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基于并联电感同步开关控制的振动能量回收方法研究 被引量:6

Vibration energy harvesting based on synchronized switch control of parallel inductor
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摘要 针对振动能量回收使用的并联电感同步开关(SSHI)控制方法研究中未考虑的控制损耗、储能负载和激励环境等问题,设计了一种基于电流监控、比较器、单片机和双向电子开关的低功耗回收控制电路。单片机通过比较器产生的中断信号控制双向开关适时闭合,成功实现了并联SSHI回收控制电路的功能。以储能装置为负载时,分析了整流电压、振子电容、激励幅值和频率对并联SSHI回收电路控制效果的影响,结果表明该方法在整流电压值较高、振子电容较大、激励频率较高、激励力较小时能够更有效地提高回收效率,为并联SSHI控制方法的应用奠定了一定的理论基础。 In order to improve efficiency of vibration energy harvesting and study effect of ambient exciting force and storage energy load, a low power synchronized switch control circuit of parallel inductor was proposed, it consisted of a current shunt monitor, a comparator, a microcomputer and a bidirectional electronic switch. When the microcomputer turned on or off the switch at the appropriate time according to the interrupt signal generated by the comparator, the control method for parallel synchronized switch harvesting on inductor (SSHI) could be achieved. In the case that the energy storage unit was considered as a load of SSHI, the effects of rectified voltage, piezoelectric oscillator capacitor, the amplitude and frequency of excitation on the efficiency were analyzed. The experimental results showed that the proposed method can improve the vibration harvesting efficiency in case of higher rectified voltage, smaller excitation amplitude, larger capacitor and excitation frequency; meanwhile, the results provide a theoretical basis for the application of SSHI.
作者 曹军义 任晓龙 周生喜 曹秉刚
机构地区 西安交通大学机械工程学院机械制造系统工程国家重点实验室
出处 《振动与冲击》 EI CSCD 北大核心 2012年第17期56-60,共5页 Journal of Vibration and Shock
基金 国家自然科学基金项目(50805113 51075317) 中央高校基本科研业务费专项资金资助项目
关键词 振动能量回收 并联SSHI 低功耗电路 vibration energy harvesting parallel synchronized switch harvesting on inductor low power circuit
分类号 TM282 [一般工业技术—材料科学与工程] TP27 [电气工程—电工理论与新技术]
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参考文献8

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同被引文献55

  • 1Roundy S,Wright P,Rabaey J.A study of low levelvibrations as a power source for wireless sensor nodes[J].Computer Communications,2003,26(11):1131-1144. 被引量:1
  • 2Shu Y,Lien I.Analysis of power output for piezoelectric energy harvesting systems[J].Smart Materials and Structures,2006,15(6):1499-1512. 被引量:1
  • 3Guyomar D,Badel A,Lefeuvre E,et al.Toward energy harvesting using active materials and conversion improvement by nonlinear processing[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on,2005,52(4);584-595. 被引量:1
  • 4Lefeuvre E,Audigier D,Richard C,et al.Buck-boostconverter for sensorless power optimization of piezoelectric energy harvester[J].Power Electronics,IEEE Transactions on,2007,22(5):2018-2025. 被引量:1
  • 5Kong N,Ha D,Erturk A,et al.Resistive impedance matching circuit for piezoelectric energy harvesting[J].Journal of Intelligent Material Systems and Structures,2010,21(13):1293-1302. 被引量:1
  • 6Lefeuvre E,Badel A,Richard C,et al.A comparison between several vibration-powered piezoelectric generators forstandalone systems[J].Sensors and Actuators A:Physical,2006,126(2):405-416. 被引量:1
  • 7Shu Y,Lien I,Wu W.An improved analysis of the SSHI interface in piezoelectric energy harvesting[J].SmartMaterials and Structures,2007,16(6):2253-2264. 被引量:1
  • 8Lallart M,Richard C,Garbuio L,et al.High efficiency,wide load bandwidth piezoelectric energy scavenging by ahybrid nonlinear approach[J].Sensors and Actuators A:Physical,2011,165(2):294-302. 被引量:1
  • 9Wu W,Wickenheiser A,Reissman T,et al.Modeling andexperimental verification of synchronized discharging techniques for boosting power harvesting from piezoelectric transducers[J].Smart Materials and Structures,2009,18(5):055012.1-055012.14. 被引量:1
  • 10Lallart M,Garbuio L,Petit L,et al.Double synchronized switch harvesting:a new energy harvesting scheme for efficient energy extraction[J].Ultrasonics,Ferroelectrics and Frequency Control,IEEE Transactions on,2008,55(10):2119-2130. 被引量:1

引证文献6

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振动与冲击
2012年 第17期

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