振动与冲击
振動與遲擊
진동여충격
JOURNAL OF VIBRATION AND SHOCK
2015年
2期
107-113
,共7页
石东雨%王宏涛%孟莹梅%张宝强
石東雨%王宏濤%孟瑩梅%張寶彊
석동우%왕굉도%맹형매%장보강
能量回收%压电效应%接口技术%机电转换
能量迴收%壓電效應%接口技術%機電轉換
능량회수%압전효응%접구기술%궤전전환
energy harvesting%piezoelectric effect%interface circuit%electromechanical conversion
设计基于同步电感及 buck-boost 转换器的接口技术—SCEI(Synchronous Charge Extraction and Inversion),完成该接口技术在恒定激振位移、恒定激振力情况下回收功率的理论分析及计算。理论计算表明,在恒定激振位移下忽略 buck-boost 转换效率时 SCEI 的回收功率大于 Parallel -SSHI 技术最大回收功率,且该回收功率与负载无关;在恒定激振力下 SCEI 回收功率与 SECE 技术特性相似;通过实验比较设计的 SCEI 技术与4种经典技术在相同激振位移下的回收功率。实验结果表明,SCEI 技术回收功率约为 SECE 的1.5倍,且与负载无关。
設計基于同步電感及 buck-boost 轉換器的接口技術—SCEI(Synchronous Charge Extraction and Inversion),完成該接口技術在恆定激振位移、恆定激振力情況下迴收功率的理論分析及計算。理論計算錶明,在恆定激振位移下忽略 buck-boost 轉換效率時 SCEI 的迴收功率大于 Parallel -SSHI 技術最大迴收功率,且該迴收功率與負載無關;在恆定激振力下 SCEI 迴收功率與 SECE 技術特性相似;通過實驗比較設計的 SCEI 技術與4種經典技術在相同激振位移下的迴收功率。實驗結果錶明,SCEI 技術迴收功率約為 SECE 的1.5倍,且與負載無關。
설계기우동보전감급 buck-boost 전환기적접구기술—SCEI(Synchronous Charge Extraction and Inversion),완성해접구기술재항정격진위이、항정격진력정황하회수공솔적이론분석급계산。이론계산표명,재항정격진위이하홀략 buck-boost 전환효솔시 SCEI 적회수공솔대우 Parallel -SSHI 기술최대회수공솔,차해회수공솔여부재무관;재항정격진력하 SCEI 회수공솔여 SECE 기술특성상사;통과실험비교설계적 SCEI 기술여4충경전기술재상동격진위이하적회수공솔。실험결과표명,SCEI 기술회수공솔약위 SECE 적1.5배,차여부재무관。
The interface techniques play a vital role in the piezoelectric energy harvesting system.Classical techniques including Standard,SECE,Series-SSHI,Parallel-SSHI techniques have been developed to improve the harvested power.In the paper,a new technique called SCEI (Synchronous Charge Exctraction and Inversion),including a synchronous inductor and a buck-boost converter,was presented and the theoretical harvested powers were calculated considering the circumstances of constant displacement amplitude and constant force amplitude respectively.Theoretical results show that the harvested power of SCEI technique is larger than the maximum harvested power of Parallel-SSHI when ignoring the buck-boost converter's efficiency under the circumstance of constant displacement amplitude.Furthermore, the harvested powers of the SCEI and SECE techniques have similar features when the generator is driven with constant driving force amplitude.Experimental measurements were carried out to present a comparison between Standard,SECE, Series-SSHI,Parallel-SSHI and SCEI techniques when the generator is driven with constant displacement amplitude.The experimental results show that the proposed technique dramatically increases the harvested power,which is not influenced by the load resistance value,by almost up to 150% compared with the SECE technique in the same vibration condition.