基于反射输出的宽量程低电压威尔逊电流镜的快速和经济高效的电平移位器

2021 International Conference on Control, Automation, Power and Signal Processing (CAPS) Pub Date : 2021-12-10 DOI:10.1109/CAPS52117.2021.9730629

D. K. Kushwaha, Maneesh Kumar Singh

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引用次数: 0

摘要

本文介绍了一种基于大量程低电压威尔逊电流镜的反射输出移电平器，用于从亚阈值电平到输入输出电源电压的快速且经济有效的电压转换。建立了能将亚阈值电压转换为电源电压水平的移电平器模型，在优化电路晶体管数的前提下减少电路延迟和漏功率。Wilson电流镜移电平器采用0.18 μ m CMOS技术设计，并使用Cadence Virtuoso和LTspice等模拟器实现。仿真结果表明，所设计的模型可以有效地将输入低电压电平(最低50 mV)转换为输出电平约1.8 V，而无需使用一些多阈值模型。在0.3 V / 1 MHz输入电平和1.8 V响应电平下，所设计的电平移位器的总功耗和延时分别为80.23 nW和6.9 ns。并与其他设计的电平移位器进行了比较研究，表明了所设计模型的成本效益。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Wide-Range Low Voltage Wilson Current Mirror based Reflected-Output for Swift and Cost-effective Level Shifter

This paper describes, a wide-range low voltage Wilson Current Mirror based reflected-output Level-Shifter for swift and cost-effective voltage translation from sub-threshold level to input-output supply voltage. The level-shifter that can translate sub-threshold voltage to level of supply voltage is modeled to reduce circuit delay as well as power leakage with optimal transistors count in the designed circuit. Wilson current mirror level-shifter is designed in 0.18µm CMOS technology and is implemented using simulator such as Cadence Virtuoso & LTspice. The simulation results show that designed model can effectively translates the input low voltage levels (as minimum as 50 mV) to around 1.8 V at output levels without utilizing some multi-threshold models. The total power utilization and delay of the designed Level-Shifter of a 0.3 V / 1 MHz input level and response level (1.8 V) are 80.23 nW and 6.9 ns respectively. Also, comparative study is performed with the other designed level shifters which shows the cost-effectiveness of the designed model.

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2021 International Conference on Control, Automation, Power and Signal Processing (CAPS)

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