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LESSON PLAN
NAME OF FACULTY : Dr V. M Kalra
DISCIPLINE : Electronics & Communication Engg
SEMESTER : 5th
SUBJECT : EMPLOYABILITY SKILLS –I
LESSON PLAN DURATION : 15 WEEKS
WORK LOAD (LECTURE/PRACTICAL) PER WEEK : (3 Practical’s of 2Hrs Duration) per WEEK
week Practical
day
Topic
1 st week 1 Writing skills Official and business correspondence
2 nd
Week
2 Job application - covering letter and resume (Cont.)
3 rd
week
3 Job application - covering letter and resume.
4 th
week
4 Report writing - key features and kinds.
5 th
week
5 Oral Communication Skills Giving advice
6 th
week
6 Making comparisons /Viva Voce
7 th
week
7 Agreeing and disagreeing
8 th
week
8 Taking turns in conversation
9 th
week
9 Fixing and cancelling appointments (Cont.)
10th
week
10 Fixing and cancelling appointments /Viva Voce & evaluation
11th
week
11 Generic Skills Stress management
12th
week
12 Time management
13th
week
13 Negotiations and conflict resolution
14th
week 14 Team work and leadership qualities
15th
week 15 Viva voce and evaluation
Lesson Plan
Name of Faculty : Sanjay Puri
Discipline : Electronics and Communication Engg.
Semester : Fifth
Subject : Power Electronics
Lesson Plan Duration : 16 weeks (July 2018 to November2018)
**Work Load (Lecture / Practical) per week (in hours) : 3 hrs / 9 hrs
Week Theory Practical
Lecture Day Topic (including assignment / test)
Practical Day Topic
1st 1st Introduction to thyristors and other Power Electronics Devices
To plot V-I characteristics of DIAC.
2nd Calculation of power,resistance of load
3rd Construction, Working principle of SCR,
2nd 4th V-I characteristics of SCR To plot V-I characteristic of an SCR.
5th two transistor analogy of SCR
6th SCR specifications and ratings
3rd 7th SCR specifications and ratings To plot V-I characteristics of TRIAC
8th Comparison of BJT and SCR
9th Different commutation circuits for SCR
4th 10th Different commutation circuits for SCR contd.
To plot V-I characteristics of UJT.
11th Construction and working principle of DIAC, TRIAC and their V-I characteristics
12th TRIAC V-I characteristics contd.
5th 13th Construction, working principle of UJT, V-I characteristics of UJT.
Revision of practicals
14th UJT as relaxation oscillator.
15th Different methods of SCR triggering
6th 16th Different methods of SCR triggering contd.
Study of UJT relaxation oscillator and waveforms
17th fan regulator
18th Lamp intensity control circuit
7th 19th Applications such as LDR based circuit, speed control of universal motors,
Observation of wave shape of voltage at relevant point of single-phase half wave controlled rectifier and effect of change of firing angle
20th automatic battery charger ,time delay relay etc.
21st Basic idea about the selection of Heat sink for thyristors.
8th 22nd Brief introduction to Gate Turn off thyristor (GTO), Programmable Uni-junction Transistor (PUT)
Observation of wave shapes of voltage at relevant point of single phase full wave controlled rectifier and effect of change of firing angle
23rd MOSFET
24th Revision
9th 25th Test no.1 Observation of wave shapes and measurement of voltage at relevant points in TRIAC based AC phase control circuit for Varying lamp intensity and AC fan speed control.
26th
27th Controlled Rectifiers a) Single phase half wave controlled rectifier with load (R, R-L)
10th 28th Single phase half controlled full wave rectifier with load (R, R-L)
revision
29th Fully controlled full wave bridge rectifier.
30th Single phase full wave centre tap rectifier
11th 31st revision Viva voce
32nd Principle of operation of basic inverter circuits, concepts of duty cycle, series inverter
33rd Parallel inverter and applications
12th 34th Introduction, types of choppers (Class A, Class B, Class C and Class D). Step up and step down choppers.
35th Introduction, types and basic working principle of dual converters.
36th cyclo converters and their applications
13th 37th Test no 2 Installation of UPS system and routine
maintenance of batteries
38th
39th DCmotors,characteristics,armature and field control
14th 40th DC drive control i) Half wave drives revision
41st ii) Full wave drives
42nd iii) Chopper drives (Speed control of DC motor using choppers)
15th 43rd Phase control revision
44th Cycloconverter drives
45th ii) Constant V/F operation
16th 46th ii) Constant V/F operation revision
47th Un interrupted Power Supply (UPS)
48th UPS: Block Diagram & specifications of on-line
17th 49th off line and Smart UPS revision
50th Concept of high voltage DC transmission
51st High voltage DC transmission:advantages
18th 52nd Test No 3 Practical exam
53rd revision
54th revision
Lesson Plan
*Name of the Faculty : Dr. Rajesh Kumar Discipline : Electronics & Comm. Semester : Vth Subject : Consumer Electronics Lesson Plan Duration : 15 weeks **Work Load(Lecture/ Pracitcal) per week (in hours) :
Week Theory Practical
Lecture day Topic (including assignment/test) Practical Day Topic
1
1st Audio Systems-- Introduction to Microphones, Carbon Microphone
Introduction
2nd Moving coil, cordless microphone
3rd Direct Radiating Loudspeakers
2
1st
Multispeaker system
To plot frequency response of microphone
2nd Speaker system contd.
3rd Magnetic sound recording
3 1st Digital and optical recording
2nd TELEVISION-- basic elements contd.
3rd Scanning and its need
4 1st scanning contd. To plot frequency
response of loudspeaker
2nd Horizontal & Vertical scanning
3rd synch. & Blanking pulses 5 1st topic contd.
2nd topic contd. contd.
3rd composite video signal
6 1st topic contd. To Observe wave forms of B&W tv
receiver
2nd topic contd.
3rd Picture tubes 7 1st Camera tubes, vidicon tube
2nd Plumbican camera tube contd.
3rd Details of Monochrome TV receiver
8 1st topic contd. To Observe wave forms of colour tv
receiver
2nd topic contd.
3rd Colour TV-- basics pf colours
9 1st Primary & Secondary colours, Mixing
of colours
2nd topic contd. contd.
3rd camera tubes
10 1st
topic contd.
trouble shooting of CD player 2nd PAL receiver
3rd topic contd. 11 1st compatibility
2nd NTSC, PAL & SECAM systems contd.
3rd topic contd.
12 1st
topic contd.
Fault finding of colour TV
2nd LCD T.V
3rd L.E.D.T.V
13 1st topic contd.
2nd CATV contd.
3rd DTH
14 1st HDTV
2nd Principle of scanner Demo of DTH
3rd Digital camera
15 1st VCD & DVD
2nd Revision Demo of scanner
3rd Revision
Lesson Plan
Name of the Faculty : N.K.Yadav
Discipline : Electronics & Comm. Engg.
Semester : Vth
Subject : ENVIRONMENTAL EDUCATION
Lesson Plan Duration : 15 weeks from 16.7.18 to
Work Load(Lecture per week in hours) : 3 Hours
Week
Theory
Lecture day Topic (including assignment/test)
1
1st Introduction of subject
2nd Definition
3rd Scope of Env. Education 2 1st Importance of Env. Education
2nd Basics of Ecology
3rd Biodiversity
3 1st Ecosystem
2nd Sources of Pollution
3rd Types-natural and man made 4 1st Air Pollution
2nd Air Pollution(cond.)
3rd Water Pollution 5 1st Water Pollution(cond.)
2nd Soil Pollution
3rd Noise and Radio-active Pollution 6 1st Solid waste management
2nd Causes and effects
3rd Control measures of urban waste 7 1st Industrial waste
2nd Mining
3rd Effects of mining 8 1st Deforestation
2nd Effects of deforestation
3rd Environmental Legistation
9 1st Water act 1974
2nd Air act 1981
3rd Environmental protection act 1986
10 1st
Role and function of state pollution control board
2nd Environmental impact assessment(or EIA)
3rd (contd.) 11 1st (contd.)
2nd Non conventional energy sources
3rd Solar energy 12
1st Wind energy
2nd Bio-gas energy
3rd Hydro energy
13 1st Current issues in environmental pollution
2nd Global warming
3rd Green house effect 14 1st Depletion of ozone layer
2nd Recycling of material, Env. Ethics
3rd Rain water harvesting
15 1st Acid rain,Carbon credits
2nd Revision
3rd Revision
lesson Plan
Name of the Faculty : Sh. Ranjan Pannu
Discipline : Electronics and Communication Engg.
Semester : Vth
Subject : OPTICAL FIBER COMMUNICATION
Lesson Plan Duration : July-Nov-2018
Work Load (Lecture/ Practical) per week (in hours): 03 HOURS (Lecture) 03 Hours per Group(PRACTICAL)
Theory Practical
Lecture
Week day Topic (including assignment/ test) Topic
1 Introduction about Subject
1st
To set up fiber analog 2 Ch-1. Historical perspective, basic communication systems
link
3
Optical frequency range, advantages of optical fiber
communication
4 Application of fiber optic communication
2nd
To set up fiber analog 5 Electromagnetic spectrum used, Advantages of OFC
link
6 Principle of light penetration
7 reflection, critical angle
3rd
To set up optic digital 8 Assignment/Class work
link
9 Revision
10 Ch-2. Fiber types construction
4th
To set up optic digital 11 multimode and mono-mode fibers
link
12 step index and graded index fibers
13 acceptance angle and types of optical fiber cables
5th
To measure various 14 Assignment/Class work
losses in optical fibers
15 Revision
16 1st Sessional Test
6th
To observe and
17 Ch-3. Absorption Losses measure the splice or
connector loss
18 Scattering Losses
19 Radiation losses
7th
To measure and
20 Connector losses, Bending loses calculate numerical
aperture of optical fiber
21 Dispersion: Types and its effect on data rate
22 Material Dispersion, Waveguide dispersion
8th
To measure and
23 Model dispersion,total dispersion and bit rate calculate numerical
aperture of optical fiber
24 Revision
25
Ch-4. Characteristics of light source used in optical
communication,
To observe
9th
26 Principle of operation of LED characteristics of optical
source
27
different type of LED structures used and their brief
description
28 LED driving circuitry
10th
To observe
29 Injection Laser diode, principle of operation characteristics of optical
detector
30
different injection laser diodes, comparison of LED and
ILD,
31 non-semiconductor laser
11th
32 Characteristics of photo detectors used in optical To connect a fiber with
communication connector at both ends
33
PIN diode and
avalanche photo diode (APD), their brief description
34 Revision
12th
To connect a fiber with 35 2nd Sessional Test
connector at both ends
36 Ch-5. Fiber alignment and joint losses
37 splicing, types of splices
To identify and use
13th
various components
38 types of connectors used and tools used in
optical fiber
39 couplers, three and four port coupler,
communication
40 Star coupler, fiber optic switch.
To identify and use
14th
various components
41 Revision and tools used in
optical fiber
Ch-6. Optical transmitter circuit, optical receiver circuit,
42
communication
optical power budgeting
43 Multiplexing Methods used. Modulation methods used
15th
A visit to nearby 44 Introduction to SDH
Telephone Exchange
45 SONET
46 Revision
47 Revision Revision of Experiments
48 3rd Sessional test
SETH JAI PARKASH POLYTECHNIC, DAMLA ELECTRONICS & COMMUNICATION ENGG (AIDED) -5TH SEMESTER
Name of the Faculty : N.K.Yadav Discipline : Electronics & Comm. Engg. Semester : 5th Subject : Microwave & Radar Engg. Lesson Plan Duration : 15 weeks from 16/7/18 to
Work Load(Lecture/ Pracitcal per week in hours) : 3 Hours/ 2 Hours
Week Theory Practical
Lecture day
Topic (including assignment/test) Practical Day
Topic
1
1st Introduction to Microwaves: Introduction to microwaves,its advantages and applications
Introduction to microwave lab.
2nd Microwave frequency bands (HF, VHF, UHF, L, S, C, X, Ku,K, Ka, mm, Sub mm)
3rd
Wave guides: Introduction, types and modes of waveguide
2
1st Rectangular wave guides and their applications
1. To measure electronic & mechanical tuning range of
a reflex klystron
2nd
circular waveguide and their applications
3rd
Propagation constant of a rectangular wave guide, cut off wavelength, guide wavelength and their relationship with free space wavelength
3 1st
Dominant modes in TE and TM modes
cont. 2nd
Impossibility of TEM mode in a wave guide
3rd
Microwave Components: Constructional features, characteristics of E- Plane, H- Plane tees
4
1st Magic T- Hybrid junction,application of tees,
2. To measure VSWR of a given load
2nd Bends, matched termination, twists
3rd Detector, mount, slotted section 5
1st Directional coupler
Viva voce & record
SETH JAI PARKASH POLYTECHNIC, DAMLA ELECTRONICS & COMMUNICATION ENGG (AIDED) -5TH SEMESTER
2nd Fixed and variable attenuator checking
3rd Isolator, circulator
6 1st
duplex, coaxial to wave guide adapter.
3. To measure the Klystron frequency and guide wave length by slotted section method in TE1,0 mode.
2nd
Microwave Devices: Basic concepts of thermionic emission.
3rd Basic concept of vacuum tubes 7
1st Effects of inter-electrode capacitance, Lead Inductance on the high frequency performance of conventional vacuum tubes
cont.
2nd
Effect of Transit time on the high frequency performance of conventional vacuum tubes
3rd
Steps to extend their high frequency operations of vacuum tubes; Construction of multicavity klystron
8
1st Operating principle of multicavity klystron, characteristics & its applications
Revision
2nd
Construction, characteristics, operating
principle and typical applications of
Reflex klystron
3rd Construction of magnetron
9
1st operating principles,characteristics and typical applications of multicavity magnetron
4.To measure the directivity & coupling factor of a directional
coupler. 2nd
Construction, characteristics, operating principles and typical applications of Traveling wave tube
3rd
Construction, characteristics, operating
principle and typical applications of
Gunn diode and Impatt diode
10 1st Microwave antennas: Antenna
parameters
Cont. 2nd Structure, characteristics of Horn
Antenna
3rd
Structure, characteristics of Dish
Antenna, application of Horn and Dish
antennas
SETH JAI PARKASH POLYTECHNIC, DAMLA ELECTRONICS & COMMUNICATION ENGG (AIDED) -5TH SEMESTER
11
1st Microwave Communication systems: Block diagram and working principle
of microwave communication link.
Cont.
2nd Troposcatter Communication:
Troposphere and its properties
3rd Tropospheric duct formation and
propagation.
12 1st Troposcatter propagation
Viva voce & record checking 2nd
Radar Systems:Introduction to radar,
its various applications
3rd
Radar range equation and its
applications
13
1st Block diagram and operating principle
of basic pulse radar
5. To plot radiation pattern of a horn antenna in
horizontal and vertical planes 2nd
Concepts of ambiguous range, radar
area of cross-section and its
dependence on frequency
3rd Block diagram and operating principles of CW (Doppler) and their applications.
14
1st Block diagram and operating principle
of FMCW radar
6.To verify the properties of magic tee.
2nd Block diagram and operating principle of MTI radar
3rd Radar display-A-Scope, PPI
15 1st Introduction to VSAT transponders Viva voce & record
checking 2nd Multiple access techniques
3rd VSAT and its features