Title :
Oxide-bypassed VDMOS (OBVDMOS): an alternative to superjunction high voltage MOS power devices
Author :
Liang, Yung C. ; Gan, K.P. ; Samudra, Ganesh S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Nat. Univ. of Singapore, Singapore
Abstract :
The superjunction concept has been proposed to overcome the ideal silicon MOSFET limit, but its fabrication was handicapped by the precise charge balance requirement and inter-diffusion problem. We report a novel device structure termed oxide-bypassed VDMOS (OBVDMOS) that requires the well-established oxide thickness control instead of the difficult doping control in translating the limit to a higher blocking voltage. This is done by using metal-thick-oxide (MTO) at the sidewalls of drift region. One can choose to have a higher blocking voltage or increase the background doping. A PiN structure, essentially identical to MOSFET during off state, was fabricated to demonstrate the proposed concept. Its measured BV/sub dss/ of 170 V is 2.5 times higher than measured conventional device BV/sub dss/ of 67 V on the same silicon wafer.
Keywords :
doping profiles; leakage currents; power MOSFET; semiconductor device breakdown; thickness control; 170 V; PiN structure; drift region sidewalls; high blocking voltage; high voltage MOS power devices; metal-thick-oxide; oxide thickness control; oxide-bypassed VDMOS; silicon wafer; Doping; Electric breakdown; Fabrication; Gallium nitride; MOSFET circuits; Power MOSFET; Silicon; Switching circuits; Thickness control; Voltage control;
Journal_Title :
Electron Device Letters, IEEE
