1.

Record Nr.

UNINA9911007017003321

Autore

Feucht Dennis

Titolo

Designing dynamic circuit response / / D. Feucht

Pubbl/distr/stampa

Raleigh, NC, : SciTech Pub., c2010

ISBN

1-61353-061-7

1-61344-418-4

Descrizione fisica

1 online resource (292 p.)

Collana

Analog circuit design series ; ; v. 2

Classificazione

ZN 5400

Disciplina

621.3815/35

Soggetti

Frequency response (Dynamics)

Transients (Dynamics)

Electronic circuit design

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Description based upon print version of record.

Nota di bibliografia

Includes bibliographical references and index.

Nota di contenuto

Contents; Chapter 1. Transient and Frequency Response; Reactive Circuit Elements; First-Order Time-Domain Transient Response; Complex Poles and the Complex Frequency Domain; Second-Order Time-Domain Response: RLC Circuit; Forced Response and Transfer Functions in the s-Domain; The Laplace Transform; Time-Domain Response to a Unit Step Function; Circuit Characterization in the Time Domain; The s-Plane Frequency Response of Transfer Functions; Graphical Representation of Frequency Response; Loci of Quadratic Poles; Optimization of Time-Domain and Frequency-Domain Response

Reactance Chart Transfer Functions of Passive CircuitsClosure; Chapter 2. Dynamic Response Compensation; Passive Compensation: Voltage Divider; Op-Amp Transfer Functions from Reactance Charts; Feedback Circuit Response Representation; Feedback Circuit Stability; Compensation Techniques; Compensator Design: Compensating with Zeros in H; Compensator Design: Reducing Static Loop Gain; Compensator Design: Pole Separation and Parameter Variation; Two-Pole Compensation; Output Load Isolation; Complex Pole Compensation; Compensation by the Direct (Truxal's) Method; Power Supply Bypassing

Chapter 3. High-Frequency Impedance TransformationsActive Device Behavior above Bandwidth; BJT High-Frequency Model; Impedance



Transformations in the High-Frequency Region; Reactance Chart Representation of b-Gyrated Circuits; Reactance Chart Stability Criteria for Resonances; Emitter-Follower Reactance-Plot Stability Analysis; Emitter-Follower High-Frequency Equivalent Circuit; Emitter-Follower High-Frequency Compensation; Emitter-Follower Resonance Analysis from the Base Circuit; Emitter-Follower Compensation with a Base Series RC; BJT Amplifier with Base Inductance

Sommario/riassunto

This second volume, Designing Dynamic Circuit Response builds upon the first volume Designing Amplifier Circuits by extending coverage to include reactances and their time- and frequency-related behavioral consequences.