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PSpice for circuit theory and electronic devices

PSpice for Circuit Theory and Electronic Devices is one of a series of five PSpice books and introduces the latest Cadence Orcad PSpice version 10.5 by simulating a range of DC and AC exercises. It is aimed primarily at those wishing to get up to speed with this version but will be of use to high sc...

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Bibliographic Details
Main Author: Tobin, Paul, 1948-
Format: Electronic
Language:English
Published: San Rafael, Calif. (1537 Fourth Street, San Rafael, CA 94901 USA) : Morgan & Claypool Publishers, c2007.
Edition:1st ed.
Series:Synthesis lectures on digital circuits and systems (Online) ; #7.
Subjects:
PSpice.
Electric circuits > Computer simulation.
Online Access:Abstract with links to full text
Table of Contents:
  • Introduction to PSpice and Ohm's law
  • Laying out a schematic
  • Libraries
  • Moving components around
  • Display properties
  • The DC circuit
  • New simulation
  • Main operational icons
  • Simulation settings
  • Potential divider
  • Current divider
  • Exercises
  • The DC circuit and Kirchhoff's laws
  • Maximum power transfer
  • Param part
  • Simulation settings
  • Trace expression box
  • Changing the X-axis Variable
  • The log command
  • Mesh analysis
  • Nodal analysis
  • Exercises
  • Transient circuits and Laplace transforms
  • Transient analysis
  • Laplace transform and capacitance
  • Inductance
  • First-order CR and LR circuits
  • Solution
  • Partial fraction expansion
  • Initial conditions
  • Transfer functions and system parameters
  • Transfer functions
  • Butterworth transfer functions and the Laplace part
  • Piece-wise linear part (VPWL)
  • Probe grid and cursors icons
  • Elaplace part and the step response
  • Chebychev transfer functions impulse response
  • Unsynchronizing probe plots
  • First-order low-pass filter step and impulse responses
  • Obtaining the frequency response from the impulse response
  • The low-pass CR filter step response
  • Rise time
  • Step response of a series-tuned LCR circuit
  • Overshoot
  • Exercises
  • AC circuits and circuit theorems
  • AC circuit theory
  • Capacitors
  • Capacitive reactance plot
  • Capacitor current and voltage waveforms
  • Inductors
  • Inductor signal phase measurement
  • AC circuit theorems
  • Thevenin's theorem
  • Thevenin impedance
  • Thevenin voltage
  • Norton equivalent circuit
  • The output file
  • AC mesh and nodal analysis
  • Exercises
  • Series and parallel-tuned resonance
  • Resonance
  • Series-tuned circuit
  • Current response
  • Example
  • Solution
  • Q-factor
  • The -3 dB bandwidth
  • Voltages across L and C at resonance
  • Universal response curve
  • Selectivity of a series-tuned resonant circuit
  • L/C ratio and selectivity
  • Series-tuned LCR phase response
  • Impedance of a series-tuned circuit
  • Fourier series
  • Series-tuned circuit as a low-pass filter
  • The output file
  • Skip initial conditions
  • Parallel-tuned LCR circuit
  • Universal response curve
  • Relationship between the resonant frequency and bandwidth
  • Loaded Q-factor
  • Example
  • Solution
  • Problem
  • Frequency response of a parallel-tuned circuit
  • Dynamic impedance
  • Loaded and unloaded Q-factor
  • Transformers
  • Transformer parameters
  • Matching transformer
  • Power supplies: Rectification and regulation
  • Power supply waveforms
  • Power supply voltage regulation
  • Ground bounce
  • Power factor correction
  • Average power and apparent power
  • Exercises
  • Semiconductor devices and characteristics
  • Semiconductor devices
  • The forward and reverse-biased diode characteristic
  • Diode parameters
  • DC load line
  • Voltage regulation
  • Zener diode characteristic
  • Zener diode regulation
  • Silicon-controlled rectifier
  • Triac controller
  • The bipolar transistor
  • The input and output BJT characteristics
  • The output characteristic
  • DC load lines
  • Junction field-effect transistor
  • The common source JFET transistor input characteristic
  • Adding a load line to the transfer characteristic
  • Quiescent DC operating point
  • JFET output characteristic
  • Effect of temperature on the JFET transfer characteristic
  • The D operator
  • Exercises
  • Operational amplifier Characteristics
  • Ideal operational amplifiers
  • The inverting operational amplifier and virtual earth
  • Slew rate limiting
  • The noninverting operational amplifier
  • Gain-bandwidth product
  • Audio power amplifiers
  • The output file
  • Mosfet device characteristic
  • CMOS model
  • Nand gate
  • Nor gate
  • Exercises
  • References
  • Appendix A: Laplace and z-transform table.

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