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Electrical and Electronics Engineering

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Electrical and Electronics Engineering is an exciting and dynamic field which will continue to serve the needs of society through the economic and responsible exploitation of existing technology and the development of innovative ideas. The Department's mission is to produce quality Electrical and Electronics Engineers with high technical knowledge and good practical basis, combined with good leadership skills and good decision making capabilities. The department has modernized laboratory such as Machines Lab, Measurements and Instrumentation Lab, Control System Lab, Power Electronics and Drives Lab, Power System Simulation Lab, embedded system Lab. All the laboratories are well equipped with latest equipments to provide intensified training and to prepare the students for research and development activities in order to make them industry ready.


To produce globally competent, innovative, ethical, socially responsible and academically excellent graduates in Electronics and Communication Engineering.


  • Imparting high quality education with value added programs through state- of- the- Art facilities to prepare technically strong engineers with social awareness.
  • Addressing the needs of the people’s aspirations and to our local needs on the Emerging technology.
  • Promoting excellence towards productive careers in industry, research and entrepreneurship.

Programme’s PEO’s,

1. Have strong foundation in mathematics, science, and engineering fundamentals and advanced concepts towards their successful career in industries, research and entrepreneur.

2. Analyze, design and implement various electrical, electronics and interdisciplinary projects, addressing the industrial and social needs.

3. Have effective communication and leadership skills with ethical values.

Programme’s PSO’s,

1. Attain in-depth knowledge and design skills in Electrical Power Systems, Electrical Drives, Power Electronics and Control, Electronics and Digital Electronics.

2. Acquire specialized skills in Solar Power Applications, High Voltage Engineering and competency for competitive examinations.

Curriculum UG


HS8151Communicative English
MA8151Engineering Mathematics - I
PH8151Engineering Physics
CY8151Engineering Chemistry
GE8151Problem Solving and Python Programming
GE8152Engineering Graphics
GE8161Problem Solving and Python Programming Laboratory Laboratory
BS8161Physics and Chemistry Laboratory








Laboratory Facility


Electrical Machines Laboratories


Engineering Practice Laboratories


Measurement & Instrumentation Laboratories


Control Systems Laboratories


Power System Simulation laboratories


Power Electronics Laboratories


Electrical Drives & Control Laboratories


Electrical and Electronic Laboratories


PG Embedded Systems Laboratories


S.No Topic Student Name Aim
1 Design of an raspberry based warfare car robot using sensor network connectivity Pranav Prakash, Umar A,Vikash Kumar,Vigneshwaran S This project is to design, build, and test a robot capable of spying in the battle fields and remote survillence during natural disasters like earthquake etc. The robot will be controlled by an operator via wireless remote control.
2 H8 Inverter to Reduce Leakage Current in Single -Phase Induction Motor with PV System S.Pavithra, A.Ramya, G.Banupriya, A.ChandralekaS The proposed H8 topology reduces the leakage current as well as common-mode voltagevariationsthroughtheseparationofthePVarrayfromthe motorduringthezerovoltagestates.
3 Harmonic Reduction Using Multilevel Inverter with Reduce Number of Switchesfor Stand Alone Application Roja.M,Sivasrinithi.B, Sowmiya.T,Vidhya.S This project aims to reduce the number switches with increases in levels. To resolve the problems related to DC source fluctuations of multilevel inverter used renewable energy integration we use neural networks.To have high quality output waveforms,low THD,low electromagnetic interference(EMI),and lower voltage stress over switches.SPWM cascade fullbridge single phase 13 level inverter with optimized phase shift modulation is introduced.
4 ENERGY AUDITING Pavithra U, Priyadharshini M, Ranjitha B, Shalini K S The Power crisis are the big brain twister of India, Over 200 million people in India still have no access to electricity. In such circumstance there is only a way to meet our energy demand that is Energy conservation which is done by energy audit and better energy management. The primary motto of Energy Audit is to determine ways to reduce energy consumption per unit of product output or to lower operating costs. The energy audit results in better energy management which results in energy conservation.
5 A Cleaning Robot for Solar Panel S.Priyasakthi, S.Sathyapriya,.L.Shanmugapriya ,M.Yamunarani S Dust particles accumulating on solar panel will decreases the solar energy reaching the solar cells thereby reducing their overall power output. The solar panel is cleaned automatically by using robot . Through this project the efficiency of the power generation can be improved and also the power generation can be monitored.
6 IOT Based Glugose Bottle Monitoring And Control System Purusothaman.A.P, Poovarasan.S, Gokula Krishnan.M Vijaykumar.A The Smart glucose monitoring system is to avoid the reverse flow blood from patient and the patient will be safe in health cares.
7 Design and Implemention of Biometric Authentication for Accident Victims Using IOT Sakthiprasanth P,Venkatesan E,Sachinkumar M,VasanthanS The obtained biometric pattern would be matched with the existing biometric pattern of database, If the Biometric patterns matches ,the centralized server displays the details about the individual (with his/her family members contact numbers) to the health care centre’s through which the request for individual identity were been made. The Health care centre’s as to take of the responsibility for alerting the family members of the patient. using PIC controllers give better efficiency.
8 Real Time Implementation of Fire Fighting Robot Thiyagu M, Dinesh T, Mani B, Praveenkumar C The Fire incident is a disaster that can potentially cause the loss of life, property damage and permanent disability to the affected victim. They can also suffer from prolonged psychological and trauma. Fire fighters are primarily tasked to handle fire incidents, but they are often exposed to higher risks when extinguishing fire, especially in hazardous environments such as in nuclear power plant, petroleum refineries and gas tanks. They are also faced with other difficulties, particularly if fire occurs in narrow and restricted places, as it is necessary to explore the ruins of buildings and obstacles to extinguish the fire and save the victim. With high barriers and risks in fire extinguishment operations, technological innovations can be utilized to assist firefighting.
9 Rectifier with Charging Control Sanjay S, Sakthivel S,Siva K ,Elavarasan P The Charge Controlled Rectifier come in a variety of shapes, sizes and ratings according to the application but all include an electronic current limit and voltage control facility to maintain your battery in Tip-Top condition at all times. Thyristor/diode bridge rectifier enabling the unit to be connected directly to a suitably rated main transformer assembly and battery using just four connections.
10 C Motor Speed Synchronization for Rolling Mills Sithaian.V Sugumar.K,Mahalingam.P,Vignesh.M This project microcontroller controls DC motor wirelessly through RF. Microcontroller generates signals that are transmitter by transmitter. These signals are received by DC motor controlling unit and it controls the operation of DC motor. PIC is used at receiver side which detects the signal and controls the operation of motor. RF interface is chosen to establish wireless connection between computer and controlling unit
11 Advanced EMG Based Bionic Arm with SPO2 Monitoring Poovarasan L, Sivaguna G, Puvilarasu S, Ranjithkumar P This project aims at developing a movable robotic arm that is controlled by the EMG signals taken from the muscles of the upper limb. Using these EMG signals, the interface between user and the robotic arm can be controlled. The system consists of arm control part and an ECG Monitoring the heart that useful to the users.
12 Advanced EMG Based Bionic Arm with Heart beat Monitoring Suresh J,Vignesh A,Tamilarasu S,Tamilpavalan R The microcontroller is used to generate signals to control the mechanical arm based on the EMG input signals. Smart Health Monitoring Device that can measure SPO2 (Percentage oxygen in the blood) and BPM (Beats Per Minutes).SPO2 and Heartrate measurements were performed from the index finger, forehead and temporal bone. Reference measurements were taken with pulse oximeter from the right index finger simultaneously during all measurements. This project is that we can connect to an Android app Blynk that will record and regularly update the data for both SPO2 and BPM on the internet .The arm can be used for multiple tasks such as bomb diffusion, aid for needy people, surgical purposes etc.
13 IOT based smart energy meter monitoring system Sailesh Kumar Sah,mNithishkumar C, Sathiyaseelan V The system consumer can do power management by knowing energy usage of time,the consumer needs to pay the bill on schedule,if couldn’t electric power connectivity can tuned off autonomously from the distance of host.
14 A smart controlling for Agriculture pumps using LORA Gomathi P, Indira S, Thiripurasoundari P This project is useful for farmers. Many people residing at different place from their agriculture land. Designing a remote control system, that switches irrigation pumps on and off. LORA (Long Range communication device used. It consist of two circuits, first circuit used for turn on and turn off Electrical motors and other one control and monitoring the pumps. All this activities performed with the help of a mobile phone.
15 Retrieval of Corp cutting machine Megala S, Priyadharshini M, Priyadharshini M Corp cutting machines, used to cut the corps in the field and road side. Usually it operated with the fuel, in this project we designed and implemented, solar power corps cutting machine. Grass cutter usually works in open environment, so it is possible to access the solar ray in day time to charge the batteries. DC motor used for cutting operation. System control by Arduino UNO and Rasberry pi3. Through this project we can reduce the fuel cost and air pollution.
16 Aging factor analysis for Corp cutting machine Kalaiselvi E, Nalini C, Naveenpriya V Traditional Corps cutting machine consist of mechanical grass cutter operating with the help of two or four stroke petrol engine. In our project, we replaced petrol engine with DC motor, used as mechanical power source for a new electric type brush cutter. Li-ion battery used in addition with DC motor speed control circuit and protection circuit included. The main feature of this project is less vibration, low acoustic noise, free from air pollution and low cost.
17 Leakage current analysis in insulator using IOT Ajithkumar T, Kalaikumar G, Karthikeyan V Monitoring of leakage currents on various types of insulators, the test provides the performance of outdoor insulators in various pollution zone. The insulator profile affects the accumulation of pollutants. Control of leakage current by the insulator design depends on the types of pollutant. This technique results the corrective maintenance of transmission lines, provided the type of pollution and the critical leakage currents are analyzed periodically. The leakage current values with flashover risk from laboratory test for various types of insulators determined. It ensures the reliable transmission line operation in pollution zone.
18 Online monitoring of battery management system using IOT Govindaraj M, Kalaiyarasan V, Kanishkar S, Ragul N Battery is the most essential component of any vehicle, so maintenance of a battery is very much essential. Lithium phosphate batteries are more commonly used in the E-vehicles. It need to be efficiently monitored to perform better under all circumstances. So, a more systematic battery management system needs to be implemented so that the performance of the battery can be monitored continuously. This Battery Management System (BMS) aims at detecting the emission of these gases from the battery, when it is overcharged, and monitors the other basic parameters such as Voltage, Current, Temperature of the battery using STM controller and sensors. It is also equipped with GPS module, which enables tracking of vehicles. Also these values are displayed in Cloud, which brings the concept of Internet of Things (IoT).
19 DC to DC converter for electric vehicle Mohan S, Nandha Kumar R, Selvavignesh C, Vignesh S An integral part of any modern day electric vehicle is power electronics circuits (PESC) comprising of DC-AC inverters and DC-DC convertors. This projectpresents overview on state of the art DC-DC converters used in electric vehicles. Several DC-DC converters such as isolators, non isolated, half bridge unidirectional and bidirectional topologies and the applications in electrical vehicle are presented. Aiming at the problems existing in the two-stage electric vehicle OBC phase-shifted full-bridge soft-switching DC/DC converter, a full-bridge DC/DC converter with clamp diode and synchronous rectification is proposed. Clamping diodes are added to realize a wide range of soft switch and eliminate the voltage oscillation of the secondary rectifier. The operating principle and control method of DC/DC converter are analyzed, and the switching device loss is calculated.
20 Speed control BLDC motor Hariharan P, Jayasuriya B, Praveen Kumar P, Sanjeevan K Brushless DC Motor overcomes many problems of the brushed DC Motor and has been widely applied in various fields. The development of BLDCM control system requires reliable operation, excellent performance ofcontrol algorithm, low cost and short development cycle. This project proposes the speed control of BLDC motor for an electric vehicle. The flexibility of the drive system is increased using digital controller.The DC – DC converter is implemented using Smart Power Modulefor feeding BLDC motor. The proposed system accepts Hall sensor signals from the motor and is programmed for desired speed.Experimental results verify the effective developed drive operation.
21 Electric Tricycle using IOT Karthick S, Mohan Raj S, Naveen Kumar K, Rajasharma R The main objective ofthis project is to control a wheel chair by using speech recognition module. The system is designed to control a wheel chair using the voice of the physically disabled person. The goal of this system will allow certain people to live a life with less dependence on others for their movement as a daily need. Speech recognition technology is a key technology which will provide a new way of human interaction with machine or tools. Therefore the problems that they face can be solved by using speech recognition technology for the movement of wheel chair. This can be realized and optimized with use the smart phone device as an intermediary or interface. In this project interfaces has been designed therefore to develop a program for recognize speech also controls the movement of chair and an application which can handle or manage the graphical commands. This project uses arduino kit Microcontroller circuit and DC motors to create the movement of wheel chair and Ultrasonic Sensors to detect the hurdles in between wheelchair and the way of direction
22 Home appliances control using NODE MCU Arun Kumar A, Chandrasekaran V, Manikandan S, Sudhakar P This project presents a low cost and flexible home appliances control and environmental monitoring system. It employs an embedded micro-web server in NODE MCU microcontroller with IP connectivity for accessing and controlling devices and appliances remotely. These devices can be controlled through a web application or via Bluetooth Android based smart phone applications. It proposed system does not require a dedicated server PC with respect to similar system and offers a novel communication protocol to monitor and control the home environmental with more than just the switching functionality. To demonstrate the feasibility and effectiveness of the system devices such as light switches, power plug, temperature sensor, gas sensor and motion sensors have been integrated with the proposed home control system. Therefore this system has been successfully designed and implemented in real time.
23 Smart metering for e – bike Ajithkumar P, Balasubramani M, Chinnamani T, Govindharaju S Smart meters and smart grid functionality enabling EVs to be charged during periods of off-peak power demand, the report elaborates on how this ability to smooth out peaks and troughs in power demand could help lower both overall costs and carbon emissions across the energy system. As most consumers are expected to want to be able to charge their electric vehicle at home, smart meters will play a critical role in making this process “reliable, cheaper and greener”, the report outlines. The Li-ion battery used in the project. This smart meter will provide details of battery charging details.
24 Speed control of Electric Tricycle – PMDC motor Dinesh K, Gopalakirshnan R, Selvendhiran J The basic tricycle is three wheeled design, pedaled by disabled persons in the side and seat in the middle for sitting arrangement. We use only one hand to steer the handle because other hand is used to rotate the pedal. Our aim is to design and fabricate a low cost tricycle for the handicap people to be propelled by the novel link mechanism attached to the steering column converting into cranking, using the advantage of leverage, with proper balance and distribution. PMDC motor used, Speed control of this motor implemented using efficient techniques.


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