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  • Teledyne e2v Announces Full HD CMOS Image Sensor for Low-cost Machine Vision

    Teledyne e2v, a Teledyne Technologies [NYSE: TDY] company and global innovator of imaging solutions, announces the expansion of its Emerald family of image sensors with a new 2 Megapixel sensor. Emerald 2M is a new CMOS image sensor designed for cost-sensitive applications that require full HD resolution images of objects in motion, without distortion.

  • Teledyne e2v introduces its uniquely flexible high resolution ToF sensor for next generation 3D vision systems

    Grenoble, FRANCE, July 30, 2020 — Teledyne e2v, a Teledyne Technologies [NYSE: TDY] company and global innovator of imaging solutions, announces Hydra3D™, its new Time-of-Flight (ToF) CMOS image sensor, tailored for 3D detection and distance measurement.

  • Teledyne e2v announces new CMOS Sensor Family, targeted at 3D Laser Triangulation Applications

    GRENOBLE, France, 3 September, 2019 — Teledyne e2v, a Teledyne Technologies [NYSE: TDY] company and global innovator of imaging solutions, announces its Flash CMOS image sensor family, specifically tailored for 3D laser profiling/displacement applications and high speed, high resolution inspection.

  • March 31st Webinar: How innovations in CMOS image sensor technology are solving challenges in professional 3D sensing applications

    Learn what key improvements in CMOS sensors are driving advancements in 3D scanning, sensing and measurement.Gain insight into solving practical applications challenges with Hydra3D, our new Time of Flight CMOS image sensor, delivering flexible operation for multiple applications and reliable 3D detection of fast-moving scenes to enable real-time decision-making.

  • Warranty Information

    Teledyne Photometrics is focused on exceeding your expectations. When you purchase a Teledyne Photometrics camera, you have the confidence of knowing your purchase is backed by one of the industry’s leading Warranty Plans, and your camera meets the standards of our Product Quality Policy.

  • Super-Resolution Localization Microscopy

    Light microscopy techniques have been vital to our understanding of biological structures and systems since their invention in the late 16th century.

  • The Evolution Of Spinning Disk Confocal Microscopy

    The spinning disk confocal microscope (SDCM) is a revolutionary tool for imaging in the life sciences, observing samples ranging from single molecules to live cells, featuring high speed, 3D and multichannel acquisitions. Many experiments and researchers use SDCM imaging systems for their imaging, and the technology has become well established.

  • Hybrid Binning

    The Retiga E7 CMOS camera has hybrid binning capabilities, combining the best of CCD and CMOS technologies. In this article we discuss binning, the benefits of binning, and how the hybrid binning of the Retiga E7 CMOS results in increases in both speed and signal-to-noise ratio (SNR), thanks to careful electronic design across the sensor.

  • Live Cell Organelle Transport Dynamics

    Prof. Viki Allan is the leader of a group at the University of Manchester that studies cell dynamics, with a particular focus on intracellular transport and the endocytic pathway. Membrane organelles move around cells along microtubule tracks, driven by proteins such as kinesin and cytoplasmic dynein, and this movement of material within a cell is vital for cell function.

  • PrimeLocate

    There is currently a revolution in computational imaging, pairing the power of a cutting-edge scientific camera, such as the Prime Family of CMOS cameras from Teledyne Photometrics, with powerful graphics processors from the latest generation of GPUs. Machine learning, data processing, and the camera-PC interface are all going to help imaging evolve, through methods such as denoising and localization.

  • The Evolution Of Spinning Disk Confocal Microscopy

    The spinning disk confocal microscope (SDCM) is a revolutionary tool for imaging in the life sciences, observing samples ranging from single molecules to live cells, featuring high speed, 3D and multichannel acquisitions. Many experiments and researchers use SDCM imaging systems for their imaging, and the technology has become well established.

  • Cryo Super-Resolution Imaging

    The Biophysics Group at TU Wien is interested in super-resolution imaging in order to study the dynamics of biological systems such as T cells. One approach to this is cryo super-resolution imaging, which aims to produce highly-resolved images by imaging at extremely low cryogenic temperatures of -180 °C