Night time shooting with Core coupled with day optic riflescope has a number of positive moments. Such operational characteristics of day optics as significantly larger (in comparison to classic night vision or thermal riflescopes) eye relief, ordinary reticle, variable magnification are preserved.
The Core suggests three operating modes, each designed to deliver best possible image in specific viewing conditions. The modes are as follows: “Rocks” (enhanced contrast), “Forest” (low contrast) and “Identification” (improved rendering of hot objects' details).
The Core offers three calibration modes: silent manual mode (“M”), automatic (“A”) and semiautomatic (“H”). The “A” mode implies calibration without user participation (process initiation (actuation of the shutter) takes place automatically). In the “H” mode the user decides on his own if calibration is required based on the image quality. Button “Cal” is pressed in this mode. Manual calibration (“M”) is carried out by pressing the button when the lens cap is closed. The “M” mode is recommended for hunting due to silent operation.
The wireless remote control allows basic operations to be fulfilled without resorting to standard controls.
Core FXQ comes with a universal power adapter which allows connecting riflescope to external power sources via MicroUSB and DC 2.1x5.5 mm. External power sources significantly prolong operation time of device compared to the time provided by standard batteries.
With IPX7 (IEC 60529 standard) water protection class Core thermal imaging devices can be operated in the conditions of precipitation of any intensity and withstand a short underwater submersion.
Attachment allows to turn the majority of day sights with lens diameters from 40 mm to 56 mm into a thermal sight, ensuring constant position of POI. Quick-release bayonet mount allows remove it from the scope in seconds.
Ability to operate in normal mode at sub-zero temperatures is due to the use of a frost-resistant AMOLED 640x480 display featuring fast response and provides crisp image when observing dynamic object.