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Allied Vision Prosilica GT
Allied Vision Technologies GmbH
Taschenweg 2a
D-07646 Stadtroda, Germany
Technical Manual
GigE Vision Cameras
V2.3.0
20 March 2015
Page 2
Legal notice
For customers in the U.S.A.
This equipment has been tested and found to comply with the limits for a Class A digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection
against harmful interference when the equipment is operated in a residential environment. This
equipment generates, uses, and can radiate radio frequency energy and, if not installed and used
in accordance with the instruction manual, may cause harmful interference to radio communications. However, there is no guarantee that interferences will not occur in a particular installation.
If the equipment does cause harmful interference to radio or television reception, the user is
encouraged to try to correct the interference by one or more of the following measures:
• Reorient or relocate the receiving antenna.
• Increase the distance between the equipment and the receiver.
• Use a different line outlet for the receiver.
• Consult a radio or TV technician for help.
You are cautioned that any changes or modifications not expressly approved in this manual could
void your authority to operate this equipment. The shielded interface cable recommended in this
manual must be used with this equipment in order to comply with the limits for a computing
device pursuant to Subpart A of Part 15 of FCC Rules.
For customers in Canada
This apparatus complies with the Class A limits for radio noise emissions set out in the Radio Interference Regulations.
Pour utilisateurs au Canada
Cet appareil est conforme aux normes classe A pour bruits radioélectriques, spécifiées dans le
Règlement sur le brouillage radioélectrique.
Life support applications
These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Allied Vision
Technologies customers using or selling these products for use in such applications do so at their
own risk and agree to fully indemnify Allied Vision Technologies for any damages resulting from
such improper use or sale.
Trademarks
Unless stated otherwise, all trademarks appearing in this document of Allied Vision Technologies
are brands protected by law.
Warranty
The information provided by Allied Vision Technologies is supplied without any guarantees or
warranty whatsoever, be it specific or implicit. Also, excluded are all implicit warranties concerning the negotiability, the suitability for specific applications or the non-breaking of laws and patents. Even if we assume that the information supplied to us is accurate, errors and inaccuracy may
still occur.
Copyright
All texts, pictures and graphics are protected by copyright and other laws protecting intellectual
property. It is not permitted to copy or modify them for trade use or transfer, nor may they be used
on websites.
Allied Vision Technologies GmbH 03/2015
All rights reserved.
Managing Director: Mr. Frank Grube
Tax ID: DE 184383113
Headquarters:
Taschenweg 2a
D-07646 Stadtroda, Germany
Tel: +49 (0)36428 6770
Fax: +49 (0)36428 677-28
e-mail: info@alliedvision.com
Prosilica GT Technical Manual V2.3.0
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Contents
Contacting Allied Vision .................................................................................. 5
Introduction ............................................................................................................ 6
Document history............................................................................................................ 6
Manual conventions......................................................................................................... 9
Precautions.................................................................................................................. 10
Camera cleaning ........................................................................................................... 11
Conformity ..............................................................................................................13
Specifications .......................................................................................................14
Prosilica GT1290/1290C ................................................................................................. 14
Prosilica GT1380/1380C ................................................................................................. 16
Prosilica GT1600/1600C ................................................................................................. 18
Prosilica GT1660/1660C ................................................................................................. 20
Prosilica GT1910/1910C ................................................................................................. 22
Prosilica GT1920/1920C ................................................................................................. 24
Prosilica GT1930L/1930LC .............................................................................................. 26
Prosilica GT2000/2000C/2000NIR .................................................................................... 28
Prosilica GT2050/2050C/2050NIR .................................................................................... 30
Prosilica GT2300/2300C ................................................................................................. 32
Prosilica GT2450/2450C ................................................................................................. 34
Prosilica GT2750/2750C ................................................................................................. 36
Prosilica GT3300/3300C ................................................................................................. 38
Prosilica GT3400/3400C ................................................................................................. 40
Prosilica GT4905/4905C ................................................................................................. 42
Prosilica GT4907/4907C ................................................................................................. 44
Prosilica GT6600/6600C ................................................................................................. 46
Camera smart features ..................................................................................48
Filters ........................................................................................................................49
Camera dimensions ..........................................................................................50
Prosilica GT standard cameras (C-Mount) ........................................................................... 50
Prosilica GT extended cameras ......................................................................................... 51
Prosilica GT large format cameras ..................................................................................... 53
Tripod adapter.............................................................................................................. 55
C-Mount flange focal distance.......................................................................................... 56
F-Mount flange focal distance.......................................................................................... 58
EF-Mount flange focal distance ........................................................................................ 59
Camera interfaces .............................................................................................60
Status LEDs .................................................................................................................. 60
Gigabit Ethernet port ..................................................................................................... 61
Camera I/O connector pin assignment ............................................................................... 62
I/O definition ............................................................................................................... 63
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Lens control................................................................................................................. 66
Camera trigger.....................................................................................................69
Input: Non-isolated and opto-isolated internal circuit.......................................................... 69
Output: Non-isolated internal circuit................................................................................. 70
Output: Opto-isolated internal circuit................................................................................ 70
Trigger timing diagram................................................................................................... 71
Firmware update.................................................................................................73
Resolution and ROI frame rates ...............................................................74
Prosilica GT1290 ........................................................................................................... 75
Prosilica GT1380 ........................................................................................................... 76
Prosilica GT1600 ........................................................................................................... 77
Prosilica GT1660 ........................................................................................................... 78
Prosilica GT1910 ........................................................................................................... 79
Prosilica GT1920 ........................................................................................................... 80
Prosilica GT1930L.......................................................................................................... 81
Prosilica GT2000 ........................................................................................................... 82
Prosilica GT2050 ........................................................................................................... 83
Prosilica GT2300 ........................................................................................................... 84
Prosilica GT2450 ........................................................................................................... 85
Prosilica GT2750 ........................................................................................................... 86
Prosilica GT3300 ........................................................................................................... 87
Prosilica GT3400 ........................................................................................................... 88
Prosilica GT4905 ........................................................................................................... 89
Prosilica GT4907 ........................................................................................................... 90
Prosilica GT6600 ........................................................................................................... 91
Prosilica GT model comparison ........................................................................................ 92
Camera data path...............................................................................................93
Prosilica GT monochrome cameras .................................................................................... 93
Prosilica GT color cameras ............................................................................................... 94
Appendix..................................................................................................................96
Sensor position accuracy of Prosilica GT standard and extended cameras .................................. 96
Additional references ......................................................................................97
Index...........................................................................................................................98
Prosilica GT Technical Manual V2.3.0
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Contacting Allied Vision
Contacting Allied Vision
Info
• Technical information:
http://www.alliedvision.com
• Support:
support@alliedvision.com
Allied Vision Technologies GmbH (Headquarters)
Taschenweg 2a
07646 Stadtroda, Germany
Tel.: +49 36428-677-0
Fax: +49 36428-677-28
e-mail: info@alliedvision.com
Allied Vision Technologies Canada Inc.
101-3750 North Fraser Way
Burnaby, BC, V5J 5E9, Canada
Tel.: +1 604-875-8855
Fax: +1 604-875-8856
e-mail: info@alliedvision.com
Allied Vision Technologies Inc.
38 Washington Street
Newburyport, MA 01950, USA
Toll Free number +1 877-USA-1394
Tel.: +1 978-225-2030
Fax: +1 978-225-2029
e-mail: info@alliedvision.com
Allied Vision Technologies Asia Pte. Ltd.
82 Playfair Road
#07-02 D’Lithium
Singapore 368001
Tel.: +65 6634-9027
Fax: +65 6634-9029
e-mail: info@alliedvision.com
Allied Vision Technologies (Shanghai) Co., Ltd.
2-2109 Hongwell International Plaza
1602# ZhongShanXi Road
Shanghai 200235, China
Tel.: +86 (21) 64861133
Fax: +86 (21) 54233670
e-mail: info@alliedvision.com
Prosilica GT Technical Manual V2.3.0
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Introduction
This Prosilica GT Technical Manual describes in depth the technical specifications of this camera family including dimensions, feature overview, I/O definition, trigger timing waveforms, and frame rate performance.
For information on software installation read the GigE Installation Manual. For
detailed information on camera features and controls specific to the Prosilica GT
refer to the GigE Features Reference and GigE Camera and Driver Attributes
documents.
Introduction
www
Prosilica GT literature:
http://www.alliedvision.com/en/support/technical-documentation/prosilica-gt-documentation
Document history
Version Date Remarks
V2.0.0 2011-Dec-12 New Manual - RELEASE status
V2.0.1 2012-Mar-08 • Added spectral response curves
• Added GT1910, GT1920, GT2300, GT2750 frame rate charts
V2.0.2 2012-May-31 • Added GT3300, GT1660
V2.0.3 2012- Jun-21
V2.0.4 2012-Sep-21 • Added GT2000, GT2050, GT6600
V2.0.5 2013-Jan-14 • Added GT3400, GT4100, GT4905, GT4907
V2.0.6 2013-Feb-12 • Added Status LEDs section
• Added DC Iris information
• Link added to RS-232 application note
• Added lens control port wiring
• Renamed Camera IO signals
• Updated the circuits diagrams in the Camera trigger section: Figure
50, Figure 52, Figure 53, Figure 54
• Updated the Prosilica GT trigger circuit values: Table 21
• Removed the Supported P-Iris section
• Updated the Exposure control values
• Updated the RoHS directive
to be continued on next page
Table 1: Document history
Prosilica GT Technical Manual V2.3.0
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Introduction
Version Date Remarks
continued from last page
V2.0.7 2013-May-16 • Updated the bit depth and exposure control camera specifications in
the Specifications chapter
• Updated pixel format naming according to the GenICam naming convention
• Corrected body dimensions and mass for GT3400 on page 40
• Corrected the spectral plots for GT3400 on page 41
• Added VIMBA SDK link in Additional references section
• Added frame rate vs. height graphs for Prosilica GT3400, Prosilica
GT4905, Prosilica GT4907
• Updated frame rate vs. height graphs in Resolution and ROI frame
rates chapter
• Updated AVT recommended cabling to Category 6 or higher in Gigabit
Ethernet port section
V2.0.8 2013-Jul-05 • Added contact information for Allied Vision Technologies (Shanghai)
Co. Ltd.
• Updated spectral plots for GT1910 on page 23
• Updated the links to AVT GigE Installation Manual
•Added links to AVT GigE Camera and Driver Features document
V2.0.9 2013-Sep-16 • Updated chapter Camera dimensions on page 50
• Updated Lens control section page 66
• Updated Color cameras with IR filter section on page 12
• Updated the specifications for GT2000C and GT2050C on page 28 and
30
• Added a note on the locking screw cables on page 61
• Added optical flange focal distance and maximum lens protrusion
information for C-/F-Mount on page 59
• Added 1 inch lens format recommendation for Prosilica GT2000 cameras on page 28
• Added temperature monitoring information in the Specifications chapter
• Updated specifications for Prosilica GT2000/2000C/2000NIR and Pro-
silica GT2050/2050C/2050NIR cameras
• Added frame rate tables in chapter Resolution and ROI frame rates on
page 74
• Added chapter Appendix on page 96
V2.1.0 2013-Oct-28 • Updated table 20 on page 48
• Added chapter Description of the data path on page 93
•Added section Adjustment of F-Mount on page 58
to be continued on next page
Table 1: Document history
Prosilica GT Technical Manual V2.3.0
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Introduction
Version Date Remarks
continued from last page
V2.1.1 2014-Jul-14 • Updated frame rate specification for Prosilica GT2000/2000C/
2000NIR, Prosilica GT2050/2050C/2050NIR, Prosilica GT3400/3400C,
and Prosilica GT4905/4905C
• Added defect mask note in Block diagram of Prosilica GT monochrome
cameras with CCD sensors and Block diagram of Prosilica GT color cameras with CCD sensors
• Corrected the sensor and cell size for Prosilica GT6600/6600C
• Added a note on binning in Block diagram of Prosilica GT color cameras
with CCD sensors
• Added link to the technical drawing for GT large format camera with
M42 / M58-Mount on page 54
• Updated section Sensor position accuracy of Prosilica GT standard and
extended cameras
• Updated minimum exposure time for Prosilica GT2000/2000C/2000NIR
and Prosilica GT2050/2050C/2050NIR
• Updated specifications for Prosilica GT4905/4905C
• Updated the power consumption specification in the Specifications
chapter
• Replaced the optical flange focal distance section with the following
sections:
– C-Mount flange focal distance
– F-Mount flange focal distance
• Updated information on Prosilica GT Out 3 / Out 4 trigger circuit on
page 65 and in section Output: Opto-isolated internal circuit
• Updated temperature monitoring information in the Specifications
chapter
• Preliminary camera GT4100 removed from the document until samples
are available
• Updated Camera smart features section
•Replaced A/D and bit depth with Max image bit depth in the Specifi-
cations chapter
• Added M42-Mount technical drawing links for GT standard and
extended cameras on page 50 and 52, respectively
V2.2.0 2015-Mar-11 • Updated Allied Vision logo
• Changed AVT and Allied Vision Technologies references to Allied Vision
• Updated Additional references section
• Added new camera model GT1930L
– Prosilica GT1930L/1930LC specifications
– Dimensions of GT1930L with EF-Mount (Planarity adjustable)
– Adjustment of EF-Mount information
– Description of data path for GT1930L on page 93 and 95
– EF lens control section on page 68
– Frame rate vs ROI height graph for Prosilica GT1930L
to be continued on next page
Table 1: Document history
Prosilica GT Technical Manual V2.3.0
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Version Date Remarks
continued from last page
V2.2.0
[continued]
V2.3.0 2015-Mar-20 • Replaced old links with new Allied Vision website links
2015-Mar-11
[continued]
• Added GT3300 with OnSemi KAI-08051 sensor information in table 15,
figure 25, and figure 26
• Renamed Truesense references to OnSemi
• Updated Table 23: Lens control port wiring
• Updated temperature monitoring specification for Prosilica GT2300/
2300C
• Updated datapath diagrams for color GT cameras in Description of the
data path section
• Updated the defect masking information for the following:
– Prosilica GT monochrome cameras
– Prosilica GT color cameras
• Changed file name from ‘GigE Camera and Driver Features’ to ‘GigE Features Reference’
• Changed chapter name from ‘Description of data path’ to ‘Camera data
path’
Introduction
Table 1: Document history
Manual conventions
To give this manual an easily understood layout and to emphasize important
information, the following typographical styles and symbols are used:
Styles
Style Function Example
Bold Programs, inputs, or
Courier Code listings etc. Input
Upper case Register REGISTER
Italics Modes, fields Mode
Parentheses and/or blue Links (Link)
bold
highlighting important
information
Table 2: Styles
Prosilica GT Technical Manual V2.3.0
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Symbols
Introduction
Precautions
Note
Caution
www
This symbol highlights important information.
This symbol highlights important instructions. You have to follow these instructions to avoid malfunctions.
This symbol highlights URLs for further information. The URL
itself is shown in blue.
Example:
http://www.alliedvision.com
Caution
Caution
Caution
Caution
Do not disassemble the camera housing. Warranty is void if
camera has been disassembled.
This camera contains sensitive internal components.
Keep shipping material.
Poor packaging of the product may cause damage during
shipping.
Verify all external connections.
Verify all external connections in terms of voltage levels,
power requirements, voltage polarity, and signal integrity
prior to powering the device.
Cleaning.
This product can be damaged by some volatile cleaning agents.
Avoid cleaning the image sensor unless absolutely necessary.
Please see instructions on optics cleaning in this document.
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Introduction
Caution
Camera cleaning
Caution
Do not exceed environmental specifications.
See environmental specifications limits in the Specifications
section of this document. Special care must be taken to
maintain a reasonable operating temperature. If the camera
is operated in temperatures higher than the specified range,
the camera should be mounted on a heat sink.
For more information on camera body temperature:
http://www.alliedvision.com/fileadmin/content/
documents/products/cameras/various/appnote/
Prosilica_GT_Camera_Body_Temperature.pdf
Allied Vision does not warranty against any physical damage to
the sensor/filter/protection glass or lenses. Use utmost care
when cleaning optical components.
Caution
Do not touch any optics with fingers. Oil from fingers can
damage fragile optical coatings.
Identifying debris
Debris on the image sensor or optical components appears as a darkened area
or smudge on a camera image. Do not confuse this with a pixel defect which
appears as a distinct point.
Locating debris
First determine whether the debris is on the sensor glass, IR filter (if used), or
lens. The farther away the debris is from the sensor, the blurrier the debris
appears on a camera image.
Stream a live image from the camera using a uniform target, such as a piece of
paper. To determine if the debris is on the camera lens, rotate the lens independent of the camera. If the spot moves, the debris is on the lens. Otherwise, the
debris is on the IR filter (if used) or sensor glass.
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Introduction
Color cameras with IR filter
Prosilica GT color cameras are equipped with an IR filter. With no lens or lens
cap on a camera, the IR filter is exposed and debris can accumulate on it. This is
the most probable location for debris. It should not be necessary to remove the
IR filter for cleaning. Clean the outside of the IR filter glass using the techniques explained in the next section. If it is determined that the debris is on the
inside surface of the filter glass, or on the sensor glass, IR filter removal is necessary.
Note
• A pin spanner wrench (Allied Vision P/N: E9020001)
suitable for IR filter removal is available for purchase from Allied Vision for all Prosilica GT cameras
except Prosilica GT large format cameras.
• DO NOT attempt to remove the camera IR filter for
Prosilica GT large format cameras. Please contact
support@alliedvision.com for assistance.
Cleaning with air
Blow directly on the contaminated surface with moderate pressure, clean compressed air.
Caution
View a live image with the camera after blowing. If debris is still present, repeat
the process until it is determined that the particulate cannot be dislodged. If
this is the case, proceed to the contact cleaning technique.
Do not exceed 6 bar (90 psi). If using canned air, approximately ~ 4.8 bar (70 psi) when full, do not shake or tilt the
can, as extreme changes in temperature due to sudden cold
air can crack the optic glass.
Contact cleaning
Only use this method if the above air cleaning method does not sufficiently
clean the surface. Use 99% pure isopropyl alcohol and clean cotton swabs. Wet
the swab in the alcohol. Quickly wipe the optics in a single stroke. Prolonged
exposure of alcohol on the swab can cause the swab glue to loosen and transfer
to the optic glass. Do not reuse the same swab. Repeat this process until the
debris is removed. If this process fails to remove the debris, contact Allied
Vision.
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Conformity
Allied Vision Technologies declares under its sole responsibility that all standard cameras of the Prosilica GT family to which this declaration relates are in
conformity with the following standard(s) or other normative document(s):
• CE, following the provisions of 2004/108/EG directive
• FCC Part 15 Class A
• RoHS (2011/65/EU)
We declare, under our sole responsibility, that the previously described
Prosilica GT cameras conform to the directives of the CE.
Conformity
(Prosilica GT board level cameras do not have CE)
(Prosilica GT board level cameras: prepared for FCC Class B)
Note: This equipment has been tested and found to comply with the limits for a
Class A digital device, pursuant to part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference in a
residential environment. This equipment generates radio frequency energy
and, if not installed and used in accordance with the instructions, may cause
harmful interference to radio communications. Any modifications not expressly
approved in this manual may void your authority to operate this equipment.
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Specifications
Specifications
Prosilica GT1290/1290C
Feature Specification
Resolution 1280 x 960
Sensor Sony ICX445ALA, ICX445AQA for color (with EXview HAD microlens)
Type CCD Progressive
Sensor size Type 1/3
Cell size 3.75 m
Lens mount C (adjustable) / CS
Max frame rate at full resolution 33.3 fps
Max image bit depth Monochrome cameras: 14 bit; Color cameras: 12 bit
On-board FIFO 128 MB, 53 frames at full resolution
Mono formats GT1290: Mono8, Mono12Packed, Mono12, Mono14; GT1290C: Mono8
Color formats BayerRG8, BayerRG12, BayerGR12Packed, RGB8Packed, BGR8Packed,
YUV411Packed, YUV422Packed, YUV444Packed
Exposure control 12 µs to 77.3 s; 1 µs increments
Gain control 0 to 33 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 14 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 2.9 W @ 12 VDC, 3.5 W PoE
Trigger latency 2 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +65 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 86 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 211 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera
Resolution: 0.031; Accuracy: ±1°C
Table 3: Prosilica GT1290/1290C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
0%
10%
20%
30%
40%
50%
400 450 500 550 600 650 700
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 1: Prosilica GT1290 monochrome spectral response
Figure 2: Prosilica GT1290C color spectral response (without IR cut filter)
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Specifications
Prosilica GT1380/1380C
Feature Specification
Resolution 1360 x 1024
Sensor Sony ICX285AL, ICX285AQ for color
Type CCD Progressive
Sensor size Type 2/3
Cell size 6.45 m
Lens mount C (adjustable)
Max frame rate at full resolution 30.5 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB
Mono formats GT1380: Mono8, Mono12Packed, Mono12, Mono14
GT1380C: Mono8
Color formats BayerRG8, BayerRG12, BayerGR12Packed, RGB8Packed, BGR8Packed,
YUV411Packed, YUV422Packed, YUV444Packed
Exposure control 10 µs to 77.3 s; 1 µs increments
Gain control 0 to 34 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 14 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 3.4 W @ 12 VDC, 4.2 W PoE
Trigger latency 2.2 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +65 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 86 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 211 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera
Resolution: 0.031; Accuracy: ±1°C
(with EXview HAD microlens)
Table 4: Prosilica GT1380/1380C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
0%
10%
20%
30%
40%
50%
400 450 500 550 600 650 700
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 3: Prosilica GT1380 monochrome spectral response
Figure 4: Prosilica GT1380C color spectral response (without IR cut filter)
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Specifications
Prosilica GT1600/1600C
Feature Specification
Resolution 1620 x 1220
Sensor Sony ICX274AL, ICX274AQ for color
Type CCD Progressive
Sensor size Type 1/1.8
Cell size 4.4 m
Lens mount C (adjustable), CS
Max frame rate at full resolution 25.8 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB, 33 frames at full resolution
Mono formats GT1600: Mono8, Mono12Packed, Mono12, Mono14
GT1600C: Mono8
Color formats BayerRG8, BayerRG12, BayerGR12Packed, RGB8Packed, BGR8Packed,
YUV411Packed, YUV422Packed, YUV444Packed
Exposure control 10 µs to 68.7 s; 1 µs increments
Gain control 0 to 26 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 14 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 3.3 W @ 12 VDC, 4.0 W PoE
Trigger latency 1.4 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +65 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 86 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 211 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for both camera and sensor
Resolution: 0.031; Accuracy: ±1°C
(with EXview HAD microlens)
Table 5: Prosilica GT1600/1600C camera specifications
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Specifications
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
400 450 500 550 600 650 700
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 5: Prosilica GT1600 monochrome spectral response
Figure 6: Prosilica GT1600C color spectral response (without IR cut filter)
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Specifications
Prosilica GT1660/1660C
Feature Specification
Resolution 1600 x 1200
Sensor OnSemi KAI-02050
Type CCD Progressive
Sensor size Type 2/3
Cell size 5.5 m
Lens mount C (adjustable)
Max frame rate at full resolution 62 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB, 68 frames at full resolution
Mono formats GT1660: Mono8, Mono12Packed, Mono12, Mono14
GT1660C: Mono8
Color formats BayerGR8, BayerGR12, BayerGR12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed
Exposure control 10 µs to 26.8 s; 1 µs increments
Gain control 0 to 32 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 5.1 W @ 12 VDC, 6.3 W PoE
Trigger latency 2.1 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +60 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 92 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 224 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for both camera and sensor
Resolution: 0.031; Accuracy: ±1°C
Table 6: Prosilica GT1660/1660C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
60%
350 450 550 650 750 850 950 1050 1150
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
400 500 600 700 800 900 1000 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
Red Green Blue
Figure 7: Prosilica GT1660 monochrome spectral response
Figure 8: Prosilica GT1660C color spectral response (without IR cut filter)
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Specifications
Prosilica GT1910/1910C
Feature Specification
Resolution 1920 x 1080
Sensor OnSemi KAI-02150
Type CCD Progressive
Sensor size Type 2/3
Cell size 5.5 m
Lens mount C (adjustable)
Max frame rate at full resolution 57.5 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB, 63 frames at full resolution
Mono formats GT1910: Mono8, Mono12Packed, Mono12, Mono14
GT1910C: Mono8
Color formats BayerGR8, BayerGR12, BayerGR12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed
Exposure control 10 µs to 26.8 s; 1 µs increments
Gain control 0 to 32 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 5.1 W @ 12 VDC, 6.3 W PoE
Trigger latency 2.2 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +60 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 92 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 224 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for both camera and sensor
Resolution: 0.031; Accuracy: ±1°C
Table 7: Prosilica GT1910/1910C camera specifications
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Specifications
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
350 450 550 650 750 850 950 1050
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
0%
5%
10%
15%
20%
25%
30%
35%
40%
375 475 575 675 775 875 975 1075
Quantum Efficiency
Wavelength [nm]
Measured with clear
cover glass
Red Green Blue
Figure 9: Prosilica GT1910 monochrome spectral response
Figure 10: Prosilica GT1910C color spectral response (without IR cut filter)
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Specifications
Prosilica GT1920/1920C
Feature Specification
Resolution 1936 x 1456
Sensor Sony ICX674
Type CCD Progressive
Sensor size Type 2/3
Cell size 4.54 m
Lens mount C (adjustable)
Max frame rate at full resolution 40.7 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB
Mono formats GT1920: Mono8, Mono12Packed, Mono12, Mono14
GT1920C: Mono8
Color formats BayerGR8, BayerGR12, BayerGR12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed
Exposure control 10 µs to 26.8 s; 1 µs increments
Gain control 0 to 33 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 4.9 W @ 12 VDC, 6.0 W PoE
Trigger latency 2 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +60 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 92 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 224 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for both camera and sensor
Resolution: 0.031; Accuracy: ±1°C
with EXview HAD II microlens
Table 8: Prosilica GT1920/1920C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
60%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
0%
10%
20%
30%
40%
50%
60%
400 450 500 550 600 650 700
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 11: Prosilica GT1920 monochrome spectral response
Figure 12: Prosilica GT1920C color spectral response (without IR cut filter)
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Specifications
Prosilica GT1930L/1930LC
Feature Specification
Resolution 1936 x 1216
Sensor SONY IMX174LLJ/IMX174LQJ with global shutter
Type CMOS Progressive
Sensor size Type 1/1.2
Cell size 5.86 m
Lens mount EF (planarity adjustable)
Max frame rate at full resolution
50.7 fps @ 124 MB/s; 55.8 fps burst mode
Max image bit depth 12 bit
On-board FIFO 128 MB
Mono formats GT1930L: Mono8, Mono12Packed, Mono12
GT1930LC: Mono8
Color formats BayerRG8, BayerRG12, RGB8Packed, BGR8Packed, YUV411Packed,
YUV422Packed, YUV444Packed
Exposure control GT1930L: 28 s to 88 s
GT1930LC:
• Mono8, BayerRG8, BayerRG12, YUV411Packed, YUV422Packed: 28 s to 88
s, 14 s increments
• RGB8Packed, BGR8Packed, YUV444Packed: 56 s to 88 s, 28 s increments
Gain control 0.0 to 40.0 dB, 0.1 dB increments
Binning Horizontal: 1 to 4 pixels; Vertical: 1 to 4 rows
Decimation Horizontal and Vertical: 1, 2, 4, 8 factor
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 3.24 W @ 12 VDC, 3.88 W PoE
Trigger latency* 50.1 µs
Trigger jitter* 7.2 µs
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature
-30 to +75 °C DeviceTemperatureSelector
-30 to +80 °C DeviceTemperatureSelector
-30 to +70 °C housing temperature (without condensation)
-30 to +65 °C ambient temperature (without condensation)
Storage temperature
-40 to +80 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 96 x 66 x 53.3 mm including connectors, w/o tripod and lens
Mass 372 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera. Resolution: 0.031; Accuracy: ±1°C
†
See StreamFrameRateConstrain in GigE Features Reference document.
*These values are calculated directly from the microcontroller source. These values are only valid for pixel formats ≤16 bit per pixel.
‡
Selects the site whose temperature is reported. See DeviceStatus in GigE Features Reference document.
Table 9: Prosilica GT1930L/1930LC camera specifications
†
‡
= Sensor
‡
= Main
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Specifications
0%
10%
20%
30%
40%
50%
60%
70%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
0%
10%
20%
30%
40%
50%
60%
70%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 13: Prosilica GT1930L monochrome spectral response
Figure 14: Prosilica GT1930LC color spectral response (without IR cut filter)
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Specifications
Prosilica GT2000/2000C/2000NIR
Feature Specification
Resolution 2048 x 1088
Sensor CMOSIS CMV2000
Type CMOS
Sensor size Type 2/3
Cell size 5.5 m
Lens mount / Lens C (adjustable) / 1 inch format lens recommended
Max frame rate at full resolution
53.7 fps @ 124 MB/s with GevSCPSPacketSize = 8228
Max image bit depth 12 bit
On-board FIFO 128 MB, 29 frames at full resolution
Mono formats GT2000/GT2000NIR: Mono8, Mono12Packed, Mono12
GT2000C: Mono8
Color formats BayerGB8, BayerGB12, BayerGB12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed,
Exposure control
†
to 126.2 s; 1 µs increments
18 µs
Gain control 0 to 26 dB
Horizontal binning N/A
Vertical binning N/A
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 3.4 W @ 12 VDC, 4.2 W PoE
Trigger latency 700 ns
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +65 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 86 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 210 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera, Resolution: 0.031; Accuracy: ±1°C
‡
Network card with jumbo packets is required. See Hardware Selection for Allied Vision GigE Cameras
application note _for a list of recommended Ethernet adapters.
*See StreamFrameRateConstrain in GigE Features Reference document.
†
Camera firmware v1.52.8151 shows minimum exposure values without frame overhead time, i.e., 1 µs.
See sensor datasheet for details on frame overhead time. This will be fixed in the next firmware release.
‡
; 60.1 burst mode*
Table 10: Prosilica GT2000/2000C/2000NIR camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
60%
70%
400 500 600 700 800 900 1000
Quantum Eciency
Wavelength [nm]
GT2000
GT2000NIR
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
300 400 500 600 700 800 900 1000 1100
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 15: Prosilica GT2000/2000NIR monochrome spectral response
Figure 16: Prosilica GT2000C color spectral response (without IR cut filter)
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Specifications
Prosilica GT2050/2050C/2050NIR
Feature Specification
Resolution 2048 x 2048
Sensor CMOSIS CMV4000
Type CMOS
Sensor size Type 1
Cell size 5.5 m
Lens mount C (adjustable)
Max frame rate at full resolution
28.6 fps @ 124 MB/s with GevSCPSPacketSize = 8228
Max image bit depth 12 bit
On-board FIFO 128 MB, 15 frames at full resolution
Mono formats GT2050/GT2050NIR: Mono8, Mono12Packed, Mono12
GT2050C: Mono8
Color formats BayerGB8, BayerGB12, BayerGB12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed,
YUV444Packed
Exposure control
†
to 126.2 s; 1 µs increments
34 µs
Gain control 0 to 26 dB
Horizontal/Vertical binning N/A
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 3.5 W @ 12 VDC, 4.3 W PoE
Trigger latency 700 ns
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +65 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 86 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 210 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera, Resolution: 0.031; Accuracy: ±1°C
‡
Network card with jumbo packets is required. See Hardware Selection for Allied Vision GigE Cameras
application note _for a list of recommended Ethernet adapters.
*See StreamFrameRateConstrain in GigE Features Reference document.
†
Camera firmware v1.52.8151 shows minimum exposure values without frame overhead time, i.e., 1 µs.
See sensor datasheet for details on frame overhead time. This will be fixed in the next firmware release.
‡
; 32.0 burst mode*
Table 11: Prosilica GT2050/2050C/2050NIR camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
60%
70%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
GT2050 GT2050NIR
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
300 400 500 600 700 800 900 1000 1100
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 17: Prosilica GT2050/2050NIR monochrome spectral response
Figure 18: Prosilica GT2050C color spectral response (without IR cut filter)
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Specifications
Prosilica GT2300/2300C
Feature Specification
Resolution 2336 x 1752
Sensor OnSemi KAI-04050
Type CCD Progressive
Sensor size Type 1
Cell size 5.5 m
Lens mount C (adjustable)
Max frame rate at full resolution 29.3 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB
Mono formats GT2300: Mono8, Mono12Packed, Mono12, Mono14
GT2300C: Mono8
Color formats BayerGR8, BayerGR12, BayerGR12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed
Exposure control 10 µs to 26.8 s; 1 µs increments
Gain control 0 to 32 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 4.9 W @ 12 VDC, 6.0 W PoE
Trigger latency 2.2 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +60 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 92 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 229 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera and sensor
Resolution: 0.031; Accuracy: ±1°C
Table 12: Prosilica GT2300/2300C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
60%
350 500 650 800 950 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
400 500 600 700 800 900 1000 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
Red Green Blue
Figure 19: Prosilica GT2300 monochrome spectral response
Figure 20: Prosilica GT2300C color spectral response (without IR cut filter)
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Specifications
Prosilica GT2450/2450C
Feature Specification
Resolution 2448 x 2050
Sensor Sony ICX625ALA. Sony ICX625AQA for color
Type CCD Progressive
Sensor size Type 2/3
Cell size 3.45 m
Lens mount C (adjustable)
Max frame rate at full resolution 15 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB, 13 frames at full resolution
Mono formats GT2450: Mono8, Mono12Packed, Mono12, Mono14
GT2450C: Mono8
Color formats BayerRG8, BayerRG12, BayerGR12Packed, RGB8Packed, BGR8Packed,
YUV411Packed, YUV422Packed, YUV444Packed
Exposure control 25 µs to 42.9 s; 1 µs increments
Gain control 0 to 30 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 14 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 3.8 W @ 12 VDC, 4.7 W PoE
Trigger latency 1.1 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +65 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 86 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 211 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera
Resolution: 0.031; Accuracy: ±1°C
(with Super HAD microlens)
Table 13: Prosilica GT2450/2450C camera specifications
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Specifications
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
400 450 500 550 600 650 700
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 21: Prosilica GT2450 monochrome spectral response
Figure 22: Prosilica GT2450C color spectral response (without IR cut filter)
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Specifications
Prosilica GT2750/2750C
Feature Specification
Resolution 2750 x 2200
Sensor Sony ICX694 ALG, ICX6
Type CCD Progressive
Sensor size Type 1
Cell size 4.54 m
Lens mount C (adjustable)
Max frame rate at full resolution 19.8 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB, 21 frames at full resolution
Mono formats GT2750: Mono8, Mono12Packed, Mono12, Mono14
GT2750C: Mono8
Color formats BayerGR8, BayerGR12, BayerGR12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed
Exposure control 10 µs to 26.8 s; 1 µs increments
Gain control 0 to 32 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage Requirements 7–25 VDC, or PoE
Power consumption 5.4 W @ 12 VDC, 6.6 W PoE
Trigger latency 2.2 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +60 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 92 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 224 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for both camera and sensor
Resolution: 0.031; Accuracy: ±1°C
94 AQG for color (with EXview HAD II microlens)
Table 14: Prosilica GT2750/2750C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
60%
70%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
0%
10%
20%
30%
40%
50%
60%
70%
400 450 500 550 600 650 700
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 23: Prosilica GT2750 monochrome spectral response
Figure 24: Prosilica GT2750C color spectral response (without IR cut filter)
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Specifications
Prosilica GT3300/3300C
Feature Specification
Resolution 3296 x 2472
Sensor Cameras with part number 02-2622B, 02-2623B: OnSemi KAI-08051
Cameras with part number 02-2622A, 02-2623A: OnSemi KAI-08050
Type CCD Progressive
Sensor size Type 4/3
Cell size 5.5 m
Lens mount F
Max frame rate at full resolution 14.7 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB, 16 frames at full resolution
Mono formats GT3300: Mono8, Mono12Packed, Mono12, Mono14
GT3300C: Mono8
Color formats BayerGR8, BayerGR12, BayerGR12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed,
YUV444Packed
Exposure control 10 µs to 26.8 s; 1 µs increments
Gain control 0 to 32 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 5.6 W @ 12 VDC, 6.9 W PoE
Trigger latency 2.2 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +60 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 121 x 59.7 x 59.7 mm including connectors, w/o tripod and lens
Mass 314 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for both camera and sensor
Resolution: 0.031; Accuracy: ±1°C
Table 15: Prosilica GT3300/3300C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
60%
350 500 650 800 950 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
300 400 500 600 700 800 900 1000 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
Red Green Blue
Figure 25: Prosilica GT3300 monochrome spectral response
Figure 26: Prosilica GT3300C color spectral response (without IR cut filter)
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Specifications
Prosilica GT3400/3400C
Feature Specification
Resolution 3384 x 2704
Sensor Sony ICX814 (with EXview HAD II microlens)
Type CCD Progressive
Sensor size Type 1
Cell size 3.69 m
Lens mount C (adjustable)
Max frame rate at full resolution
Max image bit depth Monochrome cameras: 14 bit; color cameras: 12 bit
On-board FIFO 128 MB
Mono formats GT3400: Mono8, Mono12Packed, Mono12, Mono14
Color formats BayerRG8, BayerRG12, BayerRG12Packed, RGB8Packed, BGR8Packed,
Exposure control 10 µs to 26.8 s; 1 µs increments
Gain control 0 to 31 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 5.4 W @ 12 VDC, 6.6 W PoE
Trigger latency 2.5 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +60 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 92 x 53.3 x 33 mm including connectors, w/o tripod and lens
Mass 224 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera
‡
Network card with jumbo packets is required. See Hardware Selection for Allied Vision GigE Cameras
application note _for a list of recommended Ethernet adapters.
*See StreamFrameRateConstrain in GigE Features Reference document.
12.7 fps @ 124 MB/s with GevSCPSPacketSize = 8228
GT3400C: Mono8
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed
Resolution: 0.031; Accuracy: ±1°C
‡
; 14 burst mode*
Table 16: Prosilica GT3400/3400C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
60%
70%
400 500 600 700 800 900 1000
Quantum Efficiency
Wavelength [nm]
0%
10%
20%
30%
40%
50%
60%
70%
400 450 500 550 600 650 700
Quantum Efficiency
Wavelength [nm]
Red Green Blue
Figure 27: Prosilica GT3400 monochrome spectral response
Figure 28: Prosilica GT3400C color spectral response (without IR cut filter)
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Specifications
Prosilica GT4905/4905C
Feature Specification
Resolution 4896 x 3264
Sensor OnSemi KAI-16050
Type CCD Progressive
Sensor size APS-H (32.36 mm diagonal)
Cell size 5.5 m
Lens mount F (Optional: M42-Mount, M58-Mount)
Max frame rate at full resolution
Max image bit depth Monochrome cameras: 14 bit; color cameras: 12 bit
On-board FIFO 128 MB
Mono formats GT4905: Mono8, Mono12Packed, Mono12, Mono14
Color formats BayerGR8, BayerGR12, BayerGR12Packed, RGB8Packed, BGR8Packed,
Exposure control 15 µs to 26.8 s; 1 µs increments
Gain control 0 to 32 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 7.3 W @ 12 VDC, 9.0 W PoE
Trigger latency 2.5 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +50 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 96 x 66 x 53.3 mm including connectors, w/o tripod and lens
Mass 372g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera
‡
Network card with jumbo packets is required. See Hardware Selection for Allied Vision GigE Cameras
application note _for a list of recommended Ethernet adapters.
*See StreamFrameRateConstrain in GigE Features Reference document.
7.5 fps @ 124 MB/s with GevSCPSPacketSize = 8228
GT4905C: Mono8
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed
Resolution: 0.031; Accuracy: ±1°C
‡
; 8.5 burst mode*
Table 17: Prosilica GT4905/4905C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
350 500 650 800 950 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
0%
10%
20%
30%
40%
50%
400 500 600 700 800 900 1000 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
Red Green Blue
Figure 29: Prosilica GT4905 monochrome spectral response
Figure 30: Prosilica GT4905C color spectral response (without IR cut filter)
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Specifications
Prosilica GT4907/4907C
Feature Specification
Resolution 4864 x 3232
Sensor OnSemi KAI-16070
Type CCD Progressive
Sensor size 35 mm
Cell size 7.4 m
Lens mount F (Optional: M42-Mount, M58-Mount)
Max frame rate at full resolution 7.6 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB
Mono formats GT4907: Mono8, Mono12Packed, Mono12, Mono14
GT4907C: Mono8
Color formats BayerGR8, BayerGR12, BayerGR12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed
Exposure control 35 µs to 26.8 s; 1 µs increments
Gain control 0 to 32 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 7.7 W @ 12 VDC, 9.5 W PoE
Trigger latency 2.5 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +50 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 96 x 66 x 53.3 mm including connectors, w/o tripod and lens
Mass 372g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera
Resolution: 0.031; Accuracy: ±1°C
Table 18: Prosilica GT4907/4907C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
60%
350 500 650 800 950 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
400 500 600 700 800 900 1000 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
Red Green Blue
Figure 31: Prosilica GT4907 monochrome spectral response
Figure 32: Prosilica GT4907C color spectral response (without IR cut filter)
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Specifications
Prosilica GT6600/6600C
Feature Specification
Resolution 6576 x 4384
Sensor OnSemi KAI-29050
Type CCD Progressive
Sensor size 35 mm (43.5 mm diagonal)
Cell size 5.5 m
Lens mount F (Optional: M42-Mount, M58-Mount)
Max frame rate at full resolution 4 fps
Max image bit depth Monochrome cameras: 14 bit
Color cameras: 12 bit
On-board FIFO 128 MB
Mono formats GT6600: Mono8, Mono12Packed, Mono12, Mono14
GT6600C: Mono8
Color formats BayerGR8, BayerGR12, BayerGR12Packed, RGB8Packed, BGR8Packed,
RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed
Exposure control 30 µs to 33.5 s; 1 µs increments
Gain control 0 to 32 dB
Horizontal binning 1 to 8 columns
Vertical binning 1 to 8 rows
TTL I/Os 1 input, 2 outputs
Opto-coupled I/Os 1 input, 2 outputs
RS-232 1 TxD, 1 RxD
Voltage requirements 7–25 VDC, or PoE
Power consumption 6.6 W @ 12 VDC, 8.1 W PoE
Trigger latency 2.5 µs
Trigger jitter 20 ns
Tpd 30 ns for non-isolated I/O, 70 ns for isolated I/O
Operating temperature -20 to +50 °C ambient temperature (without condensation)
Storage temperature -20 to +70 °C ambient temperature (without condensation)
Operating humidity 20 to 80% non-condensing
Body dimensions (L x W x H) 96 x 66 x 53.3 mm including connectors, w/o tripod and lens
Mass 372 g
Hardware interface standard PoE, IEEE 802.3af 1000BASE-T, 100BASE-TX
Software interface standard GigE Vision Standard 1.2
Regulatory CE, FCC Class A, RoHS (2011/65/EU)
Temperature monitoring Available for camera
Resolution: 0.031; Accuracy: ±1°C
Table 19: Prosilica GT6600/6600C camera specifications
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Specifications
0%
10%
20%
30%
40%
50%
350 500 650 800 950 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
400 500 600 700 800 900 1000 1100
Quantum Efficiency
Wavelength [nm]
Measured with AR
coated cover glass
Red Green Blue
Figure 33: Prosilica GT6600 monochrome spectral response
Figure 34: Prosilica GT6600C color spectral response (without IR cut filter)
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Camera smart features
Allied Vision cameras support a number of standard and extended features. The
table below identifies a selection of interesting capabilities of the Prosilica GT
camera family.
Camera smart features
www
Control Description
Auto controls
Defect pixel correction Correct defective pixels, available on select models
Region of interest Independent x and y control with 1 pixel resolution
Multicast Streaming to multiple computers
Event channel
Chunk data
Color correction matrix Correct color rendering for specific color temperature
Gamma, Hue, Saturation Adjust image gamma, hue and saturation
Precision Time Protocol
IEEE1588
Lens control
Look-up table (LUT) LUTs available on select models
Mirroring ReverseX and ReverseY available on select models
Decimation Sub-sampling available on select models
A complete listing of camera controls, including control definitions can be found online:
PvAPI users: GigE Camera and Driver Attributes document
VIMBA and third-party software users: GigE Features Refer-
ence document
Automatically adjust exposure, gain, iris, and white
balance
In-camera events including exposure start and
trigger are asynchronously broadcasted to the host
computer
Captured images are bundled with attribute
information such as exposure and gain value
Synchronize clocks of multiple cameras using
multicast messaging
Control P-Iris, DC-Iris, and EF lenses (available on
select large format models only)
Table 20: Prosilica GT camera and driver attribute highlights
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Filters
0
10
20
30
40
50
60
70
80
90
100
350 450 550 650 750 850 950
Transmission [%]
Wavelength [nm]
Filters
All Prosilica GT color models are equipped with an infrared block filter (IR filter). This filter is employed to prevent infrared wavelength photons from passing to the sensor. In the absence of IR filter, images are dominated by red and
incapable of being properly color balanced. Monochrome cameras do not
employ an IR filter.
The figure below shows the filter transmission response for the IRC30 filter
employed in the Prosilica GT cameras.
Figure 35: IRC30 filter transmission response
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Camera dimensions
70.5
5.1
26.7
16 26
33
34
38
53.3
31.6
20
29.9
20.6 19
11.4
26
65.2
2.8 2.5
M3x4 (4x)
26
26
6.3
2.8
65.2
11.7
Nominal, precise
dimension is sensor dependent
26
Adjustable C-Mount
The Prosilica GT family supports a range of sensor configurations. To support
this sensor variety three camera body sizes are used:
• Prosilica GT standard
•Prosilica GT extended
•Prosilica GT large format
Camera dimensions
www
Prosilica GT cameras are available with different lens mount
options. See Modular Concept document for details:
http://www.alliedvision.com/fileadmin/content/
documents/products/cameras/various/modular-concept/
Modular_concept_external.pdf
Prosilica GT standard cameras (C-Mount)
Prosilica GT1290, GT1380, GT1600, GT2000, GT2050, GT2450
Figure 36: Mechanical dimensions for C-Mount Prosilica GT standard cameras
Note
Prosilica GT standard cameras are available with M42-Mount,
see Technical Drawing - Prosilica GT Standard M42-Mount for
dimensions.
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Prosilica GT extended cameras
76.2
5.1
26.7
20.6
19.1
11.4
29.9
20
16 26
33
34
38
53.3
31.6
Adjustable C-Mount
26
2.8
70.9
2.5
M3x4 (4x)
26
6.3
26
M3x4 (4x)
2.8
70.9
12 Nominal, precise
dimension is sensor dependent
M2x3 (2x)
M3x4 (8x)
C-Mount
Prosilica GT1660, GT1910, GT1920, GT2300, GT2750, GT3400
Camera dimensions
Figure 37: Mechanical dimensions for C-Mount Prosilica GT extended cameras
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F-Mount
76.2 10
28.5*
33
59.7
Adjustable
Nikon F-Mount
20 29.9
20.6
19.1
14
11.4
M2x3 (2x)
2.8
70.9
2.5
26
M3x4 (4x)
70.9
2.8 2.5
6.3
26
53.3
M3x4 (4x)
*Nominal
Precise dimension
is sensor dependent
Prosilica GT3300
Camera dimensions
Figure 38: Mechanical dimensions for F-Mount GT3300
Note
Prosilica GT extended cameras are available with M42-Mount,
see technical drawing for dimensions.
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Prosilica GT large format cameras
2.5 48.3 2.5
53.3
5.9
27.6
26 26 53.3
M3x4 (4x) 2 sides
28 26
1/4-20 Tripod
Mount 2 sides
27.9
40
M3x4 (4x) 2 sides
2.5 48.3 2.5
28 66
6 (2x) 2 sides
27.9
6.3
76.2
Planarity adjustable
EF-Mount
53.3
66
20
13.5
11.4
12.7
M2x3 (2x)
EF-Mount (Planarity adjustable)
Prosilica GT1930L
Camera dimensions
Figure 39: Mechanical dimensions of Prosilica GT1930L with planarity adjustable EF-Mount
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F-Mount
53.3
26
53.3
9.7
26.8*
26
2.5
48.3
2.5
M3x4 (4x) 2 sides
12.7
11.4
20
13.5
M2x3 (2x)
59.9
52.8
M3x4 (8x)
47.2
40.1
59.7
Adjustable
Nikon F-Mount
28
26
2.5
48.3
2.5
40
27.9
6.3
66 28
6 (2x) 2 sides
27.9
*Nominal, precise dimension is sensor dependent
M3x4 (4x) 2 sides
1/4-20 Tripod
Mount 2 sides
Prosilica GT4905, GT4907, GT6600
Camera dimensions
Figure 40: Mechanical dimensions for F-Mount Prosilica GT large format cameras.
Note
• Prosilica GT large format cameras are NOT available with
C-Mount.
• GT4905, GT4907, and GT6600 cameras are available with
M42 / M58-Mount, see technical drawing for dimen-
sions.
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Tripod adapter
4.0
60.0
9.0
0.50 x 45.00
6.0
28.0
42.0
2.54
10
3x R3.0
SECTION A-A
AA
30.0
2.54
5.1 7.0
1/4-20 UNC 5.0
2x 6.0
2x 3.4
4x 3.4
4x R3.0
26.0 24.0
44.0
3.0
Tripod mount hole
Prosilica GT standard and extended cameras can be mounted on a camera tripod by using mounting plate P/N 02-5036A.
Camera dimensions
Note
Contact your Allied Vision sales representative to purchase GT
mounting plate 02-5036A.
Figure 41: Tripod mounting plate for Prosilica GT standard and extended cameras
Prosilica GT large format cameras can be mounted on a camera tripod by using
the tripod mount hole integrated into the camera body, as shown in the figure
Figure 42: Integrated tripod mount holes for Prosilica GT large format cameras
42.
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C-Mount flange focal distance
LOCKING WRENCH
LOCKING RING
C-MOUNT RING
Flange focal distance is the optical distance from the mounting flange to image
sensor die. Prosilica GT C-Mount cameras are optically calibrated to a standard
17.526 mm optical flange focal distance, with a ±10 µm tolerance.
Camera dimensions
www
Prosilica GT cameras are shipped with adjustable C-Mount. The
camera can also be built with a CS-Mount with a standard 12.50
mm optical flange focal distance and a ± 10 µm tolerance.
See Modular Concept for more information:
http://www.alliedvision.com/fileadmin/content/documents/
products/cameras/various/modular-concept/
Modular_concept_external.pdf
Adjustment of C-Mount
If for some reason the lens mount requires adjustment, use the following
method.
Figure 43: Prosilica GT camera and locking wrench
Loosen locking ring
Use an adjustable wrench to loosen the locking ring. Be careful not to scratch
the camera. When the locking ring is loose, unthread the ring a few turns from
the camera face.
Note
A wrench suitable for this procedure is available for purchase
from Allied Vision.
P/N: 02-5003A
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Camera dimensions
A
A
Front Plate
Lens protrusion
Section A-A for C-Mount
monochrome cameras
IR Cut lter
holder
Lens protrusion
Section A-A for C-Mount
color cameras
Image to infinity
Use a C-Mount compatible lens that allows an infinity focus. Set the lens to
infinity and image a distant object—10 to 15 m should suffice. Make sure the
lens is firmly threaded onto the C-Mount ring. Rotate the lens and C-Mount ring
until the image is focused. Carefully tighten the locking ring and recheck focus.
Lens protrusion for C-Mount cameras
Lens protrusion is the distance from outer edge of C-Mount ring to contact point
of first surface internal to C-Mount ring. For color cameras this surface is the IRfilter holder, and for mono cameras this surface is the internal camera front
plate (see figure 44). Table 21 presents lens protrusion values for Prosilica GT
cameras with C-Mount.
Figure 44: Cross section of typical Prosilica GT front assembly with C-Mount
Camera Lens protrusion [mm] Camera Lens protrusion [mm]
GT1290 13.64 GT2000 13.64
GT1290C 9.32 GT2000C 10.31
GT1380 13.64 GT2050 13.64
GT1380C 9.64 GT2050C 10.31
GT1600 13.64 GT2300 13.64
GT1600C 9.32 GT2300C 9.43
GT1660 13.64 GT2450 13.64
GT1660C 9.43 GT2450C 9.27
GT1910 13.64 GT2750 13.64
GT1910C 9.43 GT2750C 9.27
GT1920 13.64 GT3400 13.64
GT1920C 9.27 GT3400C 9.27
Table 21: Lens protrusion for Prosilica GT cameras with C-Mount
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F-Mount flange focal distance
M3 SET SCREW: 3 PLACES
F-MOUNT FRONT ASSEMBLY
Flange focal distance is the optical distance from the mounting flange to image
sensor die. Prosilica GT F-Mount cameras are optically calibrated to a standard
46.5 mm optical flange focal distance.
Camera dimensions
Note
Information on flange focal distance of Prosilica GT large
format cameras with M42 / M58-Mount is available here:
http://www.alliedvision.com/fileadmin/content/
documents/products/cameras/Prosilica_GT/Technicaldrawing/Prosilica_GT_Large_format_M42_and_M58Mount.pdf
Adjustment of F-Mount
The F-Mount is adjusted at the factory and should not require adjusting. If for
some reason the lens mount requires adjustment, use the following method.
Figure 45: Prosilica GT large format with F-Mount isometric view
Attach F-Mount compatible lens
Use an F-Mount compatible lens that allows an infinity focus. Attach the lens to
the camera using a counter-clockwise rotation of about a quarter turn. The lens
should snap into place and the lens flange and camera flange should mate over
the full circumference.
Loosen F-Mount front assembly
Use a 1.5mm hex wrench to loosen the 3 set screws then hold the F-Mount front
assembly to the camera body.
Image to infinity
Set the lens to infinity and image a distant object—10 to 15 m should suffice.
Gently move the F-Mount front until focused and lock it in place.
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EF-Mount flange focal distance
Adjustment Screw
Bolt
Flange focal distance is the optical distance from the lens mounting flange to image sensor die. Prosilica GT1930L cameras with EF-Mount are calibrated to have < 70 µm (0.3°) Z-tilt and ±10 µm variation from standard 44 mm flange focal depth.
Adjustment of EF-Mount
Prosilica GT1930L cameras allow planarity adjustment of the EF lens mount relative to the camera sensor. Adjustment can be made for overall flange focal distance (Z distance), and planarity (Z-tilt). The following steps describe Z adjustment using a standard EF lens and a target. However, measurement tools such
as an optical depth micrometer could also be used.
• Using an EF-Mount compatible lens, set the lens to infinity and image on a
target, 10 to 15 m should suffice. Target should highlight focus levels at
center image and at the corners of the image, as shown in figure 46. A lens
with a long focal length, or adjustable zoom lens, will allow more precision for this operation and reduce the overall size of your target.
Camera dimensions
Figure 46: Target image - before (left) and after (right) Z adjustment
• Use a 1.5mm hex head screwdriver to loosen the bolts.
• Adjust the three adjustment screws, as indicated in figure 47, until all targets are in focus.
• Tighten the three bolts and recheck the focus.
Figure 47: Back view (left) and exploded view (right) of Prosilica GT1930L camera assembly showing the
adjustment screws and bolts in the EF-Mount
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Camera interfaces
AUTO IRIS PORT
I/O PORT:
CAMERA POWER
EXTERNAL SYNC IO
RS-232 TX/RX
GIGABIT ETHERNET PORT
LED1
LED2
GIGABIT ETHERNET CABLE MOUNTING HOLES
This chapter provides information on Gigabit Ethernet port, inputs and outputs,
and trigger features.
Camera interfaces
www
Figure 48: Prosilica GT connection ports
Accessories:
Please contact Allied Vision sales representative or your local
Allied Vision dealer for information on accessories:
http://www.alliedvision.com/en/about-us/where-weare.html
Status LEDs
The color of the LEDs has the following meaning:
LED Color Status
LED1 Flashing/solid orange Ethernet activity
LED2 Flashing green Camera is powered
Solid green Camera is booted, and link with the
host is established
Table 22: Status of LEDs in Prosilica GT
Note
Once the camera is booted, LED2 will remain solid green
as long as the camera is powered, even if connection
with the host is lost.
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Gigabit Ethernet port
The Prosilica GT is powered through the 12-pin Hirose Camera I/O port, or the
Gigabit Ethernet port by using any standard Power over Ethernet (PoE) supported network card, switch, or injector. Allied Vision recommends using Category 6 or higher compatible cabling for best performance.
Camera interfaces
www
www
Note
Note
The GigE Installation Manual offers detailed instructions for
using Prosilica GT cameras.
http://www.alliedvision.com/fileadmin/content/documents/
products/cameras/various/installation-manual/
GigE_Installation_Manual.pdf
See Hardware Selection for Allied Vision GigE Cameras application note for a list of recommended Ethernet adapters:
http://www.alliedvision.com/fileadmin/content/documents/
products/cameras/various/appnote/
Hardware_Selection_for_Allied_Vision_GigE_Cameras.pdf
A standard Ethernet adapter is available for purchase from
Allied Vision:
P/N: 02-3002A
Model: Intel Pro 1000/PT
A dual port PoE Ethernet adapter is available for purchase from
Allied Vision:
P/N: 2685
Model: Adlink GIE62+
Cable lengths up to 100 m are supported.
Note
The 8-pin RJ-45 jack has the pin assignment according to the
Ethernet standard (IEEE 802.3 1000BASE-T).
Prosilica GT cameras support cables with horizontal locking
screw connector for a secured connection (see figure 48).
Allied Vision recommends using locking-screw cables from
Components Express, Inc. for a perfect fit. Visit the CEI product
configurator to customize the cable according to your needs.
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Camera I/O connector pin assignment
Pin Signal Direction Level Description
1 Camera GND In GND for RS232 and
ext. power
Ground for camera power
supply, and RS-232
2 Camera Power In 7–25 VDC Camera power supply
3 Out 4 Out Open emitter max.
20 mA
Opto-isolated Output 4
(SyncOut4)
4In 1 In LVTTL
max. 3.3 V
Non-isolated Input 1
(SyncIn1)
5 Out 3 Out Open emitter max.
20 mA
Opto-isolated Output 3
(SyncOut3)
6 Out 1 Out 3.3 V LVTTL
max. 50 µA
Non-isolated Output 1
(SyncOut1)
7 Isolated IO GND In/Out Common GND for
In/Out
Isolated input and output
signal ground
8 RxD RS-232 In RS-232 Terminal receive data
9 TxD RS-232 Out RS-232 Terminal transmit data
10 Isolated Out Power In Common VCC for
outputs 5–24 VDC
Power input
for opto-isolated outputs
11 In 2 In U
in
(high) = 5–24 V
U
in
(low) = 0–0.8 V
Input 2
opto-isolated (SyncIn2)
12 Out 2 Out 3.3 V LVTTL
max. 50 µA
Non-isolated Output 2
(SyncOut2)
1 9
8
7
6
5
4
3
2
11 12
10
Camera interfaces
Figure 49: Camera I/O connector pin assignment
The General Purpose I/O port uses a Hirose HR10A-10R-12PB connector on the
camera side. The mating cable connector is Hirose HR10A-10P-12S.
Note
The cable side Hirose connector is available for purchase
from Allied Vision.
P/N: K7600040 or 02-7002A
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I/O definition
Camera Power
The Prosilica GT camera can be powered through the Hirose I/O port, via Pin 1
Camera GND and Pin 2 Camera Power, or through the Gigabit Ethernet port if
using a power over Ethernet (PoE) supported network card, switch, or injector.
Cameras powered by both the Hirose I/O port and the Gigabit Ethernet port will
use the power provided by Hirose I/O port only.
Pin 2, Camera Power, supports an input voltage range of 7–25 VDC. The camera
will not power in reverse polarity. Exceeding the 25 V will damage the camera.
Camera interfaces
Note
A 12 V power adapter with Hirose connector is available for purchase from Allied Vision:
• P/N 02-8003A North America Supply
• P/N 02-8004A Universal Supply
Isolated IO ground
The Isolated IO GND connection provides the user ground reference and return
path for In 2, Out 3, and Out 4. It is recommended that the ground wiring be
physically close to the In/Out wiring to prevent parasitic coupling. For example, a good cable design connects In 2 to one conductor of a twisted pair, Iso-
lated IO GND to the second conductor of the same twisted pair.
RxD RS-232 and TxD RS-232
These signals are RS-232 compatible. These signals are not optically isolated.
Tie RS-232 ground to Camera GND to complete the RS-232 circuit. Communica-
tion is at 11520 baud.
www
For complete RS-232 description and usage, see:
http://www.alliedvision.com/fileadmin/content/documents/
products/cameras/various/appnote/RS232_Port_GigE_Cameras.pdf
Isolated Out Power
The Isolated Out Power connection provides power for isolated signals Out 3
and Out 4. The voltage requirement is 5–24 VDC. The current requirement for
this supply is a function of the optical isolator collector current and the number
of outputs used in the system. Isolated Out Power wiring should be physically
close to Out 3 / Out 4 wiring to prevent parasitic coupling.
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Camera interfaces
Input triggers
Input triggers allow the camera to be synchronized to an external event. The
camera can be programmed to trigger on the rising edge, falling edge, both
edges, or level of the signal. The camera can also be programmed to capture an
image at some programmable delay time after the trigger event.
In 1 – Non-isolated
In 1 is not electrically isolated and can be used when environmental noise is
inconsequential and faster trigger response is required. The required trigger
signal is low voltage TTL 3.3 V. Tie trigger ground to Camera GND to complete
the trigger circuit.
Caution
Exceeding 5.1 V on In 1 can permanently damage
the camera
In 2 – Opto-isolated
In 2 is optically isolated and can be used in electrically noisy environments to
prevent false trigger events. Tie trigger ground to Isolated IO GND to complete
the trigger circuit. Compared to the non-isolated trigger, In 2 has a longer
propagation time. It can be driven from 5 to 24 V with a minimum current
source of 5 mA.
Output signals
Output signals can be assigned to a variety of internal camera signals via software. They can be configured to active high or active low. The internal camera
signals are listed as follows:
Exposing Corresponds to when camera is integrating light.
Trigger Ready Indicates when the camera is ready to accept a trigger signal.
Trigger Input A relay of the trigger input signal used to “daisy chain” the
trigger signal for multiple cameras.
Readout Valid when camera is reading out data.
Imaging Valid when camera is exposing or reading out.
Strobe Programmable pulse based on one of the above events.
GPO User programmable binary output.
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Camera interfaces
OUT 3 / OUT 4
422R
ISOLATED OUT POWER
ISOLATED IO GND
TCMT1107
1
2
4
3
3.3 V CAMERA
LOGIC SIGNAL
4.75 K
D
S
G
CONSTANT CURRENT
SOURCE
Out 1 and 2 – Non-isolated
Out 1 and Out 2 signals are not electrically isolated and can be used when environmental electrical noise is inconsequential and faster trigger response is
required. Tie signal ground to Camera GND to complete the external circuit. The
output signal is a low voltage TTL, maximum 3.3 V. Not suitable for driving
loads in excess of 50 μA.
Out 3 and 4 – Opto-isolated
Out 3 and Out 4 signals are optically isolated and require the user to provide a
voltage level, Isolated Out Power. Tie signal ground to Isolated IO GND to
complete the external circuit. Isolated Out Power can be configured between
5–24 V. An example of the functional circuit is indicated in the following diagram.
EXTERNALCAMERA INTERNAL
Figure 50: Prosilica GT Out 3 / Out 4 trigger circuit
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Lens control
PIN 3PIN 1
PIN 2 PIN 4
Prosilica GT standard and extended cameras
Prosilica GT standard and extended cameras can be used with C-/CS-Mount auto
iris lenses of DC type, and P-Iris type.
Both DC and P-Iris lens types use the same standard connector, shown left,
located on the side of the camera. Lens type is automatically determined by the
camera on power-up. Connecting the lens after the camera is powered will not
damage the lens, but it will not be recognized by the camera; therefore, the relevant camera control attributes will not function. If this occurs, disconnect and
reconnect the camera power supply.
Camera interfaces
Note
Figure 51: Prosilica GT lens control port
DC AutoIris Mode P-Iris Mode
PIN NUMBER PIN FUNCTION VOLTAGE MAX CURRENT PIN NUMBER PIN FUNCTION VOLTAGE MAX CURRENT
1 Damp – (input) N/A N/A 1 Coil 1 A (output) 0 V or 3.3 V 200 mA
Video-type auto iris lenses are not supported.
Motorized CCTV lenses are not supported.
***Read lens descriptions carefully before purchasing***
For example, a “motorized iris lens” may be a bipolar single
axis motorized lens, and not a DC auto iris or P-Iris lens
2 Damp + (input) N/A N/A 2 Coil 2 A (output) 0 V or 3.3 V 200 mA
3 Drive + (output) 3.3 V 50 mA 3 Coil 2 B (output) 0 V or 3.3 V 200 mA
4 Drive – (output) 0–3.3 V 50 mA 4 Coil 1 B (output) 0 V or 3.3 V 200 mA
Table 23: Lens control port wiring
DC-Iris lenses
The Prosilica GT standard and extended cameras operate with any standard DCtype auto iris lens. Allied Vision tested lenses include Fujinon DV10x8SA-SA1L,
Computar HG2Z0414FC-MP, and Pentax C61227DCPS.
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Camera interfaces
DC-type auto iris lenses are continuously driven by a voltage (0–3.3 V) from the
camera lens control port. This voltage level determines whether the lens opens
or closes, and is calculated based on the applicable iris camera attributes.
Operation
1. Connect a DC-Iris lens to the camera before powering up the camera.
2. Power up camera, and open camera control software.
3. Set camera to live image with desired ExposureValue and GainValue attributes.
4. Set IrisMode = DCIris. Camera uses an automatic algorithm to determine
correct lens iris position based on the IrisVideoLevel attribute.
5. If lens operation is too slow or oscillates, see LensDCDriveStrength.
www
DC-Iris controls are described further in the following documents:
PvAPI users: GigE Camera and Driver Attributes document
VIMBA and third-party software users: GigE Features Refer-
ence document
P-Iris lenses
P-Iris (Precise iris) lenses allow the camera to adjust to an exact F-number without drift, through the usage of a stepper motor. The host system knows the
exact position of the iris at all times, allowing for a closed loop feedback system.
Operation
1. Connect a P-Iris lens to the camera before powering up the camera.
2. Power up camera, and open camera control software.
3. Set camera to live image with desired ExposureValue and GainValue attributes.
4. Set LensPIrisFrequency as specified by lens documentation, or in supported P-Iris lens list, as described in the next section. All P-Iris lenses
tested thus far operate well between [100-200].
5. Set LensPIrisNumSteps as specified by lens documentation, or in supported P-Iris lens list, as described in the next section.
6. Set IrisMode attribute to PIrisAuto or PIrisManual. PIrisAuto uses an
automatic algorithm to determine correct LensPIrisPosition based on the
IrisVideoLevel attribute. PirisManual allows manual control of LensPIrisPosition.
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Camera interfaces
www
P-Iris controls are described further in the following documents:
PvAPI users: GigE Camera and Driver Attributes document
VIMBA and third-party software users: GigE Features Refer-
ence document
www
Prosilica GT large format cameras
Electro-Focus (EF) lens control is available on the Prosilica GT1930L cameras.
EF lens control allows focus and aperture control via host software.
www
For a list of P-Iris supported lenses, along with their LensPIrisFrequency and LensPIrisNumSteps specifications:
http://www.alliedvision.com/fileadmin/content/documents/
products/cameras/various/appnote/Piris_Lenses_Supported_by_Prosilica_GT_Cameras.pdf
See Modular Concept for information on lens mount options
available with Prosilica GT large format cameras:
http://www.alliedvision.com/fileadmin/content/documents/
products/cameras/various/modular-concept/
Modular_concept_external.pdf
Operation
• Connect an EF lens to the camera before powering up the camera.
• Power up camera, and open camera control software.
Caution
•Use EFLensInitialize command to initialize the EF lens. This command is
automatically executed on power up and/or when lens is attached to camera.
• Adjust the focus and aperture using EFLensFocus and EFLensFStop con-
trols, respectively.
• If lens does not operate as expected, see EFLensState and EFLensLastError.
www
The max power supplied via PoE is 13 W. EF lens power requirements will vary from lens to lens; however, typical ratings are
in the 3–4 W range.
Should your lens + camera power requirements exceed 13 W,
it will be necessary to power the camera via Hirose.
EF lens controls are described further in EFLensControl section
of following documents:
PvAPI users: GigE Camera and Driver Attributes document
VIMBA and third-party software users: GigE Features Refer-
ence document
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Camera trigger
TO CAMERA LOGIC
CAMERA GND
1Y
SN74LVC2G34DCKR
2
3
6
4
IN 1
DS
G
180 R
1/10 W
2Y
1A
2A
CAMERA INTERNAL EXTERNAL
TO CAMERA LOGIC
ISOLATED IO GND
PS9117A-F3-AX
1
2
4
3
5
3.3 V
IN 2
DS
G
180 R
1/10 W
3.3 V
CAMERA INTERNAL EXTERNAL
4.75 K
5.1 V, 150 mW
50 V, 1 A
Camera trigger
Input: Non-isolated and opto-isolated internal circuit
Figure 52: Prosilica GT internal circuit diagram for input trigger
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Output: Non-isolated internal circuit
3.3 V CAMERA LOGIC
3.3 V
OUT 1
CAMERA INTERNAL EXTERNAL
3.3 V
4.75 K
DMN3404L-7
OUT 3 / OUT 4
422R
ISOLATED OUT POWER
ISOLATED IO GND
EXTERNALCAMERA INTERNAL
TCMT1107
1
2
4
3
3.3 V CAMERA
LOGIC SIGNAL
4.75 K
D
S
G
CONSTANT CURRENT
SOURCE
Figure 53: Prosilica GT internal circuit diagram for non-isolated output trigger
Camera trigger
Output: Opto-isolated internal circuit
Figure 54: Prosilica GT internal circuit diagram for opto-isolated output trigger
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Trigger timing diagram
User trigger
Logic trigger
Exposure
Readout
Trigger ready
Imaging
Interline time
Idle
Tpd
Trigger
latency
Exposure
start delay
Trigger
jitter
Registered
exposure time
Readout time
NN+1
NN+1
Note: Jitter at the
beginning of an exposure
has no eect on the
length of exposure.
Camera trigger
Figure 55: Prosilica GT internal signal timing waveforms
Notes on triggering
Term Definition
User trigger Trigger signal applied by the user (hardware
trigger, software trigger)
Logic trigger Trigger signal seen by the camera internal logic
(not visible to the user)
Tpd Propagation delay between the user trigger and
Exposure High when the camera image sensor is integrating
Readout High when the camera image sensor is reading out
Trigger latency Time delay between the user trigger and the start
Trigger jitter Error in the trigger latency time
Table 24: Explanation of signals in timing diagram
the logic trigger
light
data
of exposure
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Camera trigger
Term Definition
Trigger ready Indicates to the user that the camera will accept
the next trigger
Registered exposure time Exposure time value currently stored in the camera
memory
Exposure start delay Registered exposure time subtracted from the
readout time and indicates when the next exposure
cycle can begin such that the exposure will end
after the current readout
Interline time Time between sensor row readout cycles
Imaging High when the camera image sensor is either
exposing and/or reading out data
Idle High if the camera image sensor is not exposing
and/or reading out data
Table 24: Explanation of signals in timing diagram
Trigger rules
Note
The user trigger pulse width should be at least three times the
width of the trigger latency as indicated in chapter
Specifications on page 14.
•The end of exposure will always trigger the next readout.
•The end of exposure must always end after the current readout.
•The start of exposure must always correspond with the interline time if
readout is true.
• Exposure start delay equals the readout time minus the registered exposure time.
Triggering during the idle state
For applications requiring the shortest possible Trigger Latency and the smallest
possible Trigger Jitter the User Trigger signal should be applied when Imaging is
false and Idle is true. In this case, Trigger Latency and Trigger Jitter are as indi-
cated in the camera Specifications section.
Triggering during the readout state
For applications requiring the fastest triggering cycle time whereby the camera
image sensor is exposing and reading out simultaneously, apply the User Trigger
signal as soon as a valid Trigger Ready is detected. In this case, Trigger Latency
and Trigger Jitter can be up to 1 row time since Exposure must always begin on
an Interline boundary.
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Firmware update
Firmware updates are carried out via the GigE connection. Allied Vision provides
an application for all Prosilica GT cameras that loads firmware to the camera
using a simple interface. New feature introductions and product improvements
motivate new firmware releases. All users are encouraged to use the newest
firmware available and complete the firmware update if necessary.
Firmware update
www
www
Download the latest GigE firmware loader from the Allied
Vision website:
http://www.alliedvision.com/en/support/firmware
For more information on GigE firmware update:
http://www.alliedvision.com/fileadmin/content/documents/
products/cameras/various/appnote/
GigE_Firmware_Update.pdf
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Resolution and ROI frame rates
Resolution and ROI frame rates
This section charts the resulting frame rate from changing sensor height from
full image to a single line.
Unless otherwise noted, sensors do not give an increase in readout speed with
a reduction in width. However, in cases where a camera is limited by frame rate
due to bandwidth restrictions, a reduction in width will give a frame rate
increase. Cameras with a “burst mode” frame rate (see chapter Specifications on
page 14) are able to output more data than the maximum available bandwidth
(124 MB/s), and will see a frame rate increase with a reduction in width.
Note
• Data was generated using StreamBytesPerSecond = 124
MB/s (full bandwidth) and an 8-bit pixel format. Frame
rates may be lower if using network hardware incapable
of 124 MB/s.
• For maximum speed advantage on quad-tap CCD sensors,
ROIs are center image, where feature OffsetY = (full
sensor height – ROI height)/2.
• There is no frame rate increase with reduced width.
• BinningVertical is horizontal row summing on CCD
before readout. The frame rate for an ROI at the same
effective height as binning will be slower because the CCD
still needs to read out the “fast readout rows” in ROI
mode.
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Prosilica GT1290
30
80
130
180
230
280
330
380
0 100 200 300 400 500 600 700 800 900 1000
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 56: Frame rate vs. height for GT1290
Height
1
Width
Frame rate
2
BinningY Height
Width
Frame rate
960 1280 33.3 2 480 1280 60.8
900 1280 35.3 3 320 1280 83.8
800 1280 39.2 4 240 1280 103.3
700 1280 44.1 5 192 1280 120
600 1280 50.4 6 160 1280 134.5
500 1280 58.8 7 137 1280 147.2
400 1280 70.5 8 120 1280 158.3
300 1280 88.0 9 106 1280 168.7
200 1280 117.1 10 96 1280 176.9
100 1280 175.0 11 87 1280 185.1
50 1280 232.4 12 80 1280 191.9
20 1280 289.5 13 73 1280 199.2
10 1280 315.2 14 68 1280 204.8
51280329.9
21280339.4
11280342.7
1
There is no frame rate increase with reduced width.
2
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT1380
30
60
90
120
150
180
210
0 150 300 450 600 750 900 1050
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 57: Frame rate vs. height for GT1380
Height
1
Width
Frame rate
2
BinningY Height
Width
Frame rate
1024 1360 30.5 2 512 1360 53.2
1000 1360 31.1 3 341 1360 70.7
900 1360 34.0 4 256 1360 84.6
800 1360 37.5 5 204 1360 96.0
700 1360 41.8 6 170 1360 105.4
600 1360 47.2 7 146 1360 113.1
500 1360 54.1 8 128 1360 119.6
400 1360 63.5 9 113 1360 125.6
300 1360 76.9 10 102 1360 130.4
200 1360 97.4 11 93 1360 134.6
100 1360 132.7 12 85 1360 138.5
50 1360 162.1 13 78 1360 142.1
20 1360 186.9 14 73 1360 144.7
10 1360 197.0
51360202.5
21360205.9
11360207.0
1
There is no frame rate increase with reduced width.
2
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT1600
25
75
125
175
225
275
325
0 140 280 420 560 700 840 980 1120 1260
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 58: Frame rate vs. height for GT1600
Height
1
Width
Frame rate
2
BinningY Height
Width
Frame rate
1220 1620 25.8 2 610 1620 47.9
1100 1620 28.4 3 406 1620 66.9
1000 1620 31.0 4 305 1620 83.3
900 1620 34.0 5 244 1620 97.8
800 1620 37.8 6 203 1620 110.7
700 1620 42.5 7 174 1620 122.1
600 1620 48.5 8 152 1620 132.4
500 1620 56.5 9 135 1620 141.2
400 1620 67.7 10 122 1620 149.6
300 1620 84.4 11 110 1620 157.7
200 1620 112.1 12 101 1620 164.4
100 1620 166.6 13 93 1620 170.9
50 1620 220.2 14 87 1620 176.0
20 1620 272.9
10 1620 296.5
51620310.0
21620318.6
11620321.6
1
There is no frame rate increase with reduced width.
2
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT1660
60
110
160
210
260
0 200 400 600 800 1000 1200
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 59: Frame rate vs. height for GT1660
Height
1
Width2RegionY Frame rate
3
BinningY Height
Width Frame rate
1200 1600 0 62.1 2 600 1600 121
1000 1600 100 74.3 3 400 1600 165.4
900 1600 150 81.6 4 300 1600 202.8
800 1600 200 88.4 5 240 1600 234.2
700 1600 250 96.3 6 200 1600 260.8
600 1600 300 105.6 7 170 1600 284.0
500 1600 350 117.2 8 150 1600 303.1
400 1600 400 131.6
300 1600 450 149.4
200 1600 500 174.0
100 1600 550 207.8
50 1600 575 230.2
20 1600 590 245.3
10 1600 595 250.8
5 1600 598 253.6
2 1600 599 256.5
1 1600 600 256.5
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT1910
55
75
95
115
135
155
175
195
215
235
255
0 100 200 300 400 500 600 700 800 900 1000 1100
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 60: Frame rate vs. height for GT1910
Height
1
Width2RegionY Frame rate
3
BinningY Height
Width Frame rate
1080 1920 0 57.5 2 540 1920 114.1
1000 1920 40 62.1 3 360 1920 160.8
900 1920 90 69.1 4 270 1920 198.5
800 1920 140 77.5 5 216 1920 230.7
700 1920 190 86.4 6 180 1920 258.3
600 1920 240 95.3 7 154 1920 282.4
500 1920 290 106.5 8 134 1920 302.4
400 1920 340 120.7
300 1920 390 138.8
200 1920 440 163.8
100 1920 490 199.9
50 1920 515 224.7
20 1920 530 241.9
10 1920 535 248.3
5 1920 538 251.4
2 1920 539 254.8
1 1920 540 254.8
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT1920
40
60
80
100
120
140
0 250 500 750 1000 1250 1500
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 61: Frame rate vs. height for GT1920
Height
1
Width2RegionY Frame rate
3
BinningY Height
Width Frame rate
1456 1936 0 40.7 2 728 1936 70.3
1400 1936 28 41.8 3 484 1936 92.8
1200 1936 128 46.4 4 364 1936 110.0
1000 1936 228 52.1 5 290 1936 124.1
800 1936 328 59.5 6 242 1936 135.1
600 1936 428 69.3 7 208 1936 144.1
400 1936 528 82.8 8 182 1936 151.7
200 1936 628 103.1
100 1936 678 117.2
50 1936 703 126.0
20 1936 718 132.2
10 1936 723 134.2
5 1936 726 134.7
2 1936 727 135.7
1 1936 728 135.7
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT1930L
10
100
1000
10000
0 175 350 525 700 875 1050 1225
Frame rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 62: Frame rate vs. height for GT1930L
Height
*
Width Frame rate
1216 1936 50.7
1200 1936 51.4
1080 1936 57.0
1024 1936 60.0
960 1936 64.0
768 1936 80.1
600 1936 102.0
480 1936 126.9
100 1936 503.6
50 1936 787.0
20 1936 1187.2
10 1936 1429.4
*There will be an increase in frame rate with reduced width if the camera is bandwidth limited.
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Prosilica GT2000
50
500
5000
0 100 200 300 400 500 600 700 800 900 1000 1100
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 63: Frame rate vs. height for GT2000
Height
*
Width Frame rate
1088 2048 53.7
1000 2048 58.4
900 2048 64.8
800 2048 72.9
700 2048 83.2
600 2048 96.8
500 2048 115.9
400 2048 144.3
300 2048 191.2
200 2048 283.1
100 2048 545.3
50 2048 981.4
20 2048 2105.3
10 2048 2949.9
5 2048 3690.0
2 2048 4926.1
1 2048 4926.1
*There will be an increase in frame rate with reduced width if the camera is bandwidth limited.
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Prosilica GT2050
5
50
500
5000
0 300 600 900 1200 1500 1800 2100
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 64: Frame rate vs. height for GT2050
Height
*
Width Frame rate
2048 2048 28.6
2000 2048 29.3
1800 2048 32.6
1600 2048 36.6
1400 2048 41.8
1200 2048 48.7
1000 2048 58.4
800 2048 72.9
600 2048 96.8
400 2048 144.3
200 2048 283.1
100 2048 545.3
50 2048 981.4
20 2048 2105.3
10 2048 2949.9
5 2048 3690.0
2 2048 4926.1
1 2048 4926.1
*There will be an increase in frame rate with reduced width if the camera is bandwidth limited.
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Prosilica GT2300
30
50
70
90
110
130
0 300 600 900 1200 1500 1800
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 65: Frame rate vs. height for GT2300
Height
1
Width2RegionY Frame rate
3
BinningY Height
Width Frame rate
1752 2336 0 29.3 2 876 2336 54.2
1600 2336 76 32.1 3 584 2336 80.8
1400 2336 176 36.6 4 438 2336 99.5
1200 2336 276 42.7 5 350 2336 115.0
1000 2336 376 48.0 6 292 2336 128.1
800 2336 476 54.8 7 250 2336 139.5
600 2336 576 63.9 8 218 2336 148.3
400 2336 676 76.4
200 2336 776 95.2
100 2336 826 108.6
50 2336 851 116.8
20 2336 866 122.2
10 2336 871 124.5
5 2336 874 125.1
2 2336 875 125.9
1 2336 876 125.9
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT2450
15
25
35
45
55
65
75
85
0 300 600 900 1200 1500 1800 2100
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 66: Frame rate vs. height for GT2450
Height
1
Width
Frame rate
2
BinningY Height
Width
Frame rate
2050 2448 15.0 2 1025 2448 25.4
2000 2448 15.3 3 683 2448 33.1
1800 2448 16.7 4 512 2448 38.9
1600 2448 18.4 5 410 2448 43.4
1400 2448 20.3 6 341 2448 47.1
1200 2448 22.7 7 292 2448 50.2
1000 2448 25.9 8 256 2448 52.7
800 2448 30.0 9 227 2448 54.8
600 2448 35.7 10 205 2448 56.6
400 2448 44.1 11 186 2448 58.2
200 2448 57.5 12 170 2448 59.6
100 2448 67.9 13 157 2448 60.8
50 2448 74.7 14 146 2448 61.8
20 2448 79.4
10 2448 81.1
5244882.0
2244882.5
1244882.7
1
There is no frame rate increase with reduced width.
2
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT2750
15
20
25
30
35
40
45
50
55
60
65
70
75
80
0 200 400 600 800 1000 1200 1400 1600 1800 2000 2200
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 67: Frame rate vs. height for GT2750
Height
1
Width2RegionY Frame rate
2200 2752 0 19.8 2 1100 2752 37.0
2000 2752 100 21.8 3 732 2752 50.2
1800 2752 200 23.9 4 550 2752 60.9
1600 2752 300 25.9 5 440 2752 70.0
1400 2752 400 28.2 6 366 2752 77.4
1200 2752 500 31.1 7 314 2752 83.8
1000 2752 600 34.5 8 274 2752 88.9
800 2752 700 38.8
600 2752 800 44.4
400 2752 900 51.7
200 2752 1000 62.0
100 2752 1050 68.9
50 2752 1075 73.0
20 2752 1090 75.6
10 2752 1095 76.5
5 2752 1098 76.9
2 2752 1099 77.4
1 2752 1100 77.4
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
3
BinningY Height
Prosilica GT Technical Manual V2.3.0
Width Frame rate
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Prosilica GT3300
14
19
24
29
34
39
44
49
54
59
64
69
0 500 1000 1500 2000 2500
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 68: Frame rate vs. height for GT3300
Height
1
Width2RegionY Frame rate
3
BinningY Height
Width Frame rate
2472 3296 0 14.8 2 1236 3296 29.4
2200 3296 136 16.6 3 824 3296 43.1
2000 3296 236 18.2 4 618 3296 53.2
1800 3296 336 20.2 5 494 3296 62.0
1600 3296 436 22.8 6 412 3296 69.5
1400 3296 536 25.3 7 352 3296 75.8
1200 3296 636 27.8 8 308 3296 81.4
1000 3296 736 30.9
800 3296 836 34.7
600 3296 936 39.6
400 3296 1036 46.1
200 3296 1136 55.2
100 3296 1186 61.2
50 3296 1211 64.7
20 3296 1226 67.0
10 3296 1231 67.9
5 3296 1234 68.2
2 3296 1235 68.5
1 3296 1236 68.5
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT3400
13
18
23
28
33
38
43
48
53
0 250 500 750 1000 1250 1500 1750 2000 2250 2500 2750
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 69: Frame rate vs. height for GT3400
Height
1
Width2RegionY Frame rate
3
BinningY Height
Width Frame rate
2704 3384 0 13.2 2 1352 3384 25.1
2600 3384 52 13.7 3 900 3384 34.1
2400 3384 152 14.8 4 676 3384 41.4
2200 3384 252 16.2 5 540 3384 47.6
2000 3384 352 17.4 6 450 3384 52.8
1800 3384 452 18.6 7 386 3384 57.2
1600 3384 552 20.1 8 338 3384 61.0
1400 3384 652 21.7
1200 3384 752 23.8
1000 3384 852 26.1
800 3384 952 29.1
600 3384 1052 32.8
400 3384 1152 37.5
200 3384 1252 43.9
100 3384 1302 48.0
50 3384 1327 50.4
20 3384 1342 51.8
10 3384 1347 52.3
5 3384 1350 52.6
2 3384 1351 52.8
1 3384 1352 52.8
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT4905
7
12
17
22
27
32
0 300 600 900 1200 1500 1800 2100 2400 2700 3000 3300
Frame Rate [fps]
Height [pixels]
Figure 70: Frame rate vs. height for GT4905
Resolution and ROI frame rates
Height
1
Width2RegionY Frame rate
3
BinningY Height
Width Frame rate
3264 4896 0 7.5 2 1632 4896 15.1
3200 4896 32 7.7 3 1088 4896 20.7
3000 4896 132 8.2 4 816 4896 25.1
2800 4896 232 8.8 5 652 4896 28.8
2600 4896 332 9.5 6 544 4896 31.8
2400 4896 432 10.2 7 466 4896 34.4
2200 4896 532 11.2 8 408 4896 36.6
2000 4896 632 12.0
1800 4896 732 12.7
1600 4896 832 13.7
1400 4896 932 14.7
1200 4896 1032 15.9
1000 4896 1132 17.4
800 4896 1232 19.1
600 4896 1332 21.2
400 4896 1432 23.9
200 4896 1532 27.3
100 4896 1582 29.4
50 4896 1607 30.6
20 4896 1622 31.3
10 4896 1627 31.6
5 4896 1630 31.7
2 4896 1631 31.8
1 4896 1632 31.8
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT4907
7
10
13
16
19
22
0 650 1300 1950 2600 3250
Frame Rate [fps]
Height [pixels]
Figure 71: Frame rate vs. height for GT4907
Resolution and ROI frame rates
Height
1
Width2RegionY Frame rate
3
BinningY Height
Width Frame rate
3232 4864 0 7.7 2 1616 4864 12.5
3200 4864 16 7.7 3 1076 4864 15.7
3000 4864 116 8.1 4 808 4864 17.9
2800 4864 216 8.4 5 646 4864 19.6
2600 4864 316 8.8 6 538 4864 21.0
2400 4864 416 9.2 7 460 4864 21.9
2200 4864 516 9.7 8 404 4864 22.7
2000 4864 616 10.2
1800 4864 716 10.7
1600 4864 816 11.3
1400 4864 916 12.0
1200 4864 1016 12.8
1000 4864 1116 13.7
800 4864 1216 14.8
600 4864 1316 16.0
400 4864 1416 17.4
200 4864 1516 19.1
100 4864 1566 20.0
50 4864 1591 20.6
20 4864 1606 20.9
10 4864 1611 21.0
5 4864 1614 21.1
2 4864 1615 21.1
1 4864 1616 21.1
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT6600
4
6
8
10
12
14
16
18
0 400 800 1200 1600 2000 2400 2800 3200 3600 4000 4400
Frame Rate [fps]
Height [pixels]
Resolution and ROI frame rates
Figure 72: Frame rate vs. height for GT6600
Height
1
Width2RegionY Frame rate
3
BinningY Height
Width Frame rate
4384 6576 0 4.0 2 2192 6576 7.5
4000 6576 192 4.3 3 1460 6576 10.4
3500 6576 442 4.7 4 1096 6576 13.0
3000 6576 692 5.3 5 876 6576 15.3
2500 6576 942 6.0 6 730 6576 17.3
2000 6576 1192 6.9 7 626 6576 19.1
1500 6576 1442 8.1 8 548 6576 20.7
1000 6576 1692 9.8
800 6576 1792 10.8
600 6576 1892 11.9
400 6576 1992 13.3
200 6576 2092 15.0
100 6576 2142 16.0
50 6576 2167 16.6
20 6576 2182 17.0
10 6576 2187 17.1
5 6576 2190 17.2
2 6576 2191 17.2
1 6576 2192 17.2
1
There is no frame rate increase with reduced width.
2
For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2.
3
BinningY is horizontal row summing on CCD before readout.
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Prosilica GT model comparison
0
50
100
150
200
250
300
350
0 500 1000 1500 2000 2500 3000 3500 4000 4500
Frame Rate [fps]
Height [pixels]
GT1290
GT1380
GT1600
GT1660
GT1910
GT2300
GT2450
GT2750
GT3300
GT3400
GT4905
GT4907
GT6600
Resolution and ROI frame rates
Figure 73: Frame rate vs. height model comparison. GT1930L, GT2000, and GT2050 are not included for
scale reasons
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Resolution and ROI frame rates
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Camera data path
12/14* bit
Sensor
Analog Analog
ADC
HIROSE I/O
RS232
Analog Analog
Vertical
binning /
Vertical ROI
14 bit
Gigabit
Ethernet
interface
‡
Factory calibrated. NOT a user control.
Oset
‡
Gain
*
12 bits with LUT , 14 bits if the LUT is bypassed
LUT
12
12
LUT
12
12
LUT 1-3
14 ĺ 12
14 bit
Gamma
14 bit
Horizontal
binning
12/14* bit
Frame
memory
14 bit
14 bit
Horizontal
ROI
Camera control
Defect
§
mask
GigE
§
Defect masking is ONLY available for GT3400, GT4905, GT4907, and GT6600
HIROSE I/O
RS232
12 bit
Horizontal
decimation
12 bit
Gigabit
Ethernet
interface
12 bit
LUT
12
12
LUT
12
12
LUT 1-3
12 ĺ 12
12 bit
Gamma
12 bit
Frame
memory
GigE
Sensor
array
Analog
Vertical
ROI
12 bit
12 bit
12 bit
Analog
Analog
Oset
Analog
ADC
12 bit
Horizontal
ROI
Horizontal
binning
Vertical
binning
Vertical
decimation
Analog
Reverse
X/Y
Gain
Camera control
Camera control
Internal sensor components
The following diagrams illustrate the data flow and the bit resolution of image
data. The individual blocks are described in more detail in the GigE Features
Reference document.
Prosilica GT monochrome cameras
Prosilica GT with CCD sensors
GT1290, GT1380, GT1600, GT1660, GT1910, GT1920, GT2300, GT2450, GT2750,
GT3300, GT3400, GT4905, GT4907, GT6600
Camera data path
Figure 74: Block diagram of Prosilica GT monochrome cameras with CCD sensors
Prosilica GT with CMOS sensor
GT1930L
Prosilica GT Technical Manual V2.3.0
Figure 75: Block diagram of Prosilica GT1930L monochrome camera
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Camera data path
HIROSE I/O
RS232
12 bit
12 bit
Gigabit
Ethernet
interface
12 bit
LUT
12
12
LUT
12
12
LUT 1-3
12 ĺ 12
12 bit
Gamma
12 bit
Frame
memory
‡
Factory calibrated. NOT a user control.
Sensor
array
Analog Analog 12 bitAnalog
Internal sensor components
Analog
Oset
Sensor
System
Gain
‡
Sensor
System
Oset
‡
Analog
Vertical
ROI
Horizontal
ROI
ADC
12 bit
Defect
mask
Camera control
Gain
GigE
14 bit
14 bit
HIROSE I/O
RS232
For on-camera interpolated PixelFormats only—outputs 8 bit.
Raw un-interpolated PixelFormats skip this block—outputs 8/12 bit depending
upon the bit depth of PixelFormat used.
8 bit
8 bit
Sensor
Analog
Analog
14 bit
ADC
GigE
Analog Analog
Vertical
binning
††
/
Vertical ROI
14 bit
Gigabit
Ethernet
interface
‡
Factory calibrated. NOT a user control.
White balance
Gain
Horizontal
binning
††
Hue
†
Saturation
Color transformation
*
LUT
12
12
LUT
12
12
LUT 1-3
14 ĺ 12
14 bit
Gamma
Bayer
†
Interpolation
3 X 3
12/14* bit
8/12/14 bit
Frame
memory
†
12 bits with LUT, 14 bits if the LUT is bypassed.
Horizontal
ROI
14 bit
Defect
§
mask
Camera control
Oset
‡
§
Defect masking is ONLY available for GT3400C, GT4905C, GT4907C, and GT6600C
††
Color information lost while binning is active.
GT2000, GT2000NIR, GT2050, GT2050NIR
Figure 76: Block diagram of Prosilica GT2000, GT2000NIR, GT2050, and GT2050NIR monochrome cameras
Prosilica GT color cameras
Figure 77: Block diagram of Prosilica GT color cameras with CCD sensors
Prosilica GT with CCD sensors
GT1290C, GT1380C, GT1600C, GT1660C, GT1910C, GT1920C, GT2300C, GT2450C,
GT2750C, GT3300C, GT3400C, GT4905C, GT4907C, GT6600C
Prosilica GT Technical Manual V2.3.0
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Prosilica GT with CMOS sensors
HIROSE I/O
RS232
Sensor
array
Analog
12 bit
GigE
12 bit
Horizontal
decimation
Analog
12 bit
Gamma
12 bit
LUT
12
12
LUT
12
12
Gigabit
Ethernet
interface
12 bit
Oset
LUT 1-3
12 ĺ 12
8 bit 8 bit8/12 bit
Frame
memory
Hue
†
Saturation
Color transformation
Bayer
†
Interpolation
3 X 3
For on-camera interpolated PixelFormats only—outputs 8 bit.
Raw un-interpolated PixelFormats
skip this block—outputs 8/12 bit,
depending upon the bit depth of PixelFormat used.
†
Analog
Vertical
ROI
12 bit
Horizontal
ROI
Analog
ADC
12 bit 12 bit
Horizontal
binning
Vertical
binning
12 bit
White balance
12 bit
Vertical
decimation
Analog
Reverse
X/Y
Internal sensor components
Gain
Camera control
HIROSE I/O
RS232
Sensor
array
Analog
Analog
12 bit
GigE
Analog
12 bit
Gamma
12 bit
LUT
12
12
LUT
12
12
12 bit
Gigabit
Ethernet
interface
Internal sensor components
12 bit
12 bit
Analog
Oset
LUT 1-3
12 ĺ 12
8 bit 8 bit8/12 bit
Frame
memory
Hue
†
Saturation
Color transformation
Bayer
†
Interpolation
3 X 3
For on-camera interpolated PixelFormats only—outputs 8 bit.
Raw un-interpolated PixelFormats skip this block—outputs 8/12 bit
depending upon the bit depth of PixelFormat used.
‡
Factory calibrated. NOT a user control.
†
Sensor
System
Gain
‡
Sensor
System
Oset
‡
Analog
Vertical
ROI
Defect
mask
12 bit
Camera control
White balance
Horizontal
ROI
12 bit
ADC
Gain
GT1930LC
Camera data path
Figure 78: Block diagram of Prosilica GT1930L color camera
GT2000C, GT2050C
Figure 79: Block diagram of Prosilica GT2000 and GT2050 color cameras
Prosilica GT Technical Manual V2.3.0
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Appendix
x
y
Sensor case
D
Camera body
Pixel area
Sensor case
Camera body
Pixel area
Sensor position accuracy of Prosilica GT standard and extended cameras
Appendix
Method of
Positioning:
Reference points:
Accuracy:
Optical alignment of photo sensitive sensor area into camera front module. (lens
mount front flange)
Sensor: Center of pixel area (photo sensitive cells)
Camera: Center of camera front flange (outer case edges)
x/y: ±250 µm (Sensor shift)
< 1° (Sensor rotation)
α:
Z: ±10 µm (Optical back focal length)
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Additional references
Prosilica GT webpage
http://www.alliedvision.com/en/products/cameras
Prosilica GT Documentation
http://www.alliedvision.com/en/support/technical-documentation/
prosilica-gt-documentation
VIMBA SDK
http://www.alliedvision.com/en/products/software
PvAPI SDK- (Under Legacy Software)
http://www.alliedvision.com/en/support/software-downloads
Additional references
Knowledge base
http://www.alliedvision.com/en/support/technical-papers-knowledge-base
Case studies
http://www.alliedvision.com/en/applications
Firmware
http://www.alliedvision.com/en/support/firmware
Prosilica GT Technical Manual V2.3.0
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Index
Index
A
Adjustment
C-Mount ............................................ 56
F-Mount ............................................ 58
B
Block diagram
Prosilica GT color cameras..................... 94
Prosilica GT monochrome cameras .......... 93
Prosilica GT2000 and GT2050 cameras 93
Prosilica GT2000C and GT2050C cameras .. 95
, 94
C
Camera dimensions ................................... 50
Camera GND..............................62
Camera interfaces ..................................... 60
Camera Power ..................................... 62
CE.......................................................... 13
Cleaning optics ........................................ 11
, 63, 64, 65
, 63
D
Data path................................................ 93
DC-Iris lens ............................................. 66
Declaration of conformity........................... 13
Document history ....................................... 6
E
Environmental specifications ...................... 11
Exposing (trigger) .................................... 72
Exposure (definition) ................................ 71
Exposure cycle (trigger)............................. 72
Exposure start delay (signal) ...................... 72
F
I
Idle (signal) ............................................ 72
Imaging (signal) ...................................... 72
In 1 .................................................. 62
In 2 ............................................. 62
Integrating light (trigger)..................... 64
interline boundary.................................... 72
Interline time (signal)............................... 72
IR filter ........................................11
Isolated IO GND.........................62
Isolated Out Power .........................62
, 63, 64, 65
, 64
, 63, 64
, 71
, 12, 49
, 63, 65
L
Legal notice .............................................. 2
Lens control ............................................ 66
Prosilica GT large format cameras ........... 68
Prosilica GT standard and extended cameras
66
Lens protrusion........................................ 57
Logic trigger (definition) ........................... 71
M
Mechanical dimensions
Prosilica GT extended C-Mount............... 51
Prosilica GT extended F-Mount............... 52
Prosilica GT large format F-Mount...... 53
Prosilica GT standard ........................... 50
Tripod mounting plate for standard and ex-
tended GTs ............................. 55
, 54
O
Out 1................................................. 62, 65
Out 2................................................. 62
Out 3............................................62
Out 4............................................62
, 65
, 63, 65
, 63, 65
FCC Class A .............................................. 13
Flange focal distance
C-Mount ............................................ 56
F-Mount ............................................ 58
G
GND for ext. power.................................... 62
P
P-Iris lens .......................................... 66, 67
Precautions ............................................. 10
Propagation delay (trigger) ........................ 71
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Index
R
Readout (definition) ................................. 71
Readout data (trigger)............................... 71
Registered exposure time (signal)................ 72
Resolution and ROI frame rates
GT model comparison........................... 92
Prosilica GT1290 ................................. 75
Prosilica GT1380 ................................. 76
Prosilica GT1600 ................................. 77
Prosilica GT1660 ................................. 78
Prosilica GT1910 ................................. 79
Prosilica GT1920 ................................. 80
Prosilica GT2000 ................................. 82
Prosilica GT2050 ................................. 83
Prosilica GT2300 ................................. 84
Prosilica GT2450 ................................. 85
Prosilica GT2750 ................................. 86
Prosilica GT3300 ................................. 87
Prosilica GT3400 ................................. 88
Prosilica GT4905 ................................. 89
Prosilica GT4907 ................................. 90
Prosilica GT6600 ................................. 91
RoHS (2011/65/EU).................................. 13
RS-232 .............................................. 62
, 63
S
Sensor position ........................................ 96
Sensor row readout cycles .......................... 72
Specifications .......................................... 14
Spectral sensitivity
Prosilica GT1290-Color ......................... 15
Prosilica GT1290-Monochrome............... 15
Prosilica GT1380-Color ......................... 17
Prosilica GT1380-Monochrome............... 17
Prosilica GT1600-Color ......................... 19
Prosilica GT1600-Monochrome............... 19
Prosilica GT1660-Color ......................... 21
Prosilica GT1660-Monochrome............... 21
Prosilica GT1910-Color ......................... 23
Prosilica GT1910-Monochrome............... 23
Prosilica GT1920-Color ......................... 25
Prosilica GT1920-Monochrome............... 25
Prosilica GT1930L-Color ....................... 27
Prosilica GT1930L-Monochrome ............. 27
Prosilica GT2000/2000NIR-Monochrome.. 29
Prosilica GT2000-Color ......................... 29
Prosilica GT2050/2050NIR Monochrome .. 31
Prosilica GT2050-Color......................... 31
Prosilica GT2300-Color......................... 33
Prosilica GT2300-Monochrome............... 33
Prosilica GT2450-Color......................... 35
Prosilica GT2450-Monochrome............... 35
Prosilica GT2750-Color......................... 37
Prosilica GT2750-Monochrome............... 37
Prosilica GT3300-Color......................... 39
Prosilica GT3300-Monochrome............... 39
Prosilica GT3400-Color......................... 41
Prosilica GT3400-Monochrome............... 41
Prosilica GT4905-Color......................... 43
Prosilica GT4905-Monochrome............... 43
Prosilica GT4907-Color......................... 45
Prosilica GT4907-Monochrome............... 45
Prosilica GT6600-Color......................... 47
Prosilica GT6600-Monochrome............... 47
Spectral transmission
IRC30 filter ........................................ 49
Status LEDs ............................................. 60
Styles....................................................... 9
Symbols ................................................. 10
T
Time delay (trigger) .................................. 71
Tpd (definition) ....................................... 71
Trademarks ............................................... 2
Trigger jitter (definition) ........................... 71
Trigger latency (definition) ........................ 71
trigger latency time .................................. 71
Trigger ready (signal)................................ 72
Trigger rules............................................ 72
Trigger timing diagram .............................. 71
Tripod adapter ......................................... 55
U
User trigger (definition) ............................ 71
W
Warranty..............................................2, 10
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