LESSON PLAN NAME OF FACULTY : Neeti SEMESTER : 2nd · 1 Observation and use of LCR meter and...
Transcript of LESSON PLAN NAME OF FACULTY : Neeti SEMESTER : 2nd · 1 Observation and use of LCR meter and...
LESSON PLAN
NAME OF FACULTY : Neeti
DISCIPLINE : Electronics and communication Engg.
SEMESTER : 2nd
SUBJECT : Basic Electronics
LESSON PLAN DURATION: 15 weeks
WORK LOAD (LECTURE/ PRACTICAL): LECTURES - 03, PRACTICALS - 03
WEEK THEORY PRACTICAL
LECTURE DAY
TOPIC PRACTICAL DAY
TOPIC
1st 1 Review of basic atomic structure and energy levels
1 Observation and use of Multi-meter, CRO and signal generator. 2 Concept of insulators, conductors
and semiconductors, atomic structure of Germanium and silicon, covalent bonds
2
3 Concept of intrinsic and extrinsic semiconductor, process of doping
3
2nd 1 Energy level diagram of conductors, insulators and semiconductors
1 Observation and use of LCR meter and regulated power supply. 2 Minority and majority charge
carriers 2
3 P and N Type semiconductors and their conductivity Applications and specifications of diagnostic equipments
3
3rd 1 1 Plotting of V-I characteristics of a PN junction diode.
2 Effect of temperature on conductivity of intrinsic semiconductors.
2
3 PN junction diode, mechanism of current flow in PN junction
3
4th 1 Forward and reverse biased PN junction, potential barrier, drift and diffusion currents, depletion layer, concept of junction capacitance in forward and reverse biased condition.
1 Plotting of V-I characteristics of a Zener diode. 2 2
3 V-I characteristics, static and dynamic resistance and their value calculation from the characteristics.
3
5th 1 Application of diode as half-wave, full wave and bridge rectifiers, peak inverse voltage, rectification efficiencies and ripple factor
1 To observe output of clipping and clamping circuits. 2 2
calculation.
3 Shunt capacitor filter, series inductor filter, LC and π filters.
3
6th 1 Types of diodes, characteristics and applications of zener diodes, zener and avalanche breakdown
1 Measurement of voltage gain, input and output impedance in a single stage amplifier circuit.
2 2
3 Clipping and clamping circuits 3
7th 1 Concept of a bipolar transistor, its structure, PNP and NPN transistors, their symbols and mechanism of current flow; Current relations in a transistor, concept of leakage current.
1 Design of half-wave rectifier circuit using one diode on breadboard..
2 2
3 3
8th 1 CB, CE, CC configurations of a transistor; input and output characteristics in CB and CE configurations; input and output dynamic resistance in CB and CE configurations; Current amplification factors. Comparison of CB, CE and CC configurations.
1 Design of full-wave rectifier circuit using two diodes on breadboard.
2 2
3 3
9th 1 Transistor as an amplifier in CE configuration; concept of DC load line and calculation of current gain and voltage gain using DC load line.
1 Design of bridge-rectifier circuit using four diodes on breadboard.
2 2
3 3
10th 1 1 Plotting of the wave shape of full wave rectifier with shunt capacitor filter.
2 Concept of transistor biasing and selection of operating point.
2
3 Need for stabilization of operating point
3
11th 1 Different types of biasing circuits.
1 Plotting of the wave shape of full wave rectifier with series inductor filter.
2 2
3 Single stage transistor amplifier circuit
3
12th 1 1 Plotting of input and output characteristics and calculation of parameters of transistors in CE configuration.
2 Concept of dc and ac load line and its use
2
3 3
13th 1 1 Plotting of input and output characteristics and calculation of parameters of transistors in CB configuration.
2 Explanation of phase reversal of output voltage with respect to input voltage
2
3 Construction, operation and characteristics of a MOSFET in depletion and enhancement modes and its applications.
3
14th 1 1 Plotting of V-I characteristics of a FET based amplifier. 2 2
3 3
15th 1 CMOS - advantages and applications
1
2 2
3 Comparison of JFET, MOSFET, BJT 3
LESSON PLANNAME OF FACULTY : Dr. Pradeep KumarDISCIPLINE : ECESEMESTER : 6THSUBJECT : EMPLOYABILITY SKILLS – IILESSON PLAN DURATION : 16 WEEKSWORK LOAD (LECTURE/ PRACTICAL) : PRACTICAL -02
1. Oral Practice123456789
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LECTURE DAY TOPIC
iii) Group discussion
iv) Seminar presentation
b) Structure and tools of presentation
i) Mock interview
ii) Preparing for meeting
c) Paper reading
d) Power point presentation
a) Elements of good presentation
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LESSON PLANNAME OF FACULTY : Dr. Pradeep KumarDISCIPLINE : ECESEMESTER : 6THSUBJECT : ENTREPRENEURSHIP DEVLOPMENT AND MANAGEMENTLESSON PLAN DURATION : 16 WEEKSWORK LOAD (LECTURE/ PRACTICAL) : LECTURES -03
LECTURE DAY TOPIC1 SECTION – A ENTREPRENEURSHIP - Introduction2 Concept /Meaning and its need3 Qualities and functions of entrepreneur4 barriers in entrepreneurship5 Sole proprietorship6 partnership forms of business organisations7 Schemes of assistance by entrepreneurial support agencies at National,
State District level
8 organisation: NSIC, NRDC9 DC, MSME, SIDBI
10 NABARD11 Commercial Banks12 SFC’s TCO, KVIB13 DIC14 Technology Business Incubators (TBI) and Science and Technology
Entrepreneur ParksTEST -1
15 2. Market Survey and Opportunity Identification (Introduction )16 Scanning of the business environment17 Salient features of National and State industrial policies18 resultant business opportunities19 Types and conduct of market survey20 Types and conduct of market survey21 Assessment of demand and supply in potential areas of growth22 Identifying business opportunity23 Considerations in product selection24 Considerations in product selection and Assignment- 1 25 Project report Preparation - Preliminary project report 26272829303132
TEST-II
SECTION –B MANAGEMENT 4. Introduction to Management
33 Definitions and importance of management Functions of management: Importance and process of planning, organising, staffing, directing and controlling
Detailed project report including technical, economic and market feasibility
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Exercises on preparation of project report
Common errors in project report preparations
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WEEK THEORY
1st
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3rd
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7th
34 Principles of management (Henri Fayol, F.W. Taylor) Concept and structure of an organisation35 Types of industrial organisationsa) Line organisationb) Line and staff organisationc) Functional Organisation
36 c) Functional Organisation and Assignment-2 37 5. Leadership and Motivation (Introduction )38 a) Leadership
• Definition and Need• Qualities and functions of a leader• Manager Vs leader• Types of leadership
39 b) Motivation• Definitions and characteristics• Factors affecting motivation• Theories of motivation (Maslow, Herzberg, Douglas, McGregor)
40 6. Management Scope in Different Areas (Introduction )41
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4445 c) Marketing and sales
• Introduction, importance, and its functions• Physical distribution • Introduction to promotion mix• Sales promotiond) Financial Management• Introductions, importance and its functions• Elementary knowledge of income tax, sales tax, excise duty, custom duty and VATAssignment-3
47 7. Miscellaneous Topics a) Customer Relation Management (CRM)• Definition and need• Types of CRM
48 b) Total Quality Management (TQM)• Statistical process control• Total employees Involvement• Just in time (JIT)c) Intellectual Property Right (IPR)• Introductions, definition and its importance• Infringement related to patents, copy right, trade markTEST- 3
a) Human Resource Management• Introduction and objective• Introduction to Man power planning, recruitment and selection• Introduction to performance appraisal methods
b) Material and Store Management• Introduction functions, and objectives• ABC Analysis and EOQ
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LESSON PLAN
NAME OF FACULTY : Neeti
DISCIPLINE : Electrical Engg.
SEMESTER : 4th
SUBJECT : Electronics-II
LESSON PLAN DURATION : 15 weeks
WORK LOAD (LECTURE/ PRACTICAL) : LECTURES - 04 , PRACTICALS - 03
WEEK THEORY PRACTICAL
LECTURE DAY
TOPIC PRACTICAL DAY
TOPIC
1st 1 Difference between voltage and power amplifier
1 To study the effect of coupling capacitor on lower cut off frequency and upper cut off frequency by plotting frequency response curve of a two stage RC coupled amplifier.
2 Important terms in power amplifier, collector efficiency, distortion and dissipation capability.
2
3 Classification of power amplifier class A, B and C.
3
4 Class A single-ended power amplifier, its working and collector efficiency.
2nd 1 1 To measure optimum load, output power and signal handling capacity of a push pull amplifier.
2 Impedance matching in a power amplifier using transformer, Heat sinks in power amplifiers
2
3 Push-Pull amplifier: circuit details, working and advantages
3
4
3rd 1 Principle of working of complementary symmetry push-pull amplifier
1 To measure the effect of negative current feedback on the voltage gain of a single stage transistor amplifier by removing emitter bye-pass capacitor.
2 2
3 Introduction to tuned voltage amplifier
3
4 Series and parallel resonance
4th 1 Single and double tuned voltage amplifiers
1 To measure voltage gain, input and output impedance for an emitter follower circuit.
2 2
3 Frequency response of tuned voltage amplifiers
3
4 Applications of tuned voltage amplifiers
5th 1 Feedback and its importance 1 To measure frequency generation in Hartley oscillator. 2 Positive and negative feedback
and their need 2
3 Voltage gain of an amplifier with negative feedback
3
4 Effect of negative feedback on voltage gain, stability and distortion, bandwidth, output and input impedance of an amplifier.
6th 1 1 To measure frequency generation in R-C phase shift oscillator.
2 Typical feedback circuits, Effect of removing the emitter bypass capacitor on a CE transistor amplifier
2
3 3
4 Emitter follower and its applications.
7th 1 Sinusoidal oscillators-positive feedback in amplifiers.
1 To observe the differentiated and integrated square wave on a CRO for different values of R-C time constant.
2 Difference between an oscillator and an alternator.
2
3 Essentials of an oscillator. 3
4 Circuit details and working of LC oscillators viz. Tuned collector, Hartley and Colpitt’s oscillators.
8th 1 1 Clipping of both portion of sine wave using diode and dc source, zener diodes. 2 R-C oscillator circuits, phase shift
and wein bridge oscillator circuits
2
3 3
4 Introduction to piezoelectric crystal and crystal oscillator circuit
9th 1 Concept of wave shaping 1 Clamping a sine wave to negative dc voltage and positive dc voltage.
2 RC differentiating and integrating circuits, diode clipping circuits, diode clamping circuits
2
3 3
4
10th 1 Applications of wave shaping circuits
1 To generate square wave using an astable multivibrator and to observe the waveform on a CRO.
2 Transistor as a switch 2
3 3
4 Collector coupled astable, monostable, bistable multivibrator circuits, brief mention of use of multivibrators.
11th 1 1 To observe triggering and working of a bistable multivibrator circuit and observe its output waveform on a CRO.
2 2
3 3
4 Working and applications of transistor inverter circuit using power transistors.
12th 1 1 To use op-amp as inverting and non-inverting amplifier.
2 Working principles of different types of power supplies viz. CVTs, IC voltage regulator (78Xx, 79XX).
2
3 3
4
13th 1 To use op-amp as adder, comparator, differentiator and integrator.
2
3 The basic operational amplifier,
4 the differential amplifier, The emitter coupled differential amplifier, offset even voltages and currents.
14th 1 Basic operational amplifier applications, integrator and differentiator, summer, subtractor.
To study the pin configuration and working of IC 555 and its use as monostable and astable multivibrator.
2
3
4 Familiarization with specifications and pin configuration of IC 741.
15th 1 To realize the regulated power supply by using three terminal voltage regulator ICs such as 7805, 7905,7915 etc.
2 Block diagram and operation of 555 IC timer.
3 Revision for the exam.
4
NAME OF FACULTYDISCIPLINE
SEMESTERSUBJECT LESSON PLAN DURATION WORK LOAD (LECTURE/ PRACTICAL)
LECTURE DAY
TOPIC PRACTICAL HOURS
TOPIC
1 Introduction to subject, syllabus and books, Introduction to different type of mother boards
1
2 Single Board Based System
2
3 Block diagram of motherboard
3
4 Description of motherboard different parts
5 Installation of computer system
4
1st Operation, Maintenance,Installation and Testing ofthe Monitors (LCD andLED)
LESSON PLAN
Vikas MalikElectronics Engineering
6th
MOCS
15 week ( from January 2018 to April 2018)THEORY-4 PRACTICAL- 3
WEEK THEORY PRACTICAL
2nd Operation, Maintenance,Installation and Testing ofthe HDD, Partitioning andFormatting
6 Complete procedure to install a computer system, Windows and softwares installation
5
7 Rapid Revision of 1st unit
6
8 Different type of Buses PCI
9 SCSI and Serial and Parallel ports (COM ports)
7
10 Ports COM 1, LPTI
8
11 USB. 912 RS 232 C13 Use of
computer for instrumentation.
10
14 Rapid Revision of 2nd unit assignment-1
11
3rd Operation, Maintenance,Installation and Testing ofthe DOT Matrix Printer
4th Internal viva for the conducted 3 practicals
15 Memory :Principle and construction of Hard Disk Drive
12
16 Floppy Disk Controller
17 Hard Disk Controller
13
18 Pen Drives 14
19 common faults with hard disk
15
20 drive and floppy disk drive
21 Test(Oral/Written)
16
22 Test(Oral/Written)
17
23 Test(Oral/Written)
18
24 Test(Oral/Written)
25 Rapid Revision of 3rd unit
19
26 Block Diagram of keyboard Controller
20
5th Operation, Maintenance,Installation and Testing ofthe Laser Printer
6th
Operation, Maintenance,Installation and Testing ofthe Mother board basedon latest microprocessorand chipset CMOS Set up.
7th Operation, Maintenance,Installation and Testing ofthe DVD-ROM/DVD Writer
27 keyboard switches
21
28 keyboard faults
29 Mouse and its types
22
30 common faults with mouse and optical mouse
23
31 Introduction to scanner
24
32 Introduction to digitizer
33 Rapid Revision of 4th unit
25
34 CRT Display Devices Block Diagram
26
35 Principle of operation of Computer Monitor
27
36 Difference between TV and Computer Monitor
8th Operation, Maintenance,Installation and Testing ofthe Connectors and Cables
9th Internal viva for the conducted 7 practicals
37 Video display Adaptors (monochrome and Colour)
28
38 introduction to solid state displays
29
39 Rapid Revision of 5th unit and assignment-2
30
40 Printers: Printing Mechanism
41 Construction and working principles of Dot Matrix Printer
31
42 Inkjet Printer
32
43 Laser Printer
33
44 Printer Controller
45 Centronics Interface, Signals from PC to Printer and Printer to PC
34
10th Operation, Maintenance,Installation and Testing oftheMODEM/ROUTER/SWITCH
11th Installation of anyoperating system
12th Establish LAN,WLAN,using Networking Devices
46 Rapid Revision of 6th unit
35
47 LAN 3648 WAN49 Wi-Fi 3750 WLAN 3851 Router 3952 Switch,
Hub53 Rapid
Revision of 7th unit
40
54 Modems: Introduction
41
55 Need and functions of modems
42
56 Laptop: Introduction
57 Need of laptops in general life and Engineering & Technology
43
58 Functions of Laptops
44
59 Applications of Laptop
45
60 Revision of 1st unit and assignment-3
14th Internal viva for the conducted all practicals
15th Revision
13th Study of LAPTOP, IPAD,Smart Phone
NAME OF FACULTYDISCIPLINE
SEMESTERSUBJECT LESSON PLAN DURATION WORK LOAD (LECTURE/ PRACTICAL)
LECTURE DAY
TOPIC PRACTICAL HOURS
TOPIC
1 Wireless Communication Basics
1
2 Wireless Communication Basics
2
3 Wireless Communication Basics
3
4 Wireless Communication Basics
5 Advantages of wireless communication
4
6 Advantages of wireless communication
5
7 Electromagnetic waves 68 Frequency Spectrum used9 Paging system 7
10 Cordless Telephone System811 Cellular Telephone System912 Cellular Telephone System13 Comparison of
wireless communication systems
10
1st study the features, specification and working of cellular mobile
LESSON PLAN
Vikas MalikElectronics Engineering
6th
WMC
15 week ( from January 2018 to April 2018)THEORY-4 PRACTICAL- 3
WEEK THEORY PRACTICAL
2nd Study the features, specification and working of cellular mobile
3rd Study the features, specification and working of cellular mobile
4th Signal strength measurement of various points from a transmitting antenna/cordless phone
14 Cellular Telephone System1115 Introduction to First Generation1216 Introduction to
Second Generation
17 Introduction to Third Generation
13
18 Introduction to Fourth Generation
14
19 Cellular Concept 1520 Cellular Concept21 Test(Oral/Written) 16
22 Test(Oral/Written) 17
23 Test(Oral/Written) 18
24 Test(Oral/Written)
25 Cell area 1926 Capacity of cell 2027 Frequency Response 2128 Co-channel Interference29 Adjacent channel Interference2230 Power Control for
reducing Interference
23
31 Improving coverage and capacity in cellular system
24
32 Cell Splitting33 Sectoring 2534 Repeater for Range Extension2635 Revision 2736 Revision37 Test(Oral/Written) 28
38 Test(Oral/Written) 29
39 Test(Oral/Written) 30
40 Test(Oral/Written)
41 Multiple Access Techniques for Wireless Communication
31
5th Signal strength measurement of various points from a transmitting antenna/cordless phone
6th Demonstration of Base Trans Receiver(BTS) with nearby cellular tower
7th Visit of a Mobile Switching Centre(MSC) in the nearest M.S. facility provider
8th Observing call processing of CDMA trainer Kit
9th Pairing of two devices using Bluetooth
10th Data transfer using WI-FI
11th Observing call processing of GSM trainer Kit
42 Introduction to Multiple Accesses.3243
Frequency Division Multiple Access (FDMA)
33
44 Time Division Multiple Access (TDMA)45 Code Division Multiple Access (CDMA)3446
Spread Spectrum Multiple Access (SSMA)
35
47Frequency Hopping spread Spectrum (FHSS)
36
48 Comparison of FDMA/TDMA/CDMA49 Mobile Communication Systems3750 Introduction of
Global Systems for Mobile Communication (GSM) and its architecture
38
51 Introduction of Global Systems for Mobile Communication (GSM) and its architecture
39
52 Introduction of CDMA System53 comparison of
CDMA and GSM Systems
40
54 Introduction of GPRS and GPS System4155 Introduction to Blue tooth4256 Wi-Fi57 Basic block
diagram of digital and data communication system
43
58comparison with data analog communication systems
44
59 Test 4560 Test
14th Revision
15th Revision
12th Internal viva for the conducted all practicals
13th Revision
Name of the Faculty : Rishi Kumar
Discipline : Electronics & Communication Engg.
Semester : III
Subject : Instrumentations
Lesson Plan Duration : 15 Weeks
Work Load (Lecture / Practical)
Per week (in Hours) : Lectures – 03, Practical – 02
Week Theory Practical
Lecture
Day
Topic Practical
Day
Topic
I 1 Importance of measurement
Basic measuring systems
1 Importance of measurement
Basic measuring systems
2 Advantages and limitations of each measuring
systems and display devices
3 Oral Test of Ch. 1
Transducers Theory
II 4 Construction and use of Resistance type
Transducers
2 Introduction of Transducers
5 Construction and use of Inductance type
Transducers
6 Construction and use of Capacitance type
Transducers
III 7 Construction and use of Electromagnetic type
Transducers
3 Measurement of the level of a
liquid using a transducer
8 Construction and use of Piezo-electric type
Transducers
9 wire wound potentiometer
IV 10 LVDT 4 Measurement of temperature
using a thermo-couple
11 Strain gauges and their different types
12 Gauge factor, gauge materials and their
selections
V 13 Use of electrical strain gauges,
strain gauge bridges and amplifiers
5 Use of digital temperature
controller
14 Oral Test of Ch. 2 & 3
15 Assignment: LVDT, Strain Gauge & Gauge
Factor
VI 16 Different types of force measuring devices and
their principles
6 Use of themistor in ON/OFF
transducer
17 Different types of force measuring devices and
their principles
18 Load measurements by using elastic
transducers
VII 19 Load measurements by using electrical strain
gauges
7 Measurement using variable
capacitive transducer
20 Load cells
21 Measurements of torque by brake,
dynamometer
VIII 22 Measurements of torque by electrical strain
gauges
8 Study of characteristics of a
potentiometer
23 Speed measurements
24 Assignment: Load Cell, Speed Measurement
IX 25 Oral Test of Ch. 4 9 Measurement of linear
displacement using LVDT
26 Bourdon pressure gauges
27 Electrical pressure pickups and their principle
X 28 Electrical pressure pickups construction and
applications
10 Study of weighing machine
using load cell
29 Use of pressure cells
30 Oral Test of Ch. 5
XI 31 Basic principles of magnetic flow meters 11 Study of pH meter
32 Basic principles of ultrasonic flow meters
33 Oral Test of Ch. 6
XII 34 Assignment: Basic principles of ultrasonic
flow meters & Electrical pressure pick ups
12 Repetition of Practical 1, 2, &
3
35 Bimetallic thermometer, thermoelectric
thermometers
36 Resistance thermometers
XIII 37 Thermocouple 13 Repetition of Practical 4, 5, &
6
38 Thermisters and pyrometer
39 Temperature recorders
XIV 40 Oral Test of Ch. 7 14 Repetition of Practical 7, 8, 9
& 10
41 Measurement of other non electrical quantities
such as humidity
42 Measurement of other non electrical quantities
such as ph
XV 43 Measurement of other non electrical quantities
such as level
15 Repetition of All Practicals
44 Measurement of other non electrical quantities
such as vibrations
45 Oral Test of Ch. 8
Name of the Faculty : Rishi Kumar
Discipline : Electronics & Communication Engg.
Semester : IV
Subject : N.F.T.L.
Lesson Plan Duration : 15 Weeks
Work Load (Lecture / Practical)
Per week (in Hours) : Lectures – 03, Practical – 03
Week Theory PracticalLectureDay
Topic PracticalDay
Topic
I 1 Symmetrical networks 1 Introduction to Diff. Networks2 Asymmetrical networks3 Balanced and unbalanced network
II 4 T-network, Л network, Ladder network 2 Introduction of Filter
5 Lattice network6 L-network and Bridge T-network
III 7 Concept and significance of the termscharacteristic impedance of T-network and ЛNetwork
3 Measurement of thecharacteristic impedance ofsymmetrical T and Л networks
8 Concept and significance of the termspropagation constant of T-network and ЛNetwork
9 Concept and significance of the termsattenuation constant of T-network and ЛNetwork
IV 10 Concept and significance of the terms phaseshift constant and insertion loss of T-networkand Л Network
4 Measurement of the imageimpedance of a givenasymmetrical T and Лnetworks
11 Concept and significance of iterativeimpedance, image impedance, image transferconstant and insertion loss.
12 The half section (L-section); symmetrical Tand Л sections into half sections
V 13 5 For a prototype low pass filterdetermine the characteristicimpedance experimentally
14 Units of attenuation (Decibels and Nepers):General characteristics of attenuators
15 Analysis and design of simple attenuator ofSymmetrical T Filter
VI 16 Analysis and design of simple attenuator ofSymmetrical Л type Filter
6 For a prototype low pass filterPlot the attenuationcharacteristic
17 Analysis and design of simple attenuator ofSymmetrical L type Filter
18 Oral Test of Ch. 1
VII 19 Brief idea of the use of filter networks indifferent communication systems
7 design and measure theattenuation of a symmetricalT/ Л type attenuator
20 concept of low pass, high pass filters21 concept of band pass and band stop filters
VIII 22 Prototype Filter 8 For a prototype high pass filterDetermine the characteristicimpedance experimentally
23 Impedance characteristics vs frequencycharacteristics of a low and high pass filterand their significance
24 Attenuation Vs frequency of T and Л filtersand their significance - Simple designproblems of prototype low pass filter
IX 25 Phase shift Vs frequency of T and Л filters andtheir significance
9 For a prototype high pass filterplot the attenuationcharacteristic
26 characteristics impedance vs frequency of Tand Л filters and their significance
27 M-Derived Filter Sections Limitation ofprototype filters, need of m-derived filters
X 28 Crystal Filters Crystal and its equivalentcircuits
10 To plot the Impedancecharacteristic of a prototypeband-pass filter
29 special properties of piezoelectric filters andtheir use
30 Basic concept of active filtersXI 31 comparison of active filters with passive filters 11 To plot the attenuation
characteristic of a prototypeband pass filter
32 Oral Test of Ch. 2
33 Oral Test of Ch. 2
XII 34 Transmission Lines, their types andapplications
12 To plot the impedancecharacteristic of m- derivedlow pass filter
35 Distributed constants, T and Л representationof transmission line section
36 Definition of characteristic impedance,propagation constant, attenuation constant andphase shift constant
XIII 37 Concept of infinite line 13 To plot the attenuationcharacteristics of m-derivedhigh pass filter
38 Condition for minimum distortion andminimum attenuation of signal on-the-line andintroduction to loading methods
39 Concept of reflection and standing waves,definition of reflection coefficient
XIV 40 SWR & VSWR and their relation (noderivation)
14 To observe the information ofstanding waves on atransmission line andmeasurement of SWR andcharacteristic impedance of theline
41 Transmission line equation, expression forvoltage at a point on the line
42 Transmission line equation, expression forcurrent and impedance at a point on the line
XV 43 Concept of transmission lines at highfrequencies
15 Draw the attenuationcharacteristics of a crystalfilter
44 Introduction to stubs. (single, open and shortstubs)
45 Oral Test of Ch. 4
Name of the Faculty : Rishi Kumar
Discipline : Electronics & Communication Engg.
Semester : IV
Subject : Electronics Design and Fabrication Techniques
Lesson Plan Duration : 15 Weeks
Work Load (Lecture / Practical)
Per week (in Hours) : Lectures – 03, Practical – 02
Week PracticalPractical Day(3 periods)
Topic
I 1 Selection and use of commonly used active and passive components
2 Testing of active and passive components
II 3 Develop skills in assembly of components
4 soldering, and soldering techniques
III 5 Procedure for Cabinet Making
6 PCB board materials, PCB characteristics and plating, PCB corrosion and its
prevention
IV 7 Photo processing, screen printing, etching, high speed drilling, buffing,
surface treatment and protection from harsh environments, plated through
holes, double sided and multilayer PCBs
8 Standards of board sizes, Modular assemblies edge connectors, multi board
racks, flexible boards
V 9 Assembly of circuits on PCB, soldering techniques, role of tinning, flow
and wave soldering, solder ability, composition of solder. Edge connector.
Elements of wire shaping
10 Production
VI 11 Testing
12 Documentation, Introduction to log books and history sheets
VII 13 Designing and preparation of a PCB
14
VIII 15
16
IX 17 Mounting of the components
18
X 19
20
XI 21
22 Assembling in a cabinet
XII 23
24
XIII 25 Computer aided design of electronics circuit using different software
ORCAD, and Circuit Maker26
XIV 27 Production Planning
28 CNC drilling
XV 29 photo plating
30 concept of SMDs (Surface Mount Devices)
Name of the Faculty : Rishi Kumar
Discipline : Electronics & Communication Engg.
Semester : III
Subject : Microprocessor and Peripheral Devices
Lesson Plan Duration : 15 Weeks
Work Load (Lecture / Practical)
Per week (in Hours) : Lectures – 03, Practical – 02
Week Theory Practical
Lecture
Day
Topic Practical
Day
Topic
I 1 Typical organization of a microcomputer system 1 Familiarization of different keys of
8085 microprocessor kit and its
memory map
2 functions of various blocks microcomputer system
3 Microprocessor, its evolution, function and impact on
modern society
4 Oral Test: Ch. 1
II 5 Concept of Bus, bus organization of 8085 2 Familiarization of different keys of
8085 microprocessor kit and its
memory map
6 Functional block diagram of 8085
7 Function of each block of 8085
8 Function of each block of 8085
III 9 Pin details of 8085 3 Steps to enter, modify data/program
and to execute a programme on 8085
kit
10 8085 related signals
Assignment: Block Dia. & Pin Dia. of 8085
11 Demultiplexing of address/data bus generation of
read/write control signals
12 Demultiplexing of address/data bus generation of
read/write control signals
IV 13 Steps to execute a stored programme 4 Steps to enter, modify data/program
and to execute a programme on 8085
kit
14 Oral Test: Ch. 2
15 Instruction cycle
16 Instruction cycle
V 17 Machine cycle 5 Writing and execution of ALP for
addition and subtraction of two 8 bit
numbers
18 T-states
19 Fetch and execute cycle
20 Assignment: Instruction cycle, Machine cycle
VI 21 Oral Test: Ch. 3 6 Writing and execution of ALP for
multiplication and division of two 8 bit
numbers
22 Brief idea of machine and assembly languages
23 Machines and Mnemonic codes
24 Instruction format
VII 25 Addressing mode 7 Writing and execution of ALP for
arranging 10 numbers in ascending/
descending order
26 Addressing mode
27 Assignment: Addressing mode
28 Concept of Instruction set
VIII 29 Explanation of the instructions of Data transfer group 8 Writing and execution of ALP for 0 to
9 BCD counters
30 Explanation of the instructions of Arithmetic Group
31 Explanation of the instructions of Logic Group
32 Explanation of the instructions of Stack, I/O and Machine
Control Group
IX 33 execution of ALP for addition and subtraction of two 8
bit numbers
9 Interfacing exercise on 8255 like LED
display control
34 Execution of ALP for multiplication and division of two
8 bit numbers
35 Execution of ALP for arranging 10 numbers in
ascending/descending order
36 Execution of ALP for 0 to 9 BCD counters
X 37 Assignment: Program of Addition, Subtraction,
multiplication & Division
10 Interfacing exercise on 8253
programmable interval timer
38 Oral Test: Ch. 4
39 Concept of memory mapping
40 partitioning of total memory space
XI 41 Address decoding 11 Interfacing exercise on 8279
programmable KB/display interface
like to display the hex code of key
pressed on display
42 Concept of peripheral mapped I/O
43 Concept of memory mapped I/O
44 Interfacing of memory mapped I/O devices
XII 45 Oral Test: Ch. 5 12 Use of 8085 emulator for hardware
testing
46 Concept of interrupt, Maskable and non-maskable
interrupt
47 Edge triggered and level triggered interrupts
48 Software interrupt, Restart interrupts and its use
XIII 49 Various hardware interrupts of 8085, Servicing
interrupts, extending interrupt system
13 Use of 8085 emulator for hardware
testing
50 Oral Test: Ch. 6
51 Concept of programmed I/O operations
52 sync data transfer, async data transfer (hand shaking)
XIV 53 Interrupt driven data transfer, DMA 14 Test of Programming of 8085 on Kit
54 Serial output data, Serial input data
55 8255 PPI
56 Assignment: 8255 PPI
8253 PIT
XV 57 Assignment: 8253 PIT
8257 / 8237 DMA controller
15 Test of Programming of 8085 on Kit
58 Assignment: 8257 DMA Controller
8279 Programmable KB/Display Interface
59 Assignment: 8279 Programmable KB/Display Interface
8251 Communication Interface Adapter
60 Oral Test: Ch. 7, 8
LESSON PLAN
NAME OF FACULTY : Neeti
DISCIPLINE : Electronics and communication Engg.
SEMESTER : 6th
SUBJECT : Medical Electronics
LESSON PLAN DURATION: 15 weeks
WORK LOAD (LECTURE/ PRACTICAL): LECTURES - 04 , PRACTICALS - 03
WEEK THEORY PRACTICAL
LECTURE DAY
TOPIC PRACTICAL DAY
TOPIC
1st 1 Elementary ideas of cell structure
1 Familiarization with the operation of B.P. apparatus.
2 Heart and circulatory system 2
3 3
4 Central nervous system
2nd 1 Muscle action 1 Familiarization with the operation of ECG machine. 2 Respiratory system 2
3 Body temperature and reproduction system
3
4 Classification of medical equipments
3rd 1 Applications and specifications of diagnostic equipments
1 Measurement of concentration of blood sugar with glucometer.
2 Applications and specifications of therapeutic equipments
2
3 Applications and specifications of clinical laboratory equipments
3
4 Method of operation of these instruments
4th 1 1 Measurement of respiration rate. 2 Bioelectric signals 2
3 Bio electrodes 3
4 Electrode
5th 1 Electrode tissue interface 1 Measurement of pulse rate.
2 Contact impedance 2
3 Types of electrodes 3
4 Electrodes used for ECG, EEG
6th 1 Typical signals from physiological parameters
1 Precautions to be taken in the installation of small medical equipments in hospitals. 2 Pressure transducer 2
3 Flow transducer 3
4
7th 1 Temperature transducer 1 Study of large medical equipments in hospital. 2 Pulse sensor 2
3 Respiration sensor 3
4 Block diagram description of ECG machine, Application of ECG machine
8th 1 1 Study of large medical equipments in hospital 2 2
3 Block diagram description of EEG machine
3
4
9th 1 Application of EEG machine 1 Operation of electro-physiotherapy. 2 Block diagram description and
application of EMG machine 2
3 3
4
10th 1 Heart rate measurement 1 Use of electro-physiotherapy
2 2
3 Pulse rate measurement 3
4
11th 1 Respiration rate measurement 1 Maintenance schedule for different equipments in a hospital.
2 2
3 Blood pressure measurement 3
4
12th 1 Principle of defibrillator and pace maker
1 Maintenance of records of equipments in a hospital. 2 2
3 Use of microprocessor in patient monitoring
3
4
13th 1 Blood sugar measurement
2
3 Gross current shock
4
14th 1 Micro current shock
2
3 Special design from safety consideration
4
15th 1 Safety standards
2 Revision for the exam.
3
4