Single-ended ultra-low-power multistage rectifiers for passive RFID tags at UHF and microwave frequencies

K. Seemann, G. Hofer, F. Cilek, R. Weigel
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引用次数: 28

Abstract

The commercial significance of ubiquitous chips, especially of radio frequency identification devices (RFID), and the advantages compared to other identification technologies, for e.g. the barcode, has been discussed in several papers. In order to achieve higher operational distances and to improve the operational reliability of passive RFID tags, the design of integrated circuits with ultra-low power consumption and novel concepts for high-efficiency energy scavenging are an emerging task. This article deals with general limitations and novel systematically design approaches concerning rectification circuits for ultra-low power levels at UHF (ultra high frequencies) and microwave frequencies. By using the presented characteristic parameters it is possible to optimize multi-stage rectifiers at the ultra-low power domain and to verify the applicability of a given solid-state and assembly technology.
用于超高频和微波频率无源RFID标签的单端超低功耗多级整流器
无处不在的芯片,特别是射频识别设备(RFID)的商业意义,以及与其他识别技术(如条形码)相比的优势,已经在几篇论文中进行了讨论。为了实现更高的工作距离和提高无源RFID标签的工作可靠性,超低功耗集成电路的设计和高效能量清除的新概念是一个新兴的课题。本文讨论了超高频和微波频段超低功率整流电路的一般限制和新的系统设计方法。通过使用所提出的特性参数,可以在超低功耗领域优化多级整流器,并验证给定固态和组装技术的适用性。
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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