Buch, Englisch, 492 Seiten, mit 1 CD-ROM, Format (B × H): 184 mm x 242 mm, Gewicht: 710 g
Buch, Englisch, 492 Seiten, mit 1 CD-ROM, Format (B × H): 184 mm x 242 mm, Gewicht: 710 g
ISBN: 978-0-19-807244-7
Verlag: Oxford University Press
Based on the latest version of MATLAB (2010a), the book begins with an introduction to MATLAB programming describing the MATLAB toolbar and SIMULINK toolboxes. Further the various MATLAB operators, functions, and graphics are discussed in detail. Applications of SIMULINK and MATLAB in electrical engineering, electrical machines & power system projects, simulation of rectifiers, inverters, choppers, and cycloconverters is presented in detail. Applications in computer science, communication
and mechanical engineering is also discussed. Finally a chapter on recent developments in this area covers topics such as the matrix converter, modulation techniques, and PWM rectifiers.
The book provides numerous MATLAB programs tested and run for various projects for different disciplines in engineering. The programs, complete with their outputs, through various screen shots of the MATLAB windows help readers familiarise themselves with the software.
Zielgruppe
Primary: B.E., B. Tech. Common Core.
Autoren/Hrsg.
Fachgebiete
- Technische Wissenschaften Maschinenbau | Werkstoffkunde Maschinenbau
- Mathematik | Informatik EDV | Informatik Business Application Mathematische & Statistische Software
- Technische Wissenschaften Technik Allgemein Modellierung & Simulation
- Technische Wissenschaften Technik Allgemein Mathematik für Ingenieure
Weitere Infos & Material
Preface
1:
Introduction to MATLAB Programming
1.1 MATLAB Introduction
1.2 Getting started: Step 1
1.3 Getting started: Step 2
1.4 Getting started: Step 3
1.5 Getting started: Step 4
1.6 Summary
Key terms
Exercises
2:
Fundamentals of MATLAB programming
2.1 Variables
2.2 Arrays
2.3 Matrices
2.4 MATLAB operators
2.4.1 Arithmetic operators
2.4.2 Relational operators
2.4.3 Logical operators
2.4.4 Operators precedence's
2.5 MATLAB graphics
2.5.1 Plots
2.5.2 Sub plots
2.5.3 Other types of plots
2.5.3.1 Multiple plots in a graph
2.5.3.2 Logarithmic plots a graph
2.5.3.3 Various types of two dimensional plots
2.5.3.4 Plotting complex numbersensional plots
2.5.3.5 Three dimensional plots
2.6 Branching & looping functions
2.6.1 Branching functions
2.6.1.1 If Function
2.6.1.2 Switch Function
2.6.1.3 Try/catch function
2.6.1.4 The error function
2.6.2 Looping functions
2.6.2.1 For function
2.6.2.2 While function
2.6.2.3 Break & continue functions
2.7 Miscellaneous functions
2.7.1 String functions
2.7.2 Input/output functions
2.7.2.1 Input functions
2.7.2.2 Output functions
2.8 Programming a three phase source
2.9 Additional programs
2.10 Summary
Key terms
Exercises
3:
Fundamentals of SIMULINK
3.1 Introduction;
3.2 Application block sets
3.3 Application toolboxes
3.3.1 Power system toolbox
3.3.2 Control system toolbox
3.3.3 The signal processing toolbox
3.3.4 The symbolic Math toolbox
3.4 Constructing a SIMULINK model
3.5 Taking variables from MATLAB
3.6 Running & analyzing a SIMULINK model
3.7 Discrete time systems
3.8 Summary
Key terms
Exercises
4:
Basic Electrical Engineering applications
4.1 Elementary Definitions
4.2 Plotting of sine, cosine, triangular, waveforms
4.3 Estimation of Average, RMS & peak values
4.4 Ohm's law verification
4.5 Dependent & Independent voltage & current sources
4.6 RLC series parallel circuits Simulation
4.7 Resonance phenomenon Simulation
4.8 Simulations of Network theorems
4.8.1 Superposition Theorem
4.8.2 Reciprocity Theorem
4.8.3 Thevenin's Theorem
4.8.4 Norton's Theorem
4.8.5 Maximum power transfer Theorem for AC & DC networks
4.9 Measurement of power
4.10 Three phase star/delta sources Simulation
4.11 Three phase star/delta load Simulation
4.12 Transformers: Single & Three phase
4.13 Simulation Projects
4.13 Summary
Key Terms
Exercises
5:
Simulation of Rectifiers
5.1 Basic Terms & Definitions
5.2 Power Electronic Switches
5.3 Uncontrolled rectifiers
5.4 Controlled Rectifiers
5.5 Half wave rectifiers
5.6 Full wave rectifiers
5.7 Analysis of rectifiers for various loads
5.10 Simulation projects
5.11 Summary
Key Terms
Exercises
6:
Simulation of Inverters
6.1 Introduction
6.2 Basic Terms & Definitions
6.3 Single phase half wave
6.4 Single phase full wave
6.5 Single phase full wave
6.6 DC to AC converters for various loads
6.7 Three-phase 120 ?& 180 ? conduction inverters
6.8 Analysis of Dual Converters
6.9 Simulation projects
6.10 Summary
Key terms
Exercises
7:
Simulation of Choppers & Cycloconverters
7.1 Introduction;
7.2 Elementary definitions
7.3 Analysis of Buck converter
7.4 Analysis of Boost converter
7.5 Analysis of Buck-Boost converter
7.6 Analysis of Four quadrant chopper
7.7 Analysis of step up cycloconverter
7.8 Analysis of step down cycloconverter
7.9 Summary
Key terms
Exercises
8:
Applications to Power System
8.1 Introduction
8.2 Simulation of a three phase power system
8.3 Analysis of transmission system under different faults
8.3.1 Voltage Unbalance
8.3.2 Voltage Sag/Swell
8.3.3 Load Unbalance
8.3.4 Short circuit/Open circuit
8.3.5 Harmonics
8.4 Load flow studies
8.5 Power System stability
8.6 Load frequency control
8.7 Simulation projects
8.8 Summary
Key terms
Exercises
9:
9.2 Applications in Electrical Machines
9.2.1 Simulation of Induction Motor
9.2.2 Simulation of Synchronous Motor
9.2.3 Simulation of DC series Motor
9.2.4 Simulation of DC shunt Motor
9.3 Motor Drives
9.4 Applications in Control System Engineering
9.4.1 Analysis of First order system
9.4.2 Analysis of Second order system
9.4.3 Analysis of Feedback system
9.4.4 Bode plot analysis
9.4.5 State Variable model
9.4.6 Performance of feedback control system
9.5 Summary
Key terms
Exercises
10:
Other applications
10.1 Applications in Communication Systems
10.1.1 Simulation of AM Waveform
10.1.2 Simulation of FM waveform
10.1.3 Simulation of PM waveform
10.1.4 Simulation of Digital transmitting waveforms
10.2 Applications in Computer engineering
10.2.1 Introduction
10.2.2 Animations
10.2.3 Special functions
10.2.4 Recursions
10.2.5 Computer Arts
10.3 Applications in Mechanical Engineering
10.3.1 Introduction
10.3.2 Modelling of Mechanical Systems
10.3.3 Mass spring system
10.3.4 Other Applications
10.4 Various Simulation projects
10.5 Summary
Key terms
Exercises
11:
Recent Developments
11.1 Introduction
11.2 Introduction to Matrix Converter
11.3 Basics of Matrix Converter
11.3.1 Bi-directional switches
11.3.2 Commutation problem
10.3.2.1 Four step current commutation
11.3.3 Modulation Techniques
11.3.3.1 Venturini Method
11.3.3.2 Space vector modulation
11.3.3.3Min-mid-max modulation
11.4 Programming and simulations of matrix converters
11.5 Introduction to PWM rectifiers
11.5.1 Control techniques
11.5.2 Simulation of PWM rectifier
11.6 Summary
Key terms
Exercises
References
Bibliography
Index
