Lg 32sl80yd-Sa Chassis Lj91t Svcmnls
Transcript of Lg 32sl80yd-Sa Chassis Lj91t Svcmnls
LCD TVSERVICE MANUAL
CAUTIONBEFORE SERVICING THE CHASSIS,READ THE SAFETY PRECAUTIONS IN THIS MANUAL.
CHASSIS : LJ91T
MODEL : 32SL80YD 42SL80YD-SA
North/Latin America http://aic.lgservice.comEurope/Africa http://eic.lgservice.comAsia/Oceania http://biz.lgservice.com
Internal Use Only
Printed in KoreaP/NO : MFL61862414 (0911-REV01)
LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. Only for training and service purposes
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CONTENTS
CONTENTS .............................................................................................. 2
PRODUCT SAFETY ..................................................................................3
SPECIFICATION ........................................................................................6
ADJUSTMENT INSTRUCTION ...............................................................14
TROUBLE SHOOTING ............................................................................17
BLOCK DIAGRAM...................................................................................58
EXPLODED VIEW .................................................................................. 59
SVC. SHEET ...............................................................................................
LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. Only for training and service purposes
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SAFETY PRECAUTIONS
Many electrical and mechanical parts in this chassis have special safety-related characteristics. These parts are identified by in theSchematic 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 preventShock, Fire, or other Hazards. Do not modify the original design without permission of manufacturer.
General Guidance
An isolation Transformer should always be used during theservicing of a receiver whose chassis is not isolated from the ACpower line. Use a transformer of adequate power rating as thisprotects the technician from accidents resulting in personal injuryfrom electrical shocks.
It will also protect the receiver and it's components from beingdamaged by accidental shorts of the circuitry that may beinadvertently 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.
Keep wires away from high voltage or high temperature parts.
Before returning the receiver to the customer,
always perform an AC leakage current check on the exposedmetallic parts of the cabinet, such as antennas, terminals, etc., tobe sure the set is safe to operate without damage of electricalshock.
Leakage Current Cold Check(Antenna Cold Check)With the instrument AC plug removed from AC source, connect anelectrical jumper across the two AC plug prongs. Place the ACswitch in the on position, connect one lead of ohm-meter to the ACplug prongs tied together and touch other ohm-meter lead in turn toeach exposed metallic parts such as antenna terminals, phonejacks, etc. If the exposed metallic part has a return path to the chassis, themeasured resistance should be between 1MΩ and 5.2MΩ. When the exposed metal has no return path to the chassis thereading must be infinite.An other abnormality exists that must be corrected before thereceiver is returned to the customer.
Leakage Current Hot Check (See below Figure) Plug the AC cord directly into the AC outlet.
Do not use a line Isolation Transformer during this check.Connect 1.5K/10watt resistor in parallel with a 0.15uF capacitorbetween a known good earth ground (Water Pipe, Conduit, etc.)and the exposed metallic parts.Measure the AC voltage across the resistor using AC voltmeterwith 1000 ohms/volt or more sensitivity.Reverse plug the AC cord into the AC outlet and repeat AC voltagemeasurements for each exposed metallic part. Any voltagemeasured must not exceed 0.75 volt RMS which is corresponds to0.5mA.In case any measurement is out of the limits specified, there ispossibility of shock hazard and the set must be checked andrepaired before it is returned to the customer.
Leakage Current Hot Check circuit
1.5 Kohm/10W
To Instrument’sexposed METALLIC PARTS
Good Earth Groundsuch as WATER PIPE,CONDUIT etc.
AC Volt-meter
When 25A is impressed between Earth and 2nd Groundfor 1 second, Resistance must be less than 0.1*Base on Adjustment standard
IMPORTANT SAFETY NOTICE
0.15uF
Ω
LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. Only for training and service purposes
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CAUTION: Before servicing receivers covered by this servicemanual and its supplements and addenda, read and follow theSAFETY PRECAUTIONS on page 3 of this publication.NOTE: If unforeseen circumstances create conflict between thefollowing servicing precautions and any of the safety precautions onpage 3 of this publication, always follow the safety precautions.Remember: Safety First.
General Servicing Precautions1. 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 polarityinstallation of electrolytic capacitors may result in anexplosion hazard.
2. Test high voltage only by measuring it with an appropriate highvoltage 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 itsassemblies.
4. Unless specified otherwise in this service manual, cleanelectrical contacts only by applying the following mixture to thecontacts with a pipe cleaner, cotton-tipped stick or comparablenon-abrasive applicator; 10% (by volume) Acetone and 90% (byvolume) isopropyl alcohol (90%-99% strength)CAUTION: This is a flammable mixture.Unless specified otherwise in this service manual, lubrication ofcontacts in not required.
5. Do not defeat any plug/socket B+ voltage interlocks with whichreceivers covered by this service manual might be equipped.
6. Do not apply AC power to this instrument and/or any of itselectrical assemblies unless all solid-state device heat sinks arecorrectly installed.
7. Always connect the test receiver ground lead to the receiverchassis ground before connecting the test receiver positivelead.Always remove the test receiver ground lead last.
8. Use with this receiver only the test fixtures specified in thisservice manual.CAUTION: Do not connect the test fixture ground strap to anyheat sink in this receiver.
Electrostatically Sensitive (ES) DevicesSome semiconductor (solid-state) devices can be damaged easilyby static electricity. Such components commonly are calledElectrostatically Sensitive (ES) Devices. Examples of typical ESdevices are integrated circuits and some field-effect transistors andsemiconductor "chip" components. The following techniquesshould be used to help reduce the incidence of componentdamage caused by static by static electricity.1. Immediately before handling any semiconductor component or
semiconductor-equipped assembly, drain off any electrostaticcharge on your body by touching a known earth ground.Alternatively, obtain and wear a commercially availabledischarging wrist strap device, which should be removed toprevent potential shock reasons prior to applying power to the
unit under test.2. After removing an electrical assembly equipped with ES
devices, place the assembly on a conductive surface such asaluminum foil, to prevent electrostatic charge buildup orexposure of the assembly.
3. Use only a grounded-tip soldering iron to solder or unsolder ESdevices.
4. Use only an anti-static type solder removal device. Some solderremoval devices not classified as "anti-static" can generateelectrical charges sufficient to damage ES devices.
5. Do not use freon-propelled chemicals. These can generateelectrical charges sufficient to damage ES devices.
6. Do not remove a replacement ES device from its protectivepackage until immediately before you are ready to install it.(Most replacement ES devices are packaged with leadselectrically shorted together by conductive foam, aluminum foilor comparable conductive material).
7. Immediately before removing the protective material from theleads of a replacement ES device, touch the protective materialto the chassis or circuit assembly into which the device will beinstalled.CAUTION: Be sure no power is applied to the chassis or circuit,and observe all other safety precautions.
8. Minimize bodily motions when handling unpackagedreplacement ES devices. (Otherwise harmless motion such asthe brushing together of your clothes fabric or the lifting of yourfoot from a carpeted floor can generate static electricitysufficient to damage an ES device.)
General Soldering Guidelines1. Use a grounded-tip, low-wattage soldering iron and appropriate
tip size and shape that will maintain tip temperature within therange or 500°F to 600°F.
2. Use an appropriate gauge of RMA resin-core solder composedof 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 wire-
bristle (0.5 inch, or 1.25cm) brush with a metal handle.Do not use freon-propelled spray-on cleaners.
5. Use the following unsoldering techniquea. 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, suction-
type solder removal device or with solder braid.CAUTION: Work quickly to avoid overheating the circuitboard 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 thereonly until the solder flows onto and around both thecomponent lead and the foil.CAUTION: Work quickly to avoid overheating the circuitboard printed foil.
d. Closely inspect the solder area and remove any excess orsplashed solder with a small wire-bristle brush.
SERVICING PRECAUTIONS
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IC Remove/ReplacementSome chassis circuit boards have slotted holes (oblong) throughwhich the IC leads are inserted and then bent flat against thecircuit foil. When holes are the slotted type, the following techniqueshould be used to remove and replace the IC. When working withboards using the familiar round hole, use the standard techniqueas outlined in paragraphs 5 and 6 above.
Removal1. Desolder and straighten each IC lead in one operation by gently
prying up on the lead with the soldering iron tip as the soldermelts.
2. Draw away the melted solder with an anti-static suction-typesolder removal device (or with solder braid) before removing theIC.
Replacement1. 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 TransistorRemoval/Replacement1. 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" withlong nose pliers to insure metal to metal contact then soldereach connection.
Power Output, Transistor DeviceRemoval/Replacement1. 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/Replacement1. 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 ifnecessary, apply additional solder.
Fuse and Conventional ResistorRemoval/Replacement1. 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.
CAUTION: Maintain original spacing between the replacedcomponent and adjacent components and the circuit board toprevent excessive component temperatures.
Circuit Board Foil RepairExcessive heat applied to the copper foil of any printed circuitboard will weaken the adhesive that bonds the foil to the circuitboard causing the foil to separate from or "lift-off" the board. Thefollowing guidelines and procedures should be followed wheneverthis condition is encountered.
At IC ConnectionsTo repair a defective copper pattern at IC connections use thefollowing procedure to install a jumper wire on the copper patternside of the circuit board. (Use this technique only on ICconnections).
1. Carefully remove the damaged copper pattern with a sharpknife. (Remove only as much copper as absolutely necessary).
2. carefully scratch away the solder resist and acrylic coating (ifused) from the end of the remaining copper pattern.
3. Bend a small "U" in one end of a small gauge jumper wire andcarefully crimp it around the IC pin. Solder the IC connection.
4. Route the jumper wire along the path of the out-away copperpattern and let it overlap the previously scraped end of the goodcopper pattern. Solder the overlapped area and clip off anyexcess jumper wire.
At Other ConnectionsUse the following technique to repair the defective copper patternat connections other than IC Pins. This technique involves theinstallation of a jumper wire on the component side of the circuitboard.
1. Remove the defective copper pattern with a sharp knife.Remove at least 1/4 inch of copper, to ensure that a hazardouscondition will not exist if the jumper wire opens.
2. Trace along the copper pattern from both sides of the patternbreak and locate the nearest component that is directlyconnected to the affected copper pattern.
3. Connect insulated 20-gauge jumper wire from the lead of thenearest component on one side of the pattern break to the leadof the nearest component on the other side.Carefully crimp and solder the connections.CAUTION: Be sure the insulated jumper wire is dressed so theit does not touch components or sharp edges.
LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. Only for training and service purposes
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SPECIFICATIONNOTE : Specifications and others are subject to change without notice for improvement.
4. Electrical specification4.1 General Specification
1. Application rangeThis specification is applied to the LCD TV used LJ91Tchassis.
2. Requirement for TestEach part is tested as below without special appointment.
1) Temperature : 25±5ºC (77±9ºF), CST : 40±5ºC2) Relative Humidity : 65±10%3) Power Voltage : Standard input voltage(100~240V@50/60Hz)
* Standard Voltage of each products is marked by models.4) Specification and performance of each parts are followed
each drawing and specif ication by part number inaccordance with BOM.
5) The receiver must be operated for about 5 minutes prior tothe adjustment.
3. Test method1) Performance: LGE TV test method followed 2) Demanded other specification
- Safety: CE, IEC specification- EMC: CE, IEC specification
No Item Specification Remark 1. Receiving System 1) SBTVD / NTSC / PAL-M / PAL-N 2. Available Channel 1) VHF : 02~13
2) UHF : 14~69 3) DTV : 02-69 4) CATV : 01~135
3. Input Voltage 1) AC 100 ~ 240V 50/60Hz Mark : 110V, 60Hz 4. Market Cent
32 inch Wide(1920x1080)42 inch Wide(1920x1080)47 inch Wide(1920x1080)55 inch Wide(1920x1080)
LC320WUD-SBA1(Vitaz 4)LC420WUD-SBT1(Vitaz 4)LC470WUD-SAT1(Vitaz 4)
32SL80YD-SA42SL80YD-SA47SL80YD-SA55SL80YD-SA
32LH70YD-SH42LH70YD-SE47LH70YD-SE
ral and South AMERICA
5. Screen Size
6. Aspect Ratio 16:9 7. Tuning System FS 8. Module
9. Operating Environment 1) Temp : 0 ~ 40 deg
2) Humidity : ~ 80 %
10. Storage Environment 1) Temp : -20 ~ 60 deg 2) Humidity : ~ 85 %
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5. Chromiance & Luminance spec.
No Item Min Typ Max Unit Remark Module cd/m21. Max Luminance
(Center 1-point / Full White Pattern)
Set
480(TBD) 540(TBD) 32SL80YD-SA
42SL80YD-SA
47SL80YD-SA
55SL80YD-SA
32SL80YD-SA
32SL80YD-SA
42SL80YD-SA
42SL80YD-SA
47SL80YD-SA
47SL80YD-SA
55SL80YD-SA
55SL80YD-SA
cd/m2470(TBD) 590(TBD)
cd/m2480 600
cd/m2400 500cd/m2400 450cd/m2400 500cd/m2400 500
cd/m2480 600
2. 3.
Luminance uniformity 77 % Full white 0.6380.3344.
5.
RED
0.2910.607
6. 7.
GREEN
0.145 0.062
8. 9.
BLUE
0.279 10.
Color coordinate
WHITE
Y X
Y X
Y X
Y X
Typ. -0.03
0.292
Typ. +0.03
0.6380.334
RED
0.2900.606
GREEN
0.144 0.064
BLUE
0.279 WHITE
Y X
Y X
Y X
Y X
Typ. -0.03
0.292
Typ. +0.03
0.6360.334
RED
0.2900.608
GREEN
0.145 0.064
BLUE
0.279 WHITE
Y X
Y X
Y X
Y X
Typ. -0.03
0.292
Typ. +0.03
0.6370.333
RED
0.2870.605
GREEN
0.145 0.064
BLUE
0.279 WHITE
Y X
Y X
Y X
Y X
Typ. -0.03
0.292
Typ. +0.03
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6. Component Input (Y, CB/PB, CR/PR)
No Resolution H-freq(kHz) V-freq.(kHz) Pixel clock Proposed 1. 720*480 15.73 60 13.5135 SDTV ,DVD 480I 2. 720*480 15.73 59.94 13.5 SDTV ,DVD 480I 3. 720*480 31.47 60 27.027 SDTV 480P 4. 720*480 31.47 59.94 27.0 SDTV 480P 5. 1280*720 45.00 60.00 74.25 HDTV 720P 6. 1280*720 44.96 59.94 74.176 HDTV 720P 7. 1920*1080 33.75 60.00 74.25 HDTV 1080I8. 1920*1080 33.72 59.94 74.176 HDTV 1080I9. 1920*1080 67.500 60 148.50 HDTV 1080P10. 1920*1080 67.432 59.939 148.352 HDTV 1080P11. 1920*1080 27.000 24.000 74.25 HDTV 1080P12. 1920*1080 26.97 23.94 74.176 HDTV 1080P13. 1920*1080 33.75 30.000 74.25 HDTV 1080P14. 1920*1080 33.71 29.97 74.176 HDTV 1080P 15. 1920*1080 56.25 50.000 148.5 HDTV 1080P
16. 1920*1080 28.125 25.000 74.25 HDTV 1080P
11. 12.
Color coordinate uniformity N/A 800:1 1200:1 Contrast ratio 40000:1(DCR)
50000:1(DCR)
32SL80YD-SA
1000:1 1200:1 40000:1(DCR)
50000:1(DCR)
42SL80YD-SA
800:1 1200:1 40000:1(DCR)
50000:1(DCR)
47SL80YD-SA
900:1 1300:1 40000:1(DCR)
50000:1(DCR)
55SL80YD-SA
Cool-0.015Typ. 0.269
0.273 Typ.+0.015
Standard-0.015Typ.
Typ.
0.285 0.293
Typ.+0.015
13. Color Temperature
Warm-0.015
0.313 0.329
Typ.+0.015
<Test Condition> 85% Full white pattern ** The W/B Tolerance is –0.015 for AdjustmentDynamic contrast : off Dynamic color : off OPC : off
14. Color Distortion, DG 10.0 % 15. Color Distortion, DP 10.0 deg 16. Color S/N, AM/FM 43.0 dB 17. Color Killer Sensitivity -80 dBm
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7. RGB Input (PC)
No Resolution H-freq(kHz) V-freq.(Hz) Pixel clock(MHz) Proposed PC DDC1. 640*350 31.468 70.09 25.17 EGA X
OOOOOOOOOO
2. 720*400 31.469 70.08 28.32 DOS 3. 640*480 31.469 59.94 25.17 VESA(VGA) 4. 800*600 35.156 56.25 36.00 VESA(SVGA)5. 800*600 37.879 60.31 40.00 VESA(SVGA)6. 1024*768 48.363 60.00 65.00 VESA(XGA) 7. 1280*768 47.776 59.870 79.5 CVT(WXGA) 8. 1360*768 47.712 60.015 85.50 VESA (WXGA) 9. 1280*1024 63.981 60.020 108.00 VESA 10. 1600*1200 75.00 60.00 162 VESA (UXGA) 11 1920*1080 67.5 60 148.5 HDTV 1080P
** RGB PC Monitor Range Limits- Min Vertical Freq - 56 Hz - Max Vertical Freq - 62 Hz - Min Horiz. Freq - 30 kHz - Max Horiz. Freq - 80 kHz - Pixel Clock - 170 MHz
8. HDMI Input (PC/DTV)
No Resolution H-freq(kHz) V-freq.(Hz) Pixel clock(MHz) Proposed PC DDC1 640*350 31.468 70.09 25.17 EGA X
OOOOOOO
OOO
2 720*400 31.469 70.08 28.32 DOS 3 640*480 31.469 59.94 25.17 VESA(VGA) 4 800*600 35.156 56.25 36.00 VESA(SVGA) 5 800*600 37.879 60.31 40.00 VESA(SVGA) 6 1024*768 48.363 60.00 65.00 VESA(XGA) 7 1280*768 47.776 59.870 79.5 CVT(WXGA) 8 1360*768 47.712 60.015 85.50 VESA (WXGA) 9 1280*1024 63.981 60.020 108.00 VESA (SXGA) 10 1600*1200 75.00 60.00 162 VESA (UXGA) 11 1920*1080 66.587 59.934 138.5 HDTV 1080P DTV 1 720*480 31.47 60 27.027 SDTV 480P 2 720*480 31.47 59.94 27.00 SDTV 480P 3 1280*720 45.00 60.00 74.25 HDTV 720P 4 1280*720 44.96 59.94 74.176 HDTV 720P 5 1920*1080 33.75 60.00 74.25 HDTV 1080I 6 1920*1080 33.72 59.94 74.176 HDTV 1080I 7 1920*1080 67.500 60 148.50 HDTV 1080P 8 1920*1080 67.432 59.939 148.352 HDTV 1080P 9 1920*1080 27.000 24.000 74.25 HDTV 1080P 10 1920*1080 26.97 23.94 74.176 HDTV 1080P 11 1920*1080 33.75 30.000 74.25 HDTV 1080P 12 1920*1080 33.71 29.97 74.176 HDTV 1080P 17. 1920*1080 56.25 50.000 148.5 HDTV 1080P 18. 1920*1080 28.125 25.000 74.25 HDTV 1080P
** HDMI Monitor Range Limits- Min Vertical Freq - 56 Hz - Max Vertical Freq - 62 Hz - Min Horiz. Freq - 30 kHz - Max Horiz. Freq - 80 kHz - Pixel Clock - 170 MHz
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9. Consignment Setting (OUTGOING CONDITION)
No Item Condition 1. Input Mode TV02CH 2. Volume Level 10 3. Mute Off 4. Aspect Ratio 16:9 5. System Color PAL-M 6 Booster On
Picture Mode Vivid BacklightContrastBrightnessSharpnessColor 70
70
0
0
10010050
TintColor Temperature Cool
7. Picture
Picture Reset Sound Mode Standard Auto Volume Off Clear Voice Off SRS TruSurround XT Off Balance
8. Audio
TV Speaker On
On
Clock Auto9. Time Off Timer / On Timer Sleep Timer / Auto Sleep
Off
Language (Menu/Audio) Portugues SimpLinkKey Lock Off
Off Caption
10. Option
Set ID 1 11. Channel Memory RF : 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13,
14, 30, 51, 63 CATV : 15, 16, 17
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10. Mechanical Specification
1. Product Dimension
No. Item Content Unit Remark Width (W) Length (D) Height (H) mm
550.2764.8 224.8
764.8 49.8
910 137
mm With Stand
W/O Stand
W/O Stand
W/O Stand
W/O Packing
W/O Packing
With Packing
With Packing
490.4 mm
488 mm
mm
With Stand
12.9 With Stand
11.22. Product
Weight
15 Kg
Kg
W/O Stand Kg
Kg
With Stand
32SL80YD-SA
1. Product Dimension
No. Item Content Unit Remark Width (W) Length (D) Height (H) mm
689.71001.2 261
1001.2 45
910 228
mm With Stand
W/O Stand
W/O Stand
W/O Stand
W/O Packing
W/O Packing
With Packing
With Packing
623.2 mm
770 mm
mm
With Stand
21 With Stand
18.72. Product
Weight
22.5 Kg
Kg
W/O Stand Kg
Kg
With Stand
42SL80YD-SA
1. Product Dimension
No. Item Content Unit Remark Width (W) Length (D) Height (H) mm
751.71109.6 320.2
1109.6 45.5
1195.0 253.0
mm With Stand
W/O Stand
W/O Stand
W/O Stand
W/O Packing
W/O Packing
With Packing
With Packing
685.3 mm
860.0 mm
mm
With Stand
TBD With Stand
23.62. Product
Weight
TBD Kg
Kg
W/O Stand Kg
Kg
With Stand
47SL80YD-SA
1. Product Dimension
No. Item Content Unit Remark Width (W) Length (D) Height (H) mm
854.31279 320.2
1279 45.5
1395 464
mm With Stand
W/O Stand
W/O Stand
W/O Stand
W/O Packing
W/O Packing
With Packing
With Packing
780.5 mm
965 mm
mm
With Stand
35.2 With Stand
32.02. Product
Weight
39 Kg
Kg
W/O Stand Kg
Kg
With Stand
55SL80YD-SA
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- 12 -
ADJUSTMENT INSTRUCTION
1. Application Range
This specification sheet is applied all of the LJ91T LCD TVmodels, which produced in manufacture department or similarLG TV factory.
2. Notice
1) Because this is not a hot chassis, it is not necessary to usean isolation transformer. However, the use of isolationtransformer will help protect test instrument.
2) Adjustment must be done in the correct order. But it isflexible when its factory local problem occurs. .
3) The adjustment must be performed in the circumstance of25 ±5°C of temperature and 65±10% of relative humidity ifthere is no specific designation.
4) The input voltage of the receiver must keep 100~220V,50/60Hz.
5) Before adjustment, execute Heat-Run for 5 minutes.
• After Receive 100% Full white pattern (06CH) then processHeat-run
(or “8. Test pattern” condition of Ez-Adjust status) • How to make set white pattern
1) Press Power ON button of Service Remocon 2) Press ADJ button of Service remocon. Select “8. Test
pattern” and, after select “White” using navigation button,and then you can see 100% Full White pattern.
* In this status you can maintain Heat-Run useless anypattern generator
* Notice: if you maintain one picture over 20 minutes(Especially sharp distinction black with white pattern –13Ch, or Cross hatch pattern – 09Ch) then it can appearimage stick near black level.
3. Adjustment Items
3.1 PCB Assembly adjustment • CPLD DOWNLOAD• Adjust 480i Comp1 • Adjust 1080p Comp1/RGB
- If it is necessary, it can adjustment at Manufacture Line - You can see set adjustment status at “1. ADJUST
CHECK” of the “In-start menu”
3.2 Set Assembly Adjustment • EDID (The Extended Display Identification Data ) / DDC
(Display Data Channel) download • Color Temperature (White Balance) Adjustment • Make sure RS-232C control • Selection Factory output option
4. PCB Assembly Adjustment
4.1. CPLD DOWNLOAD : JTAG MODE
4.2. << PRINT PORT >> PIN MAP
Pin JTAG Mode Signal Name
2 TCK
3 TMS
8 TDI
11 TDO
13 -
15 VCC
18 TO 25 GND
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4.3. << 10P WAFER >> PIN MAP
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4.4. Using RS-232C Adjust 3 items at 3.1 PCB assembly adjustments “4.1.3
sequence” one after the order.
O Adjustment protocol
See ADC Adjustment RS232C Protocol_Ver1.0
O Adjustment protocol- Pattern Generator : (MSPG-925FA)- Adjust 480i Comp1 (MSPG-925FA : model :209 , pattern
: 65)- Adjust 1080p Comp1/RGB(MSPG-925FA:model : 225 ,
pattern : 65)- Adjust RGB (MSPG-925FA:model :225 , Pattern :65) –
RGB-PC Mode
* If you want more information then see the below Adjustmentmethod (Factory Adjustment)
O Adjustment sequence- ad 00 00 : Enter the ADC Adjustment mode.- xb 00 40: Change the mode to Component1 (No actions) - ad 00 10: Adjust 480i Comp- ad 00 10: Adjust 1080p Comp - xb 00 60: Change to RGB-PC mode(No action) - ad 00 10: Adjust 1080p RGB- ad 00 90: End of the adjustment
Order Command Set response
1. Inter the ad 00 00 d 00 OK00x
Adjustment mode
2. Change the kb 00 40 b 00 OK40x (Adjust 480i Comp1/1080p Comp1)
Source kb 00 60 b 00 OK60x (Adjust 1080p RGB)
3.Start Adjustment ad 00 10
4.Return the OKx ( Success condition )
Response NGx ( Failed condition )
5.Read (main) (main : component1 480i, RGB 1080p)
Adjustment data ad 00 20 000000000000000000000000007c007b006dx
(main) (main : component1 1080p)
ad 00 30 000000070000000000000000007c00830077x
6.Confirm ad 00 99 NG 03 00x (Failed condition)
Adjustment NG 03 01x (Failed condition)
NG 03 02x (Failed condition)
OK 03 03x (Success condition)
7. End of Adjustment ad 00 90 d 00 OK90x
LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. Only for training and service purposes
- 15 -
5. Factory Adjustment
5.1 Manual Adjust Component 480i/1080pRGB 1080p
O Summary : Adjustment component 480i/1080i and RGB1080p is Gain and Black levelsetting at Analogto Digital converter, and compensate the RGBdeviation
O Using instrument- Adjustment remocon, 801GF(802B, 802F, 802R) or
MSPG925FA pattern generator (It can output 480i/1080ihorizontal 100% color bar pattern signal, and its outputlevel must setting 0.7V±0.1V p-p correctly)
<Pic.4 Adjustment pattern : 480i / 1080p 60Hz Pattern >
* You must make it sure its resolution and pattern cause everyinstrument can have different setting
O Adjustment method 480i Comp1, Adjust 1080pComp1/RGB (Factory adjustment)• ADC 480i Component1 adjustment- Check connection of Component1 - MSPG-925FA Ë Model: 209, Pattern 65• Set Component 480i mode and 100% Horizontal Color
Bar Pattern(HozTV31Bar), then set TV set toComponent1 mode and its screen to “NORMAL”
• ADC 1080p Component1 / RGB adjustment - Check connection both of Component1 and RGB - MSPG-925FA Model: 225, Pattern 65
• Set Component 1080p mode and 100% Horizontal ColorBar Pattern(HozTV31Bar), then set TV set toComponent1 mode and its screen to “NORMAL”
• After get each the signal, wait more a second and enterthe “IN-START” with press IN-START key of Serviceremocon. After then select “7. External ADC” withnavigator button and press “Enter”.
• After Then Press key of Service remocon “RightArrow(VOL+)”
• You can see “ADC Component1 Success” • Component1 1080p, RGB 1080p Adjust is same
method. • Component 1080p Adjustment in Component1 input
mode• RGB 1080p adjustment in RGB input mode• If you success RGB 1080p Adjust. You can see “ADC
RGB-DTV Success”
5.2 EDID (The Extended DisplayIdentification Data) / DDC (Display DataChannel) Download.
O Summary• It is established in VESA, for communication between
PC and Monitor without order from user for building usercondition. It helps to make easily use realize “Plug andPlay” function.
• For EDID data write, we use DDC2B protocol.
O Auto Download• After enter Service Mode by pushing “ADJ” key,• Enter EDID D/L mode.• Enter “START” by pushing “OK” key.
Caution: - Never connect HDMI & D-sub Cable when the userdownloading .
- Use the proper cables below for EDID Writing.
- 16 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. Only for training and service purposes
O Manual Download • Write HDMI EDID data
- Using instruments => Jig. (PC Serial to D-Sub connection) for PC, DDC
adjustment. => S/W for DDC recording (EDID data write and
read) => D-sub jack => Additional HDMI cable connection Jig.
- Preparing and setting. => Set instruments and Jig. Like pic.5), then turn on
PC and Jig. => Operate DDC write S/W (EDID write & read)=> It will operate in the DOS mode.
Pic.3) For write EDID data, setting Jig and another instruments.
• EDID data for LJ91D Chassis (Model name = LG TV)- HDMI-1 EDID table (0x3D, 0x2C)
- HDM2 EDID table (0x3D, 0x1C)
- HDMI-3 EDID table (0x3D, 0x0C)
- Analog (RGB) EDID table (0x9B, 0x25)
See Workig Guide of you want more information about EDIDcommunication.
PCVSC
B/D
Edid data and Model option download (RS232)
NO Item CMD 1 CMD 2 Data 0
Enter download MODE
Download Mode In A E 0 0
When transfer the ’Mode In’ ,Carry the command.
Edid data and Model option
download Download A E *Note1 *Note2
Automatically download
(The use of a internal Data)
Adjust Mode Out A E 9 0
Adjustment
Confirmation A E 9 9 To check Download on Assembly line.
5.3 Adjustment Color Temperature(White balance)
O Using Instruments• Color Analyzer: CA-210 (CH 9)
- Using LCD color temperature, Color Analyzer (CA-210)must use CH 9, which Matrix compensated (White, Red,Green, Blue compensation) with CS-2100. See theCoordination bellowed one.
• Auto-adjustment Equipment (It needs when Auto-adjustment – It is availed communicate with RS-232C :Baud rate: 115200)
• Video Signal Generator MSPG-925F 720p, 216Gray(Model: 217, Pattern 78)
O Connection Diagram (Auto Adjustment)• Using Inner Pattern
• Using HDMI input
<Pic.5 Connection Diagram for Adjustment White balance> .
O White Balance Adjustment If you can’t adjust with inner pattern, then you can adjustit using HDMI pattern. You can select option at "Ez-AdjustMenu – 7. White Balance" there items "NONE, INNER,HDMI". It is normally setting at inner basically. If you can’tadjust using inner pattern you can select HDMI item, andyou can adjust.
In manual Adjust case, if you press ADJ button of serviceremocon, and enter "Ez-Adjust Menu – 7. WhiteBalance", then automatically inner pattern operates. (Incase of "Inner" originally "Inner" will be selected.
• Connect all cables and equipments like Pic.5)• Set Baud Rate of RS-232C to 115200. It may set
115200 orignally.• Connect RS-232C cable to set• Connect HDMI cable to set
¢ RS-232C Command (Commonly apply)
wb 00 00 White Balance adjustment start.wb 00 10 Start of adjust gain (Inner white
pattern)wb 00 1f End of gain adjustwb 00 20 Start of offset adjust(Inner white
pattern)wb 00 2f End of offset adjustwb 00 ff End of White Balance adjust(Inner
pattern disappeared)
• "wb 00 00": Start Auto-adjustment of white balance.• "wb 00 10": Start Gain Adjustment (Inner pattern) • "jb 00 c0" : • …• "wb 00 1f": End of Adjustment
* If it needs, offset adjustment (wb 00 20-start, wb 002f-end)
• "wb 00 ff": End of white balance adjustment (innerpattern disappear)
- 17 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. Only for training and service purposes
C A -100+
C O L O R
A N A L Y Z E R
T Y PE ; C A -100+
F u l l W h i t e Pat t er n
R S-232C
- 18 - LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. Only for training and service purposes
O White Balance Adjustment (Manual adjustment)• Test Equipment: CA-210
- Using LCD color temperature, Color Analyzer (CA-210) must use CH 9, which Matrix compensated(White, Red, Green, Blue compensation) with CS-2100. See the Coordination bellowed one.
• Manual adjustment sequence is like bellowed one.- Turn to "Ez-Adjust" mode with press ADJ button of
service remocon.- Select "10.Test Pattern" with CH+/- button and press
enter. Then set will go on Heat-run mode. Over 30minutes set let on Heat-run mode.
- Let CA-210 to zero calibration and must has gap more10cm from center of LCD module when adjustment.
- Press "ADJ" button of service remocon and select"7.White-Balance" in "Ez-Adjust" then press ""button of navigation key.
(When press "" button then set will go to full whitemode)
- Adjust at three mode (Cool, Medium, Warm)- If "cool" mode Let B-Gain to 192 and R, G, B-Cut to 64 and thencontrol R, G gain adjustment High Light adjustment.
- If "Medium" and "Warm" mode Let R-Gain to 192 and R, G, B-Cut to 64 and thencontrol G, B gain adjustment High Light adjustment.
- All of the three modeLet R-Gain to 192 and R, G, B-Cut to 64 and thencontrol G, B gain adjustment High Light adjustment.
- With volume button (+/-) you can adjust.- After all adjustment finished, with Enter ( key) turn
to Ez-Adjust mode. Then with ADJ button, exit fromadjustment mode
Attachment: White Balance adjustment coordination and colortemperature.
O Using CS-1000 Equipment. - COOL : T=11000K, uv=0.000, x=0.276 y=0.283
- MEDIUM : T=9300K, uv=0.000, x=0.285 y=0.293
- WARM : T=6500K, uv=0.000, x=0.313 y=0.329
5.4 EYE-Q Function check. 1) Turn on TV2) Press EYE Key of Adj R/C3) Cover the Eye Q II sensor on the front of the using your
hand and wait for 6 seconds4) Confirm that R/G/B va;ie os ;pwer tjam 10 of the ‘Raw
Data (Sensor data, Back light)”. If after 6 seconds, R/G/Bvalue is not lower than 10, re[;ace EYE Q II sensor.
5) Remove your hand from the EYE Q II sensor and wait for6 sencond
6) Confirm that “OK” pop up.If change is not seen, replace EYE Q II sensor
5.5 Test of RS-232C control Press IN-Start button of service remocon then set the “4.Baudrate” to 15200, Then check RS-232C control and
5.6 Selection of Country option. Selection of country option is allowed only North American model(Not allowed Korean model). It is selection of Country aboutRating and Time Zone.
• Models: All models which use LA75A Chassis (See the firstpage.)
• Press “In-Start” button of Service Remocon, then enter the“Option” Menu with “PIP CH-“ Button
• Select one of these three (USA, CANADA, MEXICO)defends on its market using “Vol. +/-“button.
* Caution : Don’t push The Instop Key ater completing thefunction inspection.
5.7 Check the Ginga(Data Broadcasting)
1) Turn on TV2) Press the OK Button on the ADJ R/C
3) Check the Ginga icon
LGE Internal Use OnlyCopyright LG Electronics. Inc. All right reserved. Only for training and service purposes
-17 -
300
200
LV1
LV2
200T
200N
500
510
A2
A10
310
120
121
600
610
801
804
805 53
054
0
806
803
807
802
550
910
A7
400
521 81
0
520
580
900
EXPLODED VIEW
Many electrical and mechanical parts in this chassis have special safety-related characteristics. Theseparts 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 asrecommended in this manual to prevent X-RADIATION, Shock, Fire, or other Hazards. Do not modify the original design without permission of manufacturer.
IMPORTANT SAFETY NOTICE
Fiber Optic
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009. 03. 23
IN - OUT
BCM (BRAZIL VENUS)
R11454.7K
R11470
C1147220pF
50V
L1108-*1
BG1608B121F RGB_BEAD
RGB_VSYNC3:T14
ZD1147
5.1V
JK1105
JST1223-001
1
GND
2
VCC
3
VINPUT
4
FIX_POLE
IR3:T11
RS232C_RxD 3:T12
C11380.1uF50V
+5V_ST
L1110-*1
BG1608B121F RGB-BEAD
DDC_SDA3:T17
L11080
+5V_ST
ZD1153
5.1V
R1126
1K
R1168220
RGB_HSYNC3:T14
PC_R_IN
3:T13
C114447pF50V
C1152100pF50V
ZD1150
5.1V
R11620
OPT
IC1101
MAX3232CDR
3C1-
2V+
4C2+
1C1+
6V-
5C2-
7DOUT2
8RIN2 9 ROUT2
10 DIN2
11 DIN1
12 ROUT1
13 RIN1
14 DOUT1
15 GND
16 VCC
R1139
0
R1161100KUS_Commercial
R1138
0
L1107BLM18PG121SN1D
R11540
C114947pF50V
C1142
0.1uF
D3.3V
R1133
470K
R11653.3K
US_Commercial
C11390.47uF25V
C1133
1uF25V
ZD1152
5.1V
ZD1144
5.1V
R1148100OPT
L11100
R1149100OPT
ZD1148
5.1V
EDID_WP3:T16
R114322
SPDIF_OUTG4;3:T12
ZD1151
5.1V
R1153
4.7K
ZD1143
5.1V
C1153
4700pF
50V
PC_L_IN
3:T13
D1106
5.6VADMC5M03200L
R11181K
C1148220pF
50V
+5V
ZD1146
5.1V
+5V_ST
C114347pF50V
R116322
R115510K
OPT
C11290.1uF50V
R11444.7K
C1134
1uF25V
ZD1145
5.6BOPT
+5V
C11410.47uF25V
ZD1149
5.1V
ZD1155
5.1V
DSUB_G3:T15
R1156
4.7K
DDC_SCL3:T17
D1104
5.6VADMC5M03200L
D1102
30VADUC30S03010L
ZD1101
5.1V
R11640
R1141100
R1132
470K
R11583.3K
OPT
R1140100
DSUB_R3:T16
R115910K
OPT
R11701K
Q11012SC3052
OPT E
B
C
ZD1154
5.1V
R1101
10K
RS232C_TxD 3:T12
ZD1102
5.1V
C1151
0.1uF
50V
COMP1_DET
3:T21
R11660
C1101100pF
50V
D3.3V
C11460.1uF50V
L1109-*1
BG1608B121F RGB_BEAD
R11460
R1167220
D1101
30VADUC30S03010L
R116910K
DSUB_DET3:T16
D1105
5.6VADMC5M03200L
IC1103M24C02-RMN6T
3E2
2E1
4VSS
1E0
5SDA
6SCL
7WC
8VCC
+5V
ZD1142
5.1V
R114222
IC1102
74F08D
3Q0
2D0B
4D1A
1D0A
6Q1
5D1B
7GND
8Q2
9D2A
10
D2B
11
Q3
12
D3A
13
D3B
14
VCC
+5V_ST
R1160100K
US_Commercial
DSUB_B3:T15
Q11022SC3052US_Commercial
E
B
C
ZD1141
5.1V
C11400.47uF25V
D1103ENKMC2838-T112
A1
C
A2
C115047pF50V
R115722
L1109
0
C114547pF50V
L1101CM2012FR27KT
C110327pF50V
ZD1103
5.1V
COMP1_Y_IN
3:T21R1123
15
C111627pF50V
ZD1104
5.1V
ZD1106
5.1V
R112415
L1102CM2012FR27KT
C110427pF50V
COMP1_Pb_IN
3:T21
ZD1105
5.1V
C111727pF50V
C111827pF50V
ZD1107
5.1V
COMP1_Pr_IN
3:T20
C1105
27pF50V
L1103CM2012FR27KT R1125
15
ZD1108
5.1V
C1112
1uF25V
COMP1_L_IN
3:T22R11140
C1122100pF
50V
ZD1110
5.1VZD1109
5.1V
R1103
470K
ZD1111
5.1V
COMP1_R_IN
3:T21
R1104
470K
ZD1112
5.1V
R11150 C1123
100pF50V
C1113
1uF25V
ZD1122
5.1V
COMP2_DET
3:T23
R11191K
ZD1121
5.1V
R1102
10K
C1102100pF50V
D3.3V
COMP2_Y_IN
3:T23
L1106CM2012FR27KT
C111927pF50V
ZD1123
5.1V
C110727pF50V
R112015
ZD1124
5.1V
R112115
ZD1126
5.1V
C112027pF50V
L1104CM2012FR27KT
ZD1125
5.1V
C110827pF50V
COMP2_Pb_IN
3:T22
C1127100pF50VR
1108
470K
R11160
ZD1129
5.1V
ZD1130
5.1V
C1114
1uF25V
COMP2_L_IN
3:T23
ZD1131
5.1V
R1109
470K
C1115
1uF25V
ZD1132
5.1V
C1128100pF50V
COMP2_R_IN
3:T23R11170
C112127pF50V
COMP2_Pr_IN
3:T22
L1105CM2012FR27KT
ZD1127
5.1V
R112215
ZD1128
5.1V
C110927pF50V
ZD1113
5.1V
R11111K
D3.3V
C11060.1uF16V
ZD1114
5.1V
R110510K
AV1_CVBS_DET
3:T18
C112447pF50V
R111015
ZD1116
5.1VZD1115
5.1V
AV1_CVBS_IN
3:T18
R1106470K
ZD1117
5.1V
AV1_L_IN3:T18
C11101uF25V
C1125100pF
ZD1118
5.1V
R11120
ZD1120
5.1V
R1107470K
C11111uF25V
AV1_R_IN3:T18
C1126100pF
R11130
ZD1119
5.1V
C113747pF50V
ZD1136
5.1V
SIDE_CVBS_IN
3:T19
ZD1135
5.1V
ZD1134
5.1V
SIDE_CVBS_DET3:T19
ZD1133
5.1V
R1137
1KC11300.1uF16V
D3.3V
R1135
0
R1127
470K
ZD1138
5.1V ZD1137
5.1V
C1131
1uF
25V
SIDE_L_IN3:T20
C1135100pF
ZD1140
5.1V R1128
470K
SIDE_R_IN3:T20
ZD1139
5.1V
C1132
1uF
25V
R1136
0
C1136
100pF
R113015
R11310
R11290
JK1106
SPG09-DB-010
1RED
2GREEN
3BLUE
4GND_1
5DDC_GND
6RED_GND
7GREEN_GND
8BLUE_GND
9NC
10
SYNC_GND
11
GND_2
12
DDC_DATA
13
H_SYNC
14
V_SYNC
15
DDC_CLOCK
16SHILED
JK1107
SPG09-DB-009
1
2
3
4
5
6
7
8
9
10
JK1103
8
6
7
5
4
P1101
12507WS-08L
1
2
3
4
5
6
7
8
9
R11500
JK1102
9
10
8
7
6
5
4
11
FIX-TER
13 [RD]MONO
R11520
JK1101
9
10
8
7
6
5
4
11
FIX-TER
13 [RD]MONO
R11510
R11342.7K
R117175
R117275
R11730
OPT
JK1104
PEJ027-01
6B T_TERMINAL2
8 SHIELD_PLATE
7B B_TERMINAL2
5 T_SPRING
4 R_SPRING
7A B_TERMINAL1
6A T_TERMINAL1
3 E_SPRING
1 15LEE GI YOUNG
RS-232C
BCM RECOMMAND
R,G,B PC&DDC
BCM Reference
PC AUDIO
SPDIF OPTIC JACK
COMPONENT1
COMPONENT2
AV1
SIDE AV
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z AA AB AC AD AE AF AG AH AI AJ AK AL AM AN AO AP
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23
HDMI
BCM (BRAZIL VENUS)
5V_HDMI_2
+1.8V_HDMI
R674
OPT
4.7K
+1.8V_AMP
D2-_HDMI2
5V_HDMI_2
HPD1
R676
12K
CK+_HDMI1
D2+_HDMI2
CK+_HDMI1
Y12
C624
0.1uF
R657
47K
+3.3V_HDMI
HDMI0_RX1+_BCM
11:W16
D2+_HDMI4
AE19
HPD4
AH19
C625
0.1uF
5V_HDMI_1
R670
0
HDMI0_RX2+_BCM
11:W16
GND
R6410
CK+_HDMI2
CEC_REMOTE
C6050.1uF
C6120.1uF
DDC_SDA_2
HPD2
C611
0.1uF
5V_HDMI_2P19;AJ15
C6040.1uF
HDMI0_RXC-_BCM11:W17
DDC_SCL_4R13;AG19
R672
OPT4.7K
CK-_HDMI1Y12
R666
68K
HDMI0_RX2-_BCM
11:W16
R607 0
C6210.1uF
DDC_SCL_4
D0+_HDMI1
DDC_SCL_2
R17;AL12DDC_SDA_2
R18;AL12
C610
0.1uF
+1.8V_HDMI
DDC_SCL_1
C6060.1uF
R6270
CK-_HDMI4
D1-_HDMI2AL13
C6160.1uF
D1-_HDMI2
D2+_HDMI4
D0-_HDMI2
C6280.1uF
5V_HDMI_1L19;Z14
C623
0.1uF
+3.3V_HDMI
C626
0.1uF
D1+_HDMI4AF19
R6611.8K
R65347K
D0+_HDMI4
AF19
R618 0
L601BLM18PG121SN1D
HPD1
Y13
VR607
AVRL161A1R1NT
DDC_SCL_2
R616 0
GND
D2-_HDMI4
+1.8V_HDMI
CK-_HDMI1
D0-_HDMI4
CK+_HDMI2
AL12
DDC_SDA_1
C615
0.1uF
CK+_HDMI4AG19
IC601
TDA9996HL
1VSS_1
2OUT_C+
3OUT_C-
4VDDO[3V3]
5OUT_DDC_CLK
6OUT_DDC_DAT
7VSS_2
8VDDC[1V8]_1
9RXA_HPD
10RXA_5V
11RXA_DDC_DAT
12RXA_DDC_CLK
13RXA_C-
14RXA_C+
15VDDH[3V3]_1
16RXA_D0-
17RXA_D0+
18VSS_3
19RXA_D1-
20RXA_D1+
21VDDH[3V3]_2
22RXA_D2-
23RXA_D2+
24VDDH[1V8]_1
25NC
26
VSS_4
27
TEST
28
RXB_HPD
29
RXB_5V
30
RXB_DDC_DAT
31
RXB_DDC_CLK
32
RXB_C-
33
RXB_C+
34
VDDH[3V3]_3
35
RXB_D0-
36
RXB_D0+
37
VSS_5
38
RXB_D1-
39
RXB_D1+
40
VDDH[3V3]_4
41
RXB_D2-
42
RXB_D2+
43
VSS_6
44
CDEC_DDC
45
VDDC[1V8]_2
46
VDDC[3V3]
47
MODE
48
PD
49
SDA/SEL1
50
SCL/SEL0
51 XTAL_IN52 XTAL_OUT53 INT/HP_CTRL54 CDEC_STBY55 VDDS[3V3]56 VSS_757 CEC58 RXC_HPD59 RXC_5V60 RXC_DDCC_DAT61 RXC_DDC_CLK62 RXC_C-63 RXC_C+64 VDDH[3V3]_565 RXC_D0-66 RXC_D0+67 VSS_868 RXC_D1-69 RXC_D1+70 VDDH[3V3]_671 RXC_D2-72 RXC_D2+73 VSS_974 R12K75 VDDH[1V8]_2
76
RXD_HPD
77
RXD_5V
78
RXD_DDC_DAT
79
RXD_DDC_CLK
80
RXD_DC-
81
RXD_DC+
82
VDDH[3V3]_7
83
RXD_D0-
84
RXD_D0+
85
VSS_10
86
RXD_D1-
87
RXD_D1+
88
VDDH[3V3]_8
89
RXD_D2-
90
RXD_D2+
91
VDDC[1V8]_3
92
VSS_11
93
OUT_D2+
94
OUT_D2-
95
VDDO[1V8]
96
OUT_D1+
97
OUT_D1-
98
VSS_12
99
OUT_D0+
100
OUT_D0-
SCL1_3.3V
5:G5;16:G14
R65547K
D1-_HDMI4
C614
0.1uF
5V_HDMI_4
DDC_SDA_4
DDC_SDA_1
M18;X13
R6621.8K
HDMI0_RXC+_BCM11:W17
C6070.1uF
R639 0
GND
D2-_HDMI2AL14
R673
OPT
4.7K
D0+_HDMI2
CK-_HDMI4AG19
D1+_HDMI1Y11
D0+_HDMI2AL13
D1+_HDMI2AL13
D1+_HDMI1
D1-_HDMI1
5V_HDMI_4
5V_HDMI_1
DDC_SDA_1
D0+_HDMI1Y11
R663
0
C619
0.1uF
C6220.1uF
DDC_SCL_2
D0-_HDMI4
AF19
D2+_HDMI1
+3.3V_ST
R617 0
+5.0V
R642 0
R678 0
OPT
D2+_HDMI1Y10
HDMI0_RX0+_BCM
11:W17
C613
0.1uF
R665
0
R669
0
C6170.1uF
D3.3V
HDMI_SCL
R6280
R606 0
DDC_SDA_2
D1+_HDMI4
D1-_HDMI1Y11
D0+_HDMI4
5V_HDMI_4Q16;AH18
DDC_SDA_4
R14;AG19
R667
9.1K
R605 0
L602BLM18PG121SN1D
CEC_REMOTE
H8;H17;R26;AL11
R656
47K
D2-_HDMI1Y10
CEC_REMOTE
H17;R26;W27;AL11
CK-_HDMI2AL12
SDA1_3.3V
5:G5;16:G14
C629
0.1uF
R677
0
HDMI_CEC
12:F6
+5.0V
CEC_REMOTE
H8;R26;W27;AL11
D601
MMBD301LT1G
DDC_SCL_4
DDC_SDA_4
C609
0.1uF
R63447K
R658
0
R643 0
D2-_HDMI1
GND
C6200.1uF
C6080.1uF
C627
0.1uF
HDMI0_RX0-_BCM11:W17
HDMI0_RX1-_BCM
11:W16
D0-_HDMI2AL13
R668
0
D0-_HDMI1
D1-_HDMI4AF19
DDC_SCL_1
M17;X12
D2+_HDMI2AL14
R675
OPT
0
CK-_HDMI2
CEC_REMOTE
H8;H17;W27;AL11
GND
HDMI_SDA
HPD2
AL11
D1+_HDMI2
R635
47K
+3.3V_HDMI
R664
0
OPT
HPD4
R671
0
Q601SSM6N15FU
3DRAIN2
2GATE1
1SOURCE1
4SOURCE2
5GATE2
6DRAIN1
CK+_HDMI4
DDC_SCL_1
D0-_HDMI1Y12
D2-_HDMI4AE19
JK501YKF45-7058V
14
13
5
20
20
12
11
2
19
18
10
4
1
17
9
8
3
16
7
6
15
JK503
KJA-ET-0-0032
14NC
13CEC
5DATA1_SHIELD
20
JACK_GND
12CLK-
11CLK_SHIELD
2DATA2_SHIELD
19HPD
18+5V_POWER
10CLK+
4DATA1+
1DATA2+
17DDC/CEC_GND
9DATA0-
8DATA0_SHIELD
3DATA2-
16SDA
7DATA0+
6DATA1-
15SCL
C6185.6nF
JK500YKF45-7058V
14
13
5
20
20
12
11
2
19
18
10
4
1
17
9
8
3
16
7
6
15
2 15LEE GI YOUNG
Net Labels changed for HDMI2
SIDE_HDMI_PORT4
UI_HW_PORT1in case HDMI Switch doesn’t support ’ESD protection’
UI_HW_PORT2
HDMI S/W For MSTAR Platform
* HDMI CEC
VARISTORS(VR500/501/502/503/504/505/506/507) on lines-HPD1/2/3/4 are all options
EDID Pull-up
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z AA AB AC AD AE AF AG AH AI AJ AK AL AM AN AO AP
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23
AUDIO
BCM (BRAZIL VENUS)
C5331000pF50V
R505 100
R513
100
L507120-ohm
L501
MLB-201209-0120P-N2
R525
4.7K R529
3.3
R523
4.7K
C50933pF50V
0.1uFC513
16V
SPK_R-H4
C5341000pF50V
0.1uF
C542
50V
AMP_RST9:G7;9:I3;12:I4
0.01uFC545
50V
C51922000pF50V
R519
5.6
0.1uFC505
16V
L509120-ohm
R524
4.7K
C5321000pF50V
0.1uF
C528
50V
C517
33pF50V
OPT
C5211uF16V
C50110uF10V
SPK_R+H4
C5300.1uF50V
C5311000pF50V
+1.8V_AMP
R518
5.6
SPK_L+ H3
AUDIO_M_CLK
9:G6
C50310uF6.3V
R526
4.7K
0.1uFC508
R501
0
AMP_MUTE 12:F3
+1.8V_AMP
SCL1_3.3V9:I4;2:AH5
SDA1_3.3V9:I4;2:AH5
R5113.3
SPK_L- H3
R507 100
L510120-ohm
0.1uFC541
50V
R508 100
C511
1uF 10V
L508120-ohm
BCM_I2S_DATA_OUT11:F7
C5071000pF50V
R5223.3
SPK_R- H3
C5231uF16V
BCM_I2S_BIT_CLK11:F7
R530
3.3
R521
5.6
L502
MLB-201209-0120P-N2
0.01uF
C546
50V
C524
22000pF50V
C5061000pF
50V
R503
3.3K
C51233pF50V
0.01uFC547
50V
SPK_L+H5
R520
5.6
+1.8V_AMP
+24V_AMP
D3.3V
R502
100
BCM_I2S_WORD_CLK11:F6
C5181uF10V
C504
100pF50V
C52522000pF
50V
C5020.1uF16V
R527
3.3
C51422000pF
50V
R506 100
0.1uF
C543
50V
C5350.01uF50V
R509 100
L503
MLB-201209-0120P-N2
SPK_L-H5
R5040
+24V_AMP
0.1uFC522
50V0.01uF
C526
50V
0.1uFC540
50V
SPK_R+ H3
R528
3.3
0.1uFC520
50V
C51010uF10V
0.01uFC544
50V
0.01uFC515
50V
+24V
L511MLB-201209-0120P-N2
+24V_AMP
+1.8V_AMP
GND
D3.3V
C5510.1uF16V
C5490.1uF16V
IC503
AZ1117H-1.8TRE1(EH13A)
2
OUTPUT
3INPUT 1 ADJ/GND
0.01uF
C527
50V
IC501
NTP-3100L
EAN60664001
1BST1A
2VDR1A
3RESET
4AD
5DVSS_1
6VSS_IO
7CLK_I
8VDD_IO
9DGND_PLL
10AGND_PLL
11LFM
12AVDD_PLL
13DVDD_PLL
14TEST0
15
DVSS_2
16
DVDD
17
SDATA
18
WCK
19
BCK
20
SDA
21
SCL
22
MONITOR_0
23
MONITOR_1
24
MONITOR_2
25
FAULT
26
VDR2B
27
BST2B
28
PGND2B_1
29 PGND2B_230 OUT2B_131 OUT2B_232 PVDD2B_133 PVDD2B_234 PVDD2A_135 PVDD2A_236 OUT2A_137 OUT2A_238 PGND2A_139 PGND2A_240 BST2A41 VDR2A42 NC
43
VDR1B
44
BST1B
45
PGND1B_1
46
PGND1B_2
47
OUT1B_1
48
OUT1B_2
49
PVDD1B_1
50
PVDD1B_2
51
PVDD1A_1
52
PVDD1A_2
53
OUT1A_1
54
OUT1A_2
55
PGND1A_1
56
PGND1A_2
P501
WAFER-ANGLE
1
2
3
4
5
C553330uF35V
C529330uF
C55210uF10V
C54810uF10V
D501
100V1N4148W
OPT
D502
100V1N4148W
OPT
D503
100V1N4148W
OPT
D504
100V1N4148W
OPT
L504DA-8580EAP38319001
22uH
2S
1S 1F
2F
L505DA-8580EAP38319001
22uH
2S
1S 1F
2F
C5380.47uF50V
C5390.47uF50V
3 15
SPEAKER_R
SPEAKER_L
Change 22uH(L504,L505) TO 15uH/6.3mm After DV1
2A => 5A
T_330uF_Capacitor
T_330uF_Capacitor
MCLK SDATA WCK BCK TP is necessoryMonitor0_1_2 TP is necessory
KIM JONG HYUN
A B C D E F G H I J
1
2
3
4
5
6
7
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. POWER
BCM (BRAZIL VENUS) 2009.03.23
R823
1KOPT
IC805AOZ1073AIL
3AGND
2VIN
4FB
1PGND
5COMP
6EN
7LX_1
8LX_2
L8153.6uH
RL_ON12:I5;14:E5
+3.3V_ST
C846330pF
50V
INV_ON/OFF12:I5
D8031N4148W100V
3.3KR832
C8152200pF
IC802
AZ1085S-ADJTR/E1
1
ADJ/GND
2 OUTPUT3INPUT
R843
10K
C80110uF16V
R81022K
R813
47K
L807
CB4532UK121E
+5.0V12:A3;2:Y20;2:Z10;B3;C6;H5;7:A3;14:I7;14:J1
R853300
C8381uF25V
3.3KR873
A_DIM9:G6;9:I3
C8950.1uF50V
TruMotion_240Hz
C86810uF10V
C882
10uF
6.3V
D1.8V
R864620
R85410K
C8210.068uF
R812
47K
R82410K
22uFC819
16V
C876100uF16V
0.1uF
C80816V
OPT
C1810
10uF
6.3V
R87010K
OPT
L817
2.2uH
C89622uF16V
C840
1000pF
50V
L826BG2012B080TF
Q812SI4804BDY
3S2
2G1
4G2
1S1
5D2_1
6D2_2
7D1_1
8D1_2
C1807
0.1uF
R855
12.4K
1%
C8700.1uF16V
PWM_DIM9:G7;9:I3;7:I5
Q8062SC3052
E
B
C
R840
39K
C8240.1uF50VOPT
C851
470pF
IC803SC4215ISTRT
3
VIN
2
EN
4
NC_2
1
NC_1
5NC_3
6VO
7ADJ
8GND
22uF
C842
16V
+12V
R835
0
+1.8V_MEMC
R872
1.2K
C883
100uF
16V
+3.3V_MEMC
D1.2V
R811
22K
R80510K
R84910K
R875
0
C8030.1uF16V
C8174.7uF
25V
OPT
R833390K
1/8W
C885
33uF
C1802
10uF25V
D805
SAM2333
A2[GN]
CA1[RD]
C82647uF25V
C845
0.1uF
50V
R82710KOPT
C878
0.1uF
+12V
12:A3;A6;B5;F7;G7;I2;14:B2
IC807SC4215ISTRT
3VIN
2EN
4NC_2
1NC_1
5NC_3
6VO
7ADJ
8GND
R8690
OPT
R828
10KOPT
C82015pF50V
C836
0.1uF
C8321uF25V
+5.0V
C8291uF25VOPT
R84515K
C8566800pF
L804
BG2012B080TF
R841
18K
A2.5V
+5.0V
C811
0.1uF
C830
2200pF
Q8132SC3875S(ALY)
OPTE
B
C
Q802
2SC3052 E
B
C
C844
0.1uF
R816
6.8K
OPT
C1804
470pF
R807
0OPT
Q8072SC3875S(ALY)
OPTE
B
C
C881
10uF
6.3V
R82610K
OPT
R844
11K
R8211.8K
C8590.1uF
D2.5V
L812
MLB-201209-0120P-N2
L801
CB3216PA501E
C18051uF25V
L828
2.2uH
R8290
+3.3V_ST
C899100uF
16V
C814
0.1uF
16V
C18061uF25V
R842
2K
P801FM20020-24
19N.C
14 12V
95.2V
4 GND
18 24V
1312V
8 5.2V
3GND
1724V
12 GND
75.2V
2 POWER_ON
16 GND
11GND
6 GND
1N.C
20 Inverter_On
15GND
10 5.2V
5GND
21A.Dim 22 Error_Out
23N.C 24 PWM_Dim
25
GND
+3.3V_ST
IC801
AZ1117D-3.3TRE1
1
ADJ/GND
2 OUTPUT3INPUT
+5V_ST
C1809
10uF25VC807
68uF35V
C852
10uF
6.3V
R80610K
OPT
D3.3V
R82566.5
1%
C1800
1uF
25V
C8060.1uF16V
OPT
C877
0.1uF
16V
C8120.1uF50V
D3.3V
C887
0.1uF
C886
0.1uF
D3.3VR874
1.1K
C8351uF25V
C861
0.01uF
C1812
10uF
6.3V
Q804SI4925BDY
3S2
2G1
4G2
1S1
5 D2_1
6 D2_2
7 D1_1
8 D1_2
Q809SI4804BDY
3S2
2G1
4G2
1S1
5D2_1
6D2_2
7D1_1
8D1_2
C884
0.01uF
D8021N4148W100V
L819
2.2uH
+12V
C860
10uF16V
+5V_ST
C1801
0.01uF
Q8032SC3052
E
B
C
D8011N4148W100V
C872
1uF
25V
C8041uF50V
IC806SC2621ASTRT
3COMP
2OCS
4FB
1BST
6LDFB
5LDOG
7GND_1
8VCC
9NC
10DRV
11DL
12GND_2
13PN
14DH
PANEL_CTL12:I5
C1813
10uF
6.3V
R846
1K
+5V_ST
ERROR_OUT12:F6
R85210K
R85756
1%OPC_OUT1
7:I5
C8051uF25V
C822
0.1uF
C1803
33uF
10V
A3.3V
C880
470pF
C875
10uF
6.3V
C825
220pF
C8280.1uF
50V
R8300
A1.2V
+12V
C1811
1uF25V
IC809SC2621ASTRT
3COMP
2OCS
4FB
1BST
6LDFB
5LDOG
7GND_1
8VCC
9NC
10DRV
11DL
12GND_2
13PN
14DH
R8220
OPT
C839
22uF16V
+1.8V_MEMC
+12V
12:A3;A6;C4;F7;G7;I2;14:B2
C818
330uF
4V
R87120K
C862
470pF
C888
33uF
10V
C8731uF25V
C83322uF25V
+12V
6.8KR831
C841
10uF
+24V
+1.26V_MEMC
+5.0V
C827100uF
R848
1.5K
R8183.3KR801
4.7K
C810
22uF
16V
+5V_ST
C853
10uF16V
R819
56
1%
C837
1uF
25V
R8625.6K
C863
10uF16V
R85622K
L808MLB-201209-0120P-N2
IC804SC2621ASTRT
3COMP
2OCS
4FB
1BST
6LDFB
5LDOG
7GND_1
8VCC
9NC
10DRV
11DL
12GND_2
13PN
14DH
Q810SI4804BDY
3S2
2G1
4G2
1S1
5D2_1
6D2_2
7D1_1
8D1_2
R815100
12V_TCON7:I5;7:I7
C898
1uF
25V
R859330K
1/10W
R81415K
1%
C802
68uF35V
R847
200
R863
1K
C1814
10uF
6.3V
C85833uF10V
C1815
10uF
6.3V
R876
1K
LD1
SAM2333
A2[GN]
CA1[RD]
0R802
R8770
R8780
R834150K
1/10W
Q805
RT1P141C-T112
E
B
C
R817
33K
OPT R820
33K
C181610uF6.3V
C1808
100uF
16V
C865
10uF6.3V
C854
330uF
4V
JP810
C181710uF
C85510uF6.3V
C18180.1uF50V
OPT
C18190.1uF50V
OPT
L805CB4532UK121E
R861
3.3
R837
3.3
R836
3.3
C879470pF
C848470pF
C847
470pF
L824
MLB-201209-0120P-N2
L829MLB-201209-0120P-N2
L822
MLB-201209-0120P-N2
L830MLB-201209-0120P-N2
L827MLB-201209-0120P-N2
L813
MLB-201209-0120P-N2
L806
MLB-201209-0120P-N2
L821MLB-201209-0120P-N2
L811
MLB-201209-0120P-N2
154AN SO YOUNG
* FROM LIPS & POWER B/D -->Apply changed Pin Map
220uF ==> 100uF*2 + 22uF for Depth
600 mA
must be placed with pin#8,#10 as close as possible.
VOUT : 2.533V
400 mA + 600 mA
FLASH, A1.2, +1.8_DDR_BCM3556, VTT
R1
750 mA
* +5v_ST to +3.3V_ST
We’ll change SI4804 to KEC’s Product
415 mA @85% efficiency
R2
* +1.26V Core for FRC
* +1.8V_MEMC for FRC DDR
1.8V_BCM3556
* +5.0V to 1.2V
must be placed with pin#8,#10 as close as possible.
* +12v -> PANEL_POWER
* +12V to +5.0V
* D1.8V
Vout = (1+R2/R1)*1.25
A B C D E F G H I J
1
2
3
4
5
6
7
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. DDR Memory
BCM (BRAZIL VENUS) 2009.03.23
DDR01_A[0]
DDR01_A[1]
DDR01_A[2]
DDR01_A[3]
DDR0_A[4]
DDR0_A[5]
DDR0_A[6]
DDR01_A[7]
DDR01_A[8]
DDR01_A[9]
DDR01_A[10]
DDR01_A[12]
DDR01_A[13]
DDR01_A[11]
DDR1_A[4]
DDR1_A[5]
DDR1_A[6]
DDR0_DQ[0]
DDR0_DQ[1]
DDR0_DQ[2]
DDR0_DQ[3]
DDR0_DQ[4]
DDR0_DQ[5]
DDR0_DQ[6]
DDR0_DQ[7]
DDR0_DQ[12]
DDR0_DQ[15]
DDR0_DQ[8]
DDR0_DQ[13]
DDR0_DQ[9]
DDR0_DQ[10]
DDR0_DQ[11]
DDR0_DQ[14]
DDR1_DQ[4]
DDR1_DQ[12]
DDR1_DQ[7]
DDR1_DQ[0]
DDR1_DQ[5]
DDR1_DQ[8]
DDR1_DQ[1]
DDR1_DQ[13]
DDR1_DQ[15]
DDR1_DQ[9]
DDR1_DQ[10]
DDR1_DQ[11]
DDR1_DQ[14]
DDR1_DQ[2]
DDR1_DQ[3]
DDR1_DQ[6]
DDR01_A[0]
DDR01_A[1]
DDR01_A[2]
DDR01_A[3]
DDR01_A[7]
DDR01_A[8]
DDR01_A[9]
DDR01_A[12]
DDR01_A[13]
DDR01_A[10]
DDR01_A[11]
DDR0_A[4]
DDR0_A[6]
DDR0_A[5]
DDR1_A[4]
DDR1_A[5]
DDR1_A[6]
DDR01_A[2]
DDR1_DQ[0]
DDR1_DQ[4]
DDR1_DQ[11]
DDR1_DQ[6]
DDR1_DQ[12]
DDR01_A[7]
DDR1_DQ[2]
DDR1_DQ[14]
DDR1_DQ[8]DDR1_A[5]
DDR1_DQ[3]
DDR1_DQ[1]
DDR01_A[3]
DDR01_A[0]
DDR01_A[8]
DDR1_DQ[7]
DDR01_A[1]
DDR01_A[12]
DDR01_A[9]
DDR1_DQ[9]
DDR01_A[11]DDR1_DQ[13]
DDR1_A[4]
DDR01_A[10]
DDR1_DQ[10]
DDR1_A[6]
DDR1_DQ[15]
DDR1_DQ[5]DDR01_A[2]
DDR0_DQ[0]
DDR0_DQ[4]
DDR0_DQ[11]
DDR0_DQ[6]
DDR0_DQ[12]
DDR01_A[7]
DDR0_DQ[2]
DDR0_DQ[14]
DDR0_DQ[8]DDR0_A[5]
DDR0_DQ[3]
DDR0_DQ[1]
DDR01_A[3]
DDR01_A[0]
DDR01_A[8]
DDR0_DQ[7]
DDR01_A[1]
DDR01_A[12]
DDR01_A[9]
DDR0_DQ[9]
DDR01_A[11]DDR0_DQ[13]
DDR0_A[4]
DDR01_A[10]
DDR0_DQ[10]
DDR0_A[6]
DDR0_DQ[15]
DDR0_DQ[5]
A1.2V
C3450.1uF
C3460.1uF
DDR01_CKE E5;H5;I2
DDR01_ODT E5;H5;I1
DDR0_CLK E5
DDR0_CLKb E5
DDR1_CLK H5
DDR1_CLKb H5
DDR01_A[0-3] E6;H6;H2
DDR0_A[4-6] D6;H2
DDR01_A[7-13] E6;H6;H2
DDR1_A[4-6] H6;H1
DDR01_BA0
DDR01_BA1
DDR01_BA2
DDR01_CASb
DDR0_DQ[0-15] G6
DDR1_DQ[0-15] J6
DDR0_DM0 E4
DDR0_DM1 E4
DDR1_DM1 H4
DDR1_DM0 H4
DDR0_DQS0b E4
DDR0_DQS0 E4
DDR0_DQS1 E4
DDR0_DQS1b E4
DDR1_DQS0 H4
DDR1_DQS1 H4
DDR1_DQS1b H4
DDR1_DQS0b H4
DDR01_RASbE5;H5;I1
DDR0_VREF0
DDR1_VREF0
DDR01_WEb
R304
75
R305
75
R306
75
R307
75
R31075OPT
R308
75
R309
75
R31175
C3360.01uF
C3370.01uF
C3380.01uF
C3390.01uF
C3400.01uF
C3410.01uF
DDR01_CKEB6;E5;H5
DDR01_BA0B5;E5;H5
DDR01_BA1B5;E5;H5
DDR01_BA2B5;E5;H5
DDR01_ODTB6;E5;H5
DDR01_RASbB2;E5;H5
DDR01_CASbB5;E5;H5
DDR01_WEbB2;E5;H5
DDR01_A[0-3,7-13]
DDR0_A[4-6]
DDR1_A[4-6]
DDR1_DQ[0-15]
B4
DDR1_CLKbB6
R303100
DDR1_VREF0
DDR1_DM0B3
DDR1_DQS0B3
DDR01_WEbB2;E5;I1
DDR1_A[4-6]B5;H1
DDR01_CASbB5;E5;I1
DDR1_DM1B3
DDR01_BA2B5;E5;I1
D1.8V
C321
470pF
DDR01_CKEB6;E5;I2
DDR1_CLKB6
DDR01_A[0-3,7-13]B6;E6;H2;B5
DDR1_DQS1B3
DDR01_BA1B5;E5;I1
DDR1_DQS1bB3
DDR01_BA0B5;E5;I1
C322
0.1uF
DDR01_ODTB6;E5;I1
DDR1_DQS0bB3
DDR01_RASbB2;E5;I1
DDR0_DQ[0-15] B4
DDR0_CLKbB6
R300100
DDR0_VREF0
DDR0_DM0B3
DDR0_DQS0B3
DDR0_A[4-6]B6;H2
DDR01_WEbB2;H5;I1
DDR01_CASbB5;H5;I1
DDR01_BA2B5;H5;I1
DDR0_DM1B3
C300
470pF
D1.8V
DDR01_CKEB6;H5;I2
DDR0_CLKB6
DDR01_A[0-3,7-13]B6;H6;H2;B5
DDR0_DQS1B3
DDR01_BA1B5;H5;I1
DDR0_DQS1bB3
DDR01_BA0B5;H5;I1
C301
0.1uF
DDR01_ODTB6;H5;I1
DDR0_DQS0bB3
DDR01_RASbB2;H5;I1
D1.8V
R312 0
OPT
R313
240
C3550.1uF
C358
1uF
C359
470pF
C360
470pF
C361
1uF
C3620.1uF
DDR_VTT
C343
1uF
C342
470pF
C347
1uF
C344
470pF
R30122
C307
0.1uF
C316
2700pF
C313
0.1uF
C329
470pF
C331
0.1uF
C314
0.01uF
C334
2700pF
C324
10uF
C311
470pF
D1.8V
C335
470pF
C310
2700pF
D1.8V
C351
0.1uF
C317
470pF
C312
10uF
C350
0.1uF
C323
100uF
C326
0.01uF
C305
100uF
C333
0.047uF
C327
0.047uF
C325
0.1uF
C354
0.1uF
C308
0.01uF
C352
0.1uF
C330
10uF
C332
0.01uF
C328
2700pF
C306
10uF
C353
0.1uF
C309
0.047uF
C315
0.047uF
C349
0.1uF
D3.3V
C869100uF16V
DDR1_VREF0
R851 0
C8340.1uF16V
DDR_VTT
DDR0_VREF0
C87410uF10V
R858
1M
D1.8V
C8970.1uF16V
C8640.1uF16V
IC808BD35331F-E2
3VTTS
2EN
4VREF
1GND
5VDDQ
6VCC
7VTT_IN
8VTT
R850 0
C866
0.1uF
16V
C8310.1uF16V
C8711uF6.3V
C867100uF16V
IC100BCM3556
DDR_BVDD0A6
DDR_BVDD1A24
DDR_BVSS0B7
DDR_BVSS1B24
DDR_PLL_TESTF20
DDR_PLL_LDOB23
DDR01_CKEB17
DDR_COMPC22
DDR01_ODTE16
DDR_EXT_CLKC23
DDR0_CLKB12
DDR0_CLKBC12
DDR1_CLKA13
DDR1_CLKBA12
DDR01_A00B15
DDR01_A01E14
DDR01_A02A15
DDR01_A03D15
DDR0_A04E13
DDR0_A05E12
DDR0_A06F13
DDR01_A07C14
DDR01_A08F14
DDR01_A09B14
DDR01_A10D14
DDR01_A11C13
DDR01_A12D13
DDR01_A13B13
DDR1_A04F15
DDR1_A05C15
DDR1_A06D16
DDR01_BA0F16
DDR01_BA1B16
DDR01_BA2E15
DDR01_CASBA17
DDR0_DQ00A8
DDR0_DQ01B11
DDR0_DQ02B8
DDR0_DQ03D11
DDR0_DQ04E11
DDR0_DQ05C8
DDR0_DQ06C11
DDR0_DQ07C9
DDR0_DQ08D8
DDR0_DQ09E10
DDR0_DQ10E9
DDR0_DQ11F11
DDR0_DQ12F12
DDR0_DQ13E8
DDR0_DQ14D10
DDR0_DQ15F8
DDR1_DQ00C18
DDR1_DQ01C20
DDR1_DQ02A18
DDR1_DQ03B21
DDR1_DQ04C21
DDR1_DQ05B18
DDR1_DQ06B20
DDR1_DQ07D18
DDR1_DQ08E18
DDR1_DQ09D21
DDR1_DQ10F18
DDR1_DQ11E20
DDR1_DQ12A22
DDR1_DQ13F17
DDR1_DQ14B22
DDR1_DQ15E17
DDR0_DM0A10
DDR0_DM1C10
DDR1_DM0A20
DDR1_DM1F19
DDR0_DQS0B10
DDR0_DQS0BB9
DDR0_DQS1F10
DDR0_DQS1BF9
DDR1_DQS0B19
DDR1_DQS0BC19
DDR1_DQS1E19
DDR1_DQS1BD19
DDR01_RASBC16
DDR_VREF0A7
DDR_VREF1A23
DDR01_WEBC17
DDR_VDDP1P8_1C7
DDR_VDDP1P8_2D22
IC301
HYB18TC1G160C2F-1.9
Qimonda
J2VREF
J8CK
H2 VSSQ2
B7UDQS
N8A4
P8A8
L1BA2
L2BA0
R8NC3
K7RAS
F8 VSSQ3
F3LDM
P3A9
M3A1
N3A5
K8CK
R3NC4
L3BA1
J7VSSDL
L7CAS
F2 VSSQ4
B3UDM
M2A10/AP
K2CKE
R7NC5
M7A2
N7A6
M8A0
J1VDDL
K3WE
E8LDQS
P7A11
K9ODT
A2NC1
N2A3
P2A7
H8 VSSQ1
F7LDQS
A8UDQS
R2A12
L8CS
E2NC2
E7 VSSQ5D8 VSSQ6D2 VSSQ7A7 VSSQ8B8 VSSQ9B2 VSSQ10
P9 VSS1N1 VSS2J3 VSS3E3 VSS4A3 VSS5
G9 VDDQ1G7 VDDQ2G3 VDDQ3G1 VDDQ4E9 VDDQ5C9 VDDQ6C7 VDDQ7C3 VDDQ8C1 VDDQ9A9 VDDQ10
R1 VDD1M9 VDD2J9 VDD3E1 VDD4A1 VDD5
B9 DQ15B1 DQ14D9 DQ13D1 DQ12D3 DQ11D7 DQ10C2 DQ9C8 DQ8F9 DQ7F1 DQ6H9 DQ5H1 DQ4H3 DQ3H7 DQ2G2 DQ1G8 DQ0
IC300
HYB18TC1G160C2F-1.9
Qimonda
J2VREF
J8CK
H2 VSSQ2
B7UDQS
N8A4
P8A8
L1BA2
L2BA0
R8NC3
K7RAS
F8 VSSQ3
F3LDM
P3A9
M3A1
N3A5
K8CK
R3NC4
L3BA1
J7VSSDL
L7CAS
F2 VSSQ4
B3UDM
M2A10/AP
K2CKE
R7NC5
M7A2
N7A6
M8A0
J1VDDL
K3WE
E8LDQS
P7A11
K9ODT
A2NC1
N2A3
P2A7
H8 VSSQ1
F7LDQS
A8UDQS
R2A12
L8CS
E2NC2
E7 VSSQ5D8 VSSQ6D2 VSSQ7A7 VSSQ8B8 VSSQ9B2 VSSQ10
P9 VSS1N1 VSS2J3 VSS3E3 VSS4A3 VSS5
G9 VDDQ1G7 VDDQ2G3 VDDQ3G1 VDDQ4E9 VDDQ5C9 VDDQ6C7 VDDQ7C3 VDDQ8C1 VDDQ9A9 VDDQ10
R1 VDD1M9 VDD2J9 VDD3E1 VDD4A1 VDD5
B9 DQ15B1 DQ14D9 DQ13D1 DQ12D3 DQ11D7 DQ10C2 DQ9C8 DQ8F9 DQ7F1 DQ6H9 DQ5H1 DQ4H3 DQ3H7 DQ2G2 DQ1G8 DQ0
IC300-*1
EDE1116ACBG-1J-E
ELPIDA
J2VREF
J8CK
H2 VSSQ_2
B7UDQS
N8A4
P8A8
L1BA2
L2BA0
R8NC_3
K7RAS
F8 VSSQ_3
F3LDM
P3A9
M3A1
N3A5
K8CK
R3NC_5
L3BA1
J7VSSDL
L7CAS
F2 VSSQ_4
B3UDM
M2A10
K2CKE
R7NC_6
M7A2
N7A6
M8A0
J1VDDL
K3WE
E8LDQS
P7A11
K9ODT
A2NC_1
N2A3
P2A7
H8 VSSQ_1
F7LDQS
A8UDQS
R2A12
L8CS
E2NC_2
E7 VSSQ_5D8 VSSQ_6D2 VSSQ_7A7 VSSQ_8B8 VSSQ_9B2 VSSQ_10
P9 VSS_1N1 VSS_2J3 VSS_3E3 VSS_4A3 VSS_5
G9 VDDQ_1G7 VDDQ_2G3 VDDQ_3G1 VDDQ_4E9 VDDQ_5C9 VDDQ_6C7 VDDQ_7C3 VDDQ_8C1 VDDQ_9A9 VDDQ_10
R1 VDD_1M9 VDD_2J9 VDD_3E1 VDD_4A1 VDD_5
B9 DQ15B1 DQ14D9 DQ13D1 DQ12D3 DQ11D7 DQ10C2 DQ9C8 DQ8F9 DQ7F1 DQ6H9 DQ5H1 DQ4H3 DQ3H7 DQ2G2 DQ1G8 DQ0
IC301-*1
EDE1116ACBG-1J-E
ELPIDA
J2VREF
J8CK
H2 VSSQ_2
B7UDQS
N8A4
P8A8
L1BA2
L2BA0
R8NC_3
K7RAS
F8 VSSQ_3
F3LDM
P3A9
M3A1
N3A5
K8CK
R3NC_5
L3BA1
J7VSSDL
L7CAS
F2 VSSQ_4
B3UDM
M2A10
K2CKE
R7NC_6
M7A2
N7A6
M8A0
J1VDDL
K3WE
E8LDQS
P7A11
K9ODT
A2NC_1
N2A3
P2A7
H8 VSSQ_1
F7LDQS
A8UDQS
R2A12
L8CS
E2NC_2
E7 VSSQ_5D8 VSSQ_6D2 VSSQ_7A7 VSSQ_8B8 VSSQ_9B2 VSSQ_10
P9 VSS_1N1 VSS_2J3 VSS_3E3 VSS_4A3 VSS_5
G9 VDDQ_1G7 VDDQ_2G3 VDDQ_3G1 VDDQ_4E9 VDDQ_5C9 VDDQ_6C7 VDDQ_7C3 VDDQ_8C1 VDDQ_9A9 VDDQ_10
R1 VDD_1M9 VDD_2J9 VDD_3E1 VDD_4A1 VDD_5
B9 DQ15B1 DQ14D9 DQ13D1 DQ12D3 DQ11D7 DQ10C2 DQ9C8 DQ8F9 DQ7F1 DQ6H9 DQ5H1 DQ4H3 DQ3H7 DQ2G2 DQ1G8 DQ0
IC301-*2
H5PS1G63EFR-20L
HYNIX
J2VREF
J8CK
H2 VSSQ_2
B7UDQS
N8A4
P8A8
L1NC_4/BA2
L2BA0
R8NC_3/A13
K7RAS
F8 VSSQ_3
F3LDM
P3A9
M3A1
N3A5
K8CK
R3NC_5/A14
L3BA1
J7VSSDL
L7CAS
F2 VSSQ_4
B3UDM
M2A10/AP
K2CKE
R7NC_6/A15
M7A2
N7A6
M8A0
J1VDDL
K3WE
E8LDQS
P7A11
K9ODT
A2NC_1
N2A3
P2A7
H8 VSSQ_1
F7LDQS
A8UDQS
R2A12
L8CS
E2NC_2
E7 VSSQ_5D8 VSSQ_6D2 VSSQ_7A7 VSSQ_8B8 VSSQ_9B2 VSSQ_10
P9 VSS_1N1 VSS_2J3 VSS_3E3 VSS_4A3 VSS_5
G9 VDDQ_1G7 VDDQ_2G3 VDDQ_3G1 VDDQ_4E9 VDDQ_5C9 VDDQ_6C7 VDDQ_7C3 VDDQ_8C1 VDDQ_9A9 VDDQ_10
R1 VDD_1M9 VDD_2J9 VDD_3E1 VDD_4A1 VDD_5
B9 DQ15B1 DQ14D9 DQ13D1 DQ12D3 DQ11D7 DQ10C2 DQ9C8 DQ8F9 DQ7F1 DQ6H9 DQ5H1 DQ4H3 DQ3H7 DQ2G2 DQ1G8 DQ0
IC300-*2
H5PS1G63EFR-20L
HYNIX
J2VREF
J8CK
H2 VSSQ_2
B7UDQS
N8A4
P8A8
L1NC_4/BA2
L2BA0
R8NC_3/A13
K7RAS
F8 VSSQ_3
F3LDM
P3A9
M3A1
N3A5
K8CK
R3NC_5/A14
L3BA1
J7VSSDL
L7CAS
F2 VSSQ_4
B3UDM
M2A10/AP
K2CKE
R7NC_6/A15
M7A2
N7A6
M8A0
J1VDDL
K3WE
E8LDQS
P7A11
K9ODT
A2NC_1
N2A3
P2A7
H8 VSSQ_1
F7LDQS
A8UDQS
R2A12
L8CS
E2NC_2
E7 VSSQ_5D8 VSSQ_6D2 VSSQ_7A7 VSSQ_8B8 VSSQ_9B2 VSSQ_10
P9 VSS_1N1 VSS_2J3 VSS_3E3 VSS_4A3 VSS_5
G9 VDDQ_1G7 VDDQ_2G3 VDDQ_3G1 VDDQ_4E9 VDDQ_5C9 VDDQ_6C7 VDDQ_7C3 VDDQ_8C1 VDDQ_9A9 VDDQ_10
R1 VDD_1M9 VDD_2J9 VDD_3E1 VDD_4A1 VDD_5
B9 DQ15B1 DQ14D9 DQ13D1 DQ12D3 DQ11D7 DQ10C2 DQ9C8 DQ8F9 DQ7F1 DQ6H9 DQ5H1 DQ4H3 DQ3H7 DQ2G2 DQ1G8 DQ0
BCM recommends to remove this R
6 15HONG YEON HYUK
* DDR_VTT
A B C D E F G H I J
1
2
3
4
5
6
7
[E1]
[D1]
[L9]
[N5]
[N4]
[N12]
[N13]
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23
LVDS / Mstar FRC
BCM (BRAZIL VENUS)
URSA_DQ[28]
URSA_C4P
URSA_A[10]
URSA_C4M
URSA_DQ[14]
URSA_D1PURSA_DQ[0-31]
URSA_DQ[4]
URSA_BCKM
URSA_A[1]
URSA_DQ[25]
URSA_DQ[18]
URSA_DQ[21]
URSA_A4M
URSA_BCKP
URSA_DQ[9]
URSA_B2P
URSA_DQ[6]
URSA_A[8]
URSA_B1M
URSA_B0M
URSA_B1P
URSA_B0P
URSA_A[3]
URSA_A4P
URSA_A3P
URSA_D3M
URSA_DCKM
URSA_DQ[5]
URSA_DQ[12]
URSA_DCKP
URSA_B2M
URSA_D2P
URSA_A[5]
URSA_D2M
URSA_DQ[3]
URSA_DQ[20]
URSA_DQ[26]
URSA_A3M
URSA_ACKM
URSA_DQ[31]
URSA_A2P
URSA_B4M
URSA_DQ[30]
URSA_DQ[0]
URSA_A[2]
URSA_DQ[7]
URSA_DQ[2]
URSA_A[11]
URSA_A[6]
URSA_C2P
URSA_C0P
URSA_A[7]
URSA_DQ[16]
URSA_DQ[27]
URSA_DQ[29]
URSA_DQ[10]
URSA_DQ[17]
URSA_DQ[19]
URSA_ACKP
URSA_A1M
URSA_A2M
URSA_A1P
URSA_A0P
URSA_A0M
URSA_C0M
URSA_C1P
URSA_C1M
URSA_DQ[11]
URSA_A[4]
URSA_DQ[22]
URSA_A[0]
URSA_DQ[15]
URSA_D4M
URSA_D4P
URSA_DQ[24]
URSA_D3P
URSA_D0M
URSA_D0P
URSA_DQ[8]
URSA_C2M
URSA_D1M
URSA_A[12]
URSA_B4P
URSA_DQ[23]
URSA_B3P
URSA_B3M
URSA_A[9]
URSA_DQ[13]
URSA_CCKP
URSA_C3P
URSA_CCKM
URSA_C3M
URSA_DQ[1]
URSA_C3P
URSA_A3P
URSA_C3M
URSA_A4P
URSA_B4M
URSA_D1P
URSA_B1P
URSA_A2M
URSA_BCKP
URSA_ACKM
URSA_B3P
URSA_A3M
URSA_B4P
URSA_A4M
URSA_D2M
URSA_A1M
URSA_D3P
URSA_A0M
URSA_DCKM
URSA_C2M
URSA_B0PURSA_B0M
URSA_B2P
URSA_D4M
URSA_C0P
URSA_D0M
URSA_C4M
URSA_D1M
URSA_C4P
URSA_B1M
URSA_D0P
URSA_D2P
URSA_B2M
URSA_DCKP
URSA_C0M
URSA_C2P
URSA_C1P
URSA_A0P
URSA_C1M
URSA_A1P
URSA_BCKM
URSA_CCKP
URSA_A2P
URSA_D4P
URSA_CCKM
URSA_ACKP
URSA_B3M
URSA_D3M
R922
100
LVDS_TX_1_DATA0_N
LVDS_TX_1_DATA1_P
+3.3V_MEMC
R908
2.2K
OPT
LVDS_TX_1_DATA3_P
C908
0.1uF
C933
10uF
URSA_BA0
LVDS_TX_0_DATA1_P
C923
0.1uF
L904
BLM18PG121SN1D
C916
10uF
LVDS_TX_0_DATA3_P
R946 56
LVDS_TX_1_DATA4_P
C953
0.1uF
C904
0.1uF
C924
1uF
URSA_DQM3
URSA_MCLKE
R909 0
C914
0.1uF
R939
1K
OPT
M_SPI_DO
+1.26V_MEMC
LVDS_TX_0_DATA3_N
R926
100
URSA_A[0-12]
R920
100
URSA_DQSB0
ISP_TXD_TRA3
C938
0.1uFC943
0.1uF
ISP_TXD_TR
B6
M_XTALO
C920
0.1uF
R924
100
C9190.1uF
URSA_DQSB3
LVDS_TX_1_CLK_N
URSA_DQS2
C930
0.1uF
R918
100
+3.3V_MEMC
C9210.1uF
C931
10uF 10V
+3.3V_MEMC
+3.3V_MEMC
C956
0.1uF
LVDS_TX_1_DATA3_N
C951
0.1uF
R942
1K
L905
BLM18PG121SN1D
C941
0.1uF
R931
820
URSA_DQM1
M_SPI_DO
C929
0.1uF
IC902
W25X20AVSNIG
3WP
2DO
4GND
1CS
5DIO
6CLK
7HOLD
8VCC
URSA_MCLKZ
C948
0.1uF
URSA_DQM2
URSA_DQS1
M_SPI_CK H3
LVDS_TX_0_DATA4_P
R925
100
LVDS_TX_1_DATA2_N
M_XTALI
L908
BLM18PG121SN1D
C957
0.1uF
ISP_RXD_TR
B6
R923
100
X901
12MHz
SCL3_3.3V9:I4
URSA_WEZ
C934
0.1uF
C909
10uF
+5.0V
C932
0.1uF
URSA_MCLK
LVDS_TX_0_DATA4_N
L907
BLM18PG121SN1D
L902
BLM18PG121SN1D
R915 1K
LVDS_TX_1_DATA1_N
R907
2.2K
OPT
LVDS_TX_1_DATA4_N
URSA_CASZ
ISP_RXD_TRA3
M_XTALI
R938
1K
R917
100
R914
10K
R951 56
+3.3V_MEMC
C913
0.1uF
16V
+3.3V_MEMC
R952 56
URSA_BA1
LVDS_TX_0_DATA1_N
+3.3V_MEMC
C925 0.1uF
FRC_RESET
M_SPI_CZ
C910
10uF
C906
10uF
C940
0.1uFL906
BLM18PG121SN1D
C912
0.1uF
16V
LVDS_TX_1_DATA2_P
C927
0.1uF
+1.8V_MEMC
+3.3V_MEMC
C939
0.1uF
R913
10K
LVDS_TX_0_DATA2_N
URSA_MCLK1
M_XTALO
LVDS_TX_0_DATA0_N
R916 1KOPT
C952
10uF
C917
0.1uF
LVDS_TX_1_CLK_P
C949
0.1uF
M_SPI_DI
SDA3_3.3V9:I4
C937
0.1uF
URSA_ODT
R928
100
C922
0.1uF
+3.3V_MEMC
LVDS_TX_0_CLK_N
R912 100
LVDS_TX_0_DATA2_P
LVDS_TX_0_CLK_P
R927
100
R910 0
C942
0.1uF
L903
BLM18PG121SN1D
C911
10uF
URSA_RASZ
LVDS_TX_1_DATA0_P
M_SPI_DI H3
C944
1uF
URSA_DQSB2
URSA_DQSB1
C945
0.1uF
C901
0.1uF
R943
1K
OPT
C936
0.1uF
R911 100
C928
0.1uF
R929
1M
C935
0.1uF
R947 10K
R930
0
M_SPI_CK
R945 56
C926
0.1uF
LVDS_TX_0_DATA0_P
URSA_DQ[0-31]
URSA_MCLKZ1
C950
0.1uF
URSA_DQM0
C958
0.1uF
M_SPI_CZ
R921
100
C918 0.1uF
R919
100
C955
0.1uF
URSA_DQS3
URSA_DQS0
C954
10uF
LVDS_SEL
R936 0OPT
OPC_OUT1
OPC_EN
R937 0OPC_EN
R941 0 OPC_EN
R953
0
OPT
12V_TCON
R940 0
C960
1000pF50V
L909
CB3216PA501E
PWM_DIM
C961
0.1uF
50V
BIT_SEL
R949
3.3K
OPT
R955
3.3K
P902
TJC2508-4A
1
2
3
4
P903
TF05-51S
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
P904TF05-41S
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
IC901
LGE7329A
E1SDAS
D1SCLS
F1GPIO[8]
G1GPIO[9]
K8GND_14
E5VDDC_1
E2GPIO[10]
F2GPIO[11]
F3GPIO[12]
G2GPIO[13]
M4GPIO[22]
M5GPIO[23]
G3GPIO[14]
E4GPIO[15]
F4GPIO[16]
G4GPIO[17]
H4GPIO[18]
J4GPIO[19]
K4GPIO[20]
L4GPIO[21]
J6VDDP_2
H9GND_7
F6VDDC_2
H1MDATA[20]
H2MDATA[19]
H3MDATA[17]
J1MDATA[22]
J2MDATA[27]
J3MDATA[28]
K1MDATA[25]
K2MDATA[30]
K6AVDD_DDR_2
K3DQM[3]
L1DQM[2]
J8GND_10
L2DQS[2]
L3DQSB[2]
L6AVDD_DDR_4
L8VDDP_3
H10GND_8
M1DQS[3]
M2DQSB[3]
L7AVDD_DDR_5
M3MDATA[31]
N1MDATA[24]
J9GND_11
N2MDATA[26]
N3MDATA[29]
L10AVDD_DDR_6
P1MDATA[23]
R1MDATA[16]
T1MDATA[18]
T2MDATA[21]
R2MCLK[0]
P2MCLKZ[0]
G7GND_1
L9AVDD_MEMPLL
N5MVREF
N4ODT
T3
RASZ
R3
CASZ
P3
MADR[0]
T4
MADR[2]
R4
MADR[4]
J10
GND_12
P4
MADR[6]
T5
MADR[8]
R5
MADR[11]
P5
WEZ
T6
BADR[1]
R6
BADR[0]
P6
MADR[1]
T7
MADR[10]
L11
AVDD_DDR_7
R7
MADR[5]
P7
MADR[9]
T8
MADR[12]
R8
MADR[7]
P8
MADR[3]
N8
MCLKE
K10
GND_16
F7
VDDC_3
T9
MDATA[4]
R9
MDATA[3]
K7
GND_13
P9
MDATA[1]
T10
MDATA[6]
K11
AVDD_DDR_3
R10
MDATA[11]
P10
MDATA[12]
T11
MDATA[9]
R11
MDATA[14]
J11
AVDD_DDR_1
P11
DQM[1]
T12
DQM[0]
R12
DQS[0]
P12
DQSB[0]
H11
VDDP_1
T13
DQS[1]
R13
DQSB[1]
P13
MDATA[15]
T14
MDATA[8]
R14
MDATA[10]
P14
MDATA[13]
T15
MDATA[7]
R15
MDATA[0]
P15
MDATA[2]
T16
MDATA[5]
R16
MCLK[1]
P16
MCLKZ[1]
N9
GPIO[26]
N10
GPIO[27]
N11
GND_17
M11
RESET
G6
VDDC_4
N12GPIO[28]
N13GPIO[29]
N14 GPIO[30]L13 SCKM13 SDIM12 SDOK13 CSZL12 PWM1K12 PWM0J13 GPIO[0]H13 GPIO[1]G13 GPIO[2]F13 GPIO[3]E13 GPIO[4]F12 GPIO[5]D14 GPIO[6]E12 GPIO[7]N6 GPIO[24]H6 VDDC_5
N15 LVD4MN16 LVD4PM14 LVD3MM15 LVD3PF8 AVDD_33_1
M16 LVDCKML16 LVDCKPL15 LVD2ML14 LVD2PG9 GND_3
K14 LVD1MJ14 LVD1PJ16 LVD0MJ15 LVD0PH15 LVC4MH16 LVC4PH14 LVC3MG14 LVC3PG16 LVCCKMG15 LVCCKPF15 LVC2MF16 LVC2PF14 LVC1ME14 LVC1PE16 LVC0ME15 LVC0PG10 GND_4F9 AVDD_33_2
D16 LVB4MD15 LVB4PC16 LVB3MB16 LVB3PA16 LVBCKMA15 LVBCKPB15 LVB2MC15 LVB2PD2 GPIO_3E3 GPIO_10
E10 GPIO_11D10 GPIO_7D8 GPIO_5D
12
REXT
C14
LVB1M
C13
LVB1P
A13
LVB0M
B13
LVB0P
D7
GPIO_4
D9
GPIO_6
B12
LVA4M
A12
LVA4P
C12
LVA3M
C11
LVA3P
A11
LVACKM
B11
LVACKP
B10
LVA2M
A10
LVA2P
C10
LVA1M
C9
LVA1P
A9
LVA0M
B9
LVA0P
F10
AVDD_PLL
G8
GND_2
D11
GPIO_8
D13
GPIO_9
E11
GPIO_12
N7
GPIO[25]
D6
SCLM
D5
SDAM
A14
GPIO_1
B14
GPIO_2
D3
XIN
D4
XOUT
K16
GPIO_14
K15
GPIO_13
H7
GND_5
G11
AVDD_LVDS_2
B8
RO0N
A8
RO0P
C8
RO1N
C7
RO1P
A7
RO2N
B7
RO2P
B6
ROCKN
A6
ROCKP
C6
RO3N
C5
RO3P
A5
RO4N
B5
RO4P
H8
GND_6
F11
AVDD_LVDS_1
B4
RE0N
A4
RE0P
C4
RE1N
C3
RE1P
A3
RE2N
B3
RE2P
B2
RECKN
A2
RECKP
C2
RE3N
C1
RE3P
A1
RE4N
B1
RE4P
GND_9
J7
GND_15K9
12V_TCON
R954
3.3K
OPT
+3.3V_MEMC
R948
499
OPC_EN
R30290
1/16W5%
OPT
LVDS_SEL
9:G6;I5
R933
4.7K
C915
10uF
6.3V
C3019
10uF
6.3V
C907
10uF
C3020
10uF
C947
22pF
C946
22pF
7 15
HIGH
PI Result
EEPROM
HIGH
* XTAL
I2C
HIGH
* ISP Port for MEMC
LOW
PWM1
PI Result
HIGH
HIGH
HIGH
* SPI FLASHSPI
PWM0GPIO8
LOW
HIGH
PARK.S.W
22uF/16 CST PROBLEM
22uF/16 CST PROBLEM
A B C D E F G H I J
1
2
3
4
5
6
7
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23
M-STAR FRC DDR
BCM (BRAZIL VENUS)
DDR_DQ[22]
DDR_DQ[13]
URSA_DQ[26]
URSA_DQ[10]
DDR_DQ[15]
DDRA_A[1]
DDRB_A[9]
DDRA_A[2]
DDR_DQ[0]
DDRA_A[7]
URSA_DQ[11]
DDR_DQ[23]
DDR_DQ[18]
DDRA_A[3]
DDR_DQ[8]
DDR_DQ[17]
URSA_DQ[16]
DDR_DQ[14]URSA_A[3]
DDRB_A[10]
DDR_DQ[3]
DDRB_A[1]
URSA_A[8]
URSA_A[7]DDRB_A[5]
DDR_DQ[30]
DDR_DQ[24]
DDR_DQ[10]
DDR_DQ[28]
DDRA_A[6]
DDR_DQ[7]
DDRB_A[2]
DDRB_A[3]
URSA_DQ[21]
URSA_DQ[5]
DDR_DQ[20]
URSA_A[5]
DDRA_A[0]
DDRB_A[4]
DDR_DQ[4]
DDRA_A[9]
DDRB_A[0]
URSA_DQ[1]
URSA_DQ[19]
URSA_A[2]
DDRB_A[6]
URSA_DQ[15]
DDRB_A[7]
DDR_DQ[21]
DDR_DQ[11]
DDRA_A[4]
DDRB_A[4]
URSA_A[0]
DDRB_A[1]URSA_DQ[14]
DDRA_A[12]
DDRB_A[7]
DDRB_A[11]
URSA_DQ[7]
URSA_DQ[22]
URSA_DQ[8]
DDRA_A[10]
DDR_DQ[3]
URSA_DQ[31]
URSA_A[6]
DDR_DQ[0-15]
DDR_DQ[1]
DDRA_A[11]
DDRB_A[5]
DDR_DQ[12]
DDRB_A[2]
URSA_DQ[29]URSA_DQ[6]
URSA_A[11]
URSA_A[8]
DDRA_A[0-12]
URSA_A[4]
DDR_DQ[8]
DDRB_A[0-12]
DDR_DQ[5]
DDR_DQ[29]
URSA_DQ[2]
DDRB_A[12]
URSA_DQ[18]
DDR_DQ[27]
DDRA_A[3]
URSA_A[1]
DDRA_A[12]
URSA_A[11]
URSA_DQ[20]
DDRA_A[8]
DDRB_A[3]
DDR_DQ[16] DDR_DQ[10]
URSA_DQ[23]
DDRA_A[0]
DDR_DQ[6]
DDR_DQ[9]DDRA_A[1]
URSA_DQ[13]
DDRA_A[8]
DDR_DQ[4]
URSA_DQ[24]
DDRA_A[2]
DDRB_A[6]
DDRB_A[8]
DDRA_A[9]
DDR_DQ[9]
DDRA_A[6]
URSA_DQ[17]
DDRB_A[9]
DDRB_A[10]
DDR_DQ[1]
DDR_DQ[31]URSA_DQ[9]
DDRA_A[5]
URSA_DQ[30]
DDRB_A[11]
DDR_DQ[19]
DDR_DQ[2]
DDRB_A[0]URSA_A[3]
DDR_DQ[14]
DDR_DQ[25]
URSA_DQ[3]
DDR_DQ[5]
DDRB_A[8]
DDR_DQ[2]
DDR_DQ[0]
DDR_DQ[15]
DDR_DQ[7]
DDR_DQ[26]
DDRB_A[12]
URSA_A[1]
DDRA_A[11]
URSA_DQ[4]DDRA_A[7]DDRA_A[5]
DDR_DQ[11]
DDR_DQ[16-31]
DDR_DQ[13]
URSA_DQ[0]
DDRA_A[10]
URSA_DQ[12]
DDR_DQ[6]DDRA_A[4]
URSA_A[10]
DDR_DQ[12]URSA_A[10]
URSA_DQ[27]
URSA_DQ[25]
URSA_DQ[28]
URSA_A[7]
URSA_A[5]
URSA_A[0]
URSA_A[2]
URSA_A[4]
URSA_A[6]
DDR_DQ[31]
DDR_DQ[16]
DDR_DQ[17]
DDR_DQ[18]
DDR_DQ[19]
DDR_DQ[20]
DDR_DQ[21]
DDR_DQ[22]
DDR_DQ[23]
DDR_DQ[24]
DDR_DQ[25]
DDR_DQ[26]
DDR_DQ[27]
DDR_DQ[28]
DDR_DQ[29]
DDR_DQ[30]
URSA_A[9]
URSA_A[12]
URSA_A[9]
URSA_A[12]
C1008
0.1uF
URSA_RASZ
URSA_WEZ 7:D1;T10
A_URSA_RASZ
C1020
0.1uF
+1.8V_FRC_DDR
C1021
0.1uF
URSA_BA07:D1;U12
C1028
0.1uF
R1015 22
R1003
1K
1%
URSA_DQM17:F1
R1012 56
URSA_DQS2 7:B4
R1023
1K
C1041
0.1uF
AR1015
56
C1014
0.1uF
URSA_MCLK 7:B3
A_URSA_BA0 AA17
URSA_WEZ7:D1;U11
AR1003
56
R1005 22
+1.8V_FRC_DDR
R1013 22URSA_MCLK17:G1
AR1010
22
URSA_DQS17:F1
R1011 56
C1018
0.1uF
B_URSA_MCLKEQ16
URSA_BA1 7:D1;T10
R1019 56
A_URSA_CASZ
R1021 56
C1033
0.1uF
URSA_ODT 7:B3;X15
R1001
150
OPT
R1009 56
AR1006
22
C1006
0.1uF
R1024
150
OPT
A_URSA_MCLKEU10
AR1008
22
URSA_DQSB2 7:B4
C1016
0.1uF
C1038
0.1uF
C1007
0.1uF
C1015
0.1uF
C1001
1000pF
URSA_RASZ
C1024
10uF
+1.8V_FRC_DDR
URSA_ODT7:B3;Q15
C1010
10uF
C1035
0.1uF
URSA_DQSB07:F1
AR1007
22
C1045
0.1uF
B_URSA_BA1
URSA_DQM2 7:B4C1032
0.1uF
C1009
0.1uF
B_URSA_CASZ R17
AR1005
22
A_URSA_WEZ X14
C1013
0.1uF
+1.8V_FRC_DDR
URSA_MCLKE7:E1;U11
A_URSA_RASZX17
URSA_DQ[0-31]
7:G1;AM22
R1006 22
URSA_DQSB3 7:B4
+1.8V_FRC_DDR
B_URSA_BA1
B_URSA_WEZQ14
C1004
10uF
10V
L1002BLM18PG121SN1D
A_URSA_CASZX17
C1044
0.1uF
R1022
1K
+1.8V_MEMC
B_URSA_RASZ R17
URSA_MCLKE 7:E1;T10
URSA_DQ[0-31]
7:G1;C22
URSA_CASZ
C1040
0.1uF
C1036
0.1uF
C1042
0.1uF
C1037
0.1uF
A_URSA_BA0
C1034
0.1uF
URSA_DQSB17:F1
C1011
0.1uF
AR1009
22
AR1001
56
R1016 56
URSA_BA17:D1;U12
URSA_DQS3 7:B4
AR1004
56
R1002
1K1%
+1.8V_FRC_DDR
C1002
0.1uF
C1025
10uF
10V
R1004 22
AR1016
56
B_URSA_CASZ
B_URSA_RASZ
C1039
0.1uF
URSA_DQM07:F1
URSA_DQS07:F1R1008 56
A_URSA_BA1 AA17
B_URSA_BA0
C1029
0.1uF
AR1011
22
C1026
10uF
C1030
0.1uF
AR1012
22
C1005
10uF
A_URSA_BA1
C1012
0.1uF
AR1018
56
URSA_BA0 7:D1;T11
R1010 56
AR1013
22
AR1017
56
C1043
0.1uF
URSA_CASZ
URSA_A[0-12]
R1017 56
URSA_MCLKZ 7:B3
R1018 56
+1.8V_FRC_DDR
R1007 56
B_URSA_BA0
URSA_MCLKZ17:G1
C1031
0.1uF
C1003
0.1uF
C1017
0.1uF
C1019
0.1uF
B_URSA_WEZ T11
R1014 22
URSA_DQM3 7:B4
A_URSA_MCLKE Z16
AR1014
22
A_URSA_WEZU10
B_URSA_MCLKE T11
R1020 56
C1027
0.1uF
C1022
0.1uF
C1023
1000pF
AR1002
56
C1048
0.1uF
C1050
0.1uF
C1047
0.1uF
C1053
0.1uF
C1052
0.1uF
C1051
0.1uF
C1049
0.1uF
C1046
0.1uF
+1.8V_MEMC+1.8V_FRC_DDR
+1.8V_FRC_DDR +1.8V_FRC_DDR
IC1001
H5PS5162FFR-S6C
J2 VREF
J8 CK
H2VSSQ2
B7 UDQS
N8 A4
P8 A8
L1 NC4
L2 BA0
R8 NC3
K7 RAS
F8VSSQ3
F3 LDM
P3 A9
M3 A1
N3 A5
K8 CK
R3 NC5
L3 BA1
J7 VSSDL
L7 CAS
F2VSSQ4
B3 UDM
M2 A10/AP
K2 CKE
R7 NC6
M7 A2
N7 A6
M8 A0
J1 VDDL
K3 WE
E8 LDQS
P7 A11
K9 ODT
A2 NC1
N2 A3
P2 A7
H8VSSQ1
F7 LDQS
A8 UDQS
R2 A12
L8 CS
E2 NC2
E7VSSQ5D8VSSQ6D2VSSQ7A7VSSQ8B8VSSQ9B2VSSQ10
P9VSS1N1VSS2J3VSS3E3VSS4A3VSS5
G9VDDQ1G7VDDQ2G3VDDQ3G1VDDQ4E9VDDQ5C9VDDQ6C7VDDQ7C3VDDQ8C1VDDQ9A9VDDQ10
R1VDD1M9VDD2J9VDD3E1VDD4A1VDD5
B9DQ15B1DQ14D9DQ13D1DQ12D3DQ11D7DQ10C2DQ9C8DQ8F9DQ7F1DQ6H9DQ5H1DQ4H3DQ3H7DQ2G2DQ1G8DQ0
IC1002
H5PS5162FFR-S6C
J2VREF
J8CK
H2 VSSQ2
B7UDQS
N8A4
P8A8
L1NC4
L2BA0
R8NC3
K7RAS
F8 VSSQ3
F3LDM
P3A9
M3A1
N3A5
K8CK
R3NC5
L3BA1
J7VSSDL
L7CAS
F2 VSSQ4
B3UDM
M2A10/AP
K2CKE
R7NC6
M7A2
N7A6
M8A0
J1VDDL
K3WE
E8LDQS
P7A11
K9ODT
A2NC1
N2A3
P2A7
H8 VSSQ1
F7LDQS
A8UDQS
R2A12
L8CS
E2NC2
E7 VSSQ5D8 VSSQ6D2 VSSQ7A7 VSSQ8B8 VSSQ9B2 VSSQ10
P9 VSS1N1 VSS2J3 VSS3E3 VSS4A3 VSS5
G9 VDDQ1G7 VDDQ2G3 VDDQ3G1 VDDQ4E9 VDDQ5C9 VDDQ6C7 VDDQ7C3 VDDQ8C1 VDDQ9A9 VDDQ10
R1 VDD1M9 VDD2J9 VDD3E1 VDD4A1 VDD5
B9 DQ15B1 DQ14D9 DQ13D1 DQ12D3 DQ11D7 DQ10C2 DQ9C8 DQ8F9 DQ7F1 DQ6H9 DQ5H1 DQ4H3 DQ3H7 DQ2G2 DQ1G8 DQ0
8 15
DDR2 1.8V By CAP - Place these Caps near Memory
PI Result
HONG.Y.H
resonance Compensation
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z AA AB AC AD AE AF AG AH AI AJ AK AL AM AN AO AP
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23
BCM3556 & NAND FLASH
BCM (BRAZIL VENUS)
NAND_IO[0-7]
NAND_IO[7]
NAND_IO[6]
NAND_IO[5]
NAND_IO[4]
NAND_IO[3]
NAND_IO[2]
NAND_IO[1]
NAND_IO[0]
NAND_IO[0]
NAND_IO[1]
NAND_IO[3]
NAND_IO[2]
NAND_IO[5]
NAND_IO[4]
NAND_IO[7]
NAND_IO[6]
R180
4.7K
R194
4.7K
COMP2_DET 14:A5
SDA3_3.3V 7:B6
A_DIM I3;4:A6
BCM_AVC_DEBUG_TX2G5
R193
4.7K
NAND_IO[0-7]
R176
4.7K
OPT
R170
4.7K
NAND_REbC3
R18222
NAND_WEbE5
NAND_REbE6
VREG_CTRL
R1960 OPT
NAND_ALEE6
BCM_AVC_DEBUG_RX1G6
FLASH_WP_1
D3.3V
BCM_AVC_DEBUG_TX1G6
R1980 OPT
SDA0_3.3V 14:A6
R116
4.7K
SDA2_3.3V B5;12:F3
C1150.1uF
BLUETOOTH_RESET I3;14:I3
R184
4.7K
BCM_AVC_DEBUG_TX2 C7
R17422
RF_SWITCH 14:A6
BCM_AVC_DEBUG_RX2 C6
BCM_RX
BCM_TX
NAND_ALEC2
BCM_AVC_DEBUG_RX2G5
D3.3V
R17522R136
4.7K
PWM_DIM I3;4:A5;7:I5
C1140.1uF
SDA1_3.3V 3:D3;2:AH5
R18622
R1090 OPT
GAIN_SWITCH 14:A6
D3.3V
R17922
SIDE_CVBS_DET
D3.3V
NAND_WEbC2
SCL3_3.3V 7:B6
R18122
SCL0_3.3V 14:A6
R10522
BCM_AVC_DEBUG_RX1 C7
R18522
C136 10uF6.3V
NAND_CEbE6
NAND_CLEE5
R177
4.7K
OPT
NAND_CEbC3
R183
4.7K
D3.3V
R171
4.7K
SCL1_3.3V 3:D3;2:AH5
NAND_CLEC2
R187
4.7K
NAND_IO[0-7]
NAND_RBbE5
P100
GIL-G-06-S3T2
OPT
1
2
3
4
5
6
TUNER_RESETb I3;14:A6
R192
4.7K
D3.3V
R17822
SCL2_3.3V B5;12:F3
FRC_RESET 7:H2
AV1_CVBS_DET 14:A5
R1970 OPT
R1610
NAND_RBbC3
COMP1_DET 14:A6
AUDIO_M_CLK 3:C4
Q101KRC103S
E
B
C
BCM_AVC_DEBUG_TX1 C7
DSUB_DET
R1890
OPT
R1950OPT
R103 100
AMP_RSTR2005100 OPT
R2004100
R2008100
R2009 100
PWM_DIMG7;4:A5;7:I5
R2011
2.7K
R2014
2.7K
HDMI_HPD_IN
A_DIMG6;4:A6
VREG_CTRL
BLUETOOTH_RESET
AMP_RSTG7;12:I4;3:C5
R2015
2.7K
R2013
2.7K
R2016
2.7K
R2010
2.7K
D3.3V
HDMI_HPD_IN
D3.3V
C4160.1uF
SDA2_3.3V I4;12:F3
D3.3V
IC400KIA7029AF
2
G
3 O1I
R419
4.7K
SCL2_3.3V I4;12:F3
R422
4.7K
R20030
OPT
IC403
AT24C512BW-SH-T
3A2
2A1
4GND
1A0
5SDA
6SCL
7WP
8VCC
RESET10:I2;12:I5
R41222
R41122
D3.3V
SYS_RESETb10:E4
NAND_IO[5]
E3;E6
NAND_IO[6]E3;E6
NAND_IO[2]
E3;E6
D3.3VD3.3V
NAND_IO[0]
E3;E6
NAND_IO[3]E3;E6
D3.3V
BIT_SELR2018 100OPT
POWER_DET12:B3;12:I4
R11733
D3.3V
D3.3V
NAND_IO[4]
E3;E6
R191
2.7K
R2040
2.7K
R131
2.7K
D3.3V
TUNER_RESETbG7;14:A6
R30164.7K
R409
910
C40010uF
R410
10K
IC101NAND01GW3A2CN6E
26NC_17
27NC_18
28NC_19
29I/O0
30I/O1
31I/O2
32I/O3
33NC_20
34NC_21
35NC_22
36VSS_2
37VDD_2
38NC_23
39NC_24
40NC_25
41I/O4
42I/O5
43I/O6
44I/O7
45NC_26
46NC_27
47NC_28
48NC_29
17AL
3NC_3
6NC_6
16CL
15NC_10
14NC_9
13VSS_1
12VDD_1
11NC_8
10NC_7
9E
8R
7RB
4NC_4
5NC_5
25NC_16
24NC_15
23NC_14
2NC_2
22NC_13
21NC_12
1NC_1
20NC_11
19WP
18W
LVDS_SELR3030 100
OPT
R199 22OPT
R2002 22
OPT
R2001 22OPT
DDC_SCL I3;14:A6
DDC_SDA I3;14:A6
R202422
R16022
R10222
R2032
2.7K
OPT
R317
2.7K
R2033
2.7K
R316
2.7K
R315
2.7K
OPT
R321
2.7K
OPT
R2029
2.7K
OPT
R314
2.7K
R2030
2.7K
R2031
2.7K
IC100BCM3556
GPIO_00N26
GPIO_01L26
GPIO_02N25
GPIO_03L25
GPIO_04K27
GPIO_05K28
GPIO_06K24
GPIO_07K26
GPIO_08K25
GPIO_09AA27
GPIO_10AA28
GPIO_11AA26
GPIO_12L1
GPIO_13L3
GPIO_14L2
GPIO_15Y25
GPIO_16Y26
GPIO_17M27
GPIO_18AA25
GPIO_19R25
GPIO_20N28
GPIO_21N27
GPIO_22AH18
GPIO_23P23
GPIO_24M23
GPIO_25AD19
GPIO_26AE19
GPIO_27M4
GPIO_28M5
GPIO_29L23
GPIO_30Y28
GPIO_31Y27
GPIO_32G2
GPIO_33G3
GPIO_34G5
GPIO_35G6
GPIO_36G4
GPIO_37L24
GPIO_38P25
GPIO_39L5
GPIO_40K4
GPIO_41K1
GPIO_42L27
GPIO_43M26
GPIO_44N23
GPIO_45R28
GPIO_46R27
GPIO_47R26
GPIO_48P28
GPIO_49P27
GPIO_50K6
GPIO_51K5
GPIO_52P26
GPIO_53M3
GPIO_54M2
GPIO_55M1
GPIO_56L4
GPIO_57L6
SGPIO_00W27
SGPIO_01W28
SGPIO_02W26
SGPIO_03W25
SGPIO_04J2
SGPIO_05J1
SGPIO_06K3
SGPIO_07K2
EBI_ADDR3J23
EBI_ADDR4J24
EBI_ADDR2H25
EBI_ADDR1H24
EBI_ADDR0H23
EBI_ADDR5J25
EBI_ADDR6F26
EBI_ADDR8H28
EBI_ADDR9J26
EBI_ADDR13H27
EBI_ADDR12G26
EBI_ADDR11J27
EBI_ADDR10J28
EBI_ADDR7F27
EBI_TABG24
EBI_WE1BH26
EBI_CLK_ING27
EBI_CLK_OUTG28
EBI_RWBK23
EBI_CS0BG25
NAND_DATA0U24
NAND_DATA1T26
NAND_DATA2T27
NAND_DATA3U26
NAND_DATA4U27
NAND_DATA5V26
NAND_DATA6V27
NAND_DATA7V28
NAND_CS0BT24
NAND_ALER23
NAND_REBT23
NAND_CLET25
NAND_WEBR24
NAND_RBBU25
SF_MISOW24
SF_MOSIU23
SF_SCKV23
SF_CSBV24
C30244700pF
R408330
R20250
MDS61887702
GAS1
GAS1_6T
MDS61887702
GAS5
GAS5_6T
MDS61887702
GAS4
GAS4_6T
MDS61887702
GAS3
GAS3_6T
MDS61887702
GAS2
GAS2_6T
MDS61887703
GAS2-*1
GAS2_7T
MDS61887703
GAS1-*1
GAS1_7T
MDS61887703
GAS5-*1
GAS5_7T
MDS61887703
GAS3-*1
GAS3_7T
MDS61887703
GAS4-*1
GAS4_7T
15
Open Drain
9
SF_MISO
SF_MOSI
SF_SCK
SF_CSB
* I2C MAP
* I2C_0 : TUNER
* I2C_1 : Audio amp, HDMI S/W
* I2C_2 : NVRAM,Micom
* I2C_3 : FRC
Hot Plug input pin should be feeded over 5mA.BCM Recommend
NVRAM
RESET
NAND_IO[0] : Flash Select (1)0 : Boot From Serial Flash1 : Boot From NAND Flash
NAND_IO[1] : NAND Block 0 Write (DNS)0 : Enable Block 0 Write1 : Disable Block 0 Write
NAND_IO[3:2] : NAND ECC (10)00 : No ECC01 : 1 ECC Bit10 : 4 ECC Bit11 : 8 ECC Bit
NAND_IO[4] : CPU Endian (0)0 : Little Endian1 : Big Endian
NAND_IO[6:5] : Xtal Bias Control (1, DNS)00 : 1.2mA01 : 1.8mA10 : 2.4mA (Recommand)11 : 3.0mA
Boot Strap
* NAND FLASH MEMORY 1Gbit (128M)
JANG.J.H
IF FUNDMENTAL IS USED => LOW
IF DIP IS USED => HIGH
SMD Gasket Option
32/42/55 - 6T SMD Gasket
47 - 7T SMD Gasket
A B C D E F G H I J
1
2
3
4
5
6
7
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC. BCM3556 AUD_IN/LVDS
2009.03.23BCM (BRAZIL VENUS)
54MHz_XTAL_N
54MHz_XTAL_P
C212
4.7uF
L202
BLM18PG121SN1D
C2130.01uF
A3.3V A2.5V
C219
0.1uF
C214
0.1uF
R220 560
A1.2V
C2150.1uF
C223
0.1uF
JP201
D3.3V
C200
4.7uF
R201
1.5K
JP202
JP200
R200
1.5K
JP203
USB_DM2
L200BLM18PG121SN1D
A2.5V
C209
0.1uF
R2093.9K
C208
4.7uF
C201100pF
R210120
USB_DM1
A1.2VC207
0.1uF
C203
0.1uF
C202
0.1uF
USB_DP1
A3.3V
USB_DP2
A1.2V
R218240
A2.5V
R2191K
C2220.1uF
A2.5V
C217
10uF
C3005
4.7uF
C228
10uF
OPT
C295
0.1uF
A2.5V
C242
4.7uF
A1.2V
C236
0.1uF
C239
0.1uF
A1.2V
C218
0.1uF
54MHz_XTAL_P I2
C3008
0.1uF
54MHz_XTAL_N I2
A2.5V
A1.2V
L203BLM18PG121SN1D
C2354.7uF
C2330.1uF
D3.3V
A2.5V
D3.3V
C2340.1uF
SYS_RESETb 9:B7
C23110uF
L204BLM18PG121SN1D
A1.2V
C241
4.7uF
C240
4.7uF
A1.2V
L207BLM18PG121SN1D
C237
0.1uF
R2221K
R2231K
R221
4.7K
L201BLM18PG121SN1D
LVDS_TX_0_DATA3_P 7:E7
LVDS_TX_0_DATA0_P 7:E7
LVDS_TX_1_DATA3_N 7:D7
LVDS_TX_1_DATA1_P 7:D7
LVDS_TX_0_DATA1_N 7:E7
LVDS_TX_0_DATA1_P 7:E7
LVDS_TX_1_CLK_P 7:D7
LVDS_TX_0_DATA2_N 7:E7
LVDS_TX_1_CLK_N 7:D7
LVDS_TX_0_DATA4_P 7:E7
LVDS_TX_1_DATA4_P 7:D7
LVDS_TX_0_DATA2_P 7:E7
LVDS_TX_1_DATA3_P 7:D7
LVDS_TX_0_CLK_N 7:E7
LVDS_TX_0_DATA4_N 7:E7
LVDS_TX_0_CLK_P 7:E7
LVDS_TX_1_DATA4_N 7:D7
LVDS_TX_1_DATA1_N 7:D7
LVDS_TX_0_DATA3_N 7:E7
LVDS_TX_1_DATA0_N 7:D7
LVDS_TX_1_DATA0_P 7:D7
LVDS_TX_1_DATA2_P 7:D7
LVDS_TX_1_DATA2_N 7:D7
LVDS_TX_0_DATA0_N 7:E7
R204 51
COMP2_INCM14:A5
AV1_INCM14:A5COMP1_L_IN14:A6
R233 51
R231 51
AV1_L_IN14:A5
R230 51
R234 51
R229 51
R232 51
R214 51
COMP1_R_IN14:A6
COMP1_INCM14:A6
AV1_R_IN14:A5
SIDE_L_IN14:A4
COMP2_L_IN14:A5
R228 51
PC_INCM14:A3
SIDE_R_IN14:A4
PC_R_IN14:A3
SIDE_INCM14:A4
COMP2_R_IN14:A5
PC_L_IN14:A3
R215 51
C238
0.1uF
USB_CTL1
USB_OCD1
D3.3V
R235
2.7K
TU_SCLK
TU_SYNC
TU_SDATA
P200
TJC2508-4A
1
2
3
4
R237 0
R236 0
A1.2V
R240
390OPT
R241 0OPT
R242 0OPT
R226
4.7K
R225
4.7K
OPT
R227
4.7K
R224
4.7K
OPT
R3027
604
L8014
1008LS-272XJLC
C3012
33pF
IC100BCM3556
PKT0_CLKD23
PKT0_DATAC24
PKT0_SYNCB26
RMX0_CLKA25
RMX0_DATAB25
RMX0_SYNCA26
POD2CHIP_MCLKIG23
POD2CHIP_MDI0D25
POD2CHIP_MDI1D24
POD2CHIP_MDI2C25
POD2CHIP_MDI3E27
POD2CHIP_MDI4E26
POD2CHIP_MDI5D28
POD2CHIP_MDI6D27
POD2CHIP_MDI7D26
POD2CHIP_MISTRTE23
POD2CHIP_MIVALE24
CHIP2POD_MCLKOF25
CHIP2POD_MDO0C27
CHIP2POD_MDO1C26
CHIP2POD_MDO2B28
CHIP2POD_MDO3B27
CHIP2POD_MDO4A27
CHIP2POD_MDO5F24
CHIP2POD_MDO6F23
CHIP2POD_MDO7E25
CHIP2POD_MOSTRTC28
CHIP2POD_MOVALA28
VDAC_AVDD2P5AC18
VDAC_AVDD1P2AF20
VDAC_AVDD3P3_1AG20
VDAC_AVDD3P3_2AG21
VDAC_AVSS_1AF19
VDAC_AVSS_2AD20
VDAC_AVSS_3AE20
VDAC_RBIASAH22
VDAC_1AH20
VDAC_2AG19
VDAC_VREGAH21
BSC_S_SCLM25
BSC_S_SDAM24
USB_AVSS_1R6
USB_AVSS_2T6
USB_AVSS_3R7
USB_AVSS_4T7
USB_AVSS_5T8
USB_AVDD1P2R3
USB_AVDD1P2PLLU3
USB_AVDD2P5T4
USB_AVDD2P5REFT3
USB_AVDD3P3R4
USB_RREFU4
USB_DM1V1
USB_DP1V2
USB_DM2U1
USB_DP2U2
USB_MONCDRT5
USB_MONPLLR5
USB_PWRFLT_1R1
USB_PWRFLT_2R2
USB_PWRON_1T2
USB_PWRON_2T1
EPHY_VREFP6
EPHY_RDACP5
EPHY_RDNP3
EPHY_RDPP2
EPHY_TDNN3
EPHY_TDPN2
EPHY_AVDD1P2P1
EPHY_AVDD2P5P4
EPHY_PLL_VDD1P2N4
EPHY_AGND_1N1
EPHY_AGND_2N5
EPHY_AGND_3P7
AUDMX_LEFT1AE6
AUDMX_RIGHT1AD7
AUDMX_INCM1AF6
AUDMX_LEFT2AH4
AUDMX_RIGHT2AG5
AUDMX_INCM2AG4
AUDMX_LEFT3AG6
AUDMX_RIGHT3AF7
AUDMX_INCM3AE7
AUDMX_LEFT4AH5
AUDMX_RIGHT4AG7
AUDMX_INCM4AH6
AUDMX_LEFT5AD8
AUDMX_RIGHT5AF8
AUDMX_INCM5AE8
AUDMX_LEFT6AH7
AUDMX_RIGHT6AH8
AUDMX_INCM6AG8
AUDMX_AVSS_1AF5
AUDMX_AVSS_2AB9
AUDMX_AVSS_3AA10
AUDMX_AVSS_4AB10
AUDMX_AVSS_5AA11
AUDMX_AVSS_6AB11
AUDMX_LDO_CAPAC8
AUDMX_AVDD2P5AE5
LVDS_TX_0_DATA0_PB4
LVDS_TX_0_DATA0_NA4
LVDS_TX_0_DATA1_PC6
LVDS_TX_0_DATA1_NB6
LVDS_TX_0_DATA2_PB3
LVDS_TX_0_DATA2_NA3
LVDS_TX_0_DATA3_PA1
LVDS_TX_0_DATA3_NA2
LVDS_TX_0_DATA4_PD5
LVDS_TX_0_DATA4_ND6
LVDS_TX_0_CLK_PC5
LVDS_TX_0_CLK_NB5
LVDS_TX_1_DATA0_PB1
LVDS_TX_1_DATA0_NB2
LVDS_TX_1_DATA1_PC2
LVDS_TX_1_DATA1_NC3
LVDS_TX_1_DATA2_PD1
LVDS_TX_1_DATA2_ND2
LVDS_TX_1_DATA3_PE1
LVDS_TX_1_DATA3_NE2
LVDS_TX_1_DATA4_PE3
LVDS_TX_1_DATA4_NE4
LVDS_TX_1_CLK_PD3
LVDS_TX_1_CLK_ND4
LVDS_PLL_VREGF5
LVDS_TX_AVDDC1P2F1
LVDS_TX_AVDD2P5_1F4
LVDS_TX_AVDD2P5_2F2
LVDS_TX_AVSS_1C1
LVDS_TX_AVSS_2F3
LVDS_TX_AVSS_3C4
LVDS_TX_AVSS_4A5
LVDS_TX_AVSS_5E5
LVDS_TX_AVSS_6E6
LVDS_TX_AVSS_7D7
LVDS_TX_AVSS_8E7
LVDS_TX_AVSS_9F7
LVDS_TX_AVSS_10G7
LVDS_TX_AVSS_11H7
CLK54_AVDD1P2AD27
CLK54_AVDD2P5AD28
CLK54_AVSSAD26
CLK54_XTAL_NAC26
CLK54_XTAL_PAC27
CLK54_MONITORAE25
PM_OVERRIDEY23
VCXO_AGND_1AA23
VCXO_AGND_2AB24
VCXO_AGND_3AC24
VCXO_AVDD1P2AF25
VCXO_PLL_AUDIO_TESTOUTAF24
RESET_OUTBP24
RESETBF6
NMIBN24
TMODE_0J5
TMODE_1J4
TMODE_2J6
TMODE_3J3
SPI_S_MISOV25
POR_OTP_VDD2P5AH3
POR_VDD1P2AB8
EJTAG_TCKH4
EJTAG_TDIH3
EJTAG_TDOH2
EJTAG_TMSH1
EJTAG_TRSTBG1
EJTAG_CE0H6
EJTAG_CE1H5
PLL_MAIN_AVDD1P2AB26
PLL_MAIN_AGNDAC25
PLL_MAIN_MIPS_EREF_TESTOUTAB27
PLL_RAP_AVD_TESTOUTM6
PLL_RAP_AVD_AVDD1P2N6
PLL_RAP_AVD_AGNDN7
BYP_CPU_CLKAA24
BYP_DS_CLKY24
BYP_SYS216_CLKAE24
BYP_SYS175_CLKAD25
R212
22
R21122
C229
12pF
C230
12pF
X903
54MHz
21
3
C4014
0.47uF
R4001
34
R4007
34
COMP1_VID_INCM 3:T23
TU_CVBS_INCM3:T25
COMP2_INCM3:T22R4010
5.1
R4009
5.1
C4015
0.47uF
B_VID_INCM3:T15
R4011
5.1
R4012
5.1
R4008
5.1
C4006 0.1uF
COMP2_VID_INCM3:T21
C4000 0.1uF
C4001 0.1uF
R4006
34
SIDE_CVBS_INCM3:T19
R4005
34
C4004 0.1uF
R_VID_INCM3:T15
C4013
0.47uF
R4004
34
R4000
34
AV1_INCM 3:T20
C4005 0.1uF
C4007 0.1uF
R4002
34
R4003
34
C4003 0.1uF
C4016
0.47uF
SIDE_INCM3:T18
C4002 0.1uF
COMP1_INCM
3:T24
G_VID_INCM3:T15
PC_INCM3:T14
C4017
0.47uF
AV1_CVBS_INCM3:T19
C40100.15uF
C40110.15uF
C40080.15uF
C40090.15uF
C40120.15uF
C224 15nF
C211 15nF
C226 15nF
C221 15nF
C206 15nF
C225 15nF
C220 15nF
C232 15nF
C210 15nF
C227 15nF
C274
47nF
C3001
47nF
C298
47nF
C3007
47nF
C3004
47nF
C277
47nF
C3002
47nF
C296
47nF
C3003
47nF
C279
47nF
10 15
Route INCM between associatedleft and right signals of same channel
The INCM trace ends at thesame point where the connectorground connects to the board ground(thru-hole connector pin).
Place test points, resistorsnear audio connector.Connect the other side ofthe resistor to GND as closeas possible to the groundconnection of the associatedaudio connector.
54MHz X-TAL
R220 : BCM recommened resistor 562 ohm
BROAD BAND STUDIO
JANG.J.H
When usding FUNDMENTAl then series R = 0 ohm and CL = 8 pF
MNT OUT FOR BCM
When usding Dip-type X-tal then series R = 22 ohm and CL = 12 pF
INCM
CONNECT NEAR BCM CHIP
A B C D E F G H I J K
1
2
3
4
5
6
7
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23
BCM3556 VIDEO IN
BRAZIL VENUS
B_VID_INCM14:A3
A2.5V
L105
BLM18PG121SN1D
BCM_I2S_BIT_CLK 3:D3
A2.5V
A3.3V
R1280
C125 0.1uF
C133 0.1uF
HDMI0_RX2-_BCM 2:AC18
C1404.7uF
L103
BLM18PG121SN1D
HDMI0_RX0-_BCM 2:AB18
A1.2V
L107
BLM18PG121SN1D
R13710K
C105
10pF
OPT
L110
BLM18PG121SN1D
COMP1_Y_IN14:A6
C1560.1uF
A1.2V
DSUB_B14:A3
RGB_VSYNC14:A3
C130 0.1uF
C16310uF
A1.2V
R_VID_INCM14:A4
C1120.1uF
COMP2_VID_INCM14:A5
C1464.7uF
R172 0
OPT
C1550.1uF
HDMI0_RX1+_BCM 2:AC18
C103
10pF
C1540.1uF
COMP2_Y_IN14:A5
R166 0
OPT
BCM_I2S_DATA_OUT3:D3
HDMI0_RXC-_BCM 2:AA18
C1164.7uF
L102BLM18PG121SN1D
A2.5V
HDMI0_RX2+_BCM 2:AD18
COMP1_VID_INCM14:A6
C110 0.1uF
R169 0
OPT
C16510uF
SIDE_CVBS_INCM14:A5
BCM_I2S_WORD_CLK 3:D3A1.2V
G_VID_INCM14:A3
C134 0.1uF
HDMI_HPD_IN_5MA G5
COMP1_Pb_IN14:A6
AV1_CVBS_IN14:A5
C1440.1uF
C131 0.1uF
D3.3V
A1.2V
L106BLM18PG121SN1D
R165 0
OPT
C1600.1uF
COMP2_Pb_IN14:A5
C101
10pF
C1190.1uF
DSUB_G14:A4
R163 0
OPT
R146
10K
C1110.1uF
C16410uF
R162 0
OPT
C104
10pF
OPT
C1500.1uF
COMP1_Pr_IN14:A5
SIDE_CVBS_IN14:A5
AV1_CVBS_INCM14:A5
C1570.1uF
C1130.1uF
C124 0.1uF
C1510.01uF
C1454.7uF
HDMI0_RX1-_BCM 2:AC18
C1171000pF
C1610.1uF
R167 0
OPT
C1581000pF
C129 0.1uF
A2.5V
L108
BLM18PG121SN1D
C1490.01uF
C16210uF
TU_CVBS_INCM14:A6
A1.2V
RGB_HSYNC14:A3
SPDIF_OUT14:A3
C1530.1uF
C132 0.1uF
C135 0.1uF
C127 0.1uF
R168 0
OPT
R153499
C1520.01uF
C102
10pF
R152499
C1201000pF
C1470.01uF
HDMI0_RXC+_BCM 2:AB18
TU_CVBS_IN14:A6
C1230.01uF
C1591000pF
C1060.1uF
R164 0
OPT
A2.5V
COMP2_Pr_IN14:A5
L109
BLM18PG121SN1D
C128 0.1uF
R139
12K
A2.5V
A3.3V
C1480.01uF
C1224.7uF
C16610uF
HDMI0_RX0+_BCM 2:AB18
TU_SIF14:A6
L104
BLM18PG121SN1D
C1180.01uF
DSUB_R14:A4
A2.5V
C1210.1uF
R119
75
R118
75
R115
75
R141 75
OPT
+5.0V
R2037 10K
OPT
R2038
10K
10K
R2039
C30060.1uF16V
HDMI_SCL 2:AA19
HDMI_SDA 2:AA19
R1570
R1580
Q906ISA1530AC1
E
B
C
HDMI_HPD_IN 9:G4;9:I3
HDMI_HPD_IN_5MA
A2.5VA2.5V
R3041
270
OPT
R3042
470
OPT
IC100BCM3556
DS_AGCI_CTLAG28
DS_AGCT_CTLAH28
EDSAFE_AVSS_1AA21
EDSAFE_AVSS_2AB22
EDSAFE_AVSS_3AF26
EDSAFE_AVSS_4AF27
EDSAFE_AVSS_5AF28
EDSAFE_AVDD2P5AG27
EDSAFE_DVDD1P2AE26
EDSAFE_IF_NAE28
EDSAFE_IF_PAE27
PLL_DS_AGNDAD24
PLL_DS_AVDD1P2AB19
PLL_DS_TESTOUTAB25
SD_V5_AVDD1P2AB18
SD_V5_AVDD2P5AC17
SD_V5_AVSSAB17
SD_V1_AVDD1P2AD14
SD_V1_AVDD2P5AD16
SD_V1_AVSS_1AB15
SD_V1_AVSS_2AC15
SD_V2_AVDD1P2AD13
SD_V2_AVDD2P5AE13
SD_V2_AVSS_1AC13
SD_V2_AVSS_2AB14
SD_V2_AVSS_3AC14
SD_V3_AVDD1P2AC12
SD_V3_AVDD2P5AD12
SD_V3_AVSS_1AB13
SD_V3_AVSS_2AA14
SD_V4_AVDD1P2AC11
SD_V4_AVDD2P5AD11
SD_V4_AVSSAB12
SD_RAD10
SD_INCM_RAC10
SD_GAE9
SD_INCM_GAF9
SD_BAH9
SD_INCM_BAG9
SD_Y1AG15
SD_PR1AE15
SD_PB1AF15
SD_INCM_COMP1AH15
SD_Y2AG16
SD_PR2AF16
SD_PB2AH17
SD_INCM_COMP2AH16
SD_Y3AG14
SD_PR3AE14
SD_PB3AF14
SD_INCM_COMP3AH14
SD_L1AH10
SD_C1AG10
SD_INCM_LC1AE10
SD_L2AE11
SD_C2AF11
SD_INCM_LC2AH11
SD_L3AH13
SD_C3AE12
SD_INCM_LC3AF12
SD_CVBS1AD9
SD_CVBS2AG11
SD_CVBS3AG12
SD_CVBS4AF13
SD_INCM_CVBS1AC9
SD_INCM_CVBS2AF10
SD_INCM_CVBS3AH12
SD_INCM_CVBS4AG13
SD_SIF1AF17
SD_INCM_SIF1AG17
SD_FBAD15
SD_FSAE16
SD_FS2AE17
PLL_VAFE_AVDD1P2AB16
PLL_VAFE_AVSSAA15
PLL_VAFE_TESTOUTAC16
RGB_HSYNCAG3
RGB_VSYNCAF4
I2S_CLK_INAE18
I2S_CLK_OUTAF18
I2S_DATA_INAD17
I2S_DATA_OUTAH19
I2S_LR_INAD18
I2S_LR_OUTAG18
AUD_LEFT0_NAG26
AUD_LEFT0_PAH26
AUD_AVDD2P5_0AF23
AUD_AVSS_0_1AA20
AUD_AVSS_0_2AB21
AUD_AVSS_0_3AC22
AUD_AVSS_0_4AC23
AUD_AVSS_0_5AD23
AUD_RIGHT0_NAH25
AUD_RIGHT0_PAG25
AUD_LEFT1_NAH23
AUD_LEFT1_PAG23
AUD_RIGHT1_NAG24
AUD_RIGHT1_PAH24
AUD_AVDD2P5_1AE22
AUD_AVSS_1_1AB20
AUD_AVSS_1_2AC21
AUD_AVSS_1_3AE23
AUD_LEFT2_NAF21
AUD_LEFT2_PAE21
AUD_RIGHT2_NAF22
AUD_RIGHT2_PAG22
AUD_AVDD2P5_2AD21
AUD_AVSS_2_1AC20
AUD_AVSS_2_2AD22
AUD_SPDIFAH2
SPDIF_AVDD2P5AC6
SPDIF_AVSSAE4
SPDIF_IN_NAF3
SPDIF_IN_PAH1
HDMI_RX_0_CEC_DATAG1
HDMI_RX_0_HTPLG_INAA6
HDMI_RX_0_HTPLG_OUTAA5
HDMI_RX_0_DDC_SCLAB3
HDMI_RX_0_DDC_SDAY6
HDMI_RX_0_RESREFAC4
HDMI_RX_0_CLK_NAC1
HDMI_RX_0_CLK_PAC2
HDMI_RX_0_DATA0_NAD1
HDMI_RX_0_DATA0_PAD2
HDMI_RX_0_DATA1_NAE1
HDMI_RX_0_DATA1_PAE2
HDMI_RX_0_DATA2_NAF1
HDMI_RX_0_DATA2_PAF2
HDMI_RX_0_VDD3P3AD3
HDMI_RX_0_VDD1P2AE3
HDMI_RX_0_VDD2P5AC3
HDMI_RX_0_AVSS_1AD4
HDMI_RX_0_AVSS_2AB5
HDMI_RX_0_AVSS_3AB6
HDMI_RX_0_AVSS_4AG2
HDMI_RX_0_AVSS_5AB4
HDMI_RX_0_AVSS_6AA7
HDMI_RX_0_PLL_AVSSY8
HDMI_RX_0_PLL_DVDD1P2AC5
HDMI_RX_0_PLL_DVSSW8
HDMI_RX_1_CEC_DATAA3
HDMI_RX_1_HTPLG_INV4
HDMI_RX_1_HTPLG_OUTU6
HDMI_RX_1_DDC_SCLV5
HDMI_RX_1_DDC_SDAV3
HDMI_RX_1_RESREFW4
HDMI_RX_1_CLK_NW2
HDMI_RX_1_CLK_PW3
HDMI_RX_1_DATA0_NY1
HDMI_RX_1_DATA0_P Y2
HDMI_RX_1_DATA1_NAA2
HDMI_RX_1_DATA1_P AA1
HDMI_RX_1_DATA2_NAB2
HDMI_RX_1_DATA2_PAB1
HDMI_RX_1_VDD3P3Y3
HDMI_RX_1_VDD1P2Y4
HDMI_RX_1_VDD2P5W5
HDMI_RX_1_AVSS_1W1
HDMI_RX_1_AVSS_2U5
HDMI_RX_1_AVSS_3W6
HDMI_RX_1_AVSS_4U7
HDMI_RX_1_AVSS_5V7
HDMI_RX_1_AVSS_6W7
HDMI_RX_1_AVSS_7U8
HDMI_RX_1_AVSS_8V8
HDMI_RX_1_AVSS_9Y5
HDMI_RX_1_PLL_AVSSV6
HDMI_RX_1_PLL_DVDD1P2AA4
HDMI_RX_1_PLL_DVSSY7
R2035
0
R20361K
R188 10K
R120
91
R14091
R129
91
R135
91
R138
91
R127
91
R142 91
OPTR143 91
OPT
R3055240
A2.5V
R402010K
R4021
12KC4020
0.1uF
R3056
120
TP107
TP101
TP102
TP103
TP104
TP105
TP106
TP108
TP109
TP110
TP111
TP112
TP113
11 15JANG.J.H.
CONNECT NEAR BCM CHIP
A B C D E F G H I J
1
2
3
4
5
6
7
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23
MICOM
BCM (BRAZIL VENUS)
UCOM_RX14:H2
R460
68K
OPT
C4100.1uF
16V
GND
GND
C414
0.1uF
16V
DDC_SDA9:G7;14:A4
R417 22
EDID_WP 14:A4
R447 4.7K
IR14:A3;14:E6
C4020.1uF16V
R428
15K
R444
100
OPT
R465 100GND
R404220
OPC_EN
7:I5
R461
6.8K
R441
100
UCOM_TX14:I1
AMP_MUTE
3:E3
R414
10K
C412
0.1uF
OPT
100
R430
R415
4.7K
C4060.1uF
16V
R420 22
R45247K
OPT
SDA2_3.3V
9:B5;9:I4
X40124MHz
C407OPTOPT
GND
+3.3V_ST
AMP_RST 9:G7;9:I3;3:C5R432
47K
R403 0
OPT
R413
4.7K
+3.3V_ST
R436
22
GND
GND
GND
IC405
24LC16BT-I/SN
3A2
2A1
4VSS
1A0
5SDA
6SCL
7WP
8VCC
Q401
2SC3875S(ALY)
E
B
C
HDMI_CEC
2:AD26
R466 100OPT
SCL2_3.3V
9:B5;9:I4
RL_ON 4:C7;14:E5
KEY1 14:E6
R4594.7K
OPT
C411100uF16V
GND
R407
47K
R405220
DDC_SCL9:G7;14:A4
R434
22
+3.3V_ST
GND
IC402
KIA7029AF
2
G
3 O1I
R402
OPT
OPT
PANEL_CTL 4:H1
GND
R446
0OPT
R455
4.7K
OPT
+3.3V_ST
R427
4.7K
IC406
MTV416GMF
1HSYNC/P1.5
2VSYNC/P1.6
3P1.7/SOGI
4RST
5HSCL1/P3.0/RXD
6P4.3/AD3
7HSDA1/P3.1/TXD
8P3.2/INT0
9P3.3/INT1
10ISDA/P3.4/T0
11ISCL/P7.5
12
HSDA2/P7.4
13
HSCL2/P7.3
14
X2
15
X1
16
VSS
17
P4.0/AD0
18
P6.0/CLKO1
19
P6.1
20
P6.2
21
P6.3
22
P6.4
23 P6.524 P6.625 P6.726 P7.2/HCLAMP27 P7.1/VBLANK28 P4.1/AD129 P7.0/HBLANK30 P5.7/CLKO231 P5.632 P5.533 P5.4
34
P5.3
35
P5.2
36
P5.1
37
P5.0
38
VDD
39
P4.2/AD2
40
P1.0/ET2
41
P1.1/DA0
42
P1.2/DA1
43
P1.3/DA2
44
P1.4/DA3
KEY2 14:E6
+3.3V_ST
GND
C40822pF50V
R429OPT
OPT
+3.3V_ST
R424 22
GND
R445
0OPT
GND
R423 OPT
OPT
C40922pF50V
C413
0.1uF
R425 22
C4030.1uF16V
R467 22
+3.3V_ST
R406
4.7K
R449 100
OPT
UCOM_SDA_3.3V
14:E6
R450 100
OPT
UCOM_SCL_3.3V
14:E7
+3.3V_ST
POWER_DET 9:C1
ERROR_OUT
4:C5
INV_ON/OFF 4:C5R468 100
R435
0OPT
R439
0
OPT
R442
4.7K
LED_POWER_ON
14:E5
LED_WARM_STBY
14:E5
R474
100
R471
100
R464
100
RESET 9:A7
R479
1K
OPT
POWER_DET
9:A7;I4+12V
+24V
+5.0V
+3.3V_ST
R431 100
OPT
R401
1K
R416 0
R443
22
GND
R499
4.7K
R494
4.7K
R470
100
R476
15K
R47810K
OPT
R4802.2KOPT
IC1003
NCP803SN293
1
GND
3 VCC2RESET
+3.3V_ST
R487
100KOPT
R48430K
R48230KOPT
R486
0
OPT
R4900
OPT
R48510K
R481
0
OPT
R491
5.1K
R462100
R456100
R483
0
R4920
OPT
Q404
2SC3052
OPT
E
B
C
Q4052SC3052
OPT
E
B
C
R453
1K
R451 2K
R454 2K
R488
33K
R421 4.7K
R4184.7K
C4150.1uF16V
Q402RT1N141C-T112-1
E
B
C
R472
4.7K
+5.0V
GND
D3.3V
+5V_ST
R440
100
R477
6.8K
+3.3V_ST
R475 1K
FLASH_WP_1 4:C5
R495
4.7K
R496
4.7K
R48933K
12 15
M5V_ON
POWER DETECT
LIM.K.RR435 : READY FO 1.2V BCM ENABLE
READY FO 1.2V BCM ENABLE
A B C D E F G H I J
1
2
3
4
5
6
7
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23
BCM3549 POWER
BRAZIL DVR DV
R20520
D1.2V
A3.3V
C20030.1uF
D1.8V
D3.3V
C2510.01uF
C2714.7uF
C2890.1uF
C2470.1uF
D1.8V
C2501000pF
C2481000pF
C2760.1uF
C2441000pF
C2494.7uF
C2811000pF
C2940.1uF
C2460.01uF
C2641000pF
D3.3V
C2670.01uF
D1.2V
D3.3V
C28633uF
C2584.7uF
C2650.1uF
C2160.1uF
C25410uF
C2831000pF
C2850.01uF
C2974.7uF
C20050.01uF
C2720.1uF
C2454.7uF
C2551000pF
C2881000pF
C20060.01uF
C28733uF
C2700.1uF
C2591000pF
C2930.01uF
C29110uF
C2681000pF
C2634.7uF
C2664.7uF
C2784.7uF
C2570.01uF
C200433uF
C2620.01uF
C25310uF
C2840.01uF
C2520.1uF
C2821000pF
C2900.01uF
C2921000pF
C2750.1uF
C2804.7uF
C2430.1uF
D1.2V
C2610.1uF
D1.8V
C2690.01uF
C2560.1uF
C3180.1uF
16V
C3640.1uF
16V
C3040.1uF
16V
C3200.1uF
16V
C3190.1uF
16V
C3480.1uF
16V
D1.8V
C3630.1uF
16V
C3650.1uF
16V
C3560.1uF
16V
C357
10uF10V
IC100BCM3556
DVSS_1AD5
DVSS_2AD6
DVSS_3J7
DVSS_4K7
DVSS_5L7
DVSS_6M7
DVSS_7AB7
DVSS_8AC7
DVSS_9G8
DVSS_10D9
DVSS_11AA9
DVSS_12G10
DVSS_13A11
DVSS_14L11
DVSS_15M11
DVSS_16N11
DVSS_17P11
DVSS_18R11
DVSS_19T11
DVSS_20U11
DVSS_21V11
DVSS_22D12
DVSS_23G12
DVSS_24L12
DVSS_25M12
DVSS_26N12
DVSS_27P12
DVSS_28R12
DVSS_29T12
DVSS_30U12
DVSS_31V12
DVSS_32L13
DVSS_33M13
DVSS_34N13
DVSS_35P13
DVSS_36R13
DVSS_37T13
DVSS_38U13
DVSS_39V13
DVSS_40G14
DVSS_41L14
DVSS_42M14
DVSS_43N14
DVSS_44P14
DVSS_45R14
DVSS_46T14
DVSS_47U14
DVSS_48V14
DVSS_49L15
DVSS_50M15
DVSS_51N15
DVSS_52P15
DVSS_53R15
DVSS_54T15
DVSS_55U15
DVSS_56V15
DVSS_57A16
DVSS_58G16
DVSS_59L16
DVSS_60M16
DVSS_61N16
DVSS_62P16
DVSS_63R16
DVSS_64T16
DVSS_65U16
DVSS_66V16
DVSS_67AA16
DVSS_68D17
DVSS_69L17
DVSS_70M17
DVSS_71N17
DVSS_72P17
DVSS_73R17
DVSS_74T17
DVSS_75U17
DVSS_76V17
DVSS_77AA17
DVSS_78AC19
DVSS_79G18
DVSS_80L18
DVSS_81M18
DVSS_82N18
DVSS_83P18
DVSS_84R18
DVSS_85T18
DVSS_86U18
DVSS_87V18
DVSS_88D20
DVSS_89G20
DVSS_90H20
DVSS_91A21
DVSS_92E21
DVSS_93F21
DVSS_94G21
DVSS_95E22
DVSS_96F22
DVSS_97G22
DVSS_98H22
DVSS_99J22
DVSS_100K22
DVSS_101L22
DVSS_102M22
DVSS_103N22
DVSS_104P22
DVSS_105R22
DVSS_106T22
DVSS_107U22
DVSS_108V22
DVSS_109W22
DVSS_110Y22
DVSS_111AA22
DVSS_112W23
DVSS_113AB23
DVSS_114F28
DVSS_115M28
DVSS_116T28
DVSS_117AC28
IC100BCM3556
VDDC_1H8
VDDC_2J8
VDDC_3K8
VDDC_4L8
VDDC_5M8
VDDC_6N8
VDDC_7P8
VDDC_8R8
VDDC_9AA8
VDDC_10H9
VDDC_11H10
VDDC_12H11
VDDC_13H12
VDDC_14H13
VDDC_15H14
VDDC_16H15
VDDC_17H16
VDDC_18H17
VDDC_19H18
VDDC_20H19
VDDC_21H21
VDDC_22J21
VDDC_23K21
VDDC_24L21
VDDC_25M21
VDDC_26N21
VDDC_27P21
VDDC_28R21
VDDC_29T21
VDDC_30U21
VDDC_31V21
VDDC_32W21
VDDC_33Y21
AGC_VDDOAH27
VDDO_1AA12
VDDO_2AA13
VDDO_3AA18
VDDO_4AA19
VDDO_5E28
VDDO_6L28
VDDO_7U28
VDDO_8AB28
DDRV_1A9
DDRV_2G9
DDRV_3G11
DDRV_4G13
DDRV_5A14
DDRV_6G15
DDRV_7G17
DDRV_8A19
DDRV_9G19
1513JANG.J.H
A B C D E F G H I J
1
2
3
4
5
6
7
USB DOWN STREAM
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23BRAZIL VENUS
C711
0.1uF16V
R7010
R7030
RS232C_RxDA3
BCM_RX9:G6
BCM_TX 9:G6
C712
47uF16V
+5.0V
IC702MC14053BDR2G
0ISTL00024A
3Z1
2Y0
4Z
1Y1
6INH
5Z0
7VEE
8VSS
9C
10B
11A
12X0
13X1
14X
15Y
16VDD
+5V_ST
R7050
RS232_BYPASS
R7020
RS232_BYPASS
UCOM_RX12:D4
UCOM_TX 12:D4
RS232C_TxD A3
R7064.7K
R_RS232_SWITCHING
R704100K
USB_OCD1 10:D4
USB_CTL110:D5
USB_DP2 10:D4
R717
47
D705
5.6VCDS3C05GTA
OPT
USB_DM1 10:D4
BLUETOOTH_RESET
C7160.1uF
16V
D3.3V
D706
5.6VCDS3C05GTA
OPT
D703
5.6VCDS3C05GTA
OPT
USB_DM2 10:D4
D704
5.6VCDS3C05GTA
OPT
D3.3V
VREG_CTRL
L708
BLM18PG121SN1D
IC701MIC2009YM6-TR
3ENABLE
2GND
4FAULT/
1VIN
6VOUT
5ILIMIT
USB_DP1 10:D4
R7182.7K
R7212.7K
R7200
R7190
JP712
JP711
JP713
+5V_ST
USB_POWER_OUT_2
USB_POWER_OUT_2
R72227
R72327
C714100uF
C715100uF16V
P702
12507WR-10L
1
2
3
4
5
6
7
8
9
10
11
L709
MLB-201209-0120P-N2
USB_5VST
L706MLB-201209-0120P-N2
L707
CB3216PA501E
ZD703
C7080.1uF
UCOM_SCL_3.3V 12:F6
L704
BG2012B080TFL705
CB3216PA501E
C7060.1uF
KEY2 12:H3
D701
CDS3C05HDMI1
C7071000pF50V
OPT
L703BG2012B080TF
ZD701
+5V_ST
UCOM_SDA_3.3V 12:F6
KEY1 12:H3
C7051000pF50V
OPT
C704
0.1uF
D702CDS3C05HDMI1
R710
10K
LED_WARM_STBY
+3.3V_ST
R7120
Q7022SC3052
OPT E
B
C
R715
120K
OPT
R7110
OPTC7100.1uF16V
C702
100pFZD702
OPT
IR12:D4;A3L701
BG2012B080TF
C7031000pF50V
L702CB3216PA501E
C7010.1uF
+3.3V_ST
R7080
OPT
R7130
RL_ON
R707
10K
Q7012SC3052
E
B
C
R7094.7K
+3.3V_ST
C7090.1uF16V
R7140
OPT
LED_POWER_ON
JK702
KJA-UB-4-0004
12
34
5
C71310uF16V
P701
12507WS-12L
1SCL
2SDA
3GND
4KEY1
5KEY2
65V_ST
7GND
8WARM_ST
9IR
10GND
113.3V_ST
12POWER_ON
13
GND
R716
130
L710
MLB-201209-0120P-N2
USB_+5V
+5.0V
JP715
JP716
1514
RS232_SWITCHING
BCM Tolerance
USB JACK & USB +5V Current Protection
Blue Tooth
Make this trace minimum 12 mil
DO.J.G
CONTROL IR/BT/USB
Not enough space
CONTROL IR & LED
A B C D E F G H I J
1
2
3
4
5
6
7
THE SYMBOL MARK OF THIS SCHEMETIC DIAGRAM INCORPORATESSPECIAL FEATURES IMPORTANT FOR PROTECTION FROM X-RADIATION.FILRE AND ELECTRICAL SHOCK HAZARDS, WHEN SERVICING IF IS ESSENTIAL THAT ONLY MANUFATURES SPECFIED PARTS BE USED FORTHE CRITICAL COMPONENTS IN THE SYMBOL MARK OF THE SCHEMETIC.
2009.03.23BRAZIL VENUS
GAIN_SWITCH
RF_SWITCH
R500722
C5012
0.01uF
SCL0_3.3V 3:T26
R5012
0
R500922
C50210.01uF
R50000
LGIT
TU_SYNC 3:T27TU_+5.0V
R5019
56 OPT
TU_+5.0V
R500622
GAIN_SWITCH 3:T24
Q50002SA1530A-T112-1R
E
B
C
C50110.1uF
L5002
L5000
LGIT
C500322pF50V
LGIT
LD5001SAM2333
A2[GN]C
A1[RD]
R5020
12K
C5018
22uF
C5016
0.1uF
TU_SIF 3:T25
GND
R501856
C5010
22uF
C5005-*1
0.1uF50VLGIT
R50020 LGIT
TU_SCLK 3:T27
C500122pF50V
LGIT
R5024
470
TU_SDATA 3:T27
L5006
C50190.01uF
C50170.1uF
R5013
0
R500522
R5004
0
R50231K
TU_CVBS_IN 3:T25
C50020.1uF50VLGIT
C500022uF16V
LGIT
L5007
TUNER_RESETb 3:T26
C50052200pF50V
R500822
R5014
0
R50010 LGITTU101VA1G5BF8005
SHARP
14RSEORF
13SCL
5AFT
12SDA
11RESET
2GAIN_SW
10B4
4B1
1RF_SW
17SRDT
9B3
8B2
3BB
16SPBVAL
7VIDEO
6SIF
15SBYTE
18SRCK
19
SHIELD
C5014
22uF
TU_+5.0V
D3.3V
L5005
D3.3V
L5004
C5020
0.1uF
C50072200pF50V
RF_SWITCH 3:T24
R50220
OPT
C500910uF
16V
R501022
R5021
10K
D1.2V
R5015
4.7K
OPT
LD5000SAM2333
A2[GN]C
A1[RD]
C5015
22uF
SDA0_3.3V 3:T26D3.3V
R5025 330
C5023100uF16V
C50260.33uF16V
C50290.1uF50V
TU_+5.0V
C50320.1uF16V
IC5002
AS7809DTRE1
2
GND
3 OUTPUT1INPUT
L5008MLB-201209-0120P-N2
IC5001
KIA78R05F
1
VIN
2
VC
3
VOUT
4
NC
5
GND1
6
GND2
C502847uF16V
R5026
100
D3.3V
C50220.1uF16V
C50300.01uF50V
C50344.7uF10VOPT
C50334.7uF10V
OPT
C50240.1uF50V
C5025100uF16V
+5V
L5010MLB-201209-0120P-N2
C50310.1uF16V
+12V
L5009MLB-201209-0120P-N2
C5035100uF16V
C50270.1uF50V
C5036100uF16V
D2.5V
R5003
82 OPT
L5001
FI-C3216-103KJT
OPT
C500491pF50V OPT
TU102
TDYR-H071F
LGIT
14B3[3.3V]
13B2[2.5V]
5RF_AGC
12AIF
11NC_3
2RF-GAIN_SW
19RSEORF
18SCL
10NC_2
4VTU
1CTR
17SDA
9VIDEO_OUT
8SIF
3B0[+5V]
16RESET[SYRSTN]
7NC_1
6B1[+5V]
15B4[1.2V]
24
SHIELD
20SBYTE
21SPBVAL
22SRDT
23SRCK
1515DO.J.G
TUNER
Place close to Pin
A B C D E F G H I J
1
2
3
4
5
6
7