Field emission display (FED) is becoming a new generation of flat panel display (FPD).
场发射显示器件(FED)正在成为新一代平板显示器件。
The operation principle of luminance control of field emission display(FED) is introduced based on the modulating characteristic and the feature of matrix addressing.
根据场发射显示器(FED)显示单元的调制特性和矩阵寻址方式特点,分析了其亮度控制的原理和实现方法。
Synthesis of aligned carbon nanotubes (ACNTs) is a key technique in the field of carbon nanotubes field emission display (CNTs-FED).
定向碳纳米管的制备方法是碳纳米管场发射显示器技术领域一项十分关键的技术。
As the research of Vacuum Nanoelectronics (VNE) is attracting more attention, many progresses have taken place in the field of field emission devices (FED).
随着真空纳电子学(VNE)越来越受到关注,对于场致发射显示器件(FED)的研究不断深入。
After a brief introduction to field emission and Vacuum microelectronics, the author focuses on field emission display (FED), which is made according to principle of Vacuum microelectronics.
简要介绍场致发射与真空微电子的一般情况,尔后着重介绍应用真空微电子原理制作的场发射平板显示器(FED)。
Carbon nanotube field emission display (CNT-FED) is a new type of flat panel display, it has drawn tremendous interest from flat display field.
碳纳米管场发射显示器(CNT - FED)是一种新型的平板显示器,在平板显示领域备受瞩目。
Now the key to fabricate FED device is to find a economical and credible cathode, which has excellent field emission capability and simple manufacture technology.
当今FED研究的关键是寻找场致发射性能良好、制作工艺简单、经济可靠的阴极。
Carbon nanotubes(CNTs) have been thought as one of the most promising cold cathode materials of electron field emitters in field emission display(FED).
场发射阴极材料、场发射阳极荧光材料、隔离柱材料以及器件封装工艺是场发射显示器(FED)的三大核心技术难题。
The screen printed carbon nano tube field emission display device fabrication process has been set up and a 2. 2 inch CNT-FED device has been obtained.
建立了一整套较为完善的碳纳米管场发射冷阴极印刷制备及场发射显示器件制备的工艺流程,并成功获得2.2英寸碳纳米管动态显示原理型样机。
Field emission display (FED) device is one of the flat panel display devices whose emission theory is the most close to the cathode-ray tube (CRT).
场致发射显示(FED)是发光原理最接近阴极射线管(CRT)的一种平板显示器件。
The findings indicated that hydrothermal method preparation pyramidal nanometer zinc oxide has the good field emission performance, Is the FED negative pole's ideal material.
研究结果表明,水热法直接合成锥状纳米氧化锌具有良好的场发射特性,为场发射平板显示器阴极的理想材料。
The findings indicated that hydrothermal method preparation pyramidal nanometer zinc oxide has the good field emission performance, Is the FED negative pole's ideal material.
研究结果表明,水热法直接合成锥状纳米氧化锌具有良好的场发射特性,为场发射平板显示器阴极的理想材料。
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