Research development of carbon nanotube cold cathode material for field emission;
碳纳米管场发射冷阴极材料的研究进展
Magnetic circuit of a cold cathode PIG ion source;
冷阴极潘宁离子源的磁路研究
Study on field enhancement of a normal-gated field emission nanowire cold cathode;
带栅极纳米线冷阴极的场增强因子研究
Recent Trends in CCFL for Large Area LCD-TV;
大尺寸LCD-TV用冷阴极管的最新技术动向
In this paper, the operational principles and characters of the piezoelectric transformer (PT) and the cold cathode fluorescent lamp (CCFL) are analyzed first, then several key problems in the PT-based CCFL driver design process are solved, i.
本文首先分析了压电变压器(PT)及冷阴极管(CCFL)的工作原理及特性,在此之后,针对基于PT的CCFL驱动器设计过程所牵涉的几个主要问题,即如何设计PT的驱动电路,如何选择PT的输入匹配网络,如何协调驱动器的整体效率同控制方式之间的关系,本文均给出了理论分析。
Carbon nanotubes(CNTs) have been thought as one of the most promising cold cathode materials of electron field emitters in field emission display(FED).
在场发射显示器技术领域,碳纳米管被认为是目前最有前途的场发射冷阴极材料之一。
Cold cathode is applied as the important component in the crossed-field amplifier (CFA) and has critical requirements for cold cathode materials.
冷阴极作为微波放大管的核心组件,它对冷阴极材料有着严格的技术要求。
The influences of some parameters of a gate field emission nanowire cold cathode device on the electric field of nanowire top are studied in this paper.
利用静电场理论,对带栅极纳米线场发射冷阴极器件模型进行电场计算,在此基础上,进一步对器件几何参数以及电压对纳米线顶端表面电场的影响做了理论分析。
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