Crash test cameras experience extreme decelerations (up to 50G shock) and flying debris, which frequently causes varifocal lenses to shift out of focus or change zoom upon impact. By utilizing a ruggedized fixed 2.3 mm focal length lens with an ultra-wide 116.0° x 95.0° x 126.0° angle of view, engineers can capture the entire crash environment securely. Furthermore, the optical rectilinear correction provides undistorted spatial data instantly at a high 5.00 MP resolution, eliminating the computational latency and inaccuracies of software de-warping during critical impact analysis.

Confined subsea environments require ROVs to operate extremely close to structures, necessitating a minimal object distance (M.O.D.) of 0.10 m and an ultra-wide field of view to capture large objects in tight spaces. Since the lens has 'IR correction: yes' and 'IR cut filter: no', it pairs flawlessly with ROV near-infrared (NIR) illumination to see through high-particulate water without focus shifting. Additionally, its maximum immersion depth (protrusion into the camera mount) of 9.4 mm ensures it safely clears internal sensors within highly compact, pressure-sealed underwater camera housings.

AMRs navigating narrow warehouse aisles suffer from computational lag when onboard processing must algorithmically de-warp distorted fisheye images for path planning. This lens provides an expansive 116.0° horizontal angle of view with purely optical rectilinear correction, delivering zero-latency, undistorted visual data directly to the SLAM processor. The tight minimal pixel pitch of 2.50 µm combined with a 5.00 MP resolution ensures that inventory barcodes and small floor obstacles are resolved with extreme precision, even at very close ranges.