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Simulation of Power Electronics Circuits with MATLAB®/Simulink®: Design, Analyze, and Prototype Power Electronics

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en Limba Engleză Paperback – 20 Aug 2022
Design and analyze electronic components and systems with the help of powerful software and effective skillsets. Balancing theory with practical exploration of the relevant software, you'll start solving power electronics problems like a pro. Using MATLAB®/Simulink®, you'll analyze the circuit in a laptop charger; interface with the power electronics converter controlling a washing machine's motor; turn on lamps with an electronic ballast; convert AC into DC power; and more!
Power electronics are at the bedrock of all the wonderful devices simplifying our daily life. Designing them isn't just about understanding schematics. It also requires measuring twice and cutting once. In order to save time and money, a power electronics circuit must be simulated before construction. So you'll learn how to work with one of the most powerful simulation tools for this purpose. That way you'll know before you even go to make it whether the circuit works as expected. 
Learn to work with MATLAB®/Simulink® by directly applying and building the projects in this book. Or use it as a lab manual for power electronics and industrial electronics. Either way, using strong simulations and solid design theory, you'll be able to build power electronics that don't fail.

 What You'll Learn
  • Simulate power electronics effectively before building them
  • Select suitable semiconductor components for your circuit based on simulation waveforms
  • Extract dynamic models of converters and design suitable controllers for them
Who This Book Is For
Engineers and students who want to simulate power electronics circuits in MATLAB®/Simulink®.
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Specificații

ISBN-13: 9781484282199
ISBN-10: 1484282191
Ilustrații: XVI, 534 p. 567 illus.
Dimensiuni: 155 x 235 mm
Greutate: 0.76 kg
Ediția: 1st ed.
Editura: Apress
Colecția Apress
Locul publicării: Berkeley, CA, United States

Cuprins

Part 1: Introduction to Simulink®
 
Chapter 1: Basics of Simulink
Introduction
Step response of a transfer function model PID controller design in MATLAB environment
Feedback control system
PID controller design in Simulink environment
Plot two or more waveforms in one scope block
 
Chapter 2: Simulation of Dynamical Equations in Simulink
Simulation of differential equations
Simulation of differential equations with only one integrator block
Simulation of differential equations with MATLAB Function block
Copying and taking out a block from the model
State-Space block
To Workspace block
Simulation of Dynamical equation of Boost converter Simulation of discrete time equations (I)
Simulation of discrete time equations (II)
Exercises
References for further study
 
Part 2: Simulation of Power Electronics Converters with Simulink®
 
Chapter 3: Simulation of Uncontrolled Rectifier Circuits 
Introduction
Single phase half wave diode rectifier
Measurement with the oscilloscope block
Measurement with Multimeter block
Measurement port Mean and RMS blocks
Instantaneous power and average power
Apparent power and power factor
Making subsystem
Power Block
Freewheeling diode
Disabling a block
Fourier block
Three phase diode rectifier
Measurement of power factor of three phase uncontrolled rectifier
Measurement of conduction loss
 
Chapter 4: Simulation of Controlled Rectifier Circuits
Single phase half wave thyristor rectifier
Single phase full wave thyristor rectifier I
Single phase full wave thyristor rectifier II
Three phase thyristor rectifier
Effect of filter capacitor on the rectifier circuit
Coupled inductors
 
Chapter 5: Simulation of DC-DC Converters
Buck converter Operating mode of the DC-DC converter
Effect of input voltage changes on the output voltage
Effect of output load change on the output voltage
Generation of PWM signal
PWM Generator (DC-DC) block
Closed loop control of buck converter
Flyback converter
Efficiency of Flyback converter
 
Chapter 6: Simulation of Inverters
Single phase PWM inverter
THD block
Harmonic analysis with FFT Analyzer program
Three phase PWM inverter
Connection port block
 
Chapter 7: Simulation of Motors and Generators
Simulation of a DC motor Simulation of a DC generator
Induction motor
Effect of harmonics on AC motor speed
Exercises
References for further study
 
Part 3: Dynamics of DC-DC Converters
 
Chapter 8: State Space Averaging Introduction
State Space Averaging
Dynamical Equations of Buck Converter
Averaging the Dynamical Equations of Buck Converter
Linearization of Averaged Equations
Obtaining the Small Signal Transfer Functions of Buck Converter Using MATLAB
 
 
Chapter 9: Input/Output impedance of DC-DC Converters Input and Output Impedance of Buck-Boost Converter
Input and Output Impedance of Boost Converter
Exercises
References for further study  
 
Part 4: Important Theoretical Concepts
 
Chapter 10: Average and RMS Values
Instantaneous power
Average power
Effective value of a signal
Effective value of sum of two periodic signals
Measurement of RMS of signals
 
Chapter 11: Power Calculation Apparent power and power factor
Power computations for linear circuits
 
Chapter 12: Fourier Series and Total Harmonic Distortion  Fourier series
Fourier series of important wave shapes
Calculation of average power using the Fourier series
Total Harmonic Distortion (THD)

Notă biografică

Farzin Asadi received his BSc in Electronics Engineering, MSc in Control Engineering and Phd in Mechatronics Engineering.
Currently he is with the Department of Electrical and Electronics Engineering at the Maltepe University, Istanbul, Turkey.
Dr. Asadi has published more than 40 international papers and 16 books. He is on the editorial board of 7 scientific journals as well. His research interests include switching converters, control theory, robust control of power electronics converters, and robotics.

Textul de pe ultima copertă

Design and analyze electronic components and systems with the help of powerful software and effective skillsets. Balancing theory with practical exploration of the relevant software, you'll start solving power electronics problems like a pro. Using MATLAB®/Simulink®, you'll analyze the circuit in a laptop charger; interface with the power electronics converter controlling a washing machine's motor; turn on lamps with an electronic ballast; convert AC into DC power; and more! Power electronics are at the bedrock of all the wonderful devices simplifying our daily life. Designing them isn't just about understanding schematics. It also requires measuring twice and cutting once. In order to save time and money, a power electronics circuit must be simulated before construction. So you'll learn how to work with one of the most powerful simulation tools for this purpose. That way you'll know before you even go to make it whether the circuit works as expected. 
Learn to work with MATLAB®/Simulink® by directly applying and building the projects in this book. Or use it as a lab manual for power electronics and industrial electronics. Either way, using strong simulations and solid design theory, you'll be able to build power electronics that don't fail.

You will:
  • Simulate power electronics effectively before building them
  • Select suitable semiconductor components for your circuit based on simulation waveforms
  • Extract dynamic models of converters and design suitable controllers for them

Caracteristici

Develop the skills needed to work professionally in power electronics
Meet the requirements for simulation of most thesis projects and papers in MATLAB®/Simulink®
Save money on costly mistakes and also prototyping by simulating projects first