Electronics Letters (Oct 2021)

Electrical characteristics of gated‐anode diodes based on normally‐off GaN HEMT structures for rectenna applications

  • Hidemasa Takahashi,
  • Yuji Ando,
  • Yoichi Tsuchiya,
  • Akio Wakejima,
  • Hiroaki Hayashi,
  • Eiji Yagyu,
  • Koichi Kikkawa,
  • Naoki Sakai,
  • Kenji Itoh,
  • Jun Suda

DOI
https://doi.org/10.1049/ell2.12269
Journal volume & issue
Vol. 57, no. 21
pp. 810 – 812

Abstract

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Abstract Here, a gated‐anode diode (GAD) is proposed where an anode electrode is formed by connecting a gate electrode and an ohmic electrode of a normally‐off GaN HEMT for a 5.8 GHz rectenna. A wide recessed gate GaN GADs were prepared and the recess length dependence of their electrical characteristics was investigated. Typical DC characteristics of the HEMTs are a threshold voltage (Vth) of +0.3 V and a maximum drain current (Imax) of 300 mA/mm. The GADs showed the characteristics of maximum forward current (If) of 350 mA/mm, reverse breakdown voltage (BVr) of 40 V, and off‐state capacitance (Coff) of 0.28 pF/mm by using optimized recess length. We constructed SPICE model of the GADs. The SPICE simulation predicted a rectifier efficiency of 81% and a DC output power of 10 W for bridge type 5.8 GHz rectifier using four GADs with each gate width of 0.8 mm.

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