microelectronic device

英 [ˌmaɪkrəʊɪlɛkˈtrɒnɪk dɪˈvaɪs] 美 [ˌmaɪkroʊɪlɛkˈtrɑnɪk dɪˈvaɪs]

微电子设备

电力



双语例句

  1. Fabrication and Characterization of Vacuum Microelectronic Device
    真空微电子器件的特点及新制造技术
  2. CAD and CAI Cross System about the Microelectronic Technique and Device
    微电子工艺器件计算机辅助设计及辅助教学交互系统
  3. The prospect of CA methods for microelectronic process simulation and electron device analysis is discussed.
    对研究采用CA方法模拟微电子加工工艺和进行微电子器件分析具有参考意义。
  4. The thermal manage problem of microelectronic system is more and more serious as the integrated level of electronic device increases continuously and it is one of puzzles in dire need of solution.
    随着电子元器件集成度的不断提高,微电子系统的热控制问题越来越严重,成为急需解决的难题之一。
  5. The rate of Single Event Upset ( SEU) for space-based missions has been predicted by means of ground-based particle accelerator test and simulation calculation based on models of space radiation environment and the interaction of ions with the microelectronic device.
    我们采用的方法是用地面重离子加速器模拟实验和计算机模拟空间辐射环境进行单粒子翻转率预估计算。
  6. Basing on technology of computer and microelectronic device, the EDA technique has become a new field of electronic system design which bring a revolution to the way of design electronic system and IC.
    以计算机科学和微电子技术为先导的EDA技术已成为电子设计领域的一个新技术,它的高速发展为电子系统和集成电路的设计带来了一场革命。
  7. This paper deals with the principle of operation, properties and applications of vacuum microelectronic devices as well as the latest achievements in the R& D of the new device.
    本文叙述真空微电子器件的特点,原理、应用和最新研究成果。
  8. The Application of CAD Technique in the Microelectronic Technology Design and Device Characteristic Analyses
    CAD技术在微电子工艺设计及器件特性分析中的应用
  9. New Generation of Promising Device: Vacuum Microelectronic Device
    一代前景诱人的新型器件&真空微电子管
  10. Magnesium oxide ( MgO) has attracted much attention, because it can be used as a buffer layer and a protective layer of dielectrics due to its superb properties, and has great potential in the microelectronic device application.
    氧化镁(MgO)薄膜具有很多优良的物理化学性质,是一种非常好的缓冲层和介电保护层,在微电子器件领域存在巨大的应用潜力,因此受到众多研究者的关注。
  11. Recently, GaN as one of the ⅲ-nitride semiconductor, has attracted great interest because of the large amount of applications in optoelectronic and microelectronic device field due to its merits of large, direct bandgap, high physics and chemical stability at high temperature.
    Ⅲ族氮化物化合物半导体GaN是目前半导体领域的研究热点之一,具有宽禁带、高温下物理、化学性质稳定等特点,在光电子、微电子等领域有广泛的应用。
  12. PC Windows CAD and CAI Cross Applying System About the One Dimension Silicon Microelectronic Integration Technique and Device
    PCWindows一维硅微电子集成工艺及器件CAD和CAI交互系统
  13. The problem of natural convection flow and heat transfer in a cavity has extensive applicative background in application engineering, such as heat shield of building, safe design of nuclear reactor, microelectronic device cooling etc, so it is noticed more and more widely.
    封闭腔内自然对流换热问题在工程实际问题中有着广泛的应用背景,例如建筑物隔热、核反应堆安全设计、微电子设备的冷却等,因而日益得到广泛的注意。
  14. Research on Effects of ESD and Square-wave EMP on Microelectronic Device
    静电放电和方波EMP对微电子器件的效应
  15. By this experiment, a new method of rapid evaluation to microelectronic device has been established.
    通过本实验,已经摸索出了一种微电子器件快速评价的新方法。
  16. Research of Vacuum Microelectronic Device Apply
    真空微电子器件应用研究
  17. The application and prospect of electroless Ni plating in the field of microelectronic device and computer storage are described.
    重点阐述了化学镀镍技术在微电子领域的应用,包括UBM制作、印制电路板表面终饰工艺和LCR元件制造,以及在计算机存储领域的应用。
  18. Experimental Research on Square-Wave EMP Sensitive Ports of Microelectronic Device
    微电子器件方波EMP注入敏感端对的实验研究
  19. In particular, it has been an interesting topic due to the applications in the structure analysis, surface modification and microelectronic device processing techniques.
    这些研究在表面分析技术、固体材料表面改性技术、微电子器件加工技术等领域具有重要意义。
  20. When the size of microelectronic devices goes further to a certain small scale, the quantum effects would arise, which leads to the failure of the physical principle of the device.
    但是当微电子器件的尺寸小到一定尺度时就会有量子效应出现,器件的物理工作原理失效。
  21. With the development of science and technology, the size of microelectronic device is gradually reduced.
    随着科技的不断进步,电子器件尺寸也不断缩小。
  22. Development of microelectronic technology more and more close to the limits of its technology, therefore it is the necessity to develop the new device technology.
    微电子技术的发展越来越接近其工艺技术极限,因此有必要着力发展新的器件工艺技术。
  23. With the swift development of substation automation, communication and microelectronic technology, many IEDs ( intelligent electronic device) based on microprocessor/ controller appeared in Substation Automation System. The substation automation technology improves constantly and the system integration becomes the trend.
    随着变电站自动化、通信和微电子等技术的快速发展,在变电站自动化系统领域出现了大量基于微处理器/控制器的智能电子设备,变电站自动化的水平在不断提高,系统集成成为趋势。
  24. Alone with the emergence of high high-density, high speed and high reliability microelectronic products, as the protection element of electron device, traditional device could not meet market needs due to large volume, easily broken, not be able to installation automatically and other shortages.
    随着高密度、高速度和高可靠性的主体结构微电子产品的产生,作为电子设备的保护元件,传统的熔断器由于体积大、易破碎、无法实现自动化安装等自身的缺陷已经不适应市场的需求。
  25. The development of the new sensor technology relies significantly on the improvement of wireless power supply technology in microelectronic devices, the device which can provide wireless power for microelectronic device we called power harvest.
    新型传感技术的更近一步发展,在很大程度上依赖于微电子器件无线供能技术的发展,能向微电子器件无线供能的装置称为俘能器。