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The optimum supply of a wound-rotor synchronous machine with respect to maximum efficiency
Laštovička, Josef ; Cipín, Radoslav (oponent) ; Bárta, Jan (vedoucí práce)
The master's thesis deals with a literature review of electric motors suitable for the electric vehicle driveline, where the main focus is given to a wound-field synchronous machine. At first, there is a short description of machine construction and the working principle for each type of suitable electric machine. The advantages and disadvantages of using a specific machine as a traction drive are summarized, and an eventual example of use in today's electric car with basic machine specifications is given. In the next part, a more detailed focus is given to the wound-rotor synchronous machine and its use for electric vehicle drive. The second chapter deals with the modification of this machine type for traction applications. A machine capable of dual-mode operation is presented, followed by a discussion of non-contact current transfer to the rotor winding, and finally, the possibility of using a hairpin winding made of rectangular conductors is presented. The third part of the thesis deals with the mathematical description of the machine, including direct and quadrature axis equivalent circuits and an explanation of the vector diagram in motor mode. In the last two chapters of the thesis, a Python program is introduced to analyze the machine's operating characteristics. During the program build, an analysis methodology for this type of machine based on the provided data package was developed, and graphical dependencies of torque and efficiency on different input currents combinations were exported. The program also includes a function for finding the optimum current supply for the machine with respect to the maximum efficiency.
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The optimum supply of a wound-rotor synchronous machine with respect to maximum efficiency
Laštovička, Josef ; Cipín, Radoslav (oponent) ; Bárta, Jan (vedoucí práce)
The master's thesis deals with a literature review of electric motors suitable for the electric vehicle driveline, where the main focus is given to a wound-field synchronous machine. At first, there is a short description of machine construction and the working principle for each type of suitable electric machine. The advantages and disadvantages of using a specific machine as a traction drive are summarized, and an eventual example of use in today's electric car with basic machine specifications is given. In the next part, a more detailed focus is given to the wound-rotor synchronous machine and its use for electric vehicle drive. The second chapter deals with the modification of this machine type for traction applications. A machine capable of dual-mode operation is presented, followed by a discussion of non-contact current transfer to the rotor winding, and finally, the possibility of using a hairpin winding made of rectangular conductors is presented. The third part of the thesis deals with the mathematical description of the machine, including direct and quadrature axis equivalent circuits and an explanation of the vector diagram in motor mode. In the last two chapters of the thesis, a Python program is introduced to analyze the machine's operating characteristics. During the program build, an analysis methodology for this type of machine based on the provided data package was developed, and graphical dependencies of torque and efficiency on different input currents combinations were exported. The program also includes a function for finding the optimum current supply for the machine with respect to the maximum efficiency.
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