Research & Development

Research & Development

Xenics’ advanced infrared cameras feature high quality and high performance in all major IR wavelength ranges for the most demanding research applications.

Applications

  • SWIR or Short-Wave infrared imaging covers the wavelength range from 700 nm to approximately 2500 nm and is suitable for low light applications.

  • SWIR spectroscopy is a valuable tool to classify products. SWIR microscopy is typically used to inspect micro-electronic circuits on chip or wafer level.

  • Laser gated imaging with short integration time allows imaging at long ranges through haze, smoke, fog or dust.

  • Low-light-level imaging in semiconductor microscopy applications is used for fault localization in microelectronic failure analysis.

  • High speed imaging is taking pictures at a high frame rate using a short exposure time. We offer the world's fastest SWIR InGaAs camera and versatile MWIR cameras.

  • Homeland security is mainly focused on critical infrastructure protection. Image fusion is a great technique as it combines SWIR and LWIR images, resulting in the best of both worlds.

  • Thermography is widely used in applications where contact-thermometry cannot be used to measure temperature.

Documents

Application notes
Die Nutzung des nahen Infrarot-Spektralbereichs (NIR) bis 2,5 μm ist von immenser wirtschaftlicher Bedeutung. Die Nutzung des nahen Infrarot-Spektralbereichs (NIR) bis 2,5 μm Wellenlänge ist von immenser wirtschaftlicher Bedeutung. Dieses Artikel geht tiefer in auf dieses Technologie.
Unsere SWIR Kameras sind ausgezeichnet für das erkennen von Unterzeichnungen in Gemälden Unterzeichnungen in Gemälden lassen sich mit der Infrarot-Analyse, der sogenannten Reflektografie, sehr gut erkennen. Unsere SWIR-Kameras vereinfachen und beschleunigen die Reflektografie, da sie ein breiteres Spektrum abdecken als andere Kameratypen.
Spektroskopie: Von LED-Strukturen bis alter Meister und ihrer Gemälde Spektroskopie: Von LED-Strukturen bis alter Meister und ihrer Gemälde
Imaging spectroscopy with SWIR InGaAs cameras has multiple applications in all sorts of industries Image capture in the near-infrared spectrum (NIR) at wavelengths up to 2.5 μm is gaining ever greater economic significance. This is especially true in regard to imaging spectroscopy: hyperspectral microscopes, for example, can accelerate the design process of new kinds of LED structures; multispectral online inspection of recyclable materials ensures unmixed waste separation [1]; and finally, in the arts, multispectral reflectography serves as a tool for revealing the secrets of old masters and their works.
Beschreibung der Leistung von InGaAs-Kameras in mondloser, sternklarer Nacht Beschreibung der Leistung von InGaAs-Kameras in mondloser, sternklarer Nacht
The combination of a SWIR and LWIR camera makes the ideal night vision camera. The combination of a SWIR and LWIR camera makes the ideal night vision camera.
Bilderfassung mit SWIR-Sensoren InGaAs als Detektormaterial, das nicht für jeden Einsatzfall gekühlt werden muss, macht das nahe Infrarot jetzt auch industriellen Applikationen zugänglich.
Sensitive infrared InGaAs cameras detect weak electroluminescent radiation emitted by thin-film solar cells Electroluminescence analysis improves the quality of solar cells
Electroluminescense analysis using SWIR cameras speeds up the development of solar cells Electroluminescence analysis accelerates thin-film solar cell development
SWIR cameras are perfectly suited for high temperature thermal imaging applications. SWIR cameras are useful tools for high temperature thermal imaging applications.

Pages

Extreme compact size and low weight

Given the extremely compact size and low weight of the Xenics XS-1.7-320 SWIR camera it was extremely easy to integrate it into our existing optical setup.

University of Strathclyde