piezoelectric actuator 中文意思是什麼

piezoelectric actuator 解釋
壓電傳動裝置
  • piezoelectric : adj. 【物理學】壓電的。
  • actuator : n. 【機械工程】促動器;【電學】(電磁鐵)螺線管;【自動化】執行元件;激勵器。
  1. Novel piezoelectric precision step rotary actuator

    新型壓電精密步進旋轉驅動器
  2. Two - dimensional precise actuator driven by piezoelectric bimorph impact

    壓電雙晶片型二維慣性沖擊式精密驅動器
  3. The optimal sequence of piezoelectric actuator placements is obtained by analyzing the control sensitivities of piezoelectric actuators to various parts of the structure and the piezoelectric actuators can be arranged according to the sequence

    通過分析各位置上壓電作動器對結構各部分的控制靈敏度,獲得壓電作動器最佳控制效率的位置序列,並據此布置壓電作動器。
  4. The three control systems respectively were as follows : ( 1 ) the measuring part of the first one was displacement piezoelectric sensor. a pair of piezoelectric sensor / actuator was collocated by each side of the first solar array plate. the compensator was h ( s ) = 2395 - s ; ( 2 ) the measuring part of the second one was also displacement piezoelectric sensor. a pair of piezoelectric sensor / actuator was collocated by each side of the whole solarfan. tthe compensator was h ( s ) = 244s ; ( 3 ) the measuring part of the third one was velocity piezoelectric sensor. a pair of piezoelectric sensor / actuator was collocated by each side of the three solars array plates near to the body of satellite

    三種控制系統分別是: ( 1 ) 、採用壓電位移傳感器,壓電傳感器驅動器對同位布置於內板的邊緣,控制器補償函數為h ( s ) = 2395s ~ ( 1 2 ) ; ( 2 )採用壓電位移傳感器,壓電傳感器驅動器對同位布置於整個太陽帆板的邊緣,這是一種理想的情況,控制器補償函數為h ( s ) = 244s ~ ( 1 2 ) ; ( 3 )採用壓電速率傳感器,壓電傳感器驅動器對同位布置於靠近星體的三塊基板邊緣,控制器補償函數為h ( s ) = 2370s ~ ( 1 2 ) 。
  5. Piezoelectric actuator in active vibration control for ultra - precision turning machine

    超精密機床的壓電作動器隔振系統研究
  6. Piezoelectric elements were bonded on the plate as actuators and the input voltage of each actuator was determined by the velocity of its position and volume velocity of the plate was made zero, through which the sound radiation from the plate could be controlled

    在簡支薄板表面粘貼壓電片作為致動器,根據所處位置的速度確定輸入控制電壓,並使平板的體積速度為零,從而達到控制聲輻射的目的。
  7. Negative mode velocity feedback was adopted and the control voltage applied to each piezoelectric element acting as actuator was calculated to control the vibration of the beam

    採用模態速度負反饋進行回饋控制,以此計算出各個作為致動器的壓電片的控制電壓,以抑制懸臂梁的振動。
  8. First, the finite element dynamic models of the cantilever intact and damaged laminated composite cylindrical shells are established. the piezoelectric smart materials bonded on the laminated composite shell are used as both actuator and sensor

    首先,建立表面粘貼有壓電片材料的懸臂完好復合材料層合殼體及損傷復合材料層合殼體的有限元動力學模型,並求出其動力響應。
  9. Using sensitivity analysis, a design method of optimal piezoelectric actuator placement in composite adaptive plate is investigated

    摘要採用靈敏度分析方法,研究了復合材料板殼型自適應結構中壓電作動器的位置設計。
  10. The piezoelectric actuator becomes one of the most prospective components because of its outstanding advantage. but the hysteresis and creep character of the material restrict the development of this actuator. new stable characteristic tungsten bronze piezoelectric actuator was adopted as driving component in this article, we develop the anti - hysteresis control method through contrasting the crystal structure of the tungsten bronze actuator with which of the perovskite actuator, at the same time corresponding software and hardware were studied in order to prove the validity of this control method, and then demarcated the other characters of the actuators through lots of experiment results

    本研究選用了性能穩定的硬性鎢青銅型壓電陶瓷驅動器作為驅動元件,從壓電陶瓷驅動器遲滯產生的微觀機理入手,通過對比硬性鎢青銅型壓電陶瓷驅動器和軟性鈣鈦礦型壓電陶瓷驅動器的晶體結構,研製出壓電陶瓷驅動器抗遲滯驅動方法,設計了相應的軟硬體裝置以從實驗結果上證明這種方法的正確性,並對其他影響定位精度的因素進行了特性標定實驗。
  11. An optimal hankel norm approximation model reduction method is used to reduce the equations of motion to lower order size. it is shown that the method is steady, efficient by numerical emulating. firstly, the influence of viscoelastic layer thickness and material properties, piezoelectric actuator layers thickness on the vibration suppression are investigated

    採用最優hankel最小階逼近降階法對主被動混合阻尼結構的控制狀態方程進行降階,以附加主動約束阻尼層的梁結構為例,進行了數值模擬,結果表明:該方法是一種穩定的、高效的、魯棒性很好的降階方法。
  12. The procedure of the test is as follows : first, the piezoelectric stack has been examined to test the performance parameters of the piezoelectric material ; second, the 2 - x actuator has been functioned with different static voltage to test its capability ; last, function the 2 - x actuator with voltage with different frequencies to test its dynamic properties. all the output of the actuator has been measured by the laser vibration measurement

    首先對壓電堆進行試驗,驗證壓電材料的性能參數;再對推挽式雙x驅動器施加不同的靜電壓驅動它,驗證作動器的驅動能力,最後對推挽式雙x驅動器輸入不同頻率的電壓驅動,測量該驅動機構的動態特性,試驗均採用激光測試儀測量推挽式雙x驅動器的輸出特性。
  13. This new - active member includes a piezoelectric actuator, a micro - placement sensor to measure the output placement and output force

    該主動構件由壓電作動器、傳感器等組成,具有輸出位移和輸出力的功能。
  14. Experimental data from tests showed that the output range of a cymbal piezoelectric actuator is 6 times of a stack actuator with the same layers of the stack under the same voltage

    試驗結果表明,在相同驅動電壓下cymbal型復合壓電作動器的行程是疊堆式壓電作動器的6倍。
  15. The dissertation derives from the project “ piezoelectric platform for precision positioning using charge - feedback and nonlinear control method ” supported by national natural science foundation of china ( authorized no. 10376043 ). the principle on the displacement amplifying of the cymbal piezoelectric actuator and the designing of the precision positioning instrument of the cymbal piezoelectric actuator has been introduced in this paper

    本課題來源於國家自然科學資助基金項目「電荷反饋式壓電陶瓷精密定位機構及非線性控制技術」 (項目批準號: 10376043 ) 。本文研究了cymbal型壓電作動器的位移放大機理,設計了基於cymbal型壓電作動器的微進給機構。
  16. In order to deal with the nonlinearity and hysteresis of piezoceramics, a precise power amplifier circuit with charge - feedback loop was developed. and an electromechanical model of piezoelectric actuator is presented to demonstrate that charge - feedback control is prominently effective to reduce hysteresis, creep and to improve linearity

    本文針對壓電陶瓷存在非線性與滯后的問題,根據電荷反饋原理設計了精密功率放大電路和電荷反饋迴路;建立了壓電作動器的機電模型,證明了電荷反饋控制對于減小回滯現象、提高線性度有明顯的作用。
  17. Power supply is the key component in micro piezoelectric actuator ' s application

    壓電陶瓷驅動電源是壓電陶瓷微位移器的關鍵部件。
  18. Electromechanical response of a functionally gradient piezoelectric actuator based on pzt ceramics at resonance condition

    系梯度功能壓電驅動器的諧響應特性
  19. Adaptive structures with distributed piezoelectric systems are widely applied in many industries, such as aerospace industry. in this paper, the main achievements include : first, the laws and properties of piezoelectrics are discussed in detail and the selection of piezoelectric actuator is presented

    壓電自適應結構是利用壓電材料的性能,使結構具有承載、傳感和驅動能力,在航空航天等領域有著重要的應用前景。
  20. Finally, multi - function capacitance sensor that will be applied in the closed loop control of the piezoelectric actuator was initially designed

    最後,對用於壓電陶瓷驅動器閉環控制的多功能電容傳感器進行了初步的設計。
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