Electronic Warfare
Antennas for EW and Telecommunications
Specialized radio engineering devices for EW interference generation and stable telecom signal reception/transmission across 210 MHz to 6.1 GHz.
Testing our devices at a military training ground
Testing our devices at a military training ground
Modification and technical characteristics
Antenna "Harpina 5.8 GHz"
Antenna "Harpina 2.4 GHz"
Sector Antenna 5.8 GHz
VL23 Quadrifilar Antenna
Dome-Type Antenna "4-in-1"
Omnidirectional Antenna 700–820 MHz
Antenna HELIX Lite 5.8/15
Antenna Yagi-Uda Lite 915
Remote Antenna for "Chuyka" (5 m)
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PATCH Antenna 5.8 GHz
Antennas for EW systems are specialized radio engineering devices designed to generate radio interference and suppress control, telemetry, and data transmission channels of unmanned systems and communication equipment. They are used as part of electronic warfare complexes to limit or completely block the enemy's radio channels and to create a controlled zone of electromagnetic influence.
Telecommunication antennas are antennas designed for stable reception and transmission of radio signals in both digital and analog communication systems. They are used in ground repeaters, drone-based repeater platforms, control systems, and data transmission networks to ensure extended communication range, high signal quality, and reliable radio links even under challenging operating conditions.
Key Features
Antennas for electronic warfare (EW) systems operate in frequency ranges from 210 MHz to 6.1 GHz, allowing them to cover and suppress control, video, and telemetry channels of unmanned platforms.
Antennas for electronic warfare (EW) systems operate in frequency ranges from 210 MHz to 6.1 GHz, allowing them to cover and suppress control, video, and telemetry channels of unmanned platforms.
Technical characteristics
Antennas for electronic warfare (EW) systems operate in frequency ranges from 210 MHz to 6.1 GHz, allowing them to cover and suppress control, video, and telemetry channels of unmanned platforms.
They provide gain from 1 to 16 dBi and support input power of up to 120 W. Antennas for EW systems are equipped with SMA Female, N-type Female, or N-type Male connectors for compatibility with professional transmitters.
Antennas for EW systems weigh between 45 g and 5 kg, depending on their class and design. They operate in a temperature range from –40°C to +80°C and are made from aluminum, copper, PETG, and impact-resistant ABS plastic for use in field conditions.
Telecommunication antennas operate in the frequency ranges of 700–1000 MHz and 4.9–6.1 GHz, providing a stable radio channel and extended transmission range with gain of up to 16 dBi.
The weight of telecommunication models averages 45–90 g, making them suitable for use on repeater drones and mobile platforms.
The design provides mechanical strength, low signal loss, and stable operation under vibration and temperature fluctuations.
Technical characteristics
Antennas for electronic warfare (EW) systems operate in frequency ranges from 210 MHz to 6.1 GHz, allowing them to cover and suppress control, video, and telemetry channels of unmanned platforms.
They provide gain from 1 to 16 dBi and support input power of up to 120 W. Antennas for EW systems are equipped with SMA Female, N-type Female, or N-type Male connectors for compatibility with professional transmitters.
Antennas for EW systems weigh between 45 g and 5 kg, depending on their class and design. They operate in a temperature range from –40°C to +80°C and are made from aluminum, copper, PETG, and impact-resistant ABS plastic for use in field conditions.
Telecommunication antennas operate in the frequency ranges of 700–1000 MHz and 4.9–6.1 GHz, providing a stable radio channel and extended transmission range with gain of up to 16 dBi.
The weight of telecommunication models averages 45–90 g, making them suitable for use on repeater drones and mobile platforms.
The design provides mechanical strength, low signal loss, and stable operation under vibration and temperature fluctuations.
