Samsung Hps4253 Plasma

PLASMA DISPLAY TVChassis : D75A(N_42HD)_CadillacModel : HPS4253X/XAA

PLASMA DISPLAY TV FEATURES

NTSC/ATSC Tuner Built-In

13-Bit Processing (549 Billion Colors)

Split Screen & Picture-In-Picture

Samsung DNIe™™(Digital Natural Image engine)

SRS TruSurround XT™™

2 HDMI Input

Energy Saving

SAMSUNG EPG System

SERVICE Manual

HP-S4253

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. May. 2006Printed in KoreaAA82-03550A

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 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-21 3-5 Software Upgrade . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-25 3-6 Replacements & Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-26

Chapter 4 Exploded View & Part List 4-1 HPS4253X/XAA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1

Chapter 5 Electrical Part List 5-1 HPS4253X/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 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-13

Chapter 7 Block Diagram 7-1 Overall Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1 7-2 Partial Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-3

Chapter 8 Wiring Diagram 8-1 Overall Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1 8-2 Partial Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-3

Chapter 9 PCB Diagram 9-1 Overall PCB Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1

Chapter 10 Schematic Diagram 10-1 MAIN POWER BLOCK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-1 10-2 STANDBY MICOM (S3F866B) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-2 10-3 SOUND PROCESSOR (STV8257) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-3 10-4 SOUND AMP (STA323W) & POP SOLUTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-4 10-5 TUNER & SPLITTER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-5 10-6 AV INPUT / OUTPUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-6 10-7 SIDE-AV & ANYNET & SUB FUNCTION I/F . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-7 10-8 PC & HDMI INPUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-8 10-9 VIDEO DECODER & SCALER (SVP-PX) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-9 10-10 SVP-PX DDR MEMORY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-10 10-11 SVP-PX POWER BLOCK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-11 10-12 LBE & PWM CONTROL & PANEL I/F . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-12 10-13 LAKE (I2C & GPIO & USB & UART & INT) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-13 10-14 LAKE (I2S IN/OUT & TS-IN & YCbCr-OUT) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-14 10-15 LAKE (DDR MEMORY) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-15 10-16 LAKE (STATIC MEMORY & DEBUG) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-16 10-17 LAKE (POWER BLOCK) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-17 10-18 MPEG ENCODER (SAA6752) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-18 10-19 TC90103AFG . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-19

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

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


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


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


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 removable speakers, detachthe speakers first before moving the main body.Moving the PDP main body without separating thespeakers may cause the speakers to detach, possiblycausing damage or injury.


MEMO

Product Specification


2. Product Specification2-1 Product Features

Block Specfication Major IC Remark

RF Digital/Analog (DTV Built In) VSB NIM TunerS5H2111X01(Lake)

PDP Module Samsung SDI V5.1 Module 42" HD New ModulePower Samsung electro mechanics SMPS 42" HD SMPS New SMPS

Video

NTSC 3.58, ATSCHDMIDNIe(LBE)Component, PC

LakeSDP54

Sound Speaker : 10W+10WSRS TruSurround XT, Dolby Digital STV8258, STA323W Optical, Coaxial

OutputCabinet Q7 Design New Cabinet

Chip Description- DNVS303HH261A Tuner : ATSC/NTSC VSB NIM Tuner- SVP PX : Component, CVBS, Y/C, HDMI, PC input Video signal processor- SDP54 : The DNIe IC for visual quality improvement. (LBE)- STV8258 : Sound Processing IC- STA323W : Sound AMP IC- S5H2111X01 : MPEG Decoder IC (Lake)- 3F8668 : Generates various control signals required for operating the circuit.

The software is downloaded through PC D-SUB Jack. (Sub Micom)



2-2 Key FeaturesModel HP-S4253

Dimensions Display41.5 (W) x 28 (H) x 3.8 (D) inches (Without Stand)41.5 (W) x 29.8 (H) x 13.4 (D) inches (With Stand)

Weight Display34.2 kg / 75.4 lbs (Without Stand)

40 kg / 88.2 lbs (With Stand)Voltage AC 110-230V ± 10%, 60HzPower Consumption 380 WNumber of Pixels 1024(H) x 768(V)Screen Size 42 inches

ANTENNA inputANT 1 - CABLE IN

ANT 2 - AIR IN※ 75Ω unbalanced

VIDEO input

AV1, AV2S-VIDEO1, S-VIDEO2

COMPONENT1 - 480i/480p/720p/1080iCOMPONENT2 - 480i/480p/720p/1080i

PCHDMI1 (DVI Compatible) - 480p/720p/1080i

HDMI2 - 480p/720p/1080i

AUDIO input

AV1, AV2S-VIDEO1, S-VIDEO2

COMPONENT1 - 480i/480p/720p/1080iCOMPONENT2 - 480i/480p/720p/1080i

PCDVI

AV Output AUDIO (L/R)Speaker Output 10W + 10W (8Ω )

Audio Output OPTICAL(DIGITALOUT)COAXIAL(DIGITALOUT)

ETC DNIe (LBE), Anynet, Color Weakness, My Color Control, SRS TruSurround XT, Dolby Digital,Built-in Speaker/Stand

New Function blue eye

H/W Configuration- DTV Module :S5H2111X01 (Lake, MPEG+CPU 1chip)- Video : SVP PX, SDP54- Sound : STV8258, STA323W- Tuner : UMX-NT-059 (RF-Splitter), DNVS303HH261A (VSB NIM Tuner)- CPU : S3C2800X01, S3F866B, P_PCFM_012

S/W Configuration- Main Program : JS28F640 (Flash memory)- Sub-Micom : S3F866B- DDC : 24C02 x2 (Analog DDC Data, Digital DDC Data)- EEPROM : 24C256 (White balance data and Factory initial data)



Picture- System : Video → ATSC / NTSC- Progressive- Output resolution : 1024 x 768- OSD : Smart user Interface Grade 1- Picture Enhancement : DNIe (LBE)- Still picture, Noise reduction- Comb Filter : 3D comb filter- PIP : Large, Double1, Double2- Picture Size : 16:9, 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 : 10W + 10W- 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- 2 HDMI Input- 2 SPDIF Output (Optical, Coaxial)- 2 RF Input : Cable/Air- 2 AV Inputs- 2 S-Video Inputs

Remocon- TM87B

Power Supply- 110V~, 60Hz

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.



Both screen position and size will vary, depending on the type of PC monitor and its resolution.The 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 N P720 X 400 70.087 31.469 P N

640 X 480

59.940 31.469 N N70.000 35.000 N/P N/P72.809 37.861 N N75.000 37.500 N N

800 X 600

56.250 35.156 N/P N/P60.317 37.879 P P70.000 43.75 N/P N/P72.188 48.077 P P75.000 46.875 P P

1024 X 768

60.004 48.363 N N70.069 56.476 N N72.000 57.672 N/P N/P75.029 60.023 P P

The interlace mode is not supported. The TV operates abnormally if a non-standard video format is selected. The table above conforms to IBM/VESA regulations and is based on using the Analog Input.



2-3 Specifications AnalysisModel HP-S4253 HP-P4261 HP-R4272C

Design

Basic

Display Type PDP TV PDP TV PDP TVBuilt-In Tuner X

Resolution 1024 x 768 1024 x 768 1024 x 768PDP Module Samsung SDI V5.1 Samsung SDI V3 Samsung SDI V4Screen Size 42" 42" 42"Picture ratio 16 : 9 16 : 9 16 : 9

Power Consumption 380 W 330 W 380 W

Dimensions 41.5"(W) x 28"(H) x 3.8"(D)(Without Stand)

41.4"(W) x 29.7"(H) x 3.4"(D)(Without Stand)

41.7"(W) x 29.1"(H) x 3.88"(D)(Without Stand)

Weight 75.4 Lbs (Without Stand) 79 Lbs (Without Stand) 87.7 Lbs (Without Stand)

Picture

Brightness 1,200 Cd/m2 1,000 Cd/m2 1,500 Cd/m2Contrast Ratio 7,000 : 1 3,000 : 1 10,000 : 1

Picture Enhacer LBE DNIe 3 DNIe LiteComb Filter

Audio

Equalizer 5 Band 5 Band 5 BandAuto Volume Control

Surround Sound SRS TruSurround XT Dolby Digital(AC3) SRS TruSurround XT SRS TruSurround XT Dolby DigitalSpeaker Output 10W + 10W 15W + 15W 15W + 15W

Features

PIP

Double Window

Caption

Still Image

EPG X

My Color Control

Color Weakness

Energy Saving X

Anynet X X

Connections

Antenna 2 (Cable/Air) 1 2 (Cable/Air)AV Input 2 3 2S-Video 2 2 2

Component 2 2 2PC(D-SUB) 1 1 1

DVI X 1 XHDMI 2 X 1

Sub Woofer X 1 XOptical 1 X 1Coaxial 1 X 1

ETCSpeaker/Stand Built-in Stand Built-in Speaker/Stand Built-in Speaker/Stand

FCC Class Class B Class B Class B



2-4 Accessories Accessories Item Item code Remark

Supp

liedA

cces

sorie

s

User Manual BN68-00991B

Samsung Service center

Remote ControlAAA Batteries

BN59-00511A4301-000103

Cloth-Clean BN63-01798A

Power Cord 3903-000144

Acce

ssor

iestha

tcan

bepu

rchas

edad

dition

ally

S-VIDEO Cable BN39-00149A

Internal shopping mall

HDMI Cable BN39-00641A

HDMI/DVI cable BN39-00643A

Component Cables (RCA) BN39-00279A

PC Cable BN39-00115A

PC Audio Cable BN39-00061B

Optical Cable -

Coaxial Cable -

Antenna Cable -

Alignment & Adjustment


3. Alignment & Adjustment3-1 Service Instruction Before Performing After Sales Services

1. Check if the measurement and test equipment is working properly.

2. Secure sufficient work space for disassembling the product.

3. Prepare a soft pad for disassembling the product.

1. General RemoteTo Enter : Power Off → MUTE → 1 → 8 → 2 → Power On

(Interval between key strokes : less than 3 sec)To Exit : Power Off → On

2. Factory RemoteTo Enter : Power On → INFO → FACTORY Key (Interval between key strokes : less than 3 sec)To Exit : Power Off → On

Press the Factory key twice with a key stroke interval of more than 1 second (Pressing once enters Aging Mode)

3. Settings when entering Factory mode- Sharp Screen (Dynamic), Color Tone (Cool1), Factory (Dynamic CE Off)

4. Adjustment Procedures- Channel Key : Select an item.- Volume Key : Adjust the value up or down.- MENU Key : Save the changes to the EEPROM and return to the higher-level mode.- Using the Numeric (0~9) keys, you can select a channel.- Using the SOURCE key, you can switch AV modes.

5. Initial SERVICE MODE DISPLAY State

※ The version of the firmware displayed at the bottom of the screen may differ and the firmware is subject to change for the improvement of product functions.

※ If you have adjusted the settings in Service Mode, you have to reset the product.



3-2 How to Access Service Mode

NTSC-RFCalibration ChecksumOption Byte KS1406White Balance KS1409W/B Movie Dynamic ContrastSVP-PX EEPROM Access CountLBE PDP OptionSOUND(STV825X) RESETSub Micom Download Vol=8, B/S=On, 10W, US_Mesh

T-CADINUS0H-2001 Apr 5 2006T-CADINUS5-0061 [Sec :20]



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

ITEM DataAV Calibration Off → OnComp Calibration Off → OnPC Calibration Off → OnHDMI Calibration Off → On

2. Option ByteITEM Data Range

Caption Level 16 0 ~ 1Watchdog enable 1Spread Sptectrum >> 0 ~ 1Panel Option 0 0 ~ 1PWM Dimming 0 0 ~ 1NIM Version KS1409 0 ~ 1SIDE AV OnRS-232 JACK ANYNETGamma PDP OFF/PDPACR[PDP] ACR OFF/ACRHSCB[PDP] HSCB BASE/HSCBPanel Display Time XX HrMute Time[RF] 2CH Memory SAMEX None/Suwon/SAMEX

ITEM Range RF/AV/S-Video Component PC HDMI/DTV Sub Brightness (LBE) 0 ~ 255 128 128 128 128R-Offset 0 ~ 1023 512 512 512 512G-Offset 0 ~ 1023 512 512 512 512

B-offset 0 ~ 1023(-512 ~ 511) 512 512 512 512

Sub Contrast (LBE) 0 ~ 255 128 128 128 128R-Gain 0 ~ 1023 512 512 512 512G-Gain 0 ~ 1023 512 512 512 512B-Gain 0 ~ 1023 512 512 512 512



4. W/B Movie

The Common Changes when Entering into the Movie Mode (42SD/42HD/50HD All mode)1. LBE INPUT_RGBOFFSET : 5122. LBE COLOR_GAIN : 1203. SVP-PX Sharpness Peakth1 : 36

42SD Movie Mode Option Item** 42SD Movie Skin Value **1. RF : x-1560, y-16302. AV : x-1560, y-16303. 480i : x-1550, y-16204. 480p : x-1580, y-16205. 720p/1080i : x-1690, y-1630

42HD Movie Mode Option Item1. RF : x-1490, y-16552. AV : x-1500, y-17003. 480i : x-1570, y-16554. 480p : x-1570, y-16555. 720p/1080i : The same as Dynamic

50HD Movie Mode Option Item1. RF/Video : x-1470, y-16602. Comp 480i : x-1580, y-16403. Comp 480p : x-1680, y-17004. Comp 720p : The same as Dynamic5. Comp 1080i : x-1760, y-1660



ITEM 42SD RF/AV 42HD RF/AV 50HD RF/AVW/B Movie On/Off Off Off OffMode Dynamic Dynamic DynamicColor Tone Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2W1_RGain 17 22 16W1_BGain -29 -30 -31W1_ROffset 2 -3 -2W1_BOffset -2 1 -2W2_RGain 27 27 22W2_BGain -50 -48 -43W2_ROffset -1 -3 -1W2_BOffset 1 2 -2NOR_RGain 2 19 6NOR_BGain -21 -12 -10NOR_ROffset 3 -6 -1NOR_BOffset 0 0 -4C2_RGain -20 2 -7C2_BGain 14 16 21C2_ROffset 9 -3 0C2_BOffset 1 0 -5Movie Contrast 55 55 55 55 55 55 55 55 55 55 55 55Movie Bright 55 55 55 55 55 55 55 55 55 55 55 55Movie Color 20 20 20 20 20 20 20 20 20 20 20 20Movie Sharpness 30 30 30 30 30 30 30 30 30 30 30 30



ITEM 42SD HDMI/DTV 42HD HDMI/DTV 50HD HDMI/DTVW/B Movie On/Off Off Off OffMode Dynamic Dynamic DynamicColor Tone Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2W1_RGain 21 8 20W1_BGain -39 -28 -27W1_ROffset -1 -1 0W1_BOffset 5 0 0W2_RGain 27 10 23W2_BGain -50 -45 -40W2_ROffset 0 1 4W2_BOffset 3 1 0NOR_RGain 9 3 6NOR_BGain -15 -10 -16NOR_ROffset -1 -1 1NOR_BOffset 1 -1 2C2_RGain -5 -4 -9C2_BGain 9 5 14C2_ROffset -2 -2 2C2_BOffset 0 3 -1Movie Contrast 55 55 55 55 55 55 55 55 55 55 55 55Movie Bright 55 55 55 55 55 55 55 55 55 55 55 55Movie Color 20 20 20 20 20 20 20 20 20 20 20 20Movie Sharpness 30 30 30 30 30 30 30 30 30 30 30 30



ITEM 42SD Component 42HD Component 50HD ComponentW/B Movie On/Off Off Off OffMode Dynamic Dynamic DynamicColor Tone Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2W1_RGain 19 8 15W1_BGain -40 -29 -33W1_ROffset 0 0 2W1_BOffset 7 0 2W2_RGain 26 13 20W2_BGain -48 -46 -46W2_ROffset 1 1 1W2_BOffset 3 1 1NOR_RGain 10 4 4NOR_BGain -16 -12 -18NOR_ROffset -1 -1 3NOR_BOffset 1 -1 2C2_RGain -5 -2 -12C2_BGain 12 5 5C2_ROffset -2 -2 4C2_BOffset 1 1 4Movie Contrast 55 55 55 55 55 55 55 55 55 55 55 55Movie Bright 55 55 55 55 55 55 55 55 55 55 55 55Movie Color 20 20 20 20 20 20 20 20 20 20 20 20Movie Sharpness 30 30 30 30 30 30 30 30 30 30 30 30



ITEM 42SD RF/AV 42HD RF/AV 50HD RF/AVW/B Movie On/Off Off Off OffMode Movie Movie MovieColor Tone Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2W1_RGain

The same asDynamic

10

The same asDynamic

21

The same asDynamic

13W1_BGain -51 -48 -46W1_ROffset 9 3 5W1_BOffset 10 6 4W2_RGain 30 0 21W2_BGain -82 -112 -84W2_ROffset 2 10 5W2_BOffset -4 11 3NOR_RGainNOR_BGainNOR_ROffsetNOR_BOffsetC2_RGainC2_BGainC2_ROffsetC2_BOffsetMovie Contrast 55 55 55 55 55 55 55 55 55 55 55 55Movie Bright 55 55 55 55 55 55 55 55 55 55 55 55Movie Color 20 20 20 20 20 20 20 20 20 20 20 20Movie Sharpness 30 30 30 30 30 30 30 30 30 30 30 30



ITEM 42SD HDMI/DTV 42HD HDMI/DTV 50HD HDMI/DTVW/B Movie On/Off Off Off OffMode Movie Movie MovieColor Tone Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2W1_RGain

The same asDynamic

11

The same asDynamic

29

The same asDynamic

36W1_BGain -55 -35 -41W1_ROffset 6 -10 -12W1_BOffset 7 -3 -1W2_RGain 51 35 23W2_BGain -83 -86 -80W2_ROffset -2 -10 3W2_BOffset 8 1 1NOR_RGainNOR_BGainNOR_ROffsetNOR_BOffsetC2_RGainC2_BGainC2_ROffsetC2_BOffsetMovie Contrast 55 55 55 55 55 55 55 55 55 55 55 55Movie Bright 55 55 55 55 55 55 55 55 55 55 55 55Movie Color 20 20 20 20 20 20 20 20 20 20 20 20Movie Sharpness 30 30 30 30 30 30 30 30 30 30 30 30



ITEM 42SD Component 42HD Component 50HD ComponentW/B Movie On/Off Off Off OffMode Movie Movie MovieColor Tone Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2W1_RGain

The same asDynamic

21

The same asDynamic

23

The same asDynamic

12W1_BGain -49 -39 -48W1_ROffset 3 -2 5W1_BOffset 9 2 3W2_RGain 31 15 22W2_BGain -86 -69 -88W2_ROffset 5 -8 3W2_BOffset 7 -3 3NOR_RGainNOR_BGainNOR_ROffsetNOR_BOffsetC2_RGainC2_BGainC2_ROffsetC2_BOffsetMovie Contrast 55 55 55 55 55 55 55 55 55 55 55 55Movie Bright 55 55 55 55 55 55 55 55 55 55 55 55Movie Color 20 20 20 20 20 20 20 20 20 20 20 20Movie Sharpness 30 30 30 30 30 30 30 30 30 30 30 30



ITEM 42SD PC 42HD PC 50HD PCW/B Movie On/Off Off Off OffMode Dynamic / Movie Dynamic / Movie Dynamic / MovieColor Tone Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2 Cool2 Normal Warm1 Warm2W1_RGain 21 8 20W1_BGain -39 -28 -27W1_ROffset -1 -1 0W1_BOffset 5 0 0W2_RGain 27 10 23W2_BGain -50 -45 -40W2_ROffset 0 1 4W2_BOffset 3 1 0NOR_RGain 9 3 6NOR_BGain -15 -10 -16NOR_ROffset -1 -1 1NOR_BOffset 1 -1 2C2_RGain -5 -4 -9C2_BGain 9 5 14C2_ROffset -2 -2 2C2_BOffset 0 3 -1Movie Contrast 55 55 55 55 55 55 55 55 55 55 55 55Movie Bright 55 55 55 55 55 55 55 55 55 55 55 55Movie Color 20 20 20 20 20 20 20 20 20 20 20 20Movie Sharpness 30 30 30 30 30 30 30 30 30 30 30 30



5. SVP-EX

① Sharpness

ITEM RangeRF AV HDMI/DTV

42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HDH2gain 0 ~ 16 8 16 10 10 10 16 10 16 20H4gain 0 ~ 16 8 16 10 10 16 16 10 16 20V2gain 0 ~ 16 10 16 10 10 10 16 10 16 20V4gain 0 ~ 16 10 16 10 10 16 16 10 20 20Sr2gain 0 ~ 16 0 4 2 0 2 2 0 2 2Sr4gain 0 ~ 16 2 4 2 2 2 2 2 4 2Sl2gain 0 ~ 16 0 4 2 0 2 2 0 2 2Sl4gain 0 ~ 16 2 4 2 2 2 2 2 4 2Peakth1 0 ~ 255 4 4 4 4 4 4 4 4 4Peakth2 0 ~ 255 47 47 47 47 47 47 47 47 47Peakth3 0 ~ 255 63 63 63 63 63 63 63 63 63

ITEM RangeComponent

480i 480p 720p 1080i42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD

H2gain 0 ~ 16 10 10 20 10 10 20 8 10 20 8 10 20H4gain 0 ~ 16 10 16 20 10 16 20 8 16 20 8 16 20V2gain 0 ~ 16 10 10 20 10 10 20 10 10 20 10 10 20V4gain 0 ~ 16 10 16 20 10 16 20 10 16 20 10 16 20Sr2gain 0 ~ 16 0 2 2 0 2 2 0 2 2 0 2 2Sr4gain 0 ~ 16 2 2 2 2 2 2 2 2 2 2 2 2Sl2gain 0 ~ 16 0 2 2 0 2 2 0 2 2 0 2 2Sl4gain 0 ~ 16 2 2 2 2 2 2 2 2 2 2 2 2Peakth1 0 ~ 255 4 4 4 4 4 4 4 4 4 4 4 4Peakth2 0 ~ 255 47 47 47 47 47 47 47 47 47 47 47 47Peakth3 0 ~ 255 63 63 63 63 63 63 63 63 63 63 63 63



③ Color ManageITEM Range RF AV/S-Video HDMI/DTV Component PC

DSM_Skin_Direct 0 ~ 16 0 0 0 0 0DSM_Skin_Enhance 0 ~ 16 0 0 0 0 0DSM_Green_Stretch 0 ~ 16 0 0 0 0 0DSM_Blue_Stretch 0 ~ 16 0 0 0 0 0Ss_Skin_Direct 0 ~ 16 0 0 0 0 0Ss_Skin_Enhance 0 ~ 16 0 0 0 0 0Ss_Green_Stretch 0 ~ 16 0 0 0 0 0Ss_Blue_Stretch 0 ~ 16 0 0 0 0 0

④ UV DelayITEM Range RF/AV/S-Video HDMI/DTV Component PC

U Delay 0 ~ 16 16 16 16 16V Delay 0 ~ 16 16 16 16 16

ITEM Range RF AVdB0_Peaking_th1 0 ~ 255 2 2dB0_Vpeaking_th1 0 ~ 255 4 4db1_NoiseAmount 0 ~ 255 10 10dB1_Peaking_th1 0 ~ 255 12 12dB1_Vpeaking_th1 0 ~ 255 24 24dB2_NoiseAmount 0 ~ 255 25 20dB2_Peaking_th1 0 ~ 255 32 32dB2_Vpeaking_th2 0 ~ 255 32 32dB3_NoiseAmount 0 ~ 255 40 30dB3_Peaking_th1 0 ~ 255 128 128dB3_Vpeaking_th1 0 ~ 255 80 80

② LNA PLUS



⑤ PGAITEM Range RF/AV/S-Video HDMI/DTV Component PC

TCD3_Contrast 0 ~ 255 113 126 126 126

TCD3_Bright 0 ~ 255 48 40 40 40

TCD3_YC_Delay 0 ~ 255 0 0 0 0

ANALOG_Y_Offset 0 ~ 255 66 66 81 22

ANALOG_PB_Offset 0 ~ 255 128 128 128 25

ANALOG_PR_Offset 0 ~ 255 128 128 128 22

ANALOG_Y_Gain 0 ~ 255 194 194 190 214

ANALOG_PB_Gain 0 ~ 255 128 128 128 128

ANALOG_PR_Gain 0 ~ 255 128 128 128 128

BlackLevel 0 ~ 255 0 0 0 0

Bright40 0 ~ 255 25 25 25 25

CAGC_Target_NotUse 0 ~ 255 170 170 170 170

User Color 0 ~ 255 127 127 127 127



⑥ Calibration TargetITEM Range Data

1st_AV_Low 0x0C1st_AV_High 0xDC1st_AV_Delta 0x041st_COMP_Low 0x101st_COMP_High 0xEB1st_COMP_Delta 0x041st_PC_Low 0x041st_PC_High 0xF81st_PC_Delta 0x04NoneNoneNone2nd_AV_Low 0x022nd_AV_High 0xE92nd_AV_Delta 0x102nd_COMP_Low 0x002nd_COMP_High 0xEB2nd_COMP_Delta 0x102nd_PC_Low 0x002nd_PC_High 0xEB2nd_PC_Delta 0x102nd_HDMI_Low 0x002nd_HDMI_High 0xEB2nd_HDMI_Delta 0x10

⑦ CLK_AITEM Range Data

CLK_A 16

⑧ CLK_BITEM Range Data

CLK_B 96



6. LBE (Dnie)

ITEM RangeRF AV/S-Video HDMI/DTV

42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HDPATT_SEL 0 ~ 25 0 0 0 0 0 0 0 0 0BLACK_TILT 0 ~ 255 130 120 140 130 120 140 130 140 140BLACK_GAIN_MAX 0 ~ 1023 400 400 400 400 400 400 380 380 400B_RATIO 120 120 140 130 120 140 100 150 150LOWER_FUNC 3 3 4 3 3 4 3 6 5UPPER_FUNC 3 4 5 3 5 5 3 8 5SKIN_EN 0 ~ 1 1 1 1 1 1 1 1 1 1SKIN_T_X 0 ~ 4095 1790 1750 1790 1770 1750 1790 1850 1780 1820SKIN_T_Y 0 ~ 4095 1660 1700 1660 1690 1700 1690 1630 1670 1650WHITE_EN 0 ~ 1 0 0 0 0 0 0 0 0 0WHITE_T_X 0 ~ 4095 1281 1281 1281 1281 1281 1281 1281 1281 1281WHITE_T_Y 0 ~ 4095 1348 1348 1348 1348 1348 1348 1348 1348 1348COLOR_GAIN 0 ~ 255 145 145 145 145 140 150 150 145 140INPUT_RGBGAIN 512 512 512 512 512 512 512 512 512INPUT_RGBOFFSET 0 ~ 1023 460 460 460 450 450 450 470 470 470

ITEM RangeComponent

480i 480p 720p 1080i42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD

PATT_SEL 0 ~ 25 0 0 0 0 0 0 0 0 0 0 0 0BLACK_TILT 0 ~ 255 120 120 140 120 130 140 120 120 140 130 140 140BLACK_GAIN_MAX 0 ~ 1023 380 400 400 380 380 380 380 380 380 380 380 380B_RATIO 100 120 140 130 150 140 100 100 140 100 150 140LOWER_FUNC 3 3 3 4 4 5 3 3 5 3 3 4UPPER_FUNC 4 5 5 3 5 5 3 5 5 3 5 5SKIN_EN 0 ~ 1 1 1 1 1 1 1 1 1 1 1 1 1SKIN_T_X 0 ~ 4095 1770 1775 1800 1760 1745 1760 1790 1760 1790 1790 1760 1790SKIN_T_Y 0 ~ 4095 1680 1740 1710 1710 1760 1740 1630 1670 1650 1630 1670 1650WHITE_EN 0 ~ 1 0 0 0 0 0 0 0 0 0 00 0 0WHITE_T_X 0 ~ 4095 1281 1281 1281 1281 1281 1281 1281 1281 1281 1281 1281 1281WHITE_T_Y 0 ~ 4095 1348 1348 1348 1348 1348 1348 1348 1348 1348 1348 1348 1348COLOR_GAIN 0 ~ 255 150 150 145 145 145 140 150 145 150 150 160 150INPUT_RGBGAIN 512 512 512 512 512 512 512 512 512 512 512 512INPUT_RGBOFFSET 0 ~ 1023 450 450 450 500 500 500 470 470 470 470 470 470



ITEM Range DataCarrier Mute 1Stereo Pilot High 35Stereo Pilot Low 16SAP Pilot High 128SAP Pilot Low 96SQTH 112Audio Delay(Analog) 100Audio Delay(Digital) 60Melody Speak Volume 8(P7/Q7), 5(C7/E7)Melody HP Volume 3

ITEM Range DataAGC_REF[AIR] 0x50CR_F_GAIN[AIR] 0xD0BCR_L_GAIN[AIR] 0x24EQ_STEP[AIR] 0x0BPILOT_GAIN[AIR] 0x01CR_F2_GAIN[AIR] 0x1612AGC_REF[CABLE] 0x50CR_F_GAIN[CABLE] 0xD0BCR_L_GAIN[CABLE] 0x24EQ_STEP[CABLE] 0x0BPILOT_GAIN[CABLE] 0x01CR_F2_GAIN[CABLE] 0x1612PACKET_ERR_THR 0x08

7. SOUND(STV825X)

8. Sub Micom Download

9. Checksum

10. KS1406



ITEM Range DataRF_AGC_TOP 0x8ACR_PHASE_GAIN 0x4ACR_FREQ_GAIN 0x1010PILOT_GAIN 0x01AGC_REF 0x50EQ_CTRL 0x30EPTL_COEFF 0x23PTL_STEP 0x5C0

ITEM Range DataPixel Shift Test 0

Logic D/L off

Bright Sensor 0 ~ 1 1Sound Output 10W/15W 10WHDMI Input 1 ~ 2 2Control Key Lock 0 ~ 1 0Panel Pattern Select 0 ~ 64 0Panel Type read 0xXXPanel Inch read xxResolution read XX

Panel Version 0x3

Logic SW Version read XXYYZZFactory Update off/on offFactory Data Type BASE/MRT/Non_MRT BASE/MRT/Non_MRT

Panel Option PDP_42

11. KS1409

ITEM Range DataDynamic CE On

Dynamic ASL Gain 42SD:Off,42HD/50HD:On On/Off

LBE Y_MEAN READ

12. Dynamic Contrast

13. EEPROM Access Count

14. PDP Option



① PDP Cool2

ITEM RangeRF/AV HDMI/DTV Component PC

42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD[Cool2]R Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Cool2]G Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Cool2]B Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Cool2]R Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Cool2]G Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Cool2]B Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128

② PDP Cool1


42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD[Cool1]R Cutoff 0 ~ 255 128 128 125 128 128 128 126 128 128 128 128 128[Cool1]G Cutoff 0 ~ 255 128 128 125 128 128 128 128 128 128 128 128 128[Cool1]B Cutoff 0 ~ 255 128 128 140 128 128 128 128 120 128 128 128 128[Cool1]R Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Cool1]G Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Cool1]B Gain 0 ~ 255 129 132 128 128 128 128 125 128 125 128 128 128

③ PDP Normal


42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD[Normal]R Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Normal]G Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Normal]B Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Normal]R Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Normal]G Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Normal]B Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128

④ PDP Warm1


42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD[Warm1]R Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm1]G Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm1]B Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm1]R Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm1]G Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm1]B Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128



⑤ PDP Warm2


42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD 42SD 42HD 50HD[Warm2]R Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm2]G Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm2]B Cutoff 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm2]R Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm2]G Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128[Warm2]B Gain 0 ~ 255 128 128 128 128 128 128 128 128 128 128 128 128

- The united code option contentsOption Position Option

Vol Melody Speak Volume option SOUND(STV825X) P7/Q7 : 8, C7/E7 : 5B/S Bright Sensor option PDP Option P7/Q7/C7 : On, E7 : Off10W Sound Output option PDP Option P7 : 15W, Q7/C7/E7 : 10W

KR_MRT Factory Data Type option PDP Option US_Mesh/KR_MRT/KR_Mesh/US_Spu



3-4 Service AdjustmentYou must perform Calibration in the Lattice Pattern before adjusting the White Balance

3-4-1 Color Calibration

Adjust spec.1. Source : HDMI2. Setting Mode : 1280*720@60Hz3. Pattern : Pattern #24 (Chess Pattern)

4. Use Equipment : CA210 & Master MSPG925 Generator

※ Use other equipment only after comparing the result with that of the Master equipment.

( Chess Pattern )

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 Perform in 720p B&W Pattern #24 Lattice<Table 1>



Method of Color Calibration (AV)1) Apply the NTSC Lattice (N0. 3) pattern signal to the AV IN 1 port2) Press the Source key to switch to "AV1" mode3) Enter Service mode4) Select the "Calibration" menu5) 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) You can see the change of the "AV Calibration" status from Failure to Success.

Method of Color Calibration (Component)1) Apply the 720p Lattice (N0. 6) pattern signal to the Component IN 1 port2) Press the Source key to switch to "Component1" mode3) Enter Service mode4) Select the "Calibration" menu5) Select the "Comp Calibration" menu.6) In "Comp Calibration Off" status, press the "" key to perform Calibration.7) When Calibration is complete, it returns to the high-level menu. 8) You can see the change of the "Comp Calibration" status from Failure to Success.

Method of Color Calibration (PC)1) Apply the VESA XGA Lattice (N0. 21) pattern signal to the PC IN port2) Press the Source key to switch to "PC" mode3) Enter Service mode4) Select the "Calibration" menu5) Select the "PC Calibration" menu.6) In "PC Calibration Off" status, press the "" key to perform Calibration.7) When Calibration is complete, it returns to the high-level menu. 8) You can see the change of the "PC Calibration" status from Failure to Success.

Method of Color Calibration (HDMI)1) Apply the 720p Lattice (N0. 6) pattern signal to the HDMI1/DVI IN port2) Press the Source key to switch to "HDMI1" mode3) Enter Service mode4) Select the "Calibration" menu5) Select the "HDMI Calibration" menu.6) In "HDMI Calibration Off" status, press the "" key to perform Calibration.7) When Calibration is complete, it returns to the high-level menu. 8) You can see the change of the "HDMI Calibration" status from Failure to Success.



3-4-2 White Balance

Adjust spec.1. Source : HDMI2. Setting Mode : 1280*720@60Hz3. Pattern : Pattern #924. Use Equipment : MIK-7256 (MSPG925L)

5. Work order① Connect HDMI (DVI) output terminal of MIK-7256 (MSPG925L) to the HDMI input in main set② Set the input to HDMI mode③ Enter the White Balance menu of service mode④ Contact CA-210 sensor to glass filter

⑤ Adjust the low light- Adjust Sub-Bright (LBE) to set the 'Y' value- Adjust R-Offset ('x') and B-Offset ('y') to the color coordinates.* Do not adjust G-Offset data

⑥ Adjust the high light. - Adjust Sub-Contrast (LBE) to set the 'Y' value- Adjust R-Gain ('x') and B-Gain ('y') to the color coordinates.* Do not adjust the G-gain data

( SAMSUNG WHITE BALANCE Adjustment PATTERN with FPD )

( Fixed Position of CA210 Probe )



Input mode(CA-210)

x y Y(L) T(K), MPCD

CVBS(NTSC-J)

H/L 278± 3 285± 3 22fL(20fL↑ ) 10,500 (± 0)L/L 278± 5 285± 5 1.0fL± 0.3fL 10,500 (± 0)

COMP(720P)

H/L 278± 3 285± 3 23fL(20fL↑ ) 10,500 (± 0)L/L 278± 5 285± 5 1.3fL± 0.2fL 10,500 (± 0)

HDMI(720P)

H/L 278± 3 285± 3 23fL(20fL↑ ) 10,500 (± 0)L/L 278± 5 285± 5 1.2fL± 0.1fL 10,500 (± 0)

PC (XGA)(1024*768)

H/L 279± 5 294± 5 21fL(20fL↑ ) -

L/L 287± 5 297± 5 0.8fL± 0.2fL -



3-5 Software Upgrade

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

3-5-1 USB Download Method

1. USB Memory Stick Path Save as CADILLAC/USA/T-CADINUS0H/appl.rom

* Some of the USB Memory Sticks can be incompatible.

2. USB Download 1) Insert the USB Memory Stick to the rear SERVICE 1 port in Stand-by mode.2) Turn the power on. 3) The blank screen is displayed for about one minute. 4) The Power is on again and picture appears. 5) Disconnect the power cord and connect again, then check the software version.

* Do not unplug the power cord in the step 3.



3-6 Replacements & Calibration

Replaced Items Code No. Check Items

ASSY PCB MISC-MAIN BN94-00859B 1) Auto Program2) White Balance Adjust

ASSY PCB P-SMPS(MAIN) BN96-03252A Vs, Va voltage check and adjustASSY PCB P-SMPS(DC DC) BN96-01856A Vscan, Vset, Ve voltage check and adjustASSY PDP P-LOGIC BOARD BN96-03355A

Not adjustment

ASSY PDP P-X MAIN BOARD BN96-03350AASSY PDP P-Y MAIN BOARD BN96-03351AASSY PDP P-Y MAIN SCAN BOARD BN96-03352AASSY PDP P-ADDRESS E BUFF BOARD BN96-03353AASSY PDP P-ADDRESS F BUFF BOARD BN96-03354A

* Check items listed after changing each

※ The ASS'Y code can be changed, see "5 Chapter. Electrical Part List."

※ When replacing the SMPS (DC DC) or PDP panel, you have to check the voltage printed on the panel sticker and adjust it.



Value Board AdjustmentVs 200

SMPS-MAINVa 65

Vset 195SMPS-DC/DCVe 120

Vscan -190

VoltageLabel

SMPS-MAIN SMPS-DC/DC

2. A point of adjusting SMPS-MAIN voltage.

Vs Test point

Vs Adjustment

Va Test point

Va Adjustment

3-6-1 Voltage Adjustment

1. After replacing the SMPS or PDP panel, you must adjust the voltage referring to the voltage label printed on the panel.(If you do not adjust the voltage, an abnormal discharge symptom may appear.)



3. A point of adjusting SMPS-DC/DC.

* Use base chassis of PDP panel as GND point.

Test PointVset (Middle)Vscan (Right)

Ve Test Point

Vscan/VsetAdjustment

Point

VEAdjustment

Point



3-6-2 Y-RR and Y-FR controls

Rising ramp

variable resistor

Falling ramp

variable resistor

60usec

80usec

Test Point

Set the main reset (rising : 60usec, falling : 80usec) by change the value of variable resistor.


MEMO

4. Exploded View & Part List

Exploded View & Part List


T0456

T0044

M0107 T0079

T0448

M0013

M0111

M0115

M0013

M0006

M0150

M0020

T0074 T0268

M0112

T0056

T0023

T0061

T0023

T0059

T0603

CIS7

M0145

T0175

T0003

Yon can search for the updated part code through ITSELF web site.URL:http://itself.sec.samsung.co.kr

4-1 HPS4253X/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 BN63-02383A COVER-REAR 42C7,PCM,0.5 1 S.N.AM0013 BN96-03154A ASSY STAND P-BASE Q7,HGI T3.0,BK23,Round 1 S.AM0013 BN96-03160A ASSY COVER P-REAR 42C7,P7,PCM T0.5 1 S.AM0020 BN96-03075E ASSY BOARD P-SIDE AV CADILLAC,SJ06-01-00 1 S.AM0107 BN61-02315B BRACKET-PCB 42C7,SECC,0.8 1 S.N.AM0111 BN63-02564A COVER-STAND Q7,ABS,HB,SF0507,BK23 1 S.N.AM0112 BN63-02374A COVER-FRONT 42Q7/P7,ABS,T3.5,HB,BK23 1 S.N.AM0115 BN61-02338A BRACKET-STAND 42C7,SECC,3.0 1 S.N.AM0145 BN96-02784B ASSY BOARD P-FUNCTION CADILLAC,SJ06-01-0 1 S.AM0150 BN96-03947A ASSY BRACKET P-FILTER BOTTOM 42Q7/P7,AL, 1 S.N.AT0003 BN96-03951A ASSY COVER P-FRONT 42Q7(HQ),ABS,HB,BK23, 1 S.N.AT0023 BN96-03173A ASSY COVER P-KNOB POWER 42P7,ABS 1 S.N.AT0023 BN64-00459A KNOB POWER 42P7,PC,Violet 1 S.N.AT0044 BN96-03288A ASSY PDP MODULE P M1,42HD,V5.1,1024*768, 1 S.AT0056 BN63-02386A COVER-DECORATION 42Q7,PC SHEET,T0.5,Silv 1 S.N.AT0059 BN64-00461A INDICATOR LED 42P7,PMMA 1 S.N.AT0061 BN64-00462A WINDOW-REMOCON 42P7,ACRYL,5% 1 S.N.AT0074 BN59-00511A REMOCON Bordeaux,TM87B,SAMSUNG 28P+EEPRO 1 S.AT0079 BN94-00859B ASSY PCB MISC-MAIN HP-S4253,CADILLAC,BN4 1 S.AT0175 BN96-03392A ASSY SPEAKER P 8ohm,Q7,10W,2Way,2speaker 1 S.AT0268 3903-000144 CBF-POWER CORD DT,US,BP3/Y,U(IEC C13-RA) 1 S.AT0448 BN96-03144A ASSY BRACKET P-TERMINAL 42C7,P7,SECC T0. 1 S.N.AT0456 BN67-00172A GLASS-FILTER EMI 42" Q7, C7 No B/C,Mesh, 1 S.AT0603 BN64-00460A KNOB-DECORATION POWER 42P7,ABS,HB,AL 1 S.N.A

5-1Samsung Electronics

Electrical Part List

5. Electrical Part List5-1 HPS4253X/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 BN96-03154A ASSY STAND P-BASE Q7,HGI T3.0,BK23,Round 1 S.AM0013 BN96-03160A ASSY COVER P-REAR 42C7,P7,PCM T0.5 1 S.AM0018 BN97-00755A ASSY MICOM T-CADINUS5-1002,S3F866B,20060 1 S.AM2893 BN39-00632B LEAD CONNECTOR PS-42E7HX/XEC,UL1617#22,U 1 S.AM2893 BN39-00667C LEAD CONNECTOR-LVDS D71C/SPD-42S5HD,UL20 1 S.AM2893 BP39-00053D LEAD CONNECTOR SCHUBERT,UL1007#26,10P,15 1 S.AT0003 BN96-03951A ASSY COVER P-FRONT 42Q7(HQ),ABS,HB,BK23, 1 S.AT0044 BN96-03288A ASSY PDP MODULE P M1,42HD,V5.1,1024*768, 1 S.AT0074 BN59-00511A REMOCON Bordeaux,TM87B,SAMSUNG 1 S.AT0079 BN94-00859B ASSY PCB MISC-MAIN HP-S4253,CADILLAC,BN4 1 S.AT0159 BN96-01856A ASSY PCB P-SMPS SPD-50P5HD(DC_DC),200Vin 1 S.AT0159 BN96-03252A ASSY PCB P-SMPS HPS4253,100V-120V,245*37 1 S.AT0175 BN96-03392A ASSY SPEAKER P 8ohm,Q7,10W,2Way,2speaker 1 S.AT1910 BN96-03350A ASSY PDP MODULE P-X MAIN BOARD 42HD,PL42 1 S.AT1911 BN96-03351A ASSY PDP MODULE P-Y MAIN BOARD 42HD,PL42 1 S.AT1914 BN96-03353A ASSY PDP MODULE P-ADDRESS E BU 42HD,PL42 1 S.AT1915 BN96-03354A ASSY PDP MODULE P-ADDRESS F BU 42HD,PL42 1 S.AT1917 BN96-03355A ASSY PDP MODULE P-LOGIC MAIN B 42HD,PL42 1 S.AT9698 BN96-03352A ASSY PDP MODULE P-Y MAIN SCAN 42HD,PL42A 1 S.A

Samsung Electronics5-2

MEMO

Troubleshooting


1. 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 Main Board, and between the Logic Boards.

6. Troubleshooting6-1 First Checklist for Troubleshooting

Troubleshooting


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 Main 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 Main 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 804-1Pin 10 : STB 5V = 5VPin 8 : PS-ON = 0V

Replace the Main Board

Connect The AC IN socket connectorand the Main SMPS CN800

Replace the Main SMPS


Troubleshooting


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.


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 Main Board, and CN of the Y Main 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 and

removing CN809 cable fromthe Main SMPS?

Does the symptom continuewhen separating the CN804-1

and CN803 cables from theMain SMPS and shorting pins

4 and 5 of the CN804-1Connector?



Does the symptom continue whenconnecting the power after

connecting the CN809 cable andremoving the CN2, CN4 and CN5cables from the DC-DC SMPS?

Reconnect all cables.Does the symptom continue when

connecting the power after the CN4cable to the DC-DC SMPS?

Does the symptom continue whenconnecting the power after CN2

to the DC-DC SMPS?

Does the symptom continue whenconnecting the power afterremoving CN810 from the

Main SMPS?

Replace the DC-DC SMPS

Replace the X Main Board

Replace the Y Main Board

Replace theLogic Main Board

Troubleshooting


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 Main Board is normal but the X, Y Main 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.


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 Main Board, and CN of the Y Main 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 the

CN809 cable from theMain SMPS?

Is the output voltage of theDC-DC SMPS normal when

reconnecting the CN809 cableand removing the CN2, CN4

and CN5 cables from theDC-DC SMPS?

Replace the Y Main Board

Replace the X Main Board

Replace the Logic Main Board

Replace the Y SCAN Board


Replace the DC-DC SMPS

Troubleshooting


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 Main Board is out of order.- Speaker defect.


Is the cable connection betweenthe Main Board and the speaker

properly connected?

Is the output voltage of SMPSnormal? (CN803 #5 18V)

Is the speaker output terminalof the Main Board normal?

Replace the Speaker

Connect the cable properly orreplace the cable, if necessary.



Troubleshooting


6-2-5 No VideoSymptom - A normal/cable network analog broadcast screen is blank or abnormal but OSD is OK.

Major Checklist- Check the antenna connection settings (Antenna 1 - Normal/Cable/DTV, Antenna 2 - Only for DTV)- Check the tuner output signal (CVBS).- Check the power input of the Main board.


Check CN101 pin2 for +33V

Configure properly



Is the antenna connection settingproperly configured?

Troubleshooting


6-2-6 Main SMPS Troubleshooting

STD_5V

Normal

Abnormal

Check U100, D100

Power ON

VA

Multi

Check U501

Abnormal

Abnormal

Check U601

Normal

VSAbnormal

Check Q401, Q402

Check the Other board (Image Board or Driver Board) or Cable.

Troubleshooting


Condition Name Description Related BoardNo Voltage Output Operating Voltage don't exist PSUNo Display Operating Voltage exist, but an Image doesn't exist on screen Y-MAIN, X-MAIN, Logic Main, CableAbnormal Display Abnormal Image (not open or short) is no screen Y-MAIN, X-MAIN, Logic MainSustain Open Some horizontal lines don't exist on screen Scan Buffer, FPC of X/YSustain Short Some horizontal lines appear to be linked on screen Scan Buffer, FPC of X/YAddress Open Some vertical lines don't exist on screen Logic Main, Logic Buffer, TCPAddress Short Some vertical lines appear to be linked on screen Logic Main, Logic Buffer, TCP

6-2-7 Drive Board Troubleshooting

1) Troubleshooting Summary

Troubleshooting


No Display

[ Y-MAIN ]

Check necessary points

[ Logic Main ]

LED Blinks

[ X-MAIN ]


[ Logic Main ]

Check if power is supplied

( 5V, 3.3V )

Check the LED

operation

Check if internal is

Default Black

Check the

MICOM operation

Check the

power connectivity

Check if any address

data output is detected

Check the ASIC

Control Signal output

Check if the data

and control signals

between DDR & ASIC

are normal

If the input voltage is

abnormal, replace the

PSU and check it

again as this indicates

a PSU output error

Check the FUSE

Check the

input voltage

YES NO

YES NO

[ Y-MAIN ]

Check several points

FUSE

FET/

DIODE

Y-MAIN

Normal State

Replace the Board

Replace the Board

OK

OPEN

SHORT

OK

F5001 for VDD

F5002 for Vs

F5004 for VCC

F5005 for OUT_L

Q5009~Q5021

D5005, D5007

D5008

[ X-MAIN ]


FUSE

FET/

DIODE

X-MAIN

Normal State

Replace the Board

Replace the Board

OK

OPEN

SHORT

OK

F4001 for VCC

F4002 for Vs

F4004 for VDD

F4005 for Ve

Q4002~Q4003

Q4011~Q4016

D4004

D4006~D4008

2) Troubleshooting Procedure in Abnormal Conditions① No Display (Operating Voltage exist, but an doesn't exist on Screen) No Display is related with Y-MAIN, X-MAIN, Logic Main and so on.

This page shows you how to check the boards, and the following pages show you how to find the defective board.

Troubleshooting


Abnormal

Display

[ Y-MAIN ]


[ Logic Main ]

Observation of

abnormal display

[ X-MAIN ]


[ Logic Main ]

LED Blinks

( action of Vsync )

Regular

abnormal

pattern

Replace the Board

NO

YES

Logic Main

Normal State

Replace the PDP

[ Y-MAIN ]


FUSE

FET

Y-MAIN

Normal State

Replace the Board

Replace the Board

OK

OPEN

SHORT

OK

F5001 for VDD

F5002 for Vs

F5004 for VCC

F5005 for OUT_L

Q5009~Q5021

[ X-MAIN ]


FUSE

FET

X-MAIN

Normal State

Replace the Board

Replace the Board

OK

OPEN

SHORT

OK

F4001 for VCC

F4002 for Vs

F4004 for VDD

F4005 for Ve

Q4002~Q4003

Q4011~Q4016

② Abnormal Display(Abnormal Image is on Screen.(except abnormality in Sustain or Address) Abnormal Display is related with Y-MAIN, X-MAIN, Logic Main and so on.


Troubleshooting


③ Sustain Open (some horizontal lines don't exist on screen)

[ Y-FPC ]

Sustain Open

After Changing Y-buffer,

recheck the status

Done

(Defect is from Y-buffer)

Replace the Panel

There a defect on FPC

OK

NG

④ Sustain Short (some horizontal lines appear to be linked on Video)

[ Y-FPC ]

Sustain Short

(Discharging in unwanted Scan line)

After Changing Y-buffer,

recheck the status

Done

(Defect is from Y-buffer)

Replace the Panel

There a defect on FPC

OK

NG

Troubleshooting


⑤ Address Open, Short(some vertical lines don't exist on screen) Address Open and Short is related with Logic Main, Logic Buffer, FFC, TCP film and so on.


[ Logic Main ]

Address Open/Short

Check the LED operation

Check if the internal mode

screen is normal

Reload the data onto the

MICOM and recheck it

Check if there is an open or

short circuit on the Buffer Board

and the Logic Main address

data output section.

Check the FFC connection status

Check the detailed waveform

and control the signal waveform

OK

NG

OK

NG

Check if a specific TCP Block

screen is displayed abnormally

OK

NG

OK

Replace Logic Main /

Address Buffer (E or F) /

FFC

NG

DONE

Check the

Video Board

Check the DDR Vref

input power and the

Voltage Divider

resistance

Check the DDR

input voltage (Vref)

Replace the Panel

OK

NG

NG

Troubleshooting


6-3 Troubleshooting Procedures by ASS'Y

No Assy Code No. Description Major Symptoms1 ASSY PCB P-SMPS BN96-03252A 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 PDP P-X MAIN BOARD BN96-03350A X Main Board Blank screen4 ASSY PDP P-Y MAIN BOARD BN96-03351A Y Main Board Blank screen5 ASSY PDP MODUEL P-LOGIC MAIN BOARD BN96-03355A Logic Board Blank screen, Screen noise6 ASSY PDP P-Y SCAN BOARD BN96-03352A Y Scan Board Row Bar screen is blank7 ASSY PDP P-ADDRESS E-BUFF BOARD BN96-03353A Address E Buffer Board Corresponding Buffer Board block screen is blank.8 ASSY PDP P-ADDRESS F-BUFF BOARD BN96-03354A Address F Buffer Board Corresponding Buffer Board block screen is blank.9 ASSY PCB MISC-MAIN BN94-00859B Main Board No Power, Abnormal screen for each input source, PIP screen trouble, Sound trouble

10 ASSY BOARD P-FUNCTION BN96-02784B Function Key Board The side function key does not work properly11 ASSY BOARD P-POWER&IR BN96-03320A Power Button Board The remote control does not work properly, the LED does not work properly.12 ASSY BOARD P-SIDE AV BN96-03075E Side AV Board The AV2 and S-VIDEO2 modes do not work properly



MEMO

Block Diagram


7. Block Diagram7-1 Overall Block Diagram

Y Main Board X Main Board

1024x768 Pixels1024x768x3 Cells (R,G,B)

(110V)CPU

DecoderImageScaler

Deinterlac-er

Micom

Block Diagram


CN804-1(Main SMPS)↔

CN102(Main B'D)Pin No. Signal

1 D5.3V2 RTN3 VCS4 VCA5 RTN6 RTN7 D12V8 PS_ON9 RTN

10 STB-5V11 FAN_ON12 FAN_D

CN803(Main SMPS)↔

CN101(Main B'D)Pin No. Signal

1 6.5V2 RTN3 A12V4 RTN5 18V-AMP6 18V-AMP7 RTN-AMP8 RTN-AMP9 VT

10 RTN

CN810(Main SMPS)↔

CN2085(Logic B'D)Pin No. Signal

1 D5.3V2 D5.3V3 RTN4 RTN5 D5.3V6 RTN7 PS_ON8 N.C9 VS_ON

10 STB-5V

CN2(DC-DC SMPS)↔

CN5010(Y B'D)Pin No. Signal

1 D5.3V2 Vg3 RTN4 Vscan5 RTN6 Vset7 RTN8 RTN9 Vs

10 Vs

CN4(DC-DC SMPS)↔

CN4004(X B'D)Pin No. Signal

1 D5.3V2 Vg3 RTN4 RTN5 Ve6 RTN7 RTN8 Vs9 Vs

CN5(DC-DC SMPS)↔

CN2710(F-Buffer)Pin No. Signal

1 RTN2 N.C3 D5.3V4 N.C5 Va

Block Diagram


7-2 Partial Block Diagram7-2-1 Main SMPS Block Diagram

IMERETLIF

relbuoDegatloV

yrailixuAegatS

gnihctiwS_SVegatS

lortnocMWPegatS

gnihctiwS_AVegatS

tupnICAV09 ~ V231

langiSyaleR/NO-SP

GER

)V002+(SV

nruteR

)V07+(AV

nruteR

)V21+(V21A

)V3.5+(V3.5D

nruteR

)V81+(PMAV81

)V21+(V21D

)V51+(GV

GERREPPOHC

TUPNI

ccV

TOH DLOC

TOHDLOC DLOC

V5_DTS

lortnocMWPegatS

)V33+(TV

lortnoCMWPegatS

tuptuOitluMgnihctiwS

egatS

)V5.6+(V5.6

langiSNO-SV

GERREPPOHC

GER

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

(175~210)

Block Diagram


7-2-3 Module Driver Board Block Diagram

1. Y Main Board

2. X Main Board

Block Diagram


7-2-4 Logic Board Block Diagram

CONTROL

SIGNAL

50 Pin Connector FM75

30 Pin Connector 20 Pin Connector

50 Pin Connector

10 Pin (Power)31 Pin LVDS

SPS-NIRB

(ASIC 816P)DDRDRIVE

RESET (FA)

DDR

(MA)

DDR

(MB)

R,G,B : 24bit

CLK 1, 2

BLK, POC, STB

CSE, CE1, CE2

R,G,B : 24bit

CLK 1, 2

BLK, POC, STB

CSE, CE1, CE2

DATA : 32bit

ADDR : 12bit

DQS, CLK, nCLK

RELAY_EINT

Vs-ON

X-MAIN

CONTROL

SIGNAL

Y-MAIN

CONTROL

SIGNAL

LVDS SIGNAL

(8~12bit)

TX, RX

ASIC

nRESET

5 P

in (u

art)

MICOM

7-2-5 Main Board Block Diagram


MEMO

Wiring Diagram


8. Wiring Diagram8-1 Overall Wiring

CN5506

CN5505

CN5504

CN5503

CN5502

CN5501

CN5509

CN5508

CN5013

CN5010

CN2083 CN2093

CN2026

CN804-1CN803 CN810

CN809

CN3

CN5CN4

CN2

CN4004 CN4002

CN4001

CN4003

CN2084 CN2005

CN2084 CN2711CN2700CN2500

CN405

JA1501 CN102 CN103

CN404

CN1

CN001

CN2710

CN800

CN5507

SPEAKER

MAIN BOARD

LOGIC BOARD

SMPS-MAINX-DRIVE

Y-DRIVE

Y-BUFFER

AC-INLET

E-BUFFER F-BUFFER

SMPS -DC

FUNCTION

1

2

POWER SW

3

4

7 8

9

10

11

12

13

14

6

CN402 CN211CN101

SIDE AV

CN2085

5

1516

17

18


Wiring Diagram


No Assy Code No. Description- ASSY PDP MODULE P BN96-03288A M1,42HD,V5.1,1024*768,NTSC/PAL,complementary color,with logic① ASSY PCB P-SMPS BN96-03252A HPS4253,100V-120V,245*370mm② ASSY PCB P-SMPS BN96-01856A SPD-50P5HD(DC_DC),200Vin(DC_DC) ③ ASSY PDP MODULE P-X MAIN BOARD BN96-03550A 42HD,PL42AX005A,V5.1,NTSC/PAL,1024*768,LJ92-01345A④ ASSY PDP MODULE P-Y MAIN BOARD BN96-03351A 42HD,PL42AX005A,V5.1,NTSC/PAL,1024*768,LJ92-01346A⑤ ASSY PDP MODULE P-Y MAIN SCAN BUFFER BN96-03352A 42HD,PL42AX005A,V5.1,NTSC/PAL,1024*768,LJ92-01344A⑥ ASSY PDP MODULE P-LOGIC MAIN BOARD BN96-03355A 42HD,PL42AX005A,V5.1,NTSC/PAL,1024*768,sec/sesk⑦ ASSY PDP P-ADDRESS E BUFFER BN96-03353A 42HD,PL42AX005A,V5.1,NTSC/PAL,1024*768,LJ92-01343A⑧ ASSY PDP P-ADDRESS F BUFFER BN96-03354A 42HD,PL42AX005A,V5.1,NTSC/PAL,1024*768,LJ92-01342A⑨ ASSY PCB MISC-MAIN BN94-00859B HP-S4253,CADILLAC,BN41-00694A⑩ ASSY BOARD P-POWER&IR BN96-03320A CADILLAC,SJ05-01-516,POWER & IR,CORE, 250MM⑪ ASSY SPEAKER P BN96-03392A 8ohm,Q7,10W,2Way,2speaker,Bass Reflex⑫ ASSY BOARD P-SIDE AV BN96-03075E CADILLAC,SJ06-01-004E,SIDE-AV,400MM, USA⑬ ASSY BOARD P-FUNCTION BN96-02784B CADILLAC,SJ06-01-006,FUNCTION,600MM, CORE⑭ FILTER-EMI AC LINE 2901-001378 250V,6A,-,0.15uF/1000pF,50x22.5x37.2mm,BK,-⑮ LEAD CONNECTOR-LVDS BN39-00667C D71C/SPD-42S5HD,UL20276#30,UL/CSA,31P,200mm,

LEAD CONNECTOR MD39-00074H SVP-61L2HD,UL1007#26,UL/CSA,12P,150MM,#26,SMH250-LEAD CONNECTOR BN39-00053D SCHUBERT,UL1007#26,10P,150MM,#26,SMH250-10,SMH250-LEAD CONNECTOR BN39-00632B PS-42E7HX/XEC,UL1617#22,UL/CSA,12PIN,150MM,#22,35156-

16

17

18

Wiring Diagram


8-2-1 PDP Module ↔↔ SMPS Wiring

①CN809(Main SMPS)

↔CN3(DC-DC SMPS)

Pin No. Signal1 D5.3V2 Vg3 RTN4 RTN5 RTN6 RTN7 RTN8 Va9 Va

10 N.C11 Vs12 Vs

②CN2(DC-DC SMPS)

↔CN5010(Y B'D)

Pin No. Signal1 D5.3V2 Vg3 RTN4 Vscan5 RTN6 Vset7 RTN8 RTN9 Vs

10 Vs

③CN4(DC-DC SMPS)

↔CN4004(X B'D)

Pin No. Signal1 D5.3V2 Vg3 RTN4 RTN5 Ve6 RTN7 RTN8 Vs9 Vs

④CN5(DC-DC SMPS)

↔CN2710(F-Buffer)

Pin No. Signal1 RTN2 N.C3 D5.3V4 N.C5 Va

⑤CN809(Main SMPS)

↔CN2085(Logic B'D)

Pin No. Signal1 STD 5V2 Vs-ON3 N.C4 PS-ON5 RTN6 D5.3V7 RTN8 RTN9 D5.3V

10 D5.3V

8-2 Partial Wiring

Wiring Diagram


Use SMPS 12P LVDS 31P POWER 10PCode BN39-00632B BN39-00667C BN39-00053D

Photo

Use POWER 12PCode MD39-00074H

Photo

8-2-2 Connect Cables

※ The code number of cable(Lead-connector) can be changed, see "5 Chapter. Electrical Part List."

PCB Diagram


9. PCB Diagram9-1 Main Board

No Loc. No. Description

① TU301 (DNVS303HH261A) TUNER

② X301 (UMX-NT-059) MODULE-SPLITTER

③ IC1502, IC1504 (DTC34LM85A) IC-TRANSMITTER (LVDS TRANSMITTER)

④ IC1503 (S4LD158X01) IC VIDEO PROCESSOR (DNIE-LBE)

⑤ IC2001 (S5H2111) IC-DECODER

⑥ IC1001 (SVP-PX56) IC VIDEO PROCESSOR

⑦ IC2032 (28F640) IC-FLASH MEMORY

⑧ IC2201, IC2202 (K4D551638F) IC-DRAM

⑨ IC202 (STV8258DSX) IC-AUDIO PROCESSOR

⑩ IC1003 (K4D263238) IC-VIDEO RAM

⑪ IC111 (S3F866B) IC-MICROCONTROLLER

⑫ IC505 (PCM1754) IC-D/A CONVERTER

⑬ IC211 (STA323W) IC-AUDIO AMP

PCB Diagram



① CN101 Analog Power

② CN102 Digital Power

③ JA1501 LVDS out

④ CN405 Function Connector

⑤ CN402 Side-AV Connector

⑥ CN404 Power&IR Connector

⑦ CN211 Speaker out

⑧ JA502, JA503 HDMI

⑨ JA505 DVI L/R

⑩ OP401 Digital Out (Optical)

⑪ JA503 Audio IN (PC)

⑫ CN501 PC

⑬ CN2001 Service1

⑭ JA409 Service2

⑮ CN401 Digital Out (Optical)JA401 AV IN JA407 S-Video JA406, JA405 Component 2JA403, JA402 Component 1JA404 Audio Out (L/R)

16

17

18

19

20

PCB Diagram


①CN1002(Main B'D)

↔CN804-1(Main SMPS)Pin No. Signal

1 NC2 NC3 A5V4 GND5 SW_POWER6 B12V7 GND8 GND9 NC

10 NC11 GND12 D6V

②CN101(Main B'D)

↔CN803(Main SMPS)

Pin No. Signal1 GND2 B33V3 GND4 GND5 +18_A6 +18_A7 GND8 GND9 GND

10 A6V

PCB Diagram


⑦CN211(Main B'D)

↔SPEAKER

Pin No. Signal1 R+_OUT2 R-_OUT3 L+_OUT4 L-_OUT

④CN405(Main B'D)

↔FUNCTION

Pin No. Signal1 KEY12 KEY23 GND

⑤CN402(Main B'D)

↔SIDE AV

Pin No. Signal1 VIDEO2_CVBS2 GND3 VIDEO2_IDENT4 SVHS IDENT5 VIDEO2_SL_IN6 HP_OUT_L7 VIDEO2_SR_IN8 HP_OUT_R9 SVHS2_Y

10 GND11 SVHS2_C12 GND13 HP_IDENT14 GND

⑥CN404(Main B'D)

↔POWER&IR

Pin No. Signal1 GND2 LED_ON_OFF3 A5V4 GND5 KEY26 SDA5_TV_5V7 SCL_TV_5V8 IR

③

JA1501(Main B'D) ↔ CN2093(Logic B'D)Pin No. Signal Pin No. Signal Pin No. Signal

1 GND 12 12BIT_Tx_2+ 23 12BIT_Tx_0b-2 GND 13 TXOUT3B- 24 12BIT_Tx_0b+3 12BIT_Tx_0- 14 TXOUT3B+ 25 LOGIC_DPMS4 12BIT_Tx_0+ 15 12BIT_Tx_CLK- 26 GND5 GND 16 12BIT_Tx_CLK- 27 SCL4_TV_3.3V6 GND 17 12BIT_Tx_CLKb- 28 GND7 12BIT_Tx_1- 18 12BIT_Tx_CLKb+ 29 SDA4_TV_3.3V8 12BIT_Tx_1+ 19 12BIT_Tx_3- 30 GND9 12BIT_Tx_1b- 20 12BIT_Tx_3+ 31

10 12BIT_Tx_1b+ 21 GND 3211 12BIT_Tx_2- 22 I2C_READY 33

PCB Diagram


Function Key. Located on the side of the unit.


① RM1 Remote Control Sensor

② SW1 Power Button

③ OP1

The Illumination sensor that senses thequantity of light. It senses the illumination andautomatically adjusts the screen brightnessaccording to the surrounding brightness whenthe Power Saving Mode of the User menu isset to Auto.


① CN102 S-VIDEO2 Input Jack

② CN103 AV2 Input Jack

③ CN104 Earphone Jack

④ CN105 Side AV Connector

9-2 Power & IR Board

9-3 Function Board

9-4 Side AV Board

PCB Diagram


9-5 Main SMPS Board

① CN800 : AC IN (110V)

②CN804-1(Main SMPS)

↔CN102(Main B'D)

Pin No. Signal1 D5.3V2 RTN3 VCS4 VCA5 RTN6 RTN7 D12V8 PS_ON9 RTN

10 STB-5V11 FAN_ON12 FAN_D

③CN803(Main SMPS)

↔CN101(Main B'D)

Pin No. Signal1 6.5V2 RTN3 A12V4 RTN5 18V-AMP6 18V-AMP7 RTN-AMP8 RTN-AMP9 VT

10 RTN

④CN810(Main SMPS)

↔CN2085(Logic B'D)

Pin No. Signal1 D5.3V2 D5.3V3 RTN4 RTN5 D5.3V6 RTN7 PS_ON8 N.C9 VS_ON

10 STB-5V

⑤CN809(Main SMPS)

↔CN3(DC-DC SMPS)


10 N.C11 Vs12 Vs

PCB Diagram


④CN3(DC-DC SMPS)

↔CN809(Main SMPS)


10 N.C11 Vs12 Vs

③CN5(DC-DC SMPS)

↔CN2710(F-Buffer)

Pin No. Signal1 RTN2 N.C3 D5.3V4 N.C5 Va

①CN2(DC-DC SMPS)

↔CN5010(Y B'D)

Pin No. Signal1 Vs2 Vs3 RTN4 RTN5 Vset6 RTN7 Vscan8 RTN9 Vg

10 D5.3V

②CN4(DC-DC SMPS)

↔CN4004(X B'D)

Pin No. Signal1 Vs2 Vs3 RTN4 RTN5 Ve6 RTN7 RTN8 Vg9 D5.3V

9-6 DC-DC SMPS Board

PCB Diagram


No Assy Code No. Description

① ASSY PDP MODULE P-LOGIC MAIN BOARD BN96-03355A Logic Main Board

② ASSY PDP MODULE P-X MAIN BOARD BN96-03350A X Drive Board

③ ASSY PDP MODULE P-Y MAIN BOARD BN96-03351A Y Drive Board

④ ASSY PDP MODULE P-Y MAIN SCAN BUFFER BN96-03352A Y Buffer Board

⑤ ASSY PDP MODULE P-ADDRESS E BUFFER BN96-03353A Address Buffer Board

⑥ ASSY PDP MODULE P-ADDRESS F BUFFER BN96-03354A Address Buffer Board


9-7 PDP Module

Samsung Electronics

Schematic Diagram

10-1

DNG

NOC_SO

pmaV81

DNG

DNG

Hu22

NOITPODNG

DNG

REWOP YBDNATS

WOL : FFO

V21D

tnerruC A3

enalp rewop ni CCV elbats roF

FFO/NO_NAF

NO REWOP:L

FFO:H

V5.6

V6A

tnerruC A3

DNG

V21A

V6D

V3.5

TED_NAF

NO_SP

V5_DTS

CN

otuA : CN

pmav81

NOC_SODNG

DNG

DNG

HGIH : NO

otuA : CN

CN

YROMEM_RDD_XP

Hu22

WOL : FFO

TV

rotcennoc ot raeN

HGIH : NO

151PT

501PT

1

CCV_V5B

351PT

541C

V21A

341C

Fu001V61

V61Fu22241C

Fn01

Fu22V61

141C

V52Fu001

521C

V52Fu001

421C

V8B

101DB TJ121-2354H1-HH

121C

Fn01

Fn01601C

mhoK2.6W01/1

201L

1 2

101R

2

WS3

4DNG

5BF

PMOC6

NE7

SS8

1DNGM

401CI

ND3851PM

SB1

NI

701DB

-

1 A B2

1_V3.3B

801C

Fn001

V6A

Fu001V52

701C

511C

Fn01

A_V81+

2

TUO3

Fn001501C

TUO

301CI

PF80M871AB

1NI

DNG

PF90M871AB

NI1

DNG

2

3

101CI

F50D87AIK

I1

G

2

O 3

201CI

801DB

-1 A 2 B

V61Fu22041C

Fn3.3931C

301R

mhoK6.3W01/1

Fu001111C

1_V3.3B

V5B

201RmhoK51

1

V52

201PT

1

401PT

V61

Fn001

011C

42SS

42SS201D 801R

W01/1mhoK6.3

101D

701RmhoK51

101L

1 2

Fu001V61

401C

301C

Fn001

V3.6Fu021

201C

Fu001V61

221C

4BF

5

6PMOC

7NE

8SS

1DNGM

V05Fn001411C

ND3851PM

1SB

2NI

3WS

DNG

V61Fu001

921C

2_V3.3B

501CI

PMA_DNUOS

301PT

1

Fp081721C

V21B

621C

V61Fn001

1

V33B

Fu22

V61

901C

Fn001

101PT

Fn001V61

021C

741C

V61

911C

V52

Fu001

1

01

2

3

4

5

6

7

8

9

CN101 : Main Board <-> SMPS Main

THW 01-052WMS

731C

Fp081831C

631C

Fu001V52

Fn001V61

531C

Fu001V61

3NIV

101C

Fn01

601CI

A33-D7111PA

1

JDA

TUOV2

V5B

2_V3.3B

RETTILPS_V9B

Fn001

711C

V61

Fu22

Fn001

611C

Fu001

V61

441C

641C

551PT

251PT

851PT

061PT

161PT

751PT

951PT

451PT

651PT

7

8

9

V6D

V3.3A

1

01

11

21

2

3

4

5

6

V5A

CN102 : Main Board <-> SMPS Main

THW 21-052WMS

-

A12

B

601DB

-

501DB

601R

mhoK7.4

401DB

TJ121-2354H1-HH

501R

W01/1mhoK2.6B

C

401R

mhoK7.4

101Q

Y-3261CSKE

311C

Fn001211C

321C

Fu74

V05

V61Fn001

821C

031C

Fn001V61

811C

Fn001

V61

Fn3.3

V21A

V21A

PMA_DNUOS

Fu021V3.6

431C

Fn001V61

231C

Fn01

331C

131C

V61Fn001

301DB TJ121-2354H1-HH

DNGP

201DB TJ121-2354H1-HH

DNGP

DNGP

DNGP

DNGP

DNGP

REWOP_WS

DNGP

DNGP

DNGP

DNGP DNGP

DNGP

DNGP

DNGP

DNGP

DNGP

DNGP

DNGP

DNGP

DNGP

DNGP

DNGP

DNGP

CWP_RDD

DNGP

DNGP DNGP

DNGP

This Document can not be used without Samsung’s authorization.

10-1 MAIN POWER BLOCK10. Schematic Diagram

PowerSignal

Schematic Diagram


rotcennoC GIJ ETIRW MORPEE

NOITPO LED

NOITPO PHF

C2I mociM buS-CDD hctiwS

DNUORG :5

TPO CALLIDAC

TPO CALLIDAC

NOITCETORP ETIRW :4

)UPC(EKAL OT RAEN

EKAL MORF

TCETORP ETIRW CDD

PW_CDD lortnoC

V5 :6

EHCSROP >= NOITPO RENUT 2

)EVITCA WOL( POTS_SUB :3

RENUT ROF TSUJ

ATAD :1

KCOLC :2

)UPC(EKAL OT RAEN

C2I hctiwS

NOITPO LED

Fu01

mhoK7.4

661R

151C

V61

C

2.7

Kohm

R127

1

611Q

Y-3261CSK

E

B

1

TP

115

221PT

mhoK7.4

081R

mho0891R

V05461C

Fn01

8

R1

18

10

Ko

hm

1 2

3 4

5 6

7

V5A

XREF

W61/1

211AR mho001

V5B

mho002331R

W01/1

mho001981R

W01/1

2

TUO3 DNG

10K

ohm

R1

11

511CI

FTR-FA2407AIK

NI1

DNG

V3.3A

551CFu22

V61

FP61,ZHM42,H5MS/94-C4

zHM0.42

111X

mho001231R

691R mho001

Fp51161CV05

7CW/

8CCV

311CI

10A

21A

3CN

SSV4

ADS5

6LCS

381R mho001

T6NMW-65242M

341R

V3.3A

mho001

V61

261C

Fu01

10K

ohm

R124

mhoK74451R

mhoK1

2313R

mhoK11313R

V5A

551R mho0

1/1

0W

R157

111D

481SDK

0o

hm

mho001871R

W01/1

TUO

3DNG

10K

ohm

R120

711CI

F7207AIK

NI

1

DNG

2

A12

A23

4DNG

5B2

B16

72EO/

CCV8

411CI

X8K5213DBW7CN

1EO/1

151R

mho001531R

mho001

361R

mho001481R

W01/1

V3.3A

mho001

V05

751CFp22

781R mho001

mhoK1

V61

Fu01

351C

R1

14

10

Ko

hm

241R

mho001251R

9

10K

ohm

R139

CCV2

A13

B1

2EO/4

A25

B26

7DNG B3

8A3

XM5213TSF

211CI

11EO/

013EO/

B411

21A4

314EO/

41

651C

10K

ohm

R1

13

V05Fn1

2_V3.3B

051R mho001

9NIX

CCV_CDD

10K

ohm

R123

41

P1.6

/CLA

MP

-O4

2

43

P1

.7/C

SY

NC

-I(S

OG

)

HS

YN

C-I

(2)

44

5)2(0LCS/)1(KLCS

61DDV

1SSV7

8TUOX

P3.2

/PW

M2/S

CL1(2

)

35

P3.3

/PW

M3/S

DA

1(2

)

P3.4

/PW

M4(2

)3

6

37

P3.5

/PW

M5(2

)

P3.6

/PW

M6(2

)3

8N

C3

9

4)2(0ADS/)1(TADS

40

P1.4

/VS

YN

C-O

P1.5

/HS

YN

C-O

3.2P

4.2P82

5.2P92

1TNI/1.0P3

036.2P

7.2P13

230MWP/0.3P

331MWP/1.3P

34

P1.2

/AD

22

0

VD

D2

21

22

VS

S2

323DA/3.1P

0.2P42

1.2P52

622.2P

72

NR

ES

ET

13

P0.4

(2)

14

15

P0.5

(2)

P0.6

(2)

16

NC

17

18

P1.0

/AD

0

P1.1

/AD

11

9

0TNI/0.0P2

111CI

B668F3S

1)2(I-CNYSV

TSET01

PAC2MT/2.0P11

P0

.3(2

)1

2

111WS

1

2

3

4

mho001541R

NYP5011-SPK

831R

mho001881R

mho01

Fn001951C

2_V3.3B

mhoK01631R

V61

10K

ohm

R121

R1

19

10

Ko

hm

V61Fn001961C

W01/1

181R mhoK01

mho001791R

3 4

5 6

7 8

mhoK7.4

391R

W01/1

mho001111AR

W61/1

1 2

211Q

E

BC

mho001761R

Y-3261CSK

)mpp03,zHM21(H5MS/94-CHzHM0.21

211X

111PT1

10K

ohm

R1

16

R1

12

10

Ko

hm

TP

114

1

W01/1

681R mho001

941R mho001

2_V3.3B

BC

731R

mhoK01

Y-3261CSK411Q E

V05561CFp51

V5A

111L

-

R129

10K

ohm

V3.3A

251C

Fn001

061C

Fn001

W01/1

771R

mhoK7.4

R1

17

10

Ko

hm

0o

hm

R156

1K

oh

m

R1

92

1/1

0W

481SDK211D

1/10W

4PPV,TSET

5OS,1.0P

6KCS,0.0P

TESER7

80.3P

92.3P

0MWP,11DA,7.0P

6201DA,6.0P

72

829DA,5.0P

8DA,4.0P92

TUOX3 03

ADS,OLC,3.0P

13LCS,IS,2.0P

DDV23

91KLCS,7DA,7.2P

NIX2

021MWP,1TNI,3.1P

0TNI,2.1P12

22ZUB,1.1P

32DCZ,0T,0.1P

3.3P42

521.3P

1DA,1.2P11

212DA,2.2P

31 3DA,3.2P

4DA,4.2P41

5DA,5.2P51

SSVA61 71

FERVA

81TADS,6DA,6.2P

1

611CI

8T0S-53X8249C3S

1SSV

0DA,0.2P01

TP

118

mhoK7.4

491R 591R

mhoK7.4

mho001

1

V3.3A

V5A

161R

mho001

TP

112

mho001741R

841R

471R

mhoK1

111QY-3261CSK

E

BC

R125

10K

ohm

371R

mhoK7.2

971R

mhoK7.4

671R

mhoK1

V5B

Fp01

861CV05

E

BC

mho001

Y-3261CSK511Q

1

TP

117

1

951R

061R

TP

116

V5A

mho001

R130

10K

ohm

Fp22851C

V05

0o

hm

mho22

R158

Fn001V61661C

261R

071R mho0

761CFu01

V61

2_V3.3B

mho001191R

W01/1

141R mho01

1

W01/1mho001

571R

TP

119

1

V3.3A

121PT

R140

10K

ohm

R1

15

10

Ko

hm

961R

mhoK01

W01/1

091R mho001

mho001281R

mho0171R

351R mho001

431R mho001

Fn001361C

641R mho0

10K

ohm

461R mho001

R126

2.7

Kohm

R122

Fn001

441R mho0

451C

TP

113

1

V5A

W01/1

581R mho001

10K

ohm

R128

V3.3A

561R mho001

NWOD_CIGOL

mhoK01

131R

NI_OEDIV_1WS

TLAH_SYS

RTNC_RI

0LES_DNUOS_RVP

1LES_DNUOS_RVP

TESER_8249

OGPDP_PHF

CDD_WS

MIN_TFA

MIN_CGA

W323ATS_TESER

V5_2_IMDH

LES_FIS

IMDH_LES

NI_OEDIV_2WS

BUS_CGA

BUS_TFA

MIN_CGA

MIN_TFA

V5_VT_5LCS

V5_VT_5ADS

TESER_8249

NE_SDVL

MORPEE_ADS

652C42_PW

MORPEE_LCS

TLAH_SYS

652C42_2LCS

MORPEE_LCS

652C42_2ADS

MOCIMS_3LCS

MOCIMS_3ADSMORPEE_ADS

ADS_UME

LCS_UME

EBL_TESER

PW_CDD

V5_CP

V5_1_IMDH

REWOP_WS

TNEDI_2PMOC

PVS_TESER

7528_TESER

TESERn_UPC

TNEDI_1PMOC

TNEDI_1SHVS

TNEDI_2SHVS

TNEDI_1IMDH

TNEDI_2IMDH

TNEDI_1OEDIV

652C42_PW

NE_LAIRES

TNEDI_2OEDIVFFO_NO_DEL

RI

MOCIM_SV_CP

MOCIM_SH_CP

2YEK

1YEK

TNEDI_PH

TNEDI_CP


10-2 STANDBY MICOM (S3F866B)

PowerSignal

Samsung Electronics

Schematic Diagram

10-3

NOITPO CALLIDAC

R_PH

FIS NIAM : 1

LAP : 463C

EHCSROP - 464200-4021 : 7528VTS

FIS BUS : 0

CALLIDAC - 174200-4021 : 8528VTS

CSTN : 222C

NOITPO_EHCSROP

CI SSECORP DNUOS

noitpo

302DB :)ASU(8528VTS

noitpo

LES_FISNOITPO_EHCSROP

L_PH

202DB :)RUE ,ROK(7528VTS

932C

Fn001

FERX

7528_V8.1B

792R

mhoK86

mhoK86

592R492R

mhoK86

882R

mhoK86

982R

mhoK86

1

JDA

TUOV23

NIV

292R

mhoK86

A81-D7111PA

402CI

Fn001

463C Fp001

752C V61

622C

V61852C Fu01Fu01

mho0902R

W01/1

mhoK3.3212R

W01/1

Fu01

mhoK86912R

Hu01

102L

262C

E

BC

Fu74V61

Y-3261CSK102Q

mho001312R

W01/1

912C

132C

Fn5.1

Fn001

922C

V5B

MP

Z2

01

2S

30

0A

BD

20

2

042C

Fn001

972R mho001

Fn074562C

Fu01683C

673C Fu01

mhoK7.4582R

012C Fu01 V61

BD

20

3M

PZ

20

12

S3

00

A12

34

56

78W61/1

102AR

mho01

Fn001202C

Fn001772C

FERX

402LHu01

573C Fn001

812R

mhoK86

mhoK7.4132R

162CFu033

V61

342C Fu01

Fn001832C

V61Fu01563C

mho001922R

Fn001632C

mhoK01 042R

V8B

Y-3261CSK202Q

E

BC

mhoK02242R

542R mhoK001

532C

Fp72

Fn001

372CV61

mhoK01112R

192R

642C Fn001

Fn001

mhoK86

Hu01

822C

zHM0.72

102X

702L

E

BC

V5B

77

78

MO

NO

_IN

SC

4_

IN_

L79

8CS_33DNG

80

SC

4_

IN_

R

L_NI_1CS9

Y-3261CSK

502Q

7

70

GN

D_

PS

UB

VD

D1

8_

AD

C71

72

VS

S1

8_

AD

C

SIF

_P

73

74

SIF

_N

GN

DP

W_

IF75

76

VC

C1

8_

IF

GN

D1

8_

IF

I2S

_L

R_

CL

K

I2S

_D

AT

A0

63

64

I2S

_D

AT

A1

I2S

_D

AT

A2

65

66

VD

D1

8_

4

VS

S1

8_

467

68

BU

S_

EX

P

IRQ

69

CS_33CCV

55

652KLC_81DNG

2KLC_81CCV75

852OI_33SSV

2OI_33DDV95

6R_TUO_3CS

06KLC_MCP_S2I

I2S

_S

CL

K61

62

LRTC_TST_KC

3_81SSV94

L_TUO_3CS5

053_81DDV

LES_KLC15

25PTXKLC_NILATX

MTXKLC_TUOLATX35

451KLC_81CCV

1KLC_81DNG

40

2_81SSV14

242_81DDV

TSR/34

44NI_FIDP/S

TUO_FIDP/S54

641OI_33DDV

1OI_33SSV74

84

33

VS

S1

8_

CO

NV

VD

D1

8_

CO

NV

34

35

/HP

_D

ET

AD

R_

SE

L36

37

VS

S1

8_

1

VD

D1

8_

138

39

SC

L

4H_DNG

SD

A

26

27

LS

_C

LS

_L

28

29

LS

_R

H_CCV3

LS

_S

UB

30

31

HP

_L

SS

_L

HP

_L

SS

_R

32

91

2R_TUO_1CS

02OSIN_CCV

21

VS

S3

3_

CO

NV

VD

D3

3_

CO

NV

22

23

SC

3_

IN_

L

SC

3_

IN_

R24

25

SC

L_

FL

T

SC

R_

FL

T

11

21AS_DNG

GBV31

41L_NI_2CS

R_NI_2CS51

61SL_33CCV

SL_33DNG71

81L_TUO_2CS

R_TUO_2CS

202CI

XSD7528VTS

L_TUO_1CS1

01R_NI_1CS

AFERV

Fn022422C

602LHu01

252C Fu01

V61Fu01602C

Hu01502L

612R

mhoK86

mho0682R

8SAPYB

9CNYSF

202PT

1

910EDOMRNIV

21EDOM

02

1FERV3

42FERV

5CCV

6DNGA

NWDP/7

11KCB

TUOD21

31DNGD

DDV41

IKCS51

61RSO

0TMF71

811TMF

502CI

2081MCP

LNIV1

KCRL01

892R

mhoK86

383C Fu01

5

6S

983C Fu01

902CI

11B

2DNG

30B

4A

CCV

632R mho001

X6P7513BS7CN

Fn0013113C

462C Fu01

FERX

Fn01122CV05

mhoK86

4113C

Fn001

842C

712R

mho01822R

Fn001

412CFu01V61

Fu01212C

V61

A003S2102ZPM272DB

W01/1

422R mhoK3.3

mhoK86702R

342R mhoK02

232R mho22

Fu01142C

Hu01 302L

E

BC

302Q

Y-3261CSK

072C

Fn7.4

012R

mhoK01

Fn001952C

FERX

102PT

1

7528_V8.1B

202LHu01

2_V3.3BFn33552C

V61

872R mho001

V61

mho001222R

W01/1

172C

432C

Fu74

Fn001942C

Fn001

Hu01802L

Fu22

232C

mhoK86

2_V3.3B

CCV_V5B

Fu01093C

7528_V8.1B

502R

482R mho0

7528_V8.1B

602R

mhoK86

3113R mho001

Fu015113C

242C Fu01

mhoK86022R

V5B

mho0014113R

V61Fu74

522C

322DB

EN106J12CIC

FERX

Fn7.4962C

122R

mhoK86

mhoK86202R

762C Fn074

Fu01V61

mhoK7.4172R

472C

272R mhoK7.4

372R mho0

663C

Fn001

V05312CFp65

Fu01352C

7528_V8.1B

mhoK001142R

612C

V61Fu001

Fn5.1712C

473C

102R

mhoK86802R

mhoK86

Fn001V52

172DBA003S2102ZPM

052C Fu01 V61

332C

Fn74

Fn001

022C

V52Fn001

V61Fu01402C

V61Fu01902C

373C

mhoK7.4382R

mhoK7.4472R

V61Fu01272C

V8B

mhoK7.4732R

8SSV

9B

6113C Fu01

51

61DDV

2Y2

3MOC-Y

4Y3

5Y1

6NE/

EEV7

1Y0

A01

11X3

X021

31MOC-X

X141

X2

102CI

M2504CH47MM

E

BC

502C Fu01 V61

mhoK86

402Q

Y-3261CSK

722C

412R

Fn001

302C Fu01 V61

Fp051222C

152C V61Fu01

mhoK001442R

mhoK86512R

Fn001363C

2_V3.3B

263C

Fn001Fn001163C

Fu01572C

EN106J12CIC

422DB

0B3

A4

5CCV

S6

V5B

012CI

X6P7513BS7CN

1B1

DNG2

102C

Fu22V61

Fu74V61

542C

CCV_V5B

220ohm

R2

27

1/1

0W

Fp65 512CV05

mhoK86

772R mho001

302R

CCV_V5B

V61Fu01702C

032C

Fp074

1K

ohm

R2

23

1/1

0W

873CFu001

V61

30K

ohm

R2

25

1/1

0W

mho001032R

532R

W01/1

622R

mho065

mho001

FERX

Fu01662C

432R

mho001

Fp72442C

Fp074812C

mho0

832R

2_V3.3B

802C Fu01 V61

082RmhoK1

V5B

302PT

1

2_V3.3B

Fp65 112CV05

Hu01902L

mhoK7.46113R

732C

Fn001

5113R mhoK7.4

322C Fu01

402R

mhoK86

Fu7.4862C

V61

Fu22V61

773C

Fu01742C

2TUOV

7

8DDV

mhoK01782R

W01/1

302CI

1 1TUOV

2 1NIV

3 SSAPYB

DNG4NWODTUHS

5

62NIV

V61

652CFn33

MM0184ML

Fn001

Fn001062C

452C

0LES_DNUOS_RVP

RS_RVP_OEDIV

RS_RVP_OEDIV

LS_RVP_OEDIV

LS_RVP_OEDIV

ONOMS_BUS

TUO_RS_YNA

TUO_LS_YNA

ETUM_PH

ONOMS_BUS

0LES_DNUOS_RVP

TUO_LS_RVP

TUO_RS_RVP

DNGS

FIS_RENUT

DNGS

TUO_LS_RVP

TUO_RS_RVP

2576_KLCS_S2I

DNGS

KLCM_2081MCP

2576_KLCRL_S2I

DNGS

LES_FIS

DNGS

FIS_RENUTFIS_NIAM

DNGS

DNGS

2576_ATAD_S2I

PMA_KLC_S2IPMA_KLCS_S2I

PMA_KLCRL_S2I

PMA_ATAD_S2I

DNGS

FIS_BUS

FIS_RENUT

NI_LS_2OEDIV

NI_LS_2PMOC

NI_RS_2PMOC

0LES_DNUOS

1LES_DNUOS

NI_LS_CP

NI_RS_CP

NI_RS_VTD_IMDH

NI_LS_VTD_IMDH

NI_LS_1PMOC

NI_LS_IVD

NI_RS_1PMOC

NI_RS_IVD

FIS_NIAM

DNGS

SG

ND

DNGS

DNGS DNGS

DNGS

TUO_FIDPS_VTS

7528VTS_6ADS

DNGS

7528_TESER

TUO_FIDPS_EKAL

DNGS

DNGS DNGS

L_TUO_PH

R_TUO_PH

DNGS

NI_LS_1OEDIV

NI_RS_1OEDIV

NI_RS_2OEDIV

DNGS

7528VTS_6LCS

DNGS

DNGS

DNGS


10-3 SOUND PROCESSOR (STV8257)

PowerSignal

Schematic Diagram


TUO_+R

TUO_-L

-L_KPS

+L_KPS

DER

KCALBTUO_-R

)Hu22(

NOITPO

NOITPO

CI OT ESOLC

CI OT ESOLC

)Hu22(

)Hu22(

)Hu22(TUO_+L

WOLLEY

KCALB

NOITULOS ESION POP

W01/1

-R_KPS

+R_KPS

4.7

Ko

hm

1/1

0W

PMA_DNUOS

262R mhoK001

mho7.4

PMA_DNUOS

R2

61

Fn001

V52

273C

062R

W4/1

Fu074V52

173C

952R

W8/1

mho22

2_V3.3B

mho7.4752R

W4/1

Fp001

V05

503C

CCV_V5B

PMA_DNUOS

mho0552R

452R

482C

V52

Fn001

mho0

W4/1

mho7.4352R

882C Fn001V05

V52

Fn001

W8/1

mho22252R

082C

V05Fn0014123C

V05Fn0013123C

V05Fn0012123C

V05692C

V05Fn0011123C

Fn001V05

392C

Fn001

V05

292CFn001

092C

Fn001V05

192C

Fn001V05

682C

Fn001V05

982C

282C

V61

Fu01

Fn074

Fn1V05

972C

182C

Fu01

V61

PMA_DNUOS

PMA_DNUOS

PMA_DNUOS

203C

Fn1V05

V05003CFn001

V05

V05Fn1

103C

992C Fn001

303C

Fn001

V52403C

Fn2.1V05

Fn001

892C Fn001V05

592C

V05

492C

Fp033

V05

Fn074

792C

112L

1 2

PMA_DNUOS

EN106J12CIC

112DB

A_V81+

312Q

E

BC

212Q

E

BC

Y-3261CSK

Y-3261CSK

E

BC

Y-3261CSK

V52Fu074703C

112Q

Fp022

V05

603C

362R

W01/1

152R

W4/1

mho7.4

mhoK001

852R

mhoK9.3

W01/1

PMA_DNUOS

A_V81+

872C

V05

PMA_DNUOS

Fn001

672C

V05

Fn1

Fp033

mho001652R

582C

V05

782C

V05

Fn001

322L

422L

222L

122L

Fn001

PMA_DNUOS

452PT

V05382C

152PT

352PT

THW 40-052WAMS

1

2

3

4

R2

65

1/1

0W

10K

ohm

CN211 : Main Board <-> Speaker

462R mhoK01

W01/1

4B2CCV

5.C.N

6B2DNG

A2DNG 7

8A2CCV

9A2TUO1DNGM

PMA_DNUOS

03IDS

13IKCRL

IKCIV

23

33DNG

43DDV

53SSV

63NGISCCV

22TESER

LCS

32ADS

42

52SER

RETLIFLLP

62ITX

72

82ADNG

ADDV

92

B2TUO 3

A1TUO 61

71NAELCDNG

SBUSV 81GERDDV

91

.C.N 2

DV

02 GIFNOC

12

112CI

1.C.N

B1TUO 01

B1CCV 11

21B1DNG

A1DNG 31

.C.N 41

A1CCV 51

1 2

W323ATS

312L

1 2

412L

212L

1 2

Fn001

V05

803C

PMA_DNUOS

252PT

PMA_DNUOS

V3.3_VT_4ADS

V3.3_VT_4LCS

W323ATS_TESER

PMA_KLCS_S2I

PMA_KLCRL_S2I

PMA_ATAD_S2I

PMA_KLC_S2I

DNGS

W323ATS_TESER

ETUM_PH

DNGS

TUO_RS_YNA

DNGS

TUO_LS_YNA

DNGS


10-4 SOUND AMP (STA323W) & POP SOLUTION

PowerSignal

Samsung Electronics

Schematic Diagram

10-5

RENUT BUS

)9041SK - OCMES(

RETTILPS-FR

NOITPO 013T

KCEHC 9041SK **

NOITPO

CALLIDAC >= )950-TN-XMU( A89400-95NB

A18000-04NB

EHCSROP >= )360-TN-XMU( A50500-95NB

2576AAS ROF

NOITPO 013T

EHCSROP ROF

esion roF

esion roF

EHCSROP ROF

mho 0 >= 303R ,103R

led >= 503R ,403R

CALLIDAC ROF

mhoK001 >= 303R ,103R

mhoK022 >= 503R ,403R

RENUT MIN CSTA

A37000-04NB >= gnauGuX

LED

SU

PL

VA

LT

P3

07

1

RENUT_V5B

933PT

193C

233PT

3

4 JDA

OV5

GN

DM

GN

D1

Fp033

603CI

RT.X.X-M5I6651CS

NIV1

2NE

DNG

533R

mho003W01/1

mho0433R

W01/1

653PT

V5B

mhoK001333R

Fn1943C

5

SD

A

6

MB

+5

V

7

SIF

8 9

BT

L+

32

VMG

ND

1

MG

ND

2

MG

ND

3

MG

ND

4

V05

NC

1 01

AU

DIO

AF

T

11 21

VID

EO

NC

2

AG

C+

4V

3

AS

4

SC

L

1

1_V3.3B

203UT

S431W/N6-TFVmho002

913R

1_V3.3B

SU

PL

VA

LT

P3

11

-

1 A B2

mho001923R

103DB

823C

Fn001V52

303AR

mho33

1 2

3 4

5 6

7 8

V61

Fu01243C

W61/1

823R mho001

FERX

A-D7111PA

503CI

1

JDA

TUOV2 3

NIV

mho001203R

mhoK022

V52

Fn001

523C

TP

30

6S

UP

LV

AL

1

503R

W01/1

403DB

EN006P23BIC

B

243PT

W01/1

033RmhoK7.4

mhoK1W01/1

723R

113C

V33B

FERX

V05

Fu3.3

333C

FERX

V52

Fn001

5

SW

2

6

MG

ND

1

MG

ND

2

MG

ND

3

MG

ND

4

360-TN-XMU103X

1

NC

2

B+

3

LN

A

SW

1

4

GN

D

V61Fu001

183C

RENUT_V5B

E

BC

FERX

Fn001

283C

V52

mho0

Y-3261CSK403Q

5 6

7 8

W01/1

303R

W61/1

103AR

mho33

1 2

3 4

643PT

733PT

RENUT_V5B

213R

mhoK001

W01/1

023R mho0

533PT

553PT

433C

Fn001

V05

1

JDA

TUOV2 3

NIV

633PT

65A

6A7

87A

98A

A81-D7111PA

203CI

71

811B

91EO/ 1A

2CCV

02

2A3

43A

54A

RID

DNG0111

8B

7B21

316B

5B41

4B51

613B

2B

V5B

403CI

XCTM542XCL47

1

1A

2B

0ohm

R3

21

603DB

253PT

623R mho0

EN006P23BIC

703DB

B

2_V3.3B

343PT

533CFn001

V52

743PT

SU

PL

VA

LT

P320

1

V52

Fn001

813C

TP

319

SU

PLV

AL

1

W01/1

403R

333PT

943PT

mhoK022

B

V61

Fu74

623C

EN006P23BIC

303DB

SU

PL

VA

LT

P316

1

813R

mho081

V61

Fu001

913C

2

mho0103R

W01/1

Hu1403L

1

713C

Fu001

133PT

mhoK1

803R

V61

453PT

W01/1

023C

Fn001

V52

B

2

C

3

1_V3.3B

543PT

203Q

2811ASKE

1

V52

043C

Fn001423R

mhoK7.4

1uH

L303

Fn001

Fn001443C

V52

543C

V52

EN106J12CIC

203L

933C

V05 Fu3.3V05

213C

Fn001

V52

Fn001

833C

043PT

FERX

RETTILPS_V9B

FERX

1_V3.3B

143CFu001

V61

153PT

353PT

Y-3261CSK303Q

E

BC

1_V3.3B

TP

31

0S

UP

LV

AL

1

TBUS_V5B

833PT

123C

Fu001

V61

V33B

113R

mho0

443PT

SU

PL

VA

LT

P3

09

1

V52

433PT

923C

633C

Fn001

W01/1

FERX

Fu001V61

TP

30

5S

UP

LV

AL

1

903Rmho0

V52

Fn001

223C

SU

PL

VA

LT

P3

13

1

753PT

SU

PL

VA

LT

P3

15

1

TP

31

2S

UP

LV

AL

1

053PT

TP

30

8S

UP

LV

AL

1

613C

Fn001 V52

mho0

313R

mho0253R

W01/1

W01/1

153R mho0

1 2

3 4

5 6

7 8

mho0

603R

mho33

203AR

W61/1

643C

Fn1V05

W01/1

503DB

EN006P23BIC

B

013Rmho001

733CFu001

V61

143PT

TP

31

4S

UP

LV

AL

1

1

SU

PL

VA

LT

P318

1

TBUS_V5B

TP

317

SU

PLV

AL

853PT

Fn001

133C

843PT

mho0133R

1/1

0W

R3

32

1K

ohm

E

BC

89

TUO_OEDIV

1DNGM

2DNGM

3DNGM

4DNGM

5DNGM

6DNGM

Y-3261CSK

103Q

KLC_GEPM

27

ADS

LCS

28

)+B(V5

34

TUO_TFA

V33

5

DNG

6

TESER_REWOP

7

RORRE

CGA_FR

220

5ATAD

4ATAD

21

22

3ATAD

2ATAD

23

24

1ATAD

0ATAD

25

26

11

12

V3.3

13

DNG

14

C.N

V2.1

15

16

CNYS

NE/DILAV

17

18

7ATAD

6ATAD

19

103UTA162HH303SVND

C.N

110

C.N

TUO_FIS

SC

L1

_D

TV

CH

SD

A1

_D

TV

CH

RENUT_V2.1B

V8.1_RENUT

ONOMS_BUS

BUS_CGA

1FR_WS

NO_ANL

MIN_TFA

V5_VT_5LCS

V5_VT_5ADS

MT_SBVC_BUS

BUS_TFA

FIS_BUS

2FR_WS

)7:0(ST_MAS)7(ST_MAS

)6(ST_MAS

)5(ST_MAS

)4(ST_MAS

)3(ST_MAS

)2(ST_MAS

)1(ST_MAS

)0(ST_MAS

FIS_NIAM

KLCST_MAS

DLVST_MAS

CNYSST_MAS

TESER_RENUT

NIAM_SBVC_RENUT

FFO_NO_RENUT

MIN_CGA


10-5 TUNER & SPLITTER

PowerSignal

Schematic Diagram


YE

LL

OW

WH

ITE

RE

D

RE

DW

HIT

E

RE

DG

RE

EN

BL

UE

RE

DG

RE

EN

BL

UE

RE

DW

HIT

E

RE

DW

HIT

E

1 TUPNI SHVS

1 TUPNI VA

TCENNOC OT ESOLC

1 TNENOPMOC

2 TNENOPMOC

LACITPO

noitpo epyt thgiarts

LAIXAOC

TUPTUO DNUOS

114PT

1

CD

S3

C3

0G

TH

D409

414PT

1

CCV_V5B

CD

S3

C3

0G

TH

D4

21

mho001

224PT

1

724PT

1

824R

mho001624R

NI_DNGA

NI_DNGA

604PT

1

mhoK001714R

W01/1

204L

mhoK001814R

W01/1

mho001104R

mho57524R

D401

CD

S3

C3

0G

TH

mho001404R

1

CD

S3

C3

0G

TH

D413

D4

22

CD

S3

C3

0G

TH

714PT

014L Hu3.3

2

3

4

5

6

7

8

9

614PT1

104AJ

1

814PT1

124R mho01

3

4

5

6

mho01224R

1

604AJ

1

2

604R mho001

914PT

mho074724R

104L Hu3.3

mho074924R

CD

S3

C3

0G

TH

D405

mho01504R

NI_DNGA

NI_DNGA

514PT

1

D419

CD

S3

C3

0G

TH

1

NI_DNGAD

414

CD

S3

C3

0G

TH

924PTLAVLPUS 1

524PT

mho021 334R

W01/1

Fp033

404L

1

414C

CD

S3

C3

0G

TH

D404

204PT

314C

Fp33324R

mho57

D412

CD

S3

C3

0G

TH

Fp33114C

mho57424R

304C

Fp033

134R

mho57

NIV1

CCV2

DNG3

NI_DNGA

404C

Fp33

D408

CD

S3

C3

0G

TH

OP

402

TR

X1

22

7

104PT

1

804L

704PT1

6

7

8

9

D410

CD

S3

C3

0G

TH

504AJ

1

2

3

4

5

1

2

3

4

5

6

7

8

9

204AJ

D403

CD

S3

C3

0G

TH

904L

D406

CD

S3

C3

0G

TH

Fp001714C

704R mho01

mho01304R

mho57

mho57234R

504PT1

804R

404PT

1

CD

S3

C3

0G

TH

D417

mho001614R

204R

514R mho001

mho001

mho57904R

CD

S3

C3

0G

TH

D420

824PT 1

014PT

1

mho001

LAVLPUS

Fp033704C

034R

214R mho074

204Q2811ASK

E

BC

1

904PT1

314R mho074

324PT

214L

EN106J12CIC

Fp033204C

024R mho01

Fp33214C

914R mho001

1

214PT

1

1

2

3

CCV_V5B

424PT

3

4

5

6

7

D61-WS-KJU

104NC

OP

401

CT

5000-2

870

1

2

Fn001V52

024C

914C

V61Fu01124C

V52Fn001

Fn001V52

E

BC

814C

Fp033904C

Y-3261CSK104Q

Fp33

Fp001

804PT

1

504C

104C

614C

CD

S3

C3

0G

TH

D418

CD

S3

C3

0G

TH

D407

Fp001

304PT1

D416

CD

S3

C3

0G

TH

114R

mho57

mho002

W01/1

434R

CD

S3

C3

0G

TH

D402

014R

mho57

Fp033804C

304L

4

56

NI_DNGA

Fp33604C

6

B4206JP

704AJ 12

3

1

2

3

4

5

CD

S3

C3

0G

TH

D423

304AJ

404AJ

1

2

3

4

5

6

014C

Fp033

704L

mho74 534R

W01/1

CD

S3

C3

0G

TH

D415

1

124PT

1

604L

024PT

624PT1

EN106J12CIC

114L

514C

Fp033

NI_DNGA

NI_DNGA

504L

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

TUO_FIDPS_VTS

NI_DNGA

NI_DNGA

TUO_LS_YNA

TUO_RS_YNA

NI_DNGA

NI_DNGA

NI_DNGA

NI_DNGA

RP_1PMOC

TNEDI_1PMOC

NI_LS_1PMOC

NI_RS_1PMOC

NI_DNGA

NI_DNGDNI_DNGA

NI_DNGA

Y_2PMOC

BP_2PMOC

RP_2PMOC

TNEDI_2PMOC

NI_LS_2PMOC

NI_RS_2PMOCY_1SHVS

C_1SHVS

NI_DNGANI_DNGA NI_DNGA

TNEDI_1SHVS

NI_DNGA

TNEDI_1OEDIV

SBVC_1OEDIV

NI_LS_1OEDIV

NI_RS_1OEDIV

NI_DNGA

Y_1PMOC

BP_1PMOC


10-6 AV INPUT / OUTPUT

PowerSignal

Samsung Electronics

Schematic Diagram

10-7

YSSA NOITCNUF

F/I ECIVRES & TENYNA

reggubeD -

VA_EDIS

NOITPO_ETELED

1YEK

dnammoc neercS-I

DRAOB_LORTNOC

RI + NO_REWOP

2YEK

TENYNA -

daolnwoD cigoL -

HTG03C3SDC434D

D4

45

CD

S3

C3

0G

TH

TP

44

0S

UP

LV

AL

1

244PT

1

W01/1

mhoK7.2

854R

FERX

334C

V52

Fn001

104_LTC_LCS

NI_DNGA

FERX

FERX

514L

FFONO_DEL

SU

PL

VA

L

1

V5A

FERX

244R mho001

Fp001434C

TP

43

3

RI

mho001054R

CD

S3

C3

0G

TH

D4

42

TP

43

6S

UP

LV

AL

1

CD

S3

C3

0G

TH

D4

44

1

534DHTG03C3SDC

V05

144PT

-!C3

4+2C

5-2C

6-V

TUO2T7

8NI2R

9TUO2R

Fn1834C

NI2T01

11NI1T

TUO1R21

31NI1R

TUO1T41

DNG51

61CCV

+V2

104CI2323PS

+1C1

FERX

Fp033034C

mho57

mho001W01/1

954R

544R

CD

S3

C3

0G

TH

D4

38

104DB

D4

26

CD

S3

C3

0G

TH

V5A

mho001144RT

P4

31

SU

PL

VA

L

1

234C

Fn001

V52

CD

S3

C3

0G

TH

D4

32

HTG03C3SDC924D

SU

PL

VA

LT

P4

32

1

NI_DNGA

654R mho0

D4

28

CD

S3

C3

0G

TH

7

8

9

01

524C

Fn001

V52

804AJLAVLPUS

4

5

6

NI_DNGA

DNG

CD

S3

C3

0G

TH

D4

25

NI_DNGA

204YEK

0007SDS

1 2

3

mho57254R

044D

154R

mho57

mhoK01

364R

734C

Fp033

D4

33

CD

S3

C3

0G

TH

V3.3A

034DHTG03C3SDC

SU

PL

VA

LT

P4

34

1

444PT

FERX

FERX

mho0644R

274PT

1

374PT

1

174PT

1

SU

PL

VA

LT

P4

39

1

FERX

NI_DNGA

31

41

2

3

4

5

6

7

8

9

THW 41-052WAMSCN402 : Main Board <-> Side AV

1

01

11

21

TP

43

7S

UP

LV

AL

1

NI_DNGA

TP

43

5

1

644PT

1

2

3

4

5

6

7

8

SU

PL

VA

L

464R

CN404 : Main Board <-> Power&IRTHW 80-052WAMS

5

6

7

8

9

01

mhoK22

LAVLPUS904AJ

4

744R mho0

V61

Fu01

724C

444R mho001

404Q

E

BC

V52

Fn001

134C

Y-3261CSK

FERX

CD

S3

C3

0G

TH

D4

27

D4

37

CD

S3

C3

0G

TH

1

944R mho001

614L

SU

PL

VA

LT

P4

51

3

344PT

1

934D

0007SDS

1 2

554R

824C

Fp001

mho0

144D

0007SDS

1 2

3 544PT

2_V3.3BFERX

104YEK

D4

43

CD

S3

C3

0G

TH

454R mho001

D4

31

CD

S3

C3

0G

TH

mho001344R

CD

S3

C3

0G

TH

D4

36

mho001064R

-B

D4

02

W01/1

CN405: Main Board <-> Function Board

1

2

3

624C

Fn001

30-052WMS

mho001844R

924C

Fp033

FERX

mho0264R

W01/1

mhoK1

164R

NI_DNGA

Fp001534C

TP

43

8S

UP

LV

AL

1

FERX

104_LTC_ADS

634C

Fp033

GUBED_DXR

RI

GUBED_DXT

2YEK

NI_DNGA

1YEK

FFO_NO_DEL

V5_VT_5ADSV5_VT_5LCS

NI_LS_2OEDIV

NI_RS_2OEDIV

Y_2SHVS

C_2SHVS

TNEDI_2SHVS

R_TUO_PH

L_TUO_PH

TNEDI_PH

NI_DNGANI_DNGA

TENYNA_DXTTENYNA_DXR

SBVC_2OEDIV

TNEDI_2OEDIV


10-7 SIDE-AV & ANYNET & SUB FUNCTION I/F

PowerSignal

Schematic Diagram


RE

DW

HIT

E

1IMDH 2IMDH TUPTUO

NOITPO

NOITPO

HCTIWS IMDH

NI_CP

CNYS-V

CNYS-H

NI_S_CP

1 TUPNI IMDH

WOL HGIH IMDH_LES

160100-2273

1IMDH : TUPNI DNUOS IVD

2 TUPNI IMDH

EPYT TMS

mho22995R

W01/1

W01/1

895R mho22

mhoK01705R

Fn001

505C

D5

01

CD

S3C

30G

TH

D5

27

MM

BD

4148S

E

12

3

405L

V05

015PT1

Hu01

925D

1 2

3

Fp001815C

SSV6

+0D

-0D7

8SSV

9+1D

ES8414DBMM

A+2D

SSV24

A-1D34

44A+1D

A-0D54

64A+0D

74SSV

DDV84

5

43

53B+0D

DDV63

SSV73

83A-KLC

93A+KLC

4DDV

A-2D04

14

B-KLC

B+KLC82

B-2D92

SSV3

03B+2D

SSV13

23B-1D

33B+1D

B-0D

02SSV

12DDV

SSV22

DDV32

42SSVDDV

52

62SSV

72

DDV31

LES

SSV41

+2D51

-2D61

71SSV

+KLC81

-KLC91

DDV2

505CIEBTF214IMDH3IP

1SSV

-1D01

SSV11

21

Hu01

mhoK01605R

105L

R5

53

20

0o

hm

1

mho22415R

935PT

1

045PT

20

0o

hm

R5

43

805R

mhoK01

1 2

3

mho074955R

415C

915D

mho22795R

W01/1

Fu01

MM

BD

41

48

SE

D5

06

12

3

385R

mho22485R

CD

S3C

30G

TH

D5

12

mho22

1

D5

09

CD

S3C

30G

TH

305PT1

405PT

905R mho0

735PT

1

2

3

4

5

6

7

8

9

1

01

11

21

31

41

51

61

71

81

91

HDW910R1CD

405AJ

mho22285R

mho22185R

975R

mho22085R

MM

BD

41

48

SE

D5

07

12

3

mho22

R5

44

200ohm

mho57915R

4SSV

5ADS

LCS6

7CW/,EDOM

CCV8

405CI

CS01-N20C42TA0E

1

1E 2

2E3

605C

Fp001

405C

Fn001305C

Fu01

635D

1 2

3

V3.3A

1

535PT

1

525D

B2.6ZLR

435PT

025CFu01

mhoK7.4945R

W01/1

V05Fp33

805C

635PT

1

mho01

516R mho01

5ADS

LCS6

7CW/,EDOM

CCV8

616R

0E1

1E 2

2E3

4SSV

mho01

205CICS01-N20C42TA

mho01116R

316R

mho01016R

806R mho01

Fu01V61

mhoK1745R

215C

mho22685R

2E3

4SSV

5ADS

LCS6

7CW/,EDOM

CCV8

mho22585R

CS01-N20C42TA105CI

0E1

1E 2

115PT1

mho74235R

1

CCV_CDD

825R mho074

435D

1 2

3

515PT

mho74135R

mhoK01035R

D5

03

CD

S3C

30G

TH

D5

02

106R mho01

CD

S3C

30G

TH

415D

1 2

3

Fn001515C

Fp033325C

mho001125R025R mho57

R5

55

20

0o

hm

20

0o

hm

R5

54

205PT1

B2.6ZLR405D

mhoK01105R

2_V3.3B125C

Fn001

A003S2102ZPM

105DB

mho22635R

CCV_CDD

Fn001315C

mhoK5.1055R

W01/1mho01416R

216R mho01

V52

715C

Fn001

R5

42

200ohm

mho57215R

2

3

115R

mho57

615D

1

Fu01915C

CCV_V5B

R5

40

200ohm

V61Fu01105C

12

3

CCV_CDD

V3.3A

11-ET-B6.5ZLR835D

D5

26

MM

BD

4148S

E

225D

11-ET-B6.5ZLR

735R mho22

1 2

3

505R

W01/1mhoK9.3

2_V3.3B

035D

206R mho01

205L Hu01

mho01

205R

mhoK01

mho01706R

906R

506R mho01

606R mho01

mho01406R

1605PT1

525R mho001

505PT

V05Fp33

525C

1

mho074065R

205C

Fn001

TP

53

3

5

6

7

8

9

41

51

61

71

81

91

2

3

4

HDW910R1CD

205AJ

1

01

11

21

31

mho01306R

225R mho22

315PT

1

CD

S3C

30G

TH

D5

24

mho22475R

CCV_V5B

mho22375R

815R

015C

Fp033

mho74615R

mho74

MM

BD

41

48

SE

D5

05

12

3

125PT

1

TP

53

8

1

1 2

3

D5

11

CD

S3C

30G

TH

335D

1 2

3

715D

20

0o

hm

R5

52

R5

51

20

0o

hm

200ohm

R5

46

2_V3.3B

mho0535R

mhoK01

435R

525PT

1

425PT

1

mho001325R

R5

45

200ohm

115C

Fp033

mho57015R

Fp33V05

CD

S3C

30G

TH

D5

10

105PT

1

905C

705PT

1

725R mho074

C

20

0o

hm

R5

39

105Q

Y-3261CSK

E

B

135PT

1

235PT

1

1

DNG2

NE3

CN4

TUO5

D5

23

CD

S3C

30G

TH

1

705CI

G1T51NS155PCN

NI

20

0o

hm

R5

41

905PT

845R

W01/1

mhoK02

315R mho22

mho22775R

mho22875R

mho22675R

mho22575R

mho22715R

mho22275R

515D

1 2

3

mho22175R

305R mho74

D5

28

MM

BD

4148S

E

12

3305AJ

4

5

6

7

8

9

01

CCV_CDD

LAVLPUS

405R mho74

925R

mhoK01

1 2

3

200ohm

R5

57

815D

805PT1

705C

Fp001

1

TP

52

3

1

135D

1 2

3

225PT

1

2

3

4

5

6

305L

Hu01

7 8B3

9A3

505AJ

214EO/

31CCV

41

A12

B13

42EO/

5A2

6B2

DNG

XM5213TSF

1EO/1

3EO/01

11B4

A4

615C

Fu01

V61

605CI

Fn001225C

2_V3.3B

mho021365R

W01/1

1 2

3

CD

S3C

30G

TH

D5

08

235D

1

mho001425R

63Y/

DNG7

4Y/8

94A

CCV_CDD

215PT

115A

6Y/21

316A

CCV41

1Y/2

2A3

42Y/

53A

305CIXM41XCL47

1A1

5Y/01

51

2

3

4

5

6

7

8

9

1DNGM

2DNGM

033N20251-501

105NC

1

01

11

21

31

41

W01/1

335R

415PT

1

mhoK9.3

3 625R mho0013 025D

1 2

315D

ES8414DBMM

1 2C

DS

3C

30G

TH

D5

40

V3.3A

20

0o

hm

R5

56

535D

1 2

3

R5

58

200ohm

D5

39

CD

S3C

30G

TH

425C

NI_DNGA

NI_DNGD

NI_DNGD

Fp033NI_DNGA

PW_CDD

V5_2_IMDH

NI_DNGD

NI_DNGD

V5_1_IMDH

+2XR_2IMDH

+KLCXR_2IMDH

-KLCXR_2IMDH

-2XR_2IMDH

+1XR_2IMDH

-1XR_2IMDH

+0XR_2IMDH

-0XR_2IMDH

PW_CDD

DER_CP

NEERG_CP

EULB_CP

+KLCXR_1IMDH

-KLCXR_1IMDH

+0XR_1IMDH

-0XR_1IMDH

+1XR_1IMDH

-1XR_1IMDH

+2XR_1IMDH

-2XR_1IMDH

V5_CP

NI_DNGA

NI_DNGD

NI_DNGD

NI_DNGA

ADS_CDD_IMDH

LCS_CDD_1IMDH

LCS_CDD_2IMDH

ADS_CDD_2IMDH

IMDH_LES

NI_DNGA

NI_DNGA

NI_DNGA

TNEDI_CP

NI_DNGA

NI_DNGA

+0XR_IMDH

-KLCXR_1IMDH

+KLCXR_1IMDH

+0XR_1IMDH

-0XR_1IMDH

-1XR_1IMDH

-2XR_1IMDH

+1XR_1IMDH

+2XR_1IMDH

-KLCXR_2IMDH

+KLCXR_2IMDH

+0XR_2IMDH

-0XR_2IMDH

-1XR_2IMDH

-2XR_2IMDH

+1XR_2IMDH

+2XR_2IMDH

IMDH_LES

IMDH_LES

LCS_CDD_IMDH

ADS_CDD_1IMDH

ADS_CDD_2IMDH

TNEDI_2IMDH

NI_DNGD

DG

ND

_IN

NI_DNGD

NI_DNGD

NI_DNGA

NI_LS_IVD

NI_RS_IVD

-1XR_IMDH

-0XR_IMDH

-KLCXR_IMDH

-2XR_IMDH

+KLCXR_IMDH

+2XR_IMDH

+1XR_IMDH

PVS_SH_CP

MOCIM_SV_CP

MOCIM_SH_CP

LCS_CDD_1IMDH

ADS_CDD_1IMDH

TNEDI_1IMDH

PW_CDD

NI_DNGD

DG

ND

_IN

NI_DNGD

NI_DNGD

LCS_CDD_2IMDH

LCS_UME

ADS_UME

NI_DNGA

NI_DNGA

NI_DNGA

NI_LS_CP

NI_RS_CP

NI_DNGA

PVS_SV_CP


10-8 PC & HDMI INPUT

PowerSignal

Samsung Electronics

Schematic Diagram

10-9

hgih

atad hctal ot #RW fo egde gnisir esU

sserdda hctal ot #DR & #RW fo segde gnillaf esU

atad hctal ot #RW fo egde gnillaf esU

HGIH WOL

+1ATUOXT

-3ATUOXT

SW

0DS

F7/E7x0 = sserdda evalS C2I

I2C

Chip

Debug

D7/C7x0 = sserdda evalS C2I

SW

-2ATUOXT

wol

+KLCATUOXT

+0ATUOXT

wol

sserdda hctal ot ELA esU

-0ATUOXT

CALLIDAC

KCS

-KLCATUOXT

-3ATUOXT

KCS

emaN niP

PARTS TOOB

+2ATUOXT

0DS

-1ATUOXT

NIP OT RAEN

6101D 11-ET-B6.5ZLR

NOITPO

4201R ,2201R ,1201R : LED *

noitpO gnitteS laitinI

R1

00

81

0o

hm

1301CFn001

7101C Fn001

TP

10

01

1

7101R mhoK01

Fn001 3201C

5101R

6201C

mho33

mhoK019101R

Fn001

R1

02

6

0o

hm

1/1

0W

1101D 11-ET-B6.5ZLR

11-ET-B6.5ZLR2101D

R1

00

2

R1

03

11K

ohm

1/1

0W

5101D 11-ET-B6.5ZLR

10

oh

m

8201CFn001

5201R mhoK7.4mhoK7.44201R

R1

00

31

0o

hm

4301CFn001

Fn001 5201C

2_V3.3B

11-ET-B6.5ZLR6001D

8.1DV_XP

mhoK7.40201R

0301CFn001

11-ET-B6.5ZLR3101D

Fn001 3301C

Fn7.44001C

4101C

8101R

Fn001

mhoK7.4

mho33

6001C

2201R

Fn74

Fn01

6301C

0101D 11-ET-B6.5ZLR

11-ET-B6.5ZLR8001D

1101C

Fn0019101C

4.7

Kohm

1/1

0W

Fu22V61

Fn001 9201C

R1

03

0

2301C

mho33

Fn001

4101R

11-ET-B6.5ZLR5001D

11-ET-B6.5ZLR4101D

5101C Fn001

6101R mho33

3301R mho0 W01/1

Fn7.43001C

2_V3.3B

Fn001 5301C

9001R

mho0

Fn001

1201R mhoK7.4

R1

00

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11-ET-B6.5ZLR7001D

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AD

497

AD

598

AD

699

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DH

91

VS

SH

92

AD

093

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194

AD

295

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3

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82

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DR

083

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DR

184

AD

DR

285

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DR

386

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DR

487

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DR

588

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DR

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DP

A_

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75

VD

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76

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77

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DC

78

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79

1SBVC8

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67

DP

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1CDA_3DDVA7

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DP

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DP

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172

DP

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A_

HS

74

6

21_APD06

KLC_APD16

11_APD26

01_APD36

9_APD46

DP

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865

DP

A_

766

DP

A_

6

HDDV35

HSSV45

CDDV55

CSSV65

51_APD75

41_APD85

31_APD95

SSA_GB_SSVA

TDCS64

KLCOIDUA74

KCS84

SW94

SSA_GB_3DDVA5

0DS05

HDDV15

HSSV25

83

CDDV93

FUBTUO_3DDVA4

CSSV04

SH_NIA14

SV_NIA24

V5RWP34

LCSD44

ADSD54

03

C13

3CDA_DDVA23

3CDA_SSVA33

2CDA_3DDVA43

1B_BP53

2B_BP63

3B_BP73

B_CP

PL

F2

255

PA

VD

D2

256

2CDA_SSVA62

1R_RP72

2R_RP82

3R_RP92

FUBTUO_SSVA3

4_CP

247

AV

SS

AP

LL

248

XT

ALI

249

2CDA_DDVA52

XT

ALO

250

PA

VS

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251

MLF

1252

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VD

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PA

VS

S2

254

42

AG

ND

240

VD

DC

241

VS

SC

242

DG

ND

243

RE

GV

CC

244

AV

DD

LLP

LL

245

AV

SS

LL

PL

L246

AV

DD

AP

LL

AV

CC

233

RX

1-

234

RX

1+

235

AG

ND

236

AV

CC

237

RX

2-

238

RX

2+

239

2_NFERV

RX

C-

226

RX

C+

227

AG

ND

228

AV

CC

229

2_PFERV32

RX

0-

230

RX

0+

231

AG

ND

232

CL

KE

219

G_CP22

BA

0220

BA

1221

PG

ND

222

PV

CC

223

AN

TS

TO

224

AV

CC

225

MA

0211

CS

0#

212

CS

1#

213

RA

S#

214

VD

DM

215

VS

SM

216

CA

S#

217

WE

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203

MA

5204

MA

4205

MA

3206

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2207

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DC

208

VS

SC

209

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MA

1210

MA

9198

MA

8199

1TUO_SBVC2

2G_Y02

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201

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SM

202

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91

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CSSV291V

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MV

RE

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195

MA

11

196

MA

10

197

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3SQD481

82DM581

92DM681

03DM781

13DM881

0KLCM981

1G_Y

571CSSV

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77152DM

87162DM

971

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72DM081

3MQD181

MDDV281

MSSV961

4CDA_DDVA71

2SQD071

02DM171

12DM271

22DM371

32DM471

CDDV

CDDV161

CSSV261

61DM361

71DM461

81DM561

91DM661

2MQD761

MDDV861

MDDV451

MSSV551

1SQD651

21DM751

31DM851

41DM951

1CDA_DDVA61

51DM061

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741CSSV

8418DM

941

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9DM051

01DM151

11DM251

1MQD351

1_NFERV41

MDDV041

MSSV141

0SQD241

4DM341

5DM441

6DM541

7DM

ASSV_SDVL231

DSSV_SDVL331

DDDV_SDVL431

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1DM631

2DM731

3DM831

0MQD931

TB

1P

125

TB

1M

126

TA

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127

TA

1M

128

OSSV_SDVL921

1_PFERV31

ODDV_SDVL031

ADDV_SDVL131

TE

1M

118

TD

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119

1BF21

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1M

120

TC

LK

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121

TC

LK

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122

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TC

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11

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MO

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F112

LV

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1P

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102

AL

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U_

CS

104

SD

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SC

L106

VD

DC

107

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SC

108

INT

N109

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7100

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RP_1PMOC

DER_CP

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EULB_CP

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SBVC_1OEDIV

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SBVC_TUO

SSA_GB_3DDVA_XP

Y_1SHVS

Y_2SHVS

2CDA_DDVA_XP

ADS_CDD_IMDH

LCS_CDD_IMDH

KLCM_IMDH

PVS_SV_CP

PVS_SH_CP

TLAH_SYS

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P_

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P_

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SV

P_

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(3)

SV

P_

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(4)

SV

P_

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(5)

SV

P_

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)

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CD

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CD

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CD

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SV

P_

CD

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SV

P_

CD

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CD

(4)

SV

P_

CD

(5)

SV

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CD

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KLCRL_IMDH

KLCS_IMDH

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)6(C_PVS

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KLC_PVS

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Y(7

)

SV

P_

Y(6

)

SV

P_

Y(5

)

SV

P_

Y(4

)

SV

P_

Y(3

)

SV

P_

Y(2

)

SV

P_

Y(1

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SV

P_

Y(0

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SV

P_

HS

SV

P_

VS

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MC

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S3

4CDA_DDVA_XP

3CDA_DDVA_XP

2CDA_SSVA_XP

1CDA_SSVA_XP

4CDA_SSVA_XP

1CDA_SSVA_XP

2CDA_SSVA_XP

FUBTUO_3DDVA_XP

SSA_GB_SSVA_XP

FUBTUO_SSVA_XP

1CDA_3DDVA_XP

2CDA_3DDVA_XP

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SV

P_

INT

HD

MI_

RX

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MI_

RX

2-

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MI_

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)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

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)42(DM_RDD

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)62(DM_RDD

)72(DM_RDD

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DD

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QMDDV

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DD

R_

MA

(11

)

DD

R_

MA

(10

)

DD

R_

MA

(9)

DD

R_

MA

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DD

R_

MA

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R_

MA

(6)

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E

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SE

T_

SV

P

DDV_SDVL_XP

)9(E_VL

)8(E_VL

)7(E_VL

)6(E_VL

)5(E_VL

)4(E_VL


10-9 VIDEO DECODER & SCALER (SVP-PX)

PowerSignal

Schematic Diagram


835100-5011

RDD ot raeN

RDD 23 X M4

2601C

56

78

V05

Fn01

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34

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1

XP_V5.2B

1

JDA

TUOV23

NIV

A52-D7111PA

2001CI3401C

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W01/1

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BC

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2401C

Fn01

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6401C

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VR

EF

M12

NC

M2

BA

0M

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0A4M

1A5M

3A6M

4A7M

6A8M

2A5L

11A6L

9A7L

5A8L

NC

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1

PA/8A01M

CK

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SK

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RA

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L10

CK

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L2

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VD

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2

NC

G3

VS

SQ

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11F21QD

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SQ

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SSV5F

SSV6F

SSV7F

SSV8F

SSV5E

SSV6E

SSV7E

SSV8E

VS

SQ

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91QD1F

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31QD

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71QD1E

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51QD11E

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61QD2E

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3

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SSV7D

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SQ

D8

VS

SQ

C5

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DC

6V

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C7

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SQ

C8

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SQ

C9

7QD1D

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10

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6QD1C

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C11

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25

C12

5QD2C

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C3

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SQ

C4

11BB

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DQ

27

VD

DQ

B2

NC

B3

VD

DQ

B4

1QD5B

QDDV6B

QDDV7B

DQ

30

B8

2QD5A

0QD6A

DQ

31

A7

DQ

29

A8

DQ

28

A9

4QD1B

NC

B10

QDDV

DQ

S0

A1

VS

SQ

A10

A11

DM

3

DQ

S3

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2

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Fn001V61

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QMDDV

CWP_RDD

V6D

9401C

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R_

DQ

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R_

DQ

M[0

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DD

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DD

R_

CS

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R_

DQ

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DD

R_

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R_

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M(0

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DD

R_

DQ

M(2

)

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)6(AM_RDD

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DD

R_

BA

0

DD

R_

BA

1

DD

R_

CA

S# 0KLCM_RDD

DD

R_

CL

KE


10-10 SVP-PX DDR MEMORY

PowerSignal

Samsung Electronics

Schematic Diagram

10-11

REWOP_XP_PVS

2FLP_XP ,1FLM_XP : KCEHC

4701DB

V61Fu0013701C6701C

V61Fu22 JDA

1

2TUOVNIV

3

2_V3.3B

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1701CIA81-D7111PA

mhoK5.73701R

W01/1Fn001

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1901C

Fn001

8901C

Fn001

8701C

Fn001

5701CFu01

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Fn0019901C

6011C

Fn001V61Fu01

0011C

Fn0015011C

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0801DB

2801C

Fn001V61Fu01

0801C

Fn0011801C

2701DB

6801C

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4111C

Fn001

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6111CFu01

V61

V61Fu01

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2_V3.3B

Fn0017701C

2801DB

7701DB

6211C

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1701PT

1

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Fn001

1311C

9111C

Fn001

Fn0010111C

Fn7.2

Fn7.21011CV05

Fn0013801C

V053901C Fn001

6901C

1801DB

OV5

GN

DM

GN

D1

9701DB

2701CIRT.X.X-M5I6651CS

NIV1

2 NE

DNG

3

4JDA

Fn0017011C

5701RmhoK51

W01/1

4211CFu001V61

3211CFn001V61

0211C

Fn001

Fn0015111C

Fn0014011C

7311C

Fn001Fn001

6311C4311C

Fn001

5311C

Fn001

4701RmhoK01V61

Fu0011211C

V61Fn0012211C

V61Fu0015211C

V614701C

Fn001

1111C

Fn001

2_V3.3B

8801CFu01

V61

8701DB

V61Fu01

2701C

6701DB

3011C

Fn001

Fn0015901C

5801CFu01

V61

Fn0010901C

V61Fu01

9801C

V61Fu01

2901C

8011CFu01

V61

V61Fu01

3111C

9011CFu01

V61

V61Fu01

2011C

8.1DV_XP

4901CFu01

V61

DNGP_XP

CCVA_XP

DNGA_XP

V3.3B_HDDV

SSA_GB_3DDVA_XP

SSA_GB_SSVA_XP

DDV_SDVL_XP

SSV_SDVL_XP

CCVGER_XP

DNGD_XP

CCVP_XP

LLPASSVA_XP

LLPADDVA_XP

1CDA_3DDVA_XP

2CDA_3DDVA_XP

FUBTUO_3DDVA_XP

FUBTUO_SSVA_XP3CDA_SSVA_XP

4CDA_SSVA_XP

1SSVAP_XP

1DDVAP_XP

2SSVAP_XP

2DDVAP_XP

LLPLLSSVA_XP

LLPLLDDVA_XP

1CDA_DDVA_XP

2CDA_SSVA_XP

3CDA_DDVA_XP

1CDA_SSVA_XP

2CDA_DDVA_XP

4CDA_DDVA_XP

2FLP_XP

1FLM_XP


10-11 SVP-PX POWER BLOCK

PowerSignal

Schematic Diagram


NOITPO ETELED

NOITPO PHF

TIB 31

NOITPO PHF

NOITPO PHF

NOITPO ETELED

DAOLNWOD CIGOL LENAP

NOITPO LED

XR TRAU : +bKLC_xT_TIB21

DAOLNWOD CIGOL

NOITPO LED

NGISSA NIP

XT TRAU : -bKLC_xT_TIB21

NOITPO PHF

1

mho0018251R

V05

6251C

Fn01

0251PT

1

2151PT1

1051C

Fu74

FERX

9051PT

3 4

5 6

7 8

V61

W61/1

mho22

4051AR

1 2

Fn001

1351C

XREF1

2351PT

1

1351PT

FERX

FERX

V61Fn001

7151C

3351R

XREF

1

0o

hm

R1508

mho0

Fu1

5151PT

FERX

FERX

7051C

6351R

4D

8D6

79D

01D8

CCV9

mho0

94

DNG5

0572D

150D

1D25

35DNG

2D45

3D55

65

14

24M2NIXT

DNGSDVL34

44CCVSDVL

54P1NIXT

M1NIXT64

P0NIXT74

84M0NIXT

DNGSDVL

43DNGLLP

53

63DNGSDVL

73P3NIXT

M3NIXT83

93PKLCXT

7D4

MKLCXT04

P2NIXT

7242D

52D82 92

DNG

36D

62D03

NIKLC13

23NDP

33DNGLLP

CCVLLP

25D

91D02

DNG12

2202D

3212D

22D42

32D52

62CCV

21

DNG31

4141D

5151D

6161D

F/R71

8171D

9181D

4051CI

A58ML43CTD

SR1

0111D

1121D

31D

FERX

Fn01

1251CV05

4351CFp51

V05

FERX

4051C

Fn001

FERX

mho0

V618051C

Fn001

5351R

FERX

1_V3.3B

V61

2251R

W01/1

mho001

mho001

W01/11251R

10

0o

hm

1/1

0W

5251R

1

9151PT1

8051PT

Fn001

3151CV61

Fn01

4151CV05

7051PT1

W01/1

9251Rmho0

R1502

0o

hm

mho00351R

W01/1

7

8

9

1DNGM

2DNGM

Fn0015351C

62

72

82

92

3

03

13

4

5

6

61

71

81

91

2

02

12

22

32

42

52

1

01

11

21

31

41

51

1051AJ

7151R mho22

0o

hm

R1503

8

4351R mho0

12

34

56

7

Fn01

5051CV05

1/1

6W

22

oh

m

RA

1503

R1505

10

0o

hm

FERX

79D

01D8

CCV9

R1507

1/1

0W

0o

hm

72D

150D

1D25

35DNG

2D45

3D55

654D

8D6

34

44CCVSDVL

54P1NIXT

M1NIXT64

P0NIXT74

84M0NIXT

DNGSDVL94

DNG5

05

DNGSDVL

73P3NIXT

M3NIXT83

93PKLCXT

7D4

MKLCXT04

P2NIXT14

24M2NIXT

DNGSDVL

DNG

36D

62D03

NIKLC13

23NDP

33DNGLLP

CCVLLP43

DNGLLP53

6312

2202D

3212D

22D42

32D52

62CCV

7242D

52D82 92

4141D

5151D

6161D

F/R71

8171D

9181D

25D

91D02

DNG

A58ML43CTD

SR1

0111D

1121D

31D21

DNG31

R1526

0o

hm

2051CI

mhoK01

1051R

1

1051PT

1

2151C

Fu1

6051PT1

5051PT

Fu1

4251C

mho00151R

FERX

1_V3.3B

FERX

Fu74

0351C

V61

3251PT1

Fn01

8151CV05

8

V61Fu0010151C

12

34

56

7

FERX

V5A

1/1

6W

22

oh

m

RA

1508

9151R mho0

FERX

2351R mho001

12

34

56

78

8151PT1

1/1

6W

22

oh

m

RA

1507

Fu13251C

A12

A23

4DNG

5B2

B16

72EO/

CCV8

5051CIX8K5213DBW7CN

1EO/1

12

34

56

78

FERX

1/1

6W

22

oh

m

RA

1505

2351C

Fu1

3051C

Fp51V05

1A2B

9051C JDA

1

2TUOVNIV

3

3051TF

-

1051CI

A81-D7111PA

mho04151R

34

56

78

5151R mho22

1/1

6W

22

oh

m

RA

1502

12

A1 2BV05

5151C

Fn1

1/1

0W

R1506

-

2051TF

1251PT1

0o

hm

98

VS

SE

99

BLU

_O

UT

00

FERX

09D33SSVA

19D33DDVA

29ESSV

TUOKLC39

49TUO_NED

59TUO_CNYS_H

69TUO_CNYS_V

97

VD

DE

NCT38

48VRD33DDVA

58VRD33SSVA

PBT68

78NBT

88PAT

98NAT

9D33SSVA

PDT67

77NDT

VRD33DDVA87

VRD33SSVA97

8ISSV

PKLCT08

18NKLCT

28PCT

9611TUO_NRG

IDDV7

GNIMMID_MWP07

GNIMMID_ANA17

27A33DDVA

37A33SSVA

PET47

57NET

61

GR

N_O

UT

05

62

GR

N_O

UT

06

63

GR

N_O

UT

07

64

VD

DE

56ESSV

80TUO_NRG66

7690TUO_NRG

01TUO_NRG86

54

GR

N_O

UT

00

55

GR

N_O

UT

01

GR

N_O

UT

02

56

57

GR

N_O

UT

03

VD

DI

58

59

VS

SI

63NITSET

GR

N_O

UT

04

60

47

VS

SI

48

RE

D_O

UT

08

49

RE

D_O

UT

09

52NITSET

RE

D_O

UT

10

50

51

RE

D_O

UT

11

52

VD

DE

53

VS

SE

39

4NENACS

40

VD

DI

41

VS

SI

42

RE

D_O

UT

04

43

RE

D_O

UT

05

44

RE

D_O

UT

06

45

RE

D_O

UT

07

46

VD

DI

237NITSET

33

TE

ST

IN8

34

VD

DE

35

VS

SE

36

RE

D_O

UT

00

37

RE

D_O

UT

01

RE

D_O

UT

02

38

RE

D_O

UT

03

52A33SSVA

A33DDVA62

72IDDV

ISSV82

924NITSET

3KLCTSET

035NITSET

136NITSET

81NKLCNIR

91PKLCNIR

21NITSET

02SDVLSSV

12N4NIR

P4NIR22

32N5NIR

42P5NIR

12

6T

MO

DE

0

12

7V

DD

E

12

8V

SS

E

31N2NIR

41P2NIR

51SDVLDDV

61N3NIR

71P3NIR

11

9I2

C_S

DA

21P1NIR

12

0I2

C_S

CL

12

1V

DD

I

VS

SI

12

2

12

3nR

ES

ET

12

4T

MO

DE

2

TM

OD

E1

12

5

11

0

11

1B

LU

_O

UT

08

11

2B

LU

_O

UT

09

11

3B

LU

_O

UT

10

11

4B

LU

_O

UT

11

11

5V

DD

E

11

6V

SS

E

11

7I2

C_A

DD

R01

11

8I2

C_A

DD

R00

10

3

10

4V

SS

I

10

5B

LU

_O

UT

04

10

6B

LU

_O

UT

05

10

7B

LU

_O

UT

06

BLU

_O

UT

07

10

8V

DD

I1

09

11N1NIR

VS

SI

10NITSET

01D33DDVA

10

0B

LU

_O

UT

01

10

1B

LU

_O

UT

02

BLU

_O

UT

03

10

2V

DD

I

2051DB

B

10X851DL4S

3051CI

R1504

0o

hm

FERX

EN006P23BIC

1151C

V61Fu22

2151R mho0

Fn001

2251CV61

1_V3.3B

Fp518251C

1

4051PT1

V05

2251PT1

1151PT

8

3151PT1

FERX

12

34

56

7

1

FERX

1/1

6W

22

oh

m

RA

1501

56

78

2051PT

1/1

6W

22

oh

m

RA

1506

12

34

1051TF

- 1A2 B

V61

5251C

Fn001

mho0011351R

FERX

1151R mho22

3151R mho22

0o

hm

R1527

1

FERX

4251R

1/1

0W

3051PT

1_V3.3B

10

0o

hm

7451R mhoK1

6451R mhoK1

Fn1

6051CV05

6151PT1

mho0

V05Fp51

8351R

mho08151R

7251C

R1509

0o

hm

4151PT1

EN006P23BIC

B

FERX

1

1051DB

mho0

7151PT

9351R

0451R

1451PT

1

FERX

mho0

V05

Fn1

9151CV05

Fn1

0251C

2051C

Fn001

0251R mho001

3451R mho0

mho04451R

12

34

56

78

0151PT1

1/1

6W

22

oh

m

RA

1509

V3.3A

V05Fp51

9251C

W01/1

2451RmhoK1

W01/1

1451RmhoK1

mho07351R

3351CFp51

V05

3251R

Fu16151C

6151R mho0

10

0o

hm

1/1

0W

9451R mho0

mho08451R

5451R mho0

mho01651R

mho0

mho01551R

-b0_xT_TIB21

+B3TUOXT

-B3TUOXT

-b0_xT_TIB21

+B3TUOXT

+b0_xT_TIB21

+bKLC_xT_TIB21

SMPD_CIGOL

0551R

GUBED_DXT

GUBED_DXR

-bKLC_xT_TIB21

+bKLC_xT_TIB21

-bKLC_xT_TIB21

+bKLC_xT_TIB21

-bKLC_xT_TIB21

+bKLC_xT_TIB21

+b0_xT_TIB21

OGPDP_PHF

YDAER_C2I

YDAER_C2I

NWOD_CIGOL

V3.3_VT_4ADS

TUOKLC_EIND

-B3TUOXT

+3_xT_TIB21

-3_xT_TIB21

-bKLC_xT_TIB21

+KLC_xT_TIB21

-KLC_xT_TIB21

+2_xT_TIB21

-2_xT_TIB21

+b1_xT_TIB21

-b1_xT_TIB21

+1_xT_TIB21

-1_xT_TIB21

+0_xT_TIB21

-0_xT_TIB21

V3.3_VT_4LCS

)3(TUOB_EIND

)0(TUOR_EIND

)1(TUOR_EIND

+b0_xT_TIB21

-b0_xT_TIB21

+b1_xT_TIB21

-b1_xT_TIB21

)11:0(TUOB_EIND

)11:0(TUOR_EIND

)11:0(TUOG_EIND

TUOSH_EIND

TUOSV_EINDTUOED_EIND

TUOKLC_EIND

)11:0(TUOR_EIND

)11:0(TUOG_EIND

)11:0(TUOB_EIND

NE_SDVL

TUOSV_EIND

TUOSH_EIND

TUOED_EIND

)11:0(TUOB_EIND

)11:0(TUOR_EIND

)11:0(TUOG_EIND

TUOSH_EIND

TUOSV_EIND

TUOED_EIND

TUOKLC_EIND

NE_SDVL

)2(TUOR_EIND

)3(TUOR_EIND

)0(TUOG_EIND

)1(TUOG_EIND

)0(TUOB_EIND

)1(TUOB_EIND

)2(TUOG_EIND

)3(TUOG_EIND

)2(TUOB_EIND

)8(TUOG_EIND

)9(TUOG_EIND

)4(TUOB_EIND

)01(TUOB_EIND

)11(TUOB_EIND

)5(TUOB_EIND

)6(TUOB_EIND

)6(TUOR_EIND

)7(TUOB_EIND

)8(TUOB_EIND

)9(TUOB_EIND

)01(TUOR_EIND

)7(TUOR_EIND

)8(TUOR_EIND

)11(TUOR_EIND

)9(TUOR_EIND

)4(TUOG_EIND

)5(TUOG_EIND

)6(TUOG_EIND

+0_xT_TIB21

-0_xT_TIB21

+1_xT_TIB21

-1_xT_TIB21

+2_xT_TIB21

-2_xT_TIB21

+3_xT_TIB21

-3_xT_TIB21

DN

IE_B

OU

T(0

)

DN

IE_B

OU

T(7

)

DN

IE_B

OU

T(6

)

DN

IE_B

OU

T(5

)

DN

IE_B

OU

T(4

)

DN

IE_B

OU

T(1

1)

DN

IE_B

OU

T(1

0)

DN

IE_B

OU

T(9

)

DN

IE_B

OU

T(8

)

)11:0(TUOB_EIND

+KLC_xT_TIB21

-KLC_xT_TIB21

)4(TUOR_EIND

)5(TUOR_EIND

)01(TUOG_EIND

)11(TUOG_EIND

)7(TUOG_EIND

)11:0(TUOG_EIND

DN

IE_R

OU

T(8

)

DN

IE_R

OU

T(9

)

DN

IE_R

OU

T(1

0)

DN

IE_R

OU

T(1

1)

DN

IE_R

OU

T(4

)

DN

IE_R

OU

T(5

)

DN

IE_R

OU

T(6

)

DN

IE_R

OU

T(7

)

DN

IE_R

OU

T(0

)

DN

IE_R

OU

T(1

)

DN

IE_R

OU

T(2

)

DN

IE_R

OU

T(3

)

)11:0(TUOR_EIND

DN

IE_B

OU

T(3

)

DN

IE_B

OU

T(2

)

DN

IE_B

OU

T(1

)

)1(E_VL

)2(E_VL

)3(E_VL

)4(E_VL

)5(E_VL

)6(E_VL

)7(E_VL

)8(E_VL

)9(E_VL

)11:0(TUOG_EIND

DN

IE_G

OU

T(0

)

DN

IE_G

OU

T(1

)

DN

IE_G

OU

T(2

)

DN

IE_G

OU

T(3

)

DN

IE_G

OU

T(4

)

DN

IE_G

OU

T(5

)

DN

IE_G

OU

T(6

)

DN

IE_G

OU

T(7

)

)11(TUOG_EIND

)01(TUOG_EIND

)9(TUOG_EIND

)8(TUOG_EIND

V3.3_VT_4LCS

V3.3_VT_4ADS

EBL_TESER

)9:0(E_VL

)0(E_VL


10-12 LBE & PWM CONTROL & PANEL I/F

PowerSignal

Samsung Electronics

Schematic Diagram

10-13

zhM052.47 L H

3-40242YC

2KLC/1KLC 1LESF 0LESF

KCAJ BSU

zhM720.72 H L

zhM571.47 H H

zhM72 L L

Fn001

SDVL

8002R

mhoK7.4

6102C

mho0017302R

3Y

mho0013102R

3T

OIPG/3QRIXE1U

2U 2QRIXE

PDBSU1V

OIPG/4QRIXE2V

NIRRI3V

1WNDBSU

1YVOBSUN

KLCBSU

RFPSS1P

2TSET2P

3TSET3P

XRPSS1R

2RKLCPSS

1TXTPSS

1QRIXE2T0QRIXE

OIPG/ODT9A

OIPG/IDT9A3K

OIPG/KCT7A

1L

2LOIPG/SMT7A

OIPG/NTSRT7A

1M

2MOIPG/ODT7A

3MOIPG/IDT7A

0TSET1N

1TSET2N

2GTAD_DC2I

1HKLC_EC2I

TAD_EC2I

2H

OIPG/KCTR9A3H

1JOIPG/KCT9A

OIPG/SMT9A2J

OIPG/NTSR9A1K

2K

OIPG/XTBTRAU1D KLC_BC2I

2D

1EKLC_AC2I

2ETAD_BC2I

TAD_AC2I

1F

2FKLC_CC2I

TAD_CC2I

3F

KLC_DC2I

1G

TUOW2EA

1LIFA41FA

TUOTSR71FA

IXRRI81FA

TUOMWP42FA

XRATRAU1B

OIPG/XRBTRAU1C

2C XTATRAU

1LIFC

3LIFA41DA

nTESERS61DA

KLCDIV71DA

OIPG/ODT61A2DA

QERW1EA

2LIFA51EA

72KLCM71EA

OXRRI81EA

OIPG/SMT61M

OIPG/ODT61M1BA

2BAOIPG/IDT61M

OIPG/KCT61M3BA

1CAOIPG/NTSRT61A

OIPG/SMT61A2CA

3CAOIPG/KCT61A

OIPG/IDT61A1DA

21DA

4-1002CI

1112H5S

1AAOIPG/NTSRT61M

2AA

R2

09

74.7

Kohm

4.7

Kohm

R2

09

6

R2

09

54.7

Kohm

CCV_V5B

Fn01

1202C

D

G

S

1102CFu74V3.6

L2007N22002Q

4402RmhoK01

mho0013202R

2

3

4

5

6

7

8

MG

ND

1M

GN

D2

L80-RW70521

2002NC

1

V055002C Fp72

CD

S3

C3

0G

TH

D2

00

2

4102C

Fn01

V05

W01/1mho0 6302R

9302Rmho0 W01/1

Fu01V61

W01/1

1002C

6002R mho72

5602Rmho0

Fn0012002C

mho743902R

4.7

Kohm

R2

08

9

4202R mho001

1

mho0016502R

LAVLPUS

2002PT

mho0019402R

R2081

4.7

Kohm

4.7

Kohm

R2

08

5

8202R

mhoK51

W01/1

R2086

4.7

Kohm

3002DB

6602Rmho33

3002QL2007N2

D

G

S

8.1DV_XP

2102C

Fn033

R2084

4.7

Kohm

mho0018502R

Fp0930102C

Fn8.19002C

9902R mho74

D2

00

1C

DS

3C

30

GT

H

9502Rmho001

mho0010202R

Fn001

3102C

V61

2302R mho001

mho726202R

W01/1

1602Rmho33

4.7

Kohm

R2

07

6

Fu015102C

NIX1

TUOX61

4.7

Kohm

R2

08

3

2KLC

0SF01

1SF41

CN7

51EO

81KLCFER

4OXCV

2DDV

11LDDV

31SSV

6LSSV

3002CI

1-40242YC

DDVA3

SSVA5

1KLC21

9

mho33 4602R

Fp723002CV05

1_V3.3B

4.7

Kohm

R2

08

7

DNG2

TUO3

CCV4

4.7

Kohm

R2

07

4

zHM0.84

972540084L2002X

WS1

7102R mho001

CCV_V5B

1_V3.3B

1002DB

4102Rmho001

mho33 8602R

2102R

Fn18002C

mho001

mho001

0702Rmho33

4502R

1

R2082

4.7

Kohm

1002PT

LAVLPUS

R2088

4.7

Kohm

mho001 1502R

0602R mho001

8402R mho001

R2073

4.7

Kohm

R2077

4.7

Kohm

mho0015302R

mho0019202R

0302R mho001

Fn001

6002C

V61

1202R mho001

2602Rmho33

mho744902R

R2

08

0

1_V3.3B

4.7

Kohm

R2

09

8

4.7

Kohm

Fn5.17002C

R2075

4.7

Kohm

mhoK011902R

Y-3261CSK

6002Q

E

BC

W01/12902RmhoK01

5502Rmho0

mho001 7502R

2502R mho001

2202R

1402R mho001

4.7

Kohm

mho001

0102R mho001

R2

09

0

0402R mho001

1102Rmho0

3502Rmho0

1

2

3

4

1DNGM

2DNGM

1002NC

mho0012402R

4.7

Kohm

R2

07

8

mho0013402R

4.7

Kohm

R2

00

5

1/1

0W

9102R mhoK1

1_V3.3B

mhoK1 6102R

2002DB

BC

50V

1nF

C2

00

4

1_V3.3B

5002Q

Y-3261CSKE

mho727002R

8302R mho001

L2007N24002Q

D

G

S

mho0015102R

mho223302R

W01/1

7602Rmho0 W01/1

1_V3.3B

8102R mho001

mhoK1 1302R

W01/1mho0 3602R

mhoK7.49412R

W01/1

7202R

7402R mho001

1

Q0

Q1

2Q

234

Q3

mhoK51

W01/1

W01/1 mho33

1002X

zH867.23)mpp02,zHK867.23(S62-XMD

4302R

mhoK01

1_V3.3B

mhoK7.41702R

5402R

W01/1mho0 9602R

2702RmhoK01

mho001 9002R

W01/1

mhoK1

0502R

R2079

4.7

Kohm

OU

T3

VC

C4

mho725202R

W01/1

zHM0.72

)MPP05,zHM72(EH0573K

3002X

SW

1G

ND

2

Y-3261CSK

7002Q

E

BC

1_V3.3B

mho0741512R

W01/1

SMPD_CIGOL

mho0016402R

+0D_LAIRES

656CER_WS

TNI_2576AAS

30109_2576_TESER

7528VTS_6LCS

7528VTS_6ADS

V3.3_VT_4LCS

V3.3_VT_4ADS

REZILAIRES_M72

W323ATS_TESER

GUBED_DXT

GUBED_DXR

TENYNA_DXR

TENYNA_DXT

PD_BSU

ND_BSU

ND_BSU

PD_BSU

V5_VT_5LCS

NEPVn

652C42_PW

V5_VT_5ADS

-0D_LAIRES

CDD_WS

IDT_9MRA

652C42_2LCS

MOCIMS_3ADS

MOCIMS_3LCS

TSRp

TSRT_9MRA

IDT_9MRA

SMT_9MRA

KCT_9MRA

ODT_9MRA

TSRT_9MRA

ODT_9MRA

KCT_9MRA

SMT_9MRA

1LES_DNUOS

0LES_DNUOS

ST_RVP_WS

652C42_2ADS

RI

RTNC_RI

EKAL_M47

EKAL_M72SYS

MWP

OTESERn

TESERn_UPC

TNI_PVS

TNI_NALp

YDAER_C2I

MWP

EKAL_M47

EKAL_M72SYS

1LESF

0LESF


10-13 LAKE (I2C & GPIO & USB & UART & INT)

PowerSignal

Schematic Diagram


EHCSROP ROF

EGNAR CIMANYD ROF

mho571312R

mho221112R

mho0016012R

5012R mho001

1012AR1 2

3 4

5 6

7 8

3 4

5 6

7 8

22

3012AR

22

1 2

22

1 2

3 4

5 6

7 8

4.7

Ko

hm

R2

12

3

2012AR

4.7

Ko

hm

R2

12

2

W01/1mho33

mho0018012R

1012R

4.7

Ko

hm

R2

12

6

R2

12

74

.7K

oh

m

3012R mho001

V61Fu01

1212C

A 1B2

W01/1

5412R mhoK01

1_V3.3B

3012DB

CCV5

4.7

Ko

hm

R2

12

0

4012CI

VG621G1TCH47

EO1

A2

DNG3

Y4

5

5A6

76A

7A8

8A9

61

712B

1B81

EO/91 2

1A

02CCV

32A

3A4

4A

2012CI

RID1

01DNG8B

11

217B

6B31

415B

514B

3B

2012C

Fn001

XCTM542XCL47

1A2B

CCV_V5B

2012DB

V61Fu014012C

6112R

mho074 0312R

mho22 mho74

5012C

Fn001

5112R

3012C

Fu01

V61

5112CFu01

V61

2112R mho57

9012R mho001

1TUO2

-1NI3

+1NI

EEV4

+2NI5

6-2NI

2TUO7

8CCV

1_V3.3B

TDC260LT

5012CI

1

9112R

mhoK74 R2

12

44

.7K

oh

m

521_1_V3.3B

CCV_V5B

4.7

Ko

hm

R2

12

5

mho223112R

mho0012012R

1 2

3 4

5 6

7 8

4012AR

225DCDH

7FA0DXCDH

4DXCDH8FA

7DXCDH9FA

0112R mho22

2FA1DYDH

TUOXTS2I02FA

DILAVT12FA

2ATADT22FA

OIPG/5ATADT32FA

3FA2DYDH

7DYDH4FA

5FA2DCDH

6FA

6EA

7DCDH7EA

8EA3DXCDH

9EA6DXCDH

0DYDH1FA

KLCDH01FA

TCAH11FA

CMXTS2I91FA

CRLXTS2I02EA

KLCT12EA

22EAOIPG/1ATADT

4ATADT32EA

42EAOIPG/7ATADT

3DYDH3EA

4EA6DYDH

5EA1DCDH

4DCDH

5DA

3DCDH6DA

7DA6DCDH

2DXCDH8DA

9DA5DXCDH

NYSVDH01EA

DLEIFH11EA

NIDSXRS2I91EA

CRLXRS2I91DA

CBXTS2I02DA

TUO_FIDPS12DA

0ATADT22DA

OIPG/3ATADT32DA

OIPG/6ATADT42DA

4DYDH3DA

4DA5DYDH

0DCDH

3-1002CI

1112H5S

CBXRS2I81CA

1DXCDH8CA

01DANYSHDH

CMXRS2I81DA

0212C

Fu01V61

V61Fu012112C

V61Fu01

7112C

mho0019212R

4012R mho001

R2

12

14

.7K

oh

m

9112CFn2.2

V05V05Fn2.28112C

DNGA

9

V61Fu016112C

KCS

61

2ATAD

3KCRL

DNGD 4

CN 5

CCV 6

7LTUOV

RTUOV 8

RQBD4571MCP

3012CI

1KCB

01MOCV

AOREZ

11

21TSET

PMED

31

41ETUM

51TMF

CCV_V5B

C

mhoK010512R

W01/1

1012QY-3261CSK

E

B

A1

B 2

V61Fu011012C

1012DB

8212Rmho074

4112R mho74

mho748112R

7112R mho74

V8B

mho0017012R

W01/1

8412R

mhoK03

mhoK014412R

W01/1

3412R mhoK15

mhoK03

7412RW01/1

W01/1

mhoK111412R

W01/1

mhoK152412R

W01/1

W01/1

6412RmhoK11

)9:0(Y_CT

Fn001

3112C

NI_RS_VTD_IMDH

CIMANYD_NI_LS_VTD_IMDH

CIMANYD_NI_RS_VTD_IMDH

NI_LS_VTD_IMDH

)7(Y_PVS

)6(Y_PVS

)5(Y_PVS

)4(Y_PVS

)3(Y_PVS

)2(Y_PVS

)1(Y_PVS

)0(Y_PVS

)7:0(Y_PVS

656CER_WS

KLC_CT

KLC_PVS

656CER_WSCIMANYD_NI_LS_VTD_IMDH

CIMANYD_NI_RS_VTD_IMDH

NO_ANL

)9(Y_CT

)8(Y_CT

)7(Y_CT

)6(Y_CT

)5(Y_CT

)4(Y_CT

)3(Y_CT

)2(Y_CT

KLC_PVS

SH_PVS

SV_PVS

1FR_WSHCVTD_1LCS

HCVTD_1ADS

TESER_RENUT

0LESF

1LESF

TUO_FIDPS_EKAL

2FR_WS

)3(C_PVS

)4(C_PVS

)5(C_PVS

)6(C_PVS

)7(C_PVS

)7:0(C_PVS

KLCS_IMDH

KLCRL_IMDH

ODS_IMDH

KLCM_IMDH

)7:0(Y_PVS)0(Y_PVS

)1(Y_PVS

)2(Y_PVS

)3(Y_PVS

)4(Y_PVS

)5(Y_PVS

)6(Y_PVS

)7(Y_PVS

)0(C_PVS

)1(C_PVS

)2(C_PVS

DLVST_MAS

KLCST_MAS

)7:0(ST_MAS)0(ST_MAS

)1(ST_MAS

)2(ST_MAS

)3(ST_MAS

)4(ST_MAS

)5(ST_MAS

)6(ST_MAS

)7(ST_MAS


10-14 LAKE (I2S IN/OUT & TS-IN & YCbCr-OUT)

PowerSignal

Samsung Electronics

Schematic Diagram

10-15

175100-5011 : RDDG

175100-5011 : RDDG

EKAL_V5.2

mho051

0222R

W01/1

7122C

Fn001

V61

6122CFu2.2V53V61

Fn001

8122C

6122R mho33 W01/1

W01/1

9122R

mho051

W01/1mho334022R

W01/1mho338122R

3022R mho33 W01/1

W01/1mho332022R

1122R mho33 W01/1

0122R mho33 W01/1

mho337022R

W01/1mho334122R

5122R mho33 W01/1

W01/1

W01/1mho339022R

mho33 W01/1

W01/1mho333122R

7122R mho33 W01/1

6022R

2122R

5022R mho33 W01/1

W01/1mho33

8022R mho33 W01/1

V61

Fn001

9022C8022C

Fn001

V61V61

Fn001

7022C

V61

Fn001

2122C

6022C

Fn001

V61

46

5651QD

SSV66

73QD

4QD8

QDDV9

01QD

QSSV85

11QD95

QSSV6

0621QD

QDDV16

2631QD

3641QD

QSSV

5

CN05

15SQDU

QSSV25

CN35

458QD

QDDV55

659QD

75

24CN

34

44EKC

54KC

KC/64

MDU74

84SSV

94FERV

2QD

4A

635A

6A73

7A83

938A

1QD4

9A04

1411A

21A

82

0A92

3QDDV

031A

132A

3A23

DDV33 43

SSV

53

02

EW/12

22SAC/

32SAR/

SC/42

CN52

620AB

721AB

PA,01A

7QD31

41CN

51QDDV

61SQDL

CN71

81DDV

91CN

20QD

MDL

DDV1

015QD

116QD

QSSV21

Fn001

5022C

V61

F836155D4K

2022CI

5122C

Fn001

V61V61

Fn001

0122C

V61

Fn001

4122C

5022AR

1 2

3 4

5 6

7 8

3 4

5 6

7 8

W61/1

33

7 8

W61/1

334022AR

1 2

33

W61/1

1 2

3 4

5 6

2

3 4

5 6

7 8

3022AR

7 8

W61/1

332022AR

1

33

W61/1

1 2

3 4

5 6

W01/1mho33

1022R

1022AR

5 6

7 8

3 4

1 2 33

W61/1

1122AR

62Y9QDMB

EKAL_V5.2EKAL_V5.2

EKAL_V5.2

EKAL_V5.2

Fn001

V61

4022C

62U

21QDMB42V

52V1RDDAM

62V2RDDAM

42W01QDMB

11QDMB52W

3RDDAM62W

8QDMB52Y

42R

SARNM52R

62RSCNM

42T41QDMB

52T0ABM

1ABM62T

42U31QDMB

52U01RDDAM

0RDDAM

21RDDAM

EKCM62M

1FERV42N

52NKLCM

KLCNM62N

42P0FERV

EWNM52P

62PSACNM

51QDMB

62J

42K91QDMB

81QDMB52K

62K8RDDAM

71QDMB42L

9RDDAM52L

11RDDAM62L

42M61QDMB

52M

62F

32QDMB52G

62G22QDMB

42H12QDMB

4RDDAM52H

62H5RDDAM

02QDMB42J

52J6RDDAM

7RDDAM

82QDMB

52C72QDMB

62QDMB62C

52D52QDMB

42QDMB62D

52E3SQDMB

62E3MQDMB

2MQDMB52F

2SQDMB

4QDMB52DA

62DA5QDMB

52EA2QDMB

3QDMB62EA

0QDMB52FA

62FA1QDMB

92QDMB52B

62B

13QDMB52A

62A03QDMB

52AA1MQDMB

62AA1SQDMB

0SQDMB52BA

0MQDMB62BA

52CA6QDMB

7QDMB62CA

4

5 6

7 8

2-1002CI

1112H5S

6022AR 33

W61/1

1 2

3

33

W61/1

1 2

3 4

5 6

7 86

3 4

1 2

7022AR

0122AR

W61/1

33

7 8

5

8022AR

1 2

3 4

5 6

7 8

5 6

3 4

1 2

W61/1

33

33

W61/1

9022AR

7 8

V61

Fn001

2022C

1122C

Fn001

V61

3022C

Fu001

V61V61

56

66SSV

3QD7

84QD

9QDDV

3122C

Fn001

QSSV

9511QD

6QSSV

21QD06

16QDDV

2631QD

41QD36

46QSSV

51QD

05CN

SQDU15

25QSSV

35CN

8QD45

QDDV55

9QD65

01QD75

85

CN

EKC44

KC54

64KC/

74MDU

SSV84

FERV94

52QD

63

736A

837A

8A93

41QD

049A

11A14

2421A

34

920A

QDDV3

1A03

2A13

233A

33DDV SSV

434A

535A

EW/

SAC/22

SAR/32

42SC/

52CN

0AB62

1AB72

82PA,01A

41

QDDV51

SQDL61

71CN

DDV81

CN91

0QD2

02MDL

12

F836155D4K

1022CI

1DDV

5QD01

6QD11

21QSSV

317QD

CN

1022C

Fn001

V61

KLCNn

EKCN

SARN

SACN

SCN

0ABN

1ABN

RDD_EWN

1SDUN

0MDLN

0MDUN

1MDLN

1MDUN

KLCN

4RDDAN

5RDDAN

6RDDAN

7RDDAN

8RDDAN

9RDDAN

01RDDAN

11RDDAN

21RDDAN

0SDLN

0SDUN

1SDLN

11ATADN

21ATADN

31ATADN

41ATADN

51ATADN

61ATADN

71ATADN

81ATADN

91ATADN

02ATADN

12ATADN

22ATADN

32ATADN

42ATADN

52ATADN

62ATADN

72ATADN

82ATADN

92ATADN

03ATADN

13ATADN

0RDDAN

1RDDAN

2RDDAN

3RDDAN

0ATADN

1ATADN

2ATADN

3ATADN

4ATADN

5ATADN

6ATADN

7ATADN

8ATADN

9ATADN

01ATADN

NFERV

NFERV

NFERV

KLCNn

1MDUN

81ATADN

1SDUN

42ATADN

52ATADN

62ATADN

72ATADN

82ATADN

92ATADN

03ATADN

13ATADN

91ATADN

02ATADN

3RDDAN 4RDDAN

5RDDAN

6RDDAN

7RDDAN

8RDDAN

71ATADN

9RDDAN

11RDDAN

21RDDAN

EKCN

KLCN

32ATADN

1SDLN

61ATADN

1MDLN

RDD_EWN

SACN

SARN

SCN

0ABN

1ABN

01RDDAN

0RDDAN

1RDDAN

2RDDAN

3ATADN

4ATADN

5ATADN

6ATADN

7ATADN 8ATADN

9ATADN

01ATADN

11ATADN

21ATADN

31ATADN

41ATADN

51ATADN

12ATADN

22ATADN

7RDDAN

9RDDAN

11RDDAN

EKCN

2RDDAN

3RDDAN 4RDDAN

5RDDAN

6RDDAN

0ATADN

1ATADN

2ATADN

0RDDAN

1RDDAN

0ABN

1ABN

SCN

SACN

SARN

RDD_EWN

8RDDAN

21RDDAN

01RDDAN

0MDLN 0MDUN

0SDLN 0SDUN

KLCN

KLCNn


10-15 LAKE (DDR MEMORY)

PowerSignal

Schematic Diagram


LESMEM

KCEHC_TNIOP_PT

mm45.2:HCTIP

NOITPO

TRATS RETNUOC : 0

NOITAREPO ON : 1

FS-FM

A >- B : L RID

YROMEM HSALF

CN-FM

FM-FS

NOITPO LED

FS-RB

B >- A : H RID

1132C

V61

Fn001

0132AR

12

34

56

78

33

W61/1

W01/1mho0 3032RW01/12032Rmho0

4191DC 11

3191DC 11

2191DC

1032DB

8091DC

2032DB

5

6

7

8

9

1DNGM

2DNGM

3DNGM

4DNGM

1442-ASK

1032WS

1

01

2

3

4

15191DC

3

43A

54A

65A

6A7

87A

98A

1_V3.3B

414B

51

613B

2B71

811B

91EO/

21A

CCV02

2A

3032CI

1RID

DNG01 11

8B

217B

316B

5B

5542A,PW/

65

681A

771A

61A8

9CCV

XCTM542XCL47

946QD

591A

41QD05

157QD

51QD25

STS35

EO/45

EW/

3QD

1411QD

DNG24

34QCCV,CCV

444QD

5421QD

645QD

7431QD

DNG84

33

438QD

531QD

9QD63

CCV73

832QD

01QD93

402A

04

2A72

821A 2EC,CN

92

CN,12A3

32A03

13ETYB/

0A23

0QD

1EC2

028A

12DNG

7A22

326A

425A

524A

3A62

11

2131A

3121A

0EC41

PPV,NEPV51

61PR/

7111A

01A81

9A91

021-A3J046F82E

2032CI

1CN,22A

51A01

41A

1

6032C

Fu016091DA

V05

Fn01

5032C

1_V3.3B

Fn001

V61

4032C

8132R

mhoK7.4

W01/1

7132R

mho33

8

mho336132R

33

9032AR

12

34

56

7

2

34

56

78

W61/1

8

33

W61/1

8032AR

1

7032AR

W61/1

12

34

56

7

33

Fn001

V61

0132C

4232Rmho0

78

56

34

12

CCV_V5B

5132R

33W61/1

5032AR

mho33

1

34

56

78

2091DNG

W61/1 33

2032AR

12

4032R mho33W01/1

1191DC 1

3091DNG 11

0191DC 1

9091DC

1232CFp01

V05

1

W01/1

2332Rmho65

5191DA 1

6191DA

1

4191DA 1

3191DA

7032C

Fn001

1

R2

32

24

.7K

oh

m

1

TESERN_UPC

1

1_V3.3B

1091A

1

5091DA

1_V3.3B

4091DA

1

1291DA 1

0291DA

4291DA 1

mho01332R

4091DNG 1

3291DA 1

1091CN 1

1

5091CN 1

6191DC

1

3032C

NEPVN

2032C

Fn01

V05

Fu001

V61

1032C

V61

Fn001

2291DA 1

1_V3.3B

Fu01 Fn001

8032C

3091DA 1

9032C

2091DA 11

1091DA 1

2091CN

02CTIAWC

42COIPG/6XSCCMS

3C2SCCMS

4C42DACMS

6C52DACMS

TIAWMS8C

3SCCMS9C

0DACMS3D

02DACMS3B

71DACMS4B

5B2DACMS

4DACMS6B

7B6DACMS

8DACMS8B

OIPG/4XSCCMS9B

OIPG/5XSCCMS91C

01ADCMS81B

11ADCMS91B

81DACMS2B

21ADCMS02B

31ADCMS12B

22B41ADCMS

51ADCMS32B

42BOIPG/7XSCCMS

01B22DACMS

11B9DACMS

11DACMS21B

31B31DACMS

41B61DACMS

51BKLCCMS

8ADCMS61B

71B9ADCMS

ER_CMS42A

3A0SCCMS

4A1DACMS

3DACMS5A

6A5DACMS

7DACMS7A

8AEW_CMS

9A12DACMS

71A1ADCMS

2ADCMS81A

3ADCMS91A

2A91DACMS

4ADCMS02A

5ADCMS12A

6ADCMS22A

7ADCMS32A

TNCCMS1A

32DACMS01A

11A01DACMS

21DACMS21A

31A41DACMS

51DACMS41A

1SCCMS51A

0ADCMS61A

2091A 1

1112H5S

1-1002CI

11

1191DA 1

2191DA

1

0191DA

9091DA

6232R

7232Rmho0 W01/1

5232Rmho0 W01/1

W01/1mho0

1

2091DC 1

3091DC

1

1091DC 1

1091DNG

1

EWN 11

TNI_NALP

3091CN 1

TSRP

1

8191DA 1

9191DA

1

7191DA 1

4091CN

8

mho01032R

6032AR

12

34

56

7

4.7

Ko

hm

33W61/1

9132R

W01/1

mhoK7.4

R2

32

0

4.7

Ko

hm

R2

32

1

1132R mho33

2132R mho001

0132R mho33

1_V3.3B

9032RmhoK7.4

1_V3.3B

1032AR

12

34

56

78

76A

7A8

8A9

33W61/1

1B81

EO/912

1A

CCV02

32A

3A4

4A5

5A6

01DNG 8B

11

217B

316B

415B

514B

3B61

712B

1

XCTM542XCL47

4032CI

RID1

6091DC 1

7091DC

5091DC 1

W01/1

4091DC 1

3232RmhoK7.4

4132R

W01/1

mhoK7.4

mho33

3132R7032R

W01/1mhoK7.4

8032R

W01/1mhoK01

mhoK7.46032R

5032Rmho0 W01/1

12

56

34

78

78

W61/1 33

4032AR

W61/1

3032AR

12

34

56

8091DA 1

33

7091DA 11

SC_FSN 11

SC_RBN

EON 1

1091SCSN

)8(DA

)9(DA

)01(DA

)11(DA

)21(DA

)31(DA

)41(DA

)51(DA

)61(DA

)71(DA

)81(DA

)91(DA

)02(DA

)12(DA

)22(DA

)32(DA

)42(DA

SC_RBn

EOn

OTESERn

)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

)5(DC

)21(DC

)4(DC

)11(DC

)3(DC

)01(DC

)2(DC

)9(DC

)1(DC

)8(DC

)0(DC

)51:0(DC

NEPVn

TSRp

EWn

EOn

2SC_CMSn

SC_FSn

)42:0(DA

TNI_NALp

32A_)7(DC

22A_)6(DC

12A_)5(DC

02A_)4(DC

91B_)11(DC

81B_)01(DC

71B_)9(DC

61B_)8(DC

32B_)51(DC

22B_)41(DC

12B_)31(DC

02B_)21(DC

)51(DC

)7(DC

)41(DC

)6(DC

)31(DC

)3(DC

)11(DC

)4(DC

)21(DC

)5(DC

)31(DC

)6(DC

)41(DC

)7(DC

)51(DC

EWn

91A_)3(DC

81A_)2(DC

71A_)1(DC

61A_)0(DC

)6(DA_PVS

)7(DA_PVS

3SC_CMSn

)32(DA

)0(DC

)8(DC

)1(DC

)9(DC

)2(DC

)01(DC

)7:0(DA)0(DA

)1(DA

)2(DA

)3(DA

)4(DA

)5(DA

)6(DA

)7(DA

)7:0(DA_PVS)0(DA_PVS

)1(DA_PVS

)2(DA_PVS

)3(DA_PVS

)4(DA_PVS

)5(DA_PVS

)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

EOn

3SC_CMSn

EWn

0SC_CMSn

1SC_CMSn

EOn

2SC_CMSn

3SC_CMSn

SC_FMn

SC_RBn

SC_FSn

0SC_CMSn 1SC_CMSn

)7:0(DC

71A_)1(DC

61A_)0(DC

32A_)7(DC

22A_)6(DC

12A_)5(DC

02A_)4(DC

91B_)11(DC

81B_)01(DC

71B_)9(DC

61B_)8(DC

32B_)51(DC

22B_)41(DC

12B_)31(DC

02B_)21(DC

)51:0(DC

91A_)3(DC

81A_)2(DC

)41(DA

)51(DA

)61(DA

)71(DA

)81(DA

)91(DA

)02(DA

)12(DA

)22(DA

)32(DA

)42(DA

OTESERn

)42:0(DA)0(DA

)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

NEPVn

)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

)02(DA

)91(DA

)81(DA

)71(DA

)61(DA

)42:0(DA

)22(DA

)51:0(DC

SC_FMn


10-16 LAKE (STATIC MEMORY & DEBUG)

PowerSignal

Samsung Electronics

Schematic Diagram

10-17

REMYLOP

2642C

Fn001

2742C

Fn001

V61

V61

Fn001

7842C

Fn01

6842C

Fn001

V61

3042R mho0

0242C

1NIV

NE2

3

DNG

JDA 4

5OV

MG

ND

1G

ND

RT.X.X-M5I6651CS1042CI

7042C

V01

Fu001

1042C

Fn0012142Rmho003

8742C

Fn001

V61

mho01142R

W01/1

W01/1

7342C

Fn001

Fn001

3742C

Fn001

6342C

8542C

V61

A003S2102ZPM

2042DB

Fn001

V61

Fn001

6442C

5342C

Fn001

3442C

Fn001Fn01

2442C

OI_V3.3

5542C

Fn001

V61

7242C 0442C

Fn01

0942C

Fn001

V61

Fn001

4842C

Fn001

V61

6242C

Fn001

2342C

Fn01

V61

Fn001

9742C 0842C

Fn001

V61

Fn001

9242C

Fn01

0342C

V61

Fn001

9842C

Fn001

8842C

Fn001

V61

4242C7142C

Fn01

OI_V3.3

Fn001

8342C

LLP_V2.1

1342C

V61

Fn001

5842C

Fn001

8142C

Fn001

6142C

Fn001

V6D

V52

Fn001

9442C

V61

Fn001

1742C

3342C5142C

Fn001

V61

Fn001

5942C

Fu001

LLP_V3.3

Fu019642C

V61 V61

A52-D7111PA

1

JDA

2TUOV

3NIV

4742C

Fn001

5042C

2042CI

2842C

Fn001

V61

Fn001

V61

Fn001

1842C

V52

Fn001

4442C

V61

Fn001

3842C

4142C

Fn001 Fn001Fn001

3142C 9142C

4642C

Fn001Fn001

3642C

5242C

V61

Fn001

4542C

OI_V3.3

Fn001Fn01

4042DB

A003S2102ZPM

Fn01

0142C 1142C

Fn001

1642C

Fn01

6642C9542C

Fn001

05DNG42Y

94DNG4Y

EROC_V2.1 5642C

Fn01

VD

DS

ST

L1

3V

23

64DNG4V

VD

D1

9W

2

84DNG32W

74DNG3W

33_21DDV4W

US

BG

ND

Y2

VD

DS

ST

L1

4Y

23

12_3DDV31U

22_3DDV41U

32_3DDV51U

42_3DDV61U

VD

DS

ST

L1

2U

17

54DNG32U

44DNG3U

71_3DDV4U

13_21DDV51T

23_21DDV61T

VD

DS

ST

L1

6T

17

VD

DS

ST

L1

7T

23

34DNG4T

81_3DDV01U

91_3DDV11U

02_3DDV21U

24DNG32R

14DNG3R

42_21DDV4R

61_3DDV01T

72_21DDV11T

82_21DDV21T

92_21DDV31T

03_21DDV41T

01R51_3DDV

52_21DDV11R

07DNG21R

47DNG31R

87DNG41R

GN

D2

R1

5

62_21DDV61R

VD

DS

ST

L1

1R

17

96DNG21P

37DNG31P

77DNG41P

18DNG51P

32_21DDV61P

VD

DS

ST

L9

P1

7

VD

DS

ST

L1

0P

23

04DNG4P

08DNG51N

83_21DDV61N

VD

DS

ST

L8

N1

7

93DNG32N

83DNG3N

81_21DDV4N

12_21DDV01P

11P22_21DDV

VD

DS

ST

L6

M17

VD

DS

ST

L7

M23

73DNG4M

91_21DDV01N

02_21DDV11N

86DNG21N

27DNG31N

67DNG41N

4L9_21DDV

41_3DDV01M

61_21DDV11M

76DNG21M

17DNG31M

57DNG41M

97DNG51M

71_21DDV61M

11_21DDV21L

21_21DDV31L

31_21DDV41L

41_21DDV51L

51_21DDV61L

VD

DS

ST

L5

L1

7

63DNG32L

53DNG3L

01_3DDV41K

11_3DDV51K

21_3DDV61K

VD

DS

ST

L3

K1

7

VD

DS

ST

L4

K2

3

43DNG4K

31_3DDV01L

01_21DDV11L

13DNG4H

33DNG32J

23DNG3J

5_3DDV4J

6_3DDV01K

7_3DDV11K

8_3DDV21K

9_3DDV31K

VD

DS

ST

L1

F2

3

72DNG42F

GN

D2

6F

4

92DNG32G

03DNG42G

82DNG3G

8_21DDV4G

VD

DS

ST

L2

H2

3

GN

D1

2D

6

4_21DDV7D

GN

D1

3D

8

5_21DDV9D

GN

D2

4E

23

GN

D2

5E

24

GN

D2

3E

3

4_3DDV4E

GN

D1

9D

19

GN

D2

0D

20

GN

D2

1D

21

3_3DDV22D

VD

DS

ST

L0

D2

3

GN

D2

2D

24

GN

D1

1D

4

0_3DDV5D

1_3DDV11D

GN

D1

5D

12

6_21DDV31D

D1

4G

ND

16

7_21DDV51D

GN

D1

7D

16

71D2_3DDV

GN

D1

8D

18

GN

D6

C1

7

GN

D7

C1

8

GN

D8

C2

1

GN

D9

C2

2

GN

D1

0C

23

GN

D0

C5

GN

D1

C7

GN

D1

4D

10

2A_TSSV2P61FA

0_21DDV01C

GN

D3

C1

1

1_21DDV21C

GN

D4

C1

3

2_21DDV41C

GN

D5

C1

5

3_21DDV61C

1A_T21DDV2P51DA

HT33DDV1P21EA

T21DDV1P31EA

1A_TSSV2P41EA

61EA2A_BBV2P

BBV1P21FA

1A_BBV2P31FA

2A_T21DDV2P51FA

66DNG42CA

62_3DDV4CA

5CA65DNG

43_21DDV6CA

75DNG7CA

53_21DDV9CA

HBBSSV1P11DA

TSSV1P31DA

51CA06DNG

82_3DDV61CA

16DNG71CA

26DNG91CA

36DNG02CA

46DNG12CA

92_3DDV22CA

56DNG32CA

VD

DS

ST

L1

5A

B2

3

55DNG42BA

45DNG4BA

72_3DDV01CA

85DNG11CA

63_21DDV21CA

95DNG31CA

73_21DDV41CA

5-1002CI

1112H5S

25DNG32AA

35DNG42AA

15DNG3AA

52_3DDV4AA

0642C

Fn001

V61

Fn001

3942C2942C

Fn001

V61

V61

Fu001

4042CFu0013042C

V61

V61

Fn001

0542C 1542C

Fn001

V61

3042DB

A003S2102ZPM

V61Fu0012042C

Fn01

7642C

Fn01

1442C

Fn001

5742C 6742C

Fn001

V61

Fn01

V61

Fn001

9042C 2142C 4342C

Fn001

8042C

Fn001

EKAL_V5.2

8442C

Fu001

V61

1_V3.3B

EROC_V2.1

8242C

Fn001

V61

8642CFu01

Fn001

V61

4942C

Fu22

5442CFu01

3242C

V61

Fn001

1942C

1_V3.3B

V61

V61

0742CFu01

3542C

Fn001

V61V61

Fn001

2542C

Fn001 Fn01

1242C6042C

Fu001

V61

Fn01

2242C

V61

Fn001

7742C

7442C

A003S2102ZPM

1042DB

1_V3.3B

EKAL_V5.2

EROC_V2.1

Fn001

7542C

Fn001

V61V61

Fn001

6542C

9342C


10-17 LAKE (POWER BLOCK)

PowerSignal

Schematic Diagram


EHCSROP ROF YLNO

1201VL29SD OT TUPTUO ST

EDOM RETSAM

RENUT MIN MORF

2081MCP MORF TUPNI OIDUA

NEERCS-I ot

NOITPO

EDOM_EVALS

)rezilaires(

XP-PVS MORF TUPNI OEDIV

EGDE GNISIR : HGIH

EGDE GNILLAF : WOL

NEERCS_I >=

zHK84 ,sf652 : GNITTES

NEERCS_I >=HGIH >-- NEERCS I : DLV_RVP_ST *

NOITPO LED

7061DB

1 A 2B

V52

8161CFn001

4061R mho0

1061PT

1

FERX

FERX

V61Fu74

3061CFn0015061C

V52

6A7

87A

98A

1_V3.3B

mhoK7.46161R

811B

91EO/ 1A

2CCV

02

2A3

43A

54A

65A

DNG0111

8B

7B21

316B

5B41

4B51

613B

2B71

6061CI

XCTM542XCL47

1RID

3061DBA121R2102ZMM

FERX

1261R mho001

V52

5161CFn001

W01/1

4361RmhoK01

1

TP

16

08

1

2_V3.3B

2061PT

Fu22V61

7061C

V52

5261CFn001 Fn001

8261C

V52

4

5 6

7 8

mho22

6261R

W61/1

1 2

3

V52

9261CFn001

FERX

8361R mho0

4

5 6

7 8

FERX

8

mho22

6061R

W61/1

1 2

3

mho22

9061R

W61/1

1 2

3 4

5 6

7

6061PT1

0561CFu01V61

5361RmhoK01

mho229261R

FERX

FERX

W01/1

2576AAS_V5.2B

7 8

2061DBA121R2102ZMM

mho22

4161R

W61/1

1 2

3 4

5 6

Fn0011361C

V52

8161R

mho0

9461C

Fn001

5461CFu001V61

mho0012261R

Fn0014161C

V52

V52

V52

Fn0015361C

FERX

Fn0011461C

3061R mho001

Fn0017161C

V52

1_V3.3B

V52

6361CFn001

V61Fu74

9161C

6061DB

A1B

2

1 2

3 4

5 6

7 8

FERX

mho22

4261R

W61/1

5 6

7 8

Fp01

1061CV05

mho22

0161R

W61/1

1 2

3 4

29

5A_DS39

0A_DS49

4A_DS59

PSSV69

1A_DS79

3A_DS89

2A_DS99

58

68PSSV

11A_DS78

7A_DS88

21A_DS98

AC

LK

9

6A_DS09

PDDV19

01A_DS

87

OCDDV97

SW

S2

8

OCDDV08

PDDV18

SC_DS/28

31A_DS38

9A_DS48

8A_DS

07

EW_DS/17

PSSV27

SAC_DS/37

KLC_DS47

SAR_DS/57

EKC_DS67

OCSSV77

OCSSV

36

9QD_DS46

6QD_DS56

8QD_DS66

PDDV76

7QD_DS86

1MQD_DS96

SC

LK

27

0MQD_DS

65

PDDV75

3QD_DS85

11QD_DS95

SD

AT

A2

6

4QD_DS06

01QD_DS16

PSSV26

5QD_DS

49

VD

DP

5

SD

_D

Q0

50

SD

_D

Q14

51

SD

_D

Q1

52

PSSV35

31QD_DS45

552QD_DS

21QD_DS

41

42

PD

O5

PD

O6

43

VS

SP

44

PD

O7

45

PD

IOC

LK

46

I2C

AD

DR

SE

L47

SD

_D

Q15

48

VD

DP

34

PD

OV

AL

35

PD

O0

36

PD

O1

37

PD

O2

38

VD

DP

39

SW

S1

4

PD

O3

40

PD

O4

27

VD

DC

O28

VD

DP

29

SC

LK

1

3

VC

LK

230

PD

OA

V31

PD

IDS

32

PD

OS

YN

C33

VS

SP

7020SC_MS/

802

HS

YN

C21

VS

YN

C22

23

FID

VC

LK

124

VS

SC

O25

VS

SC

O26

VD

DC

O

20

PSSV002

2A_MS102

51A_MS202

1A_MS302

61A_MS402

PDDV502

0A_MS602

71A_MS

3910D_MS

491PDDV

59151D_MS

6913SC_MS/

7914A_MS

8913A_MS

991

SD

AT

A1

2

VS

SP

6813D_MS

78121D_MS

8812D_MS

981

YU

V7

19

PSSV091

19131D_MS

1D_MS291

41D_MS

971

YU

V6

18

4D_MS081

OCSSV181

OCSSV281

OCDDV381

OCDDV481

PDDV581

11D_MS

171EW_MS/

2717D_MS

3718D_MS

4716D_MS

571PSSV

6719D_MS

7715D_MS

87101D_MS

46121A_MS

561PSSV

6616A_MS

76131A_MS

8615A_MS

961

YU

V5

17

41A_MS071

PDDV

751EO_MS/

8519A_MS

951

YU

V4

16

01A_MS061

PDDV161

8A_MS261

11A_MS361

7A_MS

15

/CT

S150

RX

D151

TX

D152

VD

DP

153

154

/SM

_LB

/SM

_U

B155

H_IR

F156

PSSV

142

VD

DP

143

TE

ST

2144

SD

A145

SC

L146

/RE

SE

T147

VS

SP

148

/RT

S149

YU

V3

TM

S135

TC

K136

TD

O137

VS

SP

138

/TR

ST

139

YU

V2

14

CLK

OU

T140

TE

ST

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10-18 MPEG ENCODER (SAA6752)

PowerSignal

Samsung Electronics

Schematic Diagram

10-19

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30109_2576_TESER


10-19 TC90103AFG

PowerSignal

Operation Instruction & Installation


11. Operation Instruction & Installation11-1 Product Features and Functions11-1-1 Front Panel

1 SOURCE buttonPress to display all of the available video sources (TV, AV1, AV2, S-Video1, S-Video2, Component1, Component2, PC, HDMI1, and HDMI2).

2 MENU buttonDisplays the main on-screen menu.

3 VOL +, - buttonsPress to increase or decrease the volume. Also used to select or adjust items on the on-screen menu.

4 CH( , ) buttonsPress CH or CH to change channels. Also used to move up or down in the on-screen menu.

5 (Enter) buttonPress to confirm a selection.

6 Power buttonPress to turn the TV on and off.

Power indicator- Power Off : Blue- Power On : Off

7 Remote Control SensorAim the remote control towards this spot on the TV.

8 Speakers

1

2

3

4

5

678



11-1-2 Side of the TV & Rear Panel

1 POWER INConnect the supplied power cord.

2 HDMI IN 2Connect to the HDMI jack of a device with HDMI output.

3 HDMI 1/DVI INConnect to the HDMI jack of a device withHDMI output.These inputs can also be used as a DVIconnection with separate analog audio inputs.An optional HDMI/DVI cable will benecessary to make this connection.When using the optional HDMI/DVI adapter,the DVI analog audio inputs on your TV allowyou to receive left and right audio from yourDVI device. (Not compatible with PC)

4 DVI IN (AUDIO-L/R)Connect to the DVI audio output jack of an external device.

5 OPTICAL DIGITAL AUDIO OUTConnect to a Digital Audio component.

6 COAXIAL DIGITAL AUDIO OUTConnect to a Digital Audio component.

7 ANT 1 IN (CABLE)/ANT 2 IN (AIR)75Ω Coaxial connector for Antenna/Cable Network.

8 PC AUDIO INConnect to the audio output jack on your PC.

9 PC INConnect to the video output jack on your PC.

10 SERVICE 1/SERVICE 2This jack is for software upgrades.

11 AUDIO-L/R (AV IN 1, 2)Audio inputs for external devices, such as a camcorder or VCR.

12 VIDEO (AV IN 1, 2)Video input for external devices, such asa camcorder or VCR.

13 S-VIDEO (AV IN 1, 2)Video input for external devices with anS-Video output, such as a camcorder or VCR.

14 COMPONENT IN 1, 2Video (Y/PB/P R) and audio (L-AUDIO-R) component inputs.

15 AUDIO OUTAudio outputs for external devices.

Note• Please be sure to match the color coded input terminals and cable jacks.

11 Audio Input (L, R)

Headphones jackYou can connect a set of headphones to your television if you wish to watch a television programwithout disturbing other people in the room.

Note• Prolonged use of headphones at a high volume may damage your hearing.

12 Video Input

13 S-Video Input



11-1-3 Remote Control

1 POWER buttonTurns the TV on and off.

2 Number buttons3 - button

Press to select additional channels (digital and analog) being broadcastby the same station. For example, to select channel “54-3”, press “54”,then press “-” and “3”.

4 ANTENNA buttonPress to select “Air” or “Cable”.

5 CH MGR buttonUsed to displays Channel Lists on the screen.

6 VCR, DVD control buttonsControls VCR tape or DVD disc functions: Rewind, Stop, Play/Pause, and Fast Forward.

7 VOL (Volume) buttonsUse it to adjust volume.

8 MUTE buttonPress to mute the TV sound.

9 MENU buttonDisplays the main on-screen menu.

10 ENTER buttonConfirms a selection.

11 PIP buttonActivates picture in picture.

12 INFO buttonPress to display information on the TV screen.

13 Mode (TV/DVD/STB/CABLE/VCR) buttonSelects a target device to be controlled by the Samsung remote control(i.e., TV, DVD, STB, CABLE, or VCR).

14 SOURCE buttonPress to display all of the available video sources (TV, AV1, AV2, S-Video1,S-Video2, Component1, Component2, PC, HDMI1, and HDMI2).

15 PRE-CH buttonTunes to the previous channel.

16 E.SAVING buttonPress to adjust screen brightness according to surrounding environment.

17 FAV.CH buttonPress to switch between your favorite channels.

18 CH (Channel) buttonsUse it to switch channels.

19 EXIT button Press to exit the menu.

20 Up/Down/Left/Right buttonsControl the cursor in the menu.

21 SLEEP buttonPress to select a preset time interval for automatic shut off.



22 P.MODE buttonAdjust the TV picture by selecting one of the preset factory settings (orselect your personal, customized picture settings).

23 S.MODE buttonSelect Sound effect.

24 MTS buttonPress to choose stereo, mono or Separate Audio Program (SAP broadcast).

25 SRS buttonActivates TruSurround.

26 AUTO PROG. buttonPress to display the memorized channels menu.

27 ADD/DEL buttonPress to add or erase channels in the TV’s memory.

28 STILL buttonPress to pause the current screen.

29 P.SIZE buttonSelect Picture size.

30 PIP control buttonsSWAP: Interchange the main and sub picture.CH , : Displays the available channels in sequence. (These buttons change channels in the PIP window only.)

31 CAPTION buttonControls the caption decoder.

32 RESET button If your remote control is not functioning properly, take out the batteriesand press the reset button for about 2~3 seconds. Re-insert the batteries and try using the remote control again.

33 SET buttonUsed during set up of this Samsung remote control, so that it will workcompatibly with other devices (VCR, Cable Box and DVD).



11-2 New Features

11-2-1 Dynamic Contrast

- Reproducing optimized contrast and color by automatically detecting the characteristics. (Off/On)

- OSD Operation Tree

- Image change with Dynamic Contrast

→ When the DC function is On, the contrast ratio is enhanced dynamically and statically according to the range on the screen,the dark area to be darker and the bright area to be brighter.

DC Operation Mode and Release Requirement1) Operating Modes

2) Release Requirement (Factory Reset)- DC Function : On

MENU Picture DC Off

On

DC Off DC On

Source RF AV S_video Comp_1 Comp_2 HDMI DVI PCOperation

Detail Operation - PC / DNIe Off : DC Off (OSD Inactive)- DVI DTV : DC On



11-2-2 Power Saving

- Sensing the outside brightness and controlling brightness with the Ray Sensor. (Off/On)

- OSD Operation Tree

- Image change with Power Saving

→ When turn the Power Saving function On, control the screen luminance with 8 Step changing width at the standard of 150 Lux. (The luminance of average house is 200 ~ 250 Lux.)

Power Saving Operation Mode and Release Requirement1) Operating Modes

2) Release Requirement (Factory Reset)- BS Function : Off

MENU Picture P.Saving Off

On

P.Saving Off P.Saving On

Source RF AV S_Video Comp_1 Comp_2 HDMI DVI PCOperation

Detail Operation - All Modes Operation



11-3 Installation Notes and Precautions

11-3-1 Installation Notes

1. Contact a professional installation service to install the wall bracket.

2. Samsung Electronics is not responsible for any damages to the product or harm to customers when the installation is done by the customer.

3. This product is for installing on cement walls. The product may not stay in place when installed on plaster or wood.

4. Connect all external devices prior to installing the wall bracket.

5. The package contents and parts supplied for the wall mount are subject to change without prior notice.

11-3-2 Parts (Wall attachment panel is sold separately)

Plastic Hanger : 4

Screw : 41 Left : 1 Right : 1

Wall Mount Bracket ASSY-HINGE Accessories

11-3-3 How to assemble the Wall Mount Bracket

1 The wall mount bracket is delivered separately. Please tighten the captive screw in thedirection of the arrow after assembling the bracket.Install the Wall Mount Bracket after the screws are securely inserted into the wall.

Captive Screws

Wall Mount Bracket

ASSY-HINGE(RIGHT)

Separate ASSY-HINGEinto Left and Right.

ASSY-HINGE(LEFT)



11-3-4 Fixing the TV panel to the wall attachment panel bracket

1 Remove the screws from the back of the PDP.

2 Use the screw and assemble the plastic hanger. (Please refer to the following picture.)

• Please ask the installers to install the wall mount bracket.• Please be sure to check if the plastic hanger is completely secured on both the left and

right side after hanging the SET on the wall mount bracket.• Please avoid catching your fingers while installing and adjusting the angle.• Please tightly secure the wall mount bracket to the wall to avoid injury from a falling SET.

3 Tighten the screws of the plastic hanger(shown in picture 2) to the back side of the PDP.

4 Remove the Safety Pins. Fasten the 4plastic latches assembled at step ( ) onthe back side of the PDP using the guideholes of the wall mount, push ( ) and hook ( ) down to secure the PDP on the wall mount as illustrated. Secure the PDP by inserting the Safety Pins, not to fall from the wall mount.

PDP

Wall Bracket Wall



11-3-5 How to Adjust Mounting AngleNoteNote : Please secure the mounting bracket on the wall surface after setting its angle at 0°

Hold onto the middle of the PDPto adjust the angle (not the sidesof the PDP).

1. Secure the SET to the wall mount bracket.(Please refer to the following instructions.)

2. Set the angle by pulling the upper end of the SETattached to bracket in the direction of the arrow. (Refer to the illustration on the right.)

3. The angle can be adjusted from 0° to 15° by ±2°.

11-3-6 Connecting External Devices to the PDPNoteNote : To connect external devices such as a DVD or a Home Theater System to the PDP,

please refer to following instructions:1. Be sure to remove the safety pins underneath

the PDP.NoteNote : If the safety pins are not removed,

the angle cannot be adjusted. Any attempt to do so may cause damage to the PDP.

2. Hold onto the bottom of the PDP and pullforward fully as directed by the arrow asillustrated) to adjust the angle. (0°~20°by 2°)Insert the Safety Pins to the front guide holes onboth sides as illustrated in figure .NoteNote : Viewing the PDP after connecting the

external devices Remove the Safety Pins to adjust the angle to 0°, and then secure the Safety Pins again.

• For safety, be sure to secure the PDP using the safety pins. If the safety pins are not used, the PDP may fall, causing serious injury.



11-3-7 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, as the stand may fall and could cause serious injury.

Part Name Description Description PhotoCoverRear

① Remove 4 screws. ( ): M8,L16,ZPC(BLK),SWRCH18A,WP

0② Remove 14 screws. ( )

: BH,+,B,M4,L12,ZPC(BLK)

③ Remove 4 screws. ( ): BH,+,S,M4,L10,ZPC(BLK)

④ Remove the ASSY COVER REAR.

Disassembly & Reassembly


12. Disassembly & Reassembly12-1 Overall Disassembly & Reassembly

12-1-1 Separation of ASSY STAND P-BASE Part Name Description Description Photo

Stand ① Remove 4 screws.: PH,+,WSP,S,M4,L35,ZPC(BLK)

② Pull the ASSY STAND P-BASE down to remove it fromthe unit.

: Please lay the PDP unit face down on a soft surfacewhen removing the stand.

12-1-2 Separation of ASSY COVER P-REAR

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 Main Board, Y Main

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.



12-1-3 Separation of ASSY BRACKET P-TERMINALPart Name Description Description Photo

BracketTerminal

① Remove the 2 Hex nuts for the PC input.: #4-40,L6,NI PLT,C3601,-

② Remove Bracket Terminal.

12-1-4 Separation of ASSY PCB MISC-MAINPart Name Description Description Photo

MainBoard

① Detach all connectors from the Main Board.

② Remove 4 screws.: PH,+,WWP,M3,L8,NI PLT

③ Remove the Main Board.

12-1-5 Separation of FILTER-EMI AC LINEPart Name Description Description Photo

Filter-EMI

AC LINe

① Detach connector from Main SMPS.


③ Remove a screw.: BH,+,S,M4,L10,ZPC(BLK)

④ Remove FILTER-EMI AC LINE.



12-1-6 Separation of BRACKET-PCBPart Name Description Description Photo

BracketPCB

① Remove 3 screws.: BH,+,S,M4,L10,ZPC(BLK)

② Remove the BRACKET-PCB.

12-1-7 Separation of ASSY BOARD P-SIDE AVPart Name Description Description Photo

Side AV ① Remove 1 screw.: BH,+,S,M4,L10,ZPC(BLK)

② Remove the Side AV assy.

12-1-8 Separation of ASSY BRACKET P-WALLPart Name Description Description Photo

WallBracket

① Remove 8 screws.: BH,+,B,M4,L12,ZPC(BLK)

② Remove 16 screws.: BH,+,S,M4,L10,ZPC(BLK)

③ Remove Wall Bracket.

: Please lay the PDP panel face down on a soft surfacewhen separating front cover.



12-1-10 Separation of ASSY BOARD P-POWER&IRPart Name Description Description Photo

Power&

IR Board

① Remove 2 screw.: BH,+,-,S,M4,L8,ZPC(BLK)

② Remove the Power & IR Board.

12-1-9 Separation of ASSY SPEAKER PPart Name Description Description PhotoSpeaker ① Remove 4 screws.

: BH,+,WP,B,M4.0,L12,ZPC(BLK),SWRCH18A,-

② Remove the Speaker.



12-1-11 Separation of ASSY PCB P-SMPS & SMPS DC-DCPart Name Description Description Photo

SMPS&

SMPSDC-DCBoard

① Detach all connectors from the Assy PCB P-SMPS.


③ Remove the Assy SMPS PCB.

④ Detach all connectors from the Assy SMPS DC/DC Board.

⑤ Remove 4 screws.: PH,+,WWP,M3,L8,NI PLT

⑥ Remove the SMPS DC/DC Board.

: Wear gloves when handling the power board as theremay be some remaining electrical charge in the capacitor.Specifically, avoid touching any part of the capacitor.

12-1-12 Separation of ASSY PDP MODULE P-LOGIC MAIN BOARDPart Name Description Description Photo

LogicBoard

① Detach all connectors from the Logic Main Board.

② Remove 4 screws.: WSP,PH,+,M3,L8,NI PLT

③ Remove the Logic Main Board.



12-1-13 Separation of ASSY PDP MODULE P-X MAIN BOARDPart Name Description Description PhotoFlat Cable ① Detach all Connectors from the X Main Board.

※ To separate the Flat Cable of the X-Board, press theupper and the lower sides of the connector.

X-MainBoard

① Remove 4 screws.: PH,+,WWP,M3,L8,NI PLT

② Remove the X-Main Board.



12-1-14 Separation of ASSY PDP MODULE P-Y MAIN BOARDPart Name Description Description PhotoFlat Cable ① Detach the 6 scan board connectors from the panel by

pulling the holder from both the top and bottom ends.

Y-ScanBoard


Connectors ① Separate the scan board from the Y-Main Board bydetaching the 3 connectors and remove the ScanBoards.



Part Name Description Description PhotoY-MainBoard


② Detach all connectors from the Y-Main Board.



12-1-15 Separation of ASSY PDP MODULE P-ADDRESS BUFFER BOARDPart Name Description Description Photo

Still Bar ① Remove 3 screws.: PH,+,WWP,M3,L8,NI PLT

② Remove the still bar.

BufferBoard

① Detach the all connectors from the buffer board.


③ Remove the E-Board and F-Board.


MEMO

Circuit Description


13. Circuit Description13-1 Power ON/OFF Signal Timing Sequence

DISPLAY ONDISPLAY ON

VS_ONVS_ON VS_ONVS_ON

AC POWER OFFAC POWER OFF

OFFOFF

AC POWER ON/OFF

PS_ON (Active Low)from PS External(Remote controller ON/OFF)

Stand-By, (POP Option outputs)

PFC output

DC OUTPUTSD5.3V,A6.5V,12V,Vamp,Vt

VS_ON (Active high)from P/S External

DC OUTPUTVs

DISPLAY ON / OFF

5 V5 V3.4 V3.4 V

70 m Sec.70 m Sec.

Remote Controller ONRemote Controller ON Remote Controller ONRemote Controller ON

OUTPUTSVg

DISPLAY ONDISPLAY ON

DC OUTPUTSVa

Vg vs. 3.4V turn-off sequence

Vca

Vcs

Keep Display ‘ON’w/o display flicker while

3cycle full-dip condition

Standby step turn-off for µ-processor resetµ

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 Main Board through the DC-DC SMPS, and the screen displays a picture on it.

13-2-1 Main SMPS

1. SummaryThis is a service manual about the explanation of basic operation in power circuit (1H309W) for 50" PDP.

2. Input PartThis switching mode power supply (SMPS) has the input voltage range of 90 ~ 264[Vac].Thus, at 90[Vac] input condition or any voltage level in a spec, the power board must operate even if the ac source is cut off andre-input ON.

3. Output PartThis power circuit has the 10 outputs. In steady state, the specification about the output's voltage and current is the same asfollowing Table 1.

Table 1. PDP SMPS's output specifications (for 50")

① Over Voltage ProtectionlThis power circuit has the function of over voltage protection (O.V.P) in all outputs.In condition of any over voltage in each output ports, the power supply is shut-down by O.V.P function for the protection of part's damage.

② Short / Over Current ProtectionBecause any output ports have small impedance (smaller than 300m ohm) at the output short condition, power circuit was designed to have the function of short / over current protection (O.C.P) in all outputs. Thus, in condition of any over current in each output ports, the power supply is shut-down by O.C.P function for the protection of part's damage. The specification about the O.C.P in each port is the same as following Table 2.

Table 2. OCP specification

OutputCircuit

NominalVoltage

[V]

VoltageAdjustment

[V]

TotalRegulation

NominalLoad[A]

LoadVariation

[A]

PeakCurrent

[A]

RippleNoise

[mV p-p]Vs 210 190 - 220 ± 2% 1.7 0.1 - 2.5 10.0 800

Va 70 60 - 80 ± 2% 0.7 0.1 - 3.0 4.5 500

D5.3V 5.3 ---------- ± 5% 3.5 0.1 - 5.0 6.0 50

A6.5V 6.5 ---------- ± 5% 1.5 0.01 - 3.0 4.0 50

FAN_8V 8 ---------- ± 5% - 0.01 - 0.2 0.5 120

Vg 15 ---------- ± 5% 0.5 0.01 - 1.0 1.5 120

12V 12 ---------- ± 5% 1.3 0.01 - 1.5 3.0 120

Vamp 18 ---------- ± 10% 0.1 0.01 - 2.5 3.0 180

Vt 33 ---------- ± 5% 5m 1m - 6m 7m 300

STBY 5.0 ---------- ± 5% 0.5 0.01 - 1.0 1.5 50

Protection Output Circuit Trip point Notes

Over CurrentVs 3.0 - 6.0A Shut down by Under VoltageVa 3.5A or more Short Circuit Protection

Shut down by Under VoltageOutput except Vs&Va ----------

Circuit Description


13-2 Partial Block Description

Circuit Description


4. Basic Function① Remote Control

This power circuit has the function of remote control by using the relay (250V, 10A)② Free Voltage

This power circuit has the free voltage input range.③ Power Factor Correction

This power circuit has the PFC for high power factor (higher than 0.9)④ Protection

This power circuit has the function of short / O.V.P / O.C.P for the protection of part's damage.

5. Explanation of Circuit Blocks① Filter Circuit

Line filter consists of Common Mode Reactor L8102¡¤ L8103, Normal Mode Reactor L8101, X-condenser C8101ㆍC8106,Line by-pass condenser(Y-con) C8104ㆍC8105 and surge protection parts ; NR8101ㆍNR8102ㆍNR8103ㆍNR8104ㆍSQ8104ㆍSQ8105.This block reduces the high frequency ground noise from the original ac power source.

② Rectifier / DC link CircuitThis rectifier circuit creates the dc regulated voltage from AC input line.【Power Source】ㆍSub-power Source

The half-wave AC voltage through the D8151 creates the sub-dc source in C8121.ㆍMain-power Source

The full-wave AC voltage through the RC8101 creates the main-dc source for PFC input.③ Inrush Current Protection Circuit

In a transient response interval of the AC source injection, the high inrush current flows from ac source to this power board because of an input capacitor having the low impedance. At that interval, the part¡¯s damage is quite within the realms of possibility. The inrush current protection circuit removes this possibility in a transient interval by adding thermistor (TH8101,TH8102). After PFC input capacitor is fully charged, (in steady state), the relays (RL8101, RL8102) are ON and input normal current flows through them without any overheat.

④ Sub-Power Circuit【Basic Operation】

This Stand-by block is controlled by SMPS operation ; On/off switching FET inside of PRC [pulse ratio controlled] IC(STR-V152).Using the switching operation, we can get the energy in an input capacitor [C8121] to transmit to output-port for STD 5V, dc source for Micom and PFC controller. The PRC controller STR-V152 can be operated by injection of the Start-up current to8 pin of it. Output voltage is also controlled by following method ;Controlled op-amp [Z8171] keeps the output voltage to be constant in steady state by compensating an error voltage between the dividing-resistors (R8174, RX8172 and R8175) and its reference 2.5V. And then output small signal voltage of op-amp induces a Photocoupler current level on the feedback line. Dc source voltage for PFC controller comes fromsecondary side link in a main transformer (3~5 pin).

【Protection Function】ㆍOver Voltage Protection

When the Vcc voltage is higher than O.V.P level [Vcc(OVP)=31.2V(TYP)], Latch is on and power board is shut down. After Latch is on, this power board can not operate before the voltage of an electric capacitor C8123 is fully discharged for about 5 minutes.

ㆍOver Current ProtectionO.C.P function in STR-V152 can be obtained by sensing the MOS-FET's drain peak current per 1 pulse (Pulse by Pulse method). This sensing value comes from the voltage across sensing-resistor(R8122) between OCP(FET source,3Pin) and GND(5Pin). Thus, this power board can protect any part's damage caused by over current flowing.

ㆍOver Load ProtectionIf there is an overload state in output ports due to some reason, this power board operates in UVLO mode for protection of IC's damage.

Circuit Description


ㆍOver Heat ProtectionIf the temperature on the chip parts is higher than about 135, this power board operates in thermal protection mode and makes Latch on, finally this power board is shut down.

⑤ PFC Circuit【Basic Operation】

After the sub-dc voltage source is on, Vcc of PFC controller IC(UCC2818A) induces the PSON port to be "L" level and this makes the oscillation with a frequency (RT:R8239, CT:C8235) in it. The PFC block consists of two inside feedback

loop to control FET duty ratio. The first is the voltage loop that keeps the output voltage to be constant by sensing the output voltage in 11 pin. And the second loop controls the power factor by comparing the input line voltage (6pin) and reference in it. By this current loop, the input current waveform can be sinusoidal and now we can get the higher power factor (almost 1.0) in this power board.

【Protection Function】ㆍOver Voltage Protection

Because the PFC controller IC(UCC2818A) has the function of over voltage protection about the high output voltage limit, even if the overshoot and not-controlled state occur with the deep condition in ac input source or output step load, thiscontroller protects the abnormal output voltage state by decreasing the FET ON ratio. The high output limit level is set to110% value of voltage across the dividing resistors ; R8247, R8248, R8249, R8250, R8251(this power board has also the high limit O.V.P level about 440V)

ㆍOver Current ProtectionPFC controller has the function of over current protection by sensing the voltage (2 pin) coming from the current-sensing resistor R8201. If the over current flows across the sensingresistor, controller decreases the FET duty ratio for protection of part's damage.

< Vds Voltage Waveform on Sub-power Circuit FET >

< FET Vds Waveform (100Vac input) > < FET Vds Waveform (230Vac input) >

0.6RT x CT

Circuit Description


6. Component Spec

Z8231 UCC2818A 18V, 20mA TEXAS PFC ICQ8201, Q8202, Q8205 2SK3911 600V, 20A TOSHIBA PFC Switching FETD8203 FMC-26UA 1200V, 3A SANKEN PFC DiodeD8205 FMX-G16S 600V, 5A SANKEN PFC DiodeZ8121 STR-V152 17.5V, 4A SANKEN ST-BY Switching ICD8171 FMB-G14L 40V, 5A SANKEN ST-BY DiodeQ8301, Q8302 2SK2698 500V, 15A TOSHIBA Half SMZ FETQ8502, Q8503 2SK2698 500V, 15A TOSHIBA SMZ FETZ8333 SI-3150C 35V, 1.5A SANKEN RegulatorZ8334 SI-3050J 25V, 2.0A SANKEN RegulatorRC8336 FMX-22S 200V, 10A SANKEN Vamp Output DiodeD8332 1SS244 250V, 625mA ROHM Vt Output DiodeRC8331 FMX-22S 200V, 10A SANKEN Vg Output DiodeRC8332 FMB-26L 60V, 10A SANKEN 12V Output DiodeQ8332 2SK2232 60V, 25A TOSHIBA 6.5V Switching ICRC8333, RC8334 FMB-26L 60V, 10A SANKEN 6.5V Output DiodeQ8331 2SK3659 20V, 65A NEC 5.3V Switching ICRC8335 FME-24H 40V, 15A SANKEN 5.3V Output DiodeQ8401 2SK2698 500V, 15A TOSHIBA Va FETRC8401 FMX-G26S 600V, 10A SANKEN Va Output DiodeRC8551 FMG-26S 600V, 6A SANKEN Vs Output DiodeRC8101 RBV-1506J 600V, 15A SANKEN Bridge DiodeRL8101, RL8102 G5PA-1-M-E 250V, 10A OMRON Relay

Circuit Description


13-2-2 PDP Module

1. Logic Board

A name of main part of Logic Board and vocabulary.

Circuit Description


Item Name Explanation

① LVDS Connector The connector to receive the RGB, H, V, DATAEN and DCLK signals that have been LVDSencoded through the video board.

② Power Connector The connector receiving the power (5V) and control signal with the logic board.

③ Communications Connector The connector connecting the Keyscan which controls the pattern and registry value andthe Window Manager and the page board for 512K loading.

④ V-TOGG V-SYNC output pin.

⑤ DDR MEMORY (MENCON) The Memory to restore Address output data.

⑥ DDR MEMORY (SFP) The memory for the drive output and frame delay data storage.

⑦ ASIC CHIP The main processor that generates and outputs the logic drive signal and the address data.

⑧ Y Connector The connector to output the control signal for the Y drive board.

⑨ Operating Status LED

The LED that shows whether the Sync and Clock signal is properly supplied to the logicboard. (Normal Status: Blinks at 0.5 second intervals)LED2001 Lights up for 2 seconds at the initial operation, and LED2002 flickers at an inter-val of 0.5 seconds.

⑩ CN2010, CN2011, CN2012 The connector to output the address data and the control signal to the E, F, G-buffer board.

⑪ ARM-PROCESSOR IC block Control-signal to drive logic main.

⑫

Micom Loading 5Pin Connector

Initial image option PIN

The connector to load the Micom drive program. (CN2015)The program is loaded by connecting to the GA-WRITER.

Initial image select F/W or BLACK : Jumper Yes : or Full White, Jumper No : Black

⑬ Main Power Input The power port receiving 5 V from SMPS and output 3.3 V.(L4957AD3.3V regulator applied)

⑭ X Connector The connector to output the control signal for the X drive board.

4 32 1

4 32 1

4 32 1

Circuit Description


Normal WaveformWhen the Operating LED blinks normally (at 0.5 second intervals), which indicates the normal operation of the PDP Set and LogicBoard, and the V-SYNC and data output signals are normal.

If the set is out of order, perform troubleshooting according to the procedures below.1) Visual Inspection : Check if the Operating LED on the Logic Main blinks at a 0.5 second interval. If the Operating LED blinks too fast or too slow, you have to reload the data onto the MICOM, as this indicates abnormal

data processing in the MICOM. To load the data, supply power to the module and load the data using GA-WRITER.2) If no problem has been found through the visual inspection, check if the drive waveforms and the address data output are

normal. (Check Point: Check the DAMPING R-NET output of each data output terminal.) If no drive waveform or address output signal is detected, load data onto the MICOM according to the procedures described

above, as this indicates a MICOM data error. If data output is detected but is abnormal, it indicates a hardware short-circuit if measured for the drive waveform, or it

indicates abnormal data output due to the abnormal operation of the DDR memory caused by the abnormal Vref voltage if measured in the address data. Abnormal data output due to the abnormal operation of the DDR memory or a short circuit onthe board, which may be caused during the ass'y process, causes the screen to be abnormally displayed. Therefore, you have to conduct a short test for each part.

If the Vref voltage (Voltage Divider Voltage) is lower than 1.25V, check the resistance of the resistance output part and checkif the circuit status is normal. This applies the voltage and the proper Vref voltage and results in the screen being properlydisplayed.

If the screen is abnormally displayed, even though the Vref voltage is normal, find any abnormal points by conducting a shorttest. If a short circuit is found and it is repairable, repair it. If a short circuit is internal, replace the board.

The following waveform appears when the V-sync and address data are output properly.

< Normal V-SYNC Output Waveform > < Normal Address Data Output Waveform >

About Logic BoardThe Logic Board consists of a Logic Main board, which processes the video signal input through LVDS and creates the addressdriver output and XY drive signals, and a Buffer board, which buffers the output signal and outputs the signal to the Address Driver IC (TCP IC).

Logic Board Function Remark

Logic Main

- Video Signal Processing (W/L, error diffusion, APC, FCR)Built-in LVDS Application and 1 ASIC Chip

- Outputs the Address Driver Control and Data Signals to the Buffer board- Outputs the XY Drive Board Control Signal- Major Drive Voltage Monitoring (MICOM Circuit Block)

: Detects abnormal voltage applications and protects drive circuits- Temperature Induced Operating Mode

(Low Temperature/Room Temperature/High Temperature): Optimization of discharge by temperature

Buffer BoardE Buffer Board Outputs data and control signals to the bottom left TCP IC. Single Scan

and RSDSapplied

F Buffer Board Outputs data and control signals to the center up TCP IC.G Buffer Board Outputs data and control signals to the bottom right TCP IC.

Circuit Description


2. 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


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 BoardA board, which applies the Scan waveform to the Y terminal block, consists of 12 Scan Driver ICs (TI SN755870: 64 Outputs).

X Pole Terminal(4 Block)

Logic B'd Logic G-Buffer

- Sustain Pulse (Energy Recovery)- Rising Ramp Pulse- Falling Ramp Pulse- Vscan Pulse

Y-Buffer (Upper)

Y-Buffer (Lower)

Y Drive B'dX Drive B'd

- Sustain Pulse (Energy Recovery)- Ve Bias

Logic E-Buffer

Logic F-BufferY Pole Terminal(6 Block)

Requisite Components Necessary for Drive Board Operation

1) Power- Supplied from the power board. The optimal value may differ from the following:

a) Vs : 200V - Sustainb) Vset : 190V - Y Rising Rampc) Ve : 110V - Ve bias d) Vscan : -190V - Scan low biase) Vsc_h : -70V - Scan high bias (Created by the DC-DC power block of the Y Drive board)f) Vdd : 5V - Logic signal buffer IC g) Vcc : 15V - Gate drive IC

2) Logic Signal- Supplied by the Logic board- Gate signal of each switch

Circuit Description


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


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


Drive Board Connector Layout1) X-Main Board

190mm

380mm

1.VDD2.VCC3.DGND4.DGND5.Vb6.DGND7.DGND8.Vs9.Vs

CN4004

CN4003

CN4002

CN4001

CN4000

CN4005-signal

Circuit Description


2) Y-Main Board

CN5502- Panel

CN5503- Panel

CN5501- Panel

CN5403- Panel

CN5402- Panel

CN5401- Panel

265mm

320mm

1.Vs2.Vs3.GND4.GND5.Vset6.GND7.Vscan8.GND9.VCC10.VDD

CN5007

CN5008-signal

CN5009

CN5010

CN5407

CN5507

Circuit Description


Adjust the drive waveform so that the main reset (rising, falling:40usec) is the same as those in the F/W pattern.(※ Attachment 1 reference)

<Voltage Adjustment Specifications>

< Y-Main >

120usec

70usec

Vsc_h Variableregister

Falling rampVariable register

Rising rampVariable register

Vset Vs Vsc_l Vsc_h Ve Va190V 200V -190V -70V 115V 65V

Circuit Description


Check that the output of X-Out of the X board follows the waveform of ※Attachment 2 when the power is supplied.

X-OUT

Circuit Description


※ Attachment 1 Y Output Waveform

Rising Ramp

Falling Ramp

< Rising Ramp >

< Falling Ramp >

Circuit Description


Scan_l< Even_Scan >

< Y Sustain >

Circuit Description


※ Attachment 2 X Output Waveform

< X Sustain >


MEMO

Reference Information


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.



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.

* In TV, VIDEO, S-VIDEO, and COMPONENT(480i, 480p) modes, all screen modes can be selected.(16:9 → Zoom1 → Zoom2 → 4:3).

* In TV(DTV), COMPONENT(720p, 1080i), PC, HDMI modes, only 16:9 & 4:3 modes can be selected.* In Zoom1 and Zoom2 modes, you can move the picture on screen by pressing the or button.

* 16:9 : Sets the picture to 16:9 wide mode.* Zoom1 : Magnifies the size of the picture on the screen.* Zoom2 : Expands the Zoom1 format picture.* 4:3 : Sets the picture to 4:3 normal mode.

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. 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.



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.



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.



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



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.

Samsung Hps4253 Plasma

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