Victorem CoaXPress

- 0.4MP to 20MP models
- Compact, lightweight design
- Monochrome and Color CMOS sensors from Sony
- Long-distance coaxial cabling with power for camera
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IO Industries Inc ( headquartered in Ontario – Canada ), have designed and manufactured cutting-edge digital video equipment since 1991.
With their deep roots in uncompressed high-bandwidth digital video recording, and compact high-resolution digital video cameras, their experience leads their product designs and brings them into custom projects ranging from deep-sea to outer space.
Website: http://www.ioindustries.com
The Victorem™ family of video cameras combine high-quality Sony CMOS image sensors with high-throughput video interfaces such as CoaXPress and 12G-SDI. These cameras produce our best-quality images with lowest noise, in very small form factors with low power consumption.
The Flare™ family of video cameras are useful for high-resolution inspection and high-speed capture. These cameras use advanced global shutter CMOS sensors with high dynamic range.
Teledyne Lumenera,headquartered in Ottawa, Canada, is a leading developer and manufacturer of high performance digital cameras and custom/OEM solutions. Lumenera cameras are used worldwide in a wide range of industrial, microscopy, surveillance, and astro applications.
Lumenera’s solutions provide unique combinations of speed, resolution and sensitivity to satisfy the most demanding digital imaging requirements. The company’s core competencies include digital bus technologies such as USB 3.0, USB 2.0, HDMI, Ethernet and GigE as well as the integration of CMOS and CCD sensors.
Teledyne Lumenera leverages its leading edge technology to provide customized design services,continuous innovation and licensing options to OEM partners.
Website: https://www.lumenera.com
Lumenera offers a wide range of industrial cameras based on CCD and CMOS sensors, providing a variety of unique camera features to satisfy your imaging applications.
Lumenera cameras leverage the most used interfaces, to ensure that your images get from the camera to your computer using the method that makes the most sense for your application, none of which require a costly and complex frame grabber.
Lumenera cameras feature a standard GPIO connector for external synchronization of lighting and peripheral device control. Lumenera Industrial Cameras
Mightex Systems, with operations based in Toronto, Canada, and in the Silicon Valley, California, is a leading supplier of photonic products and services for a broad spectrum of applications including industrial imaging, bio-photonic solutions, LED illumination, machine vision, life & health sciences, and industrial test & measurement etc.
Website: https://www.mightexsystems.com
PixeLINK® is a global provider of industrial cameras for the machine vision and life sciences markets. Since 1992, PixeLINK® has designed, manufactured and supported the hardware and software requirements of machine vision, OEM and microscopy customers around the world. Offering unmatched customer support and service, PixeLINK® designs and manufactures reliable industrial cameras and microscope cameras for any machine vision project or microscopy application.
Based in Ottawa, Canada, PixeLINK® combines reliable industrial camera hardware with industry-leading software to offer unmatched off-the-shelf, OEM and custom industrial imaging solutions to customers.
Website: https://pixelink.com
Pixelink offers a wide range of high-performance industrial cameras and custom OEM imaging solutions to meet your most demanding application requirements.
They have expertise in CMOS and CCD sensor technology and offer in-house mechanical, software and firmware design.
Choose from USB 3.0, USB 2.0, GigE and FireWire interfaces.
Ximea, headquartered in Münster Germany, was created by the group of industry leading Imaging and Vision veterans originating from SOFTHARD companies.
XIMEA has defined its mission as the development of cameras at the forefront of machine vision and imaging, spearheading the advancements of research. This resulted in remarkable product lines like xiQ – USB3 Vision cameras, xiC – USB 3.1 with Sony CMOS, xiMU – Subminiature camera and xiRAY – X-ray cameras. Breakthroughs followed with first PCI Express camera, smallest Hyperspectral cameras in the world, Embedded vision platform or original Thunderbolt™ cameras. Utilizing the exceptional 64 Gbit/s speed of PCIe interface new models emerge, suitable for Multi-camera setups or with enhanced sensitivity using sCMOS sensors.
Website: https://www.ximea.com
(1) USB 3.0 Micro-B connector version, for USB Type-C version inquire at info@ximea.com
*Pregius is a Trademark of Sony Corporation
B/W model | Color model | Sensor | Resolution | Pixel µm | ADC bits | Frames per sec(1) | DR dB | Optical size | Power Watt |
---|---|---|---|---|---|---|---|---|---|
MC023MG-SY | MC023CG-SY | Sony IMX174 | 1936 x 1216 | 5.86 | 12/10 | 165 fps | 71.7 | 1/1.2″ | 2.4 |
MC031MG-SY | MC031CG-SY | Sony IMX252 | 2064 x 1544 | 3.45 | 12/10/8 | 122 fps | 70.9 | 1/1.8″ | 2.75 |
MC050MG-SY | MC050CG-SY | Sony IMX250 | 2464 x 2056 | 3.45 | 12/10/8 | 76 fps | 70.8 | 2/3″ | 2.85 |
MC089MG-SY | MC089CG-SY | Sony IMX255 | 4112 x 2176 | 3.45 | 12/10/8 | 43 fps | 70.5 | 16.1 | 3.25 |
MC124MG-SY | MC124CG-SY | Sony IMX253 | 4112 x 3008 | 3.45 | 12/10/8 | 31 fps | 70.4 | 17.6 | 3.25 |
(1) Maximum frame rates measured at 8 bits per pixel RAW data in free run mode.
(1) C mount version, without lens and cooling
B/W model | Color model | Sensor | Resolution | Pixel µm | ADC bits | FWC | Power Watt | DR dB(2) | Frames per sec(1) |
---|---|---|---|---|---|---|---|---|---|
MD028MU-SY | MD028CU-SY | SONY ICX674 | 1934 x 1456, 2.8 MP | 4.54 | 8,10,12,14 | 20000 | 3.6 W | 71.1 | 57 |
MD061MU-SY | MD061CU-SY | SONY ICX694 | 2754 x 2204, 6.1 MP | 4.54 | 8,10,12,14 | 19500 | 3.9 W | 71.8 | 28.4 |
MD091MU-SY | MD091CU-SY | SONY ICX814 | 3384 x 2708, 9.1 MP | 3.69 | 8,10,12,14 | 12000 | 4.2 W | 68.4 | 20 |
MD120MU-SY | MD120CU-SY | SONY ICX834 | 4242 x 2830, 12 MP | 3.1 | 8,10,12,14 | 10000 | 4.8 W | 63.1 | 15.3 |
(1) Maximum frame rates measured at 52 MHz, 4 taps, RAW 14 bits; +20% in overclocked mode, 12bit packed (2) 26 MHz readout frequency
(1) C mount version, without lens and cooling
B/W model | Color model | IR extended model (2) | Sensor | Resolution | Pixel µm | ADC bits | Frames per sec (1) | DR dB | Optical size | Power Watt |
---|---|---|---|---|---|---|---|---|---|---|
MQ003MG-CM | MQ003CG-CM | – | CMOSIS CMV300 | 648 x 488 | 7.4 | 12 | 500 fps | 60 | 1/3″ | 1.6 |
MQ013MG-E2 | MQ013CG-E2 | MQ013RG-E2 | e2V EV76C560 | 1280 x 1024 | 5.3 | 10 | 60 fps | 60 | 1/1.8″ | 0.9 |
MQ013MG-ON | MQ013CG-ON | MQ013RG-ON | ON Semiconductor PYTHON 1300 | 1280 x 1024 | 4.8 | 10 | 210 fps | 56 | 1/2″ | 1.4 |
MQ022MG-CM | MQ022CG-CM | MQ022RG-CM | CMOSIS CMV2000 | 2048 x 1088 | 5.5 | 10 | 170 fps* | 60 | 2/3″ | 1.6 |
MQ042MG-CM | MQ042CG-CM | MQ042RG-CM | CMOSIS CMV4000 | 2048 x 2048 | 5.5 | 10 | 90 fps* | 60 | 1″ | 1.6 |
(1) Maximum frame rates measured at 8 bits per pixel raw data in free run mode. Python 1300 model – with Zero ROT feature enabled.
(2) NIR model is based on EV76C661 sensor from e2V, also called Ruby and Near Infrared sensors from CMOSIS
(1) EF mount version of xiB, without lens and cooling
Model | Sensor | Resolution | Pixel µm | ADC bits | FWC e- | Sensor Diagonal | Power Watt | DR dB | Frames per sec (1) |
---|---|---|---|---|---|---|---|---|---|
CB120MG-CM | CMOSIS CMV12000 | 4096 x 3072, 12 MP | 5.5 | 8,10,12 | 13500 | 28 mm | 8 W | 60 | 133, 103, 86 |
CB120CG-CM | CMOSIS CMV12000 | 4096 x 3072, 12 MP | 5.5 | 8,10,12 | 13500 | 28 mm | 8 W | 60 | 133, 103, 86 |
CB200MG-CM | CMOSIS CMV20000 | 5120 x 3840, 20 MP | 6.4 | 12 | 15000 | 41 mm | 6 W | 66 | 33 |
CB200CG-CM | CMOSIS CMV20000 | 5120 x 3840, 20 MP | 6.4 | 12 | 15000 | 41 mm | 6 W | 66 | 33 |
CB500MG-CM | CMOSIS CMV50000 | 7920 x 6004, 48 MP | 4.6 | 12 | 16000 | 45 mm | 9 W | 64 | 30, 26, 22 |
CB500CG-CM | CMOSIS CMV50000 | 7920 x 6004, 48 MP | 4.6 | 12 | 16000 | 45 mm | 9 W | 64 | 30, 26, 22 |
(1) Full resolution at RAW 8 bits, 10 bits and 12 bits; Server computers with bigger PCIe TLP packet size can increase the throughput by additional 10%
Model | Sensor | Resolution | Pixel µm | ADC bits | FWC e- | Sensor Diagonal | Power Watt | DR dB | Frames per sec (1) |
---|---|---|---|---|---|---|---|---|---|
CB013MG-LX-X8G3 | LUX13HSM | 1280 x 864, 1.1 MP | 13.7 | 10 | 20000 | 21.1 mm | 17 W | 60 | 3600+ |
CB013CG-LX-X8G3 | LUX13HSC | 1280 x 864, 1.1 MP | 13.7 | 10 | 20000 | 21.1 mm | 17 W | 60 | 3600+ |
CB019MG-LX-X8G3 | LUX19HSM | 1920 x 1080, 2 MP | 10 | 10 | 15000 | 22 mm | 17 W | 60 | 2200+ |
CB019CG-LX-X8G3 | LUX19HSC | 1920 x 1080, 2 MP | 10 | 10 | 15000 | 22 mm | 17 W | 60 | 2200+ |
CB120MG-CM-X8G3 | CMOSIS CMV12000 | 4096 x 3072, 12 MP | 5.5 | 8, 10, 12 | 13500 | 28 mm | 17 W | 60 | 330, 300, 130 |
CB120CG-CM-X8G3 | CMOSIS CMV12000 | 4096 x 3072, 12 MP | 5.5 | 8, 10, 12 | 13500 | 28 mm | 17 W | 60 | 330, 300, 130 |
CB160MG-LX-X8G3 | LUX160M | 4704 x 3424, 16 MP | 3.9 | 10 | 10000 | 22.6 mm | 17 W | 60 | 300+ |
CB160CG-LX-X8G3 | LUX160C | 4704 x 3424, 16 MP | 3.9 | 10 | 10000 | 22.6 mm | 17 W | 60 | 300+ |
CB262MG-GP-X8G3 | Gpixel GMAX0505 | 5120 x 5120, 26 MP | 2.5 | 10, 12 | 6500 | 18.1 mm | 14 W | 63 | 150, 40 |
CB262CG-GP-X8G3 | Gpixel GMAX0505 | 5120 x 5120, 26 MP | 2.5 | 10, 12 | 6500 | 18.1 mm | 14 W | 63 | 150, 40 |
CB654MG-GP-X8G3 | Gpixel GMAX3265 | 9344 x 7000, 65 MP | 3.2 | 10, 12 | 9200 | 37.4 mm | 17 W | 64 | 71, 31 |
CB654CG-GP-X8G3 | Gpixel GMAX3265 | 9344 x 7000, 65 MP | 3.2 | 10, 12 | 9200 | 37.4 mm | 17 W | 64 | 71, 31 |
(1) Full resolution at RAW 8 bits, 10 bits and 12 bits; Server computers with bigger PCIe TLP packet size can increase the throughput by additional 10%.
(1) C-mount version, without lens and mounting bracket
Model | Sensor Type | Spectral range [nm] | Spectral Bands | Scans/Cubes per sec | Spatial resolution |
---|---|---|---|---|---|
MQ022HG-IM-LS150-VISNIR | Linescan | 470 – 900 1) | 150+ | up to 850 lines/sec | 2048 x 5 2) |
MQ022HG-IM-SM4X4-VIS | Snapshot Mosaic | 470 – 630 | 16 | up to 170 cubes/sec | 512 x 272 (4×4) 3) |
MQ022HG-IM-SM4X4-REDNIR | Snapshot Mosaic | 600 – 860 | 16 | up to 170 cubes/sec | 512 x 272 (4×4) 3) |
MQ022HG-IM-SM5X5-NIR | Snapshot Mosaic | 655 – 975 4) | 25 | up to 170 cubes/sec | 409 x 217 (5×5) 3) |
Note 1: in 3 nm steps,
Note 2: There is no spatial resolution in case of Linescan sensors. Width is 2048 and 8 or 5 are number of lines.
Note 3: There is no typical value, these are Approximate numbers of pixels. The original sensor resolution can be interpolated.
Note 4: Generation 2 of the sensor. High reproducibility of the results – distances between the peaks are almost equidistant, position of the peaks differ from sensor to sensor by only +/- 1-2 nm, let’s talk about your requirements