微波无线传输综合波束发射天线系统综述

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of microwaves Pub Date : 2023-07-10 DOI:10.1109/JMW.2023.3285825
Ping Lu;Mahmoud Wagih;George Goussetis;Naoki Shinohara;Chaoyun Song
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引用次数: 0

摘要

近年来,微波无线功率传输(MWPT)已成为一种很有前途的技术,通过无导线接收辐射功率并将其转换为直流电来提供能量。高的传输效率对于提高MWPT系统的性能至关重要。为了应对传播损耗的挑战,使用发射天线的波束合成引起了人们的极大关注,从而产生了几种合成方法,包括微扰波束、平顶波束、非衍射波束、超增益/超定向波束、聚焦波束和自适应波束形成技术,如时间反转方法。本综述涵盖了MWPT变送器的这些先进波束合成技术,并对不同合成波束进行了详细比较。文章对当前的设计和现有的技术挑战进行了深入的讨论,并对未来的研究方向提出了建议。尽管波束合成可以显著提高传输效率,但整个MWPT系统的整体功率传输效率仍然需要提高,因为包括阻抗匹配在内的性能目前仅在部件级别考虑,而不是在系统级别考虑。此外,当使用先进的束合成技术时,由于所涉及的高成本和大尺寸,高功率(≥kW)和长距离(≥km)MWPT的工程和实施挑战成为重大问题。综述得出的结论是,合成梁的现有技术仍然需要长期的努力,以满足实现高效MWPT系统的现实工程要求。波束合成技术和综合系统匹配/优化的联合利用被确定为一个研究方向,有可能实现高效的MWPT系统,在陆地和天基MWPT应用中产生可预见的影响。这篇综述为长距离、高功率MWPT系统中发射机天线的设计奠定了坚实的基础,并为未来高效MWPT系统的设计提供了新的见解。
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A Comprehensive Survey on Transmitting Antenna Systems With Synthesized Beams for Microwave Wireless Power Transmission
In recent years, microwave wireless power transmission (MWPT) has emerged as a promising technology for supplying energy by receiving radiative power without wires and converting it into DC power. A high transmission efficiency is crucial for improving the performance of MWPT systems. To address the challenge of propagation loss, beam synthesis using transmitting antennas has gained significant attention, resulting in several synthesis methods becoming available, including whisper beams, flat-top beams, non-diffractive beams, supergain/superdirective beams, focused beams and adaptive beamforming technique such as time reversal methods. This comprehensive review covers these advanced beam synthesis techniques for MWPT transmitters and provides a detailed comparison of different synthesized beams. The article includes an in-depth discussion on current designs and existing technological challenges, as well as suggestions for future research directions. Although beam synthesis can substantially improve the transmission efficiency, the overall power transfer efficiency of the entire MWPT system still requires improvement as the performance, including impedance matching, is currently only considered at a component level and not at a system level. Furthermore, when using advanced beam synthesis techniques, the engineering and implementation challenges of high power (≥kW) and long-distance (≥km) MWPT become significant issues due to the high cost and large size involved. The review concludes that existing technologies for synthesized beams still require significant long-term efforts to meet the realistic engineering requirements for achieving highly efficient MWPT systems. The joint utilization of beam synthesis techniques and comprehensive system matching/optimization is identified as a research direction with the potential to realize highly efficient MWPT systems, offering foreseeable impacts in both terrestrial and space-based MWPT applications. This review serves as a solid foundation for the design of transmitter antennas in long-distance, high-power MWPT systems, and furthermore provides novel insights for future designs of highly efficient MWPT systems.
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CiteScore
10.70
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审稿时长
8 weeks
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Front Cover Table of Contents Introduction to the Fall 2024 Issue IEEE Microwave Theory and Technology Society Information Over-the-Air Phase Noise Spectral Density Measurement for FMCW Radar Sensors
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