Antenna Considerations for Retail Beamed Power Delivery in India

2011 International Symposium on Electronic System Design Pub Date : 2011-12-19 DOI:10.1109/ISED.2011.66

N. Komerath, A. Kar, R. Pant

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引用次数: 5

Abstract

Past work has shown the relevance of retail electric power delivery in developing areas where the market for micro devices outpaces the power grid infrastructure. Antenna size requirements imply logically that frequencies above 100 GHz must be used for viable power transmission. A power beaming architecture based on near-millimeter waves can enable power exchange at intercontinental, littoral and local levels, enabling participation of micro renewable generators and rural populations. Building on a survey of technological developments, the paper starts the requirements definition for millimeter wave power antenna design. Lighter than air aerostat platforms enable longer horizontal paths to be shifted above the dense, moist lower atmosphere, with vertical transmission between the ground and the aerostat occurring through millimeter wave guides built into tethers. Ground antennae may be integrated with solar photovoltaic panels for multiple uses. The option of transmitting power from local micro generators rather than storing locally, favors the use of technology-intensive mass-produced solid state devices that integrate conversion, transmission, reception and phase variation for beam pointing.

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印度零售波束电力输送的天线考虑

过去的工作表明，在微型设备市场超过电网基础设施的发展中地区，零售电力输送具有相关性。天线尺寸要求从逻辑上意味着，必须使用100千兆赫以上的频率才能进行可行的电力传输。基于近毫米波的电力传输架构可以实现洲际、沿海和地方层面的电力交换，使微型可再生能源发电机和农村人口能够参与其中。在概述技术发展的基础上，本文开始了毫米波功率天线设计的需求定义。浮空器平台比空气轻，可以在密集潮湿的低层大气上方移动更长的水平路径，地面和浮空器之间的垂直传输通过内置在缆绳中的毫米波波导进行。地面天线可与太阳能光伏板集成，用于多种用途。从当地微型发电机发射电力而不是在当地储存电力的选择，有利于使用技术密集型大规模生产的固态设备，这些设备集成了转换、发射、接收和相位变化，用于波束指向。

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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2011 International Symposium on Electronic System Design

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