storage element
- 存储元件;(电子)存储元件,存储元素,存储单元
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Using Cu ∶ Co ∶ SBN crystal as a storage element and using Mg ∶ Fe ∶ LiNbO 3 crystal as a phase conjugate reflector to gain the feedback system , the associative storage experiment is realized .
用Cu∶Co∶SBN晶体作为存储元件,Mg∶Fe∶LiNbO3晶体为位相共轭反射镜,以增益反馈系统,实现关联存储实验。
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Holographic associative storage experiments were carried out by using 3 % In : Fe : LN as the optical storage element and 1 % In : Fe : LN as the phase conjugate mirror , and a clear and integrated image was reconstructed with a high signal-to-noise ratio .
以3%In:Fe:LN晶体作为存储元件,1%In:Fe:LN晶体作为位相共轭镜,进行全息关联存储实验,其再现图像清晰完整,噪音小。
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The Application of Wallet Energy Storage Element in Pipeline System
皮囊式蓄能器在管路系统中的应用
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Study on Characteristics of Energy Storage Element for a New Vehicle with Electronic Control and Hydraulic Drive
新型电控液驱车辆储能元件特性分析
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On the Influence of Energy Storage Element Causality in Bond Graphs on the Structure of System Dynamic Equations
论键合图贮能元件的因果关系对系统动力学方程结构的影响
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This paper analyzes the super-capacitor applied in the DC power system , in which super-capacitor plays as an energy storage element .
本文介绍了以超级电容器作为储能元件的储能系统在直流电力系统中的应用。
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The Loss-Less Resistor is realized using a switch mode circuit technique and a storage element to reduce the lose of LFR .
由于无损耗电阻器可由理想开关阵列和电路储能元件组成,所以损耗极小。
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Super-capacitor has large capacitance and high energy density as a new-type of energy storage element , which has great potential for applications on electric vehicles , UPS and electromagnetism arms .
超级电容器具有超大容量和高储能密度,作为一种新型储能元件,在电动车、电磁武器和不间断电源等方面的应用具有很大的潜力。
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This has the advantage that the output of a predecessor data storage element ( 130 ) in a shift register need not be interconnected to the input of its successor .
移位寄存器中的在先数据存储单元(130)的输出端不必互连到其后续数据存储单元的输入端。
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There exists great difference between electro-mechanical system and animal muscle on driven principle , form , performance , etc. , particularly lacks efficient energy storage element that similar to the muscle tendon of animals .
机电系统在工作原理、外形和性能等方面都与动物肌肉存在很大区别,尤其是缺乏类似动物肌腱的高性能储能元件。
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Starting from the principle of intrinsic safety explosionproof , the Author expounds two elements to constitute an intrinsic safety system . They are energy restriction and energy storage element , and the problem of impedance matching in the system .
从本安防爆的原理出发,阐述了构成本安系统的两个要素&限制能量和贮能元件,以及系统中的阻抗匹配问题。
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The ignition module can be divided into 2 types , id est : the capacitor discharge ignition module ( CDI ), and transistorized coil ignition module ( TCI ) according to the difference of the energy storage element .
根据点火储能元件的不同,点火器主要有电容充放电点火(CDI)和晶体管点火(TCI)两种类型。
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The superiority of storage centered finite element method in solving seepage problem
贮量集中有限元方法在渗流计算中的优点
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Ordinary finite element and finite difference methods are often used for seepage calculation , while storage centered finite element method is rarely applied to practice .
普通有限元方法和有限差分方法是渗流计算中常用的数值方法,而贮量集中有限元方法则很少被实际应用。
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Control storage is the key element of microprogrammable controller .
该方法的控制存贮器是微程序控制器的关键设备。
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Number of equivalent binary digits A storage cell ; an element of data storage that can hold one bit .
等价二进制数位位数一个存储单元;保存一位二进制数的数据存储单元。
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Among them , distributed storage is the basic element of CDN . Load balance , network request redirection and content management are all based on distributed storage .
其中,分布式存储是CDN的基础要素,负载均衡、网络请求重定向和内容管理等都是建立在分布式存储这个要素之上的。
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The use of ANSYS finite element software , set up the classic shell theory applied to the cylindrical wall of prestressed concrete LNG storage tank of finite element model .
本文针对50000m3预应力LNG储罐混凝土外墙的动力分析进行了地震响应模拟,主要工作如下:1.使用ANSYS有限元软件,建立适用于经典壳体理论的圆柱形预应力LNG储罐混凝土外墙的有限元模型。
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The present study investigates three main points of the unanchored large storage tanks by finite element analysis , including structure-foundation contact under static load , elephant foot bulking , and seismic response using FSI ( fluid-structure interaction ) model .
本文针对大型非锚固式储罐,采用有限元数值模拟方法研究了以下三个方面问题:静载荷下罐-土接触问题,准静态载荷工况下象足现象,及罐-液耦合模型的地震响应。
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With the rapid development of Internet and the expansion of storage scale , there are more and more various storage elements . Each storage element has its own management system , which brings many difficulties for the management and maintenance of storage .
随着存储网络的迅速发展,存储规模日益膨胀,存储设备的种类和数量都在不断增加,同时各个存储系统都有自己的管理系统,这给管理维护带来了很多困难。