Sony Camcorder XC HR300 User Manual

A-AR4-100-11 (1)  
CCD Black-and-White  
Video Camera Module  
Technical Manual  
XC-HR300  
2000 Sony Corporation  
 
Overview  
Ideal for high speed image processing, the XC-HR300  
is a small black and white camera featuring a 1/2 type  
progressive scan CCD. The XC-HR300 can capture  
excellent quality images at high speeds. By doubling  
the drive frequency of CCD, full frame SVGA images  
can be obtained at 50 frames/s on 1 output (progressive  
1N MODE) or 100 frames/s on 2 outputs (Interlaced 2I  
MODE). Further speed increase up to four times can  
be achieved by reducing the number of transmitted  
lines (Partial images). In addition, excellent vibration  
and shock characteristics make the camera also  
suitable for Machine vision application.  
Internal sync signal output  
You can output the HD and VD signals from the 12-  
pin connector by changing the setting of the rear panel  
switch.  
External trigger shutter function (1/4 to  
1/25000 sec.)  
You can obtain a freeze picture by inputting an  
external trigger. This function is useful for shooting a  
fast-moving object clearly.  
Body fixing  
Main Features  
Mounting screw holes are provided in the reference  
plane on the lower surface of the body, allowing  
mounting with the absolute minimum deviation of the  
optical axis.  
High image quality  
The interline transfer CCD provides a high-resolution  
image with 782 × 582 pixels.  
The connector complies with the new EIAJ  
12-pin pin assignment  
Various mode settings  
The new pin arrangement allows the connector to  
accept a trigger pulse and a WEN signal.  
Rear panel switches allow the following mode settings.  
• Gain: Fixed/Manual  
• Synchronized input/output  
• Read mode: 2I mode: 1/100 sec. (interlace) or 1N  
mode: 1/50 sec. (non-interlace)  
• 75termination  
• Shutter speed: Adjustable Partial scanning/Trigger  
shutter  
Partial scanning function  
Reading frequency in the vertical direction has been  
improved. The unit can capture partial images at up to  
400 frames/sec in 2I mode or up to 200 frames/sec in  
1N mode.  
External synchronization  
The camera module automatically determines whether  
to operate in interlace or non-interlace mode from the  
HD (horizontal drive) and VD (vertical drive) signals  
input for external synchronization.  
3
 
Overview  
System Components  
The XC-HR300 Video Camera Module system  
comprises the following components.  
Video camera module  
XC-HR300  
Camera cables  
Camera adaptor  
DC-700/700CE  
CCXC-12P02N(2 m)  
CCXC-12P05N(5 m)  
CCXC-12P10N(10 m)  
CCXC-12P25N(25 m)  
C-mount lens  
VCL-50Y-M  
VCL-25Y-M  
VCL-16Y-M  
VCL-12YM  
VCL-08YM  
Tripod adaptor  
VCT-ST70I  
(Insulated type)  
Close-up ring kit  
LO-77ERK  
Connection Diagram  
C-mount lens  
VCL-08YM  
XC-HR300  
VCL-12YM  
AC  
VIDEO OUT  
HD/VD  
WEN  
Camera cables  
VCL-16Y-M  
VCL-25Y-M  
VCL-50Y-M  
TRIG  
CCXC-12P02N  
CCXC-12P05N  
CCXC-12P10N  
CCXC-12P25N  
Camera adaptor  
DC-700/700CE  
(Conforms to new EIAJ and  
uses 12-pin assignment)  
Tripod adaptor  
VCT-ST70I  
Close-up ring kit  
LO-77ERK  
4
 
Overview  
Location of Parts and Operation  
Front/Top/Bottom  
1 Lens mount (C-mount)  
2 Reference holes  
3 Reference holes/Tripod screw holes  
1 Lens mount (C-mount)  
3 Reference holes/Tripod screw holes (bottom)  
Attach any C-mount lens such as the VCL-12YM  
standard lens or other optical equipment.  
These precision screw holes are for locking the camera  
module. Locking the camera module using these holes  
secures the optical axis alignment.  
2 Reference holes (Top)  
You can install the camera on a tripod. To install on a  
tripod, you will need to install the VCT-ST70I tripod  
adaptor using the reference holes on the bottom of the  
camera.  
These precision screw holes are for locking the camera  
module. Locking the camera module into these holes  
secures the optical axis alignment.  
5
 
Overview  
Rear Panel  
9 VIDEO OUT/DC IN/SYNC (video output/DC power  
input/sync signal I/O) connector (12-pin)  
1 Read mode selector  
2 GAIN switch  
3 Manual gain control  
4 Restart reset/External trigger shutter  
mode switch  
5 75termination switch  
6 HD/VD signal input/output switch  
8 HIGH RATE (Partial scanning) controls  
7 SHUTTER SPEED setting DIP switch  
Note  
7 SHUTTER SPEED setting DIP switch  
When you do switch settings, make sure the unit is off.  
Set an appropriate shutter speed when you have set the  
restart reset/external trigger shutter mode switch 4 to  
external trigger shutter mode M1 or M2. (Factory  
setting: shutter OFF)  
1 Read mode selector  
This switch selects either the 2I mode (interlace) or the  
1N mode (non-interlace).  
8 HIGH RATE (Partial scanning) controls  
These controls operate when you have set the restart  
reset/external trigger shutter mode switch 4 to R.R,  
M1 or M2.  
2 GAIN switch  
This switch selects fixed gain (F) or manual gain  
control (M). (Factory setting: F)  
Increasing the number by one with the tens digit  
control (left side) decreases the effective video output  
lines by 50 ~ 60 lines*. Increasing the number by one  
with the firsts digit control (right side) decreases the  
effective video output lines by 5 ~ 6 lines*.  
The partial scanning operation is turned off when both  
controls are set to 0.  
3 Manual gain control  
When the GAIN switch 2 is set to M (Manual), adjust  
the gain using this control.  
4 Restart reset/External trigger shutter mode  
switch  
The factory setting is N (Normal).  
* For details of the relation between effective pixels and  
BLKG, see “Example of Usage of the Partial Scanning  
Mode (Restart/Reset)”, page 12 and 13, or “Example of  
Usage of the Partial Scanning Mode (Trigger shutter) “,  
page 15 and 16.  
5 75termination switch  
Turn this to OFF when not terminated. (Factory  
setting: ON)  
6 HD/VD signal input/output switch  
Set the switch to INT to output HD/VD signals from  
the camera module.  
Set the switch to EXT to input HD/VD signals from an  
external unit. (Factory setting: EXT)  
9 VIDEO OUT/DC IN/SYNC (video output/DC  
power input/sync signal I/O) connector (12-pin)  
Connect a CCXC-12P05N camera cable to this  
connector for the +12V DC power supply and the  
video signal output from the camera module. When a  
sync signal generator is connected to this connector,  
the camera module is synchronized with the external  
sync signals (HD/VD signals).  
6
 
Overview  
VIDEO OUT/DC IN/SYNC connector pin assignment  
Rear panel  
Pin No.  
Camera sync output  
Ground  
External Sync (HD/VD)  
Ground  
Restart/Reset  
External trigger shutter  
Ground  
+12V DC  
1
2
Ground  
+12V DC  
+12V DC  
+12V DC  
3
Video output 1 (Ground)  
Video output 1 (Signal)  
HD output (Ground)  
VD output (Signal)  
VD output (Signal)  
Video output 2 (Ground)  
Video output 2 (Signal)  
WEN output 2 (Signal)  
Trigger pulse input (Signal)  
Ground  
Video output 1 (Ground)  
Video output 1 (Signal)  
HD input (Ground)  
HD input (Signal)  
VD input (Signal)  
Video output 2 (Ground)  
Video output 2 (Signal)  
Video output 1 (Ground)  
Video output 1 (Signal)  
HD input (Ground)  
HD input (Signal)  
Reset (Signal)  
Video output 2 (Ground)  
Video output 2 (Signal)  
Video output 1 (Ground)  
Video output 1 (Signal)  
HD input (Ground)  
4
5
6
HD input (Signal)  
7
VD input (Signal)  
8
Video output 2 (Ground)  
Video output 2 (Signal)  
WEN output (Signal)  
Trigger pulse input (Signal)  
Ground*  
9
10  
11  
12  
VD input (Ground)  
Ground*  
* The common grounds for 7, 10 and 11 pins.  
Factory setting mode of rear panel  
1
2
3
4
8
7
5
6
Number  
1
Switch name  
Factory-setting mode  
Read mode selector  
GAIN switch  
2I  
2
F
3
Manual gain control  
**  
4
Restart reset/External Trigger Shutter mode switch  
75termination switch  
N
5
ON  
6
HD/VD signal input/output switch  
EXT  
7
SHUTTER SPEED setting DIP switch  
HIGH RATE (Partial scanning) controls  
OFF (All set to the left)  
0
8
** The factory setting is set to constant sensitivity for a standard subject.  
When the GAIN switch is set to M(Manual), you can change the gain level in a range from 0 to 18 dB.  
7
 
Mode Setting  
Specifications of the Input/Output  
Input Phase Specifications of the External HD/VD  
100  
0
EVEN,  
Non Interlace  
100  
100  
External VD  
ODD  
External HD  
472  
472  
Unit: Clock  
1Clk=33.898 nsec  
Make sure that the external HD/VD phases against the  
standard central phase are as shown in the figure  
above. Invalid signal input may cause an error in the  
internal reset.  
Normal:  
1N: Consecutively operated with 32 µs HD frequency  
and 20 ms VD frequency. (See the above figure for  
the phase timing).  
When you restart/reset the camera or operate the  
camera by inputting an external trigger shutter pulse,  
the Vsync signal for the image is output 1 H later from  
the external VD.  
2I: Consecutively operated with 32 µs HD frequency  
and 10 ms VD frequency. (See the above figure  
for the phase timing).  
Restart/Restart and /External trigger shutter  
Consecutively operated with 32 µs HD frequency. VD  
(Reset) is on any timing as long as the HD phase  
is within the range described above.  
8
 
Mode Setting  
Specifications of the Trigger  
Pulse  
Specifications of the External  
HD/VD Outputs  
4.5V  
4 to 5.0V  
0 to 1.0V  
HD  
0V  
4.5V  
VD  
2 µsec to 1/4 sec  
0V  
The amplitude level is the typical value when  
terminated with 10 k. The external HD and VD can  
be output when you set the INT/EXT switch to INT.  
Input impedance; 10 kor more.  
The voltage and pulse width used are measured at pin  
11 of a 12-pin multi-connector on the rear panel.  
Specifications of the WEN  
Output  
4.5V  
0V  
625 H(1N)  
312.5 H(2I)  
The amplitude level is the typical value when  
terminated with 10 k. When the partial scanning is  
used, the pulse width is less than the above value.  
9
 
Mode Setting  
Image Output Mode  
The unit has two image signal output modes. Select the  
mode by setting the read mode switch on the rear  
panel.  
2I Mode (Factory Default)  
The VIDEO OUT 1 and VIDEO OUT 2 connectors  
output ODD/EVEN interlaced images every 1/100  
second. The SYNC signals are the same for the  
VIDEO OUT 1 and VIDEO OUT 2 connectors.  
External synchronization: EXT-HD/VD is allowed.  
1/100 second  
ODD image EVEN image ODD image EVEN image ODD image  
VIDEO OUT 1  
VIDEO OUT 2  
FLD-1  
FLD-2  
FLD-1  
FLD-2  
FLD-1  
Same SYNC  
EVEN image ODD image EVEN image ODD image EVEN image  
FLD-1  
FLD-2  
FLD-1  
FLD-2  
FLD-1  
1N Mode  
Only the VIDEO OUT 1 connector outputs non-  
interlaced 1/50 second images. The VIDEO OUT 2  
connector does not output any images.  
External synchronization: EXT-HD/VD is allowed.  
1/50 second  
Frame image  
VIDEO OUT 1  
Frame image  
Frame image  
Same SYNC  
VIDEO OUT 2  
10  
 
Mode Setting  
Restart/Reset  
To set Restart/Reset mode  
The information on one screen can be extracted at any  
time by externally inputting a restart/reset signal (HD/  
VD). To enter this mode, set the Restart reset/ External  
trigger shutter mode switch on the rear panel of the  
camera as shown in the figure below. The setting is  
especially effective for the following operation.  
Long exposure  
A highly-sensitive image is obtained by extending the  
exposure time of the CCD when satisfactory sensitivity  
cannot be obtained under other operating conditions.  
Extend the VD interval (T) period between external  
VD pulses.  
Sample input timing chart  
EXT-HD  
EXT-VD  
CCD accumulation  
VIDEO OUT1,2  
11  
 
Mode Setting  
Example of Usage of the Partial  
Scanning Mode  
As shown in the table on the next page, you can  
increase the frame rate by setting the partial scanning  
mode switch and the external VD frequency. The  
image obtained is centered as shown below.  
X line 580 line  
External VD  
VBLKG  
1 H  
Video out  
BLKG interval  
Tb [line]  
Effective image interval X [line]  
External VD frequency Tv [line]  
Note  
In the Restart/Reset mode, the video out signals are  
output about 1H later than the external VD.  
12  
 
Mode Setting  
1N mode  
External VD interval  
Tv [line]  
Partial scanning setting  
Effective lines  
BLKG interval  
Tb [line]  
Frame rate  
[frame/s]  
X [line]  
10th digit  
First digit  
0
2
3
4
45 (1.44 ms)  
45 (1.44 ms)  
51 (1.63 ms)  
55 (1.76 ms)  
50  
625 (20.0 ms)  
312 (9.98 ms)  
208 (6.65 ms)  
156 (4.99 ms)  
0
6
6
0
580 (18.6 ms)  
267 (8.54 ms)  
157 (5.02 ms)  
101 (3.23 ms)  
100  
150  
200  
BLKG interval Tb = 15 + n (n stands for the partial scanning setting value. When the 10th digit is 2 and the first digit is 6, n=26. The maximum value of  
n is 99, and the minimum value of Tb is 45. When Tb45, the BLKG interval is 45H, the constant value.  
Effective lines X = Tv Tb  
2I mode  
External VD interval  
Tv [line]  
Partial scanning setting  
Effective lines*  
BLKG interval  
Tb [line]  
Frame rate  
[frame/s]  
X [line]  
10th digit  
First digit  
0
1
1
2
25 (0.80 ms)  
28 (0.90 ms)  
32 (1.02 ms)  
35 (1.12 ms)  
100  
200  
300  
400  
312.5 (10.0 ms)  
156 (5.00 ms)  
104 (3.32 ms)  
78 (2.50 ms)  
0
3
7
0
287.5 (9.2 ms)  
128 (4.10 ms)  
72 (2.30 ms)  
43 (1.38 ms)  
BLKG interval Tb = 15 + n (n stands for the partial scanning setting value. When the 10th digit is 1 and the first digit is 3, n=13. The maximum value of  
n is 49, and the minimum value of Tb is 25. When Tb25, the BLKG interval is 25H, the constant value.  
Effective lines X = Tv Tb  
* The number of effective lines in the 2I mode indicates the number of lines output from the Video 1 and 2 connectors.  
Determine and input each value for the colored columns.  
13  
 
Mode Setting  
Using trigger pulse width  
ExternalTrigger Shutter  
Set all DIP switches (1 to 4 on the rear panel) to 0.  
You can obtain an arbitrary shutter speed by setting the  
trigger pulse width to the range of 2 µsec to  
250 msec.  
By inputting an external trigger pulse, the camera is  
able to capture fast-moving objects clearly.  
Set the Restart reset/External Trigger Shutter mode  
switch on the rear panel to Mode 1 or Mode 2.  
When you set the trigger pulse width to 1/3 of a second  
or more, the output signal changes to the normal  
VIDEO signal.  
Mode 1 (Non-reset mode)  
Mode 2 (Reset mode)  
There are two modes for timing in which a video  
signal is obtained.  
• Mode 1 (Non-reset mode)  
Exposure time = Trigger pulse width + 31 µsec  
In this mode, a video signal synchronized with a VD  
signal is output after a trigger pulse is input.  
A video signal is synchronized with the external  
VD signal when an external HD/VD signal is input.  
A video signal is synchronized with an internal VD  
signal when no external HD/VD signal is input.  
• Mode 2 (Reset mode)  
Note  
If you input a new trigger pulse before the video signal  
output for the previous trigger pulse is output  
completely, an incorrect video signal will be output.  
In this mode, an internal VD is reset, then an internal  
video signal is output after trigger pulse input after a  
certain period of time.  
For details of each timing chart, see pages 17 to 24.  
Setting of the External Trigger  
Shutter  
There are two ways to set the shutter speed.  
Using the DIP switches on the rear panel  
Mode 1 (Non-reset mode)  
1/120  
1/250  
1/500  
1/1000  
1/2000  
1/4000  
1/8000  
1/25000  
(Unit: second)  
1/1000  
Mode 2 (Reset mode)  
1/120  
1/250  
1/500  
1/2000  
1/4000  
1/8000  
1/25000  
(Unit: second)  
14  
 
Mode Setting  
Example of Usage of the Partial  
Scanning Mode  
Increase the frame rate by setting the shutter speed to  
the trigger pulse width in external trigger modes 1 and  
2, and then set the partial scanning mode adjustment  
switch and the trigger frequency (as shown in the table  
on the next page). The image is centered on as shown  
below.  
Inputting the trigger falling edge terminates the image  
output.  
If a new trigger rising edge is input within the effective  
image interval, the image will not be output correctly.  
X line 580 line  
Trigger frequency [line]  
Trigger  
External VD  
Video out  
WEN  
Effective image interval X [line]  
BLKG interval Tb [line]  
Note  
In the trigger shutter mode, the video out signals are  
output about 1H later than the external VD.  
15  
 
Mode Setting  
1N mode  
Trigger interval  
T [line]  
Partial scanning setting  
Effective lines  
BLKG interval  
Tb [line]  
Frame rate  
[frame/s]  
X [line]  
10th digit  
First digit  
0
2
3
4
45 (1.44 ms)  
45 (1.44 ms)  
51 (1.63 ms)  
55 (1.76 ms)  
50  
625 (20.0 ms)  
312 (9.98 ms)  
208 (6.65 ms)  
156 (4.99 ms)  
0
6
6
0
578 (18.5 ms)  
265 (8.48 ms)  
155 (4.96 ms)  
99 (3.17 ms)  
100  
150  
200  
BLKG interval Tb = 15 + n (n stands for the partial scanning setting value. When the 10th digit is 2 and the first digit is 6, n=26. The maximum value of  
n is 99, and the minimum value of Tb is 45. When Tb45, the BLKG interval is 45H, the constant value.  
Effective lines X = T (Tb + 2H)  
2I mode  
Trigger interval  
T [line]  
Partial scanning setting  
Effective lines*  
BLKG interval  
Tb [line]  
Frame rate  
[frame/s]  
X [line]  
10th digit  
First digit  
0
1
1
2
25 (0.80 ms)  
28 (0.90 ms)  
32 (1.02 ms)  
35 (1.76 ms)  
100  
200  
300  
400  
312.5 (10.0 ms)  
156 (4.99 ms)  
104 (3.33 ms)  
78 (2.50 ms)  
0
3
7
0
285 (9.14 ms)  
126 (4.03 ms)  
70 (2.24 ms)  
41 (1.31 ms)  
BLKG interval Tb = 15 + n (n stands for the partial scanning setting value. When the 10th digit is 1 and the first digit is 3, n=13. The maximum value of  
n is 49, and the minimum value of Tb is 25. When Tb25, the BLKG interval is 25H, the constant value.  
Effective lines X = T (Tb + 2H)  
* The number of effective lines in the 2I mode indicates the number of lines output from the Video 1 and 2 connectors.  
Determine and input each value for the colored columns.  
The above table shows an example values of the partial scanning mode. These values are measured by setting the trigger  
pulse width to 100 µs and the time interval between the trigger falling edge and the external VD falling edge to about 1H  
(32 µs). Mode 2 shows almost the same values as Mode 1. In this case, the trigger input affects the image output on about  
the last 3 lines of the effective image interval.  
16  
 
Mode Setting  
Timing Chart  
When set to Mode 1 (M1)  
For setting the shutter speed using trigger pulse width  
HD/VD input  
• Continuous VD input  
Mode transition state  
External input  
inhibition area  
(50 ms)  
External trigger  
shutter operation  
External trigger shutter operation  
Normal operation*3  
1
2
3
Trigger*1  
Trigger pulse width*3  
Exposure time (Te)*2  
Exposure  
Exposure time (Te)*2  
time (Te)*2  
External HD*1  
External VD*1  
(Continuous  
VD)  
T: T=under 10 µs*4  
T: T=under 10 µs*4  
10 µs or more  
EXT-VD  
Video out 1*5  
Video out 2  
1
2
3
WEN  
312.5 H (2I mode)  
625 H (1N mode)  
TRG  
EXT-VD  
32 µs  
10 µs  
EXT-VD  
*1 This is a signal input from outside. Make sure to  
input both HD and VD signals.  
*4 If there is a falling edge on the external VD within  
a period of +10 µs from the falling trigger edge (1  
and 2 in the figure), it is not defined whether the  
image is output for the external VD falling edge or  
the image is output for the next external VD falling  
edge. (1 in the figure shows that the image is  
output for the next external VD. 2 shows the  
image for the external VD.) In this case, see WEN  
since output of the image and WEN make up a  
pair. In any other cases, the image is output for the  
external VD falling edge after the trigger falling  
edge (3 in the figure).  
*2 Exposure time (Te)  
Te = Trigger pulse width + 31 µsec  
(The effective trigger pulse width for the external  
trigger shutter operation is between 2 µs and 1/4 s.)  
*3 The normal operation state is carried out when the  
trigger pulse width is 1/3 s or more. The trigger  
falling edge restores the external trigger shutter  
operation. In this case, the area between the falling  
edge of a trigger pulse and the subsequent 50 ms  
period is an external trigger input inhibition area.  
There is no guarantee of operation for any trigger  
input selected in this period.  
*5 Video out 2 is output only in the 2I mode.  
Note  
An image is not output correctly when the next trigger is  
input before the image for the previous trigger is output.  
17  
 
Mode Setting  
For setting the shutter speed using trigger pulse width  
HD/VD input  
• Continuous HD input/Single VD input  
Mode transition state  
External input  
inhibition area  
(50 ms)  
External trigger  
shutter operation  
Normal operation*3  
External trigger shutter operation  
1
2
Trigger*1  
Trigger pulse width*3  
Exposure time  
(Te)*2  
Exposure time (Te)*2  
External HD*1  
External VD*1  
(Single VD)  
T: T=10 µs to 65 ms*4  
min 10 µs  
Video out 1*5  
Video out 2  
2
1
WEN  
312.5 H (2I mode)  
625 H (1N mode)  
*1 This is a signal input from outside. Make sure to  
input both HD and VD signals in this case. Input  
the signal so that the VD phase aligns with the HD  
falling edge.  
*4 Input the external VD within the period of 10 µs to  
65 ms after the trigger falling edge (1 and 2 in  
the figure). There is no guarantee of operation  
when any other input is selected. If an invalid  
signal is input, the input is changed to a valid  
signal and, after several V signals, normal  
operation will resume.  
*2 Exposure time (Te)  
Te = Trigger pulse width + 31 µsec  
(The effective trigger pulse width for the external  
trigger shutter operation is between 2  
µ
s and 1/4 s.)  
*5 Video out 2 is output only in the 2I mode.  
Note  
*3 The normal operation state is carried out when the  
trigger pulse width is 1/3 s or more.  
Make sure that the trigger signal and the VD signal  
make up a pair.  
An image is not output correctly when the next trigger  
is input before the image for the previous trigger is  
output.  
The trigger falling edge restores the external  
trigger shutter operation. In this case, the area  
between the falling edge of a trigger pulse and the  
subsequent 50 ms period is an external trigger  
input inhibition area. There is no guarantee of  
operation for any trigger input selected in this  
period.  
18  
 
Mode Setting  
For setting the shutter speed using trigger pulse width  
No HD/VD input (Internal synchronization)  
Mode transition state  
External input  
inhibition area  
(50 ms)  
External trigger  
shutter operation  
Normal operation*3  
External trigger shutter operation  
2
1
3
Trigger*1  
Trigger pulse width*3  
Exposure time  
(Te)*2  
Exposure  
Exposure  
time (Te)*2  
time (Te)*2  
Internal HD*4  
T: T=10 µs or more*5  
T: T=under 10 µs*5  
Video out 1*6  
Video out 2  
1
2
3
WEN  
312.5 H (2I mode)  
625 H (1N mode)  
*1 This is a signal input from outside.  
*5 In the external trigger operation, the image is  
output for the internal VD falling edge after the  
trigger falling edge (1 and 2 in the figure). If the  
period from the trigger falling edge to the internal  
VD falling edge (T in the figure) is under 10 µs,  
there may be a delay of 1 VD in the output. (3 in  
the figure shows that the image is output for the  
next internal VD). In this case, see WEN since the  
image and WEN make up a pair. (The internal VD  
falling edge and the beginning of the equivalent  
pause in the V period of the SYNC have the same  
phase.)  
*2 Exposure time (Te)  
Te = Trigger pulse width + 31 µsec (EIA)  
(The effective trigger pulse width for the external  
trigger shutter operation is between 2 µs and 1/4 s.)  
*3 The normal operation state is carried out when the  
trigger pulse width is 1/3 s or more. The trigger  
falling edge restores the external trigger shutter  
operation. In this case, the area between the falling  
edge of a trigger pulse and the subsequent 50 ms  
period is an external trigger input inhibition area.  
There is no guarantee of operation for any triggers  
input in this period.  
*6 Video out 2 is output only in the 2I mode.  
Note  
*4 The internal VD signals are output as long as there is  
no external input and the HD/VD signal I/O switch  
on the rear panel is set to INT.  
An image is not output correctly when the next trigger  
is input before the image for the previous trigger is  
output.  
19  
 
Mode Setting  
For setting the shutter speed using DIP switches  
HD/VD input  
• Continuous VD input  
Mode transition state  
External input  
inhibition area  
(50 ms)  
External trigger  
shutter operation  
Normal  
operation*3  
External trigger shutter operation  
1
2
3
100 µs to 250 ms  
Exposure time (Te)*2  
Trigger*1  
Trigger pulse width*3  
Exposure time (Te)*2  
Exposure time  
(Te)*2  
External HD*1  
External VD*1  
(Continuous  
VD)  
T: T=under 10 µs*4  
T: T=10 µs or  
T: T=10 µs or more*4  
more*4  
Video out 1*5  
Video out 2  
1
2
3
WEN  
312.5 H (2I mode)  
625 H (1N mode)  
*1 This is a signal input from outside. Make sure to  
input both HD and VD signals.  
*4 An image is output when an external VD signal  
falls 10 ms or more after a trigger pulse rises (2  
and 3 in the figure). If the period from the trigger  
rising edge to the external VD falling edge (T in  
the figure) is under 10 ms, there may be a delay of  
1 VD in the output. (1 in the figure shows that the  
image is output for the next external VD). In this  
case, see WEN since the image and WEN make up  
a pair.  
*2 The exposure time (Te) is determined by the  
setting of DIP switches.  
For details, see Page 14.  
*3 The normal operation state is carried out when the  
trigger pulse width is 1/3 s or more. The trigger  
falling edge restores the external trigger shutter  
operation. In this case, the area between the falling  
edge of a trigger pulse and the subsequent 50 ms  
period is an external trigger input inhibition area.  
There is no guarantee of operation for any triggers  
input in this period.  
*5 Video out 2 is output only in the 2I mode.  
Note  
An image is not output correctly when the next trigger  
is input before the image for the previous trigger is  
output.  
20  
 
Mode Setting  
For setting the shutter speed using DIP switches  
HD/VD input  
• Continuous HD input/Single VD input  
Mode transition state  
External input  
inhibition area  
(50 ms)  
External trigger  
shutter operation  
External trigger shutter operation  
Normal operation*3  
Trigger pulse width*3  
1
2
Trigger*1  
2 µs to 250 ms  
Exposure time (Te)*2  
Exposure time  
(Te)*2  
External HD*1  
External VD*1  
(Single VD)  
min.10 ms  
T: T=10 µs to 75 ms*4  
Video out 1*5  
Video out 2  
2
1
WEN  
312.5 H (2I mode)  
625 H (1N mode)  
*1 This is a signal input from outside. Make sure to  
input both HD and VD signals in this case. Input  
the signal so that the VD phase aligns with the HD  
falling edge.  
*4 Input the external VD within the period of 10 ms to  
75 ms after the trigger rising edge (1 and 2 in  
the figure). There is no guarantee of operation  
when any other input is selected. If an invalid  
signal is input, the input is changed to a valid  
signal, and after several V signals, normal  
operation will resume.  
*2 The exposure time (Te) is determined by the  
setting of the DIP switches.  
For details, see Page 14.  
*5 Video out 2 is output only in the 2I mode.  
*3 The normal operation state is carried out when the  
trigger pulse width is 1/3 s or more. The trigger  
falling edge restores the external trigger shutter  
operation. In this case, the area between the falling  
edge of a trigger pulse and the subsequent 50 ms  
period is an external trigger input inhibition area.  
There is no guarantee of operation for any triggers  
input in this period.  
Note  
Make sure that the trigger signal and the VD signal  
make up a pair.  
An image is not output correctly when the next trigger  
is input before the image for the previous trigger is  
output.  
21  
 
Mode Setting  
For setting the shutter speed using DIP switches  
No HD/VD input (Internal synchronization)  
Mode transition state  
External input  
inhibition area  
(50 ms)  
External trigger  
shutter operation  
Normal  
operation*3  
External trigger shutter operation  
1
3
2
2 µs to 250 ms  
Exposure time (Te)*2  
Trigger*1  
Trigger pulse width*3  
Exposure time  
(Te)*2  
Internal VD*4  
T: T=10 ms or  
more*5  
T: T=10 ms or more*5  
T: T=under 10 ms*5  
Video out 1*6  
Video out 2  
3
1
2
WEN  
312.5 H (2I mode)  
625 H (1N mode)  
*1 This is a signal input from outside.  
*5 An image is output when an internal VD signal  
falls 10 ms or more after a trigger pulse rises (2  
and 3 in the figure). If the period from the  
trigger rising edge to the internal VD falling edge  
(T in the figure) is under 10 ms, it is not defined  
whether the image is output for the external VD  
falling edge or the image is output for the next  
external VD falling edge. (1 in the figure shows  
that the image is output for the next internal VD).  
In this case, see WEN since the image and WEN  
make up a pair.  
*2 The exposure time (Te) is determined by the  
setting of the DIP switches.  
For details, see Page 14.  
*3 The normal operation state is carried out when the  
trigger pulse width is 1/3 s or more. The trigger  
falling edge restores the external trigger shutter  
operation. In this case, the area between the falling  
edge of a trigger pulse and the subsequent 50 ms  
period is an external trigger input inhibition area.  
There is no guarantee of operation for any triggers  
input in this period.  
(The internal VD falling edge and the beginning  
of the equivalent pause in the V period of the  
SYNC have the same phase.)  
*4 The internal VD signals are output as long as there  
is no external input and the HD/VD signal  
*6 Video out 2 is output only in the 2I mode.  
Note  
input/output switch on the rear panel is set to INT.  
An image is not output correctly when the next  
trigger is input before the image for the previous  
trigger is output.  
22  
 
Mode Setting  
When set to Mode 2 (M2)  
For setting the shutter speed using trigger pulse width  
Mode transition state  
External input  
inhibition area  
(50 ms)  
External trigger  
shutter operation  
External trigger shutter operation  
Normal operation*3  
Trigger*1  
Trigger pulse width*3  
Exposure time (Te)*2  
Exposure time  
(Te)*2  
Video out 1*5  
Video out 2  
1 H to 2 H*4  
1 H to 2 H*4  
WEN  
312.5 H (2I mode)  
625 H (1N mode)  
*1 This is a signal input from outside.  
*4 A VD signal is generated after 1 H to 2 H from the  
trigger falling edge, then the image is output  
synchronized with the VD generation.  
*2 Exposure time (Te)  
Te = Trigger pulse width + 31 µsec  
(The effective trigger pulse width for the external  
*5 Video out 2 is output only in the 2I mode.  
trigger shutter operation is between 2 µs and 1/4 s.)  
Note  
*3 The normal operation state is carried out when the  
trigger pulse width is 1/3 s or more. The trigger  
falling edge restores the external trigger shutter  
operation. In this case, the area between the falling  
edge of a trigger pulse and the subsequent 50ms  
period is an external trigger input inhibition area.  
There is no guarantee of operation for any triggers  
input in this period.  
An image is not output correctly when the next trigger  
is input before the image for the previous trigger is  
output.  
23  
 
Mode Setting  
For setting the shutter speed using the DIP switches  
Mode transition state  
External input  
inhibition area  
(50 ms)  
External trigger  
shutter operation  
External trigger shutter operation  
Normal operation*3  
Trigger pulse width*3  
Trigger*1  
2 µs to 250 ms  
Exposure time (Te)*2  
Exposure time  
(Te)*2  
Video out 1*5  
Video out 2  
T*4  
T*4  
WEN  
312.5 H (2I mode)  
625 H (1N mode)  
250 H (EIA)  
293 H (CCIR)  
*1 This is a signal input from outside.  
*4 The image is output at the shortest timing from the  
trigger rising edge according to the DIP switch  
setting.  
*2 The exposure time (Te) is determined by the  
setting of the DIP switches.  
For details, see Page 14.  
*5 Video out 2 is output only in the 2I mode.  
Note  
*3 The normal operation state is carried out when the  
trigger pulse width is 1/3 s or more. The trigger  
falling edge restores the external trigger shutter  
operation. In this case, the area between the falling  
edge of a trigger pulse and the subsequent 50 ms  
period is an external trigger input inhibition area.  
There is no guarantee of operation for any triggers  
input in this period.  
An image is not output correctly when the next trigger  
is input before the image for the previous trigger is  
output.  
24  
 
Specifications  
Horizontal resolution  
600 TV lines  
Main Specifications  
Image pickup device:  
1/2type interline transfer PS CCD  
Number of effective pixels:  
782 (H) × 582 (V)  
Sensitivity  
400 lx F4 (γ correction OFF,  
0 dB)  
58 dB  
S/N ratio  
Minimum illumination  
6 lx (Manual gain Maximum  
adjustment, F1.4, γ correction:  
OFF)  
Cell size:  
Chip size:  
8.3 (H) × 8.3 (V) µm  
8.10 mm (H) × 6.33 mm (V)  
1
(11/32 (H) × /4 (V) inches)  
GAIN  
Fixed/Manual (Can be selected  
using the switch on the rear  
panel)  
Effective sensing area:  
6.4 mm (H) × 4.8 mm (V)  
7
(9/32 (H) × /32 (V) inches)  
Gamma compensation  
OFF (Fixed only)  
External trigger shutter  
1/4 to 1/25,000 second  
CCD horizontal driving frequency  
29.5 MHz  
CCD vertical driving frequency  
31.25 kHz  
* Can be changed using the trigger  
pulse width or set using the DIP  
switches on the rear panel.  
Lens mount  
Flange back  
C-mount  
17.526 mm (23/32 inches)  
Power requirement  
Synchronization system  
Internal/External (Selected  
DC +12V (+10.5 V to 15 V)  
Power consumption  
4.0 W  
Operating temperature  
5 °C to +45 °C (23 °F to 113 °F)  
Storage temperature  
30 °C to +60 °C (22 °F to 140 °F)  
Performance assurance temperature  
0 °C to +40 °C (32 °F to 104 °F)  
Operating humidity  
20 to 80 % (Non-condensing)  
automatically)  
External synchronization input/output  
HD/VD (2 to 5 Vp-p)  
* Automatically selected according  
to the existence of an input  
signal when the selection switch  
on the rear panel has been set to  
EXT.  
External synchronization frequency  
HD: 31.5 kHz  
VD: 50 Hz (1N mode)  
Storage humidity  
20 to 95 % (Non-condensing)  
Vibration resistance  
10 G  
: 100 Hz (2I mode)  
Allowable frequency deviation of external  
synchronization  
(For 20 minutes in the X,Y and Z  
directions at 20 to 200Hz)  
1% (in horizontal synchronous  
frequency)  
Shock resistance 70 G  
Outside dimensions  
Jitter  
Scanning system  
Within 35 nsec  
44 (W) × 33 (H) × 75 (D)mm  
2 line simultaneous scanning  
(2I mode)  
1 line sequential scanning  
(1N mode)  
(1 3/4 (W) × 1 5/16 (H) × 3 (D) inches)  
Weight  
175 g (6 oz)  
25  
 
Specifications  
Standards  
Other  
UL1492, FCC Class A Digital  
Device, CE (EN50081-2  
+EN50082-2)  
Restart/Reset function  
External trigger shutter  
Partial scanning  
New EIAJ compliance 12-pin  
connector pin assignment  
Lens mount cap (1)  
Accessories  
Operating Instructions (1)  
Spectral Sensitivity  
Characteristics  
(Typical Value)  
Relative  
sensitivity  
1.0  
0.9  
0.8  
0.7  
0.6  
0.5  
0.4  
0.3  
0.2  
0.1  
0.0  
400  
700  
500  
600  
800  
900  
1000  
Wavelength (nm)  
26  
 
Specifications  
CCD Output Waveform Timing Chart  
Horizontal Output Waveform Timing Chart  
1 horizontal scanning period 944  
(1H 32.000 µs)  
HD  
102  
(3.457 µs)  
33.9 ns  
38  
102  
19  
3
CCD output signal  
1,2  
Optical  
black  
Dummy  
bits  
Horizontal  
transfer stop  
period  
6
9
Effective total pixels 782  
Optical black  
Horizontal blanking period 177  
Output video period 767  
(6.000 µs)  
(26.000 µs)  
Camera video  
output signal  
(Typical value)  
HSYNC 73  
22  
82  
(0.745 µs)  
(2.474 µs)  
(2.780 µs)  
* Values without units indicate the clock counts.  
27  
 
Specifications  
Vertical Output Waveform Timing Chart (1N)  
625 H  
7.5 H  
7.5 H  
VD  
HD  
(240 µs)  
(240 µs)  
582  
CCD output signal  
584  
1
2
3
4
5
1
2
3
4
5
6
7
8
584  
1
2
3
4
5
1
2
3
4
5
6
7
8
Optical black  
Optical black  
Dummy bits  
Optical black  
Dummy bits  
Optical black  
SG  
Vertical blanking period (45 H)  
Vertical blanking period (45 H)  
Camera video  
output signal  
(Typical value)  
(1440 µs)  
(1440 µs)  
* The transfer stop period is included in the dummy bits.  
28  
 
Specifications  
Vertical Output Waveform Timing Chart (2I)  
Odd field (312.5 H)  
Even field (312.5 H)  
7.5 H  
7.5 H  
(240 µs)  
(240 µs)  
VD  
HD  
291  
291  
CCD1  
output  
signal  
584  
2
4
1
3
5
7
583  
1
3
5
2
4
6 8  
CCD2  
output  
signal  
583  
1
3
5
2
4
6
8
584  
2
4
1
3
5 7  
Optical  
black  
Optical  
black  
Optical  
black  
Optical  
black  
Dummy bits  
Dummy bits  
SG  
Vertical blanking period (25 H)  
Vertical blanking period (25 H)  
Camera  
video  
output  
signal  
(800 µs)  
(800 µs)  
(Typical  
value)  
* The transfer stop period is included in the dummy bits.  
29  
 
Specifications  
Dimensions  
13  
(17/32)  
2-M3: Depth 4  
11.9 (15/32)  
11.0 (7/16)  
44 (1 3/4  
)
21 1x  
VIDEO OUT/DC IN/SYNC  
Quad Scan  
F
M
GAIN  
CAMERA MODULE  
6.3 (1/4  
)
R.R N M1 M2  
0
0
1
1
9
9
1
2
3
4
O
N
4
4
6
6
5
5
OFF ON INT EXT SHUTTER  
75 SPEED  
HIGH  
RATE  
(8)  
75 (3)  
83 (3 3/8  
)
4-M3: Depth 4  
50 (2)  
13  
(17/32)  
Unit: mm (inches)  
30  
 
Appendix  
Various Lens Selection  
The following shows the specifications of the available  
accessory lenses.  
List of C-Mount Lens  
VLC-12YM  
VLC-08YM  
8 (11/32)  
VLC-16Y-M  
16 (21/32)  
1:1.4  
VLC-25Y-M  
25 (1)  
VLC-50Y-M  
Model name  
Focal distance (mm) (inches)  
Maximum aperture ratio  
12 (1/2  
)
50 (2)  
1:2.8  
1:1.4  
1:1.8  
1:1.6  
Iris  
Operation  
Manual  
Manual  
Focus  
Field angle  
(Horizontal × Vertical)  
1/2 type CCD  
42.6° × 32.6°  
29.6° × 22.4°  
208 (8 1/4  
22.6° × 17.0°  
14.6° × 11.0°  
7.3° × 5.5°  
MOD* (mm) (inches)  
207 (8 1/4  
)
)
289 (11 1/2  
)
204 (8 1/8  
)
438 (17 1/4  
)
Image pickup range during  
maximum proximity  
(Horizontal × Vertical)  
(mm) (inches)  
49.8 × 37.3  
182.9 × 137.2  
127 × 95  
121 × 91  
52.7 × 39.8  
(2 × 1 1/2  
)
(7 1/4 × 5 1/2  
)
(5 × 3 3/4  
)
(4 7/8 × 3 5/8  
)
(2 1/8 × 1 5/8  
)
11.54 mm  
10.99 mm  
12.50 mm  
11.60 mm  
22.10 mm  
(7/8 inches)  
Back focus  
(15/32 inches)  
(7/16 inches)  
(1/2 inches)  
(15/32 inches)  
17.526 mm  
(23/32 inches)  
17.526 mm  
(23/32 inches)  
17.526 mm  
(23/32 inches)  
17.526 mm  
(23/32 inches)  
17.526 mm  
(23/32 inches)  
Flange back  
Weight  
40 g (1 oz)  
40 g (1 oz)  
50 g (2 oz)  
42 g (1 oz)  
50 g (2 oz)  
* MOD: Minimum Object Distance between the tip of the lens body and the object.  
Sony reserves the right to change specifications of the products and discontinue products without notice.  
Technical information contained herein is for reference only and does not convey any license by any implication or  
otherwise under any intellectual property right or other right of Sony or third parties.  
Sony cannot assume responsibility for any right infringements arising out of the use of this information.  
31  
 

Sennheiser Satellite Radio 529695 A01 User Manual
Sharp Cash Register XE A402 User Manual
Sonic Blue Portable CD Player SP65 User Manual
Sony Home Theater System 3 283 040 111 User Manual
Star Micronics Printer LC 8521 User Manual
State Industries Water Heater 50 HXRT YXRT User Manual
State Industries Water Heater SHE 50 76N User Manual
Subaru Automobile Accessories SPN0000977 User Manual
Summer Infant Baby Monitor 2174 User Manual
Summer Infant Safety Gate 07050A User Manual