O'Malley, John R.
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
621.3192 / Om Ba
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
621.3192 / Om Ba