Design and Experiment of a Permanent Magnet Tubular Linear Generator System Using Mechanical Vertical Vibration Energy
harvesting energy, linear vibration generator, mechanical resonant, finite element analysis, electrical power
Electromagnetic linear motors and actuators
Final Paper
Bo Zhang / Xi'an Polytechnical University
This paper presents a permanent magnet tubular linear generator system for powering passive sensors using vertical vibration harvesting energy. The system consists of a permanent magnet tubular linear vibration generator and electric circuits. By using the design of mechanical resonant movers, the generator is capable of converting low frequencies small amplitude vertical vibration energy into more regular sinusoidal electrical energy. The distribution of the magnetic field and electromotive force are calculated by Finite Element Analysis. The characteristics of the linear vibration generator system are observed. The experimental results show the generator can produce about 0.4W~1.6W electrical power when the vibration source’s amplitude is fixed on 2mm and the frequencies are between 13Hz and 22Hz.