Post on 30-Sep-2020
Lesson Plan
Name of the Faculty : Rajesh Garg
Discipline : Electrical Engineering
Semester : 2nd Semester
Subject : ELECTRONICS - I
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
Ist 1 Electronic components 1 Identification and testing of electronic components such as resistor, inductor, capacitor, diode, transistor and different types ofswitches used in Electronic circuits
2 Active and passive components 2 Measurement of resistances usingmultimeter and their comparison with colour code values
3 Concept of current and voltage sources, constant voltage and current sources, their graphical representation. Conversion of voltage source into current source and vice-versa
3 V-I characteristics of a Semiconductor diode and to calculate its static and dynamic resistance
2nd 4 Difference between actual voltage source and constant voltage source
4 V-I characteristics of a zenor diodeand finding its reverse breakdown voltage
5 Atomic structure, crystalline structure 5 Fabrication of a zenor diode voltage stabilizer circuit using PCB
6 Energy band theory of crystals, energy band structure of insulator
6 Observation of input and output wave shapes of a half-wave rectifier and verification ofrelationship between dc output and ac input voltage
6 semiconductor 7 Observation of input and output wave shapes of a full wave rectifier and verification and relationshipbetween dc and ac input voltage
3rd 7 conductor 8 Observation of input and output wave shapes of a full wave rectifier with (i) shunt capacitor) (ii)series inductor (iii) circuits
8 recombination of electron hole pairs. 9 Plotting input and output characteristics of a transistor in CBconfiguration
8 Silicon versus Germanium for mobility and conductivity
10 Plotting input and outputcharacteristics of a transistor in CE configuration
9 Concept of Doping, intrinsic and 11 Measurement of operating point in
extrinsic semiconductors case of (i) fixed biased circuit (ii) potential divider biasing circuit and to observe the effect of temperature variation on theoperating point.
4th
10 Effect of temperature on intrinsic and extrinsic semiconductors
12 To measure the voltage gain and band width by plotting frequency response curve of a single stageamplifier using CE configuration at different loads
11 PN Junction, mechanism of current flow in PN junction, drift and diffusion currents, depletion layer, potential barrier, effect of forward and reverse biasing in a PN junction. Concept of junction capacitance in forward and reverse biased conditions.Breakdown mechanism
13 To study the effect of coupling capacitor on lower cut off frequency and upper cut off frequency by plotting frequency response curve of a two stage RC coupled amplifier
12 Ideal diode, Semiconductor diode characteristics, static and dynamicresistance
14 To plot V-I characteristics of a FET
5th 13 Use of diode as half wave and full wave rectifiers (centre tapped and bridge type), relation between DCoutput and AC input voltage, rectifier efficiency
14 Concept of ripples, filter circuits – shunt capacitor, series inductor, and pie (π) filters and their applications
15 Diode ratings/specifications15 Various types of diodes such as
zener diode, varactor diode, schottky diode, light emitting diode, tunnel diode, photo diode; their workingcharacteristics and applications
6th 16 Zener diode and its characteristics17 Use of zener diode for voltage
stabilization18 Concept of junction transistor, PNP
and NPN transistors, their symbols and mechanism of current flow
18 Transistor configurations: common base (CB), common emitter (CE) and common collector (CC), current relation and their input/output characteristics; comparison of thethree configurations
7th 19 Transistor biasing, its need, operating point, effect of temperature on the operating point of a transistor andneed of stabilization of operating point
20 Different biasing circuits, limitations, simple problems to calculateoperating point in different biasing circuits. Use of Thevenin’s theorem to
determine operating point21 Concept of h-parameters of a
transistor21 Use of data book to know the
parameters of a given transistor8th 22 Single stage transistor amplifier circuit
in CE configuration, function of eachcomponent
23 Working of single stage transistoramplifier, physical and graphical explanation, phase reversal
24 Concept of DC and AC load line25 Voltage gain of single stage transistor
amplifier using characteristics of thedevice
9th 26 Concept of input and output impedance
26 AC equivalent circuit of single stagetransistor amplifiers
27 Calculation of voltage gain using AC equivalent circuit
27 Frequency response of a single stagetransistor amplifier
10th 28 Need of multi-stage transistor amplifiers – different types of couplings, their purpose andapplications
29 Knowledge of various terms such as voltage gain, current gain
30 frequency response, decibel gain andband width
11th 31 RC coupled two-stage amplifiers,circuit details, working, frequency response, applications
32 Loading effect in multistage amplifiers33 Elementary idea about direct coupled
amplifier, its limitations and applications
12th 34 Transformer coupled amplifiers, itsfrequency response
35 Effect of co-efficient of coupling onfrequency response. Applications of transformer coupled amplifiers
36 Construction, operation, characteristics and applications of a Nchannel JFET and P channel JFET
13th 37 JFET as an amplifier38 Types, construction, operation,
characteristics and applications of aMOSFET
39 Comparison between BJT, JFET and MOSFET
14th 40,41,42
Revision & Test
15th 43,44,45
Revision & Test
Lesson Plan
Name of Faculty Surender Gupta, Lecturer (Theory and Practical)Discipline Electrical Engineering
Semester 4th:
Subject Electrical Machine-ILesson plan duration 15 weeks
Week Theory PracticalLecture Day Topic(including assignment/test) Practical
dayTopic
1st 1 Will Discuss Learning outcomes of Electrical Machine subject.
1st Introduction of EM lab various specifications of Motors, safety precautions etc.
2 Introduction to Electrical Machines
Definition of motor and generator, concept of torque
3 Electro-magnetically induced emf.
4 Torque development due to alignment of two fields and the concept of torque angle
2nd 5 Elementary concept of an electrical machine 2nd Measurement of the angular displacement of the rotor of a slip-ring induction motor on application of DC to stator of motor winding in sequence and simultaneously to each phase of rotor winding
6 Comparison of generator and motor
7 Introduction of DC machines, its types
8 Construction of DC machines
3rd 9 Armature winding and its types 3rd Speed control of dc shunt motor
10 Commutator and its function for generator and motor action
(i) Armature control method
11 Factors determining induced EMF (ii) Field control method
12 Factors determining electromagnetic torque
4th 13 DC generator and its types 4th Evaluation of above practical’s.
14 Voltage buildup in DC gen.
15 Back emf, its significance , relationship between terminal voltage and back emf
16 Armature reaction
5th 17 Commutation methods to improve commutation
5th Study of dc series motor with starter (to operate the motor on no load for a moment)
1 Types of DC Motors, its performace, Characteristic of DC motors
19 Speed control of DC motors, starters for DC motors(3 point and 4 point)
20 Application of DC Motors, losses in DC machines
6th 21 Swinburne’s test to find out losses 6th Study of 3 point starter for starting D.C. shunt motor.
First assignment will be given
22 Display and analysis of sessional marks
23 Introduction of Transformers, types of T/Fm
24 Construction of single phase transformer,
7th 25 Parts of a transformer 7th To perform open circuit and short circuit test for determining: (i) equivalent circuit (ii) the regulation and(iii)efficiencyof a transformerfrom the data obtained from open circuit and short circuit test at full load
26 Working principle of transformer
27 EMF equation of T/fm
28 Transformer at no load and its phasor diagram
8th 29 Transformer – neglecting voltage drop in the windings – Ampere turn balance – its phasor diagram
8th Evaluation of above practicals.
30 Mutual and leakage fluxes, leakage reactance
31 Transformer on load, voltage drops and its phasor diagram
32 Equivalent circuit diagrams of T/fm, Relation between induced emf and terminal voltage, regulation of a transformer mathematical relation
9th 33 Losses in transformer, various tests OC/SC Test to find out these losses and efficiency etc.
9th Revision of above practicals for left out students.
34 Auto transformer, construction,working and its application
35 Different type of transformer including dry type transformer
36 second assignment will be given
10th 37 display and analysis of sessional marks. 10th Checking the polarity of the windings of a three phase transformer and connecting the windings in various configurations 38 construction of 3-phase transformer
39th accessories of transformers such as Conservator, breather,
40th BuchholzRelay, Tap Changer (off load and on load) (Brief idea)
11th 41 Types of three phase transformer i.e. delta-delta, delta-star
11th Finding the voltage and current relationships of primary and secondary of a three phase transformer under balanced load in various configurations conditions such as (a) Star-star (b) Star delta (c) Delta star (d) Delta-Delta configuring conditions
42 Star-delta,star-star.
43 Parallel operation of transformer, its need
44 Parallel operation conditions will be discussed
12th 45 Revision 12th Evaluation of above practicals.
46 Revision
47 Revision
48 Revision
13th 49 Revision 13th Revision of above practicals for left out students if any.
50 Revision
51 3rd assignment will be given
52 Revision
14th 53 Revision 14th Viva-voce/preparation of practical sessional marks.
54 Revision
55 Revision
56 Revision
15th 57 Revision
58 Revision
59 Revision
Lesson Plan
Name of the Faculty : Vikas Mittal
Discipline : Electrical Engineering
Semester : 4th Semester
Subject : ENERGY SOURCES AND MANAGEMENT OF ELECTRICAL ENERGY
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
ist 1, 2 Introduction: Various energy sources3 importance of non conventional sources of
energy4 present scenario5 future prospects
2nd 6 economic criteria7 Solar Energy: Principle of conversion
of solar radiation into heat8, 9 photo-voltaic cell10 electricity generation
3rd 11,12, solar water heaters13, 14 solar furnaces15 solar cookers
4th 16,17 solar lighting18 solar pumping19, 20 Bio-energy – Introduction
Bio-mass conversion technologies- wet and dry processes. Methods for obtaining energy frombiomass. Power generation by using gasifiers
5th 21,22 Wind energy conversion23 windmills24,25 electricity generation from wind
6th 26, 27
types of wind mills
28,29 Local control30 energy storage
7th 31, 32 Geo-thermal sources33,34 Ocean thermal electric conversion35, open and closed cycles
8th 36,37 Hybrid cycles38, 39,40
Prime movers for geo-thermal energyconversion
9th 41 Steam Generation42 Electricity Generation43, 44,45
Magneto Hydro Dynamic (MHD) Power Generation
10th 46,47, 48,49, 50
Chemical Energy Sources:Design and operating principles of a fuel cell
11th 51 conversion efficiency52 work output and e.m.f of fuel cells53 Applications54, 55 Need for energy conservation with
brief description of oil and coal crisis12th 56, 57 Environmental aspects
58 Energy efficiency- its significance59, 60 Energy efficient technology an overview
13th 61, 62 Energy conservation in Domestic sector- Lighting, home appliances
63 Need for energy efficient devices64,65 Energy conservation in Industrial
sector- Motors14th 66 Industrial lighting
67, 68 Distribution system69 Pumps70 Fans, Blowers
15th 71, 72 Energy conservation in Agriculture sector, Tube-well pumps
73 diesel-generating sets74 Standby energy sources75 Macro Level approach for energy
conservation at design stage
Lesson Plan
Name of the Faculty : Rajesh Garg
Discipline : Electrical Engineering
Semester : 4th Semester
Subject : ELECTRONICS - II
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
Ist 1,2 Difference between voltage and power amplifier
1 To study the effect of coupling capacitor on lower cut off frequency and upper cut off frequency by plotting frequency response curve ofa two stage RC coupled amplifier
3, 4 Important terms in Power Amplifier, collector efficiency, distortion and dissipationcapability
2 To measure (a) optimum load (b) output power (c) signal handling capacity of a push-pull amplifier
2nd 5, 6 Classification of power amplifier class A, B and C
3 To observe the effect of negative current feedback on the voltage gain of a single stage transistor amplifier by removing emitter bye-passcapacitor
7 Class A single-ended power amplifier, its working and collector efficiency
4 To measure (a) voltage gain (b)input and output impedance for an emitter follower circuit
8 Impedance matching in a power amplifier using transformer
5 To measure frequency generation in Hartley
3rd 9 Heat sinks in power amplifiers 6 To measure frequency generation in R-C Phase Shift oscillator
10 Push-pull amplifier: circuit details, working and advantages (no mathematicalderivations)
7 To observe the differentiated and integrated square wave on a CRO for different values of R-C timeconstant
11, 12 Principles of the working ofcomplementary symmetry push-pull amplifier
8 Clipping of both portion of sine-wave using : diode and dc source
4th 13 Tuned Voltage Amplifier - Introduction 9 Clipping of both portion of sine-wave using : zener diodes
14, 15 Series and parallel resonance ( No mathematical derivation)
10 Clamping a sine-wave to : Negative dc voltage
16 Single and double tuned voltage amplifiers
11 Clamping a sine-wave to : Positive dc voltage
5th 17,18 Frequency response of tuned voltage amplifiers
12 To generate square-wave using an astable multivibrator and to observe the wave form on a CRO and verifythe result using p-spice software
19, 20 Applications of tuned voltage amplifiers 13 To observe triggering and working of a bistable multivibrator circuit and
observe its output wave form on a CRO
6th 21, 22 Feedback and its importance, positive and negative feedback and their need
14 To use the op-Amp (IC 741) as inverting one and non-inverting amplifiers, adder, comparator, integrator and differentiator andverify the result using p-spice software
23 Voltage gain of an amplifier with
negative feedback
15 To study the pin configuration and working of IC 555 and its use as monostable and astablemultivibrator
24 Effect of negative feedback on voltage gain, stability, distortion, band width, output and input impedance of an amplifier (No mathematicalderivation)
16 To realize the regulated power supply by using three terminal voltage regulator ICs such as 7805, 7905, 7915 etc. and verify the resultusing p-spice software
7th 25, 26 Typical feedback circuits27 Effect of removing the emitter by-pass
capacitor on a CE transistor amplifier28 Emitter follower and its applications
8th 29 Sinusoidal Oscillators – positive feedback in amplifiers
30 Difference between an oscillator and an alternator
31,32 Essentials of an oscillator9th 33,
34Circuit details and working of LCoscillators viz. Tuned Collector, Hartley and Colpitt’s oscillators
35 R-C oscillator circuits36 phase shift and Wein bridge oscillator
circuits10th 37 Introduction to piezoelectric crystal
and crystal oscillator circuit38, 39 Concept of Wave-shaping40 R-C differentiating
11th 41 integrating circuits42, 43 Diode clipping circuits44 Diode clamping circuits
12th 45,46 Applications of wave-shaping circuits47 Transistor as a switch (explanation
using CE transistor characteristics)48 Collector coupled astable
multivibrator13th 49 monostable multivibrator
50 bistable monostable51 Brief mention of uses of multivibrators52 Working and applications of transistor
inverter circuit using power transistors14th 53,54, Working Principles of different types
of power supplies55, 56 CVTs, IC voltage regulator (78
XX,79XX)15th 58 The basic operational amplifier
59 The differential amplifier
60 The emitter coupled differential amplifier
16th 61 Offset even voltages and currents62 Basic operational amplifier
applications, integrator anddifferentiator, summer, subtractor
63 Familiarization with specifications and pin configuration of IC 741
64 Block diagram and operation of 555IC timer
Lesson PlanName of the Faculty : Neelam Saroha
Discipline : Electrical Engineering
Semester : 4th Semester
Subject : ELECTRICAL ENGINEERING DESIGN AND DRAWING - II
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
1st 1,2,3 DOL starting of 3-phase induction motor
4,5,6 3-phase induction motor gettingsupply from selected feeder
5,6 Forwarding/reversing of a 3-phase induction motor
2nd 7,8 Two speed control of 3-phaseinduction motor
9,10 Limit switch control of a 3-phase induction motor
11,12 Sequential operating of two motorsusing time delay relay
3rd 13,14 Revision & Check Sheet
15,16 Revision & Check Sheet
17,18 Revision & Check Sheet
4th 19,20 Manually generated star delta starter for 3-phase induction motor
21,22 Automatic star delta starter for 3- phase Induction Motor
23,24 Concept and purpose of earthing
5th 25,26 Different types of earthing, drawings of plate and pipe earthing
27,28 Procedure of earthing, test ofmaterials required and costing
29,30 Method of reducing earth resistance6th 31,32 Revision & Check Sheet
33,34 Revision & Check Sheet
35,36 Revision & Check Sheet7th 37,38 Relevant IS specifications of earth
electrode for earthing a transformer, a high building
39,40 Earthing layout of distribution transformer
41,42 Substation earthing layout andearthing materials
8th 43,44 Revision & Check Sheet
45,46 Revision & Check Sheet
47,48 Revision & Check Sheet
9th 49,50 Key diagram of 11KV sub-stations51,52 Key diagram of 33KV sub-stations53,54 Key diagram of 66KV sub-stations
10th 55,56 Key diagram of 132 KV sub-stations57,58 Drawings of Machine Parts : End
cover of induction motor59,60 Drawings of Machine Parts : Rotor of
a squirrel cage induction motor11th 61,62 Revision & Check Sheet
63,64 Revision & Check Sheet
65,66 Revision & Check Sheet
12th 67,68 Drawings of Machine Parts : Field coil of a DC motor
69,70 Drawings of Machine Parts : Terminal plate of an induction motor
71,72 Drawings of Machine Parts : Motorbody (induction motor) as per IS specifications
13th 73,74 Drawings of Machine Parts : Slip rings of 3-phase induction motor
75,76 Revision & Check Sheet
14th Revision & Check Sheet
15th Revision & Check Sheet
Lesson Plan
Name of the Faculty : Rajesh Garg
Discipline : Electrical Engineering
Semester : 4th Semester
Subject : INSTRUMENTATION
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
1st 1 Importance of measurement 1 To measure the level of a liquid using a transducer
2 basic measuring systems 2 To measure temperature using a thermo-couple
3 advantages and limitations of each measuring systems and displaydevices
3 Study and use of digital temperature controller
4 Transducers: Theory, construction 4 Use of themistor in ON/OFF transducer
2nd 5 Use of resistance 5, 6 Study of variable capacitivetransducer
6 Use of inductance 7 Draw the characteristics of a potentiometer
7 Use of capacitance 8 To measure linear displacementusing LVDT
8 Use of electromagnetic 9, 10 To study the use of electrical strain gauge
3rd 9 Use of piezo electric type 11 To study weighing machine usingload cell
10 wire wound potentiometer 12 To study pH meter11 LVDT12 strain gauges and their different types
such as inductance type4th 13 resistive type
14 wire and foil type15 Gauge factor16 gauge materials and their selections
5th 17,18 Use of electrical strain gauges19,20 strain gauge bridges and amplifiers
6th 20,21
Different types of force measuring devices and their principles
22, 23,24
load measurements by using elastictransducers and electrical strain gauges
7th 25 Load cells, measurements of torque by brake
26 dynamometer27, 28 electrical strain gauges
8th 29, 30 speed measurements; different methods, devices
31 Bourdon pressure gauges32, electrical pressure pick ups and their
principle, construction andapplications
9th 33,34 Use of pressure cells35, 36 Basic principles of magnetic flow
meters10th 38, 39 Basic principles of ultrasonic flow
meters40 Bimetallic thermometer
11th 41 thermoelectric thermometers42 resistance thermometers43 thermocouple44 thermisters and pyrometer
12th 45 Temperature recorders46 Measurement of other non electrical
quantities such as humidity47 pH, level48 vibrations
13th Revision14th Revision15th Revision
Lesson Plan
Name of the Faculty : Vikas Mittal
Discipline : Electrical Engineering
Semester : 4th Semester
Subject : ESTIMATING AND COSTING IN ELECTRICAL ENGINEERING
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
1st 1 Purpose of estimating and costing2 proforma for making estimates3 preparation of materials4 schedule, costing, price list
2nd 5, 6, 7 preparation of tender document (with 2-3 exercises)
8 net price list, market survey, overhead charges, labour charges,electrical point method and fixed percentage method,
3rd 9 contingency10 enquiries, comparative statements,
orders for supply, payment of bills11 Tenders – its constituents,
finalization, specimen tender12 Cleat
4th 13 batten14 Casing & capping15 conduit wiring16 comparison of different wiring
systems5th 17 selection and design of wiring
schemes for particular situation (domestic and Industrial)
18 Selection of wires and cables, wiring accessories and use of protective devices i.e. MCB, ELCB etc
19 Use of wire-gauge and tables ( to be prepared/arranged)
20 Domestic installations; description of various tests to test the wiringinstallation before commissioning
6th 21,22 standard practice as per IS and IE rules
23, 24 Planning of circuits, sub-circuits andposition of different accessories
7th 25 electrical layout26, 27,28
preparing estimates including cost as per schedule rate pattern and actual
market rate8th 29,30 Industrial installations; relevant IE
rules and IS standard practices31, 32, planning, designing and estimation of
installation for single phase motors ofdifferent ratings
9th 33,34, 35,36
electrical circuit diagram, starters, preparation of list of materials, estimating and costing exercises on workshop with singe-phase, 3-phasemotor load and the light load (3-phase supply system)
10th 37,38,39,40,
Service line connections estimate for domestic upto 10 KW
11th 41,42, 43,44
Industrial loads upto20 KW (over-head and under ground connections) from pole to energy meter
12th 4445, 46,47, 48,
Transmission and distribution lines (overhead and underground) planning and designing of lines with different fixtures, earthing etc. based on unitcost calculations
13th 49,50, 51,52
Types of substations
14th 53,54 substation schemes and components55,56, estimate of 11/0.4 KV pole mounted
substation up to 200 KVA15th 57,58 rating, methods of earthing of
substations59 Key Diagram of 66 KV/11KV
Substation60 Key Diagram of 11 KV/0.4 KV
Substation16th 61, 62 Single line diagram, layout sketching
of outdoor, indoor 11kV sub-station63, 64 Single line diagram, layout sketching
of outdoor, indoor 33kV sub-station
Lesson Plan
Name of the Faculty : Vikas Mittal
Discipline : Electrical Engineering
Semester : 6th Semester
Subject : UTILIZATION OF ELECTRICAL ENERGY
Lesson Plan Duration : 15-16 Week
Week Day Topic
1
1 Introduction Of The Subject, Its Need, Applications
2 Nature Of Light, Visibility Spectrum Curve Of Relative Sensitivity Of Human Eye And Wave Length Of Light
3 Definition: Luminous Flux, Solid Angle, Luminous Intensity
4 Illumination, Luminous Efficiency, Depreciation Factor, Coefficient Of Utilization
5 Space To Height Ratio, Reflection Factor, Glare, Shadow, Lux
2
6 Laws Of Illumination - Simple Numericals
7 Different Type Of Lamps, Construction And Working Of Incandescent And Discharge Lamps - Their Characteristics, Fittings Required For Filament Lamp
8 Mercury Vapour Sodium Lamp, Fluorescent Lamp, Halogen Lamp, Neon Lamp
9 Compact Filament Lamp(Cfl), Led Lamp, Comparison Of Incandescent, Fluorescent, CFL & LED
10 Calculation Of Number Of Light Points For Interior Illumination,
3
11 Calculation Of Illumination At Different Points, Considerations Involved In Simple Design Problems
12 Illumination Schemes; Indoor And Outdoor Illumination Levels
13 Main Requirements Of Proper Lighting; Absence Of Glare, Contrast And Shadow
14 Awareness About Time Switches, Street Lighting, Flood Lighting15 Monument Lighting And Decorative Lighting, Light Characteristics Etc.
4
16 Advantages Of Electrical Heating, Resistance Heating - Direct Resistance Heating
17 Indirect Resistance Heating, Electric Ovens, Their Temperature Range
18 Properties Of Resistance Heating Elements, Domestic Water Heaters
19 Other Heating Appliances, Thermostat Control Circuit
20 Induction Heating; Principle Of Core Type Induction Furnace, Their Construction And Applications
5
21 Principle Of Coreless Type Induction Furnace, Their Construction And Applications
22 Electric Arc Heating; Direct And Indirect Arc Heating
23 Construction, Working And Applications Of Arc Furnace
24 Dielectric Heating, Applications In Various Industrial Fields
25 Infra-Red Heating And Its Applications
6 26 Microwave Heating And Its Applications
27 Solar Heating
28 Calculation Of Resistance Heating Elements
29 Advantages Of Electric Welding, Principles Of Resistance Welding
30 Spot, Projection And Seam Welding
7
31 Butt Welding, Welding Equipment
32 Principle Of Arc Production, Electric Arc Welding, Characteristics Of Arc
33 Carbon Arc And Metal Arc Welding
34 Hydrogen Arc Welding Method And Their Applications
35 Power Supply Requirement. Advantages Of Using Coated Electrodes
8
36 Comparison Between Ac And Dc Arc Welding
37 Welding Control Circuits, Welding Of Aluminum And Copper
38 Introduction To Electro Deposition, Need Of Electro-Deposition
39 Laws Of Electrolysis
40 Process Of Electro-Deposition - Clearing, Operation, Depositionof Metals, Polishing And Buffing
9
41 Equipment And Accessories For Electroplating
42 Factors Affecting Electro-Deposition
43 Principle Of Galvanizing And Its Applications, Principles Of Anodizing And Its Applications
44 Electroplating Of Non-Conducting Materials
45 Manufacture Of Chemicals By Electrolytic Process
10
46 Power Supplies For Electroplating
47 Principle Of Air Conditioning, Vapour Pressure, Refrigeration Cycle, Eco-Friendly Refrigerants
48 Electrical Circuits Used In Refrigeration
49 Electrical Circuits Used In Air Conditioning
50 Electrical Circuits Used In Water Coolers.
11
51 Advantages Of Electric Drives, Characteristics Of Different Mechanical Loads
52 Types Of Motors Used As Electric Drive
53 Electric Braking - Plugging
54 Electric Braking - Rheostatic Braking
55 Electric Braking - Regenerative Braking
12
56 General Idea About The Methods Of Power Transfer By Direct Coupling And Belt Drive
57 Gears, Chain Drives Etc.
58 Examples Of Selection Of Motors For Different Types Of Domestic Loads
59 Selection Of Drive For Applications Such As General, Workshop, Textile Mill, Papermill
60 Selection Of Drive For Applications Such As Steel Mill, Printing Press, Crane And Lift Etc
13
61 . Application Of Flywheel, Specifications Of Commonly Used Motors E.G. Squirrel Cage Motors, Slip Ring Induction Motors
62 Specifications Of Ac Series Motors, Fractional Kilo Watt(Fkw) Motors
63 Selection Of Motors For Domestic Appliances
64 Advantages Of Electric Traction Over Other Types Of Traction
65 Different Systems Of Electric Traction, Dc And Ac Systems, Diesel Electric System
1466 Types Of Services - Urban, Sub-Urban, And Main Line And Their Speed-
Time Curves
67 Different Accessories For Track Electrification; Such As Overhead Catenary Wire
68 Conductor Rail System, Current Collector-Pentagraph
69 Factors Affecting Scheduled Speed
70 Electrical Block Diagram Of An Electric Locomotive With Description Of Various Equipment And Accessories Used
15
71 Types Of Motors Used For Electric Traction
72 Power Supply Arrangements
73 Starting And Braking Of Electric Locomotives
74 Introduction To Emu And Metro Railways
75 Train Lighting Scheme
Lesson Plan
Name of the Faculty : Vikas Mittal
Discipline : Electrical Engineering
Semester : 6th Semester
Subject : ELECTRICAL POWER-II
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
1st 1, 2, 3,4
Common type of faults in both overhead and underground systems, symmetrical/ unsymmetrical faults.Single line to ground fault, double line to ground fault, 3-phase to groundfault open circuit, simple problems relating to fault finding.
1, 2 Testing of the dielectric strength of transformer oil and air
2nd 5, 6, 7,8
Purpose of protective gear. Difference between switch, isolator and circuit breakers. Function of isolator and circuit breaker. Making capacity and breaking capacity of circuit breaker(only definition)
3, 4, 5 Study of different types of circuit breakers and isolators
3rd 8, 9,10
Circuit breakers. Types of circuit breakers, bulk and minimum oil circuit breakers, air SF6 circuit breakers
6 Plot the time current characteristics of over current relay
11,12 Principles of Arc extinction blast circuit breakers in OCB and ACB, Constructional features of OCB, ACB, and their working, Method of arcextinction
7 Power measurement by using CTs and PTs
4th 13,14 MCB, MCCB, ELCB 8, 9, 10 Earthing of differentequipment/Main Distribution Board and Energy Meter Box
14,16 Fuses; function of fuse. Types of fuses, HV and LV fuses, rewire-able, cartridge,HRC
11, 12 Perform the overload and short circuit test of MCB as per IS specifications
5th 17,18,19
Earthing: purpose of earthing, method of earthing, Equipment earthing, Substation earthing, system earthing as per Indian Electricity rules.Methods of reducing earth resistance.
13 Plot the time-current characteristics of Kit-Kat fuse wire
20 Introduction - types of relays 14 Taking reading of current on any LT line with clip on meter
6th 21, 22 Electromagnetic and thermal relays, their construction and working
23, 24 Induction type over-current, earth fault relays, instantaneous over current relay
7th 25 Directional over-current, differential relays, their functions
26 Distance relays, their functions27, 28 Idea of static relays and their
applications8th 29, 30 Relays for generator protection
31, 32 Relays for transformer, protection including Buchholtz relay protection
9th 33, 34, Protection of feeders and bus bars,Over current and earth fault protection.
35,36 Distance protection for transmission system
10th 37,38 Relays for motor protection39,40 Protection of system against over
voltages, causes of over voltages, utility of ground wire
11th 41, 42, Lightning arrestors, rod gap, horn gap, metal oxide type
43, 44, Transmission Line and substation protection against over-voltages and lightning
12th 45, 46 Concept of Tariffs47,48 Block rate, flat rate, maximum
demand and two part tariffs13th 49, 50 Simple problems14th Revision
15th Revision
Lesson Plan
Name of the Faculty : Surender Gupta
Discipline : Electrical Engineering
Semester : 6th Semester
Subject : PROGRAMMABLE LOGIC CONTROLLERS AND
MICROCONTROLLERS
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
1st 1, 2, 3,4
Introduction to PLC,What is PLC, concept of PLC, Building blocks of limitations of relays. Advantages of PLCs over programming languages, PLC manufacturer etc.PLC, Functions of various blocks,
1, 2 Components/sub-components of a PLC, Learning functions of different modules of a PLC system
2nd 5,6,7,8 Basic operation and principles of PLC 3, 4 Practical steps in programming a PLC (a) using a Hand heldprogrammer (b) using computer interface
3rd 9, 10 Architectural details processor 5, 6 Introduction to step 5 programming language, ladder diagramconcepts, instruction list syntax
11, 12 Memory structures, I/O structure 7, 8 Basic logic operations, AND, OR, NOT functions
4th 13, 14 Programming terminal, power supply 9 Logic control systems with timeresponse as applied to clamping operation
15 Basic instructions like latch, master control self holding relays
10 Sequence control system e.g. in lifting a device for packaging andcounting
16 Timer instruction like retentive timers, resetting of timers
11 Use of PLC for an application( teacher may decide)
5th 17 Counter instructions like up counter, down counter, resetting of counters
12 Familiarization with a study of Architecture of 8085 kit, basic sub systems and input output connectors, functions keys onmicro controllers kit
18 Arithmetic Instructions (ADD,SUB,DIV,MUL etc.)
13 Familiarization of Micro Controllers (8051) kit
19 MOV instruction 14 Testing of general input/output onMicro controller board
20 RTC(Real Time Clock Function) 15 Development of Electrical ,Instrumentation applications using 8051 micro-controller
6th 21, 22 Comparison instructions like equal, not equal, greater, greater than equal, less than, less than equal
6th 23, 24, Programming based on basic instructions, timer, counter,sequencer, and comparison instructions using ladder program.
7th 25, 26,27, 28
Assembly, Packaging,Process controls
8th 29,30 Car parking,Doorbell operation, Traffic light control
31 Microwave Oven, Washing machine,Motor in forward and reverse direction
32 Star-Delta, DOL Starters, Paint Industry,Filling of Bottles, Room Automation
9th 33, 34 Pin details35, 36 I/o Port structure
10th 37, 38, Memory Organisation
39,40 Special function registers
11th 41,42,43, 44
Timer operation
12th 45, 46 Serial Port operation47, 48 Interrupts
13th 49, 50,51
Assemblers and Compilers
52, Assemblers and Compilers
14th 53,54,55, 56
Keypad interface, 7- segment interface, LCD, stepper motor. A/D, D/A,RTC interface.
15th 57,58, 59, 60,
Introduction of PIC Micro controllers
16th 61, 62,63, 64
Application of Micro controllers
Lesson PlanName of the Faculty : Rajesh Garg
Discipline : Electrical Engineering
Semester : 6th Semester
Subject : ENERGY MANAGEMENT
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLecture Day Topic(including assignment/test) Practical day Topic
1st 1st (Unit-1) Learning outcomes of the subject NA2st Introduction of energy management
3rd Need of the energy management
4th Environmental aspects
2nd 5th Energy conversation and its need
6th Oil and coal sources crisis, alternative sources of energy
7th Energy efficiency and its significance
8th Rewind of above topics/HSBTE Question paper discussion
3rd 9th (UNIT-2) Energy conservation in domestic sector-lighting
10th EC in other home appliances
11th Energy conservation in industry sector-lighting
12th distribution and motor pump
4th 13th EC…in fans and blowers etc. 4th
14th Energy conservation in agriculture sector-tube well pumps etc.
15th Diesel gen. sets etc.
16th Macro Level approach for energy conservation at design stage
5th 17th Above topic will continue 5th
18th Above topic will continue
19th Board questions paper and surprise tests will be held.
20th Surprise tests will continue.
6th 21th First assignment will be given and tentative 1st sessional test/evaluation of sessional marks etc.
.
22th Display and analysis of sessional marks
23th(unit-3) Introduction of energy efficient devices.
24th Energy efficient technology an overview - merits, demerits, construction of LCD, LED, CFL etc.
7th 25th Energy efficient technology an overview - merits, demerits, construction of LCD, LED, CFL etc.
26th Need for energy efficient devices
27th Initial cost versus life cycle, cost analysison life cycle basis
28th Energy efficient motors as compared to standard motors
8th 29th Revision of above topics, surprise test.
30th BIS standards for energy efficient motors, BIS salient design features,
31th Efficiency as a function of load, safety margins
32th Energy efficient lighting system different sources, lumens/watt, LEDs, role of voltage on efficiency
9th 33th Distribution system- Optimum cable size, amorphous core transformer, role of power factor, use of compensating capacitors-manual and automatic, location of capacitors
34th Calculation of size of capacitor, shunt capacitors, series capacitors
35th Construction and design characteristics of energy efficient motors. Losses in energy efficient motors.
36th Revision of above topics
10th 37th display and analysis of sessional marks.
38th (unit-4) introduction of energy energy audit
39th Energy audit methodology
40th Efficiency of energy conversion processes, monitoring system
11th 41th Specific energy consumption –three pronged approach, fine tuning
42th technical up gradation, avoidable losses
43th case study of energy audit of distribution system
44th case study of Industries etc.
12th 45th Any left out topic due to leave etc.
46th Same as above
47th Case study of ac motors, audit activites.
48th To help students how to fill up various audit performa etc.
13th 49th(unit-5) Introduction of EIA
50th Definition of EIA, Need of EIA.Format of assessment and its completion etc.
51th 3rd assignment will be given.
52th Previous state boards question will be carried out, any other left out topic
14th 53th Previous state boards question will be carried out & Revision
54th Previous state boards question will be carried out & Revision
55th Previous state boards question will be carried out & Revision
56th Previous state boards question will be carried out & Revision
15th 57th Previous state boards question will be carried out & Revision
58th Previous state boards question will be carried out & Revision
59th Previous state boards question will be carried out & Revision
60th Previous state boards question will be carried out & Revision
Lesson Plan
Name of the Faculty : Surender Gupta
Discipline : Electrical Engineering
Semester : 6th Semester
Subject : EDM
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
1st 1 Introduction to EDM2 Concept /Meaning and its need
3Qualities and functions of
entrepreneur and barriers in entrepreneurship
2nd4
Sole proprietorship and partnership forms of business organisations
5Schemes of assistance by entrepreneurial support agencies atNational, State
6 SFC’s TCO, KVIB, DIC, Technology Business Incubator (TBI)
3rd7 Science and Technology
Entrepreneur Parks (STEP).
8 District level: NSIC, NRDC, DC:MSME, SIDBI
9 NABARD, Commercial Banks4th
10 Assessment of demand and supply in potential areas of growth
11 Market Survey andOpportunity Identification
12 Scanning of business environment5th
13Salient features of National and State industrial policies and resultant business opportunities
14 Considerations in product selection Types and conduct of market survey
15 Revision6th 16 Identifying business opportunity
17 Types of market survey18 Conduct of market survey
7th 19 Preliminary project report20 Project report Preparation
21Detailed project report including technical, economic and market feasibility
8th22 Common errors in project report
preparations23 Exercises on preparation of project
report24 Introduction to Management
9th
25
Definitions and importance of managementFunctions of management: Importance and Process of planning,organising, staffing, directing and controlling
26Types of industrial organizations: Lineorganization, Line and staff organization, Functional Organisation
27Principles of management (Henri Fayol, F.W. Taylor)Concept and structure of anorganisation
10th28 Leadership and Motivation
Leadership: Definition and Need
29Qualities and functions of a leader, Motivation: Definitions and characteristics
30 Revision11th 31 Factors affecting motivation
32 Manager Vs leader33 Types of leadership
12th34 Theories of motivation (Maslow,
Herzberg, McGregor)
35
Management Scope in Different AreasHuman Resource Management : Introduction and objective, Introduction to Man power planning,recruitment and selection Introduction to performance appraisal methods
36 Material and Store Management:Introduction functions, and objectives,
13th 37 ABC Analysis and EOQ
38 Marketing and sales: Introduction, importance, and its functions
39 Physical distribution, Introduction topromotion mix, Sales promotion
14th40 Financial Management :Introductions, importance
and its functions
41Elementary knowledge of income tax, sales tax, excise duty, custom dutyand VAT
42 Miscellaneous TopicsCustomer Relation Management
(CRM), Definition and need,Types of CRM
15th43
Total Quality Management (TQM):Statistical process control, Total employees Involvement, Just in time(JIT)
44 Intellectual Property Right (IPR):Introductions, definition and its
importance, Infringement related to patents, copy right, trade mark
45 Revision
Lesson Plan
Name of the Faculty : Neelam Saroha
Discipline : Electrical Engineering
Semester : 6th Semester
Subject : EMPLOYABILITY SKILLS - II
Lesson Plan Duration : 15-16 Week
Week Theory PracticalLectureDay
Topic (including assignment / test) PracticalDay
Topic
1st 1,2 Mock Interview concept, benefits2nd 3,4 Holding Mock interview3rd 5,6 How to face interview4th 7,8 Preparing for meeting,
agenda preparation5th 9,10 Holding meeting, preparing minute
of meeting6th 11,12 Preparation for group
discussion, Taking turns7th 13,14 Group discussion – concept, types
of group discussion8th 15,16 Holding group discussion9th 17,18 Seminar preparation10th 19,20 Holding seminars11th 21,22 Presentation : Elements of
good presentation12th 23,24 Structure and tools of presentation13th 25,26 Paper reading14th 27,28 Power point presentation15th 29,30 Viva voce and evaluation