基于压电悬臂梁的振动传感器设计与分析

2018 IEEE International Conference on System, Computation, Automation and Networking (ICSCA) Pub Date : 2018-07-01 DOI:10.1109/ICSCAN.2018.8541161

S. Bhuvana, Hoode Prathiksha, V. Sindhu, Hegde Vasudha

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引用次数: 6

摘要

自然界中各种来源的丰富的振动能量可用于能量收集，机器的振动可用于机器的状态监测。本文介绍了悬臂式压电振动传感器的设计与分析。利用Comsol Multiphysics软件对悬臂结构进行了设计，分析了产生的挠度、应力、应变和电压等参数。得到了在不同模态频率动压力作用下的动态响应，分析了挠度。利用该传感器检测不同振动源的可用振动能量，得到振动特征。模拟结构的固有频率约为56 Hz。类似尺寸的压电薄膜传感器FS-2513P(带有Ag电极和保护层)的固有频率为80 Hz。振动频率为71.28 Hz的振动源(柴油机)产生的最大电压为2.45mV。

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Design and Analysis of Piezoelectric Cantilever Based Vibration Sensor

The vibration energy available abundantly in nature by various sources can be used for energy harvesting purpose and the vibration of machines can be used for condition monitoring of the machines. This paper presents the design and analysis of cantilever based piezoelectric vibration sensor. The design of the cantilever-based structure is done using Comsol Multiphysics and different parameters like deflection, stress, strain and voltage generated are analyzed. The dynamic response is also obtained to analyze deflections under the application of dynamic pressure at different modal frequencies. The vibration energy available from different vibration sources are sensed using this sensor to get the vibration signature. The simulated structure has natural frequency of approximately 56 Hz. The piezoelectric film sensor FS-2513P of similar dimensions (with Ag electrodes and protective layer) has natural frequency of 80 Hz. The Vibration source (Diesel engine) with vibration frequency 71.28 Hz generated the maximum voltage 2.45mV.

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来源期刊

2018 IEEE International Conference on System, Computation, Automation and Networking (ICSCA)

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