Pulsar Thermion 2 XQ50 PRO
Boasting state-of-the-art design and the latest in advanced technological innovations. The Pulsar Thermion 2 XQ50 PRO delivers the premium thermal imaging you’ve come to expect, but on a traditional-style aircraft-grade 30mm-tube. The Thermion 2 XQ50 PRO features a 384 x 288 <25MK sensor resolution with 17μ pixel pitch.
High quality germanium optics coupled with an advanced thermal imaging sensor ensure an unprecedented detection range of up to 1800 metres in, even in complete darkness.
Thanks to the new revolutionary electronics unit can be started almost instantly. Quick start-up helps to save energy and thus prolongs time of operation. The unit can be kept switched off and then rapidly activated when the right time comes.
The Thermion 2 XQ50 Pro features integrated video (including recoil-activated) and still image recording in MPEG-4 and .jpg makes sharing the thermal action quick and easy. The onboard 16-GB internal memory handles recoil flawlessly and stores hours of video or thousands of photos. Using Wi-Fi and the Stream Vision App, connect the Thermion to a smartphone or tablet for use as a second display or remote control. Also makes transferring recorded files, adjusting settings, upgrading firmware.
Pulsar Thermion 2 XQ50 Pro riflescopes have a dual battery system which consists of two batteries internal and external. External battery ensures additional operation time and can be replaced in a matter of seconds.
- Rugged magnesium alloy design
- F1.0 lens system
- <25mK 640 Lynred sensor
- Dual band WIFI for ultra-fast data transmission
- Extended battery life design
- Long 1800m detection range
- Smooth digital zoom
- HD Frost-Resistant display
- Ambi-dextrous focusable lens
- PiP mode
- 8 Colour modes
- Instant Start-Up & "Display Off" mode
- User friendly controls
- IPX7 waterproof rating
- Wide operating temperature
- Multiple observation modes
- Quick-Change, rechargeable APS battery packs
- USB C port
PREMIUM F 1.0 GERMANIUM OPTICS
Quality fast aperture germanium optics ensures optimal heat energy transmissivity minimizing noise and improving detail of observed scene.