Title :
Reliability of GaN-HEMTs for high-voltage switching applications
Author_Institution :
Semicond. Co., Toshiba Corp., Kawasaki, Japan
Abstract :
This paper reports that the maximum electric field is a dominant factor for reliability in high-voltage GaN-HEMTs. Four types of the GaN-HEMT with different field plate (FP) structures were tested in continuous switching operation mode to analyze the degradation mechanism and the optimal device design. From the on-resistance degradation dependence on the FP structure, we extract that the gate-edge electric field strongly affects the increase of the dynamic on-resistance. Although the FP-edge field also increased the dynamic on-resistance, its influence was weaker than that of the gate-edge field. The optimal FP structure minimizes the increase of the dynamic on-resistance by reducing the electric field peaks and showed no degradation of power efficiency at the boost converter operation.
Keywords :
III-V semiconductors; electric fields; gallium compounds; high electron mobility transistors; semiconductor device reliability; FP structure; boost converter; degradation mechanism; dynamic on-resistance; field plate structure; gate-edge electric field; high-voltage GaN-HEMT; high-voltage switching application; power efficiency; Aluminum gallium nitride; Degradation; Electric fields; Gallium nitride; Logic gates; Reliability; Switches; GaN; HEMT; High-Voltage Switching;
Conference_Titel :
Reliability Physics Symposium (IRPS), 2011 IEEE International
Conference_Location :
Monterey, CA
Print_ISBN :
978-1-4244-9113-1
Electronic_ISBN :
1541-7026
DOI :
10.1109/IRPS.2011.5784510
