Holding Company "Ukrspetstechnika"

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The main purpose of the complex: Detection and identification of airborne moving objects and UAVs with a small effective reflective surface, monitoring the spectrum, determining the frequency range and structure of UAV control commands, maintaining a database archive, automatic transmission of radar information to the command post, firing complexes, combat modules, setting sighting and barrage interference in the ranges of control and telemetry commands, suppression of GPS / GLONASS navigation […]

Radar can be installed on a tripod (portable version), at vehicle (mobile version) or stationary (at mast or building). It provides detection of moving persons, surface land and sea vehicles. Detection and identification of targets is carried out in automatic mode. On the screen of the computer the marks of targets are displayed with data which are added automatically to the log with number, range, azimuth, speed and signature of […]

Muzzle velocity radar system is designed to measure the initial speed of ballistic objects (shells and bullets) of any caliber. The device can be placed on a tripod or on mounting on self-propelled guns or tanks. It can be integrated with artillery firing systems.   Technical characteristics: Frequency band Ka-band Transmitted power ≤ 80 mW Velocity range 50 – 2000 m/s Measurement error ≤ 0,1 % Shell caliber 4,5 – […]

“Biskvit-KB” radar is designed for radar reconnaissance of positions of mortars, multiple launch rocket systems, large-caliber artillery and provides automated transmission of radar data via communication channels to perspective Automated Systems and Automated Command Centers. The radar is performed on the basis of digital beam forming (DBF) phased array. Constructive solutions allow installing the radar on LAVs, common vehicles or stationary objects. Detection range: 120 mm mortar ammunition– up to […]

Purpose: representation of information about aerial situation revealed by “Malachite” radar connection to Automated Command Center documenting The Remote Workplace is able to transfer (if necessary) data to 3 (three) similar Workplaces. The Remote Workplace performs: receiving of video data and data about radar plots after preliminary processing of radar signal receiving of data after secondary processing of radar signal time synchronization with M5.1 and M5.2 of “Malachite” radar representation […]