Login / Signup

Energy Harvester Based on an Eccentric Pendulum and Wiegand Wires.

Yi-Hsin ChenChien LeeYu-Jen WangYou-Yu ChangYi-Cheng Chen
Published in: Micromachines (2022)
This study proposed an energy harvester that combines an eccentric pendulum with Wiegand wires to harvest the kinetic energy of a rotating plate. The energy harvester converts the kinetic energy into electrical energy to power sensors mounted on the rotating plate or wheel. The kinetic model is derived from the Euler-Lagrange equation. The eccentric pendulum generates a swing motion from the direction variation of the centrifugal force and the gravitational force. The magnetic circuit is designed such that, during the swing motion, an alternating magnetic field is formed to induce the output voltage of the Wiegand wire. COMSOL software was used to simulate magnetic flux density and optimize the geometric parameters of magnets. Response surface methodology was used to formulate the output voltage model. Magnetic flux density affects output voltage dramatically. However, the output voltage is not sensitive to the gradient of magnetic flux density. The experimental results indicate that when the Wiegand wire is 14.2 mm from the magnet, the generation power is 0.118-1.15 mW, in a speed range of 240-540 rpm. When the Wiegand wire is 7.0 mm from the magnet, the generation power is 0.741-1.06 mW, in a speed range of 480-660 rpm.
Keyphrases
  • molecularly imprinted
  • high speed
  • body composition