Electrical & Electronics Engineering

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.

Course Objectives:

1 To develop ability to analyze linear systems and signals

2 To develop critical understanding of mathematical methods to analyze linear systems and signals

3 To know the various transform techniques

4 To analyse sampling principles

Course Objectives:

• To Introduce Assembly Language Program concepts

• Write ALP for arithmetic and logical operations in 8086 and 8051

• To Interface I/O devices with 8051 microcontroller and ARM

Course Outcomes: At the end of the course, student will be able to

• Implement the basic programming for Arithmetic and Logical operations in 8086

microprocessor and 8051 Microcontroller CO2.

• Identity the assembly level programming in given problem.

• Implement interfacing of I/O devices with 8051 Microcontroller and ARM

Course Objectives:

 perform testing of CT, PT's and Insulator strings

 To find sequence impedances of 3-Φ synchronous machine and Transformer

 To perform fault analysis on Transmission line models and Generators.

Course Outcomes: After completion of this lab, the student will be able to

 Perform various load flow techniques

 Understand Different protection methods

 Analyze the experimental data and draw the conclusions

Course Objectives: The objectives of the course are

 To Understand basic concepts in Disaster Management

 To Understand Definitions and Terminologies used in Disaster Management

 To Understand Types and Categories of Disasters

 To Understand the Challenges posed by Disasters

 To understand Impacts of Disasters Key Skills

Course Outcomes: The student will develop competencies in

 the application of Disaster Concepts to Management

 Analyzing Relationship between Development and Disasters.

 Ability to understand Categories of Disasters and

 realization of the responsibilities to society

Course Objectives:

 To introduce the drive system and operating modes of drive and its characteristics

 To understand Speed – Torque characteristics of different motor drives by various power

converter topologies

 To appreciate the motoring and braking operations of drive

 To differentiate DC and AC drives

Course Outcomes: After completion of this course the student is able to

 Identify the drawbacks of speed control of motor by conventional methods.

 Differentiate Phase controlled and chopper-controlled DC drives speed-torque characteristics

merits and demerits

 Understand Ac motor drive speed–torque characteristics using different control strategies its

merits and demerits

 Describe Slip power recovery schemes

Course Objectives:

 To understand real power control and operation

 To know the importance of frequency control

 To analyze different methods to control reactive power

 To understand unit commitment problem and importance of economic load dispatch

 To understand real time control of power systems

Course Outcomes: At the end of the course the student will be able to:

 Understand operation and control of power systems.

 Analyze various functions of Energy Management System (EMS) functions.

 Analyze whether the machine is in stable or unstable position.

 Understand power system deregulation and restructuring

Course Objectives:

• To introduce all kinds of circuit breaker for protection

• To introduce various types of relays

• To describe about protection of Generators and Transformers

• To describe the line protection and importance of neutral grounding

• To understand the phenomenon of over voltages and its classifications

Course Outcomes:   At the end of this course, students will be able to

• Understand the quenching mechanisms used in various circuit breakers

• Understand the choice of relays for appropriate protection of power systems equipment

• Apply technology to protect power system components

• Analyze the need of line protection and grounding system

• Analyze the phenomenon of voltage surges

Course Objectives:

1. To familiarize the architecture of microprocessors and micro controllers

2. To provide the knowledge about interfacing techniques of bus & memory.

3. To understand the concepts of ARM architecture

4. To study the basic concepts of Advanced ARM processors

Course Outcomes: Upon completing this course, the student will be able to

1. Understands the internal architecture, organization and assembly language programming of

8086 processors.

2. Understands the internal architecture, organization and assembly language programming of

8051/controllers

3. Understands the interfacing techniques to 8086 and 8051 based systems.

4. Understands the internal architecture of ARM processors and basic concepts of advanced ARM

processors.

Course Objectives:

 To develop ability to analyze linear systems and signals

 To develop critical understanding of mathematical methods to analyze linear systems and signals

 To know the various transform techniques

 To analyze sampling principles

Course Outcomes: At the end of this course, students will demonstrate the ability to

 Understand the concepts of continuous time and discrete time systems.

 Analyze systems in complex frequency domain.

 Understand sampling theorem and its implications.

To train the students to understand different types of AI agents, various AI search

algorithms, fundamentals of knowledge representation, building of simple knowledge-based systems

and to apply knowledge representation, reasoning. Study of Markov Models enable the student ready

to step into applied AI.

This Lab focuses on using multi-media instruction for language development to meet the following

targets:

 To improve the students’ fluency in English, through a well-developed vocabulary and enable

them to listen to English spoken at normal conversational speed by educated English speakers

and respond appropriately in different socio-cultural and professional contexts.

 Further, they would be required to communicate their ideas relevantly and coherently in writing.

 To prepare all the students for their placements

Course Objectives:

 To enhance practical knowledge related to different subjects

 To develop hardware skills such as soldering, winding etc.

 To develop debugging skills.

 To increase ability for analysis and testing of circuits.

 To give an exposure to market survey for available components

 To develop an ability for proper documentation of experimentation.

 To enhance employability of a student.

 To prepare students for working on different hardware projects.

Course Outcomes: After completion of course, student will be able to

 Get practical knowledge related to electrical

 Fabricate basic electrical circuit elements/networks

 Trouble shoot the electrical circuits

 Design filter circuit for application

 Get hardware skills such as soldering, winding etc.

 Get debugging skills. soldering, winding etc.

 Get debugging skills.

Course Objectives:

 To Develop the simulation Skills.

 To perform the analysis of electrical networks

 To Understand the operating principles of various power electronic converters.

 To perform the transient analysis.

Course outcome: After going through this lab the student will be able to

 Apply the simulation skills to analyze the different networks.

 Analyze the behavior of different power electronic converters.

 Apply techniques to calculate different parameters of the circuit using simulation.

 Analyze the practical behavior of the circuits in simulation environment.

instruments

 test any instrument

 find the accuracy of any instrument by performing an experiment

 calibrate PMMC instrument using D.C potentiometer

Course Objectives:

• Apply the concepts of power electronic converters for efficient conversion/control of

power from source to load.

• Design the power converter with suitable switches meeting a specific load requirement.

Course Outcomes: After completion of this course, the student is able to

• Understand the operating principles of various power electronic converters.

• Study and understand the different firing circuits of SCR.

• Study and understand the concept of different commutation circuits.

• Use power electronic hardware to develop the power converters.

• Analyze and choose the appropriate converters for various applications

After completion of this lab, the student will be able to

 Perform various transmission line calculations

 Understand Different circuits time constants

 Analyze the experimental data and draw conclusions.

At the end of this course, students will demonstrate the ability to

 Know the characteristics, utilization of various components.

 Understand the biasing techniques

 Design and analyze various rectifiers, small-signal amplifier

circuits. Design sinusoidal and non-sinusoidal oscillators.

 A thorough understanding, functioning of OP-AMP, design OP-AMP based circuits

with linear integrated circuits