Simulation of Power Electronics Circuits with MATLAB/Simulink: Design, Analyze, and Prototype Power Electronics
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Berkeley, CA
Apress L. P.
2022
|
| Ausgabe: | 1st ed |
| Schriftenreihe: | Maker Innovations Series
|
| Schlagworte: | |
| Online-Zugang: | HWR01 |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Beschreibung: | 1 Online-Ressource (544 Seiten) |
| ISBN: | 9781484282205 |
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| 245 | 1 | 0 | |a Simulation of Power Electronics Circuits with MATLAB/Simulink |b Design, Analyze, and Prototype Power Electronics |
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| 264 | 1 | |a Berkeley, CA |b Apress L. P. |c 2022 | |
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| 505 | 8 | |a Intro -- Table of Contents -- About the Author -- About the Technical Reviewers -- Preface -- Chapter 1: Introduction to Simulink -- Power Electronic Circuits and Simulation -- Example 1: Step Response of a Transfer Function Model -- Locating Blocks -- Example 2: PID Controller Design in the MATLAB Environment -- Example 3: Feedback Control System -- Example 4: PID Controller Design in the Simulink Environment -- Example 5: Plot Two or More Waveforms on One Scope Block -- Option 1: Increasing the Number of Inputs on the Scope Block -- Option 2: Using the Multiplexer (Mux) Block -- Summary -- Chapter 2: Simulation of Dynamic Systems in Simulink -- Example 1: Simulation of Differential Equations -- Example 2: Simulation of Differential Equations with Only One Integrator Block -- Example 3: Simulation of Differential Equations with the MATLAB Function Block -- Example 4: Copying and Taking Out a Block from the Model -- Example 5: State-Space Block -- Example 6: To Workspace Block -- Example 7: Simulation of the Dynamic Equation of a Boost Converter -- Example 8: Simulation of Discrete Time Equations (I) -- Example 9: Simulation of Discrete Time Equations (II) -- Summary -- Chapter 3: Important Measurements on Signals -- Example 1: Single-Phase Half-Wave Diode Rectifier -- Example 2: Measurement with the Oscilloscope Block -- Example 3: Measurement with the Multimeter Block -- Example 4: Measurement Port -- Example 5: Mean and RMS Blocks -- Example 6: Instantaneous Power and Average Power -- Example 7: Apparent Power and Power Factor -- Summary -- Chapter 4: Simulation of Uncontrolled Rectifier Circuits -- Example 1: Goto and From Blocks -- Example 2: Making a Subsystem -- Example 3: Power Block -- Example 4: Freewheeling Diode -- Example 5: Disabling a Block -- Example 6: Fourier Block -- Example 7: Three-Phase Diode Rectifier | |
| 505 | 8 | |a Example 8: Measurement of the Power Factor of a Three-Phase Uncontrolled Rectifier -- Example 9: Measurement of Conduction Loss -- Summary -- Chapter 5: Simulation of Controlled Rectifier Circuits -- Example 1: Single-Phase Half-Wave Thyristor Rectifier -- Example 2: Single-Phase Full-Wave Thyristor Rectifier (I) -- Example 3: Single-Phase Full-Wave Thyristor Rectifier (II) -- Example 4: Three-Phase Thyristor Rectifier -- Example 5: Effect of a Filter Capacitor on the Rectifier Circuit -- Example 6: Coupled Inductors -- Summary -- Chapter 6: Simulation of DC-DC Converters -- Example 1: Buck Converter -- Example 2: Operating Mode of the DC-DC Converter -- Example 3: Effect of Input Voltage Changes on the Output Voltage -- Example 4: Effect of Output Load Changes on the Output Voltage -- Example 5: Generation of PWM Signals -- Example 6: PWM Generator (DC-DC) Block -- Example 7: Closed-Loop Control of a Buck Converter -- Example 8: Flyback Converter -- Example 9: Efficiency of a Flyback Converter -- Summary -- Chapter 7: Simulation of Inverters -- Example 1: Single-Phase PWM Inverter -- Example 2: THD Block -- Example 3: Harmonic Analysis with the FFT Analyzer Program -- Example 4: Three-Phase PWM Inverter -- Example 5: Connection Port Block -- Summary -- Chapter 8: Simulation of Motors and Generators -- Example 1: Simulation of a DC Motor -- Example 2: Simulation of a DC Generator -- Example 3: Induction Motor -- Example 4: Effect of Harmonics on AC Motor Speed -- Summary -- Chapter 9: State Space Averaging -- State Space Averaging (SSA) -- Dynamic Equations of a Buck Converter -- Averaging the Dynamic Equations of a Buck Converter -- Linearization of Averaged Equations -- Obtaining the Small-Signal Transfer Functions of the Buck Converter Using MATLAB -- Summary -- Chapter 10: Input/Output Impedance of DC-DC Converters | |
| 505 | 8 | |a Input and Output Impedances of a Buck-Boost converter -- Input and Output Impedances of the Boost Converter -- Summary -- Chapter 11: Review of Some of the Important Theoretical Concepts -- Instantaneous Power -- Average Power -- Effective Value of a Signal -- Effective Value of a Sum of Two Periodic Signals -- Measurement of RMS Values of Signals -- Apparent Power and Power Factor -- Power Computations for Linear Circuits -- Fourier Series -- Fourier Series of Important Wave Shapes -- Calculation of Average Power Using the Fourier Series -- Total Harmonic Distortion (THD) -- Summary -- Correction to: Simulation of Power Electronics Circuits with MATLAB/Simulink -- Correction to: -- Exercises -- Exercises for Chapters 1 and 2 -- Exercises for Chapters 3, 4, 5, 6, 7, and 8 -- Exercises for Chapters 9 and 10 -- Index | |
| 650 | 4 | |a Power electronics-Computer simulation | |
| 776 | 0 | 8 | |i Erscheint auch als |n Druck-Ausgabe |a Asadi, Farzin |t Simulation of Power Electronics Circuits with MATLAB/Simulink |d Berkeley, CA : Apress L. P.,c2022 |z 9781484282199 |
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| contents | Intro -- Table of Contents -- About the Author -- About the Technical Reviewers -- Preface -- Chapter 1: Introduction to Simulink -- Power Electronic Circuits and Simulation -- Example 1: Step Response of a Transfer Function Model -- Locating Blocks -- Example 2: PID Controller Design in the MATLAB Environment -- Example 3: Feedback Control System -- Example 4: PID Controller Design in the Simulink Environment -- Example 5: Plot Two or More Waveforms on One Scope Block -- Option 1: Increasing the Number of Inputs on the Scope Block -- Option 2: Using the Multiplexer (Mux) Block -- Summary -- Chapter 2: Simulation of Dynamic Systems in Simulink -- Example 1: Simulation of Differential Equations -- Example 2: Simulation of Differential Equations with Only One Integrator Block -- Example 3: Simulation of Differential Equations with the MATLAB Function Block -- Example 4: Copying and Taking Out a Block from the Model -- Example 5: State-Space Block -- Example 6: To Workspace Block -- Example 7: Simulation of the Dynamic Equation of a Boost Converter -- Example 8: Simulation of Discrete Time Equations (I) -- Example 9: Simulation of Discrete Time Equations (II) -- Summary -- Chapter 3: Important Measurements on Signals -- Example 1: Single-Phase Half-Wave Diode Rectifier -- Example 2: Measurement with the Oscilloscope Block -- Example 3: Measurement with the Multimeter Block -- Example 4: Measurement Port -- Example 5: Mean and RMS Blocks -- Example 6: Instantaneous Power and Average Power -- Example 7: Apparent Power and Power Factor -- Summary -- Chapter 4: Simulation of Uncontrolled Rectifier Circuits -- Example 1: Goto and From Blocks -- Example 2: Making a Subsystem -- Example 3: Power Block -- Example 4: Freewheeling Diode -- Example 5: Disabling a Block -- Example 6: Fourier Block -- Example 7: Three-Phase Diode Rectifier Example 8: Measurement of the Power Factor of a Three-Phase Uncontrolled Rectifier -- Example 9: Measurement of Conduction Loss -- Summary -- Chapter 5: Simulation of Controlled Rectifier Circuits -- Example 1: Single-Phase Half-Wave Thyristor Rectifier -- Example 2: Single-Phase Full-Wave Thyristor Rectifier (I) -- Example 3: Single-Phase Full-Wave Thyristor Rectifier (II) -- Example 4: Three-Phase Thyristor Rectifier -- Example 5: Effect of a Filter Capacitor on the Rectifier Circuit -- Example 6: Coupled Inductors -- Summary -- Chapter 6: Simulation of DC-DC Converters -- Example 1: Buck Converter -- Example 2: Operating Mode of the DC-DC Converter -- Example 3: Effect of Input Voltage Changes on the Output Voltage -- Example 4: Effect of Output Load Changes on the Output Voltage -- Example 5: Generation of PWM Signals -- Example 6: PWM Generator (DC-DC) Block -- Example 7: Closed-Loop Control of a Buck Converter -- Example 8: Flyback Converter -- Example 9: Efficiency of a Flyback Converter -- Summary -- Chapter 7: Simulation of Inverters -- Example 1: Single-Phase PWM Inverter -- Example 2: THD Block -- Example 3: Harmonic Analysis with the FFT Analyzer Program -- Example 4: Three-Phase PWM Inverter -- Example 5: Connection Port Block -- Summary -- Chapter 8: Simulation of Motors and Generators -- Example 1: Simulation of a DC Motor -- Example 2: Simulation of a DC Generator -- Example 3: Induction Motor -- Example 4: Effect of Harmonics on AC Motor Speed -- Summary -- Chapter 9: State Space Averaging -- State Space Averaging (SSA) -- Dynamic Equations of a Buck Converter -- Averaging the Dynamic Equations of a Buck Converter -- Linearization of Averaged Equations -- Obtaining the Small-Signal Transfer Functions of the Buck Converter Using MATLAB -- Summary -- Chapter 10: Input/Output Impedance of DC-DC Converters Input and Output Impedances of a Buck-Boost converter -- Input and Output Impedances of the Boost Converter -- Summary -- Chapter 11: Review of Some of the Important Theoretical Concepts -- Instantaneous Power -- Average Power -- Effective Value of a Signal -- Effective Value of a Sum of Two Periodic Signals -- Measurement of RMS Values of Signals -- Apparent Power and Power Factor -- Power Computations for Linear Circuits -- Fourier Series -- Fourier Series of Important Wave Shapes -- Calculation of Average Power Using the Fourier Series -- Total Harmonic Distortion (THD) -- Summary -- Correction to: Simulation of Power Electronics Circuits with MATLAB/Simulink -- Correction to: -- Exercises -- Exercises for Chapters 1 and 2 -- Exercises for Chapters 3, 4, 5, 6, 7, and 8 -- Exercises for Chapters 9 and 10 -- Index |
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| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
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| format | Electronic eBook |
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| id | DE-604.BV049408506 |
| illustrated | Not Illustrated |
| index_date | 2024-07-03T23:05:37Z |
| indexdate | 2024-07-10T10:06:16Z |
| institution | BVB |
| isbn | 9781484282205 |
| language | English |
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| series2 | Maker Innovations Series |
| spelling | Asadi, Farzin Verfasser aut Simulation of Power Electronics Circuits with MATLAB/Simulink Design, Analyze, and Prototype Power Electronics 1st ed Berkeley, CA Apress L. P. 2022 ©2022 1 Online-Ressource (544 Seiten) txt rdacontent c rdamedia cr rdacarrier Maker Innovations Series Description based on publisher supplied metadata and other sources Intro -- Table of Contents -- About the Author -- About the Technical Reviewers -- Preface -- Chapter 1: Introduction to Simulink -- Power Electronic Circuits and Simulation -- Example 1: Step Response of a Transfer Function Model -- Locating Blocks -- Example 2: PID Controller Design in the MATLAB Environment -- Example 3: Feedback Control System -- Example 4: PID Controller Design in the Simulink Environment -- Example 5: Plot Two or More Waveforms on One Scope Block -- Option 1: Increasing the Number of Inputs on the Scope Block -- Option 2: Using the Multiplexer (Mux) Block -- Summary -- Chapter 2: Simulation of Dynamic Systems in Simulink -- Example 1: Simulation of Differential Equations -- Example 2: Simulation of Differential Equations with Only One Integrator Block -- Example 3: Simulation of Differential Equations with the MATLAB Function Block -- Example 4: Copying and Taking Out a Block from the Model -- Example 5: State-Space Block -- Example 6: To Workspace Block -- Example 7: Simulation of the Dynamic Equation of a Boost Converter -- Example 8: Simulation of Discrete Time Equations (I) -- Example 9: Simulation of Discrete Time Equations (II) -- Summary -- Chapter 3: Important Measurements on Signals -- Example 1: Single-Phase Half-Wave Diode Rectifier -- Example 2: Measurement with the Oscilloscope Block -- Example 3: Measurement with the Multimeter Block -- Example 4: Measurement Port -- Example 5: Mean and RMS Blocks -- Example 6: Instantaneous Power and Average Power -- Example 7: Apparent Power and Power Factor -- Summary -- Chapter 4: Simulation of Uncontrolled Rectifier Circuits -- Example 1: Goto and From Blocks -- Example 2: Making a Subsystem -- Example 3: Power Block -- Example 4: Freewheeling Diode -- Example 5: Disabling a Block -- Example 6: Fourier Block -- Example 7: Three-Phase Diode Rectifier Example 8: Measurement of the Power Factor of a Three-Phase Uncontrolled Rectifier -- Example 9: Measurement of Conduction Loss -- Summary -- Chapter 5: Simulation of Controlled Rectifier Circuits -- Example 1: Single-Phase Half-Wave Thyristor Rectifier -- Example 2: Single-Phase Full-Wave Thyristor Rectifier (I) -- Example 3: Single-Phase Full-Wave Thyristor Rectifier (II) -- Example 4: Three-Phase Thyristor Rectifier -- Example 5: Effect of a Filter Capacitor on the Rectifier Circuit -- Example 6: Coupled Inductors -- Summary -- Chapter 6: Simulation of DC-DC Converters -- Example 1: Buck Converter -- Example 2: Operating Mode of the DC-DC Converter -- Example 3: Effect of Input Voltage Changes on the Output Voltage -- Example 4: Effect of Output Load Changes on the Output Voltage -- Example 5: Generation of PWM Signals -- Example 6: PWM Generator (DC-DC) Block -- Example 7: Closed-Loop Control of a Buck Converter -- Example 8: Flyback Converter -- Example 9: Efficiency of a Flyback Converter -- Summary -- Chapter 7: Simulation of Inverters -- Example 1: Single-Phase PWM Inverter -- Example 2: THD Block -- Example 3: Harmonic Analysis with the FFT Analyzer Program -- Example 4: Three-Phase PWM Inverter -- Example 5: Connection Port Block -- Summary -- Chapter 8: Simulation of Motors and Generators -- Example 1: Simulation of a DC Motor -- Example 2: Simulation of a DC Generator -- Example 3: Induction Motor -- Example 4: Effect of Harmonics on AC Motor Speed -- Summary -- Chapter 9: State Space Averaging -- State Space Averaging (SSA) -- Dynamic Equations of a Buck Converter -- Averaging the Dynamic Equations of a Buck Converter -- Linearization of Averaged Equations -- Obtaining the Small-Signal Transfer Functions of the Buck Converter Using MATLAB -- Summary -- Chapter 10: Input/Output Impedance of DC-DC Converters Input and Output Impedances of a Buck-Boost converter -- Input and Output Impedances of the Boost Converter -- Summary -- Chapter 11: Review of Some of the Important Theoretical Concepts -- Instantaneous Power -- Average Power -- Effective Value of a Signal -- Effective Value of a Sum of Two Periodic Signals -- Measurement of RMS Values of Signals -- Apparent Power and Power Factor -- Power Computations for Linear Circuits -- Fourier Series -- Fourier Series of Important Wave Shapes -- Calculation of Average Power Using the Fourier Series -- Total Harmonic Distortion (THD) -- Summary -- Correction to: Simulation of Power Electronics Circuits with MATLAB/Simulink -- Correction to: -- Exercises -- Exercises for Chapters 1 and 2 -- Exercises for Chapters 3, 4, 5, 6, 7, and 8 -- Exercises for Chapters 9 and 10 -- Index Power electronics-Computer simulation Erscheint auch als Druck-Ausgabe Asadi, Farzin Simulation of Power Electronics Circuits with MATLAB/Simulink Berkeley, CA : Apress L. P.,c2022 9781484282199 |
| spellingShingle | Asadi, Farzin Simulation of Power Electronics Circuits with MATLAB/Simulink Design, Analyze, and Prototype Power Electronics Intro -- Table of Contents -- About the Author -- About the Technical Reviewers -- Preface -- Chapter 1: Introduction to Simulink -- Power Electronic Circuits and Simulation -- Example 1: Step Response of a Transfer Function Model -- Locating Blocks -- Example 2: PID Controller Design in the MATLAB Environment -- Example 3: Feedback Control System -- Example 4: PID Controller Design in the Simulink Environment -- Example 5: Plot Two or More Waveforms on One Scope Block -- Option 1: Increasing the Number of Inputs on the Scope Block -- Option 2: Using the Multiplexer (Mux) Block -- Summary -- Chapter 2: Simulation of Dynamic Systems in Simulink -- Example 1: Simulation of Differential Equations -- Example 2: Simulation of Differential Equations with Only One Integrator Block -- Example 3: Simulation of Differential Equations with the MATLAB Function Block -- Example 4: Copying and Taking Out a Block from the Model -- Example 5: State-Space Block -- Example 6: To Workspace Block -- Example 7: Simulation of the Dynamic Equation of a Boost Converter -- Example 8: Simulation of Discrete Time Equations (I) -- Example 9: Simulation of Discrete Time Equations (II) -- Summary -- Chapter 3: Important Measurements on Signals -- Example 1: Single-Phase Half-Wave Diode Rectifier -- Example 2: Measurement with the Oscilloscope Block -- Example 3: Measurement with the Multimeter Block -- Example 4: Measurement Port -- Example 5: Mean and RMS Blocks -- Example 6: Instantaneous Power and Average Power -- Example 7: Apparent Power and Power Factor -- Summary -- Chapter 4: Simulation of Uncontrolled Rectifier Circuits -- Example 1: Goto and From Blocks -- Example 2: Making a Subsystem -- Example 3: Power Block -- Example 4: Freewheeling Diode -- Example 5: Disabling a Block -- Example 6: Fourier Block -- Example 7: Three-Phase Diode Rectifier Example 8: Measurement of the Power Factor of a Three-Phase Uncontrolled Rectifier -- Example 9: Measurement of Conduction Loss -- Summary -- Chapter 5: Simulation of Controlled Rectifier Circuits -- Example 1: Single-Phase Half-Wave Thyristor Rectifier -- Example 2: Single-Phase Full-Wave Thyristor Rectifier (I) -- Example 3: Single-Phase Full-Wave Thyristor Rectifier (II) -- Example 4: Three-Phase Thyristor Rectifier -- Example 5: Effect of a Filter Capacitor on the Rectifier Circuit -- Example 6: Coupled Inductors -- Summary -- Chapter 6: Simulation of DC-DC Converters -- Example 1: Buck Converter -- Example 2: Operating Mode of the DC-DC Converter -- Example 3: Effect of Input Voltage Changes on the Output Voltage -- Example 4: Effect of Output Load Changes on the Output Voltage -- Example 5: Generation of PWM Signals -- Example 6: PWM Generator (DC-DC) Block -- Example 7: Closed-Loop Control of a Buck Converter -- Example 8: Flyback Converter -- Example 9: Efficiency of a Flyback Converter -- Summary -- Chapter 7: Simulation of Inverters -- Example 1: Single-Phase PWM Inverter -- Example 2: THD Block -- Example 3: Harmonic Analysis with the FFT Analyzer Program -- Example 4: Three-Phase PWM Inverter -- Example 5: Connection Port Block -- Summary -- Chapter 8: Simulation of Motors and Generators -- Example 1: Simulation of a DC Motor -- Example 2: Simulation of a DC Generator -- Example 3: Induction Motor -- Example 4: Effect of Harmonics on AC Motor Speed -- Summary -- Chapter 9: State Space Averaging -- State Space Averaging (SSA) -- Dynamic Equations of a Buck Converter -- Averaging the Dynamic Equations of a Buck Converter -- Linearization of Averaged Equations -- Obtaining the Small-Signal Transfer Functions of the Buck Converter Using MATLAB -- Summary -- Chapter 10: Input/Output Impedance of DC-DC Converters Input and Output Impedances of a Buck-Boost converter -- Input and Output Impedances of the Boost Converter -- Summary -- Chapter 11: Review of Some of the Important Theoretical Concepts -- Instantaneous Power -- Average Power -- Effective Value of a Signal -- Effective Value of a Sum of Two Periodic Signals -- Measurement of RMS Values of Signals -- Apparent Power and Power Factor -- Power Computations for Linear Circuits -- Fourier Series -- Fourier Series of Important Wave Shapes -- Calculation of Average Power Using the Fourier Series -- Total Harmonic Distortion (THD) -- Summary -- Correction to: Simulation of Power Electronics Circuits with MATLAB/Simulink -- Correction to: -- Exercises -- Exercises for Chapters 1 and 2 -- Exercises for Chapters 3, 4, 5, 6, 7, and 8 -- Exercises for Chapters 9 and 10 -- Index Power electronics-Computer simulation |
| title | Simulation of Power Electronics Circuits with MATLAB/Simulink Design, Analyze, and Prototype Power Electronics |
| title_auth | Simulation of Power Electronics Circuits with MATLAB/Simulink Design, Analyze, and Prototype Power Electronics |
| title_exact_search | Simulation of Power Electronics Circuits with MATLAB/Simulink Design, Analyze, and Prototype Power Electronics |
| title_exact_search_txtP | Simulation of Power Electronics Circuits with MATLAB/Simulink Design, Analyze, and Prototype Power Electronics |
| title_full | Simulation of Power Electronics Circuits with MATLAB/Simulink Design, Analyze, and Prototype Power Electronics |
| title_fullStr | Simulation of Power Electronics Circuits with MATLAB/Simulink Design, Analyze, and Prototype Power Electronics |
| title_full_unstemmed | Simulation of Power Electronics Circuits with MATLAB/Simulink Design, Analyze, and Prototype Power Electronics |
| title_short | Simulation of Power Electronics Circuits with MATLAB/Simulink |
| title_sort | simulation of power electronics circuits with matlab simulink design analyze and prototype power electronics |
| title_sub | Design, Analyze, and Prototype Power Electronics |
| topic | Power electronics-Computer simulation |
| topic_facet | Power electronics-Computer simulation |
| work_keys_str_mv | AT asadifarzin simulationofpowerelectronicscircuitswithmatlabsimulinkdesignanalyzeandprototypepowerelectronics |