AVT Prosilica GC Technical Manual AVT GigE Vision Cameras V2.0.
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.
Contents Contacting Allied Vision Technologies ................................................... 5 Introduction ............................................................................................................ 6 Document history............................................................................................................ 6 Conventions used in this manual ........................................................................................ 7 Precautions..........................
Video iris output description............................................................................................ 54 Camera trigger .....................................................................................................55 Camera I/O opto-isolated user circuit example .................................................................... 55 Camera I/O non-isolated user circuit example ..................................................................... 56 Trigger timing diagram.........
Contacting Allied Vision Technologies Contacting Allied Vision Technologies Info • Technical information: http://www.alliedvisiontec.com • Support: support@alliedvisiontec.com Allied Vision Technologies GmbH (Headquarters) Taschenweg 2a 07646 Stadtroda, Germany Tel: +49 36428-677-0 Fax: +49 36428-677-28 e-mail: info@alliedvisiontec.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@alliedvisiontec.
Introduction Introduction This AVT Prosilica GC Technical Manual describes in depth the technical specifications of the Prosilica GC camera family including dimensions, feature overview, I/O definition, trigger timing waveforms, and frame rate performance. For information on software installation read the AVT GigE Installation Manual.
Introduction Version Date Remarks V2.0.6 2013-Jul-05 • Added contact information for Allied Vision Technologies (Shanghai) Co. Ltd. Updated the links to AVT GigE Installation Manual Added links to AVT GigE Camera and Driver Features document • • V2.0.
Introduction Caution www 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.alliedvisiontec.com Precautions Caution Do not disassemble the camera housing. Warranty is void if camera has been disassembled. This camera contains sensitive internal components. Caution Keep shipping material.
Introduction 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. Cleaning optics Caution Caution AVT does not warranty against any physical damage to the sensor/filter/protection glass or lenses.
Introduction If it is determined that the debris is on the inside surface of the filter glass, or the sensor glass, IR filter removal is necessary. Depending on the manufacturing date of your Prosilica GC camera, the IR filter may be slot type, or pinhole type. Slot type filters can be removed using a small flat head screw driver. Pinhole type filters require a pin spanner wrench for removal. Note A pin spanner wrench suitable for IR filter removal is available for purchase from AVT.
Conformity Conformity Allied Vision Technologies declares under its sole responsibility that all standard cameras of the AVT Prosilica GC 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 AVT Prosilica GC cameras conform to the directives of the CE.
Specifications Specifications Prosilica GC650/650C Feature Specification Resolution 659 x 493 Sensor Sony ICX424AL, ICX424AQ for color Type CCD Progressive Sensor size Type 1/3 Cell size 7.
Specifications 60% Quantum Efficiency 50% 40% 30% 20% 10% 0% 400 500 600 700 800 Wavelength [nm] 900 1000 650 700 Figure 1: Prosilica GC650 monochrome spectral response 40% Red Green 500 550 Wavelength [nm] Blue 35% Quantum Efficiency 30% 25% 20% 15% 10% 5% 0% 400 450 600 Figure 2: Prosilica GC650C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC655/655C Feature Specification Resolution 659 x 493 Sensor Sony ICX414AL, ICX414AQ for color Type CCD Progressive Sensor size Type 1/2 Cell size 9.
Specifications 45% 40% Quantum Efficiency 35% 30% 25% 20% 15% 10% 5% 0% 400 500 600 700 800 Wavelength [nm] 900 1000 650 700 Figure 3: Prosilica GC655 monochrome spectral response Red 35% Green Blue Quantum Efficiency 30% 25% 20% 15% 10% 5% 0% 400 450 500 550 Wavelength [nm] 600 Figure 4: Prosilica GC655C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC660/660C Feature Specification Resolution 659 x 493 Sensor Sony ICX618ALA, ICX618AQ for color Type CCD Progressive Sensor size Type 1/4 Cell size 5.
Specifications 45% 40% Quantum Efficiency 35% 30% 25% 20% 15% 10% 5% 0% 400 500 600 700 800 900 1000 650 700 Wavelength [nm] Figure 5: Prosilica GC660 monochrome spectral response 80% Red Green 500 550 Blue 70% Quantum Efficiency 60% 50% 40% 30% 20% 10% 0% 400 450 600 Wavelength [nm] Figure 6: Prosilica GC660C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC750/750C Feature Specification Resolution 752 x 480 Sensor Micron MT9V022 Type CMOS Progressive Sensor size Type 1/3 Cell size 6 μm Lens mount CS Max frame rate at full resolution 67 fps A/D 10 bit On-board FIFO 16 MB Bit depth 8/10 Mono formats GC750: Mono8, Mono10 GC750C: Mono8 Color formats BayerBG8, BayerBG10, RGB8Packed, BGR8Packed, RGBA8Packed, BGRA8Packed, YUV411Packed, YUV422Packed, YUV444Packed Exposure control 30 μs to 60 s; 1 μs increments Gai
Specifications 60% Quantum Efficiency 50% 40% 30% 20% 10% 0% 400 500 600 700 800 Wavelength [nm] 900 1000 650 700 Figure 7: Prosilica GC750 monochrome spectral response 35% Red Green 500 550 Wavelength [nm] Blue Quantum Efficiency 30% 25% 20% 15% 10% 5% 0% 400 450 600 Figure 8: Prosilica GC750C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC780/780C Feature Specification Resolution 782 x 582 Sensor Sony ICX415AL, ICX415AQ for color Type CCD Progressive Sensor size Type 1/2 Cell size 8.
Specifications 45% 40% Quantum Efficiency 35% 30% 25% 20% 15% 10% 5% 0% 400 500 600 700 800 Wavelength [nm] 900 1000 Figure 9: Prosilica GC780 monochrome spectral response 35% Red Green 500 550 Wavelength [nm] Blue Quantum Efficiency 30% 25% 20% 15% 10% 5% 0% 400 450 600 650 700 Figure 10: Prosilica GC780C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC1020/1020C Feature Specification Resolution 1024 x 768 Sensor Sony ICX204AL, ICX204AK for color Type CCD Progressive Sensor size Type 1/3 Cell size 4.
Specifications 50% 45% Quantum Efficiency 40% 35% 30% 25% 20% 15% 10% 5% 0% 400 500 600 700 800 Wavelength [nm] 900 1000 650 700 Figure 11: Prosilica GC1020 monochrome spectral response 35% Red Green 500 550 Wavelength [nm] Blue Quantum Efficiency 30% 25% 20% 15% 10% 5% 0% 400 450 600 Figure 12: Prosilica GC1020C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC1280 Feature Specification Resolution 1280 x 1024 Sensor Cypress IBIS5B Type CMOS Progressive Sensor size Type 2/3 Cell size 6.
Specifications 0.18 QE 30% QE 20% 0.16 Spectral response [A/W] 0.14 0.12 0.1 QE 10% 0.08 0.06 0.04 0.02 0 400 500 600 700 800 Wavelength [nm] 900 1000 Figure 13: Prosilica GC1280 monochrome spectral response Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC1290/1290C Feature Specification Resolution 1280 x 960 Sensor Sony ICX445ALA, ICX445AQA for color Type CCD Progressive Sensor size Type 1/3 Cell size 3.
Specifications 60% 50% Quantum Efficiency 40% 30% 20% 10% 0% 400 500 600 700 800 900 1000 650 700 Wavelength [nm] Figure 14: Prosilica GC1290 monochrome spectral response Red Green 500 550 Wavelength [nm] Blue 60% Quantum Efficiency n 50% 40% 30% 20% 10% 0% 400 450 600 Figure 15: Prosilica GC1290C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC1350/1350C Feature Specification Resolution 1360 x 1024 Sensor Sony ICX205AL, Sony ICX205AK for color Type CCD Progressive Sensor size Type 1/2 Cell size 4.
Specifications 45% 40% Quantum Efficiency 35% 30% 25% 20% 15% 10% 5% 0% 400 500 600 700 800 900 1000 650 700 Wavelength [nm] Figure 16: Prosilica GC1350 monochrome spectral response 40% Red Green 500 550 Wavelength [nm] Blue 35% Quantum Efficiency 30% 25% 20% 15% 10% 5% 0% 400 450 600 Figure 17: Prosilica GC1350C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC1380/1380C Feature Specification Resolution 1360 x 1024 Sensor Sony ICX285AL, Sony ICX285AQ for color Type CCD Progressive Sensor size Type 2/3 Cell size 6.45 μm Lens mount C (adjustable) Max frame rate at full resolution 20.
Specifications 60% Quantum Efficiency 50% 40% 30% 20% 10% 0% 400 500 600 700 800 900 1000 650 700 Wavelength [nm] Figure 18: Prosilica GC1380 monochrome spectral response Red Green 500 550 Wavelength [nm] Blue 50% 45% Quantum Efficiency 40% 35% 30% 25% 20% 15% 10% 5% 0% 400 450 600 Figure 19: Prosilica GC1380C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC1380H/1380CH Feature Specification Resolution 1360 x 1024 Sensor Sony ICX285AL, Sony ICX285AQ for color Type CCD Progressive Sensor size Type 2/3 Cell size 6.
Specifications 60% Quantum Efficiency 50% 40% 30% 20% 10% 0% 400 500 600 700 800 900 1000 650 700 Wavelength [nm] Figure 20: Prosilica GC1380H monochrome spectral response Red Green 500 550 Wavelength [nm] Blue 50% 45% Quantum Efficiency 40% 35% 30% 25% 20% 15% 10% 5% 0% 400 450 600 Figure 21: Prosilica GC1380CH color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC1600/1600C Feature Specification Resolution 1620 x 1220 Sensor Sony ICX274AL, ICX274AQ for color Type CCD Progressive Sensor size Type 1/1.8 Cell size 4.
Specifications 60% Quantum Efficiency 50% 40% 30% 20% 10% 0% 400 500 600 700 Wavelength [nm] 800 900 1000 650 700 Figure 22: Prosilica GC1600 monochrome spectral response Red Green 500 550 Wavelength [nm] Blue 35% 30% Quantum Efficiency 25% 20% 15% 10% 5% 0% 400 450 600 Figure 23: Prosilica GC1600C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC1600H/1600CH Feature Specification Resolution 1620 x 1220 Sensor Sony ICX274AL, ICX274AQ for color Type CCD Progressive Sensor size Type 1/1.8 Cell size 4.
Specifications 60% Quantum Efficiency 50% 40% 30% 20% 10% 0% 400 500 600 700 Wavelength [nm] 800 900 1000 Figure 24: Prosilica GC1600H monochrome spectral response Red Green 500 550 Wavelength [nm] Blue 35% 30% Quantum Efficiency 25% 20% 15% 10% 5% 0% 400 450 600 650 700 Figure 25: Prosilica GC1600CH color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Specifications Prosilica GC2450/2450C Feature Specification Resolution 2448 x 2050 Sensor Sony ICX625ALA, Sony ICX625AQA for color Type CCD Progressive Sensor size Type 2/3 Cell size 3.
Specifications 60% Quantum Efficiency 50% 40% 30% 20% 10% 0% 400 500 600 700 Wavelength [nm] 800 900 1000 650 700 Figure 26: Prosilica GC2450 monochrome spectral response Red Green 500 550 Wavelength [nm] Blue 45% 40% Quantum Efficiency 35% 30% 25% 20% 15% 10% 5% 0% 400 450 600 Figure 27: Prosilica GC2450C color spectral response (without IR cut filter) Prosilica GC Technical Manual V2.0.
Camera attribute highlights Camera attribute highlights AVT cameras support a number of standard and extended features. The table below identifies a selection of interesting capabilities of the Prosilica GC camera family.
Filter Filter All Prosilica GC 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 GC cameras.
Camera dimensions Camera dimensions The Prosilica GC family offers both CCD and CMOS sensor models. CCD cameras utilize additional circuitry required for A/D conversion. As a result, CMOS models offer a shorter mechanical package then CCD models. Prosilica GC750, GC1280 26 M3x4 (4x) 38 26 26 M3x4 (2x) M3x4 (2x) 13.9* 50.6* 33.9 30.8 *Nominal value. Add 0.3mm for color cameras. 45.7 33 Figure 29: Mechanical dimensions for Prosilica GC750, and GC1280 Prosilica GC Technical Manual V2.0.
Camera dimensions Prosilica GC CCD models: GC650/C, GC655/C, GC660/C, GC780C, GC1020/C, GC1290/C, GC1350/C, GC1380/C, GC1380H/C, GC1600/C, GC1600H/C, GC2450/C 26 M3x4 (4x) 38 26 26 M3x4 (2x) M3x4 (2x) 12.9* 58.7* 39.9 42.9 *Nominal value. Add 0.3mm for color cameras. 45.7 33 Figure 30: Prosilica GC CCD models mechanical dimensions Prosilica GC Technical Manual V2.0.
Camera dimensions Tripod adapter A Prosilica GC camera can be mounted on a camera tripod by using mounting plate P/N 02-5002A. The same mounting plate can be used for all models within the GC camera family. Note Contact your AVT sales representative to purchase GC mounting plate 02-5002A. 0.5 0.5 24 14 4.5 32.5 26 19.5 6 THRU 1/4-20 Tapped Hole THRU 6 3.4 THRU 6 PLCS TYP. 9 18 Figure 31: Prosilica GC tripod mount mechanical drawing Prosilica GC Technical Manual V2.0.
Camera dimensions Optical flange focal distance Optical flange focal distance is the optical distance from the mounting flange to the image sensor die (see figure 32 and table 18). Optical flange focal distance can be calculated as: IR cut filter thickness + Sensor window thickness Optical flange focal distance Flange focal distance – ------------------------------------------------------------------------------------------------------------- 3 A Flange focal distance Image sensor die Max.
Camera dimensions Camera Mount Lens protrusion [mm] IR cut filter* [mm] GC1290C C-Mount 12.20 1.00 GC1350 C-Mount 13.64 0.00 GC1350C C-Mount 8.90 1.00 GC1380 C-Mount 13.65 0.00 GC1380C C-Mount 8.95 1.00 GC1380H C-Mount 13.64 0.00 GC1380CH C-Mount 8.31 1.00 GC1600 C-Mount 13.64 0.00 GC1600C C-Mount 8.93 1.00 GC1600CH C-Mount 6.98 1.00 GC1600H C-Mount 13.64 0.00 GC2450 C-Mount 13.64 0.00 GC2450C C-Mount 10.93 1.00 * Only color camera models are equipped with IR cut filter.
Camera dimensions Adjustment of C/CS-Mount www Cameras are shipped with adjustable C-Mount or CS-Mount depending on sensor size and camera order code. See AVT Modular Concept for more information: http://www.alliedvisiontec.com/us/support/downloads/ product-literature/avt-modular-concept.html The C-Mount or CS-Mount is adjusted at the factory and should not require adjusting. If for some reason the lens mount requires adjustment, use the following method.
Camera interfaces Camera interfaces This chapter provides information on Gigabit Ethernet port, inputs and outputs, and trigger features. www For more information on GigE accessories: http://www.alliedvisiontec.com/emea/products/ accessories/gige-accessories.
Camera interfaces Gigabit Ethernet port The Gigabit Ethernet port conforms to the IEEE 802.3 1000BASE-T standard for Gigabit Ethernet over copper. We recommend using Category 6 or higher compatible cabling and connectors for best performance. www Note The AVT GigE Installation Manual offers detailed instructions for using Prosilica GC cameras. http://www.alliedvisiontec.com/fileadmin/content/PDF/ Products/Technical_Manual/GigE_Install_Manual/ AVT_GigE_Installation_Manual.
Camera interfaces Camera I/O connector pin assignment 2 1 9 Pin Signal Direction Level 1 Camera GND In 2 Camera Power In 3 In 1 In 4 Out 1 Out 5 In/Out 6 Isolated IO GND Video iris 7 8 10 3 11 12 7 4 6 5 Description GND for ext. power Ground for camera power supply 5–16* VDC Camera power supply Out Uin(high) = 5–24 V Uin(low) = 0–0.8 V Open emitter max.
Camera interfaces I/O definition Camera power The Prosilica GC camera family has recently been updated to offer an expanded input power voltage range. The camera serial number is used to differentiate between cameras that offer 5–16 VDC and those that offer 5– 25 VDC. Caution SN: 02-XXXXX-0XXXX, 5– 16 V. 12 V nominal. SN: 02-XXXXX-1XXXX, 5– 25 V. 12 V nominal. www For more information on the power voltage range update for the Prosilica GC family: Note http://www.alliedvisiontec.
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 – opto-isolated In 1 is optically isolated and can be used in electrically noisy environments to prevent false trigger events.
Camera interfaces Out 1 – opto-isolated Out 1 signal is optically isolated and requires a user voltage with a suitable pull up resistor. Tie signal ground to Isolated IO GND to complete the external circuit. See Camera I/O opto-isolated user circuit example for wiring information. Out 2– non-isolated Out 2 signal is not electrically isolated and can be used when environmental electrical noise is inconsequential and faster trigger response is required. Use Signal GND to complete the external circuit.
Camera interfaces Video iris output description Prosilica GC cameras provide built-in auto iris controls for controlling videotype auto-iris lenses. These lenses are available from many popular security lens companies including Pentax, Fujinon, Tamron, Schneider, etc. Remote iris lens control allows the camera to be more adaptable to changing light conditions. It allows the user to manually control the exposure and gain values and rely solely on the auto iris for adjustment to ambient lighting.
Camera trigger Camera trigger Camera I/O opto-isolated user circuit example CAMERA GND CAMERA POWER IN 1 OUT 1 ISOLATED IO GROUND CAMERA GND CAMERA POWER R1 IN 1 (DRIVER) USER POWER 1 2 3 4 5 6 7 8 9 10 11 12 CABLE SIDE 1 9 8 2 10 7 3 12 11 6 4 5 HIROSE HR10A-10P-12S R2 USER RECOMMENDED VALUES POWER R1* R2 5V 0 1 KΩ 12 V 0.7 KΩ 2.7 KΩ 24 V 1.8 KΩ 4.
Camera trigger Camera I/O non-isolated user circuit example CAMERA GND 12 V POWER CAMERA GND CAMERA POWER IN 2 OUT 2 IN 2 (3.3 V DRIVER) 1 2 3 4 5 6 7 8 9 10 11 12 CABLE SIDE 1 9 8 2 10 7 3 12 11 6 4 5 OUT 2 (3.3 V RECEIVER) HIROSE HR10A-10P-12S Figure 38: Prosilica GC non-isolated user circuit Caution Input: Incoming trigger must be able to source 10 μA, at 3.3 V. Input trigger voltage greater than 5.5 V will damage the camera. Output: The maximum sync output current is 24 mA, at 3.
Camera trigger Trigger timing diagram Tpd Readout time Trigger latency Registered exposure time Exposure start delay User trigger Note: Jitter at the beginning of an exposure has no effect on the length of exposure.
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 an
Firmware update Firmware update Firmware updates are carried out via the GigE connection. AVT provides an application for all Prosilica GC 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. www Download the latest GigE firmware loader from the AVT website: http://www.alliedvisiontec.
Resolution and ROI frame rates Resolution and ROI frame rates This section charts the resulting frame rate from changing sensor region of interest (ROI), from full image to a single line. Note • Frame rate data was generated using StreamBytesPerSecond = 124 MB/s and an 8-bit pixel format such as Mono8, BayerBG8, or BayerRG8. Frame rates may be lower if using network hardware incapable of 124 MB/s.
Resolution and ROI frame rates Prosilica GC655 1 Frame rate = ------------------------------------------------------------------------19.94 μs Height + 1224.14 μs 790 Frame Rate [fps] 690 590 490 390 290 190 90 0 100 200 300 Height [pixels] 400 500 Figure 41: Frame rate vs. height for Prosilica GC655 (empirical) Prosilica GC660 1 Frame rate = ------------------------------------------------------------------------13.28 μs Height + 1844.
Resolution and ROI frame rates Prosilica GC750 850 Frame Rate [fps] 750 650 550 450 350 250 150 50 0 100 200 300 Height [pixels] 400 500 Figure 43: Frame rate vs. height for Prosilica GC750 Prosilica GC780 1 Frame rate = ------------------------------------------------------------------------24.70 μs Height + 1139.14 μs Frame Rate [fps] 800 650 500 350 200 50 0 100 200 300 400 Height [pixels] 500 600 Figure 44: Frame rate vs. height for Prosilica GC780 Prosilica GC Technical Manual V2.0.
Resolution and ROI frame rates Prosilica GC1020 Frame Rate [fps] 1 Frame rate = ------------------------------------------------------------------------33.56 μs Height + 3971.23 μs 250 230 210 190 170 150 130 110 90 70 50 30 0 100 200 300 400 500 Height [pixels] 600 700 800 Figure 45: Frame rate vs. height for Prosilica GC1020 Prosilica GC1280 775 Frame Rate [fps] 650 525 400 275 150 25 0 150 300 450 600 Height [pixels] 750 900 1050 Figure 46: Frame rate vs.
Resolution and ROI frame rates Prosilica GC1290 1 Frame rate = ------------------------------------------------------------------------28.79 μs Height + 2937.68 μs 350 Frame Rate [fps] 310 270 230 190 150 110 70 30 0 200 400 600 Height [pixels] 800 1000 Figure 47: Frame rate vs. height for Prosilica GC1290 Prosilica GC1350 1 Frame rate = ---------------------------------------------------------------------------38.35 μs Height + 10457.
Resolution and ROI frame rates Prosilica GC1380 1 Frame rate = ------------------------------------------------------------------------41.45 μs Height + 7148.57 μs 140 Frame Rate [fps] 120 100 80 60 40 20 0 150 300 450 600 Height [pixels] 750 900 1050 Figure 49: Frame rate vs. height for Prosilica GC1380 Prosilica GC1380H 1 Frame rate = ------------------------------------------------------------------------27.78 μs Height + 4883.
Resolution and ROI frame rates Prosilica GC1600 1 Frame rate = ------------------------------------------------------------------------48.80 μs Height + 6431.90 μs 155 Frame Rate [fps] 135 115 95 75 55 35 15 0 150 300 450 600 750 900 1050 1200 1350 Height [pixels] Figure 51: Frame rate vs. height for Prosilica GC1600 Prosilica GC1600H 1 Frame rate = ------------------------------------------------------------------------29.24 μs Height + 3082.
Resolution and ROI frame rates Prosilica GC2450 1 Frame rate = ---------------------------------------------------------------------------26.63 μs Height + 12079.91 μs 85 Frame Rate [fps] 75 65 55 45 35 25 15 0 300 600 900 1200 Height [pixels] 1500 1800 2100 Figure 53: Frame rate vs. height for Prosilica GC2450 Prosilica GC Technical Manual V2.0.
Resolution and ROI frame rates Prosilica GC model comparison 1100 1000 900 Frame Rate [fps] 800 GC650 GC655 GC660 GC750 GC780 GC1020 GC1280 700 600 500 400 300 200 100 0 0 100 200 300 400 500 Height [pixels] 600 700 800 Figure 54: Maximum frame rate comparison for select models 350 300 Frame Rate [fps] 250 GC1290 GC1350 GC1380 GC1380H GC1600 GC1600H GC2450 200 150 100 50 0 0 300 600 900 1200 1500 Height [pixels] 1800 2100 Figure 55: Maximum frame rate comparison for select models Pro
Appendix Appendix Sensor position of Prosilica GC cameras D Camera body Pixel area Pixel area y Camera body Sensor case Sensor case x Method of Positioning: Video alignment of photo sensitive sensor area into camera front module. (lens mount front flange) Reference points: Sensor: Center of pixel area (photo sensitive cells) Camera: Center of camera front flange (outer case edges) Accuracy: x/y ±400 μm (Sensor shift) α ± 1° (Sensor rotation) Prosilica GC Technical Manual V2.0.
Additional references Additional references Prosilica GC webpage http://www.alliedvisiontec.com/us/products/cameras/gigabit-ethernet/prosilica-gc.html Prosilica GC Documentation http://www.alliedvisiontec.com/us/support/downloads/product-literature/ prosilica-gc.html AVT VIMBA SDK http://www.alliedvisiontec.com/us/products/software/vimba-sdk.html AVT GigE PvAPI SDK http://www.alliedvisiontec.com/us/products/legacy.html AVT Knowledge Base http://www.alliedvisiontec.com/us/support/knowledge-base.
Index Index C M Camera dimensions ................................... 42 Camera GND........................................ 50, 53 Camera interfaces ..................................... 48 Camera Power .......................................... 50 CE.......................................................... 11 Cleaning optics .......................................... 9 Copyright.................................................. 2 Mechanical Drawing Prosilica GC CCD models........................
Index Prosilica GC1600 monochrome............... 35 Prosilica GC1600CH color...................... 37 Prosilica GC1600H monochrome............. 37 Prosilica GC2450 color ......................... 39 Prosilica GC2450C color ........................ 39 Prosilica GC650 monochrome ................ 13 Prosilica GC650C color.......................... 13 Prosilica GC655 monochrome ................ 15 Prosilica GC655C color.......................... 15 Prosilica GC660 monochrome ................
