Frequency response locking of electromagnetic vibration-based energy harvesters using a switch with tuned duty cycle

Q2 Engineering
Aboozar Dezhara
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引用次数: 1

Abstract

Abstract It is proposed to tune linear electromagnetic vibration-based energy harvesters so that they will achieve an optimum case regardless of the base amplitude or excitation frequency of the environment. The author designed the optimum coil and load parameters as well as the optimum acceleration amplitude and vibration frequency of the magnet for known values of three mechanical parameters (spring constant, mass, and mechanical damping coefficient) so that the optimum parameters will remain constant upon switching. As the vibration frequency of the magnet deviates from the optimal value, the switch turns on and off to compensate for the deviation so that the maximum power entering the electrical domain does not change. The deviation is limited to frequency or base amplitude acceleration. Other optimum parameters are fixed values. They are designed so that they can handle the maximum power that is delivered to the electrical domain.
使用调谐占空比开关的基于电磁振动的能量采集器的频率响应锁定
摘要提出对基于线性电磁振动的能量采集器进行调谐,使其无论环境的基幅或激励频率如何都能达到最佳状态。在弹簧常数、质量和机械阻尼系数三个机械参数已知的情况下,设计出最优线圈和负载参数,以及磁体的最优加速度幅值和振动频率,使最优参数在切换时保持不变。当磁体的振动频率偏离最优值时,开关打开和关闭以补偿偏差,从而使进入电域的最大功率不变。偏差仅限于频率或基幅加速度。其他最佳参数为固定值。它们的设计使它们能够处理传输到电气领域的最大功率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Energy Harvesting and Systems
Energy Harvesting and Systems Energy-Energy Engineering and Power Technology
CiteScore
2.00
自引率
0.00%
发文量
31
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