Pixfra Ranger R425


1,047.00

The Pixfra Ranger R425 thermal imaging monocular will provide excellent thermal imaging capabilities and a detection range of up to 1300m through its 384×288, 12µm, <30mK NETD thermal sensor and 25mm f1.0 objective lens.The Ranger R425 features a sensitive 384×288, 12µm, <30mK NETD thermal sensor and a 25mm f1.0 objective lens, providing users with a generous 1300m detection range by day and in darkness. Combining the thermal sensor and objective lens with Pixfra’s advanced image processing algorithms ensures crisp and clear thermal imagery is presented onto a 1440×1080 display. This display offers a picture that is consistently smooth and well-defined. Observation capabilities are further improved through a 11.0°x 8.2° field of view and a 2.3× native magnification, with an 8x digital zoom capable of achieving a maximum 18.4x magnification in 1x, 2x, 4x & 8x steps..

The Ranger R425’s built-in rechargeable lithium-ion battery will reliably offer an operation time of up to 7.5 hours (depending on temperature) for extended periods of effective observation before a recharge is needed. The device can even be used with an external power supply to extend the operation time even further.

Capturing every moment during observation is made possible through the built-in still image and video recording capabilities. Videos and pictures can be stored on a MicroSD card with a capacity of up to 256GB.

A built-in Wi-Fi module allows this monocular to connect to the Pixfra App (see the APP tab above), meaning users can view what’s observed through the Ranger R425’s lens directly on their connected smartphone. What’s more, this device allows for multiple phones to be connected simultaneously, allowing for group observation over several smart devices.

Exceptionally lightweight at less than 400g, the Ranger R425 is more than capable of withstanding harsh environmental conditions thanks to its IP67 rating. This rating protects the device from dust and water ingress, and a 2m drop test also ensures it is more than capable of resisting any bumps or knocks that may occur during observation or transportation. The device will even work unaffected in extreme temperature, providing excellent thermal imaging capabilities in -20℃ – +50℃.