POWER QUALITY AND FACTS (PE - V)
Course Objectives:
Definition of power quality and different terms of power quality.
Study of voltage power quality issue – short and long interruption.
Detail study of characterization of voltage sag magnitude and three phase unbalanced voltage
sag.
Know the behaviour of power electronics loads; induction motors, synchronous motor etc by
the power quality issues.
Overview of mitigation of power quality issues by the VSI converters.
To understand the fundamentals of FACTS Controllers,
To know the importance of controllable parameters and types of FACTS controllers & their
benefits
To understand the objectives of Shunt and Series compensation
To Control STATCOM and SVC and their comparison and the regulation of STATCOM,
Functioning and control of GCSC, TSSC and TCSC
Course Outcomes:
After completion of this course, the student will be able to:
Know the severity of power quality problems in distribution system
Understand the concept of voltage sag transformation from up-stream (higher voltages) to
down-stream (lower voltage)
Concept of improving the power quality to sensitive load by various mitigating custom power
devices
Choose proper controller for the specific application based on system requirements
Understand various systems thoroughly and their requirements
Understand the control circuits of Shunt Controllers SVC & STATCOM for various functions viz.
Transient stability Enhancement, voltage instability prevention and power oscillation damping
Understand the Power and control circuits of Series Controllers GCSC, TSSC and TCSC
CORE CONCEPTS OF IoT
Course Objectives
● Understand the concepts of Internet of Things and able to build IoT applications
● Learn the programming and use of Arduino and Raspberry Pi boards.
● Known about data handling and analytics in SDN.
Course Outcomes
● To Know basic protocols in sensor networks.
● To write Program and configure Arduino boards for various designs.
● To write Python programming and interfacing for Raspberry Pi.
● To Design IoT applications in different domains.
● To Understand SDN for IOT
Smart Grid Technologies
Course Objectives:
• To group various aspects of the smart grid,
• To defend smart grid design to meet the needs of a utility
• To select issues and challenges that remain to be solved
• To analyze basics of electricity, electricity generation, economics of supply and demand,
and the various aspects of electricity market operations in both regulated and deregulated
environment.
• To analyze the voltage and reactive power control in micro grids.
Course Outcomes: At the end of the course the student will be able to:
• Understand the features of small grid in the context of Indian grid.
• Understand the role of automation in transmission and distribution.
• Apply evolutionary algorithms for smart grid.
• Understand various distributed energy resources and different storage technologies.
• Understand operation and maintenance of PMUs, PDCs, WAMs, and voltage and
frequency control in micro grid
AI TECHNIQUES IN ELECTRICAL ENGINEERING
Course Objectives:
• To locate soft commanding methodologies, such as artificial neural networks, Fuzzy logic and
genetic Algorithms.
• To observe the concepts of feed forward neural networks and about feedback neural networks.
• To practice the concept of fuzziness involved in various systems and comprehensive
knowledge of fuzzy logic control and to design the fuzzy control
• To analyze genetic algorithm, genetic operations and genetic mutations.
• To Apply the AI techniques in load forecasting
Course Outcomes: Upon the completion of this course, the student will be able to
• Understand feed forward neural networks, feedback neural networks and learning techniques.
• Understand fuzziness involved in various systems and fuzzy set theory.
• Develop fuzzy logic control for applications in electrical engineering
• Develop genetic algorithm for applications in electrical engineering.
• Apply the AI knowledge for load forecasting
Power Systems Analysis
Course Objectives:
• To understand the application of graph theory in power system.
• To know the importance of load flow studies in power system.
• To understand the different types of load flow methods.
• To analyze different types of load flow methods.
• To understand the importance of compensation in power system.
• To understand the rotor angle stability of power systems.
Course Outcomes: At the end of this course, students will demonstrate the ability
• To understand and develop Y-bus and Z-bus matrices.
• To explain the importance of load flow studies and its application in power system.
• To perform load flow computations and analyze the load flow results.
• To analyze the different compensating techniques in power system
• To estimate stability and instability in power systems
PYTHON PROGRAMMING (OE-II)
Course Objectives: This course will enable students to
Learn Syntax and Semantics and create Functions in Python.
Handle Strings and Files in Python.
Understand Lists, Dictionaries and Regular expressions in Python.
Implement Object Oriented Programming concepts in Python.
Build Web Services and introduction to Network and Database Programming in Python.
Course Outcomes: The students should be able to:
Examine Python syntax and semantics and be fluent in the use of Python flow control and
functions.
Demonstrate proficiency in handling Strings and File Systems.
Create, run and manipulate Python Programs using core data structures like Lists, Dictionaries
and use Regular Expressions.
Interpret the concepts of Object-Oriented Programming as used in Python.
Implement exemplary applications related to Network Programming, Web Services and
Databases in Python.
ELECTRICAL AND HYBRID VEHICLES (PE – IV)
Course Objectives:
To understand the fundamental concepts, principles, analysis and design of hybrid and electric
vehicles.
To know the various aspects of hybrid and electric drive train such as their configuration, types
of electric machines that can be used energy storage devices, etc.
Course Outcomes: At the end of this course, students will demonstrate the ability to
Understand the models to describe hybrid vehicles and their performance.
Understand the different possible ways of energy storage.
Understand the different strategies related to energy storage systems
Electrical Machines- II Lab
Course Objectives:
• To understand the operation of synchronous machines
• To understand the analysis of power angle curve of a synchronous machine
• To understand the equivalent of a single phase induction motor
• To understand the circuit diagram of an induction motor by connecting a blocked rotor test of an induction motor
Course Outcomes:
• To perform the brake tests on three phase and single phase induction motors to obtain the performance curves
• To convert the phase from 3 to 2 vice-versa using Scott connection
• To test the transformers and induction motors
• To start the induction motors by different methods and to synchronize the given alternator across the supply lines
Gender Sensitization
Course Objectives:
To develop students’ sensibility with regard to issues of gender in contemporary India.
To provide a critical perspective on the socialization of men and women.
To introduce students to information about some key biological aspects of genders.
To expose the students to debates on the politics and economics of work.
To help students reflect critically on gender violence.
To expose students to more egalitarian interactions between men and women.
Course Outcomes:
Students will have developed a better understanding of important issues related to gender in contemporary India.
Students will be sensitized to basic dimensions of the biological, sociological, psychological and legal aspects of gender. This will be achieved through discussion of materials derived from research, facts, everyday life, literature and film.
Students will attain a finer grasp of how gender discrimination works in our society and how to counter it.
Students will acquire insight into the gendered division of labour and its relation to politics and economics.
Men and women students and professionals will be better equipped to work and live together as equals.
Students will develop a sense of appreciation of women in all walks of life.
Through providing accounts of studies and movements as well as the new laws that provide protection and relief to women, the textbook will empower students to understand and respond to gender violence.
Digital Electronics Lab
Course Objectives:
To learn basic techniques for the design of digital circuits and fundamental concepts used in the design of digital systems.
To understand common forms of number representation in digital electronic circuits and to be able to convert between different representations.
To implement simple logical operations using combinational logic circuits
To design combinational logic circuits, sequential logic circuits.
To impart to student the concepts of sequential circuits, enabling them to analyze sequential systems in terms of state machines.
To implement synchronous state machines using flip-flops.
Course Outcomes: At the end of this course, students will demonstrate
The ability to understand working of logic families and logic gates.
Design and implement Combinational and Sequential logic circuits.
Understand the process of Analog to Digital conversion and Digital to Analog conversion.
Be able to use PLDs to implement the given logical problem
Control Systems Lab
Course Objectives:
1. To understand the different ways of system representations such as Transfer function representation and state space representations and to assess the system dynamic response
2. To assess the system performance using time domain analysis and methods for improving it
3. To assess the system performance using frequency domain analysis and techniques for improving the performance
4. To design various controllers and compensators to improve system performance.
Course Outcomes:
The students will be able to understand types of control systems and their behavior can be studies.
Different applications of control systems will be understood
Electrical Measurements & Instrumentation Lab
Course Objectives:
To calibrate LPF Watt Meter, energy meter, P. F Meter using electro dynamo meter type instrument as the standard instrument
To determine unknown inductance, resistance, capacitance by performing experiments on
D.C Bridges & A. C Bridges
To determine three phase active & reactive powers using single wattmeter method practically
To determine the ratio and phase angle errors of current transformer and potential transformer.
Course Outcomes: After completion of this lab the student is able to
To choose instruments
Test any instrument
Find the accuracy of any instrument by performing experiment
Calibrate PMMC instrument using D.C potentiometer
Digital Electronics
Course Objectives:
To learn basic techniques for the design of digital circuits and fundamental concepts used in the design of digital systems.
To understand common forms of number representation in digital electronic circuits and to be able to convert between different representations.
To implement simple logical operations using combinational logic circuits
To design combinational logic circuits, sequential logic circuits.
To impart to student the concepts of sequential circuits, enabling them.
To analyze sequential systems in terms of state machines.
To implement synchronous state machines using flip-flops.
Course Outcomes: At the end of this course,
students will demonstrate the ability to Understand working of logic families and logic gates.
Design and implement Combinational and Sequential logic circuits.
Understand the process of Analog to Digital conversion and Digital to Analog conversion. Be able to use PLDs to implement the given logical problem.
Power Systems – I
Course Objectives:
To understand the Hydro, Thermal, Nuclear and gas generating stations.
To examine A.C. and D.C. distribution systems.
To understand and compare air insulated substations.
To illustrate the economic aspects of power generation and tariff methods.
Course Outcomes: After Completion of this course the student is able to
Draw the layout of hydro power plant, thermal power station, Nuclear power plant and gas power plant and explain its operation
Describe A.C. and D.C. distribution systems and its voltage drop calculations
Illustrate various economic aspects of the power plant erection, operation and different tariff methods
Control Systems
Course objectives:
To understand the different ways of system representations such as Transfer function representation and state space representations and to assess the system dynamic response
To assess the system performance using time domain analysis and methods for improving it
To assess the system performance using frequency domain analysis and techniques for improving the performance
To design various controllers and compensators to improve system performance
Course Outcomes: At the end of this course, students will demonstrate the ability to
Understand the modeling of linear-time-invariant systems using transfer function and state-space representations.
Understand the concept of stability and its assessment for linear-time invariant systems.
Design simple feedback controllers.
Electrical Machines-II
Course Objectives:
To deal with the detailed analysis of poly-phase induction motors & Alternators
To understand operation, construction and types of single phase motors and their applications in house hold appliances and control systems.
To introduce the concept of parallel operation of alternators
To introduce the concept of regulation and its calculations.
Course Outcomes: At the end of this course, students will demonstrate the ability to
Understand the concepts of rotating magnetic fields.
Understand the operation of ac machines.
Analyze performance characteristics of ac machines
Electrical Measurements and Instrumentation
Course objectives:
1. To introduce the basic principles of all measuring instruments
2. To deal with the measurement of voltage, current, Power factor, power, energy and magnetic measurements.
Course Outcomes: After completion of this course, the student
Understand different types of measuring instruments, their construction, operation and characteristics
Identify the instruments suitable for typical measurements
Apply the knowledge about transducers and instrument transformers to use them effectively.
ELECTRONIC MEASUREMENTS AND INSTRUMENTATION (OE-III)
Course Objectives:
To understand the various measuring systems functions and metrics for performance analysis | ||||||
To understand the pronciple of operation and working of different electronic instruments | ||||||
To understand the construction and principle of operation of different electronic instruments via oscilloscope and special purpose oscilloscopes. | ||||||
To understand the working principles of various transducers | ||||||
How to use bridges to measure resistance, capacitance, and inductance using various measuring techniques. |
Course Outcomes:
After Completion of the course the student is able to
Understand and identify the various electronic instruments based on their specifications for carrying out a particular task of measurement. | |||||
Analyze various types of signal generators and signal analysers for generating and analyzing various real time signals. | |||||
Analyze different types of oscilloscopes and acquire the knowledge of measuring parameters of different real time signals. | |||||
Measure various physical parameters by appropriately selecting the transducers. | |||||
Understand about bridges for the measurement of resistance, capacitance and inductance and also can learn how all the physical parameters can be measured. |
UTILIZATION OF ELECTRIC POWER
Course Objectives:
To understand the fundamentals of illumination and good lighting practices
To understand the methods of electric heating and welding.
To understand the concepts of electric drives and their application to electrical
traction systems.
Course Outcomes: After completion of this course, the student will be able to
Acquire knowledge on, electric drives characteristics and their applicability in
industry based on the nature of different types of loads and their characteristics
understands the concepts and methods of electric heating, welding, illumination and
electric traction
apply the above concepts to real-world electrical and electronics problems and
applications.
RENEWABLE ENERGY SYSTEMS
Course Objectives
To explain the concepts of Non-renewable and renewable energy systems
To outline utilization of renewable energy sources for both domestic and industrial applications
To analyse the environmental and cost economics of renewable energy sources in comparison with fossil fuels.
Course Outcomes:At the end of this course, students will demonstrate the ability to
Understand the energy scenario and the consequent growth of the power generation from renewable energy sources.
Analyse the basic physics of wind and solar power generation.
Understand the power electronic interfaces for wind and solar generation.
Analyse the issues related to the grid-integration of solar and wind energy systems.