AGM Global Vision Sidewinder TM35-384 Thermal Monocular - 3-24x Zoom, 35mm Lens, 384x288 Resolution, Black
Agm Global Vision
The AGM Global Vision Rattler TC35-384 thermal monocular is a compact, clip-on thermal imaging system built to convert any daytime rifle scope into a thermal-capable platform without tools or permanent modifications. Built around a 35mm lens and 384x288 thermal detector, this lightweight optic delivers clear imagery in complete darkness, fog, smoke, dust, rain, snow, and heavy brush—conditions where conventional glass fails. Weighing just 0.93 pounds and measuring under 6 inches, the Rattler mounts in front of existing scopes up to 8x magnification for medium-range hunting and patrol work, letting you preserve your day optics while adding thermal capability when the light fails.
The heart of the Rattler is its uncooled 17-micron thermal detector paired with advanced image processing—adaptive AGC, DDE, and 3D DNR—that cuts through environmental noise to deliver a usable picture even in harsh conditions. The 748×561 OLED display brings thermal data to life with sharp, high-contrast imagery. Digital zoom steps through 2x, 4x, and 8x magnification without degrading the core thermal resolution, so you can glass distant targets and close-range work with the same unit. Multiple imaging palettes, including Jungle Recognition mode, let you choose the best color scheme for your environment and lighting.
Built for durability in the field, the Rattler is rated IP67 waterproof and shockproof, with an operating range from –4°F to +131°F. Internal 16GB storage records video and still images directly to the monocular, while onboard Wi-Fi streams live video and transfers files to your phone or tablet via app. Battery runtime reaches 4.5 hours on two CR123A lithium cells (or rechargeable RCR123), and external 5V USB power extends fieldwork indefinitely. Distance measurement, snapshot capability, and standby mode round out a genuinely practical thermal tool for hunters and tactical users who need to see what conventional optics cannot.