Panasonic WV-NP472E Service Manual ▷ View online
– 6 –
4.2.Adjustment Procedure-2
(E.V.R. Adjustment)
8
Mount the ALC Lens WV-LA9C3B on the Camera.
8
Insert new disk containing the E.V.R. Adjustment pro-
gram into IBM PC/AT and turn on the Power Switch of
IBM PC/AT.
gram into IBM PC/AT and turn on the Power Switch of
IBM PC/AT.
8
When starting an adjustment, at the prompt, type
RADJ2 NP472E and press the ENTER key, an initial
menu will be displayed in Table 4-1.
RADJ2 NP472E and press the ENTER key, an initial
menu will be displayed in Table 4-1.
8
Press the SAVE(F5) key of the Computer, then the
Computer will ask you for the file name.
Computer will ask you for the file name.
8
Type xxxxxxxx.EV2 0 2FF. Give an appropriate file
name for xxxxxxxx within 8 letters, but do not use
NP472E.
name for xxxxxxxx within 8 letters, but do not use
NP472E.
8
Press the ENTER key.
8
This saving procedure is recommended to keep the cur-
rent adjustment status of the Camera.
rent adjustment status of the Camera.
8
Press the LOAD(F1) key and type NP472E.EV2 and
press the ENTER key for presetting adjustment of the
Camera.
press the ENTER key for presetting adjustment of the
Camera.
Table 4-1
PANASONIC REMOTE EVR ADJUSTMENT SYSTEM CCTV PRODUCT:NP472 EEPROM:0
✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽
MENU
✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽ ✽
Page (1/1)
✽ ✽ ✽ ✽ ✽
PAL
1. SC FREQUENCY
2. HI CLIP LEVEL
3. ALC DC
4. VIDEO OUT GAIN
5. PEDESTAL
6.1. BURST LEVEL
6.2. BURST LEVEL
6.3. BURST LEVEL
6.4. BURST LEVEL
7.1. WB 3200K MANU OFFSET R
7.2. WB 3200K MANU OFFSET B
8.1. WB 6500K ATW LIMIT R
8.2. WB 6500K ATW LIMIT B
9.1. 3200K R_GAIN
9.2. 3200K B_GAIN
9.3. 3200K PHASE
10.1. 5100K R_GAIN
10.2. 5100K B_GAIN
11. HIGH LIGHT CHROMA CLIP
2. HI CLIP LEVEL
3. ALC DC
4. VIDEO OUT GAIN
5. PEDESTAL
6.1. BURST LEVEL
6.2. BURST LEVEL
6.3. BURST LEVEL
6.4. BURST LEVEL
7.1. WB 3200K MANU OFFSET R
7.2. WB 3200K MANU OFFSET B
8.1. WB 6500K ATW LIMIT R
8.2. WB 6500K ATW LIMIT B
9.1. 3200K R_GAIN
9.2. 3200K B_GAIN
9.3. 3200K PHASE
10.1. 5100K R_GAIN
10.2. 5100K B_GAIN
11. HIGH LIGHT CHROMA CLIP
<CONTENTS> 17.73447 Mz ± 40Hz
<INSTRUCTION> PLEASE CHOOSE MENU DATA BY ARROW-KEY
<INSTRUCTION> PLEASE CHOOSE MENU DATA BY ARROW-KEY
LOAD (F1) QUIT (F3) SAVE (F5)
(2). High Clip Level Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Confirm the Colour Temperature at 3 200°K.
8
Aim the Camera at the Logarithmic Gray Scale Chart.
8
Connect the terminated Oscilloscope with 75
Ω
to the
Video Output Connector.
8
Adjust data with the ARROW keys so that the signal level
becomes 805 mV mV as shown in Fig. 4-2.
becomes 805 mV mV as shown in Fig. 4-2.
805 mV mV
+ 35
– 0
– 0
Fig. 4-2
8
Press the ENTER key for next adjustment.
+35
–0
(1). Subcarrier Frequency Adjustment
Test Point:
TD100 or TD101 (SC VCXO)
Main Board
8
Connect the Frequncy Counter to TD100 or TD101.
8
Adjust data with the ARROW keys so that the Subcarrier
Frequency becomes 17.73447 MHz ± 40 Hz.
Frequency becomes 17.73447 MHz ± 40 Hz.
8
Press the ENTER key for next adjustment.
(3). ALC DC Adjustment
Test Point:
RAM (8090)
8
Keep the Colour Temperature at 3 200°K.
8
Aim the Camera at the Logarithmic Gray Scale Chart.
8
Adjust data with the ARROW keys so that the measured
Level becomes between 00 and 05.
Level becomes between 00 and 05.
8
Press the ENTER key for next adjustment.
– 7 –
(4). Video Output Gain Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Keep the Colour Temperature at 3 200°K.
8
Aim the Camera at the Logarithmic Gray Scale 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 sig-
nal level becomes 700 mV ± 50 mV as shown in Fig. 4-3.
nal level becomes 700 mV ± 50 mV as shown in Fig. 4-3.
Fig. 4-3
(5). Pedestal Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
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 ± 5 mV as shown in Fig. 4-4.
level becomes 50 mV ± 5 mV as shown in Fig. 4-4.
8
Press the ENTER key for next adjustment.
Fig. 4-4
8
Press the ENTER key for next adjustment.
700 mV
±
50 mV
50 mV
±
5 mV
(6). Burst Level Adjustment
(6.1). Burst Level Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Keep the Colour Temperature at 3 200ºK.
8
Aim the Camera at the Logarithmic Gray Scale 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 level
becomes 300 mV ± 10 mV as shown in Fig. 4-5.
becomes 300 mV ± 10 mV as shown in Fig. 4-5.
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. 4-6.
phase becomes 135° ± 1° as shown in Fig. 4-6.
8
Change the Mode Switch of the Vectorscope from the
NTSC mode to the PAL mode.
NTSC mode to the PAL mode.
8
Adjust data with the ARROW Keys so that the Burst
phase becomes 90° ± 2° as shown in Fig.4-6.
phase becomes 90° ± 2° as shown in Fig.4-6.
8
Press the ENTER key for next adjustment.
(6.2). Burst Level Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Keep the Colour Temperature at 3 200ºK.
8
Aim the Camera at the Logarithmic Gray Scale 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 level
becomes 300 mV ± 10 mV as shown in Fig. 4-5.
becomes 300 mV ± 10 mV as shown in Fig. 4-5.
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. 4-6.
phase becomes 135° ± 1° as shown in Fig. 4-6.
8
Change the Mode Switch of the Vectorscope from the
NTSC mode to the PAL mode.
NTSC mode to the PAL mode.
8
Adjust data with the ARROW Keys so that the Burst
phase becomes 90° ± 2° as shown in Fig.4-6.
phase becomes 90° ± 2° as shown in Fig.4-6.
8
Press the ENTER key for next adjustment.
300 mV
±
10 mV
Fig. 4-5
– 8 –
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
135
°
±
1
°
(90
°
±
2
°
)
(135
°
±
1
°
)
90
°
±
2
°
PAL mode
NTSC mode
Fig. 4-6
8
Select the item "6.1. BURST LEVEL" with the ROLL
DOWN key and press the ENTER key.
DOWN key and press the ENTER key.
8
Repeat adjustment steps (6.1) to (6.4) until Burst level
and phase are adjusted to proper position as shown in
Fig. 4-5 to Fig.4-8.
and phase are adjusted to proper position as shown in
Fig. 4-5 to Fig.4-8.
8
Press the ENTER key for next adjustment.
(6.3). Burst Level Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Keep the Colour Temperature at 3 200ºK.
8
Aim the Camera at the Logarithmic Gray Scale 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 level
becomes 300 mV ± 10 mV as shown in Fig. 4-7.
becomes 300 mV ± 10 mV as shown in Fig. 4-7.
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. 4-8.
phase becomes 135° ± 1° as shown in Fig. 4-8.
8
Change the Mode Switch of the Vectorscope from the
NTSC mode to the PAL mode.
NTSC mode to the PAL mode.
8
Adjust data with the ARROW Keys so that the Burst
phase becomes 90° ± 2° as shown in Fig.4-8.
phase becomes 90° ± 2° as shown in Fig.4-8.
8
Press the ENTER key for next adjustment.
(6.4). Burst Level Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Keep the Colour Temperature at 3 200°K.
8
Aim the Camera at the Logarithmic Gray Scale 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 level
becomes 300 mV ± 10 mV as shown in Fig. 4-7.
becomes 300 mV ± 10 mV as shown in Fig. 4-7.
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. 4-8.
phase becomes 135° ± 1° as shown in Fig. 4-8.
8
Change the Mode Switch of the Vectorscope from the
NTSC mode to the PAL mode.
NTSC mode to the PAL mode.
8
Adjust data with the ARROW Keys so that the Burst
phase becomes 90° ± 2° as shown in Fig.4-8.
phase becomes 90° ± 2° as shown in Fig.4-8.
8
Press the ENTER key.
300 mV
±
10 mV
Fig. 4-7
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
135
°
±
1
°
(135
°
±
1
°
)
(90
°
±
2
°
)
90
°
±
2
°
NTSC mode
PAL mode
Fig. 4-8
– 9 –
(7.1). White Balance 3 200°K Manual
Offset R Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Keep the Colour Temperature at 3 200°K.
8
Aim the Camera at the White Chart or White Paper.
8
Set the Gain Control of the Vectorscope to maximum.
8
Adjust data with the ARROW keys so that the vector posi-
tions at the center of the Vectorscope as shown in Fig.4-9.
tions at the center of the Vectorscope as shown in Fig.4-9.
8
Press the ENTER key for next adjustment.
(7.2). White Balance 3 200°K Manual
Offset B Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Keep the Colour Temperature at 3 200°K.
8
Aim the Camera at the White Chart or White Paper.
8
Set the Gain Control of the Vectorscope to maximum.
8
Adjust data with the ARROW keys so that the vector posi-
tions at the center of the Vectorscope as shown in Fig.4-9.
tions at the center of the Vectorscope as shown in Fig.4-9.
8
Repeat adjustment steps (7.1) and (7.2) until vector posi-
tions at the center of the Vectorscope.
tions at the center of the Vectorscope.
(8.1). White Balance 6 500°K ATW Limit R
Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Change the Colour Temperature from 3 200°K to 6 500°K
by mounting Colour Temperature Conversion Filters on
the Lens.
by mounting Colour Temperature Conversion Filters on
the Lens.
8
Aim the Camera at the White Chart or White Paper.
8
Set the Gain Control of the Vectorscope to maximum.
8
Adjust data with the ARROW keys so that the vector shifts
10 % (Burst=100 %) to the Cyan side of the Vectorscope
as shown in Fig.4-10.
10 % (Burst=100 %) to the Cyan side of the Vectorscope
as shown in Fig.4-10.
8
Press the ENTER key for next adjustment.
Fig. 4-9
(8.2). White Balance 6 500°K ATW Limit B
Adjustment
Test Point:
CN403 (Video Output Connector)
I/F Power Board
8
Keep the Colour Temperature at 6 500°K.
8
Aim the Camera at the White Chart or White Paper.
8
Set the Gain Control of the Vectorscope to maximum.
8
Adjust data with the ARROW keys so that the vector shifts
10 % (Burst=100 %) to the Cyan side of the Vectorscope
as shown in Fig.4-10.
10 % (Burst=100 %) to the Cyan side of the Vectorscope
as shown in Fig.4-10.
Fig. 4-10
8
Press the ENTER key for next adjustment.
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.
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 10% to
Cyan side.
8
Press the ENTER key for next adjustment.
Click on the first or last page to see other WV-NP472E service manuals if exist.