求和晶體管 的英文怎麼說

中文拼音 [qiújīngguǎn]
求和晶體管 英文
sum transistor
  • : Ⅰ動詞1 (請求; 要求) ask; beg; request; entreat; beseech : 求人幫忙 ask sb a favour; ask a favou...
  • : 和動詞(在粉狀物中加液體攪拌或揉弄使有黏性) mix (powder) with water, etc. : 和點兒灰泥 prepare some plaster
  • : Ⅰ形容詞(光亮) brilliant; glittering Ⅱ名詞1. (水晶) quartz; (rock) crystal 2. (晶體) any crystalline substance
  • : 體構詞成分。
  • : Ⅰ名詞1 (管子) pipe; tube 2 (吹奏的樂器) wind musical instrument 3 (形狀似管的電器件) valve;...
  • 晶體 : [晶體學] crystal; vitrella; crystal body; crystalloid; x-tal
  1. In this paper, they are set forth at first that the kinds of computer - simulation of electronic devices, the development and the requirements of mosfet ' s model and the way of gain the models " parameters, the dc models have been bui it in chapter 2 and the models of big signals have been deduced in chapter 3, they are different from the equivalent circuit models in the traditional software pspice that they come from the numer i ca i - s i mu i at i on wh i ch is based on the essence equat i on, so the precision of simulation is enhanced ? mosfet ' s small signal models of low frequency, intermediate frequency and high frequency have been built in chapter 4 and chapter 5, although the equivalent circuit models in pspice are used for reference to bui id them, they have their own characteristics which are analyzed at a i i kinds of situations, so that the simulation software for mosfet can be written according them and it i s a i so benef i c i a i for us to catch the gen i us character i st i cs of mosfet and to d esign all kinds of applicable devices the correctness of the models is simply proved in chapter 6

    本文首先介紹了電子器件計算機模擬的分類、 mosfet的建模發展動態、對器件模型的要以及模型參數的提取方法。在第二章中建立了mos在直流端電壓條件下的工作模型;第三章推導了mosfet的大信號模型,這兩類模型不同於傳統模擬軟例如pspice中的等效電路模型,而是從模型方程出發,採用數值模擬的方法,提高了模擬的精度。第四章第五章分別建立了mos低頻、中頻、高頻的小信號模型,雖然借鑒了pspice模擬軟中用等效電路模型的方法,但是本文分別討論了準靜態非準靜態時器件的本徵部分以及包含非本徵部分工作于低頻、中頻高頻條件時的模型,可以根據這些模型編寫相應的模擬軟,這樣在做器件的模擬分析與器件設計的時候,就可以利用模擬軟逐步深入地分析器件在不同的條件下器件的不同部分在工作時的各種小信號特性,有利於抓住器件工作的本質特性,設計出符合要的各類通用特殊器件。
  2. Xing su ( microelectronics and solid state electronics ) directed by prof. lin chenlu the fast development of information technology requires integrated circuit to be greater integrated, faster functioned, and lower power - consumed, that lead to continuous shrinkage of mos and dram feature size. and under this trend the thickness of mos gate dielectrics ( sio2 ) would soon scale down to its physical limit

    日益增長的信息技術對更高集成度、高速、低功耗集成電路的需,驅使的尺寸越來越小,隨之而來的問題是作為mos柵氧化物dram電容介質的sio _ 2迅速減薄,直逼其物理極限。
  3. First, the paper researchs the spice simulation of single electron transistor based on curve approach and quasi - analytical model of single electron transisor, and simulate characteristic of single electon transistor with matlab tool. secondly, the paper combine spice simulation program with master equation of single electron transistor, put forward novel spice simulation method of single electron transistor based on master equation, by choose master state of single electron transistor and build master equation of single electron transistor, afterward gain nonlinear cortrolled source of spice model of single electron transistor by solve the master equation of single electron transistor and simulate v - i characteristic of single electon transistor by spice program, it ’ s result prove the method is availability precision comparing with master equation method

    然後在此基礎上提出了基於主方程法單電子spice模擬新方法,本論文結合當前電路模擬軟spice程序單電子主方程模擬演算法,通過選擇單電子島電子數的主要狀態,建立單電子主方程,然後解主方程,得單電子spice等效模型的受控源的非線性函數,然後利用集成電路輔助分析軟spice的abm (模擬行為建模)建立單電子( set ) spice等效模型,利用set的等效模型對單電子v - i特性進行模擬,實驗證明此方法與直接解主方程法相比具有一定的精度。
  4. At the end of this article, we propose the design and implementation of software for epon according to the epon special chips, give a detailed presentation of how to configure our algorithm on epon chips with api functions

    最後,根據epon系統的要,本文提出了epon系統的軟框架設計方案。根據epon專用元的特點,提出了動態帶寬分配演算法網元理系統的設計方案,對調用元api函數擴展動態帶寬分配演算法進行了詳細說明。
  5. With the voltage reduced by half, not only the static power consumption but also the requirement of the heat radiator are lowered accordingly, and the danger of the transistor broken down due to over - voltage is also reduced

    電壓降低一半,不僅減少了靜態功耗,也降低了散熱器的使用要求和晶體管因過壓而造成擊穿損壞的危險。
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