GaN Systems 是一家无晶圆厂半导体公司。系统设计师实现所有的氮化镓在电源转换和控制应用中的优点。为了克服硅在开关速度、温度、电压和电流的限制，GaN Systems 开发了具有最完整的范围，用于各种市场的氮化镓功率开关晶体管。GaN Systems独有的专利技术Island Technology® 使GaN的设计方法比其他更小而且更加高效，解决了今天的成本、性能以及可制造性的挑战。GaN Systems 公司总部设在加拿大渥太华。
GaN Systems is the place electronics designers go to realize all the benefits of gallium nitride in their power conversion and control applications. To overcome silicon’s limitations in switching speed, temperature, voltage and current, the company develops the most complete range of gallium nitride power switching transistors for consumer, datacenter, industrial and transportation markets. GaN Systems’ unique Island Technology® addresses today’s challenges of cost, performance, and manufacturability resulting in devices that are smaller and more efficient than other GaN design approaches. A fabless power semiconductor company, GaN Systems is headquartered in Ottawa, Canada.
The Company also leverages existing multi-sourced manufacturing processes due to its transportable, fabless model, and through additional innovations, makes it easy to incorporate gallium nitride into any design. GaN Systems is run by a seasoned semiconductor team with decades of industry experience and a track record of repeated success. The Company stands to do more for gallium nitride adoption in power conversion than any other.
GaN Systems manufactures a range of Gallium Nitride high power transistors for consumer, enterprise, industrial, solar/wind/smartgrid, and transportation power conversion applications. Featuring exceptionally low on-resistance and negligible charge storage, these devices enable switching efficiencies well in excess of current silicon based solutions and offer dramatic benefits to switching power supply designs, inverters, hybrid and electric vehicles, battery management and power factor correction.
Based on the breakthrough GaN Systems device design IP, these gallium nitride devices use low cost GaN-on-silicon base wafers.
For the first time, compound semiconductor devices are cost competitive with silicon devices, while offering vastly superior performance.