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随机激励下双稳态压电振动发电机的振动特性 被引量:5

Dynamic Characteristics of a Bistable Piezoelectric Vibration Generator under Random Excitation
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摘要 基于双稳态压电振动发电机系统参数的非线性,建立了随机激励环境下压电振动发电机的动力学模型。研究了振源频率改变、振源个数选取和振幅变化对系统输出响应的影响,分析了磁间距变化对系统双稳态特性和输出电压的影响。结果表明:当振源频率或振幅改变时,系统响应表现为小幅周期运动、大幅混沌运动和小幅周期运动。当多个振源激励时,压电振动发电机具有更大的谐振带宽和更高的能量转换效率。当磁间距为3.9 mm<d<6.6 mm时,系统具有双稳态特性,系统响应表现为大幅周期运动,此时压电振动发电机输出电压值最大。 The dynamic model of a piezoelectric vibration generator under random excitation was established based on the nonlinearity of its parameters. Influences of the changes of frequency and amplitude, and the choice of numbers of vibration sources on the system output response were studied. Effect of the magnetic distance d changes on the bistable characteristics and the system output voltages was analyzed. The results show that when the frequency or amplitude of the vibration source changes, the system response develops from small periodic motion to large chaotic motion, and then returns to the small periodic motion. Under the multi-source excitation, the piezoelectric vibration generator has larger resonant bandwidth and higher energy conversion efficiency. When 3.9 mm d 6.6mm, the system has bistable characteristics and vibrate with large period, and the output voltage of the piezoelectric vibration generator will get the maximum.
作者 何青 毛新华 褚东亮
机构地区 华北电力大学能源动力与机械工程学院
出处 《噪声与振动控制》 CSCD 2015年第2期36-40,共5页 Noise and Vibration Control
关键词 振动与波 压电发电机 非线性振动 动力学模型 动态响应 振动特性 vibration and wave piezoelectric generator nonlinear vibration dynamic model dynamic response vibration performance
分类号 O422.6 [理学—声学]
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  • 1尹军琪,祁庆民,王恒.变截面梁的等效质量计算[J].起重运输机械,1995(6):3-7. 被引量:4
  • 2LIU W Q,FORMOSA F,BADEL A,et al.Self-powered nonlinear harvesting circuit with a mechanical switch structure for a bistable generator with stoppers[J].Sensors and Actuators:A,2014,216(9):106-155. 被引量:1
  • 3BELTRN-CARBAJAL F,SILVA-NAVARRO G.Active vibration control in Duffing mechanical systems using dynamic vibration absorbers[J].Journal of Sound and Vibration,2014,333(14):3019-3030. 被引量:1
  • 4FAN K Q,CHANG J W,CHAO F B,et al.Design and development of a multipurpose piezoelectric energy harvester[J].Energy Conversion and Management,2015,96:430-439. 被引量:1
  • 5TEHRANI M G,ELLIOTT S J.Extending the dynamic range of an energy harvester using nonlinear damping[J].Journal of Sound and Vibration,2014,333(3):623-629. 被引量:1
  • 6CAO J Y,SYTA A,LITAK G,et al.Regular and chaotic vibration in a piezoelectric energy harvester with fractional damping[J].International Journal of Applied Electromagnetics and Mechanics,2015,47(3):847-860. 被引量:1
  • 7LIU W Q,FORMOSA F,BADEL A,et al.Self-powered nonlinear harvesting circuit with a mechanical switch structure for a bistable generator with stoppers[J].Sensors and Actuators:A,2014,216(3):106-115;. 被引量:1
  • 8HAME R L,WANG K W. A review of the recent research on vibra- tion energy harvesting via bistable systems [J]. Smart Materials & Structures,2015, (22) :1 - 12. 被引量:1
  • 9TANG L, YANG Y, SOH C K. Improving functionality of vibra- tion energy harvesters using magnets [ J ]. Journal of Intelligent Material Systems & Structures, 2012, 23 (13) : 1433 -1449. 被引量:1
  • 10ZHENG R, NAKANO K, HU H, et al. An application of sto- chastic resonance for energy harvesting in a bistable vibrating sys- tem [ J]. Journal of Sound & Vibration, 2014, 333 (12) : 2568 - 2587. 被引量:1

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噪声与振动控制
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