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  • Teledyne e2v releases 1.5 Megapixel version of Optimom, a turnkey optical module for quick and easy development of vision systems

    Optimom 1.5M is a complete board-level vision extension made to accelerate development time, reduce R&D investment, and scale down manufacturing costs for embedded vision and AI vision solutions. It comprises of a proprietary image sensor, a tiny 25mm square board with lens mount, and optional lens in various options.

  • Teledyne e2v releases Hydra3D+, the first high resolution ToF sensor to work in all light conditions without motion artefacts

    Designed with Teledyne e2v’s proprietary CMOS technology, Hydra3D+ features a brand-new 10 µm three-tap pixel which provides very fast transfer times (starting from 10ns), and displays high sensitivity in the NIR wavelength, alongside excellent demodulation contrast. This precise combination enables the sensor to operate in real-time without motion artefacts (even if there are fast moving objects in the scene) and with excellent temporal noise at short ranges, essential in applications such as pick and place, logistics, factory automation and factory safety. An innovative on-chip multi-system management feature enables the sensor to work alongside multiple active systems without interference which can lead to false measurements.

  • AI-Powered Optical Inspection Can Find Nanoscale PCB Defects

    Sapera Software Suite makes it easier to use machine learning in AOI with surprisingly few samples.

  • Teledyne introduces radiometric version of its compact thermal camera core

    Teledyne DALSA is pleased to announce a radiometric version of its MicroCalibir™ Long Wave Infrared (LWIR) compact camera platform that delivers accurate temperature measurements of +/-2°C or +/-2%.

  • Teledyne DALSA honored by 2024 VSD Innovators Awards

    Teledyne DALSA announced today that its AxCIS™ family of high-speed and high-resolution fully integrated line scan imaging modules was recognized among the best by the 2024 VSD Innovators Awards.

  • Introduction To Modern Camera Technologies

    A scientific camera is a vital component of any imaging system. These cameras are designed to quantitatively measure how many photons of light hit which part of the camera sensor. Photons generate electrons (photoelectrons), which are stored in sensor pixels and converted to a digital signal, which is displayed as an image. This process is optimized at every stage in order to produce the best possible image depending on the signal received.

  • Whole Nematode Brain Calcium Imaging

    The research focus of Professor Vivek Venkatachalam and his team is whole brain activity in the nematode C. elegans.

  • Live Mouse Brain Vascular Imaging

    Dr. Thomas Broggini is a principal investigator at the Translational Neurosurgery Laboratory at the University Clinic Frankfurt. His research focuses on investigating and understanding the mechanisms of relevant neurosurgical diseases, leading to the development of potential treatments.

  • Imaging Fluorescent Microplastic Seimentation

    Prof. Dr. Peiffer's team at Bayreuth University’s Hydrology Department is exploring the interactions at the boundary between groundwater and surface water, which is vital for various processes that influence the quality of both.

  • Scanless Two-Photon Voltage Imaging

    One of the main interests of the research group at Intelligent Imaging Innovations (3i) is developing and improving different imaging technologies. Recent engineering and conceptual improvements in holographic microscopy hardware have opened the technique to different unprecedented applications. An interesting and promising feature enabled by holographic microscopy is the possibility to target light in a spatially confined part of the sample using phase-only laser modulation.

  • Teledyne e2v Honored with Topcon Corporation's 2024 Best Partner Award

    Teledyne e2v is proud to have received the Best Partner Award 2024 from Topcon Corporation.

  • High-Speed Cardiac Voltage Imaging

    Dr. Ewan Fowler is a British Heart Foundation Basic Sciences Intermediate Research Fellow at Cardiff University, working to understand heart disease, specifically arrhythmias and the role that calcium handling has on cardiac electrophysiology. Dr. Fowler told us more, "I'm currently working with a model of inherited heart disease called CVPT [catecholaminergic polymorphic ventricular tachycardia], where it's thought that increased spontaneous calcium release can trigger ectopic activity in the heart."