The S-band GaN-based high power amplifier and rectenna for space energy transfer applications

2012 IEEE MTT-S International Microwave Workshop Series on Innovative Wireless Power Transmission: Technologies, Systems, and Applications Pub Date : 2012-05-10 DOI:10.1109/IMWS.2012.6215809

Y. Kobayashi, M. Hori, H. Noji, G. Fukuda, S. Kawasaki

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引用次数: 18

Abstract

Gallium nitride (GaN) is one of the most significant elements to achieve effective use of energy in space not only for communications but also for power transmissions. This is because that GaN has the features such as high efficiency, high breakdown voltage, and harsh environment robustness and it is expected to fit the requirements for space use. Using GaN, the flexibilities for future missions in terms of size, weight, and power consumption etc. will be improved significantly. In this research, as a high power and high efficiency device, use of a GaN device was tried in a high power FET amplifier and in a single shunt rectifier diode. Circuits operating at S-band were designed, produced, and evaluated experimentally with the DC-RF conversion of 63.3% in the power amplifier and with the RF-DC one of 35.5% in the rectifier diode. A wireless power transmission (WPT) experiment using HPA and rectenna was conducted. As a result, it was confirmed that a battery could be charged up to 133.7 Ws in about 1500 s (25 min) by the DC power generated by the rectifier, where the EIRP was 57.2 dBm, the rectifier input power was 32.5 dBm, and the distance between a power transmitter and the receiver was 1.2 m.

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用于空间能量传输应用的s波段氮化镓高功率放大器和整流天线

氮化镓(GaN)是实现空间能量有效利用的最重要元素之一，不仅用于通信，也用于电力传输。这是因为氮化镓具有高效率、高击穿电压和恶劣环境鲁棒性等特点，有望满足空间使用的要求。使用GaN，未来任务在尺寸、重量和功耗等方面的灵活性将得到显著提高。在本研究中，GaN器件作为一种大功率高效率器件，在大功率场效应管放大器和单并联整流二极管中进行了尝试。设计、制作了s波段工作电路，并进行了实验评估，其中功率放大器的DC-RF转换率为63.3%，整流二极管的RF-DC转换率为35.5%。利用HPA和整流天线进行了无线输电实验。实验结果表明，在EIRP为57.2 dBm，整流器输入功率为32.5 dBm，功率发射机与接收机之间的距离为1.2 m的条件下，利用整流器产生的直流功率在1500 s (25 min)左右为电池充电133.7 w。

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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2012 IEEE MTT-S International Microwave Workshop Series on Innovative Wireless Power Transmission: Technologies, Systems, and Applications

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