Introduction to electric circuits

Por:

Dorf, Richard C [autor]

Colaborador(es):

Svoboda, James A [autor]

Idioma: Inglés Detalles de publicación: New York (Estados Unidos): John Wiley & Sons Singapore Pte. Ltd., 2014Edición: Nineth editionDescripción: 872 páginasTipo de contenido:

text

Tipo de medio:

no mediado

Tipo de soporte:

volumen

ISBN:

9781118321829

Tema(s):

Clasificación CDD:

621.3192 DORi

Contenidos:

Electric circuits variables.-- Electric circuits and current.-- Systems of units.-- Voltage.-- Power and energy.-- Circuit análisis and design.-- How can we check?.-- Design example – jet valve controller.-- Circuit elements.-- Engineering and linear models.-- Active and passive circuit elements.-- Resistors.-- Independent sources.-- Voltmeters and ammeters.-- Dependen sources.-- Transducers.-- Switches.-- How can we check?.-- Design example – temperatura sensor.-- Resistive circuits.-- Kirchhoff’s laws.-- Series resistors and voltaje division.-- Parallel resistors and current division.-- Series voltage sources and parallel current sources.-- Circuit analysis.-- Analyzing resistive circuits using MATLAB.-- How can we check?.-- Design example – adjustable voltage source.-- Methods of analysis of resistive circuits.-- Node voltage analysis of circuits with current sources.-- Node voltage analysis of circuits with current and voltage sources.-- Node voltage analysis with depend sources.-- Mesh current analysis with independent voltage sources.-- Mesh current analysis with current and voltage sources.-- Mesh curent analysis with dependent sources.-- The node voltage method and mesh current method compared.-- Circuit analysis using MATLAB.-- How can we check?.-- Design example – potentiometer angle display.-- Circuits theorems.-- Source transformations.-- Superposition.— Thévenin´s theorem.-- Norton´s equivalent circuit.-- Maximum power transfer.-- Using MATLAB to determine the Thévenin equivalent circuit.-- Using PSpice to determine the Thévenin equivalent circuit.-- How can we check?.-- Design example – strain gauge bridge.-- The operational amplifier.-- The operational amplifier.-- The ideal operational amplifier.-- Nodal analysis of circuits containing ideal operational amplifier.— Desing using operational amplifier.-- Operational amplifier circuits and linear algebraic equations.-- Characteristics of practical operational amplifiers.-- Analysis of op amp circuits usign MATLAB.-- Using PSpice to analyze op amp circuits.-- How can we check?.-- Design example – transducer interface circuit.-- Energy storage elements.-- Capacitors.-- Energy storage in a capacitor.-- Series and parallel capacitors.-- Initial conditions of switched circuits.-- Operational amplifier circuits and linear differential equations.-- Using MATLAB to plot capacitor or inductor voltage and current.-- How can we check?.-- Design example – integrator and switch.-- The complete response of RL and RC circuits.-- First-order circuits.-- The response of a first-order circuit to a constant input.-- Sequential switching.-- Stability of first-order circuits.-- The unit step source.-- The response of a first-order circuit to a nonconstant source.-- Differential operators.-- Using PSpice to analyze first-order circuits.-- How can we check?.-- Design example – a computer and printer.-- The complete response of circuits with two energy storage elements.-- Differential equation for circuits with two energy storage elements.-- Solution of the second-order differential equation-the natural response.-- Natural response of the unforced parallel RLC circuit.-- Natural response of the critically damped unforced parallel RLC circuit.-- Forced response o an RLC circuit.-- State variable approach to circuit analysis.-- Roots in the complex plane.-- How can we check?.-- Design example – auto airbag igniter.-- Sinusoidal steady-state analysis.-- Sinusoidal sources.-- Phasors and sinusoids.-- Impedances.-- Series and parallel impedances.-- Mesh and node equations.-- Thévenind and Norton equivalent circuits.-- Superposition.-- Phasor diagrams.-- Op amps in AC circuits.-- The complete response.-- Using MATLAB to analyze AC circuits.-- Using PSpice to analyze AC circuits.— How can we check?.-- Design example – ano p amp circuit.-- AC steady- state power.-- Electric power.-- Instantaneous power and average power.-- Effective value of a periodic waveform.-- Complex power.— Power factor.-- The power superposition principle.-- The máximum power transfer theorem.-- Coupled inductors.-- The ideal transformer.-- How can we check?.-- Design example – máximum power transfer.-- Three-phase circuits.-- Three-phase voltajes.-- The Y-to-Y circuit.-- The A-connected source and load.-- The Y-to-A circuit.-- Balanced three-phase circuits.-- Instantaneous and average power in a balanced thee-phase load.-- Two-wattmeter power measurement.-- How can we check?.-- Design example – power factor correction.-- Frequency response.-- Gain, pase shift, and the network function.-- Bode plots.-- Resonant circuits.-- Frequency response of op amp circuits.-- Plotting bode plots using MATLAB.-- Using PSpice to plot a frequency response.-- How can we check?.-- Design example – radio tuner.-- The laplace trnsform.-- Laplace transform.-- Pulse inputs.-- Inverse Laplace transform.-- Initial and final value theorems.-- Solution of differential equations describing a circuit.-- Circuit analysis using impedance and initial conditions.-- Transfer function and impedance.-- Convolution.-- Partial fraction expansión using MATLAB.-- How can we check?.-- Design example – adjustable voltage source.-- Fourier series and Fourier transform.-- Exponential form properties.-- The Fourier spectrum.-- Circuits and Fourier series.-- Using PSpice to determine the Fourier series.-- The spectrum transform.-- Fourier transform properties.-- The spectrum of signals.-- Convolution and circuit response.-- The Fourier transform and the Laplace transform.-- How can we check?.-- Design example – DC power supply.-- Filter circuits.-- The Electric filter.-- Filters.-- Secod-order filters.-- High-order filters.-- Simulating filter circuits using PSpice.-- How can we check?.-- Design example – anti-aliasing filter.-- Two-port and three-port networks.-- T-to-II Transformation and two-port thee-terminak networks.-- Equations of two-port networks.-- Z and Y parameters for a circuit with dependent sources.-- Hybrid and transmission parameters.-- Relationships between two-port parameters.-- Interconnection of two-port networks.-- How can we check?.-- Design example – transistor amplifier.-- Getting started with PSpice.-- MATLAB, matrices, and complex arithmetic.-- Mathematical formulas.-- Standard resistor color code.—

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Existencias
Tipo de ítem	Biblioteca actual	Colección	Signatura topográfica	Estado	Fecha de vencimiento	Código de barras
Libros	Biblioteca General En biblioteca	Fac de Sistemas y Telecomunicaciones - Carrera de Electrónica y Telecomunicaciones	621.3192 DORi (Navegar estantería(Abre debajo))	Disponible		BG0018645
Libros	Biblioteca General En biblioteca	Fac de Sistemas y Telecomunicaciones - Carrera de Electrónica y Telecomunicaciones	621.3192 DORi (Navegar estantería(Abre debajo))	Disponible		BG0018646

Electric circuits variables.--
Electric circuits and current.--
Systems of units.--
Voltage.--
Power and energy.--
Circuit análisis and design.--
How can we check?.--
Design example – jet valve controller.--
Circuit elements.--
Engineering and linear models.--
Active and passive circuit elements.--
Resistors.--
Independent sources.--
Voltmeters and ammeters.--
Dependen sources.--
Transducers.--
Switches.--
How can we check?.--
Design example – temperatura sensor.--
Resistive circuits.--
Kirchhoff’s laws.--
Series resistors and voltaje division.--
Parallel resistors and current division.--
Series voltage sources and parallel current sources.--
Circuit analysis.--
Analyzing resistive circuits using MATLAB.--
How can we check?.--
Design example – adjustable voltage source.--
Methods of analysis of resistive circuits.--
Node voltage analysis of circuits with current sources.--
Node voltage analysis of circuits with current and voltage sources.--
Node voltage analysis with depend sources.--
Mesh current analysis with independent voltage sources.--
Mesh current analysis with current and voltage sources.--
Mesh curent analysis with dependent sources.--
The node voltage method and mesh current method compared.--
Circuit analysis using MATLAB.--
How can we check?.--
Design example – potentiometer angle display.--
Circuits theorems.--
Source transformations.--
Superposition.—
Thévenin´s theorem.--
Norton´s equivalent circuit.--
Maximum power transfer.--
Using MATLAB to determine the Thévenin equivalent circuit.--
Using PSpice to determine the Thévenin equivalent circuit.--
How can we check?.--
Design example – strain gauge bridge.--
The operational amplifier.--
The operational amplifier.--
The ideal operational amplifier.--
Nodal analysis of circuits containing ideal operational amplifier.—
Desing using operational amplifier.--
Operational amplifier circuits and linear algebraic equations.--
Characteristics of practical operational amplifiers.--
Analysis of op amp circuits usign MATLAB.--
Using PSpice to analyze op amp circuits.--
How can we check?.--
Design example – transducer interface circuit.--
Energy storage elements.--
Capacitors.--
Energy storage in a capacitor.--
Series and parallel capacitors.--
Initial conditions of switched circuits.--
Operational amplifier circuits and linear differential equations.--
Using MATLAB to plot capacitor or inductor voltage and current.--
How can we check?.--
Design example – integrator and switch.--
The complete response of RL and RC circuits.--
First-order circuits.--
The response of a first-order circuit to a constant input.--
Sequential switching.--
Stability of first-order circuits.--
The unit step source.--
The response of a first-order circuit to a nonconstant source.--
Differential operators.--
Using PSpice to analyze first-order circuits.--
How can we check?.--
Design example – a computer and printer.--
The complete response of circuits with two energy storage elements.--
Differential equation for circuits with two energy storage elements.--
Solution of the second-order differential equation-the natural response.--
Natural response of the unforced parallel RLC circuit.--
Natural response of the critically damped unforced parallel RLC circuit.--
Forced response o an RLC circuit.--
State variable approach to circuit analysis.--
Roots in the complex plane.--
How can we check?.--
Design example – auto airbag igniter.--
Sinusoidal steady-state analysis.--
Sinusoidal sources.--
Phasors and sinusoids.--
Impedances.--
Series and parallel impedances.--
Mesh and node equations.--
Thévenind and Norton equivalent circuits.--
Superposition.--
Phasor diagrams.--
Op amps in AC circuits.--
The complete response.--
Using MATLAB to analyze AC circuits.--
Using PSpice to analyze AC circuits.—
How can we check?.--
Design example – ano p amp circuit.--
AC steady- state power.--
Electric power.--
Instantaneous power and average power.--
Effective value of a periodic waveform.--
Complex power.—
Power factor.--
The power superposition principle.--
The máximum power transfer theorem.--
Coupled inductors.--
The ideal transformer.--
How can we check?.--
Design example – máximum power transfer.--
Three-phase circuits.--
Three-phase voltajes.--
The Y-to-Y circuit.--
The A-connected source and load.--
The Y-to-A circuit.--
Balanced three-phase circuits.--
Instantaneous and average power in a balanced thee-phase load.--
Two-wattmeter power measurement.--
How can we check?.--
Design example – power factor correction.--
Frequency response.--
Gain, pase shift, and the network function.--
Bode plots.--
Resonant circuits.--
Frequency response of op amp circuits.--
Plotting bode plots using MATLAB.--
Using PSpice to plot a frequency response.--
How can we check?.--
Design example – radio tuner.--
The laplace trnsform.--
Laplace transform.--
Pulse inputs.--
Inverse Laplace transform.--
Initial and final value theorems.--
Solution of differential equations describing a circuit.--
Circuit analysis using impedance and initial conditions.--
Transfer function and impedance.--
Convolution.--
Partial fraction expansión using MATLAB.--
How can we check?.--
Design example – adjustable voltage source.--
Fourier series and Fourier transform.--
Exponential form properties.--
The Fourier spectrum.--
Circuits and Fourier series.--
Using PSpice to determine the Fourier series.--
The spectrum transform.--
Fourier transform properties.--
The spectrum of signals.--
Convolution and circuit response.--
The Fourier transform and the Laplace transform.--
How can we check?.--
Design example – DC power supply.--
Filter circuits.--
The Electric filter.--
Filters.--
Secod-order filters.--
High-order filters.--
Simulating filter circuits using PSpice.--
How can we check?.--
Design example – anti-aliasing filter.--
Two-port and three-port networks.--
T-to-II Transformation and two-port thee-terminak networks.--
Equations of two-port networks.--
Z and Y parameters for a circuit with dependent sources.--
Hybrid and transmission parameters.--
Relationships between two-port parameters.--
Interconnection of two-port networks.--
How can we check?.--
Design example – transistor amplifier.--
Getting started with PSpice.--
MATLAB, matrices, and complex arithmetic.--
Mathematical formulas.--
Standard resistor color code.—

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