Internal Use Only
LED TV SERVICE MANUAL CHASSIS : LA66L
MODEL : 43LH5700 MODEL : 49LH5700
CAUTION
43LH5700-UD 49LH5700-UD
BEFORE SERVICING THE CHASSIS, READ THE SAFETY PRECAUTIONS IN THIS MANUAL.
P/NO : MFL69442202 (1602-REV00)
Printed in Korea
CONTENTS
CONTENTS ............................................................................................... 2 SAFETY PRECAUTIONS ......................................................................... 3 SERVICING PRECAUTIONS .................................................................... 4 SPECIFICATION........................................................................................ 6 ADJUSTMENT INSTRUCTION................................................................. 9 BLOCK DIAGRAM.................................................................................... 17 EXPLODED VIEW ................................................................................... 18 SCHEMATIC CIRCUIT DIAGRAM ............................................ APPENDIX TROUBLESHOOTING............................................................... APPENDIX
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
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LGE Internal Use Only
SAFETY PRECAUTIONS IMPORTANT SAFETY NOTICE Many electrical and mechanical parts in this chassis have special safety-related characteristics. These parts are identified by in the Schematic Diagram and Exploded View. It is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent Shock, Fire, or other Hazards. Do not modify the original design without permission of manufacturer.
General Guidance
Leakage Current Hot Check (See below Figure) Plug the AC cord directly into the AC outlet.
An isolation Transformer should always be used during the servicing of a receiver whose chassis is not isolated from the AC power line. Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injury from electrical shocks. It will also protect the receiver and it's components from being damaged by accidental shorts of the circuitry that may be inadvertently introduced during the service operation. If any fuse (or Fusible Resistor) in this TV receiver is blown, replace it with the specified. When replacing a high wattage resistor (Oxide Metal Film Resistor, over 1 W), keep the resistor 10 mm away from PCB. Keep wires away from high voltage or high temperature parts.
Do not use a line Isolation Transformer during this check. Connect 1.5 K / 10 watt resistor in parallel with a 0.15 uF capacitor between a known good earth ground (Water Pipe, Conduit, etc.) and the exposed metallic parts. Measure the AC voltage across the resistor using AC voltmeter with 1000 ohms/volt or more sensitivity. Reverse plug the AC cord into the AC outlet and repeat AC voltage measurements for each exposed metallic part. Any voltage measured must not exceed 0.75 volt RMS which is corresponds to 0.5 mA. In case any measurement is out of the limits specified, there is possibility of shock hazard and the set must be checked and repaired before it is returned to the customer.
Leakage Current Hot Check circuit
Before returning the receiver to the customer, always perform an AC leakage current check on the exposed metallic parts of the cabinet, such as antennas, terminals, etc., to be sure the set is safe to operate without damage of electrical shock.
Leakage Current Cold Check(Antenna Cold Check)
With the instrument AC plug removed from AC source, connect an electrical jumper across the two AC plug prongs. Place the AC switch in the on position, connect one lead of ohm-meter to the AC plug prongs tied together and touch other ohm-meter lead in turn to each exposed metallic parts such as antenna terminals, phone jacks, etc. If the exposed metallic part has a return path to the chassis, the measured resistance should be between 1 MΩ and 5.2 MΩ. When the exposed metal has no return path to the chassis the reading must be infinite. An other abnormality exists that must be corrected before the receiver is returned to the customer.
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
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LGE Internal Use Only
SERVICING PRECAUTIONS CAUTION: Before servicing receivers covered by this service manual and its supplements and addenda, read and follow the SAFETY PRECAUTIONS on page 3 of this publication. NOTE: If unforeseen circumstances create conflict between the following servicing precautions and any of the safety precautions on page 3 of this publication, always follow the safety precautions. Remember: Safety First. General Servicing Precautions 1. �Always unplug the receiver AC power cord from the AC power source before; a. �Removing or reinstalling any component, circuit board module or any other receiver assembly. b. �Disconnecting or reconnecting any receiver electrical plug or other electrical connection. c. �Connecting a test substitute in parallel with an electrolytic capacitor in the receiver. CAUTION: A wrong part substitution or incorrect polarity installation of electrolytic capacitors may result in an explosion hazard. 2. �Test high voltage only by measuring it with an appropriate high voltage meter or other voltage measuring device (DVM, FETVOM, etc) equipped with a suitable high voltage probe. Do not test high voltage by "drawing an arc". 3. �Do not spray chemicals on or near this receiver or any of its assemblies. 4. �Unless specified otherwise in this service manual, clean electrical contacts only by applying the following mixture to the contacts with a pipe cleaner, cotton-tipped stick or comparable non-abrasive applicator; 10 % (by volume) Acetone and 90 % (by volume) isopropyl alcohol (90 % - 99 % strength) CAUTION: This is a flammable mixture. Unless specified otherwise in this service manual, lubrication of contacts in not required. 5. �Do not defeat any plug/socket B+ voltage interlocks with which receivers covered by this service manual might be equipped. 6. �Do not apply AC power to this instrument and/or any of its electrical assemblies unless all solid-state device heat sinks are correctly installed. 7. �Always connect the test receiver ground lead to the receiver chassis ground before connecting the test receiver positive lead. Always remove the test receiver ground lead last. 8. �Use with this receiver only the test fixtures specified in this service manual. CAUTION: Do not connect the test fixture ground strap to any heat sink in this receiver. Electrostatically Sensitive (ES) Devices Some semiconductor (solid-state) devices can be damaged easily by static electricity. Such components commonly are called Electrostatically Sensitive (ES) Devices. Examples of typical ES devices are integrated circuits and some field-effect transistors and semiconductor “chip” components. The following techniques should be used to help reduce the incidence of component damage caused by static by static electricity. 1. �Immediately before handling any semiconductor component or semiconductor-equipped assembly, drain off any electrostatic charge on your body by touching a known earth ground. Alternatively, obtain and wear a commercially available discharging wrist strap device, which should be removed to prevent potential shock reasons prior to applying power to the unit under test.
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
2. �After removing an electrical assembly equipped with ES devices, place the assembly on a conductive surface such as aluminum foil, to prevent electrostatic charge buildup or exposure of the assembly. 3. �Use only a grounded-tip soldering iron to solder or unsolder ES devices. 4. �Use only an anti-static type solder removal device. Some solder removal devices not classified as “anti-static” can generate electrical charges sufficient to damage ES devices. 5. �Do not use freon-propelled chemicals. These can generate electrical charges sufficient to damage ES devices. 6. �Do not remove a replacement ES device from its protective package until immediately before you are ready to install it. (Most replacement ES devices are packaged with leads electrically shorted together by conductive foam, aluminum foil or comparable conductive material). 7. �Immediately before removing the protective material from the leads of a replacement ES device, touch the protective material to the chassis or circuit assembly into which the device will be installed. CAUTION: Be sure no power is applied to the chassis or circuit, and observe all other safety precautions. 8. �Minimize bodily motions when handling unpackaged replacement ES devices. (Otherwise harmless motion such as the brushing together of your clothes fabric or the lifting of your foot from a carpeted floor can generate static electricity sufficient to damage an ES device.) General Soldering Guidelines 1. �Use a grounded-tip, low-wattage soldering iron and appropriate tip size and shape that will maintain tip temperature within the range or 500 °F to 600 °F. 2. �Use an appropriate gauge of RMA resin-core solder composed of 60 parts tin/40 parts lead. 3. Keep the soldering iron tip clean and well tinned. 4. �Thoroughly clean the surfaces to be soldered. Use a mall wirebristle (0.5 inch, or 1.25 cm) brush with a metal handle. Do not use freon-propelled spray-on cleaners. 5. �Use the following unsoldering technique a. �Allow the soldering iron tip to reach normal temperature. (500 °F to 600 °F) b. Heat the component lead until the solder melts. c. �Quickly draw the melted solder with an anti-static, suctiontype solder removal device or with solder braid. CAUTION: Work quickly to avoid overheating the circuit board printed foil. 6. �Use the following soldering technique. a. �Allow the soldering iron tip to reach a normal temperature (500 °F to 600 °F) b. �First, hold the soldering iron tip and solder the strand against the component lead until the solder melts. c. �Quickly move the soldering iron tip to the junction of the component lead and the printed circuit foil, and hold it there only until the solder flows onto and around both the component lead and the foil. CAUTION: Work quickly to avoid overheating the circuit board printed foil. d. �Closely inspect the solder area and remove any excess or splashed solder with a small wire-bristle brush.
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LGE Internal Use Only
IC Remove/Replacement Some chassis circuit boards have slotted holes (oblong) through which the IC leads are inserted and then bent flat against the circuit foil. When holes are the slotted type, the following technique should be used to remove and replace the IC. When working with boards using the familiar round hole, use the standard technique as outlined in paragraphs 5 and 6 above.
3. �Solder the connections. CAUTION: Maintain original spacing between the replaced component and adjacent components and the circuit board to prevent excessive component temperatures. Circuit Board Foil Repair Excessive heat applied to the copper foil of any printed circuit board will weaken the adhesive that bonds the foil to the circuit board causing the foil to separate from or "lift-off" the board. The following guidelines and procedures should be followed whenever this condition is encountered.
Removal 1. �Desolder and straighten each IC lead in one operation by gently prying up on the lead with the soldering iron tip as the solder melts. 2. �Draw away the melted solder with an anti-static suction-type solder removal device (or with solder braid) before removing the IC. Replacement 1. �Carefully insert the replacement IC in the circuit board. 2. �Carefully bend each IC lead against the circuit foil pad and solder it. 3. �Clean the soldered areas with a small wire-bristle brush. (It is not necessary to reapply acrylic coating to the areas).
At IC Connections To repair a defective copper pattern at IC connections use the following procedure to install a jumper wire on the copper pattern side of the circuit board. (Use this technique only on IC connections).
"Small-Signal" Discrete Transistor Removal/Replacement 1. �Remove the defective transistor by clipping its leads as close as possible to the component body. 2. �Bend into a "U" shape the end of each of three leads remaining on the circuit board. 3. �Bend into a "U" shape the replacement transistor leads. 4. �Connect the replacement transistor leads to the corresponding leads extending from the circuit board and crimp the "U" with long nose pliers to insure metal to metal contact then solder each connection. Power Output, Transistor Device Removal/Replacement 1. Heat and remove all solder from around the transistor leads. 2. Remove the heat sink mounting screw (if so equipped). 3. �Carefully remove the transistor from the heat sink of the circuit board. 4. �Insert new transistor in the circuit board. 5. �Solder each transistor lead, and clip off excess lead. 6. �Replace heat sink. Diode Removal/Replacement 1. �Remove defective diode by clipping its leads as close as possible to diode body. 2. �Bend the two remaining leads perpendicular y to the circuit board. 3. �Observing diode polarity, wrap each lead of the new diode around the corresponding lead on the circuit board. 4. �Securely crimp each connection and solder it. 5. �Inspect (on the circuit board copper side) the solder joints of the two "original" leads. If they are not shiny, reheat them and if necessary, apply additional solder.
1. �Carefully remove the damaged copper pattern with a sharp knife. (Remove only as much copper as absolutely necessary). 2. �carefully scratch away the solder resist and acrylic coating (if used) from the end of the remaining copper pattern. 3. �Bend a small "U" in one end of a small gauge jumper wire and carefully crimp it around the IC pin. Solder the IC connection. 4. �Route the jumper wire along the path of the out-away copper pattern and let it overlap the previously scraped end of the good copper pattern. Solder the overlapped area and clip off any excess jumper wire. At Other Connections Use the following technique to repair the defective copper pattern at connections other than IC Pins. This technique involves the installation of a jumper wire on the component side of the circuit board. 1. �Remove the defective copper pattern with a sharp knife. Remove at least 1/4 inch of copper, to ensure that a hazardous condition will not exist if the jumper wire opens. 2. �Trace along the copper pattern from both sides of the pattern break and locate the nearest component that is directly connected to the affected copper pattern. 3. �Connect insulated 20-gauge jumper wire from the lead of the nearest component on one side of the pattern break to the lead of the nearest component on the other side. Carefully crimp and solder the connections. CAUTION: Be sure the insulated jumper wire is dressed so the it does not touch components or sharp edges.
Fuse and Conventional Resistor Removal/Replacement 1. �Clip each fuse or resistor lead at top of the circuit board hollow stake. 2. �Securely crimp the leads of replacement component around notch at stake top.
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
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LGE Internal Use Only
SPECIFICATION
NOTE : Specifications and others are subject to change without notice for improvement.
1. Application range
3. Test method
This spec sheet is applied to the LED TV used LA66L chassis
(1) Performance: LGE TV test method followed (2) Demanded other specification - Safety : UL, CSA, IEC specification - EMC: FCC, ICES, IEC specification
2. Test condition
Each part is tested as below without special notice. (1) Temperature : 25 ºC±5 ºC (77 ºC±9ºC), CST : 40 ºC±5 ºC (2) Relative Humidity: 65 % ± 10 % (3) Power Voltage Standard input voltage (100~240V@ 50/60Hz) (4) �Specification and performance of each parts are followed each drawing and specification by part number in accordance with BOM. (5) �The receiver must be operated for about 20 minutes prior to the adjustment.
4. General Specification No
Item
Specification
Result
1
Receiving System
ATSC / NTSC-M / 64 & 256 QAM
2
Available Channel
1) VHF : 02~13 2) UHF : 14~69 3) DTV : 02-69 4) CATV : 01~135 5) CADTV : 01~135
3
Input Voltage
AC 100 ~ 240V 50/60Hz
4
Market
NORTH AMERICA
5
Screen Size
32", 43”, 49", 55”
6
Aspect Ratio
16:9
7
Tuning System
FS
8
Module
HC320DXN-SLNS5
LGD
HC430DUN-SLNX1
LGD
NC490DUE-SADP1
LGD
Remark
Mark : 110V, 60Hz
LC550DUE-MGA3 9
Operating Environment
1) Temp : 0 ~ 40 deg 2) Humidity : ~ 80 %
10
Storage Environment
1) Temp : -20 ~ 60 deg 2) Humidity : ~ 85 %
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
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LGE Internal Use Only
5. Supported video resolutions
5.1. Component 2D input(Y, CB/PB, CR/PR) No
Resolution
H-freq(kHz)
V-freq.(Hz)
Pixel clock(MHz)
Proposed
1
720*480
15.730
60.000
13.513
SDTV ,DVD 480I
2
720*480
15.730
59.940
13.500
SDTV ,DVD 480I
3
720*480
31.500
60.000
27.027
SDTV 480P
4
720*480
31.470
59.940
27.000
SDTV 480P
5
1280*720
45.000
60.000
74.250
HDTV 720P
6
1280*720
44.960
59.940
74.176
HDTV 720P
7
1920*1080
33.750
60.000
74.250
HDTV 1080I
8
1920*1080
33.720
59.940
74.176
HDTV 1080I
9
1920*1080
67.500
60.000
148.500
HDTV 1080P
10
1920*1080
67.432
59.940
148.352
HDTV 1080P
11
1920*1080
27.000
24.000
74.250
HDTV 1080P
12
1920*1080
26.970
23.976
74.176
HDTV 1080P
13
1920*1080
33.750
30.000
74.250
HDTV 1080P
14
1920*1080
33.710
29.970
74.176
HDTV 1080P
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
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LGE Internal Use Only
5.2. HDMI Input (PC/DTV) No
Resolution
H-freq(kHz)
V-freq.(Hz)
Pixel clock(MHz)
Proposed
PC 1
640*350
31.46
70.09
25.17
EGA
2.
720*400
31.46
70.08
28.32
DOS
3.
640*480
31.46
59.94
25.17
VESA(VGA)
4
800*600
37.87
60.31
40.00
VESA(SVGA)
5
1024*768
48.36
60.00
65.00
VESA(XGA)
6
1152*864
54.34
60.05
80.00
VESA
7
1280*1024
63.98
60.02
108.00
VESA (SXGA)
8
1360*768
47.71
60.01
85.50
VESA (WXGA)
9
1920*1080
67.5
60.00
148.5
WUXGA (Reduced Blanking)
FHD only FHD only
DTV 1
640 * 480
31.46
59.94
25.125
SDTV 480P
2
640 * 480
31.5
60.00
25.125
SDTV 480P
3
720 * 480
15.73
59.94
13.500
SDTV 480I
Spec. out but display
4
720 * 480
15.75
60.00
13.514
SDTV 480I
Spec. out but display
5
720 * 480
31.47
59.94
27.00
SDTV 480P
6
720 * 480
31.5
60
27.027
SDTV 480P
7
1280*720
44.96
59.94
74.176
HDTV 720P
8
1280*720
45
60.00
74.25
HDTV 720P
9
1920*1080
33.72
59.94
74.176
HDTV 1080I
10
1920*1080
33.75
60.00
74.25
HDTV 1080I
11
1920*1080
26.97
23.97
63.296
HDTV 1080P
12
1920*1080
27.00
24.00
63.36
HDTV 1080P
13
1920*1080
33.71
29.97
79.120
HDTV 1080P
14
1920*1080
33.75
30.00
79.20
HDTV 1080P
15
1920*1080
67.43
59.94
148.350
HDTV 1080P
16
1920*1080
67.5
60.00
148.50
HDTV 1080P
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
-8-
LGE Internal Use Only
ADJUSTMENT INSTRUCTION 1. Application
This spec. sheet applies to LA66L Chassis applied LED TV all models manufactured in TV factory
2. Specification
(1) �Because this is not a hot chassis, it is not necessary to use an isolation transformer. However, the use of isolation transformer will help protect test instrument. (2) Adjustment must be done in the correct order. (3) �The adjustment must be performed in the circumstance of 25 ±5 ºC of temperature and 65±10% of relative humidity if there is no specific designation (4) �The input voltage of the receiver must keep 100~240V, 50/60Hz (5) �The receiver must be operated for about 5 minutes prior to the adjustment when module is in the circumstance of over 15 ºC �In case of keeping module is in the circumstance of 0°C, it should be placed in the circumstance of above 15°C for 2 hours �In case of keeping module is in the circumstance of below -20°C, it should be placed in the circumstance of above 15°C for 3 hours. ※ Caution When still image is displayed for a period of 20 minutes or longer (especially where W/B scale is strong. Digital pattern 13ch and/or Cross hatch pattern 09ch), there can some afterimage in the black level area
4. MAIN PCBA Adjustments 4.1. �ADC Calibration
- �A n ADC calibration is not necessary because MAIN SoC (LGExxxx) is already calibrated from IC Maker - If it needs to adjust manually, refer to appendix.
4.2. �M AC Address, ESN Key and Widevine Key download 4.2.1. Equipment & Condition (1) Play file: keydownload.exe
4.2.2. Communication Port connection
(1) Key Write: Com 1,2,3,4 and 115200 (Baudrate) (2) Barcode: Com 1,2,3,4 and 9600 (Baudrate)
4.2.3. Download process
(1) Select the download items. (2) Mode check: Online Only (3) Check the test process - �U S, Canada models: DETECT -> MAC_WRITE -> WIDEVINE_WRITE - �K orea, Mexico models: DETECT -> MAC_WRITE -> WIDEVINE_WRITE (4) Play : START (5) Check of result: Ready, Test, OK or NG
4.2.4. Communication Port connection
(1) �Connect: PCBA Jig -> RS-232C Port == PC -> RS-232C Port
4.2.5. Download
(1) �All models (16Y LCD TV + MAC + Widevine + ESN Key and HDCP2.2)
3. Adjustment items
3.1. Main PCBA Adjustments (1) ADC adjustment(OTP) : Component (2) EDID downloads for HDMI
3.2. Final assembly adjustment (1) White Balance adjustment (2) RS-232C functionality check (3) Factory Option setting per destination (4) Shipment mode setting (In-Stop) (5) GND and HI-POT test
3.3. Appendix
(1)�Tool option menu, USB Download (S/W Update, Option and Service only) (2) Manual adjustment for ADC calibration and White balance. (3) Shipment conditions, Channel pre-set
4.2.6. Inspection
- In INSTART menu, check these keys.
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LGE Internal Use Only
4.3. LAN port Inspection (Ping Test)
4.4.3. EDID DATA
4.4.3.1. HD PCM (2D 8bit xvYCC : off) : 32LH570B-UC (1) HDMI1 (6D , 08)
4.3.1. Equipment setting
(1) Play the LAN Port Test PROGRAM. (2) Input IP set up for an inspection to Test Program. * IP Number : 12.12.2.2.
4.3.2. LAN PORT inspection (PING TEST)
(1) Play the LAN Port Test Program. (2) connect each other LAN Port Jack. (3) Play Test (F9) button and confirm OK Message. (4) remove LAN CABLE
(2) HDMI2 (6D , F8)
Step 1)
Step 3) Check ‘OK’ Signal
4.4. EDID Download 4.4.1 Overview
▪ �I t is a VESA regulation. A PC or a MNT will display an optimal resolution through information sharing without any necessity of user input. It is a realization of “Plug and Play”.
4.4.2 Equipment
▪ �Since embedded EDID data is used, EDID download JIG, HDMI cable and D-sub cable are not need. ▪ Adjust remocon
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
4.4.3.2. HD AC3 (2D 8bit xvYCC : off) : 32LH570B-UC (1) HDMI1 (6D , 96)
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LGE Internal Use Only
(2) HDMI2 (6D , 86)
4.4.3.4. FHD PCM (2D 8bit xvYCC : off) : 43/49/55LH5700-UD (1) HDMI1 (E5 , CC)
4.4.3.3. HD DTS (2D 8bit xvYCC : off) : 32LH570B-UC (1) HDMI1 (6D , 8D)
(2) HDMI2 (6D , 7D)
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
(2) HDMI2 (E5 , BC)
4.4.3.5. FHD AC3 (2D 8bit xvYCC : off) : 43/49/55LH5700-UD (1) HDMI1 (E5 , 5A)
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LGE Internal Use Only
(2) HDMI2 (E5 , 4A)
5. Final Assembly Adjustment 5.1. White Balance Adjustment 5.1.1. Overview
4.4.3.6. FHD DTS (2D 8bit xvYCC : off) : 43/49/55LH5700-UD (1) HDMI1 (E5 , 51)
5.1.1.1. W/B adj. Objective & How-it-works (1) Objective: To reduce each Panel’s W/B deviation (2) �How-it-works: When R/G/B gain in the OSD is at 192, it means the panel is at its Full Dynamic Range. In order to prevent saturation of Full Dynamic range and data, one of R/G/B is fixed at 192, and the other two is lowered to find the desired value. (3) Adj. condition: normal temperature - Surrounding Temperature: 25±5 °C - Warm-up time: About 5 Min - Surrounding Humidity: 20% ~ 80% - �Before White balance adjustment, Keep power on status, don’t power off � 5.1.1.2. Adj. condition and cautionary items (1) �Lighting condition in surrounding area surrounding lighting should be lower 10 lux. Try to isolate adj. area into dark surrounding. (2) �Probe location: Color Analyzer (CA-210) probe should be within 10cm and perpendicular of the module surface (80°~ 100°) (3) Aging time - �After Aging Start, Keep the Power ON status during 5 Minutes. - �In case of LCD, Back-light on should be checked using no signal or Full-white pattern.
5.1.2. Equipment
(1) �Color Analyzer: CA-210 (NCG: CH 9 / WCG: CH12 / LED: CH14) (2) �A dj. Computer (During auto adj., RS-232C protocol is needed) (3) Adjust Remocon (4) �V ideo Signal Generator MSPG-925F 720p/204-Gray (Model: 217, Pattern: 49) ※ Color Analyzer Matrix should be calibrated using CS-1000
(2) HDMI2 (E5 , 41)
5.1.3. Equipment connection Co lo r Analyzer RS -232C
Probe
Co m p ut er RS -232C
RS -232C
Pat t ern Generat o r Signal Source * If TV internal pattern is used, not needed
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LGE Internal Use Only
5.1.4. Adjustment Command (Protocol)
5.1.5.2. Manual adjustment (1) Set TV in Adj. mode using POWER ON (2) �Zero Calibrate the probe of Color Analyzer, then place it on the center of LCD module within 10cm of the surface.. (3) �Press ADJ key -> EZ adjust using adj. R/C à 9. WhiteBalance then press the cursor to the right (KEY►). When KEY(►) is pressed 206 Gray internal pattern will be displayed. (4) Adjust Cool modes (i) �F ix the one of R/G/B gain to 192 (default data) and decrease the others. (�If G gain is adjusted over 172 and R and B gain less than 192 , Adjust is O.K.) (ii) If G gain is less than 172, �Increase G gain by up to 172, and then increase R gain and G gain same amount of increasing G gain. (iii) If R gain or B gain is over 255, �Readjust G gain less than 172, Conform to R gain is 255 or B gain is 255 (5) �Adjust two modes (Medium / Warm) Fix the one of R/G/B gain to 192 (default data) and decrease the others. (6) �Adj. is completed, Exit adjust mode using “EXIT” key on Remote controller.
(1) RS-232C Command used during auto-adj. RS-232C COMMAND
Explanation
CMD
DATA
ID
Wb
00
00
Begin White Balance adj.
Wb
00
ff
End White Balance adj. (internal pattern disappears )
(2) Adjustment Map Adj. item Cool
Command (lower caseASCII)
Data Range (Hex.)
CMD1
CMD2
MIN
MAX
R Gain
j
g
00
C0
TBD
G Gain
j
h
00
C0
TBD
B Gain
j
i
00
C0
TBD
R Cut
TBD
G Cut
TBD
B Cut Medium
Warm
Default (Decimal)
TBD
R Gain
j
a
00
C0
TBD
G Gain
j
b
00
C0
TBD
B Gain
j
c
00
C0
TBD
R Cut
TBD
G Cut
TBD
B Cut
TBD
R Gain
j
d
00
C0
TBD
G Gain
j
e
00
C0
TBD
B Gain
j
f
00
C0
TBD
R Cut
TBD
G Cut
TBD
5.1.6. �Reference (White Balance Adj. coordinate and color temperature) (1) Luminance: 204 Gray, 80IRE (2) �Standard color coordinate and temperature using CS-1000 (over 26 inch)
5.1.7. �Reference (White Balance Adj. coordinate and color temperature)
▪ Luminance: 204 Gray ▪ �Standard color coordinate and temperature using CS-1000 (over 26 inch) Mode
5.1.5. Adjustment method
5.1.5.1. Auto WB calibration (1) �Set TV in ADJ mode using P-ONLY key (or POWER ON key) (2) Place optical probe on the center of the display - �It need to check probe condition of zero calibration before adjustment. (3) Connect RS-232C Cable (4) Select mode in ADJ Program and begin a adjustment. (5) �When WB adjustment is completed with OK message, check adjustment status of pre-set mode (Cool, Medium, Warm) (6) Remove probe and RS-232C cable. ▪ �W/B Adj. must begin as start command “wb 00 00” , and finish as end command “wb 00 ff”, and Adj. offset if need
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
- 13 -
Coordinate X
Y
Temp
△uv
Cool
0.271
0.270
13,000K
0.0000
Medium
0.286
0.289
9,300K
0.0000
Warm
0.313
0.329
6,500K
0.0000
LGE Internal Use Only
▪ �S tandard color coordinate and temperature using CA-210(CH-14) – by aging time (1) � N ormal line in Korea (From January to February) Aging time (Min)
Cool X
Medium Y
X
Y
X
Y
271
270
286
289
313
329
0-2
286
295
301
314
328
354
2
3-5
284
290
299
309
326
349
3
6-9
282
287
297
306
324
346
4
10-19
279
283
294
302
321
342
5
20-35
276
278
291
297
318
337
6
36-49
274
275
289
294
316
334
7
50-79
273
272
288
291
315
331
8
80-119
272
271
287
290
314
330
9
Over 120
271
270
286
289
313
329
(1) �Tool option selection is only done for models in Non-USA North America due to rating (2) �Applied model: LA42B Chassis applied to CANADA and MEXICO
5.2.2. Country Group selection
(1) �Press ADJ key on the Adj. R/C, and then select Country Group Menu (2) �Depending on destination, select US, then on the lower Country option, select US, CA, MX. Selection is done using +, - KEY
5.2.3. Tool Option inspection
▪ Press Adj. key on the Adj. R/C, then select Tool option * Tool option can be reconstructed by Software
▪ �S tandard color coordinate and temperature using CA-210(CH-14) – by aging time (2) �Normal line in Korea (From March to December) : LGD Normal line in Mexico : LGD Aging time (Min)
5.2.1. Overview
Warm
1
Cool
5.2. Option selection per country
Medium
Warm
X
Y
X
Y
X
Y
271
270
286
289
313
329
1
0-2
282
289
297
308
324
348
2
3-5
281
287
296
306
323
346
3
6-9
279
284
294
303
321
343
4
10-19
277
280
292
299
319
339
5
20-35
275
277
290
296
317
336
6
36-49
274
274
289
293
316
333
7
50-79
273
272
288
291
315
331
8
80-119
272
271
287
290
314
330
9
Over 120
271
270
286
289
313
329
5.2.3. Country Group Code Country
Area Option
KR
01
US
02
5.3. Wi-Fi MAC Address Check 5.3.1. Using RS232 Command Transmission
Command
Set ACK
[A][l][][Set ID][][20][Cr]
[O][K][x] or [N][G]
5.3.2. Check the menu on in-start
(3) O/S Module(AUO, INX, Sharp, CSOT, BOE) cool
med
warm
x
y
x
y
x
y
spec
271
270
286
289
313
329
target
278
280
293
299
320
339
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
- 14 -
LGE Internal Use Only
6. AUDIO output check
5.6. HDMI ARC Function Inspection 5.6.1. Test equipment
6.1. Audio input condition
- Optic Receiver Speaker - MSHG-600 (SW: 1220 ↑) - HDMI Cable (for 1.4 version)
(1) RF input: Mono, 1KHz sine wave signal, 100% Modulation (2) CVBS, Component: 1KHz sine wave signal (0.4Vrms)
5.6.2. Test method
(1) �Insert the HDMI Cable to the HDMI ARC port from the master equipment (HDMI1)
6.2. Specification No
Item
Min
Typ
Max
Unit
1
Audio practical max Output, L/R (Distortion=10% max Output)
4.5 6.0
5.0 6.32
6.0 6.93
W (1) Measurement Vrms condition - EQ/AVL/Clear Voice: Off (2) Speaker (6Ω Impedance) (3) 49/43LH57
2.7 4.03
3.0 4.24
3.6 4.64
W (1) Measurement Vrms condition - EQ/AVL/Clear Voice: Off (2) Speaker (6Ω Impedance) (3) 32LH57
2 (2) Check the sound from the TV Set
Remark
7. GND and HI-POT Test (3) �Check the Sound from the Speaker or using AV & Optic TEST program (It’s connected to MSHG-600)
7.1. GND & HI-POT auto-check preparation
(1) �Check the POWER CABLE and SIGNAL CABE insertion condition
7.2. GND & HI-POT auto-check
* Remark: �Inspect in Power Only Mode and check SW version in a master equipment
(1) �Pallet moves in the station. (POWER CORD / AV CORD is tightly inserted) (2) Connect the AV JACK Tester. (3) Controller (GWS103-4) on. (4) GND Test (Auto) - If Test is failed, Buzzer operates. - If Test is passed, execute next process (Hi-pot test). (Remove A/V CORD from A/V JACK BOX) (5) HI-POT test (Auto) - If Test is failed, Buzzer operates. - �If Test is passed, GOOD Lamp on and move to next process automatica
5.7. Ship-out mode check (In-stop)
▪ �After final inspection, press In-Stop key of the Adj. R/C and check that the unit goes to Stand-by mode.
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
- 15 -
LGE Internal Use Only
10. Optional adjustments
7.3. Checkpoint (1) Test voltage
Products/Model
10.1. Manual White balance Adjustment
TV
2Poles
Other
3000V(AC)/ 4242V(DC)
3Poles
Other
1500V(AC)/ 2121V(DC)
Cut off current
100mA(AC)/100mA(DC)
Earth Continutiy test (3Poles only)
≤0.1Ὼ at 25A/1 sec
10.1.1. Adj. condition and cautionary items
(2) TEST time: 1 second (3) TEST POINT - GND Test = POWER CORD GND and SIGNAL CABLE GND. - Hi-pot Test = POWER CORD GND and LIVE & NEUTRAL. (4) LEAKAGE CURRENT: At 0.5mArms
(1) �Lighting condition in surrounding area surrounding lighting should be lower 10 lux. Try to isolate adj. area into dark surrounding. (2) �Probe location: Color Analyzer (CA-210) probe should be within 10cm and perpendicular of the module surface (80°~ 100°) (3) Aging time - �A fter Aging Start, Keep the Power ON status during 5 Minutes. - �In case of LCD, Back-light on should be checked using no signal or Full-white pattern
10.1.2. Equipment
(1) �Color Analyzer: CA-210 (NCG: CH 9 / WCG: CH12 / LED: CH14) (2) �A dj. Computer (During auto adj., RS-232C protocol is needed) (3) Adjust Remocon (4) �V ideo Signal Generator MSPG-925F 720p/216-Gray (Model: 217, Pattern: 78)
9. USB S/W Download (optional, Service only)
(1) Put the USB Stick to the USB socket (2) Automatically detecting update file in USB Stick - �If your downloaded program version in USB Stick is lower than that of TV set, it didn’t work. Otherwise USB data is automatically detected. (3) Show the message “Copying files from memory”
10.1.3. Adjustment
(1) Set TV in Adj. mode using POWER ON (2) �Zero Calibrate the probe of Color Analyzer, then place it on the center of LCD module within 10cm of the surface. (3) �Press ADJ key -> EZ adjust using adj. R/C -> 6. WhiteBalance then press the cursor to the right (KEY►). W � hen KEY(►) is pressed 216 Gray internal pattern will be displayed. (4) �One of R Gain / G Gain / B Gain should be fixed at 192, and the rest will be lowered to meet the desired value. (5) �Adj. is performed in COOL, MEDIUM, WARM 3 modes of color temperature. ▪ �If internal pattern is not available, use RF input. In EZ Adj. menu 6.White Balance, you can select one of 2 Test-pattern: ON, OFF. Default is inner(ON). By selecting OFF, you can adjust using RF signal in 216 Gray pattern.
(4) Updating is staring.
(5) Updating Completed, The TV will restart automatically (6) �If your TV is turned on, check your updated version and Tool option. * �If downloading version is more high than your TV have, TV can lost all channel data. In this case, you have to channel recover. If all channel data is cleared, you didn’t have a DTV/ ATV test on production line. * After downloading, TOOL OPTION setting is needed again. (1) Push "IN-START" key in service remote controller. (2) Select "Tool Option 1" and Push “OK” button. (3) Punch in the number. (Each model has their number.)
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
- 16 -
LGE Internal Use Only
REAR
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
REAR
SIDE
- 17 -
* RS-232 US Only
RS-232
RS-232
ETHERNET
SPDIF OUT
LAN
M2
I2S I2C
LVDS
I2C
I2C
USB_WIFI
(NON MCP)
OPTIC
HDMI MUX
USB
CVBS/YPbPr
OCP 1.5A
Digital Demod Analog Demod
AV/COMP
HDMI2
HDMI1 (ARC)
USB1
Tuner
IF (+/-)
X_TAL 24MHz
Sub Micom (R5F100GEAFB)
IR / KEY
WIFI
Audio AMP
* HD Model : 30P 51P
eMMC 5.0 (4GB)
EEPROM (256Kb)
DDR3 1866 2Gb x16
DDR3 1866 2Gb x16
IR I2C KEY
SUB ASSY
BLOCK DIAGRAM
LGE Internal Use Only
EXPLODED VIEW IMPORTANT SAFETY NOTICE
500
Set + Stand
A2
A10
200
700
120
820
LV1
530
540
521
571
800
570
902
400
901
Many electrical and mechanical parts in this chassis have special safety-related characteristics. These parts are identified by in the Schematic Diagram and EXPLODED VIEW. It is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent, Shock, Fire, or other Hazards. Do not modify the original design without permission of manufacturer.
Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes
- 18 -
LGE Internal Use Only
NVRAM_ROHM
NVRAM
IC100-*1 BR24G256FJ-3 A0
A1
A2
A1
A2
8
2
7
3
6
7
3
6
4
5
WP
SCL
4
NON-MCP EAN64207702
SDA
Write Protection C112 0.1uF
WP
R138 10K NON_EU
- Low : Normal Operation - High : Write Protection
SDA
PWM_DIM
B26
AMP_RESET_N
PWM_DIM2 R136 PWM_DIM2
NVRAM_ATMEL
A25
PCM_5V_CTL
I2C_SDA1 AR101 33
B25
100
100
C24
PWM0
G25
PWM1
R_ODD[7]/LVB0N
PWM2
R_ODD[6]/LVB0P
PWM3
R_ODD[5]/LVB1N R_ODD[4]/LVB1P
D7
R135
PWM_PM
R_ODD[3]/LVB2N R_ODD[2]/LVB2P R_ODD[1]/LVBCLKN
E6 E5 F5
X-TAL
MIU1_STR_PD
TP1030
MIU0_STR_PD
TP1031
XTAL_IN
8pF C100-*1
8pF C101-*1
8pF 50V
X-TAL_1 1 C100 10pF 50V 10pF
8pF 50V
F6 G5
3225 SUNNY ELECTRONICS CORPORATION X100 24MHz 4
GND_1
X-TAL_2 2
R105 10K OPT
XTAL_OUT
3 C101 10pF 50V
0CZZB00024A 10pF Option
R152
A2
C1 C2 A3
INSTANT_BOOT WOL_WAKE_UP_SOC
10pF
33
H8
AGP
R106 10K OPT
R_ODD[0]/LVBCLKP
SAR1
G_ODD[7]/LVB3N
SAR2
G_ODD[6]/LVB3P
SAR3
G_ODD[5]/LVB4N
SAR4
G_ODD[4]/LVB4P G_ODD[3]/LVA0N
B1
MIU0_STR_PD
R137 1M
SAR0
G_ODD[2]/LVA0P
B2
MIU1_STR_PD
+3.3V_SB
RETENTION_DISABLE GND_2
IC101 LGE6322(MSD93F2G, w/oT2S2 : M2) TPO_DATA[0-7]
SCL
5
NON-MCP
IC101 LGE6322(MSD93F2G, w/oT2S2 : M2)
VCC
I2C_SCL1 GND
P/NO MCP : EAN64207701 (MSD93F2GW) NON MCP : EAN64207702 (MSD93F2G)
VCC
+3.3V_NORMAL GND
1
8
2
+3.3V_NORMAL
IC100 AT24C256C-SSHL-T A0
1
DDCA_CK DDCA_DA
C3
PM_SPI_CK
G_ODD[1]/LVA1N
PM_SPI_DI
G_ODD[0]/LVA1P
PM_SPI_DO
B_ODD[7]/LVA2N
NC_13
B_ODD[6]/LVA2P
GPIO_PM[6]/(SPI-CZ1N)
B_ODD[5]/LVACLKN
GPIO_PM[10]/(SPI-CZ2N)
B_ODD[4]/LVACLKP
PM_SPI_HOLDN(GPIO)
B_ODD[3]/LVA3N
PM_SPI_WPN/(GPIO)
B_ODD[2]/LVA3P B_ODD[1]/LVA4N
D5 D6
DDCA_CK
EB_DATA[0]
G24
EB_DATA[1]
H25
EB_DATA[2]
TXB3P
H24
EB_DATA[3]
TXB3N
J25
EB_DATA[4]
TXBCLKP
J26
EB_DATA[5]
TXBCLKN
J24
EB_DATA[6]
TXB2P
K26
EB_DATA[7]
TXB2N
K25
T25 AB26 Y24 P21 R22 AA24 T21 V21
PCM_D[0]
TS1_D[0]
PCM_D[1]
TS1_D[1]
PCM_D[2]
TS1_D[2]
PCM_D[3]
TS1_D[3]
PCM_D[4]
TS1_D[4]
PCM_D[5]
TS1_D[5]
PCM_D[6]
TS1_D[6]
PCM_D[7]
TS1_D[7] TS1_CLK
TXB1P
K24
TXB1N
L25
EB_ADDR[0]
TXB0P
L24
EB_ADDR[1]
TXB0N
M25
EB_ADDR[2]
M26
EB_ADDR[3]
M24
EB_ADDR[4]
TXA3P
N26
EB_ADDR[5]
TXA3N
N25
EB_ADDR[6]
TXACLKP
N24
EB_ADDR[7]
TXACLKN
P25
EB_ADDR[8]
TXA2P
P24
EB_ADDR[9]
TXA2N
R25
EB_ADDR[10]
TXA1P
R26
EB_ADDR[11]
TXA1N
R24
EB_ADDR[12]
TXA0P
T26
EB_ADDR[13]
TXA0N
B_ODD[0]/LVA4P
EB_ADDR[14]
DDCA_DA
TS1_VLD
V26 V23 N21 U23 W26 AA25 U22 V25 V22 V24 P22 U21 W25 Y25 AB24
PCM_A[0]
H21
SPI1_DI
DDCR_DA
SPI1_CK GPIO6 GPIO9
H22 H23
DDTS_TX DDTS_RX BIT7 5V_DET_HDMI_2
UART_TX2
GPIO10
UART_RX2
VSYNC_LIKE TS2_D[1]
E22 F21 E20 F20 AB6 M23 M22 AC6
GPIO7/TX1
TS2_D[3]
GPIO8/RX1
TS2_D[2]
GPIO11/TX3
LINEIN_L3
GPIO12/RX3
LINEIN_R3
AV_CVBS_DET
I2C
+3.3V_SB +3.3V_NORMAL
+3.3V_TUNER
SOC_TX COMP2_DET /USB_OCD1
==> only for LNB - Satellite Model
/USB_OCD2 SOC_RX USB_CTL1
+3.3V_NORMAL
R141 0
R140 0
OPT
/TU_RESET1 M_RFModule_RESET 5V_DET_HDMI_1 5V_DET_HDMI_3 USB_CTL2
M4 J6 N4 F8 K5 K6 L6 C4 B4 B3
CI_OE#
PCM_A[3]
TS0_D[0]
PCM_A[4]
TS0_D[1]
PCM_A[5]
TS0_D[2]
PCM_A[6]
TS0_D[3]
PCM_A[7]
TS0_D[4]
PCM_A[8]
TS0_D[5]
PCM_A[9]
TS0_D[6]
PCM_A[10]
TS0_D[7]
PCM_A[11]
TS0_CLK
PCM_A[12]
TS0_VLD
PCM_A[13]
TS0_SYNC
PCM_A[14]
N23
BIT5
CI_IORD#
N22
BIT6
CI_CE1#
F24
CI_WE#
AA23
CI_CD#
FE_DEMOD1_TS_DATA[1]
Y23
CI_RESET
FE_DEMOD1_TS_DATA[3]
AA22
CI_REG#
FE_DEMOD1_TS_DATA[2]
Y2
CI_IOWR#
Y4
CI_WAIT#
T22 AB25 AA26 U25 T24 P23 U24 W24
PCM_IRQA_N
TS2_VLD
PCM_OE_N
R115 1.8K
AR103 3.3K
R116 1.8K
I2C_SCL1 I2C_SDA1 I2C_SCL2
I2C_SCL1
I2C_SDA2
I2C_SDA1
K22 L21
TPO_DATA[5]
AA19
TPO_DATA[6]
AA20
TPO_DATA[7]
Y20
Y22 TS2_D[4]
EMMC_CLK
FE_DEMOD1_TS_DATA[4]
W23
EMMC_CMD
FE_DEMOD1_TS_DATA[5]
W22
EMMC_RST
FE_DEMOD1_TS_DATA[6]
W21
EMMC_DATA[0]
FE_DEMOD1_TS_DATA[7]
TS2_D[7]
EMMC_DATA[1]
GPIO_PM[0]
EMMC_DATA[2]
GPIO_PM[1](PM_UART)
EMMC_DATA[3]
GPIO_PM[2]
AD2
GPIO_PM[3]
NC_15
GPIO_PM[4]
NC_16
EMMC_DATA[4]
MCP_SCL
AD1
EMMC_DATA[5]
MCP_SDA
EMMC_DATA[6]
GPIO_PM[5](PM_UART)
EMMC_DATA[7]
GPIO_PM[7]
AD25 AF24 AE24 AF25 AD23 AF23 AE23 AE26 AE25
NC_1
PCM_CD_N
NC_2
PCM_RESET
NC_3
PCM_REG_N
NC_4
PCM_IOWR_N
NC_5
TPI_DATA[0]
AC21
TPI_DATA[1]
AE21
TPI_DATA[2]
AF21
TPI_DATA[3]
AC19
TPI_DATA[4]
AD20
TPI_DATA[5]
AE20
TPI_DATA[6]
AE19
TPI_DATA[7] TUNER_IF_100ohm
AD19
TPI_CLK
AE22
R145-*1 100
TPI_VAL
AD21
TPI_SYNC TUNER_IF_100ohm
FE_DEMOD1_TS_SYNC
AC22
R146-*1 100
FE_DEMOD1_TS_CLK
AC23
FE_DEMOD1_TS_VAL
AB23
AB2 AB3 AA1 AC2 AC4
FE_DEMOD1_TS_DATA[0]
R145 0 TUNER_IF_0ohm
I_P_SoC I_N_SoC Q_P_SoC
SATELLITE
0 R146 TUNER_IF_0ohm
Q_N_SoC IF_AGC_S_SOC
VIFP
EMMC_IO[10](EMMC_CLK)(NAND_RBZ)
VIFM
EMMC_IO[9](EMMC_CMD)
SIFP
EMMC_IO[11](EMMC_RSTN)
SIFM
AF5
TU_SIF TU_SIF 47 C102 0.1uF R102
AE5
C103
EMMC_IO[2](EMMC_D2)(NAND_CLE)
AD4
+3.3V_NORMAL
EMMC_IO[5](EMMC_D5)(NAND_CE1Z)
TGPIO0
AB4
R101 10K T2/S2
EMMC_IO[6](EMMC_D6)(NAND_WEZ) EMMC_IO[7](EMMC_D7)
TGPIO1 TGPIO2/SCKM1
AD5 AE3
I2C_SCL4
AD3
I2C_SDA4
VID0
GPIO_PM[15]
VID1
NC_8
VID_CTRL
E7
NC_9 NC_11
GPIO17/SCKM0 GPIO18/SDAM0
XTAL_IN
GPIO15/SCKM2
XTAL_OUT
AE1
XTAL_IN
AF2
XTAL_OUT
0.1uF R103
TU_SIF
47
OPT R117 300 1%
C110 1000pF OPT
TU_SIF
IF_FILTER L102 BLM15PX121SN1
R104 10K OPT
NC_12
IF_FILTER C118 0.1uF
IF_FILTER R144 10K
P10
GPIO_PM[12](PM_UART)
C123 33pF IF_FILTER_CAP
+3.3V_NORMAL
EMMC_IO[4](EMMC_D4)(NAND_REZ)
NC_7 33
C122 33pF IF_FILTER_CAP
IFAGC
EMMC_IO[3]/(EMMC_D3)(NAND_DQS)
TGPIO3/SDAM1
R153
IF_N C120 0.1uF IF_FILTER
TU_SIF
EMMC_IO[1](EMMC_D1)(NAND_WPZ)
IRIN
F7
OPT C121 100pF
LNB_TX
AE4
EMMC_IO[0](EMMC_D0)(NAND_CEZ)
GPIO_PM[9] GPIO_PM[11]/(PM_UART)
IF_P C119 0.1uF IF_FILTER
AF4 EMMC_IO[8](EMMC_DS)(NAND_ALE)
C5
GPIO_PM[8]
TPO_SYNC
AF20
AC3
PCM_WE_N
AD26 AC24
TPO_VAL
Y19
Close to MSTAR
PCM_CE_N
PCM_WAIT_N
AC25
TPO_CLK
Y21
PCM_IORD_N
K21 L22
TPO_DATA[4]
AB21
TS2_D[0]
NC_10 AR102 3.3K
TPO_DATA[3]
W19
AB22 TS2_CLK
T23 R21
TPO_DATA[2]
AB19
NC_6
J5 E8
BIT4
EMMC_STRB
PCM2_CE_N
TS2_D[6]
AMP, L/D, NVM, TCON TUNER MICOM S/Demod,T2/Demod, LNB
L23
PCM2_IRQA_N
TS2_D[5]
: : : :
CI_IREQ#
TPO_DATA[1]
AB20
TPI_DATA[0-7]
PCM_A[2]
PCM2_WAIT_N/TX4
NC_14
I2C_1 I2C_2 I2C_3 I2C_4
F26
W20
PCM_A[1]
F25 DDCR_CK
TPO_DATA[0]
TS1_SYNC
TS2_SYNC J21
AA21
N10 N11 P11 R10 R11
IF_FILTER R147 0
TP343 TP344 TP345 TP346 TP347
IF_AGC IF_FILTER C124 0.022uF 16V
GPIO14/SDAM2
I2C_SCL2
M11
I2C_SDA2
I2C_SCL3
I2C_SCL3
I2C_SDA3
I2C_SDA3
GND_1
J22 K23
TCON5/SCKM4
GND_2
TCON4/SDAM4
NC_17 RESET
M7 J7 D8
R150 0 OPT
VDD33
MCP for T2/S2
SOC_RESET
MCP EAN64207701
IC101-*1 LGE6321(MSD93F2GW, w/ T2S2 : M2) MCP
IC101-*1 LGE6321(MSD93F2GW, w/ T2S2 : M2)
A25 B26 B25 C24
PWM0
G25
PWM1
R_ODD[7]/LVB0N
PWM2
R_ODD[6]/LVB0P
PWM3
R_ODD[5]/LVB1N R_ODD[4]/LVB1P
D7 PWM_PM
R_ODD[3]/LVB2N R_ODD[2]/LVB2P R_ODD[1]/LVBCLKN
E6 E5 F5 F6 G5
SAR0
R_ODD[0]/LVBCLKP
SAR1
G_ODD[7]/LVB3N
SAR2
G_ODD[6]/LVB3P
SAR3
G_ODD[5]/LVB4N
SAR4
G_ODD[4]/LVB4P G_ODD[3]/LVA0N
B2
SATELLITE
A2 B1 H8 C1
EB_DATA[0]
TP139
EB_DATA[1]
TP140 PCM_5V_CTL TPO_DATA[0-7]
MCP Debug
Mstart Debug
DDTS_Debug
TPI_DATA[0-7] EB_ADDR[0] EB_ADDR[1]
+3.3V_SB
DEBUG
T2/S2
DEBUG +3.3V_NORMAL
12507WS-04L
AR104 3.3K
T2/S2 2 2 3 3
MCP_SCL
DDCA_CK 4
4
MCP_SDA
5
OPT 10K
1
DDTS_RX
TP119 TP120
I_P_SoC
C2
TP150
I_N_SoC
C3
A3
EB_DATA[2]
TP160
Q_P_SoC
TP142
EB_DATA[3]
TP161
Q_N_SoC
EB_DATA[4]
TP162
IF_AGC_S_SOC
TP143
EB_DATA[5]
TP144
TP163
EB_DATA[7]
TP138
CI_REG#
TP126
CI_CE1#
TP127
PM_SPI_DI
G_ODD[0]/LVA1P
PM_SPI_DO
B_ODD[7]/LVA2N
NC_13
B_ODD[5]/LVACLKN B_ODD[4]/LVACLKP
PM_SPI_HOLDN(GPIO)
B_ODD[3]/LVA3N B_ODD[2]/LVA3P B_ODD[1]/LVA4N
DDCA_CK
H21
DDCR_DA
SPI1_CK GPIO6 GPIO9
UART_TX2 UART_RX2
E20 F20 AB6 M23 M22 AC6
VSYNC_LIKE TS2_D[1]
E22 F21
GPIO10
GPIO7/TX1 GPIO8/RX1
TS2_D[3] TS2_D[2]
GPIO11/TX3
LINEIN_L3
GPIO12/RX3
LINEIN_R3
TP130
CI_OE#
TP131
CI_RESET TPI_VAL
TP132
EB_ADDR[9]
TP111
EB_ADDR[10]
TP112
TP133
TPI_CLK
EB_ADDR[11]
TP113
TP134
CI_IREQ#
TP166
5V_DET_HDMI_2
J5
TP167
/USB_OCD2
M4
E8 J6
USB_CTL2
N4 F8 K5 K6 L6 C4 B4
EB_ADDR[12]
TP114
EB_ADDR[13]
TP106
K21
EB_ADDR[14]
TP108
K22
CI_WAIT#
TP135
B3
CI_CD#
AA24 T21
K24
V21
TS1_D[0] TS1_D[1]
PCM_D[2]
TS1_D[2]
PCM_D[3]
TS1_D[3]
PCM_D[4]
TS1_D[4]
PCM_D[5]
TS1_D[5]
PCM_D[6]
TS1_D[6]
PCM_D[7]
TS1_D[7]
L25
TS1_CLK
L24 M25 M26
V23
M24
N21
N26
U23
N25
W26
N24
AA25
P25
U22
P24
V25
R25
V22
R26
V24
R24
P22
T26
TS1_VLD
V26
U21 W25 AB24
PCM_A[2] TS0_D[0]
PCM_A[4]
TS0_D[1]
PCM_A[5]
TS0_D[2]
PCM_A[6]
TS0_D[3]
PCM_A[7]
TS0_D[4]
PCM_A[8]
TS0_D[5]
PCM_A[9]
TS0_D[6]
PCM_A[10]
TS0_D[7]
PCM_A[11]
TS0_CLK
PCM_A[12]
TS0_VLD
PCM_A[13]
TS0_SYNC
TS2_CLK
T23
F24
T22
AA23
AB25
Y23
AA26
AA22
U25
Y2
T24
Y4
P23 U24
L21
TS2_VLD
PCM_IRQA_N
DDTS_TX
TPO_VAL
TP146
Y20 Y21 Y19
AC21 AE21 AF21 AC19 AD20 AE20 AE19 AD19 AE22 AD21
AC22 AC23 AB23
TS2_D[0]
PCM_OE_N PCM_CE_N
AC3
PCM_WE_N
NC_1
PCM_CD_N
NC_2
PCM_RESET
NC_3
PCM_REG_N
NC_4
PCM_IOWR_N
NC_5
PCM_WAIT_N
AB2 AB3 AA1 AC2 AC4
NC_6 Y22 TS2_D[4]
W23 W22
AC25
W21
AC24
TS2_D[7]
AD25 AF24
GPIO_PM[1](PM_UART)
AE24
GPIO_PM[2]
AD2
GPIO_PM[3]
NC_15
GPIO_PM[4]
NC_16
AD1
AF25 AD23 AF23
GPIO_PM[5](PM_UART)
AE23
GPIO_PM[7]
C5 IRIN
AF4
AD26
GPIO_PM[0]
AE26 AE25
EMMC_IO[8](EMMC_DS)(NAND_ALE)
VIFP
EMMC_IO[10](EMMC_CLK)(NAND_RBZ)
VIFM
EMMC_IO[9](EMMC_CMD)
SIFP
EMMC_IO[11](EMMC_RSTN)
SIFM
AE4 AF5 AE5
EMMC_IO[0](EMMC_D0)(NAND_CEZ) EMMC_IO[1](EMMC_D1)(NAND_WPZ) EMMC_IO[2](EMMC_D2)(NAND_CLE)
AD4 IFAGC
EMMC_IO[3]/(EMMC_D3)(NAND_DQS) EMMC_IO[4](EMMC_D4)(NAND_REZ)
AB4
EMMC_IO[5](EMMC_D5)(NAND_CE1Z)
TGPIO0
EMMC_IO[6](EMMC_D6)(NAND_WEZ)
TGPIO1 TGPIO2/SCKM1
EMMC_IO[7](EMMC_D7)
GPIO_PM[9]
AD5 AE3 AD3
TGPIO3/SDAM1
GPIO_PM[11]/(PM_UART)
F7
GPIO_PM[12](PM_UART)
VID0
GPIO_PM[15]
VID1
P10
E7
NC_7 NC_9
GPIO17/SCKM0
AE1
GPIO18/SDAM0
XTAL_IN
GPIO15/SCKM2
XTAL_OUT
NC_10
AF2
NC_11
N10 N11 P11 R10 R11
NC_12
TP147 TP145
AA20
PCM_IORD_N
GPIO14/SDAM2
TPO_CLK
AB21 AA19
AB22 TS2_SYNC
R21
W19
AF20
PCM_A[3]
L23 N23
AB20 AB19
PCM_A[1]
PCM_A[14]
N22
W20
TS1_SYNC
PCM_A[0]
F26
W24
PCM2_CE_N
GPIO_PM[8]
AA21 PCM_D[0] PCM_D[1]
NC_8 L22
TP123
K26 K25
PCM2_WAIT_N/TX4
TS2_D[5]
TP168
R22
PCM2_IRQA_N
TS2_D[6]
TP109
Y24 P21
J24
F25
CI_WE#
TP121
AB26
J25 J26
Y25 SPI1_DI
H22
I2C_SDA4 TP165 SATELLITE - LNB only
H24
B_ODD[0]/LVA4P
DDCR_CK
LNB_TX I2C_SCL4
T25
DDCA_DA
NC_14
TP129
B_ODD[6]/LVA2P
GPIO_PM[6]/(SPI-CZ1N) GPIO_PM[10]/(SPI-CZ2N)
D5
H23
TP164
G_ODD[1]/LVA1N
J21
TPI_SYNC
TP128
PM_SPI_CK
PM_SPI_WPN/(GPIO)
D6
EB_DATA[6]
TP137
EB_ADDR[7]
TP110
TP149
TP141
EB_ADDR[6]
M11
CI_IORD#
TP125
GND_1
J22 K23
TCON5/SCKM4
GND_2
TCON4/SDAM4
NC_17
CI_IOWR#
TP136
M7 J7 D8
RESET
5 5
TP1011 HP_LOUT_SOC
TP1012
HP_ROUT_SOC
TP1013
HP_DET
TP1014
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
PWM_DIM2
TP1001
TXB3P
TP1002
TXB3N
TP1003
TXBCLKP
TP1004
TXBCLKN
M_RFModule_RESET
TP1015
TP1005
TXB2P
EYE_SDA
TP1016
TP1006
TXB2N
EYE_SCL
TP1017
TP1007
TXB1P
TP1008
TXB1N
TP1009
TXB0P
TP1010
TXB0N
FOR LH57 EU MODEL
Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
TP116 TP118
TPO_SYNC
DDCA_DA
TP115 TP117
EB_ADDR[8]
R148
1
2
4
12507WS-04L
TP198
EB_ADDR[2]
EB_ADDR[5]
12507WS-04L
1
3
JK101
JK100
TP199
EB_ADDR[3] EB_ADDR[4]
OPT R149 10K
JK102
TP148
G_ODD[2]/LVA0P
G24 H25
FOR BRAZIL Energy Regulation need to ADD SILK "LJ6 CHASSIS"
FOR LH57 HD MODEL
16Y_M2
MAIN1
2015.10.02 1
LGE Internal Use Only
NON-MCP EAN64207702
IC101 LGE6322(MSD93F2G, w/oT2S2 : M2)
K2 D0-_HDMI3
L3
D0+_HDMI3 D1-_HDMI3
L2 M3
D1+_HDMI3
M2
D2-_HDMI3
M1
D2+_HDMI3
K3
CK-_HDMI3
K1
CK+_HDMI3
M5
DDC_SCL_3 DDC_SDA_3
M6 T4
HDMI_HPD_5V_3
V1 A_RX0N
LINEIN_L1
A_RX0P
LINEIN_R1
A_RX1N
LINEIN_L2
A_RX1P
LINEIN_R2
NON-MCP
V3 W1
2.2uF
C302
COMP2_L_IN
W2
2.2uF
C303
COMP2_R_IN 32inch_NON_EU C308 1000pF 50V
32inch_NON_EU
A_RX2N A_RX2P
C307 1000pF 50V
T1
A_RXCN
LINEOUT_L0
A_RXCP
LINEOUT_R0
DDCDA_CK
LINEOUT_L2
DDCDA_DA
LINEOUT_R2
+1.10V_VDDC
NON-MCP
HP_ROUT_SOC
J18 P3
VAG
A5
D2+_HDMI2
TP325
D2+_HDMI2
CK-_HDMI2
TP326
CK-_HDMI2
CK+_HDMI2
G1 J4
DDC_SCL_2 DDC_SDA_2
TP328 TP329
HDMI_HPD_5V_2
G3
CK+_HDMI2
TP327
DDC_SCL_2 DDC_SDA_2
J1
K4 V4
HDMI_HPD_5V_2
TP330
B_RX2P
E21
B_RXCN
SPDIF_IN
B_RXCP
D21
COMP2_Pr+
DDCDB_DA HOTPLUGB
I2S_OUT_BCK I2S_OUT_MCK I2S_OUT_WS
D2 D0-_HDMI1
E3
D0+_HDMI1 D1-_HDMI1
E2 F3
D1+_HDMI1
F2
D2-_HDMI1
F1
D2+_HDMI1
D3
CK-_HDMI1
D1
CK+_HDMI1
F4
DDC_SCL_1 DDC_SDA_1
E4 R4
HDMI_HPD_5V_1
D_RX0N
I2S_OUT_SD
D_RX0P
I2S_OUT_SD1/SDAM5
100
D25
R357
100
C25
R358
100
D26
R359
100
D_RX1N
I2S_OUT_SD2/SCKM5
D_RX1P
I2S_OUT_SD3(GPIO)
D24 E25 E24
TP300
R345 0 CEC
D_RXCN
I2S_IN_BCK
D_RXCP
I2S_IN_SD
DDCDD_CK
I2S_IN_WS
AUD_SCK
C373 22pF OPT
C374 33pF OPT
C375 22pF OPT
BIT1
H6
TP310 TP312
COMP2_Y+/AV_CVBS_IN
TP314
33
R333
0.047uF
C314
R1
68
R334
0.047uF
C315
R2
33
R335
0.047uF
C316
R3
33
R336
0.047uF
C317
P2
COMP2_Pb+
BIN0P
RP
HSYNC0
U6
AUD_LRCH
W4
GPIO22/ET_TX_EN
GIN1M
GPIO23/ET_TX_CLK
GIN1P
GPIO24/ET_RXD0
BIN1P
GPIO25/ET_MDC
HSYNC1
GPIO26/ET_MDIO
VSYNC1
GPIO27/ET_RXD1
OPT
0
R352
E23
OPT
0
R353
F23
OPT 1K R354
B6
C353 0.1uF 16V
C350 0.1uF 16V
C355 0.1uF 16V
ARC0
A6
GPIO_PM[14]/MHL_VBUS_EN
K17 K18
C22
K19 L20
B21
L17
R337
C318
68
R308 OPT C345 1000pF R340
TU_CVBS
33
DM_P0 DP_P0
0.047uF W6
C336
0.047uF Y6
C321
0.047uF V5
HP_DET
C20 C21
DM_P1 DP_P1
T18
MODEL_OPT_10
B23
MODEL_OPT_12
A22
H12 J12
CVBS0
DM_P2
CVBS1
DP_P2
CVBS2
DM_P3
USB_DM2
R6
USB_DP2
A24
+1.10V_VDDC
L309 BLM15PX121SN1
WIFI_DP
R5
B24
H18
C360 0.1uF 16V
C356 0.1uF 16V
GND_61
VDDC_6
GND_62
VDDC_7
GND_63
VDDC_8
GND_64
VDDC_9
GND_65
VDDC_10
GND_66
VDDC_11
GND_67
VDDC_12
GND_68
VDDC_13
GND_69
VDDC_14
GND_70
AVDDL_MOD
GND_71
AVDDL_DVI
GND_72 GND_74
DVDD_DDR_A_1
GND_75
DVDD_DDR_A_2
GND_76
DVDD_DDR_B_1
GND_77
DVDD_DDR_B_2
GND_78 GND_80
VDDC_SRAM_1
GND_81
VDDC_SRAM_2
GND_82 GND_83
H20 CTRL_SRAMLDO
T6
USB_DM1
T5
USB_DP1
GND_86 +1.5V_DDR_0
DVDD_DDR
V6
DDR3 1.5V
CVBS_OUT1 NC_20
L310 BLM15PX121SN1
+1.5V_DDR_0
GND_87
+1.5V_DDR_1
T15 T16
C309 0.1uF 16V
C311 10uF 10V
C313 0.1uF 16V
C361 0.1uF 16V
C357 0.1uF 16V
C320 0.1uF 16V
GND_88
T14
J13 J14 J15
AVDD_DDR0_C
GND_90
AVDD_DDR0_D_2
GND_91
AVDD_DDR1_C
GND_92
AVDD_DDR1_D_1
GND_93
AVDD_DDR1_D_2
GND_94 GND_95 GND_96
+1.5V_DDR_1
TDO0
GPIO5/EJ_TDO
GND_89
AVDD_DDR0_D_1
TDI0
D23
GND_84 GND_85
TMS0
D20
VDDC_5
H17
USB_DP2
TP332
GND_60
GND_79
USB_DM2
TP331
GND_58 GND_59
VDDC_4
R14 R15
WIFI_DM
GND_57
VDDC_3
GND_73
MODEL_OPT_13
N5
L8 VDDC_1 VDDC_2
DVDD_DDR
C362 0.1uF 16V
C358 0.1uF 16V
MODEL_OPT_11
C23
DP_P3
Y5
N18
MODEL_OPT_9
B22
33
TP313 COMP2_Y+/AV_CVBS_IN DTV/MNT_VOUT
L19 AVDDL_DVI
L311 BLM15PX121SN1
MODEL_OPT_8
L18
AVDDL_MOD
AVDDL_MOD
+1.10V_VDDC
TCK0
D22
GPIO4/EJ_TDI
K20
EPHY_RDP
JTAG B20
GPIO_PM[13]/MHL_CBUS
J19
BIT3
DDCDC_DA(GPIO_PM)
GPIO3/EJ_TMS
C344 0.1uF 16V
C363 0.1uF 16V
C359 0.1uF 16V
EPHY_RDN
P6
NC_19
AUD_MASTER_CLK
BIT2
AA3
EPHY_TDP
C347 1uF 10V
C338 1uF 10V
AVDDL_DVI
NC_18
T2 TP380
RIN1P
W5
F22
B5
C328 10uF 10V
GPIO20(LAN_LED[1])/ET_TX_TXD1
GPIO21/ET_TXD0
U5
AUD_MASTER_CLK AUD_LRCK
DTV/MNT_VOUT
GPIO2/EJ_TCK BIT0
COMP2_Pr+
DDCDD_DA
CEC
H5
RN
VCOM
D_RX2P
L5 G4
GIN0P
Chip config.
DDCDC_CK(GPIO_PM)
25V
COMP2_Pb+
HOTPLUGD
HDMI_ARC CEC
C372 22pF OPT
D_RX2N
AA2 C370 1uF
COMP2_Y+/AV_CVBS_IN
I2S_I/F R356
C26
TP
A21
SPDIF_OUT
DDCDB_CK
GIN0M
C325 10uF 10V
C323 10uF 10V
EPHY_TDN
VSYNC0
Closed to SoC Side BLM15PX121SN1 R355100 SPDIF_OUT SPDIF_OPTIC +3.3V_SB
B_RX2N
TN
GPIO19(LAN_LED[0])/ET_COL
N6
B_RX1P
OPT
D2-_HDMI2
RIN0P
P5
OPT
TP324
L300
OPT
D2-_HDMI2
J2
R362 4.7K
D1+_HDMI2
R367 4.7K
TP323
B_RX1N
R366 4.7K
D1+_HDMI2
J3
B_RX0P
OPT R361 4.7K
TP322
H2
N3
C305 10uF 10V
C304 0.1uF
OPT R365 4.7K
D1-_HDMI2
D0+_HDMI2 D1-_HDMI2
AVSS_VRM_ADC
R360 4.7K
TP321
B_RX0N
R364 4.7K
D0+_HDMI2
H3
N1
U2
R363 4.7K
D0-_HDMI2
J20 J17
N2
TP320
H19
HP_LOUT_SOC
V2 D0-_HDMI2
G26
+1.10V_VDDC
W3 Y3
HOTPLUGA
G2
VDDC 1.05V
IC101 LGE6322(MSD93F2G, w/oT2S2 : M2)
U3
IC101 LGE6322(MSD93F2G, w/oT2S2 : M2)
GND_97 +1.5V_DDR_0
DDR3 1.5V +1.5V_DDR_1
VDD33
C366
0.22uF
A8
C367
0.22uF
AF7
C368
0.22uF
B8
C369
0.22uF
AE7
GND_98 AVDD04_DDR_B
GND_99
AVDD04_DDR_A
GND_100
AVDD11_DDR_B
GND_101
AVDD11_DDR_A
GND_102 GND_103
C312 10uF 10V
C310 0.1uF 16V
C334 0.1uF 16V
C319 0.1uF 16V
L7 H7
Jtag I/F For Main
+3.3V_SB
GND_104
G7 AVDD_PLL
GND_105
AVDD_MOD
GND_106
VDDP
GND_107 GND_108
AVDD_3P3
GND_109 GND_110
U7 1K R350 JTAG
1K R346 JTAG
1K R348 JTAG
P300 12505WS-10A00
1K R349 JTAG
P7
C371 0.1uF JTAG
AVDD_AU33
Normal Power 3.3V
AVDD_DMPLL
VDD33
+3.3V_SB
AB7 T7 AA7
L301 BLM15PX121SN1
AVDD_3P3_USB
N7
W_VD33
JTAG
N8
1
2
TDI0
3
TDO0
4
5
6
C322 10uF 10V
C324 0.1uF 16V
C327 0.1uF 16V
C348 0.1uF 16V
C337 0.1uF 16V
C351 0.1uF 16V
Y7
C354 0.1uF 16V
GND_112
AVDD3P3_DADC
GND_113
AVDD_AU33
GND_114
AVDD3P3_DMPLL
GND_115
AVDD3P3_USB_1
GND_116
AVDD3P3_USB_2
GND_117
AVDD_NODIE
GND_118 GND_119 GND_121
TCK0
GND_122
AVDD_PLL AVDD_MOD
GND_123
R20
VDDP
TP342
VSENSE_VDD
W_VDD
GND_126
AB5 AC5
NC_21
GND_127
NC_22
GND_128
VDDP_NAND
GND_129
11
GND_130
Y18 VDDP_3318
STby 3.4V +3.3V_SB
3.3V_EMMC
OPT L313 BLM15PX121SN1
AVDD_3P3
L303 BLM15PX121SN1
VDDP_NAND
C341 0.1uF 16V
C329 0.1uF 16V
C339 0.1uF 16V
DVDD18_EMMC L312 BLM15PX121SN1
GND_133
C364 10uF 10V
A17
C365 0.1uF 16V
B7 C6 C7 C9
AVDD_AU33
C19
L306 BLM15PX121SN1
D14 D17 OPT 0
C342 0.1uF 16V
E9
R303
F9 F10
MCP
GND_84
GND_83 GND_85 GND_86 GND_87 GND_88
T14 T15 T16 J13 J14 J15
AVDD_DDR0_C
GND_89
AVDD_DDR0_D_1
GND_90
AVDD_DDR0_D_2
GND_91
AVDD_DDR1_C
GND_92
AVDD_DDR1_D_1
GND_93
AVDD_DDR1_D_2
GND_94 GND_95 GND_96 GND_97 GND_98
A8 AF7 B8 AE7
AVDD04_DDR_B
GND_99
AVDD04_DDR_A
GND_100
AVDD11_DDR_B
GND_101
AVDD11_DDR_A
GND_102 GND_103 GND_104
G7 L7 H7
AVDD_PLL
GND_105
AVDD_MOD
GND_106
VDDP
GND_107 GND_108 GND_109 GND_110
U7 P7 AB7 T7 AA7 N7 N8 Y7
AVDD3P3_ETH
GND_111
AVDD3P3_ADC
GND_112
AVDD3P3_DADC
GND_113
AVDD_AU33
GND_114
AVDD3P3_DMPLL
GND_115
AVDD3P3_USB_1
GND_116
AVDD3P3_USB_2
GND_117
AVDD_NODIE
GND_118 GND_119
D4 AVDD_5V_HDMI_D
GND_120 GND_121 GND_122 GND_123
R20 VSENSE_VDD
GND_124 GND_125 GND_126
AB5 AC5
NC_21
GND_127
NC_22
GND_128 GND_129 GND_130
Y18 VDDP_3318
GND_131 GND_132 GND_133 GND_134
A11 A14 A17 B7 C6 C7 C8 C9 C19 D14 D17 E9 F9 F10 F11 G6 G8 G9 G10 G11 G12 G13 G14 G15 G16 G17 G18 G19 G20 G21 G22 G23 H9 H10 H11 H13 H14 H15 H16 J8 J9 J10 J11 J16 K7 K8 K9 K10 K11 K12 K13 K14 K15 K16
GND_3
GND_135
GND_4
GND_136
GND_5
GND_137
GND_6
GND_138
GND_7
GND_139
GND_8
GND_140
GND_9
GND_141
GND_10
GND_142
GND_11
GND_143
GND_12
GND_144
GND_13
GND_145
GND_14
GND_146
GND_15
GND_147
GND_16
GND_148
GND_17
GND_149
GND_18
GND_150
GND_19
GND_151
GND_20
GND_152
GND_21
GND_153
GND_22
GND_154
GND_23
GND_155
GND_24
GND_156
GND_25
GND_157
GND_26
GND_158
GND_27
GND_159
GND_28
GND_160
GND_29
GND_161
GND_30
GND_162
GND_31
GND_163
GND_32
GND_164
GND_33
GND_165
GND_34
GND_166
GND_35
GND_167
GND_36
GND_168
GND_37
GND_169
GND_38
GND_170
GND_39
GND_171
GND_40
GND_172
GND_41
GND_173
GND_42
GND_174
GND_43
GND_175
GND_44
GND_176
GND_45
GND_177
GND_46
GND_178
GND_47
GND_179
GND_48
GND_180
GND_49
GND_181
GND_50
GND_182
GND_51
GND_183
GND_52
GND_184
GND_53
GND_185
GND_54
GND_186
GND_55
GND_187
GND_56
GND_188
B_RX2P
G3 G1 J4
SPDIF_IN SPDIF_OUT
TUNER OPTION
DDCDB_DA
V4
N16 N19 N20
C26 I2S_OUT_BCK
HOTPLUGB
P8 P9 P12 P13 P14 P15 P16 P17
I2S_OUT_MCK I2S_OUT_WS
D2
I2S_OUT_SD
D_RX0N
E3 E2 F3 F2
D_RX0P
I2S_OUT_SD1/SDAM5
D_RX1N
I2S_OUT_SD2/SCKM5
D_RX1P
I2S_OUT_SD3(GPIO)
F1
D_RX2P
D3 F4 E4
D_RXCP
I2S_IN_SD
DDCDD_CK
I2S_IN_WS
R8 R12 R16
G19 G20
EU/CIS
AJJA
0 / 0
(T2/C/S2)_EXT/ATV_CVBS
(T/C)_SOC/ATV_CVBS
0 / 1
(T2/C)_SOC/ATV_CVBS
TAIWAN/COL
CHINA/HONG
NORTH AMERICA
KOREA
T/C/ATV_CVBS (DTMB)_EXT/ATV_CVBS
ATSC_CVBS
E24
Model Option
1 / 0
E23
(T2/C)_SOC/ATV_IF
(T2/C)_SOC/ATV_IF
F23
1 / 1
(T2/C)_SOC/ATV_CVBS
(T2/C/S2)_SOC/ATV_CVBS
(T2/C/S2)_SOC/ATV_CVBS
T2/C/ATV_CVBS
G21
BRAZIL
G22
ISDB/ATV_CVBS
G23 ISDB/ATV_IF
T/C/ATV_IF
H9 H10
ATSC_CVBS
H11
T2/C/ATV_IF
H13 AA2 DDCDC_CK(GPIO_PM)
AA3
+3.3V_NORMAL
DDCDC_DA(GPIO_PM)
L5 ARC0
G4
+3.3V_SB
CEC GPIO2/EJ_TCK GPIO3/EJ_TMS
H5 H6
GPIO_PM[13]/MHL_CBUS
GPIO4/EJ_TDI
GPIO_PM[14]/MHL_VBUS_EN
GPIO5/EJ_TDO
D22 D20 D23
R17 R18 R19 T3 T8 T9 T10 T11 T12 T13
W_VD33
AREA OPTION
T17 T19
D_Demod_Core
H14
W_VDD
H15
T2/S2 L302 BLM15PX121SN1
B20
R9 R13
G18 C346 0.1uF 16V
HOTPLUGD
P18 P20
BIT [6/7]
D24 E25
DDCDD_DA
R4
P19 R7
C25 D26
F22 I2S_IN_BCK
D_RXCN
C377 0.1uF 16V
D25
D_RX2N
D1
C376 0.1uF 16V
D21
DDCDB_CK
K4
N15 N17
G17
E21
B_RXCN B_RXCP
OPT R341 4.7K
CTRL_SRAMLDO
H20
N14
G16
B_RX2N
J1
DDR_LH57_512MB R343 4.7K
GND_81 GND_82
B_RX1P
J2
AVDD_3P3_USB
T2/S2 L304 BLM15PX121SN1
H16 J8 J9
C333 0.1uF 16V T2/S2
C343 0.1uF 16V T2/S2
C301 10uF 10V T2/S2
C306 0.1uF 16V T2/S2
C326 0.1uF 16V T2/S2
C335 0.1uF 16V T2/S2
J10 J11 J16 K7 K8
T20
K9
U8 U9
K10
BIT0
U10 U11
K11
U12 MCP
U15
IC101-*1 LGE6321(MSD93F2GW, w/ T2S2 : M2)
U16
MODEL_OPT_8
BIT1
U13 U14
K12
MODEL_OPT_9
BIT2
K13
U17 U19
P3
U20
N2
V7
N1
V8
N3
V9 V10 V11
TP
GIN0M GIN0P
RN
BIN0P
RP GPIO19(LAN_LED[0])/ET_COL
P5 N6
HSYNC0
BIT4
MODEL_OPT_11
BIT5
MODEL_OPT_12
K16
C22 B21
A21 GPIO21/ET_TXD0
R1 R2
V16
R3
V17
P2
V18
U5
V19
U6
V20 W7
W4
W8
T2
W9
RIN1P
GPIO22/ET_TX_EN
GIN1M
GPIO23/ET_TX_CLK
GIN1P
GPIO24/ET_RXD0
BIN1P
W12
W5
W13
Y6
W14
V5
W15
GPIO25/ET_MDC
HSYNC1
GPIO26/ET_MDIO
VSYNC1
GPIO27/ET_RXD1
NC_18
GND_4
GND_136
GND_5
GND_137
GND_6
GND_138
GND_7
GND_139
GND_8
GND_140
GND_9
GND_141
GND_10
GND_142
GND_11
GND_143
GND_12
GND_144
GND_13
GND_145
GND_14
GND_146
GND_15
GND_147
GND_16
GND_148
GND_17
GND_149
GND_18
GND_150
GND_19
GND_151
GND_20
GND_152
GND_21
GND_153
GND_22
GND_154
GND_23
GND_155
GND_24
GND_156
GND_25
GND_157
GND_26
GND_158
GND_27
GND_159
GND_28
GND_160
GND_29
GND_161
GND_30
GND_162
GND_31
GND_163
GND_32
GND_164
GND_33
GND_165
GND_34
GND_166
GND_35
GND_167
GND_36
GND_168
GND_37
GND_169
GND_38
GND_170
GND_39
GND_171
GND_40
GND_172
GND_41
GND_173
GND_42
GND_174
GND_43
GND_175
GND_44
GND_176
GND_45
GND_177
GND_46
GND_178
GND_47
GND_179
GND_48
GND_180
GND_49
GND_181
GND_50
GND_182
GND_51
GND_183
GND_52
GND_184
GND_53
GND_185
GND_54
GND_186
GND_55
GND_187
GND_56
GND_188
L12 L13 L14 L15 L16 M8 M9 M10 M12 M13 M14 M15 M16 M17 M18 M19 M20 M21 N9 N12 N13 N14 N15 N16 N17 N19 N20 P8 P9 P12 P13 P14 P15 P16 P17 P18 P19 P20 R7 R8 R9 R12 R13 R16 R17 R18 R19 T3 T8 T9 T10 T11 T12 T13 T17 T19 T20 U8 U9 U10 U11 U12 U13 U14 U15 U16 U17 U18 U19 U20 V7 V8 V9 V10 V11 V12 V13 V14 V15 V16 V17 V18 V19 V20 W7 W8 W9 W10 W11 W12 W13 W14 W15 W16 W17 W18 Y8 Y9 Y10 Y11 Y12 Y13 Y14 Y15 Y16 Y17 AA4 AA5 AA6 AA8 AA9 AA13 AB1 AC7 AC10 AC13 AC16 AD6 AD7 AD17 AD18 AD22 AD24 AE2 AE6 AF10 AF13 AF16
DM_P0
VCOM
DM_P1
CVBS0
DM_P2
DP_P0 DP_P1 CVBS1
DP_P2
CVBS2
DM_P3
C21
BIT7
B22 B23 C23 A22
N5 R5 R6 A24 B24 T6 T5
DP_P3
W16 W17
V6
W18
Y5
MODEL_OPT_13
BIT6
C20
P6
NC_19 W6
W11
Y8
B6 A6
GPIO20(LAN_LED[1])/ET_TX_TXD1
V13 V15
W10
K15
B5
GND_135
L11
VSYNC0
V12 V14
BIT3
A5 TN
RIN0P
K14
MODEL_OPT_10
U18
GND_3
L10
CVBS_OUT1 NC_20
Y9 Y10 Y11
DDR_LH60/DDR_LH57_1GB R344 4.7K
VDDC_SRAM_1 VDDC_SRAM_2
B_RX1N
OPT R327 4.7K
H18
N12 N13
L314 BLM15PX121SN1
B_RX0P
H2 J3
R342 4.7K
GND_79 GND_80
H17
M21 N9
G15
U2
AVSS_VRM_ADC
B_RX0N
EXT_EEPROM R325 4.7K
GND_77 GND_78
M19 M20
VAG
G2 H3
R328 4.7K
DVDD_DDR_B_1 DVDD_DDR_B_2
G14 V2
INT_EEPROM R326 4.7K
GND_75 GND_76
M16 M17 M18
G13
OPT R321 4.7K
J12
DVDD_DDR_A_1 DVDD_DDR_A_2
M14
G12
HOTPLUGA
M13 M15
G11
Y3
Brazil R323 4.7K
R15 H12
LINEOUT_L2 LINEOUT_R2
Non_Brazil R324 4.7K
GND_73 GND_74
R14
DDCDA_CK DDCDA_DA
U3
C340 0.1uF 16V
W3
DDR_1GB/512MB R322 4.7K
GND_71 GND_72
LINEOUT_L0 LINEOUT_R0
BIT7_1 R319 4.7K
AVDDL_MOD AVDDL_DVI
M12
M6 T4
A_RXCN A_RXCP
BIT6_1 R317 4.7K
GND_69 GND_70
K1 M5
BIT7_0 R320 4.7K
VDDC_13 VDDC_14
M9 M10
C330 0.1uF 16V
T1
BIT6_0 R318 4.7K
GND_67 GND_68
A_RX2P
BIT5_1 R315 4.7K
VDDC_11 VDDC_12
L16 M8
G10
W2
A_RX2N
M1 K3
G8 G9
BIT5_0 R316 4.7K
GND_65 GND_66
LINEIN_L2 LINEIN_R2
R307
V3
BIT4_1 R314 4.7K
VDDC_9 VDDC_10
L14 L15
A_RX1N A_RX1P
G6
W1
BIT3_1 R311 4.7K
GND_63 GND_64
M3 M2
LINEIN_L1 LINEIN_R1
BIT4_0 R313 4.7K
VDDC_7 VDDC_8
L12 L13
A_RX0N A_RX0P
BIT3_0 R312 4.7K
N18 T18
GND_61 GND_62
L3 L2
BIT2_1 R309 4.7K
L18 L19
VDDC_5 VDDC_6
L10 L11
BIT2_0 R310 4.7K
L20 L17
GND_59 GND_60
OPT 0
L307 BLM15PX121SN1
V1
K2
BIT1_1 R304 4.7K
K18 K19
GND_58
VDDC_3 VDDC_4
L9
BIT1_0 R305 4.7K
K20 K17
VDDC_2
GND_57
BIT0_1 R300 4.7K
J18 J19
VDDC_1
BIT0_0 R301 4.7K
J20 J17
AVDD_DMPLL
L8
G26 H19
F11
MCP
IC101-*1 LGE6321(MSD93F2GW, w/ T2S2 : M2)
GND_134
A11
C8
C332 0.1uF 16V
GND_131 GND_132
A14 C331 0.1uF 16V
GND_124 GND_125
10
IC101-*1 LGE6321(MSD93F2GW, w/ T2S2 : M2)
GND_120
TMS0
OPT
1K R351
OPT R347 47K
AVDD3P3_ADC
D4
7
9
GND_111
AVDD_5V_HDMI_D
SOC_RESET
8
AVDD3P3_ETH
L9
Y12 Y13 Y14 Y15 Y16 Y17 AA4
AREA OPTION
BACK-END OPTION
AA5
LH60 DDR OPTION
AA6 AA8 AA9
BIT [0/1]
DVB
0 / 0
EU/CIS
N/AMERICA
ATSC
0 / 1
CHINA/HONGKONG
KOREA
1 / 0
TAIWAN/COLOM
S/AMERCIA
1 / 1
ASIA/AFRICA
JP
BIT[2/3/4/5]
TYPE
FHD
FRC
DDR Brazil OPT_LH60/LH57 COMMON
PANEL TYPE
AA13 AB1 AC7 AC10 AC13
JAPAN
0 / 0 / 0 / 0
LVDS
0 / 0 / 0 / 1
EPI
FHD,
120Hz, v14_32inch (6 lane)
0 / 0 / 1 / 0
EPI
FHD,
120Hz, V13 (6 lane)
0 / 0 / 1 / 1
EPI
FHD,
120Hz, V12 (6 lane)
0 / 1 / 0 / 0
EPI
FHD,
0 / 1 / 0 / 1
LVDS
FHD,
120Hz
0 / 1 / 1 / 0
EPI
FHD,
120Hz, V14 (8 lane)
0 / 1 / 1 / 1
LVDS
FHD,
60Hz
MODEL_OPT_8 / MODEL_OPT_12
DDR
MODEL_OPT_9
0 / 0
1GB
0
Non Brazil
1 / 0
768MB
1
Brazil
0 / 1
-
1 / 1
-
DDR Country OPT
AC16 AD6 AD7 AD17 AD18 AD22 AD24 AE2 AE6 AF10
60Hz, V14_32 inch (6lane)
AF13 AF16
1 / 0 / 0 / 0
LVDS
HD, FHD,
60Hz 60Hz,
1 / 0 / 0 / 1
LVDS
HD,
60Hz
1 / 0 / 1 / 0
Vby1
FHD,
120Hz
1 / 0 / 1 / 1
LVDS
FHD,
120Hz
CP BOX SMALL SMART OLED
LH57 DDR OPTION
OLED
1 / 1 / 0 / 0 1 / 1 / 0 / 1
MODEL_OPT_8 / MODEL_OPT_13
DDR
0 / 0
1GB
1 / 0
768MB
0 / 1
512MB
1 / 1
-
1 / 1 / 1 / 0 1 / 1 / 1 / 1
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
16Y_M2 MAIN2
2015.10.02 3
LGE Internal Use Only
+1.5V_DDR
+1.5V_DDR_0
+1.5V_DDR
+1.5V_DDR_1
L501
L503
BLM15PX121SN1
BLM15PX121SN1
+1.5V_DDR_1 +1.5V_DDR_0 OPT OPT MCP
AE15 AB14 AE16 AD16
A-A14
B-A14
A-BA0
B-BA0
A-BA1
B-BA1
A-BA2
B-BA2
A-RASZ
B-RASZ
A-CASZ
B-CASZ
A-WEZ
B-WEZ
A-ODT
B-ODT
A-CKE
B-CKE
A-RST
B-RST B-MCLK
A-MCLK
B-MCLKZ
A-MCLKZ
B-CSB0
A-CSB0
B-DQ[0]
A-DQ[0] A-DQ[1]
B-DQ[1]
A-DQ[2]
B-DQ[2]
A-DQ[3]
B-DQ[3]
A-DQ[4]
B-DQ[4]
A-DQ[5]
B-DQ[5]
A-DQ[6]
B-DQ[6] B-DQ[7]
A-DQ[7] A-DQM[0] A-DQS[0] A-DQSB[0]
B-DQM[0] B-DQS[0] B-DQSB[0] B-DQ[8]
A-DQ[8]
B-DQ[9]
A-DQ[9] A-DQ[10]
B-DQ[10]
A-DQ[11]
B-DQ[11]
A-DQ[12]
B-DQ[12]
A-DQ[13]
B-DQ[13]
A-DQ[14]
B-DQ[14]
A-DQ[15]
B-DQ[15]
A-DQM[1]
B-DQM[1]
A-DQS[1] A-DQSB[1]
B-DQS[1]
C10 B10
B13 E13
C523 0.1uF
B9 F15
C500 0.1uF
E14 A9
C502 0.1uF
C506 0.1uF
C515 1uF
C510 0.1uF
C508 0.1uF
C14
C516 10uF 10V
B14 F19 D15 E18 E16 E19 F16 D18 E15 E17 F18 F17 B16
+1.5V_DDR_0
A18
+1.5V_DDR_1
B15 A19 C16 B19 C15 B18
C518 0.1uF
C511 0.1uF
D19 C17
C521 0.1uF
C524 0.1uF
B17
C537 0.1uF
C532 0.1uF
C522 0.1uF
C525 0.1uF
C533 0.1uF
C536 0.1uF
ARBA0 ARBA1 ARBA2 A/RRAS A/RCAS A/RWE ARODT ARCKE ARRESET ARCLK0 A/RCLK0 ARDQ[0-7]
ARDQ[0]
A/RCS
AC8 AD9 AB12 AF8 AE8 AC12 AD8 AD11 AF14 AE13 AB13 AA15
ARDQ[1]
AB18
ARDQ[2]
AA14
ARDQ[3]
AC18
ARDQ[4]
AC15
ARDQ[5]
AA18
ARDQ[6]
AB15
ARDQ[7]
AA17 ARDQM0
ARDQ[8-15]
ARDQS0 ARDQ[8] A/RDQS0 ARDQ[9]
AB17 AA16 AB16 AE17 AD15
ARDQ[10]
AE18
ARDQ[11]
AD14
ARDQ[12]
AF17
ARDQ[13]
AE14
ARDQ[14]
AF18
ARDQ[15]
AE15 ARDQM1 ARDQS1 A/RDQS1
AB14 AE16 AD16
A-A10
B-A10
A-A11
B-A11
A-A12
B-A12
A-A13
B-A13
A-A14
B-A14
A-BA0
B-BA0
A-BA1 A-BA2
B-BA1 B-BA2
A-RASZ
B-RASZ
A-CASZ
B-CASZ
A-WEZ
B-WEZ
A-ODT
B-ODT
A-CKE
B-CKE
A-RST
B-RST
A-MCLK A-MCLKZ A-CSB0
B-MCLK B-MCLKZ B-CSB0
A-DQ[0]
B-DQ[0]
A-DQ[1]
B-DQ[1]
A-DQ[2]
B-DQ[2]
A-DQ[3]
B-DQ[3]
A-DQ[4]
B-DQ[4]
A-DQ[5]
B-DQ[5]
A-DQ[6] A-DQ[7]
B-DQ[6] B-DQ[7]
A-DQM[0]
B-DQM[0]
A-DQS[0]
B-DQS[0]
A-DQSB[0] A-DQ[8] A-DQ[9]
B-DQSB[0] B-DQ[8] B-DQ[9]
A-DQ[10]
B-DQ[10]
A-DQ[11]
B-DQ[11]
A-DQ[12]
B-DQ[12]
A-DQ[13]
B-DQ[13]
A-DQ[14]
B-DQ[14]
A-DQ[15]
B-DQ[15]
A-DQM[1]
B-DQM[1]
A-DQS[1] A-DQSB[1]
B-DQS[1] B-DQSB[1]
C10 B11 B10 D12 C11
RA11
RB11
RA12
RB12
RA13
RB13
RA14
ARBA0
BRBA1
E13 B9 F15
BRBA2
ARBA1
B/RRAS
ARBA2
B/RCAS
E14 A9 C14 F12
B/RWE
ARCLK0
BRODT
A/RCLK0
BRCKE
ARCKE
BRRESET
A15 B14
BRCLK0
A/RCS
B/RCLK0
ARODT
B/RCSD
BRDQ[0]
D15
BRDQ[1]
E18
BRDQ[2]
E16
BRDQ[3]
E19
BRDQ[4]
F16
BRDQ[5]
D18
BRDQ[6]
E15
BRDQ[7]
F17
RA9 RA10
RB10
BRBA0
B13
F18
RA8
RB9
N2 P8 P2 R501
56
R8 R2 T8 R3 L7 R7 N7 T3 T7 M7
RB14
D10
E17
RB6 RB8
E12
F19
RA6 RA7
RB7
C12
D9
RB5
P3
A/RRAS
BRDQ[0-7]
A/RCAS A/RWE ARRESET
ARDQS0 A/RDQS0
BRDQM0 ARDQS1
BRDQS0
B16
B/RDQS0 BRDQ[8]
A18
BRDQ[9] BRDQ[10]
B15
BRDQ[8-15]
A/RDQS1
ARDQ[0-7]
BRDQ[11]
A19
ARDQM0 ARDQM1
M2 N8 M3 J7 K7 K9
J3 K3 L3
D3
F7
C15
BRDQ[14]
B18
BRDQ[15]
ARDQ[3]
BRDQS1 ARDQ[8-15]
VDD_6
NC_5
VDD_7 VDD_8
CK CK CKE CS ODT RAS CAS
DQSL
DQSU
DML DMU
E3
ARDQ[1]
B/RDQS1
A14
E7
ARDQ[0]
B17
VDD_5
DQSU
ARDQ[2]
C17
A13
DQSL
BRDQ[12]
ARDQ[5]
VDD_4
C7
BRDQ[13]
BRDQM1
A12/BC
RESET
B19
D19
VDD_3
F3
C16
ARDQ[4]
VDD_2
A11
F2 F8 H3 H8
ARDQ[6]
G2
ARDQ[7]
H7 D7
ARDQ[9]
C3
ARDQ[10]
C8
ARDQ[11]
C2
ARDQ[12]
A7
ARDQ[13]
A2
ARDQ[14]
B8
ARDQ[15]
A3
G7
L7 R7
RB11
N7 T3
RB13
K8 N1 N9 R1 R9
C547 1000pF 50V
C517 0.1uF
T7
RB14 C555 0.1uF
C556 1000pF 50V
M7
BRBA1 BRBA2
VDDQ_3 VDDQ_4 VDDQ_5 VDDQ_6 VDDQ_7 VDDQ_8
NC_3
D2
H2
C519
1uF
H9
C520
1uF
B/RCAS B/RWE BRRESET
J9 L1 L9
BRDQS0
ARRESET
B/RDQS0 BRDQS1
VSS_4 VSS_5 VSS_6
DQL0
VSS_7
DQL1
VSS_8
DQL2
VSS_9
DQL3
VSS_10
DQL4
VSS_11
DQL5
VSS_12
B3 E1
B/RDQS1
BRDQ[0-7]
G8 J2 J8 M1
ARCLK0
M9
A/RCLK0
P1
BRDQM0 BRDQM1
K1
P9 T9
R519
56
L3
VDD_2
A11
VDD_3
A12/BC
VDD_4
A13
VDD_5
NC_5 BA0 BA1 BA2 CK CK CKE CS ODT RAS CAS
DQSL
DQSU
DML DMU
F8 H3 H8
BRDQ[6]
G2
BRDQ[7]
H7
B2 VDD_1
A10/AP
E7
F2
240 1%
A9
A14
DQL0 DQL1
VDD_6 VDD_7 VDD_8
D7
BRDQ[9]
C3
DQU0
VSSQ_2
BRDQ[10]
C8
DQU1
VSSQ_3
D8
BRDQ[11]
C2
DQU2
VSSQ_4
E2
BRDQ[12]
A7
DQU3
VSSQ_5
E8
BRDQ[13]
A2
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
F9
BRDQ[14]
B8
G1
BRDQ[15]
A3
C544 0.01uF 50V
B9 D1
G9
D9 G7 K2 K8 N1 N9 R1
C541 1000pF 50V
C538 0.1uF
A1 VDDQ_1 VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5 VDDQ_6 VDDQ_7 VDDQ_8
A8 C1 C9 D2 E9 F1 H2
C534
1uF
H9
C535
1uF
+1.5V_DDR_1
VDDQ_9 J1 NC_1 NC_2 NC_3
J9 L1 L9
NC_4
BRRESET A9 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8
DQL2
VSS_9
DQL3
VSS_10
DQL4
VSS_11
DQL5
VSS_12
BRCKE
B3 E1 G8 J2 J8 M1 M9 P1
BRCLK0
P9
B/RCLK0
T1 T9
DQL6 B1 VSSQ_1 DQU0
VSSQ_2
DQU1
VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
B9 D1
C545 0.01uF 50V
D8 E2 E8 F9 G1 G9 IC502-*1 K4B4G1646E-BCNB
N3
P8 P2 R8 R2 T8 R3 L7 R7 N7 T3 T7 M7
A5
A11
VDD_3
A12/BC
VDD_4
BA0 BA1
CK CK
L2 K1 K3 L3
CS ODT RAS CAS WE
T2 RESET
F3 G3
DQSL DQSL
C7 B7
DQSU DQSU
E7 D3
DML DMU
E3 F7 F2 F8 H3 H8 G2 H7
R2 VDD_1 VDD_2
A13
DQL0 DQL1 DQL2 DQL3 DQL4 DQL5
VDD_5 VDD_6 VDD_7 VDD_8
C3 C8 C2 A7 A2 B8 A3
R3 L7
K2
R7
K8
N7
N1
T3
N9
T7
R1
M7
A1 VDDQ_1 VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5 VDDQ_6 VDDQ_7 VDDQ_8
C1
J7 K7
D2
NC_1 NC_3
K9
F1
L2
H2
K1
H9
J3
J1
L3
K3
A10/AP
VDD_2 VDD_3
A12/BC
VDD_4
A13
VDD_5
BA0
CK CK
CS ODT RAS CAS
RESET
NC_4 F3 G3
VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11
B3
C7
E1
B7
J2
E7
J8
D3 E3
P1
F7
P9
F2
T1
F8
T9
H3 H8 G2
B1 VSSQ_1 VSSQ_2
DQU1
VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
H7
DQL0 DQL1 DQL2
VDD_6 VDD_7 VDD_8
D1
D7
D8
C3
E2
C8
E8
C2
F9
A7
G1
A2 B8 A3
R2 B2
R3
D9
L7
G7
R7
K2
N7
K8
T3
N9 R9
M3
VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5 VDDQ_6 VDDQ_7 VDDQ_8
A8
J7
C1
K7
C9
K9
E9
L2
F1
K1
H2 H9
VDDQ_9
J3 K3 L3
NC_2 NC_3
J9
A10/AP
VDD_2 VDD_3
BA0
CK CK
CS ODT RAS CAS WE
J1 NC_1
T2 RESET
L1 L9
NC_4
F3 G3
DQSL DQSL
VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9
DQL3
VSS_10
DQL4
VSS_11
DQL5
VSS_12
A9
C7
B3
B7
G8
E7
J2
D3 E3
M9
F7
P1
F2
P9
F8
T1
H3
T9
H8 G2
DQL6
H7
DQU0
VSSQ_2
DQU1
VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
DQL0 DQL1 DQL2 DQL3 DQL4 DQL5
VDD_4 VDD_5 VDD_6 VDD_7 VDD_8
B9
D7
D1
C3
D8
C8
E2
C2
E8
A7
F9
A2
G1
B8
G9
A3
D9 G7 K2 K8 N1 N9 R1 R9
VDD_9
R3 L7 N7 T3 T7 M7
M3
A1 VDDQ_1 VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5 VDDQ_6 VDDQ_7 VDDQ_8
A8 C1 C9 D2 E9 F1 H2 H9 J1
NC_2 NC_3 NC_4
J9 L1 L9 T7
NC_6
VSS_1 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11
B3 E1 G8 J2 J8 M1 M9 P1 P9 T1 T9
VSS_12
J3 L3
B1
DQU0
VSSQ_2
DQU1
VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
BA0 BA1
CK CK
CS ODT RAS CAS WE
T2 RESET
F3 G3
DQSL DQSL
C7 B7
DQSU
E7 D3
B9 D1 D8 E2 E8
DML DMU
E3 F7 F2 F8 H3 H8 G2 H7
DQL0 DQL1 DQL2 DQL3 DQL4 DQL5
VDD_4 VDD_5 VDD_6 VDD_7 VDD_8
C8 A7 A2 B8 A3
L7 R7
K2
N7 T3
N1
T7
N9
M7
R9
M3 VDDQ_1 VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5 VDDQ_6 VDDQ_7 VDDQ_8
A8
J7 K7
C9
K9
E9
L2
F1
K1
H2
J3
H9
K3
VDDQ_9
L3
NC_1 NC_2 NC_3
J9
A10/AP
VDD_2
A11
VDD_3
A12/BC
VDD_4 VDD_5
BA1
CK CK
CS ODT RAS CAS WE
J1 T2
RESET
L1 L9
NC_4
F3 G3
DQSL DQSL
VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11
A9
C7
B3
B7
J2
E7 D3
M1
E3
M9
F7
P1
F2
P9
F8
T1 T9
H3 H8 G2 H7
DQU1
VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
DQL0 DQL1
VDD_6 VDD_7 VDD_8
B9
D7
D1
C3
D8
C8
E2
C2
E8
A7
F9
A2
G1
B8
G9
A3
D9
L7 R7
K2
N7
K8
T3
N1 N9 R9
VDDQ_1 VDDQ_3 VDDQ_4 VDDQ_5 VDDQ_6 VDDQ_7 VDDQ_8
A8
J7 K7
C9
K9
E9
L2
F1
K1
H2
J3
H9
K3 L3
NC_1 NC_2 NC_3
J9
A10/AP
VDD_2 VDD_3
A12/BC
BA0 BA1
CK CK
CS ODT RAS CAS WE
J1 T2
RESET
L1 L9
NC_4
F3 G3
DQSL DQSL
VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8
DQL2
VSS_9 VSS_10
DQL4
VSS_11
DQL5
VSS_12
A9
C7
B3
B7
J2
E7 D3
M1
E3
M9
F7
P1
F2
P9
F8
T1
H3 H8 G2
DQL6
H7 VSSQ_1
DQU1
VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
DQL0 DQL1 DQL2 DQL3 DQL4 DQL5
VDD_4 VDD_5 VDD_6 VDD_7 VDD_8
B9
D7
D1
C3
D8
C8
E2
C2
E8
A7
F9
A2
G1
B8
G9
A3
D9 G7 K2 K8 N1 N9 R1 R9
VDD_9
A1 VDDQ_1 VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5 VDDQ_6 VDDQ_7 VDDQ_8
A8 C1 C9 D2 E9 F1 H2 H9
VDDQ_9 J1 NC_1 NC_2 NC_3 NC_4
J9 L1 L9 T7
NC_6
A9 VSS_1 VSS_2 VSS_3 VSS_4 VSS_5 VSS_6 VSS_7 VSS_8 VSS_9 VSS_10 VSS_11
B3 E1 G8 J2 J8 M1 M9 P1 P9 T1 T9
VSS_12
DQL6 DQL7
B1 VSSQ_2
DML DMU
J8
T9
DQSU DQSU
E1 G8
B2 VDD_1
A11
CKE
D2
VDDQ_9
A8 A9
BA2
C1
L8 ZQ
A6 A7
M2 N8
H1 VREFDQ
A4 A5
NC_5
M3
VDDQ_2
A1 A2 A3
M7
R1
VREFCA
A0
A13
A1
DQL3
DQU0
R3
G7
VDD_9
DQL7
B1 VSSQ_2
DML DMU
J8
VSS_12
DQSU DQSU
E1 G8
B2 VDD_1
A13
BA0
R8 R2 T8
A8 A9
CKE
D2
P2 L8 ZQ
A6 A7
A14
N2 P8
A4 A5
BA2
C1
P3 H1 VREFDQ
M8
N3 P7
A1 A2 A3
M2 N8
IC502-*3 K4B2G1646Q-BCNB
VREFCA
A0
NC_5
R1
A1
VSSQ_1 DQU0
R3
K8
DQL6
D7
C2
D9 G7
VDD_9
DQL7
C3
DQL6 VSSQ_1
A14
DQSU A9
VSS_2
VDD_2 VDD_3
L2
VDDQ_9 NC_1
A10/AP
CKE
K3
B2 VDD_1
A11 A13
R8 R2 T8
A8 A9
J7
K1
P2 L8 ZQ
A6 A7
A12/BC
N2 P8
A4 A5
BA2
K9
P3 H1 VREFDQ
M8
N3 P7
A1 A2 A3
M2 N8
IC502-*2 H5TQ2G63GFR-TEC
VREFCA
A0
NC_5
K7
DQL7
B1 VSSQ_1
DML DMU
J8 M1
DQSU DQSU
E1
B2 VDD_1
A11
BA1
R8 R2
R7
A8 A9
CKE
D2
ZQ
A6
BA2
A1 VDDQ_1
L8
A7
M2
P8
T8
A4
NC_5
N8
H1 VREFDQ
A5
A12/BC
N2 P2
A2 A3
M7
R1
VREFCA
A0 A1
A13
N1
VDD_9
DQL7
B9
G9
DML DMU
M1
VSS_12
DQSU DQSU
G8
M9
DQSL DQSL
A9 VSS_1
VDD_1
A11
BA1
R8 T8
A8 A9
T2
L9
ZQ
A6
WE
J9 L1
P2 L8
A7
A14
N2 P8
A4
CKE
E9
H1 VREFDQ
A5
BA2
C9
VDDQ_9
NC_2
M3
A8
P7 P3
A2 A3
M2 N8
VREFCA
A0 A1
NC_5
R9
DQL6
DQU0
T8
D9 G7
VDD_9
DQL7 D7
P2 R8
B2
A9 A10/AP
CKE
J3
L8
A7
J7 K7
N2
ZQ
A8
A14
P3 P8
A6
BA2
K9
VREFDQ
M8
N3
M8
N3 P7 P3
P7 H1
A3 A4
NC_5
N8
IC501-*3 K4B2G1646Q-BCNB M8
N3
A1 A2
M2 M3
VREFCA
DDR_SAMSUNG_4Gb
P3 N2
IC501-*2 H5TQ2G63GFR-TEC M8
A0
C558 1000pF 50V
C557 0.1uF
R9
VDD_9
DQL7 BRDQ[8]
B1
VREFCA4
R507
A8
DQSU
F7
VREFCA2
+1.5V_DDR_1 L8 ZQ
A7
C7
E3
VREFDQ
A6
DQSL
D3
Near DRAM
+1.5V_DDR_1
+1.5V_DDR_1
A5
RESET
B7
Near DRAM VREFCA
A4
F3
DQL6 VSSQ_1
VREFCA4 M8
H1
A3
T2
G3
DDR3 4Gbit (x16)
A2
WE
BRDQ[1]
BRDQ[5] BRDQ[8-15]
K3
BRDQ[2] BRDQ[4]
T1
J3
BRDQ[0]
BRDQ[3]
A0 A1
L2
B/RRAS
+1.5V_DDR_0
ARCKE
VSS_3
K9
BRODT
F1
A9 VSS_2
K7
B/RCSD
E9
M3 J7
BRCKE
C9
NC_4
VSS_1
56
B/RCLK0
C1
J1 NC_2
N8 R518
BRCLK0
VDDQ_9 NC_1
M2
BRBA0
A8
P7
Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
R3
RB10
K2
R2 T8
RB12
A1 VDDQ_2
56
RB9
D9
IC501-*1 K4B4G1646E-BCNB
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
R517
RB8
VDD_9
VDDQ_1
DQL7 ARDQ[8]
R8
RB7
B2 VDD_1
A10/AP
BA2
P2
RB6
240 1%
A9
T2
B7
VREFCA3
A8
WE
G3
R504
VREFCA1
ZQ
A7
L2 K1
L8
A6
+1.5V_DDR_0
N2 P8
RB5
A5
BA1
56
RB4
VREFDQ
A4
BA0
R505
RB3
H1
A3
P3
RB2
A2
R513
F13
RB4
RA5
1K 1%
B-A9
RA3 RA4
1%
B-A8
A-A9
RA2
R514
AD13
B-A7
A-A8
A12
RA1
RB2
1K
AB11
RA14
B-A6
A-A7
D11
RB0 RB1 RB3
56 R560
AD10
RA13
A-A6
C13
1%
AA12
RA12
B-A5
E10
P7
RB1
1K R563
AB10
RA11
B-A4
A-A5
E11
1%
AA11
A-A4
B12
Near DRAM
+1.5V_DDR_0
1K R565
AE10
B-A3
N3
RB0
Near DRAM
+1.5V_DDR_0
1%
AA10
RA8
B-A2
A-A3
M8 VREFCA
56 R559 1%
AF11
RA7
B-A1
A-A2
A1
DDR_HYNIX_2Gb
AB9
B-A0
A-A1
A0
R502
AD12
A-A0
P7
1K 1%
N3
VREFCA2
IC502 H5TQ4G63CFR-TEC
VREFCA3
1%
AC9
F14
DDR3 4Gbit (x16)
C562 0.1uF
C560 0.1uF
VREFCA1
H5TQ4G63CFR-TEC
R503
C513 0.1uF
1K
AE12
RA9
C561 0.1uF
+1.5V_DDR_1
DDR_HYNIX_4Gb
AB8 AE11
RA6
C559 0.1uF
B-DQSB[1]
RA0
RA10
C531 10uF 10V
C530 1uF
D9
AE9
RA5
C529 0.1uF
C528 0.1uF
F12 A15
IC501
RA4
C546 0.1uF
C11 D10
NON-MCP
RA0
C539 0.1uF
+1.5V_DDR_0
D12
IC101 LGE6322(MSD93F2G, w/oT2S2 : M2)
RA2
C543 0.1uF
+1.5V_DDR_1
B11
C504 0.1uF
RA3
C540 0.1uF
C12 E12
+1.5V_DDR_0
RA1
C527 0.1uF
A12 F13
DDR_SAMSUNG_2Gb
AE14 AF18
B-A12 B-A13
R515
AD14 AF17
A-A12 A-A13
C13 D11
1K 1%
AD15 AE18
B-A10 B-A11
1%
AB16 AE17
A-A10 A-A11
E11 E10
R516
AB17 AA16
B-A8 B-A9
1K
AB15 AA17
B-A5 B-A6 B-A7
A-A8 A-A9
56 R512
AC15 AA18
B-A3 B-A4
A-A5 A-A6 A-A7
DDR_HYNIX_2Gb
AA14 AC18
B-A1 B-A2
A-A3 A-A4
1%
AA15 AB18
A-A1 A-A2
1K R509
AE13 AB13
C526 0.1uF
C554 10uF 10V
B12
R510 1K 1%
AD8 AD11 AF14
B-A0
A-A0
1%
AF8 AE8 AC12
OPT C553 1uF
56 1% R511
AB12
C552 0.1uF
R506
AC8 AD9
C551 0.1uF
1K 1%
AB11 AD13
C550 0.1uF
1%
AA12 AD10
C549 0.1uF
R508
AA11 AB10
C548 0.1uF
C514 10uF 10V
1K
AA10 AE10
OPT C512 1uF
DDR_SAMSUNG_4Gb
AB9 AF11
C509 0.1uF
DDR_HYNIX_4Gb
AC9 AD12
C507 0.1uF
DDR_SAMSUNG_2Gb
AE11 AE12
C505 0.1uF
F14
AE9 AB8
C503 0.1uF
C501 0.1uF
IC101-*1 LGE6321(MSD93F2GW, w/ T2S2 : M2)
B1 VSSQ_1
DQU0
VSSQ_2
DQU1
VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
B9 D1 D8 E2 E8 F9 G1 G9
F9 G1 G9
16Y_M2 DDR
2015.10.02 5
LGE Internal Use Only
LED DRIVER BLOCK
+19V D601 BR210 100V
L602 33uH
C619 47uF 25V
OPT C626 0.1uF 50V
C623 10uF 25V
C628 100V 220pF
+3.3V_NORMAL
IC601 MP3378E
R623 100
[EP]GND
OPT C629 100V 220pF
PWM_DIM
+3.3V_NORMAL
R608 10K
R616 200K 1%
OSC
R614
R617
ISET
560 1%
6.8K 1%
ADIM
OPT C601 0.1uF 50V
LED4
LED3
LED2
LED1 R611 270K
OVP
R612 8.2K 1%
C NPN_KEC Q601-*1
B
27
3
26
4
25
5
24
6
23
7
22
8
21
9
20
PWM
R635 22
R622 100K
C614 1000pF 50V
R630 3K R628 1K
EN1
VCC1
VIN1
Close to IC C611 16V +19V 1uF
R621 270 1%
C606 1000pF 50V
NC_1
NC_2
+3.4V_ST
10
19
11
18
12
17
13
16
C620 1000pF 50V
C618 0.47uF 50V
C613 1uF 25V
D R629 10
GATE
R633 100
ISENSE R631 5.1K
SYNC
C622 1000pF 50V
BST
R609 10K R638 10K OPT
P600
R639 10K
EN2 OPT C604 0.1uF 16V
B Q601 NPN_NXP
OPT R615 47K
Close to IC
VCC2
GND2_2
R620 100
GND2_1
C615 0.1uF 50V
R634 0.1 1% 1W
R632 10K
L601 15uH
SW
E
14
15
VIN2
Close to IC C612 1uF 25V
C608 0.1uF 16V R619 51K
R610 10K
1
S
AGND
+19V
C R640
SMAW200-04
Q602 AOD2922
G
+12V FB
R607 10K
+3.4V_ST
10K
R637 22 OPT
R627 100K
E
RL_ON
R636 22
INV_CTL
C617 4700pF 50V
COMP
Close to IC
1/8W 1%
ZD601 33V OPT
2
28 29
R613 20K 1%
1 THERMAL
GND1
C616 10uF 25V
R624 33K 1%
C621 10uF 16V
C624 10uF 16V
C625 10uF 16V
C627 0.1uF 16V
R625 5.1K 1%
R626 2.7K 1%
POWER_ON/OFF2_3 OPT
2
3
4
VOUT#2 C607 4.7uF 50V
C602 4.7uF 50V
R618 100K 1/8W
C603 33uF 100V
R641 1/10W 1
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
C605 1uF 50V OPT R642 1/10W 1
M2 LED_DRIVER
2015/07/17 6 LGE Internal Use Only
POWER FROM ADAPTOR 19V PANEL_POWER
+19V to +3.5V_STANDBY
Power_DET
Q2302 Change: Diodes --> NXP 131118 IC402 MP2315GJ
+19V
2
2
1
1
D471 20V
SW
6
4
5
VCC TDK_1st L471 4.7uH
EN/SYNC
BST
C482 10uF 10V
20130528 cJ.LIM R477 68
R479 20K
C479 0.1uF 25V
C476 0.1uF 50V
CYNTEC_2nd L471-*1 4.7uH
C484 10uF 10V
OPT C492 10uF 10V
C489 10uF 10V
C487 10uF 10V
OPT C493 10uF 10V
C485 0.1uF 25V
R486 560
C2321 0.1uF 50V
2013.08.07 5.6B->5V READY->APPLY TVS_NXP_1st D470 5V
1%
36K
C2334 10uF 25V
AOS_2nd Q2302-*1 AO3435
3
2
R2328 5.1K 1% 1/16W
C2344 0.1uF 25V
R2316 10K
PANEL_CTL
1% TVS_KEC_2nd D470-*1
not to RESET at 8kV ESD
KIC7529M2 C
560
VCC
NPN_NXP_2nd
Q2301 MMBT3904(NXP)
B
OPT C2323 4.7uF 10V
R2315 10K
R488
POWER_DET C2359 0.1uF 16V
GND
P_DET_KEC_2nd IC2306-*1
1.3K
R2344 100
RESET
1
R2319 150K
R487 X5R => X7R To improve CST Issue 2013.12.21 by GH.Song
C2326 0.1uF 50V
R2318
VCC
LVDS_DISCHARGE R2321 C2333 3.3K 10uF 25V
D
7
3
GND
8
S
C474 0.1uF 25V
C473 10uF 25V
C471 68uF 35V
3A
2
OPT R2345 10K
APX803E29
G
GND
1
IN
D
1/16W 1%
19V
+3.4V_ST
P_DET_DIODES_1st IC2306
R2327 22K 1% 1/16W
Q2302 SSM3J332R
L2307 UBW2012-121F
S
JP402 JP-BLOCK-DC_JACK 4
R485 56K
FB
G
4
AAM
PESD5V0S1UA
R471 39K
R2339 100K
PANEL_VCC Toshiba_1st
JK400 KJA-DC-1-0032
+12V
+3.4V_ST
R478 100K
+19V
3
2
GND
C
E
OUT
1
NPN_KEC_1st Q2301-*1 2N3904S
B
1% E
+19V
BLM18PG121SN1D
C2305 10uF 25V
+1.10V_CORE
IC2301 MP8765GQ
L2306
C2306 10uF 25V
VIN C2314 0.1uF 50V
PGND
NC_1 R2332 100K
PG
1
16
2
15
3
SW_4
13
5
12
Vout=0.6*(1+R1/R2)
AGND
14
4
VID_CTRL
SW_3
+3.3V_SB VID
R2337 10K
EN
POWER_ON/OFF2_1
R2307 47K 1%
+3.4V_ST NC_2 OPT R2330 100K
MODE
R2331 0
VOUT
C2316 0.1uF 16V
SW_1
6
FB
10
8
9
C2336 1uF 10V
VCC
11
7
R2320 10K
VID R2343 510
BST
C2337 0.22uF 16V
SW_2
C2343 220pF 50V
R2342 820K
R2336 4.7
R1
R2
R2346 8.2K 1%
R2347 12K 1%
D +1.10V_VDDC
Q2307-*1 2N7002KA KEC_2nd S
D G
S
L2310 2uH
C2346 C2348 C2360 C2361 C2363 10uF 10uF 10uF 10uF 10uF 10V 10V 10V 10V 10V
OPT ZD2303 2.5V
R2317 0 VID_CTRL
G Q2307 T2N7002AK Toshiba_1st
R1:8.2K/R2:12K//47K, V=1.1V(VID_CONTROL=HIGH) R1:8.2K/R2:12K, V=1.0V(VID_CONTROL=LOW)
+5.0V normal & USB +1.5V DDR +3.4V_ST
5
3
4
POWER_ON/OFF2_4
FB R2354 33K 1/16W 1%
R2350 33K 1/16W 1%
C2371 0.1uF 25V
R2353 15K 1/16W 1%
R2355 47K 1/16W 1%
C2315 0.1uF 16V
1
PVIN_2
2
PGND_1
3
PGND_2
4
R1
BOOT
PGD
13
EN
AVIN
PVIN_1
12 THERMAL 11 17 EAN62870501 10 IC2302 BD9A300MUV 9
3A
R2335 8.2K 1% 1/16W
R2
SW_3 SW_2 SW_1 SS
TDK_2nd L2309-*1 2.2uH
+1.5V_DDR
TAIYO YUDEN_1st L2309 2.2uH NR5040T2R2N
C2339 10uF 10V
C2342 10uF 10V
C2347 10uF 10V
+3.4V_ST C2331 0.01uF 50V R2340 330K OPT R2341 330K
C2338 2700pF 50V
Vout=0.8*(1+R1/R2) Vout=0.8*(1+R1/R2)
+3.3V_NORMAL
+3.3V_SB
+3.3V_NORMAL
+3.4V_ST
FOR DEBUG
22K
S R2311
C2354 2.2uF 10V
22K
C2356 10uF 10V
C2355 10uF 10V
D
E
NPN_KEC_1st Q2303-*1 2N3904S
B
G
C
DVDD18_EMMC IC2300-*1
IC2300 AZ1117EH-ADJTRG1
ZD2304 5V
IN
TJ1117GS-ADJ VIN
OUT
C NPN_NXP_2nd
Q2305 MMBT3904(NXP)
B
AOS_2nd Q2306-*1 AO3435
E B
C NPN_KEC_1st Q2305-*1 2N3904S
C2307 0.1uF 16V
C2308 10uF 10V
C2327 10uF 10V
C2302 10uF 10V
3
2
VOUT
1
R2309 75 LDO_Diodes_1st 1%
R2310 33 1%
D
R2308 10K
+3.3V_NORMAL
3.3V_EMMC
ADJ/GND
S
Q2303 MMBT3904(NXP)
B
AOS_2nd Q2304-*1 AO3435
+1.8V - eMMC 4.51
L2302 BLM18PG121SN1D
G
POWER_ON/OFF1 C NPN_NXP_2nd
S
POWER_ON/OFF2_3
C2353 0.1uF 25V
+3.3V_NORMAL
R2338 2.2K R2306 2.2K
R2303 10K
C2352 10uF 10V
G
D
C2304 10uF 10V
C2330 10uF 10V
ZD2301 5V
C2301 2.2uF 10V
R2305
R2349 18K 1/16W 1%
D
Toshiba_1st
S C2303 0.1uF 25V
R2
+3.3V-eMMC 4.41/4.51
Q2306 SSM3J332R
L2311 UBW2012-121F
Q2304 SSM3J332R
G
C2300 10uF 10V
R2348 16K 1/16W 1%
+3.3V_SB
Toshiba_1st UBW2012-121F OPT
R1
+3.4V_ST
L2313
L2300 UBW2012-121F
OPT ZD2302 2.5V
C2357 10uF 10V
ADJ/GND C2309 10uF 10V
C2310 10uF 10V
OPT
C2370 10uF 25V
2
R2352 10K
EN
C2311 10uF 10V
C2329 0.1uF 16V
ZD2300 2.5V
IN
BST
5
L2317 120-ohm
6
AGND
SW
1
POWER_ON/OFF2_2
8
R2351 0 GND
15
L2304 BLM18PG121SN1D
C2376 10uF 10V
16
C2375 10uF 10V
6
C2374 10uF 10V
FB
C2373 10uF 10V
[EP]FIN
C2372 1uF 10V
IC2307 MP1471AGJ-C667
OPT C2328 0.1uF 16V
R2334 10K
MODE
TDK_1st L2316 4.7uH
14
+5V_NORMAL
7
CYNTEC_2nd L2316-*1 4.7uH
ITH
+12V
LDO_TAEJIN_2nd
Vout=1.25*(1+R2/R1)+Iadj*R2
E
E
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
M2 POWER
2015/07/07 23 LGE Internal Use Only
Renesas MICOM For Debug +3.4V_ST
2
50V 15pF C3003
R3007 10K OPT
MODE_SELECT
X3000
MICOM_DEBUG
MICOM_RESET
4
32.768KHz
C3005 2.2uF 10V
3
RETENTION_DISABLE
R3011 R3008 10K OPT
MODE_SELECT
+3.4V_ST
4.7M OPT
REGC
P121/X1
P122/X2/EXCLK
P137/INTP0
P123/XT1
P124/XT2/EXCLKS
RESET
P40/TOOL0
P41/TI07/TO07
P120/ANI19
46
45
44
43
42
41
40
39
38
37
1
36
P140/PCLBUZ0/INTP6
2
35
P00/TI00/TXD1
P62
3
34
P01/TO00/RXD1
33
P130
IC3000
32
P20/ANI0/AVREFP
R5F100GEAFB#30
31
P21/ANI1/AVREFM
4 5
P75/KR5/INTP9/SCK01/SCL01
6
P74/KR4/INTP8/SI01/SDA01
7
30
P22/ANI2
P73/KR3/SO01
8
29
P23/ANI3
POWER_ON/OFF2_2
P27/ANI7
R3026 0 OPT
-
UD
C
8K
B
Q3001 NPN_NXP_2nd
MODEL_OPT_3 FHD MODEL_OPT_3 UD/8K
M16
M16
-
RTK
A5LR
H15
R3025 10K SOC_RESET_MICOM
E
M2
C
Q3001-*1 NPN_KEC_1st
B
E
24 P147/ANI18
P146
P10/SCK00/SCL00
TP3003
For CEC +3.4V_ST
R3016 120K
R3015 27K G
FHD
R3027 100 SOC_RESET
MODEL1_OPT_3 TP3004
EDID_WP
MODEL_OPT_2
BOX
AMP_MUTE
TV
R3024 10K OPT
P11/SI00/RXD0/TOOLRXD/SDA00
MODEL_OPT_1
R3028 10K
SOC_RX
LOGO / OLED
SOC_TX
NON LOGO / OLED
P12/SO00/TXD0/TOOLTXD
LOGO / LCD
PANEL_CTL
NON LOGO / LCD
SOC_RESET_MICOM
11 (3.0V)
MODEL1_OPT_2
TP3001
10 (2.27V)
WOL/ETH_POWER_ON
MODEL_OPT_0
01 (1.53V)
P13/TXD2/SO20
+3.4V_ST
+3.3V_SB
00 (0.72V)
P14/RXD2/SI20/SDA20
MICOM MODEL OPTION
P15/PCLBUZ1/SCK20/SCL20
13 P50/INTP1/SI11/SDA11
+3.3V_NORMAL
23
25 22
12
WOL/WIFI_POWER_ON
R3023 75K
EYE_SENSOR
R3021 2.7K
AR3000 3.3K 1/16W
R3019 2.7K
21
P26/ANI6
20
26 19
11 18
P70/KR0/SCK21/SCL21 EYE_SCL
17
P25/ANI5
16
27
15
10
P30/INTP3/RTC1HZ/SCK11/SCL11 R3003 2.7K
MODEL1_OPT_0 MODEL1_OPT_1
P24/ANI4
P16/TI01/TO01/INTP5
3.0V
KEY1
28
EYE_SDA
MODEL1_OPT_3
KEY2
9
P72/KR2/SO21 0.72V
INSTANT_BOOT
33
POWER_ON/OFF2_1
P71/KR1/SI21/SDA21
POWER_ON/OFF2_3
MODEL1_OPT_2
POWER_ON/OFF1
0.72V
POWER_DET
MODEL1_OPT_1
HDMI_CEC
14
R3006 100
0.72V
R3029
POWER_ON/OFF2_4
P63
IR
MODEL1_OPT_0
RL_ON
P31/TI03/TO03/INTP4 PWM1
P17/TI02/TO02
R3022 10K
P51/INTP2/SO11
R3020 10K
WIFI_EN
P61/SDAA0
INV_CTL R3018 10K
3
P60/SCLA0
+3.4V_ST
R3001 10K
1
4
D3000 CEC_BAT54_SUZHO_2nd D
CEC_REMOTE
HDMI_CEC
Q3000 SSM3K56FS CEC_FET_TOSHIBA_1st
D3000-*1 CEC_BAT54_TSC_1st
S
G
+3.3V_SB
R3010 10K
D
I2C_SDA3
2
S
C3001 AR3001 33 I2C_SCL3
R3012
VSS 47
0.47uF
VDD
C3000 0.1uF
MICOM MODEL OPTION
C3004 0.1uF 16V
48
+3.4V_ST
MICOM_RESET_SW SW3000 JTP-1127WEM 270K OPT
33
GND
R3014
R3013
10K
5
MICOM_DEBUG
PWM1
1
R3004 10K
LED_R
15pF 50V 15pF C3002
+3.3V_SB
Don’t remove R3016, not making float P40
MICOM_RESET
12507WS-04L
R3005 1K
P3000
R3002 10K
MICOM_DEBUG
MICOM_DEBUG
18pF C3002-*1 18pF 50V
Q3000-*1 RUE003N02 CEC_FET_ROHM_2nd
0 R3017 WOL/ETH_POWER_ON
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
WOL_WAKE_UP_SOC
16Y_M2 MICOM
2015.09.02 30
LGE Internal Use Only
HDMI2_REAR
HDMI1_REAR (ARC)
C C Q3200-*1 2N3904S HPD_TR_KEC 5V_HDMI_1
Q3202-*1 2N3904S HPD_TR_KEC
B
B
E E
5V_DET_HDMI_3 5V_DET_HDMI_1 R3214 R3216
R3202 33
R3211 33
R3203 4.7K HDMI_INT_EDID
OPT
Q3200
VA3206 AMOTECH_2nd
B 1K
MMBT3904(NXP) HPD_TR_NXP E
HDMI_HPD_5V_1
19 18 17 16
R3213 4.7K HDMI_EXT_EDID
AR3234 100 1/16W
18 VA3203 AMOTECH_2nd
11 10 9 8 7 6 5 4 3 2 1
VA3204-*1 INNOCHIPS_1st
VA3204 AMOTECH_2nd
VA3206-*1 INNOCHIPS_1st
HP_DET 19
17
DDC_DATA
16
DDC_CLK
15
HDMI_HPD_5V_3
R3210
AR3208 100 1/16W
5V
DDC_SCL_3 DDC_SDA_3
GND VA3207 AMOTECH_2nd
DDC_DATA
VA3208 AMOTECH_2nd
DDC_CLK
VA3207-*1 INNOCHIPS_1st
VA3208-*1 INNOCHIPS_1st
ARC HDMI_ARC
14
ARC
CE_REMOTE
13 CEC_REMOTE
VA3209 ESD_HDMI
CKCK_GND AR3232 5.1 1/16W
CK+ D0-
CK-_HDMI1 CK+_HDMI1
D0_GND D0+
12 EAG59023302
EAG59023302
12
20 VA3203-*1 INNOCHIPS_1st
5V GND
ARC
13
B 1K
SHIELD
DDC_SCL_1 DDC_SDA_1
15 14
Q3202
HPD_TR_NXP E
ICVL0518100Y500FR_ VA3201-*1 INNOCHIPS_1st
HP_DET
R3208 100K
MMBT3904(NXP)
R3204
SHIELD 20
R3212 4.7K HDMI_INT_EDID
OPT C
C R3201 100K
VA3201 AMOTECH_2nd
R3215
3.3K
R3217
R3200 1K
VA3200 ESD_HDMI
R3209 1K
VA3205 ESD_HDMI
3.3K
1.8K
1.8K
11 10 9 8
D0-_HDMI1
7
D0+_HDMI1
6
D15 D1_GND 4
AR3233 5.1 1/16W
D1+ D2-
3 D1-_HDMI1 D1+_HDMI1
D2_GND
2 1
CE_REMOTE CEC_REMOTE CKCK_GND CK+
AR3205 5.1 1/16W
CK-_HDMI3 CK+_HDMI3
D0D0-_HDMI3
D0_GND
D0+_HDMI3 D0+ D1D1_GND D1+ D2-
AR3206 5.1 1/16W
D1-_HDMI3 D1+_HDMI3
D2_GND D2-_HDMI3 D2+
D2+_HDMI3
D2+ D2-_HDMI1 JK3201
D2+_HDMI1
YKF45-7058V
JK3202 YKF45-7058V
A2
A1
+5V_NORMAL
C
MMBD6100 D3201
AR3231 4.7K
E
DDC_SDA_3 B DDC_SCL_3 C
AT24C02C-SSHM-T
A0
A1
A2
GND
1
8
2
7
3
6
4
5
MMBD6100 D3200
EDID_WP B
C
E EXT_EDID_TR_NXP MMBT3904(NXP) Q3201 HDMI_EXT_EDID_ATMEL C IC3201
+5V_NORMAL
A1
5V_HDMI_1
A2
2N3904S Q3201-*1 EXT_EDID_TR_KEC
HDMI_EXT_EDID R3205 4.7K VCC
WP
SCL
SDA
AR3207 4.7K HDMI_EXT_EDID AR11202 33 DDC_SCL_1 DDC_SDA_1
HDMI_EXT_EDID_ROHM
IC3201-*1 BR24G02FJ-3GTE2 A0
A1
A2
GND
1
8
2
7
3
6
4
5
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
VCC
WP
SCL
SDA
L16_SS HDMI_R2
2015/08/15 033 LGE Internal Use Only
HP OUT
SPDIF OUT SPDIF-FOXCONN_1st
+3.3V_NORMAL
JK3400-*1 2F01TC1-CLM97-4F
1
SPDIF_OUT VINPUT
RIN1
DOUT1
TP3401
DOUT1
+3.3V_NORMAL
B50(512-10)F4-03A-A013-B52
PEJ034-01 E_SPRING
3
R_SPRING
4
T_SPRING
5
E_SPRING
3
R_SPRING
4
T_SPRING
5
R3404 HP_OUT_ONLY 0
HP_LOUT
R3405 HP_OUT 100
FIX_POLE
SHIELD
HP_DET
SPDIF_OPTIC C3401 18pF 50V
OPT C3400 1uF 10V ESD Ready
R3406 10K HP_OUT
R3403 HP_OUT_ONLY 0
HP_ROUT
4
4
JST1223-001 JK3400
3
VCC
2
2
GND
3
VIN
1
Fiber Optic
VCC
TP3400
JK3402
SPDIF-SOLTEAM_2nd
Fiber Optic
GND
RIN1
KSD_2nd JK3402-*1
PARK ELECTRONICS_1st
B_TERMINAL2
7B
T_TERMINAL2
6B
B_TERMINAL2
7B
T_TERMINAL2
6B
HP_OUT_VARISTOR_INNOCHIPS_1st HP_LINE_OUT R3403-*1 150
HP_LINE_OUT R3404-*1
VA3408 5.6V
VA3400 5.6V
VA3409 5.6V
150 VA3408-*1 5.6V
HP_OUT_VARISTOR_AMOTECH_2nd VA3400-*1 5.6V
VA3409-*1 5.6V
HP_OUT_VARISTOR_AMOTECH_2nd
Internal HP OUT
SOC_TX
3
3
4
4
HP_OUT L3401 BLM15PX121SN1 HP_LOUT HP_OUT C3424 4.7uF 10V
HP_OUT C3425 0.22uF 10V
VCC
RX
GND
5 TX
HP_OUT 22uF C3402
2
HP_OUT C3423 0.22uF 10V
16V
2
HP_OUT C3422 4.7uF 10V
HP_ROUT_SOC
22uF C3403
OPT R3416 10K
1
HP_OUT
SOC_RX
1
16V
HP_ROUT R3402 10K OPT
1K
HP_OUT L3402 BLM15PX121SN1 R3412 HP_OUT
12525HS-04A(1.2T)
P3400 12507WS-04L
1K
OPT P3401
R3413 HP_OUT
+3.4V_ST
HP_LOUT_SOC
JP-BLOCK-RS232C JP11205
Place at JACK SIDE
UART for Debug
AV/COMPONENT REAR JK3401 PPJ245-31 6E 5E 4E
[RD2]O-SPRING
COMP_VARISTOR_INNOCHIPS_1st VA3410 5.6V
R3417 470K
[WH]O-SPRING
4C
[RD1]CONTACT
5C
[RD1]O-SPRING
7C
[RD1]E-LUG-S
5B
[BL]O-SPRING
4A
[GN/YL]CONTACT
5A
[GN/YL]O-SPRING
COMP2_R_IN
R3424 12K
330pF C3404 R3423 10K
[RD2]CONTACT
5D
6A
R3422 10K
[RD2]E-LUG
COMP_VARISTOR_INNOCHIPS_1st VA3411 5.6V
R3418 470K
COMP2_L_IN
R3425 12K
330pF C3405
+3.3V_NORMAL R3426 10K
R3428 1K COMP2_DET
COMP_VARISTOR_INNOCHIPS_1st
R3409 0
VA3416 5.6V
COMP2_Pr+ COMP_VARISTOR_INNOCHIPS_1st VA3412 5.5V
R3419 75
OPT C3407 27pF 50V R3408 0
OPT C3408 27pF 50V
R3420 75
OPT C3409 27pF 50V
OPT C3410 27pF 50V
COMP2_Pb+
[GN/YL]E-LUG
COMP_VARISTOR_INNOCHIPS_1st VA3413 5.5V COMP_VARISTOR_INNOCHIPS_1st VA3414 5.6V
VA3416-*1 5.6V COMP_VARISTOR_AMOTECH_2nd
+3.3V_NORMAL R3429 1K
R3427 10K
AV_CVBS_DET
OPT C3406 0.1uF 16V
R3407 0
COMP2_Y+/AV_CVBS_IN VA3411-*1 5.6V
VA3414-*1 5.6V
COMP_VARISTOR_INNOCHIPS_1st VA3415 5.5V
R3421 75 3216 R3430
OPT C3412 27pF 50V
0
DTV/MNT_VOUT VA3412-*1 5.5V
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
VA3413-*1 5.5V
VA3415-*1 5.5V
COMP_VARISTOR_AMOTECH_2nd
C3420 390pF 50V DTV/MNT_VOUT
PLACE CLOSE TO JACK
C3421 390pF 50V DTV/MNT_VOUT
PLACE CLOSE TO SOC
M2_Simple Smart JACK
1/4W 1% DTV/MNT_VOUT
VA3410-*1 5.6V
OPT C3411 27pF 50V
R3431 75
COMP_VARISTOR_AMOTECH_2nd
DTV/MNT_VOUT
2015.07.07
34
LGE Internal Use Only
IR
OCP
+3.4V_WIFI
+3.4V_ST
L4000 Delete for voltage drop
TJ2242GSF6 C4013 10uF 10V
R4004 100
R4009 10K
R4001 33
C4001 0.1uF 16V IR
+3.4V_ST
GND
WOL/WIFI_POWER_ON
IR C4010 100pF 50V
1
2
3
4
5
6
7
8
9
10
11
12
13
14 15
LED_R R4011 1.8K
OPT C4011 0.1uF 16V
+3.4V_WIFI
IC4001
P4001 SMAW200-H14S5K C4007 10uF 10V
C4005 0.1uF 16V
IN +3.4V_ST R4005
C4012 0.1uF 16V
2.2 WIFI_DM
R4007
2.2 WIFI_DP
OPT OPT C4008 C4004 5pF 5pF 50V 50V Place Near Wafer
OPT D4001 RCLAMP0502BA
R4013 100
R4010 10K 5%
EN
WIFI_EN
KEY1 KEY2
+3.4V_ST
GND R4015 33
OPT R4014 10K
1
6
2
5
3
4
OUT
ILIMIT
C4014 0.1uF 16V
R4002 3.3K
R4016 14K 1/16W 1%
FLAG
ILIM 1.036A
OPT C4006 0.1uF OPT C4002 1000pF 50V
IR_PROTO IR_PROTO IC4000 AO-R123C7G-LG +3.4V_ST G
V
O
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
GND
VS
IR_PROTO R4000 330
OUT
IR_PROTO R4003 47 IR
M2 IR/KEY/WIFI
2015/07/07 40 LGE Internal Use Only
USB REAR MAX 1.5A +5V_USB_1
OCP USB2_2.0 JK5001 KEC_2nd ZD4301-*1 5V
NXP_1st ZD4301 5V
OPT C4301 10uF 10V
C4303 10uF 10V
C4305 10uF 10V
C4307 10uF 10V
US-04A-VSD
C4309 10uF 10V
+5V_USB_1
+5V_NORMAL IC4301 1
R4300 2.2
2
USB_DM1 R4301 2.2
4 JP4301 JP-BLOCK-USB DM
VBUS
DP
GND
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
IN C4310 0.1uF 16V
3
USB_DP1 OPT D4302 RCLAMP0502BA
TJ2242GSF6
GND
EN USB_CTL1 5
OPT R4304 10K
1
6
2
5
3
4
OUT
+3.3V_NORMAL
ILIMIT R4306 4.7K
value change 10K(2.63V) --> 4.7K(2.97V)
FLAG /USB_OCD1 R4308 10K 1%
ILIM 1.38A
L16_SS
2015/08/15
USB_R1
044 LGE Internal Use Only
Ethernet Block
C5000 0.1uF 16V
HONGLIN_3rd
Freeport_2nd
JK5000-*2
JK5000-*1
2
3
4
5
6
7
8 9
JK5000
26TM9G-30100-02HF
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
1 EPHY_TDP 2
3 EPHY_TDN 4 EPHY_RDP 5
6 EPHY_RDN 7
8
D5000
D5001
5.5V LAN_ESD
5.5V LAN_ESD
D5002 5.5V LAN_ESD
D5003 5.5V LAN_ESD
9
9 9
RJ45VT-01SN002
9
9
LANJACK-GND
L5002 BLM15PX121SN1
L5001 BLM15PX121SN1
LANJACK-GND
R5002 0
1
UDE_1st
R5001 0
B50(512-10)F4-03A-A013-B52
C5001 0.01uF 50V
For ESD
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
16Y_M2 ETHERNET
2015.09.02 50
LGE Internal Use Only
AUDIO AMP(NTP7515)
**Apply 6PIE PAD for Audio Amp Coil AMP_COIL_TDK_2nd
R5614 100 +19V
L5602-*1 10.0uH
AMP_RESET_N
+19V_AMP
C5624 1000pF 50V
L5600 UBW2012-121F
R5615 4.7K TAIYO YUDEN_1st L5602 10.0uH
+3.3V_NORMAL
SPK_L+
PVDD1B
NTP7515
25
AGND
SDATA
7
24
VDR2
23
BST2A
22
PGND2A
21
OUT2A
0x54
9
SPK_LC5610 22000pF 50V
AMP_COIL_TDK_2nd L5605-*1 10.0uH
SPK_L+
SPK_LC5616 1uF 10V
C5617 1uF 10V
C5611 22000pF 50V
Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
2
SPK_R-
1
AMP_COIL_TDK_2nd L5603-*1 10.0uH
Black : Box_Type AMP_COIL_TAIYO_1st L5603 10.0uH SPK_R+ NRS6045T100MMGK +19V_AMP
4.7K
C5623
R5613
0.1uF 50V
4.7K
M2 AMP
AD
RESET
BST1A
PGND1A
OUT1A
PVDD1A
PVDD1B
35
34
33
32
31 30
OUT1B
29
PGND1B
28
BST1B
27
VDR1
5
NTP7515D IC5600-*1
26
NC_5
DVDD
6
NTP7515D
25
AGND
SDATA
7
24
VDR2
WCK
8
23
BST2A
NC_4
9
22
PGND2A
10
21
OUT2A
17
18
19
20
PGND2B
OUT2B
PVDD2B
PVDD2A
4
NC_3
16
3
GND
BST2B
NC_2
THERMAL 41
15
2
MONITOR_2
1
14
NC_1 VDD_PLL
MONITOR_1
WOOFER_MUTE
36
AMP_COIL_TDK_2nd
CLK_I
SPK_RNRS6045T100MMGK
37
SPEAKER_R
GND_IO
AMP_COIL_TAIYO_1st L5604 10.0uH
R5612
0.1uF 50V
38
R5609 3.3 1/10W
C5622
13
C5619 0.47uF 50V
C5614 390pF 50V
MONITOR_0
C5609 10uF 25V
VDD_IO
R5608 3.3 1/10W
SDA
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
3
SPK_R+
L5604-*1 10.0uH
TP5600
4
39
POWER_DET
P5600 WAFER-ANGLE
12
OPT R5604 100
C5607 22000pF 50V
SPEAKER_L
FAULT
WOOFER_MUTE
E
4.7K
NRS6045T100MMGK
C5615 390pF 50V
C5603 1000pF 50V
R5611
20 PVDD2A
19 PVDD2B
18 OUT2B
17 PGND2B
16
15 MONITOR_2
14 MONITOR_1
11
13
10
E
C5613 390pF 50V R5607 3.3 1/10W AMP_COIL_TAIYO_1st L5605 10.0uH
[EP]GND
8
C5621 0.1uF 50V
4.7K
C5618 0.47uF 50V
31
PVDD1A 32
OUT1A 33
PGND1A 34
35
RESET
6
Q5600-*1 2N3904S
C AMP_MUTE_NXP_TR_2nd Q5600 MMBT3904(NXP)
36
DVDD
R5610
40
B
AD
NC_5
C5620 0.1uF 50V
11
R5600 10K
37
26
R5605 100
AMP_MUTE
CLK_I
NTP7515 IC5600
AMP_MUTE_KEC_TR_1st C B
GND_IO
5
C5604 33pF 50V
R5601 10K
VDR1
NC_3
SCL
+3.3V_NORMAL
28
BST1B
27
I2C_SCL1 C5602 33pF 50V
29
PGND1B
4
SDA
I2C_SDA1
OUT1B
GND
NC_4 AR5601 100
30
3
WCK
AUD_LRCK
THERMAL 41
MONITOR_0
AUD_LRCH
2
C5612 390pF 50V
C5608 10uF 25V
NC_2
12
C5601 1uF 10V
1
FAULT
OPT C5600 1uF 10V
VDD_PLL
R5606 3.3 1/10W
+19V_AMP
SCL
NC_1
38
40
16V
39
0.1uF
VDD_IO
[EP]GND
C5605
BST1A
C5606
AUD_SCK
BST2B
L5601 BLM18PG121SN1D
22000pF 50V
NRS6045T100MMGK
2015/07/07 56 LGE Internal Use Only
FE_DEMOD1_TS_ERROR
R651 33 I2C_SCL2_TU
I2C_SCL2
C6506 47pF 50V
I2C_SDA2_TU
Ground Width >= 24mils 1. should be guarded by ground 2. No via on both of them 3. Signal Width >= 12mils Signal to Signal Width = 12mils
+3.3V_TUNER
33 I2C_SDA2
R652
TU_CVBS_220ohm
C6503 47pF 50V
R6516-*1 220 C6520 0.1uF 16V
+3.3V_TUNER
close to Tuner
R6517-*1 220
TU_CVBS_200ohm R6516 R6517 200 200
+3.3V_NORMAL TU_CVBS OPT R6525 0
C6500 0.1uF
B
E CVBS_TR_NXP_2nd Q6501 MMBT3906(NXP) B C
L6504 BLM15PX121SN1
R6501 0 +3.3V_LNA_TU
E CVBS_TR_KEC_1st Q6501-*1 2N3906S-RTK C
OPT R6507 0
TU_CVBS_TU
close to Tuner IF_FILTER IF_AGC_TU
LH60_1Kohm 1K R6506
C6502 0.1uF 16V
C6501 10uF 10V
+3.3V_TUNER
IF_AGC
R6523 470
LH57_100ohm R6506-*1 100
R6524 82 TU_SIF
C6521 0.1uF 16V
IF_NON_FILTER R6502-*1 IF_FILTER 0 R6502 47
R6503-*1 0 IF_P_TU
C6510 10pF OPT
IF_N_TU
R6503 47
C6511 IF_FILTER 10pF OPT
R6522 4.7K
Q6502 2N3906S-RTK SIF_TR_KEC_1st
B C
E
B C
C6504 33pF should OPT
SIF_TR_NXP_2nd Q6502-*1 MMBT3906(NXP)
IF_P be guarded by ground,Match GND VIA IF_N
C6505 33pF OPT TU_N/D R6505 100
TU_N/D /TU_RESET1_TU
C6522 10uF 10V
E
TU_SIF_TU IF_NON_FILTER
+3.3V_TUNER
/TU_RESET1
C6507 16V 0.1uF
+3.3V_TUNER
TU_N/D R6504 0 C6509 0.1uF TU_N/D
+3.3V_TU
close to Tuner
TS_AR_0ohm AR6500 0 1/16W FE_DEMOD1_TS_ERROR_TU
FE_DEMOD1_TS_ERROR
FE_DEMOD1_TS_CLK_TU
FE_DEMOD1_TS_CLK
FE_DEMOD1_TS_SYNC_TU
FE_DEMOD1_TS_SYNC FE_DEMOD1_TS_VAL
FE_DEMOD1_TS_VAL_TU TS_AR_47ohm AR6500-*1 47
TS_AR_0ohm AR6501 0 1/16W FE_DEMOD1_TS_DATA_TU[0]
FE_DEMOD1_TS_DATA[0]
FE_DEMOD1_TS_DATA_TU[1]
FE_DEMOD1_TS_DATA[1] FE_DEMOD1_TS_DATA[2]
FE_DEMOD1_TS_DATA_TU[2] FE_DEMOD1_TS_DATA_TU[3]
FE_DEMOD1_TS_DATA[3] TS_AR_47ohm AR6501-*1 47
TS_AR_0ohm AR6502 0 1/16W FE_DEMOD1_TS_DATA_TU[4]
FE_DEMOD1_TS_DATA[4]
FE_DEMOD1_TS_DATA_TU[5]
FE_DEMOD1_TS_DATA[5]
FE_DEMOD1_TS_DATA_TU[6]
FE_DEMOD1_TS_DATA[6]
FE_DEMOD1_TS_DATA_TU[7]
FE_DEMOD1_TS_DATA[7] TS_AR_47ohm AR6502-*1 47
F_NIM/MCP
IN
F_NIM/MCP C6700 0.1uF
C6703 10uF 10V
2
8
3
7
6
R1
GND
R2
FB
OUT
C6708 0.01uF 50V
10K 10.5K R6706-*1 R6705-*1 TU_N/D_1.2V TU_N/D_1.2V
L6700 BLM15PX121SN1
1
9
EN
THERMAL
POK
R6700 F_NIM/MCP
4.7K R6705
[EP]GND
10K
+3.4V_ST
F_NIM/MCP
IC6700 TJ2132GDP
5.1K R6706 F_NIM/MCP
D_Demod_Core F_NIM/MCP
POWER_ON/OFF2_3
F_NIM/MCP BIAS
+5V_NORMAL
F_NIM/MCP
4
2A
5
SS
C6707 2700pF 50V F_NIM/MCP
F_NIM/MCP C6709 10uF 10V
C6705 1uF 10V F_NIM/MCP
Vout=0.6*(1+R2/R1)
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
16Y_M2 TUNER_1
2015.09.02 65
LGE Internal Use Only
TU_KR/US
TU_AJ/JA
TU6703 TDJS-H301F
TU6700 TDJS-G301D
1 2 3 4 5 6 7 8
SCL_RF
1
SDA_RF
2
B1[+3.3V_RF]
3
CVBS
4
IF_AGC
5
SIF
6
IF[N]
7
IF[P]
9
8 9
SHIELD
TU_CHINA
TU_TW/BR
TU6702 VA4S1BD5410
SCL_RF
1
SDA_RF
2
B1[+3.3V_RF]
3
CVBS
4
IF_AGC
5
SIF
6
IF[N]
7
IF[P]
8
TU6701 TDJN-C301D
SCL
1
SDA
2
B1[+3.3V]
3
CVBS
4
IF_AGC
5
SIF
6
IF[N]
7
IF[P]
8 9
9 SHIELD
10
SHIELD
11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
SCL_RF I2C_SCL2_TU
SDA_RF I2C_SDA2_TU
B1[+3.3V_RF] +3.3V_LNA_TU
CVBS TU_CVBS_TU
IF_AGC IF_AGC_TU
SIF TU_SIF_TU
IF[N] IF_N_TU
IF[P] IF_P_TU
GND RESET_DEMOD /TU_RESET1_TU
B2[+3.3V_DEMOD] +3.3V_TU
NC B3[+1.2V_DEMOD] D_Demod_Core
ERROR FE_DEMOD1_TS_ERROR_TU
MCLK FE_DEMOD1_TS_CLK_TU
SYNC FE_DEMOD1_TS_SYNC_TU
VALID FE_DEMOD1_TS_VAL_TU
D0 FE_DEMOD1_TS_DATA_TU[0]
D1 FE_DEMOD1_TS_DATA_TU[1]
D2 FE_DEMOD1_TS_DATA_TU[2]
D3 FE_DEMOD1_TS_DATA_TU[3]
D4 FE_DEMOD1_TS_DATA_TU[4]
D5 FE_DEMOD1_TS_DATA_TU[5]
D6 FE_DEMOD1_TS_DATA_TU[6]
D7 FE_DEMOD1_TS_DATA_TU[7]
26 SHIELD
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
16Y_M2 TUNER_2
2015.09.02 67
LGE Internal Use Only
LVDS
[30Pin LVDS Connector] +3.3V_NORMAL P7201 10031HR-30
OPT R8120 3.3K
1 2 3
NON_AGP R8118-*1 AGP 0 R8118 2.2K
AGP R8119 1.8K
OPT R8121 3.3K AGP
VCOM AR7201 0 I2C_SDA1
4
I2C_SCL1
5 6
TXA0N
7
TXA0P
8 9
TXA1N
10
TXA1P
11 12
TXA2N
13
TXA2P
14 15
TXACLKN
16
TXACLKP
17 18
TXA3N
19
TXA3P
20 21 22 23 24 25
PANEL_VCC
26 27 28 29 30 31
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
HD_LVDS L16_SS
2015/08/15 073 LGE Internal Use Only
eMMC I/F
R8117 10K
1/16W 10K AR8103
1/16W 10K AR8104
R8116 10K
3.3v power delete, 131120
DVDD18_EMMC
EMMC_HYNIX
IC8100 THGBMBG5D1KBAIL EMMC_DATA[0-7]
AR8100 0 1/16W
EMMC_DATA[0] EMMC_DATA[1]
A3
EMMC_DATA[2]
A4
EMMC_DATA[3]
A5
EMMC_DATA[4]
B2
EMMC_DATA[5]
B3
EMMC_DATA[6]
B4 B5
EMMC_DATA[7]
B6 0
R8104
0
R8105
0
R8106
0
R8107
C8 DAT0
NC_23
DAT1
NC_24
DAT2
NC_25
DAT3
NC_26
DAT4
NC_27
DAT5
NC_28
DAT6
NC_29
DAT7
NC_30 NC_31 NC_32
M6 M5
CLK
NC_33
CMD
NC_34
eMMC V5.0 GND
NC_35 NC_36
A6 A7 C5 AR8102
E5
0
E8
1/16W
E9
EMMC_CLK
E10
DAT7
EMMC_CMD EMMC_RST
F10 G3 G10 H5 J5
OPT
C8107 10pF 50V
K6 K7 EMMC_STRB R8103 10K
K10 P7 P10
VSS_1
NC_37
RFU_2
NC_38
NC_21
NC_39
RFU_4
NC_40
RFU_5
NC_41
VSF_1
NC_42
VSF_2
NC_43
VSF_3
NC_44
RFU_9
NC_45
RFU_10
NC_46
DS
NC_47
VSS_5
NC_48
RFU_13
NC_49
RFU_14
NC_50
RFU_15
NC_51
RFU_16
NC_52
RFU_17
NC_53 NC_54 NC_55
K5 RSTN DVDD18_EMMC
C8100 0.1uF 16V
C6 M4
3.3V_EMMC
N4 P3 P5
EMMC_RESET_BALL
EMMC_CMD_BALL
EMMC_CLK_BALL
DAT5
DAT6
DAT4
DAT3
Bottom OPT C8108 0.1uF 16V
VCCQ_1 VCCQ_2 VCCQ_3 VCCQ_4 VCCQ_5
OPT C8109 2.2uF 10V
C8105 0.1uF 16V
C8106 2.2uF 10V
E6 F5 J10 K9
VCC_1 VCC_2 VCC_3 VCC_4
EMMC_VDDI
Bottom LH57/LH58 C8101 0.1uF 50V
pattern 0.2mm LH60 C8104 2.2uF 10V
C2 VDDI
E7 G5 H10
C8102 0.1uF 16V
LH60 C8103 2.2uF 10V
LH57/LH58 C8111 4.7uF 10V
K8 C4 N2 N5 P4 P6
VSS_2 VSS_3 VSS_4 VSS_6 VSSQ_1 VSSQ_2 VSSQ_3
NC_56
EMMC5.0_4G_TOSHIBA
OPT
NC_57 NC_58 NC_59 NC_60 NC_61 NC_62 NC_63 NC_64 NC_65 NC_66 NC_67 NC_68 NC_69 NC_70 NC_71 NC_72 NC_73 NC_74 NC_75 NC_76 NC_77 NC_78 NC_79 NC_80 NC_81
VSSQ_4
NC_82
VSSQ_5
NC_83 NC_84 NC_85
A2
DAT4
A8
DAT7
A9 A10 A11 A12 A13 A14 B1 B7 B8 B9
DAT6
B10 B11
Don’t Connect Power At VDDI
B12 EMMC_VDDI
DVDD18_EMMC
B13 B14
(Just Interal LDO Capacitor)
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
C1 DAT5
NC_86
A1
DAT3
Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
IC8100-*1 H26M31001HPR
C3 C7
NC_1
NC_87
NC_2
NC_88
NC_3
NC_89
NC_4
NC_90
NC_5
NC_91
NC_6
NC_92
NC_7
NC_93
NC_8
NC_94
NC_9
NC_95
NC_10
NC_96
NC_11
NC_97
NC_12
NC_98
NC_13
NC_99
NC_14
NC_100
NC_15
NC_101
NC_16
NC_102
NC_17
NC_103
NC_18
NC_104
NC_19
NC_105
NC_20
NC_106
NC_22
NC_107
C9
DAT6
A5
C11
B2
C12
B3
C13
B4
C14 D1 D2
A3 A4
C10
B5 DAT5
B6
C8 DAT0
NC_22
DAT1
NC_23
DAT2
NC_24
DAT3
NC_25
DAT4
NC_26
DAT5
NC_27
DAT6
NC_28
DAT7
NC_29
D3
NC_30
D4
NC_31
M6
D12
M5
D13
CLK
NC_32
CMD
NC_33
D14
NC_34
E1
NC_35
A6
E2
A7
E3
C5
E12
E5
E13
E8
E14
E9
F1
E10
F2
F10
F3
G3
F12
G10
F13
H5
F14
J5
G1
K6
G2
K7
G12
K10
G13
P7
G14
P10
H1 H2
RFU_1
NC_36
RFU_2
NC_37
RFU_3
NC_38
RFU_4
NC_39
RFU_5
NC_40
RFU_6
NC_41
RFU_7
NC_42
RFU_8
NC_43
RFU_9
NC_44
RFU_10
NC_45
RFU_11
NC_46
RFU_12
NC_47
RFU_13
NC_48
RFU_14
NC_49
RFU_15
NC_50
RFU_16
NC_51
RFU_17
NC_52
EMMC_STRB
H3
NC_53 NC_54
K5
H12
RSTN
NC_55
H13
NC_56
H14
NC_57
C6
J1
M4
J2
N4
J3
P3
J12
P5
J13 J14
VCCQ_1
NC_58
VCCQ_2
NC_59
VCCQ_3
NC_60
VCCQ_4
NC_61
VCCQ_5
NC_62 NC_63
EMMC_RESET_BALL
K1
NC_64
E6
K2
F5
K3
J10
K12
K9
K13
VCC_1
NC_65
VCC_2
NC_66
VCC_3
NC_67
VCC_4
NC_68
K14
NC_69
L1
NC_70
C2
L2
VDDI
NC_71
L3
NC_72
L12
NC_73
C4
L13
E7
L14
G5
M1
H10
M2 M3
K8 EMMC_CLK_BALL
M7
N2 N5
M8
P4
M9
P6
M10
VSSQ_1
NC_74
VSS_1
NC_75
VSS_2
NC_76
VSS_3
NC_77
VSS_4
NC_78
VSSQ_2
NC_79
VSSQ_3
NC_80
VSSQ_4
NC_81
VSSQ_5
NC_82
M11
NC_83
M12
NC_84
M13 M14
A2
N1 N3 N6 N7 N8 N9 N10 N11 N12 N13 N14 P1 P2 P8 P9 P11 P12 P13 P14
NC_85
A1 A8 EMMC_CMD_BALL
A9 A10 A11 A12 A13 A14 B1 B7 B8 B9 B10 B11 B12 B13 B14 C1 C3 C7
NC_1
NC_86
NC_2
NC_87
NC_3
NC_88
NC_4
NC_89
NC_5
NC_90
NC_6
NC_91
NC_7
NC_92
NC_8
NC_93
NC_9
NC_94
NC_10
NC_95
NC_11
NC_96
NC_12
NC_97
NC_13
NC_98
NC_14
NC_99
NC_15
NC_100
NC_16
NC_101
NC_17
NC_102
NC_18
NC_103
NC_19
NC_104
NC_20
NC_105
NC_21
NC_106
16Y_M2 eMMC
C9 C10 C11 C12 C13 C14 D1 D2 D3 D4 D12 D13 D14 E1 E2 E3 E12 E13 E14 F1 F2 F3 F12 F13 F14 G1 G2 G12 G13 G14 H1 H2 H3 H12 H13 H14 J1 J2 J3 J12 J13 J14 K1 K2 K3 K12 K13 K14 L1 L2 L3 L12 L13 L14 M1 M2 M3 M7 M8 M9 M10 M11 M12 M13 M14 N1 N3 N6 N7 N8 N9 N10 N11 N12 N13 N14 P1 P2 P8 P9 P11 P12 P13 P14
2015.09.02 81
LGE Internal Use Only
RS-232C Control INTERFACE
AR11201 +3.4V_ST
100
DOUT1 RIN1
OPT VA11200 ADUC 20S 02 010L 20V
RS232C C11204 0.1uF
RS232C IC11200
OPT VA11201 ADUC 20S 02 010L 20V
MAX3232CDR
C11201 0.1uF
V+
C1-
C2+
RS232C C11202 0.1uF
C2-
V-
RS232C C11203 0.1uF
DOUT2
RIN2
16
2
15
3
14
4
13
5
12
6
11
7
10
8
9
VCC
GND
DOUT1
RIN1
ROUT1 SOC_RX DIN1 SOC_TX DIN2
ROUT2
EAN41348201
JP11201
GND JIG POINT
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FIRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFACTURES SPECIFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. Copyright 2016 LG Electronics Inc. All rights reserved. Only for training and service purposes
JP11204
RS232C
1
JP11203
C11200 0.1uF
JP11202
C1+
RS232C
16Y_M2
2015.09.02
RS232C
112
LGE Internal Use Only
