THE CUTTING EDGE OF CONNECTIVITY: GaN-on-SiC Amplifiers For Satellites, Radars, And 5G

Gallium nitride (GaN) on silicon carbide (SiC) monolithic microwave integrated circuit (MMIC) power amplifiers stand out, offering exceptional power efficiency, thermal management, and operational bandwidth—making them indispensable for next-generation communication systems.

Key challenges in modern communication systems

High-power requirements. Military satellites, which often operate over vast distances, and radar systems, used for precise tracking and detection, require high-output power. Similarly, 5G networks rely on robust amplifiers to maintain ultra-high-speed data transmission and connectivity. Traditional power amplifiers struggle to deliver such high power efficiently, leading to performance bottlenecks.

Thermal management issues. The generation of significant heat during high-power operation is a critical challenge. If not managed effectively, heat can impair device performance, shorten life span, and reduce reliability.

Broad frequency bandwidth needs. Modern military and commercial communication systems require amplifiers that can operate across wide frequency ranges without compromising signal clarity or performance. This is especially important for multi-band radar systems and 5G networks operating in millimeter-wave bands.

Compact and lightweight designs.

The increasing demand for smaller, lighter systems that reduce payload costs in satellites and enable portable radar and 5G equipment adds another layer of complexity. Engineers need solutions that integrate high-performance components into compact designs.

The rise of GaN-on-SiC MMIC power amplifiers