Page 9 - Schaum's Outline of Theory and Problems of Electric Circuits
P. 9
viii Contents
12.2 High-Pass and Low-Pass Networks 274
12.3 Half-Power Frequencies 278
12.4 Generalized Two-Port, Two-Element Networks 278
12.5 The Frequency Response and Network Functions 279
12.6 Frequency Response from Pole-Zero Location 280
12.7 Ideal and Practical Filters 280
12.8 Passive and Active Filters 282
12.9 Bandpass Filters and Resonance 283
12.10 Natural Frequency and Damping Ratio 284
12.11 RLC Series Circuit; Series Resonance 284
12.12 Quality Factor 286
12.13 RLC Parallel Circuit; Parallel Resonance 287
12.14 Practical LC Parallel Circuit 288
12.15 Series-Parallel Conversions 289
12.16 Locus Diagrams 290
12.17 Scaling the Frequency Response of Filters 292
CHAPTER 13 Two-port Networks 310
13.1 Terminals and Ports 310
13.2 Z-Parameters 310
13.3 T-Equivalent of Reciprocal Networks 312
13.4 Y-Parameters 312
13.5 Pi-Equivalent of Reciprocal Networks 314
13.6 Application of Terminal Characteristics 314
13.7 Conversion Between Z- and Y-Parameters 315
13.8 h-Parameters 316
13.9 g-Parameters 317
13.10 Transmission Parameters 317
13.11 Interconnecting Two-Port Networks 318
13.12 Choice of Parameter Type 320
13.13 Summary of Terminal Parameters and Conversion 320
CHAPTER 14 Mutual Inductance and Transformers 334
14.1 Mutual Inductance 334
14.2 Coupling Coefficient 335
14.3 Analysis of Coupled Coils 336
14.4 Dot Rule 338
14.5 Energy in a Pair of Coupled Coils 338
14.6 Conductively Coupled Equivalent Circuits 339
14.7 Linear Transformer 340
14.8 Ideal Transformer 342
14.9 Autotransformer 343
14.10 Reflected Impedance 344
CHAPTER 15 Circuit Analysis Using Spice and Pspice 362
15.1 Spice and PSpice 362
15.2 Circuit Description 362
15.3 Dissecting a Spice Source File 363
15.4 Data Statements and DC Analysis 364
15.5 Control and Output Statements in DC Analysis 367
15.6 The ´ venin Equivalent 370
15.7 Op Amp Circuits 370
