Search

  • Teledyne e2v honored by 2024 VSD Innovators Awards

    Teledyne e2v, a Teledyne Technologies [NYSE: TDY] company and global innovator of imaging solutions, announced today that Emerald Gen2™, its new state-of-the-art CMOS image sensor family, was recognized among the best of the 2024 VSD Innovators Awards. The engineering community recognized Teledyne e2v with the Bronze award in the Image Sensors category.

  • Teledyne e2v’s unique 5D image sensor delivers both real-time 2D vision and 3D depth data

    Teledyne e2v announces Topaz5D™, a full-HD CMOS image sensor designed to combine 2D vision with the generation of 3D depth maps. A single Topaz5D sensor used in challenging lighting conditions delivers 3D object visualisation based on the contrast detected, ideal for various logistics applications, AR/VR headsets, access control devices, household vacuum robots, and Autonomous Mobile Robots (AMR).

  • Teledyne e2v and Airy3D collaboration delivers more affordable 3D vision solutions

    Teledyne e2v is pleased to announce a new technology and design collaboration with Airy3D (Montreal, Canada), a leading 3D vision solution provider. The first result of this partnership is the co-engineering of the recently announced Topaz5D™, a low-cost, low power, passive, 2 megapixel global shutter sensor which produces 2D images and 3D depth maps.

  • ArcTec Technology

    Scientific cameras are limited by a range of different noise contributions, such as read noise and dark noise. Read noise is determined by speed of readout and readout electronics, with dark noise being attributed to the dark current– a by-product of unwanted signal from thermal excitation. By cooling the system, the dark current is drastically reduced, improving image/spectral quality.

  • Triclops SDK

    Triclops SDK for Bumblebee products.

  • Teledyne to highlight an extensive range of industrial imaging technology solutions at VISION 2024

    Teledyne Vision Solutions will showcase their newest products and solutions at the VISION 2024 exhibition taking place October 8-10, in Stuttgart, Germany. Teledyne’s DALSA, e2v, FLIR, Lumenera and Adimec businesses will display the world’s most comprehensive, vertically integrated portfolio of industrial imaging technology. Visit Teledyne in Hall 8, booth B10 and explore unmatched capabilities and products from your one source for unlimited vision solutions partner.

  • Starlight Image Sensor Technology

    Low-light applications require sufficient video throughput, signal-to-noise ratio, and spatial resolution to allow human interpretation of a complex scene passing through the digitization channel. It is therefore essential that the pixels be of optimum size and highly sensitive: every photon counts.

  • High-Speed Retinal Voltage Imaging - meta

    Dr. Guilherme Testa-Silva is head of Physiological Technologies at 1OB, part of a group committed to developing groundbreaking therapies for restoring sight. meta

  • High Harmonic Generation Metasurface Imaging

    Falco Bijloo is a PhD student in the nanophotonics group of Dr. Femius Koenderink at AMOLF, researching how to generate harmonics and make non-linear metasurfaces.

  • Monkey Brain Calcium Imaging

    The lab of Prof. Cody Siciliano works to develop animal models and determine the neural basis of motivation, addiction, and decision making.

  • SCAPE Microscopy

    In 2015 Prof. Elizabeth Hillman and team developed swept confocally-aligned planar excitation microscopy, or SCAPE (Bouchard et al. 2015). SCAPE is a single-objective light-sheet imaging method designed for high-speed volumetric 3D imaging, without moving the objective or sample. A sweeping light sheet synchronized with fast camera acquisition offered true volumetric imaging at unprecedented speeds.

  • 3D Live Cell SCAPE

    The lab of Prof. Alf Honigmann focuses on the organisation and function of cell interfaces across scales. We spoke with postdoctoral researcher Dr. Markus Mukenhirn and Master’s student Pierre DeMarinis about their work in the Honigmann lab. Dr. Mukenhirn explained, “I work with mouse embryonic stem cells (mESCs) to study how they self-organise into 3D structures and the dynamics of their growth, observing them under the microscope over several days. By employing single-objective light sheet microscopy, we capture high resolution live-cell dynamics, revealing the intricate processes of lumen formation and tissue organization.”