PLASMA DISPLAY TV

Chassis : D80B(N)_Y
Model : HPR8082X/XAA (HP-R8082)

SERVICE Manual

PLASMA DISPLAY TV FEATURES

■ Implementation of 1920 X 1080P

Full HDTV

■ Auto Brightness Control

■ Precise Sound with 20W Output

(SRS TruSURROUND XT)

■ High Functional PDP TV that supports

1 HDMI 1DVI and VMB

HP-R8082
This Service Manual is a property of Samsung Electronics Co.,Ltd. © Samsung Electronics Co., Ltd. Feb. 2006
Any unauthorized use of Manual can be punished under applicable Printed in Korea
International and/or domestic law. AA82-03126A
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 Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4

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 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8

Chapter 4 Exploded View & Part List

■ 4-1 HPR8082X/XAA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1

Chapter 5 Electrical Part List

■ 5-1 HPR8082X/XAA Service Item . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1

Chapter 6 Troubleshooting
■ 6-1 First Checklist for Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1
■ 6-2 Troubleshooting Procedures by ASS'Y . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2

Chapter 7 Block Diagram

■ 7-1 Overall Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1
■ 7-2 Partial Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2

Chapter 8 Wiring Diagram

■ 8-1 Overall Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1
■ 8-2 Digital - Analog Board connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-2

Chapter 9 PCB Diagram

■ 9-1 SMPS Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1
■ 9-2 DC/DC Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-4
■ 9-3 Video/Audio Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-5
Chapter 10 Schematic Diagram
■ 10-1 Analog . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-1
■ 10-2 Digital . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-3

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 Overall Block Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-1
■ 13-2 Partial Block Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13-3

Chapter 14 Reference Information

■ 14-1 Other issues related to other products . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-1
■ 14-2 Technical Terms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-2
 Precaution

1. Precaution
To avoid possible damages or electric shocks or exposure to radiation, follow the instructions below with regard to safety,
installation, service and ESD.

1-1 Safety Precautions

1. Make sure all protective devices are properly installed 5. Warning for Engineering Changes:
including non-metallic handles and compartment covers Never make any changes or additions to the circuit
when installing or re-installing the chassis or chassis design or the internal part for this product.
assemblies. Ex: Do not add any audio or video accessory
connectors. This might cause physical damage.
2. Make sure that no gaps exist between the cabinets for Furthermore, any changes or additions to the original
children to insert their fingers in to prevent children from design/engineering will invalidate the warranty.
receiving electric shocks. Gaps mentioned above include
ventilation holes of a too great magnitude between the 6. Warning - Hot Chassis:
PDP module and the cabinet mask, and the improper Some TV chassis are directly connected to one end of
installation of the rear cabinet. the AC power cord for electrical reasons.
Without insulated transformers, the product can only be
Errors may occur when the resistance is below 1.0 ㏁ or repaired safely when the chassis is connected to the
over 5.2 ㏁. earthed end of the AC power source.
In these cases, make sure that the device is repaired
before sending it back to the customer. To make sure the AC power cord is properly connected,
follow the instructions below. Use the voltmeter to
3. Check for Electricity Leakage (Figure 1-1) measure the voltage between the chassis and the
Warning: Do not use an insulated transformer for check- earthed ground. If the measurement is over 1.0V, unplug
ing the leakage. Use only those current leakage testers the AC power cord and change the polarity before re-
or mirroring systems that comply with ANSIC 101.1 and inserting it. Measure the voltage between the chassis
the Underwriter Laboratory's specifications (UL1410, and the ground again.
59.7).
7. Some TV chassis are shipped with an additional
secondary grounding system. The secondary system is
(READING SHOULD adjacent to the AC power line. These two grounding
LEAKAGE NOT BE ABOVE
0.5mA)
systems are separated in the circuit using an
DEVICE CURRENT
UNDER TESTER unbreakable/unchangeable insulation material.
TEST
TEST ALL
EXPOSED METAL 8. When any parts, material or wiring appear overheated or
SURFACES
damaged, replace them with new regular ones
2-WIRE CORD immediately. When any damage or overheating is
ALSO TEST WITH detected, correct this immediately and make a regular
PLUG REVERSED
(USING AC ADAPTER EARTH
check of possible errors.
PLUG AS REQUIRED) GROUND
9. Check for the original shape of the lead, especially that
Fig. 1-1 AC Leakage Test of the antenna wiring, any sharp edges, the AC power
and the high voltage power. Carefully check if the wiring
4. A high voltage is maintained within the specified limits is too tight, incorrectly placed or loose. Never change the
using safety parts, calibration and tolerances. When space between the part and the printed circuit board.
voltage exceeds the specified limits, check each special Check the AC power cord for possible damages. Keep
part. the part or the lead away from any heat-emitting
materials.

Samsung Electronics 1-1

Precaution

10. Safety Indication:

Some electrical circuits or device related materials
require special attention to their safety features, which
cannot be viewed by the naked eye. If an original part is
replaced with another irregular one, the safety or
protective features will be lost even if the new one has a
higher 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 or
fire.

1-2 Samsung Electronics

 Precaution

1-2 Servicing Precautions

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. The service instructions are printed on the cabinet, and 7. Any B+ interlock should not be damaged.
should be followed by any service personnel. If the metal heat sink is not properly installed, no
connection to the AC power should be made.
2. Make sure to unplug the AC power cord from the power
source before starting any repairs. 8. Make sure the grounding lead of the tester is connected
(a) Remove or re-install parts or assemblies. to the chassis ground before connecting to the positive
(b) Disconnect the electric plug or connector, if any. lead. The ground lead of the tester should be removed
(c) Connect the test part in parallel with the electrolytic last.
capacitor.
9. Beware of risks of any current leakage coming into
3. Some parts are placed at a higher position than the contact with the high-capacity capacitor.
printed board. Insulated tubes or tapes are used for this
purpose. The internal wiring is clamped using buckles to 10. The sharp edges of the metal material may cause
avoid contact with heat emitting parts. These parts are physical damage, so ensure wearing protective gloves
installed back to their original position. during the repair.

4. After the repair, make sure to check if the screws, parts 11. Due to the nature of plasma display panels, partial after-
or cables are properly installed. Make sure no damage is images may appear if a still picture is displayed on the
caused to the repaired part and its surroundings. screen for a long period of time.
This is caused by brightness deterioration due to the
5. Check for insulation between the blade of the AC plug storage effect of the panel, and to prevent this from
and that of any conductive materials (i.e. the metal happening, we recommend that the brightness and con-
panel, input terminal, earphone jack, etc). trast are reduced.
(e.g.) Contrast: 25, Brightness: 50
6. Insulation Check Process: Unplug the power cord from
the 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 AC

plug and that of the conductive material should be more
than 1 ㏁.

Samsung Electronics 1-3

Precaution

1-3 Static Electricity Precautions

1. Some semi-conductive ("solid state") devices are 6. Use only anti-static solder removal devices.
vulnerable to static electricity. These devices are known Most solder removal devices do not support an
as ESD. ESD includes the integrated circuit and the field anti-static feature. A solder removal device without an
effect transistor. To avoid any materials damage from anti-static feature can store enough static electricity to
electrostatic shock, follow the instructions described cause damage to the ESD.
below.
7. Do not remove the ESD from the protective box until the
2. Remove any static electricity from your body by replacement is ready. Most ESD replacements are
connecting the earth ground before handling any covered with lead, which will cause a short to the entire
semi-conductive parts or ass'ys. Alternatively, wear a unit due to the conductive foam, aluminum foil or other
dischargeable wrist-belt. conductive materials.
(Make sure to remove any static electricity before
connecting the power source - this is a safety instruction 8. Remove the protective material from the ESD
for avoiding electric shock) replacement lead immediately after connecting it to the
chassis or circuit ass'y.
3. Remove the ESD ass'y and place it on a conductive
surface such as aluminum foil to prevent accumulating 9. Take extreme caution in handling any uncovered ESD
static electricity. replacements. Actions such as brushing clothes or lifting
your leg from the carpet floor can generate enough static
4. Do not use any Freon-based chemicals. electricity to damage the ESD.
Such chemicals will generate static electricity that
causes damage to the ESD.

5. Use only grounded-tip irons for soldering purposes.

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 the
operating instructions unless you are qualified to do so.

1-4 Samsung Electronics

 Precaution

1-4 Installation Precautions

1. For safety reasons, more than six people are required 7. When connecting the RF antenna, check for a DTV
for carrying the product. receiving system and install a separate DTV reception
antenna for areas with no DTV signal.
2. Keep the power cord away from any heat emitting
devices, as a melted covering may cause fire or electric 8. When installing the product, leave enough space (4")
shock. between the product and the wall for ventilation
purposes.
3. Do not place the product in areas with poor ventilation A rise in temperature within the product may cause fire.
such as a bookshelf or closet. The increased internal
temperature may cause fire. 9. When moving a PDP with attached speakers, detach the
speakers first before moving the main body.
4. Bend the external antenna cable when connecting it to Moving the PDP main body without separating the
the product. This is a measure to protect it from being speakers may cause the speakers to detach, possibly
exposed to moisture. Otherwise, it may cause a fire or causing damage or injury.
electric shock.

5. Make sure to turn the power off and unplug the power
cord from the outlet before repositioning the product.
Also check the antenna cable or the external connectors
if they are fully unplugged. Damage to the cord may
cause fire or electric shock.

6. Keep the antenna far away from any high-voltage cables

and install it firmly. Contact with the high-voltage cable or
the antenna falling over may cause fire or electric shock.

Samsung Electronics 1-5

 MEMO

1-6 Samsung Electronics

 Product Specification

2. Product Specification
2-1 Product Features
Block Specfication Major IC Remark
- Input Voltage : AC110V(America)
Power
- Stand-By : 3W
SDP51
- DNIe4
GF9351
- HDMI
Video TC90103FG
- 3D Comb filter
SII9011
- DVI
SIL9993
- Output : 20W x 2 MSP4440, DSP56371,
Sound
- BBE TAS5122
C/Front
- Front & Rear Cabinet (Black High-Gloss Front Panel)
Cabinet - Stand, Speaker Integrated Type C/Rear New Design
- Box Packing (Alluminum T1.2,Powder Coating)
Stand Black Urethane
- 4 Grade
- Service Jack S/W Upgrade
Etc - 1920 x 1080p Support
- WUXGA Support
- MDC

■ Chip Description
- GF9351 : 480i, CVBS, Y/C, HDMI, PC Input Video Signal Processing
- DNIe4 : Implementation of near natural colors through noise reduction and visual quality improvement algorithms
- XC2C512 : Video Signal Switch
- TC90103FG : VIDEO Decoder, 3D-comb Built-in
- SIL9993 : HDMI Signal Receiver
- DS90C38 : LVDS Signal Transmitter
- DSP 56371 : Audio DSP(Digital Signal Processor)
- MSP4440 : SIF, Analog Audio Decoder
- AD9981/AD9888 : PC Input AD converter
- SII9011 : DVI Signal Recevier
- SDA6001 : General Board System Control Micom

Samsung Electronics 2-1

Product Specification

2-2 Key Features

Model HPR8082
Dimensions Display 78.50 (W) x 48.58 (H) x 5.09 (D) inches
Weight Display 141 Kg / 310.85 lbs
Voltage AC 100-120V~, 60Hz
Power Consumption 1050 W
Number of Pixels 1920 (H) x 1080 (V)
Screen Size 80 inches
AV1, AV2
S-VIDEO1, S-VIDEO2
COMPONENT1 - 480i,P/720P/1080i
VIDEO input COMPONENT2 - 480i,P/720P/1080i
PC
HDMI
DVI
AV1, AV2
S-VIDEO1, S-VIDEO2
COMPONENT1 - 480i,P/720P/1080i
AUDIO input
COMPONENT2 - 480i,P/720P/1080i
PC
DVI
Sound Output AUDIO (L/R), EXT SPEAKER (20W) (R +/- , L +/-)
OPTICAL (DIGITAL OUT)
Audio Output
COAXIAL (DIGITAL OUT)
External Control RS-232C - IN/OUT, MDC

■ H/W Configuration
- Video : TC 90103, SILL9993, AD9888, AD9881, TEA6425, BA7657F, XC20512, GF9351, DNIe4
- Sound : DSP56371, MSP4440G, NSP6241A, TAS5122

■ S/W Configuration
- DNIe4
- SDA 6001
- Digital Dolby AC3 5.1ch Signal Processing

■ Picture
- Progressive
- Output resolution : 1920 x 1080p
- OSD : Smart user Interface Grade1
- Picture Enhancement : DNIe 4
- Still picture, Noise reduction
- Comb Filter : 3D comb filter
- PIP : D/W, Large, Small

■ Sound
- System : Stereo
- Dolby Digital : AC-3, Tru Surround XT
- Output : 20W + 20W
- Speaker : External Type

2-2 Samsung Electronics

 Product Specification

■ Feature
- Component Interface(480i/480p/720p/1080i, Y/Pb/Pr)
- Digital Interface : HDMI
- Picture Size : 16:9/Zoom In1/4:3
- Auto Program
- Sleep Timer : 180 min
- Clock
- Optical Sound Output : Dolby Digital, PCM

■ In/Out Terminals
- Side : 1 CVBS Input, 1 S-VHS Input
- Rear : - 1 AV Input, 1 SVHS Input
- AV Monitor Output : NTSC Only
- Component Input : 480i/480p/720p/1080i
- 15 Pin D-sub Input : ~ WUXGA (1920 x 1080p)
- HDMI Input (HDCP) : DTV(480p/720p/1080i)
- 2 Channel line sound out : ML/MR
- Sub Woofer
- SPDIF Output : 1 Optical, 1 Coaxial
- DVI Input

■ Remocon
- Normal : TM77 Advanced Type

■ Power Supply
- 110V Only

■ Power Consumption
- Standy-by : 3W
- Max Power : 1050W

Samsung Electronics 2-3

Product Specification

2-3 Accessories
Accessories Item Item code Remark

Owner's Instructions BN68-00852B

Remote Control BN59-00496A

AAA Batteries 4301-000103

Power Cord 3903-000280

Warranty Card/ 6801-001011/

Registration Card/ AA68-40065B/
Safety Guide Manual AA68-03242F
Install CD
MDC Software BN59-00504A
(RS-232C)

Ferrite Cores 3301-001110

Supplied Accessories

S-VIDEO Cable AA39-40001E

Samsung Service center

HDMI Cable BN39-00641A

DVI cable BN39-00246F

Component Cables (RCA) AA39-00033A

RS-232C Cable AA39-00311A

Video/Audio Cable AA39-40001B

PC Cable BN39-00115A

PC Audio Cable AA39-00034B

Speaker Cables BN39-00530A

2-4 Samsung Electronics

 Product Specification

Accessories Item Item code Remark

Accessories that can be
purchased additionally
Optical Cable -

Internal shopping mall

Coaxial Cable -

Samsung Electronics 2-5

 MEMO

2-6 Samsung Electronics

 Alignment & Adjustment

3. Alignment & Adjustment

3-1 Service Instruction
* Adjustments when Replacing each Ass'y
1. Replacements of Other Digital Boards
① 3-2 Enter Service Mode according to the procedures for entering Service Mode.
② Adjust the White Balance after a replacement.

2. Replacements of Other Analog Boards

- For sound problems, check the sound after a replacement

3. SMPS Replacement
- When replacing the SMPS due to SMPS problems, adjust the VA, VE, VSET, VSCAN, VSX and VSY voltages referring to the
label on the module. Adjust the voltage by turning the Voltage Adjustment knob clockwise or counterclockwise.
Open the cable connection (connector connection) such as smps and y-b'd etc.

Ve

Vsx VA Vscan
Vsy
Vset

Vsx Va Ve

Vsy

Vset

4. Replacements of Other Boards

- Check the operations when turning on the screen and when operating the unit.

Samsung Electronics 3-1

Alignment & Adjustment

3-2 How to Access Service Mode

1. How to Access Service Mode
① Normal Transmitter
To enter: Power Off → Mute → 1 → 8 → 2 → Power On
(The interval between key operations should be shorter than 3 seconds)
To exit: Power Off → On
② Service Mode Settings
- Sharp Screen (Dynamic) Color Tone =Default Value
③ Adjustment Procedures
- Select Key: Press to select an item.
- Left/Right Keys: Press to increase or decrease a data value.
- Menu Key: Press to save settings to the EEPROM and return to a higher level mode.
- TV/Video Key: Press to switch AV Modes.
- Up/Down Keys: Press to move to an item.
Enter

2. Initial SERVICE MODE DISPLAY State

TC90103 OPTION
CXA2171 WB
AD9981 LOGIC
AD9888 Checksum
SDP51 RESET
GF9351
DNIe4

3-2 Samsung Electronics

 Alignment & Adjustment

3-3 Factory Data ★ The underlined are items applied during the service adjustment. None of the others should be adjusted.

1. TC90103(MAIN) : Main Video Decoder

No Factory Name VIDEO/S-VIDEO 480I Remark
1 LIMYF 6 6
2 KMFY 2 2
3 KFY 0 0
4 LIMCF 5 5
5 KMFC 1 1
6 KFC 0 0
7 GVENH 0 0
8 VEN 3 3
9 VEC 1 1
10 FENH 0 0
11 PRENH 0 0
12 GHENH 4 4
13 NCLIM 1 1
14 GNC 0 0
15 GLTI 0 0
Not Adjustment
16 LTILIM 0 0
17 SET DELAY 8 11
18 GCTI 1 1
19 CTILIM 0 0
20 FLTI 0 0
21 FCTI 1 1
22 YCONT 70 70
23 YBRIT -32 -32
24 CRGAIN 8 8
25 CBGAIN 8 8
26 CROFS 8 8
27 CBOFS 8 4
28 HUE 64 64
29 HUE BIAS 0 0
30 CKILL 3 3

Samsung Electronics 3-3

Alignment & Adjustment

2. CXA2171
COMPONENT
PC/DVI(PC)
No Factory Name VIDEO ATSC/DVI(V) HDMI/DVI Remark
/HDMI(PC)
/HDMI(V)
1 GAINSEL 1 1 1 1
2 CRGAIN 7 7 7 7
Not Adjustment
3 CBGAIN 7 7 7 7
4 YGAIN 7 7 7 7

3. A9981 : Component A/D Convertor

No Factory Name 480P 720P 1080I Remark
1 YGAIN 354 354 354
2 CbGAIN 341 341 341
3 CrGAIN 341 341 341
4 YOFFSET 654 64 64
5 CbOFFSET 512 512 512
6 CrOFFSET 512 512 512 Not Adjustment
7 PHASE 16 16 16
8 VCO 1 2 2
9 CP 4 5 5
10 CLPDLY 8 45 45
11 CLPDUR 15 20 20

4. A9988 : PC A/D Convertor

No Factory Name Comp Sub PC Remark
1 GGAIN 128 128
2 BGAIN 240 240
3 RGAIN 128 128
4 GOFFSET 64 64 Not Adjustment
5 BOFFSET 80 64
6 ROFFSET 80 64
7 AUTOCOLOR Off Off

5. GF9350 : SCALAR
COMPONENT
PC/DVI(PC)
No Factory Name VIDEO ATSC/DVI(V) HDMI/DVI Remark
/HDMI(PC)
/HDMI(V)
1 SHARPM 0 8990 8990 8990
2 SHARPS 0 6014 6014 6014 Not Adjustment
3 VTHRESHOLD 10 150 150 150

3-4 Samsung Electronics

 Alignment & Adjustment

6. DNIe4 : For visual quality improvement

COMPONENT
PC/DVI(PC)
No Factory Name VIDEO ATSC/DVI(V) Remark
/HDMI(PC) HDMI/DVI
/HDMI(V)
1 BRATIO 8990 8990 8990 8990
2 WRATIO 6014 6014 6014 6014
3 CCTFAC 150 150 150 150
4 PATTSEL 0 0 0 0
5 NRONOFF 1 1 1 1
6 CTEWTPCC 3 3 0 3
7 BWICSDCE 7 7 0 7
8 DECECEA 7 7 0 7
9 MDTHLOW 48 48 48 48
10 MDTHHIGH 96 96 96 96
11 METHLOW 40 40 40 40
12 METHHIGH 80 80 80 80
13 MDGAIN 32 32 32 32
14 MCGAIN 32 32 32 32
15 DENELINK 0 0 0 0
16 DCENELINK 0 0 0 0
17 CENELINK 0 0 0 0
18 CECUTOFF 64 64 64 64
19 CEUPPER 200 200 200 200
20 LCEGAIN 0 0 0 0 Not Adjustment
21 CETHL 0 0 0 0
22 CETHU 64 64 64 64
23 DCEGAIN 32 32 32 32
24 BTILT 80 80 80 80
25 WTILT 190 190 190 190
26 DEGAINX1 44 44 44 44
27 DEGAINX2 22 22 22 22
28 DEGAINY1 44 44 44 44
29 DEGAINY2 22 22 22 22
30 SUPLIFTSEL 0 0 0 0
31 EXTSEL 1 1 1 1
32 BOOLSUPX1 1 1 1 1
33 BOOLSUPX2 1 1 1 1
34 BOOLSUPY1 1 1 1 1
35 BOOLSUPY2 1 1 1 1
36 BOOLENHSEL 1 1 1 1
37 LOGMODE 1 1 1 1
38 MR 0 0 0 0
39 CORINGSEL 1 1 1 1

Samsung Electronics 3-5

Alignment & Adjustment

COMPONENT
PC/DVI(PC)
No Factory Name VIDEO ATSC/DVI(V) HDMI/DVI Remark
/HDMI(PC)
/HDMI(V)
40 RTH1 0 0 0 0
41 RTH2 2 2 2 2
Not Adjustment
42 NDON 1 1 1 1
43 CTEGAIN 153 153 153 153

3-6 Samsung Electronics

 Alignment & Adjustment

7. WHITE BALANCE
No Factory Name DVI PC COMPONENT VIDEO Remark
1 SBRIGHT 80 80 80 80
2 SCONTRAST 40 40 40 40
3 RDRIVE 128 128 128 128
4 GDRIVE 128 128 128 128
5 BDRIVE 128 128 128 128
6 RCUTOFF 128 128 128 128
Not Adjustment
7 GCUTOFF 128 128 128 128
8 BCUTOFF 128 128 128 128
9 CB5_HIGH 153 157 153 153
10 CR5_HIGH 118 133 118 118
11 CB5_LOW 130 130 130 130
12 CR5_LOW 129 129 129 129

8. OPTION
No Factory Name INIT Remark
1 DRCELVEL 39
2 DDCPROTECT 0
3 MELODYVOL 13 -
4 WHITE_B_CTL RGBMODE
5 SMARTDBG 0

9. Factory Reset
① Select Reset from the Factory Menu
② Settings (User Control Data) other than those controlled by Factory Mode are initialized and then the power is turned off
(Standby Mode).

Samsung Electronics 3-7

Alignment & Adjustment

3-4 Service Adjustment

3-4-1 White Balance Adjustment

■ White Balance Adjustment Specifications: Control IC : AD9888, AD9981, DNIe4, Logic

1. Adjust the white balance for the 4 modes: DVI(ATSC/HDMI)→ COMPONENT → PC → COMPOSITE or S-VIDEO

2. Setting up the equipment is required to adjust the white balance of ATSC/HDMI input for adjusted parts
(DVI, DTV, PC, VIDEO: Master equipment)
① To set a white balance standard for the panel with ATSC input, which is a full digital path, adjust the target TV set with Logic
on the panel and the DNIe adjustment register.
→ Since the current ATSC equipment does not provide a standard white balance adjustment pattern, set a standard with
the DVI input, and examine the deviation for ATSC/HDMI input.
→ Reexamine the specifications if an additional coordinate is required for ATSC/HDMI input when examining the
visual quality.
② For DTV adjustments, reset it to the factory setting by setting the optimal ADC value and then adjusting DNIe4 and Logic.
→ For AD9981, additional Auto Color is not required because it has built-in auto color.
③ For PC Mode, perform Auto Color for AD9888 in the white balance automation process and adjust the white balance.
Adjust DNIe4 and Logic.
④ For Video adjustments, adjust DNIe4 and Logic and then apply this all 480i signals as PGM.

※ Therefore Micom saves white balance related data by the mode according to the memory modes of the following block
diagram.
※ When replacing a Video Board, the white balance needs to be adjusted.
※ Auto PC Mode AD9888

Composite Adjuat Reg Adjuat Reg

or CH 1 : DVI
Adjuat Reg
S-Video

Component
CH 2 : Component
- Component
- DTV
- PC

- Component CH 3 : PC
Memory Mode - DTV
- PC

CH 4 : Composite
or
S-Video

3-8 Samsung Electronics

 Alignment & Adjustment

3. White Balance Method of Adjustment

① Connect the Pattern Generator (MSPG-925L) by the source (DVI, Component, Composite or S-Video).
② Prepare any color coordinate measuring equipment such as a CA100 and adjust the white balance for each source referring
to the table above.

- H/L Adjustment : Adjust without changing the Logic G value.

x : Adjust by changing the Logic R-DRIVE value
y : Adjust by changing the Logic B-DRIVE value
Y : Adjust by changing the DNIe Sub-Contrast value

- L/L Adjustment
x : Adjust by changing the Logic R-CUTOFF value
y : Adjust by changing the Logic B-CUTOFF value
Y : Adjust by changing the DNIe Sub-Bright value

4. Mode Adjustment Method

- DVI
① Using Master 925LTH equipment, input the Toshiba ABL Pattern (Pattern #16) in 1080i resolution (Model # 5) to the HDMI 1
IN port using a DVI ↔HDMI converting cable.
② Enter Factory Mode, move to the "White Balance" item and press Select to enter.
③ Set the coordinates for H/L and L/L by adjusting the "SBContrast", "SBRIGHT", "R Drive", "G Drive", "B Drive", "R Cutoff",
"G Cutoff" and "B Cutoff" items.

- Component
① Using Master 925LTH equipment, input the Toshiba ABL Pattern (Pattern #16) in 1080i resolution (Model # 6) to the
Component 1 IN port.
② Enter Factory Mode, move to the "White Balance" item and press Select to enter.
③ Set the coordinates for H/L and L/L by adjusting the "SBContrast", "SBRIGHT", "R Drive", "G Drive", "B Drive", "R Cutoff",
"G Cutoff" and "B Cutoff" items.

- PC
① Using Master 925LTH equipment, input the Toshiba ABL Pattern(Pattern #16) in 1920 x 1080i pixels resolution at 60Hz
(Model # 21) to the PC IN port.
② Enter Factory Mode, move to the "White Balance" item and press Select to enter.
③ Set the coordinates for H/L and L/L by adjusting the "SBContrast", "SBRIGHT", "R Drive", "G Drive", "B Drive", "R Cutoff",
"G Cutoff" and "B Cutoff" items.

- Video
① Using Master 925LTH equipment, input the Toshiba ABL Pattern(Pattern #16) of the NTSC (Model # 1) signal to the AV1
port.
② Enter Factory Mode, move to the "White Balance" item and press Select to enter.
③ Set the coordinates for H/L and L/L by adjusting the "SBContrast", "SBRIGHT", "R Drive", "G Drive", "B Drive", "R Cutoff",
"G Cutoff" and "B Cutoff" items.

Samsung Electronics 3-9

Alignment & Adjustment

5. White Balance Adjustment Specifications : Coordinates

(CS-1000/CA-210)
Input Signal
x y Y(fL) T(K)

CVBS H/L 264 270 - 14000K/± 0

(NTSC) L/L 285 298 0.55fL(1.9cd/m³) 9000K/+5

COMP H/L 264 270 - 14000K/± 0

(1080i) L/L 285 298 0.6fL(2.1cd/m³) 9000K/+5

PC H/L 285 293 - 9300K/± 0

(1920*1080, 60Hz) L/L 285 293 0.6fL(2.1cd/m³) 9300K/± 0

DVI H/L 264 270 - 14000K/± 0

(1080i) L/L 285 298 0.55fL(1.9cd/m³) 9000K/+5

※ Adjustment Equipment: 925 LTH (Manufacturer: Master)

※ Adjustment Pattern: ABL Pattern

6. System Reset
- Enter Factory Mode according to the Factory Mode entering procedures described above and click [Reset]. All settings are
initialized except for the factory settings and the white balance setting.

3-4-2 How to adjust White Balance with 10 steps gray pattern

1. If you don't have Toshiba ABL pattern, you can adjust white balance with 10 steps gray scale pattern of Figure 1.

2. When you measure Low Light, use 20 IRE portions.

And When you measure High Light, use 70 IRE portion. But if color noise is less in 60 IRE than in 70 IRE, 60 IRE is allowed as
a measure point.

Figure 1

3. Repeat number 4 on the page 3 to 9.

3-10 Samsung Electronics

 Exploded View & Part List

4. Exploded View & Part List

4-1 HPR8082X/XAA
You 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 Remark
FT532 2901-001332 FILTER-EMI AC LINE 250V,15A,-,0.33uF/100 1 S.A
M0006 BN63-01848A COVER-REAR SUB SPD-80X5,SECC,T1.0 1 S.N.A
M0006 BN63-01850A COVER-REAR BOTTOM SPD-80X5,AL,T1.2 1 S.N.A
M0013 BN96-02088B ASSY COVER P-REAR 80X5,AL T1.2,EUP 1 S.A
M0027 BN64-00365A BADGE 80X4,BS,1.5,78,SILVER,RHODIUM,SAMS 1 S.N.A
T0448
M0013 M0045 BN96-02089A ASSY STAND P-SET 80X5 1 S.A
M0145 BN96-02142A ASSY BOARD P-FUNCTION Y,CT5000-3430,FUNC 1 S.A
T0003 BN96-02084C ASSY COVER P-FRONT 80X5H(EUP),AL EXTRUDE 1 S.A
T0044 BN96-02113A ASSY PDP MODULE P M3,SPD-80X5HD,D80A,189 1 S.A

T0074 T0268 T0145

T0071 BN64-00358A INDICATOR-LED SPD-80X5,ABS(CT-0520),CLEA 1 S.N.A
T0132 T0074 BN59-00496A REMOCON Y,TM77,210*58*21,S3C825AC64-QWRA 1 S.A
M0006
T0159 T0091 BN94-00815A ASSY PCB MISC-SIDE A/V SPD-80X5HD,D80A,X 1 S.A

T0044 T0159 T0132 BN94-00813A ASSY PCB MISC-DIGITAL HP-R8082,D80B,X5 1 S.A

T0145 BN94-00814A ASSY PCB MISC-ANALOG HP-R8082,D80B,X5 1 S.A
T0159 BN96-02108A ASSY PCB P-SMPS SPD-80X5HD,100~240V 1 S.A
T0159 BN96-02109A ASSY PCB P-SMPS SPD-80X5HD,Vs Block,400V 1 S.A
T0159 T0159 BN96-02110A ASSY PCB P-SMPS SPD-80X5HD,DC_DC Blpck,V 1 S.A
T0514 FT532
T0159
T0159 BN96-02111A ASSY PCB P-SMPS SPD-80X5HD,Multi Block,D 1 S.A
T0456 T0175 BN96-02079A ASSY SPEAKER P 8ohm,Y Project,80",20W,2w 1 S.A
T0268 3903-000280 CBF-POWER CORD DT,US,EP3,M(IEC C19/C20), 1 S.A
T0448 BN96-02087B ASSY BRACKET P-TERMINAL 80X5,AL,EUP 1 S.N.A
M0006
T0456 BN67-00146A GLASS-FILTER EMI 80",Mesh,48%,1824*1023, 1 S.N.A
T0091
T0003 T0514 BN61-02203A BRACKET-SUPPORT SPD-80X5HD,SECC,T2.0,40 1 S.N.A

M0045

M0145

M0027

T0071

T0175

Samsung Electronics 4-1

 Electrical Part List

5. Electrical Part List

5-1 HPR8082X/XAA Service Item
You 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 Remark
M0013 BN96-02088B ASSY COVER P-REAR 80X5,AL T1.2,EUP 1 S.A
M0018 BN97-00761A ASSY MICOM HP-R8082,D80B,39LV010,M-Y80NU 1 S.A
M0018 BN97-00762A ASSY MICOM ,D80B,39LV010,M-Y80NUSV-00D4- 1 S.A
M0018 BN97-00763A ASSY MICOM HP-R8082,D80B,JS28F256J3C,M-Y 1 S.A
M0018 BN97-00764A ASSY MICOM HP-R8082,D80B,29LV320,M-Y80NU 1 S.A
M0045 BN96-02089A ASSY STAND P-SET 80X5 1 S.A
M0114 BN39-00115A CBF SIGNAL NL5MO,15P/15P,2990,1830MM,UL2 1 S.A
M0125 BN39-00246F CBF SIGNAL-DVI(D) 1703FP,24P/24P,20276-D 1 S.A
T0003 BN96-02084C ASSY COVER P-FRONT 80X5H(EUP),AL EXTRUDE 1 S.A
T0037 BN96-02120A ASSY PDP P-LOGIC MAIN BOARD M3,SPD-80X5H 1 S.A
T0044 BN96-02113A ASSY PDP MODULE P M3,SPD-80X5HD,D80A,189 1 S.A
T0073 BN96-02115A ASSY PDP P-X MAIN BOARD M3,SPD-80X5HD,D8 1 S.A
T0074 BN59-00496A REMOCON Y,TM77,210*58*21,S3C825AC64-QWRA 1 S.A
T0091 BN96-02118A ASSY PDP P-Y BUFFER UPPER BOAR M3,SPD-80 1 S.A
T0092 BN96-02119A ASSY PDP P-Y BUFFER LOWER BOAR M3,SPD-80 1 S.A
T0096 BN96-02117A ASSY PDP P-Y MAIN BOARD M3,SPD-80X5HD,D8 1 S.A
T0132 BN94-00813A ASSY PCB MISC-DIGITAL HP-R8082,D80B,X5 1 S.A
T0145 BN94-00814A ASSY PCB MISC-ANALOG HP-R8082,D80B,X5 1 S.A
T0159 BN96-02108A ASSY PCB P-SMPS SPD-80X5HD,100~240V 1 S.A
T0159 BN96-02109A ASSY PCB P-SMPS SPD-80X5HD,Vs Block,400V 1 S.A
T0159 BN96-02110A ASSY PCB P-SMPS SPD-80X5HD,DC_DC Blpck,V 1 S.A
T0159 BN96-02111A ASSY PCB P-SMPS SPD-80X5HD,Multi Block,D 1 S.A
T0175 BN96-02079A ASSY SPEAKER P 8ohm,Y Project,80",20W,2w 1 S.A
T0235 BN96-02114A ASSY PDP P-DC/DC M3,SPD-80X5HD,D80A,1897 1 S.A
T0937 BN96-02121A ASSY PDP P-ADDRESS E BUFFER M3,SPD-80X5H 1 S.A
T0938 BN96-02122A ASSY PDP P-ADDRESS F BUFFER M3,SPD-80X5H 1 S.A
T0939 BN96-02123A ASSY PDP P-ADDRESS G BUFFER M3,SPD-80X5H 1 S.A
T0941 BN96-02116A ASSY PDP P-X BUFFER BOARD M3,SPD-80X5HD, 1 S.A

Samsung Electronics 5-1

 MEMO

5-2 Samsung Electronics

 Troubleshooting

6. Troubleshooting
6-1 First Checklist for 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 Drive Board, and between the
Logic Boards.

NO Video NO Sound Abnormal Image No power Partial block defect

Replace the
Cable connection Check Speaker LVDS CABLE
SMPS Replace buffer of the
Check Wire Check
block

Video board Sond board Video board

replace replace replace

Logic board
Video board
X,Y board replace replace
replace

X,Y board replace

Logic board
replace

Samsung Electronics 6-1

Troubleshooting

6-2 Troubleshooting Procedures by ASS'Y

No Assy Code No. Description Major Symptoms
BN96-02108A
BN96-02109A
1 ASSY PCB P-SMPS SMPS No Power, No Video, Relay On, Off Repetition
BN96-02110A
BN96-02111A
2 ASSY PDP P-X MAIN BOARD BN96-02115A X Drive Board No Video
3 ASSY PDP P-Y MAIN BOARD BN96-02117A Y Drive Board No Video
4 ASSY PDP P-LOGIC BOARD BN96-02120A Logic Board No Video, Noise in Video
5 ASSY PDP P-Y BUFF UPPER BOARD BN96-02118A Y Buffer Upper Board Upper Black Video
6 ASSY PDP P-Y BUFF LOWER BOARD BN96-02119A Y Buffer Lower Board Lower Black Video
7 ASSY PDP P-ADDRESS E-BUFF BOARD BN96-02121A Address E Buffer Board Black video block
8 ASSY PDP P-ADDRESS F-BUFF BOARD BN96-02122A Address F Buffer Board Black video block
9 ASSY PDP P-ADDRESS G-BUFF BOARD BN96-02123A Address G Buffer Board Black video block
10 ASSY PCB MISC-DIGITAL BN94-00678A Digital Board No Video
11 ASSY PCB MISC-Analog BN94-00679A Analog Board No Sound
12 ASSY PCB MISC-SIDE A/V BN94-00680A Side A/V Board External Output2, S-Video 2, Abnormal Audio
13 ASSY LED BN96-02139A Function Board Failed LED Operation
Failed Function Key Operation, Failed Remote Control Operation, Failed LED
14 ASSY FUNCTION BN96-00142A Led Board
Operation, Failed Power Saving Mode Operation.

6-2 Samsung Electronics

 Block Diagram

7. Block Diagram
7-1 Overall Block Diagram

Samsung Electronics 7-1

Block Diagram

7-2 Partial Block Diagram

7-2-1 Main SMPS Block Diagram

Digital B’D
7-2-2 DC-DC Block Diagram
VS GND
V
V SCA
SCA N_L
N_L BL
BL OCK
OCK
(200V
(200V)) Flyback
Flyback
V SCA N_L
((-- 140V )

V GND
V NF
NF BLOCK
BLOCK
Flyback
Flyback
V NF
((-- 130V )

V SCA N_H
VA V (+ 100V )
V SCA
SCA N_H
N_H BLOCK
BLOCK
(65V ) Flyback
Flyback
V SCA N_L
((-- 140V )

V CC_F
REG
REG (+ 15V )

V SCA N_L
((-- 140V )

7-2 Samsung Electronics

 Wiring Diagram

8. Wiring Diagram
8-1 Overall Wiring

Analog
Digital B’d B’d
Power
Signal

Samsung Electronics 8-1

Wiring Diagram

8-2 Digital - Analog Board connection

CN101 (TO SMPS) CN102 (TO SMPS) CN701 (TO CONTROL) CN704 (TO SIDE AV)
PIN # Signal PIN # Signal PIN # Signal PIN # Signal
1 FAN_CTL 1 A13V 1 BUZZER 1 GND
2 S_5V 2 A13V 2 GND 2 S_VHS2C
3 RTN 3 GND 3 KEY2 3 GND
4 POWER 4 GND 4 KEY1 4 S_VHS2Y
5 RTN 5 A19V 5 LED_GRN 5 GND
6 RTN 6 A19V 6 LED_RED 6 V2_SR
7 RTN 7 GND 7 IR 7 GND
8 D13V 8 GND 8 GND 8 V2_SL
9 D13V 9 VT 9 S_5V 9 S-VHS2_DET
10 D13V 10 GND 10 S_5V 10 V2_DET
11 RTN 11 SCL_DTV 11 GND
12 SDA_DTV 12 V2_CVBS
13 GND

8-2 Samsung Electronics

 Wiring Diagram

CN2801 (TO LOGIC) CN2802 (TO LOGIC)

PIN # Signal PIN # Signal PIN # Signal PIN # Signal
1 GND 17 O_TXCLKA+ 1 GND 17 E_TXCLKA+
2 GND 18 O_TXCLKA- 2 GND 18 E_TXCLKA-
3 O_TXOUTB_3+ 19 O_TXOUTA_2+ 3 E_TXOUTB_3+ 19 E_TXOUTA_2+
4 O_TXOUTB_3- 20 O_TXOUTA_2- 4 E_TXOUTB_3- 20 E_TXOUTA_2-
5 O_TXOUTB_2+ 21 O_TXOUTA_1+ 5 E_TXOUTB_2+ 21 E_TXOUTA_1+
6 O_TXOUTB_2- 22 O_TXOUTA_1- 6 E_TXOUTB_2- 22 E_TXOUTA_1-
7 O_TXOUTB_1+ 23 O_TXOUTA_0+ 7 E_TXOUTB_1+ 23 E_TXOUTA_0+
8 O_TXOUTB_1- 24 O_TXOUTA_0- 8 E_TXOUTB_1- 24 E_TXOUTA_0-
9 O_TXOUTB_0+ 25 GND 9 E_TXOUTB_0+ 25 GND
10 O_TXOUTB_0- 26 GND 10 E_TXOUTB_0- 26 GND
11 O_TXCLKB- 27 SCL_LOGIC 11 E_TXCLKB- 27 NC
12 O_TXCLKB+ 28 GND 12 E_TXCLKB+ 28 GND
13 GND 29 SDA_LOGIC 13 GND 29 NC
14 GND 30 GND 14 GND 30 GND
15 O_TXOUTA_3+ 31 GND 15 E_TXOUTA_3+ 31 GND
16 O_TXOUTA_3- 32 GND 16 E_TXOUTA_3- 32 GND

CN703 (DIGITAL) CN702 (DIGITAL)

PIN # Signal PIN # Signal PIN # Signal PIN # Signal
1 LNA 17 NRSTO 1 NC 17 NC
2 WOOFER_MUTE 18 RF_SW 2 GND 18 GND
3 GND 19 GND 3 NC 19 GND
4 VT 20 RF_AGC_MON 4 GND 20 TS_CLK
5 GND 21 GND 5 NC 21 TS_VLD
6 A_5V 22 A9V 6 TS(1) 22 TS(0)
7 GND 23 GND 7 TS(3) 23 TS(2)
8 S_3.3V 24 MAIN_SIF 8 TS(5) 24 TS(4)
9 GND 25 GND 9 TS(7) 25 TS(6)
10 SUB_AFT 26 MAIN_AFT 10 GND 26 GND
11 GND 27 GND 11 4440_SDO 27 ALPS_XTAL_OFF
12 AIR_S 28 AIR_M 12 4440_SCLKO 28 4440_LRCLKO
13 GND 29 GND 13 GND 29 GND
14 GND 30 GND 14 NC 30 4440_AUD_CLK
15 NC 31 A19V 15 D3.3V 31 GND
16 NC 32 A19V 16 SDA_5 32 SCL_5

Samsung Electronics 8-3

Wiring Diagram

CN102 (Analog) CN103(Analog)

PIN # Signal PIN # Signal PIN # Signal PIN # Signal
1 NC 17 NC 1 LNA 17 NRSTO
2 GND 18 GND 2 S_MUTE 18 RF_SW
3 NC 19 GND 3 GND 19 GND
4 GND 20 TSCLK 4 A33V 20 RF_AGC
5 TSSYNC 21 TSVLD 5 GND 21 GND
6 TS(1) 22 TS(0) 6 S_5V 22 A13V
7 TS(3) 23 TS(2) 7 GND 23 GND
8 TS(5) 24 TS(4) 8 S_3.3V 24 MAIN_SIF
9 TS(7) 25 TS(6) 9 GND 25 GND
10 GND 26 GND 10 SUB_AFT 26 MAIN_AFT
11 1954_SDO 27 APLS_XTAL_OFF 11 GND 27 GND
12 8415_SCLK 28 8415_LRCLK 12 SUB_CVBS 28 MAIN_CVBS
13 GND 29 GND 13 GND 29 GND
14 NC 30 4450_AUD_CLK 14 GND 30 GND
15 D3.3V 31 GND 15 NC 31 A19V
16 SDA_5 32 SCL_5 16 NC 32 A19V

8-4 Samsung Electronics

 PCB Diagram

9. PCB Diagram
9-1 SMPS Board
9-1-1 Assy SMPS Board

Samsung Electronics 9-1

PCB Diagram

9-1-2 Names & Roles of Key Parts

* P1 : AC Power input
* P2 : AC output for POD SMPS (option)
* T1 : Multi SMPS output for Digital Board
* T2 : Multi SMPS output for Anlaog Board
* T3 : Multi SMPS output for Logic Board
* T4 : X Board Drive Power Output Terminal
* T5 : Y Board Drive Power Output Terminal
* T6 : DC/DC Power Output Terminal
* T7 : Address Power Output Terminal1
* T8 : Address Power Output Terminal 2
* F1 ~ F5 : Fan output

9-2 Samsung Electronics

 PCB Diagram

9-1-3 SMPS Board Connector Pin

P1 P2 T1 T2 T3
PIN # Signal PIN # Signal PIN # Signal PIN # Signal PIN # Signal
1 AC Neutral 1 AC Live_F 1 RTN 1 D13V 1 D3.4V
2 N/C 2 N/C 2 D13V 2 D13V 2 D3.4V
3 AC Live 3 AC Neutral_F 3 D13V 3 RTN 3 D3.4V
4 AC Neutral 4 D13V 4 RTN 4 D3.4V
5 N/C 5 RTN 5 Vamp 5 RTN
6 AC Live 6 RTN 6 Vamp 6 RTN
7 RTN 7 RTN_amp 7 D5.3V
8 PS_ON 8 RTN_amp 8 RTN
9 RTN 9 Vt 9 N/C
10 STD_5V 10 RTN 10 RTN
11 FAN_C 11 VS_ON
12 RTN
13 PS_ON
14 STD_5V
15 TBD(AC_DET)

T4 T5 T6 T7 T8
PIN # Signal PIN # Signal PIN # Signal PIN # Signal PIN # Signal
1 D5.3V 1 D5.3V 1 Vsx 1 Va 1 Va
2 Vg 2 Vg 2 RTN 2 Va 2 Va
3 RTN 3 RTN 3 Va 3 N/C 3 N/C
4 RTN 4 Vscan 4 RTN 4 RTN 4 RTN
5 Ve 5 RTN 5 RTN 5 RTN
6 RTN 6 Vset
7 RTN 7 RTN
8 VSX 8 RTN
9 VSX 9 VSY
10 VSY
11 RTN
12 Va

F1, F2, F3, F4, F5

PIN # Signal
1 Fan_VNOTE1
2 RTN
3 FAN_DE

Samsung Electronics 9-3

PCB Diagram

9-2 DC/DC Board

9-2-1 Assy DC-DC Board

CN2000 CN2001

9-2-2 DC-DC Board Connector Pin

CN2000 CN2001
NO INPUT SYM NO INPUT SYM
1 VSX 180V~220V 1 VNF -
2 GND - 2 GND -
3 VA 60V~70V 3 VSCAN_L -
4 GND - 4 VSCAN_H VSCAN_L
5 VCC_F VSCAN_L
6 GND -
7 VS_ON INPUT(2.8V ~ 3.3V)
8 5VD INPUT(5.0V ~ 5.4V)
9 GND -

9-4 Samsung Electronics

 PCB Diagram

9-3 Video/Audio Board

9-3-1 Digital & Analog Board

Samsung Electronics 9-5

PCB Diagram

9-3-2 Roles of Major port

* HDMI 1 : Digital video and audio input port. No audio signal in the case of a DVI - HDMI connection.
* D - SUB : Analog PC signal input port
* PC SOUND : PC audio input port
* COMPONENT 1 / COMPONENT 2 : Color difference video signal input port 1 / 2
* Audio1 / Audio2 : COMPONENT 1 / 2 Audio input port
* VIDEO : VIDEO Signal Video(Yellow Port)/ Audio input port (Audio input port S-Video common use)
* MONITOR OUT : VIDEO Signal Video / Audio output port
* S - Video : S - Video input port (For audio, use Audio IN of VIDEO 1)
* COXAL : Digital audio (5.1 channel) output port
* WOOFER : WOOFER output port
* OPTICAL : Digital audio (5.1 channel) output port
* SVC

9-3-3 Roles of Major Connectors

* LVDS CON : Provides a Logic video signal

* PWR CON (11P) : Provides power from the SMPS for the Digital Board
* PWR CON (10P) : Provides power from the SMPS for the Analog Board
* CONTROL : Digital Board Contorl Board connection
* SIDE A/V : Digital Board SIDE A/V (EXT 2 / Audio input, S - Video 2) connection
* CPLD D/N CON : CPLD Used to update the program

9-3-4 Roles of Major IC

* GF9351 : 480i, CVBS, Y/C, HDMI, PC Input Video Signal Processing

* DNIe4 : Provides clear near-natural color through noise reduction and visual quality enhancement algorithms.
* XC2C512 : Video Signal Switch
* TC90103FG : VIDEO Decoder, 3D-comb are included
* SIL9993 : HDMI Signal Receiver
* DS90C38 : LVDS Signal Transmitter
* AD9981 : COMPONENT INPUT AD Converter
* S3C2800 : The CPU that controls the overall operation of the board.
* DSP 56371 : Audio DSP(Digital Signal Processor)
* MSP4440 : SIF, Analog Audio Decoder
* AD9888 : PC Input AD converter
* SII9011 : DVI Signal Receiver

9-6 Samsung Electronics

 Schematic Diagram

10. Schematic Diagram

10-1 Analog
10-1-1 Scart In
This Document can not be used without Samsung’s authorization.
L101 10uH R101 330ohm C101 10uF AV1_SR_OUT
L102 10uH R102 1Kohm AV1_SR_IN
L103 10uH R103 330ohm C102 10uF
AV1_SL_OUT
L104 10uH R104 1Kohm
AV1_SL_IN
AV1_B

AV1_G AV1: CVBS, Y/C, R/G/B

R119 AV1_R_C
75ohm
AV1_CVBS_OUT
1/10W

L105 L106 L107 L108 L109 L110 L111 L112 L113

AV1_V_Y
AV2: CVBS, R/G/B CN102
PCN10EA-32S-2.54DS
CN101
UPJ-R1-031
4

MGND1
3

3
R105 R106 R107
75ohm 75ohm 75ohm 17
MGND2

1 R121 0ohm
AV1_SL_IN 1
MSP_WOOFER
1

2
2 1/10W 18

3
AV1_SR_IN 2

4 R122 0ohm
WOOFER_DET 19

5
WOOFER_OUT 1/10W
AV2_SL_IN 3

6 20

7
AV2_SR_IN 4

8
AV1_DET
21

9
AV1_BL_IN 5

10
56371_PCMO 22

11
AV2_BL_IN 6

12 23

13
AV1_CVBS_OUT 7

14 24

15
AV2_CVBS_OUT 8

16
AV1_BL_IN
25

17
AV1_G 9

18

100pF
100pF
100pF

100pF
26

19
AV1_B 10

20
R109 27
75ohm AV2_G

3
21 11
ZD105 R108
ZD102 ZD103 ZD104 ZD101
3

3
MGND1

28
RD8.2MB ZD108 ZD109 75ohm AV2_B
RD8.2MB BZX84C16

2
RD8.2MB RD8.2MB 12

RD8.2MB RD8.2MB
2

1
C103
C104
C105

C106
ZD106 ZD110 ZD111 AV1_R_C
29
1
1

1
1

1
1

1
1

13
RD8.2MB ZD107 RD8.2MB RD8.2MB
2

2
30
ZD112 ZD113 ZD114 ZD115 AV2_R_C
1

1
RD8.2MB RD8.2MB RD8.2MB RD8.2MB 14
RD8.2MB
3

31
AV1_V_Y 15
CN103 32

L114 10uH R110 330ohm C107 10uF PCN10EA-32S-2.54DS AV2_V_Y 16

AV2_SR_OUT A19V
L115 10uH R111 1Kohm

MGND1

MGND2
AV2_SR_IN
L116 10uH R112 330ohm C108 10uF HH-1H4532-121JT BD101 17
AV2_SL_OUT C109 1
C110
L117 10uH R113 1Kohm 100nF 100uF 18
AV2_SL_IN 5 0V 25V 2
19
AV2_B 3
20
AV2_G 4

21
R120 AV2_R_C 4440_LRCLK 5
75ohm 4440_SCLK 22
AV2_CVBS_OUT 4440_AUD_CLK 6
1/10W 4440_SDO 23
AV2_V_Y WOOFER_MUTE
L118 L119 L120 L121 L122 L123 L124 L125 L126
D5V NRSTO
7

24
A8V
CN104 8
UPJ-R1-031 HH-1H4532-121JT
4

4
3

25

C114 C113 9 BD104

BD103
R114 R115 R116 100nF 100uF 26
MGND2

1 75ohm 75ohm 75ohm 50V 16V 10 HH-1H4532-121JT C123

100uF
1

2 27

3
SDA_5 11
C124
16V
4
SCL_5 100nF
B
28D105
50V
5 HH-1H4532-121JT 12

6 29

7
AV1_SL_OUT 13

8 XREF 30

9
AV2_DET S_3.3V AV1_SR_OUT 14

10 31

11
AV2_SL_OUT 15

12
AV1_DET 32

13
AV2_SR_OUT 16
C128 C127
14
AV2_DET
100nF 100uF

MGND2
15 50V 16V
16 XREF

17
AV2_BL_IN
18
100pF
100pF
100pF

100pF

19
20
R118
75ohm
3

21
ZD117 ZD118 ZD119 ZD120 R117 ZD116
D3.3V D2.5V
3

3
MGND1

RD8.2MB RD8.2MB ZD123 75ohm D5V IC101 IQ101

BZX84C16
2

RD8.2MB RD8.2MB
RD8.2MB LM1086CSX-3.3 LF25CDT
C115
C116
C117

C118
2

ZD125 ZD126
1
1

1
1

1
1

1
1

BD102 HH-1H4532-121JT 1 OU T 3 1 IN OUT 3

ZD122 RD8.2MB RD8.2MB

2

IN OUT
ZD128 ZD129 ZD130 ZD121 ZD124 C121 C122 C125 C126 GND C119 C120
ZD127
1

100uF 100nF GND 100uF 100nF 220uF 100nF

RD8.2MB RD8.2MB RD8.2MB RD8.2MB RD8.2MB RD8.2MB RD8.2MB
2
3

16V 50V 16V 50V 10V 50V

2

Samsung Electronics 10-1

Schematic Diagram

10-1-2 Sub Sound

This Document can not be used without Samsung’s authorization.
R236 D5V
Power D3.3V
4.7Kohm
1/10W
D3.3V
R3020

Signal IC204
KIA7029F
R3021
270Kohm
D3003
100ohm
R234 R235 PMLL4148 D3002
4.7Kohm 4.7Kohm 3 GND 1 1/10W
1/10W 1/10W PMLL4148
D3.3V
OUT IN
R237 G ND R238 A8V C 3032
SCL_5
XREF
SCL_3.3 0ohm 0ohm 100uF

S
E
Q201 2
16V

G
XREF 2N7002L KSA1182
SDA_5 C3033

S
B Q3003

1
Q202 L3005
10uF
D3.3V_6241 10uH

G
2N7002L C3034 C 3035 R 3023

A
C
D3.3V N 100uF 100nF 11Kohm 16V
SDA_3.3 S_3.3V
16V IC3003
BD203
MPZ2012S300A TL062CDT

B
R3024 51Kohm C3036 E

100nF R3025 4.7Kohm KSA1182

WOOFER_MUTE B
R3026
C3037 R3027 Q3004 4.7Kohm

H
100uF (Fh)m
11Ko C
Q3005

8
C B

C202 C201 1 6V E KSC1623-G

100nF 10uF 1 2 D3004
16V DAN217
R201 C3038
R 202 10Kohm 3 R3028 100ohm
10Kohm R3031
C3039 R3029 51Kohm C3040
10uF 15Kohm
R259 0ohm R3030 20Kohm 3.3nF R260 0ohm
MSP_WOOFER 16V WOOFER_OUT
1/10W
R3032
R204 100ohm 10uF16V 30Kohm
C203 C3042
C3041
100uF
6241_OUT1A
S_3.3V 100nF 10nF
16V
6241_OUT1B
6241_OUT2A C209 A19V
6241_OUT2B 1mF C204
R205 25V 100nF
D2.5V 10Kohm C206
R206 10nF
BD204
MPZ2012S300A
IC201 10ohm
D245 0.6mm
PMLL4148
TAS5122IDCA
B
C208 1 56 C212 R207
C213 1uF GND GND
33nF 3.3ohm
C214 2
GND GVDD
55
100nF 10uF 3
GREG BST_A
54
16V 4 53
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
DVDD PVDD_A
5 52 L201
R209 C205 6
GND PVDD_A
51 SPK_L+
VCC_HP_R

OUT3A

OUT3B
HPOUT_R
GND_HP_R

VDDC
GNDC

AD,HP_MUTE

VDDIO
NC

OUT1A
OUT1B

OUT2A

OUT2B
VDDIO

GNDIO 100ohm 100nF 7

DGND OUT_A
50 1 2
GND OUT_A
1
OUT4A
48 8
PWM_AP GND
49 C215 R210 C262 C218 R213 C221
2 VCC_HP_L
47 9 48 33nF C216 100nF 100nF 10Kohm 10nF

R211 0ohm
3
4
HPOUT_L

GND_HP_L
OUT4B

VDDIO
46
45
D3.3V_6241 10
11
PWM_AM

/RESET_AB
GND

OUT_B
47
46 1ohm L202
100nF
SPEAKER_OUT_L
4440_LRCLK WCK_M GNDIO PWM_BM OUT_B
R215 0ohm 5 44 12 45 1 2 R214
4440_SCLK BCK_M OUT5A PWM_BP PVDD_B R212
XREFR216 0ohm 6 43 13 44 C217 100nF 1ohm
SPK_L+
XREF
4440_SDO 7
SDATA12,SPDIF_M

SDATA34
IC202 TESTMOD1
OUT5B
42 14
DREG

M1
PVDD_B

BST_B
43
1ohm C223
8 41 15 42
SDATA56 TESTMOD0 M2 BST_C 330nF
9 NSP6241 40 R218 16 41
SPK_L-
XREF
VDDIO OUT6A M3 PVDD_C
C220 100nF R217 C224 R221 R222
10 39 4.7Kohm 17 40 C264
NSP6241A
GNDIO OUT6B REG_RTN PVDD_C
R219 100ohm 11 38 C219 18 39 100nF 100nF 10Kohm 1ohm
SCL_3.3 XREF
SCL,VH VDDC
100nF PWM_CP OUT_C
C222 1ohm D 201 D202
R220 100ohm
XREF 12 37 19 38 RLZTE-1130B RLZTE-1130B
SDA_3.3 13
SDA,VL GNDC
36 20
PWM_CM OUT_C
37 33nF
VDDC PROTECT /RESET_CD GND L207
14 35 21 36 C225
SDATA_O12,SPDIF_O

GNDC TESTEN PWM_DM GN D

L208 10nF
SDATA78,SPDIF_A

15 34 22 35 1 2
WCK_A DVSPLL R223 100ohm PWM_DP OUT_D
16 33 23 34
BCK_A AVSPLL /SD_AB OUT_D
24 33 R224 1ohm 1 2
SPK_L-
DVDPLL

AVDPLL
WCK_O

/SD_CD PVDD_D
CKOUT
BCK_O

RESET

GNDIO
VDDIO
GNDC

25 32
VDDC
CKIN

AGS
/M,S

/OTW PVDD_D
LP

26 31
GREG BST_D
27 30 C226 33nF C227
D3.3V
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32

GND GVDD
28 29 100nF
GN D GND
R226 R225
0ohm 10KohmC228
OPTION 1uF C229 C230
C231 100nF 33uF
22nF 50V

R227 0ohm
4440_AUD_CLK
WOOFER_MUTE
NRSTO C242
FROM_CPU 100nF
A19V
B

BD201 BD202
B

MPZ2012S300A C210
MPZ2012S300A
1mF C211
S_3.3V 25V 100nF
C207
C236 C237 C238 C239 R242 10nF
100nF 100nF 100nF 10uF IC203 10ohm 0.6mm
16V TAS5122IDCA
D246 C244 1 56 C245 R208
PMLL4148
1uF 2
GND GND
55 33nF 3.3ohm
C241 R243 3
GND GVDD
54
10uF 100ohm GREG BST_A
4 53
16V 5
DVDD PVDD_A
52 L203
C243 6
GND PVDD_A
51 SPK_R+
100nF 7
DGND OUT_A
50 1 2

GND
GND OUT_A
8 49 C249 R244 C265 C247 R245 C248
SPEAKER_OUT_R
PWM_AP GND
33nF C246 100nF 100nF 10Kohm 10 nF
WOOFER_SPDIF
9 48 100nF
PWM_AM GND
10
/RESET_AB OUT_B
47
1ohm L204
11 46
PWM_BM OUT_B
12
PWM_BP PVDD_B
45
R246
1 2 R247
13 44 C250 100nF 1ohm
SPK_R+
XREF
DREG PVDD_B
14 43
SK201 L211 M1 BST_B
1ohm C251
15 42
jack6p_3 2 3
16
M2 BST_C
41
330nF
SPK_R-
XREF
M3 PVDD_C R248
1 17
REG_RTN PVDD_C
40 C253 100nF C267 C254 R249 R250
1 3 4 C252 18 39 100nF 100nF 10Kohm 1ohm D242 D 243
TP205
2
1 COAX_OUT
100nF 19
PWM_CP OUT_C
38 C255 1ohm RLZTE-1130B RLZTE-1130B
2 3 PWM_CM OUT_C
4 20
/RESET_CD GND
37 33nF L209
1 6 21 36 C256
TP206 PWM_DM GND
5
1 4 WOOFER_OUT
22
PWM_DP OUT_D
35 1 2
L210 10nF
R251 100ohm 23 34
L212 /SD_AB OUT_D
1 1 24 33 1 2
/SD_CD PVDD_D R252 1ohm SPK_R-
D247 D248 25 32
/OTW PVDD_D
CDS3C30GTH CDS3C30GTH 26 31
GREG BST_D
27 30 C258 33nF C257
2 2
D3.3V 28
GN D

GND
GVDD

GND
29 100nF
WOOFER_DET R253
10KohmC259
1
D249 R258 1uF C260 C261
CDS3C30GTH 100ohm 100nF 33uF
2 1/10W 50V D5V

R3010 0ohm

4.7Kohm
56371_PCMO

1/10W
BN96-01470A L3003
CN202 L205 N
CN201
CT5000-2870
SUPLVAL 10uH
SPK_R+ 4 1 1
TP201 D5V
IC3001

R261
DM74LS157M
1

TP202 C3022
2 16 1
OPTIC SPK_R- 3 2 VCC
S
100nF
15 2
1

G A1
TP203
1

3
4

5
6

3 C3024 14 3

D5V
SPK_L+ 4 1 100nF 13
A4 B1
4 C Q3001 SPDIF_COAX_OUT
1

Y1 B

4
TP204 12
B4
5 E
KSC1623-G
Y4 A2
11 6
1

BD205 MPZ2012S300A SPK_L- 3 2 10

A3 B2
7 C3025 100nF R3017 100ohm
Y2
B3 COAX_OUT
C268 L206 9 Y3 GND
8
100nF E R 3019
16V Q3002
300ohm
OPTIC ASSY B 2SA1611-M6-T1
(KSA812-G)
SPDIF_OPT_OUT C

OPTIC

10-2 Samsung Electronics

 Schematic Diagram

10-2 Digital
10-2-1 Power
This Document can not be used without Samsung’s authorization.

POWER INPUT FROM SMPS

D3.3V D1.8V

2.5V_EN C101
10nF
L102
BD116 IC107
BLM41P600S FAN1117AD-1.8
HH-1H4532-121JT
D13V_A D5V

A
R133 0ohm 2 1 3 2
Power BD118 IQ104 1/10W
VIN VOUT

1
KIA78D05F OPTION L101 ADJ
HH-1H4532-121JT D13V 3.3V_EN
1 3 C102 C103 C104 C162 C160 C161
Signal
I O

1
C176 G C163 120uF 100nF 82uF 100nF 82uF 100nF
C177 C164 BD101
100nF 2 100nF 47uF R134 0ohm R104 R102 6.3V 16V 6.3V 16V 6.3V 16V
16V A 1 BLM41P600S 1/10W 39Kohm 36Kohm
IC101 1/10W
CN101 220uF 1/10W
MP1583DN 1%
slcon11p 35V
D13V D3.3V D3.3V_ACK B
2
C167 1nF
1 BD102
R427
1
BS SS
8
50V
D3.3V_GF
2 7
HH-1H4532-121JT 4.7Kohm
3
IN EN
6 OPTION
2
SW COMP BD117
4 5
C109 C110 C193 C179 C180 GND FB HH-1H4532-121JT
3 10uF 10uF R131 R140 R141

100Kohm
100nF 100nF
25V 25V 1/10W 1/10W 1/10W
BD103 HH-1H4532-121JT C106

MGND1

R105
300ohm 300ohm 300ohm
4 220uF 100nF C119 C120
BD105 HH-1H4532-121JT 35V 50V R106 100uF 100nF
5 1 GN D 3 16V 16V
C107 11Kohm
IN OUT C108
180pF D101 1/10W
6 IC402 GN D 3.3nF SK34 1%
KIA7029F
2
7

S_5V R107
8
POWER S_ 5 V IC108
MC33375ST-3.3T3
S_3.3V A6V 2.5V_EN A6V 3.3V_EN D13V 1Kohm
9
1/10W 1% R109 1%
0ohm
BD106 HH-1H4532-121JT
BD104 1/10W
HH-1H4532-121JT BD119
1 GND 3 A 1 BLM41P600S
10
IC102 D1.8V_GF

MGND1
IN OUT R112 R101
C173 C111

6
ADJ 10Kohm 10Kohm LM2678S-ADJ
FAN_CTL 10nF
11
100nF 2
C174 1/10W 1/10W B FB 3 L104

GND
2 BOOST BLM41P600S
330uF 2
OPTION

C116
OPTION

BD120 C115 VIN

A
330uF 100nF 16V O UT 1 2 1
R113 R103 ON GND
16V C171 C172 C170

1
IC403 10Kohm C118 L103
KIA7042AF-RTF
1 S1 D1 5
BD121 S_2.5V 10Kohm 10uF 1uF 10uF C105 C181 C182 C183 C184
100nF
22uH
C168 C112 C113 C114

4
R137 C212 2 S2 D2 6 1/10W 16V 1/10W 6.3V 16V 10uF 10uF 10uF 10uF 10uF D102 120uF 120uF 100nF 82uF
1 GND 3 1/10W 1uF 3 S3 D3 7 HH-1H4532-121JT 25V 25V 25V 25V 25V 50V B540C 6.3V 6.3V 16V 6.3V
IN OUT 1Kohm 50V 4 G1 D4 8 10Kohm R130 OPTION
GND R138 SI4435DY 1/10W
4.7Kohm IC404
2 S_5V S_2.5V
1/10W 1/10W R144
IC203 1/10W
MMBZ5226BLT1
0ohm
R139 D106 2 S_5V_SWITCH LF25CDT 2Kohm

S_5V
C
3 1 B Q101 1 3
IN OU T
E KSC1623-G
C213 C209 GND C208 C210 C211 R145
470uF 100nF 100uF 100nF 100nF 1/10W R108 100ohm
2 1Kohm
16V 16V 16V 16V 16V 1/10W
1Kohm MUTE DNIE_1.2V
1/10W C125
OPTION L106
R146 10nF BLM41P600S
CN102 BD107 A8V D13V D3.3V
A13V

A
2 1
SUPLVAL HH-1H4532-121JT
1 IQ101

1
BD109 L105
BA178M08FP R127 1Kohm
2 1 3 A 1 BLM41P600S R129 C128 C129 C130
I O C133
G 3.9Kohm IC103 R114 120uF 100nF 82uF
BD108 C121 100nF
3
HH-1H4532-121JT 100nF 2
C123 C124 2
1/10W MP1583DN
16V
0ohm 6.3V 16V 6.3V
220uF 100nF B 1%
4
A19V C122
100uF 16V 16V
1

2
BS SS
8

7
1/10W
IN EN
25V 3 6
SW COMP
5 4 5
C117 C185 C186 C187 GND FB
BD110 10uF 10uF 10uF 10uF

100Kohm
C127 25V 25V 25V 25V
HH-1H4532-121JT C126 100nF C137

R115
6

7 100uF
A9V 100nF
50V R116
IQ102
8
3 5V
VT BA178M09FP C138
C139 D103
10Kohm
1/10W
180pF
1 I O 3 3.3nF SK34 1%
9 G C131 C132
A13V BD 111 C135 2 220uF 100nF
10
HH-1H4532-121JT 100nF 16V 16V A6V
C134 D2.5V_GF
BD113 100uF C147
A BLM41P600S L110 IC105 A3.3V
1 35V 10nF BD114 C140
BLM41P600S KA78RM33D 3.3V_EN L108
HH-1H4532-121JT 10nF BLM41P600S
B

2 1 1 3
2 IN OU T
B

A
C149 C150 R135 0ohm 2 1
2

R121 L109 R122 GND

82uF 100nF 1/10W R132 R142 R143

1
C154 L107 1/10W 1/10W 1/10W
10Kohm 1%
39Kohm C152 C169 C 153
2
16V 16V
D13V 2.5V_EN
1/10W 1/10W 47uF 47uF 100nF 82uF C141 C142 300ohm 300ohm 300ohm
10V 10V 16V 16V 120uF 100nF
BD112 R136 0ohm R118 6. 3V 16V C143
R117
R123 IC106 A 1 BLM41P600S 1/10W 18Kohm 33Kohm
C144 1/10W 82uF
3Kohm MP1583DN IC104 1/10W
IQ103 A5V OPTION 100nF 6.3V
1/10W 1 8 C166 1nF
R124 BD115
MP1583DN 5% 5%
2 16V
2
BS SS
7 50V
5% KIA78D05F B 1 8
IN EN
OPTION
0ohm HH-1H4532-121JT BS SS
3 6
1/10W 1 I O 3 2 7
SW COMP IN EN
C190 C191 C192 4 5 G C157 C165 3 6
OPTION
GND FB SW COMP
10uF 10uF 10uF 82uF 100nF 4 5
100Kohm

2 C188 C189 GND FB

25V 25V 25V 16V 16V 10uF 10uF

100Kohm
C156
R125

25V 25V
100nF C146

R119
50V R126 100nF
1%
10Kohm 50V R120
C158
C159 D105 1/10W 11Kohm
180pF C148
3.3nF SK34 C151 D104 1/10W
180pF
3.3nF SK34 1%

Samsung Electronics 10-3

Schematic Diagram

10-2-2 MICOM
This Document can not be used without Samsung’s authorization.
S_5V R213
47Kohm

4.7Kohm
BD303 MPZ2012S300A 1/10W

4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm
C214 C217
100uF 100nF X201 C220

MGND1
D5V 16V 16V HC-49/SM5H(12MHz,30ppm) 100nF
C222 C221 10pF IC205 16V
BD305 MPZ2012S300A 1 3 330nF S3C9428X35-S0T8

Q1
GND

R227

R396
R397

R392
R223
IC204 IN OUT R303 C223 1 32
KIA7042AF-RTF GND
R214 4.7Kohm 10pF 2
VSS VDD
31 R235 100ohm
1Kohm XIN P0_2_SI FAN_CTL
R393 100ohm
Power

Q0
3 30
2 XOUT P0_3_CLO FBLK_SW1
4 29 R394 100ohm
R304 100ohm 5
TEST_VPP P0_4_AD8
28 R395 100ohm
P0_1_SO SCART_SW1
Signal
P0_5_AD9
S-VHS2_DET 6 27 R299 100ohm SCART_SW2
R245 100ohm 7
P0_0_SCK P0_6_AD10
26

4.7Kohm
4.7Kohm
RESET P0_7_AD11_PWM0
8 25
P3_0 P3_1
9 24
P3_2 P3_3
R387 33Kohm 10 23
AV1_CVBS_DET 11 P2_0_AD0 P1_0_T0_ZCD
R388 33Kohm 22
AV2_CVBS_DET R257 100ohm 12 P2_1_AD1 P1_1_BUZ
R258 100ohm
21
R259 100ohm 13 P2_2_AD2 P1_2_INT0
20 R260 100ohm
100ohm P2_3_AD3

R398
R399
P1_3_INT1_PWM1
R389 R 390 R261 14 19 R 262 22ohm
P2_4_AD4 P2_7_AD7_SCLK SCL_DTV
22Kohm 22Kohm 15 18 R263 22ohm
1/10W 1/10W 16 P2_5_AD5 P2_6_AD6_SDAT SDA_DTV
17 Q301
AVSS AVREF OPTION
2N7002L
R265
R246 R302 22ohm R353 22ohm
4.7Kohm 100ohm
ADDRESS : 0X60 C226 Q302
2N7002L
R384 27pF
0ohm R376 22ohm R368 22ohm
1/10W

D3.3V S_3.3V S_5V D3.3V

S_3.3V
BD301 MPZ2012S300A
OPTION

4.7Kohm
4.7Kohm

4.7Kohm
4.7Kohm

4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm

4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm
BD302 MPZ2012S300A

4.7Kohm
4.7Kohm

4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm

4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm

C309
100nF C310
16V 100nF
ADDRESS : 0XE0 16V
C311

R316

R317

R306

R307

R308

R309

R310

R311

R312

R313

R314

R315
100nF
ADDRESS : 0XE0

R318

R319

R320

R321

R322

R323

R324

R325

R326

R327
16V IC303
R328

R329

PCA9545PW
IC304 1 20
A0 VDD
PCA9545PW 2 19 R330 22ohm
A1 SDA SDA_9545B
1 20 3 18 R331 22ohm
2
A0 VDD
19 R332 22ohm RESET_EXP 4
/RESET SCL
17
SCL_9545B
A1 SDA
R333 22ohm SDA_9545A /INTO /INT
3 18 5 16
RESET_EXP /RESET S CL SCL_9545A SD0 SC3
4 17 6 15
/INTO /INT SC0 SD3
5 16 7 14
SD0 SC3 /INT1 /INT3
6 15 8 13
SC0 SD3 SD1 SC2 SCL_DTV
7 14 9 12
/INT1 /INT3 SC1 SD2 SDA_DTV
8 13 10 11
SD1 SC2 SCL_V3 VSS /INT2
9 12
SC1 SD2 SDA_V3
10 11
VSS /INT2
9545B
9545A SCL_5
SDA_5 (5V_I2C)
SCL_V2 SCL_S
SDA_V2 SDA_S
SCL_V1
SDA_V1
R355 22ohm

R356 22ohm
S_5V

R346 OPTION
L302
3.3UH
4.7Kohm
4.7Kohm
4.7Kohm

4.7Kohm
4.7Kohm

4.7Kohm
C312
4.7Kohm
4.7Kohm
4.7Kohm

4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm

4.7Kohm
4.7Kohm
4.7Kohm
100uF C313
16V 100nF
10pF 16 V
R354
C314 HC-49/SM5H(12MHz,30ppm) R343
D5V
X301 4.7Kohm 4.7Kohm
IC305
L303

R350

R352
R385
S3C9428X35-S0T8

R351
R334
R335
R336
R337

R344
R345
R346
R347
R348
Q1
R338
R339

R341
R342

3.3UH 10pF
1/10W R358 1 32
S_3.3V VSS VDD
4.7Kohm 47Kohm C315 2
XIN
31 R357 100ohm S-VHS1_DET
P0_2_SI
R359 100ohm

Q0
R301 3
XOUT
30
P0_3_CLO
BD304 MPZ2012S300A 4 29 R360 100ohm COMP1_DET
IC306 V2_DET
R361 100ohm 5
TEST_VPP P0_4_AD8
28 R362 100ohm DIG1_DET
P0_1_SO P0_5_AD9
KIA7042AF-RTF C316
V1_DET
R363 100ohm 6 27 R364 100ohm
1 GND 3 330nF R365 100ohm 7
P0_0_SCK P0_6_AD10
26 R366 100ohm
RESET P0_7_AD11_PWM0
IN OU T R367 100ohm 8
P3_0 P3_1
25 R386 100ohm
MGND1 C317 GND R369 100ohm 9 24 R370 100ohm
P3_2 P3_3 DSP56371_RST
1 GND 3 100nF COMP2_DET
R371 100ohm 10 23 R372 100ohm
RESET_EXP 2 P2_0_AD0 HPLUG_RESET
IN OUT 16V R373 100ohm 11
P2_1_AD1
P1_0_T0_ZCD
22 R374 0ohm
P1_1_BUZ
C307 GND C308 DIG1_INT
R375 100ohm 12 21 R383 100ohm
P2_2_AD2 P1_2_INT0 DIG2_INT
100nF 330nF R377 100ohm 13 20 R378 100ohm
2 IC301 LVDS_DE P2_3_AD3 MSP_RESET
16V 16V R379 100ohm 14 P1_3_INT1_PWM1
19 R380 100ohm
KIA7029F DDC_CTL P2_4_AD4 P2_7_AD7_SCLK
15 18 R381 100ohm
P2_5_AD5 P2_6_AD6_SDAT
16 17
AVSS AVREF SCL_5
R382 OPTION (5V_I2C) SDA_5
100ohm
C318
27pF

10-4 Samsung Electronics

 Schematic Diagram

10-2-3 Jack Input-1

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

Power A8V FT601 A9V FT602

D610 D611 MMZ2012R121A D613 D614 MMZ2012R121A
Signal SDS7000 SDS7000
C617 C615
SDS7000 SDS7000
C618 C616
100uF 220nF 100uF 220nF
16V 16V R615 16V 16V
15Kohm

2
R616
15Kohm /10W
1
R617
D612 R618 D615 15Kohm
SDS7000 15Kohm SDS7000 1/10W

3
1/10W C603
COMP1_INPUT R625
15Kohm
R626
15Kohm
47uF
16V
R639 12ohm
1/10W
B
C

E
Q601
KSC1623-Y
COMP2_INPUT
C604 1/10W 1/10W R609
47uF R640 12ohm C
Q602 75ohm C609 100nF
B

16 V 1/10W E KSC1623-Y 16V

R601 R603
100ohm
C610 100nF R628
75ohm 16V
1/10W R627 10Kohm
JA605 R610 100ohm 1/10W Q604
COMP1_DET 10Kohm Q603 COMP2_DET
3

3
jack9p_2 1/10W
ZD601 C605 1/10W KSC1623-Y 1 ZD612 KSC1623-Y
COMP1_Y COMP2_Y

1
TP615
47uF C606 47uF
2

2
JA602 RD8.2MB R641 12ohm B
C
3 RD8.2MB R642 12ohm B
C

1
TP616
1

1
jack9p_2 16V 1/10W R645 1/10W R646
R631 E
1/10W
2
R632
E
1/10W
C611 100nF C612 100nF
1
10Kohm R629 4 R630
1

TP605 16V 1/10W

150ohm 16V 10Kohm 1/10W
150ohm
1/10W COMP1_Pb COMP2_Pb
3 6
1

1
TP607
2 C607 47uF R643 12ohmB
C 150ohm TP618
5 C608 47uF 1/10W R644 12ohmB
C 150ohm
4 1/10W R647 7 R612 1/10W R648
E E
6 Q605 R633
1/10W 9 7 5 oh m C613 100nF R636 Q606 R634
1/10W
1

1
TP608 150ohm TP620 10Kohm 150ohm
KSC1623-Y 16V KSC1623-Y
5
7 R605
C614 100nF
16V
R635
1/10W
150ohm COMP1_Pr 8
1/10W
1/10W
150ohm COMP2_Pr
75ohm R649 R614 R650
9
10Kohm
1

TP609 1/10W 1/10W

8
1/10W R637 75ohm R638
150ohm 150ohm
1/10W 1/10W
R606 150ohm 150ohm
75ohm

COMP2_SOUND INSTPAR
L603
JA603
2 3
jack6p_3 R607
1 10ohm

1
TP610 1/10W
COMP2_SL
3
1 4
2

1
TP611
4

COMP2_SR
6
1 4
5

1
TP612 R608

3
10ohm
ZD607 ZD608 2 3 1/10W

2
ZD
R D680.29MB ZD
R D681.20MB

1
1

1
1
RD8.2MB RD8.2MB L604

2
INSTPAR

3
COMP1_SOUND
JA601
jack6p_3
1
L601
R602
10ohm VIDEO1_INPUT
1

TP603 1/10W
INSTPAR
COMP1_SL
3
1 4

V1_CVBS
2
1

TP604 4

6 R604
2 3
5 10ohm JA604
1

TP606 1/10W jack9p_b

1 4
COMP1_SR 1 R611
1

GND_1
TP613 100ohm
3

3
1

SIG_2
TP614 1/10W
ZD602
V1_DET
2
ZD603 2 3 SIG_1
2

3
RD8.2MB R6D086.2MB
GND_2 4
ZD
1
1

1
1

6
ZD605 L602
1

SIG_4
TP617
2

2
RD8.2MB INSTPAR SIG_3 5

1
RD8.2MB GND_3 7
ZD613
3

9
RD8.2MB
1

SIG_6
TP619
V1 _ SL
SIG_5 8
1
3

4
C601
L606
INSTPAR 100pF
ZD615
2

50 V
RD8.2MB
2 3
1
1

ZD616
2

RD8.2MB
3

V1_SR
3

1
C602
4
100pF
ZD617 L608
2

RD8.2MB 50V
1
1

INSTPAR
ZD618 2 3
2

RD8.2MB
3

Samsung Electronics 10-5

Schematic Diagram

10-2-4 Jack Input-2

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

Power VIDEO3_INPUT V2_CVBS

R701
2 3 R703
Signal 0ohm
L701 10ohm

(PHONE JACK) SIDE AV JACK 1/10W

1 4
INSTPAR 1/10W
V2_SL
TP714 1 12

PC_SOUND 2 3 TP715 1 11
R705
100ohm
1 4
V2_SR
1/10W L702 R704
TP716 10 V2_DET INSTPAR C701 C702
10ohm
PC_SL
1
4
1
R706 100ohm
2 3 1/10W
33 0 p F 330pF
JA701
INSTPAR
TP717 1 9 S-VHS2_DET 50V 50V
00052518
L703 TP718 1 8
TP719 1 4
3
TP720 1 7
TP721 1 2
1 4
PC_SR TP722

3
6
5 1
TP723 1 6
R707
ZD702 ZD703 2 3 0ohm

2
1 5
RD8.2MB RD8.2MB 1/10W

1
1

1
1
ZD709 ZD710
L704 TP724 S-VHS2Y
2

2
4
1
RD8.2MB RD8.2MB INSTPAR

3
TP725
3

3
1 3
ZD705 ZD706 ZD707 ZD708

2
RD8.2MB
TP726 RD8.2MB RD8.2MB RD8.2MB

1
1 2

1
S-VHS2C
R708
CN704 0ohm
ZD712 ZD713

1
DVI_SOUND
slcon12p 1/10W
RD8.2MB RD8.2MB

2
3

3
L705
INSTPAR
JA702
2 3
jack6p_3
1 R709
TP727 1
10ohm
DVI_SL
3
1 4
2
TP728 1 L706
4
INSTPAR
DVI_SR S-VIDEO1_INPUT
6
1
4
5
TP729 R710 R712
3

1
ZD715 ZD716 10ohm 0ohm
RD8.2MB RD8.2MB
2 3 1/10W
2

ZD717 ZD718 S-VHS1C

1
1

1
1

RD8.2MB RD8.2MB
2

S-VHS1Y
R711
3

0ohm
1/10W

R717
JA704 100ohm
1/10W
A5V 5
S-VHS1_DET

3
1 2 1
TP730 TP731 ZD720
1 3 4
RD8.2MB

1
R719 6

MONITOR_OUT
0ohm
1/10W

R720 C705
JA703 22Kohm R721 10uF
C 100ohm
jack9p_b Q703
MONITOR_OUT
B
1 KSC1623-G
TP732
CONTROL_CONNECTOR
GND_1 E
1 3 R735 75ohm
TP733 SIG_2
R722
3

1 2 1/10W R723
SIG_1
22Kohm
GND_2 4 ZD721 470ohm
2

6 RD8.2MB
TP734 SIG_4
1

1 SIG_3 5
S_5V

RLZ6.2B
RLZ6.2B
RLZ6.2B
RLZ6.2B
GND_3 7
9
TP735 1
SIG_6

SIG_5 8

D701
SDS7000

D702
D703
D704
D705
C706 1
R726 10uF 13
TP701
IR
2
330ohm SDA_DTV
1
TP702
MONITOR_L 12
3
SCL_DTV
1
TP703
MICOM(24) 1
BD701 MPZ2012S300A 11 1
T P 70 4
3

1.0mm BD702 B MPZ2012S300A 10

9
1
TP705
ZD722 C708 B 1
TP706
R737 R713 R715
2

100pF 8
100Kohm RD8.2MB
50V 3.3Kohm 1Kohm
1
TP707
1
1

7
1/10W
ZD723 1/10W
1
TP708
1/10W
2

D706
D707
RD8.2MB 5
MICOM(18) KEY1 1
TP710
3

Q701 MICOM(17) KEY2

4 1
TP711
KSC1623-G 3 1
TP712
BUZZER
C
2
LED_BLUE B 1
TP713

RLZ6.2B
RLZ6.2B
1
R718

D708
E

MONITOR_R MICOM(5) 0ohm

SMW200-13P
3

R732 C707 CN701

ZD724 330ohm
10uF

RLZ6.2B
R739 RD8.2MB
2

100Kohm C709
1
1

1/10W ZD725 100pF

50V
2

RD8.2MB
3

10-6 Samsung Electronics

 Schematic Diagram

10-2-5 Filter-1
This Document can not be used without Samsung’s authorization.

Power A8V
Signal BD801 MMZ2012R121A
C801
C802 220nF
100uF 16V
16V
R801
10Kohm
1/10W

IC801
TEA6425D
C803 10uF 1 20
COMP1_Y R802 100ohm 2
IN1 VCC
19
SDA_5 C804 10uF 3
SDA OUT1
18 COM1_6425_Y
COMP1_Pb R803 100ohm 4
IN2 OUT2
17 COM1_6425_PB
SCL_5 C805 10uF 5
SCL OUT3
16
0.3mm
COMP1_Pr C806 10uF 6
IN3 OUT4
15
COMP2_Y 7
IN4 OUT5
14 COM1_6425_PR
SUB OUT6
C807 10uF 8 13
COMP2_Pb 9
IN5 OUT7
12 R805
C808 10uF 10
VCCP OUT8
11 R804 47Kohm
COMP2_Pr IN6 GND 47Kohm

C809 R807 R806

4.7Kohm
220nF 47Kohm
1/10W
16V

A8V A9V

R862 R863
0ohm 0ohm
1/10W 1/10W

R808 C813 R809

C810 C812 10Kohm C811 10Kohm
47uF 100nF R812 47uF 100nF R815
16V 16V 1/10W 16V 16V 1/10W
330ohm 330ohm
R810 680ohm R811 0ohm 1/10W R813 680ohm R814 0ohm 1/10W
1/10W 1/10W 1/10W 1/10W
C OPTION C OPTION
B Q801 B Q802
COM1_6425_Y E
KSC1623-G C816 15pF COM1_FIL_Y CXA_G_BUF E
KSC1623-G C817 15pF COM2_FIL_Y
1 1

C814 50V C815 50V

10uF R816 10uF R818
E E
16V 680ohm R817 0ohm 2
KSR2101 16V 680ohm R819 0ohm 2
KSR2101
B B
1/10W 1/10W Q803 1/10W 1/10W Q804
L801 L802 C
L803 L804 C
R821 10uH 4.7uH C819 1/10W R823 R824 10uH 4.7uH C821 1/10W
R820 C818 3 C820 3

10Kohm 1Kohm 12pF 27pF 2Kohm 10Kohm 1Kohm 12pF 27pF 470ohm
1/10W 5 0V 50V R822 1/10W 50V 50V R825
1/10W 1/10W

R826 R827
C822 C823
100nF 10Kohm 100nF 10Kohm
R830 R833
16V 1/10W 16V 1/10W
330ohm 330ohm
R828 680ohm R829 0ohm 1/10W R831 680ohm R832 0ohm 1/10W
1/10W 1/10W 1/10W 1/10W
C OPTION C OPTION
B Q805 B Q806
COM1_6425_PB E
KSC1623-G C826 15pF COM1_FIL_PB CXA_B_BUF E
KSC1623-G C827 15pF COM2_FIL_PB
C824 50V C825 50V
1 1

10uF R834 E 10uF R836 E

16V 680ohm R835 0ohm 2
KSR2101 16V 680ohm R837 0ohm 2
KSR2101
B B
1/10W 1/10W C Q807 1/10W 1/10W C Q808
L805 L806 L807 L808
R838 R839 C828 10uH 4.7uH C829 R840 3 R841 R842 C830 10uH 4.7uH C831 R843 3

10Kohm 1Kohm 12pF 27pF 1/10W 10Kohm 1Kohm 12pF 27pF 1/10W
1/10W 50V 50V 820ohm 1/10W 50V 50V 820ohm
1/10W 1/10W

R844
C832
R845 10Kohm
C833 100nF R848
100nF 10Kohm 16V 1/10W
R851 330ohm
16V 1/10W
330ohm R846 680ohm R847 0ohm 1/10W
R849 680ohm R850 0ohm 1/10W 1/10W 1/10W
C OPTION
1/10W 1/10W B Q809
B
C
Q810 OPTION CXA_R_BUF E
KSC1623-G C836 15pF COM2_FIL_PR
COM1_6425_PR E
KSC1623-G C837 15pF COM1_FIL_PR C834 50V
1

C835 50V
1
10uF E
16V R852 680ohm R853 0ohm KSR2101
10uF R854 E
2

B
16V 680ohm R855 0ohm KSR2101 1/10W 1/10W Q811
2

B L809 L810 C
1/10W 1/10W Q812 R856 R857 C838 10uH 4.7uH C839 R858
L811 L812 C 3

R860 4.7uH R861 10Kohm 1Kohm 12pF 27pF 1/10W

R859 C840 10uH C841
1Kohm 27pF
3
1/10W 50V 50V 820ohm
10Kohm 12pF 1/10W 1/10W
1/10W 50V 50V 820ohm
1/10W

Samsung Electronics 10-7

Schematic Diagram

10-2-6 Filter-2
This Document can not be used without Samsung’s authorization.

A5V

BD901
MMZ2012R121A

R901 R902
C931 C901 C932 C902
2.7Kohm 2.7Kohm
47uF 100nF R 905 47uF 100nF R908
16V 16V 1/10W 16V 16V 1/10W
330ohm 330ohm
R903 680ohm R904 0ohm 1/10W R906 680ohm R907 0ohm 1/10W
1/10W 1/10W 1/10W 1/10W
C OPTION C OPTION
B Q901 B Q902
SCART_R_M E
KSC1623-G C905 15pF DEC_R_MA SCART_R_S E
KSC1623-G C906 15pF DEC_R_SA
C903 50V C904 50V
1 1

100uF E 100uF E
16V R909 680ohm R910 0ohm 2
KSR2101 16V R911 680ohm R912 0ohm 2
KSR2101
B B
1/10W 1/10W Q903 1/10W 1/10W Q904
L903 L901 C
L904 L902 C

R913 R914 C907 10uH 4.7uH C908 R915 3 R916 R917 C909 10uH 4.7uH C910 R918 3

8.2Kohm 1Kohm 12pF 27pF 1Kohm 8.2Kohm 1Kohm 12pF 27pF 1Kohm
1/10W 50V 50V 1/10W 1/10W 50V 50V 1/10W
1/10W 1/10W

R919
C911
100nF 2.7Kohm R923
R922 C912
16V 1/10W 100nF 2.7Kohm
330ohm R926
16V 1/10W
R920 680ohm R921 0ohm 1/10W 330ohm
1/10W 1/10W R924 680ohm R925 0ohm 1/10W
C OPTION
B Q905 1/10W 1/10W
SCART_G_M E
KSC1623-G C914 15pF DEC_G_MA B
C
Q906 OPTION
C913 50V
1
SCART_G_S E
KSC1623-G C916 15pF DEC_G_SA
100uF E C915 5 0V
1

16V R927 680ohm R928 0ohm 2

KSR2101
B 100uF E
1/10W 1/10W Q907 16V R929 680ohm R930 0ohm KSR2101
L906 L905 C 2

B
R932 10uH 4.7uH C918 R933 1/10W 1/10W Q908
R931 C917 3
L908 L907 C
8.2Kohm 1Kohm 12pF 27pF 1Kohm R935 4.7uH
R934 C919 10uH C 920 R936
1/10W 50V 50V 1/10W 1Kohm 27pF 1Kohm
3

1/10W 8.2Kohm 12pF

1/10W 50V 5 0V 1/10W
1/10W

R937 R938
C921 C922
2.7Kohm 2.7Kohm
100nF R941 100nF R944
16V 1/10W 16V 1/10W
330ohm 330ohm
R939 680ohm R940 0ohm 1/10W R942 680ohm R943 0ohm 1/10W
1/10W 1/10W 1/10W 1/10W
C OPTION C OPTION
B Q909 B Q910
SCART_B_M E
KSC1623-G C925 15pF DEC_B_MA SCART_B_S E
KSC1623-G C926 15pF DEC_B_SA
C923 50V C924 50V
1 1

100uF E 100uF E
16V R945 680ohm R946 0ohm 2
KSR2101 16V R947 680ohm R948 0ohm 2
KSR2101
B B
1/10W 1/10W Q911 1/10W 1/10W Q912
L911 L909 C
L912 L910 C

R949 R950 C927 10uH 4.7uH C928 R951 3 R952 R953 C929 10uH 4.7uH C930 R954 3

8.2Kohm 1Kohm 12pF 27pF 1Kohm 8.2Kohm 1Kohm 12pF 27pF 1Kohm
1/10W 50V 50V 1/10W 1/10W 50V 50V 1/10W
1/10W 1/10W

10-8 Samsung Electronics

 Schematic Diagram

10-2-7 Main
This Document can not be used without Samsung’s authorization.
D3.3V
Power A3.3V IC1006
MC33375ST-2.5T3
A2.5V_DEC_M DEC_M_SY
GND DEC_M_CVBS
IC1008 D1.5V_DEC_M
Signal D2.5V_DEC_M
NCP551SN15T1G
1
VIN VOUT
3
C1001 C1002
1 5 ADJ 10uF 100nF COM1_FIL_Y
IN OUT
2 R1045 10Kohm 16V
C1099 GND C1098

2
100nF 3 4
10V 1/10W
EN NC
16V 1uF
C1006
C1034 470nF 470nF
DEC_G_MA
R1048 10Kohm C1045 C1030 470nF C1005 C1007
C1046 DEC_B_MA
1/10W 10uF 100nF C1027 470nF COM1_FIL_PB 470nF 470nF
DEC_R_MA
25V COM1_FIL_PR DEC_M_SC

C1004 C1009 C1008

C940 C941 C942 68pF 68pF 68pF

470nF
68pF 68pF 68pF C1012
470nF
OPTION
D3.3V IC1007 L1001 10uH
C1014
MC33375ST-2.5T3 68pF 18Kohm R1004

C1013
C1016

MGND1
D2.5V_DEC_M C1015
10uF
18Kohm R1005
10nF
18Kohm R1006
L1005

C1017
C1018
C1019
100nF
GND

100nF
100nF
100nF
3.3UH

100nF
100nF

100nF

100nF
100nF
100nF

100nF

100nF

100nF
100nF
68pF
C1023

10nF
C1022
1 3
VIN VOUT
C1026
C1020 100nF
ADJ 10uF C1021

10nF
10nF

100nF
100nF
100nF
16V 120pF

C1031
C1032
C1033
C1024

C1025
C1028
C1029

C1040
2

C1042

C1043
C1035
C1036
C1037

C1038
C1039

C1041
B
R1046 BD1002 C1044
10Kohm MPZ2012S300A 100nF
1/10W Q1001
R1007 BD1003
1.5Kohm KSC1623-G
MPZ2012S300A

144

143

142
141

140

139
138

137
136

135

134
133

132

131
130

129
128

127

126
125

124

123
122

121

120
119

118

117
116

115
114

113

112
111

110

109
C
B

B
C1047 22pF R1009
E

100nF
1.2Kohm

1.5nF

VREFDA

BIASDA
VSSDA

DAOUT

VDDDA
RIN

VSSRAD
CRIN

VDDRAD

BIASRAD
BIN

VSSBAD

CBIN
VDDBAD

BIASBAD
VRBCAD

GIN

VSSGAD
CIN

VDDGAD

BIASGAD
VRTCAD

TOUT10
VREFGCA

BIASGCA

VSSGCA
VDDGCA

YIN3

VRBYAD
YIN2

VRMYAD
VSSYAD

YIN1

VDDYAD
VRTYAD

BIASYAD
10uF
1 108
C1053
42.0MHz VSSPLL VSSADD 100nF
HC-49/U(42MHz) R1008 C1049 10nF 2 107
270Kohm PLLIN VDDADD
X30L012002 3 106 R1010 0ohm
1.5uH

C1010
C1096

C1050
VCOFIL YCLAMP1
C1048 5pF 4 105 R1011 0ohm
VDDPLL YCLAMP2
C1058 5 104 R1012 0ohm
1nF VSSXO YCLAMP3
6 103
XOIN TM0
7 102
C1059 R1047 XOOUT TM1
8 101
18pF 100ohm VDDXO TM2
9 100
D1.5V_DEC_M 10
TIN00 DVSS6
B1002 99

C1065

C1066

C1067

C1068
TIN01 TM 3
11 98 R1067 0ohm
DEC_FBLK
DVDD1 FBIN
12 97 1/10W
DIN9 DVDD6

100nF

100nF

100nF

100nF
13 96
C1072 DIN8 VBIREADY VBIINT_M_DEC
C1071 14 IC1002 95 22ohm R1014
D3.3V 10uF 100nF
15
DVSS1
TC90103FG
ODDEVEN
C1073 100nF TP1004

1
94
DIN7 VDDIO7
B1004
16 93 22ohm R1015
DIN6 VDOUT DEC_M_V
17 92 22ohm R1016 DEC_M_H
VDDIO1 HDOUT
18 91 22ohm R1017
C1074 C1075 19
DIN5 VEOUT TP1005

1
90
100nF 10uF DIN4 HIZN
20 89 D3.3V
VDDRAM1 DVSS5
B1005 21
VSSRAM1 DVDD5
88 C1076 100nF
22 87
DIN3 UVFLAG TP1001
23 86
C1063 C1097 24
DIN2 COUT9
85
R1013
10uF 100nF DVDD2 COUT8 3.3Kohm
25 84
DIN1 COUT7
26 83
DIN0 COUT6
27 82 C1079 100nF
DVSS VDDIO6
28 81
DINCK COUT5
29 80
VSSIO2 COUT4
30 79 D2.5V_DEC_M
VDDRAM2 COUT3
31 78
VSSRAM2 COUT2
32 77
PKOUT VSSIO6
33 76
A5V 34
VDDIO2 COUT1
75 B1003
TIN02 COUT0
35 74
TIN03 VDDRAMD
36 73
NRSTO C1083
RESET VSSRAMD C1082

TESETIO8
TESETIO9
BUSSEL0

BUSSEL1

CSYNCIN
10uF
B

TOUT02

TOUT03

TOUT04
TOUT05

TOUT06
TOUT07
VDDIO3

VDDIO4

VDDIO5
VSSIO3

VSSIO4

VSSIO5
100nF

CKOUT
DVDD3

DVDD4
YOUT9

YOUT8
YOUT7

YOUT6

YOUT5

YOUT4
YOUT3

YOUT2

YOUT1

YOUT0
DVSS3

DVSS4
SPO45

SPO46
BD1005 C1085 16V

SDA

SCL
MPZ2012S300A 100nF
IC1010

37

38
39

40

41
42

43
44

45

46
47

48

49
50

51
52

53

54
55

56

57
58

59
60

61

62
63

64

65
66

67
68

69

70
71

72
100nF C943 BA7657F
AV1_R_C C944
1 24 47uF
C945
C946 10uF
R1IN HD1IN 10nF
16V

R1034
100nF C947 2 23

R1033
C1086

C1087

C1088

C1089
AV1_G HDSYNC HD2IN
C948 10uF 3 22

R1031 22ohm
G1IN HDOUT C1090

7
5
3
1

7
5
3
1
100nF C949 4 21 R1068 0ohm
100nF

22ohm
AV1_B GND ROUT SCART_R_M

100nF

100nF
C950 10uF 5 20 1/10W
B1IN VCC
100nF C951 6 19 R1069 0ohm

22ohm
AV2_R_C GN D GOUT SCART_G_M

8
6
4
100nF2

8
22ohm 6
R1032 4
2

100nF
C952 10uF 7 18 C1080 100nF R1077 0ohm
R2IN VIDEOIN 16V SDA_V1
100nF C953 8 17
AV2_G GN D SYNCOUT
C954 10uF 9 16 R1078 0ohm
G2OUT CTL SCART_SW1 SCL_V1

DEC_M_Y(9)

DEC_M_Y(8)

DEC_M_Y(7)
DEC_M_Y(6)

DEC_M_Y(5)
DEC_M_Y(4)

DEC_M_Y(3)
DEC_M_Y(2)

DEC_M_Y(1)
DEC_M_Y(0)
100nF C955 10 15 R1070 0ohm R1055 22ohm

TP1003
TP1002
AV2_B GND BOUT SCART_B_M DEC_M_CLK
11 14 1/10W 1/10W
75ohm
75ohm
75ohm
75ohm
75ohm
75ohm

C956 10uF
B2IN VDOUT
12 13 A5V BD1007
VD1IN VD2IN
MPZ2012S300A
B
DEC_M_Y(0:9)
C971
R1071
R1072
R1073
R1074
R1075
R1076

100nF
C972
100nF

IC1012
NJM2248M-TE3
R1056 0ohm C973 10uF 1 8
AV1_BL_IN R1057 0ohm 2
VIN1 GND
7 C974 10uF R1058 100ohm
FBLK_SW1 R1059 0ohm C975 10uF 3
SW1 VOUT
6 1/10W
DEC_FBLK
AV2_BL_IN 4
VIN2 V
5
SW2 VIN3

R1064 R1066 R1065

1Mohm 1Mohm 1Kohm
1/10W 1/10W 1/10W

Samsung Electronics 10-9

Schematic Diagram

10-2-8 Decoder Sub

This Document can not be used without Samsung’s authorization.
A5V
Power IC1103
MC33375ST-2.5T3
Signal

B
BD1103 D3.3V A3.3V A2.5V_DEC_S
MPZ2012S300A GND
IC1108 1 3 D2.5V_DEC_S IC1102 D1.5V_DEC_S
VIN VOUT C1107
100nF C976 BA7657F
100nF
NCP551SN15T1G
AV1_R_C C977 C978 C1109 C1114
C979 10uF 1 24 47uF ADJ 10uF 100nF 16V 1 5
R1IN HD1IN 10nF IN OUT
100nF C980 2 23 16V R1101 10Kohm 16V DEC_S_SY 2
AV1_G HDSYNC HD2IN GND

2
C981 10uF 3 22 1/10W DEC_S_CVBS 3 4
G1IN HDOUT EN NC
100nF C982 4 21 R1152 0ohm
AV1_B GND ROUT SCART_R_S COM2_FIL_Y
C1111
C983 10uF 5 20 1/10W C1101 DEC_S_SC
B1IN VCC C1102 10V
100nF C984 6 19 R1153 0ohm 10uF 1uF
AV2_R_C GND GOUT SCART_G_S 100nF
25V
C985 10uF 7 18 C1108 100nF R1102 10Kohm
R2IN VIDEOIN 16V
100nF C986 8 17 1/10W
AV2_G GND SYNCOUT
C987 10uF 9 16 C1147 470nF
G2OUT CTL SCART_SW2 DEC_G_SA C1117
100nF C988 10 15 R1154 0ohm
DEC_B_SA
C1143 470nF 470nF
AV2_B GND BOUT SCART_B_S
11 14 1/10W C1140 470nF COM2_FIL_PB
C989 10uF
B2IN VDOUT DEC_R_SA C1121 C1123
12 13 470nF 470nF
VD1IN VD2IN COM2_FIL_PR
C990 C991 C992
68pF 68pF 68pF C1120 C1122 C1124
68pF 68pF 68pF
C1127
C1125 470nF
D3.3V 470nF OPTION
L1101 10uH
C1126
68pF 18Kohm R1103
IC1104 C1128 C1129

MGND1
D2.5V_DEC_S 18Kohm R1104
10uF 10nF
MC33375ST-2.5T3 18Kohm R1105
L1102

C1132
C1133
C1134
100nF
GND

100nF
100nF
100nF
3.3UH

100nF
100nF

100nF

100nF
100nF
100nF

100nF

100nF

100nF
100nF
68pF
C1131

10nF
C1130
1 3
VIN VOUT
C1139
C1135 100nF
ADJ 10uF C1136

10nF
10nF

100nF
100nF
100nF
R1106 10Kohm 16V 120pF

C1144
C1145
C1146
C1141
C1142

C1153
C1137

C1138
2

C1155

C1156
C1148
C1149
C1150

C1151
C1152

C1154
1/10W B
BD1101 C1157
MPZ2012S300A 100nF
Q1101
R1109 BD1102
1.5Kohm 1% KSC1623-G
MPZ2012S300A

144

143
142

141

140
139

138

137
136

135
134

133

132
131

130

129
128

127
126

125

124
123

122

121

120

119

118
117

116

115
114

113
112

111

110
109
C
B

B
C1160 22pF R1111
E

100nF
1.2Kohm

1.5nF

VREFDA
BIASDA

VSSDA

DAOUT
VDDDA

RIN

VSSRAD
CRIN

VDDRAD
BIASRAD

BIN

VSSBAD
CBIN

VDDBAD

BIASBAD
VRBCAD

GIN
VSSGAD

CIN

VDDGAD
BIASGAD

VRTCAD

TOUT10
VREFGCA

BIASGCA
VSSGCA

VDDGCA

YIN3
VRBYAD

YIN2

VRMYAD
VSSYAD

YIN1
VDDYAD

VRTYAD

BIASYAD
D2.5V_DEC_S
42.0MHz

10uF
HC-49/U(42MHz) 1 108
C1165
100nF
X1101 R1110 C1164 10nF 2
VSSPLL VSSADD
107
270Kohm PLLIN VDDADD
L1104 3 106 R1112 0ohm
1.5uH

C1161

C1162
C1166
VCOFIL YCLAMP1
C1167 5pF 4
VDDPLL YCLAMP2
105 R1113 0ohm B1102
C1169 5 104 R1116 0ohm
1nF VSSXO YCLAMP3
6 103
XOIN TM0
7 102 D3.3V
C1170 R1117 XOOUT TM1
8 101
18pF 100ohm VDDXO TM2
9 100
D1.5V_DEC_S 10
TIN00 DVSS6
B1103 99
C1172

C1173

C1174

C1175
11
TIN01 TM3
98
R1118
DVDD1 FBIN 3.3Kohm
12 97
DIN9 DVDD6
100nF

100nF

100nF

100nF
13 96
C1176 C1177 DIN8 VBIREADY INT_DEC_S
D3.3V 100nF
14 IC1106 95 22ohm R1121
10uF DVSS1 ODDEVEN TP1104
15 TC90103FG C1178 100nF

1
94
DIN7 VDDIO7
B1104
16 93 22ohm R1123 DEC_S_V
DIN6 VDOUT
17 92 22ohm R1124
VDDIO1 HDOUT DEC_S_H
18 91 22ohm R1125
C1179 C1180 19
DIN5 VEOUT TP1105

1
90
100nF 10uF DIN4 HIZN
20 89
VDDRAM1 DVSS5
B1105 21 88 C1181 100nF
VSSRAM1 DVDD5
22 87
DIN3 UVFLAG TP1101
23 86
C1182 C1183 24
DIN2 COUT9
85
10uF 100nF DVDD2 COUT8
25 84
DIN1 COUT7
26 83
DIN0 COUT6
27 82 C1184 100nF
DVSS VDDIO6
28 81
DINCK COUT5
29 80
VSSIO2 COUT4
30 79
VDDRAM2 COUT3
31 78
VSSRAM2 COUT2
32 77
PKOUT VSSIO6
33 76
VDDIO2 COUT1
34 75
TIN02 COUT0
35 74
TIN03 VDDRAMD
36 73
NRSTO C1188
RESET VSSRAMD C1187

TESETIO8

TESETIO9
BUSSEL0
BUSSEL1

CSYNCIN
10uF

TOUT02

TOUT03
TOUT04

TOUT05

TOUT06
TOUT07
VDDIO3

VDDIO4

VDDIO5
VSSIO3

VSSIO4

VSSIO5
100nF

CKOUT
DVDD3

DVDD4
YOUT9
YOUT8

YOUT7

YOUT6

YOUT5
YOUT4

YOUT3

YOUT2

YOUT1

YOUT0
DVSS3

DVSS4
SPO45
SPO46
C1189 16V
SDA
SCL

100nF
37
38

39

40
41

42

43
44

45
46

47

48
49

50

51
52

53
54

55

56
57

58

59
60

61
62

63

64
65

66

67
68

69
70

71

72
R1138
R1137
C1191

C1192

C1193

C1194
R1135 22ohm
7
5
3
1

7
5
3
1
22ohm
C1195
100nF

100nF

R1133
3.3Kohm 100nF

22ohm
100nF
8
6
4
100nF2

8
22ohm 6
R1136 4
2
DEC_S_Y(9)

DEC_S_Y(8)
DEC_S_Y(7)

DEC_S_Y(6)

DEC_S_Y(5)

DEC_S_Y(4)

DEC_S_Y(3)
DEC_S_Y(2)

DEC_S_Y(1)

DEC_S_Y(0)
TP1103
TP1102

R1151 22ohm
DEC_S_CLK
1/10W

R1155 0ohm
SDA_V1 DEC_S_Y(0:9)

R1156 0ohm
SCL_V1

10-10 Samsung Electronics

 Schematic Diagram

10-2-9 Input DVI_HDMI

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

Power
DVI_INPUT D3.3V

Signal
R1201
1Kohm
HPLUG_DVI_5V
FOR HDCP

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE
HPLUG_RST_DVI
C1201

D1201

D1202

D1203

D1204

D1205

D1206

D1207

D1208
100nF

1
D1209
RD8.2MB FT1201

2
ACM2012D-900-2P-T
R1204 10ohm OPTION

3
DVI_RXC-
FT1202 R1205 10ohm
MGND2 DVI_RXC+ HPLUG_RST_HDMI
1 4 ACM2012D-900-2P-T
24 2 3
TP1213
1 1 1 1 1 1 1 1

C
16 Q1202 B
TP1214 8 1 4 R1208 10ohm KSC1623-G HPLUG_RESET
DVI_RX0+ E
TP1215 23 R1209 100ohm 2 3 R1210 10ohm R1207 (FROM MICOM #23)
DIG2_DET DVI_RX0-
TP1216 15 1Kohm
TP1217 7 DDC_DVI_SDA 1/10W
TP1218 FT1203 OPTION
22
TP1219 14 ACM2012D-900-2P-T HPLUG_RST_DVI
TP1220 6 DDC_DVI_SCL

MMBD4148SE
21 MMBD4148SE 5V_DDC_2 S_5V Q1201 C
B R1206 1Kohm
13 1 4 R1211 10ohm DVI_RX1+ KSC1623-G HPLUG_RESET
E
5 D1210 PMLL4148 2 3 R1212 10ohm

D1212
DVI_RX1- (FROM MICOM #23)
D1211

20
12 D1213 PMLL4148
HPLUG_DVI_5V
4
19 FT1204
11 ACM2012D-900-2P-T
3 R1213 10ohm
DVI_RX2+
TP1225 R1214 10ohm
DVI_DDC
1 1 1 1 1 1

18 DVI_RX2-
TP1226 10 1 4
TP1227 2 2 3
TP1228 17
TP1229 9 R1215 47ohm
TP1230 1 DDC_CTL
MGND1
5V_DDC_2
TP1207
IC1201
1
AT24C02N-10SC
361V01-158-SEC
CN1201 8 1
7 2
C1204 C1205
6 3
22uF 100nF R1216
5 4
16V 10Kohm
5V_DDC_1 R1217 R1218
S_5V HPLUG_HDMI_5V_1 10Kohm 10Kohm TP1208

1
HPLUG_HDMI_5V_1

1
TP1209
D1215 PMLL4148 R1219 47ohm
DDC_DVI_SCL
1

D1214 D3.3V
RD8.2MB D1216 PMLL4148 47ohm
2

R1220
R1221 1Kohm R1238 47Kohm DIG1_DET
DDC_DVI_SDA
HPLUG_RST_HDMI
3

1/10W
R1222
10Kohm
1/10W

HDMI_DDC
MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE

MMBD4148SE
D1217

D1218

D1219

D1220

D1221

D1222

D1223

D1224

D1225

D1226
DDC_CTL
R1223 47ohm
5V_DDC_1
TP1210 IC1202
DDC_HDMI_SDA_1 1 AT24C02N-10SC
R1227 R1228
DDC_HDMI_SCL_1 10Kohm 10Kohm 8 1
7 2
R1225 HDMI_RXCLK-_1 C1206 C1207
10ohm 3
R1226 10ohm
22uF 100nF R1224 6
4
HDMI_RXCLK+_1 16V 10Kohm 5
FT1205
ACM2012D-900-2P-T
R1229 10ohm HDMI_RX0-_1

1
R1230 TP1211
10ohm
HDMI_RX0+_1

1
NC R1231 0ohm R1232 47ohm
TP1212
CEC R1233 10ohm HDMI_RX1-_1 DDC_HDMI_SCL_1
R1234 10ohm HDMI_RX1+_1 DDC_HDMI_SDA_1
R1235 47ohm
FT1206
ACM2012D-900-2P-T
R1236 10ohm HDMI_RX2-_1
R1237 10ohm
HDMI_RX2+_1

FT1207
ACM2012D-900-2P-T

FT1208
ACM2012D-900-2P-T

Samsung Electronics 10-11

Schematic Diagram

10-2-10 HDMI_IN
This Document can not be used without Samsung’s authorization.
D3.3V
Power 1 2 HDMI_DE
3 4
Signal R1301 5 6
HDMI_V
HDMI_H
INTERRUPT_OUTPUT 4.7Kohm 7 8
1/10W HDMI_CLK
DIG1_INT RA1301
47

HDMI
NRSTO
R1302 R1303
100ohm C1301 0ohm
D3.3V
1/10W 100nF 1/10W
16V

R1304

72

71

35
34
33

46
390ohm
HDMI_B(0:7)

RESET#

INT

DE
VSYNC
HSYNC

ODCK
81 70 1 2 HDMI_B(0)
EXT_RES Q0
69 3 4 HDMI_B(1) RA1302
Q1
HDMI_RX2-_1 96
RX2- Q2
68 5 6 HDMI_B(2) 47
97 63 7 8 HDMI_B(3)
HDMI_RX2+_1 RX2+ IC1301 Q3
62 1 2 HDMI_B(4)
Q4
91 61 3 4 RA1303
HDMI_RX1-_1
HDMI_RX1+_1
92
RX1-
RX1+
SII9993CT100 Q5
Q6
60 5 6
HDMI_B(5)

HDMI_B(6) 47
59 7 8 HDMI_B(7)
Q7
HDMI_RX0-_1 86
RX0- HDMI_G(0:7)
87 58 1 2 HDMI_G(0)
HDMI_RX0+_1 RX0+ Q8
55 3 4 HDMI_G(1) RA1304
Q9
HDMI_RXCLK+_1 84
RXC+ Q10
54 5 6 HDMI_G(2) 47
83 53 7 8 HDMI_G(3)
HDMI_RXCLK-_1 RXC- Q11
52 1 2 HDMI_G(4)
BD1301 Q12
51 3 4 RA1305
ACB1608H-060-T Q13 HDMI_G(5)
82
AVCC Q14
50 5 6 HDMI_G(6) 47
B 89 49 7 8 HDMI_G(7)
AVCC Q15
C1302 C1303 C1304 C1305 C1306 93
AVCC HDMI_R(0:7)
100nF 22uF 100nF 100nF 1nF 90
5 .6mm 48 1 2 HDMI_R(0)
AVCC Q16
D3.3V 16V 44 3 4 HDMI_R(1) RA1306
Q17
85
AGND Q18
43 5 6 HDMI_R(2) 47
88 42 7 8 HDMI_R(3)
AGND Q19
90 39 1 2 HDMI_R(4)
AGND Q20
94 38 3 4 HDMI_R(5) RA1307
BD1302 AGND Q21
ACB1608H-060-T
98
AGND Q22
37 5 6 HDMI_R(6) 47
36 7 8 HDMI_R(7)
Q23
B 80
PVCC
C1308 C1309 26 R1305 33ohm
C1307 MCLKOUT
100uF 100nF 1nF
79 27 R1306 33ohm RA1308
16V PGND MCLKIN
1 2
32 3 4
SCK
21
OVCC WS
31 5 6 47
47 30 7 8
OVCC SD0
56
OVCC
BD1303 67 29 R1307 33ohm
OVCC SPDIF
ACB1608H-060-T DIG1_SPDIF
28 12
B

C1312 C1313 C1314 C1315 OGND ANGY TP1305

45 15
100nF 100nF 1nF 1nF 57
OGND ANBPB
7 1 TP1306 ANALOG_Y/Pb/Pr

75ohm

75ohm

75ohm
1/10W

1/10W

1/10W
OGND ANRPR 1 TP1307
66
OGND ANALOG 1
C1311 78 8 D3.3V
OGND COMP
22uF
16V 17 10.6mm C1316 C1310 10uH
VCC DACVCC

R1308

R1309

R1310
40 6 10nF 10uF N
VCC DACVCCR
64
VCC DACVCCG
11 16V L1301
100 14
VCC DACVCCB
16 2 C1317 C1318 C1321 C1322
GND DACGND
41 5 1nF 1nF 22uF 100nF
GND DACGNDR
65 10 16V
GND DACGNDG
99 13
GND DACGNDB
C1319 C1320
9
RSET 100nF 100nF

CONFIG_I2C
0.6mm 23
PLLVCC
ANALOG
DACVREFO
4
NC FULL_SCALE_ADJUST
R1311
22 3 100ohm
PLLGND DACVREFI NC

PLLOUT
PLLIN

RSVD
RSVD
RSVD
RSVD

CSDA

DSDA
CSCL

DSCL
D3.3V D5V

24 BD1304 MPZ2012S300A
25

73
20
19
18

75
74

76
77
NC 1.0mm
R1312 R1313 C1327
4.7Kohm 4.7Kohm 100nF
R1314 16V IC1302
R1318
C1323 0ohm NC7WBD3125K8X
10uF
3.9Kohm R1315
8
VCC /OE1
1
7 2 R1317 10ohm
0ohm /OE2 1A DDC_HDMI_SCL_1
R1316 47ohm 6
1B 2A
3 R1320 10ohm
DDC_HDMI_SDA_1
R1319 47ohm 5
2B GND
4

R1321
C1324 47nF 100ohm
SCL_S

SDA_S
C1325 R1322
C1326 22pF 100ohm
22pF 50V
50V

10-12 Samsung Electronics

 Schematic Diagram

10-2-11 DVI_IN
This Document can not be used without Samsung’s authorization.
NRSTO
Power R1401
D3.3V
100ohm C1401
Signal 1/10W 100nF 1 2 DVI_DE
16V 3 4 DVI_H
R1402 5 6
DVI_V
4.7Kohm 7 8

DVI
1/10W DVI_CLK
DIG2_INT RA1401
R1403
0ohm
1/10W

127
128

119
91
89

1
INT
RESET#

DE
HSYNC
VSYNC
ODCK
DVI_B(0:7)
63 124 1 2
DVI_RX2+ RX2+ QE0
62 123 3 4 RA1402
RX2- QE1
D1.8V DVIC_1.8V
DVI_RX2-
59
QE2
122
121
5
7
6
8
DVI_RX1+ RX1+ QE3
58 117 1 2
DVI_RX1- RX1- QE4
116 3 4 RA1403
QE5
B 55 115 5 6
DVI_RX0+ RX0+ QE6
ACB2012L-015-T DVI_RX0- 54 114 7 8
C1403 C1404 C1405 C1406 RX0- QE7
BD1401 C1402
100nF 100nF 1nF 1nF DVI_G(0:7)
100uF 25V 25V 50V 50V DVI_RXC+ 51 111 1 2
RXC+ QE8
10V 50 110 3 4 RA1404
DVI_RXC- RXC- QE9
109 5 6
QE10
DVIC_1.8V 12
24
CVCC18 QE11
108
105
7
1
8
2
CVCC18 QE12
36 104 3 4 RA1405
DVID_1.8V 45
CVCC18
CVCC18
QE13
QE14
103 5 6
81 102 7 8
CVCC18 QE15
112
CVCC18 DVI_R(0:7)
B 125 101 1 2
CVCC18 QE16
ACB2012L-015-T 100 3 4 RA1406
C1407 C1408 QE17
BD1402 13 99 5 6
100nF 1nF CGND QE18
25V 50V 25 96 7 8
CGND QE19
37 95 1 2
CGND QE20
80 94 3 4 RA1407
CGND QE21
DVIO_3.3V 113
126
CGND QE22
93
92
5
7
6
8
CGND QE23
D3.3V DVIO_3.3V 7 35
IOVCC QO0
19 34
IOVCC QO1
31 33
IOVCC QO2
B 68
IOVCC
IC1401 QO3
32
ACB2012L-015-T 77 SII9011CLU 29
C1410 C1411 C1412 C1413 IOVCC QO4
BD1403 C1409 98 28
100nF 100nF 1nF 1nF IOVCC QO5
100uF 25V 25V 50V 50V 107 27
IOVCC QO6
10V 120 26
IOVCC QO7

6 23
IOGND QO8
18 22
IOGND QO9
30 21
DVIR_3.3V 69
IOGND
IOGND
QO10
QO11
20
78 17
IOGND QO12
97 16
IOGND QO13
B 106 15
ACB2012L-015-T
DVIA_3.3V 118
IOGND
IOGND
QO14
QO15
14
C1414 C1415
BD1404 1nF
100nF
25V 50V 49 11
AVCC QO16
53 10
AVCC QO17
57 9
AVCC QO18
61 8
AVCC QO19
5
DVIX_3.3V 52
AGND
QO20
QO21
4
C1416
18pF
50V

Q1
56 3
AGND QO22
60 2
B DVIP_3.3V 64
AGND
AGND
QO23 X1401 R1404
1Mohm

Q0
ACB2012L-015-T 85
XTALIN
DVIX_3.3V
C1418 C1419
BD1405 47 84
100nF 1nF PVCC XTALOUT
25V 50V
DVIR_3.3V 46
PGND MCLK
79
R1405 C1417
18pF
86 76 33ohm 50V
XTALVCC SCK 1/10W
87 75
REGVCC WS
D3.3V DVIA_3.3V DVID_1.8V 82
SD0
74
73
AUDPVCC18 SD1
83 72
AUDPGND SD2 D5V
66 71
DVCC18 SD3
B 65 D3.3V
DGND
ACB2012L-015-T 70 BD1407 MPZ2012S300A
SPDIF
C1422 C1423 C1424 C1425
BD1406 C1420 67
100nF 100nF 1nF 1nF MUTE
100uF C1421

PWR5V
RSVDL
25V 25V 50V 50V

CI2CA
RSVD

CSDA

DSDA
SCDT

CSCL
10V 100nF

DSCL
1.0mm

NC
R1407 16V IC1402
R1406
4.7Kohm 4.7Kohm NC7WBD3125K8X

43
88
48

44
38
90

39
40

41
42
8 1
R1411 R1412 VCC /OE1
7 2 R1408 10ohm
DVIP_3.3V 4.7Kohm 4.7Kohm R1 40 9 47ohm 6
/OE2
1B
1A
2A
3 R1410 10ohm DDC_DVI_SCL
DDC_DVI_SDA
1/10W 1/10W R1413 47ohm 5 4
2B GND

B
HPLUG_DVI_5V
SCL_V1
ACB2012L-015-T R1414
BD1408 C1426 C1427 100ohm
100nF 1nF
25V 50V
SDA_V1
R1416
HDMI_ID C1428 R1415
C1430 22pF 100ohm
100ohm 22pF 50V
C1429
50V
100nF

Samsung Electronics 10-13

Schematic Diagram

10-2-12 PC_Input
This Document can not be used without Samsung’s authorization.
A5V

BD1502 D1501 C1501 S_5V C1510 IC1502 3.3V_9888_AVDD D3.3V 3.3V_9888_VDD

MGND2 MPZ2012S300A SDS7000 100nF 100nF KA78RM33D BD1504
50V 1 MPZ2012S300A
B 2 3
IN OUT
3 C1513 B C1514 C1515 C1511
TP1509
1 1 6 1 R1587 33ohm 12-B5 BD1503 B GND C1512 10nF 10uF 4.7uF 10nF
TP1501 1 1/10W PC_RA MPZ2012S300A 100uF 50V 16V 35V
11
2 25V R1579 0ohm
TP1510 R1503 C1507 PC_V
11 1

7 R1580 0ohm
TP1502 75ohm 47uF
2 R1581 0ohm
TP1514 16V PC_H
12 R1582 0ohm
8 R1578 0ohm
PC_CLK
TP1504 D1502
1 2
1 11

3 1/10W
TP1516 SDS7000 C1508 R1509 PC_R(0)
13 IC1503 3.3V_9888_PVD 3 4 R1505 PC_R(0:7)
TP1511 100nF ADP3300ART-3.3 330Kohm S_5V PC_R(1)
9
R1504 2
1/10W 5 6 0ohm PC_R(2)

TP1518 4 1Kohm 3 1 6 7 8 1/16W PC_R(3)

1

GND /ERR
14 1 2
NR IN
5 1 2 PC_R(4)
10 R1588 33ohm 12-C5 3 4 3 4 R1506 PC_R(5)
TP1507 PC_GA /SD OUT
5 6 0o hm
11

5 1/10W
TP1520 R1502 C1519 C1520 C1521
PC_R(6)
15
C1509 7 8 1/16W
1Kohm R1507 1uF 10uF 4.7uF
PC_R(7)

75ohm 47uF 10V 16V 35V

MGND1 16V C1518 10nF

3
ZD1501 ZD1502 3.3V_9888_VDD
105-15202N330 RD8.2MB RD8.2MB

2
JA1501 D1503 C1516

1
SDS7000 100nF
3.3V_9888_AVDD
2

Power

128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
3
1 R1589 33ohm 12-C5
A9V 5V_A_CXA
1/10W PC_BA IC1507 C1502 C1503C1504

GND28
VSOUT
SOGOUT
HSOUT
DATACKB
DATACK
VDD8
GND27
DRA0
DRA1
DRA2
DRA3
DRA4
DRA5
DRA6
DRA7
VDD7

DRB0
DRB1
DRB2
DRB3
DRB4
DRB5
DRB6
DRB7
KIA78D05F C1505 100nF 100nF 100nF

GND26
R1508 C1517
Signal 75ohm 47uF
16V BD1505B
1
IN OUT
3 10nF 16V 16V 16V
C1522 100nF
1
2
VD1
REF_BYPASS
VDD6
GND25
102
101
GND
C1506 16V 3 100 R1510
MPZ2012S300A 4
GND1 GND24
99
2 47uF GND2 GND23 0ohm
C1523 47nF 5 RAIN0 VDD5
98 1/16W
27-B2 CXA_R 16V 6 VD2 DGA0
97 1 2 PC_G(0)
PC_DET 7 96 3 4 PC_G(1)
PC_G(0:7)
VD3 DGA1
C1524 47nF 8 RAIN1 DGA2
95 5 6 PC_G(2)
PC_RA C1525 100nF 9 RMIDSCV DGA3
94 7 8 PC_G(3)
16V 10 VD 4 DGA4
93 1 2 PC_G(4)
11 GND3 DGA5
92 3 4 PC_G(5)
5V_A_CXA 5V_CXAOUT C1526 1nF 12 SOGIN0 DGA6
91 5 6 PC_G(6)
12-E6 CXA_G C1531 47nF 13 GAIN0 DGA7
90 7 8 PC_G(7)
PC1_H 16V 14 89
ZD1503 ZD1504 BD1506 VD5 VDD4 R1512
15 88
RD8.2MB RD8.2MB12-E6
PC1_V
MPZ2012S300A
B
C1532
C1533
1nF
47nF
16
17
GND4
SOGIN1 IC1504 GND22
DGB0
87
86
0ohm
1/16W
GAIN1 DGB1
R1511 C1529
AD9888KS-170

3
D1505
D1504
C 1527 C1528 C1530 PC_GA 16V 18 VD6 DGB2
85
RD8.2MB
2 RD8.2MB 4.7Kohm 10uF 100nF 100nF 100nF 19 GND5 DGB3
84
16V 16V 16V
1/10W 16V

2
1 3 C1534 47nF 20 BAIN0 DGB4
83
CXA_B

1
3 1
16V 21 VD7 DGB5
82
2
22 GND6 DGB6
81
C1535 47nF 23 80 R1518
R1513 R1514 IC1505 PC_BA BAIN1 DGB7
100ohm C1537 100nF 24 BMIDSCV VDD3
79 0ohm
100ohm AT24C02N-10SC 16V 25 78 1/16W
VD 8 GND21
26 VD9 DBA0
77 1 2 PC_B(0)
5 4 27 76 3 4 PC_B(1)
PC_B(0:7)
6 GND7 DBA1
3 ANALOG EDID EPROM 28 GND8 DBA2
75 5 6 PC_B(2)
7 2 29 74 7 8 PC_B(3)
8 CKINV DBA3
1 30 CLAMP DBA4
73 1 2 PC_B(4)
R1543 47ohm DDC_CTL R1522 100ohm 31 72 3 4 PC_B(5)
2-D3,9-B6 SDA_V2 R1523 100ohm 32
SDA DBA5
71 5 6 PC_B(6)
SCL DBA6
S_5V R1516 R1517 R1590 10ohm 5-B4
CXA_G_BUF SCL_V2 R1542 0ohm 33 70 7 8 PC_B(7)
D1506 1/10W 1/10W 34
A0 DBA7
69
PMLL4148 10Kohm 10Kohm VD10 VDD2 R1520
R1591 10ohm 5-C4
CXA_B_BUF 35 68
1/10W 36
GND9 GND20
67 0ohm
R1515 R1592 10ohm 37
GND10 GND19
66 1/16W
D1507 C1536 R1577 5-D4
CXA_R_BUF VD11 GND18
BD1511 10Kohm 1/10W 38 65
PMLL4148 10Kohm 100nF

HSYNC1

HSYNC0
VSYNC1

VSYNC0
MPZ2012S300A 1/10W PVD GND17

COAST
GND11
GND12

GND13

GND14

GND15

CKEXT
GND16
16V

VDD1
PVD0

PVD1
PVD2

PVD3

DBB7
DBB6
DBB5
DBB4
DBB3
DBB2
DBB1
DBB0
FILT
3.3V_9888_PVD

39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
R1540
100ohm R1538 R1539
2-C6,5-A1,#3 0ohm 10Kohm
SCL_5 5V_A_CXA PC_VA 1/10W
R1584 10ohm 12-B5
SDA_5
2-C6,5-A1,#3
CXA_G
C1538 C1539 1/10W PC_HA R1541

3.9nF
R1545

50V
R1585 10ohm 12-C5 3.3Kohm
100ohm 100nF 47uF CXA_B
3-B3,5-A1,13-B1 C1544 1/10W 1/10W
COMP1_Pr 470nF R1586 10ohm 12-B5 CXA_V
1/10W
CXA_R
S_3.3V C1553

C1549
3-B3,5-A1,13-B1 C1545 39nF
COMP1_Pb 470nF CXA_H 25V
BD1507
C 1546 R1548 MPZ2012S300A
3-B3,5-A1,13-B1
COMP1_Y 470nF 330Kohm B
R1550
75ohm C1591
C1547 10uF
36
35
34
33
32
31
30
29
28
27
26
25

470nF IC1506 16V

R1556 C1540 74LCX125MX
IN1_H,L1
IN1_3
IN1_2
IN1_1
ADDRESS
SDA
SCL
CLP_CR
VCC2
SELY_OUT
SELCB_OUT
SELCR_OUT

75ohm 1uF R1557 1 14 C1592

C1548 6.3V 2Kohm A0IN VCC 100nF
37
IN1_V,L2 G ND2
24 CXA2151_VSYNC R1558 100ohm
470nF IN1_L3 SELV_OUT
2 13

38
IN1_SW SELH_OUT
23 CXA2151_HSYNC B0IN A2 3.3V_9888_PVD
39 22 R1559 100ohm
3 12 R1560 100oh1m
2-C3

3-B6,5-B1,13-B1 C1550 40
VCC1 NC
21 Q0 Q1 O0IN B2
PC1_V
COMP2_Pr 470nF 41
IN2_1 EXTCLK,XTAL
20 4 11 R1561 100ohm
IN2_2 IC1501 NC PC_VA
3-B6,5-A1,13-B1 C1551 42 CXA2171Q 19 R1562 10Kohm A1IN O2 12-D6,14-D2
COMP2_Pb 470nF 43
IN2_3 IREF
18 1% X1501 R1563 100ohm
5 10
IN2_H,L1 CLP_SW C1561 C1574 C1575 C1576 C1577 C1578
3-B6,5-A1,13-B1 C1552 44 17 C1541 100nF HC-49/USMD,4MHZ,18PF B1IN A3 10uF 100nF 100nF 100nF 100nF 100nF
COMP2_Y 470nF 45
IN2_V,L2 YG_IN
16 R1564 100ohm
6 9 R1565 100oh1m
2-B3 16V 16V 16V 16V 16V 16 V
IN2_L3 YG_OUT TP1521 PC1_H
R1566 C1554 46 15 C1542 1uF C1593 O1IN
1

B3
IN2_SW V_PH
75ohm 470nF 47 14 E 100pF 7 R1570 100ohm
R1571
GND1 H_PH
Q1504
8
PC_HA 3.3V_9888_AVDD
C1555 48 13 GNDIN O3 12-D6,14-D2

75ohm C1543
IN3_H

IN4_H

B
IN3_V
GND3

IN4_V

KSA1182 C1594
IN3_1
IN3_2
IN3_3

IN4_1
IN4_2
IN4_3

VCC3

470nF 10nF
C 100pF
10
11
12
1
2
3
4
5
6
7
8
9

C1560 C1563 C1564 C1565 C1566 C1567 C1568 C1569 C1570 C1571 C1572 C1573
12-D6 10uF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF
CXA_H 16V 16V 16V 16V 16V 16V 16V 16V 16V 16V 16V 16V
12-D6
CXA_V
C1595 470nF
TP1522
1

3.3V_9888_VDD

C1596 470nF
1

TP1523
C1581 C1583 C1584 C1585 C1586 C1587 C1588 C1589 C1590
C1597 470nF 10uF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF
TP1524
1

16V 16V 16V 16V 16V 16V 16V 16V 16V

R1572 R1573 R1574

75ohm 75ohm 75ohm
1/10W 1/10W 1/10W

C1598
470nF
TP1525
1

TP1526
1

C1599
R1575 R1576 470nF
2Kohm 2Kohm
1/10W 1/10W

10-14 Samsung Electronics

 Schematic Diagram

10-2-13 AD9881
This Document can not be used without Samsung’s authorization.
R1601 100ohm
Power SDA_V1 1/10W
R1602 100ohm
Signal SCL_V1 1/10W D3.3V D3.3V_9981
BD1601
MPZ2012S300A C1602 C1603 C1604
100nF 100nF 100nF

D3.3V_9981 B
C1601
10uF
C1605
100nF
16V

47nF
47nF
A1.8V_9981 C1606 8.2nF
50V
C1607 100nF R1605 1.5Kohm
16V 1/10W

C1608
C1609
1%
1 2 TP11601 AHD_B(0)
3 4 R1606 TP1 602 AHD_B(1)
AHD_B(0:9)
5 6 22ohm TP11603 AHD_B(2)

A3.3V_9981 7
1
8 1/16W
2
TP1 604
TP11605
AHD_B(3)

AHD_B(4)

80

79

78
77

76
75

74

73
72

71

70
69

68
67

66

65
64

63

62
61
3 4 R1607 TP1 606 AHD_B(5)
5 6 22ohm TP11607 AHD_B(6)

GND
PVD(1.8V)

FILT
GND

PVD(1.8V)

GND
PVD(1.8V)

CLAMP

EXTCLK,COAST
VSYNC0

HSYNC0
VSYNC1

HSYNC1

SCL
SDA

GND

VDD(3.3V)
BLUE<0>

BLUE<1>
BLUE<2>
7 8 1/16W TP1 608 AHD_B(7)

C1610
1
VD(3.3V) BLUE<3>
60 R1608 22ohm TP11609 AHD_B(8)

COMP1_Pb
470nF 2
BAIN0 BLUE<4>
59 R1609 2
12/1o0hW
m TP1 610 AHD_B(9)
16V 3 58 1/10W
C1611 GND BLUE<5>
470nF 4 57
COMP2_Pb 16V 5
BAIN1 BLUE<6>
56
C1612 VD(3.3V) BLUE<7>
470nF 6 55
GAIN0 BLUE<8>
16V 7 54
GND BLUE<9>

COMP1_Y C1613 1nF 8

SOGIN0 GND
53
9 52
C1614 VD(3.3V)
IC1601 VDD(3.3V)

COMP2_Y
470nF 10
GAIN1 GREEN0>
51 1 2 TP11611 AHD_G(0)
16V 11 AD9981XSTZ-110 50 3 4 R1610 TP1 612 AHD_G(1)
AHD_G(0:9)
GND GREEN1>
C1632 1nF 12
SOGIN1 GREEN2>
49 5 6 22ohm TP11613 AHD_G(2)
50V
C1615
13
VD(3.3V) GREEN3>
48 7 8 1/16W TP1 614 AHD_G(3)

COMP1_Pr
470nF 14
RAIN0 GREEN4>
47 1 2 TP11615 AHD_G(4)
16V
C1616
15
GND GREEN5>
46 3 4 R1611 TP1 616 AHD_G(5)

COMP2_Pr
470nF 16
RAIN1 GREEN6>
45 5 6 22ohm TP11617 AHD_G(6)
16V 17
PWRDN,TRI-ST GREEN7>
44 7 8 1/16W TP1 618 AHD_G(7)

R1626 R1627 R1628 R1629 R1630 R1631

D3.3V_9981 C1617
C1618
100nF
100nF
18

19
REFLO GREEN8>
43

42
R1612
R1613
22ohm
2
12/1o0hW
m
TP11619
TP1 620
AHD_G(8)

AHD_G(9)
REFCM GREEN9>
75ohm 75ohm 75ohm 75ohm 75ohm 75ohm C1619 100nF 20 41 1/10W
REFHI DAVDD(1.8V)
1/10W 1/10W 1/10W 1/10W 1/10W 1/10W

O/E_FIELD
VSOUT,A0
R1614

VDD(3.3V)

VDD(3.3V)
10Kohm

SOGOUT

DATACK

RED<9>

RED<8>
RED<7>

RED<6>
RED<5>

RED<4>

RED<3>
RED<2>

RED<1>

RED<0>
HSOUT
1/10W
D1.8V

GND

GND
GND
R1615 BD1602
OPTION 0ohm MPZ2012S300A
1/10W

21

22

23
24

25
26

27

28
29

30

31
32

33
34

35

36
37

38

39
40
B
C1620

TP1621
1
100nF
D3.3V_9981
A6V IC1602 A3.3V_9981 1 2 TP11622 AHD_R(0)
KA78RM33D R1625 10Kohm 3 4 R1616 TP1 623 AHD_R(1) AHD_R(0:9)
1
IN OUT
3 1/10W 5 6 22ohm TP11624 AHD_R(2)

C1621 C1622 C1633 C1623 C1624 C1625 C1626

7 8 1/16W TP1 625 AHD_R(3)

100nF
GND
100uF 100uF 100nF 100nF 100nF 100nF 1 2 TP11626 AHD_R(4)
16V 16V
2
3 4 R1618 TP1 627 AHD_R(5)
5 6 22ohm TP11628 AHD_R(6)
7 8 1/16W TP1 629 AHD_R(7)
R1619 22ohm TP11630 AHD_R(8)
R1620 2
12/1o0hW
m TP1 631 AHD_R(9)
1/10W

A1.8V_9981 R1621 22ohm

AHD_CLK
R1622
1/10W
S_3.3V
A6V 10ohm
IC1603 AHD_H
FAN1117AD-1.8 R1623

B
10ohm BD1603
3 2
VIN VOUT AHD_V MPZ2012S300A
C1627 C1628 C1629 C1630 C1631
100nF ADJ 100uF 100nF 100nF 100nF
16V
R1632
C1636
1

100nF 4.7Kohm
1/10W
R1634 1Kohm
C1637 1/10W
FID_DET
22uF
16V C1635
C
B Q1601 22uF
KSC1623-Y 16V
R1633 E
10Kohm
1/10W

Samsung Electronics 10-15

Schematic Diagram

10-2-14 CPLD
This Document can not be used without Samsung’s authorization.
IC2000-3
XC2C512-7FG324
DVI_R(0:7) AHD_R(0:9)
G4 AA9
DVI_R(7) I/O I/O AHD_R(9)
G3 AB9
DVI_R(6) I/O I/O AHD_R(8)
IC2000-4

CPLD PART
H4 W10
DVI_R(5) I/O I/O AHD_R(7)
XC2C512-7FG324 H3 Y 10
DEC_M_Y(0:9) DEC_S_Y(0:9) DVI_R(4) I/O I/O AHD_R(6)
B17 L19 J4 AA10
DEC_M_Y(9) DEC_S_Y(9) DVI_R(3) AHD_R(5)
I/O I/O I/O I/O
C18 M19 J3 AB10
DEC_M_Y(8) I/O I/O DEC_S_Y(8) DVI_R(2) I/O I/O AHD_R(4)
B18 M20 K4 W11
DEC_M_Y(7) I/O I/O DEC_S_Y(7) DVI_R(1) I/O I/O AHD_R(3)
B19 N19 K3 Y11
DEC_M_Y(6) DEC_S_Y(6) DVI_R(0) AHD_R(2)
I/O I/O I/O I/O
B20 P19 AA11
DEC_M_Y(5) DEC_S_Y(5) AHD_R(1)
B21
I/O I/O
P20
DVI_G(0:7) L3
I/O
AB11
DEC_M_Y(4) I/O I/O DEC_S_Y(4) DVI_G(7) I/O I/O AHD_R(0)
C19 R19 M4
DEC_M_Y(3) DEC_S_Y(3) DVI_G(6)
I/O I/O I/O AHD_G(0:9)
C20 R20 M3 Y 12
DEC_M_Y(2) I/O I/O DEC_S_Y(2) DVI_G(5) I/O I/O AHD_G(9)
C21 R21 N4 AA12
DEC_M_Y(1) DEC_S_Y(1) DVI_G(4) AHD_G(8)
I/O I/O I/O I/O
D19 T19 N3 AB12
DEC_M_Y(0) I/O I/O DEC_S_Y(0) DVI_G(3) I/O I/O AHD_G(7)
P4 W13
DVI_G(2) I/O I/O AHD_G(6)
F20 U21 P3 Y13
TP2025 DVI_G(1) AHD_G(5)
1

G19
I/O I/O
U22
TP2026 R4
I/O I/O
AA13

1
TP2027 DVI_G(0) AHD_G(4)
1

I/O I/O I/O I/O

G20 V20
TP2028 AB13

1
TP2029 AHD_G(3)
1

H19
I/O I/O
V 21
TP2030 DVI_B(0:7) T3
I/O
W14

1
TP2031 DVI_B(7) AHD_G(2)
1

I/O I/O TP2032 I/O I/O

H20 V22 U4 Y14
D3.3V D3.3V_CPLD

1
TP2033 DVI_B(6) AHD_G(1)
1

J19
I/O I/O
W19
TP2034 U3
I/O I/O
AA14

1
TP2035
1

DVI_B(5) AHD_G(0)
J20
I/O I/O
W20
TP2036 V2
I/O I/O

1
TP2037 DVI_B(4)
AHD_B(0:9)
1

I/O I/O
TP2038 I/O BD2001
R2020 0ohm K19 W21 W4 Y15

1
DVI_B(3) AHD_B(9)
PC_V I/O I/O TP2039 I/O I/O MPZ2012S300A
K20 W22 W3 AA15

1
TP2040 DVI_B(2) AHD_B(8)
1

L20
I/O I/O
Y 22
TP2041 W2
I/O I/O
AB15

1
B
TP2042 DVI_B(1) AHD_B(7) C2001
1

I/O I/O I/O I/O

TP2043 W1 W16 47uF

1
DVI_B(0) I/O I/O AHD_B(6)
D21 T21 Y 16 16V
AHD_B(5)
DEC_M_H I/O I/O DEC_S_H I/O
D20 T20 L4 AA16
AHD_B(4)
DEC_M_V I/O I/O DEC_S_V DVI_H I/O I/O
E20 T22 F4 AB16
TP2003 AHD_B(3)
1

E21
I/O I/O
U19
TP2044 DVI_V R3
I/O I/O
W17
TP2004 1
AHD_B(2)
1

I/O I/O
TP2002 DVI_DE I/O I/O
F19 U20 T4 Y17
D1.8V

1
AHD_B(1)
DEC_M_CLK I/O I/O DEC_S_CLK DVI_CLK I/O I/O
AA17
AHD_B(0)
I/O

W12
I/O AHD_H
Y9
I/O AHD_V BD2002
AB14 R2043 0ohm
I/O RST_GF MPZ2012S300A
W15
AHD_CLK

B
I/O

C2002
47uF
16V

IC2000-5 IC2000-2
XC2C512-7FG324 XC2C512-7FG324
HDMI_R(0:7)
TP2006
D11 C10
HDMI_R(7) C2003 100nF A20 D5
1

I/O I/O VCC GND

TP2007
C11 B10
HDMI_R(6) C2004 100nF D4 D18
1

I/O I/O VCC GND

TP2008
B11 D9
HDMI_R(5)
D3.3V_CPLD E3 E4
1

I/O I/O VCC GND

TP2009
D12 C9
HDMI_R(4) C2005 100nF AA3 E19
1

I/O I/O VCC GND

TP2010
C12 B9
HDMI_R(3) C2006 100nF N20 J9
1

I/O I/O VCC GND

B12 D8 IC2000-1 J14
TP2011 HDMI_R(2)
1

I/O I/O GND

D13 C8 XC2C512-7FG324 C2007 100nF F1 K10
TP2012 HDMI_R(1)
1

I/O I/O VP2_R(0:9) VP1_R(0:9) VAUX GND

C13 B8 A8 A11 M9 K11
HDMI_R(0) VP2_R(9) VP1_R(9)
TP2013
1

I/O I/O I/O I/O VCCIO1 GND

VP2_R(8)
A7 A12
VP1_R(8) C2016 C2008 100nF N9 K12
HDMI_G(0:7) I/O I/O VCCIO1 GND
TP2014
D14 C7
HDMI_G(7) VP2_R(7)
A6 A 13
VP1_R(7) 47uF C2009 100nF P10 K13
1

I/O I/O I/O I/O VCCIO1 GND

B14 B7 A5 A14 6.3V P11 L10
TP2015 HDMI_G(6) VP2_R(6) VP1_R(6)
1

I/O I/O I/O I/O VCCIO1 GND

D15 D6 A4 A 15 L11
TP2016 HDMI_G(5) VP2_R(5) VP1_R(5)
1

I/O I/O I/O I/O GND

C15 C6 A3 A16 J10 L12
TP2017 HDMI_G(4) VP2_R(4) VP1_R(4)
1

I/O I/O I/O I/O VCCIO2 GND

TP2018
B15 B6
HDMI_G(3) VP2_R(3)
A1 A17
VP1_R(3) C2010 100nF J1 1 L13
1

I/O I/O I/O I/O VCCIO2 GND

TP2019
D16 C5
HDMI_G(2) VP2_R(2)
B1 A18
VP1_R(2) C2011 100nF K9 M10
1

I/O I/O I/O/GTS3 I/O VCCIO2 GND

C16 B5 C1 A19 L9 M 11
TP2020
1

I/ O I/O HDMI_G(1) VP2_R(1) I/O/GTS0 I/O VP1_R(1) VCCIO2 GND

B16 C4 D1 A21 M12
TP2021 HDMI_G(0) VP2_R(0) VP1_R(0)
1

I/O I/O I/O I/O GND

M14 M13
HDMI_B(0:7) VP2_G(0:9) VP1_G(0:9) VCCIO3 GND
TP2022
D17 C3
HDMI_B(7) VP2_G(9)
G2 B22
VP1_G(9) C2012 100nF N14 N10
1

I/O I/O I/O I/O VCCIO3 GND

TP2023
B13 B3
HDMI_B(6) VP2_G(8)
G1 C22
VP1_G(8) C2013 100nF P12 N11
1

I/O I/O I/O I/O VCCIO3 GND

C17 D2 H2 D22 P13 N12
TP2024 HDMI_B(5) VP2_G(7) VP1_G(7)
1

I/O I/O I/O I/O VCCIO3 GND

C2 H1 E22 N13
HDMI_B(4) VP2_G(6) VP1_G(6)
I/O I/O I/O GND
AA1 B2 J2 F21 J12 P9
PC_R(7) HDMI_B(3) VP2_G(5) VP1_G(5)
PC_R(0:7) I/O I/O I/O I/O VCCIO4 GND
PC_R(6)
AB1 E2
HDMI_B(2) VP2_G(4)
J1 F22
VP1_G(4) C2014 100nF J13 P 14
I/O I/O I/O I/O VCCIO4 GND
PC_R(5)
Y2 F3
HDMI_B(1) VP2_G(3)
K2 G21
VP1_G(3) C2015 100nF K14 V4
I/O I/O I/O I/O VCCIO4 GND
AA2 F2 K1 G22 L14 V19
PC_R(4) I/O I/O HDMI_B(0) VP2_G(2) I/O I/O VP1_G(2) VCCIO4 GND
AB2 L2 H21 W5
PC_R(3) VP2_G(1) VP1_G(1)
I/O/CDR I/O I/O GND
Y3 D7 L1 H22 C14 W18
PC_R(2) VP2_G(0) VP1_G(0)
I/O I/O HDMI_H I/O I/O TDO TD O GND
AB3 D10 Y19
PC_R(1) I/O/GCK2 I/O HDMI_V VP2_B(0:9) VP1_B(0:9) TDK TCK
Y4 B4 N2 K21 AB19
PC_R(0) VP2_B(9) VP1_B(9)
I/O I/O HDMI_DE I/O I/O TDI TDI
D3 N1 K 22 AB20
VP2_B(8) VP1_B(8)
I/O/GTS2 HDMI_CLK I/O I/O TMS TMS
AB4 P2 L21
PC_G(7) VP2_B(7) VP1_B(7)
PC_G(0:7) Y5
I/O
A2 P1
I/O I/O
L22 TP 2.5mm PITCH
PC_G(6) VP2_B(6) VP1_B(6)
I/O I/O/GSR NRSTO I/O I/O
AA5 V3 R2 M21
PC_G(5) I/O/DGE I/O/GCK0 PCLK_CPLD VP2_B(5) I/O I/O VP1_B(5)
AB5 AB22 R2005 0ohm R1 M 22
PC_G(4) I/ O I/O SCL_S VP2_B(4) I/O I/O VP1_B(4)
PC_G(3)
W6 AA22 R2001 0ohm VP2_B(3)
T2 N21
VP1_B(3)
I/O I/O SDA_S I/O I/O
PC_G(2)
Y6 1/10W VP2_B(2)
T1 N22
VP1_B(2)
I/O I/O I/O
AA6 AA18 U2 P21
PC_G(1) VP2_B(1) VP1_B(1)
AB6
I/O I/O
Y18
TP2045 U1
I/O I/O
P22 CN2001
1

PC_G(0) I/O I/O VP2_B(0) I/O I/O VP1_B(0)

Y20
TP2046 SMW250-06 WHT
1

Y7
I/O
Y21
TP2047 E1 A22
1

PC_B(7)
PC_B(0:7) I/O I/O TP2048 VP2_H I/O/GTS1 I/O VP1_H
AA7 AA19 A9 A10 1
1

PC_B(6) I/O I/O TP2049 VP2_V I/O I/O VP1_V TMS

AB7 AA20 M2 J21 2
1

PC_B(5) I/O I/O TP2050 VP2_FDE I/O I/O VP1_FDE TDI

W8 AA21 22ohm R2004 M1 J 22 22ohm R2003 3
1

PC_B(4) I/O I/O

TP2051 VP2_CLK I/O I/O VP1_CLK TDO
Y8 AB17 R2038 0ohm V1 R22 R2039 0ohm 4
1

PC_B(3) I/O I/O TP2052 GSPI_BUSY I/O I/O PCLK_CPLD_OUT TDK

AA8 AB18 1/10W 1/10W 5
1

PC_B(2)
I/O I/O PC_HA
PC_B(1)
AB8 AB21 6
I/O I/O PC_VA
W9
PC_B(0) I/O

PC_H
R2036 0ohm
AA4

Y1
I/O D3.3V_CPLD
PCLK_CPLD 1/10W W7
I/O/GCK1

PC_CLK I/O

10-16 Samsung Electronics

 Schematic Diagram

10-2-15 SDP51
This Document can not be used without Samsung’s authorization.
D3.3V IPC_D3.3V
Power
BD1902
BLM41P600S
Signal

B
C1907 C1908 C1909

A
47uF 10nF 1nF
16V 50V 50V
D3.3V
R1911 22ohm C1930 C1929
R1912 22ohm PO_SDR_WEN 15pF 100nF
R1914 22ohm PO_SDR_RASN 50V R1913 16V IC1903
IC1901-1 R1915 47ohm PO_SDR_DQM BD1908 1Kohm MIC39102BM
SDP51 R1916 22ohm PO_SDR_CLKO MPZ2012S300A 1/10W 1 8
PB_SDR_DQ(0:29) PO_SDR_CASN EN GND
PB_SDR_DQ(0) D3 A15 B 2 7
PB_SDR_DQ_0 PO_SDR_WEN IN GND
PB_SDR_DQ(1) RA1901 8 7 C2
PB_SDR_DQ_1 PO_SDR_RASN
D14 3
OUT GND
6
C1931
PB_SDR_DQ(2) 22 6 5 C1
PB_SDR_DQ_2 PO_SDR_DQM
C14
220uF
4
ADJ GND
5
PB_SDR_DQ(3) 4 3 B1 B14 IPC_D1.2V
PB_SDR_DQ_3 PO_SDR_CLKO
2 1 A1 A14 16V R1917
PB_SDR_DQ(4) PB_SDR_DQ_4 PO_SDR_CASN
RA1902 8 7 B2 B1 3 PO_SDR_BA(0:1) 0ohm
PB_SDR_DQ(5) PB_SDR_DQ_5 PO_SDR_BA_1 PO_SDR_BA(1)
PB_SDR_DQ(6) 22 6 5 A2 A13 8 7 RA1903 PO_SDR_BA(0) 1/10W
PB_SDR_DQ_6 PO_SDR_BA_0
4 3 B3 D12 6 5 22 PO_SDR_ADDR(0:10)
PB_SDR_DQ(7) PB_SDR_DQ_7 PO_SDR_ADDR_10 PO_SDR_ADDR(10) IPC_P1.2V
PB_SDR_DQ(8) 2 1 A3 C12 4 3 PO_SDR_ADDR(9) C1903 C1904C1905 C1906 IPC_D3.3V C1932
PB_SDR_DQ_8 PO_SDR_ADDR_9
RA1904 8 7 C4 B12 2 1 BD1901 100nF 10nF 47uF 100nF 220uF
PB_SDR_DQ(9) PB_SDR_DQ_9 PO_SDR_ADDR_8 PO_SDR_ADDR(8)
MPZ2012S300A 16V 50V 16V 16V 16V
PB_SDR_DQ(10) 22 6 5 B4
PB_SDR_DQ_10 PO_SDR_ADDR_7
A12 8 7 RA1905 PO_SDR_ADDR(7) R1918
PB_SDR_DQ(11) 4 3 A4 D11 6 5 22 PO_SDR_ADDR(6) B C1902 R1901 R1902 10Kohm
PB_SDR_DQ_11 PO_SDR_ADDR_6
PB_SDR_DQ(12) 2 1 D5 C11 4 3 PO_SDR_ADDR(5) 1nF 4.7Kohm 4.7Kohm 1/10W
PB_SDR_DQ_12 PO_SDR_ADDR_5
PB_SDR_DQ(13) RA1906 8 7 C5 B11 2 1 PO_SDR_ADDR(4) 50V 1/10W 1/10W
PB_SDR_DQ_13 PO_SDR_ADDR_4
C1901 OPTION
PB_SDR_DQ(14) 22 6 5 B5
PB_SDR_DQ_14 PO_SDR_ADDR_3
A11 8 7 RA1907 PO_SDR_ADDR(3)
1.8nF
PB_SDR_DQ(15) 4 3 A5 A1 0 6 5 22 PO_SDR_ADDR(2) C1925C1926 C192C
7 1928
50V
IC1901-5
PB_SDR_DQ_15 PO_SDR_ADDR_2
BD1904 C1933
PB_SDR_DQ(16) 2 1 C6 B10 4 3 PO_SDR_ADDR(1) 100nF10nF 47uF 100nF SDP51 R1903 R1904
100nF
RA1908 8 7 B6
PB_SDR_DQ_16 PO_SDR_ADDR_1
C10 R1919 2 1 22ohm PO_SDR_ADDR(0) MPZ2012S300A 16V 50V 16V 16V W7 1/10W 1/10W 16V
PB_SDR_DQ(17) 0ohm
PB_SDR_DQ_17 PO_SDR_ADDR_0
R1931 22ohm PB_SDR_DQ(30:59) PO_PLL_FILTER
0ohm
PB_SDR_DQ(18) 22 6 5 A6
PB_SDR_DQ_18 PB_SDR_DQ_59
H18 PB_SDR_DQ(59) B C1924 V7
PLL_VDD_1 PB_I2C_SADDR_1
U9
R1920
4 3 D7 G20 R1932 22ohm W8 V9 D3.3V IC1902
PB_SDR_DQ(19) PB_SDR_DQ_19 PB_SDR_DQ_58
PB_SDR_DQ(58) 1nF PLL_VDD_2 PB_I2C_SADDR_0
2 1 C7 G19 Y7 Y20 R1905 0ohm BD1909 1Kohm MIC39102BM
PB_SDR_DQ(20) PB_SDR_DQ_20 PB_SDR_DQ_57 PB_SDR_DQ(57) 50V PLL_VSS_1 PI_TEST_1
RA1909 8 7 B7 G18 8 7 RA1925 V8 W19 R1906 0ohm MPZ2012S300A 1/10W 1 8
PB_SDR_DQ(21) PB_SDR_DQ_21 PB_SDR_DQ_56 PB_SDR_DQ(56) PLL_VSS_2 PI_TEST_0 EN GND
PB_SDR_DQ(22) 22 6 5 A7
PB_SDR_DQ_22 PB_SDR_DQ_55
G17 6 5 22 PB_SDR_DQ(55) IPC_CLK Y9
PI_HCLK PI_SCAN
Y19 R1907 0ohm B 2
IN GND
7
PB_SDR_DQ(23) 4 3 C8 F20 4 3 PB_SDR_DQ(54)
TP1901 1 V10 U7 R1939 0ohm 3 6
PB_SDR_DQ_23 PB_SDR_DQ_54 PB_EXT_CLK PI_RESET NRSTO C1934 OUT GND

PB_SDR_DQ(24) 2 1 B8 F19 2 1 PB_SDR_DQ(53) SDA_V1 R1909 100ohm

W9 Y8 4 5
RA1910 8
PB_SDR_DQ_24 PB_SDR_DQ_53 R1908 PB_I2C_SDA PI_I2C_SCL
220uF ADJ GND
PB_SDR_DQ(25) 7 A8 E2 0 8 7 RA1926 PB_SDR_DQ(52) IPC_P1.2V
PB_SDR_DQ_25 PB_SDR_DQ_52
1Kohm 16V
PB_SDR_DQ(26) 22 6 5 D9 E19 6 5 22 PB_SDR_DQ(51)
SCL_V1
R1910 100ohm R1921
PB_SDR_DQ_26 PB_SDR_DQ_51 1/10W
PB_SDR_DQ(27) 4 3 C9 E18 4 3 PB_SDR_DQ(50) 0ohm

1 1
PB_SDR_DQ_27 PB_SDR_DQ_50
R19323 212ohm B9 E1 7 2 1 TP1902 1/10W
PB_SDR_DQ(28) PB_SDR_DQ_28 PB_SDR_DQ_49 PB_SDR_DQ(49)
R1934 22ohm A9 D20 8 7 RA1927 TP1903
PB_SDR_DQ(30:59) PB_SDR_DQ(29) PB_SDR_DQ_29 PB_SDR_DQ_48 PB_SDR_DQ(48)
B1 5 D19 6 5 22 C1935
PB_SDR_DQ(30) PB_SDR_DQ(47)
PB_SDR_DQ_30 PB_SDR_DQ_47
RA19288 7 C15 D18 4 3 220uF
PB_SDR_DQ(31) PB_SDR_DQ_31 PB_SDR_DQ_46 PB_SDR_DQ(46)
22 6 5 A16 D17 2 1 16V
PB_SDR_DQ(32) PB_SDR_DQ_32 PB_SDR_DQ_45 PB_SDR_DQ(45) R1926
PB_SDR_DQ(33) 4 3 B1 6 C20 8 7 RA1929 PB_SDR_DQ(44) 10Kohm
PB_SDR_DQ_33 PB_SDR_DQ_44
PB_SDR_DQ(34) 2 1 C16
PB_SDR_DQ_34 PB_SDR_DQ_43
C19 6 5 22 PB_SDR_DQ(43) 1/10W
PB_SDR_DQ(35) RA19308 7 D16 B2 0 4 3 PB_SDR_DQ(42)
PB_SDR_DQ_35 PB_SDR_DQ_42
PB_SDR_DQ(36) 22 6 5 A17 A19 2 1 PB_SDR_DQ(41)
IPC_D3.3V
PB_SDR_DQ_36 PB_SDR_DQ_41
PB_SDR_DQ(37) 4 3 B1 7 B18 8 7 RA1931 PB_SDR_DQ(40) C1938
PB_SDR_DQ_37 PB_SDR_DQ_40
BD1905 X1901
2 1 C17
PB_SDR_DQ_38 PB_SDR_DQ_39
A18 6 5 22 PB_SDR_DQ(39) 100nF K3750HE(27MHz,50PPM)
4 3 MPZ2012S300A 16V 4 3 IC1901-4
PB_SDR_DQ(38)
VCC OUT IPC_CLK
2 1 B
SDP51
R1927 C1936
C1937 1 2 C18
SW GND 50V VDDI_RING
100nF 1/10W 15pF D4 N13
16V 27.0MHz VDDI_RING VSS_RING
220ohm D6 N12
VDDI_RING VSS_RING
D10 N11
VDDI_RING VSS_RING
D15 N10
VDDI_RING VSS_RING

TP1904
TP1905
TP1906
TP1907
IC1901-3 F4 N9
VDDI_RING VSS_RING
SDP51 R1935 22ohm F17 N8
PO_CLKO VDDI_RING VSS_RING
GP_B(0:9) 17-C1 N3 N1 R1936 22ohm F18 M13
PO_CLKO PO_VSYNCO PO_VSYNCO VDDI_RING VSS_RING
1 2 Y6 N2 R1937 22ohm 1 1 1 1 IC1901-2 L3 M12
GP_B(0) PO_DATAO_A_0 PO_HSYNCO PO_HSYNCO VDDI_RING VSS_RING
3 4 W6 N4 R1938 22ohm SDP51 L4 M11
GP_B(1) PO_DATAO_A_1 PO_DENO PO_DENO VDDI_RING VSS_RING
GP_B(2) 5 6 V6 D2 VP2_CLK 1 2 U18 V11 L17 M10
RA1912 PO_DATAO_A_2 PO_DATAO_B_29 PI_CLKI_A PI_DATAI_B_23 VDDI_RING VSS_RING
GP_B(3) 7 8 Y5 D1
VP2_FDE 3 4 R1940 W20 U11 L18 M9
22 GP_B(4) 1 2 W5
PO_DATAO_A_3 PO_DATAO_B_28
E4 5 6 0ohm V20
PB_DENI_A PI_DATAI_B_22
Y12 T3
VDDI_RING VSS_RING
M8
PO_DATAO_A_4 PO_DATAO_B_27 VP2_H PI_HSYNCI_A PI_DATAI_B_21 VDDI_RING VSS_RING
GP_B(5) 3 4 V5 E3
VP2_V 7 8 1/16W V19 W12 T4 L13
PO_DATAO_A_5 PO_DATAO_B_26 PI_VSYNCI_A PI_DATAI_B_20 VDDI_RING VSS_RING
GP_B(6) 5 6 U5 E2
VP2_B(0) 1 2 H19 V12 T17 L12
RA1914 PO_DATAO_A_6 PO_DATAO_B_25
VP2_B(0:9)
PI_DATAI_A_0 PI_DATAI_B_19 VDDI_RING VSS_RING
GP_B(7) 7 8 Y4 E1
VP2_B(1) 3 4 R1941 H20 U12 U6 L11
22 GP_B(8) 1 2 W4
PO_DATAO_A_7 PO_DATAO_B_24
F3
VP2_B(2) 5 6 0ohm J18
PI_DATAI_A_1 PI_DATAI_B_18
Y13 U10
VDDI_RING VSS_RING
L10
PO_DATAO_A_8 PO_DATAO_B_23 PI_DATAI_A_2 PI_DATAI_B_17 VDDI_RING VSS_RING
GP_G(0:9) 17-C1
GP_B(9) 3 4 V4 F2
VP2_B(3) 7 8 1/16W J19 W13 U15 L9
PO_DATAO_A_9 PO_DATAO_B_22 PI_DATAI_A_3 PI_DATAI_B_16 VDDI_RING VSS_RING
GP_G(0) 5 6 Y3 F1
VP2_B(4) 1 2 J20 Y14 A20 L8
RA1916 PO_DATAO_A_10 PO_DATAO_B_21 PI_DATAI_A_4 PI_DATAI_B_15 VDDOP_RING VSS_RING
GP_G(1) 7 8 W3 G4
VP2_B(5) 3 4 R1942 K17 W14 B19 K13
22 GP_G(2) 1 2 Y2
PO_DATAO_A_11 PO_DATAO_B_20
G3
VP2_B(6) 5 6 0ohm K18
PI_DATAI_A_5 PI_DATAI_B_14
V14 C1939 C1940 C1941 C1942 C1943 C1944 C3
VDDOP_RING VSS_RING
K12
GP_G(3) 3 4 Y1
PO_DATAO_A_12 PO_DATAO_B_19
G2
VP2_B(7) 7 8 1/16W K1 9
PI_DATAI_A_6 PI_DATAI_B_13
U14 100nF 100nF 100nF 100nF 100nF 100nF C13
VDDOP_RING VSS_RING
K11
PO_DATAO_A_13 PO_DATAO_B_18 PI_DATAI_A_7 PI_DATAI_B_12 VDDOP_RING VSS_RING
GP_G(4) 5 6 W1 G1
VP2_B(8) 1 2 K20 Y15 D8 K10
RA1918 PO_DATAO_A_14 PO_DATAO_B_17 PI_DATAI_A_8 PI_DATAI_B_11 VDDOP_RING VSS_RING
GP_G(5) 7 8 V3 H3
VP2_B(9) 3 4 R1943 L20 W15 D13 K9
22 GP_G(6) 1 2 V2
PO_DATAO_A_15 PO_DATAO_B_16
H2
VP2_G(0) 5 6 0ohm L19
PI_DATAI_A_9 PI_DATAI_B_10
V15 H4
VDDOP_RING VSS_RING
K8
PO_DATAO_A_16 PO_DATAO_B_15 PI_DATAI_A_10 PI_DATAI_B_9 VDDOP_RING VSS_RING
RA1920 3 4 V1 H1 VP2_G(0:9) 7 8 1/16W M20 Y16 H17 J13
GP_G(7) PO_DATAO_A_17 PO_DATAO_B_14 VP2_G(1) PI_DATAI_A_11 PI_DATAI_B_8 VDDOP_RING VSS_RING
22 GP_G(8) 5 6 U3
PO_DATAO_A_18 PO_DATAO_B_13
J4
VP2_G(2) 1 2 M19
PI_DATAI_A_12 PI_DATAI_B_7
W16 J17
VDDOP_RING VSS_RING
J12
GP_R(0:9) 17-C1
GP_G(9) 7 8 U2 J3
VP2_G(3) 3 4 R1944 M18 V16 N17 J11
1 2 U1
PO_DATAO_A_19 PO_DATAO_B_12
J2 5 6 0ohm M17
PI_DATAI_A_13 PI_DATAI_B_6
U16 IPC_D3.3V IPC_D1.2V C1946 C1947 C1948 C1950 P4
VDDOP_RING VSS_RING
J10
GP_R(0) PO_DATAO_A_20 PO_DATAO_B_11 VP2_G(4) PI_DATAI_A_14 PI_DATAI_B_5 VDDOP_RING VSS_RING
3 4 T2 J1 7 8 1/16W N20 Y17 BD1906 100nF 10nF 47uF 100nF P17 J9
GP_R(1) PO_DATAO_A_21 PO_DATAO_B_10 VP2_G(5) PI_DATAI_A_15 PI_DATAI_B_4 VDDOP_RING VSS_RING
5 6 T1 K4 1 2 N19 W17 MPZ2012S300A 16V 50V 16V 16V U4 J8
RA1922 GP_R(2) PO_DATAO_A_22 PO_DATAO_B_9 VP2_G(6) PI_DATAI_A_16 PI_DATAI_B_3 VDDOP_RING VSS_RING
GP_R(3) 7 8 R4 K3
VP2_G(7) 3 4 R1945 N18 V17 B C1945 U8 H13
22 GP_R(4) 1 2 R3
PO_DATAO_A_23 PO_DATAO_B_8
K2
VP2_G(8) 5 6 0ohm P2 0
PI_DATAI_A_17 PI_DATAI_B_2
Y18 1nF U13
VDDOP_RING VSS_RING
H12
PO_DATAO_A_24 PO_DATAO_B_7 PI_DATAI_A_18 PI_DATAI_B_1 VDDOP_RING VSS_RING
GP_R(5) 3 4 R2 K1
VP2_G(9) 7 8 1/16W P19 W18 50V U17 H11
PO_DATAO_A_25 PO_DATAO_B_6 PI_DATAI_A_19 PI_DATAI_B_0 VDDOP_RING VSS_RING
GP_R(6) 5 6 R1 L1
VP2_R(0) 1 2 P18 Y10 R1928 0ohm BD1907 V13 H10
RA1924 PO_DATAO_A_26 PO_DATAO_B_5
VP2_R(0:9) PI_DATAI_A_20 PI_VSYNCI_B VDDOP_RING VSS_RING
GP_R(7) 7 8 P3 L2
VP2_R(1) 3 4 R1946 R20 W10 1/10W MPZ2012S300A V18 H9
22 GP_R(8) P2
PO_DATAO_A_27 PO_DATAO_B_4
M1
VP2_R(2) 5 6 0ohm R19
PI_DATAI_A_21 PI_HSYNCI_B
W11 W2
VDDOP_RING VSS_RING
H8
PO_DATAO_A_28 PO_DATAO_B_3 PI_DATAI_A_22 PB_DENI_B VDDOP_RING VSS_RING
R1929 GP_R(9) P1 M2
VP2_R(3) 7 8 1/16W R18 Y11 B C1951 C1952 C1953 C1949 C1954
PO_DATAO_A_29 PO_DATAO_B_2 PI_DATAI_A_23 PI_CLKI_B
22ohm M4 M3 1 2 R17 U19 R1947 0ohm 1nF 47uF
PO_DATAO_B_0 PO_DATAO_B_1
VP2_R(4)
PI_DATAI_A_24 PI_DATAI_A_29
VP2_R(9) 100nF 10nF 100nF
R1930 3 4 R1948 T20 U20 R1949 0ohm
VP2_R(5) VP2_R(8)
22ohm PI_DATAI_A_25 PI_DATAI_A_28
C1956 C1957 C1958 C1959
VP2_R(6) 5 6 0ohm T19 T18
PI_DATAI_A_26 PI_DATAI_A_27
7 8 1/16W 100nF 100nF 100nF 100nF

100nF
C1955
100nF C1960

Samsung Electronics 10-17

Schematic Diagram

10-2-16 SDP51_MEM
This Document can not be used without Samsung’s authorization.

IPC_D3.3V
IPC_D3.3V

BD1801 C1801 C1802 C1803 C1804 C1805 C1806 C1807 C1808 C1809 C1810 C1811 C1812 C1813 C1814
MPZ2012S300A 10uF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF BD1802 C1815 C1816 C1817 C1818 C1819 C1820 C1821 C1822 C1823 C1824 C1825 C1826 C1827 C1828
B MPZ2012S300A 10uF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF
B

IC1801
K4S643232E-TC60 IC1802
PB_SDR_DQ(0:29) 1
VDD VSS
86 K4S643232E-TC60
15-A1
PB_SDR_DQ(0) 2 85 PB_SDR_DQ(30:59) 1 86
DQ0 DQ15 VDD VSS
3 84 PB_SDR_DQ(15) 15-B1 2 85
VDDQ VSSQ DQ0 DQ15
PB_SDR_DQ(1) 4 83 3 84
DQ1 DQ14 VDDQ VSSQ
PB_SDR_DQ(2) 5 82 PB_SDR_DQ(14) 4 83
DQ2 DQ13 DQ1 DQ14
6 81 PB_SDR_DQ(13) 5 82
VSSQ VDDQ DQ2 DQ13
PB_SDR_DQ(3) 7 80 6 81
DQ3 DQ12 VSSQ VDDQ
PB_SDR_DQ(4) 8 79 PB_SDR_DQ(12) 7 80
DQ4 DQ11 DQ3 DQ12
9 78 PB_SDR_DQ(11) 8 79
VDDQ VSSQ DQ4 DQ11
PB_SDR_DQ(5) 1 0 77 9 78
DQ5 DQ10 VDDQ VSSQ
PB_SDR_DQ(6) 11 76 PB_SDR_DQ(10) 10 77
DQ6 DQ9 DQ5 DQ10
12 75 PB_SDR_DQ(9) 11 76
VSSQ VDDQ DQ6 DQ9
PB_SDR_DQ(7) 13 74 12 75
DQ7 DQ8 VSSQ VDDQ
14 73 PB_SDR_DQ(8) 13 74
NC NC DQ7 DQ8
15 72 14 73
VDD VSS NC NC
15-A3,16-B3 16 71 15 72
PO_SDR_DQM DQM0 DQM1 PO_SDR_DQM VDD VSS
15-A3,16-B4 1 7 70 15-A3,16-B1 16 71
PO_SDR_WEN /WE NC PO_SDR_DQM DQM0 DQM1 PO_SDR_DQM
15-A3,16-B4 18 69 15-A3,16-B1 17 70
PO_SDR_CASN /CAS NC PO_SDR_WEN /WE NC
15-A3,16-B4 19 68 15-A3,16-B1 18 69
PO_SDR_RASN /RAS CLK PO_SDR_CLKO PO_SDR_CASN /CAS NC
20 67 15-A3,16-B1 19 68
/CS CKE PO_SDR_RASN /RAS CLK PO_SDR_CLKO
15-A3,16-C4 21 66 PO_SDR_ADDR(9) 20 67
PO_SDR_BA(0:1) NC A9 /CS CKE
PO_SDR_BA(0) 22 65 PO_SDR_ADDR(8) 15-A3,16-B1 21 66 PO_SDR_ADDR(9)
BA0 A8 PO_SDR_BA(0:1) NC A9
PO_SDR_BA(1) 23 64 PO_SDR_ADDR(7) PO_SDR_BA(0) 22 65 PO_SDR_ADDR(8)
BA1 A7 BA0 A8
24 63 PO_SDR_ADDR(6) PO_SDR_BA(1) 23 64 PO_SDR_ADDR(7)
A10,AP A6 BA1 A7
PO_SDR_ADDR(10) 25 62 PO_SDR_ADDR(5) 24 63 PO_SDR_ADDR(6)
A0 A5 A10,AP A6
PO_SDR_ADDR(0) 26 61 PO_SDR_ADDR(4) PO_SDR_ADDR(10) 25 62 PO_SDR_ADDR(5)
A1 A4 A0 A5
PO_SDR_ADDR(1) 27 60 PO_SDR_ADDR(3) PO_SDR_ADDR(0) 26 61 PO_SDR_ADDR(4)
A2 A3 A1 A4
PO_SDR_ADDR(2) 28 59 PO_SDR_ADDR(1) 27 60 PO_SDR_ADDR(3)
DQM2 DQM3 A2 A3
15-B3,16-C4 29 58 PO_SDR_ADDR(2) 28 59
PO_SDR_ADDR(0:10) VDD VSS DQM2 DQM3
30 57 PO_SDR_ADDR(0:10) 15-B3,16-C1 29 58
NC NC VDD VSS
PB_SDR_DQ(16) 31 56 30 57
DQ16 DQ31 NC NC
32 55 31 56
VSSQ VDDQ DQ16 DQ31
PB_SDR_DQ(17) 33 54 32 55
DQ17 DQ30 VSSQ VDDQ
PB_SDR_DQ(18) 3 4 53 33 54 R1801 1Kohm
DQ18 DQ29 DQ17 DQ30
35 52 PB_SDR_DQ(29) 34 53
VDDQ VSSQ DQ18 DQ29
PB_SDR_DQ(19) 36 51 35 52
1/10W
1Kohm
R1802

1/10W
1Kohm
R1803

DQ19 DQ28 VDDQ VSSQ

37 50 PB_SDR_DQ(28) 36 51

1/10W
1Kohm
R1804
PB_SDR_DQ(20) DQ20 DQ27 DQ19 DQ28
38 49 PB_SDR_DQ(27) 37 50
VSSQ VDDQ DQ20 DQ27
PB_SDR_DQ(21) 39 48 38 49
DQ21 DQ26 VSSQ VDDQ
PB_SDR_DQ(22) 40 47 PB_SDR_DQ(26) 39 48
DQ22 DQ25 DQ21 DQ26
41 46 PB_SDR_DQ(25) 40 47
VDDQ VSSQ DQ22 DQ25
PB_SDR_DQ(23) 42 45 41 46
DQ23 DQ24 VDDQ VSSQ
43 44 PB_SDR_DQ(24) 42 45
VDD VSS DQ23 DQ24
43 44
VDD VSS

10-18 Samsung Electronics

 Schematic Diagram

10-2-17 GENNOM-1
This Document can not be used without Samsung’s authorization.

Power D3.3V_GF C2101 18pF

HC-49/SM5H
50V

27.0MHz
R2101

X2101
R2138 0ohm 1Mohm
IC2102 27M_GF R_EVEN(0:11)
R_EVEN(2)

Signal C2102 18pF 1/10W 7 8 R2111 R_EVEN(3)

47Kohm

47Kohm
CY2305SC-1H 50V 5 6 0ohm

1/10W

1/10W
OPTION R_EVEN(4)
C2103 100pF 8 1 TP2104 1 3 4 1/16W
50V
7
CLKOUT REF
2 PCLK_CPLD_OUT DNIE_CLK_GE 1 2
R_EVEN(5)

CLK4 CLK2 R_EVEN(6)

6 3 R2147 0ohm TP2107 1 7 8 R2112
VDD CLK1
4
PO_CLKO 5 6 0ohm
R_EVEN(7)
5 R_EVEN(8)
CLK3 GND

R2102

R2103
R2148 0ohm 3 4 1/16W
VP2_CLK R2134 1 2 0ohm
R_EVEN(9)

R_EVEN(10)
R2135 0ohm R_EVEN(11)
R_ODD(2)
R_ODD(0:11)
R_ODD(3)
R2106 R2107 R_ODD(4)
1Kohm 1Kohm TP2116 1
1/10W 1/10W DNIE_H_GE TP2118 1
R_ODD(5)

DNIE_V_GE TP2120 1
R_ODD(6)

VP1_FDE R_ODD(7)

R_ODD(8)

1
TP2122
DNIE_R_GE(0:9) R_ODD(9)
DNIE_R_GE(9) R_ODD(10)

DNIE_R_GE(8) 7 8 R2115 R_ODD(11)

VP2_R(0:9) 5 6 0ohm
7 8 R2149
DNIE_R_GE(7)
3 4 1/16W 7 8 R2117
G_EVEN(2)
G_EVEN(0:11)
DNIE_R_GE(6) G_EVEN(3)
5 6 0ohm DNIE_R_GE(5) 1 2 5 6 0ohm G_EVEN(4)
3 4 1/16W DNIE_R_GE(4) 7 8 R2129 3 4 1/16W G_EVEN(5)
1 2 DNIE_R_GE(3) 5 6 0ohm 1 2 G_EVEN(6)
7 8 R2150 DNIE_R_GE(2) 3 4 1/16W 7 8 R2119 G_EVEN(7)
5 6 0ohm DNIE_R_GE(1) 1 2 5 6 0ohm G_EVEN(8)
3 4 1/16W 7 8 R2130 3 4 1/16W
1 2
DNIE_G_GE(0:9) DNIE_R_GE(0)
5 6 0ohm R2121 1 2 0ohm
G_EVEN(9)

DNIE_G_GE(9) G_EVEN(10)
7 8 R2151 DNIE_G_GE(8) 3 4 1/16W R2122 0ohm G_EVEN(11)
VP2_G(0:9) 5 6 0ohm 1 2
DNIE_G_GE(7)
3 4 1/16W 7 8 R2131
1 2
DNIE_G_GE(6)
5 6 0ohm
G_ODD(2)
G_ODD(0:11)
DNIE_G_GE(5) G_ODD(3)
7 8 R2152 DNIE_G_GE(4) 3 4 1/16W G_ODD(4)
5 6 0ohm DNIE_G_GE(3) 1 2 G_ODD(5)
3 4 1/16W DNIE_G_GE(2) 7 8 R2132 G_ODD(6)
1 2 DNIE_G_GE(1) 5 6 0ohm G_ODD(7)
7 8 R2153 3 4 1/16W
5 6 0ohm
DNIE_B_GE(0:9) DNIE_G_GE(0)
1 2
G_ODD(8)

DNIE_B_GE(9) G_ODD(9)
3 4 1/16W DNIE_B_GE(8) 7 8 R2133 G_ODD(10)
VP2_B(0:9) 1 2 5 6 0ohm
DNIE_B_GE(7) G_ODD(11)
7 8 R2154 3 4 1/16W
5 6 0ohm
DNIE_B_GE(6)
1 2 7 8 R2113
B_EVEN(2)
B_EVEN(0:11)
DNIE_B_GE(5) B_EVEN(3)
3 4 1/16W DNIE_B_GE(4) 7 8 R2140 5 6 0ohm B_EVEN(4)
1 2 DNIE_B_GE(3) 5 6 0ohm 3 4 1/16W B_EVEN(5)
7 8 R2155 DNIE_B_GE(2) 3 4 1/16W 1 2 B_EVEN(6)
5 6 0ohm DNIE_B_GE(1) R2141 1 2 0ohm 7 8 R2114 B_EVEN(7)
3 4 1/16W R2156 0ohm R2142 0ohm 5 6 0ohm
R2157 1 2 0ohm
VP2_H OPTION
DNIE_B_GE(0)
3 4 1/16W
B_EVEN(8)
B_EVEN(9)
R2159 0ohm R2158 0ohm R2136 1 2 0ohm
PO_HSYNCO R2143 0ohm R2137 0ohm
B_EVEN(10)

R2146 0ohm
VP2_V 1/10W
B_EVEN(11)

PO_DENO OPTION
B_ODD(2)
B_ODD(0:11)
R2160 B_ODD(3)

1
R2139 TP2188
0ohm 0ohm
GP_R(0:9) VP2_FDE PO_VSYNCO 1/10W
B_ODD(4)

GP_R(9) B_ODD(5)

GP_R(8) B_ODD(6)
GP_R(7) B_ODD(7)

GP_R(6) B_ODD(8)

GP_R(5) B_ODD(9)
GP_R(4) B_ODD(10)

GP_R(3) B_ODD(11)

GP_R(2)
TP2207 1 R2108 100ohm
GP_R(1)
1/10W
GF_CLK
GP_G(0:9) GP_R(0)
TP2210 1
GP_G(9)
TP2212 1 GF_H
GP_G(8)
TP2214 1 GF_V
GP_G(7)
GP_G(6)

GP_G(5)
GSPI_SO
GP_G(4)
GP_G(3)
GSPI_BUSY
GP_G(2)
GSPI_HBUSY
GP_G(1)

GP_B(0:9) GP_G(0)

GP_B(9)
GP_B(8)

GP_B(7)

GP_B(6)
GP_B(5)

GP_B(4)

GP_B(3)
GP_B(2)

GP_B(1)
GP_B(0)
GSPI_CS TP2215

1
GSPI_SI TP2216
S_3.3V SW2101

1
KPS-1105PYN GSPI_CLK TP2217

1
1 3
GSPI_SO TP2218

1
GSPI_CS GSPI_HBUSY TP2219

1
2 4 R2109 0ohm
GSPI_SI
R2161 1/10W
GSPI_CLK
1/10W
4.7Kohm

10ohm KSA1182 R2144 0ohm

RST_GF B R2145 0ohm
R2110 C Q2101

SUB_GND(0)

Samsung Electronics 10-19

Schematic Diagram

10-2-18 GENNOM-2
This Document can not be used without Samsung’s authorization.
R2205 22ohm
D2.5V_GF D2.5V_GFDDR1 D2.5V_GF D2.5V_GFDDR2
SD2_CLKn R2206 22ohm BD2201 BD2202
SD2_CLK MPZ2012S300A MPZ2012S300A
SD2_CKE
E25
C29
/SD2_CLK
R2202 SD2_ADDR(0:12) B B
SD2_CKE SD2_CLK SD2_A0
SD2_ADDR(0)
8 7 7 8
SD1_DATA(0:31)
D29 C28
SD2_CSn 6 5 R2201 B27
/SD2_CS SD2_A1
D28 5 6
SD2_ADDR(1)

SD2_RASn 4 3 B26
/SD2_RAS SD2_A2
D26 3 4
SD2_ADDR(2)

SD2_CASn /SD2_CAS SD2_A3 SD2_ADDR(3)

IC2201 IC2202
2 1 R2203 A27 D27 R22041 2
SD2_ADDR(12) 8 7 A26
/SD2_WE SD2_A4
F29 7 8
SD2_ADDR(4)
K4H561638D-TCB3 K4H561638D-TCB3
SD2_WEn SD2_BA(1) 6 5
SD2_A5
F28 5 6
SD2_ADDR(5)
1 66 1 66
SD2_ADDR(6)
SD2_BA1 SD2_A6 VDD VSS VDD VSS
4 3 C26 F27 3 4 2 65 2 65
SD2_BA(0:1) SD2_BA(0)
2 1 B28
SD2_BA0 SD2_A7
F26 R22071 2
SD2_ADDR(7) SD1_DATA(16)
3
DQ0 DQ15
64
SD1_DATA(31) SD1_DATA(0)
3
DQ0 DQ15
64
SD1_DATA(15)
SD2_ADDR(8)
SD2_A8 VDDQ VSSQ VDDQ VSSQ
SD2_DATA(79) R2208 E29 7 8 SD2_ADDR(9) SD1_DATA(17) 4 63 SD1_DATA(30) SD1_DATA(1) 4 63 SD1_DATA(14)
SD2_D79 SD2_A9 DQ1 DQ14 DQ1 DQ14
SD2_DATA(78) 7 8 A6 E28 5 6 SD2_ADDR(10) SD1_DATA(18) 5 62 SD1_DATA(29) SD1_DATA(2) 5 62 SD1_DATA(13)
SD2_D78 SD2_A10 DQ2 DQ13 DQ2 DQ13
SD2_DATA(77) 5 6 B6 C27 3 4 SD2_ADDR(11) 6 61 6 61
SD2_D77 SD2_A11 VSSQ VDDQ VSSQ VDDQ
SD2_DATA(76) 3 4 C6 E27 1 2 SD1_DATA(19) 7 60 SD1_DATA(28) SD1_DATA(3) 7 60 SD1_DATA(12)
SD2_D76 SD2_A12 DQ3 DQ12 DQ3 DQ12
SD2_DATA(75) R2210 1 2 E6 E26
SD1_DATA(20) 8 59 SD1_DATA(27) SD1_DATA(4) 8 59 SD1_DATA(11)
SD2_D75 DQ4 DQ11 DQ4 DQ11
7 8 A7 R2211 22ohm 9 58 9 58
SD2_DATA(74) SD2_D74 SD2_DQS0 SD2_DQS0 VDDQ VSSQ VDDQ VSSQ
5 6 B7 E24 R2212 22ohm 10 57 10 57
SD2_DATA(73)
3 4 C7
SD2_D73 SD2_DQS1
E23 R2213 22ohm
SD2_DQS1 SD1_DATA(21)
11
DQ5 D Q10
56
SD1_DATA(26) SD1_DATA(5)
11
D Q5 DQ10
56
SD1_DATA(10)
SD2_DATA(72)
R2214 1 2 D7
SD2_D72 SD2_DQS2
E20 R2215 22ohm
SD2_DQS2 SD1_DATA(22)
12
D Q6 DQ9
55
SD1_DATA(25) SD1_DATA(6)
12
DQ6 DQ9
55
SD1_DATA(9)

SD2_DATA(71) SD2_D71 SD2_DQS3 SD2_DQS3 VSSQ VDDQ VSSQ VDDQ

7 8 A8 E19 R2216 22ohm 13 54 13 54
SD2_DATA(70)
5 6
SD2_D70 SD2_DQS4
R2217 22ohm
SD2_DQS4 SD1_DATA(23)
14
D Q7 D Q8
53
SD1_DATA(24) SD1_DATA(7)
14
DQ7 DQ8
53
SD1_DATA(8)
SD2_DATA(69)
B8
SD2_D69 SD2_DQS5
E16
SD2_DQS5 NC NC VREF_GFDDR NC NC VREF_GFDDR
3 4 C8 E15 R2218 22ohm 15 52 15 52
SD2_DATA(68)
R2219 1 2 D8
SD2_D68 SD2_DQS6
E12 R2220 22ohm
SD2_DQS6 16
VDDQ VSSQ
51 16
VDDQ VSSQ
51
SD2_DATA(67)
7 8 A9
SD2_D67 SD2_DQS7
E11 R2221 22ohm
SD2_DQS7 SD1_DQS2 17
LDQS UDQS
50 SD1_DQS3 SD1_DQS0 17
LDQS UDQS
50 SD1_DQS1
SD2_DATA(66) SD2_D66 SD2_DQS8 SD2_DQS8 NC NC NC NC
5 6 B9 E8 R2222 22ohm 18 49 18 49
SD2_DATA(65)
3 4 C9
SD2_D65 SD2_DQS9
E7
SD2_DQS9 19
VDD VREF
48 19
VDD VREF
48
SD2_DATA(64)
SD2_D64 NC VSS C2201 NC VSS C2202
R2223 1 2 D9 R2274 22ohm 20 47 100nF 20 47 100nF
SD2_DATA(63) SD2_D63 SD1_DQM0
SD1_DM0 SD1_DM2 LDM UDM SD1_DM3 SD1_DM0 LDM UDM SD1_DM1
7 8 A10 AG21 R2275 22ohm 21 46 21 46
SD2_DATA(62)
5 6 B10
SD2_D62 SD1_DQM1
AF21 R2276 22ohm SD1_DM1 SD1_WEn 22
/WE /CK
45 SD1_CLKn SD1_WEn 22
/WE /CK
45 SD1_CLKn
SD2_DATA(61)
3 4 C10
SD2_D61 SD1_DQM2
AE25 R2277 22ohm SD1_DM2 SD1_CASn 23
/CAS CK
44 SD1_CLK SD1_CASn 23
/CAS CK
44 SD1_CLK
SD2_DATA(60)
R2225
SD2_D60 SD1_DQM3
SD1_DM3 SD1_RASn /RAS CKE SD1_CKE SD1_RASn /RAS CKE SD1_CKE
1 2 D10 AD26 24 43 24 43
SD2_DATA(59)
7 8 A11
SD2_D59
R2278 22ohm
SD1_CSn 25
/CS NC
42
SD1_CSn 25
/CS NC
42
SD2_DATA(58) SD1_ADDR(12) SD1_ADDR(12)
5 6 B11
SD2_D58 SD1_DQS0
AE26 R2279 22ohm SD1_DQS0 26
NC A12
41 26
NC A12
41
SD2_DATA(57)
3 4 C11
SD2_D57 SD1_DQS1
AD27 R2280 22ohm SD1_DQS1 SD1_BA(0:1) SD1_BA(0)
27
BA0 A11
40
SD1_ADDR(11)
SD1_BA(0:1) SD1_BA(0)
27
BA0 A11
40
SD1_ADDR(11)
SD2_DATA(56) SD1_BA(1) SD1_ADDR(9) SD1_BA(1) SD1_ADDR(9)

SD2_DATA(55) R2227 1 2 D11

SD2_D56 SD1_DQS2
AE27 R2281 22ohm SD1_DQS2 SD1_ADDR(10) 28
BA1 A9
39 SD1_ADDR(8) SD1_ADDR(10) 28
BA1 A9
39 SD1_ADDR(8)
7 8 A12
SD2_D55 SD1_DQS3
AD28
SD1_DQS3 29
A10,AP A8
38 29
A10,AP A8
38
SD2_DATA(54) SD1_ADDR(0) SD1_ADDR(7) SD1_ADDR(0) SD1_ADDR(7)
SD2_D54 R2228 A0 A7 A0 A7
SD2_DATA(53)

SD2_DATA(52)
5
3
6
4
B12

C12
SD2_D53 SD1_BA0
AJ20 7 8
SD1_BA(0)

SD1_BA(1)
SD1_BA(0:1) SD1_ADDR(1)

SD1_ADDR(2)
30
31
A1 A6
37
36
SD1_ADDR(6)

SD1_ADDR(5)
SD1_ADDR(1)

SD1_ADDR(2)
30
31
A1 A6
37
36
SD1_ADDR(6)

SD1_ADDR(5)
SD2_D52 SD1_BA1 A2 A5 A2 A5
R2230 1 2 5 6 32 35 32 35
SD2_DATA(51)
D12
SD2_D51
AF19
SD1_ADDR(12) SD1_ADDR(3)
A3 A4 SD1_ADDR(4) SD1_ADDR(3)
A3 A4 SD1_ADDR(4) VTT
7 8 A13 3 4 33 34 33 34
SD2_DATA(50)
SD2_D50 /SD1_WE SD1_WEn VDD VSS VDD VSS
SD2_DATA(49) 5 6 B13 AH21 R2231 1 2
SD2_D49 /SD1_CAS
SD1_CASn
3 4 7 8
SD1_ADDR(0:12)
C13 AJ21
SD2_DATA(48)
SD2_DATA(47) R2232 1 2 D13
SD2_D48 /SD1_RAS
AG20 5 6 SD1_RASn C2203
SD2_DATA(46) 7 8 A14
SD2_D47 /SD1_CS
AH20 3 4 SD1_CSn SD1_ADDR(10) 1 2
100nF

SD2_DATA(45) 5 6 B14
SD2_D46 SD1_CLK
AJ18 1 2 R2233 22ohm SD1_CKE SD1_ADDR(8) 3 4 R2242
SD2_DATA(44) 3 4 C14
SD2_D45 /SD1_CLK
AH18 R2234 22ohm SD1_CLK SD1_ADDR(9) 5 6 56ohm
R2236 1 2 D14
SD2_D44 SD1_CKE
AF20
SD1_CLKn 7 8 1/16W C2205
SD2_DATA(43) SD1_ADDR(11)
SD2_D43 100nF
SD2_DATA(42)

SD2_DATA(41)
7
5
8
6
A15

B15
SD2_D42 SD1_A0
AH19
R2237
7 8
SD1_ADDR(0)

SD1_ADDR(1)
SD1_ADDR(0:12) VTT SD1_ADDR(4)

SD1_ADDR(5)
1
3
2
4 R2245
SD2_D41 SD1_A1
SD2_DATA(40) 3 4 C15 AJ19 5 6 SD1_ADDR(2) SD1_ADDR(6) 5 6 56ohm
SD2_D40 SD1_A2
SD2_DATA(39) R2238 1 2 D15 AF18 3 4 SD1_ADDR(3) SD1_ADDR(7) 7 8 1/16W C2207
SD2_D39 SD1_A3 100nF
SD2_DATA(38) 7 8 A16 AG18 R2239 1 2 SD1_ADDR(4) SD1_ADDR(0) 1 2
SD2_D38 SD1_A4
5 6 B16 AJ16 7 8 IC2203 3 4 R2248
SD2_DATA(37) SD1_ADDR(5) SD1_ADDR(1)
SD2_D37 SD1_A5
3 4 5 6 LP2995M 5 6 56ohm
SD2_DATA(36)
C16
SD2_D36 SD1_A6
AH16
SD1_ADDR(6) VREF_GFDDR SD1_ADDR(2)

SD2_DATA(35) R2240 1 2 D16 AG16 3 4 SD1_ADDR(7)

1 NC 8
SD1_ADDR(3) 7 8 1/16W
SD2_D35 SD1_A7 R2267 VTT C2209
7 8 A17 AF16 R2241 1 2 2 7
C2204 1 2
SD2_DATA(34)
5 6 B17
SD2_D34 SD1_A8
AJ17 7 8
SD1_ADDR(8)
10ohm
3
GN D
PVIN 6 220uF
C2206 SD1_WEn 3 4 R2251
100nF
SD2_DATA(33) SD2_D33 SD1_A9 SD1_ADDR(9)
1/10W VSENSE 100nF SD1_ADDR(12)
3 4 5 6
AVIN 16V 5 6 56ohm
SD2_DATA(32)
C17
SD2_D32 SD1_A10
AH17
SD1_ADDR(10)
4 VREF
VDDQ
5
VTT
R2243 1 2 D17 AG19 3 4 SD1_BA(1) 7 8 1/16W
SD2_DATA(31)
SD2_D31 SD1_A11
SD1_ADDR(11)
SD1_BA(0:1)
7 8 1 2
SD2_DATA(30)
A18
SD2_D30 SD1_A12
AG17
D2.5V_GF SD1_BA(0)
C2210
SD2_DATA(29) 5 6 B18 AF17
SD2_D29 100nF
SD2_DATA(28)
R2247
3
1
4
2
C18

D18
SD2_D28 SD1_D0
AF22
R2246
22ohm 7 8
SD1_DATA(0)
SD1_DATA(0:31) SD1_CASn 1
3
2
4 R2253
SD2_DATA(27)
7 8 A19
SD2_D27 SD1_D1
AG22 1/16W 5 6
SD1_DATA(1)
C2250 SD1_CKE 5 6 56ohm
SD2_DATA(26)
SD2_D26 SD1_D2
SD1_DATA(2)
C2208 C2222 100nF SD1_RASn
5 6 B19 AH22 3 4 100nF 47uF 1 2 7 8 1/16W C2211
SD2_DATA(25) SD2_D25 SD1_D3
R2249 1
SD1_DATA(3)
16V SD1_DQS0 SD1_CSn 100nF
3 4 C19 AJ22 2 3 4 R2290 R2262 56ohm
SD2_DATA(24)
R2250 1 2 D19
SD2_D24 SD1_D4
AF23 7 8
SD1_DATA(4)
SD1_DQS1 5 6 56ohm
SD1_CLK R2264 56ohm
SD2_DATA(23)
7 8 A20
SD2_D23 SD1_D5
AG23 5 6
SD1_DATA(5)
SD1_DQS2 7 8 1/16W C2251 SD1_CLKn
SD2_DATA(22) SD2_D22 SD1_D6 SD1_DATA(6)
SD1_DQS3 100nF C2240
5 6 3 4 1 2
SD1_DATA(0:31)
B20 AH23
SD2_DATA(21)
3 4 C20
SD2_D21 SD1_D7
AJ23 R2252 1 2
SD1_DATA(7)
SD1_DM0 3 4 R2291
100nF
SD2_DATA(20) SD2_D20 SD1_D8 SD1_DATA(8)
SD1_DM1 SD1_DATA(0)
R2254 1 2 D20 AF24 7 8 5 6 56ohm 7 8 1/16W
SD2_DATA(19)
7 8 A21
SD2_D19 SD1_D9
AG24 5 6
SD1_DATA(9)
SD1_DM2 7 8 1/16W
SD1_DATA(1)
5 6 56ohm C2241
SD2_DATA(18)
5 6 B21
SD2_D18 SD1_D10
AH24 3 4
SD1_DATA(10)
SD1_DM3 SD1_DATA(2)
3 4 R2282 C2242 82uF
SD2_DATA(17) SD1_DATA(11) SD1_DATA(3) 6.3V
SD2_D17 SD1_D11 100nF
SD2_DATA(16) 3 4 C21 AJ24 R2257 1 2 SD1_DATA(12) SD1_DATA(4) 1 2
SD2_D16 SD1_D12
SD2_DATA(15) R2259 1 2 D21 AF25 7 8 SD1_DATA(13) SD1_DATA(5) 7 8 1/16W
SD2_D15 SD1_D13
SD2_DATA(14) 7 8 A22 AG25 5 6 SD1_DATA(14) SD1_DATA(6) 5 6 56ohm
SD2_D14 SD1_D14
5 6 3 4 3 4 R2283 C2243
SD2_DATA(13)
B22
SD2_D13 SD1_D15
AH25
SD1_DATA(15) D2.5V_GFDDR1 SD1_DATA(7)
100nF
SD2_DATA(12) 3 4 C22 AJ25 R2263 1 2 SD1_DATA(16) SD1_DATA(8) 1 2
SD2_D12 SD1_D16
SD2_DATA(11) R2265 1 2 D22 AF26 7 8 SD1_DATA(17) SD1_DATA(9) 7 8 1/16W
SD2_D11 SD1_D17
SD2_DATA(10) 7 8 A23 AG26 5 6 SD1_DATA(18) SD1_DATA(10) 5 6 56ohm
SD2_D10 SD1_D18
SD2_DATA(9) 5 6 B23 AH26 3 4 SD1_DATA(19) SD1_DATA(11) 3 4 R2284 C2244
SD2_D9 SD1_D19 100nF
SD2_DATA(8) 3 4 C23 AJ26 R2268 1 2 SD1_DATA(20) C2213 C2214 C2215 C2216 C2217 C2218 C2219 C2220 C2221 SD1_DATA(12) 1 2
SD2_D8 SD1_D20
SD2_DATA(7) R2269 1 2 D23 AF27 7 8 SD1_DATA(21) 82uF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF SD1_DATA(13) 7 8 1/16W
SD2_D7 SD1_D21
SD2_DATA(6) 7 8 A24 AG27 5 6 SD1_DATA(22) 6.3V SD1_DATA(14) 5 6 56ohm
SD2_D6 SD1_D22
SD2_DATA(5) 5 6 B24 AH27 3 4 SD1_DATA(23) SD1_DATA(15) 3 4 R2285 C2245
SD2_D5 SD1_D23 100nF
SD2_DATA(4) 3 4 C24 AJ27 R2271 1 2 SD1_DATA(24) SD1_DATA(16) 1 2
SD2_D4 SD1_D24
SD2_DATA(3) R2272 1 2 D24 AE28 7 8 SD1_DATA(25) SD1_DATA(17) 7 8 1/16W
SD2_D3 SD1_D25
SD2_DATA(2) 7 8 A25 AF28 5 6 SD1_DATA(26) SD1_DATA(18) 5 6 56ohm C2246
SD2_D2 SD1_D26 82uF
SD2_DATA(1) 5 6 B25 AG28 3 4 SD1_DATA(27) SD1_DATA(19) 3 4 R2286 C2247
SD2_D1 SD1_D27 100nF 6.3V
SD2_DATA(0) 3 4 C25 AH28 R2273 1 2 SD1_DATA(28) VREF_GFDDR D2.5V_GFDDR2 SD1_DATA(20) 1 2
SD2_D0 SD1_D28
1 2 D25 AD29 7 8 SD1_DATA(29) SD1_DATA(21) 7 8 1/16W
SD1_D29
AE29 5 6 SD1_DATA(30) SD1_DATA(22) 5 6 56ohm
SD2_VREF SD1_D30
F7 AF29 3 4 SD1_DATA(31) SD1_DATA(23) 3 4 R2287 C2248
SD2_VREF SD1_D31 100nF
F11 AG29 1 2 SD1_DATA(24) 1 2
SD2_VREF
F15 C2231 7 8 1/16W
SD2_VREF SD1_VREF C2224 C2225 C2226 C2227 C2228 C2229 C2230 C2232 C2233 C2234 C2235 C2236 C2237 C2238 C2239 SD1_DATA(25)
F19 AE21 100nF 100nF 100nF 100nF 100nF 100nF 100nF 82uF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF SD1_DATA(26) 5 6 56ohm
SD2_VREF SD1_VREF
G27 AD19 6.3V SD1_DATA(27) 3 4 R2288 C2249
100nF
GF9350-165CBE2 SD1_DATA(28) 1 2
IC2100-2 SD1_DATA(29) 7 8 1/16W
SD1_DATA(30) 5 6 56ohm
3 4 R2289
SD2_DATA(0:79) SD1_DATA(31)
1 2

10-20 Samsung Electronics

 Schematic Diagram

10-2-19 GENNOM_MEM2
This Document can not be used without Samsung’s authorization.
D2.5V_GFDDR3 D2.5V_GFDDR4 D2.5V_GFDDR5 D2.5V_GFDDR6 D2.5V_GFDDR7
C2310 C2311 C2312 C2313 C2314 C2315 C2316 C2317 C2319 C2320 C2321 C2322 C2323 C2324 C2325 C2326 C2328 C2329 C2330 C2331 C2332 C2333 C2334 C2335 C2340 C2341 C2342 C2343 C2344 C2345 C2346 C2349 C2350 C2351 C2352 C2353 C2354 C2355
100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF

C2318 C2339
C2309 C2327 C2348
82uF 82uF C2347 C2356
82uF 82uF 100nF 82uF 100nF
6.3V 6.3V
6.3V 6.3V 6.3V

D2.5V_GF

D2.5V_GFDDR3 D2.5V_GFDDR4 D2.5V_GFDDR5 D2.5V_GFDDR6 D2.5V_GFDDR7

B

B
BD2301 BD2302 BD2303 BD2304 BD2305
MPZ2012S300A MPZ2012S300A MPZ2012S300A MPZ2012S300A MPZ2012S300A

SD2_DATA(0:79)

IC2301 IC2302 IC2303 IC2304 IC2305

K4H561638D-TCB3 K4H561638D-TCB3 K4H561638D-TCB3 K4H561638D-TCB3 K4H561638D-TCB3
1 66 1 66 1 66 1 66 1 66
VDD VSS VDD VSS VDD VSS VDD VSS VDD VSS
SD2_DATA(64) 2 65 SD2_DATA(79) SD2_DATA(48) 2 65 SD2_DATA(63) SD2_DATA(32) 2 65 SD2_DATA(47) SD2_DATA(16) 2 65 SD2_DATA(31) SD2_DATA(0) 2 65 SD2_DATA(15)
DQ0 DQ15 DQ0 DQ15 DQ0 DQ15 DQ0 DQ15 D Q0 DQ15
3 64 3 64 3 64 3 64 3 64
VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ
SD2_DATA(65) 4 63 SD2_DATA(78) SD2_DATA(49) 4 63 SD2_DATA(62) SD2_DATA(33) 4 63 SD2_DATA(46) SD2_DATA(17) 4 63 SD2_DATA(30) SD2_DATA(1) 4 63 SD2_DATA(14)
DQ1 DQ14 DQ1 DQ14 DQ1 DQ14 DQ1 DQ14 DQ1 DQ14
SD2_DATA(66) 5 62 SD2_DATA(77) SD2_DATA(50) 5 62 SD2_DATA(61) SD2_DATA(34) 5 62 SD2_DATA(45) SD2_DATA(18) 5 62 SD2_DATA(29) SD2_DATA(2) 5 62 SD2_DATA(13)
DQ2 DQ13 DQ2 DQ13 DQ2 DQ13 DQ2 DQ13 DQ2 DQ13
6 61 6 61 6 61 6 61 6 61
VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ
SD2_DATA(67) 7 60 SD2_DATA(76) SD2_DATA(51) 7 60 SD2_DATA(60) SD2_DATA(35) 7 60 SD2_DATA(44) SD2_DATA(19) 7 60 SD2_DATA(28) SD2_DATA(3) 7 60 SD2_DATA(12)
DQ3 DQ12 DQ3 DQ12 DQ3 D Q12 DQ3 DQ12 DQ3 DQ12
SD2_DATA(68) 8 59 SD2_DATA(75) SD2_DATA(52) 8 59 SD2_DATA(59) SD2_DATA(36) 8 59 SD2_DATA(43) SD2_DATA(20) 8 59 SD2_DATA(27) SD2_DATA(4) 8 59 SD2_DATA(11)
DQ4 D Q11 DQ4 DQ11 D Q4 DQ11 DQ4 DQ11 D Q4 DQ11
9 58 9 58 9 58 9 58 9 58
VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ
SD2_DATA(69) 10 57 SD2_DATA(74) SD2_DATA(53) 10 57 SD2_DATA(58) SD2_DATA(37) 10 57 SD2_DATA(42) SD2_DATA(21) 10 57 SD2_DATA(26) SD2_DATA(5) 10 57 SD2_DATA(10)
DQ5 D Q10 DQ5 DQ10 DQ5 DQ10 DQ5 DQ10 DQ5 DQ10
SD2_DATA(70) 11 56 SD2_DATA(73) SD2_DATA(54) 1 1 56 SD2_DATA(57) SD2_DATA(38) 1 1 56 SD2_DATA(41) SD2_DATA(22) 11 56 SD2_DATA(25) SD2_DATA(6) 1 1 56 SD2_DATA(9)
DQ6 DQ9 DQ6 DQ9 DQ6 DQ9 DQ6 DQ9 DQ6 D Q9
12 55 12 55 12 55 12 55 12 55
VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ
SD2_DATA(71) 13 54 SD2_DATA(72) SD2_DATA(55) 1 3 54 SD2_DATA(56) SD2_DATA(39) 1 3 54 SD2_DATA(40) SD2_DATA(23) 13 54 SD2_DATA(24) SD2_DATA(7) 1 3 54 SD2_DATA(8)
DQ7 DQ8 DQ7 DQ8 DQ7 DQ8 DQ7 DQ8 DQ7 D Q8
14 53 14 53 14 53 14 53 14 53
NC NC VREF_GFDDR NC NC VREF_GFDDR NC NC VREF_GFDDR NC NC VREF_GFDDR NC NC VREF_GFDDR
15 52 15 52 15 52 15 52 15 52
VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ VDDQ VSSQ
16 51 16 51 16 51 16 51 16 51
SD2_DQS8 LDQS UDQS SD2_DQS9 SD2_DQS6 LDQS UDQS SD2_DQS7 SD2_DQS4 LDQS UDQS SD2_DQS5 SD2_DQS2 LDQS UDQS SD2_DQS3 SD2_DQS0 LDQS UDQS SD2_DQS1
17 50 17 50 17 50 17 50 17 50
NC NC NC NC NC NC NC NC NC NC
18 49 18 49 18 49 18 49 18 49
VDD VREF VDD VREF VDD VREF VDD VREF VDD VREF
19 48 19 48 19 48 C2303 19 48 19 48
NC VSS C2301 NC VSS C2302 NC VSS NC VSS R2308 C2304 NC VSS R2310 C2305
R2301 0ohm 20 47 R2302 0ohm 100nF R2303 0ohm 20 47R2304 0ohm 100nF R2305 0ohm 20 R2306
47 0ohm 100nF R2307 0ohm 20 47 0ohm 100nF R2309 0ohm 20 47 0ohm 100nF
LDM UDM LDM UDM LDM UDM LDM UDM LDM UDM
1/10W 21 46 1/10W 1/10W21 46 1/10W 1/10W21 46 1/10W 1/10W21 46 1/10W21 46
SD2_WEn 22
/WE /CK
45 SD2_CLKn S D2 _W E n 22
/WE /CK
45 SD2_CLKn S D 2 _ W E n 22
/WE /CK
45 SD2_CLKn SD2_WEn 22
/WE /CK
45 SD2_CLKn SD2_WEn 22
/WE /CK
45 SD2_CLKn
SD2_CASn /CAS CK SD2_CLK SD2_CASn /CAS CK SD2_CLK SD2_CASn /CAS CK SD2_CLK SD2_CASn /CAS CK SD2_CLK SD2_CASn /CAS CK SD2_CLK
23 44 23 44 23 44 23 44 23 44
SD2_RASn 24
/RAS CKE
43 SD2_CKE SD2_RASn 24
/RAS CKE
43 SD2_CKE SD2_RASn 24
/RAS CKE
43 SD2_CKE S D 2 _ R A S n 24
/RAS CKE
43 SD2_CKE S D2 _ R A S n 24
/RAS CKE
43 SD2_CKE
SD2_CSn /CS NC SD2_CSn /CS NC SD2_CSn /CS NC SD2_CSn /CS NC SD2_CSn /CS NC
25 42 SD2_ADDR(12) 25 42 SD2_ADDR(12) 25 42 SD2_ADDR(12) 25 42 SD2_ADDR(12) 25 42 SD2_ADDR(12)
NC A12 NC A12 NC A12 NC A12 NC A12
26 41 26 41 SD2_ADDR(11) 26 41 SD2_ADDR(11) 26 41 26 41
SD2_BA(0:1) SD2_BA(0)
27
BA0 A11
40
SD2_ADDR(11)
SD2_BA(0:1) SD2_BA(0)
27
BA0 A11
40
SD2_BA(0:1) SD2_BA(0)
27
BA0 A11
40
SD2_BA(0:1) SD2_BA(0)
27
BA0 A11
40
SD2_ADDR(11) SD2_BA(0)
27
BA0 A 11
40
SD2_ADDR(11)

SD2_BA(1) SD2_ADDR(9) SD2_BA(1) SD2_ADDR(9) SD2_BA(1) SD2_ADDR(9) SD2_BA(1) SD2_ADDR(9) SD2_BA(1) SD2_ADDR(9)
BA1 A9 BA1 A9 BA1 A9 BA1 A9 BA1 A9
SD2_ADDR(10) 28 39 SD2_ADDR(8) SD2_ADDR(10) 28 39 SD2_ADDR(8) SD2_ADDR(10) 28 39 SD2_ADDR(8) SD2_ADDR(10) 28 39 SD2_ADDR(8)
SD2_BA(0:1) SD2_ADDR(10) 28 39 SD2_ADDR(8)
A10,AP A8 A10,AP A8 A10,AP A8 A10,AP A8 A10,AP A8
SD2_ADDR(0) 29 38 SD2_ADDR(7) SD2_ADDR(0) 29 38 SD2_ADDR(7) SD2_ADDR(0) 29 38 SD2_ADDR(7) SD2_ADDR(0) 29 38 SD2_ADDR(7) SD2_ADDR(0) 29 38 SD2_ADDR(7)
A0 A7 A0 A7 A0 A7 A0 A7 A0 A7
SD2_ADDR(1) 30 37 SD2_ADDR(6) SD2_ADDR(1) 3 0 37 SD2_ADDR(6) SD2_ADDR(1) 30 37 SD2_ADDR(6) SD2_ADDR(1) 30 37 SD2_ADDR(6) SD2_ADDR(1) 30 37 SD2_ADDR(6)
A1 A6 A1 A6 A1 A6 A1 A6 A1 A6
SD2_ADDR(2) 31 36 SD2_ADDR(5) SD2_ADDR(2) 31 36 SD2_ADDR(5) SD2_ADDR(2) 31 36 SD2_ADDR(5) SD2_ADDR(2) 31 36 SD2_ADDR(5) SD2_ADDR(2) 31 36 SD2_ADDR(5)
A2 A5 A2 A5 A2 A5 A2 A5 A2 A5
SD2_ADDR(0:12) SD2_ADDR(3) 32
A3 A4
35 SD2_ADDR(4) SD2_ADDR(3) 3 2
A3 A4
35 SD2_ADDR(4) SD2_ADDR(3) 32
A3 A4
35 SD2_ADDR(4) SD2_ADDR(3) 32
A3 A4
35 SD2_ADDR(4) SD2_ADDR(3) 32
A3 A4
35 SD2_ADDR(4)
33 34 33 34 33 34 33 34 33 34
VDD VSS VDD VSS VDD VSS VDD VSS VDD VSS

VTT
VTT
VTT VTT VTT C2358 C2306
SD2_DATA(0:79) 100nF
1 2
100nF
SD2_DATA(16) SD2_ADDR(0)

SD2_DATA(17) 7 8 1/16W SD2_ADDR(1) 3 4 R2311

C2359 C2360 C2361 5 6 56ohm 5 6 56ohm
SD2_DATA(0:79) 100nF SD2_DATA(0:79) 100nF SD2_DATA(0:79) 100nF SD2_DATA(18)
3 4 R2324 C2362
SD2_ADDR(2)
7 8 1/16W C2307
SD2_DATA(64) SD2_DATA(48) SD2_DATA(32) SD2_DATA(19) SD2_ADDR(3)
100nF 100nF
SD2_DATA(65) 7 8 1/16W SD2_DATA(49) 7 8 1/16W SD2_DATA(33) 7 8 1/16W SD2_DATA(20) 1 2 SD2_ADDR(4) 1 2
SD2_DATA(66) 5 6 56ohm SD2_DATA(50) 5 6 56ohm SD2_DATA(34) 5 6 56ohm SD2_DATA(21) 7 8 1/16W SD2_ADDR(5) 3 4 R2312
SD2_DATA(67) 3 4 R2325 C2363 SD2_DATA(51) 3 4 R2326 C2364 SD2_DATA(35) 3 4 R2327 C2365 SD2_DATA(22) 5 6 56ohm SD2_ADDR(6) 5 6 56ohm
100nF 100nF 100nF
SD2_DATA(68) 1 2 SD2_DATA(52) 1 2 SD2_DATA(36) 1 2 SD2_DATA(23) 3 4 R2328 C2366 SD2_ADDR(7) 7 8 1/16W C2308
100nF 100nF
SD2_DATA(69) 7 8 1/16W SD2_DATA(53) 7 8 1/16W SD2_DATA(37) 7 8 1/16W SD2_DATA(24) 1 2 SD2_ADDR(10) 1 2
SD2_DATA(70) 5 6 56ohm SD2_DATA(54) 5 6 56ohm SD2_DATA(38) 5 6 56ohm SD2_DATA(25) 7 8 1/16W SD2_ADDR(8) 3 4 R2313
3 4 R2329 C2367 3 4 R2330 C2368 3 4 R2331 C2369 5 6 56ohm 5 6 56ohm
SD2_DATA(71) SD2_DATA(55) SD2_DATA(39) SD2_DATA(26)
100nF 100nF 100nF C2370
SD2_DATA(72) 1 2 SD2_DATA(56) 1 2 SD2_DATA(40) 1 2 SD2_DATA(27) 3 4 R2332 SD2_ADDR(11) 7 8 1/16W
100nF
SD2_DATA(73) 7 8 1/16W SD2_DATA(57) 7 8 1/16W SD2_DATA(41) 7 8 1/16W SD2_DATA(28) 1 2 SD2_ADDR(12) 1 2
5 6 56ohm 5 6 56ohm 5 6 56ohm 7 8 1/16W 3 4 R2314
SD2_DATA(74)
3 4 R2333 C2372
SD2_DATA(58)
3 4 R2334 C2373
SD2_DATA(42)
3 4 R2335 C2374
SD2_DATA(29)
5 6 56ohm
C2371 SD2_CSn 5 6 56ohm C2336
SD2_DATA(75) SD2_DATA(59) SD2_DATA(43) SD2_DATA(30) 82uF
SD2_DATA(76) 1 2
100nF
SD2_DATA(60) 1 2
100nF
SD2_DATA(44) 1 2
100nF
SD2_DATA(31) 3 4 R2336 6.3V
SD2_BA(0:1) SD2_BA(0)
7 8 1/16W
100nF

SD2_DATA(77) 7 8 1/16W SD2_DATA(61) 7 8 1/16W SD2_DATA(45) 7 8 1/16W 1 2

5 6 56ohm 5 6 56ohm 5 6 56ohm
SD2_DATA(78) SD2_DATA(62) SD2_DATA(46) VTT C2337
SD2_DATA(79) 3 4 R2337 SD2_DATA(63) 3 4 R2338 SD2_DATA(47) 3 4 R2339
100nF
1 2 C2375 1 2 C2376 1 2 1 2
82uF 82uF
C2377 C2378 SD2_CKE 3 4 R2315
6.3V 6.3V
82uF SD2_DATA(0:79) 100nF SD2_WEn C2338
6.3V 5 6 56ohm
1 2
SD2_DATA(0)
7 8 1/16W
SD2_CASn 7 8 1/16W
100nF
SD2_DQS0 C2383
SD2_DATA(1)
SD2_RASn
3 4 R2344 5 6 56ohm R2322 56ohm
SD2_DQS1 5 6 56ohm
100nF SD2_DATA(2)
3 4 R2340 C2379 SD2_CLK R2323 56ohm
SD2_DQS2 7 8 1/16W
SD2_DATA(3)
1 2
100nF SD2_CLKn
SD2_DQS3 SD2_DATA(4)
1 2 7 8 1/16W
SD2_DQS4 3 4 R2345 C2384
SD2_DATA(5)
5 6 56ohm
SD2_DQS5 100nF SD2_DATA(6) C2357
5 6 56ohm 3 4 R2341 C2380 100uF
SD2_DQS6 SD2_DATA(7)
100nF 16V
7 8 1/16W 1 2
SD2_DQS7 R2346 56ohm
SD2_DATA(8)
7 8 1/16W
SD2_DQS8 SD2_DATA(9)
R2347 56ohm 5 6 56ohm
SD2_DQS9 SD2_DATA(10)
3 4 R2342 C2381
SD2_DATA(11)
100nF
SD2_DATA(12) 1 2
SD2_DATA(13) 7 8 1/16W
5 6 56ohm
C2382
SD2_DATA(14) 82uF
SD2_DATA(15) 3 4 R2343 6.3V
1 2

Samsung Electronics 10-21

Schematic Diagram

10-2-20 GENNOM-3
This Document can not be used without Samsung’s authorization.

Power S_3.3V

Signal D3.3V D3.3V_OSD D3.3V_GF

R3354
OPTION
0ohm

BD2401 B C2404 OPTION

10Kohm

10Kohm

10Kohm

10Kohm

10Kohm

10Kohm

10Kohm

10Kohm
100nF R2405

1/10W

1/10W

1/10W

1/10W

1/10W

1/10W

1/10W

1/10W
MPZ2012S300A
16V R2498 4.7Kohm R2497
C2403 R2499 4.7Kohm
22uF 4.7Kohm 1/10W
4.7Kohm
16V 1/10W R2500 1/10W
1/10W 4.7Kohm
1/10W

R2422

R2423

R2424

R2425

R2426

R2427

R2428

R2429
GF_AD_A(0:7)
GF_AD_B(0:7) IC2402
GF_AD_A(7)

TE28F256J3C-125
GF_AD_A(6)
GF_AD_B(4) 1 56 GF_AD_B(6)
A22,NC /WP,A24
R2454 0ohm 2 55 R2455 0ohm
GN_WRN
uP_CSn(1) 1/10W3
CE1 /WE
54 R2456 0ohm
GF_AD_A(5)

GF_AD_B(3)
A21,NC / OE uP_RDn
D3.3V_OSD GF_AD_B(2)

GF_AD_B(1)
4
5
A20 STS
53
52 R2435
1/10W
0ohm uP_D(15)
GF_AD_A(4)

A19 DQ15
GF_AD_B(0) 6 51 R2472 0ohm uP_D(7) GF_AD_A(3)
A18 DQ7
uP_ADDR(17) 7 50 R2437 0ohm uP_D(14)
A17 D Q14
uP_ADDR(16) 8 49 R2474 0ohm uP_D(6) GF_AD_A(2)
A16 DQ6
C2412 1009nF 48
16V VCC GND
1 uP_ADDR(15) 10 47 R2439 0ohm uP_D(13) GF_AD_A(1)
TP2401 A15 DQ13
uP_ADDR(14) 11 46 R2476 0ohm uP_D(5)
TP2402 A14 DQ5
1
uP_ADDR(13) 12 45 R2441 0ohm uP_D(12) GF_AD_A(0)
A13 DQ12
uP_ADDR(12) 13 44 R2478 0ohm uP_D(4) TP2409
A12 DQ4
R2457 0ohm 14 43 C2414 100nF 1 1
DVPEN uP_CSn(0) 1/10W15
CE0 VCC,VCCQ
42 16V TP2410
VPEN,VPP GN D R2496 R2488 R2417
RST_GF
uP_ADDR(11)
R2458 0ohm 16
1/10W17
/RP DQ11
41
40
R2444
R2480
0ohm uP_D(11)
0ohm uP_D(3)
D3.3V_OSD 1Kohm
1 1
1Kohm 1Kohm
R2404 A11 D Q3
4.7Kohm uP_ADDR(10) 18
A 10 DQ10
39 R2446 0ohm uP_D(10) TP2414 TP2413
1/10W uP_ADDR(9) 19 38 R2482 0ohm uP_D(2)
A9 DQ2
uP_ADDR(8) 20 37 C2416 100nF
A8 VCC
21 36 R2448 0ohm uP_D(9)
GND D Q9
R2494 IC2100-3
FOR DEVELOPMENT
uP_ADDR(7) 22 35 R2484 0ohm uP_D(1)
A7 D Q1 4.7Kohm GF9351-165CBE2
uP_ADDR(6) 23 34 R2450 0ohm uP_D(8) R2495
A6 D Q8 4.7Kohm
uP_ADDR(5) 24
25
A5 DQ0
33
32
R2486 0ohm uP_D(0)
OPTION
D3.3V_GF TXD_GF AG 9
AH9
TXD EXTINT_OUT
AD10
R2401
0ohm
GSPI_INT
uP_ADDR(4)
26
A4 A0
31 RXD_GF RXD
AD11/10W
uP_ADDR(3)
A3 /BYTE GF_AD_A(0:7) /WR GN_WRN
27 30 AJ13 AD2
uP_ADDR(2)
A2 A23 GF_AD_B(5) GF_AD_A(7) GPIO_PORTA7 PWM1 TP2406
28 29 AH13

1
uP_ADDR(1) GF_AD_A(6)

10Kohm
10Kohm
10Kohm
10Kohm
10Kohm
10Kohm
10Kohm
10Kohm
A1 NC,CE2 GPIO_PORTA6
R2487 AG13 AG5
uP_ADDR(19:1) 4.7Kohm
GF_AD_A(5) GPIO_PORTA5 /UP_CS0 uP_CSn(0)

GF_AD_A(4) AF13 AF5 uP_CSn(1)

GPIO_PORTA4 /UP_CS1

R2462 D3.3V_OSD GF_AD_A(3)

GF_AD_A(2)
AJ12
AH12
GPIO_PORTA3 /UP_CS2
AE5
AD5
uP_CSn(2)

uP_CSn(3)
uP_CSn(0:3)
uP_D(0:15) 4.7Kohm
GF_AD_A(1) AG12
GPIO_PORTA2 /UP_CS3

1/10W GPIO_PORTA1

R2415
R2416
R2434
R2418
R2419
R2420
R2421
R2453
AF12 AD 4
GF_AD_A(0)
GPIO_PORTA0 /UP_HBWE uP_BHWEn_BHEn
AD3
/UP_LBWE uP_BLWEn_BLEn
R2464 0ohm AJ15 AE6
TP2403

1
GF_AD_B(6) R2465 0ohm AH15
GPIO_PORTB7 /UP_RD
uP_RDn
R2402 GPIO_PORTB6
1/10W GF_AD_B(0:7) GF_AD_B(5) R2466 0ohm AG15
GPIO_PORTB5 UP_D0
AJ6 uP_D(0) uP_D(0:15)
0ohm GF_AD_B(4) R2467 0ohm AF15 AH6 uP_D(1)
GPIO_PORTB4 UP_D1
GF_AD_B(3) R2468 0ohm AJ14
GPIO_PORTB3 UP_D2
AG6 uP_D(2)
S_3.3V
GF_AD_B(2) R2469 0ohm AH14
GPIO_PORTB2 UP_D3
AF6 uP_D(3)
GF_AD_B(1) R2470 0ohm AG14 AJ7 uP_D(4)
GPIO_PORTB1 UP_D4
FLASH_CS D3.3V_GF GF_AD_B(0) R2471 0ohm AF14
GPIO_PORTB0 UP_D5
AH7
AG7
uP_D(5)

uP_D(6)
UP_D6
C2417 C2418 BD2402 AF7 uP_D(7)
UP_D7
100nF 100nF MPZ2012S300A AE7 uP_D(8)
UP_D8
S_5V 16V 16V AJ8
CN2401 CN2402 UP_D9
AH8
uP_D(9)
B C2409 C2410 UP_D10 uP_D(10)
C2408 100nF 100nF AG 8 uP_D(11)
UP_D11
22uF 16V 16V AF8 uP_D(12)
MGND2 MGND2 uP_ADDR(1:17) 16V UP_D12
1 1 AE8
2
uP_CSn(0)
2
uP_BHWEn_BHEn uP_BLWEn_BLEn UP_D13
AF9
uP_D(13)

uP_D(14)
uP_CSn(1) UP_D14
3 3 AE9 uP_D(15)
SUB_GND(0)
4 4 uP_ADDR[19:1] UP_D15
uP_ADDR[19:1]

uP_ADDR(1)
uP_ADDR(2)

uP_ADDR(3)

uP_ADDR(4)
uP_ADDR(5)

uP_ADDR(6)
uP_ADDR(7)

uP_ADDR(8)

uP_ADDR(13)
uP_ADDR(16)

uP_ADDR(17)

uP_ADDR(15)
uP_ADDR(14)

uP_ADDR(12)

uP_ADDR(11)
uP_ADDR(10)

uP_ADDR(9)

uP_ADDR(1)

uP_ADDR(2)

uP_ADDR(3)
uP_ADDR(4)

uP_ADDR(5)
uP_ADDR(6)

uP_ADDR(7)

uP_ADDR(8)

uP_ADDR(13)

uP_ADDR(16)
uP_ADDR(17)

uP_ADDR(15)

uP_ADDR(14)

uP_ADDR(12)
uP_ADDR(11)

uP_ADDR(10)

uP_ADDR(9)
5 5 AJ5 uP_ADDR(1)
UP_A1
6 6 AJ4 uP_ADDR(2)
UP_A2
7 7 AJ3 uP_ADDR(3)
UP_A3
8 8 AH5 uP_ADDR(4)
UP_A4
9 9
GF_PG_CS
AH4 uP_ADDR(5)
UP_A5
10 10 AH3 uP_ADDR(6)

32
31
30

32
31
30
UP_A6

4
3
2
1

4
3
2
1
11 11 AH2 uP_ADDR(7)
UP_A7
12 12 AG4 uP_ADDR(8)

A4
A3
A2
A1
A32
A31
A30

A4
A3
A2
A1
A32
A31
A30
UP_A8
13 13 AG3 uP_ADDR(9)
UP_A9
14 14 5 29 5 29 AG2 uP_ADDR(10)
CPU_nRESET A5 A29 A5 A29 UP_A10
15 15 6 SOCKET 28 6 SOCKET 28 AG1 uP_ADDR(11)
A6 A28 A6 A28 UP_A11
16 16 7 27 7 27 AF4 uP_ADDR(12)
A7 A 27 A7 A27 UP_A12
17 17 8 26 8 26 AF3 uP_ADDR(13)
A8 IC2406 A26 A8 IC2407 A26 UP_A13
18 18 9 PLC02-32SMD 25 9 PLC02-32SMD 25 AF2 uP_ADDR(14)
A9 A25 A9 A25 UP_A14
19 19 10 24 10 24 AF1 uP_ADDR(15)
DVPEN GF_AD_B(0:7) A10 A24 A10 A24 UP_A15
20 20 11 23 11 23 AE4 uP_ADDR(16)
A11 A23 A11 A23 UP_A16
21 21 12 22 12 22 AE3 uP_ADDR(17)
GN_WRN A12 A22 A12 A22 UP_A17
22 22 13 21 13 21 AE2 uP_ADDR(18)
uP_RDn A13 A21 A13 A21 UP_A18
23 23 AE1 uP_ADDR(19)
RST_GF UP_A19
24 24
A14
A15
A16
A17
A18
A19
A20

A14
A15
A16
A17
A18
A19
A20
POWER R2430
25 25 10ohm
FLASH_CS
26
uP_D(0:15)
26 (TO PROGRAM FLASH MEMORY) D3.3V_GF
14
15
16
17
18
19
20

14
15
16
17
18
19
20
27 27
28 28
29 29 R2431 10ohm
30 30 0ohm

B
MGND1 MGND1
BD2403
uP_D(10)

uP_D(11)

uP_D(12)

uP_D(13)
uP_D(14)

uP_D(15)

31 31 1/10W
uP_D(8)

uP_D(9)

uP_D(0)

uP_D(1)

uP_D(2)

uP_D(3)

uP_D(4)
uP_D(5)

uP_D(6)

uP_D(7)
R2403 MPZ2012S300A
GF_PG_CS
20-B1
uP_D[15:0]
R2452
uP_RDn 4.7Kohm R2451
4.7Kohm
1/10W IC2408
1/10W 74AHCT1G08
uP_CSn(0:3) R2432 10ohm1 5
uP_CSn(2)
B VCC
uP_CSn(3) R2433 10ohm2 C2411
A
3 4 100nF
GND Y 16V

10-22 Samsung Electronics

 Schematic Diagram

10-2-21 GENNOM-4
This Document can not be used without Samsung’s authorization.

D1.2V_GFDDS D3.3V_GF
D1.8V_GF
D3.3V_GF D1.2V_GFPLL

D2.5V_GF
MUST SEPARATE GND

D3.3V_GF C2503
82uF
C2504
100nF
C2505
100nF
C2506
100nF
C2507
100nF
C2508
100nF
C2509
100nF
C2510
100nF
C2511
100nF
C2512
100nF
C2513
100nF
C2514
100nF
16V 16V 16V 16V 16V 16V 16V 16V 16V 16V 16V
6.3V

C2515 C2516 C2517 C2518 C2519 C2520 C2521 C2522 C2523 C2524
82uF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF
C2525 6. 3V 16V 16V 16V 16V 16V 16V 16V 16V 16V
C2526 C2527 C2528 C2529 C2530 C2531 C2532 C2533
82uF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF
16V 16V 16V 16V 16V 16V 16V 16V
6.3V
D2.5V_GF

D1.8V_GF
C2534 C2535 C2536 C2537 C2538 C2539 C2540 C2541 C2542 C2543
82uF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF
16V 16V 16V 16V 16V 16V 16V 16V 16V
C2545 C2546 C2547 C2548 C2549 C2550 C2551 C2552 C2553 C2554 6.3V
100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF
16V 16V 16V 16V 16V 16V 16V 16V 16V 16V

C2569,2544:MLCC
D1.8V_GF
D1.2V_GFPLL
C2570 C2571 C2572 C2573 C2574 C2575 C2576 C2577 C2578 C2579
D2.5V_GF IC2501
FAN1112S
100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF BD2505 R2502 R2503
16V 16V 16V 16V 16V 16V 16V 16V 16V 16V MMZ2012R121A 1Kohm 1Kohm
1 OUT 3 1/10W 1/10W R2501 100ohm
IN OUT 1/10W
GND
C2564 C2565 C2566
C2563
100nF 100nF 100nF
2 82uF 16V
16V 16V
6.3V

D2.5V_GF D1.2V_GFDDS 1uF

10V
BD2501 IC2502 R2504 R2505 C2580 MUST SEPARATE GND

MMZ2012R121A FAN1112S 1Kohm 1Kohm

1 OUT 3 1/10W 1/10W
IN OUT C2568 C2501
C2567 C2502
100nF GN D 82uF 100nF 100nF
16V 16V 16V
6.3V
2

Samsung Electronics 10-23

Schematic Diagram

10-2-22 DNLE4
This Document can not be used without Samsung’s authorization.

IC2601-2
DNIE4 TP2604
R2601 0ohm AE23 1
I_BIST_MODE
1/10W R2607 100ohm IC2601-3
SC1_CLK AC17
I_CLK_SC01 B_I2C_SDA
AD26
SDA_S DNIE4
SC2_CLK AF18 AD22 1/10W R2602 47ohm
I_CLK_SC02 I_SDRAM_SC02 SC2_SDRAM C2601 1.8nF 1/10W
DNIE_CLK
SC1_DATA AD21
I_DATA_SC01 I_SDRAM_SC01
AF23
SC1_SDRAM DNIE_B_ODD(0:11)
AB1
O_BANA_DIMING O_PLL_P1080_FILTER
AD18

SC2_DATA AC21 AE26 R2603 0ohm DNIE_B_ODD(2)

J1 AE20 C2602 1.8nF
I_DATA_SC02 I_SCANENABLE O_BDATA_B_OUT00 O_PLL_MMU_FILTER
OPTION
B_ODD(0:11) VP1_CLK E23 AD24 R2604 0ohm DNIE_B_ODD(3)
H3 Y4
I_DEC_CLK I_SCAN_TEST_MODE O_BDATA_B_OUT01 O_OUT_DIVCLK
B_ODD(2)
AC5 AE25 R2605 0ohm DNIE_B_ODD(4)
H2 AB4
TP2638
I_FB_DIN00 I_PLL_ON O_BDATA_B_OUT02 O_OUT_CLK
AD5 AD25 R2608 0ohm H1 AB23

1
B_ODD(3)
AE5
I_FB_DIN01 I_NRESET
AF22 R2606 0ohm
NRSTO DNIE_B_ODD(5)
G4
O_BDATA_B_OUT03 O_NR_OUTCLK
AC24
DNIE_CLK_GE
B_ODD(4) I_FB_DIN02 I_NAND_ENABLE DNIE_B_ODD(6) O_BDATA_B_OUT04 O_FNRPOST_TRSENC_VOUT DNIE_V_GE
B_ODD(5)
AF5
I_FB_DIN03 I_INPUT_CLK
AD23
GF_CLK DNIE_B_ODD(7)
G3
O_BDATA_B_OUT05 O_FNRPOST_TRSENC_HOUT
AB24
DNIE_H_GE DNIE_B_GE(0:9)
AD4 AF26 R2609 100ohm G2 T25
B_ODD(6)
AE4
I_FB_DIN04 I_I2C_SCL
AC25 1/10W
SCL_S DNIE_B_ODD(8)
G1
O_BDATA_B_OUT06 O_FNRPOST_TRSENC_DATAOUT_R09
T24 7 8 R2628
DNIE_B_GE(9)
B_ODD(7) DNIE_B_ODD(9) DNIE_B_GE(8)
I_FB_DIN05 I_I2C_ADDR01 O_BDATA_B_OUT07 O_FNRPOST_TRSENC_DATAOUT_R08
B_ODD(8)
AF4 AC26
DNIE_B_ODD(10)
F3 R26 5 6 47ohm DNIE_B_GE(7)
I_FB_DIN06 I_I2C_ADDR00 O_BDATA_B_OUT08 O_FNRPOST_TRSENC_DATAOUT_R07
B_ODD(9)
AF3 AF25
GF_V DNIE_B_EVEN(0:11)
DNIE_B_ODD(11)
F2 R25 3 4 1/16W DNIE_B_GE(6)
B_ODD(10)
AF2
I_FB_DIN07 I_FVSYNC_IN
AF12
R_EVEN(11)
R_EVEN(0:11) DNIE_B_EVEN(2)
F1
O_BDATA_B_OUT09 O_FNRPOST_TRSENC_DATAOUT_R06
R24 1 2 DNIE_B_GE(5)
I_FB_DIN08 I_FR_DIN19 O_BDATA_B_OUT10 O_FNRPOST_TRSENC_DATAOUT_R05
7 8 R2629
B_EVEN(0:11) B_ODD(11)
AF1
I_FB_DIN09 I_FR_DIN18
AE12
R_EVEN(10) DNIE_B_EVEN(3)
E4
O_BDATA_B_OUT11 O_FNRPOST_TRSENC_DATAOUT_R04
R23
DNIE_B_GE(4)

B_EVEN(2)
AE3 AD12
R_EVEN(9) DNIE_B_EVEN(4)
E3 P26 5 6 47ohm DNIE_B_GE(3)
I_FB_DIN10 I_FR_DIN17 O_BDATA_B_OUT12 O_FNRPOST_TRSENC_DATAOUT_R03
B_EVEN(3)
AE2 AC12
R_EVEN(8) DNIE_B_EVEN(5)
E2 P25 3 4 1/16W DNIE_B_GE(2)
I_FB_DIN11 I_FR_DIN16 O_BDATA_B_OUT13 O_FNRPOST_TRSENC_DATAOUT_R02
B_EVEN(4)
AE1 AF13
R_EVEN(7) DNIE_B_EVEN(6)
E1 P24 1 2 DNIE_B_GE(1)
I_FB_DIN12 I_FR_DIN15 O_BDATA_B_OUT14 O_FNRPOST_TRSENC_DATAOUT_R01
A D3 AE13 D2 N26 7 8 R2630
B_EVEN(5)
AD2
I_FB_DIN13 I_FR_DIN14
AD13
R_EVEN(6) DNIE_B_EVEN(7)
D1
O_BDATA_B_OUT15 O_FNRPOST_TRSENC_DATAOUT_R00
W24 5 6 47ohm
DNIE_B_GE(0)
DNIE_R_GE(0:9)
B_EVEN(6) I_FB_DIN14 I_FR_DIN13 R_EVEN(5) DNIE_B_EVEN(8) O_BDATA_B_OUT16 O_FNRPOST_TRSENC_DATAOUT_G09 DNIE_R_GE(9)

B_EVEN(7)
AD1 AF14
R_EVEN(4) DNIE_B_EVEN(9)
C2 W23 3 4 1/16W DNIE_R_GE(8)
I_FB_DIN15 I_FR_DIN12 O_BDATA_B_OUT17 O_FNRPOST_TRSENC_DATAOUT_G08
AC3 AE14 TP2601 C1 V26 1 2
B_EVEN(8) R_EVEN(3) DNIE_B_EVEN(10) DNIE_R_GE(7)
I_FB_DIN16 I_FR_DIN11 O_BDATA_B_OUT18 O_FNRPOST_TRSENC_DATAOUT_G07
1 7 8 R2631
B_EVEN(9)
AC2
I_FB_DIN17 I_FR_DIN10
AD14
R_EVEN(2)
R_ODD(0:11) DNIE_FDE DNIE_B_EVEN(11)
B1
O_BDATA_B_OUT19 O_FNRPOST_TRSENC_DATAOUT_G06
V25
DNIE_R_GE(6)

B_EVEN(10)
AC1 AF15
R_ODD(11)
AA1 V24 5 6 47ohm DNIE_R_GE(5)
I_FB_DIN18 I_FR_DIN09 O_BDATA_EN_POSTOUT O_FNRPOST_TRSENC_DATAOUT_G05
3 4 1/16W
VP1_G(0:9) B_EVEN(11)
AB3
I_FB_DIN19 I_FR_DIN08
AE15
R_ODD(10)
DNIE_G_ODD(0:11)
DNIE_G_ODD(2)
P3
O_BDATA_G_OUT00 O_FNRPOST_TRSENC_DATAOUT_G04
V23
DNIE_R_GE(4)

VP1_G(0)
G26 AD15
R_ODD(9) DNIE_G_ODD(3)
P2 U26 1 2 DNIE_R_GE(3)
I_FDECODER_BLU_IN00 I_FR_DIN07 O_BDATA_G_OUT01 O_FNRPOST_TRSENC_DATAOUT_G03
VP1_G(1)
F24 AC15
R_ODD(8) DNIE_G_ODD(4)
P1 U25 7 8 R2632 DNIE_R_GE(2)
I_FDECODER_BLU_IN01 I_FR_DIN06 O_BDATA_G_OUT02 O_FNRPOST_TRSENC_DATAOUT_G02
VP1_G(2)
F2 5 AF16
R_ODD(7) DNIE_G_ODD(5)
N4 U24 5 6 47ohm DNIE_R_GE(1)
I_FDECODER_BLU_IN02 I_FR_DIN05 O_BDATA_G_OUT03 O_FNRPOST_TRSENC_DATAOUT_G01
F26 AE16 N3 T26 3 4 1/16W
VP1_G(3)
E24
I_FDECODER_BLU_IN03 I_FR_DIN04
AD16
R_ODD(6) DNIE_G_ODD(6)
N2
O_BDATA_G_OUT04 O_FNRPOST_TRSENC_DATAOUT_G00
AB25 1 2
DNIE_R_GE(0)
DNIE_G_GE(0:9)
VP1_G(4) R_ODD(5) DNIE_G_ODD(7) DNIE_G_GE(9)
I_FDECODER_BLU_IN04 I_FR_DIN03 O_BDATA_G_OUT05 O_FNRPOST_TRSENC_DATAOUT_B09
VP1_G(5)
E25 AF17
R_ODD(4) DNIE_G_ODD(8)
N1 AB26 7 8 R2633 DNIE_G_GE(8)
I_FDECODER_BLU_IN05 I_FR_DIN02 O_BDATA_G_OUT06 O_FNRPOST_TRSENC_DATAOUT_B08
VP1_G(6)
E26 AE17
R_ODD(3) DNIE_G_ODD(9)
M4 AA26 5 6 47ohm DNIE_G_GE(7)
I_FDECODER_BLU_IN06 I_FR_DIN01 O_BDATA_G_OUT07 O_FNRPOST_TRSENC_DATAOUT_B07
VP1_G(7)
D24 AD17
R_ODD(2) DNIE_G_ODD(10)
M3 AA25 3 4 1/16W DNIE_G_GE(6)
I_FDECODER_BLU_IN07 I_FR_DIN00 O_BDATA_G_OUT08 O_FNRPOST_TRSENC_DATAOUT_B06
VP1_G(8)
D25 AF24 R2627 0ohm DNIE_G_ODD(11)
M2 AA24 1 2 DNIE_G_GE(5)
I_FDECODER_BLU_IN08 I_FOSD_POINT
DNIE_G_EVEN(0:11) O_BDATA_G_OUT09 O_FNRPOST_TRSENC_DATAOUT_B05
7 8 R2634
VP1_R(0:9) VP1_G(9)
D26
I_FDECODER_BLU_IN09 I_FHSYNC_IN
AE24
GF_H G_EVEN(0:11)
DNIE_G_EVEN(2)
M1
O_BDATA_G_OUT10 O_FNRPOST_TRSENC_DATAOUT_B04
Y26
DNIE_G_GE(4)
K26 AF6
G_EVEN(11) DNIE_G_EVEN(3)
L3 Y25 5 6 47ohm DNIE_G_GE(3)
I_FDECODER_GRN_IN00 I_FG_DIN19 O_BDATA_G_OUT11 O_FNRPOST_TRSENC_DATAOUT_B03
J23 AE6
G_EVEN(10) DNIE_G_EVEN(4)
L2 Y24 3 4 1/16W DNIE_G_GE(2)
I_FDECODER_GRN_IN01 I_FG_DIN18 O_BDATA_G_OUT12 O_FNRPOST_TRSENC_DATAOUT_B02
J24 AD6
G_EVEN(9) DNIE_G_EVEN(5)
L1 W26 R2635 1 427ohm DNIE_G_GE(1)
I_FDECODER_GRN_IN02 I_FG_DIN17 O_BDATA_G_OUT13 O_FNRPOST_TRSENC_DATAOUT_B01
J25 AC6
G_EVEN(8) DNIE_G_EVEN(6)
K3 W25 R2636 47ohm DNIE_G_GE(0)
I_FDECODER_GRN_IN03 I_FG_DIN16 O_BDATA_G_OUT14 O_FNRPOST_TRSENC_DATAOUT_B00
J26 AF7 K2 AA3 TP2602
H24
I_FDECODER_GRN_IN04 I_FG_DIN15
AE7
G_EVEN(7) DNIE_G_EVEN(7)
K1
O_BDATA_G_OUT15 O_BV_SYNC_POSTOUT
AB2 1 TP2603 DNIE_V
G_EVEN(6) DNIE_G_EVEN(8)
I_FDECODER_GRN_IN05 I_FG_DIN14 O_BDATA_G_OUT16 O_BPWM_DIMING
H25 AD7 J4 AA2 1

H26
I_FDECODER_GRN_IN06 I_FG_DIN13
AF8
G_EVEN(5) DNIE_G_EVEN(9)
J3
O_BDATA_G_OUT17 O_BH_SYNC_POSTOUT
R1
DNIE_H DNIE_R_EVEN(0:11)
I_FDECODER_GRN_IN07 I_FG_DIN12 G_EVEN(4) DNIE_G_EVEN(10) O_BDATA_G_OUT18 O_BDATA_R_OUT19 DNIE_R_EVEN(11)
G24
I_FDECODER_GRN_IN08 I_FG_DIN11
AE8
G_EVEN(3) DNIE_R_ODD(0:11) DNIE_G_EVEN(11)
J2
O_BDATA_G_OUT19 O_BDATA_R_OUT18
R2
DNIE_R_EVEN(10)
G25 AD8 Y3 R3
I_FDECODER_GRN_IN09 I_FG_DIN10 G_EVEN(2)
G_ODD(0:11) DNIE_R_ODD(2) O_BDATA_R_OUT00 O_BDATA_R_OUT17 DNIE_R_EVEN(9)

VP1_B(0:9) VP1_H N24

I_FDECODER_HSYNC_IN I_FG_DIN09
AF9
G_ODD(11) DNIE_R_ODD(3)
Y2
O_BDATA_R_OUT01 O_BDATA_R_OUT16
T1
DNIE_R_EVEN(8)
N23 AE9 Y1 T2
VP1_B(0) I_FDECODER_RED_IN00 I_FG_DIN08 G_ODD(10) DNIE_R_ODD(4) O_BDATA_R_OUT02 O_BDATA_R_OUT15 DNIE_R_EVEN(7)
M24 AD9 W3 T3
VP1_B(1) I_FDECODER_RED_IN01 I_FG_DIN07 G_ODD(9) DNIE_R_ODD(5) O_BDATA_R_OUT03 O_BDATA_R_OUT14 DNIE_R_EVEN(6)
M25 AC9 W2 T4
VP1_B(2) G_ODD(8) DNIE_R_ODD(6) DNIE_R_EVEN(5)
I_FDECODER_RED_IN02 I_FG_DIN06 O_BDATA_R_OUT04 O_BDATA_R_OUT13
M26 AF10 W1 U1
VP1_B(3) I_FDECODER_RED_IN03 I_FG_DIN05 G_ODD(7) DNIE_R_ODD(7) O_BDATA_R_OUT05 O_BDATA_R_OUT12 DNIE_R_EVEN(4)
L24 AE10 V4 U2
VP1_B(4) I_FDECODER_RED_IN04 I_FG_DIN04 G_ODD(6) DNIE_R_ODD(8) O_BDATA_R_OUT06 O_BDATA_R_OUT11 DNIE_R_EVEN(3)
L25 AD10 V3 U3
VP1_B(5) G_ODD(5) DNIE_R_ODD(9) DNIE_R_EVEN(2)
I_FDECODER_RED_IN05 I_FG_DIN03 O_BDATA_R_OUT07 O_BDATA_R_OUT10
L26 AF11 V2 V1
VP1_B(6) I_FDECODER_RED_IN06 I_FG_DIN02 G_ODD(4) DNIE_R_ODD(10) O_BDATA_R_OUT08 O_BDATA_R_OUT09
K23 AE11
VP1_B(7) I_FDECODER_RED_IN07 I_FG_DIN01 G_ODD(3)
K24 AD11
VP1_B(8) I_FDECODER_RED_IN08 I_FG_DIN00 G_ODD(2) DNIE_R_ODD(11)
K25
VP1_B(9) I_FDECODER_RED_IN09
VP1_V N25
I_FDECODER_VSYNC_IN

DNIE_3.3V
DNIE4 OUTPUT PATH CURRENT CONTROLLER

SC1_CLK R2610 0ohm

SC2_CLK R2611 0ohm
SC1_DATA R2612 0ohm
SC2_DATA R2613 0ohm
R2614 0ohm
SC1_SDRAM R2615 0ohm
SC2_SDRAM

10-24 Samsung Electronics

 Schematic Diagram

10-2-23 DNLE4_GND
This Document can not be used without Samsung’s authorization.
DNIE_3.3V BD2704
MPZ2012S300A

B
IC2701
K4S643232E-TC60
C2702 100nF 1 86
DQ(0:63) 16V 2
VDD VSS
85
DQ(0:63)
DQ(0) DQ(15)
DQ0 DQ15
C2704 100nF 3 84
16V VDDQ VSSQ
D3.3V_GFBD2702 DNIE_3.3V DQ(1)

DQ(2)
4
5
DQ1 DQ14
83
82
DQ(14)

DQ(13)
DQ2 DQ13
MPZ2012S300A 6 81 C2705 100nF
VSSQ VDDQ 16V
DQ(3) 7 80 DQ(12)
DQ3 DQ12
B
C2707 C2709 C2710 DQ(4) 8 79 DQ(11)
DQ4 DQ11
47uF 10nF 1nF C2708 100nF 9 78
16V 50V 50V VDDQ VSSQ
DQ(5) 10 77 DQ(10)
DQ5 DQ10
DQ(6) 11 76 DQ(9)
DQ6 DQ9

DQ(7)
12
13
VSSQ VDDQ
75
74
C2711 100nF
16 V
DQ(8)
D2.5V_GF PLL_1.2V
DQ7 D Q8
14 73
NC NC
IC2601-4 C2712 100nF 15 72 BD2703 IC2703
DNIE4 VDD VSS
16 71 MPZ2012S300A
DQ(0:63) D3 D15 R2704 47ohm
DNIE_DQM 17
DQM0 DQM1
70
DNIE_DQM 1 OUT 3
DQ(0) B_FSDRAM_DATA00 O_SDRAM_CLK
1/10W SDRAM_CLK DNIE_NWE 18
/WE NC
69 IN OUT
C3 A11 B C2717
DQ(1)
B2
B_FSDRAM_DATA01 O_FSDRAM_NWE
C12 DNIE_NWE DNIE_NCAS 19
/CAS NC
68
C2714
GN D 220nF
220nF
DQ(2)
A1
B_FSDRAM_DATA02 O_FSDRAM_NRAS
B12 DNIE_NRAS DNIE_NRAS 20
/RAS CLK
67 C2716 100nF
SDRAM_CLK 16V 16V
DQ(3)
A2
B_FSDRAM_DATA03 O_FSDRAM_NCAS
A12 DNIE_NCAS 21
/CS CKE
66
DNIE_ADDR(0:10) 2
DQ(4)
B3
B_FSDRAM_DATA04 O_FSDRAM_DQM
C13
DNIE_DQM DNIE_BANK(0:1) DNIE_BANK(0:1) 22
NC A9
65
DNIE_ADDR(9)

DQ(5) DNIE_BANK(1) DNIE_BANK(0) DNIE_ADDR(8)

B_FSDRAM_DATA05 O_FSDRAM_BANK01 BA0 A8
A3 D13 23 64
DQ(6)
C4
B_FSDRAM_DATA06 O_FSDRAM_BANK00
A16
DNIE_BANK(0)
DNIE_ADDR(0:10) DNIE_ADDR(0:10) DNIE_BANK(1)
24
BA1 A7
63
DNIE_ADDR(7)

DQ(7) DNIE_ADDR(10) DNIE_ADDR(10) DNIE_ADDR(6)

B_FSDRAM_DATA07 O_FSDRAM_ADDR10 A10,AP A6
DQ(8)
B4 B 16
DNIE_ADDR(9) DNIE_ADDR(0) 25 62 DNIE_ADDR(5)
B_FSDRAM_DATA08 O_FSDRAM_ADDR09 A0 A5
DQ(9)
A4 C16
DNIE_ADDR(8) DNIE_ADDR(1) 26 61 DNIE_ADDR(4)
B_FSDRAM_DATA09 O_FSDRAM_ADDR08 A1 A4
DQ(10)
D5 A15
DNIE_ADDR(7) DNIE_ADDR(2) 27 60 DNIE_ADDR(3)
B_FSDRAM_DATA10 O_FSDRAM_ADDR07 A2 A3
C5 B 15 28 59
DQ(11)
B5
B_FSDRAM_DATA11 O_FSDRAM_ADDR06
C15
DNIE_ADDR(6)
DNIE_DQM C2718 100nF 29
DQM2 DQM3
58
DNIE_DQM
DQ(12) DNIE_ADDR(5)
B_FSDRAM_DATA12 O_FSDRAM_ADDR05 VDD VSS
A5 A14 30 57
DQ(13)
C6
B_FSDRAM_DATA13 O_FSDRAM_ADDR04
B14
DNIE_ADDR(4)
DQ(0:63) 31
NC NC
56
DQ(0:63)
DQ(14) DNIE_ADDR(3) DQ(16) DQ(31)
B_FSDRAM_DATA14 O_FSDRAM_ADDR03 DQ16 DQ31
DQ(15)
B6 C14
DNIE_ADDR(2) 32 55 C2719 100nF
B_FSDRAM_DATA15 O_FSDRAM_ADDR02 VSSQ VDDQ
DQ(16)
A6 A 13
DNIE_ADDR(1) DQ(17) 33 54 DQ(30)
B_FSDRAM_DATA16 O_FSDRAM_ADDR01 DQ17 DQ30
DQ(17)
C7 B13
DNIE_ADDR(0) DQ(18) 34 53 DQ(29)

DQ(18)
B7
B_FSDRAM_DATA17 O_FSDRAM_ADDR00
C26
DQ(63)
DQ(0:63) C2720 100nF 35
DQ18 DQ29
52
B_FSDRAM_DATA18 B_FSDRAM_DATA63 VDDQ VSSQ
DQ(19)
DQ(20)
A7

C8
B_FSDRAM_DATA19 B_FSDRAM_DATA62
C25

B 26
DQ(62)
DQ(61)
DQ(19)
DQ(20)
36
37
DQ19 DQ28
51
50
DQ(28)
DQ(27)
DNIE_1.2V
B_FSDRAM_DATA20 B_FSDRAM_DATA61 DQ20 DQ27
DQ(21)
B8 A26
DQ(60) 38 49 C2721 100nF
B_FSDRAM_DATA21 B_FSDRAM_DATA60 VSSQ VDDQ
DQ(22)
A8 B 25
DQ(59) DQ(21) 39 48 DQ(26)
B_FSDRAM_DATA22 B_FSDRAM_DATA59 DQ21 DQ26
DQ(23)

DQ(24)
D9

C9
B_FSDRAM_DATA23 B_FSDRAM_DATA58
A25

A24
DQ(58)

DQ(57)
DQ(22)
C2722 100nF
40
41
DQ22 DQ25
47
46
DQ(25)
PLL_1.2V DNIE_3.3V
B_FSDRAM_DATA24 B_FSDRAM_DATA57 VDDQ VSSQ
DQ(25)
B9 B24
DQ(56) DQ(23) 42 45 DQ(24)
B_FSDRAM_DATA25 B_FSDRAM_DATA56 DQ23 DQ24
DQ(26)
A9 C24
DQ(55) 43 44
B_FSDRAM_DATA26 B_FSDRAM_DATA55 VDD VSS
C10 A23
DQ(27) B_FSDRAM_DATA27 B_FSDRAM_DATA54 DQ(54)
B10 B23
DQ(28) B_FSDRAM_DATA28 B_FSDRAM_DATA53 DQ(53)
A10 C23 IC2601-1
DQ(29) DQ(52)
DQ(30)
C11
B_FSDRAM_DATA29 B_FSDRAM_DATA52
A22
DQ(51)
IC2704 DNIE4
B_FSDRAM_DATA30 B_FSDRAM_DATA51
B11 B22 K4S643232E-TC60 D4
DQ(31) B_FSDRAM_DATA31 B_FSDRAM_DATA50 DQ(50) G ND
C17 C22 C2723 100nF 1 86 D7 AE21 C2724 1.8nF
DQ(32)
B17
B_FSDRAM_DATA32 B_FSDRAM_DATA49
D22
DQ(49)
DQ(0:63) 16V 2
VDD VSS
85
DQ(0:63) D11
G ND VDD48
AF20 C2725 1.8nF
DQ(33) DQ(48) DQ(32) DQ(47)
B_FSDRAM_DATA33 B_FSDRAM_DATA48 DQ0 DQ15 GND VDD47
DQ(34)
A1 7 A21
DQ(47) C2726 100nF 3 84 D16 AC19 C2727 1.8nF
B_FSDRAM_DATA34 B_FSDRAM_DATA47
16V VDDQ VSSQ GND VDD46
DQ(35)
D18 B21
DQ(46) DQ(33) 4 83 DQ(46)
D20 AE18 C2728 1.8nF
B_FSDRAM_DATA35 B_FSDRAM_DATA46 DQ1 DQ14 GND VDD45
DQ(36)
C18 C21
DQ(45) DQ(34) 5 82 DQ(45)
D23 AC7 C2729 100nF
B_FSDRAM_DATA36 B_FSDRAM_DATA45 DQ2 DQ13 GND PWR_02
DQ(37)
B18 A20
DQ(44) 6 81 C2730 100nF G23 Y23 C2731 100nF
B_FSDRAM_DATA37 B_FSDRAM_DATA44 VSSQ VDDQ 16V GND PWR_02
DQ(38)
A18 B20
DQ(43) DQ(35) 7 80 DQ(44)
K4 U4 C2732 100nF
B_FSDRAM_DATA38 B_FSDRAM_DATA43 DQ3 DQ12 GND PWR_02
DQ(39)
C19 C20
DQ(42) DQ(36) 8 79 DQ(43)
L11 P23 C2733 100nF
B_FSDRAM_DATA39 B_FSDRAM_DATA42 DQ4 DQ11 GND PWR_02
DQ(40)
B19 A19
DQ(41) C2734 100nF 9 78 L12 L4 C2735 100nF
B_FSDRAM_DATA40 B_FSDRAM_DATA41 VDDQ VSSQ GND PWR_02
DQ(37) 10 77 DQ(42)
L13 H23 C2736 100nF
DQ5 DQ10 GND PWR_02
DQ(38) 11 76 DQ(41)
L14 F4 C2737 100nF
DQ6 D Q9 G ND PWR_02
12 75 C2738 100nF L15 D21 C2739 100nF
VSSQ VDDQ 16V GND PWR_02
DQ(39) 13 74 DQ(40)
L16 D17 C2740 100nF
DQ7 D Q8 G ND PWR_02
14 73 M11 D12 C2741 100nF
NC NC GND PWR_02
C2742 100nF 15 72 M 12 D10 C2743 100nF
VDD VSS GND PWR_02
16 71 M13 D6 C2744 100nF
DNIE_DQM 17
DQM0 DQM1
70
DNIE_DQM M14
G ND PWR_02
AC23 C2745 100nF
DNIE_NWE 18
/WE NC
69 M15
GND PWR_01
AC16 C2746 100nF
DNIE_NCAS 19
/CAS NC
68 M16
GND PWR_01
AC13 C2747 100nF
DNIE_NRAS 20
/RAS CLK
67 C2748 100nF
SDRAM_CLK M23
GND PWR_01
AC10 C2749 100nF
21
/CS CKE
66
DNIE_ADDR(0:10) N11
GND PWR_01
AA4 C2750 100nF
DNIE_BANK(0:1) 22
NC A9
65
DNIE_ADDR(9)
N12
GND PWR_01
U23 C2751 100nF
DNIE_BANK(0) DNIE_ADDR(8)
BA0 A8 GND PWR_01
23 64 N13 P4 C2752 100nF
DNIE_ADDR(0:10) DNIE_BANK(1)
24
BA1 A7
63
DNIE_ADDR(7)
N14
GND PWR_01
L23 C2753 100nF
DNIE_ADDR(10) DNIE_ADDR(6)
A10,AP A6 GND PWR_01
DNIE_ADDR(0) 25 62 DNIE_ADDR(5)
N15 H4 C2754 100nF
A0 A5 GND PWR_01
DNIE_ADDR(1) 26 61 DNIE_ADDR(4)
N16 F23 C2755 100nF
A1 A4 G ND PWR_01
DNIE_ADDR(2) 27 60 DNIE_ADDR(3)
P11 D19 C2756 100nF
A2 A3 GND PWR_01
28 59 P12 D14 C2757 100nF
DNIE_DQM C2758 100nF 29
DQM2 DQM3
58
DNIE_DQM P13
G ND PWR_01
D8 C2759 100nF
VDD VSS GND PWR_01
30 57 P14 AF21
DQ(0:63) 31
NC NC
56
DQ(0:63) P15
GND GND75
AD20
DQ(48) DQ(63)
DQ16 DQ31 GND GND74
32 55 C2760 100nF P16 AC20
VSSQ VDDQ GND GND73
DQ(49) 33 54 DQ(62)
R4 AD19
DQ17 DQ30 GND GND72
DQ(50) 34 53 DQ(61)
R11 AF19
DQ18 DQ29 GND GND71
C2761 100nF 35 52 R12 AE19
VDDQ VSSQ GND GND70
DQ(51) 36 51 DQ(60)
R13 AE22
DQ19 DQ28 GND GND
DQ(52) 37 50 DQ(59)
R14 AC22
DQ20 DQ27 G ND GND
38 49 C2762 100nF R15 AC18
VSSQ VDDQ GND GND
DQ(53) 39 48 DQ(58)
R16 AC14
DQ21 DQ26 GND GND
DQ(54) 40 47 DQ(57)
T11 AC11
DQ22 DQ25 GND GND
C2763 100nF 41 46 T12 A C8
VDDQ VSSQ GND GND
DQ(55) 42 45 DQ(56)
T13 AC4
DQ23 DQ24 GND GND
43 44 T14 AA23
VDD VSS GND GND
T15 W4
GND GND
T16 T23
GND G ND

Samsung Electronics 10-25

Schematic Diagram

10-2-24 LVDS
This Document can not be used without Samsung’s authorization.
DNIE_R_EVEN(0:11)
Power DNIE_B_EVEN(0:11)

DNIE_R_EVEN(6)

DNIE_R_EVEN(7)
DNIE_R_EVEN(8)

DNIE_R_EVEN(9)

DNIE_R_EVEN(10)

DNIE_R_EVEN(11)
DNIE_R_EVEN(4)

DNIE_R_EVEN(5)
DNIE_B_ODD(0:11)

DNIE_B_EVEN(6)

DNIE_B_EVEN(7)
DNIE_B_EVEN(8)

DNIE_B_EVEN(9)

DNIE_B_EVEN(10)

DNIE_B_EVEN(11)
DNIE_B_EVEN(4)

DNIE_B_EVEN(5)
RA2802
Signal 0ohm

DNIE_B_ODD(6)

DNIE_B_ODD(7)
DNIE_B_ODD(8)

DNIE_B_ODD(9)

DNIE_B_ODD(10)

DNIE_B_ODD(11)
DNIE_B_ODD(4)

DNIE_B_ODD(5)
DNIE_G_ODD(0:11) DNIE_R_ODD(0:11) DNIE_G_EVEN(0:11)
DNIE_R_EVEN(0:11)

5DNIE_R_ODD(2)
3DNIE_R_ODD(3)
DNIE_G_ODD(6)
7DNIE_G_ODD(7)
5DNIE_G_ODD(8)
3DNIE_G_ODD(9)

DNIE_G_ODD(10)

DNIE_G_ODD(11)
5DNIE_G_ODD(4)
3DNIE_G_ODD(5)

DNIE_G_EVEN(6)

DNIE_G_EVEN(7)
DNIE_G_EVEN(8)

DNIE_G_EVEN(9)

DNIE_G_EVEN(10)

DNIE_G_EVEN(11)
DNIE_G_EVEN(4)

DNIE_G_EVEN(5)

DNIE_R_EVEN(2)
DNIE_R_EVEN(3)
OPTION

5 RA2810
3 0ohm
D3.3V_GF

7
5
3
1

7
5
3
1

7
5
3
1

7
5
3
1

1
RA2804
RA2801 RA2807
D3.3V_GF

7
5
3
1

7
5
3
1

7
5
3
1
0ohm
0ohm 0ohm RA2808
RA2811
DEFAULT_NET_TYPE 0ohm
RA2825 0ohm

8
6
4
2

8
6
4
2

8
RA2803 6
0ohm 4
2

8
6
4
2

8
6
4
RA2805 2

8
RA2806 6
4
2

8
6
4
2

7
5
3
1
0ohm DEFAULT_NET_TYPE
RA2812

8
6
4
2

RA2809 8
0ohm 6
4
2

8
6
4
2

8
6
4
2
1 2 0ohm

0ohm
0ohm
3 4

8
6
4
2
BD2801 5 6
B

MPZ2012S300A 7 8 BD2802

B
0.25 MPZ2012S300A 0.25

100nF
C2803

C2804
100nF

C2807

C2808
100nF

100nF
C2801 C2802
1nF 100nF RA2813 C2805 C2806 RA2826
0ohm 1nF 100nF 0ohm
1 2 1 2
3 4 3 4

100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
5 6 5 6
DNIE_G_ODD(0:11)

100
DNIE_G_ODD(2)

99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
7 8 DNIE_G_ODD(3) 7 8

G12
G13
GND
VCC
G14
G15
G16
G17
B10
B11
B12
B13
B14
B15
B16
B17
R20
GND
VCC
R21
R22
R23
R24
R25
R26

G12
G13
GND
VCC
G14
G15
G16
G17
B10
B11
B12
B13
B14
B15
B16
B17
R20
GND
VCC
R21
R22
R23
R24
R25
R26
1 75 RA2814
OPTION
RA2815 2
G11 R27
74 1
0ohm
2
DNIE_G_EVEN(0:11) 1 75
0ohm G10 G20 DNIE_G_EVEN(6)
RA2816 G1 1 R27
1 2 3 73 3 4 2 74
DNIE_R_ODD(5)
R17 G21 DNIE_G_EVEN(7)
DNIE_R_EVEN(0:11) 0ohm G1 0 G20
DNIE_R_ODD(0:11) DNIE_R_ODD(4) 3 4 4 72 5 6 DNIE_G_EVEN(8) DNIE_R_EVEN(5) 1 2 3 73 RA2817
5
R16 G22
4
R17 G21 0ohm
DNIE_R_ODD(11) 5 6 71 7 8 DNIE_G_EVEN(9) DNIE_R_EVEN(4) 3 4 72 1 2
R15 G23 R16 G22
DNIE_R_ODD(10) 7 8 6 70 DNIE_R_EVEN(11) 5 6 5 71 3 4
R1 4 G24 RA2819 R15 G23
1 2 7 69 7 8 6 70 5 6
DNIE_R_ODD(9)
3 4 RA2818 8
R1 3 G25
68 1
0ohm
2
DNIE_R_EVEN(10)
1 2 7
R14 G24
69 7 8
DNIE_G_EVEN(2)
DNIE_G_EVEN(0:11)
DNIE_R_ODD(8) DNIE_G_EVEN(10) DNIE_R_EVEN(9) DNIE_G_EVEN(3)
R1 2 GND R13 G25
DNIE_R_ODD(7) 5 6 0ohm 9 67 C2809 3 4 DNIE_G_EVEN(11) DNIE_R_EVEN(8) 3 4 RA2820 8 68
R1 1 VCC R12 GND
DNIE_R_ODD(6) 7 8 10 66 100nF 5 6 DNIE_G_EVEN(4) DNIE_R_EVEN(7) 5 6 0ohm 9 67 C2810
R10 G26 R11 VCC
DNIE_CLK
R2801 0ohm 11
CLKIN G27
65 7 8 DNIE_G_EVEN(5) DNIE_B_EVEN(0:11) DNIE_R_EVEN(6) 7 8 10
R10 G26
66 100nF
12 IC2801 64 1 2 R2802 0ohm 11 65
13
PLLVCC
DS90C387VJD
B20
63 RA2821 3 4
DNIE_B_EVEN(6)
DNIE_CLK C2812 12
CLKIN
IC2802
G27
64
DNIE_B_EVEN(7)
GND B21 PLLVCC B20 RA2822
C2811 R2803 0ohm 14 62 0ohm 5 6 DNIE_B_EVEN(8) 100nF 13 DS90C387VJD 63
100nF R2804 PRE B22 GND B21 0ohm
0ohm 5
1 61 7 8 DNIE_B_EVEN(9) R2805 0ohm 4
1 62 1 2
PLLSEL B23 PRE B22
16 60 RA2823 1 2 DNIE_B_EVEN(10) R2806 0ohm15 61 3 4
PLLGND B24 PLLSEL B23
17 59 0ohm 3 4 16 60 5 6
R2807
PLLGND B25
DNIE_B_EVEN(11)
PLLGND B24
DNIE_B_EVEN(2)
DNIE_B_EVEN(0:11)
0ohm18 PLLVCC B26
58 5 6 DNIE_B_EVEN(4) 17
PLLGND B25
59 7 8 DNIE_B_EVEN(3)
19 57 7 8 DNIE_B_EVEN(5) R2808 0ohm 8
1 58
PLLGND B27 PLLVCC B26
R2809 0ohm20 R_FB DE
56
DNIE_FDE
19
PLLGND B27
57
R2810 0ohm 1
2 55 R2811 0ohm 20 56
R_FDE VSYNC DNIE_V R_FB DE DNIE_FDE
LVDS_DE R2812 0ohm22 /PD HSYNC
54
DNIE_H
R2813 0ohm 21
R_FDE VSYNC
55
DNIE_V
R2814 0ohm23 53 C2813 R2815 0ohm 22 54
24
DUAL VCC
52 100nF RA2824 LVDS_DE R2816 0ohm 23
/PD HSYNC
53 C2814
DNIE_H
BAL GND 0ohm DUAL VCC
25 51 1 2 24 52 100nF
CLK2M,NC
CLK2P,NC

LVDSGND

LVDSGND
LVDSVCC

LVDSVCC

LVDSVCC

LVDSGND LVDSGND BAL GND

3 4 25 51

CLK2M,NC
CLK1M

CLK2P,NC

LVDSGND

LVDSGND
CLK1P

LVDSVCC

LVDSVCC

LVDSVCC
LVDSGND LVDSGND
5 6
A7M

A6M

A5M

A4M

A3M

A2M

A1M

A0M
A7P

A6P

A5P

A4P

A3P

A2P

A1P

A0P

DNIE_B_ODD(0:11)

CLK1M
DNIE_B_ODD(2)

CLK1P
7 8

A7M

A6M

A5M

A4M

A3M

A2M

A1M

A0M
A7P

A6P

A5P

A4P

A3P

A2P

A1P

A0P
DNIE_B_ODD(3)
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50

26
27
28
29

31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
30
100nF

100nF
C2815

C2816

CN2803
SMW250-04

100nF

100nF
C2817

C2818
4
3
2
1
O_TXCLKB+
O_TXCLKB-
O_TXOUTB_3+
O_TXOUTB_3-
O_TXOUTB_2+
O_TXOUTB_2-
O_TXOUTB_1+
O_TXOUTB_1-
O_TXOUTB_0+
O_TXOUTB_0-
O_TXOUTA_3+
O_TXOUTA_3-
O_TXCLKA+
O_TXCLKA-
O_TXOUTA_2+
O_TXOUTA_2-
O_TXOUTA_1+
O_TXOUTA_1-
O_TXOUTA_0+
O_TXOUTA_0-

E_TXCLKB+
E_TXCLKB-
E_TXOUTB_3+
E_TXOUTB_3-
E_TXOUTB_2+
E_TXOUTB_2-
E_TXOUTB_1+
E_TXOUTB_1-
E_TXOUTB_0+
E_TXOUTB_0-
E_TXOUTA_3+
E_TXOUTA_3-
E_TXCLKA+
E_TXCLKA-

E_TXOUTA_2+
E_TXOUTA_2-
E_TXOUTA_1+
E_TXOUTA_1-

E_TXOUTA_0+
E_TXOUTA_0-
D3.3V MGND2
1
TP2801
R2817 100ohm 2

1
SDA_V3 3
TP2802

1
TP2803 MGND2
R2818 100ohm 4 1

1
SCL_V3 TP2804
5 2

1
TP2805
6 3

1
7 4
O_TXOUTA_0- TP2806
8 5

1
O_TXOUTA_0+ 9
TP2807
6
TP2809

1
O_TXOUTA_1- TP2810 TP2811
10 7

1
O_TXOUTA_1+ 11
TP2812 E_TXOUTA_0- 8
TP2813

1
O_TXOUTA_2- 12
TP2814 E_TXOUTA_0+ 9
TP2815

1
O_TXOUTA_2+ TP2816 E_TXOUTA_1- TP2817
13 10

1
O_TXCLKA- 14
TP2818 E_TXOUTA_1+ 11
TP2819

1
O_TXCLKA+ 15
TP2820 E_TXOUTA_2- 12
TP2821
1

1
O_TXOUTA_3- 16 CN2801
1 TP2822 E_TXOUTA_2+ 13
TP2823

1
O_TXOUTA_3+ 17
TP2824 E_TXCLKA- 14
TP2825
1

1
E_TXCLKA+ TP2829
18 15

1
19
E_TXOUTA_3- 16 CN2802 TP2830

1
O_TXOUTB_0- 20
TP2831 E_TXOUTA_3+ 17
TP2832
1

1
O_TXOUTB_0+ 21
TP2833
18
1

O_TXOUTB_1- 22
TP2834
19
1

O_TXOUTB_1+ TP2835 E_TXOUTB_0- TP2836

23 20
1

1
O_TXOUTB_2- 24
TP2837 E_TXOUTB_0+ 21
TP2838
1

1
O_TXOUTB_2+ 25
TP2839 E_TXOUTB_1- 22
TP2840
1

1
O_TXOUTB_3- 26
TP2841 E_TXOUTB_1+ 23
TP2842
1

1
O_TXOUTB_3+ 27
TP2843 E_TXOUTB_2- 24
TP2844
1

1
O_TXCLKB- TP2845 E_TXOUTB_2+ TP2846
28 25
1

1
O_TXCLKB+ 29
TP2847 E_TXOUTB_3- 26
TP2848
1

1
30
E_TXOUTB_3+ 27
TP2849

1
31
MGND1 E_TXCLKB- 28
TP2850

1
E_TXCLKB+ 29
TP2851

1
30
MGND1
31

10-26 Samsung Electronics

 Schematic Diagram

10-2-25 AUD_DEC
This Document can not be used without Samsung’s authorization.
D3.3V DSP_3.3V
Power N
5333_SDO
L2901 C2904 C2906
Signal 100nF 100nF R2901 0ohm
56371_MCLKO
10uH
C2901 C2902 C2903

100ohm

0ohm
0ohm
0ohm
0ohm
0ohm
100uF 100nF 100nF

0ohm
0ohm

0ohm
16V

DSP_3.3V
R2902 0ohm
56371_PCMO
C2905 C2907
100nF 100nF R2912 100ohm
R2913 100ohm 56371_LRCLKO
C2908 C2909

R2903

R2904
R2905
R2906
R2907
R2908

R2909
R2910

R2911
56371_SCLKO
100uF 100nF
16V
R2914 100ohm
DSP_1.25V 56371_MCLKO

3 4
IC2901 C2910
VIN VOUT_2 100uF C2912 C2914 DSP_1.25V DSP_1.25V
LM317EMP 16V 100nF 100nF DSP_3.3V
ADJ VOUT_1
1 2 GND
C2915

80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
R2915 220ohm 100nF
DSP_3.3V
16V

SDO5_SDI10_PC6
FST_PC4

FSR_PC1
SCKT_PC3

SCKR_PC0

IO_VDD
IO_GND

HCKT2_PC5

HCKR_PC2
CORE_VDD

ADI_PD0
ADO_PD1

CORE_GND

HCKR_PE2
HCKT_PE5

IO_GND

IO_VDD
SCKR_PE0

SCKT_PE3
FSR_PE1
C2911C2913 1 60
SDO4_SDI1_PC7 FST_PE4
100nF100nF 2 59 R2916 100ohm

4.7Kohm
4.7Kohm
4.7Kohm
4.7Kohm
IO_GND SDO5_SD10_PE6
R2917
A9V BD2902
3
4
IO_VDD SDO4_SDI1_PE7
58
57 R2918
100ohm
100ohm
SDO3_SDI2_PC8 SDO3_SDI2_PE8
MMZ2012R121A R2919 0ohm 5
SDO2_SDI3_PC9 SDO2_SDI3_PE9
56 R2920 100ohm
R2921 0ohm 6 55 R2922 100ohm
SDO1_PC10 SDO1_PE10
R2923 0ohm 7 54 R2924 100ohm
56371_SDO SDO0_PC11 SDO0_PE11

R2960
R2961
R2962
R2963
C2934 C2935 8 53
C2936 100nF 10uF 9
CORE_VDD CORE_GND
52
100uF 16V 16V R2925 0ohm 10
AMO_PF8
IC2902 CORE_VDD
51 R2926 4.7Kohm
16 V R2964 100ohm R2927 0ohm 11
SPDIFLOCK_PF6 DSP56371 MODA_IRQA
50 R2928 4.7Kohm
SDA_5 56371_MCLKO
12
AMI_PF7
CORE_GND
MODB_IRQB
MODC_IRQC
49 R2929 4.7Kohm
R2930 0ohm 13 48 R2931 4.7Kohm
SPDIFIN1_PF2 MODD_IRQD
R2965 100ohm R2932 0ohm 14 47 R2990 100ohm
IC2904 SCL_5 DIG1_SPDIF
R2934 0ohm 15
SPDIFIN2_PF3 RESET_B
46
DSP56371_RST
C2937 10uF R2966 TEA6422D R2936 0ohm 16
SPDIFIN3_PF4 PINIT_NMI
45
COMP1_SL R2967 47ohm 17
SPDIFIN4_PF5 EXTAL
44 R2991
R2968 100Kohm
47ohm 1
GND SDA
28 C2938 10uF COMP1_SR 18
IO_VDD PLLD_VDD
43
1/10W DSP_3.3V
SPDIFOUT2_PF1 PLLD_GND 10Kohm
C2939 10uF R2970
2
CAP SCL
27 R2969 100Kohm 56371_SPDIFO
19
SPDFOUT1_PF0 PLLP_GND
42
3 26 R2971 47ohm R2938 0ohm 20 41 K3750HC12.288MHz
V1_SL VS ADDR V1_SR SPDIF_PLL_GND PLLP_VDD
X2901

CORE_GND

CORE_VDD
XTRIM_PF9
4 25 C2940 10uF

PLLA_GND
MISO_SDA
VCO_PF10

PLLA_VDD
MOSI_HA0
47ohm

SCK_SCL
L1 R1

TI0_PB0
TI0_PB1
IO_GND

SS_HA2
3 4

IO_VDD
R2972 100Kohm 5 24 R2973 100Kohm

HREQ
SCAN
C2941 10uF R2974 L2 R2 OUT VDC

TDO

TMS
TCK
R2975 47ohm

TDI
COMP2_SL 6
7
L3 R3
23
22 C2942 10uF COMP2_SR
47ohm DSP_3.3V

21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
NC NC
2 1
R2976 100Kohm R2978
8 21 R2977 100Kohm GND
GND
C2943 10uF NC NC
R2979 47ohm NC C2916
DVI_SL 9
10
L4 R4
20
19 C2944 10uF DVI_SR DSP_3.3V
DSP_1.25V
100nF
47ohm

100ohm
100ohm

100ohm
100ohm
100ohm
100ohm
L5 R5

4.7Kohm
4.7Kohm
220ohm
DSP_3.3V

10Kohm
R2980 100Kohm 11
L6 R6
18 R2981 100Kohm
R2982 47ohm
C2946 10uF R2983
12
13
LOUT1 ROUT3
17
16 C2945 10uF V2_SR N
V2_SL 14
RPUT1 LOUT3
15 R2984 100Kohm
L2903
47ohm LOUT2 ROUT2 10uH
R2986 100Kohm R2985 47ohm
C2947 10uF PC_SR R2949 0ohm

R2939
R2940

R2941
R2942

R2943
R2944

R2945
R2946
R2947
R2948
C2918 C2919 56371_MCLKO
C2948 10uF R2988 R2987 100Kohm 100nF 100uF

PC_SL AUX_SR C2917

100nF
16V
47ohm
R2989 100Kohm AUX_SL DSP_3.3V
SCL_S
A3.3V C2925 C2927 SDA_S
100nF 100nF

C2926
L2902
D3.3V 100nF
3.3UH

1/10W C2920 C2921

R2995 1/10W
4.7Kohm
4.7Kohm
4.7Kohm 47uF 100nF
R2992 R2993 16V
1/10W R2996
4.7Kohm 0.6mm
1/10W C2922 C2923
1/10W
0ohm 47uF 100nF 4.7Kohm
R2952 16V R2997

56371_MCLKO
R2955 C2930 C2929
150ohm 470nF 10nF 0ohm R2954
5333_SDO
4450_R
R2953 0ohm
4450_L 56371_SCLKO
C2928 56371_LRCLKO
R2951 0ohm
NRSTO 10nF 1/10W
150ohm 470nF R2950 4.7Kohm
C2931 100ohm C2924 R2956
R2998
100nF C2932
1uF
10V

C2933
1uF
10V

M1, M0 : MODE SELECT

Samsung Electronics 10-27

Schematic Diagram

10-2-26 MSP4440
This Document can not be used without Samsung’s authorization.
C3001
Power 4.7uF
35V
Signal R3033 1Kohm
SR4_IN
R3034 1Kohm C3002 4.7uF SL4_IN
35V

R3001 1Kohm C3043 4.7uF AUX_SR

35V
R3002 1Kohm C3044 4.7uF AUX_SL
35V
A5V 4440_AUD_CLK A8V

N C3003 C3005 C3004

C3006
L3001 10uF 100nF 4.7uF 100nF
16V 35V N
L3002
R3003
C3007 C3008 C3009 0ohm
100uF 100nF 10nF
16V 50V
C3010
C3011 C3012 D3001

64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
10uF 100uF 100nF RLZ12B
16V 16V

NC
NC
AVSS
AVSS
MONO_IN
VREFTOP
NC
SC1_IN_R
SC1_IN_L
ASG
SC2_IN_R
SC2_IN_L
ASG
SC3_IN_R
SC3_IN_L
ASG
SC4_IN_R
SC4_IN_L
NC
AGNDC
AHVSS
AHVSS
NC
NC
AVSUP CAPL_M C3015
65 40
AVSUP AHVSUP
66 39 10uF16V
ANA_IN1+ CAPL_A 100ohm
C3016 56pF 67 38 R3004
ANA_IN- SC1_OUT_L R3005 100ohm 4450_L
68 37
C3013 ANA_IN2+ SC1_OUT_R 4450_R
69 36
100pF C3017 10pF 70
TESTEN VREF1
35 R3007 100ohm
XTAL_IN IC3002 SC2_OUT_L MONITOR_L
71 34 R3008 100ohm
XTAL_OUT SC2_OUT_R
MSP4440G_QA_C12_500 MONITOR_R

1
72 33
X3001 TP NC
C3014 73 32
AUD_CL_OUT NC C3019 C3020
18.432MHz
56pF 74
NC DACM_SUB
31
MSP_WOOFER 8.2nF 8.2nF

2
75 30
NC NC
C3018 10pF 76 29
D_CTR_I/O_1 DACM_L
77 28
D_CTR_I/O_0 DACM_R

I2S_DA_OUT
78 27

I2S_DA_IN1

I2S_DA_IN2

I2S_DA_IN3
ADR_SEL VREF2
79 26

ADR_WS

I2S_WS3
RESETQ
ADR_DA

DACA_R
STANDBYQ

ADR_CL
DACA_L

I2S_CL3
1Kohm

I2S_WS
R3011

I2C_DA

DVSUP
DVSUP
DVSUP
I2C_CL

I2S_CL
80 25

DVSS
DVSS
DVSS
R3012 C3021

NC

NC

NC
0ohm 1nF

10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
(4440_MCLK)

1
2
3
4
5
6
7
8
9
R3013 100ohm
SCL_5
SDA_5 R3014 100ohm C3023
R3015 100ohm 1nF
D5V 4440_SCLKO
4440_LRCLKO R3016 100ohm
C3026
4440_SDO
100nF

BD3002 MPZ2012S300A OPTION

C3027 C3028 C3029 C3030
56371_SCLKO R3018
47uF 100nF 10nF 220pF
100ohm
16V 50V 50V
56371_LRCLKO 100ohm
56371_SDO R3037
MSP_RESET

NRSTO

D5V

R3020
100ohm
R3021
D3003
270Kohm
PMLL4148 D3002
1/10W
PMLL4148

A8V C3032
E 100uF
KSA1182 16V
C3033 B
Q3003
4

L3005
C3034 C3035 R3023 10uF
D

C
N 100uF 100nF 11Kohm 16V S_3.3V
16V IC3003

TL062CDT
R3024 51Kohm C3036 E

100nF R3025 4.7Kohm KSA1182

WOOFER_MUTE B R3026
C3037 R3027 Q3004 4.7Kohm
E

100uF 11Kohm C
Q3005
5

C B
16V E KSC1623-G
MUTE
2

D3004

C3038
R3028 100ohm
3

R3031
C3039 R3029 51Kohm C3040 15Kohm
10uF
R3036 0ohm R3030 20Kohm 3.3nF 16V R3035 0ohm
MSP_WOOFER WOOFER_OUT
1/10W
R3032
10uF16V
30Kohm
C3042
C3041
10nF 100uF
16V

10-28 Samsung Electronics

 Schematic Diagram

10-2-27 SDA6001
This Document can not be used without Samsung’s authorization.
S_3.3V_CPU
Power
Signal

4.7Kohm

4.7Kohm

4.7Kohm

4.7Kohm

4.7Kohm

4.7Kohm

4.7Kohm

4.7Kohm

4.7Kohm

4.7Kohm
S_2.5V
SW3101
KPS-1105PYN

R3101

R3102

R3103

R3104

R3105

R3106

R3107

R3108

R3109

R3110
BD3101 1 3
MPZ2012S300A
LED_BLUE
2 4
B
S_5V
R3112
GSPI_CS C3101 C3102 R3111
68Kohm
C3103 BUZZER 10nF 47uF R3113 0ohm
S_5V 47uF GSPI_SO USER EPROM (256K) C3140
0ohm
WP_24C256 CPU_nRESET
IC3102 10nF
GSPI_SI R3114
R3115 R3116
BD3102 1Kohm 4.7Kohm 4.7Kohm M24256-WMN6T 1 GND 3
IR 1 IN OUT
MPZ2012S300A C3104 C3105 C3106 C3107 C3108 C3109 C3110 GSPI_CLK 8
VCC A0 C3112 C3141
C3111 10uF
S_3.3V_CPU 10nF 100nF 100nF 100nF 100nF 100nF 100nF GN D 1uF
1nF 16V 10V
50V R3117 R3179 3Kohm 7 2
OPTION
WP A1 2
TXD_M2 100ohm 1/10W
B

1 GND 3 3
IN OUT
6
SCL NC IC3101
KIA7042AF-RTF
ADJ RXD_M2 5 4
SDA GND
2 POWER

100ohm
100ohm
100ohm
100ohm
100ohm

100ohm
100ohm
100ohm
100ohm
100ohm
100ohm
100ohm

100ohm
100ohm
100ohm
IC3104 R3118
MC33375ST-3.3T3
CPU_nRESET
C3113 C3114 C3115
NRSTO 100ohm
R3119
47uF 10nF 100nF
R3183 C3116 C3117 C3118 C3119 C3120 C3121 C3122
CD(0:15) 220ohm
OPTION
WP_24C256

R3120
R3121
R3122
R3123
R3124

R3125
R3126
R3127
R3128
R3129
R3130
R3131

R3132
R3133
R3134
10Kohm

CD(11)
CD(3)
CD(4)

CD(10)
CD(12)
CD(2)
100nF 100nF 100nF 100nF 100nF 100nF 100nF
1/10W S_2.5V TP3101
SUPLVAL

1
TP3102
R3190 100ohm

1
SUPLVAL
PC_DET R3191 100ohm
DIG2_DET D3.3V
S_3.3V_CPU TP3103

1
R3184

1
R3192 R3193 TP3104 BD3104
10Kohm
TP3105

1
4.7Kohm 4.7Kohm MMZ2012R121A

96
95

94

93
92

91
90

89

88
87

86

85
84

83
82

81

80
79

78

77
76

75
74

73

72
71

70

69
68

67
66

65
1/10W

P6.1

P6.0
P5.15

P5.14
P3.15

P3.13

P3.12
P3.11

P3.10

VDD25_2
VSS25_2

VDD33_7
VSS33_7

P3.9

P3.8
P3.7

P3.6

P3.5
P3.4

P3.3
P3.2

P3.1

P3.0
RSTIN_

D11

D3
D4

VDD33_6
VSS33_6

D10

D12
D2
R3135 R3136 R3137 R3138 C3134 C3135 X3102
4.7Kohm 4.7Kohm 4.7Kohm 4.7Kohm 10uF 100nF
CD(5) 3DH-52S 27MHz
P6.2 D5
R3139 100ohm 97 64 CD(9) 16V 16V
SCL_9545A P6.3 D9
1
C_V VCC
4
R3140 100ohm 98 63 CD(13) IC3105
SDA_9545A 100ohm
P6.4 D13 R3186 C3136
R3141 99 62 CY2305SC-1H
SCL_9545B 100ohm
P6.5 VDD33_5 R3185 22ohm R3187 8
100pF
R3142 100 61 10Kohm 1
SDA_9545B P6.6 VSS33_5
2
GND OUT
3 47ohm REF CLKOUT
7
R3143 22ohm 101 60 CD(1) 1/10W 2
VSYNC D1 CLK2 CLK4
R3144 22ohm 102 59 CD(6) C3137 3 6
HSYNC D6 CLK1 VDD
103 58 CD(8) 22pF 4 5
S_5V TP3110
1

1TP3114
COR D8 R3188 GND CLK3 PCLK_CPLD
R3145 0ohm 104 57 CD(14) 50V 47ohm
BLANK D14 R3189
105 56 CD(0) 47ohm
VDD33_8 D0
X3101 C3123 220pF 106 55 CD(7)
VSS33_8 D7
HC-49/SM5H 6MHz OPTION 107 54
BD3103 XTAL1 VDD33_4 27M_GF
MPZ2012S300A 108
XTAL2 VSS33_4
53

CD(15)
IC3103
109 52
C3124 VSSA_1 D15
110 51
nWE
6.0MHz

33pF VDDA_1 WR_

1TP3111 111 50
DQM(0)
B

SDA6001-B12
R LDQM
1TP3112 112 49
1TP3113 113
G UDQM
48 DQM(1)
C3125
10uF 114
B RD_
47 nOE
16V R3146 C3127 VSSA_2 CSROM_
nMF_CS
R3148 C3126 100nF 115 46
1 0 0 o hm VDDA_2 CLKEN
CLKEN
22Kohm 33pF R3147 116 45

0ohm 117
CVBS2 CSSDRAM_
44 nSDCS0
B
C
Q3101
C3131
C3129
100nF
118
VSSA_3

VDDA_3
E816H MEMCLK

VDD33_3
43 R3149 R3159 R3160 R3161 R3162 R3163
SDCLK

C3128
E KSC1623-G C3130
180pF 100nF R3150
119

120
CVBS1B VSS33_3
42

41
150ohm
AD(15)
AD(0:20) 4.7Kohm4.7Kohm4.7Kohm4.7Kohm 4.7Kohm
CVBS1A A15
4.7uF 75ohm 121 40 AD(14)
VSSA_4 A14
R3153 122 39 AD(13)
VDDA_4 A13
22Kohm R3156 R3152 1.5Kohm 123 38 AD(0)
R3151 510ohm
KEY1 1.5Kohm 124
P5.0 A0
37 AD(1)
KEY2 R3154 P5.1 A1
270ohm AD(2)
R3155 100ohm 125 36
FID_DET DZ3101 100ohm 126
P5.2 A2
35 AD(3)
R3157 P5.3 A3
RLZ3.6B C3138 0ohm 127 34 AD(4)
R3158 TMODE A4
1nF 128 33
CAP_CVBS
VDD33_1

VDD25_1

VDD33_2
VSS22_1

VSS25_1

VSS33_2
R3164 R3165 50V
P2.10
P2.11

P2.12

P2.13
P2.14

P2.15
TMS

TDO
P2.8

P2.9

P4.5
P4.4

P4.3

P4.2
P4.1

P4.0
TCK

2.7Kohm 2.7Kohm

A10
A11

A12
TDI

C3132 C3133

A8
A7

A9

A6
A5
C3139
1nF 1nF 1nF
S_3.3V_CPU DZ3102
10

11

12
13

14
15

16

17
18

19

20
21

22
23

24

25
26

27

28
29

30
31

32
1
2

4
5

6
7

50V
RLZ3.6B
100ohm
100ohm
100ohm
100ohm
100ohm
100ohm
100ohm

100ohm

R3180 R3181 R3173 R3174 R3175 R3176 R3177 R3178

AD(20)
AD(19)
AD(18)
AD(17)

AD(16)

AD(10)
AD(11)
AD(12)
4.7Kohm 4.7Kohm
AD(8)
AD(7)
AD(9)
AD(6)
4.7Kohm 4.7Kohm 4.7Kohm 4.7Kohm 4.7Kohm AD(5) 4.7Kohm
1/10W 1/10W 1/10W 1/10W 1/10W 1/10W 1/10W 1/10W
R2408
TXD_M2
0ohm
RXD_ANY
R3166
R3167
R3168
R3169
R3170
R3171
R3172

R3182

1
TP3106 RST_GF WOOFER_MUTE R2411 0ohm
TP3107 1
INT_DEC_S
VBIINT_M_DEC
RXD_M2 TXD_ANY

D3.3V_ACK
GSPI_INT
GSPI_HBUSY
GSPI_BUSY

TDO_MICOM
TDI_MICOM
TMS_MICOM
TCK_MICOM

Samsung Electronics 10-29

Schematic Diagram

10-2-28 Flash Memory

This Document can not be used without Samsung’s authorization.
R3201,R3202
S_3.3V SW DEBUGGER DELETE OPTION S_3.3V
C3201C3202
BD3201 MPZ2012S300A 10nF 47uF BD3202 MPZ2012S300A

C3203 C3204 C3205 C3206 C3207 C3208 C3209

47uF 10nF 100nF 100nF 100nF 100nF 100nF S_3.3V
CN3201 R3201
0ohm C3211
10nF BD3203 MPZ2012S300A
1 3704-001071 C3210
nWE 2 IC3201 47uF C3212
IC3202 K4S641632C-TC80 IC3203 10nF
MX29LV320BTC-70 1 54 M27V322-100XS6
VDD1 VSS3
AD(15) 1 48 AD(16) CD(0) 2
DQ0 DQ15
53
CD(15) AD(18) 1 A18 A19
42
AD(19)
A15 A16
AD(14) 2 47 3
VDDQ1 VSSQ4
52
AD(17) 2 A17 A8
41
AD(8)
A14 /BYTE
AD(13) 3 46 CD(1) 4
DQ1 DQ14
51
CD(14) AD(7) 3 A7 A9
40
AD(9)
A13 VSS
AD(12) 4 45 CD(15) CD(2) 5
DQ2 DQ13
50
CD(13) AD(6) 4 A6 A10
39
AD(10)
A12 DQ15,A-1
AD(11) 5 44 CD(7) 6
VSSQ1 VDDQ4
49
AD(5) 5 A5 A11
38
AD(11)
A11 DQ7
AD(10) 6 43 CD(14) CD(3) 7
DQ3 DQ12
48
CD(12) AD(4) 6 A4 A12
37
AD(12)
A10 D Q14
AD(9) 7 42 CD(6) CD(4) 8
DQ4 DQ11
47
CD(11) AD(3) 7 A3 A13
36
AD(13)
A9 D Q6
AD(8) 8 41 CD(13) 9
VDDQ2 VSSQ3
46
AD(2) 8 A2 A14
35
AD(14)
A8 DQ13
AD(19) 9 40 CD(5) CD(5) 10
DQ 5 DQ10
45
CD(10) AD(1) 9 A1 A15
34
AD(15)
A19,NC DQ5
AD(20) 10 39 CD(12) CD(6) 11
DQ6 DQ 9
44
CD(9) AD(0) 10
A0 A16
33
AD(16)
A20,NC DQ12
nWE 11 38 CD(4) 12
VSSQ2 VDDQ3
43 11
E_ A20
32
AD(20)
12
/WE DQ4
37 CD(7) 13 42
CD(8)
nMF_CS 12 31
/RESET VCC DQ7 DQ8 VSS1 VSS2
R3202 0ohm 13
NC DQ11
36 CD(11) 14
VDD2 VSS2
41
nOE 13
G_VPP Q15A
30
CD(15)
14 35 CD(3) 15
LDQM N_C2
40
CD(0) 14
Q0 Q7
29
CD(7)
15
/WP,ACC,NC DQ3
34 CD(10)
DQM(0) 16 39
CD(8) 15 28
CD(14)
16
RY,/BY DQ10
33 nWE 17
WE_ UDQM
38
DQM(1) 16
Q8 Q14
27
AD(18) A18 DQ2 CD(2) AD(15) CAS_ CLK SDCLK CD(1) Q1 Q6 CD(6)
AD(17) 17 32 CD(9) AD(14) 18 37
CD(9) 17 26
CD(13)
18
A17 DQ9
31 19
RAS_ CKE
36
CLKEN 18
Q9 Q13
25
AD(7) CD(1) CS N_C1 CD(2) Q2 Q5 CD(5)
AD(6) 19
A7 DQ1
30 CD(8) AD(12)
nSDCS0 20
BA0 A 11
35
AD(11) CD(10) 19
Q10 Q12
24
CD(12)
A6 DQ8
AD(5) 20 29 CD(0) AD(13) 21
BA1 A9
34
AD(9) CD(3) 20
Q3 Q4
23
CD(4)
A5 DQ0
R3206 R3207 AD(4) 21 28 AD(10) 22
A10 A8
33
AD(8) CD(11) 21
Q11 VCC
22
R3203 R3204 R3205 A4 /QE nOE
4.7Kohm 4.7Kohm 1Kohm AD(3) 22 27 AD(0) 23 32
AD(7)
4.7Kohm 4.7Kohm A3 VSS A0 A7
AD(2) 23 26 AD(1) 24 31
AD(6)
A2 /CE nMF_CS A1 A6
AD(1) 24 25 AD(2) 25
A2 A5
30
AD(5)
A1 A0
AD(0) AD(3) 26
A3 A4
29
AD(4)
27 28
VDD3 VSS1
4.7Kohm

4.7Kohm

R3212
4.7Kohm

R3211

4.7Kohm
R3208

R3209

R3210

3.3Kohm

OPTION

CD(0:15)
AD(20)

AD(19)

AD(18)

AD(17)

AD(16)

AD(0:20)
S_5V D5V
4.7KohmAD(15)

4.7KohmAD(14)

4.7KohmAD(13)

4.7KohmAD(12)

4.7KohmAD(11)

4.7KohmAD(10)

CN3202 SERVICE
BD3204 MPZ2012S300A
1
2
R3230
R3213

R3214

R3215

R3216

R3217

R3218

C3213 C3214 1/10W C3221 C3220

IC3204 IC3205
47uF 100nF 10Kohm 47uF 100nF
MAX232ECWE 16 MAX232ECWE 16

1 C3215 1 C3222
CN3205 C1+ C1+

VCC

VCC
C3216 100nF 2 100nF C3223 100nF 2 100nF
155-09102Q170-LF V+ V+
3 3
C1- C1-
C3217 100nF 6 C3224 100nF 6
MGND1 V- V-
C2+
4 C3218 C2+
4 C3225
100nF 100nF
1 5 5
C2- C2-
6
2 14 11 14 11 R3225 100ohm
RXD_ANY TXD_GF
1

TP3203 T1OUT T1IN T1OUT T1IN

S_3.3V 7
3 R3228 0ohm 7 10
D3201
PMLL4148 7 10
1

TP3204 T2OUT T2IN T2OUT T2IN

R3220 R3221 8 1/10W
10Kohm 10Kohm 4 13 12 R3222 100ohm 13 12 R3226 100ohm
CN3203 CN3204 9
R1IN R1OUT
TXD_ANY R1IN R1OUT
RXD_GF
slcon8p slcon8p 5 R3229 0ohm 8 9 8 9

GND

GND
1

TP3205 R2IN R2OUT R2IN R2OUT

R3227
1/10W
TMS_MICOM PMLL4148 1Kohm
3

8 8
C3219 ZD3211 15 15
RD8.2MB ZD3212 D3202 R3223
100nF
TDO_MICOM MGND2 RD8.2MB 1Kohm
2

7 7
1
1

1
1
2

6 6 ZD3213 ZD3214 JA3201

R3224 RD8.2MB RD8.2MB 00052518
TDI_MICOM CPU_nRESET
3

5 5
100ohm JA3203 1
3

TP3201 00052518 6
4 4
1

ZD3209 1 5
2

RD8.2MB 6 2
TCK_MICOM
1
1

3 3 5 JA3202 3
ZD3210
2

2 00052518 4
1

TP3202 2 2 RD8.2MB 3 1
SUPLVAL
3

4 6
1 1 5
3

3
2
ZD3202 3 ZD3215
ZD3201 RD8.2MB ZD3216 RD8.2MB
2

2
RD8.2MB 4 RD8.2MB
ZD3204 ZD3217
1
1

1
1

1
1

1
1
ZD3203 ZD3218
RD8.2MB RD8.2MB
2

2
RD8.2MB RD8.2MB
3

3
SERVICE

10-30 Samsung Electronics

 Schematic Diagram

10-2-29 Signal Switch

This Document can not be used without Samsung’s authorization.
A19V

32PIN_CONNECTOR(MALE)

MGND2
A8V 3703-001124 1
17

C3302 A5V 2
18
R3301 0ohm 100nF 3
1/10W 19
4
C3301

2
20
47uF D3301 4440_SCLKO 5
SDS7000 4440_LRCLKO
21
4440_SDO
6
4440_AUD_CLK
D3302
A8V

3
R3302 22
NRSTO
SDS7000 IC3301 22Kohm 7
4.7uF WOOFER_MUTE
C3303 10uF 1
TEA6425D
20 C3304
R3304
100ohm
D5V 23
8
V2_CVBS R3303 100ohm 2
IN1 VCC
19
C
Q3301 24
SDA_5 SDA OUT1 B
C3324 10uF 3 18 E KSC1623-G 9
AV1_V_Y R3305 100ohm 4
IN2 OUT2
17 25
SCL_5 SCL OUT3
C3325
C3326
100nF
100nF
5
6
IN3 OUT4
16
15
S_3.3V 10
26
7
IN4
SUB
OUT5
OUT6
14
R3306
AV2_CVBS_OUT SCL_5
SDA_5
11
C3305 10uF 8 13 R3307 R3308 27
IN5 OUT7 4.7Kohm
AV2_V_Y 9
VCCP OUT8
12 22Kohm 470ohm 12
C3306 10uF 10 11 28
IN6 GND R3309 R3310 R3311 R3312 R3313 R3314
V1_CVBS 4.7Kohm 4.7Kohm 4.7Kohm 4.7Kohm 4.7Kohm 4.7Kohm
13
AV1_SL_OUT
29
75ohm

75ohm

75ohm

75ohm

96H
1/10W

1/10W

1/10W

1/10W

14
AV1_SR_OUT
30
10uF C3307 AV1_CVBS_DET
15
AV2_SL_OUT
DEC_M_CVBS AV2_CVBS_DET
31
R3338

R3339

R3340

R3341

A5V AV2_SR_OUT
16

DEC_S_CVBS 32

MGND1
A8V
C3309 R3315
10uF

0ohm
AV1_R_C PCN10EA-32P-2.54DS
1/10W CN702
C3310 10uF
R3317
0ohm R3316
AV1_V_Y
1/10W 0ohm R3318

MGND2
1/10W
22Kohm
C3312 4.7uF
C3311 100nF IC3302 0ohm R3349
C3313 R3319 MSP_WOOFER
47uF TEA6425D 1/10W 1
100ohm C AV1_SL_IN
1 20 B Q3302 0ohm R3350 17
R3320 100ohm IN1 VCC WOOFER_OUT WOOFER_DET
SDA_5 2-C6,5-A1,#4 2
3
SDA OUT1
19
18 R3321 10ohm
E KSC1623-G 1/10W
AV1_SR_IN
2
18
IN2 OUT2 CAP_CVBS
SCL_5 2-C6,5-A1,#4 R3322 100ohm 4
5
SCL OUT3
17
16
1/10W
DEC_M_SY 29-C6 AV1_CVBS_OUT AV2_SL_IN
3
19
IN3 OUT4 DEC_M_SC
6 15 4
IN4 OUT5 DEC_S_SY R3323 R3324 AV2_SR_IN
7 14 20
C3314 10uF 8
SUB OUT6
13
DEC_S_SC 22Kohm 470ohm
(TV OUT) 56371_PCMO
5
AV2_V_Y 29-B1
9
IN5
VCCP
OUT7
OUT8
12 R3325
AV1_BL_IN
21
C3315 10uF 4.7Kohm
AV2_R_C 7-C1,8-A2,29-C6 10
IN6 GND
11
1/10W 0ohm R3351
AV2_BL_IN
6
22
56371_SPDIFO
1/10W 7
AV1_CVBS_OUT
90H 23
8
AV2_CVBS_OUT
24
9
AV1_G
A8V 25

D3303 D3304 D3305 D3306 A9V AV1_B

10
26
R3327 0ohm SDS7000 SDS7000 SDS7000 SDS7000 11
AV2_G
1/10W
C3316 C3317 R3348 0ohm 27
47uF 100nF 1/10W 12
AV2_B
1

28
C3327
13
100nF AV1_R_C
29
IC3303 14
AV2_R_C
3

TEA6425D 30
C3318 10uF 1 20 IC3304 15
S-VHS1Y R3328 100ohm 2
IN1 VCC
19 TEA6422D AV1_V_Y
31
SDA_5 SDA OUT1 C3328
C3319 10uF 3 18 22uF 16
S-VHS1C R3329 100ohm 4
IN2 OUT2
17 16V 1 28 R3352 100ohm
AV2_V_Y
32
SCL_5 SCL OUT3 GND SDA SDA_5

MGND1
C3320 10uF 5 16 2 27 R3353 100ohm
S-VHS2Y IN3 OUT4 CAP SCL SCL_5
C3321 10uF 6 15 3 26 C3329
S-VHS2C R3330 4.7Kohm 7
IN4 OUT5
14 C3330 4
VS ADDR
25 10uF
SUB OUT6 AV1_SL_IN L1 R1 AV1_SR_IN
C3322 10uF 8 13 C3331 10uF 5 24 C3332
AV1_V_Y 9
IN5 OUT7
12
AV2_SL_IN 10uF 6
L2 R2
23 10uF
AV2_SR_IN PCN10EA-32P-2.54DS
VCCP OUT8
MONITOR_OUT L3 R3 CN703
10 11 7 22
AV1_R_C IN6 GND
8
NC NC
21
R3331 NC NC
C3323 R3336 C3333 9 20 C3334
75ohm

75ohm

75ohm

75ohm
1/10W

1/10W

1/10W

1/10W

0ohm R3332 R3333 R3334 V1_SL L4 R4 V1_SR

10uF
92H 4.7Kohm 4.7Kohm 4.7Kohm
R3335
4.7Kohm
4.7Kohm
V2_SL C3336
10uF
10uF 10
11
L5 R5
19
18
10uF C3335
10uF
V2_SR
R3337 L6 R6
12 17
10Kohm LOUT1 ROUT3 SR4_IN
13 16
RPUT1 LOUT3 SL4_IN
R3344

R3345

R3346

R3347

14 15
LOUT2 ROUT2 AV2_SR_OUT

AV2_SL_OUT
AV1_SR_OUT
AV1_SL_OUT

Samsung Electronics 10-31

 Operation Instruction & Installation

11. Operation Instruction & Installation

11-1 Product Features and Functions
11-1-1 Front Panel

7 8 1 2 3 4 5 6

1 SOURCE button 5 (Enter) button

Press to display all of the available video Press to confirm a selection.
sources (AV1, AV2, S-Video1, S-Video2,
Component1, Component2, PC, DVI and HDMI).
6 Power button
Press to turn the PDP Monitor on and off.
2 MENU button Power indicator
Displays the main on-screen menu. - Power Off : Blue
3 VOL +, - buttons - Power On : Off
Press to increase or decrease the volume. 7 Remote Control Sensor
Also used to select or adjust items on the Aim the remote control towards this spot on
on-screen menu. the PDP Monitor.
4 SEL ( , ) buttons 8 Illumination Sensor
Used to move up or down in the on-screen The illumination sensor for the auto brightness
menus. control function is located here.
9 Speaker

Samsung Electronics 11-1

Operation Instruction & Installation

11-1-2 Side of the PDP Monitor

Ferrite Cores
The ferrite cores are used to shield the cables from
interference.
S-Video Input
When connecting the S-Video 2, External IN2
(including Audio L/R), wind the cable around
Video Input the Ferrite Core once as shown in the figure to
the right.
When connecting the speaker cable, wind the
speaker cable around the Ferrite Core once as
Audio Input (L, R) shown in the following figure.

11-1-3 Rear Panel

1 POWER IN 8 SERVICE 1, 2
Connect the supplied power cord. Connector for service only.

2 HDMI IN 9 SUB WOOFER OUT

Connect to the HDMI jack of a device with Connect to an active SUB-WOOFER.
HDMI output.
10 COAXIAL DIGITAL AUDIO OUT
3 DVI IN Connect to a Digital Audio component.
- DVI : Connect to the video output jack of a
device with DVI output. 11 PC AUDIO IN
- AUDIO L/R : Connect to the audio output jack Connect to the audio output jack on your PC.
of a device with DVI output.
12 AV OUT (VIDEO / AUDIO L/R)
4 PC IN Outputs for external devices.
Connect to the video output jack on your PC.
13 RS232C
- IN : Used for the MDC (Multiple Display
5 COMPONENT IN 1, 2 Control) function when connecting PC or
Video (Y/PB/PR) and audio (L-AUDIO-R) RS232C output of another PDP Monitor.
component inputs. - OUT : Used for the MDC function when
connecting with RS232C input of
6 AV IN 1(VIDEO / AUDIO L/R) another PDP Monitor.
Video and audio inputs for external devices,
such as a camcorder or VCR. 14 OPTICAL DIGITAL AUDIO OUT
7 S-VIDEO 1 Connect to a Digital Audio component.
Video input for external devices with an
S-Video output, such as a camcorder or VCR. 15 EXT SPEAKER (8Ω)
Connect external speakers.

11-2 Samsung Electronics

 Operation Instruction & Installation

11-1-4 Remote Control

1 POWER button
Turns the PDP Monitor on and off.
2 ZOOM button
Press to magnify the screen.
3 STILLbutton
Press to pause the current screen.
4 Number buttons (This button is used to control the number buttons on a
Samsung Set-Top-Box)
5 +100 button (This button is used to control the +100 button on a
Samsung Set-Top-Box)
Press to select channels over 100. For example, to select channel
121, press “+100”, then press “2” and “1.”
6 MUTEbutton
Press to mute the PDP Monitor sound.
7 VOL (Volume) buttons
Use it to adjust volume.
8 TIMERbutton
Press to set the timer.
9 MENUbutton
Displays the main on-screen menu.
10 ENTER button
Confirms a selection.
11 P.MODE button
Adjust the PDP Monitor picture by selecting one of the preset factory
settings (or select your personal, customized picture settings).
12 S.MODE button
Select Sound effect.
13 LCD DISPLAY
When you press a button, ‘ ‘ appears along with selected mode
(VCR, CATV, DVD or STB) and the remote's battery charge status.
14 MODE button
Selects a target device to be controlled by the Samsung remote
control (i.e., VCR, Cable, DVD players or Samsung STB). If you
change modes, the new mode is momentarily displayed on LCD.
15 PRE-CH button(This button is used to control the PRE-CHbutton on a Samsung Set-Top-Box)
Tunes to the previous channel.
16 SOURCE button
Press to display all of the available video sources (AV1, AV2, S-Video1, S-Video2,
Component1, Component2, PC, DVI and HDMI).
17 CH (Channel)/P buttons (This button is used to control the Channel buttons on a Samsung Set-Top-Box)
Use it to switch channels. Move up or down pages on the menu and TV/Radio list.
18 INFO button
Press to display information on the PDP Monitor screen.
19 EXIT button
Press to exit the menu.
20 Up/Down/Left/Right buttons
Control the cursor in the menu. Continued...

Samsung Electronics 11-3

Operation Instruction & Installation

21 SLEEPbutton
Press to select a preset time interval for automatic shutoff.
22 SRS button
Selects Trusurround XT mode.
23 AUTO button
Press to reset automatically screen quality and position in PC
mode.
24 P.SIZE button
Select Picture size.
25 PIP control buttons
PIP: Activates picture in picture.
Size: Press to make the PIP window Large, Small or Double.
Swap: Exchanges the video signal that is currently displayed on
the main screen with the signal in the PIP window.
Source: Press to select one of the available signal sources for the
PIP window.
26 SETbutton
Used during set up of this Samsung remote control, so that it will
work compatibly with other devices (VCR, Cable Box and DVD).
27 DNIe button
Activates DNIe Demo.
28 E.SAVINGbutton
Press to adjust screen brightness according to surrounding
environment.
29 VCR, DVD control buttons
Controls VCR tape or DVD disc functions: Stop, Rewind,
Play/Pause, and Fast Forward.
30 RESETbutton
If your remote control is not functioning properly, take out the
batteries and press the reset button for about 2~3 seconds.
Re-insert the batteries and try using the remote control again.

11-4 Samsung Electronics

 Operation Instruction & Installation

11-2 New Features

11-2-1 Energy Saving Mode (Applies to the "Setup" of the User Menu)

- Location of the Ambient Light Sensor

The sensor is attached to the Power Assy., which is on the front of the PDP. The location of the sensor on the Power Assy is
displayed in the figure below. External light reaches the sensor through the guide of the Power Assy.

The screen brightness is adjusted according to the brightness measured by the Ambient Light Sensor, using the Multi APC
function (controls the number of sustain pulses according to the average signal levels) of the PDP panel, thus reducing power
consumption.

- Procedures for entering the menu: Select Menu → Setup → Energy Saving Mode

When pressing the "Energy Saving Mode" button on the remote control:
The Energy saving mode changes in the sequence of "Standard" → "Auto Saving" → "Super Saving".

- Description of each power saving mode

Standard: The screen brightness and the power consumption are not changed regardless of the ambient brightness measured
by the Ambient Light Sensor.
Auto Saving: The screen brightness and the power consumption are changed depending on the ambient brightness.
If the ambient brightness is low, it automatically turns the TV brightness down and reduces the power consumption.
Super Saving: This mode controls the screen brightness so that the power consumption is always reduced regardless of the
ambient brightness.

Samsung Electronics 11-5

Operation Instruction & Installation

11-2-2 PIP Settings (A : Analog, D : Digital, X : PIP doesn't operate, ○: PIP and swap operate)
Main screen
AV1 AV2 S-Video1 S-Video2 Component1 Component2 PC DVI HDMI
PIP screen
AV1 X ○ ○ ○ ○ ○ ○ ○ ○
AV2 ○ X ○ ○ ○ ○ ○ ○ ○
S-Video1 ○ ○ X ○ ○ ○ ○ ○ ○
S-Video2 ○ ○ ○ X ○ ○ ○ ○ ○
Component1 ○ ○ ○ ○ X ○ ○ ○ ○
Component2 ○ ○ ○ ○ ○ X ○ ○ ○
PC ○ ○ ○ ○ ○ ○ X ○ ○
DVI ○ ○ ○ ○ ○ ○ ○ X ○
HDMI ○ ○ ○ ○ ○ ○ ○ ○ X

Note : An external component must be connected for PIP to operate.

11-6 Samsung Electronics

 Operation Instruction & Installation

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 damage to the product or injury to yourself or others if you elect to perform the
wall installation.

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

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)

Wall Bracket Hinge Accessories

Wrench Bolt : 8

1 Left : 1 Right : 1

Samsung Electronics 11-7

Operation Instruction & Installation

11-3-3 Fixing the PDP panel to the wall attachment panel bracket

Remove the screws from the back panel of the main body of the PDP.
1
Remove the 8 screws

Fix the hinge to the back panel of the Hook the hinge on the wall mount.
2 PDP main body using the screws.
(8 Screws)
3

PDP Main Body

Hinge

11-8 Samsung Electronics

 Disassembly & Reassembly

12. Disassembly & Reassembly

12-1 Overall Disassembly & Reassembly
12-1-1 Separation of Back Cover
Part Name Description Description Photo
Back ① To replace the SMPS, Drive or a Buffer Board other than the
Cover Video or Logic Board, remove the screws and separate the
back cover.
6 white screws
: M8,L16,ZPC(BLK)
35 red screws
: BH,+,-,S,M4,L8,ZPC(BLK)

: The remaining current may cause an electric shock or static

electricity that may damage the product. Therefore, discon
nect the power cord and wait some time for the product to
be discharged before disassembling the product.

Samsung Electronics 12-1

Disassembly & Reassembly

12-1-2 Separation of Video Board

Part Name Description Description Photo
Terminal ① Remove the Terminal Cover screws.
Cover Red Circle screws 14
: BH,+,-,S,M4,L8,ZPC(BLK)

② Pull the Terminal Cover downwards lifting the lower part of

the cover.

Video ① Remove the 11 screws on the Digital or Analog Board.

Board : WSP,PH,+,M3,L8,NI PLT

① Remove the cables and separate the board.

: To remove a cable, pull it out holding the locking

hook down.

12-2 Samsung Electronics

 Disassembly & Reassembly

12-1-3 Separation of Logic Board

Part Name Description Description Photo
Video ① Remove 11 screws on the video board and 3 screws on the
Board AC line filter.
/ : WSP,PH,+,M3,L8,NI PLT
Sub -back
Terminal ② Remove the 4 screws of the Sub-Back Terminal.
: BH,+,-,S,M4,L8,ZPC(BLK),

SUB BACK

AC INNET

Logic Board ① Separate the cables.

To separate a cable, lift it using the appropriate force.

② Remove the 6 screws then the Logic Board.

: WSP,PH,+,M3,L8,NI PLT

: Notice the settings of the switches when replacing the Logic

Board. (Inside/Outside patten check)

: The cable connectors are fragile, so take care when

handling them.

Samsung Electronics 12-3

Disassembly & Reassembly

12-1-4 Separation of SMPS

Part Name Description Description Photo
SMPS ① Separate the Back-Cover.

② Separate the SMPS Cables.

① Remove 34 screws.
: WSP,PH,+,M3,L8,NI PLT

: Connect the connection cables connecting the Main and

the PFC, PFC and Multi terminals after discharging them
sufficiently when reassembling the SMPS.

: When performing the reassembly, adjust the voltage of the

SMPS terminals referring to the descriptions about adjust
ing the voltage after replacing the SMPS in section 3-1.

12-4 Samsung Electronics

 Disassembly & Reassembly

12-1-5 Separation of Drive Board

Part Name Description Description Photo
X-Drive ① Separate the Back-Cover.
Board
② Separate the connection Cables.

③ Remove 9 screws.
: WSP,PH,+,M3,L8,NI PLT

Y-Drive ① Separate the Back-Cover.

Board
② Separate the connection Cables.

③ Remove 9 screws.
: WSP,PH,+,M3,L8,NI PLT

12-1-6 Separation of Drive Board DC - DC

Part Name Description Description Photo
DC-DC ① Separate the Back-Cover.
Board
② Separate the connection Cable.

③ Remove 6 screws.
: WSP,PH,+,M3,L8,NI PLT

Samsung Electronics 12-5

Disassembly & Reassembly

12-1-7 Separation of Buffer Board

Part Name Description Description Photo
Buffer ① Separate the Back-Cover.
Board
② Separate the connection Cable.
- Lift the address buffer connector up with
the appropriate force.
- Hold both ends of the Y scan buffer connector and lift it up.
- Hold both ends of the X scan buffer connector,
and slide it backwards pressing the TCP.

: Since the COF connectors are fragile, take care when

handling them.

12-6 Samsung Electronics

 Disassembly & Reassembly

12-1-8 Separation of SIDE AV

Part Name Description Description Photo
SIDE_AV ① Separate the Back-Cover.

② Separate the connection Cable.

③ Remove 2 screws.
: BH,+,-,S,M4,L8,ZPC(BLK)

① Slide the mechanical part backwards and separate it.

② Slide the SIDE AV board backwards and remove it.

: The SIDE AV and the mechanical part are not fixed by

screws. Take care not to hold them with screws when
reassembling them.

Samsung Electronics 12-7

Disassembly & Reassembly

12-1-9 Separation of PDP Module

Part Name Description Description Photo
PDP Module ① Remove the Back-Cover.

② Remove the Sub-Back Cover.

③ Remove the 16 screws holding the supporting bars

illustrated in the figure.
: WSP,PH,+,M3,L8,NI PLT

: * Since the module is heavy, carry it with the assistance of

other persons.
* When dismantling the module, avoid letting the control
cable and SIDE _ AV cable hang loose.
* Since the module is fragile, keep it in a safe place after
dismantling it.

12-1-10 Assembly
- Assembly in the reverse sequential of disassembling.

12-8 Samsung Electronics

 Circuit Description

13. Circuit Description

13-1 Overall Block Description

Samsung Electronics 13-1

Circuit Description

13-1-1 Power ON/OFF Signal Timing Sequence

70 m Sec .
SSttaannddbbyy sstteepp ttuurrnn--ooffff
A C P O W E R O N /O F F A C POWER ON ffoorr µµ--pprroocceessssoorr rreesseett

5V
S t a n d -B y , 3.4 V
(P O P O p t i o n o u t p u t s )
P S _ O N (A c t i v e L o w )
f r o m PS Ex t e r n a l Rem o t e Co n t r o l l er ON OFF Rem o t e Co n t r o l l er ON
( Re m o t e c o n t r o l l e r O N / O F F)

PFC o u tp u t

D C O U T PU T S VVccaa
Va

D C O U T PU T S
D 5 .3 V ,A 6 .5 V ,1 2 V ,V a m p ,V t

O U T PU T S
Vg

V S _ O N (A c t i v e h i g h ) V S _ ON VS_ON
f r o m P/ S Ex t e r n a l

D C O U T PU T VVccss
Vs

D IS P L A Y O N / O F F DISPL A Y ON DISPL A Y ON

1. When connecting the AC power cord, Stand-By 5V from the Main SMPS is supplied to the Main Board (Pin 3 of CN1002 of Main
Board).

2. When pressing the Power button on the remote control or on the main body, PS_ON (Pin 5 of CN1002 of Main Board)
changes from High to Low.

3. If the PS_ON signal changes to Low, the Main SMPS supplies power to the Main Board and Logic Board, and Va and Vg power
is supplied to the DC-DC SMPS.

4. If the VS_ON signal from the Logic Board changes from Low to High, the Main SMPS supplies VS power to the X and Y Drive
Board through the DC-DC SMPS, and the screen displays a picture on it.

13-2 Samsung Electronics

 Circuit Description

13-2 Partial Block Description

13-2-1 SMPS Block Description

Digital B’D

Samsung Electronics 13-3

Circuit Description

1. Converter

13-4 Samsung Electronics

 Circuit Description

Samsung Electronics 13-5

Circuit Description

Converter No. 1
- A Boost Converter type has been used to generate DC 400V for switching devices with AC power (100V~220V) in order to
enhance the Input Line Current Harmonics.

Picture 1. PFC Drive FET(STW20NM50) Drain Pulse Picture 2. PFC Drive FET(STW20NM50) Gate Pulse
Q306~8, Q311~3 Drain Q306~8, Q311~3 Gate

Converter No. 2
-The Flyback Converter generates 5V Stby output voltage and the voltage for Internal Housekeeping Chores.
5V of Stby voltage enables the Micom to be awake so that it can drive the main power when the power plug is connected and
the Relay ON signal is applied. The Micom turns the mechanical switch to turn the Main Power Supply on.

Picture 3. Standby Flyback Pulse.

U305 pin 5,6,7,8

13-6 Samsung Electronics

 Circuit Description

Converter No. 3, 4, and Converter No. 5

- This generates the voltage (Vsx, Vsy, Va) for the Sustain Discharge of the PDP using a Full-Wave Bridge ZVS
(Zero Voltage Switching) Converter.

Picture 4. Vs Driving FET(SPW20N60) Drain Pulse wave. Picture 5. Vs Driving FET(SPW20N60) Gate Pulse.
Q1~Q12 Drain Q1~Q12 Gate

Converter No. 6
- This generate multi outputs (3V, 5.3V, 13V, 15V, 19V, 33V) using Double-Switch Forward Sync Switches.

Picture 6. Q102 Driving FET(STW20NM50) Drain Pulse wave. Picture 7. Q102 Driving FET(STW20NM50) Gate Pulse.

Samsung Electronics 13-7

Circuit Description

Converter No. 7,8 and 9

- This generates Vset, Vscan and Ve output using the Flyback Converter. Vscan and Ve are generated based on Vsx, and Vset
is generated based on Vsy.

Picture 8. Ve(Q200) Driving FET(STW20NM50) Drain Pulse wave. Picture 9. Ve(Q200) Driving FET(STW20NM50) Gate Pulse.

2. SMPS Input
- nominal input voltage : 100 VAC - 240 VAC RMS nominal.
- Operable input voltage : 85 VAC - 269 VAC

3. SMPS Outputs
Output Name Output Voltage Output Current (Max) Use in PDP
V1(Vsx) 205V 5A X drive B'D
V2(Vsy) 205V 5A Y drive B'D
V3(Va) 70V 8A Address B'D
V4(Vg) 15V 2.5A MOSFET Drive
V5(D5.3V) 5.3V 3A Drive, Buffer, Logic
V6(D3.4V) 3.4V 8A Logic B'D
V7(D13V) 13V 6A Image B'D
V8(Vamp) 19V 2.5A Audio
V9(Vt) 33V 0.006A Tuner
V10(Vscan) -100V 0.2A Drive B'D
V11(Vset) 160V 0.3A Drive B'D
V12(Ve) 160V 0.3A Drive B'D
V13(STD_5V) 5V 1.0A Standby

13-8 Samsung Electronics

 Circuit Description

4. SMPS Protection
1) Over voltage Protection : Over-voltage Protection: SMPS changes to latch-mode under the following conditions.
Output Name OVP Trip Range
V1(Vsx) 221 -264V
V2(Vsy) 221 -264V
V3(Va) 86 - 102V
V4(Vg) 15.8 - 18.9V
V5(D5.3V) 6.06 - 7.2V
V6(D3.4V) 3.63 - 4.32V
V7(D13V) 13.78 - 16.38V
V8(Vamp) 21.21 - 25.2V
V9(Vt) 121 - 144V
V10(Vscan) 222 - 264V
V11(Vset) N/A
V12(Ve) 181 - 216V
V13(STD_5V) N/A

2) Short Circuit and Over Current Protection : SMPS changes to latch-mode under the following conditions.
Output Name OVP Trip Range
V1(Vsx) 10.1 - 12A
V2(Vsy) 10.1 - 12A
V3(Va) 10.1 - 12A
V4(Vg) 4.6 - 5.4A
V5(D5.3V) 5.1 - 6A
V6(D3.4V) 10.1 - 12A
V7(D13V) 7.1 - 8.4A
V8(Vamp) 3.1 - 3.6A
V9(Vt) .008 - .03A
V10(Vscan) .31 - 1.5A
V11(Vset) .31 - 1.3A
V12(Ve) .31 - 1.0A
V13(STD_5V) 1.6 - 3A

Samsung Electronics 13-9

Circuit Description

13-2-2 Logic Board

1. Logic Board Layout

G-buffer F-buffer E-buffer

X-
bu
ffe
Y- DCDC r
bu
ffe
r-
SMPS
up

X-main

Y- Y-main
bu
ffe
r-
Logic Main
do
wn
X-
bu
ffe
r

E-buffer F-buffer G-buffer

2. Logic Board Signal Flow Diagram

13-10 Samsung Electronics

 Circuit Description

3. Major Part Names and Terminologies of the Logic Board

1 7 20

8
2
21

19
3 22
9 15
4
23

11 16

10
17
5
24
18

12

13

14

No Loc. No. Description

The connector that receives the LVDS-encoded RGB, H, V, DATAEN, DCLK signals from the Video
1 LVDS connector(31pin)
Board.
2 LVDS decoder IC(DS90CF388) Decodes the LVDS-encoded RGB, H, V, DATAEN, DCLK signals from the Video Board.
3 DIP SWITCH Switch to select either an internal or external signal (Internal:1,3 External:1,5)
4 Y connector(50 pin) The connector that outputs the control signal for the Y Drive Board.
5 I2C connector(4 pin) The connector connecting a keyscan board that loads and controls 512K data.
6 Front EEROM(1.2.3)(ATMEL) Front_XY DATA Configuration
7 50 pin connector(CN2009~CN2014) The connector that outputs the address data and the control signal to the upper E, F, G-Buffer Board.
8 541 Buffer IC Amplifies the 3.3V signal for the upper output part to 5V.
9 DDR SDRAM IC R/G/B data Frame memory
This LED indicates if the Sync and clock signals have been input properly to the Logic Board. (Normal
10 Operating Indicator LED
Status: Blinks at 1 second intervals)
11 Front_XY(ALTERA 1S80) The main processor that generates and outputs the logic drive signal and the address data.
12 256K(ATMEL) EEPROM where the Gamma table, APC table, Drive waveform timing and other options are saved.
13 541 Buffer IC Amplifies the 3.3V signal for the lower part output into 5V.
14 CN2015~CN2020 The connector that outputs the address data and the control signal to the lower E, F, G-Buffer Board.
15 SDR SDRAM Frame memory (for each of R/G/B) for rearranging the data in the upper segment.
16 V-TOGG V-SYNC output pin.
17 SFP IC(Xilinx spartan XC2S600E) Generates data for each SUB_FIELD of R, G and B which is sent to the Logic Buffer.
18 SDR SDRAM Frame memory (for each of R/G/B) for rearranging the data in the lower segment.
19 Clock Buffer IC(CY2309) Amplifies the signal for each IC.
20 Power connector The connector that receives power for the Logic Board (5V / 3.3V).
21 Power regulator Generates power voltages for each IC (Input 3.3V → Output 1.8V, 1.5V, etc.)
22 RESET IC Resets the system.
23 X connector The connector to output the control signal for the X Drive Board.
24 SFP EEROM(1.2.3) Front_XY DATA Configuration

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Circuit Description

4. Operation
The Logic Part consists of a Logic Main Board, which performs video signal processing, outputs the Address Data signal for each
pattern and generates and outputs the XY Drive signal, and an Address Buffer Board, which buffers the Address Data Output sig-
nal and delivers the signal to the COF IC.
Logic Board Function Remarks
- Performs video signal processing (W/L, Error Diffusion, APC, FCR, etc.)
- Outputs the Address Drive IC control signal and the data signal to the
Logic Main
Buffer Board
- Outputs the XY Drive Board control signal
E Buffer board Delivers data and control signals to the bottom left TCP Vertically
Buffer Board F Buffer board Delivers data and control signals to the center TCP Symmetric
G Buffer board Delivers data and control signals to the bottom right TCP Design

13-12 Samsung Electronics

 Circuit Description

13-2-3 Drive Board

1. 80" Drive Y_MAIN Block Diagram

2. 80" Drive X_MAIN Block Diagram

2. 80" Drive MAIN Block Diagram

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Circuit Description

4. Operation

■ Drive Circuit Overview

1) Drive Circuit Definition
The Drive Circuit is a circuit that generates a waveform (high-voltage pulse) for the X and Y electrode groups and the
ADDRESS electrode of the panel's external port so as to control the panel. The high-voltage switching pulse is generated
through a combination of MOSFETs.
2) Drive Circuit Mechanism
A picture is displayed on the PDP by applying voltage to the X, Y and ADDRESS electrodes of each pixel according to the
appropriate condition. The generally applied drive waveform is ADS (Address & Display Separate: The drive method that
separates the Address and Sustain sections). Based on this method, the discharges occurring within a PDP pixel can be
classified into 3 types as follows.

→ Address Discharge: To form a wall voltage within the pixel by giving information (applying DATA voltage)
to the pixel for it to be lit.
→ Sustain Discharge: A Sustain Discharge is a display section that voluntarily maintains the discharge of the pixels where the
wall voltage has been formed by the Address Discharge.
(Optical output to the display picture is generated).
→ Erase Discharge: To perform an Address Discharge for each pixel selectively, all pixels on the panel should be in the same
status (the wall electric charge status and the space electric charge status must be the same). Therefore,
the Erase Discharge section is an important component to guarantee a drive margin, and is implemented
by various methods such as applying the log waveform. However, the most widely used method is the
Wall Voltage Control by the RAMP Waveform.

■ Required Components for the Drive Circuit Operation

1) Power
- Power is supplied by the Power Board. The optimal value may differ from the following values.
a) Vsy : 205V - Y Sustain
b) Vset : 170V ~ 180V - Y Rising Ramp
c) Vsc_l : - 140V ~ -110V - Y scan low
d) Vnf : - 130V ~ -100V - Y negative falling
f) Vsc_h : 80V ~ 100V - Y Scan Bias
g) Vsx : 205V - X Sustain
h) Ve : 160V - Ve bias
i) Vbf : 135V - Vbf bias
j) Vdd : 3.3V - Logic signal buffer IC
k) Vcc : 15V - FET Gate drive IC

2) Logic Signal
- Supplied by the Logic Board.
- Gate signal of each FET

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 Circuit Description

■ Drive Circuit Layout and Functions

1) X Board
Connected to the X Terminals of the panel
① Sustain voltage waveform (including ERC)
② Maintenance of a Ve Bias in the Scan section
③ Maintenance of a Vbf Bias in the Y falling ramp section
2) Y Board
Connected to the Y Terminals of the panel
① Sustain voltage waveform (including ERC)
② Generation of a Y Rising and Falling Ramp waveform
③ Maintenance of Vscan Bias
3) Y Buffer Board (Upper, Lower)
This board applies the Scan waveform to the Y Terminals and consists of an Upper Board and a Lower Board.
17 Scan Driver ICs (STMicroelectronics STV755864: 64 or 65 outputs) are installed on the single board.
4) COF
Applies a Va pulse to the ADDRESS electrode in the Address section and generates an Address Discharge by the voltage
differ ence between the scan pulse applied to the Y electrode and the Va pulse. It is designed in the form of a COF. A COF
consists of 4 Data Drive ICs (STMicroelectronics STV7610A: 96 outputs). For an FHD Dual Scan, 30 COFs are required.

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Circuit Description

■ Summary of the Drive Circuit Specifications

1) Drive Waveforms
Vsy+Vset

Vsy Vsy Vsy

Vsc_h Vsc_h

Vsc_l
Vnf Vnf Vsc_l

Vsx Vbf Vb Vbf Vb Vsx

Vsx Vsx

RESET ADD SUSTAI N RESET ADD SUSTAI N

Vs 205V Ve 160V
Vs e t 170V Va 75V
Vs c a n 90V Vb f 135V

2) Description of Each Pulse

① Y Rising Ramp Pulse
In the Y Rising Ramp section, approximately 390V~400V of external voltage is applied to the Y electrode and a weak dis
charge starts when the gap voltage is equal to the discharge start voltage. While the weak discharge is maintained, overall a
negative wall charge is accumulated in the Y electrode and a positive wall charge is accumulated in the X and the ADDRESS
electrodes.
② Y Falling Ramp Pulse
In the Y Falling Ramp section, with approximately 135V of Xbf bias, most of the negative wall charge accumulated in the Y
electrode is used to remove the positive wall charge accumulated in the X electrode. The ADDRESS electrode maintains most
of the accumulated positive wall charge in the (0V) Rising Ramp section so that the wall electric charge distribution is favorable
to the subsequent address discharge.
③ Y Scan Pulse
This is called a Scan Pulse. A Scan Pulse is applied to the Y electrode one after the other (Line-at-a-time). At this point, Vscan
is called the Scan Bias Voltage. For the electrode line to which the Vscan voltage is applied, approximately 65 Volts (Vscan)
are applied, while 0 Volts (GND) are applied to the other lines.
However, since a negative wall charge is accumulated in the Y electrode by applying the Ramp Pulse and a positive wall
charge is accumulated in the ADDRESS electrode, a voltage higher than the Discharge Start Voltage is applied to the cells to
which the Address Pulse (60V~70V) is applied and the address discharge begins. Since a Scan Pulse and a Data Pulse are
applied to a line one after the other as described above, the PDP address time takes some time.
④ 1st Sustain Pulse
A Sustain Pulse always starts from the Y electrode. This is because the address discharge forms a positive wall charge in the
Y electrode. Since the wall electric charge formed by an address discharge is generally smaller than the wall electric charge
formed by a sustain discharge, the intensity of the initial discharge is low. The discharge is generally stabilized after 5 or 6 dis
charges depending on the electrode structure and environment. Therefore, the reason for the long initial Sustain Pulse is to
make the initial discharge stable and to form a maximum wall electric charge.

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 Circuit Description

5. Drive Board Connector Layout

1) X_main

Samsung Electronics 13-17

Circuit Description

2) Y_main

13-18 Samsung Electronics

 Circuit Description

13-2-4 DC-DC Board

1. 80" DC-DC Board MAIN Block

VS VSCAN_L BLOCK GND

(200V) Flyback GND
VS VSCAN_L BLOCK
VSCAN_L
(200V) Flyback
(- 140V)
VSCAN_L
(-GND
140V)
VNF BLOCK
Flyback GND
VNF BLOCK
VNF
Flyback
(- 130V)
VNF
(- 130V)
VSCAN_H
VA VSCAN_H BLOCK (+ 100V)
VSCAN_H
(65V) Flyback
VA VSCAN_H BLOCK (+ 100V)
VSCAN_L
(65V) Flyback
(- 140V)
VSCAN_L
(- 140V)
VCC_F
REG
(+ 15V)
VCC_F
REG
(+ 15V)
VSCAN_L
(- 140V)
VSCAN_L
(- 140V)

2. 80" DC-DC Board Protection Block

VSCAN_L BLOCK VNF BLOCK VSCAN_H BLOCK
Flyback Flyback Flyback
VSCAN_L BLOCK VNF BLOCK VSCAN_H BLOCK
Flyback Flyback SENSING Flyback
SENSING SENSING
VCC
VCC VCC SENSING LAT CH UP
SENSING SENSING
VCC VSCAN_H BLOCK
VCC VCC LAT CH UP
VSCAN_H BLOCK
D5.3V

D5.3V
PROT ECT ION PROT ECT ION PROT ECT ION
DELAY BLOCK SENSING BLOCK LAT CH UP BLOCK
PROT ECT ION PROT ECT ION ABNORMAL PROT ECT ION
DELAY BLOCK SENSING BLOCK LAT CH UP BLOCK
ABNORMAL

VS- ON Signal
WHEN VS_ON SIGNAL INPUT HIGH
VS- ON Signal
PROT ECT ION ENABLE AFT ER 2~ 3 SECONDS
WHEN VS_ON SIGNAL INPUT HIGH
(PROT ECT ION DELAY T IME : 2~ 3 S)
PROT ECT ION ENABLE AFT ER 2~ 3 SECONDS
(PROT ECT ION DELAY T IME : 2~ 3 S)

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Circuit Description

3. Operations
1) Overview
: The DC/DC board used for an 80 inch module outputs scan related voltages for the Drive Board. Flyback Topology has been
adopted using the Fairchild Power Switch FS7M088. Flyback Topology is the most widely used topology because it is easy to
control and consists of simple circuits.
2) Input Terminal
:This receives VSX (+205V) and VA (+65V) voltages from SMPS as inputs and consists of a DC/DC Block that consists of 3
Main Blocks. It receives the 5V and the VS_ON voltages used by the Protection Block from the Drive Board
3) Output Terminal
: The 80" DC/DC Board has 4 outputs. The output voltage and the current specifications
for successive operations are listed below.

Output Name Output Voltage Output Current(Max.) Remarks

VSCAN_L -110V~-140V(-130V) 0.4A
VNF -110V~-130V(-120V) 0.2A
VSCAN_H 80V~100V(90V) 0.2A 90V in comparison with VSCAN_L
VCC_F 15V 0.3A 15V in comparison with VSCAN_L

Table1. 80"DC/DC Output Voltage and Current Specifications

4) Protection
: The 80 inch DC/DC Board has a built-in protective function to protect the Drive Board in case of abnormal operations.
The protective operation is described in the above Protection Block Diagram.
It detects the Vcc voltage of the power switch of the 3 Flyback Blocks that receives the VSX and VA voltages and outputs 4
output voltages. If the voltage is lower than the set Vcc voltage, it is recognized as a protective operation and cuts off the
VSCAN_H and VCC_F output of the VSCAN_H Block.

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 Circuit Description

5) Description of Each Part

① VSCAN_L, VNF Block
: Flyback Topology is implemented using the Fairchild Power Switch FS7M0880. Input voltages are the VSX and VA
voltages from SMPS. The switching frequency is approximately 67 KHz and is fixed.
It has self bias features as it receives the VSX and VA voltages as inputs, begins operating with the voltages through the
start resistance and then uses Vcc voltages through the auxiliary coil of the Flyback Transformer.
It outputs a VSCAN_L voltage, which has a variable range of -110V ~ -140V, VNF voltage, a VSCAN_H voltage, which has
a variable range of +80V ~ + 100V in comparison with the VSCAN_L voltage, and +15V voltage in comparison with the
VSCAN_L voltage.

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Circuit Description

13-2-5 Video Block Description

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 Circuit Description

1. Initial Operation
■ Standby Status when the power is off: The blue LED is lit and pin 10 of CN101 is in S_5V status.
■ When the power is on :
- If the power is turned on through the remote control, an IR signal is applied to pin 76 of IC3103 → this changes pin 90 of
IC3103 to low to display on the screen.

- If the power is turned on through the Power switch on the Control Board → the signal is applied to pin 125 of IC3103
→ this changes pin 90 of IC3103 to low to display on the screen.

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Circuit Description

2. Operation of Video and S-Video IN

■ If the video signal comes through the Video IN port, a DEC_M_CVBS signal is transmitted through pin 13 of IC3301
(Video Switch) and pin 111 of IC1002 (Decoder).

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 Circuit Description

■ If the video signal comes through the S-Video IN port, the DEC_M_SC and DEC_M_SY signals are transmitted through pins
1 and 3 of IC3303 (Video Switch) and pins 115 and 126 of IC1002 (Decoder).
※IC3301 and pins 2 and 4 of IC3303 perform I2C communication.

<DEC_M_SY>

<DEC_M_SC>

<I2C Communication Waveform>

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Circuit Description

■ Toshiba Decoder IC1002 TC90103FG (10 bit processing with built-in 3D - Comb) Operation
- Receives the video signal from the video switch and sends the signal to Yuv 10bit Signal IC 2000(CPLD).
- Pin 60 operates at DEC_M_CLK 27MHz
- Pins 40 and 41 perform I2C communication
* Measuring Conditions: Color Bar Signal

<DEC_M_Y(0)>

<DEC_M_CLK>

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 Circuit Description

3. Operation for Component IN

1) The Y, Pb and Pr signals from the Component 1 or 2 IN ports are sent to pins 2, 8 and 14 of IC1601 (AD Converter), or pins
4,10 and 16 Y of IC1601, respectively.
* Measuring Conditions: 720p Color Bar Signal

<COMP1_Y>

<COMP1_Pr>

<COMP1_Pb>

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Circuit Description

■ 10 bits each for R, G and B are sent to IC 2000 (CPLD)

■ The output from AHD_V (V Sink : Pin 22), AHD_H (H Sink : Pin 23) and AHD_CLK (CLK : Pin 25)
is different depending on the signal.
* Measuring Conditions: 720p Color Bar Signal

<AHD_CLK>

<AHD_V>

<AHD_H>

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 Circuit Description

2) For 480i Main

For 480i, the main component signal is processed by Toshiba via the TEA6425 low pass filter. The subsequent processes are
the same as those for the Video signal.

480i Input Signal 480i Main Signal

<LOW PASS FILTER>

<Toshiba Input Signal>

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Circuit Description

3) For 480i Sub

For 480i, the sub component signal passes through the buffer and the low pass filter via CXA2171. After that, the signal is sent
to the CPLD via Toshiba TC90103FG (IC1106).

480i Component
Sub Output
Signal

<LOW PASS FILTER>

<Sub Toshiba Decoder Input>

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 Circuit Description

4. Operation for HDMI IN

■ A differential signal from the HDMI IN port is sent to IC1301 (TMDS Receiver).
* Measuring Conditions: 720p Color Bar Signal

<HDMI_RX1-_1,HDMIRX1+_1>

<HDMI_V>

<HDMI_H>

<HDMI_CLK>

Samsung Electronics 13-31

Circuit Description

■ Operation of the TMDS Receiver SIL9993

- IC1301 sends an input differential signal to the Parallel 24Bit YUV Signal IC2000 (CPLD).
- Output from HDMI_V (V Sink: Pin 34), HDMI_H (H Sink: Pin 33) and HDMI_CLK (CLK: Pin 46) are
different depending on the signal.
- I2C communication through pins 74 and 75
- EDID communication using I2C communication with IC1202 (EPROM for EDID) through pins 76 and 77

5. Operation for DVI IN

■ A differential signal from the DVI IN port is sent to IC1401 (TMDS Receiver)
* IC1401 operates the same as IC1301.

6. IC 2000 CPLD process

■ CPLD consists of two blocks.
1) Video Signal Switch Processing Block
- Receives signals from each input port and communicates with IC2601 (DNIe4). Its major role is switching
the two video signals into main and sub pictures.(Internal program download required)
2) Serial - Parallel Communication between IC 2100 (Scaler) and the CPU Block
- These lines are used for communication between the CPU and IC2100 for operations such as the initial startup,
OSD display, etc.This is called GSPI communication. There are GSPI_CLK, GSPI_SI, GSPI_SO, GSPI_HBUSY and
GSPI_CS lines.
. GSPI_SI : Command line from the CPU to IC2100.
. GSPI_SO : Data line from IC2100 to the CPU.
. GSPI_CS : The Chip Select line that enables communication between the CPU and IC2100.
. GSPI_CLK : The clock that becomes the standard for data communication between the CPU and IC2100.
. GSPI_HBUSY : This means that some data is being processed with the signal from IC2100.

13-32 Samsung Electronics

 Circuit Description

Samsung Electronics 13-33

Circuit Description

* GSPI is normal if the DATA, CLK and CS signals are detected when the OSD is displayed.

<IC2000>

<GSPI_SO,GSPI_SI>

<GSPI_CS>

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 Circuit Description

7. Signal processing after IC 2000 (CPLD) that receives signals from the input ports.
- The signals from the input ports are sent to the CPLD, and go through IC 2000(CPLD) → IC2601(DNIe4) → IC2100(Gennum)
→ IC2601(DNIe4) → IC2801, IC2802(LVDS) in this order, and are sent to the module logic for signal processing.
① The process between CPLD and DNIe4 (Super NR process)
* CPLD outputs of the VP1_R (0:9), VP1_G (0:9), VP1_B (0:9), VP1_H,P1_V, VP1_CLK, and VP1_FDE
② The process for DNIe4 → Gennum
* For the signals from CPLD, DNIe4 performs NR processing and sends them to Gennum.
* DNIe4 outputs of the DNIe_R_GE(0:9), DNIe_G_GE(0:9), DNIe_B_GE(0:9), DNIE_CLK_GE, DNIE_V_GE, and DNIE_H_GE
signals are sent to DNIe4 depending on the input signals.

<TP2104>

<TP2116>

Samsung Electronics 13-35

Circuit Description

③ The process for Gennum → DNIe4

* For the signals from DNIe4, Gennum performs processing such as Format Conversion, De-interlacing, etc. and then returns
them to DNIe4.
* Gennum outputs of the R_EVEN(0:11) / R_ODD(0:11), G_EVEN(0:11) / G_ODD(0:11), B_EVEN(0:11) / B_ODD(0:11), GF_H,
GF_V, GF_FDE, and GF_CLK signals are sent to DNIe4 depending on the input signals.

<TP2118>

<IC2100>

<TP2207>

<TP2210>

<TP2212>

13-36 Samsung Electronics

 Circuit Description

<TP2210>

<TP2212>

④ Process between DNIe4 LVDS

* The signal that is processed by the visual quality enhancement algorithm of DNIe4 is sent to LVDS and then sent to Logic.
* Gennum outputs of the DNIE_R_EVEN(0:11) / DNIE_R_ODD(0:11), DNIE_G_EVEN(0:11) / DNIE_G_ODD(0:11),
DNIE_B_EVEN(0:11) / DNIE_B_ODD(0:11), DNIE_H, DNIE_V, and DNIE_CLK signals are sent to LVDS depending on the
input signals.

※ If no picture is displayed on the screen and the Video Board seems to be out of order, check the TP points of TP2212, TP2210,
TP2207, TP2118, TP2104, and TP2116 first.
* LVDS transmits the differential signal such as O_TXCLKB+, O_TXCLKB-, etc. to the Logic of the Module to display a picture
on the screen.

8. OSD Operation
- OSD loads the data saved in IC2402 (OSD Flash Memory) to IC2201 and IC2202 (DDR Memory for OSD) by communicating
with IC2100 (Gennum), IC2406, and IC2407 (Gennum Program Memory) when the Power button is pressed.

9. C1901 SDP51 Operation

- IC1901 deinterlaces the signal when the 480i signal is input for the sub screen.

Samsung Electronics 13-37

 MEMO

13-38 Samsung Electronics

 Reference Information

14. Reference Information

14-1 Other issues related to other products
Problem Descriptions
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.
A fixed screen can cause
However, the DLP TV has the advantage that no stains or after-images are left on the screen.
permanent damage to the TV
The DLP TV has mirror pixels on the DMD panel that project the beam onto the screen, in
Braun tube.
which 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.
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 SERVICE
jack port of the SKY500N, it fails to turn the TV off after a connection has been reported.
Confusion between the
The ANYNET port uses an RS232 port called Phone Jack, and the SERVICE jack port also
ANYNET Port and the
uses the RS232 port. However, you must not connect the SERVICE port and the ANYNET port.
SERVICE Jack 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 the
connection.
- 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
Length of DVI Cable / PC RGB
than for normal use, check the visual quality of the video on the screen and shorten the
Cable
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 TV The digital distributed TV (Ready Technique) can render HD sources as HD-rated.
user receives HD-rated However, you need to install a set-top box for this purpose. The digital TV alone cannot render
broadcasts: HD broadcasting as HD-rated. Install the formal set-top box for HD broadcasts.
When a digital distributed TV
The digitally distributed TV (Ready Technique) renders any broadcasting service as SD-rated.
user selects normal size (4:3) to
However, when connected to a set-top box, the digital TV renders HD broadcasts as HD-rated
receive SD-rated digita
and renders SD as SD-rated. The screen size is scaled to 4:3.
broadcasts:
The digitally integrated TV ("built-in" type) renders SD broadcasting as SD-rated.
This can be understood easily.
When a digitally built-in TV user
Even a high-resolution TV cannot improve a low resolution picture into high quality.
receives SD (air) broadcasting:
In contrast, an SD-rated TV cannot represent HD broadcasting as HD because the resolution of
the TV is lower than the original.
The representation capability of SD or HD-rated depend entirely on the TV set. The HD TV can
render HD broadcasting as HD-rated only when it receives HD sources.
When selecting a picture size of
In the meantime, the HD TV renders SD as SD-rated when it receives SD sources.
4:3 in connection with a
The picture size has nothing to do with the resolution; TV models like SVP-XXL3HD or
computer or a multimedia
SVP-XXL6HD have a size adjustment feature to 16:9, 4:3, Panorama, Zoom1, Zoom2 and Auto
device:
Wide. This is about the aspect ratio of the top and bottom boundaries to the overall screen and
users can select their preference.

Samsung Electronics 14-1

Reference Information

14-2 Technical Terms

My Color Adjustment External Input
This function enables you to adjust a selected color (red color, External Input is connecting a video device such as a VCR,
grass color, sky color, gold color, skin color, white color, stan- camcorder, DTV receiver, DVD, etc. as a video source.
dard color, user-defined color) using the auto select mode or
fine tuning mode. Wired Broadcast
A Wired Broadcast refers to movie, entertainment and educa-
PIP tional programs broadcast by a broadcast station within a hotel
PIP (Picture in Picture) displays pictures from two video or school.
sources on a single screen at the same time. For example, you
can watch a TV program and a VCR at the same time using Component Port
the PIP function. A component port separately transmits a luminance signal as
well as the green, blue, and red color signal and provides the
Mono best quality from among all video connection types.
A type of audio interface that transmits the audio signal through
a single channel only. Through a mono interface, it is hard to Cable Broadcast
experience stereophonic sound and sound is played with one A Cable Broadcast transmits programs via cable instead of
speaker only. radio. To view a cable broadcast, you have to subscribe to a
local cable broadcast service provider and install an additional
Sub Woofer receiver.
A sub woofer is a speaker for ultra bass sound output only
where the frequency is as low as 150Hz. There are two types: Panorama Screen
one an active type, which includes the amplifier, and a passive This refers to a screen that corrects for the distortion of the pic-
type, which requires an additional amplifier. ture due to a screen size mismatch on the TV.

Stereo Progressive Scan

A type of audio interface that transmits the audio signal through Progressive scan displays the entire frame in a single sweep
2 channels.Stereo transmits the audio signal to both right and so as to provide a clearer and sharper visual quality.
left audio channels so that you can experience stereophonic
sound, and the sound is played through 2 speakers. DVD (Digital Versatile Disc)
DVD is a large capacity media that can save multimedia con-
Partially Color-Blind Person Mode tent such as video, game, audio applications, etc. using MPEG-
Using this function, a user can adjust the red, green or blue 2 video compression technology on a CD-sized disc.
color according to the preferences of a partially color-blind per-
son so that a partially color-blind person can see the picture on PCM
the screen. PCM (Pulse Coded Modulation): This refers to an uncom-
pressed digital signal. Use it for an AV amplifier that does not
English Captions support 5.1 channels when connecting the audio output with an
A function that shows English captions or text information optical or coaxial cable.
included in the broadcasting signal or the video tape. You can
use this function for studying English by watching the AFN SRS TruSurround XT
channel or video tapes marked with CC. This function provides the 5.1 channel surround sound using 2
channel speakers when a stereo audio signal is input.
Video/Audio Ports
You may experience poor visual and audio quality when watch- S-VIDEO IN Port
ing a video tape on channel 3 or 4 through the antenna cable. This is called super video. S-Video is a type of video signal
You can experience better visual and audio quality by connect- which has the video luminance and color signal separated in
ing the TV and VCR through the Video/Audio ports. The video order to provide better visual quality.
port is in yellow, and the audio ports are in white and red color.
VESA Plug & Play
Wide Screen This function enables the automatic recognition of devices
Wide Screen refers to a screen that is horizontally longer than when connecting the TV to the computer without additional set-
a conventional TV screen. tings.
While the aspect ratio of a normal TV is 4£º3, that of a wide
screen is 16:9.

14-2 Samsung Electronics