Manual de serviço tv lg 32ls3500 ca chassis lc21c

Internal Use Only North/Latin America Europe/Africa Asia/Oceania

http://aic.lgservice.com http://eic.lgservice.com http://biz.lgservice.com

LED LCD TV SERVICE MANUAL CHASSIS : LC21C

MODEL : 32LS3500 MODEL : 32LS3500-CA CAUTION

BEFORE SERVICING THE CHASSIS, READ THE SAFETY PRECAUTIONS IN THIS MANUAL.

P/NO : MFL67360705(1204-REV00)

Printed in China

CONTENTS

CONTENTS .............................................................................................. 2 SAFETY PRECAUTIONS ........................................................................ 3 SERVICING PRECAUTIONS ................................................................... 4 SPECIFICATION ...................................................................................... 5 ADJUSTMENT INSTRUCTION ............................................................... 9 BLOCK DIAGRAM ................................................................................. 17 EXPLODED VIEW .................................................................................. 19 SCHEMATIC CIRCUIT DIAGRAM ..............................................................

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-2-

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 MΊ and 5.2 MΊ. 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 Š LG Electronics. Inc. All rights reserved. Only for training and service purposes

-3-

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 Š LG Electronics. Inc. All rights reserved. Only for training and service purposes

-5-

LGE Internal Use Only

SPECIFICATION

NOTE : Specifications and others are subject to change without notice for improvement.

1. Application range

This specification is applied to the LCD TV used LC21C chassis.

3. Test method

2. Requirement for Test

Each part is tested as below without special appointment.

1) Performance: LGE TV test method followed 2) Demanded other specification - Safety : CE, IEC specification - EMC : CE, IEC - Wireless : Wireless HD Specification (Option)

1) Temperature: 25 °C ± 5 °C(77 °F ± 9 °F), CST: 40 °C ± 5 °C 2) Relative Humidity: 65 % ± 10 % 3) Power Voltage : Standard input voltage (AC 100-240 V~, 50/60 Hz) * Standard Voltage of each products is marked by models. 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. Model General Specification No.

Item

1.

Market

2.

Broadcasting system

Remarks HONG KONG (PAL/DTMB Market) 1) PAL-DK 2) PAL-I 3) NTSC-M 4) DVB-C 5)DTMB ► DTMB ( Carrier , Code Rate , Constellation , Frame Header , Interleaving )*. China - MODE1 : 3780 , 0.4 , 16QAM , PN945 , 720 , 9.626Mbps - MODE2 : 1 , 0.8 , 4QAM , PN595 , 720 , 10.396Mbps - MODE3 : 3780 , 0.6 , 16QAM , PN945 , 720 , 14.438Mbps - MODE4 : 1 , 0.8 , 16QAM , PN595 , 720 , 20.791Mbps - MODE5 : 3780 , 0.8 , 16QAM , PN420 , 720 , 21.658Mbps - MODE6 : 3780 , 0.6 , 64QAM , PN420 , 720 , 24.365Mbps - MODE7 : 1 , 0.8 , 32QAM , PN595 , 720 , 25.989Mbps *. HONG KONG - MODE : 3780 , 0.4/0.6 , 4/16/64QAM , PN945 , 720 QPSK : 1/2, 2/3, 3/4, 5/6, 7/8 16-QAM : 1/2, 2/3, 3/4, 5/6, 7/8 64-QAM : 1/2, 2/3, 3/4, 5/6, 7/8 ► DVB-C - Symbolrate : 4.0Msymbols/s to 7.2Msymbols/s - Modulation : 16QAM, 64-QAM, 128-QAM and 256-QAM

3. Receiving system

Analog : Upper Heterodyne Digital : COFDM,QAM

4

Video Input RCA(1EA)

PAL,NTSC

5. 6.

Component Input RGB Input

7.

HDMI Input

8.

Audio Input

Y/Cb/Cr, Y/Pb/Pr RGB-PC HDMI1-DTV/DVI, HDMI3-DTV/DVI, RGB/DVI Audio, AV, Component

9.

SPDIF out

10

USB Input

11

Lan Jack

REAR 1EA

SPDIF out FEMF, DivX HD, For SVC (download)

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

-6-

Analog(D-SUB 15PIN) PC(HDMI version 1.3) Support HDCP L/R Input JPEG, MP3, DivX HD

LGE Internal Use Only

5. Component Video Input (Y, Cb/Pb, Cr/Pr) No.

Resolution

H-freq(kHz)

V-freq(Hz)

Porposed

1

720×480

15.73

60.00

SDTV, DVD 480i

2

720×480

15.63

59.94

SDTV, DVD 480i

3

720×480

31.47

59.94

480p

4

720×480

31.50

60.00

480p

5

720×576

15.625

50.00

SDTV, DVD 625 Line

6

720×576

31.25

50.00

HDTV 576p

7

1280×720

45.00

50.00

HDTV 720p

8

1280×720

44.96

59.94

HDTV 720p

9

1280×720

45.00

60.00

HDTV 720p

10

1920×1080

31.25

50.00

HDTV 1080i

11

1920×1080

33.75

60.00

HDTV 1080i

12

1920×1080

33.72

59.94

HDTV 1080i

13

1920×1080

56.250

50

HDTV 1080p

14

1920×1080

67.5

60

HDTV 1080p

6. RGB input (PC) No.

Resolution

H-freq(kHz)

V-freq.(Hz)

Proposed

1

640*350

31.47

70.09

EGA

2

720*400

31.468

70.08

VESA(VGA)

3

640*480

31.469

59.94

VESA(SVGA)

4

800*600

37.879

60.31

VESA(XGA)

5

1024*768

48.363

60.00

VESA

1152*864

54.348

60.053

VESA

7

1360*768

47.72

59.8

VESA(WXGA)

8

1920*1080

66.587

59.93

WUXGA(CEA 861D)

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-7-

Remark

FHD only

LGE Internal Use Only

7. HDMI Input 7.1. DTV mode No.

Resolution

H-freq(kHz)

V-freq.(kHz)

Proposed

Proposed

1.

720*480

31.469 / 31.5

59.94 / 60

27.00/27.03

SDTV 480P

2.

720*576

31.25

50

54

SDTV 576P

3.

1280*720

37.500

50

74.25

HDTV 720P

4.

1280*720

44.96 / 45

59.94 / 60

74.17/74.25

HDTV 720P

5.

1920*1080

33.72 / 33.75

59.94 / 60

74.17/74.25

HDTV 1080I

6.

1920*1080

28.125

50.00

74.25

HDTV 1080I

7.

1920*1080

26.97 / 27

23.97 / 24

74.17/74.25

HDTV 1080P

8.

1920*1080

33.716/ 33.75

29.976/30.00

74.25

HDTV 1080P

9.

1920*1080

56.250

50

148.5

HDTV 1080P

10.

1920*1080

67.43 / 67.5

59.94 / 60

148.35/148.50

HDTV 1080P

7.2. PC mode No.

Resolution

H-freq(kHz)

V-freq.(Hz)

Proposed

1

640*350

31.47

70.09

EGA

2

720 x 400

31.468

70.08

DOS

3

640 x 480

31.469

59.94

VESA

4

800 x 600

37.879

60.31

VESA

5

1024 x 768

48.363

60.00

VESA(XGA)

6

1360 x 768

47.712

59.8

WXGA

7

1280 x 1024

63.595

60.0

SXGA

8

1920 x 1080

67.5

60.0

WUXGA

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

-8-

Remark

FHD only(support to RGB-PC)

LGE Internal Use Only

ADJUSTMENT INSTRUCTION 1. Application *

1.1 This spec sheet is applied all of the LCD TV with LB21A/B/C chassis. 1.2 Main manufacturing type

l SET

(O)

l SKD

(O)

l CKD

(O)

2. Designation 2.1 The adjustment is according to the order which is designated and which must be followed, according to the plan which can be changed only on agreeing. 2.2. Power adjustment : Free Voltage. 2.3. Magnetic Field Condition: Nil. 2.4. Input signal Unit: Product Specification Standard. 2.5. Reserve after operation : Above 5 Minutes (Heat Run) Temperature : at 25℃±5°C Relative humidity : 65 ±10% Input voltage : 220V, 60Hz 2.6. Adjustment equipments : Color Analyzer(CA-210 or CA-110), DDC Adjustment Jig, SVC remote controller. 2.7 Push The “IN STOP KEY” – For memory initialization. Case1 : Software version up 1. After downloading S/W by USB , TV set will reboot automatically 2. Push “In-stop” key 3. Push “Power on” key 4. Function inspection 5. After function inspection, Push “In-stop” key. Case2 : Function check at the assembly line 1. When TV set is entering on the assembly line, Push “In-stop” key at first. 2. Push “Power on” key for turning it on. è If you push “Power on” key, TV set will recover channel information by itself. 3. After function inspection, Push “In-stop” key.

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

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LGE Internal Use Only

3. Main PCB check process * APC - After Manual-Insert, executing APC

* Boot file Download 1. Execute ISP program “Mstar ISP Utility” and then click “Config” tab. 2. Set as below, and then click “Auto Detect” and check “OK” message If “Error” is displayed, Check connection between computer, jig, and set. 3. Click “Read” tab, and then load download file (XXXX.bin) by clicking “Read”

(1) filexxx.bin

4. Click “Connect” tab.

If “Can’t ” is displayed, Check connection between computer, jig, and set.

(2)

(3)

Please Check the Speed : To use speed between from 200KHz to 400KHz

5. Click “Auto” tab and set as below. 6. Click “Run”. 7. After downloading, check “OK” message.

(4) filexxx.bin

(5)

(7) ……….OK (6)

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- 10 -

LGE Internal Use Only

* USB download (*.epk file download) 1. Put the USB Stick to the USB socket 2. Automatically detecting update file in USB Stick. - If version of update file in USB Stick is lower, it will not work. But version of update file is higher, USB data will be detected automatically.

3. Show the message “Copying files from memory”

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. (explain the Tool option, next stage) * 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, have to check and adjust TOOL OPTION 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 of models has their number)

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 11-

LGE Internal Use Only

Model

Module

Tool opt 1

Tool opt 2

Tool opt 3

Tool opt 4

Tool opt 5

47LS4100-CA

LGD

33079

2498

9539

13240

2048

42LS4100-CA

LGD

33078

2498

9539

13240

2048

42CS460-CB

LGD

32790

450

9291

13232

2561

32CS460-CB

LGD

32788

450

9291

13232

2592

32LS3500-CA

LGD

33060

33218

9547

13232

2080

42LM3400-CC

LGD

33206

450

25803

46000

2080

42LM3100-CC

LGD

33286

450

25795

46008

2080

32LM3100-CC

LGD

33284

450

25795

46008

2080

55LM4600-CC

LGD

47LM4600-CC

LGD

4. Completed selecting Tool option.

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

-12 -

LGE Internal Use Only

3.1 ADC Process 3.1.1. ADC ■ Enter Service Mode by pushing “ADJ” key, ■ Enter Internal ADC mode by pushing “►” key at “6. ADC Calibration”

EZ ADJUST

ADC Calibration

0. Tool Option1

ADC Comp 480i

NG

1. Tool Option2

ADC Comp 1080p

NG

2. Tool Option3 3. Tool Option4 4. Tool Option5

Start

Reset

5. Country Group 6. ADC Calibration

▶

7. White Balance 8. 10 Point WB 9. Test Pattern 10. EDID D/L 11. Sub B/C 12. Touch Sensitivity Setting 13.Ext. Input Adjust

☞ Caution: Using ‘P-ONLY’ button of the Adjustment R/C , power on TV. ※ ADC Calibration Protocol (RS-232) NO Enter Adjust MODE

Item

CMD 1

CMD 2

Data 0

Adjust ‘Mode In’

A

A

0

0

ADC adjust

ADC Adjust

A

D

1

0

When transfer the ‘Mode In’, Carry the command. Automatically adjustment (The use of a internal pattern)

Adjust Sequence ▪aa 00 00 [Enter Adjust Mode] ▪xb 00 40 [Component1 Input (480i)] ▪ad 00 10 [Adjust 480i Comp1] ▪xb 00 60 [RGB Input (1024*768)] ▪ad 00 10 [Adjust 1024*768 RGB] ▪aa 00 90 End Adjust mode

※ Required equipment : Adjustment R/C.

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- 13 -

LGE Internal Use Only

3.2 Function Check 3.5.1 Check display and sound ■ Check Input and Signal items. (cf. work instructions) 1. TV 2. AV 3. COMPONENT (480i) 4. HDMI * Display and Sound check is executed by Remote controller.

☞ Caution : Not to push the INSTOP KEY after completion if the function inspection.

4. Total Assembly line process 4.1 Adjustment Preparation ■ W/B Equipment condition CA210 : CCFL/EEFL è CH 9, Test signal : Inner pattern (80IRE) LED è CH 14, Test signal : Inner pattern (80IRE) ■ Above 5 minutes H/run in the inner pattern. (“power on” key of adjust remote control) X=0.276 (±0.002) 11,000k Cool K Y=0.283 (±0.002) O/S TN Edge LED/ Lamp X=0.285 (±0.002) under 26” 9,300k Medium K Y=0.293 (±0.002) X=0.313 (±0.002) 6,500k Warm K Y=0.329 (±0.002) Color X=0.276 (±0.002) Temperature 11,000k Cool K Y=0.283 (±0.002) X=0.285 (±0.002) All LCD and O/S LED(except 9,300k Medium K Y=0.293 (±0.002) LGD),lamp over 26” X=0.313 (±0.002) 6,500k Warm K Y=0.329 (±0.002)

<Test Signal> Inner pattern (204gray, 80IRE)

◈ Edge LED W/B Table in process of aging time (Only LGD Edge LED Module) CA210 : CH 14, Test signal : Inner pattern (80IRE) S7LR2

1 2 3 4 5 6 7 8 9

Aging time (Min)

0-2 3-5 6-9 10-19 20-35 36-49 50-79 80-149 Over 150

Cool(13000K)

Medium(9300K)

Warm(6500K)

x

y

x

y

x

y

269

273

285

293

313

329

280 279 277 276 274 272 271 270 269

287 285 284 283 280 277 275 274 273

296 295 293 292 290 288 287 286 285

307 305 304 303 300 297 295 294 293

320 319 317 316 314 312 311 310 309

337 335 334 333 330 327 325 324 323

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- 14-

LGE Internal Use Only

◈Direct LED W/B adjust target value (Only LGD direct LED, LM3100/LM3400 series) Cool Target (Direct LED)

Medium

Warm

x

y

x

y

x

y

271

276

287

296

315

332

◈ Summary about W/B information Model Information Model

Maker

Type

47LS4100-CA 42LS4100-CA 32LS3500-CA 42CS460-CB 32CS460-CB 42LM3400-CC 42LM3100-CC 32LM3100-CC 55LM4600-CC 47LM4600-CC

LGD LGD LGD

Edge LED Edge LED Edge LED

Cool (C50) 13000K 13000K 13000K

LGD LGD LGD LGD LGD LGD LGD

EEFL EEFL Direct LED Direct LED Direct LED Edge LED Edge LED

11000K 11000K 13000K 13000K 13000K 13000K 13000K

W/B Information Medium Warm (0) (W50) 9300K 6500K 9300K 6500K 9300K 6500K 9300K 9300K 9300K 9300K 9300K 9300K 9300K

6500K 6500K 6500K 6500K 6500K 6500K 6500K

W/B table for LGD edge LED O O O X X X X X O O

※ Connecting picture of the measuring instrument (On Automatic control) Inside PATTERN is used when W/B is controlled. Connect to auto controller or push Adjustment R/C P-ONLY à Enter the mode of White-Balance, the pattern will come out.

Auto-control interface and directions 1. Adjust in the place where the influx of light like floodlight around is blocked. (Illumination is less than 10ux). 2. Adhere closely the Color Analyzer ( CA210 ) to the module less than 10cm distance, keep it with the surface of the Module and Color Analyzer’s Prove vertically.(80~100°). 3. Aging time -. After aging start, keep the power on (no suspension of power supply) and heat-run over 5 minutes. -. Using ‘no signal’ or ‘POWER ONLY’ or the others, check the back light on. Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 15 -

LGE Internal Use Only

◈ Auto adjustment Map(RS-232C) RS-232C COMMAND [ CMD ID DATA ] Wb 00 00 Wb 00 ff

White Balance Start White Balance End

RS-232C COMMAND [CMD ID DATA]

CENTER MIN

Cool

Mid

Warm

R Gain

jg

Ja

jd

G Gain

jh

Jb

B Gain

ji

Jc

(DEFAULT)

MAX

Cool

Mid

Warm

00

172

192

192

192

je

00

172

192

192

192

jf

00

192

192

172

192

R Cut

64

64

64

128

G Cut

64

64

64

128

B Cut

64

64

64

128

** Caution ** Color Temperature : COOL, Medium, Warm. One of R Gain/G Gain/ B Gain should be kept on 0xC0, and adjust other two lower than C0. (when R/G/B Gain are all C0, it is the FULL Dynamic Range of

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 16 -

Module)

LGE Internal Use Only

* Manual W/B process using adjusts Remote control. ■ After enter Service Mode by pushing “ADJ” key, ■ Enter White Balance by pushing “►” key at “7. White Balance”.

EZ ADJUST

White Balance

0. Tool Option1

Color Temp.

1. Tool Option2

R-Gain

172

2. Tool Option3

G-Gain

172

3. Tool Option4

B-Gain

192

4. Tool Option5

R-Cut

64

5. Country Group

G-Cut

64

6. ADC Calibration

B-Cut

64

Test-Pattern

ON

8. 10 Point WB

Backlight

100

9. Test Pattern

Reset

7. White Balance

▶

◀

Cool

▶

To Set

10. EDID D/L 11. Sub B/C 12. Touch Sensitivity Setting 13. Ext. Input Adjust After You finish all adjustments, Press “In-start” button and compare Tool option and Area option value with its BOM, if it is correctly same then unplug the AC cable. If it is not same, then correct it same with BOM and unplug AC cable. For correct it to the model’s module from factory JIG model. ※ Push the “IN-STOP KEY” after completing the function inspection. ※

4.2 DDC EDID Write (RGB 128Byte ) ■ Connect D-sub Signal Cable to D-Sub Jack. ■ Write EDID DATA to EEPROM (24C02) by using DDC2B protocol. ■ Check whether written EDID data is correct or not.

* For SVC main Ass’y, EDID have to be downloaded to Insert Process in advance.

4.3 DDC EDID Write (HDMI 256Byte) ■ Connect HDMI Signal Cable to HDMI Jack. ■ Write EDID DATA to EEPROM(24C02) by using DDC2B protocol. ■ Check whether written EDID data is correct or not.

* For SVC main Ass’y, EDID have to be downloaded to Insert Process in advance.

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 17 -

LGE Internal Use Only

4.5 EDID DATA

EZ ADJUST

1) All Data : HEXA Value

0. Tool Option1

2) Changeable Data :

1. Tool Option2

*: Serial No : Controlled / Data:01

2. Tool Option3

**: Month : Controlled / Data:00

3. Tool Option4

***:Year : Controlled

4. Tool Option5

****:Check sum

5. Country Group 6. ADC Calibration

- Auto Download

7. White Balance

■After enter Service Mode by pushing “ADJ” key, ■Enter EDID D/L mode.

8. 10 Point WB

■Enter “START” by pushing “OK” key.

9. Test Pattern

☞ Caution : Never connect HDMI & D-sub Cable

10. EDID D/L

when EDID downloaded.

▶

11. Sub B/C 12. Touch Sensitivity setting 13. Ext. Input Adjust

※ LS4100, LS3500 and CS460 series have only two HDMI. EDID D/L

EDID D/L HDMI1

NG

HDMI1

OK

HDMI2

NG

HDMI2

OK

HDMI3

NG

HDMI3

OK

RGB

NG

RGB

OK

Start

Start

Reset

Reset

※ EDID data and Model option download (RS232) NO Enter download MODE

Item Download ‘Mode In’

CMD 1

CMD 2

Data 0

A

A

0

0

EDID data and Model option download

Download

A

E

00

10

When transfer the ‘Mode In’, Carry the command. Automatically download (The use of a internal Data)

- Manual Download ※ Caution

* Use the proper signal cable for EDID Download - Analog EDID : Pin3 exists - Digital EDID : Pin3 exists - Never connect HDMI & D-sub Cable at the same time. - Use the proper cables below for EDID Writing.

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 18 -

LGE Internal Use Only

- Download HDMI1/2/3 separately because each EDID data is different. For Analog EDID D-sub to D-sub

For HDMI EDID DVI-D to HDMI or HDMI to HDMI

No.

Item

Condition

Hex Data

1

Manufacturer ID

GSM

1E6D

2

Version

Digital : 1

01

3

Revision

Digital : 3

03

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 19 -

LGE Internal Use Only

※ Model information Model

BLU

Freq.

Resolution

47LS4100-CA

Edge LED

60Hz

FHD (8bit)

42LS4100-CA

Edge LED

60Hz

FHD (8bit)

32LS3500-CA

Edge LED

60Hz

HD (8bit)

42CS460-CB

EEFL

60Hz

FHD (10bit)

32CS460-CB

EEFL

60Hz

HD (8bit)

42LM3400-CC

Direct LED

60Hz

FHD(10bit)

42LM3100-CC

Direct LED

60Hz

FHD(8bit)

32LM3100-CC

Direct LED

60Hz

HD(8bit)

55LM4600-CC

Edge LED

60Hz

FHD (8bit)

47LM4600-CC

Edge LED

60Hz

FHD (8bit)

4.5 Model name & Serial number Download 4.5.1 Model name & Serial number D/L ■ Press “Power on” key of service remocon.(Baud rate : 115200 bps) ■ Connect USB to RS232 cable at USB Jack. ■ Write model name and serial number. ■ Must check the model name and serial number at the Product/Service Info. (menu keyà red key à select Product/Service info)

4.5.2 Signal TABLE CMD

LENGTH

ADH

ADL

DATA_1

...

Data_n

CMD

: A0h

LENGTH

: 85~94h (1~16 bytes)

ADH

: EEPROM Sub Address high (00~1F)

ADL

: EEPROM Sub Address low (00~FF)

Data

: Write data

CS

: CMD + LENGTH + ADH + ADL + Data_1 + … + Data_n

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

-20 -

CS

DELAY

LGE Internal Use Only

Delay

: 20ms

4.5.3 Command Set No.

Adjust mode

CMD(hex)

LENGTH(hex)

Description

1

EEPROM WRITE

A0h

84h+n

n-bytes Write (n = 1~16)

* Description FOS Default write : <7mode data> write Vtotal, V_Frequency, Sync_Polarity, Htotal, Hstart, Vstart, 0, Phase Data write : Model Name and Serial Number write in EEPROM,.

4.5.4 Method & notice A. B. C.

Serial number D/L is using of scan equipment. Setting of scan equipment operated by Manufacturing Technology Group. Serial number D/L must be conformed when it is produced in production line, because serial number D/L is mandatory by D-book 4.0

Copyright Š LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 21 -

LGE Internal Use Only

※ Manual Download (Model Name and Serial Number) If the TV set is downloaded By OTA or Service man, Sometimes model name or serial number is initialized.(Not always) It is impossible to download by bar code scan, so It need Manual download. a. Press the ‘instart’ key of ADJ remote controller. b. Go to the menu ‘6.Model Number D/L’ like below photo. c. Input the Factory model name or Serial number like photo.

d. Check the model name Instart menu à Factory name displayed. e. Check the Product/Service Info. (Menu Keyà Red Key à Select Product/Service Info.) à Buyer model displayed.

4.5.5 Outgoing condition Configuration ■ When pressing IN-STOP key by SVC remocon, Red LED are blinked alternatively. And then automatically turn off. (Must not AC power OFF during blinking)

4.6 Hi-Pot Test Confirm whether is normal or not when between power board's ac block and GND is impacted on 1.5kV(dc) or 2.2kV(dc) for one second. Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 22 -

LGE Internal Use Only

5. Preset CH Information If you turn on TV by pushing the ‘POWER ON’ or ‘P-ONLY’ key, TV catch the channel 10 DTV, 1 CADTV, 12 ATV and 2 CATV channels on line condition. Pr.2~4 of CADTV will be updated after changing channel to CADTV channel 1. DTV Ch name is displayed below initially, but if you do channel tuning just one time, you can see DTV Ch name. Total = 25(+3) Channels ◈ DTV : MUX MUX 15 (23)

16 (24)

20 (28)

No. in ‘( )’ is used for Hong Kong DTV. Pr.

Name

CH information

Factory

1(82)

J2

SD

16 : 9

576i

GUMI

2(83)

Interactive Information

SD

16 : 9

576i

GUMI

3(85)

High Definition Jade

HD

16 : 9

1080i

GUMI

4(900)

CCTV-1

SD

4:3

576i

LGEND

5(901)

CCTV-2

SD

4:3

576i

LGEND

6(902)

CCTV-少儿

SD

4:3

576i

LGEND

7(903)

CCTV-音乐

SD

4:3

576i

LGEND

8(904)

BTV-1

SD

4:3

576i

LGEND

9(905) 10(906 )

CETV-3

SD

4:3

576i

LGEND

CCTV–高淸

HD

16 : 9

1080i

LGEND

◈ CADTV : MUX No. in ‘( )’ is used for Hong Kong DTV. MUX

55 (63)

Pr.

Name

CH information

Factory

1

CCTV-4

SD

4:3

576i

LGEND

2

CCTV-9

SD

4:3

576i

LGEND

3

CCTV F

SD

4:3

576i

LGEND

4

CCTV E

SD

4:3

576i

LGEND

(Pr.2~4 of CADTV will be updated automatically after changing channel to Pr.1) ◈ ATV Pr

System

Band

Name

CH

Freq.

Factory

1

PAL

DK

V/UHF

D-10

C 10

200.25

LGEND/GUMI

2

PAL

DK

V/UHF

K-36

C 36

695.25

LGEND/GUMI

3

PAL

I

V/UHF

I-05

C 05

183.25

GUMI

4

PAL

I

V/UHF

I-11

C 11

231.25

GUMI

5

PAL

I

V/UHF

I-41

C 41

631.25

GUMI

6

PAL

I

V/UHF

I-63

C 63

807.25

GUMI

7 8 9 10 11 12

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 23 -

LGE Internal Use Only

◈ CATV Pr

System

Band

Name

CH

Freq.

Factory

1

PAL

DK

V/UHF

-

C 02

57.75

LGEND

2

NTSC

M

V/UHF

-

C 04

67.25

GUMI

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 24 -

LGE Internal Use Only

6. Shipping condition No.

Item

Condition

1.

Power

Off

2.

Mechanical Power switch

On

3.

Volume Level

10

4.

Main Picture Input

DTV

5.

Main Last Channel

N.A.

6.

Mute

Off

7.

ARC

16:9 (DTV)

Remark

DTV &

ATV

Auto Tuning Manual Tuning Programme 8

SETUP

DTV / TV / CADTV / CATV DTV / RADIO / TV / Cable DTV / Cable Radio

Edit

/ Cable TV

Booster

Off

CI

*Except Hong Kong

Information

9.

PICTURE

* Only Hong Kong : DTV / RADIO /TV / Cable TV

Cable DTV

Service Operator

others

setting

Audio Auto Mode

On

Aspect Ratio

16:9

Picture Wizard Energy Saving

Picture Mode

Off Intelligent Sensor Vivid Backlight

100

Contrast

95

Brightness

50

Sharpness

70

Colour

70

Tint

0

Colour Temp

C50

Advan c e d

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 25 -

Dynamic Contrast

High

Dynamic Colour

High

Clear White

High

Skin color

0 LGE Internal Use Only

C o n tr ol

Noise Reduction

Medium

Digital Noise Reduction

Medium

Gamma

Medium

Black level

Auto

Eye Care

Low

Real Cinema

On

Color Gamut

Wide

xvYCC

Off

Pictur e R e s e t TruMotion

Low

Only LM5700

Resolution Auto Config. Screen

Position Size Phase Reset

Auto Volume

Off

Clear Voice II

Off

Balance

0

On Level 3

Standard

Sound Mode 10.

AUDIO

Infinite Sound

Off

Treble

50

Bass

50

Reset Digital Audio out TV Speaker DTV Audio Setting 11.

Time

PCM

PCM/Auto

ON

ON/Off

Auto

Clock

-- : --

Off time

Off

On time

Off

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 26 -

Auto/AAC/Dolby Digital+/Dolby Digital/MPEG;

Auto

LGE Internal Use Only

Sleep Timer

Off

Set Password 12.

LOCK

Lock System

Off

Key Lock

OffMenu Language

* Mainland

汉语

China * Hong Kong

中文

Language

Audio language

* Mainland

Mandarin(普通话)

China

Cantonese(廣東语) Subtitle Language 13.

* Hong Kong * Mainland

Mandarin(普通话)

China

Cantonese(廣東语)

OPTION City/Area

--

Hard of

Off

hearing Power

Standby Light : On

Indicator

Power Light : On

MHEG Guide

Off

* Hong Kong

* Mainland China/Hong Kong *Off/ON

* Only Hong Kong

Factory Reset Mode Setting

Home Use

7. Additional Rules This specification goes into effect from 2011/12/12.

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 27 -

LGE Internal Use Only

Block Diagram

Except of LM4600/LM3100/ LM3400/LS4100/ LS3500/CS460

Tuner

HDMI1/2(DVI) Component/AV Component

TU_CVBS

24M

X-tal FE_TS_DATA[0:7]

SIF

Rear TMDS CVBS, Y/Pb/Pr, L/R

Y/Pb/Pr, L/R

RGB/H/V L/R

RGB PC PC/DVI Audi In

EPHY

TMDS

DP/DM

SPDIF

USB

HDMI3

SPDIF Ethernet

Side

1 / 153

LG2111A IC101

SPI

DDR3 Add. DDR3 Data I2C

IR

LVDS (FHD/50Hz)

SERIAL FLASH IC1401 (8M bit) MX25L8005M2I

DDR3 1Gb DDR3 1Gb IC1202 IC1201 H5TQ1G63BFR H5TQ1G63BFR

FPC(51P)

CI Slot: Only LM5700 for China

74LCX244 Buffer

M24M01-HRMN6TP IC104 256Kbit NAND FLASH IC102 (2Gbit) PCM_A[0:7] PCM_A[8:14]

SPK L/R

FE_TS_DATA[0:7]

CONTROL IR & LED / SOFT TOUCH (TACT SWITCH)

TS_DATA[0:7]

PCM_DATA[0:7]

LED_R

KEY2

KEY1

SENSOR _SCL/SDA

I2S

Audio AMP STA380BWE

LGE Internal Use Only

- 28 -

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

CI Slot

I2C MAP (LGE2112)

IC104 NVRAM

IC103 HDCP EEPROM

IR BOARD I n te l l i g e nts e n s or

2.2KΩ

22Ω

+3.3V_Normal

22Ω

1KΩ

+3.3V_Normal

100Ω

D r i v i n gC u r r e n t:2 / 4 / 6 / 8 m A

T U _S C L T U _S D A

( D EM O D _ S D A_

A M P_ S D A

( D EM O D _ S C L)

A M P_ S C L

IC101 LGE2111A

c o n f i g u r a t i o n .

W ec a nb ec h a n g e db ys o f t w a r e

I 2 C_ S C L I 2 C_ S D A

S E NS O R _ S C L S E NS O L _ S D A

2 / 153

33Ω

22Ω

A M P_ S D A

A M P_ S C L

1KΩ

+3.3V_TU

+3.3V_Normal

1KΩ

D E MO D _ S C L D E MO D _ S D A

TUNER(A,D)

IC3400 STA380BW

TUNER(D.D)

LGE Internal Use Only

- 29 -

Copyright © LG Electronics. Inc. All rights reserved. Only for training and service purposes

EXPLODED VIEW IMPORTANT SAFETY NOTICE

* Stand Base + Stand Body

A2

300

510

A21

A9

200

320

A10

* Set + Stand

310

530

LV1

540

120

810

521

900

910

400

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 X-RADIATION, Shock, Fire, or other Hazards. Do not modify the original design without permission of manufacturer.

Copyright Š LG Electronics. Inc. All rights reserved. Only for training and service purposes

- 23 -

LGE Internal Use Only

ST_3.5V--> 3.375V --> 3.46V +12V/+15V

20V-->3.51V --> 3.76V (3.59V)

PANEL_POWER L412 120 CIS21J121

OPT R610 33K

L404 CIS21J121

GND

24V

6

GND GND

GND

7

8

9

10

3.5V

11

12

3.5V

GND

13

14

GND

GND

15

16

GND/V-sync

12V

17

18

INV ON

12V

19

20

A.DIM

12V

21

22

P.DIM1

GND/P.DIM2

23

24

Err OUT

1:AK10

C

OPT R435 22K

OPT Q406 MMBT3904(NXP)

R489 10K

NON_CI_CAP C455 0.1uF 25V

Q407 MMBT3904(NXP)

B

OPT R429 47K B

PANEL_CTL

POWER_+24V

C

R430 10K

C418 0.1uF 50V

R407 2.2K

R405 2.2K

POWER_+24V

E

PANEL_DISCHARGE_RES_2.2K PANEL_DISCHARGE_RES_2.2K

E

PD_+12V C412 0.1uF 16V

PD_+3.5V 5%

R450 0 R450-*1 100

PD_KR_42_LIPS 1%

1/16W 1% PD_+12V

2

POWER_DET IC408-*1 APX803D29

C474 0.1uF

GND

RESET

2

3

VCC

1 PD_+12V R404 100K

GND PWR_DET_ON_DIODES IC409-*1

PD_+12V_PWR_DET_ON_SEMI IC409 NCP803SN293 VCC

R402 100

RESET

1

3

APX803D29 PD_+12V R480 100

RESET

2

RESET

2

3

VCC

1

1

GND

GND

PD_+12V_PWR_DET_DIODES

Power_DET

+3.3V_Normal +3.5V_ST R419 1K

25 SLIM_32~52 P401 SMAW200-H24S2

OPT R412 0

R415 100

OPT R476 0

INV_CTL

Q403 AO3407A

+3.5V_ST E

780 mA

+3.3V_Normal

R421 10K

B

PWM1

OPT Q405 MMBT3904(NXP) R427 10K

IC407 AP7173-SPG-13 HF(DIODES)

L420

IN

PWM_DIM

PG

1

R611 0

OPT C416 0.1uF 16V

R606 3.9K PWM_PULL-DOWN_3.9K

VCC

3

+3.3V_Normal R606-*1 1K PWM_PULL-DOWN_1K

R433 10K

OPT ERROR_OUT R420 100

EN

R438 22K

1/16W 1% C472 22uF 10V

R2 R456 4.7K 1/16W 1%

C467 560pF 50V

GND

5

C423 4.7uF 16V

C425 0.1uF 16V

OPT R446 10K

OPT C445 0.1uF 16V

C437 22uF 16V

4.3K

SS

1.5A6

4

G R434 10K

R1 R457

FB

7

NON_CI_CAP C475 0.1uF 16V

C461 10uF 10V

+3.3V_Normal

NON_CI_CAP C435 0.1uF 16V

OUT

8

2

9

A_DIM

THERMAL

NON_PSU_T120_LGD

L403 BLM18SG700TN1D

+1.5V_DDR

[EP]

BLM18PG121SN1D

’ERROR_OUT’ is used for lamp(CCFL/EEFL) models. In other words, LED models need not use.

+3.3V_Normal

Max 1000mA

+3.5V_ST

C OPT R418 6.8K

OPT R475 0

+1.5V_DDR

R426 10K

S

100

L402-*1 MLB-201209-0120P-N2

R408 FOR 200HZ PWM_DIM2

OPT C407 0.1uF 16V

C404 0.1uF 16V

4

+24V

OPT C451 0.1uF 25V

R440 5.6K

L407 CIS21J121

3.5V

+12V/+15V L402 CIS21J121

24V

3.5V OPT C408 0.1uF 16V

C406 0.1uF 16V

5

2

OPT R431 22K

3

D

PWR ON 1 24V 3

L404-*1 MLB-201209-0120P-N2

PANEL_VCC

G

+24V L407-*1 MLB-201209-0120P-N2

PD_KR_42_LIPS

E R462 10K +3.5V_ST

NORMAL_32 P404 FM20020-24

NORMAL_EXPEPT_32 P403 FW20020-24S

2

C411 0.1uF 16V

1%

3

1

Q401 MMBT3904(NXP)

R405-*1 R407-*1 3K 3K PANEL_DISCHARGE_RES_3K PANEL_DISCHARGE_RES_3K

R482 8.2K

R406 4.7K

C B

PWR_DET_ON_SEMI IC408 NCP803SN293

1%

OPT R401 10K

OPT R463 10K

VCC

R403 1.5K

R461 10K RL_ON

C443 10uF 25V

R439 33K

R407-*2 4.7K

1/16W 1%

S

Q402

+3.5V_ST R488 100K

PANEL_DISCHARGE_RES_4.7K PANEL_DISCHARGE_RES_4.7K

Q409 AO3407A

MMBT3906(NXP)

R448 2.7K

R405-*2 4.7K New item

R447 1.2K

OPT C442 10uF 25V

C438 0.1uF 25V

D

+3.5V_ST

0.01uF C436 0.01uF 50V

PD_+12V 1%

18.5V-->3.5V --> 3.75V (3.59V)

0.015uF C409 0.015uF 50V

+3.5V_ST

+3.5V_ST

12V -->3.58V --> 3.82V (3.68V)

R447-*1 5.1K

FROM LIPS & POWER B/D

+3.5V_ST -> 3.375V

+12V/+15V

24V-->3.78V --> 3.92V (3.79V)

R445 C476 0.1uF 16V

100

R443 10K

POWER_ON/OFF_1

C Q400 MMBT3904(NXP)

B

OPT R490 10K

E

R486 4.7K ERROR_OUT

Vout=0.8*(1+R1/R2)=1.5319

FOR LPB Download [To LED DRIVER]

+2.5V/+1.8V

+3.3V_Normal

+3.3V_Normal IC402

FOR LPB MODEL P407 12507WR-08L

+2.5V_Normal

TJ3940S-2.5V-3L VIN

3

Vd=550mV 1

NON_CI_CAP C432 0.1uF 16V

2

VOUT

300 mA

1

R473 1

GND

OPT R615 10K OPT R616 10K

2

3

C440 0.1uF 16V

C403 10uF 10V

FOR LPB MODEL_L/DIM R612 33

LOCAL DIMMING L/DIM_SCLK

4

5

FOR LPB MODEL_L/DIM R613 33 L/DIM_MOSI

FOR LPB MODEL R183 33

6

I2C_SCL

7

8 9

I2C_SDA FOR LPB MODEL_L/DIM R614 33

FOR LPB MODEL R184 33

L/DIM_VS FOR LPB MODEL_L/DIM R617 4.7K

S7LR core 1.2V volt C447

+3.3V_Normal

+3.5V_ST

OPT C4072 100pF

FB

4

3A

5

PWRGD

BOOT 13

EN 15

14

VIN_3 2

4

11

PH_2

NR8040T3R6N

PH_1

C453 22uF 10V

10 IC403 TPS54319TRE 9

COMP

COMP

R2

C494 2200pF 50V

Vout=0.8*(1+R1/R2) THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

R1

R432 1/16W 330K 5% R436 15K

C448 3300pF 50V

3A

OPT R180 10K

OPT R181 1K

C488 3300pF

C493 0.01uF 50V

EN

C444 0.1uF 16V

C456 22uF 10V

OLP

R608 12K R423 12K 1%

+3.3V_Normal

SS/TR

8

3

GND_2

7

GND_1

5

9

6

VIN_2

PH_3

$ 0.165

27K R442

1%

7

NON_CI_CAP C431 0.1uF 16V

L415 3.6uH

12

56K R441

1%

3

C430 10uF 10V

THERMAL 17

1% 1/16W

R609 11K

2

SS

OPT C492 22uF 16V

1

RT/CLK

R416 56K

AGND

C420 22uF 16V

NC

OPT C4074 0.1uF 16V

VIN_1

VSENSE

R1

VIN

OPT C4073 0.1uF 16V

8

1 THERMAL

PGND

L406 3.6uH

[EP]LX

L413

AGND

IC401 AOZ1051PI

+5V_Normal

L425 BLM18PG121SN1D

6

+5V_USB

EP[GND]

C4075 10uF 25V

+1.10V_VDDC

C441 0.1uF 16V

1% 1/16W

2000 mA

R410 10K

16

+5V_USB L401

C405 10uF 25V OPT

0.33uF 16V

R428 10K

+12V/+15V

C439 50V 100pF

Not used : only for small(ready)

R2

Vout=0.827*(1+R1/R2)=1.225V

GP4L_S7LR2 POWER_LARGE

2011/11.22 4

LVDS for large inch

[51Pin LVDS Connector] (For FHD 60Hz)

FOR FHD REVERSE(10bit)

[30Pin LVDS Connector] (For HD 60Hz_Normal)

Change in S7LR

FHD P703 FI-RE51S-HF-J-R1500

MIRROR LVDS_SEL

Pol-change

RXA4+

RXA0+

RXA0-

RXA4-

RXA0-

RXA0+

HD P705

1 +3.3V_Normal

FF10001-30

2 3

OPT R705 3.3K

4

RXA3+

RXA1+

RXA1-

RXA3-

RXA1-

RXA1+

1

RXACK+

RXA2+

RXA2-

2

RXACK-

RXA2-

RXA2+

3

RXA2+

RXACK+

RXACK-

4

5 OPT R710 10K

6

+3.3V_Normal

7 8 9

SCANNING_EN

RXA2-

RXACK-

RXACK+

5

RXA1+

RXA3+

RXA3-

6

RXA3+

RXA1-

RXA3-

RXA3+

7

RXA3-

RXA0+

RXA4+

RXA4-

8

RXA0-

RXA4-

RXA4+

PWM_DIM OPT R703 3.3K

PSU_T120_LGD R706 0

10

OPC&SCANNING_CTRL OPT R704 10K

11 12

RXA4+

13

RXA4-

14

RXA3+

15

RXA3-

16

RXACK+

17

RXACK-

18 19

RXA2+

20

RXA2-

22

RXA1+

23

RXA1-

24

RXA0+

25

RXA0-

RXB4+

RXB0+

9

RXACK+

10

RXACK-

RXB0-

11

RXB4-

RXB0-

RXB0+

12

RXA2+

RXB3+

RXB1+

RXB1-

13

RXA2-

RXB3-

RXB1-

RXB1+

14

RXBCK+

RXB2+

RXB2-

15

RXA1+

RXBCK-

RXB2-

RXB2+

16

RXA1-

RXB2+

RXBCK+

RXBCK-

17

RXB2-

RXBCK-

RXBCK+

18

LVDS_SEL

21

RXB1+

RXB3+

RXB3-

19

RXB1-

RXB3-

RXB3+

20

RXB0+

RXB4+

RXB4-

21

RXB0-

RXB4-

RXB4+

22

RXA0+ RXA0-

+3.3V_Normal

OPT R712 3.3K

OPT R711 10K

23

26

AUO_GND/LGD_NC 24

27

PANEL_VCC

25

28

RXB4+

29

RXB4-

30

OPT R713 0

AUO_GND R709 10K

HD L701 70-ohm BLM18SG700TN1D

26 27

RXB3+

31

RXB3-

32

RXBCK+

33

RXBCK-

28

FOR FHD REVERSE(8bit)

29

Change in S7LR

30

34

OPT C701 10uF 16V

OPT C702 1000pF 50V

HD C703 0.1uF 16V

31

MIRROR

35

RXB2+

36

RXB2-

Pol-change

Shift

RXA4+

RXA4+

RXA4-

RXA0-

RXA4-

RXA4-

RXA4+

RXA0+

37 38

RXB1+

39

RXB1-

40

RXB0+

41

RXB0-

RXA3+

RXA0+

RXA0-

RXA1-

RXA3-

RXA0-

RXA0+

RXA1+

RXACK+

RXA1+

RXA1-

RXA2-

RXACK-

RXA1-

RXA1+

RXA2+

RXA2+

RXA2+

RXA2-

RXACK-

RXA2-

RXA2-

RXA2+

RXACK+

RXA1+

RXACK+

RXACK-

RXA3-

RXA1-

RXACK-

RXACK+

RXA3+

RXA0+

RXA3+

RXA3-

RXA4-

RXA0-

RXA3-

RXA3+

RXA4+

RXB0-

42 43 44

PANEL_VCC

45 46 47

FHD L702 70-ohm

48 49 50 51

OPT C700 10uF 16V

OPT C709 1000pF 50V

FHD C710 0.1uF 16V

RXB4+

RXB4+

RXB4-

RXB4-

RXB4-

RXB4+

RXB0+

RXB3+

RXB0+

RXB0-

RXB1-

RXB3-

RXB0-

RXB0+

RXB1+

RXBCK+

RXB1+

RXB1-

RXB2-

RXBCK-

RXB1-

RXB1+

RXB2+

RXB2+

RXB2+

RXB2-

RXBCK-

52

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

RXB2-

RXB2-

RXB2+

RXBCK+

RXB1+

RXBCK+

RXBCK-

RXB3-

RXB1-

RXBCK-

RXBCK+

RXB3+

RXB0+

RXB3+

RXB3-

RXB4-

RXB0-

RXB3-

RXB3+

RXB4+

GP4L_S7LR2 LVDS_LARGE

2011/11/14 11

R1227

L1202 CIC21J501NE

1uF

0.1uF

C1220

1uF

C1241

1uF

C1238

1uF

C1219

1uF

C1218

C1217

0.1uF

0.1uF

C1239

10uF

C1206

OPT C1251

OS 1K 1% 0.1uF

C1250 OS 1% 1K

C1249

OS

OS 1000pF

R1225

0.1uF

C1247

C1248 OS 1K 1%

CLose to Saturn7M IC

AVDD_DDR0

+1.5V_DDR

R1228

R1224

OS 1K 1%

CLose to Saturn7M IC

CLose to DDR3

AVDD_DDR0

B-MVREFDQ

B-MVREFCA

OS

A-MVREFCA

OS 1000pF

1000pF

C1204

1% 1K

C1203

R1205

0.1uF

A-MVREFDQ

1000pF

0.1uF C1202

C1201

AVDD_DDR0

1K 1%

R1204

AVDD_DDR0

1K 1% 1%

R1202

1K

R1201

AVDD_DDR0

CLose to DDR3

IC1201-*1 K4B1G1646G-BCH9

IC1202-*1 K4B1G1646G-BCH9

DDR_1333_SS_NEW

DDR_1333_SS_NEW

N3 P7 P3 N2 P8 P2 R8 R2 T8 R3 L7 R7 N7 T3

M8 A0

VREFCA

P3

A2

H1

A3

VREFDQ

P2

A5

L8

A6

ZQ

IC1201 H5TQ1G63DFR-H9C

T8

A8

B2

A9

VDD_1

A10/AP

VDD_2

A11

VDD_3

A12/BC

VDD_4

A13

VDD_5

IC101 LGE2111A-T8

A3 A4

R1203

A5

L8 ZQ

240 1%

AVDD_DDR0

A7 A8

B2 C1205

10uF

D9

C1207

0.1uF

G7

C1208

0.1uF

K2

C1210

0.1uF

K8

C1211

0.1uF

N1

C1212

0.1uF

N9

C1213

0.1uF

R1

0.1uF

R9

C1214 C1215

0.1uF

C1216 OS

0.1uF

VDD_1

A9

VDD_2

A10/AP

VDD_3

A11

VDD_4

A12/BC

VDD_5 VDD_7

D2 E9 F1 H2 H9

L1 L9 T7

T8 R3 L7 R7 N7 T3

M2 BA0

N8 M3

BA2 VDDQ_1 VDDQ_2

CK CK

VDDQ_4

CKE

VDDQ_5 CS

VDDQ_7

ODT

VDDQ_8

RAS

VDDQ_9

CAS

K9

K1 J3 K3 L3

NC_1

T2 RESET

J2 J8 M1 M9 P1 P9 T1 T9

F3 DQSL

G3 C7

VSS_1

DQSU

VSS_2

DQSU

VSS_3 DML

VSS_5

DMU

VSS_6 DQL0

VSS_8

DQL1

VSS_9

DQL2 DQL3

VSS_11

DQL4

VSS_12

DQL5

D8 E2 E8 F9 G1 G9

F7 F2 F8 H3 H8 G2 H7

DQL7

B1 D1

D3 E3

VSS_7

VSS_10

B7 E7

VSS_4

DQL6

B9

A-MA6

A-MA8

A-MA7

A-MA9

A-MA8

A-MA10

A-MA9

A-MA11

A-MA10

A-MA12

A-MA11

A-MA13

A-MA12 A-MA13 A-MA14

A-MBA0 A-MBA1 A-MBA2

VSSQ_1

D7

VSSQ_2

DQU0

VSSQ_3

DQU1

VSSQ_4

DQU2

VSSQ_5

DQU3

VSSQ_6

DQU4

VSSQ_7

DQU5

VSSQ_8

DQU6

VSSQ_9

A-MCK A-MBA0 C1209 0.01uF 50V

A-MCKE

A-MBA1 A-MBA2 A-MCK A-MCKB

A-MCKB

DQU7

C3 C8 C2 A7 A2 B8 A3

C14 B11 F12 C15 E12 A14 D11 B14 D12 C16 C13 A15 E11 B13

A_DDR3_A[0]

B_DDR3_A[0]

A_DDR3_A[1]

B_DDR3_A[1]

A_DDR3_A[2]

B_DDR3_A[2]

A_DDR3_A[3]

B_DDR3_A[3]

A_DDR3_A[4]

B_DDR3_A[4]

A_DDR3_A[5]

B_DDR3_A[5]

A_DDR3_A[6]

B_DDR3_A[6]

A_DDR3_A[7]

B_DDR3_A[7]

A_DDR3_A[8]

B_DDR3_A[8]

A_DDR3_A[9]

B_DDR3_A[9]

A_DDR3_A[10]

B_DDR3_A[10]

A_DDR3_A[11]

B_DDR3_A[11]

A_DDR3_A[12]

B_DDR3_A[12]

A_DDR3_A[13]

B_DDR3_A[13]

A_DDR3_A[14]

B_DDR3_A[14]

B-MA1

B23 D25 F22 G22 E24 F21 E23 D22

B-MA0

B-MA2

B-MA1

B-MA3

B-MA2

B-MA4

B-MA3

B-MA5

B-MA4

B-MA6

B-MA5

B-MA7

B-MA6

B-MA8

D21 C24 C25 F23

A-MCKE

F13 B15 E13

B_DDR3_BA[0]

A_DDR3_BA[1]

B_DDR3_BA[1]

A_DDR3_BA[2]

B_DDR3_BA[2]

C17 A17 B16

E21

B_DDR3_MCLK

A_DDR3_MCLKZ

B_DDR3_MCLKZ

A_DDR3_MCLKE

P8 P2 R8 R2 T8 R3

B-MA8

B-MA10

B-MA9

B-MA11

B-MA10

B-MA12

B-MA11

B-MA13

L7 R7 N7 T3

D23

B-MBA0

F24

OS C1240

B-MBA1

F20

B-MBA2

0.01uF 50V

B-MCK

G23

N8

B-MBA1

M3

B-MBA2

B-MCKE

K1

B-MODT A-MODT A-MRASB

AVDD_DDR0

A-MCASB R1231 A-MWEB 10K

A-MODT A-MRASB A-MCASB A-MWEB

A-MRESETB

E14 B12 A12 C12

AVDD_DDR0

D20 A_DDR3_ODT

B_DDR3_ODT

A_DDR3_RASZ

B_DDR3_RASZ

A_DDR3_CASZ

B_DDR3_CASZ

A_DDR3_WEZ

B-MCASB

A24

B-MWEB

B_DDR3_WEZ

F11

K3

OS

L3

B-MWEB

A-MDQSLB

A-MDQSL A-MDQSLB

A-MDQSU A-MDQSUB

A-MDQSU A-MDQSUB

A-MDML A-MDMU

A-MDML A-MDMU

A-MDQL0 A-MDQL1 A-MDQL2 A-MDQL3

A-MDQL0 A-MDQL1 A-MDQL2

A-MDQL4

A-MDQL3

A-MDQL5

A-MDQL4

A-MDQL6

A-MDQL5

A-MDQL7

A-MDQL6 A-MDQL7

A-MDQU0 A-MDQU1 A-MDQU2

A-MDQU0 A-MDQU1

A-MDQU3

A-MDQU2

A-MDQU4

A-MDQU3

A-MDQU5

A-MDQU4

A-MDQU6

A-MDQU5

A-MDQU7

A-MDQU6 A-MDQU7

B19 C18

B_DDR3_DQSL

A_DDR3_DQSLB

A18

B_DDR3_DQSU

A_DDR3_DQSUB E15 A21

B_DDR3_DQML

A_DDR3_DQMU

B_DDR3_DQMU

D17 G15 B21 F15 B22 F14 A22 D15

B_DDR3_DQL[0]

A_DDR3_DQL[1]

B_DDR3_DQL[1]

A_DDR3_DQL[2]

B_DDR3_DQL[2]

A_DDR3_DQL[3]

B_DDR3_DQL[3]

A_DDR3_DQL[4]

B_DDR3_DQL[4]

A_DDR3_DQL[5]

B_DDR3_DQL[5]

A_DDR3_DQL[6]

B_DDR3_DQL[6]

A_DDR3_DQL[7]

B_DDR3_DQL[7]

A_DDR3_DQU[0]

B_DDR3_DQU[0]

G16 B20 F16 C21 E16 A20 D16 C20

B-MDQSUB

B_DDR3_DQU[1]

A_DDR3_DQU[2]

B_DDR3_DQU[2]

A_DDR3_DQU[3]

B_DDR3_DQU[3]

A_DDR3_DQU[4]

B_DDR3_DQU[4]

A_DDR3_DQU[5]

B_DDR3_DQU[5]

A_DDR3_DQU[6]

B_DDR3_DQU[6]

A_DDR3_DQU[7]

B_DDR3_DQU[7]

D3

B-MDMU B-MDMU

B-MDQL0

A10/AP

VDD_2

A11

VDD_3

A12/BC

VDD_4

A13

VDD_5 VDD_6 VDD_7 VDD_8

BA0

J24 L24

B-MDQL0

B-MDQL2

B-MDQL1

B-MDQL3

B-MDQL2

J23 M24 H23

F7 F2 F8 H3

B-MDQL4

B-MDQL3

B-MDQL5

B-MDQL4

B-MDQL6

B-MDQL5

M23

H8 G2 H7

B-MDQL7

CK

VDDQ_2

CK

VDDQ_3

CKE

VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

B-MDQL7

C3

B-MDQU1

K20 H20 L21 H21

C8

B-MDQU2

B-MDQU1

H22

K2 K8 N1 N9 R1 R9

G3

NC_4 DQSL

OS C1228 OS C1229

0.1uF

OS C1230 OS C1231

0.1uF

RAS

VDDQ_8

CAS

VDDQ_9

K9

E9

L2

F1

K1

H2 H9

C2

B-MDQU3

B-MDQU2

B-MDQU4

B-MDQU3

B-MDQU5

B-MDQU4

B-MDQU6

B-MDQU5

B-MDQU7

A7 A2 B8 A3

J3 K3 L3

NC_1

J9

NC_2

B7

0.1uF 0.1uF

OS C1234 OS C1235

0.1uF 0.1uF

F2

OS C1236

0.1uF

F8

D3

DQSU

VSS_1

DQSU

VSS_2

T7

H8

A8

G2

C1

H7

VSS_4

DMU

VSS_5

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

C8

F1

C2

H2

A7 A2

H9

B8

C7

B3

B7

J2

D3

M1

E3

M9

F7

P1

F2

P9

F8

T1 T9

H3 H8 G2 H7

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

D7

D1

C3

D8

C8

E2

C2

E8

A7

F9

A2

G1 G9

B8 A3

IC1201-*2 NT5CB64M16DP-CF

L9 T7

P7

A9 DQSU

VSS_1

DQSU

VSS_2 VSS_3

DML

VSS_4

DMU

VSS_5 VSS_6

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

P3

B3

N2

E1

P8

G8

P2 R8

J2

R2

J8

T8

M1

R3

M9

L7

P1

R7 N7

P9

T3

T1 T9

N8

VSSQ_2

DQU1

VSSQ_3

DQU2

VSSQ_4

DQU3

VSSQ_5

DQU4

VSSQ_6

DQU5

VSSQ_7

DQU6

VSSQ_8

DQU7

VSSQ_9

A3

M3

H1 VREFDQ

A6

L8 ZQ

K7

D8

K9

E2 E8

L2

F9

K1 J3

G1

K3

G9

L3

R2 B2

A9

VDD_1

A10/AP

VDD_2

A11

VDD_3

A12

VDD_4

NC_6

VDD_5 VDD_6 VDD_7 VDD_8

R3

D9

L7

G7

R7

K2

N7

K8

T3

N1 N9 R9

VDD_9

VDDQ_1 CK

VDDQ_2

CK

VDDQ_3

CKE

VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

N8

D3

DDR_DVB_T2_2G

DDR_DVB_T2_2G

DDR_1600_MICRON

DDR_1600_MICRON

IC1201-*3 K4B2G1646C

IC1202-*3 K4B2G1646C

IC1201-*6 MT41J64M16JT-125:G

IC1202-*6 MT41J64M16JT-125:G

NC_2 NC_4

A8

J7

C1

K7

C9

K9

D2 E9

L2

F1

K1

H2 H9

J3 K3 L3

J9

P3 N2 P8 P2 R8 R2 T8 R3 L7 R7 N7 T3

M8

A3

VREFDQ

L8

T8 VDD_1

A10/AP

VDD_2

A11

VDD_3

A12/BC

VDD_4

A13

VDD_5

NC_5

VDD_7

BA0

VDD_9

VDD_6 VDD_8

K7

J3 L3

CK

VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

WE

R7 N7

K8

T3

N1 N9 R9

RESET

NC_2 NC_3 NC_4

F3 DQSL

C1

K7 K9 L2

F1

K1

H2

J3

H9

K3 L3

DQSU DQSU DML DMU

F7 F8 H3 H8 G2 H7

VSS_2 VSS_4 VSS_5 VSS_6

E3 F2

VSS_1 VSS_3

E7

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

C3 C8 C2 A7 A2 B8 A3

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

VDD_1

A10/AP

VDD_2 VDD_3

A12/BC

VDD_4

A13

VDD_5

NC_5

VDD_7

BA0

VDD_9

VDD_6 VDD_8

B2

R3

D9

L7

G7

R7

K2

N7

K8

T3

N1 N9 R9

N8

CK

VDDQ_2

CK

VDDQ_3 VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

RESET

NC_2 NC_3 NC_4

DQSL

C1

K7

C9

K9 L2

F1

K1

H2

J3

H9

K3 L3

C7

B3

B7

G8

E7

J2

D3

M9

F7

P1

F2

P9

F8

T1

H3

T9

H8 G2 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

B9

VSS_2 VSS_4 VSS_5

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

D1

C3

D8

C8

E2

C2

E8

A7

F9

A2

G1

B8

G9

A3

VDD_4

A13

VDD_5

A15

VDD_7

BA0

VDD_9

VDD_6 VDD_8

B2

R3

D9

L7

G7

R7

K2

N7

K8

T3

N1 N9 R9

N8

CK

VDDQ_2

CK

VDDQ_3 VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

NC_2 NC_4

DQSL

C1

K7

C9

K9 L2

F1

K1

H2

J3

H9

K3 L3

C7

B3

B7

G8

E7

J2

D3

M9

F7

P1

F2

P9

F8

T1

H3

T9

H8 G2

DQU0

VSSQ_2

DQU1

VSSQ_3

DQU2

VSSQ_4

DQU3

VSSQ_5

DQU4

VSSQ_6

DQU5

VSSQ_7

DQU6

VSSQ_8

DQU7

VSSQ_9

VSS_2 VSS_4 VSS_5

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

D1

C3

D8

C8

E2

C2

E8

A7

F9

A2

G1

B8

G9

A3

VDD_4

A13

VDD_5

A15

VDD_7

BA0

VDD_9

VDD_6 VDD_8

B2

R3

D9

L7

G7

R7

K2

N7

K8

T3

N1 N9 R9

N8

CK

VDDQ_2

CK

VDDQ_3 VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

NC_2 NC_4

DQSL

C1

K7

C9

K9 L2

F1

K1

H2

J3

H9

K3 L3

C7

B3

B7

G8

E7

J2

D3

M9

F7

P1

F2

P9

F8

T1

H3

T9

H8 G2

DQU0

VSSQ_2

DQU1

VSSQ_3

DQU2

VSSQ_4

DQU3

VSSQ_5

DQU4

VSSQ_6

DQU5

VSSQ_7

DQU6

VSSQ_8

DQU7

VSSQ_9

VSS_2 VSS_4 VSS_5

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

D1

C3

D8

C8

E2

C2

E8

A7

F9

A2

G1

B8

G9

A3

VDD_4

A13

VDD_5

NC_5

VDD_7

BA0

VDD_9

VDD_6 VDD_8

B2

R3

D9

L7

G7

R7

K2

N7

K8

T3

N1 N9 R9

N8

CK

VDDQ_2

CK

VDDQ_3 VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

NC_2 NC_4

DQSL

C1

K7

C9

K9 L2

F1

K1

H2

J3

H9

K3 L3

C7

B3

B7

G8

E7

J2

D3

M9

F7

P1

F2

P9

F8

T1

H3

T9

H8 G2

DQU0

VSSQ_2

DQU1

VSSQ_3

DQU2

VSSQ_4

DQU3

VSSQ_5

DQU4

VSSQ_6

DQU5

VSSQ_7

DQU6

VSSQ_8

DQU7

VSSQ_9

VSS_2 VSS_4 VSS_5

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

D1

C3

D8

C8

E2

C2

E8

A7

F9

A2

G1

B8

G9

A3

VDD_4

A13

VDD_5

NC_5

VDD_7

BA0

VDD_9

VDD_6 VDD_8

B2

R3

D9

L7

G7

R7

K2

N7

K8

T3

N1 N9 R9

N8

CK

VDDQ_2

CK

VDDQ_3 VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

NC_2 NC_4

DQSL

C1

K7

C9

K9 L2

F1

K1

H2

J3

H9

K3 L3

C7

B3

B7

G8

E7

J2

D3

M9

F7

P1

F2

P9

F8

T1

H3

T9

H8 G2

DQU0

VSSQ_2

DQU1

VSSQ_3

DQU2

VSSQ_4

DQU3

VSSQ_5

DQU4

VSSQ_6

DQU5

VSSQ_7

DQU6

VSSQ_8

DQU7

VSSQ_9

VSS_2 VSS_4 VSS_5

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

D1

C3

D8

C8

E2

C2

E8

A7

F9

A2

G1

B8

G9

A3

VDD_4

NC_6

VDD_5

A15

VDD_7

BA0

VDD_9

VDD_6 VDD_8

B2

R3

D9

L7

G7

R7

K2

N7

K8

T3

N1 N9 R9

N8

CK

VDDQ_2

CK

VDDQ_3 VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

NC_2 NC_4

DQSL

C1

K7 K9 L2

F1

K1

H2

J3

H9

K3 L3

J9

C7

B3

B7

G8

E7

J2

D3

A1 VDDQ_1

CK

VDDQ_2

CK

VDDQ_3

CKE

VDDQ_4

M9

F7

P1

F2

P9

F8

T1

H3

T9

H8 G2

DQU0

VSSQ_2

DQU1

VSSQ_3

DQU2

VSSQ_4

DQU3

VSSQ_5

DQU4

VSSQ_6

DQU5

VSSQ_7

DQU6

VSSQ_8

DQU7

VSSQ_9

VSS_2 VSS_4 VSS_5

DQ0

VSS_7

DQ1

VSS_8

DQ2

VSS_9

DQ3

VSS_10

DQ4

VSS_11

DQ5

VSS_12

D1

C3

D8

C8

E2

C2

E8

A7

F9

A2

G1

B8

G9

A3

VDD_2 VDD_3

A12/BC

VDD_4

NC_6

VDD_5

A15

VDD_7

BA0

VDD_9

VDD_6 VDD_8

G7

H7

C1 C9 D2

VDDQ_5 CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

E9 F1 H2 H9 J1

NC_1

J9

NC_2

L1 L9

NC_4 DQSL

T7

NC_6

A9 DQSU

VSS_1

DQSU

VSS_2

B3 E1

VSS_3 DML

VSS_4

DMU

VSS_5

G8 J2 J8

VSS_6 DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

M1 M9 P1 P9 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 D8 E2 E8 F9 G1 G9

VSS_1

DQSU

VSS_2 VSS_3

CK

VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

N9

NC_2 NC_3 NC_4

DMU

VSS_5 VSS_6

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

R9

C3

A8

C2

C1 C9

A7

D2 E9

A2

F1 H2

B8

H9

A3

EAN61857201 VREFCA

A1 A2

H1

A3

VREFDQ

A4 A5

L8

A6

ZQ

A7 A8

B2

A9

VDD_1

A10/AP

VDD_2

A11

VDD_3

A12

VDD_4

NC_6

VDD_5 VDD_6 VDD_7 VDD_8

BA0

T7

G7 K2 K8 N1 N9 R1 R9

BA1 A1 VDDQ_1 CK

VDDQ_2

CK

VDDQ_3

CKE

VDDQ_4 VDDQ_5

CS

VDDQ_6

ODT

VDDQ_7

RAS

VDDQ_8

CAS

VDDQ_9

A8 C1 C9 D2 E9 F1 H2 H9 J1

NC_1

T2 RESET

NC_2 NC_3 NC_4

F3 G3

D9

VDD_9

L9

A9

C7

B3

B7

E1 G8 J2

DQSL

J9 L1 L9 T7

NC_7

D3

M1

E3

M9

F7

P1

F2

P9

F8

T1

H3

T9

H8 G2 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

B9

D7

D1

C3

D8

C8

E2

C2

E8

A7

F9

A2

G1 G9

VSS_1

DQSU

VSS_2 VSS_3

DML

VSS_4

DMU

VSS_5 VSS_6

DQL0

VSS_7

DQL1

VSS_8

DQL2

VSS_9

DQL3

VSS_10

DQL4

VSS_11

DQL5

VSS_12

B8 A3

B3 E1 G8 J2 J8 M1 M9 P1 P9 T1 T9

DQL6 DQL7

B1 VSSQ_1

A9 DQSU

E7

J8

DQL6

D7

R1

J1 NC_1

VSS_4

K8

A1

CK

DML

N1

M8 A0

DQSL

DQL7

K2

C8 VDDQ_1

DQSL

G2

D9

BA1

RESET

C7

B3

B7

G8

E7

J2

D3

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

J9 L1 L9 T7

NC_5

M9

F7 F2

P9

F8

T1

H3

T9

H8 G2

DQ8

VSSQ_2 VSSQ_3

DQ10

VSSQ_4

DQ11

VSSQ_5

DQ12

VSSQ_6

DQ13

VSSQ_7

DQ14

VSSQ_8

DQ15

VSSQ_9

VSS_4 VSS_5

DQ0

VSS_7

DQ1

VSS_8

DQ2

VSS_9

DQ3

VSS_10

DQ4

VSS_11

DQ5

VSS_12

D1

C3 C8

E2

C2

E8

A7

F9

A2

G1

B8

G9

A3

G8 J2 J8 M1 M9 P1 P9 T1 T9

B1 VSSQ_1

D7

D8

B3 E1

DQ6 DQ7

B1

DQ9

VSS_2

VSS_6

E3

P1

B9

A9 VSS_1 VSS_3 DML DMU

J8 M1

DQSU DQSU

E1

H7 VSSQ_1

D7

A10/AP

F3

A9

DQ6 DQ7

B1 B9

VSS_1

VSS_6

E3

A8

DQSL

VSS_3 DML DMU

J8 M1

DQSU DQSU

E1

B2 VDD_1

A11

T2

G3

H8

A7

L9

NC_5

L8 ZQ

A8 A9

F8 H3

WE

L1 T7

VREFDQ

A5 A6

CKE

D2 E9

J1 NC_1

A3

H1

A4

J7

C9

F2

A1

BA2

A1 A8

VREFCA

A2

M2 M3

VDDQ_1

M8 A0

M7

R1

BA1

NC_3

H7 VSSQ_1

D7

VDD_2 VDD_3

A12/BC

RESET

A9

DQL6 DQL7

B1 B9

VSS_1

VSS_6

E3

VDD_1

A10/AP

F3 G3

R2 T8

A11

T2

R8

DQSL

VSS_3 DML DMU

J8 M1

DQSU DQSU

E1

L8

A7

L9

NC_6

P8

ZQ

A8 A9

N2 P2

WE

L1 T7

VREFDQ

A5 A6

CKE

D2 E9

J9

P3 H1

A4

J7

J1 NC_1

A3

N3 P7

A1

BA2

A1 A8

VREFCA

A2

M2 M3

VDDQ_1

M8 A0

M7

R1

BA1

NC_3

H7 VSSQ_1

D7

VDD_2 VDD_3

A12/BC

RESET

A9

DQL6 DQL7

B1 B9

VSS_1

VSS_6

E3

VDD_1

A10/AP

F3 G3

R2 T8

A11

T2

R8

DQSL

VSS_3 DML DMU

J8 M1

DQSU DQSU

E1

L8

A7

L9

NC_6

P8

ZQ

A8 A9

N2 P2

WE

L1 T7

VREFDQ

A5 A6

CKE

D2 E9

J9

P3 H1

A4

J7

J1 NC_1

A3

N3 P7

A1

BA2

A1 A8

VREFCA

A2

M2 M3

VDDQ_1

M8 A0

M7

R1

BA1

NC_3

H7 VSSQ_1

D7

VDD_2 VDD_3

A12/BC

RESET

A9

DQL6 DQL7

B1 B9

VSS_1

VSS_6

E3

VDD_1

A10/AP

F3 G3

R2 T8

A11

T2

R8

DQSL

VSS_3 DML DMU

J8 M1

DQSU DQSU

E1

L8

A7

L9

NC_6

P8

ZQ

A8 A9

N2 P2

WE

L1 T7

VREFDQ

A5 A6

CKE

D2 E9

J9

P3 H1

A4

J7

J1 NC_1

A3

N3 P7

A1

BA2

A1 A8

VREFCA

A2

M2 M3

VDDQ_1

M8 A0

M7

R1

BA1

NC_3

H7 VSSQ_1

D7

VDD_2 VDD_3

A12/BC

RESET

A9

DQL6 DQL7

B1 B9

VSS_1

VSS_6

E3

VDD_1

A10/AP

F3 G3

R2 T8

A11

T2

R8

DQSL

VSS_3 DML DMU

J8 M1

DQSU DQSU

E1

L8

A7

L9

NC_6

P8

ZQ

A8 A9

N2 P2

WE

L1 T7

VREFDQ

A5 A6

CKE

D2 E9

J9

P3 H1

A4

J7

J1 NC_1

A3

N3 P7

A1

BA2

A1 A8

VREFCA

A2

M2 M3

VDDQ_1

M8 A0

M7

R1

BA1

NC_3

H7 VSSQ_1

D7

VDD_2 VDD_3

A12/BC

RESET

A9

DQL6 DQL7

B1 VSSQ_1

VSS_1

VSS_6

E3

VDD_1

A10/AP

F3 G3

R2 T8

A11

T2

R8

DQSL

VSS_3 DML DMU

J8 M1

DQSU DQSU

E1

L8

A7

L9

NC_6

P8

ZQ

A8 A9

N2 P2

WE

L1 T7

VREFDQ

A5 A6

CKE

D2 E9

J9

P3 H1

A4

J7

J1 NC_1

A3

N3 P7

A1

BA2

A1 A8

VREFCA

A2

M2 M3

VDDQ_1

M8 A0

M7

R1

BA1

F3

A9

DQL6 DQL7

D7

R2 T8

A11

T2

R8

DQSL

C7

D3

L8

A7

L9 G3

P8

ZQ

A8 A9

N2 P2

WE

L1

NC_6

VREFDQ

A5 A6

CKE

D2 E9

T7

P3 H1

A4

J7

DQSL

B7

A3

N3 P7

A1

BA2

C9

J9

VREFCA

A2

M2 N8

A8

M8 A0

M7

R1

J1 NC_1

T2

G3

G7 K2

A1

CK CKE

K3

R3 L7

M3 VDDQ_1

L2 K1

B2 D9

BA1

J7

R8 R2

A7

BA2

K9

P8

ZQ

A8 A9

N2 P2

A5

M2 N8

P3 H1

A4 A6

N3 P7

A1 A2

M7

M3

VREFCA

R9

WE

L1

NC_7

DQSU

E3 F7

A0

R1

BA1

BA2

J1 NC_1

E7

N3

N9

VDD_9

M2

A1

WE

B7

P7

BA0

NC_5

M3

C7

IC1202-*4 H5TQ1G63DFR-PBC

N1

VDD_8

M7

R1

BA1

DQSL

R8 T8

A8

J7

D1

P8

A7

BA0

N2 P2

A5

BA2

B9

P7

A4

RESET

IC1201-*4 H5TQ1G63DFR-PBC

K8

VDD_7

N3 P3

A2

M2

B1

EAN61857201 VREFCA

A1

NC_5

DQL6

DQU0

K2

VDD_6

DDR_1333_NANYA_NEW M8

A0

M7

VSS_12

VSSQ_1

G7

IC1202-*2 NT5CB64M16DP-CF

DQSL

IC1202-*5 K4B1G1646G-BCK0

VDD_5

DDR_1333_NANYA_NEW

G3

IC1201-*5 K4B1G1646G-BCK0

A13

D9

B-MA14

NC_6

T2

DDR_1600_HYNIX

VDD_4

L1

B-MDQU7

DDR_1600_HYNIX

A12/BC

J9

F3

DDR_1600_SS

VDD_3

DQL7

B1

NC_3

DDR_1600_SS

VDD_2

A11

E7

J8

DQL6

D7 C3

VDD_1

A10/AP

F3

A9

G8

VSS_6

C9 E9

B2

A9

NC_3

E1

DQL7

D2

A8

RESET

G3

VSS_3 DML

E3

H3

ZQ

A7

DQSL

0.1uF F7

L8

A6

L9

NC_6

E7

OS C1232 OS C1233

A5

T2

L1

NC_4 DQSL

VREFDQ

A4

WE

J1

C7

0.1uF

B-MDQU6

K21

VDDQ_7

K7

C9

DQSL

J1 NC_2

ODT

NC_3

A3

D7

B-MDQU0

B-MDQU0

L22

G7

10uF

VDDQ_9 NC_1

VDDQ_6

RESET

A1 VDDQ_1

CS

J7

C1 D2

VDDQ_5

AVDD_DDR0

C1227

D9

BA1

DQL7

B-MDQL6

K23

VDDQ_4

F3

VDD_9

E3

B-MDQL1

G21 A_DDR3_DQU[1]

VDD_1

E7

B-MDML

B-MDML

L20 L23

A_DDR3_DQL[0]

B7

B-MDQSU

J20 H24

A_DDR3_DQML

A9

C7

B-MDQSU B-MDQSUB

B_DDR3_DQSUB

CKE

H1

A3

BA2

A8

N3

B-MDQSLB

J21 A_DDR3_DQSU

VDDQ_3

DQSL

B-MDQSL

K25

B_DDR3_DQSLB

B18

G3

VDDQ_2

A2

M2 N8

VDDQ_1 CK

VREFCA

A1

NC_5

A1

CK

M8 A0

M7

M3

T2

B2

F3

B-MDQSLB

K24 A_DDR3_DQSL

A8

T3

R9

WE

240 1%

A7

RESET

B-MRESETB

B_DDR3_RESET

L3

ZQ

T2

B-MDQSL A-MDQSL

A6

WE

B-MRESETB

OS R1226

L8

NC_3

E20 A_DDR3_RESET

R1232 10K

B-MRASB

B24

J3

B-MRASB B-MCASB

B-MODT

B25

A5

L2

B-MCKE

B_DDR3_MCLKE

J3 K3

A4

J7 K9

B-MVREFDQ

VREFDQ

BA2

K7

K1

H1

A3

B-MCKB

B-MCKB

F25

A2

K8

BA1

L2

M2

B-MBA0

K9

N7

VDD_9

A1

NC_5

B-MA14

B-MVREFCA

VREFCA

M7

B-MA13

G25 A_DDR3_MCLK

N2

B-MA12

G20 A_DDR3_BA[0]

P3

B-MA9

B-MA7

D24

B-MCK

A-MRESETB

NC_4

A9

G8

A-MA5

A-MA7

NC_3

DQSL

E1

A-MA6

K7

WE

NC_6

B3

A-MA4

L2

VDDQ_6

NC_2

A-MA3

A-MA5

J7

VDDQ_3

J1 J9

R2

A-MA4

M7

VDD_8

A1

C9

R8

A-MA2

A-MA3

NC_5

BA1

C1

P2

A13

VDD_6

VDD_9

A8

A-MA14

A6

P8

A-MA1

S7LR2_DIVX_MS10

OS

VREFDQ

A-MA2

1%

A-MVREFDQ

N2

A-MA0

R1235 56

H1

P3

A-MA1

A11

56 R1237

A2

A-MA0

1%

A1

P7

P7

56 R1238

A0

1%

VREFCA

R1236 56

A-MVREFCA

OS 1%

N3

K7

M8 A0

R7

K2

R1

VDD_8

J7

DDR_1333_HYNIX N3

B-MA0

L7

G7

N9

VDD_7

BA0

R3

N1

BA2

DDR_1333_HYNIX M8

M3

D9

VDD_6

M2 N8

R8 R2

A7

NC_5

IC1202 H5TQ1G63DFR-H9C

EAN61828901

N2 P8

A4

M7

EAN61828901

N3 P7

A1

DQ8

VSSQ_2

DQ9

VSSQ_3

DQ10

VSSQ_4

DQ11

VSSQ_5

DQ12

VSSQ_6

DQ13

VSSQ_7

DQ14

VSSQ_8

DQ15

VSSQ_9

B9 D1 D8 E2 E8 F9 G1 G9

GP4L_S7LR2 DDR_256

2011/06/03 12

Serial Flash for SPI boot

+3.5V_ST

+3.5V_ST

S_FLASH_MAIN_MACRONIX OPT R1404 4.7K

+3.5V_ST

IC1401 MX25L8006EM2I-12G CS#

/SPI_CS OPT R1403 10K

SO/SIO1 SPI_SDO WP#

/FLASH_WP OPT R1401 0

GND

C

1

8

2

7

3

6

4

5

OS C1401 0.1uF

VCC

HOLD#

SCLK SPI_SCK SI/SIO0

R1405 33 SPI_SDI

OPT Q1401 MMBT3904(NXP)

B

OS

E

S_FLASH_MAIN_WINBOND IC1401-*1 W25Q80BVSSIG CS

DO[IO1]

%WP[IO2]

GND

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

1

8

2

7

3

6

4

5

VCC

HOLD[IO3]

CLK

DI[IO0]

GP4L_S7LR2

2011/06/03

SFLASH_1MB

13

* Option name of this page : CI_SLOT (because of Hong Kong) CI Region CI SLOT

+5V_CI_ON CI_DATA[0-7]

CI TS INPUT

EAG41860102 P1901 P1902 10067972-050LF 10067972-000LF

C1903 0.1uF 16V

R1908 100

35

AR1901 33

CI_SLOT_JACK

AR1906

36

2

CI_DATA[3]

37

3

38

4

CI_DATA[4] CI_DATA[5]

39

5

CI_DATA[6]

CI_TS_DATA[6] CI_TS_DATA[7]

40

6

CI_DATA[7]

41

7

42

8

43

9

R1919

47

FE_TS_DATA[0-7] AR1904

45

11

CI_ADDR[9]

46

12

CI_ADDR[8]

CI_MDI[0]

47

13

CI_ADDR[13]

CI_MDI[1]

48

14

CI_ADDR[14]

49

15

50

16

51

17

C1905 0.1uF

0

R1920

52

18

R1916

/PCM_IRQA

0

19

54

20

55

21

CI_MDI[7]

56

22

CI_ADDR[7] CI_ADDR[6]

REG CI_TS_CLK CI_TS_VAL CI_TS_SYNC

GND

57

23

R1902

47

58

24

CI_ADDR[5]

R1901

47

59

25

CI_ADDR[4]

60

26

CI_ADDR[3]

R1925

100 33

61

27

R1926

62

28

CI_ADDR[1]

R1927

33

63

29

CI_ADDR[0]

64

30

AR1903

33

CI_ADDR[2]

CI_DATA[0]

65

31

CI_DATA[1]

CI_TS_DATA[0]

66

32

CI_DATA[2]

CI_TS_DATA[1]

67

33

CI_TS_DATA[2] CI_TS_DATA[3]

68

34

OPT R1909 0

R1907 100

G2 2

CI HOST I/F

CI_ADDR[12]

CI_ADDR[0-14] +3.3V_CI

G1 1

69

CI_DET

IC1902

/CI_CD2 +5V_Normal

GND 1OE GND

C1914 2pF 50V

R1904 10K

CLOSE TO MSTAR

VCC

C1913 0.1uF 16V

TOSHIBA 1A1 PCM_A[0]

GND

2

19

2OE

0ITO742440D

C1904 0.1uF 16V

2Y4 CI_ADDR[7] 1A2 PCM_A[1]

CI_MISTRT CI_MIVAL_ERR

2Y3 CI_ADDR[6]

3

18

4

17

5

CI_MCLKI 1A3 PCM_A[2] 2Y2 CI_ADDR[5] 1A4 PCM_A[3]

CI DETECT

2Y1 CI_ADDR[4] +3.3V_CI

GND IC1901 74LVC1G32GW

B

1

A

2

GND

3

5

VCC

4

Y

6

16

15

7

14

8

13

9

12

10

11

1Y1 CI_ADDR[0] 2A4 PCM_A[7] 1Y2 CI_ADDR[1] 2A3 PCM_A[6] 1Y3 CI_ADDR[2] 2A2 PCM_A[5] 1Y4 CI_ADDR[3]

+3.3V_CI

+3.3V_CI

+3.3V_Normal

20

1

TC74LCX244FT

PCM_RST /PCM_WAIT

T2_DMOD_CAM

C1909 0.1uF

53

10K

FE_TS_CLK OPT R1928 0

CI_WE

CI_MDI[5]

R1906

R1929 0

CI_MCLKI

CI_OE

100

CI_MDI[6]

CI_MDI[4]

FE_TS_SYNC FE_TS_VAL_ERR

CI_MIVAL_ERR

/PCM_CE

CI_ADDR[10] CI_ADDR[11]

OPT

33

CI_MISTRT

CI_IOWR

GND

FE_TS_DATA[2] FE_TS_DATA[0]

R1921 10K

10

OPT R1910

FE_TS_DATA[3] FE_TS_DATA[1]

CI_MDI[0]

44

CI_MDI[2]

33

CI_MDI[1]

CI_IORD

CI_MDI[3]

FE_TS_DATA[5] FE_TS_DATA[4]

CI_MDI[3]

CI_TS_DATA[5]

10K

FE_TS_DATA[6]

CI_MDI[5] CI_MDI[4]

CI_MDI[2]

CI_TS_DATA[4]

R1905

FE_TS_DATA[7]

CI_MDI[6]

1 CI_DATA[0-7]

/CI_CD1

33

CI_MDI[7]

FE_TS_DATA[0-7]

C1906 10uF 10V R1903 10K

AR1905

CI_DATA[0-7]

+5V_Normal

2A1 PCM_A[4]

/CI_CD2 C1908 0.1uF 16V

R1917 10K

GND

C1902 0.1uF

R1915 47 CI_DET

CI_DATA[0]

R1918 47 /PCM_CD

AR1907

33

PCM_D[0]

CI_DATA[1]

PCM_D[1]

CI_DATA[2]

PCM_D[2]

CI_DATA[3]

PCM_D[3]

CI_DATA[4]

AR1908

33

PCM_D[4]

CI_DATA[5]

PCM_D[5]

CI_DATA[6]

PCM_D[6]

CI_DATA[7]

PCM_D[7]

PCM_D[0-7]

OPT

C1901 0.1uF

/CI_CD1

CI_DATA[0-7]

L1901 BLM18PG121SN1D

CI POWER ENABLE CONTROL PCM_D[0-7] CI_DATA[0-7] +5V_CI_ON +5V_Normal

C1907 0.1uF 16V

OPT R1912 10K

R1914 22K

C1911 4.7uF 16V

L1902 BLM18PG121SN1D AR1912

D

S

Q1902 AO3407A

G

C1910 0.1uF 16V

OPT R1923 10K

OPT C1912 0.1uF 16V

33

CI_ADDR[8]

PCM_A[8]

CI_ADDR[9]

PCM_A[9]

CI_ADDR[10]

PCM_A[10]

CI_ADDR[11]

PCM_A[11]

AR1913

33

CI_ADDR[12] R1922 2.2K

PCM_A[12]

CI_ADDR[13]

PCM_A[13]

CI_ADDR[14]

PCM_A[14] /PCM_REG

REG R1913 10K PCM_5V_CTL R1924 10K

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

C Q1901 MMBT3904(NXP)

B

E

AR1909 33 CI_OE

/PCM_OE

CI_WE

/PCM_WE

CI_IORD

/PCM_IORD

CI_IOWR

/PCM_IOWR

GP4L_S7LR2 PCMCI

11/08/13 19

ETHERNET * H/W option : ETHERNET

+2.5V_Normal

ETHERNET L3707 BLM18PG121SN1D

JK2100

BS-R430051

XRJV-01V-0-D12-080

ETHERNET_UDE

1

2

3

4

5

6

7

8

1

2

3

4

ETHERNET_XMULTIPLE

JK2100-*1

1

2

3

EPHY_TN

4

5

EPHY_RP OPT D2103 5.5V ADLC 5S 02 015

5

6

6

7

OPT D2104 5.5V ADLC 5S 02 015 EPHY_RN

OPT D2101 5.5V ADLC 5S 02 015

7

8

9

EPHY_TP OPT D2105 5.5V ADLC 5S 02 015

8 9

9

9 ETHERNET C2104 0.01uF 50V

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

GP4L_S7LR2 ETHERNET

2011/06/14 21

IR/LED and control for on.y ’12 sub without IR-OUT.

+3.5V_ST R2411 100 SENSOR_SCL

R2405 10K 1%

R2404 10K 1% R2401 100

12507WR-10L

D2403 5.48VTO5.76V

L2401 BLM18PG121SN1D

1

KEY1

AMOTECH CO., LTD. OPT D2402 5.6V

L2402 BLM18PG121SN1D

R2402 100

P2400 OPT C2408 18pF 50V

KEY2 C2401 0.1uF

R2412

100

2

SENSOR_SDA OPT C2409 18pF 50V

C2402 0.1uF

OPT D2401 5.6V AMOTECH CO., LTD.

+3.5V_ST

D2404 5.48VTO5.76V

3

JP2407

4

JP2408

5

L2403 BLM18PG121SN1D 6

LED_B/LG_LOGO

C2403 0.1uF 16V

C2404 1000pF 50V

7 R2413 1.5K LED_R/BUZZ

OPT C2410 0.1uF 16V

IR_OUT

JP2409

8

JP2410

9

+3.5V_ST

10 11

R2426 3.3K IR C2407 100pF 50V

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

D2405 5.48VTO5.76V

GP4L_S7LR2 IR/CONTROL_W/O_IR_OUT

2011/08/17 23

GP4R_GLOBAL_TUNER_BLOCK OPT IC2601 74LVC1G08GW

ERROR & VALID PIN RF_SW_OPT R2603 0

OPT R2627 0

FE_TS_VAL

1

+3.3V_TU

5 OPT C2640 0.1uF 16V

RF_SWITCH_CTL RF_SW_OPT C2603 0.1uF 16V

+3.3V_TU

FE_TS_ERR 2

Close to TUNER 3

TU_T/C

TU_T2/C

TU2602 TDSS-G101D

TU_T/C/S2

TU2603 TDSN-G301D

FE_TS_VAL_ERR

R2614 100K

R2611 100

TU2601 TDSQ-G001D

OPT R2631 0

4

TUNER_RESET C2622 0.1uF 16V

GPIO must be added.

R2628 0

+3.3V_TU

1 2 3 4 5 6 7 8 9 10 11

NC

1

RESET

2

SCL

3

SDA

4

+3.3V

5

SIF

6

+1.8V

7

CVBS

8

IF_AGC

9

DIF[P]

10

DIF[N]

11

NC_1

1

RESET

2

SCL

3

SDA

4

+B1[3.3V]

5

SIF

6

+B2[1.8V]

7

CVBS

8

NC_2

9

NC_3

10

NC_4

11

OPT R2615 0

NC_1 RESET

R2871 1K

R2870 1K

SCL

R2609

TU_SCL

SDA

R2610 C2607 20pF 50V

+B1[3.3V]

33

R2618 470 R2619 82 TU_SIF C2621 100pF 50V

SIF

CVBS

+3.3V_TU

TU_SDA

C2652 20pF 50V

C2651 20pF 50V

C2612 20pF 50V

C2623 0.1uF 16V

C2602 100pF 50V

C2626 0.1uF 16V

+2.5V_TU

OPT C2606 100uF 16V

C2604 0.1uF 16V

OPT R2607 0

R2616 4.7K

Q2600 MMBT3906(NXP)

B C

TU_CVBS R2621 0

close to TUNER

T/C_IF_AGC T/C_DIF[P] T/C_DIF[N]

C2600 0.1uF 16V

E Q2601 MMBT3906(NXP)

B

OPT R2622 1K

IF_AGC_MAIN HALF_NIM/EU_NON_T2 R2608 0

R2625 220

R2624 220

E

+1.8V_TU

+B2[1.8V]

+3.3V_TU

+3.3V_TU

33

C

should be guarded by ground

HALF_NIM/EU_NON_T2 R2602 0

IF_P_MSTAR

14 15 16 17 18 19 20 21 22 23 24 25

TU_CHINA 26

TU2603-*1 TDSN-C201D 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27

RF_S/W_CTL

12

+B4[1.23V]

13

NC_5

14

GND

15

ERROR

16

SYNC

17

VALID

18

MCLK

19

D0

20

D1

21

D2

22

D3

23

D4

24

D5

25

D6

26

+3.3V_T2_TU IF_N_MSTAR HALF_NIM/EU_NON_T2 R2601 0

NC_3 NC_4 GND_1 ERROR

T2 R2606 0

OPT C2601 0.1uF 16V

T2 C2614 100pF 50V

T2 C2618 10uF 6.3V

T2 C2617 0.1uF 16V

close to TUNER FULL_NIM_NON_S AR3701

VALID

DEMOD_RESET This was being applied to the only china demod, so this has to be deleted in both main and ISDB sheet.

+3.3V_TU

T2 C2620 0.1uF 16V

T2 C2616 0.1uF 16V

SYNC

Close to the tuner

+1.23V_TU

T2 L2601 BLM18PG121SN1D

IF_AGC_SEL

IC2603 AP1117E18G-13

+1.8V_TU

INADJ/GND 47

OPT R2873 200 1%

OUT FE_TS_ERR

MCLK

FE_TS_SYNC FE_TS_VAL

AR3701-*1 33 1/16W

FE_TS_CLK

D0 OPT R2876 0

D1

27

D7

27

28

28 29

SHIELD

SDA

30

+B1[3.3V]

31

SIF +B2[1.8V]

32

CVBS

33

NC_1 NC_2

34

NC_3

35

+B3[3.3V] +B4[1.23V]

36

R2872 0

R2632 1

R2

T2_DMOD_CAM DVB_S

D2

FULL_NIM_NON_S AR3702

FE_TS_DATA[0-7] 47

FE_TS_DATA[0]

D3

FE_TS_DATA[2]

C2641 0.1uF 16V

Vo=VREF*(1+R2/R1) AR3702-*1 33 1/16W

FE_TS_DATA[1]

GND

38

37

FULL_NIM_NON_S AR3703

DVB_S FULL_NIM

47

FE_TS_DATA[4]

D5

IC2602 TJ4220GDP-ADJ [EP]GND

FE_TS_DATA[5] AR3703-*1 33 1/16W

FE_TS_DATA[6]

D6

FE_TS_DATA[7]

D7

DVB_S

+1.23V_TU

GND_3

DVB_S C2608 100pF 50V

S2_RESET

DVB_S C2611 0.1uF 16V

NC4 DVB_S C2615 10uF 10V

D4 D5 D7 D8

28 SHIELD

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

2

8

7

3

6

4

5

ADJ/SENSE

+1.23V_TU

FULL_NIM R2633 12K R2 1%

VOUT

NC_2

FULL_NIM R2634 22K 1%

R1

+1.23V_TU

S2_F22_OUTPUT

DVB_S R2600 51

DVB_S R2612 2.2K LNB_TX

DVB_S R2613 10

FULL_NIM C2647 10uF 10V

FULL_NIM C2645 0.1uF 16V

S2_RESET

+3.3V_S2_DE

S2_SCL DVB_S C2619 0.1uF 16V

S2_SDA LNB

DVB_S C2624 100pF 50V

DVB_S 22 R2605

GND_4

DVB_S C2625 0.1uF 16V

DVB_S R2604 22 DEMOD_SDA OPT C2610 18pF 50V

SHIELD

OPT C2613 18pF 50V

DVB_S_FILTER R2875-*1 MLB-201209-0120P-N2

+3.3V_TU

+2.5V_TU

Pull-up can’t be applied because of MODEL_OPT_2 Surge protectioin

VIN

DVB_S C2650 18pF 50V

OPT C2605 33pF 50V

DVB_S C2609 33pF 50V

DVB_S D2600 3.0SMCJ20A(suzhougrande) 20V

DVB_S R2874 2.2K 1W

OPT C2627 0.1uF 16V

+3.3V_S2_DE

+3.3V_TU

DVB_S L2602 BLM18PG121SN1D

+3.3V_Normal

L2606 CIS21J121

VOUT

LNB_OUT OPT C2649 18pF 50V

+3.3V_TU

OPT IC2600 AP2114H-2.5TRG1

close to TUNER DVB_S_NON_FILTER R2875 0

D2 D3

VIN3

1

Vo=0.8*(1+R2/R1)

GND

+B4[3.3V]

D0 D1

EN2

C2635 0.1uF 16V

DVB_S L2600 BLM18PG121SN1D

+B3[1.23V]

SYNC

MCLK

FULL_NIM R2629 3.3K

GND_2

ERROR

VALID

C2642 10uF 10V

VREF=1.25V

FE_TS_DATA[3]

D4

DEMOD_SCL NC_4

LNA2_CTL

R1

NC_1

RESET SCL

NC_2

9

13 SHIELD

+B3[3.3V]

THERMAL

12

12

GND

OPT R2620 1 1/16W 5%

DVB_S C2632 10uF 10V

C2630 0.1uF 16V OPT C2628 10uF 10V

OPT C2629 0.1uF 16V

DVB_S C2634 0.1uF 16V

C2643 22uF 10V

C2644 0.1uF 16V

C2646 22uF 10V

C2648 0.1uF 16V

+3.3V_T2_TU T2 L2603 BLM18PG121SN1D

T2 C2631 10uF 10V

T2 C2633 0.1uF 16V

GP4L_S7LR2 TUNER_EU

2011/12/09 26

DVB-S2 LNB Part Allegro (Option:LNB)

LNB D2702 40V SX34

LNB ZD1 40V

3A

2A LNB C2701 0.01uF 50V

LNB C2713 1uF 50V

LNB C2705 68uF 35V

LNB C2707 68uF 35V

+12V_LNB

LNB L2700 33UH SP-7850_33 2.4A

close to Boost pin(#1)

DCDC_GND

LNB C2712 0.1uF 50V

LNB C2711 10uF 25V

DCDC_GND

LNB D2703 MBR230LSFT1G

DCDC_GND and A_GND are connected DCDC_GND and A_GND are connected in pin#27 PCB_GND and A_GND are connected

close to VIN pin(#25) DCDC_GND

A_GND

LNB_OUT

Input trace widths should be sized to conduct at least 3A

2

TCAP

3

NC_9

BFI

BFO 22

23

LX

VIN

24

NC_8

20

NC_7

19

BFC

18

NC_6

NC_4

TDI

7

15

NC_3

IRQ

NC_2

SCL

ADD

GND

A_GND

A_GND R2705 0

+3.3V_Normal DCDC_GND

A_GND

LNB

A_GND

Max 1.3A +12V/+15V

+12V_LNB LNB

C2710

L2701 BLM18PG121SN1D OPT

27pF

R2702 33 OPT

C2709

27pF

LNB

R2701 33 LNB

0.22uF

LNB R2704 4.7K

C2708

R2706 0

14

16

13

NC_5

6

12

17

EXTM

11

5

LNB

10

4

TDO

8

LNB_TX

21

IC2700 A8290SETTR-T

NC_1

A_GND

THERMAL 29

9

LNB C2706 22000pF

1

VCP

SDA

LNB C2702 0.1uF

25

BOOST

26

A_GND

27

LNB

A_GND

28

A_GND

GNDLX

Ouput trace widths should be sized to conduct at least 2A

VREG

LNB C2700 0.22uF 25V

LNB D2700 SX34 40V

[EP]

LNB C2703 0.1uF 50V

30V

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

DEMOD_SCL

DEMOD_SDA

A_GND

GP4L_S7LR2 DVB_S

2011/11/02 27

AUDIO AMP(STA380BWE)

+24V_AMP

+24V

C3403 0.1uF 16V

13 NC_1

14 NC_2

15 NC_3

16 NC_4

17 NC_5

18 NC_6

19 NC_7

20 NC_8

L3402 10.0uH 21 NC_9

C3402 0.1uF 50V

C3400 0.1uF 50V

22 NC_10

+3.3V_AMP

23 NC_11

24 NC_12

L3400 CIS21J121

NC_13 25

12 GND_REG

NC_14 26

11 VDD_REG

NC_15 27

10 OUT1A

VDDDIG1 28

9 GND1

GNDDIG1 29

8 VCC1

IC3400 STA380BW

FFX3B 31 +3.3V_AMP

EAPD/FFX4A 32 C3404 2.2uF 10V

BLM18PG121SN1D

5 VCC2 3 OUT2B

49

AGNDPLL 35

2 VSS_REG 1 VCC_REG

NON_LIPS R3412 10K

C3425 1000pF 50V

C3422 0.22uF 50V

C3426 1000pF 50V

C3423 0.22uF 50V

C3427 1000pF 50V

SPEAKER_L

SPK_L-

R3409 43

[EP]

48 VDDDIG2

47 GNDDIG2

46 TESTMODE

45 SA

44 SCL

43 SDA

42 INTLINE

41 PWDN

40 RESET

39

38

C3408 0.1uF 16V

C3414 330pF 50V R3410 43

C3419 0.22uF 50V L3405 10.0uH

SPK_R+

SPEAKER_R

SPK_R-

+3.3V_AMP +24V_AMP

AUD_LRCK

NON_LIPS R3402 100

C3407 0.1uF 16V

NON_LIPS Q3400 MMBT3904(NXP) E

LIPS R3411 0

C3411 0.1uF 50V

C3412 1uF 50V

C3415 1uF 50V

C3416 0.1uF 50V

C3417 10uF 35V

AMP_RESET

C B

AMP_MUTE

C3401 AMP_SDA 1000pF AMP_SCL 50V

R3403

0

R3404

0 OPT C3405 33pF 50V

OPT C3406 33pF 50V

P3400 WAFER-ANGLE

SPK_L+

POWER_DET SPK_L-

SPK_R+

SPK_R-

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

C3421 0.22uF 50V

SPK_L+

AUD_LRCH

NON_LIPS R3401 10K

NON_LIPS R3400 10K

SDI

37 AUD_SCK

LRCKI

BICKI

AUD_MASTER_CLK

L3403 10.0uH

C3424 1000pF 50V

L3404 10.0uH

4 GND2

VREGFILT 34 MCLK 36

+3.5V_ST

C3413 330pF 50V

C3420 0.22uF 50V

6 OUT2A

TWARNEXT/FFX4B 33 THERMAL

L3401

C3409 0.1uF 16V

C3418 0.22uF 50V

7 OUT1B

FFX3A 30 +3.3V_Normal

R3408 43

R3407 43

4

3

2

1

GP4L_S7LR2 AMP_STA380BWE

2011/11/16 34

IC102 NAND01GW3B2CN6E +3.3V_Normal

AL PF_ALE W /PF_WE WP

OS

B 3.3K

OS R102

/PF_WP

E

NC_11

R106 1K

C

NC_12

OPT Q101 MMBT3904(NXP)

NC_13 NC_14 NC_15

14

35

15

34

16

33

17

32

18

31

19

30

20

29

21

28

22

27

OS C103 0.1uF

VSS_2 NC_22

NC_20 I/O3

AUD_MASTER_CLK

AB22

PCM_D[3]

AE20

PCM_D[4]

AA15

PCM_D[5] PCM_D[6]

AE21 AB21

PCM_D[7]

Y15

PCM_A[0]

W20

OPT C112 100pF 50V

PCM_A[2]

I/O1

PCM_A[1]

I/O0

PCM_A[0]

1K

PCM_A[2]

W22

PCM_A[3]

AB18

PCM_A[4]

AA20

PCM_A[5]

AA21

PCM_A[6]

Y19

PCM_A[7]

AB17

PCM_A[8]

Y16

PCM_A[9]

AB19

PCM_A[10]

AB20

PCM_A[11]

AA16

PWM1 PWM0

NC_18

V20

AUD_MASTER_CLK_0 56

NC_19

PCM_A[1]

AUD_SCK R148

PCM_A[3]

I/O2

1K

LED_R/BUZZ

OS AR102 22

NC_21

OPT

VDD_2

R152

36

OS

NC_23

1K

CL /PF_CE1

OPT R104 10K

37

13

C102 10uF

R153

NC_9 NC_10

12

W21 AA18

PCM_A[0-14]

38

11

PCM_D[0] PCM_D[1] PCM_D[2]

OS

NC_24

OPT

VSS_1 OPT R105 1K

39

+3.3V_Normal

NC_25

R123

VDD_1

+3.3V_Normal

40

10

PCM_A[4]

1K

NC_8

9

I/O4

NON_OS

OS C101 0.1uF

PCM_A[5]

PCM_D[0-7]

Boot from 8051 with SPI flash Secure B51 without scramble Secure B51 with scramble Boot from MIPS with SPI flash Boot from MIPS with SPI flash Boot from MIPS with SPI flash Secure MIPS without scramble Scerur MIPS with SCRAMBLE

R124

NC_7 OPT R108 1K

I/O5

4’b0000 4’b0001 4’b0010 4’b0100 4’b0101 4’b0110 4’b1001 4’b1010

1K

/PF_CE0

PCM_A[6]

: : : : : : : :

1K

E

41

8

I/O6

B51_no_EJ SB51_WOS SB51_WS MIPS_SPE_NO_EJ MIPS_SPI_EJ_1 MIPS_SPI_EJ_2 MIPS_WOS MIPS_WS

OPT

/PF_OE

42

7

PCM_A[7]

R117

R

I/O7

R165

/F_RB

43

6

S7LR2_DIVX_MS10 IC101 LGE2111A-T8

<CHIP Config> (I2S_OUT_BCK,I2S_OUT_MCK,PAD_PWM1PAD_PWM0)

1K

RB

NC_26

44

5

PCM_A[0-7]

OS AR101 22

NC_27

1K

NC_6

45

R121

NC_5

46

4

R118

OS R109 3.9K

OS R107 1K

3

1K

NC_4

1’b0 1’b1

NC_28

OPT

NC_3

48 NAND_FLASH_1G_NUMONYX EAN60762401 47 2 1

R115

NC_2

<CHIP Config(LED_R/BUZZ)> Boot from SPI CS1N(EXT_FLASH) Boot from SPI_CS0N(INT_FLASH)

+3.3V_Normal NC_29

R116

NC_1

1K

NAND FLASH MEMORY

PCM_A[12]

AA19

PCM_A[13]

AC21

PCM_A[14]

AA17

/PCM_REG

23

26

24

25

+5V_Normal

AA22 AD22

/PCM_IORD

AD20

NAND_FLASH_1G_SS

/PCM_CE

AC20

/PCM_IRQA

Y18

/PCM_CD

Y21 Y22

NC_1

NC_3 NC_4 NC_5 NC_6 R/B RE CE NC_7 NC_8 VCC_1 VSS_1 NC_9 NC_10 CLE ALE WE WP NC_11 NC_12 NC_13 NC_14 NC_15

2

47

3

46

4

45

5

44

6

43

7

42

8

41

9

40

10

39

11

38

12

37

13

36

14

35

15

34

16

33

17

32

18

31

19

30

20

29

21

28

22

27

23

26

24

25

NC_2 NC_28 NC_3 NC_27 NC_4 NC_26 NC_5 I/O7 NC_6 I/O6 R/B I/O5 RE I/O4 CE NC_25 NC_7 NC_24

48

2

47

3

46

4

45

5

44

6

43

7

42

8

41

9

40 39

NC_29

NC_1

NC_28

NC_2

NC_27

NC_3

NC_26

NC_4

I/O7

NC_5

I/O6

NC_6

I/O5

RY/BY

I/O4

RE

NC_25

CE

NC_24

NC_7

/CI_CD1 /CI_CD2

1

48

2

47

3

46

4

45

5

44

6

43

7

42

8

41

9

40

10

39

NC_29

NC_23 VCC_1 VCC_2

11

38

12

37

NC_23

NC_8

VCC_2

VCC_1

11

38

12

37

VSS_1

13

36

VSS_2

VSS_1

13

36

NC_9

14

35

NC_22

NC_9

14

35

TE(US)_Multi IC101-*5 LGE2111A-TE

NC_27

T8(EU)_Multi IC101-*6 LGE2111A-T8

NC_10 CLE NC_20 ALE I/O3 WE I/O2 WP I/O1 NC_11 I/O0 NC_12 NC_19 NC_13 NC_18 NC_14 NC_17 NC_15 NC_16

15

34

16

33

17

32

18

31

19

30

20

29

21

28

22

27

23

26

24

25

NC_21

NC_10

NC_20

CLE

I/O3

ALE

I/O2

WE

I/O1

WP

I/O0

NC_11

NC_19

NC_12

NC_18

NC_13

NC_17

NC_14

NC_16

NC_15

15

34

16

33

17

32

18

31

19

30

20

29

21

28

22

27

23

26

24

25

E6

I/O8

F5 B6

I/O7

E5

I/O6

E7

I/O5

AB3

D5 B7 F7 AB5 A9 F4

NC_25

AB1

NC_24

AC2

N6 AB2

GPIO36

LVA0P

GPIO37

LVA0N

GPIO38

LVA1P

GPIO39

LVA1N

GPIO40

LVA2P

GPIO41

LVA2N

GPIO42

LVA3P

GPIO45

LVA3N

GPIO46

LVA4P

GPIO49

LVA4N

AB25

C7

AB23

E6

AC25

F5

AB24

B6

AD25

E5

AC24

D5

AE23

B7

AC23

E7

AC22 AD23 V23

LVB0P

GPIO52

LVB0N

I2C_SCKM0/GPIO53

LVB1P

I2C_SDAM0/GPIO54

LVB1N

GPIO73

LVB2P

GPIO74

LVB2N

NC_23

LVB4P

VCC_2

LVACKP

F7 AB5 AB3

GPIO50 GPIO51

A9

U24

F4

V25

AB1

V24

N6

W25

AB2

W23

AC2

AA23

LVB3P

LVA0P

GPIO36 GPIO37

LVA0N

GPIO38

LVA1P

GPIO39

LVA1N

GPIO40

LVA2P

GPIO41

LVA2N

GPIO42

LVA3P

GPIO45

LVA3N

GPIO46

LVA4P

GPIO49

LVA4N

GPIO50 LVB0P

GPIO52

LVB0N

I2C_SCKM0/GPIO53

LVB1P

I2C_SDAM0/GPIO54

LVB1N

GPIO73

LVB2P

GPIO74

LVB2N LVB3P

Y24

LVB3N LVB4P

AA24

LVB4N

VSS_2

LVACKN

Y23

LVBCKP

W24

E6

AC25

F5

AB24

B6

AD25

E5

AC24

D5

AE23

B7

AC23

E7

AC22

F7

AD23

AB5 AB3 A9

U24

F4

V25

AB1

V24

N6

W25

AB2

W23

AC2

AA23

LVA0P

GPIO36 GPIO37

LVA0N

GPIO38

LVA1P

GPIO39

LVA1N

GPIO40

LVA2P

GPIO41

LVA2N

GPIO42

LVA3P

GPIO45

LVA3N

GPIO46

LVA4P

GPIO49

LVA4N

GPIO50

22

V21

USB1_CTL

R20 T20

PCM_5V_CTL

U22

to delete CI or gate for

W1(KR)_Multi IC101-*8 LGE2111A-W1 [MULTI]

GPIO193

T24

GPIO194

GPIO194

T23

AB25

C7

AB23

E6

AC25

F5

AB24

B6

AD25

E5

AC24

D5

AE23

B7

AC23

E7

AC22 AD23

LVB0P

GPIO52

LVB0N

I2C_SCKM0/GPIO53

LVB1P

I2C_SDAM0/GPIO54

LVB1N

GPIO73

LVB2P

GPIO74

LVB2N LVB3P

Y24

LVB3N

AA25

LVB4P

AA24

F7 AB5 AB3

V23

GPIO51

NF_WPZ/GPIO198 NF_CEZ/GPIO137

PCMADR[0]/GPIO125

NF_CLE/GPIO136

PCMADR[1]/GPIO124

NF_REZ/GPIO139

PCMADR[2]/GPIO122

NF_WEZ/GPIO140

PCMADR[3]/GPIO121

NF_ALE/GPIO141

PCMADR[4]/GPIO99

NF_RBZ/GPIO142

A9

U24

F4

V25

AB1

V24

N6

W25

AB2

W23

AC2

AA23

LVA0P

GPIO36 GPIO37

LVA0N

GPIO38

LVA1P

N25

GPIO39

LVA1N

GPIO40

LVA2P

GPIO41

LVA2N

GPIO42

LVA3P

GPIO45

LVA3N

GPIO46

LVA4P

GPIO49

LVA4N

GPIO50

N24

LVBCKP

W24

LVB0P

GPIO52

LVB0N

I2C_SCKM0/GPIO53

LVB1P

I2C_SDAM0/GPIO54

LVB1N

GPIO73

LVB2P

GPIO74

LVB2N LVB3P

Y24

LVB3N

AA25

LVB4P

AA24

U23

GPIO193

T24

GPIO194

T23

A8

MODEL_OPT_7

AE23

I2C_SCL

AC23 AC22

I2C_SDA

AD23

U24

R136

22

P23

R137

22

P24

V24

D1

RGB_DDC_SCL

W25

LVBCKP

PCMADR[8]/GPIO108 PM_UART_TX/GPIO_PM[1]/GPIO7

PCMADR[11]/GPIO112

GPIO_PM[2]/GPIO8

PCMADR[12]/GPIO104

GPIO_PM[3]/GPIO9

PCMADR[13]/GPIO107

GPIO_PM[4]/GPIO10

PCMADR[14]/GPIO106

PM_UART_RX/GPIO_PM[5]/GPIO11 PM_SPI_SCZ1/GPIO_PM[6]/GPIO12 GPIO_PM[7]/GPIO13 GPIO_PM[8]/GPIO14

W24

U23

GPIO193

T24

GPIO194

T23

GPIO195

GPIO_PM[9]/GPIO15

PCMWE_N/GPIO197

PM_SPI_SCZ2/GPIO_PM[10]/GPIO16

PCMIORD_N/GPIO111

PWM0

N23

PWM1

W24

PWM2

T25

LED_B/LG_LOGO

P22 R21 P20

U23 T24

F6

T23

LED_R/BUZZ

GPIO195

/F_RB

PCMCE_N/GPIO115

G5

KEY2

G4

I/O3 S7LR2_DIVX_AT_ASE IC101-*1 LGE2111A-TE

I/O2

S7LR2_DIVX_AT_SPIL IC101-*2 LGE2111A-TE SPIL

S7LR2_DIVX_DTS_AT IC101-*3 LGE2111A-W1

J5

S7LR2_DIVX_CN IC101-*4 LGE2111A-VD

SCART1_MUTE I/O1

C7 E6 F5

NC_19

B6 E5 D5

NC_18

B7 E7 F7

NC_17

AB5 AB3 A9

NC_16

F4 AB1

GPIO36

LVA0P

GPIO37

LVA0N

GPIO38

LVA1P

GPIO39

LVA1N

GPIO40

LVA2P

GPIO41

LVA2N

GPIO42

LVA3P

GPIO45

LVA3N

GPIO46

LVA4P

GPIO49

LVA4N

GPIO51

LVB0P LVB0N

I2C_SCKM0/GPIO53

LVB1P

I2C_SDAM0/GPIO54

LVB1N

GPIO73

LVB2P

GPIO74

LVB2N

C7 E6

AC25

F5

AB24

B6

AD25

E5

AC24

D5

AE23

B7

AC23

E7

AC22

F7

AD23

AB5 AB3

GPIO50 GPIO52

AB25 AB23

V23

A9

U24

F4

V25

AB1

V24

N6

W25

AB2

W23

AC2

AA23

LVA0P

GPIO36 GPIO37

LVA0N

GPIO38

LVA1P

GPIO39

LVA1N

GPIO40

LVA2P

GPIO41

LVA2N

GPIO42

LVA3P

GPIO45

LVA3N

GPIO46

LVA4P

GPIO49

LVA4N

GPIO50 GPIO51

LVB0P

GPIO52

LVB0N

I2C_SCKM0/GPIO53

LVB1P

I2C_SDAM0/GPIO54

LVB1N

GPIO73

LVB2P

GPIO74

LVB2N LVB3P

Y24

LVB3N

AA25

LVB4P

AA24

LVB4N

C7 E6

AC25

F5

AB24

B6

AD25

E5

AC24

D5

AE23

B7

AC23

E7

AC22

F7

AD23

AB5 AB3

V23

A9

U24

F4

V25

AB1

V24

N6

W25

AB2

W23

AC2

AA23

LVA0P

GPIO36 GPIO37

LVA0N

GPIO38

LVA1P

GPIO39

LVA1N

GPIO40

LVA2P

GPIO41

LVA2N

GPIO42

LVA3P

GPIO45

LVA3N

GPIO46

LVA4P

GPIO49

LVA4N

GPIO50 GPIO51

LVB0P

GPIO52

LVB0N

I2C_SCKM0/GPIO53

LVB1P

I2C_SDAM0/GPIO54

LVB1N

GPIO73

LVB2P

GPIO74

LVB2N LVB3P

Y24

LVB3N

AA25

LVB4P

AA24

LVACKN

Y23

LVBCKP

W24

GPIO196

LVACKN

Y23

LVBCKP

W24

GPIO196 GPIO193

T24

GPIO194

GPIO194

T23

GPIO195

AC25

F5

AB24

B6

AD25

E5

AC24

D5

AE23

B7

AC23

E7

AC22

F7

AD23

AB5 AB3

V23

A9

U24

F4

V25

AB1

V24

N6

W25

AB2

W23

AC2

AA23 Y24 AA25 AA24

INV_CTL

J6

RL_ON

K4

POWER_ON/OFF_1

L6

PM_RXD

C2 L5

/FLASH_WP

M6

SIDE_HP_MUTE

M5

PANEL_CTL

C1

PM_MODEL_OPT_0

M4

AMP_MUTE

PM_SPI_CZ0/GPIO_PM[12]/GPIO0

PCMIRQA_N/GPIO105

PM_SPI_SDI/GPIO2

PCMCD_N/GPIO130

PM_SPI_SDO/GPIO3

A2

R147

D3 R154

22

B2 B1

33 R146

SPI_SCK

33

/SPI_CS

OPT R151

SPI_SDI

33

SPI_SDO

for SERIAL FLASH

PCMWAIT_N/GPIO100

TS0CLK/GPIO87 PCM2_CE_N/GPIO131

TS0VALID/GPIO85

CI_TS_CLK CI_TS_VAL CI_TS_SYNC

PCM2_IRQA_N/GPIO132

AA10 Y12

CI_TS_DATA[0-7]

TS0SYNC/GPIO86

PCM2_CD_N/GPIO135 PCM2_WAIT_N/GPIO133

TS0DATA_[0]/GPIO77

PCM2_RESET/GPIO134

TS0DATA_[1]/GPIO78 TS0DATA_[2]/GPIO79

UART1_TX/GPIO43

TS0DATA_[3]/GPIO80

UART1_RX/GPIO44

TS0DATA_[4]/GPIO81

UART2_TX/GPIO65

TS0DATA_[5]/GPIO82

UART2_RX/GPIO64

TS0DATA_[6]/GPIO83

UART3_TX/GPIO47

TS0DATA_[7]/GPIO84

Y13

CI_TS_DATA[0]

Y11

CI_TS_DATA[1]

from CI SLOT

CI_TS_DATA[2]

AA12 AB12

CI_TS_DATA[3]

AA14

CI_TS_DATA[4] CI_TS_DATA[5]

AB14 AA13

CI_TS_DATA[6]

AB11

CI_TS_DATA[7] FE_TS_CLK FE_TS_VAL_ERR FE_TS_SYNC

AC15 TS1CLK/GPIO98

I2C_SCKM2/DDCR_CK/GPIO72

TS1VALID/GPI96

I2C_SDAM2/DDCR_DA/GPIO71

TS1SYNC/GPIO97

DDCA_DA/UART0_TX

TS1DATA_[0]/GPIO88

DDCA_CK/UART0_RX

TS1DATA_[1]/GPIO89 TS1DATA_[3]/GPIO91

PWM0/GPIO66

TS1DATA_[4]/GPIO92

PWM1/GPIO67

TS1DATA_[5]/GPIO93

PWM2/GPIO68

TS1DATA_[6]/GPIO94

PWM3/GPIO69

TS1DATA_[7]/GPIO95

AD15

FE_TS_DATA[0-7]

AC16 AD16

FE_TS_DATA[0]

AE15

FE_TS_DATA[1]

AE14

FE_TS_DATA[2]

AC13

FE_TS_DATA[3]

AC14

FE_TS_DATA[4]

AD12

FE_TS_DATA[5]

AD13

FE_TS_DATA[6]

AD14

FE_TS_DATA[7]

Internal demod out

PWM4/GPIO70

AB25 LVA0P

GPIO36 GPIO37

LVA0N

GPIO38

LVA1P

GPIO39

LVA1N

GPIO40

LVA2P

GPIO41

LVA2N

GPIO42

LVA3P

GPIO45

LVA3N

GPIO46

LVA4P

GPIO49

LVA4N

GPIO50 LVB0P LVB0N

I2C_SCKM0/GPIO53

LVB1P

I2C_SDAM0/GPIO54

LVB1N

GPIO73

LVB2P

GPIO74

LVB2N LVB3P LVB3N LVB4P

Y23 W24

GPIO196 GPIO193

T24

GPIO194

T23

GPIO195

GPIO195

SAR2/GPIO33 SAR3/GPIO34 SAR4/GPIO35

EU_OPT

AC25

R23

AB24

L/DIM_VS

AD25

VSYNC_LIKE/GPIO145

AC24 AE23

R24

AC23

L/DIM_SCLK

AC22 AD23

L/DIM_MOSI SENSOR_SCL

U24 V25

SENSOR_SDA

V24

R25 T21 T22

SPI1_CK/GPIO201 SPI1_DI/GPIO202 SPI2_CK/GPIO203 SPI2_DI/GPIO204

W25 W23 AA23 Y24 AA25 AA24 AE24

LVACKP LVACKN LVBCKP

AD24 Y23 W24

LVBCKN T25

U23

22

SAR1/GPIO32

LOCAL DIMMING

AB23

V23

GPIO51 GPIO52

R164

J4

SAR0/GPIO31

LVB4N

AD24

LVBCKN T25

U23

GPIO193

C7 E6

AE24 LVACKP

AD24

LVBCKN T25

AB25 AB23

LVB4N AE24

LVACKP

AD24

LVBCKN

+3.3V_Normal

AB25 AB23

LVB4N AE24

U23 T24 T23

T25 GPIO196 GPIO193 GPIO194

U23 T24 T23

S7LR2_DIVX_MS10 IC101 LGE2111A-T8

GPIO195

PWM0 R144 2.2K

PM_TXD

K5

PWM_PM/GPIO199

KEY1

I/O4

LVB4P

R161 1K

POWER_DET

K6

H6

LVBCKP

R160 1K

PF_ALE

AD19

NC_20

LVACKN

R140 R141 1K 1K

/PF_WE

AE17

GPIO_PM[11]/GPIO17 PM_SPI_SCK/GPIO1

P21

LVBCKN GPIO196

PCMOE_N/GPIO113

Y24 AA25

NC_21

LVACKP

R145 2.2K

100 PWM2

PWM_DIM

C7

A_DIM C111 2.2uF

AMP_RESET

AMP_SDA

I2C_SCL

NON_OS_512k_ST

NON_OS_512k_ATMEL

IC104-*3 M24512-RMN6TP

IC104-*4 AT24C512C-SSHD-T

E0

E1

Addr:10101--

E2

EEPROM

E5 AV_CVBS_DET

VSS

8

1

2

7

3

6

VCC

WC

A0

A1

SCL

A2

SDA

GND

1

8

A0 1

8

VCC

A1 2

7

WP

A2 3 VSS

4

6 5

SCL

C107 0.1uF R127

A0

4.7K R128

22

1

8

2

7

3

6

TUNER_RESET

WP

4

5

4

5

VCC

A1

2

7

22

I2C_SDA

A2

3

PM MODEL OPTION

AMP_SCL AMP_SDA

+3.5V_ST

4

5

EAN61133501

DEMOD_RESET

EAN43349004

NVRAM_RENESAS

IC104-*1 M24256-BRMN6TP

R1EX24256BSAS0A

R178

100

OPT

A0

R179

100

OPT

AB3 A9 R172 R173 OPT OPT

0

AB1

0

N6 AB2 AC2

AB25 GPIO36

LVA0P

GPIO37

LVA0N

GPIO38

LVA1P

GPIO39

LVA1N

GPIO40

LVA2P

GPIO41

LVA2N

GPIO42

LVA3P

GPIO45

LVA3N

GPIO46

LVA4P

GPIO49

LVA4N

GPIO50 LVB0P

GPIO52

LVB0N

I2C_SCKM0/GPIO53

LVB1P

I2C_SDAM0/GPIO54

LVB1N

GPIO73

LVB2P

GPIO74

LVB2N LVB3P LVB3N

R174 10K TOUCH_KEY

IC104-*2

R177 10K 11_SUB

SCL

R111

22

SDA

R112 C104 8pF OPT

C106 8pF OPT

22

1

8

VCC

1

8

VCC

LVB4P

I2C_SDA

E2

2

7

3

6

4

5

A1

SCL

A2

SDA

VSS

2

7

3

6

4

5

R175 10K TACT_KEY

LVACKN LVBCKP

RXA1-

AD25

RXA2+

AC24

RXA2-

AE23

RXA3+

AC23

RXA3-

AC22

RXA4+

AD23

RXA4RXB0+

U24

RXB0-

V25

RXB1+

V24

RXB1-

W25

RXB2+

W23

RXB2-

AA23

RXB3+

Y24

RXB3-

AA25

RXB4+

AA24

RXB4RXACK+

AD24

RXACK-

Y23

RXBCK+

W24

RXBCK-

LVBCKN

R176 10K 12_SUB

T25

SCL

GPIO196 GPIO193

VSS

RXA1+

AB24

AE24 LVACKP

PM_MODEL_OPT_1 WP

RXA0-

AC25

LVB4N

I2C_SCL WC

RXA0+

AB23

V23

GPIO51

PM_MODEL_OPT_0

E1 GND

AB5

F4 MODEL_OPT_1

SDA

NVRAM_ST

E0 6

F7

SCL

WP

A0’h R129

E7 applied on only SMALL PCB

MODEL_OPT_0

EAN43349003

C105 0.1uF

I2C_SCL

SDA

B7

HP_DET OLP

VCC

MODEL_OPT_2

IC104 AT24C256C-SSHL-T NVRAM_ATMEL

D5

DSUB_DET

+3.3V_Normal

*Option : HDCP_EEPROM IC103 CAT24WC08W-T

B6

SC1/COMP1_DET

SENSOR_SCL

+3.3V_Normal

F5

5V_DET_HDMI_2

SENSOR_SDA

HDCP EEPROM

E6

5V_DET_HDMI_1

AMP_SCL I2C_SDA

R113 4.7K

GPIO_PM[0]/GPIO6

PCMADR[10]/GPIO114

TS1DATA_[2]/GPIO90

Y23

/PF_OE

AD17

H5

PCMADR[9]/GPIO110

AA23

AD24

/PF_CE1

AC19

AR104 22 OS

W23

AA24

/PF_CE0

AC18

PCMADR[7]/GPIO103

D2

RGB_DDC_SDA

V25

/PF_WP

AD18

PCMADR[6]/GPIO102

UART3_RX/GPIO48

AC24

AE24 LVACKN

Y23

T25

GPIO195

AB24 AD25

MODEL_OPT_6

LVB4N LVACKP

AD24

LVBCKN GPIO196

for SYSTEM EEPROM (IC104)

AC25

B8

V23

GPIO51

AE24 LVACKN

Y23

AB23

AC17

PCMADR[5]/GPIO101

D4

PM_TXD

AB25

LVB4N LVACKP

AD24

T25 GPIO196

U23

GPIO193

LVB3P

R157

AB23

LVBCKN T25

LVB3N

A_DIM

C7

AE24 LVACKP

AD24

LVBCKN

NC_22

AB25

LVB4N AE24

AC2

A_DIM R156 10K

VD(CN)_Multi IC101-*7 LGE2111A-VD

V23

GPIO51

AA25

LVACKN

AB2

I2C

PCMDATA[7]/GPIO116

Y14

USB1_OCD

PM_RXD C7

N6

DIMMING

R122 OPT

NC_26

GPIO195

NC_21

22

E4

GPIO196

NC_22

R120

ERROR_OUT

MSTAR (IC101) Multi package (11.11.18~)

LVBCKP

VSS_2

NF_CE1Z/GPIO138

PCM_RESET/GPIO129

C109 0.1uF

NC_28

LVB3N

NC_8

AE18

PCMDATA[6]/GPIO117

U21

OPT

EAN61508001 IC102-*3 TC58NVG0S3ETA0BBBH

1

10

C108 0.1uF OPT

NAND_FLASH_1G_TOSHIBA

EAN61857001 IC102-*2 K9F1G08U0D-SCB0

NC_29

PCMDATA[5]/GPIO118

AD21

PCM_RST

48

OS AR103 22

PCMDATA[4]/GPIO119

PCMIOWR_N/GPIO109

/PCM_WAIT

1

PCMDATA[3]/GPIO120

PCMREG_N/GPIO123

/PCM_WE NC_16

R133 10K

NC_2

PCMDATA[2]/GPIO128

AB15 /PCM_OE

NC_17

R132 10K

NC_1

PCMDATA[1]/GPIO127

Y20

/PCM_IOWR

NAND_FLASH_1G_HYNIX EAN35669102 IC102-*1 H27U1G8F2BTR-BC

PCMDATA[0]/GPIO126

SDA

GPIO194

MODEL_OPT_3

U23

MODEL_OPT_4

T24

MODEL_OPT_5

T23

S2_RESET

GPIO195

EAN61548301

THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATES SPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION. FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FOR THE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.

EAN62389501

GP4L_S7LR2

2011.11.02

FLASH/EEPROM/GPIO

50

MODEL OPTION PIN NAME

FHD

HD

MODEL_OPT_1

F4

PHM_OFF

PHM_ON

VDDC 1.05V

NON_120HZ

120HZ

A8

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF

0.1uF OPT

OPT

C4024

B8

MODEL_OPT_7

OPT

C4019

MODEL_OPT_6

OPT

C4013

DVB_S

OPT

C4011

OLED

NON_DVB_S

OPT

C299

NON_OLED

T24

OPT

C4006

U23

C292

MODEL_OPT_4 MODEL_OPT_5

OPT

1uF

3D

C283

NON_3D

C280

NON_DVB_T2 DVB_T2

10uF

T25

1uF

AB2

MODEL_OPT_3

C276

MODEL_OPT_2

MODEL_OPT_1 MODEL_OPT_2

+1.10V_VDDC VDDC : 2026mA

10uF

1K HD

1K PHM_ON

R226

R211

1K DVB_T2

1K 3D R206

R208

1K OLED

DVB_S

R4027

1K

1K 120HZ

MODEL_OPT_0

R203 RF_SW_OPT 100 OPT 100 R204

RF_SWITCH_CTL

+1.10V_VDDC

AB3

C277

LNA2_CTL

OPT 100 R201 R202 BOOSTER_OPT100

HIGH

LOW

MODEL_OPT_0

10uF

IF_AGC_SEL

R291

R290

OS(not use) / NonOS_Non_ErrorOut

R4028

1K

MODEL OPTION

PIN NO.

C275

+3.3V_Normal

+2.5V_Normal

C228

+3.3V_Normal

MODEL_OPT_3

R4031 OPT R4032 OPT

100

MODEL_OPT_4

100

MODEL_OPT_5

R4040 OPT R4039 OPT

100

MODEL_OPT_6

100

MODEL_OPT_7

OS(use) NonOS_ErrorOut

HALF_NIM/ASIA

OS(not use) NonOS_Non_ErrorOut

HALF_NIM/ASIA

IC101 LGE2111A-T8

C4069-*1 68pF

C4068-*1 68pF

+1.10V_VDDC

DTV_IF

H9 IF_N_MSTAR C4069 100pF HALF_NIM/EU_NON_T2

J3

CK-_HDMI1

K3

D0+_HDMI1

J1

D0-_HDMI1 D1+_HDMI1

K2 K1

D1-_HDMI1

L2

D2+_HDMI1

L3

D2-_HDMI1

T5

DDC_SDA_1

T4

DDC_SCL_1

V5

HPD1

RXA0P

ANALOG SIF Close to MSTAR

AD3

0.1uF OPT

0.1uF OPT

0.1uF OPT

0.1uF OPT

0.1uF

0.1uF

0.1uF OPT

0.1uF

0.1uF OPT

10uF

10uF OPT

10uF

M12 M13

C232

VIFM

C267

VIFP

RXACKN

C265

RXACKP

L10

N12

C4031

C264 1000pF OPT

AC4

C4025

47

C4020

0.1uF R4003

C4014

C251

TU_SIF

C4012

CK+_HDMI1

47

K11

C4007

J2

0.1uF R4002

C4043

S7LR2_DIVX_MS10

C250

K10

L204 BLM18PG121SN1D

IC101 LGE2111A-T8

P14 P15 R10 R14

FB_CORE

R15

AC3

RXA0N

IP

RXA1P

IM

RXA1N

L227 BLM18PG121SN1D HALF_NIM/EU_NON_T2

AD4

RXA2P

SIFP

RXA2N

SIFM

GND_32 GND_33

VDDC_1

GND_34

VDDC_2

GND_35

VDDC_3

GND_36

VDDC_4

GND_37

VDDC_5

GND_38

VDDC_6

GND_39

VDDC_7

GND_40

VDDC_8

GND_41

VDDC_9

GND_42

VDDC_10

GND_43

VDDC_11

GND_44

VDDC_12

GND_45

VDDC_13

GND_46

VDDC_14

GND_47

L208 BLM18PG121SN1D

GND_48 GND_49

P10

DDCDA_DA/GPIO24 DDCDA_CK/GPIO23

AD2

C241 0.1uF

C240 0.1uF

HALF_NIM/EU_NON_T2 R4019 10K HALF_NIM/EU_NON_T2 R4004 0

HOTPLUGA/GPIO19

P19

FB_CORE

R16 L11 M14

MIUVDDC

AVDD1P0

GND_50

FB_CORE

GND_51

AVDDL_MOD

GND_52

AVDD10_LAN

GND_53

DVDD_DDR

GND_54

IF_AGC_MAIN

AE2

RF_AGC

AE6

GND_55

C4065 0.047uF 25V HALF_NIM/EU_NON_T2

OPT R4001 0

TUNER_I2C I2C_SCKM1/GPIO75

T10

AC5 HALF_NIM/EU_NON_T2 C4064 0.1uF

IF_AGC

AVDD_AU33

+3.3V_Normal

AE3

G10 AVDDLV_USB

G9

C284

OPT

K12

VDD33

+3.3V_Normal

C4068 100pF

0.1uF

C4067 HALF_NIM/EU_NON_T2 HALF_NIM/EU_NON_T2 R289 100 C258 0.1uF

Normal Power 3.3V

IF_P_MSTAR HALF_NIM/EU_NON_T2

C293

0.1uF

C4044

C257

0.1uF

100

FHD

R288

C4001

1K

1K

PHM_OFF

S7LR2_DIVX_MS10

HALF_NIM/EU_NON_T2 HALF_NIM/EU_NON_T2

R227

R212

NON_DVB_T2

1K

1K NON_3D

R209

R207

NON_OLED

1K

NON_DVB_S

R4029

1K

1K

NON_120HZ

R294

R293

OS(use) / NonOS_ErrorOut

R4030

1K

Close to MSTAR

AVDD2P5

W10 W11

TU_SCL

AD6

W12

TU_SDA

I2C_SDAM1/GPIO76

GND_56

W9 AVDD2P5_ADC_1

GND_57

AVDD2P5_ADC_2

GND_58

AVDD2P5_ADC_3

GND_59

AVDD25_REF

GND_60

Close to MSTAR

GND_61

Y17 C261

AD1

HDMI

HOTPLUGB/GPIO20 AE9 AC9 AC10 AD9 AC11 AD10 AE11 AD11 AE8 AD8 AC8

D7 RXCCKP

SPDIF_IN/GPIO152

RXCCKN

SPDIF_OUT/GPIO153

F3

CK-_HDMI2

G3

D0+_HDMI2

F1

D0-_HDMI2 D1+_HDMI2

G2 G1

D1-_HDMI2

H2

D2+_HDMI2

H3

D2-_HDMI2

R6

DDC_SDA_2

U6

DDC_SCL_2

P5

HPD2

R4

CEC_REMOTE_S7

RXC0N USB0_DM

RXC1N

USB0_DP

RXC2P USB1_DM

DDCDC_DA/GPIO28

USB1_DP

R3 N2

DSUB_R+

P3

DSUB_R-

N3

DSUB_G+

N1

DSUB_G-

M3

DSUB_B+

M2

DSUB_B-

M1

DSUB_SOG

0

CI_DET

D6

E2

SIDE USB

I2S_IN_WS/GPIO149

RXD0P RXD0N

AE12

RXD1P

I2S_OUT_MCK/GPIO154

RXD1N

I2S_OUT_SD/GPIO157

C8

R213

22

DVB_S

D8

R214

22

DVB_S

D9

M7 P7 R7

C269 10uF

DEMOD_SCL

C273 0.1uF

C271 0.1uF OPT

C270 0.1uF OPT

C274 0.1uF

C4045

AVDD_AU33

COMP2_DET

B9

AVDD25_PGA:13mA VDD33

L229 BLM18PG121SN1D

AUD_LRCH

C10

AUD_LRCK

AUR0 HSYNC0

AUL1

VSYNC0

AUR1

RIN0P

AUL2

RIN0M

AUR2

GIN0P

AUL3

GIN0M

AUR3

BIN0P

AUL4

BIN0M

AUR4

AA11

2.2uF

C237

EU_OPT

AVDD_MIU

SC1/COMP1_R_IN

AA9 AB8 C243

2.2uF

AVDD3P3_MPLL

GND_75

AVDD_DMPLL

GND_76 GND_77 GND_78 GND_79

AVDD_AU33

GND_80

AVDD_EAR33

GND_81 GND_82

VDDP_1

GND_83

VDDP_2

GND_84 GND_85

AVDD_LPLL_1

GND_86

AVDD_LPLL_2

GND_87 GND_88 GND_89

C4027 0.1uF

COMP2_L_IN

AC7 AD7

L17 M17

AVSS_PGA

PC_L_IN

AVDD_DDR0_D_1

GND_92

AVDD_DDR0_D_2

GND_93

AVDD_DDR0_D_3

GND_94

AVDD_DDR0_C

GND_95 GND_96

K17

L223

COMP2_R_IN

GND_91

J17

L15

Y10

GND_74

VDDP_NAND

K16

AA7 2.2uF

GND_73

AVDD_DVI_USB_2

V19

K15

L219 BLM18PG121SN1D

C242

AVDD_DVI_USB_1

AVDD25_PGA

SC1/COMP1_L_IN

Y9

Y8

GND_72

GND_90

EU_OPT

2.2uF

GND_71

R19

W19

VDD33 C236

GND_70

W18

HOTPLUGD/GPIO22 AB9

GND_69

V7

T19

C4070 0.1uF 16V

I2S_I/F I2S_OUT_WS/GPIO155

GND_68

AVSS_PGA

M19

AVDD2P5_MOD AUD_SCK

RXD2N DDCDD_CK/GPIO29

1uF

W7

AUD_MASTER_CLK_0

AVDD25_PGA

DVDD_NODIE

DEMOD_SDA

C9

GND_67

L7

AVDD2P5:172mA

RXD2P DDCDD_DA/GPIO30

GND_65

AVDD_NODIE

SIDE_USB1_DP

B10 I2S_OUT_BCK/GPIO156

AVDD_MOD_2

U7

VDD33 L211 BLM18PG121SN1D

SIDE_USB1_DM AMP_SCL

RXDCKN

GND_64

AVDD2P5

+2.5V_Normal

AMP_SDA

I2S_IN_SD/GPIO151

W15

AVSS_PGA AVDD_NODIE

HOTPLUGC/GPIO21 I2S_IN_BCK/GPIO150

AVDD_MOD_1

W14

AVDD25_PGA

SPDIF_OUT

DDCDC_CK/GPIO27

RXDCKP

GND_63

GND_66

AC12

RXC2N

P2

DSUB_VSYNC

U19

22pF

E3

RXC1P

AUL0 DSUB_HSYNC

C262

GND_62

V18

AVDD2P5_MOD

Normal 2.5V

CEC/GPIO5

DSUB

OPT R297

AVDD25_LAN

22pF

RXC0P

F2 CK+_HDMI2

X201 24MHz

1M

XOUT

R5 PM_MODEL_OPT_1

AC1

R287

XIN

BLM18SG121TN1D

L16

PC_R_IN

AVDD_DDR1_D_1

GND_97

AVDD_DDR1_D_2

GND_98

AVDD_DDR1_D_3

GND_99

AVDD_DDR1_C

GND_100

Close to IC with width trace

SOGIN0

GND_101

AUDIO IN

GND_102

E9

SCART1_RGB/COMP1

GND_EFUSE

V2

SC1_ID

V3

SC1_FB

R253

SC1_R+/COMP1_Pr+

33

R254

SC1_G+/COMP1_Y+ SC1_B+/COMP1_Pb+

68

C211 C212

0.047uF

U3

0.047uF

U2

R255

33

C213

0.047uF

T1

R256

C214 C215

0.047uF 0.047uF

T2

R257

68 33

R258

68

C216

0.047uF

R1

C217

1000pF

T3

SC1_SOG_IN

R2

HSYNC1

W6

VSYNC1

AUOUTL0

RIN1P

AUOUTL2

RIN1M

AUOUTL3

GIN1P

AUOUTR0

GIN1M

AUOUTR2

BIN1P

GND_104

AUDIO OUT

V6 V4 Y7

TP207

B17

TP208

C23

DDR3 1.5V

W5

A5

SCART1_Rout

U5

C11

TP209

AUOUTR3

C19

BIN1M

C22

SOGIN1

*Opt : EU_OPT

+1.5V_DDR

D14 D18

AVDD_MIU

D19

AA2

C221 C222

0.047uF 0.047uF

Y3

68

V1

C223

0.047uF

W3

C224

1000pF

W1

AD5 AUVRM

GIN2M

AE5

BIN2P

AUVAG

BIN2M

AUVRP

SOGIN2

R244

TU_CVBS

R245

SC1_CVBS_IN

R246

COMP2_Y+/AV_CVBS_IN

33 33 33

C225 C226 C227

0.047uF

Y4

0.047uF

W4 AA5 Y5 AA4 Y6 AA1

DTV/MNT_VOUT R252

68

C233

0.047uF

AC6

H/P OUT HP_LOUT

AB6

CVBS2

ET_RXD[0]/RP/GPIO60

CVBS3

ET_TXD[0]/TP/GPIO57

DSUB_R+

DSUB_SOG

CVBS4 CVBS5 CVBSOUT0

DSUB_G+ DSUB_G-

SPDIF_OUT

EPHY_RP EPHY_RN

HP_LOUT

EPHY_TP

HP_ROUT