本文讨论交流等离子体平板显示器件的寿命问题。
场发射显示器件(FED)正在成为新一代平板显示器件。
Field emission display (FED) is becoming a new generation of flat panel display (FPD).
介绍了一种基于FPGA的平板显示器件驱动电路的设计方法。
A design method of a driving circuit for flat panel display based on FPGA is introduced.
介绍了一种全新的平板显示器件通用驱动电路IP核的总体设计。
A novel IP core for Flat Panel Displays (FPD) driver has been designed.
本文涉及了以平板显示器件为核心的显示系统设计的几个主要方面。
This dissertation includes some important aspects of display system design based on FPD.
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。
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).
由于存在着体积大、重量重等固有的严重缺陷,CRT器件也一直受到众多新型平板显示器件的严峻挑战。
However, CRT has been met with some severe challenge from many new flat - panel display devices because CRT has some serious defects such as a greater bulk and a heavier weight and so on.
FED是新一代真空平板显示器件,具有色彩自然逼真、响应速度快、宽视角、低功耗、矩阵选址等突出优点,应用范围广泛。
FED is a newer vacuum flat panel display. It would be widely applied by reason of natural and vivid color, short response time, wider Angle of view, lower power consumption, matrix addressing.
FED是新一代真空平板显示器件,由于色彩自然逼真、响应速度快、宽视角、低功耗以及矩阵选址等优点,而应用范围广泛。
FED is a newer vacuum flat panel display. It would be widely applied by reason of natural and vivid color, short response time, wider view Angle, lower power consumption, matrix location.
介绍一种实用的工艺,在平板显示器件的批量生产中,采用石英晶体切片机来机械化切割器件所需的框架玻条,是一种行之有效的好方法。
A new sort of production technology is recommended in this paper. Glass strip for flat display devices frame constitution can be well fabricated with multi-knife machine tool.
仿真结果表明:FPGA设计的控制电路,能够在阵列型彩色平板显示器件上实现超分辨率显示,水平分辨率由原来的384提高到1 152。
The results indicate that the realization of this technique on color array display panel can be obtained by FPGA device easily, improving the horizontal resolution from 384 to 1 152.
碳纳米管场致发射显示器是一种新型的真空器件,也是一种具有巨大应用潜力的平板型显示设备。
The field emission display with carbon nanotubes emitters is a kind of new vacuum devices, and is new flat display device with a great deal of application potential.
OLED是最有发展前景的显示器件之一,并且将会成为平板显示领域中的一种主流技术。
OLED is one of best of all development foreground display device, also it shall become a mainstream technology in flat plate domains.
功率器件寄生电容的大小直接关系到平板显示器驱动芯片的功耗及性能。
The parasitical capacitances of power devices greatly influence the power dissipation and performance of driver ICs for flat panel display.
平板显示器中有源元件的参数测试与其他各类半导体器件的IC器件测试相同。
Characterizing the active elements in flat panel displays is similar to IC device testing on other types of semiconductors.
平板型荧光显示器件含多个分立的显示单元,阴极近于全长工作。
A flat fluorescent display device consists of multiple disintegrated display units, all the parts of the cathode of which are in working state.
作为有机led平板显示器的物质基础,电致发光(EL)材料是直接影响其器件性能的关键因素。
As the foundation of organic LEDs, electroluminescent (el) materials are one of the key factors influencing the device performance.
采用钙钠平板玻璃作为封装面板,利用碳纳米管作为冷阴极材料,研制了三极结构的单色场致发射显示器件。
The carbon nanotubes were used as cold cathode materials and the soda-lime flat glass was adopted as packaging panel, so the mono-color triode FED device was developed.
采用钙钠平板玻璃作为封装面板,利用碳纳米管作为冷阴极材料,研制了三极结构的单色场致发射显示器件。
The carbon nanotubes were used as cold cathode materials and the soda-lime flat glass was adopted as packaging panel, so the mono-color triode FED device was developed.
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