lesson plan - · pdf filelesson plan name of faculty : ... 1 review of basic atomic structure...
TRANSCRIPT
LESSON PLAN
Name of Faculty : VISITING FACULTY-1
Discipline : ELECTRONICS & COMMUNICATION ENGG
Semester : 2th
Subject : BASIC ELECTRONICS
Work Load : LECTURES-03, PRACTICAL-06
:15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Lecture Day THEORY
Practicals
day
PRACTICALS
Topic Topic
1 REVIEW OF BASIC ATOMIC STRUCTURE & ENRGY LEVELS G-1 INTRODUCTION OF ANALOG/ BASIC ELECTRONICS
COMPONENTS
2 CONCEPT OF INSULATORS, CONDUCTORS & SEMI CONDUCTORS
3 ATOMIC STRUCTURE OF GE & SI, COVALENT BONDS, CONCEPT OF
INTINSIC & EXHINSIC SEMI CONDUCTOR
4 PROCESS OF DOPING, ENERGY LEVEL DIAGRAM OF CONDUCTORS,
INSULANTS & SEMI CONDUCTORS
G-1 OPERATION & USE OF MULTIMETER, CRO, SIGNAL
GENERATOR
5 MINORITY & MAJORITY CHARGE CARRIERS, P & N TYPE SEMI
CONDUCTORS AND THEIR CONDUCTIVITY
6 EFFECT OF TEMPERATURE ON CONDUCTIVITY OF INTRINSIC SEMI
CONDUCTORS
7 PN JUNCTION DIODE, MECHANISM OF CURRENT FLOW IN PN JUNCTION G-1 OPERATION & USE OF LCR METER, REGULATED POWER
SUPPLY
8 FORWARD & REVERSE BIARED PN JUNCTION DIODE, POTENTIAL BARRIER
9 DRIFF & DIFFUSION CURRENTS DEPLETION LAYER
10 CONCEPT OF JUNCTION CAPACITANCE IN FORWARD & REVERSE BIASED G-1 PLOTTING OF V-I CHARACTERISTICS OF PN JUNCTION
DIODE
11 V-I CHARACTERISTICS, STATIC & DYNAMIC RESISTANCE & THEIR VALUE
CALCULATION FROM THE CHARACTERSTICS
12 APPLICATION OF DIODE AS HALF-WAVE, FULL-WAVE & BRIDGE
RECTIFIERS
13 PEAK INVERSE VOLTAGE, RECTIFICATION EFFICIENCJ & RIPPLE FACTOR
CALCULATIONS
G-1 PLOTTING OF VI CHARACTRISTICS OF ZENER DIODE
14 SHUNT CAPACITOR FILTER, SERIES INDUCTOR FILTER
15 LC & TI FILTERS
16 TYPES OF DIODES, CHARACTERISTICS & APLICATION OF ZENER DIODES G-1 TO OBSERVE OUTPUT OF CLIPPING & CLAMPING
CIRCUITS
17 ZENER DIODE & AVALANCHE BREAKDOWN
18 CLIPPING & CLAMPING CIRCUITS
Lesson Plan Duration
2 2
G-2 OPERATION & USE OF MULTIMETER, CRO, SIGNAL
GENERATOR
Week
1 1
G-2 INTRODUCTION OF ANALOG/ BASIC ELECTRONICS
COMPONENTS
3 3
G-2 OPERATION & USE OF LCR METER, REGULATED POWER
SUPPLY
4 4
G-2 PLOTTING OF V-I CHARACTERISTICS OF PN JUNCTION
DIODE
5 5
G-2 PLOTTING OF VI CHARACTRISTICS OF ZENER DIODE
6 6
G-2 TO OBSERVE OUTPUT OF CLIPPING & CLAMPING
CIRCUITS
19 CONCEPT OF A BIPOLAR TRANSISTOR ITS STRUCTURE G-1 MEASUREMENT OF VOLTAGE GAIN, INPUT & OUTPUT
IMPEDANCE IN A SINGLE STATE CE AMPLIFIER CIRCUIT
20 PNP & NPN TRANSISTORS & THEIR SYSMBOLS & MECHANISM OF
CURRENT FLOW
21 CURRENT RELATIONS IN A TRANSISTOR, CONCEPT OF LEAKAGE CURRENT
22 CB, CE, CC CONFIGURATION OF A TRANSISTOR G-1 DESIGN HALF-WAVE RECTIFIER CIRCUIT USING ONE
DIODE ON BREAD BOARD
23 INPUT & OUTPUT CHARACTERISTICS IN CB & CE CONFIGURATION
24 INPUT & OUTPUT DYNAMIC RESISTANCE IN CB & CE CONFIGURATION
25 CURRENT AMPLIFICATION FACTORS G-1 DESIGN FULL-WAVE RECTIFIER CIRCUIT USING TWO
DIODES ON BREAD BOARD
26 COMPASS ON CB, CE & CC CONFIGURATION
27 TRANSISTOR AS AN AMPLIFIER IN CE CONFIGURATION, CENCEPT OF DC
LOAD LINE
28 CALCULATION OF CURRENT GAIN & VOLTAGE GAIN USING DC LOAD LINE G-1 DESIGN BRIDGE RECTIFIER CIRCUIT USING FOUR DIODES
ON BREAD BOARD
29 CONCEPT OF TRANSISTOR BIASING
30 SELECTION OF OPERATIONG POINT, NEED FOR STABILIZATION OF
OPERATING POINT
31 DIFFERENT TYPES OF BIASING CIRCUITS G-1 PLOTTING OF THE WAVE SHAPE OF FULL WAVE RECTIFIER
WITH SHUNT CAPACITOR FILTER
32 SINGLE STAGE TRANSISTOR AMPLIFIER CIRCUIT
33 CONCEPT OF DC & AC LOAD LINE & ITS USE
34 EXPLANATION OF PHASE REVERSAL OF OUTPUT VOLTAGE WITH RESPECT
TO INPUT VOLTAGE
G-1 PLOTTING OF THE WAVE SHAPE OF FULL WAVE RECTIFIER
WITH SERIES INDUCTOR FILTER
35 CONSTRUCTION OF FETS
36 OPERATION & CHARACTRISTICS OF FETS
37 APPLICATION OF FETS & INSTRUCTION OF MOSFET G-1 PLOTTING OF INPUT & OUTPUT CHARACTERISTICS OF CE
CONFIGURATION
38 CONSTRUCTION OF MOSFET
39 OPERATION & CHARACTRISTICS OF MOSFET INDEPLETION MODES
40 MOSFET IN ENHANCEMENT MODE ITS APPLICATION G-1 PLOTTING OF INPUT & OUTPUT CHARACTERISTICS OF CB
CONFIGURATION
41 INTRODUCTION OF CMOS
42 CMOS CONSTRUCTION
43 CMOS ADVANTAGES & APPLICATIONS G-1 PLOTTING OF V-I CHARACTERISTICS OF FET
44 BJT
45 COMPARISON OF JFET, MOSFET & BJT
7 7
G-2 MEASUREMENT OF VOLTAGE GAIN, INPUT & OUTPUT
IMPEDANCE IN A SINGLE STATE CE AMPLIFIER CIRCUIT
8 8
G-2 DESIGN HALF-WAVE RECTIFIER CIRCUIT USING ONE
DIODE ON BREAD BOARD
9 9
G-2 DESIGN FULL-WAVE RECTIFIER CIRCUIT USING TWO
DIODES ON BREAD BOARD
10 10
G-2 DESIGN BRIDGE RECTIFIER CIRCUIT USING FOUR DIODES
ON BREAD BOARD
11 11
G-2 PLOTTING OF THE WAVE SHAPE OF FULL WAVE RECTIFIER
WITH SHUNT CAPACITOR FILTER
12 12
G-2 PLOTTING OF THE WAVE SHAPE OF FULL WAVE RECTIFIER
WITH SERIES INDUCTOR FILTER
15 15
G-2 PLOTTING OF V-I CHARACTERISTICS OF FET
13 13
G-2 PLOTTING OF INPUT & OUTPUT CHARACTERISTICS OF CE
CONFIGURATION
14 14
G-2 PLOTTING OF INPUT & OUTPUT CHARACTERISTICS OF CB
CONFIGURATION
Lesson Plan
Name of the faculty : VISITING FACULTY-02
Discipline : Electronics & communication Engg.
Semester : 2nd
Subject : BEE
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Work Load(Lecture/Practical)Per week (in hours): Lectures-03,Practical-06
Week Theory Practical
Lecture
day
Topic(including assignment/test) Practical
day
Topic
1st 1
st Concept of electricity, various applications of
electricity, advantages of electricity over other
types of energy.
1st
Description
about
instruments
2nd
Definition- voltage, current, potential difference,
power, energy and their units.
3rd
Ohm’s law and its practical applications, concepts
of resistance, conductance, resistivity and their
units
2nd
4th
Effect of temperature on resistance, temperature
coefficient of resistance
2nd
Familiarization
of measuring
instruments viz
voltmeter and
ammeter
5th
Series and parallel combination of resistors,
wattage consideration, simple problems
6th
Kirchhoff’s current law and Kirchhoff’s voltage
law and their applications to simple circuits.
3rd
7th
Conversion of electrical circuits from Star to Delta
and Delta to Star.
3rd
Familiarization
of measuring
instruments viz
CRO, wattmeter
and multimeter
8th
DC Circuit Theorem- Thevenin’s theorem,
Norton’s theorem
9th
Superposition theorem
4th
10th
Maximum Power transfer theorem 4th
Verification of
ohm's law
11th
Application of network theorems in solving d. c
circuit problems
12th
Concept of voltage sources- symbol, graphical
representation and characteristics of
constant/ ideal and practical sources
5th
13th
Concept of current sources- symbol, graphical
representation and characteristics of
constant/ideal and practical current sources.
5th
To verify in d.c
circuits:
Thevenin’s
theorem and
norton theorem
14th
Basic idea about primary and secondary cells
15th
Construction, working and applications of Lead-
Acid battery, Nickel- Cadmium cell and Silver-
Oxide cells
6th
16th
Concepts of magnetic field produced by flow of
current, Magnetic circuit, concept of
magneto-motive force (MMF) and flux in circuit
6th
To verify D.C
circuit using
Super position
theorem 17th
Concepts of reluctance, permeability, analogy
between electric and magnetic circuit
18th
Faraday’s laws of electro-magnetic induction,
principles of self and mutual induction
7th
19th
Self and mutually induced e.m.f, simple numerical
problems
7th
To find the
voltage current
relationship in a
single phase
R-C
20th
Concept of current growth, decay in RL circuit
21th
Concept of time constant in an inductive (RL)
circuit
8th
22th
Energy stored in an inductor 8th
To find the
voltage current
relationship in a
single phase R-L
23th
Series and parallel combination of inductors
24th
Concept of alternating voltage and current
9th
25th Difference between alternating current(a.c) and
direct current(d.c)
9th
To measure
(very high)
resistance of an
ammeter and
voltmeter
26th Concept of cycle, frequency, time period,
amplitude, instantaneous value, average value
27th Concept of r.m.s. value, maximum value, form
factor and peak factor
10th
28th Representation of sinusoidal quantities by phasor
diagrams
10th
To observe
change in
resistance of a
bulb in hot and
cold conditions,
using ammeter
29th Equation of sinusoidal wave form
30th Derivation of equation of sinusoidal wave form
11th
31th Effect of alternating voltage applied to a pure
resistance
11th
Verification of
Kirchhoff's
Current Law
32th Effect of alternating voltage applied to a pure
inductance and Pure capacitance
33th Concept of Inductive reactance, Capacitive
reactance and impedance
12th
34th Alternating voltage applied to resistance and
inductance in series
12th
Verification of
Kirchhoff's
Voltage Law in a
dc circuit 35
th Alternating voltage applied to resistance and
capacitance in series
36th
Impedance triangle and phase angle
13th
37th
Solutions and phasor diagrams for simple RLC
circuits (series and parallel)
13th
Measurement of
power and power
factor in a single
phase R.L.C.
circuit
38th
Series resonance conditions (with derivation)
39th
Parallel resonance conditions (with derivation)
14th
40th
Power in pure resistance, inductance and
capacitance, power in combined RLC circuits
14th
Final Checking
and discussion
41th
Power factor, active and reactive power and their
significance, importance of power factor
42th
Definition of conductance, susceptance and
admittance
15th
43th
Brief idea about Various Types(thermal, hydro,
nuclear) of Power Plants and principle of power
generation
15th
Visit to a nearby
Power Station(s)
44th
Comparative study of various power plants
(thermal, hydro and nuclear)
45th
Elementary block diagram of thermal, hydro and
nuclear power stations
LESSON PLAN
Name of Faculty : PATANJALI
Discipline : ELECTRONICS & COMMUNICATION ENGG
Semester : 4th
Subject : COMMUNICATION SYSTEMS
WORKLOAD:- LECUTRE-03, PRACTICAL -06
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Theory Week Practicals
Topic Topic
1 INTRODUCTION OF COMMUNICATION SYSTEMS G-1 INTRODUCTION OF COMMUNICATION SYSTEMS
PRACTICAL
2 AM/FM TRANSMITTERS
A) CLASSIFICATION OF TRANSMITTERS ON THE BASIS OF MODULATION,
SERVICE, FREQUENCY AND POWER
3 BLOCK DIAGRAM OF AM TRANSMITTER AND WORKING OF EACH STAGE
4 BLOCK DIAGRAM AND WORKING PRINCIPLES OF REACTANCE FET AND ARM
STRONG FM TRANSMITTERS
G-1 TO OBSERVE THE WAVEFORMS AT DIFFERENT STAGES OF A
AM TRANSMITTER
5 AM / FM RADIO RECEIVERS
A) PRINCIPLE AND WORKING WITH BLOCK DIAGRAM OF SUPER NETERODYNE
AM RECEIVER
6 FUNCTION OF EACH BLOCK AND TYPICAL WAVE FORMS AT INPUT AND
OUTPUT OF EACH BLOCK
7 PERFORMANCE CHARACTERISTICS OF A RADIO RECEIVER
I) SENSITIVITY II) SELECTIVITY III) FIDELITY
G-1 TO OBSERVE THE WAVEFORMS AT DIFFERENT STAGES OF A
RADIO RECEIVER
8 S/N RATIO, IMAGE REJECTION RATIO AND THEIR MEASUREMENT PROCEDURE
9 ISI STANDARDS ON RATIO RECEIVERS (BRIEF IDEA)
10 C) SELECTION CRITERIA FOR INTERMEDIATE FREQUENCY (IF) CONCEPTS OF
SIMPLE AND DELAYED AGC
G-1 TO ALIGN AM BROADCAST RADIO RECEIVER
11 BLOCK DIAGRAM OF AN FM RECEIVER, FUNCTION OF EACH BLOCK
ANDWAVEFORMS AT INPUT AND OUTPUT OF DIFFERENT BLOCKS
12 NEED FOR LIMITING AND DE-EMPHASIS IN FM RECEPTION
13 C) BLOCK DIAGRAM OF COMMUNICATION RECEIVERS, DIFFERENT WITH
RESPECT TO BROADCAST RECEIVERS
G-1 TO IDENTIFY AND STUDY THE VARIOUS TYPES OF
ANTENNAS USED IN DIFFERENT FREQUENCY RANGES
14 INTRODUCTION OF ANTENNAS
15 A) ELECTROMAGNETIC SPECTRUM AND ITS VARIOUS RANGES
16 VLF, LF, MF, HF, VHF, VHF MICROWAVE G-1 TO PLOT THE RADIATION PATTERN OF A DIFFERENT AND
OMNI DIRECTIONAL ANTENNA
5 5
G-2 TO IDENTIFY AND STUDY THE VARIOUS TYPES OF
ANTENNAS USED IN DIFFERENT FREQUENCY RANGES
6 6
3 3
G-2 TO OBSERVE THE WAVEFORMS AT DIFFERENT STAGES OF A
RADIO RECEIVER
4 4
G-2 TO ALIGN AM BROADCAST RADIO RECEIVER
2 2
G-2 TO OBSERVE THE WAVEFORMS AT DIFFERENT STAGES OF A
AM TRANSMITTER
Practical
Day
1 1
G-2 INTRODUCTION OF COMMUNICATION SYSTEMS
PRACTICAL
Lecture
Day
17 PHYSICAL CONCEPT OF RADIATION OF ELECTROMAGNETIC ENERGY FROM A
DIPOLE
18 CONCEPT OF POLARIZATION OF EM WAVES
19 C) DEFINITION AND PHYSICAL CONCEPTS OF THE TERMS USED WITH
ANTENNAS LIKE POINT SOURCE, GAIN DIRECTIVITY APERTURE, EFFECTIVE
AREA
G-1 TO PLOT THE VARIATION OF FIELD STRENGTH OF A
RADIATED WAVE, WITH DISTANCE FROM A TRANSMITTING
ANTENNA
20 RADITION PATTERN, BEAM WIDTH AND RADITION RESISTANCE LOSS
RESISTANCE
21 D) TYPES OF ANTENNAS BRIEF DESCRIPTION, CHARACTERISTICS AND TYPICAL
APPLICATIONS OF HALF WAVE DIPOLE
22 MEDIUM WAVE ANTENNA FOLDED DIPOLE, PATCH , LOOP ANTENNA G-1 INSTALLATION OF DISH ANTENNA FOR BEST RECEPTION
23 YAGI AND FERRITE ROD ANTENNA
24 BRIEF DESCRIPTION OF BROADSIDE AND FIRE ARRAYS THERIR RADITION
PATTERN AND APPLICATIONS (WITHOUT ANALYSIS)
25 BRIEF IDEA ABOUT RHOMBIC ANTENNA AND DISH ANTENNA G-1 TO OBSERVE WAVEFORMS AT INPUT AND OUTPUT OF ASK
AND FSK MODULATORS
26 INTRODUCTION OF PROPOGATION
27 BASIC IDEA ABOUT DIFFERENT MODES OF WAVE PROPAGATION AND TYPICAL
AREAS OF APPLICATION
28 GROUND WAVE PROPAGATION AND ITS CHARACTERISTICS, SUMMER FIELD
EQUATION FOR FIELD STRENGTH
G-1 REVISION OF WAVEFORMS AT DIFFERENT STAGES OF A AM
TRANSMITTER
29 SPACE WAVE COMMUNICATION LINE OF SIGHT PROPAGATION STANDARD
ATMOSHPHERE
30 CONCEPT OF EFFECTIVE EARTH RADIUS RANGE OF SPACE WAVE
PROPAGATION STANDARD ATMOSPHERE
31 C) DUCT PROPAGATION SKY WAVE PROPAGATION G-1 REVISION TO OBSERVE THE WAVE FORMS AT DIFFERENT
STAGES OF RADIO RECEIVER
32 IONOSPHERE AND ITS LAYERS. EXPLANATION OF TERMS VIRTUAL HEIGHT,
CRITICAL FEQUENCY SKIP DISTANCE
33 MAXIMUM USABLE FREQUENCY MULTIPLE NOP PROPAGATION
34 DIGITAL MODULATION TECHNIQUES INTRODUCTION OF
A) PCM, DPCM B) DELTA ,MODULATION
G-1 REVISION OF ALIGN AM BROADCAST RADIO RECEIVER
35 BASIC BLOCK DIAGRAM AND PRINCIPLE OF WORKING OF FOLLOWING
ASK,FSK,PSK, QPSK
36 SPREAD SPECTURM TECHNIQUES. FEQUENCY HOPPING TECHNIQUE
37 REVISION OF ALL TOPICS G-1 REVISION OF INSTALLANTION OF DIST ANTENNA FOR BEST
RECEPTION38 SEMINAR
39 ASSIGNMENT
40 REVISION OF IST UNIT G-1 REVISION TO OBSEVE WAVEFORMS AT INPUT AND
OUTPUT OF ASK AND FSK MODULATORS
13 13
G-2 REVISION OF INSTALLANTION OF DIST ANTENNA FOR BEST
RECEPTION
14 14
11 11
G-2 REVISION TO OBSERVE THE WAVE FORMS AT DIFFERENT
STAGES OF RADIO RECEIVER
12 12
G-2 REVISION OF ALIGN AM BROADCAST RADIO RECEIVER
9 9
G-2 TO OBSERVE WAVEFORMS AT INPUT AND OUTPUT OF ASK
AND FSK MODULATORS
10 10
G-2 REVISION OF WAVEFORMS AT DIFFERENT STAGES OF A AM
TRANSMITTER
7 7
G-2 TO PLOT THE VARIATION OF FIELD STRENGTH OF A
RADIATED WAVE, WITH DISTANCE FROM A TRANSMITTING
ANTENNA
8 8
G-2 INSTALLATION OF DISH ANTENNA FOR BEST RECEPTION
G-2 TO PLOT THE RADIATION PATTERN OF A DIFFERENT AND
OMNI DIRECTIONAL ANTENNA
41 REVISION OF IST UNIT
42 DUCT PROPAGATION
G-2 REVISION TO OBSEVE WAVEFORMS AT INPUT AND
OUTPUT OF ASK AND FSK MODULATORS
LESSON PLAN
Name of Faculty : RAMESH KUMARI
Discipline : ELECTRONICS & COMMUNICATION ENGG
Semester : 4th
Subject : DE-II
WORKLOAD: LECTURE-03, PRACTICAL-06
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week lecture
Day
Theory Practicals
Topic Topic
1 LOGIC FAMILIES
LOGIC FAMILY CLASSIFICATION TTL, ECL, MOS, CMOS
TYPES OF INTEGRATION SSI, MSI, LSI, VLSI
G-1 INTRODUCTION OF KITS
2 CHARACTERSTICS OF TTL & CMOS AND THE COMPARISON. PROPOGATION
DELAY SPEED, NOTISE MARGIN, LOGIC LEVEL, POWER DISSIPATION, FAN-IN,
FAN-OUT, POWER SUPLY REQUIREMENTS
3 OPEN COLLECTOR & TOTEMPOLE O/P CIRCUITS
4 operation of a standard TTL, CMOS, gates G-1 INTRODUCTION OF KITS
5 NAND, NOR, CMOS to TTL interfacing and TTL to CMOS interfacing
6 Introduction to tri-state devices, tri-state buffer and inverter circuits.
7 D/A Converters :
Performance characteristics of converters
G-1 FAMILIRITY WITH THE USE OF EP ROM PROGRAMMES OF UV
INDEX
8 PERFORMANCE CHARACTERSTICS OF D/A CONVERTERS. BINARY RESISTOR N/W
9 RESISTANCE LADDER N/W METHODS OF D/A CONVERTERS & APPLICATIONS
10 PERFORMANCE CHARACTERSISTICS OF A/D CONVERTERS. SINGLE SLOPE G-1 EXERCISE OF PROGRAMMING EPROM
11 DUAL SLOPE & SUCCESSIVE APPROXIMATION
12 PARALLEL A/D CONVERTERS ASSIGNMENT
13 MEMORIES:- MEMORY ORGANISATION, CLASSIFICATION OF SEMI CONDUCTOR
MEMORIES
G-1 DESIGN & IMPLEMENT FULL ADDER & FULL SUBTRACTOR
14 ROM, PROM, DROM, EPROM, EEPROM, RAM
15 EXPANSION OF MEMORY
16 CCD MEMORIES, CONTENT ADDRESSABLE MEMORY G-1 REVISION
17 PROGRAMMABLE LOGIC DEVICES, PROM AT PLD
18 PROGRAMMABLE LOGIC ARAY (PLA)
19 FPGA, FAMILIARAIZATION WITH COMMOM Ics G-1 REVISION
Week
1
2
3
4
5
6
7
1
2
3
4
5
6
7
G-2
G-2
G-2
G-2
G-2
G-2
Practical
Day
INTRODUCTION OF KITS
INTRODUCTION OF KITS
FAMILIRITY WITH THE USE OF EP ROM PROGRAMMES OF UV
INDEX
EXERCISE OF PROGRAMMING EPROM
DESIGN & IMPLEMENT FULL ADDER & FULL SUBTRACTOR
REVISION
20 COMBINATIONAL CIRCUITS: MINIMIZATION OF BOOLEAN EXPRESSION USING K-
MAP
21 Minimization of Boolean expressions using Quine Mcclaaskey method
22 ASSIGNMENT DISCUSSION OF THAT ASSIGNMENT G-1 REVISION
23 REVISION OF COVERED SYLLABUS
24 DOUBT CLASS
25 SEQUENTIAL CIRCUITS: ESSENTIAL COMPONENTS OF SEQUENTIAL CIRCUITS G-1 REVISION
26 synchronous and asynchronous sequential circuits,
27 classification of sequential circuits
28 design of counters using J-K and R-S flip-flops. G-1 REVISION
29 Arithmetic and Logic Unit: Basic idea about arithmetic logic unit w.r.t. IC 74181
30 APPLICATION OF ALU
31 IMPLEMENTATION OF BINARY MULTIPLICATION & BINARY DIVISION G-1 REVISION
32 IMPLEMENTATION OF BINARY SUBTRACTION & ADDITION
33 DOUBT CLASS
34 INTRODUCTION OF FUZZY LOGIC: FUZZY SETS & THEIR OPERATION G-1 REVISION
35 classical sets and their operations
36 FUZZY REALTIONS
37 PROPERTIES OF MEMBERSHIP FUNCTIONS G-1 REVISION
38 FUZZIFICATION & DEFUZZIFICATION
39 FUZZY CONTROL SYSTEM
40 DOUBT CLASS G-1 REVISION
41 REVISION OF ABOVE TOPICS
42 ASSIGNMENT
43 SEMINAR REVISION
44 DISCUSSION ABOUT TESTS
45 DISCUSSION ON QUESTION PAPER
8
9
12
G-2
13
G-2
G-2
14
15
8
9
10
11
12
10
11
G-2
G-2
G-2
G-2
REVISION
REVISION
13
14
15
REVISION
G-2
REVISION
REVISION
REVISION
REVISION
REVISION
REVISION
LESSON PLAN
Name of Faculty :VISITING FACULTY-1
Discipline : Electronics & communication Engg.
Semester : 4th
Subject : ELECTRONICS DESIGN AND FABRICATION TECHNIQUES
WORKLOAD: LECTURES-0, PRACTICAL -06
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Practical
Day
Practicals
Topic
1 SELECTION OF USE OF COMMONLY USE ACTIVE & PASSIVE COMPONENTS
2 TESTING OF ACTIVE COMPONENTS
3 TESTING OF PASSIVE COMPONENTS
4 SOLDERING & SOLDERING TECHNICQUES
5 PRINTED CIRCUIT BOARDS
6 PCB BOARD MATERIALS & THEIR CHARACTERISTICS & PLATING CORROSION & ITS
PREVENTION
7 PHOTO PROCESSING , SCREEN PRINTING, DRILLING, BUFFING
8 PROTECTION FROM HARSH ENVIRONMENT, PLATED THROUGH HOLES , DOUBLE SIDED &
MULTILAYER PCBS
9 STANDARDS OF BOARD SIZES, MODULAR ASSEMBLIES EDGE CONNECTORS, MULTI
BOARD RACKS
10 ASSEMBLY OF CKT ON PCB, ROLE OF TINNING, FLOW & WAVE SOLDERING
11 SOLDERABILITY, COMPOSITION OF SOLDER, EDGE CONNECTOR ELEMENTS OF WIRE
SHAPING
12 DESIGN & PREPARE A PCB
13 STORGAE & SUPPLY OF COMPONENTS FOR ASSEMBLY ROLE OF INCOMMING
INSPECTION OF COMPONENTS
14 MANUAL & AUTOMATIC INSERTION TECHNIQUES, CLOSE LOOP ASSEMBLY OF MODULES
INSTRUMENTS
15 SPECIFIC EXAMPLES OF SMALL SCALE & LARGE SCALE PRODUCTION BE GIVEN TO
ILLUSTRATE
16 JIGS & FIXTURE FOR OPERATIONAL TESTING OF MODULES
17 SEQUENCE TESTING FOR FAILURE ANALYSIS
18 ENVIRONMENT TESTING AT ELEVATED TEMPERATURE & HUMIDITY
19 VARIOUS VIBRATION & MECHANICAL ENDURANCE TESTING
20 PACKING FOR TRANSPORTATION
21 STATEMENT OF BRIEF SPECIFICATION
22 DETAILED SPECIFICATION & LIMITATIONS
23 BLOCK DIAGRAM DETAILED DIAGRAMS
24 TESTING & CHECKING POINTS
25 WARNING RELATIVE TO HIGH VOLTAGE FOR HANDLING DURING REPAIR
26 FAULT LOCATION GUIDE
27 FAULT LOCATION GUIDE
28 SIMPLE SOLUTION FOR FAULT REMOVAL
29 PRODUCTION PLANNING
30 PROJECT CHECKING GIVEN TO STUDENTS
13
14
15
7
8
9
10
11
12
6
1
2
3
4
5
LESSON PLAN
Name of Faculty : VISITING FACULTY-2
Discipline : Electronics & communication Engg.
Semester : 4th
Subject : ELECTRONICS DESIGN AND FABRICATION TECHNIQUES
WORKLOAD: LECTURES-0, PRACTICAL -06
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Practical
Day
Practicals
Topic
1 SELECTION OF USE OF COMMONLY USE ACTIVE & PASSIVE COMPONENTS
2 TESTING OF ACTIVE COMPONENTS
3 TESTING OF PASSIVE COMPONENTS
4 SOLDERING & SOLDERING TECHNICQUES
5 PRINTED CIRCUIT BOARDS
6 PCB BOARD MATERIALS & THEIR CHARACTERISTICS & PLATING CORROSION & ITS
PREVENTION
7 PHOTO PROCESSING , SCREEN PRINTING, DRILLING, BUFFING
8 PROTECTION FROM HARSH ENVIRONMENT, PLATED THROUGH HOLES , DOUBLE SIDED &
MULTILAYER PCBS
9 STANDARDS OF BOARD SIZES, MODULAR ASSEMBLIES EDGE CONNECTORS, MULTI
BOARD RACKS
10 ASSEMBLY OF CKT ON PCB, ROLE OF TINNING, FLOW & WAVE SOLDERING
11 SOLDERABILITY, COMPOSITION OF SOLDER, EDGE CONNECTOR ELEMENTS OF WIRE
SHAPING
12 DESIGN & PREPARE A PCB
13 STORGAE & SUPPLY OF COMPONENTS FOR ASSEMBLY ROLE OF INCOMMING
INSPECTION OF COMPONENTS
14 MANUAL & AUTOMATIC INSERTION TECHNIQUES, CLOSE LOOP ASSEMBLY OF MODULES
INSTRUMENTS
15 SPECIFIC EXAMPLES OF SMALL SCALE & LARGE SCALE PRODUCTION BE GIVEN TO
ILLUSTRATE
16 JIGS & FIXTURE FOR OPERATIONAL TESTING OF MODULES
17 SEQUENCE TESTING FOR FAILURE ANALYSIS
18 ENVIRONMENT TESTING AT ELEVATED TEMPERATURE & HUMIDITY
19 VARIOUS VIBRATION & MECHANICAL ENDURANCE TESTING
20 PACKING FOR TRANSPORTATION
21 STATEMENT OF BRIEF SPECIFICATION
22 DETAILED SPECIFICATION & LIMITATIONS
23 BLOCK DIAGRAM DETAILED DIAGRAMS
24 TESTING & CHECKING POINTS
25 WARNING RELATIVE TO HIGH VOLTAGE FOR HANDLING DURING REPAIR
26 FAULT LOCATION GUIDE
27 FAULT LOCATION GUIDE
28 SIMPLE SOLUTION FOR FAULT REMOVAL
29 PRODUCTION PLANNING
30 PROJECT CHECKING GIVEN TO STUDENTS
13
14
15
7
8
9
10
11
12
6
1
2
3
4
5
Lesson Plan
Name of the faculty : Mr. Tejpal Rawat (H.O.D)
Discipline : Electronics and Communication Engg.
Semester : VIth
Subject : EDM
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Work Load(Lecture)Per week (in hours): Lectures-03
Week Theory
Lecture day Topic(including assignment/test)
1st
1st
Introduction of entrepreneurship
2nd
Concept /Meaning and its need
3rd
Qualities and functions of entrepreneur and barriers in
entrepreneurship
2nd
4th
Sole proprietorship and partnership forms of business organisations
5th
NSIC Schemes of assistance by entrepreneurial support agencies at
National, State, District level
6th
NRDC Schemes of assistance by entrepreneurial support agencies at
National, State, District level
3rd
7th
DC, MSME Schemes of assistance by entrepreneurial support
agencies at National, State, District level
8th
SIDBI, NABARD Schemes of assistance by entrepreneurial support
agencies at National, State, District level
9th
Commercial Banks, SFC’s Schemes of assistance by
entrepreneurial support agencies at National, State, District level
4th
10th
TCO, KVIB, DIC Schemes of assistance by entrepreneurial support
agencies at National, State, District level
11th
Technology Business Incubator (TBI)
12th
Science and Technology Entrepreneur Parks(STEP)
5th
13th
Introduction to Market Survey and Opportunity Identification
14th
Scanning of business environment
15th
Salient features of National and State industrial policies
6th
16th
resultant business opportunities
17th
Types of market survey
18th
conduct of market survey
7th
19th
Assessment of demand and supply in potential areas of growth
20th
Identifying business opportunity
21th
Considerations in product selection
8th
22th
Introduction Project report Preparation
23th
Preliminary project report
24th
project report including technical aspects
9th
25th
project report including economic aspects
26th
project report including market feasibility aspects
27th
Detailed project report including technical, economic and market
feasibility
10th
28th
Common errors in project report preparations
29th
Exercises on preparation of project report
30th
Introduction to Management
11th
31th
Definitions and importance of management
Functions of management: Importance and Process of planning,
organising, staffing,
directing and controlling
32th
Principles of management (Henri Fayol, F.W. Taylor)
Concept and structure of an organisation
33th
Types of industrial organisations
a)Line organisation
b)Line and staff organisation
c)Functional Organisation
12th
34th
Introduction -Leadership and Motivation
35th
a) Leadership
•Defi itio and Need
•Qualities a d fu tio s of a leader
•Ma ager Vs leader
•T pes of leadership
36th
b) Motivation
•Defi itio s a d hara teristi s
•Fa tors affe ti g oti atio
•Theories of oti atio Maslo , Herz erg, M Gregor
13th
37th
Management Scope in Different Areas
38th
a) Human Resource Management
•I trodu tio a d o je ti e
•I trodu tio to Ma po er pla i g, re ruit e t a d sele tio
•I trodu tio to perfor a e appraisal ethods
39th
b) Material and Store Management
•I trodu tio fu tio s, and objectives
•ABC A al sis a d EOQ
14th
40th
c) Marketing and sales
•I trodu tio , i porta e, a d its fu tio s
•Ph si al distri utio
41th
Marketing and sales
Introduction to promotion mix
Sales promotion
42th
d) Financial Management
•I trodu tio s, i porta e a d its fu tio s
•Ele e tar k o ledge of i o e ta , sales ta , e ise dut , usto duty and VAT
15th
43th
Miscellaneous Topics
a) Customer Relation Management (CRM)
•Defi itio a d eed
•T pes of CRM
44th
b) Total Quality Management (TQM)
•Statisti al pro ess o trol •Total e plo ees I ol e e t •Just i ti e JIT
45th
c) Intellectual Property Right (IPR)
•I trodu tio s, defi itio a d its i porta e
•I fri ge e t related to pate ts, op right, trade ark
LESSON PLAN
Name of Faculty : VISITING FACULTY-2
Discipline : ELECTRONIC & COMMUNICATION ENGG.
Semester : 6th
Subject : EMPLOYBILITY SKILLS-II
Work Load : 0 LECUTRE , 02 Practical
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Practical
Day
Practicals
Topic
1 1 DISCUSSION ABOUT EMPLOYABLITY SKILL AND ITS FEATURES
2 2 DISCUSSION ABOUT MOCK INTERVIEW AND ITS TYPES
3 3 FEATURES OF MOCK INTERVIEW AND ADVANTAGE OF
4 4 APPLICATION OF MOCK INTERVIEW AND PRACTICALLY PERFORMED BY
STUDENTS
5 5 HOW TO PREPARE FOR MEETING
6 6 ADVANTAGE OF PREPARING FOR MEETING
7 7 GROUP DISCUSSION
8 8 FEATURES ABOUT GD AND PREACTICALLY PEROFRMA BY STUDENTS BY
TAKING ANY EXAMPLE
9 9 HOW TO PREPARE SEMINAR AND INTRODUCTION AND SEMINAR
10 10 PREPARE STUDENTS FOR EXAMINER BU GIVING ANY TOPIC
11 11 DISCRIPTION ABOUT THE TYPES OF SEMINAR AND APPLICATION
12 12 ELEMENTS OF PRESENTATION
13 13 STRUCTURE AND TOOLS OF PRESENTATION
14 14 PAPER READING
15 15 DISCUSSION ABOUT POWER POINT PRESENTATION
LESSON PLAN
Name of Faculty : PATANJALI
Discipline : ELECTRONICS & COMMUNICATION ENGG
Semester : 4th
Subject : INSTRUMENTATION
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
WORKLOAD : LECTURE-03, PRACTICAL-04
Week Lecture
Day
THEORY Practicals PRACTICALS
Topic Topic
1 INTRODUCTION OF INSTRUMENTATION G-1 INTRODUCTION OF INSTRUMENTATION PRACTICAL
2 MEASUREMENTS OF IMPORTANCE OF MEASUREMENTS
3 BASIC MEASURING SYSTEMS, ADVANTAGES AND LIMITAITONS OF
EACH MEASURING SYSTEMS AND DISPLAY DEVICES
4 INTRODUCTION OF TRANSDUCERS G-1 TO MEASURE THE LEVEL OF A LIQUID USING A TRANSDUCER
5 THEORY, CONSTRUCTION AND USE OF VARIOUS TRANDUCERS
6 RESISTANCE, INDUCTANCE
7 CAPACITANCE, ELECTROMAGNETIC G-1 TO MEASURE TEMPERATURE USING A THERMO-COUPLE
8 PIEZO ELECTRIC TYPE
9 INTRODUCTION OF MEASUREMENT OF DISPLACEMENT AND STRAIN
10 DISPLACEMENT MEASURING DEVICES G-1 STUDY AND USE OF DIGITAL TEMPERATUTE CONTROLLER
11 WIRE WOUND POTENTIOMETER
12 LVDT, STRAIN GAUGES
13 DIFFERENT TYPES SUCH AS INDUCTANCE TYPE
I) RESISTIVE TYPE, WIRE AND FOIL TYPE ETC
G-1USE OF THERMISTOR IN ON/OFF TRANSDUCER
14 GAUGE FACTOR
15 GAUGE MATERIALS AND THEIR SELECTIONS
16 USE OF ELECTRICAL STRAIN GUAGES G-1 STUDY OF VARIABLE CAPACITIVE TRANSDUCER
17 STRAIN GAUGE BRIDGES AND AMPLIFIERS
18 INTRODUCTION OF FORCE AND TORQUE MEASUREMENT
19 DIFFERENT TYPES OF FORCE MEASURING DEVICES AND THEIR
PRINCIPLES
G-1DRAW THE CHARACTERISTICS OF A POTENTIOMETER
20 LOAD MEASUREMENTS BY USING ELESTIC TRANSDUCERS
21 ELECTRICAL STRAIN GAUGES
22 SPEED MEASUREMENTS G-1 TO MEASURE LINEAR DISPLACEMNT USING LVDT
7 7
G-2 DRAW THE CHARACTERISTICS OF A POTENTIOMETER
8 8
5 5
G-2 USE OF THERMISTOR IN ON/OFF TRANSDUCER
6 6
G-2 STUDY OF VARIABLE CAPACITIVE TRANSDUCER
3 3
G-2 TO MEASURE TEMPERATURE USING A THERMO-COUPLE
4 4
G-2 STUDY AND USE OF DIGITAL TEMPERATUTE CONTROLLER
2 2
G-2 TO MEASURE THE LEVEL OF A LIQUID USING A TRANSDUCER
Practical
Day
1 1
G-2 INTRODUCTION OF INSTRUMENTATION PRACTICAL
23 DIFFERENT METHODS DEVICES
24 INTRODUCTION OF PRESSURE MEASUREMENT
25 BOURDON PRESSURE GAUGES G-1 TO STUDY THEUSE OF ELECTRICAL STRAIN GUAGE
26 ELECTRICAL PRESSURE PICK UP AND THEIR PRINCIPLE
27 CONSTRUCTION AND APPLICATIONS
28 USE OF PRESSURE CELLS G-1 TO STUDY WEIGHING MACHINE USING LOAD CELL
29 INTRODUCTION OF FLOW MEASUREMENT
30 BASIC PRINCIPLE OF MAGNETIC AND ULTRASONIC FLOW METERS
31 MEASUREMENTS OF TEMP G-1 TO STUDY PH METER
32 BI METALLIC THERMOMETER
33 THE MOELECTRIC THERMOMETERS, RESISTANCE THERMOMETER
34 THERMOCOUPLE THERMISTERS AND PYROMETER G-1 REVISION OF MEASURE THE LEVEL OF A LIQUID USING A
TRANSDUCER
35 TEMPERATURE RECORDERS
36 INTRODUCTION OF MEASUREMENT OF OF NON ELECTRICAL
QUANTITIES
37 MEASUREMENT OFOTHER NO ELECTRICAL QUANTITIES SUCH AS
HUMIDITY
G-1 REVISION OF MEASURE TEMPERATURE USING A THERMO-
COUPLE
38 SUCH AS PH
39 LEVEL AND VIBRATIONS
40 REVISION OF STRAIN GAUGE BRIDGES G-1 REVISION OF LVDT
41 LOAD MEASUREMENTS BY USING ELESTIC TRANSDUCERS
42 ASSIGNMENT (ELECTRICAL STRAIN GAUGES)
43 REVISION OF IST UNIT G-1 REVISION OF PH METER
44 DISPLACEMENT MEASURING DEVICES
45 LEVEL AND VIBRATIONS
15
REVISION OF PH METERG-2
15
13 13
G-2 REVISION OF MEASURE TEMPERATURE USING A THERMO-
COUPLE
14 14
G-2 REVISION OF LVDT
11 11
G-2 TO STUDY PH METER
12 12
G-2 REVISION OF ALIGN AM BROADCAST RADIO RECEIVER
9 9
G-2 TO STUDY THEUSE OF ELECTRICAL STRAIN GUAGE
10 10
G-2 TO STUDY WEIGHING MACHINE USING LOAD CELL
G-2 TO MEASURE LINEAR DISPLACEMNT USING LVDT
LESSON PLAN
Name of Faculty : Mrs. Pooja Sindhu
Discipline :ELECTRONICS & COMMUNICATION ENGG
Semester : 6th
Subject : Medical Electronics
Work load: lectures 04, practical -06
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Practicals Practicals
Topic Topic
1 INTRODUCTION TO SUBJECT, IMPORTANCE / NEED, SYLLABUS, CONTENTS
REFERENCE BOOKS
2 UNIT-1: Anatomy and physiology-Content of Unit, Introduction
3 Heart and circulatory system.
4 Central nervous system
5 Muscle action ,Respiratory system
6 Body temperature and reproduction system
7 OVERVIEW OF UNIT-1, DISCUSSION OF IMPORTANT QUESTIONS REGARDING
EXAMS POINT OF VIEW REVISION
8 Unit-2 Medical Electronics equipments -CONTENTS OF UNIT, BIO-MEDICAL
INSTRUMENTATION SYSTEM- TYPES OF MEDICAL MEASUREMENTS,
PERFORMANCE REQUIREMENT OF MEDICAL EQUIPMENT, CLASSIFICATION OF
MEDICAL EQUIPMENTS
9 Diagnostic Equipments , X-RAYS
10 ULTRASONOGRAPHY
11 COMPUTED TOMOGRAPHY
12 MAGNETIC RESONANCE IMAGING
(PRINCIPLES, MACHINES, COMPONENTS, APPLICATIONS, ADVANTAGES &
DISADVANTAGES OF THE ABOVE
13 Clinical laboratory equipments-
TYPES, COLORIMETER, SECTROPHOTOMETRY
14 FLAME PHOTOMETER, KYMOGRAPH, ELECTROPHORESIS
15 THEREPEUTIC EQUIPMENTS - TYPES, HEAMODIALYSIS, ANAESTHESA- MACHINES,
OPERATION
16 VENTILATOR, HEART LUNG MACHINE, HEARING AIDS, NEBULIZER- OPERATION,
APPLICATION
4 4 G-1 TO OPERATE & FAMILIRISATION OF ECG MACHINE
G-2 TO OPERATE & FAMILIRISATION OF ECG MACHINE
3 3 G-1 TO OPERATE & FAMILIRISATION OF B.P. APPARATUS
G-2 TO OPERATE & FAMILIRISATION OF B.P. APPARATUS
2 2 G-1 INTRODUCTION, BRIEFING ABOUT THE COMPONENTS,
KIT, APPARATUS THAT WILL BE USED IN THE SUBJECT
G-2 INTRODUCTION,BRIEFING ABOUT THE COMPONENTS,
KIT, APPARATUS THAT WILL BE USED IN THE SUBJECT
Week
1 1 G-1 INTRODUCTION ABOUT SYLLABUS, SUBJECT
G-2 INTRODUCTION ABOUT SYLLABUS, SUBJECT
Practical
Day
Lecture
Day
17 UNIT-3: ELECTRODES-CONTENTS OF UNIT, BIO-ELECTRIC SIGNALS-SOURCES,
TYPES, ORIGIN
18 BIO ELECTRODES, PROPERTIES OF BIO-ELECTRODES, ELECTRODES
19 ELECTRODE-TISSUE INTERFACE-METAL ELECTROLYTE INTERFACE, ELECTROLYTE-
SKIN INTERFACE, ELECTRODE MODEL CKT
20 CONTACT IMPEDANCE, TYPES OF ELECTRODES-ELECTRODES ON THE BASIS OF
ELECTEODE ACTION, PLACE OF USE , APPLICATION
21 ELECTRODES USED FOR ECG, EEG, EMG, EEG ELECTRODES, EEG ELCTRODES-TYPES,
BRIEF DESCRIPTION
22 OVERVIEW, DISCUSSION OF IMPORTANT QUESTION REGARDING EXAMS POINT
OF VIEW, REVISION
23 ASSIGNMENT-1, DISCUSSION & DOUBT CLEARANCE OF UNIT-1,2,3
24 UNIT-4: PHYSIOLOGICAL TRANSDUCERS: INTRODUCTION, CONTENTS OF UNIT,
CLASSIFICATION OF TRANSDUCERS, USE OF TRANSDUCERS FOR DIFFERENT
SIGNAL PARAMETERS
25 PERFORMANCE CHARACTERSTICS OF TRANSDUCERS-STATIC, DNAMIC, OTHER
CHARACTERISTICS, TRANSDUCER SELECTION CRITERIA
26 PHYSICLOGICAL SENSORS / TRANSDUCERS- IDEA, TYPES, PRESSURE TRANSDUCER
STRAIN GUAGE, LVDT
27 PRESSURE TRANSDUCER- CAPACITIVE PRESSURE, PIEZOELECTRIC PRESSURE
TRANSDUCERS,
FLOW TRANSDUCERS-IDEA
28 TYPE OF FLOW TRANSDUCERS. EXPLANATION
29 TEMPERATURETRANSDUCERS- TYPES, EXPLANATION
30 PULSE SENSORS-TYPES, EXPLANATION
31 RESPIRATION SENSORS-TYPES, EXPLANATION, REVISION & DISCUSSION OF UNIT-4
32 ASSIGNMENT -2, ORAL TEST OF UNIT-4
33 UNIT-5: BIO MEDICAL RECORDERS
INTRODUCTION, CONTENTS OF UNIT, ECG, BASICS, WAVEFORM, INTERPRETATION
OF HUMAN ECG, ELECTRODES & LEADS FOR ECG
34 PROCESS/METHODS OF RECORDING ECG, ECG MACHINE / RECORDER-
DESCRIPTION, TYPES OF ECG RECORDER, FACTORS THAT AFFECT NORMAL ECG,
APPLICATIONS OF ECG, MERITS & DEMERITS
35 EEG-BASIC CONCEPT, BIOELECTRIC SIGNALS FROM BRAIN, ELECTRODE
PLACEMENT, EEG RECORDING MODES, METHOD/PROCESS OF EEG RECORDING ,
EEG MACHINE, APPLICATION , MERITS & DEMERITS
36 ELECTROMYOGRAPHY-EMG M/C ,TYPES OF EMG, APPLICATION, ADVANTAGES
37 REVISION OF UNIT-5, DISCUSSION OF IMPORTANT QUESTIONS REGARDING EXAM
POINT OF VIEW
10 10 G-1 OPERATION & USE OF ELECTRO PHYSIOTHERAPY
9 9 G-1 STUDY OF LARGE MEDICAL EQUIPMENT IN HOSPITAL
NURSING HOME
G-2 STUDY OF LARGE MEDICAL EQUIPMENT IN HOSPITAL
NURSING HOME
8 8 G-1 INSTALLATION OF SMALL MEDICAL EQUIPMENT IN LABS
OF HOSPITAL- PRECAUTIONS TO BE TAKEN
G-2 INSTALLATION OF SMALL MEDICAL EQUIPMENT IN LABS
OF HOSPITAL -PRECAUTIONS TO BE TAKEN
7 7 G-1 TO MEASURE THE PULSE RATE
G-2 TO MEASURE THE PULSE RATE
6 6 G-1 TO MEASURE THE RESPIRATION RATE
G-2 TO MEASURE THE RESPIRATION RATE
5 5 G-1 TO MEASURE THE CONCENTRATION OF BLOOD SUGAR
WITH GLUCOMETER (FASTING, P.P RANDOM)
G-2 TO MEASURE THE CONCENTRATION OF BLOOD SUGAR
WITH GLUCOMETER (FASTING, P.P RANDOM)
38 DOUBT CLEARENCE, DISCUSSION & EXPLANATION OF TOPICS THAT STUDENTS
WANT TO REPEAT
39 UNIT-6: PATIENT MONITORING SYSTEMS
INTRODUCTION, CONTENTS OF UNIT, NEED/IMPORTANCE
40 HEART RATE MEASUREMENT - DIFF. METHODS
41 PULSE RATE MEASUREMENT - DIFFERENT TYPES & METHODS
42 RESPIRATION RATE MEASUREMTN- DIFFERENT METHODS
43 BLOOD PRESSURE MEASUREMENT- DIRECT METHODS, INDIRECT ( NON-INVASIVE)
44 ADVANTAGES, DISADVANTAGES OF METHODS OVER EACH OTHER, COMPARISON
45 PACEMAKEER-NEED, EXPLANATION , COMPARISON BETWEEN EXTERNAL &
INTERNAL PACEMAKER; APPLICATIONS
46DEFIBRILLATOR- IMPORTANCE, TYPES OF ELECTRODES USED IN IT,
CLASSIFICATION OF DEFIBRILLATORS
47USE OF MICROPROCESSOR IN PATIENT MONITORING, REVISION OF TOPICS
STUDIED IN UNIT-6
48DISCUSSION OF IMPORTANT QUESTIONS FROM EXAM POINT OF VIEW,
ASSIGNMENT-3
49UNIT-7: SAFETY ASPECTS OF MEDICAL
INSTRUMENTS-NEED, IMPORTANCE, EFFECTS OF ELECTRICAL CURRENT ON THE
HUMAN BODY- PHYSIOLOGICAL, PSYCHOLOGICAL
50 SAFETY ASPECTS OF CURRENT- GROSS SHOCK, MICRO CURRENT SHOCK
51LEAKAGE CURRENTS- TYPES, PRECAUTIONS TO MINIMISE ELECTRIC SHOCK
HAZARDS.
52METHODS OF ACCIDENT PREVENTION, TESTING OF BIOMEDICAL EQUIPMENTS
53 SPECIAL DESIGNS FROM SAFETY CONSIDERATION, SEFETY STANDARDS
54 REVISION OF TOPICS STUDIED IN UNIT-7
55ASSIGNMENT-4, DISCUSSION OF IMPORTANT QUESTIONS REGARDING EXAMS
POINT OF VIEW
56DOUBT CLEARANCE, DISCUSSION OF TOPICS THAT STUDENTS WANT TO DISCUSS
57REVISION OF UNITS-6,7 ; DISCUSSION & EXPLANATION OF TOPICS THAT
STUDENTS WANT TO REPEAT
58REVISION OF UNIT-4,5; DISCUSSION & EXPLANATION OF TOPICS THAT STUDENTS
WANT TO REPEAT
59REVISION OF UNIT-1,2,3; DISCUSSION & EXPLANATION OF TOPICS THAT
STUDENTS WANT TO REPEAT
60PAPER ATTEMPTION TIPS, IMPORTANT QUESTION REGARDING EXAMS POINT OF
VIEW
15 15 G-1 REPEAT OF EXPERIMENTS OF EARLIER ABSENTEE
STUDENTS
G-2 REPEAT OF EXPERIMENTS OF EARLIER ABSENTEE
STUDENTS
14 14 G-1 REPEAT OF EXPERIMENTS -7 (FOR ABSENTEE EARLIER)
G-2 REPEAT OF EXPERIMENTS -7 (FOR ABSENTEE EARLIER)
13 13 G-1 REPEAT OF EXPERIMENTS OF 4,5,6 (FOR ABSENTEE
EARLIER)
G-2 REPEAT OF EXPERIMENTS OF 4,5,6 (FOR ABSENTEE
EARLIER)
12 12 G-1 REPEAT OF EXPERIMENTS OF 1,2,3 (FOR ABSENTEE
STUDENTS EARLIER)
G-2 REPEAT OF EXPERIMENTS OF 1,2,3 (FOR ABSENTEE
STUDENTS EARLIER)
11 11 G-1 MAINTENANCE SCHEDULE FOR DIFFERENT EQUIPMENT &
THEIR RECORDS IN HOSPITAL
G-2 MAINTENANCE SCHEDULE FOR DIFFERENT EQUIPMENT &
THEIR RECORDS IN HOSPITAL
G-2 OPERATION & USE OF ELECTRO PHYSIOTHERAPY
LESSON PLAN
Name of Faculty : RAMESH KUMARI
Discipline :ELECTRONICS & COMMUNICATION ENGG
Semester : 6th
Subject : MOCS
WORKLOAD: LECTURES-04, PRACTICAL -06
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Theory Week Practicals
Topic Topic
1 MOTHERBOARD : INTRODUCTION TO DIFFERENT TYPES OF
MOTHERBOARD
2 SINGLE BOARD BASED SYSTEM
3 BLOCK DIAGRAM OF MOTHERBOARD
4 INSTALLATION OF COMPUTER SYSTEM
5 BUSES & PORTS: DIFFERENT TYPES OF BUSES PCI, SCSI
6 SERIAL & PARALLEL PORT (COM PORTS)
7 PORTS COM1, LPT1, USB
8 RS232C, USE OF COMPUTER FOR INSTRUMENTATION
9 MEMORY: PRINCIPLES
Principle and construction of Hard Disk Drive (HDD)
10 FLOPPY DIK CONTROLLER & HARD DISK CONTROLLER
11 PEN DRIVER, COMMON FAULTS WITH HDD & FDD
12 RAM MODULE
13 KEYBOARD & MOUSE: BLOCK DIAGRAM OF KEYBOARD CONTROLLED
14 KEYBOARD SWITCHES KEYBOARD FAULTS
15 MOUSE, COMMON FAULTS WITH MOUSE & OPTICAL MOUSE
16 INTRODUCTION TO SCANNER & digitizer.
17 CRT DISPLAY DEVICES: BLOCK DIAGRAM
PRINCIPLE OF OERATION OF COMPUTER MONITOR
18 DIFFERENCE BETWEEN TV & COMPUTER MONITOR
19 VIDEO DISPLAY ADAPTORS (MONOCHROME & COLOR)
20 INTRODUCTION TO SOLID STATE DISPLAYS
21 PRINTERS:
PRINTING MACHINISIM
22 CONSTRUCTION & WORKING PRINCIPLE OF DOT MATRIX PRINTER
G-1
G-2
G-2
G-1
G-1
G-2
G-2
G-1
Practical
Day
G-2 INTRODUCTION OF HDD, FDD PEN DRIVES
3 3 INTRODUCTION OF HDD, FDD PEN DRIVES
G-1 OPERATION MAINTEANACE, INSTALLATION OF TESTING OF
CONNECTIONS & CABLES
INSTALLATION OF ANY OPERATING SYSTEM
1
2
1
2
OPERATION MAINTEANACE, INSTALLATION OF TESTING
MOTHERBOARD
OPERATION MAINTEANACE, INSTALLATION OF TESTING
MOTHERBOARD
OPERATION MAINTEANACE, INSTALLATION OF TESTING OF
CONNECTIONS & CABLES
INSTALLATION OF ANY OPERATING SYSTEM
Lecture
Day
G-1 OPERATION MAINTEANACE, INSTALLATION OF MONITOR CLCD &
LED
4
5
4
5
OPERATION MAINTEANACE, INSTALLATION OF HDD PARTITIONARY
FORMATTING
OPERATION MAINTEANACE, INSTALLATION OF HDD PARTITIONARY
FORMATTING
OPERATION MAINTEANACE, INSTALLATION OF MONITOR CLCD &
LED
6 6 OPERATION MAINTEANACE, INSTALLATION OF TESTING OF LASER
PRINTER & DOT MATRIX PRINTER
23 INJECT PRINTER
24 LASER PRINTER
25 PRINTER CONTROLLER
26 CONTROLLER INTERFACE
27 SIGNALS FROM PC TO PRINTER & PRINTER TO PC
28 NETWORKING DEVICES : LAN , WAN
29 WI-FI , WLAN
30 ROUTER SWITCH
31 HUB
32 MODEMS-NEED & FUNCTIONS OF MODEMS
33 LAPTOP THEIR NEED
34 FUNTIONS
35 APPLICATIONS
36 ASSIGNMENT
37 REVISION OF B D MOTHERBOARD
38 REVISION OF B D KEYBOARD CONTROLLER
39 REVISION OF B D MONITOR
40 REVISION OF B D DIFFERENCE BETWEEN T.V & COMPUTER MONITOR
41 REVISION CONSTRUCTION PRINCIPLA OF DOT MATRIX
42 REVISION INKJET PRINTER
43 REVISION LASER PRINTER
44 REVISION PRINTING MACHANISM
45 REVISION WIFI
46 REVISION WLAN
47 REVISION ROUTER SWITCH
48 REVISION HUB
49 REVISION LAPTOP
50 REVISION FUNCTION OF LAPTOP
51 REVISION MODEMS
52 REVISION SCANNERS
53 REVISION BUSES
54 REVISION FLOPPY DISK CONTROLLER
55 REVISION PEN DRIVES
56 REVISION HARD DISK CONTROLLER
57 REVISION SERIAL & PARALLEL PORT
58 REVISION USB
G-1
G-2
G-1
G-2
G-1
G-2
G-1
G-2
G-1
G-2
G-2
G-1
G-1
G-2
REVISION HDD
REVISION HDD
REVISION FDD
REVISION FDD
REVISION LAPTOP
REVISION INSTRALLATION OF OPERATING SYSTEM
REVISION INSTRALLATION OF OPERATING SYSTEM
REVISION OF LASER PRINTER
REVISION OF DOT MATRIX PRINTER
REVISION OF DOT MATRIX PRINTER
12
13
14
15
12
13
14
15
G-2 OPERATION MAINTEANACE, INSTALLATION OF TESTING OF LASER
PRINTER & DOT MATRIX PRINTER
G-1 OPERATION MAINTEANACE, INSTALLATION OF TESTING OF LAN,
WAN USING NETWORK DEVICES
7
8
7
8
OPERATION MAINTEANACE, INSTALLATION OF TESTING OF DVD
ROM / DVD WRITER
OPERATION MAINTEANACE, INSTALLATION OF TESTING OF DVD
ROM / DVD WRITER
OPERATION MAINTEANACE, INSTALLATION OF TESTING OF LAN,
WAN USING NETWORK DEVICES
G-2 STUDY OF LAPTOP IPAD, SMARTPHONE
9 9 STUDY OF LAPTOP IPAD, SMARTPHONE
G-1 REVISION OF LASER PRINTER
10
11
10
11
59 REVISION VIDEO DISPLAY ADAPTORS
60 REVISION MOUSE
G-2 REVISION LAPTOP
LESSON PLAN
Name of Faculty : VISITING FACULTY-1
Discipline :ELECTRONICS & COMMUNICATION ENGG
Semester : 4th
Subject : MICROPROCESSORS AND PERIPHERAL DEVICES
WORKLOAD: LECTURES-04, PRACTICAL-04
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Lecture
Day
Theory Practicals
Topic Topic
1 INTRODUCTION OF MICRO COMPUTER SYSTEM AND ITS TYPICAL ORGANIZATION
2 FUNCTIONS OF MICRO COMPUTER BLOCKS
3 MICRO PROCESSOR & ITS EVOLUATION
4 FUNCTION & IMPACT ON MODERN SOCIETY
5 INTRODUCTION OF MICRO SSOR 8085 AND CONCEPT OF BUS
6 BUS ORGANIZATION OF 8085, FUNCTIONAL BLOCK DIAGRAM OF 8085 AND
FUNCTION OF EACH BLOCK
7 PIN DETAILS OF 8085 & RELATED SIGNALS
8 DEMULTIPLEXING OF ADRESSL DATA BUS
9 GENERATION OF READ / WRITE CONTROL SIGNALS
10 STEPS TO EXECUTE A STORED PROGRAM
11 INTRUCTION CYCLE
12 MACHINE CYCLE & T-STATE
13 FETCH & EXECUTE CYCLE
14 BRIEF IDEA OF MACHINE & ASSEMBLY LANGUAGES
15 MACHINES & MNEMONIC CODES
16 INSTRUCTION FORMAT
17 ADDRESSING MODE
18 IDENTIFICATION OF INSTRUCTIONS AS WHICH ADDRESSING MODE THEY BELONG
19 CONCEPT OF INSTRUCTION SET
20 EXPLANATION OF INSTRUCTIONS OF THE FOLLOWING GROUPS OF INSTRUCTION
SET
21 DATA TRANFER GROUP, ARITHMETIC GROUP
22 LOGIC GEROUP, STACK, I/O AND MACHINE CONTRO GROUP
23 PROGRAMMING EXERCISE IN ASSEMBLE LANGUAGE
6 6 G-1 WRITE & EXECUTION OF ALP FOR ARRANGING 10 NOS. IN
ASCENDING / DESCENDING ORDER
G-2 WRITE & EXECUTION OF ALP FOR ARRANGING 10 NOS. IN
ASCENDING / DESCENDING ORDER
5 5 G-1 WRITE & EXECUTION OF ALP FOR MULTIPLICATION &
DIVISION OF TWO 8-BIT
G-2 WRITE & EXECUTION OF ALP FOR MULTIPLICATION &
DIVISION OF TWO 8-BIT
4 4 G-1 WRITE & EXECUTION OF ALP FOR ADDITION & SUB
STATION OF TWO 8-BIT
G-2 WRITE & EXECUTION OF ALP FOR ADDITION & SUB
STATION OF TWO 8-BIT
3 3 G-1 STEPS TO ENTER, MODIFY DATA & EXECUTE A PROGRAMME ON
8085
G-2 STEPS TO ENTER, MODIFY DATA & EXECUTE A
PROGRAMME ON 8085
2 2 G-1 FAMILARIZATIO OF DIFFERENT KEYS OF 8085
MICROPROCESSOR KIT & ITS MEMORY MAP
G-2 FAMILARIZATIO OF DIFFERENT KEYS OF 8085
MICROPROCESSOR KIT & ITS MEMORY MAP
Week
1 1 G-1 GENERAL DISCUSSION ABOUT VARIOUS
MICROPROCESSOR
G-2 GENERAL DISCUSSION ABOUT VARIOUS
MICROPROCESSOR
Practical
Day
24 EXAMPLES CAN BE TAKEN
25 PROGRAMMING EXAMPLES PRACTICES
26 CONCEPT OF MEMORY MAPPING
27 PARTIONING OF TOTALLY MEMORY SPACE
28 ADDRESS DECODING
29 CONCEPT OF PERIPHERAL MAPPED I/O & MEMORY MAPPED I/O
30 INTERFACING OF MEMORY MAPPED I/O DEVICES
31 INTRODUCTION OF INTERRUPT
32 DIFFERENT TYPES OF INTERRUPTS
33 MASKABLE & NON-MASKABLE
34 EDGE-TRIGGERED & LEVEL TRIGGERED INTERRUPTS
35 SOFTWARE INTERRUPT, RESTART INTERRUPTS AND ITS USES
36 HARDWARE INTERRUPTS OF 8085
37 SERVICING INTERRUPTS, EXTENDING INTERRUPT SYSTEM
38 PROGRAMMING EXERCISE PRACTICES
39 INTRODUCTION OF DATA TRANSFER
40 CONCEDPT OF PROGRAMMED I/O OPERATIONS
41 SYNC DATA TRANSFER
42 ASYNC DATA TRANSFER
43 HAND SHAKING
44 INTERRUPT DRIVEN DATA TRANSFER
45 DMA, SERIAL OUTPUT DATA
46 SERIAL INPUT DATA
47 INTRODUCTION OF PERIPHERAL DEVICES
48 8255 PPI
49 8253 PIT
50 8257/8237 DMA CONTROLLER
51 8279 PROGRAMMABLE KB/DISPLAY INTERFACE
52 COMMUNICATION INTERFACE ADAPTOR
53 FEATURES OF MICROPROCESSOR
54 PROGRAMMING EXERCISE
55 8255 LIKE LED DISPLAY CONTROL
56 8253 PROGRAMMABLE INTERVAL TIMER
57 DIFFERENT TYPES OF ADDRESSING MODE
58 INSTRUCTION SET
59 INSTRUCTION FORMAT
15 15 G-1 INTERFACING EXERCISED ON 8255 LIKE LED DISPLAY
COUNTROL
G-2 INTERFACING EXERCISED ON 8255 LIKE LED DISPLAY
COUNTROL
14 14 G-1 INTERFACING EXERCISE ON 8253 PROGRAMMABLE
INTERVAL TIMER
G-2 INTERFACING EXERCISE ON 8253 PROGRAMMABLE
INTERVAL TIMER
13 13 G-1 EXECUTION OF ALP FOR ARRANGING 10NOS. IN
ASCENDING / DESCENDING ORDER
G-2 EXECUTION OF ALP FOR ARRANGING 10NOS. IN
ASCENDING / DESCENDING ORDER
12 12 G-1 EXECUTION ALP FOR 0-9 BCD COUNTERS
G-2 EXECUTION ALP FOR 0-9 BCD COUNTERS
11 11 G-1 EXECUTION OF ALP FOR MULTIPLICATION & DIVISION OF
TWO 8-BIT NO.
G-2 EXECUTION OF ALP FOR MULTIPLICATION & DIVISION OF
TWO 8-BIT NO.
10 10 G-1 EXECUTION OF ALP FOR ADDITION & SUB STATION OF
TWO 8 BIT NO
G-2 EXECUTION OF ALP FOR ADDITION & SUB STATION OF
TWO 8 BIT NO
9 9 G-1 INTERFACING EXERCISE ON 8255 LIKE LED DISPLAY
CONTROL
G-2 INTERFACING EXERCISE ON 8255 LIKE LED DISPLAY
CONTROL
8 8 G-1 INTERFACING EXERCISE ON 8253 PROGRAMMABLE
INTERVAL TIMER
G-2 INTERFACING EXERCISE ON 8253 PROGRAMMABLE
INTERVAL TIMER
7 7 G-1 WRITE & EXECUTION ALP FOR 0 TO 9 BCD COUNTERS
G-2 WRITE & EXECUTION ALP FOR 0 TO 9 BCD COUNTERS
ASCENDING / DESCENDING ORDER
60 INTERRUPTS COUNTROL
LESSON PLAN
Name of Faculty : Mrs. Pooja Sindhu
Discipline : ELECTRONICS & COMMUNICATION ENGG
Semester : 4th
Subject : NFTL
Work Load : lecture 03, practical -06
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week THEORY Practicals PRACTICALS
Topic day Topic
1 INTRODUCTION TO SUBJECT, SYLLABUS, CONTENTS, IMPORTANCE
REFERENCE BOOKS
G-1 INTRODUCTION ABOUT SYLLABUS SUBJECT
2 UNIT -1: NETWORKS
INTRODUCTION TO THE UNIT, CONTENTS, CIRCUIT ELEMENTS, PORTS, EXAMPLES
LUMPED, DISTRIBUTED N/W, ACTIVE PASSIVE LINEAR NON-LINEAR BILATERAL
ELEMENTS
3 SYMMETRICAL N/WS, ASYMMETRICAL N/WS, EXAMPLES BALANCED
UNBALANCED N/WS
4 RECURRENT N/WS, T-SECTION A-SECTION PROPERTIES, EXAMPLES, HALF
SECTION , L-SECTION, LADDERN/W, LATTICE N/W, BRIDGE T-N/W
G-1 INTRODUCTION TO COMPONENTS KITS, APPARATUS
THAT WILL BE USED IN THE SUBJECT
5 ELECTRICAL CHARACTERISTICS OF SYMMITERICAL N/WS-
CHARACTERISTICS INPEDANCE 'Z0' & PROPAGATION CONSTT.
DEFINITION , DERIVATION
6 OPEN & SHORT CKT IMPEDANCE OF SYMMETRICAL T N/WS, 'Z0' OF
SYMM. π-SECTION, DERIVATION. 'ɤ' OF SYMM. π-SECTION, OPEN & SHORT CKT. IMPEDANCE OF SYM π- SECTION
7 RELATION BETWEEN Z0 OF SYMM T & π N/WS G-1 TO MEASURE THE CHARACTERISTIC IMPEDANCE OF T-
N/W (SYMMETRICAL)
8 PARAMETERS OF ASYMMETRICAL N/WS ITERATIVE IMPEDANCE OF HALF
SECTION
9 DERIVATION OF IMAGE IMPEDANCE OF HALF SECTION, ASYMMETRICAL T-
N/WS ITERATIVE IMPEDANCE OF ASYMMETRICAL T-N/WS, OPEN CKT &
SHORT CKT IMPEDANCE OF ASYMM T N/WS
10 UNIT-2: ATTENUATORS-DEFINITION
FORMULAS, UNITS, GENERAL CHARACTERISTICS OF ATTENTUATORS
G-1 TO MEASURE THE CHARACTERISTIC IMPEDANCE OF π-
N/W (SYMMETRICAL)
11 ANALYSIS & DESIGN OF SYMMETRICAL T-ATTENUATOR, ATTENUATOR-
DERIVATION
12 ASYMMETRICAL ATTENUATOR - L TYPE, WORKING BETWEEN TWO EQUAL
RESISTANCE & 2 UNEQUAL RESISTANCE
2 2
G-2 INTRODUCTION TO COMPONENTS KITS, APPARATUS
THAT WILL BE USED IN THE SUBJECT
Week
1 1
G-2 INTRODUCTION ABOUT SYLLABUS SUBJECT
Lecture
Day
3 3
G-2 TO MEASURE THE CHARACTERISTIC IMPEDANCE OF T-
N/W (SYMMETRICAL)
4 4
G-2 TO MEASURE THE CHARACTERISTIC IMPEDANCE OF π-N/W (SYMMETRICAL)
13 DISCUSSION & BRIEFING ABOUT IMPORTANT QUESTIONS FROM UNIT-1,
UNIT-2, ASSIGNMENT -1
G-1 TO MEASURE THE IMAGE IMPEDANCE OF
ASYMMETRICAL T & π N/W14 REVISION & ORAL TEST FROM STUDENTS FROM UNIT-1
15 ASSIGNMENT -2, REVISION & ORAL TEST FROM UNIT-2
16 UNIT-III: FILTER- CONTENTS, DEFINITION, IDEA OF FILTER N/WS IN DIFF.
COMMUNICATION SYSTEMS, APPLICATIONS CHARATERISTICS
G-1 FOR PROTOTYPE LPF
(A) DETERMINE CHARACTERISTIC IMPEDANCE
(B) PLOT THE ATTENUATION CHARACTERISTIC
17 CLASSIFICATION OF FILTER-LPF, HPF, BPF, BSF
18 PROTOTYPE FILTER-CONSTANT-K FILTER, DEFINITION, CHARACTERSTICS,
DRAWBACKS
19 M-DERIVED FILTER- CONCEPT, FORMULAS, DERIVATION,. COMPARISON
& ADVANTAGES OVER PROTOTYPE FILTER
G-1 TO DESIGN & MEASURE ATTENUATION OF
SYMMETRICAL T ATTENUATOR
20 CONSTANT-K LPF- DERIVATION, DESIGN IMPEDANCE VS FREQUENCY
CHARACTERISTICS
21 CONSTANT -K HPF-DESIGN, DERIVATION fc, Zo, ᶑ ,ß , ɤ FORMULASIMPEDANCE VS FREQUENCY CHARACTERISTICS
22 ATTENUATION VS FREQUENCY, PHASE SHIFT VS FREQUENCY, CHARACTERISTICS
IMPEDANCE VS FREQUENCY OF T-FILTERS; SIGNIFICANCEG-1 TO DESIGN & MEASURE ATTENUATION OF
SYMMETRICAL Π attenuator
23 ATTENUATION VS FREQUENCY, PHASE SHIFT VS FREQUENCY,
CHARACTERISTICS IMPEDANCE VS FREQUENCY OF π-FILTERS;
SIGNIFICANCE
24 SIMPLE DESIGN PROBLEMS OF PROTOTYPE LPF
25 CRYSTAL FILTER- CONCEPT, EQUIVALLENT CKT OF CRYSTAL FILTER.
PROPERTIES OF PIEZOELECTRIC FILTER & THEIR USE
G-1 FOR A PROTOTYPE HPF
(A) DETERMINE CHARACTERSTIC IMPEDANCE
(B) TO PLOT THE ATTENUATION CHARACTRISTIC
26 ACTIVE FILTER- CONCEPT , TYPES, EXPLANATION, DESIGN
27 PASSIVE FILTERS-CONCEPT, COMPARISON WITH ACTIVE FILTERS,
IMPORTANT QUESTIONS FROM EXAMS POINT OF VIEW
28 ASSIGNMENT -3, REVISION OF UNIT-3 G-1 TO PLOT IMPEDANCE CHARACTERISTIC &
(B) TO PLOT ATTENUATION CHARACTERISTIC OF
PROTOTYPE BPF
29 REVISION OF ORAL TEST FROM UNIT 3
30 DISCUSSION OF SESSIONAL TEST QUESTIONS
31 UNIT-4: TRANSMISSION LINES
CONTENTS OF UNIT, CONCEPT, IDEA, TYPES OF TRANSMISSION LINES,
APPLICATIONS
G-1 TO PLOT THE IMPEDANCE CHARACTERISTIC OF M-
DERIVED LPF
32 DISTRIBUTED CONSTANTS, T&π REPRESENTATION OF TRANSMISSION LINE SECTION, DEFINITION OF CHARACTERISTIC IMPEDNACE
,DERIVATION
5 5
G-2 TO MEASURE THE IMAGE IMPEDANCE OF
ASYMMETRICAL T & π N/W
6 6
G-2 FOR PROTOTYPE LPF
(A) DETERMINE CHARACTERISTIC IMPEDANCE
(B) PLOT THE ATTENUATION CHARACTERISTIC
7 7
G-2 TO DESIGN & MEASURE ATTENUATION OF
SYMMETRICAL T ATTENUATOR
8 8
G-2 TO DESIGN & MEASURE ATTENUATION OF
SYMMETRICAL Π attenuator
9 9
G-2 FOR A PROTOTYPE HPF
(A) DETERMINE CHARACTERSTIC IMPEDANCE
(B) TO PLOT THE ATTENUATION CHARACTRISTIC
10 10
G-2 TO PLOT IMPEDANCE CHARACTERISTIC &
(B) TO PLOT ATTENUATION CHARACTERISTIC OF
PROTOTYPE BPF
11 11
G-2 TO PLOT THE IMPEDANCE CHARACTERISTIC OF M-
DERIVED LPF
33 DEFINITION OF PROPAGATION CONSTANT, ATTENUATION CONSTANT,
PHASE SHIFT CONSTANT, DERIVATION
34 CONCEPT OF INFINITE LINE, CONDITION FOR MINIMUM DISTORTION &
MINIMUM ATTENUATION OF SIGNAL ON THE LINE
G-1 TO PLOT CHARACTERISTIC (ATTENUATION ) OF M-
DERIVED HPF
35 INTRODUCTION TO LOADING METHODS, TRANSMISSION LINE EQUATION,
EXPRESSION FOR VOLTAGE, CURRENT , IMPEDANCE AT A POINT ON -THE-
LINE
36 CONCEPT OF REFLECTION & STANDING WAVES, DEFINITION OF
REFLECTION COEFFICIENT, SWR & VSWR & THEIR RELATION
37 CONCEPT OF TRANSMISSION LINES AT HIGH FREQUENCIES, IMPEDANCE
MATCHING
G-1 TO OBSERVE INFORMATION OF STANDING WAVES ON
A TRANSMISSION LINE & MEASUREMENT OF SWR,
CHAR IMPEDANCE OF LINE
38 INTRODUCTION TO STUBS-SINGLE,OPEN ,SHORT STUBS, PRACTICE OF
NUMERICALS
39 PRACTICE OF MORE NUMERICALS ,REVISION OF UNIT-4
40 ASSIGNMENT-4: DISCUSSION OF IMPORTANT QUESTIONS REGARDING
EXAM POINT OF VIEW
G-1 TO DRAW THE ATTENUATION CHARACTERISTICS OF A
CRYSTAL FILTER
41 REVISION & ORAL TEST FROM UNIT-4
42 DISCUSSION & DOUBT CLEARANCE
43 RE-EXPLANATION & DISCUSSION OF DIFFICULT TOPICS THAT STUDENTS
WANT TO REPEAT
G-1 REPEAT OF EXPERIMENTS OF ABSENTEE STUDENTS
44 ORAL TEST & DISCUSSION OF QUESTIONS ANSWERS OF UNIT-1,2
45 ORAL TEST & DISCUSSION OF QUESTIONS ANSWERS OF UNIT-3,4
12 12
G-2 TO PLOT CHARACTERISTIC (ATTENUATION ) OF M-
DERIVED HPF
15 15
G-2 REPEAT OF EXPERIMENTS OF ABSENTEE STUDENTS
13 13
G-2 TO OBSERVE INFORMATION OF STANDING WAVES ON
A TRANSMISSION LINE & MEASUREMENT OF SWR,
CHAR IMPEDANCE OF LINE
14 14
G-2 TO DRAW THE ATTENUATION CHARACTERISTICS OF A
CRYSTAL FILTER
Lesson Plan
Name of the faculty : Mr. Tejpal Rawat (H.O.D)
Discipline : Electronics and Communication Engg.
Semester : VIth
Subject : Project
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Work Load(Practical)Per week (in hours): Practical-06
week Practical
Practical day Topic
1st
1st
Introduction regarding project work
Need, requirement and scope of Project
2nd
Introduction regarding project work
Need, requirement and scope of Project
2nd
3rd
Formulation of groups
4th
Formulation of groups
3rd
5th
Finalization of topics
6th
Finalization of topics
4th
7th
Submission of synopsis
8th
Submission of synopsis
5th
9th
Submission of circuit diagram
10th
Submission of circuit diagram
6th
11th
Finalization of Components and IC's
12th
Finalization of Components and IC's
7th
13th
All the components assemble first in the breadboard then
testing the output
14th
All the components assemble first in the breadboard then
testing the output
8th
15th
Artwork
16th
Artwork
9th
17th
PCB fabrication
18th
PCB fabrication
10th
19th
Preparation of PCB's- etching Process
20th
Preparation of PCB's- etching Process
11th
21th
Preparation of PCB's- Drilling process
22th
Preparation of PCB's- Drilling process
12th
23th
Placement of components along with soldering
24th
Placement of components along with soldering
13th
25th
Testing of circuit/Troubleshooting
26th
Testing of circuit/Troubleshooting
14th
27th
Submission of rough Project report
28th
Submission of rough Project report
15th
29th
Final submission of Project along with report
30th
Final submission of Project along with report
Lesson Plan
Name of the faculty : Mr. Lincoln Hadda
Discipline : Electronics and Communication Engg.
Semester : VIth
Subject : Project
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Work Load(Practical)Per week (in hours): Practical-06
week Practical
Practical day Topic
1st
1st
Introduction regarding project work
Need, requirement and scope of Project
2nd
Introduction regarding project work
Need, requirement and scope of Project
2nd
3rd
Formulation of groups
4th
Formulation of groups
3rd
5th
Finalization of topics
6th
Finalization of topics
4th
7th
Submission of synopsis
8th
Submission of synopsis
5th
9th
Submission of circuit diagram
10th
Submission of circuit diagram
6th
11th
Finalization of Components and IC's
12th
Finalization of Components and IC's
7th
13th
All the components assemble first in the breadboard then
testing the output
14th
All the components assemble first in the breadboard then
testing the output
8th
15th
Artwork
16th
Artwork
9th
17th
PCB fabrication
18th
PCB fabrication
10th
19th
Preparation of PCB's- etching Process
20th
Preparation of PCB's- etching Process
11th
21th
Preparation of PCB's- Drilling process
22th
Preparation of PCB's- Drilling process
12th
23th
Placement of components along with soldering
24th
Placement of components along with soldering
13th
25th
Testing of circuit/Troubleshooting
26th
Testing of circuit/Troubleshooting
14th
27th
Submission of rough Project report
Lesson Plan
Name of the faculty : Mrs. Ramesh Kumari
Discipline : Electronics and Communication Engg.
Semester : VIth
Subject : Project
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Work Load(Practical)Per week (in hours): Practical-06
week Practical
Practical day Topic
1st
1st
Introduction regarding project work
Need, requirement and scope of Project
2nd
Introduction regarding project work
Need, requirement and scope of Project
2nd
3rd
Formulation of groups
4th
Formulation of groups
3rd
5th
Finalization of topics
6th
Finalization of topics
4th
7th
Submission of synopsis
8th
Submission of synopsis
5th
9th
Submission of circuit diagram
10th
Submission of circuit diagram
6th
11th
Finalization of Components and IC's
12th
Finalization of Components and IC's
7th
13th
All the components assemble first in the breadboard then
testing the output
14th
All the components assemble first in the breadboard then
testing the output
8th
15th
Artwork
16th
Artwork
9th
17th
PCB fabrication
18th
PCB fabrication
10th
19th
Preparation of PCB's- etching Process
20th
Preparation of PCB's- etching Process
11th
21th
Preparation of PCB's- Drilling process
22th
Preparation of PCB's- Drilling process
12th
23th
Placement of components along with soldering
24th
Placement of components along with soldering
13th
25th
Testing of circuit/Troubleshooting
26th
Testing of circuit/Troubleshooting
14th
27th
Submission of rough Project report
Lesson Plan
Name of the faculty : Mrs. Pooja Sindhu
Discipline : Electronics and Communication Engg.
Semester : VIth
Subject : Project
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Work Load(Practical)Per week (in hours): Practical-06
week Practical
Practical day Topic
1st
1st
Introduction regarding project work
Need, requirement and scope of Project
2nd
Introduction regarding project work
Need, requirement and scope of Project
2nd
3rd
Formulation of groups
4th
Formulation of groups
3rd
5th
Finalization of topics
6th
Finalization of topics
4th
7th
Submission of synopsis
8th
Submission of synopsis
5th
9th
Submission of circuit diagram
10th
Submission of circuit diagram
6th
11th
Finalization of Components and IC's
12th
Finalization of Components and IC's
7th
13th
All the components assemble first in the breadboard then
testing the output
14th
All the components assemble first in the breadboard then
testing the output
8th
15th
Artwork
16th
Artwork
9th
17th
PCB fabrication
18th
PCB fabrication
10th
19th
Preparation of PCB's- etching Process
20th
Preparation of PCB's- etching Process
11th
21th
Preparation of PCB's- Drilling process
22th
Preparation of PCB's- Drilling process
12th
23th
Placement of components along with soldering
24th
Placement of components along with soldering
13th
25th
Testing of circuit/Troubleshooting
26th
Testing of circuit/Troubleshooting
14th
27th
Submission of rough Project report
LESSON PLAN
Name of Faculty : Mr. PATANJALI
Discipline : ELECTRONICS & COMMUNICATION ENGG
Semester : 6th
Subject : SCA/SS
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Practical
Day
Practicals
Topic
1 INTRUDUCTION OF TEAM BUILDING
2 INTRODUCTION OF TEAM WORK
3 MEANING ASPECTS OF TEAM BUILDING
4 SKILL NEEDED FOR TEAM WORK
5 A MODEL OF TEAM BUILDING V/S GROUP
6 CHARACTERISITICS OF EFFECTIVE TEAM ROLE OF TEAM LEADS
7 ROLE OF TEAM MEMBERS
8 INTER GROUP COLLABORATION
9 ADVANTAGES OF INTER-GROUP COLLABORATION
10 DIFFICULTIES FACED IN INTER GROUP COLLABORATION
11 FACTORS SHAPING INTER-GROUP COLLABORATION
12 INTRODUCTION OF GROUP DISCUSSION
13 MEANING OF GD
14 WHY GROUP DISCUSSION
15 CHARACTERS TESTED IN A GD
16 TIPS ON GD TYPES OF GD SKILL
17 GD CONSEQUENCES
18 GD BEHAVIOUR
19 GD ESSENTIAL ELEMENTS
20 GD DIFFERENT CHARACTERS IN GD TRAIL
21 GD ETIQUETTE
22 AREAS TO BE CONCENTRATED WHILE PREPARING FOR GD
23 INITIATING A GD TECHNIQUES
24 INITIATE A GD NON-VERBAL COMMUNICATION IN GD
25 MOVEMENT AND GESTURES TO BE AVOIDED IN A GD TOPICS
26 TOPICS FOR GD
27 INTRODUCTION OF MANNERS
28 TOPICS OF ETIQUETTE (MEANING)
29 MODERN ETTIQUETTE
30 BENEFITS OF ETIQUETTE
31 CLASSIFICATION OF ETIQUETTE
32 ACCOMPANYING WOMEN
33 TABOO TOPICS
34 PROPOSING THE TOAST
35 INTRODUCTION OF MANNERS
36 POOR MANNERS
37 GOOD MANNERS
38 PRACTICING GOOD MANNERS
39 MANNERS AT THE WHEEL
40 DRIVING
41 MANNERS IN THE FLIGHT
42 RESPECTING THE SACRED
43 VISITING HOLY PLACES
6
7
8
9
1
2
3
4
5
44 DEALING WITH THE CHALLENGED
45 PROFESSIONAL MANNERS
46 SOCIAL SKILLS
47 MANNERS (GETTING)
48 REVISION OF GROUP DISCUSSION
49 REVISION OF COLLABORATION
50 REVISION OF STRESS MANAGEMENT
51 REVISION TEAM BUILDING
52 REVISION TEAM WORK
53 REVISION ETIQUETTE
54 REVISION MANNERS
55 REVISION OF BENEFITS OF ETIQUETTE
56 REVISION FACTORS SHAPING INTER GROUP COLLABORATION
57 REVISION SKILL NEEDED OF TEAM BUILDING
58 REVISION WHY GROUP DISCUSSION
59 REVISION CHARACTERS TESTED IN A GD
60 REVISION TIPS ON GD TYPES
61 REVISION GD CONSEQUENCES
62 REVISION GD BEHAVIOUR
63 REVISION GD ESSENTAL ELEMENTS
64 REVISION CLASSIFICATION ETIQUETTE
65 REVISION MANNERS
66 REVISION GOOD MANNERS
67 REVISION POOR MANNERS
68 REVISION MANNERS IN GROUP DISCUSSION
69 ASSIGNMENT ON PRACTICE GOOD MANNERS
70 ASSIGNMENT ON DEALING WITH THE CHALLENGED
71 REVISION MANNERS IN THE FLIGHT
72 REVISION MANNERS AT THE WHEEL
73 REVISION TABOO TOPICS-PROPOSING THE TOAST
74 REVISION
75 REVISION
14
15
10
11
12
13
LESSON PLAN
Name of Faculty : VISITING FACULTY-02
Discipline : ELECTRONICS & COMMUNICATION ENGG.
Semester : 4th
Subject : SOFT SKILL / SCA
Work Load : 05 Practical
Lesson Plan Duration :15 weeks(from 9th Jan,2018 to 30th April,2018)
Week Practical
Day
Practicals
Topic
1 INTRODUCTION ABOUT SOFT SKILLS
2 WHAT IS ART OF LISTENING
3 INTRODUCTION ABOUT LISTENING TWO EAR AND MOUTH
4 TYPES OF LISTENING
5 BENEFOR OF LISTEING
6 FACTORS ABOUT RELATED TO LISTENING
7 FACTORS THAT HAMPER LISTENING
8 COMMON POOR LISTENING HABITS
9 ADVANTAGE OF LISTENING
10 LISTENING TIPS
11 INTRODUCTION ABOUT READING
12 COGNITIVE PROCESS OF READING
13 DISCUSSION ABOUT GOOD READERS
14 BENEFITS OF READING
15 DIFFERENT TYPES OF READING
16 TIPS FOR EFFECTIVE READING
17 DIFFERENT STAGE OF READING
18 DETERMINE STUDENT READING RATE
19 ADJUSTING READING RATE
20 ACTIVITIES FOR INCREASING READING RATE
21 PROBLEM WITH READING
22 BECOMING AN EFFICIENT READER
23 INTROCUTION ABOUT SPEAKING
24 WHAT MAKES COMMUNATION IMPORTANT
25 DEFINE COMMUNICATION
26 FEATURES OF COMMUNICATION
27 COMMUNICATION PROCESS
28 CHANNELS OF COMMUNCATION
29 FORMAL AND INFORMAL COMMUNICATION N/W
30 IMPORTANCE OF COMMUNICATION
31 BURRES OF COMMUNICAITON
32 TIPS OF EFFECTIVE COMMUNICATION
33 CONVERSATION TIPS
34 WHAT IS PRESENTATION
35 TIPS FOR POWERFUL PRESENTATION
36 ART OF PUBLIC SPEAKING
37 IMPORTANCE OF PUBLIC SPEAKING
38 BENEFIT OF PUBLIC SPEAKING
39 PUBLIC SPEAKING TIPS
40 OVER COMING FEARS FOR PUBLIC SPEAKING
41 INTRODUCTION ABOUT WRITING
42 IMPORTANCE ABOUT WRITING
43 FEATURES OF WRITING
6
7
8
9
1
2
3
4
5
44 BENEFITS OF WRITING
45 CREATIVE WRITING TIPS
46 DRAWBACK OF WRITTEN COMMUNICATION
47 INTRODUCTION ABOUT EMAIL
48 INTRODUCTION ABOUT MAIL MAGIC
49 USE OF APPROPRIATE SALUTATION
50 MAKE THE SUBJECT MATTER SIGNIFICENT
51 KEEP A DICTIONERY CLOSE BY
52 USE COMMAS WHEN IN DOUBT
53 USE SMILEY WHEN IN DOUBT
54 PREFACE INCLUDING PREVIOUS MESSGAGE
55 SHORTEN THE FILE ATTACHMENT
56 RESEND BEFORE PRESSING THE SEND BUTTON
57 BE POLITE AND REPLICATE GOOD DEEDS
58 ANTICIPATE EMPATHIZE
59 UNDERSTANT WHAT NETTQUELTE
60 INTROCUTION ABOUT
61 DISCUSSION ABOUT TOPICS REALTED TO Gender
62 DISCUSSION ABOUT PROVISION OF PUNISHMENT
63 PUT PUNISHMENT AGAINT VIOLATION
64 ILLEGAL FLESH TRADE
65 REOBLIZATION OF VICTIM
66 RAPE WILL ACT MAKE TO HELP VICTIM
67 DISCUSSION ABOUT GENERAL TOPICS
68 TEST
69 ASSIGNMENT
70 REVISION
71 REVISION / DISCUSSION
72 COPY CHECKING
73 REVISION / DISCUSSION
74 COPY CHECKING
75 DISCUSSION
14
15
10
11
12
13
LESSON PLAN
Name of Faculty : Sh. Lincoln Hadda
Discipline :ELECTRONICS & COMMUNICATION ENGG
Semester : 6th
Subject : WMC
Work Load :
Week Practicals Week Practicals
Topic Topic
1 Overview of syllabus interconnect of various chapters to be covered in
course.
2 Wireless communication system block diagram
3 Functioning of various blocks
4 Application of Wireless communication.
5 Electro-magnetic waves – spectrum6 Application of electromagnetic waves
7 Frequency used in wireless detailed study
8 Posing system block diagram working.
9 Cordless telephone system
10 Cellular telephone system
11 Comparison of all above wireless communication system
12 Generation evolution of mobile. Communication
13 2nd
generation of mobile communication
14 3rd
generation of mobile communication.
15 4th
generation and upcoming generation in mobile communication.
16 Cell area, shape and reason for hexasonal shape
17 Capacity of cell
18 cluster and formula
19 Numericals on capacity of cell
20 Frequency reuse – numericals21 Interference, type of interference
22 Co channel interference
23 Adjacent channel interference
24 Cause of losses and ways to over come losses
25 Power control for reducing interference
26 Numericals on power and loss consideration
Discussion on concepts of cellular mobile, features & parameters etc.
7 7 G-1 Concept of call processing, connection setup and establishment,
channel allotment on kit
6 6 G-1 Vivo voice of practical's related to BTS
G-2 Vivo voice of practical's related to BTS
5 5 G-1 Demonstration of base trans receiver station with near by cellular
towar
G-2 Demonstration of base trans receiver station with near by cellular
towar
4 4 G-1 Visit of MSC in Sonipat/Delhi Exchange
G-2 Visit of MSC in Sonipat/Delhi Exchange
3 3 G-1 Performance of practical by students, observing various readings
G-2 Performance of practical by students, observing various readings
Discussion on concepts of cellular mobile, features & parameters etc.
2 2 G-1 Signal strength concept, transmitting antenna & cordless phone
demonstration on kit
G-2 Signal strength concept, transmitting antenna & cordless phone
demonstration on kit
Lecture
Day
Practical
Day
1 1 G-1
G-2
27 Methods to improve converge and capacity in cellular system
28 cell splitting diagram
29 Sectoring
30 Repeation and Rugeextension
31 Concept of multiple access
32 Advantages and techniques
33 FDMA, FDD, TDD scheme analysis
34 TDMA advantages
35 Frames in TDMA
36 Timing diagram
37 CDMA Code PN function sequence
38 SSMA
39 FHSS
40 Camparison of SSMA amd FHSS
41 Comparision of TDMA/FDMA/CDMA
42 Comparision of TDMA/FDMA/CDMA
43 Introduction of global system for mobile communication (GSM)
44 Services and features of GSM,
45 Architecture
46 Advantages of GSM
47 architectue of CDMA
48 Different between GSM and CDMA
49 CDMA structure
50 GPRS
51 GPS System
52 Blue Tooth technology
53 Wi-fi technology
54 Discussion on problem of GSM and CDMA
55 Block diagram of digital communication its working and detailed diagram.
56 Block diagram of data communication and function of each block
57Concept of data assembly communication system from with data and data
digital communication system.
58 concept of Analog Communication
59 Concept of Digital Communication
60 Evolution of Data Communication
Revision on selected practical's
Revision on selected practical's
11
12
13
14
15
11
12
13
15
14 Performance of practical's by student on Wi-fi kit
G-1
G-2
Concept of Wi-fi - technologies and working of Wi-fi systems, vivo
voice
Concept of Wi-fi - technologies and working of Wi-fi systems, vivo
voice
Performance of practical's by student on Wi-fi kit
G-1
G-2
Performance of practical's on Bluetooth technology kit
Performance of practical's on Bluetooth technology kit
G-1
G-2
Bluetooth technology concept and working demonstration of kit, vivo
voice
Bluetooth technology concept and working demonstration of kit, vivo
voice
10 10 G-1 Performance of practical's on CDMA kit by students & vivo voice
preparation
G-2 Performance of practical's on CDMA kit by students & vivo voice
preparation
9 9 G-1 Concept of call processing on CDMA kit, connection setup
establishment of channels. Demonstration on kit
G-2 Concept of call processing on CDMA kit, connection setup
establishment of channels. Demonstration on kit
8 8 G-1 Performance of practical's on gsm on kit by students
G-2 Performance of practical's on gsm on kit by students
G-2 Concept of call processing, connection setup and establishment,
channel allotment on kit