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Course Objective
Semester |
Name of the subject |
Subject Code |
2ND SEM |
BASIC ELECTRONICS ENGINEERING |
RBL2B002 |
Course Objectives:
This course provides the student with the fundamental skills
To understand the basic of semiconductor and components like diode, transistor, FET, MOSFET and operational amplifier
It will build mathematical and numerical background for design of electronics circuit & component value.
Course outcomes (CO):
CO1: To study basics of semiconductor & devices and their applications in different areas.
CO2: To study different biasing techniques to operate transistor , FET , MOSFET and operational amplifier in different modes.
CO3: Analyze output in different operating modes of different semiconductor devices.
CO4: Compare design issues, advantages, disadvantages and limitations of basic electronics
Semester |
Name of the subject |
Subject Code |
3rd SEM |
Signal & System |
REC3C002 |
Course Objective:
· To describe signals mathematically and understand how to perform mathematical operations on signals.
· It will provide knowledge of Digital filter.
· To discuss word length issues ,multi rate signal processing and application.
Course Outcomes:
After the completion of the course the student will be able to:
CO1: Illustrate digital signals, systems and their significance.
CO2: Analyse the digital signals using various digital transforms DFT, FFT etc.
CO3: Design and develop the basic digital system.
CO4: Interpret the finite word length effects on functioning of digital filters.
Semester |
Name of the subject |
Subject Code |
3rd SEM |
Analog Electronics Circuit |
REC3C001 |
Course Objective:
1. This course is designed for the III semester students. This course is intended to develop an understanding of small signal amplifier design using linear transistor models, and its analysis at low and high frequencies, including different feedback topologies and oscillators.
2. The course also indulges power amplifiers, tuned amplifiers and behavior of noise in an amplifier
Course Outcomes:
After completion of the course, a student would be acquainted with the following:
CO1: Design and analysis of CE, CB, CC amplifiers using small signal h-model and pi- model and derivation of voltage gain, current gain, input impedance and output impedance.
CO2: Design and analysis of RC coupled single stage and multistage amplifiers and their frequency responses.
CO3: The effects of coupling and bypass capacitors in amplifiers , Design and analysis of common source FET amplifier and its frequency response, Design and analysis of negative feedback amplifiers and oscillators.
CO4: Design and analysis of different types of power amplifiers and tuned amplifiers, Behaviour of noise in an amplifier.
Semester |
Name of the subject |
Subject Code |
4th SEM |
ELECTRO MAGNETIC THEORY |
REC4C001 |
Course Objectives:
· To introduce various co-ordinate system and review of Maxwell’s equations.
· To familiarize the students about the electric field in material space and learn to solve boundary value problems
· To expose the students to various concepts and properties of magneto-static field
· To identify, formulate and solve fields and electromagnetic waves propagation proble
Course Outcomes (COs):
At the end of the course the student should be able to:
CO1: Illustrate the physical concepts of static electric fields.
CO2: Describe the physical concepts of static magnetic fields.
CO3: Apply the maxwell equations to solve problems in electromagnetic field theory.
CO4: Analyze the propagation of wave in different media
CO5: Determine the parameters of transmission lines for various frequencies
Semester |
Name of the subject |
Subject Code |
4th SEM |
DIGITAL SYSTEM DESIGN |
REC4C002 |
Course Objectives:
1.To know the concepts of Combinational circuits.
2.To understand the concepts of flipflops, registers and counters
Course Outcomes (COs):
CO1: Learn the basics of gates.
CO2: Construct basic combinational circuits and verify their functionalities
CO3: Apply the design procedures to design basic sequential circuits
CO4: Learn about counters
CO5: Learn about Shift registers
CO6: To understand the basic digital circuits and to verify their operation
Semester |
Name of the subject |
Subject Code |
4th SEM |
Semiconductor device |
REC4D001 |
Course Objectives:
1.To introduce the operation of semiconductor devices
2.To provide the knowledge about number system, arithmetic operation and sequential codes of digital electronic circuits
3.To introduce the fundamental concepts and working principle of JT, JFET, FET, MOSFET
4.To provide the understanding of basic Boolean laws, K-maps, SOP and POS method to design logic circuits and different class of digital circuits like unipolar, bipolar logic families -DTL, RTL,
Course Outcomes (COs):
On completion of the course, student will be able to
CO1: Demonstrate and analyse the behaviour of semiconductor devices
CO2: To get an insight about the operation of JT, JFET, MOSFET in order to design the basic circuits
CO3: Develop the digital logic to analyse the problems of number system and arithmetic operation
CO4: Solve the sequential codes based problems of digital electronics
CO5: Demonstrate the ability to use basic Boolean laws, K-maps and SOP, POS methods
CO6: Ability to understand and analyse the unipolar and bipolar families like PMOS, NMOS, DTL, RTL and DCTL
Semester |
Name of the subject |
Subject Code |
5th SEM |
DIGITAL VLSI DESIGN |
REC5D006 |
Course Objective:
·To learn basic CMOS Circuits.
·To learn CMOS process technology
·To learn techniques of chip design using programmable devices.
·To learn the concepts of designing VLSI Subsystems.
Course Outcomes (COs)
CO1: Identify the various IC fabrication methods.
CO2 : Express the Layout of simple MOS circuit using Lambda based design rules.
CO3 : Apply the Lambda based design rules for subsystem design
CO4 : Differentiate various FPGA architectures.
CO5 : Design an application using Verilog HDL.
CO6 : Concepts of modeling a digital system using Hardware Description Language.
Semester |
Name of the subject |
Subject Code |
5th SEM |
FIBER OPTICS & OPTO ELECTRONICS DEVICES |
REC5D001 |
Course Objective:
·To learn the basic elements of optical fiber transmission link, fiber modes configurations and structures.
·To understand the different kind of losses, signal distortion, SM fibers.
·To learn the various optical sources, materials and fiber splicing
·To learn the fiber optical receivers and noise performance in photo detector.
·To learn link budget, WDM, solitons and SONET/SDH net
Course Outcomes (COs)
CO1: Demonstrate an understanding of optical fiber communication link, structure, propagation and transmission properties of an optical fiber.
CO2: Estimate the losses and analyze the propagation characteristics of an optical signal in different types of fibers
CO3: Describe the principles of optical sources and power launching-coupling methods.
CO4: Compare the characteristics of fiber optic receivers
CO5: Design a fiber optic link based on budgets CO6: To assess the different techniques to improve the capacity of the system.
Course Code |
Course Name |
Semester |
REC5C003 |
MICROPROCESSORS & MICROCNTROLLERS |
5TH |
Course Objective:
- To provide solid foundation on the fundamentals of Microprocessor and application.
- Interfacing the external devices to the processor
Course Outcomes:
CO1: Understand the basic architecture of 8085
CO2: Understand the basic architecture of 8086
CO3: Impart the knowledge about instruction set.
Semester |
Name of the subject |
Subject Code |
5th SEM |
Analog and Digital Communication |
REC5C002 |
Course Objective:
- To analyze and design various continuous wave Amplitude modulation and demodulation techniques.
- To understand the concept of Angle modulation and demodulation, and the effect of noise on it.
- To attain the knowledge about the functioning of different AM, FM Transmitters and Receivers.
- To analyze and design the various Pulse Modulation Techniques (Analog and Digital Pulse Modulation)
- To understand the concepts of Digital Modulation Technique, Baseband transmission and Optimum Receiver.
Course Outcomes:
After completion of the course, a student would be acquainted with the following:
CO1: Analyze and Design various continuous wave Amplitude modulation and demodulation Techniques.
CO2: Understand the concept of Angle modulation and demodulation, and the effect of noise on it.
CO3: Attain the knowledge about the functioning of different AM, FM Transmitters and Receivers.
CO4: Analyze and design the various Pulse Modulation Techniques (Analog and Digital Pulse modulation)
CO5: Understand the concepts of Digital Modulation Technique, Baseband transmission and Optimum Receiver
Semester |
Name of the subject |
Subject Code |
7th SEM |
RADAR & TV |
REC7D006 |
Course Objectives:
·To study the principles of operation of various blocks of Radar systems and Radar Range equation in detail.
·To study the functions of various blocks of CW Radar, FM-CW Radar, MTI and Pulse ,Doppler Radars, Tracking radar and their limitations and applications.
·To study the functions of various blocks of Radar receivers and detection of Radar signals in noise in detail.
·To study the principles and working of phased array antennas and their application
Course Outcomes (COs)
CO1: Compare working of different types of radars.
CO2: Analyze the statistical parameters of Noise and Radar cross section of targets
CO3: Distinguish the fixed and moving targets using different types of radar systems
CO4: Explain various techniques employed in radar receivers for detection of signals in noise.
CO5: Observe the variation in parameters of radar system by the estimation of noise figure & noise temperature
CO6: Identify the different types of display devices & duplexers
Semester |
Name of the subject |
Subject Code |
7th SEM |
DIGITAL IMAGE PROCESSING |
REC7D001 |
Course Objective:
·To study the image fundamentals and mathematical transforms necessary for image processing.
·To study the image enhancement techniques
·To study image restoration procedures.
·To study the image compression procedures.
Course Outcomes (COs)
CO1: Review the fundamental concepts of a digital image processing system.
CO2 : Analyze images in the frequency domain using various transforms.
CO3 : Evaluate the techniques for image enhancement and image restoration.
CO4 : Categorize various compression techniques.
CO5: Interpret Image compression standards.
CO6 : Interpret image segmentation and representation techniques.