C,X,Ku,K,Ka and V band Phased Array Radar system

The radar comprises hundreds to thousands of antenna elements arranged in geometric patterns (planar, cylindrical, or conformal arrays). Each element is typically spaced at half-wavelength intervals to avoid grating lobes and ensure beam coherence.Its core component is Transmit/Receive (T/R) Modules which integrates a low-noise amplifier (LNA), power amplifier (PA), circulator, and phase shifter, enabling full-duplex operation (simultaneous transmission and reception). Modern systems use Gallium Nitride (GaN)-based T/R modules for high power efficiency (>50%), wide bandwidth (e.g., X to Ka bands), and thermal stability. Phased array radar is widely used in many fields. SPY-1 radar uses passive phased arrays for ballistic missile defense, tracking over 100 targets simultaneously. The U.S. NEXRAD network employs phased array radars for real-time storm tracking, improving tornado warning times by 40%. Tesla’s 4D imaging radar (77 GHz) uses phased array technology for 300-meter object detection in all weather conditions. Phased array radar technology represents a paradigm shift in electromagnetic sensing, combining unprecedented agility, multifunctionality, and resilience. From defending nations against hypersonic threats to enabling safer autonomous driving and unlocking cosmic mysteries, its applications are as diverse as they are transformative. As materials science, AI, and quantum technologies advance, phased array systems will continue to redefine the boundaries of what is possible in radar engineering, solidifying their role as a cornerstone of 21st-century innovation.

Features：

Speed: Beam redirection in microsecond-level response times

Ultra-Wideband T/R Modules: Gallium Nitride (GaN) technology supports X-band to millimeter-wave frequencies (e.g., 77 GHz automotive radar).

Multifunction Integration: Combines search, track, imaging, and communication in a single system