HIKMICRO Stellar SH35 3.0 – a revolution in thermal imaging technology for hunters and outdoor enthusiasts.HIKMICRO Stellar SH35 3.0 – a revolution in thermal imaging technology for hunters and outdoor enthusiasts. This telescope is equipped with a highly sensitive 384×288 @12μm thermal detector boasting NETD < 15mK, ensuring exceptional clarity even in the most challenging environments. With the innovative Image Pro 2.0 processing algorithm and HIKMICRO's shutterless imaging system (HSIS), this thermal imaging telescope allows you to see even the finest details without interruption.
Its 35mm F1.0 lens offers an impressive viewing range of up to 1800 meters, making it easy to identify targets at long distances. The 2560×2560 1.03-inch OLED display provides sharp visuals, allowing users to quickly and accurately identify targets. Designed for field and hunting use, the SH35 3.0 ensures optimal performance in all weather and lighting conditions.
With features such as internal video recording, multiple zoom options (4.2× - 24.2×), heat tracking, and five zeroing profiles, this scope improves your shooting accuracy while simplifying your user experience. Its durable construction, rated for extreme shock resistance and water resistance (IP67), ensures it's ready for any adventure.
384 x 288 resolution @12 μm thermal detector
High sensitivity thermal module NETD<15 mK (@25°C, F# = 1.0)
35 mm, F1.0 lens with a detection range of up to 1800 m
2560 × 2560 resolution 1.03-inch OLED display
HIKMICRO Shutterless Image System (HSIS)
Rechargeable internal batteries and external battery, 9 hours of continuous operation
High shock resistance up to 1000 g/0.4 ms
The HIKMICRO Stellar SH35 3.0 operates for up to 9 hours continuously and is powered by both internal rechargeable batteries and a replaceable external battery, ensuring uninterrupted operation during long hunting trips. With a standard 30 mm mount and compact design, it is built to fit your rifle perfectly. Get ready to enhance your hunting experience with the unparalleled thermal imaging of the SH35 3.0.
