Class-E Synchronous RF Rectifier: Circuit Formulation, Geodesic Trajectory, Time-Domain Simulation, and Prototype Experiment

Ryoya HONDA; Minoru MIZUTANI; Masaya TAMURA; Takashi OHIRA

doi:10.1587/transele.2023MMP0004

This article has now been updated. Please use the final version.

Class-E Synchronous RF Rectifier: Circuit Formulation, Geodesic Trajectory, Time-Domain Simulation, and Prototype Experiment

Ryoya HONDA, Minoru MIZUTANI, Masaya TAMURA, Takashi OHIRA

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Keywords: Wireless power transfer, class-E rectifier, linear algebra, impedance plane, Smith chart, hyperbolic geometry

JOURNAL RESTRICTED ACCESS Advance online publication

Article ID: 2023MMP0004

DOI https://doi.org/10.1587/transele.2023MMP0004

The final version of this article is now available: Vol. E106.C (2023), No. 11 pp. 698-706

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Abstract

This paper formulates a class-E synchronous RF rectifier from a new viewpoint. The key point is to introduce a matrix and convolute the DC terms into RF matrices. The explicit expression of input impedance is demonstrated in plane geometry. We find out their input impedance exhibits a geodesic arc in hyperbolic geometry under ZVS operation, where the theoretical RF-DC conversion efficiency results in 100%. We verify the developed theory both numerically (circuit simulation) and experimentally (6.78 MHz, 100 W). We confirm that the input impedance becomes a geodesic arc for a wide range of DC load resistance. The presented theory is quite elegant since it is based on a matrix-based formulation and plane-geometrical expression.

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