04454nam 2200577Ia 450 991100701680332120200520144314.01-61353-060-91-61344-417-6(CKB)3190000000024595(EBL)1180081(SSID)ssj0000614975(PQKBManifestationID)11387254(PQKBTitleCode)TC0000614975(PQKBWorkID)10606037(PQKB)11189535(MiAaPQ)EBC1180081(EXLCZ)99319000000002459520090722d2010 uy 0engur|n|---|||||txtccrDesigning amplifier circuits /D. FeuchtRaleigh, NC SciTech Pub.c20101 online resource (224 p.)Analog circuit design series ;v. 1Description based upon print version of record.1-891121-86-3 Includes bibliographical references and index.Contents; Chapter 1. Electronic Design; Electronic Design; Product Development; Design-Driven Analysis; Nonlinear Circuit Analysis; Chapter 2. Amplifier Circuits; Bipolar Junction Transistor T Model; The b Transform; Two-Port Networks; Amplifier Configurations; The Transresistance Method; Input and Output Resistances; The Cascade Amplifier; BJT Output Resistance; The Cascode Amplifier; The Effect of Base-Emitter Shunt Resistance; The Darlington Amplifier; The Differential (Emitter-Coupled) Amplifier; Current Mirrors; Matched Transistor Buffers and Complementary Combinations; ClosureChapter 3. Amplifier ConceptsThe Reduction Theorem; m Transform of BJT and FET T Models; Common-Gate Amplifier with ro; Common-Source Amplifier with ro; Common-Drain Amplifier with ro; FET Cascode Amplifier with ro; Common-Base Amplifier with ro; CC and CE Amplifiers with ro; Loaded Dividers, Source Shifting, and the Substitution Theorem; Closure; Chapter 4. Feedback Amplifiers; Feedback Circuits Block Diagram; Port Resistances with Dependent Sources; General Feedback Circuit; Input Network Summing; Choosing xE, xf, and the Input Network Topology; Two-Port Equivalent CircuitsTwo-Port Loading TheoremFeedback Analysis Procedure; Noninverting Op-Amp; Inverting Op-Amp; Inverting BJT Amplifier Examples; Noninverting Feedback Amplifier Examples; A Noninverting Feedback Amplifier with Output Block; FET Buffer Amplifier; Feedback Effects on Input and Output Resistance; Miller's Theorem; Noise Rejection by Feedback; Reduction of Nonlinearity with Feedback; Closure; Chapter 5. Multiple-Path Feedback Amplifiers; Multipath Feedback Circuits; Common-Base Amplifier Feedback Analysis; Common-Emitter Amplifier Feedback Analysis; Common-Collector Amplifier Feedback AnalysisInverting Op-Amp with Output ResistanceFeedback Analysis of the Shunt-Feedback Amplifier; Shunt-Feedback Amplifier Substitution Theorem Analysis; Idealized Shunt-Feedback Amplifier; Cascode and Differential Shunt-Feedback Amplifiers; Blackman's Resistance Formula; The Asymptotic Gain Method; Emitter-Coupled Feedback Amplifier; Emitter-Coupled Feedback Amplifier Example; Audiotape Playback Amplifier Examples; Closure; References; Index""The Analog Circuit Design set reduces the concepts of analog electronics to their simplest, most obvious form which can easily be applied (even quantitatively) with minimal effort. The emphasis of the set is to help you intuitively learn through inspection how circuits work and apply the same techniques to circuits of the same class. The fourth volume in the set Waveform-Processing Circuits builds on the previous 3 volumes (9781891121869; 9781891121838; 9781891121845) and presents a variety of analog non-amplifier circuits, including voltage references, current sources, filters, hysteresis sAnalog circuit design series ;v. 1Amplifiers (Electronics)Design and constructionElectronic circuit designAmplifiers (Electronics)Design and construction.Electronic circuit design.621.3815/35ZN 5460rvkFeucht Dennis1825084MiAaPQMiAaPQMiAaPQBOOK9911007016803321Designing amplifier circuits4392546UNINA