采用 0.25 微米 CMOS 工艺设计模拟存储单元

Paramita Barai
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引用次数: 0

摘要

CMOS VLSI 技术是当今世界最主流的集成方法。在 MOS VLSI 中,各种信号处理模块都是利用模拟数字设计技术制造的。其中一个重要组件是用于存储数据的存储单元。在该项目中,使用模拟设计方法建立了一个存储单元。电容器被用作基本的存储设备。模拟存储器背后的主要理念是,电容器中电荷或电压的模拟值就是存储的数据。因此,电容器的介电质量就变得非常重要,它决定了电容器存储电荷的效率。模拟存储器需要在硬件成本、芯片面积和存储精度或质量之间进行权衡。模拟存储单元的电路是根据所需电压将存储在电容器中并使用 MOS 晶体管作为开关的想法开发的。由于采用了特定的集成技术,因此电容器的介电性质是固定的。通过适当的电路配置,模拟电压值被写入电容器,并在需要时读出,同时刷新电荷损耗。论文中给出了获得的结果。
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Design of an Analog Memory Cell in 0.25 micron CMOS process
CMOS VLSI technology is the most dominant integration methodology prevailing in the world today. Various signal-processing blocks are made using analog or digital design techniques in MOS VLSI. An important component is the Memory unit used to store data. In the project a memory cell has been built up using analog design method. A capacitor is used as the basic storage device. The main idea behind analog memory is that the analog value of the charge or voltage stored in the capacitor is the data stored. So the dielectric quality of the capacitor becomes important here to determine how effectively it can store some charge. Analog memory is a trade off between hardware cost, chip area and accuracy or quality of storage. The circuit of analog memory cell was developed starting from the idea that required voltage will be stored in a capacitor and MOS transistors were used as switches. A given technology of integration was used and hence the dielectric property of the capacitor was fixed. By suitable circuit configuration the analog voltage value was written to the capacitor, read out when required and the charge loss was also refreshed. The results obtained are as given in the thesis.
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