Allied Vision Prosilica GT Technical Manual
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Allied Vision Prosilica GT Technical Manual

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Allied Vision Prosilica GT
Technical Manual
GigE Vision Cameras
V2.4.1
15 September 2015
Allied Vision Technologies GmbH
Taschenweg 2a
D-07646 Stadtroda, Germany

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  • Page 1 Allied Vision Prosilica GT Technical Manual GigE Vision Cameras V2.4.1 15 September 2015 Allied Vision Technologies GmbH Taschenweg 2a D-07646 Stadtroda, Germany...

  • Page 2: Legal Notice

    These products are not designed for use in life support appliances, devices, or systems where mal- function 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.

  • Page 3: Table Of Contents

    Camera feature comparison ..................... 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 ..................
  • Page 4 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 V2.4.1...

  • Page 5: Contacting Allied Vision

    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...

  • Page 6: Introduction

    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.
  • Page 7 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...
  • Page 8 – C-Mount flange focal distance – F-Mount flange focal distance • Updated information on Prosilica GT Out 3 / Out 4 trigger circuit on page and in section Output: Opto-isolated internal circuit • Updated temperature monitoring information in the Specifications chapter •...

  • Page 9: Manual Conventions

    Prosilica GT color cameras V2.3.0 2015-Mar-20 • Replaced old links with new Allied Vision website links • Changed file name from ‘GigE Camera and Driver Features’ to ‘GigE Fea- tures Reference’ • Changed chapter name from ‘Description of data path’ to ‘Camera data path’...

  • Page 10: Precautions

    Poor packaging of the product may cause damage during  shipping. Caution 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. Prosilica GT Technical Manual V2.4.1...

  • Page 11: Camera Cleaning

    Prosilica_GT_Camera_Body_Temperature.pdf Camera cleaning Caution 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.

  • Page 12: Cleaning With Air

    IR filter (if used) or sensor glass. 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.

  • Page 13: Conformity

    Conformity Conformity Allied Vision Technologies declares under its sole responsibility that all stan- dard 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 (Prosilica GT board level cameras do not have CE) •...

  • Page 14: Specifications

    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 Prosilica GT Technical Manual V2.4.1...
  • Page 15 Specifications 1000 Wavelength [nm] Figure 1: Prosilica GT1290 monochrome spectral response Green Blue Wavelength [nm] Figure 2: Prosilica GT1290C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 16: Prosilica Gt1380/1380C

    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 4: Prosilica GT1380/1380C camera specifications Prosilica GT Technical Manual V2.4.1...
  • Page 17 Specifications 1000 Wavelength [nm] Figure 3: Prosilica GT1380 monochrome spectral response Green Blue Wavelength [nm] Figure 4: Prosilica GT1380C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 18: Prosilica Gt1600/1600C

    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 5: Prosilica GT1600/1600C camera specifications Prosilica GT Technical Manual V2.4.1...
  • Page 19 Specifications 1000 Wavelength [nm] Figure 5: Prosilica GT1600 monochrome spectral response Green Blue Wavelength [nm] Figure 6: Prosilica GT1600C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 20: Prosilica Gt1660/1660C

    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 Prosilica GT Technical Manual V2.4.1...
  • Page 21 1050 1150 Wavelength [nm] Figure 7: Prosilica GT1660 monochrome spectral response Green Blue Measured with AR coated cover glass 1000 1100 Wavelength [nm] Figure 8: Prosilica GT1660C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 22: Prosilica Gt1910/1910C

    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 Prosilica GT Technical Manual V2.4.1...
  • Page 23 Measured with AR coated cover glass 1050 Wavelength [nm] Figure 9: Prosilica GT1910 monochrome spectral response Green Blue Measured with clear cover glass 1075 Wavelength [nm] Figure 10: Prosilica GT1910C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 24: Prosilica Gt1920/1920C

    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 8: Prosilica GT1920/1920C camera specifications Prosilica GT Technical Manual V2.4.1...
  • Page 25 Specifications 1000 Wavelength [nm] Figure 11: Prosilica GT1920 monochrome spectral response Green Blue Wavelength [nm] Figure 12: Prosilica GT1920C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 26: Prosilica Gt1930L/1930Lc

    *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 Prosilica GT Technical Manual V2.4.1...
  • Page 27 Specifications 1000 Wavelength [nm] Figure 13: Prosilica GT1930L monochrome spectral response Green Blue 1000 Wavelength [nm] Figure 14: Prosilica GT1930LC color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 28: Prosilica Gt2000/2000C/2000Nir

    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.
  • Page 29 Specifications GT2000 GT2000NIR 1000 Wavelength [nm] Figure 15: Prosilica GT2000/2000NIR monochrome spectral response Green Blue 1000 1100 Wavelength [nm] Figure 16: Prosilica GT2000C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 30: Prosilica Gt2050/2050C/2050Nir

    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.
  • Page 31 Specifications GT2050 GT2050NIR 1000 Wavelength [nm] Figure 17: Prosilica GT2050/2050NIR monochrome spectral response Green Blue 1000 1100 Wavelength [nm] Figure 18: Prosilica GT2050C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 32: Prosilica Gt2300/2300C

    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 Prosilica GT Technical Manual V2.4.1...
  • Page 33 1100 Wavelength [nm] Figure 19: Prosilica GT2300 monochrome spectral response Green Blue Measured with AR coated cover glass 1000 1100 Wavelength [nm] Figure 20: Prosilica GT2300C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 34: Prosilica Gt2450/2450C

    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 13: Prosilica GT2450/2450C camera specifications Prosilica GT Technical Manual V2.4.1...
  • Page 35 Specifications 1000 Wavelength [nm] Figure 21: Prosilica GT2450 monochrome spectral response Green Blue Wavelength [nm] Figure 22: Prosilica GT2450C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 36: Prosilica Gt2750/2750C

    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 14: Prosilica GT2750/2750C camera specifications Prosilica GT Technical Manual V2.4.1...
  • Page 37 Specifications 1000 Wavelength [nm] Figure 23: Prosilica GT2750 monochrome spectral response Green Blue Wavelength [nm] Figure 24: Prosilica GT2750C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 38: Prosilica Gt3300/3300C

    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 Prosilica GT Technical Manual V2.4.1...
  • Page 39 1100 Wavelength [nm] Figure 25: Prosilica GT3300 monochrome spectral response Green Blue Measured with AR coated cover glass 1000 1100 Wavelength [nm] Figure 26: Prosilica GT3300C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 40: Prosilica Gt3400/3400C

    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.
  • Page 41 Specifications 1000 Wavelength [nm] Figure 27: Prosilica GT3400 monochrome spectral response Green Blue Wavelength [nm] Figure 28: Prosilica GT3400C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 42: Prosilica Gt4905/4905C

    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.
  • Page 43 1100 Wavelength [nm] Figure 29: Prosilica GT4905 monochrome spectral response Green Blue Measured with AR coated cover glass 1000 1100 Wavelength [nm] Figure 30: Prosilica GT4905C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 44: Prosilica Gt4907/4907C

    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 Prosilica GT Technical Manual V2.4.1...
  • Page 45 1100 Wavelength [nm] Figure 31: Prosilica GT4907 monochrome spectral response Green Blue Measured with AR coated cover glass 1000 1100 Wavelength [nm] Figure 32: Prosilica GT4907C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 46: Prosilica Gt6600/6600C

    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 Prosilica GT Technical Manual V2.4.1...
  • Page 47 1100 Wavelength [nm] Figure 33: Prosilica GT6600 monochrome spectral response Green Blue Measured with AR coated cover glass 1000 1100 Wavelength [nm] Figure 34: Prosilica GT6600C color spectral response (without IR cut filter) Prosilica GT Technical Manual V2.4.1...

  • Page 48: Camera Feature Comparison

    Specifications Camera feature comparison Allied Vision cameras support a number of standard and extended features. The table below identifies a selection of interesting capabilities and compares the availability of features in various Prosilica GT camera models. A complete listing of camera controls, including control defini- tions can be found online: ...

  • Page 49: Filters

    Filters Filters All Prosilica GT color models are equipped with an infrared block filter (IR fil- ter). This filter is employed to prevent infrared wavelength photons from pass- ing to the sensor. In the absence of IR filter, images are dominated by red and incapable of being properly color balanced.

  • Page 50: Camera Dimensions

    Camera dimensions Camera dimensions 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 Prosilica GT cameras are available with different lens mount options.

  • Page 51: Prosilica Gt Extended Cameras

    11.4 Adjustable C-Mount M2x3 (2x) 16 26 33 26.7 20.6 19.1 76.2 M3x4 (8x) 53.3 M3x4 (4x) 12 Nominal, precise dimension is sensor dependent 70.9 Figure 37: Mechanical dimensions for C-Mount Prosilica GT extended cameras Prosilica GT Technical Manual V2.4.1...
  • Page 52 20.6 19.1 76.2 28.5* *Nominal Precise dimension is sensor dependent 53.3 M3x4 (4x) 70.9 Figure 38: Mechanical dimensions for F-Mount GT3300 Note Prosilica GT extended cameras are available with M42-Mount, technical drawing for dimensions.  Prosilica GT Technical Manual V2.4.1...

  • Page 53: Prosilica Gt Large Format Cameras

    Camera dimensions Prosilica GT large format cameras EF-Mount (Planarity adjustable) Prosilica GT1930L M3x4 (4x) 2 sides 1/4-20 Tripod 27.9 Mount 2 sides 48.3 12.7 48.3 M3x4 (4x) 2 sides 11.4 53.3 53.3 Planarity adjustable M2x3 (2x) 13.5 76.2 EF-Mount 53.3 27.6...
  • Page 54 59.7 Nikon F-Mount *Nominal, precise dimension is sensor dependent 6 (2x) 2 sides 27.9 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...

  • Page 55: Tripod Adapter

    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...

  • Page 56: C-Mount Flange Focal Distance

    C-Mount flange focal distance 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.
  • Page 57 C-Mount ring. For color cameras this surface is the IR- filter 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.

  • Page 58: F-Mount Flange Focal Distance

    Camera dimensions F-Mount flange focal distance 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. Note Information on flange focal distance of Prosilica GT large format cameras with M42 / M58-Mount is available here: ...

  • Page 59: Ef-Mount Flange Focal Distance

    • Tighten the three bolts and recheck the focus. Bolt Adjustment Screw Figure 47: Back view (left) and exploded view (right) of Prosilica GT1930L camera assembly showing the adjustment screws and bolts in the EF-Mount Prosilica GT Technical Manual V2.4.1...

  • Page 60: Camera Interfaces

    Camera interfaces Camera interfaces This chapter provides information on Gigabit Ethernet port, inputs and outputs, and trigger features. 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-we- are.html GIGABIT ETHERNET CABLE MOUNTING HOLES...

  • Page 61: Gigabit Ethernet Port

    Camera interfaces 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) sup- ported network card, switch, or injector. Allied Vision recommends using Cate- gory 6 or higher compatible cabling for best performance.

  • Page 62: 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 Prosilica GT Technical Manual V2.4.1...

  • Page 63: I/O Definition

    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.
  • Page 64 5.1 V, 150 mW CAMERA GND SN74LVC2G34DCKR Figure 50: Prosilica GT internal circuit diagram for non-isolated input trigger 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 In GND to complete the trigger circuit.

  • Page 65: Output Signals

    50 μA. CAMERA INTERNAL EXTERNAL 3.3 V 3.3 V 4.75 K OUT 1 / OUT2 3.3 V CAMERA LOGIC DMN3404L-7 Figure 52: Prosilica GT Out 1 / Out 2 trigger circuit Prosilica GT Technical Manual V2.4.1...
  • Page 66 OUT 3 / OUT 4 V LOAD TCMT1107 R lOAD Figure 53: Prosilica GT Out 3 / Out 4 trigger circuit CAMERA LOGIC SIGNAL OUT 3 / OUT 4 Figure 54: Prosilica GT Out 3 / Out 4 timing diagram The influence of various Isolated Out Power values and load values on the tim- ing response of the trigger is indicated in the table 23.

  • Page 67: Lens Control

    Lens control 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.
  • Page 68 Camera interfaces DC-Iris lenses The Prosilica GT standard and extended cameras operate with any standard DC- type auto iris lens. Allied Vision tested lenses include Fujinon DV10x8SA-SA1L, Computar HG2Z0414FC-MP, and Pentax C61227DCPS. DC-type auto iris lenses are continuously driven by a voltage (0–3.3 V) from the camera lens control port.
  • Page 69 Electro-Focus (EF) lens control is available on the Prosilica GT1930L cameras. EF lens control allows focus and aperture control via host software. 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...
  • Page 70 Camera interfaces 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 Prosilica GT Technical Manual V2.4.1...

  • Page 71: Camera Trigger

    Trigger jitter Readout N+ 1 Interline time Trigger ready Imaging Idle Figure 56: 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...
  • Page 72 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. Prosilica GT Technical Manual V2.4.1...

  • Page 73: Firmware Update

    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.

  • Page 74: Resolution And Roi Frame Rates

    • 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. Prosilica GT Technical Manual V2.4.1...

  • Page 75: Prosilica Gt1290

    232.4 1280 191.9 1280 289.5 1280 199.2 1280 315.2 1280 204.8 1280 329.9 1280 339.4 1280 342.7 There is no frame rate increase with reduced width. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 76: Prosilica Gt1380

    138.5 1360 162.1 1360 142.1 1360 186.9 1360 144.7 1360 197.0 1360 202.5 1360 205.9 1360 207.0 There is no frame rate increase with reduced width. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 77: Prosilica Gt1600

    166.6 1620 170.9 1620 220.2 1620 176.0 1620 272.9 1620 296.5 1620 310.0 1620 318.6 1620 321.6 There is no frame rate increase with reduced width. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 78: Prosilica Gt1660

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 79: Prosilica Gt1910

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 80: Prosilica Gt1920

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 81: Prosilica Gt1930L

    1936 60.0 1936 64.0 1936 80.1 1936 102.0 1936 126.9 1936 503.6 1936 787.0 1936 1187.2 1936 1429.4 *There will be an increase in frame rate with reduced width if the camera is bandwidth limited. Prosilica GT Technical Manual V2.4.1...

  • Page 82: Prosilica Gt2000

    2048 191.2 2048 283.1 2048 545.3 2048 981.4 2048 2105.3 2048 2949.9 2048 3690.0 2048 4926.1 2048 4926.1 *There will be an increase in frame rate with reduced width if the camera is bandwidth limited. Prosilica GT Technical Manual V2.4.1...

  • Page 83: Prosilica Gt2050

    2048 144.3 2048 283.1 2048 545.3 2048 981.4 2048 2105.3 2048 2949.9 2048 3690.0 2048 4926.1 2048 4926.1 *There will be an increase in frame rate with reduced width if the camera is bandwidth limited. Prosilica GT Technical Manual V2.4.1...

  • Page 84: Prosilica Gt2300

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 85: Prosilica Gt2450

    67.9 2448 60.8 2448 74.7 2448 61.8 2448 79.4 2448 81.1 2448 82.0 2448 82.5 2448 82.7 There is no frame rate increase with reduced width. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 86: Prosilica Gt2750

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 87: Prosilica Gt3300

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 88: Prosilica Gt3400

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 89: Prosilica Gt4905

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 90: Prosilica Gt4907

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 91: Prosilica Gt6600

    There is no frame rate increase with reduced width. For maximum speed advantage ROIs are taken as center image, where attribute RegionY = (full sensor height – ROI height)/2. BinningY is horizontal row summing on CCD before readout. Prosilica GT Technical Manual V2.4.1...

  • Page 92: Prosilica Gt Model Comparison

    GT2450 GT2750 GT3300 GT3400 GT4905 GT4907 GT6600 1000 1500 2000 2500 3000 3500 4000 4500 Height [pixels] Figure 74: Frame rate vs. height model comparison. GT1930L, GT2000, and GT2050 are not included for scale reasons Prosilica GT Technical Manual V2.4.1...

  • Page 93: Camera Data Path

    LUTs are ONLY available for GT1290, GT1380, GT3400, GT4905, GT4907, and GT6600. 12 bits with LUT , 14 bits if the LUT is bypassed. Figure 75: Block diagram of Prosilica GT monochrome cameras with CCD sensors Prosilica GT with CMOS sensor...

  • Page 94: Prosilica Gt Color Cameras

    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. Figure 78: Block diagram of Prosilica GT color cameras with CCD sensors Prosilica GT Technical Manual V2.4.1...
  • Page 95 Camera data path Prosilica GT with CMOS sensors GT1930LC Internal sensor components Gain Offset White balance Reverse Vertical Horizontal Horizontal Vertical Sensor Analog 12 bit 12 bit Analog Analog Analog Analog 12 bit 12 bit binning binning array Camera control Gamma †...

  • Page 96: Appendix

    Appendix Appendix Sensor position accuracy of Prosilica GT standard and extended cameras Camera body Camera body Pixel area Pixel area Sensor case Sensor case Optical alignment of photo sensitive sensor area into camera front module. (lens Method of mount front flange)

  • Page 97: Additional References

    Additional references 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 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 V2.4.1...

  • Page 98: Index

    Prosilica GT2000C and GT2050C cameras .. 95 Legal notice ..........2 Camera dimensions ........50 Lens control ..........67 Camera GND........62 Prosilica GT large format cameras ... 69 Camera interfaces ........60 Prosilica GT standard and extended cameras Camera Power ........62 CE............13 Lens protrusion........
  • Page 99 Prosilica GT1910-Color ......23 Prosilica GT1910-Monochrome....23 Warranty..........2 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 GT Technical Manual V2.4.1...

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