Double-Deck Metal Solenoids 3D Integrated in Silicon Wafer for Kinetic Energy Harvester

Wang, Nianying and Han, Ruofeng and Chen, Changnan and Gu, Jiebin and Li, Xinxin (2021) Double-Deck Metal Solenoids 3D Integrated in Silicon Wafer for Kinetic Energy Harvester. Micromachines, 12 (1). p. 74. ISSN 2072-666X

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Abstract

A silicon-chip based double-deck three-dimensional (3D) solenoidal electromagnetic (EM) kinetic energy harvester is developed to convert low-frequency (<100 Hz) vibrational energy into electricity with high efficiency. With wafer-level micro electro mechanical systems (MEMS) fabrication to form a metal casting mold and the following casting technique to rapidly (within minutes) fill molten ZnAl alloy into the pre-micromachined silicon mold, the 300-turn solenoid coils (150 turns for either inner solenoid or outer solenoid) are fabricated in silicon wafers for saw dicing into chips. A cylindrical permanent magnet is inserted into a pre-etched channel for sliding upon external vibration, which is surrounded by the solenoids. The size of the harvester chip is as small as 10.58 mm × 2.06 mm × 2.55 mm. The internal resistance of the solenoids is about 17.9 Ω. The maximum peak-to-peak voltage and average power output are measured as 120.4 mV and 43.7 μW. The EM energy harvester shows great improvement in power density, which is 786 μW/cm3 and the normalized power density is 98.3 μW/cm3/g. The EM energy harvester is verified by experiment to be able to generate electricity through various human body movements of walking, running and jumping. The wafer-level fabricated chip-style solenoidal EM harvesters are advantageous in uniform performance, small size and volume applications.

Item Type: Article
Uncontrolled Keywords: kinetic energy harvester; electromagnetic electricity generation; double-deck 3D metal solenoids; MEMS technology; micro-casting technology; wafer-level fabrication
Subjects: STM Repository > Engineering
Depositing User: Managing Editor
Date Deposited: 24 May 2024 05:36
Last Modified: 24 May 2024 05:36
URI: http://classical.goforpromo.com/id/eprint/651

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