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Teledyne DALSA Warranty Information

Using Lens Shading Correction

Understanding Pixel Formats

Photonics Spectra Article - Multifield Imaging Enhances Detectability at Speed

Photonics Spectra Article - Multispectral Imaging Extends Vision Technology Capability

VSD Article - Flat Panel Color Filter Inspection

Can New Advances in CMOS Replace sCMOS Sensors in Biomedical Applications?

Complementary metal-oxide-semiconductor (CMOS) technology now offers the advanced imaging capabilities required for many biomedical applications, but can it replace the more expensive sCMOS (scientific CMOS) sensors? CMOS and sCMOS sensors have set the benchmark for both performance and value in machine vision in several industries, and this article will explain the benefits and costs of each technology for highly demanding imaging applications in biomedical and life sciences.

Seven Ways to Ensure Success When Choosing Cameras for Intelligent Transportation Systems

Finding the right camera for an ITS can be daunting, but integrators and OEMs can find success by following these guidelines.

AWM Frictionless™ - Autonomous Store Checkout Made Possible with Machine Vision Cameras

Using Teledyne FLIR Blackfly S GigE Machine Vision Cameras, AWM Frictionless™ allows customers to pick up items and be automatically charged as soon as they leave the store, without needing to queue up, scan, or physically pay for their items.

What Is the Best Machine Vision Camera for My Biomedical Application?

Research and diagnostic biomedical applications typically require imagers with high spatial resolution, accurate color reproduction, greater sensitivity in low light conditions, and in many cases some combination of all three factors to improve reliability of data. Having the appropriate camera is critical to providing a proper diagnosis in a clinical application or reliable data for research purposes. So how do you know what machine vision camera is best for your application? In the following sections, we cover several aspects to consider when choosing a machine vision camera for your biomedical and life science applications. 

Can New Advances in CMOS Replace sCMOS Sensors in Biomedical Applications?

Complementary metal-oxide-semiconductor (CMOS) technology now offers the advanced imaging capabilities required for many biomedical applications, but can it replace the more expensive sCMOS (scientific CMOS) sensors? CMOS and sCMOS sensors have set the benchmark for both performance and value in machine vision in several industries, and this article will explain the benefits and costs of each technology for highly demanding imaging applications in biomedical and life sciences.

Enhanced Dust Control Service for Machine Vision Cameras

Teledyne FLIR cleans and assembles all machine vision camera optical assemblies at our Canadian manufacturing plant in an ISO certified clean environment (ISO7 - Class 10000). This standard level of dust control is usually sufficient for microscopy applications— “dust” in this case defined as any foreign particulate matter. However, some applications require an even higher standard. In such cases, Teledyne FLIR offers Enhanced Dust Control Service on all its machine vision cameras except Blackfly S Board Level (USB3/GigE) and all Firefly models.