Next-Gen RADAR Proximity Sensors for Fast-Moving Platform & Targets
Ultra-lightweight, low-power, high-performance radar technology built for modern aerial and ground-based defence applications.
Product Introduction
High-Speed Proximity Detection. Redefined.
Our
advanced RADAR-based proximity sensor is engineered for scenarios where precision, speed, and adaptability matter most. Whether in ground-to-air, air-to-ground, or lateral detection, our sensor tracks targets moving at velocities up to 900 m/sec, making it ideal for drone collision avoidance, autonomous systems, and defense-grade tracking.
Using multiple Tx and Rx antennas allow to shape the RADAR beam and to measure Angle of Arrival hence taking better collision / anti-collision decisions.
Key Specs:
- Velocity Detection: Up to 900 m/sec
- Detection range: 0.5-50m
- Measurement rate: up to 1000/sec
- Weight: 20 grams
- Power Consumption: <5W
- Form Factor: Compact, low-footprint design
- Use Cases: Drone collision detection, proximity detection, aerospace navigation
Benefits of RADAR
Why Choose RADAR Over Other Technologies?
- All-Weather Operation
Performs reliably in rain, fog, dust, and low light. - Penetrates Obstacles
Detects through foliage, smoke, and thin materials. - High Precision & Speed
Real-time updates and accurate object tracking at extreme velocities. - Low False Positive Rate
Engineered to differentiate between real threats and background noise. - Can detect variety of target materials
Soil, water, rocks, metal, plastic, wood
Customization Services and Tools
Tailored to Your Mission
We understands that each mission is unique. That’s why we offer professional services to customize our RADAR systems to your specific needs. From software tuning to hardware integration, our expert engineering team is here to help bring your vision to life.
Our enhanced proprietary toolbox include:
Simulation tools: allow to simulate variety of mission profiles to fine tune the beam shape and detection algorithm
- Emulation tools: allowing to capture row data (ADC samples) and feed them through the simulation to fine tune the algorithms on live data
- Telemetry tools: Allowing to send detection results as well as power spectrum maps from the proximity sensor to laptop showing the performance in real time and allowing off line analysis of field tests