Electromagnetic vibrational harvester based on U-shaped ferromagnetic cantilever: A novel two-magnet configuration

•Low-cost U-shaped electromagnetic vibrational harvester displaying high power density is presented.•A ferrite magnet is incorporated as a “magnetic tip mass” to enhance magnetic flux changes.•Developed FEM-based model enables resonance frequency tuning with constant induced voltage.•Usable voltages to feed DC systems were rectified by a JFET oscillator starter circuit. Electromagnetic vibrational harvesters are low-cost devices featuring high-power densities and robust structures, often used for capturing the energy of environmental vibrations (civil infrastructures, transportation, human motion, etc.,). Based on Faraday’s law, energy generation relies on the modification of the magnetic field distribution within a magnetic element caused by mechanical vibrations inducing an electromotive force (EMF) in a pick-up coil. However, the practical implementation of this type of vibrational harvester is currently limited due to the reduced generated power under low-frequency vibrations. In this work, an electromagnetic vibrational harvester is experimentally characterized and analyzed employing magnetic circuit analysis. The harvester consists of a ferromagnetic U-shaped cantilever, a NdFeB magnet and a ferrite magnet used as “magnetic tip mass” to enhance the magnetic flux changes under vibrations of frequency