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VCC-GC20V41CL Rev.900-721-34
English
Camera link I/F
29mm cubic VGA
High-Speed B/W CMOS Camera
VCC-GC20V41CL
Product Specification
& Operational Manual
©2015 CIS Corporation. All rights reserved.
VCC-GC20V41CL Rev.900-721-34
Table of Contents
PAGE
©2015 CIS Corporation. All rights reserved.
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VCC-GC20V41CL Rev.900-721-34
1.
Scope of Application
This is to describe VCC-GC20V41CL, high-speed B/W CMOS Camera. All specifications contained herein are subject to change without prior notice. Reproduction in whole or in part is prohibited.
2.
Handling Precautions
The camera must not be used for any nuclear equipments or aerospace equipments with which mechanical failure or malfunction could result in serious bodily injury or loss of human life. Our warranty does not apply to damages or defects caused by irregular and/or abnormal use of the product.
Please observe all warnings and cautions stated below.
Our warranty does not apply to damages or malfunctions caused by neglecting these precautions.
Do not use or store the camera in the following extreme conditions:
Extremely dusty or humid places.
Extremely hot or cold places (operating temperature –5℃ to +45℃)
Close to generators of powerful electromagnetic radiation such as radio or TV transmitters.
Places subject to fluorescent light reflections.
Places subject to unstable (flickering, etc.) lighting conditions.
Places subject to strong vibration.
Remove dust or dirt on the surface of the lens with a blower.
Do not apply excessive force or static electricity that could damage the camera.
Do not shoot direct images that are extremely bright (e.g., light source, sun, etc.), and when camera
is not in use, put the lens cap on.
Follow the instructions typeapter 7, “External connector pin assignment” for connecting the camera.
Improper connection may cause damages not only to the camera but also to the connected devices.
Confirm the mutual ground potential carefully and then connect the camera to monitors or computers. AC leaks from the connected devices may cause damages or destroy the camera.
Do not apply excessive voltage. (Use only the specified voltage.) Unstable or improper power supply
voltage may cause damages or malfunction of the camera.
©2015 CIS Corporation. All rights reserved.
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VCC-GC20V41CL Rev.900-721-34
The voltage ripple of camera power DC +12V±10% shall be within ±50mV. Improper power
supply voltage may cause noises on the video signals.
The rising time of camera power supply voltage shall be less than +10V, Max 60ms.
Please avoid noises like chattering when rising.
9
8
7
12
11
10
10 20 30 40
Voltage Rising Time [ ms ]
50 60 70
In case of abnormal operation, contact the distributor from whom you purchased the product.
©2015 CIS Corporation. All rights reserved.
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VCC-GC20V41CL Rev.900-721-34
3.
Notes on Partial Scan Mode Operation
At vertical partial scan mode, the smaller the set reading out lines, the faster the camera exposure and output operation will be. And, at the same time, power consumption will be increased.
Power consumption when the minimum partial scan line number is set will be approx. 2.4W, while it will be approx. 1.6W at full frame scan. That is about 1.5 times higher. With higher power consumption, heat will be increased as well.
We recommend promoting heat dissipation when installing our camera to your system, especially when reading out line is set between the ranges of 50lines to 1line.
For instance, installing the camera to the place under 40 degrees C ambient temperature, or installing the camera to a metalic part, would be effective.
4.
Product Outline
VCC-GC20V41CL is an industrial B/W high-speed digital video camera module utilizing a global shutter type,
CMOS sensor. Interface of GC20V41CL complies with camera link (Base Configuration) with its resolution
300K pixels. Clipping part of the image for VGA 1/4 type size, entire pixels can be read out within approx.
1/500s.
Key Features
□
High frame rate, 502.29 fps, at full frame scan mode with Camera Link Base Configuration.
Frame rate = (pixel clock) / (((horizontal output pixels/output tap number)
+ Horizontal Blanking) × (Vertical Output Lines + Vertical Blanking))
= (79.99MHz) / (((640/2) +5)×(480+10))
= 502.29fps
□
29mm cubic in size (excluding projection).
□
Camera Link 2Tap output (Base Configuration)
□
8bit / 10bit selectable
□
External Trigger
□
Shutter Speed: 1/500s ~1/50,000s
□
Fixed Trigger Shutter Mode
□
Pulse Width Trigger Shutter Mode
□
Partial Scan Mode (Vertical)
□
Free sample control software for evaluation purpose only is downloadable via our web.
©2015 CIS Corporation. All rights reserved.
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VCC-GC20V41CL Rev.900-721-34
5. Specification
5.1. General Specification
Item
(1) Pickup Device
Specification
Device Type B/W CMOS
Effective Pixel Number
640(H) × 480(V)
Unit Cell Size
Chip Size
5.50μ m(H) × 5.50μ m(V)
3.52mm(H) × 2.64mm(V) (640×5.5μ m(H) × 480×5.5μ m(V)
Image Circle φ 4.4mm
4.4
0
2.64
(2) Video output frequency
(3) Sync. system
(4) Video output standard
(5) Resolution
(6) Output Format
(7) Sensitivity
(8) Minimum illumination
(9) Dust or stains in optical system
(10) Power requirements
(11) Power consumption
3.52
(Unit: mm)
Pixel Clock
Horizontal Frequency
Vertical Frequency
79.99 MHz
246.12kHz Pixel Clock: 325CLK
Full Frame Scan Mode:
Partial Scan Mode
(Vertical 1/2):
502.29Hz Scanning Lines: 490H
984.49Hz Scanning Lines: 250H
Internal Sync. System
Camera Link 2Tap Output (Base Configuration)
480 TV lines equivalent (VGA size)
8bit/10bit selectable
F2.0 400lx (Shutter Speed: 1/500s, Gain 0dB)
F1.4 5.0lx (Shutter Speed: 1/500s, Gain +12dB)
No dust or stain shall be detected on the testing screen with setting the camera aperture at F16.
(12) Dimension
(13) Mass
(14) Lens mount
(15) Optical axis accuracy
(16) Gain variable range
(17) Gamma
(18) Shutter speed variable range
(19) Trigger shutter mode
DC+12V±10% (Max voltage shall not be exceeded +15V.)
Approx. 1.6W at ful frame scan (DC+12V IN).
Approx. 2.4W at partial scan with minimum line number setting (DC DC+12V IN).
Refer to overall dimension drawing (Clause 12)
H:29mm W:29mm D:29mm (excluding projection)
Approx. 50g
C mount (Refer to overall dimension drawing)
Refer to drawing for CMOS Optical Axis Accuracy (Clause 11)
0~+12dB (Digital Gain:+0.1dB/step)
1(Fixed)
OFF(1/500),1/750s,1/1000s,1/1500s,1/2000s,1/2500s,1/4000s,1/5000s,1/10000s,1/15000s,
1/20000s,1/25000s,1/30000s,1/40000s,1/50000s
・
Fixed Trigger Shutter Mode
・
Pulse Width Trigger Shutter Mode (Exposure time is set with the pulse width of trigger signal.)
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VCC-GC20V41CL Rev.900-721-34
Item
(20) Safety/Quality standards
(21) Durability
(22) Operation environment
(23) Storage environment
Specification
UL:
CE:
RoHS:
FCC:
Vibration
Conform to UL Standard including materials and others.
Conform to EN55022:2006 (Class B) for Emmission
Conform to EN61000-6:2005 for Immunity
Conform to RoHS
To be applied for FCC Class A Digital Device
This device complies with Part 15 of FCC Rules. Operation is subject to the followiong two conditions: (1) this device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation.
Acceleration : 98m/s
2
(10G)
Frequency : 20~200 Hz
Direction : X,Y,Z 3 directions
Shock
Testing time : 120 min for each direction
No malfunction shall be occurred with 980m/s
2
(100G) for ±X, ±Y, and ±Z, 6 directions. (without package)
Temperature
Operation guaranteed: -5℃~+45℃
Performance guaranteed: 0℃~+40℃
Humidity
RH 20~80% with no condensation
Temperature -25℃ ~ +60℃
Humidity RH 20~80% with no condensation
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VCC-GC20V41CL Rev.900-721-34
5.2. Camera Output Signal Specification
(1) Video output data Video Output
LVAL output
FVAL output
DVAL output
(2) Sync. Signal I/O SP(Exposure)
HD output
VD output
Exposure
Polarity
(3) Trigger input
Item
Camera Link input
TTL input
Specification
640 (H) × 480(V)
LVDS
LVDS
LVDS
At Full Frame Scan Mode
Camera Link connector
LVDS
LVTTL
LVTTL
LVTTL
POSI/NEGA Selectable
6pins Circular connector
LVDS : CC1 input
LVTTL: No.2 pin
Camera Link connector
6pins Circular connector
V
IH
Min. 2.0V
VIL Max. 0.8V
(4) Serial
Communication
(5) Video output signal
SerTC (Serial to Camera) Camera Link input (LVDS)
SerTFG (Serial to Frame Grabber) Camera Link output (LVDS)
White Clip Level
Digital 8bit :FFh
Setup Level
Digital 8bit :00h
Dark Shading
Digital 8bit :under ±04h for both vertical and horizontal.
(condition: gain 0dB)
5 seconds shall be waited after turning on power to get proper camera operation.
+5.0V(VCC)
100Ω
HD74LV1GT32ACME
(RENESAS)
Voh 3.8V (Min)
Vol 0.55V (Max)
47pF
100Ω
HD74LV1GT14 ACME
(RENESAS)
Vih 2.0V (Min)
Vil 0.8V (Max)
470pF
1KΩ
VD,HD
Exposure Output
Trigger Input
6pins Circular Connector at rear: GPIO interface
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VCC-GC20V41CL Rev.900-721-34
5.3.
CMOS Spectral Response (Representative value)
※
Lens characteristics and illuminant characteristics are not considered.
5.4.
Video Output Format
VGA 500fps Mode: 2Tap Interleaved
DA
3
DA
2
DA
1
DB
3
DB DB
2 1
From Camera
(2 Tap Output)
DA
0
DB
0
DA DB
0 0
DA DB DA DB
1 1 2 2
DA
3
DB
3
~ ~
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VCC-GC20V41CL Rev.900-721-34
5.5.
Camera Link Port Data Bit Assignment (Base Configuration)
Port/bit
At 8bit output setting At 10bit output setting
Port A0 DA:bit0[LSB]
Port A1 DA:bit1
Port A2 DA:bit2
Port A3 DA:bit3
Port A4 DA:bit4
Port A5 DA:bit5
Port A6 DA:bit6
Port A7 DA:bit7[MSB]
DA:bit0[LSB]
DA:bit1
DA:bit2
DA:bit3
DA:bit4
DA:bit5
DA:bit6
DA:bit7
Port B0 DB: bit0[LSB] DA:bit8
Port B1 DB: bit1
Port B2 DB:bit2
Port B3 DB:bit3
Port B4 DB:bit4
DA:bit9[MSB]
Not in use
Not in use
DB:bit8
Port B5 DB:bit5
Port B6 DB:bit6
Port B7 DB:bit7[MSB]
Port C0 Not in use
DB:bit9[MSB]
Not in use
Not in use
DB:bit0[LSB]
Port C1 Not in use
Port C2 Not in use
Port C3 Not in use
Port C4 Not in use
Port C5 Not in use
Port C6 Not in use
Port C7 Not in use
DB:bit1
DB:bit2
DB:bit3
DB:bit4
DB:bit5
DB:bit6
DB:bit7
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VCC-GC20V41CL Rev.900-721-34
6.
Function Settings
Camera functions can be set with serial data communications.
Function
Gain
Shutter
(at full frame scan mode)
※
For partial scan mode, please refer to Section 9.
Trigger Shutter Mode
Scan Mode
Manual Gain Control
Manual Shutter Control
Address Data
001
002
0: 0 dB
1: + 6 dB
2: + 12 dB
3: Manual Gain (Refer to address 008.)
4~255: 0dB
0: 1/500s
1: 1/500s
2: 1/750s
3: 1/1000s
4: 1/1500s
5: 1/2000s
6: 1/2500s
7: 1/4000s
8: 1/5000s
9: 1/10000s
004
10: 1/15000s
11: 1/20000s
12: 1/25000s
13: 1/30000s
14: 1/40000s
15: 1/50000s
16: Manual Shutter (Refer to address 009&010.)
17~255: 1/500s
0: Normal Shutter Mode (Trigger Shutter Mode OFF)
1: Fixed Trigger Shutter Mode
(Shutter speed can be set with address 002.)
2: Pulse Width Trigger Shutter Mode
(Shutter speed can be set with trigger pulse width.)
3~255: Normal Shutter Mode (Trigger Shutter Mode OFF)
0: Full Frame Scan Mode
005
008
1: Partial Scan Mode (Vertical 1/2)
2: Manual Partial Scan Mode (Refer to address 016/017 & 019/020.)
3~255: Full Frame Scan Mode
0~120: 0~+12dB 0.1dB/step ※Set the data of address 001 to 003.
121~255: +12dB
0~480: 1/50000s~1/500s
481~2047: 480
※
The setting will be 1 line when 0 is set.
009&010
Exposure Time = The set value × 1line Time [s]
1line Time [s] = ((output pixels/2tap)+5)×1/79.99MHz
At full frame scan, output pixels = 480
1line Time ≒ 4.06μ s
※
Address 002 data shall be 016.
Address 009 MSB and Address 010 LSB make 11bit in total.
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VCC-GC20V41CL Rev.900-721-34
Function
Trigger Polarity
Input Trigger Port Selection
Address Data
011
012
0: Positive Input
1: Negative Input
2~255: Positive Input
0: Camera Link Connector 12226-1100-00 PL
1: 6pins Circular Connector
2~255: Camera Link Connector: 12226-1100-00 PL
LVDS
TTL
Output Data Selection
Trigger Input Signals
Camera Internal H Sync ON/OFF
Vertical Partial Scan
Start Position
013
014
0: 8bit output data
1: 10bit output data
2~255: 8bit output data
2: OFF
3: ON
0~Max. Value ※ 1line/step
※
Max. value shall be limited according to the formula below.
016&017 480 (Vertical Partial Scan output max. lines – Vertical Partial Scan output lines)
※
Address 005 data shalla be 002.
Vertical Partial Scan
Output Lines
Remote Communication
Baud Rate Setting
Data Save
019&020
Address 016 MSB and Address 017 LSB make 11bit in total.
0~480:
1line/step Min.:1line/Max :480 lines
481~2047: 480
※
1 line shall be set when 0 is set.
Address 019 MSB and Address 020 LSB make 11bit in total.
※
Address 005 data shalla be 002.
030
032
0: 9600bps
1: 19200bps
2: 38400bps
3: 57600bps
4: 115200bps
5~255: 9600bps
Input 083 to save address 000 ~ 031 to EEP-ROM.
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VCC-GC20V41CL Rev.900-721-34
7.
External Connector Pin Assignment
7.1.
6pins Circular Connector HR10-7R-6PA (HIROSE) equivalent
Pin No.
1
2
Power IN DC+12V
Trigger IN(TTL level)
3 HD
13
4
5
6
VD
Exposure
GND
26
7.2.
26pins Mini Camera Link Connector 12226-1100-00 PL (SUMITOMO 3M)
Pin No. Pin No.
6
1
1 GND 14 GND
2
3
4
5
6
7
8
9
10
11
12
13
X0-
X1-
X2-
Xclk-
X3-
SerTC+
SerTFG-
CC1- (Trigger IN-)
CC2+
CC3-
CC4+
GND
15
16
17
18
19
20
21
22
23
24
25
26
X0+
X1+
X2+
Xclk+
X3+
SerTC-
SerTFG+
CC1+ (Trigger IN+)
CC2-
CC3+
CC4-
GND
2
1
14
5
4
3
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VCC-GC20V41CL Rev.900-721-34
8.
8.1.
Timing Chart
Horizontal Synchronous Signal Timing
Video Output
LVAL Output
DVAL Output
5CLK
5CLK
1
2
3
4
5
6
7
8
1H = 325 CLK
・ ・ ・ ・ ・ ・ ・ ・ ・
320 CLK
320 CLK
8.2.
Vertical Synchronous Signal Timing
8.2.1 Full Frame Scan Mode
Video Output
Exposure Time
LVAL Output
487 488
2 H
489 490 1 2
· · ·
2 H
9 10
490 H
· · · · · · ·
Min. 1H ~ Max. 480 H
11 12
· · · · · · ·
· · · · · · ·
DVAL Output
1 2
· · · · · · ·
FVAL Output
10 H 480 H
※
Video output signal delays by 2H from Exposure Time.
633 635 637 639
634 636 638 640
1 H
2 H
487 488 489 490
477 478 479 480
CLK 79.99MHz
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VCC-GC20V41CL Rev.900-721-34
8.2.2 Fixed Trigger Shutter Mode
□
This is the mode to start exposure with external input trigger signals, and set the exposure time with
serial commands.
□
Trigger operation is CLK Sync. HV-Sync Reset. The delay time (Exposure Time Delay) from detecting
trigger edge in the camera to starting exposure is approx. 330ns.
□
Triggers can be accepted even when outputting video signals. However, trigger signals for exposure
to start the next video output prior to the completion of video transmission for the prior video output
signals cannot be accepted.
If the edge part of trigger signals is overlapped with video outputting period, 1 line noise may be detected on the video output screen. To input trigger signals during video output period, set the data
003 to the address 014 (Trigger input signal, camera internal H sync ON). External trigger signals are synchronized with camera internal H signals so that max. 1HD jitter to Exposure Time delay would occur.
□
When changing the camera to fixed trigger shutter mode, the first output image can be unstable.
Please input the first trigger as a dummy to ignore and take the second and after as the actual triggers.
Trigger Input
Video Output
Exposure Time
LVAL Output
DVAL Output
1
2 H
2 3 4 11 12 11
1
FVAL Output
Trigger Input
10 H
Exposure Time
Delay(Fixed)
330ns
Exposure Time
(nHD ×4.06μ s )
※
Video output signal delays by 2H from Exposure Time.
12
2
480 H
・ ・ ・ ・ ・
・ ・ ・ ・ ・
・ ・ ・ ・ ・
480 H
491 492
479 480
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VCC-GC20V41CL Rev.900-721-34
8.2.3 Pulse Width Trigger Shutter Mode
□
This is the mode to start exposure with external input trigger signals, and set the exposure time with
pulse width of the trigger signals.
□
Trigger operation is CLK Sync. HV-Sync Reset. The delay time (Exposure Time Delay) from detecting
trigger edge in the camera to starting exposure is approx. 330ns. And, the delay time from detecting
trigger end edge to completing exposure is approx. 270ns.
□
Pulse width is min. 1HD to approx. 2 frames. Functionally, there is no upper limitation, but noises
such as dark noises and shadings may be noticeable at long time exposure.
□
Triggers can be accepted even when outputting video signals. However, trigger signals for exposure to start the next video output prior to the completion of video transmission for the prior video output signals cannot be accepted.
If the edge part of trigger signals is overlapped with video outputting period, 1 line noise may be detected on the video output screen. To input trigger signals during video output period, set the data
003 to the address 014 (Trigger input signal, camera internal H sync ON). External trigger signals are synchronized with camera internal H signals so that max. 1HD jitter to Exposure Time delay would occur.
□
When changing the camera to pulse width trigger shutter mode, the first output image can be unstable.
Please input the first trigger as a dummy to ignore and take the second and after as the actual triggers.
Trigger Input
480 H
Video Output
Exposure Time
LVAL Output
DVAL Output
FVAL Output
Trigger Input
Exposure Time
1
Delay(Fixed)
330ns
2 H
2 3 4
10 H
11 12 13 14
1 2
・ ・ ・ ・ ・
・ ・ ・ ・ ・
・ ・ ・ ・ ・
480 H
Delay(Fixed)
270ns
481 482
479 480
Exposure Time
※
Video output signal delays by 2H from Exposure Time.
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VCC-GC20V41CL Rev.900-721-34
9.
Partial Scan Mode
・
Vertical Partial Scan
· At full frame scan
Video Output
FVAL Output
· At vertical partial scan s+n
-2 s+n
-1 s+n
Video Output
Exposure Time
LVAL Output
DVAL Output
FVAL Output
2 H
· · ·
10 H
2 H
0 1
Partial scan (vertical 1/2) s: 120H
Manual partial scan s: any s s+1
2
· · ·
119 120
· · · · · · · n H (Max.)
· · · · · · ·
· · · · · · · n H s: Vertical partial scan starting position (address 016&017) n: Vertical partial scan output lines (address 019&020)
480
· · · s+n
-3 s+n s+n
-2 -1 s+n
2 H
359 360
· · ·
478 479
Partial scan (vertical 1/2) n: 240H
Manual partial scan n: any
Scan Mode (address:005)
0:Full frame scan mode s
0 n
480
Vertical Sync. Frequency (Hz)
502.29
1:Partial scan mode (Vertical 1/2) 120 240 984.49
2:Manual partial scan mode Any any 79.99MHz /((Vertical partial scan output lines +10)×(325))
・
The max value of vertical partial scan starting position is limited with the formula below since vertical partial scan output line has priority.
The max value of vertical partial scan starting position
=480(The max value of vertical partial scan output line) – Vertical partial scan output lines
(Ex.) When 400 is set as vertical partial scan output lines, the max value of vertical partial scan starting position will be
480-400 = 80.
If vertical partial scan starting position is set to 90 with this time, vertical partial scan output line has priority so that vertical partial scan starting position shall be limited to 80.
0
0 ~ 80
Vertical partial scan
Starting position
Setting range
480
(The max vertical partial scan output lines)
80
90 n = 400
The set vertical partial scan
output lines s = 80 (with limitation)
vertical partial scan
starting position s = 90 (invalid)
vertical partial scan
starting position
Set value
479
※
At manual partial scan mode, manual shutter value to be set shall meet the following conditions.
The set manual shutter lines ≦ Vertical partial scan output lines
If the condition above is not met, shutter lines to be set will be the same number as vertical partial scan output lines.
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VCC-GC20V41CL Rev.900-721-34
10.
Remote Interface Function
Camera can be controlled by external computers and others via camera link interface.
(1)The settings for RS-232C are as follows.
Baud Rate
Data
Stop bit
Parity
XON/XOFF
: 9600bps,19200bps,38400bps,57600bps,115200bps
: 8bit
: 1bit
: None
: not controlled
(2) Control code
・
The total control code is 14 bits, which conforms to ASCII code.
・
The control code consists of camera No. process code, remote controller address, remote controller data, and CR. Execute Read/Write through PC, and the camera will reply the data.
1 2 3 4 5 6 7byte目 8 9 10 11 12 13 14
Camera No.
000000: Common No.
Dedicated Camera No.
Process code Remote controller address
“R” Read mode Please refer to
“W” Write mode the address
“C”Camera mode table of 6.
Function setting.
Remote controller data
000~255
CR
0Dh
Camera No
Please send the common code, “000000”, consist of 6 bytes of characters/numeric strings.
The returned data from the camera shall be the dedicated camera No assinged for that specific camera.
Process code
Input any one of R, W, or C to the process code.
R (read mode) is to read the data of remote controller address.
Please be noted to set any dummy data (000~255) to 11 th
~13 th
, since a command shall consists of
14 bytes.
W (write mode) is to write the data to the remote controller address.
Please be noted that the data cannot be saved into EEPROM of the camera.
(Reboot the camera, and the data is reset to the initial setting.)
To save the data into EEPROM, please refer to Clause 5.Function Setting.
Note: Once the data was saved into EEPROM, it may not be reset to t he initial settings.
C is the code to send the data back from the camera.
Note: Do not set code C when sending the data from PC side.
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VCC-GC20V41CL Rev.900-721-34
Remote controller address
Note: Do not save the data into the address other than specified, since it may cause the damages or malfunction of the camera.
Remote controller data
Set the decimal number (000~255) for the remote controller data. Please be noted to set any dummy data at read mode.
CR
Be sure to input “CR” to confirm the end of the command.
11.
Initial Settings
Function
Gain
Shutter
Trigger Mode
Scan Mode
Manual Gain Control
Address Data
001
002
004
005
008
0: 0dB
0: 1/500s
0: Normal Shutter Mode (Trigger Shutter Mode OFF)
0: Full Frame Scan Mode
0: 0dB
Manual Shutter Control
Trigger Polarity
009&010 480: 1/500s
011 0: Positive Input
Input Trigger Port Selection
Output Data Selection
Trigger Input Signals
Camera Internal H Sync
ON/OFF
Baud Rate
012
013
014
030
0: Camera Link connector (12226-1100-00 PL)
0: 8bit Output Data
2: OFF
0:9600bps
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VCC-GC20V41CL Rev.900-721-34
12.
CMOS Optical Axis Accuracy
6±0.3
29
6±0.3
M2
Inclination of optical axis to datum plane
0
±
.2
12 29
M2
M3
Datum
Plane
6±0.3
10±0.3
6±0.3
10±0.3
Datum
Plane
Product Label Position ( ? )
°
.5
0
±
Inclination of effective pixels, Theta,?, to datum plane shall be
?? ±0.5°
The center of effective pixels shall be within f 0.6 to the center of C lens mount
(*) Dimensions from datum plane to the center of the lens mount
910-006-01-01
(Unit:mm)
©2015 CIS Corporation. All rights reserved.
20
VCC-GC20V41CL Rev.900-721-34
13.
Dimensions
©2015 CIS Corporation. All rights reserved.
21
VCC-GC20V41CL Rev.900-721-34
14.
Cases for Indemnity (Limited Warranty)
We shall be exempted from taking responsibility and held harmless for damage or losses incurred by the user in the following cases.
In case damage or losses are caused by fire, earthquake, or other acts of God, acts by third party, deliberate or accidental misuse by the user, or use under extreme operating conditions.
In case indirect, additional, consequential damages (loss of business interests, suspension of business activities) are incurred as result of malfunction or non-function of the equipment, we shall be exempted from responsibility for such damages.
In case damage or losses are caused by failure to observe the information contained in the instructions in this product specification & operation manual.
In case damage or losses are caused by use contrary to the instructions in this product specification & operation manual.
In case damage or losses are caused by malfunction or other problems resulting from use of equipment or software that is not specified.
In case damage or losses are caused by repair or modification conducted by the customer or any unauthorized third party (such as an unauthorized service representative).
Expenses we bear on this product shall be limited to the individual price of the product.
15.
Sensor Pixel Defect
Sensor pixel defects might be noted with time of usage of the products.
Cause of the Sensor pixel defects is the characteristic phenomenon of CMOS itself and CIS is exempted from taking any responsibilities for them.
16.
Product Support
When defects or malfunction of our products occur, and if you would like us to investigate on the cause and repair, please contact your distributors you purchased from to consult and coordinate.
Camera control sample software (RS232C) is downloadable from our web but we shall be exempted from taking responsibility and held harmless for damage or malfunction of your hardware and software caused by using this control software. The purpose of the control software prepared is for you to check operation and evaluate our products. Please be noted that CIS does not customize the program nor provide source code.
©2015 CIS Corporation. All rights reserved.
22
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Table of contents
- 3 Scope of Application
- 3 Handling Precautions
- 5 Notes on Partial Scan Mode Operation
- 5 Product Outline
- 6 Specification
- 6 General Specification
- 8 Camera Output Signal Specification
- 9 CMOS Spectral Response (Representative value)
- 9 Video Output Format
- 10 Camera Link Port Data Bit Assignment (Base Configuration)
- 11 Function Settings
- 13 External Connector Pin Assignment
- 13 6pins Circular Connector HR10-7R-6PA (HIROSE) equivalent
- 13 26pins Mini Camera Link Connector 12226-1100-00 PL (SUMITOMO 3M)
- 14 Timing Chart
- 14 Horizontal Synchronous Signal Timing
- 14 Vertical Synchronous Signal Timing
- 14 Full Frame Scan Mode
- 15 Fixed Trigger Shutter Mode
- 16 Pulse Width Trigger Shutter Mode
- 17 Partial Scan Mode
- 18 Remote Interface Function
- 19 Initial Settings
- 20 CMOS Optical Axis Accuracy
- 21 Dimensions
- 22 Cases for Indemnity (Limited Warranty)
- 22 Sensor Pixel Defect
- 22 Product Support