-
Teledyne e2v’s new optical module ideal for scanning, embedded imaging and IoT applications
Grenoble, FRANCE, September 8, 2020 — Teledyne e2v, a Teledyne Technologies [NYSE: TDY] company and global innovator of imaging solutions, announces that it has expanded its product portfolio with a 2 Megapixel compact module featuring a pre-focused, industrial-grade scanning optic.
-
Teledyne e2v Expands its Emerald CMOS Image Sensor Family with the Addition of a New 8.9 Megapixel Detector for Machine Vision and Intelligent Traffic Systems
Teledyne e2v, a Teledyne Technologies company and global innovator of imaging solutions, announces that samples are now available for Emerald 8M9, the newest member of the Emerald CMOS image sensor family, which is dedicated to machine vision and Intelligent Traffic System (ITS) applications.
-
e2v advanced CMOS image sensor solutions now available with new state-of-the-art TowerJazz technology
e2v, the global innovator of imaging solutions and TowerJazz, the global specialty foundry leader, have today announced that e2v’s standard and custom CMOS image sensor solutions are now available with a newly developed generation of global shutter pixels. This advanced solution has been developed by TowerJazz at TowerJazz Panasonic Semiconductor Co.
-
e2v extends its Sapphire family with a high performance, global, rolling shutter 1600 x 1200 pixel CMOS sensor
e2v, a leading global provider of high performance imaging solutions, has added the 2MP EV76C570 device to its Sapphire family of optimised industrial imaging CMOS sensors.
-
Teledyne e2v expands its Emerald image sensor family with new compact global shutter 3.2MP sensor
Grenoble, FRANCE, April 28, 2020 — Teledyne e2v, a Teledyne Technologies [NYSE: TDY] company and global innovator of imaging solutions, announces its new Emerald 3.2 Megapixel CMOS image sensor, specially designed to tackle the challenges of emerging applications such as security, drones and embedded vision, as well as traditional machine vision.
-
July 29th Webinar: Understanding Image Sensor Performance
In this webinar, Teledyne e2v’s Pierre Fereyre and Marie-Charlotte Leclerc will review the meaning and implications of the main image sensor performance parameters, giving you some insight and tips to be able to best compare the performances of different sensors.
-
Teledyne e2v launches Snappy 2M CMOS image sensor for high-speed scanning and barcode reading
Teledyne e2v, a Teledyne Technologies company and global innovator of imaging solutions, announces Snappy 2 megapixel, a new CMOS image sensor designed for barcode reading and other 2D scanning applications.
-
Prime 95B sCMOS for Spinning Disk Confocal Microscopy
The Teledyne Photometrics Prime 95B is a high sensitivity CMOS camera designed for imaging at extremely low light with high speed and low noise.The almost perfect, 95% quantum efficient (QE) sensor of the Prime 95B has equivalent sensitivity to an EMCCD camera but with the much larger field of view (1200×1200 pixels, 18.7 mm diagonal) and high speed (82 fps, full frame) expected of a CMOS device.
-
Super Resolution Spinning Disk Confocal Microscopy
Spinning disk confocal microscopy (SDCM) is a versatile and widely-used imaging technique in biology due to its ability to perform fast, 3D imaging of live cells. Recently, techniques have been created that combines the high resolution of super-resolution fluorescence microscopy with the simplicity and optical sectioning capability of SDCM, resulting in a spinning disk system capable of a 2x resolution improvement over the diffraction limit.
-
SRRF: A Beginners Guide
Super-resolution radial fluctuations (SRRF) is a super-resolution algorithm that analyzes radial and temporal fluorescence intensity fluctuations in an image sequence to generate a super‑resolution image. Broadly speaking, SRRF works because we know that noise is uncorrelated in time whereas fluorophores are.
-
Quantum Efficiency
Quantum efficiency (QE) is the measure of the effectiveness of an imaging device to convert incident photons into electrons. For example, if a sensor had a QE of 100% and was exposed to 100 photons, it would produce 100 electrons of signal.
-
Dark Current
The sensitivity of a scientific camera is vital, with insufficient sensitivity it may not even be possible to acquire clear images of your sample. At Teledyne Photometrics sensitivity is paramount and our approach to highly sensitive cameras is twofold: maximize signal collection, and minimize noise levels.
