Abstract
Most work from the last decade on the piezoelectric vibration energy harvester (PVEHs) focuses on how to increase its frequency bandwidth but ignores the effect of vibration direction on the output performance of the harvester. However, both the frequency and the direction of the vibration in a real environment are time-variant. Therefore, improving the capability of PVEH to harvest multi-directional vibration energy is also important. This work presents a direction self-tuning two-dimensional (2D) PVEH, which consists of a spring-mass system and a direction self-tuning structure. The spring-mass system is sensitive to external vibration, and the direction self-tuning structure can automatically adjust its plane perpendicular to the direction of the external excitation driven by an external torque. The direction self-tuning mechanism is first theoretically analyzed. The experimental results show that this direction self-tuning PVEH can efficiently scavenge vibration energy in the 2D plane, and its output performance is unaffected by vibration direction and is very stable. Meanwhile, the effect of the initial deflection angle and the vibration acceleration on the direction self-tuning time of the PVEH is investigated. The direction self-tuning mechanism can also be used in other PVEHs with different energy conversion methods for harvesting multi-direction vibration energy.
Highlights
Energy supply is a key issue in the development of modern society
A new type of energy harvester based on vibration energy collection has been widely studied
Thetotheoretical analysis shows that the piezoelectric plane can automatically which it is perpendicular the external excitation direction under outer torque
Summary
Energy supply is a key issue in the development of modern society. Traditional power modes, such as electric cables (complex installation) and battery installations (high replacement cost), are no longer suitable for powering various miniaturized sensors and devices. These miniaturized sensor nodes are widely distributed and installed in large quantities, but the energy level they need is very small, which requires a new method of energy supply. The piezoelectric vibration energy harvester (PVEH) has been widely studied due to its simple structure, high energy density, excellent voltage output, and easy integration with other devices
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