间歇微波功率传输到ZigBee设备的研究

T. Ichihara, T. Mitani, N. Shinohara
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引用次数: 32

摘要

本研究的目的是通过与无线传感器网络兼容的间歇微波功率传输来驱动或充电ZigBee设备。我们发现,在ZigBee设备的平均消耗功率下,间歇性微波功率传输驱动整流电路的效率很高。我们还证实了ZigBee设备可以在高功率密度下在间歇性微波照射下正确通信;而在微弱的功率密度下,在连续的微波照射下,其通信性能不稳定。我们最终证明了ZigBee设备在没有电池的情况下通过间歇性微波功率传输可以正常工作和通信。
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Study on intermittent microwave power transmission to a ZigBee device
The objective of the present study is to drive or charge a ZigBee device by intermittent microwave power transmission, which is compatible with the wireless sensor network. We found out that intermittent microwave power transmission drove the rectifier circuit with high efficiency at the average consumed power of the ZigBee devices. Also we confirmed that the ZigBee device could communicate correctly in high power density with intermittent microwave irradiation; whereas it could not communicate robustly in slight power density with continuous microwave irradiation. We finally demonstrated that the ZigBee device worked and communicated correctly without a battery by intermittent microwave power transmission.
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