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Lecture Day
Topic Practical Day Topic
1st Introduction
2nda) Distinction between analog
and digital signal.b) Applications and advantages of digital signals.
3rda) Binary, octal and hexadecimal number system conversion from
decimal to binary and vice-versa.
4thconversion from hexadecimal to
binary and vice-versa.
5thBinary addition and subtraction
including binary points
6th1’s and 2’s complement
method of addition/subtraction.
7thConcept of code, weighted and
non-weighted codes, examples of 8421, BCD
8th excess-3 and Gray code
9th Concept of parity, single and
double parity and error detection
10thConcept of negative and positive
logic; Definition, symbols and truth tables of NOT, AND GATE
11th Definition, symbols and truth
tables of OR, NAND, NOR, EXOR Gates
12thNAND and NOR as universal
gates.
Lesson PlanName of the Faculty :Ms. Rajni RaghuvanshiDiscipline: Electronics & Communication Engg.Semester:3rdSubject:Digital ElectronicsLesson Plan Duration: 15 Weeks
4th 4th Realisation of logic functions with
the help of NAND or NOR gates
2nd 2nd
Verification and interpretation of truth tables for AND, OR, NOT NAND, NOR and Exclusive OR
(EXOR) and Exclusive NOR(EXNOR) gates
Work Load(Lecture/Practical) per week (In Hours): Lectures-03, Practicals-03
Week
Theory Practical
1st 1st Introduction
3rd 3rd
Verification and interpretation of truth tables for AND, OR, NOT NAND, NOR and Exclusive OR
(EXOR) and Exclusive NOR(EXNOR) gates
13th
Introduction to TTL and CMOS logic families
14th De Morgan’s Theorems
15th Revision
16th Test
17thPostulates of Boolean algebra,
Implementation of Boolean (logic) equation with gates
18th
Karnaugh map (upto 4 variables) and simple application in
developing combinational logic circuits
19th Karnaugh map (upto 4 variables)
and simple application in developing combinational logic
20th Half adder and Full adder circuit,
design and implementation
21st
4 bit adder circuit, Four bit decoder circuits for 7 segment display and decoder/driver ICs
22nd Basic functions and block
diagram of MUX with different ICs
23rd Basic functions and block
diagram of DEMUX with different ICs
24thBasic functions and block
diagram of Encoder
25th Concept and types of latch with their working and applications
26thOperation using waveforms and
truth tables of RS, T flip flops
5th 5thTo design a half adder using XOR
and NAND gates and verification of its operation
8th 8thVerification of truth table for
encoder and decoder ICs, Mux and DeMux
9th 9th
To design a 4 bit SISO, SIPO, PISO, PIPO shift registers using JK/D flip
flops and verification of their operation.
6th 6thConstruction of a full adder circuit
using XOR and NAND gates and verify its operation
7th 7th
Verification of truth table for positive edge triggered, negative edge triggered, level triggered IC
flip-flops (At least one IC each of D latch , D flip-flop, JK flip-flops).
27thOperation using waveforms and
truth tables of D, Master/Slave JK flip flops
28th
Difference between a latch and a flip flop
Introduction to Asynchronous counters
29thIntroduction to Synchronous
counters 30th Test
31st Binary counters, Divide by N
ripple counters
32nd Decade counter, Ring counter
33rda) Serial in parallel out, serial in serial out, parallel in serial out,
parallel in parallel out34th Universal shift register
35thWorking principle of Stair step
Ramp A/D converter
36thWorking principle of Dual Slope
A/D converter
37thWorking principle of Successive Approximation A/D Converter
38thWorking principle of Binary
Weighted D/A converter
39thWorking principle of R/2R ladder
D/A converter,-
40thApplications of A/D and D/A
converter.
41st
Memory organization, classification of semiconductor
memories (RAM, ROM, PROM, EPROM, EEPROM),
42ndstatic and dynamic RAM,
introduction to 74181 ALU IC43rd Revision44th Revision45th Test
12th 12th8. Use of Asynchronous Counter ICs
(7490 or 7493)
13th 13th Practice
10th 10thTo design a 4 bit ring counter and
verify its operation
11th 11th Practice
Lesson PlanName of the Faculty : Anju Rani
14th 14th internal viva
15th 15th internal viva
Lecture Day Topic Practical Day Topic1st Introduction
2nd
Basic knowledge of electronic devices like diodes, transistors, and elementary circuits
3rd Need for multistage amplifier4th Gain of multistage amplifier
5th
Different types of multistage amplifier like RC coupled, transformer coupled, direct coupled
6th
frequency response and bandwidth of different types of amplifiers
7thBlock diagram of Power Amplifier & concept of power Amplification
8thDifference between voltage and power amplifiers
9thImportance of impedance matching in amplifiers
10thClass A, Class B, Class AB, and Class C amplifiers
11thCollector efficiency and Distortion in class A,B,C
12th
Single ended power amplifiers, Graphical method of calculation of output power
13thheat dissipation curve and importance of heat sinks.
14th
Push-pull amplifier, and complementary symmetry push-pull amplifier
Discipline: Electronics & Communication Engg.Semester:3rdSubject:EDCLesson Plan Duration: 15 Weeks
2nd 2nd
Plot the frequency response of two stage RC coupled amplifier and
calculate the bandwidth and compare it with single stage
amplifier
3rd 3rd To measure the gain of push-pull
amplifier at 1KHz
Work Load(Lecture/Practical) per week (In Hours): Lectures-03, Practicals-03
Week
Theory Practical
1st 1st Introduction
4th 4th To measure the voltage gain of
emitter follower circuit and plot its frequency response
5th 5th
15th
Basic principles and types of feedbackDerivation of expression for gain of an amplifier employing feedback
16th Revision17th Test
18th Positive and Negative feedback
19th
Effect of feedback (negative) on gain, stability, distortion and bandwidth of an amplifier
20th
RC coupled amplifier with emitter bypass capacitorEmitter follower amplifier and its application
21st
Use of positive feedback in oscillators,Barkhausen criterion for oscillations
22nd
Different oscillator circuits-tuned collector, Hartley, Colpitts with their working principle
23rd
Phase shift, Wien’s bridge, and crystal oscillator with their working principles
24th Revision of 4th chapter
25th
Introduction to Tuned Voltage Amplifier
26th
Series and parallel resonant circuits and bandwidth of resonant circuits
27th
Single tuned voltage amplifiers and its frequency response characteristics
28th
Double tuned voltage amplifiers and its frequency response characteristics
29th Revision of 5th chapter 30th test
31stIntroduction to Multivibrator Circuits
6th 6th Practice of previous experiments
7th 7thPlot the frequency response curve
of phase shift and Wein bridge Oscillator
5th 5th
Plot the frequency response curve of Hartley and Colpitt’s Oscillator
10th 10th(8) To use IC 741 (op-amplifier)as
i) Inverter, ii) Adder, iii) Subtractor iv) Integrator
8th 8th Use of IC 555 as monostable multivibrator and observe the
output for different values of RC
9th 9thUse of IC 555 as astable
multivibrator and observe the output at different duty cycles
32nd
Working principle of transistor as switch. Concept of multi-vibrator: astable, monostable, and bistable and their applications
33rdBlock diagram of IC555 and its working and applications
34thIC555 as monostable and astable multi-vibrator
35th
IC555 as bistable multivibratorApplications of Multivibrators
36th
Introduction to Operational Amplifiers and its symbol.Characteristics of an ideal operational amplifier and its block diagram
37th
IC-741 and its pin configurationSingle ended and double ended operation of op-amp
38th
Definition of differential voltage gain, CMRR, PSRR, slew rate and input offset current.
39thOperational amplifier as an inverter, scale changer, adder
40th
Operational amplifier as subtractor, differentiator, and integrator
41st
Regulated DC Power Supplies and its block diagramConcept of DC power supply. Line and load regulation
42ndConcept of fixed voltage, IC regulators (like 7805, 7905)
11th 11th
To realize positive and negative fixed voltage DC power supply using three terminal voltage
regulator IC (7805, 7812, 7905)
14th 14th
internal viva
12th 12thFabricate any simple operational
amplifier circuit
13th 13thFabricate any simple operational
amplifier circuit
43rdConcept of variable voltage regulator like (IC 723)
44th Revision 45th test
Lecture Day Topic Practical Day Topic1st Introduction2nd Need for modulation
3rd
frequency translation and demodulation in communication systems
4th
Basic scheme of a modern communication system.
5thDerivation of expression for an amplitude modulated wave
6thCarrier and side band components. Modulation index.
7th
Spectrum and BW of AM Wave. Relative power distribution in carrier and side bands.
8th Elementary idea of DSB-SC,SSB-SC
9th
ISB,VSB modulations, their comparison, and areas of applications
10th
Expression for frequency modulated wave,frequency spectrum
15th 15th
internal viva
Work Load(Lecture/Practical) per week (In Hours): Lectures-03, Practicals-03
Week
Theory Practical
1st 1st Introduction
Lesson PlanName of the Faculty : Priyanka NainDiscipline: Electronics & Communication Engg.Semester:3rdSubject:Principles of communication Engg.Lesson Plan Duration: 15 Weeks
a) To obtain an AM wave from a square law modulator circuit and
2nd 2nd
a) To observe an AM wave on CRO produced by a standard signal
generator using internal and external modulation
3rd 3rd
b) To measure the modulation index of the wave obtained in
above practical
11th
Modulation index, maximum frequency deviation and deviation ratio,BW of FM signals, Carson’s rule.
12thEffect of noise on FM carrier. Noise triangle, Role of limiter
13thNeed for pre-emphasis and de-emphasis, capture effect.
14th
Comparison of FM and AM in communication systems
15th Revision16th Test
17th Derivation of expression for phase modulated wave
18thmodulation index, comparison with frequency modulation.
19th
Circuit Diagram and working operation of:a) Collector and Base Modulator
20th
Circuit Diagram and working operation of:b) Square Low Modulator
21st
Circuit Diagram and working operation of:c) Balanced Modulator
22nd
Working principles and applications of reactance modulator
23rd varactor diode modulator,24th VCO25th Armstrong phase modulator
26th Stabilization of carrier using AFC
27th
Principles of demodulation of AM wave using diode detector circuitsion
28th Revision29th Revision30th Test
4th 4th
square law modulator circuit and observe waveforms
b) To measure the modulation index of the obtained wave form.
5th 5th
To obtain an FM wave and measure the frequency deviation for
different modulating signals.
8th 8th
To obtain modulating signal from FM detector.
9th 9th
To observe the sampled signal and compare it with the analog input signal. Note the effect of varying
the sampling pulse width and frequency on the sampled output.
6th 6th Practice
7th 7th
To obtain modulating signal from an AM detector circuit and observe
the pattern for different RC time constants and obtain its optimum
value for least distortion.
10th 10thTo observe and note the pulse
amplitude modulated signal (PAM) and compare them with the
31st
concept of Clipping and formula for RC time constant for minimum distortion
32nd
Basic principles of FM detection using slope detector
33rd
Principle of working of the FM demodulators Foster-Seeley discriminator
34th
Principle of working of the FM demodulators Ratio detector
35th Block diagram of Phase locked Loop (PLL) FM demodulators
36th Statement of sampling theorem
37thelementary idea of sampling frequency for pulse modulation
38thBasic concepts of time division
multiplexing (TDM)
39thfrequency division multiplexing (FDM)
40thPulse Amplitude Modulation (PAM)
41st Pulse Position Modulation (PPM)
42nd Pulse Width Modulation (PWM). 43rd Revision44th Revision45th Test
12th 12th
To observe PPM and PWM signal and compare it with the analog
input signal
13th 13th Practice
11th 11th Practice
Lesson PlanName of the Faculty : Ms. Meenakshi Goyal Discipline: Electronics & Communication Engg.Semester:3rdSubject:Electrical MachinesLesson Plan Duration: 15 Weeks
14th 14th
internal viva
15th 15thinternal viva
Work Load(Lecture/Practical) per week (In Hours): Lectures-03, Practicals-03
Lecture Day
Topic Practical Day Topic
1Three Phase Supply Advantage
of three-phase system over single-phase system.
2 Star Delta connections
3Relation between phase and line voltage and current in a
three phase system
4Power and power factor in
three-phase system and their measurements by one
5 two and three wattmeter methods
6 Test of unit 17 Transformers
8Principle of operation and
constructional details of single phase transformer
9 Voltage Regulation of a transformer
10 Losses in a transformer
11Efficiency, condition for
maximum efficiency and all day efficiency
12CTs and PTs (Current
transformer and potential transformer)
13 CVT (Constant Voltage Transformer)
14 Test of unit 215 Sessional test 1
16
Introduction to Rotating Electrical Machines E.M.F
induced in a coil rotating in a magnetic field.
17 Definition of motor and generator
18 Basic principle of a generator and a motor
19Torque due to alignment of two magnetic fields and the concept
of Torque angle
2nd 2nd
Demonstrate various instruments use viz Ammeter, Voltmeter, Wattmeter, p.f meter etc for their identification and and
connecting procedure in a circuit.
3rd 3rdTo measure power and power factors in 3 Phase load by two
wattmeter method
Week
Theory Practical
1st 1stDetailed introduction about
Electric Machine Lab and its equipments.
6th 6th File checking and discussion
7th 7thTo measure power and power
4th 4th
To determine the efficiency of a single phase transformer from the
data obtained through open circuit
5th 5th
To determine the efficiency of a single phase transformer from the
data obtained through short circuit
20Basic Electromagnetic laws
(Faraday’s laws of Electromagnetic Induction)
21 Test of UNIT-322 DC Machines
23 Principle of working of d.c motors
24 d.c generator 25 their constructional details
26 Function of the commutator for motoring and generating action
27 Factors determining the speed of a DC motor
28 Different types of excitation
29 Characteristics of different types of DC machines
30 Starting of DC motors and starters
31 Application of DC machines32 Test of UNIT-433 Sessional Test-234 A.C. Motors
35 Revolving magnetic field produced by poly phase supply
36Brief introduction about three
phase induction motors, its principle of operation
37 Principle and working of Synchronous Machines
38 Application of Synchronous Machines
39 Test of UNIT-5
40
Single Phase Fractional Kilowatt Motors Introduction Principle of operation of single
phase motors
41
Types of single phase induction motors and their constructional
details Single phase synchronous motors –
reluctance motor ( hysteresis motor
7th 7th factor of a single phase induction motor.
10th 10thTo make connections of starting and running winding of a single
phase capacitor motor
11th 11thto run it with the help a DOL
starter and to measure its speed
8th 8thTo run a synchronous motor with a.c supply and to measure speed to verify the relation N=12O f/ P
9th 9th Files checking
14th 14thQueries regarding any
experiment.
12th 12thStudy construction of a stepper
and servomotor and to write their complete specifications
13th 13thFabricate a transformer using
simple iron core and two copper coils and read the output voltage.
42
Introduction to Commutator type single-phase motors
,Introduction to servo- motors and stepper motors
43 Concept of micro-motors.44 Sessional Test-3
45 Previous year paper discussion
Lecture Day
Topic Practical Day Topic
1 Introduction about measurement
2 Basic of measurement and method of measurement
3 Types of instrument
4 Limiting Errors ,loading effect & soures of errors
5 Importance and Application of standard Instrument
6 Introduction about voltage,Current & Resistance
7 operation & Construction of PMMC
8 Working & Application of PMMC
9 Introduction about Moving Iron Types instrument
10 Introduction about Analog & Digital Multimeter
11 Block diagram of Analog multimeter
12 Working Principle of Analog Multimeter
13 Comparison between Analog & digital multimeter
15th 15th Files checking.
Lesson PlanName of the Faculty : Mr. Sohan SharmaDiscipline: Electronics & Communication Engg.Semester:3rdSubject:EIMLesson Plan Duration: 15 WeeksWork Load(Lecture/Practical) per week (In Hours): Lectures-03, Practicals-03
WeekTheory Practical
1st 1st
Measurement of voltage,resistance and frequency using Digital
Multimeter
2nd 2ndMeasurement of
voltage,phase ,frequency and time period using CRO
3rd 3rdMeasurement of voltage, frequency,time and phase
using DSO
4th 4thInterfacing of DSO with
printer
14 Specifications of multimeter and its Application
15 Limitations with regards to freequency & input impedence
16 Moving type of Instruments17 Sessional test 1
18 Introduction about Cathode Ray Oscilloscope
19 Time base operation & need for blanking during Flyback
20 Brief about Synchronization
21 Block Diagram & Description about Basic CRO
22 Measurement of v,i,f & phase using CRO
23 CRO probes and special features of dual beam
24 Dual Trace and delay sweep
25Introduction about Signal
Generator & Analytical instrument
26 Block diagram specification of low freequency generator
27 Block diagram of RF Generator
28 Wave Analyzer & Distortion measurement
29 Block diagram of SpectrumAnalyzer
30 Sessional Test 2
31 Introduction about Impedance &Q meter
32 Wheat stone bridge 33 Ac Bridge34 De-sauty bridge 35 Schering Bridge 36 Anderson Bridge
37 Block diagram & working pronciple of Q meter
38 introduction about Digital instrument
39 Comparison between Analog & digital Instrument
5th 5thMeasurement of rise time
and fall time using DSO
6th 6thMeasurementof Q of a coil
& its dependence on freequency
7th 7thMeasurement of resistance and inducatnce of coil using
RLC Bridge
8th 8thUse of logic pulser & logic
probes
9th 9thMeasurement of time
period,f, avg period using universal counter
10th 10thMeasurement of Impedance
using Maxwell Induction bridge
11th 11thTo find the value of
unknown resistance using Wheat Stone bridge
12th 12th
13th 13th
40 measurement of time interval using freequency counter
41 Working priniple of logic probes , logic pulsar
42 Sessinal Test 3
43 Revision 44 Revision 45 Revision
Lecture Day
Topic Practical Day Topic
1st Introduction2nd Audio Systems Introduction
3rdCarbon, moving coil, cordless
microphone
4thDirect radiating and horn
loudspeaker5th Multi-speaker system
6thMagnetic Recording &
Digital Recording
7thOptical Recording ( CD system
and DVD)
8thMonochrome TV Introduction
9tha) Elements of TV communication
system
10th b) Scanning and its need
11thc) Need of synchronizing and
blanking pulses,12th VSB13th d) Composite Video Signal14th e) Picture Tube15th Revision16th Test
14th 14th
15th 15th
Lesson PlanName of the Faculty : Ms. Rajni RaghuvanshiDiscipline: Electronics & Communication Engg.Semester:5thSubject:Consumer ElectronicsLesson Plan Duration: 15 WeeksWork Load(Lecture/Practical) per week (In Hours): Lectures-03, Practicals-03
Week
Theory Practical
1st 1st Introduction
2nd 2ndTo plot the frequency response of a
Microphone
3rd 3rdTo plot the frequency response of a
Loud Speaker
4th 4th Trouble shooting of CD/DVD Player
5th 5th practice
6th 6thTo observe the wave forms and
17th Camera Tube : Introduction18th Vidicon Camera Tube 19th Plumbicon Camera Tube
20thTV Receiver: Block diagram,
function of each block
21stwaveform at input and output
of each block.
22ndColour Television:
a) Primary, secondary colours
23rdb) Concept of Mixing, Colour
Triangle24th c) Camera tube25th d) PAL TV Receiver
26the) Concept of Compatibility with
Monochrome Receiver27th f) NTSC, PAL, SECAM system
28th brief comparison of TV Systems
29th Revision30th Test
31stBasic principle and working of
LCD TV
32ndBasic principle and working of
LCD TV
33rdBasic principle and working of
LED TV
34thBasic principle and working of
LED TV35th Cable Television Introduction36th Working of Cable TV37th Working of DTH38th Working of HDTV
39th
Electronics Gadgets: Principle, Working and troubleshooting
with special emphasis on control panel
40th a) Scanner41st b) Digital Camera42nd c) VCD/DVD43rd Revision44th Revision45th Test
6th 6th measure voltage of B/W TV Receiver at different points.
7th 7thTo observe the wave forms and
measure voltage of B/W TV Receiver at different points.
8th 8thTo observe the waveforms and measure voltages of colour TV
Receiver at different points.
9th 9thTo observe the waveforms and measure voltages of colour TV
Receiver at different points.
10th 10th practice
11th 11th Fault finding of colour T.V
12th 12th
Demonstration and Operation of following.
(a) DTH System(c) Scanner
13th 13th revision
14th 14th internal viva
15th 15th internal viva
Lesson PlanName of the Faculty : Ms. Rajni Raghuvanshi
Lecture Day
Topic Practical Day Topic
1st Introduction to Microwaves
2nd
Classification on the basis of itsfrequency bands (HF, VHF,
UHF, L, S, C, X, KU, KA, mm, SUB, mm)
3rd applications of Microwaves4th Wave guides Introduction
5thRectangular and circular wave guides and their applications.
6thMode of wave
guide; Propagation constant of a rectangular wave guide
7th
cut off wavelength,guide wavelength and their relationship with free space
wavelength
8thImpossibility of TEM mode in a
wave guide.
9thMicrowave Components & their
Constructional features
10thcharacteristics and application of
tees, bends, matchedtermination
11thcharacteristics and application of twists, detector, mount, slotted
section
12thcharacteristics and application of
directional coupler, fixedand variable attenuator
13thcharacteristics and application of
isolator, circulator
Discipline: Electronics & Communication Engg.Semester:5thSubject:MWRLesson Plan Duration: 15 WeeksWork Load(Lecture/Practical) per week (In Hours): Lectures-03, Practicals-03
Week
Theory Practical
1st 1st Introduction
2nd 2ndTo measure electronics and
mechanical tuning range of a reflex klystron
3rd 3rdTo measure electronics and
mechanical tuning range of a reflex klystron
4th 4th To measure VSWR of a given load.
14thcharacteristics and application of
duplex, coaxial to wave guideadapter.
15th Revision16th Test
17th
Basic concepts of thermionic emission and vacuum tubes,
Effects of interelectrodecapacitance
18th
Lead Inductance and Transit time on the high frequency
performance of conventional vacuum tubes
19thsteps to extend their high
frequency operations.
20th
Construction, characteristics, operating principles and typical
applications of Multi cavity klystron
21stConstruction, characteristics,
operating principles and typical applications of Reflex klystron
22nd
Construction, characteristics, operating principles and typical
applications of Multi-cavity magnetron
23rd
Construction, characteristics, operating principles and typical applications of Traveling wave
tube
24thConstruction, characteristics,
operating principles and typical applications of Gunn diode
25thConstruction, characteristics,
operating principles and typical applications of Impatt diode
26thStructure characteristics and typical applications of Horn
antenna
27thStructure characteristics and typical applications of Dish
antenna
5th 5th practice
6th 6thTo measure the Klystron frequency
by slotted section method
7th 7thTo measure the directivity and
coupling of a directional coupler
8th 8thTo plot radiation pattern of a horn antenna in horizontal and vertical
planes
9th 9thTo plot radiation pattern of a horn antenna in horizontal and vertical
planes
28thBlock diagram and working
principles of microwave communication link
29th Revision30th Test
31stTroposcatter Communication: Troposphere and its properties
32ndTropospheric duct formation and
propagation, troposcatter propagation
33rdIntroduction to radar, its various
applications
34thradar range equation (no
derivation) and its applications.
35thBlock diagram and operating principles of basic pulse radar
36thConcepts of ambiguous range, radar area of cross-section and its dependence on frequency
37thBlock diagram and operating
principles of CW (Doppler) and its applications
38thBlock diagram and operating
principles of FMCW radars and its applications
39thBlock diagram and operating
principles of MTI radar.40th Radar display- PPI
41stIntroduction to VSAT
transponders multiple access techniques
42nd VSAT and its features43rd Revision44th Revision45th Test
10th 10th practice
11th 11thTo verify the properties of magic
tee.
12th 12thTo verify the properties of magic
tee.
13th 13th revision
14th 14th internal viva
15th 15th internal viva
Lesson PlanName of the Faculty : Priyanka NainDiscipline: Electronics & Communication Engg.Semester:5thSubject:OFCLesson Plan Duration: 15 WeeksWork Load(Lecture/Practical) per week (In Hours): Lectures-03, Practicals-03
Lecture Day Topic Practical Day Topic1st Introduction2nd Historical perspective
3rdbasic communication systems,
4th
optical frequency range,advantages of optical fibre communication,
5thapplication of fibre optic communication
6th Electromagnetic spectrum
7th
Electromagnetic spectrum used Advantages and disadvantages of opticalcommunication
8thPrinciple of light penetration, reflection, critical angle
9th Fiber types construction
10thmultimedia and monomode fibers
11thstep index and gradedindex fibers,
12th acceptance angle
13thacceptance types of optical fiber cables
14thAbsorption Losses, Scattering Losses
15th Revision16th Test
17thRadiation losses, Compelling losses
18th Bending loses.
19th Dispersion, Material dispersion
20thwave guide dispersion, modal dispersion
21sttotaldispersion and bit rate.
22ndCharacteristics of light source used in optical communication
23rdprinciple ofoperation of LED
Week
Theory Practical
1st 1st Introduction
2nd 2nd Setting up of fiber analog link
3rd 3rd Setting up to optic digital link
4th 4thMeasurement of various losses in
optical fibers
5th 5th
practice
6th 6thTo observe and measure the splice
or connector loss
7th 7thTo measure and calculate
numerical aperture of optical fiber
8th 8thTo observe characteristics of
optical source
24th
different type of LED structures used and their brief description,LED driving circuitry
25th
Injection Laser diode, principle of operation, differentinjection laser diodes,
26thcomparison of LED and ILD, non semiconductor laser.
27th
Characteristics of photo detectors used in optical communication;
28th
PIN diode andavalanche photo diode (APD), their brief description
29th Revision30th Test
31st Fiber alignment and joint losses32nd splicing, types of splices33rd types of connectors
34thcouplers, three and four port coupler
35th stare coupler, fiber optic switch36th Optical transmitter circuit37th optical receiver circuit,38th optical power budgeting
39thmultiplexingmethods
40th Modulation methods 41st Introduction to SDH42nd SONET43rd Revision44th Revision45th Test
optical source
9th 9th
To observe characteristics of optical defector
10th 10th
practice
11th 11thTo Connectorise a fiber with
connector at both ends
12th 12thIntroduction to various
components and tools used in optical fiber communication
13th 13th
revision
14th 14thinternal viva
15th 15thinternal viva
Lesson PlanName of the Faculty : Anju RaniDiscipline: Electronics & Communication Engg.Semester:5thSubject:Power ElectronicsLesson Plan Duration: 15 WeeksWork Load(Lecture/Practical) per week (In Hours): Lectures-03, Practicals-03
Lecture Day Topic Practical Day Topic1st introduction
2ndConstruction and working principles of a SCR,
3rdtwo transistor analogy and characteristics of SCR
4th SCR specifications and rating
5th
Different methods of SCR triggering.
6thDifferent commutation circuits for SCR.
7thSeries and parallel operation of SCR.
8th
Construction, working principles and V-I characteristics of DIAC
9th
Construction, working principles and V-I characteristics of TRIAC
10th
UJT, its Construction, working principles and V-I characteristics
11th UJT relaxation oscillator
12th
Brief introduction to Gate Turn off thyristor (GTO), Programmable Uni-junctionTransistor (PUT), MOSFET.
13th
Basic idea about the selection of heat sinks for SCR and TRIACS
14th
Applications such as light intensity control, speed control of universal motors, fan regulator,battery charger.
15thSingle phase half wave controlled rectifier with load (R, R-L)
16th Revision 17th test
18thSingle phase half controlled full wave rectifier with load (R, R-L)
Week
Theory Practical
1st 1st Introduction
2nd 2nd To plot V-I characteristic of an SCR.
3rd 3rd To plot V-I characteristics of TRIAC.
4th 4thTo plot V-I characteristics of UJT.
5th 5th To plot V-I characteristics of DIAC.
6th 6th Practice of previous experiments
19thFully controlled full wave bridge rectifier.
20thSingle phase full wave centre tap rectifier.
21st
Principle of operation of basic inverter circuits, concepts of duty cycle
22nd
Circuit diagram and working of series Inverters and their applications.
23rd
Circuit diagram and working of parallel Inverters and their applications.
24thChoppers-introduction & working
principles
25thtypes of choppers (Class A, Class B, Class C and Class D).
26th Step up and step down choppers.27th Dual converters-introduction
28thDual converters working principles and applications
29th Cyclo-converters- introduction30th revision31st test
32ndCyclo-converters- types, working principles and applications
33rdCyclo-converters- types, working principles and applications
34th basic principles Electric Drives & block diagram
35thtypes of electric drive & their comparision
36th DC drives control37th Half wave drives38th Full wave drives39th Chopper drives
40th
AC drive controli) Phase controlii) Constant V/F operation
41st Cycloconverter/Inverter drives.42nd block diagram of UPS
43rdspecifications of on-line, off line and Smart UPS
7th 7thStudy of UJT relaxation oscillator.
And observe I/P and O/P wave forms
8th 8th
Observation of wave shape of voltage at relevant point of single-phase half wave controlled rectifier and effect of change of firing angle.
9th 9th
Observation of wave shapes of voltage at relevant point of single
phase full wave controlledrectifier and effect of change of
firing angle.
10th 10th
Observation of wave shapes and measurement of voltage at
relevant points in TRIAC basedAC phase control circuit for Varying
lamp intensity and AC fan speed
11th 11th
Installation of UPS system and routine maintenance of batteries.
12th 12th Practice of previous experiments
13th 13th Practice of previous experiments
14th 14th
internal viva
15th 15th
44thConcept of high voltage DC transmission
45th test
Week
Practical Day Topic
15th 15th
internal viva
Name of the Faculty : Ms. Anju Rani & Ms. Priyanka NainDiscipline: Electronics & Communication Engg.Semester:5thSubject:TSEE LabLesson Plan Duration: 15 WeeksWork Load(Lecture/Practical) per week (In Hours): Practicals-06
Practical
1st1st
Introduction
2ndIntroduction
2nd3rd Repair, Servicing and
Maintenance Concepts
4th Fundamental Trouble Shooting Procedures
3rd5th i) Fault location
ii) Fault finding aids
6th Trouble Shooting Techniques,identification of
4th7th Trouble shooting and
maintenance of testing
8th Demonstration and practice of fault finding and repair of:
5th9th Demonstration and practice of
fault finding and repair of:
10th Demonstration and practice of fault finding and repair of:
6th11th Demonstration, practice of fault
finding and repair of Telephone
12th Demonstration, practice of fault finding and repair of Telephone
7th13th Demonstration, practice of fault
finding and repair of
14th Demonstration, practice of fault finding and repair of
8th15th Demonstration, practice of fault
finding and repair of VCD, DVD
16th Demonstration, practice of fault
Lecture Day Topic
1stDefinition of Environmental education
2ndScope of Environmental education
16thfinding and repair of VCD, DVD
9th17th Demonstration, practice of fault
finding and repair of Monitor
18th Demonstration, practice of fault finding and repair of Monitor
10th19th Testing of Integrated Circuits
(ICs) using IC tester
20th Testing of Integrated Circuits (ICs) using IC tester
11th21st Use of digital tools for
troubleshooting digital
22nd Use of digital tools for troubleshooting digital
12th23rd
Practice of previous experiments24th
13th25th
Practice of previous experiments26th
14th27th
Internal viva28th
15th29th
Internal viva30th
Lesson PlanName of the Faculty : Mr. Sohan SharmaDiscipline: Electronics & Communication Engg.Semester:5thSubject:Environment EducationLesson Plan Duration: 15 WeeksWork Load(Lecture/Practical) per week (In Hours): Lectures-03
WeekTheory
1st
3rdImportance of EnvironmentalEducation
4th Basics of ecology5th biodiversity6th eco system7th sustainable development8th Assignment of UNIT-1&29th Sources of pollution
10th natural and manmade11th causes, effects
12thcontrol measures ofpollution(air, water, noise, soil,radioactive and nuclear)
13th their units of measurement14th Test of UNIT- 315th Sessional Test-116th Solid waste managemen17th Causes18th effects19th control measures of urban20th industrial waste21st Test of UNIT-4
22ndMining and deforestation–Causes
23rd effects and control measures24th Test of UNIT-525th Environmental Legislation
26thWater (prevention and controlof pollution) Act 1974
27thAir (Prevention and Control ofPollution) Act 1981
28thEnvironmental Protection Act1986
29th Role
30thFunction of State PollutionControl Board
31stEnvironmental ImpactAssessment (EIA)
32nd Test of UNIT-633rd Sessional Test-2
34thRole of Non-conventionalEnergy Resources (SolarEnergy, Wind Energy
2nd
3rd
4th
5th
6th
7th
8th
9th
10th
11th
12th
35th Bio Energy, Hydro Energy)
36thCurrent Issues inEnvironmental Pollution
37thGlobal Warming, Green HouseEffect
38th Depletion of Ozone Layer.
39thRecycling of Material,Environmental Ethics
40thRain Water Harvesting,Maintenance of Groundwater
41st Acid Rain, Carbon Credits42nd Test of Unit-843rd Sessional test 344th Revision
45thPrevious year paper discussion
15th
12th
13th
14th