Hyper / Multi-Spectral Lens Series Created for the Latest Visible + SWIR Imaging Sensors
Engineered for the latest SWIR imaging sensor (IMX990/IMX991*).
ViSWIR HYPER-APO Series
Fully corrected focus shift in visible and SWIR range (400nm-1,700nm). By using ultra-low dispersion glass and low partial dispersion glass paired with superior design technology the focus shift is minimized within a few micron mm at a super wide range of wavelengths. With this, spectral imaging is achievable with a single sensor camera by simply syncing the lighting.
With the ViSWIR HYPER-APO lenses, it is unnecessary to adjust focus for different wavelengths. By adopting an APO floating design*, the focus shift is reduced at any wavelength and any working distance. This function makes the series ideal for multiple applications, including machine vision, UAV, and remote sensing.
*Specific floating mechanics to realize Apochromat design.
ViSWIR Lite Series
The ViSWIR Lite Series achieves a clear and precise image visible to the SWIR range by applying a multilayer coating to absorb the specific light and minimize the adverse lighting effects. The broadband anti-reflection coating is applied on all ViSWIR lens elements, allowing high and stable transmission at a super-wide wavelength range: of 400nm to 1,700nm.
The ViSWIR Lite series delivers a high-quality image using the latest Visible + SWIR sensors. This high-performance lens is designed for non-visible range imaging allowing diverse applications in multiple markets, including Agriculture, Medical, Remote Sensing, etc.
ViSWIR Reflex Zoom
The newest addition to the ViSWIR series is the E3Z5247P-MPSW, a 1.3MP reflex zoom lens for super-telephoto applications.
The C-mount E3Z5247P-MPSW is compact and lightweight. It is engineered for the latest 1/1.8" visible + SWIR imaging sensors (IMX990/IMX99145, 1520 - 1300mm) and is designed for a working distance of 25m to infinity. Its distinctive photosensitive design allows for optimal performance between 400 and 1700nm and has an adjustable back-focus mechanism.