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– 2-12 –

8

Insert new floppy disk containing DOS Operating System

and the E.V.R. Adjustment Program into IBM PC/AT and

turn on the IBM PC/AT.

8

At the prompt, type RADJ2 CS320E and press the

ENTER key, then the initial menu page as shown in Fig. 5-

1-1 will be displayed.

This saving procedure is recommended to keep the current

adjustment status of the camera.

8

Press the SAVE (F5) key of the computer, and the

computer will ask you for the file name.

8

Type  xxxxxxxx.EV2 0000 04AF. Give an appropriate file

name for xxxxxxxx within 8 letters, but do not use

CS320E.

8

Press the ENTER key.

This loading procedure is recommended to return the

adjustment status of the camera to the factory default setting

or the setting you saved before.

8

Press the LOAD (F1) key of the computer, and the

computer will ask you for the file name.

8

Type CS320E.EV2 or xxxxxxxx.EV2 (xxxxxxxx means a

file name you named before.) and press the ENTER key.

8

Select the item "1. SC FREQUENCY" with the ARROW

key and press the ENTER key.

8

Connect the Frequency Counter to TD4 as shown in Fig.

5-1-2.

8

Adjust the data with the ARROW key so that the

Subcarrier Frequency becomes 17.734 47 MHz ± 40 Hz.

8

Press the ENTER key for the next adjustment.

8

Connect the Frequency Counter to TD4 as shown in Fig.

5-1-2.

8

Adjust the data with the ARROW key so that the

Subcarrier Frequency becomes 17.734 47 MHz ± 40 Hz.

8

Press the ENTER key for the next adjustment.

8

Connect the CH1 of the Oscilloscope to the Video Output

Connector.

8

Connect the CH2 of the Oscilloscope to the AC Power

Line.

8

Trigger the Oscilloscope at V-rate.

8

Adjust data with the ARROW keys so that the decay point

of V-sync signal gains 2H ± 4H from the zero-cross point

of the AC Power Line Input Waveforms as shown in Fig.

5-1-3.

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M E N U

PANASONIC  EVR  ADJUSTMENT  SYSTEM   (C)MCI  Co.   CCTV  PRODUCT: CS320   EEPROM: 0

<CONTENTS>      TD4 17.73447+–40Hz
<INSTRUCTION> PLEASE  CHOOSE  MENU  DATA  BY  ARROW-KEY

LOAD(F1)

QUIT(F3)

SAVE(F5)

P A L

1. SC FREQUENCY
2. SC FREQUENCY
3.1. LL PHASE1 FOR AC type (50Hz)
3.2. LL PHASE2 FOR AC type (50Hz)
4. LENS REFRESH
5. HI CLIP LEVEL
6. PEDESTAL
7. ALC DC
8.1. VIDEO OUT GAIN (L)
8.2. VIDEO OUT GAIN (H)
9.1. BURST LEVEL R
9.2. BURST LEVEL B
9.3. BURST PHASE R
9.4. BURST PHASE B
10.1. WB 3200K MANU OFFSET R
10.2. WB 3200K MANU OFFSET B
11.1. WB 6500K ATW LIMIT R
11.2. WB 6500K ATW LIMIT B
12.1. 3200K R_GAIN

12.2. 3200K B_GAIN
12.3. 3200K R_PHASE
12.4. 3200K B_PHASE
13.1. 5100K R_GAIN
13.2. 5100K B_GAIN
13.3. 5100K R_PHASE
13.4. 5100K B_PHASE
14. HIGHLIGHT CHROMA CLIP

P a g e   ( 1 / 1 )

Main Board
(Digital Section)

TD4

– 2-13 –

8

Press the ENTER key for the next adjustment.

8

Adjust data with the ARROW keys so that the decay point

of V-sync signal gains 2H ± 4H from the zero-cross point

of the AC Power Line Input Waveforms as shown in Fig.

5-1-3.

8

Press the ENTER key for the next adjustment.

8

After the lens stops moving, press the ENTER key for the

next adjustment.

8

Aim the Camera at the Logarithmic Grayscale Chart.

8

Connect the terminated Oscilloscope with 75

Ω

to the

Video Output Connector.

8

Trigger the Oscilloscope at H-rate.

8

Adjust data with the ARROW keys so that the High Clip

Level becomes 805 mV ± 30 mV as shown in Fig. 5-1-4.

8

Press the ENTER key for the next adjustment.

8

Connect the terminated Oscilloscope with 75

Ω

to the

Video Output Connector.

8

Adjust data with the ARROW keys so that the Pedestal

level becomes 50 mV ± 10 mV as shown in Fig. 5-1-5.

8

Press the ENTER key for the next adjustment.

8

Aim the Camera at the Logarithmic Grayscale Chart.

8

Adjust data with the ARROW keys so that the second data

from left becomes between 00 and 05 on the Video

Monitor as shown in Fig. 5-1-6.

8

Press the ENTER key for the next adjustment.

8

Aim the Camera at the Logarithmic Grayscale Chart.

8

Connect the terminated Oscilloscope with 75

Ω

to the

Video Output Connector.

8

Adjust data with the ARROW keys so that the Video

Output signal level becomes 700 mV ± 50 mV as shown in

Fig. 5-1-7.

Zero-Cross Point

AC Line Input
Waveform

Video Output
Signal Waveform

2H 

±

 4H

–

+

V SYNC

805 mV 

±

 30 mV

50 mV 

±

 10 mV

00    00    00    00    1C    10    88    30

Second data becomes between 00 and 05.

(Data are just example.)

– 2-14 –

8

Press the ENTER key for the next adjustment.

8

Adjust data with the ARROW keys so that the Video

Output signal level becomes 700 mV ± 50 mV as shown in

Fig. 5-1-7.

8

Press the ENTER key for the next adjustment.

8

Aim the Camera at the Logarithmic Grayscale Chart.

8

Connect the terminated Oscilloscope with 75

Ω

to the

Video Output Connector.

8

Adjust data with the ARROW keys so that the Burst signal

level becomes 300 mV ± 10 mV as shown in Fig. 5-1-8.

8

Press the ENTER key for the next adjustment.

8

Adjust data with the ARROW keys so that the Burst signal

level becomes 300 mV ± 10 mV as shown in Fig. 5-1-8.

8

Press the ENTER key for the next adjustment.

8

Set the Mode Switch of the Vectorscope to "NTSC" mode.

8

Adjust data with the ARROW keys so that the Burst Phase

becomes 135˚ ± 1˚ as shown in Fig. 5-1-9.

8

Set the Mode Switch of the Vectorscope to "PAL" mode.

8

Adjust data with the ARROW keys so that the Burst Phase

becomes 90˚ ± 2˚ as shown in Fig. 5-1-9.

8

Press the ENTER key for the next adjustment.

8

Set the Mode Switch of the Vectorscope to "NTSC" mode.

8

Adjust data with the ARROW keys so that the Burst Phase

becomes 135˚ ± 1˚ as shown in Fig. 5-1-8.

8

Set the Mode Switch of the Vectorscope to "PAL" mode.

8

Adjust data with the ARROW keys so that the Burst Phase

becomes 90˚ ± 2˚ as shown in Fig. 5-1-9.

8

Select "9.1. BURST LEVEL R" with the ROLLDOWN key.

8

Repeat this adjustment (9) until both Burst Level and

Phase are adjusted to proper position as shown in Fig. 5-

1-8 and Fig. 5-1-9.

8

Press the ENTER key for the next adjustment.

8

Set the gain control of the Vectorscope to maximum.

8

Aim the Camera at the White Chart or the White Paper.

8

Adjust data with the ARROW key so that the vector

positions at the center of the Vectorscope as shown in Fig.

5-1-10.

8

Press the ENTER key for the next adjustment.

700 mV 

±

 50 mV

300 mV 

±

 10 mV

135 

±

 1 

°

NTSC  mode                                              PAL  mode

cy

g

M

G

Y

L

yl

B

b

G

C

Y

dG

10

°

0

°

10

°

dø

100%

75%

R

V

U

mg

r

20%

20%

dG

cy

g

M

G

Y

L

yl

B

b

G

C

Y

dG

10

°

0

°

10

°

dø

100%

75%

R

V

U

mg

r

20%

20%

dG

90 

±

 2 

°

cy

g

M

G

Y

L

yl

B

b

G

C

Y

dG

10

°

0

°

10

°

dø

100%

75%

R

V

U

mg

r

20%

20%

dG

Positions at center.

– 2-15 –

8

Aim the Camera at the White Chart or the White Paper.

8

Adjust data with the ARROW key so that the vector

positions at the center of the Vectorscope as shown in Fig.

5-1-10.

8

Repeat adjustment from (10.1) to  (10.2) until the vector

positions at the center of the Vectorscope.

8

Press the ENTER key for the next adjustment.

8

Aim the Camera at the White Chart or the White Paper.

8

Change the colour temperature from 3 200 ˚K to 6 500 ˚K

by mounting colour temperature conversion filters on the

lens.

8

Adjust data with the ARROW key so that the vector

positions at shift by 10 % to the Cyan side of the

Vectorscope as shown in Fig. 5-1-11.

8

Press the ENTER key for the next adjustment.

8

Aim the Camera at the White Chart or the White Paper.

8

Keep the colour temperature to 6 500 ˚K.

8

Adjust data with the ARROW key so that the vector

positions at shift by 10 % to the Cyan side of the

Vectorscope as shown in Fig. 5-1-11.

8

Repeat adjustment from (11.1) to  (11.2) until the vector

positions at shift by 10 % to the Cyan side of the

Vectorscope.

8

Press the ENTER key for the next adjustment.

8

Aim the Camera at the Colour Chip Chart.

8

Set the gain control of the Vectorscope to the normal

position.

8

Return the colour temperature from 6 500 ˚K to 3 200 ˚K

by removing colour temperature conversion filters from the

lens.

8

Adjust data with the ARROW keys so that the Red gain

becomes 220 % ± 5 % (Burst Level = 100 %).

8

Press the ENTER key for the next adjustment.

8

Adjust data with the ARROW keys so that the Yellow gain

becomes 100 % ± 5 % (Burst Level = 100 %).

8

Press the ENTER key for the next adjustment.

8

Adjust data with the ARROW keys so that the Red Vector

phase becomes 108˚ ± 2˚.

8

Press the ENTER key for the next adjustment.

8

Adjust data with the ARROW keys so that the Yellow

Vector phase becomes 160˚ ± 8˚.

8

Repeat adjustment from (12.1) to  (12.4) until both

Chrominance Phase and Gain are adjusted to proper

positions as shown in Fig. 5-1-12 and Table 5-1-1.

cy

g

M

G

Y

L

yl

B

b

G

C

Y

dG

10

°

0

°

10

°

dø

100%

75%

R

V

U

mg

r

20%

20%

dG

Shifts  approx.  10%.

cy

g

M

G

Y

L

yl

B

b

G

C

Y

dG

10

°

0

°

10

°

dø

100%

75%

R

V

U

mg

r

20%

20%

dG

Phase

Gain

Red

108

°

 

±

 2

°

220% 

±

 5%

Yellow

160

°

 

±

 8

°

100% 

±

 5%

(Cyan)

290

°

 

±

 8

°

160% 

±

 10%