Title :
Carrier-storage effect and extraction-enhanced lateral IGBT (E2LIGBT): A super-high speed and low on-state voltage LIGBT superior to LDMOSFET
Author :
Takahashi, Satoshi ; Akio, A. ; Youichi, Y. ; Satoshi, S. ; Norihito, N.
Author_Institution :
DENSO Co., Ltd., Nukata, Japan
Abstract :
We have successfully developed novel extraction enhanced lateral insulated gate bipolar transistors (E2LIGBTs), which exhibit super-high speed switching of 34 ns turn-off time and a low on-state voltage of 3.7 V at 84 A/cm2 simultaneously with a high breakdown voltage of 738V. For the first time, E2LIGBTs have exceeded the counterpart lateral DMOS both in switching speed and in on-resistance. The superior performance is achieved by the novel anode structure consisting of a narrow p+-injector and a wide Schottky contact on a lightly doped p-layer over an n-buffer. The on-state voltage can be further reduced to 3.0V at 84 A/cm2 by introducing Carrier Storage (CS) layer. The developed E2LIGBTs achieved the best trade-off between on-resistance and switching speed among all the lateral MOS power devices, so far reported.
Keywords :
MOSFET; insulated gate bipolar transistors; CS layer; E2LIGBT; LDMOSFET; Schottky contact; anode structure; carrier storage layer; carrier-storage effect; extraction-enhanced lateral IGBT; high breakdown voltage; insulated gate bipolar transistors; lateral DMOS; lateral MOS power devices; low on-state voltage; low on-state voltage LIGBT; n-buffer; narrow p+-injector; super-high speed switching; time 34 year; voltage 3.0 V; voltage 3.7 V; voltage 738 V; Anodes; Current density; Inverters; Schottky barriers; Silicon; Temperature measurement;
Conference_Titel :
Power Semiconductor Devices and ICs (ISPSD), 2012 24th International Symposium on
Conference_Location :
Bruges
Print_ISBN :
978-1-4577-1594-5
Electronic_ISBN :
1943-653X
DOI :
10.1109/ISPSD.2012.6229104
