Voltage Feedback vs. Current Feedback Op Amps - TI.com

1 November 1998 Mixed-Signal Products SLVA051 ApplicationReportVoltage Feedback Vs CurrentFeedback Op AmpsApplication ReportJames KarkiLiterature Number: SLVA051 November 1998 Printed on Recycled PaperIMPORTANT NOTICET exas Instruments and its subsidiaries (TI) reserve the right to make changes to their products or to discontinueany product or service without notice, and advise customers to obtain the latest version of relevant informationto verify, before placing orders, that information being relied on is Current and complete. All products are soldsubject to the terms and conditions of sale supplied at the time of order acknowledgment, including thosepertaining to warranty, patent infringement, and limitation of warrants performance of its products to the specifications applicable at the time of sale in accordance withTI s standard warranty.

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5 Address:Texas InstrumentsPost Office Box 655303 Dallas, Texas 75265 Copyright 2001, Texas Instruments Incorporatediii Voltage Feedback vs. Current Feedback Op AmpsContents1 Introduction1.. 2 Ideal Models2.. 3 Ideal Models with Feedback3.. 4 Frequency Dependant Gain Model5.. 5 Feedback with Frequency Dependant Models7.. 6 Summary10.. Appendix A Derivation of ModelsA 1.. List of Figures1 Ideal Op Amp Model2.. 2 Noninverting Amplifier3.. 3 Frequency Model5.. 4 Feedback with Frequency Dependant Models7.. 5 Bode Plot9.. ivSLVA0511 Voltage Feedback Vs Current Feedback Op AmpsABSTRACTThis application report contrasts and compares the characteristics and capabilities ofvoltage and Current Feedback operational amplifiers.

6 The report also points out the manysimilarities between the two IntroductionThe Voltage Feedback (VF) operational amplifier (op amp) is the most commontype of op amp. The less well known Current Feedback (CF) op amp has beencommercially available for about 20 years, but many designers are still uncertainabout how to use them. Terminology is a confusing factor for many people. TheCF op amp is a transimpedance op amp and so has a different vocabularyassociated with it. This report attempts to show that there are more similaritiesthan differences between CF and VF op amps when considering basic Models2 SLVA0512 Ideal ModelsThe ideal VF op amp model is a powerful tool that aids in understanding basic VFop amp operation.

7 There is also an ideal model for the CF op amp. Figure 1 (a)shows the VF ideal model and Figure 1 (b) shows the CF ideal +VpVeVnVOieZt+Vpx1 VnieVO+ (a) VF Ideal Op Amp Model(b) CF Ideal Op Amp ModelFigure 1. Ideal Op Amp ModelIn a VF op amp,Vo+a Ve(1)where Ve = Vp Vn is called the error Voltage and a is the open loop Voltage gainof the a CF op amp,Vo+ie Zt(2)where ie is called the error Current and Zt is the open loop transimpedance gainof the amplifier. An amplifier where the output is a Voltage that depends on theinput Current is called a transimpedance amplifier because the transfer functionequates to an impedance , Voie+ Models with Feedback3 Voltage Feedback Vs Current Feedback Op Amps3 Ideal Models with FeedbackApplying negative Feedback around the ideal models, as shown in Figure 2 (a)and Figure 2 (b), results in noninverting amplifiers.

8 In a VF op amp, when negativefeedback is applied, the action of the op amp is to drive the error Voltage to zero;thus the name Voltage Feedback . In a CF op amp, when negative Feedback isapplied, the action of the op amp is to drive the error Current to zero; thus the namecurrent +VpVeVnVOieZt+Vpx1 VnieVO+ (a) VF Ideal Noninverting Amp(b) CF Ideal Noninverting AmpR2R1Vi+ R2R1Vi+ Figure 2. Noninverting AmplifierFor each circuit, solving for Vo in relation to Vi gives the transfer function of thecircuit. In the VF circuit, Equation 1 still holds true so that,Vo = a Ve whereVe = Vp Vn.

9 Now Vp = Vi and Vn+VoR1R1)R2. Substituting and solving forVoVi;VoVi+ a1)a R1R1)R2 + R1)R2R1 11) 1a R1)R2R1 + 1b 11) 1ab (3)where b+ R1R1)R2 In the CF circuit, Equation 2 still holds true so that, Vo = ie Zt ie+VoZt. Also,Vn = Vp= Vi. Summing currents at node Vn, ( ie)) VnR1 ) Vn VoR2 + and solving forVoVi;VoVi+ R1)R2R1 11) R2Zt + 1b 11) R2Zt where b+ R1R1)R2 (4)Ideal Models with Feedback4 SLVA051In either circuit (VF or CF noninverting amplifier), it is desired to set the gain bythe ratio of R1 to R2. The second term on the right hand side of Equations 3 and4 is seen as an error term.

10 In the VF case, if ab is large (ideally equal to infinity),then the error is negligible. In the CF case, if Zt is large (ideally equal to infinity)in comparison to R2, then the error is the ideal behavior of VF and CF amplifiers shows very little Dependant Gain Model5 Voltage Feedback Vs Current Feedback Op Amps4 Frequency Dependant Gain ModelThe open loop gain, a for VF or Zt for CF, is frequency dependant in real op Figure 3, components are added to the ideal models (of Figure 1), which modelthe dominant bandwidth limitations. See Appendix A for the derivation of +gmRcCcx1 VCVOVeVpVni = Ve gmZcRtCcx1 VCVOieVpVnZtiex1(a) VF(b) CFFigure 3.