Basic circuit analysis /
John O'Malley
- 2nd
- New York: McGraw Hill; 2011
- 419 p.
- Schaum's outline series .
Basic Concepts: Digit grouping International system of units Electric charge Electric current Voltage Dependent sources Power Energy Resistance: Ohm's Law Resistivity Temperature effects Resistors Resistor power absorption Nominal values and tolerances Color code Open and short circuits Internal resistance 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 DC Circuit Analysis: Cramer's rule Calculator solutions Source transformations Mesh analysis Loop analysis Nodal analysis Dependent sources and circuit analysis DC Equivalent Circuits, Network Theorems, And Bridge Circuits: Introduction Thevenin's and Norton's theorems Maximum power transfer theorem Superposition theorem Millman's theorem Y-(delta resistor circuit) and (delta resistor circuit)-Y transformations Bridge circuits Operational-Amplifier Circuits: Introduction Op-Amp circuits Popular Op-Amp circuits Circuits with multiple operational amplifiers Pspice DC Circuit Analysis: Introduction Basic statements Dependent sources DC and PRINT control statements Restrictions 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 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 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 Complex Algebra And Phasors: Introduction Imaginary numbers Complex numbers and the rectangular form Polar form Phasors 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 divisions Mesh, Loop, Nodal, And Pspice Analyses Of AC Circuits: Introduction Source transformations Mesh and loop analyses Modal analysis Pspice AC analysis AC Equivalent Circuits, Network Theorems, And Bridge Circuits: Introduction Thevenin's and Norton's theorems Maximum power transfer theorem Superposition theorem AC Y-(delta resistor circuit) and (delta resistor circuit)-Y transformations AC bridge circuits Power In AC Circuits: Introduction Circuit power absorption Wattmeters Reactive power Complex power and apparent power Power factor correction Transformers: Introduction Right-hand rule Dot convention Ideal transformer Air-core transformer Autotransformer Pspice and transformers Three-Phase Circuits Introduction Subscript notation Three-phase voltage generation Generator winding connections Phase sequence Balanced Y circuit Balanced (delta resistor circuit) load Parallel loads Power Three-phase power measurements Unbalanced circuits Pspice analysis of three-phase circuits Index
9780071756433
Electric circuit analysis Electric circuit analysis Problems, exercises, etc