Title :
Single-Event Burnout Hardened Structure of Power UMOSFETs With Schottky Source
Author :
Ying Wang ; Yue Zhang ; Fei Cao ; Ming-guang Shan
Author_Institution :
Coll. of Inf. & Commun. Eng., Harbin Eng. Univ., Harbin, China
Abstract :
This paper investigates the single-event burnout (SEB) simulation results for both the standard and hardened structure of power U-shape gate MOSFETs (UMOSFETs). The Schottky source is proposed to reduce the work of the parasitic bipolar transistor inherent to the device. The hardened structure of power UMOSFETs with the Schottky source and N buffer layer is given, which can work normally and improve the SEB performance effectively. Both 70- and 120-V power MOSFETs are simulated and discussed in this paper. The SEB threshold voltages are increased to more than 94 percent of the breakdown voltages for both 70- and 120-V hardened structure, compared to 54 percent for standard power UMOSFETs.
Keywords :
power MOSFET; N buffer layer; SEB threshold voltages; Schottky source; power U-shape gate MOSFET; power UMOSFET; single-event burnout hardened structure; single-event burnout simulation; standard structure; voltage 120 V; voltage 70 V; Buffer layers; Doping; MOSFET; Performance evaluation; Schottky barriers; Standards; Threshold voltage; Hardened structure; Schottky source; power UMOSFET; single-event burnout (SEB);
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2013.2280019
