Power Electronic Converters Interactive Modelling Using Simulink 1st Edition by Iyer Narayanaswamy P R 1351255738 9781351255738

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ISBN-10 :  1351255738 

ISBN-13 :  9781351255738

Author:  Iyer Narayanaswamy P R 

Provides a step-by-step method for the development of a virtual interactive power electronics laboratory. The book is suitable for undergraduates and graduates for their laboratory course and projects in power electronics. It is equally suitable for professional engineers in the power electronics industry. The reader will learn to develop interactive virtual power electronics laboratory and perform simulations of their own, as well as any given power electronic converter design using SIMULINK with advanced system model and circuit component level model. Features Examples and Case Studies included throughout. Introductory simulation of power electronic converters is performed using either PSIM or MICROCAP Software. Covers interactive system model developed for three phase Diode Clamped Three Level Inverter, Flying Capacitor Three Level Inverter, Five Level Cascaded H-Bridge Inverter, Multicarrier Sine Phase Shift PWM and Multicarrier Sine Level Shift PWM. System models of power electronic converters are verified for performance using interactive circuit component level models developed using Simscape-Electrical, Power Systems and Specialized Technology block set. Presents software in the loop or Processor in the loop simulation with a power electronic converter examples.

Power Electronic Converters Interactive Modelling Using Simulink 1st Table of contents:

1 Introduction
1.1 Background
1.2 Why Use Simulink?
1.3 Significance of Modelling
1.4 Book Novelty
1.5 Book Outline
References
2 Fundamentals of Interactive Modelling
2.1 Introduction
2.2 Interactive Modelling Concept
2.3 Interactive Modelling Procedure
2.3.1 Interactive Model Development
2.3.2 Three-Phase AC Voltage Source
2.3.3 SCR Three-Phase Half-Wave Converter
2.3.4 Gate Pulse Generator
2.3.5 RLE Load
2.3.6 Output Voltage and Current Measurement
2.3.7 Input Voltage Measurement
2.4 Simulation Results
2.5 Discussion of Results
2.6 Conclusions
References
3 Interactive Models for AC to DC Converters
3.1 Introduction
3.2 Single-Phase Full-Wave Diode Bridge Rectifier
3.2.1 Interactive Model for Single-Phase FWDBR with Purely Resistive or with RLE Load
3.2.2 Simulation Results
3.3 Single-Phase Full-Wave SCR Bridge Rectifier
3.3.1 Model for Single-Phase FWCBR with Purely Resistive or with RLE Load
3.3.2 Simulation Results
3.4 Three-Phase Full-Wave Diode Bridge Rectifier
3.4.1 Model for Three-Phase FWDBR with Purely Resistive Load
3.4.2 Simulation Results
3.5 Conclusions
References
4 Interactive Models for DC to AC Converters
4.1 Introduction
4.2 Three-Phase 180° Mode Inverter
4.2.1 Analysis of Line-to-Line Voltage
4.2.2 Analysis of Line-to-Neutral Voltage
4.2.3 Total Harmonic Distortion
4.2.4 Model for Three-Phase 180° Mode Inverter
4.2.5 Simulation Results
4.3 Three-Phase 120° Mode Inverter
4.3.1 Analysis of Line-to-Line Voltage
4.3.2 Analysis of Line-to-Neutral Voltage
4.3.3 Total Harmonic Distortion
4.3.4 Model of Three-Phase 120° Mode Inverter
4.3.5 Simulation Results
4.4 Three-Phase Sine PWM Technique
4.4.1 Model for Three-Phase Sine PWM Inverter
4.4.2 Simulation Results
4.5 Conclusions
References
5 Interactive Models for DC to DC Converters
5.1 Introduction
5.2 Buck Converter Analysis in Continuous Conduction Mode
5.3 Buck Converter Analysis in Discontinuous Conduction Mode
5.4 Model of Buck Converter in CCM and DCM
5.4.1 Simulation Results
5.5 Boost Converter Analysis in Continuous Conduction Mode
5.6 Boost Converter Analysis in Discontinuous Conduction Mode
5.7 Model of Boost Converter in CCM and DCM
5.7.1 Simulation Results
5.8 Buck–Boost Converter Analysis in Continuous Conduction Mode
5.9 Buck–Boost Converter Analysis in the Discontinuous Conduction Mode
5.10 Models of Buck–Boost Converter in CCM and DCM
5.10.1 Simulation Results
5.11 Conclusions
References
6 Interactive Models for AC to AC Converters
6.1 Introduction
6.2 Analysis of a Fully Controlled Three-Phase Three-Wire AC Voltage Controller with Star-Connected Resistive Load and Isolated Neutral
6.2.1 Modelling of a Fully Controlled Three-Phase Three-Wire AC Voltage Controller with Star-Connected Resistive Load and Isolated Neutral
6.2.2 Simulation Results
6.3 Analysis of a Fully Controlled Three-Phase AC Voltage Controller in Series with Resistive Load Connected in Delta
6.3.1 Modelling of a Fully Controlled Three-Phase AC Voltage Controller in Series with Resistive Load Connected in Delta
6.3.2 Simulation Results
6.4 Conclusions
References
7 Interactive Modelling of an Switched Mode Power Supply Using Buck Converter
7.1 Introduction
7.2 Principle of Operation of Switched Mode Power Supply
7.3 Modelling of the Switched Mode Power Supply
7.3.1 Simulation Results
7.4 Conclusions
References
8 Interactive Models for Fourth-Order DC to DC Converters
8.1 Introduction
8.2 Analysis of SEPIC Converter in CCM
8.3 Analysis of SEPIC Converter in DCM
8.4 Model of SEPIC Converter in CCM and DCM
8.4.1 Simulation Results
8.5 Analysis of Quadratic Boost Converter in the CCM
8.6 Analysis of Quadratic Boost Converter in the DCM
8.7 Model of Quadratic Boost Converter in CCM and DCM
8.7.1 Simulation Results
8.8 Analysis of Ultra-Lift Luo Converter in the CCM
8.9 Analysis of Ultra-Lift Luo Converter in DCM
8.10 Model of Ultra-Lift Luo Converter in CCM and DCM
8.10.1 Simulation Results
8.11 Conclusions
References
9 Interactive Models for Three-Phase Multilevel Inverters
9.1 Introduction
9.2 Three-Phase Diode-Clamped Three-Level Inverter
9.2.1 Modelling of Three-Phase Diode-Clamped Three-Level Inverter
9.2.2 Simulation Results
9.3 Three-Phase Flying-Capacitor Three-Level Inverter
9.3.1 Modelling of Three-Phase Flying-Capacitor Three-Level Inverter
9.3.2 Simulation Results
9.4 Three-Phase Cascaded H-Bridge Inverter
9.4.1 Modelling of Three-Phase Five-Level Cascaded H-Bridge Inverter
9.4.2 Simulation Results
9.5 RMS Value and Harmonic Analysis of the Line-to-Line Voltage of Three-Phase DCTLI and FCTLI
9.6 RMS Value and THD of Phase-to-Ground Voltage of TPFLCHB Inverter
9.7 Pulse Width Modulation Methods for Multilevel Converters
9.7.1 Multi-Carrier Sine Phase-Shift PWM
9.7.2 Simulation Results
9.7.3 Multi-Carrier Sine Level Shift PWM
9.7.4 Simulation Results
9.8 Conclusions
References
10 Interactive Model Verification
10.1 Introduction
10.2 AC to DC Converters
10.2.1 Single-Phase Full-Wave Diode Bridge Rectifier
10.2.2 Single-Phase Full-Wave SCR Bridge
10.2.3 Three-Phase Full-Wave Diode Bridge Rectifier
10.3 DC to AC Converters
10.3.1 Three-Phase 180° Mode Inverter
10.3.2 Three-Phase 120° Mode Inverter
10.4 DC to DC Converter
10.4.1 Buck Converter
10.4.2 Boost Converter
10.4.3 Buck–Boost Converter
10.5 AC to AC Converter
10.5.1 Three-Phase Thyristor AC to AC Controller Connected to Resistive Load in Star
10.5.2 Three-Phase Thyristor AC to AC Controller in Series with Resistive Load in Delta
10.6 Switched Mode Power Supply Using Buck Converter
10.7 Fourth-Order DC to DC Converters
10.7.1 SEPIC Converter
10.7.2 Quadratic Boost Converter
10.7.3 Ultra-Lift Luo Converter
10.8 Three-Phase Three-Level Inverters
10.8.1 Three-Phase Diode-Clamped Three-Level Inverter
10.8.2 Three-Phase Flying-Capacitor Three-Level Inverter
10.9 Three-Phase Sine PWM Inverter
10.10 Three-Phase Five-Level Cascaded H-Bridge Inverter
10.11 Pulse Width Modulation Methods for Multilevel Converters
10.11.1 Multi-Carrier Sine Phase-Shift PWM
10.11.2 Multi-Carrier Sine Level Shift PWM
10.12 Conclusions
References
11 Interactive Model for and Real-Time Simulation of a Single-Phase Half H-Bridge Sine PWM Inverter
11.1 Introduction
11.2 Interactive Model of Single-Phase Half H-Bridge Sine PWM Inverter
11.2.1 Simulation Results
11.3 Real-Time Software in the Loop Simulation
11.3.1 Digital Signal Processor
11.3.2 Code Composer Studio
11.3.3 Symmetric PWM Waveform Generation
11.3.4 Sine-Triangle Carrier PWM Generation
11.4 Conclusions

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Tags: Power Electronic, Converters Interactive, Modelling Using, Iyer Narayanaswamy