4.6 Article

Theoretical analysis and general characteristics for nonlinear vibration energy harvesters

期刊

出版社

IOP Publishing Ltd
DOI: 10.1088/1361-6463/ac453d

关键词

vibration energy harvester; nonlinear stiffness; nonlinear damping; harmonic balance method

资金

  1. Natural Science Foundation of Beijing Municipality [JQ20016]
  2. Beijing Science and Technology Plan Project [Z201100007720006]
  3. National Natural Science Foundation of China [52006003]

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This paper presents a systematic study on the output performance of nonlinear energy harvesters, using theoretical and numerical analysis. The study derives the general analytical expression for output power of systems with different combinations of nonlinear stiffness and damping. It is found that all nonlinear systems have a limit power determined by mass, acceleration, and damping. The results also reveal that asymmetrical damping has no effect on the output performance of symmetrical stiffness systems. Furthermore, the study investigates the influence of nonlinear coefficients on output power with matched load, and reveals a power function relationship between normalized power and matching resistance ratio. These findings provide valuable insights for the design and optimization of energy harvesters.
In this paper, we present a systematic theoretical and numerical study of the output performance of nonlinear energy harvesters. The general analytical expression of output power for systems with different combinations of nonlinear stiffness and nonlinear damping, as well as symmetrical and asymmetrical systems, have been derived based on harmonic balance method, observing compliance with numerical results. We theoretically prove that there is a limit power for all nonlinear systems which is determined exclusively by the vibrator mass, excitation acceleration, and mechanical damping. The results also indicate that for symmetrical stiffness systems, the asymmetrical damping components have no effect on the output performance. Additionally, we derived semi-analytical solutions of the matching loads and numerically investigated the influence of nonlinear coefficients on the output power with matched load. When the load matches device parameters and is much larger than the internal resistance, the equivalent time-average damping is equal to the mechanical damping. Although the matching load and output power vary with the nonlinear coefficients, the normalized power and matching resistance ratio follow a power function, named matching power line, which is independent of the structural parameters. With the improvement of the equivalent time-average short-circuit damping in the vibration range, the normalized power moves to the right end of the matching power line, and the output power approach to the limit power. These conclusions provide general characteristics of nonlinear energy harvesters, which can be used to guide the design and optimization of energy harvesters.

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