排序方式: 共有28条查询结果,搜索用时 0 毫秒
21.
LCoS伽马校正电路的研究 总被引:1,自引:0,他引:1
提出了一种应用于硅上液晶(LCoS)的伽马校正电路.双梯电阻数模转换器是伽马校正电路的一个重要组成部分.双梯电阻数模转换器由粗分电阻级和细分电阻级组成,其最大优点是占用版图面积小.提出的10位双梯电阻数模转换器仅由80个电阻、2个4-16译码器、1个2-4译码器和一些开关组成,供电电压是5 V.该数模转换器由0.35μm CMOS工艺实现.后仿真结果表明,数模转换器的微分非线性和积分非线性分别小于±0.5 LSB和±0.4 LSB.最后,对伽马校正电路进行了仿真,给出了伽马校正电路输出的液晶伽马校正曲线,仿真结果表明伽马校正电路能够满足LCoS显示系统的要求.Abstract: One gamma correction circuit for liquid crystal on silicon (LCoS) is proposed. Dual ladder resistor DAC (Digital to Analog Converter) is one of main components of the gamma correction circuit. Dual ladder resistor DAC consists of coarse resistor stage and fine resistor stage. The most advantage of the DAC is that its layout area is small. In this paper, the proposed 10-bit dual ladder resistor DAC only requires eighty resistors, two 4-to-16 decoders, one 2-to-4 decoder and some switches with a supply voltage of 5 V. This DAC is implemented by 0.35 m CMOS technology. The post simulation results that its differential non-linearity (DNL) and integral non-linearity (INL) are less than 0. 5 LSB and 0. 4 LSB, respectively. Meanwhile, the gamma correct circuit was simulated, and the gamma correction curve of liquid crystal is given. Simulation results show that the gamma correction circuit can meet the requirements of LCoS display system. 相似文献
22.
23.
24.
25.
26.
顶层透光、底层不透光的金属-介质-金属多层结构可以产生窄带完美吸收共振,用于测量介质层待测液体的折射率变化.本文通过构建Fabry-Perot共振解析模型,准确复现了该结构的响应光谱,给出了其共振波长、品质因子、半高全宽和灵敏度的解析表达式,并分析了介质层厚度对光谱的谐振波长和线宽的调谐机制,明确了其物理机理.基于8阶Fabry-Perot共振的金属-介质-金属多层结构,用于折射率传感时的品质因子及优值分别达到2162.8和1648.1 RIU–1.针对极小的折射率扰动,通过在奇异点状态叠加Fabry-Perot共振的调谐机制,提出了通过测量奇异点波长处反射系数的增加量或散射矩阵本征值的分裂量,实现对待测液体折射率的可调谐式传感的方案. Fabry-Perot模型解析结果显示,当待测液体的折射率变化为10–4 RIU时,基于8阶FabryPerot共振的金属-介质-金属多层结构的前向反射系数增加量和本征值分裂量分别达到0.319和1.1279. 相似文献
27.
一年一度的SID会议汇聚了全世界顶尖的显示技术。这里有2006年6月在旧金山要回答的九个重要问题。 相似文献
28.