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The Department is one of the first Departments set up in MMU in the year 1995 and rightly claims to be a centre of excellence in the field of electrical engineering by producing professionals who excel in Innovation, Entrepreneurship, Creativity and Management.
The Department runs UG, PG and PhD programs to cater to the ever challenging needs of technical excellence in all areas of electrical engineering.
The graduates from the Department of Electrical Engineering have the following abilities, knowledge, characteristics and skills:
Provides the knowledge of differential and integral calculus and enables understanding of linear algebra, linear programming and set theory.
Provides understanding of waves, optics, superconductivity and its applications and focuses on the physics behind optics and sound in our daily life.
Inculcate the knowledge of basic geometries, geometric tools, shapes and procedures used for engineering drawings and different concepts of theory of projections, development, sectioning
Students have practice in applying their knowledge of mathematics, science, and engineering and to expand this knowledge into the vast area of “rigid body Mechanics”. Students prepared for higher level courses such as courses in Mechanics of Solids, Mechanical Design and Structural Analysis. Analyze various machining processes and calculate relevant quantities such as velocities, forces, powers etc.
This subject help students to develop problem-solving skills to translate 'English' described problems into computer programs using the C language. It helps students to gain fundamental knowledge of general principles of computer programming languages such as input/output and arithmetic rules, conditional branching, looping, functions, array, structure, pointers for parameter passing, referencing and dereferencing, and linking data structures. Students also acquire fundamental knowledge on basics of computers hardware and number systems.
Introduction to the fundamental concepts of electricity and electronics that involve direct current, alternating current, series and parallel resistive circuits, inductance, capacitance, transformers, motors, electronic components, and various types of test equipment found in industry.
Provide exposure about optical and atomic physics phenomenon through experimental observations and focuses on interpretation and analysis of technical data.
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To converse fluently, without strain with international speakers of English in an accent and lexis that is widely understood across the globe They will be able to produce on their own texts that are coherent and clear and hence make them communicative at workplace. It is a diagnostic and remedial activity integrated with communication practice. Use vocabulary productively. Profitably use the grammar while producing language for communication.
Provide the knowledge of various ordinary, partial differential equations and in-depth understanding of various analytical and numerical methods needed for solving different differential equations
Provides the insight of basic physics principles to be applied in engineering courses.
Elaboration of biological concepts with emphasis on effective utilization of biological principles for technology development by engineering students.
Provide basic introduction of environment and its various components and impart knowledge about the need, various policies and methods to protect environment.
An introduction to materials science with emphasis on general properties of materials. Topics will include crystal structure, extended and point defects, and mechanical, electrical, thermal and magnetic properties of metals, ceramics, electronic materials, composites and organic materials.
This course aims to help you develop the proficiency needed to succeed in today's technologically enhanced workplace by focusing on the development of professional oral and written communication skills.
Provide exposure about optical and atomic physics phenomenon through experimental observations and focuses on interpretation and analysis of technical data.
Gain practical exposure through different types of scientific programming problems and mathematical modeling. Students will able to solve wide range of engineering problems.
Introductory experimental laboratory explores the design, construction, and debugging of C programming. Develop students understanding about the core building blocks of a development framework.
This course introduces the basics of semiconductor devices such as
diodes, transistors and FETs and learns the applications of
semiconductor devices such as amplifiers, oscillators, Operational
amplifiers, Analog to digital and Digital to Analog Converters.
This course familiarizes students with network functions, characteristics and parameters of two port networks, filters types and their designing, exposure to the analysis of passive electrical networks and their parameters.
This course provides knowledge of Transformer, tests operated on transformers ,brief idea about the autotransformer, DC machines and methods for controlling the speed.
This course familiarizes the students with the knowledge of various Integrated circuits and develops the designing skills in the students. It also makes the students able to simulate the circuit with the help of software.
This course familiarizes the students with the various types of tests for transformers, generators, motors and machines.
This Lab familiarizes the students to solve the real time problems virtually.
This lab familiarizes the students with the basics of MATLAB programming which enables them to write program for the designing of filters, control systems etc.
This course enables the students to analyze and design combinational and sequential logic circuits. The course also provides an exposure to computer logic circuits design and practical digital circuit design.
This course develops an understanding to describe signals mathematically and to perform mathematical operations on signals and helps students to understand the system properties such as linearity, time invariance, with or without memory, causality, bounded-input bounded-output stability.
This course provides the basic knowledge and theories of AC machines. Also it provides the understanding including the construction, operation, characteristics, starting of AC machines
This course introduces the basic theory of Power Diode, Transistor, MOSFET, Thyristor, Triac, cycloconverters, choppers, rectifiers, inverters and analyze various single phase and three phase power converter circuits and understand their practical application in Industries.
This Lab familiarizes the students with the concepts of digital electronics practically and train them to design combinational and sequential logic circuits
This Lab familiarizes the students with the starting methods of 1-phase & 3-phase induction motor and various types of tests for induction motors.
This lab familiarizes the students with the working and characteristics of Power Diode, Transistor, MOSFET, Thyristor,Triac cycloconverters, choppers, rectifiers, inverters and their practical applications,
In this lab students use their basic knowledge to design a small circuit having real time utility.
This course covers the basic principles of electromagnetism: experimental basis, electrostatics, magnetic fields of steady currents, motional e.m.f. and electromagnetic induction, Maxwell's equations, propagation and radiation of electromagnetic waves.
This course Introduces the fundamentals of microprocessors with the detailed description of 8-bit and 16-bit microprocessors, their architecture and programming. The course also introduces the concept of interfacing and various types of peripheral devices used with microprocessors and provides understanding the basic operation of a microcontroller system and fundamental programming skills.
This course is an introductory subject in the field of electric power systems. Electric power has become increasingly important as a way of transmitting and transforming energy in industrial, military and transportation uses. Electric power systems are also at the heart of alternative energy systems, including wind and solar electric, geothermal and small scale hydroelectric generation.
Line Commutated and Active rectifiers : This course make the students to understand the operation of line-commutated rectifiers – 6 pulse and multi-pulse configurations, operation of PWM rectifiers, regeneration modes and lagging, leading and unity power factor mode.
Electrical Energy Conservation & Auditing : This course is introduces to impart basic knowledge to the students about current energy scenario, energy conservation, auditing and management. To inculcate among the students systematic knowledge and skill about assessing the energy efficiency, energy auditing with energy management and utilization of energy sources efficiently for both domestics and industrial applications.
Digital Signal Processing : This course is used to understand the meaning and implications of the properties of systems and signals, understand the Transform domain and its significance and problems related to computational complexity. The design of linear digital filters FIR and IIR using different techniques and their associated structures, concept of Multi-rate signal processing and sample rate conversion.
Data Structure & Algorithm : This course helps in understanding the concept of Static & Dynamic memory management, data types, algorithms & also basic data structures such as arrays, linked lists, stacks and queues.
Computer Organization and Architecture : This course familiarizes students with the basic knowledge of computer organization, CPU concepts with instruction fetching and decoding. Make students to understand and built the concepts of microprogramming control, memory system, addressing modes and I/O organization sets
Analog and Digital Communication : This course familiarizes students with analog and digital modulation schemes and working of different analog and digital transmitters and receivers. Make students aware about the noise and its impact over communication system.
This course makes the students to understand and gain knowledge about experiments with Microprocessor and Microcontrollers kits and Software as per the industry requirements.
This course gives the practical knowledge of operation of various kinds of relays, circuit breakers & transmission lines and to provide knowledge of practical aspects of transmission lines covering string efficiency of insulators and ABCD parameters.
Students will develop and practice engineering design skills by working on a team base project. Students will experience all phases of a design process.
Students will learn the different types of controlling techniques to achieve the desired response and will be able to perform system's time and frequency-domain analysis with response to test inputs. Analysis includes the determination of the system stability.
This course deals with modern power system operational and control problems and solution techniques like State estimation, contingency analysis, load-frequency control and automatic generation control. Load flow analysis and external equivalents for steady-state operations.
Electrical Machine Design : Basic concepts of electric machine design, general concepts in machine design, cooling &general cooling circuits in rotating electrical machines electrical machines, Design of transformer core, overall design of transformers, Induction motors & alternators, choice of specific loadings, modern trends in machine design, computers approaches in designing of electrical machines
Measurements and Instrumentation : With this course students will be get knowledge of various types of meters, their construction and working. The students will be able to measure Voltage, Current, Power factor, Power Energy, Strain, Displacement, Velocity, Angular Velocity, Temperature etc.
Electrical and Hybrid Vehicles : The primary objective of the course is to introduce architectures and technologies associated with electric, hybrid electric, and plug-in hybrid vehicles including their constituent components. Specific topics include electric and hybrid electric drive trains, energy storage (batteries/ ultra capacitors), electromechanical energy conversion (induction and permanent magnet motors and generators), power electronics, vehicle-level modeling and control, and optimization.
Power System protection : This course covers the principles and schemes for protecting power lines, transformers, buses, generators and introduces the fundamentals of wide-area monitoring and control (SCADA and EMS). The course provides basic guidelines for relay protection and setting calculation.
Computational Electromagnetics : This course covers the interaction of electromagnetic fields with physical objects and the environment. It typically involves using computationally efficient approximations to Maxwell's equations and is used to calculate antenna performance, electromagnetic compatibility, radar cross section and electromagnetic wave propagation.
Electric Drives : Basic concepts of electric drive systems. Emphasis on system analysis and applications. Topics include: dc machine control, variable frequency operation of induction and DC machines, adjustable speed drives, adjustable torque drives.
Computer Network : This course develops the knowledge of network architectures from a design and performance perspective. It helps us to study different topologies, different connecting devices. This basic course prepare the students to learn advanced courses in computer networking.
Business Intelligence : This course helps in developing skills & training to work in data rich environments & enable students to develop capabilities in business intelligence & analytics.
This course covers methods of network modelling by graph theory and algorithmic approach, representation of three phase network elements, Kron reduction technique, Schemes of ordering, short circuit studies using Z bus, load flow equations, Gauss-Seidel and Newton-Raphson methods, fast decoupled methods, AC-DC load flow problems, transient stability solution using modified Euler’s method, sparsity techniques and state estimate of an AC network.
This course deals with modern power system operational and control problems and solution techniques like State estimation, contingency analysis, load-frequency control and automatic generation control. Load flow analysis and external equivalents for steady-state operations.
Demonstrate a sound technical knowledge of their selected project topic. Undertake problem identification, design, formulation and solution.
Industrial Project(24 Weeks) : Provide vital experiential learning opportunity, an educational strategy that links classroom learning and student interest with the acquisition of knowledge in an applied work setting like a company, industry, governmental, or community-based organization related to the field of Electrical engineering.
Switchgear and Protection : This course covers the need of protection of electric equipment and their protection schemes, to understand operations & characteristics of various electromagnetic and static relays and to understand the operations of various types of circuit breakers and their ratings.
Renewable Energy Sources : This course covers to enable the students with various forms of conventional energy resource, learn the present energy scenario and the need for energy conservation. It also explains the concept of various forms of renewable energy sources outlines division aspects and analyses the environmental aspects of renewable energy resources for human benefits.
Solar Photovoltaic Energy Systems : Students will be able to understand the concept of Solar radiation, structure of PV cell, PV module connections & Energy storage for PV system
Project : Demonstrate a sound technical knowledge of their selected project topic. Undertake problem identification, design, formulation and solution.
Students will be able to learn to different technique of conversion of biomass. biofuels, geothermal energy and MHD power generation and also describes the electrical power generation, transmission, distribution
The objective of this course is to train students on characteristics of various drives, Heating, Welding methodologies, Illumination methods and traction system. The subject gives insight knowledge about energy utilization along with applications of electrical energy such as lighting, heating, welding, fans and pumps, Refrigeration & Air conditioning, compressors etc.
The course helps the student to understand the correct methodology and safe operation when working on electrical equipment, switchgear on electrical distribution systems and all of the associated electrical plant and to be aware of all the associated hazards. Besides, giving insight about the diagnostic testing and inspection, advanced fault detection techniques, critical components, and common failure modes. It also explains the study selection criteria, commissioning requirements, predictive and preventive maintenance, reliability, testing and cost.
This subject introduces the idea of using non conventional energy sources to be utilized as main source of energy in rural farmland and the concept of integrating the renewable energy with the grid
Basic concepts of electric machine design, general concepts in machine design, cooling &general cooling circuits in rotating electrical machines electrical machines, Design of transformer core, overall design of transformers, Induction motors & alternators, choice of specific loading, modern trends in machine design, computers approaches in designing of electrical machines
This subject gives idea about digital control system and non linear control such as sub harmonics, limit cycles, stability analysis using Lypanov stability
Power quality management is typically concerned with the following issues: Harmonics and distortion, Transients,Power factor, Voltage sags and dips.,Current and voltage instability.
This course enables the students to define and explain embedded systems and the different embedded system design technologies and explain the various metrics or challenges in designing an embedded system.
Provides an overview of Materials Science and Engineering as a basis for understandinghow structure/property/processing relationships are developed and used for different types of materials. To review physics and chemistry in the context of materials science & engineering and different types of bonding in solids, and the physical ramifications of these differences
This course provides an overall exposure to the technology of Industrial Automation and Control as widely seen in factories of all types both for discrete and continuous manufacturing
FACTS is one aspect of the power electronics revolution that is taking place in all areas of electric energy. A variety of powerful semiconductor devices not only offer the advantage of high speed and reliability of switching but, more importantly, the opportunity offered by a variety of innovative circuit concepts based on these power devices enhance the value of electric energy. This introduction is partly devoted to briefly conveying this perspective before discussing various specifics of Flexible AC Transmission
This subject gives idea about digital control system and non linear control such as sub harmonics, limit cycles, stability analysis using Lypanov stability.
The objective is to give idea about high voltage (HV) and to introduce HV problems and HV applications, secondly to teach analytical, numerical and experimental electrostatic field computation methods and to evaluate discharge phenomena at high electric fields.
This course introdues about the study of various networks of the neural networks and fuzzy logic. To familiarize the students with fundamentals of Fuzzy systems, Fuzzy sets and Fuzzy Relations.
Develop the knowledge of HVDC transmission and HVDC converters and formulate, solve mathematical problems related to rectifier and inverter control methods. Also learn about different control schemes as well as starting and stopping of DC links.
Electrical engineers can find work as:
1. Engineer in the energy sector
Main duties involve creating, testing, securing and implementing all the elements of an electrical plant (such as switchgear, transformers, motors, cables, generators) and improving electric power generation. They can also be responsible for creating and operating industrial equipment such as boilers, turbines, generators, diesel, pumps, condensers, compressors, pressure vessels. Sometimes, electrical engineers get involved in the initial processes of designing power system facilities.
2. Electronics Industry
In the electronics industry, engineers design, develop and test components (capacitors, diodes, resistors, transistors), devices, systems or equipment that use electricity as part of their source of power, from cell-phones and computers to refrigerators and heating systems. Electrical engineers can engage in any stage of a project for creating electronics, from the brief planning to the design, manufacture and testing.
3. Marine Industry
Marine electrical engineers develop the engines of ships and deal with electrical and electronic engineering operations, maintenance, and repairs on generators, motors, transformers, and emergency power systems on all types of vessels. They also make efficient measurements and operations of the electrical power generation, distribution and consumer machinery. They are essential to the safety of marine travel.
4. Automotive Industry
In the automotive sector, electrical engineers manage the creation, operation, maintenance and test all tools, instruments and components of a car that involve electric power. Automotive Electrical engineers take care of engine controller, safety systems such as air-bags and anti-lock brakes, battery, motor, radio, navigation systems, electric locks, electric windows, etc.
5. Aerospace Industry
Electrical engineers who work in the aerospace industry can get involved in many diverse activities like designing the interface that transfers electricity from the engine to the aircraft to designing and operating board-computers, guidance systems, communication systems and networks, radar and ground stations or even entire satellites.
6. Oil and gas Industry
In the oil and gas industry, electrical engineers are responsible for designing and maintaining electrical systems and components of refineries. In addition, they have to make sure that all components meet the right standards of safety and efficiency.
7. Medical Industry
So far, electrical engineering has brought its contribution in launching several useful medical devices, like the echocardiogram, prosthetic devices, the pacemaker and others. Electrical engineers can help design electrical circuits, software and other electronic components used in creating medical equipment.
8. Government Sector:
Many public sector (PSUs) companies which belongs to any of the above mentioned industries recruit Electrical Engineers through GATE exam
9. Software Industry:
Electrical engineer can also work for software company and their work as a software engineer typically includes designing and programming system-level software: operating systems, database systems, embedded systems and so on. They understand how both software and hardware function.
The Candidate should have passed 10+2 examination with Physics, Mathematics and English as compulsory subjects along with one of the Chemistry/ Biotechnology/ Biology/ Technical Vocational subject. Obtained at least 60% marks (40% in case of candidates belonging to reserved category) in the above subjects taken together
Or
Passed Diploma examination with at least 60% marks (40% in case of candidates belonging to reserved category), subject to vacancies in the First Year, in case the vacancies at lateral entry are exhausted
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