[Schaum's Outline 01] • Schaum's Outline of Basic Circuit Analysis by O'Malley, John -- Read -- Imperial Library of Trantor

Index

Cover Page Schaum,s Outlines Basic Circuit Analysis, Second Edition Dedication Preface Contents Chapter 1 BASIC CONCEPTS

Digit Grouping International System of Units Electric Charge Electric Current Voltage Dependent Sources Power Energy

Chapter 2 RESISTANCE

Ohm’s Law Resistivity Temperature Effects Resistors Resistor Power Absorption Nominal Values and Tolerances Color Code Open and Short Circuits Internal Resistance

Chapter 3 SERIES AND PARALLEL DC CIRCUITS

Branches, Nodes, Loops, Meshes, Series- and Parallel-Connected Components Kirchhoff’s Voltage Law and Series DC Circuits Voltage Division Kirchhoff’s Current Law and Parallel DC Circuits Current Division Kilohm-Milliampere Method

Chapter 4 DC CIRCUIT ANALYSIS

Cramer’s Rule Calculator Solutions Source Transformations Mesh Analysis Loop Analysis Nodal Analysis Dependent Sources and Circuit Analysis

Chapter 5 DC EQUIVALENT CIRCUITS, NETWORK THEOREMS, AND BRIDGE CIRCUITS

Introduction Thévenin’s and Norton’s Theorems Maximum Power Transfer Theorem Superposition Theorem Millman’s Theorem Y-A and A-Y Transformations Bridge Circuits

Chapter 6 OPERATIONAL-AMPLIFIER CIRCUITS

Introduction Op-Amp Operation Popular Op-Amp Circuits Circuits with Multiple Operational Amplifiers

Chapter 7 PSPICE DC CIRCUIT ANALYSIS

Introduction Basic Statements Dependent Sources .DC and.PRINT Control Statements Restrictions

Chapter 8 CAPACITORS AND CAPACITANCE

Introduction Capacitance Capacitor Construction Total Capacitance Energy Storage Time-Varying Voltages and Currents Capacitor Current Single-Capacitor DC-Excited Circuits RC Timers and Oscillators

Chapter 9 INDUCTORS, INDUCTANCE, AND PSPICE TRANSIENT ANALYSIS

Introduction Magnetic Flux Inductance and Inductor Construction Inductor Voltage and Current Relation Total Inductance Energy Storage Single-Inductor DC-Excited Circuits PSpice Transient Analysis

Chapter 10 SINUSOIDAL ALTERNATING VOLTAGE AND CURRENT

Introduction Sine and Cosine Waves Phase Relations Average Value Resistor Sinusoidal Response Effective or RMS Values Inductor Sinusoidal Response Capacitor Sinusoidal Response

Chapter 11 COMPLEX ALGEBRA AND PHASORS

Introduction Imaginary Numbers Complex Numbers and the Rectangular Form Polar Form Phasors

Chapter 12 BASIC AC CIRCUIT ANALYSIS, IMPEDANCE, AND ADMITTANCE

Introduction Phasor-Domain Circuit Elements AC Series Circuit Analysis Impedance Voltage Division AC Parallel Circuit Analysis Admittance Current Division

Chapter 13 MESH, LOOP, NODAL, AND PSPICE ANALYSES OF AC CIRCUITS

Introduction Source Transformations Mesh and Loop Analyses Nodal Analysis PSpice AC Analysis

Chapter 14 AC EQUIVALENT CIRCUITS, NETWORK THEOREMS, AND BRIDGE CIRCUITS

Introduction Thévenin’s and Norton’s Theorems Maximum Power Transfer Theorem Superposition Theorem AC Y-A and A-Y Transformations AC Bridge Circuits

Chapter 15 POWER IN AC CIRCUITS

Introduction Circuit Power Absorption Wattmeters Reactive Power Complex Power and Apparent Power Power Factor Correction

Chapter 16 TRANSFORMERS

Introduction Right-Hand Rule Dot Convention The Ideal Transformer The Air-Core Transformer The Autotransformer PSpice and Transformers

Chapter 17 THREE-PHASE CIRCUITS

Introduction Subscript Notation Three-Phase Voltage Generation Generator Winding Connections Phase Sequence Balanced Y Circuit Balanced A Load Parallel Loads Power Three-Phase Power Measurements Unbalanced Circuits PSpice Analysis of Three-Phase Circuits

INDEX