Specimen of lesson Plan Name of the Faculty : Sh.Inderjeet Singh Dhindsa Discipline : Electronics and Communication Engg. Semester : Vth Subject : CONSUMER ELECTRONICS

Lesson Plan Duration : July-Nov-2018 Work Load (Lecture/ Practical) per week (in hours): 03 HOURS (Lecture) 03 Hours per Group

(PRACTICAL)

Week

Theory Practical Lecture

day Topic (including assignment/ test) Topic

1st

1 Audio Systems:

To plot the frequency response of a Microphone

2

Microphones and Loudspeakers

3

Carbon, moving coil, cordless microphone

2nd

4 Direct radiating and horn loudspeaker

To plot the frequency response of a Microphone

5

Multi-speaker system

6

Assignment

3rd

7 Problem Taking

To plot the frequency response of a Loud Speaker

8

Class Test

9

Sound Recording

4th

10 Magnetic Recording

To plot the frequency response of a Loud Speaker

11

Digital Recording

12

Optical Recording ( CD system and DVD)

5th

13 Television

Trouble shooting of CD/DVD Player

14

Monochrome TV

15

Elements of TV communication system

6th

16 Scanning and its need

Trouble shooting of CD/DVD Player

17

Need of synchronizing and blanking pulses, VSB

18

Composite Video Signal

7th

19 Picture Tube

Practical file Checking and viva- voice

20

Camera Tube : Vidicon and Plumbicon

21

TV Receiver: Block diagram, function of each block,

8th

22 waveform at input and output of each block To observe the wave

forms and measure voltage of B/W TV Receiver at different points

23

Assignment

24

Problem Taking

9th

25 Class Test To observe the wave

forms and measure voltage of B/W TV Receiver at different points

26

Colour Television

27

Primary, secondary colours

10th

28 Concept of Mixing, Colour Triangle To observe the

waveforms and measure voltages of colour TV Receiver at different points

29

Camera tube

30

PAL TV Receiver

11th

31 Concept of Compatibility with Monochrome To observe the

waveforms and measure voltages of colour TV Receiver at different points

32 Receiver

33 NTSC, PAL, SECAM system ( brief comparison)

12th

34 Assignment

Fault finding of colour T.V

35 Problem Taking

36 Class Test

13th

37 LCD and LED Television: Basic principle and working of LCD and LED TV

Fault finding of colour T.V

38 Assignment

39 Problem Taking

14th

40 Class Test

DTH System

41 Cable Television: Working of Cable TV, DTH, HDTV

42 Cable Television: Working of Cable TV, DTH, HDTV

15th

43 Assignment

Scanner

44 Problem Taking

45 Class Test

16th

46 Scanner

Revision

47 Digital Camera

48 VCD/DVD

Specimen of lesson Plan

Name of the Faculty : Sh. Sandeep Goel

Discipline : Electronics and Communication Engg.

Semester : Vth

Subject POWER ELECTRONICS

Lesson Plan Duration : July-Nov-2018 Work Load (Lecture/ Practical) per week (in hours): 03 HOURS (Lecture) 03 Hours per Group (PRACTICAL)

Week

Theory Practical

Lecture day Topic (including assignment/ test) Topic

1st

1 Introduction about Subject, Construction, Working principle of SCR

To plot V-I characteristic of an SCR

2 two transistor analogy of SCR, V-I characteristics of SCR.

3 SCR specifications and ratings, Different methods of SCR triggering

2nd

4 Different commutation circuits for SCR.

To plot V-I characteristics of TRIAC.

5 Series and parallel operation of SCR

6 Construction and working principle of DIAC

3rd

7 TRIAC and their V-I characteristics

To plot V-I characteristics of UJT

8 Construction, working principle of UJT, V-I characteristics of UJT. UJT as relaxation oscillator

9 Brief introduction to Gate Turn off thyristor (GTO), Programmable Uni-junction Transistor (PUT), MOSFET

4th

10 Basic idea about the selection of Heat sink for thyristors.

To plot V-I characteristics of DIAC.

11 Applications such as light intensity control

12 speed control of universal motors

5th

13 fan regulator, battery charger.

Viva 14 fan regulator, battery charger.

15 Revision

6th

16 1st Sessional Test Study of UJT relaxation oscillator. And observe I/P and O/P wave forms

17 Single phase half wave controlled rectifier with load (R, R-L)

18 Single phase half wave controlled rectifier with load (R, R-L)

7th

19 Single phase half controlled full wave rectifier with load (R, R-L)

Viva 20 Single phase half controlled full wave rectifier with load (R, R-L)

21 Fully controlled full wave bridge rectifier

8th

22 Single phase full wave centre tap rectifier. Observation of wave shape of voltage at relevant point of single-phase half wave controlled rectifier and effect of change of firing angle.

23 Principle of operation of basic inverter circuits, concepts of duty cycle

24 series and parallel Inverters and their applications

9th

25 Introduction, types of choppers (Class A, Class B Observation of wave shapes of voltage at relevant point of single phase full wave controlled rectifier and effect of change of firing angle.

26 Class C and Class D

27 Step up and step down choppers

10th

28 Dual Converters

Viva 29 cyclo converters

30 Introduction, types and basic working principle of dual converters and cyclo converters and their applications.

11th

31 Revision 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.

32 2nd Sessional Test

33 DC drive contro

12th

34 Half wave drives 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.

35 Full wave drives

36 Chopper drives (Speed control of DC motor using choppers)

13th 37 AC drive control Installation of UPS system and routine

38 Phase control maintenance of batteries.

39 Constant V/F operation

14th

40 Cycloconverter

Viva 41 Inverter drives.

42 UPS: Block Diagram & specifications of on-line

15th

43 off line

Viva 44 Smart UPS

45 Concept of high voltage DC transmission

16th

46 Revision

Viva 47 Revision

48 3rd Sessional test

Specimen of lesson Plan

Name of the Faculty : Sh. Ravinder Singh Punia

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)

Week

Theory Practical

Lecture day Topic (including assignment/ test) Topic

1st

1 Introduction about Subject

To set up fiber analog link

2 Ch-1. Historical perspective, basic communication systems

3 Optical frequency range, advantages of optical fiber communication

2nd

4 Application of fiber optic communication

To set up fiber analog link

5 Electromagnetic spectrum used, Advantages of OFC

6 Principle of light penetration

3rd

7 reflection, critical angle

To set up optic digital link

8 Assignment/Class work

9 Revision

4th

10 Ch-2. Fiber types construction

To set up optic digital link

11 multimode and mono-mode fibers

12 step index and graded index fibers

5th

13 acceptance angle and types of optical fiber cables

To measure various losses in optical fibers

14 Assignment/Class work

15 Revision

6th

16 1st Sessional Test

To observe and measure the splice or connector loss

17 Ch-3. Absorption Losses

18 Scattering Losses

7th

19 Radiation losses

To measure and calculate numerical aperture of optical fiber

20 Connector losses, Bending loses

21 Dispersion: Types and its effect on data rate

8th

22 Material Dispersion, Waveguide dispersion

To measure and calculate numerical aperture of optical fiber

23 Model dispersion,total dispersion and bit rate

24 Revision

9th

25 Ch-4. Characteristics of light source used in optical communication,

To observe characteristics of optical source

26 Principle of operation of LED

27 different type of LED structures used and their brief description

10th

28 LED driving circuitry

To observe characteristics of optical detector

29 Injection Laser diode, principle of operation

30 different injection laser diodes, comparison of LED and ILD,

11th

31 non-semiconductor laser

To connect a fiber with connector at both ends

32 Characteristics of photo detectors used in optical communication

33 PIN diode and avalanche photo diode (APD), their brief description

12th

34 Revision

To connect a fiber with connector at both ends

35 2nd Sessional Test

36 Ch-5. Fiber alignment and joint losses

13th

37 splicing, types of splices To identify and use various components

and tools used in optical fiber

communication

38 types of connectors used

39 couplers, three and four port coupler,

14th

40 Star coupler, fiber optic switch. To identify and use various components

and tools used in optical fiber

communication

41 Revision

42 Ch-6. Optical transmitter circuit, optical receiver circuit, optical power budgeting

15th

43 Multiplexing Methods used. Modulation methods used

A visit to nearby Telephone Exchange

44 Introduction to SDH

45 SONET

46 Revision

Revision of Experiments 47 Revision

48 3rd Sessional test

Specimen of lesson Plan

Name of the Faculty : Smt. Suchet Kumari

Discipline : Electronics and Communication Engg.

Semester : Vth

Subject : MICROWAVE AND RADAR ENGINEERING

Lesson Plan Duration : July-Nov-2018

Work Load (Lecture/ Practical) per week (in hours): 03 HOURS (Lecture) 03 Hours per Group (PRACTICAL)

Week

Theory Practical

Lecture day Topic (including assignment/ test) Topic

1st

1 Introduction to microwaves and its applications

Introduction about microwave component

2 Classification on the basis of its frequency bands (HF, VHF, UHF, L, S, C, X, KU, KA, mm, SUB, mm)

3 Rectangular and circular wave guides and their applications

2nd

4 Rectangular and circular wave guides and their applications

Introduction about microwave component

5 Mode of wave guide;

6 Propagation constant of a rectangular wave guide, cut off wavelength

3rd

7 guide wavelength and their relationship with free space wavelength (no mathematical derivation). Impossibility of TEM mode in a wave guide.

To measure electronics and mechanical tuning range of a reflex klystron

8 guide wavelength and their relationship with free space wavelength (no mathematical derivation). Impossibility of TEM mode in a wave guide.

9 Constructional features, characteristics and application of tees

4th

10 Constructional features, characteristics and application of tees

To measure VSWR of a given load.

11 bends, matched termination,

12 twists, detector, mount, slotted section,

5th

13 directional coupler,

To measure the Klystron frequency by slotted section method

14 fixed and variable attenuator,

15 isolator, circulator and duplex coaxial to wave guide adapter.

6th

16 1st Sessional Test To measure the Klystron frequency by slotted section method 17 Basic concepts of thermionic emission and vacuum tubes

18

Effects of inter- electrode capacitance, Lead Inductance and Transit time on the high frequency performance of conventional vacuum tubes, and steps to extend their high frequency operations.

7th

19

Effects of inter- electrode capacitance, Lead Inductance and Transit time on the high frequency performance of conventional vacuum tubes, and steps to extend their high frequency operations. To measure the

directivity and coupling of a directional coupler. 20 Multi cavity klystron

21 Reflex klystron

8th

22 Multi-cavity magnetron

To plot radiation pattern of a horn antenna in horizontal and vertical planes.

23 Traveling wave tube

24 Gunn diode and

9th

25 Impatt diode

To plot radiation pattern of a horn antenna in horizontal and vertical planes.

26 REVISION

27 Microwave antennas Structure characteristics and typical applications

10th

28 Microwave antennas Structure characteristics and typical applications

To verify the properties of magic tee.

29 Horn and Dish antennas

30 Horn and Dish antennas

11th

31 Block diagram and working principles of microwave communication link

To verify the properties of magic tee.

32 2nd Sessional Test

33 Troposcatter Communication: Troposphere and its properties

12th

34 Troposcatter Communication: Troposphere and its properties

Revision & Viva 35 Tropospheric duct formation and propagation, troposcatter propagation

36 Tropospheric duct formation and propagation, troposcatter propagation

13th

37 Introduction to radar, its various applications

Revision & Viva 38 radar range equation (no derivation) and its applications.

39 Block diagram and operating principles of basic pulse radar

14th

40 Concepts of ambiguous range, radar area of cross-section and its dependence on frequency

Revision & Viva 41 Block diagram and operating principles of CW (Doppler)

42 FMCW radars, and their applications.

15th

43 Block diagram and operating principles of MTI radar.

Revision & Viva 44 Radar display- PPI

45 Introduction to VSAT transponders

46 VSAT and its features

Revision & Viva 47 multiple access techniques

48 3rd Sessional Test

Specimen of lesson Plan

Name of the Faculty : Sh. K.P. SINGH

Discipline : Electronics and Communication Engg.

Semester : Vth

Subject : ENVIRONMENTAL EDUCATION

Lesson Plan Duration : JULY-NOV--2018

Work Load (Lecture/ Practical) per week (in hours): 03 HOURS (Lecture)

Week

Theory Practical

Lecture day

Topic (including assignment/ test) Topic

1st

1 Introduction about subject, Definition N/A

2 Scope and Importance of Environmental Education

3 Basics of ecology

2nd

4 biodiversity

5 eco system and sustainable development

6 Sources of pollution

3rd

7 natural and manmade, causes, effects and control measures of pollution

8 air

9 Water

4th

10 noise

11 soil

12 radioactive

5th

13 nuclear

14 their units of measurement

15 Revision

6th

16 1st Sessional Test

17 Solid waste management – Causes

18 effects

7th

19 control measures of urban

20 industrial waste

21 industrial waste

8th

22 industrial waste

23 Mining and deforestation – Causes

24 effects

9th

25 control measures

26 Environmental Legislation - Wate

27 prevention and control of pollution) Act 1974

10th

28 Air (Prevention

29 Control of Pollution) Act 1981

30 Environmental Protection Act 1986

11th

31

Environmental Protection Act 1986

32 2nd Sessional Test

33 Role and Function of State Pollution Control Board

12th

34 Role and Function of State Pollution Control Board

35 Role and Function of State Pollution Control Board

36 Environmental Impact Assessment

13th

37 Role of Non-conventional Energy Resources (Solar Energy

38 Wind Energy

39 Bio Energy,

14th

40 Hydro Energy)

41 Current Issues in Environmental Pollution – Global Warming

42 Green House Effec

15th

43 Depletion of Ozone Layer

44 Recycling of Material,

45 Environmental Ethics

16th

46 Rain Water Harvesting

47 Maintenance of Groundwater, Acid Rain, Carbon Credits.

48 3rd Sessional Test