寄生在鞋子里的能量收集

Digest of Papers. Second International Symposium on Wearable Computers (Cat. No.98EX215) Pub Date : 1998-10-19 DOI:10.1109/ISWC.1998.729539

J. Kymissis, Clyde Kendall, J. Paradiso, N. Gershenfeld

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引用次数: 771

摘要

随着微电子的电力需求不断降低，环境能源可以开始取代某些可穿戴子系统中的电池。本着这种精神，这篇论文研究了三种不同的装置，它们可以内置在鞋子里(多余的能量很容易被收集)，并在走路时“寄生”地产生电力。其中两种是压电性质的:一种是由压电陶瓷复合材料制成的单晶片，另一种是由多层PVDF箔片制成的木板。第三种是装在鞋上的旋转磁力发电机。给出了这些系统的测试结果，讨论了它们的优缺点，并提出了改进建议和在可穿戴系统中的潜在应用。作为一个自供电的应用实例，在压电鞋周围建立了一个系统，当佩戴者行走时，该系统会周期性地广播数字RFID。

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Parasitic power harvesting in shoes

As the power requirements for microelectronics continue decreasing, environmental energy sources can begin to replace batteries in certain wearable subsystems. In this spirit, this paper examines three different devices that can be built into a shoe, (where excess energy is readily harvested) and used for generating electrical power "parasitically" while walking. Two of these are piezoelectric in nature: a unimorph strip made from piezoceramic composite material and a stave made from a multilayer laminate of PVDF foil. The third is a shoe-mounted rotary magnetic generator. Test results are given for these systems, their relative merits and compromises are discussed, and suggestions are proposed for improvements and potential applications in wearable systems. As a self-powered application example, a system had been built around the piezoelectric shoes that periodically broadcasts a digital RFID as the bearer walks.

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Digest of Papers. Second International Symposium on Wearable Computers (Cat. No.98EX215)

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