勵磁機電磁鐵 的英文怎麼說

中文拼音 [diàntiě]
勵磁機電磁鐵 英文
exciter magnet
  • : Ⅰ動 (勸勉) encourage; exert oneself Ⅱ名詞(姓氏) a surname
  • : 名詞1. [物理學] (磁性; 能吸引鐵、鎳等的性質) magnetism 2. (瓷) porcelain; china
  • : machineengine
  • : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
  • : Ⅰ名詞1 (金屬元素) iron (fe) 2 (指刀槍等) arms; weapon 3 (姓氏) a surname Ⅱ形容詞1 (形容...
  • 勵磁 : [電工] excitation; field; exciting; energizing勵磁波 field wave; 勵磁場 exciting field; 勵磁電動...
  • 機電 : electromechanical機電設備 electromechanical equipment; electromechanical device
  • 磁鐵 : [物理學] magnet; ferromagnet; magnetic-iron
  1. This paper researches and analyses the developments of web technology and magnetostrictive transducers from world wide region. the paper also analyes the characteristics curve of magnetostrictive transducers based on its equivalent circuit and researches the method how to make sure its syntony frequency and its electric simulation network parameters. at the same time, by using jsp technology, a magnetostrictive transducer electric simulation application is designed based on b / s three - tier system structure. the experiment data is fitted by curve fitting module. the equivalent input impedance of it with stimulate loop is separated based on the results of curve fitting and the syntony frequency and electric simulation network parameters of magnetostrictive transducers is determined by the input impedance. the method presented in this paper can determine the syntony frequency and electric simulation network parameters of magnetostrictive transducers with a better accuracy than the testing method of syntony & anti - synton y. further more, jsp, the advanced technology at current, has been used to realize a magnetostrictive transducer web electric simulation system. the system has good human computer interface and the function of resource sharing and information publishing. the research of this paper and its achievements have some practical merits in the researchful and applied fields of magnetostrictive transducer

    用java編程語言編寫的曲線擬合模塊,對輸入的實驗數據進行了最小二乘法的曲線擬合;根據曲線擬合結果可從帶激線圈的致伸縮換能器的輸入阻抗中分離出致伸縮換能器芯在無激流時由械振動形成的等效輸入阻抗,並由此輸入阻抗確定致伸縮換能器的諧振頻率及氣模擬網路參數。本課題提出的方法與傳統的諧振?反諧振法相比,能更準確地確定致伸縮換能器的諧振頻率及其氣網路參數。同時,採用當前比較先進的web技術,實現了基於jsp的致伸縮換能器web氣模擬系統,該系統具有良好的人界面和資源共享、信息發布功能。
  2. Permanent magnet synchronous motors ( pmsm ) have the advantage of not requiring any magnetizing current and easy to control. they are widely used in high performance servo systems

    同步轉子由永久產生,因其路結構簡單,控制方便,而廣泛應用於高性能的伺服系統中。
  3. Under windows nt and labview development environment, using the linear fit module, exponential fit module > general polynomial fit module of labview to design a method for fitting the experiment data, the results of curve fitting indicate that the purpose of general polynomial fitting is better than the rest. separating the equivalent input impedance of magnetostrictive transducers without stimulate current from input impedance of it with stimulate loop based on the results of curve fitting, and determining the syntony frequency and electric simulation network parameters of magnetostrictive transducers by this input impedance. finally, with labview network functions, realizing magnetostrictive transducer electric simulation system based on web server and discussing a scheme for this system network by datasocket. the method of this paper can more accurately determine the syntony frequency and electric simulation network parameters of magnetostrictive transducers than the testing method of syntony & anti - syntony. at the same time, discussing virtual instrument measurement system and how to realize magnetostrictive transducer electric simulation network system by labview network functions of network virtual instrument measurement development environment

    在windowsnt系統環境和labview虛擬儀器技術開發平臺下,首次利用labview中的直線擬合模塊、指數擬合模塊以及多項式擬合模塊,設計了一種對實驗所得數據進行曲線擬合的方法,對三種擬合方法進行了比較,曲線擬合結果表明,多項式擬合方法相對于其它兩種擬合方法效果更好;根據曲線擬合的結果可從帶激線圈的致伸縮換能器的輸入阻抗中分離出致伸縮換能器芯在無激流時械振動形成的等效輸入阻抗,並由此輸入阻抗確定了致伸縮換能器的諧振頻率及其氣模擬網路參數;最後通過labview提供的網路功能,實現了基於web服務器的致伸縮換能器氣模擬虛擬儀器測試系統,並探討了通過datasocket技術實現該系統網路化的方案。
  4. The system takes both advantages, the former is fast and convenient characteristics of dasylab in building a control and measure system, and the latter is the powerful program function and abundant control button of labwindows / cvi. it can acquire, analysis and save the real - time data in the experiments of the lim and electromagnet meanwhile, it can control the start / stop of the lim. electromagnet and dc motor, as well as it can control the change of the voltage and frequency of the lim. the exciting windings voltage and rotor windings voltage of the dc motor

    整個測控系統利用了dasylab組建採集分析系統的簡單快捷和labwindows cvi豐富的控制項與強大的編程功能,將兩者的優點有的結合起來,可以完成直線試驗中的數據採集、分析、存儲,並且可以控制試驗中直線、直流的啟動與停止,對直線繞組壓、直線繞組壓頻率、直流繞組壓、直流樞繞組壓、繞組壓的大小進行控制。
  5. The observer makes use of motor parameters to estimate speed, but these parameters ( stator and rotor resistance, magnetizing inductance ) will vary because of the change of environmental temperature, iron loss and main flux saturation. so parameter variation will lead to the error of estimation, the purpose of this paper is to study the influence and the compensation of parameter variation

    因為觀測器在估計轉速時利用的是的額定參數,而的參數(定子阻、轉子阻、感)由於環境溫度的變化、心損耗和主飽和的影響將發生變化,所以必然有估計誤差產生。
  6. Therefore, the stable operational region of generators is discussed along with the analysis on relationship between under - excitation operation and loss of excitation / synchronism, end temperature rise of stator - core, and automatic excitation regulators etc

    針對這種情況,對發穩定運行區域進行了探討,並對進相運行與失失步、進相運行與定子心端部過熱、進相運行與自動調節器等關系作了分析。
  7. The core loss is an important criterion of its performance. if the core loss is too large, it will be heated and the efficiency will be decreased when add the exciting current to the stator coils

    損是評判芯性能的一個重要指標,如果損太大,在定子繞組中加流后則會產生發熱和效率下降等不良現象。
  8. As the rotor of the linear synchronous motor, the suspending electromagnetic irons are excited by rotor current and act with the long stator railway mutually. they have multiform functions such as suspending, advancing and generating electricity

    懸浮作為直線同步的次級,在繞組流的激下,與長定子軌道相互作用,同時具備懸浮、推進、發等多項功能。
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