Crystals (Apr 2022)

Impact of Anode Thickness on Breakdown Mechanisms in Vertical GaN PiN Diodes with Planar Edge Termination

  • Mona A. Ebrish,
  • Matthew A. Porter,
  • Alan G. Jacobs,
  • James C. Gallagher,
  • Robert J. Kaplar,
  • Brendan P. Gunning,
  • Karl D. Hobart,
  • Travis J. Anderson

DOI
https://doi.org/10.3390/cryst12050623
Journal volume & issue
Vol. 12, no. 5
p. 623

Abstract

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GaN vertical PiN diodes with different anode thicknesses were fabricated on three native GaN wafers with the same p-layer doping concentrations, and planar hybrid edge termination. The breakdown behavior in terms of the breakdown voltage and the electroluminescence were studied as functions of the anode thickness. A repeatable avalanche breakdown and highest breakdown voltage were measured with the thinnest anode of 300 nm and with the thinnest edge termination region. This indicates the efficacy of the nitrogen-implanted hybrid edge termination design that comprises of junction termination and guard rings hybrid design. As the anode thickness increases, the edge termination thickness increases, and the devices exhibit lower breakdown voltages and less robust breakdown characteristics, often destructive. From this study, we also conclude that a very high p-layer doping of 2 × 1019 cm−3 is not s practical doping level, because it is too sensitive to the edge termination thickness.

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