SAMSUNG VP_L550XEO2.1.16 Service Manual

Samsung Electronics 1-1

1. Be sure that all of the built-in protective devices are replaced. Restore any missing protective shields.

2. When reinstalling the chassis and its assemblies, be sure to restore all protective devices, including :

control knobs and compartment covers.

3. Make sure that there are no cabinet openings

through which people--particularly children

--might insert fingers and contact dangerous voltages. Such openings include the spacing between the picture tube and the cabinet mask, excessively wide cabinet ventilation slots, and improperly fitted back covers.

If the measured resistance is less than 1.0 megohm or greater than 5.2 megohms, an abnormality exists that must be corrected before the unit is returned to the customer.

4. Leakage Current Hot Check (See Fig. 1) :

Warning : Do not use an isolation transformer during this test. Use a leakage current tester or a metering system that complies with American National Standards Institute (ANSI C101.1, Leakage Current for Appliances), and Underwriters Laboratories (UL Publication UL1410, 59.7).

5. With the unit completely reassembled, plug the AC line cord directly the power outlet. With the unit’s AC switch first in the ON position and then OFF, measure the current between a known earth ground (metal water pipe, conduit, etc.) and all exposed metal parts, including : antennas, handle, brackets, metal cabinets,

screwheads and control shafts. The current measured should not exceed 0.5 milliamp. Reverse the power-plug prongs in the AC outlet and repeat the test.

6. X-ray Limits :

The picture tube is designed to prohibit X-ray emissions. To ensure continued X-ray protection, replace the picture tube only with one that is the same type as the original.

Fig. 1 AC Leakage Test

7. Antenna Cold Check : With the unit’s AC plug disconnected from the AC source, connect an electrical jumper across the two AC prongs. Connect one lead of the ohmmeter to an AC prong. Connect the other lead to the coaxial connector.

8. High Voltage Limit : High voltage must be measured each time servicing is done on the B+, horizontal deflection or high voltage circuits.

Heed the high voltage limits. These include the

X-ray protection Specifications Label, and the Product Safety and X-ray Warning Note on the

service data schematic.

9. Some semiconductor (“solid state”) devices are easily damaged by static electricity. Such components are called Electrostatically Sensitive Devices (ESDs); examples include integrated circuits and some field-effect transistors. The following techniques will reduce the occurrence of component damage caused by static electricity.

10. Immediately before handling any semiconduc-

tor components or assemblies, drain the electrostatic charge from your body by touching a known earth ground. Alternatively, wear a discharging Wrist-strap device. (Be sure to remove it prior to applying power--this is an electric shock precaution.)

1. Precautions

Device Under

Test

(Reading should not be above

0.5mA) Leakage

Currant Tester

Earth Ground

Test all

exposed metal

surfaces

Also test with plug reversed (using AC adapter plug as required)

2-Wire Cord

11. High voltage is maintained within specified limits by close-tolerance, safety-related components and adjustments. If the high voltage exceeds the specified limits, check each of the special components.

12. Design Alteration Warning :

Never alter or add to the mechanical or electrical design of this unit. Example : Do not add auxiliary audio or video connectors. Such alterations might create a safety hazard. Also, any design changes or additions will void the manufacturer’s warranty.

13. Hot Chassis Warning :

Some TV receiver chassis are electrically connected directly to one conductor of the AC power cord. If an isolation transformer is not used, these units may be safely serviced only if the AC power plug is inserted so that the chassis is connected to the ground side of the AC source.

To confirm that the AC power plug is inserted correctly, do the following : Using an AC voltmeter, measure the voltage between the chassis and a known earth ground. If the reading is greater than 1.0V, remove the AC power plug, reverse its polarity and reinsert. Re-measure the voltage between the chassis and ground.

14. Some TV chassis are designed to operate with 85 volts AC between chassis and ground, regardless of the AC plug polarity. These units can be safely serviced only if an isolation transformer inserted between the receiver and the power source.

15. Never defeat any of the B+ voltage interlocks.

Do not apply AC power to the unit (or any of its assemblies) unless all solid-state heat sinks are correctly installed.

16. Always connect a test instrument’s ground lead to the instrument chassis ground before connecting the positive lead; always remove the instrument’s ground lead last.

17. Observe the original lead dress, especially near

the following areas : Antenna wiring, sharp edges, and especially the AC and high voltage power supplies. Always inspect for pinched, out-of-place, or frayed wiring. Do not change the spacing between components and the

printed circuit board. Check the AC power cord for damage. Make sure that leads and components do not touch thermally hot parts.

18. Picture Tube Implosion Warning : The picture tube in this receiver employs “integral implosion” protection. To ensure continued implosion protection, make sure that the replacement picture tube is the same as the original.

19. Do not remove, install or handle the picture

tube without first putting on shatterproof goggles equipped with side shields. Never handle the picture tube by its neck. Some “in-line” picture tubes are equipped with a permanently attached deflection yoke; do not try to remove such “permanently attached” yokes from the picture tube.

20. Product Safety Notice : Some electrical and mechanical parts have special safety-related characteristics which might not be obvious from visual inspection. These safety features and the protection they give might be lost if the replacement component differs from the original--even if the replacement is rated for higher voltage, wattage, etc.

Components that are critical for safety are indicated in the circuit diagram by shading, ( or ). Use replacement components that have the same ratings, especially for flame resistance and dielectric strength specifications. A replacement part that does not have the same safety characteristics as the original might create shock, fire or other hazards.

Samsung Electronics1-2

Precautions

Samsung Electronics 2-1

2. Product Specifications and Comparison Chart

2-1 NTSC Model (SCL500/L520/L530/L550)

Recording system

Video signal Usable cassette Tape speed Speed mode Recording time FF or REW time Image device Optical zoom ratio Focal lengh: f F Filter diameter Focus system Macro Min. Illumination

Connectors

Video out Audio out External mic

General

Power requirement Power consumption Built-in mic Operating temperature Dimension (W x H x D) Weight

System

SCL500/L520/L530/L550

Video: 2 rotary heads Helical scanning FM Audio: FM monaural system

NTSC color, EIAstandard

SCL500/L520/L530 : 8mm SCL550 : Hi8 or 8mm

SP:14.345 mm/sec

Record: SP only, Playback: SP and LP

P6-120: 120 min.

P6-120: approx. 6.5 min.

CCD(Charge Coupled Device)

22X

3.6 ~ 79.2 mm

1.6

46 mm

Inner

Auto wide macro

0.3 lux (visible)

Mini jack, 1 Vp-p, 75 ohms, Unbalanced

Mini jack 7.7 dBs, imp.: less than 1.8 K ohms

Monaural,

Ø3.5

7.4 ~ 8.4 V DC

SCL500/L520: 4.3W, SCL530: 4.7W, SCL550: 5.3W

Condenser mic, omni-directional

0°C to 40°C (32°F to 104°F)

101 x 104 x 176 (mm) ; 3.98 x 4.09 x 6.93 (inch)

760g (1.675 lbs)

Samsung Electronics2-2

Products Specifications and Comparison Chart

2-2 PAL Model (VP-L500/L520/L530/L530B/L550)

✤ The technical specifications and design may be changed without notice.

Recording system

Video signal Usable cassette

Tape speed Speed mode Recording time FF or REW time Image device Optical zoom ratio Focal lengh: f F Filter diameter Focus system Macro Min. Illumination

Connectors

Video out Audio out External mic

General

Power requirement Power consumption Built-in mic Operating temperature Dimension (W x H x D) Weight

System

VP-L500/L520/L530/L530B/L550

Video: 2 rotary heads Helical scanning FM Audio: FM monaural system

PAL color, CCIR standard

VP-L500/L520/L530/L530B: 8mm VP-L550: Hi8 or 8mm

SP: 20.051 mm/sec

Record: SP only, Playback: SP and LP

P5-120: 120 min.

P5-120: approx. 8 min.

CCD(Charge Coupled Device)

22X

3.6 ~ 79.2 mm

1.6

46 mm

Inner

Auto wide macro

0.3 lux (visible)

Mini jack, 1 Vp-p, 75 ohms, Unbalanced

Mini jack 7.7 dBs, imp.: less than 1.8 K ohms

Monaural,

Ø3.5

7.4 ~ 8.4 V DC

VP-L500/L520: 4.3W, VP-L530/L530B: 4.7W, VP-L550: 5.3W

Condenser mic, omni-directional

0°C to 40°C

101 x 104 x 176 (mm)

760g

Samsung Electronics 2-3

Products Specifications and Comparison Chart

2-3 Comparison Chart

Features

Model

Format

SCL520

8mm

SCL530

8mm

SCL550

Li-ion

O X X

EVF

Video Light

Battery

BLC

Remote Control

XDR

Viewfinder

DIS

X X

SNAP/SHOT

PIP

NTSC

Li-ion

O O X

EVF

O O O

Hi8

Li-ion

O O X

EVF

O O O

270K

CCD

270K

410K

SCL500

8mm

Li-ion

O X X

EVF

X X

270K 220X 440X 440X 440XDigital Zoom Ratio

Features

Model

Format

VP-L500 VP-L520 VP-L530 VP-L530B

Video Light

Battery

BLC

Remote Control

XDR

Viewfinder

DIS

SNAP/SHOT

PIP

PAL

CCD

8mm

Li-ion

O X X

EVF

X X

X 320K 440X

8mm

Li-ion

O O X

EVF

X X

X 320K 440X

8mm

Li-ion

O O X

EVF

X X

X 320K 440X

8mm

Li-ion

O O X

EVF

O O

O 320K 440X

Hi8

Li-ion

O O O

EVF

O O

O 470K 440X

Digital Zoom Ratio

VP-L550

MEMO

Products Specifications and Comparison Chart

Samsung Electronics2-4

Samsung Electronics 3-1

3. Disassembly and Reassembly

3-1. Cabinet and PCB

3-1-1 Ass’y Cover Housing Removal

Remove the ass’y cover housing in the direction of arrow .

"A"

REMOVE 2 SCREWS.

Fig. 3-1 Ass’y Cover Housing Removal

3-1-2 Ass’y Case Top Removal

Samsung Electronics3-2

Disassembly and Reassembly

REMOVE CASE TOP BY GENTLELY RELEASING 1 LOCKING TABS WITH A SMALL SCREW DRIVER. (SEE DETAIL "A")

REASSEMBLY : PUT THE 4 TABS INTO THE SLOT, WHILE SLIDING IT AS SHOWN IN DETAIL "B".

1 LOCKING TAB

PRECISION SCREW DRIVER

< DETAIL "A" >

"B"

< DETAIL "B" >

Fig. 3-2 Ass’y Case Top Removal

Samsung Electronics 3-3

Disassembly and Reassembly

3-1-3 Ass’y Front Removal

REMOVE 2 SCREWS.

REMOVE THE ASS’Y FRONT IN THE DIRECTION OF ARROW "A".

PISCOANECT THE CONNECTOR FROM THE MAIN PCB.

"A"

Fig.3-3 Ass’y Front Removal

3-1-4 Ass’y Case Left Removal

Samsung Electronics3-4

Disassembly and Reassembly

REMOVE THE ASS’Y CASE Right IN THE DIRECTION OF ARROW "A".

REMOVE 2 SCREWS.

DISASSEMBLE AFTER TURNING KNOB to be "LOCK".

REMOVE 3 SCREWS.

REMOVE 1 SCREWS.

"A"

Fig. 3-4 Ass’y Case Left Removal

Samsung Electronics 3-5

Disassembly and Reassembly

3-1-5 Ass’y Case Right Removal

PULL OUT THE CASE LEFT ASSEMBLY IN THE DIRECTION OF ARROW "A" .

DISCONNECT FPC FROM THE CONNECTOR OF THE MAIN PCB.

REMOVE 1 SCREWS.

REMOVE 4 SCREWS.

"A"

Fig. 3-5 Ass’y Case Right Removal

Samsung Electronics3-6

Disassembly and Reassembly

3-1-6 Ass’y LCD Removal

REMOVE THE LCD ASS’Y IN THE DIRECTION OF ARROW.

REMOVE 3 SCREWS.

REMOVE THE COVER BOTTOM ASS’Y IN THE DIRECTION OF ARROW "A".

REMOVE 3 SCREWS.

"A"

Fig. 3-6 Ass’y LCD Removal

Samsung Electronics 3-7

Disassembly and Reassembly

3-1-7 Ass’y EVF Removal

REMOVE THE EVF ASS’Y IN THE DIRECTION OF ARROW.

REMOVE 3 SCREW.

REMOVE THE COVER LEFT TOP ASS’Y IN THE DIRECTION OF ARROW.

REMOVE 6 SCREWS.

Fig. 3-7 Ass’y EVF Removal

Samsung Electronics3-8

Disassembly and Reassembly

3-1-8 Ass’y Rear Board Removal

REMOVE THE ASS’Y FUNCTION BOARD IN THE DIRECTION OF ARROW "A".

REMOVE 2 SCREWS.

"A"

Fig. 3-8 Ass’y Rear Board Removal

Samsung Electronics 3-9

Disassembly and Reassembly

3-1-9 Ass’y Deck and Main PCB Removal

DISCONNECTOR THE FPC FROM THE MAIN PCB.

REMOVE THE 2 SCREWS.

DISCONNECT CONNECTOR FROM THE HEAD-DRUM.

PULL OUT THE MAIN POB FROM THE ASS’Y DECK IN THE DIRATION OF ARROW "A".

"A"

Fig. 3-9 Ass’y Deck and Main PCB Removal

Samsung Electronics3-10

Disassembly and Reassembly

3-1-10 Ass’y Camera Removal

REMOVE 2 SCREWS.

DISCONNECT FPC FROM THE CONNECTOR OF THE MAIN PCB.

REMOVESDLDER WITH AN IRON TO ISOPATE SHIELD-CASE AND LENS.

DISCONNECTOR CONNECTOR AND PULL OUT THE ASS’Y LENS IN THE DIRECTION OF ARROW "A".

"A"

Fig. 3-10 Ass’y Camera Removal

Samsung Electronics 3-11

Disassembly and Reassembly

3-2. Circuit Boards Location

Fig. 3-11 Circuit Boards Location

ASS’Y MAIN BOARD

ASS’Y FRONT BOARD

ASS’Y FUNCTION BOARD

ASS’Y REAR BOARD

Samsung Electronics3-12

Disassembly and Reassembly

3-3. Connector Diagram

Fig. 3-12 Connector Diagrams

NO. NO.CONNECTOR

CONNECTOR

DIRECTION

DECK FPC CN501

DECK MAIN PCB

DRUM HEAD FPC CN52

CN601 CN451 CNP02 CNP01 CNC01 CN701 CN801 CN602 CN802 MIC CONNECTOR CN473

EVF FPC

CN471

DECK MAIN PCB MAIN PCB REAR PCB MAIN PCB ASS’Y LENS PCB MAIN PCB CCD PCB MAIN PCB FRONT PCB MAIN PCB FUNCTION PCB

FRONT PCB ASS’Y MIC

FUNCTION PCB ASS’Y EVF

LENS FPC

SPEAKER CONNECTOR

CN475

LCD CONNECTOR

CN474

SPEAKER ASS’Y FUNCTION PCB

LCD ASS’Y FUNCTION PCB

• Refer to mechanical manual “DE-6 (AD68-30200A)”for the adjustment and checks of mechanism section.

• The location of test point (See Fig.1)

Samsung Electronics 4-1

Alignment and Adjustment

4. Alignment and Adjustment

4-1. Mechanism Alignment

Test Point:

PB RF - Pin 11 of CN452 Head Switching Trigger - Pin 9 of CN452

Fig. 2 Test location of test point (Rear Board)

CN452

PB RF

Head Switching - Trigger

CN452

Fig. 1 Test point

SW471

J451 DC-JACK

BAT-TERMINAL

(+)

BAT-TERMINAL

(-)

14 13 12 11 10 9

87 65 43 21

Samsung Electronics4-2

Alignment and Adjustment

POSITION

IC601 IC601 IC601

ACTION MODE

28PIN 27PIN 26PIN

L H H EJECT

L L H UNLOADING STOP H L L LOADING STOP

H H L PLAY, FF, REW, STILL....

EJECT

UNLOADING STOP

LOADING STOP

IC601 27PIN

GROUND

IC601 26PIN

COMMON

IC601

28PIN

OPEN

EJECT

PLAY

STOP

UNLOADING

STOP

UNLOADING

Samsung Electronics 4-3

Alignment and Adjustment

Note :

1. This system has :

1) EEPROM to store the confirmed adjustment data.

2) DSP (Digital Signal Process ; ICP01 - Main board) chip to process the signal of camera parts.

3) One test point for the frequency adjustment of DSP main clock (P. CLK).

4) The special mode for camera adjustment using the function keys on the left case.

2. Keep in mind :

1) All adjustment steps should performed using the function keys on the left case.

4-2-1 Preparations

4. The Function keys on the left case :

The following is a chart explaining the use of each button :

4-2. Camera Section Adjustment

1. Equipment to be used :

1) DC Power supply

2) Oscilloscope

3) Frequency counter

4) Vectorscope

5) Waveform monitor

6) Color monitor or TV

7) Various charts

- Color bar chart

- Gray-scale chart, etc...

2. Composition of camera P.C.Boards :

1) Main PCB 2) CCD PCB

3) CVF PCB 4) EVF PCB 5) LCD PCB

3. Adjustment preparations :

1) The function keys on the left case is used as a camera adjust tool.

2) Press the confirm button when each manual adjustment step is completed to write the adjustment data to the EEPROM.

3) After each adjustment step is completed, OSD shows “OK!”.

4) To cancel the adjustment mode, remove the power source.

Using Button

PROGRAM AE (CONFIRM) TITLE (DATA DOWN) DSE (DATA UP) FADE (MODE UP) BLC (MODE DOWN) MANUAL FOCUS RING (NEAR/FAR) ZOOM TELE ZOOM WIDE

Adjustment

Data store after finishing adjustment by DATA UP/DOWN button.

When change data value of adjust state.

Mode change.

Manual focus adjustment.

1) Move the zoom position of lens.

2) Semi-Auto lens adjustment.

Samsung Electronics4-4

Alignment and Adjustment

The function keys left case is required to adjust the camera section.

Note : In service adjustment mode, button names are different from those in customer camera function

control mode. EX) PROGRAM AE button is the same as confirm.

5. How to get into service “ADJUST” mode

1. Remove the lithium battery from the camcorder.

2. Connect the power source (battery/ DC cable).

3. Eject the tape if it is in the unit.

4. Set the power switch of the camcorder to “CAMERA” position.

5. Set OSD on state.

STEP 1

1. Press and hold the “EJECT” button and “DATE/TIME” button on the camcorder at the same time for more than 5 seconds. Then unit goes into service mode.

STEP 2

On screen display show “0DF. T.INI XX XX” CAMERAADJUSTMENT mode has successfully been activated.

STEP 3

Note : When “XX XX” is shown in service adjustment procedures, this indicates variable values.

EJECT

MODE DOWN MODE UP

Confirm

DATA UP DATA DOWN

FAR

NEAR

MANUAL

FOCUS

DATE/TIME

Samsung Electronics 4-5

Alignment and Adjustment

001 40 50 40 50 CDS-K=1 AGC TARGET photo/E,ODD WDR/NO WDR_AE_O KEY/RING CAN/SECREM ZOOM_STOP 002 00 00 00 00 @IRIS CONTROL-LOW 003 06 06 06 06 @IRIS CONTROL-HIGH 004 60 60 60 60 @P.CLK PWM-HIGH 005 08 08 08 08 @UPD16835 INIT 4th 006 55 55 55 55 @UPD16835 INIT 6th 007 33 33 33 33 @UPD16835 INIT 7th 008 03 03 03 03 @CDS F-REG(f1,f0) CAM : BIT0:f0,BIT1:f1 009 A0 A0 A0 A0 @CDS F-REG(f9,f2) CAM ;PGA GAIN -HIGH(0.00dB~ 30.0dB) 00A 60 60 60 60 changeb by AUTO HALL ADJ (0CD) ;HALL REFERENCE 00B 3A 3A 3A 3A changeb by AUTO HALL ADJ (0CD) ;HALL GAIN 00C 87 87 87 87 @CDS E-R(e1,e0),J-R(j0),M-R;D0:e0,D1:e1,D2:j0(CAM),D4:e0,D5:e1,D6:j0(VCR),D7:cds-rev='1' 00D 80 7B 77 77 @CDS F-REG(f9,f2) VCR ;PGA GAIN -HIGH(0.00dB~ 10.0dB) 00E 00 00 00 00 @WDR REGISTER[7,0] *AEINSEL=D7,AELPFSEL=D6,X[5:0] 00F 80 80 80 80 @WDR REGISTER[15,8] *AECLIP_TH[7:0] 010 00 00 00 00 @WDR REGISTER[23,16] *AEL_TH[7:0] 011 FF FF FF FF @WDR REGISTER[31,24] *AEH_TH[7:0] 012 76 76 8B 8B @WDR REGISTER[39,32] *AEW2VE[7:0] 013 24 24 24 24 @WDR REGISTER[47,40] *AEW2VS[7:0] 014 F1 F1 ED ED @WDR REGISTER[55,48] *AEW2HE[7:0] 015 13 13 07 07 @WDR REGISTER[63,56] *AEW2HS[7:0] 016 6E 6E 81 81 @WDR REGISTER[71,64] *AEW1VE[7:0] 017 20 20 26 26 @WDR REGISTER[79,72] *AEW1VS[7:0] 018 C1 C1 B4 B4 @WDR REGISTER[87,80] *AEW1HE[7:0] 019 43 43 32 32 @WDR REGISTER[95,88] *AEW1HS[7:0] 01A 30 30 30 30 @WDR REGISTER[103,96] *ALPF_THP[7:0] 01B 7F 7F 7F 7F @WDR REGISTER[111,104] *HLOG_ON[7],SAT_ON[6],ALPF_WTSTF[5:3],SHPF_SFT[2:0] 01C 80 80 80 80 @WDR REGISTER[119,112] *BOUND256[7:0] 01D 80 80 80 80 @WDR REGISTER[127,120] *BOUND128[7:0] 01E 80 80 80 80 @WDR REGISTER[135,128] *BOUND64[7:0] 01F 80 80 80 80 @WDR REGISTER[143,136] *BOUND32[7:0]

ADDR OSD-DISPLAY CONTENT

0DF T.INI TABLE INITIAL 0CD HALL HALL AUTO ADJUST 0CE IRIS IRIS AUTO ADJUST 0CF AWB AWB AUTO ADJUST 0D0 LENS LENS AUTO ADJUST( WARNING! DON’T USE WITHOUT AN INFINITE COLLIMATOR) 0D6 ZVR.C ZOOM LEVER CENTER DATA CHECKING 0DB AGCM AGC AUTO ADJUST (NORMALLY NO USED) 0DE 3MLENS 3M LENS AUTO ADJUST AT SERVICE FIELD (DISTANCE: 3M +/- 1Cm)

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

NOR HI8 NOR HI8 OPTION D6 D5 D4 D3 D2 D1 D0

“CAMERA ADJUST MODE, EEPROM ADDRESS SEQUENCE & DATA OF PAGE 0”

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

NOR HI8 NOR HI8 OPTION D6 D5 D4 D3 D2 D1 D0

Samsung Electronics4-6

Alignment and Adjustment

020 60 60 60 60 @WDR REGISTER[151,144] *BOUND0[7:0] 021 3F 3F 3F 3F @WDR REGISTER[159,152] *LTIC[3:0],CH_SEL[3:0] 022 C7 C7 C7 C7 @WDR REGISTER[167,160] *LTI_ON[7],LSI_ON[6],LUT_TAB[5:3],LUT_HPF_SFT[2:0] 023 1E 1A 1E 1A @WDR REGISTER[175,168] *LUT_GAIN[7:0] 024 04 04 04 04 @WDR REGISTER[183,176] *BACK_WT[7:4],HIST_WT[3:0] 025 30 30 30 30 @WDR REGISTER[191,184] *EDGE_AMP[7:4],BACK_SP[3:0] 026 D0 D0 D0 D0 @WDR REGISTER[199,192] *LP_V[7:0] ACTIVE AREAVERTICAL LENGTH 027 24 24 24 24 @WDR REGISTER[207,200] *SP_V[7:0] ACTIVE AREA VERTICAL START 028 B0 B0 B0 B0 @WDR REGISTER[215,208] *LP_H[7:0] ACTIVE AREAHORIZENTAL LENGTH 029 30 30 30 30 @WDR REGISTER[223,216] *SP_H[7:0] ACTIVE AREAHORIZENTAL START 02A 00 00 00 00 @WDR REGISTER[231,224] *POFFSET[7:0]

02B 00 00 00 00 @WDR REGISTER[239,232] *CMP_ADJ[7:4],SP_ADJ[3:0] 02C 57 57 57 57 @WDR REGISTER[247,240] *CLPEN[7],SORSL[6],V1_EXIST[5],GR_MODE[4:3],GRB_MODE[2:0] 02D 01 01 01 01 @WDR REGISTER[255,248] *OUT_MODE[7:5],DLY_MODE[4:0]

02E 50 50 50 50 @WDR ON BLACK BALANCE MAX-DATA(MIN DATA+31)

02F 04 04 08 08 @WDR ON Y,C GAMMA 1

030 07 07 0D 0D @WDR ON Y,C GAMMA2

031 15 15 1B 1B @WDR ON Y,C GAMMA3

032 2C 2C 32 32 @WDR ON Y,C GAMMA4

033 4D 4D 57 57 @WDR ON Y,C GAMMA5

034 70 70 82 82 @WDR ON Y,C GAMMA 6

035 B4 B4 C0 C0 @WDR ON Y,C GAMMA 7

036 F8 F8 F0 F0 @WDR ON Y,C GAMMA8

037 99 99 99 99 @WDR ON ADDR#12C ;YVBKT,YVBK,HBLK,YHBK

038 03 08 03 08 @WDR ON ADDR#123;YHPSC,YAPC

039 E0 E0 E0 E0 @WDR ON ADDR#126;YLPFSEL

03A 10 10 10 10 @WDR ON ADDR#134;RED DARK SLICE

03B F8 F8 F8 F8 @WDR ON ADDR#135;BLUE DARK SLICE 03C 00 00 00 00 @WDR ON ADDR#136;GREEN DARK SLICE 03D D0 D0 D0 D0 @WDR ON, AE A-READ(SMALL)DATACUTTING -HIGH

03E 01 01 01 01 @WDR ON, AE A-READ(SMALL)DATACUTTING -LOW

03F 80 80 80 80 @WDR ON, AE DATA CUTTING -LOW

040 02 02 02 02 @WDR ON, AE DATACUTTING -HIGH

041 D0 D0 D0 E0 @AE TARGET-LOW BYTE

042 00 00 00 00 @AE TARGET-HIGH BYTE

043 48 48 48 48 @AETAR L(FLEX-ZONE)

044 00 00 00 00 @AETAR H (FLEX-ZONE)

045 00 00 00 00 @BLC/WDR , AE TARTGET 'L'

046 02 02 02 02 @BLC /WDR, AE TARTGET 'H'

047 00 00 00 00 @SAND&SNOW MODE AE TARGET 'L'

048 02 02 02 02 @SAND&SNOW MODE AE TARGET 'H'

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

NOR HI8 NOR HI8 OPTION D6 D5 D4 D3 D2 D1 D0

Samsung Electronics 4-7

Alignment and Adjustment

049 50 50 50 50 @NEGA BLC TARGET-'L' 04A 00 00 00 00 @NEGA BLC TARGET-'H' 04B 5E 5E 5E 5E @SPOTLIGHT AE-TARGET 'L' 04C 00 00 00 00 @SPOTLIGHT AE-TARGET 'H' 04D B0 B0 B0 B0 WDR AE TARGET -LOW 04E 00 00 00 00 WDR AE TARGET -HIGH 04F 04 04 04 04 @AE A-WINDOW WEIGHT VALUE '05'=50%

050 E0 E0 E0 E0 SHUTTER START POINT OF IRIS CONTROL PERCENT(FF=100% IRIS MAX)

051 50 30 50 50 AGC TARGETDOWN VALUE AT 001H D6='1' OPTION

052 00 00 00 00 AGC MAX, DARK SLICE-B CONTROL

053 90 90 90 90 @DIGITALCLAMP CONTROL STARTAGC

054 A0 A0 A0 A0 @ CHROMA SUPPRESS PERCENT

055 48 48 48 48 @ CHROMA SUPPRESS STARTAGC VALUE

056 48 48 48 48 @ NOISE SLICE STARTAGC VALUE

057 10 0B 10 15 @ Y_H_POSI_GAIN(DSP #121 D4:D0) MIN ATAGC MAX (MAX=1F)

058 18 0B 00 18 @ Y_V_POSI_GAIN(DSP #122 D4:D0) MIN ATAGC MAX (MAX=1F)

059 30 18 3F 18 @ NOISE SLICE(DSP #123 D5:D0) MIN AT AGC MAX (MAX=3F) 05A 08 00 0C 00 @AGC MAX, DIGITAL CLAMP CONTROL(ADDR,#118-#05A) 05B 05 00 00 15 @ Y_H_NEGATIVE_GAIN(DSP #12C D7:D3) MIN ATAGC MAX (MAX=1F) 05C 08 00 00 16 @ Y_V_NEGATIVE_GAIN(DSP #12D D7:D3) MIN AT AGC MAX (MAX=1F) 05D 25 25 25 25 @ Y_H_NEGATIVE_GAIN(DSP #12C D7:D3) MIN ATAGC MAX (MAX=1F) 05E 40 40 40 40 * AE SPOTLIGHT MODE CONTROL SPEED DOWN RANGE 05F 04 04 04 04 * AE AUTO MODE CONTROL SPEED DOWN REFERENCE

060 24 24 24 24 * AE OFFSET BORDER

061 0C 0C 0C 0C * AE SPPED OFFSET COUNTER

062 50 47 60 53 *AWB; @R-GAIN POSITIVE OUTDOOR

063 4A 45 50 50 *AWB; @R-GAIN NEGATIVE OUTDOOR

064 28 19 2C 1F *AWB; @R-HUE POSITIVE OUTDOOR

065 35 30 3B 28 *AWB; @R-HUE NEGATIVE OUTDOOR

066 31 2D 39 33 *AWB; @B-GAIN POSITIVE OUTDOOR

067 2C 22 30 29 *AWB; @B-GAIN NEGATIVE OUTDOOR

068 26 1E 1A 26 *AWB; @B-HUE POSITIVE OUTDOOR

069 1C 11 20 0E *AWB; @B-HUE NEGATIVE OUTDOOR 06A C0 C0 C0 C0 @WB AGC% , STOP POINT ( 80=50%, C0=75%) 06B B4 B4 B4 B4 WB;AT OUTDOOR, INDOOR DATA INPUT CONDITION TRACKING VALUE ,B4=70%,FF=0%(NO TRACKING) 06C 02 02 02 02 WB;Y AREA SELECTION NUMBER 06D 05 05 05 05 WB;AWB RATIO 1/3 CENTER TRACKING 06E 03 03 03 03 AWB RATIO HIGH , CENTER AXIALOF OVER 5100K COLOR TEMPERATURE 06F 04 04 04 04 AWB RATIO LOW ,CENTER AXIALOF BELOW 3100K COLOR TEMPERATURE

070 00 03 01 03 W/B R-CTRL COMPENSATION (D7='1' ;DECREASE ,'0'= INCREASE FROM W/B TARGET)

071 82 82 80 83 W/B R-CTRL COMPENSATION (D7='1' ;DECREASE ,'0'= INCREASE FROM W/B TARGET)

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

NOR HI8 NOR HI8 OPTION D6 D5 D4 D3 D2 D1 D0

Samsung Electronics4-8

Alignment and Adjustment

072 80 8A 80 8A OUTDOOR DECISION BY HALLVALUE

073 70 60 70 60 AWB;AWB TRACKING HALL2( WB TRACKING AVAILABLE BETWEEN #072~#072-#073)

074 04 07 06 04 W/B TRACKING AREA SELECT

075 0C 0C 0C 0C WB STABLE MODE THRESHOLD

076 10 10 10 10 |---- AWB CUTTING THRESHOLD1 Y LEVEL INTERVAL ----|

077 10 10 10 10 |---- AWB CUTTING THRESHOLD2 TOP LEVEL INTERVAL ----|

078 40 40 40 40 |---- AWB CUTTING THRESHOLD3 R CONTROL LOW MARGIN ----|

079 40 40 40 40 |---- AWB CUTTING THRESHOLD4 DATA CUT LOW ----|

07A 00 00 00 00 |---- AWB CUTTING THRESHOLD1 DATA CUT HIGH ----|

07B 60 6A 60 6A * AWB HALL STOP ATSPOLTLIGHT MODE 07C 80 8A 80 8A * AWB HALLAT EIS MODE 07D F0 F0 F0 F0 * AWB HALLSTOP AT SPORTS/PORTRAIT/SAND&SNOW/HSS MODE

07E F4 F4 F4 F4 @D/ZOOM RATIO MAX DATA( 80:2 TIMES, CO:4 TIMES, F4:20 TIMES)

07F 17 17 1B 1B ZOOM MAX SPEED ;22X LENS PAL:1BH ,NTSC:17H )

080 07 07 09 09 REMCON ZOOM SPEED X22 PAL:09 NTSC:07 )

081 0A 00 09 F8 @CCD H-PIXEL NUMBER -LOW BYTE

082 02 03 02 02 @CCD H-PIXEL NUMBER -HIGH BYTE

083 F7 F7 23 23 @CCD V LINE NUMBER -LOW BYTE 1/2

084 00 00 01 01 @CCD V LINE NUMBER -HIGH BYTE 1/2

085 09 09 0C 0C @V SKIP LINE NUMBER

086 00 11 00 00 DIS;VMX,VMY MAX-#086 (11:NTSC HI-8, 00:ETC)

087 00 00 00 00 @CCD V LINE NUMBER HIGH BYTE

088 1D 1D 1D 1D @DSP IC ADDR #39H ;MOSAIC SIZE :VTR

089 98 98 98 98 @DSP IC ADDR #41H ;ART DSE LEVEL :VTR

08A B8 B8 B8 B8 @DSP IC ADDR #1CH ;NEGA MODE WHITE CLIP LEVEL :VTR

08B 75 75 75 75 @SEPIA CDS-R 08C 3A 3A 3A 3A @SEPIA CDS-G 08D 10 10 11 11 @CINEMA F-ZONE LIMIT UP

08E 68 68 7D 7D @CINEMA F-ZONE LIMIT UP

08F 01 01 01 01 @DSP IC ADDR #00H ;EMODE,CINEMA :VTR

090 88 88 88 88 @DSP IC ADDR #07H ;ADCLDEL. DSCKDEL,FWCKDLY :VTR

091 2E 2E 1B 1B @DSP IC ADDR #08H ;HCNTSET :VTR

092 00 00 00 00 @DSP IC ADDR #0AH ;DCKSEL,VCNTSET :VTR

093 4A 4C 4B 4A @DSP IC ADDR #10H ;C-SYNC :VTR

094 CE CE DB D8 @DSP IC ADDR #14H ;EUSC(B-Y) BURST :VTR

095 00 00 24 28 @DSP IC ADDR #15H ;EVSC(R-Y)BURST :VTR

096 77 77 77 77 @DSP IC ADDR #20H ;YVBTH,YVBKG,YHBKTH,YHBKG :VTR

097 B8 B8 B8 B8 @DSP IC ADDR #28H ;VCR_ADJ,WHITE LEVEL :VTR

098 7F 7F 7F 7F @DSP IC ADDR #47H ;CRYGP :VTR

099 7F 7F 7F 7F @DSP IC ADDR #48H ;CRYGN :VTR

09A 7F 7F 7F 7F @DSP IC ADDR #4BH ;CRYGP :VTR

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

NOR HI8 NOR HI8 OPTION D6 D5 D4 D3 D2 D1 D0

Samsung Electronics 4-9

Alignment and Adjustment

09B 7F 7F 7F 7F @DSP IC ADDR #4CH ;CRYGN :VTR 09C 80 80 80 80 @DSP IC ADDR #4FH ;C-GAIN VCR-PLAY MODE :VTR 09D 80 80 80 80 @DSP IC ADDR #4FH ;C-GAIN at color bar generation :VTR 09E 00 00 00 00 @DSP IC ADDR #13H ;VTR MOD EYDEL,UV-CTL,EBURST_H :VTR 09F 50 50 50 50 @DSP IC ADDR #32H ;VTR MODE EMBOO/PASTEL Y-LEVEL :VTR 0A0 00 00 1E 1E @DSP IC ADDR #1DAH ;RPS MODE HEAD SWITCHING POINT :VTR 0A1 0A 0A 0A 0A @DSP IC ADDR #121,122[D4:D0],12C,12D[D7:D3];H,V POSI/NEGA GAIN :VTR 0A2 05 05 7B 05 @DSP IC ADDR #10A, RFSΩ√ CONTROL :VTR 0A3 0B 0B 0B 0B @DSP IC ADDR #18FH ;RPS/FPS MODE :VTR 0A4 E0 E0 E1 E1 @DSP IC ADDR #1DEH ;RPS/FPS MODE :VTR 0A5 47 47 47 47 @DSP IC ADDR #1F0H ;RPS/FPS MODE :VTR 0A6 FC FC FC FC changed by AUTO LENS ADJ(0D0, 0DE) @FOCUS TELE MARGIN LOW BYTE(CANON X22 LENS) 0A7 FF FF FF FF changed by AUTO LENS ADJ(0D0, 0DE) @FOCUS TELE MARGIN HIGH BYTE(CANON X22 LENS) 0A8 05 05 05 05 changed by AUTO LENS ADJ(0D0, 0DE) @FOCUS WIDE MARGIN LOW BYTE(CANON X22 LENS) 0A9 00 00 00 00 changed by AUTO LENS ADJ(0D0, 0DE) @FOCUS WIDE MARGIN HIGH BYTE(CANON X22 LENS) 0AA BD BD BD BD changed by AUTO LENS ADJ(0D0, 0DE) @FOCUS RESET LOW(16X,22X LENS) 0AB 81 81 81 81 changed by AUTO LENS ADJ(0D0, 0DE) @FOCUS RESET HIGH(16X,22X LENS) 0AC 26 26 26 26 changed by AUTO LENS ADJ(0D0, 0DE) @ZOOM RESET LOW(16X, 22X LENS) 0AD 87 87 87 87 changed by AUTO LENS ADJ(0D0, 0DE) @ZOOM RESET HIGH(16X, 22X LENS) 0AE 07 07 07 07 @LENS CHECK WIDE 1 END DIFFERENCE 0AF 0E 0E 0E 0E @LENS CHECK WIDE 2 DIFFERENCE 0B0 0E 0E 0E 0E @LENS CHECK MIDDEL 1 DIFFERENCE 0B1 20 20 20 20 @LENS CHECK MIDDLE 2 DIFFERENCE 0B2 30 30 30 30 @LENS CHECK TELE 1 DIFFERENCE 0B3 40 40 40 40 @HALL CLOSE TARGET 0B4 65 65 65 65 @IRIS CONTROL ATADJUSTMENT ;UPPER 8 BIT 0B5 B0 B0 B0 B0 changed by AUTO IRIS ADJ(0CE) @IRIS CONTROL MIN LOW BYTE 0B6 09 09 09 09 changed by AUTO IRIS ADJ(0CE) @IRIS CONTROL MIN HIGH BYTE 0B7 80 80 80 80 changed by ZOOM VR CENTER (0D6) @ZOOM VR CENTER VALUE 0B8 20 20 20 20 @ZOOM VR CENTER MARGEIN 0B9 60 5B 58 68 @0DB; AGC MIN ADJ SHUTTER CONTROLVALUE (UPPER BIT='0'FIX) 0BA 01 08 2B 2A @0DB; AGC MAX ADJ SHUTTER CONTROL VALUE (UPPER BIT='1'FIX ) 0BB A0 A0 68 68 AGC ADJ. SHUTTER CONTROL VALUE FOR FIND FIRST TARGET 0BC 30 34 30 34 changed by AUTO AGC ADJ(0DB) @AGC MIN 0BD A8 A8 A8 A8 changed by AUTO AGC ADJ(0DB) @AGC MAX 0BE 89 89 89 89 @HALL WIDTH 0BF 3A 3A 3A 3A @HALL REF. START 0C0 4C 4C 4C 4C @HALL GAIN. START 0C1 40 40 40 40 changed by AUTO HALL ADJ(0CD) @HALL MIN 0C2 C0 C0 C0 C0 changed by AUTO HALLADJ(0CD) @HALL MAX 0C3 94 94 94 94 @FOCUS LOW

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

NOR HI8 NOR HI8 OPTION D6 D5 D4 D3 D2 D1 D0

Samsung Electronics4-10

Alignment and Adjustment

0C4 83 83 83 83 @FOCUS HIGH 0C5 FD FD FD FD @ZOOM LOW 0C6 87 87 87 87 @ZOOM HIGH 0C7 00 00 00 00 changed by AUTO IRIS ADJ(0CE) @ IRIS CONTROL MAX LOW BYTE 0C8 05 05 05 05 changed by AUTO IRIS ADJ(0CE) @ IRIS CONTROL MAX HIGH BYTE 0C9 32 3B 3F 31 changed by AUTO WB ADJ(0CF) R-COLTROL3100K :INDOOR 0CA 9B 87 93 A0 changed by AUTO WB ADJ(0CF) B-COLTROL 3100K :INDOOR 0CB 60 6B 71 5F changed by AUTO WB ADJ(0CF) R-COLTROL 5100K : OUTDOOR 0CC 5A 58 55 5A changed by AUTO WB ADJ(0CF) B-COLTROL 5100K : OUTDOOR 0CD FF FF FF FF @@HALL AUTO ADJUST 0CE FF FF FF FF @@IRIS AUTO 0CF FF FF FF FF @@W/B AUTO 0D0 FF FF FF FF @@LENS AUTO 0D1 FF FF FF FF 0D2 FF FF FF FF @@ AGC CHECK PAL:68H,NTSC:80H 0D3 FF FF FF FF @@LENS CHECK 0D4 FF FF FF FF @ WIDE END ZOOM POSITION & ONE AF MODE 0D5 FF FF FF FF @@GYRO SENSOR CHK2 0D6 FF FF FF FF @@ZOOM VR CENTER ADJT 0D7 01 01 01 01 @@ZOOM/FOCUS CHK=ONE AF ENABLE BIT 00~03 0D8 FF FF FF FF 0D9 FF FF FF FF @@COLOR ADJUST 0DA FF FF FF FF @@SETUP AUTO 0DB FF FF FF FF @AGC AUTO 0DC FF FF FF FF @LENS ZOOMTRACK CHECK 0DD FF FF FF FF 0DE FF FF FF FF @LENS 3M ZOOMTRACK ADJ. = SERVICE MODE 0DF A0 A0 A0 A0 @EEPROM -TABLE -INITIAL('99'+CONFIRM =EXCEPT(#0E0~0FF), 'AA'=ALL DATA INITIAL)

0E0 3B 7F 33 77 V.LIGHT XDR DIS PIP CVF/EVF HI8 PBDSE S/SHOT

@MODEL DATA : FIXED BY MODEL 0E1 C4 C4 C4 C4 --------VCR DATA[1] @SPECIAL MODEL-DATA 0E2 85 85 85 85 --------VCR DATA[2] @HD SW PULSE 0E3 8B 8B 8B 8B --------VCR DATA[3] COLOR BAR PATTERN GENERATION Y LEVEL 0E4 BB BC B6 BC --------VCR DATA[4] @Y-EMPHASIS(NOR) 0E5 94 70 9B 70 --------VCR DATA[5] @PB Y LEVEL(NOR) 0E6 BF CE BF CE --------VCR DATA[6] @Y-EMPHASIS(HI8) 0E7 60 60 60 60 --------VCR DATA[7] @PB Y LEVEL(HI8) 0E8 80 80 80 80 --------VCR DATA[8] *.@DSP IC ADDR #29H ;YGAIN VCR-PLAY MODE 0E9 7F 7F 87 7F --------VCR DATA[9] @Y FM CARRIER(NOR)

0EA 83 83 81 81 --------VCR DATA[10] @Y FM DEVIATION(NOR) 0EB 73 73 73 73 --------VCR DATA[11] @Y FM CARRIER(HI8)

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

NOR HI8 NOR HI8 OPTION D6 D5 D4 D3 D2 D1 D0

Samsung Electronics 4-11

Alignment and Adjustment

0EC 93 93 93 93 --------VCR DATA[12] @Y-FM DEVIATION(HI8) 0ED 65 65 65 65 --------VCR DATA[13] @BPF ADJ 0EE CD A9 CD CD --------VCR DATA[14] @C-EMPHASIS 0EF 80 80 80 80 --------VCR DATA[15] @WHITE CLIP(NOR) 0F0 B0 C0 99 D0 --------VCR DATA[16] @REC C LEVEL 0F1 C9 A8 C9 A8 --------VCR DATA[17] @REC Y FM LEVEL 0F2 65 85 65 85 --------VCR DATA[18] @PB DELAY ADJUST 0F3 65 65 65 65 --------VCR DATA[19] @D CLIP(NOR) 0F4 85 85 85 85 --------VCR DATA[20] @DEL ADJ 0F5 99 90 99 90 --------VCR DATA[21] @SMEAR CONT 0F6 D0 D0 D0 D0 --------VCR DATA[22] @MTG(PB) 0F7 7A 7A 7A 7A --------VCR DATA[23] @MTFO(NOR) 0F8 65 60 55 55 --------VCR DATA[24] @WHITE CLIP (HI8) 0F9 9A 9A 9A 9A --------VCR DATA[25] @MTFO(HI8) 0FA 8E 8E 8E 8E --------VCR DATA[26] @D-CLIP(HI8) 0FB 00 00 00 00 --------VCR DATA[27] @TITLE LANGUAGE 0FC 02 02 02 02 --------VCR DATA[28] @CUSTOM - 1 :MODE BACKUP DSE='00', D/Z&EIS='01' .. 0FD 0C 0C 0C 0C --------VCR DATA[29] @HEAD SWITCHING POINT(SUB DATA) 0FE 91 91 91 91 --------VCR DATA[30] @BATTERY END LEVEL 0FF FF FF FF FF --------VCR DATA[31] @ATF REFERENCE

“CAMERA ADJUST MODE, EEPROM ADDRESS SEQUENCE & DATA OF PAGE 1”

CLUSTER 0 (HEADER[3:0] = 4'b0000) TG/SHUTTER 100 00 00 00 00 EMODE(2:0)='000'internal reset VSKIP='0' CINEMA ='0' NDTEST DSYNC JITNSYNC 101 80 80 80 80 ADCK FWCK SCK LALT HSP DOSEL CLP='0' X 102 C0 C0 C0 C0 SHTR='11' HSS H2DEL(3:0) 0~15nSEC DELAY ADJUST PBLK_SEL HSSC(8) 103 00 00 00 00 |---- HIGH SHUTTER SPEED CONTROL (7:0) ----| 104 07 0C 07 0C |---- GHDLY(7:0) -128 ~+ 127 ----| 105 02 00 00 00 |---- H1DLY[3:0] 0~+15nS ----| |---- RGDLY[3:0] -8~+7nS ----| 106 2C 4E 19 68 |---- SHP_DLY[3:0] -8~+7nS |---- SHD_DLY[3:0] -8~+7nS ----| 107 40 60 50 60 FLALTSEL ADCKDLY[2:0] 0~+7nS DSCKSEL FWCKDLY[2:0] 0~+7nS 108 0D 0D 0D 0D |---- HCNTSET[7:0] '00' PROHIBIT ----| 109 00 00 00 00 |---- LSSC[7:0] low speed shutter ----|

10A 00 00 00 00 DCKSEL |---- VCNTSET[6:0] ----| 10B 00 00 00 30 CLP1-ADJ(2:0): -2~+2CK CLP1 ADJ X X X X X 10C 03 05 05 05 X X X X PSEUDO EBFDLY[2:0] BURST FLAG DELAY 10D 1B 1B 1F 1F |---- FHCNTSET[7:0]; INTERNAL JITER FREE SYNC SIGNAL DELAY DAJUST(AFTER TBC) ----| 10E 00 00 00 14 PBLK X SHP PULSE WIDTH[2:0] SHD PULSE WIDTH[2:0] 10F 00 00 00 00 |---- ONEH_P [3:0] ----| |---- ONEH_N [3:0] ----|

CLUSTER 1 (HEADER[3:0] = 4'b0001) ENCODER/ DEFECT ADJUST 110 4A 4C 4B 4A |---- C-SYNC[7:0] c.sync level 0~255 *EEPROM EMPTY ? ----| 111 00 01 01 03 |---- SETUP[7:0] setup level 0~255 ----| 112 00 00 00 00 |---- EBURST[7:0] burst phase ADJ:360deg./2047 control :NTSC only ----|

Samsung Electronics4-12

Alignment and Adjustment

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

NOR HI8 NOR HI8 OPTION D6 D5 D4 D3 D2 D1 D0 113 00 40 00 20 ROM TEST E UV_CTRL |---- EBURST_H[2:0] ----| 114 CC C8 D8 D8 |---- EUSC[7:0] -128~+127 of B-Y(U) BURST VALUE ----| 115 00 00 28 28 |---- EVSC[7:0] -128~+127 of R-Y(V) BURST VALUE ----| 116 02 0 2 0 2 02 X EZBRT[1:0];BIGHT OF WINDOW EZONE X A/D-DIRECT EXTDAC PD1 117 03 03 03 03 X X AD[1:0] AD CLK DLY D-CLP S2:GISS COMP. S1 S0 118 08 00 0D 00 |----- CLAMP_OFFSET[7:0] ----| 119 30 30 30 30 |----- DEFECT_THRESHOLD[7:0] 0~255 ----| 11A 00 00 00 00 X X X X RAM-OUT |---- RAM-OUT[8:6] 11B 00 00 00 00 |---- RAM-OUT[5:0] ----| RAM-OUT[9:8] 11C 00 00 00 00 |---- RAM-OUT[7:0] ----| 11D 00 00 00 00 X |---- PFINDCNT[6:0] ----| 11E 0A 0A 0A 0E DUMMY W/B;INTERVALOF AREA(SECTOR) FROM CENTER CENTER 11F F0 F0 F0 F0 *DIS;WIGHT WHEN DATAINCREASE

CLUSTER 2 (HEADER[3:0] = 4'b0010) LUMINANCE 120 66 76 66 66 YVBKTH[1:0] YVBKG[1:0] YHBKTH[1:0] YHBKG[1:0] 121 10 D9 10 D9 Y_H_GAIN[1:0] X |---- Y_H_POSI_GAIN[4:0] ----| 122 58 94 58 D8 Y_L_GAIN[1:0] YOLD-GAMMA |---- Y_V_POSI_GAIN[4:0] ----| 123 02 02 03 03 X X |---- YA_NOISE_SLICE[5:0] ----| 124 B0 A0 B0 C0 |---- YHL_SC[7:0] ----| 125 FF 37 FF FF |---- YEDGE_SC[7:0] ----| 126 E0 E0 E0 E0 YVAPPSEL YEGCS YHLCS'1'=ON YLPFSEL[1:0];00,01,10 |---- YSCDLY[2;0] ----| 127 30 0A 30 0A |---- YHINS[6:0] aperture noise slice level after GAMMA. ----| YNEGA/POSI 128 D0 DE D8 E0 |---- YWC[7:0] *EEPROM EMPTY ? ----| 129 8A 8A 8E 90 |---- YGAIN[7:0] X0~X2 ----| 12A 00 00 00 00 X YENHANTH[2:0] X X YENHANG[1:0] 12B 00 00 06 00 |---- YART[2:0] ----| |---- YHI-A-GAIN[4:0] ----|

12C 57 AF 61 AF |---- HAPGN[4:0] ----| YHCLIP[3:2] H_C_SUP[4] 12D A1 81 B1 C8 |---- VAPGN[4:0] ----| YHCLIP[1:0] E_C_SUP[4]

12E 80 88 80 80 H_C_SUPP_GAIN[3:0]high light color suppress slope F_FALL[3:0] edge color suppress 12F 58 50 58 50 |---- Y_APERTUTR_CLIP[7:0] ----|

CLUSTER 3 (HEADER[3:0] = 4'b0011) LUMINANCE & CHROMA 130 20 20 20 20 YHPEG[1:0] YVPEG[1:0] YHEMBSEL[1:0] YVEMBSEL[1:0] 131 30 30 30 30 |---- YPST[7:0] pastel level ----| 132 30 30 30 30 |---- YEMB[7:0] embossing level ----| 133 00 00 00 00 X GYDLY[2:0];LINE-INPUT MODE YEMBOSS YPASTEL YIN-OUT YWINDOW 134 0A 05 04 09 |---- CRDS[7:0] r-dark-slice ----| 135 FA FE 07 00 |---- CBDS[7:0] b-dark-slice 136 FE 00 00 00 |---- CGDS[7:0] g-dark-slice 137 36 3A 34 31 |---- CRWB[7:0] R-white-balance-control 138 8F 8F 8C 90 |---- CBWB[7:0] B-white-balance-control 139 24 24 24 24 |---- CGWB[7:0] G-white-balance-control

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