Study of Stepped Amplitude Distribution Taper for Microwave Power Transmission for SSPS

A novel stepped amplitude distribution (SAD) taper for microwave power transmission for space solar power satellite is proposed in this paper. The SAD taper is described by the summation of the Heaviside step functions. Through optimizing the "height" and "radius" of each step of...

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Veröffentlicht in:	IEEE transactions on antennas and propagation 2017-10, Vol.65 (10), p.5396-5405
Hauptverfasser:	Li, Xun, Duan, Baoyan, Song, Liwei, Zhang, Yiqun, Xu, Wanye
Format:	Artikel
Sprache:	eng
Schlagworte:	Antenna arrays Array antennas Density measurement Microwave amplifiers Microwave antennas microwave power transmission (MPT) Rectennas space solar power satellites (SSPS) stepped amplitude taper Transmitting antennas
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creator	Li, Xun Duan, Baoyan Song, Liwei Zhang, Yiqun Xu, Wanye
description	A novel stepped amplitude distribution (SAD) taper for microwave power transmission for space solar power satellite is proposed in this paper. The SAD taper is described by the summation of the Heaviside step functions. Through optimizing the "height" and "radius" of each step of the descriptive function, the maximal beam collection efficiency (BCE) with and without constraints on the radiation levels can be obtained. A large set of numerical experiments on continuous apertures and discrete antenna arrays are carried out. The results show that the obtained BCEs can be close to or even higher than those of the 10-dB Gaussian ones, which shows the superiority of the method. In addition, only several kinds of amplifiers are required in this method, and therefore, the cost and complexity of the system can be greatly reduced.
doi_str_mv	10.1109/TAP.2017.2734061
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The SAD taper is described by the summation of the Heaviside step functions. Through optimizing the "height" and "radius" of each step of the descriptive function, the maximal beam collection efficiency (BCE) with and without constraints on the radiation levels can be obtained. A large set of numerical experiments on continuous apertures and discrete antenna arrays are carried out. The results show that the obtained BCEs can be close to or even higher than those of the 10-dB Gaussian ones, which shows the superiority of the method. 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The SAD taper is described by the summation of the Heaviside step functions. Through optimizing the "height" and "radius" of each step of the descriptive function, the maximal beam collection efficiency (BCE) with and without constraints on the radiation levels can be obtained. A large set of numerical experiments on continuous apertures and discrete antenna arrays are carried out. The results show that the obtained BCEs can be close to or even higher than those of the 10-dB Gaussian ones, which shows the superiority of the method. 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The SAD taper is described by the summation of the Heaviside step functions. Through optimizing the "height" and "radius" of each step of the descriptive function, the maximal beam collection efficiency (BCE) with and without constraints on the radiation levels can be obtained. A large set of numerical experiments on continuous apertures and discrete antenna arrays are carried out. The results show that the obtained BCEs can be close to or even higher than those of the 10-dB Gaussian ones, which shows the superiority of the method. In addition, only several kinds of amplifiers are required in this method, and therefore, the cost and complexity of the system can be greatly reduced.</abstract><pub>IEEE</pub><doi>10.1109/TAP.2017.2734061</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0003-4176-590X</orcidid></addata></record>
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subjects	Antenna arrays Array antennas Density measurement Microwave amplifiers Microwave antennas microwave power transmission (MPT) Rectennas space solar power satellites (SSPS) stepped amplitude taper Transmitting antennas
title	Study of Stepped Amplitude Distribution Taper for Microwave Power Transmission for SSPS
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