高压电源在真空电子器件的工作电路中一般是不可缺少的。
Highvoltage power supply is the indispensable part of the working circuit of the vacuum electronic components.
在军事和民用信息系统及人民日常生活中,真空电子器件发挥着重要的作用。
The vacuum electronic device plays a very important role in the military affairs and demotic message system and the daily life of the people.
金属光子带隙结构在高能加速器、微波真空电子器件和太赫兹波源等方面具有重要的应用前景。
The metal photonic band gap structure has potentialities in the areas of high-energy accelerators, microwave vacuum electron devices, and terahertz radiation sources etc.
真空树脂灌注机是对电子器件进行灌封处理的关键设备,必须控制灌注料的温度始终维持在某一适当的水平上。
Vacuum resin dosing equipment is the central equipment of the disposal perfusion and encapsulation which need precise temperature control at certain level.
本文介绍了真空微电子器件场发射金属尖阵列阴极的制备工艺技术。
This paper describes a fabrication technology of metal tip field emission arrays (FEA) for the vacuum microelectronic devices.
场发射阴极作为各种真空微电子器件的核心,其性能的好坏将直接决定着场发射器件的总体性能。
The whole performance of device depends on the capability of field emitting cold cathodes which act as the kernel of all kinds of vacuum micro-electronics device.
本文介绍了利用半导体硅材料制作的真空微电子器件的核心部件,场致发射硅锥阴极,的工艺研究及实验结果。
A process for the fabrication of Si cone cathode for the build up of vacuum microelectronic devices is proposed and its experimental results are given.
本文介绍了光学薄膜和光电子器件用薄膜的技术和应用,以及真空镀膜及其应用结果。
The technology and applications of optical films and optoelectronic films are described, the vacuum coating system and the results of application are also demonstrated.
真空微电子器件相对于半导体器件来说,有着更高的工作频率和输出功率,正常工作温度范围也相对较大。
Compared with semiconductor devices, vacuum microelectronic devices can work with higher frequency and larger power at a wider range of temperature.
第一代计算机的特色是使用真空管为其主要电子器件。
First-generation computers were characterized by the use of vacuum tubes as their principal electronic component.
在微波、毫米波领域,尤其是微波通信中微波电真空器件一直都是不可或缺的电子器件之一。
It is one of an indispensable electrical device for microwave vacuum devices in fields of microwave or millimeter wave, especially in microwave communication.
阴极是真空微电子器件的核心部件之一。
Cathode is one of the core components of vacuum microelectronic devices.
以场致发射理论为基础的真空微电子器件,因其具有功耗低、电流密度大、频率高等诸多优点而倍受人们关注。
Vacuum micro-electronics devices, which are based on field emission theory, are more and more widely applied, because of their low power consumption, high current density and high frequency.
以场致发射理论为基础的真空微电子器件,因其具有功耗低、电流密度大、频率高等诸多优点而倍受人们关注。
Vacuum micro-electronics devices, which are based on field emission theory, are more and more widely applied, because of their low power consumption, high current density and high frequency.
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