電容性反饋 的英文怎麼說

中文拼音 [diànróngxìngfǎnkuì]
電容性反饋 英文
capacitive feedback
  • : 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 (性格) nature; character; disposition 2 (性能; 性質) property; quality 3 (性別) sex ...
  • : Ⅰ名詞1 (方向相背) reverse side 2 (造反) rebellion 3 (指反革命、反動派) counterrevolutionari...
  • : 動詞(饋贈) make a present of
  • 電容 : electric capacity; capacitance; capacity
  1. Two single - stage pfc converters with the negative feedback of engergy - storage capacotor voltage by transformer windings are analyzed. the two converters have similar performances, and they can be translated each other, which verified the translation rule. the analysis and simulation show that with the negative feedback of energy - storage capacitor voltage by transformer winding have good performances

    通過對兩種採用變壓器繞組實現負的單級pfc變換器研究,結果顯示出它們的相近,驗證了兩端模式和三端模式的轉換規則,同時也說明採用變壓器繞組實現負的方式對抑制壓有很好的效果,並對其進行了優化設計。
  2. And the ways to optimize the circuit architecture, minimize the circuit nonidealities and improve the circuit performance are analyzed combined with the characteristics of the modulator architecture. based on it, the switched - capacitor integrator, class a amplifier, nonoverlap clock, voltage reference, comparator, feedback dac have been designed. in the end, the layout design is shown

    調制器採用全差分開關路實現,並根據系統結構特點就如何優化路結構、克服路中存在的非理想特、提高能作了具體分析,在此基礎上完成了開關積分器(開關、、運算放大器) 、參考壓源、比較器、兩相非交疊時鐘、dac等模塊的路結構和參數設計。
  3. Considering practical application, some control methods brought forward by predecessors have been improved in order to realize them more easily. because it is difficult to control chaos and hyperchaos to high - period by simple linear feedback in experiments, the ordinary linear feedback method is modified to local control, further more, we prove its feasibility and find out the controllable parameter range theoretically. the improved linear feedback method is applied to circuit experiments, and the results of numerical simulation and circuit experiment are all in accordance with theory, which validate this method effective

    概括起來有兩個層面的內:針對前人已經提出的一些控制方法,結合實際應用的需要提出改進的方案,使之更易於實際應用中的實現,這部分包括:基於簡單的線控制低維混沌和超混沌系統的高周期態難以在實驗中實現而提出的局部控制的改進方案;結合具體實例,從理論上分析了改進控制方案的有效及系統可控制的參數條件;並且用路實驗實現了改進的控制方案,實驗結果也驗證了理論的正確和可行;在應用非線方法控制混沌系統的研究中,我們也得到了前人沒有討論過的高周期結果。
  4. To avoid the actuator, a capacitor load being charged up by the drift current of the amplifier, a secondary feedback from the output of the amplifier has been used and expected result has been gotten

    針對驅動器輸出流漂移造成的壓作動器(負載)荷積累,文中引入了抑制驅動器流漂移的環節,取得了預期的控制效果。
  5. In the fourth chapter, a fourth - order chebyshev low - pass filter employs new low voltage, highly linear, wide inputting range transconductor is proposed, then we presents a new circuit to tune gm value of transconductor accurately, which employs a new switched - capacitor circuit to change the bias current of transconductor, a third order elliptical function low - pass filter with accurate tunable frequency has been designed using transconductor that is not only with voltage common - mode negative feedback, but also with varying bias - triode transistors which can improve the linearity of this circuit

    第四章:提出了一種新的低壓、高線度、寬輸入范圍跨導,並由此設計實現了四階切比雪夫( chebyshev )低通濾波器,接著提出了一種寬輸入范圍且具有壓共模負的全差分跨導,並採用一種新的開關路實現跨導值gm精確可調,從而可以設計得到高能具有精確截止頻率的跨導-三階橢圓函數濾波器。
  6. In the electrostatic force closed - loop plan, using the inertia mass of saw accelerometer as one board of the differential capacity, as it got the electrostatic force producer

    在靜力平衡方案中,直接利用saw加速度計慣質量作為差動式的一個極板,組成靜力發生器,並利用脈寬調制力方案解決了靜力發生器非線的難題。
  7. Taking single four - quadrant power switch mode circuit as an example, the operational mode, steady principles, transient voltage feedback control strategy, the auxiliary switching power supply and parallel technology of this kind of converters are investigated. the output characteristic curve and the design for the key circuit parameters are given

    以單四象限功率開關式路拓撲為例,分析研究了這類變換器工作模式、穩態原理與壓瞬時值控制策略,給出了變換器的外特曲線、關鍵路參數、機內輔助開關源的設計,對流源高頻交流環節ac ac變換器並聯擴技術進行了研究。
  8. It is found that when the switch s is on, the capacity charges too fast is the main reason why generating chaos in the circuit. then based on above analysis, we present the method of using output voltage pulse differential feedback to control chaos in the buck converter. theoretical analysis, numerical calculation and circuit simulation demonstrate the validity of this chaos control method

    首先研究了脈寬調制式的buck變換器中混沌產生的原因,研究發現開關s導通時,過快是這類路中混沌產生的主要原因,在此基礎上提出了應用脈沖微分控制buck變換器的混沌,並設計了控制路,數值模擬和路模擬的結果證實了該混沌控制方法的有效
  9. In this control scheme, the voltage error is processed by pi algorithms first, and then the current of the capacitor which equal to the differential of the voltage is imported to compose a two - loop control

    該方案先對輸出壓誤差進行pi調節,在此基礎上引入相當于輸出壓微分的信號構成雙環控制,使逆變器輸出壓具有良好的靜態特和動態特
  10. In this section, the main content is about the transducer and the low - pass filter. the simulation program of wave filter circuit and the stability of wave filter and analogue signal pspice analysis are integrated in chief. these are constituted as a circulatory feedback mode, so that it speeds the process of establishing electric circuit parameters

    尤其在低通有源濾波器的分析與設計這部分內中,將濾波器路的程序模擬、濾波器穩定分析和pspice分析設計有機的結合起來,組成了一個循環的分析模式,加快了路參數的確定過程,縮短了產品的研發周期。
分享友人
分享到 Line

分享到臉書