Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 4TH
Subject: Communication System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1
(UNIT1) INTRODUCTION TO COMMUNICATION SYSTEM: Modulation, Demodulation, Radio
Frequency Spectrum
1
To study and waveform analysis of amplitude modulation and determine the modulation index of amplitude modulation.
2 Signals & their classification
3
Limitations & Advantages of a
Communication System , Comparison
of Analog & Digital Communication Systems
2nd week
4 Historical Perspective, Modes & Medias
of Communication
2 To study and waveform analysis of amplitude demodulation by any method.
5 (UNIT1) NOISE: Sources of Noise,
External & Internal Noise
6 Noise Calculations, Noise Figure, Noise
Figure Calculation, Noise Temperature
3rd week
7 Noise in Communication Systems,
Band Pass Noise Model, Cascaded States & its Noise Figure Calculation
3
To study and waveform analysis of frequency modulation and determine the modulation index of frequency modulation.
8 Signal in presence of Noise, Pre-
Emphasis & De-Emphasis
9 Noise Quieting Effect, Capture Effect, Noise in Modulation Systems.
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 4TH
Subject: Communication System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10
(UNIT2) LINEAR MODULATION: (AM) Basic definition & derivation for Modulation & Modulation Index
4 To study and waveform analysis of frequency demodulation by any
method. 11 Modulation & Demodulation of AM,
Suppressed Carrier Modulation
12 SSB-SC, DSB-SC,
5th week
13
VSB Modulation & Demodulation , Comparison of various AM Systems, Generation of AM waves.
5 To study Amplitude Shift Keying (ASK) modulation.
14
(UNIT2) ANGLE MODULATION: Basic definition & derivation for Modulation & Modulation Index
15 Generation of FM waves, Comparison
between PM & FM
6th week
16 Frequency Spectrum of FM, B.W. &
required spectra, Types of FM
6 To study Frequency Shift Keying (FSK) modulation.
17 vector representation of FM, Universal Curve
18 Multiple FM , Demodulation of FM
waves
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 4TH
Subject: Communication System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19
(Cont.) (UNIT 2) ANGLE MODULATION Demodulation of PM waves, Comparison between AM & FM.
7 To study Phase Shift Keying (PSK) modulation.
20
(UNIT3) TRANSMITTERS & RECEIVERS: Classification of Radio Transmitters, Basic Block Diagram of Radio Transmitter
21
Effect of Feedback on operation of Transmitter, Radio Telephone Transmitters, Privacy Device in Radio Telephony
8th week
22 FM Transmitter using Reactance Modulator, Armstrong FM Transmitter
8 To study and waveform analysis of phase modulation.
23 Radio Receivers, Classification, TRF
Receiver
24 Super Heterodyne Receiver, Image
Rejection & Double Spotting, Choice of IF
9th week
25 Tracking & Alignment of Receivers, AGC.
9 To study Phase demodulation.
26
(UNIT 3) PROBABILITY THEORY & RANDOM PROCESSES: Probability, Properties, Conditional Probability
27 Random Variables, CDF, PDF
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 4TH
Subject: Communication System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28
(Cont.) (UNIT 3) PROBABILITY THEORY & RANDOM PROCESSES: Uniform Distribution, Random or Stochastic Process
10 To study Pulse code modulation. 29 Ergodic Process
30 PSD, Properties of PSD,
11th week
31 Correlation Function
11 To study Pulse amplitude modulation and demodulation.
32 (UNIT4) PULSE ANALOG
MODULATION: Sampling theory,
33 TDM , FDM
12th week
34 Modulation and Demodulation of PAM
12 To study Pulse width modulation.
35 Modulation and Demodulation of PWM
36 Modulation and Demodulation of PPM
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 4TH
Subject: Communication System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37 (UNIT4) PULSE DIGITAL
MODULATION: Elements of
Pulse Code Modulation
13 To study Pulse position modulation 38 Noise in PCM Systems
39 Bandwidth of PCM Systems, Measure
of Information
14th week
40 Channel Capacity,
14 41 Channel Capacity of PCM
System,
42 Differential Pulse Code
Modulation (DPCM)
15th
43 Delta Modulation (DM)
15 44 Revision
45 Revision
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Digital Circuits and System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1 Number System
1 Study & design basic gates. 2 Binary Codes
3 Boolean Algebra
2nd week
4 Sets
2 Study & minimize K-Map. 5 Relation
6 Lattice
3rd week
7 Minimization of Switching
Functions
3 Study & minimize K-Map
using Quine Mc cluskey
Method. 8 Five variable K-map
9 Six variable K-map
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Digital Circuits and System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10 Quine Mcluskey
4 Study of Flip Flop conversion
from S-R to J-K. 11 VEM Methods of
Simplifications
12 Logical Design
5th week
13 Design with Basic logical
Gates
5 Study of Flip Flop conversion
from J-K to T. 14 Logic Design with Integrated
Circuits
15 NAND Circuits
6th week
16 NOR Circuits
6 Study of Flip Flop conversion
from D to T. 17 Design of High- Speed
Adders
18 Symmetric Functions
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Digital Circuits and System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19 Functional Decomposition
7 Design and implement a ckt
to detect a Count Sequence. 20 Symmetric Networks
21 Identification of Symmetric
Functions
8th week
22 Introduction to Threshold
logic
8 Design and implement a
Asynchronous sequential ckt. 23 Synthesis of Threshold
Networks
24 Sequential Circuits
9th week
25 Capabilities of Sequential
Machines
9 Design and implement
Synchronous counter with
count sequence. 26
Minimization of Sequential
Machines
27 Transformation of Sequential
Machines
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Digital Circuits and System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28 The Finite State Model-Basic
Definitions
10 Design an Asynchronus
Counter for a Count
Sequence. 29 Memory Elements
30 Excitations Functions of
Memory Elements
11th week
31 The Finite State Model-
Further Definitions
11
Study the conversion of state
digram to the state table and
implement it using logical ckt.
32 Capabilities
33 Limitations of Finite State
Machines
12th week
34 State Equivalence
12 Design and implement a
Melay Machine. 35 Machine Minimization
36 Simplification of
Incompletely Specified
Machines
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Digital Circuits and System
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37 Asynchronous Sequential
Circuits
13 Design and implement a
Moorey Machine. 38 Fundamental- Mode Circuits
39 Synthesis
14th week
40 State Assignment in
Asynchronous Sequential
Circuits
14 41 Structures of Sequential
Circuits Introduction
42 State Assignments
15th week
43 State Assignments using
Partitions
15 44 The Lattice of Closed
Partitions
45 Reduction of the output
Dependency
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Field and Wave
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Coulomb’s Law of Electrostatic Force, Electric Field Intensity
2 Electric Potential, Electric Charge Density
3 Field Potential of A Finite Line Of Charge, Field Potential of an Infinite
Line Of Charge
2nd week
4 Electric Potential Difference, Electric Dipole, Electric Flux Density
5 Gauss Law, Application of Gauss Law
6 Laplace Equation, Solution of Laplace Equation in Rectangular And
Cartesian Coordinates
3rd week
7 Uniqueness Theorem of Electrostatic Field Solutions
8 Methods of Electrostatic Images, Electrostatic Energy, Capacitance
9 Introduction, Faraday Induction Law
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Field and Wave
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 Magnetic Effect on Current Carrying Conductor
11 Magnetic Flux
12 Magnetic Flux Density
5th week
13 Biot-Savart’s Law
14 Ampere’s Law of Force
15 Magnetic Field of A Solenoid
6th week
16 Magnetic Field In Vector Notations
17 Magnetic Field Intensity
18 Magnetic Flux Density in an Infinitely Long Cylinder Containing
Uniform Current Density
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Field and Wave
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Magnetic Vector Potential
20 Energy Stored In A Magnetic Field
21 Energy Density In A Magnetic Field
8th week
22 Displacement Current Mawell’s Equations in Free space
23 Displacement Current Mawell’s Equations in Differential Form
24 Displacement Current Mawell’s Equations in Integra Form
9th week
25 Physical Interpretations Of Maxwell’s Field Equations
26 Boundary Conditions
27 Electromagnetic Wave In Homogeneous Medium
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Field and Wave
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Wave Equation
29 Plane Wave And Uniform Plane Wave
30 Electromagnetic Wave Equations
11th week
31 Wave Propagation In Conducting Medium
32 Polarization
33 Introduction Of Transmission Lines
12th week
34 Principles Of Transmission Lines
35 Equivalent Circuit Representation
36 General Transmission Line Equation
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 4th
Subject: Field and Wave
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 Wave Characteristics on Finite Transmission Lines
38 Transients on Transmission lines
39 Primary Constant
14th week
40 Voltage And Current Calculations
41 Characteristic Impedance
42 Open And Short Circuit Lines
15th week
43 Reflection Coefficient
44 VSWR
45 Smith’s Chart And Its Applications
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: B.Tech , ECE
Semester: 4th
Subject: POWER ELECTRONICS (ECE208B)
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1 Characteristics of Power Diodes, Types of Power Diodes, Power Transistors
1
To study Steady-state characteristics of SCR by plotting graph between voltage and current of Thyristers
2
Power MOSFET, Insulated Gate Bipolar Transistors (IGBT), MOS Controlled Thyristors.
3 Terminal Characteristics of Thyristors, Thyristor Turn ON Methods
2nd week
4 Switching Characteristics of Thyristors, Characteristics, Two Transistor Model of a Thyristor,
2
To Study R and RC Triggering Circuit for SCR.
5 Protection, Heating Cooling and Mounting of Thyristors
6 Series and Parallel Operation of Thyristors, Programmable Unijunction Transistors(PUT)
3rd week
7 Silicon Unilateral Switch(SUS), Silicon Controlled Switch(SCS
3 To study UJT as Relaxation Oscillator
8 ,Light Activated Thyristors, Static Induction
9 Thyristors, Diac, Triac
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: B.Tech , ECE
Semester: 4th
Subject: POWER ELECTRONICS (ECE208B)
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10 Asymmetric Thyristors, Reverse Conducting Thyristors
4 To study SCR Half Wave and Full Wave Bridge Controlled Rectifier-Output characteristics
11 Firing Circuits for Thyristors, Pulse Transformer in Firing Circuits, Triac Firing Circuit
12 Doubt class of unit 1
5th week
13 Class A Commutation (Load), Class B Commutation (report )
5
To study 1-Phase Full Wave Bridge Controlled Rectifier using SCR and UJT with R and R-L Load and observe its input/output characteristics with and without freewheeling (commutating ) diode.
14 Class C Commutation , Class D Commutation (Impulse )
15 Class E Commutation (External Pulse Commutation),
6th week
16 Class F Commutation (Line Commutation)
6
To study three Phase Full-Wave
Uncontrolled Rectifier Operation
with R and R-L Load and Observe
its input/output Characteristics
17 Principle of Phase Control ,Full Wave Controlled Converters
18 Single Phase Full Wave Converter
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: B.tech , ECE
Semester: 4th
Subject: POWER ELECTRONICS (ECE208B)
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19 Single Phase Two Pulse Converter with Discontinuous Load Current
7
To study single Phase Cycloconvener output characteristics.
20 Three Phase Converter Systems Using Diodes
21 Three Phase Thyristor Converter Circuits
8th week
22 Effect of Source Impedance on Performance of Converter
8 To study Series operation of SCR’s
23 Dual Converters.
24 Doubt class of unit 2
9th week
25 Principle of Chopper Operation, Control Strategies
9 To study Parallel operation of SCR’s.
26 Step Up Choppers, Types of Chopper Circuits
27 Steady State Time Domain Analysis of Type A Choppe
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: B.tech , ECE
Semester: 4th
Subject: POWER ELECTRONICS (ECE208B)
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28 Thyristor Chopper Circuits,
Multiphase Choppers
10 To study Speed Control of DC
motor using SCR’s.
29
Single Phase Voltage Source
Inverter
30 Operating Principle ,Force
Commutated Thyristor Inverters
11th week
31 Three Phase Bride Inverter, Voltage
Control in Single Phase Inverter,
Pulse Width Modulated Inverter
11 To study Lamp-Dimmer Using Diac
& Triac With Lamp Load 32 Reduction of Harmonics in the
Inverter Output Voltage
33 Single Phase Parallel Inverter
Doubt class of unit 3
12th week
34 Types of AC Voltage Controller,
Integral Cycle Control
12 35 , Single Phase Voltage Controllers,
Sequence Control of AC Voltage
Controller.
36 Principle of Cycloconverter
Operation, Three Phase Half Wave
Cycloconverter,
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: B.tech , ECE
Semester: 4th
Subject: POWER ELECTRONICS (ECE208B)
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37 Output Voltage Equation for Cycloconverter,
13 38 Load Commutated Cycloconverter.
39 Switched Mode Power Supply
14th week
40 Uninterruptible Power Supplies, High
14 41 Voltage DC Transmission, Static Switches
42 Static Circuit Breakers
15th
43 Solid State Relays. Doubt class from unit 4
15 44 Doubt class from entire syllabus
45 Doubt class from entire syllabus
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: Control System Engineering
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1
(UNIT1) INPUT / OUTPUT RELATIONSHIP: System / Plant model, illustrative examples of plants & their inputs and outputs, open loop & closed loop control system & their illustrative examples
1 To study A.C. servo motor and to plot its torque-speed characteristics. 2
Mathematical modeling and representation of physical systems
3 Concept of transfer function, relationship between transfer function and impulse response
2nd week
4 order of a system, block diagram algebra
2 To study D.C. servo motor and to plot its torque speed characteristics.
5 signal flow graphs: Mason’s gain formula & its application
6 (Cont.)signal flow graphs: Mason’s gain formula & its application
3rd week
7 (Cont.)signal flow graphs: Mason’s gain formula & its application
3
To study the magnetic amplifier and to plot its load current v/s control current characteristics for:
(a) series connected mode (b) parallel connected mode.
8 characteristic equation
9 derivation of transfer functions of electrical and electromechanical systems
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: Control System Engineering
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10 (Cont.)derivation of transfer functions of electrical and electromechanical systems
4
To plot the load current v/s control current characteristics for self exited mode of the magnetic amplifier.
11 (Cont.)derivation of transfer functions of electrical and electromechanical systems
12 (Cont.)derivation of transfer functions of electrical and electromechanical systems
5th week
13 (UNIT2) TIME DOMAIN ANALYSIS:
Typical test signals
5 To study the lead, lag, lead-lag compensators and to draw their magnitude and phase plots.
14 time response of first order systems to various standard inputs
15 (Cont.) time response of first order systems to various standard inputs
6th week
16 time response of 2nd order system to step input
6
To study a stepper motor & to execute
microprocessor or computer-based
control of the same by changing number
of steps, direction of rotation & speed.
17 time domain specifications
18 steady state error and error constants
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: Control System Engineering
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19 concept of stability, pole-zero configuration and stability
7 To implement a PID controller for level control of a pilot plant.
20 necessary and sufficient conditions for stability
21 Hurwitz stability criterion
8th week
22 Routh stability criterion and relative stability
8 To implement a PID controller for temperature control of a pilot plant 23 Root locus concept
24 development of root loci for various systems
9th week
25 stability considerations
9
To study the synchro & to: (a). Use the synchro pair (synchro transmitter & control transformer) as an error detector. (b). Plot stator voltage v/s rotor angle for synchro transmitter i.e. to use the synchro transmitter as position transducer.
26
(UNIT3) FREQUENCY DOMAIN
ANALYSIS: Relationship between frequency response and time-response for 2nd order system
27 Nyquist
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: Control System Engineering
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28 (Cont) Nyquist Plot
10 29 Bode plots
30 (Cont) Bode plots
11th week
31 stability
11 32 Gain-margin and Phase Margin
33 Relative stability, frequency response specifications.
12th week
34 (UNIT4) COMPENSATION: Necessity of compensation
12 35 compensation networks
36 application of lag and lead
compensation
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: Control System Engineering
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37 Basic modes of feedback control
13
38 Proportional controllers.
39 Integral controllers.
14th week
40 Derivative controllers.
14 41 (UNIT4) CONTROL COMPONENTS: Synchros
42 servomotors
15th
43 stepper motors
15 44 magnetic amplifier
45 REVISION
Lesson Plan
Name of the Faculty:Mr.Pintu
Discipline:B.Tech-ECE
Semester: 6th
Subject: Microelectronics
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 CRYSTAL GROWTH AND WAFER PREPARATION: Clean room concept, safety requirements, crystal growth techniques: czochralski and gradient freeze techniques,
2 physics involved in CZ growth, Energy flow balance,
3 pull rate- considerations, problems and solutions
2nd week
4 defects involved in CZ method, effects due to carbon and oxygen impurities
5 modeling of dopant incorporation, float zone growth for high purity silicon,.
6 liquid encapsulated growth for GaAs, material characterization- wafer shaping, crystal characterization, wafer cleaning
3rd week
7 CURRENT ELEMENT CHARACTERISTICS: Growth mechanism and kinetic oxidation, thin oxides, ,
8 oxidation techniques and systems, oxide properties
9 characterization of oxide films
Lesson Plan
Name of the Faculty:Mr.Pintu
Discipline:B.Tech-ECE
Semester: 6th
Subject: Microelectronics
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 growth and properties of dry and wet oxidation
11 charge distribution during oxidation, oxide characterization,
12 Anomalies with thin oxide regime.
5th week
13 DIFFUSION:
The nature of diffusion, diffusion mechanisms – interstitial, substitution,
14 interstitial-substitution combined, interstitially and grain boundary,
15 Fick’s law of diffusion, limited and constant source diffusion
6th week
16 ,models of diffusion in solid, diffusion equation,
17 atomic diffusion mechanisms, diffusion system for silicon and
18 gallium arsenide. Measurement techniques, experimental analysis of diffused profiles
Lesson Plan
Name of the Faculty:Mr.Pintu
Discipline:B.Tech-ECE
Semester: 6th
Subject: Microelectronics
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 ION IMPLANTATION: Introduction, physics of implantation, range theory, projected range,
20 ion stopping mechanisms- channeling, nuclear stopping, electronic stopping,
21 implantation damage, implantation equipment,
8th week
22 annealing, shallow junction
23 Application to silicon and gallium arsenide, RTA mechanism.
24 Test
9th week
25 LITHOGRAPHY: Pattern generation and mask making, exposure sources, photolithography,
26 photo resists, optical lithography, electron lithography, X-ray lithography,
27 ion lithography, mask defects
Lesson Plan
Name of the Faculty:Mr.Pintu
Discipline:B.Tech-ECE
Semester: 6th
Subject: Microelectronics
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 atomic force microscopy based lithography system,
29 dip pen lithography system.
30 Assignment
11th week
31 DEPOSITION: Need for film deposition, film deposition methods- physical and chemical,
32 deposition processes, CVD techniques for deposition of polysilicon,
33 slicon dioxide, silicon nitride and metal films
12th week
34 sputter deposition, sputter unit
35 Epitaxy –types, techniques,
36 advantages, vapor phase epitaxy, molecular beam epitaxy.
Lesson Plan
Name of the Faculty:Mr.Pintu
Discipline:B.Tech-ECE
Semester: 6th
Subject: Microelectronics
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 ETCHING: Directionality and selectivity issues, wet chemical etching, wet etchants, dry physical etching,
38 dry etchants, plasma etching, advantages and disadvantages, issues involved,
39 dry etching systems, dry chemical etching, reactive ion etching,
14th week
40 Etching induced damage, cleaning. .
41 METALLIZATION: Introduction, metallization applications, ,
42 metallization choices,
15th
43 physical vapor deposition, patterning
44 metallization problems
45 Test
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 6th
Subject: HDL Based System Design
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1 System: Definition,
Introduction to digital system
1 Design all Basic gates using
HDL 2
Design issues of digital
system
3 Computer-aided design tools
for designing of digital
systems
2nd week
4 Hardware description
languages
2 Design Universal gates using
HDL 5 Simulation and synthesis.
6 PLA, PAL, ROM
3rd week
7 CPLDs and FPGA
3
VHDL programs for half
adder and full adder circuits,
check the wave forms and the
hardware generated
8 Introduction to VHDL, entity
and architecture declaration
9 Data objects, classes and data
types
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 6th
Subject: HDL Based System Design
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10 Operators, overloading,
logical operators
4
VHDL programs for
multiplexer & demultiplexer
circuits, check the wave forms
and the hardware generated
11 Types of delays
12 Behavioural, Dataflow and
structural models.
5th week
13 Assignment statements
5
VHDL programs for encoder
and decoder, check the wave
forms and the hardware
generated
14 Sequential statements and
process
15 conditional statements,
Generate statement, case
statement
6th week
16 Array and loops, resolution
functions
6
VHDL program for a
comparator and check the
wave forms and the hardware
generated
17 Concurrent Statements
18 Packages and libraries,
subprograms
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 6th
Subject: HDL Based System Design
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19 Application of functions and
procedures
7
VHDL program for a code
converter and check the wave
forms and the hardware
generated
20 Structural modeling
21 component declaration
8th week
22 Structural layout and
generics
8
VHDL program for a FLIP-
FLOP and check the wave
forms and the hardware
generated
23 configuration statement
24 Test Benches
9th week
25 ALIAS
9 VHDL program for a counter
and check the wave forms and
the hardware generated
26 Generate statement
27 VHDL models and
simulation of combinational
circuits such as multiplexers
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 6th
Subject: HDL Based System Design
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28 Demultiplexers
10
VHDL programs for Register,
Shift register,check the wave
forms and the hardware
generated
29 Encoders
30 Decoders
11th week
31 Code converters
11 Implement any three (given
above) on FPGA kit 32 Comparators
33 Implementation of boolean
functions
12th week
34 VHDL models and
simulation of sequential
circuits flip flops
12
Implement any three (given
above) on CPLD kit.
35 Shift registers
36 Counters
Lesson Plan
Name of the Faculty: Ms. RITIKA
Discipline: B.Tech_ECE
Semester: 6th
Subject: HDL Based System Design
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37 Introduction to FSM
13 38 VHDL models and
simulation of FSM
39 Basic components of a
computer
14th week
40 Specifications
14 41 Architecture of a simple
computer system
42 Design of ALU
15th week
43 Memory unit
15 44 design implementation using
CPLDs
45 Design implementation using
FPGA
s
Lesson Plan
Name of the Faculty: Sonia Dahiya
Discipline: B.tech ,ECE
Semester: 6th
Subject: ANTENNA AND WAVE PROPAGATION (ECE304B)
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Introduction, Electromagnetic Wave Equations,
2 Poynting Theorem , Electromagnetic Power,
3 Short Electric Dipoles Retarded Vector Potential,
2nd week
4 Radiation from a Small Current Element
5 CURRENT ELEMENT CHARACTERISTICS:
6 Power Radiated by a Current Element and Its Radiation Resistance
3rd week
7 Radiation from a Half Wave Dipole
8 Radiation Patterns
9 , Radiation Power Density, Radiation Intensity
Lesson Plan
Name of the Faculty:
Discipline:
Semester:
Subject:
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 Doubt class from unit 1
11 Doubt class from unit 1
12 Antenna Pattern, Antenna Parameters
5th week
13 Front To Back Ratio, Gain,
14 Directivity, Radiation Resistance
15 Efficiency, Aperture Area, Impedence,
6th week
16 Effective Length and Beam width
17 Reciprocity Theorem for Antenna and Its Applications
18 Impedance Measurements,
Lesson Plan
Name of the Faculty:
Discipline:
Semester:
Subject:
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Radiation Pattern Measurement, Beam width Measurement
20 Phase And Current, Radiation Resistance
21 , Directivity And Polarisation Measurement
8th week
22 Doubt class of 2unit
23 Introduction,Isotropic,Yagi-Uda,Biconical
24 ,Helical,Horn,Slot,Parabolic Feeds, Conical,
9th week
25 Log Periodic, Microwave and Patch Antenna.
26 Types of Antenna Array
27 Broadside Array, End Fire Array, Collinear Array
Lesson Plan
Name of the Faculty:
Discipline:
Semester:
Subject:
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Parasitic Array, array of point sources, pattern multiplication
29 Linear Array, Phased Array
30 Tapering of Arrays, Binomials Arrays,
11th week
31
32
33
12th week
34
35
36
Lesson Plan
Name of the Faculty:
Discipline:
Semester:
Subject:
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37
38
39
14th week
40
41
42
15th
43
44
45
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech -ECE
Semester: 6TH
Subject: MWRE
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1 Characteristic features- advantages and applications
1 To study of Wave guide Components 2 Waveguides- Basic concepts and properties
3 Comparison of Waveguide with transmission lines
2nd week
4 Propagation in TE & TM mode,
2 Generation of Microwave Power & Basic set-up.
5
Rectangular waveguide, TEM mode in rectangular waveguide
6 Introduction to circular waveguides and planar transmission lines.
3rd week
7 Test
3 To Study the characteristic of reflex
klystron 8 Directional Couplers, Tees, Hybrid Ring, Attenuators
9 Cavity resonators, Mixers & detectors, ,
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech -ECE
Semester: 6TH
Subject: MWRE
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10 Matched load, Phase shifter,
4
To measure frequency of Microwave
source and demonstrate relationship
among frequency, free space
wavelength and guide wave length.
11 Isolators, Circulators.
12 Limitations of conventional tubes, Construction, operation
5th week
13 properties and applications of Klystron amplifier, Reflex Klystron
5 To measure VSWR of an unknown load.
14 , Reflex Klystron
15
6th week
16 Magnetron, TWT, BWO
6 To measure large standing wave ratio of
a unmatched load 17 Crossed field amplifiers
18 Assignment
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech -ECE
Semester: 6TH
Subject: MWRE
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19 Principle of operation and applications
of Varactor diode
7 To match impedance for maximum power transfer using slide screw tuner 20
Tunnel diode, Schottky diode, GUNN diode
21 TRAPATT and PIN diodes.
8th week
22 MASER, Parametric amplifiers.
8 To measure VSWR, insertion loss and attenuation of a fixed and variable attenuator
23 Test
24 Measurement of Frequency
9th week
25 Power, VSWR
9 To measure coupling factor and directivity of Directional coupler.
26
Wavelength & Impedance.
27 . Introduction, RADAR principles, development, frequencies
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech -ECE
Semester: 6TH
Subject: MWRE
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28 block diagram and operation and
applications
10 To determine the insertion loss, isolation
of three port circulator 29 Test
30 Simple form of RADAR equation
11th week
31 Prediction of Range Performance
11 To determine the insertion loss, isolation of a isolator.
32 Minimum detectable signal
33 Pulse repletion frequency & range ambiguities
12th week
34 system losses, propagation effects.
12 To study the characteristics of Gunn Diode.
35 Assignment
36 . Block Diagram and operation of
CW
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech -ECE
Semester: 6TH
Subject: MWRE
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37 MTI & Pulsed Doppler RADAR
13 38 Frequency Modulated RADAR
39 The Doppler effect
14th week
40 blind speed, Applications.
14 41 Test
42 Test
15th
43 Test
15 44 Test
45 Test
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: MICROCONTROLLER BASED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1
(UNIT1) INTRODUCTION OF EMBEDDED SYSTEMS: Definition, ingredients of embedded system
1 Study Architecture of 8051 Microcontroller & Power on reset circuit. 2
requirements & challenges of embedded system design
3 different types of microcontrollers: Embedded microcontrollers, external memory microcontrollers etc.
2nd week
4 processor architectures: Harvard V/S Princeton
2
(a) Write an assembly language program to add eight 8-bit numbers. (b)Write an assembly language program to find average of eight 8-bit numbers.
5 CISC V/S RISC
6 microcontrollers memory types
3rd week
7 microcontrollers features: clocking, i/o pins
3
(a) Write an assembly language program to find a maximum number from a given 8-bit ten numbers. (b) Write an assembly language program to find a minimum number from a given 8-bit ten numbers.
8 microcontrollers features: interrupts, timers, and peripherals.
9 (Cont.)microcontrollers features: interrupts, timers, and peripherals.
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: MICROCONTROLLER BASED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10
(UNIT1) SOFTWARE FOR EMBEDDED SYSTEM DESIGN: Development tools/ environments,
Assembly language programming style
4 Arrange the given ten 8-bit numbers in ascending order.
11 Interpreters, High level languages
12 Intel hex format object files, Debugging.
5th week
13 (UNIT2) 8051 MICROCONTROLLER: Pin diagram explanation
5 Generate a square wave of 10kHz at P1.0 Crystal frequency is XXXX.
14 internal diagram 8051
15 Instruction Set
6th week
16 Addressing mode
6 Write a program to transfer data from given memory block B1 to block B2.
17 data transfer instruction, logical
18 arithmetic instruction, bit instruction, branching instruction.
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: MICROCONTROLLER BASED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19
(UNIT2) TIMERS, SERIAL INTERFACE & INTERRUPTS OF 8051 MICROCONTROLLER: Timer: Control Word
7 Interface LED and switch with microcontroller 8051 or PIC.
20 mode of timers.
21 simple programming, generation of square wave
8th week
22 Serial interface: Introduction, Control Word
8 Interface seven segment display with microcontroller 8051 or PIC.
23 mode of serial interface, simple programming
24 Interrupts: Introduction, Control word Simple Programming
9th week
25 generation of waveforms using interrupt
9 Interface LCD with microcontroller 8051 or PIC
26 serial interface using interrupt
27
(UNIT3) PIC MICROCONTROLLER: Introduction to PIC microcontrollers.
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: MICROCONTROLLER BASED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28 features of PIC family microcontrollers
10 Interface DC motor with microcontroller 8051 or PIC and control speed using PWM.
29 architecture and pipelining
30 program memory considerations, addressing modes
11th week
31 CPU registers
11 32 Instruction set, and simple operations
33 (UNIT3) FEATURES OF PIC
MICROCONTROLLER: Timer: Control
Word,
12th week
34 mode of timers,
12 35
simple programming, generation of square
wave,
36 Watch-dog timer, Serial interface:
Introduction, Control Word, mode of serial
interface, simple programming,
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 6TH
Subject: MICROCONTROLLER BASED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37 Interrupts: Introduction, Control word
Simple Programming
13
38 generation of waveforms using
interrupt, serial interface using interrupt.
39
(UNIT4) APPLICATIONS BASED ON 8051 MICROCONTROLLER: Interfacing of memory
14th week
40 intelligent LCD, 8255
14 41 ADC, DAC, LED display
42 Memory Card, Bio-metric system
15th
43
(UNIT4) APPLICATION BASED ON
PIC MICROCONTROLLERS:
Interfacing of Graphical Display,
Memory Card
15 44
Bio-metric system Music box,
Applications like Mouse wheel turning,
PWM motor control, ultra sonic distance
measuring
45 Temperature Sensor, Pressure
Sensor, Magnetic Field Sensor
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 8TH
Subject: EMBEDDED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 (UNIT1 ) INTRODUCTION OF EMBEDDED SYSTEMS DESIGN: Embedded Systems Design: Definition, Issues
2 Challenges and Trends, Current events and emerging technologies
3 (UNIT1 ) AVR MICROCONTROLLER: Introduction to AVR microcontroller, features of AVR family microcontrollers
2nd week
4 different types of AVR microcontroller
5 architecture
6 memory access and instruction execution
3rd week
7 pipelining, program memory considerations
8 addressing modes, CPU registers
9 Instruction set, and simple operations
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 8TH
Subject: EMBEDDED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 (UNIT2 ) FEATURES OF AVR MICROCONTROLLER: Timer: Control Word, mode of timers
11 simple programming, generation of square wave
12 Interrupts: Introduction, Control word Simple Programming
5th week
13 generation of waveforms using interrupt
14 serial interface using interrupt
15 (UNIT2 ) SPECIAL FEATURES OF AVR MICROCONTROLLER: Watch-dog timer
6th week
16 Power-down modes of AVR microcontroller
17 UART
18 SRAM
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 8TH
Subject: EMBEDDED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 (UNIT3 ) APPLICATIONS BASED ON AVR MICROCONTROLLER: Applications based on RF Card
20 Graphical LCD, Color LCD, Zigbee
21 DTMF, GSM
8th week
22 GPS, Smart Card
23 RF ID, Touch Screen, Bluetooth
24 (UNIT3 ) COMMUNICATION INTERFACE WITH AVR MICROCONTROLLER: RS-232, RS-485,
9th week
25 SPI, IIC
26 ISA
27 CAN
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 8TH
Subject: EMBEDDED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 (UNIT4 ) SOFTWARE REQUIREMENTS FOR EMBEDDED SYSTEMS DESIGN: Assemblers, Compilers,
29 Linkers, Loaders
30 Debuggers
11th week
31 Profilers
32 Test Coverage Tools Utilities like make, ranlib, obj copy and obj dump,
33 Test Coverage Tools Utilities like make, ranlib, obj copy and obj dump,
12th week
34 Configuring GNU Cross-Tool chain Building RTOS / EOS Image for Target Hardware.
35 Building GNU Cross-Tool chain Building RTOS / EOS Image for Target Hardware.
36 Building GNU Cross-Tool chain Building EOS Image for Target Hardware.
Lesson Plan
Name of the Faculty: RINKI
Discipline: ECE
Semester: 8TH
Subject: EMBEDDED SYSTEM DESIGN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 (UNIT4 ) OPERATING SYSTEM FOR EMBEDDED SYSTEM: Embedded Operating Systems
38 Real Time Operating System (RTOS)
39 Writing Time and Space Sensitive Programs
14th week
40 ,Writing Device Drivers
41 Interrupt Handling in C
42 Combining C with Assembly
15th
43 Revision
44 Revision
45 Revision
Lesson Plan
Name of the Faculty:Mukesh kumari
Discipline:B.Tech -ECE
Semester:8th
Subject:Wireless communication system
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Evolution of Mobile Radio Communications : Introduction, First Generation (1G), Second Generation (2G), Generation (2.5G)
2 Second Generation (2G), Generation (2.5G) ,Third Generation (3G),
3 Evolution from 2G To 3G, Fourth Generation (4G), Examples of Wireless Communication Systems
2nd week
4 Difference Between Fixed Telephone Network and Wireless Telephone Network
5 Wireless Local Loop [WLL], Wireless Local Area Networks (WLAN) , Personal Area Network(PAN), Bluetooth.
6 Test
3rd week
7 Introduction, Frequency Reuse, Channel Assignment Strategies
8 , Hand-Off Strategies, Interference and System Capacity
9 Trunking and Grade of Service, Improving Coverage and Capacity in Cellular Systems.
Lesson Plan
Name of the Faculty:Mukesh kumari
Discipline:B.Tech -ECE
Semester:8th
Subject:Wireless communication system
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 Introduction to Radio Wave Propagation
11 Free Space Propagation Model
12 Assignment
5th week
13 Practical Link Budget Design Using Path Loss Models, Outdoor Propagation Models,
14 Indoor Propagation Models, Signal Penetration into Buildings
15 Small Scale Multipath Propagation, Impulse Response Model of a Multipath Channel
6th week
16 Small Scale Multipath Measurements,
17 Parameters of Mobile Multipath Channels
18 Types of Small Scale Fading, Rayleigh and Ricean Distributions.
Lesson Plan
Name of the Faculty:Mukesh kumari
Discipline:B.Tech -ECE
Semester:8th
Subject:Wireless communication system
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Fundamentals of Equalization, Equalizer in a Communication Receiver
20 Linear Equalizer, Non Linear Equalization
21 Diversity Techniques, Rake Receiver, Interleaving
8th week
22 Test
23 Introduction, Frequency Division Multiple Access (FDMA).
24 Time Division Multiple Access (TDMA )
9th week
25 Spread Spectrum Multiple Access
26 Space Division Multiple Access (SDMA), Capacity of Cellular System.
27 Introduction to Wireless Networks, Development of Wireless Networks
Lesson Plan
Name of the Faculty:Mukesh kumari
Discipline:B.Tech -ECE
Semester:8th
Subject:Wireless communication system
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Traffic Routing in Wireless Networks
29 Wireless Data Services, Common Channel Signaling
30 Assignment
11th week
31 Integrated Services Digital Network (ISDN), Signalling System No.7(SS 7),
32 Personal Communication Services/Networks.(PCS/PCN)
33 Test
12th week
34 Test
35 Test
36 Test
Lesson Plan
Name of the Faculty:Mukesh kumari
Discipline:B.Tech -ECE
Semester:8th
Subject:Wireless communication system
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day Topic (including
assignment /test )
13th week
37 Global System for Mobile (GSM)
38 Cdma Digital Cellular Standard(IS-95),
39 GPRS,EDGE,W-Cdma,Cdma2000
14th week
40 Test
41 Test
42 Test
15th
43 Test
44 Test
45 Test
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline:B.Tech –ECE
Semester: 8th
Subject: DCN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
1st week
1
Data Communication and Networks: Components,DataRepresentation,DataFlow,
Guided and Unguided
1 To study different types of transmission media
2 Media
3 DistributedProcessing,NetworkCriteria
2nd week
4 PhysicalStructure,NetworkModels,
2 To study Quadrature Phase Shift Keying Modulation
5 Category of Networks
6 Data and Signals: Analog and Digital Data,Analog and
Digital Signals
3rd week
7 ,Periodic and Non Periodic Signals,Transmission
3 To study Quadrature Amplitude Modulation
8 Impairments- Attenuation,Distortion,Noise,Performancebandwidth,
9
Throughput,Latency,Bandwidth-Delay Product,Jitter
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline:B.Tech –ECE
Semester: 8th
Subject: DCN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
4th week
10 Latency,Bandwidth-Delay Product,Jitter
4 To Study 16 Quadrature Amplitude Multiplexing 11 Bandwidth-Delay Product,Jitter
12 Test
5th week
13 Digital Transmission: Digital to digital Conversion-Line Coding,
5
To Study Serial Interface RS-232 and its applications. .
14 Line Coding
Schemes,BlockCoding
15 Scrambling,
6th week
16 Transmission modes-
6 To study the Parallel Interface Centronics and its applications
17 Parallel Transmission
18 Serial Transmission
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline:B.Tech –ECE
Semester: 8th
Subject: DCN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
7th week
19
Multiplexing Frequency Division
Multiplexing,
7
To configure the modem of a
computer.
20 Assignment
21 Wavelength division Multiplexing,
8th week
22 Synchronous Time division multiplexing,
8
To make inter-connections in
cables for data communication in LAN.
23 Statistical Time Division multiplexing
24 Test
9th week
25
Switching: Circuit Switched Networks-
Three Phases,EfficiencyDelay,
9 To install LAN using Tree
topology. 26
Datagram Networks-Routing table,
27 Efficiencydelay,
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline:B.Tech –ECE
Semester: 8th
Subject: DCN
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
10th week
28 Virtual Circuit Networks-Addressing ,
10
To install LAN using STAR topology.
29 Three Phases,Efficiency,,
30 Delay in Virtual Circuit Networks
11th week
31
Data Link Control Framing-Fixed Size Framing,Variable Sized framing,
11
To install LAN using Bus topology.
32 Error Control-Flow Control,,
33 Flow and errorcontrol,Protocols
12th week
34 ;Noiseless Channels-Simplest
protocol,stop and Wait Protocol,Noisy Channels-,
12 To install LAN using Token-Ring topology
35
Stop and Wait Automatic Repeat Request,Go Back n
Automatic Repeat request,
36 Selective Repeat Automatic Repeat request,PiggyBacking
Lesson Plan
Name of the Faculty: Mr.Pintu
Discipline: M.Tech –ECE
Semester: 2nd
Subject: Advance Optical Communication
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03, Practical-02
Week
Theory Practical
Lecture Day
Topic (including assignment /test )
Practical Day
Topic
13th week
37
Network Models: Layered Tasks -Sender,receiver and Carier,The OSI Model-Layered,
13
To install WIN NT
. 38
Architecture,Peer to peer processes,Encapsulation,
39 Layers in the OSI Model-Physical Layer,data Link layer,Networklayer,transportlayer
14th week
40 Sessionlayer,Presentationlayer,applicationlayer,Summary of layers,
14
To cofigure a HUB/Switch.
41 Introduction to TCP-IP and Internetworking
42 Wired Lans-Ethernet: IEEE Standards-Data Link Layer,Physicallayer,
15th
43 Standard Ethernet -Mac Sublayer,
44 Physicallayer,Changes in the standard bridged Ethernet,
45 SwitchedEthernet,full duplex Ethernet,fast
Ethernet-Mac sublayer,Physical layer
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech- ECE
Semester: 8th
Subject: RADAR & SONAR
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
1st week
1 Radar Block Diagram & operation
2 Radar Frequencies
3 Radar development
2nd week
4 Application of Radar
5 Test
6 Simple form of Radar Equation, Prediction of Range performance.
3rd week
7 Minimum detectable signal, Receiver noise
8 Signal to Noise ratio, Transmitter Power
9 Pulse repetition frequency & range ambiguities, System losses
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech- ECE
Semester: 8th
Subject: RADAR & SONAR
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
4th week
10 Propagation effects.
11 Test
12 The Doppler effect, CW Radar
5th week
13 Frequency-modulated CW Radar,
14 Multiple Frequency CW Radar
15 Assignment
6th week
16 Introduction, Delay Line Cancellors, Multiple or staggered
17 Pulse repetition frequencies, range-Gated Doppler Filters
18 Digital Signal Processing, Other MTI delay line, Limitation of MTI performance
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech- ECE
Semester: 8th
Subject: RADAR & SONAR
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
7th week
19 Noncoherent MTI, Pulse Doppler Radar
20 MTI from a moving platform.
21 Test
8th week
22 Tracking with Radar
23 Sequential Lobbing, Conical Scan
24 Monopulse Tracking Radar
9th week
25 Tracking in range, Acquisition
26 Assignment
27 Radar Receivers, Noise Figure
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech- ECE
Semester: 8th
Subject: RADAR & SONAR
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
10th week
28 Low-noise Front ends
29 Displays, Duplexer
30 Receiver protectors
11th week
31 History of sonar,underwaterpropagation
32 sound velocity profile
33 propagationmode,multipaths
12th week
34 Types of sonar system:activ
35 generic active and passive.
36 Test
Lesson Plan
Name of the Faculty:Mukesh Kumari
Discipline:B.Tech- ECE
Semester: 8th
Subject: RADAR & SONAR
Lesson Plan Duration: 15 Week (January, 2018 to April, 2018
Work Load (Lecture/Practical) per week (in hours): Lectures-03
Week
Theory
Lecture Day
Topic (including assignment /test )
13th week
37 Basic Types of noise in sonar system
38 Detection of acoustic energy using sonar:detectioncriterion,.
39 Test
14th week
40 sonar system performance,figure of merit;Sonar transducers.
41 Test
42 Test
15th
43 Test
44 Test
45 Test