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# Electrical Machines - I

IIT Kharagpur, , Prof. Debaprasad Kastha

Updated On 02 Feb, 19

##### Overview

Transformer and D.C rotating machine will be the main topics to be discussed in this course. Working principle of ideal transformer and its equivalent circuit referred to two sides. Analysis of practical transformer & its equivalent circuit. Equivalent circuit referred to different sides and phasor diagram. Core loss and copper loss. Regulation & efficiency. Three phase transformer connection & vector group. Parallel operation of transformers. Autotransformer. Basic constructional features of D.C machine. Elementary lap and wave winding used in armature. Emf and torque equations of D.C. machine generator and motor mode. Armature reaction and its effect. Compensationg winding. Shunt, series and compound machines. Generator characteristics. Motor characteristics. Efficiency, Basic tests. INTENDED AUDIENCE: UG Electrical Engineering as core subject. UG Mechanical and Mining Engineering as Elective subject. PREREQUISITES: Basic Electrical Technology: Knowledge of elementary calculus INDUSTRY SUPPORT: BHEL, CESC, NTPC, WBPDCL

## Lecture 20: Mod-01 Lec-20 Lecture-20-Potential and Current Transformers

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###### Lecture Details

Electrical Machines-I by Prof. Debaprasad Kastha, Department of Electrical Engineering, IIT Kharagpur. For more details on NPTEL visit httpnptel.iitm.ac.in

### COURSE LAYOUT

Week 1: Single phase Ideal transformer and basic equations. Its equivalent circuit. Week 2: Core loss: Eddy current and hysteresis loss factors on which it depends. Week 3: Taking Leakage flux, winding resistances and core loss in the equivalent circuit of the transformer. Week 4: Exact and approximate equivalent circuit. Phasor diagram. Regulation & efficiency. Week 5: Open circuit and short circuit tests. Estimation of equivalent circuit parameters. Week 6: Three phase transformer and various connections with vector groups. Week 7: DC machine constructional features and basic idea of its operation. Armature winding, commutator segments and brushes. Week 8: Lap and wave windings and number of parallel paths in armature circuit. Emf equation. Week 9: Torque equation. Separately excited and shunt generator characteristics. Week 10: Armature reaction and its ill effects. How to nullify the effects of armature reaction. Week 11: Shunt, series and compound motor characteristic. Week 12: Starting, speed control and braking of DC motor. Testing.

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