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Language | English |
Pages | 421 |
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Dimension | 22.1 MB |
Electrical Circuit Analysis and Design by Noel M. Morris
Electrical Circuit Analysis and Design by Noel M. Morris | PDF Free Download.
Contents of Electrical Circuit Analysis and Design PDF
Parts and Legal guidelines
- Introduction
- Electrical present
- Voltage, e m f and p d
- Energy in d c circuits
- Linear passive circuit parts
- Resistance, conductance and Ohm’s legislation
- Energy in a resistive circuit
- Power consumed in a resistive circuit
- Unbiased and dependent provide sources
- The operational amplifier
- Kirchhoff’s legal guidelines
- The double-suffix voltage notation
- Sensible (non-ideal) sources
- Transformation of sensible sources
- Resistance of aseries circuit
- Voltage division in series-connected resistors
- Resistance and conductance of a parallel circuit
- Present division in a parallel circuit
- Unworked issues
Circuit Analysis
- Introduction
- Definitions and terminology
- Mesh evaluation
- Normal mIes for writing mesh equations
- Resolution of three simultaneous equations
- Labored examples utilizing mesh evaluation
- Nodal evaluation
- Normal mIes for writing nodal equations
- Labored examples utilizing nodal evaluation
- Community topology
- Loop evaluation
- Duality
- nworked issues
Circuit Theorems
- Introduction
- Linearity
- Precept of superposition
- Thevenin’s theorem
- Norton’s theorem
- Relationship between Thevenin’s and Norton’s circuits
- Reciprocity theorem
- The utmost energy switch theorem
- The parallel-generator (Millman’s) theorem
- Rosen’s theorem or the overall star-mesh transformation
- The star-delta, tee-wye or tee-pi transformation
- The delta-star, wye-tee or pi-tee transformation
- Abstract of star-delta and delta-star transformations
- Unworked issues
Power Storage Parts
- Introduction
- Capacitors
- Power saved in a capacitor
- Capacitors in parallel
- Capacitors in sequence
- Potential division in series-connected capacitors
- Inductance
- Power saved in an inductor
- Inductors in se ries
- Inductors in parallel
- Duality between inductors and capacitors
- Relationship between inductance, reluctance and the variety of activates a coil
- Mutual inductance
- Route of the mutually induced e m f – the dot notation
- Coefficient of coupling
- Mutually coupled coils in se ries and in parallel
- Unworked issues
The Sinewave, Phasors and Energy
- Introduction
- Imply or common worth of an alternating amount
- The efficient worth or r m s worth of a periodic wave
- Section angle
- Phasors and phasor diagrams
- Illustration of a sinusoidal amount as a posh worth
- Impedance of parts
- Resistance
- Pure inductance
- Pure capacitance
- CIVIL – an a c mnemonic
- The susceptance of parts
- The admittance of parts
- The impedance of parts in se ries
- The admittance and impedance of parts in parallel
- Impedance and admittance of series-parallel circuits
- Energy and energy issue
- Energy, VA and V Ar absorbed by perfect parts
- v-i waveforms
- Energy consumed in an a c circuit
- Complicated energy
- Unworked issues
Sinusoidal Regular-state Analysis
- Introduction
- Nodal, mesh and loop evaluation
- Precept of superposition
- Thevenin’s theorem and Norton’s theorem
- Millman’s theorem
- Rosen’s, star-delta and delta-star theorems
- Most energy switch theorem
- a c circuits with dependent sources
- Unworked issues
Polyphase Circuits
- Introduction
- Three-phase era
- Star-connection or Y -connection
- Section sequence
- Balanced and unbalanced methods
- Section and line voltages in a star-connected system
- Delta-connected or mesh-connected three-phase supply
- Three-phase, 4~wire, star-star system
- Balanced provide, balanced load
- Three-phase, four-wire, star-connected system with an unbalanced load
- Three-phase, three-wire, star-star system
- Delta-connected methods
- Balanced delta-connected load with a balanced provide
- Unbalanced delta-connected load with a balanced provide
- Unbalanced delta-connected load with an unbalanced provide
- Delta-connected provide and a star-connected load
- Star-connected provide and delta-connected load
- Abstract of balanced star- and delta-connected masses
- Energy consumed in a three-phase system
- Energy measurement in a three-phase system
- The 2-wattmeter methodology of energy measurement
- Introduction to symmetrical elements
- Analysis of unbalanced circumstances
- Energy consumed by symmetrical elements
- Unworked issues
Two-port Networks
- Introduction
- Enter impedance, output impedance, voltage achieve, present achieve and energy achieve
- Admittance parameters or y-parameters
- Impedance parameters or z-parameters
- Hybrid parameters or h-parameters
- Transmission parameters
- Relationship between the y-, Z-, h- and t-parameters
- Interconnection between two-port networks
- Unworked issues
The Transformer
- Introduction
- The perfect transformer
- Phasor diagram for an excellent transformer on no-load
- Leakage flux in a transformer
- Impedance matching with an excellent transformer
- The perfect transformer as a two-port community
- Thevenin’s equal circuit of an excellent transformer and voltage regulation
- The linear transformer
- T- and n-equivalent circuit of a linear transformer
- Unworked issues
Transient Resolution of Electrical Circuits
- Introduction
- Classical answer of first-order methods
- The time fixed i of a circuit
- Circuits reducible to first-order format
- Classical answer of second-order methods
- The Laplace rework
- Step, impulse and ramp capabilities
- Laplace transforms of some helpful capabilities
- Properties of the Laplace rework
- Illustration of circuit parts within the s area
- Introduction to evaluation of first-order methods utilizing the Laplace rework
- Sinusoidal excitation of first-order methods
- Resolution of second-order circuits utilizing Laplace transforms
- s-Area switch capabilities
- Transients in magnetically coupled circuits
- Unworked issues
Complicated Frequency, the s-Aircraft and Bode Diagrams
- Introduction
- The exponential type of a posh quantity
- Complicated frequency
- The s-plane
- Transformation of impedance into the s-domain
- Frequency response as a operate
- Switch capabilities
- Bode diagrams
Resonance
- Introduction
- The resonant situation
- Collection resonance
- Resonant frequency and frequency response
- The standard issue, Q s, of the sequence circuit
- The height voltage throughout R, Land C
- Bandwidth and selectivity of aseries RLC circuit
- Parallel resonance
- Resonant frequency and frequency response of an excellent parallel circuit
- The standard issue, Q p’ of an excellent parallel circuit
- Bandwidth and selectivity of a parallel circuit
- Resonance in a sensible parallel circuit
- Scaling electrical circuits
- Impedance or magnitude scaling
- Frequency scaling
- Mixed scaling
- Common resonant circuits
- Passive and lively filters
- Passive band-pass filter
- Passive band-stop filter
- Energetic RC filters
- Selective resonance
- Tuned coupled circuits
- Unworked issues
Harmonics and Fourier Analysis
- Introduction
- Harmonics
- Trigonometric Fourier sequence
- Waveform symmetry
- Line spectra
- Circuit response to a non-sinusoidal forcing operate
- r m s worth of a posh wave and the ability equipped
- Impact of harmonics in a c methods
- Harmonic evaluation
- Unworked issues
Pc Resolution of Electrical Circuits
- Introduction
- Circuit description
- Aspect description
- Programming examples
Complicated Numbers, Matrices, Determinants and Partial Fractions
- Imaginary numbers
- Complicated numbers
- Illustration of advanced numbers
- Conjugate of a posh quantity
- Sum and distinction of advanced numbers
- Multiplication of advanced numbers
- Division of advanced numbers
- Powers and roots of advanced numbers
- Matrix illustration
- Matrix addition and subtraction
- Matrix multiplication
- The determinant of a sq. matrix
- Minors and cofactors
- Evaluating a determinant
- The rule of Sarrus
- Cramer’s rule
- Matrices and determinants containing advanced numbers
- Partial fractions
Electrical Circuit Analysis and Design PDF
Author(s): Noel M. Morris (auth.)
Series: Macmillan New Electronics Series
Publisher: Macmillan Education UK,
Year: 1993
ISBN: 978-0-333-55483-8