柵極分壓器 的英文怎麼說

中文拼音 [zhàfēn]
柵極分壓器 英文
grid potentiometer
  • : 柵名詞(柵欄) railings; paling; palisade; bars
  • : i 名詞1 (頂點; 盡頭) the utmost point; extreme 2 (地球的南北兩端; 磁體的兩端; 電源或電器上電流...
  • : 分Ⅰ名詞1. (成分) component 2. (職責和權利的限度) what is within one's duty or rights Ⅱ同 「份」Ⅲ動詞[書面語] (料想) judge
  • : 壓構詞成分。
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  1. The factors limiting the frequency band of the wide - band amplifier are introduced. through analyzing the effects of the intrinsic parameters and parasitical on the frequency characteristics, a method of improving fr of mosfet by using short channel device and making mosfet work at the saturation region through raising vgs is put forward ; the effects of different kinds of circuit configurations on the frequency characteristics and the junction voltage on the voltage pattern circuit, current pattern circuit and frequency characteristics are analyzed. according to the linear theory of transconductance which is applied in the bit circuit, the current pattern amplifier circuit, current transfer circuit and output circuit which consist of mosfet and the wide - band amplifier composed of them are put forward

    介紹了限制寬帶放大頻帶寬度的因素,通過析mosfet的本徵參數、寄生參數對頻率特性的影響,提出了採用短溝件、使mosfet工作在飽和區、抬高源電等提高mosfet特徵頻率的方法;析了不同電路組態對放大頻率特性的影響、節點電對電模電路、電流模電路頻率特性的不同影響,根據應用於雙晶體管電路的跨導線性原理,提出了採用mosfet構成的電流模放大電路、電流傳輸電路、輸出電路以及由它們所組成的寬帶放大,獲得了良好的頻率響應。
  2. Based on the hydrodynamic energy transport model, the influence of variation of negative junction depth caused by concave depth on the characteristics of deep - sub - micron pmosfet has been studied. the results are explained by the interior physical mechanism and compared with that caused by the source / drain depth. research results indicate that with the increase of negative junction depth ( due to the increase of groove depth ), the threshold voltage increases, the sub - threshold characteristics and the drain current driving capability degrade, and the hot carrier immunity becomes better in deep - sub - micron pmosfet. the short - channel - effect suppression and hot - carrier - effect immunity are better, while the degradation of drain current driving ability is smaller than those with the increase of depth of negative junction caused by source / drain junction shallow. so the variation of concave depth is of great advantage to improve the characteristics of grooved - gate mosfet

    基於能量輸運模型對由凹槽深度改變引起的負結深的變化對深亞微米槽pmosfet性能的影響進行了析,對所得結果從件內部物理機制上進行了討論,最後與由漏源結深變化導致的負結深的改變對件特性的影響進行了對比.研究結果表明隨著負結深(凹槽深度)的增大,槽件的閾值電升高,亞閾斜率退化,漏驅動能力減弱,件短溝道效應的抑制更為有效,抗熱載流子性能的提高較大,且件的漏驅動能力的退化要比改變結深小.因此,改變槽深加大負結深更有利於件性能的提高
  3. The effects of the operation temperatures, gate voltages, drain - source voltages and magnetic field upon the characteristic of device are analyzed in detail. coulomb blockade and single electron tunneling are observed in the devices. 3

    詳細地析了工作溫度、、漏源電和磁場對其特性的影響,觀測到明顯的庫侖阻塞效應和單電子隧穿效應,件的工作溫度可達到77k以上。
  4. After structure design aimed to high transconductance, parameters of device structure are modified in detail. the simulation results of soi nmos with strained si channel show great enhancements in drain current, effective mobility ( 74 % ) and transconductance ( 50 % ) beyond conventional bulk si soi nmosfet. the strained - soi nmosfet fabrication process is proposed with lt - si ( low temperature - si ) technology for relaxed sige layer and simox technology for buried oxide

    其次,根據件參量對閾值電和輸出特性的影響,以提高件的跨導和電流驅動能力為目的設計了strained - soimosfet件結構,詳細類型和氧化層厚度、應變硅層厚度、 ge組、埋氧層深度和厚度以及摻雜濃度的取值,對件進行優化設計。
  5. According to the following design theory : the dsp calculates in real time and produces three phases spwm waves to control the on or off of the 6 igbts in ipm respectively. ipm then inverts the commutated single phase direct current ( insulated gate bipolar transistor ) into three phases alternating current. when modulated signals of spwm are changed, the on - off time of switches also changes, so as to the voltage and frequency of output signals

    本文提出了一種基於dsp (數字信號處理tms320f240 )的通用的三相間接變頻電源系統,利用段同步調製法和混合查表法,實時計算不同頻率下的采樣周期、電幅值、輸出脈寬,產生雙性spwm波形,經驅動放大後用于ipm ( intelligentpowermodule )中的絕緣型晶體管級驅動,以控制電源的輸出電和頻率,實現變頻電源的智能數字控制。
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