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00 bet course plan aug 2013

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00 bet course plan aug 2013

  1. 1. Page 1 of 4 MIT/GEN/F-05/ELE/R1 DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING COURSE PLAN Subject : ELE101 Basic Electrical Technology [3 1 0 4] Semester & branch : I Semester BE (Chemistry Group) Course Coordinator : Prof. Dr. B. K. Singh No of contact hours : 43 L + 9 T [4 hours / week] Assignment portion Assignment no. Topics 1 L1 – L17 2 L18 – L34 Test portion Test no. Topics 1 L1 – L17 2 L18 – L34 Submitted by: Prof. Dr. B. K. Singh (Signature of the Course Coordinator) Date: Approved by: Prof. Dr. B. K. Singh (Signature of HOD) Date: MANIPAL INSTITUTE OF TECHNOLOGY (A constituent college of Manipal University, Manipal) Manipal Karnataka 576 104 Faculty: Prof. Sudheer Kumar T. S. [M] Mr. Rajesh Madamanchi [N] Mr. Vedavyasa Kamath [O] Mr. Ganesh Kudva [P] Ms. Namrata Pai [Q] Ms. Ranjana G [R] Mrs. Sushma Nayak [S] Mr. Pramod Antony D’Sa [T] Mr. Siddhartha [U] Mr. Satyakam [V] Ms. Suprabha Padiyar [W] Mr. Adarsh Shetty [X]
  2. 2. Page 2 of 4 MIT/GEN/F-05/ELE/R1 Prerequisite:  Basics of Electrical Science,  Mathematics background including Differentiation, Integration and complex algebra Objectives: At the end of the course, the students must be able to: 1. Identify the components of power system. 2. Analyze linear electric/magnetic circuits. 3. Analyze simple single/three phase ac circuits. 4. Explain the principle of operation of transformer and induction motors. 5. Derive the equivalent circuit model of transformer and induction motor and estimate their performance indices if the parameters are given. 6. Comprehend and appreciate the features of basic measuring instruments. Evaluation Plan: • Assignments – 10 % • In semester examination – 40 % (Two compulsory tests of 20 marks each) • End semester examination – 50 % (Minimum for pass: 18 out of 50)
  3. 3. Page 3 of 4 MIT/GEN/F-05/ELE/R1 TEACHING PLAN Lecture no. Topic to be covered L1 Overview of the course, Evaluation outline L2 Overview of Electric Power System L3 Basic Circuit Elements: Passive elements: R, L & C, Active elements: Voltage & Current sources, Source Transformation, dependant sources L4 Resistor, Resistivity, Temperature Coefficient of Resistance, Resistances in series and parallel L5 Star-Delta Transformation, Analysis of simple DC resistive circuits by Network reduction techniques T1 Tutorial 1 (L3 – L5) L6 Inductor - Inductance, Series – Parallel connection of Inductor, Growth & Decay of current in an inductive circuit, Energy stored in an Inductor L7 Capacitor - Series – Parallel connection of Capacitor, Charging & Discharging of Capacitor, Energy stored in a Capacitor L8 DC Circuits: Review of Kirchhoff’s laws, Analysis of DC resistive circuits by Branch current method L9 Analysis of DC resistive circuits by Mesh current Analysis, super mesh L10 Analysis of DC resistive circuits by Node voltage Analysis, super node T2 Tutorial 2 (L8 – L10) L11 Magnetic circuits: Basic terms associated with magnetic Circuit, Magnetic circuit losses: hysteresis and eddy current L12 Analysis of series magnetic circuit, Analysis of parallel magnetic circuit, Analysis of series-parallel magnetic Circuit T3 Tutorial 3 (L11 – L12) L13 Electromagnetism: Flux produced by a current carrying conductor, Force acting on a conductor, Electromagnetic Induction, Faraday’s laws, Lenz’s law, Fleming’s right hand rule, Induced emf L14 Self & Mutually induced emfs, Self & Mutual Inductances, Coupling Coefficient L15 Dot rule, Coils in Series addition & opposition, coils in parallel addition & opposition T4 Tutorial 4 (L13 – L15) L16 Single phase circuits: Generation, emf induced, terminologies, phase, phase difference L17 Average value, RMS value, peak factor and form factor A1 Assignment I (L2 – L17) Sessional – 1 L18 Phasors: representation, addition, subtraction, multiplication, division, conversion, Phasor diagrams, addition and subtraction. L19 Analysis of Pure resistive, inductive circuit and capacitive circuits: voltage and current relations, phasor diagram, power consumed L20 Series RL, RC and RLC circuits, Concept of Impedance, voltage and current relations, power T5 Tutorial 5 (L18 – L20) L21 Parallel Circuits, Concept of Admittance L22 Power in ac circuits , power triangle, power factor, Power factor improvement T6 Tutorial 6 (L21 – L22) L23 Coupled circuits: Mesh equations, conductively coupled equivalent circuit
  4. 4. Page 4 of 4 MIT/GEN/F-05/ELE/R1 L24 Series resonance: Definition, resonant frequency, bandwidth, quality factor, half power frequencies L25 Parallel resonance: resonant frequency, dynamic resistance L26 3 phase ac circuits: Advantages, phase sequence, balanced and unbalanced, types of connection - delta, star L27 Balanced systems: Voltages and current in delta connected system, phasor diagram, power L28 Voltages and current in star connected systems, phasor diagram, power L29 Unbalanced systems: delta connected load, four wire star connected load, three wire star connected load: star to delta conversion method L30 Three wire star connected system: Loop current analysis, neutral displacement method L31 Power measurement in three phase circuits: Two Wattmeter method T7 Tutorial 7 (L26– L31) L32 Single phase transformer: Introduction, Types, Construction, emf equation, transformation ratio L33 Working of Ideal and practical transformers, Equivalent circuit L34 Efficiency & Regulation, Auto transformer: working, current distribution, advantages, application T8 Tutorial 8 (L32 – L34) A2 Assignment II (L18-L34) Sessional – 2 L35 3 phase induction motor: Introduction, application, Rotating magnetic field, construction L36 Poles, working principle, synchronous speed, running speed, slip, Rotor frequency, rotor resistance, inductance and impedance under running condition L37 equivalent circuit, power stages, slip & rotor copper loss relation, power output, efficiency L38 Torque, torque-slip characteristics, Starters for 3 phase IM : Star- Delta starter T9 Tutorial 9 (L35 – L38) L39 Single phase induction motor: Introduction, construction, double field revolving theory, capacitor start induction motor L40 Stepper motor: Construction , Types, working principles L41 Measuring instruments: Introduction, classification, PMMC instrument, Extension of range L42 PMMI instrument, Dynamometer type wattmeter L43 Single phase energy meter References: 1. Hughes E, Electrical Technology (8e), Longman , 2002. 2. Joseph Edminister, Electric Circuits, Schuam Series 3. Nagasarkar and Sukhija, Basic Electrical Engineering, OUP 2006. 4. Nagarath & Kothari, Basic Electrical Engineering (2e),TMH, 2004 5. D.R. Nagpal, Fundamentals of Electrical Engineering, SDP 2010.

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