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Pease, Robert A.
[Editor]
Analog circuits
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- Media type: E-Book
- Title: Analog circuits
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Contains:
Front Cover; Analog Circuits: World Class Designs; Copyright Page; Table of Contents; Preface; About the Editor; About the Authors; Chapter 1: Review of Feedback Systems; Introduction and Some Early History of Feedback Control; Invention of the Negative Feedback Amplifier; Control System Basics; Loop Transmission and Disturbance Rejection; Stability; Routh Stability Criterion; The Phase Margin and Gain Margin Tests; Relationship Between Damping Ratio and Phase Margin; Loop Compensation Techniques-Lead and Lag Networks; Parenthetical Comment on Some Interesting Feedback Loops
Example 1-1: Gain of +1 amplifierExample 1-2: Gain of +10 amplifier; Example 1-3: Integral control of reactive load; Example 1-4: Photodiode amplifier; Example 1-5: MOSFET current source; Example 1-6: Maglev example; Appendix: MATLAB Scripts; References; Chapter 2: My Approach to Feedback Loop Design; My Approach to Design; What Is a V/I Source?; An Ideal V/I Source; Designing a V/I Source; Capacitive Load Compensation; Model to Investigate Overshoot; Back to the Frequency Domain; Range of Compensation Required; Phase Margin Approach to Loop Compensation
LTX Device Power Source (DPS) PerformanceSummary of My Method; Chapter 3: Basic Operational Amplifier Topologies and a Case Study; In This Chapter; Basic Device Operation; Example 3-1: Case study: Design, analysis, and simulation of a discrete operational amplifier; Brief Review of LM741 Op-Amp Schematic; Some Real-World Limitations of Operational Amplifiers; Example 3-2: Op-amp driving capacitive load; References; Chapter 4: Finding the Perfect Op-Amp for Your Perfect Circuit; Choose the Technology Wisely; Fundamental Operational Amplifier Circuits; Using These Fundamentals
Amplifier Design PitfallsReferences; Chapter 5: Review of Passive Components and a Case Study in PC Board Layout; In This Chapter; Resistors; Comments on Surface-Mount Resistors; Comments on Resistor Types; Capacitors; Inductors; Printed Circuit Board Layout Issues; Approximate Inductance of a PCB Trace Above a Ground Plane; Example 5-1: Design case study-high-speed semiconductor laser diode driver; References; Chapter 6: Analog Lowpass Filters; In This Chapter; A Quick Introduction to Analog Filters; Passive Filters; Normalization and Denormalization; Poles and Zeros; Active Lowpass Filters
First-Order Filter SectionSallen-Key Lowpass Filters; Sallen-Key Rolloff Deficiencies; Denormalizing Sallen-Key Filter Designs; State Variable Lowpass Filters; Cauer and Inverse Chebyshev Active Filters; Denormalizing State Variable or Biquad Designs; Frequency-Dependent Negative Resistance Filters; Denormalization of FDNR Filters; References; Chapter 7: Highpass Filters; In This Chapter; Passive Filters; Active Highpass Filters; First-Order Filter Section; Sample-and-Difference Circuit; Sallen-Key Highpass Filter; Using Lowpass Pole to Find Component Values
Using Highpass Poles to Find Component Values
- Contributor: Pease, Robert A. [Hrsg.]
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imprint:
Amsterdam; Heidelberg [u.a.]: Elsevier Newnes, 2008
Online-Ausg. - Published in: World Class Designs
- Extent: XXIII, 436 S.; Ill., graph. Darst
- Language: English
- ISBN: 9780750686273; 0080569811; 1281716634; 9780080569819; 9781281716637
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RVK notation:
ZN 5530 : Analogschaltungen allgemein
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Keywords:
Analogschaltung
>
Schaltungsentwurf
>
Regler
>
Operationsverstärker
>
Analog-Digital-Umsetzer
Analogschaltung > Schaltungsentwurf > Regler > Operationsverstärker > Analog-Digital-Umsetzer
- Type of reproduction: Online-Ausg.
- Origination:
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Footnote:
Includes index
- Description: Newnes has worked with Robert Pease, a leader in the field of analog design to select the very best design-specific material that we have to offer. The Newnes portfolio has always been know for its practical no nonsense approach and our design content is in keeping with that tradition. This material has been chosen based on its timeliness and timelessness. Designers will find inspiration between these covers highlighting basic design concepts that can be adapted to today's hottest technology as well as design material specific to what is happening in the field today. As an added bonus the editor of this reference tells you why this is important material to have on hand at all times. A library must for any design engineers in these fields. *Hand-picked content selected by analog design legend Robert Pease *Proven best design practices for op amps, feedback loops, and all types of filters *Case histories and design examples get you off and running on your current project