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Vyučující
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Lettl Jiří, prof. Ing. CSc.
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Sýkora Petr, Ing.
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Obsah předmětu
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Maxwell equations, Hopkinson´s law, Esson´s coefficient, cubage, motor, generator. DC machines, functional principle, constructional implementation, basic equations. Commutation, armature interference and its influence, losses, efficiency. Dynamo separately excited, shunt excited, serious excited, compound excited, characteristics. DC motor separately excited, shunt excited, serious excited, compound excited. Transformer, principle, constructional implementation, signification, using, basic equations. Substitution diagram, phasor diagram, idling, short circuit operation, losses, efficiency. Three-phase transformers, parallel connection, unbalanced consumption, autotransformers. AC machines, turning magnetic field, asynchronous machines, slip, operation modes. Asynchronous machines, principle, constructional implementation, basic equations. Substitution diagram, phasor diagram, idling, short circuit operation, losses, efficiency. Torque characteristic, Kloss´ relation, start, speed control, braking. Synchronous machines, principle, constructional implementation, basic equations. Alternators, synchronous motors, compensator, phasor diagrams, V curves, PMSM, reluctance motor.
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Studijní aktivity a metody výuky
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Přednášení, Monologická (výklad, přednáška, instruktáž)
- Kontaktní výuka
- 52 hodin za semestr
- Příprava na zkoušku
- 68 hodin za semestr
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Výstupy z učení
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The aim of the course is to elucidate problems of electric machines functional principles, constructional implementation, basic equations, DC motor and dynamo separately excited, shunt excited, serious excited, compound excited characteristics, one-phase and three-phase transformer principles, types, and operating modes, asynchronous and synchronous machines signification, using, operating modes, substitution diagrams, phasor diagrams, torque characteristics, methods of start, speed control, braking.
After the course completion the students are able to implement various types of electric machines such as DC motors and dynamos separately excited, shunt excited, serious excited, compound excited, various types of transformers, asynchronous and synchronous machines. They are able to perform their projection, to apply proper method of start, speed control and braking, to use the knowledge of electric machines application in engineering practice.
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Předpoklady
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Knowledge of electrical circuit, digital technique, basics of electrical drives.
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Hodnoticí metody a kritéria
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Ústní zkouška
Knowledge of mathematical analysis and circuit theory is necessary.
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Doporučená literatura
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Andrej M. Trzynadlowski. Introduction to Modern Power Electronics. New York: John Willey & Sons, 1998.
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Bose, B. K. Modern Power Electronics : Evolution, Technology, and Applications. New York: IEEE PRESS, 1992.
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Crowder Richard. Electric Drives and Electromechanical systems. Oxford: Elsevier, 2006.
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Leonhard Werner. Control of Electric Drives.. New York: Springer-Verlag, 2001.
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Ned Mohan, William P. Robbins, Tore M. Undeland. Power Electronics : Converters, Applications, and Design.. New York: John Willey & Sons, 2003.
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Sen P. C. Principles of Electric Machines and Power Electronics. New York: John Wiley & Sons, 1997.
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