Abstract:
Vertical gallium nitride (GaN) p-n diodes have garnered significant interest for use in power electronics where high-voltage blocking and high-power efficiency are of con...Show MoreMetadata
Abstract:
Vertical gallium nitride (GaN) p-n diodes have garnered significant interest for use in power electronics where high-voltage blocking and high-power efficiency are of concern. In this article, we detail the growth and fabrication methods used to develop a large area (1 mm2) vertical GaN p-n diode capable of a 6.0-kV breakdown. We also demonstrate a large area diode with a forward pulsed current of 3.5 A, an 8.3- \text{m}\boldsymbol \Omega \cdot {\text{cm}}^{2} differential specific ON-resistance, and a 5.3-kV reverse breakdown. In addition, we report on a smaller area diode (0.063 mm2) that is capable of 6.4-kV breakdown with a differential specific ON-resistance of 10.2 \text{m}\boldsymbol \Omega \cdot {\text{cm}}^{2} , when accounting for current spreading through the drift region at a 45° angle. Finally, the demonstration of avalanche breakdown is shown for a 0.063-mm2 diode with a room temperature breakdown of 5.6 kV. These results were achieved via epitaxial growth of a 50- \mu \text{m} drift region with a very low carrier concentration of < 1\times10 15 cm−3 and a carefully designed four-zone junction termination extension.
Published in: IEEE Transactions on Electron Devices ( Volume: 69, Issue: 4, April 2022)