USB3.0 CMOS

  • BUC3D-500C C-mount USB3.0 CMOS Microscope Camera (MT9P006 Sensor, 5.1MP)

    BUC3D-500C C-mount USB3.0 CMOS Microscope Camera (MT9P006 Sensor, 5.1MP)

    BUC3D series cameras are ultra-high performance USB3.0 CMOS cameras and they adopt ultra-high performance CMOS sensor as the image-picking device and USB3.0 is used as the data transfer interface.

    BUC3D series cameras hardware resolutions range from 5.0M to 10M and come with the CNC aluminum alloy compact housing.

    The BUC3D series cameras can be widely used in bright field light environment and microscope image capture and analysis with higher frame rate.

  • BUC5IC-400BM TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (GSENSE2020BSI Sensor, 4.2MP)

    BUC5IC-400BM TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (GSENSE2020BSI Sensor, 4.2MP)

    BUC5IC series camera adopts SONY Exmor or GSENSE with big pixel size or full-frame CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -40°C below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IC-400CM TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (GSENSE400BSI Sensor, 4.2MP)

    BUC5IC-400CM TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (GSENSE400BSI Sensor, 4.2MP)

    BUC5IC series camera adopts SONY Exmor or GSENSE with big pixel size or full-frame CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -40°C below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IC-400AM TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (GSENSE2020e Sensor, 4.2MP)

    BUC5IC-400AM TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (GSENSE2020e Sensor, 4.2MP)

    BUC5IC series camera adopts SONY Exmor or GSENSE with big pixel size or full-frame CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -40°C below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IC-2400AC TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (Sony IMX410 Sensor, 24MP)

    BUC5IC-2400AC TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (Sony IMX410 Sensor, 24MP)

    BUC5IC series camera adopts SONY Exmor or GSENSE with big pixel size or full-frame CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -40°C below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IC-6200AC TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (Sony IMX455 Sensor, 61MP)

    BUC5IC-6200AC TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (Sony IMX455 Sensor, 61MP)

    BUC5IC series camera adopts SONY Exmor or GSENSE with big pixel size or full-frame CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -40°C below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IC-6200AM TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (Sony IMX455 Sensor, 61MP)

    BUC5IC-6200AM TE-Cooling M52/C-mount USB3.0 CMOS Microscope Camera (Sony IMX455 Sensor, 61MP)

    BUC5IC series camera adopts SONY Exmor or GSENSE with big pixel size or full-frame CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -40°C below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IB-170M Cooled C-mount USB3.0 CMOS Microscope Camera (Sony IMX432 Sensor, 1.7MP)

    BUC5IB-170M Cooled C-mount USB3.0 CMOS Microscope Camera (Sony IMX432 Sensor, 1.7MP)

    BUC5IB series cameras have adopted SONY Exmor CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -42 degree below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IB-900C Cooled C-mount USB3.0 CMOS Microscope Camera (Sony IMX533 Sensor, 9.0MP)

    BUC5IB-900C Cooled C-mount USB3.0 CMOS Microscope Camera (Sony IMX533 Sensor, 9.0MP)

    BUC5IB series cameras have adopted SONY Exmor CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -42 degree below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IB-1030M Cooled C-mount USB3.0 CMOS Microscope Camera (Sony IMX492 Sensor, 10.3MP)

    BUC5IB-1030M Cooled C-mount USB3.0 CMOS Microscope Camera (Sony IMX492 Sensor, 10.3MP)

    BUC5IB series cameras have adopted SONY Exmor CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -42 degree below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IB-1030C Cooled C-mount USB3.0 CMOS Microscope Camera (Sony IMX294 Sensor, 10.3MP)

    BUC5IB-1030C Cooled C-mount USB3.0 CMOS Microscope Camera (Sony IMX294 Sensor, 10.3MP)

    BUC5IB series cameras have adopted SONY Exmor CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -42 degree below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.

  • BUC5IB-1600M Cooled C-mount USB3.0 CMOS Microscope Camera (Panasonic MN34230ALJ Sensor, 16.0MP)

    BUC5IB-1600M Cooled C-mount USB3.0 CMOS Microscope Camera (Panasonic MN34230ALJ Sensor, 16.0MP)

    BUC5IB series cameras have adopted SONY Exmor CMOS sensor as the image-picking device and USB3.0 is used as the transfer interface to increase the frame rate.

    With the two-stage peltier cooling sensor chip to -42 degree below ambient temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem. Electric fan is used to increase the heat radiation speed.