Generalizedtheoryofelectricalmachinesbypsbimbhra
Tacio Allaire
Generalized Theory of Electrical Machines by PS Bimbhra
If you are an electrical engineering student or professional, you might have heard of the book Generalized Theory of Electrical Machines by PS Bimbhra. This book is one of the most popular and widely used textbooks on the subject of electrical machines. It covers the basic principles and applications of various types of electrical machines, such as transformers, motors, generators, and converters.
In this article, we will give you an overview of the book and its contents. We will also tell you why you should read this book and how it can help you in your studies and career. So, let's get started.
What is Generalized Theory of Electrical Machines by PS Bimbhra?
Generalized Theory of Electrical Machines by PS Bimbhra is a book that was first published in 1980 by Khanna Publishers. It has been revised and updated several times since then, with the latest edition being the fifth one in 2018. The book has more than 1000 pages and contains 16 chapters. It also has numerous examples, problems, and solutions to help the readers understand and practice the concepts.
The book aims to provide a comprehensive and unified treatment of the theory and analysis of various types of electrical machines. It uses a generalized approach that applies to all kinds of machines, regardless of their construction, configuration, or operation. It also covers the modern aspects of electrical machines, such as power electronics, renewable energy sources, and smart grids.
What are the Contents of Generalized Theory of Electrical Machines by PS Bimbhra?
The book is divided into four parts: Part I deals with the fundamentals of electrical machines, Part II deals with transformers, Part III deals with direct current machines, and Part IV deals with alternating current machines. Here is a brief summary of each part and its chapters:
- Part I: Fundamentals of Electrical Machines
- Chapter 1: Introduction - This chapter introduces the basic concepts and definitions related to electrical machines, such as voltage, current, power, torque, speed, efficiency, losses, etc.
- Chapter 2: Basic Principles - This chapter explains the basic principles that govern the operation of electrical machines, such as electromagnetic induction, Faraday's law, Lenz's law, Fleming's rules, etc.
- Chapter 3: Magnetic Circuits - This chapter discusses the magnetic circuits that are used in electrical machines, such as air gaps, reluctance, magnetomotive force, flux linkage, etc.
- Chapter 4: Transformers - This chapter introduces the transformers that are used to change the voltage and current levels in electrical circuits.
- Chapter 5: Electromechanical Energy Conversion - This chapter describes the process of converting electrical energy into mechanical energy and vice versa in electrical machines.
- Chapter 6: Basic Concepts in Rotating Machines - This chapter covers the basic concepts that are common to all rotating machines, such as armature windings, commutators, brushes, slip rings, etc.
- Chapter 7: Generalized Theory of Electrical Machines - This chapter presents the generalized theory that can be applied to any type of electrical machine using a set of variables and equations.
- Part II: Transformers
- Chapter 8: Single-Phase Transformers - This chapter deals with the construction, operation, equivalent circuit, phasor diagram, performance characteristics, testing methods, etc. of single-phase transformers.
- Chapter 9: Three-Phase Transformers - This chapter deals with the construction,
- Chapter 10: Special Transformers - This chapter covers some special types of transformers that are used for specific purposes, such as auto-transformers, instrument transformers, pulse transformers, etc.
- Part III: Direct Current Machines
- Chapter 11: DC Generators - This chapter deals with the construction, operation, equivalent circuit, emf equation, armature reaction, commutation, performance characteristics, testing methods, etc. of DC generators.
- Chapter 12: DC Motors - This chapter deals with the construction, operation, equivalent circuit, torque equation, speed control, performance characteristics, testing methods, etc. of DC motors.
- Chapter 13: Commutation and Interpoles - This chapter explains the phenomenon of commutation and the role of interpoles in improving the commutation process in DC machines.
- Chapter 14: Compensating Windings and Commutating Poles - This chapter discusses the use of compensating windings and commutating poles to reduce the armature reaction and improve the commutation process in DC machines.
- Part IV: Alternating Current Machines
- Chapter 15: Synchronous Generators - This chapter deals with the construction, operation, equivalent circuit, emf equation, armature reaction, voltage regulation, performance characteristics, testing methods, etc. of synchronous generators.
- Chapter 16: Synchronous Motors - This chapter deals with the construction, operation, equivalent circuit, torque equation, power factor control, performance characteristics, testing methods, etc. of synchronous motors.
- Chapter 17: Induction Motors - This chapter deals with the construction, operation, equivalent circuit, torque equation, speed control, performance characteristics, testing methods, etc. of induction motors.
- Chapter 18: Single-Phase Motors - This chapter covers some special types of single-phase motors that are used for specific purposes, such as shaded-pole motors, capacitor-start motors, universal motors, etc.
- Chapter 19: Fractional Horsepower Motors - This chapter discusses the construction, operation, performance characteristics, testing methods, etc. of fractional horsepower motors that are used for small power applications.
- Chapter 20: Brushless DC Motors - This chapter explains the concept and working of brushless DC motors that use electronic commutation instead of mechanical commutation.
- Chapter 21: Stepper Motors - This chapter describes the construction, operation, performance characteristics, testing methods, etc. of stepper motors that are used for precise position control.
- Chapter 22: Switched Reluctance Motors - This chapter introduces the switched reluctance motors that use variable reluctance principle to produce torque.
- Chapter 23: Permanent Magnet Synchronous Motors - This chapter deals with the construction, operation, performance characteristics, testing methods, etc. of permanent magnet synchronous motors that use permanent magnets instead of field windings.
- Chapter 24: Linear Induction Motors - This chapter covers the linear induction motors that produce linear motion instead of rotational motion.
Conclusion
Generalized Theory of Electrical Machines by PS Bimbhra is a book that covers the theory and analysis of various types of electrical machines in a comprehensive and unified manner. It is one of the most popular and widely used textbooks on the subject of electrical machines. It provides the readers with the basic principles and applications of electrical machines, such as transformers, motors, generators, and converters. It also covers the modern aspects of electrical machines, such as power electronics, renewable energy sources, and smart grids.
The book is divided into four parts: Part I deals with the fundamentals of electrical machines, Part II deals with transformers, Part III deals with direct current machines, and Part IV deals with alternating current machines. Each part contains several chapters that explain the construction, operation, equivalent circuit, performance characteristics, testing methods, etc. of different types of electrical machines. The book also has numerous examples, problems, and solutions to help the readers understand and practice the concepts.
If you are an electrical engineering student or professional, you should read this book and learn from it. It will help you in your studies and career. It will also enhance your knowledge and skills in the field of electrical machines. So, don't wait any longer. Get your copy of Generalized Theory of Electrical Machines by PS Bimbhra today and start learning.
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