Radars are used in military as well as civil sectors for many different purposes. Some of their usages include weather observation, air traffic control, and high resolution imaging along with various military radar applications such as ground penetration, ground and or air surveillance, target tracking, and fire control. In order to perform these precise and mostly critical functions, radar systems need next generation amplifiers that provide advantages in output power, bandwidth, and efficiency over conventional technology. What is more, radar use as well as their demand is increasing.
In order to meet the increasing demands of the environmental as well as technical conditions in which these systems must operate, radar system industry continues to make advancements. Many such areas of advancement within radar systems include movement toward active electronically scanned arrays, increased sensitivity, image enhancement, improved energy efficiency and increased power, legacy amplifier technologies and more.
It is in this milieu that Gallium nitride (GaN) is recognized as the key amplifier technology for radar systems. GaN based amplifiers have recently been deployed in radar systems for military applications. The design activity and adoption rate is increasing each year, as more GaN based RF component suppliers enter the market with production ready products. Wide bandgap GaN technology has distinct advantages of higher voltage and broader bandwidth performance combined with high drain efficiency. GaN offers significant, recognized advantages over existing technologies for applications operating in frequency bands.
In Short, Gallium nitride radars is a perfect contribution to serve and makes the valuable of military resources for control and observe according to their needs.