Figure 1
Figure 2
SUBJECT: Procedure for replacing Plasma panel assembly. PROCEDURE: PREPARATION AND INITIAL DISASSEMBLY 1. Plasma placed face down on padded surface. 2. Remove the Stand. 3. Remove the center signal processing PCB shield. 4. Remove the main back cover. V/A PROCESSING BOARD DISASSEMBLY 1. Remove all the connectors from the Video /
Audio Signal Processing PCB. 2. Remove the V/A Signal Processing PCB. 3. Remove the V/A Signal Processing PCB
internal shield. (Sub Shield) 4. Remove the connectors from the Power
Supply and Logic PCB from the defective panel assembly. You need them to install on the new panel assembly since they are not included.
DEFECTIVE PANEL ASSEMBLY REMOVAL 1. Remove the 4 corner screws from the defective
panel assembly. See figure 1. 2. Remove the defective panel Assembly from the cabinet. 3. Pull up on the wall mount metal brackets to
remove the defective panel Assembly from the cabinet. See figure 2.
4. Inspect and clean the polarizer glass filter for dirt and marks if necessary.
Tech Tip PRODUCT: Plasma TV TIP NUMBER: ASC20051115003 TIP DATE: 11/15/2005 MODELS:
All 50” Screen Size
Chassis N/A
Figure 3
Figure 4
NEW PANEL ASSEMBLY INSTALLATION 1. Remove new panel assembly from
protective bag. 2. Do not touch the panel glass. 3. Mount panel assembly w/support
transport jig over the cabinet. Use caution not to bend the panel assembly or else the panel may become defective.
4. Line up the corners of the panel assembly with the inside corners of the cabinet.
5. Remove the 4 screws that connect the panel assembly with the transport jig. See figure 3.
6. The panel assembly should lower into the cabinet. If not, carefully reposition until the panel assembly is properly aligned with the four cabinet corner screw holes.
7. Secure the panel assembly to the cabinet with the 4 corner screws. See figure 1.
V/A PROCESSING BOARD REASSEMBLY 1. Replace all the connectors to the Power Supply and Logic PCBs. 2. Align all connections that will connect to the V/A Processing PCB before
installing the V/A Signal Processing PCB internal shield. 3. Install the V/A Signal Processing PCB internal shield. 4. Install the V/A Signal Processing PCB. 5. Reconnect all the connectors to the V/A Signal Processing PCB. NEW PANEL ASSEMBLY TEST & ADJUSTMENT 1. Test fire to confirm the new panel
Assembly is OK. 2. Connect R, G, B & W Raster pattern
generator to the unit. 3. Plug the unit in and turn it on. 4. Confirm the display fully lights up. 5. Check for pixel defects using R, G, B
& W Raster pattern. 6. Confirm the Menu function works. 7. Confirm and set Panel Sticker Voltages.
See figure 4. 8. Confirm and adjust panel voltages according to the panel sticker. UNIT REASSEMBLY Re-install the main back cover. Re-install the center signal-processing shield. Re-install the stand.
Stand the unit back up. VIDEO TEST & ADJUSTMENT Reconnect all video inputs. Test picture quality of all inputs. Perform White Balance adjustment in service mode if necessary. (Consult the Service Manual). Note: Consult Disassembly and re-Assembly instructions in the Service Manual for more information. This procedure is intended to be used as a general guide for all 50” Plasma units. Specific items may not match the unit you are working on. In this case consult the Service Manual for more detail. FINAL STEP Re-Attach the Transport Jig to the defective Panel Assembly. Place the defective panel Assembly back in the wooden crate. Seal and return to Samsung Parts.
Note: Consult the Samsung Service Website at (www.samsungasc.com) for the Service Manual and other information on this product.
PLASMA DISPLAY TVChassis : D71C(N_HD_POD_HDMI)_StraussModel : HPR5052X/XAA (HP-R5052)
PLASMA DISPLAY TV FEATURES
NTSC/ATSC Tuner Built-In
12-Bit Processing (68.7 Billion Colors)
Split Screen & Picture-In-Picture
Samsung DNIe™™(Digital Natural Image engine)
SRS TruSurround XT™™
1 HDMI Input
Energy Saving
Anynet™™ System Control Solution
SAMSUNG EPG System
Digital Cable Card Slot
SERVICE Manual
HP-R5052
This Service Manual is a property of Samsung Electronics Co.,Ltd.Any unauthorized use of Manual can be punished under applicableInternational and/or domestic law.
© Samsung Electronics Co., Ltd. Jul. 2005Printed in KoreaAA82-02311A
ELECTRONICS
Table of Contents
Chapter 1 Precaution 1-1 Safety Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 1-2 Servicing Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3 1-3 Static Electricity Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4 1-4 Installation Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
Chapter 2 Product Specification 2-1 Product Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 2-2 Key Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2 2-3 Specifications Analysis . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5 2-4 Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
Chapter 3 Alignment & Adjustment 3-1 Service Instruction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 3-2 How to Access Service Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2 3-3 Factory Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3 3-4 Service Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-11 3-5 Software Upgrade . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-16 3-6 Replacements & Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-18
Chapter 4 Exploded View & Part List 4-1 HPR5052X/XAA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
Chapter 5 Electrical Part List 5-1 HPR5052X/XAA Service Item . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
Chapter 6 Troubleshooting 6-1 First Checklist for Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1 6-2 Checkpoints by Error Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2 6-3 Troubleshooting Procedures by ASS'Y . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-7
Chapter 7 Block Diagram 7-1 Overall Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 7-2 Partial Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2
Chapter 8 Wiring Diagram 8-1 Overall Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1
Chapter 9 PCB Diagram 9-1 Overall PCB Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1
Chapter 10 Schematic Diagram 10-1 POWER & TUNER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-1 10-2 SOUND-PROCESS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-2 10-3 MICOM & IO-EX & AV IN/OUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-3 10-4 HDMI & PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-4 10-5 SVP-EX52 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-5 10-6 S3C2800 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-6 10-7 EAGLE+ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-7 10-8 POD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-8 10-9 DNIe Lite & LVDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-9 10-10 Function A'ssy Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-10 10-11 Power & IR A'ssy Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-11
Chapter 11 Operation Instruction & Installation 11-1 Product Features and Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-1 11-2 New Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-5 11-3 Installation Notes and Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-7
Chapter 12 Disassembly & Reassembly 12-1 Overhaul Disassembly & Reassembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-1
Chapter 13 Circuit Description 13-1 Power ON/OFF Signal Timing Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-1 13-2 Partial Block Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-2 13-3 New Circuit Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-28
Chapter 14 Reference Information 14-1 Other issues related to other products . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-1 14-2 Technical Terms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-3
1. Make sure all protective devices are properly installedincluding non-metallic handles and compartment coverswhen installing or re-installing the chassis or chassisassemblies.
2. Make sure that no gaps exist between the cabinets forchildren to insert their fingers in to prevent children fromreceiving electric shocks. Gaps mentioned above includeventilation holes of a too great magnitude between thePDP module and the cabinet mask, and the improperinstallation of the rear cabinet.
Errors may occur when the resistance is below 1.0 orover 5.2 .In these cases, make sure that the device is repairedbefore sending it back to the customer.
3. Check for Electricity Leakage (Figure 1-1)Warning: Do not use an insulated transformer for check-ing the leakage. Use only those current leakage testersor mirroring systems that comply with ANSIC 101.1 andthe Underwriter Laboratory's specifications (UL1410,59.7).
Fig. 1-1 AC Leakage Test
4. A high voltage is maintained within the specified limitsusing safety parts, calibration and tolerances. When voltage exceeds the specified limits, check each specialpart.
5. Warning for Engineering Changes:Never make any changes or additions to the circuitdesign or the internal part for this product.Ex: Do not add any audio or video accessoryconnectors. This might cause physical damage.Furthermore, any changes or additions to the originaldesign/engineering will invalidate the warranty.
6. Warning - Hot Chassis:Some TV chassis are directly connected to one end ofthe AC power cord for electrical reasons.Without insulated transformers, the product can only berepaired safely when the chassis is connected to theearthed end of the AC power source.
To make sure the AC power cord is properly connected,follow the instructions below. Use the voltmeter tomeasure the voltage between the chassis and theearthed ground. If the measurement is over 1.0V, unplugthe AC power cord and change the polarity before re-inserting it. Measure the voltage between the chassisand the ground again.
7. Some TV chassis are shipped with an additionalsecondary grounding system. The secondary system isadjacent to the AC power line. These two groundingsystems are separated in the circuit using anunbreakable/unchangeable insulation material.
8. When any parts, material or wiring appear overheated ordamaged, replace them with new regular onesimmediately. When any damage or overheating isdetected, correct this immediately and make a regularcheck of possible errors.
9. Check for the original shape of the lead, especially thatof the antenna wiring, any sharp edges, the AC powerand the high voltage power. Carefully check if the wiringis too tight, incorrectly placed or loose. Never change thespace between the part and the printed circuit board.Check the AC power cord for possible damages. Keepthe part or the lead away from any heat-emittingmaterials.
Precaution
Samsung Electronics 1-1
LEAKAGECURRENTTESTER
DEVICEUNDERTEST
TEST ALLEXPOSED METAL
SURFACES
2-WIRE CORD
ALSO TEST WITHPLUG REVERSED
(USING AC ADAPTERPLUG AS REQUIRED)
EARTHGROUND
(READING SHOULDNOT BE ABOVE
0.5mA)
To avoid possible damages or electric shocks or exposure to radiation, follow the instructions below with regard to safety,installation, service and ESD.
1. Precaution
1-1 Safety Precautions
10. Safety Indication:Some electrical circuits or device related materialsrequire special attention to their safety features, whichcannot be viewed by the naked eye. If an original part isreplaced with another irregular one, the safety orprotective features will be lost even if the new one has ahigher voltage or more watts.
Critical safety parts should be bracketed with ( ).Use only regular parts for replacements (in particular,flame resistance and dielectric strength specifications).Irregular parts or materials may cause electric shock orfire.
Precaution
1-2 Samsung Electronics
!
1. The service instructions are printed on the cabinet, andshould be followed by any service personnel.
2. Make sure to unplug the AC power cord from the powersource before starting any repairs.(a) Remove or re-install parts or assemblies.(b) Disconnect the electric plug or connector, if any.(c) Connect the test part in parallel with the electrolyticcapacitor.
3. Some parts are placed at a higher position than theprinted board. Insulated tubes or tapes are used for thispurpose. The internal wiring is clamped using buckles toavoid contact with heat emitting parts. These parts areinstalled back to their original position.
4. After the repair, make sure to check if the screws, partsor cables are properly installed. Make sure no damage iscaused to the repaired part and its surroundings.
5. Check for insulation between the blade of the AC plugand that of any conductive materials (i.e. the metalpanel, input terminal, earphone jack, etc).
6. Insulation Check Process: Unplug the power cord fromthe AC source and turn the switch on. Connect the insu-lating resistance meter (500v) to the AC plug blade.
The insulating resistance between the blade of the ACplug and that of the conductive material should be morethan 1 .
7. Any B+ interlock should not be damaged.If the metal heat sink is not properly installed, noconnection to the AC power should be made.
8. Make sure the grounding lead of the tester is connectedto the chassis ground before connecting to the positivelead. The ground lead of the tester should be removedlast.
9. Beware of risks of any current leakage coming intocontact with the high-capacity capacitor.
10. The sharp edges of the metal material may causephysical damage, so ensure wearing protective glovesduring the repair.
11. Due to the nature of plasma display panels, partial after-images may appear if a still picture is displayed on thescreen for a long period of time.This is caused by brightness deterioration due to thestorage effect of the panel, and to prevent this fromhappening, we recommend that the brightness and con-trast are reduced.(e.g.) Contrast: 25, Brightness: 50
Precaution
Samsung Electronics 1-3
Warning 1: First carefully read the "Safety Instruction" in this service manual.When there is a conflict between the service and the safety instructions, follow the safety instruction at all times.
Warning 2: Any electrolytic capacitor with the wrong polarity will explode.
1-2 Servicing Precautions
1-3 Static Electricity Precautions1. Some semi-conductive ("solid state") devices are
vulnerable to static electricity. These devices are knownas ESD. ESD includes the integrated circuit and the fieldeffect transistor. To avoid any materials damage fromelectrostatic shock, follow the instructions describedbelow.
2. Remove any static electricity from your body byconnecting the earth ground before handling anysemi-conductive parts or ass'ys. Alternatively, wear adischargeable wrist-belt.(Make sure to remove any static electricity beforeconnecting the power source - this is a safety instructionfor avoiding electric shock)
3. Remove the ESD ass'y and place it on a conductivesurface such as aluminum foil to prevent accumulatingstatic electricity.
4. Do not use any Freon-based chemicals.Such chemicals will generate static electricity thatcauses damage to the ESD.
5. Use only grounded-tip irons for soldering purposes.
6. Use only anti-static solder removal devices.Most solder removal devices do not support ananti-static feature. A solder removal device without ananti-static feature can store enough static electricity tocause damage to the ESD.
7. Do not remove the ESD from the protective box until thereplacement is ready. Most ESD replacements arecovered with lead, which will cause a short to the entireunit due to the conductive foam, aluminum foil or otherconductive materials.
8. Remove the protective material from the ESDreplacement lead immediately after connecting it to thechassis or circuit ass'y.
9. Take extreme caution in handling any uncovered ESDreplacements. Actions such as brushing clothes or liftingyour leg from the carpet floor can generate enough staticelectricity to damage the ESD.
Precaution
1-4 Samsung Electronics
CAUTION
These servicing instructions are for use by qualified service personnel only. To reduce the risk of electric shock do not perform any servicing other than that contained in theoperating instructions unless you are qualified to do so.
Precaution
Samsung Electronics 1-5
1-4 Installation Precautions1. For safety reasons, more than two people are required
for carrying the product.
2. Keep the power cord away from any heat emittingdevices, as a melted covering may cause fire or electricshock.
3. Do not place the product in areas with poor ventilationsuch as a bookshelf or closet. The increased internaltemperature may cause fire.
4. Bend the external antenna cable when connecting it tothe product. This is a measure to protect it from beingexposed to moisture. Otherwise, it may cause a fire orelectric shock.
5. Make sure to turn the power off and unplug the powercord from the outlet before repositioning the product.Also check the antenna cable or the external connectorsif they are fully unplugged. Damage to the cord maycause fire or electric shock.
6. Keep the antenna far away from any high-voltage cablesand install it firmly. Contact with the high-voltage cable orthe antenna falling over may cause fire or electric shock.
7. When connecting the RF antenna, check for a DTVreceiving system and install a separate DTV receptionantenna for areas with no DTV signal.
8. When installing the product, leave enough space (4")between the product and the wall for ventilationpurposes.A rise in temperature within the product may cause fire.
9. When moving a PDP with attached speakers, detach thespeakers first before moving the main body.Moving the PDP main body without separating thespeakers may cause the speakers to detach, possiblycausing damage or injury.
1-6 Samsung Electronics
MEMO
Product Specification
Samsung Electronics 2-1
2. Product Specification2-1 Product Features
Block Specfication Major IC Remark
RF Digital/Analog (DTV Built In) POD NIM TunerS5H2010A01 (Eagle+)
PDP Module Samsung SDI V4 Module 50" HD New ModulePower Samsung electro mechanics SMPS 50" HD SMPS New SMPS
Video
NTSC 3.58, ATSCHDMIDNIe LiteComponent, PC
STP22 (Scaler)SDP43 (DNIe Lite)MST9883 (PC A/D)SiI9993 (HDMI)
Sound Speaker : 15W + 15WSRS TruSurround XT, Dolby Digital
MSP4440G, NSP-6241TAS5122
Optical, CoaxialOutput
Cabinet S5 Design New Cabinet
Chip Description- DNVD355BH401A Tuner : ATSC/NTSC/QAM POD NIM Tuner- STP22 : Component, CVBS, Y/C, HDMI, PC input Video signal processor- SDP43 : The DNIe IC for visual quality improvement. (DNIe Lite)- Sii9993 : Converts the TMDS signal on the HDMI input into 8 bit digital R, G, B signals.- MSP4440G : Sound Processing IC- MST9883 : A/D converts the R, G, B input signal from 15 Pin PC video to 8 bit digital R, G, B signals.- NSP6241A: Sound PWM IC- TAS5122 : Sound AMP IC- S5H2010A01 : MPEG Decoder IC (EAGLE+)- S3C2800X01 : CPU IC- 3F8668 : Generates various control signals required for operating the circuit.
The software is downloaded through PC D-SUB Jack. (Sub Micom)
Product Specification
2-2 Samsung Electronics
2-2 Key FeaturesModel HP-R5052
Dimensions Display48.43 (W) x 32.52 (H) x 3.72 (D) inches (Without Stand)48.43 (W) x 34.47 (H) x 13.18 (D) inches (With Stand)
Weight Display46.8Kg / 103.17 lbs (Without Stand)
53.5Kg / 117.95 lbs (With Stand)Voltage AC 110 V~, 60 HzPower Consumption 420WNumber of Pixels 1366 (H) x 768 (V)Screen Size 50 inches
ANTENNA inputANT 1 - CABLE IN
ANT 2 - AIR IN※ 75Ω unbalanced
VIDEO input
AVS-VIDEO
COMPONENT1 - 480i/480p/720p/1080iCOMPONENT2 - 480i/480p/720p/1080i
PCHDMI (DVI Compatible)
AUDIO input
AVS-VIDEO
COMPONENT1 - 480i/480p/720p/1080iCOMPONENT2 - 480i/480p/720p/1080i
PCDVI
AV Output AUDIO (L/R)Speaker Output 15W + 15W (8Ω )
Audio Output OPTICAL(DIGITALOUT)COAXIAL(DIGITALOUT)
ETC DNIe Lite, Anynet, Color Weakness, My Color Control, SRS TruSurround XT, Dolby Digital,Built-in Speaker/Stand, POD Cable card slot
New Function Energy Saving, Screen Burn Protection
H/W Configuration- DTV Module : S5H2010A01 (MPEG Decoder IC, Eagle+)- Video : STP-22, MST9883, SiI9993, DNIe Lite- Sound : MSP4440G, NSP-6241, TAS5122- Tuner : UMX-NT-041 (RF-Spitter), DVVD355BH401A (POD NIM Tuner)- CPU : S3C2800X01, S3F866B, P_PCFM_012
S/W Configuration- Main Program : TE28F128 (Flash memory)- Sub-Micom : S3F866B- DDC : 24C02 x2 (Analog DDC Data, Digital DDC Data)- EEPROM : 24C256 (White balance data and Factory initial data)
Product Specification
Samsung Electronics 2-3
Picture- System : Video → ATSC / NTSC / QAM- Progressive- Output resolution : 1366 x 768 p- OSD : Smart user Interface Grade 1- Picture Enhancement : DNIe Lite- Still picture, Noise reduction- Comb Filter : 3D comb filter- PIP : Large, Double 1, Double 2- Picture Size : 16:9, Panorama, Zoom1, Zoom2, 4:3 (AV, S-Video, Component 480i/480p))
16:9, 4:3 (Component 720p/1080i, PC, HDMI)
Sound- System : Stereo- Dolby Digital, TruSurround XT- Output : 15W + 15W- Speaker : Built-in- Optical/Coaxial Sound Output : Dolby Digital, PCM (DTV), PCM (HDMI)
Feature- Component Interface(480i/480p/720p/1080i, Y/Pb/Pr)- Digital Interface : HDMI (480p/720p/1080i)- Auto Program- Sleep Timer : 180 Minutes- Anynet Interface- My Color Control- Color Weakness- Energy Saving- Screen Burn Protection
In/Out Terminals- 1 Monitor audio Output- 2 Component Inputs- 15 Pin PC D-sub Input- 1 HDMI Input- 2 SPDIF Output (Optical, Coaxial)- 2 RF Input : Cable/Air- 1 CVBS Input- 1 S-Video Input
Remocon- TM76
Power Supply- 110V~, 60Hz
Power Comsumption : 420W
HDMI input mode : 480p, 720p, 1080i
Note- You can input the DVI signal using the DVI ↔ HDMI conversion cable.- When connecting HDMI input using the DVI ↔ HDMI conversion cable, connect the sound signal to the DVI Audio IN port
using a separate connection cable.
Product Specification
2-4 Samsung Electronics
PC(D-Sub 15Pin Jack) Input modeThe table below shows all of the display modes that are supported. (N : Negative, P : Positive)
Video Signal Resolution(Dot X Line)
VerticalFrequency (Hz)
HorizontalFrequency (KHz)
VerticalPolarity
HorizontalPolarity
IBM PC / ATCompatible
640 X 350 70.086 31.469 P N
720 X 400 70.087 31.469 N P
640 X 480
59.940 31.469 N N
70.000 35.000 N/P N/P
72.809 37.861 N N
75.000 37.500 N N
800 X 600
56.250 35.156 N/P N/P
60.317 37.879 P P
70.000 43.75 N/P N/P
72.188 48.077 P P
75.000 46.875 P P
1024 X 768
60.004 48.363 N N
70.069 56.476 N N
72.000 57.672 N/P N/P
75.029 60.023 P P
1280 X 720 59.855 44.772 P N
1360 X 768 60.015 47.712 P P
Product Specification
Samsung Electronics 2-5
2-3 Specifications AnalysisModel HP-P5031 HP-P5071 HP-R5052
Design
Basic
Display Type PDP TV PDP TV PDP TVBuilt-In Tuner X X
Resolution 1366 x 768 1366 x 768 1366 x 768
PDP Module Samsung SDI V3 Samsung SDI V3 Samsung SDI V4Screen Size 50" 50" 50"Picture ratio 16:9 16:9 16:9
Power Consumption 490W 490W 420W
Dimensions 47.5"(W) x 28.5"(H) x 3.2"(D)(Without Stand)
49.5"(W) x 29.1"(H) x 3.3"(D)(Without Stand)
48.4"(W) x 32.5"(H) x 3.7"(D)(Without Stand)
Weight 91.9 Lbs (Without Stand) 97 Lbs (Without Stand) 103.17 Lbs (Without Stand)
Picture
Brightness 1,000 Cd/m2 1,000 Cd/m2 1,300 Cd/m2Contrast Ratio 3,000 : 1 3,000 : 1 10,000 : 1
Picture Enhacer DNIe 2 DNIe 2 DNIe LiteComb Filter
Audio
Equalizer 5 Band 5 Band 5 BandAuto Volume Control
Surround Sound SRS TruSurround XT SRS TruSurround XT SRS TruSurround XT Dolby DigitalSpeaker Output 15W +15W 15W +15W 15W +15W
Features
PIP
Double Window
Caption
Still Image
EPG × ×
My Color Control
Color Weakness
Energy Saving × ×
Anynet × ×
Connections
Antenna 1 1 2 (Cable/Air)AV Input 2 3 1S-Video 1 2 1
Component 2 2 2PC(D-SUB) 1 1 1
DVI 1 1 ×
HDMI × × 1POD Cable card × ×
Sub Woofer × × ×
Optical × × 1Coaxial × × 1
ETCSpeaker/Stand Built-in Speaker/Stand Built-in Stand Built-in Speaker/Stand
FCC Class Class B Class B Class B
Product Specification
2-6 Samsung Electronics
2-4 Accessories Accessories Item Item code Remark
Supp
liedA
cces
sorie
s
Owner's Instructions BN68-00835A
Samsung Service center
Remote ControlAAA Batteries
BN59-00462A4301-000103
Power Cord 3903-000144
Anynet Cable BN39-00518A
Acce
ssor
iestha
tcan
bepu
rchas
edad
dition
ally
S-VIDEO Cable -
Internal shopping mall
HDMI Cable -
HDMI/DVI cable -
Component Cables (RCA) -
PC Cable -
PC Audio Cable -
Optical Cable -
Coaxial Cable -
Antenna Cable -
Alignment & Adjustment
Samsung Electronics 3-1
3. Alignment & Adjustment3-1 Service Instruction * Check items listed after changing each
Replaced Items Item Code Check Items
ASSY PCB MISC-MAIN BN94-00671A1) Auto Program2) Let the user go through subscription process after contacting
user's cable service provider.ASSY PCB P-SMPS(MAIN) BN96-01801A Voltage AdjustmentASSY PCB P-SMPS(DC DC) BN96-01856A Voltage AdjustmentASSY PCB P-SMPS(POD) BN96-01805A -ASSY PDP P-LOGIC BOARD BN96-02031A -ASSY PDP P-X MAIN BOARD BN96-02024A -ASSY PDP P-Y MAIN BOARD BN96-02025A -ASSY PDP P-Y UPPER BUFFER BOARD BN96-02026A -ASSY PDP P-Y LOWER BUFFER BOARD BN96-02027A -ASSY PDP P-ADDRESS E BUFF BOARD BN96-02028A -ASSY PDP P-ADDRESS F BUFF BOARD BN96-02029A -ASSY PDP P-ADDRESS G BUFF BOARD BN96-02030A -
※ When replacing the SMPS or PDP panel, you have to check the voltage printed on the panel sticker and adjust it.
Alignment & Adjustment
3-2 Samsung Electronics
3-2 How to Access Service Mode
Using the Customer Remote
1. Turn the power off and set to stand-by mode.
2. Press the remote buttons in this order; MUTE-1-8-2- POWER ON to turn the set on.
3. The set turns on and enters service mode.
4. Press the Power button to exit and store data in memory.※ If you fail to enter service mode, repeat steps 1 and 2 above.
5. Initial SERVICE MODE DISPLAY State
※ "T-STRANUS0S-0036" and "T-STRANUS5-0117" are firmware version.The firmware version is subject to change without notice.
6. Buttons operations within Service ModeMENU Full Menu Display / Move to Parent Menu
Direction keys / Item Selection by Moving the Cursor
Direction keys / Data Increase/Decrease for the Selected Item
Source Cycles through the active input source that are connected to the unit
HDMI/DTV HDCalibration AdjustOption Byte Test PatternWhite Balance Chip DebuggerSVP-EX ChecksumMST9883 Option PDPMSP34XX RESETYC DelayDNIe Lite
T-STRANUS0S-0036 Jan 12 2005T-STRANUS5-0117 [Sec : 29]
Alignment & Adjustment
Samsung Electronics 3-3
3-3 Factory Data The underlined are items applied during the service adjustment. None of the others should be adjusted.
1. Calibration
3. White Balance
ITEMAV Calibration Off
Comp Calibration OffPC Calibration Off
2. Option Byte
ITEMCaption Level 16
MGT-VCT Ver. Check 0V-Chip Enable 1
Watchdog Enable 1Spread Enable PC 1
Clock Adjust 4Nim Version T310MSP Version G
New_WB_CbCr 1
ITEM RangeInitial Values of Input Modes
TV/AV/S-video Component PC HDMISub Bright(SVP) 0~1204 495 513 480 492R-Offset 0~1204 516 512 512 515G-Offset 0~1204 512 512 512 512B-offset 0~1204 512 512 512 511Sub Contrast(DNIe) 0~255 130 131 128 131R-Gain 0~255 128 128 128 128G-Gain 0~255 128 128 128 128B-Gain 0~255 140 140 128 140Sub Contrast(SVP) 256 256 256 256
Alignment & Adjustment
3-4 Samsung Electronics
4. SVP-EX
ITEM RangeInitial Values of Input Modes
TV AV/S-VideoComponent
PC HDMI480i/P 720/1080
00.Comb Filter 01.Y-Filter 01.Peaking 01.V-PosGain 0~15 4 3 2 2 0 3 02.V-NegGain 0~15 4 4 4 2 0 4 03.V-BpGain 0~32 16 16 16 16 16 16 04.V-HfGain 0~32 20 20 20 20 20 20 05.V-Peaking-TH 1 0~256 16 16 16 16 16 16 06.V-Peaking-TH 3 0~256 128 128 128 128 128 12802.NR 01.Y-NR-Off02.C-NR-Off03.Y-NR-On04.C-NR-On
03.Deinterlace 01.Motion
04.Picture Gain Adjust 01.TCD3 Contrast 0~255 120 120 120 - 120 02.TCD3 Brightness 0~255 49 49 49 - 49 03.TCD3 YC Delay 0~15 1 1 1 - 1 04.Analog Y Offset 0~1023 61 61 61 - 61 05.Analog PB Offset 0~1023 512 512 512 - 512 06.Analog PR Offset 0~1023 512 512 512 - 512 07.Analog Y Gain 0~255 217 217 217 - 217 08.Analog PB Gain 0~255 225 225 225 - 225 09.Analog PR Gain 0~255 225 225 225 - 225 10.Black Level Setting 0~255 16 16 0 - 16 11.Brightness 0~255 128 125 128 - 128 12.UserColor(MAX) 0~127 127 127 120 - 12706.WB Control 01.MP R-Offset2 0~1023 512 512 512 512 512 02.MP G-Offset2 0~1023 512 512 512 512 512 03.MP B-Offset2 0~1023 512 512 512 512 512 04.PP R-Offset2 0~1023 512 512 512 512 512 05.PP B-Offset2 0~1023 512 512 512 512 512 06.PP B-Offset2 0~1023 512 512 512 512 512
Alignment & Adjustment
Samsung Electronics 3-5
ITEM SubAddress 'h Range
Initial Values of Input Modes
TV AV/S-Video
Component HDMIPC
480i 480p 720p 1080i 480P 720P 1080i
07. Chroma
01.LtiPeakGain P1 Luma/Croma 0x0F [4:0] 0~31 31 31 31 31 31 31 31 31 31
02.LtiStep P1 Luma/Croma 0x0F [6:5] 0~3 2 2 2 2 2 2 2 2 2
03.LtiTh P1 Luma/Croma 0x10 [7:0] 0~255 16 16 16 16 16 16 16 16 16
04.LtiGain P1 Luma/Croma 0x11 [4:0] 0~31 8 10 10 10 10 10 10 10 10
05.LowPassGain P1 Luma/Croma 0x12 [4:0] 0~31 18 24 17 15 15 20 10 10 10
06.BandPassGain P1 Luma/Croma 0x13 [4:0] 0~31 20 25 24 20 25 28 25 25 25
07.HighPassGain P1 Luma/Croma 0x14 [4:0] 0~31 10 28 18 18 24 24 24 24 24
08.PeakStep P1 Luma/Croma 0x12 [6:5] 0~3 1 1 1 0 0 0 1 0 0
09.PeakTh1 P1 Luma/Croma 0x15 [7:0] 0~255 7 7 7 7 7 10 7 7 7
10.PeakTh2 P1 Luma/Croma 0x16 [7:0] 0~255 2 2 2 2 0 3 2 2 2
11.PeakTh3 P1 Luma/Croma 0x19 [7:0] 0~255 32 32 32 32 32 34 32 32 32
12.PeakN1Factor2 P1 Luma/Croma 0x14 [7:5]P1 Luma/Croma 0x13 [7:5] 0~63 56 8 8 8 0 8 0 0 0
13.PeakN1Factor1 P1 Luma/Croma 0x1A [5:0] 0~63 40 48 48 40 48 40 40 40 40
14.CoringTh P1 Luma/Croma 0x17 [7:0] 0~255 2 2 2 2 2 2 2 2 2
15.CoringGain P1 Luma/Croma 0x18 [4:0] 0~31 8 0 8 8 8 12 8 8 8
16.PeakPosGain P1 Luma/Croma 0x49 [7:4] 0~15 1 1 2 2 2 2 1 2 2
17.PeakNegGain P1 Luma/Croma 0x49 [3:0] 0~15 1 1 2 2 1 1 1 2 2
18.BypassHsharp P1 Luma/Croma 0x1A [6] 0~1 0 0 0 0 0 0 0 0 0
19.DctiGain P1 Luma/Croma 0x28 [3:0] 0~15 4 4 10 10 10 10 4 4 4
20.DctiStep P1 Luma/Croma 0x29 [6:4] 0~7 1 1 7 1 1 1 1 1 1
21.DctiEnable P1 Luma/Croma 0x29 [7] 0~1 1 1 1 1 1 1 1 1 1
22.DctiThres P1 Luma/Croma 0x2A [7:0] 0~255 12 12 12 12 12 12 12 12 12
08.CLK_A P5. DSS 0x0A[15:0] 16~17 16 16 16 17
09.CLK_B P5. DSS 0x0B[15:0] 0~255 96 96 96 0
10.GAMMA 1 1 1 0
Alignment & Adjustment
3-6 Samsung Electronics
6. MSP34XX
7. YC Delay
5. MST9883
ITEM RangeInitial Values of Input Modes
TV/AV/SVHS Component PC HDMIR_Gain 0~255 112 112 112 112G_Gain 0~255 112 112 112 112B_Gain 0~255 113 113 113 113R_Offset 0~255 122 122 122 122G_Offset 0~255 121 121 121 121B_Offset 0~255 122 122 122 122
ITEM Range Initial FM-Prescale 0~255 0x20NICAM-Prescale 0~255 0x20AV-Prescale 0~255 0x1CI2S_1 Prescale 0~255 0x10I2S_3 Prescale 0~255 0x11Carrier Mute 0~255 OnPilot High 0~255 0x0DPilot Low 0~255 0x07Scart1 Out Volume 0~255 0x6DScart2 Out Volume 0~255 0x73
ITEM RangeInitial Values of Input Modes
TV/AV/SVHS Component PC HDMIRF PAL-B/G 0~255 0
- - -
RF PAL-D/K 0~255 0RF PAL- I 0~255 0RF SECAM-B/G 0~255 0RF SECAM-D/K 0~255 0RF SECAM-L/L' 0~255 0RF NTSC3.58 0~255 0RF NTSC4.43 0~255 0AV PAL 0~255 0AV SECAM 0~255 0AV NTSC 3.58 0~255 0AV NTSC4.43 0~255 0AV PAL60 0~255 0
Alignment & Adjustment
Samsung Electronics 3-7
8. DNIe Lite
ITEM RangeInitial Values of Input Modes
TV/AV/SVHS Component PC HDMI01.PATT_SEL 0~63 0 0 0 002.BLACK_TILT 0~255 110 125 80 11003.BLACK_GAINMAX 0~1023 380 390 370 38004.TEST_MCC 0~255 0 0 0 005.OVERLAP_MCM 0~255 0 0 0 006.AREA_EN_MCC 0~255 31 31 31 3107.I2C Offset Mean 0~63 16 10 10 10
08.I2C Ana Check 0 0 0 0
09.White Balance(Post)
1.R-Offset(Post) -512~511 0 0 0 0 2.G-Offset(Post) -512~511 0 0 0 0 3.B-Offset(Post) -512~511 0 0 0 0 4.R-Gain(Post) 0~255 0 128 128 128 5.G-Gain(Post) 0~255 0 128 128 128 6.B-Gain(Post) 0~255 0 128 128 128 7.Com_Offset_Sel 0,1 1 0 0 0 8.Com_Gain_Sel 0,1 1 0 0 010.ColorTone Cool2
Refer to Table 311.ColorTone Cool112.ColorTone Normal13.ColorTone Warm114.ColorTone Warm215.MCM_EN 0,1 1 1 1 116.TEMP_DEST 0~255 150 150 150 15017.CB5_HIGH 0~255 139 140 156 14118.CR5_HIGH 0~255 125 126 126 12419.CB5_LOW 0~255 128 127 126 12820.CR5_LOW 0~255 129 130 129 129
Alignment & Adjustment
3-8 Samsung Electronics
9. Adjust
ITEM RangeInitial Values of Input Modes
TV/AV/SVHS Component PC HDMI01.Video Mute Time 0~63 5 - - 502.Melody Volume 0~63 10 - - 2003.Dynamic Contrast 0 0 0 004.Dynamic Bright 0 0 0 005.Dynamic Color 0 0 0 006.Dynamic Sharpness 0 0 0 007.Standard Contrast 0 0 0 008.Standard Bright 0 0 0 009.Standard Color 0 0 0 010.Standard Sharpness 0 0 0 011.Movie Contrast12.Movie Bright13.Movie Color14.Movie Sharpness15.RF_dB_1 Rf AV -.Noise Thres1 0~255 20 20 -.LowPassGain1 0~31 7 14 -.BandPassGain1 0~31 12 19 -.HighPassGain1 0~31 6 16 -.PeakStep1 1 1 -.CoringTh1 2 2 -.CoringGain1 8 2 -.PosGain1 1 1 -.NegGain1 1 1 -.V-PosGain1 3 3 -.V-NegGain1 2 216.RF_dB_2 -.Noise Thres2 30 40 -.LowPassGain2 5 10 -.BandPassGain2 8 15 -.HighPassGain2 0 8 -.PeakStep2 0 0 -.CoringTh2 12 8 -.CoringGain2 8 10 -.PosGain2 1 1 -.NegGain2 1 1 -.V-PosGain2 2 2 -.V-NegGain2 1 1
Alignment & Adjustment
Samsung Electronics 3-9
ITEM RangeInitial Values of Input Modes
TV/AV/SVHS Component PC HDMI17.RF_dB_3 -.Noise Thres3 40 60 -.LowPassGain3 0 5 -.BandPassGain3 0 12 -.HighPassGain3 0 4 -.PeakStep3 0 0 -.CoringTh3 26 14 -.CoringGain3 15 16 -.PosGain3 0 0 -.NegGain3 0 0 -.V-PosGain3 0 0 -.V-NegGain3 0 0
10. Test Pattern
01. OSD Pattern01. Luma Ramp(32 Step) 02. Luma Ramp(128 Step)03. White 1604. White 24005. Color Bar06. RGB Ramp(32 Step)07. Cross Hatch(20X20)
02. 1 Channel Pattern01. Y-Filter02. V-PosGain03. V-NegGain04. V-BpGain05. V-HfGain06. V-Peaking-Th107. V-Peaking-Th3
03. 2 Channel Pattern01. Luma Ramp(32 Step) 02. Luma Ramp(128 Step)03. White 1604. White 24005. Color Bar06. RGB Ramp(32 Step)07. Cross Hatch(20X20)
11. Chip Debugger : ON/OFF (Select this menu before downloading sub-micom image)
12. Checksum [XXXX]
Alignment & Adjustment
3-10 Samsung Electronics
ITEM Range Initial01.Pixel Shift 0 -.Pixel Shift Test 0~1 0 -.Number Range 0~1 1 -.Line Range 0~1 102.Sound SD delay 0~2 103.Sound HD delay 0~2 104.Sound DTV delay 0~1 005.DDC Write 0~1 006.Auto Voltage Adj 507.Image Sticking 008.Error Mode Check 109.Error Code Table 410.Patt Sel 011.Control Key Lock 012.FCRL Con 1
13. Option PDP : ON/OFF
14. Reset : Factory reset (User settings in OSD is initialized.)
Alignment & Adjustment
Samsung Electronics 3-11
3-4 Service Adjustment3-4-1 White Balance Adjustment
1. W/B Adjustment is required for the following sequence.Color Calibration (CVBS,Component,PC) → W/B Adjustment (HDMI,Component,CVBS)
2. Adjustment Method (Signal equipment : MSPG-925LTH, Measurement equipment : CA210)
3. You can adjust the white ratio in factory mode (Calibration, White Balance menu).
4. Since the adjustment value and the data value vary depending on the input source, you have to adjust these in HDMI, Component and AV modes.
5. The optimal values for each mode are configured by default. (Refer to Table 2 and 3)
Equipment: CA-210 & Master MSPG925 GeneratorCalibration Pattern: Master MSPG925 #24 "Lattice pattern"W/B adjustment Pattern: Master MSPG925 #16 "ABL pattern"
Use other equipment only after comparing the result with that of the Master equipment.Set Aging Time: Longer than 30 min.Pattern Resolution: Given below.Calibration Available/None and Pattern used for Calibration.
White Balance coordinates configuration result. (On the basis of the ABL pattern. The resolutions are given below)
For PC Mode, perform only calibration and do not perform additional W/B adjustments.
Input mode Calibration PatternCVBS IN (Model_#1) Perform in NTSC B&W Pattern #24 Lattice
Component IN (Model_#6) Perform in 720p B&W Pattern #24 Lattice
PC Analog IN (Model_#21) Perform in VESA XGA (1024x768)B&W Pattern #24 Lattice
HDMI IN None -<Table 1>
<Table 2>
Input mode x y Y(fL) T(K)/MPCD
CVBS IN(NTSC)
H/L 265 265 Do not adjust 15000K/-5L/L 280 285 0.8 10000K/-5
Component IN(720p, 60Hz)
H/L 265 265 Do not adjust 15000K/-5L/L 280 285 0.8 10000K/-5
PC Analog IN None
HDMI IN(720p, 60Hz)
H/L 265 265 Do not adjust 15000K/-5L/L 280 285 0.8 10000K/-5
Alignment & Adjustment
3-12 Samsung Electronics
Item Warm 2 Warm 1 Normal Cool1 Cool2
AVComponent
HDMI
R Cutoff 128 128 128 128 128G Cutoff 128 128 128 128 128B Cutoff 128 128 128 128 128R Gain 128 128 128 128 128G Gain 128 128 128 128 128B gain 128 128 128 128 128
R Cutoff 128 128 128 128 128G Cutoff 128 128 128 128 128B Cutoff 128 128 128 128 128
PC
R Gain 128 128 128 128 128G Gain 128 128 128 128 128B gain 128 128 128 128 128
R Cutoff 128 128 128 128 128G Cutoff 128 128 128 128 128B Cutoff 128 128 128 128 128R Gain 128 128 128 128 128G Gain 128 128 128 128 128B gain 128 128 128 128 128
<Table 3>
Alignment & Adjustment
Samsung Electronics 3-13
3-4-2 Conditions for Measurement
1. On the basis of toshiba ABL pattern : High Light level (57 IRE) INPUT SIGNAL GENERATOR : MSPG-925LTH
* Mode NO 1 : 744X484@60 HzNO 6 : 1280X720@60 HzNO 21 : 1024X768@60 Hz
* Pattern NO 24 : B&W Lattice PatternNO 16 : Toshiba ABL Pattern
2. Optical measuring device : CA210 (FL)Please use the MSPG-925 LTH generator for model HP-R5052
3-4-3 Method of Adjustment
1. Adjust the basic level of Component,PC and CVBS input signals.a) Enter factory Calibration, confirm the ADC data (Component, PC, AV Modes).
* ADC default value : Table 1
* You must perform Calibration in the Lattice pattern before adjusting the White Balance.* If you perform Calibration in a pattern other than the Lattice pattern, it causes a malfunction and the operation will not finish.
In this case, press the "EXIT" button on the remote control to terminate the operation.
1) Enter Service mode.2) Apply the NTSC Lattice (No 1) pattern signal to the VIDEO IN port.3) Press the Source key to switch to "AV/S-VIDEO" mode.4) After confirming that the Lattice pattern appears, select the "Calibration" menu.5) Select the "AV Calibration" menu.6) In "AV Calibration Off" status, press the "" key to perform Calibration.7) When Calibration is complete, it returns to the high-level menu.8) Apply the 720p Lattice (No 6) pattern signal to the COMPONENT IN (Y/Pb/Pr) port.9) Press the Source key to switch to "COMPONENT" mode.10) After confirming that the Lattice pattern appears, select the "Calibration" menu.11) Select the "COMP Calibration" menu.12) In "COMP Calibration Off" status, press the "" key to perform Calibration.13) When Calibration is complete, it returns to the high-level menu.14) Apply the 1024x768 Lattice (No 21) pattern signal to the PC IN port.15) Press the Source key to switch to "PC" mode.16) After confirming that the Lattice pattern appears, select the "Calibration" menu.17) Select the "PC Calibration" menu.18) In "PC Calibration Off" status, press the "" key to perform Calibration.19) When Calibration is complete, it returns to the high-level menu.20) All Calibration operations are complete.
Picture 2-1 B&W Lattice Pattern
Alignment & Adjustment
3-14 Samsung Electronics
2. Adjust the white balance of HDMI,Component and AV Modes.a) Set the input to the mode in which the adjustment will be made (HDMI, Component, AV adjustment. Do not adjust in PC
Mode.)* Input signal - AV Mode : Model #1 (744*484 Mode), Pattern #16
- Component/HDMI Mode : Model #6 (1280*720 Mode), Pattern #16b) Enter the White Balance menu of service mode and confirm the data.
c) Adjust the low light. (Refer to Picture 2-3 for measurement point.)- Adjust Sub-Bright(SVP) to set the 'Y' value.- Adjust red offset ('x') and blue offset ('y') to the color coordinates.
* Do not adjust green offset data.
d) Adjust the high light. (Refer to Picture 2-4 for measurement point.)- Adjust Sub-Contrast(DNIe) to set the 'Y' value.- Adjust red gain ('x') and blue gain ('y') to the color coordinates.
* Do not adjust the green gain and sub-contrast (Y) data.
Low lightMeasurement point
Picture 2-3 Toshiba ABL Pattern
Picture 2-2 Toshiba ABL Pattern
High lightMeasurement point
Picture 2-4 Toshiba ABL Pattern
Alignment & Adjustment
Samsung Electronics 3-15
3-4-4 How to adjust White Balance with 10 steps gray pattern
1. If you don't have Toshiba ABL pattern, you can adjust white balance with 10 steps gray scale pattern of Picture 2-5.
2. When you measure Low Light, use 20 IRE portions. And When you measure High Light, use 70 IRE portion. But if color noise is less in 60 IRE than in 70 IRE, 60 IRE is allowed asa measure point.
3. Perform adjustments 2-b through 2-d from previous page using the 10 step gray scale pattern.
Picture 2-5
Alignment & Adjustment
3-16 Samsung Electronics
3-5 Software Upgrade3-5-1 Source Program Download & Generals
1. Downloading boot code(1) Turn off PDP-TV.(2) Connect the RS-232 serial cable to the service jack of PDP-TV.(3) Enter the DOS Mode and move to the directory including "bootdn.bat" and Excute the file.(4) Turn on PDP-TV.
2. Downloading application code(1) Turn off PDP-TV.(2) Connect the RS-232 serial cable to the service jack of PDP-TV.(3) Enter the DOS Mode and move to the directory including "appdn.bat" and Excute the file.(4) Power on PDP-TV.
Changing RS-232 serial port and downloaded fileIf you want to change serial port, you must edit "bootdn.bat" and "appdn.bat".
"bootdn.bat" → sdn 1 0xdeadbbbb rom
execution file file to be downloadedport number downloading type : boot image
"appdn.bat" → sdn 1 0xdeadaaaa ram.z
execution file file to be downloadedport number downloading type : application image
1. Don' t turn off during downloading.
2. sdn.exe, download file and Batch file should be in the same directory.
3. During Downloading, Hyper Terminal should be turned off.(2) Enter a new name.(3) Select a modem port.(com 1 and direct connection.)(4) Set the bit/second to 115200.(5) Set the data bit to 8(6) No parity bit.(7) Set stop bit to 1.(8) No flow control.(9) Save in memory.(10) At this point, the new hyper terminal is ready.
Alignment & Adjustment
Samsung Electronics 3-17
3-5-2 How to Check the Version of the Program
1. Procedures for checking in the User Menu- Select the "Setup" menu in the Menu screen- Place the cursor over the "On" of "Function Help", and press the "Info" key on the remote control- The version of the program is displayed at the bottom of the Menu screen
2. Procedures for checking in the Factory MenuWhen entering Factory Mode, the version of the software is displayed at the bottom of the menu as described on page 3-2.
Main Program VersionBoot-code Version
Alignment & Adjustment
3-18 Samsung Electronics
3-6 Replacements & Calibration
3-6-1 Voltage Adjustment
1. SMPS Panel voltages must be adjusted after changing SMPS-PCB or PDP module.Range Board Adjustment
Vs 190~220VSMPS-MAIN
Va 60~80VVset 180~210V
SMPS-DC/DCVe 80~120VVscan -160~210V
VoltageLabel SMPS-POD SMPS-MAIN SMPS-DC/DC
2. A point of adjusting SMPS-MAIN voltage.
TP : Vs (TOP) Va (BOT)
Va Adjustment Point Vs Adjustment Point
Alignment & Adjustment
Samsung Electronics 3-19
3. A point of adjusting SMPS-DC/DC.
* Use base chassis of PDP panel as GND point.
3-20 Samsung Electronics
MEMO
4. Exploded View & Part List
Exploded View & Part List
Samsung Electronics 4-1
T0074 T0268
T0003
T0456
T0073
T0073
CIS7
T0023
T0175
M0146
T0603
M0145
M0112
T0044
T0159
T0159
T0275
M0006
T0079
M0013
T0555
M0006
M0045
M0111
Yon can search for the updated part code through ITSELF web site.URL:http://itself.sec.samsung.co.kr
4-1 HPR5052X/XAA
Loc.No. Code No. Description Specification Q'ty SA/SNA RemarkCIS7 AA61-60003B SPRING ETC-CS -,SUS304,-,-,OD11.2,N7,OD1 1 S.N.A
M0006 BN63-01688B COVER-REAR 50S5,SECC,T0.5 1 S.N.AM0006 BN63-01634B COVER-REAR SUB SP-R4232,SECC,T1.0 1 S.N.AM0013 BN96-01790B ASSY COVER P-REAR HP-R5052,SECC, T0.5 1 S.AM0045 BN96-02143A ASSY STAND P-SET 50S5H,XAA,HIPS HB,SV012 1 S.AM0111 BN63-01834B COVER-STAND 50S5H,XAA,HIPS,T3.5,HB,SV012 1 S.N.AM0112 BN63-01671B COVER-FRONT 50S5,HIPS,V0,XAA,SV012P 1 S.N.AM0145 BN96-02048A ASSY BOARD P-FUNCTION SCHUBERT,CT5000-32 1 S.AM0146 BN96-02050B ASSY BOARD P-POWER & IR SCHUBERT,CT5000- 1 S.N.AT0003 BN96-01787C ASSY COVER P-FRONT 50P5,50S5,EXPORT 1 S.AT0023 BN64-00336A KNOB POWER 42P5,PC,VIOLET 1 S.N.AT0044 BN96-01885A ASSY PDP MODULE P M1,SPD-50P5HD,D71A,V4, 1 S.AT0073 AA63-01127A GASKET-EMI 50P5,AL FOIL,T1.5,7mm,1177mm 2 S.N.AT0073 AA63-01128A GASKET-EMI 50P5,AL FOIL,T1.5,7mm,702mm 2 S.N.AT0074 BN59-00462A REMOCON STRAUSS,TM76A,200*54*30,ZILOG,54 1 S.AT0079 BN94-00671A ASSY PCB MISC-MAIN HPR5052X/XAA,D71C,S5H 1 S.AT0159 BN96-01801A ASSY PCB P-SMPS SPD-50P5HD,100~240V 1 S.AT0159 BN96-01805A ASSY PCB P-SMPS SPD-50P5HD(POD),100~240V 1 S.AT0175 AA96-02815A ASSY SPEAKER P 8ohm,S5,50,15W 1 S.N.AT0268 3903-000144 CBF-POWER CORD DT,US,BP3/Y,U(IEC C13-RA) 1 S.AT0275 BN96-02369A ASSY MISC P-INLET HP-R4252,STRAUSS,DOCUM 1 S.AT0456 BN67-00145B GLASS-FILTER EMI 50P5,MESH,726.5*1224.5, 1 S.AT0555 BN96-01392B ASSY MISC P-BRKT TERMINAL 42D5,XAA,SECC 1 S.N.AT0603 BN64-00338A WINDOW-RMC 42P5,ACRYL,5% 1 S.N.A
5-1Samsung Electronics
Electrical Part List
5. Electrical Part List5-1 HPR5052X/XAA Service ItemYon can search for the updated part code through ITSELF web site.URL:http://itself.sec.samsung.co.kr
Loc.No. Code No. Description Specification Q'ty SA/SNA RemarkM0013 BN96-01790B ASSY COVER P-REAR HP-R5052,SECC, T0.5 1 S.AM0018 BN97-00541A ASSY MICOM HPR5052,D71C,SDA555X-OTP(MICR 1 S.AM0045 BN96-02143A ASSY STAND P-SET 50S5H,XAA,HIPS HB,SV012 1 S.AM0145 BN96-02048A ASSY BOARD P-FUNCTION SCHUBERT,CT5000-32 1 S.AT0003 BN96-01787C ASSY COVER P-FRONT 50P5,50S5,EXPORT 1 S.AT0044 BN96-01885A ASSY PDP MODULE P M1,SPD-50P5HD,D71A,V4, 1 S.AT0048 BN96-02026A ASSY PDP P-Y BUFF UPPER BOARD M1,SPD-50P 1 S.AT0049 BN96-02027A ASSY PDP P-Y BUFF LOWER BOARD M1,SPD-50P 1 S.AT0073 BN96-02024A ASSY PDP P-X MAIN BOARD M1,SPD-50P5HD,D7 1 S.AT0074 BN59-00462A REMOCON STRAUSS,TM76A,200*54*30,ZILOG,54 1 S.AT0079 BN94-00671A ASSY PCB MISC-MAIN HPR5052X/XAA,D71C,S5H 1 S.AT0096 BN96-02025A ASSY PDP P-Y MAIN BOARD M1,SPD-50P5HD,D7 1 S.AT0128 BN39-00518A CBF SIGNAL-STEREO NA32KO,1P,UL2464#26,20 1 S.AT0142 BN96-02031A ASSY PDP P-LOGIC BOARD M1,SPD-50P5HD,D71 1 S.AT0159 BN96-01801A ASSY PCB P-SMPS SPD-50P5HD,100~240V 1 S.AT0159 BN96-01805A ASSY PCB P-SMPS SPD-50P5HD(POD),100~240V 1 S.AT0159 BN96-01856A ASSY PCB P-SMPS SPD-50P5HD(DC_DC),200Vin 1 S.AT0275 BN96-02369A ASSY MISC P-INLET HP-R4252,STRAUSS,DOCUM 1 S.AT0312 BN96-02135A ASSY COVER P-REAR SUB SP-R4232,SECC,BLM 1 S.AT0568 AA39-30007B CBF IF -,T,150mm,1365#26 1 S.AT0568 BN39-00602B CBF IF SPR4232,1P,1365#26,200mm,BLK,DIN( 1 S.AT0852 BN96-01470A ASSY BOARD P-OPTICAL HP-P5581,OPTICAL 1 S.AT0890 BN96-02046A ASSY FAN P 1B1S,71X149.5X5mm,1.9,0.19,24 1 S.AT0933 BN96-02028A ASSY PDP P-ADDRES E BUFF BOARD M1,SPD-50 1 S.AT0934 BN96-02029A ASSY PDP P-ADDRES F BUFF BOARD M1,SPD-50 1 S.AT0935 BN96-02030A ASSY PDP P-ADDRES G BUFF BOARD M1,SPD-50 1 S.AT0952 BN59-00459A MODULE UMX-NT-041,UMX-NT-041,2in/2out/lo 1 S.A
Samsung Electronics5-2
MEMO
Troubleshooting
Samsung Electronics 6-1
6. Troubleshooting6-1 First Checklist for Troubleshooting1. Check the various cable connections first.
- Check to see if there is a burnt or damaged cable. - Check to see if there is a disconnected cable connection or a connection is too loose.- Check to see if the cables are connected according to the connection diagram.
2. Check the power input to the Main Board.
3. Check the voltage in and out between the SMPS ↔ Main Board, between the SMPS ↔ X, Y Drive Board, and between the Logic Boards.
Troubleshooting
6-2 Samsung Electronics
6-2 Checkpoints by Error Mode
6-2-1 No Power
Symptom- The LEDs on the front panel do not work when connecting the power cord.- The SMPS relay does not work when connecting the power cord.- The power of the unit seems to be out of order.
Major Checklist
The SMPS relay or the LEDs on the front panel do not work when connecting the power cord if the cables are improperlyconnected or the Video Board or SMPS is out of order. In this case, check the following:- Check the internal cable connection status inside the unit.- Check the fuses of each part.- Check the output voltage of SMPS.- Replace the Video Board.
TroubleshootingProcedures
Are the AC IN socket connectorand the Main SMPS CN800 connected?
Is the Fuse (F101) of the Main SMPSPower Input Part blown?
Check Main SMPS CN804-2Pin 3: STB 5V = 5VPin 5 PS-ON = 0V
Replace the Main Board
Connect The AC IN socket connectorand the Main SMPS CN800
Replace the Main SMPS
Replace the Main SMPS
Troubleshooting
Samsung Electronics 6-3
6-2-2 When the unit is repeatedly turned on and offSymptom - The SMPS relay is repeatedly turned on and off.
Major Checklist
In general, the SMPS relay repeatedly turns on and off by the protection function due to a defect on a board connected to theSMPS.- Disconnect all cables from the SMPS, operate the SMPS alone and check if the SMPS works properly and if each voltage
output is correct.- If the symptom continues even when SMPS is operated alone, replace the SMPS.- If the symptom is not observed when operating the SMPS alone, find any defective ASSYs by connecting the cables one by
one.
TroubleshootingProcedures
CautionWhen separating and connecting the cables such as CN809 of the Main SMPS, CN1, CN2, CN3, CN4 and CN5 of DC-DCSMPS, CN of the X Drive Board, and CN of the Y Drive Board, a spark may be generated by the electric charge of the highcapacity capacitor. Therefore, wait some time after separating the power cord from the unit.
Does the symptom continueafter connecting the power andremoving CN809 cable fromthe Main SMPS?
Does the symptom continuewhen separating the CN804-2and CN803 cables from theMain SMPS and shorting pins4 and 5 of the CN804-2Connector?
Replace the Main SMPS
Replace the Main Board
Does the symptom continue whenconnecting the power afterconnecting the CN809 cable andremoving the CN1, CN2, CN4 andCN5 cables from the DC-DCSMPS?
Reconnect all cables.Does the symptom continue whenconnecting the power after the CN4cable to the DC-DC SMPS?
Does the symptom continue whenconnecting the power after CN2to the DC-DC SMPS?
Does the symptom continue whenconnecting the power afterremoving CN810 from theMain SMPS?
Replace the DC-DC SMPS
Replace the X Drive Board
Replace the Y Drive Board
Replace the Logic DriveBoard
Troubleshooting
6-4 Samsung Electronics
6-2-3 No Picture (When audio is normal)Symptom - Audio is normal but no picture is displayed on the screen.
Major Checklist
- This may happen when the Video Board is normal but the X, Y Drive Board, Logic Board, or Y Buffer Boards are out of order.
- The output voltage of the Main SMPS or the DC-DC SMPS is out of order.- This may happen when the LVDS cable connecting the Main Board and the Logic Board is disconnected.
TroubleshootingProcedures
Caution When separating and connecting the cables such as CN809 of the Main SMPS, CN1, CN2, CN3, CN4 and CN5 of the DC-DCSMPS, CN of the X Drive Board, and CN of the Y Drive Board, a spark may be generated by the electric charge of the highcapacity capacitor. Therefore, wait some time after separ ating the power cord from the unit.
Are the Vs and Va voltagesnormal after removing theCN809 cable from theMain SMPS?
Is the output voltage of theDC-DC SMPS normal whenreconnecting the CN809 cableand removing the CN1, CN2,CN4 and CN5 cables from theDC-DC SMPS?
Replace the Y Drive Board
Replace the X Drive Board
Replace the Logic Drive Board
Replace the Y Buffer Drive Board
Replace the Main SMPS
Replace the DC-DC SMPS
Troubleshooting
Samsung Electronics 6-5
6-2-4 No SoundSymptom - Video is normal but there is no sound.
Major Checklist- When the speaker connectors are disconnected or damaged.- When the sound processing part of the Video Board is out of order.- Speaker defect.
TroubleshootingProcedures
Is the cable connection betweenthe main Board and the speakerproperly connected?
Is the output voltage of SMPSnormal? (CN803 #6)
Is the speaker output terminalof the Main Board normal?
Replace the Speaker
Connect the cable properly orreplace the cable, if necessary.
Replace the main SMPS
Replace the Main Board
Troubleshooting
6-6 Samsung Electronics
6-2-5 No VideoSymptom - A normal/cable network analog broadcast screen is blank or abnormal.
Major Checklist
- Check the antenna connection settings(Antenna 1 - NTSC (Cable), 64QAM, 256QAM, Antenna 2 - NTSC (Air), 8VSB (ATSC))
- Check the tuner output signal (CVBS).- Check the power input of the Main board.
TroubleshootingProcedures
Check CN1001 pin 2 for +33V
Configure properly
Replace the Main SMPS
Replace the Main Board
Is the antenna connection settingproperly configured?
Troubleshooting
Samsung Electronics 6-7
6-3 Troubleshooting Procedures by ASS'YNo Assy Code No Description Major Symptoms1 ASSY PCB P-SMPS BN96-01801A Main SMPS No power, Blank screen, the Relay repeats On and Off.2 ASSY PCB P-SMPS BN96-01856A DC-DC SMPS Blank screen, the Relay repeats On and Off.3 ASSY PCB P-SMPS BN96-01805A POD SMPS Blank screen, the Relay repeats On and Off.4 ASSY PDP P-X MAIN BOARD BN96-02024A X Drive Board Blank screen5 ASSY PDP P-Y MAIN BOARD BN96-02025A Y Drive Board Blank screen6 ASSY PDP P-LOGIC BOARD BN96-02031A Logic Board Blank screen, Screen noise7 ASSY PDP P-Y BUFF UPPER BOARD BN96-02026A Y Buffer Upper Board Upper screen is blank8 ASSY PDP P-Y BUFF LOWER BOARD BN96-02027A Y Buffer Lower Board Lower screen is blank9 ASSY PDP P-ADDRESS E-BUFF BOARD BN96-02028A Address E Buffer Board Corresponding Buffer Board block screen is blank.
10 ASSY PDP P-ADDRESS F-BUFF BOARD BN96-02029A Address F Buffer Board Corresponding Buffer Board block screen is blank.11 ASSY PDP P-ADDRESS G-BUFF BOARD BN96-02030A Address G Buffer Board Corresponding Buffer Board block screen is blank.12 ASSY PCB MISC-MAIN BN94-00671A Main Board No Power, Abnormal screen for each input source, PIP screen trouble,Sound trouble13 ASSY FUNCTION BN96-02048A Function Key Board The side function key does not work properly14 ASSY POWER BN96-02050B Power Button Board The remote control does not work properly, the LED does not work properly.
6-8 Samsung Electronics
MEMO
Block Diagram
Samsung Electronics 7-1
7. Block Diagram7-1 Overall Block Diagram
Y Main Board X Main Board
1366x768 Pixels1366x768x3 Cells (R,G,B)
(110V)CPU
DecoderImageScaler
Micom
POD
Block Diagram
7-2 Samsung Electronics
7-2 Partial Block Diagram7-2-1 Main SMPS Block Diagram
7-2-2 DC-DC SMPS Block Diagram
Controland
Switching Block
Controland
Switching Block
Controland
Switching Block
Transformer
Transformer
Transformer
AuxiliaryPower
AuxiliaryPower
AuxiliaryPower
RectificationBlock
RectificationBlock
RectificationBlock
FeedbackBlock
FeedbackBlock
FeedbackBlock
Vs Input Part Vscan Output
Vset Output
Ve Output
(-175~-220)
Block Diagram
Samsung Electronics 7-3
7-2-3 Module Driver Board Block Diagram
1. Y Main Board
Power Input PartLogic Signal Input Part
Logic Signal Buffer
2. X Main Board
Power Input PartLogic Signal Input Part
Logic Signal Buffer
Block Diagram
7-4 Samsung Electronics
7-2-4 Logic Board Block Diagram
ASIC
nRESET
CONTROL
SIGNAL
60pin Connector 60pin Connector
10Pin(Power)31Pin LVDS
SPS-NIRB
(ASIC 816P)DDR
(FA)
DDR
(MA)
DDR
(MB)
MICOM
DRIVE
RESET
R,G,B : 16bit
CLK A, B
BLK, POL, STB
R,G,B : 16bit
CLK A, B
BLK, POL, STB
DATA : 32bit
ADDR : 12bit
DQS, CLK, nCLK
RELAY_EINT
AC-OFF-EINT
Vs-ON
LVDS
SIGNAL
SDA, SCL
TX, RX
X-MAIN
CONTROL
SIGNAL
Y-MAIN
CONTROL
SIGNAL
ADC 4bit
ADC 3bit
ADC 1bit
4p
in (
I2C
)
30MHz
60MHz
74MHz
50
pin
Co
nn
ecto
r
30
pin
Co
nn
ecto
r
7-2-5 Main Board Block Diagram
Display Panel50", 1366 x 768
Audio AMP TAS5122
NSP
DNIe Lite
Coaxial Out
Optical Out
SVP-EX62
Wiring Diagram
Samsung Electronics 8-1
8. Wiring Diagram8-1 Overall Wiring
ASSY PCB MISC-MAINBN94-00672A
ASSY POWERBN96-02050C
ASSY FUNCTIONBN96-02049A
ASSY SPEAKERBN96-01955A
Wiring Diagram
8-2 Samsung Electronics
8-1-1 PDP Module ↔↔ SMPS Wiring
①CN809(Main SMPS)↔ CN3(DC-DC SMPS)
Pin No Signal1 5.3V
2 Vg3 RTN4 RTN5 RTN6 RTN7 RTN8 Va9 Va
10 N.C11 Vs12 Vs
②, CN2(DC-DC SMPS)↔ CN5009(Y B'D)
Pin No Signal1 Vs
2 Vs3 RTN4 RTN5 Vset6 RTN7 Vscan8 RTN9 Vg
10 5.3V
③CN4(DC-DC SMPS)↔ CN4001(X B'D)
Pin No Signal1 Vs
2 Vs3 RTN4 RTN5 Ve6 RTN7 RTN8 Vg9 5.3V
④CN5(DC-DC SMPS)↔ CN2609(F-Buffer)Pin No Signal1 RTN
2 N.C3 5.3V4 N.C5 Va
⑤CN810(Main SMPS)↔ CN2004(Logic B'D)Pin No Signal1 5.3V
2 5.3V3 RTN4 RTN5 5.3V6 RTN7 PS-ON8 N.C9 VS-ON
10 STB 5V
Wiring Diagram
Samsung Electronics 8-3
8-1-2 Main Board ↔↔ SMPS, Power Button, Function Board, Speaker Out Wiring
①CN1002(MAIN B'D)
↔CN804-1(MAIN SMPS)Pin No Signal1 FAN-D
2 FAN-ON3 STB5V4 RTN5 PS-ON6 12V7 RTN8 RTN9 VCA
10 VCS11 RTN12 5.3V
②CN1001(MAIN B'D)↔ CN803(MAIN SMPS)
Pin No Signal1 RTN
2 VT(33V)3 RTN_AMP4 RTN_AMP5 18V_AMP6 18V_AMP7 RTN8 12V9 RTN
10 6V
③
JA9001(MAIN B'D) ↔ LA03(LOGIC B'D)Pin No Signal Pin No Signal Pin No Signal1 12 TXOUT3+ 23 TXOUT1B-
2 GND 13 TXOUT3- 24 TXOUT1+3 PW_SDA0 14 TXCLKOUTB+ 25 TXOUT1-4 GND 15 TXCLKOUTB- 26 GND5 PW_SCL0 16 TXCLKOUT+ 27 GND6 GND 17 TXCLKOUT- 28 TXOUT0+7 18 GND 29 TXOUT0-8 TXOUT0B+ 19 GND 30 GND9 TXOUT0B- 20 TXCLKOUT2+ 31 GND
10 I2C_READY 21 TXCLKOUT- 32 GND11 GND 22 TXOUT1B+ 33 GND
④CN1004(MAIN B'D)↔ FUNCTION
Pin No Signal1 KEY1
2 KEY23 GND
⑤CN2001(MAIN B'D)↔ SPEAKER
Pin No Signal1 SPK_R+
2 SPK_R-3 SPK_L+4 SPK_L-
⑥CN1003 (MAIN B'D)↔ POWR BUTTONPin No Signal1 GND
2 LED_RED3 5V4 GND5 -6 SDA7 SCL8 IR
8-4 Samsung Electronics
MEMO
PCB Diagram
Samsung Electronics 9-1
9. PCB Diagram
CN5401
CN5402
CN5403
CN5501
CN5502
CN5503
CN804-1 CN810
CN809
CN2501CN2510
CN2501 CN2510 CN2608 CN2709 CN2710
CN2608CN2709CN2710
CN5007
CN5008
CN5009
CN5010
CN3
CN5
CN4005
CN4000
CN4001
CN4002
CN4003
CN4004
CN4
CN1
CN2
CN8002JA9001 CN1002 CN1001
CN1004CN8001
CN1CN001
CN2001 CN1003
CN800
CN811
CN2011 CN2020 CN2013 CN2010CN2009
CN2004
CN2008CN2007CN2006
CN2005
J801
J0802
SPEAKER
MAIN BOARD
LOGIC BOARD
SMPS-MAINX-DRIVE
Y-DRIVE
Y-BUFFER(UP)
Y-BUFFER(LOW) AC-INLET
E-BUFFER G-BUFFERF-BUFFER
SMPS
-POD
SMPS
-DC
FUNCTION
1
POWER SW
FAN
2
3
4
7
8
9
G-BUFFER11 F-BUFFER10 E-BUFFER9
1110
12
13
14
15
17
16
6
5
CN803
No Assy Code No. Description- ASSY PDP MODULE P M1,SPD-50P5HD,D71A,V4,1184x700,1366x768,NTSC/PAL,50 INCH,PL50HW003A1 ASSY PCB P-SMPS BN96-01801A SPD-50P5HD,100~240V2 ASSY PCB P-SMPS BN96-01805A SPD-50P5HD(POD),100~240V(POD)3 ASSY PCB P-SMPS BN96-01856A SPD-50P5HD(DC_DC),200Vin(DC_DC)4 ASSY PDP P-X MAIN BOARD BN96-02024A M1,SPD-50P5HD,D71A,V4,1184x700,1366x768,NTSC/PAL,50 INCH,LJ92-01045A5 ASSY PDP P-Y MAIN BOARD BN96-02025A M1,SPD-50P5HD,D71A,V4,1184x700,1366x768,NTSC/PAL,50 INCH,LJ92-01046A6 ASSY PDP P-Y BUFF UPPER BOARD BN96-02026A M1,SPD-50P5HD,D71A,V4,1184x700,1366x768,NTSC/PAL,50 INCH,LJ92-01047A7 ASSY PDP P-Y BUFF LOWER BOARD BN96-02027A M1,SPD-50P5HD,D71A,V4,1184x700,1366x768,NTSC/PAL,50 INCH,LJ92-01048A8 ASSY PDP P-LOGIC BOARD BN96-02031A M1,SPD-50P5HD,D71A,V4,1184x700,1366x768,NTSC/PAL,50 INCH,LJ92-01269A9 ASSY PDP P-ADDRESS E BUFF BOARD BN96-02028A M1,SPD-50P5HD,D71A,V4,1184x700,1366x768,NTSC/PAL,50 INCH,LJ92-01103A
10 ASSY PDP P-ADDRESS F BUFF BOARD BN96-02029A M1,SPD-50P5HD,D71A,V4,1184x700,1366x768,NTSC/PAL,50 INCH,LJ92-01104A11 ASSY PDP P-ADDRESS G BUFF BOARD BN96-02030A M1,SPD-50P5HD,D71A,V4,1184x700,1366x768,NTSC/PAL,50 INCH,LJ92-01105A12 ASSY PCB MISC-MAIN BN94-00671A HPR5052X/XAA,D71C,S5HD13 ASSY BOARD P-FUNCTION BN96-02048A SCHUBERT,CT5000-3280,FUNCTION14 ASSY BOARD P-POWER & IR BN96-02050B SCHUBERT,CT5000-3540,POWER & IR,CORE15 ASSY FAN P BN96-02046A 1B1S,71X149.5X5mm,3700,DC12V,SPR4232,STRAUSS,POD FAN ASSY16 ASSY SPEAKER P AA96-02815A 8ohm,S5,50,15W17 ASSY MISC P-INLET BN96-02369A HP-R4252,STRAUSS,DOCUMENT,INLET.CORE
9-1 Overall PCB Diagram
9-2 Samsung Electronics
MEMO
Samsung Electronics
Schematic Diagram
10-1
NOITPO ASU
NOITPO AEROK
WOL : FFO
NOC_SO
MIN CES
NOC_SO
NOITPO AEROK
Hu22
NOITPO AEROK
otuA : CN
V6D
Hu22
noitpo AEROK
6301R,2301R,0301R
9701R,8701R,0401R,8301R
NOITPO ETELED
NOITPO ETELED
NOC_SO
NOITPO MIN DOP TXE
82x0 : AEROK
Hu22
V21D
NOITPO_MIN_DOP
RENUT
NOITPO AEROK
MIN DOP
NOITPO ETELED
NOITPO ETELED
NOITPO_ETELED
tnerruC A3
DNG
DNG
MIN SPLA
HGIH : NO
NOC_SO
tnerruC A3
41x0 : ASU
V3.3D
NOITPO ASU
)NOITPO ASU(
V5_DTS
RENUT MIN RAEN
NOITPO_ETELED
NOITPO AEROK
NOC_SO
TROPWEN MORF
RENUT MIN RAEN
NOITPO AEROK
)NOITPO ETELED(
NOITPO ETELED
D_REHT
NOITPO ASU
NOC_SO
NOC_SO
NOC_SO
NOITPO ASU
LORTNOC
2YEK
REWOP
1YEK
NOITPO ASU
NOITPO ASU
V3.3D
NOITPO ETELED
NO_SP
2 TNENOPMOC
DNG
noitpo ASU
1 TNENOPMOC
6701PT
8701PT
mho57
3101R
4701PT
Fu74
1501C
V61
FERX
mho013001R
2901PT
PMA_DNUOS
mho0017601R
UPC_V8.1A
1301R
Fu74
7401C
V61
V61
W01/1
mho0
6201C
Fu74
Fn001
2401C
V61
2101R
mho57
R1
03
5R
10
35
0o
hm
0o
hm
V61
0401C
Fn001
FERX
W01/1
1401R
mho0
FERX
6701C
Fn001
V61
1801C
Fn001
FERX
V33B
FERX
FERX
PMA_DNUOS
2401PT
1
2.8ZLR
7001D
4201D
42SS
FERX
1
4301R mho0
8401PT
A1 2
B
6201D
42SS
V5A
3101DB
S006P14MLB
2401R
V61
Fu01
6801C
V3.6
Fu021
1601C
mho001
7501PT
1
2.8ZLR
3101D
4801PT
V5A
3801PT
5801PT 1801PT
1
9701PT
FERX
FERX
Fn01
8501C
1
A_V81+
V9B
2.8ZLR
1101D
7567AB_V5B
NE_PT
2.8ZLR
0201D
V61
9001L
3001L
Fn001
0501C
Fp33
8001C
FERX
V3.3A
1
6001PT1
1
7001PT
1
4001PT1
3001PT
2001PT
5701C
Fu001
4301PT
1
V3.3A
W01/1
9201R
mho0
Fn3.3
6301C
2_V3.3B
TJ121-2354H1-HH
4001DB
8001R
7801C
mho57
I1
G
2
O3
FERX
Fn001
V52
1001TFF50D87AIK
mho074
Fn01
9501C
0801C
7101R
8201R
mhoK1
Fn001
3401R mho001
W01/1
1
2601PT
1
mhoK1
3601R
0601PT
mho0
FERX
0701C
Fp081
2301R
Fn001
8101C
2_V3.3B
4801C
V61
Fu001
mho0
0401R
7001L
FERX
mho57
4101R
W01/1
6701R mho0
4901PT
8001D
2.8ZLR
DP_PT
1
3001DB
TJ121-2354H1-HH
Fu001
V61
7801PT
6601PT
1
7201C
5201C
V52
Fn001
2001R mho001
mhoK22
4601R
Fn001
0201C
0801PT
1_1_V3.3B
DNG5
BF
PMOC6
NE7
8SS
9101CFu01
ND3851PM
7001CI
SB1
NI2
WS3
4
1001DB
S006P14MLB
1A B
2
Fn01
6801PT
5601PT
1
2201C
3601PT
1
V61
Fn001
V61
Fn001
3401C
8101R
2601C
4101D
2.8ZLR
mho074
4NIFER
5DNG
ADS6
7LCS
0A8
MRA7335DA
DDV1
ATUOV2
BTUOV3
Fn001
V61
4201C
0101CI
mho0019601R
5
6
7
8
Fn001
5801C
V61
THW 80-052WAMS
3001NC
1
2
3
4
1
2
3
9801PT
1
7001C
FERX
2301D
1TL6V5C48XZB
6DNGM
7DNGM
8DNGM
V5.6_S
FERX
Fn001
1DNGM
2DNGM
3DNGM
4DNGM
5DNGM
4DNGM
4
TUO_TFA
5
V23+__3B
DNG
67
TESER_REWOP
RORRE_GEPM
8
TUO_OEDIV
92
52
5
0ATAD_GEPM
KLC_ATAD_GEPM
26
26
ADS
27
27
28
28
LCS
1DNGM
V5+_2B
3
2DNGM
3DNGM
19
19
6ATAD_GEPM
2
CGAFR
20
20
5ATAD_GEPM
21
21
4ATAD_GEPM
22
22
3ATAD_GEPM
23
23
2ATAD_GEPM
1ATAD_GEPM
24
24
10
10
11
11
TUO_FIS
V3.3+_4B
12
12
13
13
DNG
V5.2+_5B
14
14
V2.1+_6B
15
15
CNYS_TKP_GEPM
16
16
17
17
NE_ATAD_GEPM
7ATAD_GEPM
18
18
1
2
3
3001UT
1
C_N
WS_FFO_LAT_X
6001C
30-052WMS
4001NC
1
Fu022
10
0o
hm
10
0o
hm
R1
04
8R
10
48
1101PT
W01/1
mhoK6.3
5201R
1_V3.3B
FERX
O 3
EN006P23BIC
0101DB
B
PF330AB
3001CI
I1
G
2
9501PT
1
8501PT
1
2201R
mho001
5101DB
1
G
2
O 3
3701C
Fu001
8
9
3001TF
F50D87AIK
I
2_p9kcaj
2001AJ
1
2
3
4
5
6
7
TM322E1A2-03AFL
4001TF
mhoK17701R
W01/1
FERX3001Q
G-3261CSK
0o
hm
0o
hm
R1
07
8R
10
78
1/1
0W
1/1
0W
1TL6V5C48XZB
1
2
3
1TL6V5C48XZB
3301D
1
2
3
4301D
3201R
mho0
W01/1
4601C
V52
Fu001
mho0
8601R W01/1
V05
7201D
0007SDS
4401PT
1
4301C
Fu74
2301PT
1
2801PT
0501PT
1
FERX
1
6601C
V01
Fu74
7401PT
1
4601PT
FERX
1001L
6601R mho001
A1
B2
mho0746101R
V61
Fu01
8801C
7101DB
54A
65A
6A7
87A
98A
3B
2B71
811B
91EO/ 1A
2CCV
02
2A3
43A
1RID
DNG0111
8B
7B21
316B
5B41
4B51
61
mhoK01
1101CI
XCTM542XCL47
1
V5_S
FERX
1_V3.3B
V6D
7501R
XTQ_PT
1
5001PT
S006P14MLB
7001DB
A1 2
B
2.8ZLR
6001D
Fu022
9701C
B
Fu74
V61
9401C
8001DB
EN006P23BIC
1701PT
5101D
9601PT
1101DB
EN006P23BIC
B
8414LLMP
2201D
2.8ZLR
2NI
3WS
DNG4
BF5
6PMOC
7NE
8SS
ND3851PM
1001CI
1SB
5 6
7 8
2301C
Fn001
V61
W61/1
mho33
1001AR
1 2
3 4
6001TF
TM322E1A2-03AFL
Fp033
3101C
V52
Fu001
7101C
TM322E1A2-03AFL
6201PT
2.8ZLR
5001TF
9701R
W01/1
FERX
3001D
mho001
2801C
Fn01
V05
mho0
6401R
0301PT
1
FERX
Fu74
1101C
V61
8201PT
mho001
3 4
5 6
7 8
2_V3.3B
6201R
1
W61/1
mho33
3001AR
1 2
2001DB
3401PT
FERX
FERX
TJ121-2354H1-HH
9101D
2.8ZLR
1501PT
1
0101D
2.8ZLR
9401PT
1
2TUOV
MG
ND
1M
GN
D1
DNG
mho011101R
1CV
1TUOV2
3
DNG
NIV4
5
V01
LT-MWK6003-IS
9001CI
mho08301R
Fu74
3301C
0201R
mhoK01
1A B
2
mho0011001R
4
5 6
7 8
S006P14MLB
2101DB
W61/1
6001AR
mho33
1 2
3
V01
4401C
Fu74
Fp33
3001C
KLC_PT
1
Fu74
4501C
V61
6501C
Fn001
V61
7567AB_V5B
2501C
Fn001
FERX
2_V3.3B
2701PT
V61
5001R
0701PT
7601PT
1
FERX
mho01
Fp33
8601PT
0101C
1DNGM
2DNGM
3DNGM
4DNGM
TM322E1A2-03AFL
8001TF
LCS
28
28
)+B(V5
34
TUO_TFA
V33
5
DNG
6
TESER_REWOP
7
RORRE
89
TUO_OEDIV
20
20
5ATAD
4ATAD
21
21
3ATAD
22
22
2ATAD
23
23
24
24
1ATAD
0ATAD
25
25
26
26
KLC_GEPM
27
27
ADS
13
13
DNG
14
14
V8.1
V1.1
15
15
16
16
CNYS/TRATSF
NE/DILAV
17
17
18
18
7ATAD
6ATAD
19
19
CGA_FR
2
2001UT
DN
VS
30
3E
H2
61
AD
NV
S3
03
EH
26
1A
C.N
11
01
0
C.N
TUO_FIS
11
11
12
12
V3.3
V61
8401C
Fn001
XR
EF
XR
EF
FERX
6501R
mhoK6.3
W01/1
5601R
mhoK01
5201PT
7201PT
mho0
0501R
W01/1
9001TF
TM322E1A2-03AFL
3301PT
1
9201PT
Fn01
9601C
mhoK001
4201R
5501C
V52
Fn001
ATAD_PT
1
XR
EF
XR
EF
7301PT
1
FERX
V3.3A
2501R
mhoK01
RRE_ST_PT
1
V52
5301C
Fn001
7201R
mhoK01
W01/1
3201D
2.8ZLR
2.8ZLR
8101D
V21B
FERX
6001R mho01
V05
0301C
Fn001
9001R
mho57
Fp033
4101C
R1
03
7R
10
37
0o
hm
0o
hm
9101RmhoK2.6
FERX
V05
7701C
Fn1
1
0401PT
1
W01/1
9301PT
1
8301PT
4001R mho01
6301PT
1
6301R mho0
mhoK01
3501R
V6D
V6+
6001L
2001D
2.8ZLR
2501PT
1
A1
B2
9201D
0007SDS
R1
04
9R
10
49
4101DB
S006P14MLB
Fu74
9301C
10
0o
hm
10
0o
hm
W01/1
9301R
mho0
V01
Fu001
5401C
FERX
2101C
V61
V01
1401C
Fu74
Fn001
V61
CCV_V5B
5401R mho0
7001R mho01
1401PT
1
Fp33
9001C
1
2
3
4
5
6
Fp081
1301C
3001AJ3_p6kcaj
EN106J12CIC
0101L
EN006P23BIC
9001DB
B
1
FERX
W01/1
mho0
1201R
5601C
XTI_PT
Fn001
V61
Fn001
5001C
TM322E1A2-03AFL
7001TF
2.8ZLR
9001D
G-3261CSK
2001Q
FERX
7
8
9
FERX
4001D
2.8ZLR
1001NC
1
01
2
3
4
5
6
mho57
THW 01-052WMS
3 4
5 6
7 8
0101R
mho33
5001AR
W61/1
1 2
4501PT
1
5001L
V01
Fu74
7501C
W01/1
4401R
mho0
V61
Fn001
1701C
0601C
Fn001
1
XTC_PT
1
V52
3 4
5 6
7 8
FERX
XTE_PT
mho33
W61/1
2001AR
1 2V61
Fn001
W01/1
9501R
mhoK7.2
7601C
PF90M871AB1 I
2
G
3O
2001C
Fp33
5501R
2001TF
mhoK001
Fn3.3
2701C
W01/1
mhoK001
3301R
V61
Fn001
1201C
I1
G
2
O 3
V52
8201C
Fu001
F50D87AIK
2001CI
S006P14MLB
5001DB
1A B
2
8
9
5101C
Fp033
1
2
3
4
5
6
7
1
3501PT
1
1001AJ2_p9kcaj
5101PT
1 7101PT
6101PT
1
9801C
Fn001
V6+
4701C
Fn001
5201D
42SS
2.8ZLR
5001D
9001PT1
V33B
2101D
2.8ZLR
V61
Fu22
3501C
1601PT
1
1
JDA
2TUOV NIV
3
FERX
W01/1
4701R mho0
A81-D7111PA
6001CI
mho0
7401R
2001L
3_p6kcaj
4001AJ
1
2
3
4
5
6
V61
3801C
Fn001
6101C
Fp033
8101PT
10201PT
1
7701PT
9101PT
1
5701PT
2_V3.3B
3701PT
1001C
Fp33
3201C
4501R
mhoK01
W01/1
1001D
Fu021
V3.6
5
6
7
8
9
2.8ZLR
2001NC
THW 21-052WMS
1
01
11
21
2
3
4
Fu022
8601C
FERX
V61
7301C
mho0
0301R
Fp001
5501PT
1
FERX
4001C
Fu022
8201D
0007SDS
mhoK2.6
1501R
W01/1
6101D
2.8ZLR
1201D
1101L
2.8ZLR
3201PT
14201PT
2201PT
1
V61
Fn001
8301C
I1
G
2
O3
V52
6401C
Fn001
Fn001
V61
4001CI
PF330AB
8001L
9201C
4001L
JDA
1
2TUOVNIV
3
W01/1
2601Rmho001
5001CIA81-D7111PA
mho001
1601R
W01/1
mho0010601R
W01/1
FERX
FERX
W01/1
8501R mho001
2101PT
1
4101PT
1
1
0101PT
1
G-3261CSK
1001QB
C
E
8001PT
B
RENUT_V3.3_S
RENUT_V3.3_S
V8B
6501PT
1
8101DB
1A
2
V61
Fu001
3601C
6101DB
2
3 4
5 6
7 8
NE7
SS8
W61/1
4001AR
mho33
1
ND3851PM
SB1
NI2
WS3
4DNG
5BF
PMOC6
mho074
8001CI
V3.6
Fu74
8701C
5101R
2.8ZLR
7101D
DNGP
REWOP_WS
DNGRENUT
FFO_LATX_SPLA
ACV
SCV
DNGP
DNGRENUT
DNGP
REWOP_WS
DNGP
TSR_4002TXNn
DNGRENUT
DNGRENUT
DNGRENUT
CGA_FR
DNGRENUT
DNGP
DNGP
DNGP
DNGP
DNGP
DNGP
DNGP
NI_DNGA
NI_DNGA
NI_DNGA
NI_DNGA
NI_LS_2PMOC
NI_RS_2PMOC
NI_DNGA
DNGP
DNGP
DNGRENUT
DNGP
DNGP
NIAM_TFA
Y_2PMOC
BP_2PMOC
RP_2PMOC
NI_DNGA
TNEDI_2PMOC
1YEK
DER_DEL
V5_VT_5ADSV5_VT_5LCS
DNGRENUT
DNGRENUT
V3.3_VT_4LCS
V3.3_VT_4ADS
SCVACV
DNGP DNGP
TED_NAF
DNGP
NI_DNGA
NI_DNGA
NI_DNGA
DNGRENUT
RI
2YEK
)1(ST_MAS
)2(ST_MAS
)3(ST_MAS
)4(ST_MAS
)5(ST_MAS
)6(ST_MAS
)7(ST_MAS )7:0(ST_MAS
DNGP
DNGP
DNGRENUT
NIAM_SBVC_RENUT
DNGRENUTDNGRENUT
DNGRENUT
KLCST_MAS
DLVST_MAS
CNYSST_MAS
DNGRENUT
DNGRENUT
DNGRENUT
NIAM_FIS
SD
A1_D
TV
CH
SD
A1_D
TV
CH
SC
L1_D
TV
CH
SC
L1_D
TV
CH
OTSRn
RENUT_V8.1B
DNGRENUT
)0(NIDOP
)1(NIDOP
)2(NIDOP
)3(NIDOP
)4(NIDOP
)5(NIDOP
)6(NIDOP
)7(NIDOP
)7:0(NIDOP
)0(ST_MAS
KLC_NIDOP
DLV_NIDOP
CNYS_NIDOP
OTESERn
HCVTD_6LCS
HCVTD_6ADS
DNGPDNGP
DR
XD
RX
CR
XC
RX
DNGP
DNGP
Y_1PMOC
BP_1PMOC
RP_1PMOC
NI_DNGA
TNEDI_1PMOC
NI_DNGA
NI_DNGA
NI_LS_1PMOC
NI_RS_1PMOC
DNGP
DNGP
DNGRENUT
DNGP
DNGP DNGP
FFO_NO_NAF
DNGP
DNGP
DNGP DNGP DNGP DNGPDNGP
DNGP
This Document can not be used without Samsung’s authorization.
10-1 POWER & TUNER10. Schematic Diagram
PowerSignal
10-2
Schematic Diagram
Samsung Electronics
10-2 SOUND-PROCESS
3D
2D
2D
Hu01
0Q
1Q
eteleD
]eteleD[
-L
A1426PSN
0302R 8102R 5102R 9002R
2Q
7602R 1602R 0602R 9502R
0Q
1D
2Q
2D
CCx0
NOITPO ETELED
3Q
0Q
eteleD
eteleD
R_TUO_REKAEPS
MARS M1
NOITPO ETELED
3Q
L_TUO_REKAEPS
3Q
WOL HGIH S2I_LES
NOITPO ETELED
1D
-R
+L
YALED OIDUA
1D
]eteleD[
0D
IMDH ELGAE TUPTUO
0D
NOITPO
0D
eteleD
10
uH
10
uH
1D
NOITPO ETELED
2D
1Q
0Q
+R
2502R 1502R 8402R 7402R
NOITPO
08X0
1302R 9102R 0102R
2Q
R_PH
10
uH
10
uH
3D
1Q
NOITPO ETELED
NOITPO ETELED : 9002DB,7002DB
L_PH
1Q
2Q
3Q
0D
eteleD
3D
3D
1LES_DNUOS
2LES_DNUOS
5502C
Fn5.1
B0311-ETZLR
2002D
Fn001
4602C
1_1_V3.3B
9302C Fu01
mho02012R
W01/1
mho001
4402R
Fn001
8112C
FERX
4112R
mhoK01
3.3
2902R
8502C
Fn01
2112C
mhoK2
2102R
W01/1
Fp3
5802C
Fn001
V52
mho0016602R
FERX
V61
Fu01
4702C
1602R
mhoK1
A_V81+
7302C Fu7.4 V53
0402R
3002L
Hu3.3
8002R
mhoK74
CV5
mhoK74
8012R
5402C
V61
Fu001
8702R mho001
1
6602C
Fn7.4
6
7
89
01
11
21
31
41
51
61
4002CI
)LEER(DA361F47
1
2
3
4
5
FERX
6502C
Fp074
0212C
Fu01
V61
7002R
mhoK74
CV5
5302C V53Fu7.4
17902C
Fn001
9OIDDV
FERX
1012R
)1M_FIDPS/21ATADS6
GN
Dc
GN
Dc
60
60
61
61
VD
Dc
VD
Dc
GN
D_H
P_R
GN
D_H
P_R
62
62
63
63
HP
OU
T_R
HP
OU
T_R
VC
C_H
P_R
VC
C_H
P_R
64
64
)143ATADS7
)165ATADS8
VD
DIO
VD
DIO
52
52
53
53
OU
T2B
OU
T2B
OU
T2A
OU
T2A
54
54
55
55
OU
T1B
OU
T1B
OU
T1A
OU
T1A
56
56
57
57
GN
DIO
GN
DIO
58
58
VD
DIO
VD
DIO
59
59
AD
AD
54OIDNG
OIDDV64
74B4TUO
A4TUO84
OU
T3B
OU
T3B
49
49
5)1M_KCB
50
50
OU
T3A
OU
T3A
GN
DIO
GN
DIO
51
51
cDDV83
B6TUO93
)1M_KCW4
A6TUO04
14OIDNG
OIDDV24
34B5TUO
A5TUO44
30
30
AV
DP
LL
AV
DP
LL
LP
PLL
LP
PLL
31
31
32
32
AG
SP
LL
AG
SP
LL
LLPSVA33
43LLPSVD
53NETSET
)1TCETORP63
73cDNG
CK
INC
KIN
23
23
24
24
CK
OU
TC
KO
UT
VD
Dc
VD
Dc
25
25
26
26
GN
Dc
GN
Dc
VD
DIO
VD
DIO
27
27
28
28
GN
DIO
GN
DIO
DV
DP
LL
DV
DP
LL
29
29
3L_PH_DNG
61)1A_KCB
SD
ATA
78/S
PD
IF_A
1)
SD
ATA
78/S
PD
IF_A
1)
17
17
18
18
WC
K_O
1)
WC
K_O
1)
BC
K_O
1)
BC
K_O
1)
19
19
L_TUOPH2
20
20
SD
ATA
_O
12/S
PD
IF_01)
SD
ATA
_O
12/S
PD
IF_01)
RE
SE
T1)
RE
SE
T1)
21
21
22
22
M/S
M/S
1
L_PH_CCV
OIDNG01
11HV/LCS
LV/ADS21
31cDDV
cDNG41
)1A_KCW51
1426PSN
6102CI
8302R
FERX
mhoK01
9112R
PMA_DNUOS
mhoK74
mho0010702R
PMA_DNUOS
V52
Fn001
9202C
6NE/
EEV7
8SSV
9B
31MOC-X
X141
X251
61DDV
2Y2
3MOC-Y
4Y3
5Y1
3002CIM2504CH47MM
1Y0
A01
11X3
X021
mhoK01
8902R
mho02802R
PMA_DNUOS
CCV_V5B
3112C
V36Fn033
8802Rmho0
5002D
B0311-ETZLR
1
Fp657502C
1 2
2112R
PMA_DNUOS
4102L
3002D
FERX
Fu01 1102CV61
B0311-ETZLR
W01/1
mho001
7302R
mhoK74
FERX
3202R
2002L
Hu3.3
Fn001
2802C
Fp31602C
1
mhoK74
3002R
8112R
3
9502R
mhoK1
0102L
2
14
FERX
mhoK74
6002R
mho001
3402R
PMA_DNUOS
V52
Fn001
0602C
1_1_V3.3B
CV5
5302R
mhoK74
1002D
51C-25TZB
Fn0014012C
0602R
mhoK1
FERX
9102R mho001
1
JDA
TUOV2 3
NIV
FERX
9002C
Fu74
V3.6
FERX
A52-D7111PA
4102CI
CCV_V5B
mhoK02
9602R
FERX
V52
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2102C
6302R
6002C
Fn001
4802R
mhoK74
Fn001
8002C
mho0
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V52
FERX
V61 2202CFu01
Fn001
2702C
Fn001
2302C
Fu01
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mho08202R
B0311-ETZLR
4002D
7102R mho0
8902C Fn001
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B
mhoK0012212R
W01/1
5002DB
V05
5102C Fn2.2
9102CFu01V61
mhoK74
1802C
Fu0001
V52
L2
01
3L
20
13
10
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10
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1402R
mhoK7.4
V61 Fu01 6102C
5602R
1402C Fn001
9
3702C
Fn001
0301A
13
23_EO
31A4
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2SC6
751A
CCV8
CN32
42SSV
4O/I52
625O/I
726O/I
7O/I82
928O/I
8A3
1_SC
614A 3A
71
812A
1A91
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020A
121O/I
222O/I
3O/I
11A1
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7A31
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5A51
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31
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51
61
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7002CI
2
3
4
5
6
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1
CCV_V5B
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Fn001
FERX
8202C
Fu01
V61
PMA_DNUOS
W01/1
mho001
6402R
3802C
Fn001
PMA_DNUOS
1426_V3.3+
1426_V3.3+
Fn0010802C
Fn33
5902C
FERX
1426_V3.3+
mho0 1802R
mho0015012R
W01/1
mhoK1
0802R
mhoK01
Fn0016902C
V8B
FERX
7112R
2502C
Fu74
V61
Fu01
0502C
V61
V52
Fn001
3202C
1502R
mhoK1
mho0019402R
0702C
Fn3.3
Fp659402C
FERX
5002L
mhoK01
9802R
mho0
mhoK1 9702R
1202R
mhoK001
0902R
PMA_DNUOS
W01/1
771_O/I_RTC_D
870_O/I_RTC_D
97LES_RDA
AD
R_
DA
AD
R_
DA
8
08QYBDNATS
AD
R_
WS
AD
R_
WS
9
6012C
Fu1
7I2
S_
DA
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1I2
S_
DA
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1
07NETSET
NI_LATX17
TUO_LATX27
37PT
47TUO_LC_DUA
CN57
CN67
AV
SS
AV
SS
AV
SS
AV
SS
62
62
NC
NC
63
63
64
64
NC
NC
56PUSVA
PUSVA66
+1NI_ANA76
-NI_ANA86
96+2NI_ANA
55
55
AS
GA
SG
56
56
SC
1_
IN_
LS
C1
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SC
1_
IN_
RS
C1
_IN
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57
57
VR
EF
TO
PV
RE
FT
OP
58
58
NC
NC
59
59
I2S
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A_
OU
TI2
S_
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6
60
60
MO
NO
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MO
NO
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61
61
SC
4_
IN_
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C4
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48
48
AS
GA
SG
49
49
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SI2
S_
WS
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SC
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LS
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50
50
SC
3_
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RS
C3
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51
51
AS
GA
SG
52
52
SC
2_
IN_
LS
C2
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_L
53
53
SC
2_
IN_
RS
C2
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54
54
04M_LPAC
41
41
NC
NC
42
42
NC
NC
43
43
AH
VS
SA
HV
SS
44
44
AH
VS
SA
HV
SS
AG
ND
CA
GN
DC
45
45
46
46
NC
NC
47
47
SC
4_
IN_
LS
C4
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33R_TUO_2CS
L_TUO_2CS43
531FERV
63R_TUO_1CS
73L_TUO_1CS
A_LPAC83
93PUSVHA
I2S
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LI2
S_
CL
4
52
622FERV
72R_MCAD
L_MCAD82
92CN
I2C
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AI2
C_
DA
3
BUS_MCAD03
13CN
CN23
19
19
I2S
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L3
I2S
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L3
2I2
C_
CL
I2C
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L
20
20
I2S
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S3
I2S
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S3
21
21
RE
SE
TQ
RE
SE
TQ
I2S
_D
A_
IN3
I2S
_D
A_
IN3
22
22
23
23
NC
NC
DA
CA
_R
DA
CA
_R
24
24
L_ACAD
11
11
DV
SU
PD
VS
UP
12
12
DV
SU
PD
VS
UP
DV
SU
PD
VS
UP
13
13
DV
SS
DV
SS
14
14
15
15
DV
SS
DV
SS
16
16
DV
SS
DV
SS
I2S
_D
A_
IN2
I2S
_D
A_
IN2
17
17
NC
NC
18
18
2102CI
005_21C_AQ_G0444PSM
NC
NC
1
AD
R_
CL
AD
R_
CL
10
10
W01/1
mho001
2402R
V52
Fu33
0112C
Fn001
9112C
Fp658402C
2
14
3
5112C
Fn01
Fn001
9502C
8002L
8402R
V52
mho0015102R
mho051
1
4012R
Fn001
4112C
FERX
FERX
W01/1
3212R mhoK001
1_1_V3.3B
3012R
1
Q7
61
81
D8
91
Q8
01
DNG
2
QI
11
HCTAL
1
TUPTUO
02
CCV
D2
4
5
Q2
7
D3
6
Q3
D4
8
Q4
9
31
D5
21
Q5
D6
41
Q6
51
71
D7
PMA_DNUOS
XCTM373CH47MM
1002CI
3
D1
B2
V52
Fn001
1202C
7602C
4002DB
1A
1 2
Fn7.4
mho051
7402R
FERX
7002L
mho0
Fn01
7702C
3802R
V05
Fu1
5202CFu01 0202CV61
V52
Fn001
1302C
V61 5002CFu01
mho09902R
5502R mho0
PMA_DNUOS
9002R
Fu22
V61
6702C
1002QB
C
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FERX
mho001
FERX
1_1_V3.3B
G-3261CSK
W01/1
mho001
4202R
W01/1
mho0
1902R
FERX
mho0017502R
CCV_V5B
V3.6
Fu74
7002C
FERX
FERX
Fu017402C
4902C
Fn01
V61
Fu01
3102C
PMA_DNUOS
V61 Fu01 4002C
81
Q8
91
DNG
01
QI
2
HCTAL
11
TUPTUO
1
CCV
02
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7
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6
8
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31
Q5
21
D6
41
51
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D7
71
61
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6002CI
XCTM373CH47MM
D1
3
D2
4
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5
8002DB
41
51
61
1002DB
3
4
5
6
7
89
01
11
21
31
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5002CI
1
2
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Fn001
Fu1
6802C
V533302C Fu7.4
Fn001
9802C
V53
Fu7.4
8302C
W01/1
3102R
mhoK74
7012R
mhoK01
3602R mho001
1
Fp074
3402C
V61
Fu01
7202C
1002PT
G-3261CSKB
C
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3502C
Fn74
FERX
2002Q
mho001
0302R
234R81_H5MS/94-CH
12
Fn001
3902C
1002X
mhoK01
1212R
5802R
2002R
mhoK74
4302R
mho0
mhoK1
mhoK74
2502R
9702C
Fu0001
V52
4302C
V52
Fn001
V52
Fn001
7802C
4502R mho001
2
3
4
8602C
Fn1
1002NC
THW 40-052WAMS
1
4602R
mhoK7.4
Fn0014802C
Fu1
5012C Fn33
4902R
5602C
5702C
mhoK01
mhoK1
8502R
7567AB_V5B
mho0012702R
A003S2102ZPM
3002DB
2902C Fn001
0102R mho001
1 2
FERX
mho0011302R
0012R mho0
9002L
CCV_V5BCCV_V5B
FERX
8012C
Fn22
mho0012602R
6902R
mho001
4O
5NI
5O
7NI
6O
7ONI
9
1NI
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91
2EO
02
CCV
2012C
Fn33
6
NI
2I
3INI
8
71
4I
5I
51
31
6I
11
7I
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81
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61
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41
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21
3
NI
3102CI
2RTD442CHV47CM
01NI
DNG
2NI
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4NI
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Fn5.1
4402C
1AB
2
6112C
Fn001
6002DB
DV6
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KCRL
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FERX
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31
AV
41
DNG_FER
51
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3
TUODS
4
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01
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8102R mho001
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7202R mho0
1002L
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Fn2.28102CV05
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7102C
W01/1
mho001
FERX
mho7.4
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mho001
FERX
0502R
1702R
mhoK02
9012R
3112R
mho0
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3002PT1
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8802C
7802R
5902R
mho01
mho0
mho0015702R
41
CCV
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V52
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9
11
4I
31
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1
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4
1_O
6
2_O
8
3_O
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2
O_O
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7
DNG
3
1I
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1002R
mhoK74
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mhoK7.4
8H
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31N
41
ANI
1
BNI
2
CNI
3
DNI
4
ENI
5
FNI
6
GNI
7
1002C
Fn001
0102CI
D521F47N
mhoK001
2202R
W01/1
Hu3.3
V8B
FERX
PMA_DNUOS
1_1_V3.3B
CV5
3012C
PMA_DNUOS
4002L
1
CV5
Fn01
FERX
PMA_DNUOS
5112R
1
2
3
mho0017702R
Fn01
8702C
1002TF
7002DB 9002DB
10
uH
10
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L2
01
2L
20
12
Fn001
9012C
1_1_V3.3B
Fu011502C
mhoK001
2302R
W01/1
V61
Fu01
1702C
9202R mho0
A_V81+
V52
Fn001
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4202C
Fu1
V05
7012C
Fn001
V52
5002PT
1
4702R mho001
mhoK1
3502R
4002PT
1
4002R
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mhoK74
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1 2
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S_V5.2+
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2602C
61
FERX
6802R
mhoK01
5
6
7
89
01
11
21
31
41
51
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8002CI
1
2
3
4
FERX
Fu01
V61
3602C
mho0013702R
FERX
Fu22
4502C
mho0015202R
mho001
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6002L
Hu01
mho001
5402R
W01/1
mho0011112R
V61
Fu001
4102C
mho051
6502R
3902R
FERX
FERX
0402C
Fn001
3.3
Fn1
9602C
V61Fu22
2002C
FERX
FERX
8602R
mhoK1
mho0016102R
W01/1
1102R
mhoK2
mhoK001
mho06202R
7902R
W01/1
3302R
7602R mho0
1
A_TSB
55DDVG
DNG65
6DNGD
DNG7
8PA_MWP
9MA_MWP
FERX
B_TUO
DNG84
94DNG
5DNG
05A_TUO
A_TUO15
25A_DDVP
A_DDVP35
45
DDVD
04C_DDVP
14C_DDVP
C_TSB24
B_TSB34
B_DDVP44
B_DDVP54
64B_TUO
74
23D_DDVP
33
43D_TUO
53D_TUO
63DNG
DNG73
83C_TUO
C_TUO93
4
WTO/
GERG62
DNG72
82DNG
92DNG
GERG3
03DDVG
13D_TSB
D_DDVP
MC_MWP91
DNG2
02DC_TESER/
MD_MWP12
PD_MWP22
BA_DS/32
42DC_DS/
52
MB_MWP11
21PB_MWP
31GERD
1M41
2M51
3M61
71NTR_GER
PC_MWP81
5102CI
ACDI2215SAT
1DNG
BA_TESER/01
V61 Fu01 3002C
mho0016112R
6402C
0902C
Fu01
V61
0212R mho0
V61
Fu01
6202C
Fp74
V05
R2
07
6R
20
76
mhoK74
PMA_DNUOS
0o
hm
0o
hm
mhoK74
5002R
9302R
B1TUO_1426
A2TUO_1426
B2TUO_1426
-L_KPS
+R_KPS
+L_KPS
-R_KPS
NI_KLCRL_MAS
TUO_KLCS_MAS
NI_KLCS_MAS
PSM_TESER
TUO_LS_ROTINOM
TUO_RS_ROTINOM
SG
ND
SG
ND
A1TUO_1426
NI_ATAD_S
NI_LS_2PMOC
NI_RS_2PMOC
NI_ODS_MAS
TUO_KLCRL_MAS
TUO_KLCDO_MAS
DNGSDNGS
NI_ODS_PSMNI_KLCRL_PSM
NI_KLCS_PSM
DNGS
DNGS
DNGS
NI_RS_1OEDIV
NI_LS_1OEDIV
NI_RS_1PMOC
NI_LS_1PMOC
NI_RS_IVD
NI_LS_IVD
NI_RS_CP
NI_LS_CP
KLC_M
DNGP
NI_DNGA
KLC_RL
KLC_S
KLC_RL
DNGS
NI_ATAD_S
V3.3_VT_5ADS
PSM_TESER
V3.3_VT_5LCS
KLC_M
1ETUM_PMA
NI_ATAD_S
TUO_ATAD_S
1YALED
2YALED
KLC_S
1_KLC_S
1_KLC_S
KLC_S
TUO_ATAD_S
DNGS
KLCRL_IMDH
ODS_IMDH
TUO_ODS_MAS
TUO_KLCRL_MAS
TUO_KLCS_MAS
TUO_KLCDO_MAS
1_KLC_S
1_KLC_S
TUO_LS_2CS_YNA
DNGSDNGS
S2I_LES
NI_KLCM_PSM
NI_KLCS_PSM
NI_KLCRL_PSM
NI_ODS_PSM
KLCM_IMDH
KLCS_IMDH
V5_VT_5LCS
V5_VT_5ADS
PSM_TESER
DNGS
DNGS
DNGS
DNGS
NIAM_FIS
TUO_RS_2CS_YNA
This Document can not be used without Samsung’s authorization.
PowerSignal
Samsung Electronics
Schematic Diagram
10-3
1 TUPNI VA
NOITPO ETELED
26x0
TUO_ROTINOM
NOITPO ETELED
REDNAPXE O/I
F/I TENYNA
TUO FIDPS LACITPO
1 TUPNI SHVS
TESER MOCIM BUS
IMDH ELGAE TUPTUO
NOITPO AEROK
WOL HGIH S2I_LES
F/I ECIVRES & TENYNA
NOITPO ASU
NOITPO ETELED
NOITPO ETELED
NOITPO ETELED
NOITPO ASU : 1413R,3703R
F/I ECIVRES
TUO_XAOC_FIDPS
mho012013R
9203R
mhoK01
FERX
2
3
1403R mho001
1
2
3
7003DZ
1TL6V5C48XZB
1
1TL6V5C48XZB
6003DZ
5203C
Fn001
10K
ohm
10K
ohm
R3037
R3037
1703R
3103C
Fu22
V61
3103PT
1
FERX
mho001
1 2
3 4
5 6
7 8
1
FERX
W61/1
2003AR mho001
L3006
L3006
10uH
10uH
1103PT
V3.3A
FERX
10K
ohm
10K
ohm
R3015
R3015
7203C
Fn001
R3016
R3016
10K
ohm
10K
ohm
6213R
mhoK001
FERX
3
2003NC3204-82-22
1
2
1TL6V5C48XZB
8003DZ
1
2
FERX
Fn001 2103C
7403R mho001
FERX
8103C Fn001
1
mho0019013R
1
9103PT
1
2203PT
mho001
1203PT
2213R
mhoK7.4
4703R
mho0012703R
4003DZ
2.8ZLR
V5A
Fn001
4103C
V05
1103CFp22
FERX 0Q1Q
9603R
mhoK7.4
3203C
)mpp03,zHM21(DMS-S/94-CH
1003X
mho001
Fp033
6
2103PT
1
7803R
3_p6kcaj
7003AJ
1
2
3
4
5
1003PT
1
1
2
3
0213R
mho57
mho001
FERX
D61-WS-KJU
1003NC
3113R1113R
FERX
FERX
FERX
mho001
mho001
5903R
FERX
mho001
3903R mho001
2903R
3003Q
G-3261CSK
8003L Hu3.3
Fn0019203C
mho57
8113R
W01/1
mhoK2.2
7903R
7103C
Fu01
V61
V61
Fu22
2403C
R3141
R3141
10K
ohm
10K
ohm
6013R mho001
mho001
8003C
2.8ZLR
8003D
3703R
mho001CCV_CDD
FERX
1603R
2503R mho001
FERX
R3001
R3001
2.7
Kohm
2.7
Kohm
5003C
Fn001
6003D
2.8ZLR
mho001
0113R
9303C
Fn7.4
10K
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10K
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R3007
R3007
Fn001
V52
2003C
FERX
FERX
V5A
9103C Fn001
mho0018503R
10K
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10K
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R3017
R3017
1003TF
A1
B2
FERX
R3032
R3032
8903R
mho001
10K
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10K
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V3.3A
8103D
2.8ZLR
6103D
2.8ZLR
mho0012603R
FERX
FERX
mho0012403R
3303PT
1
mho0017203R
7703R
mhoK1
4103D
2.8ZLR
Fp001
0303C
4303C
Fn7.4
9313R mhoK01
FERX
FERX
4.7
Kohm
4.7
Kohm
R3138
R3138
mhoK1
8213R
10K
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10K
ohm
R3004
R3004
10K
ohm
10K
ohm
R3011
R3011
10K
ohm
10K
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R3010
R3010
1003Q
G-3261CSK
B
C
E
mhoK01
7103PT
1
3203R
9003D
2.8ZLR
2.7
Kohm
2.7
Kohm
R3002
R3002
R3134
R3134
4.7
Kohm
4.7
Kohm
R3022
R3022
10K
ohm
10K
ohm
5003D
HTG03C3SDC
0403R
R3020
R3020
FERX
mho001
W01/1
mhoK016903R
2.7
Kohm
2.7
Kohm
2.8ZLR
2103D
FERX
V3.3A
10K
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10K
ohm
mho0019803R
R3038
R3038
mho0013013R
5203PT
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mho074
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7TESER
4PPV_TSET
DDV231
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NIX2
TUOX3
10K
ohm
10K
ohm
111DA_1_2P
212DA_2_2P
3DA_3_2P
31
414DA_4_2P
515DA_5_2P TADS_6DA_6_2P
81
KLCS_7DA_7_2P91
0_3P8 52
1_3P
92_3P
423_3P
IS_2_0P
03OLC_3_0P
928DA_4_0P
829DA_5_0P
7201DA_6_0P
0MWP_11DA_7_0P62
32DCZ_0T_0_1P
22ZUB_1_1P
0TNI_2_1P12
1MWP_1TNI_3_1P02
0DA_0_2P01
8T0S-53X8249C3S
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SSVA
61
6KCS_0_0P
OS_1_0P5
13
0703Rmho001
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mho0014603R
8303C
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mho001
5003DZ
2.8ZLR
1303R
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R3019
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10K
ohm
10K
ohm
10K
ohm
10K
ohm
R3014
R3014
1503R mho001
10K
ohm
10K
ohm
R3003
R3003
R3036
R3036
10K
ohm
10K
ohm
FERX
9003Q
G-3261CSK
Fp033
1303C
mhoK1
mho0745403R
R3013
R3013
10K
ohm
10K
ohm
3213R
G-3261CSK
6003Q
10K
ohm
10K
ohm
R3012
R3012
1103D
2.8ZLR
R3009
R3009
R3008
R3008
10K
ohm
10K
ohm
10K
ohm
10K
ohm
5003L
1003DZ
2.8ZLR
5103PT
1
mhoK001
0313R
7303C
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mho001
5113R
FERX
0013R
mho0
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10K
ohm
10K
ohm
R3021
R3021
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7103D
HTG03C3SDC
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9
01
Fn0011203C
LAVLPUS
1003AJ
4
5
6
7
8
HTG03C3SDC
4003D
mho0015503R
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6113R mho001
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2113R
mho57
2203C
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10K
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R3005
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5_GIS 8
6_GIS 9
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42_DNG
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1_GIS 2
2_GIS 3
53_GIS
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3LOT_V5
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R3082
R3082
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mho001
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10K
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R3035
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mho05203R
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61
mho0019403R
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DG
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51
NI1R31
TUO1R21
NI2R8
TUO2R9
NI1T11
TUO1T41
NI2T
6003CIEWCE232XAM
1+1C
3103D
mho57
1213R
mho001
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mho0
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5013R mho01
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1
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2.8ZLR
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42_DNG
3_DNG 7
1_GIS 2
2_GIS 3
53_GIS
64_GIS
5_GIS 8
6_GIS
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6003AJ
b_p9kcaj
FERX
mho0011903R
1K
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1K
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R3081
mho0748403R
mho001
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8803R
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2.8ZLR
FERX
XREFXREF
XR
EF
XR
EF
mho017013R
mho0014113R
3403R mho001
mho0015603R
1K
ohm
1K
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R3083
R3083
HTG03C3SDC
0103D
mho0015703R
3003L
FERX
mho0018013R
R3085
R3085
FERX
1K
ohm
1K
ohm
mho001
V61
Fu01
6203C
3203PT
1
4203R
1 2
3 4
5 6
7 8
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3003D
12
3
mho0011003AR
W61/1
FERX
2003X
V05
5103C
Fn01
V5A
FERX
V5A
FP61,ZHM42,H5MS/94-C4
zHM0.42
mho001
R3006
R3006
10K
ohm
10K
ohm
1
7113R
W01/1
0413R mho0
6203PT
12
34
56
6103C
4003AJ
0603R mho001
Fn001
2003TF
A2-401E1F23MGS
1
2
3
6303C
Fu01
V61
FERX
3003DZ
2.8ZLR
mhoK01
6803R
1013R
mho0
W01/1
6603R
4503R mho001
1
2
3
mho001
FERX
FERX
FERX
9003DZ
1TL6V5C48XZBFERX
R3034
R3034
10K
ohm
10K
ohm
2.8ZLR
5103D
FERX
2003DZ
2.8ZLR
LAVLPUS
4
5
6
7
8
9
01
7567AB_V5B
1
3003AJ
6103PT
1
8103PT
43
43
P1.7
/CS
YN
C-I
(SO
G)
P1.7
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C-I
(SO
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HS
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C-I
(2)
HS
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(2)
44
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61DDV
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8TUOX
9NIX
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1(2
)P
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)P
3.4
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M4(2
)3
63
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37
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P3.5
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M5(2
)P
3.5
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M5(2
)
P3.6
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M6(2
)P
3.6
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M6(2
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CN
C3
93
9
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40
40
P1.4
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YN
C-O
P1.4
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YN
C-O
P1.5
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YN
C-O
P1.5
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YN
C-O
41
41
P1.6
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MP
-OP
1.6
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MP
-O4
24
2
825.2P
92
1TNI/1.0P3
036.2P
7.2P13
230MWP/0.3P
331MWP/1.3P
34
34
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/PW
M2/S
CL1(2
)P
3.2
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M2/S
CL1
(2)
35
35
VD
D2
VD
D2
21
21
22
22
VS
S2
VS
S2
323DA/3.1P
0.2P42
1.2P52
622.2P
723.2P
4.2P
P0.4
(2)
P0.4
(2)
14
14
15
15
P0.5
(2)
P0.5
(2)
P0.6
(2)
P0.6
(2)
16
16
NC
NC
17
17
18
18
P1.0
/AD
0P
1.0
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0
P1.1
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1P
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11
91
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P1.2
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PAC2MT/2.0P11
P0.3
(2)
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)
12
12
NR
ES
ET
NR
ES
ET
13
13
FERX
5303PT
1
2003CI
B668F3S
7503R mho074
10K
ohm
10K
ohm
R3039
R3039
mho074
2003L Hu3.3
mho001
8603R
W01/1
FERX
V3.3A
0503R
W01/1
4212R
mho0
mhoK7.4
5212R
1
0203PT
1
6003PT
1
4103PT
8203PT1
4203PT
1
1
0103PT
1
7003PT
1
8003PT
481SDK
2003D
12
3
FERX
CCV_V5B
1_V3.3B
FERX
1_V3.3B
FERX
4203C
Fp033
mho0749503R
mho0
1
FERX FERX
CCV_V5B
4213R
1
mho001Fp22
0103C
V05
V61
1003C
7603R
3CN
SSV4
ADS5
6LCS
CW/7
CCV8
Fu01
7.2-IS01-NA61C42TA
4003CI
1CN
2CN
6403R mho001
4403R mho001
4003L
mho001
7313R
mhoK22
6703R
FERX
9703R
6503R mho074
mhoK1
mhoK22
5313R
8203C
Fn001
R3033
R3033
10K
ohm
10K
ohm
mho0743503R
7203PT1
Fp02
9003C
mho0010903R
CCV_V5B
mho001
4903R
1
2003PT
1
4DNG
5B2
B16
72EO/
CCV8
FERX
3003PT
1003CIX8K5213DBW7CN
1EO/1
A12
A23
TNI_EVALS
SUTATS_NAF
NI_DNGA
NI_DNGA
1YEK
2YEK
S2I_LES
0103CI_WS
ADS_UME
LCS_UME
UME_ADS
UME_LCS
2ETUM_PMA
NI_DNGA
YDAER_C2I
1ETUM_PMA
OFNI_REWOP
TNEDI_1OEDIV
TNEDI_IMDH
TNEDI_1SHVS
TNEDI_1PMOC
TNEDI_2PMOC
TNEDI_CP
TNEDI_PH
MOCIMS_3LCS
MOCIMS_3ADS
PC
_H
S_
MIC
OM
PC
_H
S_M
ICO
M
PC
_V
S_M
ICO
MP
C_V
S_M
ICO
M
PC
_V
S_M
ICO
MP
C_V
S_M
ICO
M
TESERn_UPC
PSM_TESER
IMDH_TESER
PVS_TESER
NE_SDVL
REWOP_WS
V5_IMDH
V5_CP
PW_CDD
TED_NAF
RI
DER_DEL
NRG_DEL
PH_ETUM
TUO_CDA_IMDH_WS
SYS2QRI
NE_BOO
WS_DOP
LES_BOO
0NE1NE
NI_DNGA
FFO_NO_NAF
652C42_2ADS
652C42_2LCS
EIND_TESER
S2I_LES
NIAM_TFA V5_VT_5LCSV5_VT_5ADS
TUO_VTD_WS
NI_DNGA
NI_DNGA
2FR_WS
PH_ETUM
NI_DNGA
TUO_ROTINOM
TUO_LS_2CS_YNA
TUO_RS_2CS_YNANI_DNGA
NI_DNGA
NI_DNGA
NI_DNGA
NI_DNGA
1YALED
2YALED
NO_ANL1FR_WS
PMOC_LES
CP_PMOC_LES
NI_DNGA
CGA_FR
TUO_FIDPS_WS
NI_DNGA
NI_DNGA
NI_DNGA
NI_DNGA
FIDPS_IMDH
TUO_FIDPS_WS
TUO_FIDPS_MAS
NI_DNGA NI_DNGANI_DNGA NI_DNGA
C_1SHVS
Y_1SHVS
NI_DNGA
SBVC_1OEDIV
TNEDI_1OEDIV
TNEDI_1SHVS
NI_DNGANI_DNGA
NI_LS_1OEDIV
NI_RS_1OEDIV
TENYNA_DXT
TENYNA_DXR
GUBED_DXT
GUBED_DXR
NI_DNGANI_DNGA
10-3 MICOM & IO-EX & AV IN/OUTThis Document can not be used without Samsung’s authorization.
PowerSignal
10-4 HDMI & PC
10-4
Schematic Diagram
Samsung Electronics
NI_S_IVD
mho 22
CEC
mho 22
mho 22
NOITPO ETELED
892100-1073:N/P
CN
mho 22
mho 22
rP/bP/Y_GOLANA
mho 22
89x0
mho 22
mho 22
NI_S_CP
06x0
GOLANA
160100-2273
22
NI_CP
203100-1092 >= 495100-1033
mho 22
GOLANA
IMDH
TUPNI_IMDH
CO
NF
IG_
I2C
CO
NF
IG_
I2C
CN
mho 22
CN
9404C
NOITPO ETELED
22
CN
1 2
3
Fn001
6204D
Fu22
V61
Fp001
2304C
1704C
5304C
Fn1
7104D
11-ET-B6.5ZLR
1
Fp022
0204C
6504R
8104PT
4004PT1
mho01
Fp022
5204C
FERX
5804R mho001
mho012504R
FERX
3704R mho33
8
FERX
7304C
Fp33V05
0204R
1 2
3 4
5 6
7
1_V3.3B
2.8ZLR
6004D
5004PT1
1_V3.3B
Fu01
6704C
ES8414DBMM
9104D
Fn1
FERX
1_V3.3B
1_V3.3B
6604C
9504C
Fn1
45
6
7
8
0804RmhoK9.3
1
CS01-N20C42TA
1004CI
1
2
3
3204C
Fp022
V05
1104PT
1004D
12
3
78
78
VD
DV
DD
VD
DV
DD
79
79
]2[Y/G8
GN
DG
ND
80
80
]0[Y/G9
70
70
R/C
r[7]
R/C
r[7]
R/C
r[6]
R/C
r[6]
71
71
R/C
r[5]
R/C
r[5]
72
72
R/C
r[4]
R/C
r[4]
73
73
R/C
r[3]
R/C
r[3]
74
74
R/C
r[2]
R/C
r[2]
75
75
R/C
r[1]
R/C
r[1]
76
76
R/C
r[0]
R/C
r[0]
77
77
63
63
GN
DG
ND
VS
OU
TV
SO
UT
64
64
SO
GO
UT
SO
GO
UT
65
65
HS
OU
TH
SO
UT
66
66
DC
KD
CK
67
67
GN
DG
ND
68
68
VD
DV
DD
69
69
]3[Y/G7
65LCS
ADS75
FERV85
DDVA95
]1[Y/G6
DNG06
GN
DG
ND
61
61
AV
DD
AV
DD
62
62
94NIGOS
]4[Y/G5
DNG05
DDVA15
DDVA25
DNG35
rP/NIR45
0A55
14DNG
DDVA24
bP/NIB34
DNG44
DDVA54
DDVA64
DNG74
Y/NIG84
34
34
PV
DD
PV
DD
PV
DD
PV
DD
35
35
GN
DG
ND
36
36
MID
SC
VM
IDS
CV
37
37
CLA
MP
CLA
MP
38
38
AV
DD
AV
DD
39
39
]5[Y/G4
GN
DG
ND
40
40
27
27
PV
DD
PV
DD
GN
DG
ND
28
28
CO
AS
TC
OA
ST
29
29
]6[Y/G3
HS
YN
CH
SY
NC
30
30
VS
YN
CV
SY
NC
31
31
GN
DG
ND
32
32
FIL
TF
ILT
33
33
2]7[Y/G
DNG02
GN
DG
ND
21
21
VD
DV
DD
22
22
VD
DV
DD
23
23
GN
DG
ND
24
24
GN
DG
ND
25
25
PV
DD
PV
DD
26
26
21]7[bC/B
]6[bC/B31
]5[bC/B41
]4[bC/B51
]3[bC/B61
]2[bC/B71
]1[bC/B81
]0[bC/B91
3004CI
011-RC3889TSM
DNG1
DNG01
DDV11
Fn001
4204C
Fn74
4304C
FERX
9704C
Fp33
3
FERX
2304D11-ET-B6.5ZLR
7204D
1 2
2.8ZLR
5104D
Fn001
7004C
9304C
Fn001
3004C
Fn001
0304C
Fn001
4804R mho001
FERX
CCV_CDD
FERX
3004TF
9104PT1
mho07304R
mho093
1504R
mho57
7004R
B
2104R mho22
T-060-H8061BCA9004DB
2604R
mhoK01
mho0013004R
1604C
Fn01
34
56
78
FERX
3304R
12
6004R
mho57
7604R
9504R mho01
mho0
1 2
3
5604R mho74
1 2
38204D
1 2
3 4
5 6
7 8
0304D
3004AR
Fn001
4004R
mhoK01
8504C
4104PT
1
V52
Fn0014404C
Fu22
2604C
V61
6004PT1
1_V3.3B
9004D
2.8ZLR
1004TF
Fn001
8204C
FERX
1004DB
A003S2102ZPM
B
3
4
5
6
7
8
9
1DNGM
2DNGM
3DNGM
31
41
51
61
71
81
91
2
32
42
ADW910R1CD
4004AJ
1
01
11
21
3
Fn001
6004C
FERX
1304D
1 2
+1XR
CCVA39
DNGA49
59CCVA
-2XR69
79+2XR
DNGA89
DNG99
58
-0XR68
+0XR78
88DNGA
98CCVA
TESR9
DNGA09
-1XR19
29
DNGO
DNGP97
8PMOC
08CCVP
18SER_TXE
CCVA28
38-CXR
+CXR48
DNGA
0Q
71
71
INT
INT
72
72
RE
SE
T#
RE
SE
T#
73
73
RS
VD
RS
VD
CS
CL
CS
CL
74
74
75
75
CS
DA
CS
DA
76
76
DS
DA
DS
DA
DS
CL
DS
CL
77
77
87
36
CCV46
DNG56
DNGO66
CCVO76
862Q
1Q96
7RPRNA
07
CCVO
75DNGO
8Q85
7Q95
RCCVCAD6
066Q
5Q16
264Q
3Q
94
5RDNGCAD
41Q05
31Q15
2521Q
11Q35
4501Q
9Q55
65
14
91Q24
81Q34
71Q44
DNGO54
46
46
OD
CK
OD
CK
CCVO74
8461Q
51Q
VS
YN
CV
SY
NC
DE
DE
35
35
32Q63
7322Q
12Q83
9302Q
4OFERVCAD
04CCV
DNG
72
82DNGO
FIDPS92
3IFERVCAD
030DS
SW13
23KCS
HS
YN
CH
SY
NC
33
33
34
34
2
RS
VD
RS
VD
20
20
12CCVO
22DNGLLP
CCVLLP32
24
24
PL
LIN
PL
LIN
PL
LO
UT
PL
LO
UT
25
25
62TUOKLCM
NIKLCM
YGNA
31BDNGCAD
BCCVCAD41
BPBNA51
61DNG
CCV71
RS
VD
RS
VD
18
18
19
19
RS
VD
RS
VD
DNGCAD
001TC3999IIS
1CCVCAD
GDNGCAD01
001CCV
11GCCVCAD
21
FERX
7704R
mhoK7.4
5004CI
V61
Fu015504C
mho0
0104R
Fp022
9104C
6104PT
1
6104C
Fn001
Fn74
7704C
7404C
3504C
Fn1
mho0
V61Fu22
Fp033
1404C
8604R
S006P14MLB
8004DB
mho227104R
8604C
Fn1
1
mho575104R
5104PT
2.8ZLR
1204D
V5A
4004TF
FERX
9604C
Fn001
6
7 8
1004C
Fn001
9204R
1 2
3 4
5
2.8ZLR
3204R mho001
8004D
1004L
6704R
mho001
FERX
7104PT1
FERX
mho334604R
FERX
FERX
9604R mho0
2204C
Fn01
V05
1
8004R
mho57
Fn1
5604C
7004PT
S006P14MLB
7004DB
1 2
3 4
5 6
7 8
FERX
7004AR
6404CFn001
B
2.8ZLR
2104D
4
5 6
7 8
3004DB
5004AR
1 2
3
7 8
1304C
Fn74
2004AR
1 2
3 4
5 6
6004L
Hu01
2.8ZLR
4.7
Ko
hm
4.7
Ko
hm
3104D
3304D
11-ET-B6.5ZLR
R4
08
1R
40
81
mhoK7.2
1004R
1
mho001
8204R
5
6
7
8
9
01
8004PT
2004AJLAVLPUS
4
3004L
R4
03
9R
40
39
22
oh
m2
2o
hm
FERX
Hu01
V05Fp33
8304C
mhoK9.3
8704R
mhoK7.4
2004L
0704R
W01/1
1 2
3 4
5 6
7 8
FERX
FERX
2204D
11-ET-B6.5ZLR
4004AR
1DNGM
2DNGM
4104D
2.8ZLR
31
41
51
2
3
4
5
6
7
8
9
1004AJ033N20251-501
1
01
11
21
mho0012404R
2.8ZLR
5004D
2.8ZLR
4004D
5204R1 2
3 4
5 6
7 8
FERX
mho0014204R
2004D
12
3
Fp022
8004C
Fn001
5004C
6504CFn001
Fn001 Fn001
4104C
4.7
Ko
hm
4.7
Ko
hm
3104C
4404R mho22
R4
08
2R
40
82
0504R mho0
Fn2.8
7204C
3004D
12
3
1504C
V61
Fu01
6304R
mhoK7.4
mho0742304R
0204D
ES8414DBMM
mhoK01
1604R
22
oh
m2
2o
hm
R4
04
1R
40
41
8504R mho01
8CCV
Hu01
5004L
11EO/
2A1
3A2
DNG4
B25
6B1
2EO/7
X8K5213DBW7CN
6004CI
2704R mho0
2704C
Fn001
9104R
mho001
mho001
2204R
7504C
Fu22V61
1_V3.3B
3404R mho074
5004DB
S006P14MLB
4
5 6
7 8
Fu01V61
3704C
8104R1 2
3
B
4104R mho57
8
0104DB
T-060-H8061BCA
6004AR
1 2
3 4
5 6
7
B2.6ZLR
8104D
1704R mhoK01
2004R mho001
B
6304C
Fn74
T-060-H8061BCA
2004DB
1
mho0016204R
Fn001
8404C
2004PT
mho001
FERX
3104R mho74
FERX1204R
mho08404R
6404R mho0
FERX
5004R
mhoK01
1104R mho74
3404C
Fp033
CCV_CDD
5404C
Fu001
V61
3804R mho74
5504R
4604C
Fn001
mho01
34
56
78
FERX
mho229404R
3
4304R
12
4204D
ES8414DBMM1 2
9004R mho001
01K
11L
21M
31N
41
mho0741304R
NI
1
A
BNI
2
3
CNI
DNI
4
ENI
5
FNI
6
GNI
7
H8
I9
J
Fn001
XM41XCL47
2004CI
Hu014004L
2104C
1 2
3
1_V3.3B
9204D
V5A
0304R
mho001
2504C
Fn001
3
2.8ZLR
6104D
5204D
1 2
2004C
Fu001
FERX
Fu01
6204C
FERX
0604C
V61
Fu01
R4
04
0R
40
40
22
oh
m2
2o
hm
7404R mho22
3604R
Fn15704C
Fp001mho33
Fn001
8704C
V52
4504C
Fn001
4004C
0104PT1
3304C
8304R mho074
V3.3A
Fp001
Fn001
5104C
Fn001
7104C
Fn1
0504C
4004DBB
7 8
2104PT1
1 2
3 4
5 6
mho01
1_V3.3B
1004AR
R4
03
5R
40
35
FERX
3504R
6104R mho001
10
0o
hm
10
0o
hm
Fn0014704C
mho017504R
Fn28
1204C
0704C
Fn001
mho01
Fn001
3604C
3004PT1
4504R
V3.3A
6604Rmho74
4004CI1
2
3
45
6
7
8
Fp022
8104C
CS01-N20C42TA
mho225404R
Fp033
0404C
7204R
mho001
FERX
Fn001
0104C
2004TF
T-060-H8061BCA
6004DB
B
Fu001
1104C
9704R mho74
FERX
mho334704R
0104D
2.8ZLR
4
5
6
2404C
Fp033
3004AJ3_p6kcaj
1
2
3
5304PT
1
Fp022
9004C
1
6304PT
1
1304PT
1
4304PT
1
3304PT
1
5704R mho0
2304PT
Fn001
9204C
7604C
Fn1
1
7004D
2.8ZLR
9004PT1
3104PT
1004PT1
2.8ZLR
1104D
NI_DNGA
NI_DNGA
PW_CDD
PW_CDD
mho330604R
+KLCXR_2D
-KLCXR_2D
+0XR_2D
+1XR_2D
+2XR_2D
LCS_CDD_2D
ADS_CDD_2D
NI_DNGA
NI_DNGA
NI_DNGA
NI_DNGA
TNEDI_CP
V5_IMDH
ED_IMDH
SV_DA_IMDH
SH_DA_IMDH
KLC_DA_IMDH
HD
MI_
HS
HD
MI_
HS
HD
MI_
VS
HD
MI_
VS
DER_CP
V3.3_VT_4LCS
V3.3_VT_4ADS
7567_SH_CP
7567_SV_CP
LCS_UMEADS_UME
NI_DNGA
NEERG_CP
SV
P_
R(7
)S
VP
_R
(7)
SV
P_
R(6
)S
VP
_R
(6)
SV
P_
R(5
)S
VP
_R
(5)
SV
P_
R(4
)S
VP
_R
(4)
SV
P_
R(0
)S
VP
_R
(0)
)7:0(G_PVS
)7(G_PVS
)6(G_PVS
)5(G_PVS
)4(G_PVS
)3(G_PVS
)2(G_PVS
)1(G_PVS
)0(G_PVS
)7:0(B_PVS
)7(B_PVS
)6(B_PVS
)5(B_PVS
)4(B_PVS
)3(B_PVS
)2(B_PVS
)1(B_PVS
)0(B_PVS
EULB_CP
)7(B_PVS
)6(B_PVS
)5(B_PVS
)4(B_PVS
)3(B_PVS
)2(B_PVS
)1(B_PVS
)0(B_PVS
)7:0(R_PVS
)7:0(G_PVS
)7:0(B_PVS
TNEDI_IMDH
LCS_CDD_2D
ADS_CDD_2D
)7:0(R_PVS
SV
P_
R(3
)S
VP
_R
(3)
SV
P_
R(2
)S
VP
_R
(2)
SV
P_
R(1
)S
VP
_R
(1)
)7(R_PVS
)6(R_PVS
)5(R_PVS
)4(R_PVS
)3(R_PVS
)2(R_PVS
)1(R_PVS
)0(R_PVS
)7(G_PVS
)6(G_PVS
)5(G_PVS
)4(G_PVS
)3(G_PVS
)2(G_PVS
)1(G_PVS
)0(G_PVS
NI_DNGDNI_DNGA
NI_DNGD NI_DNGD
NI_DNGD
NI_DNGD
DG
ND
_IN
DG
ND
_IN
NI_DNGD
NI_DNGA
NI_DNGD
NI_DNGD
DER_CP
NEERG_CP
EULB_CP
mm5.0
mm5.0
V3.3_VT_4ADS
IMDH_TESER
SYS2QRI
7567_SV_CP
7567_SH_CP
MOCIM_SV_CP
MOCIM_SH_CP
FIDPS_IMDH
KLCS_IMDH
KLCRL_IMDH
ODS_IMDH
V3.3_VT_4LCS
KLCM_IMDH
-2XR_2D
+2XR_2D
-1XR_2D
+1XR_2D
-0XR_2D
+0XR_2D
+KLCXR_2D
-KLCXR_2D
NI_RS_CP
NI_DNGA
-2XR_2D
-1XR_2D
-0XR_2D
mm5.0
NI_DNGA
NI_LS_IVD
NI_RS_IVD
NI_DNGA
NI_DNGA
NI_DNGA
V5_CP
NI_DNGA
NI_DNGA
NI_LS_CP
This Document can not be used without Samsung’s authorization.
10-5 SVP-EX52
Samsung Electronics
Schematic Diagram
10-5
RDD ot raeN
NOITPO ETELED
NOITPO ETELED
XE_PVS OT ESOLC
335100-5011
LORTNOC C2I GUBED ROF
NOITPO ETELED
NOITPO ETELED
4015C,1705C,9605C,6605C,1605C
3315C,8215C,7215C,3215C
RDD 23 X M4
NOC_SO
NOITPO ETELED
NOC_SO
NOC_SO
NOITPO ETELED
NOC_SO
V01
Fu74
7905C
V01
Fu74
8805C
V05
FU1.0
V01
Fu74
3805C
6505R mhoK1
5405C
1
33ohm
33ohm
R5
011
R5
011
W01/1
7005PT
1
6005PT
V05
Fp001 7805C
V05
2805CFp001
V61
Fn001
V61
5505C
3005PT
1
8505C
Fn001
5005PT
1
4005PT
1
V01
Fu74
2015C
7505C
Fu001
V52
V3.6
4505C
Fu021
1_1_V3.3B
1/1
0W
1/1
0W
R5
07
7R
50
77
1K
ohm
1K
ohm
mhoK3.3
9705R
7005DB
1A B
2
1505C
V61
Fn001
V52
S006P14MLB
V52
8405C
Fn001
0905CV52
Fn001
5905C
Fn001
9905C Fn001
V52
33ohm
33ohm
R5
00
8R
50
08
V52
3405C
Fn001
4305CV52V52
3305C
Fn001
7505RmhoK1
W01/1
Fn001
mhoK01 0605R
1005Q
mho0
3705R
W01/1
G-3261CSK
5115C
Fn001
Fn001
6205CV52 V52
7205C
Fn001
V52
5315CV52
Fn001
6405C
V52
5305C
Fn001
9405CFn001
V52
Fn001
9505C
Fn001
V52
2505CV52
Fn001
Fp02
6215C
6305CV52
Fn001 Fn001
7305C
Fn001
V52 V52
9305C
Fn001
8305CV52 V52
Fn001
V52
9205C
Fn001
0405C
Fn001
0305CV52 V52
1305C
Fn001
Fn001
Fn001
2305CV52
1405C
Fn001
V5A8005C
V52
Fn001
2405CV52
V05
Fu1
9605C
V52
Fu1
V05
6605C
W01/1
2705R mho001
8405R
Fu1
V05
1705C
3605R
W01/1
mho0
mho0
33ohm
33ohm
33ohm
33ohm
R5
01
0R
50
10
R5
00
7R
50
07
33ohm
33ohm
R5
00
9R
50
09
1
FU1.0
4405C
V05
42SS
1005D
1005PT
2605C
Fn01
0605C
Fp001
1605R
mhoK01
Fn0015705C
3705C Fn001
Fn01
mho0
5805R
3505C
V52
V6DPVS_DV8.1B
2005PT
1
6315C
Fn001
8505R
W01/1
mhoK01
2605R
1
mhoK6.5
W01/1
9505R
mhoK01
1U
Fn0014215C
mho0
6405R
1
JDA
TUOV23
NIV
3005L
A52-D7111PA
1005CI
mho0
4705R
0o
hm
0o
hm
R5
08
2R
50
82
mho0
W01/1W01/1 6705R
mho0
5705R
8705R mho0
mho57
1805R
6115C
Fn001
4115C
Fn001
2005R mho001
4005R
V52
6905CFn001
mho22
1005R
mho22
mhoK7.4
3405R
W01/1
33ohm
33ohm
R5
02
0R
50
20
)ZHM81813.41(DMS-S/94-CH
33ohm
33ohm
R5
03
2R
50
32
Fp02
0505C
zHM81813.41
1005X
2005L
Fn001
CCV_V5B
Hu2.2
mho0 5605R
8205CV52
V01
Fu1
1005C
Hu2.21005L
0705CFn001
9605R
W01/1
mho0
1005TSET
123
R5
03
8R
50
38
10
0o
hm
10
0o
hm
Fu1
30-052WMS
3605C Fn001
1605C
4605R mho0
W01/1
R5
05
2R
50
52
22ohm
22ohm
1/1
0W
1/1
0W
1/1
0W
1/1
0W
22ohm
22ohm
R5
05
1R
50
51
V05
33ohm
33ohm
R5
02
3R
50
23
Fn001
3315C
Fu1
3115CFn001
9115C
R5
00
6R
50
06
33ohm
33ohm
SB1
2NI
3WS
DNG4
BF5
6PMOC
7NE
8SS
ND3851PM
5005CI
Fn001
V05
Fu1
4015C
7015C
4705C
Fn001
mho04405R
9005DB
0115C Fu1
0315C Fn001
Fn001
1315C
2705C
2315C Fn001
Fn001
6505C
Fu001
V61
5005L
V3.3A
8115C
V52
Fn001
Hu2.2
Fu1
3215C
V05
33ohm
33ohm
33ohm
33ohm
R5
02
5R
50
25
R5
08
3R
50
83
R5
01
9R
50
19
33ohm
33ohm
0o
hm
0o
hm
33ohm
33ohm
R5
03
7R
50
37
R5
03
1R
50
31
R5
03
0R
50
30
33ohm
33ohm
PVS_LV8.1B
33ohm
33ohm
R5
02
6R
50
26
Fn001
V61
1215C
Fp03
5015C
33ohm
33ohm
R5
01
4R
50
14
R5
01
5R
50
15
33ohm
33ohm
33ohm
33ohm
mho0013005R
R5
02
1R
50
21
mho225005R
R5
04
0R
50
40
33ohm
33ohm
R5
03
9R
50
39
R5
03
4R
50
34
33ohm
33ohm
R5
01
3R
50
13
33ohm
33ohm
mho221705R
33ohm
33ohm
33ohm
33ohm
R5
01
7R
50
17
33ohm
33ohm
R5
01
6R
50
16
33ohm
33ohm
R5
02
2R
50
22
33ohm
33ohm
R5
02
9R
50
29
33ohm
33ohm
R5
01
2R
50
12
33ohm
33ohm
33ohm
33ohm
R5
02
8R
50
28
33ohm
33ohm
R5
03
3R
50
33
3NIV
V05
Fu1
7215C
R5
04
2R
50
42
8.1-DA7111NAF
8005CI1
JDA
TUOV2
Fn0018605C
1_1_V3.3B
Fn0017605C
7605R mho0
6605R mho0
22ohm
22ohm
R5
05
3R
50
53
3005DB
1/1
0W
1/1
0W
R5
05
0R
50
50
PVS_V5.2B
8.1DV
1/1
0W
1/1
0W
5215C
Fu74
V61
22ohm
22ohm
9215C Fn001
Fu1
V05
8215C
V61
Fu01
5105DB
Fn0012115C
1905C
8.1DV
0805RmhoK2.1
Fu1
7115C
DP
IN0
DP
IN0
Y6
Y6
DP
IN1
DP
IN1
DP
IN16
DP
IN16
Y7
Y7
Y8
Y8
DP
IN17
DP
IN17
DP
IN_C
LK
DP
IN_C
LK
Y9
Y9
HDDV
QMDDV
8.1DV
V01
DP
IO6
DP
IO6
DP
IO1
DP
IO1
Y1
7Y
17
Y1
8Y
18
NC
NC
NC
NC
Y1
9Y
19
Y2
Y2
DE
DE
Y2
0Y
20
NC
NC
DP
IN9
DP
IN9
Y3
Y3
Y4
Y4
DP
IN10
DP
IN10
Y5
Y5
W9
W9
V
Y1
Y1
Y1
0Y
10
DP
IN_H
DP
IN_H
DP
IO21
DP
IO21
Y11
Y11
Y1
2Y
12
DP
IO20
DP
IO20
DP
IO14
DP
IO14
Y1
3Y
13
Y1
4Y
14
DP
IO13
DP
IO13
DP
IO7
DP
IO7
Y1
5Y
15
Y1
6Y
16
H
W2
0W
20
NC
NC
DP
IN8
DP
IN8
W3
W3
W4
W4
DP
IN11
DP
IN11
DP
IN15
DP
IN15
W5
W5
W6
W6
DP
IN2
DP
IN2
DP
IN7
DP
IN7
W7
W7
W8
W8
DP
IN18
DP
IN18
DP
IN23
DP
IN23
DP
IO19
DP
IO19
DP
IO15
DP
IO15
W1
3W
13
W1
4W
14
DP
IO12
DP
IO12
W1
5W
15
DP
IO_C
LK
DP
IO_C
LK
W1
6W
16
DP
IO5
DP
IO5
DP
IO0
DP
IO0
W1
7W
17
W1
8W
18
NC
NC
NC
NC
W1
9W
19
W2
W2
V5
V5
V6
V6
DP
IN3
DP
IN3
DP
IN6
DP
IN6
V7
V7
V8
V8
DP
IN19
DP
IN19
DP
IN22
DP
IN22
V9
V9
MP
UC
S_F
LD
MP
UC
S_F
LD
W1
W1
W1
0W
10
DP
IN_V
DP
IN_V
DP
IO22
DP
IO22
W11
W11
W1
2W
12
DP
IO4
DP
IO4
DP
IO_R
T0
DP
IO_R
T0
V1
7V
17
V1
8V
18
NC
NC
NC
NC
V1
9V
19
V2
V2
SD
AS
DA
V2
0V
20
NC
NC
PW
MP
WM
V3
V3
V4
V4
DP
IN12
DP
IN12
DP
IN14
DP
IN14
U9
U9
V5
SF
V5S
F
V1
V1
V1
0V
10
DP
IN_D
ED
PIN
_D
E
DP
IO23
DP
IO23
V11
V11
DP
IO18
DP
IO18
V1
2V
12
DP
IO16
DP
IO16
V1
3V
13
V1
4V
14
DP
IO11
DP
IO11
DP
IO8
DP
IO8
V1
5V
15
V1
6V
16
TE
ST
MO
DE
TE
ST
MO
DE
U2
0U
20
NC
NC
RE
SE
TR
ES
ET
U3
U3
U4
U4
SC
LS
CL
DP
IN13
DP
IN13
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DD
R_M
D(2
3)
DD
R_M
D(2
2)
DD
R_M
D(2
2)
DD
R_M
D(2
1)
DD
R_M
D(2
1)
DD
R_M
D(2
0)
DD
R_M
D(2
0)
)4(DM_RDD
)5(DM_RDD
)6(DM_RDD
)7(DM_RDD
DD
R_
WE
#D
DR
_W
E#
FERVM
QMDDV
)8(DM_RDD
)9(DM_RDD
)01(DM_RDD
)11(DM_RDD
)21(DM_RDD
)31(DM_RDD
)41(DM_RDD
)51(DM_RDD
)72(DM_RDD
)62(DM_RDD
)52(DM_RDD
)42(DM_RDD
)13(DM_RDD
)03(DM_RDD
)92(DM_RDD
)82(DM_RDD
1CDA_SSVA
1CDA_DDVA
SSVAP
DDVAP
]11:0[AM_RDD
]11:0[AM_RDD
]13:0[DM_RDD
]13:0[DM_RDD
DD
R_
DQ
M[0
:3]
DD
R_
DQ
M[0
:3]
DD
R_
DQ
S(1
)D
DR
_D
QS
(1)
DD
R_
DQ
S(3
)D
DR
_D
QS
(3)
DD
R_
DQ
S(0
)D
DR
_D
QS
(0)
DD
R_
DQ
S(2
)D
DR
_D
QS
(2)
)0(DM_RDD
)1(DM_RDD
)2(DM_RDD
)3(DM_RDD
V3.3B_HDDV
1SSVAP
1DDVAP
2SSVAP
2DDVAP
SSVDP
DDVDP
SSA_GB_3SSVA
2PSVA_3DDVA
3CDA_SSVA
3CDA_DDVA
2CDA_SSVA
2CDA_DDVA
SH_PVS
SV_PVS
ED_PVS
KLC_PVS
HSSV
HDDV
LSSV
LDDV
)11(AM_RDD
V3.3B_HSSV
)1(AM_RDD
)0(AM_RDD
)11:0(AM_RDD
DD
R_D
QM
(1)
DD
R_D
QM
(1)
)2(MQD_RDD
)3(MQD_RDD
)3:0(MQD_RDD
SH_DA_IMDH
KLC_DA_IMDH
ED_IMDH
SV_DA_IMDH
TUO_CDA_IMDH_WS
TUO_VTD_WS
SH_DH
SV_DH
KLC_DH
DD
R_M
D(1
1)
DD
R_M
D(1
1)
)21(DM_RDD
)31(DM_RDD
)41(DM_RDD
)51(DM_RDD
)61(DM_RDD
)71(DM_RDD
)81(DM_RDD
)91(DM_RDD
)02(DM_RDD
)12(DM_RDD
)22(DM_RDD
)32(DM_RDD
)42(DM_RDD
)52(DM_RDD
)62(DM_RDD
)72(DM_RDD
)82(DM_RDD
)92(DM_RDD
)03(DM_RDD
)13(DM_RDD
)13:0(DM_RDD
)0(MQD_RDD
DD
R_M
A(1
0)
DD
R_M
A(1
0)
DD
R_M
A(9
)D
DR
_M
A(9
)
DD
R_M
A(8
)D
DR
_M
A(8
)
DD
R_M
A(7
)D
DR
_M
A(7
)
DD
R_M
A(6
)D
DR
_M
A(6
)
DD
R_M
A(5
)D
DR
_M
A(5
)
DD
R_M
A(4
)D
DR
_M
A(4
)
DD
R_M
A(3
)D
DR
_M
A(3
)
)2(AM_RDD
DN
IE_R
IN(1
)D
NIE
_R
IN(1
)
DN
IE_R
IN(0
)D
NIE
_R
IN(0
)
)9:0(NIR_EIND
SV
P_A
D(7
)S
VP
_A
D(7
)
SV
P_A
D(6
)S
VP
_A
D(6
)
)5(DA_PVS
)4(DA_PVS
)3(DA_PVS
)2(DA_PVS
)1(DA_PVS
)0(DA_PVS
)7:0(DA_PVS
)7(DC_PVS
)6(DC_PVS
)5(DC_PVS
)4(DC_PVS
)3(DC_PVS
)2(DC_PVS
)1(DC_PVS
)0(DC_PVS
)7:0(DC_PVS
)7:0(G_PVS
)0(DM_RDD
)1(DM_RDD
)2(DM_RDD
)3(DM_RDD
)4(DM_RDD
DD
R_M
D(7
)D
DR
_M
D(7
)
DD
R_M
D(8
)D
DR
_M
D(8
)
DD
R_M
D(9
)D
DR
_M
D(9
)
DD
R_M
D(1
0)
DD
R_M
D(1
0)
DN
IE_G
IN(1
)D
NIE
_G
IN(1
)
DN
IE_G
IN(0
)D
NIE
_G
IN(0
)
)9:0(NIG_EIND
DN
IE_R
IN(9
)D
NIE
_R
IN(9
)
DN
IE_R
IN(8
)D
NIE
_R
IN(8
)
DN
IE_R
IN(7
)D
NIE
_R
IN(7
)
DN
IE_R
IN(6
)D
NIE
_R
IN(6
)
DN
IE_R
IN(5
)D
NIE
_R
IN(5
)
DN
IE_R
IN(4
)D
NIE
_R
IN(4
)
DN
IE_R
IN(3
)D
NIE
_R
IN(3
)
DN
IE_R
IN(2
)D
NIE
_R
IN(2
)
DN
IE_B
IN(2
)D
NIE
_B
IN(2
)
DN
IE_B
IN(1
)D
NIE
_B
IN(1
)
DN
IE_B
IN(0
)D
NIE
_B
IN(0
)
)9:0(NIB_EIND
DN
IE_G
IN(9
)D
NIE
_G
IN(9
)
DN
IE_G
IN(8
)D
NIE
_G
IN(8
)
DN
IE_G
IN(7
)D
NIE
_G
IN(7
)
DN
IE_G
IN(6
)D
NIE
_G
IN(6
)
DN
IE_G
IN(5
)D
NIE
_G
IN(5
)
DN
IE_G
IN(4
)D
NIE
_G
IN(4
)
DN
IE_G
IN(3
)D
NIE
_G
IN(3
)
DN
IE_G
IN(2
)D
NIE
_G
IN(2
)
#SAC_RDD
)3(SQD_RDD
LSSV
LDDV
0KLCM_RDD#0KLCM_RDD
FERVM1AB_RDD
)2(SQD_RDD
DN
IE_B
IN(9
)D
NIE
_B
IN(9
)
DN
IE_B
IN(8
)D
NIE
_B
IN(8
)
DN
IE_B
IN(7
)D
NIE
_B
IN(7
)
DN
IE_B
IN(6
)D
NIE
_B
IN(6
)
DN
IE_B
IN(5
)D
NIE
_B
IN(5
)
DN
IE_B
IN(4
)D
NIE
_B
IN(4
)
DN
IE_B
IN(3
)D
NIE
_B
IN(3
)
KLC_PVS
VS
OU
T_
EX
VS
OU
T_
EX
HS
OU
T_
EX
HS
OU
T_
EX
CL
KO
UT
_E
XC
LK
OU
T_
EX
2SSVAP2DDVAP
1SSVAP
1DDVAP
SSVDPDDVAPSSVAP
DDVDP
)0(SQD_RDD
1CDA_SSVA
SSA_GB_3SSVA
DD
R_M
D(5
)D
DR
_M
D(5
)
DD
R_M
A(1
1)
DD
R_M
A(1
1)
1CDA_DDVA
2PSVA_3DDVA
VD
DH
_C
PU
VD
DH
_C
PU
2CDA_DDVA2CDA_SSVA
VD
DH
_C
PU
VD
DH
_C
PU
3CDA_SSVA
3CDA_DDVA
DD
R_
DQ
S(1
)D
DR
_D
QS
(1)
EKLC_RDD
#SAR_RDD
#EW_RDD
0AB_RDD
#0SC_RDD
PVS_RWn
TNI_PVS
V3.3B_HDDV
3CDA_SSVA
2CDA_SSVA
UPC_HDDV
RP_1PMOC
RP_2PMOC
C_1SHVS
BP_1PMOC
BP_2PMOC
1CDA_SSVA
Y_1PMOC
Y_1SHVSNIAM_SBVC_RENUT
Y_2PMOC
TUO_ROTINOM
SV
P_G
(5)
SV
P_G
(5)
SV
P_R
(4)
SV
P_R
(4)
SV
P_R
(5)
SV
P_R
(5)
SV
P_B
(4)
SV
P_B
(4)
SV
P_B
(6)
SV
P_B
(6)
SV
P_G
(3)
SV
P_G
(3)
SV
P_G
(6)
SV
P_G
(6)
SV
P_R
(3)
SV
P_R
(3)
SV
P_R
(6)
SV
P_R
(6)
SV
P_B
(0)
SV
P_B
(0)
SV
P_B
(3)
SV
P_B
(3)
SV
P_B
(7)
SV
P_B
(7)
SV
P_G
(2)
SV
P_G
(2)
SV
P_G
(7)
SV
P_G
(7)
SV
P_R
(2)
SV
P_R
(2)
SV
P_B
(1)
SV
P_B
(1)
SV
P_B
(2)
SV
P_B
(2)
SV
P_R
(0)
SV
P_R
(0)
)7:0(R_PVS
)7:0(B_PVS
PVS_TESER
V3.3_VT_4ADS
V3.3_VT_4LCS
SH_PVS
SV_PVS
ED_PVS
SC_PVSp
PVS_DRn
SBVC_1OEDIV
DD
R_M
D(6
)D
DR
_M
D(6
)
SV
P_R
(1)
SV
P_R
(1)
SV
P_G
(0)
SV
P_G
(0)
SV
P_G
(1)
SV
P_G
(1)
SV
P_R
(7)
SV
P_R
(7)
SV
P_B
(5)
SV
P_B
(5)
SV
P_G
(4)
SV
P_G
(4)
This Document can not be used without Samsung’s authorization.
PowerSignal
10-6 S3C2800
10-6
Schematic Diagram
Samsung Electronics
680100-2042 >= 012100-2042
V3.3A
680100-2042 >= 012100-2042
CN-FM
680100-2042 >= 012100-2042
DE
LETE
OP
TIO
N
NOITPO ETELED
NOITPO ETELED
NOITCETORP ETIRW :4
UPC FO REWOP ICP ROF
B >- A : H RID
FS-FM
A >- B : L RID
)M8(822100-7011 : AEROK
FS-RB
NOITPO ETELED
KCOLC :2)EVITCA WOL( POTS_SUB :3
ELBASID :WOL
NOITPO ETELED
UPC_V3.3A
mm45.2:HCTIPNOITPO
ELBANE :HGIH
NOITPO ETELED
NOITPO ETELED
NOITPO ETELED
NOITPO ETELED
FM-FS
KCEHC_TNIOP_PT
)M61(922100-7011 : ASU
ATAD :1
1
rotcennoC GIJ ETIRW MORPEE
DNUORG :5V5 :6
DNG
NOITPO
3006CN
1606CFn01
V05
mhoK7.4 4806R
6606CFn001
mho749806R
2106PT
V61
9006CFn001
0306CFn001
V3.3A
3806R mho001
V61
mhoK7.43006R
FERX
mho04306RW01/1
4.7K
ohm
FERX
R60
17
2806RmhoK7.4
7CW/CCV
8
4.7K
ohm
R60
22
T6NMW-65242M
0A1
1A2
CN34
SSV5
ADSLCS
6
8016RmhoK01
5006CI
Fn001
W01/1mhoK86
8006R
V61
6506C
V05Fn01
9506CFn0018506C
V61
V5A
0ohm
R61
13
3106PT
6106PT
2006CN 1
2106DA 1
mho0013606R
9006DC 1
V5A
1006QL2007N2
D
G
S
mho0011506R
9706RmhoK7.4
R60
144.
7Koh
m
V5A
2006DNG 1
V61Fu0013106C
mhoK7.45906R
1006DNG 1
1
FERX
mho0011606R
V3.3A
4006DNG
944QDDV
1SSV 82
142SSV
453SSV
6 1QSSV
21 2QSSV
643QSSV
4QSSV 25
61 _EW
1C_N
042C_N
81 _SAR
93MQDU
1 1DDV
41 2DDV
72 3DDV
3 1QDDV
9 2QDDV
343QDDV
51QD
5 2QD
7 3QD
4QD8
01 5QD11 6QD
31 7QD 248QD
449QD
51 MQDL
6391 SC
2 0QD
1QD4
5401QD
7411QD
8421QD
0531QD
41QD 15
35
5A
136A
237A
8A 33439A
02 0AB12 1AB
71 _SAC73EKC
83KLC
32 0A42 1A
22 01A
5311A
52 2A62 3A 924A
03
0106CI000H1LT-B236182S4K
4.7K
ohm
R60
26
8106DA 1
Fn0011106C
V61
4106PT
1106DC 1
5106PT
V05Fn01
0106C
Fn0016406C
V61
6006DC 1
6906R mhoK7.4
B1
72EO/
CCV8
1EO/1
A12
A234
DNG5
B2
6
0116R
2106CIX8K5213DBW7CN
Y-3261CSK mho001
4.7K
ohm
4006Q
Fn0010506C
V61
R60
25
4016RmhoK01
W01/1
FERX
8006DC 1
FERX
4.7K
ohm
R60
09
SC_FSN 1
2006DC 1
Fu011306C
5006DC 1
W01/10306R mho0
FERX
mhoK012706R
1
V61
2106CFn001
mho05006RW01/1
TNI_NALP
W01/12306R mho0
7306CFp51
mhoK7.4 0406R
8106PT
7106PT
mhoK18306R
mhoK7.48906R
4006DC 1
Fn0015606C
V61
1
2_V3.3B
7106DA
nSD
CA
S
702 0SCDSn802 1SCDSn
1nS
DC
S2
nSD
CS
32
nSD
RA
S8
45TSRTn
47nW
E
391LATX
5nD
CA
S0
nDC
AS
16
nOE
46
29TESERn
TUO_TESERn 86
0SCSn302
1SCSn402
2SCSn502602 3SCSn
7
88
106
VS
S3O
P_5
118
VS
S3O
P_6
131
VS
S3O
P_7
145
VS
S3O
P_8
851 9_PO3SSV
VS
S_1
28
2_SSV 47
VS
S_3
124
881 4_SSV
980LATX
371
391 9_PO3DDV
4DDV781
27V
DD
_1
372_DDV
123
VD
D_3
VS
S30
P_3
42
VS
S3O
P4
01_PO3SSV471
491 11_PO3SSVV
SS
3OP
_222
4_PO3SSV
ODT 85
19TSET
SMT 65
41V
DD
30P
_3
3V
DD
3OP
21V
DD
3OP
_2
784_PO3DDV
VD
D3O
P_5
113
135
VD
D3O
P_6
153
VD
D3O
P_7
8_PO3DDV
PC
I_nR
EQ
1
PC
I_nR
EQ
x310
8
TSRn_ICP001
PC
I_nS
ER
R14
1
PC
I_nS
TOP
138
PC
I_nT
RD
Y13
6
PACLLP 89
9S
DC
KE
SD
CLK
10
55KCT
75IDT
101
120
PC
I_ID
SE
L
PC
I_P
AR14
2
137
PC
I_nD
EV
SE
L
133
PC
I_nF
RA
ME
2011TNGn_ICP2xTNGn_ICP 301
3xTNGn_ICP 401
461 ATNIn_ICP
PC
I_nI
RD
Y13
4
PC
I_nP
ER
R14
0
105
4DA_ICP951
5DA_ICP751
PC
I_A
D615
6
PC
I_A
D715
5
152
PC
I_A
D8 15
1P
CI_
AD
9
PC
I_C
0_nB
E0
154
143
PC
I_C
1_nB
E1
PC
I_C
2_nB
E2
132
119
PC
I_C
3_nB
E3
KLC_ICP
122
PC
I_A
D23
121
PC
I_A
D24
117
116
PC
I_A
D25
PC
I_A
D26
115
114
PC
I_A
D27
PC
I_A
D28
112
111
PC
I_A
D29
061 3DA_ICP
PC
I_A
D30
110
109
PC
I_A
D31
148
PC
I_A
D13
147
PC
I_A
D14
146
PC
I_A
D15
144
PC
I_A
D16
130
PC
I_A
D17
129
PC
I_A
D18
128
127
PC
I_A
D19
2DA_ICP161
PC
I_A
D20
126
125
PC
I_A
D21
PC
I_A
D22
7FPG 68
95NIRI
590MO 691MO
139
PC
I-NLO
CK
107
PC
I-nR
EQ
x2
0DA_ICP361261 1DA_ICP
PC
I_A
D10
150
149
PC
I_A
D11
PC
I_A
D12
574EPG675EPG
6EPG77
7EPG87970FPG081FPG182FPG
3FPG2838
4FPG5FPG 48
586FPG
1DPG2DPG 26
363DPG4DPG 46
565DPG6DPG
66767DPG
960EPG1EPG 07
172EPG3EPG
27
DQ
M3
14
35NAIDNE
0LATXE 09
491LATXE
GP
B6_
nWA
IT48 49
GP
B7_
CLK
OU
TG
PC
050 51
GP
C1
GP
C2
52
0DPG0616
44 45D
ATA
31
571 4ATAD
771 5ATAD
971 6ATAD
181 7ATAD
8ATAD381
9ATAD581
11D
QM
0D
QM
112 13
DQ
M2
DA
TA20
DA
TA21
29 31D
ATA
22
33D
ATA
23
35D
ATA
24
DA
TA25
37
DA
TA26
38 39D
ATA
27D
ATA
2840 43
DA
TA29
3ATAD171
DA
TA30
11ATAD191
21ATAD591
31ATAD791
991 41ATAD
51ATAD102
15D
ATA
16
17D
ATA
17
19D
ATA
18
23D
ATA
19
2ATAD961
25
4RDDA
5RDDA871
6RDDA081
7RDDA281
8RDDA481
9RDDA681
DDVA 79
SSVA99
0ATAD561
1ATAD761
01ATAD981A
DD
R17
18
AD
DR
1820
AD
DR
1924
071 2RDDA
AD
DR
2026
AD
DR
2130
AD
DR
2232
AD
DR
2334
AD
DR
2436
271 3RDDA
671
661 0RDDA
1RDDA861
091 01RDDA
291 11RDDA
691 21RDDA
891 31RDDA
002 41RDDA
202 51RDDA
AD
DR
1616
1
6006CIX0082C3S
3 4 5 6
MG
ND
1
MG
ND
2
6106DA
1006NCL60-RW705211 2
3506R mho001
V5A
9006DA 1
6006DA 1
zHM6 H5MS/94-CH3006X
Q0
Q1
V05Fn01
1206C
3506CFn01
V05
7006DC 1
mho741006R
mho08806R
1706R mhoK01
6016R mho001
1006OIPG_UPC1
3006DA 1
Fn0012206C
V61
EWN 1
1006D2.8ZLR
4406CFu001
V61
mho02016R
SC_RBN 1
Fn0017006C
V61
V3.3A
R60
214.
7Koh
m
3016RmhoK7.4
W01/1
W01/19906R mhoK7.4
8006DA 1
2006LHu01
TP60
091
2606R mho001
FERX
1
V61
2506CFn001
TESERN_UPC
8406R mho001
1
1006CFu001
V61
6106DC
3106DC 1
1
Fn0013206C
V61
1006L
2006A
8506RmhoK01
0106DA 1
Fp335306C
2406CFu01
5206C
V61
mhoK7.44906R
Fn001
mho0
mhoK7.44006RW01/1
1
9016R
EON
mho001
V61
4206CFn001
7A9
8A
TP60
101
8706R
EO/ 1A2CCV
02
2A34
3A5
4A6
5A6A
78
8B7B
2131
6B5B
414B
5161
3B2B
7181
1B
91
7006CIXCTM542XCL47
1RID
DNG0111
R60
270o
hm
1
W01/16006R mho0
3006DNG 1
1006AQ
34
UPC_V8.1A
)mpp02,zHK867.23(S62-XMDzH867.23
2006X
Q0
1 2Q
13
Q2
)mpp001,zHM33(ECH0573K1006X
DNG2
-HNI1
TUO 3
CCV 4
4006DA 1
1006DA 1
V61
0406CFn001
CCV2
0B3 0O
1A4
1B5
1O67
DNG8
3O3B
9
10A
013A2O
11212B
2A3141
mhoK7.41016RW01/1
XM23XCL471006CI
mhoK7.4
V3.3A
2506R
mho0015606R
W01/1
8206RmhoK7.4
1
Fn0014506C
V61
4.7K
ohm
R60
11
4106DC
mhoK7.41806R
Fu013606C
Fn0013006C
V61
Fn01V05
V01
6206CFu1
7506C
9506RmhoK01
V61Fu0013406C
R60
9210
0ohm
1
mho05806R
4206DA 1
1006DC
Fn011506C
4106DA 1
V05
1
7306RmhoK7.4
1
4006CN
3206DA 1
5006CN
V5A
4.7K
ohm
R60
23R
6024
4.7K
ohm
D
G
S
2_V3.3B
L2007N22006Q
2006CFu001
V61
V61
8406CFn001
2006DA 1
Fn0015106C
V61
TSRP 1
mho05306RW01/1
5106DC 1
0506R mho0
4.7K
ohm
V3.3A
7406R mho001
R60
19
12
34
56
78
2006ARmhoK7.4
V3.3A
4106CFu74V3.6
8006CFn01
V05
1
V3.3A
R60
9010
0ohm
3006DC
1
mho0019406R
1006SCSN
8306CFn01
V05
V61
8106CFn001
3406R mho001
1
mhoK16806R
5006DA 1
0106DC
mho0015506R
NYP5011-SPK1006WS
1
2
3
4
4506R mho001
4306CFp33
4606R mho001
EO/
55EW/42A,PW/
65
681A71A7
861A
9CCV
7431QDDNG
8494
6QD
591A
41QD 057QD
1525
51QDSTS
3545
402A
043QD
1411QDDNG
2434
QCCV,CCV4QD
4421QD5464
5QD
230QD 33
438QD
531QD9QD
63CCV
7383
2QD01QD
93
524A3A
62
2A7282
1A 2EC,CN92
CN,12A3
0332A
13ETYB/0A
9A91
1EC2
028A
12DNG
7A22
6A3242 5A
41A1121
31A3121A0EC
41
PPV,NEPV51
PR/6171
11A01A
81
9006CI021-A3J046F82E
1CN,22A
51A01
2106DC 1
V61Fu017206C
0206DA 1
V61Fn0018206C
5406R
mho07006RW01/1
4406R mho001mho001
FERX
mho03306R
1
V3.3A
4.7K
ohm
R61
14
7506R mho001
2206DA
7006DA 1
TP60
04
V3.3A
3006PT
TP60
111
2006PT
mho0012406R
FERX
7DNG
83Y/3A
9
215Y/5A
3141
CCV2
0Y/31A1Y/
4
2A5
2Y/6
XM40XVL473006CI
10A
014Y/4A
11
mhoK18606R
mho0016406R
R60
104.
7Koh
m
2006DBA003S2102ZPM
9206CFu01V61
mhoK010706R
7906RmhoK7.4
Fn0011406C
4QSSV
_EW61
V61Fu0015406C
9
3QDDV 34
4QDDV 94
821SSV
2SSV 14
3SSV 45
1QSSV6
2QSSV21
3QSSV 64
25
44
MQDL51
1C_N 63
2C_N 04
_SAR81
MQDU 93
1DDV1
2DDV41
3DDV72
1QDDV3
2QDDV
41QD
51QD 35
2QD5
3QD78 4QD
5QD01
6QD11
7QD31 8QD 24
9QD
73KLC 83
SC91
0QD2
4 1QD
01QD 54
11QD 7421QD 84
31QD 0515
62 4A 925A 036A 137A 23
338A
9A 430AB02
1AB12
_SAC71
EKC
000H1LT-B236182S4K1106CI
0A32
1A42
01A22
11A 53
2A52
3A
6106CFu01
7706R
mhoK01
4.7K
ohm
R60
15
6
789
1DNGM
2DNGM
3DNGM
4DNGM
KS
A-2
441
SW
6002
1
01
2345
V3.3A
3306CFp065
1/10
WR
6115
4.7K
ohm
1106DA 1
4006L
4.7K
ohm
R60
20
V61
9306CFn001
mho06116R
6006PT
W01/16306R mho0
7006PT
mho22
2606CFn001
mho0016506R
9606R
R60
734.
7Koh
m
DNG
F7207AIK
NI1
DNG
2
TUO3
0016RmhoK7.4
2006CI
Fn001
12
34
56
78
V61
4606C
mhoK7.43006AR
V61
0206CFn001
1NI
2
DNG
3TUO
DNG
FERX
0ohm
R61
12
FERX
F7207AIK4006CI
mho0017116R
32A3A
4
4A5
5A67
6A7A
8
8A9
5B
514B3B
6171
2B1B
81EO/
91 21A
02CCV
XCTM542XCL478006CI
RID1
01DNG8B
1121
7B6B
3141
4.7K
ohm
R60
13
9406CFn01
V05
1306R mho0
V05Fn01
5506C
W01/1
R60
754.
7Koh
m
4.7K
ohm
R60
76
FERX
V3.3A
R60
124.
7Koh
m
V05Fn01
7406C
4006CFn01
V05
V61
2306CFn001
5006PT
8006PT
2006Rmho74
1206DA 11
V05Fn01
6006C
NEPVN 1
1006CN
1
9206R
9106DA
A003S2102ZPM1006DB
mhoK7.4
4.7K
ohm
R60
18
1
Fn0017106C
V61
V3.3A
3106DA
FERX
4.7K
ohm
R60
74
1406R mho001
6606R mho22
mhoK7.47016R
0606R mho001
R60
164.
7Koh
m
mho227606R
V61
0606CFn001
5106DA 1
W01/1
Fp516306C
V5A
V3.3A
mho09306R
100o
hmR
6093
mho0015016R
9106CFn01
V05
7806R mho0
2_V3.3B
3006QG-3261CSK
R60
91
R61
110o
hm
mhoK7.40806R
100o
hm
1006AR
12
34
56
78
3006L
mhoK7.4
NEPVn
NE_UT
NEPVn
V61
5006CFn001
HCVTD_6ADSHCVTD_6LCS
MOCIMS_3ADSMOCIMS_3LCS
0103CI_WS 652C42_2LCS652C42_2ADS
652C42_PW
)51(DA)61(DA)71(DA
)81(DA)91(DA)02(DA)12(DA)22(DA)32(DA
)42(DA
TNI_PVS
SUBPVS_WS
TSR_4002TXNn
TNI_EVALS
RI
)0(DC)1(DC)2(DC)3(DC)4(DC)5(DC)6(DC)7(DC)8(DC)9(DC
)01(DC)11(DC)21(DC)31(DC)41(DC)51(DC
)1(DA)2(DA)3(DA)4(DA)5(DA)6(DA)7(DA)8(DA
)9(DA)01(DA)11(DA)21(DA)31(DA)41(DA
HCVTD_1LCS
TNI_XAMICn
TENYNA_DXTTENYNA_DXR
OFNI_REWOPFFO_LATX_SPLA
GUBED_DXTGUBED_DXR
SC_XAMICn
V5_VT_5LCS
V5_VT_5ADS
OTESERnNEPVn
TSRpTNI_NALp
EWnEOn
2SCSnSC_RBnSC_FSn
OTESERn
V3.3_VT_4LCSV3.3_VT_4ADS
ATAD_UTKLC_UT
V3.3_VT_5LCSV3.3_VT_5ADS
TNI_NALp
HCVTD_1ADS
)7(DA
)0(DA_PVS
)1(DA_PVS
)2(DA_PVS
)3(DA_PVS
)4(DA_PVS
)5(DA_PVS
)6(DA_PVS
)7(DA_PVS
SUBPVS_WS
)7:0(DA_PVS
SC_PVSnSC_PVSp
PVS_DRn
PVS_RWn
OTSRn
)7:0(DC)0(DC
)1(DC
)2(DC
)3(DC
)4(DC
)5(DC
)6(DC
)7(DC
)7:0(DC_PVS)0(DC_PVS
)1(DC_PVS
)2(DC_PVS
)3(DC_PVS
)4(DC_PVS
)5(DC_PVS
)6(DC_PVS
)7(DC_PVS
SUBPVS_WS
)7:0(DA)0(DA
)1(DA
)2(DA
)3(DA
)4(DA
)5(DA
)6(DA
)62(DC)52(DC
)42(DC
)3:0(MQD)13:0(DC
)42:0(DA
0SCSn 1SCSn
SC_FMn
SC_FSnSC_RBn
3SCSn)42(DA
PVS_DRn
EOnEWn
SC_PVSn
)7(DA)8(DA)9(DA)01(DA)11(DA)31(DA
)8(DC
)9(DC)01(DC
)11(DC)21(DC
)31(DC)41(DC
)51(DC
)32(DA
SC_FMnNEPVnOTESERn
)61(DC
)71(DC)81(DC
)91(DC)02(DC
)12(DC)22(DC
)32(DC
)13(DC
)03(DC)92(DC
)82(DC)72(DC
)7(DA)8(DA)9(DA)01(DA)11(DA)31(DA
)2(DA)3(DA
)21(DA
)4(DA)5(DA
)32(DA)42(DA
SACDSnEKCDSKLCDS
0SCDSn
)0(DC
)1(DC)2(DC
)3(DC)4(DC
)5(DC)6(DC
)7(DC
)0(MQD
SARDSn
)1(MQDEWn
)6(DA
)6(DC
)91(DA
)41(DC)7(DC)51(DC
EOnEWn
)81(DA)71(DA)61(DA
)2(DA)3(DA
)21(DA
)4(DA)5(DA
)32(DA)42(DA
SACDSnEKCDSKLCDS
0SCDSn
)2(MQD
SARDSn
)3(MQDEWn
)42:0(DA
)22(DA
)13:0(DC
)6(DA
)51(DA)41(DA)31(DA)21(DA
)11(DA)01(DA
)9(DA)8(DA
)7(DA)6(DA)5(DA)4(DA)3(DA)2(DA)1(DA
)12(DA
)0(DC)8(DC)1(DC)9(DC
)2(DC)01(DC
)02(DA
)3(DC)11(DC
)4(DC)21(DC)5(DC)31(DC
)13:0(DA_P
UPC_KLCPMAS_KLCP
)0(DA
TIAW_XAMICn
652C42_PW
)0(DC
TSRp
SACDSn
0SCDSn
SARDSn
TESERn_UPC
EWn
)42:0(DA
AD
(16)
AD
(17)
AD
(18)
AD
(19)
AD
(20)
AD
(21)
AD
(22)
AD
(23)
AD
(24)
)3:0(MQD
POTSN_P YDRTN_P
EKCDSKLCDS
652C42_2ADS652C42_2LCS
EOn
TESERn_UPC
0SCSn1SCSn2SCSn3SCSn
P_A
D(9
)
)0(EBN_P)1(EBN_P
)2(EBN_P
)3(EBN_P
UPC_KLCP
RAPN_P
VEDN_P
EMARFN_P
1TNGN_PATNIN_P
YDRIN_PRREPN_P
1QERN_P
OTSRn
RRESN_P
P_A
D(2
2)P
_AD
(23)
P_A
D(2
4)P
_AD
(25)
P_A
D(2
6)P
_AD
(27)
P_A
D(2
8)P
_AD
(29)
)3(DA_P
P_A
D(3
0)P
_AD
(31)
)4(DA_P
)5(DA_P
P_A
D(6
)P
_AD
(7)
P_A
D(8
)
KCOLN_P
)0(DA_P)1(DA_P
P_A
D(1
0)P
_AD
(11)
P_A
D(1
2)P
_AD
(13)
P_A
D(1
4)
P_A
D(1
5)
P_A
D(1
6)P
_AD
(17)
P_A
D(1
8)P
_AD
(19)
)2(DA_P
P_A
D(2
0)P
_AD
(21)
DQ
M(1
)D
QM
(2)
DQ
M(3
) CD
(24)
CD
(25)
CD
(26)
CD
(27)
CD
(28)
CD
(29)
)3(DC
CD
(30)
CD
(31)
)4(DC
)5(DC
)6(DC
)7(DC
)8(DC
)9(DC
DQ
M(0
)
)1(DC
)01(DC
)11(DC
)21(DC
)31(DC
)41(DC
)51(DC
CD
(16)
CD
(17)
CD
(18)
CD
(19)
)2(DC
CD
(20)
CD
(21)
CD
(22)
CD
(23)
)1(DA
)01(DA
)11(DA
)21(DA
)31(DA
)41(DA
)51(DA
)2(DA
)3(DA
)4(DA
)5(DA
)6(DA
)7(DA
)8(DA
)9(DA
This Document can not be used without Samsung’s authorization.
A85400-95NB : ROK
RETTILPS_FR
tuptuO golanA/ltaigiD +ELGAE
.NEG KCOLC YALPSID & GEPM A0102H5S
NOITPO ETELED
RENUT MIN ROF
WEN
NOITPO ASU
DOP ROF
ECAFRETNI YROMEM +ELGAE
NOITPO AEROK
NOITPO
A95400-95NB : ASUV05
Fn01
5507C
2107C
Fn01
V05
41QD38
QSSV48
51QD58
SSV68
QDDV9
9QD67
01QD77
QSSV87
11QD97
4QD8
21QD08
QDDV18
31QD28
CN96
3QD7
CN07
1MQD17
SSV27
CN37
8QD47
QDDV57
4A16
5A26
6A36
7A46
8A56
9A66
EKC76
KLC86
03QD45
QDDV55
13QD65
CN75
SSV85
3MQD95
QSSV6
3A06
52QD74
62QD84
QDDV94
2QD5
72QD05
82QD15
QSSV25
92QD35
1QD4
22QD04
QDDV14
32QD24
DDV34
SSV44
42QD54
QSSV64
QSSV23
71QD33
81QD43
QDDV53
91QD63
02QD73
QSSV83
12QD93
0A52
1A62
2A72
2MQD82
DDV92
QDDV3
CN03
61QD13
SAC/81
SAR/91
0QD2
SC/02
CN12
0AB22
1AB32
PA,01A42
5QD01
6QD11
QSSV21
7QD31
CN41
DDV51
0MQD61
EW/71
68
QDDV9
5007CI
06CT-E232346S4K
DDV1
974QD
821QD
08QDDV
1831QD
2841QD
38QSSV
4851QD
58SSV
17SSV
27CN
378QD
47QDDV
579QD
6701QD
77QSSV
8711QD
468A
569A
66EKC
76KLC
86CN
96
3QD7
CN07
1MQD
75SSV
853MQD
95
QSSV6
3A06
4A16
5A26
6A36
7A
5
72QD05
82QD15
QSSV25
92QD35
03QD45
QDDV55
13QD65
CN
24
DDV34
SSV44
42QD54
QSSV64
52QD74
62QD84
QDDV94
2QD
53
91QD63
02QD73
QSSV83
12QD93
1QD4
22QD04
QDDV14
32QD
82
DDV92
QDDV3
CN03
61QD13
QSSV23
71QD33
81QD43
QDDV
02
CN12
0AB22
1AB32
PA,01A42
0A52
1A62
2A72
2MQD
31
CN41
DDV51
0MQD61
EW/71
SAC/81
SAR/91
0QD2
SC/
06CT-E232346S4K
4007CI
DDV1
5QD01
6QD11
QSSV21
7QD
1 2
3 4
5 6
7 8
4007AR
mhoK7.4
W01/1
1207R mhoK1
mhoK19107R
W01/1
1007R
mhoK01
1 2
V9_S
4007L Hu1
V05
Fn01
3607C
mho22
FERX
2_V3.3B
5107R
4107R
mhoK7.4
Fn01
V05
7107C
V61
4307C
Fn001
V61
Fu001
2307C
2407C
Fn01
V05
2707C
Fn01
V05
7 8
V05
8107C
Fn01
4107AR
mho74
W61/1
1 2
3 4
5 6
V61
4507C
Fn001
FERX
8107R mho22
V05
6107C
Fn01
Fu1
0207C
4
5 6
7 8
1007C
Fu001
V61
mhoK1
2007AR
1 2
3
2_V3.3B
7107R mho22
9507C
Fn01
V05
mho226107R
Fn001
7007C
V61
MG
ND
3M
GN
D3
MG
ND
4M
GN
D4
V05
Fn01
6007C
1
B+
B+
2
LN
ALN
A
3
S/W
1S
/W1
GN
DG
ND
4
S/W
2S
/W2
5
MG
ND
1M
GN
D1
MG
ND
2M
GN
D2
140-TN-XMU
1007NC
1 2
3 4
5 6
7 8
1107C
V61
W61/1
mho74
5107AR
mho743007R
Fn001
2007R mho74
mho74
3307R mho0
8207R
V05
9107C
mho74
FERX
Fn01
3507C
Fn01
V05
9207R
Fn033
7307C
52L
NISSa
62L
FERVSa
52M
PMOCSa
62M
SBVCa22N
Ya
32N
Ca
42N
FERVHa
52J
PMOCHa
62J
BPBa
22K
YGa
32K
42K
RPRa
TESRIHa
52K
NISHa62K
TESRISa
3E
TUOD_VA
72KLC_VA
4E
NE_NACS6E
CCVDMC_CS
3F
ODLV_VA
4F
NID_VA
5F
NITSR_CS
4G
1LES_F_CS
5G
TSRn_VA
3D
NE_TSET
5D
XR
6D
SMTJ
7D
3LLPa
21E
2LLPa
31E
1LLPa
41E
CUOI_CS
2E
0ROH
02C
531TF
4C
5C
XT
TSRTJn
6C
IDTJ7C
8CLC_ATADA
FFO_CS
1D
KLC_CS2D
21C
CNYSVOH
31C
5BOH
41C
1BOH
51C
4GOH61C
1GOH
71C
7ROH
81C
3ROH
91C
IDLV_VA
2C
42TF
3B
KLCC2I
4B
KCTJ
5B
6B
CSTN_ATADA RS_ATADA
7B
0LES_F_CS1C
FIDPSO
11C
TESERn
6BOH
41B
2BOH
51B
61B
7GOH
5GOH
71B
2GOH
81B
0GOH
91B
4ROH
02B
1ROH
12B
ATADC2I
3A
ODTJ
4A
TM_ATADA5A
KLCRLO
9A
ATADAO
01B
KLCDO
11B
M72KLC
21B
CNYSHOH
31B
4BOH
51A
3BOH
61A
0BOH
71A
6GOH
81A
3GOH
91A
6ROH02A
5ROH
12A
2ROH
22A
A0102H5S
3-0107CI
KLCBO
01A
MWP
11A
KLCDIVH
21A
KLCDHO
31A
7BOH41A
mho0
5207R
mhoK01
9307R
Fn001
2507C
V61
1607C
V61
Fn001
B
C
E
4207R
1007Q
G-3261CSK
PODDV
12W
22W
IDDV
POSSV
32W
6W
PODDV
PODDV
12Y
6Y
PODDV
mhoK1
POSSV
4U
5U
IDDV
6U
PODDV
PODDV
12V
22V
ISSV
32V
PODDV
ISSV
5V
6V
PODDV
POSSV
61T
22T
ISSV
32TPODDV
4T
PODDV
5T
ISSV
12U
PODDV
22U
IDDV
32U
POSSV
32R
POSSV
POSSV
4R
5R
IDDV
11T
POSSV
POSSV
21T
31T
POSSV
POSSV
41T
51TPOSSV
5P
ISSV
11R
POSSV
POSSV
21R
31R
POSSV
POSSV
41R
51R
POSSV
POSSV
61R
22R
PODDV
POSSV
41P
51P
POSSV
POSSV
61P
1DS_3DDVA
22P
32P
2DS_3DDVA
DS_SSVA
42P
52P1DS_SSVA
4P
PODDV
POSSV61N
52N
3DS_SSVA
2DS_SSVA
62N
4N
POSSV
5N
IDDV
11P
POSSV
POSSV
21P
31P
POSSV
3DS_3DDVA
42M
4M
PODDV
5M
ISSV
11N
POSSV
POSSV
21N
31N
POSSV
POSSV
41N
51N
POSSV
11M
POSSV
POSSV
21M
31M
POSSV
POSSV
41M
51M
POSSV
POSSV
61M
5DS_3DDVA
22M
32M
4DS_3DDVA
POSSV
41L
51L
POSSV POSSV
61L
22L
5DH_3DDVA
4DH_3DDVA
32L3DH_3DDVA
42L
POSSV
4L
5L
IDDV
6J
PODDV
12K
PODDV
4K
PODDV
5K
ISSV
6K
PODDV
11L
POSSV
POSSV
21L
31L
POSSV
3DH_SSVA
62H
6H
PODDV
12J
PODDV
22J
1DH_3DDVA
32J
2DH_3DDVA
42J
DH_BBVA
4J
POSSV
5J
IDDV
9F
PODDV
12G
PODDV
22G
PODDV
6G
PODDV
PODDV
12H
POSSV
22H
1DH_SSVA
42H
52H
2DH_SSVA
81F
PODDV
91FPODDV
02F
PODDV
12F
PODDV
22F
POSSV
6F
PODDV
7F
PODDV8F
PODDV
12E
IDDV
22E
PODDV
5E
PODDV
7E
ISSV
8E
IDDV
9E
ISSV
01F
PODDV
71F
PODDV
01E
IDDV
11E
LLP_BBVP
51E
LLP_IDDVP
61EISSV
71EIDDV
81E
ISSV
91E
IDDV
02E
ISSV
81D
PODDV
91D
POSSV
02D
PODDV
POSSV12D
32D
PODDV
4D
PODDV
8D
POSSV
9D
PODDV
POSSV
01D
11D
PODDV
21D
LLP_TDDVP
31D
LLP_TSSVP
41DLLP_ISSVP
51D
POSSV
61D
PODDV
POSSV
71D
52FA
POSSV
POSSV
62FA
1B
POSSV
POSSV
2B
52B
POSSV
POSSV
62B
42CPODDV
PODDV
3C
42DA
PODDV
3DA
PODDV
1EAPOSSV
POSSV
2EA
52EA
POSSV
POSSV
62EA
1FA
POSSV
POSSV
2FA
61CA
POSSV
PODDV
71CA
POSSV
81CA
91CA
PODDV
PODDV
32CA
PODDV
4CA
9CA
PODDV
PODDV
51DA
5BA
PODDV
PODDV
8BA
9BA
POSSV
POSSV
01CA
PODDV
11CA
21CA
POSSV
31CA
PODDV
POSSV
41CA
31BA
ISSV
41BA
IDDV
51BA
ISSV
61BA
IDDV
71BA
ISSV
81BA
IDDV
91BA
ISSV
22BA
PODDV
PODDV
12AA
6AA
PODDV
PODDV
7AA
8AA
PODDV
PODDV
9AA
01BA
IDDV
11BA
ISSV
IDDV
21BA
POSSV
2A
52A
POSSV
POSSV
62A
01AA
PODDV
PODDV
71AA
81AA
PODDV
PODDV91AA
02AA
PODDV
4-0107CI
A0102H5S
1A
POSSV
4007R mho74
5307R mho0
mho06307R
mho08307R
2207R
mho093
5007L
1 2
mho093
0207R
0307R mho0
Hu1
7307R mho0
V61
Fu001
2007C
G-3261CSK
2007QB
C
E
3 4
5 6
7 8
22
1107AR1 2
42W
4ATADM
52W
2ATADM
22Y
21ATADM
32Y
11ATADM42Y
1MQDM
52Y
3ATADM
1ATADM
62Y
4FA75ATADM
5FA
45ATADM
6FA15ATADM
05ATADM
7FA
8FA
64ATADM
34ATADM
9FA
42U
0MQDM
42V0ATADM
81FA6RDDAM
91FA
3RDDAM
02FA
0ABM
12FA
EKCM
22FA
EWMn
32FA
13ATADM
62ATADM
42FA
3FA
26ATADM
01FA
14ATADM
11FA
93ATADM
21FA
83ATADM
31FA
53ATADM
41FA43ATADM
51FA
23ATADM
61FA
4MQDM
71FA
8RDDAM
32EA
52ATADM
42EA
02ATADM
4EA
36ATADM
5EA
85ATADM
6EA
55ATADM
7EA
25ATADM
8EA
84ATADM
74ATADM
9EA
51EA
01RDDAM
61EA
7RDDAM
71EA
5RDDAM
81EA
2RDDAM
91EA0RDDAM
02EA0SCMn
SARMn
12EA
22EA
03ATADM
7DA
7MQDM
8DA
35ATADM
94ATADM
9DA
01EA
44ATADM
11EA
24ATADM
21EA
5MQDM
31EA
63ATADM
41EA
33ATADM
91DA
1SCMn
02DA
SACMn
12DA
92ATADM
22DA
42ATADM
32DA
22ATADM
52DA71ATADM
62DA
31ATADM
6DA
95ATADM
01DA6MQDM
54ATADM
11DA
04ATADM21DA
31DA
73ATADM
41DA
9RDDAM
61DA
4RDDAM
71DA
1RDDAM
81DA
1ABM
02CA
82ATADM
12CA
3MQDM
22CA
12ATADM
42CA
81ATADM
52CA
41ATADM
62CA
8ATADM
7CA
06ATADM
8CA
65ATADM
72ATADM
12BA32ATADM
32BA
91ATADM
42BA
51ATADM
52BA
9ATADM
62BA6ATADM
7BA
16ATADM
51CA
KLCM
2-0107CI
A0102H5S
22AA
61ATADM
2MQDM
32AA
42AA
01ATADM
52AA
7ATADM
62AA
5ATADM
02BA
5 6
7 8
6007AR
22
1 2
3 4
4007C
Fn01
V05
3007L
1 2
3 4
5 6
7 8
7 8
22
2107AR
1007AR
mho74
W61/1
1 2
3 4
5 6
6
7 8
4207CFu01
V61
223107AR
1 2
3 4
5
V05
Fn01
4107C
mho04307R
9607C
Fn01
V05
Fn001
8607C
V61
6607C
Fn001
V52
1007L
A1
B
2
2_V3.3B
FERX
1 2
3 4
5 6
7 8
0107AR
22
mhoK1
2107R
1A
2
B
2_V3.3B
0107R
2007L
mho74
mho74
9007R
V61
5307C
Fn001
V61
2607C
Fn001
Fu001
V61
3307C
7707C
Fn1
V05
mhoK1
W01/1
2307R
mhoK74
3207R
6707C
Fn01
V05
Fn001
3207C
V61
0607C
Fu001
V61
V9B
V61
0507C
Fn001
V05
Fn01
9407C
V61
5007C
Fn001
2
3 4
5 6
7 8 W61/1
mho74
7007AR
1
Fn001
4607C
V61
2_V3.3B
V61
Fu01
5107C
3107R
mhoK7.4
V61
9007C
Fn001
8007C
Fn01
V05
Fu1
2207C
1207C
Fu1
V61
3707C
Fn001
2_V3.3B
W01/1
mhoK1
V05
Fn1
7607C
Fn001
1307R
mho74
V61
8707C
6007R mho748007R
Fn001
1307C
V61
mho747007R
V61
3107C
Fn001
Fn001
0807C
V61V05
Fn01
9707C
2_V3.3B
V61
8407C
Fn001
6
7 8
5007AR
mho74
W61/1
1 2
3 4
5
1 2
3 4
5 6
7 8 W61/1
mho74
3007AR
5607C
Fn01
V05
Fn001
5707C
V61
Fn001
1007DB
A003S2102ZPM
V61
8307C
Fn001
9207C
V61
mho745007R
FERX
RREPPn
3Y
31ATADP
4Y21ATADP
5Y
2EBCPn
1W
YDRTPn
2W
CNYSHIS
62W
LESIPn
3W
RRESPn
4W
TNIPn
5W
POTSPn
1Y
QERPn2Y
2ATADIS
62U
MRFPn
3U
81ATADP1V
RAPP
2V
KLCIS
52V
CNYSVIS
62V
YDRIPn
3V
TNGPn
4V
91ATADP
2T
DLFIS
42T
1ATADIS
52T
3ATADIS
62T
61ATADP
3T
02ATADP
1U
71ATADP
2U
0ATADIS52U
7ATADIS
3P
42ATADP
3EBCPn
1R
22ATADP
2R
4ATADIS
42R
5ATADIS
52R
6ATADIS
62R
3R
12ATADP
32ATADP
1T
1M
03ATADP
2M
LESICP
2_KLCST
3M
72ATADP
1N
2N
82ATADP
92ATADP
3N
1P
62ATADP
52ATADP
2P
62P
1_KLCST
3J
2_DLVST
1K
52ATADST
2K
12ATADST
3K
13ATADP
1L
72ATADST
2L
42ATADST
3L
1H
32ATADST
02ATADST
2H
4RIH
32H
51ATADST
3H
11ATADST
4H
01ATADST
5H
62ATADST
1J
22ATADST
2J
52F
1RIH
62F
1_DLVST
1G
61ATADST
2G
32G
1GIH
42G
3RIH
52G
2RIH
0RIH
62G
21ATADST
3G
1BIH
42E
5GIH
52E
7RIH
62E
5RIH
71ATADST
1F
31ATADST2F
6GIH
32F
0GIH
42F
6RIH
7GIH
62C
3GIH
KLCBSE
9C
2BIH
22D
0BIH
42D
4GIH
52D
2GIH
62D
41ATADST
1E
32E
4BIH
42B
ATADSE
8B
KLCBI
9B
MCPI
01C
12C
CNYSHIH
22C
5BIH
32C
3BIH
52C
0ATADP
6CA
11ATADP
1DA
2DA
7ATADP
3ATADP
4DA
0EBCPn
5DA
2ATADP
3EA
CNYSVIH
22B
6BIH
32B
1BA
51ATADP
2BA
9ATADP
3BA
5ATADP
4BA
1ATADP6BA
KCOLPn
1CA
01ATADP
2CA
6ATADP
3CA
4ATADP
5CA
KCRLSE7A
KLCRLI
8A
LESDPn
1AA
2AA
TSRPn
41ATADP
3AA
8ATADP
4AA
1EBCPn
5AA
KLCP
A0102H5S
1-0107CI
KLCIH32A
42A
7BIH
KLCDSE
6A
1NIX
61TUOX
Fn001
6207C
9
010SF
411SF
7CN
EO
51
1KLCFER
8
OXCV4
DDV
2
LDDV11
SSV31
LSSV6
1-40242YC
9007CI
3DDVA
5SSVA
211KLC
2KLC
FERX
V05
Fn01
9307C
V3.6
Fu74
6307C
1 2
3 4
5 6
7 8
AE_V8.1B
22
8007AR
AE_V8.1B
Fn001
8507C
V61
98A
7507C
Fn01
V05
1A2
CCV02
2A3
43A
54A
65A
6A7
87A
7B21
316B
5B41
4B51
613B
2B71
811B
91EO/
6007CI
XCTM542XCL47
1RID
DNG0111
8B
Fn001
6507C
V61
2_V3.3B
NIV3
V05
Fn01
1507C
7007CIA81-D7111PA
JDA
1
2TUOV
V61
0307C
Fn001
Fn001
1707C
V61
7207Rmho0
741A1
EO2/84
53Y1
64Y1
CCV7
81Y2
92Y2
4DNG
2A204
141A2
CCV24
4A134
443A1
DNG54
642A1
234A3
333A3
DNG43
532A3
1A363
4A273
833A2
93DNG
EO3/52
624A4
723A4
DNG82
2A492
2Y13
031A4
CCV13
CCV81
1Y491
1Y12
022Y4
12DNG
3Y422
4Y432
42EO4/
DNG01
3Y211
214Y2
311Y3
2Y341
DNG51
3Y361
714Y3
1007CI)LE(TFA44261XCL47
1EO1/
TUO
4CCV
AE_V8.1B
mho741107R
1007X
zHM72 S25-HD3
1V_C
2DNG
3
V05
Fn01
0407C
V05
Fn01
4707C
Fn001 V61
Fn001 V61
8207C
7207C
3007PT
1
V61V05
Fn01
5407C
Fn001
6407C
A003S2102ZPM
2007DB
V61
4407C
Fn001
Fn001
1407C
V61
Fn001
3007C
V61
TP
70
04
TP
70
04
TP
70
05
TP
70
05
V61
3407C
Fn001 7407C
Fn01
V05
2007PT
1
V05
Fn01
0107C
CS_AE
1
V61
Fu001
0707C
9007AR
1 2
3 4
5 6
7 8mhoK7.4
8007PT
mhoK7.4
6207R
9007PT
TP
70
07
TP
70
07
TP
70
06
TP
70
06
2_V3.3B
RP_AE
1
Y_AE11
V61
5207C
Fn001
BP_AE1
YS_AE
)7(G_PVS
)0(B_PVS
)1(B_PVS
)2(B_PVS
)3(B_PVS
)4(B_PVS
)5(B_PVS
)6(B_PVS
)7(B_PVS
)2(R_PVS
)3(R_PVS
)4(R_PVS
)5(R_PVS
)6(R_PVS
)7(R_PVS
)0(G_PVS
)1(G_PVS
)2(G_PVS
)3(G_PVS
)4(G_PVS
)5(G_PVS
)6(G_PVS
)0(R_PVS
)1(R_PVS
SBVC_VTD
1FR_WS
NO_ANL
2FR_WS
TUO_FIDPS_MAS
)42(DM
)22(DM
)71(DM
)31(DM
)44(DM
)24(DM
)63(DM
)33(DM
)03(DM
)52(DM
)02(DM
)14(DM
)93(DM
)83(DM
)53(DM
)43(DM
)23(DM
)13(DM
)62(DM
)34(DM
)0(DM
)4(DM
)2(DM
)21(DM
)11(DM
)3(DM
)1(DM
KLCDIVH
ATNIN_P
POTSN_P
1QERN_P
RREPN_P
)31(DA_P
)21(DA_P
)3(ST_MAS
)2(ST_MAS
)1(ST_MAS
)0(ST_MAS
)61(DM
)01(DM
)7(DM
)5(DM
)72(DM
)32(DM
)91(DM
)51(DM
)9(DM
)6(DM
)82(DM
)12(DM
)81(DM
)41(DM
)8(DM
)54(DM
)04(DM
)73(DM
)92(DM
)7(ST_MAS
DLVST_MAS
)6(ST_MAS
)5(ST_MAS
KLCST_MAS
)13(DA_P
)03(DA_P
)72(DA_P
)82(DA_P
)92(DA_P
)62(DA_P
)52(DA_P
)42(DA_P
)3(EBN_P
)22(DA_P
)12(DA_P
)32(DA_P
)91(DA_P
)61(DA_P
)02(DA_P
)71(DA_P
EMARFN_P
)81(DA_P
RAPN_P
YDRIN_P
1TNGN_P
)2(EBN_P
YDRTN_P
)32(DA_P
RRESN_P
)1(AM
)0(AM
VEDN_P
MAS_OTSRN
)41(DA_P
)8(DA_P
)1(EBN_P
MAS_KLCP
)51(DA_P
)9(DA_P
)5(DA_P
)1(DA_P
KCOLN_P
)01(DA_P
)6(DA_P
)4(DA_P
)0(DA_P
)11(DA_P
)7(DA_P
)3(DA_P
)0(EBN_P
)2(DA_P
)4(ST_MAS
)95(DM
)7(QDM
)35(DM
)94(DM
)5(QDM
)01(AM
)7(AM
)5(AM
0SCMN
SARMN)36(DM
)85(DM
)55(DM
)25(DM
)84(DM
)74(DM
)4(QDM
)8(AM
)6(AM
0ABM
EKCM
EWMN
)26(DM
)75(DM
)45(DM
)15(DM
)05(DM
)64(DM
)0(QDM
)1(QDM
)3(AM
)2(AM
)2(QDM
)16(DM
)3(QDM
)06(DM
)65(DM
)6(QDM
)9(AM
)4(AM
1ABM
SACMN
MWP
0LESF
GEPM_M72
MAS_OTSRN
)7:0(B_DH
)0(B_DH
)1(B_DH
)2(B_DH
)3(B_DH
)4(B_DH
)5(B_DH
)6(B_DH
)7(B_DH
)7:0(B_PVS
TUO_VTD_WS
)3(R_DH
)4(R_DH
)5(R_DH
)6(R_DH
)7(R_DH
)7:0(G_DH)0(G_DH
)1(G_DH
)2(G_DH
)3(G_DH
)4(G_DH
)5(G_DH
)6(G_DH
)7(G_DH
)7:0(R_PVS
)7:0(G_PVS
TUO_VTD_WS
)7:0(R_DH)0(R_DH
)1(R_DH
)2(R_DH
MWP
KLCDIVH
GEPM_M72
KLCM
)01:0(AM )36:0(DM
)7:0(QDM
)36:0(DM
0LESF
)95(DM
)06(DM
)16(DM
)53(DM
)26(DM
)36(DM
)63(DM
)73(DM
)83(DM
)93(DM )04(DM
)14(DM
)5(QDM
)6(QDM )7(QDM
)4(QDM
SARMN
EWMN
)36:0(DM
)01:0(AM
)7:0(QDM
)5(AM
)6(AM
)7(AM
)8(AM
)9(AM0ABM
1ABM
SACMN
EKCM
KLCM
0SCMN
)23(DM
)33(DM
)24(DM
)34(DM
)44(DM
)54(DM
)64(DM
)74(DM
)84(DM
)94(DM
)05(DM
)15(DM
)43(DM
)25(DM
)35(DM
)45(DM
)55(DM )65(DM
)75(DM
)85(DM
)52(DM
)62(DM
)72(DM
)82(DM
)92(DM
)3(DM
)03(DM
)13(DM
)4(DM
)5(DM
)6(DM
)7(DM )8(DM
)9(DM
)1(QDM
)2(QDM )3(QDM
)0(QDM
SARMN
EWMN
)0(AM
)1(AM
)01(AM
)2(AM )3(AM
)4(AM
)3(AM
)4(AM
)5(AM
)6(AM
)7(AM
)8(AM
)9(AM0ABM
1ABM
SACMN
EKCM
KLCM
0SCMN
)0(DM
)1(DM
)01(DM
)11(DM
)21(DM
)31(DM
)41(DM
)51(DM
)61(DM
)71(DM
)81(DM
)91(DM
)2(DM
)02(DM
)12(DM
)22(DM
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Samsung Electronics
Schematic Diagram
10-7
10-7 EAGLE+This Document can not be used without Samsung’s authorization. Power
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10-8
Schematic Diagram
Samsung Electronics
10-8 POD * This page is not reguired for PODless model.
This Document can not be used without Samsung’s authorization.
PowerSignal
NOITPO ETELEDNOITPO ETELED
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45
45
A1
PA
1P
46
46
A1
MA
1M
47
47
LV
DS
VC
CLV
DS
VC
C
33
33
A5
MA
5M
34
34
LV
DS
GN
DLV
DS
GN
D3
53
5
A4
PA
4P
36
36
A4
MA
4M
37
37
A3
PA
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38
38
A3
MA
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39
39
61R
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LV
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VC
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C4
04
0
CL
K2
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LK
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27
27
A7
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28
28
A7
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29
29
71R3
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VC
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C3
03
0
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31
31
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32
32
A5
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2
BF_R02
EDF_R12
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22
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42
DNGSDVL52
CL
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62
6
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DNGLLP61
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CCVLLP81
DNGLLP91
DJV783C09SD
4009CI
11G
1
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100
10
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mho0019209R
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3309C
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1 2
3 4
5 6
7 8
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FT
90
04
FT
90
04
BL
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R9
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14
4209R
mhoK1
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mho229109R
FERX
V61
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7409C
mho227309R
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6009CFp51
V05
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3009C
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V61
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3509C
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2509C
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3D
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9D7
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94DNGSDVL
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55
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CCVSDVL44
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64M1NIXT
74P0NIXT
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33
43CCVLLP
53DNGLLP
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83M3NIXT
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41D41
51D51
61D61
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81D91
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34
56
78
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mho0017109R
FERX
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A1
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4109PT
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XRVLD_V3.3B
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0109C
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mho0
2209R
FERX
V61
Fn001
0309C
1209PT
FERX
0209PT
2209PT
29OI33DDVAXT
39OI33SSVAXT
49PDT
59NDT
69
79PKLCT
NKLCT89
PCT99
5833DNG
6890TUO_G_ATAD_O
7801TUO_G_ATAD_O
8811TUO_G_ATAD_O
98
9KLC_TUPNI_I
53DNG09
92DDV19
41DNG
78
78
O_
DA
TA
_G
_O
UT
02
O_
DA
TA
_G
_O
UT
02
O_
DA
TA
_G
_O
UT
03
O_
DA
TA
_G
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UT
03
79
79
42DDV8
80
80
O_
DA
TA
_G
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UT
04
O_
DA
TA
_G
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UT
04
32DDV18
50TUO_G_ATAD_O28
3860TUO_G_ATAD_O
70TUO_G_ATAD_O48
80TUO_G_ATAD_O
70
70
O_
DA
TA
_R
_O
UT
08
O_
DA
TA
_R
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UT
08
VD
D5
VD
D5
71
71
72
72
O_
DA
TA
_R
_O
UT
09
O_
DA
TA
_R
_O
UT
09
O_
DA
TA
_R
_O
UT
10
O_
DA
TA
_R
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UT
10
73
73
74
74
O_
DA
TA
_R
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UT
11
O_
DA
TA
_R
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UT
11
O_
DA
TA
_G
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UT
00
O_
DA
TA
_G
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UT
00
75
75
76
76
GN
D1
7G
ND
17
O_
DA
TA
_G
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UT
01
O_
DA
TA
_G
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UT
01
77
77
63
63
64
64
O_
DA
TA
_R
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UT
03
O_
DA
TA
_R
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UT
03
O_
DA
TA
_R
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UT
04
O_
DA
TA
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UT
04
65
65
66
66
GN
D3
1G
ND
31
O_
DA
TA
_R
_O
UT
05
O_
DA
TA
_R
_O
UT
05
67
67
68
68
O_
DA
TA
_R
_O
UT
06
O_
DA
TA
_R
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UT
06
O_
DA
TA
_R
_O
UT
07
O_
DA
TA
_R
_O
UT
07
69
69
00NID_R_I7
56
56
57
57
I_B
_D
IN0
2I_
B_
DIN
02
I_B
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IN0
1I_
B_
DIN
01
58
58
59
59
I_B
_D
IN0
0I_
B_
DIN
00
10NID_R_I6
VD
D2
1V
DD
21
60
60
O_
DA
TA
_R
_O
UT
00
O_
DA
TA
_R
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UT
00
61
61
62
62
O_
DA
TA
_R
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UT
01
O_
DA
TA
_R
_O
UT
01
O_
DA
TA
_R
_O
UT
02
O_
DA
TA
_R
_O
UT
02
49
49
I_B
_D
IN0
9I_
B_
DIN
09
2DNG5
I_B
_D
IN0
8I_
B_
DIN
08
50
50
51
51
I_B
_D
IN0
7I_
B_
DIN
07
I_B
_D
IN0
6I_
B_
DIN
06
52
52
53
53
I_B
_D
IN0
5I_
B_
DIN
05
GN
D4
GN
D4
54
54
55
55
I_B
_D
IN0
4I_
B_
DIN
04
I_B
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IN0
3I_
B_
DIN
03
41
41
I_G
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IN0
5I_
G_
DIN
05
GN
D2
6G
ND
26
42
42
43
43
I_G
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IN0
4I_
G_
DIN
04
I_G
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IN0
3I_
G_
DIN
03
44
44
45
45
I_G
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IN0
2I_
G_
DIN
02
I_G
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IN0
1I_
G_
DIN
01
46
46
47
47
I_G
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IN0
0I_
G_
DIN
00
VD
D4
VD
D4
48
48
NI_CNYSV_I
NI_CNYSH_I53
91DDV63
90NID_G_I73
80NID_G_I83
70NID_G_I93
20NID_R_I4
60NID_G_I04
72
822_00_SSVL
DDV_ANA92
30NID_R_I3
DNG_ANA03
81DNG13
3DNG23
8DDV33
43
40NID_R_I2
PCR02
NCR12
1_00_SSVL22
2_33_DDVL32
42PDR
NDR52
PKLCR62
NKLCR
I_R
_D
IN0
7I_
R_
DIN
07
157
157
158
158
I_R
_D
IN0
6I_
R_
DIN
06
159
159
I_R
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IN0
5I_
R_
DIN
05
PAR61
GN
D3
8G
ND
38
160
160
71NAR
PBR81
NBR91
511_33_DDVL
150
150
GN
D3
9G
ND
39
I_C
LK
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EL
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IN0
1I_
CL
K_
SE
L_
PIN
01
151
151
152
152
I_C
LK
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EL
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IN0
0I_
CL
K_
SE
L_
PIN
00
I_R
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IN0
9I_
R_
DIN
09
153
153
I_R
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IN0
8I_
R_
DIN
08
154
154
VD
D3
1V
DD
31
155
155
156
156
VD
D3
0V
DD
30
142
142
GN
D1
3G
ND
13
B_
I2C
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DA
B_
I2C
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DA
143
143
144
144
I_T
M1
I_T
M1
I_T
M2
I_T
M2
145
145
I_I2
C_
SC
LI_
I2C
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CL
146
146
147
147
I_n
RE
SE
TI_
nR
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ET
148
148
I_I2
C_
AD
DR
01
I_I2
C_
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DR
01
I_I2
C_
AD
DR
00
I_I2
C_
AD
DR
00
149
149
135
135
VD
D1
4V
DD
14
GN
D1
6G
ND
16
136
136
137
137
I_N
AN
D_
EN
AB
LE
I_N
AN
D_
EN
AB
LE
I_S
CA
N_
EN
AB
LE
I_S
CA
N_
EN
AB
LE
138
138
139
139
I_S
CA
N_
MO
DE
I_S
CA
N_
MO
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DDV_GID41
I_B
CL
KI_
BC
LK
140
140
I_B
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141
141
O_
DA
TA
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09
O_
DA
TA
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09
128
128
129
129
O_
DA
TA
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UT
10
O_
DA
TA
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UT
10
DNG_GID31
O_
DA
TA
_B
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UT
11
O_
DA
TA
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UT
11
130
130
131
131
GN
D4
3G
ND
43
O_
PW
M_
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ING
O_
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M_
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ING
132
132
133
133
O_
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A_
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O_
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A_
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VD
D1
3V
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13
134
134
021
O_
DA
TA
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UT
04
O_
DA
TA
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04
121
121
GN
D11
GN
D11
122
122
123
123
O_
DA
TA
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05
O_
DA
TA
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UT
05
O_
DA
TA
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UT
06
O_
DA
TA
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06
124
124
125
125
O_
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TA
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07
O_
DA
TA
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UT
07
126
126
O_
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TA
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UT
08
O_
DA
TA
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UT
08
VD
D3
2V
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32
127
127
311TUOTSOP_CNYS_H_O
411TUOTSOP_CNYS_V_O
51111DDV
61100TUO_B_ATAD_O
71110TUO_B_ATAD_O
81120TUO_B_ATAD_O
911
9DNG21
30TUO_B_ATAD_O
601D33SSVAXT
701D33DDVAXT
801
90143DNG
9DDV11
62DDV011
KLC_TUO_O111
63DNG211
TUOTSOP_NE_ATAD_O
1
82DNG01
NCT001
A33SSVAXT101
A33DDVAXT201
PBT301
401NBT
PAT501
NAT
2009PT
2009CI
DCL-EIND
2DDV
1009PT
FERX
5109PT
XRVLD_V3.3B
V61
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V61
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9309C
FERX
1_V3.3B
V61
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9009C
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V61
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8009PT
9009PT
6009PT
5009PT
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V61
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78
3009PT
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12
34
56
FERX
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23
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32
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V3.3_VT_4LCS
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NE_SDVL
NE_SDVL
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XE_TUOSV
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TUOSH_EIND
TUOSV_EIND
TUOED_EIND
TUOKLC_EIND
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TUOSH_EIND
TUOSV_EIND
TUOED_EIND
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V3.3_VT_4LCSV3.3_VT_4ADS
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IE_R
OU
T(1
1)
DN
IE_R
OU
T(1
1)
DN
IE_G
OU
T(0
)D
NIE
_G
OU
T(0
)
DN
IE_G
OU
T(1
)D
NIE
_G
OU
T(1
)
DN
IE_G
OU
T(2
)D
NIE
_G
OU
T(2
)
DN
IE_G
OU
T(3
)D
NIE
_G
OU
T(3
)
)5(TUOG_EIND
)6(TUOG_EIND
)7(TUOG_EIND
)8(TUOG_EIND
)9(TUOG_EIND
)01(TUOG_EIND
)11(TUOG_EIND
+3TUOXT_EIND
-3TUOXT_EIND
+TUOKLCXT_EIND
-TUOKLCXT_EIND
+2TUOXT_EIND
)9:0(NIR_EIND
)9:0(NIG_EIND
)11:0(TUOR_EIND
)9:0(NIB_EIND
)11:0(TUOG_EIND
)11:0(TUOB_EIND
-1NIXR_EIND
+1NIXR_EIND
)4(NIR_EIND
+3NIXR_EIND
-3NIXR_EIND
)3(NIR_EIND
)9(NIG_EIND
)8(NIG_EIND
)7(NIG_EIND
)2(NIR_EIND
)6(NIG_EIND
DN
IE_G
IN(5
)D
NIE
_G
IN(5
)
DN
IE_G
IN(4
)D
NIE
_G
IN(4
)
DN
IE_G
IN(3
)D
NIE
_G
IN(3
)
DN
IE_G
IN(2
)D
NIE
_G
IN(2
)
DN
IE_G
IN(1
)D
NIE
_G
IN(1
)
DN
IE_G
IN(0
)D
NIE
_G
IN(0
)
DN
IE_B
IN(9
)D
NIE
_B
IN(9
)
DN
IE_B
IN(8
)D
NIE
_B
IN(8
)
DN
IE_B
IN(7
)D
NIE
_B
IN(7
)
DN
IE_B
IN(6
)D
NIE
_B
IN(6
)
DN
IE_B
IN(5
)D
NIE
_B
IN(5
)
DN
IE_B
IN(4
)D
NIE
_B
IN(4
)
DN
IE_B
IN(3
)D
NIE
_B
IN(3
)
DN
IE_B
IN(2
)D
NIE
_B
IN(2
)
DN
IE_B
IN(1
)D
NIE
_B
IN(1
)
DN
IE_B
IN(0
)D
NIE
_B
IN(0
)
)1(NIR_EIND
DN
IE_R
OU
T(0
)D
NIE
_R
OU
T(0
)
DN
IE_R
OU
T(1
)D
NIE
_R
OU
T(1
)
DN
IE_R
OU
T(2
)D
NIE
_R
OU
T(2
)
DN
IE_R
OU
T(3
)D
NIE
_R
OU
T(3
)
DN
IE_R
OU
T(4
)D
NIE
_R
OU
T(4
)
-2TUOXT_EIND
+1TUOXT_EIND
-1TUOXT_EIND
+0TUOXT_EIND
-0TUOXT_EIND
TUOKLC_EIND
TUOED_EIND
TUOSH_EIND
TUOSV_EIND
)0(TUOB_EIND
)1(TUOB_EIND
)2(TUOB_EIND
)3(TUOB_EIND
DN
IE_B
OU
T(4
)D
NIE
_B
OU
T(4
)
DN
IE_B
OU
T(5
)D
NIE
_B
OU
T(5
)
DN
IE_B
OU
T(6
)D
NIE
_B
OU
T(6
)
DN
IE_B
OU
T(7
)D
NIE
_B
OU
T(7
)
DN
IE_B
OU
T(8
)D
NIE
_B
OU
T(8
)
DN
IE_B
OU
T(9
)D
NIE
_B
OU
T(9
)
DN
IE_B
OU
T(1
0)
DN
IE_B
OU
T(1
0)
DN
IE_B
OU
T(1
1)
DN
IE_B
OU
T(1
1)
DN
IE_R
IN(9
)D
NIE
_R
IN(9
)
DN
IE_R
IN(8
)D
NIE
_R
IN(8
)
DN
IE_R
IN(7
)D
NIE
_R
IN(7
)
DN
IE_R
IN(6
)D
NIE
_R
IN(6
)
DN
IE_R
IN(5
)D
NIE
_R
IN(5
)
+0NIXR_EIND
-0NIXR_EIND
Samsung Electronics
Schematic Diagram
10-9
10-9 DNIe Lite & LVDSThis Document can not be used without Samsung’s authorization. Power
Signal
Samsung Electronics
Schematic Diagram
10-10
10-10 Function A'ssy BoardThis Document can not be used without Samsung’s authorization.
Schematic Diagram
10-11 Samsung Electronics
REWOP
TS_V5
TS_V5
TS_V5
300R
002 8061
10DZ
2V6C48XZB
1
2
3
20C
Fu1.0 8061
400R
002 8061
600R
K1
32
5.5
1
42
5.5
1
52
8.1
1
62
8.1
1
TG
NIP T/G
1
10C
V61/Fu74
200DEL
KBT353-LTL
300DEL
KBT353-LTL
200DC
HTG03C3SDC
900R
74 806110MR
A01FH643
1
2
3300DC
HTG03C3SDC
100C
Fn001
100DEL
KBT353-LTL
CD
02
CD
S3C
30G
TH
ZD
5B
ZX
84C
6V
2
1
2
3
10R
K01 8061
ZD
001
BZ
X84C
5V
1
1
2
3
ZD
002
BZ
X84C
5V
1
1
2
3
ZD
003
BZ
X84C
5V
1
1
2
3
001 8061700R
001 8061800R
C002
1608 1
00nF
C003
1608 1
00nF
C004
1608 5
pF
C005
1608 5
pF
C006
1608 5
pF
100WS
MEBE4611-PTJ
100PO
0552LST
3
1
2
4
KLCBMS
DDV
DNG
ATADBMS400DEL
KBT353-LTL
500R
002 8061
ZD
004
BZ
X84C
5V
1
1
2
3
100L
Hu01 5223
100Q
4093TSS
700C
V61/Fu22 100DC
HTG03C3SDC
100NC
L80-RW70521
1
2
3
4
5
6
7
8
910
CD
01
CD
S3C
30G
TH
200R
002 8061
RI
TS_V5
TUO REWOP
TUO REWOP
DEL
DEL
ADS
LCS
ADS
LCS
RI
10-11 Power & IR A'ssy BoardThis Document can not be used without Samsung’s authorization.
PowerSignal
Operation Instruction & Installation
Samsung Electronics 11-1
11. Operation Instruction & Installation11-1 Product Features and Functions11-1-1 Front Panel
1 SOURCE button
Press to display all of the available video
sources (TV, AV, S-Video, Component1,
Component2, PC, and HDMI).
2 MENU button
Displays the main on-screen menu.
3 VOL +, - buttons
Press to increase or decrease the volume.
Also used to select or adjust items on the
on-screen menu.
4 CH( , ) buttons
Press CH or CH to change channels.
Also used to move up or down in the on-screen
menu.
5 (Enter) button
Press to confirm a selection.
6 Power button
Press to turn the TV on and off.
Power indicator
- Power Off : Blue
- Power On : Off
7 Remote Control Sensor
Aim the remote control towards this spot on
the TV.
8 Speakers
1
2
3
4
5
8 7 6
Operation Instruction & Installation
11-2 Samsung Electronics
11-1-2 Rear Panel
1 POWER IN
Connect the supplied power cord.
2 SERVICE ONLY
Connector for service only.
3 HDMI/DVI IN
Connect to the HDMI jack of a device with
HDMI output. These inputs can also be used
as a DVI connection with separate analog
audio inputs. An optional HDMI/DVI cable
will be necessary to make this connection.
When using the optional HDMI/DVI adapter,
the DVI analog audio inputs on your TV allow
you to receive left and right audio from your
DVI device. (Not compatible with PC)
4 DVI AUDIO IN (L-AUDIO-R)
Connect to the DVI audio output jack of an
external device.
5 PC IN
Connect to the video output jack on your PC.
6 PC AUDIO IN
Connect to the audio output jack on your PC.
7 OPTICAL DIGITAL AUDIO OUT
Connect to a Digital Audio component.
8 COAXIAL DIGITAL AUDIO OUT
Connect to a Digital Audio component.
9 Anynet
Please refer to the Anynet Owner’s
Instruction. This jack is for connecting to
other Samsung Anynet-enabled devices.
10 COMPONENT IN 1, 2
Video (Y/PB/P R) and audio (L-AUDIO-R)
component inputs.
11 CableCARDTM
Insert the CableCARD into the slot.
12 ANT (75Ω )
75Ω Coaxial connector for Antenna/Cable
Network.
13 AV IN(L-AUDIO-R)
Audio inputs for external devices, such as
a camcorder or VCR.
14 VIDEO
Video input for external devices, such as
a camcorder or VCR.
15 S-VIDEO
Video input for external devices with an
S-Video output, such as a camcorder or VCR.
16 AUDIO OUT
Audio outputs for external devices.
Note• Please be sure to match the color coded input terminals and cable jacks.
Operation Instruction & Installation
Samsung Electronics 11-3
11-1-3 Remote Control
1 POWER button
Turns the TV on and off.
2 GUIDE button
Press to display the on-screen Electronic Program Guide (EPG).
3 ANTENNA button
Press to select “Air” or “Cable”.
4 Number buttons
5 - button
Press to select additional channels (digital and analog)
being broadcast by the same station. For example, to select channel
“54-3”, press “54”, then press “-” and “3”.
6 MUTE button
Press to mute the TV sound.
7 VOL (Volume) buttons
Use it to adjust volume.
8 Anynet button
Runs the Anynet view functions and sets up Anynet devices.
9 MENU button
Displays the main on-screen menu.
10 ENTER button
Confirms a selection.
11 FAV.CH button
Press to switch to your favorite channels.
12 CH LIST button
Displays the channel list.
13 MODE button
Selects a target device to be controlled by the Samsung remote control
(i.e., TV, STB, VCR, CABLE, or DVD).
14 PRE-CH button
Tunes to the previous channel.
15 SOURCE button
Press to display all of the available video sources (TV, AV, S-Video,
Component1, Component2, PC, and HDMI).
16 CH (Channel) buttons
Use it to switch channels.
17 INFO button
Press to display information on the TV screen.
18 EXIT button
Press to exit the menu.
19 Up/Down/Left/Right buttons
Control the cursor in the menu.
Operation Instruction & Installation
11-4 Samsung Electronics
20 P.MODE buttonAdjust the TV picture by selecting one of the preset factory settings (or
select your personal, customized picture settings).
21 S.MODE buttonSelect Sound effect.
22 E.SAVING buttonPress to adjust screen brightness according to surrounding environment.
(Refer to page 111)
23 P.SIZE buttonSelect Picture size.
24 DNIe buttonActivates DNIe (Digital Natural Image engine).
25 MTS buttonPress to choose stereo, mono or Separate Audio Program
(SAP broadcast).
26 SET buttonUsed during set up of this Samsung remote control, so that it will work
compatibly with other devices (VCR, Cable Box and DVD).
27 PIP buttonActivates picture in picture.
28 PIP control buttonsCH , : Displays the available channels in sequence.
(These buttons change channels in the PIP window only.)
29 CAPTION buttonControls the caption decoder.
30 VCR, DVD control buttonsControls VCR tape or DVD disc functions: Stop, Rewind, Play/Pause,
and Fast Forward.
31 RESET button If your remote control is not functioning properly, take out the batteries
and press the reset button for about 2~3 seconds.
Re-insert the batteries and try using the remote control again.
Operation Instruction & Installation
Samsung Electronics 11-5
11-2 New Features11-2-1 Energy Saving Mode (Applies to the "Setup" of the User Menu)
- Location of the Ambient Light Sensor
The sensor is attached to the Power Assy., which is on the front of the PDP. The location of the sensor on the Power Assy isdisplayed in the figure below. External light reaches the sensor through the guide of the Power Assy.
The screen brightness is adjusted according to the brightness measured by the Ambient Light Sensor, using the Multi APCfunction (controls the number of sustain pulses according to the average signal levels) of the PDP panel, thus reducing power consumption.
- Procedures for entering the menu: Select Menu → Setup → Energy Saving Mode
When pressing the "Energy Saving Mode" button on the remote control:The Energy saving mode changes in the sequence of "Standard" → "Auto Saving" → "Super Saving".
- Description of each power saving modeStandard: The screen brightness and the power consumption are not changed regardless of the ambient brightness measured
by the Ambient Light Sensor.Auto Saving: The screen brightness and the power consumption are changed depending on the ambient brightness.
If the ambient brightness is low, it automatically turns the TV brightness down and reduces the power consumption.Super Saving: This mode controls the screen brightness so that the power consumption is always reduced regardless of the
ambient brightness.
.
Operation Instruction & Installation
11-6 Samsung Electronics
11-2-2 PIP Settings (A : Analog, D : Digital, X : PIP doesn't operate, : PIP and swap operate)
Note : This TV has only one tuner and does not allow you to watch one TV channel in the main screen and another channel in the PIP screen.
Main screenPIP screen
TVAV(A) S-Video(A) Component(A) PC HDMI(D)
Analog Digital (ATSC)
TVAnalog
XX X X
Digital (ATSC) X XAV(A) X X X X
S-Video(A) X X X X
Component(A) X X X X
PC X X X X X X XHDMI(D) X X X
Operation Instruction & Installation
Samsung Electronics 11-7
11-3 Installation Notes and Precautions
11-3-1 Installation Notes
1. Contact a technician for installing the wall bracket.
2. Samsung Electronics is not responsible for any damage to the product or injury to yourself or others if you elect to perform the wall installation.
3. This product is for installing on cement walls. The product may not stay in place when installed on plaster or wood.
11-3-2 Parts (Wall attachment panel is sold separately)Only use the components and accessories shipped with the panel.
Plastic Hanger : 4 Screw : 11
Screw : 4 Anchor : 111 Left : 1 Right : 1
Wall Bracket Hinge Accessories
Operation Instruction & Installation
11-8 Samsung Electronics
11-3-3 How to assemble the Wall Mount Bracket
1 Insert and tighten the Captive Screw in the direction of the arrow.When done, mount the wall bracket on the wall.
2 Before drilling into the wall, check if thelength between the two locking holes at the back of the product is correct.If the length is too short or long, loosen all or some of the 4 screws on the wall bracket to adjust the length.
Hinge (Left)
Length between thetwo locking holes
Captive Screws
Hinge (Right)
3 Check the installation diagram and markthe drill points on the wall. Use the 5.0 mm bit to drill holes deeperthan 35 mm. Fix each anchor in the corresponding hole.Match each of the brackets and hinge holes to the corresponding anchor holesand insert and tighten the 11 screws .
There are two hinges(left and right). Use thecorrect one.
Wall Bracket
Operation Instruction & Installation
Samsung Electronics 11-9
11-3-4 Fixing the TV panel to the wall attachment panel bracket
1 Remove the 4 screws on the back of the product.
2 Insert the screw into the plastic hanger. (See the figure below)
3 Tighten the 4 screws in step 2 (plastichanger + screw ) to the rear holes of the product.
4 Remove safety pin ( ) and insert the 4product holders into the corresponding bracket holes ( ). Then place the product ( ) so that it is firmly fixed to the bracket. Make sure to reinsert and tighten the safety pin ( ) to securely hold the product to the bracket.
PDP
Wall Bracket Wall
• Mount the product on the wall bracket and make sure it is properly fixed to the left and right plastic hangers.
• Be careful when installing the product on the bracket as fingers can be caught in the holes.• Make sure the wall bracket is securely fixed to the wall, or the product may not stay in
place after installation.
Operation Instruction & Installation
11-10 Samsung Electronics
11-3-5 How to Adjust Mounting Angle
Notes• Contact an authorized technician when installing the wall attachment panel.• After hanging the TV panel on the wall attachment panel, make sure that the Insulation holders are
completely secured. • Be careful not to get your fingers caught during installation.• Make sure the wall attachment panel brackets are tightened. Otherwise, the TV panel may
fall down.• Please secure the mounting bracket on the wall surface after setting its angle at 0°.
NoteNote : Adjust the bracket angle to -2 o before installing it on the wall.
How to Adjust Mounting Angle
Make sure to use the top center, and not theleft or the right side of the product to adjustthe angle.
1 Fix the product to the wall bracket.
2 Hold the product at the top in the center and pull it forward (direction of the arrow) to adjust the angle. (See the figure to the right)
3 You can adjust the bracket angle between -2°and 15°.
Change Angle
Operation Instruction & Installation
Samsung Electronics 11-11
11-3-6 How to assemble the Stand-Base
Two or more people should carry the TV. Never lay the TV on the floor because of possible damage to the screen. Always store the TV upright.
1 Using the 4 screws for securing the stand pegs and the monitor, firmly attach the monitorto the stand pegs. (The exterior of the set may be different than the picture.)
WarningFirmly secure the stand tothe TV before moving it, asthe stand may fall and could cause serious injury.
11-12 Samsung Electronics
MEMO
Part Name Description Description PhotoCover
Speaker① Remove 6 screws on the SPEAKER-COVER
: BH,+,B,M4,L12,ZPC(BLK)
② Remove the SPEAKER-COVER.
Disassembly & Reassembly
Samsung Electronics 12-1
12. Disassembly & Reassembly12-1 Overall Disassembly & Reassembly
12-1-1 Separation of StandPart Name Description Description Photo
Stand ① Remove 4 screws.: PH,+,WSP,S,M4,L35,ZPC(BLK)
② Pull the stand down to remove it from the unit.
: Please lay the PDP unit face down on a soft surface whenremoving the stand.
12-1-2 Separation of ASSY COVER-STAND CABLE
Notice- Be sure to separate the power cord before disassembling the unit.- Discharge the capacitors first when separating PCB's with high capacity capacitors such as SMPS, X Drive Board, Y Drive
Board, etc. (A spark may be generated by the electric charge, and there is danger of electronic shock.)- Check that the cables are properly connected referring to the circuit diagram when disassembling or assembling the unit taking
care not to damage the cables.- Take care not to cause a flaw in the Glass Filter in the front.- Assemble the boards in the reverse order of the disassembly.- The plasma must be layed down on a flat padded surface for disassembly and reassembly.
Disassembly & Reassembly
12-2 Samsung Electronics
12-1-3 Separation of ASSY COVER P-REAR TOPPart Name Description Description Photo
RearTop
① Remove the 9 screws on the cover rear.: BH,+,-,S,M4,L8,ZPC(BLK)
② Remove the 2 Hex nuts for the PC input.: M3,L6,NI PLT,SUM24L,#4-40
③ Remove the cover rear.
12-1-4 Separation of ASSY COVER P-REAR Part Name Description Description Photo
Rear ① Remove 24 screws.: BH,+,-,S,M4,L8,ZPC(BLK)
② Remove 4 screws.: M8,L16,ZPC(BLK)
③ Remove the Back Cover.
12-1-5 Separation of ASSY FANPart Name Description Description Photo
FAN ① Remove 3 screws.: PH,+,WWP,M3,L8,NI PLT
② Remove the Fan Assy.
Part Name Description Description PhotoSpeaker ① Remove 1 screw.
: BH,+,-,S,M4,L8,ZPC(BLK)
② Remove the Speaker Assy.
12-1-8 Separation of ASSY SPEAKER
Disassembly & Reassembly
Samsung Electronics 12-3
12-1-6 Separation of ASSY PCB MISC-MAINPart Name Description Description Photo
MainBoard
① Remove 5 screws: PH,+,WWP,M3,L8,NI PLT
② Remove all connectors from the board.
③ Remove the Main Board.
12-1-7 Separation of ASSY COVER P-REAR SUBPart Name Description Description PhotoRear Sub ① Remove 3 screws.
: BH,+,-,S,M4,L8,ZPC(BLK)
② Remove 3 screws.: BH,+,B,M4,L8,ZPC(BLK)
③ Remove the sub cover.
Disassembly & Reassembly
12-4 Samsung Electronics
12-1-10 Separation of ASSY LOGIC BOARDPart Name Description Description PhotoFlat Cable ① Take care when separating the Logic Board not to damage
the Flat-Cable Connector Cover.
Logic Board ① Remove 4 screws.: PH,+,WWP,M3,L8,NI PLT
② Remove the Logic Board.
Part Name Description Description PhotoSMPS
+SMPS-POD
SMPS DC-DC
① Remove 12 screws.: PH,+,WWP,M3,L8,NI PLT
② Detach all connectors from the ASSY SMPS and the ASSYSMPS POD PCBs then remove the boards.
③ Remove 4 screws.: PH,+,WWP,M3,L8,NI PLT
④ Detach all connectors from the ASSY SMPS DC DC PCB then remove the board.
: Wear gloves when handling the power board as there maybe some remaining electrical charge in the capacitor.Specifically, avoid touching any part of the capacitor.
12-1-9 Separation of ASSY SMPS, ASSY SMPS POD and ASSY SMPS DC-DC
Disassembly & Reassembly
Samsung Electronics 12-5
12-1-11 Separation of ASSY X DRIVE BOARDPart Name Description Description Photo
X-DriveBoard
① To separate the Flat Cable of the X-Board, press the upper and the lower sides of the connector.
① While pressing the connector, apply slight force toward the direction of the cable to release the connector.
① Remove the Flat cable.
① Remove 6 screws.: PH,+,WWP,M3,L8,NI PLT
② Detach all reamining connectors from the X-Drive Board.
③ Remove the X-Drive Board.
Disassembly & Reassembly
12-6 Samsung Electronics
12-1-12 Separation of ASSY Y DRIVE BOARDPart Name Description Description PhotoFlat Cable ① Detech the 6 Scan Board connectors from the Panel Assy by
pulling the holder from both the top and bottom ends.
Y-Scan ① Remove 5 screws.: PH,+,WWP,M3,L8,NI PLT
Connectors ① Separate the Scan Boards from the Y-Main Board bydetaching the 2 connectors and remove the Scan Boards.
Y Drive ① Remove 8 screws.: PH,+,WWP,M3,L8,NI PLT
② Detach all connectors from the Y-Main Board and remove the Y-Main Board.
Disassembly & Reassembly
Samsung Electronics 12-7
12-1-13 Separation of ASSY BUFFER BOARDPart Name Description Description Photo
WallBracket
① Remove 8 screws.: BH,+,-,S,M4,L8,ZPC(BLK)
② Separate PDP module from Front cover.
: Please lay the PDP panel face down on a soft surface whenseparating front cover.
③ Remove 16 screws.: BH,+,S,M4,L10,ZPC(BLK)
TCP Cover ① Remove 8 screws.: PH,+,WWP,M3,L8,NI PLT
② Remove TCP covers.
Buffer (TOP)
① Remove 12 screws.: PH,+,WWP,M3,L8,NI PLT
② Remove the E-Board, F-Board and G-Board.
Buffer(BOT)
① Remove 12 screws.: PH,+,WWP,M3,L8,NI PLT
② Remove the E-Board, F-Board and G-Board.
12-8 Samsung Electronics
MEMO
Circuit Description
Samsung Electronics 13-1
13. Circuit Description13-1 Power ON/OFF Signal Timing Sequence
NO YALPSID NO YALPSID
NO_SV NO_SV NO_SV NO_SV
NO REWOP CA NO REWOP CA
FFO FFO
FFO/NO REWOP CA
)woL evitcA( NO_SPlanretxE SP morf
)FFO/NO rellortnoc etomeR(
)stuptuo noitpO POP( ,yB-dnatS
tuptuo CFP
STUPTUO CDtV,pmaV,V21,V5.6A,V3.5D
)hgih evitcA( NO_SVlanretxE S/P morf
TUPTUO CDsV
FFO / NO YALPSID
V 5 V 5V 4.3 V 4.3
ffo-nrut pets ybdnatS rof µµ teser rossecorp-
ffo-nrut pets ybdnatS rof µµ teser rossecorp-
.ceS m 07 .ceS m 07
NO rellortnoC etomeR NO rellortnoC etomeR NO rellortnoC etomeR NO rellortnoC etomeR
STUPTUOgV
NO YALPSID NO YALPSID
STUPTUO CDaV
acV acV
scV scV
1. When connecting the AC power cord, Stand-By 5V from the Main SMPS is supplied to the Main Board (Pin 3 of CN1002 of Main Board).
2. When pressing the Power button on the remote control or on the main body, PS_ON (Pin 5 of CN1002 of Main Board) changes from High to Low.
3. If the PS_ON signal changes to Low, the Main SMPS supplies power to the Main Board and Logic Board, and Va and Vg power is supplied to the DC-DC SMPS.
4. If the VS_ON signal from the Logic Board changes from Low to High, the Main SMPS supplies VS power to the X and Y Drive Board through the DC-DC SMPS, and the screen displays a picture on it.
Circuit Description
13-2 Samsung Electronics
13-2 Partial Block Description
13-2-1 Main Board
No Loc. No. Description(1) TU1002 (DNVS303EH261A) The Main Tuner.(2) CN7001 (UMX-NT-043) The RF Splitter for selecting Antenna IN 1 or Antenna IN 2.(3) IC9001,IC9003 (DTC34LM85AL) Converts the digital R, G, B signals from the main board into an LVDS signal and transmits the signal to the PDP Logic board.(4) IC9002 (SDP43) The DNIe IC for visual quality improvement.(5) IC7010 (S5H2010A01) MPEG Decoder IC(6) IC6006 (S3C2800X01) CPU IC(7) IC5003 (K4D263238E) SDRAM for STP22.(8) IC5004 (STP22) A Scaler IC that generates the output resolution appropriate to the PDP panel and generates the PIP screen.(9) IC2016 (NSP-6241A) Sound PWM IC
(10) IC2015 (TAS5122) Sound AMP IC(11) IC3002 (3F866B) Generates various control signals required for operating the circuit. The software is downloaded through PC D-SUB Jack.(12) IC3003 (P_PCFM_012) The Micom that inputs and outputs various control signals.(13) IC2012 (MSP4440K) Sound Processing IC(14) IC4005 (SIL9993) Converts the TMDS signal on the HDMI input into 8 bit digital R, G, B signals.(15) IC4003 (MST9883) A/D converts the R, G, B input signal from 15 Pin PC video to 8 bit digital R, G, B signals.(16) IC3006 (MAX232) RS-232 receiver IC(17) JA9001 LVDS Logic Connector(18) CN1002 SMPS Connector(19) CN1001 SMPS Connector(20) CN8002 SMPS-POD Connector(21) CN1004 Function key board Connector(22) 60P CONNECTOR for Debug (Option)(23) CN2001 SPEAKER CONNECTOR(24) CN1003 POWER&IR BOARD CONNECTOR(25) CN8003 POD SLOT Connector(26) CN8001 POD FAN Connector
Circuit Description
Samsung Electronics 13-3
ATSC Tuner
Analog PowerCN1001
Digital PowerCN1002
POD PowerCN8002
FuncionConnectorCN1004
DebugConnectorTEST5001
SVC InHDMI DVI L/R PC In - Audio
Digital OutOptical/Coaxial
Component 2R-L-Pr-Pb-Y
Component 1R-L-Pr-Pb-Y
Anynet In
LVDS outJA9001
POD Slot
Splitter
AirCable
Power-IRCN1003
Video In
Monitor Out
S-Video
SPK.outCN2001
FAN Conn.CN8001
MAIN
OOB
OOB MAIN SUB
1. POD_SW2. 3. GND4. S_12V5. GND6. S_12V7. GND8. S_6.5V9. GND10. S_5V11. GND12. S_5V
1. FAN_D 2. THER_D 3. STD_5V 4. GND 5. PS_ON 6. D12V 7. GND 8. D3.3V 9. D3.3V10. GND11. D6V
1. GND 2. VT(B33V) 3. GND 4. GND 5. 18V_A 6. 18V_A 7. GND 8. A12V 9. GND10. +6V
1. KEY12. KEY23. GND
1 1
1. GND 2. LED_RED 3. A5V 4. GND 5. KEY2 6. SDA 7. SCL 8. IR
1. R(-) 2. R(+) 3. L(-) 4. L(+)
11
1
1
13-2-2 Connectors of Main Board
Circuit Description
13-4 Samsung Electronics
13-2-3 Power Button Board
13-2-4 Function Key Board
Function Key. Located on the side of the unit.
No Loc. No. Description(1) RM01 Remote Control Sensor(2) SW001 Power Button
(3) OP001
The Illumination sensor that senses the quantity oflight. It senses the illumination and automaticallyadjusts the screen brightness according to the sur-rounding brightness when the Power Saving Modeof the User menu is set to Auto.
Circuit Description
Samsung Electronics 13-5
13-2-5 Main SMPS
(1) CN800: AC IN (90 ~ 264V)
※ CN811, CN806, CN807 and CN808 are not used.
(2)CN804-1
MAIN SMPS↔
CN1002(Main B'D)Pin No Signal1 FAN-D
2 FAN-ON3 STB5V4 RTN5 PS-ON6 12V7 RTN8 RTN9 VCA
10 VCS11 RTN12 5.3V
(3)CN803(MAIN SMPS)
↔CN1001(Main B'D)
Pin No Signal1 RTN
2 VT(33V)3 RTN_AMP4 RTN_AMP5 18V_AMP6 18V_AMP7 RTN8 12V9 RTN
10 6V
(4)CN810(Main SMPS)
↔CN2013(Logic B'D)
Pin No Signal1 5.3V
2 5.3V3 RTN4 RTN5 5.3V6 RTN7 PS-ON8 N.C9 VS-ON
10 STB 5V
(5)CN809(Main SMPS)
↔CN3(DC-DC SMPS)Pin No Signal1 5.3V
2 Vg3 RTN4 RTN5 RTN6 RTN7 RTN8 Va9 Va
10 N.C11 Vs12 Vs
Circuit Description
13-6 Samsung Electronics
1. Outline (PDP 42inch/50inch SMPS)Considering various related conditions, the switching regulator with good efficiency and allowing for its small size and light weightwas used as the power supply for PDP 42inch(Schubert)/50inch(Strauss), VS requiring high power consumption Asymmetrical HalfBridge converter and flyback converter. To comply with the international harmonics standards and improve the power factor, activePFC(Power Factor Correction) was used to rectify AC input into +400V DC output, which in turns used as input to the switchingregulator.
2. InputThe power supply shall be capable of supplying full rated output power over free voltage ranges that are rated 100 VAC - 240 VACRMS nominal. Operating voltage : 90 VAC - 264 VAC The power supply must be able to start up under peak loading at 90V AC. The power supply shall automatically recover from ACpower loss. (Note that nominal voltages for test purposes are considered to be within +/- 1.0V of nominal).STD_5V & Vpr2(3.3V) is a SELV standby voltage that is always present when AC mains voltage present.
3. Output
4. Over Voltage ProtectionThe over voltage sense circuitry and reference shall reside in package that are separate and distinct from the regulator controlcircuitry and reference. No single point fault shall be able to cause a sustained over voltage condition on any or all outputs.The supply shall provide latch-mode Over Voltage Protection as defined below.
5. Short Circuit and Over current Protection An output short circuit is defined as output impedance of less than 300mohms. The power supply shall shutdown and latch off forshorting VS DC rails to return. Shorts between main output rails and STD_5V shall not cause any damages to the power supply.The power supply shall either shutdown and latch off until the short condition is removed, at which point the P/S shall recover.The power supply shall be capable of withstanding a continuous short-circuit to the output without damage or over stress to theunit (components, PCB traces,connectors,etc.) under the input conditions specified in Section 3 above. Current Protection asdefined below.
Output Name Output Voltage Output Current(Max.) Using in PDP DrivingVS +190V ~ 220V (210V) 2.0A Sustain Voltage of Drive BoardVA +60V ~ 80V (70V) 3.0A Address Voltage of Drive Board
D5.3V +5.3V 5.0AA6.5V +6.5V 3.0A
FAN_9V +9V 0.2AVG +15V 1.0A
D12V +12V 1.5AA12V +5.3V 0.5A
18VAMP +18V 2.5A Amp Voltage of Audio BoardVT +33V 0.006A
STD_5V +5V 1.0A Standby for Remote Control
Parameter Min UnitVS(210V) 250 ~ VVA(70V) 100 ~ V
VCC(+5.3V) 6.8 ~ V
Output Over Current Limit UnitVS(210V) 20A, Constant Current.(TBD) AVA(70V) 10A, Constant Current.(TBD) A
Output except Vs,Va No damage (Auto Recovery or Shut down.) A
Circuit Description
Samsung Electronics 13-7
13-2-6 POD SMPS(1)
J0802(POD SMPS)↔
CN8002(MAIN B'D)Pin No Signal1 N.C
2 +33V3 GND4 +12V5 GND6 +12V7 GND8 +6.5V9 GND
10 +5V11 GND12 +5V
(2)J0802(POD SMPS)
↔CN811(MAIN SMPS)Pin No Signal
1 AC2 AC3 5.3V4 N.C5 Va
1. Block Diagram
Circuit Description
13-8 Samsung Electronics
2. Description of Each Block- Input Filter Circuit
This consists of a Common Mode Reactor LF801, X-condenser C803, C804, Line by-pass condenser(Y con), C801, C802, C823, C824 and a lightning conductor, Z801.The external noise from the AC line and the feedback noise from the internal power are reduced.
- Rectification CircuitConverts (rectifies) the supplied AC current into DC.
- MAIN SWITCHING Circuit BlockTransmits the energy of the electrolytic capacitor (C805) to the secondary coil, T801 [MAIN TRANS], by turning the MOS-FETembedded in U802 (5M0565R) on or off for PWM power, and generates a DC output voltage of +5.3V, +6.5V, +12V and +30V. When the input voltage is supplied, the activation voltage is supplied to Pin 3 of U802, and U802 starts oscillating.Via the oscillation, the energy is transmitted to the secondary coil, T801.
- DC-DC Circuit BlockThe circuit that converts the energy transmitted to T801 via the oscillation of the MAIN SWITCHING U802 into DC voltage.The +6.5V and +12V voltages are controlled by the Voltage Regulator and the +30V output voltage is controlled by the Turn Ratio of T801.
Circuit Description
Samsung Electronics 13-9
(6) D5.3V, Vg, Ve Test Point(7) Va, Vset, Vscan Test Point
13-2-7 DC-DC SMPS
(1)CN809(Main SMPS)
↔CN3(DC-DC SMPS)Pin No Signal1 5.3V
2 Vg3 RTN4 RTN5 RTN6 RTN7 RTN8 Va9 Va
10 N.C11 Vs12 Vs
(4), (5)CN1, CN5
(DC-DC SMPS)↔
CN2501(E-Buffer),CN2701(G-Buffer)
Pin No Signal1 RTN
2 N.C3 5.3V4 N.C5 Va
(2)CN2(DC-DC SMPS)↔ CN5007(Y B'D)
Pin No Signal1 Vs
2 Vs3 RTN4 RTN5 Vset6 RTN7 Vscan8 RTN9 Vg
10 5.3V
(3)CN4(DC-DC SMPS)↔ CN4000(X B'D)
Pin No Signal1 Vs
2 Vs3 RTN4 RTN5 Ve6 RTN7 RTN8 Vg9 5.3V
Circuit Description
13-10 Samsung Electronics
Controland
Switching Block
Controland
Switching Block
Controland
Switching Block
Transformer
Transformer
Transformer
AuxiliaryPower
AuxiliaryPower
AuxiliaryPower
RectificationBlock
RectificationBlock
RectificationBlock
FeedbackBlock
FeedbackBlock
FeedbackBlock
Vs Input Part Vscan Output
Vset Output
Ve Output
(-175~-220)
DC DC SMPS receives Vs input (195~215V) from the Main SMPS and the necessary Vscan, Vset and Ve voltages are output tooperate the PDP Module as shown in the block diagram above.
1. Block Diagram
Circuit Description
Samsung Electronics 13-11
13-2-8 PDP Module
No Assy Name Description(1) ASSY PDP P-LOGIC BOARD (BN96-02031A) Logic Main Board(2) ASSY PDP P-X MAIN BOARD (BN96-02024A) X Drive Board(3) ASSY PDP P-Y MAIN BOARD (BN96-02025A) Y Drive Board(4) ASSY PDP P-ADDRESS E BUFFER BOARD (BN96-02028A) Buffer Board(5) ASSY PDP P-ADDRESS F BUFFER BOARD (BN96-02029A) Buffer Board(6) ASSY PDP P-ADDRESS G BUFFER BOARD (BN96-02030A) Buffer Board(7) ASSY PDP P-Y BUFF UPPER BOARD (BN96-02026A) Y Buffer Upper Board(8) ASSY PDP P-Y BUFF LOWER BOARD (BN96-02027A) Y Buffer Upper Board
Circuit Description
13-12 Samsung Electronics
1. Logic Block
Logic Block Diagram
ASIC
nRESET
CONTROL
SIGNAL
60pin Connector 60pin Connector
10Pin(Power)31Pin LVDS
SPS-NIRB
(ASIC 816P)DDR
(FA)
DDR
(MA)
DDR
(MB)
MICOM
DRIVE
RESET
R,G,B : 16bit
CLK A, B
BLK, POL, STB
R,G,B : 16bit
CLK A, B
BLK, POL, STB
DATA : 32bit
ADDR : 12bit
DQS, CLK, nCLK
RELAY_EINT
AC-OFF-EINT
Vs-ON
LVDS
SIGNAL
SDA, SCL
TX, RX
X-MAIN
CONTROL
SIGNAL
Y-MAIN
CONTROL
SIGNAL
ADC 4bit
ADC 3bit
ADC 1bit
4p
in (
I2C
)
30MHz
60MHz
74MHz
50
pin
Co
nn
ecto
r
30
pin
Co
nn
ecto
r
Circuit Description
Samsung Electronics 13-13
A name of main part of Logic Board and vocabulary.
Item Name Description
① LVDS Connector The connector to receive the RGB, H, V, DATAEN and DCLK signals that have been LVDS encoded through themain board.
② Operating Status LED (LED2001) The LED that shows whether the Sync and Clock signal is properly supplied to the logic board (NormalStatus:Blinks at 0.8 second intervals)
③ I2C Connector (Debug only) The connector for the Key Scan board that checks and controls the 512K data.④ V-TOGG TP for V Sync Check⑤ Y Connector The connector to output the control signal for the Y drive board.⑥ X Connector The connector to output the control signal for the X drive board.⑦ CN2006, CN2007, CN2008 The connector to output the address data and the control signal to the E,F and G-buffer board of BOTTOM.⑧ CN2009, CN2010, CN2011 The connector to output the address data and the control signal to the E,F and G-buffer board of TOP.
⑨ ARM-PROCESSOR 512K including the Gamma Table, APC Table, drive waveform timing and other options is saved to internalflashmemory.
⑩ Power Connector The connector to receive power (5V, 3.3V) for the Logic board.⑪ ASIC CHIP The main processor that generates and outputs the logic drive signal and the address data.
⑫MICOM LOADING 5PIN CONNECTOR(Debug only) The connector to load the Micom drive program. The program is loaded by connecting to the GA-WRITER.
About Logic BoardThe Logic Board consists of a Logic Main board, which processes the main signal input through LVDS and creates the addressdriver output and X,Y drive signals, and a Buffer board, which buffers the output signal and outputs the signal to the Address DriverIC (TCP IC).
Logic Board Function Remark
Logic Main- Video Signal Processing (W/L, error diffusion, APC)- Outputs the Address Driver Control and Data Signals to the Buffer board.- Outputs the XY Drive Board Control Signal
Buffer Board
Lower E Buffer board Outputs data and control signals to the bottom left TCP IC.
Top and bottomSymmetry design
Lower F Buffer board Outputs data and control signals to the bottom center TCP IC.Lower G Buffer board Outputs data and control signals to the bottom right TCP IC.Upper E Buffer board Outputs data and control signals to the Top right TCP IC.Upper F Buffer board Outputs data and control signals to the top center TCP IC.Upper G Buffer board Outputs data and control signals to the top left TCP IC.
Circuit Description
13-14 Samsung Electronics
Major Check Points and Waveforms- The waveform during a Normal Operation
When the PDP set and the Logic Board are properly operating, the Operation Status LED blinks at approximately 0.8 second interval as shown in Figure 1.If the set is out of order, check the Operation Status LED first, and check that the output waveform is normal using anoscilloscope.Check if the waveform is the same as shown in Figure 2 by connecting the oscilloscope to the No. 12 TP in Figure 1. Check if the waveform is the same as in Figure 3 by connecting the oscilloscope to the connector that is connected to the Buffer board. If the measured waveform is different from the following waveforms, the board must be replaced.To check the waveforms, refer to the following waveform patterns.
Figure 2. Normal V-SYNC Output Waveform Figure 3. Normal Address Data Output Waveform
Circuit Description
Samsung Electronics 13-15
1. X, Y Control Block
Drive Circuit DefinitionThe Drive Circuit is a circuit that generates a waveform (high-voltage pulse) for the X and Y electrode group of the panel's externalport so as to control the panel. The high-voltage switching pulse is generated through the combination of the IC HYBRID (Driveblock + IGBT) and FET.
Drive Circuit MechanismA picture is displayed on the PDP by applying voltage to the X, Y and ADDRESS electrodes of each pixel according to the appro-priate condition. The drive waveform applied to 42HD V4 is of the ISSS (ISSS: Interweaving Scan and Selective Sustain with ScanIC) type and has IDS (InDependent Sustain) in the Scan section unlike the existing ADS. Discharges within a PDP pixel can beclassified into 3 types:① Address Discharge: To form a wall voltage within the pixel by giving information (applying DATA voltage) to the pixel to be lit.② Sustain Discharge: Sustain Discharge is a display section that voluntarily maintains the discharge of the pixels whose wall
voltage has been formed by the Address Discharge. (Optical output for displaying a picture is generated).③ Erase Discharge: To selectively perform Address Discharge for each pixel, all pixels on the panel should be in the same status
(the wall electric charge status and space electric charge status must be the same). Therefore, the Erase Discharge section is an important component for guaranteeing the drive margin, and is implemented byvarious methods such as applying a log waveform. However, the current 42HD V4 has adopted a wall voltage control through an RA (Repeated Auto-quenching) reset that separates the discharge area and performs switching to perform an efficient erase operation, while the gradient was the same in the RAMP section in the existing approach.
1) Address DischargeA discharge that is caused by the difference between the plus electric potential (Va apply voltage of 65~70V + Positive WallCharge) of the electrode and the negative electric potential (Applied GND Level + Negative Wall Charge) of the Y electrode. TheAddress discharge forms a wall voltage within the pixel to display color (to be discharged) before the Sustain Discharge period.That is, the pixel whose wall charge has been formed by the Address Discharge forms a Sustain Discharge vis the followingSustain pulse.
2) Sustain DischargeA Sustain Discharge is a Self-Sustaining Discharge formed by the accumulation of the electric potential of the Sustain pulse (gen-erally 200 ~ 210 Volt) alternating over the X and Y electrodes during the sustain period, and the wall charge depending on whetherthe pixel has previously been discharged or not. That is, it is controlled by the memory characteristics, one of the basic characteris-tics of the AC PDP (in that the past operating conditions determine the current status). That is, if a wall voltage exists on the pixel(if the pixel is on), a discharge is formed again because the applied voltage, which is the sum of the following applied Sustain volt-age and the wall voltage, is higher than the discharge threshold voltage. If no wall voltage exists on the pixel (if the pixel is off), adischarge will not occur because the Sustain voltage is not higher than the discharge threshold voltage. The Sustain Dischargeperiod is the period for generating actual optical output so as to display a picture on the PDP screen.
3) Erase DischargeThe purpose of a Reset (Erase) Discharge is to create uniformity of the wall voltage within all panel pixels. It evens the wall volt-ages regardless of the Sustain Discharge in the previous stage. The Erase Discharge has to remove the wall voltage introduced bythe Sustain Discharge by supplying ions or electrons by a discharge. When the wall voltage is removed through a discharge, thetime when the reverse polarity is applied to the wall voltage (fine width erasing) is to be limited or ions or electrons are to be sup-plied by a weak discharge (low voltage erasing) so as to prevent a wall charge in reverse polarity. There are 2 known weak discharge (low-voltage) erase methods. 1) A log waveform adopted by F company and 2) a weak erasedischarge via a ramp waveform adopted by Matsushita and other companies. Both methods control the externally applied voltageby the difference of the wall voltage of the pixel by applying the rising gradient of the erasing waveform slowly, because the dis-charge begins when the sum of the existing remaining wall voltage and the rising waveform voltage exceeds the drive thresholdvoltage. In addition, a weak discharge is introduced, because the applied voltage is low.
Circuit Description
13-16 Samsung Electronics
Drive Circuit Operating Block Diagram
- Y Drive Board
Power Input PartLogic Signal Input Part
Logic Signal Buffer
Power Input PartLogic Signal Input Part
Logic Signal Buffer
- X Drive Board
Requisite Components Necessary for Drive Board Operation
- Power : Supplied from the power board. The optimal value may differ from the following:a) Vs : 205V - Sustainb) Vset : 195V - Y Rising Rampc) Ve : 100V - Ve bias d) Vscan : -190V - Scan low biase) Vnf : -175V - Y falling Ramp (Created by the DC-DC power block of the Y Drive board)f) Vsc_h : -70V - Scan high bias (Created by the DC-DC power block of the Y Drive board)g) Vdd : 5V - Logic signal buffer IC and IPMh) Vcc : 15V - Gate drive IC ¹× IPM
- Logic Signal : Supplied by the Logic board. Gate signal of each switch
Circuit Description
Samsung Electronics 13-17
Drive Circuit Architecture and Function Description
- Description of the function of each board
1) X Drive BoardThis is connected to the X port part of the panel. 1) Sustain voltage waveform (including ERC) is output, and 2) Ve bias in the Scansection is maintained.
2) Y Drive BoardThis is connected to the Y port part of the panel. It outputs 1) Sustain voltage wave form (including ERC), and 2) Y Rising, FallingRamp waveform, and maintains 3) Vscan bias.
3) Y Buffer Board (Upper, Lower)This board supplies the Scan waveform to the Y port and consists of Upper and Lower boards. For an HD grade unit, 6 scandriver ICs (TEXAS INSTRUMENT SN755867APZP: 64 outputs) are mounted on the board.
Circuit Description
13-18 Samsung Electronics
Drive Waveform Specifications
- Drive Waveform
- Description of the function of each pulse
1) Y Preset RA PulseThis is supplied to the first sub-field and erases the discharge status of the previous subfield.
2) Y Main RA PulseDuring the Y Rising Ramp section, approximately 300V~350V (Vscan-h + Vset) of external voltage is supplied to the Y electrode,and a weak discharge is started when each gap voltage is equal to the discharge start voltage. While maintaining the weak dis-charge, as a whole, negative wall charges are accumulated on the Y electrode and positive wall charges on the X electrode andthe address electrode.During the Y Falling Ramp section, the negative wall charges accumulated on the Y electrode by the approximately 105V of X biasare used to erase the positive wall charges on the X electrode, and the address electrode maintains most of the positive wallcharges accumulated during the (0V) Rising Ramp section preparing for the next address discharge.
3) Y Scan Pulse (Odd/Even)A scan pulse classifies the Y electrode into Odd and Even lines and selects FPC output electrodes sequentially (one line-at-a-time). At this time, Vscan is called the Scan Bias Voltage.A Vscan voltage of approximately -175 Volt (Vsc_1) is supplied to the electrode lines. For the other lines, -56 volt (Vsc_h is higherthan Vscan-l by 120V) is supplied. However, negative wall charges are accumulated on the Y electrode by the Ramp pulse, andpositive wall charges are accumulated on the address electrode, and the voltage applied to the cells, to which the Address pulse(70V~75V) has been applied, becomes higher than the discharge voltage. An address Discharge occurs as a result. Since theScan and Data pulse is applied one line at a time as above, the address time of PDP is very long.
4) IDS Pulse (InDependent Sustain Pulse)Since an Odd Scan is performed first, the Odd line output sustains optical twice during the IDS section. At this time, a SustainDischarge does not occur for the Even line because the Even line is not scanned.
5) CPS Pulse (ComPare Sustain Pulse)By floating the Odd line that caused the Sustain Discharge in the IDS section to the Vscan-h level, and introducing the SustainDischarge only for Even lines, it compensates for the optical output difference between the Even and Odd lines.
6) CMS Pulse (ComMon Sustain Pulse)Actual optical is output during the common Sustain Discharge section.
Circuit Description
Samsung Electronics 13-19
Mechanism of the FET Operation and High-Voltage Switching
Mechanism of the FET Operation
1) When the signal is output to the gate, (positive electric potential) FET short circuits(i.e. Conductor of resistance 0)
2) When no signal is output to the gate (GND), FET changes to an open circuit (i.e. an insulator of resistance ∞ ).
High-Voltage Switching of the FET Operation
1) When no signal is applied to G1, FET1 is opened and when the signal is applied to G2, FET2 short circuits, GND is output via the output terminal.
2) When a signal is applied to G1, FET1 short circuits and when no signal is applied to G2, FET2 is opened, and 180V is output via the outputterminal.
Circuit Description
13-20 Samsung Electronics
Drive Board Connector Layout1) X-Main
Circuit Description
Samsung Electronics 13-21
2) Y-Main
CN5007- Power
CN5008- Signal
CN5010
CN5009
CN5503- Panel
CN5502
CN5501- Panel
- Panel
CN5403- Panel
CN5402- Panel
CN5401- Panel
CN5507
265mm
320mm
CN5407
Circuit Description
13-22 Samsung Electronics
Troubleshooting the Drive Board1) Y Buffer
- To check whether the Y Main board is properly working, check the operation of the Y Buffer first.- Separate the connector of the Y Buffer from the Y Main board.- Check OUTL and OUTH and confirm that the forward voltage reduction is between 0.4V ~ 0.5V.
UP - CN5407 1~10pin - OUTH / 11~33pin - OUTLLOW - CN5507 50~41pin - OUTH / 40~17pin - OUTL
- In addition, the resistance between the points must be higher than a few kΩ .
OUTL OUTH
OUTL
OUTH
OUTL
OUTH
<Y buffer U P> <Y buffer LOW>
Circuit Description
Samsung Electronics 13-23
2) Y Main- Connect the Y Main and Y Buffer, and confirm that the output from TP(CN5410, CN5411) of the Y Buffer UP is the same as
#Attachment 1 when the power is supplied.
CN5410
CN5411
Circuit Description
13-24 Samsung Electronics
Adjust the drive waveform so that the main reset (Rising: 100 usec, Falling: 40 usec) are the same as those in the figure.
※ The Vsc_h and Vnf voltages are controlled by the DC-DC power part of the Y Main board.
<Voltage Adjustment Specifications>
...
1 0 0 us
4 0 us
Rising Ramp
Falling Ramp
Y Main Board
IPM
DC-DCFalling Ramp Variable resistor
Rising Ramp Variable resistor
1 0 0 us
4 0 us
Y Main Board
Vsc_h TPDC-DC
Vset Vs Vsc_l Vsc_h Ve Va
200V 205V -175V -56V 105V 70V
Circuit Description
Samsung Electronics 13-25
3) X- Check that the output of X-Out of the X board follows the waveform of #Attachment 2 when the power is supplied.
XOUT
Circuit Description
13-26 Samsung Electronics
※ Attachment 1 Y Output Waveform
The Scan Waveform Must Be Observed
Y Output Waveform (200us/div, 100V/div)
1us/div, 100V/div (Sustain Waveform)
Circuit Description
Samsung Electronics 13-27
※ Attachment 2 X Output Waveform
X Output Waveform (200us/div, 100V/div)
2us/div, 100V/div (Sustain Waveform)
Circuit Description
13-28 Samsung Electronics
13-3 New Circuit Description
Ambient Light Sensor(TSL2550 Lux Calculation IC)
S3C2800
13-3-1 Power Saving Modes (Standard, Automatic, Super Power Saving)
1. ObjectiveTo enhance a sensible visual quality by maintaining an appropriate screen brightness according to the ambient brightness and toreduce power consumption.
2. Circuit Architecture
The CPU S3C2800 of the Video Board monitors the current ambient brightness (in Lux units), stored in the Ambient Light Sensorof Power Assy., which is attached at the front of the PDP, at given intervals through SMBUS communication (identical to I2C) andcontrols the PDP module to operate at the appropriate luminance level.
3. Descriptions of Each Mode1) Standard Mode
Standard Mode is set as standard visual quality.2) Auto Power Saving Mode (Ambient Light Sensor)
This uses the TAOS 4 pin TSL2550 and is currently being used in LCD TVs. It also uses SMBUS, which is the same type as I2C, for communication. The Ambient Light Sensor can detect up to 1846 Lux in normal mode. The data of the sensor can be measured for Lux operations once every 800ms.Control is implemented by using R_ASL_GAIN. The number ofsustain pulses moves left or right as shown in the figure on the right. For a low gradation condition, the change by R_ASL_GAIN has been minimized considering the degradation of the visual quality.That is, the Auto Power Saving mode screen controlled by theambient light sensor aims at normal video of medium gradation.
※ The following values are for a normal air signal with 80 Watt attenuation at maximum
Number of Sustain Pulses
Detected Lux R_ASL_GAIN (Address 0xE9) Remarks0 ~ 8 250 - Read the Lux value once per second and change it the target
R_ASL_GAIN value by 5 per second according to the changed Lux value.
- If more than 3 communication errors or saturation (count1>count0) is detected, the default value is set (R_ASL_GAIN=128).
9 ~ 22 21023 ~ 35 170
Else 128 (default)
Circuit Description
Samsung Electronics 13-29
3) Super Power Saving ModeThis uses the Multi APC function of the PDP module, and aims at reducing power consumption more than 100 W for the white pattern, which is similar to the power consumption reduction of other manufacturers.
- Concept of Multi APC: Controls the number of sustain pulses according to the ASL (Average Signal Level) by R_P_Lower_Gain value.
In the PDP Logic, R_Multi_APC is set to 0X01, Multi_APC operates, and R_P_CM_Gain_SW is set to 0X01 so that the upper and lower limits of the APC Table can be shifted by adjusting the R_P_Lower_Gain value only.Therefore, the sustain pulse is controllable for the white pattern, even though it was formerly not controllable.
※ Caution: The Super Power Saving Mode screen is darker than that of Standard Mode.
Number of Sustain Pulses
13-30 Samsung Electronics
MEMO
Reference Information
Samsung Electronics 14-1
14. Reference Information14-1 Other issues related to other products
Problem Descriptions
A fixed screen can causepermanent damage to the TVBraun tube.
Braun, PDP and LCD TVs can all be damaged. When a still image is displayed in a sequence,this can leave stains or after-images due to the characteristics of the panel.However, the DLP TV has the advantage that no stains or after-images are left on the screen.The DLP TV has mirror pixels on the DMD panel that project the beam onto the screen, inwhich the mirror is a digital representation of 0s and 1s, leaving no trace of light.The mirror returns to a blank state so that no stains or after-images are left.
Confusion between theANYNET Port and theSERVICE Jack Port
The SAMSUNG SKY500N model has both an ANYNET port and a SERVICE jack port.Because the shape of the ANYNET port on the DLP TV is the same as that of the SERVICEjack port of the SKY500N, it fails to turn the TV off after a connection has been reported.The ANYNET port uses an RS232 port called Phone Jack, and the SERVICE jack port alsouses the RS232 port. However, you must not connect the SERVICE port and the ANYNET port.Check if the port is the ANYNET port or the SERVICE port before connecting the port.Even if the TV cannot be turned on after connecting, the TV will turn on if you disconnect theconnection.
Length of DVI Cable / PC RGBCable
- A too long DVI cable may cause a malfunction or degradation of the visual quality due to an attenuation of the signal. There is no recommendation for the cable length at present.In general, although a cable length of up to 5 meters should work, please check if video is properly displayed on the screen after connecting. If you think the length of the cable is longer than for normal use, check the visual quality of the video on the screen and shorten the length, if necessary.
- This also applies to the PC RGB (D-Sub) cable. When the length of the cable is longer than for normal use, video may not be displayed on the screen. In this case, shorten the cable length.
When a digitally distributed TVuser receives HD-ratedbroadcasts:
The digital distributed TV (Ready Technique) can render HD sources as HD-rated.However, you need to install a set-top box for this purpose. The digital TV alone cannot renderHD broadcasting as HD-rated. Install the formal set-top box for HD broadcasts.
When a digital distributed TVuser selects normal size (4:3) toreceive SD-rated digitabroadcasts:
The digitally distributed TV (Ready Technique) renders any broadcasting service as SD-rated.However, when connected to a set-top box, the digital TV renders HD broadcasts as HD-ratedand renders SD as SD-rated. The screen size is scaled to 4:3.
When a digitally built-in TV userreceives SD (air) broadcasting:
The digitally integrated TV ("built-in" type) renders SD broadcasting as SD-rated.This can be understood easily.Even a high-resolution TV cannot improve a low resolution picture into high quality.In contrast, an SD-rated TV cannot represent HD broadcasting as HD because the resolution ofthe TV is lower than the original.
When selecting a picture size of4:3 in connection with acomputer or a multimediadevice:
The representation capability of SD or HD-rated depend entirely on the TV set. The HD TV canrender HD broadcasting as HD-rated only when it receives HD sources.In the meantime, the HD TV renders SD as SD-rated when it receives SD sources.The picture size has nothing to do with the resolution; TV models like SVP-XXL3HD orSVP-XXL6HD have a size adjustment feature to 16:9, 4:3, Panorama, Zoom1, Zoom2 and AutoWide. This is about the aspect ratio of the top and bottom boundaries to the overall screen andusers can select their preference.
Reference Information
14-2 Samsung Electronics
SD/HD broadcasts and the TV's display capability are related
1. A digital broadcast should be transmitted in wide screen (an aspect ratio of 16:9) HD. If the broadcasting station converts aconventional program created in normal screen (aspect ratio of 4:3) into a digital signal and broadcasts the signal, the left and right of the picture will not be displayed.This symptom also appears in other manufacturer's TV's. The three appliance companies are trying to resolve the problem through the Ministry of Information and Communication.* When watching an SD (normal) broadcast through a Digital (Wide) TV (480P normal broadcast)* When watching an SD (normal) broadcast through a Digital Ready (Wide) TV (Using a set-top-box)* When watching an analog (normal) broadcast through a wide TV
(When watching a broadcast after changing the aspect ratio of the TV from 16:9 (wide screen) to 4:3)
2. When watching a DVD title or video tape in wide screen (21:9) through a wide (16:9) TV, watching video from a computer or game console by selecting the aspect ratio to 4:3, or watching video from a DVD, VCR, computer or game console through a wide TV by selecting the aspect ratio to normal (4:3) or wide (21:9), the left and right, or top and bottom of the picture will not be displayed.This symptom appears in other manufacturer's TV's. The three appliance companies are trying to resolve the problem through the Ministry of Information and Communication.
Changing the Order of the Picture Size for 16:9 Display Devices
Changing the Order of the Picture Size for DTV 1080i/720p Sources
Restrictions
1. When you want to change the picture size in PIP 'ON', you must turn the PIP off before changing the size.However, you can change the main picture size even in PIP ON for products with no restrictions.
2. When the picture size is not Normal (4:3 for 4:3 display devices, 16:9 for 16:9 display devices) and you turn PIP on, the picture size is changed to Normal.However, you can turn PIP on without changing the picture size for products with no restrictions.
3. In the OSD notation for the picture size, 16:9 is represented as "Wide" instead of "16:9" for devices other than with 16:9 displays.Ex: For LCD 15:9 devices, "Wide" is displayed on the OSD instead of "16:9".
4. The picture size can be changed even in the blue screen.However, the picture size should be controlled by the product specifications if the change is impossible due to hardwarerestrictions.
Reference Information
Samsung Electronics 14-3
14-2 Technical Terms
Virtual ChannelIn digital channels, a virtual channel is used. A virtual channelis a function that enables users to watch a channel by selectinga virtual channel number regardless of the region of the user. Run Auto Channel Scan for digital broadcasts, tune in to a UHFchannel number according to the region for terrestrial broad-casts, or tune into a channel number allocated by the cablebroadcasting station for a cable TV network, and then select adisplayed virtual channel.For example, even if you tune into channels UHF 14(MBC),15(KBS1), 16(SBS), 17(KBS2) and 18(EBS) broadcast fromKwanak mountain in Seoul, you can watch the channels usingvirtual channels such as 11-1(MBC), 9-1(KBS1), 6-1(SBS), 7-1(KBS2) and 10-1(EBS) regardless of your region and theactual local channel number. The virtual channel numbers maybe used nationwide, but the virtual channel numbers may varydepending on the local broadcasting stations.(Since the digital channel numbers may vary depending onyour region and can be changed by the broadcasting policy,ask your local broadcasting station or regional cable TV net-work company about the channel numbers.) If the virtual chan-nel numbers are saved and the TV set can receive digitalbroadcasting, you can watch a digital channel by pressing theDTV+ button and pressing the first two digits of the correspond-ing virtual channel number.
Custom Color AdjustmentUsing this function, a user can adjust the color according topersonal preferences (Red, Grass-Color, Sky-Color, Gold-Color, Skin-Color, White, Standard, Custom) without affectingother colors using automatic selection mode or fine adjustmentmode.
Simultaneous ScreenUsing this function, a user can view two video signals fromseparate video sources on a single screen at the same time.For example, you can watch TV and video simultaneously.
Dolby DigitalThis is the digital sound standard developed by the DolbyLaboratory. You can select your preferred digital surroundmode after connecting external speakers.
Digital BroadcastingDigital Broadcasting is a television broadcasting signal digitizedand transmitted according to the United States' terrestrial digitalbroadcast standard, or ATSC.
MonoA type of audio interface that transmits the audio signal througha single channel only. Through a mono interface, it is hard to experience stereophonicsound and the sound is played using only one speaker.
Reception Sensitivity Amplification (LNA)A signal amplification technique that amplifies a weak broad-casting signal by applying satellite technology to provide bettervisual quality even for users in regions where only a weakbroadcasting signal is available. (LNA: Low Noise Amplifier)
Sub WooferA Sub Woofer is a speaker for ultra bass sound output onlywhose frequency is as low as 150Hz. There are two types: anactive type which includes an amplifier, and a passive type,which requires an additional amplifier.
StereoA type of audio interface that transmits audio signal through 2channels.Stereo transmits audio signals for right and left sound so thatyou can experience stereophonic sound, and the sound isplayed through 2 speakers.
Partial Color Blind Person ModeUsing this function, a user can adjust the red, green or bluecolors according to the preferences of the partially color-blindperson so that he or she can view the clearest possible pictureon the screen.
Analog BroadcastingAnalog Broadcasting is a television broadcasting signal trans-mitted according to the NTSC standard.
ANTENNA IN PortThe port connecting the TV aerial via a coaxial cable. It is gen-erally used for watching public broadcast programs.
English CaptionA function that displays English captions or text informationincluded in the broadcast signal or video tape. You can use thisfunction for your English studies by watching AFKN or CCmarked video tapes.
Video/Audio PortsYou may experience poor visual and audio quality when watch-ing a video tape on channel 3 or 4 through the antenna cable.You can experience better visual and audio quality by connect-ing the TV and VCR through the Video/Audio ports. The videoport is in yellow, and the audio ports are in white and red.
Wide ScreenWide Screen refers to a screen that is horizontally longer thana conventional TV screen.While the aspect ratio of a normal TV is 4:3, that of a widescreen is 16:9.
Reference Information
14-4 Samsung Electronics
External InputExternal Input is a connected video device such as a VCR,camcorder, DTV receiver, DVD, etc. as a video source.
Satellite BroadcastingSatellite Broadcasting transmits programs via satellite so that aprogram can be viable in all areas at a high visual and soundquality. Approximately 100 channels including public broadcastchannels are provided. To view a satellite broadcast, you haveto install an additional receiver.
Wire BroadcastingWire Broadcasting refers to movie, entertainment and educa-tional programs transmitted by a broadcasting station within ahotel or school.
Audio MultimixAudio Multimix provides 2 audio languages when foreignmovie, drama, news, etc. are broadcast. You can select and lis-ten to one of the supported languages or you can select andlisten to both languages simultaneously.
After-Image ProtectionUsing this function, a user can configure the options necessaryfor protecting the PDP TV screen.
Power Saving ModeThis function adjusts the screen brightness according to theambient brightness so as to conserve power.
Component PortThe Component Port transmits a separate luminance signal aswell as the green, blue, and red color signal and provides thebest quality of all video connection types.
Cable BroadcastingCable Broadcasting transmits programs via cable instead of viathe air. To view cable broadcasting, you have to subscribe toyour local cable broadcast service provider and install an addi-tional receiver.
TunerA device that enables the selecting of specific channel frequen-cies for TV or radio.
Panorama ScreenThis refers to a screen that corrects the picture distortion dueto a screen size mismatch on the TV.
Progressive ScanProgressive scan displays the entire frame in a single sweepso as to provide clearer and sharper visual quality.
AnynetAnynet is an AV network system that enables an easy-to-useAV interface for users by controlling all connected AV devicesthrough the Anynet menu when the AV devices of SamsungElectronics are connected.
DVD (Digital Versatile Disc)DVD is a large capacity storage media that can store multime-dia content such as video, games, audio applications, etc.using MPEG-2 video compression technology on a CD sizeddisc
DRCThis is a sound quality enhancement function that automaticallycontrols audio output so as to prevent sound quality distortioneven at loud volumes and correct the sound to the speakers sothat you can listen to the sound at the original sound quality.
DVI (Digital Visual Interface) PortA DVI interface is a standard for high definition television con-nectivity. It provides a clear picture on the screen using TMDSwhich minimizes video signal loss.
DVI-D CableA type of DVI connector. Using this cable you can only transmitdigital signals.
DVI-I CableA type of DVI connector. Using this cable you can transmiteither digital or analog signals.
HDMIHDMI (High-Definition Multimedia Interface) is the first industry-supported, uncompressed, all-digital audio/video interface.HDMI provides an interface between any audio/video source,such as a set-top box, DVD player, and A/V receiver and anaudio and/or video monitor, such as a digital television (DTV). HDMI supports standard, enhanced, or high-definition video,plus multi-channel digital audio on a single cable. It transmitsall ATSC HDTV standards and supports 8-channel digital audio,with bandwidth to spare to accommodate future enhancementsand requirements.
PCMPCM (Pulse Coded Modulation): This refers to an uncom-pressed digital signal. Use this for an AV amplifier that does notsupport 5.1 channels when connecting the audio output viaoptical or coaxial cable.
SRS TruSurround XTThis function provides 5.1 channel surround sound using 2channel speakers when inputting a stereo audio signal.
Reference Information
Samsung Electronics 14-5
VESA Plug & PlayThis function enables the automatic recognition of deviceswhen connecting the TV to the computer without additional set-tings.
S-VIDEO IN PortThis is called super video. S-Video is a type of video signalwhich has the video luminance and the color signal separatedin order to provide better visual quality.
VHF/UHFVHF refers to TV channels 2 to 13, and UHF refers to TV chan-nels 14 to 69.
Pixels, ResolutionThe pixels are the number of small dots that make up the TV screen. The resolution represents the number of pixels on a screen.For example, if the resolution of a TV is 852x480, it means the width of the screen consists of 852 pixel columns and the height ofthe screen consists of 480 pixel rows. In this case, the total number of pixels on the screen is 408,960. The more pixels there are,the higher the visual quality that can be achieved because the picture on the screen is displayed with more pixels and thereforewith more detail.
Gradation, Color DepthGradation describes the number of gradual brightness levels. Since all information is represented by binary numbers in a digitalsystem, the Gradation is determined by the number of bits used to represent the brightness levels of a pixel on the TV screen. Forexample, if a pixel is represented by 8 bits, the Gradation is 28 or 256. Since a TV uses the three primary colors of light, R, G andB, the number of possible colors for a pixel is 256 x 256 x 256, 16,777,216, or 16.7 million colors. If 12 bits are used for a pixel, thegradation is 212 or 4096 for a color. Since three colors R, G and B are used, 4096 x 4096 x 4096 or 68.7 billion colors are support-ed per pixel. Since 68.7 billion colors are far more than 16.7 million colors, the picture will be displayed by far more abundant andnatural colors using a 12 bit pixel. That is, since Gradation means the number of brightness levels, color represented by 4096 lev-els appears more natural than color represented by 256 levels.
ContrastThe contrast is the ratio of brightness of the brightest color to the darkest color. The contrast is calculated by dividing the bright-ness of the brightest color by the brightness of the darkest color. For example, if the brightness of the darkest color is 1 and thebrightness of the brightest color is 3000, then the Contrast is 3000/1 or 3000. A higher contrast means that a dark color is dis-played darker and bright color is displayed brighter so that the screen contrast can be easily distinguished. The contrast differsfrom the Gradient which means the number of brightness levels.Therefore, if someone says that a 5000:1 contrast displays a color by 5000 levels, he is confusing Contrast with Gradation.
BrightnessBrightness is the brightness per unit screen area, the unit for brightness is candela (cd). For example, 1000cd/m2 means thebrightness that is measured when 1000 candles are lit within 1 square meters area.
852
480
42SD = 409K Pixels
Reference Information
14-6 Samsung Electronics
Color ReproductivityEach color displayed on the TV screen is implemented by a pixel on color coordinates which have an X and Y axis.For example, when a pixel on the X coordinate 0.65 and the Y coordinate 0.74 is displayed as acolor and it becomes visible on the TV screen. While the possible color coordinate area is verywide, the color coordinate area of the signal broadcast from a broadcast station is smaller thanthat of possible color coordinates. Moreover, a TV provides a smaller color coordinate area thanthat of the signal from the broadcasting station even though the size of the color coordinate areavaries depending on the TV model. In general, Color Reproductivity is used as follows:The Color reproductivity of a TV is a certain % of NTSC. This means the TV displays thatparticular % of the color coordinate area of the NTSC signal broadcast by the broadcastingstation. In general, a CRT TV provides the highest functional color reproductivity.
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