The Pulsar Helion XQ28F Thermal Thermal Imaging Scope located prevents heat build-up from the sensor and other components, whilst also significantly reducing temperature and noise sensitivity, especially between calibrations models include up to 4x magnification. Feature both 2x step-up and smooth, graduated magnification for a truly optimum, customised field of view highlight of the Helion is the ability to link the device via Wi-Fi with Android and iOS based mobile units using the free mobile application, Stream Vision. The Stream Vision software connects the device with Android/iOS devices, enabling you to receive footage in real-time mode. To distantly operate the device with your smartphone and to stream the footage captured by the device direct to Youtube progressive autonomous B-Pack power supply consisting of a quick-detach, rechargeable IPS5, 5.2A-h battery pack designed to deliver up to 8 hours of operation. Higher-powered IPS10 battery packs, CR123A and AA battery cases are also available, providing a perfect off-grid power solution.
Features
Pulsar Helion XQ28F Thermal Thermal Imaging Scope
Lightweight easy to use - Three calibration modes – Manual, Semi-automatic, Automatic
User-friendly interface-Three operating modes - City, Forest and Identification
Built-in Wi-Fi module Eight colour palettes for observation
Built-in 3-axis accelerometer, gyroscope and magnetometer Defective pixel repair function
Stadiametric rangefinder-Display-Off option
Functional and ergonomic design - Updatable features
Wide range of operating temperatures (-25°C to +50°C)
Specifications
Manufacturer: Pulsar
Color: Black
Dimensions: 219x58x57
Magnification: 2.3x to 9.2x (Digital)
FOV: 12.4°
Thermal Sensor: 384x288 17µm
Battery: B-Pack (Li-ion)
Display Resolution, pix: 640x480
Level of Protection: IPX7
Exit pupil, mm: 5
Range: 800m
Operating Temp: -25 °C to + 50 °C
Weight: 0.4kg
Kit Content
Pulsar Helion XQ28F Thermal Thermal Imaging Scope
User Operating Instructions Manual
For more information about, Pulsar Helion XQ28F Thermal Thermal Imaging Scope website.