A New Architecture Proposal of Half-wave Precision Rectifier using a Single VCII

... International Conference on Wearable and Implantable Body Sensor Networks. International Conference on Wearable and Implantable Body Sensor Networks Pub Date : 2022-01-01 DOI:10.5220/0010901900003118

L. Safari, G. Barile, Mattia Ragnoli, G. Ferri, V. Stornelli

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引用次数: 5

Abstract

In this paper a new second generation voltage conveyor (VCII) based half wave rectifier circuit architecture proposal is presented. Both inverting and non-inverting outputs in the form of voltage signal are produced. The proposed circuit is the first half wave rectifier architecture using VCIIs introduced in the literature. It consists of one VCII, two diodes and a single grounded resistor. The input signal is in current form and the rectified output voltage signal is provided at the low impedance Z port of the same VCII. Therefore, the produced output signal can be directly used with no need to add extra voltage buffers. In addition, the circuit gain is set by the grounded resistor value and can be tuned. The proposed circuit enjoys a simple transistorlevel structure employing only 21 transistors. In this paper, the architecture of the rectifier is presented and explained, as well as a possible VCII topology. Preliminary simulation results are also given highlighting its capabilities. Its simplicity and versatility make it suitable for sensor interfaces and processing circuits for sensor networks where a low power consumption for the analog processing section is of the utmost

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一种单VCII半波精密整流器的新结构方案

本文提出了一种新的基于第二代电压输送机(VCII)的半波整流电路结构方案。产生电压信号形式的反相输出和非反相输出。所提出的电路是采用文献中介绍的vcii的前半波整流器结构。它由一个VCII，两个二极管和一个接地电阻组成。输入信号为电流形式，整流输出电压信号在同一VCII的低阻抗Z端口提供。因此，产生的输出信号可以直接使用，而无需添加额外的电压缓冲器。此外，电路增益由接地电阻值设定，并可调谐。所提出的电路具有简单的晶体管级结构，仅使用21个晶体管。本文介绍并解释了整流器的结构，以及一种可能的VCII拓扑结构。最后给出了初步的仿真结果。它的简单性和多功能性使其适用于传感器网络的传感器接口和处理电路，其中模拟处理部分的低功耗是最大的

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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... International Conference on Wearable and Implantable Body Sensor Networks. International Conference on Wearable and Implantable Body Sensor Networks

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