基于运算放大器的高频整流器的设计与仿真

A. Saleh, Khalid Awaad Hmood, Tahreer Mahmood, Hayder Khaleel AL-Qaysi
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引用次数: 1

摘要

19世纪末和20世纪初,出现了半波和全波平均技术。随着半导体技术的发展,电桥采用全波整流二极管。从而在提高整流波质量的同时,减小了整流波的电子电路尺寸。由于近几十年来在电气、电子工程和系统通信领域的技术发展,对处理不同频率的小型整流装置的需求已经出现。本课题设计了高频整流器。该设计由两个放大器操作和一些无源元件组成。推导了设计外的信号,并使用电子程序(Multisim 13)对设计进行了仿真。对10khz、100khz、1mhz、2mhz、3mhz和5mhz不同频率的信号进行了仿真,结果令人鼓舞。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design & Simulation of a High Frequency Rectifier Using Operational Amplifier
At the end of the nineteenth century and the beginning of the twentieth century, techniques of half-wave and full-wave averaging appeared. With the advent of semiconductor technology, the bridge was made of full wave rectifier diode. So that electronic circuit size became small for the waveform rectifier while improving the quality of the rectified wave. And as a result of technological development in recent decades in the field of electrical and electronic engineering and systems communications the need for a small-sized rectifier device that deals with different frequencies has emerged. In this project the high frequency rectifier was designed. This design consists of two amplifier operations with some passive components. The signal outside the design was derived, and the design was carried out by simulations using an electronic program (Multisim 13). The results obtained from simulations of this design for signals of different frequencies: 10 kHz, 100 kHz, 1 MHz, 2 MHz, 3 MHz & 5 MHz were encouraging.
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