Imaging Products And Services

61. sCMOS Camera With Streaming via 10G FOL: pco.edge 4.2 (10G FOL) 8/30/2019

    The pco.edge 4.2 sCMOS camera operates with streaming via a 10G FOL (Camera Link HS). It allows for direct processing of large data transfers on a computer. This high-performance data interface makes it easy to securely bridge distances of more than 10 km.

62. Compact Back Illuminated sCMOS Camera In UV: pco.edge 4.2 bi UV Datasheet 8/30/2019

    The pco.edge 4.2 bi UV is a compact, cooled, back illuminated sCMOS camera designed to work inside the ultraviolet (UV) wavelengths. An adjustable cooling system allows the use of air or water to cool the sensor down to -25 °C where the dark current is reduced to 0.2 e-/pixel/s.

63. Compact Back Illuminated sCMOS Camera In UV: pco.edge 4.2 bi UV 8/30/2019

    The pco.edge 4.2 bi UV is a compact, cooled, back illuminated sCMOS camera designed to work inside the ultraviolet (UV) wavelengths. A specialized input window inside the camera achieves high QE within the UV range. Based on the compact pco.edge series with back illuminated sensor technology, this camera is perfect for demanding lighting conditions, even without active cooling.

64. Compact Back Illuminated sCMOS Camera In UV: pco.panda 4.2 bi UV Datasheet 8/30/2019

    The pco.panda 4.2 bi UV is a compact, back illuminated sCMOS camera designed to work inside the ultraviolet (UV) wavelengths. A specialized input window inside the camera achieves high QE within the UV range. Based on the compact pco.panda series with back illuminated sensor technology, this camera is perfect for demanding lighting conditions, even without active cooling.

65. Compact Back Illuminated sCMOS Camera In UV: pco.panda 4.2 bi UV 8/30/2019

    The pco.panda 4.2 bi UV is a compact, back illuminated sCMOS camera designed to work inside the ultraviolet (UV) wavelengths. A specialized input window inside the camera achieves high QE within the UV range. Based on the compact pco.panda series with back illuminated sensor technology, this camera is perfect for demanding lighting conditions, even without active cooling.

66. High Resolution Beam Profiling Camera With USB 3.0 Interface For CW And Pulsed Lasers: Ophir® SP920 7/30/2019

    The Ophir® SP920 USB 3.0 Silicon CCD High Resolution Beam Profiling Camera is designed to accurately capture and analyze wavelengths from 190 nm – 1100 nm, with enhanced sensitivity at 1070 nm. The camera features a wide dynamic range, excellent signal to noise ratio, USB 3.0 interface, and BeamGage® beam analysis software. It is ideal for measuring CW and pulsed laser profiles in such high-speed applications as medical imaging, microscopy, or micromachining.

67. World's Fastest InGaAs Linescan Cameras: Manx SQ Series Datasheet 7/17/2019

    The Manx SQ series comprises the world’s fasted InGaAs linescan cameras with line rates of 260 kHz for high speed and quality linescan imaging. With up to 2048 pixel resolution, excellent dynamic range, and the lowest noise performance record for a 2048 pixel SWIR line camera, this imager is ideal for silicon wafer inspection, TFT screen inspection, food and agricultural produce sorting, and other industrial applications.

68. World's Fastest InGaAs Linescan Cameras: Manx SQ Series 7/17/2019

    Xenics' Manx SQ series offers line rates of 260 kHz for high speed and quality linescan imaging. With up to 2048 pixel resolution, excellent dynamic range, and the lowest noise performance record for a 2048 pixel SWIR line camera, this imager is ideal for silicon wafer inspection, TFT screen inspection, food and agricultural produce sorting, and other industrial applications.

69. High-Speed Line-Scan Cameras Brochure 5/16/2019

    Xenics offers a line of Lynx SWIR Line-Scan Cameras featuring excellent sensitivity for applications involving spectroscopy, semiconductor inspection, OCT (optical coherence tomography), non-destructive testing, line scan imaging, food inspection, and non-contact thermography of hot objects. Two different configurations are available (CL and GigE) with varying pixel resolutions.

70. Improving Additive Manufacturing With The Help Of Infrared 5/9/2019

    Additive manufacturing technologies create components directly from a computer model, adding material only where needed. This app note discusses how infrared cameras can help manufacturers find systematic problems and determine the changes needed to maintain product quality.