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LED TV SERVICE MANUAL CHASSIS : LA31R
MODEL : 29MN33D
29MN33D-PSP
CAUTION
BEFORE SERVICING THE CHASSIS, READ THE SAFETY PRECAUTIONS IN THIS MANUAL.
P/NO : MFL67580683 (1301-REV00)
Printed in Korea
CONTENTS
CONTENTS . ............................................................................................. 2 SAFETY PRECAUTIONS.......................................................................... 3 SERVICING PRECAUTIONS..................................................................... 4 SPECIFICATION........................................................................................ 6 ADJUSTMENT INSTRUCTION................................................................. 9 TROUBLE SHOOTING............................................................................ 13 BLOCK DIAGRAM................................................................................... 20 EXPLODED VIEW .................................................................................. 21 SCHEMATIC CIRCUIT DIAGRAM ..............................................................
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
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LGE Internal Use Only
SAFETY PRECAUTIONS IMPORTANT SAFETY NOTICE Many electrical and mechanical parts in this chassis have special safety-related characteristics. These parts are identified by in the Schematic Diagram and Exploded View. It is essential that these special safety parts should be replaced with the same components as recommended in this manual to prevent Shock, Fire, or other Hazards. Do not modify the original design without permission of manufacturer.
General Guidance
Leakage Current Hot Check (See below Figure) Plug the AC cord directly into the AC outlet.
An isolation Transformer should always be used during the servicing of a receiver whose chassis is not isolated from the AC power line. Use a transformer of adequate power rating as this protects the technician from accidents resulting in personal injury from electrical shocks. It will also protect the receiver and it's components from being damaged by accidental shorts of the circuitry that may be inadvertently introduced during the service operation. If any fuse (or Fusible Resistor) in this TV receiver is blown, replace it with the specified. When replacing a high wattage resistor (Oxide Metal Film Resistor, over 1W), keep the resistor 10mm away from PCB.
Do not use a line Isolation Transformer during this check. Connect 1.5K/10watt resistor in parallel with a 0.15uF 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 0.5mA. 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
Keep wires away from high voltage or high temperature parts.
AC Volt-meter
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 1MΩ and 5.2MΩ. When the exposed metal has no return path to the chassis the reading must be infinite. An other abnormality exists that must be corrected before the receiver is returned to the customer.
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
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To Instrument's exposed METALLIC PARTS
0.15µF
Good Earth Ground such as WATER PIPE, CONDUIT etc.
1.5 Kohm/10W
When 25A is impressed between Earth and 2nd Ground for 1 second, Resistance must be less than 0.1 *Base on Adjustment standard
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 Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
unit under test. 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 1.25cm) 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. 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). "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.
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. 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). 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. 3. Solder the connections. Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
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LGE Internal Use Only
SPECIFICATION NOTE : Specifications and others are subject to change without notice for improvement.
1. Application Range
This spec sheet is applied all of the TV used LA31R chassis.
2. Specification
Each part is tested as below without special appointment 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 (100 V - 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 specification
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
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LGE Internal Use Only
4. General specification 4.1. TV No
Item
Specification
Remarks
1
Market
Brazil
2
Broadcasting system
ISDB-T/ PAL-M/ PAL-N
3
C o m p o n e n t I n p u t Y/Cb/Cr , Y/Pb/Pr (1EA)
4
RGB Input
RGB-PC
Analog (D-SUB 15Pin)
5
HDMI Input (1EA)
HDMI
Rear / HDMI version 1.4/ support PC Support HDCP
6
Audio Input (2EA)
RGB/ DVI Audio Component
L/ R Input
7
USB (1EA)
Picture, Music, Movie, SVC
Software Update + Picture + Music + Move
8
Local Key (Touch)
4.2. RGB/HDMI(PC) Specification No
Item
Specification
1
Supported Sync. Type
Separate Sync., Digital
2
Operating Frequency
Analog Digital
3
Resolution
Analog Digital
Horizontal
30 ~ 61 kHz
Vertical
56 ~ 75 Hz
Horizontal
30 ~ 61 kHz
Vertical
56 ~ 75 Hz
Max.
1366 x 768 @ 60Hz
Recommend
1366 x 768 @ 60Hz
Max.
1366 x 768 @ 60Hz
Recommend
1366 x 768 @ 60Hz
4
Operating Environment
Temp : 10 ˚C ~ 35 ˚C Humidity : 20 % ~ 80 %
5
Storage Environment
Temp : -10 ˚C ~ 60 ˚C non condensing Humidity : 5 % ~ 90 % non condensing
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
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Remarks
LGE Internal Use Only
5. Timing
5.1. RGB/ HDMI (PC) No.
Resolution
H-freq(kHz)
V-freq(Hz)
Pixel clock(MHz)
1.
720*400
31.468
70.080
28.321
2.
640*480
31.469
59.940
25.175
3.
640*480
37.500
75.000
31.500
4.
800*600
37.879
60.317
40.000
5.
800*600
46.875
75.000
49.500
6.
1024*768
48.363
60.004
65.000
7.
1024*768
60.023
75.029
78.750
8.
1280*800
49.702
59.810
83.500
9.
1366*768
47.717
59.79
85.5
Remark
5.2. HDMI (DTV) No.
Resolution
H-freq(kHz)
V-freq(Hz)
Pixel clock(MHz)
Remark
1
720* 480
31.469 / 31.5
59.94 / 60
27.00/ 27.03
SDTV 480P
2.
720*576
31.25
50.00
27.864
SDTV 576P
3.
1280*720
37.50
50.00
74.250
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
27.00
24
74.25
HDTV 1080P
8
1920* 1080
33.75
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
5.3. Component No
Specification Resolution
H-freq(kHz)
V-freq(Hz)
Remark
Pixel clock( MHz)
1
720* 480
15.730
59.940
13.500
SDTV, DVD 480I( 525I)
2
720* 480
15.750
60.000
13.514
SDTV, DVD 480I( 525I)
3
720* 576
15.625
50.000
13.500
SDTV, DVD 576I( 625I) 50Hz
4
720* 480
31.470
59.940
27.000
SDTV 480P
5
720* 480
31.500
60.000
27.027
SDTV 480P
6
720* 576
31.250
50.000
27.000
SDTV 576P 50Hz
7
1280* 720
44.960
59.940
74.176
HDTV 720P
8
1280* 720
45.000
60.000
74.250
HDTV 720P
9
1280* 720
37.500
50.000
74.250
HDTV 720P 50Hz
10
1920* 1080
33.720
59.940
74.176
HDTV 1080I
11
1920* 1080
33.750
60.000
74.250
HDTV 1080I
12
1920* 1080
28.125
50.000
74.250
HDTV 1080I 50Hz
13
1920* 1080
56.250
50 .000
148.500
HDTV 1080P
14.
1920* 1080
67.432
59.940
148.350
HDTV 1080P
15
1920* 1080
67.5 00
60.000
148.500
HDTV 1080P
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
-8-
LGE Internal Use Only
ADJUSTMENT INSTRUCTION 1. Application Range
4) Click “Read” tab, and then load download file(XXXX.bin) by clicking “Read”
This document is applied to LA31R chassis TV which is manufactured in TV (or Monitor) Factory or is produced on the basis of this data.
(4) filexxx.bin
2. Designation
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) Power adjustment : Free Voltage. 3) Magnetic Field Condition: Nil. 4) Input signal Unit: Product Specification Standard. 5) Reserve after operation: Above 5 Minutes (Heat Run) Temperature : at 25 °C ± 5 °C Relative humidity : 65 % ± 10 % Input voltage : 220 V, 60 Hz 6) Adjustment equipments : Color Analyzer (CA-210 or CA110), DDC Adjustment Jig equipment, SVC remote controller. 7) Push The "IN STOP KEY" – For memory initialization
5) Click “Auto” tab and set as below 6) Click “Run”. 7) After downloading, check “OK” message. (5) (5)
(7) ……….OK
Case1 : Software version up
1) After downloading S/W by USB , Multi-vision 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.
(6)
* USB DOWNLOAD(*.epk file download)
1) Make New folder named “LG_DTV” and put ISP file(*.epk) in the folder. 2) Put the USB Stick to the USB socket. 3) 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. 4) Show the message “Copy the file from the Memory…”
Case2 : Function check at the assembly line
1) When TV set is entering on the assembly line, Push "Instop" key at first. 2) Push "Power on" key for turning it on. → If you push "Power on" key, TV set will recover channel information by itself. 3) After function inspection, Push "In-stop" key.
3. Main PCB check process * APC - After Manual-Insult, executing APC
5) Updating is starting.
* 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 display “Error”, Check connect computer, jig, and set. 3) Click “Connect” tab. If display “Can’t ”, Check connect computer, jig, and set. (1)
(2)
OK
6) Updating Completed, The TV will restart automatically. 7) 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.
(3)
Please Check the Speed : Use the speed under 200KHz.
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
-9-
LGE Internal Use Only
3.1. EDID Process
3.1.2. RGB EDID Data
- All models (Product ID : 22984/HEXA: 59C8)
3.2.1. EDID download
1) Press "Power only" key of service remote control. 2) Press the ADJ KEY on R/C and enter EZ ADJUST 3) Enter EDID D/L mode by pushing "►" key at "EDID D/L". 4) EDID download is executed automatically. 5) Press EXIT key on R/C.
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3.2.3. HDMI EDID Data
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→ Caution: - Never connect HDMI & D-sub Cable when download EDID. -D ownload HDMI * Edid data and Model option download (USB) NO
Item
CMD 1
CMD 2
Data 0
Enter download MODE
Download ‘Mode In’
A
A
0
0
When transfer the ‘Mode In’, Carry the command.
EDID data and Model option download
Download
A
E
00
10
Automatically download (The use of a internal Data)
*(week), **(year), ***(Check sum) : Adjustable Data **** (physical address) : (HDMI : 10), ****(Check sum) : (HDMI : CE) : Screen size, : Color Characteristics
3.3. Function Check
3.3.1. Check display and sound
*Check Input and Signal items. (cf. work instructions) 1) TV 2) AV (CVBS) 3) COMPONENT (480i) 4) RGB (PC : 1366 x 768 @ 60 Hz) 5) HDMI (PC : 1366 x 768 @ 60 Hz) 6) PC Audio In * Display and Sound check is executed by Remote controller. → Caution : Not to push the INSTOP KEY after completion if the function inspection.
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
- 10 -
LGE Internal Use Only
4. Total Assembly line process
4.3. Function Check
4.3.1. Check display and sound
4.1. Tool option & ADC Check
*Check Input and Signal items. (cf. work instructions) 1) TV 2) AV (CVBS) 3) COMPONENT (480i) 4) RGB (PC : 1366 x 768 @ 60 Hz) 5) HDMI (PC : 1366 x 768 @ 60 Hz) 6) PC Audio In * Display and Sound check is executed by Remote controller
1) Press "Power on" key of service remote control. 2) Connect RS232 Signal Cable to RS-232 Jack. 3) Check the 'Tool Option' (Refer to the BOM Comments or Adjustment spec) 4) Check the ‘ADC’ is ok.
4.2. Model name & Serial number Download
→ Caution : Not to push the INSTOP KEY after completion if the function inspection.
4.2.1. Model name & Serial number D/L
1) Press "Power on" key of service remote control. 2) Connect RS232 Signal Cable to RS-232 Jack. 3) Write Serial number by use RS-232. 4) Must check the serial number at the Diagnostics of SET UP menu. (Refer to below).
4.3.2. PIP Check
1) Press "Power on" key of service remote control. 2) Input RGB & TV(ATV or DTV) signal. 3) Set Input mode to RGB. 4) Press ‘PIP" key of ADJ remote controller 5) Check TV Video & Audio signal of Sub picture.
4.2.2. Method & notice
1) Serial number D/L is using of scan equipment. 2) Setting of scan equipment operated by Manufacturing Technology Group. 3) 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
* 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. 1) Press the 'Instart' key of ADJ remote controller. 2) Go to the menu 'Model Number D/L' like below photo. 3) Input the Factory model name(ex 24MN33D) or Serial number like photo. 4) Check the model name Instart menu → Factory name displayed (ex GP4-LOW) 5)Check the Diagnostics (DTV country only) → Buyer model displayed (ex 24MN33D)
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
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LGE Internal Use Only
4.4. White balance adjustment
-Equipment 1) Color Analyzer: CA-210 (LED Module : CH 14) 2) Adj. Computer(During auto adj., RS-232C protocol is needed) 3) Adjust Remocon
4.5. DPM Operation check
■ Measurement Condition: 100~240V@ 50/60Hz 1) Set Input to RGB-PC and connect D-sub cable to set – RGB Mode. Set Input to HDMI(with Input Label set to PC) and connect HDMI cable to set – HDMI Mode 2) Cut off H sync or V sync of signal. 3) Check DPM operation refer to the below table.
RGB_Gains are fixed data for each model.
Insert RS-232C Jack which is connected with PC for White Balance or equivalent device. * Total Assembly line should be check whether the color coordinate(x,y) data refer to below table were meet or not. *Note : x ,y coordinates are drifted about 0.007 after 30 mins
Color Temperature
Luminance (cd/m²)
Cool
13,000k
°K
X=0.276 (±0.03) Y=0.275 (±0.03)
Medium
9,300k
°K
X=0.290 (±0.03) Y=0.298 (±0.03)
Warm
6,500k
°K
X=0.318 (±0.03) Y=0.334 (±0.03)
Cool
Min : 80
Typ : 110
Medium
Min : 80
Typ : 110
Warm
Min : 70
Typ : 110
Inner pattern (204gray,80IRE)
Operating Condition Power S/W On
Sleep mode RGB,HDMI
Sync (H/V) Off/Off
Video Off
LED (SET) Amber
Wattage (W) 1
4.6. M odel Name & SW Version & Adjust check. * Press the ‘Instart’ key of ADJ remote controller
4.6.1. Model Name& SW Version Check
1) Check ‘Model Name’. 2) Check ‘S/W Version’ (Refer to the IC Ver. in the BOM)
Inner pattern (204gray,80IRE)
4.6.2. Adjust Check
1) Check ‘Country Group’ 2) Check ‘Area Option’ 3) Check ‘Tool Option’ (Refer to the BOM Comments) 4) Check ‘Adjust ADC[Comp&RGB]’ is OK. 5) Check ‘EDID[RGB&HDMI]’ is OK. * After check all, Press the 'EXIT' key of ADJ remote controller to go out SVC menu.
heat-run. So checking color coordinate within 5-min at total assembly line, consider x,y coordinates might be up to 0.007 than x,y target of each color temperature. *Note : Manual W/B process using adjusts Remote control. 1) After enter Service Mode by pushing "ADJ" key, 2) Enter "White Balance" by pushing "►" key at "White Balance". G WUG{GvXG
G
G
XUG{GvYG
G
G
YUG{GvZG
G
G
ZUG{Gv[G
G
G
[UG{Gv\G
G
G
\UG{Gv]G
G
G
^UGhkjGjG
G
G
_UG~GiG
ඖG
G
jG{UG
ඔG
jG
ඖG
`UGXWGwG~iG G
G
G
yTnG
G
XWWG
G
XWUG{GwG G G
G
G
nTnG
G
XW[G
G
G
iTnG
G
X`YG
G
G
yTjG
G
][G
G
XZUG{Gz GzG
nTjG
G
][G
G
X[UGlUGpGhG
iTjG
G
][G
G
X\UGzwrGs GhG
{TwG
G
vuG
G
X]UzwkpmGs GhG
iG
G
XWWG
G
yG
G
{GzG
G
]UGj GnG
XXUGlkpkGkVsG XYUGzGiVjG
G
G G
G
G
~GiG
* When doing Adjustment, Please make circumstance as below.
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
4.7. O utgoing condition Configuration
* After all function test., press IN-STOP Key by SVC Remote controller. And make Outgoing Condition
- 12 -
LGE Internal Use Only
TROUBLE SHOOTING 1. No Power Check C820 All Voltage Level (19V)
N
Check Power connector OK ?
N
Replace Adapter
Y Check IC2602 Output Voltage Level (3.3V_ST)
N
Replace IC2602
Y Check IC802 output Voltage Level (5V)
N
Replace IC802 & Recheck
Y Check IC800 Output Voltage Level (5V)
N
Replace IC800
Y Check IC804 Output Voltage Level (12V)
N
Replace IC804
Y Check IC810 Output Voltage Level (2.5V)
N
Replace IC810
Y Check IC806 Output Voltage Level (1.15V)
N
Replace IC806
Y Check IC807 Output Voltage Level (1.5V)
N
Replace IC807
Y Check X201 Clock 24MHz
N
Replace X201
Y Replace IC100 Flash Memory
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
- 13 -
LGE Internal Use Only
2. No Picture Module Back Light On ?
N
Check WLED_ENABLE high R131
Check IC101 Replace Main Scaler IC
N
Check LED Driver IC1100 Replace LED Driver IC
Y
Y
Check LED Driver output (LED Driver B’d P1101 #1)
Check Panel power P601(#27,28,29,30) 12V IC804Output 12V
N
N
Replace IC804
Y Check Panel clock P601(#9,10)
N
Check IC101 Repair Main B/D
Y Check FFC Cable for damage or open conductors.
N
Replace Cable
Y Replace T-con Board or module
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
- 14 -
LGE Internal Use Only
3. No Video - Digital TV Check RF Cable Y 1. Check Tuner(TU2603 #5) Power (3.3V) 2. Check IC803 Output voltage(3.3V)
N
Replace IC803
Y 1. Check Tuner(TU2602 #7) Power (1.8V) 2. Check IC805 Output voltage(1.8V)
N
Replace IC805
Y Check Tuner(TU2602) I2C Signal SCL(R3735), SDA(R3736)
N
Check IC101
Y Check Tuner(TU2603) Data, CLK, SYN, VAL
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
N
Replace Tuner(TU2603) Recheck
- 15 -
LGE Internal Use Only
4. No Video - Component Check input signal format Is it supported? Y Wave form of Comp Y
Check Component Cable
Wave form of Comp Pb
Wave form of Comp Pr
Y Check JK2800
N
Replace JK2800 or Check Device
N
Replace R239,R237,R241 C220,C218,C222
Y Check signal R239,R237,R241 C220,C218,C222 Y
IC101 has problem
Wave form of C218
Wave form of C220
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
- 16 -
Wave form of C222
LGE Internal Use Only
5. No Video - RGB Check input signal format Is it supported? Y Check RGB Cable Y Check JK406
N
Replace JK406 or Check Device
Y
Check Hsync, Vsync R4024, R4025
N
Replace R4024, R4025
Y Check signal RGB R228,R230,R232 C204,C206,C208
N
Replace R228,R230,R232 C204,C206,C208
Y
IC101 has problem
Wave form of R4025(Vsync)
Wave form of R228/C204
Wave form of R4024(Hsync)
Wave form of R230/C206
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
Wave form of R232/C208
- 17 -
LGE Internal Use Only
6. No Video - HDMI Check input signal format Is it supported? Y Check HDMI Cable for damage or open connector Y Check JK501 for proper connection or damage
N
Replace connector
Y Check I2C Signal (JK501) (#15, #16)
N
Re download EDID data
Y
Check HDCP Key (IC101)
N
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
Replace Scaler(IC101)
- 18 -
LGE Internal Use Only
7. No Audio Make sure you can’t hear any audio and Device support the audio signal normally. Y Check Speaker and its wire connection (P700) and the resistance
N
Replace connector or Speaker
Y
Check R4045 Voltage Level (3.3V)
N
Replace IC807(3.3V)
Y
Check Signal from IC700 L700,L701, L706, L709
N
Replace IC700
Y Check Signal from IC101 SDA/SCL (R703/R214, R707/R213)
N
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
Replace IC101
- 19 -
LGE Internal Use Only
BLOCK DIAGRAM
Copyright © LG Electronics. Inc. All right reserved. Only for training and service purposes
- 20 -
LGE Internal Use Only
EXPLODED VIEW IMPORTANT SAFETY NOTICE
920
301
510
302
300
511
200
800
810
540
820
120
A2
LV1
535
400
921
900
910
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 © LG Electronics. Inc. All right reserved. Only for training and service purposes
- 21 -
LGE Internal Use Only
IC102 H27U1G8F2CTR-BC +3.3V_Normal
NC_11 R106 1K
NC_12 NC_13
R102 3.3K
NC_14 NC_15
32
18
30
20
29
21
28
22
27
23
26
24
25
AB21 Y15
LED_AMBER R100 OPT 0
LED_RED
NC_21 SPI_SDI NC_20
AR102 I/O3
AUD_SCK
R148
AUD_MASTER_CLK PCM_A[3]
I/O2
33 OPT C112 100pF 50V
PCM_A[2]
I/O1
PCM_A[1]
I/O0
PCM_A[0]
22
NC_19 NC_18
PCMDATA[4]/GPIO122 PCMDATA[5]/GPIO121
AE18
PCMDATA[6]/GPIO120
NF_CE1Z/GPIO141
PCMDATA[7]/GPIO119
NF_WPZ/GPIO196 NF_CEZ/GPIO140
W20
PCM_A[1]
V20
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
AUD_MASTER_CLK_0
PCM_A[10]
AB20
PWM1
PCM_A[11]
AA16
PWM0
PCMDATA[3]/GPIO123
PCM_A[12]
AA19
PCM_A[13]
AC21
PCM_A[14]
AA17
PCMADR[0]/GPIO128
NF_CLE/GPIO139
PCMADR[1]/GPIO127
NF_REZ/GPIO142
PCMADR[2]/GPIO125
NF_WEZ/GPIO143
PCMADR[3]/GPIO124
NF_ALE/GPIO144
PCMADR[4]/GPIO102
NF_RBZ/GPIO145
AA22
/PCM_WE NC_16
AD22
/PCM_IORD
AD20
PCMADR[8]/GPIO111
AC20 Y18
/PCM_CD 1211118 Delete the 5V Pull-up(CI SLOT) /PCM_WAIT
Y21 Y22
PCM_RST NAND_1G_SS
NAND_1G_NUMONYX(DEV)
GPIO_PM[0]/GPIO6
PCMADR[10]/GPIO117
PM_UART_TX/GPIO_PM[1]/GPIO7
PCMADR[11]/GPIO115
GPIO_PM[2]/GPIO8
PCMADR[12]/GPIO107
GPIO_PM[3]/GPIO9
PCMADR[13]/GPIO110
GPIO_PM[4]/GPIO10
PCMADR[14]/GPIO109
PM_UART_RX/GPIO_PM[5]/GPIO11 PM_SPI_SCZ1/GPIO_PM[6]/GPIO12 GPIO_PM[7]/GPIO13 GPIO_PM[8]/GPIO14
PCMOE_N/GPIO116
GPIO_PM[9]/GPIO15
PCMWE_N/GPIO195
PM_SPI_SCZ2/GPIO_PM[10]/GPIO16
PCMIORD_N/GPIO114
EAN61857001 IC102-*1 K9F1G08U0D-SCB0
NC_1 NC_2 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
EAN60762401 IC102-*2 NAND01GW3B2CN6E
48
1
47
2
46
3 4
45
5
44 43
6 7
42
8
41
9
40
10
39
35
14
34
15 16
33
17
32
19
28
22
27
23
26
24
25
NC_4
I/O7
NC_5
I/O6
NC_6
I/O5
RB
I/O4
R
NC_25
E
NC_24
NC_7 NC_8 VDD_1 VSS_1
NC_22
NC_9
NC_21
NC_10
NC_20
CL
I/O3
AL W WP NC_11
I/O0
29
21
NC_26
I/O1
30
20
NC_3
I/O2
31
18
NC_27
VSS_2
36
13
NC_2
VCC_2
37
12
NC_1
NC_28
NC_23
38
11
NC_29
NC_19
NC_12
NC_18
NC_13
NC_17
NC_14
NC_16
NC_15
48
1
47
2
46
3 4
45
5
44 43
6 7
42
8
41
9
40
10
39 38
11
37
12
36
13
35
14
34
15 16
33
17
32 31
18 19
30
20
29
21
28
22
27
23
26
24
25
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
R/B
I/O4
RE
NC_25
CE
NC_24
NC_7
NC_23
NC_8
VDD_2
VCC_1
VSS_2
VSS_1
NC_22
NC_9
NC_21
NC_10
NC_20
CLE
I/O3
ALE
I/O2
WE WP
I/O1
NC_11
I/O0 NC_19
NC_12
NC_18
NC_13
NC_17
NC_14
NC_16
NC_15
48
1
47
2
46
3 4
45
5
44 43
6 7
42
8
41
9
40
10
39 38
11
37
12
36
13
35
14
34
15 16
33
17
32 31
18 19
30
20
29
21
28
22
27
23
26
24
25
NC_29 NC_28 NC_27
NC_1 NC_2 NC_3
48
2
47
3
46
NC_4
4
45
NC_5
I/O7
NC_6
I/O6
5
44
6
43
NC_28
7
42
8
41
CE
NC_25
NC_7
9
40
10
39
NC_26
AB22 AE20
NC_23
11
38
VCC_2 VSS_2
VSS_1
12 13
37 36
PCM_5V_CTL
PM_SPI_CZ0/GPIO_PM[12]/GPIO0
PCMIRQA_N/GPIO108
PM_SPI_SDI/GPIO2
PCMCD_N/GPIO133
PM_SPI_SDO/GPIO3
U22
E4 N25
AA15 AE21
I/O8
AB21 Y15
PM_TXD PM_RXD
PCMDATA[4]/GPIO122 PCMDATA[5]/GPIO121
AE18 NF_CE1Z/GPIO141
PCMDATA[6]/GPIO120
NF_WPZ/GPIO196
PCMDATA[7]/GPIO119
NF_CEZ/GPIO140
W20
I/O7
V20 W22
I/O6
AA20 AA21 Y19
I/O5
Y16 AB19 AB20 AA16
NC_25
AA19 AC21
PCMADR[0]/GPIO128
NF_CLE/GPIO139
PCMADR[1]/GPIO127
NF_REZ/GPIO142
PCMADR[2]/GPIO125
NF_WEZ/GPIO143
PCMADR[3]/GPIO124
NF_ALE/GPIO144
PCMADR[4]/GPIO102
NF_RBZ/GPIO145
AA22 AD20
VCC_2
NC_22
AC20 Y18 Y21 Y22
NC_10
AD19
I2C_SCL I2C_SDA
PM_UART_TX/GPIO_PM[1]/GPIO7 GPIO_PM[2]/GPIO8
PCMADR[11]/GPIO115
GPIO_PM[3]/GPIO9
PCMADR[12]/GPIO107
GPIO_PM[4]/GPIO10
PCMADR[13]/GPIO110
PM_UART_RX/GPIO_PM[5]/GPIO11 PM_SPI_SCZ1/GPIO_PM[6]/GPIO12 GPIO_PM[7]/GPIO13 GPIO_PM[8]/GPIO14
PCMOE_N/GPIO116
GPIO_PM[9]/GPIO15
PCMWE_N/GPIO195
PM_SPI_SCZ2/GPIO_PM[10]/GPIO16
14
35
15
34
V21 R20
NC_21
U22
NC_20
ALE
I/O3
16
33
17
32
N25 N24 B8 A8
I/O4
PM_SPI_CZ0/GPIO_PM[12]/GPIO0
PCMIRQA_N/GPIO108
PM_SPI_SDI/GPIO2
PCMCD_N/GPIO133
I/O2
WP
I/O1
18 19
31 30
PM_SPI_SDO/GPIO3
I/O0
20
29
TS0CLK/GPIO90 TS0VALID/GPIO88
PCM2_CE_N/GPIO134
L6
TS0DATA_[0]/GPIO80 TS0DATA_[1]/GPIO81
UART1_TX/GPIO46
TS0DATA_[3]/GPIO83
TS0DATA_[2]/GPIO82 UART1_RX/GPIO47
TS0DATA_[4]/GPIO84
UART2_TX/GPIO68
TS0DATA_[5]/GPIO85
UART2_RX/GPIO67
TS0DATA_[6]/GPIO86
UART3_TX/GPIO50
TS0DATA_[7]/GPIO87
I/O1
R21 P20 F6
NC_12
21
28
NC_13 NC_14
22
27
23
26
24
25
G4 J5 J4
22
P24
D1
NC_15
TS0DATA_[2]/GPIO82 UART1_TX/GPIO46
TS0DATA_[3]/GPIO83
UART1_RX/GPIO47
TS0DATA_[4]/GPIO84
UART2_TX/GPIO68
TS0DATA_[5]/GPIO85
UART2_RX/GPIO67
TS0DATA_[6]/GPIO86
UART3_TX/GPIO50
TS0DATA_[7]/GPIO87
L5 /FLASH_WP
M6 M5
PANEL_CTL
C1
5V_DET_HDMI_2 +3.3V_ST NTP_MUTE
M4 R147
D3
33 R146
33
B2 B1
R151
TS1CLK/GPIO101 I2C_SCKM2/DDCR_CK/GPIO75
TS1VALID/GPI99
I2C_SDAM2/DDCR_DA/GPIO74
TS1SYNC/GPIO100
TS1VALID/GPI99
I2C_SDAM2/DDCR_DA/GPIO74
TS1SYNC/GPIO100
N23
B2
PWM1
B1
P22
SCART1_MUTE
Y11
LED_AMBER
AA12
TS1DATA_[0]/GPIO91 TS1DATA_[1]/GPIO92 TS1DATA_[3]/GPIO94 TS1DATA_[4]/GPIO95
PWM0/GPIO69 PWM1/GPIO70
TS1DATA_[5]/GPIO96
PWM2/GPIO71
TS1DATA_[6]/GPIO97
PWM3/GPIO72
TS1DATA_[7]/GPIO98
22
R21
R154
22
P20
R113
22
F6
R110
Y12
121118 Pull up added
CI_TS_CLK CI_TS_VAL CI_TS_SYNC
Y12
CI_TS_DATA[0-7]
Y13
CI_TS_DATA[0]
Y11
CI_TS_DATA[1]
AA12
CI_TS_DATA[2]
TS1DATA_[0]/GPIO91
DDCA_CK/UART0_RX
TS1DATA_[1]/GPIO92 TS1DATA_[3]/GPIO94
PWM0/GPIO69
TS1DATA_[4]/GPIO95
PWM1/GPIO70
TS1DATA_[5]/GPIO96
PWM2/GPIO71
TS1DATA_[6]/GPIO97
PWM3/GPIO72
TS1DATA_[7]/GPIO98
from CI SLOT
CI_TS_DATA[3]
AB12 AA14
CI_TS_DATA[4]
AB14
CI_TS_DATA[5]
AA13
CI_TS_DATA[6]
AB11
CI_TS_DATA[7] FE_TS_CLK FE_TS_VAL_ERR FE_TS_SYNC
AD15
FE_TS_DATA[0-7]
AC16 FE_TS_DATA[0]
AE15
FE_TS_DATA[1]
AE14
FE_TS_DATA[2]
AC13
FE_TS_DATA[3]
AC14
FE_TS_DATA[4]
Internal demod out
FE_TS_DATA[5]
AD12 AD13
FE_TS_DATA[6]
AD14
FE_TS_DATA[7] FE_TS_DATA[0] FE_TS_DATA[0]
PWM4/GPIO73 PWM_PM/GPIO197
AB12 AA14 AB14 AA13 AB11
H6 KEY1
AD15
G5
AC16
KEY2 AD16
DDCA_DA/UART0_TX DDCA_CK/UART0_RX
R180 4.7K
SPI_SDO
AA10
AD16 DDCA_DA/UART0_TX
P21 PWM0
D3
AA10
SPI_SCK /SPI_CS
SPI_SDI
33
AC15
C1
AE15 AE14
2011.11.15 WalkieTalkie Issue
AC13 AC14 AD12
C110 C107 0.1uF 0.1uF 16V 16V
G4 J5 J4
AD13
SAR0/GPIO34 SAR1/GPIO35 SAR2/GPIO36 SAR3/GPIO37 SAR4/GPIO38
AD14
PWM4/GPIO73
KEY_SCL KEY_SDA
SAR0/GPIO34 SAR1/GPIO35
R101
22
R163
22
R164
SAR2/GPIO36
LED_RED
SAR3/GPIO37
R23 VSYNC_LIKE/GPIO146
22 R24
NC_17
R23 VSYNC_LIKE/GPIO146
R25
R24
NC_16
TS0DATA_[1]/GPIO81
M4
H6
NC_18
TS0DATA_[0]/GPIO80
PCM2_RESET/GPIO137
TS1DATA_[2]/GPIO93
SAR4/GPIO38
NC_17
PCM2_WAIT_N/GPIO136
D2
NC_19 G5
NC_18
PM_RXD
C2
TS0SYNC/GPIO89
PCM2_CD_N/GPIO138
M6
PWM_PM/GPIO197
NC_19
PCM2_IRQA_N/GPIO135
M5
AC15 TS1CLK/GPIO101
I2C_SCKM2/DDCR_CK/GPIO75
P21 N23
R137
RGB_DDC_SCL
C2
Y13
PCM2_WAIT_N/GPIO136 PCM2_RESET/GPIO137
TS1DATA_[2]/GPIO93
I/O2
TS0VALID/GPIO88
L5
TS0SYNC/GPIO89
PCM2_IRQA_N/GPIO135 PCM2_CD_N/GPIO138
D2 D1
P23
RGB_DDC_SDA
J6 K4
PWM2
UART3_RX/GPIO51
I/O3
P22
NC_11
POWER_ON/OFF1
L6
K6
PCMWAIT_N/GPIO103
P23 P24
WE
22
K5
A2 PM_SPI_SCK/GPIO1
PCMCE_N/GPIO118
D4
NC_20
R136
GPIO_PM[11]/GPIO17
PCMIORD_N/GPIO114
U21
NC_22
E4
CLE
TS0CLK/GPIO90 PCM2_CE_N/GPIO134
UART3_RX/GPIO51
PCM_RESET/GPIO132
T20
NC_21
MULTI_ON
K4
H5 GPIO_PM[0]/GPIO6
PCMADR[9]/GPIO113 PCMADR[10]/GPIO117
AD21
VSS_2
A8
MODEL_OPT_7
AE17
PCMADR[7]/GPIO106 PCMADR[8]/GPIO111
PCMREG_N/GPIO126
AD22
AC19 AD17
B8
MODEL_OPT_6
for SYSTEM EEPROM (IC103)
AD18 AC18
PCMADR[6]/GPIO105
Y20
NC_23
AC17
PCMADR[5]/GPIO104
PCMADR[14]/GPIO109
NC_24
N24
PCMDATA[2]/GPIO131 PCMDATA[3]/GPIO123
Y14
NC_9
J6
for SERIAL FLASH
PCMWAIT_N/GPIO103
D4
PCMDATA[0]/GPIO129
PCMIOWR_N/GPIO112
VCC_1
T20
PCMDATA[1]/GPIO130
AB15
NC_8
R20
W21
AA17
NC_24
USB_CTL 1211118 Delete
NC_27
AB17
RE
I/O4
V21
S7LR-M_MS10(NON KR/US) IC101-*1 LGE2121-MS (M1_L13_MS10)
AB18
RY/BY
I/O5
PM_TXD
K5
PCM_RESET/GPIO132
USB_OCD
LGE2121-MS10 (MSD804KKX) : EAN62674101 (NON_KR/US REGION)
NC_29
AA18
NC_26
DSUB_DET
K6
Y14
LGE2121-NonMS10 (MSD804KKX) : EAN62651201 (KR/US REGION)
1
/F_RB
A2 PM_SPI_SCK/GPIO1
PCMCE_N/GPIO118
U21
EAN60991001 IC102-*4 TC58NVG1S3ETA00
EAN60708702 IC102-*3 H27U2G8F2CTR
PF_ALE
AD19
GPIO_PM[11]/GPIO17
(BR)NAND_2G_TOSHIBA(DEV)
(BR)NAND_2G_HYNIX(DEV)
/PF_WE
AE17
H5
PCMADR[9]/GPIO113
AD21 /PCM_CE /PCM_IRQA
/PF_OE
AD17
+3.3V_ST
PCMIOWR_N/GPIO112
/PCM_IOWR
/PF_CE1
AC19
PCMADR[7]/GPIO106
AB15 /PCM_OE
/PF_CE0
AC18
PCMADR[6]/GPIO105
PCMREG_N/GPIO126
/PCM_REG
/PF_WP
AD18
PCMADR[5]/GPIO104
Y20
NC_17
AC17
R125
OPT
0
PCMDATA[2]/GPIO131
10K
OPT
4.7K R152
4.7K
4.7K OPT
R142
NC_22
31
19
AE21
C113 50V
WP /PF_WP
33
17
AA15
PCMDATA[1]/GPIO130
47K 0.1uF
/PF_WE
16
AE20
PCM_D[5] PCM_D[6]
PCMDATA[0]/GPIO129
OPT R128
WE
34
R103
4.7K
ALE PF_ALE
35
15
C103 0.1uF
VSS_2
4.7K
CLE /PF_CE1
14
AB22
PCM_D[3]
OPT
NC_9 NC_10
36
PCM_D[2] PCM_D[4]
PCM_D[7]
R153
22 AR104
13
VCC_2
R143
OPT R105 1K
NC_23
R123
VSS_1
37
W21 AA18
PCM_A[0]
C102 10uF
4.7K
+3.3V_Normal
12
+3.3V_ST
R124
VCC_1
+3.3V_Normal
S7LR-M_NON_MS10
PCM_D[0] PCM_D[1]
PCM_A[0-14]
38
11
PCM_A[4]
4.7K
NC_8 C101 0.1uF
I/O4
NC_24
39
10
PCM_A[5]
NC_25
40
9
PCM_A[6]
I/O5
R165
OPT R108 1K
41
8
I/O6
4.7K
NC_7
42
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
OPT
/PF_CE0
43
7
4’b0000 4’b0001 4’b0010 4’b0100 4’b0101 4’b0110 4’b1001 4’b1010
R121
CE
6
: : : : : : : :
4.7K
/PF_OE
44
B51_no_EJ SB51_WOS SB51_WS MIPS_SPE_NO_EJ MIPS_SPI_EJ_1 MIPS_SPI_EJ_2 MIPS_WOS MIPS_WS
PCM_A[7]
I/O7
OPT
RE
5
22 AR101
NC_26
4.7K
R/B
45
OPT
NC_6
46
4
(I2S_OUT_BCK,I2S_OUT_MCK,PAD_PWM1PAD_PWM0)
R117
R107 1K
/F_RB
3
IC101 MSD804KKX PCM_A[0-7]
NC_27
R115
R109 3.9K
NC_5
1’b0 1’b1
NC_28
4.7K
NC_4
22 AR103
48 NAND_1G_HYNIX_9103(DEV) EAN35669103 47 2
4.7K
NC_3
1
R118
NC_2
Boot from SPI CS1N(EXT_FLASH) Boot from SPI_CS0N(INT_FLASH)
+3.3V_Normal NC_29
10V
NC_1
R116
NAND FLASH MEMORY
NC_16
R25 T21 T22
SPI1_CK/GPIO199
T21
SPI1_DI/GPIO200 SPI2_CK/GPIO201 SPI2_DI/GPIO202
T22
SPI1_CK/GPIO199 SPI1_DI/GPIO200 SPI2_CK/GPIO201 SPI2_DI/GPIO202
+5V_Normal
+3.3V_Normal
IC101 MSD804KKX
+3.3V_ST
WLED_ENABLE
R156
BLU_CURRENT_CTL
10K
R157
100
WLED_DIM_ADJ
OPT R174 10K
PWM0
R140 R141 1K 1K
R160 4.7K
R161 4.7K
R144 2.2K
R145 2.2K
R178
OPT
R179
100
B
OPT R175 10K
I2C_SDA
MODEL_OPT_8 SCART1_DET MODEL_OPT_9
120915 ADDED
KEY_SDA
TUNER_RESET
NAND_EN LNA_CTRL_1 LNA_CTRL_2 MODEL_OPT_2
+3.3V_ST
+3.3V_ST
BR_RESET_DEMOD
+3.3V_Normal
IC103 AT24C256C-SSHL-T NVRAM_ATMEL
C105 0.1uF
IC103-*1 M24256-BRMN6TP
IC103-*2
E0 A0
A1
8
1
7
2
GND
3
4
6
5
EAN61133501
8
VCC
E1
2
7
3
6
WC
A0
1
8
CS
VCC
/SPI_CS OPT R135 10K
A1
2
7
3
6
WP
DO[IO1] SPI_SDO
WP E2 SCL
R111
SDA
R112 C104 8pF OPT
C106 8pF OPT
22 22
I2C_SCL
SCL
A2
4
5
SDA
VSS
4
5
1
8
2
7
3
6
C114 0.1uF
VCC
S_FLASH_MAIN_WINBOND IC100-*1 MX25L8006EM2I-12G
A9 AB1 N6 AB2 AC2
GPIO42
LVA1N
GPIO43
LVA2P
GPIO44
LVA2N
GPIO45
LVA3P
GPIO48
LVA3N
GPIO49
LVA4P
GPIO52
LVA4N
GPIO53
4
5
R182
0
AB23
R183
0
AC25
R184
0
AB24
R185
0
AD25
R186
0
AC24
R187
0
AE23
R188
0
AC23
R189
0
LVA_0P LVA_0M LVA_1P LVA_1M LVA_2P LVA_2M LVA_3P LVA_3M
AC22 AD23 V23
GPIO54
LVB0P
GPIO55
LVB0N
I2C_SCKM0/GPIO56
LVB1P
I2C_SDAM0/GPIO57
LVB1N
GPIO76
LVB2P
GPIO77
LVB2N
U24 V25 V24 W25 W23 AA23 Y24 AA25
CLK
1
8
VCC
LVACLKN LVBCLKP
AA24 AE24
R190
0
AD24
R191
0
Y23
LVA_CKP LVA_CKM
W24
SO/SIO1
R139 33
T25 GPIO194 GPIO191
SPI_SCK DI[IO0]
LVACLKP
LVBCLKN
HOLD[IO3]
SDA
I2C_SDA
2
7
3
6
4
5
HOLD#
GPIO192
U23 T24 T23
MODEL_OPT_3 MODEL_OPT_4 MODEL_OPT_5
GPIO193
SPI_SDI WP#
EAN62389501 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.
AB3
LVA1P
AB25
LVB4N
CS# %WP[IO2]
GND
EAN61548301
AB5
GPIO41
LVB4P
SCL
/FLASH_WP VSS
2012.10.18 ADDED
LVA0N
R1EX24256BSAS0A
VCC
A0’h A2
1
E7
LVA0P
GPIO40
LVB3N
IC100 W25Q80BVSSIG
OPT R138 4.7K
+3.3V_ST
B7
GPIO39
LVB3P
S_FLASH_MAIN_MACRONIX NVRAM_RENESAS
2012.10.18 ADDED
F4 MODEL_OPT_1
R181 10K
KEY_SCL
NVRAM_ST
D5
F7
MODEL_OPT_0
SERIAL FLASH MEMORY
E5
AV_CVBS_DET 4.7K R129 OPT
OPT R176 10K
E6 F5
PC_AUDIO_DET E
I2C_SCL
EEPROM
applied on only SMALL PCB
B6
BOOT_POWER_OPTION_1
AMP_SCL
AMP_RST OLP
R127 4.7K
OPT
AMP_SDA
121118 Ready to imporve EMI(LVDS Noise)
S7LR-M_NON_MS10 C7
Q100 MMBT3904(NXP) BOOT_POWER_OPTION_0
C111 2.2uF
C100 1uF OPT
100
R131 100 C
OPT R177 10K
PWM2
10K R126
PM MODEL OPTION
I2C
10K R130
DIMMING
SCLK
SI/SIO0
EAX64998104 29MN33 FLASH/EEPROM/GPIO
2012.11.18 1
13
MODEL_OPT_7
A8
OPT
OPT
OPT
0.1uF OPT
0.1uF
0.1uF
0.1uF OPT
0.1uF
1
0.1uF
1
0.1uF
256M+128M
OPT
0.1uF
0
OPT
C4024
B8
1
C4019
MODEL_OPT_6
1
256M
MIU0-256M
C4013
NON_DVB_S
C4006
MIU0-128M
T24
0
0
C4011
U23
0
C299
MODEL_OPT_4 MODEL_OPT_5
128M 128M+128M
C292
M120
+1.15V_VDDC VDDC : 2026mA
C283
DVB_T2
NON_M120
VDDC 1.15V
Note
1uF
NON_DVB_T2
T25
Model OPT 6
1uF
AB2
MODEL_OPT_3
Model OPT 4
C280
MODEL_OPT_2
+1.15V_VDDC
Memory
C277
AJ
10uF
NON_AJ
10uF
F4
C276
MODEL_OPT_1
MEMORY OPTION
HD
10uF
FHD
MODEL_OPT_2 MODEL_OPT_3
HIGH
LOW
AB3
MODEL_OPT_0 MODEL_OPT_1
PIN NO.
MODEL_OPT_0
C275
1K R226
1K OPT R211
MODEL_OPT1_(AJ)
1K
1K OPT
R208
R222
R224
R291
R203 100 (BR)RF_SW_OPT
+3.3V_Normal
R206
1K
1K OPT
1K
1K OPT R290
R301
PIN NAME
+2.5V_Normal
C228
RF_SWITCH_CTL
OPT
(OPT)TAIWAN R300 10K
10K
+3.3V_ST +3.3V_Normal
MODEL_OPT_MIU0-256M(BR/EU/ASIA)
MODEL OPTION
OPT
DVB_S
MIU1-128M MIU1-NO_DDR Dual Stream is only Korea 3D spec DualStream NON_DualStream
Ginga
MODEL_OPT_4
HD_LVDS_NON_EU
Normal Power 3.3V
TAIWAN
IC101 MSD804KKX S7LR-M_NON_MS10 J2 J3 K3 J1 K2 K1 L2 L3 T5 T4 V5
BOOT_POWER_OPTION_0 121018 PM_MODEL_OPT_0 ->BOOT_POWER_OPTION_0
47
C251
0.1uF R4003
47
RXACKP
NC_8
RXACKN
NC_9
RXA0P
ANALOG SIF Close to MSTAR
AD3
RXA0N
IP
RXA1P
IM
RXA1N
R305
SIFP
RXA2N
SIFM
OPT
OPT 0.1uF
OPT 0.1uF
0.1uF
OPT 0.1uF
C232
C267
C265
C4031
0.1uF C4025
R10
0
R14 FB_CORE
C240 C241 121118 0.1uF 0.1uF Change from bead to 0 ohm for Cost down
R15 T10
AC5
DDCDA_DA/GPIO27
P19
FB_CORE
R16
R4019 10K
L11
HOTPLUGA/GPIO22 R4004 0
AD2 IF_AGC
AE2
C4065 0.047uF 25V (NON_BR)HALF_NIM
HOTPLUGD/GPIO25 AE9
RXC2P
I2S_IN_BCK/GPIO148
DDC_SDA_2
R202
DDC_SCL_2
R6
22
U6
22
P5
HPD2
R4
CEC_REMOTE_S7
RXB0N RXB1P
I2S_OUT_MCK/GPIO152
RXB1N
I2S_OUT_SD/GPIO155
P2
R4025 R228
510 33
R3 C204
0.047uF
N2
68
C205
0.047uF
P3
DSUB_VSYNC DSUB_R+
R229
DSUB_G+
R230
33
C206
0.047uF
N3
R231
68
C207
0.047uF
N1
R232
DSUB_B+
68
2.4K
10K
R4023
R4026
R233
C208
33
0.047uF
M3
C209
0.047uF
M2
C210
1000pF
M1
22
D9
AUD_SCK
C9
AUD_MASTER_CLK_0
B9
EU
R253
33
EU
C211
0.047uF
U3
C10
EU
R254
68
EU
C212
0.047uF
U2
EU
R255
33
EU
C213
0.047uF
T1
EU
R256
EU
C214
R257
EU
C215
0.047uF 0.047uF
T2
EU
68 33
EU
R258
68
EU
C216
0.047uF
R1
EU
C217
1000pF
T3
SC1_SOG_IN R236
AB9
AUL1
VSYNC0
AUR1
RIN0P
AUL2
RIN0M
AUR2
GIN0P
AUL3
GIN0M
AUR3
BIN0P
AUL4
C236
2.2uF
C237
AA11
2.2uF
0.047uF
R238
68
C219
0.047uF AA3
R240 R241
COMP_Pb+
R242
Y2
33
C220
0.047uF
W2
68 33
C221 C222
0.047uF 0.047uF
Y3
68
V1
C223
0.047uF
W3
C224
1000pF
W1
EU R245 R246
SC1_CVBS_IN COMP_Y+/AV_CVBS_IN
33 33 33
C225
GPIO_PM[13]/GPIO19
RIN1P
AUOUTL2
RIN1M
AVDD5V_MHL
GIN1P
GPIO_PM[14]/GPIO20
GIN1M
AUOUTR2
L15
AB8
EU C226 C227
0.047uF
Y4
0.047uF
W4 AA5 Y5 AA4 Y6 AA1
DTV/MNT_VOUT
Y8
C242
2.2uF
Y10
C243
2.2uF
C244
2.2uF
C245
2.2uF
AC7 AD7
50V
R299
+1.5V_DDR COMP_L_IN
R252
121118 Change from bead to 0 ohm for Cost down
68
C233
0.047uF
R307
PC_R_IN
L16
0
Close to MSTAR
GND_51
AVDDL_MOD
GND_52
NC_1
GND_53
DVDD_DDR
GND_54 GND_56
AVDD2P5_ADC_1
GND_57
AVDD2P5_ADC_2
GND_58
AVDD2P5_ADC_3
GND_59
AVDD2P5_ADC_4
GND_60 GND_61 GND_62 GND_63
AVDD_MOD_1
GND_64
AVDD_MOD_2
GND_65 GND_67
NC_3
GND_68
NC_4
GND_69 GND_70 GND_71 GND_72
AVDD_DVI_USB_1
GND_73
AVDD_DVI_USB_2
GND_74
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
AUDIO OUT
R306 OPT 0
W5
B17 C23 A5
SCART1_Rout
U5
C11
TP209
C19
C249 4.7uF
AE5 AUVRP
D14
Normal 2.5V
D18 D19
121118 Change from bead to 0 ohm for Cost down
C253 1uF
C256 0.1uF
E17 E18
R308
0
1/10W 5%
C263 10uF
+2.5V_Normal C4062 0.1uF
C4071 10uF
AVDD2P5
E19 E22 AVDD2P5:172mA
F8
R309 0
F17
AC6 1/10W 5% C269 10uF
AA6 121118 Change from bead to 0 ohm for Cost down
AB6
EARPHONE_OUTR
OPT OPT C271 C270 0.1uF 0.1uF
F18 C273 0.1uF
C274 0.1uF
F19 G8 H8
CVBS0
N22
CVBS1
C6
CVBS2
RP/GPIO63
CVBS3
TP/GPIO60
NC_5
EPHY_RP
C5
EPHY_TP
RN/GPIO66
NC_6
LED1/GPIO59
EPHY_RN
C4
AVDD25_PGA:13mA
GPIO61
+3.3V_ST
GPIO64 GPIO65
R264 49.9
A3
R265 49.9
R262 49.9
B4
C294 0.1uF
LED0/GPIO58
111026Switch EBF32593901 Deletion
R263 49.9
B3 C295 0.1uF
R310 0
M21
1/10W 5%
M20 C238 0.1uF 16V
EPHY_TN
C3
N20 M22
SOC_RESET
B5 TN/GPIO62
N21
AVDD2P5_MOD
A6
NC_7
GND_89 GND_91
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
AVDD_DDR1_D_1
GND_97
AVDD_DDR1_D_2
GND_98
AVDD_DDR1_D_3
GND_99 GND_100 GND_102 GND_103
OPT
121118 Added
AD5
BIN2M
GND_88
GND_104
AVDD_DDR1:55mA
AUVRM AUVAG
GND_87
GND_EFUSE
SCART1_Lout
L202 BLM18SG121TN1D
BIN2P
AVDD_LPLL_2
GND_105
A23
V4
RIN2P
GIN2M
GND_86
E9
C22
RIN2M
AVDD_LPLL_1
GND_101
MIUVDDC
VCOM
FB_CORE
AVDD_DDR1_C
AUDIO IN
V6 Y7
L17 M17
PC_L_IN
HSYNC2
AB4
GND_50
K17
AVDD_MIU
COMP_R_IN
0
GPIO_PM[15]/GPIO21
CVBSOUT1 C203 1000pF OPT
GND_49 NC_2
AVDD_DDR0:55mA
BIN1M
0.047uF AA8
GND_47
J17
AA7
W6
EARPHONE_OUTL R244
GND_46
VDDC_14
VDDP_NAND
K16
5V_HDMI_2
CVBS In/OUT
VDDC_13
V19
K15
1/10W 5%
HSYNC1
GIN2P
GND_45
R19
AA9
AUR4
SOGIN2
TU_CVBS
AVDD_MIU
SC1_R_IN
Y9
AA2 C218
VDDC_12
GND_90
DDR3 1.5V
SC1_L_IN
+1.15V_VDDC 33
GND_44
V7
W19
SOGIN1
R237 R239
COMP_Y+/AV_CVBS_IN
VDD33
VDD33
AUR0
BIN1P
GND_43
VDDC_11
M19
T19
0
NON_EU COMP_Pr+
R2
VDDC_10
AUD_LRCK
I2S_OUT_WS/GPIO153
HSYNC0
VSYNC1
1uF
W7
I2S_I/F
121024 Added V3
AVDD_AU33
HOTPLUGB/GPIO23
BIN0M
GND_42
W18
DDCDB_DA/GPIO29 DDCDB_CK/GPIO28
GND_41
VDDC_9
DVDD_NODIE
AUD_LRCH
V2
COMP2
1/10W 5%
COMP_DET
SOGIN0
SC1_ID SC1_FB
AMP_SCL AMP_SDA
RXB2N
OPT(DSUB_block) 510
R214
C4045
RXB2P
AUL0
R4024
D8
R215 0
B10 I2S_OUT_BCK/GPIO154
CEC/GPIO5
DSUB_HSYNC
22
1uF
R201
RXB0P
R213
C4042
D2-_HDMI2
I2S_IN_WS/GPIO147
C8
0.1uF
H3
P7 R7
C4009
H2
D2+_HDMI2
AVDD_DVI
0.1uF
D1-_HDMI2
USB_DP
C4038
G1
M7
AVDD_MPLL
0.1uF
G2
AE12
C4036
F1
D0-_HDMI2 D1+_HDMI2
RXBCKN
VDDC_8
L7
AVDD_DVI
C290
D0+_HDMI2
I2S_IN_SD/GPIO149
GND_40
AVDD_NODIE
USB_DM
0.1uF OPT
G3
C234 0.1uF
0.1uF
F3
1/10W 5%
E2
USB1_DP
RXBCKP
VDDC_7
U7
AVDD_NODIE
DDCDC_CK/GPIO30
F2 CK-_HDMI2
SIDE USB
AC12 USB1_DM
HOTPLUGC/GPIO24 CK+_HDMI2
R217 0
C235
AC8
USB0_DP
DDCDC_DA/GPIO31
W15
100
C281
AD8
RXC1N
GND_39
W14
10uF OPT
AE8
USB0_DM
RXC2N
AVDD_MPLL
0.1uF
AD11
CI_DET
E3
RXC1P
GND_38
VDDC_6
GND_66
C229
AE11
RXC0N
VDDC_5
V18 U19
0
OPT R296
C252 0.1uF
27pF
D6
RXC0P
GND_37
AVDD25_LAN
C286 0.1uF
1/10W 5%
10uF
AD10
SPDIF_OUT/GPIO151
27pF
C278
AC11
RXCCKN
W12
AVDD2P5_MOD C262
VDDC_4
Y17
C202 10uF
AD9
SPDIF_IN/GPIO150
W10
AVDD_NODIE
0.1uF
AC10
RXCCKP
OPT R297
AVDD2P5
R216 0
C4046
AC9
D7
1M
R287
XOUT
R5
BOOT_POWER_OPTION_1 121018 PM_MODEL_OPT_1 ->BOOT_POWER_OPTION_1
X201 24MHz
GND_36
W9 W11
TU_SDA
AC1
GND_35
VDDC_3
GND_55
AVDD_NODIE:7.362mA +3.3V_ST
C261
VDDC_2
STby 3.3V
TU_SCL
AD1 XIN
M14
MIUVDDC IF_AGC_MAIN
AD6
GND_34
P10
C4064 0.1uF
DDCDA_CK/GPIO26
VDDC_1
GND_48
R4052 0
Close to MSTAR
HDMI
OPT 0.1uF
P15
+3.3V_Normal
AE3 AD4
RXA2P
P14
1/10W 5%
I2C_SDAM1/GPIO79
DSUB
C4020
0.1uF
N12
AC3
I2C_SCKM1/GPIO78
SC1_B+
L10
C264 1000pF OPT
AC4
AE6
SC1_G+
K11
AVDD_AU33
TUNER_I2C
SC1_R+
K10
TU_SIF
RF_AGC
SCART1_RGB
H9
M13 0.1uF R4002
GND_32 GND_33
G9
M12 C250
G10 AVDDLV_USB
C284
IF_N_MSTAR C4073 33pF (NON_BR)HALF_NIM 50V
(NON_BR)HALF_NIM
1/10W 5%
C4044
R227
0.1uF
100
(NON_BR)HALF_NIM
C4043
1K OPT
R289
C4067 33pF (NON_BR)HALF_NIM
S7LR-M_NON_MS10 K12
0 0.1uF
R304
IF_P_MSTAR
C4014
DTV_IF
0.1uF
(NON_BR)HALF_NIM C4074 100pF OPT C258 0.1uF
C4012
C257
0.1uF
100
OPT 0.1uF
MODEL_OPT1(NON_AJ)
1K
1K
R212
R209
1K
R288
(NON_BR)HALF_NIM
+1.15V_VDDC
121118 Change from bead to 0 ohm for Cost down
C4007
Close to MSTAR
MODEL_OPT_9
IC101 MSD804KKX
VDD33
+3.3V_Normal
Other: N.C
OPT
EU,AJ
C4001 10uF
HD_LVDS_EU
A9
10uF
F7
MODEL_OPT_9
C293
MODEL_OPT_8
MODEL_OPT_8
R207
MODEL_OPT_MIU0-128M(KR/US)
1K R225
R223
R294
R293
R302
R303
OPT
1K
1K
1K
EU/AJ
10K
10K
MODEL_OPT_7
10uF
MODEL_OPT_5 MODEL_OPT_6
F10 V15 W16
121118 Change from bead to 0 ohm for Cost down
V8 T18
C200 4.7uF 10V R205 10
GND_1
GND_106
GND_2
GND_107
GND_3
GND_108
GND_4
GND_109
GND_5
GND_110
GND_6
GND_111
GND_7
GND_112
GND_8
GND_113
GND_9
GND_114
GND_10
GND_115
GND_11
GND_116
GND_12
GND_117
GND_13
GND_118
GND_14
GND_119
GND_15
GND_120
GND_16
GND_121
GND_17
GND_122
GND_18
GND_123
GND_19
GND_124
GND_20
GND_125
GND_21
GND_126
GND_22
GND_127
GND_23
GND_128
GND_24
GND_129
GND_25
GND_130
GND_26
GND_131
GND_27
GND_132
GND_28
GND_133
GND_29
GND_134
GND_30
GND_135
GND_31
GND_136
G11 G12 G13 G14 G17 G18 G19 G24 H11 H12 H13 H14 H15 H16 H17 H18 H19 J9 J10 J11 J12 J13 J14 J15 J16 J18 J19 J25 K9 K13 K14 H10 K18 K19 K22 L8 L9 J8 L12 L13 L18 L19 M8 K8 M10 M11 L14 M15 M16 M18 M25 N10 N11 N13 N14 N15 N16 N17 N19 K7 P8 P9 M9 P11 P13 P16 P17 P18 P12 R8 R9 R11 R12 R13 R17 T8 T9 N7 T11 T12 T13 T14 T15 T16 T17 U8 U9 U10 U11 U12 U13 U14 U15 U16 U17 R18 V9 V10 V11 V12 V14 V17 T7 E8
SOC_RESET
T6 N5
R210
0 OPT
C231 OPT
1uF
OPTION - ETHERNET(T2_UK/BR_GINGA)
D200 MMBD6100
HDMI_ARC SOC_RESET
A2
A1
R200 62K
OPT C201 0.1uF
OPT
ARC0 HWRESET
IR
ZD1101 3.3V
C N4 IRIN/GPIO4
SB_MUTE
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.
EAX64998104 29MN33 POWER,IN/OUT,H/W OPT
2012.11.18 2
13
TP for EU_T/C TP for SCART
TP for CI slot /PCM_REG
PCM_D[0]
PCM_A[8]
CI_TS_CLK
SCART1_MUTE
/PCM_OE
PCM_D[1]
PCM_A[9]
CI_TS_VAL
SC1_ID
/PCM_WE
PCM_D[2]
PCM_A[10]
CI_TS_SYNC
SC1_FB
/PCM_IORD
PCM_D[3]
PCM_A[11]
CI_TS_DATA[0]
SC1_SOG_IN
/PCM_IOWR
PCM_D[4]
PCM_A[12]
CI_TS_DATA[1]
DTV/MNT_VOUT
SCART1_Lout
/PCM_CE
PCM_D[5]
PCM_A[13]
CI_TS_DATA[2]
/PCM_IRQA
PCM_D[6]
PCM_A[14]
CI_TS_DATA[3]
SCART1_Rout
/PCM_CD
PCM_D[7]
CI_TS_DATA[4]
SC1_CVBS_IN
/PCM_WAIT
CI_TS_DATA[5]
SC1_R+
PCM_RST
CI_TS_DATA[6]
SC1_G+
/CI_CD1
CI_TS_DATA[7]
SC1_B+
/CI_CD2
SCART1_DET
PCM_5V_CTL
SC1_L_IN
CI_DET
SC1_R_IN
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.
EAX64998104 29MN33 TP_EU
2012.11.18 3
12
DSUB RGB USB(SIDE)
PC AUDIO(SIDE)
0
R451
OPT R449
C
+5V_Normal
0
+3.3V_ST D416 MMBD6100 A2
OPTION:DSUB_block
IC400 AP2191DSG
+5V_USB
A1 NC
+3.3V_Normal
OUT_2
OUT_1
12.08.10 47K->470K
R448 10K
R447 10K
R468 470K
C400 0.1uF
R471 1K PC_AUDIO_DET
C404 10uF 10V OPT
FLG
8
1
7
2
6
3
5
4
GND
IN_1
IN_2
C405
EN
USB_CTL
RGB_DDC_SCL
JP400
2:E18
DSUB_HSYNC
JP401
VA417 20V
OPT R454 0
OPT R455 0
M4
5
M5_GND
OPT
M3_DETECT
4
1
R467 15K
JP403 VA420 20V
KJA-PH-1-0177 JK401
C413 220pF 50V
R464 470K
R470 10K
JP402
R418 47K
JP409
M1
3
R469 10K
PC_L_IN 12.07.02 BY.Hwang
+3.3V_ST
JP408 L401 BLM15BD121SN1
1
R465 470K
2
PM_TXD
C414 220pF 50V
VA419 20V
4
DSUB_VSYNC
M6 JP404
R452 47K
C419 47pF 50V
C
R446 0
R441 75
JP407
R435
R445 0 L402 BLM15BD121SN1
R444 0
VA418 20V
JP405
JP429 USB_DM
1:AL8
USB_DP
1:AL7
JP428
JP427
VA424 20V
121128 ESD improve OPT->APPLY
DSUB_DET
DSUB_B+
USB_OCD
JK403
5
2:E18
6
OPT R458 0 121128 ESD improve OPT->APPLY
3AU04S-305-ZC-(LG) PC_R_IN
PM_RXD
0.1uF
R473 47 R466 15K
OPT R457 0
20V
121128 ESD improve OPT->APPLY
VA401 20V
VA400 20V
VA415
USB DOWN STREAM
121128 ESD improve OPT->APPLY
OPT C403 18pF 50V
OPT
OPT C401 18pF 50V
3
JP411
RGB_DDC_SDA 121128 ESD improve OPT->APPLY
VA407 20V OPT
R472 10K
111026 ESD diode deletion EAH39491601 2EA
VA425 20V
121128 ESD improve OPT->APPLY
120103 ESD diode addition EAF61530301 2EA
Q400 MMBT3904(NXP)
B
10K E
5.5V
5.5V VA406
5.5V VA403
VA402
ETHERNET
JP410
SHILED
DDC_CLOCK
121226 use to keep DET LOW
10
16
V_SYNC
SYNC_GND
DDC_GND 15
GND_1
121128 ESD improve OPT->APPLY
+3.3V_Normal
5
H_SYNC
NC
14 9 4
DDC_DATA
BLUE_GND
BLUE
GREEN
13 3
1
11.10.31 To Improve EMI
8
GREEN_GND
GND_2
6
R443 75
7
C421 47pF 50V
11
DSUB_R+
RED_GND
JP406
12
L403 BLM15BD121SN1
2
C420 R442 47pF 75 50V
RED
DSUB_G+
ETHERNET(T2_UK/BR_GINGA) (Sub)ETHERNET(T2_UK/BR_GINGA) JK402
JK406
XRJV-01V-0-D12-080 11.10.27 To Improve Ringing issue LOW capacitance Part apply
(Main)ETHERNET(T2_UK/BR_GINGA)
R411 0
SPG09-DB-010
JK402-*1 RJ45VT-01SN002
1
1
EPHY_TP
2
2
3
4
+3.3V_ST
6
8
2
1
15
16
3
4
5
7
8
6
7
8
C1+
V+
C1-
C2+
C2-
4
5
3
9 9
9
6
5.5V
5.5V OPT VA426
5.5V OPT VA409
5.5V
ETHERNET(T2_UK/BR_GINGA) C410 0.01uF 50V
OPT VA405
7
C425 0.1uF 16V Hotel_Model(RS232C apply)
6
EPHY_RN OPT VA404
C424 0.33uF 16V
9
V-
RIN2
DOUT2
5
2
RS232C
Hotel_Model(RS232C apply)
Hotel_Model(RS232C apply) C423 0.33uF 16V
7
4
EPHY_RP
5
Hotel_Model(RS232C apply) C422 0.33uF 16V
8
3
EPHY_TN
1
IC401 MAX3232CDR
VCC
GND
RIN1
DOUT1
14
13
12 ROUT1
11 DIN1
10 DIN2
ROUT2
9
Hotel_Model(RS232C apply)
Hotel_Model(RS232C apply) C426 0.1uF 16V
R459 0 PM_TXD PM_RXD
NON_Hotel_Model(RS232C Bypass) R460 0 R462 100 NON_Hotel_Model(RS232C Bypass)
+3.3V_ST P1104
VA422 20V
12507WS-04L
R461 100 VA427 20V OPT
VA428 20V OPT
Jack Shield (HDMI1,RGB)
1 VA423 20V
2
3 JP412
JP413
4 JP416
(OPT)IR_OUT IR_OUT
M5_GND
M4
M3_DETECT
M1
M6
5
4
3
1
6
R463 0
5
JackShield(for NonCKD) M1 MGJ63348201
JackShield(for CKD) M1-*1 MGJ63348202
KJA-PH-1-0177 JK404 Hotel_Model(RS232C apply)
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.
EAX64998104 29MN33 INTERFACE
2012.11.18 4
13
HDMI HDMI For CEC +3.3V_ST R520 100 CEC_REMOTE_S7
R500 47K
R503 47K
HDMI_CEC
5V_DET_HDMI_2 R501 10K
C Q501 MMBT3904(NXP)
B
5V_HDMI_2
+5V_Normal
5V_HDMI_2
A1
E
1K
A2
R528
OPT VA505
MMBD6100 D502
C
OPT R509 10K
SHIELD C
OPT VA512 20V
20
Q505 MMBT3904(NXP)
B
R529 10K
HPD2
19 OPT VA511 20V
18 17
R521
R522
2.7K
2.7K
E DDC_SDA_2
DDC_SDA_2
DDC_SCL_2
16 DDC_SCL_2 15
EAG61491201
R527
0 HDMI_ARC
14
(OPT)HDMI2_ARC
13
OPT VA507 20V
HDMI_CEC
12 11 10 9 8 7 6 5 4 3 2 1
CK+ D0-
OPT VA508 20V (OPT)ESD_HDMI_SEMTECH(DEV) D504 RCLAMP0524PA 10 1 2
9
D0_GND
3
8
D0+
4
7
5
6
D1D1_GND D1+
(OPT)ESD_HDMI_SEMTECH(DEV) D505 RCLAMP0524PA 10 1
D2-
2
9
D2_GND
3
8
4
7
5
6
D2+
VA502 20V
VA503 20V 120715 Added for ESD prevention 120825 OPT->APPLY
CK-_HDMI2 CK+_HDMI2 D0-_HDMI2 D0+_HDMI2
D1-_HDMI2 D1+_HDMI2 D2-_HDMI2 D2+_HDMI2 D504-*1 IP4283CZ10-TBA TMDS_CH1-
JK501 TMDS_CH1+
GND_1
TMDS_CH2-
TMDS_CH2+
1
10
2
9
3
8
4
7
5
6
TMDS_CH1-
NC_3
TMDS_CH1+
GND_2
GND_1
NC_2
TMDS_CH2-
NC_1
TMDS_CH2+
ESD_HDMI_NXP
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.
D505-*1 IP4283CZ10-TBA
NC_4
1
10
2
9
3
8
4
7
5
6
NC_4
NC_3
GND_2
NC_2
NC_1
ESD_HDMI_NXP
EAX64998104 29MN33 HDMI
2012.11.18 5
12
IR/LED and Control
Module
+3.3V_ST
P601 10031HR-30
P600 12507WR-12L KEY2
L600 BLM18PG121SN1D
R616 3.3K
KEY1 KEY_SCL
R614 100
KEY_SDA
R617 3.3K
1 JP600
1
2 3
JP601
2 4
+3.3V_ST
+3.3V_ST
R615 100
R604 1/10W
270 1%
R610 1/10W
JP602
330 1% JP605
Red LED:7.8mA
Amber LED:9.5mA
5
3
4
LVA_3P
6
LVA_3M
7
121118
8
R604,R610 2012->1608
JP604
JP603
5
6
LVA_CKP
9
LVA_CKM
10 11
7 JP607
LVA_2P
12
LVA_2M
13
8 14 JP606 9
R600 10K
(IR Port protection against ESD) 121118 100ohm->200ohm
C B
LED_RED
Q600
R4044 200
MMBT3904(NXP) R601 10K
JP608 JP609
LVA_1P
15
LVA_1M
16
10
17 LVA_0P
18
LVA_0M
19
11
IR
E
JP610 OPT D603 30V
OPT D602 30V
OPT C603 100pF 50V
OPT C602 100pF 50V
30V D601
50V C601 1000pF
30V D600
C600 0.1uF
50V
+3.3V_ST
20
12
21 JP611
13 22 23 24 25 26 27
C
R602 10K
28
+12V_PANEL_POWER B
Q601
LED_AMBER
29
MMBT3904(NXP) R603 10K
E
31
4.7K R627
C607 1000pF 50V
4.7K R626
C606 10uF 25V
4.7K R625
C605 0.1uF 50V
4.7K R624
30
JP612
IR_OUT(Ready) +3.3V_ST
(OPT)IR_OUT
R619 10K OPT R620 0
R618 22
+3.3V_ST
IR_OUT (OPT)IR_OUT C Q602 MMBT3904(NXP) (OPT)IR_OUT E
(OPT)IR_OUT R622 R621 10K 10K (OPT)IR_OUT
B
C604 1000pF (OPT)IR_OUT
C
Q603 MMBT3904(NXP) (OPT)IR_OUT E
B
R623 47K (OPT)IR_OUT
IR
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.
EAX64998104 29MN33 MODULE&CONTROL
2012.11.18 6
13
AUDIO AMP +3.3V_AMP
L700-*1 10.0uH (OPT)Audio_Coil_TAIYO NRS6045T100MMGK
AMP_RST
50V
PVDD1B
PVDD1A
OUT1A
R719 12
R715 12
L700 10.0uH Audio_Coil_ABCO
C730 390pF 50V
31
32
33
34
PGND1A
RESET
AD
CLK_I
BST1A 35
36
37
GND_IO
D706 1N4148W 100V OPT
R720 12
R727
C740 0.1uF 50V
R728
5.1K
C735 0.47uF 50V
L706 10.0uH
C731 390pF 50V
D707 1N4148W 100V OPT
C739 0.1uF 50V
NRS6045T100MMGK
NRS6045T100MMGK Audio_Coil_ABCO
R704 12
2
29
PGND1B
DGND_PLL
3
28
BST1B
GND
4
27
VDR1
DGND
5
26
VCC5 JP704
25
AGND
24
VDR2
JP705
23
BST2A
IC700
DVDD
6
SDATA
7
WCK
8
BCK
9
22
PGND2A
SDA
10
21
OUT2A
12
13
14
15
16
17
18
19
20
MONITOR_0
MONITOR_1
MONITOR_2
BST2B
PGND2B
OUT2B
PVDD2B
PVDD2A
0x54
FAULT
100
NTP7513
11
C4072 1uF 10V
THERMAL 41
100
C705 33pF 50V
L709-*1 10.0uH (OPT)Audio_Coil_TAIYO NRS6045T100MMGK
VDD_PLL
SCL
R703
C718 10uF 25V
OUT1B
AUD_SCK
R707
C715 0.1uF 50V
NRS6045T100MMGK
30
AUD_LRCK
AMP_SDA
C712 0.1uF 50V
L701-*1 10.0uH (OPT)Audio_Coil_TAIYO OPT C703 0.01uF 50V
1
AUD_LRCH
AMP_SCL
OPT R700 3.3
AGND_PLL
12.08.09
OPT C704 0.1uF 16V
38
40
C700 0.1uF 16V
VDD_IO
16V OPT
+19V_AMP_VCC
C744 47uF 25V
39
[EP]GND
C702 10uF 10V
0.1uF
C701 0.1uF 16V
C711
AUD_MASTER_CLK
C707
L706-*1 10.0uH (OPT)Audio_Coil_TAIYO NRS6045T100MMGK
22000pF
0
R4045
C706 1000pF 50V
C708 33pF 50V
TP700 TP701
P700 SMAW250-H04R
C710
SPK_L+
3
SPK_L-
C727 1uF 25V
C743 1uF 25V
C726 1uF 25V
JP706 1
C723 22000pF 50V
SPK_R-
JP707 WAFER-ANGLE
+19V_AMP_VCC D704 1N4148W 100V OPT
C745 47uF 25V
22000pF
4
2 SPK_R+
C737 R717 12
R712 12
L701 10.0uH
C713
C714
C716
0.1uF 50V
0.1uF 50V
10uF 25V
D705 1N4148W 100V OPT
C734 0.47uF 50V
0.1uF 50V
R729 5.1K
L709 10.0uH
C729 390pF 50V R718 12
Audio_Coil_ABCO
NRS6045T100MMGK
C728 390pF 50V
TP702
5.1K
C722 22000pF 50V
NRS6045T100MMGK Audio_Coil_ABCO R702 12
C738
R730
0.1uF 50V
5.1K
50V
+3.3V_ST
R705 10K
SB_MUTE NTP_MUTE
D700 MMBD6100 A2 C A1
R709
MMBT3904(NXP) C Q700 R701 B 10K E
OPT R708 33K
100
C709 1000pF 50V
Pop-up noise killer +19V
KDS226 D710
AC
R734 220K
A
C R736 470 C724 47uF 25V
E MMBT3906(NXP) Q702
B C C742 4.7uF 50V
OPT R735 220K
121118 R737 3K for SCART MUTE DEL 3K: With SCART MUTE BLOCK 12K: Without SCART MUTE BLOCK
R737 12K
SB_MUTE R738 12K
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.
EAX64998104 29MN33 AUDIO AMP
2012.11.18 7
13
R803 36K
11.10.27 C818 0.1uF 50V
+3.3V_ST C807 0.1uF 16V
11.10.27 1000Hr->2000Hr
JP800
C803 10uF 25V
FREQ 300K R815
1
C820 111129 47uF 47uF DEL 25V
12.03.08 EAE42868301(3225)-> EAE61081701(3216)
GND
+12V_PANEL_POWER
FB
11.11.07 6604->6601
C869 220pF 50V
R816 68K
R819 0 OPT C808 150pF 50V
R838 15K 1%
C840 10uF 10V
C814 0.1uF 50V
POWER_ON/OFF1 VOLTAGE HIGHER 11.11.05
+2.5V_Normal
S C895 0.1uF 50V
G PMV48XP Q805
R889
D
11.10.27 POWER_ON/OFF1 2K R855
1uF 25V
Q804 MMBT3904(NXP)
B
OPT R873 10K
1%
100
C
R870 100K
Q803 AO3407A
IC810 AP2114H-2.5TRG1
0
C896 10uF 10V
S
OPT
C891
R874
VIN
11.11.14 0CE476WH6DC(1000hr)-> EAE61423901(2000hr) R851 47K 1%
COMP
4
5
C812 47uF 25V
+3.3V_Normal
OPT C890 4.7uF 10V
R875 22K 111116 10K->22K 1K->100
10uH
40V
EN
2
3
6
D802 SMAB34
9
7
THERMAL
VIN
4
L802
SW
1
8
KJA-DC-1-0032
111129 Discharging R DEL (0RJ2201J674)
+12V_Normal
MP1584EN
BST
JP801
2
PANEL POWER CONTROL
+3.3V_ST
R809 10
+19V
+3.3V_AMP
IC2602
[EP]GND
JK800
111116 EBK61011501(Diode) ->EBK38029201(Rohm) ->EBK61913601(NXP) 3.3V drive
R842 33K
R801 100K
VOUT GND
OPT R877 1
C898 4.7uF 10V
OPT C897 10uF 10V
E
10K->22K->33K for T1 rising time.
OPT C899 0.1uF 50V
11.11.28 1.2K->2K
C879 4.7uF 10V
G D
12.05.15
C882 R843 2K
EBK38029201(Rohm) EBK61011501(Diode) EBK60752501(AOS)
C
R839 4.7K
PANEL_CTL
1uF 25V
11.11.15 Maker:Diode->Rohm 11.12.22 Maker:Rohm->Diode Supply issue due to Typoon 12.11.18 MP issue(burn)
Q802 MMBT3904(NXP)
B
E
R840 10K +1.8V_TUNER
11.12.01 LDO change EAN56716601 (5A) ->EAN54428101 (1A)
19V TO 5V DCDC CONVERTER R800 100K 1%
11.11.29 0.047uF->0.033uF 150K->180K
OPT C811 0.47uF 16V OPT
C810 0.1uF 50V
SW
12.03.08 EAE42868301(3225)-> EAE61081701(3216)
GND
8
1
7
2
6
3
5
4
R884 180K
L803
12.03.08 EAE61081701(25V)-> EAE52158501(10V)
10uH
OPT R804 100K 1%
1
IC801 +1.23V_TUNER NC_1
1
8
EN2
OUT
C861 0.1uF 50V
C836 10uF 10V
C837 0.1uF 50V
R865 1
C843 1uF 10V
C842 10uF 10V
C823 0.1uF 50V OPT
(BR)FULL_NIM OPT C906 0.1uF 50V
D805 SMAB34
VIN3
NC4
7
3
6
4
5
11.11.29 0.047uF->0.033uF 150K->180K
C813 0.47uF 16V OPT
11.11.07 C825 0->47 0.01uF R869 47 BST 50V
IN C800 10uF 25V
C806 0.1uF 50V
SW
12.03.08 EAE42868301(3225)-> EAE61081701(3216)
GND
8
1
7
2
3
6
5
4
C838 0.033uF 50V
SS
R885 180K
12.03.08 EAE61081701(25V)-> EAE52158501(10V)
L805 10uH
C853 47uF 25V
EN
COMP
11.11.14 0CE476WH6DC(1000hr)-> EAE61423901(2000hr)
OPT C859 10uF 10V
MULTI_ON
R826 0
C833 4700pF 50V C847 330pF 50V R820 8.2K
OPT R811 100K 1%
C819 0.47uF 16V OPT
+5V_Normal
(BR)FULL_NIM (BR)FULL_NIM C826 C827 10uF 0.1uF 10V 50V
IC806 11.11.07 0->47 C830 0.01uF R871 47 50V BST
MP1472GJ-C452-Z
12K 1% R846 IN C802 10uF 10V
R827 10K 1%
C816 0.1uF 50V
SW
GND
8
1
7
2
6
3
5
4
C846 0.22uF 16V
SS
OPT R898 180K
L806 10uH
EN 11.11.14 0CE476WH6DC(1000hr)-> EAE61423901(2000hr)
COMP
1%
GND
8
1
7
2
6
3
5
4
C844 0.033uF 50V
SS
R829 180K
OPT C849 C851 47uF 10uF 25V 25V
EN
COMP
11.11.14 0CE476WH6DC(1000hr)-> EAE61423901(2000hr)
11.11.14 2200pF->4700pF 10K->8.2K 150pF->330pF
R847 0
C831 4700pF 50V C848 330pF 50V R828 8.2K
R850 10K 1%
0 R830
3.3V TO 1.5V LDO
5% 0 R853 2012.08.12 R852 : 33k -> 120k R853 : 12K -> 0
IC807 TJ4220GDP-ADJ
R817 POWER_ON/OFF1 4.7K
EN2 C817 0.1uF 50V OPT
+3.3V_AMP
AMP_VCC Control
AMP_VCC C839 2.2uF 50V
R880 10K
12.03.08 EAE42868301(3225)-> EAE61081701(3216)
Q807 AO3407A
VIN3
NC4
AO3407A Vgs : 10.36V(19V input)
11.11.29 Diode DEL 0DSKE00048A
121118 +19V_SCART DEL
+19V_AMP_VCC S
[EP]GND +1.5V_DDR
NC_1
AO3407A Vgs : 10.8V(24V input)
OPT C809 0.1uF 50V
10K R831 5%
C854 0.1uF 50V
R852 120K 1%
R837 47K
FB
11.11.07 0->47K
OPT C801 10uF 25V
OPT C881 47pF 50V
L800 10uH
+3.3V_ST
R879 0
C805 10uF 10V
1
2
8
7
3
6
4
5
GND
ADJ/SENSE
VOUT
NC_2
C857 0.01uF 50V
1%
5%
10K R844
0 R849
1%
12.03.08 EAE42868301(3225)-> EAE61081701(3216)
560 1% R848
MP1472GJ-C452-Z
R832 1K
SW
C866 0.1uF 50V
C864 10uF 10V
OPT C867 0.1uF 50V
1%
IN C821 0.1uF 50V
C841 8200pF OPT 25V C850 150pF 50V R822 1.8K
R833 10K
BST
9
C829 0.01uF R823 50V 47
+12V_Normal
OPT C862 10uF 10V
IC804
THERMAL
11.11.07 0->47
C855 47uF 25V
R841 2K
R893 47K
FB
11.11.07 R822 68K->1.8K C841 4700pF->8200pF 11.11.29 0.047uF->0.033uF 150K->180K
C822 0.47uF 16V OPT
C815 10uF 25V
(BR)FULL_NIM R858 2.7K 1%
NC_2
11.11.07 0.1uF->0.22uF
19V TO 12V DCDC CONVERTER
TEST-POINT
Not used : only for small(ready)
4.7K R867
+1.15V_VDDC
R812 POWER_ON/OFF1 4.7K
C863 0.1uF 50V
R835 33K 1%
R892 47K
FB
R813 POWER_ON/OFF1 4.7K
OPT
(BR)FULL_NIM 1%
(BR)FULL_NIM R859 30K 1%
11.11.07 0->47K
R806 10K OPT R807 1K
VOUT
1% 13K R862
5V TO 1.15V DCDC CONVERTER M1 Core
MP1472GJ-C452-Z
11.11.14 2200pF->4700pF 10K->8.2K 150pF->330pF
OLP
C824 0.01uF 50V
+5V_Normal
11.11.07 0->47K
MULTI_ON
ADJ/SENSE(BR)FULL_NIM
OPT
IC802
OPT R808 100K 1%
(BR)FULL_NIM
(BR)FULL_NIM C828 10uF 10V
40V R854 0
R825 10K 1%
2
GND
19V TO 5V DCDC CONVERTER
R805 POWER_ON/OFF1 4.7K
+3.3V_Normal
[EP]GND
TJ4220GDP-ADJ
ADJ/GND
12K 1% R845
R824 0
C832 4700pF 50V C845 330pF 50V R818 8.2K
11.11.14 2200pF->4700pF 10K->8.2K 150pF->330pF
3
R834 33K 1%
R891 47K
FB
11.11.07 0->47K
MULTI_ON
+3.3V_TUNER
3.3V TO 1.23V LDO H/W Option:FULL_NIM
(BR)FULL_NIM
C856 10uF 10V
2
OPT C858 10uF 10V
C852 47uF 25V
11.11.14 0CE476WH6DC(1000hr)-> EAE61423901(2000hr)
OPT C894 0.1uF 50V
C892 1uF 10V
R872 1
AP1117E33G-13 IN
EN
COMP
ADJ/GND
OUT
IC803
SS
1 2
IC800 C835 0.033uF 50V
3
+5V_USB
MP1472GJ-C452-Z
11.11.07 C868 0->47 0.01uF R888 47 50V BST
IN C804 10uF 25V
IN
9
R802 POWER_ON/OFF1 4.7K
AP1117E18G-13
11.12.20 LDO change EAN54428101 (1A) adj ->EAN54428601 (1A) 3.3v
THERMAL
MULTI_ON
111116 Panel switch deletion 111201 Panel switch recover
IC805
R814 0
G OPT
R821 12K
D L807
3.3uH
CPI2520NHL3R3ME 2520
R810 10K
MULTI_ON
R836 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 Q806 MMBT3904(NXP)
B
E
C870 10uF 25V
C834 0.01uF 50V 121118 Size : 1608->1005 for Cost Down
C865 0.01uF 50V 121118 Size : 1608->1005 for Cost Down
EAX64998104 29MN33 POWER
2012.11.18 8
13
R1227
+1.5V_DDR
0
AVDD_DDR0 R1206
0.1uF
C1220
1uF
1uF
C1241
1uF
C1238
1uF
C1219
1uF
C1218
C1217
0.1uF
0.1uF
C1239
10uF
C1206
OPT C1251
1K 1% 1%
0.1uF
C1250
1K
1000pF
C1249
1%
R1225
1K
0.1uF
C1248
1000pF
CLose to Saturn7M IC
121118 Change from bead to 0 ohm for Cost down
R1228
R1224
1K 1%
CLose to Saturn7M IC
B-MVREFDQ
B-MVREFCA
C1247
A-MVREFCA
1000pF
0.1uF C1204
1%
R1205
1K
C1203
1000pF
0.1uF C1202
C1201
A-MVREFDQ
CLose to DDR3
AVDD_DDR0
AVDD_DDR0
1K 1%
R1204
AVDD_DDR0
1K 1% 1%
R1202
1K
R1201
AVDD_DDR0
CLose to DDR3
EAN61836301
IC1202 K4B1G1646G-BCK0
EAN61836301
IC1201 K4B1G1646G-BCK0
IC101 MSD804KKX
DDR_1600_SS
DDR_1600_SS
A3
VREFDQ
A4 A5
L8
A6
ZQ
A7 A8
B2 G7
C1208
0.1uF
K2
C1210
0.1uF
K8
C1211
0.1uF
N1
C1212
VDD_1
A9
VDD_2
A10/AP
VDD_3
A11
VDD_4
A12/BC
VDD_5
A13
VDD_6
N9
0.1uF
R1
0.1uF
R9
C1215
0.1uF
BA1
C1216
0.1uF
BA2
C9 D2 E9 F1 H2 H9
BA0
VDDQ_1
L1 L9 A-MA14
T7
L7 R7 N7 T3
CK
VDDQ_3
CK
VDDQ_5 CS
VDDQ_7
ODT
VDDQ_8
RAS
VDDQ_9
CAS
J2 J8 M1 M9 P1 P9 T1 T9
N8
D8 E2 E8 F9 G1 G9
A-MA8
A-MA10
A-MA9
A-MA11
A-MA10
A-MA12
A-MA11
A-MA13
A-MA12
A-MBA2
K7 K9
A-MBA0 A-MBA1
C1209
A-MBA2
0.01uF 50V
A-MCK A-MCKB
A-MCKE A-MCKB
A-MCKE
K1
A-MODT
J3
A-MRASB
K3
A-MODT
AVDD_DDR0
A-MCASB R1231 A-MWEB 10K
L3
A-MRASB A-MCASB A-MWEB
A-MRESETB A-MRESETB A-MDQSL
G3
DQSU
VSS_2
DQSU
VSS_3
A-MDQSLB
DML
VSS_5
DMU
VSS_6 VSS_7
A-MDQSU
B7
A-MDQSUB A-MDML
D3
VSS_8
DQL1
VSS_9
DQL2
VSS_10
DQL3
VSS_11
DQL4
VSS_12
DQL5
A-MDMU A-MDQL0
F7
A-MDQL1
F2 F8 H3 H8 G2 H7
DQL7 VSSQ_1 DQU0
VSSQ_3
DQU1
VSSQ_4
DQU2
VSSQ_5
DQU3
VSSQ_6
DQU4
VSSQ_7
DQU5
VSSQ_8
DQU6
VSSQ_9
DQU7
A-MDQL0
A-MDQL2
A-MDQL1
A-MDQL3
A-MDQL2
A-MDQL4
A-MDQL3
A-MDQL5
A-MDQL4
A-MDQL6
A-MDQL5
A-MDQL7
A-MDQL6 A-MDQL7
D7
VSSQ_2
A-MDML
A-MDMU
E3 DQL0
A-MDQSU
A-MDQSUB
E7
VSS_4
A-MDQSL
A-MDQSLB
C7 VSS_1
F12 C15 E12 A14 D11 B14 D12 C16 C13 A15 E11 B13
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] A_DDR3_A[9]
B_DDR3_A[8] 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-MA0
D25 F22 G22
B-MA1
B-MA3
B-MA2
B-MA4
B-MA3
B-MA5
B-MA4
B-MA6
E24 F21 E23 D22
B-MA2
B-MA5
B-MA7
B-MA6
B-MA8
B-MA7
B-MA9
B-MA8
B-MA10
D24 D21 C24 C25 F23
B-MA9
B-MA11
B-MA10
B-MA12
B-MA11
B-MA13
B15 E13
A_DDR3_BA[0]
B_DDR3_BA[0]
A_DDR3_BA[1]
B_DDR3_BA[1]
A_DDR3_BA[2]
B_DDR3_BA[2]
A17 B16
A_DDR3_MCLK
B_DDR3_MCLK
A_DDR3_MCLKZ
B_DDR3_MCLKZ
A_DDR3_MCLKE
B_DDR3_MCLKE
P2 R8 R2 T8 R3 L7 R7 N7 T3
D23
B-MBA1
C1240
B-MBA2
0.01uF 50V
B-MCK
G23
M3
B-MBA2
B12 A12 C12
A_DDR3_ODT
B_DDR3_ODT
AVDD_DDR0
A_DDR3_RASZ
B_DDR3_RASZ
A_DDR3_CASZ
B_DDR3_CASZ
A_DDR3_WEZ
B25
K7 K9
K1
B-MWEB
A_DDR3_RESET
B-MRASB
K3 L3
B-MWEB
A-MDQU0
C3 C8 C2 A7 A2 B8 A3
A-MDQU1
A-MDQU0
A-MDQU2
A-MDQU1
A-MDQU3
A-MDQU2
A-MDQU4
A-MDQU3
A-MDQU5
A-MDQU4
A-MDQU6
A-MDQU5
A-MDQU7
A-MDQU6 A-MDQU7
1G 1600
C18
A_DDR3_DQSLB
B_DDR3_DQSL
A18
A_DDR3_DQSUB
B_DDR3_DQSU
B_DDR3_DQML
A_DDR3_DQMU
B_DDR3_DQMU
G15 B21 F15 B22 F14 A22 D15
A_DDR3_DQL[0]
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]
B20 F16 C21 E16 A20 D16 C20
J20
A_DDR3_DQU[0]
B_DDR3_DQU[0]
A_DDR3_DQU[1]
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]
B7
VDD_4
A13
VDD_5 VDD_6 VDD_7 VDD_8
D3
B-MDMU B-MDML
L20
B-MDMU
B-MDQL0
J24 L24 J23 M24 H23 M23
B-MDQL2
B-MDQL1
B-MDQL3
B-MDQL2
B-MDQL4
B-MDQL3
B-MDQL5
B-MDQL4
B-MDQL6
B-MDQL5
B-MDQL7
F7 F2 F8 H3 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
VDDQ_9
H22 K20 H20 L21 H21
B-MDQU0
B-MDQU2
B-MDQU1
B-MDQU3
B-MDQU2
B-MDQU4
B-MDQU3
B-MDQU5
B-MDQU4
B-MDQU6
B-MDQU5
B-MDQU7
0.1uF
C1229
0.1uF
K8
NC_2 NC_4
DQSL
C1230
0.1uF
N1
C1231
0.1uF
N9
C1232
0.1uF
R1
C1233
0.1uF
R9
C1234
0.1uF
C1235
0.1uF
C1236
0.1uF
A8 C1 C9 D2 E9 F1 H2 H9 J1
NC_1
J9 L1 L9 T7
NC_6
B-MA14
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
VSS_12
C3 C8 C2 A7 A2 B8 A3
B3 E1 G8 J2 J8 M1 M9 P1 P9 T1 T9
DQL6 B1 VSSQ_1
D7
B-MDQU0 B-MDQU1
L22
C1228
K2
A1
DQL7
B-MDQL6
K23
10uF
G7
VDD_9
VDDQ_1
E3
B-MDQL1 B-MDQL0
C1227
BA1
E7
B-MDML
B-MDQSUB
G21
G16
VDD_3
A12/BC
C7
B-MDQSUB
L23
D17
VDD_2
A11
D9
DQSL
B-MDQSU
B-MDQSLB
H24 A_DDR3_DQML
G3
B-MDQSU
B_DDR3_DQSUB
E15 A21
K25 J21
A_DDR3_DQSU
A10/AP
F3
B-MDQSL
B_DDR3_DQSLB
B18
VDD_1
RESET
AVDD_DDR0
B2
A9
T2
B-MRESETB
B-MDQSLB
K24 A_DDR3_DQSL
240 1%
A8
BA0
R1226
ZQ
A7
WE
B-MRESETB
B_DDR3_RESET
B19
A6
L8
NC_3
E20
F11
R1232 10K
B-MCASB
A24
B_DDR3_WEZ
J3
B-MCASB
B-MRASB
B24
A5
J7
B-MCKE
B-MVREFDQ
VREFDQ
A4
L2
B-MODT
H1
BA2
B-MCKE
D20
E14
A3
B-MCKB
B-MCKB
F25
N8
B-MBA1
B-MBA0
F20
A2
M2
B-MBA0
B-MVREFCA
VREFCA
A1
NC_5
B-MA14
F24
M8 A0
M7
B-MA13
G25
C17
P8
B-MA12
E21
G20
F13
N2
B-MDQSL
F3 DQSL
B11
A_DDR3_A[0]
P3
B-MODT
RESET
NC_4
C14
B23
B-MCK
A-MCK
NC_3
B1 D1
A-MA9
A-MBA1
M3
T2
DQL6
B9
A-MA7
A-MA14
WE NC_1
A9
G8
A-MA8
A-MBA0
DQSL
E1
A-MA6
L2
VDDQ_6
NC_6
B3
A-MA4 A-MA5
A-MA7
A-MA13
CKE
VDDQ_4
NC_2
A-MA5 A-MA6
J7
VDDQ_2
J1 J9
R3
M2
A1 C1
T8
A-MA3
NC_5
VDD_8 VDD_9
A8
R2
A-MA1 A-MA2
A-MA4
M7
0.1uF
C1213 C1214
VDD_7
R8
A-MA2 A-MA3
1%
D9
0.1uF
P2
1%
10uF
C1207
P8
R1235 56
C1205
N2
R1236 56
R1203 240 1%
AVDD_DDR0
A-MA0
A-MA1
P3
A11
P7
B-MA1
1%
A2
H1
A-MVREFDQ
P7
N3
B-MA0
S7LR-M_NON_MS10
56 R1237
A1
A-MA0
1%
A0
VREFCA
56 R1238
N3
M8
A-MVREFCA
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
B-MDQU6
K21
B-MDQU7
2G 1600(BRAZIL - GINGA) DDR_1600_HYNIX_9003(DEV) DDR_1600_HYNIX_9003(DEV) IC1201-*1 H5TQ1G63EFR-PBC
P7 P3 N2 P8 P2 R8 R2 T8 R3 L7 R7 N7 T3
A0
H1 VREFDQ
A6
P2 L8 ZQ
T8
A8
B2
A9
VDD_1
A10/AP
VDD_2
A11
VDD_3
A12/BC
VDD_4 VDD_5 VDD_6 VDD_7 VDD_8
M2 BA0
K9
CK
J3 K3 L3
N7 T3
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
F3 DQSL
A8
J7 K7
C9
K9
D2 E9
L2
F1
K1
H2
J3 K3 L3
J9
A6
R2
A8
B2
A9
VDD_1
A10/AP
VDD_2
A11
VDD_3
A12/BC
VDD_4 VDD_5 VDD_6 VDD_7 VDD_8
R7 N7
N1
T3
N9 R1
N8
VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5 VDDQ_6
ODT
VDDQ_7
RAS
VDDQ_8
CAS
VDDQ_9
C9
K7 K9
NC_4
L2
H2
K1 J3 L3
B7
DQSU
VSS_1
DQSU
VSS_2
DML
VSS_4
DMU
VSS_5
VSS_3
E7 D3
VSS_6
E3 F7 F2 F8 H3 H8 G2 H7
DQL0
VSS_7
DQL1
VSS_8
DQL2
VSS_9
DQL3
VSS_10
DQL4
VSS_11
DQL5
VSS_12
C8 A7 A2 B8 A3
B7
E1 G8 J2
DQU0
D3
J8 M1
E3
M9
F7
P1
F2
P9
F8
T1
H3
T9
H8 G2 H7
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 C3
D8
C8
E2
C2
E8
A7
F9
A2
G1
B8
G9
DQSU
VSS_1 VSS_2
DML
VSS_4
DMU
VSS_5
VSS_3
VSS_6 VSS_7
DQL1
VSS_8
DQL2
VSS_9
DQL3
VSS_10
DQL4
VSS_11
A3
VDD_6 VDD_8
DQL5
VSS_12
B3 E1
B7
J2
E7
J8
D3 E3
P1
F7
P9
F2
T1
F8 H3 G2
VSSQ_2
DQU1
VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
H7
CK
VDDQ_2
CK
VDDQ_3 VDDQ_4 VDDQ_5
CS
VDDQ_6
ODT
VDDQ_7
RAS
VDDQ_8
CAS
VDDQ_9
K8
T3
N1 N9
DDR_2G_1600_SS
IC1201-*5 K4B2G1646E-BCK0
R1 R9
NC_2 NC_4
DQSL
D8
C3 C8
E8
C2
F9
A7
G1
A2 B8
A3
K7 K9
P2
VDD_1
A10/AP
VDD_2
A11
VDD_3
A12/BC
VDD_4
A13
VDD_5
NC_5
VDD_7
VDD_6 VDD_8 BA0
E9
L2
F1
K1
H2
J3
H9
K3 L3
R3 L7
G7
R7
K2
N7
K8
T3
N1 N9
IC1202-*5 K4B2G1646E-BCK0
N8
CK
VDDQ_2 VDDQ_3 VDDQ_4 VDDQ_5
CS
VDDQ_6
ODT
VDDQ_7
RAS
VDDQ_8
CAS
VDDQ_9
NC_2 NC_3
L9
NC_4
F3 DQSL
C1
K7
C9
K9
E9
L2
F1
K1
H2
J3
H9
K3 L3
A9 VSS_1
DQSU
VSS_2
DML
VSS_4
VSS_3 VSS_5 VSS_6 DQL0
VSS_7
DQL1
VSS_8
DQL2
VSS_9
DQL3
VSS_10
DQL4
VSS_11
DQL5
VSS_12
B3
B7
G8
E7
J2
D3 E3
M9
F7
P1
F2
P9
F8
T1
H3
T9
H8 G2
DQL6
H7
DQU0
VSSQ_2
DQU1
VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
B9
VSS_1
DQSU
VSS_2
DML
VSS_4
VSS_3 VSS_5 VSS_6 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 VDD_5
NC_5
VDD_7
VDD_6 VDD_8
R3 L7
G7
R7
K2
N7
K8
T3
N1 N9
VDD_9
N8
CK
VDDQ_2
CK
VDDQ_3 VDDQ_4 VDDQ_5
CS
VDDQ_6
ODT
VDDQ_7
RAS
VDDQ_8
CAS
VDDQ_9 NC_1
NC_4 DQSL
C1
K7
C9
K9
E9
L2
F1
K1
H2
J3
H9
K3 L3
B3 G8
E7
J2
D3 E3
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_1
DQSU
VSS_2
DML
VSS_4
VSS_3 VSS_5 VSS_6 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 VDD_5
NC_5
VDD_7
VDD_6 VDD_8 BA0
D9 G7 K2 K8 N1 N9 R1 R9
VDD_9
BA1 A1 VDDQ_1 CK
VDDQ_2
CK
VDDQ_3 VDDQ_4 VDDQ_5
CS
VDDQ_6
ODT
VDDQ_7
RAS
VDDQ_8
CAS
VDDQ_9
NC_4
F3 DQSL
A8 C1 C9 D2 E9 F1 H2 H9 J1
NC_1 NC_2 NC_3
J9 L1 L9 T7
NC_6
B3
B7
G8
E7
J2
D3 E3
M9
F7
P1
F2
P9
F8
T1
H3
T9
H8 G2
DQU0
VSSQ_2 VSSQ_3
DQU2
VSSQ_4
DQU3
VSSQ_5
DQU4
VSSQ_6
DQU5
VSSQ_7
DQU6
VSSQ_8
DQU7
VSSQ_9
VSS_1
DQSU
VSS_2
DML
VSS_4
VSS_3 VSS_5 VSS_6 DQL0
VSS_7
DQL1
VSS_8
DQL2
VSS_9
DQL3
VSS_10
DQL4
VSS_11
DQL5
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
DQL6 DQL7
B1
DQU1
DQSU
DMU
J8 M1
B9
A9
C7
H7 VSSQ_1
D7
A12/BC A13
RESET
E1
DQL6 DQL7
B1 B9
VDD_2 VDD_3
T2
G3 A9
DQSU
DMU
J8 M1
A10/AP A11
L9 T7
B2 VDD_1
DQSL
C7 B7
A8 A9
WE
L1
NC_6
L8 ZQ
A7
CKE
D2
J9
H1 VREFDQ
A5 A6
J7
J1 NC_2
A3 A4
BA2
A1 A8
VREFCA
A1 A2
M2 M3
VDDQ_1
M8 A0
M7
R1 R9
BA1
F3
H7 VSSQ_1
D7
A12/BC A13
NC_3
E1
DQL6 DQL7
B1 VSSQ_1
A9 DQSU
DMU
J8 M1
VDD_2 VDD_3
RESET
G3
R2 B2 D9
DQSL
C7
E1
A10/AP
T2
DQSL
DQSU
VDD_1
A11
BA0
R8 T8
A8
L9 T7
P2
A7 A9
N2 P8
L8 ZQ
WE
L1
NC_6
H1 VREFDQ
A5 A6
CKE
D2
J9
P3
A4
J7
J1 NC_1
RESET
A3
N3 P7
A1
BA2
A1
CK
VREFCA
A2
M2 M3
A8
M8 A0
M7
R1 R9
VDD_9
VDDQ_1
T2
G3
R2 B2 D9
BA1
WE
L1
R8 T8
A8 A9
N2 P8
L8 ZQ
A7
CKE
D2
T7
H1 VREFDQ
A5
BA2
C1
NC_6
P3
A4 A6
N3 P7
A1
J7
C9
J9
VREFCA
A2
M2 N8
A8
M8 A0
M7
J1 NC_1
D7
E2
G9
N7
A1
DQL7
B9 D1
R7
M3 VDDQ_1
DMU
M1 M9
B1
G7 K2
VDD_9
C7
H8
VSSQ_1
R3 L7
DQSL
G8
T9
R2 B2 D9
BA1
NC_3
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_7
T7
DQL6
DQU0
VDD_4 VDD_5
NC_5
F3
DQL7
D1
A12/BC A13
NC_6
DQSU
DQL0
VDD_2 VDD_3
RESET
A9
E7
B1 VSSQ_1
D7
C2
B3
DQL6 DQL7
C3
C7
A10/AP
T2
L9
G3 A9
VDD_1
A11
BA0
R8 T8
A8
WE
J9
DQSL
C7
L8 ZQ
A7 A9
N2 P8 P2
A5 A6
CKE
E9 F1
L1
H1 VREFDQ
A4
J7
D2
H9
P3
BA2
A8 C1
J1 NC_2 NC_3
DQSL
M3
K3 NC_1
F3
A3
N3 P7
A1
M7
R9
A1
CK
RESET
DQSL
K2 K8
VREFCA
A2
M2
CKE
T2
G3
R3 L7
M8 A0
VDD_9
VDDQ_1
CS
T8
D9 G7
BA1
CK
P2 R8
WE
L1 T7
P8 L8 ZQ
A7
BA0
P3 N2
A4 A5
L9
NC_6
H1 VREFDQ
BA2
J1 NC_1
T2
A2 A3
M2
C1
H9
N3
NC_5
N8
DDR_2G_1600_SS
IC1202-*4 H5TQ2G63DFR-PBC
VREFCA P7
M7
R1 R9
A0 A1
NC_7
N1 N9
M3
WE
G3
K2 K8
A1
CKE L2 K1
L7 R7
VDD_9
VDDQ_1
J7
R3
D9 G7
BA1 BA2
K7
R8 R2
A7
NC_5
N2 P8
A4 A5
NC_7
M3
P7
IC1201-*4 H5TQ2G63DFR-PBC M8
N3 P3
A2
M7
N8
VREFCA
A1 A3
DDR_2G_1600_HYNIX DDR_2G_1600_HYNIX
IC1202-*1 H5TQ1G63EFR-PBC M8
N3
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
EAX64998104 29MN33 DDR_256
2012.11.18 12
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
R1903 10K /CI_CD1 R1908 100
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]
R1905
10K
41
7
42
8
43
9
47
CI_MDI[0]
FE_TS_DATA[0-7] CI_MISTRT
10
CI_ADDR[11]
CI_IOWR
45
11
CI_ADDR[9]
12
CI_ADDR[8]
CI_MDI[0]
47
13
CI_ADDR[13]
CI_MDI[1]
48
14
CI_ADDR[14]
CI_MDI[2]
49
15
OPT R1910
C1905 0.1uF
GND
0
16
51
17
52
18
OPT
53
19
R1916
54
CI_MDI[5] CI_MDI[6] R1906
10K
R1920
50
55
21
CI_ADDR[12]
56
22
CI_ADDR[7]
57
23
CI_ADDR[6]
58
24
CI_ADDR[5]
47
59
25
CI_ADDR[4]
60
26
CI_ADDR[3]
R1925
100 33
61
27
CI_ADDR[2]
R1926
62
28
CI_ADDR[1]
R1927
33
63
29
64
30
CI_DATA[0]
65
31
CI_DATA[1]
CI_TS_DATA[0]
66
32
CI_DATA[2]
CI_TS_DATA[1]
67
33
REG
CI_TS_SYNC
AR1903
33
CI_TS_DATA[2] CI_TS_DATA[3]
68
FE_TS_CLK
120915 Array->normal resistor 120915 ADDED
/PCM_IRQA C1915 0.1uF 16V
47
/PCM_WAIT
R1911 10K
100
R1901
CI_TS_CLK CI_TS_VAL
100
CI_WE
R1902
PCM_RST
R1931
FE_TS_SYNC FE_TS_VAL_ERR
+5V_Normal
GND
20
33 33
CI_MCLKI
CI_OE
C1909 0.1uF
0
R1929 R1930
CI_MIVAL_ERR
/PCM_CE
CI_ADDR[10]
44
CI_MDI[3]
FE_TS_DATA[2] FE_TS_DATA[0]
R1921 10K
CI_IORD
46
CLOSE TO MSTAR
R1919
CI_DATA[0-7]
37
CI_MDI[7]
FE_TS_DATA[3] FE_TS_DATA[1]
CI_MDI[1]
CI_DATA[3]
36
CI_TS_DATA[4]
R1928 10K
33
CI_MDI[2]
35
AR1901 33
+5V_Normal
FE_TS_DATA[4]
CI_MDI[4] AR1906
CI_TS_DATA[5]
CI_MDI[4]
FE_TS_DATA[5]
CI_MDI[5]
CI_MDI[3]
C1903 0.1uF 16V
120915 ADDED
FE_TS_DATA[7] FE_TS_DATA[6]
CI_MDI[6]
120915 ADDED
120915 BufferIC change 0ITO742440D ->0ISTLPH048A
121022 BufferIC change 0ISTLPH048A ->0ITO742440D
CLOSE TO MSTAR GND
CI HOST I/F +3.3V_Normal NAND_EN
CI_ADDR[0]
CI_DET
IC1902
CI_ADDR[0-14] 1OE
1
R1907 100
G2 2
69
AR1915 33 GND
C1913 0.1uF 16V
19
2OE AR1914 33
0ITO742440D 2Y4
3
18
4
17
1Y1
CI_ADDR[0]
CI_ADDR[6]
CI_ADDR[1] 1A2
CI_ADDR[5] GND
CLOSE TO MSTAR
2
PCM_A[0]
CI_ADDR[7]
+5V_Normal
PCM_A[1]
CI_ADDR[4]
2Y3
R1904 10K
VCC
TOSHIBA
G1 1
/CI_CD2
C1914 2pF 50V
20
34 1A1
OPT R1909 0
FE_TS_DATA[0-7]
P1900 EAG41860102 10067972-000LF CI_SLOT
33
CI_MDI[7]
5
GND C1904 0.1uF 16V
1A3
6
PCM_A[2] 2Y2
CI_MISTRT CI_MIVAL_ERR 1A4 PCM_A[3]
TC74LCX244FT
C1906 10uF 10V
AR1905
CI_DATA[0-7]
+5V_Normal
16
15
7
14
8
13
9
12
10
11
2A4
CI_ADDR[2]
PCM_A[7]
CI_ADDR[3]
1Y2
2A3 PCM_A[6] 1Y3
2A2 PCM_A[5]
CI_MCLKI 2Y1
GND
1Y4
2A1 PCM_A[4]
CI DETECT
+3.3V_CI
+3.3V_CI
+3.3V_CI
+3.3V_Normal
IC1901 74LVC1G32GW
B
1
A
2
GND
3
5
VCC
4
Y
/CI_CD2 R1917 10K
C1908 0.1uF 16V R1915 47
GND
C1902 0.1uF
CI_DATA[0] CI_DET R1918 47 /PCM_CD
121022 Swich block change FET->IC
AR1907 33
PCM_D[0]
CI_DATA[1]
PCM_D[1]
CI_DATA[2]
PCM_D[2] PCM_D[3]
CI_DATA[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 0
PCM_D[0-7] CI_DATA[0-7]
CI POWER ENABLE CONTROL AR1912
IC1903 AP2151WG-7
+5V_Normal
IN
5
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]
+5V_CI_ON
1
L1902 BLM18PG121SN1D
OUT
AR1913
33 PCM_A[12]
CI_ADDR[12] 2 R1914 100 PCM_5V_CTL
EN
4
3
GND
FLG
C1910 1uF 25V
R1922 100K
CI_ADDR[13]
PCM_A[13]
CI_ADDR[14]
PCM_A[14]
R1913 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.
/PCM_REG
REG
AR1909 33 CI_OE
/PCM_OE
CI_WE
/PCM_WE
CI_IORD
/PCM_IORD
CI_IOWR
/PCM_IOWR
EAX64998104 29MN33 PCMCI
2012.11.18 19
13
FE_AGC_SPEED_CTL IF_AGC_SEL
GLOBAL tuner block except T2/S2
FE_BOOSTER_CTL LNA2_CTL
R3741-*3 2.2K (BR)TU_IIC_2.2K RF_SWITCH_CTL R3740-*3 2.2K (BR)TU_IIC_2.2K
Pull-up can’t be applied because of MODEL_OPT_2
TU3704 TDSN-T701F
(BR_CKD)SI2178_BR_2INPUT_H
TU3703 TDSN-B601F(B) (BR)SI2178_BR_2INPUT_H
(OPT)SI2178_TW_LNA_2INPUT_H
R3705 0
4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 B1
B1
A1
SCL
RF_S/W_CTL
1
1
SDA
2
+B1[3.3V] SIF
3
+B2[1.8V] CVBS
4
RESET
2
SCL
3
SDA
4
5
NC_3
6
+B3[3.3V] +B4[1.23V]
NC_4
12 13
NC_7
14
NC_8
7 8 9 10
DIF[N]
11
NC_6
6
DIF[P]
10
MCLK
NC_5
SIF
IF_AGC
9
DATA
NC_9
15
11
NC_1
12
NC_2
13
NC_3
14
GND
15
NC_4
16
NC_5
17
NC_6
18
NC_7
19
NC_10
16
A1
28
17 SHIELD
GND seperation for ASIS tuner
19 20
0 R4042
0 R4041
TU_GND_A
18
21 22
24 25 LNA_CTRL_1
(OPT)TW_FE_LNA R3797 2.2K
LNA_CTRL_1
57
LNA_CTRL_2
close to TUNER
26
58
LNA_CTRL_2
B1
B1
NC_8
20
NC_9
21
NC_10
22
NC_11
23
NC_12
24
NC_13
25
NC_14
26
NC_15
27
59 SHIELD
27 B1
A1
A1
C3752 C3753 0.1uF 0.1uF 16V 16V (OPT)TW_FE_LNA (OPT)TW_FE_LNA
RESET_TUNER
2
SCL
3
SDA
4
NC_1 RESET
R3775 0
(OPT)TU_I2C_FILTER R3735-*1
TUNER_RESET OPT C3703 0.1uF 16V
TU_SIF (BR)TU_NON_BUFFER_SIF
C3710 0.1uF 16V
(OPT)TU_I2C_FILTER R3736-*1
SCL
R3741 1.8K (KR)TU_IIC_ATSC_1.8K
R3740 1.8K (KR)TU_IIC_ATSC_1.8K
TU_I2C_NON_FILTER R3735 33
+B1[3.3V]
SDA
R3736
5
SIF
6
+B2[1.8V]
7
CVBS
8
121118 Apply TU_I2C_FILTER (18pF->20pF)
3.3V NC_2
33
1.8V
C3702
C3742 20pF 50V
close to TUNER
C3743 20pF 50V
R3783
C
+3.3V_TU
0
(BR)FULL_NIM
NC_3
R3784
R3751 220 (BR)TU_BUFFER_VIDEO
0
NC_1
9
NC_2 NC_3
10 121118 SS Bead -> SUNLORD Bead
11
+B3[3.3V]+1.23V_TUNER L3706 +B4[1.23V] RESET_DEMOD R3798 1K
GND
R3752 220 (BR)TU_BUFFER_VIDEO
ERROR SYNC
B1
120OHM (BR)FULL_NIM C3718 0.1uF 16V (BR)FULL_NIM
B1
A1 12
BR_RESET_DEMOD
SHIELD
close to TUNER
R3801 0
(OPT)(BR)FULL_NIM_D_DEMODE_0 R3802 0
MCLK
(OPT)(BR)FULL_NIM_D_DEMODE_0 R3803 0
R3761
B1
A1
10
(NON_BR)HALF_NIM R3762 2K R3760 10 OPT
DLIF_[N]
C3750 5pF 50V OPT
C3751 5pF 50V OPT
R3780 3.3 OPT
R3782 2K OPT
R3781 3.3 OPT
R3749
Q3703 MMBT3906(NXP) (BR)TU_BUFFER_VIDEO
B
(BR)TU_BUFFER_VIDEO
C
A1 Close to the tuner
IF_P_MSTAR IF_N_MSTAR 1. should be guarded by ground 2. No via on both of them 3. Signal Width >= 12mils Signal to Signal Width = 12mils Ground Width >= 24mils
(OPT)(BR)FULL_NIM_D_DEMODE_0 R3804 0 (OPT)(BR)FULL_NIM_D_DEMODE_0
(EU)3.3V_TU L3707-*1 0
R3801-1* 47
1/8W
+3.3V_TU
L3707 UBW2012-121F
(BR)FULL_NIM_D_DEMODE_47 R3802-1* 47
(NON_EU)3.3V_TU
+1.8V_TUNER
(BR)FULL_NIM_D_DEMODE_47 R3803-*1 47
C3739 10uF 10V OPT
C3737 100pF 50V
R3804-*1 47
C3738 0.1uF 16V
C3705 100uF 16V OPT
C3708 0.1uF 16V
C3707 100pF 50V
C3706 100uF 16V OPT
close to the tuner pin, add,09029
NC_5 NC_6
C3704
100
IF_AGC_MAIN
(NON_BR)HALF_NIM C3716 should be guarded by ground 0.1uF 16V (NON_BR)HALF_NIM
NC_7 NC_8 NC_9 FE_TS_SYNC
NC_10 FE_TS_VAL_ERR
A1
28 SHIELD
CTRL_1
CTRL_2
54MHz~350MHz
1
0
LPF
350Hz~450MHz
0
0
Through
450Hz~870MHz
0
1
HPF
Frequence
E
0
R3750 1K OPT
(BR)FULL_NIM_D_DEMODE_47
NC_4
TU_CVBS
(OPT)(BR)TU_NON_BUFFER_VIDEO
DLIF_[P]
(BR)FULL_NIM R3799 10K
VALID
DATA
0
(NON_BR)HALF_NIM
(BR)FULL_NIM (BR)FULL_NIM C3754 0.1uF 16V
IF_AGC
R3756
FE_TS_CLK
FE_TS_DATA[0]
121118 SS Bead -> SUNLORD Bead Size change,0929 2012 SIZE
TU3704-*1 (OPT)SI2176_TW_2INPUT_H
B
121118 Apply TU_I2C_FILTER
TDSN-T601F
TU3700-*2 TDSS-H501F(B)
Q3705 MMBT3906(NXP) (OPT)(BR)TU_BUFFER_SIF
TU_SDA
C3713 20pF 50V
C3711 20pF 50V
TW_FE_LNA FILTER_SETTING
TUNER MULTI-OPTION
E
R3753 4.7K (OPT)(BR)TU_BUFFER_SIF
TU_SCL
0.1uF 16V (BR)FULL_NIM
(BR)FULL_NIM_D_DEMODE_47
23
(OPT)TW_FE_LNA R3796 2.2K
1
C3701 0.1uF 16V (BR)RF_SW_OPT
(OPT)(BR)TU_BUFFER_SIF R3774 470 (BR)FULL_NIM R3758 82
R3741-*1 1K (ASIA)TU_IIC_NON_ATSC_1K
(BR)FULL_NIM
ERROR
VALID
5
CVBS
8
SYNC
+B1[3.3V]
+B2[1.8V]
7
RESET_DEMOD GND
RF_S/W_CTL
12.08.14 R3732 diagonal noise improve 100
TU_I2C_NON_FILTER
NC_1 NC_2
+3.3V_TU
R3733 100K
close to TUNER
RESET_TUNER
+3.3V_TU R3740-*1 1K (ASIA)TU_IIC_NON_ATSC_1K
TU_GND_A
3
RF_S/W_CTL
TU_GND_A
2
R3740-*2 1.2K (US)TU_IIC_ATSC_1.2K
+3.3V_TU
121118 C3701 : RF_SW_OPT R3705 : 1k -> 0 ohm
TU_GND_A
1
R3741-*2 1.2K (US)TU_IIC_ATSC_1.2K
(EU/ASIA)SI2156_DVB_1INPUT_H
(BR)RF_SW_OPT
TU3703-*1 TDSN-B601F(C)
TU3700 TDSS-G501D(B)
Filter_Type
(US/KR)SI2158_ATSC_1INPUT_H 1 2 3 4
1 2
5
NC_1
6
RESET
7 8
3 4 5 6 7
SCL
9 10
SDA
11
+B1[3.3V]
12 13
NC_2
14
+B2[1.8]
15 16
8 9 10 11
NC_3
17 18
IF_AGC
19
DIF[P]
20 21
DIF[N]
22 23
X
B1
A1
A1 24 25 26
12
27
SHIELD
B1
B1
A1
RF_S/W_CTL
+3.3V_TU
RESET_TUNER
+3.3V_TUNER
SCL SDA +B1[3.3V] SIF +B2[1.8V] CVBS
L3703 UBW2012-121F
60mA
IF_AGC DIF[P] DIF[N]
C3723 22uF 10V
NC_1 NC_2
C3725 0.1uF 16V
C3715 22uF 10V
C3727 0.1uF 16V
NC_3 GND NC_4 NC_5
Add,0929
NC_6 NC_7 NC_8 NC_9 NC_10 NC_11 NC_12 NC_13 NC_14 NC_15 A1
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.
EAX64998104 29MN33 GLOBAL TUNER
2012.11.18 26
12
SCART / COMPONENT&CVBS
121017 Change
SCART AMP
COMP_NON_ADC_FILTER L2807-*1 (OPT)COMP_ADC_FILTER_L 0 L2807 CM2012FR10KT
COMPONENT&CVBS
COMP_Y+/AV_CVBS_IN
ZD2801 5.6B
(OPT)COMP_ADC_FILTER C2830 47pF 50V
(OPT)COMP_ADC_FILTER C2829 47pF 50V
R2822 75
ZD2800 5.6B
+3.3V_Normal
R2837 10K
+5V_USB
R2838 1K AV_CVBS_DET
OPT D2817 5.6V
121017 Change
[GN]E-LUG
C2813 0.1uF 16V
COMP_NON_ADC_FILTER L2806-*1 0 (OPT)COMP_ADC_FILTER_L L2806 CM2012FR10KT
COMP_Pb+ 6A
(OPT)COMP_ADC_FILTER
[GN]O-SPRING
ZD2803 5.6B
JP2810
5A
R2824 75
[GN]CONTACT 4A
JP2811
[BL]E-LUG-S [BL]O-SPRING
121017 Change JP2814
[RD]E-LUG-S
C2821 10uF 16V
R2823 75
(OPT)COMP_ADC_FILTER C2826 47pF 50V
C2825 47pF 50V
[RD]O-SPRING_1
[WH]O-SPRING
4E
[RD]CONTACT_2
5E
[RD]O-SPRING_2
6E
JP2812
R2825 470K
D2815 5.6V
JP2813 D2816 5.6V
[RD]E-LUG
PPJ234-05 JK2800
IN1-
IN1+ R2854 10K
C2811 47pF 50V
8
VCC
2
7
OUT2
130114 33K->5.1K
IN2-
R2853 5.1K
R2846 2.2K DTV/MNT_R_OUT
6
3
5
4
R2850 470K
R2855 10K
IN2+
R2848 5.6K
C2822 10uF 16V
R2849 5.6K
SCART1_Lout
R2842 1K
330pF C2820
COMP_DET
SCART1_Rout
220K R2845 R2843 220K
OPT D2818 5.6V
C2837 1000pF 50V
C2838 1000pF 50V
1
C2824 33pF R2841 10K
COMP_L_IN C2810 R2834 47pF 12K 50V COMP_NON_ADC_FILTER(AUDIO) (OPT)COMP_ADC_FILTER(AUDIO) L2811-*1 (OPT)COMP_ADC_FILTER_L(AUDIO) 0 L2812 R2831 CM2012FR10KT 10K COMP_R_IN
R2826 470K
VEE
+3.3V_Normal
(OPT)COMP_ADC_FILTER_L(AUDIO) L2811 R2832 CM2012FR10KT 10K
4C 5D
R2851 470K
C2823 33pF
JP2815
[RD]CONTACT_1
OUT1
R2852 5.1K
COMP_Pr+ (OPT)COMP_ADC_FILTER ZD2802 5.6B
7C 5C
130114 33K->5.1K
DTV/MNT_L_OUT
COMP_NON_ADC_FILTER (OPT)COMP_ADC_FILTER_L L2805-*1 L2805 0 CM2012FR10KT
7B 5B
R2847 2.2K
(OPT)COMP_ADC_FILTER C2828 47pF 50V
C2827 47pF 50V
C2817 0.1uF 50V
IC2800 AZ4580MTR-E1
C2819 330pF
CLOSE TO MSTAR CLOSE TO MSTAR
R2833 12K COMP_NON_ADC_FILTER(AUDIO) L2812-*1 0
121229 OPT -> APPLY for ESD
OPT: COMP_ADC_FILTER(AUDIO)
121118 Change FET -> OP AMP
+3.3V_Normal
FULL SCART
[SCART AUDIO MUTE] DTV/MNT_L_OUT
SCART1_DET OPT D2810 20V
SCART JACK IC2801 MM1756DURE
SCART JACK R2809 0 SC1_SOG_IN
VCC
6
C2812 0.1uF SCART JACK 1
IN
PS
SC1_CVBS_IN SCART JACK
AV_DET
R2807 75
SCART JACK C2800 47pF 50V
OPT C2802 220pF 50V
OUT
5
2
4
3
ZD2804 5.6B SCART JACK
22 COM_GND 21
121219 OPT->APPLY
D2802 20V
SYNC_GND1 17 RGB_IO
JP2804
R_OUT
JP2805
15 RGB_GND
SB_MUTE
BIAS
SC1_FB (OPT)SCART_ADC_FILTER_L SCART JACK L2808 R2811 CM2012FR10KT 75
16
120927 OPT->APPLY
14
2
C2815 4.7uF SCART JACK
SCART JACK R2816 75 SCART JACK R2815 22
OPT D2809 20V
SCART1_MUTE
A1
SCART JACK D2803 20V
R_GND 13 D2B_OUT 12
SCART JACK (OPT)SCART_ADC_FILTER (OPT)SCART_ADC_FILTER C2831 C2832 R2806 75 47pF 47pF SCART_NON_ADC_FILTER 50V 50V L2808-*1 0 (OPT)SCART_ADC_FILTER_L L2809 CM2012FR10KT
SC1_R+ JP2819
JP2803
SYNC_GND2 18
A2
1 (OPT)EU_SCART mute C2816 0.1uF
JP2818
SYNC_OUT 19
3
JP2817
JP2802
(OPT)EU_SCART mute DTV/MNT_R_OUT R2840 2K (OPT)EU_SCART mute Q2803 MMBT3904(NXP)
JP2816
SYNC_IN 20
(OPT)EU_SCART mute D2819 MMBD6100
(OPT)EU_SCART mute Q2804 MMBT3906(NXP)
C
C2814 0.1uF DTV/MNT_VOUT
GND
(OPT)EU_SCART mute R2844 10K
(OPT)EU_SCART mute R2839 2K
(OPT)EU_SCART mute Q2802 MMBT3904(NXP)
SCART JACK SCART JACK ZD2805 5.6B
+3.3V_ST
+3.3V_Normal
SCART JACK R2808 SCART JACK 4.7K R2810 1K
G_OUT 11 D2B_IN
120927 OPT->APPLY
10
SCART JACK D2804 20V
G_GND
SC1_G+ (OPT)SCART_ADC_FILTER C2834 SCART_NON_ADC_FILTER 47pF L2809-*1 50V 0 (OPT)SCART_ADC_FILTER_L L2810 CM2012FR10KT
(OPT)SCART_ADC_FILTER SCART JACK C2833 R2802 47pF 75 50V
9 ID
JP2800
B_OUT
JP2801
8 7 AUDIO_L_IN
JP2806
6 B_GND 5 AUDIO_GND 4 AUDIO_L_OUT
JP2807
AUDIO_R_IN
JP2808
AUDIO_R_OUT
JP2809
D2805 20V SCART JACK 120927 OPT->APPLY
2 1
OPT D2806 20V
SCART JACK R2804 470K
SC1_ID SCART JACK D2811 20V
SC1_B+ (OPT)SCART_ADC_FILTER C2836 SCART_NON_ADC_FILTER 47pF L2810-*1 50V 0
(OPT)SCART_ADC_FILTER SCART JACK C2835 R2803 47pF 75 50V
3
SCART JACK R2814 15K
SCART JACK (OPT)SCART_ADC_FILTER_L(AUDIO) L2813 SCART_NON_ADC_FILTER(AUDIO)R2812 CM2012FR10KT 10K L2813-*1 0 OPT C2840 C2805 C2839 47pF 330pF 1000pF 50V 50V 50V
SCART JACK R2817 3.9K
SC1_L_IN SCART JACK R2818 12K
(OPT)SCART_ADC_FILTER(AUDIO)
SCART JACK JK2801 PSC008-01 OPT D2808 20V
SCART JACK R2805 470K
SCART JACK (OPT)SCART_ADC_FILTER_L(AUDIO) L2814 R2813 SCART_NON_ADC_FILTER(AUDIO)10K CM2012FR10KT L2814-*1 OPT 0 C2806 C2842 C2841 47pF 330pF 1000pF 50V 50V 50V
SC1_R_IN SCART JACK R2819 12K
(OPT)SCART_ADC_FILTER(AUDIO) 121019 ADC_FILTER(AUDIO) ADD DTV/MNT_L_OUT OPT D2807 20V
C2803 1000pF 50V
OPT C2807 4700pF 130124 OPT->APPLY for EMS S2a DTV/MNT_R_OUT
OPT D2800 20V
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.
C2804 1000pF 50V
OPT C2808 4700pF
EAX64998104 29MN33 SCART&COMP
2012.11.18 28
13
TOTAL LED DRIVER BLOCK REDUCE INDUCTOR TEMP ISSUE +19V
L1101 L2901 33uH
L1102 D1103
D2901 BR210
VOUT#1=53.2V
33uH
33uH
UF3D(SUZHOU GRANDE)
100V C2901 47uF 25V
C2902 10uF 25V
C2903 0.1uF 50V OPT
C2911 33uF 100V C2905 100pF
R2909 220K
R2911 30K
50V
1/16W
1/16W
IC2901 TPS40210DGQR
C2912 C2913 1uF 1uF 100V 100V
C2914 1uF 100V
C2915 1uF 100V
C2916 1uF 100V
REDUCE RIPPLE CURRENT
C2917 1uF 100V REDUCE RIPPLE CURRENT
[EP]
+19V
R1127 100
D
+3.3V_ST
5
6
1/16W 1%
GND
C C2908 1uF 25V
Q2901 MMBT3904(NXP)
C2909 0.1uF 50V
C2910 330pF 50V
1% 1/16W 18K
R2902 10K
R1126 120K
R1100 270K
1/8W 1%
1/8W 1%
OVP C1114 1000pF 50V
R1128 6.2K 1%
NC_1
PGND_1 R1121 100
C2904 0.033uF 50V
E
PGND_2 R1122 100K
WLED_DIM_ADJ
121118 C2906 Change 2012 -> 1608 470pF for cost down 50V R2904
B
S
C1111 100pF 50V
PDIM
121211 1K -> 3.9K 220p -> 330p
RISET
VREF
C1122
1uF 25V
3
22
4
21
5
20
6
19
7
18
8
17
CS
NDRV
RSS
COMP
R1132
R1134
220K 1%
30K 1% C1123
RT
1% BLU_CURRENT_CTL
R1124 47K 1%
R2905 1K
LS8
VOUT = VREF*(1+51K/680) = 0.7 *(1+51K/680) = 53.2V
R1135 C1125
LS1
1.5K 1%0.1uF 25V LS7
9
16
LS2
R1137 0.1 1% 1W
R1131 LS6 R2907 680 1/8W 1%
LS5
33V
10K
1/16W 1%
23
VIN
4700pF 50V
R1123 75K 121118 Change 10V -> 25V for derating
2
S
[EP]GND
24
1 25
1/16W R2914 3.9K
EN
Q2902 AOD478
G
THERMAL
ISNS
C1116 100pF 50V
R1147
7
R2913 3.3
1/16W 1%
4
GDRV
R2912 51K
8
D
NC_2
10
11
12
15
14
13
LS3
39K 1%
LS4
R1133 1.5K 1%
LGND
ZD1102
FB
3
R1129 100K 1%
BP
Q1103 SMK630D
G
IC1100 DT1641AS
1W
COMP
9
1W
16V DIS/EN
MULTI_ON R2901 4.7K
2
WLED_ENABLE
R2916 0.1
SS
VDD
R2915 0.1
1/16W
C2907 0.22uF
11
R2903
10K 1/16W
R2906 10K
10
1 THERMAL
RC
FIRST BOOST UP REDUCE RIPPLE CURRENT C1129 33uF 100V
JP1101
C1130 33uF 100V
P1101 SMAW200-03
3
R1148 1M 1/8W 1%
C1124 33uF 100V
R1149 1M 1/8W 1%
33uF 100V
C1126
R1145 1M 1/8W 1%
C1127 0.1uF 250V
C1128 0.1uF 250V
R1146 1M 1/8W 1%
JP1102
2
1
VOUT#2
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.
EAX64998104 29MN33 LED DRIVER
2012.11.18 29
13