PSPICE and MATLAB for Electronics
An Integrated Approach
1st Edition
Published on 15. May 2002
Book
Hardback
360 pages
978-0-8493-1263-2 (ISBN)
Description
PSPICE has circuit simulation features unmatched by any other scientific software. MATLAB's capabilities for matrix computations, plotting, data processing, and analysis are well established throughout the world. Together, these two software packages form a powerful, full-function toolbox for electronic circuit analysis.
PSPICE and MATLAB for Electronics offers the first integrated presentation of both of these software packages. It provides a PSPICE primer, a MATLAB primer, and an in-depth treatment of their combined power for solving electronics problems, particularly those associated with diodes, op-amps, and transistor circuits. The author takes a practical approach, provides a multitude of examples, and encourages readers to put what they've learned into practice through the many exercises provided in each chapter. All of the PSPICE netlists and MATLAB m-files used in the examples are available on the Internet at www.crcpress.com.
Anyone working or aspiring to work in electronics needs a familiarity with these products, and learning to use them together offers more than the sum of their advantages. Use PSPICE for circuit analysis, use MATLAB for calculating device parameters, curve fitting, numerical functions, and plots, and use PSPICE and MATLAB for Electronics to learn how they can work in tandem to effectively and efficiently explore device characteristics and analyze circuits and systems.
PSPICE and MATLAB for Electronics offers the first integrated presentation of both of these software packages. It provides a PSPICE primer, a MATLAB primer, and an in-depth treatment of their combined power for solving electronics problems, particularly those associated with diodes, op-amps, and transistor circuits. The author takes a practical approach, provides a multitude of examples, and encourages readers to put what they've learned into practice through the many exercises provided in each chapter. All of the PSPICE netlists and MATLAB m-files used in the examples are available on the Internet at www.crcpress.com.
Anyone working or aspiring to work in electronics needs a familiarity with these products, and learning to use them together offers more than the sum of their advantages. Use PSPICE for circuit analysis, use MATLAB for calculating device parameters, curve fitting, numerical functions, and plots, and use PSPICE and MATLAB for Electronics to learn how they can work in tandem to effectively and efficiently explore device characteristics and analyze circuits and systems.
More details
Series
Language
English
Place of publication
Bosa Roca
United States
Publishing group
Taylor & Francis Inc
Target group
College/higher education
Professional and scholarly
Electrical Engineering, Electronics, Circuits, Microelectronics, Computer Engineering, Power Electronics
Illustrations
185 s/w Abbildungen
185 Illustrations, black and white
Dimensions
Height: 235 mm
Width: 156 mm
Weight
635 gr
ISBN-13
978-0-8493-1263-2 (9780849312632)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
Book
06/2010
2nd Edition
CRC Press
€170.84
Shipment within 15-20 days
Content
PSPICE FUNDAMENTALS
Introduction
Elements Statements
Control Statements
DC Analysis (.DC)
Transient Analysis (.TRAN)
AC Analysis (.AC)
Printing Command (.PRINT)
Plotting Command (.PLOT)
Transfer Function COMMAND (.TF)
DC Sensitivity Analysis (.SENS)
Initial Conditions (.IC, UIC, .NODESET)
Temperature Analysis (.TEMP)
Probe Statement (.PROBE)
PSPICE ADVANCED FEATURES
Device Model
Library File
Component Values (.PARAM, .STEP)
Function Definition (.FUNC, .INC)
Subcircuit (.SUBCKT, .ENDS)
Analog Behavioral Model
Monte Carlo Analysis (.MC)
Sensitivity and Worst Case Analysis (.WCASE)
Fourier Series (.FOUR)
MATLAB FUNDAMENTALS
MATLAB Basic Operations
Matrix Operations
Array Operations
Complex Numbers
The Colon Symbol
FOR Loops
IF Statements
Graph Functions
Input/Output Commands
MATLAB FUNCTIONS
M-Files
Mathematical Functions
Data Analysis Functions
Derivative Function (DIFF)
Integration Function (quad, quad8, trap)
Curve Fitting (polyfit, polyval)
Polynomial Functions (roots, poly, polyval ,fzero)
Save, Load and Textread Functions
Interfacing SPICE TO MATLAB
DIODE CIRCUITS
Diode
Rectification
Zener Diode Voltage Regulator
Peak Detector
Diode Limiters
OPERATIONAL AMPLIFIER
Inverting and Non-Inverting Configurations
Slew Rate and Full-Power Bandwidth
Active Filter Circuits
TRANSISTOR CHARACTERISTICS AND CIRCUITS
Characteristics of Bipolar Junction Transistors
MOSFET Characteristics
Biasing of BJT Circuits
MOSFET Bias Circuit
Frequency Response of Transistor Amplifiers
Feedback Amplifiers
Each chapter also includes a Bibliography and problems.
Introduction
Elements Statements
Control Statements
DC Analysis (.DC)
Transient Analysis (.TRAN)
AC Analysis (.AC)
Printing Command (.PRINT)
Plotting Command (.PLOT)
Transfer Function COMMAND (.TF)
DC Sensitivity Analysis (.SENS)
Initial Conditions (.IC, UIC, .NODESET)
Temperature Analysis (.TEMP)
Probe Statement (.PROBE)
PSPICE ADVANCED FEATURES
Device Model
Library File
Component Values (.PARAM, .STEP)
Function Definition (.FUNC, .INC)
Subcircuit (.SUBCKT, .ENDS)
Analog Behavioral Model
Monte Carlo Analysis (.MC)
Sensitivity and Worst Case Analysis (.WCASE)
Fourier Series (.FOUR)
MATLAB FUNDAMENTALS
MATLAB Basic Operations
Matrix Operations
Array Operations
Complex Numbers
The Colon Symbol
FOR Loops
IF Statements
Graph Functions
Input/Output Commands
MATLAB FUNCTIONS
M-Files
Mathematical Functions
Data Analysis Functions
Derivative Function (DIFF)
Integration Function (quad, quad8, trap)
Curve Fitting (polyfit, polyval)
Polynomial Functions (roots, poly, polyval ,fzero)
Save, Load and Textread Functions
Interfacing SPICE TO MATLAB
DIODE CIRCUITS
Diode
Rectification
Zener Diode Voltage Regulator
Peak Detector
Diode Limiters
OPERATIONAL AMPLIFIER
Inverting and Non-Inverting Configurations
Slew Rate and Full-Power Bandwidth
Active Filter Circuits
TRANSISTOR CHARACTERISTICS AND CIRCUITS
Characteristics of Bipolar Junction Transistors
MOSFET Characteristics
Biasing of BJT Circuits
MOSFET Bias Circuit
Frequency Response of Transistor Amplifiers
Feedback Amplifiers
Each chapter also includes a Bibliography and problems.