lesson Plan Name of the Faculty : Sh. Inderjeet Singh...

10
Practical Lecture day Topic (including assignment/ test) Topic 1 Introduction about subject 2 Networks : Two port (four terminals) network 3 Basic concepts of Symmetrical and asymmetrical networks ,Balanced and unbalanced network; 4 Basic concepts of T-network,π- Network, Ladder network,Lattice network,L- network and Bridge T-network 5 Concept and significance of the terms characteristic impedance, propagation constant,attenuation constant, phase shift constant 6 Characteristic impedance of a T- Network 7 Characteristic impedance of a π- Network 8 Propagation constant of a T- Network 9 Propagation constant of a π- Network 10 Attenuation and phase constant of a T and π- Network 11 insertion loss of T-network and π Network 12 Revision of symmetrical networks 13 Asymmetrical Network Concept and significance of iterative impedance 14 image impedance, image transfer constant and insertion loss 15 The half section (L-section); symmetrical T and Л sections into half sections 16 1 st Sessional Test 17 Attenuators, Units of attenuation (Decibels and Nepers),General characteristics of attenuators. 18 Analysis and design of Symmetrical T attenuator 19 Analysis and design of Symmetrical π attenuator 20 Analysis and design of L- type attenuator 21 Numerical problem on design of attenuators 22 Filters 23 Brief idea of the use of filter networks in different communication systems 24 concept of low pass, 25 high pass, band pass and band stop filters. 26 Prototype Filter Section: Impedance characteristics vs frequency characteristics of a low and high pass filter and their significance 27 Attenuation Vs frequency; Phase shift Vs frequency, characteristics impedance vs frequency of T and π filters and their significance 28 Simple design problems of prototype low pass filter. 29 M-Derived Filter Sections Limitation of prototype filters, need of m-derived filters 30 Crystal Filters Crystal and its equivalent circuits, special properties of piezoelectric filters and their use 31 Active Filters Basic concept of active filters and their comparison with passive filters. 32 2 nd Sessional Test Week Theory 1 st 2 nd 3 rd 7 th To design and measure the attenuation of a symmetrical T/ π type attenuator To determine the impedance characteristic and attenuation characteristic of a prototype band pass filter and plot the 5 th 4 th To determine the characteristic impedance experimentally of a prototype high pass filter and plot the attenuation characteristic Lesson Plan Duration : Jan-Apr-2018 Work Load (Lecture/ Practical) per week (in hours): 03 HOURS (Lecturer) To determine the impedance characteristic and attenuation characteristic of a m-derived lowpass filter To determine the impedance characteristic and attenuation characteristic of a m-derived highpass filter To observe the information of standing waves on a transmission line and measurement of SWR and characteristic impedance of the line Introduction about Practical To measure the characteristic impedance of symmetrical T and π- Network To measure the image impedance of a given asymmetrical T and π - Network To determine the characteristic impedance experimentally of a prototype low pass filter and plot the attenuation characteristic 11 th 10 th 8 th 9 th 6 th lesson Plan Name of the Faculty : Sh. Inderjeet Singh Dhindsa Discipline : Electronics and Communication Engg. Semester : IVth Subject : NETWORK FILTERS AND TRANSMISSION LINES Draw the attenuation characteristics of a crystal filte

Transcript of lesson Plan Name of the Faculty : Sh. Inderjeet Singh...

Page 1: lesson Plan Name of the Faculty : Sh. Inderjeet Singh ...gpambala.ac.in/wp-content/uploads/2017/01/Lesson-plan-4th-Sem-EC… · line and measurement of SWR and characteristic impedance

Practical

Lecture

day

Topic (including assignment/ test) Topic

1 Introduction about subject

2 Networks : Two port (four terminals) network

3Basic concepts of Symmetrical and asymmetrical networks ,Balanced and

unbalanced network;

4Basic concepts of T-network,π- Network, Ladder network,Lattice network,L-

network and Bridge T-network

5Concept and significance of the terms characteristic impedance, propagation

constant,attenuation constant, phase shift constant

6 Characteristic impedance of a T- Network

7 Characteristic impedance of a π- Network

8 Propagation constant of a T- Network

9 Propagation constant of a π- Network

10 Attenuation and phase constant of a T and π- Network

11 insertion loss of T-network and π Network

12 Revision of symmetrical networks

13 Asymmetrical Network Concept and significance of iterative impedance

14 image impedance, image transfer constant and insertion loss

15 The half section (L-section); symmetrical T and Л sections into half sections

16 1st

Sessional Test

17Attenuators, Units of attenuation (Decibels and Nepers),General

characteristics of attenuators.

18 Analysis and design of Symmetrical T attenuator

19 Analysis and design of Symmetrical π attenuator

20 Analysis and design of L- type attenuator

21 Numerical problem on design of attenuators

22 Filters

23 Brief idea of the use of filter networks in different communication systems

24 concept of low pass,

25 high pass, band pass and band stop filters.

26Prototype Filter Section: Impedance characteristics vs frequency

characteristics of a low and high pass filter and their significance

27Attenuation Vs frequency; Phase shift Vs frequency, characteristics

impedance vs frequency of T and π filters and their significance

28 Simple design problems of prototype low pass filter.

29M-Derived Filter Sections Limitation of prototype filters, need of m-derived

filters

30Crystal Filters Crystal and its equivalent circuits, special properties of

piezoelectric filters and their use

31Active Filters Basic concept of active filters and their comparison with passive

filters.

32 2nd

Sessional Test

Week Theory

1st

2nd

3rd

7th

To design and measure the

attenuation of a symmetrical

T/ π type attenuator

To determine the impedance

characteristic and attenuation

characteristic of a prototype band

pass filter and plot the

5th

4th

To determine the characteristic

impedance experimentally of a

prototype high pass filter and plot

the attenuation characteristic

Lesson Plan Duration : Jan-Apr-2018

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

To determine the impedance

characteristic and attenuation

characteristic of a m-derived

lowpass filter

To determine the impedance

characteristic and attenuation

characteristic of a m-derived

highpass filter

To observe the information of

standing waves on a transmission

line and measurement of SWR and

characteristic impedance of the

line

Introduction about Practical

To measure the characteristic

impedance of symmetrical T and

π- Network

To measure the image impedance

of a given asymmetrical T and π - Network

To determine the characteristic

impedance experimentally of a

prototype low pass filter and plot

the attenuation characteristic

11th

10th

8th

9th

6th

lesson PlanName of the Faculty : Sh. Inderjeet Singh Dhindsa

Discipline : Electronics and Communication Engg.

Semester : IVth

Subject : NETWORK FILTERS AND TRANSMISSION LINES

Draw the attenuation

characteristics of a crystal filte

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33 Transmission Lines Transmission Lines, their types and applications.

34 Distributed constants, T and πrepresentation of transmission line section.

Primary constant of transmission line.35 Secondary constant of a transmission line. Transmission line equation

36 transmission line equation contd.

37 Concept of infinite line

38Condition for minimum distortion and minimum attenuation of signal on-the-

line and Introduction to loading methods.

39Concept of reflection and standing waves, definition of reflection coefficient,

SWR & VSWR and their relation (no derivation).

40 ---------------do -------------------

41 Concept of transmission lines at high frequencies.

42 Impedance matching, quarter wave transformer

43 Introduction to stubs. (single, open and short stubs).

44 revision of transmission line equation

45 3rd

Sessional Test

Repeat of any experiment12th

11th

Repeat of any experiment

Repeat of any experiment

         The theory and practical part may be taken by a single faculty member or separately by 02 members as the case may be.

         For instance, subject having 03 lectures per week as per curriculum will have 45 lecture days for 15 weeks of lesson plan.

Similarly, the practical days (may be of 02 hours/03 hours/ 04 hours duration) may be calculated per week and accordingly, lesson

plan is to be prepared for 15 weeks.

Draw the attenuation

characteristics of a crystal filte

Viva15th

14th

13th

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Practical

Lecture

dayTopic (including assignment/ test) Topic

1Introduction about subject,AM/FM Transmitters ,Classification of

transmitters on the basis of modulation, service, frequency and power.

2 Block diagram of AM transmitters and working of each stage.

3Block diagram and working principles of reactance FET and armstrong FM

transmitters

4AM/FM Radio Receivers,Principle and working with block diagram of super

heterodyne AM receiver.

5Function of each block and typical waveforms at input and output of each

block.

6 Performance characteristics of a radio receiver.

7Sensitivity, selectivity, fidelity, S/N ratio,image rejection ratio and their

measurement procedure.

8 ISI standards on radio receivers.

9 Selection criteria for intermediate frequency (IF).

10 Concepts of simple and delayed AGC.

11 Block diagram of an FM receiver,

12Function of each block and waveforms at input and output,of different

blocks.

13 Need for limiting and de-emphasis in FM reception

14Block diagram of communication receivers, differences with respect to

broadcast receivers.

15 1st

Sessional

16 Antennas: Electromagnetic spectrum and its various ranges.

17 VLF, LF, MF, HF, VHF, UHF,Microwave.

18Physical concept of radiation of electromagnetic energy from a dipole.

Concept of Polarization of EM Waves.

19Definition and physical concepts of the terms used with antennas like point

source, gain directivity.

20Aperture, effective area, radiation pattern, beam width and radiation

resistance,loss resistance.

21Types of antennas-brief description, characteristics and typical applications

of half wave dipole, medium wave (mast) antenna.

22Types of antennas-brief description, characteristics and typical applications

of half wave dipole.

23Medium wave (mast) antenna, folded dipole, patch, loop antenna, yagi

and ferrite,rod antenna (used in transistor receivers).

24Brief description of broad-side and end fire arrays, their radiation pattern

and applications (without analysis).

Introduction about

Practical Communication

Systems

To observe the

waveforms at different

stages of a AM

transmitter

To observe the

waveforms at different

stages of a Radio

Receiver

To align AM broadcast

radio receiver

To identify and study the

various types of antennas

used in different

frequency ranges

To identify and study the

various types of antennas

used in different

frequency ranges

To plot the radiation

pattern of a directional

and omni directional

antenna

To plot the variation of

field strength of a

radiated wave, with

distance from a

transmitting antenna

Lesson Plan Duration : Jan-Apr-2018

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

Specimen of lesson PlanName of the Faculty : Smt. Suchet Kumari

Discipline : Electronics and Communication Engg.

Semester : IVth

Subject : Communication Systems

3rd

2nd

WeekTheory

1st

7th

6th

4th

5th

8th

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25 Brief idea about Rhombic antenna and dish antenna.

26 Propagation:Basic idea about different modes of wave propagation.

27 typical areas of application.Ground wave propagation.

28 characteristics of Ground wave propagation.

29 summer field equation for field strength.

30 2nd

Sessional Test

31Space wave communication – line of sight propagation, standard

atmosphere,

32concept of effective earth radius range of space wave propagation

standard atmosphere.

33 Duct propagation: sky wave propagation - ionosphere and its layers.

34 Explanation of terms -virtual height, critical frequency, skips distance.

35 maximum usable frequency, multiple hop Propagation.

36 Digital Modulation Techniques

37 Introduction of:PCM, DPCM

38 DELTA Modulation

39 Basic block diagram and principle of working of the following ASK.

40 Basic block diagram and principle of working of the following FSK.

41 Basic block diagram and principle of working of the following PSK, QPSK.

42 Spread Spectrum Techniques

43 Frequency Hopping Technique

44 Revision

45 3rd

Sessional Test

Revision & Viva

10th

11th

Revision & Viva

To plot the variation of

field strength of a

radiated wave, with

distance from a

transmitting antenna

Installation of Dish

Antenna for best

reception

To observe waveforms at

input and output of ASK

and FSK modulators

To observe waveforms at

input and output of ASK

and FSK modulators

Revision & Viva

* At least Three Assignment covering substantial portion of syllabus to be given.

13th

9th

14th

15th

12th

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Practical

Lecture

day

Topic (including assignment/ test) Topic

1 Introduction about subject

2 Measurements: Importance of measurement, basic measuring systems.

3 Advantages and limitations of each measuring system.

4 Display devices

5 Theory of Transducers: construction and use of various transducers

6 Resistive transducers and wire wound potentiometer.

7 Capacitive transducers

8 Inductive transducers

9 Electromagnetic, piezo electric type transducer.

10 Measurement of Displacement and Strain: LVDT and RVDT transducer.

11 Strain gauges and Gauge factor, gauge materials and their selections.

12Use of electrical strain gauges their different types such as inductance

type resistive type, wire and foil type etc.

13 Strain gauge bridges and amplifiers.

14 Revision

15 Revision

16 1st

Sessional Test

17Force Measurement: Different types of force measuring devices and their

principles

18 Load cells

19load measurements by using elastic transducers and electrical strain

gauges.

20 Torque Measurement: Different types of torque measurement methods.

21 Measurements of torque by brake and dynamometer.

22 Speed measurements; different methods, devices.

23 Pressure Measurement

24 Bourdon pressure gauges

25Electrical pressure pickups and their principle construction and

applications.

26 Low pressure measurements and Use of pressure cells.

8th

9th

To measure linear

displacement using

LVDT

Specimen of lesson PlanName of the Faculty : Sh. Inderjeet Singh Dhindsa

Discipline : Electronics and Communication Engg.

Semester : IVth

Subject : Instrumentation

Week Theory

1st

5th

7th

4th

3rd

Lesson Plan Duration : Jan-Apr-2018

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

To study the use of

electrical strain gauge

6th

2nd

Introduction about

Practical

Instrumentation

To measure the level of

a liquid using a

transducer

To measure

temperature using a

thermo-couple

Study and use of digital

temperature controller

Use of themistor in

ON/OFF transducer

Study of variable

capacitive transducer

Draw the characteristics

of a potentiometer

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27 Revision

28 Revision

29 2nd

Sessional Test

30 Flow Measurement: Basic principles of magnetic flow meters.

31 Ultrasonic flow meters

32 Measurement of Temperature: Bimetallic thermometer.

33 Resistance thermometers

34 Thermisters

35 Thermocouple

36 Pyrometer

37 Temperature recorders

38Measurement of other non electrical quantities such as humidity

measurements.

39 pH value measurements

40 Level measurements

41 Vibrations measurements

42 Revision

43 Revision

44 Revision

45 3rd

Sessional Test

11th

12th

13th

9th

Revision & Viva

Revision & Viva

Revision & Viva

Revision & Viva14th

15th

* At least Three Assignment covering substantial portion of syllabus to be given.

To study the use of

electrical strain gauge

To study weighing

machine using load cell

To study pH meter.

10th

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Practical

Lecture

day

Topic (including assignment/ test) Topic

1 Introduction about subject

2Logic Families,Logic family classification. TTL, ECL, MOS, CMOS. Types of

integration,SSI,MSI, LSI, VLSI.

3 Characteristics of TTL and CMOS and the comparison.

4Propagation delay.Speed, noise margin. Logic levels., power dissipation,

fan-in, fan-out,power supply requirements.

5Open collector and totem pole output circuits, operation of a standard

TTL.

6 Idea about CMOS, NAND, NOR gates.

7 CMOS to TTL interfacing and TTL to CMOS interfacing.

8 Introduction to tri-state devices, tri-state buffer and inverter circuits.

9A/D and D/A Converters,D/A Converters : Performance characteristics of

D/A converters.

10binary,resister network and resistance ladder network methods of D/A

converters,and applications.

11 A/D Converters

12 Performance characteristics of A/D converters.

13 Single,slope, dual slope,A/D converters.

14 Successive approximation and parallel A/D converters.

15 1st

Sessional Test

16 Basics of Memories

17 Memory organisation, classification of semi conductor memories, ROM.

18 PROM,DROM, EPROM, EEPROM.

19RAM, expansion of memory. CCD memories,content addressable memory,

programmable logic devices, PROM at PLD.

20 programmable logic array (PLA)

21 programmable array logic (PAL), field,programmable gate array (FPGA).

22 familiarization with common ICs.

23 Combinational Circuits

24 Minimization of Boolean expressions using Quine Mcclaaskey method.

25 Minimization of Boolean expressions using Quine Mcclaaskey method.

26 Minimization of Boolean expressions using Quine Mcclaaskey method.

27 Minimization of Boolean expressions using Quine Mcclaaskey method.

28 Revision

Verify the operation of

D/A converter

3rd

Week Theory

1st

4th

Verify the writing and

reading operation of RAM

IC

 Introduction about

Practical of Digital

Electronics

Verify the operation of

A/D converter

Design J-K Flip-flop

counter and verify its

truth table

Familiarity with the use of

EPROM programmes and

UV index

Exercise on programming

of EPROM

8th

9th

10th

6th

7th

5th

2nd

Specimen of lesson PlanName of the Faculty : Sh. Ravinder Punia

Discipline : Electronics and Communication Engg.

Semester : IVth

Subject : DIGITAL ELECTRONICS - II

Lesson Plan Duration : Jan-Apr-2018

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

Design and implement full

adder and full subtractor

Verify the logical

operation, arithmetic

operation of binary

numbers using IC74181

Verify the logical

operation, arithmetic

operation of binary

numbers using IC74181

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29 Revision

30 2nd

Sessional Test

31 Essential components of sequential circuit.

32 Synchronous and asynchronous,sequential circuits.

33 Classification of sequential circuits (Meely and Moore Machine).

34 Design of counters using J-K

35 Design of counters using R-S flip-flops.

36 Arithmetic and Logic Unit,Basic idea about arithmetic logic uni.

37 IC 74181 and applications.

38 Implementation of binary multiplication, division.

39 Implementation of binary subtraction and addition.

40 Introduction to Fuzzy logic

41 Fuzzy sets and classical sets and their operations.

42 Fuzzy relations, Properties of membership functions.

43 Fuzzification, Defuzzfication, Fuzzy control system.

44 Revision

45 3rd

Sessional Test

Revision & Viva

15th

12th

13th

10th

11th

* At least Three Assignment covering substantial portion of syllabus to be given.

Revision & Viva

Revision & Viva

Verify the logical

operation, arithmetic

operation of binary

numbers using IC74181

Revision & Viva

Revision & Viva

14th

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Practical

Lecture

day Topic (including assignment/ test) Topic

1 Introduction about subject

2 Evolution of Microprocessor

3Typical organization of a microcomputer system and functions of its

various blocks

4 Microprocessor, its evolution, function and impact on modern society

5Architecture of a Microprocessor (With reference to 8085

microprocessor)

6 Concept of Bus, bus organization of 8085,

7 Functional block diagram of 8085 and function of each block,

8 Pin details of 8085 and related signals

9Demultiplexing of address/data bus,generation of read/write control

signals,

10 Steps to execute a stored programme

11 Instruction Timing and Cycles

12 Instruction cycle, machine cycle

13 T-states, Fetch and execute cycle.

14 8085 instruction

15 8085 instruction

16 8085 instruction

17 8085 instruction

18 8085 instruction

19 8085 instruction

20 1st

Sessional Test

21 8085 instruction

22 8085 instruction

23 8085 instruction

24Stack, I/O and Machine Control Group. Programming exercises in

assembly language. (Examples can be taken from the list of

experiments).25 Memories and I/O interfacing

26 Concept of memory mapping

27 partitioning of total memory space

28 Address decoding

29 concept of peripheral mapped I/O and memory mapped I/O .

30 concept of peripheral mapped I/O and memory mapped I/O .

31 Interfacing of memory mapped I/O devices

32 Interfacing of memory mapped I/O devices

33 Proogramming exercise of 8085

34 Proogramming exercise of 8085

35 Proogramming exercise of 8085

36 Proogramming exercise of 8085

37 Proogramming exercise of 8085

38 Proogramming exercise of 8085

39 Proogramming exercise of 8085

40 2nd

Sessional Test

41Interrupts, Maskable and non-maskable, Edge triggered and level

triggered interrupts,

42 Software interrupt, Restart interrupts and its use,Various hardware

interrupts of 8085

lesson PlanName of the Faculty : Sh. Rajinder Dahiya

Discipline : Electronics and Communication Engg.

Semester : Ivth

Subject : MICROPROCESSORS AND PERIPHERAL DEVICE

Lesson Plan Duration : Jan-Apr-2018

 Interfacing exercise on 8253

programmable interval timer

 Interfacing exercise on 8279

programmable KB/display

interface like to display the

hex code of key pressed on

display

 Familiarization of different

keys of 8085 microprocessor

kit and its memory map

 Familiarization of different

keys of 8085 microprocessor

kit and its memory map

7th

 Writing and execution of ALP

for arranging 10 numbers in

ascending/descending order

4th

5th

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

3rd

 Steps to enter, modify

data/program and to execute

a programme on 8085 kit

 Writing and execution of ALP

for addition and sub station

of two 8 bit numbers

6th

Writing and execution of ALP

for multiplication and division

of two 8 bit numbers

 Introduction about Practical

Week

Theory

1st

2nd

8th

9th

10th

11th

 Writing and execution of ALP

for 0 to 9 BCD counters

(up/down counter according

to choice stored in memory)

 Interfacing exercise on 8255

like LED display control

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43 Various hardware interrupts of 8085

44 RIM and SIM instruction

45 Priority interrupt controller

46 Data Transfer Techniques :  sync data transfer,  async data transfer

(hand shaking),

47  Interrupt driven data transfer

48  DMA, Serial output data, Serial input data

49  Peripheral devices : 8255 PPI

50 8255 PPI

51 8255 PPI

52 8253 PIT

53  8257 / 8237 DMA controller

54  8251 Communication Interface Adapter

55  8279 Programmable KB/Display Interface

56  8279 Programmable KB/Display Interface

57  Revision

58  Revision

59  Revision

60  3rd

Dessional

         The theory and practical part may be taken by a single faculty member or separately by 02 members as the case may be.

         For instance, subject having 03 lectures per week as per curriculum will have 45 lecture days for 15 weeks of lesson

plan. Similarly, the practical days (may be of 02 hours/03 hours/ 04 hours duration) may be calculated per week and

accordingly, lesson plan is to be prepared for 15 weeks.

 Interfacing exercise on 8279

programmable KB/display

interface like to display the

hex code of key pressed on

display

 Use of 8085 emulator for

hardware testing

 Test & Viva

 Test & Viva14th

15th

12th

 Test & Viva

11th

13th