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Experiments on power optimization for displacement-constrained operation of a vibration energy harvester
[摘要] This paper presents experiments on how to approach the physical limits on power from vibration energy harvesting under displacement-constrained operation. A MEMS electrostatic vibration energy harvester with voltage-control of the system stiffness is used for this purpose. The power saturation problem, when the proof mass displacement reaches maximum amplitude for sufficient acceleration amplitude, is shifted to higher accelerations by use of load optimization and tunable electromechanical coupling k2. Measurement results show that harvested power can be made to follow the optimal velocity-damped generator also for a range of accelerations that implies displacement constraints. Comparing to the saturated power, the power increases 1.5 times with the optimal load and an electromechanical coupling k2=8.7%. This value is 2.3 times for a higher coupling k2=17.9%. The obtained system effectiveness is beyond 60% under the optimization. This work also shows a first demonstration of reaching optimal power in the intermediate acceleration-range between the two extremes of maximum efficiency and maximum power transfer.
[发布日期]  [发布机构] Department of Micro- and Nanosystem Technology, Buskerud and Vestfold University College, Campus Vestfold, Raveien 215, Borre; 3184, Norway^1
[效力级别] 能源学 [学科分类] 
[关键词] Acceleration amplitude;Displacement constraint;Maximum Efficiency;Maximum power transfer;Power Optimization;System effectiveness;Vibration energy harvesters;Vibration energy harvesting [时效性] 
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