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- 9 -

(1) Select Component1 as the input with  100% Horizontal

Color Bar Pattern(HozTV31Bar) in 480i Mode

(2) After receiving signal for at least 1 second, press the ADJ

Key on the Service R/C to enter the ‘Ez - Adjust’ and select
the ‘2. ADC 480i Comp1’.
Pressing the Enter Key to adjust automatically.  

(3) When the adjustment is over, 'MST3361 Component

Success’ is displayed. If the adjustment has errors,
'MST3361 Configuration Error’ is displayed.

(4) Select Component1 as the input with  100% Horizontal

Color Bar Pattern(HozTV31Bar) in 1080i Mode.

(5) After receiving signal for at least 1 second, press the ADJ

Key on the Service R/C to enter the ‘Ez - Adjust’ and select
the ‘3. ADC 1080i Comp1/RGB’.
Pressing the Enter Key to adjust automatically.  

(6) When the adjustment is over, 'MST3361 Component

Success’ is displayed. If the adjustment has errors,
'MST3361 Configuration Error’ is displayed.

(7) After the Component MST3361 adjustment is over, convert

the RGB-DTV Mode and display Pattern. 
When the adjustment is over, 'MST3361 RGB_DTV
Success’ is displayed. 

(8) Readjust after confirming the case Pattern or adjustment

condition where the adjustment errors. 

(9) After adjustment is complete, exit the adjustment mode by

pressing the ADJ KEY.

7. EDID(The Extended Display 

This is the function that enables “Plug and Play".

1) PC, Jig for adjusting DDC. (PC serial to D-sub

Connection equipment)

2) S/W for writing DDC(EDID data write & read)
3) D-Sub cable
4) Jig for HDMI Cable connection

1) Set devices as below and turn on the PC and JIG.
2) Open S/W for writing DDC (EDID data write & read).

(operated in DOS mode)

:

EDID for HDMI-1 (DDC (Display Data Channel) Data)
EDID Block 0 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F

__________________________________________________

0  |  00  FF  FF  FF  FF  FF  FF  00  1E  6D  01  00  01  01  01  01

10  |  00  10  01  03  80  73  41  96  0A  CF  74  A3  57  4C  B0  23

20  |  09  48  4C  2F  CE  00  31  40  45  40  61  40  01  01  01  01

30  |  01  01  01  01  01  01  66  21  50  B0  51  00  1B  30  40  70

40  |  36  00  C4  8E  21  00  00  1E  0E  1F  00  80  51  00  1E  30

50  |  40  80  37  00  C4  8E  21  00  00  1C  00  00  00  FD  00  38

60  |  4B  1F  3C  09  00  0A  20  20  20  20  02  20  00  00  00  FC

70  |  00  34  32  50  43  35  44  2D  55  43  0A  20  20  20  01  5D

EDID Block 1 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F

__________________________________________________

0  |  02  03  15  F1  46  84  05  03  02  20  22  23  15  07  50  65

10  |  03  0C  00  10  00  01  1D  00  72  51  D0  1E  20  6E  28  55

20  |  00  C4  8E  21  00  00  1E  01  1D  80  18  71  1C  16  20  58

30  |  2C  25  00  C4  8E  21  00  00  9E  8C  0A  D0  8A  20  E0  2D

40  |  10  10  3E  96  00  C4  8E  21  00  00  18  8C  0A  D0  8A  20

50  |  E0  2D  10  10  3E  96  00  13  8E  21  00  00  18  00  00  00

60  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00

70  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  A7

:

EDID for HDMI-2 (DDC (Display Data Channel) Data)
EDID Block 0 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F

__________________________________________________

0  |  00  FF  FF  FF  FF  FF  FF  00  1E  6D  01  00  01  01  01  01

10  |  00  10  01  03  80  73  41  96  0A  CF  74  A3  57  4C  B0  23

20  |  09  48  4C  2F  CE  00  31  40  45  40  61  40  01  01  01  01

30  |  01  01  01  01  01  01  01  1D  00  72  51  D0  1E  20  6E  28

40  |  55  00  C4  8E  21  00  00  1E  01  1D  80  18  71  1C  16  20

50  |  58  2C  25  00  C4  8E  21  00  00  9E  00  00  00  FC  00  34

60  |  32  50  43  35  44  2D  55  43  0A  20  20  20  00  00  00  FD

70  |  00  38  4B  1F  3C  09  00  0A  20  20  20  20  20  20  01  0D

EDID Block 1 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F

__________________________________________________

0  |  02  03  15  F1  46  84  05  03  02  20  22  23  15  07  50  65

10  |  03  0C  00  20  00  8C  0A  D0  8A  20  E0  2D  10  10  3E  96

20  |  00  C4  8E  21  00  00  18  8C  0A  D0  8A  20  E0  2D  10  10

30  |  3E  96  00  13  8E  21  00  00  18  00  00  00  00  00  00  00

40  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00

50  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00

60  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00

70  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  35

LCD TV SET

(or Digital Board)

- 10 -

:

EDID for RGB-PC
EDID Block 0 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F

___________________________________________________

0  |  00  FF  FF  FF  FF  FF  FF  00  1E  6D  01  00  01  01  01  01

10  |  00  10  01  03  68  73  41  96  0A  CF  30  A3  57  4C  B0  23

20  |  09  50  4E  A1  08  00  01  01  01  01  01  01  01  01  01  01

30  |  01  01  01  01  01  01  66  21  50  B0  51  00  1B  30  40  70

40  |  36  00  C4  8E  21  00  00  1E  0E  1F  00  80  51  00  1E  30

50  |  40  80  37  00  C4  8E  21  00  00  1C  00  00  00  FD  00  38

60  |  4B  1F  3C  09  00  0A  20  20  20  20  20  20  00  00  00  FC

70  |  00  34  32  50  43  35  44  2D  55  43  0A  20  20  20  00  77

:

EDID for HDMI-1 (DDC (Display Data Channel) Data)
EDID Block 0 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F  

___________________________________________________

0  |  00  FF  FF  FF  FF  FF  FF  00  1E  6D  01  00  01  01  01  01

10  |  00  10  01  03  80  73  41  96  0A  CF  74  A3  57  4C  B0  23

20  |  09  48  4C  2F  CE  00  31  40  45  40  61  40  01  01  01  01

30  |  01  01  01  01  01  01  66  21  50  B0  51  00  1B  30  40  70

40  |  36  00  C4  8E  21  00  00  1E  0E  1F  00  80  51  00  1E  30

50  |  40  80  37  00  C4  8E  21  00  00  1C  00  00  00  FD  00  38

60  |  4B  1F  3C  09  00  0A  20  20  20  20  02  20  00  00  00  FC

70  |  00  35  30  50  43  35  44  2D  55  43  0A  20  20  20  01  5E

EDID Block 1 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F

____________________________________________________

0  |  02  03  15  F1  46  84  05  03  02  20  22  23  15  07  50  65

10  |  03  0C  00  10  00  01  1D  00  72  51  D0  1E  20  6E  28  55

20  |  00  C4  8E  21  00  00  1E  01  1D  80  18  71  1C  16  20  58

30  |  2C  25  00  C4  8E  21  00  00  9E  8C  0A  D0  8A  20  E0  2D

40  |  10  10  3E  96  00  C4  8E  21  00  00  18  8C  0A  D0  8A  20

50  |  E0  2D  10  10  3E  96  00  13  8E  21  00  00  18  00  00  00

60  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00

70  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  A7

:

EDID for HDMI-2 (DDC (Display Data Channel) Data)
EDID Block 0 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F

___________________________________________________

0  |  00  FF  FF  FF  FF  FF  FF  00  1E  6D  01  00  01  01  01  01

10  |  00  10  01  03  80  73  41  96  0A  CF  74  A3  57  4C  B0  23

20  |  09  48  4C  2F  CE  00  31  40  45  40  61  40  01  01  01  01

30  |  01  01  01  01  01  01  01  1D  00  72  51  D0  1E  20  6E  28

40  |  55  00  C4  8E  21  00  00  1E  01  1D  80  18  71  1C  16  20

50  |  58  2C  25  00  C4  8E  21  00  00  9E  00  00  00  FC  00  35

60  |  30  50  43  35  44  2D  55  43  0A  20  20  20  00  00  00  FD

70  |  00  38  4B  1F  3C  09  00  0A  20  20  20  20  20  20  01  0E

EDID Block 1 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F

____________________________________________________

0  |  02  03  15  F1  46  84  05  03  02  20  22  23  15  07  50  65

10  |  03  0C  00  20  00  8C  0A  D0  8A  20  E0  2D  10  10  3E  96

20  |  00  C4  8E  21  00  00  18  8C  0A  D0  8A  20  E0  2D  10  10

30  |  3E  96  00  13  8E  21  00  00  18  00  00  00  00  00  00  00

40  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00

50  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00

60  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00

70  |  00  00  00  00  00  00  00  00  00  00  00  00  00  00  00  35

:

EDID for RGB-PC
EDID Block 0 table =

0   1   2   3   4   5   6   7   8   9   A   B   C   D   E   F

___________________________________________________

0  |  00  FF  FF  FF  FF  FF  FF  00  1E  6D  01  00  01  01  01  01

10  |  00  10  01  03  68  73  41  96  0A  CF  30  A3  57  4C  B0  23

20  |  09  50  4E  A1  08  00  01  01  01  01  01  01  01  01  01  01

30  |  01  01  01  01  01  01  66  21  50  B0  51  00  1B  30  40  70

40  |  36  00  C4  8E  21  00  00  1E  0E  1F  00  80  51  00  1E  30

50  |  40  80  37  00  C4  8E  21  00  00  1C  00  00  00  FD  00  38

60  |  4B  1F  3C  09  00  0A  20  20  20  20  20  20  00  00  00  FC

70  |  00  35  30  50  43  33  44  2D  55  45  0A  20  20  20  00  78

- 11 -

(1) Purpose: to reduce the difference in color temperature

among modules

(2) Principal: A module is in full dynamic range when RGB

Gain on OSD is 192. To adjust the white balance without
causing full dynamic range and full data, fix one of RGB
Gains at 192 and control the other two by reducing them
from 192.

(1) Color Analyzer : CA-100+(CH 10), CA-100(CH 10) or CA-

210(CH 10)
=> To adjust color temperature of Plasma, CS-1000 is the

Color Analyzer and should be set to use CH 10 in which
white, red, green, and blue color are corrected. Conduct
the adjustment according to the coordinates for White
Balance adjustment in the table below.

In the case of using color-corrected CA-100, CA-100+,
and CA-210 (using CH10) to adjust Plasma, there are
differences for CS-1000 in the result due to the
characteristics of a module or filter. The target values of
the color coordinates in the table below are given to
prevent it.

(2) Automatic adjustor (with automatic adjustment necessity

and the RS-232C communication being possible)

(Automatic Adjustment)

Use the internal pattern to adjust White Balance. The pattern
is automatically given when the automatic adjustment device
is connected or when a user presses ADJ on the remote
controller to start Ez Adjust and then selects 6.White-Balance.

[

Requirements for Automatic Adjustment

(1) The illuminance of surroundings

10 lux or less; preventing light in surroundings as much as
possible

(2) The location of the Probe

1) For PDP: place the color analyzer (CA-100, CA-100+,

and CA-210) close to the surface of a module and start
the adjustment.

2) For LCD: place the color analyzer (CA-210) close to the

surface of a module within 10 cm and keep the probe of
the color analyzer at 80° to 100° angle from the surface
of a module.

(3) Aging time

1) Once Aging is started, keep the power on without power

supply interruption for at least 15 minutes for heat run.

2) For PDP, use the internal pattern to adjust White

Pattern.

3) For LCD, use NO SIGNAL or Full White Pattern to

ensure the backlight is turned on.

(Automatic Adjustment)

(1) Turn on the POWER ON(

Â

) of the remote controller to set

the adjustment and then start the automatic adjustment or
set the Baud Rate to 115200.Â) of the remote controller to 

(2) Start the adjustment from “wb 00 00” and complete it at

“wb 00 ff”. (Adjust the offset if necessary)

wb 00 00 the automatic adjustment of White Balance is
started.
wb 00 10 adjusting gain (internal pattern appears) is
started.
ja 00 ff adjusting data
jb 00 c0
...
wb 00 1f adjusting gain is completed.
Adjust the offset (from wb 00 20 to wb 00 2f) if necessary.
wb 00 ff the automatic adjustment of White Balance
(internal pattern disappears) is completed.

C A -100+

C O L O R

A N A L Y Z E R

T Y P E ; C A -100+

F u l l W h i t e P at t er n

R S-232C

Connection Diagram of Automatic Adjustment

- 12 -

[

(Automatic Adjustment)

[42PC5D-UC] & [50PC5D-UC]

[WARNING] RGB-Cut fixed value

If the model has a fixed value, the equivalent value
must be applied.

Fix one of three Gains (R Gain, G Gain, and B Gain)
at 192 and control the other two by reducing values
from 192.

(Manual Adjustment)

Required Equipment: CA-100 (CH 10), CA-100+ (CH 10), CA-
210 (CH-10)
--> To adjust color temperature of Plasma, CS-1000 is the

Color Analyzer and should be set to use CH 10 in which
white, red, green, and blue color are corrected. Conduct
the adjustment according to the coordinates for White
Balance adjustment in the table below.

(1) Enter ‘Ez - Adjust’ by pressing ADJ KEY on the Service

Remote Control.

(2) Select "9. TEST PATTERN" using CH +/- Key and HEAT

RUN at least 30 minutes by pressing the ENTER Key.

(3) Zero Calibrate of the Color Analyzer, then attach sensor to

PDP module surface when you adjust.

(4) Select ‘6. White-Balance’ of ‘Ez - Adjust’ by pressing the

ADJ KEY on the Service R/C. Then enter adjustment mode
by pressing the Right KEY (

G

) .

(The internal pattern of full white appears by pressing 

G

)

(5) The adjustment is conducted in three levels of color

temperature; COOL, MEDIUM, and WARM.

[WARNING] RGB-Cut fixed value

If the model has a fixed value, the equivalent
value must be applied.

[

Color temperature: Cool, Medium, Warm

(1) When R Gain is fixed at 192,

Control G Gain and B Gain by reducing them from 192.

(2) When B Gain is fixed at 192,

Control R Gain and G Gain by reducing them from 192.

(3) When G Gain is fixed to 192,

Control R Gain and B Gain by reducing them from 192.

Fix one of three Gains (R Gain, G Gain, and B Gain) at 192
and control the other two by reducing values from 192 to
prevent it from increasing.

(When RGB Gains are all 192, the module is in full dynamic
range.)

R Gain

G Gain

B Gain

R Cut

G Cut

B Cut

jg

jh

ji

Cool

ja

jb

jc

Mid

RS-232C COMMAND

[CMD ID DATA]

CENTER

(DEFAULT)(Decimal)

jd

je

jf

00

00

00

192

192

192

Warm

Min

Max

(Deci

mal)

64

64

64

Cool

64

64

64

Mid

64

64

64

Warm