Optimum value analysis of vibration response reduction in translational, rolling, and pitching direction of the primary system and voltage generation by cantilever piezoelectric vibration absorber (CPVA) mechanism

W. Hendrowati, H. Guntur, A. A. A. Daman, A. M. Firdaus
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Abstract

The CPVA (Cantilever Piezoelectric Vibration Absorber) is a mechanism that combines working principles of DVA and energy harvesting to reduce vibration while generating voltage. The system’s response that need to be reduced by the CPVA is a plat as a primary mass which has 3 degree-of-freedom those are translation, rolling, and pitching vibration direction. The optimum configuration of this mechanism has the objective in order to reach a maximum percentage of reduction while generating voltage. The variation of piezoelectric’s amount and several nodes position where its mechanism is installed on the primary system need to be optimally selected to implement satisfactory performance. Simulation provides valuable insights in dynamical characteristics in each nodes and results the optimum value of the reduction and voltage generation in the 8th node position with the amount of 100 pieces of piezoelectric, which succeed for reducing translational, rolling, and pitching direction up to 79.8%; 76.1%; and 79.69% respectively.The CPVA (Cantilever Piezoelectric Vibration Absorber) is a mechanism that combines working principles of DVA and energy harvesting to reduce vibration while generating voltage. The system’s response that need to be reduced by the CPVA is a plat as a primary mass which has 3 degree-of-freedom those are translation, rolling, and pitching vibration direction. The optimum configuration of this mechanism has the objective in order to reach a maximum percentage of reduction while generating voltage. The variation of piezoelectric’s amount and several nodes position where its mechanism is installed on the primary system need to be optimally selected to implement satisfactory performance. Simulation provides valuable insights in dynamical characteristics in each nodes and results the optimum value of the reduction and voltage generation in the 8th node position with the amount of 100 pieces of piezoelectric, which succeed for reducing translational, rolling, and pitching direction up to 79.8%; 76.1%; and 79.69% ...
主系统平动、横摇、俯仰方向减振及悬臂式压电减振器产生电压的最优值分析
悬臂式压电减振器(CPVA)是一种结合了DVA和能量收集的工作原理,在产生电压的同时减少振动的机构。需要通过CPVA减小系统响应的是一个具有平移、滚动和俯仰三个振动方向的主质量平台。该机构的最佳配置的目的是在产生电压的同时达到最大的降低百分比。为了获得满意的性能,需要优化选择压电体数量的变化和其机构安装在主系统上的几个节点位置。仿真得到了各节点的动态特性,得到了在第8个节点位置的减振和电压产生的最优值,即100片压电片的数量,成功地减少了平移、滚动和俯仰方向达79.8%;76.1%;分别为79.69%。悬臂式压电减振器(CPVA)是一种结合了DVA和能量收集的工作原理,在产生电压的同时减少振动的机构。需要通过CPVA减小系统响应的是一个具有平移、滚动和俯仰三个振动方向的主质量平台。该机构的最佳配置的目的是在产生电压的同时达到最大的降低百分比。为了获得满意的性能,需要优化选择压电体数量的变化和其机构安装在主系统上的几个节点位置。仿真得到了各节点的动态特性,得到了在第8个节点位置的减振和电压产生的最优值,即100片压电片的数量,成功地减少了平移、滚动和俯仰方向达79.8%;76.1%;79.69%……
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