This learning track covers a comprehensive understanding of electrical machines, magnetic fields, and circuits. It begins with the basic principles of electric and magnetic fields, their interactions, and applications in everyday life. The track then delves into the design and understanding of magnetic circuits, including the analysis of magnetic circuits with and without air gaps, and the role of ferrimagnetic and ferromagnetic materials in their design. The learning track further explores the study of electrical machines, focusing on Direct Current (DC) and Alternating Current (AC) machines, and their application in the design and operation of electrical machines. The track also covers the design of electrical machine windings, the principles of stator and rotor design, and the concept of pole phase modulation in induction motor drives. The learning track concludes with the comprehensive procedure for designing electrical machines, the understanding of performance parameters in electrical machines, the design principles of a switched reluctance machine, and the understanding of thermal design in electrical machines.
This course covers the basic principles of electric and magnetic fields, explaining their origins, interactions, and presence in everyday life. For instance, the course illustrates how the principles of electric fields apply to the functio...Read more
This course covers the comprehensive understanding and designing of magnetic circuits. It starts with the analysis of magnetic circuits with and without air gaps, explaining the role of ferrimagnetic and ferromagnetic materials in their design. The co...Read more
This course covers the comprehensive study of electrical machines, focusing on Direct Current (DC) and Alternating Current (AC) machines. It begins with an exploration of magnetic circuits, their single and multiple excitations, and their application in the...Read more
This course covers the comprehensive understanding of electrical machine windings design. It starts with the exploration of Magnetomotive Force (MMF) distribution of AC windings in electrical machines, explaining the concepts of concentrated winding, short pitch...Read more
This course covers the comprehensive understanding of electric motor design, analysis, and testing. It starts with the principles of design in relation to electrical machines, emphasizing the importance of design in various applications such as water pump applica...Read more
This course covers the comprehensive procedure for designing electrical machines, starting from the basic requirements and specifications to the final design verification. It provides a deep understanding of the stator core, rotor, and machine parame...Read more
This course covers the comprehensive understanding of performance parameters in electrical machines. For instance, it delves into the analysis of magnetizing currents, no-load currents, full-load currents, MMF's, fluxes, B values, flux densities, flux in...Read more
This course covers the comprehensive understanding of loss calculations in induction machines. It starts with an exploration of the components of loss in an induction machine, such as copper losses, core losses, and mechanical losses. For instance, this cou...Read more
This course covers the comprehensive understanding of switched reluctance machines. It covers the design principles of a switched reluctance machine, focusing on specifications like power, torque, speed, efficiency, electric loading, and magnetic loading. It pro...Read more
This course covers the comprehensive understanding of thermal design in electrical machines. It starts with the significance of thermal design, explaining how energy conversion in motors and generators leads to losses that are dissipated as heat, affecting th...Read more
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