摘要
基于电磁感应原理,设计了一种无源无线自取能装置,并通过仿真与实验研究对其性能进行了验证。研究结果表明,该装置在一定距离范围内具有较高的取能效率,满足实际应用需求。同时通过对装置的环境适应性进行评估,证实了其在不同温度、湿度和电磁干扰条件下均能保持稳定性能。研究为无线传感器网络和物联网等领域提供了一种高效、环保的能源解决方案,具有较好的应用前景。
Based on the principle of electromagnetic induction,this study designed a passive wireless self harvesting device and verified its performance through simulation and experimental research.The research results indicate that the device has high energy harvesting efficiency within a certain distance range,meeting the practical application requirements.Meanwhile,by evaluating the environmental adaptability of the device,it was confirmed that it can maintain stable performance under different temperature,humidity,and electromagnetic interference conditions.The research provides an efficient and environmentally friendly energy solution for fields such as wireless sensor networks and the Internet of Things,with good application prospects.
作者
卢晶晶
梁秋曦
刘睿韬
卢丽丽
陈贤
LU Jingjing;LIANG Qiuxi;LIU Ruitao;LU Lili;CHEN Xian(Chongzuo Power Supply Bureau of Guangxi Power Grid Co.,Ltd.,Chongzuo 532103,China)
出处
《电工技术》
2025年第S1期37-39,共3页
Electric Engineering
关键词
无源无线自取能技术
电磁感应
能量传输效率
环境适应性
passive wireless self harvesting technology
electromagnetic induction
energy transmission efficiency
environmental adaptability
