Electronics & Communication Engineering In Bhopal
Department of Electronics & Communication
Electronic and Communication Engineering is a four years course having eight semesters. It is a professional Engineering Degree in “Electronic & Communication Engineering” awarded in India.
The course is designed to meet the always growing demand for qualified professionals in the field of both Software and Hardware.
It covers various aspects of Computational Theory, Programming, Algorithm Design and Optimization, Network, Mobile Technologies, Electronics, Mathematics and probability etc.
Lab Details
• Electronic Devices & Circuits Lab
• Digital Electronics Lab
• Microprocessor and Microcontroller Lab
• Digital Signal Processing Lab
• Antenna and Microwave Engineering Lab
• Computer Lab
• VLSI Design Lab
• Analog / Digital Communication Lab
• Optical fiber Communication Lab
• Embedded System Lab
• IOT Lab
• Network Analysis Lab
• Communication network &Transmission line Lab
• Project Lab
• E YANTRA Lab
ELECTRONICS & COMMUNICATION ENGINEERING COURSE OUTCOMES

EC302 Electronic Measurement & Instrumentation
CO 1: After undergoing the course the student can select appropriate device for the measurement of parameters like Voltage, Current,Power,temperature etc. and justify its use through characteristics and performance.
CO 2: Identify the various types of Transducers and their use in electronic instrumentation.
CO 3: Identify and know the advantages and disadvantages of digital and analog instruments.
CO 4: Practice the construction of testing and measuring set up for electronic systems.
CO 5: To have a deep understanding about instrumentation concepts .

EC303 Digital System Design
CO 1: Illustrate the basic of logic gates and their realization using universal gates.
CO 2: Develop a digital logic and apply it to solve real life problems.
CO 3: Analyze, design and implement combinational logic circuits.
CO 4: Classify different semiconductor memories.
CO 5: Analyze, design and implement sequential logic circuits.

EC304 Electronic Devices
CO 1: Understand and relate the terminal characteristics to material parameters(such as Geometry, doping, Energy gap, mobility , life time & dielectric constant)and ambient conditions( Temperature & illumination) .
CO 2: Understand the concept of Energy band diagram so that students would able to draw energy band diagram for different types of Electronic devices like PN junction, BJT & MOSFET & Analyze dc circuits and relate ac models of semiconductor devices with their physical operation.
CO 3: Understand the concept of DC analysis and AC analysis of different types of Amplifier circuit with BJT & MOSFET in designing of amplifier,Electronic circuits can be analyse with Pspice, Microcap II , breadboard or on Circuit simulator.
CO 4: To design simple BJT & MOSFET Circuits using Bread board & analyze the result of different types of biasing on circuit simulator
CO 5: Know about the multistage amplifier using BJT and FET in various configuration to determine frequency response and concept of voltage gain & also Know about different power amplifier circuits, their design and use in electronics and communication circuits

EC305 Network Analysis
CO 1: Articulate in working of various components of a circuit.
CO 2: Solve the problems choosing the most suitable method.
CO 3: Solve the circuits with the help of various theorems and methods.
CO 4: Analyze the performance of periodic waveforms.
CO 5: Solve the problems of two port network parameters (Z, Y, ABCD, h & g).

EC402 Signal & Systems
CO 1: Student Understand here how to representation various signals , systems & their properties in discrete & continous time domain.
CO 2: Student Understand here how to represent any LTI system in block diagram form , its impulse response & its properties.
CO 3: Students learn about how to calculate Z transform, inverse Z transform of various discrete sequence ,ROC & their various properties.
CO 4: Student learn how to calculate fourier series, fourier transform of different discrete time signals.
CO 5: Student learn about state space analysis & how to evaluate spectrum of sampled signals using sampling theorem & its reconstruction.

EC403 Analog Communication
CO 1: Student learn about Frequency domain representation of signal, Fourier transform and its properties, Convolution theorem
CO 2: Student learn about Need for modulation, Baseband and Pass band signals,Different types of Amplitude Modulations
CO 3: Studen learn about different types of angle modulation, narrowband FM,wideband FM, its frequency spectrum
CO 4: Student learn about AM transmitter& receiver, Tuned radio receiver &super heterodyne receiver.
CO 5: "Student learn about Sources of noise, Noise figure and Noise temperature, Noise
bandwidth, Noise figure measurement" 
EC404 Control System
CO 1: Student learn about block digram represention, reduction technique,signal flow graph, transfer function of various control system & effect of feedback on open & closed loop system
CO 2: "Student analysing time response & time domain stability using different technique in open loop & closed loop system.
CO 3: Student understand how to draw frequency reponse of different control system in bode plot & stability analysis using nyquist criteria.
CO 4: student understand about different compensation technique used in different controllers.
CO 5: Student learn about to state space representation of control system & solution of state equation .

EC405 Analog Circuits
CO 1: Student learn about different negative feedback topology & concept of positive feedback in oscillators
CO 2: Student learn about construction ,characteristics of opamp
CO 3: Student can design different applications of opamp
CO 4: Student can understand cinstruction of 555 timer & design its application.
CO 5: Student can learn about various voltage regulator ICs

EC501 Microprocessor & Its Applications
CO 1: Apply a basic concept of digital fundamentals to Microprocessor based personal computer system.
CO 2: Identify a detailed s/w & h/w structure of the Microprocessor.
CO 3: Illustrate how the different peripherals (8255, 8253 etc.) are interfaced with Microprocessor.
CO 4: Design interface between 8086 microprocessor and peripheral devices such as 8255 programmable input output port, 8257 DMA controller, 8254 programmable interval timer and USART.
CO 5: Analyze the data transfer information through serial & parallel ports, train their practical knowledge through laboratory experiments.

EC502 Digital Communication
CO 1: Able to analyze sampling, quantization in digital transmission, PAM, PCM, companding,DPCM, Adaptive Modulation Model a digital communication system
CO 2: To acquire the basic knowledge of Digital communication including source coding, channel coding, modulation and equalization techniques as per the channel capacity requirements over various channels.
CO 3: Application of digital communication techniques in recent standards and systems. Obtain the power spectra of digital modulated signals
CO 4: Compute probability of error and inter symbol interference from eye diagram in data transmission. Able to understand the concepts of signal, geometrical representation of signal and the performance of digital communication system in the presence of noise.
CO 5: Design encoder and decoder schemes for error control .

EC503 Mobile Communication
CO 1: Discuss cellular radio concepts & Identify various propagation effects.
CO 2: Classify multiple access techniques in mobile communication.
CO 3: Analyze various methodologies to improve the cellular capacity
CO 4: Understand GSM, CDMA concepts, architecture, frame structure, system capacity and services.
CO 5: Understand evolution of mobile communication generations 2G, 2.5G, and 3G with their characteristics and limitations.

EC504 Electromagnetic Theory
CO 1: Students will be able to learn the concepts of orthogonal coordinate system & vector calculas to solve problems of electric & magnetic field.
CO 2: Understand the formulation of maxwell's equation based on gauss law ,faraday's law & displacement current .
CO 3: Apply the principles of electrostatics & magnetostatic to the solutions of problems relating to potential, boundary conditions and energy density in electric & magnetic field.
CO 4: To study uniform plane wave propagation in different media , soultion of wave equation and wave polarization,pointing vector theorem .
CO 5: To study & calculate field component of em wave at normal & oblique incidence of two media.

EC601 Digital Signal Processing
CO 1: Student understand how to represent discrete time system analysis of discretetime linear timeinvariant systems,discrete time systems described by difference equation
CO 2: Student understand the Z transform its propertiesm inverse Z transform of linear time invarient system & analysis.of linear timeinvariant systems in the z domain
CO 3: Student Learn about discrete fourier series, discrete Fourier transform & its properties in two dimension.
CO 4: Student Learn about Efficient Computation of the DFT (FFT Algorithm).
CO 5: "Student understand how they have to design various of IIR & FIR Filter using different technique like Impulse invariant and bilinear transformation, windowing
techniques." 
EC602 Antennas & Wave Propagation
CO 1: Student understand how the radiation pattern of antenna varies according to length of dipole in near field & far field region.
CO 2: Student learn about network theorem ,pattern multiplication theorem , binomial array ,linear array of antenna & its effect on radiation pattern.
CO 3: Student learn about different types of antenna like directional antenna,omni directional antenna, lens antenna long wire antenna etc.
CO 4: Student learn about how radiation take place through aperture antenna & slotted antenna when it is feeded with different feeding structure.
CO 5: Student understand about the propogation behaviour of Electromagnetic Wave in Different areas of earth (ground,space,sky) & wave propogation mechanism.

EC603(A) Data Communication
CO 1: Student understand the fundamental of Data communication & different topolies used in transmission.
CO 2: Student understand the working of different layers of OSI Model, Transmission impairment , Circuit switching technique .
CO 3: Student Understand about error control & data link protocol. Types of errors – Detection – Vertical Redundancy Check (VRC) – Longitudinal Redundancy Check (LRC) – Cyclic Redundancy Check .
CO 4: Student understand the working of LAN, MAN, VAN, Network setup for Data communication.
CO 5: Student understand the working of different Networking Device, routing algorithm , & TCP/IP protocol used in data communication .

EC604(A) Microcontroller & Embedded System
CO 1: Student underestand here how interfacing of microcontroller done with ADC,DAC,RS 232,TIMER etc.
CO 2: Student get an idea of 16 bit/32 bit microcontroller (8096,PICA,DSPIC) arctitecture,instruction set ,registers,ports & Assembly language programming concepts.
CO 3: Student understand the fundamental idea of embedded system,classification ,application & the processor technology used to design a quality embedded system.
CO 4: Student understand the designing concept of embedded system on the basis of different architecture based on memory , instruction set etc.& also detail explanation of different microcontroller based on RISC 7 CISC architecture.
CO 5: Student understand working of various input & output peripheral devices like interrupt controller,pwm, keyboard controller ,ADC etc & its interfacing with microcontroller.

EC7001 Microwave Engineering
CO 1: Student will be able to describe the structure and charactertistics of Microwave components and devices .
CO 2: Student will be able to understand different modes of operation of various RF and Microwave circuits.
CO 3: Student will be able to describe and analyze high frequency circuits and systems.
CO 4: Student will be able to solving complex RF & Microwave communication network design problems.
CO 5: Student will be able to describe and analyze different microwave measurement techniques and instruments.

EC7002 Satellite Communication
CO 1: Student will be able to explain the basics of satellite communication.
CO 2: Student will be able to define orbital mechanics and launch methodologies.
CO 3: Student will be able to describe satellite subsystems .
CO 4: Student will be able to explain satellite access techniques .
CO 5: Student will be able to understand how analog and digital technologies are used for satellite communication networks.

EC7003 Optical Communication
CO 1: Student will be able to recognize and classify the structures of Optical fiber and types.
CO 2: Student will be able to discuss the channel impairments like losses and dispersion.
CO 3: Student will be able to estimate the losses and analyze the propagation characteristics of an optical signal in different types of fibers .
CO 4: Student will be able to apply classify the Optical sources and detectors and to discuss their principle.
CO 5: Student will be able to design a fiber optic link based on budgets.

EC8001 VLSI Design
CO 1: Student Learn IC Fabrication process using NMOS, CMOS , Bipolar technology & hybrid technology & its design rules for different process parameters.
CO 2: Student analysing various active & passive component DIODE MOSFET,BJT Model & noise effect at High Frequency.
CO 3: Student analysing Diode Model , MOSFET MODEL , BJT MODEL at high frequency using Spice.
CO 4: Student study fabrication of differents types of static & dynamic memory using Systolic Arrays , bit Serial Processing& algotronix.
CO 5: Study study IC fabrication technology using Twin Tub method & design rules, latch up & its prevention in CMOS fabriction Process.

EC8002 Advanced Communication Systems
CO 1: Student can learn about spread spectrum modulation ,CDMA, cellular CDMA systems, multi user detection. techniques.
CO 2: Student can learn about principle of OFDM, implementation of transceivers multiple access, multi carrier code division multiple access.
CO 3: Student will understand the Multi antenna system, smart antennas, multiple input multiple output systems, multi user MIMO.
CO 4: Student will learn cognitive transceiver architecture, principle of interweaving, spectrum sensing.
CO 5: Student will learn about fundamentals of relaying & routing , relaying with multiple parallel relays, routing and resource allocation in multi hop networks

EC8003(1) Principles of Management & Managerial Economics
CO 1: Sudent will learn about Management Concept, Administration and Organization . Importance of Management, Characteristics of Management.
CO 2: Sudent will learn about Scientific Management, Process of Management, Levels of Management, Project Management.
CO 3: Student will learn about Decision Making, its types Techniques , Decision making under certainty , under risk.
CO 4: Student will learn about Managerial Economics, Factors Influencing Manager, Micro and Macroeconomics, Theory of the Cost, Firm & Production Function.
CO 5: sudent will learn about Productivity, InputOutput Analysis, Microeconomics Applied to Plants and Industrial Undertakings, Productivity, Increasing Productivity of Resources.

8004 (3) Radar Engineering
CO 1: Students study the principles of operation of various types of Radar systems and Radar Range equation in detail.
CO 2: Students study the functions of various blocks of MTI radar ,doppler filter,limitations to MTI performance and Pulse Doppler Radars, Tracking radar and their limitations and applications.
CO 3: Student study the scatteing phenomen of wave in different radar cross section & effect of polarizatiom on cross section.
CO 4: "Student study the real & complex Signal of radar in frequency domain & measurement of bandwidth of these signals.transmission of signals
through networks, matched filter, ambiguity function, uncertainty function."
CO 5: Student study various elements of Radar receiver like display,antenna,mixer etc.