WPT Performance Analysis on Antenna Height Dependency between Circuit-Shape Leaky Waveguide and λ/2 Wavelength Dipole Antenna

2022 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC) Pub Date : 2022-09-05 DOI:10.1109/apwc49427.2022.9899954

M. Nakatsugawa, Y. Kanaya, T. Maruyama, M. Omiya, Y. Tamayama

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Abstract

Antenna height dependency of the wireless power transmission (WPT) performance between a circuit-shape leaky waveguide and a λ /2 wavelength dipole antenna was simulated by the FDTD method. Microwave snow melting using microwave heating have been proposed to reduce snow removal workloads [1] . As a device to radiate microwaves to melt snow, the circuit-shape leaky waveguide with slot openings was proposed [2] . A pair of straight waveguides with slots and a pair of semicircular waveguides were connected in series like a car circuit so that a power fed from a feeding point could travel along the circuit-shape waveguide. The waveguide’s cross section was in line with WR-430. The feeding point was set at near one of borders between the straight and semicircular parts. Their S -parameters between the waveguide and a λ /2 dipole antenna located 15-mm or 30-mm above the waveguide were simulated by the FDTD method, from which WPT efficiencies were calculated.

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电路型漏波导与λ/2波长偶极子天线天线高度相关性的WPT性能分析

利用时域有限差分法模拟了漏波导与λ /2波长偶极子天线之间的天线高度依赖性。利用微波加热技术进行微波融雪可以减少除雪工作量[1]。作为一种辐射微波融雪的器件，提出了带槽开口的电路型漏波导[2]。一对带槽的直波导和一对半圆波导像汽车电路一样串联在一起，这样从馈电点输入的电力就可以沿着电路形状的波导传播。波导截面符合WR-430标准。进给点设置在直线和半圆零件之间的边界附近。利用时域有限差分法模拟了波导与波导上方15mm或30mm的λ /2偶极子天线之间的S参数，并以此计算了WPT效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC)

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