#### Electrical Machines-I Lab

After completion of this lab, the student is able to

• Differentiate between Different types of DC Machines.

• Analyze the characteristics of DC generators.

• Analyze the characteristics of DC Motor.

• control the speed of DC motors.

#### Electrical Circuits Lab

After Completion of this lab, the student is able to

Analyze complex DC and AC linear circuits

Apply concepts of electrical circuits across engineering

Evaluate response in a given network by using theorems

#### Analog Electronics

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, the functioning of OP-AMP, design OP-AMP based circuits with linear integrated circuits.

#### Electrical Machines-I

After this course, the student will be able to

Identify different parts of a DC machine & understand its operation.

Carry out different testing methods to predetermine the efficiency of DC machines.

Understand different excitation and starting methods of DC machines.

Control the voltage and speed of DC machines.

#### Electro Magnetic Fields

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

To understand the basic laws of electromagnetism.

To obtain the electric and magnetic fields for simple configurations under static conditions.

To analyze time-varying electric and magnetic fields.

To understand Maxwell’s equation in different forms and different media.

To understand the propagation of EM waves

#### Mathematics-III

After learning the contents of this subject the student must be able to

Use the Laplace transforms techniques for solving ODE’s

Find the root of a given equation.

Estimate the value for the given data using interpolation

Find the numerical solutions for a given ODE’s

Analyze the complex function with reference to their analyticity, integration using Cauchy’s integral and residue theorems

Taylor’s and Laurent’s series expansions of complex function

#### Electrical Circuits

This Course is used

To understand the network theorems for AC&DC Excitations.

To understand Network Topology and Three-phase circuits

To analyze transients in Electrical systems.

To evaluate Network parameters of given Electrical network

To analyze Magnetic Circuits, and to design basic filter configurations

#### EHV AC TRANSMISSION SYSTEMS (PROFESSIONAL ELECTIVE – IV)

After completion of this course, the student will be able to:

Understand the basic concepts of EHV AC transmission.

Get the Knowledge on EHV transmission line inductance and capacitance

Understand the voltage gradients of conductor

Identify corona effects on transmission lines

Calculate electrostatic fields of EHVAC lines and its effects

Analyze travelling waves

Distinguish various compensators for voltage control

#### POWER QUALITY (PROFESSIONAL ELECTIVE – III)

After completion of this course, the student will be able to:

Know the severity of power quality problems in the 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

#### HVDC TRANSMISSION (PROFESSIONAL ELECTIVE – IV)

Course Objectives:

To compare EHV AC and HVDC systems

To analyze Graetz circuit and also explain 6 and 12 pulse converters

To control HVDC systems with various methods and to perform power flow analysis in AC/DC

systems

To describe various protection methods for HVDC systems and Harmonics

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

Compare EHV AC and HVDC system and to describe various types of DC links

Analyze Graetz circuit for rectifier and inverter mode of operation

Describe various methods for the control of HVDC systems and to perform power flow analysis

in AC/DC systems

Describe various protection methods for HVDC systems and classify Harmonics and design

different types of filters

#### POWER SYSTEM OPERATION AND CONTROL

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

Analyze the optimal scheduling of power plants

Analyze the steady-state behavior of the power system for voltage and frequency

fluctuations

Describe reactive power control of a power system

Design a suitable controller to dampen the frequency and voltage steady-state

oscillations

#### POWER SEMICONDUCTOR DRIVES

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

#### Fundamentals of Management for Engineers

Course Objective:

To understand the Management Concepts, applications of Concepts in Practical aspects of

business and development of Managerial Skills for Engineers.

Course Outcome:

The students understand the significance of Management in their Profession. The various

Management Functions like Planning, Organizing, Staffing, Leading, Motivation and Control

aspects are learnt in this course. The students can explore the Management Practices in their

domain area.

#### HIGH VOLTAGE ENGINEERING (Professional Elective-I)

At the end of the course, the student will demonstrate

Understand the basic physics related to various breakdown processes in solid, liquid and

gaseous insulating materials.

Knowledge of generation and measurement of D. C., A.C., & Impulse voltages.

Knowledge of tests on H. V. equipment and on insulating materials, as per the standards.

Knowledge of how over-voltages arise in a power system, and protection against these overvoltages.

#### MEASUREMENTS AND INSTRUMENTATION

After completion of this course, the student able to

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.

Apply the knowledge of smart and digital metering for industrial applications

#### POWER SYSTEM – II

Course Objectives:

To compute fault currents for different transmission line faults.

To understand performance of short, medium and long transmission lines.

To examine the traveling wave performance and sag of transmission lines.

Course Outcomes: After completion of this course, the student

Able to compute inductance and capacitance for different configurations of transmission lines.

Able to analyze the performance of transmission lines

Can understand transient’s phenomenon of transmission lines.

Able to calculate sag and tension calculations.

#### Power Electronics

Course Objectives:

To Design/develop suitable power converter for efficient control or conversion of power in drive applications

To Design / develop suitable power converter for efficient transmission and utilization of power in power system applications.

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

Understand the differences between signal level and power level devices

Analyze controlled rectifier circuits

Analyze the operation of DC-DC choppers.

Analyze the operation of voltage source inverters

Course Outcomes:

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

Analyze switching characteristics for active power devices

Analyse the operation of Rectifiers.

Analyse the operation of AC-AC converters.

Analyse the operation of DC-DC choppers.

Analyse the operation of voltage source inverters.