新型电流反馈放大器的特点及应用

电流反馈运算放大器CFOA是近几年才推出的新型器件。与电压反馈运算放大器VFOA相比,CFOA具有更宽的带宽和更高的转换速率。如电压运算放大器OP27的转换速率SR＝2.8V／μs,增益带宽积为8MHz。电流反馈放大器EL2020最小的转换速率SR＝500V／μs,带宽为50MHz并且与闭环增益无关。输出电流可达+33mA。新型运算放大器要能够进行电流反馈,运算放大器的设计就要使其中一个输入端为低阻抗。考虑到通常的输入信号为电压信号,另一个输入端设计有一个放大倍数为1的电压缓冲器,输入信号电压接到电压缓冲器上,使该运算放大器能被电压驱…     

电流反馈放大器及其应用

介绍了电流反馈放大器及由它构成的ＲＣ正弦振荡器，滤波器和电感仿真与频变负阻仿真电路。分析了ＣＦＡ的寄生电阻玫电容对ＲＣ振荡器性能的影响，得到了忽略寄生电阻与电容的条件下。提出了ＣＦＡ构成的各类基本运算电路。     

电流反馈放大器的原理分析--与何亚宁先生商榷

看了贵刊1999年第3期题为"电流负反馈放大器的原理分析与CAA计算机辅助分析设计"(以下简称何文)一文,感觉有几个问题需要提出与作者商榷.     

集成电流反馈放大器的应用设计

当前，应用最广泛的运算放大器是基于电压反馈技术的电压反馈放大器。文章采用对比的办法，概要地介绍了市场上新出现的运算放大器———电流反馈放大器的应用和设计方法。     

运算放大器的新进展—电流反馈型放大器

本文介绍了一种新型的运算放大器－电流反馈型放大器的特性，原理和应用，这种运算放大器的增益－带宽和摆率显著高于一般运算放大器，并且它的频带，摆率建立时间基本上和闭环增益无关，它可用于通讯，雷达，仪器等各个领域，本文给出了应用实例和电流反馈型放大器性能一览表。     

两种电流反馈放大器比较

简介 许多工程师由于一些误解,现在仍然拒绝使用电流反馈(CFB)放大器。多数运算放大器电路是执行经典控制理论分析的闭环反馈系统。模拟电路设计者习惯于在闭环系统中使用电压反馈(VFB)运算放大器,并熟悉其理想状态下的近似反馈允许值。这篇文章将阐述如何以同样方式使用CFB运算放大器。一旦理解了闭环的相似之处,就很容易理解多数使用VFB放大器的电     

电流反馈型运算放大器及应用

迅猛发展的高速系统，增加了对高速型运放的需求，因此电流反馈型运算放大器的应用日益广泛。但是，目前国内有关它的原理和有关特性的详细说明却几乎没有。着重说明了电流反馈型运算放大器的基本原理和有关特性，并给出了用AD811电流反馈型运算放大器构成的矩形波发生器具体电路。实验证明输出波形的跳沿小于50ns。     

电流反馈运算放大器的特点

一种新型的高频运算放大器——电流反馈运算放大器,又称互阻抗运算放大器,最近很流行。本文不讨论其广为流行的理由,仅讨论在一定的条件下它比传统的电压反馈运算放大器具有优良的高频性能。 电流反馈运算放大器的等效电路图如图1所示。像电压反馈运算放大器一样,电流反馈运算放大器也有反     

电流反馈运算放大器与电压反馈运算放大器的区别与应用

本文介绍了电流反馈运算放大器与电压反馈运算放大器的区别及其有关的增益表达式，并且列举了几个应用实例，说明如何选用运算放大器。     

低压低功耗CMOS电流反馈运算放大器设计

利用电流传输器CCII+作为输入(输出)缓冲器,使用0.18μMCMoS工艺设计了低压低功耗电流反馈运算放大器,模拟结果初步获得了与增益无关的23.3MHz带宽及27.7V/μS的转换速率.     

Fully Differential CMOS Current Feedback Operational Amplifier

This paper presents a new CMOS fully differential current feedback operational amplifier (FDCFOA). The proposed CMOS realization of the FDCFOA is based on a novel class AB fully differential buffer circuit. Besides the proposed FDCFOA circuit is operating at supply voltages of ±1.5 V, it has a total standby current of 400 A. The applications of the FDCFOA to realize variable gain amplifier, fully differential integrator, and fourth order fully differential maximally flat low pass filter are given. The fourth order filter provides 8 dB gain and a bandwidth of 4.3 MHz to accommodate the wideband CDMA standard. The proposed FDCFOA and its applications are simulated using CMOS 0.35 m technology.Soliman A. Mahmoud was born in Cairo, Egypt, in 1971. He received the B.Sc. degree with honors, the M.Sc. degree and the Ph.D. degree from the Electronics and Communications Department, Cairo University—Egypt in 1994, 1996 and 1999 respectively. He is currently an Assistant Professor at the Electrical Engineering Department, Cairo University, Fayoum-Campus. His research interests include low voltage analog CMOS circuit design, filtering and applications suitable for VLSI.Inas Awad was born in Cairo, Egypt, in 1971. She received the Bachelor, the M.Sc. and the Ph.D. degrees in Electronics and Communications from Cairo University in 1994, 1997 and 2000, respectively. In 1995, she joined the department of Electronics and Communications, Cairo University, Fayoum-Campus as a teaching assistant and now she is an Assistant Professor at the same department. Her primary research interest is in analog circuits with particular emphasis on current-mode approach and low-voltage low-power CMOS designs.     

Bipolar Current Feedback Amplifier: Compensation Guidelines

The aim of the paper is to discuss in detail the compensation of the current feedback amplifier (CFOA). The approach is suitable for a pencil-and-paper compensation and takes into account both resistive and capacitive feedback. The frequency limitation inside the CFOA and due to a load capacitor are also considered. The feature of the CFOA which can be simply compensated for when it is configured as a differentiator is also exploited. To validate the proposed strategies, Spice simulations were performed on the fundamental CFOA topologies, and some of them are included and discussed in the paper.     

"电流负反馈放大器"讨论

对近年的“电流负反馈放大器”的工作原理进行了理论分析，从电路的演变归纳出它的主要特征－－射极负反馈，指出它实质上是电压负反馈。     

低压高驱动能力的CMOS电流反馈运算放大器

基于0.18μm CMOS工艺,设计了一种具有低电压高驱动能力的电流反馈运算放大器。电路工作在1.8 V电源电压下,Spectre仿真的功耗为316μW,转换速率为112 V/μs,电流驱动能力达±1.5 mA。输入采用轨对轨结构,以提高输入电压摆幅;输出采用互补输出结构,使输出工作在甲乙类状态,以降低电路功耗。     

超高速电流反馈集成运放电路与特性

介绍了超高速电流反馈集成运放电路结构，基本特性以及与电压反馈集成运放在性能上的差异。     

A Novel Bandpass Filter Based on Current Feedback Amplifier

An application demonstrating some advantages of the current feedback amplifier (CFA) over the voltage op-amp counterpart is given. A novel bandpass filter achieving a high quality factor and variable gain based on a single CFA is proposed. It is shown that unlike the op-amp Sallen-Key bandpass filter, the CFA filter is more suitable for high frequency applications. Hussain A. Alzaher was born in Qatif-Alawamia, Saudi Arabia, in 1972. He received the B.S. and M.S. degrees (with honors) in electrical engineering from King Fahd University of Petroleum and Minerals (KFUPM), Dhahran, Saudi Arabia, in 1994 and 1997, respectively, and the Ph.D. degree from The Ohio State University, Columbus, in 2001. Since 1994, he has been with KFUPM as a faculty member in the electrical engineering department. His research interest includes applications of electronic circuit techniques for wireless communications: Multi-standard mobile phones, Bluetooth, WLAN and WiMAX. Dr. Alzaher is the recipient of the 1994/1995 Prince Muhammed bin Fahd bin Abdulaziz Award for Excellence in Scientific Achievement. He is also the recipient of the 2003 Showman award for Young Arab Researchers, Engineering Science.     

低电压低功耗CMOS电流反馈运算放大器的设计

设计了一种低压低功耗的电流反馈运算放大器(CFOA),采用了0.18μm CMOS工艺,工作在0.9 V的电源电压下,并给出了Spectre仿真结果,功耗为245μW。输入采用了轨对轨的结构以提高输入电压摆幅,输出采用互补输出结构,使输出工作在甲乙类状态,以降低电路的功耗。     

低压低耗宽带CMOS电流反馈运放仿真设计

设计了一种低压、宽带CMOS电流反馈运算放大器(CFOA),它可以实现轨到轨的输入/输出,同时具有较大的电流驱动能力。采用0.25μm CMOS工艺参数,对所设计的CFOA进行了PSPICE仿真,结果表明,该CFOA可工作在±0.75V的电源电压、304μA的总待机电流下,电路的通频带宽度为120MHz,输出驱动电流为±1mA,因而可用于低压、较大驱动电流的应用场合。