Advanced Electric Drives Analysis Control and Modeling Using MATLAB Simulink 1st edition by Ned Mohan ISBN‎ 1118485483 978-1118485484

Advanced Electric Drives: Analysis, Control, and Modeling Using MATLAB / Simulink 1st edition by Ned Mohan- Ebook PDF Instant Download/Delivery. 1118485483 978-1118485484
Full download Advanced Electric Drives: Analysis, Control, and Modeling Using MATLAB / Simulink 1st editionafter payment

Product details:

ISBN 10:‎ 1118485483
ISBN 13: 978-1118485484
Author: Ned Mohan

With nearly two-thirds of global electricity consumed by electric motors, it should come as no surprise that their proper control represents appreciable energy savings. The efficient use of electric drives also has far-reaching applications in such areas as factory automation (robotics), clean transportation (hybrid-electric vehicles), and renewable (wind and solar) energy resource management. Advanced Electric Drives utilizes a physics-based approach to explain the fundamental concepts of modern electric drive control and its operation under dynamic conditions. Author Ned Mohan, a decades-long leader in Electrical Energy Systems (EES) education and research, reveals how the investment of proper controls, advanced MATLAB and Simulink simulations, and careful forethought in the design of energy systems translates to significant savings in energy and dollars. Offering students a fresh alternative to standard mathematical treatments of dq-axis transformation of a-b-c phase quantities, Mohan’s unique physics-based approach “visualizes” a set of representative dq windings along an orthogonal set of axes and then relates their currents and voltages to the a-b-c phase quantities. Advanced Electric Drives is an invaluable resource to facilitate an understanding of the analysis, control, and modelling of electric machines.

• Gives readers a “physical” picture of electric machines and drives without resorting to mathematical transformations for easy visualization

• Confirms the physics-based analysis of electric drives mathematically

• Provides readers with an analysis of electric machines in a way that can be easily interfaced to common power electronic converters and controlled using any control scheme

• Makes the MATLAB/Simulink files used in examples available to anyone in an accompanying website

• Reinforces fundamentals with a variety of discussion questions, concept quizzes, and homework problems

Advanced Electric Drives: Analysis, Control, and Modeling Using MATLAB / Simulink 1st  Table of contents:

Preface

• Acknowledgements
• Overview of the Book
• Target Audience
• Structure of the Book

Chapter 1: Introduction to Electric Drives
1.1. Definition and Classification of Electric Drives
1.2. Components of an Electric Drive System
1.3. Fundamentals of Electric Motors
1.4. Power Electronics in Electric Drives
1.5. Applications of Electric Drives
1.6. MATLAB/Simulink for Modeling Electric Drives

Chapter 2: Dynamics and Modeling of Electric Drives
2.1. Dynamic Modeling of DC Motors
2.2. Dynamic Modeling of Induction Motors
2.3. Dynamic Modeling of Synchronous Motors
2.4. Electrical and Mechanical Dynamics
2.5. Load Torque and Drive System Behavior
2.6. State-Space Modeling of Electric Drives
2.7. MATLAB/Simulink Models for Motor Drives

Chapter 3: Control Strategies for Electric Drives
3.1. Introduction to Control Techniques
3.2. Classical Control Methods: PI and PID Control
3.3. Vector Control of Induction Motors
3.4. Field-Oriented Control of Synchronous Motors
3.5. Direct Torque Control (DTC)
3.6. Speed and Position Control in Electric Drives
3.7. MATLAB/Simulink Control Systems for Drives

Chapter 4: Power Electronics for Electric Drives
4.1. Power Semiconductor Devices
4.2. Power Converters for Electric Drives
4.3. DC-DC Converters and AC-DC Converters
4.4. Inverters and Pulse Width Modulation (PWM)
4.5. AC-AC Conversion for Motor Control
4.6. Efficiency and Loss Analysis in Power Electronics
4.7. MATLAB/Simulink for Power Electronics Simulation

Chapter 5: Advanced Control Techniques for Electric Drives
5.1. Model Predictive Control (MPC)
5.2. Adaptive Control of Electric Drives
5.3. Robust Control Methods
5.4. Sliding Mode Control in Electric Drives
5.5. Fuzzy Logic Control
5.6. Artificial Intelligence in Motor Control
5.7. MATLAB/Simulink Advanced Control Techniques

Chapter 6: Simulation and Design of Electric Drives
6.1. Simulation of Electric Drives in MATLAB/Simulink
6.2. Design of Controllers for Electric Drives
6.3. Simulation of Inverter and Motor Interactions
6.4. Optimization of Drive Parameters
6.5. Fault Diagnosis and Performance Evaluation
6.6. Integration of Hardware with Simulation Models

Chapter 7: Electric Drive Applications
7.1. Electric Drives in Industrial Automation
7.2. Electric Vehicle Drive Systems
7.3. Robotics and Motion Control
7.4. Renewable Energy Systems (Wind, Solar)
7.5. Home Appliances and Consumer Electronics
7.6. Electric Drives in Aerospace and Marine Applications

Chapter 8: Advanced Topics in Electric Drives
8.1. Multi-Level Inverters and Control Techniques
8.2. Permanent Magnet Synchronous Motors (PMSM)
8.3. High-Performance Drives in Aerospace Systems
8.4. Drive Systems for Energy Efficiency
8.5. Future Trends in Electric Drive Technologies

Appendices
A.1. MATLAB/Simulink Code Examples for Electric Drives
A.2. Motor Specifications and Characteristics
A.3. Conversion Tables and Key Formulas
A.4. MATLAB/Simulink Simulation Guidelines

Index

People also search for Advanced Electric Drives: Analysis, Control, and Modeling Using MATLAB / Simulink 1st :

advanced electric drives ned mohan

advanced electric drives ned mohan pdf

advanced electric drives gtu syllabus

advanced electric drives makaut question paper

advanced electric drives question paper