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Photonfocus CMOS Cameras
UV CMOS Camera

UV CMOS Camera

model number: MV4-D1280U-H01-GT

This new UV camera with its high-sensitivity CMOS sensor and Global Shutter technology sets new standards for precise image acquisition without the image shearing effect usually found in rolling shutter UV cameras.

MV4

MV4

model number: MV4

The new MV4 camera platform features a new sensor, LUX 1310 from Luxima, with GigE and 10 GigE Interface.

The global shutter high speed camera stands out with its high frame rates and high sensitivity. The camera achieves 934 fps in full resolution over the 10 GigE interface.

Camera Models:
MV4-D1280-L01-G2 (GigE)
MV4-D1280-L01-GT (10GigE)
MV4-D1280-L01-FB (10GigE Fiber)
Photonfocus cameras are supported by the Matrox Imaging Library.

3D Laser Triangulation Cameras
MV-D1024E-3D01-160-CL

MV-D1024E-3D01-160-CL

model number: MV-D1024E-3D01-160-CL

The CMOS camera MV-D1024E-3D01-160-CL was developed for laser triangulation of highly reflective materials. The Photonfocus CMOS sensor A1024B with a full well capacity (FWC) of 200 ke- optimized for high dynamic range applications and a high signal to noise ratio (SNR) was combined with a robust algorithm for line determination.

The laser line detection algorithm is able to compute the peak position of a laser line with sub-pixel accuracy. Thus, the height profile of an object gets computed within the camera, making additional calculations in the PC needless.

MV1-D1024E-3D02-160-G2-8

MV1-D1024E-3D02-160-G2-8

model number: MV1-D1024E-3D02-160-G2-8

The CMOS camera MV1-D1024E-3D02-160-G2 was developed for laser triangulation of highly reflective materials. The Photonfocus CMOS sensor A1024B with a full well capacity (FWC) of 200 ke- optimized for high dynamic range applications and a high signal to noise ratio (SNR) was combined with a robust algorithm for line determination.

The laser line detection algorithm is able to compute the peak position of a laser line with sub-pixel accuracy. Thus, the height profile of an object gets computed within the camera, making additional calculations in the PC needless.

MV1-D1280-L01-3D05-1280-G2

MV1-D1280-L01-3D05-1280-G2

model number: MV1-D1280-L01-3D05-1280-G2

The 3D CMOS camera MV1-D1280-L01-3D05-1280-G2 was developed for laser triangulation systems with high triangulation rates. The LUXIMA LUX1310 CMOS image sensor is optimized for high speed applications and is combined in this camera with a robust algorithm for line determination.

The camera includes the detection one laser line. The laser line detection algorithm is able to compute the peak position of a laser line with sub-pixel accuracy. Thus, the height profile of an object gets computed within the camera, making additional calculations in the PC needless.

MV1-D1312-3D02-160-G2

MV1-D1312-3D02-160-G2

model number: MV1-D1312-3D02-160-G2

The CMOS camera MV1-D1312-3D02-160-G2 was developed for laser triangulation of highly reflective materials. The Photonfocus CMOS sensor A1312 with a full well capacity (FWC) of 90 ke- optimized for high dynamic range applications and a high signal to noise ratio (SNR) was combined with a robust algorithm for line determination.

The laser line detection algorithm is able to compute the peak position of a laser line with sub-pixel accuracy. Thus, the height profile of an object gets computed within the camera, making additional calculations in the PC needless.

MV1-D2048-3D04-760-G2

MV1-D2048-3D04-760-G2

model number: MV1-D2048-3D04-760-G2

The 3D CMOS camera MV1-D2048-3D04-760-G2 was developed for laser triangulation systems with high scanning rates. The CMOSIS CMV4000 CMOS image sensor is optimized for high sensitivity and is combined in this camera with a robust algorithm for line determination.

The camera includes the detection of up to two laser lines. The laser line detection algorithm is able to compute the peak position of a laser line with sub-pixel accuracy. Thus, the height profile of an object gets computed within the camera, making additional calculations in the PC needless.

MV1-D2048x1088-3D03-760-G2

MV1-D2048x1088-3D03-760-G2

model number: MV1-D2048x1088-3D03-760-G2

The 3D CMOS camera MV1-D2048x1088-3D03-760-G2 was developed for laser triangulation systems with high triangulation rates. The CMOSIS CMV2000 CMOS image sensor is optimized for high sensitivity and is combined in this camera with a robust algorithm for line determination.

The camera includes the detection of up to two laser lines. The laser line detection algorithm is able to compute the peak position of a laser line with sub-pixel accuracy. Thus, the height profile of an object gets computed within the camera, making additional calculations in the PC needless.

MV1-D2048x1088-3D03-760-G2-S10

MV1-D2048x1088-3D03-760-G2-S10

model number: MV1-D2048x1088-3D03-760-G2-S10

The 3D CMOS camera MV1-D2048x1088-3D03-760-G2-S10 with Scheimpflug adapter was developed for Laser triangulation systems with high triangulation rates. The CMOSIS CMV2000 CMOS image sensor is optimized for high sensitivity and is combined in this camera with a robust algorithm for line determination.

The camera includes the detection of up to two laser lines. The laser line detection algorithm is able to compute the peak position of a laser line with sub-pixel accuracy. Thus, the height profile of an object gets computed within the camera, making additional calculations in the PC needless.

MV1-D2048x1088-3D06-760-G2

MV1-D2048x1088-3D06-760-G2

model number: MV1-D2048x1088-3D06-760-G2

The 3D CMOS camera MV1-D2048x1088-3D06-760-G2 was developed for laser triangulation systems with high triangulation rates. The CMOSIS CMV2000 CMOS image sensor V3 is optimized for high sensitivity and is combined in this camera with a robust algorithm for line determination.

The camera includes the detection of a laser line. The laser line detection algorithm is able to compute the peak position of a laser line with sub-pixel accuracy. Thus, the height profile of an object gets computed within the camera, making additional calculations in the PC needless.

Hyperspectral Cameras
MV0-D2048x1088-C01-HS02-160-G2

MV0-D2048x1088-C01-HS02-160-G2

model number: MV0-D2048x1088-C01-HS02-160-G2

The MV0-D2048x1088-HS02-G2 camera deploys the IMEC snapshot mosaic CMV2K-SM5x5-NIR sensor which is based on the CMOSIS CMV2000 CMOS image sensor. The sensor has in the spectral region from 600nm to 975nm 25 pass bands in a 5 by 5 mosaic with a Full-Width Half-Maximum (FWHM) of 15nm. The spatial resolution of the sensor is 409 x 217 pixels per spectral band.

MV0-D2048x1088-C01-HS03-160-G2

MV0-D2048x1088-C01-HS03-160-G2

model number: MV0-D2048x1088-C01-HS03-160-G2

The MV0-D2048x1088-HS03-G2 camera deploys the IMEC snapshot mosaic CMV2K-SM4X4-470-630-VIS sensor which is based on the CMOSIS CMV2000 CMOS image sensor. The sensor has in the spectral region from 470nm to 630nm 16 pass bands in a 4 by 4 mosaic with a Full-Width Half-Maximum (FWHM) of 15nm. The spatial resolution of the sensor is 512 x 256 pixels per spectral band.

MV1-D2048x1088-HS01-96-G2

MV1-D2048x1088-HS01-96-G2

model number: MV1-D2048x1088-HS01-96-G2

The MV1-D2048x1088-HS01-G2 camera deploys the IMEC line scan wedge CMV2K-LS100-NIR sensor which is based on the CMOSIS CMV2000 CMOS image sensor. The sensor has in the spectral region from 600nm to 1000nm 100 pass bands with a Full-Width Half-Maximum (FWHM) of 10 - 12nm.

MV1-D2048x1088-HS02-96-G2

MV1-D2048x1088-HS02-96-G2

model number: MV1-D2048x1088-HS02-96-G2

The MV1-D2048x1088-HS02-G2 camera deploys the IMEC snapshot mosaic CMV2K-SM5x5-NIR sensor which is based on the CMOSIS CMV2000 CMOS image sensor. The sensor has in the spectral region from 600nm to 975nm 25 pass bands in a 5 by 5 mosaic with a Full-Width Half-Maximum (FWHM) of 15nm. The spatial resolution of the sensor is 409 x 217 pixels per spectral band.

MV1-D2048x1088-HS03-96-G2

MV1-D2048x1088-HS03-96-G2

model number: MV1-D2048x1088-HS03-96-G2

The MV1-D2048x1088-HS03-G2 camera deploys the IMEC snapshot mosaic CMV2K-SM4X4-470-630-VIS sensor which is based on the CMOSIS CMV2000 CMOS image sensor. The sensor has in the spectral region from 470nm to 630nm 16 pass bands in a 4 by 4 mosaic with a Full-Width Half-Maximum (FWHM) of 15nm. The spatial resolution of the sensor is 512 x 256 pixels per spectral band.

MV1-D2048x1088-HS04-96-G2

MV1-D2048x1088-HS04-96-G2

model number: MV1-D2048x1088-HS04-96-G2

The MV1-D2048x1088-HS04-G2 camera deploys the IMEC snapshot mosaic CMV2K-SM2X2 RGB+NIR sensor which is based on the CMOSIS CMV2000 CMOS image sensor. The sensor has 4 pass bands in a 2 by 2 mosaic. A narrow-band NIR imaging filter is combined with a standard RGB organic color filter including a NIR-cut filter. The spatial resolution of the sensor is 1024 x 544 pixels per spectral band.

MV1-D2048x1088-HS05-96-G2

MV1-D2048x1088-HS05-96-G2

model number: MV1-D2048x1088-HS05-96-G2

The MV1-D2048x1088-HS05-G2 camera deploys the IMEC line scan wedge CMV2K-LS150-VNIR sensor which is based on the CMOSIS CMV2000 CMOS image sensor. The sensor has in the spectral region from 470nm to 900nm 150 pass bands with a Full-Width Half-Maximum (FWHM) of 10 - 12nm.

SWIR Cameras
SWIR Cameras

SWIR Cameras

model number: SWIR Cameras

The Photonfocus SWIR camera is based on the Sofradir SNAKE InGaAs image sensor with CMOS read out. This InGaAs sensor, with a full well capacity (FWC) of 1.44 Me-, is optimized for high dynamic range applications and a high signal-to-noise ratio (SNR).

This camera focuses on demanding applications in industrial image processing in the spectral range from 900 to 1700nm. Due to the global shutter, even high-speed applications with exposure times in the µs-area are possible.

The SWIR camera is available with either a GigE or Camera Link interface.