High-Efficiency Silicon Carbide (SiC) Converters. Delivery Order 0001: Development of High-Temperature, High-Power, High-Efficiency, High-Voltage Converters Using Silicon Carbide

Abstract

A design based on a self- aligned, gate-implanted, trenched source-gate junction FET was selected for its near term technological readiness and its long term manufacturability. This project concentrated on several key processes required for the realization of a viable VJFET fabrication technology, namely, 1) Development of silicon carbide dry (plasma) etches; 2) Development of appropriate edge termination technology; and 3) Development of implantation and annealing recipes core to the design. Semiconductor devices, principally the Schottky barrier diode and the PiN junction rectifier, were fabricated to test design assumptions and to evaluate new process steps. The principal accomplishments of the effort can be summarized as follows: 1) The completion of a design for a 600-V self-aligned, gate-implanted, trench VJFET, shown to deliver blocking voltages in excess of 800 V, an specific on resistance as low as 5 mohm-cm2; 2) The development of critical VJFET and rectifier device fabrication processes, and 3) The demonstration of a multi-wafer PiN diode lot of 1.5 kV PiN diodes.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 2004

Accession Number

ADA426458

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