Affiliation:
1. Northrop Grumman Electronic Systems
2. APEI Inc.
3. U.S. Army Research Laboratory
Abstract
High-voltage normally-on VJFETs of 0.19 cm2 and 0.096 cm2 areas were manufactured in
seven photolithographic levels with no epitaxial regrowth and a single ion implantation event. A self
aligned guard ring structure provided edge termination. At a gate bias of -36 V the 0.096 cm2 VJFET
blocks 1980 V, which corresponds to 91% of the 12 μm drift layer’s avalanche breakdown voltage
limit. It outputs 25 A at a forward drain voltage drop of 2 V (368 A/cm2, 735 W/cm2) and a gate
current of 4 mA. The specific on-resistance is 5.4 mΩ cm2. The 0.19 cm2 VJFET blocks 1200 V at a
gate bias of -26 V. It outputs 54 A at a forward drain voltage drop of 2 V (378 A/cm2, 755 W/cm2) and
a gate current of 12 mA, with a specific on-resistance of 5.6 mΩ cm2. The VJFETs demonstrated low
gate-to-source leakage currents with sharp onsets of avalanche breakdown.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Cited by
10 articles.
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