, Specifications,LCD Overview, General Troubleshooting Steps, Signal Distribution, Disassembly Instructions and Voltages
Troubleshooting Section: Board Operation Troubleshooting of :
Signal Distribution, Disassembly Instructions and Voltages
Disassembly Section: Removal of Circuit Boards
• Switch Mode Power Supply
• Inverter Boards Main and Secondary (LED Backlight Drivers)
• T-CON/3D Board
• Main Board
• Soft Touch Keys
• Ft Control Board
December LCD TV 47LX65002
• Speakers
47LX6500 LCD Direct View Display
Overview of Topics to be DiscussedOverview of Topics to be Discussed
47LX6500 LCD Direct View Display
Section 1This Section will cover Contact Information and remind the Technician of Important Safety Precautions for the Customers Safety as well as the Technician and the Equipment.
Basic Troubleshooting Techniques which can save time and money sometimes can be overlooked. These techniques will also be presented.
Thi S ti ill t th T h i i f ili ith th Di bl Id tifi ti dThis Section will get the Technician familiar with the Disassembly, Identification and Layout of the LCD Display Panel.
f S f CAt the end of this Section the Technician should be able to Identify the Circuit Boards and have the ability and knowledge necessary to safely remove and replace any Circuit Board or Assembly.
December LCD TV 47LX65003
IMPORTANT SAFETY NOTICEIMPORTANT SAFETY NOTICE
Preliminary Matters (The Fine Print)Preliminary Matters (The Fine Print)
IMPORTANT SAFETY NOTICEIMPORTANT SAFETY NOTICE
The information in this training manual is intended for use by persons possessing an adequate background in electrical equipment, electronic devices, and mechanical systems. In any attempt to repair a major Product, personal injury and property damage can result. The manufacturer or seller maintains no liability for the interpretation of this information, nor can it assume any liability in conjunction with its use. When servicing this product, under no circumstances should the original design be modified or altered without permission from LG Electronics. Unauthorized modifications will not only void the warranty, but may lead to property damage or user injury If wires screws clips straps nuts or washers used to complete a ground path are removed foruser injury. If wires, screws, clips, straps, nuts, or washers used to complete a ground path are removed for service, they must be returned to their original positions and properly fastened.
CAUTIONCAUTIONCAUTIONCAUTION
To avoid personal injury, disconnect the power before servicing this product. If electrical power is required for diagnosis or test purposes, disconnect the power immediately after performing the necessary checks. Also be g p p , p y p g yaware that many household products present a weight hazard. At least two people should be involved in the installation or servicing of such devices. Failure to consider the weight of an product could result in physical injury.
December LCD TV 47LX65004
ESD ESD Notice (Electrostatic Static Discharge)Notice (Electrostatic Static Discharge)
Today’s sophisticated electronics are electrostatic discharge (ESD) sensitive. ESD can weaken or damage the electronics in a manner that renders them inoperative or reduces the time until their next failure. Connect an ESD wrist strap to a ground connection point or unpainted metal in the product. Alternatively, you can touch your finger repeatedly to a ground connection point or unpainted metal in the product. Before removing a replacement part from its package, touch the anti-static bag to a ground connection point orremoving a replacement part from its package, touch the anti static bag to a ground connection point or unpainted metal in the product. Handle the electronic control assembly by its edges only. When repackaging a failed electronic control assembly in an anti-static bag, observe these same precautions.
l fl fRegulatory InformationRegulatory Information
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful g p p ginterference when the equipment is operated in a residential installation. This equipment generates, uses, and can radiate radio frequency energy, and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user isradio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: Reorient or relocate the receiving antenna; Increase the separation between the equipment and the receiver; Connect the equipment to an outlet on a different circuit than that to which the receiver is connected; or consult the dealer or an experienced radio/TV technician for help.
December LCD TV 47LX65005
LG Contact InformationLG Contact Information
Customer Service (and Part Sales) (800) 243-0000T h i l S ( d P S l ) (800) 84 9Technical Support (and Part Sales) (800) 847-7597USA Website (GSFS) http://gsfs-america.lge.comCustomer Service Website http://www.us.lgservice.comgKnowledgebase Website http://lgtechassist.comLG Web Training https://lge.webex.comLG CS L i A d htt //l l /il
Presentations with Audio/Video and Screen Marks
New: 2010 Models Wireless Ready Software Downloads for
htt //136 166 4 200LG CS Learning Academy http://ln.lge.com/ilearn
32LD350 32LG40 32LH30 37LH55 42LG60 42LG70 42LH20 42LH40 42LH50 42LH90
http://136.166.4.200Training Manuals, Schematics with Navigational Bookmarks, Start-Up Sequence, Owner’s Guides,
Interconnect Diagrams, Dimensions, Connector IDs, Product Pictures and Features.
32LD350, 32LG40, 32LH30, 37LH55, 42LG60, 42LG70, 42LH20, 42LH40, 42LH50, 42LH90, 42SL80, 47LG90, 47LH85, 42LE5500, 42LX6500 (3D), 47LX9500 (3D), 55LX6500 (3D)42PG20, 42PJ350, 42PQ20, 42PQ30, 50PG20, 50PJ350, 50PK250, 50PK750, 50PS80, 50PK950, 50PS60, 60PK750, 60PK950, 60PS11, 60PS60, 60PS80
LCD-DV:
PLASMA:
Published July 2010 by LG Technical Support and TrainingLG El i Al b I
Also available on the Plasma Page:PDP Panel Alignment Handbook,
Plasma Control Board ROM Update (Jig required)New Training Materials on the New Training Materials on the
Learning Academy siteLearning Academy site
December LCD TV 47LX65006
LG Electronics Alabama, Inc. 201 James Record Road, Huntsville, AL, 35813.
Safety and Handling RegulationsLCD Direct View OverviewLCD Direct View Overview
1. Approximately 20 minute pre-run time is required before making any picture performance adjustments from the Menu.
2. Refer to the Voltage/Current silk screening on the Switch Mode Power Supply.3. C-MOS circuits are sensitive to static electricity.3. C MOS circuits are sensitive to static electricity.
Use caution when dealing with these IC and circuits.4. Exercise care when making voltage and waveform checks to prevent costly short circuits
from damaging the unit. 5. Be cautious of lost screws and other metal objects to prevent a possible short in the 5 e cau ous o os sc e s a d o e e a objec s o p e e a poss b e s o e
circuitry.
Checking Points to be Considered
1. Check the appearance of the Replacement Panel and Circuit Boards for both physical damage and part number accuracy.
2 Check the model label Verify model names and board model matches2. Check the model label. Verify model names and board model matches.3. Check details of defective condition and history. Example: Oscillator failure dead set, etc…
December LCD TV 47LX65007
Basic Troubleshooting StepsBasic Troubleshooting Steps
Define, Localize, Isolate and Correct
•Define Look at the symptom carefully and determine what circuits could be causing the failure. Use your senses Sight, Smell, Touch and Hearing. Look for burned parts and check for possible overheated components. Capacitors will sometimes leak dielectric material and give off a distinct odor Frequency of power supplies will change with the load or listen forand give off a distinct odor. Frequency of power supplies will change with the load, or listen for relay closing etc. Observation of the front Power LED may give some clues.
•Localize After carefully checking the symptom and determining the circuits to be checked and after giving a thorough examination using your senses the first check shouldchecked and after giving a thorough examination using your senses the first check should always be the DC Supply Voltages to those circuits under test. Always confirm the supplies are not only the proper level but be sure they are noise free. If the supplies are missing check the resistance for possible short circuits.
•Isolate To further isolate the failure, check for the proper waveforms with the Oscilloscope to make a final determination of the failure. Look for correct Amplitude Phasing and Timing of the signals also check for the proper Duty Cycle of the signals. Sometimes “glitches” or “road bumps” will be an indication of an imminent failureglitches or road bumps will be an indication of an imminent failure.
•Correct The final step is to correct the problem. Be careful of ESD and make sure to check the DC Supplies for proper levels. Make all necessary adjustments and lastly always perform a Safety AC Leakage Test before returning the product back to the Customer
December LCD TV 47LX65008
perform a Safety AC Leakage Test before returning the product back to the Customer.
47LX6500 47LX6500 PRODUCT INFORMATION SECTIONPRODUCT INFORMATION SECTION
This section of the manual will discuss the specifications of the47LX6500
December LCD TV 47LX65009
LCD Direct View Display
Wireless Media Box (Sold Separately)
Wireless Media BoxWireless Media Box
The Wireless Media box communicates to the television via a wireless receiver called a “Dongle”. The Dongle attaches to the Television via two connections:
1. HDMI Cable from the Dongle to the TV to transfer Audio and Video Signals.2 Wi d R t bl b t th TV d D l f C t l F ti
Media Box
2. Wired Remote cable between the TV and Dongle for Control Functions.
Wired Remote to control the Media Box
Wi l R i /T itt
TV A/V Inputs
Wireless Receiver/Transmitter“Dongle”
Attaches via Velcro tothe back of the set
HDMI
December LCD TV 47LX650010
HDMI
Wireless LAN DLNA Adaptor Sold Separately
Wireless LAN Wireless LAN DLNA AdaptorDLNA Adaptor
DLNA: Digital Living Network Alliance
Using the LG Wireless LAN for Broadband DLNA Adaptor, which is sold separately, allows the TV to connect to a wireless LAN network. The DLNA adaptor attaches to the Television via either of the two USB connections:
DLNA: Digital Living Network Alliance
Wireless RouterDLNA Adaptor Wireless RouterDLNA Adaptor“Dongle”Side A/V Inputs
December LCD TV 47LX650011
Basic SpecificationsBasic Specifications
Key TV Featuresy• 3D Ready• LED Plus w/Local Dimming
NetCast™ Entertainment Access*
• ENERGY STAR® Qualified• Intelligent Sensor
AV Mode II (Cinema Sports Game)• NetCast™ Entertainment Access*(Wi-Fi® Ready)
• Wireless 1080p Ready*• DLNA Certified®
• AV Mode II (Cinema, Sports, Game)• Clear Voice II• ISF ccc® Ready• 24P Real Cinema• DLNA Certified®
• TruMotion 240Hz• Full HD 1080p Resolution• 8M:1 Dynamic Contrast Ratio
• 24P Real Cinema• USB 2.0 (JPEG, MP3, DivX HD)• DivX® HD• 4 HDMI™ V 1 4a Inputs• 8M:1 Dynamic Contrast Ratio
• Seamless Design• Picture Wizard II(Easy Picture Calibration)
• 4 HDMI V.1.4a Inputs• SIMPLINK™ Connectivity• Dolby® Digital 5.1 Decoder• Infinite Sound(Easy Picture Calibration)
• Smart Energy Saving Infinite Sound
December LCD TV 47LX650012
Logo Familiarization Page 1 of 3Logo Familiarization Page 1 of 3
FULL HD RESOLUTION 1080P HD Resolution Pixels:1920 (H) × 1080 (V)( ) ( )Enjoy twice the picture quality of standard HDTV with almost double the pixel resolution. See sharper details like never before. Just imagine a Blu-ray disc or video game seen on your new LG Full HD 1080p TV.
FULL HD RESOLUTION 1080P HD Resolution Pixels:Prepare to be dazzled. Tired of dark scenes or dull colors? LG’s LED Plus technology provides even greater control of brightness through local dimming to deliver amazing clarity and color detail, as well as
Entertainment on tap. NetCast Entertainment Access brings the best
g g g y ,a more energy efficient TV compared to conventional TVs.
Internet services direct to your TV—no computer required. Instantly access movies and TV shows, news and weather and the world’s largest library of HD movies in 1080p.
Wireless ReadyWireless 1080p Connectivity lets you cut loose from messy wires and still get a stunning Full HD picture. Disclaimer: Wireless media kit required and sold separately.
December LCD TV 47LX650013
Logo Familiarization Page 2 of 3Logo Familiarization Page 2 of 3
HDMI (1.3 Deep Color) Digital multi-connectivity HDMI (1 3 Deep color) provides a wider bandwidth (340MHz
Invisible Speaker
HDMI (1.3 Deep color) provides a wider bandwidth (340MHz, 10.2Gbps) than that of HDMI 1.2, delivering a broader range of colors, and also drastically improves the data-transmission speed.
Invisible SpeakerPersonally tuned by Mr. Mark Levinson for LG TAKE IT TO THE EDGE newly introduces ‘Invisible Speaker’ system, guaranteeing first class audio quality personally tuned by Mr. Mark Levinson, world renowned as an audio authority. It provides Full Sweet Spot and realistic sound equal to that of theaters with its Invisible Speaker.
AV Mode "One click" Cinema, THX Cinema, Sport, Game mode.TAKE IT TO THE EDGE is a true multimedia TV with an AV Mode which allows you to choose from 4 different modes of Cinema, Sports and Game by a single click of a remote control.
Clear Voice Clearer dialogue sound Automatically enhances and amplifies the sound of the human voice frequency range to provide high-quality dialogue when background noise swells.
December LCD TV 47LX650014
Logo Familiarization Page 3 of 3Logo Familiarization Page 3 of 3
Save Energy, Save MoneyIt reduces the plasma display’s power consumption.p p y p pThe default factory setting complies with the Energy Star requirements and is adjusted to the comfortable level to be viewed at home.(Turns on Intelligent Sensor).
Save Energy, Save MoneyHome electronic products use energy when they're off to power features like clock displays and remote controls. Those that have earned the ENERGY STAR use as much as 60% less energy to perform these functions, while providing the
f t th i l ffi i t d l Lsame performance at the same price as less-efficient models. Less energy means you pay less on your energy bill. Draws less than 1 Watt in stand by.
TruMotion 240HzSee sports, video games and high-speed action with virtually no motion blur and in crystal clarity with LG’s TruMotion 240Hz technology. Now your TV can keep up with the fastest moving scenes.
Picture WizardPicture WizardGet easy self-calibration with on-screen reference points for key picture quality elements such as black level, color, tint, sharpness and backlight levels. Take the guesswork out of picture adjustments with this simple-to-use feature. It's not actually magic, but it will sure seem th t
December LCD TV 47LX650015
that way.
47LX6500 Remote Controls47LX6500 Remote Controls
December LCD TV 47LX650016
Remote AKB72914036
Accessing the Service MenuAccessing the Service Menu
To access the Service Menu.1) You must have either Service Remote. )
p/n 105-201M or p/n MKJ391708282) Press “In-Start”3) A Password screen appears.4) Enter the Password.)
Note: A Password is required to enter the Service Menu. Enter; 0000Se ce e u te ; 0000
Note: If 0000 does not work use 0413.
December LCD TV 47LX650017
MKJ39170828105-201M
1. Country Group (Press OK to Save) Country Group Code Country Group Country2. Tool Option Tool Option 1 Tool Option 2 Tool Option 3 Tool Option 4 Tool Option 53. Adjust White Balance:4. Adjust ADC: 4809 Component 1080p Component RGB5. EDID(AC3): RGB HDMI1 HDMI2 HDMI3 HDMI4
02USUS
33760302835636455491794
OK(12) OK
NGNGNG
OKOK (0x1D)
OK (0x4,0x0)OK (0x4,0xF0)OK (0x4,0xE0)OK (0x4,0xD0)
IN SARTModel Name: 47LX6500-UAS/W Version: SKJY1107MICOM VersionBOOT VersionFRC VersionIR LED VersionEDID Version (RGB)EDID Version (HDMI)Chip TypeWireless Host Ver.Wireless B/B/ Ver.Vi-Fi VersionVi-Fi ChannelWi-Fi MAC : 00:E0:91:D0:0D:4CMAC Address : 00:E0:91:D0:0D:4CESN Num. : LGE-LX6500XXXX000A0C9037Local Dimming Ver.FPGA VersionDebug Status
UTT : 4APP History Ver.:51882BPQL DB:LGD_EF_LGT10_xxxxxx
1. Adjust Check2. ADC Data3. Power Off Status4. System 15. System 26. Model Number D/L7. Test Option8. External ADC9. Spread Spectrum10. Sync Level11. Wireless Ready12. Stable Count13. ODC Test14. Local Dimming
Adjust Check
: V04.10.06.01: 3.06.5: 1.03.13: c8: 0.01: 0.04: BCM 3549: 0.00.0: 0.00.0:1.0: 6
:0x0707:3.10:RELEASE
47LX6500 Service Menu First Page47LX6500 Service Menu First Page
18 September 2010 47LX6500 LCD-DV
Unit Total Time
SW Version
CountryGroup
Audio Mode
Bring up the Service Menu using the Service RemoteAnd pressing “In-Start” enter password 0413.
TV Rear Input / Output JacksTV Rear Input / Output JacksSide In/OutUSB1 or USB2 for Software
Upgrades, Wireless Dongle, Music and Photos
Rear In/Out JacksUSB 2
USB 1
HDMI
USB 1
Component or
LAN
Composite Video/Audio 3
HeadAntenna In
MAIN BOARD
Wireless Media BoxRemote Jack
Phones
MAIN BOARDRear and Side
Input/Output locations HDMI 4
December LCD TV 47LX650019
Software Updates (New and Changed Functions)Software Updates (New and Changed Functions)
A wireless Internet Connection will work for Automatic Software Downloads., however if there are problems completing download, a Wired Internet Connection is preferredp p g , p
For network setup assistance, press the green button for the Simple Manual
Bring up the Customer’s Menu then Press the Red button on Remote Scroll down to item 9 Network Connections
With Software Update Highlighted, Press Select on Remote
December LCD TV 47LX650020
Continue on next page
Software Updates (New and Changed Functions) ContinuedSoftware Updates (New and Changed Functions) Continued
Automatic Internet Software UpdateOff A tomatic Soft are pdate does not ork- Off : Automatic Software update does not work
- On : if new Software released, Software download notice appears at turn on with two choices, Yes and Remind Me Later.
Check Update versionCheck Update version- comparison current software version and
Released software version
Additional TV Checks can be made by
After completion of the test, a Pop up menu is displayed with preloaded back ground picture.Select NO if everything is OK.
yScrolling down.Picture, Sound and Network Test
y g
If you select Yes;Service call number, Model name,SW version and serial No. is displayed. Note: Confirm the “Suffix” of the model number.
If the Main board is replaced, the Model and Serial number must be reinserted
December LCD TV 47LX650021
into memory. See Model Number D/L.
1) Create an LG_DTV folder on the USB Flash Drive
USB Automatic Software Download Instructions (Generic)USB Automatic Software Download Instructions (Generic)Currently Installed Version
Software Version
found on the USB Flash
DriveDrive
File found on the USB Flash Drive
2) Copy new software (xxx.epk) to "LG_DTV" folder. Make sure to have correct software file.
3) With TV turned on insert USB flash drive3) With TV turned on, insert USB flash drive.4) You can see the message
“TV Software Upgrade” (See figure to right)5) Cursor left and highlight "START" Button and
push “Enter” button using the remote control. 6) You can see the download progress Bar.7) Do not unplug until unit has automatically
restarted.8) When download is completed, you will see
“COMPLETE”
* CAUTION: Do not remove AC power or the USB Flash Drive. Do not turn off Power, during the upgrade process.
December LCD TV 47LX650022
COMPLETE . 9) Your TV will be restarted automatically.
Software Files are now available fromLGTechassist.com
Manual Software Download Instructions: GenericManual Software Download Instructions: Generic
Prepare the Jump Drive as described in the “USB Automatic Download” section and insert it into either of the USB ports.p p pBring up the Customer’s Menu and scroll to “OPTIONS”.Press the “FAV” key 7 times to bring up the Manual Download Screen.
Highlight the Software update file g g pand press “SELECT” to begin the download process.
WARNING:Use extreme CautionUse extreme Caution when using the Manual “Forced” Download Menu. Any file can be downloaded when
Example of files foundOn the Jump Drive
selected and may cause the Main board to become inoperative if the incorrect file was selected.
December LCD TV 47LX650023
47LX6500 Model Number Download Screen47LX6500 Model Number Download Screen
24 December 2010 47LX6500 LCD-DV
1. Adjust Check2. ADC Data3. Power Off Status4. System 15. System 26. Model Number D/L7. Test Option8. External ADC9. Spread Spectrum10. Sync Level11. Wireless Ready12. Stable Count13. ODC Test14. Local Dimming
0. Model Name1. Serial Num.
Model Number D/L
Press OK to Save
47LX6500-UA003PTXV2P890
Bring up the Service Menu using the Service Remote.Scroll down to item 6. Model Number D/L to highlight.Press “Select” or “Cursor Right”.
Change the Model and Serial Number to match. To Change the Model Number Use the cursor right or left to select the area to change. Use the cursor up or down to change.Cursor right until there is no text cursor blinking.Scroll down to highlight “Serial Number” and change.
47LX6500 UTT Reset (IN START) Screen47LX6500 UTT Reset (IN START) Screen
25 December 2010 47LX6500 LCD-DV
1. Adjust Check2. ADC Data3. Power Off Status4. System 15. System 26. Model Number D/L7. Test Option8. External ADC9. Spread Spectrum10. Sync Level11. Wireless Ready12. Stable Count13. ODC Test14. Local Dimming
0. Baudrate1. 2 Hours Off (On Timer)2. 2 Hours Off (Screen Mute)3. 15Min Force Off4. Audio EQ5. Audio Bass EQ6. A2 Threshold7. HDMI Sound(Port1)8. Lip Sync Adjust(ATV)9. Dimming10. Tuner Option11. Atten RF Signal12. UTT Reset13. Channel Mute14. Debug Status15. NVRAM Type16. HDEV17. Blue back18. China Cable SO19. Booster On (VHF)20. Booster Off (VHF)21. Booster On (UHF)22. Booster Off (UHF)
IN SART SYSTEM 1Model Name: 47LX6500-UAS/W Version: SKJY1107MICOM VersionBOOT VersionFRC VersionIR LED VersionEDID Version (RGB)EDID Version (HDMI)Chip TypeWireless Host Ver.Wireless B/B/ Ver.Vi-Fi VersionVi-Fi ChannelWi-Fi MAC : 00:E0:91:D0:0D:4CMAC Address : 00:E0:91:D0:0D:4CESN Num. : LGE-LX6500XXXX000A0C9037Local Dimming Ver.FPGA VersionDebug Status
UTT : 4APP History Ver.:51882BPQL DB:LGD_EF_LGT10_xxxxxx
9600OnOffOnOnOn11
HDMI Port10
OnEnhanced Ghost
OffReset
OnRELEASEEEPROM
OffOnOn0000
Scroll to (UTT Reset)
Press (Select)Reset changes to Doing
then back to Reset
Scroll to (System 1)
thenRight Cursor
: V04.10.06.01: 3.06.5: 1.03.13: c8: 0.01: 0.04: BCM 3549: 0.00.0: 0.00.0:1.0: 6
:0x0707:3.10:RELEASE
After Reset (Doing) has completed, Reset returns.After Exit the UTT Timer is
“0”
Unit Total Time
Changes to Doing
4) Cursor Left to only highlight the briefcaseon the left
Accessing the Host Diagnostic Screen Accessing the Host Diagnostic Screen (Page (Page 1 of 2)1 of 2)
1) Place Television on a digital channel.
2) Bring up the Customer’s Menu and highlight Options
on the left.
3) The Option Menu appears5) Press the (1) Key 5 to 8 times.
December LCD TV 47LX650026
See next page for more details.
Wireless Host Ver:0.00.0Wireless B/B Ver:0.00.0RF Region Config : Not ConfiguredMedia Box Type : Not ConfiguredRF Frequency (Value):Auto (N.A.)Uplink RF Power gain (Value):Auto (Min 0)Downlink RF Power gain (Value):Auto Link Mode : UnicastRX MAC Address : ff:ff:ff:ff:ff:ffTX MAC Address : ff:ff:ff:ff:ff:ffWireless connection status:DisconnectedAverage SNR [db]:0.0(0)
Host Information
Memory
Host Release Version
FAT Status (Main)
Current Channel (Main)
DVI/HDMI StatusCan’t display this information now
Channel Info : Digital 19-2
Parental Control : Channel is not blocked
Host Diagnostics
Model Name : 47LX6500-UA (Liquid Crystal Display)
FLASH : 524288 KBDRAM : 524288 KBNVM : 128 KB
Firmware Version(MP) : 4.10.04.01(51822)Micom Version : 3.06.5Compile Date & Time : 20101112 & 15:17:49Compile User : kyuhae.lee
Center Frequency : 663.00 MHzPCR lock : LockedModulation mode : QAM 256Carrier lock status : LockedSNR : 40 dBSignal level : 100%
Half Page Move Page ExitCH
27
Understanding the Host Diagnostic Screen (Page 2 of 2)Understanding the Host Diagnostic Screen (Page 2 of 2)
December 2010 47LX6500 LCD-DV
Channel Selected
Software Version
Blocked or not Blocked
Channel Frequency
Program Clock Reference (Locked or No)Channel Type (8VSB, QAM 64, 256)
Channel (Locked or No)Channel Signal to Noise Ratio
Channel Signal Level (Above 80% good)
8VSB (Above 20 is good)QAM 64 (Above 24 is good)
QAM 256 (Above 30 is good)
Adjust Menu: Downloading EDID Data Pg 1 of 2Adjust Menu: Downloading EDID Data Pg 1 of 2
1) Press “ADJ” key on the 2) Scroll down and Highlight Either
Service Menu “In-Start” will show the current Audio Format setting.
1) Press ADJ key on theService Remote.
2) Scroll down and Highlight Either “PCM EDID D/L” or AC3 EDID D/L and press “Select”
“PCM EDID D/L” AC3 EDID D/L
December LCD TV 47LX650028
Selected Selected
Adjust Menu: Downloading EDID Data Pg 2 of 2Adjust Menu: Downloading EDID Data Pg 2 of 23) Highlight “Start”
then Press “Select” key.4) When Writing appears
5) Downloading Complete
When PCM EDID D/L was selected with AC3
Note: If “Reset” is selected, Erasing appears. After 4) When Writing appears
Downloading in progressCompletepreviously set completion, NG will show.
When AC3 EDID D/L was selected with PCM previously set
Note: If “Reset” is selected, Erasing appears. After completion, NG will show.
3) Highlight “Start” then Press “Select” key.
4) When Writing appearsDownloading in progress
5) Downloading Complete
Note: When PCM is downloaded, AC3 will be N/G and when AC3 is downloaded PCM will be N/G. This means that when PCM is OK PCM audio is priority and when AC3 is OK AC3 audio is priority
December LCD TV 47LX650029
when PCM is OK, PCM audio is priority and when AC3 is OK, AC3 audio is priority.If “Reset” is selected, “Erasing” appears then “NG”.
47LX6500 Product Dimensions47LX6500 Product Dimensions
7.7/8"200mm
27.3/16"690.88mm
44.3/8"1127.76mm
Remove 4 screws to remove stand for
wall mount
20.3/16"512mm
30"762mm
1.3/16"30.48mm
11.3/16"284.48mm
7.7/8"200mm
8.1/8”207mm
11.7/16”290mm
2.13/16" (71.12mm)
Weight w/o Stand 43.2 lbsWeight with Stand 50.5 lbs
Center
There must be at least 4 inches of Clearance on all sides
30
18.1/4”463.5mm
13.3/4"349.40mm
Model No.Serial No.
Label
WattageTypical 160WStand By <0.1W
December 2010 47LX6500 LCD-DV
3D SECTION3D SECTION
3DThis section of the manual will discuss theThis section of the manual will discuss the
47LX6500 LCD Direct View Television ability to play 3D material.play 3D material.
Upon completion of this section the Technician will have a better understanding of the how 3D
works.
December LCD TV 47LX650031
LG 3D Emitter & GlassesLG 3D Emitter & Glasses
Convenient Emitter built-in to TV
IR Sync
• Wider viewing angle• Longer Viewing distance• Longer battery life
IR Sync(1.5h charging / 40h battery life)• Better sync performance
600
600
7m
User friendly Glasses1) L-frame for glasses users2) UV coating to prevent scratch IR Emitter
Location
600
) g p3) LED indicator for user convenience4) Easy to Recharge with USB port
13
Location
2
4
December LCD TV 47LX650032
LG 3D TV 3D broadcastingLG 3D TV 3D broadcasting3D for All types of broadcasting signals1. Input of broadcasting signalp g g2. Press “3D” button for mode change3. Select type of input source4. In case 3D looks *abnormal, press “L/R
Select” on remote and select “R/L”.
HDBroadcasting
SDBroadcasting
OnlineVideo
Inp
Inp
Inp
(1)*Abnormality may be caused by reversed L/R order of the input signal. If TV already in Left/Right change to Right/Left or vice versa.
ut ut ut
USBPort
ComponentCompositeRF S-Video
(1)
HDMIComponent
RF RF, S-VideoRF
(2)(4) (3)
Top & Bottom Side by Side Checker Single frame
December LCD TV 47LX650033
Top & Bottom Side by Side Board Sequential
3D Fundamentals3D FundamentalsEach eye looks at an image for slightly different angles. Therefore, the brain takes these two different images and translates them into one image giving us depth perception. This is difficult to reproduce on a 2 dimensional screen We have to come up with a scheme that will allow us toreproduce on a 2 dimensional screen. We have to come up with a scheme that will allow us to see the same image from two different angles giving us 3D effects.
If the two images were added together without
Note: The Left and Right eye are actually seeing the same image but from a different angle, but for this explanation one is shown inverted from the other for clarity purposes simply to show there
g gthe brain doing the calculations to combine them, they appear out of focus.
December LCD TV 47LX650034
for this explanation one is shown inverted from the other for clarity purposes simply to show there is a difference between the two images seen by each eye.
3D Active Glasses Type3D Active Glasses Type
Shutter glasses type 3D: Separating left and right images by synchronizing the TV and the glassesSeparating left and right images by synchronizing the TV and the glasses
Fundamentals of Shutter glasses
< Frame 1 > < Frame 2 >
< F 1 >< Frame 1 >
The image is broadcast using two different viewing angles every other frame.
F 2
The 3D Glasses are then synchronized with the two different images to give the 3D effect
Note: The Left and Right eye are actually seeing the same image but from a different angle, but for this explanation one is shown inverted from the other for clarity purposes simply to show there is a difference between the two images seen by each eye.
< Frame 2 >
December LCD TV 47LX650035
the two different images to give the 3D effect.They are blanked between scene changes.
images seen by each eye.
Active glasses 3DTV componentsActive glasses 3DTV components
Battery
IR R iReceiver
TN LCD shutter
Syncsignal
TV with built in IR TransmitterShutter Actuator
December LCD TV 47LX650036
TT--CON with 3D FormatterCON with 3D Formatter
3D FormatterAll ibl i t F t- All possible input Formats
- Full HD input available - 3D Enhancement
1) Side by Side
2) T d B tt1) Line by Line
Formats 1~3
2) Top and Bottom
3) Checkerboard 3D F tt
R
L 2) Frame by Frame3) Checkerboard
4) Frame Sequential(Full Resolution available)
3D FormatterR
L
Format 4
The 3D Formatter takes any input( ) The 3D Formatter takes any input format and converts it to a usable format for the panel
December LCD TV 47LX650037
OK
Check 3D_SYNC LineMain P7800 pin 49T-CON/3D P802 pin 2
Check 3D Emitter Board Connector 1pin : 5V NG
Replace 3D Emitter Assy.
Cable Open
Note 1: Glasses can operate using the USB connector plugged in if batteries are not charged.Note 2: Don’t forget to try L/R select on the Remote before proceeding.Red Power LED should stay on solid for about 3 sec. then go off. When power button is pressed for Power Off, the LED will blink 3 times.A simple test is to hold the glasses about 1 ft. in front of you towards a white sheet of paper. The glasses should still be able to see the 3D Emitter signal from the TV while playing a 3D movie. If the glasses sync up the paper will appear as looking through normal sun glasses, if not synced, the paper will appear amber in color.
Don’t forget to check the “Type” of signal coming in to the TV and make sure it was selected on the first screen if not automatically selected.
Don’t forget to try swapping the L/R selection by pressing the “3D Setting button” on the remote control. (Blue Button in the Special Function Buttons)
Make sure the 3D Glassesare charged
Change the 3D Glasses
No 3D
OK Possible *FPGA (Main) or *FRC (T-CON/3D) has problems.Replace It or T-CON/3D Board.
For details about making the 3D Sync line check, see next page.
Check 3D Emitter Voltage of Main Board
P2401 pin 1 : 5V NG
Disconnect Connector P2401, recheck 5V pin 1.If OK, check 3D emitter board connector pin 1 diode check, should read Open. 5V_Emitter developed by IC2401 pins 6-7
OK
NG
NG*FPGA: Frame Packer*FRC: Frame Rate Converter
47LX6500 3D Troubleshooting Flow Chart Page 1 of 347LX6500 3D Troubleshooting Flow Chart Page 1 of 3
38 December 2010 47LX6500 LCD-DV
No 3D
Original: p/n: EBR69838801Sub: p/n: EBR72073501
Use Sub p/n for interference on certain remotes.
47LX6500 3D Troubleshooting Flow Chart Page 2 of 347LX6500 3D Troubleshooting Flow Chart Page 2 of 3
39 December 2010 47LX6500 LCD-DV
Q906 (Collector)5.5V p/p 60 Hz
Q907 (Collector)3.9V p/p 60 Hz
“3D-Emitter" to P2401 "Main"
Pin LABEL SBY Run Diode Check
1 +5V_EMITTER 0V 5.1V Open
2 Gnd Gnd Gnd Gnd
3 3D_SYNC 0V 1.6V Open
15) 5.1V6) 0V7) 0V8) Gnd
4) 5.1V3) 1.6V2) 2.15V1) 5.1V
Possible Main or T-CON/3D has problems.
Replace T-CON/3D orMain Board
Should be
OKReplace T-CON
(Formatter B/D)
B) 0.61VE) GndC) 0.03V
Q906
B) 0VE) GndC) 1.9V
Q907
B) 0VE) GndC) 3.5V
Q102IC100
5.3V p/p 12 MHz
5.5V p/p 60 Hz
Continued from previous page
Check 3D_SYNC Line Main P7800 pin 50 T-CON/3D P802 pin 2
Should be
5.5V p/p 60 Hz
1.6VDC
Check Q906, Q907 of T-CON/3D Board
NG
NG
Additional InformationOn the 3D Emitter Board
To TFT Panel
3D IR
Check 3D_SYNC Line Main P802 pin 2
Check 3D_SYNC LinePin 3
Main Board
P7800 Pin 50
P2401Pin 3
A1
A2 C
P805
IC1000
EB
C E B
C
EB
CEB
C
P806
IC102
P101X100
25MHz
IC600
2.52V
2.53V
3.4V
13
25
48
P802P804P803
IC502
IC307IC200
IC205IC302L306
IC301L305
IC304
IC1002 IC1001
IC500 IC400
SW400
IC801
L314
IC308
Q700
L700
IC201
IC204
IC700
Q702L702
IC305
L309
IC306
L601
EB
C
EB
C
P900
L307
L600IC309
IC501
Q1004Q1003
Q1002Q1001
L701 Q701
Q906Q907
D602
D600
D601
L802
11.42VLVDS 12V
TP
n/c
A1A2C
D603
IC310
B) 0.61VE) GndC) 0.03V
Q906
B) 0VE) GndC) 1.9V
Q907
T-CON3D Board
5.5V p/p 60 Hz
1.6VDC
5.5V p/p 60 Hz
1.6VDC
47LX6500 3D Sync Troubleshooting Flow Chart Page 3 of 347LX6500 3D Sync Troubleshooting Flow Chart Page 3 of 3
40 December 2010 47LX6500 LCD-DV
Continued from previous page
To TFT Panel
Eye Tiredness InformationEye Tiredness Information
Why your eyes get tired while you’re seeing 3D images :• The color clarity and resolution of 3D images are lower than those of 2D.• 3D images deliver strong effects. Viewing “popping out” images, which is distorted, for a long time
makes you more tired. • Accommodation and convergence (Your both eyes focus a single point)• 3D presentation with glasses displays unnatural images due to no time difference during eye
3DC safety guidelines for distribution of 3D displays suitable for human eyes were made at the 3D Consortium 2006
3D presentation with glasses displays unnatural images due to no time difference during eye movements.
at the 3D Consortium 2006
• It is recommended to see 3D images within a distance of 2m. • The brain is not able to adjust the focus when you are more
than 2m away from the TV.• Customers don’t have the condition for seeing a display
within 2m, below warning sentence should be noticeable.
If it is impossible for customer to view 3D image displayed on the screen 2m away from the display,displayed on the screen 2m away from the display, keep in mind that the convergence angle should not exceed 2 degrees.
• For example, when you see the display 1m away from the TV, th di t f 3D i i t h ld b ithi
The brain gets confused because of the distance difference between the
actual image and the popping up image
December LCD TV 47LX650041
the distance of any 3D image popping out should be within 38cm.
image.
DISASSEMBLY SECTIONDISASSEMBLY SECTION
Disassembly:This section of the manual will discuss DisassemblyThis section of the manual will discuss Disassembly,
Layout (Circuit Board Identification) of the 47LX6500 LCD
Direct View TelevisionDirect View Television.
Upon completion of this section the Technician will have a better understanding of the disassembly procedures, the layout of the printed circuit boards and be able to
identify each board.identify each board.
December LCD TV 47LX650042
Removing the Back Cover Removing the Back Cover
Remove the remaining 24 screws indicated.Pay attention to the size and type of screw.
Lay TV down on
There could be many different types.Putting in an improper screw when reassembling may Cause damage
yits face. (Soft no scratch surface)
reassembling may Cause damage.
The AC CordCover
Decorative Cover Removed
December LCD TV 47LX650043
Remove the 4 Stand Screws and remove the stand before removing the back.
Circuit Board LayoutCircuit Board LayoutWarning: The Frame has many sharp edges
LED Backlight Connection
P S l LVDS Cable
Main Board
Power Supply(SMPS)
S C
T-CON/3D
Invisible
Ft. IR BoardSoft Touch
Key PadInvisible
Speaker Left
LG Logo
3D EmitterBoard
Panel Connection Points
December LCD TV 47LX650044
InvisibleSpeaker Right
LG Logo Board
POWERSUPPLY
AC In
IR LOGO
47LX6500 Connector Identification Diagram47LX6500 Connector Identification DiagramTFT PANEL
45 December 2010 47LX6500 LCD-DV
Speaker (Front Right)Soft Touch Keys
p/n: EAJ61111701
p/n: EAB60961501 p/n: EAV60793302
p/n: EAY60803402
SK101
P204
J1J2
J3
If the Panel is replaced, reset the UTTTime. Service Menu, System 1 Item 12
P205
P201
To LEDs
White Plug
Black Plug
p/n: EBR69490101AUSWLJR
p/n: EBU60987702AUSWLUR
P8000
P8800
To TFT Panel
T-CON
P802
P806 P805
P7803
P7800
P8200
P8100n/c
n/cP1000
P803
MAIN BOARD
P2401
P101n/c
n/c
P900
P804
Comes with Panel
P7802
3D Emitter boardOriginal: p/n: EBR69838801
Sub: p/n: EBR72073501p/n: EAB60961501
Speaker (Front Right)
p/n: EAD61078208
p/n: EAD60956344
p/n: EBR64966201AUSWLJR
p/n: EBU64966207AUSWLUR
p/n: EBR64966801Use Sub p/n for interference
on certain remotes.
Power Supply Power Supply Board RemovalBoard Removal P201
Board is “Thin” be
p/n EAY60803402
Board is “Thin”, be careful not to flex.
Disconnect P201, P204,
P205 and AC Press in gently on
the two tabst l l kIn SK101. to release lock
SK101 fits very snug into it’s connector.
Remove the 6 screws indicated
SK101
by the arrows.AC In
Press in on thetwo tabs
December LCD TV 47LX650046
to release lock
Removing the Main BoardRemoving the Main Board Flip the locking tab upward, pull the LVDS ribbon out.
Disconnect P7800, P7802, P8000, P7803, P2401, P8200, 8800.
P7800
P7802
P8000 P2401P7803
Remove any tape holding down any cables.
Flip the locking tab
upward, pull the LVDS
Press in on the side
release tabs to remove.
Remove the 4 screws indicated by the arrows.
Decorative Metal Plate
Remove the board and
N/C
Aft i th M i th
ribbon out.
NOTE: Always check on top and behind the Large
Remove the board and then the decorative metal
piece.
P8800
After removing the Main, there are twisted metal tabs sticking
through the Main board holding the Metal plate in place.
p gICs. And look for a piece
of Chocolate(Heat Transfer Material).
Be sure to transfer to new Board if present.
December LCD TV 47LX650047
p/n EBR69490101 AUSWLJRp/n EBU60987702 AUSWLUR
Removing the Main Board Insulator Sheet NoticeRemoving the Main Board Insulator Sheet NoticeNote: Behind the Main Board is an Insulator Sheet. This sheet does not come with a new Panel. Peel the sheet off the old panel and place on the new one.
Chocolate
December LCD TV 47LX650048
Removing the TRemoving the T--CON/3D BoardCON/3D Board
A. Lay the TV down on its face. Use scratch resistant material and remove the stand.B Remove the stand support bracket that surrounds the T-CON/3D board (6 screws) See Fig 1
Comes with the Panel
B. Remove the stand support bracket that surrounds the T-CON/3D board. (6 screws) See Fig. 1.
1 2P802P803
C. Disconnect P802, P803, P804, P805 and P806.D. Remove the 4 screws securing the T-CON/3D.
Fig. 1Stand
Bracket
P802P803
P804
3
Bracket
12
4
Fig. 2
Push InPush In
P802
4 3
P802
P805P806
December LCD TV 47LX650049
P805P806Flip up the Locking mechanism to release ribbon cable.
Removing the TRemoving the T--CON/3D Board NoticeCON/3D Board Notice
Note: Behind the T-CON/3D is a piece of Chocolate (Heat transfer material). Be sure to replace this piece if it should fallBe sure to replace this piece if it should fall.
December LCD TV 47LX650050
Removing Front IR BoardRemoving Front IR Board
Disconnect J1, J2 and J3 connectors.
Tab
Press upward on the two tabs at the top. Tilt the board downward.
Lift straight up To Clear the Tabs at the bottom.
Tab
IR board / Intelligent SensorJ3
J1
p/n EBR64966201 AUSWLJR
Tab Tab
December LCD TV 47LX650051
p/n EBR64966201 AUSWLJRp/n EBR64966207 AUSWLUR
TROUBLESHOOTING SECTIONTROUBLESHOOTING SECTION
Troubleshooting:gThis section of the manual will discuss troubleshooting.
Upon completion of this section the Technician will haveUpon completion of this section the Technician will have a better understanding of how to diagnosis and resolve
problems.
December LCD TV 47LX650052
POWER SUPPLY SECTIONPOWER SUPPLY SECTION
This switch mode power supply p/n EAY60803402 develops Stand By 3.5V at all timeswhen AC is applied. At power on, it develops 12V and 24V for the Main board and 142V for the
p/n EAY60803402
Backlights.
This power supply draws less than 1 watt during stand by mode. The fuse F102 reads approximately 2.46V and F103 reads 160V (from hot ground) during this time. ( g ) gNote: If the unit was on and then turned off, it takes a long time for the voltage to dissipate (bleed down).
When the controller chip receives the PWR-ON command 3 25V via P201 Pin 1 the primary section increases its3.25V via P201 Pin 1, the primary section increases its current supplying ability. Both Primary fuses F102 and F103 now read a little more than 388V.
P201 Connector: (To Main Board)12V (12.43V) is routed out P201 pins 17, 19 and 21 and 24V (21.59V) is routed out P201 pins 2, 3 and 4.
The On-Board Inverter generates;
P204 Connector: (To the Panel’s Backlights)Pin 1 and 12 read 142V generated by D245.
P205 Connector: (To the Panel’s Backlights)Pi 1 d 12 d 142V t d b D245
December LCD TV 47LX650053
Pin 1 and 12 read 142V generated by D245.
Power Supply (SMPS) Board LayoutPower Supply (SMPS) Board Layout
F102
p/n EAY60803402
F1022A/250V
STBY 2.45VRun 388V
From Hot Gnd
F1032A/250V
STBY 160VRun 388VRun 388V
From Hot Gnd
F101F1015A/250V
AC Protect
Hot Ground Shock Hazard
December LCD TV 47LX650054
T-CON
47LX6500 Power Supply Start Up Sequence47LX6500 Power Supply Start Up Sequence
55
Inverter OnStarts the Inverter
Stand By 3.5V
Remote or Power Button Key
MAIN BOARD
PWR_ON
DRVOn
Stand By3.5V D201
2 5 66 8
4
5
Primary side fuses:Stand-By F102 2.46V and F103 160V
Both Run 388V (Hot Gnd)
3
12V 20V
12V
At point TV is in Stand-By state. Energy Star compliant.0 .1 Watts
3
Other Regs
RL_
On
2
No AC Det in this
model
Ft IRKey
142V
Model 1_Opt1 Panel Control
INV_CTL
Microprocessor IC8101
RL_ON
Q8004
P201
T510 &Rectifier P205
Pow
er O
n
Power On
5
P204
142V
P8000
Soft Touch KeyP8200
Inve
rter O
n
Reset Generator
C8108R8184
1AC In
3.5V_ST
P-D
IM
8
4
PanelVCC 12V
5
7
Key 1 or IR
7
VideoProcessor
IC900
IC97021.8V_L/ Dimming
7
SINMOSI, CLK12 Blocks
9
9
December 2010 47LX6500 LCD-DV
POWER SUPPLY (SMPS)POWER SUPPLY (SMPS)
BridgeRelays D2456
5 12V/20V Regulators
On BoardInverter
8
9
6
Local andGlobal Dimming
Local andGlobal Dimming
5
P-DIM1 (PWM-DIM)Pulse Width Dimming
Global DimmingManipulated by:
Cust Menu for Backlightand
Picture ContentManipulate P-DIM
Local Dimming (SIN)
IC9701Dimming
IC
8
8
22182~4
SeeNote 1:
IC8801Audio Amp
171921
19~12 16 Note 1: 12V FROM SMPS IS USED BY:IC8000 5V_USB, IC8003 5V_Normal, IC8005 3.3V_NormalIC8903 +3.3V_MEMC, IC8902 +1.26V_MEMC
MEMC= Motion Estimated Motion Compensated For Video Processor
P-DIM19
9
2
GlobarDimming
V-SYNC
9
23
After Mute Released
LVDS Video
After Mute ReleasedLVDS Video
P7800
P7802 LVDS Video7
10P803
P802
IC600 develops VGL -5V, VCC 3.4V, VGH 26.6V, VCOM 6V,
ZOUT 8V and VDD 16V. Another IC Q701 develops 8.2V. 12V
P805
P806
7
710
LCD PANELTo Panel Backlights
120HzManipulates Backlight
LEDs 12 BlocksLow = Bright
LCD Panel
10
0.38V~3.3VPWM-DIM PWM-DIM
0.09V
PWM-DIM (PWM Dimming) can vary according to incoming video IRE level, OSD Backlight setting and Intelligent Sensor (room light condition). Range 0.38V to 3.3V.
47LX6500 Television Turn On Commands Circuit Drawing47LX6500 Television Turn On Commands Circuit Drawing
R8019100Ω
11.43V
Gnd
Gnd
Gnd
Gnd
3.36V
ERR OUT
PWR
INV_CTL
SMPSP201
R25
11
MAIN BoardP8000
3.5V
Gnd
1
65
87
109
1211
1415
19
17
21
18
24
22
1
65
87
109
1211
1415
19
17
21
18
24
22
Gnd
L8003
L8002+12V
C8001 100uF
R800010K
10
Q8005+3.3V_Normal
INV_CTL
S
2
6
D
7
Q8004
L8015
Panel_Vcc (12V)
3.36V
GQ8003
Model_Opt_1
1.8V
+12VR8010 10KΩ
C8000100uF
+3.5V_ST
RL_ON
GPIO 09
3.28V
56
Q8002
L8000
+3.5V_ST
INV_On
PWR-ON IC8101Micro
RL_ON
Power Det 14
Reset40
Key 1 25
Key 2 26
PowerOn/Off 2_220
R80044.7K
3.5V
3.5V
3.5V
Q80010V
36
R8060 10KΩ
+3.3V_Normal
Reset
12V
Gnd13 13
16 160.02V
23 233.3V
0V
Q8000
R803210K
R818722Ω
R818447K C8108
0.1uF
IC900 BCMR1041 0ΩR8027 0Ω
R817822Ω
IR 16
R813522Ω
R8103100Ω
R800147KR8011 1.8K
To IC9103 DC to DC Conv T-CON
+12VL8013
IC8005
Power_On/Off2_2R8176
22K
R80261K
0.68V
R8003 22KΩ
11.8V11.79V
11.8V
3.36V 8
0.66V0V
3.36V
3.3V 0V
0V
3.1V
21.27V
11.9V
R813422Ω
December 2010 47LX6500 LCD-DV
32
432
4
L800520V
C802468uF
20V
21.27V
12V
12V
SBY3.5V
20 20
T6 M2_MOSI
IC9701Dimming
R9747 22ΩM2_MOSI
R8076 0Ω
SIN
21.27V
21.27V
11.43V
11.43V
U5
R975022ΩVSYNC / R_VS
SCLK
R8078 0Ω
VSYNC
SIN
R6 M2_SCLK
R_VSR9746 22ΩR8077 0Ω
M2_SCLKSCLK
VSYNC
(Data) 3.25V p/p Data
3.64V p/p
3.76V p/p
To BCM
R8025 0Ω
G22R947 0Ω
GPIO 02
PWM-DIM
To pin 24 P8000
AC Should not be applied at any time while adding jumpers or While unplugging connectors as damage to the circuit Board
Power Supply Board Low Voltage Test 1Power Supply Board Low Voltage Test 1
While unplugging connectors as damage to the circuit Board may occur.
a) When AC is applied, the SMPS “MUST” be producing STBY 3.5V on pins 9, 10, 11 or 12 of P201.
If 3.5V Standby is not being generated, the SMPS is defective and must be replaced. There is no need to continue with the next test.But make sure AC is arriving at the connector SK101But, make sure AC is arriving at the connector SK101.
(b) Unplug P8000 on the Main Board to make insertion of the Jumpers easier. Use P700 Side to insert resistors
TEST 1 No Backlights during this test
Pin 1 is the Brown Wire
TEST 1:
(1) Add a jumper between (3.5V STBY) pin 7, 8, 9 or 10 and Pin 1 (PWR_ON). Apply AC. This will turn on the power supply, relays will click.a) Check that the 12V, 20V and 142V power supplies are turned on,
No Backlights during this test
) , p pp ,• P201 (12V pins 17, 19 and 21)• P201 (20V pins 2, 3 and 4) • 142V on the top and bottom pins of P204 and P205
(2) Remove AC power
December LCD TV 47LX650057
(2) Remove AC power
Continue if the 1st test was OK. Leave original jumper in place
Power Supply Board Backlights Test 2Power Supply Board Backlights Test 2
Leave original jumper in place.
(3) Add another jumper between (STBY_3.5V) pin 9, 10, 11 or 12 and Pin 18 (INV_On).
(4) Apply AC Power. Simulating a Power and Backlight On command.
Backlights Normal:Backlights Normal:a) If normal, the backlights should turn on.
SMPS OK, Inverter OK.
Backlights Abnormal:
Pin 1 is the Brown Wire
Backlights Abnormal:a) Recheck the 142V on the top and bottom pins of P204 and P205.b) Confirm the DRV_On line pulling up to at least 3V and arriving at the Inverter P702 pin 6. c) Check the connections from the Panel to the SMPS.
If the 142V is being sent to the Backlights and the DRV_On command is arriving at the Inverter in, then see Inverter Section for further testing.
REMOVE AC POWER:
December LCD TV 47LX650058
REMOVE AC POWER:
Power Supply Connector P201 Voltage and Diode CheckPower Supply Connector P201 Voltage and Diode Check
P201 ConnectorP201 "SMPS Board" To P8000 "MAIN Board" Pin Label STBY Run Diode CheckPin Label STBY Run Diode Check24 ERROR 0V 0V 1.45V23 SIN 0V 3.23V Open22 P-DIM1 0V 0.38V~3.3V Open21 12V 0V 12.37V 0.18V20 SCLK 0V 0.16V Open19 12V 0V 12.37V 0.18V18 DRV-ON 0V 2.98V Open
1
p17 12V 0V 12.37V 0.18V16 V-Sync 0V 0.02V Open
13-15 Gnd Gnd Gnd Gnd9 12 3 5V 3 5V 3 38V Open
Odd pins are on top row9-12 3.5V 3.5V 3.38V Open5-8 Gnd Gnd Gnd Gnd2-4 20V 0V 21.7V 1.10V1 PWR-ON 0V 3.25V 1.02V
(1) P-DIM1 Pin 22 can vary according to incoming video IRE level, OSD Backlight setting and then Intelligent Sensor (room light condition) Output from the Video Processor IC900. Range 0.37V to 3.3V. .
December LCD TV 47LX650059
Diode Mode values taken with all Connectors Removed
Power Supply Connector SK101 Voltage and Diode CheckPower Supply Connector SK101 Voltage and Diode Check
SK101 "SMPS" to AC IN
Pin Label STBY Run Diode Check
1 L120Vac
OL
2 N OL
AC Voltage Readings (From Hot Ground)Pins 1 and 2 for STBY and RUN.
B
F101Bottom Right of SMPS F100 (Diode Check)
Main Power Switch ClosedL N
F1015A/250V
AC IN
Red or Black Lead on Fuse (Open)Other Lead on Hot Ground
SK101
December LCD TV 47LX650060
Diode Mode values taken with all Connectors Removed
Power Supply F101 and Power Supply F101 and F102 F102 Voltage ChecksVoltage Checks
F102
F101
F1012A/250V
F1022A/250V2A/250V
From Hot GndSTBY 160VR 388V
2A/250V
From Hot GndSTBY 2.46VR 392 6VRun 388V Run 392.6V
If reading the voltages for either F101 or F102 right after unit was powered off from on it takes a very long time to bleed down to the reading given here
December LCD TV 47LX650061
from on, it takes a very long time to bleed down to the reading given here.
((LED BACKLIGHTS) LED BACKLIGHTS) AND INVERTER SECTIONAND INVERTER SECTIONIn this model the Inverter is part of the SMPS. It receives 5.2V (5.07V) from the SMPS Q702 on P702 pin 8 The Inverter On (DRV_ON) command arriving on P702 pin 6 starts the Inverter drive signals, p ( _ ) g p g ,(240Hz).P-DIM is delivered from the Main board through the SMPS to the Inverter on P702 pin 2.The Inverter is responsible for delivering B+ (approx. 142V) to each of the 12 LED Blocks. This is accomplished by D245 on the SMPS and filtered by C246 and C247
The Inverters must also deliver grounding pulses (Drive Signals) to each of the 12 LED Blocks. This is accomplished by the 12 switching components Q401 through Q412.
P204 drives V1a, V1b V1c and V2a, V2b V2c. P205 drives V3a, V3b V3c and V4a, V4b V4c.
PWM-DIM1 performs Global dimming, All blocks are controlled equally.Local Dimming (Each block is controlled independently) is accomplished by the SIN (Local Dimming Signal) sent from the Main board to the SMPS and arriving at the inverter on P702 pin
December LCD TV 47LX650062
Dimming Signal) sent from the Main board to the SMPS and arriving at the inverter on P702 pin 3. The SIN signal is synced by the V-Sync signal input on P702 pin 7.
Backlights and Inverter Voltage ChecksBacklights and Inverter Voltage ChecksThe on-board Inverter B+ source is Pin 8 of P702.
1312
P702
121110987
P702Pin 1
6543211
D245
142V
The Backlight Blocks need 142V DC provided by D245 cathode to Connectors P204 and P205
December LCD TV 47LX650063
Inverter P702 P704 and P705 Connector Voltage ChecksInverter P702 P704 and P705 Connector Voltage ChecksP702 supplies the Inverter with its required voltages and outputs the LED driver signals.
P702 on the Inverter to SMSP
Pin Label Run 21 V2a 1V~35V20 V2b 1V~35V
P204 and P205 drive the Backlight Blocks and interface between the Inverter, SMPS and the Panel.
19 V2c 1V~35V18 V1c 1V~35V17 V1b 1V~35V16 V1a 1V~35V15 V4 1V 35V
P204
15 V4a 1V~35V14 V4b 1V~35V13 V4c 1V~35V12 V3c 1V~35V11 V3b 1V~35V
Inverter
P702
10 V3a 1V~35V9 LED FB 1.37V8 5.2V 5.07V7 V-sync 0.02V
P2056 DRV_On 2.98V5 SCLK 0.16V4 Gnd Gnd3 SIN 3.23V2 PWM 0 38V~3 3V
Note: The top and bottom pin of P204 and P205 have 142V supply to the Backlight Blocks
P205
December LCD TV 47LX650064
2 PWM 0.38V 3.3V1 ERROR 0V
Backlight Blocks.
Inverter LED Driver Checks and InformationInverter LED Driver Checks and InformationThe on-board Inverter contains the 12 LED Block drivers Q401 ~ Q412. These are responsible for supplying ground pulses to each of the 12 LED Blocks V1 a, b, c through V4 a, b, c. P702 on the
I t t SMSP
Drive Sig 1.96V To BacklightLED Block
Inverter to SMSPPin Label
21 V2a
20 V2b
19 V2c
Q401 ~ Q412
GndLED Block
1V~35VWhite to Black
18 V1c
17 V1b
16 V1a
15 V4a
14 V4bP702
14 V4b
13 V4c
12 V3c
11 V3b
10 V3a
9 LED FB
8 5.2V
7 V-sync
6 DRV_On
5 SCLK
4 Gnd
3 SIN
2 PWM
1 ERROR
December LCD TV 47LX650065
1 ERROR
Inverter LED Driver Waveform Checks Inverter LED Driver Waveform Checks The Inverter LED Block drivers Q401 ~ Q412 provide ground pulses to the LED Blocks. Global Dimming (All LED Blocks dim equally) is controlled by PWM-DIM input on pin 2 of P702. Local dimming (Each LED Block controlled separately) is determined by SIN SCLK and V Syncdimming (Each LED Block controlled separately) is determined by SIN, SCLK and V-Sync.
Grounding pulses toGrounding pulses to each of the 12 LED Blocks V1 a, b, c
through V4 a, b, c.
December LCD TV 47LX650066
Inverter InformationInverter Information
LEDBacklightSource
December LCD TV 47LX650067
Power Supply Connector P204 / P205 Voltage and Diode CheckPower Supply Connector P204 / P205 Voltage and Diode CheckP204 White Plug "SMPS Board" To "Panel LEDs"
Pin Label STBY Run Diode Check
P205 Black Plug "SMPS Board" To "Panel LEDs"
Pin Label STBY Run Diode Check12 B+ 0V 142V Open
11 n/c n/c n/c Open
10 V2A 0V 1V~35V Open
9 V2B 0V 1V~35V Open
13 B+ 0V 142V Open
12 n/c n/c n/c Open
11 V4A 0V 1V~35V Open
10 V4B 0V 1V~35V Open9 V2B 0V 1V 35V Open
8 V2C 0V 1V~35V Open
7-6 n/c n/c n/c Open
5 V1C 0V 1V~35V Open
4 V1B 0V 1V 35V O
10 V4B 0V 1V 35V Open
9 V4C 0V 1V~35V Open
8-6 n/c n/c n/c Open
5 V3C 0V 1V~35V Open
4 V3B 0V 1V 35V Open4 V1B 0V 1V~35V Open
3 V1A 0V 1V~35V Open
2 n/c n/c n/c Open
1 B+ 0V 142V Open
4 V3B 0V 1V~35V Open
3 V3A 0V 1V~35V Open
2 n/c n/c n/c Open
1 B+ 0V 142V Open
P204 P205P204
1
P205
1
December LCD TV 47LX650068
Diode Mode values taken with all Connectors Removed
1
Maximum P-DIM Voltage100% Cust Backlight Setting
Brightness and Contrast adjustments do not affect P-DIM
The Video Processor has the output that controls P-DIM. If the Microprocessor is separate from the video processor, then the customer’s menu Backlights setting is communicated to the video processor via I2C.
Analog Dimming is not used.It is a fixed voltage. Also called BR1, VBR-A, BCM-VBR-A, ADM
Minimum P-DIM Voltage0% Cust Backlight Setting
P-DIM VoltageEstablishes the maximum threshold or
brightness level of the backlights
3.3V
Brightness of Backlights
After the max. threshold is established by the Customer’s Menu, the DC Level of P-DIM is manipulated by:
Overall Contrast RatioMonitored by the BCM or Mstar Video Processor.
As the overall brightness of the video content decreases, so does P-DIM voltage.
If the Intelligent Sensor is utilized, it too manipulates P-DIM. As the overall room light decreases in intensity, P-DIM
decreases. This data represents nearly 5000 steps in room light monitoring. It is routed from the Front IR board through
I2C data back to the Main board’s Microprocessor.
Midrange P-DIM Voltage50% Cust Backlight Setting 1.68V
0.37V
Backlights Bright
Backlights Dim
100%
0%
December 2010 47LX6500 LCD-DV
P-DIM (Global Dimming) Explained: P-DIM (May also be called PWM-DIM, VBR-B, PDS, BCM-VBR-B)P-DIM (Global Dimming) Explained: P-DIM (May also be called PWM-DIM, VBR-B, PDS, BCM-VBR-B)
69
LCD Panel Controller Board
TT--CON/3D (TFT DRIVE) with 3D FRAME CONVERTER SECTIONCON/3D (TFT DRIVE) with 3D FRAME CONVERTER SECTION
The Frame Rate Converter IC IC102 receives from the Main Boards LVDS Video Signals at P802, which is a 51 pin cable. The Video Signal is a 20 Bit (24 pin including clock and data lines) LVDS (Low Voltage Differential Signal) which it processes into TFT Drive Signals. These signals are from IC400 and IC500 to connectors P805 and P806 and then to the LCD TFT Panel.
T-CON/3D B+: 12V is supplied to the T-Con Board from the Main Board P7800 and P7802.Delivered by two connectors P802 and P803 easily measured at the Test Point just to the left of the P803 on L802.
There is a primary DC to DC converter (IC600) that creates several voltages; (8V Measured at pin 11), (25.63V Measured at pin 8), (6V Measured at pin 2), (16V Measured at pin 42), (3.3V Measured at pin 23-24 or L601), (-5V Created by D601 on the back side of the board). Another voltage is generated for the panel by (Q701 8.17V measured at L701).) g g p y ( )
These Voltages can also be measured at the ribbon connectors delivering signals to the TFT panel using TPs.P805: “16V” pins 1-2, “3.34V” pins 4-5, “8.17V” pins 7-8, “-4.9V” pin 11, “25.63V” pin 16, “6V”
i 18 19 “8V” i 21 “15 75V” i 23 24 d “3 33V” i 45pins 18-19, “8V” pin 21, “15.75V” pins 23-24 and “3.33V” pin 45.
P806: 16V pins 79-80, 3.34V pins 76-77, 8.17V pins 73-74, -4.9V pin 71, 25.63V pin 66, 6V pins 63-64, “8V” pin 61, 15.75V pins 44 and “3.33V” pin 36.
December LCD TV 47LX650070
Also, See the 11X17 Foldout (Interconnect Diagram) for more details.
TT--CON/3D Board Components IdentifiedCON/3D Board Components Identified
December LCD TV 47LX650071
TT--CON/3D (TFT Drive) Board ChecksCON/3D (TFT Drive) Board Checks
T-CON/3D Board (Locations)
Check pins
P802
P804P803
Check pins 49~51(12V)
Check pins 1 or 2
(12V)
Check for 12VVoltage supplied from P803 Pins 1-2
and/or P802 pins 49-51.
December LCD TV 47LX650072
47LX6500 T-CON Voltage Development Block Diagram47LX6500 T-CON Voltage Development Block Diagram
73 December 2010 47LX6500 LCD-DV
P802 L801
P803 L802
VLCD_POWER (+12V / 3A)L301
IC301MP8706EN
3A
L307IC302
SC414MLTRT3A
Q700FET
+3.3V
+1.0VDC
+3.3V_TCON
+1.8V_TCON
HVDD_R(+8.2V)
Pin 8: VCC_LCM (+3.3V)
Pin 42: VDD_LCM (+16V)
Pin 8: VGH (+27V)
VGL (-5V)
Q702FET
Q701FET
IC700MAX15023
IC701MAX15206
P805
P806
LCDModule
IC600TPS65162
D60114
23-24
L307
L701
L702
L700
L306
L305
R6018
42
L600
TT--CON/3D (TFT Drive) Panel Voltage CON/3D (TFT Drive) Panel Voltage Development ChecksDevelopment ChecksThe development for the voltages for P805 and P806 connectors to the panel are shown here.This is an excerpt from the Interconnect diagram. Panel voltages are outlined in the rounded cornered boxes.
December LCD TV 47LX650074
TT--CON/3D (TFT Drive) CON/3D (TFT Drive) Panel Voltage ChecksPanel Voltage Checks
See the previous page for the development for the voltages for P806 and P805 connectors which are Panel voltages.
December LCD TV 47LX650075
TT--CON/3D Control Board X100 Crystal ChecksCON/3D Control Board X100 Crystal Checks
X1001 71V DC 1 65V DC
25Mhz
1.71V DC 1.65V DC
Runs when set is On4.8V p/p 3.25V p/p
T-CON/3D Board
December LCD TV 47LX650076
77
47LX6500 T-CON Component Voltages47LX6500 T-CON Component VoltagesIC301 1) 11.41V
2) 3.35V3) 3.35V4) 8.77V5) 3.11V6) 0.81V7) 5.02V8) Gnd
IC302 1) 0.8V2) Gnd3) 3.33V4) 4.26V5) 3.3V6) 1.08V7) 1.08V8) 3.0V
+3.3VReg
+1.0VVDCReg
IC304 1) 0.75V2) 5.0V3) Gnd4) 0V5) 2.5V6) 5.0V7) 7.55V8) 11.36V9) 11.36V10) 11.36V11) 11.36V12) 2.55V13) Gnd14) Gnd15) 2.55V16) Gnd17) Gnd18) Gnd19) Gnd20) 2.5V21) 2.5V22) n/c23) 0V24) 2.5V25) n/c26) Gnd27) 1.13V28) 10.99V
IC305 1) 0.8V2) Gnd3) 3.32V4) 4.32V5) 3.3V6) 1.22V7) 1.22V8) 2.98V
+2.5VVQReg
1V2Reg
IC310
IC306
IC309
IC308
1) n/c2) 2.5V3) 2.51V4) n/c5) n/c6) 1.81V7) 0.81V8) Gnd
IC307 1) n/c2) 2.49V3) 2.51V4) n/c5) n/c6) 1.81V7) 0.81V8) Gnd
1) n/c2) 2.47V3) 2.49V4) n/c5) n/c6) 1.8V7) 0.8V8) Gnd
1) Gnd2) 3.26V3) 0.89V4) 0.9V5) 1.8V6) 3.34V7) 1.8V8) 0.9V
1) 11.41V2) 2.53V3) 2.53V4) 7.97V5) 3.11V6) 0.8V7) 5.07V8) Gnd
+1.8VDDRReg
1V2Reg
DDRVTTReg
2V5Reg
+1.8VDDRSReg
IC700
IC600
1) 5.96V2) 6.03V3) 3.15V4) 0.17V5) 2.72V6) 3.3V7) 0V8) 25.6V9) 24.7V10) 1.26V11) Gnd12) 5.54V13) 0V14) 0V15) Gnd16) 0V17) 1.26V18) 4.24V19) Gnd20) Gnd21) 1.27V22) 11.45V23) 3.4V24) 3.4V
25) 11.38V26) 11.38V27) 11.07V28) 0V29) 4.24V30) 1.9V31) 0.59V32) 3.3V33) 3.13V34) 0V35) 0V36) 0V37) 11.42V38) 11.42V39) n/c40) n/c41) 1.27V42) 16V43) 5.96V44) 5.96V45) 5.96V46) 5.96V47) Gnd48) 5.97V
1) 0.59V2) 3.3V3) 3.3V4) 0V5) 4.26V6) Gnd7) 1.8V8) 7V9) 2.7V10) 4.78V11) 8.47V12) 3.33V
13) Gnd14) 3.6V15) 0.12V16) 5.21V17) 0.6V18) 1.13V19) 1.18V20) Gnd21) 11.4V22) 0.56V23) 0.81V24) 0.9V
DC-DCConv
For +3.3VTCON
DC-DCConv
IC801 1) 8.01V2) 15.7V3) 15.7V4) 14.05V5) 13.35V6) 12.27V7) 11.07V8) Gnd9) 16.02V10) 10.28V11) 8.31V12) 7.72V13) 3.33V14) 3.33V15) 3.33V16) Gnd17) 0V18) Gnd19) 4.94V20) 3.75V21) 2.67V22) 16.02V23) 0V24) Gnd25) 0.27V26) 0.27V27) 0.25V28) 5.96V
DataBuffer
E B
C
Q1001
E
BC
Q1004
Q803EB
C
Q804EB
C
ECB
Q906
B) 2.52VE) 2.52VC) 2.27V
B) 2.52VE) 2.52VC) 2.27V
B) 0.61VE) GndC) 0.03V
B) 0.0VE) GndC) 1.9V
B) 0VE) GndC) 1.97V
B) 0.02VE) GndC) 3.33V
Q907EB
C
Q702
Q700
Q701
1) Gnd2) 3.26V3) 3.33V4) 4.79V5) 11.42V6) 11.42V7) 3.34V8) 3.34V
1) Gnd2) 1.42V3) 8.16V4) 11.7V5) 11.42V6) 11.42V7) 8.2V8) 8.2V
1) Gnd2) 4.27V3) 1.89V4) 2.72V5) 11.42V6) 11.42V7) 0V8) 1.89V
A2A1
C
D600 A1) 16VA2) 25.6VC) 20.68V
+8.2VHVDDReg
+3.3VTCONReg
+1.8VTCONReg
Decemer 2010 47LX6500 LCD-DV
A1) -3.0VA2) GndC) 0V
D602 C) 3.34VA) Gnd
IC501 1) Gnd2) Gnd3) Gnd4) Gnd5) 3.3V6) 3.3V7) 0V8) 3.3V
EEPROMIC500
IC502 1) 3.34V2) 3.34V3) 3.3V4) 3.35) 0V6) 3.3V7) 3.3V8) Gnd
DATAExtenter
9) 0V10) 0V11) 0V12) 0V13) 3.3V14) 3.3V15) 0V16) 3.3V
C
A
D601
D603 C) 16.11VA) 11.21V
C A
Pin Label Run Diode Check Pin Label Run Diode
Check
TT--CON/3D Board LVDS P802 to Main Board P7800 Voltage and Diode CheckCON/3D Board LVDS P802 to Main Board P7800 Voltage and Diode CheckP802 LVDS Connector "T-CON/3D Board“ to P7800 "Main"
1 Gnd Gnd Gnd *24 RRXA4- 1.26V 1.67V
2 3D_Sync_Out 0.03V 2.34V *25 RRXA4+ 1.08V 1.67V
3 *V_SYNC 3.33V 1V 26 Gnd Gnd Gnd
4 SDA3_3.3V 3.34V 1.73V 27 n/c n/c n/c
P802
5 SCL3_3.3V 3.34V 1.73V *28 RRXB0- 1.19V 1.67V
6 FRC_RESET 3.32V Open *29 RRXB0+ 1.19V 1.67V
7 n/c n/c n/c *30 RRXB1- 1.19V 1.67V
8 3DTV 0V Open *31 RRXB1+ 1.16V 1.67V T-CON/3D 19 3D_DIM 0V Open *32 RRXB2- 1.2V 1.67V
10 3D_DIM_2 0.05V Open *33 RRXB2+ 1.14V 1.67V
11 n/c n/c n/c 34 Gnd Gnd Gnd
*12 RRXA0- 1.17V 1.67V 35 RRXBCK- 1.16V 1.67V
*13 RRXA0+ 1 19V 1 67V 36 RRXBCK+ 1 2V 1 67V
* Indicates LVDS video signals.
12V
13 RRXA0+ 1.19V 1.67V 36 RRXBCK+ 1.2V 1.67V
*14 RRXA1- 1.19V 1.67V 37 Gnd Gnd Gnd
*15 RRXA1+ 1.17V 1.67V *38 RRXB3- 1.22V 1.67V
*16 RRXA2- 1.22V 1.67V *39 RRXB3+ 1.14V 1.67V
*17 RRXA2+ 1.14V 1.67V *40 RRXB4- 1.26V 1.67V
*Pin 25.5V p/p 60 Hz
3D-Sync
18 Gnd Gnd Gnd *41 RRXB4+ 1.09V 1.67V
19 RRXACK- 1.16V 1.67V 42-46 Gnd Gnd Gnd
20 RRXACK+ 1.20V 1.67V 47 n/c n/c n/c
21 Gnd Gnd Gnd 48-51 PANEL_VCC 11.58V Open T-CON/3D B+
*Pin 2 Only active when a 3D source is played. (1.63V)
December LCD TV 47LX650078
*22 RRXA3- 1.20V 1.67V
*23 RRXA3+ 1.14V 1.67VDiode Check taken with meter in Diode Mode with all Connectors Removed
TT--CON/3D Board P803 and P804 to Main Board Voltage and Diode CheckCON/3D Board P803 and P804 to Main Board Voltage and Diode Check
P803 Connector "T-CON/3D Board“ to P7802 "Main" T-CON/3DPin LABEL Run Diode Check1 PANEL_VCC 11.58V Open
2 PANEL_VCC 11.58V Open
12V TP
13 Gnd Gnd Gnd
4 Gnd Gnd Gnd
P804 Connector "T-CON/3D Board“ to P7803 "Main"P804
Pin LABEL Run Diode Check1 Gnd Gnd Gnd
2 E_TCK 0V Open
3 E_TDO 3.33V Open
4 E TMS 0 35V O4 E_TMS 0.35V Open
5 E_TDI 3.32V Open
6 Gnd Gnd Gnd
1
Location for P803 and P804Top Left of board
December LCD TV 47LX650079
Diode Check taken with meter in Diode Mode with all Connectors Removed
TT--CON/3D Board P805 to the Panel VoltagesCON/3D Board P805 to the Panel Voltages1 VDD (16V) 16V 28 V6 11.08V 54 RLMVCLKP 1.19V
2 VDD (16V) 16V 29 V7 10.28V 55 RLMVCLKN 1.18V
3 Gnd Gnd 30 V9 8 31V 56 Gnd Gnd3 Gnd Gnd 30 V9 8.31V 56 Gnd Gnd
4 VCC (3.3V) 3.4V 31 V10 7.71V 57 RLMV4P 1.15V
5 VCC (3.3V) 3.4V 32 V12 3.37V 58 RLMV4N 1.24V
6 Gnd Gnd 33 V13 4.94V 59 RLMV5P 1.34V
7 HVDD (8V) 8.2V 34 V14 3.75V 60 RLMV5N 1.22V
8 HVDD (8V) 8.2V 35 V15 2.68V 61 RLMV6P 1.12V
9 Gnd Gnd 36 V16 1.97V 62 RLMV6N 1.23V
10 OPT_P n/c 37 V17 0.27V 63 Gnd Gnd
11 VGL (-5V) (-5V) 38 V18 0.26V 64 RRMV0P 1.13V
12 Gnd Gnd 39 Gnd Gnd 65 RRMV0N 1.23V12 Gnd Gnd 39 Gnd Gnd 65 RRMV0N 1.23V
13 GOE 0.83V 40 GSP 0V 66 RRMV1P 1.15V
14 GSC 2.3V 41 POL 1.66V 67 RRMV1N 1.23V
15 Gnd Gnd 42 Gnd Gnd 68 RRMV2P 1.15V
16 VGH (26V) 25.6V 43 SOE_R 0.25V 69 RRMV2N 1.23V
17 Gnd Gnd 44 H_CONV 0.44V 70 Gnd Gnd
18 VCOMRFB 6V 45 OPT_N 3.33V 71 RRMVCLKP 1.19V
19 VCOM ROUT 6V 46 Gnd Gnd 72 RRMVCLKN 1.18V
20 Gnd Gnd 47 RLMVOP 0.15V 73 Gnd Gnd
21 Z_OUT 8V 48 RLMVON 0.17V 74 RRMV4P 1.13V
22 Gnd Gnd 49 RLMV1P 0.14V 75 RRMV4N 1.24V
23 V1 15.75V 50 RLMV1N 1.24V 76 RRMV5P 1.11V
24 V2 15.75V 51 RLMV2P 1.13V 77 RRMV5N 1.12V
25 V3 14V 52 RLMV2N 1.22V 78 RRMV6P 1.12V
26 V4 13 35V 53 G d G d 79 RRMV6N 1 22V
December LCD TV 47LX650080
26 V4 13.35V 53 Gnd Gnd 79 RRMV6N 1.22V
27 V5 12.27V 80 Gnd Gnd
TT--CON/3D Board P806 to the Panel VoltagesCON/3D Board P806 to the Panel Voltages1 Gnd Gnd 28 Gnd Gnd 54 V14 3.75V
2 LLMV0P 1.19V 29 LRMV4P 1.15V 55 V15 2.68V
3 LLMV0N 1 24V 30 LRMV4N 1 25V 56 V16 0 27V3 LLMV0N 1.24V 30 LRMV4N 1.25V 56 V16 0.27V
4 LLMV1P 1.18V 31 LRMV5P 1.18V 57 V17 0.26V
5 LLMV1N 1.3V 32 LRMV5N 1.26V 58 V18 0.26V
6 LLMV2P 1.15V 33 LRMV6P 1.17V 59 Gnd Gnd
7 LLMV2N 1.29V 34 LRMV6N 1.25V 60 Gnd Gnd
8 Gnd Gnd 35 Gnd Gnd 61 Z_OUT 8V
9 LLMVCLKP 1.22V 36 OPT_N 3.33V 62 Gnd Gnd
10 LLMVCLKN 1.23V 37 H_CONV Gnd 63 VCOMLOUT 6V
11 Gnd Gnd 38 GSP 0V 64 VCOMLFB 6V
12 LLMV4P 1.18V 39 POL 1.66V 65 Gnd Gnd12 LLMV4P 1.18V 39 POL 1.66V 65 Gnd Gnd
13 LLMV4N 1.26V 40 Gnd Gnd 66 VGH (26V) 25.6V
14 LLMV5P 1.26V 41 SOE_L 0.24V 67 Gnd Gnd
15 LLMV5N 1.27V 42 Gnd Gnd 68 GSC 2.3V
16 LLMV6P 1.16V 43 V1 15.75V 69 GOE 0.83V
17 LLMV6N 1.26V 44 V2 15.75V 70 Gnd Gnd
18 Gnd Gnd 45 V3 14V 71 VGL (-5V) (-5V)
19 LRMV0P 1.17V 46 V4 12.26V 72 Gnd Gnd
20 LRMV0N 1.28V 47 V5 11.07V 73 HVDD (8V) 8.2V
21 LRMV1P 1.15V 48 V6 11.07V 74 HVDD (8V) 8.2V
22 LRMV1N 1.26V 49 V7 10.27V 75 Gnd Gnd
23 LRMV2P 1.17V 50 V9 8.31V 76 VCC (3.3V) 3.4V
24 LRMV2N 1.27V 51 V10 5.74V 77 VCC (3.3V) 3.4V
25 Gnd Gnd 52 V12 Gnd 78 Gnd Gnd
26 LRMVCLKN 1 21V 53 V13 4 94V 79 VDD (16V) 16V
December LCD TV 47LX650081
26 LRMVCLKN 1.21V 53 V13 4.94V 79 VDD (16V) 16V
27 LRMVCLKP 1.23V 80 VDD (16V) 16V
MAIN BOARD SECTIONMAIN BOARD SECTIONThe Main board receives its operational B+ from the Power Supply via P8000. There are a single LVDS cable that feeds the Video to the T-CON/3D (TFT Driver) board that drives the Panel via two LVDS cable which carry the 20 bit LVDS Video and the TruMotion (Motion Estimated Motion Compensated) video signals to the panel. The Main board also includes the Tuner, Audio and Audio/Video inputs and selection circuits.
Input Voltages from SMPS.STAND-BY
• STBY 3.5V (P8000 pins 9~12)
The Main board also develops several B+ sources on the board.
RUN • 12V pins 13, 19 and 21. • 20V pins 2-4.
LVDS• Panel VCC (12V Not developed, but switched
STAND-BY VOLTAGES• 3.3V_ST (Voltage direct from SMPS)
GENERAL• 5V_Normal• 5V USB
Panel_VCC (12V Not developed, but switchedfrom the 12V arriving from the SMPS. AUDIO (IC8801)
• 20V from SMPS• 3.3V, 1.8V
BCM IC900 Video Processors
TUNER and VSB CIRCUIT (Made from the 12V) • 5V_Normal which is used to make 5V TU • 5V TU BCM IC900 Video Processors
• 1.2V, D3.3V, D1.8V• A2.5, A1.2V, +5V_Normal
IC9701 LVDS and Local Dimming IC.• 1 8V RXVDD 1 8V TXVDD 1 8V PLL
_• 3.3V_TU• 1.26V_TU
WIRELESS VOLTAGES• 20V (Switched from 20V from SMPS)
December LCD TV 47LX650082
• 1.8V_RXVDD, 1.8V_TXVDD, 1.8V_PLL, 3.3V_VDD, 1.8V_VDD,1.8V_L/Dimming.
Main Board LayoutMain Board Layout To T-CON/3D
P7800See next page for component
P2401To 3D Emitter
To T-CON/3D
P7802
Video Processor IC900 and
Dimming IC9701
P8000To SMPS
component identification P7803
To T-CON/3DIC9701 Micro
Dimming IC9701 runs Hot.
This is normal.P8200 To Front IR
P1000n/c
IC8101 Micro
IC900 Video Processor
P8100n/c
n/cProcessor
Component or Composite
These connectors are Mini plug type
LAN
Wireless Media BoxWireless Media Box Remote
December LCD TV 47LX650083
P8800 To Speaker
December 2010 47LX6500 LCD-DV
47LX6500 Main Layout47LX6500 Main Layout
84
E
C
B A1
C
A2
Q D
Q?LAN
1 2
3
SG
D
MAIN BOARDp/n: EBR69490101
IC900Video Processor
LGE3549XQ
P7800
IC601
X9700
P8200
Q8201Q8200
X8101
X8100
IC8101
P8100 IC8004
IC8800
Q8800
n/c
IC8801
Q8700
P8800
Q308
HDMI
IC300
IC700
USB2
USB1
IC302
X1001
IC901
IC8000
IC301IC605
Q8004
Q8003 Q8001IC8002 IC8001
IC8003IC8007
IC8008IC9702
IC603
P7802P8000
P7803 P2401
25MHz
32.768KHz
10MHz
SW8100
Micro Reset
IC9703Q8005
IC8005
RS232RGB
Audio Amp
HDMISelector
Microprocessor
54MHz
Panel Vcc Sw
IC9701LG5111
INV_CTL Sw
1.8V Dimming
EEPROM
NVRAM
LVDS & Dimming
DDR DDR
NAND Flash Memory
USB1 5V
USB2 5V
+ 5V Normal Reg
A1.2V Reg
D1.8V Reg
D3.3V Reg
+1.26V_TU Reg
Earphone Amp
LVDS
To SMPS
A2.5V Reg
To T-CON 3D Sync
USB 5V
Spk
Ft IR
+1.8V_AMP
IC8300
Wireless Media Box Remote
JK8700
HDMI
Q8307
123
Main Board Used:
EBR69490101 47LX6500-UB_AUSWLJREBU6098702 47LX6500-UB_AUSWLUR
18. IF p17. IF n16. IF AGC15. Reset14. 3.3V13. 1.26V12. GND11. CVBS10. NC 9. SIF
8. NC 7. SDA 6. SCL 5. NC 4. NC 3. 5V
2. NC 1. NC
Digital Video
Analog Video
Tuner B+
Tuner DataTuner Clock
Audio
TU700TDVJ-H031F
HP
SideAV
P1000n/c
PCAudio
HDMI
HDMI
OpticalAudio
To T-CON
47LX6500 Main (Front Side) Component Voltages
IC300 Earphone Amp IC601 NVRAM IC8002 D1.8V IC8005 (+3.3V_NORMAL) IC9703 EEPROMPin Pin Pin Regulator Pin And D3.3V Regulator Pin for LG5111[1] 0V [1] n/c [1] 5V [1] Gnd [1] Gnd[2] 0V [2] 0V [2] 3.35V (B+) [2] 11.74V (B+) [2] 3.34V[3] 0V [3] 3.31V [3] 1.83V (Out) [3] Gnd [3] Gnd[4] 0V [4] Gnd [4] Gnd [4] 0.81V [4] Gnd[5] 0V (HP R Out) [5] 3.24V [5] Gnd [5] 0.89V [5] 3.34V[6] 3.3V [6] 0V [6] 2.36V [6] 3.34V (PWR On/Off2 Ctl) [6] 3.34V[7] 3.3V [7] Gnd [7] 0.91V [7] 3.36V (Out) [7] 3.32V
[8] (-1.8V) [8] 3.32V (B+) [8] 1.05V [8] 3.36V (Out) [8] 3.34V (B+)[9] (-0.88V) [9] 2.4V
[10] Gnd IC700 (+1.26V_TU) [10] 3.37V (PWR On/Off1 Ctl) IC8007 Power Det Gen Q308 Headphone[11] 0.94V Pin Regulator Pin (+12V and +3.5V) Pin Mute[12] 1.83V [1] 0V (Gnd) IC8003 (+5V_NORMAL) [1] Gnd B 0V[13] 3.32V (Mute) [2] 1.27V (Out) Pin Regulator [2] 3.69V (B+ C 3.32V[14] 3.32V (B+) [3] 3.27V (B+) [1] Gnd [3] 3.69V (Out) E Gnd[15] Gnd [2] 11.74V (B+)[16] 0V (HP L Out) IC8000 5V Regulator [3] Gnd IC8008 Power Det Gen Q8001 PANEL_VCC
Pin for USB [4] 0.81V Pin (+24V) Pin Control 1st DriverIC301 USB 2 [1] 12.32V (B+) [5] 0.86V [1] Gnd B 0V
Pin 5V [2] 5.1V (Out) [6] 3.34V (PWR On/Off2 Ctl) [2] 3.64V (B+) C 0.68V[1] Gnd [3] 5.1V (Out) [7] 5.17V (In) [3] 3.76V (Out) E Gnd[2] 5.1V (In) [4] 10.5V [8] 5.17V (In)[3] 5.1V [5] 3.28V IC8800 (+1.8V_AMP) Q8003 PANEL_VCC[4] 3.33V [6] 0.79V IC8004 A2.5V Regulator Pin Regulator Pin Control 2nd Driver[5] 3.33V [7] 5.15V Pin for USB [1] Gnd B 0.66V[6] 5.1V (Out) [8] 0V (Gnd) [1] n/c [2] 1.87V (Out) C 0V[7] 5.1V (Out) [2] 3.26V (B+) [3] 3.28V (B+) E Gnd
[8] n/c IC8001 D1.2V and A1.2V [3] 3.26V (B+)Pin Regulator [4] n/c IC9702 (+1.8V_L/Dimming) Q8004 PANEL_VCC
IC302 USB 1 [1] 0V (Gnd) [5] n/c Pin Regulator Pin SwitchPin 5V [2] 3.3V [6] 2.57V (Out) [1] Gnd S 12.28V (In)[1] Gnd [3] 0V (Gnd) [7] 0.83V [2] 11.74V (B+) G 1.92V (Enable)[2] 5 1V (I ) [4] 1 27V [8] G d [3] G d D 12 2V (O t)[2] 5.1V (In) [4] 1.27V [8] Gnd [3] Gnd D 12.2V (Out)[3] 5.1V [5] 3.32V [4] 0.81V (FB)[4] 3.33V [6] n/c Q8307 Side HDMI [5] 0.77V Q8005 INV_ON[5] 3.33V [7] 4.48V Pin Hot Swap [6] 3.34V Pin Driver[6] 5.1V (Out) [8] 3.32V B 0V [7] 3.32V (Out) B 0V (INV ON) En[7] 5.1V (Out) [9] 3.32V C 4.32V [8] 3.34V (Out) C 2.97V (Out)
[8] n/c [10] 3.34V E Gnd E Gnd[11] 1.28V Q8800 AMP Mute to[12] Gnd Q8700 Wireless PWR AMP_MUTE1 IC8801 Q8200 IR Buffer[13] 3.3V Dongle In Turns on Q8701 B 0V Pin 2nd[14] 0.82V B 0.66V (0.0V w/Dongle In) C 3.34V B 0.56V
C 0.14V (24V w/Dongle In) E Gnd C 0VQ8201 IR Buffer E Gnd E Gnd
Pin 1st Dongle OutB 0V B 0V (0.0V w/Dongle Out)C 3.36V C 24.6V (24V w/Dongle Out)E Gnd E Gnd
85 December 2010 47LX6500 LCD-DV
December 2010 47LX6500 LCD-DV
47LX6500 Main (Back Side) Layout47LX6500 Main (Back Side) Layout
86
E
C
B A1
C
A2
Q D
MAIN BOARDp/n: EBR69490101
Q8205Q8203
D8312
Q8308
SB
DG
IC8100
Q200S
GD
Q8301
Q8304
D8307
IC8400
Q8303Q8300
D8309
Q8305Q8302
D8306
Q8701 IC8700IC8401
IC8200
Q702
D8310
Q8306 Q701
IC602IC606
Q901
IC604
Q8000Q8002Power On
Sw
DDRDDR
DDR_VTT Reg
RS232 Buffer
EDID RGB
EEPROM for Micro
HDMI CEC
CEC Pull-Up
Wireless IR_PASS
FLASH_WP for IC901
Power OnDriver
3 12
RGB Sync
Wireless Power FET Switch
Wireless Buffer
Video Buffer
Audio Buffer
+1.8V_HDMI Switch
HDMIHot Swap
HDMIHot Swap
HDMIHot Swap
18. IF p17. IF n16. IF AGC15. Reset14. 3.3V13. 1.26V12. GND11. CVBS10. NC 9. SIF
8. NC 7. SDA 6. SCL 5. NC 4. NC 3. 5V
2. NC 1. NC
Digital Video
Analog Video
Tuner B+
Tuner DataTuner Clock
Audio
TU700TDVJ-H031F
Q8100
EDIDWP
HDMIHot Swap
Rubber
47LX6500 Main (Back Side) Component Voltages
IC602 D1.8V IC8400 RGB IC8700 Wireless Q200 (1.8V_HDMI) Q8203 IR Wireless PassPin Regulator Pin H/V Sync Pin Buffer Pin Switch Pin 2nd Driver[1] 0V (Gnd) [1] 1.9V [1] 0V (3.3V Dongle In) S 1.83V (Out) B 0V[2] 3.29V (PWR On/Off1 Ctl) [2] 1.9V [2] 3.3V (0.3V Dongle In) G 3.35V (PWR On/Off2 Ctl) C 3.3V[3] 0.9V (DDR_VTT) [3] 4.4V [3] n/c D 1.83V (In) E Gnd[4] 0.93V [4] 0V [4] n/c[5] 1.83V [5] 0.9V [5] n/c Q701 Tuner SIF[6] 3.38V (In) [6] n/c (4.5V) [6] Gnd Pin (Sound) Buffer Q8205 IR Wireless Pass[7] 1.8V (Out) [7] 0V (Gnd) [7] Gnd B 0.16V Pin 1st Driver[8] 0.91V (DDR_VTT) [8] n/c (4.5V) [8] Gnd C Gnd B 0.6V
[9] n/c (1.9V) [9] n/c E 0.83V C 0VIC8100 EEPROM [10] n/c (1.9V) [10] 0.02V E Gnd
Pin Micro [11] n/c (4.5V) [11] 0V Q702 Tuner Video[1] 0V (Gnd) [12] 0.9V [12] 3.3V Pin (Analog) Buffer Q8300,1,2,6 HDMI 1[2] 0V (Gnd) [13] 0.9V [13] 0V (3.3V Dongle In) B 2.05V Pin Hot Swap[3] 0V (Gnd) [14] 5V [14] 3.3V C 2.75V B 4.2V[4] 0V (Gnd) [15] 3.3V E Gnd C 0V[5] 3.37V IC8401 EDID Data [16] 3.3V E Gnd[6] 3.37V Pin PC Q901 FLASH_WP[7] 0V (Gnd) [1] 0V (Gnd) Pin for IC901 Q8303,4,5,7 HDMI[8] 3.37V [2] 0V (Gnd) B 0V (Flash_WP) Pin Hot Swap
[3] 0V (Gnd) C 3.36V B 0VIC8200 RS232 [4] 0V (Gnd) E Gnd C 4.2V
Pin Routing [5] 0.7V E Gnd[1] 0V [6] 4.1V Q8000 RL_ON (PWR_On)[2] 0V [7] 4.5V Pin 1st Driver Q8308 CEC Remote[3] 0V [8] 4.5V (In) B 0.66V Pin HDMI CEC( )[4] 0V C 0V [B] 2.72V[5] 0V E Gnd [G] 2.73V[6] (-5.47V) [S] 3.27V[7] n/c (5.59V) Q8002 PWR_ON [D] 3.37V
[8] n/c (0V) D8306,7,9,10 5V Pull Up Routing Pin Switch[9] n/c (3.3V) Pin HDMI SCL/SDA [1] 3.36V (In) Q8701 IR Wireless Pass
[10] n/c (0.2V) A1 5.04V [2] 0V Pin 2nd Driver[11] n/c (3.3V) C 4.58V [3] 3.3V (Out) G 24.5V (2.3V Dongle In)[12] 3.35V A2 0V S 24V[13] 0V D 0V (24.5V Dongle In)[14] (-5.47V) D8312 3.5V Pull Up[15] 0V (Gnd) Pin HDMI CEC[16] 3.37V A1 0V
C 3.26VA2 3.2V
87 December 2010 47LX6500 LCD-DV
Main Board Main Board X9700 X9700 and X1001 Crystal Checksand X1001 Crystal Checks
X9700IC9701 TruMotion / Di i C t l
Runs when set is On
1.6V IC1001 BCM Overtone
X1001 (54Mhz)746mV p/p
Dimming Crystal
1 6V
3.55V p/p
p p
Either leg
Do not measure with Digital Volt meter
25Mhz
1.6V4.5V p/p
725mV p/p
Digital Volt meter
Runs when set is On
MAIN Board
set is On
December LCD TV 47LX650088
Main Board X8100 and X8101 Crystal ChecksMain Board X8100 and X8101 Crystal Checks
IC8100 Micro Crystal
X81003.48V p/pEither leg
Top leg
MAIN BoardMAIN Board2.46V p/p Bottom leg
Runs all the time
32.768KHz
X8101
1.47VCan not read
A Waveform onleft side 1.8V
3V p/p
December LCD TV 47LX650089
Runs all the time
Main Board Connector P8000 to Power Supply Voltage and Diode CheckMain Board Connector P8000 to Power Supply Voltage and Diode Check
P8000 P8000 "MAIN Board" To P201 "SMPS Board"
Pin Label STBY Run Diode Check
1 PWR-ON 0V 3.25V 2.77V
2-4 20V 0V 21.7V Open
Odd Pins Front Row5-8 Gnd Gnd Gnd Gnd
9-12 3.5V 3.5V 3.38V 1.16V
13-15 Gnd Gnd Gnd Gnd
16 V_Sync 0V 0.02V 1.04V
17 12V 0V 12.43V 2.52V
18 DRV-ON 0V 2.98V Open
19 12V 0V 12 43V 2 52V(1) PDIM Pin 20 can vary according to incoming video IRE level, OSD Backlight setting and Intelligent Sensor
19 12V 0V 12.43V 2.52V
20 SCLK 0V 0.16V 1.04V
21 12V 0V 12.43V 2.52V
22 (1)P DIM1 0V 0 38V 3 3V 2 33V(room light condition). Range 0.37V to 3.3V.
22 (1)P-DIM1 0V 0.38V~3.3V 2.33V
23 SIN 0V 3.23V Open
24 ERROR 0V 0V Open
December LCD TV 47LX650090
Diode Mode values taken with all Connectors Removed
Main Board Connector P7800 to TMain Board Connector P7800 to T--CON/3D P802 Voltage and Diode CheckCON/3D P802 Voltage and Diode CheckThere are no Stand-By Voltages for the ConnectorDiode Mode values taken with all Connectors RemovedP7800 Connector “Main" to “T-CON/3D“ P802
Pin Label Run Diode Check Pin Label Run Diode Check Pin Label Run Diode Check
1 PANEL_VCC 12.18V 3.02V 18 Gnd Gnd Gnd 35 RRXA2+ 0.91V 0.97V
2 PANEL_VCC 12.18V 3.02V 19 RRXB2+ 1.14V 0.91V 36 RRXA2- 1.08V 1.15V
3 PANEL_VCC 12.18V 3.02V 20 RRXB2- 1.2V 1.08V 37 RRXA1+ 0.91V 0.97V
4 PANEL_VCC 12.18V 3.02V 21 RRXB1+ 1.16V 0.91V 38 RRXA1- 1.08V 1.15V
5 n/c n/c n/c 22 RRXB1- 1.19V 1.08V 39 RRXA0+ 0.91V 0.97V
6 Gnd Gnd Gnd 23 RRXB0+ 1.19V 0.91V 40 RRXA0- 1.08V 1.15V
7 Gnd Gnd Gnd 24 RRXB0- 1.19V 1.08V 41 n/c n/c n/c
8 Gnd Gnd Gnd 25 n/c n/c n/c 42 3D_DIM_2 0.05V 1.03V
9 Gnd Gnd Gnd 26 Gnd Gnd Gnd 43 3D_DIM 0V 1.03V
10 Gnd Gnd Gnd 27 RRXA4+ 1.08V 0.91V 44 3DTV 0V Open
11 RRXB4+ 1 09V 0 91V 28 RRXA4- 1 26V 1 08V 45 n/c n/c n/c11 RRXB4+ 1.09V 0.91V 28 RRXA4 1.26V 1.08V 45 n/c n/c n/c
12 RRXB4- 1.26V 1.08V 29 RRXA3+ 1.14V 0.91V 46 FRC_RESET 3.32V Open
13 RRXB3+ 1.14V 0.91V 30 RRXA3- 1.2V 1.08V 47 SCL3_3.3V 3.34V 2.99V
14 RRXB3- 1.22V 1.08V 31 Gnd Gnd Gnd 48 SDA3_3.3V 3.34V 2.99V
15 G d G d G d 32 RRXACK 1 2V 0 91V 49 V SYNC 3 33V 1 0V15 Gnd Gnd Gnd 32 RRXACK+ 1.2V 0.91V 49 V_SYNC 3.33V 1.0V
16 RRXBCK+ 1.2V 0.91V 33 RRXACK- 1.16V 1.08V 50 *3D_Sync_Out 0.03V 0.99V
17 RRXBCK- 1.16V 1.08V 34 Gnd Gnd Gnd 51 Gnd Gnd Gnd
5 5V / 60 H*Pi 50 O l ti h 3D
December LCD TV 47LX650091
5.5V p/p 60 Hz3D-Sync
*Pin 50 Only active when a 3D source is played. (1.63V)
Main Board P8200 to (Ft. IR/Intelligent Sensor) Voltage and Diode CheckMain Board P8200 to (Ft. IR/Intelligent Sensor) Voltage and Diode Check
P8200P8200 "MAIN Board" To J1 "IR Board"
Pin Label STBY Run Diode Check
12 LED_R/BUZZ 0V 0V 2.65V
11 +3.3V_Normal 0V 3.31V 0.51V
10 Gnd Gnd Gnd Gnd
9 IR 1.57V 1.52V Open
8 LED_LOGO 0V 0V 2.65V
7 Gnd Gnd Gnd Gnd
6 3 5V ST 3 5V 3 34V 1 17V
1
6 3.5V_ST 3.5V 3.34V 1.17V
5 KEY 2 3.29V 3.29V 1.79V
4 KEY 1 3.31V 3.31V 1.8V
3 Gnd Gnd Gnd Gnd1
(1) Clock pulses only present when Intelligent Sensor is turned on. (3.7V p/p)
2 SDA 3.5V 3.34V Open
1 SCL 3.5V 3.34V Open
p y p g ( p p)(2) IR pulses (2.5V p/p)
December LCD TV 47LX650092
Diode Mode values taken with all Connectors Removed
Main JK8700 Wireless Media Box Dongle Jack (Voltage and Diode Check)Main JK8700 Wireless Media Box Dongle Jack (Voltage and Diode Check)JK8700 Jack "MAIN Board" To "Wireless Dongle"
Pin Label STBY Run Diode Check
1-6 *20V 0V 21.7V Open
7 Detect 0V 0.3V 2.8V
8 Interrupt 0V 3.3V Open
9 Gnd 0V Gnd Gnd
10 n/c 0V 3.3V Open
11 Gnd 0V Gnd Gnd
12 I2C SCL 0V 3 3V 1 04V12 I2C_SCL 0V 3.3V 1.04V
13 I2C_SDA 0V 3.3V 1.04V
14 Gnd 0V Gnd Gnd
15 Wireless_RX 0V 3.3V 1.8V
JK8700Jack1
16 Wireless_TX 0V 3.3V 1.8V
17 Gnd 0V Gnd Gnd
18 IR 0.67V 3.3V Open
19 20 Gnd 0V Gnd Gnd
Voltages with Wireless Media Box Dongle plugged in.(Use Dongle side to read voltages. Remove cover).
*20V Switched from Q8701 Drain Back side of the board.Q8701 turned on by Q8700 front side of the board
Diode Mode values taken with all Connectors R d
19-20 Gnd 0V Gnd Gnd
December LCD TV 47LX650093
Q8701 turned on by Q8700 front side of the board.Q8700 turned on by Microprocessor pin 38.
Removed
Main P7802, P7803 to TMain P7802, P7803 to T--CON/3D board (Voltage and Diode Check)CON/3D board (Voltage and Diode Check)
P7802 "Main" To "T-CON/3D" P803 P7802
Pin LABEL SBY Run Diode Check
1 PANEL_VCC 0V 12.18V 2.2V
2 PANEL_VCC 0V 12.18V 2.2V
3 Gnd Gnd Gnd Gnd
4 Gnd Gnd Gnd Gnd
1
P7803 "Main" To "T-CON/3D" P807
Pin LABEL SBY Run Diode Check
1 Gnd Gnd Gnd Gnd
P7803
2 E_TCK 0V 0V Open
3 E_TDO 0V 3.29V Open
4 E_TMS 0V 3.29V Open
5 E_TDI 0V 3.29V Open
6 Gnd Gnd Gnd Gnd1
December LCD TV 47LX650094
Diode Mode values taken with all Connectors Removed
Main Main P2401 P2401 and and P8800 P8800 Connectors (Voltage and Diode Check)Connectors (Voltage and Diode Check)
P2401 "Main" To "3D Emitter"
P2401
P2401 Main To 3D-EmitterPin LABEL SBY Run Diode Check1 +5V_EMITTER 0V 5.11V 2.9V
2 Gnd Gnd Gnd Gnd 12 Gnd Gnd Gnd Gnd
3 3D_SYNC 0V 0.03V 2.59V
P8800 "Main" To "Speaker Left and Right"Pin LABEL SBY Run Diode Check
P8800
Pin LABEL SBY Run Diode Check1 SPK-R(-) 0V 10.86V Open2 SPK-R(+) 0V 10.86V Open3 SPK-L(-) 0V 10.86V Open
1
( ) p4 SPK-L(+) 0V 10.86V Open
December LCD TV 47LX650095
Diode Mode values taken with all Connectors Removed
Main Board Audio Voltage ChecksMain Board Audio Voltage ChecksUse speaker outputs to test for defective Audio Amp Note:
(Normal, ½ Audio B+ Input 10.86V)This general information covers; • IC8801 Front Audio Out)
Speaker Output Connector
MutePin 25 IC8800
Amp 1 8V
Speaker Output Connector• P8800 Audio OutQ8800
Amp MuteAmp 1.8V
Pin 12, 13, 16
(1.8V_AMP)RegulatorPin
[1] 0V (Gnd)
IC8800
Amp 1.8V
Audio B+21.7V
Pins 32-36 [1] 0V (Gnd)[2] 1.8V (Out)[3] 3.3V (In)
Note: 3.3V input (pin 3) from IC8005 3 3V N l R l t
IC8801Audio Amp
3.3V NormalPin 8
Pins 32-36
Audio B+ Q8800 (Mute)
(1)3.3V_Normal Regulator
(AMP MUTE)Q880021.7VPins 49-52
Q ( )Active Low. Location: Top left of IC8801.Normal 3.3V Collector to Pin 25 of all three ICs
(AMP_MUTE)Pin[B] 0V [C] 3.34V[E] 0V Gnd
Q8800
December LCD TV 47LX650096
Pin 25 of all three ICs.[E] 0V Gnd
FRONT (IR, INTELLIGENT SENSOR and MOVING LED) SECTIONFRONT (IR, INTELLIGENT SENSOR and MOVING LED) SECTION
The Intelligent Sensor and IR board (located on the bottom left as viewed from the rear) contains the IR (Infrared Remote Sensor) and the Intelligent Sensor. This board also connects with the Soft Touch Key Board and the Center LG Logo board. The Center LG Logo lights after power on and the picture appears. Then dims down in about 2 seconds. At power off, it does the reverse. It will remain on when the set is on if set up in the Customer’s Menu.
The IR board receives it operating B+ via J1 pin 6 (STBY 3.5V) 3.5V in STBY and 3.31V in Run.
The IR (Infrared) remote receiver can be measured (1.57V in STBY) at pin 9 of connector J1 or P8200 on the Main board in Stand-By. During run pin 9 reads (1.52V).
The IR pulses (1.6V p/p) J1 pin 9 are sent to P8200 on the Main board and on to the Microprocessor (IC8101) via pin 16.
The Intelligent Sensor communicates with the Micro/Video Processor IC900 BCM Chip via clock and data lines SCL1 and SDA1 arriving on connector J1 from P8200 pins 1 and 2 on the Main board.
The Front Power LEDs are controlled by these same Clock and Data lines which communicate with the LED Driver IC on the IR board.
The Key board is routed to the IR board via J2 and output on J1 Key 1 and Key 2 lines, • Key 1 pin 4 (3.31V)• Key 2 pin 5 (3.29V)Arriving at P8200 pins 4 and 5 on the Main Board then to the Microprocessor 25 and 26 lines.
December LCD TV 47LX650097
Front IR Board (Connections Identified)Front IR Board (Connections Identified)p/n EBR64966201
J2 To Soft Touch Key Board
IR Sensory
J3 To LG LOGO Board
J1 To Main Board
December LCD TV 47LX650098
Back View
Front Board Connectors Front Board Connectors J1 and J3 J1 and J3 Voltage and Voltage and Diode Diode CheckCheck
J1 "Front IR" to P8200 " MAIN" J3 "Front IR" to “LOGO Board"
Pin Label STBY Run Diode Check
1 1SCL 3.5V 3.34V Open
2 1SDA 3.5V 3.34V Open
Pin Label STBY Run Diode Check
1 3.5V_ST 3.5V 3.31V 2.59V
2 Gnd Gnd Gnd Gnd
3 Gnd Gnd Gnd Gnd
4 KEY 1 3.31V 3.31V Open
5 KEY 2 3.29V 2.29V Open
6 3 5V ST 3 5V 3 31V 2 98V
3 *LOGO 1.46V 0.55V Open
4 Gnd Gnd Gnd Gnd
* 1.46V when LOGO Off. 0.55V On.6 3.5V_ST 3.5V 3.31V 2.98V
7 Gnd Gnd Gnd Gnd
8 LED_LOGO 0V 0V Open
9 2IR 1.57V 1.52V 2.88V
6 e OGO O 0 55 O
(1) P l l t h I t lli t S i
10 Gnd Gnd Gnd Gnd
11 +3.3V_Normal 0V 3.31V Open
12 LED_R/BUZZ 0V 0V 0.8V
(1) Pulses only present when Intelligent Sensor is turned on. (3.7V p/p)
(2) IR pulses (2.5V p/p)
December LCD TV 47LX650099
Diode Mode values taken with all Connectors Removed
Front Board Connectors Front Board Connectors J2 J2 Key Board Voltage, Resistance and Key Board Voltage, Resistance and Diode Diode CheckCheck
Resistance when key is pressedJ2 "IR Board" To "LOGO Board"J2 IR Board To LOGO Board
Pin Label STBY Run Diode Check
1 3.5V_ST 3.5V 3.33V 2.47V
2 Ref 0V 2.29V 2.42V
BUTTON KEY LINE RESISTANCE
No Key Key 1 15.71M
VOL+ Key 1 1.1M2 Ref 0V 2.29V 2.42V
3 Gnd Gnd Gnd Gnd
4 KEY 1 3.31V 3.31V Open
5 KEY 2 3 29V 3 29V Open
y
VOL- Key 1 1.9M
ENTER Key 1 86.6K
MENU Key 1 478.3K5 KEY 2 3.29V 3.29V Open
6 Gnd Gnd Gnd Gnd
7 LED drive 3.5V 3.34V Open
8 LED drive 3 5V 3 34V Open
y
No Key Key 2 15.49M
CH+ Key 2 1.1M8 LED drive 3.5V 3.34V Open y
CH- Key 2 1.9M
INPUT Key 2 86.6K
POWER Key 2 478.3K
December LCD TV 47LX6500100
Diode Mode values taken with all Connectors Removed
INVISIBLE SPEAKER SECTIONINVISIBLE SPEAKER SECTION
The 55LX6500 contains the 4 Magnet Invisible Speaker system.
Full Range Speakerp/n EAB60961501
The Full Range Speakers point downward, so there is no front viewable speaker grill or air ports.
Side ViewSpeaker Terminals Speaker Terminals
Back View
Speaker Terminals Speaker Terminals
December LCD TV 47LX6500101
INTERCONNECT DIAGRAM (11 X 17 FOLDOUT SECTION)INTERCONNECT DIAGRAM (11 X 17 FOLDOUT SECTION)
This section shows the 11X17 foldout that’s available in the Paper This section shows the 11X17 foldout that’s available in the Paper and Adobe version of the Training Manual.and Adobe version of the Training Manual.gg
The Adobe version of this Training Manual allows the viewer to The Adobe version of this Training Manual allows the viewer to ggzoom in and out making reading of the small text easier.zoom in and out making reading of the small text easier.This Power Point shows a graphical representation of the 11 X 17 This Power Point shows a graphical representation of the 11 X 17 foldout page so clarity is limitedfoldout page so clarity is limitedfoldout page so clarity is limited.foldout page so clarity is limited.
December LCD TV 47LX6500102
47LX6500 INTERCONNECT DIAGRAM
Front IR
Keys
LG Logo
INV 1 Drive
To TFT Panel To TFT Panel
3D IR
P8200 "Main Board" to J1 "IR Board"
P805 LVDS to PanelP806 LVDS to Panel
16VVDD (16V)801.23VLRMVCLKP2716VVDD (16V)794.94VV13531.21VLRMVCLKN26GndGnd78GndV1252GndGnd253.4VVCC (3.3V)775.74VV10511.27VLRMV2N243.4VVCC (3.3V)768.31VV9501.17VLRMV2P23GndGnd7510.27VV7491.26VLRMV1N228.2VHVDD (8V)7411.07VV6481.15VLRMV1P218.2VHVDD (8V)7311.07VV5471.28VLRMV0N20GndGnd7212.26VV4461.17VLRMV0P19(-5V)VGL (-5V)7114VV345GndGnd18GndGnd7015.75VV2441.26VLLMV6N17
0.83VGOE6915.75VV1431.16VLLMV6P162.3VGSC68GndGnd421.27VLLMV5N15GndGnd670.24VSOE_L411.26VLLMV5P14
25.6VVGH (26V)66GndGnd401.26VLLMV4N13GndGnd651.66VPOL391.18VLLMV4P126VVCOMLFB640VGSP38GndGnd116VVCOMLOUT63GndH_CONV371.23VLLMVCLKN10
GndGnd623.33VOPT_N361.22VLLMVCLKP98VZ_OUT61GndGnd35GndGnd8
GndGnd601.25VLRMV6N341.29VLLMV2N7GndGnd591.17VLRMV6P331.15VLLMV2P6
0.26VV18581.26VLRMV5N321.3VLLMV1N50.26VV17571.18VLRMV5P311.18VLLMV1P40.27VV16561.25VLRMV4N301.24VLLMV0N32.68VV15551.15VLRMV4P291.19VLLMV0P23.75VV1454GndGnd28GndGnd1RUNLABELPINRUNLABELPINRUNLABELPIN
--
J1J2
801.22VRRMV6N79GndGnd5313.35VV4261.12VRRMV6P781.22VRLMV2N5214VV3251.12VRRMV5N771.13VRLMV2P5115.75VV2241.11VRRMV5P761.24VRLMV1N5015.75VV1231.24VRRMV4N750.14VRLMV1P49GndGnd221.13VRRMV4P740.17VRLMVON488VZ_OUT21GndGnd730.15VRLMVOP47GndGnd20
1.18VRRMVCLKN72GndGnd466VVCOM ROUT191.19VRRMVCLKP713.33VOPT_N456VVCOMRFB18GndGnd700.44VH_CONV44GndGnd17
1.23VRRMV2N690.25VSOE_R4325.6VVGH (26V)161.15VRRMV2P68GndGnd42GndGnd151.23VRRMV1N671.66VPOL412.3VGSC141.15VRRMV1P660VGSP400.83VGOE131.23VRRMV0N65GndGnd39GndGnd121.13VRRMV0P640.26VV1838(-5V)VGL (- 5V)11GndGnd630.27VV1737n/cOPT_P10
1.23VRLMV6N621.97VV1636GndGnd91.12VRLMV6P612.68VV15358.2VHVDD (8V)81.22VRLMV5N603.75VV14348.2VHVDD (8V)71.34VRLMV5P594.94VV1333GndGnd61.24VRLMV4N583.37VV12323.4VVCC (3.3V)51.15VRLMV4P577.71VV10313.4VVCC (3.3V)4GndGnd568.31VV930GndGnd3
1.18VRLMVCLKN5510.28VV72916VVDD (16V)21.19VRLMVCLKP5411.08VV616VVDD (16V)1RUNLABELPINRUNLABELPINRUNLABELPIN
GndGnd12.27VV527
Gnd
0.83V
0.26V--P7802 "Main" To
"T-CON” P803
P8800 "Main" To "Speakers” P2401 "Main" To
"3D Emitter” JK8700 Jack "MAIN Board" To "Wireless Dungle"
P804 “TCON" to P7803 "Main Board"
28
Pin 50(1.6V) with 3D source
5.5V p/p 60 Hz3D-Sync
SK101AC In
IC501
IC502
IC503
F1015A
250V
P201
P205
RL102
Inverter
T501
D221
D222
Q241
D232D231
Q102
Q103
21uF/450V21uF/450V21uF/450V21uF/450V21uF/450V21uF/450V21uF/450V21uF/450V
RL101
IC102
BD101
F1032A
250V
F1022A / 250V
Q606
Q607
D602
Prim
ary
Seco
ndar
y
D245D241
D243
D242
D244
200V25uF
+ -
200V25uF
200V25uF
200V25uF
+ -
200V25uF
200V25uF
+-
450V4.7uF
450V4.7uF
450V4.7uF
+-
450V4.7uF
450V4.7uF
450V4.7uF
D102D101
D100C511
C501
D601
D103
F102 Hot Gnd
Stby 2.46VRun 388V
F103 Hot Gnd
Stby 160VRun 388V
P204P703
P701
200V25uF+
- 200V25uF
200V25uF
200V25uF+
- 200V25uF
200V25uF
200V25uF
+-
200V25uF
200V25uF
200V25uF
+-
200V25uF
200V25uF
C242/C243C245/C244
SMPS BOARDp/n: EAY60803402
D201
P701
142V
STBY 3.5V
C246 / 7
(1) P-DIM1 (Digital Dimming) Global Pin 22 can vary according to incoming video IRE level, OSD Backlight setting and room light condition. 0.38V 0% to 3.3V 100% and the Intelligent Sensor. Output from the Video Processor IC900.
Hot GroundShock Hazard
D201 Stand-By
3.5V Source
Pin Label Run Diode Pin Label Run Diode Pin Label Run Diode1 PANEL_VCC 12.18V 3.02V 18 Gnd Gnd Gnd 35 RRXA2+ 1.14V 0.91V2 PANEL_VCC 12.18V 3.02V 19 RRXB2+ 1.14V 0.91V 36 RRXA2- 1.22V 1.15V3 PANEL_VCC 12.18V 3.02V 20 RRXB2- 1.2V 1.08V 37 RRXA1+ 1.17V 0.91V4 PANEL_VCC 12.18V 3.02V 21 RRXB1+ 1.16V 0.91V 38 RRXA1- 1.19V 1.08V5 n/c n/c n/c 22 RRXB1- 1.19V 1.08V 39 RRXA0+ 1.19V 0.91V6 Gnd Gnd Gnd 23 RRXB0+ 1.19V 0.91V 40 RRXA0- 1.17V 1.08V7 Gnd Gnd Gnd 24 RRXB0- 1.19V 1.08V 41 n/c n/c n/c8 Gnd Gnd Gnd 25 n/c n/c n/c 42 3D_DIM_2 0.05V 1.03V9 Gnd Gnd Gnd 26 Gnd Gnd Gnd 43 3D_DIM 0V 1.03V10 Gnd Gnd Gnd 27 RRXA4+ 1.08V 0.91V 44 3DTV 0V Open11 RRXB4+ 1.09V 0.91V 28 RRXA4- 1.26V 1.08V 45 n/c n/c n/c12 RRXB4- 1.26V 1.08V 29 RRXA3+ 1.14V 0.91V 46 FRC_RESET 3.32V Open13 RRXB3+ 1.14V 0.91V 30 RRXA3- 1.2V 1.08V 47 SCL3_3.3V 3.34V 2.99V14 RRXB3- 1.22V 1.08V 31 Gnd Gnd Gnd 48 SDA3_3.3V 3.34V 2.99V15 Gnd Gnd Gnd 32 RRXACK+ 1.2V 0.91V 49 V_SYNC 3.33V 1.0V16 RRXBCK+ 1.2V 0.91V 33 RRXACK- 1.16V 1.08V 50 3D_Sync_Out 0.03V 0.99V17 RRXBCK- 1.16V 1.08V 34 Gnd Gnd Gnd 51 Gnd Gnd Gnd
P7800 "MAIN Board" To "T-CON" P802
A1
A2 C
P805
IC1000
EB
C E B
C
E
BC
EB
C
P806
IC102
P101X100
25MHz
IC600
1.27V
8.2V
2.52V
2.53V
3.3V
3.4V
1.05V
8V Pin 61
8.2V Pins 73-743.4V Pins 76-77
16V Pins 79-80
-5V Pins 71
25.6V Pins 66
6V Pins 63-64
8.2V Pins 7-83.4V Pins 4-5
8V Pin 21
6V Pins 18-1925.6V Pins 16-5V Pins 11
16V Pins 1-2
13
25
48
P802P804P803
IC502
IC307IC200
IC205IC302L306
1.07V
IC301L3053.34V3.35V
IC304
IC1002 IC1001
IC500 IC400
SW400
IC801
L314
IC308
Q700
L700
IC201
IC204
IC700
Q702L702
1.88V1.85V
IC305
1.2VL309
IC306
L601
EB
C
E
BC
P900
L307
L600IC309
IC501
Q1004Q1003
Q1002Q1001
L701 Q701
Q906Q907
D602
D600
D601-5V (A1)
3.33V
L802
11.42VLVDS 12V
TP
n/c
A1A2C
D60316V
IC310
IC600B+ Source
11.42VLVDS 12VPins 37-38 11.22V
11.27V
2.5V 2.3V
8V Pin 11
25.6V Pin 8
6V Pin 2
16V Pin 42
3.4V L601
3.4V 23-24
8.2V
Q?LAN
1 2
3
SG
D
MAIN BOARDp/n: EBR69490101
IC900Video Processor
LGE3549XQ
P7800
IC601
X9700
P8200
Q8201Q8200
X8101X8100
IC8101
P8100 IC8004
IC8800
Q8800
n/c
IC8801
Q8700
P8800
Q308
HDMI
IC300
IC700
USB2
USB1
IC302
X1001
IC901
IC8000
IC301IC605
Q8004
Q8003 Q8001IC8002 IC8001
IC8003IC8007
IC8008IC9702
IC603
P7802
P8000
P7803 P2401
25MHz
32.768KHz
10MHz
SW8100
Micro Reset
IC9703Q8005
IC8005
RS232RGB
Audio Amp
HDMISelector
Microprocessor
54MHz
Panel Vcc Sw
IC9701LG5111
INV_CTL Sw
1.8V Dimming
EEPROM
NVRAM
LVDS & Dimming
DDR DDR
NAND Flash Memory
USB1 5V
USB2 5V
+ 5V Normal Reg
A1.2V Reg
D1.8V Reg
D3.3V Reg
+1.26V_TU Reg
Earphone Amp
LVDS
A2.5V Reg
To T-CON 3D Sync
USB 5V
Spk
Ft IR
+1.8V_AMP
IC8300
Wireless Media Box Remote
JK8700
HDMI
Q8307
123
Main Board Used:
EBR69490101 47LX6500-UB_AUSWLJREBU6098702 47LX6500-UB_AUSWLUR
18. IF p17. IF n16. IF AGC15. Reset14. 3.3V13. 1.26V12. GND11. CVBS10. NC 9. SIF
8. NC 7. SDA 6. SCL 5. NC 4. NC 3. 5V
2. NC 1. NC
Digital Video
Analog Video
Tuner B+
Tuner DataTuner Clock
Audio
TU700TDVJ-H031F
HP
SideAV
P1000n/c
PCAudio
HDMI
HDMI
OpticalAudio
To T-CON
Q8205
Q8203D8312
Q8308
SB
DG
IC8100
Q200S
GD
Q8301
Q8304
D8307
IC8400
Q8303Q8300 D8309
Q8305Q8302
D8306Q8701
IC8700
IC8401
IC8200
D8310
Q8306
IC602IC606
Q901
IC604
Q8000 Q8002Power On
Sw
DDR DDR
DDR_VTT Reg
RS232 Buffer
EDID RGB
EEPROM for Micro
Power On Driver
312
RGB Sync
HDMIHot Swap
HDMIHot Swap
Q8100EDIDWP
HDMIHot Swap
n/c
Pin Label STBY Run Diode Check24 ERROR 0V 0V 1.45V23 L-DIM SIN 0V 3.23V Open22 (1) P-DIM1 0V Open21 12V 0V 12.37V 0.18V20 SCLK 0V 0.16V Open
19 12V 0V 12.37V 0.178V18 DRV-ON 0V 2.98V Open17 12V 0V 12.37V 0.178V16 V_Sync 0V 0.02V Open
13-15 Gnd Gnd Gnd Gnd9-12 3.5V 3.5V 3.38V Open5-8 Gnd Gnd Gnd Gnd2-4 20V 0V 21.7V 1.10V1 PWR-ON 0V 3.25V 1.02V
P201 Connector "SMPS Board" To P8000 "MAIN Board"
0.38V~3.3V
SMPS TEST 1: To Force Power Supply On.Disconnect P8000 on Main board.(A) Jump pins 9, 10, 11 or 12 (3.5V) to pin 1 (PWR-ON). Test Output 12V, 20V to Main and 142V (D245 Cathode). Remove AC power. Leave the jumper in place.SMPS TEST 2: (B) Jump pins 9, 10, 11 or 12 (3.5V) to pin 18 (DRV-ON). Apply AC power, the Backlights should turn on.
P803 "T-CON" toP7802 "Main"
J3 Voltages with Dongle plugged in.(Use Dongle side to read voltages. Remove cover.)+20V Switched from Q8701 DrainQ8701 turned on by Q8700
3Gnd2
1
2.59V0.03V3D_SYNCGndGnd2.9V5.11V+5V_EMITTER
DiodeRunLABELPin
GndGnd0VGnd19 - 20Open3.3V0.67VIR18GndGnd0VGnd171.8V3.3V0VWireless_TX161.8V3.3V0VWireless_RX15GndGnd0VGnd141.04V3.3V0VI2C_SDA131.04V3.3V0VI2C_SCL12GndGnd0VGnd11Open3.3V0Vn/c10GndGnd0VGnd9Open3.3V0VInterrupt82.38V0.3V0VDetect7
21.7V0V*20V1 - 6
DiodeRun STBYLabelPin
Open
2.65V0V0VLED_R/BUZZ120.51V3.31V0V+3.3V_Normal11GndGndGndGnd10Open1.52V1.57VIR92.56V0V0VLED_LOGO8GndGndGndGnd7
1.17V3.31V3.5V3.5V_ST61.79V3.29V3.29VKEY 251.8V3.31V3.31VKEY 14GndGndGndGnd3Open3.4V3.5VSDA2Open3.4V3.5VSCL1
Diode CheckRun STBYLabelPin
Open10.86V4Open10.86V3Open2Open10.86VSpk R -1
DiodeLABELPin
10.86V
Run
Spk R +Spk L -Spk L +
J3 "IR Board" To "LG LOGO"
1.46V LOGO Off 0.55V LOGO OnGndGndGndGnd4Open0.55V1.46VLogo Drive3GndGndGndGnd2
2.59V3.31V3.5V3.5V_ST1Diode CheckRunSBYLABELPin
J2 "IR Board" To "Key Board” Pin Label STBY Run Diode1 3.5V_ST 3.5V 3.33V 2.47V2 Ref 0V 2.29V 2.42V3 Gnd Gnd Gnd Gnd4 KEY 1 3.31V 3.31V Open5 KEY 2 3.29V 3.29V Open6 Gnd Gnd Gnd Gnd7 LED drive 3.5V 3.34V Open8 LED drive 3.5V 3.34V Open
GndGndGnd6Open3.29VE_TDI5Open3.29VE_TMS4Open3.29VE_TDO3Open0VE_TCK2
GndGndGnd1DiodeRunLABELPin
GndGndGnd4
GndGndGnd3
Open2
Open1
RunLABELPin
GndGnd
GndGnd
Open12.18VPanel_VCC
Open12.18VPanel_VCC
Diode
12.18V12.18V
GndGndGnd4GndGndGnd3
OpenPANEL_VCC2OpenPANEL_VCC1DiodeRunLABELPin
D245 142VLED Block
Source
P204 White Plug "SMPS" To "Panel LEDs" P205 Black Plug "SMPS" To "Panel LEDs"Pin Label STBY Run Diode Check
12 B+ 0V 142V Open
11 n/c n/c n/c Open
10 V2A 0V 1V~35V Open
9 V2B 0V 1V~35V Open
8 V2C 0V 1V~35V Open
7-6 n/c n/c n/c Open
5 V1C 0V 1V~35V Open
4 V1B 0V 1V~35V Open
3 V1A 0V 1V~35V Open
2 n/c n/c n/c Open
1 B+ 0V 142V Open
Diode CheckPin Label STBY Run
13 B+ 0V 142V Open
12 n/c n/c n/c Open
11 V4A 0V 1V~35V Open
10 V4B 0V 1V~35V Open
9 V4C 0V 1V~35V Open
8-6 n/c n/c n/c Open
5 V3C 0V 1V~35V Open
4 V3B 0V 1V~35V Open
3 V3A 0V 1V~35V Open
2 n/c n/c n/c Open
1 B+ 0V 142V Open
Pin 3(1.6V) with 3D source
5.5V p/p 60 Hz3D-Sync
INV-O
N B
SMPS TEST 2
P201
A
PWR
ON
3 17 511 915 1319 1721
4 28 612 1016 1420 1822
23
24
STBY 3.5V
12V12V
STBY 3.5V 20V20V
20V12V
Front pins on connectorare odd numbers.
SMPS TEST 1P2
01
A
PWR
ON
3 17 511 915 1319 1721
4 28 612 1016 1420 1822
23
24
STBY 3.5V
12V12V
STBY 3.5V 20V20V
20V12V
Front pins on connectorare odd numbers.
Q702
Q401Q412Q411
Q410
Q409
Q408 Q407 Q406 Q404
Q405
Q402Q403
V2a
V2b
V2c
V1cV1b
V1aV4aV4b
V4c
V3c
V3b V3a
5.02VQ703
2.1V1.7V5.02V
5.02V
D245
200V25uF
+ -
200V25uF
200V25uF
200V25uF
+ -
200V25uF
200V25uF
142V
GndGndGnd
0.16V5.0V
0.16V3.2V5.0VGnd
Gnd
47LX6500 Power Supply EAY60803402 Inverter Section47LX6500 Power Supply EAY60803402 Inverter Section
December 2010 47LX6500 LCD-DV
The drivers Q401~Q412 ground the LED blocks. (12 Total). If the 142V is present on top and bottom pins of P204 and P205 you can ground the top case to turn on a block.
Local Dimming OnL-DIM (SIN)
Local Dimming OffL-DIM (SIN)
37V p/p
LED Drive Signal 50 IRE3.3V p/p V-Sync Signal
3.15V p/p
3.15V p/p
Pin 23 P201
Pin 23 P201
Pin 16 P201
2.1V p/p SCLK Signal
Pin 20 P201
100uSec
10mSec
100uSec
P702 on the Inverter to SMSPPin Label Run 21 V2a 1V~35V20 V2b 1V~35V19 V2c 1V~35V18 V1c 1V~35V17 V1b 1V~35V16 V1a 1V~35V15 V4a 1V~35V14 V4b 1V~35V13 V4c 1V~35V12 V3c 1V~35V11 V3b 1V~35V10 V3a 1V~35V9 LED FB 1.37V8 5.2V 5.07V7 V-sync 0.02V6 DRV_On 2.98V5 SCLK 0.16V4 Gnd Gnd3 SIN 3.23V2 PWM 0.38V~3.3V1 ERROR 0V
142V
142V
142V
142V
n/c
n/c
n/c
n/c
n/c
n/c
*1V~35V LED Drive
*1V~35V LED Drive
*1V~35V LED Drive
*1V~35V LED Drive
n/c
C246 C247
P204 to PanelPin Label12 142V11 n/c10 V2a9 V2b8 V2c7 n/c6 n/c5 V1c4 V1b3 V1a2 n/c1 142V
P205 to PanelPin Label
1211
n/c
10V2a
9V2b
8V2c
7 n/c6 n/c5 V1c4 V1b3 V1a2 n/c1 142V
13 142V
n/c
Gnd
Drive Sig 1.96V
Q401~Q412
3
1
2To Backlight LED Block
1V~35V
Backlight LED Source
47LX6500 MAIN (FRONT SIDE) SIMICONDUCTORS
IC300 Earphone Amp IC601 NVRAM IC8002 D1.8V IC8005 (+3.3V_NORMAL) IC9703 EEPROM Q8200 IR BufferPin Pin Pin Regulator Pin And D3.3V Regulator Pin for LG5111 Pin 2nd[1] 0V [1] n/c [1] 5V [1] Gnd [1] Gnd B 0.56V[2] 0V [2] 0V [2] 3.35V (B+) [2] 11.74V (B+) [2] 3.34V C 0V[3] 0V [3] 3.31V [3] 1.83V (Out) [3] Gnd [3] Gnd E Gnd[4] 0V [4] Gnd [4] Gnd [4] 0.81V [4] Gnd[5] 0V (HP R Out) [5] 3.24V [5] Gnd [5] 0.89V [5] 3.34V Q8201 IR Buffer[6] 3.3V [6] 0V [6] 2.36V [6] 3.34V (PWR On/Off2 Ctl) [6] 3.34V Pin 1st[7] 3.3V [7] Gnd [7] 0.91V [7] 3.36V (Out) [7] 3.32V B 0V [8] (-1.8V) [8] 3.32V (B+) [8] 1.05V [8] 3.36V (Out) [8] 3.34V (B+) C 3.36V[9] (-0.88V) [9] 2.4V E Gnd
[10] Gnd IC700 (+1.26V_TU) [10] 3.37V (PWR On/Off1 Ctl) IC8007 Power Det Gen Q308 Headphone[11] 0.94V Pin Regulator Pin (+12V and +3.5V) Pin Mute Q8307 Side HDMI [12] 1.83V [1] 0V (Gnd) IC8003 (+5V_NORMAL) [1] Gnd B 0V Pin Hot Swap[13] 3.32V (Mute) [2] 1.27V (Out) Pin Regulator [2] 3.69V (B+ C 3.32V B 0V[14] 3.32V (B+) [3] 3.27V (B+) [1] Gnd [3] 3.69V (Out) E Gnd C 4.32V[15] Gnd [2] 11.74V (B+) E Gnd[16] 0V (HP L Out) IC8000 5V Regulator [3] Gnd IC8008 Power Det Gen Q8001 PANEL_VCC
Pin for USB [4] 0.81V Pin (+24V) Pin Control 1st Driver Q8700 Wireless PWRIC301 USB 2 [1] 12.32V (B+) [5] 0.86V [1] Gnd B 0V Dongle In Turns on Q8701
Pin 5V [2] 5.1V (Out) [6] 3.34V (PWR On/Off2 Ctl) [2] 3.64V (B+) C 0.68V B 0.66V (0.0V w/Dongle In)[1] Gnd [3] 5.1V (Out) [7] 5.17V (In) [3] 3.76V (Out) E Gnd C 0.14V (24V w/Dongle In)[2] 5.1V (In) [4] 10.5V [8] 5.17V (In) E Gnd[3] 5.1V [5] 3.28V IC8800 (+1.8V_AMP) Q8003 PANEL_VCC Dongle Out[4] 3.33V [6] 0.79V IC8004 A2.5V Regulator Pin Regulator Pin Control 2nd Driver B 0V (0.0V w/Dongle Out)[5] 3.33V [7] 5.15V Pin for USB [1] Gnd B 0.66V C 24.6V (24V w/Dongle Out)[6] 5.1V (Out) [8] 0V (Gnd) [1] n/c [2] 1.87V (Out) C 0V E Gnd[7] 5.1V (Out) [2] 3.26V (B+) [3] 3.28V (B+) E Gnd [8] n/c IC8001 D1.2V and A1.2V [3] 3.26V (B+) Q8800 AMP Mute to
Pin Regulator [4] n/c IC9702 (+1.8V_L/Dimming) Q8004 PANEL_VCC AMP_MUTE1 IC8801IC302 USB 1 [1] 0V (Gnd) [5] n/c Pin Regulator Pin Switch B 0V
Pin 5V [2] 3.3V [6] 2.57V (Out) [1] Gnd S 12.28V (In) C 3.34V[1] Gnd [3] 0V (Gnd) [7] 0.83V [2] 11.74V (B+) G 1.92V (Enable) E Gnd[2] 5.1V (In) [4] 1.27V [8] Gnd [3] Gnd D 12.2V (Out)[3] 5.1V [5] 3.32V [4] 0.81V (FB)[4] 3.33V [6] n/c [5] 0.77V Q8005 INV_ON[5] 3.33V [7] 4.48V [6] 3.34V Pin Driver[6] 5.1V (Out) [8] 3.32V [7] 3.32V (Out) B 0V (INV ON) En[7] 5.1V (Out) [9] 3.32V [8] 3.34V (Out) C 2.97V (Out)[8] / [10] 3 34V E G d [8] n/c [10] 3.34V E Gnd
[11] 1.28V[12] Gnd[13] 3.3V[14] 0.82V
47LX6500 MAIN (BACK SIDE) SIMICONDUCTORS
IC602 D1.8V IC8200 RS232 IC8400 RGB IC8700 Wireless Q200 (1.8V_HDMI) Q8000 RL_ON (PWR_On) Q8303,4,5,7 HDMIPin Regulator Pin Routing Pin H/V Sync Pin Buffer Pin Switch Pin 1st Driver Pin Hot Swap[1] 0V (Gnd) [1] 0V [1] 1.9V [1] 0V (3.3V Dongle In) S 1.83V (Out) B 0.66V B 0V[2] 3.29V (PWR On/Off1 Ctl) [2] 0V [2] 1.9V [2] 3.3V (0.3V Dongle In) G 3.35V (PWR On/Off2 Ctl) C 0V C 4.2V[3] 0.9V (DDR_VTT) [3] 0V [3] 4.4V [3] n/c D 1.83V (In) E Gnd E Gnd[4] 0.93V [4] 0V [4] 0V [4] n/c[5] 1.83V [5] 0V [5] 0.9V [5] n/c Q701 Tuner SIF Q8002 PWR_ON Q8308 CEC Remote[6] 3.38V (In) [6] (-5.47V) [6] n/c (4.5V) [6] Gnd Pin (Sound) Buffer Pin Switch Pin HDMI CEC[7] 1.8V (Out) [7] n/c (5.59V) [7] 0V (Gnd) [7] Gnd B 0.16V [1] 3.36V (In) [B] 2.72V[8] 0.91V (DDR_VTT) [8] n/c (0V) [8] n/c (4.5V) [8] Gnd C Gnd [2] 0V [G] 2.73V
[9] n/c (3.3V) [9] n/c (1.9V) [9] n/c E 0.83V [3] 3.3V (Out) [S] 3.27VIC8100 EEPROM [10] n/c (0.2V) [10] n/c (1.9V) [10] 0.02V [D] 3.37V
Pin Micro [11] n/c (3 3V) [11] n/c (4 5V) [11] 0V Q702 Tuner Video Q8203 IR Wireless PassPin Micro [11] n/c (3.3V) [11] n/c (4.5V) [11] 0V Q702 Tuner Video Q8203 IR Wireless Pass[1] 0V (Gnd) [12] 3.35V [12] 0.9V [12] 3.3V Pin (Analog) Buffer Pin 2nd Driver Q8701 IR Wireless Pass[2] 0V (Gnd) [13] 0V [13] 0.9V [13] 0V (3.3V Dongle In) B 2.05V B 0V Pin 2nd Driver[3] 0V (Gnd) [14] (-5.47V) [14] 5V [14] 3.3V C 2.75V C 3.3V G 24.5V (2.3V Dongle In[4] 0V (Gnd) [15] 0V (Gnd) [15] 3.3V E Gnd E Gnd S 24V[5] 3.37V [16] 3.37V IC8401 EDID Data [16] 3.3V D 0V (24.5V Dongle In)[6] 3.37V Pin PC Q901 FLASH_WP[7] 0V (Gnd) [1] 0V (Gnd) Pin for IC901 Q8205 IR Wireless Pass D8306,7,9,10 5V Pull Up Routing[8] 3.37V [2] 0V (Gnd) B 0V (Flash_WP) Pin 1st Driver Pin HDMI SCL/SDA
[3] 0V (Gnd) C 3.36V B 0.6V A1 5.04V[4] 0V (Gnd) E Gnd C 0V C 4.58V[5] 0.7V E Gnd A2 0V[6] 4.1V[7] 4.5V Q8300,1,2,6 HDMI 1 D8312 3.5V Pull Up [8] 4.5V (In) Pin Hot Swap Pin HDMI CEC
B 4.2V A1 0VC 0V C 3.26VE Gnd A2 3.2V
IC301 Q702
IC203
Q700
IC310
IC700
IC701IC306
Q701
IC801
IC202
IC309
IC308
1) Gnd2) 3.2V3) 0.09V4) 0.09V5) 1.8V6) 3.34V7) 1.18V8) 0.89V
1) Gnd2) 3.27V3) 0.89V4) 0.9V5) 1.8V6) 3.34V7) 1.8V8) 0.9V
1) 11.41V2) 3.35V3) 3.35V4) 8.77V5) 3.11V6) 0.81V7) 5.02V8) Gnd
IC302 1) 0.8V2) Gnd3) 3.33V4) 4.26V5) 3.3V6) 1.08V7) 1.08V8) 3.0V
IC304 1) 0.75V2) 5.0V3) Gnd4) 0V5) 2.5V6) 5.0V7) 7.55V8) 11.36V9) 11.36V10) 11.36V11) 11.36V12) 2.55V13) Gnd14) Gnd15) 2.55V16) Gnd17) Gnd18) Gnd19) Gnd20) 2.5V21) 2.5V22) n/c23) 0V24) 2.5V25) n/c26) Gnd27) 1.13V28) 10.99V
IC305 1) 0.8V2) Gnd3) 3.32V4) 4.32V5) 3.3V6) 1.22V7) 1.22V8) 2.98V
1) n/c2) 2.5V3) 2.51V4) n/c5) n/c6) 1.81V7) 0.81V8) Gnd
IC307 1) n/c2) 2.49V3) 2.51V4) n/c5) n/c6) 1.81V7) 0.81V8) Gnd
1) n/c2) 2.47V3) 2.49V4) n/c5) n/c6) 1.8V7) 0.8V8) Gnd
1) Gnd2) 3.26V3) 0.89V4) 0.9V5) 1.8V6) 3.34V7) 1.8V8) 0.9V
1) 11.41V2) 2.53V3) 2.53V4) 7.97V5) 3.11V6) 0.8V7) 5.07V8) Gnd
1) Gnd2) 11.68V3) 5.26V4) 0.73V5) 0.58V6) 1.97V7) 0.59V8) 1.20V9) Gnd10) 5.20V11) 1.40V12) 13.1V13) 8.10V14) 11.68V
1) Gnd2) 3.26V3) 3.33V4) 4.79V5) 11.42V6) 11.42V7) 3.34V8) 3.34V
1) Gnd2) 1.42V3) 8.16V4) 11.7V5) 11.42V6) 11.42V7) 8.2V8) 8.2V
1) Gnd2) 4.27V3) 1.89V4) 2.72V5) 11.41V6) 11.41V7) 0V8) 1.89V
IC600
1) 5.96V2) 6.03V3) 3.15V4) 0.17V5) 2.72V6) 3.3V7) 0V8) 25.6V9) 24.7V10) 1.26V11) Gnd12) 5.54V13) 0V14) 0V15) Gnd16) 0V17) 1.26V18) 4.24V19) Gnd20) Gnd21) 1.27V22) 11.45V23) 3.4V24) 3.4V
25) 11.38V26) 11.38V27) 11.07V28) 0V29) 4.24V30) 1.9V31) 0.59V32) 3.3V33) 3.13V34) 0V35) 0V36) 0V37) 11.33V38) 11.37V39) n/c40) n/c41) 1.27V42) 16V43) 5.96V44) 5.96V45) 5.96V46) 5.96V47) Gnd48) 5.97V
1) 0.59V2) 3.3V3) 3.3V4) 0V5) 4.26V6) Gnd7) 1.8V8) 7V9) 2.7V10) 4.78V11) 8.47V12) 3.33V
13) Gnd14) 3.6V15) 0.12V16) 5.21V17) 0.6V18) 1.13V19) 1.18V20) Gnd21) 11.4V22) 0.56V23) 0.81V24) 0.9V
1) 8.01V2) 15.7V3) 15.7V4) 14.05V5) 13.35V6) 12.27V7) 11.07V8) Gnd9) 16.02V10) 10.28V11) 8.31V12) 7.72V13) 3.33V14) 3.33V15) 3.33V16) Gnd17) 0V18) Gnd19) 4.94V20) 3.75V21) 2.67V22) 16.02V23) 0V24) Gnd25) 0.27V26) 0.27V27) 0.25V28) 5.96V
A2A1
C
D600 A1) 16VA2) 25.6VC) 20.68V
E B
C
Q1001
EB
C
Q1002
EB
CQ1003
EB
C
Q1004
Q803EB
C
Q804EB
C
E
CB
Q906
B) 0.6VE) GndC) 0.02V
B) 2.52VE) 2.52VC) 2.27V
B) 2.52VE) 2.52VC) 2.27V
B) 0.61VE) GndC) 0.03V
B) 0.0VE) GndC) 1.9V
B) 0VE) GndC) 1.97V
B) 0.59VE) GndC) 0.02V
B) 0.02VE) GndC) 3.33V
+1.8VDDRReg
+1.8VDDRReg
+1.8VDDRSReg
DC-DCConv
+3.3VReg
+1.0VVDCReg
+2.5VVQReg
1V2Reg
1V2Reg
DDRVTTReg
2V5Reg
For +3.3VTCON
DC-DCConvFor
HVDD
DataBuffer+1.8V
DDRSReg
+8.2VHVDDReg
DC-DCConv
+3.3VTCONReg
+1.8VTCONReg
47LX6500 T-CON/3D Component Voltages
Q907EB
C
47LX650047LX6500 Conclusion Page
This concludes the 47LX6500
training session.
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