Name of the
LESSON PLAN
Faculty :
SANDEEP
KUMAR Discipline : ELECTRICAL ENGINEERING
Semester : 5TH Subject : DIGITAL ELECTRONICS AND MICROPROCESSORS
Lesson Plan Duration : 15 WEEKS(From JULY 2018 to DEC 2018)
Work Load
: Theory-05
(Lecture) per week (in hours)
Week Theory
Lecture Day
Topic
1st
Introduction to the Subject and its applications, nature of the examination and marks distribution of different topics
1st 2nd Introduction to Decimal Number Systems 3rd Binary number conversion
4th Octal number conversion
5th Hexadecimal number conversion,Interconversion
1st BCD and ASCII code number systems
2nd Binary and Hexadecimal addition, subtraction and multiplication
2nd
3rd Hexadecimal addition, subtraction and multiplication
4th 1’s and 2’s complement methods of addition/subtraction
5th Introduction to Gates and its applications
1st symbol and truth tables for inverter, OR, AND,
2nd symbol and truth tables for NAND, NOR and X-OR
3rd 3rd Universal Gates
4th Introduction to boolean Algebra
5th Boolean Relations and their applications
1st Boolean Laws/Rules
2nd DeMorgan’s Theorems
4th 3rd Digital circuits using Gates
4th Simplification of Boolean Expressions
5th Introducion to K map and its rules
1st SOP and POS forms
2nd 3 variable K map
5th 3rd 4 variable K map
4th Digital circuit design using 4 variable K map
5th Introduction to Combinational Circuits :Half Adder
1st Design of Full adder circuit
2nd Digital Encoder
6th 3rd Digital Decoder
4th Multiplexer/Demultiplexer
5th Display Devices (LED, LCD )
1st Seven-segment display
2nd Introduction to Flip-Flops and its application
7th 3rd J-K Flip-Flop
4th R-S Flip-Flop
5th D and T-Type Flip-Flop
1st Introduction to Shift Registers and Applications
2nd Types of Shift Registers
8th 3rd Contd
4th Introduction to Counters and its applications
5th Types of Counters
1st Contd
2nd Introduction to A/D and D/A Converters and its applications
9th 3rd Counter / ramp Type A/D converter
4th r successive approximation method of A/D Converter
5th Binary weighted D/A converters 1st R-2R D/A Converter D/A converters
2nd
Introduction to Semi-conductor Memories and its
applications 10th
3rd Classification of memory
4th contd
5th Merits, demerits of Semi-conductor Memories
1st Introduction to Microprocessors and its Overview
2nd Study of 8085 microprocessor architecture
11th 3rd Contd
4th Contd
5th Pin Diagram of 8085
1st Contd
2nd bus organisation
12th 3rd Types of Registers
4th Flag Register,PSW
5th Interrupts
1st Contd
2nd 8085 addressing modes
13th 3rd 8085 instruction format
4th 8085 Instruction Set
5th Contd
1st Contd
2nd Contd
14th Writing and Debugging some simple assembly language
3rd programmes
4th Contd
5th Stack and Subroutines
1st
Interfacing and data transfer between peripheral, I/O and
microprocessor
2nd Contd
15th 3rd Study of peripheral chips – 8251, 8155, 8253
4th Study of peripheral chips – 8257, 8259
Introduction of 16-bit, 32-bit microprocessor, their advantages
5th over 8-bit microprocessor
LESSON PLAN
Faculty Discipline Semester Subject Lesson Plan Duration (Lecture/Practical) per week (in hours)
: AMIT KUMAR : ELECTRICAL ENGINEERING : 3RD : ELECTRICAL AND ELECTRONICS ENGINEERING MATERIALS : 15 WEEKS(From JULY 2018 to DEC 2018)
: Theory-4
Week Theory
Lect. Day Topic
1st Introduction of Subject and its need in Electrical Engg
1st 2nd Classification of materials
3rd Atomic structure and energy bands
4th Introduction to Conducting Materials and Applications
1st temperature etc
2nd 2nd resistivity materials
3rd Copper : General properties as conductor; Applications
4th corrosion, contact resistance.
1st Applications Applications in the field of electrical engineering.
2nd temperature coefficient, density,
3rd Mechanical properties of hard and annealed aluminium,
3rd solderability, contact resistance.
4th applications.
1st Beryllium);Applications
4th 2nd Applications of special metals e.g. Silver, Gold, Platinum etc
3rd constantan, Nichrome,
4th Mercury, platinum, carbon and tungsten
1st Superconductors and their applications
5th 2nd Semi-conducting Materials and their properties,
3rd Semiconductor Materials used for electronics component
4th Insulating materials; General Properties
1st Contd
6th 2nd Insulating materials;Electrical Properties
3rd Contd
4th Insulating materials:Physical Properties
1st Contd
7th 2nd Insulating materials: Thermal Properties:
3rd Contd
4th Insulating materials:Chemical Properties:
1st Contd
8th 2nd Insulating materials: Mechanical properties
3rd Contd
4th Insulating Materials and their applications
1st Plastics
9th 2nd Thermosetting materials
3rd Contd
4th Thermo-plastic materials:
1st Contd
10th 2nd Mica and Mica products
3rd Asbestos and asbestos products
4th Ceramic materials (porcelain and steatite)
1st Glass and glass products
11th 2nd Cotton,Silk,Jute
3rd Paper (dry and impregnated)
4th Rubber, Bitumen;their applications
1st capacitors, high voltage insulated cables,
12th 2nd for winding wires
3rd Gaseous materials; Air, Hydrogen, Nitrogen, SF their properties
4th Introduction to Magnetic Materials and applications
1st
Ferromagnetic materials, permeability, B-H curve, magnetic
saturation
13th 2nd Hysteresis loop concept of eddy current and hysteresis loss
3rd Curie temperature, magnetostriction effect
Soft Magnetic Materials:Alloyed steels with silicon;their
4th applications
1st Oriented and Non-oriented steels ;their applications
14th 2nd Nickel-iron alloys,Soft Ferrites;their applications
3rd applications
4th hard ferrites and cobalt steel, their applications
1st Special Materials : Thermocouple, bimetals and their applications
15th 2nd Soldering Lead and fuses material and their applications
3rd Introduction of various engineering materials;Properties
4th Material for of electrical machines ; motors, generators,transformers
1st Revision Ch 1,2,3
16th 2nd Revision Ch 4,5
3rd Revision Ch 6
4th Revision Ch 7,8
Name Sandeep kumar
Semester 3rd
Branch Electrical
Subject ECEE(P)
Duration 15 weeks (july 18 to dec. 18)
Load Practical -03
DAY OF THE PRACTICAL TOPIC
Introduction
to the subject
and the marks
distribution
Framing of
Tender and
reply to
tender to get
job/project
Continued
Identification
of wiring for
different
applications
Continued
Quiz No. 01
and viva voce
Two room
residential
building as
per given
plan
Continued
Prepare an
estimate for
service
connection
Name Sandeep kumar
Semester 3rd
Branch Electrical
Subject ECEE(P)
Duration 15 weeks (july 18 to dec. 18)
Load Practical -03
for residential
building
Continued
Quiz No. 02
and viva voce
Visit a nearby
substation
and list the
components
with diagram
PPT by
students
PPT by
students
INTERNALAS
LESSON PLAN
Faculty : AMIT KUMAR
Discipline : ELECTRICAL ENGINEERING
Semester : 5th
Subject : POWER-I
Duration : WEEKS(From JULY 2018 to DEC 2018)
Work Load (Lecture) per
week (in hours) : Theory- 04
Theory
Week
Lecture Topic Day
1st Introduction to the subject and the marks distribution
2nd Main resources of energy, conventional and non-conventional
1st
3rd Different types of power stations, thermal, hydro, gas, diesel and nuclear power
Stations
4th stations on the basis of running cost, site, starting, maintenance etc.
1st
Importance of non-conventional sources of energy in the present scenario.
2nd 2nd Brief details of solar energy
3rd Brief details of bio-energy
4th Brief details of Wind energy
1st
Test Of Chapter No. 01
3rd
2nd
Fixed and running cost, load estimation, load curves, demand factor
3rd
Load factor, diversity factor, power factor and their effect on cost of generation
4th Numerical problems
1st
Base load and peak load power stations advantages
2nd Inter-connection of power stations and its advantages
4th
3rd Concept of regional and national grid
4th
Test Of Chapter No. 02
1st Quiz No. 01 for chapter 01 and 02 and assessment of assignment No. 01
Layout of transmission system, selection of voltage for H.T and L.T lines, advantages of high
5th 2nd voltage for Transmission of power in both AC and DC
3rd Comparison of different systems: AC versus DC for power transmission
4th
Conductor material and sizes from standard tables
1st Constructional features of transmission lines: Types of supports, types of insulators
2nd Types of conductors, Selection of insulators, conductors, earth wire and their accessories
6th
Transposition of conductors and string efficiency of suspension type insulators, Bundle
3rd Conductors.
4th
Mechanical features of line: Importance of sag, calculation of sag,
1st Effects of wind and ice related problems
2nd
Indian electricity rules pertaining to clearance
7th
3rd Electrical features of line: Calculation of resistance without derivation in a.c. transmission
line
Electrical features of line: Calculation of inductance without derivation in a.c. transmission
4th line
1st Electrical features of line: Calculation of capacitance
2nd Concept of voltage regulation
8th
3rd Concept of corona, Effects of corona and remedial measures
4th Transmission Losses
1st Test Of Chapter No. 03
Lay out of HT and LT distribution system, constructional feature of distribution lines 2nd and their erection. LT feeders and service mains
9th
3rd Simple problems on AC radial distribution system, determination of size of conductor;
Preparation of estimates of HT lines (OH and Cables).
4th Preparation of estimates of LT lines (OH and Cables).
1st
Constructional features of LT (400 V), HT (II kV) underground cables
2nd
Advantages and Disadvantages of underground system with respect to overhead system
10th
3rd Calculation of losses in distribution system
4th
Faults in underground cables, determine fault location by Murray Loop Test
1st Test Of Chapter No. 04
2nd Quiz No. 02 for chapter 03 and 04 and assessment of assignment No. 02
11th
3rd Brief idea about substations; out door grid sub-station 220/132 KV outdoor substations
4th Brief idea about substations; out door grid sub-station 66/33 KV outdoor substations
1st Pole mounted substations and indoor substation
2nd with it.
12th
Layout of 11 kV/400V distribution substation and various auxiliaries and equipment
3rd associated with it.
4th Test Of Chapter No. 05
1st Concept of power factor
2nd Reasons and disadvantages of low power factor
13th 3rd Methods for improvement of power factor using capacitor banks
4th Methods for improvement of power factor using VAR Static Compensator (SVC)
1st Test Of Chapter No. 06
14th 2nd Quiz No. 03 for chapter 05 and 06 and Assessment of assignment No. 03
3rd Revision test of Chapter No. 01
4th Revision test of Chapter No. 02
1st Revision test of Chapter No. 03
15th 2nd Revision test of Chapter No. 04
3rd Revision test of Chapter No. 05
4th Revision test of Chapter No. 06
LESSON PLAN
Name of the Faculty : AMIT KUMAR
Discipline : ELECTRICAL ENGINEERING
Semester : 5th
Subject : Environmental Education
Lesson Plan Duration : 15 WEEKS(From July 2018 to Dec 2018)
Work Load (Lecture/
: Theory- 03 Practical) per week (in
hours)
Week Lecture Theory
Topic Day
1st
Introduction to the subject and the marks distribution
1st
2nd Definition, Scope of Environmental Education
3rd Importance of Environmental Education
2nd
1st Test Of chapter No. 01
2nd Basics of ecology, biodiversity
3rd Basics of eco system
3rd
1st Basics of sustainable development
2nd Test Of chapter No. 02
3rd Sources of pollution - natural and manmade
Causes, effects of pollution (air, water, noise, soil,
1st
radioactive and nuclear)
4th
2nd
Control measures of pollution (air, water, noise, soil,
radioactive and nuclear) and their units of measurement
3rd Continued
5th
1st Test Of chapter No. 03
2nd Solid waste management – Causes
3rd Solid waste management – effects
1st
Solid waste management – control measures of urban and
6th industrial waste
2nd Continued
3rd Test Of chapter No. 04
7th
1st Mining and deforestation – Causes
2nd Mining and deforestation – effects
3rd Mining and deforestation – control measures
1st Continued
8th
2nd Test Of chapter No. 05
Environmental Legislation - Water (prevention and control of
3rd pollution) Act 1974
1st Continued
9th 2nd Environmental Legislation - Air (Prevention and Control of
Pollution) Act 1981
3rd Continued
1st 1986
10th
2nd Continued
3rd
Role and Function of State Pollution Control Board
1st Environmental Impact Assessment (EIA)
11th 2nd Test Of chapter No. 06
3rd Role of Non-conventional Energy Resources (Solar Energy)
1st Role of Non-conventional Energy Resources (Wind Energy)
12th 2nd Role of Non-conventional Energy Resources ( Bio Energy)
3rd Role of Non-conventional Energy Resources ( Hydro Energy)
1st Test Of chapter No. 07
Current Issues in Environmental Pollution – Global
13th 2nd Warming, Green House Effect
3rd
Current Issues in Environmental Pollution – Depletion of
Ozone Layer
1st
Current Issues in Environmental Pollution – Recycling of
Material, Environmental Ethics
14th 2nd Current Issues in Environmental Pollution – Rain Water
Harvesting
3rd
Current Issues in Environmental Pollution – Maintenance of
Groundwater, Acid Rain, Carbon Credits.
15th
1st Test Of chapter No. 08
2nd Revision test of chapter No 01 to 04
3rd Revision test of chapter No 04 to 08
NAME OF THE FACULTY AMIT KUMAR
SEMESTER 3RD
BRANCH ELECTRICAL
SUBJECT F.E.E. (P)
PERIOD JULY 2018 TO DEC 2018
LOAD PRACTICAL- 03
DAY OF THE PRACTICAL
Introduction to the subject and
the marks distribution
1 Determination of voltage-
current relationship in a dc
circuit under specific
physical conditions and to draw
conclusions (to verify ohm’s
law)
2 cold lamp filament with the help of calculations.
b) Measure the current drawn
by the lamp at different
voltages from zero to 220 volts
and the resistance of lamp at
different voltages, plot a graph
between current and voltage
3
(a) To verify that Rt =
R1+R2+…. Rn where R1, R2
Rn etc. are resistances
connected in series
(b) To verify 1 1 1
-- = -- + -- + - - - - - - +
--
Rt R1 R2 Rm
Where R1, R2 etc. are
resistances connected in
parallel
4 Quiz No. 01 and Viva Voce
5 current and voltage laws applied to DC circuits
a) to construct a circuit
arrangement consisting of
resistances in series,
NAME OF THE FACULTY AMIT KUMAR
SEMESTER 3RD
BRANCH ELECTRICAL
SUBJECT F.E.E. (P)
PERIOD JULY 2018 TO DEC 2018
LOAD PRACTICAL- 03
parallel combination b) identification of node points
in the circuit
c) to see that algebraic sum of
6
To find ratio of inductance values of a coil having air /iron
core respectively and to see the
effect of introduction of a
magnetic core on coil
inductance
7
8 To construct an RL and RC
circuit and to measure
a) their impedance
b) phase angle between voltage
and current
c) construct impedance triangle
9 Quiz No. 02 and Viva Voce
10 PPT by students
11 Measurement of power and
power factor of a single phase
RLC circuit. To calculate kVA
and kVAR
12 Testing a battery for its charged
condition and to charge it
13 Quiz No. 03 and Viva Voce
14 PPT by students
15
Internal Assessment and Viva
Voce
Name of th SANDEEP KUMAR Discipline : ELECTRICAL ENGINEERING Semester : 3RD Subject :
Lesson
Plan
Duration :
July
2018 to
dec 2018
Work :
Theory-04; Practical-03
Load
Week
Theory Lecture
Day Topic
1st Introduction to the subject and the
marks distribution
1st
2nd Application and Advantages of
Electrical Energy
3rd Different forms of energy
4th Advantages of electrical energy 1st Uses of electrical energy
Basic concept of charge, current,
2nd voltage, resistance, power, energy
2nd and their units
Conversion of units of work, power
3rd and energy from one form to another
4th Test of Chapter No.01
1st Ohm’s law, resistances in series and
parallel
Kirchhoff’s laws and their
2nd applications in solving electrical
3rd network problems Thevenin’s theorem, superposition
3rd theorem
4th Maximum power transfer theorem
1st Norton’s theorem
2nd Star-delta transformation
3rd Test of Chapter No.02
4th
Basic idea about primary and
4th secondary cells
1st Working principle, construction and
applications of Lead acid battery
Working principle, construction and
2nd applications of Nickel Cadmium
5th battery
Working principle, construction and
3rd applications of Silver Oxide Cells
Charging methods used for lead acid
4th accumulator
1st Care and maintenance of a lead acid
battery
Grouping of cells in series and
2nd parallel (simple numerical
6th problems).
3rd Test of Chapter No.03
Quiz No. 01 for chapter 01 ;02 and
03 and assessment of assignment
4th No. 01
Magnetic field around a straight
current carrying conductor and a
1st solenoid
Methods to find its direction, force
2nd
between two parallel current
7th carrying conductors.
Force on a conductor placed in the
magnetic field
3rd
Series magnetic circuits, simple
4th problems
Concept of hysteresis, loop and
1st hysteresis loss.
8th
2nd Test of Chapter No.04
Faraday's Laws of electromagnetic
3rd induction 4th Lenz's law
1st Fleming's Right and Left Hand Rule
2nd
Principle of self and mutual
9th induction
Principle of self and mutually 3rd induced e.m.f. and simple problems
4th Inductances in series and parallel
1st Energy stored in a magnetic field
Concept of eddy currents, eddy
10th
2nd current loss
3rd Test of Chapter No.05
Concept of A.C. generation (single
4th phase and three phase)
1st Difference between A.C and D.C
2nd
Concept of alternating current and voltage
.
11th
Equation of instantaneous values,
average value, r.m.s value, form
3rd factor, power factor etc. Concept of phase and phase
4th difference
1st Representation of alternating
sinusoidal quantities by vectors
Phasor algebra (addition,
2nd subtraction, multiplication and
12th division of complex quantities)
Test of Chapter No.06; Quiz No. 02
3rd (Chapters: 04, 05 and 06)
AC through pure resistance,
4th inductance and capacitance
1st
Alternating voltage applied to
RL,RC and RLC series and parallel
circuits (impedance triangle, phasor
diagram and their solutions)
13th 2nd Introduction to susceptance,
conductance and admittance
Power in pure resistance, inductance, capacitance, RL, RC,
3rd RLC circuits Active and reactive components of
4th current and their significance
1st Power factor and its practical
significance
2nd Test of Chapter No.07
14th
3rd Advantages of 3Ø over 1- Ø system
Star & delta connections (derive
relationship b/w phase Voltage(Vph)
Line Voltage (VL ) and Phase Currrent (Iph) Line Current (I L) in
4th star delta connections 1st Continued
2nd
3-phase balanced and unbalanced
15th circuits
3rd Power in 3-phase circuits
Test of Chapter No.08; Quiz No.
4th 03(Chapters 07, 08 and 09)
Name of the faculty Amit Kumar
Semester 5th
Branch Electrical
Subject I.E.C.D. (P)
Duration 15 weeks ( july 18 to dec.18)
Work load Practical - 03
DAY OF THE PRACTICAL TOPIC
1 Introduction to
the subject and
the marks
distribution
2 To draw V-I
characteristics
of an SCR
3 To draw V-I characteristics
of a TRIAC
4 To draw V-I
characteristics
of a DIAC
5 To draw uni-
junction
transistor
characteristics
6 Quiz No. 01
and Viva Voce
7 Observe the
output wave of
an UJT
Name of the faculty Amit Kumar
Semester 5th
Branch Electrical
Subject I.E.C.D. (P)
Duration 15 weeks ( july 18 to dec.18)
Work load Practical - 03
relaxation
oscillator
8 Fan speed
regulator using TRIAC
Quadriac (fabrication of
this circuit)
9 Observe the wave shape across SCR and load
10 Speed-control
of a DC shunt
motor or
universal motor
11 Quiz No. 02
and Viva Voce
12 To observe the
output wave
shape on CRO
of a Single
phase half
13 Single phase
controlled
rectifier
14 Use of Variable
Frequency
Drive for
Name of the faculty Amit Kumar
Semester 5th
Branch Electrical
Subject I.E.C.D. (P)
Duration 15 weeks ( july 18 to dec.18)
Work load Practical - 03
running a 3
phase Induction
15 Quiz No. 03
and Viva Voce
Lesson Plan
Name of the faculty : Sandeep
Discipline : Electrical Engg.
Semester : 5th
Subject : Digital Electronics And Microprocessors(DEM)
Lesson Plan Duration : 15 weeks
Work Load : Practical — 03
Practical
Week
Practical
Topic
Day
1st
1st
Verification and interpretation of truth table for AND, OR, NOT, NAND, NOR, X-OR gates
2nd 2nd Construction of Half Adder/Full Adder using gates.
3rd
3rd
Practical file checking and taking doubts of the students and to give clarifications on the specific parts they have not understood.
4th 4th To verify the truth table for R-S and JK flipflop.
5th 5th Construction and testing of any counter
6th
6th
Practical file checking and taking doubts of the students and to give
clarifications on the specific parts they have not understood.
7th
7th
Verification of operation of a 8-bit D/A Converter
8th 8th
Writing assembly language programme using numemoanics and test them on P Kit (any three)
1. Addition of two 8-bit numbers
2. Subtraction of two 8-bit numbers
9th 9th 3. Multiplication of two 8-bit numbers.
10th 10th 4. Division of two 8-bit numbers..
11th
11th Practical file checking and taking doubts of the students and to give
clarifications on the specific parts they have not understood.
12th 12th 5. Finding average of N given integer.
13th
13th
Assembly language programming for different applications on 8051 microcontroller
14th
14th
Practical file checking and taking doubts of the students and to give clarifications on the specific parts they have not understood.
15th 15th Practical file checking and conducting viva-voce.
LESSON PLAN
Name of the Faculty : AMIT KUMAR
Discipline : ELECTRICAL ENGINEERING
Semester : 5th
Subject : Minor Project
Lesson Plan Duration : 15 WEEKS (From JULY 2018 to DEC 2018)
Work Load Practicals-03
(Lecture/Practical) per
Week (Practical Day- 3Hr
Duration) Topic
1st Introduction of the nature of the examination and marks
distribution ; Project selection and finalisation of the groups and
guides
2nd Guidelines for Synopsis and PPT making and its significance
3rd Synopsis making
4th Synopsis making and submission of synopsis
5th PPT for Synopsis
6th Making of the project
7th Making of the project
8th Making of the project
9th Making of the project
10th Mid term PPT by students and Viva Voce
11th Guidelines for report making
12th Making of the project
13th Making of the project
14th Project and report submission
15th End term PPT by students and Viva Voce
LESSON PLAN
Name of the Faculty : SANDEEP KUMAR
Discipline : ELECTRICAL ENGINEERING
Semester : 3rd
Subject : Computer Application In Electrical Engineering
Lesson Plan Duration : 15 WEEKS(From JULY 2018 to DEC 2018)
Work Load Practicals-03
(Lecture/Practical) per
Week (Practical Day- 3Hr
Duration) Topic
1st (i) Introduction to the Subject
(ii) Introduction of the nature of the examination and marks
distribution of different topics
2nd Introduction to MATLAB
3rd MATLAB Programming – input/output, types of graphs,
functions
4th MATLAB Programming – loops, structures
5th MATLAB Simulink.
6th Continued
7th Quiz No. 01 and Viva Voce
8th Graphical Programming using LabVIEW including creation of
VIs, subVIs, structures
9th Graphical Programming using LabVIEW including arrays,
clusters, charts and graphs, strings, File I/Os
10th Practice on NI ELVIS and other DAQ hardware
11th Quiz No. 02 and Viva Voce
12th Utility of EPLAN software
13th Continued
14th Quiz No. 03 and Viva Voce
15th PPT by students
Page 1 of 3
Lesson Plan
Name of the faculty : Jagdish Chander
Discipline : Electrical Engg.
Semester : 3rd
Subject : Estimating and Costing in Electrical Engineering
(ECEE)
Lesson Plan Duration : 15 weeks
Work Load : Lectures — 03
Week
Theory
Lecture Day
Topic (including assignment/test)
1st
1st Purpose of estimating and costing, proforma for making estimates.
2nd Preparation of materials schedule, costing and price list.
3rd Preparation of tender document (with 2-3 exercises).
2nd
4th Net price list, market survey, overhead charges and labour charges.
5th Electrical point method and fixed percentage method.
6th Contingency, profit, purchase system, enquiries and comparative
statements, Orders for supply and payment of bills.
3rd
7th Tenders – its constituents, finalization and specimen tender.
8th Wiring Types—Cleat, batten and casing capping.
9th Conduit wiring and comparison of different wiring systems.
4th
10th Selection and design of wiring schemes for particular situation
(domestic and industrial).
11th Selection of wires and cables, Wiring accessories.
12th Use of MCB and ELCB, Use of wire-gauge and tables, assignment
submission.
5th
13th Domestic installations; description of various tests to test the wiring
installation before commissioning.
14th —Continued—description of various tests to test the wiring installation
before commissioning.
15th Standard practice as per IS and IE rules. Planning of circuits, sub-
circuits.
6th
16th Position of different accessories.
17th Sub-circuits and position of different accessories.
18th Numerical practice for planning of sub-circuits (including wiring
schemes).
Page 2 of 3
7th
19th Electrical layout of single storey and multi-storey buildings having
similar electrical load.
20th
Preparing estimates including cost as per schedule rate pattern and
actual market rate. (single storey and multi-storey buildings having
similar electrical load).
21st Numerical practice and taking doubts related to cost estimation for
wiring of single storey and multi-storey buildings.
8th
22nd Industrial installations: relevant IE rules and IS standard practices.
23rd Planning, designing and estimation of installation of single phase
motors of different ratings.
24th Electrical circuit diagram and starters, Preparation of list of materials.
9th
25th Estimating and costing exercises on workshop with singe-phase, 3-
phase motor load and the light load (3-phase supply system).
26th Numerical practice for estimating cost of wiring for single phase
motors of different ratings.
27th Taking doubts related to cost estimation for wiring of single phase and
three phase motors of different ratings and assignment submission.
10th
28th Service line connections: Over-head and underground connections
from pole to energy meter.
29th
—Continued—Service line connections: Over-head and underground
connections from pole to energy meter (Types of Service
Connections).
30th Service line connections estimate for domestic.
11th
31st Service line connections estimate for industrial.
32nd Estimating the material required for transmission lines (overhead and
underground) planning
33rd Estimating the material required for distribution lines (overhead and
underground) planning.
12th
34th Designing of lines with different fixtures, Earthing of lines (based on
unit cost calculations).
35th Substation: Types of sub-stations, Substation schemes and
components.
36th Estimate of 11/0.4 KV pole mounted sub-station up to 200 KVA rating.
13th
37th Methods of earthing of substations.
38th Key Diagram of 66 KV/11KV, 11 KV/0.4 KV sub-stations.
39th Outdoor and indoor sub-stations.
Page 3 of 3
14th
40th Single line diagram and layout sketching of outdoor, indoor 11kV,
33kV sub-station.
41st Taking doubts related to indoor and outdoor sub-stations and
checking of note book (Assignment).
42nd Exercise- Preparation of tender documents
15th
43rd Tender – constituents, finalization.
44th Specimen tender.
45th Taking doubts related to tender documents preparation and checking
of note book.
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Lesson Plan
Name of the faculty : Jagdish Chander
Discipline : Electrical Engg.
Semester : 3rd
Subject : Electrical Engineering Design and Drawing – I
(EEDD-I)
Lesson Plan Duration : 15 weeks
Work Load : Practicals — 06
Week
Practical
Practical Day
Topic
1st
1st Drawing of various Electrical Symbols used in Domestic and Industrial
Installation.
2nd Drawing of Electrical Symbols used in Power System (Generation,
Transmission and Distribution including Sub-stations).
2nd
3rd Problem solving session including sheet checking and viva-voce for Unit-1.
4th Drawing of Wiring diagram of light & sheet checking.
3rd
5th Drawing of Wiring diagram of fan & sheet checking.
6th Drawing of Wiring diagram of bell & sheet checking.
4th
7th Drawing of Wiring diagram of alarm circuits & sheet checking.
8th Drawing of Staircase wiring & sheet checking.
5th
9th Drawing of godown wiring & sheet checking.
10th Problem solving session including sheet checking and viva-voce for Unit-2.
6th
11th
Design and Drawing of panels/Distribution board using MCB, ELCB main
switches and change over switches for domestic installation & sheet
checking.
12th
Design and Drawing of panels/Distribution board using MCB, ELCB main
switches and change over switches for industrial installation & sheet
checking.
7th
13th
Design and Drawing of panels/Distribution board using MCB, ELCB main
switches and change over switches for commercial installation & sheet
checking.
14th Checking of drawing sheet, taking doubts of the students and to give
clarifications on the specific parts they have not understood.
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8th
15th Problem solving session including sheet checking and viva-voce for Unit-3.
16th Orthographic projections of Bus bar post/ Kit Kat & sheet checking.
9th
17th Orthographic projections of Pin type and shackle type insulator (Pin Type 11kV/66kV) & sheet checking.
18th Orthographic projections of Bobbins of a small transformer / choke & sheet checking.
10th
19th Orthographic projections of Stay insulators/Suspension type insulators & sheet checking.
20th Orthographic projections of Rotor of a squirrel cage induction motor & sheet checking.
11th
21st Orthographic projections of Motor body (induction motor) as per IS Specifications (using outside dimensions) & sheet checking.
22nd Orthographic projections of Slip rings of 3-phase induction Motor & sheet checking.
12th 23rd
Orthographic projections of Stator of 3 phase Induction motor (Sectional
View) & sheet checking.
24th Problem solving session including sheet checking and viva-voce for Unit-4.
13th
25th Basic of Auto CAD software.
26th Prepare wiring diagram and block diagrams for circuits/systems using any Engineering Graphic package (Auto CAD).
14th 27th
-Continued- Prepare wiring diagram and block diagrams for circuits/systems using any Engineering Graphic package (Auto CAD).
28th Drawing of wiring diagram using Auto CAD.
15th
29th Problem solving session including sheet checking and viva-voce for Unit-5.
30th Checking of drawing sheet, taking doubts of the students and to give clarifications on the specific parts they have not understood.
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Lesson Plan
Name of the faculty : Jagdish Chander
Discipline : Electrical Engg.
Semester : 5th
Subject : ELECTRICAL MACHINES-II (EM-II)
Lesson Plan Duration : 15 weeks
Work Load : Lectures — 04
Week
Theory
Lecture Day
Topic (including assignment/test)
1st
1st Main constructional features of synchronous machine including commutator and brushless excitation system.
2nd —Continued— Main constructional features of synchronous machine
3rd Generation of three phase emf.
4th Production of rotating magnetic field in a three phase winding.
2nd
5th Concept of distribution factor and coil span factor.
6th EMF equation.
7th Armature reaction at unity, lag and lead power factor.
8th —Continued— Armature reaction at unity, lag and lead power factor.
3rd
9th Operation of single synchronous machine independently supplying a load.
10th Voltage regulation by synchronous impedance method.
11th Need and necessary conditions of parallel operation of alternators.
12th Synchronizing an alternator (Synchroscope method) with the bus bars.
4th
13th —Continued— Synchronizing an alternator (Synchroscope method) with
the bus bars.
14th Operation of synchronous machine as a motor.
15th Starting methods of synchronous motor.
16th Effect of change in excitation of a synchronous motor.
5th
17th Concept and Cause of hunting and its prevention.
18th Rating and cooling of synchronous machines.
19th Applications of synchronous machines (as an alternator, as a synchronous
condenser).
20th Taking assignment and doubts of the students and to give clarifications on
the specific parts they have not understood.
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6th
21st Conducting class test-1.
22nd Salient constructional features of squirrel cage induction motors.
23rd Salient constructional features of slip ring 3-phase induction motors.
24th Principle of operation, slip and its significance.
7th
25th Locking of rotor and stator fields.
26th Rotor resistance, inductance, emf and current.
27th Relationship between copper loss and the motor slip.
28th Power flow diagram of an induction motor.
8th
29th Factors determining the torque.
30th Torque-slip curve, stable and unstable zones.
31st Effect of rotor resistance upon the torque slip relationship.
32nd Double cage rotor motor and its applications.
9th
33rd Starting of 3-phase induction motors using DOL starter.
34th Starting of 3-phase induction motors using star-delta, auto transformer
starters.
35th Causes of low power factor of induction motors.
36th Testing of 3-phase motor on no load and blocked rotor test and to find
efficiency.
10th
37th —Continued— Testing of 3-phase motor on no load and blocked rotor test
and to find efficiency.
38th Speed control of induction motor.
39th Harmonics and its effects.
40th Cogging and crawling in Induction Motors.
11th
41st Taking assignment and doubts of the students and to give clarifications on
the specific parts they have not understood.
42nd Conducting class test-2.
43rd Single phase induction motors; Construction characteristics and
applications.
44th —Continued—Single phase induction motors; Construction characteristics
and applications.
12th
45th Nature of field produced in single phase induction motor.
46th Split phase induction motor-Capacitors start and run motor.
47th Shaded pole motor.
48th Reluctance start motor.
13th 49th Alternating current series motor.
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50th Universal motor.
51st Single phase synchronous motor- Reluctance motor
52nd Hysteresis motor.
14th
53rd Taking doubts of the students and to give clarifications on the specific
parts they have not understood.
54th Construction and working principle of linear induction motor.
55th Construction and working principle of stepper motor.
56th Construction and working principle of servomotor.
15th
57th Construction and working principle of submersible motor.
58th Introduction to energy efficient motors.
59th Taking doubts of the students and to give clarifications on the specific
parts they have not understood.
60th Checking of Note Book.
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Lesson Plan
Name of the faculty : Jagdish Chander
Discipline : Electrical Engg.
Semester : 5th
Subject : ELECTRICAL MACHINES-II (EM-II)
Lesson Plan Duration : 15 weeks
Work Load : Practical — 03
Week
Practical
Practical Day
Topic
1st 1st Demonstration of revolving field set up by a 3-phase wound stator.
2nd 2nd To plot relationship between no load terminal voltage and excitation current in a synchronous generator at constant speed.
3rd 3rd Determination of the relationship between the voltage and load current of an alternator, keeping excitation and speed constant.
4th 4th Determination of the regulation and efficiency of alternator from the open circuit and short circuit test.
5th 5th Synchronization of polyphase alternators and load sharing.
6th 6th Practical file checking and taking doubts of the students and to give
clarifications on the specific parts they have not understood.
7th 7th Determination of the effect of variation of excitation on performance of a
synchronous motor.
8th 8th Study of ISI/BIS code for 3-phase induction motors.
9th 9th Perform at least two tests on a 3- phase induction motor as per BIS code.
10th 10th —Continued— Perform at least two tests on a 3- phase induction motor as per BIS code.
11th 11th Practical file checking and taking doubts of the students and to give
clarifications on the specific parts they have not understood.
12th 12th Determination of efficiency by (a) no load test and blocked rotor test on an induction motor (b) direct loading of an induction motor (refer BIS code).
13th 13th Determination of effect of rotor resistance on torque speed curve of an
induction motor.
14th 14th To study the effect of a capacitor on the starting and running of a single-phase induction motor by changing value of capacitor and also to reverse the direction of rotation of a single phase induction motor.
15th 15th Practical file checking and conducting viva-voce.
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Lesson Plan
Name of the faculty : Jagdish Chander
Discipline : Electrical Engg.
Semester : 5th
Subject : Industrial Electronics and Control of Drives (IECD)
Lesson Plan Duration : 15 weeks
Work Load : Lectures — 04
Week
Theory
Lecture Day
Topic (including assignment/test)
1st
1st Construction and working principles of an SCR, two transistor analogy and characteristics of SCR.
2nd Characteristics, specifications and rating of SCR.
3rd Construction, working principles and V-I characteristics of DIAC.
4th Construction, working principles and V-I characteristics of TRIAC.
2nd
5th Construction, working principles and V-I characteristics of Quadriac.
6th Basic idea about the selection of heat sinks for SCR and TRIACS.
7th Methods of triggering a Thyristor. Study of triggering circuits.
8th —Continued— Methods of triggering a Thyristor. Study of triggering
circuits.
3rd
9th UJT, its Construction, working principles and V-I characteristics.
10th UJT relaxation oscillator.
11th Commutation of Thyristors (Concept).
12th Series and parallel operation of Thyristors.
4th
13th Applications of SCR, TRIACS and Quadriac such as light intensity control, speed control of DC and universal motor.
14th Applications of SCR, TRIACS and Quadriac such as fan regulator, battery
charger.
15th dv/dt and di/dt protection of SCR.
16th Taking assignment and doubts of the students and to give clarifications on
the specific parts they have not understood.
5th
17th Single phase half wave controlled rectifier with resistive load and inductive load, concept of free wheeling diode.
18th Single phase half controlled full wave rectifier.
19th Single phase fully controlled full wave bridge rectifier.
20th Single phase full wave centre tapped rectifier.
6th 21st Three phase full wave half controlled bridge rectifier.
22nd Three phase full wave fully controlled bridge rectifier.
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23rd Conducting class test-1.
24th Taking doubts of the students and to give clarifications on the specific
parts they have not understood.
7th
25th Inverter-introduction, working principles.
26th Voltage and current driven series and parallel inverters and applications.
27th —Continued— Voltage and current driven series and parallel inverters and
applications.
28th Doubts taking session for Inverter.
8th
29th Choppers-introduction, types of choppers.
30th Types of choppers and their working principles and applications.
31st —Continued— Types of choppers and their working principles and
applications.
32nd Doubts taking session for Choppers.
9th
33rd Dual converters-introduction, working principles and applications.
34th —Continued—Dual converters-introduction, working principles and
applications.
35th Doubts taking session for Dual converters.
36th Cyclo-converters- introduction, types
10th
37th Types of Cyclo-converters and their working principles and applications.
38th —Continued—Types of Cyclo-converters and their working principles and
applications.
39th Doubts taking session for Cyclo-converters.
40th Conducting class test-2.
11th
41st Taking assignment and doubts of the students and to give clarifications on
the specific parts they have not understood.
42nd DC drives control.
43rd Half wave drives.
44th Full wave drives.
12th
45th Chopper drives.
46th AC drives control.
47th Phase control.
48th Variable frequency a.c. drives.
13th
49th Constant V/F application.
50th Voltage controlled inverter drives.
51st Constant current inverter drives.
52nd Cyclo convertors controlled AC drives.
14th 53rd Slip control AC drives.
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54th Taking doubts of the students and to give clarifications on the specific parts they have not understood.
55th UPS, Stabilizers, SMPS.
56th UPS online, off line.
15th
57th Storage devices (batteries) and their maintenance.
58th —Continued—Storage devices (batteries) and their maintenance.
59th Taking doubts of the students and to give clarifications on the specific
parts they have not understood.
60th Checking of Note Book.
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