Optimization of a SDOF Cantilever Beam Piezoelectric Energy Harvester with a Lump Mass at the End Tip
Zusammenfassung
With the development of low power
electronics and energy harvesting technology, selfpowered systems have become a research hotspot
over the last decade. The main advantage of selfpowered systems is that they require minimum
maintenance which makes them to be deployed in
large scale or previously inaccessible locations.
Therefore, the target of energy harvesting is to
power autonomous ‘fit and forget’ electronic system
over their lifetime. Some possible alternative energy
sources include photonic energy, thermal energy
and mechanical energy. The source of mechanical
energy can be a vibrating structure, a moving human
body or air water flow induced vibration. The
primary objective of this project was the
quantification of the vibration spectrum of an AC fan
machine, using an accelerometer to provide the
amplitude for the frequency of the machine. The
frequency (hz) and magnitude (m/s2
) of the signal
was obtained using Fast Fourier Transform analysis
from Matlab Signal Processing Tool (SPTOOL).[1]
The secondary objective was to analyze a
Measurement Specialties MiniSense 100 Vibration
Sensor modeled as a single degree of freedom,
SDOF, base excited unimorph piezoelectric film
energy harvester using a basic cantilevered beam
with mass at the tip configuration to calculate the
maximum power output produced by the system and
tuned the proposed design to reached a maximum
power generation. The same analysis was performed
on the data from the cantilever sensor and the
frequency of vibrations was obtained. The sensors
were installed on a rigid base in order to obtain a
higher stiffness and force transmissibility therefore
obtaining a strong vibration signal input acting on
the cantilevered beam. A wide range of research and
proposed models shows that the maximum power
output of a resonant energy harvester subjected to
an ambient vibration is reached when the natural
angular frequency (𝜔𝑛) of the mass-spring structure
is tuned to the natural frequency of ambient
vibrations (𝜔).
Key Terms Energy Harvester, Natural
Frequency, Resonance, Vibration Spectrum.