Detailed Syllabus ELECTRICAL MACHINES-II MODULE-I (10 HOURS) Fundamental Principles of A.C. Machines: E.M.F. equation of an elementary alternator, Single & three Phase, relation between speed & frequency, factors affecting the induced e.m.f., full pitch & fractional pitch windings, ....
Read MoreMODULE-I (10 HOURS) Electromechanical Energy conversion, forces and torque in magnetic field systems – energy balance, energy and force in a singly excited magnetic field system, determination of magnetic force , coenergy, multi excited magnetic field systems. DC Generators – Princip....
Read MoreSingle Phase Motors Construction and Principle of operation of Synchronous Machines Synchronous Machines Characteristics Voltage Regulation of Alternators Parallel Operation of Alternator Synchronous motor operation and starting Download Electrical Machines l....
Read MoreMODULE-I Electromechanical Energy conversion, forces and torque in magnetic field systems – energy balance, energy and force in a singly excited magnetic field system, determination of magnetic force , coenergy, multi excited magnetic field systems. DC Generators – Principle of operatio....
Read MoreOBJECTIVES i. To familiarize the constructional details, the principle of operation, prediction of performance, the methods of testing the transformers and three phase transformer connections. ii. To introduce the principles of electromechanical energy conversion in singly and multiply excited s....
Read MoreMODULE-III Three Phase Induction Motors: Types, Construction and principle of operation, 3 phase Induction Motor, general phasor diagram, equivalent circuit, power and torque relations, condition for maximum torque, circle diagram, Performance characteristics, effect of rotor resistance on speed to....
Read MoreINTERVIEW QUSTIONS................
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