LG 55X6500-TD User manual
INPUT
MENU
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OK
LED LCD TV
SERVICE MANUAL
CAUTION
BEFORE SERVICING THE CHASSIS,
READ THE SAFETY PRECAUTIONS IN THIS MANUAL.
CHASSIS : LB03R
MODEL : 55LX6500 55X6500-TD
North/Latin America http://aic.lgservice.com
Europe/Africa http://eic.lgservice.com
Asia/Oceania http://biz.lgservice.com
Internal Use Only
Printed in KoreaP/NO : MFL63748605 (1006-REV00)
- 2 - LGE Internal Use OnlyCopyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
CONTENTS
CONTENTS .............................................................................................. 2
PRODUCT SAFETY ................................................................................. 3
SPECIFICATION ....................................................................................... 4
ADJUSTMENT INSTRUCTION ................................................................ 9
EXPLODED VIEW .................................................................................. 16
SCHEMATIC CIRCUIT DIAGRAM ..............................................................
- 3 - LGE Internal Use OnlyCopyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
SAFETY PRECAUTIONS
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
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.
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 MΩand 5.2 MΩ.
When the exposed metal has no return path to the chassis the
reading must be infinite.
An other abnormality exists that must be corrected before the
receiver is returned to the customer.
Leakage Current Hot Check (See below Figure)
Plug the AC cord directly into the AC outlet.
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
1.5 Kohm/10W
To Instrument’s
exposed
METALLIC PARTS
Good Earth Ground
such as WATER PIPE,
CONDUIT etc.
AC Volt-meter
When 25A is impressed between Earth and 2nd Ground
for 1 second, Resistance must be less than 0.1
*Base on Adjustment standard
IMPORTANT SAFETY NOTICE
0.15 uF
Ω
- 4 - LGE Internal Use OnlyCopyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
SPECIFICATION
NOTE : Specifications and others are subject to change without notice for improvement
.
4. Module General Specification
1. Application range
This specification is applied to the LCD TV used LB03R
chassis.
2. Requirement for Test
Each part is tested as below without special appointment.
1) Temperature: 25 ºC ± 5 ºC(77 ºF ± 9 ºF), CST: 40 ºC ± 5 ºC
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 5 minutes prior to
the adjustment.
3. Test method
1) Performance: LGE TV test method followed
2) Demanded other specification
- Safety : CE, IEC specification
- EMC :CE, IEC
No. Item Specification Remark
1 Display Screen Device 139 cm(55 inch) wide color display module
2 Aspect Ratio 16:9
3 LCD Module 139 cm(55 inch) TFT LCD FHD 240 Hz(Edge)
4 Operating Environment Temp. : 0 deg ~ 50 deg
Humidity : 20 % ~ 90 %
5 Storage Environment Temp. : -20 deg ~ 60 deg
Humidity : 10 ~ 90 %
6 Input Voltage AC 100-240V~, 50 / 60Hz
7 Power Consumption Power on (White) LCD (Module) + Backlight(EDGE LED)
LGD Edge Typ : 154.2
8 Module Size 1261.6 (H) x 732.4 (V) x 24.2 mm(D)
8 Pixel Pitch 0.630 (H) x 0.630 (V)
9 Back Light LED(Edge)
10 Display Colors 1.06 B(true) colors
11 Coating 3H
- 5 - LGE Internal Use OnlyCopyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
5. Module optical specification
1) Standard Test Condition (The unit has been ‘ON’)
2) Stable for approximately 60 minutes in a dark environment at 25 ºC.
3) The values specified are at approximate distance 50 cm from the LCD surface.
No. Item Min. Typ. Max. Unit Remark
1 Max Luminance (Center 2D 350 440 cd/m2
1-point/ Full White Pattern) 3D 48 61 cd/m2
2 Color Coordinates RED X 0.644
(Default) Y 0.333
White X 0.308
Y Typ. 0.605 Typ.
Green X -0.05 0.149 +0.05
Y 0.059
Blue X 0.279
Y 0.292
3 Contrast ratio 1000 1300
4 3D Crosstalk 14 18 %
5 Luminance Uniformity (2D Only) 80 %
6 Response Time (Gray to Gray) 4 8 ms
Response Time (MPRT) 8 12 ms
Response Time (Uniformity δMPRT) 1
Response Time (Uniformity δG to G) 1
7 Dynamic CR 6000000 7000000
8 Color Temperature Cool Typ. 0.269 Typ. <Test Condition>
- 0.015 0.273 + 0.015 85% Full White pattern
Medium 0.285 ** The W/B Tolerance is ± 0.015
0.293 for Adjustment.
Warm 0.313 (In order to enhance the picture
0.329 qualit. According to DQA spec.)
Measurement condition
Cool/Medium Backlight : 100
Warm Backlight : 30
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6. Component Video Input (Y, CB/PB, CR/PR)
No. Specification Remark
Resolution H-freq(kHz) V-freq(Hz)
1. 720x480 15.73 60.00 SDTV,DVD 480i
2. 720x480 15.63 59.94 SDTV,DVD 480i
3. 720x480 31.47 59.94 480p
4. 720x480 31.50 60.00 480p
5. 720x576 15.625 50.00 SDTV,DVD 625 Line
6. 720x576 31.25 50.00 HDTV 576p
7. 1280x720 45.00 50.00 HDTV 720p
8. 1280x720 44.96 59.94 HDTV 720p
9. 1280x720 45.00 60.00 HDTV 720p
10. 1920x1080 31.25 50.00 HDTV 1080i
11. 1920x1080 33.75 60.00 HDTV 1080i
12. 1920x1080 33.72 59.94 HDTV 1080i
13. 1920x1080 56.250 50 HDTV 1080p
14. 1920x1080 67.5 60 HDTV 1080p
No. Specification Proposed Remarks
Resolution H-freq(kHz) V-freq(Hz) Pixel Clock(MHz)
1. 720*400 31.468 70.08 28.321 For only DOS mode
2. 640*480 31.469 59.94 25.17 VESA Input 848*480 60 Hz, 852*480 60 Hz
-> 640*480 60 Hz Display
3. 800*600 37.879 60.31 40.00 VESA
4. 1024*768 48.363 60.00 65.00 VESA(XGA)
5. 1280*768 47.78 59.87 79.5 WXGA
6. 1360*768 47.72 59.8 84.75 WXGA
7. 1280*1024 63.595 60.0 108.875 SXGA FHD model
8. 1920*1080 66.587 59.93 138.625 WUXGA FHD model
7. RGB (PC)
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8. HDMI Input
(1) DTV Mode
No. Resolution H-freq(kHz) V-freq.(Hz) Pixel clock(MHz) Proposed Remark
1. 720*400 31.468 70.08 28.321 HDCP
2. 640*480 31.469 59.94 25.17 VESA HDCP
3. 800*600 37.879 60.31 40.00 VESA HDCP
4. 1024*768 48.363 60.00 65.00 VESA(XGA) HDCP
5. 1280*768 47.78 59.87 79.5 WXGA HDCP
6. 1360*768 47.72 59.8 84.75 WXGA HDCP
7. 1280*1024 63.595 60.0 108.875 SXGA HDCP/FHD model
8. 1920*1080 67.5 60.00 138.625 WUXGA HDCP/FHD model
(2) PC Mode
No. Resolution H-freq(kHz) V-freq.(Hz) Pixel clock(MHz) Proposed Remark
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
- 8 - LGE Internal Use OnlyCopyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
9. 3D Mode - HDMI & USB
(1) HDMI Input (HDMI V1.4 with 3D)
No. Resolution H-freq(kHz) V-freq.(Hz) Pixel clock(MHz) Proposed Remark
1 1920*1080 33.75 30.000 74.25 Side by Side HDTV 1080P
Top & Bottom
Checkerboard
No. Side by Side Top & Bottom Checkerboard Single Frame Sequential Frame Packing
1
(2) USB Input
(3) 3D Input mode
No. Resolution H-freq(kHz) V-freq.(Hz) Pixel clock(MHz) Proposed Remark
1 1280*720 45.00 60.00 74.25 Side by Side HDTV 720P
Top & Bottom
89.9/90 59.94/60 148.35 HDMI(V1.4 with 3D)
Frame Packing
2 1280*720 37.5 50 74.25 Side by Side HDTV 720P
Top & Bottom
75 50 148.5 HDMI(V1.4 with 3D)
Frame Packing
3 1920*1080 33.75 60 74.25 Side by Side HDTV 1080I
Top & Bottom
4 1920*1080 28.125 50 74.25 Side by Side HDTV 1080I
Top & Bottom
5 1920*1080 27 24 74.25 Side by Side HDTV 1080P
Top & Bottom
Checkerboard
53.95/54 23.98/24 148.35/148.5 HDMI(V1.4 with 3D)
Frame Packing
6 1920*1080 67.50 60 148.50 Side by Side HDTV 1080P
Top & Bottom
Checkerboard
Single Frame Sequential
7 1920*1080 56.250 50 148.5 Side by Side HDTV 1080P
Top & Bottom
Checkerboard
Single Frame Sequential
RL
L
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Only for training and service purposes
ADJUSTMENT INSTRUCTION
1. Application Range
This specification sheet is applied to all of the LCD TV with
LB03R chassis.
2. Designation
(1) Because this is not a hot chassis, it is not necessary to use
an isolation transformer. However, the use of isolation
transformer will help protect test instrument.
(2) Adjustment must be done in the correct order.
(3) The adjustment must be performed in the circumstance of
25 ºC ± 5 ºC of temperature and 65 % ± 10 % of relative
humidity if there is no specific designation.
(4) The input voltage of the receiver must keep AC 100-240
V~ 50 / 60Hz.
(5) The receiver must be operated for about 5 minutes prior to
the adjustment when module is in the circumstance of over
15.
In case of keeping module is in the circumstance of 0 °C, it
should be placed in the circumstance of above 15 °C for 2
hours
In case of keeping module is in the circumstance of below -
20 °C, it should be placed in the circumstance of above 15
°C for 3 hours.
[Caution]
When still image is displayed for a period of 20 minutes or
longer (especially where W/B scale is strong. Digital pattern
13ch and/or Cross hatch pattern 09ch), there can some
afterimage in the black level area.
3. Automatic Adjustment
3.1. ADC Adjustment
(1) Overview
ADC adjustment is needed to find the optimum black level
and gain in Analog-to-Digital device and to compensate
RGB deviation.
(2) Equipment & Condition
1) Jig (RS-232C protocol)
2) MSPG-925 Series Pattern Generator(MSPG-925FA,
pattern - 65)
- Resolution :
480i Comp1(MSPG-925FA, Model-209, pattern-65)
1080P Comp1(MSPG-925FA, Model-225, pattern-65)
1920*1080 RGB(MSPG-925FA, Model-225, pattern-65)
- Pattern : Horizontal 100% Color Bar Pattern
- Pattern level : 0.7±0.1 Vp-p
- Image
(3) Adjustment
1) Adjustment method
- Using RS-232, adjust items listed in 3.1 in the other
shown in “3.1.(3).3)”
2) Adj. protocol
Ref.) ADC Adj. RS232C Protocol_Ver1.0
3) Adj. order
- aa 00 00 [Enter ADC adj. mode]
- xb 00 04 [Change input source to Component1 (480i&
1080p)]
- ad 00 10 [Adjust 480i Comp1]
- xb 00 06 [Change input source to RGB(1024*768)]
- ad 00 10 [Adjust 1024*768 RGB]
- ad 00 90 End adj.
3.2. MAC Address
(1) Equipment & Condition
- Play file: Serial.exe
- MAC Address edit
- Input Start / End MAC address
(2) Download method
1) Communication Prot connection
Connect: PCBA Jig-> RS-232C Port== PC-> RS-232C Port
Protocol Command Set ACK
Enter adj. mode aa 00 00 a 00 OK00x
Source change xb 00 40 b 00 OK40x (Adjust 480i, 1080p Comp1 )
xb 00 60 b 00 OK60x (Adjust 1920*1080 RGB)
Begin adj. ad 00 10
Return adj. result OKx (Case of Success)
NGx (Case of Fail)
Read adj. data (main) (main)
ad 00 20 000000000000000000000000007c007b006dx
(sub) (Sub)
ad 00 21 000000070000000000000000007c00830077x
Confirm adj. ad 00 99 NG 03 00x (Fail)
NG 03 01x (Fail)
NG 03 02x (Fail)
OK 03 03x (Success)
End adj. aa 00 90 a 00 OK90x
PCBA PC(RS-232C)
RS-232C Po rt
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2) MAC Address Download
- Com 1,2,3,4 and 115200(Baud rate)
- Port connection button click(1)
- Load button click(2) for MAC Address write.
- Start MAC Address write button(3)
- Check the OK Or NG
3.3. LAN
(1) Equipment & Condition
AEach other connection to LAN Port of IP Hub and Jig
(2) LAN inspection solution
ALAN Port connection with PCB
ANetwork setting at MENU Mode of TV
Asetting automatic IP
ASetting state confirmation
-> If automatic setting is finished, you confirm IP and
MAC Address.
3.4. LAN PORT INSPECTION(PING TEST)
Connect SET -> LAN port == PC -> LAN Port
(1) Equipment setting
1) Play the LAN Port Test PROGRAM.
2) Input IP set up for an inspection to Test
Program.
*IP Number : 12.12.2.2
(2) LAN PORT inspection (PING TEST)
1) Play the LAN Port Test Program.
2) Connect each other LAN Port Jack.
3) Play Test (F9) button and confirm OK Message.
4) Remove LAN CABLE
3.5. Model name & serial number download
(1) Model name & Serial number D/L
APress “Power on” key of service remote control.(Baud
rate : 115200 bps)
AConnect RS232 Signal Cable to RS-232 Jack.
AWrite Serial number by use RS-232.
AMust check the serial number at Instart menu.
(2) Method & notice
A. Serial number D/L is using of scan equipment.
B. Setting of scan equipment operated by Manufacturing
Technology Group.
C.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
SET PC
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Only for training and service purposes
* 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)
There is impossible to download by bar code scan, so It
need Manual download.
a. Press the ‘instart’ key of ADJ remote control.
b. Go to the menu ‘5.Model Number D/L’ like below photo.
c. Input the Factory model name(ex 42LX6500-TD) or Serial
number like photo.
d. Check the model name Instart menu -> Factory name
displayed (ex 42LX6500-TD)
4. Manual Adjustment
4.1. ADC(GP2) Adjustment
4.1.1. Overview
ADC adjustment is needed to find the optimum black level and
gain in Analog-to-Digital device and to compensate RGB
deviation.
4.1.2. Equipment & Condition
(1) Adjust Remote control
(2) 801GF(802B, 802F, 802R) or MSPG925FA Pattern Generator
- Resolution :
480i,720*480(MSPG-925FA -> Model: 209, Pattern: 65) -
480i
1080p, 1920*1080(MSPG-925FA -> Model: 225, Pattern:
65) - 1080p
- Pattern : Horizontal 100% Color Bar Pattern
- Pattern level: 0.7 ± 0.1 Vp-p
- Image
(3) Must use standard cable
4.1.3. Adjust method
(1) ADC 480i, 1080p Comp1
1) Check connected condition of Comp1 cable to the
equipment.
2) Give a 480i, 1080p Mode, Horizontal 100% Color Bar
Pattern to Comp1.
(MSPG-925FA -> Model: 209, Pattern: 65) - 480i
(MSPG-925FA -> Model: 225, Pattern: 65) - 1080p
3) Change input mode as Component1 and picture mode
as “Standard”
4) Press the In-start Key on the ADJ remote after at least 1
min of signal reception. Then, select 7. External ADC ->
1. COMP 1080p on the menu. Press enter key. The
adjustment will start automatically.
5) If ADC calibration is successful, “ADC RGB Success” is
displayed.
If ADC calibration is failure, “ADC RGB Fail” is displayed.
6) If ADC calibration is failure, after recheck ADC pattern or
condition retry calibration Error message refer to 5).
(2) ADC 1920*1080 RGB
1) Check connected condition of Component & RGB cable
to the equipment
2) Give a 1920*1080 Mode, 100 % Horizontal Color Bar
Pattern to RGB port.
(MSPG-925 Series -> model: 225 , pattern: 65 )
3) Change input mode as RGB and picture mode as “Standard”.
4) Press the In-start Key on the ADJ remote after at least 1
min of signal reception. Then, select 7. External ADC ->
1. COMP 1080p on the menu. Press enter key. The
adjustment will start automatically.
5) If ADC calibration is successful, “ADC RGB Success” is
displayed.
If ADC calibration is failure, “ADC RGB Fail” is displayed.
6) If ADC calibration is failure, after recheck ADC pattern or
condition retry calibration Error message refer to 5).
4.2. EDID(The Extended Display Identification
Data)/DDC(Display Data Channel) download
(1) Overview
It is a VESA regulation. A PC or a MNT will display an
optimal resolution through information sharing without any
necessity of user input. It is a realization of “Plug and Play”.
(2) Equipment
- Adjust remote control
- Since embedded EDID data is used, EDID download JIG,
HDMI cable and D-sub cable are not need.
(3)Download method
1) Press Adj. key on the Adj. R/C, then select “10.EDID
D/L”, By pressing Enter key, enter EDID D/L menu.
2) Select [Start] button by pressing Enter key, HDMI1 /
HDMI2 / HDMI3 / HDMI4 / RGB are Writing and display
OK or NG.
D-sub to D-sub DVI-D to HDMI or HDMI to HDMI
For HDMI EDIDFor Analog EDID
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(4) EDID DATA
ARGB
AHDMI
* Physical Add & Checksum(HDMI1/2/3/4)
4.3. White Balance Adjustment
4.3.1 Overview
(1) W/B adj. Objective & How-it-works
(2) Objective: To reduce each Panel’s W/B deviation
(3) How-it-works : When R/G/B gain in the OSD is at 192, it
means the panel is at its Full Dynamic Range. In order to
prevent saturation of Full Dynamic range and data, one of
R/G/B is fixed at 192, and the other two is lowered to find
the desired value.
(4) Adj. condition : normal temperature
1) Surrounding Temperature : 25 ºC ± 5 ºC
2) Warm-up time: About 5 Min
3) Surrounding Humidity : 20 % ~ 80 %
4.3.2 Equipment
1) Color Analyzer: CA-210 (LED Module : CH 14)
2) Adj. Computer(During auto adj., RS-232C protocol is
needed)
3) Adjust Remote control
4) Video Signal Generator MSPG-925F 720p/216-Gray
(Model:217, Pattern:78)
-> Only when internal pattern is not available
AColor Analyzer Matrix should be calibrated using CS-1000
4.3.3. Equipment connection MAP
4.3.4. Adj. Command (Protocol)
<Command Format>
- LEN: Number of Data Byte to be sent
- CMD: Command
- VAL: FOS Data value
- CS: Checksum of sent data
- A: Acknowledge
Ex) [Send: JA_00_DD] / [Ack: A_00_okDDX]
ARS-232C Command used during auto-adj.
Ex) wb 00 00 -> Begin white balance auto-adj.
wb 00 10 -> Gain adj.
ja 00 ff -> Adj. data
jb 00 c0
...
...
wb 00 1f -> Gain adj. completed
*(wb 00 20(Start), wb 00 2f(completed)) -> Off-set adj.
wb 00 ff -> End white balance auto-adj.
AAdj. Map
0123456789ABCDEF
0 00FFFFFFFFFFFF001E6D01 00 01 01 01 01
10 01 14 01 03 80 10 09 78 0A EE 91 A3 54 4C 99 26
20 0F 50 54 A1 08 00 71 4F 81 80 01 01 01 01 01 01
30 01 01 01 01 01 01 02 3A 80 18 71 38 2D 40 58 2C
40 45 00 A0 5A 00 00 00 1E 01 1D 00 72 51 D0 1E 20
50 6E 28 55 00 A0 5A 00 00 00 1E 00 00 00 FD 00 3A
60 3E 1E 53 10 00 0A 20 20 20 20 20 20 00 00 00 FC
70 00 4C 47 20 54 56 0A 20 20 20 20 20 20 20 01 D7
80 02 03 37 F1 4E 10 1F 84 13 05 14 0.3 02 12 20 21
90 22 15 01 26 15 07 50 09 57 07 78 03 0C 00 XX XX
A0 B8 2D 20 C0 0E 01 40 0A 3C 08 20 18 20 98 20 58
B0 20 38 20 E3 05 03 01 01 1D 80 18 71 1C 16 20 58
C0 2C 25 00 A0 5A 00 00 00 9E 01 1D 00 80 51 D0 1A
D0 20 6E 88 55 00 A0 5A 00 00 00 1A 02 3A 80 18 71
E0 38 2D 40 58 2C 45 00 A0 5A 00 00 00 1E 00 00 00
F0 00 00 00 00 00 00 00 00 00 00 00 00 00 00 01 XX
0x00 0x01 0x02 0x03 0x04 0x05 0x06 0x07 0x08 0x09 0x0A 0x0B 0x0C 0x0D 0x0E 0x0F
0 00FFFFFFFFFFFF001E6D01 00 01 01 01 01
10 01 14 01 03 68 10 09 78 0A EE 91 A3 54 4C 99 26
20 0F 50 54 A1 08 00 81 80 61 40 45 40 31 40 01 01
30 01 01 01 01 01 01 02 3A 80 18 71 38 2D 40 58 2C
40 45 00 A0 5A 00 00 00 1E 01 1D 00 72 51 D0 1E 20
50 6E 28 55 00 A0 5A 00 00 00 1E 00 00 00 FD 00 3A
60 3E 1E 53 10 00 0A 20 20 20 20 20 20 00 00 00 FC
70 00 4C 47 20 54 56 0A 20 20 20 20 20 20 20 00 1D
INPURT 9Eh/9Fh(Physical Add) FFh(Checksum)
HDMI 1 10 00 7B
HDMI 2 20 00 6B
HDMI 3 30 00 5B
HDMI 4 40 00 4B
Color Analyzer
Computer
Pattern Generator
RS-23 2C
RS-232C
RS-232C
Probe
Signal Source
* If TV internal pattern is used, not needed
LEN CMD VAL CS
RS-232C COMMAND Explanation
[CMD ID DATA]
wb 00 00 Begin White Balance adj.
wb 00 10 Gain adj.(internal white pattern)
wb 00 1f Gain adj. completed
wb 00 20 Offset adj.(internal white pattern)
wb 00 2f Offset adj. completed
wb 00 ff End White Balance adj.(Internal pattern disappears)
ITEM Command Data Range(Hex.) Default(Decimal)
Cmd 1 Cmd 2 Min Max
Cool R-Gain j g 00 C0
G-Gain j h 00 C0
B-Gain j i 00 C0
R-Cut
G-Cut
B-Cut
Medium R-Gain j a 00 C0
G-Gain j b 00 C0
B-Gain j c 00 C0
R-Cut
G-Cut
B-Cut
Warm R-Gain j d 00 C0
G-Gain j e 00 C0
B-Gain j f 00 C0
R-Cut
G-Cut
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4.3.5. Adj. method
(1) Auto adj. method
1) Set TV in adj. mode using POWER ON key.
2) Zero calibrate probe then place it on the center of the
Display.
3) Connect Cable (RS-232C)
4) Select mode in adj. Program and begin adjustment.
5) When adj. is complete (OK Sing), check adj. status pre
mode. (Warm, Medium, Cool)
6) Remove probe and RS-232C cable to complete adj.
AW/B Adj. must begin as start command “wb 00 00” , and
finish as end command “wb 00 ff”, and Adj. offset if need.
(2) Manual adj. method
1) Set TV in Adj. mode using POWER ON
2) Zero Calibrate the probe of Color Analyzer, then place it
on the center of LCD module within 10cm of the surface.
3) Press ADJ key -> EZ adjust using adj. R/C -> 7. White-
Balance then press the cursor to the right (KEY G).
(When KEY(G) is pressed 216 Gray internal pattern will
be displayed)
4) One of R Gain / G Gain / B Gain should be fixed at 192,
and the rest will be lowered to meet the desired value.
5) Adj. is performed in COOL, MEDIUM, WARM 3 modes
of color temperature.
AIf internal pattern is not available, use RF input. In EZ
Adj. menu 7.White Balance, you can select one of 2
Test-pattern: ON, OFF. Default is inner(ON). By
selecting OFF, you can adjust using RF signal in 216
Gray pattern.
AAdj. condition and cautionary items
1) Lighting condition in surrounding area
Surrounding lighting should be lower 10 lux. Try to
isolate adj. area into dark surrounding.
2) Probe location
: Color Analyzer (CA-210) probe should be within 10
cm and perpendicular of the module surface (80° ~
100°)
3) Aging time
- After Aging Start, Keep the Power ON status during
5 Minutes.
- In case of LCD, Back-light on should be checked
using no signal or Full-white pattern.
4.3.6. Reference (White Balance Adj. coordinate
and color temperature)
ALuminance : 216 Gray
AStandard color coordinate and temperature using CS-1000
(over 26 inch)
AStandard color coordinate and temperature using CA-210
(CH 14)
A10 Point White Balance
AColor coordinate Variation by Aging time.
4.4. EYE-Q function check
Step 1) Turn on TV
Step 2) Press EYE key of Adj. R/C
Step 3) Cover the Eye Q II sensor on the front of the using
your hand and wait for 6 seconds
Step 4) Confirm that R/G/B value is lower than 10 of the “Raw
Data (Sensor data, Back light)”. If after 6 seconds,
R/G/B value is not lower than 10, replace Eye Q II
sensor.
Step 5) Remove your hand from the Eye Q II sensor and wait
for 6 seconds.
Step 6) Confirm that “ok” pop up. If change is not seen,
replace Eye Q II sensor.
Mode Color Coordination Temp ∆UV
xy
COOL 0.269 0.273 13000 K 0.0000
MEDIUM 0.285 0.293 9300 K 0.0000
WARM 0.313 0.329 6500 K 0.0000
Mode Color Coordination Temp ∆UV
xy
COOL 0.269 ± 0.002 0.273 ± 0.002 13000 K 0.0000
MEDIUM 0.285 ± 0.002 0.293 ± 0.002 9300 K 0.0000
WARM 0.313 ± 0.002 0.329 ± 0.002 6500 K 0.0000
Edge Aging Time Cool Medium Warm
LED (Min.) X Y X Y X Y
269 273 285 293 313 329
1 0-2 280 291 296 311 319 340
2 3-5 278 288 294 308 317 338
3 6-9 276 285 292 305 315 335
4 10-15 274 282 290 302 313 332
5 20-35 273 279 289 299 312 329
6 36-49 270 276 287 296 310 326
7 50-79 269 273 286 293 308 323
8 Over 80 269 273 285 293 308 323
On / Off On / Off
Pattern Outer(default)
IRE 100
Luminance 130
Red(130.0 nit) 0
Green(130.0 nit) 0
Blue(130.0 nit) 0
- 14 - LGE Internal Use OnlyCopyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
4.5. Checking the function of Bluetooth
using adjusts Remote control
- Auto checking
• Auto checking is doing in “Power Only”.
• Checking the result of searched (check that is in list or not)
• Go out of checking mode pushing button “Exit”.
- Manual checking
• Push the button “Power Only” and “Exit”.
• Push the button hot key “Bluetooth”.
• Checking the result of searched (check that is in list or not)
• Go out of checking mode pushing button “Exit.
4.6. Check the function of Local Dimming
• Dimming checking is doing in “Power Only” using adjusts
Remote control.
• Push the button “Tilt”.
• Checking the function of Dimming refer to the picture at below.
• Push the button “Exit”.
* Edge LED models with local dimming
Press “TILT” key of the Adj. Remote control and check moving
patterns. The black bar patterns moves from left to right.
If local dimming function does not work. a whole screen
shows full white.
5. GND and Internal Pressure check
5.1. Method
1) GND & Internal Pressure auto-check preparation
- Check that Power Cord is fully inserted to the SET.
(If loose, re-insert)
2) Perform GND & Internal Pressure auto-check
- Unit fully inserted Power cord, Antenna cable and A/V
arrive to the auto-check process.
- Connect D-terminal to AV JACK TESTER
- Auto CONTROLLER(GWS103-4) ON
- Perform GND TEST
- If NG, Buzzer will sound to inform the operator.
- If OK, changeover to I/P check automatically.
(Remove CORD, A/V form AV JACK BOX)
- Perform I/P test
- If NG, Buzzer will sound to inform the operator.
- If OK, Good lamp will lit up and the stopper will allow the
pallet to move on to next process.
5.2. Checkpoint
• TEST voltage
- GND: 1.5 KV / min at 100 mA
- SIGNAL: 3 KV / min at 100 mA
• TEST time: 1 second
• TEST POINT
- GND TEST = POWER CORD GND & SIGNAL CABLE
METAL GND
- Internal Pressure TEST = POWER CORD GND & LIVE &
NEUTRAL
• LEAKAGE CURRENT: At 0.5 mArms
6. Audio
Measurement condition:
1. RF input: Mono, 1 KHz sine wave signal, 100 % Modulation
2. CVBS, Component: 1 KHz sine wave signal 0.4 Vrms
3. RGB PC: 1 KHz sine wave signal 0.7 Vrms
Local Dimming Demo (Edge LED Model)
Local Dimming Demo (IOP Model)
No. Item Min. Typ. Max. Unit
1. Audio practical max 9.0 10.0 12.0 W EQ Off
Output, L/R AVL Off
(Distortion=10 % 8.5 8.9 9.8 Vrms Clear Voice Off
max Output)
2. Speaker (8 Ω 10.0 15.0 W EQ On
Impedance) AVL On
Clear Voice On
- 15 - LGE Internal Use OnlyCopyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
7. USB S/W Download (option, Service only)
1) Put the USB Stick to the USB socket
2) Automatically detecting update file in USB Stick
- If your downloaded program version in USB Stick is Low,
it didn’t work. But your downloaded version is High, USB
data is automatically detecting
3) Show the message “Copying files from memory”
4) Updating is starting.
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 adjust TOOL OPTION again.
1) Push "IN-START" key in service remote control.
2) Select "Tool Option 1" and Push “OK” button.
3) Push in the number. (Each model has their number.)
8. 3D function test
(Pattern Generator MSPG-3233, HDMI mode No. 371, pattern
No. 81)
1) Please input 3D test pattern like below
2) Enter 3D mode, then select side by side
(If you don’t wear a 3D Glasses, you will see the picture
like below)
3) Put on the 3D Glasses, And block the right side of Glasses
(LEFT:OPEN[TEST], RIGHT:CLOSED)
And check the middle sides of picture, RED -> normal,
others -> abnormal
4) Put on the 3D Glasses, And block the right side of Glasses
(LEFT:CLOSED, RIGHT:OPEN[TEST])
And check the middle sides of picture, BLUE -> normal,
others -> abnormal
- 16 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All rights reserved.
Only for training and service purposes
300
500
120
200 LV1 LV2
840
820
820
520 880
830
530
540
541
850
710
800
A13
A10
A21
A9
A5
A2
810
400
570
910
900
920
580
310
510
EXPLODED VIEW
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.
IMPORTANT SAFETY NOTICE
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.
2009.06.18
BCM3556 & NAND FLASH
BCM (EUROBBTV)
NAND_DATA[7]
CI_A[0]
CI_A[3]
CI_A[2]
NAND_DATA[6]
NAND_DATA[6]
NAND_DATA[2]
CI_A[12]
NAND_DATA[0]
NAND_DATA[4]
NAND_DATA[3]
NAND_DATA[3]
NAND_DATA[1]
NAND_DATA[2]
CI_A[8]
CI_A[5]
NAND_DATA[7]
CI_A[6]
NAND_DATA[5]
NAND_DATA[7]
NAND_DATA[0]
NAND_DATA[5]
NAND_DATA[1]
NAND_DATA[0]
CI_A[9]
CI_A[11]
NAND_DATA[6]
CI_A[13]
CI_A[7]
NAND_DATA[5]
CI_A[4]
NAND_DATA[2]
NAND_DATA[4]
NAND_DATA[4]
CI_A[10]
NAND_DATA[0-7]
CI_A[1]
NAND_DATA[1]
NAND_DATA[3]
R132 22
R127
22
R117
33
R1037 2.7K
OPT
R1003
2.7K
NAND_WEb
PWM_DIM
DSUB_DET
NAND_DATA[0-7]
R1007
2.7K
OPT
R102
22
SC_RE2
NAND_CEb
R1012 100
MODEL_OPT_5
R1022 1K
DDR_512MB
MODEL_OPT_1
C115
0.1uF
R169
2.7K
C114
0.1uF
NAND_REb
R133 22
SCL3_3.3V
R1023 1K
NON_GIP
R1001
2.7K
MODEL_OPT_0
R193 4.7K
FRC_RESET
NAND_ALE
CI_OUTCLK
MODEL_OPT_1
C116
4700pF
SDA1_3.3V
MODEL_OPT_2
R140
22
A_DIM
R194 4.7K
R1008
2.7K
OPT
RGB_DDC_SCL
R1040 2.7K
OPT
NAND_ALE
R1039 2.7K
EBI_WE
/CI_IREQ
C103
0.1uF
CI_MOD_RESET
RF_SWITCH_CTL
MODEL_OPT_0
R109 100
NAND_CLE
+3.3V_NORMAL
C167
8pF
OPT
R1000 2.7K
MODEL_OPT_5
NAND_CEb
TUNER_RESET
R122
22
ERROR_OUT
R1024 100
NAND_CLE
NAND_REb
R130 22
NAND_WEb
+3.3V_NORMAL
R1002 2.7K
OPT
AV_CVBS_DET
+3.3V_NORMAL
R1033 22
R157 2.7K
OPT
CI_A[0-13]
SIDE_AV_DET
IF_AGC_SEL
EPHY_LINK
MODEL_OPT_4
R1045
4.7K
NAND_RBb
R1006 2.7K
OPT
R136
4.7K
R1018 1K
NO_FRC
R1005
2.7K
R1011 1K
MINI_LVDS/NO LOCAL_D
FE_TS_VAL_ERR
+3.3V_NORMAL
SDA3_3.3V
R1019 100
/CI_CD2
R1013 1K
EXTERNEL FRC/T_CON FRC
+3.3V_NORMAL
R1015 1K
DDR_256MB
BT_RESET
R156
2.7K
+3.3V_NORMAL
NAND_DATA[0-7]
R108 100
R158 2.7K
OPT
NAND_CLE
R1021 1K
HD
R110 100
SC_RE1
MODEL_OPT_2
R111 22
R1034 2.7K
+3.3V_NORMAL
R1004
2.7K
OPT
SCL1_3.3V
C171
8pF
OPT
IC102
M24M01-HRMN6TP
3
E2
2
E1
4
VSS
1
NC
5SDA
6SCL
7WP
8VCC
MODEL_OPT_3
CI_5V_CTL
R134 2.7K
R191 2.7K
SCL0_3.3V
R1020 1K
FRC
+3.3V_NORMAL
EBI_CS
R1009 1K
GIP
RGB_DDC_SDA
+3.3V_NORMAL
EBI_CS
R1046 22
/CI_WAIT
NAND_DATA[0-7]
EBI_RW
R1035
2.7K
R1044
0
BCM_RX
EPHY_ACTIVITY
Q101
KRC103S
E
B
C
R1017 1K
FHD
R1038
2.7K
R129
22
MODEL_OPT_4
R1014 1K
LVDS/LOCAL_D
HP_DET
NAND_ALE
SDA0_3.3V
BCM_TX
FLASH_WP
LNA2_CTL/BOSTER_CTL
R1036 2.7K
OPT
+3.3V_NORMAL
MODEL_OPT_3
R1010 1K
NO FRC/INTERNER FRC
R107 100
/CI_CD1
R116
22
NAND_RBb
R1027
10K
SYS_RESETb
+3.3V_NORMAL
SOC_RESET
WIRELESS_DL_TX
WIRELESS_DL_RX
COMP2_DET
SDA2_3.3V
SCL2_3.3V
AUD_MASTER_CLK
SCART1_DET
VREG_CTRL
/RST_HUB
R1030 0
R1032
0
R1025
4.7K
C136 10uF
10V
SDA3_3.3V
SCL3_3.3V
R1026 22
R1028 22
DTV_ATV_SELECT
SIDE_COMP_DET
POWER_DET
R1047
0OPT
HDMI_HPD_4
HDMI_HPD_3
HDMI_HPD_2
HDMI_HPD_1
R1141K
R1029 1K
R199 1K
R106 1K
5V_HDMI_1
5V_HDMI_2
5V_HDMI_3
5V_HDMI_4
R1048 100
R1050 100
R161 100
R1049
22
R1051
22
LOCAL DIMMING
R170
1.2K
R187
1.2K
EU
R180
1.2K
R183
1.2K
R176
1.2K
R184
1.2K
EU
R171
1.2K
R177
1.2K
R123 0
WIRELESS_NON_AU
R124 0
WIRELESS_NON_AU
IC101
NAND04GW3B2DN6E
NAND FLASH
26 NC_17
27 NC_18
28 NC_19
29 I/O0
30 I/O1
31 I/O2
32 I/O3
33 NC_20
34 NC_21
35 NC_22
36 VSS_2
37 VDD_2
38 NC_23
39 NC_24
40 NC_25
41 I/O4
42 I/O5
43 I/O6
44 I/O7
45 NC_26
46 NC_27
47 NC_28
48 NC_29
17
AL
3
NC_3
6
NC_6
16
CL
15
NC_10
14
NC_9
13
VSS_1
12
VDD_1
11
NC_8
10
NC_7
9
E
8
R
7
RB
4
NC_4
5
NC_5
25 NC_16
24
NC_15
23
NC_14
2
NC_2
22
NC_13
21
NC_12
1
NC_1
20
NC_11
19
WP
18
W
SIDE_COMP_DET
Q103
FDV301N
OPT
G
D
S
Q104
FDV301N
OPT
G
D
SR173
10K
OPT
WIRELESS_SCL
SDA2_3.3V
WIRELESS_SDA
SCL2_3.3V
+3.3V_NORMAL
R160100
LG5111_RESET
R1920 DC DC
DEMOD_RESET DEMOD_RESET
DD DD
M_REMOTE_RX M_REMOTE_RX
M_REMOTE_TX
M_REMOTE_TX
R103 0 RF_SWITCH_CTL_CHB RF_SWITCH_CTL_CHB
R113
22
LG5111_RESET
+12V
C178
0.1uF
50V
C179
0.1uF
50V
R104112K C173
22uF
16V
C180
100pF
50V
EMI
R105 56
R115 1.8K
R1052
4.7K +3.3V_NORMAL
MODEL_OPT_6
/CI_SEL
MODEL_OPT_6
R118 1K
OLED
R119 1K
NON_OLED
MDS62110204
GAS6-*1
5.5T_GAS
MDS62110204
GAS7-*1
5.5T_GAS
MDS62110204
GAS1-*1
5.5T_GAS
MDS62110206
GAS6
6.5T_GAS
MDS62110206
GAS2
6.5T_GAS
MDS62110206
GAS7
6.5T_GAS
MDS62110206
GAS5
6.5T_GAS
MDS62110206
GAS1
6.5T_GAS
MDS62110206
GAS4
6.5T_GAS
MDS62110206
GAS3
OPT
MDS62110206
GAS8
OPT
MDS62110206
GAS9
IC100
LGE3556C (C0 VERSION)
NON_3DTV
GPIO_00 N26
GPIO_01 L26
GPIO_02 N25
GPIO_03 L25
GPIO_04 K27
GPIO_05 K28
GPIO_06 K24
GPIO_07 K26
GPIO_08 K25
GPIO_09 AA27
GPIO_10 AA28
GPIO_11 AA26
GPIO_12 L1
GPIO_13 L3
GPIO_14 L2
GPIO_15 Y25
GPIO_16 Y26
GPIO_17 M27
GPIO_18 AA25
GPIO_19 R25
GPIO_20 N28
GPIO_21 N27
GPIO_22 AH18
GPIO_23 P23
GPIO_24 M23
GPIO_25 AD19
GPIO_26 AE19
GPIO_27 M4
GPIO_28 M5
GPIO_29 L23
GPIO_30 Y28
GPIO_31 Y27
GPIO_32 G2
GPIO_33 G3
GPIO_34 G5
GPIO_35 G6
GPIO_36 G4
GPIO_37 L24
GPIO_38 P25
GPIO_39 L5
GPIO_40 K4
GPIO_41 K1
GPIO_42 L27
GPIO_43 M26
GPIO_44 N23
GPIO_45 R28
GPIO_46 R27
GPIO_47 R26
GPIO_48 P28
GPIO_49 P27
GPIO_50 K6
GPIO_51 K5
GPIO_52 P26
GPIO_53 M3
GPIO_54 M2
GPIO_55 M1
GPIO_56 L4
GPIO_57 L6
SGPIO_00 W27
SGPIO_01 W28
SGPIO_02 W26
SGPIO_03 W25
SGPIO_04 J2
SGPIO_05 J1
SGPIO_06 K3
SGPIO_07 K2
EBI_ADDR3
J23
EBI_ADDR4
J24
EBI_ADDR2
H25
EBI_ADDR1
H24
EBI_ADDR0
H23
EBI_ADDR5
J25
EBI_ADDR6
F26
EBI_ADDR8
H28
EBI_ADDR9
J26
EBI_ADDR13
H27
EBI_ADDR12
G26
EBI_ADDR11
J27
EBI_ADDR10
J28
EBI_ADDR7
F27
EBI_TAB
G24
EBI_WE1B
H26
EBI_CLK_IN
G27
EBI_CLK_OUT
G28
EBI_RWB
K23
EBI_CS0B
G25
NAND_DATA0
U24
NAND_DATA1
T26
NAND_DATA2
T27
NAND_DATA3
U26
NAND_DATA4
U27
NAND_DATA5
V26
NAND_DATA6
V27
NAND_DATA7
V28
NAND_CS0B
T24
NAND_ALE
R23
NAND_REB
T23
NAND_CLE
T25
NAND_WEB
R24
NAND_RBB
U25
SF_MISO
W24
SF_MOSI
U23
SF_SCK
V23
SF_CSB
V24
MDS62110205
GAS6-*2
7.5T_GAS
MDS62110205
GAS1-*2
7.5T_GAS
MDS62110205
GAS7-*2
7.5T_GAS
BT_ON/OFF R181 100
BCM BT MODULE
MDS62110204
GAS2-*1
5.5T_GAS
MDS62110205
GAS2-*2
7.5T_GAS
BT_ON/OFF
VREG_CTRL
BT_RESET
R1042 22 +3.3V_NORMALR1053 2.7K
R184-*1
2.2K
NON_EU
R187-*1
2.2K
NON_EU
IC100-*1
LGE3556CP (C0 3D PIP)
3DTV
GPIO_00 N26
GPIO_01 L26
GPIO_02 N25
GPIO_03 L25
GPIO_04 K27
GPIO_05 K28
GPIO_06 K24
GPIO_07 K26
GPIO_08 K25
GPIO_09 AA27
GPIO_10 AA28
GPIO_11 AA26
GPIO_12 L1
GPIO_13 L3
GPIO_14 L2
GPIO_15 Y25
GPIO_16 Y26
GPIO_17 M27
GPIO_18 AA25
GPIO_19 R25
GPIO_20 N28
GPIO_21 N27
GPIO_22 AH18
GPIO_23 P23
GPIO_24 M23
GPIO_25 AD19
GPIO_26 AE19
GPIO_27 M4
GPIO_28 M5
GPIO_29 L23
GPIO_30 Y28
GPIO_31 Y27
GPIO_32 G2
GPIO_33 G3
GPIO_34 G5
GPIO_35 G6
GPIO_36 G4
GPIO_37 L24
GPIO_38 P25
GPIO_39 L5
GPIO_40 K4
GPIO_41 K1
GPIO_42 L27
GPIO_43 M26
GPIO_44 N23
GPIO_45 R28
GPIO_46 R27
GPIO_47 R26
GPIO_48 P28
GPIO_49 P27
GPIO_50 K6
GPIO_51 K5
GPIO_52 P26
GPIO_53 M3
GPIO_54 M2
GPIO_55 M1
GPIO_56 L4
GPIO_57 L6
SGPIO_00 W27
SGPIO_01 W28
SGPIO_02 W26
SGPIO_03 W25
SGPIO_04 J2
SGPIO_05 J1
SGPIO_06 K3
SGPIO_07 K2
EBI_ADDR3
J23
EBI_ADDR4
J24
EBI_ADDR2
H25
EBI_ADDR1
H24
EBI_ADDR0
H23
EBI_ADDR5
J25
EBI_ADDR6
F26
EBI_ADDR8
H28
EBI_ADDR9
J26
EBI_ADDR13
H27
EBI_ADDR12
G26
EBI_ADDR11
J27
EBI_ADDR10
J28
EBI_ADDR7
F27
EBI_TAB
G24
EBI_WE1B
H26
EBI_CLK_IN
G27
EBI_CLK_OUT
G28
EBI_RWB
K23
EBI_CS0B
G25
NAND_DATA0
U24
NAND_DATA1
T26
NAND_DATA2
T27
NAND_DATA3
U26
NAND_DATA4
U27
NAND_DATA5
V26
NAND_DATA6
V27
NAND_DATA7
V28
NAND_CS0B
T24
NAND_ALE
R23
NAND_REB
T23
NAND_CLE
T25
NAND_WEB
R24
NAND_RBB
U25
SF_MISO
W24
SF_MOSI
U23
SF_SCK
V23
SF_CSB
V24
R1016
0 M_REMOTE
R126 0
R125 0
R1031
0M_REMOTE
R1054 0
OPT
R1055 0
OPT
L/R_SYNC
R1056
0
ALTRA DL GPIO
R1058
0
ALTRA DL GPIO
/CI_IREQ
/CI_CD2
CI_MOD_RESET
E_TDO
E_TMS
E_TDI
E_TCK
R1059
0
ALTRA DL GPIO
CI_OUTCLK R1057
0
ALTRA DL GPIO
R1043 0
SC_RE1 R1060 0
OPT
R123-*1
33
WIRELESS_AU
R124-*1
33
WIRELESS_AU
MDS62110204
GAS5-*1
5.5T_GAS
MDS62110204
GAS4-*1
5.5T_GAS
MDS62110205
GAS5-*2
7.5T_GAS
MDS62110205
GAS4-*2
7.5T_GAS
1
Default Res. of all NAND pin is Pull-down
For CI
For CI
* I2C MAP
* NAND FLASH MEMORY 4Gbit (512M for BB)
MODEL OPTION
External Demod.
Open Drain
* I2C_0 :
* I2C_1 :
* I2C_2 :
* I2C_3 :
BB Add.
For CI
Boot Strap
RESET
A8’h
NAND_IO[0] : Flash Select (1)
0 : Boot From Serial Flash
1 : Boot From NAND Flash
NAND_IO[1] : NAND Block 0 Write (DNS)
0 : Enable Block 0 Write
1 : Disable Block 0 Write
NAND_IO[3:2] : NAND ECC (1, DNS)
00 : No ECC
01 : 1 ECC Bit
10 : 4 ECC Bit
11 : 8 ECC Bit
NAND_IO[4] : CPU Endian (0)
0 : Little Endian
1 : Big Endian
NAND_IO[6:5] : Xtal Bias Control (1, DNS)
00 : 1.2mA (Fundmental Recommand)
01 : 1.8mA
10 : 2.4mA (3rd over tune Recommand)
11 : 3.0mA
NAND_IO[7] : MIPS Frequency (DNS)
0 : 405MHz
1 : 378MHz
NAND_ALE : I2C Level (DNS)
0 : 3.3V Switching
1 : 5V Switching
NAND_CLE
0 : Enable D2CDIFF AC (DNS)
1 : Disabe D2CDIFF AC
NVRAM
EXT IRQ
GPIO_00, GPIO_01, GPIO_02,
GPIO_11, GPIO_11, GPIO_39
IR_INT : GPIO_23
IR1_IN : GPIO_25
IR2_IN : GPIO_29
IR_OUT : GPIO_26
PWM0 : GPIO_24
PWM1 : GPIO_09
IR_IN
INTERRUPT PIN
INTERRUPT PIN
INTERRUPT PIN
IR_IN
BCM_AVC_DEBUG_TX1
BCM_AVC_DEBUG_RX1
BT_MUTE
From wireless_I2C to micom I2C
SMD GASKET
15page:TW_9910_RESET
17page:M_RFMODULE_RESET
17page : Motion Remocon
17page : Motion Remocon
28page : ISDB Demod
17page : Motion Remocon
15page : CHB_SUB_TUNER
FOR ESD 12V Pattern
URSA3 External
HIGH
LOW
HIGH
OLED
LOW
DDR-256M
MODEL_OPT_4
HIGH
MAIN_MINI_LVDS
HD
MAIN_LVDS
K1
NON_OLED
MODEL_OPT_3
MODEL_OPT_6
MODEL_OPT_4
L25
N28
MODEL_OPT_5
FRC
MODEL_OPT_0
MODEL_OPT_2 DDR-512M
HIGH
GIP
PIN NAME
PWIZ Pannel T-con
with LG FRC
MODEL_OPT_1 AA26
HIGH
R26
URSA3 Internal
LOW
NON_URSA3
LOW
K4
*MODEL_OPT_0 & MODEL_OPT_4
REFER TO THIS OPTION
NON-GIP
PIN NO.
LOW
K27
NO FRC
NON_FRC
MODEL_OPT_0
FHD
URSA3
43page : Bluetooth
43page : Bluetooth
43page : Bluetooth
3D
15page:CHB_RESET
/CI_CD1==> M_RFMODULE_RESET 17page : Motion Remocon
SC_RE1 ==> USB_PWRFLT3 69page : 3DIR
SC_RE2 ==> USB_PWRON3
M_REMOTE_RX ==> L/R_SYNC
ALTERA DL GPIO
Copyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
LGE Internal Use Only
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.
BCM3556 AUD_IN/LVDS
2009.06.18
BCM (EUROBBTV)
CI_OUTDATA[6]
CI_OUTDATA[7]
CI_OUTVALID
CI_OUTSTART
CI_OUTDATA[1]
CI_OUTDATA[2]
CI_OUTDATA[0]
CI_OUTDATA[3]
CI_OUTDATA[4]
CI_OUTDATA[5]
54MHz_XTAL_N
54MHz_XTAL_P
L202
BLM18PG121SN1D
C213
0.01uF
A3.3V A2.5V
C219
0.1uF
C214
0.1uF
R220 560
A1.2V
C215
0.1uF
C223
0.1uF
+3.3V_NORMAL
R201
1.5K
R200
1.5K
L200
BLM18PG121SN1D
A2.5V
C209 0.1uF
R209
3.9K
C201
100pF
R210
120
A1.2V
C207 0.1uF
C203 0.1uF
C202 0.1uF
A3.3V
R218
240 R219
1K
C222
0.1uF
A2.5V
C295
0.1uF
A2.5V
A1.2V
C236
0.1uF
C239
0.1uF
A1.2V
C2012
0.1uF
54MHz_XTAL_P 002:I2
C251
0.1uF
54MHz_XTAL_N 002:I1
A2.5V
A1.2V
L203
BLM18PG121SN1D
C233
0.1uF
+3.3V_NORMAL
A2.5V
+3.3V_NORMAL
C234
0.1uF
SYS_RESETb
001:A6;001:B7
L204
BLM18PG121SN1D
A1.2V
A1.2V
L207
BLM18PG121SN1D
C237
0.1uF
R2221K
R2621K
R221
4.7K
L211
BLM18PG121SN1D
LVDS_TX_0_DATA3_P013:F7;035:AK14
LVDS_TX_0_DATA0_P013:E7;035:AK11
LVDS_TX_1_DATA3_N013:E7;035:AK19
LVDS_TX_1_DATA1_P013:E7;035:AK16
LVDS_TX_0_DATA1_N013:E7;035:AK12
LVDS_TX_0_DATA1_P013:E7;035:AK11
LVDS_TX_1_CLK_P 013:E7;035:AK18
LVDS_TX_0_DATA2_N013:F7;035:AK12
LVDS_TX_1_CLK_N 013:E7;035:AK18
LVDS_TX_0_DATA4_P013:F7;035:AK14
LVDS_TX_1_DATA4_P013:E7;035:AK19
LVDS_TX_0_DATA2_P013:F7;035:AK12
LVDS_TX_1_DATA3_P013:E7;035:AK19
LVDS_TX_0_CLK_N 013:E7;035:AK13
LVDS_TX_0_DATA4_N013:F7;035:AK15
LVDS_TX_0_CLK_P 013:E7;035:AK13
LVDS_TX_1_DATA4_N013:E7;035:AK20
LVDS_TX_1_DATA1_N013:E7;035:AK17
LVDS_TX_0_DATA3_N013:F7;035:AK14
LVDS_TX_1_DATA0_N013:E7;035:AK16
LVDS_TX_1_DATA0_P013:E7;035:AK16
LVDS_TX_1_DATA2_P013:E7;035:AK17
LVDS_TX_1_DATA2_N013:E7;035:AK17
LVDS_TX_0_DATA0_N013:E7;035:AK11
SC1_LR_INCM
002:J7
REAR_AV_LR_INCM
002:J6
R233 51
R231 51
R230 51
R234 51
R229 51
R232 51
COMP2_LR_INCM
002:J6
SC1_L_IN
041:B5
R228 51
PC_LR_INCM
002:J7
PC_R_IN
009:I3
SC1_R_IN
041:B5
PC_L_IN
009:I3
R215 51
C238
0.1uF
D3.3V
R235
2.7K
P200
TJC2508-4A
1
2
3
4
A1.2V
R240
390
OPT
R243
604 L208
1008LS-272XJLC
C257
33pF
R212
22
R211
22
C229
12pF
C230
12pF
X903
54MHz21
3
R245
34
R251
34
COMP2_VID_INCM
TU_CVBS_INCM
003:A3
R257
5.1
R256
5.1
B_VID_INCM
003:A5
R258
5.1
R259
5.1
R252
5.1
C2016 0.1uF
C2015 0.1uF
C258 0.1uF
R250
34
C262 0.1uF
R_VID_INCM
003:A5
R248
34
R244
34
REAR_AV_LR_INCM
002:C6
C264 0.1uF
R246
34
R247
34
C261 0.1uF
SIDE_AV_LR_INCM
002:C6
C2019 0.1uF
COMP2_LR_INCM
002:C6
G_VID_INCM
003:A5
PC_LR_INCM
002:C6
REAR_AV_CVBS_INCM
003:A3
C2014
0.15uF
C2024
0.15uF
C265
0.15uF
C2022
0.15uF
C269
0.15uF
EPHY_TDN
EPHY_TDP
A2.5V A1.2V EPHY_RDP
C244
0.1uF
16V
L210
BLM18PG121SN1D
C247
0.1uF
C2020
0.1uF
EPHY_RDN
L209
BLM18PG121SN1D
L212
BLM18PG121SN1D
CI_OUTDATA[0-7],CI_OUTSTART,CI_OUTVALID
045:V14 CI_A[14]
SC1_CVBS_INCM 003:A3
C2011 0.1uF
R260
34
SIDE_AV_CVBS_INCM 003:A3
R261
34
C2023 0.1uF
FE_TS_DATA_CLK
FE_TS_SERIAL
FE_TS_SYNC
TU_SIF_INCM 003:A3
SC1_LR_INCM
002:C6
SC1_RGB_INCM
003:A4
R249
1K
R204 51
R214 51
BT_DP
BT_DM
SIDE_USB_DM
SIDE_USB_DP
COMP2_L_IN
COMP2_R_IN
DTV/MNT_V_OUT
REAR_AV_R_IN
041:B5
REAR_AV_L_IN
041:B5
SIDE_AV_LR_INCM
002:J6
SIDE_AV_L_IN
041:B5
SIDE_AV_R_IN
041:B5
C212
4.7uF
C2028
4.7uF
C208 4.7uF
C2026
4.7uF
C2021
4.7uF
C2018
4.7uF
C217
10uF
C228
10uF
OPT
C242
4.7uF
C2013
4.7uF
C235
4.7uF
C241
4.7uF
C240
4.7uF
C231
10uF
C270
0.47uF
C271
0.47uF
C2025
0.47uF
C2010
0.47uF
C2017
0.47uF
TP4021
TP4022
TP4023
R236
0
R237
0
R224
2.7K
OPT R225
2.7K
OPT
R227
2.7K
R226
2.7K
C224 0.015uF
C226 0.015uF
C210 0.015uF
C206 0.015uF
C232 0.015uF
C220 0.015uF
C225 0.015uF
C221 0.015uF
C211 0.015uF
C227 0.015uF
C298 0.047uF
C279 0.047uF
C277 0.047uF
C253 0.047uF
C256 0.047uF
C254 0.047uF
C2027 0.047uF
C296 0.047uF
C299 0.047uF
C252 0.047uF
R264 0
R265 0
R266
2.7K
R238
75
1%
IC100
LGE3556C (C0 VERSION)
NON_3DTV
PKT0_CLK
D23
PKT0_DATA
C24
PKT0_SYNC
B26
RMX0_CLK
A25
RMX0_DATA
B25
RMX0_SYNC
A26
POD2CHIP_MCLKI
G23
POD2CHIP_MDI0
D25
POD2CHIP_MDI1
D24
POD2CHIP_MDI2
C25
POD2CHIP_MDI3
E27
POD2CHIP_MDI4
E26
POD2CHIP_MDI5
D28
POD2CHIP_MDI6
D27
POD2CHIP_MDI7
D26
POD2CHIP_MISTRT
E23
POD2CHIP_MIVAL
E24
CHIP2POD_MCLKO
F25
CHIP2POD_MDO0
C27
CHIP2POD_MDO1
C26
CHIP2POD_MDO2
B28
CHIP2POD_MDO3
B27
CHIP2POD_MDO4
A27
CHIP2POD_MDO5
F24
CHIP2POD_MDO6
F23
CHIP2POD_MDO7
E25
CHIP2POD_MOSTRT
C28
CHIP2POD_MOVAL
A28
VDAC_AVDD2P5
AC18
VDAC_AVDD1P2
AF20
VDAC_AVDD3P3_1
AG20
VDAC_AVDD3P3_2
AG21
VDAC_AVSS_1
AF19
VDAC_AVSS_2
AD20
VDAC_AVSS_3
AE20
VDAC_RBIAS
AH22
VDAC_1
AH20
VDAC_2
AG19
VDAC_VREG
AH21
BSC_S_SCL
M25
BSC_S_SDA
M24
USB_AVSS_1
R6
USB_AVSS_2
T6
USB_AVSS_3
R7
USB_AVSS_4
T7
USB_AVSS_5
T8
USB_AVDD1P2
R3
USB_AVDD1P2PLL
U3
USB_AVDD2P5
T4
USB_AVDD2P5REF
T3
USB_AVDD3P3
R4
USB_RREF
U4
USB_DM1
V1
USB_DP1
V2
USB_DM2
U1
USB_DP2
U2
USB_MONCDR
T5
USB_MONPLL
R5
USB_PWRFLT_1
R1
USB_PWRFLT_2
R2
USB_PWRON_1
T2
USB_PWRON_2
T1
EPHY_VREF
P6
EPHY_RDAC
P5
EPHY_RDN
P3
EPHY_RDP
P2
EPHY_TDN
N3
EPHY_TDP
N2
EPHY_AVDD1P2
P1
EPHY_AVDD2P5
P4
EPHY_PLL_VDD1P2
N4
EPHY_AGND_1
N1
EPHY_AGND_2
N5
EPHY_AGND_3
P7
AUDMX_LEFT1
AE6
AUDMX_RIGHT1
AD7
AUDMX_INCM1
AF6
AUDMX_LEFT2
AH4
AUDMX_RIGHT2
AG5
AUDMX_INCM2
AG4
AUDMX_LEFT3
AG6
AUDMX_RIGHT3
AF7
AUDMX_INCM3
AE7
AUDMX_LEFT4
AH5
AUDMX_RIGHT4
AG7
AUDMX_INCM4
AH6
AUDMX_LEFT5
AD8
AUDMX_RIGHT5
AF8
AUDMX_INCM5
AE8
AUDMX_LEFT6
AH7
AUDMX_RIGHT6
AH8
AUDMX_INCM6
AG8
AUDMX_AVSS_1
AF5
AUDMX_AVSS_2
AB9
AUDMX_AVSS_3
AA10
AUDMX_AVSS_4
AB10
AUDMX_AVSS_5
AA11
AUDMX_AVSS_6
AB11
AUDMX_LDO_CAP
AC8
AUDMX_AVDD2P5
AE5
LVDS_TX_0_DATA0_P B4
LVDS_TX_0_DATA0_N A4
LVDS_TX_0_DATA1_P C6
LVDS_TX_0_DATA1_N B6
LVDS_TX_0_DATA2_P B3
LVDS_TX_0_DATA2_N A3
LVDS_TX_0_DATA3_P A1
LVDS_TX_0_DATA3_N A2
LVDS_TX_0_DATA4_P D5
LVDS_TX_0_DATA4_N D6
LVDS_TX_0_CLK_P C5
LVDS_TX_0_CLK_N B5
LVDS_TX_1_DATA0_P B1
LVDS_TX_1_DATA0_N B2
LVDS_TX_1_DATA1_P C2
LVDS_TX_1_DATA1_N C3
LVDS_TX_1_DATA2_P D1
LVDS_TX_1_DATA2_N D2
LVDS_TX_1_DATA3_P E1
LVDS_TX_1_DATA3_N E2
LVDS_TX_1_DATA4_P E3
LVDS_TX_1_DATA4_N E4
LVDS_TX_1_CLK_P D3
LVDS_TX_1_CLK_N D4
LVDS_PLL_VREG F5
LVDS_TX_AVDDC1P2 F1
LVDS_TX_AVDD2P5_1 F4
LVDS_TX_AVDD2P5_2 F2
LVDS_TX_AVSS_1 C1
LVDS_TX_AVSS_2 F3
LVDS_TX_AVSS_3 C4
LVDS_TX_AVSS_4 A5
LVDS_TX_AVSS_5 E5
LVDS_TX_AVSS_6 E6
LVDS_TX_AVSS_7 D7
LVDS_TX_AVSS_8 E7
LVDS_TX_AVSS_9 F7
LVDS_TX_AVSS_10 G7
LVDS_TX_AVSS_11 H7
CLK54_AVDD1P2 AD27
CLK54_AVDD2P5 AD28
CLK54_AVSS AD26
CLK54_XTAL_N AC26
CLK54_XTAL_P AC27
CLK54_MONITOR AE25
PM_OVERRIDE Y23
VCXO_AGND_1 AA23
VCXO_AGND_2 AB24
VCXO_AGND_3 AC24
VCXO_AVDD1P2 AF25
VCXO_PLL_AUDIO_TESTOUT AF24
RESET_OUTB P24
RESETB F6
NMIB N24
TMODE_0 J5
TMODE_1 J4
TMODE_2 J6
TMODE_3 J3
SPI_S_MISO V25
POR_OTP_VDD2P5 AH3
POR_VDD1P2 AB8
EJTAG_TCK H4
EJTAG_TDI H3
EJTAG_TDO H2
EJTAG_TMS H1
EJTAG_TRSTB G1
EJTAG_CE0 H6
EJTAG_CE1 H5
PLL_MAIN_AVDD1P2 AB26
PLL_MAIN_AGND AC25
PLL_MAIN_MIPS_EREF_TESTOUT AB27
PLL_RAP_AVD_TESTOUT M6
PLL_RAP_AVD_AVDD1P2 N6
PLL_RAP_AVD_AGND N7
BYP_CPU_CLK AA24
BYP_DS_CLK Y24
BYP_SYS216_CLK AE24
BYP_SYS175_CLK AD25
BT_DP
BT_DM E_TMS
E_TDI
E_TMS
E_TDI
E_TCK
E_TDO
E_TCK
R23141K
OPT
E_TDO
+3.3V_NORMAL
R23131K
OPT
R23151K
OPT
R23121K
OPT
2
Route INCM between associated
left and right signals of same channel
The INCM trace ends at the
same point where the connector
ground connects to the board ground
(thru-hole connector pin).
Place test points, resistors
near audio connector.
Connect the other side of
the resistor to GND as close
as possible to the ground
connection of the associated
audio connector.
54MHz X-TAL
R220 : BCM recommened resistor 562 ohm
BROAD BAND STUDIO
When usding FUNDMENTAl then series R = 0 ohm and CL = 8 pF
When usding Dip-type X-tal then series R = 22 ohm and CL = 12 pF
VIDEO INCM
PLACE NEAR BCM CHIP
AUDIO INCM
PLACE NEAR BCM CHIP
PLACE NEAR Jacks
Route Between SC2_L_IN & SC2_R_IN
Route Between AV1_L_IN & AV1_R_IN
Route Between COMP1_L_IN & COMP1_R_IN
Route Between SC1_L_IN & SC1_R_IN
Route Between PC_L_IN & PC_R_IN
Near J1501
Near J1600
Near J1603
Near J1500
Near J1602
Near Q1705
Near J1500
Near J1603
Near P1600
Near Q1704
Near J1501
Near J1500
Route Along With TUNER_SIF_IF_N
Run Along TUNER_CVBS_IF_P Trace
Run Along SC1_R,SC_G,SC_B Trace
Run Along COMP_Y_IN,COMP_Pr_IN,COMP_Pb_IN Trace
Run Along DSUB_R Trace
Run Along DSUB_G Trace
Run Along DSUB_B Trace
Run Along SC1_CVBS_IN Trace
Run Along SC2_CVBS_IN Trace
TP is Necessory
43page : Bluetooth
43page : Bluetooth
Copyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
LGE Internal Use Only
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.
2009.06.18
BCM3556 VIDEO IN
EUROBBTV
B_VID_INCM
A2.5V
L105
BLM18PG121SN1D
A2.5V
A3.3V
R128
0
C125 0.1uF
C133 0.1uF
L103
BLM18PG121SN1D
A1.2V
L107
BLM18PG121SN1D
R137
10K
C105 OPT
L110
BLM18PG121SN1D
C156
0.1uF
A1.2V
DSUB_B
RGB_VSYNC
C130 0.1uF
A1.2V
R_VID_INCM
C112
0.1uF
SC1_RGB_INCM
C155
0.1uF
C154
0.1uF
L102
BLM18PG121SN1D
A2.5V
COMP2_VID_INCM
C110 0.1uF
A1.2V
G_VID_INCM
C134 0.1uF
C144
0.1uF
C131 0.1uF
D3.3V
A1.2V
L106
BLM18PG121SN1D
C160
0.1uF
C119
0.1uF
DSUB_G
R310 10K
C111
0.1uF
C104 OPT
C150
0.1uF
C157
0.1uF
C113
0.1uF
C124 0.1uF
C151
0.01uF
C117
1000pF
C161
0.1uF
C158
1000pF
C129 0.1uF
A2.5V
L108
BLM18PG121SN1D
C149
0.01uF
A1.2V
RGB_HSYNC
SPDIF_OUT
C153
0.1uF
C132 0.1uF
C135 0.1uF
C127 0.1uF
R153499
OPT
C152
0.01uF
R152499
C120
1000pF
C147
0.01uF
C123
0.01uF
C159
1000pF
C106
0.1uF
A2.5V
L109
BLM18PG121SN1D
C128 0.1uF
R139
12K
A2.5V
A3.3V
C148
0.01uF
L104
BLM18PG121SN1D
C118
0.01uF
DSUB_R
A2.5V
C121
0.1uF
+5V_NORMAL
R2037
10K
OPT
R2038 10K
10K
R2039
C3006
0.1uF
16V
HDMI_SCL
HDMI_SDA
R3070
R3080
R2036
1K
R309 10K
R3055
240
OPT
A2.5V
R4020
10K
R4021
12K
C4020
0.1uF
R3056
120
OPT
SC1_FB
SC1_ID
SC1_R
SC1_B
SC1_G
SIDE_AV_CVBS_INCM
SC1_CVBS_INCM
SC1_CVBS_IN
TU_CVBS_INCM
REAR_AV_CVBS_INCM
C100 0.1uF
SCART1_Rout_P
SCART1_Lout_N
SCART1_Rout_N
SCART1_Lout_P
TU_SIF_INCM
TU_SIF
TU_CVBS
HP_LOUT_N
HP_LOUT_P
HP_ROUT_P
HP_ROUT_N
D3.3V
C357
10uF
10V
C267
0.01uF
D1.2V
C320
0.1uF
16V
C319
0.1uF
16V
C284
0.01uF
C286
33uF
D1.8V
C356
0.1uF
16V
C318
0.1uF
16V
C276
0.1uF
C243
0.1uF
C293
0.01uF
C377
0.01uF
C304
0.1uF
16V
D1.2V
C363
0.1uF
16V
C378
0.1uF
C2006
0.01uF
C2003
0.1uF
D1.8V
C216
0.1uF C275
0.1uF
C374
0.01uF
C294
0.1uF C274
0.1uF
C255
1000pF
C382
0.01uF
C348
0.1uF
16V
C289
0.1uF
C370
0.1uF
C259
1000pF
C2004
33uF
C292
1000pF
C246
0.01uFC250
1000pF
D1.8V
C281
1000pF C282
1000pF
C373
1000pF
D3.3V
C290
0.01uF
C375
0.1uF
C272
0.1uF
C248
1000pF
R205
20
C364
0.1uF
16V
C371
0.01uF
D1.2V
C366
0.1uF
C365
0.1uF
16V
A3.3V
D1.8V
C383
1000pF
C2005
0.01uF
C288
1000pF
C268
1000pF
C285
0.01uF
C283
1000pF
D3.3V
C381
0.1uF
COMP2_Pb
COMP2_Pr
COMP2_Y
AUD_SCK
AUD_LRCK
AUD_LRCH
REAR_AV_CVBS
SIDE_AV_CVBS
C122
4.7uF
C172
4.7uF
C140
4.7uF
C145
4.7uF
C164
10uF
C162
10uF
C165
10uF
C166
10uF
C163
10uF
C380
10uF C379
10uF
C291
10uF
C263
4.7uF
C245
4.7uF
C280
4.7uF
C278
4.7uF C297
4.7uF
C266
4.7uF
C369
4.7uF
C376
4.7uFC249
4.7uF
R142 OPT
R313 75
1%
NON_EU
R315 75
1%
NON_EU
R131 75
1%
R312 75
1%
R2114
0
C174 0.1uF
C175 0.1uF
C176 0.1uF
SIDE_COMP_Pb
SIDE_COMP_Pr
SIDE_COMP_INCM
SIDE_COMP_Y
R166 75
1%
C177 OPT
R167 75
1%
R120 82
1%
R165 82
1%
R2113
12 R2115
12
R143 62
R100 62
R135 75
1%
OPT
C17047pF
C169 47pF
C101 47pF
A3.3V+3.3V_NORMAL
L112
CIC21J501NE
C2007
0.1uF
16V
+1.8V_HDMI+1.8V_AMP
C2008
0.1uF
16V
L111
BLM18PG121SN1D
HDMI_RX0+
HDMI_RX0-
HDMI_RX2+
HDMI_RX2-
HDMI_RX1-
HDMI_RX1+
HDMI_CLK-
HDMI_CLK+
SIDE_COMP_Y
SIDE_COMP_Pr
SIDE_COMP_Pb
SIDE_COMP_INCM
TU_IF_AGC_2
TU_IF_P_1
TU_IF_P_1
TU_IF_N_1
TU_IF_AGC_1
TU_IF_N_1
TU_IF_AGC_2
TU_IF_AGC_1
C146
4.7uF
R2035
0
R2117
0
R2116
0
OPT
C287
100uF
C384
33uF
10V
IC100
LGE3556C (C0 VERSION)
NON_3DTV
DS_AGCI_CTL
AG28
DS_AGCT_CTL
AH28
EDSAFE_AVSS_1
AA21
EDSAFE_AVSS_2
AB22
EDSAFE_AVSS_3
AF26
EDSAFE_AVSS_4
AF27
EDSAFE_AVSS_5
AF28
EDSAFE_AVDD2P5
AG27
EDSAFE_DVDD1P2
AE26
EDSAFE_IF_N
AE28
EDSAFE_IF_P
AE27
PLL_DS_AGND
AD24
PLL_DS_AVDD1P2
AB19
PLL_DS_TESTOUT
AB25
SD_V5_AVDD1P2
AB18
SD_V5_AVDD2P5
AC17
SD_V5_AVSS
AB17
SD_V1_AVDD1P2
AD14
SD_V1_AVDD2P5
AD16
SD_V1_AVSS_1
AB15
SD_V1_AVSS_2
AC15
SD_V2_AVDD1P2
AD13
SD_V2_AVDD2P5
AE13
SD_V2_AVSS_1
AC13
SD_V2_AVSS_2
AB14
SD_V2_AVSS_3
AC14
SD_V3_AVDD1P2
AC12
SD_V3_AVDD2P5
AD12
SD_V3_AVSS_1
AB13
SD_V3_AVSS_2
AA14
SD_V4_AVDD1P2
AC11
SD_V4_AVDD2P5
AD11
SD_V4_AVSS
AB12
SD_R
AD10
SD_INCM_R
AC10
SD_G
AE9
SD_INCM_G
AF9
SD_B
AH9
SD_INCM_B
AG9
SD_Y1
AG15
SD_PR1
AE15
SD_PB1
AF15
SD_INCM_COMP1
AH15
SD_Y2
AG16
SD_PR2
AF16
SD_PB2
AH17
SD_INCM_COMP2
AH16
SD_Y3
AG14
SD_PR3
AE14
SD_PB3
AF14
SD_INCM_COMP3
AH14
SD_L1
AH10
SD_C1
AG10
SD_INCM_LC1
AE10
SD_L2
AE11
SD_C2
AF11
SD_INCM_LC2
AH11
SD_L3
AH13
SD_C3
AE12
SD_INCM_LC3
AF12
SD_CVBS1
AD9
SD_CVBS2
AG11
SD_CVBS3
AG12
SD_CVBS4
AF13
SD_INCM_CVBS1
AC9
SD_INCM_CVBS2
AF10
SD_INCM_CVBS3
AH12
SD_INCM_CVBS4
AG13
SD_SIF1
AF17
SD_INCM_SIF1
AG17
SD_FB
AD15
SD_FS
AE16
SD_FS2
AE17
PLL_VAFE_AVDD1P2
AB16
PLL_VAFE_AVSS
AA15
PLL_VAFE_TESTOUT
AC16
RGB_HSYNC
AG3
RGB_VSYNC
AF4
I2S_CLK_IN AE18
I2S_CLK_OUT AF18
I2S_DATA_IN AD17
I2S_DATA_OUT AH19
I2S_LR_IN AD18
I2S_LR_OUT AG18
AUD_LEFT0_N AG26
AUD_LEFT0_P AH26
AUD_AVDD2P5_0 AF23
AUD_AVSS_0_1 AA20
AUD_AVSS_0_2 AB21
AUD_AVSS_0_3 AC22
AUD_AVSS_0_4 AC23
AUD_AVSS_0_5 AD23
AUD_RIGHT0_N AH25
AUD_RIGHT0_P AG25
AUD_LEFT1_N AH23
AUD_LEFT1_P AG23
AUD_RIGHT1_N AG24
AUD_RIGHT1_P AH24
AUD_AVDD2P5_1 AE22
AUD_AVSS_1_1 AB20
AUD_AVSS_1_2 AC21
AUD_AVSS_1_3 AE23
AUD_LEFT2_N AF21
AUD_LEFT2_P AE21
AUD_RIGHT2_N AF22
AUD_RIGHT2_P AG22
AUD_AVDD2P5_2 AD21
AUD_AVSS_2_1 AC20
AUD_AVSS_2_2 AD22
AUD_SPDIF AH2
SPDIF_AVDD2P5 AC6
SPDIF_AVSS AE4
SPDIF_IN_N AF3
SPDIF_IN_P AH1
HDMI_RX_0_CEC_DAT AG1
HDMI_RX_0_HTPLG_IN AA6
HDMI_RX_0_HTPLG_OUT AA5
HDMI_RX_0_DDC_SCL AB3
HDMI_RX_0_DDC_SDA Y6
HDMI_RX_0_RESREF AC4
HDMI_RX_0_CLK_N AC1
HDMI_RX_0_CLK_P AC2
HDMI_RX_0_DATA0_N AD1
HDMI_RX_0_DATA0_P AD2
HDMI_RX_0_DATA1_N AE1
HDMI_RX_0_DATA1_P AE2
HDMI_RX_0_DATA2_N AF1
HDMI_RX_0_DATA2_P AF2
HDMI_RX_0_VDD3P3 AD3
HDMI_RX_0_VDD1P2 AE3
HDMI_RX_0_VDD2P5 AC3
HDMI_RX_0_AVSS_1 AD4
HDMI_RX_0_AVSS_2 AB5
HDMI_RX_0_AVSS_3 AB6
HDMI_RX_0_AVSS_4 AG2
HDMI_RX_0_AVSS_5 AB4
HDMI_RX_0_AVSS_6 AA7
HDMI_RX_0_PLL_AVSS Y8
HDMI_RX_0_PLL_DVDD1P2 AC5
HDMI_RX_0_PLL_DVSS W8
HDMI_RX_1_CEC_DAT AA3
HDMI_RX_1_HTPLG_IN V4
HDMI_RX_1_HTPLG_OUT U6
HDMI_RX_1_DDC_SCL V5
HDMI_RX_1_DDC_SDA V3
HDMI_RX_1_RESREF W4
HDMI_RX_1_CLK_N W2
HDMI_RX_1_CLK_P W3
HDMI_RX_1_DATA0_N Y1
HDMI_RX_1_DATA0_P Y2
HDMI_RX_1_DATA1_N AA2
HDMI_RX_1_DATA1_P AA1
HDMI_RX_1_DATA2_N AB2
HDMI_RX_1_DATA2_P AB1
HDMI_RX_1_VDD3P3 Y3
HDMI_RX_1_VDD1P2 Y4
HDMI_RX_1_VDD2P5 W5
HDMI_RX_1_AVSS_1 W1
HDMI_RX_1_AVSS_2 U5
HDMI_RX_1_AVSS_3 W6
HDMI_RX_1_AVSS_4 U7
HDMI_RX_1_AVSS_5 V7
HDMI_RX_1_AVSS_6 W7
HDMI_RX_1_AVSS_7 U8
HDMI_RX_1_AVSS_8 V8
HDMI_RX_1_AVSS_9 Y5
HDMI_RX_1_PLL_AVSS V6
HDMI_RX_1_PLL_DVDD1P2 AA4
HDMI_RX_1_PLL_DVSS Y7
IC100
LGE3556C (C0 VERSION)
NON_3DTV
VDDC_1
H8
VDDC_2
J8
VDDC_3
K8
VDDC_4
L8
VDDC_5
M8
VDDC_6
N8
VDDC_7
P8
VDDC_8
R8
VDDC_9
AA8
VDDC_10
H9
VDDC_11
H10
VDDC_12
H11
VDDC_13
H12
VDDC_14
H13
VDDC_15
H14
VDDC_16
H15
VDDC_17
H16
VDDC_18
H17
VDDC_19
H18
VDDC_20
H19
VDDC_21
H21
VDDC_22
J21
VDDC_23
K21
VDDC_24
L21
VDDC_25
M21
VDDC_26
N21
VDDC_27
P21
VDDC_28
R21
VDDC_29
T21
VDDC_30
U21
VDDC_31
V21
VDDC_32
W21
VDDC_33
Y21
AGC_VDDO
AH27
VDDO_1
AA12
VDDO_2
AA13
VDDO_3
AA18
VDDO_4
AA19
VDDO_5
E28
VDDO_6
L28
VDDO_7
U28
VDDO_8
AB28
DDRV_1
A9
DDRV_2
G9
DDRV_3
G11
DDRV_4
G13
DDRV_5
A14
DDRV_6
G15
DDRV_7
G17
DDRV_8
A19
DDRV_9
G19
IC100
LGE3556C (C0 VERSION)
NON_3DTV
DVSS_1
AD5
DVSS_2
AD6
DVSS_3
J7
DVSS_4
K7
DVSS_5
L7
DVSS_6
M7
DVSS_7
AB7
DVSS_8
AC7
DVSS_9
G8
DVSS_10
D9
DVSS_11
AA9
DVSS_12
G10
DVSS_13
A11
DVSS_14
L11
DVSS_15
M11
DVSS_16
N11
DVSS_17
P11
DVSS_18
R11
DVSS_19
T11
DVSS_20
U11
DVSS_21
V11
DVSS_22
D12
DVSS_23
G12
DVSS_24
L12
DVSS_25
M12
DVSS_26
N12
DVSS_27
P12
DVSS_28
R12
DVSS_29
T12
DVSS_30
U12
DVSS_31
V12
DVSS_32
L13
DVSS_33
M13
DVSS_34
N13
DVSS_35
P13
DVSS_36
R13
DVSS_37
T13
DVSS_38
U13
DVSS_39
V13
DVSS_40
G14
DVSS_41
L14
DVSS_42
M14
DVSS_43
N14
DVSS_44
P14
DVSS_45
R14
DVSS_46
T14
DVSS_47
U14
DVSS_48
V14
DVSS_49
L15
DVSS_50
M15
DVSS_51
N15
DVSS_52
P15
DVSS_53
R15
DVSS_54
T15
DVSS_55
U15
DVSS_56
V15
DVSS_57
A16
DVSS_58
G16
DVSS_59
L16
DVSS_60
M16
DVSS_61
N16
DVSS_62 P16
DVSS_63 R16
DVSS_64 T16
DVSS_65 U16
DVSS_66 V16
DVSS_67 AA16
DVSS_68 D17
DVSS_69 L17
DVSS_70 M17
DVSS_71 N17
DVSS_72 P17
DVSS_73 R17
DVSS_74 T17
DVSS_75 U17
DVSS_76 V17
DVSS_77 AA17
DVSS_78 AC19
DVSS_79 G18
DVSS_80 L18
DVSS_81 M18
DVSS_82 N18
DVSS_83 P18
DVSS_84 R18
DVSS_85 T18
DVSS_86 U18
DVSS_87 V18
DVSS_88 D20
DVSS_89 G20
DVSS_90 H20
DVSS_91 A21
DVSS_92 E21
DVSS_93 F21
DVSS_94 G21
DVSS_95 E22
DVSS_96 F22
DVSS_97 G22
DVSS_98 H22
DVSS_99 J22
DVSS_100 K22
DVSS_101 L22
DVSS_102 M22
DVSS_103 N22
DVSS_104 P22
DVSS_105 R22
DVSS_106 T22
DVSS_107 U22
DVSS_108 V22
DVSS_109 W22
DVSS_110 Y22
DVSS_111 AA22
DVSS_112 W23
DVSS_113 AB23
DVSS_114 F28
DVSS_115 M28
DVSS_116 T28
DVSS_117 AC28
R2112
181%
EU_CN R141 1% EU_CN
75
R2112-*1
125%
NON_EU_CN R141-*1
5%
NON_EU_CN
62
R196
10
1%
R195 10
1%
R138 10
NON_EU
R138-*1
0
EU
R135-*1 82 1%
NON_EU
3
CONNECT NEAR BCM CHIP
CVBS
COMPONENT
DSUB
SIDE COMPONENT
Place here for common circuit with ATSC
BT_LOUT_N
BT_LOUT_P
BT_ROUT_N
BT_ROUT_P
26page : TUNER(HALF NIM)
COMP1_Pr ==>
COMP1_Pb ==>
SC1_RGB(EU)/COMPNENT1[NON_EU]
COMP1_Y ==>
ONLY USE NON_EU
FOR COMP 1
FOR ESD
FOR ESD
Copyright © 2010 LG Electronics. Inc. All rights reserved.
Only for training and service purposes
LGE Internal Use Only
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.
DDR Memory
BCM (EUROBBTV) 2009.06.18
DDR01_A[12]
DDR01_A[0]
DDR01_A[8]
DDR0_A[6]
DDR1_DQ[15]
DDR01_A[1]
DDR1_DQ[7]
DDR01_A[2]
DDR01_A[2]
DDR01_A[9]
DDR01_A[1]
DDR1_DQ[0]
DDR1_DQ[5]
DDR0_DQ[7]
DDR1_DQ[11]
DDR1_DQ[8]
DDR01_A[10]
DDR0_DQ[6]
DDR1_A[5]
DDR0_DQ[9]
DDR01_A[12]
DDR1_DQ[7]
DDR01_A[3]
DDR1_DQ[15]
DDR0_A[6]
DDR1_DQ[9]
DDR1_A[5]
DDR0_DQ[5]
DDR01_A[7]
DDR0_DQ[10]
DDR01_A[10]
DDR1_DQ[8]
DDR01_A[11]
DDR1_DQ[4]
DDR0_DQ[11]
DDR0_A[4]
DDR1_DQ[0]
DDR1_A[5]
DDR0_DQ[4]
DDR01_A[7]
DDR0_A[5]
DDR01_A[1]
DDR0_DQ[1]
DDR0_DQ[2]
DDR1_DQ[14]
DDR01_A[7]
DDR01_A[8]
DDR01_A[0]
DDR01_A[2]
DDR0_A[5]
DDR1_A[4]
DDR01_A[3]
DDR0_A[6]
DDR0_A[6]
DDR1_DQ[13]
DDR01_A[13]
DDR01_A[10]
DDR1_A[6]
DDR1_A[4]
DDR01_A[11]
DDR0_DQ[5]
DDR01_A[3]
DDR01_A[9]
DDR0_DQ[7]
DDR01_A[0]
DDR1_A[6]
DDR0_DQ[10]
DDR01_A[2]
DDR1_DQ[5]
DDR01_A[8]
DDR0_DQ[4]
DDR01_A[12]
DDR01_A[1]
DDR0_DQ[14]
DDR01_A[12]
DDR01_A[9]
DDR01_A[9]
DDR0_DQ[14]
DDR01_A[3]
DDR01_A[13]
DDR01_A[12]
DDR0_DQ[13]
DDR01_A[7]
DDR0_DQ[11]
DDR01_A[10]
DDR1_DQ[10]
DDR01_A[9]
DDR01_A[10]
DDR1_DQ[12]
DDR0_A[5]
DDR0_DQ[2]
DDR01_A[7]
DDR0_DQ[3]
DDR1_DQ[4]
DDR01_A[11]
DDR1_DQ[2]
DDR1_DQ[13]
DDR1_A[4]
DDR01_A[8]
DDR0_DQ[0]
DDR1_DQ[1]
DDR01_A[0]
DDR01_A[11]
DDR01_A[11]
DDR01_A[0]
DDR0_A[4]
DDR01_A[10]
DDR01_A[12]
DDR1_A[6]
DDR01_A[11]
DDR0_A[4]
DDR01_A[2]
DDR01_A[13]
DDR01_A[0]
DDR1_DQ[10]
DDR1_DQ[14]
DDR0_DQ[9]
DDR1_DQ[1]
DDR01_A[3]
DDR1_A[6]
DDR0_A[4]
DDR0_DQ[15]
DDR01_A[8]
DDR01_A[10]
DDR01_A[11]
DDR01_A[1]
DDR0_DQ[15]
DDR1_DQ[12]
DDR01_A[13]
DDR0_DQ[12]
DDR1_DQ[3]
DDR0_DQ[1] DDR01_A[8]
DDR0_DQ[8]
DDR1_DQ[11]
DDR0_DQ[12]
DDR01_A[7]
DDR01_A[13]
DDR01_A[7]
DDR0_DQ[0]
DDR0_DQ[8]
DDR0_DQ[13]
DDR01_A[13]
DDR1_DQ[2]
DDR1_DQ[9]
DDR1_DQ[6]
DDR01_A[1]
DDR1_A[5]
DDR01_A[13]
DDR0_DQ[3]
DDR01_A[2]
DDR01_A[2]
DDR01_A[0]
DDR1_DQ[3]
DDR01_A[12]
DDR0_DQ[6]
DDR01_A[9]
DDR1_DQ[6]
DDR01_A[9]
DDR01_A[3]
DDR01_A[8]
DDR01_A[3]
DDR01_A[1]
DDR0_A[5]
DDR1_A[4]
DDR1_VREF0
DDR1_DQS1 004:H3
DDR0_CLKb 004:C7;004:C4
DDR0_VREF0
DDR1_CLK
004:A7;004:F4
DDR01_CASb
C477
0.1uF
C479
470pF
C455
0.1uF
DDR01_CASb
C441
0.047uF
C466
0.1uF
DDR1_A[4-6]
R407
100
1%
C491
0.1uF
C482
0.047uF
DDR01_BA2
DDR01_BA0
R409 75
C406
0.1uF
DDR01_WEb
D1.8V
DDR0_DQS1b 004:E3
DDR01_A[0-3,7-13]
DDR01_BA0
AR408
75
DDR01_BA1
C478
0.047uF
C409
470pF
D1.8V
DDR01_BA0
DDR1_DQ[0-7]
DDR0_DM0 004:E6
DDR01_WEb
DDR01_CKE
C492
0.1uF
DDR01_BA2
C464
470pF
DDR0_DQS0 004:A4
DDR01_CASb
DDR1_DQS0 004:A4
AR403
75
DDR01_A[7-13]
DDR0_DQ[0-7] 004:B6
DDR01_BA1
D1.8V
DDR01_CKE
DDR01_A[0-3,7-13]
C442
0.1uF
DDR01_CASb
DDR01_BA1
DDR01_A[0-3]
DDR01_WEb
DDR01_BA1
DDR01_WEb
DDR01_WEb
DDR01_CKE
DDR1_DQS0 004:H6
D1.8V
DDR01_BA2
DDR01_BA0
C453
470pF
DDR01_RASb
C445
0.047uF
DDR1_DQ[0-7]
004:B5
DDR1_CLK
C4030.1uF
DDR01_BA2
C465
0.047uF
R410 75
DDR01_ODT
C415
0.1uF
DDR01_WEb
AR404
75
C463
470pF
C471
0.047uF
DDR01_BA0
DDR01_BA0
DDR0_VREF0
C460
0.047uF
DDR0_DQS1 004:E3
C493
0.1uF
DDR01_WEb
C459
0.1uF
R408 75
AR409
75
DDR01_BA1
DDR0_DM1 004:E3
DDR1_CLK 004:F7;004:F4
DDR0_A[4-6]
DDR01_BA0
DDR01_CASb
DDR0_A[4-6]
AR407
75
C456
0.047uF
DDR01_BA2
DDR0_CLK
004:A7;004:C7
DDR1_DQ[8-15]
DDR_VTT
DDR01_BA1
DDR1_DQS0b 004:A3
DDR01_CKE
004:A7;004:C7;004:F7;004:F4
DDR01_CKE
DDR0_CLKb
004:A7;004:C4
C440
470pF
R404 75
DDR01_RASb
C481
0.1uF
DDR01_ODT
C470
470pF
DDR0_DQ[0-7]
C400
470pF
DDR0_CLKb
004:A7;004:C7
DDR1_DQS1b 004:A3
AR406
75
DDR01_ODT
D1.8V
C484
0.1uF
DDR0_DM0 004:A4
DDR1_A[4-6]
004:B6;004:F6;004:I7
C461
470pF
DDR01_ODT
DDR0_DQ[8-15]
DDR1_VREF0
DDR01_BA1
DDR01_A[0-3,7-13]
C450
0.1uF
DDR01_ODT
004:A7;004:C5;004:C2;004:F2;004:I4;004:I6
DDR01_RASb
DDR1_CLKb 004:F7;004:F4
DDR01_RASb
C462
470pF
D1.8V
DDR01_RASb
C467
0.1uF
C446
0.1uF
DDR01_A[0-3,7-13]
DDR1_A[4-6]
004:B6;004:F3;004:I7
AR401
75
DDR01_A[0-3,7-13]
DDR1_DM1 004:H3
DDR0_DQS1b 004:A4
DDR1_DQS1b 004:H3
DDR1_DQS1 004:A3
DDR01_ODT
DDR0_DM1 004:A4
C495
470pF
DDR01_BA2
D1.8V
DDR0_CLK
004:A7;004:C4
DDR0_DQS0 004:E6
C468
0.1uF
DDR0_VREF0
C4040.1uF
DDR01_RASb
C452
470pF
DDR1_CLKb
004:A7;004:F4
C449
0.1uF
DDR0_A[4-6]
DDR0_DQ[8-15]
C475
22uF
C451
22uF
R406
100
1%
DDR0_DQS0b 004:A4
DDR_VTT
C483
0.1uF
C457
470pF
DDR01_RASb
DDR1_CLKb
R412 240
1%
C444
470pF
C494
0.1uF
DDR1_DM0 004:H6
DDR01_CASb
A1.2V
DDR0_CLK 004:C7;004:C4
AR405
75
C472
0.1uF
DDR1_DM1 004:A4
AR400
75
DDR1_DQS0b 004:H6
AR402
75
DDR1_DM0 004:A4
DDR0_A[4-6]
DDR1_A[4-6]
DDR1_DQ[8-15]
004:B5
DDR0_DQS0b 004:E6
R411 0
OPT
DDR01_ODT
DDR1_VREF0
DDR01_BA2
DDR0_DQS1 004:A4
C473
10uF
C476
10uF
C454
10uF
C448
10uF
C469
10uF
C443
10uF
C480
10uF
C458
10uF
C401
1uF
C410
1uF
C407
1uF
C405
1uF
C474
10uF
C447
10uF
C496
0.1uF
C497
0.1uF
C498
0.1uF
C490
0.1uF
C487
0.1uF
C486
0.1uF
C488
0.1uF
C485
0.1uF
C489
0.1uF
C499
0.1uF
C421
0.1uF
DDR01_CKE
DDR01_CKE
R417
220
C425
22uF
10V
C412
0.1uF
16V
C417
10uF
10V
C419
10uF
10V
DDR1_VREF0
C416
10uF
10V
C418
1uF
10V
C414
0.1uF 16V
DDR_VTT
R418
10K
C422
1uF
10V
C426
22uF
10V
D3.3V
C413
0.1uF
16V
D1.8V
C423
10uF
10V
C411
0.1uF
16V
IC404
BD35331F-E2
3
VTTS
2
EN
4
VREF
1
GND
5VDDQ
6VCC
7VTT_IN
8VTT
C420
0.1uF
16V
DDR0_VREF0
IC403
NT5TU128M8DE_BD
CK
E8
CK
F8
CKE
F2
RAS
F7
CAS
G7
WE
F3
CS
G8
BA0
G2
BA1
G3
NC_1/BA2
G1
A0
H8
A1
H3
A2
H7
A3
J2
A4
J8
A5
J3
A6
J7
A7
K2
A8
K8
A9
K3
A10/AP
H2
A11
K7
A12
L2
A13
L8
NC_2/A14
L3
NC_3/A15
L7
ODT
F9
DQ0 C8
DQ1 C2
DQ2 D7
DQ3 D3
DQ4 D1
DQ5 D9
DQ6 B1
DQ7 B9
DQS B7
DQS A8
DM/RDQS B3
NU/RDQS A2
VDDQ_1 A9
VDDQ_2 C1
VDDQ_3 C3
VDDQ_4 C7
VDDQ_5 C9
VDD_1 A1
VDD_2 L1
VDD_3 E9
VDD_4 H9
VSSQ_1 A7
VSSQ_2 B2
VSSQ_3 B8
VSSQ_4 D2
VSSQ_5 D8
VSS_1 A3
VSS_2 E3
VSS_3 J1
VSS_4 K9
VREF E2
VDDL E1
VSSDL E7
IC402
NT5TU128M8DE_BD
CK
E8
CK
F8
CKE
F2
RAS
F7
CAS
G7
WE
F3
CS
G8
BA0
G2
BA1
G3
NC_1/BA2
G1
A0
H8
A1
H3
A2
H7
A3
J2
A4
J8
A5
J3
A6
J7
A7
K2
A8
K8
A9
K3
A10/AP
H2
A11
K7
A12
L2
A13
L8
NC_2/A14
L3
NC_3/A15
L7
ODT
F9
DQ0 C8
DQ1 C2
DQ2 D7
DQ3 D3
DQ4 D1
DQ5 D9
DQ6 B1
DQ7 B9
DQS B7
DQS A8
DM/RDQS B3
NU/RDQS A2
VDDQ_1 A9
VDDQ_2 C1
VDDQ_3 C3
VDDQ_4 C7
VDDQ_5 C9
VDD_1 A1
VDD_2 L1
VDD_3 E9
VDD_4 H9
VSSQ_1 A7
VSSQ_2 B2
VSSQ_3 B8
VSSQ_4 D2
VSSQ_5 D8
VSS_1 A3
VSS_2 E3
VSS_3 J1
VSS_4 K9
VREF E2
VDDL E1
VSSDL E7
IC401
NT5TU128M8DE_BD
CK
E8
CK
F8
CKE
F2
RAS
F7
CAS
G7
WE
F3
CS
G8
BA0
G2
BA1
G3
NC_1/BA2
G1
A0
H8
A1
H3
A2
H7
A3
J2
A4
J8
A5
J3
A6
J7
A7
K2
A8
K8
A9
K3
A10/AP
H2
A11
K7
A12
L2
A13
L8
NC_2/A14
L3
NC_3/A15
L7
ODT
F9
DQ0 C8
DQ1 C2
DQ2 D7
DQ3 D3
DQ4 D1
DQ5 D9
DQ6 B1
DQ7 B9
DQS B7
DQS A8
DM/RDQS B3
NU/RDQS A2
VDDQ_1 A9
VDDQ_2 C1
VDDQ_3 C3
VDDQ_4 C7
VDDQ_5 C9
VDD_1 A1
VDD_2 L1
VDD_3 E9
VDD_4 H9
VSSQ_1 A7
VSSQ_2 B2
VSSQ_3 B8
VSSQ_4 D2
VSSQ_5 D8
VSS_1 A3
VSS_2 E3
VSS_3 J1
VSS_4 K9
VREF E2
VDDL E1
VSSDL E7
IC400
NT5TU128M8DE_BD
CK
E8
CK
F8
CKE
F2
RAS
F7
CAS
G7
WE
F3
CS
G8
BA0
G2
BA1
G3
NC_1/BA2
G1
A0
H8
A1
H3
A2
H7
A3
J2
A4
J8
A5
J3
A6
J7
A7
K2
A8
K8
A9
K3
A10/AP
H2
A11
K7
A12
L2
A13
L8
NC_2/A14
L3
NC_3/A15
L7
ODT
F9
DQ0 C8
DQ1 C2
DQ2 D7
DQ3 D3
DQ4 D1
DQ5 D9
DQ6 B1
DQ7 B9
DQS B7
DQS A8
DM/RDQS B3
NU/RDQS A2
VDDQ_1 A9
VDDQ_2 C1
VDDQ_3 C3
VDDQ_4 C7
VDDQ_5 C9
VDD_1 A1
VDD_2 L1
VDD_3 E9
VDD_4 H9
VSSQ_1 A7
VSSQ_2 B2
VSSQ_3 B8
VSSQ_4 D2
VSSQ_5 D8
VSS_1 A3
VSS_2 E3
VSS_3 J1
VSS_4 K9
VREF E2
VDDL E1
VSSDL E7
IC100
LGE3556C (C0 VERSION)
NON_3DTV
DDR_BVDD0 A6
DDR_BVDD1 A24
DDR_BVSS0 B7
DDR_BVSS1 B24
DDR_PLL_TEST F20
DDR_PLL_LDO B23
DDR01_CKE B17
DDR_COMP C22
DDR01_ODT E16
DDR_EXT_CLK C23
DDR0_CLK B12
DDR0_CLKB C12
DDR1_CLK A13
DDR1_CLKB A12
DDR01_A00 B15
DDR01_A01 E14
DDR01_A02 A15
DDR01_A03 D15
DDR0_A04 E13
DDR0_A05 E12
DDR0_A06 F13
DDR01_A07 C14
DDR01_A08 F14
DDR01_A09 B14
DDR01_A10 D14
DDR01_A11 C13
DDR01_A12 D13
DDR01_A13 B13
DDR1_A04 F15
DDR1_A05 C15
DDR1_A06 D16
DDR01_BA0 F16
DDR01_BA1 B16
DDR01_BA2 E15
DDR01_CASB A17
DDR0_DQ00 A8
DDR0_DQ01 B11
DDR0_DQ02 B8
DDR0_DQ03 D11
DDR0_DQ04 E11
DDR0_DQ05 C8
DDR0_DQ06 C11
DDR0_DQ07 C9
DDR0_DQ08 D8
DDR0_DQ09 E10
DDR0_DQ10 E9
DDR0_DQ11 F11
DDR0_DQ12 F12
DDR0_DQ13 E8
DDR0_DQ14 D10
DDR0_DQ15 F8
DDR1_DQ00 C18
DDR1_DQ01 C20
DDR1_DQ02 A18
DDR1_DQ03 B21
DDR1_DQ04 C21
DDR1_DQ05 B18
DDR1_DQ06 B20
DDR1_DQ07 D18
DDR1_DQ08 E18
DDR1_DQ09 D21
DDR1_DQ10 F18
DDR1_DQ11 E20
DDR1_DQ12 A22
DDR1_DQ13 F17
DDR1_DQ14 B22
DDR1_DQ15 E17
DDR0_DM0 A10
DDR0_DM1 C10
DDR1_DM0 A20
DDR1_DM1 F19
DDR0_DQS0 B10
DDR0_DQS0B B9
DDR0_DQS1 F10
DDR0_DQS1B F9
DDR1_DQS0 B19
DDR1_DQS0B C19
DDR1_DQS1 E19
DDR1_DQS1B D19
DDR01_RASB C16
DDR_VREF0 A7
DDR_VREF1 A23
DDR01_WEB C17
DDR_VDDP1P8_1 C7
DDR_VDDP1P8_2 D22
C428
0.1uF
16V
OPT
C427
0.1uF
16V
OPT
R414 0
R415 0
C402
0.1uF
OPT C408
0.1uF
OPT
4
HONG YEON HYUK
Close to IC
Close to IC
Close to IC
Close to IC
SI
SI
PI
* DDR_VTT
Copyright © 2010 LG Electronics. Inc. All rights reserved.
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LGE Internal Use Only
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