| MATHEMATICS-I | FE 110 | Explain the concepts of an infinite series, Beta and Gamma Functions, ordinary differential equations and limit and continuity |
| Evaluate integrals using Beta and Gamma functions |
| Demonstrate various operations on complex numbers & analytic properties of functions of complex variables |
| Apply Partial differentiation in engineering applications |
| PHYSICS | FE 120 / FE220 | Explain the behaviour of light, lasers, x-rays, semiconductors and ultrasonic devices. |
| Describe the influence of physical system parameters on propagation of light, lasers, x-rays and the properties of magnetic materials and semiconductors |
| Determine the influence of the physical parameters on behaviour of light, lasers, semiconductors, ultrasonic waves, magnetism and x-rays |
| Compute the dimensions of lenses, wavelength of ultrasonic waves, magnetic saturation, semiconductor characteristics, lasers passing through fibre optics and x-ray diffraction. |
| BASICS OF ELECTRICAL & ELECTRONICS ENGINEERING | FE 130 | Understand circuit laws, magnetic circuit quantities, single phase and three phase circuits, diode applications, principles of single phase transformer, Bipolar junction transistor, MOSFET and IGBT. |
| Describe the concept of Power generation, magnetic circuits, voltage-current phasor relationships in three phase circuits, working of single phase transformer, Bipolar junction transistor, MOSFET and IGBT |
| Use circuit laws to compute electrical quantities in DC, single phase and three phase circuits, rectifier circuits, voltage regulator circuits and transistor biasing circuits. |
| Develop phasor diagrams of single phase, three phase ac circuits and single phase transformer and analyse the performance of voltage regulator circuits using Zener diode and phase angle control circuits using SCR. |
| BASICS OF MECHANICAL ENGINEERING | FE 140 | Understand circuit laws, magnetic circuit quantities, single phase and three phase circuits, diode applications, principles of single phase transformer, Bipolar junction transistor, MOSFET and IGBT. |
| Describe the concept of Power generation, magnetic circuits, voltage-current phasor relationships in three phase circuits, working of single phase transformer, Bipolar junction transistor, MOSFET and IGBT |
| Use circuit laws to compute electrical quantities in DC, single phase and three phase circuits, rectifier circuits, voltage regulator circuits and transistor biasing circuits. |
| Develop phasor diagrams of single phase, three phase ac circuits and single phase transformer and analyse the performance of voltage regulator circuits using Zener diode and phase angle control circuits using SCR. |
| PHYSICS LABORATORY | FE 150/FE250 | Explain the applications of concepts like Ultrasonics, X- rays, Superconductivity and Lasers in the different fields of daily life |
| Experiment using various apparatus like Cathode ray Oscilloscope and CRT tube. |
| Analyse the concept of physics like interference, semiconductors, ultrasonics and , Electron Ballistics. |
| Design and develop a simple applications of semiconductors and ultrasonics |
| ELECTRICAL & ELECTRONICS LABORATORY | FE 160 | Understand working of regulators, rectifiers, characteristics of various electronics devices |
| Assemble and test different circuit theorems and characteristics |
| Analyse and verify power in electric circuit, testing of single phase transformer |
| Apply circuit concept in electrical wiring |
| WORKSHOP-I | FE 170 | Explain the basic workshop skills from raw material stage to finished product. |
| Identify the tools required for fitting, forging, welding and carpentry jobs |
| Demonstrate the use of tools, machines and effort required to complete the job |
| Demonstrate the skills required to complete fitting, forging, welding and carpentry jobs |
| ENVIRONMENTAL SCIENCE | AC180 | Describe the Present, past and future status of the Environment. |
| Demonstrate the knowledge of core concepts and components in Environmental Science. |
| Explain environment management by equitable handling of natural resources, pollution control technologies, biodiversity and ecosystem protection. |
| Identify environmental issues and problems arising due to human activities at local, national and global level. |
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| MATHEMATICS-II | FE 210 | Evaluate double & triple integrals & learn its various Engineering applications. |
| Explain analytic properties of vector valued functions & the associated results used in engineering. |
| Solve first order differential equation & higher order linear differential equations |
| Explain the multiple integrals, vector calculus, solve ordinary differential equations. |
| CHEMISTRY | FE120/FE 220 | Explain the basic concept of electrochemical system involving different types of energy systems and components involved therein |
| Describe the classification and grading of Hydrocarbon fuels and nonconventional energy systems like solar and Biogas |
| Differentiate various types of corrosion and gain knowledge on control measures associated with corrosion |
| Identify polymeric materials, methods and properties associated with these materials |
| COMPUTER PROGRAMMING | FE 230 | Demonstrate the use of algorithms and flowcharts to plan the solution of a computing problem |
| Explain the use of formatted and unformatted input and output statements in C programs |
| Analyse the syntax and semantics of any given data types, data structures and programs in C language. |
| Design and implement programs using standard C language infrastructure regardless of the hardware or software platform |
| INTRODUCTION TO CIVIL ENGINEERING | FE 240 | Explain the history and basic disciplines of Civil Engineering and building materials. |
| Identify various processes involved in building constructions and structures. |
| Apply the IoT and Computational methods in Civil Engineering |
| Implement safety measures for buildings |
| CHEMISTRY LABORATORY | FE 250 / FE 150 | Explain the basic concept of electrochemical system involving different types of energy systems and components involved therein |
| Describe the classification and grading of Hydrocarbon fuels and nonconventional energy systems like solar and Biogas. |
| Differentiate various types of corrosion and gain knowledge on control measures associated with corrosion. |
| Identify polymeric materials, methods and properties associated with these materials. |
| PROGRAMMING LABORATORY | FE 260 | Explain the program development denvironment for editing, compiling, executing and debugging a C Program. |
| Demonstrate the concepts of C Programming Language using a program development environment. |
| Design and develop C programs to solve real life problems. |
| Evaluate and modify any given C program as per the requirement. |
| ENGINEERING GRAPHICS | FE 270 | Demonstrate the imagination skills required in converting idea into drawing. |
| Explain projection systems in engineering drawing. |
| Analyze solids and their cut sections along with development of surfaces. |
| Explain Orthographic and Isometric projection of parts. |
| WORKSHOP-II | FE 280 | Explain the basic workshop skills from raw material stage to finished product. |
| Demonstrate the skills required for turning, plumbing, pattern making and foundry jobs. |
| Identify the tools, machines and effort required to complete the job. |
| Explain the concepts of machining, joining and forming processes. |
| MATHEMATICS-III | EC310 | Solve problems in engineering domain related to Linear Algebra using matrices. |
| Analyze and solve engineering problems using Laplace Series |
| Analyze and solve engineering problems using Fourier Series |
| Solve engineering problems using Complex Integration. |
| CIRCUIT ANALYSIS AND SYNTHESIS | EC320 | Explain the concepts relatedto electrical networks and graph theory |
| Apply network theorems and laplace transforms |
| Analyse electrical networks using time and frequency domain techniques |
| Design and synthesise electrical networks |
| ELECTRONIC DEVICES AND CIRCUITS | EC330 | Explain the concept of conduction & qualitative theory in semiconductors, the theory of p-n junction diodes and filters. |
| Analyze BJT hybrid and re models ,JFET and MOSFET biasing for various configurations.. |
| Analyze filter circuits, multi stage and large signals BJT amplifiers, different configurations of negative feedback in amplifier circuits |
| Design RC Differentiator and Integrator circuits and different types of oscillator circuits. |
| DIGITAL SYSTEM DESIGN | EC340 | Explain different combinational logic circuits, flip-flops, sequential circuits, registers and digital logic families. |
| Solve Boolean expressions using Boolean algebra and implement different logic circuits |
| Analyze combinational and sequential circuits |
| Design combinational and sequential circuits |
| ELECTROMAGNETIC FIELD & WAVE THEORY | EC350 | Understand basic concepts of static electric fields, static magnetic fields, and time varying electromagnetic fields. |
| Apply vector calculus to quantify the behaviour of electric, magnetic and electromagnetic fields in standard configurations. |
| Analyse electromagnetic wave propagation in free-space and waveguides. |
| Evaluate field quantities and characteristic parameter of electromagnetic waves through different material media. |
| ELECTRONIC DEVICES AND CIRCUITS LAB | EC360 | Verify the working of different diodes, transistors, CRO probes and measuring instruments. Identifying the procedure of doing the experiment. |
| Design the circuits with basic semiconductor devices (active & passive elements), measuring instruments & power supplies that serves many practical purposes. |
| Construct, analyze and troubleshoot the designed circuits. |
| Measure and record the experimental data, analyze the results, and prepare a formal laboratory report. |
| DIGITAL SYSTEM DESIGN LAB | EC370 | Verify the working of basic digital gates |
| Construct basic combinational circuits and verify their functionalities |
| Apply the design procedures to design basic sequential circuits |
| Learn about counters, Shift Registers and verify their operation |
| TECHNICAL COMMUNICATION | HM380 | Demonstrate precise language skills with suitable vocabulary and apt style. |
| Develop life skills/interpersonal skills to progress professionally. |
| Apply traits of suitable candidature for a job/higher education. |
| Deliver formal presentations and effectively implementing the verbal and nonverbal skills. |
| SIGNALS AND SYSTEMS | EC410 | Explain the concepts related to Fourier Series representation, Sampling and Fourier Domain Analysis |
| Apply Linear Time-Invariant, Fourier Series, Fourier Transform, Laplace Transform and Z - Transform properties |
| Analyze CT and DT signals and systems in Frequency domain using tools like CTFS, CTFT, DTFS and DTFT |
| Develop frequency domain representation of a time domain signal |
| MICROPROCESSORS AND INTERFACING | EC420 | Explain the concepts related to Microcomputer System and Semiconductor Memories. |
| Understand the Architecture and Working of 8085 æP and Interfacing ICs such 24 as 8255, 8259 and 8251. |
| Analyze the instruction set and the timing sequence of various instructions. |
| Create Assembly language programs for a given task & Design Interfacing of Memory and I/O devices |
| LINEAR INTEGRATED CIRCUITS | EC430 | Infer the DC and AC characteristics of operational amplifiers and its effect on output and their compensation techniques. |
| Explain and design the linear and non-linear applications of an opamp and special application ICs. |
| Explain and compare the working of multivibrators using special application IC 555 and general purpose opamp |
| Illustrate the function of application specific ICs such as Data Converters, Voltage Regulators, OLL and its application in communication |
| TRANSMISSION LINES AND ANTENNAS | EC440 | Explain the concepts of Transmission line theory, infinite line, line parameters, lossless lines, Antenna parameters and antenna arrays |
| Apply the concepts of Transmission lines and Antennas to obtain parameters for distortion less lines, lines at radio frequencies, smith charts, antenna dipoles and antenna arrays |
| Analyze the working of Transmission Lines under different Terminal Conditions and working of different types of antennas. |
| Solve problems on Transmission lines, power and impedance and antenna parameters |
| STATISTICAL COMMUNICATION THEORY | EC450 | Understand representation of random signals |
| Investigate characteristics of random processes |
| Make use of theorems related to random signals |
| Understand propagation of random signals in linear systems |
| MICROPROCESSORS AND INTERFACING LAB | EC460 | Understand and apply the fundamentals of assembly level programming of microprocessors |
| Work with standard microprocessor real time interfaces |
| Troubleshoot interactions between software and hardware |
| Analyze abstract problems and apply a combination of hardware and software to address the problem |
| COMMUNICATION ENGINEERING | EC510 | Understand analog modulation and communication techniques |
| Understand different types of pulse modulation techniques. |
| Understand and compare different digital modulation and transmission schemes |
| Analyze Source and Error control coding |
| DIGITAL SIGNAL PROCESSING | ET520 | Explain the need and applications of multirate systems. |
| Compute discrete Fourier transform and its inverse transform of a sequence. |
| Design finite impulse response (FIR) and infinite impulse response (IIR) discrete-time filters |
| mplement digital filters. |
| EMBEDDED SYSTEMS | ET531 | Understand the architecture of 8051 and PIC18 microcontroller |
| Analyse the instruction set of 8051 and PIC18 microcontroller. |
| Interface the microcontroller with the hardware for a given application. |
| Create Assembly language programs for 8051 and PIC 18. |
| POWER ELECTRONICS | ET532 | Explain the construction and characteristics of power semiconductor devices. |
| Discuss the thyristor turn on methods, thyristor protection and applications of power electronics. different triggering circuits for Thyristor and their applications. |
| Explain and analyze thyristor firing circuits, commutation circuits and connections of SCR. |
| Analyze and explain the AC-DC converters, DC-DC converters, inverters, AC voltage controllers and Cycloconverters. |
| BIO-MEDICAL ENGINEERING | EC533 | Describe physiology of human body and nervous system, generation of bio-potentials and bio-potential electrodes/transducers. |
| Define safety parameters and measures to be taken while designing biomedical equipment. |
| Explain and demonstrate different measuring, monitoring and therapeutic equipment |
| Categorize different imaging systems based on their application, advantages and disadvantages for a given problem. |
| MICROWAVE ENGINEERING | ET541 | Explain the Microwave Network parameters, passive and active microwave devices, microwave amplifiers and oscillators and microwave measurement |
| Apply the concepts of semiconductor physics to microwave devices, amplifiers, oscillators and measurements. |
| Analyze the working measurements |
| Evaluate the microwave network parameters, microwave passive devices, microwave sources and microwave parameters |
| THEORY OF MACHINE LEARNING | EC543 | Gain knowledge about various data preprocessing techniques. |
| Gain basic knowledge of machine learning |
| Solve problems using various machine learning algorithms like classification, regression and clustering. |
| Apply Outlier Detection Techniques. |
| COMMUNICATION ENGINEERING AND SIGNAL PROCESSING LAB | EC550 | Analyse different types of analog modulation and demodulation techniques. |
| Understand different types of pulse and digital modulation and demodulation techniques. |
| Perform DFT, linear and circular convolution on signals. |
| Understand the design of Digital filter design |
| ELECTRONICS INSTRUMENTATION LAB | EC560 | Design and simulate virtual instruments for sensors and data acquisition using Labview |
| Understand different types of transducers. |
| Design and simulate various industrial automation application using programmable logic controller. |
| Implement ladder programs using SCADA software. |
| ETHICS AND ENTREPRENEURSHIP | HM009 | Appreciate and assimilate ethics and interpersonal behaviour. Also to understand the use of ethical theories. |
| Understand code of ethics in various fields, safety responsibility and rights as an engineer. |
| Understand the concept of entrepreneurship and demonstrate the skills for project identification, development and implementation. |
| Understand the basics of financing a project. From the options of choosing the project and source of finance, to finding ways of sustaining the project. |
| CONTROL SYSTEM ENGINEERING | ET610 | Explain the types and applications of control systems and approaches towards their time , frequency,stability analysis and design. |
| Apply mathematical modeling and stability analysis techniques to mechanical and electrical systems. |
| Analyse performance and stability of mechanical and electrical systems using time and frequency domain techniques. |
| Design compensators and controllers for mechanical and electrical systems. |
| DIGITAL VLSI | EC620 | Implement the logic circuits using MOS and CMOS technology. |
| Analyze various circuit configurations and their applications |
| Understand the rapid advances in CMOS Technology |
| Design low power CMOS VLSI circuits. |
| REAL TIME OPERATING SYSTEMS | ET631 | Identify the principles and characteristics of various applications of real time systems. |
| Distinguish and demonstrate performance of various task scheduling algorithms in RTOS |
| Illustrate the features of RTOS, its protocols and concepts of commercial real time operating system. |
| Illustrate the scheduling operation of real time tasks in multiprocessor and the concepts of real time communication and database. |
| RADAR SYSTEM ENGINEERING | ET632 | Explain the Working of different types of Radar and radar tracking |
| Apply the concepts of radar theory to target detection and tracking |
| Analyze the working of different types of radars |
| Evaluate the radar parameters |
| DEEP LEARNING | EC633 | Apply the concepts of mathematics in the context of neural networks. |
| Apply optimization and training methodologies for deep learning. |
| Understand the working of convolutional neural networks and recurrent neural networks. |
| Understand the concept of Auto encoders |
| IMAGE PROCESSING | EC641 | An understanding of basics of visual perception, effects of image sampling and quantization |
| Apply relevant filters for enhancing images and understand image degradation and restoration process |
| Apply various morphological operations on the images for the high level applications and compression techniques on images |
| Apply the various edge detection algorithms to segment image into different regions |
| ARM ARCHITECTURE AND PROGRAMMING | EC643 | Describe the architecture of ARM7TDMI processor. |
| Write embedded software using ARM7TDMI assembly instructions. |
| Design embedded systems with Vector floating point processors and their interface with ARM.. |
| Apply AMBA bus architecture, various HW peripherals in SoCs in embedded system designs. |
| MOBILE COMMUNICATION | ET644 | Design a cellular system for a given channel capacity |
| Determine the Co-channel Interference reduction factor in a cellular system and calculate the received power using the different types of propagation models |
| Evaluate the parameters of the mobile multipath channels and classify the different types of fading channels. |
| Explain the different types of diversity techniques , GSM and CDMA technology |
| MICRO ELECTROMECHANICAL SYSTEMS | EC645 | Explain the applications of MEMS in various branches of Engineering medical science and basic sciences. |
| Explain the principles and operation of the different micro-sensors and micro actuators. |
| Analyze the various techniques and parameters in the microsystem fabrication. |
| Explain the microsystem packaging techniques. |
| DIGITAL VLSI LAB | EC650 | Write the SPICE programs for modeling MOSFET circuits |
| Implement Layouts for combinational circuits. |
| Simulate combinational and sequential circuits using VHDL and implementation using FPGA |
| Simulate combinational and sequential circuits using Verilog and implementation using FPGA |
| DATA STRUCTURES AND ALGORITHMS LAB | EC660 | Write programs to demonstrate the use of structures, unions, strings, arrays, pointers, files and recursion etc. |
| Write programs to demonstrate the use of data structures like linked lists , stacks and queues. |
| Write programs to demonstrate the use of complex data structures like trees and graphs. |
| Write programs to illustrate searching, sorting and hashing techniques. |
| CYBER LAW AND IPR | HM006 | Describe and analyze cyber crime and understand jurisdictional aspects of cyber law |
| Explain the concept of copyright, protection , computer piracy and relevant laws to deal with aspects related to infringement on the issues |
| Explain the concept of Intellectual Property rights , principles of enforcement and methods of protection |
| Describe to the concept of patents and legal issues related to enforcement of Intellectual Property Rights |
| DATA COMMUNICATION | ET710 | Explain the functions of the various layers of OSI Model, networking devices and protocols of data communication. |
| Apply the various line coding techniques, flow and error control techniques. |
| Classify and compare the services of the layers of the OSI model. |
| Analyze various networks based on their applications. |
| ROBOTICS | ET721 | Explain working principle behind various types of actuation systems and sensors, different robot architectures and applications and control techniques used in robotic systems |
| Evaluate appropriate end effectors, sensors and motion strategies for given robotic application |
| Solve problems related to robot specifications, actuators, robot kinematics and control. |
| Propose robotic solutions for a given application |
| CONSUMER ELECTRONICS | ET724 | Explain the concepts related to sound recording and reproduction, TV systems, electrical appliances, marketing planning and strategy |
| Demonstrate safety awareness and take precautionary measures while handling electronic equipments. |
| Analyze consumer degradation. electronic circuits for fault and performance. |
| Design sound recording and reproduction circuits and formulate a marketing plan including marketing objectives, marketing mix, strategies |
| DATA COMMUNICATION LAB | ET730 | Explain details and functionality of layered network architecture. |
| Apply mathematical foundations to solve computational problems in data communication between nodes |
| Analyze performance of various communication protocols. |
| Practice packet /file transmission between nodes. |
| ADVANCED COMMUNICATION ENGINEERING | ET810 | Explain the theoretical and mathematical concepts of satellite and optical communication |
| Analyze performance of satellite and optical communication under different scenarios. |
| Analyze efficacy of modulation and multiple access methods for maximum user access in optical and satellite communication. |
| Design satellite and optical link taking into consideration power budget for efficient performance in terms of BER and SNR. |
| SECURE COMMUNICATION | ET824 | Identify and describe the fundamentals of a secure network and Analyse the various encryption techniques in modern cryptography |
| Illustrate various Public key cryptographic techniques |
| Evaluate the various message authentication codes and cryptographic Hash Functions |
| Discuss Digital Signatures,Authentication Applications and security issues related to internet and networks |
| HIGH PERFORMANCE COMPUTER ARCHITECTURE | ET823 | Explain the concept of high performance computing and its applications |
| Understand the concept of pipelining, memory organization and management. |
| Apply parallel computing algorithms in practical applications and measure the performance of the system |
| Analyse the working of GPU and CPU and understand the concepts of Grid and Cloud computing . |
