靜態功耗 的英文怎麼說
中文拼音 [jìngtàigōnghào]
靜態功耗
英文
quiescent dissipation- 靜 : Ⅰ形容詞1. (安定不動; 平靜) still; calm; motionless 2. (沒有聲響; 清靜) silent; quiet Ⅱ名詞(姓氏) a surname
- 態 : 名詞1. (形狀; 狀態) form; condition; appearance 2. [物理學] (物質結構的狀態或階段) state 3. [語言學] (一種語法范疇) voice
- 功 : 名詞1 (功勞) exploit; merit; meritorious service [deed]: 戰功 military exploits; 立功 render me...
- 耗 : Ⅰ動1 (減損; 消耗) consume; cost 2 [方言] (拖延) waste time; dawdle Ⅱ名詞1 (壞的音信或消息) ...
- 靜態 : [物理學] static state; quiescent condition; steady state; statics; dead level; akinesis; akynesis...
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While it works with supply voltages down to 1. 5v, the standby current is lower than 80n a together with the static power consumption lower than 240u w as well as the dynamic range of output voltages and currents is very wide
模擬結果表明,電路工作於1 . 5v的低電壓時,靜態電流小於80 a ,靜態功耗不到240 w ,電壓輸出端和電流輸出端的輸出動態范圍大。General model c38 dc meters are portable taut - band suspended moving coil instruments with light - spot indication. the meters have the feature of extremely high in sensitity and small in consumpition being particularly suitable to be used for measuring weak electric quantity on dc circututs, also for testing the static paramenters of transistors as well for measuring the output of millivolt values of zhermocouple in the vacuun furnaces ( or hydrogen furnaces )
C38型直流電表是磁電系張絲支承光點指示可攜式電表儀表具有極高的靈敏度,功耗小,特別適合弱電量直流電路測量及晶體管靜態參數測試用以及用做真空爐(或氧氣爐)中測量熱電偶的輸出毫伏值The simulated results present that the circuit can offer several advantages such as low static state current ( < 100a ), low power ( < 300w ), wider dynamic swing and higher signal transfer precision when the operation voltage is 1. 5v
模擬結果表明,當此電路工作於1 . 5的低電壓時,靜態電流小於100 a ,靜態功耗低於300 w ,同時電路的信號動態范圍大,信號轉換精度高。In the large family of semiconductor technology, static random access memory ( sram ) attracts much attention because of its broad applications. sram has become an indispensable member of semiconductor memory family due to its low power consumption and high - speed performance
在隨機存取存儲器中,除了動態存儲器( dram )外,靜態存儲器( sram )由於其自身的低功耗和高速的優勢而成為半導體存儲器中不可或缺的一類重要產品。Power sensitivity is defined and some related mathematical models are deduced, which bring on a set of theoretic power sensitivity analysis methods for combinational circuits. experimental results verify that the method can be used for dynamic power and leakage power
另外文章還提出了一種靜態功耗壓縮估計方法和一種雙閾值電壓快速優化方法,它可以很好地用在低漏電電路的設計中。Usually the low power operational amplifier is designed with rail to rail output stage, whose signal dynamirange is small, its output driving force is not strong, here it is designed with voltage displacement stage, and the strong driving force and the low power consumption in this circuit are achieved. with 5v single power, this amplifier consumes only several a, 100khz unity - gain frequency, achieves 80db dc open gain and 55 phase margin for a 100pf load capacitance and a 1m load resistance and other advantages
通常設計的低功耗軌對軌輸出運算放大器中,由於信號的動態范圍比較小,它的輸出驅動能力不強,這里設計的是採用電平位移電路同時實現了電路的強驅動能力與低功耗,它具有在單電源電壓5v的條件下,靜態工作電流只有幾微安,單位增益帶寬達100k ,開環增益能達80db以上,相位裕度也能達55度,輸出源沉電流達500微安以上等優點。In cmos technology the major source of power dissipation is attributed to dynamic power dissipation, which is due to the switching of signal values
電路的功耗分為靜態功耗和動態功耗,對于cmos電路,功耗主要是動態功耗,大約占總功耗的85 ? 90 % 。Umcf can verify our own simulation results on popular accurate power estimator including transition - based dynamic power estimation, hazard / power - up power estimation, high - complexity leakage power estimation etc. high - dependable and high - efficient experiment environment is the base of this whole dissertation
在該平臺上實現了動態功耗,冒險功耗及上電功耗估計和靜態功耗估計等,可信高效的實驗平臺是全文工作的基礎。 ( 2 )動態功耗估計及優化。Basic structural parameters of magnetic bearings are analyzed and principles of selecting these parameters are introduced. basic characters of magnetic bearings are analyzed, including static working point, the largest magnetic force and power losses etc. assigning maximal magnetic force as objective function, the optimal design of radial magnetic bearing in magnetic levitated hard disk drive is completed, and the results of optimal design are presented
對磁力軸承的基本結構參數進行了分析,闡述了這些參數的選用原則;對磁力軸承的幾個基本特性進行了分析,包括靜態工作點、最大承載力、功率損耗等;以最大承載力為目標對磁懸浮硬盤的徑向軸承進行了結構優化設計,並對優化結果進行了分析。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。Also the hazard resonance phenomenon of benchmark circuits is detected, which can be used to accelerate the power estimation with very good results. at the same time, a transient dynamic power estimation method aiming at power - up circuits is proposed, the appropriative power model and simulation result are detailed in this paper
這部分內容主要解決的關鍵問題是確定一個簡單而相對精確的較高層的靜態功耗模型,並使用更多上層功耗信息來加速較低層次的功耗估計方法,是本文重要的創新點。分享友人