Title :
Optimized process design flow for fabrication of superjunction VDMOS for enhanced RDSonA
Author :
Naugarhiya, Alok ; Kondekar, P.N.
Author_Institution :
Electron. & Commun. Eng., PDPM IIITDMJ, Jabalpur, India
Abstract :
In this paper, we proposed a simple and optimized process design flow for the fabrication of Silicon Charge Balance (CB) Super Junction (SJ) Vertical Double Diffused MOS (VDMOS). Deep Reactive Ion etching (DRI) is used for forming trench p-pillar with process simulation, which reduces the design complexity and number of steps required for device fabrication. The trench p-pillar that has been formed at 1100° C using DRI causes crystal defects. We remove these defects by annealing at 1150°C which results in reduction of Area Specific ON Resistance across Source/Drain (S/D) (RDSonA). The proposed process device has Breakdown Voltage (BV) 590V, RDSonA 3.1MΩcm2 and maximum operating switching frequency (fT) 1.027GHz.
Keywords :
annealing; power MOSFET; semiconductor junctions; sputter etching; DRI etching; annealing; area specific ON resistance; breakdown voltage; crystal defects; deep reactive ion etching; design complexity; device fabrication; frequency 1.027 GHz; maximum operating switching frequency; optimized process design flow; process device; process simulation; silicon CB SJ VDMOS; silicon charge balance superjunction vertical double-diffused MOS; superjunction VDMOS fabrication; temperature 1100 degC; temperature 1150 degC; trench p-pillar; voltage 590 V; Doping; Fabrication; Junctions; Logic gates; MOSFET; Silicon; CB; RDSonA BV; RESURF; SJ; crystal defect;
Conference_Titel :
Electronics and Telecommunications (ISETC), 2014 11th International Symposium on
Conference_Location :
Timisoara
Print_ISBN :
978-1-4799-7266-1
DOI :
10.1109/ISETC.2014.7010736
