阻抗匹配
电阻抗
输出阻抗
电气工程
电压
电压降
能量(信号处理)
发电机(电路理论)
电势能
电子工程
高效能源利用
高阻抗
限制
计算机科学
工程类
发电机
能量转换
能源管理
低压
材料科学
控制理论(社会学)
电力电子
电容
下降(电信)
发电
数码产品
电容器
能量收集
作者
Wenwei Huang,Zhiyuan Zhang,Han Mei,Shaodi Zheng,Shizhe Lin,Jianbo Tan,Chaoqian Chen,E Shiju,Zisheng Xu
标识
DOI:10.1002/admt.202501911
摘要
ABSTRACT Highly efficient, low‐frequency (<2 Hz) high‐impedance generators convert ambient mechanical energy to electrical energy; however, their high internal impedance causes most of the voltage to drop internally, limiting energy delivery to low‐impedance loads. Herein, we propose a theoretical framework for a novel single‐input, multi‐output (SIMO) switched‐capacitor circuit designed to overcome this impedance mismatch and achieve a high output energy at low impedance. When integrated with an alternating‐current dielectric generator (AC‐DEG), the system attains an ultra‐low optimal matching impedance of 280 Ω, delivering an energy output of 3.37 mJ (1685 mJ/m 2 ) per cycle and a short‐circuit charge output of 1.21 mC (605 mC/m 2 ) per cycle. Through reconfiguring output paths, the energy transfer efficiency can exceed 50%—far outperforming other energy management strategies. We demonstrate that this energy management strategy enables practical applications in powering low‐impedance electronic devices such as motors and batteries, paving the way for advanced self‐powered systems.
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