E-Book, Englisch, 360 Seiten, Web PDF
Dostal Operational Amplifiers
2. Auflage 2013
ISBN: 978-1-4832-9236-6
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
E-Book, Englisch, 360 Seiten, Web PDF
Reihe: EDN Series for Design Engineers
ISBN: 978-1-4832-9236-6
Verlag: Elsevier Science & Techn.
Format: PDF
Kopierschutz: 1 - PDF Watermark
This book provides the reader with the practical knowledge necessary to select and use operational amplifier devices. It presents an extensive treatment of applications and a practically oriented, unified theory of operational circuits.Provides the reader with practical knowledge necessary to select and use operational amplifier devices. Presents an extensive treatment of applications and a practically oriented, unified theory of operational circuits
Autoren/Hrsg.
Weitere Infos & Material
1;Front Cover;1
2;Operational Amplifiers;4
3;Copyright Page;5
4;Table of Contents;6
5;Preface;10
6;Part 1: The Operational Amplifier;12
6.1;Chapter 1. Basic Concepts;14
6.1.1;1.1 The Operational Amplifier;14
6.1.2;1.2 Operational Circuit;16
6.1.3;1.3 Ideal Operational Amplifier and Ideal Operational Circuit;17
6.1.4;1.4 Summary;18
6.1.5;References;18
6.2;Chapter 2. Operational Amplifier Parameters;20
6.2.1;2.1 Linear Parameters and Linear Model;20
6.2.2;2.2 Nonlinear Parameters;34
6.2.3;2.3 Settling Time and Overdrive Recovery Time;35
6.2.4;2.4 Summary;37
6.2.5;References;37
6.3;Chapter 3. Operational Amplifier Properties;38
6.3.1;3.1 Bipolar Input Stage;38
6.3.2;3.2 FET-lnput Stage;56
6.3.3;3.3 Examples of Input Stage Design;70
6.3.4;3.4 Output Stage;78
6.3.5;3.5 Frequency Compensation;84
6.3.6;3.6 Summary;90
6.3.7;References;93
7;Part 2: The Operational Circuit;98
7.1;Chapter 4. The Ideal Operational Circuit;100
7.1.1;4.1 Types of Operational Circuits;100
7.1.2;4.2 Parallel Operational Circuit;103
7.1.3;4.3 Series Operational Circuit;112
7.1.4;4.4 Composite Operational Circuits;115
7.1.5;4.5 Summary;124
7.1.6;References;125
7.2;Chapter 5. Analysis of the Real Operational Circuit;126
7.2.1;5.1 Feedback Factor;128
7.2.2;5.2 Operational Equation;135
7.2.3;5.3 Closed-Loop Gain;139
7.2.4;5.4 Dynamic Behavior of Selected Operational Circuits;148
7.2.5;5.5 Summary;161
7.2.6;References;162
7.3;Chapter 6. Static and Dynamic Errorsin the Frequency Domain;166
7.3.1;6.1 Vector, Amplitude, and Phase Errors;167
7.3.2;6.2 Static Errors;173
7.3.3;6.3 Dynamic Errors;180
7.3.4;6.4 Measurement of Errors;193
7.3.5;6.5 Summary;195
7.3.6;References;197
7.4;Chapter 7. Dynamic Errors in the Time Domain;200
7.4.1;7.1 Operational-Circuit Settling Time;200
7.4.2;7.2 Frequency Doublet;206
7.4.3;7.3 Summing-Junction Capacitance;217
7.4.4;7.4 Rate Error;222
7.4.5;7.5 Measurement of Settling Time;224
7.4.6;7.6 Summary;229
7.4.7;References;231
7.5;Chapter 8. Input and Output Impedances;234
7.5.1;8.1 Operational-Circuit Input Impedance;234
7.5.2;8.2 Operational-Circuit Output Impedance;241
7.5.3;8.3 Summary;244
7.5.4;References;245
7.6;Chapter 9. Offset;246
7.6.1;9.1 Basic Relationships;246
7.6.2;9.2 Offset of Simple Operational Circuits;252
7.6.3;9.3 Offset Due to Feedback Network;276
7.6.4;9.4 Operational-Circuit Offset Nulling;283
7.6.5;9.5 Summary;286
7.6.6;References;288
7.7;Chapter 10. Noise;290
7.7.1;10.1 Noise Filtering;290
7.7.2;10.2 Operational-Circuit Low-Frequency Noise;298
7.7.3;10.3 Operational-Circuit Wideband Noise;310
7.7.4;10.4 Interference Noise;312
7.7.5;10.5 Summary;314
7.7.6;References;315
7.8;Chapter 11. Stability;318
7.8.1;11.1 Feedback Stability;318
7.8.2;11.2 Operational-Circuit Frequency Compensation;343
7.8.3;11.3 Summary;360
7.8.4;References;362
7.9;Chapter 12. Good Laboratory Practices;364
7.9.1;12.1 Design Practices;364
7.9.2;12.2 Troubleshooting;367
7.9.3;12.3 Summary;370
7.9.4;References;370
8;Appendix A: Summary Tables;372
9;Index;392
