Lesson PlanLesson Plan Name of Faculty: K.K.Bisla, Lecturer Discipline Electrical Engineering...
Transcript of Lesson PlanLesson Plan Name of Faculty: K.K.Bisla, Lecturer Discipline Electrical Engineering...
Lesson Plan
Name of Faculty: K.K.Bisla, Lecturer
Discipline Electrical Engineering
Semester 4th
Subject ESME Lesson Plan Duration : 15 weeks(from January, 2018 to April,2018)
Week Theory
Lecture
Day
Topic
(inculding assignment/test)
1st 1st Various energy sources
2nd Importance of non conventional sources of energy,
3rd Present scenario, future prospects and economic criteria
4th Revision.
2nd 5th Solar Energy:Principle of conversion of solar radiation into heat
6th Photo-voltaic cell
7th Photo-voltaic cell
8th Revision
3rd 9th Electricity generation
10th Application of solar energy like solar water heaters,
11th Solar furnaces
12th Revision
4th 13st Solar cookers
14th Solar lighting
15th Solar pumping.
16th Revision
5th 17th Bio-energy:Bio-mass conversion technologies- wet and dry processes
18th Bio-energy:Bio-mass conversion technologies- wet and
dry processes
19th Bio-energy:Bio-mass conversion technologies- wet and
dry processes
20th Revision
6th 21th Methods for obtaining energy from biomass
22th Power generation by using gasifiers
23th Power generation by using gasifiers
24th Revision
7th 25th Wind Energy:Wind energy conversion
26th Windmills,
27th Electricity generation from wind- types of wind mills
28th Revision
8th 29th Electricity generation from wind- types of wind mills
30th Local control, energy storage
31st Local control, energy storage
32nd Revision
9th 33rd Geo-thermal and Tidal Energy:Geo-thermal sources
34th Ocean thermal electric conversion,
35th Open and closed cycles,
36th Revision
10th 37th Open and closed cycles,
38th Hybrid cycles
39th Prime movers for geo-thermal energy conversion
40th Steam Generation and electricity generation.
11th 41th Magneto Hydro Dynamic (MHD) Power Generation
42th Magneto Hydro Dynamic (MHD) Power Generation
43th Magneto Hydro Dynamic (MHD) Power Generation
44th Revision
12th 45th Chemical Energy Sources:,Design and operating
principles of a fuel cell
46th Conversion efficiency,
47th Work output and e.m.f of fuel cells,
48th Applications
13th 49th Energy Conservation and Management
50th Need for energy conservation with brief description of oil and coal crisis.
51st Environmental aspects
52nd Energy efficiency- its significance
14th 53rd Energy efficient technology an overview
54th Energy conservation in Domestic sector- Lighting, home
appliances
55th Energy conservation in Domestic sector- Lighting, home
appliances
56th Need for energy efficient devices
15th 57th Energy conservation in Industrial sector- Motors, Industrial lighting, Distribution system, Pumps, Fans,
Blowers etc.,
58th Energy conservation in Agriculture sector, Tube-well pumps, diesel-generating sets, Standby energy sources.
59th Macro Level approach for energy conservation at design stage.
60th Revision
Name of Faculty Kiran Chawla, Sr. Lecturer (Theory and Practical)
Discipline Electrical Engineering
Semester 4th
Subject
Electrical Machine-I
Lesson plan duration 15 weeks (from January 18 to April 18)
Work Load(Lecture/Practical) per week : Lectures-04, Practicals-03
Week Theory Practical
Lecture
Day
Topic(including assignment/test) Practical
day
Topic
1st 1st (Unit-1) • Will Discuss Learning outcomes of
Electrical Machine subject.
1st •
Introduction of EM lab
various specifications of
Motors, safety precautions
etc.2st • Introduction to Electrical Machines
• Definition of motor and generator,
concept of torque
3rd • Electro-magnetically induced emf.
4th • Torque development due to alignment
of two fields and the concept of torque
angle
2nd 5th • 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
6th • Comparison of generator and motor
7th(Unit-II) • Introduction of DC machines, its types
8th • Construction of DC machines
3rd 9th • Armature winding and its types 3rd Speed control of dc shunt
motor
10th • Commutator and its function for
generator and motor action
(i) Armature control method
11th • Factors determining induced EMF (ii) Field control method
12th • Factors determining electromagnetic
torque
4th 13th • DC generator and its types 4th Evaluation of above
practical’s.
14th • Voltage buildup in DC gen.
15th • Back emf, its significance ,
relationship between terminal voltage and
back emf
16th • Armature reaction
5th 17th • Commutation methods to improve
commutation
5th Study of dc series motor with
starter (to operate the motor
on no load for a moment)
18th • Types of DC Motors, its performace,
Characteristic of DC motors
19th • Speed control of DC motors, starters
for DC motors(3 point and 4 point)
20th • Application of DC Motors, losses in
DC machines
6th 21th • Swinburne’s test to find out losses 6th Study of 3 point starter for
starting D.C. shunt motor.
• 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 Transformers, types of
T/Fm
24th • Construction of single phase
transformer,
7th 25th • 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
26th • Working principle of transformer
27th • EMF equation of T/fm
28th • Transformer at no load and its phasor
diagram
8th 29th • Transformer – neglecting voltage drop
in the windings – Ampere turn balance – its
phasor diagram
8th Evaluation of above
practicals.
30th • Mutual and leakage fluxes, leakage
reactance
31th • Transformer on load, voltage drops
and its phasor diagram
32th • Equivalent circuit diagrams of T/fm,
Relation between induced emf and terminal
voltage, regulation of a transformer
mathematical relation
9th 33th • 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.
34th • Auto transformer,
construction,working and its application
35th • Different type of transformer including
dry type transformer
36th • second assignment will be given and
tentative 2nd sessional test/evaluation of
sessional marks etc
10th 37th • 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
38th (unit-
4) • 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 41th • 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
42th • ..star-delta,star-star.
43th • Parallel operation of transformer, its
need
44th • Parallel operation conditions will be
discussed
12th 45th • Any left out topic due to Cl/leave etc. 12th Evaluation of above
practicals.
46th • Same as above
47th • Local visit to complaint centre to show
parts /accessories of transformer
48th • On load/off load tap changer
13th 49th • Distribution /power transformer 13th Revision of above practicals
50th • Cooling of transformer for left out students if any.
51th • 3rd assignment will be given
52th • Previous state boards question will be
carried out, any other left out topic
14th 53th • 3rd sessional test 14th Viva-voce/preparation of
practical sessional marks. 54th • Evaluation of 3rd test
55th • Display/analysis of 3rd sessional test
56th • Remedial will be taken if any
shortcomings found
15th 57th • Seminal/group discussion as per
evaluation scheme
58th • -do-
59th • -do-
60th • -do-
16th • Preparation of sessionals, practical
award etc.
Name of Faculty : Hansraj, Lecturer
Discipline : Electrical
Semester : 4th sem
Subject : Electronics-II
Lesson Plan Duration : 15 weeks(from jan 2018 to april 2018)
Work Load (lecture/practical)per week (in hours) : Lectures- 04, practical- 03
Week Theory Practical
Lecture
Day
Topic(including
assignment/test)
Practical
Day
Practical Topic
1 1(unit 1) Difference between voltage
and power amplifier
1 Plot frequency response of two
stage RC copled amplifier
2 collector efficiency, distortion
and dissipation capacity
2 Plot frequency response of two
stage RC copled amplifier
3 Explanation of Class A
amplifier
3 Plot frequency response of two
stage RC copled amplifier
4 Explanation of Class B
amplifier
4 Plot frequency response of two
stage RC copled amplifier
2 Explanation of Class C
amplifier
5 Measure optimum load and
power of a push pull amplifier
5 Working of Class A single
ended amplifier and its
collector efficiency
6 Measure optimum load and
power of a push pull amplifier
Impedence matching in power
amplifier using transformer
7 Measure optimum load and
power of a push pull amplifier
8 Heat sink in power amplifier 8 Measure optimum load and
power of a push pull amplifier
3 9 Working and advantages of
push pull amplifier
9 Observe voltage gainof
transistor amplifier by
removing bye-pass capacitor
10 Working of complementary
symmetry push pull amplifier
10 Observe voltage gainof
transistor amplifier by
removing bye-pass capacitor
11 Revision of previous topics 11 Observe voltage gainof
transistor amplifier by
removing bye-pass capacitor
12 Assignment of classification
of power amplifiers
12 Observe voltage gainof
transistor amplifier by
removing bye-pass capacitor
4 13(unit2) Introduction of tuned voltage
amplifier
13 Measure voltage gain of
emitter follower circuit
14 Series Resonance and parallel
Resonance
14 Measure voltage gain of
emitter follower circuit
15 Working of single tuned
voltage amplifier
15 Measure voltage gain of
emitter follower circuit
16 Working of double tuned
voltage amplifier
16 Measure voltage gain of
emitter follower circuit
5 17 Frequency response of tuned
voltge amplifier
17 Viva-voice of previous
practicals
18 Application of tuned voltage
amplifier
18 Viva-voice of previous
practicals
19 Revision of previous topics 19 Viva-voice of previous
practicals
20 test of previous chapters 20 Viva-voice of previous
practicals
6 21(unit
3)
Feedback, positive and
negative feedback
21 Measure frequency generation
in hartley and R-C phase shift
oscillator
22 Voltage gain of amplifier
using negative feedback
22 Measure frequency generation
in hartley and R-C phase shift
oscillator
23 Effect of negative feedback
on voltage gain, stability,
distortion, Bandwidth, input
and output impedence
23 Measure frequency generation
in hartley and R-C phase shift
oscillator
24 Effect of emitter by pass
capacitor on CE transistor
amplifier
24 Measure frequency generation
in hartley and R-C phase shift
oscillator
7 25 Emitter Follower and its
applications
25 Differentiated and integrated
square wave on CRO
26(unit
4)
Sinusoidal Oscillator and
positive feedback in
amplifiers
26 Differentiated and integrated
square wave on CRO
27 Difference between oscilator
and alternator
27 Differentiated and integrated
square wave on CRO
28 Essential of an oscillator 28 Differentiated and integrated
square wave on CRO
8 29 Working of tuned collector
oscillator
29 Observe waveshape of clipping
circuit
30 Hartley and colpitt's oscillator 30 Observe waveshape of clipping
circuit
31 R-C phase shift and Wein
bridge oscillator
31 Observe waveshape of clipping
circuit
32 Piezoelectric and crystal
oscillator
32 Observe waveshape of clipping
circuit
9 33(unit
5)
Concept of waveshaping 33 Observe waveshape of
clamping circuit
34 R-C differentiating and
integrating circuits
34 Observe waveshape of
clamping circuit
35 Diode clipping circuit 35 Observe waveshape of
clamping circuit
36 Diode clamping circuit 36 Observe waveshape of
clamping circuit
10 37 Application of wave-shaping
circuit
37 Observe square wave of astable
multivibrator on CRO
38 Transistor as a switch 38 Observe square wave of astable
multivibrator on CRO
39 Working of bistable
multivibrator
39 Observe square wave of astable
multivibrator on CRO
40 Working of monostabletable
multivibrator
40 Observe square wave of astable
multivibrator on CRO
11 41 Working of astable
multivibrator
41 Observe square wave of
Bistable multivibrator on CRO
42 Revision of previous topics 42 Observe square wave of
Bistable multivibrator on CRO
43 Revision of previous topics 43 Observe square wave of
Bistable multivibrator on CRO
44 Test of previous chapters 44 Observe square wave of
Bistable multivibrator on CRO
12 45(unit
6)
Working of CVT 45 Viva-voice of previous
practicals
46 Working of IC voltage
rgulator (78XX/79XX)
46 Viva-voice of previous
practicals
47(unit
7)
Intoduction of basic of
operational amplifier
47 Viva-voice of previous
practicals
48 Differential amlifier 48 Viva-voice of previous
practicals
13 49 Emitter coupled differential
amplifier
49 Application performed using
operational amplifier
50 Offset even voltages and
current
50 Application performed using
operational amplifier
51 Operational amplifier as
integrator
51 Application performed using
operational amplifier
52 Operational amplifier as
differentiator
52 Application performed using
operational amplifier
14 53 Operational amplifier as
summer and subtractor
53 Study of 555 IC as monostable
and astable multivibrator
54 Pin configuration of 741 IC 54 Study of 555 IC as monostable
and astable multivibrator
55 Assignment of important very
short answer questions
55 Study of 555 IC as monostable
and astable multivibrator
56 Block diagram of 555 IC
timer
56 Study of 555 IC as monostable
and astable multivibrator
15 57 Revision of previous topics 57 Viva-voice of all practicals
58 Revision of previous topics 58 Viva-voice of all practicals
59 Test of previous chapters 59 Viva-voice of all practicals
60 Revision of all syllabus 60 Viva-voice of all practicals
Lesson Plan
Name of the Faculty Guest Faculty
Discipline ELECTRICAL ENGG.
Semester 4TH
Subject ELECTRICAL ENGINEERING DESIGN & DRAWING-II
Lesson Plan Duration 15 weeks(from January, 2018 to April,2018)
Work Load (Lecture/Practical) per week (in periods): Lectures-Nil, Practicals- 06
Week Drawings
Practical Periods
Topic (inculding test)
1st 1st Introduction of Electrical Engg. Design. & Drawing.
2nd Unit 1 : (Contractor Control circuits) - To make the drawing sheet (Shemetic diagram and power wiring diagram of DOL starting of 3-phase induction motor.
3rd
4th Unit 1 : (Contractor Control circuits) - To make the drawing sheet (Shemetic diagram and power wiring diagram of 3-phase induction motor getting supply selected feeder.
5th
6th
2nd 7th Unit 1 : (Contractor Control circuits) - To make the drawing sheet (Shemetic diagram and power wiring diagram of Forwarding/ reversing of a 3-phase induction motor.
8th
9th
10th
Revision of previous making drawing sheets for left out students if any and checking of making drawing sheets
11th
12th
3rd 13th Unit 1 : (Contractor Control circuits) - To make the drawing sheet (Shemetic diagram and power wiring diagram of Two speed control of 3-phase induction motor.
14th
15th
16th Unit 1 : (Contractor Control circuits) - To make the drawing sheet (Shemetic diagram and power wiring diagram of Limit switch control of a 3-phase induction motor.
17th
18th
4th 19th Unit 1 : (Contractor Control circuits) - To make the drawing sheet (Shemetic diagram and power wiring diagram of Sequential operating of two motors using time delay relay.
20th
21st
22nd Unit 1 : (Contractor Control circuits) - To make the drawing sheet (Shemetic diagram and power wiring diagram of Manually generated star delta starter for 3-phase induction motor.
23rd
24th
5th 25th Unit 1 : (Contractor Control circuits) - To make the drawing sheet (Shemetic diagram and power wiring diagram of Automatic star delta starter for 3-phase induction motor.
26th
27th
28th
Class test for preparation of Ist sessional exam and checking of previous drawing sheets.
29th
30th
6th 31st
Unit 2 : (Earthing) - Concept and purpose of earthing.
32nd
33rd
34th
Unit 2 : (Earthing) - Different types of earthing : To make the drawing sheet of plate earthing.
35th
36th
7th 37th
Unit 2 : (Earthing) - To make the drawing sheet of Pipe earthing.
38th
39th
40th
Unit 2 : (Earthing) - Revision of previous making drawing sheets and check the making drawing sheets.
41st
42nd
8th 43rd Unit 2 : (Earthing) - Procedure of earthing, test of materials required and costing and method of reducing earth resistance.
44th
45th
46th
Unit 2 : (Earthing) - Relevant IS specifications of earth electrode for earthing a transformer, a high building.
47th
48th
9th 49th
Unit 2 : (Earthing) - Earthing layout of distribution transformer.
50th
51st
52nd Unit 2 : (Earthing) - Substation earthing layout and earthing materials and key diagram of 11KV sub station.
53rd
54th
10th 55th
Unit 2 : (Earthing) - Key diagram of 33KV, 66KV sub stations.
56th
57th
58th
Unit 2 : (Earthing) - Key diagram of 132KV sub station and preparation of IInd sessional exam.
59th
60th
11th 61st
Unit 3 : (Drawing and Machine Parts) : End cover of induction moter.
62nd
63rd
64th
Unit 3 : (Drawing and Machine Parts) : Rotor of a squirrel cage induction motor.
65th
66th
12th 67th Unit 3 : (Drawing and Machine Parts) : Revision of End cover, Rotor of a squirrel cage induction motor. 68th
69th
70th
Unit 3 : (Drawing and Machine Parts) : Field coil of a DC motor.
71st
72nd
13th 73rd
Unit 3 : (Drawing and Machine Parts) : Terminal plate of an induction motor.
74th
75th
76th
Unit 3 : (Drawing and Machine Parts) : Motor body (Induction motor) as per IS specifications.
77th
78th
14th 79th Unit 3 : (Drawing and Machine Parts) : Revision of above three drawing sheets for left out students (in any).
80th
81st
82nd Unit 3 : (Drawing and Machine Parts) :Sliprings of 3-phase induction motor. 83rd
84th
15th 85th Preparation of IIIrd sessional exam and checking of previous drawing sheets (If any) 86th
87th
88th Revision of all above making drawing sheets and preparation of final Exam. 89th
90th
Lesson Plan
Name of Faculty Hansraj, Lecturer
Discipline ELECTRICAL ENGG. Semester 4th Subject INSTRUMENTATION Lesson Plan Duration 15 weeks(from January, 2018 to
April,2018) Work Load(Lecture/Practical) per week (in hours): Lectures-
03, Practicals - 02 Week Theory Practicals
Lecture Day
Topic (inculding assignment/test)
Practical Day
Topic
1st 1st Unit 1 : Measurement : Introduction and Importance of Measurement
1st Measurement of Level of Liquid
2nd Basic Measuring systems , Their advantages and limitations
2nd Measurement of Level of Liquid
3rd Display Devices
2nd 4th Unit 2 : Transducer : Classifications of transducers
3rd Temperature measurement using Thermocouple
5th Resistance Transducer 4th Temperature measurement using Thermocouple
6th Inductance Transducer
3rd 7th Capacitance Transducer 5th Study and use of Digital Temperature controller
8th Electromagnetic Transducer 6th Study and use of Digital Temperature controller
9th Piezo electrical Transducer
4th 10th Unit 3 measurement of Displacement and Strain : Displacement measuring
7th Use of Thermistor in ON/OFF Transducer
Devices
11th Wire wound potentiometer
8th
Use of Thermistor in ON/OFF Transducer
12th LVDT
5th 13th Strain Guages and their types resistance type
9th Study of Variable Capacitive transducer
14th Wire and Foil Type
10th
Study of Variable Capacitive transducer
15th Gauge Factor , Guage Material
6th 16th Selection of Guage Material 11th Draw the characteristics of Potentiometer
17th Use of electrical Strain Guage 12th Draw the characteristics of Potentiometer
18th Strain Guage Bridges and amplifier
7th 19th Unit 4 Force and Torque Measurement : Force measuring Devices
13th To measure Linear Displacement using LVDT
20th Elastic Transducer 14th To measure Linear Displacement using LVDT
21st Electrical Strain Guage
8th 22nd Load Cell 15th To study the use of Electrical strain Guage
23rd Measurement of torque by Brake method
16th To study the use of Electrical strain Guage
24th Dynamometer method
9th 25th Electrical Strain Guage 17th To study weighing machine using load cell
26th Speed Measurement 18th To study weighing machine using load cell
27th Digital Methods
10th 28th Unit 5 Pressure Measurement : Bourdon Pressure Gauges
19th To study pH meter
29th Bellows and Diaphragms 20th To study pH meter
30th Secondary Transducers
11th 31st Measurement of Low Pressure
21th Revision Experiment 1-2
32nd Use of Pressure Cell 22nd Revision Experiment 1-2
33rd Unit 6 Flow Measurement Electromagnetic Method
12th 34th Doppler shift ultrasonic Method
23rd Revision Experiment 3-4
35th Transit Time ultrasonic method
24th Revision Experiment 3-4
36th Unit 7 Measurement of Temperature Bimetallic Thermometer
13th 37th Thermoelectric Thermometer 25th Revision Experiment 5-6
38th RTD 26th Revision Experiment 5-6
39th Thermocouple
14th 40th Thermister and Pyrometer 27th Revision Experiment 7-8
41st Temperature Recorder 28th Revision Experiment 7-8
42nd Unit 8 Measurement of other Non Electrical Quantity Humidity
15th 43rd pH 29th Revision Experiment 9-10
44th Level 30th Revision Experiment 9-10
45th Vibration
Lesson Plan Name of the Faculty:
Parveen Dahiya,Lecturer
Discipline: Electrical engg.
Semester: 4th
Subject: Estimating & Costing in Electrical Engg.
Lesson Plan Duration: 15 weeks (from January, 2018 to April2018)
**Work Load (Lecture/Practical) per week (in hours): Lectures-04, Practicals-00 Week Theory
Lecture day Topic(including assignment/test)
1st 1st • Will Discuss Learning outcomes of
Estimating & Costing in Electrical
Engg.
• Introduction to complete syllabus
of Estimating & Costing in Electrical
Engg.
2nd Unit-1: Purpose of estimating and
costing,
• Proforma for making estimates,
• Preparation of materials schedule
3rd • Costing, price list,
• Preparation of tender document
4th • Net price list,
• Market survey,
2nd 1st • Overhead charges,
• Labour charges,
2nd • Electrical point method and fixed
percentage method,
• contingency,
3rd • Profit,
• purchase system,
4th • Enquiries,
•Comparative statements
3rd 1st • Payment of bills.
• Orders for supply
2nd • Tenders – its constituents,
finalization,
• Specimen tender.
3rd Unit-2: Types of wiring:
• Cleat, batten wiring,
4th • casing capping and
• conduit wiring,
4th 1st • Comparison of different wiring
systems.
2nd • Design of wiring schemes for
particular situation of domestic
installation.
3rd • Design of wiring schemes for
particular situation Industrial
Installation.
4th • Selection of wires and cables,
5th 1st • Wiring accessories used for
Electrical Installation
2nd • Use of protective devices i.e. MCB,
ELCB etc.
3rd • Use of wire-gauge and tables ( to
be prepared/arranged)
4th • Revision/ queries of unit-1,2 ;
• First assignment will be given
6th 1st • Assignment –I check
• Tentative 1st sessional test
• Evaluation of sessional marks etc.
2nd • Assignment –I check
• Tentative 1st sessional test
• Evaluation of sessional marks etc.
3rd • Display and analysis of sessional
marks
4th Unit-3 Estimating &costing:
3.1 Domestic installations;
• description of various tests to test
the wiring installation before
commissioning,
7th 1st • Standard practice as per IS and IE
rules.
• Planning of circuits, sub circuits.
2nd • Position of different accessories,
• Electrical layout of Domestic
Installation
3rd • Preparing estimates including cost
as per schedule rate pattern and actual
market rate (for house of two room set
along with layout sketch)
4th 3.2 Industrial installations;
• Relevant IE rules and IS standard
practices,
8th 1st • Planning of installation for single
phase motors of different rating.
• designing for single phase motors
of different ratings
2nd • Estimation of installation for single
phase motors of different ratings,
• Electrical circuit diagram for
Industrial installations ,
3rd • Starters for Industrial installations.
• Preparation of list of materials for
Industrial installations,
4th • Estimating and costing exercises on
workshop with singe-phase motor load
9th 1st • Estimating and costing exercises on
workshop with 3-phase motor load and
the light load (3-phase supply system)
2nd 3.3 Service line connections estimate for
domestic upto 10 KW from pole to
energy meter.
3rd • Service line connections estimate
for Industrial loads upto 20 KW over-
head connection from pole to energy
meter.
4th • Service line connections estimate
for Industrial loads upto 20 KW
underground connections from pole to
energy meter.
• Second assignment will be given
10th 1st • Revision/ queries of unit-3
2nd • Assignment –II check
• Tentative 2nd sessional test
• Evaluation of sessional marks etc.
3rd • Assignment –II check
• Tentative 2nd sessional test
• Evaluation of sessional marks etc.
4th • Display and analysis of sessional
marks
11th 1st Unit-4 :-Estimating the material
required 4(a):
• Transmission and distribution lines
overhead planning and designing of
lines with different fixtures based on
unit cost calculations
2nd • Transmission and distribution lines
overhead planning and designing of
earthing etc.
3rd • Transmission and distribution lines
underground planning and designing of
lines with different fixtures, based on
unit cost calculations
4th • Transmission and distribution lines
underground planning and designing of
lines with earthing etc.
12th 1st 4(b) Substation:
• Types of substations,
• substation schemes and
components
2nd • Estimate of 11/0.4 KV pole
mounted substation up to 200 KVA
rating,
3rd • Methods of earthing of substations,
• Key Diagram of 66 KV/11KV
4th • Key Diagram of 11 KV/0.4 KV
Substation
13th 1st • Single line diagram, layout
sketching of outdoor, indoor 11kV sub-
station
2nd • Single line diagram, layout
sketching of outdoor, indoor 11kV sub-
station
3rd • Single line diagram, layout
sketching of outdoor, indoor 33kV
substation
4th • Single line diagram, layout
sketching of outdoor, indoor 33kV
substation
14th 1st • 3rd assignment will be given
• Revision/ queries of unit-4
2nd • Assignment –III check
• Tentative 3rd sessional test
• Evaluation of sessional marks etc.
3rd • Assignment –III check
• Tentative 3rd sessional test
• Evaluation of sessional marks etc
4th • Display/analysis of 3rd sessional
test
15th 1st • Remedial will be taken if any
shortcomings found
• Previous state boards question will
be carried out, any other left out topic
2nd • Seminar/group discussion as per
evaluation scheme
3rd • Seminar/group discussion as per
evaluation scheme
4th • Seminar/group discussion as per
evaluation scheme
Lesson Plan Name of the Faculty: Saket Kumar
Discipline: Electrical engg.
Semester: 6th
Subject: ENTREPRENEURSHIP DEVELOPMENT AND
MANAGEMENT
Lesson Plan Duration: 15 weeks(from January , 2018 to April2018)
**Work Load (Lecture/Practical)per week(in hours): Lectures-03,Practicals-00
Week Theory
Lecture day Topic(including assignment/test)
1st 1st • Will Discuss Learning outcomes of
Entrepreneurship Development &
Management subject
• Introduction to syllabus of
Entrepreneurship Development &
Management subject
2nd SECTION – A
ENTREPRENEURSHIP
Unit-1 Entrepreneurship
• Concept /Meaning and its need,
• Qualities of Entrepreneurship
3rd • Functions of entrepreneur and
• Barriers in entrepreneurship
2nd 1st • Sole proprietorship and partnership
forms of business organizations
2nd • Schemes of assistance by
entrepreneurial support agencies at
National, State,
• District level: National Small
Industries corporation(NSIC),
3rd • NRDC ,
• DC:MSME,
3rd 1st • Small Industries Service Institute
(SIDBI),
• Nationals Bank for Agriculture and
Rural Development(NABARD)
2nd • Commercial Banks
3rd • State Financial Corporation’s
(SFC’s ),
• Technical Consultancy
Organizations (TCO)
4th 1st • Khadi and village Industries Board
(KVIB),
• District Industry centers (DIC)
2nd • Technology Business Incubator
(TBI) and
• Science and Technology
Entrepreneur Parks (STEP).
3rd Unit-2 Market Survey and
Opportunity Identification:-
• Scanning of business environment
• Salient features of National and
State industrial policies and resultant
business opportunities
5th 1st • Types and conduct of market
survey.
• Assessment of demand and supply
in potential areas of growth
2nd • Identifying business opportunity.
• Considerations in product selection
3rd • Revision/queries of unit1,2.
• First assignment will be given
6th 1st • Assignment –I check
• Tentative 1st sessional test
• Evaluation of sessional marks etc.
2nd • Assignment –I check
• Tentative 1st sessional test
• Evaluation of sessional marks etc.
3rd • Display and analysis of sessional
marks.
• Seminal/group discussion as per
evaluation scheme
7th 1st Unit-3 Project report Preparation:-
• Preliminary project report.
• Detailed project report including
technical
2nd • Economic and market feasibility.
• Common errors in project report
preparations,
3rd • Exercises on preparation of project
report
8th 1st SECTION –B MANAGEMENT
Unit-4:- Introduction to Management:
• Definitions and importance of
management,
• Functions of management
2nd • Importance and Process of
planning, organising,
• Staffing, directing and controlling ,
3rd • Principles of management (Henri
Fayol, F.W. Taylor)
• Concept and structure of an
organisation
9th 1st • Types of industrial organisations
a) Line organization
b) Line and staff organization
c) Functional Organisation
2nd Unit-5 :-Leadership and Motivation:
5(a) Leadership-
• Definition and Need ,Qualities
• Functions of a leader
3rd • Manager Vs leader ,
• Types of leadership
10th 1st 5(b) Motivation-
• Definitions and characteristics
• Factors affecting motivation ,
2nd • Theories of motivation (Maslow,
Herzberg, McGregor)
3rd • Revision/queries of unit 3,4,5.
• Second assignment will be given
11th 1st • Assignment –II check
• Tentative 2nd sessional test
• Evaluation of sessional marks etc.
2nd • Assignment –II check
• Tentative 2nd sessional test
• Evaluation of sessional marks etc
3rd • Display and analysis of sessional
marks.
• Seminal/group discussion as per
evaluation scheme
12th 1st Unit-6 :-Management Scope in
Different Areas:
6(a) Human Resource Management:
• Introduction and objective,
• Introduction to Man power planning
and Selection,
• Introduction to performance
appraisal methods
2nd 6(b) Material and Store Management:
• Introduction functions, and
objectives,
• ABC Analysis , EOQ analysis ,
3rd 6(c) Marketing and sales:
• Introduction, importance, and its
functions,
• Physical distribution,
• Introduction to promotion mix,
• Sales promotion ,
13th 1st 6(d) Financial Management:
• Introductions, importance and its
functions
• Elementary knowledge of income
tax sales tax, excise duty, custom duty
and VAT
2nd Unit-7:-Miscellaneous Topics
7(a) Customer Relation Management
(CRM):
• Definition and need,
• Types of CRM
3rd 7(b)Total Quality Management
(TQM):
• Statistical process control,
• Total employees Involvement,
• Just in time (JIT)
14th 1st 7(c)Intellectual Property Right (IPR):
• Introductions, definition and its
importance,
• Infringement related to patents,
• copy right, trade mark
2nd • 3rd assignment will be given
• Revision/ queries of unit-6,7
3rd • Assignment –III check
• Tentative 3rd sessional test
• Evaluation of sessional marks etc.
15th 1st • Assignment –III check
• Tentative 3rd sessional test
• Evaluation of sessional marks etc
2nd • Display/analysis of 3rd sessional
test.
• Seminal/group discussion as per
evaluation scheme
3rd • Remedial will be taken if any
shortcomings found
• Previous state boards question will
be carried out, any other left out topic
Lesson Plan
Name of the Faculty Guest Faculty
Discipline ELECTRICAL ENGG.
Semester 6TH
Subject EMPLOYABILITY SKILL- II
Lesson Plan Duration 15 weeks(from January, 2018 to April,2018) Work Load(Lecture/Practical) per week (in hours): Lectures-Nil, Practicals - 02
Week Practicals
Practical Day
Topic
1st 1st Mock Interview
2nd Mock Interview
2nd 3rd Mock Interview
4th Mock Interview
3rd 5th Mock Interview
6th Preparing for meeting
4th 7th Preparing for meeting
8th Preparing for meeting
5th 9th Preparing for meeting
10th Preparing for meeting
6th 11th Group Discussion
12th Group Discussion
7th 13th Group Discussion
14th Group Discussion
8th 15th Group Discussion
16th Seminar Presentation
9th 17th Seminar Presentation
18th Seminar Presentation
10th 19th Seminar Presentation
20th Seminar Presentation
11th 21th Making a Presentation
22nd Making a Presentation
12th 23rd Making a Presentation
24th Making a Presentation
13th 25th Making a Presentation
26th Making a Presentation
14th 27th Making a Presentation
28th Making a Presentation
15th 29th Making a Presentation
30th Making a Presentation
Name of faculty
Parveen Dahiya,Lecturer
Discipline Electrical Engineering Semester 6th Subject Power II Lesson
Plan 15 week work
load Lecturer 4 theory 2 practical
Week Lecture
Day Theory
Practical Topic
Ist 1 Unit 1st
Introduction to fault,common types of Fault
1
testing of the dielectric strength of transformer oil and
air.
2
Over head and under ground system and fault
3 Symetrical and unsymetrical fault
4 Single Line to ground fault
2nd 5 Double line to ground faults
6 3 phase to ground faults
7
Simple problems relating to fault finding
8 Unit 2nd Purpose of protective gear
2 Study of different
types of circuit breakers and isolators.
3rd 9
Difference between switch,isolator and C.B
10
Function of isolator and Circuit breaker
11
making and breaking of circuit breaker
12 Types of circuit breaker
4th 13
Bulk CB construction working Principle
14 Minimum CB construction working
15 SF6 CB construction working
16
Arc extintion, Principle of arc extinction
3 Plot the time current
characteristics of over current relay.
5th 17 Blast CB in Cbin OCB
18 Constructional features of OCB
19 ACB construction working
20 Methods of Arc Extinction
6th 21 minature CB construction,working
22 MCCB and ELCB
23 Unit 3rd Function of fuse,HV and LV fuse 4
Power measurement by using CTs and PTs.
24 Rewireable,cartridge fuse
construction
7th 25 HRC fuse construction
26
Purpose of earthing,defination of earthing
27 Earthing equipment used in earthing
28 Substation earthing systems
8th 29
Methods of reducing earthing resistance
5 Earthing of different
equipment.
30
Introduction to relay ,types of earthing
31
Electromagnetic relay construction,working
32 Thermal relay,construction,working
9th 33 Induction type Over current relay
34
Earth fault relay construction working
35 Instaneous Over current relay
36 Direct over current differential relay
10th 37
Functions of Differential over current relay
6 Perform the overload and short circuit test
of MCB.
38 Unit 4th Relays for generator protection
39
Relay for transformer protection bucloz relay
40 bucloz relay construction ,working
11th 41 Protection for feeder and bus bar
42 Over current and earth protection
43
Distance protection for transmission system
44 Relay for motor protection
12th 45 Unit 5th
Protection of system against over voltage
7 Plot the time current characteristics of Kit-
Kat Fuse wire.
46
Causes of over voltage and protection
47 Utility of ground wire
48
Introduction to Lightning arrestor,types
13th 49
Rod gap arrestor construction ,working
50 Horn gap arrestor
51 Metal oxide arrestor
52 Metal oxide arrestor
8 Taking reading of
current on any LT line with ohm meter.
14th 53 Transmission line protection
54 Substation protection
55 Unit 6th Concept of tariff and use
56 Types of tariffs
15th 57 Block rate tariff
58 Flat rate tariff
59
Maximum demand and two part tariff.
60 Simple problems
Lesson Plan
Name of the Faculty: Kiran Chawla Sr.Lecturer
Discipline : Electrical Engineering
Semester : 6th
Subject : Utilisation of Electrical Energy
Lesson Plan Duration : 15 weeks(from January, 2018 to April,2018)
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 Lighting
15 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
14
66 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 (PLC & MICROCONTROLLER)
Name of Faculty Sitender Kumar,Lecturer
Discipline Electrical Engineering
Semester 6th
Subject PLC &Microcontrollers
Lesson plan
duration
15 weeks (from January 18 to April
18) Work Load(Lecture/Practical) per week : Lectures-04, Practicals-04
Week Theory Practical
Lecture
Day
Topic(including assignment/test) Practical
day
Topic
1st 1st (Unit-
1) Introduction to PLC,What is PLC, concept of PLC
1st Components/sub-components of a PLC, Learning functions of different modules of a PLC system
2st Building blocks of PLC, Functions of various blocks,
3rd limitations of relays. Advantages of PLCs over electromagnetic relays.
4th Different programming languages, PLC manufacturer etc.
2nd 5th Working of PLC 2nd Practical steps in
programming a PLC (a)
using a Hand held
programmer (b) using
computer interface
6th Basic operation and principles of PLC
7th(Unit-
II) Architectural details processor
8th Memory structures, I/O structure,Programming terminal, power supply
3rd 9th Instruction Set,Basic instructions like latch, master control self holding relays
3rd Introduction to step 5 programming language,
ladder diagram concepts, instruction list syntax
10th Timer instruction like retentive timers, resetting of timers.
11th Counter instructions like up counter, down counter, resetting of counters
12th Arithmetic Instructions (ADD,SUB,DIV,MUL etc.) , MOV instruction , RTC(Real Time Clock Function)
13th Comparison instructions like equal, not equal, greater, greater than equal, less than, less than equal
4th Basic logic operations,
AND, OR, NOT functions
4th 14th Ladder Diagram Programming
15th Programming based on basic instructions
16th timer, counter, sequencer, and comparison instructions using ladder program.
5th 17th Applications of PLCs 5th Logic control systems with time response as applied
to clamping operation
18th Assembly - Packaging - Process controls - Car parking
19th Doorbell operation - Traffic light control - Microwave Oven - Washing machine
20th Motor in forward and reverse direction - Star-Delta, DOL Starters - Paint Industry - Filling of Bottles - Room Automation
6th 21th Micro Controller Series (MCS)-51 Over View
6th Sequence control system
e.g. in lifting a device for
packaging and counting Pin details
22th I/o Port structure
23th(unit-
3) Memory Organisation
24th Special function registers
7th 25th Instruction Set Addressing Modes 7th Use of PLC for an
application( teacher may
decide) 26th Timer operation
27th Serial Port operation
28th Interrupts
8th 29th Assembly language programming 8th Familiarization with a
study of Architecture of
8085 kit, basic sub systems
and input output
connectors, functions keys
on micro controllers kit 30th Assemblers
31th Compilers
32th Assembler Directives
9th 33th Design and Interface 9th Familiarization of Micro
Controllers (8051) kit 34th Examples like: keypad interface
35th 7- segment interface
36th LCD
37th stepper motor 10th Testing of general
input/output on Micro
controller board 38th
(unit-4) A/D, D/A,
39th RTC interface.
10th 40th Introduction of PIC Micro controllers
11th 41th Application of Micro controllers 11th Development of Electrical
, Instrumentation
applications using 8051
micro-controller
42th • 3rd assignment will be given
43th • Previous state boards question
will be carried out, any other left
out topic
44th • 3rd sessional test
12th 45th • Evaluation of 3rd test 12th Evaluation of above
practicals. 46th • Display/analysis of 3rd
sessional test
47th • Remedial will be taken if any
shortcomings found
48th • Seminar/group discussion as
per evaluation scheme
13th 49th • -do- 13th Revision of above
practicals for left out
students if any. 50th • -do-
51th • -do-
52th
14th 53th • -do- 14th Viva-voce/preparation of
practical sessional marks. 54th • -do-
55th • -do-
56th • Preparation of sessionals,
practical award etc.
15th 57th • -do- 15th Viva-voce/preparation of
practical sessional marks. 58th • -do-
59th • -do-
60th • -do-
Lesson Plan
Name of the Faculty K.K.Bisla,Lecturer
Discipline ELECTRICAL ENGG.
Semester 6TH
Subject ENERGY MANAGEMENT
Lesson Plan Duration 15 weeks(from January, 2018 to April,2018) Work Load(Lecture/Practical) per week (in hours): Lectures-04, Practicals - Nil
Week Theory
Lecture Day
Topic
1st 1st Unit 1 Energy Management : Overview
2nd Need for Energy conservation
3rd Environmental Aspects
4th Oil and Coal crises
2nd 5th alternate Source of Energy
6th Renewable Energy sources
7th Small Energy sources
8th Energy Efficiency
3rd 9th Unit 2 Energy Conservation Introduction
10th Domestic Sector - Lighting
11th Home appliances
12th Industrial Sector - Industrial Lighting
4th 13th Distribution system
14th Motor Pumps
15th Fans and Blowers
16th Agriculture sector - Tubewell pumps
5th 17th DG Sets
18th Stand by Energy Sources
19th Macro Level approach - Generation and Distribution
20th Lighting control
6th 21st Importance of Energy efficiency
22nd Unit 3 Energy Efficient Devices - Introduction
23rd Merit , Demerit and const. of LCD
24th Merit , Demerit and const. of LED
7th 25th Merit , Demerit and const. of CFL
26th Need for energy efficient Devices
27th Initial cost versus life cycle
28th Cost analysis on life cycle basis
8th 29th Energy efficient motors versus standard motor
30th Design Characteristics of energy Efficient Motor
31st BIS Standards
32nd Energy Efficient Lighting system
9th 33rd Energy Efficient Energy Sources
34th Role of voltage on efficiency
35th Distribution system- Power Cables
36th Role of Power Factor
10th 37th Use of Compensating Capacitors
38th Transformers
39th Calculation of size of capacitor
40th shunt capacitor and series capacitor
11th 41st losses in Energy efficient motor
42nd Unit 4 Energy Audit : Introduction
43rd Need of Energy audit
44th Energy Audit Methodology
12th 45th Efficiency of Energy Conversion Process
46th Specific Energy Consumption
47th Three pronged approach
48th Case study of Energy Audit in Hospital
13th 49th Indane Bottling Plant
50th Distribution system
51st Audit activities
52nd Revision
14th 53rd Unit 5 Environmental Impact Assessment Need for EIA
54th Defination and History of EIA
55th Scope of EIA
56th EIA Process
15th 57th Standard format for assessment
58th Evaluation of the assessment
59th Revision
60th Class Test