Mahmoud Wagih, N. Hillier, S. Yong, A. Weddell, S. Beeby
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引用次数: 3
摘要
可持续的无电池运行是可穿戴电子纺织品的要求。这项工作提出了一个完整的可穿戴的基于纺织品的射频能量采集器和能量存储模块。整流天线(整流天线)接收来自免许可证发射器的入射低于1 GHz的射频功率,并将其转换为具有高达90%效率的直流电,从低于4 mW的射频功率输出8 V直流。一个喷涂的室内纺织7.1 mF超级电容器被集成为一个能量存储单元。利用电化学阻抗谱对超级电容器的阻抗进行了表征,得到了一个四支路模型。7.1 mF的纺织超级电容器在与无线电源1.2米的距离下,在11秒内充电到1 V (3.55 mJ),显示出超过15%的端到端效率,这是纺织超级电容器从集成柔性能源中获得的最高充电效率。
Wearable E-Textile Wireless RF Power Supply based on a Textile Supercapacitor and a Flexible Rectenna Filament
Sustainable battery-free operation is a requirement for wearable electronic textiles. This work presents a complete wearable textile-based radio frequency energy harvester and an energy storage module. The rectifying-antenna (rectenna) receives incident sub-1 GHz RF power from a license-free transmitter and converts it to DC with up to 90% efficiency and 8 V DC output from under 4 mW of RF power. A spray-coated in-house textile 7.1 mF supercapacitor is integrated as an energy storage unit. Electrochemical Impedance Spectroscopy has been used to characterize the supercapacitor’s impedance and a four-branch circuit model has been obtained. The 7.1 mF textile supercapacitor has been demonstrated charging to 1 V (3.55 mJ) in under 11 seconds at 1.2 m separation from a wireless power source, demonstrating over 15% end-to-end efficiency, the highest charging efficiency of a textile supercapacitor from an integrated flexible energy source.
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