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Advanced Electrical Machines

This document outlines the syllabus for the course EE 502 Machine Modelling and Analysis. The course is divided into 5 units that cover various topics related to modeling and analyzing electrical machines including transformers, DC motors, AC motors, synchronous generators, and state modeling. The course is 3 hours per week for the academic year 2008-2009 and includes a 3 hour final exam worth 80 marks and sessional assessments worth 20 marks.

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235 views1 page

Advanced Electrical Machines

This document outlines the syllabus for the course EE 502 Machine Modelling and Analysis. The course is divided into 5 units that cover various topics related to modeling and analyzing electrical machines including transformers, DC motors, AC motors, synchronous generators, and state modeling. The course is 3 hours per week for the academic year 2008-2009 and includes a 3 hour final exam worth 80 marks and sessional assessments worth 20 marks.

Uploaded by

lucky250
Copyright
© Attribution Non-Commercial (BY-NC)
We take content rights seriously. If you suspect this is your content, claim it here.
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With effect from the academic year 2008-2009

EE 502 MACHINE MODELLING AND ANALYSIS (Elective) Instruction Duration of University Examination University Examination Sessional : : : : 3 periods per week 3 hours 80 Marks 20 Marks

UNIT I: Theory of Transformation: Reference Frames Electrical Network Terminology Mesh Network The Generalized Machine of the First kind Impedance Matrix Impedance Matrix of the Synchronous Machine The Flux Linkage and the Flux Density Matrices Rotation Matrix Electro-magnetic Torque Performance Calculations Elimination of axes Analysis using Revolving Field Theory Transformation from the stationary d-q Axes to stationary Real axes reference frame. UNIT II: Performance and Analysis of A.C. and D.C. Commutator Machines: Compound Wound D.C. Motor Steady State Analysis D.C. Shunt Motor D.C. Series Motor Transient Analysis Stability of a Compound Wound D.C. Motor Universal Motor Separately Excited D.C. Generator The Repulsion Motor Steady State Performance Stability of a Repulsion Motor. UNIT III: Electrical Machines in Rotating Reference Frames: Nonholonomic Reference Frame Equation of voltage along the General rotating axes Torque and inductance Matrix in Nonholonomic Reference Frame Holonomic Reference Frame Equation of voltage in Holonomic Reference Frame Impedance Matrix of the Second Generalized Machine from the First Generalized Machine Equation of Voltage of the First Generalized Machine from that of the Second Equation of Torque for the First Generalized Machine from the Second one Induction Machine in the Quasi Holonomic Reference Frame. Synchronous Generator in Quasi-holonomic Reference frame. UNIT IV: Performance Analysis of Induction and Synchronous Machines: Two-phase Symmetrical Components Torque in a Two-phase Induction Machine Three-phase Induction Motor Sequence Impedance of an Induction Motor Two-phase Induction Motor on Holonomic Reference Frame Three-phase Induction Motor on Holonomic Reference Frame Power in the Synchronous Machine Elimination of the Field and Damper Windings Torque in a salient pole Synchronous Machine Determination of the d- and q-axes reactances Synchronous Generator Under Sudden Short Circuit Generator without Damper and Resistance Generator without Damper but with Field Resistance Generator with Damper Windings. UNIT V: State Modeling of Electrical Machines: Voltage and Torque Equation under acceleration Motional Impedance Matrix of the Generalized Machine State Model of the Generalized Machine D.C. Machine under Acceleration State Model of the Induction Motor State Model of the Synchronous Motor. Suggested Reading: 1. Mukhopadhyay A.K., Matrix Analysis of Electrical Machines, New Age International. 2. Bimbhra P.S., Generalized Theory of Electrical Machines, Khanna Publishers, 1975. 3. Jones C.V., Unified Theory of Electrical Machines, Butterworths (London) 1967.

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