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Basic Circuit Analysis

John O'Malley
Format
Book
Published
New York, New York : McGraw-Hill, 2011.
Edition
Second edition
Language
English
Series
Schaum's Outline
Schaum's Outline Series
ISBN
9780071756433, 0071756434
Summary
Overview: The ideal review for your basic circuit analysis course. More than 40 million students have trusted Schaum's Outlines for their expert knowledge and helpful solved problems. Written by renowned experts in their respective fields, Schaum's Outlines cover everything from math to science, nursing to language. The main feature for all these books is the solved problems. Step-by-step, authors walk readers through coming up with solutions to exercises in their topic of choice. 700 solved problems; -- Outline format supplies a concise guide to the standard college course in basic circuits; -- Clear, concise explanations of all electric circuits concepts; -- Appropriate for the following courses: Basic Circuit Analysis, Electrical Circuits, Electrical Engineering Circuit Analysis, Introduction to Circuit Analysis, AC & DC Circuits; -- Supports and supplements the bestselling textbooks in circuits; -- Easily understood review of basic circuit analysis; -- Supports all the major textbooks for basic circuit analysis courses.
Contents
  • 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
  • Op-Amp circuits
  • Popular Op-Amp circuits
  • Circuits with multiple operational amplifiers
  • Pspice DC Circuit Analysis
  • Basic statements
  • DC and PRINT control statements
  • Restrictions
  • Capacitors And Capacitance
  • 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
  • Magnetic flux
  • Inductance and inductor construction
  • Inductor voltage and current relation
  • Total inductance
  • Single-inductor DC-excited circuits
  • PSpice transient analysis
  • Sinusoidal Alternating Voltage And Current
  • 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
  • Imaginary numbers
  • Complex numbers and the rectangular form
  • Polar form
  • Phasors
  • Basic AC Circuit Analysis, Impedance, And Admittance
  • Phasor-domain circuit elements
  • AC series circuit analysis
  • Impedance
  • AC parallel circuit analysis
  • Admittance
  • Current divisions
  • Mesh, Loop, Nodal, And Pspice Analyses Of AC Circuits
  • Mesh and loop analyses
  • Modal analysis
  • Pspice AC analysis
  • AC Equivalent Circuits, Network Theorems, And Bridge Circuits
  • AC Y-(delta resistor circuit) and (delta resistor circuit)-Y transformations
  • AC bridge circuits
  • Power In AC Circuits
  • Circuit power absorption
  • Wattmeters
  • Reactive power
  • Complex power and apparent power
  • Power factor correction
  • Transformers
  • Right-hand rule
  • Dot convention
  • Ideal transformer
  • Air-core transformer
  • Autotransformer
  • Pspice and transformers
  • Three-Phase Circuits
  • Subscript notation
  • Three-phase voltage generation
  • Generator winding connections
  • Phase sequence
  • Balanced Y circuit
  • Balanced (delta resistor circuit) load
  • Parallel loads
  • Three-phase power measurements
  • Unbalanced circuits
  • Pspice analysis of three-phase circuits
  • Index.
Description
ix, 419 pages : illustrations ; 28 cm.
Notes
Includes index.
Technical Details
  • Access in Virgo Classic
  • Staff View

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    a| 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.
    520
      
      
    a| Overview: The ideal review for your basic circuit analysis course. More than 40 million students have trusted Schaum's Outlines for their expert knowledge and helpful solved problems. Written by renowned experts in their respective fields, Schaum's Outlines cover everything from math to science, nursing to language. The main feature for all these books is the solved problems. Step-by-step, authors walk readers through coming up with solutions to exercises in their topic of choice. 700 solved problems; -- Outline format supplies a concise guide to the standard college course in basic circuits; -- Clear, concise explanations of all electric circuits concepts; -- Appropriate for the following courses: Basic Circuit Analysis, Electrical Circuits, Electrical Engineering Circuit Analysis, Introduction to Circuit Analysis, AC & DC Circuits; -- Supports and supplements the bestselling textbooks in circuits; -- Easily understood review of basic circuit analysis; -- Supports all the major textbooks for basic circuit analysis courses.
    650
      
    0
    a| Electric circuit analysis v| Problems, exercises, etc.
    650
      
    0
    a| Electric circuit analysis v| Outlines, syllabi, etc.
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    a| TK454 .O45 2011 w| LC i| X031656818 l| STACKS m| SCI-ENG t| BOOK
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