The DSL146 is a high-performance, wide-angle, low-light lens with 4K resolution and F/1.4 aperture, designed for 1/3” and 1/2.8” HDR sensors. The all-glass construction makes it thermally stable and ideally-suited for indoor or outdoor applications in harsh environments
The DSL147 is a high-performance, wide-angle, low-light lens with 4K resolution and F/1.4 aperture, designed for 1/3" and 1/2.8" HDR sensors. The all-glass construction makes it thermally stable and ideally-suited for indoor or outdoor applications in harsh environments.
Ultra-low F/# for superb low-light imaging in Automotive, Autonomous and Security related applications, 4K, Low-Ghost design provides excellent image quality.
• Hybrid lens for excellent image and distortion characteristics • HDR-Optimized for Low flare and ghost • High (4K) resolution and extremely low F/# for bright, sharp images.
The DSL202 lens is a multi-element glass lens optimized for imager sizes up to 1/3" format and HD resolution. The all glass, all metal construction enables good thermal stability. The DSL202 is also environmentally ruggedized
The DSL213 is a miniature wide-angle and Day/Night lens designed for 1/3” format imagers with up to 2MP resolution. The Near Infrared correction and low F/# make this lens ideal for compact applications using active 850nm or 940nm light sources, and those used in low light situations.
• Wide field of view: 75°HFOV on 1/4” imager • All glass elements provides environmental stability • Distortion: f-θ type (image height is proportional to the input angle h = f*θ where f is the focal length)
The DSL235 is a miniature wide angle lens designed for 2-3MP image sensors with 1/3” format. The DSL235 isoptimized for Day/Night applications with active illumination in the Near Infrared, which makes it ideal for space constrained applications utilizing 850nm or 940nm active illumination.
4K Miniature SuperFisheye TM Lens • 190-degree field of view • Compatible with many common sensor formats/resolutions • All glass elements provide environmental stability