samsung SCL700, SCL710, SCL750, SCL770 Service Manual

© Samsung Electronics Co.,Ltd.JAN. 2002

Printed in Korea

AD68-00420R

SERVICE MANUAL

SCL700/710/750/770

8mm CAMCORDER

SCL700/710/750/770

SERVICE

1. Precautions

2. Product Specifications and
Comparison Chart

3. Disassembly and Reassembly

4. Alignment and Adjustment

5. Exploded View and Parts List

6. Electrical Par ts List

7. PCB Diagrams

8.Wiring Diagram

9. Schematic Diagrams

Manual

8mm CAMCORDER

CONTENTS

For mechanical disassembly and adjustment, refer to the “Mechanical Manual”
(DE-10 AD68-00420H).

8

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 Models (SCL700/SCL710/SCL750/SCL770)

Recording system Video: 2 rotary heads Helical scanning FM

Audio: FM monaural system

Video signal NTSC color, EIA standard
Usable cassette Hi8 or 8mm
Tape speed SP: 14.345 mm/sec
Speed mode Record: SP only Playback: SP only
Recording time P6-120: 120 min.
FF or REW time P6-120: approx. 6.5 min.
Image device CCD (Charge Coupled Device)
Optical zoom ratio 22x
Focal length: f 3.6~79.2 mm
F 1.6
Filter diameter 46 mm
Focus system Inner
Macro Auto wide macro
Min. Illumination 0.3 lux (visible)
LCD monitor
Size/Pic. cell 2.5 inch/112k
Method TFT
Connectors
Video out

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

Audio out Mini jack, 7.7 dBs, imp.: less than 820 ohms
External mic Monaural ø3.5 (SCL750/L770)
General
Power requirements

DC 8.4 V (1.5 A)

Power consumption SCL700/L710 : 5.4 W, SCL750/L770: 5.9 W *Recording, LCD ON
Built-in mic Condenser mic, omni-directional
Built-in speaker Dynamic, 0.5 W standard
Operating temperature 0°C to 40°C (32°F to 104°F)
Dimension (W ✕ H ✕ D) 101 ✕ 104 ✕ 174 mm (3.98 ✕ 4.09 ✕ 6.85 inches)

Weight 780 g (1.716 lbs)

Operation

Description

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

Samsung Electronics2-2

Products Specifications and Comparison Chart

2-2 Comparison Chart

2-2-1. NTSC Models

Features

Model

Format

Video Light

Remote Control

Audio

DIS

SNAP/SHOT

EVF
CVF

CCD

Digital Zoom Ratio

PAL60 PB

USB

NTSC

SCL700

Hi8

O
X

Mono

X
X
O
X

270K

880X

O
X

SCL710

Hi8

X
O

Mono

X
X
O

X
270K
880X

O

X

SCL750

Hi8

O
O

Mono

O
O
O
X

270K

880X

O

X

SCL770

Hi8

O
O

Mono

O
O
O

X

270K

880X

O
O

Samsung Electronics 3-1

3. Disassembly and Reassembly

3-1. Cabinet and PCB

3-1-1 Ass’y Cover Housing Removal

1

2

REMOVE 2 SCREWS.

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

Fig. 3-1 Ass’y Cover Housing Removal

3-1-2 Ass’y Case Top Removal

Samsung Electronics3-2

Disassembly and Reassembly

1

REMOVE ASS’Y CASE TOP BY GENTLY RELEASING
1 LOCKING TAB WITH A SMALL SCREW DRIVER.
(SEE DETAIL "A")

REASSEMBLY : PUT THE 5 TABS INTO THE SLOTS,
WHILE SLIDING IT AS SHOWN IN DETAIL "B".

Fig. 4-2 Ass’y Case Top Removal

Samsung Electronics 3-3

Disassembly and Reassembly

3-1-3 Ass’y Front Removal

1

REMOVE 1 SCREWS.

4

DISCONNECT THE HARNESS
FROM THE CN701 OF ASS’Y
MAIN PCB.

3

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

Fig.3-3 Ass’y Front Removal

3-1-4 Ass’y Case Left Removal

Samsung Electronics3-4

Disassembly and Reassembly

2

REMOVE 2 SCREWS.

REMOVE 3 SCREWS.

REMOVE 1 SCREW.

REMOVE THE ASS’Y-CASE LEFT
IN THE DIRECTION OF ARROW.

3

1

Fig. 3-4 Ass’y Case Left Removal

Samsung Electronics 3-5

Disassembly and Reassembly

3-1-5 Ass’y Case Right Removal

4

REMOVE THE CASE RIGHT
ASSEMBLY IN THE DIRECTION
OF ARROW.

3

REMOVE 2 SCREWS.

1

REMOVE 1 SCREW.

REMOVE
1 SCREW.

2

Fig. 3-5 Ass’y Case Right Removal

Samsung Electronics3-6

Disassembly and Reassembly

3-1-6 Ass’y LCD Removal

Fig. 3-6 Ass’y LCD Removal

1

REMOVE 5 SCREWS.

3

REMOVE 2 SCREWS.

4

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

2

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

Samsung Electronics 3-7

Disassembly and Reassembly

3-1-7 Ass’y EVF/CVF Removal

2

2

REMOVE 3 SCREWS.

3

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

Fig. 3-7 Ass’y EVF/CVF Removal

Samsung Electronics3-8

Disassembly and Reassembly

3-1-8 Ass’y Rear Board Removal

2

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

1

REMOVE 2 SCREWS.

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

DISCONNECT THE FPC
FROM THE MAIN PCB.

REMOVE THE 2 SCREWS.

DISCONNECT CONNECTOR
FROM THE HEAD-DRUM.

1

PULL OUT THE MAIN PCB FROM
THE ASS’Y DECK IN THE DIRECTION OF
ARROW .

2

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

Fig. 3-10 Ass’y Camera Removal

1

REMOVE 2 SCREWS.

2

REMOVE SOLDER WITH
AN IRON TO ISOLATE
SHIELD-CASE AND LENS.

A

DISCONNECT CONNECTOR AND PULL OUT THE
ASS’Y LENS IN THE DIRECTION OF ARROW .

A

Samsung Electronics 3-11

Disassembly and Reassembly

3-2. Circuit Boards Location

Fig. 3-11 Circuit Boards Location

ASS’Y MAIN BOARD

ASS’Y EVF BOARD

ASS’Y FRONT BOARD

ASS’Y LCD BOARD

ASS’Y CCD BOARD

ASS’Y REAR BOARD

ASS’Y FUNCTION BOARD

Samsung Electronics3-12

Disassembly and Reassembly

3-3. Connector Diagram

Fig. 3-12 Connector Diagrams

NO. NO.CONNECTOR CONNECTORDIRECTION

DECK FPC CN501

DECK MAIN PCB

DRUM HEAD FPC CN101

CNP01 CNC01
CN602 CN471
CN702
CN802 MIC CONNECTOR
CNP02 LENS FPC
CN601
CN472 CNE01
CN603

CNV01

CN451

DECK MAIN PCB
MAIN PCB CCD PCB
MAIN PCB FUNCTION PCB
MAIN PCB FRONT PCB

FRONT PCB ASS’Y MIC

MAIN PCB ASS’Y LENS PCB
MAIN PCB REAR PCB

FUNCTION PCB ASS’Y EVF

MAIN PCB ASS’Y CVF

CN801

CNL102 B/L FPC
CNL101

CN604(CN606) HINGE FPC

CNL201

LCD FPC

HINGE FPC

LCD PCB B/L FPC
LCD PCB HINGE FPC

MAIN PCB HINGE FPC

LCD PCB LCD FPC

26

• Refer to mechanical manual “DE-10 (AD68-00420H)”for the adjustment and checks of mechanism section.

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

Samsung Electronics 4-1

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)

Fig. 1 Test point

CN452

SW473

J453

SW478

SW477

BAT-TERMINAL

BAT-TERMINAL

SW471

SW474

14

2

13

1

J451

DC-JACK

D451

J452

SUPER-JACK

ONLY Hi8 MODEL

CN452

PB RF

Head Switching - Trigger

CN452

14 13
12 11
10 9

87
65
43

12

Samsung Electronics4-2

Alignment and Adjustment

POSITION

IC601 IC601 IC601

ACTION MODE

157PIN 158PIN 159PIN

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

PB

IC601

158PIN

GROUND

IC601

159PIN

COMMON

IC601

157PIN

OPEN

EJECT

PLAY

LOADING

STOP

UNLOADING

STOP

LOADING

UNLOADING

Samsung Electronics 4-3

Alignment and Adjustment

4-2. Camera Section 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) The special mode for camera adjustment using the remote controller.

2. Keep in mind :

1) All adjustment steps should be performed using the remote controller.

4-2-1 Preparations

4. Remote control :

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

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) Some buttons of set 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

ENTER (CONFIRM)
P.AE (DATA UP)
DSE (DATA DOWN)
BLC (MODE UP)
FADE (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.(One step or 100 step)

Manual focus adjustment.

1) Move the zoom position of lens.

2) Semi-Auto lens adjustment.

MENU ON/OFF (MODE UP ‘100’)

Samsung Electronics4-4

Alignment and Adjustment

Some buttons are changed for Service Adjustment.

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

control mode. EX) ENTER 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.

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

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

0DF.
ERR : A0 EVR : A0

STEP 3

DATA DOW N

MODE DOWN

MODE UP

DATA UP

MODE ‘100’ UP
CONFIRM
FOCUS

NEAR/FAR

Samsung Electronics 4-5

Alignment and Adjustment

000 00 01 02 03 ; 00=NTSC HI8, 01=NTSC NORMAL, 02=PAL HI8, 03= PAL NORMAL
001 C6 46 C6 46 ; DIS MODEL=“C6” , NON-DIS MODEL=“46”

46 46 NON-DIS MODEL=“46”, DIS MODEL=“C6” ,
002 67 - - - ; @IRIS CONTROL-LOW
003 A5 - - - ; @IRIS CONTROL-HIGH
004 70 - - - ; @P.CLK PWM-HIGH (ADCLK ;PAL HI8:14.250MHz, PAL-nor mal: 9.494800MHz NTSC:9.534964MHz)
005 08 - - - ; UPD16879 INIT 4th
006 44 - - - ; UPD16879 INIT 6th focus
007 44 - - - ; UPD16879 INIT 7th zoom
008 03 - - - ; CDS F-REG(f1,f0) CAM : BIT0:f0,BIT1:f1
009 B0 - - - ; CDS F-REG(f9,f2) CAM ;PGA GAIN -HIGH(0.00dB~ 30.0dB) CCD WHITE DEFECT DETECT AGC
00A 75 - - - ; CDS G-REG CAM ;DAC1 INPUT(HALL REFERENCE CONTROL;0V~3.0V)
00B 3D - - - ; CDS H-REG CAM ;DAC2 INPUT(HALL GAIN CONTROL;0V~3.0V)

00C 85 - - - ; 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 50 - - - ; CDS F-REG(f9,f2) VCR COLOR ;PGA GAIN HI8 ME
00E 02 - - - ; CDS IC A REG AT VCR MODE
00F 1C - - - ; CDS TE-R (D0:T-R D9 set=’0’=offset=E-R,’1’=offset=#010(d0~d5:add111: d4~d9),D1:T-R
010 30 - - - ; CDS OFFSET (#00F: D0=’1’ OFFSET VALUE) d3,D2D3=C0C1(CAM), D4D5=C0C1(VTR)
011 00 00 01 01 ; VNTPAL2_H ccd vertical effective line
012 F7 F6 23 23 ; VNTPAL2_L ccd ver tical effective line
013 01 00 01 00 ; HNTPAL2_H ccd horizental effective pixel
014 80 FF 78 FA ; HNTPAL2_L ccd horizental effective pixel
015 D2 D2 D2 2D ; PHG hg phase : DZOOM - EEPROM #296 CONTROL
016 01 - - - ; Mpoint_H mirror point h : MIRROR- EEPROM #336
017 74 - - - ; Mpoint_L mirror point h : MIRROR- EEPROM #337
018 A0 - D0 D0 ; AE TARGET-LOW BYTE (NON-DIS)
019 05 - 05 05 ; AE TARGET-HIGH BYTE (NON-DIS)
01A 70 - - - ; DIS AE TARGTE LOW
01B 0B 0B 0B 0B ; DIS AE TARGET HIGH
01C 80 - - - ; FLEX ZONE AE TARGET PERCENT( 80H= AUTO TARGET)
01D B0 B0 B0 88 ; SPOT LIGHT AE TARGET PERCENT( DIS: B0 , NON-DIS: 88)
01E 98 98 98 98 ; BLC ON AE TARGET PERCENT(DIS:80 , NON-DIS: 77)
01F 98 98 98 98 ; SAND SNOW AE TARGET PERCENT( DIS: 90 , NON-DIS: 88)
020 60 - - - ; NEGA BLC AE TARGET PERCENT( 80H= AUTO TARGET)
021 08 05 - 05 ; AGC =#022 VALUE: #22F- H ENHANCER MIN
022 00 - - - ; AGC =#022 VALUE :#237- V ENHANCER MIN
023 E5 - - - ; AGC MAX % (E5=90%) FOR H,V ENHANCER MIN (#021,022)
024 80 - - - ; IRIS CONTROL GAIN ‘80’=CENTER
025 38 - - - ; SHUTTER START POINT OF IRIS CONTROL PERCENT(FF=100% IRIS OPEN)
026 A0 - - - ; AGC AETRGET PERCENT( =AETARGET*(#026/100hex)

CAMERA AUTO ADJUST MODE CONTENT

0DF A0 - - - ;EEPROM -TABLE -INITIAL (CAMERA ONLY:’99’+CONFIRM =EXCEPT(#061~#067,#680~#7FF),”

0CD FF - - - ;HALL AUTO ADJUST ‘AA’=ALL DATA INITIAL)

0CE FF - - - ;IRIS AUTO ADJUST
0CF FF - - - ;W/B AUTO ADJUST
0D0 FF - - - ;LENS AUTO ADJUST(WARNNING! DON°ØT’S USE WITHOUT AN INFINITE COLLIMATOR)
0D6 FF - - - ;ZOOM VR CENTER ADJT
0DB FF - - - ;AGC AUTO ADJUST(NORMALLY NOT USED)
0DE FF - - - ;3M LENS AUTO ADJUST AT SERVICE FIELD(DISTANCE :3M +/- 1Cm)

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

HI8 NOR HI8 NOR D7 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

HI8 NOR HI8 NOR D7 D6 D5 D4 D3 D2 D1 D0

Samsung Electronics4-6

Alignment and Adjustment

027 90 - - - ; DIGITAL CLAMP CONTROL START AGC
028 A0 A0 A0 A0 ; CHROMA SUPPRESS PERCENT (00h=supress max,40h=25%,80h=50%)
029 48 - - - ; CHROMA SUPPRESS START AGC VALUE

02A 48 - - - ; NOISE SLICE START AGC VALUE
02B 80 - - - ; SHUTTER CONTROL GAIN ‘80’=CENTER
02C 80 - - - ; AGC CONTROL GAIN ‘80’=CENTER
02D 30 - 38 - ; DIS AE AVERAGE CUTTING AT AUTO MODE
02E 40 - 48 - ; DIS AE AVERAGE CUTTING AT SPLOTLIGHT MODE

02F 30 - 38 - ; DIS AE AVERAGE CUTTING AT FLEXZONE MODE
030 40 - - - ; CDS F-REG(f9,f2) VCR COLOR ;PGA GAIN HI8 MP,NORMAL
031 08 0B - 0B ; AGC H CORE LEVEL
032 08 0B - 0B ; AGC V CORE LEVEL
033 12 - - - ; AGC GAMMA
034 01 - 01 01 ; OUTDOOR(5100K) R-Y GAIN -HIGH OUTDOOR COLOR
035 10 23 3B 42 ; OUTDOOR(5100K) R-Y GAIN -LOW OUTDOOR COLOR
036 00 - 00 00 ; OUTDOOR(5100K) B-Y GAIN -HIGH OUTDOOR COLOR
037 A0 B4 E5 C8 ; OUTDOOR(5100K) B-Y GAIN -LOW OUTDOOR COLOR
038 01 - 01 01 ; OUTDOOR(5100K) R,Mg HUE -HIGH OUTDOOR COLOR
039 30 2A 50 48 ; OUTDOOR(5100K) R,Mg HUE -LOW OUTDOOR COLOR

03A 00 01 00 00 ; OUTDOOR(5100K) G, Cy HUE -HIGH OUTDOOR COLOR
03B 0A 2A 01 13 ; OUTDOOR(5100K) G, Cy HUE -LOW OUTDOOR COLOR
03C 01 - 01 01 ; OUTDOOR(5100K) B, Cy, Mg HUE -HIGH OUTDOOR COLOR
03D 52 2B 70 60 ; OUTDOOR(5100K) B, Cy, Mg HUE -LOW OUTDOOR COLOR
03E 01 - 01 01 ; OUTDOOR(5100K) Ye, G HUE -HIGH OUTDOOR COLOR

03F 2A 28 40 3B ; OUTDOOR(5100K) Ye, G HUE -LOW OUTDOOR COLOR
040 64 - - - ; WB DASH( WAITING TIME :UPPER 4BIT, SPEED:,LOWER 4BIT)
041 43 43 42 52 ; BTRK1X: R GAIN TRACKING CURVE
042 C6 - - - ; WBSPEED
043 A0 A0 AC AA ; RBCMAX0
044 9A 9A 95 95 ; MGCMAX0
045 3E 3E 3D 3E ; RBCMIN0
046 6A 6A 60 69 ; MGCMIN0
047 30 - - - ; RBRESP IGNORE AREA(R-B)
048 30 - - - ; MGRESP IGNORE AREA(Mg-G)
049 8E 8E 94 94 ; CW_LEV_BF B XIAS WHITE DETECT AREA INI. VALUE(5100K)

04A 94 94 9C 9A ; CW_LEV_GF G XIAS WHITE DETECT AREA INI. VALUE(5100K)
04B 20 20 1A 1A ; CW_LEV_RF R XIAS WHITE DETECT AREA INI.VALUE(5100K)
04C 00 - - - ; CW_LEV_MF M XIAS WHITE DETECT AREA INI.VALUE(5100K)
04D 08 - - - ; AWB_STAB AWB STABLEMODE COUNTER UPPER LIMIT
04E 00 - - - ; HIGH TEMPERTURE CONSIDERABLE RANGE CHANGE-RATE(R XIAS)

04F 80 - - 80 ; LIKEWARM/LIKECOOL
050 06 - - 06 ; R-B OFFSET DEC, INI- VALUE
051 05 - - 05 ; Mg-G OFFSET DEC INI- VALUE
052 40 - - - ; OUTS_RBN :HIGH TEMPERTURE CONSIDERABLE RANGE CHANGE-RATE(R XIAS)
053 0C - - - ; OUTS_MG :GREEN LIGHT SOURCE CONSIDERABLE RANGE CHANGE-RATE
054 48 - - - ; INS_RB :5100K COLOR TEMPERTURE AREA
055 37 - - - ; Y_LEV_L0 :LOW LUMINANCE WHITE DETECT AREA INI- VALUE (HIGH 4BIT,LOW 4BIT SEPERATE)
056 04 - - - ; AWB_hall_shutter HALL VALUE= INPUT HALL -(shutter/(80*#056))
057 48 - - - ; PKOUD_IRIS
058 20 - - - ; PKOUD_FAR:ZOOM TELE & FOCUS FAR(5.9M) (#057+#058) LESS THEN ,SRTAT DECREASE RANGE
059 FF - - - ; PKSHUT_RAT

05A 40 - - - ; PKOUD_AMIN
05B FF - - - ; Mg DIRECTION CONTROL LIMIT
05C C1 - - - ; mAWB_Pkoud_step: ]UPPER 4BIT(INCREASE SPEED),LOWER 4BIT (DECREASE SPEED)

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

HI8 NOR HI8 NOR D7 D6 D5 D4 D3 D2 D1 D0

Samsung Electronics 4-7

Alignment and Adjustment

05D FF - - - ; G DIRECTION CONTROL LIMIT
05E FF - - - ; AWB STOP WHEN R Gain > 5100K + #05E
05F 48 - 49 48 ; chHall < mAWB_Pkoud_12(#05F) + mAWB_Pkoud_far (normal)
060 80 80 80 80 ; SOPT AGC

061 ~ 067 VTR DATA

061 00 - - - ; HDSW ADJ VTR-ADJ
062 19 19 19 19 ; Fxt adj 32.768KHZ CLOCK FEQUENCY VTR-ADJ
063 7F 7F 7F 7F ; MODEL1 VTR-ADJ
064 88 88 88 88 ; DZM DISP SIZE VTR-ADJ
065 05 05 01 01 ; TBC DEFAULT VTR-ADJ
066 00 - - - ; CUSTOM VTR-ADJ
067 00 - - - ; TITLE LAN. VTR-ADJ
068 F9 F9 F9 F9 ; D/ZOOM RATIO MAX DATA( 80:2 TIMES, CO:4 TIMES, X550=F5 ,X700=F8)
069 19 19 1E 1E ; ZOOM MAX SPEED ;22X LENS PAL:1BH ,NTSC:17H ) (12,16:275pps)
06A 09 - 0B 0B ; REMCON ZOOM SPEED X22 PAL:09 =11SEC, 0B=10SEC
06B 1A - - - ; D/ZOOM RATIO OF WIDE IMAGE COMPENSATION
06C 80 - - - ; D/ZOOM ON START POSITION-LOW BYTE OF WIDE IMAGE COMPENSATION
06D 87 - - - ; D/ZOOM ON START POSITION-HIGH BYTE OF WIDE IMAGE COMPENSATION
06E 00 - - - ; D/ZOOM ON END POSITION-LOW BYTE OF WIDE IMAGE COMPENSATION
06F 85 - - - ; D/ZOOM ON END POSITION-HIGH BYTE OF WIDE IMAGE COMPENSATION
070 00 - - - ; WIDE D.ZOOM X1.1 DECREASE ZOOM POSITION-’L’ POINT (00 83)OR(08 80)
071 83 - - - ; WIDE D.ZOOM X1.1 DECREASE ZOOM POSITION-’H’POINT (00 83)OR(08 80)
072 50 50 50 50 ; WIDE D.ZOOM OFF ZOOM POSITION-’L’ POINT (50 81)OR(08 80)
073 7C - - - ; WIDE D.ZOOM OFF ZOOM POSITION-’H’ POINT (50 81)OR(08 80).7C=X1.06(0E hex)
074 09 - - - ; V SKIP LINE NUMBER
075 11 11 00 00 ; DZOOM BOUN DOWN (DIS MAX COMPENSATION(=66)-#075)
076 10 - - - ; CINEMA F-ZONE LIMIT UP
077 68 - - - ; CINEMA F-ZONE LIMIT DOWN
078 F6 - - - ; DIS;WIGHT WHEN DATA INCREASE
07D 6C 6C 20 20 ; ADDR.#21B DATA OF FIELD-’H’WHEN PHOTO ON
07E 60 60 2C 2C ; ADDR.#21B DATA OF FIELD-’L’ WHEN PHOTO ON
07F 6C 60 2C 2C ; ADDR. #21B data WHNE GHOST ON
080 1B - - - ; DIS ON XMX,XMY SETTING BY ZOOM POSITION,ADDR.#1B9,#1AE ,at WIDE END #1B8-#1AA=01hex
081 29 - - - ; DIS ON, TELE POSISION D/ZOOM RATIO (29 HEX= X 1.19)
082 0C - - - ; DIS;CONTROL OF AF DATA
083 02 - - - ; DIS;STEP OF AF DATA
084 A0 - - - ; DIS;LIMIT
085 0E - - - ; DIS; FACTOR OF FREQUENCY
086 39 - - - ; NEGA MODE FEDESTAL LEVEL #240
087 13 13 13 13 ; PB MODE #3BF CONTROL VALUE(CVF PB CLOLOR )
088 54 - 55 54 ; RBC-MAX_F
089 8C - - 8B ; chAwb_PEAK_OUD=FF, RBCMIN VALUE INCREASED RANGE, chAwb_PEAK_OUD RERATED
08A 87 - - - ; WHEN chAwb_MGCMAX IS MINMUM VALUE(5100K )
08B 92 - - - ; WHEN chAwb_MGCMAX IS MAXIMUM VALUE , RBC VAVUE ( DISTANCE VALUE WITH 200H)
08C FF - 7A - ;
08D 93 93 A7 C1 ;DSP AE TARGET COMPESATION
08E 50 50 50 50 ;AF CLIP CNT THR LOW BYTE
08F 01 - - - ;AF CLIP CNT THR HIGH BYTE
090 00 - - - ; D6=’0’ MIDDLE ZOOM TRACK COMPENSATION ON=’00’ OFF=’40’)
091 00 - - - ; DSP AF HGSTART HIGH (AT ALL AREA)
092 32 - - - ; DSP AF HGSTART LOW (AT ALL AREA)
093 00 00 01 00 ; DSP AF HGSTOP HIGH (AT ALL AREA)
094 DD DD 4E DD ; DSP AF HGSTOP LOW (AT ALL AREA)

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

HI8 NOR HI8 NOR D7 D6 D5 D4 D3 D2 D1 D0

Samsung Electronics4-8

Alignment and Adjustment

095 B8 - - - ; ZOOM VARIABLE CORVE OPTION
096 31 31 31 31 ; #0D3 LENS CHECK OPTION (‘1’= WIDE END SKIP)
097 66 - - - ;AE WEIGHT (B-2A);(WEIGHT/255)
098 36 - - - ;AGC MAX Y SETUP(#23F)
099 16 - - - ;FOCUS MIDDLE MARGIN LOW BYTE CHANGED BY ( LENS ADJUST (#0DE)

09A 00 00 00 00 ;FOCUS MIDDLE MARGIN HIGH BYTE CHANGED BY ( LENS ADJUST (#0DE)

09B ~ 0A0 AGC ADJUST SHUTTER VALUE

0A1 B4 B4 96 96 ;FADE TIME (#3 SEC*60=180==B4
0A2 90 - A1 A2 ;RGAIN5100_L CHANGED BY ( WHITE BALANCE ADJUST(#0CF)
0A3 01 - 01 01 ;RGAIN5100_H CHANGED BY ( WHITE BALANCE ADJUST(#0CF)
0A4 98 - 9C 82 ;BGAIN5100_L CHANGED BY ( WHITE BALANCE ADJUST(#0CF)
0A5 01 - 01 01 ;BGAIN5100_H CHANGED BY ( WHITE BALANCE ADJUST(#0CF)
0A6 D2 - B8 CC ;RGAIN3100_L CHANGED BY ( WHITE BALANCE ADJUST(#0CF)
0A7 00 - 00 00 ;RGAIN3100_H CHANGED BY ( WHITE BALANCE ADJUST(#0CF)
0A8 F3 - 91 E5 ;BGAIN3100_L CHANGED BY ( WHITE BALANCE ADJUST(#0CF)
0A9 01 - 01 01 ;BGAIN_3100H CHANGED BY ( WHITE BALANCE ADJUST(#0CF)
0AA 6C - - - ; FOCUS RESET LOW(16X,22X LENS) CHANGED BY ( LENS ADJUST (#0DE)
0AB 81 - - - ; FOCUS RESET HIGH(16X,22X LENS) CHANGED BY ( LENS ADJUST (#0DE)
0AC 21 - - - ; ZOOM RESET LOW(16X, 22X LENS) CHANGED BY ( LENS ADJUST (#0DE)
0AD 87 - - - ; ZOOM RESET HIGH(16X, 22X LENS) CHANGED BY ( LENS ADJUST (#0DE)
0B3 40 - - - ; HALL CLOSE TARGET
0B4 95 - - - ; IRIS CONTROL AT ADJUSTMENT ;UPPER 8 BIT
0B5 87 - - - ; IRIS CONTROL MIN LOW BYTE CHANGED BY ( IRIS ADJUST (#0CE)
0B6 72 - - - ; IRIS CONTROL MIN HIGH BYTE CHANGED BY ( IRIS ADJUST (#0CE)
0B7 81 - - - ; ZOOM VR CENTER VALUE SAVE ADDR. BY #0D6 CHANGED BY ( ZOOM VR-CENTER ADJUST (#0D6)
0B8 20 - - - ; ZOOM VR CENTER MARGEIN
0BC 34 - - - ; AGC MIN
0BD D0 - E0 C8 ; AGC MAX
0BE 89 - - - ; HALL WIDTH
0BF 60 - - - ; HALL REF. START
0C0 4C - - - ; HALL GAIN. START
0C1 42 - - - ; HALL MIN CHANGED BY ( HALL ADJUST (#0CD)
0C2 DF - - - ; HALL MAX CHANGED BY ( HALL ADJUST (#0CD)
0C7 00 - - - ; IRIS CONTROL MAX LOW BYTE CHANGED BY ( IRIS ADJUST (#0CE)
0C8 C2 - - - ; IRIS CONTROL MAX HIGH BYTE CHANGED BY ( IRIS ADJUST (#0CE)
0C9 02 - - - ; FOCUS TELE MARGIN LOW BYTE CHANGED BY ( LENS ADJUST (#0DE)
0CA 00 - - - ; FOCUS TELE MARGIN HIGH BYTE CHANGED BY ( LENS ADJUST (#0DE)
0CB 28 - - - ; FOCUS WIDE MARGIN LOW BYTE CHANGED BY ( LENS ADJUST (#0DE)
0CC 00 - - - ; FOCUS WIDE MARGIN HIGH BYTE CHANGED BY ( LENS ADJUST (#0DE)
0D7 01 - - - ; ZOOM/FOCUS CHK=ONE AF ENABLE BIT 00~03
0E0 1F - - - ; Y_SOLARI : ART EEPROM #247 AA’=ALL DATA INITIAL)
0E1 00 - - - ; C_SOLARI : ART EEPROM #29F,#2A0”
0E9 2B 32 3C 3C ; CINEMA MODE FLEX ZONE VERTICAL START LIMIT
0EA 00 00 01 01 ; CINEMA MODE FLEX ZONE VERTICAL END LIMIT HIGH
0EB DF DF 0D 0D ; CINEMA MODE FLEX ZONE VERTICAL END LIMIT LOW
0EC DC 00 EC EF ; FLEXZONE AF/AE WINDOW H OFFSET DSP
0ED FA F9 FA FB ; FLEXZONE AF/AE WINDOW V OFFSET DSP
0EE B0 D4 D1 CA ; FLEXZONE AF/AE WINDOW H OFFSET DIS
0EF E8 ED E8 E9 ; FLEXZONE AF/AE WINDOW V OFFSET DIS

0F0 01 01 01 01 ; V_YUKO(HIGH) VERTICAL EFFECTIVE H LINE NUMBER HIGH
0F1 03 02 2F 2B ; V_YUKO(HIGH) VERTICAL EFFECTIVE H LINE NUMBER LOW
0F2 01 01 01 01 ; H_YUKO(HIGH) HORIZENTALL EFFECTIVE PIXEL NUMBER HIGH
0F3 80 80 78 78 ; H_YUKO(HIGH) HORIZENTALL EFFECTIVE PIXEL NUMBER LOW
0F4 81 81 00 7E ; H_HOSEI HORIZENTAL START/STOP OFFSET

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

HI8 NOR HI8 NOR D7 D6 D5 D4 D3 D2 D1 D0

Samsung Electronics 4-9

Alignment and Adjustment

0F5 FF - - - ;
0F6 FF - - - ;
0F7 41 41 41 41 ; VSTOP OFFSET AD D/ZOOM
0F8 01 - - - ; Dis_Oaehs_Wa_Gizz: CCD WHITE DEFECT COMPENSATION H STSRT
0F9 F6 F4 F2 F2 ; Dis_Oaehe_Wa_Gizz: CCD WHITE DEFECT COMPENSATION H END
0FA 02 - - - ; Dis_OaeVs_Wa_Gizz: CCD WHITE DEFECT COMPENSATION V STSRT
0FB 77 77 8E 8E ; Dis_OaeVe_Wa_Gizz: CCD WHITE DEFECT COMPENSATION V END
0FC 03 - - - ; SEPIA R #26C
0FD C9 C9 B0 B0 ; #26D
0FE 02 - - - ; SEPIA B #26E
0FF 60 - D0 D0 ; #26F

100 ~ 116 TOP INITIALIED DATA: FIXED

117 02 01 02 01 ;E_SP2ADCK LOWER 4BIT (ADCK PHASE SELECT )
117 ~ 11F TG-INITIALIZED DATA:FIXED
120 04 03 01 03 ; E_DLRG (RG PHASE DELAY )
121 00 03 08 08 ; E_DLSP1(SHP PHASE DELAY )
122 01 0E 00 0F ; E_DLSP2(SHD PHASE DELAY )
123 ~ 1A4 TG-INITIALIZED DATA= FIXED
1A5 ~ 1FE LD/CB BLOCK INITIALIZED DATA= FIXED
1FF ~ 227 KZ(WHITE DEFECT COMPENSATION) BLOCK INITIALIZED DATA FIXED

228 ~ 24B Y PROCESS BLOCK

228 02 - - - ; D RANGE VARIABLE COEFF.(H) :256STANDARD:03 FF TYP.=X2, 512STANDARD:02 00 TYP.X1
229 60 60 60 60 ; D RANGE VARIABLE COEFF.(L)
22A 01 - 0B - ; H_BPF_MAIN_G_MODE(4bit/1bit)(H ENHANCER BPF COEFF.-MSB D4=0:+,1:-)
22B 04 - - - ; H ENHANCER CORE LEVEL(0.5LCB)
22C 0F - - - ; H_YOKUATU(H ENHANCER SUPPRESS LEVEL: 5LSB)
22D 01 01 01 01 ; H ENHANCER NOISE COEFF.(0~8TIMES)
22E 0F - - - ; H ENHANCER HIGH LEVEL COEFF.(0~8TIMES)
22F 1C 18 18 18 ; H ENHANCER COEFF.(0~8TIMES)
230 01 - 01 - ; H_BPF_MAIN_G_MODE(4bit/1bit)
231 00 - - - ; TEST MODE
232 15 - - - ; VENH_LMT (V ENHANCER INPUT LIMIT LEVEL)
233 04 - - - ; HIGH- V ENHANCER CORE LEVEL(0.5LSB)
234 06 - - - ; KV_YOKUATU (HIGH- V ENHANCER SUPPRESS LEVEL)
235 01 01 01 01 ;HIGH- V ENHANCER NOISE COEFF.(0~8 TIMES)
236 0B - - - ;HIGH- V ENHANCER HIGH LEVEL COEFF.(0~8 TIMES)
237 16 14 12 12 ;HIGH- V ENHANCER COEFF.(0~8 TIMES)
238 00 - - - ;TEST MODE
239 13 - - - ;“HENH_HL (HIGH LIGHT H ENHANCER COEFF.);100IRE OVER , H ENHANCER
23A 3F - - - ;GM_IN_LMT (GAMMA INPUT LIMIT); 100IRE = 10HEX
23B 05 - - - ;GM_KNEE (GAMMA KNEE COEFF.); 100IRE OVER, GAMMA CURVE
23C 0F 0D 0F 0F ;Y_GAMMA (GAMMA COEFF.) ;0~100IRE GAMMA CURVE
23D 00 - - - ;GM_BC (GAMMA BLACK CLIP COEFF.)
23E 08 - - - ;HLENH_CR (HILIGHT ENHANCER CORE LEVEL)
23F 32 34 37 32 ;GAMMA ,BEFORE, SETUP ADJUST”
240 09 - - - ;Y M_F PEDESTAL LEVEL CHANGE ;OFFSET BINARY CODE (NTSC TPY:0E HEX)
241 01 - - - ;Y M_F PEDESTAL LEVEL CHANGE;1=ADD, 0=SUB.
242 BB - C4 C0 ;FADE_LEV (FADE LEVEL) ;BLACK FADE TYP=C0 hex
243 00 - - - ;Y_WB NEGA = ‘1’ , POSI=’0’
244 10 - 12 - ;HLENH_LM (HILIGHT ENHANCER LIMIT LEVEL)
245 00 - - - ; TEST MODE
246 00 - - - ;NEGA/POSI

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

HI8 NOR HI8 NOR D7 D6 D5 D4 D3 D2 D1 D0

Samsung Electronics4-10

Alignment and Adjustment

247 00 - - - ;“SOLARI_Y (YSIGNAL ART LEVEL); SET, BIT =0 FIX
248 1F - - - ;STATE DATA SETTING MODE
249 00 - - - ;“Y OUTPUT SIGNAL SELECT; 0 =CAMERA MODE ,1 =LINE MODE)

24A 02 01 02 02 ;Y DELAY ADJUST ; CAMEAR MODE : TYP=02 hex (+/-2 CLOCK)
24B 00 - - - ; TEST MODE

24C ~ 26B C PROCESS MATRIX BLOCK DATA: FIXED

26C 03 - 03 03 ;R SETUP (R set) HIGH
26D 53 83 90 8C ;R SETUP (R set) LOW
26E 03 - 03 03 ;B SETUP (B set) HIGH

26F 43 3A 45 2C ;B SETUP (B set) LOW
270 03 - 03 03 ;G SETUP (G set) HIGH
271 36 - 38 40 ;G SETUP (G set) LOW
272 00 - 00 00 ;R GAIN (Kr) HIGH
273 AA A0 B9 C5 ;R GAIN (Kr) LOW
274 01 - 01 01 ;B GAIN (Kb) HIGH
275 70 F3 F0 AE ;B GAIN (Kb) LOW

276 ~ 27F C PROCESS MATRIX BLOCK DATA:FIXED

280 01 - 01 01 ;G r-y,r-g(R-YSIGNAL R-GGAIN) HIGH
281 1A 10 48 2A ;G r-y,r-g(R-YSIGNAL R-GGAIN) LOW
282 00 - 00 00 ;G b-y,b-g(B-YSIGNAL B-GGAIN) HIGH
283 A0 C0 D0 E2 ;G b-y,b-g(B-YSIGNAL B-GGAIN) LOW
284 01 - 01 01 ;G b-y,r-g(B-YSIGNAL R-GGAIN) HIGH; Mc-y =’1’ R-G > 0 AREA GAIN
285 10 03 50 20 ;G b-y,r-g(B-YSIGNAL R-GGAIN) LOW
286 00 01 00 00 ;G b-y,r-g(-) (B-YSIGNAL R-G(-)GAIN) HIGH;‘’ R-G <0 AREA GAIN
287 11 10 01 24 ;G b-y,r-g(-) (B-YSIGNAL R-G(-)GAIN) LOW”
288 01 - 01 01 ;G r-y,b-g(R-YSIGNAL B-GGAIN) HIGH; Mc-y =’1’ R-G > 0 AREA GAIN”
289 40 4E 68 60 ;“G r-y,b-g(R-YSIGNAL B-GGAIN) LOW”

28A 01 - 01 01 ;“G r-y,b-g(-) (R-YSIGNAL B-G(-)GAIN) HIGH; ‘’ R-G <0 AREA GAIN”
28B 20 25 40 2D ;“G r-y,b-g(-) (R-YSIGNAL B-G(-)GAIN) LOW”
28C ~ 2A1 C PROCESS MATRIX BLOCK DATA: FIXED
2A2 ~ 2B6 AF INITIALIZED BLOCK FIXED

2B7 ~ 2E1 AE INITIALIZED BLOCK FIXED

2C5 07 05 08 05 ;HCOUNT_2 ( AREA 6 START -> 32PIXEL )
2C6 0D 09 0D 09 ;
2C7 13 0E 15 0E ;HCOUNT_4 ( AREA 6 STOP -> 32PIXEL)
2C8 1A 11 1A 11 ;
2C9 1A 11 1A 11 ;HCOUNT_6 ( EFFECTIVE PIXEL STOP -> 32PIXEL)
2D6 05 - 06 06 ;VERTICAL AE WINDOW(V1)
2D7 05 - 06 06 ;VERTICAL AE WINDOW(V2)
2D8 0E 0E 11 11 ;VERTICAL AE WINDOW(V3)
2D9 0E 0E 11 11 ;VERTICAL AE WINDOW(V4)
2DA 0E 0E 1 1 11 ;VERTICAL AE WINDOW(V5)

2E2 ~ 302 AWB INITIALIZED BLOCK FIXED

2E2 20 20 21 21 ;OFSMG_N (OFFSET Mg-G)
2E3 22 22 23 23 ;OFSRB_N (OFFSET R-B)
2E4 00 - - - ;CW_LEV_G0 (aMGL : G WHITE DETECTIONAREA)
2E5 1C 14 1C 1A ;CW_LEV_M0 (aMGH : Mg WHITE DETECTIONAREA)
2E6 9B A8 A8 A6 ;CW_LEV_B0 (aRBL : B WHITE DETECTIONAREA)
2E7 3F 44 3F 3C ;CW_LEV_R0 (aRBH : R WHITE DETECTIONAREA)
2E8 8A 90 8A 8F ;CB_LEV_G0 (bMGL : G WHITE DETECTIONAREA)

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

HI8 NOR HI8 NOR D7 D6 D5 D4 D3 D2 D1 D0

Samsung Electronics 4-11

Alignment and Adjustment

2E9 0A 10 10 10 ;CB_LEV_M0 (bMGH : Mg WHITE DETECTIONAREA)
2EA 95 A2 A2 A2 ;CB_LEV_B0 (bRBL : B WHITE DETECTIONAREA)
2EB 40 48 38 38 ;CB_LEV_R0 (bRBH : R WHITE DETECTIONAREA)
2EC 03 - - - ;Y_LEV_L0 (LOW LUMINANCE WHITE DETECTIONAREA)
2ED 12 - - - ;Y_LEV_H0 (HIGH LUMINANCE WHITE DETECTIONAREA)
2EE 04 - - - ;OFFSET DEC Mg-G
2EF 02 - - - ;OFFSET DEC R-B
303 ~ 333 DIGITAL ZOOM(DSP) INITIALIZED BLOCK FIXED
334 ~ 37B MOSAIC/MIRROR (DSP) INITIALIZED BLOCK FIXED
37C ~ 385 DISPLAY-TOP INITIALIZED BLOCK FIXED

386 ~ 3B5 SSG INITIALIZED BLOCK FIXED

386 00 - - 02 ;TV_MODE D2,D1=00: NTSC, 10=PAL
387 03 - - - ;HCLR1( SSG_H COUNTER CLEAR1 ;H-START)- HIGH
388 74 74 80 80 ;LOW
389 01 01 01 01 ;HCLR2 ( SSG_H COUNTER CLEAR2 ;H-MIDDLE )- HIGH
38A AD AD B8 B8 ;LOW
38B 00 00 00 00 ;VCLR (SSG_V COUNTER CLEAR( T=H/2) -HIGH
38C 02 02 02 02 ;LOW
38D 02 02 02 02 ;CBLK_V tf ( CBLK V blanking START PHASE)-HIGH
38E 09 09 70 70 ;LOW
38F 2A 2A 33 33 ;CBLK_V tr ( CBLK V blanking END PHASE)
390 00 - - - ;TKEY1_H tr (H DIRECTION TKEY1 START PHASE)-HIGH
391 56 - 5C 65 ;LOW
392 03 - - - ;TKEY1_H tf (H DIRECTION TKEY1 END PHASE)-HIGH
393 16 - - - ;LOW
394 00 - - - ;TKEY2_H tr (H DIRECTION TKEY2 START PHASE)-HIGH
395 5B - 60 6A ;LOW
396 03 - - - ;TKEY2_H tf (H DIRECTION TKEY2 END PHASE)-HIGH
397 11 - - - ;LOW
398 00 - - - ;TKEY1_V tr (V DIRECTION TKEY1 START PHASE)-HIGH
399 20 18 20 1E ;LOW
39A 00 01 01 01 ;TKEY1_V tf (V DIRECTION TKEY1 END PHASE)-HIGH
39B FA 00 30 30 ;LOW
39C 00 - - - ;TKEY2_V tr (V DIRECTION TKEY2 START PHASE)-HIGH
39D 23 1B 23 23 ;LOW
39E 00 - 01 01 ;TKEY2_V tf (V DIRECTION TKEY2 END PHASE)-HIGH
39F F7 FD 2D 2D ;LOW
3A0 43 - - - ;HSYNC tf ( CSYNC PHASE1 ;T=1/fs)
3A1 00 - - - ;HSYNC tr ( CSYNC PHASE2 ;T=1/fs)-HIGH
3A2 87 - - - ;LOW
3A3 66 - - - ;EQ tr ( CSYNC PHASE3 ;T=1/fs)
3A4 22 - - - ;CAMERA MODE(REC); EN_CBLK tf (CBLK H blanking START PHASE, INTERNAL encoder)
3A5 00 - - - ;CAMERA MODE(REC); EN_CBLK tr (CBLK H blanking END PHASE, INTERNAL encoder)-HIGH
3A6 97 97 AD AD ;LOW
3A7 43 - - - ;OSDHD tr ;OSDHDSTARTPHASE(SCBLKSTARTPHASE;OSD)
3A8 00 - - - ;OSDHD rf ;OSDHDENDPHASE( OSD)-HIGH
3A9 87 87 81 81 ;LOW
3AA 25 25 25 25 ;CBLK tr (CBLK blanking STARTPHASE)
3AB 00 - - - ;CBLK tf (CBLK blanking ENDPHASE)-HIGH
3AC D5 D5 D9 E8 ;LOW
3AD 4F 4F 5C 5C ;CAMERA MODE(REC); LCDHD tf ,LCDHD STARTPHASE, LCD
3AE 00 - - - ;CAMERA MODE(REC); LCDHD tr, LCDHD END PHASE, LCD -HIGH
3AF 53 53 60 60 ;LOW

Samsung Electronics4-12

Alignment and Adjustment

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

HI8 NOR HI8 NOR D7 D6 D5 D4 D3 D2 D1 D0

3B6 ~ 3CC ENCORDER INITIALIZED BLOCK DATA :FIXED

3B6 0F - - - ;IN-AREA SIGNAL LEVEL SELECT, VERTICAL blanking”
3B7 21 - - - ;LPFSELECT,
3B8 08 - - - ;Y FADE LEVEL
3B9 00 - - - ;CHARA Y LEVEL (D4..D1:Y, D5..D8:GREEN)
3BA 08 - - - ;R-Y FADE LEVEL
3BB 88 - - - ;CHARA R-Y LEVEL (D4..D1: R-Y, D5..D8: GREEN)”
3BC 08 - - - ;B-Y FADE LEVEL
3BD 88 - - - ;CHARA B-Y LEVEL (D4..D1: B-Y, D5..D8: GREEN)
3BE 00 - - - ;CAMERA MODE(REC) ; H resetPHASE-HIGH; S1 start point, S1( INTERNALSIGNAL);CHROMA SIGNAL
3BF 47 48 47 47 ;LOW
3C0 01 - - - ;CHARA RGB level-HIGH, D1..4: R, D5..8:G, D9..12: B
3C1 11 - - - ;LOW
3C2 0C - - - ;CHARA RGB G-level-HIGH, D1..4: R, D5..8:G, D9..12: B
3C3 CC - - - ;LOW
3C4 04 - - - ; TEST CHANGE
3C5 00 - - - ;K r-y/r-y -HIGH ,gain 4TIMES(0~1023/64)
3C6 59 - - - ;LOW
3C7 00 - - - ;K g-y/r-y -HIGH ,gain 4TIMES(0~1023/64)
3C8 5A - - - ;LOW
3C9 00 - - - ;K b-y/b-y -HIGH ,gain 4TIMES(0~1023/64)
3CA 92 - - - ;LOW
3CB 00 - - - ;K g-y/b-y -HIGH ,gain 4TIMES(0~1023/64)”
3CC 40 - - - ;LOW

LCD

EVF CVF EVF CVF NOTE:DATA SEPERATED BY CVF OR NON-CVF MODEL (ADR.3CD~ADDR.552)

3CD ~ 43C LCD1(CVF/LCD) INITIALIZED BLOCK DATA :FIXED

3CD 10 00 10 00 ;SELECTER(D14=fastck_p 1:dotsck2tnsqo 0:dotsck NORMALLY,D13= sony_n , 0:sony
3CE 00 00 00 00 ;
3CF 39 5E 68 60 ;DOTSCK TEST DATA-HIGH (0~ 65535 SELECT ,8000h=2 DIV)
3D0 A6 6B C0 00 ;LOW
3D1 00 00 00 00 ;MARUME COMPENSATION-HIGH
3D2 00 00 00 00 ;LOW
3D3 00 00 00 00 ;GAMMA 1-HIGH (D13~D1:GAMMA1 DATA[9..1] 0~511 SELECT, 1STEP
3D4 3E 3E 3E 3E ;LOW
3D5 C0 41 C0 41 ;SAMPLING SYNCHRONIZE 1- HIGH
3D6 01 00 01 00 ;LOW
3D7 15 11 15 11 ;SAMPLING SYNCHRONIZE 2- HIGH
3D8 26 22 26 22 ;LOW
3D9 00 00 00 00 ;SETUP SETTING (D13~D9 :0~31 SELECT, )
3DA 00 00 00 00 ;

CVF CONTRAST/BRIGHT R/G/B ADJUST

3DB 25 - - - ;CONTRAST( 0~4TIMES 1/64 STEP 40hX1 CVF ADJUST
3DC 25 - - - ;BRIGHT (R) CVF ADJUST
3DD 25 - - - ;BRIGHT (G) CVF ADJUST
3DE 25 - - - ;BRIGHT (B) CVF ADJUST
43D ~ 452 LTG1( VCK1=LCD) TIMIMG DATA:FIXED

453 ~ 476 LTG2( VCK2=LCD) TIMIMG DAT A:FIXED
477 ~ 49A LTG3( LCD) TIMIMG DATA:FIXED

49B ~ 4BE LTG4( LCD) TIMIMG DATA: FIXED
4BF ~ 4D6 LTG5( CLK=LCD) TIMIMG DATA: FIXED
4D7 ~ 4EE LTG6( ENABLE=LCD) TIMIMG DATA: FIXED
4EF ~ 506 LTG7( H.START=LCD) TIMIMG DATA:FIXED

Samsung Electronics 4-13

Alignment and Adjustment

NO-OSD-DISPLAY DISTANCE

ADDR MODEL/DATA CONTENT

NTSC PAL

HI8 NOR HI8 NOR D7 D6 D5 D4 D3 D2 D1 D0

507 ~ 51E LTG8( V.ST ART=LCD) TIMIMG DATA:FIXED
537 ~ 556 LTG10( HCK1=LCD) TIMIMG DATA:FIXED

51F ~ 536 LTG9( DIS-VD PULSE=LCD) TIMIMG DATA: FIXED NON-CVF

529 00 - - - ; NON-CVF
52A 00 - - 01 ; NON-CVF
52B 01 01 02 02 ;DIS VD- HD FALLING TIMING SETTING-HIGH NON-CVF
52C 78 78 9D AD ;DIS VD- HD FALLING TIMING SETTING-LOW NON-CVF

563 ~ 56E CAMERA MODE VERTICAL DIRECTION CONVERT LCD(LTG1) TIMING SETTING DATA FIXED CASIO-LCD
563 C2 - - - ;VERTICAL CONVERT, OUTPUT CONVERT-LOW (CAMERA MODE-LTG1) #42F CASIO-LCD
564 04 - - - ; MCK MOD OEI PAL DCLK #430 HIGH CASIO-LCD
565 01 - 01 - ;VERTICAL CONVERTΩ√ LTG 1 EVEN #431 CASIO-LCD
566 FF - FF - ; #432 CASIO-LCD
567 01 - 01 - ;VERTICAL CONVERT LTG 1 ODD #433 CASIO-LCD
568 FF - FF - ; #434 CASIO-LCD
569 00 - 00 - ;VERTICAL CONVERT LTG 1 TOGGLE POINT 1 #435 CASIO-LCD
56A 36 - 72 56 ; #436 CASIO-LCD
56B 00 - 00 - ;VERTICAL CONVERT LTG 1 EVEN #437 CASIO-LCD
56C 02 - 02 - ; #438 CASIO-LCD
56D 00 - 00 - ;VERTICAL CONVERT LTG 1 ODD #439 CASIO-LCD
56E 02 - 02 - ; #43A CASIO-LCD
56F ~ 57A

CAMERA MODE HORIZENTAL DIRECTION CONVER T LCD (LTG1)TIMING SETTING DA TA FIXED

CASIO-LCD
56F C2 - - - ;HORIZENTAL DIRECTION CONVERT #42F CASIO-LCD
570 00 - - - ; #430 CASIO-LCD
571 00 - 00 - ;HORIZENTAL DIRECTION CONVERT #431 CASIO-LCD
572 02 - 02 - ; #432 CASIO-LCD
573 00 - 00 - ;HORIZENTAL DIRECTION CONVERT #433 CASIO-LCD
574 02 - 02 - ; #434 CASIO-LCD
575 00 - 00 - ;HORIZENTAL DIRECTION CONVERT #435 CASIO-LCD
576 36 - 72 56 ; #436 CASIO-LCD
577 01 - 01 - ;HORIZENTAL DIRECTION CONVERT #437 CASIO-LCD
578 FF - FF - ; #438 CASIO-LCD
579 01 - 01 - ;HORIZENTAL DIRECTION CONVERT #439 CASIO-LCD
57A FF - FF - ; #43A CASIO-LCD
57B ~ 586 CAMERA MODE VER.L/HORIZENTAL DIRECTION CONVERT LCD (LTG1)TIMING SETTING DATA CASIO-LCD
57B C2 - - - ;VERTICAL/HORIZENTAL DIRECTION CONVERT(LTG1) #42F CASIO-LCD
57C 04 - - - ; #430 CASIO-LCD
57D 00 - 00 - ;VERTICAL/HORIZENTAL DIRECTION CONVERT #431 CASIO-LCD
57E 02 - 02 - ; #432 CASIO-LCD
57F 00 - 00 - ;VERTICAL/HORIZENTAL DIRECTION CONVERT #433 CASIO-LCD
580 02 - 02 - ; #434 CASIO-LCD
581 00 - 00 - ;VERTICAL/HORIZENTAL DIRECTION CONVERT #435 CASIO-LCD
582 36 - 72 56 ; #436 CASIO-LCD
583 01 - 01 - ;VERTICAL/HORIZENTAL DIRECTION CONVERT #437 CASIO-LCD
584 FF - FF - ; #438 CASIO-LCD
585 01 - 01 - ;VERTICAL/HORIZENTAL DIRECTION CONVERT #439 CASIO-LCD
586 FF - FF - ; #43A CASIO-LCD
587 ~ 58A VTR-PB SEARCH MODE LCD TIMING SETTING DATA FIXED CASIO-LCD
587 30 - - - ;SEARCH/STILL, HV COUNTER TEST DATA-LOW #3FD CASIO-LCD
588 00 - - - ; HLD VLD ALO ofe2 hf1 #3FE CASIO-LCD
589 80 - - - ;SEARCH/STILL, SRT SIGNAL SHIFT -LOW #409 CASIO-LCD
58A 02 - - - ; CSO fps #40A CASIO-LCD