Lesson Plan ECE odd sem - gpsampla.ac.ingpsampla.ac.in/wp-content/uploads/2017/12/Lesson... · time...
Transcript of Lesson Plan ECE odd sem - gpsampla.ac.ingpsampla.ac.in/wp-content/uploads/2017/12/Lesson... · time...
DBSCR Govt. Polytechnic Education
Society, Sampla
ECE 3rd sem Lesson Plan
Name of Faculty : Jatin Kochar
Discipline : Electronics & Comm. Engg.
Semester : 3rd
Subject : ELECTRONIC INSTRUMENTS AND MEASUREMENT
Lesson Plan Duration : 16 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—03, Practical—03
Theory Practical
Week Lecture Topic (Including Assignment/ Test)
Practical Topic
Day Day
1
Measurement, method of measurement, types
of instruments
Measurement of
1st 2 Specifications of instruments Accuracy,
1st voltage, resistance,
precision
frequency using
3
Specifications of instruments sensitivity, digital multimeter
resolution, range, errors in measurement
4 sources of errors, limiting errors, Measurement of
2nd 5 loading effect, importance and applications of
2nd voltage, resistance,
standards and calibration
frequency using
6 Assignment / test digital multimeter
7 Principles of measurement of DC voltage Measurement of
3rd 8 Principles of measurement of DC current
3rd voltage, frequency,
9 Principles of measurement of AC voltage time period and
phase using CRO
10 Principles of measurement of AC current Measurement of
Principles of operation and construction of
voltage, frequency,
4th 11 permanent magnet moving coil (PMMC) 4th
time period and
instruments
phase using CRO
12 Moving iron type instruments
13 Assignment Practical file
14 Revision / test
5th
5th Checking and viva-
Construction and working of Cathode Ray
15
voice
Tube(CRT)
16
Block diagram description of a basic CRO and Measurement of
triggered sweep oscilloscope
voltage, frequency,
6th
6th
17 Front panel controls
time and phase using
18 Specifications of CRO and their explanation DSO
19 Measurement of current, voltage, frequency Measurement of
Measurement of current time period and phase
20
voltage, frequency,
7th using CRO
7th
time and phase using
Digital storage oscilloscope (DSO) block
21
DSO
diagram and working principle
22 Assignment / Problem Taking Measurement of Q of
8th 23 Class test
8th
a coil
24 Wheat stone bridge
25 AC bridges: Maxwell’s induction bridge Measurement of Q of
9th 26 Hay’s bridge, De-Sauty’s bridge,
9th
a coil
27 Schering bridge and Anderson bridge
10th 28 Bock diagram description of laboratory type
10th
RLC bridge, specifications of RLC bridge
29
Block diagram and working principle of Q Practical file
meter
Checking and viva-
30 Assignment voice
31 Problem Taking Measurement of
11th 32 Class test
11th resistance and
33 Explanation of block diagram specifications of inductance of coil
low frequency, RF generators
using RLC Bridge
34 pulse generator, function generator Measurement of
12th 35 Distortion factor meter
12th impedance using
36 Instrumentation amplifier: its characteristics, Maxwell Induction
need and working
Bridge
37 Instrumentation amplifier need and working To find the value of
13th 38 Assignment
13th unknown resistance
39 Comparison of analog and digital instruments using Wheat Stone
Bridge
40 Working principle of ramp, dual slope Measurement of
Working principle of integration type digital
41
distortion using
14th voltmeter 14th
Distortion Factor
Block diagram and working of a digital multi-
42
Meter
meter
43
Specifications of digital multi-meter and their
applications
Use of logic pulser
15th 44 Limitations of digital multi-meters 15th
and logic pobe
45 Working principle of logic probe, logic pulser
analyzer
46
Working principle of logic analyzer and
signature analyzer
16th
16th Revision
47 Revision
48 Revision
Lesson Plan
Name of Faculty : Prem Prakash
Discipline : Electronics & Comm. Eng.
Semester : 3rd
Subject : PRINCIPLES OF COMMUNICATION ENGINEERING Lesson Plan Duration : 16 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—03, Practical—03
Lecture Topic (Including Assignment/ Test
Practical Topic
Day Day
week 1
Introduction of Subject and Need for
modulation
1st 2
frequency translation and demodulation in 1st
General idea’s for lab
communication systems Equipment’s
3
Basic scheme of a modern communication
system
Derivation of expression for an amplitude To observe an AM
4 modulated wave Carrier and side band wave on CRO
components produced by a
Modulation index. Spectrum and BW of AM standard signal
5 Wave. Relative power distribution in carrier generator using
2nd and side bands
2nd internal and external
modulation
To measure the
6
Elementary idea of DSB-SC modulations and modulation index of
its application
the wave obtained in
above practical
7
Elementary idea of SSB-SC modulations and its To observe an AM
application
wave on CRO
8
Elementary idea of ISB and VSB modulations produced by a
and its application
standard signal
generator using
3rd
3rd internal and external
modulation
9
Comparison of DSB- SC ,SSB- SC, ISB, and VSB To measure the
modulation
modulation index of
the wave obtained in
above practical
Expression for frequency modulated wave and To obtain an AM wave
10 its frequency spectrum (without Proof and from a square law
analysis of Bassel function) modulator circuit and
Modulation index, maximum frequency observe
4th 11 deviation and deviation ratio, BW of FM 4th waveforms
signals, Carson’s rule b) To measure
the modulation index
12 Effect of noise on FM carrier. Noise triangle of the obtained wave
form
5th 13 Role of limiter, Need for pre-emphasis and de-
5th To obtain an AM wave
emphasis, capture effect. from a square law
14
Comparison of FM and AM in communication modulator circuit and
systems
observe waveforms
To measure the
15 Assignment / Revision
modulation index of
the obtained wave
form
16 Test To obtain an FM wave
17
Derivation of expression for phase modulated and measure the
wave modulation index
frequency deviation
6th 6th for different
18
Derivation of expression for phase modulated modulating signals.
wave modulation index
19 Comparison with frequency modulation. To obtain an FM wave
20 Assignment /Quiz and measure the
frequency deviation
7th Circuit Diagram and working operation of
7th for different
21
modulating signals.
Collector Modulator
22
Circuit Diagram and working operation of
Base Modulator
To obtain
Circuit Diagram and working operation of
8th 23 8th modulating signal
Square Low Modulator
from FM detector
24 Circuit Diagram and working operation of
Balanced Modulator
25 Revision
26
Working principles and applications of
9th reactance modulator 9th Revision
27
Working principles and applications of
varactor diode modulator
28
Working principles and applications of VCO To observe the
modulator
sampled signal and
29
Working principles and applications of compare it with the
Armstrong phase modulator
analog input signal.
10th 10th Note the effect of
Stabilization of carrier using AFC (Block
varying the sampling
30
pulse width and
diagram approach)
frequency on the
sampled output
31 Assignment / Test To observe and note
32
Principles of demodulation of AM wave using the pulse amplitude
diode detector circuit
modulated signal
11th
11th (PAM) and compare
them with the
33 concept of Clipping corresponding
analog input signal
12th 34 formula for RC time constant for minimum
12th Revision
distortion (no derivation)
35 Assignment
36 Expert Lecture
37
Basic principles of FM detection using slope To observe PPM and
detector
PWM ignal and
Principle of working of the Foster-Seeley
compre it with the
13th 38 discriminator FM demodulator (No 13th
analo input signal
Derivation)
39
Principle of working of the Ratio detector FM
demodulator (No Derivation)
40
Block diagram of Phase locked Loop (PLL) FM
demodulator (No Derivation)
14th 41 Revision / Assignment
14th Revision
Statement of sampling theorem and
42 elementary idea of sampling frequency for
pulse modulation
43
Basic concepts of time division multiplexing
(TDM)
15th
15th Revision/ viva
44 frequency division multiplexing (FDM)
45 Pulse Amplitude Modulation (PAM)
46 Pulse Position Modulation (PPM)
16th 47 Pulse Width Modulation (PWM) 16th Revision/ viva
48 Revision
Lesson Plan
Name of Faculty : Ms. Tarni
Discipline : ECE
Semester : 3rd
Subject : Digital Electronics Lesson Plan Duration : 16 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—03, Practical—03
Theory Practical
Week Lecture
Topic (Including Assignment/ Test Practical
Topic
Day Day
1 Introduction Verification and
2 Distinction between analog and digital signal. interpretation of truth
tables for AND, OR,
1st 1st NOT NAND, NOR and
3 Applications and advantages of digital signals Exclusive OR (EXOR)
and Exclusive NOR
(EXNOR) gates
4 Assignment Verification and
5 Binary interpretation of truth
tables for AND, OR,
2nd 2nd NOT NAND, NOR and
6 octal and hexadecimal number system Exclusive OR (EXOR)
and Exclusive NOR
(EXNOR) gates
7
conversion from decimal and hexadecimal to
binary and vice-versa
Binary addition and subtraction including Realisation of logic
3rd 8
binary points. 1’s and 2’s complement 3rd functions with the help
method of addition/subtraction.
of NAND or NOR gates
9 Assignment
10
Concept of code, weighted and non-weighte
codes
To design a half adder
examples of 8421, BCD, excess-3 and Gray
11
using XOR and NAND
4th code
4th
gates and verification
Concept of parity, single and double parity
of its operation
12 and error detection
13 Assignment Construction of a full
14 Concept of negative and positive logic adder circuit using
5th 5th XOR and NAND gates
Definition, symbols and truth tables of NOT,
15
and verify
AND, OR, NAND, NOR, EXOR Gates
its operation
16 NAND and NOR as universal gates Revision of
6th 17 Introduction to TTL and CMOS logic families 6th
Experiments
18 Assignment
19 Logic Simplification Revision of
7th
Postulates of Boolean algebra, De Morgan’s 7th
20 Experiments
Theorems
21
Implementation of Boolean (logic) equation
with gates
22 Assignment Verification of truth
23 Half adder and Full adder circuit table for positive edge
triggered, negative
8th
8th edge triggered, level
triggered IC flip-flops
24 design and implementation
(At least one IC each of
D latch, D flip-flop, JK
flip-flops).
25
Decoders, Multiplexers, Multiplexers and Verification of truth
Encoder
table for positive edge
26
Four bit decoder circuits for 7 segment triggered, negative
9th display and decoder/driver ICs
9th edge triggered, level
triggered IC flip-flops
27
Basic functions and block diagram of MUX and (At least one IC each of
DEMUX with different ICs
D latch, D flip-flop, JK
flip-flops).
28 Basic functions and block diagram of Encoder
10th 29 Assignment
10th Revision of
30 Concept and types of latch with their working Experiments
and applications
31
Operation using waveforms and truth tables Verification of truth
of RS, T, D, Master/Slave JK flip flops
table for encoder and
11th 32 Difference between a latch and a flip flop
11th
decoder ICs, Mux and
Introduction to Asynchronous and
33
DeMux
Synchronous counters
34 Binary counters To design a 4 bit SISO,
35 Divide by N ripple counters SIPO, PISO, PIPO shift
12th
12th registers using JK/D
flip flops and
36 Decade counter
verification of their
operation
37 Ring counter
13th 38 Assignment
13th Revision of
39 Introduction and basic concepts including Experiments
shift left and shift right
serial in serial out, parallel in serial out
40 parallel in parallel out parallel in parallel out To design a 4 bit ring
Universal shift register
14th
14th counter and verify its
41 Working principle of A/D and D/A converters
operation.
42 Stair step Ramp A/D converter, Dual Slope
A/D converter
43 Successive Approximation A/D Converter Use of Asynchronous
44 Binary Weighted D/A converter
15th
15th Counter ICs (7490 or
R/2R ladder D/A converter, Applications of
45
7493)
A/D and D/A converter
Memory organization, classification of Revision of
16th 46 semiconductor memories (RAM, ROM, PROM, 16th
Experiments
EPROM, and EEPROM)
47 static and dynamic RAM 48 introduction to 74181 ALU IC
LESSON PLAN
Name of Faculty : Manish Aggarwal
Discipline : Electronics & Communication Engg.
Semester : 3rd
Subject : Electronic Devices & Circuits
Lesson Plan Duration : 16 weeks Work load (Lecture /Practical) per week (in hours): Lectures—03, Practical—03
Theory Practical
Week Lecture Topic (Including Assignment/ Test Practical Topic
Day Day
1 Review of Amplifiers
2
Need for multistage amplifier & Gain of Review of Lab/
1st multistage amplifier
1
Practicals.
3
RC coupled multistage amplifier, its frequency
response and bandwidth
4
Transformer coupled Multistage Amplifier, its Plot the frequency
frequency response and bandwidth.
response of two stage
5
Direct coupled multistage amplifier, its RC coupled amplifier
2nd frequency response and bandwidth.
2 and calculate the
Difference between voltage and power
bandwidth and
compare it with single
6 amplifiers, Importance of impedance matching
stage amplifier.
in amplifiers.
7 Class A & Class B amplifiers,
8
Class AB and Class C amplifiers, collector
Efficiency & Distortion in Class A, B, C amplifiers
To measure the gain
3rd Single ended Power amplifiers, Graphical metho 3 of push-pull amplifier
9
of calculation (without derivation) of output at 1 KHz.
power, heat dissipation curve and importance of
heat sinks.
10 Push Pull Amplifier Revision / File
4th 11 Complementary Symmetry Push-Pull amplifier. 4
Assessment
12 Assignment topic/Test/Quiz.
Basic principal and types of feedback,
13 derivation of expression for gain of an To measure the
amplifier employing feedback
voltage gain of emitter
5th
Effect of feedback (negative) on gain, stability, 5
14 follower circuit and
distortion and bandwidth of and amplifier.
plot its frequency.
15 RC coupled amplifier with emitter bypass
capacitor.
16 Emitter follower amplifier and its application.
6th 17 Assignment –Topic & Class work Checking 6 Revision
18 Expert lecture
7th 19 Sessional Test 7
20
Use of positive feedback, Bark-hausen criterion Plot the frequency
for oscillations.
response curve of
21
Working principle of Tunned Collector Hartley and Colpitt’s
Oscillator
Oscillator
22
Working principle of Hartley and Colpitt’s Plot the frequency
Oscillator Circuits.
response curve of
8th
Working principle of Phase shift and wein- 8
23 phase shift and Wein
bridge Oscillator Circuits.
bridge Oscillator.
24 Working principle of crystal Oscillator Circuit.
25 Revision
26
Series and parallel resonant circuit and
9th bandwidth of resonant circuits. 9 Revision
27
Single tuned voltage amplifier & its frequency
response.
28
Double tuned voltage amplifier & its frequency Use of IC 555 as
response.
monostable
10th 29 Expert Lecture 10 multivibrator and
30 Working principle of transistor as switch.
observe the output for
different values
31
Concept of multi-vibrator: a stable, mono-
stable, and bistable and their applications.
32
Concept of multi-vibrator: a stable, mono- Use of IC as a stable
stable, and bistable and their applications.
multivibrator and
11th
11
observe the output at
33
Concept of multi-vibrator: a stable, mono- different duty cycles.
stable, and bistable and their applications.
34
Block diagram of IC555 and its working and
applications.
Revision
12th 35
IC555 as monostable and astable multi- 12
vibrator and bistable multivibrator.
36 Assignment topic/sessional.
Characteristics of an ideal operational To use IC 741
37 amplifier and its block diagram. (op-amp) as
13th
13
1.Inverter
38 IC-741 and its pin configuration 2. Adder
39
Definition of differential voltage gain, CMRR, 3.Subtractor
PSRR, slew rate and input offset current.
4.Integrator
Operational amplifier as an inverter, scale
40 change, adder Subtractor, differentiator, and To realize positive
integrator. and negative fixed
Operational amplifier as an inverter, scale voltage DC power
14th 41 change, adder Subtractor, differentiator, and 14 supply using three
integrator terminal voltage
Operational amplifier as an inverter, scale regulator IC (7805,
42 change, adder Subtractor, differentiator, and 7812
integrator.
15th 43 Concept of DC power supply, line and load
15 Prototype making/
regulation practice
44
Concept of fixed voltage, IC regulators
9like 7805, 7905), and variable
45 Voltage regulator like (IC 723)
46 Revision/ seminar
16th 47 Revision/ Seminar 16 Viva Voice
48 Sessional
Lesson Plan
Name of Faculty : Bhupender
Discipline : Electronics & Comm. Eng.
Semester : 3rd
Subject : Electrical Machine
Lesson Plan Duration : 15 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—03, Practical—03
Theory Practical
Week Lecture Topic (Including Assignment/ Test
Practical Topic
Day
Day
1
Advantage of three-phase system over single-
phase system. Star Delta connection
1st 2 Relation between phase and line voltage and
1 Introduction to
current in a three phase system
Electrical Machine Lab
3
Power and power factor in three-phase
system
4
Measurements of Power by one, two and three To measure power and
wattmeter methods.
power factors in 3
2nd 5 Assignment / Problem Taking
2
Phase load by two
Principle of operation and constructional
6
wattmeter method
details of single phase transformer
7
Voltage Regulation of a transformer (No
Derivation) Losses in a transformer
To measure power and
3rd 8 Efficiency, condition for maximum efficiency
3 power factors in 3
and all day efficiency
Phase load by two
9
CTs and PTs (Current transformer and wattmeter method
potential transformer)
10 CVT (Constant Voltage Transformer ) To measure power and
11 Assignment / Problem Taking power factor of a
4th E.M.F induced in a coil rotating in a magnetic
4 single phase
12
induction motor.
field.
13 Definition of motor and generator To measure power and
14 Basic principle of a generator and a motor power factor of a
5th Torque due to alignment of two magnetic fields
5 single phase
15
induction motor.
and the concept of Torque angle
16
Basic Electromagnetic laws (Faraday’s laws of To determine the
Electromagnetic Induction)
efficiency of a single
17 Assignment phase transformer
6th 6 from the data obtained
18 Class Test
through open circuit
and short circuit test
19 Introduction to DC Machines To determine the
20 Principle of working of d.c motors and efficiency of a single
7th D.c generator, their constructional details
7 phase transformer
21
from the data
obtained through
open circuit and short
circuit test
22
Function of the commutator for motoring and To run a synchronous
generating action
motor with a.c supply
8th 23 Factors determining the speed of a DC motor 8 and to measure speed
24 Different types of excitation
to verify the relation
N=12O f/ P
25
Characteristics of different types of DC To run a synchronous
machines
motor with a.c supply
9th 26 Starting of DC motors and starters 9 and to measure speed
27 Application of DC machines
to verify the relation
N=12O f/ P
28 Assignment To make connections
29 Class Test of starting and running
winding of a single
10th Revolving magnetic field produced by poly 10 phase capacitor motor
30 phase supply and to run it with the
help a DOL starter and
to measure its speed
Brief introduction about three phase induction To make connections
31 motors, its principle of operation of starting and running
winding of a single
11th Principle and working of Synchronous 11 phase capacitor motor
32 Machines and to run it with the
help a DOL starter and
33 Application of Synchronous Machines to measure its speed
34 Assignment Study construction of a
35 Class Test stepper and
12th
12 servomotor and to
write their complete
36 Problem Taking
specifications.
37
Single Phase Fractional Kilowatt Motors Study construction of a
Introduction
stepper and
13th 38 Principle of operation of single phase motors
13 servomotor and to
Types of single phase induction motors and write their complete
39
specifications.
their constructional details
40
Single phase synchronous motors – reluctance
motor ( hysteresis motor)
14th 41
Introduction to Commutator type single-phase 14 Repeat if any Required
motors
42 Introduction to servo- motors
43 Introduction to stepper motors
15th 44 Concept of micro-motors 15 Viva-Vice
45 Assignment
46 Class Test
16th 47 Problem Taking 16
48 Test
Lesson Plan
Name of Faculty : Guest Faculty
Discipline : Electronics & Comm. Egg.
Semester : 3rd
Subject : Computer Programming using C Lesson Plan Duration : 15 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—04, Practical—03
Theory Practical
Week Lecture Topic (Including Assignment/ Test
Practical Topic
Day Day
1 Introduction to Algorithm Programming
1st 2 Introduction to Programming Development
1 exercises on
3 Steps in development of a program executing and
4 Flow charts editing a C program
5 Algorithm development Programming
6 Programme Debugging exercises on
2nd 7 Assignment / Problem Taking 2 defining variables
and assigning values
8 Introduction to Program Structure
to variables.
9 I/O statements, Programming
3rd 10 Assign statements
3 exercises on
11 Constants, variables
arithmetic and
12 Data types relational operators.
13 Operators and Expressions Programming
14 Standards and Formatted IOS exercises on
4th 15 Data Type Casting 4 arithmetic
expressions and
16 Assignment
their evaluation.
17 Problem Solving Programming
18 Control Structures Introduction exercises on
19 Decision making with IF – statement formatting
5th 5 input/output using
20 IF – Else a
printf and scanf and
their return type
values.
21 Nested IF Programming
22 While
6th
6 exercises using if
23 do-while
statement
24 for loop
25 Break. Continue Statement Programming
26 Got and switch statements
7th 7 exercises using if –
27 Assignment
Else
28 Class Test
8th 29 Problem Taking
8
30 Introduction to Pointers
31 Address operator and pointers Programming
32 Declaring Pointers
exercises on switch
statement
33 Initializing pointers Programming
34 Single pointer
9th 9 exercises on do –
35 Assignment
while, statement.
36 Class Test
37 Problem Taking Programming
10th 38 Introduction to functions 10 exercises on for –
39 Global and Local Variables statement.
40 Function Declaration
41 Standard functions
11th 42 Parameters and Parameter Passing
11 Programs on one-
43 Call - by value dimensional array.
44 Call - by Reference
45 Assignment
12th 46 Class Test
12 Programs on two-
47 Problem Taking dimensional array
48 Introduction to Arrays
49 Array Declaration, Length of array i) Programs for
13th 50 Single Array
13 putting two strings
51 Multidimensional Array together.
52 Arrays of characters
53 Passing an array to function (ii) Programs for
14th 54 Pointers to an array
14 comparing two
55 Assignment strings.
56 Class Test
57 Problem Taking
15th 58 Revision of Chapter 1
15 Simple programs
59 Revision of Chapter 2 using structures.
60 Revision of Chapter 3
61 Revision of Chapter 4
62 Revision of Chapter 5
16th
16 Repeat if any
63 Revision of Any Topic if required
required
64 Test
LESSON PLAN
NAME OF FACULTY : Tarni
DISCIPLINE : Electronics & Communication Engg
SEMESTER : 5th
SUBJECT : EMPLOYABILITY SKILLS –I
LESSON PLAN DURATION : 15 WEEKS
WORK LOAD (LECTURE/PRACTICAL) PER WEEK : (2 Practical’s)
PRACTICAL
WEEK
PRACTICAL TOPIC
DAY
1st 1 1. Writing skills Official and business correspondence
2nd 2 Job application - covering letter and resume (Cont.)
3rd 3 Job application - covering letter and resume.
4th 4 Report writing - key features and kinds.
5th 5 2. Oral Communication Skills Giving advice
6th 6 Making comparisons
7th 7 Agreeing and disagreeing
8th 8 Taking turns in conversation
9th 9 Fixing and cancelling appointments (Cont.)
10th 10 Fixing and cancelling appointments
11th 11 3. Generic Skills Stress management
12th 12 Time management
13th 13 Negotiations and conflict resolution
14th 14 Team work and leadership qualities
15th
15 Viva voce and evaluation
Lesson Plan
Name of Faculty : Jatin Kochar
Discipline : Electronics & Comm. Engg.
Semester : 5th
Subject : CONSUMER ELECTRONICS Lesson Plan Duration : 16 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—03, Practical—03
Theory Practical
Week Lecture Practical Topic
Day
Day
1 Audio Systems: To plot the
1st 2 Microphones and Loudspeakers 1st frequency response
3 Carbon, moving coil, cordless microphone of a Microphone
4 Direct radiating and horn loudspeaker To plot the
2nd 5 Multi-speaker system 2nd frequency response
6 Assignment of a Microphone
7 Problem Taking To plot the
3rd 8 Class Test 3rd frequency response
9 Sound Recording of a Loud Speaker
10 Magnetic Recording To plot the
4th 11 Digital Recording 4th frequency response
12 Optical Recording ( CD system and DVD) of a Loud Speaker
13 Television Trouble shooting of
5th 14 Monochrome TV 5th
CD/DVD Player
15 Elements of TV communication system
16 Scanning and its need
6th 17 Need of synchronizing and blanking pulses,
6th Trouble shooting of
VSB
CD/DVD Player
18 Composite Video Signal
19 Picture Tube Practical file
20 Camera Tube : Vidicon and Plumbicon
7th 7th Checking and viva-
TV Receiver: Block diagram, function of each
21
voice
block,
22
waveform at input and output To observe the wave
of each block
forms and measure
8th 23 Assignment 8th voltage of B/W TV
24 Problem Taking
Receiver at different
points
25 Class Test To observe the wave
26 Colour Television forms and measure
9th 9th voltage of B/W TV
27 Primary, secondary colours Receiver at different
points
28 Concept of Mixing, Colour Triangle To observe the
29 Camera tube waveforms and
measure voltages of
10th 10th colour TV Receiver
30 PAL TV Receiver at different points
31
Concept of Compatibility with Monochrome To observe the
Receiver
waveforms and
11th 32 NTSC, PAL, SECAM system ( brief comparison) 11th measure voltages of
33 Assignment
colour TV Receiver
at different points
34 Problem Taking
12th 35 Class Test
12th Fault finding of
36 LCD and LED Television: Basic principle and colour T.V
working of LCD and LED TV
37
LCD and LED Television: Basic principle and
working of LCD and LED TV
Fault finding of
13th
13th
38 Assignment colour T.V
39 Problem Taking
40 Class Test
41
Cable Television: Working of Cable TV, DTH,
14th HDTV 14th DTH System
42
Cable Television: Working of Cable TV, DTH,
HDTV
43 Assignment
15th 44 Problem Taking 15th Scanner
45 Class Test
46 Scanner
16th 47 Digital Camera Revision
48 VCD/DVD
Lesson Plan
Name of Faculty : Bhupender
Discipline : ECE
Semester : 5th
Subject : Optical Fiber Communication Lesson Plan Duration : 15 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—03, Practical—03
Theory Practical
Week Lecture Topic (Including Assignment/ Test Practical Topic
Day
Day
1
Historical perspective, basic communication
systems
To set up fiber
1st
optical frequency range, advantages of optical 1st
2 analog link
fiber communication
3 application of fiber optic communication
4
Electromagnetic spectrum used, Advantages
of OFC
To set up fiber
2nd
2nd
5 Principle of light penetration analog link
6 reflection, critical angle
7 Assignment To set up optic
3rd 8 Problem Analysis 3rd
digital link
9 Fiber types construction
10 multimode and mono-mode fibers
4th 11 step index and graded index fibers
4th To set up optic
12 acceptance angle and types of optical fiber digital link
cables
13 Optical Fibers cable connectors To measure bending
5th 14 splicing techniques (Mechanical, fusion)
5th losses in optical
fibers
15 Assignment
16 Problem Analysis To observe and
6th 17 Absorption Losses 6th measure the splice
18 Scattering Losses or connector loss
19 Radiation losses To observe and
7th 20 Connector losses, Bending loses 7th measure the splice
21 Dispersion: Types and its effect on data rate or connector loss
Testing of losses using OTDR (Optical Time To measure and
22 Domain Reflectometer). calculate numerical
8th 8th aperture of optical
23 Assignment fiber
24 Problem Analysis
25
Characteristics of light source used in optical To measure and
communication,
calculate numerical
Characteristics of light source used in optical aperture of optical
9th 26 communication, principle of
9th fiber
operation of LED
27
different type of LED structures used and their
brief description
10th 28 LED driving circuitry 10th
29 Injection Laser diode, principle of operation To observe
different
characteristics of
30 injection laser diodes, comparison of LED and
optical source
ILD, non-semiconductor laser
Characteristics of photo detectors used in To observe
31
optical communication; PIN diode and characteristics of
avalanche photo diode (APD), their brief
optical detector
11th
11th
description
32 Assignment
33 Class test
34 Problem Analysis To connect a fiber
12th 35 Fiber alignment and joint losses 12th with connector at
36 splicing, types of splices both ends
37 types of connectors used To connect a fiber
13th 38 couplers, three and four port coupler, 13th with connector at
39 Stare coupler, fiber optic switch. both ends
40
Optical transmitter circuit, optical receiver To identify and use
circuit, optical power budgeting
various components
14th 41
Multiplexing Methods used. Modulation 14th and tools used in
methods used
optical fiber
42 Introduction to SDH, SONET communication
43 Assignment Revision of
15th 44 Class test 15th
Experiments
45 Problem Analysis
Lesson Plan
Name of Faculty : Prem Prakash
Discipline : Electronics & Comm. Eng.
Semester : 5th
Subject : MICROWAVE AND RADAR ENGINEERING Lesson Plan Duration : 16 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—03, Practical—03
Lecture Topic (Including Assignment/ Test
Practical Topic
Day Day
week 1 Introduction to microwaves and its
applications,
Classification on the basis of its General idea’s for lab
1st 2 frequency bands (HF, VHF, UHF, L, S, C, X, KU, 1st
Equipment’s
KA, mm, SUB, mm)
3
Rectangular and circular wave guides and
their applications
4
Mode of wave
Guide
To measure the
Propagation constant of a rectangular wave
5
electronics and
guide
2nd
2nd mechanical tuning
cut off wavelength,
range of a reflex
guide wavelength and their relationship with
6
klystron
free space wavelength (no
mathematical derivation)
7 Impossibility of TEM mode in a wave guide To measure the
8 REVISON /Assignment electronics and
3rd Constructional features, characteristics and
3rd mechanical tuning
9
range of a reflex
application of tees, bends
klystron
10
Constructional features, characteristics and
application of matched termination & twists
4th 11 Constructional features, characteristics and
4th To measure VSWR of
application of detector, mount, slotted section a given load.
12
Constructional features, characteristics and
application of directional coupler
13
Constructional features, characteristics and
application of fixed and variable attenuator
14
Constructional features, characteristics and To measure VSWR of
5th application of isolator, circulator 5th
a given load.
Constructional features, characteristics and
15 application of duplex, coaxial to wave guide
adapter
16 Assignment/ Test
17
Basic concepts of thermionic emission and To measure the
vacuum tubes
Klystron frequency
6th
Effects of interelectrode 6th
by slotted section
capacitance, Lead Inductance and Transit time
18
method
on the high frequency
performance of conventional vacuum tubes
19
steps to extend their high frequency
operations
Construction, characteristics, operating To measure the
7th 20 principles and typical applications of Multi
7th Klystron frequency
cavity klystron by slotted section
Construction, characteristics, operating method
21 principles and typical applications of Reflex
klystron
Construction, characteristics, operating
22 principles and typical applications of Multi-
cavity magnetron
Construction, characteristics, operating
8th 23 principles and typical applications of 8th Revision
Traveling wave tube
Construction, characteristics, operating
24 principles and typical applications of Gunn
diode and Impatt diode
25 Revision To measure the
9th 26 Expert Lecture/ Quiz
9th directivity and
27 General Trams and views for microwayse coupling of a
antennas
directional coupler.
28
Structure characteristics and typical To measure the
applications of Horn antennas
directivity and
10th
Structure characteristics and typical 10th
29 coupling of a
applications of Dish antennas
directional coupler.
30 Revision / Quiz /expert Lecture
31
Block diagram and working principles of To plot radiation
microwave communication link.
pattern of a horn
Troposcatter Communication Troposphere
11th 32 11th antenna in
and its properties
horizontal and
Troposcatter Communication Troposphere
33
vertical planes.
and its properties
34 Tropospheric duct formation and propagation To plot radiation
35 Tropospheric duct formation and propagation pattern of a horn
12th 12th antenna in
36 Roposcatter propagation. horizontal and
vertical planes.
37 Assignment To verify the
13th 38 Revision 13th properties of magic
39 Introduction to radar, its various applications tee.
40
radar range equation (no To verify the
derivation) and its applications
properties of magic
41
Block diagram and operating principles of tee.
basic pulse radar
14th 14th
Concepts of ambiguous range, radar area of
42 cross-section and its dependence on
frequency
43
Block diagram and operating principles with
application of CW (Doppler radar )
15th 44 Block diagram and operating principles with
15th Revision/ viva
application of FMCW radar
45
Block diagram and operating principles of MTI
radar.
46 Radar display- PPI
16th 47 Introduction to VSAT transponders multiple
16th Revision/ viva
access techniques
48 VSAT and its features
Lesson Plan
Name of the faculty : Manish Aggarwal
Discipline : Electronics & Comm. Engineering
Semester : 5th
Subject : Environmental Education
Lesson Plan Duration : 15 weeks (July-18 to Nov-18)
Work Load : (3 Periods/Week)
Theory
Week Lecture Day Topics
1st 1. Definition and Scope of Environmental Education
1st 2nd Importance of Environmental Education
3rd
2. Basics of ecology, biodiversity
4th Eco system
2nd 5th Sustainable development
6th
3. Sources of pollution - natural and manmade
7th Causes, effects of air pollution
3rd 8th Control measures of air pollution
9th
Causes, effects of noise pollution
10th Control measures of noise pollution
4th 11th Causes, effects of soil pollution
12th
Control measures of soil pollution
13th Causes, effects of radioactive pollution
5th 14th Control measures of radioactive pollution
15th
Causes, effects of nuclear pollution
16th Control measures of nuclear pollution
6th 17th Units of measurement of pollution
18th 4. Solid waste management- Causes and effects of urban waste
19th SESSIONAL I
7th 20th Control measures of urban waste
21th Causes and effects of industrial waste
22nd Control measures of industrial waste
8th
23rd 5. Mining and deforestation – Causes, effects of mining
24th Control measures of mining
25th Causes, effects of deforestation
9th 26th Control measures of deforestation
27th
6. Environmental Legislation - Water (prevention and control of
pollution) Act 1974
28th Air (Prevention and Control of Pollution) Act 1981
10th 29th Environmental Protection Act 1986
30th Role and Function of State Pollution Control Board
11th 31st Environmental Impact Assessment (EIA)
32nd
SESSIONAL II
33rd 7. Role of Non-conventional Energy Resources Solar Energy
34th Wind Energy
12th 35th Bio Energy
36th Hydro Energy
37th
8. Current Issues in Environmental Pollution – Global Warming, Green
House Effect
13th
38th Depletion of Ozone Layer, Recycling of Material
39th Environmental Ethics
40th Rain Water Harvesting
14th 41th Maintenance of Groundwater
42nd Acid Rain
43th Carbon Credits
15th 44th Revision
45th SESSIONAL III
LESSON PLAN
NAME OF FACULTY : Jatin Kochar/Manish Aggarwal
DISCIPLINE : Electronics & Communication Engg
SEMESTER : 5th
SUBJECT : Trouble Shooting of Electronics Equipment’s
LESSON PLAN DURATION : 15 WEEKS
WORK LOAD (LECTURE/PRACTICAL) PER WEEK : (6 Practical’s)
Practical
Week Day Topics
1st 1 Repair, Servicing and Maintenance Concepts
2 Demonstration and practice of fault finding and repair of CRO
2nd 3 Demonstration and practice of fault finding and repair of CRO
4 Fundamental Trouble Shooting Procedures
3rd 5 Demonstration and practice of fault finding and repair of Function Generator
6 Demonstration and practice of fault finding and repair of Function Generator
4th 7 Trouble Shooting Techniques
8 Demonstration and practice of fault finding and repair of Power Supplies
5th 9 Demonstration and practice of fault finding and repair of Power Supplies
10 Mobile Phones
6th 11 Demonstration and practice of fault finding and repair of Digital Multimeter
12 Demonstration and practice of fault finding and repair of Digital Multimeter
7th 13 SESSIONAL I
14 Trouble shooting and maintenance of testing equipment like C.R.O , function generator,
15 power supplies and other measuring devices, detailed discussion about trouble 8th
16 shooting of medical, electronic equipment like, ECG, EEG, Ultra sound. Repair and
maintenance and exposure of medical electronics equipment through industrial visits.
17
Demonstration, practice of fault finding and repair of any one equipment from group-I
i.e. Communication
9th
18 Demonstration, practice of fault finding and repair of any one equipment from group-I
i.e. Communication
19 Troubleshooting Digital Systems
10th 20
Demonstration and practical’s to be performed on following groups of Electronic
equipment, with compulsory visit to low service center.
21
Demonstration, practice of fault finding and repair of any one equipment from group-II
11th i.e. Consumer
22 SESSIONAL II
23
Demonstration, practice of fault finding and repair of any one equipment from group-III
i.e. Audio/Video systems
12th
24 Demonstration, practice of fault finding and repair of any one equipment from group IV
i.e. Computer
25
Demonstration, practice of fault finding and repair of any one equipment from group IV
13th i.e. Computer
26 Testing of Integrated Circuits (ICs)
14th 27 Testing of Integrated Circuits (ICs)
28 Use of digital tools for troubleshooting digital equipment’s
15th 29 Use of digital tools for troubleshooting digital equipment’s
30 SESSIONAL III
Lesson Plan
Name of Faculty : Ms. Tarni
Discipline : Electronics & Comm. Engg.
Semester : 5th
Subject : POWER ELECTRONICS
Lesson Plan Duration : 16 weeks
Work load (Lecture /Practical) per week (in hours): Lectures—03, Practical—03
Theory Practical
Week Lecture
Topic Practical
Topic
Day Day
1 Construction, Working principle of SCR To plot V-I
1st 2 two transistor analogy of SCR, 1st characteristic of an
3 V-I characteristics of SCR SCR
4 SCR specifications and ratings To plot V-I
2nd 5 Different methods of SCR triggering 2nd characteristics of
6 Different commutation circuits for SCR TRIAC.
7 Series and parallel operation of SCR To plot V-I
8 Revision / Assignment
3rd 3rd characteristics of
Construction and working principle of DIAC,
9
UJT
TRIAC and their V-I characteristics
Construction, working principle of UJT, V-I
10 characteristics of UJT. UJT as relaxation
Oscillator. To plot V-I
Brief introduction to Gate Turn off thyristor
4th
4th characteristics of
11 (GTO), Programmable Uni-junction
DIAC
Transistor (PUT), MOSFET.
12
Basic idea about the selection of Heat sink
for thyristor
Applications such as light intensity control,
13 speed control of universal motors, fan
5th regulator, battery charger
5th Revision
14 Single phase half controlled full wave rectifier
with load (R, R-L)
15 Fully controlled full wave bridge rectifier
16 Assignment/Test
17 Single phase full wave center tap rectifier Study of UJT
6th Principle of operation of basic inverter
6th relaxation oscillator.
circuits, concepts of duty cycle, series and And observe I/P and
18
parallel
O/P wave forms
Inverters and their applications
Choppers: Introduction, types of choppers Observation of wave
19 (Class A, Class B, Class C and Class D). shape of voltage at
relevant point of
7th 20 Step up and step down choppers.
7th single-phase half
wave controlled
21
Dual Converters and cyclo converters: Rectifier and effect
Introduction
of change of firing
angle.
22
types and basic working principle of Observation of wave
dual converters
shape of voltage at
8th 23
types and basic working principle of 8th relevant point of
dual converters
single-phase half
24 Revision wave controlled
Rectifier and effect
of change of firing
angle.
25 Revision Observation of wave
26 Expert Lecture/Quiz shapes of voltage at
relevant point of
9th
9th single phase full
wave controlled
27 Cyclo converters and their applications.
rectifier and effect
of change of firing
angle
28 Cyclo converters and their applications. Observation of wave
29 Thyristorised Control of Electric drives shapes of voltage at
relevant point of
10th
10th single phase full
wave controlled
30 Thyristorised Control of Electric drives
rectifier and effect
of change of firing
angle
31 DC drive control
11th 32 Half wave drives 11th Revision
33 Full wave drives
34
Chopper drives (Speed control of DC motor Observation of wave
using choppers)
shapes and
35
Chopper drives (Speed control of DC motor measurement of
using choppers) voltage at relevant
12th
12th points in TRIAC
based
36 Revision
AC phase control
circuit for Varying
lamp intensity and
AC fan speed control
37 Revision Observation of wave
38 Assignment shapes and
measurement of
voltage at relevant
13th
13th points in TRIAC
based
39 AC drive control
AC phase control
circuit for Varying
lamp intensity and
AC fan speed control
40 AC drive control Installation of UPS
14th 41 Phase control
14th system and routine
42 Constant V/F operation maintenance of
batteries
43 Cycloconverter/Inverter drives Installation of UPS
15th 44 Cycloconverter/Inverter drives
15th system and routine
45 Un interrupted Power Supply (UPS) maintenance of
batteries
46
UPS: Block Diagram & specifications of on-
line, off line and Smart UPS
16th
16th Revision
47 Concept of high voltage DC transmission
48 Concept of high voltage DC transmission