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  • Offer Profile
  • Xenics designs and markets infrared imagers, cores and cameras of best-in-class image quality to support innovative R&D, industrial automation, machine vision, process control and high-end security applications.
Product Portfolio
  • Markets We Serve

      • Machine Vision

      • Reliability and accuuracy are crusial elements in increasing productivity or quality in industrial machine vision today.
      • Scientific and Advanced Research

      • Infrared technology finds use in scientific studies to prove new theories or to develop systems aimed at improving the lives of mankind.
      • Transportation

      • Clear visibility is important in any transport operation. Infrared (IR) imaging enhances vision capabilities during low-light, or unfavourable weather conditions such as snow, rain and fog.
      • Process Monitoring

      • Monitoring and control tool ensure critical infrastructure of a business are working as intended. Timely identification of failures can save valuable time and avoid hefty costs due to damages.
      • Safety and Security

      • Infrared imaging is a vital technology to safeguard a country's infrastructure. Protection against threats is complex because of its diversity.
      • Medical

      • The best-known biomedical infrared application is likely fever detection at airports. Temperature readings obtained trough thermal LWIR cameras help reduce the spread of infectious diseases.
    • Solutions

        • Short-Wave Infrared (SWIR)

        • The Short-Wave Infrared (SWIR) part of the infrared spectrum offers unique capabilities for various applications in machine vision, R&D, medical, security, process control and transportation. SWIR imagers typically use reflected light, i.e., similar with the shorter wavelengths of the visible spectrum, and are often complementary to LWIR imagers.

           

        • Long-Wave Infrared (LWIR)

        • The Long-Wave Infrared (LWIR) part of the infrared spectrum covers the 8 to 14 µm wavelength band. LWIR cameras are thermal imagers and typically find application in security, process control and medical markets.

          Xenics LWIR cameras and camera cores are based on uncooled microbolometer detectors.

      • Short-Wave Infrared (SWIR)

      • The Short-Wave Infrared (SWIR) part of the infrared spectrum offers unique capabilities for various applications in machine vision, R&D, medical, security, process control and transportation. SWIR imagers typically use reflected light, i.e., similar with the shorter wavelengths of the visible spectrum, and are often complementary to LWIR imagers.

        Most of Xenics SWIR line-scan and area detectors are developed in-house and based on a material called InGaAs (Indium Gallium Arsenide). These detectors are sensitive in the wavelength range from 900 to 1700 nm.

        Benefits & Features

        • Compact and industry-proven camera design
        • High resolution SWIR imaging
        • Advanced on-board image processing performance
        • GenICam complaint
        • Flexible optical mount and lens options

         

          • Wildcat+ Series

          • The Wildcat+ series is based upon a state-of-the-art uncooled InGaAs detector with various pixels and 5 -20 μm pixel pitch. The cameras offers superior, high-resolution SWIR imaging capabilities, comes in a versatile and industry-proven Wildcat camera package (GenICam compliant) and offers advanced on-board image processing. High-resolution, SWIR InGaAs camera

            Benefits & Features

            • Compact and industry-proven camera design
            • High resolution SWIR imaging
            • Advanced on-board image processing performance
            • GenICam complaint
            • Flexible optical mount and lens options
          • Bobcat+ Series

          • Small, high performance InGaAs camera with GigE interface

            The Bobcat+ series is based on an in-house developed, temperature stabilised InGaAs detector with various pixel resolution.

            The Bobcat+ cameras come with GigE Vision interface and offer high frame rates up to 400 Hz. Moreover, a vSWIR version is also available.

            The Bobcat+ series targets machine vision, safety and security, scientific research, and process monitoring.

            Benefits & Features

            • Flexible and easy-to-use
            • GigE Vision interface
            • Low dark current
            • SWIR or vSWIR
            • High frame rate of 400 Hz
            • IWR or ITR read out

          • Manx SQ/R-Series

          • Based on a brand new, in-house developed InGaAs linear detector, the Manx square (SQ) is a high-performance short-wave infrared (SWIR) camera providing high speed and quality line-scan imaging. At unprecedented line rates of up to 256 kHz (or 128 kHz), the Manx square (SQ) stands as the fastest line-scan InGaAs camera available in the world.

            Based on a brand new, in-house developed InGaAs linear detector, the Manx rectangular (R) is a high-performance short-wave infrared (SWIR) camera providing high speed and quality line-scan imaging. At unprecedented line rates of up to 256 kHz (or 128 kHz), the Manx rectangular (R) stands as the fastest line-scan InGaAs camera available in the world.

            Silicon wafer inspection, TFT screen inspection, food and agricultural produce sorting are some industrial applications that would benefit from this new line of ultra fast linear SWIR cameras.

            Benefits & Features

            • World’s fastest SWIR line-scan imaging up to 256 kHz
            • High resolution
            • Low noise, low dark current
            • CoaXPress interfacing for reliable streaming of data
            • Versatility with 4 gain modes
            • Optional GigE convertor available

             

          • Cheetah Series

          • World’s fastest InGaAs camera with high image resolution

            The Cheetah 640 series is based on a cooled, in-house developed InGaAs detector with a 640 x 512 pixel resolution.

            The Cheetah 640 camera with single-stage TE-cooled detector offers high frame rates of either 400 Hz, 800 Hz or 1700 Hz while the version with three-stage TE-cooled detector offers a frame rate of up to 110 Hz. The camera comes with a CameraLink interface.

            A visible short-wave infrared (vSWIR) option is available for extension into the visible wavelength band.

            Benefits & Features

            • World’s fastest SWIR area-scan imaging up to 1700 Hz
            • vSWIR optional
            • Low dark current
            • Reliable data transfer via CameraLink

          • Lynx SQ Series

          • Small, uncooled InGaAs line-scan camera with square pixels

            The Lynx square (SQ) series, based on an in-house developed linear InGaAs detector, offer affordable short-wave infrared (SWIR) line-scan imagers.

            The Lynx SQ cameras are able to image line rates up to 40 kHz for demanding machine vision applications. The cameras come with an industry-standard CameraLink or GigE Vision interface.

            Depending on your imaging requirements, three resolutions of 512, 1024, or 2048 pixels are offered.

            Benefits & Features
            • High speed line-scan imaging up to 40 kHz
            • High resolution
            • CameraLink or GigE Vision interfacing

          • Xeva 320 Series

          • Versatile InGaAs camera with various cooling options

            The Xeva 320 series is based on an in-house manufactured InGaAs detector with a 320 x 256 pixel resolution.

            The Xeva 320 cameras offer frame rates of more than 340 Hz. The camera comes with a CameraLink or USB interface.

            A visible enhanced short-wave infrared (vSWIR) option for extended wavelength response into the visible band is available.

            Benefits & Features
            • vSWIR optional
            • Sensor cooling available for increased exposure time range
            • Low dark current
            • USB and/or CameraLink interfacing options
            • Versatility with gain modes

          • XSL SQ Series

          • Small InGaAs line-scan camera module with square pixels

            The XSL square (SQ) series, based on an in-house developed linear detector, offer affordable short-wave infrared (SWIR) line-scan images.

            The XSL SQ camera modules are able to image line rates up to 40 kHz. The modules come with an industry-standard CameraLink, GigE Vision or QTE Samtec interface.

            Depending on your imaging requirements, three resolutions of 512, 1024 or 2048 pixels are offered.

            Benefits & Features
            • High speed line-scan imaging up to 40 kHz
            • High resolution
            • CameraLink, GigE Vision or QTE Samtec interfacing

          • XSW 320/ Gated Series

          • Small, high performance InGaAs camera module

            The XSW series is based on an in-house developed, temperature stabilised InGaAs detector with a 320 x 256 pixel resolution.

            The XSW 320 camera modules are offered with frame rates of up to 400 Hz.

            The camera modules come with either a CameraLink, GigE Vision or QTE Samtec interface and features low weight and power.

            Benefits & Features
            • Flexible and easy-to-use
            • CameraLink, GigE Vision, QTE Samtec interfacing options
            • Low dark current
            • Small SWIR area-scan camera module

          • XSW 640 Series

          • Small, high performance InGaAs camera module with high image resolution

            The XSW 640 series is based on an in-house developed, temperature stabilised InGaAs detector with a 640 x 512 pixel resolution.

            The XSW 640 modules are offered with frame rate of up to 100 Hz. The module comes with either a CameraLink, GigE Vision or QTE Samtec interface and features low weight and power.

            We offer a visible short-wave infrared (vSWIR) option for extended wavelength into the visible band.

            Benefits & Features
            • vSWIR optional
            • Low noise, low dark current
            • CameraLink, GigE Vision or QTE Samtec interfacing options
            • Versatility with gain modes

        • Long-Wave Infrared (LWIR)

        • The Long-Wave Infrared (LWIR) part of the infrared spectrum covers the 8 to 14 µm wavelength band. LWIR cameras are thermal imagers and typically find application in security, process control and medical markets.

          Xenics LWIR cameras and camera cores are based on uncooled microbolometer detectors.

            • Dione S 1024 CAM Series

            • Ultra-compact thermal imaging core

              The Dione S 1024 CAM series is based upon the Dione 1024 OEM thermal imaging core with 1024×768 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 80 Hz.

              Dione S 1024 CAM is a LWIR uncooled thermal imaging SWaP module with housing supporting M34/M45 lens (optional).

              Dione S 1024 CAM series benefit from Xenics image enhancement for advanced image processing while keeping power consumption low. Moreover, GenICam compliance and the availability of multiple lenses provide a high level of tunability for optimal integration into many systems.

            • Dione 1024 CAM Series

            • Ultra-compact thermal imaging core

              The Dione 1024 CAM series is based upon the Dione 1024 OEM thermal imaging core with 1024×768 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 80 Hz.

              Dione 1024 CAM is a LWIR uncooled thermal imaging SWaP module with housing supporting M34/M45 lens (optional).

              Dione 1024 CAM series benefit from Xenics image enhancement for advanced image processing while keeping power consumption low. Moreover, GenICam compliance and the availability of multiple lenses (optional) provides a high level of tunability for optimal integration into many systems.

              The compact Dione 1024 CAM series find applications in safety and security, transportation and industrial process monitoring.

              Benefits and Features
              • Ultra-compact size, low weight and power (SWaP)
              • 1024×768 microbolometer detector with 12 μm pixel pitch
              • Frame rates up to 80 Hz
              • Detector NETD is less than 40 mK (available upon request) or 50 mK
              • Uncooled and shutterless

            • Dione 1024 OEM Series

            • Compact, industrial thermal imaging core

              The Dione 1024 OEM Series is based on a state-of-the-art detector with 1024×768 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 80 Hz. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.

              The cores are optimized for low SWaP (Size, Weight and Power). The overall size of the OEM core is 35x35x21.5 mm3 and the weight is 25 gr.

              All Dione 1024 versions have the same SAMTEC ST5 connector and are GenICam compliant.

              The compact Dione 1024 OEM series find application in safety & security, transportation and process monitoring.

              Benefits and Features
              • Ultra-compact size, low weight and power (SWaP)
              • 1024×768 microbolometer detector with 12 μm pixel pitch
              • Frame rates up to 80 Hz
              • Detector NETD is less than 40 mK (available upon request) or 50 mK
              • Uncooled and shutterless

            • Dione 320 OEM Series

            • Compact, industrial thermal imaging core

              The Dione 320 OEM is based on a state-of-the-art detector with a 320×240 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK.

              The cores are optimized for low SWaP (Size, Weight and Power). The overall size of the OEM core is 25 x 25 x 10 mm3 and weight is 6 gr. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.

              All Dione 320 versions have the same SAMTEC ST5 connector and are GenICam compliant.

              The compact Dione 320 OEM series find application in industrial machine vision, medical, scientific and advanced research, safety and security systems.

              Benefits & Features
              • State-of-the-art detector with 12 μm pitch
              • Industry leading SWaP (Size, Weight and Power)
              • GenICam compliant for easy integration
              • Shutterless operation
              • High level of tunability for optimal integration into many systems

            • Dione 320 CAM Series

            • Compact, industrial thermal camera

              The Dione 320 CAM series is based on an uncooled state-of-the-art 12 μm pitch detector with 320×240 pixels and NETD of less than 40 mK (available upon request) or 50 mK.

              The camera cores are optimized for low SWaP (Size, Weight, and Power). The Dione 320 CAM is both light weight and small. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.

              All Dione 320 versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione 320 CAM is a LWIR uncooled thermal imaging camera SWaP module with housing supporting M24/M34 lens (optional)

              The compact Dione 320 CAM series find applications in industrial machine vision, medical, scientific and advanced research, safety and security systems.

              Benefits & Features
              • State-of-the-art detector with 12 μm pitch
              • Industry leading SWaP (Size, Weight and Power)
              • GenICam compliant for easy integration
              • Shutterless operation
              • Availability of multiple lenses (optional) add flexibility to integration programs

            • Ceres V 1280 Series

            • Compact, high-resolution thermal camera

              The Ceres V 1280 is based upon the Dione 1280 OEM thermal imaging core with 1280×1024 pixels and 12 μm pixel pitch. The camera offers superior thermal imaging capabilities thanks to the state-of-the-art high-resolution microbolometer detector and on-board image processing.

              The Ceres V 1280 camera outputs full frame images at 60 Hz via either a CameraLink or GigE Vision interface – all GenICam compliant.

              The compact size, excellent image quality and GenICam compliant interfacing allow for easy integration in demanding industrial, scientific and security thermal imaging applications.

              The camera comes either in a no-lens configuration (camera only with M34x0.5 and M45x0.75 optical mount), or with four different HFOV (Horizontal Field-Of-View) options: 12, 16, 25, 48 or 71 degrees

              The high-resolution Ceres V 1280 series find application in industrial machine vision, scientific research, medical and security systems where a GenICam compliant interface is a strong requirement.

              Benefits & Features

              • Compact and high-resolution
              • Superior on-board image processing performance (optimized image quality)
              • GenICam compliant
              • Uncooled operation
              • Flexible optical mount and lens options

            • Ceres V 640 Series

            • Compact, industrial thermal camera

              The Ceres V 640 is based upon the Dione 640 OEM thermal imaging core with 640×480 pixels and 12 μm pixel pitch. The camera offers superior thermal imaging capabilities, thanks to the state-of-the-art microbolometer detector and on-board image processing.

              The Ceres V 640 camera outputs full frame images at 60 Hz via either a CameraLink or GigE Vision interface — all GenlCam compliant.

              The compact size, excellent image quality and GenlCam compliant interfacing allow for easy integration in demanding industrial, scientific and security thermal imaging applications.

              The camera comes either in a no-lens configuration (camera only with M24x0.5 and M34x0.5 optical mount), or with four different HFOV (Horizontal Field-Of-View) options: 8, 12, 24 or 50 degrees.

              Benefits & Features

              • Compact and high-resolution
              • Superior on-board image processing performance (optimized image quality)
              • GenICam compliant
              • Uncooled operation
              • Flexible optical mount and lens options

            • Ceres T 1280 Series

            • Compact, high-resolution thermographic camera

              The Ceres T 1280 series is based upon the Dione 1280 OEM thermal imaging core with 1280×1024 pixels and 12 μm pixel pitch. The camera offers superior on-board thermographic performance (accuracy, stability) in the temperature range up to 400°C.

              The Ceres T 1280 camera outputs full frame images at 60 Hz via either a CameraLink or GigE Vision interface.

              The compact size, excellent thermographic stability and accuracy, and GenICam compliant interfacing allow for easy integration in demanding industrial thermography applications. The camera comes with one HFOV (Horizontal Field-Of-View) option: 48 degrees.

              The compact Ceres T 1280 series find application in process monitoring, medical and scientific and advanced research.

              Benefits & Features

              • Compact size and high-resolution
              • Superior on-board thermographic performance (stability, accuracy)
              • GenICam compliant
              • Uncooled operation

            • Ceres T 640 Series

            • Compact, high-performance thermographic camera

              The Ceres T 640 series is based upon the Dione 640 OEM thermal imaging core with 640×480 pixels and 12 μm pixel pitch. The camera offers superior on-board thermographic performance (accuracy, stability) in the temperature range up to 400°C.

              The Ceres T 640 camera outputs full frame images at 60 Hz via either a CameraLink or GigE Vision interface.

              The compact size, excellent thermographic stability and accuracy, and GenICam compliant interfacing allow for easy integration in demanding industrial thermography applications. The camera comes with two different HFOV (Horizontal Field-Of-View) options: 24 and 50 degrees.

              The compact Ceres T 640 series find application in process monitoring, medical and scientific and advanced research.

            • Dione 1280 CAM Series

            • Ultra-compact, uncooled thermal imaging core

              The Dione 1280 CAM series is based on the Dione 1280 OEM thermal imaging core with 1280 x 1024 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 60 Hz.

              The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione 1280 CAM is both lightweight and small. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.

              Dione 1280 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M34/M45 lens (optional).

              The ultra-compact Dione 1280 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems.

            • Dione 1280 OEM Series

            • Ultra-compact, uncooled thermal imaging core

              The Dione 1280 OEM series is based on an uncooled 12 μm pitch microbolometer detector with a 1280 × 1024 resolution. The NETD is less than 40 mK (available upon request) or 50 mK. The cores are optimized for low SWaP (Size, Weight and Power). The overall size of the OEM core is 35 x 35 x 23.5 mm3 and weight is 27 gr. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low. All Dione 1280 versions have the same SAMTEC ST5 connector and are GenICam compliant.The ultra-compact Dione 1280 OEM series find application in safety and security systems, as well as in industrial thermal imaging systems.
            • Dione 640 CAM Series

            • Ultra-compact, uncooled thermal imaging core The Dione 640 CAM series is based on the Dione 640 OEM thermal imaging core with 640 x 480 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 60 Hz.

              The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione 640 CAM is both lightweight and small. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.

              All Dione 640 CAM versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione 640 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M24/M34 lens (optional).

              The ultra-compact Dione 640 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems.
            • Dione S 640 CAM Series

            • Ultra-compact, uncooled thermal imaging core The Dione S 640 CAM series is based on an uncooled 12 μm pitch microbolometer detector with a 640 × 480 resolution and NETD of less than 40 mK (available upon request) and 50 mK.

              The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione S 640 CAM is lightweight and small with mechanical shutter. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.

              All Dione S 640 versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione S 640 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M24/M34 lens (optional).

              The ultra-compact Dione S 640 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems
            • Gobi+ 640 Series

            • Small, high performance uncooled thermal camera The Gobi+ 640 series is based on an uncooled microbolometer detector with a 640 x 480 pixel resolution. The Gobi+ 640 offers frame rates up to 60 Hz and lower detector NETD options. The cameras come with either a CameraLink or GigE Vision interface.
            • XTM+ 640 Series

            • 1 Small, high performance uncooled thermal camera module The XTM+ 640 series is based on an uncooled microbolometer detector with a 640 x 480 pixel resolution. The XTM+ 640 offers frame rates up to 60 Hz and lower detector NETD options. The modules come with either a CameraLink, GigE Vision or QTE Samtec interface and feature low weight and power.