Title :
Simulated turn-off of 4H-SiC gate turn-off thyristors with gate electrodes on the p-base or the n-base
Author :
Shah, Pankaj B. ; Jones, Kenneth A.
Author_Institution :
US Army Res. Lab., Adelphi, MD, USA
Abstract :
Turn-off simulations of a 4H-SiC GTO thyristor structure having a gated p-base and p-type substrate are compared with that having a gated n-base and n-type substrate. Two gate drive circuits are considered, one with a voltage source and resistor between the gate and adjacent emitter region, and the other with a voltage source and resistor between the gate and farthest emitter region. The gated n-base thyristor´s substrate current increases atypically before the device turns off. Also, the gated n-base structure turns off when the gate circuit is connected directly to the emitter region furthest from the gate region, but the gated p-base structure does not. Furthermore, turn-off gain is lower for the gated n-base structure due to mobility differences as demonstrated by current-voltage (I-V) and current versus time (I-t) curves.
Keywords :
semiconductor device models; silicon compounds; switching transients; thyristors; wide band gap semiconductors; 4H-SiC GTO thyristor structure; I-V characteristics; SiC; adjacent emitter region; current versus time curves; drift-diffusion model; farthest emitter region; gate drive circuits; gate electrodes; gated n-base; mobility differences; n-type substrate; p-base; p-type substrate; resistor; substrate current; transient turn-off curves; turn-off gain; turn-off simulations; voltage source; Circuits; Contacts; Electrodes; Ionization; Resistors; Semiconductor process modeling; Silicon carbide; Thermal conductivity; Thyristors; Voltage;
Journal_Title :
Electron Device Letters, IEEE
