Title :
New Silicon Carbide Schottky-gate Bipolar Mode Field Effect Transistor (SiC SBMFET) without PN Junction
Author :
Kumar, M. Jagadesh ; Bahl, Harsh
Author_Institution :
Dept. of Electr. Eng., Indian Inst. of Technol., New Delhi
Abstract :
The bipolar mode field effect transistors (BMFETs) using P+ gates on N-type silicon substrate are the most commonly used power devices for high-current medium-power switching applications and as optically controlled switches. These are dual gate devices with deep P+ gate junctions, which require large thermal cycles for diffusion. In this paper, we propose a novel Schottky-gate BMFET (SBMFET) using P-type 4H silicon-carbide, a wide bandgap material, in which the PN junction gates are replaced by the Schottky gates. We have studied the characteristics of this device using two-dimensional numerical simulation. Our results demonstrate for the first time that the P-SiC Schottky-gate BMFET has very low ON voltage drop, good output characteristics, a reasonable current gain and a blocking voltage greater than 1000 V
Keywords :
Schottky gate field effect transistors; bipolar transistor switches; power semiconductor switches; silicon compounds; wide band gap semiconductors; N-type silicon substrate; SBMFET; Schottky-gate bipolar mode field effect transistor; Si; SiC; diffusion; high-current medium-power switching application; optically controlled switch; power device; thermal cycles; two-dimensional numerical simulation; wide bandgap material; FETs; Low voltage; Numerical simulation; Optical control; Optical devices; Optical materials; Optical switches; Photonic band gap; Schottky gate field effect transistors; Silicon carbide; Bipolar; Field effect transistor; Schottky contact; Silicon Carbide; Simulation;
Conference_Titel :
India Conference, 2006 Annual IEEE
Conference_Location :
New Delhi
Print_ISBN :
1-4244-0369-3
Electronic_ISBN :
1-4244-0370-7
DOI :
10.1109/INDCON.2006.302798
