Vibration energy harvesting is receiving a considerable amount of interest as a means for powering wireless sensor nodes. This paper presents a small (component volume 0.1 cm3, practical volume 0.15 cm3) electromagnetic generator utilizing discrete components and optimized for a low ambient vibration level based upon real application data. The generator uses four magnets arranged on an etched cantilever with a wound coil located within the moving magnetic field. Magnet size and coil properties were optimized, with the final device producing 46 µW in a resistive load of 4 k? from just 0.59 m s-2 acceleration levels at its resonant frequency of 52 Hz. A voltage of 428 mVrms was obtained from the generator with a 2300 turn coil which has proved sufficient for subsequent rectification and voltage step-up circuitry. The generator delivers 30% of the power supplied from the environment to useful electrical power in the load. This generator compares very favourably with other demonstrated examples in the literature, both in terms of normalized power density and efficiency.
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机译:作为向无线传感器节点供电的一种手段,振动能量收集受到了广泛的关注。本文介绍了一种小型(组件体积为0.1 cm3,实际体积为0.15 cm3)的电磁发生器,该发生器使用分立的组件,并根据实际应用数据针对低环境振动水平进行了优化。该发生器使用四个磁体,这些磁体布置在蚀刻的悬臂上,而缠绕的线圈位于运动磁场内。磁体尺寸和线圈性能得到了优化,最终器件在4kΩ的电阻负载下产生46 µW的功率。在其52 Hz的共振频率下仅从0.59 m s-2加速度水平开始。从带有2300匝线圈的发电机获得428 mVrms的电压,事实证明该电压足以用于后续的整流和升压电路。发电机将环境提供的功率的30%传递给负载中的有用电功率。在标准化功率密度和效率方面,该发生器都与文献中的其他示例进行了比较。
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