About Us

HOD’s Desk

Being the HOD of Electrical & Electronics Engineering Department of this prestigious Institution, it is my proud privilege and a matter of great joy to extend warm welcome to EEE Department.

The department of Electrical and Electronics Engineering was established in the year 2005. Presently the department is offering B.E in Electrical and Electronics Engineering and M.E in Power Electronics & Drives. The motive of department is to develop competent engineers with global perspective to cope -up with the fast-changing technology scenario. In addition to regular curriculum prescribed by Anna University, the students will undergo value added courses and placement training.  The infrastructure and lab facilities are upgraded from time to time and provide adequate opportunities for undergraduate students and post graduate students to learn and innovate. The Department has qualified faculty members with excellent academic records. The academic strength of the faculty is reflected by the alumni, many of whom are in the top echelons of industry and academia both in India and abroad. The students of our Department have secured almost cent percent placement in various high-profile companies. Our alumni who have gone on to distinguished careers as innovators in industry, living and working throughout the world, still have corporate and personal ties to the College through recruitment, mentoring, guest lectures, and other interactions. Research is another thrust area of the department.  Our faculty members and students are actively engaged in research and work to publish papers in international journals and conferences.

We take special care to ensure that new ideas are not merely discussed here but executed, our students has developed many innovative projects like solar powered bike and coconut tree climbing robot, both projects won many awards and are in the newspaper headlines. On the whole, we are committed towards creating quality professional community with strong background in practical knowledge.

Vision & Mission

            Vision

To provide the students with technical excellence in the field of Electrical and Electronics Engineering enabling them to become competent and responsible engineers to meet the global challenges.

            Mission

M1: Imparting quality education by providing excellent Teaching-Learning environment.

M2: Inculcating qualities of continuous learning, team spirit, communication skill and leadership with social responsibilities.

M3: Promoting research and development through collaboration with academia and industry.

Academics

Courses Offered

UG

BE – Electrical and Electronics Engineering

PG

ME – Power Electronics and Drives

PEO’s and PO’s

PROGRAMME EDUCATIONAL OBJECTIVES (PEOs)

Bachelor of Electrical and Electronics Engineering curriculum is designed to prepare the graduates having attitude and knowledge to

PEO 1         Have successful technical and professional careers in their chosen fields such as circuit theory, Field theory, control theory and computational platforms.

PEO 2         Engross in life long process of learning to keep themselves abreast of new developments in the field of Electronics and their applications in power engineering.

PROGRAM OUTCOMES (POs)

The graduates will have the ability to

PO1   Apply the Mathematical knowledge and the basics of Science and Engineering to solve the problems pertaining to Electronics and Instrumentation Engineering

PO2   Identify and formulate Electrical and Electronics Engineering problems from research literature and be ability to analyze the problem using first principles of Mathematics and Engineering Sciences

PO3   Come out with solutions for the complex problems and to design system components or process that fulfill the particular needs taking into account public health and safety and the social, cultural and environmental issues.

PO4   Draw well-founded conclusions applying the knowledge acquired from research and research methods including design of experiments, analysis and interpretation of data and synthesis of information and to arrive at significant conclusion.

PO5   Form, select and apply relevant techniques, resources and Engineering and IT tools for Engineering activities like electronic prototyping, modeling and control of systems and also being conscious of the limitations.

PO6   Understand the role and responsibility of the Professional Electrical and Electronics Engineer and to assess societal, health, safety issues based on the reasoning received from the contextual knowledge.

PO7   Be aware of the impact of professional Engineering solutions in societal and environmental contexts and exhibit the knowledge and the need for Sustainable Development.

PO8   Apply the principles of Professional Ethics to adhere to the norms of the engineering practice and to discharge ethical responsibilities.

PO9   Function actively and efficiently as an individual or a member/leader of different teams and multidisciplinary projects.

PO10 Communicate efficiently the engineering facts with a wide range of engineering community and others, to understand and prepare reports and design documents; to make effective presentations and to frame and follow instructions.

PO11 Demonstrate the acquisition of the body of engineering knowledge and insight and Management Principles and to apply them as member / leader in teams and multidisciplinary environments.

PO12 Recognize the need for self and life-long learning, keeping pace with technological challenges in the broadest sense.

MoU Signed

OrganizationActivities
EmCog SolutionsJoint Interdisciplinary Research and Developmental projects, Hands-on Commercial product Development Training, Sponsored Internships, Free Faculty Development program. Skill Development Training
VinTech Workshops, Seminars, Campus Training and Research Guidance on Electrical Design Softwares and Embedded System, Joint research projects in field of mutual interest
Acuwin Certificate course – REVIT MEP Training program

Infrastructure

Department Library

In a large space, the Department Library houses 904 volumes with more than 220 titles. The books explore all aspects of Electrical and Electronics Engineering, as well as new technologies.

Electrical Machines Laboratory

To expose the students to the operation of D.C machines, transformers, synchronous machines and induction motors and to impart them with experimental skill.

Power Electronics Laboratory

To study the characteristics of switching devices and its applications in rectifier inverter, chopper and resonant converter. This makes the student learn how to apply the electronic devices for conversion, control and conditioning of electronic power.

It also gives an idea of different types of power semiconductor devices and their switching characteristics.

This also helps to understand the operation, characteristics and performance parameters of controlled rectifiers. This lab gives an insite for different modulation techniques of pulse width modulated inverters and to understand the harmonic reduction methods. The Power Electronics Lab offers the student to get an idea of Matrix Converters.

Control Systems Laboratory

To expose the students to the principle of control engineering with specialized equipments – Servo motor, Synchros and stepper motor. To enhance the practical knowledge in simulation of first and second order systems.

Measurements and Instrumentation Laboratory

The aim of this lab is to fortify the students with an adequate work experience in the measurement of different quantities and also expertise in handling the instruments involved.

Its objective is to train the students in the measurement of displacement, resistance, inductance, torque and angle etc., and to give exposure to AC, DC bridges and transient measurement.

Power System Simulation Laboratory

The main aim of this laboratory helps the Electrical students to acquire software developments skills and Experience in the usage of standard packages necessary for analysis and simulation of power system required for its planning, operation and control.

Renewable Energy Systems Laboratory

The main objective of this lab is

  • To train the students in Renewable Energy Sources and technologies.
  • To provide adequate inputs on a variety of issues in harnessing Renewable Energy.
  • To recognize the current and possible future role of Renewable energy sources.

Industrial Visits

Industrial trips and excursions are important components for a student’s development. These activities supplement and enrich classroom learning and encourage new interests amongst students. Industrial visits represent important activities in any engineering undergraduate or post graduate programme that contribute to the achievement of various essential learning outcomes and programme objectives. The industrial visit is an integral part of the course. This is achieved through identifying learning outcomes and a suitable industrial site to achieve them. Objectives of industrial visit is to provide students an insight regarding internal working of companies. We know, theoretical knowledge is not enough for making a good professional career. With an aim to go beyond academics, industrial visit provides student a practical perspective on the world of work. It provides students with an opportunity to learn practically through interaction, working methods and employment practices. It gives them exposure to current work practices as opposed to possibly theoretical knowledge being taught at college. Industrial visit is considered as one of the tactical methods of teaching. Main aim of industrial visit is to provide an exposure to students about practical working environment .They also provide students a good opportunity to gain full awareness about industrial practices. Through industrial visit students get awareness about new technologies. Technology development is a main factor, about which a students should have a good knowledge. Visiting different companies actually help students to build a good relationship with those companies. We know building relationship with companies will always help to gain a good job in future. After visiting an industry students can gain a combined knowledge about both theory and practical. Students will be more concerned about earning a job after having an industrial visit.

List of the industries visited by our students.

Academic Year: 2014-2015

BatchIndustry Visited
2011-2015Hydro Electric Power station Perunchani

Academic Year: 2015-2016

Batch Industry Visited
2012-2016Visvesvaraya Industrial and Technological Museum, Bangalore

Academic Year: 2016-2017

Batch Industry Visited
2013-2017Kudankulam Nuclear Power Plant

Academic Year: 2017-2018

BatchIndustry Visited
2015-2019Sabarigiri Hydro Electric Power Plant

Academic Year: 2018-2019

Batch Industry Visited
2015-2019Transformers and Electricals Kerala Ltd (TELK),  Angamamaly

Academic Year: 2019-2020

Batch Industry Visited
2016-2020Thoothukudi Thermal Power Station

In-plant Training

Inplant training is a most important part of students. inplant training provides practical knowledge to the students and explain how the industry works. It is expose the students to actual working environment and enhance their knowledge and skill from what they have learned in the college.

Details of inplant training completed by our students.

Academic Year: 2014-2015

Sl. No.NameOrganization Where Training Undergone
1Akhila Nadh A SKELTRON
2Geethu R SKELTRON
3Vivek VTamilnadu Electricity Board (TNEB)
4Vinaya ChandranTamilnadu Electricity Board (TNEB)
5Sujith STamilnadu Electricity Board (TNEB)
6Ratheesh Kumar PTamilnadu Electricity Board (TNEB)

Academic Year: 2015-2016

Sl. No.NameOrganization Where Training Undergone
1ABHIRAMI GKerala state Electricity Board (KSEB)
2ASHIQ BIN ANSARIKerala state Electricity Board (KSEB)

Academic Year: 2016-2017

Sl. No.NameOrganization Where Training Undergone
1Neil ShahPrasar Bharathi
2Adarsh VPrasar Bharathi
3Sajin G SPrasar Bharathi
4Rahul C RajPrasar Bharathi
5Aneesh S NairPrasar Bharathi
6Sreekanth RKerala state Electricity Board (KSEB)
7Krishna A PKerala state Electricity Board (KSEB)
8Rakhi HameedKerala state Electricity Board (KSEB)
9Vyshna RKerala state Electricity Board (KSEB)
10Surya C UKerala state Electricity Board (KSEB)
11Sree LekshmiKerala state Electricity Board (KSEB)
12Russelin R PKerala state Electricity Board (KSEB)
13Manoj A TKerala state Electricity Board (KSEB)
14Aarathy Sreekumar I SKerala state Electricity Board (KSEB)
15Arpana A RKerala state Electricity Board (KSEB)
16AswathyKerala state Electricity Board (KSEB)
17Amal Muhammed AKerala state Electricity Board (KSEB)
18Jishnu AnandKerala state Electricity Board (KSEB)
19Vivek M RKerala state Electricity Board (KSEB)
20Sravan R SanalKerala state Electricity Board (KSEB)
21Jalaja KumariNUCLEAR POWER CORPORATION OF INDIA LIMITED
22Surya TNUCLEAR POWER CORPORATION OF INDIA LIMITED

Academic Year: 2017-2018

Sl. No.NameOrganization Where Training Undergone
1Anju M SKELTRON
2Sravan R SanalKELTRON

Academic Year: 2018-2019

Sl. No.NameOrganization Where Training Undergone
1Shalin Mohan KumarSOUTHERN RAILWAY
2Anju M SSOUTHERN RAILWAY
3Radhika S ASOUTHERN RAILWAY
4Sravan R SanalSOUTHERN RAILWAY

Placements

Academic Year: 2014-2015

Sl. No.Company NameNo. of Students
1Kocher Tech12
2Aagna corporate service Pvt. Ltd.4
3Shree Abhirami Engineering Works3

Academic Year: 2015-2016

Sl. No.Company NameNo. of Students
1Appasamy Association4
2SUTHERLAND3
3Tech Mahindra5

Academic Year: 2016-2017

Sl. No.Company NameNo. of Students
1Data Logics3
2Hexa Technologies3
3Tech Mahindra6

Academic Year: 2018-2019

Sl. No.Company NameNo. of Students
1Schneider Electric  India  pvt ltd.2
2Lead Pro12
3Future General7
4Tech Mahindra1

Publications

Journal Publications

  1. Ajitha priyadarsini.S, P.Melbamary, “ Load frequency control in co-ordination with frequency controllable HVDC links using fuzzy logic controller ” International journal of research in Engineering and Technology,e-ISSN:2319-1163 p-ISSN : 2321-7308, Vol.2,Issue 10 (2013) pp 311-316
  2. Ajitha priyadarsini.S, P.Melbamary, “ Load frequency control of two area power system in deregulated environment using PI controller” journal on Power Systems Engineering, ISSN-2321-7499 Vol.2(2014) pp 11-16.
  3. Ajitha priyadarsini.S, P.Melbamary,N.Albert singh “ Fuzzy logic based load frequency control of two area power system in deregulated environment” Applied Mechanics and Materials Vol. 626 (2014) pp 219-226.
  4. Ajitha priyadarsini S, Melba Mary P & Albert Singh N Stabilizing Frequency Oscillations of a Two Area Thermal-Thermal Power System in Deregulated Environment using Particle Swarm Optimized Fuzzy Logic Controller, Asian Journal of Research in Social Sciences and Humanities, ISSN: 2249-7315, 6, No. 9, September 2016, pp..1587-1599.
  5. Ajithapriyadarsini, S, MelbaMary, P & Willjuice Iruthayarajan.M, Automatic Generation control in Deregulated Power System using Genetic Algorithm Optimized Fuzzy Controller, Math. Inf. Sci. 11, No. 2, 479-487 (2017), ISSN:  2325-0399.
  6. Ajitha priyadarsini, P.MelbaMary, M.Willjuice Iruthayarajan, Automatic Generation Control of a multi-area power system with renewable energy source under deregulated environment: adaptive fuzzy logic-based differential evolution (DE) algorithm, Soft Computing, ISSN: 1432-7643.
  7. Dishore Shunmugham Vanaja & Albert Alexander Stonier.2020, ‘Grid integration of modular multilevel inverter with improved performance parameters’, International Transactions on Electrical Energy Systems, pp. 1-34. ISSN: 2050-7038 ,DOI: 10.1002/2050-7038.12667, (SCIE Impact Factor: 1.692)
  8. Dishore Shunmugham Vanaja & Albert Alexander Stonier.2020, ‘A Novel PV Fed Asymmetric Multilevel Inverter with Reduced THD For a Grid Connected System’, International Transactions on Electrical Energy Systems, vol. 30, no. 4, pp. 1-25. ISSN: 2050-7038 ,DOI: 10.1002/2050-7038.12267, (SCIE Impact Factor: 1.692)
  9. Dishore Shunmugham Vanaja .2020, ‘Design and Control of a Grid Integrated Modular Multilevel Inverter Using Harris Hawks Optimization’, Circuit World,ISSN: 0305-6120, DOI (10.1108/CW-07-2020-0124) (SCI Impact Factor: 1.698)
  10. Riya, Jeba& Dishore 2019, Predictive Control of Photovoltaic Grid Connected Cascaded H-Bridge Converters During Unbalanced Voltage Sags, Journal of Integrating Concepts, Special Issue, ISSN: 2456-6071
  11. Vyshna, Priyadarshini & Dishore 2019, Design of Decoupled Fuzzy Controller to Enhance the Transient Performance for the Current Control of PMSG Based Wind Turbine, Journal of Integrating Concepts, Special Issue, ISSN: 2456-6071
  12. Dishore, S, Bhubesh, M &Devdas, G 2013, Simulation of PMSM Vector Control System Based On Propeller Load Characteristic, International Journal Of Engineering Research &Technology , (IJERT) Volume 02, Issue 01 (January 2013) ISSN: 2278-0181.
  13. ‘Cost and Size Analysis of Power Electronic Converter Based Transformer Used in Power Quality Conditioners’, Priyadarsini, R & Dora Arul Selvi, B 2019, Journal of Electrical Engineering, vol. 19, no. 3, pp. 403-411, ISSN: 1582-4594.
  14. ‘Power Quality Amelioration in Wind Energy Systems using Flexible Power Electronic Transformer based UPQC’’, ‘R. Priyadarsini and B. Dora Arul Selvi’, Asian Journal of Research in Social Sciences and Humanities, Vol. 6, No. 9, September 2016, pp.735-750, ISSN 2249-7315.
  15. ‘Novel Design for Reduction of Transformer Size in Dynamic Voltage Restorer’, ‘R. Priyadarsini and B. Dora Arul Selvi’, Research Journal of Applied Sciences, Engineering and Technology, 8(19): 2057-2063, November 2014.
  16. ‘Power Quality Improvement for Matrix Converter using Shunt Active Filter’, ‘P.JenoPaul, I. Jacob Raglend, T.Ruban Deva Prakash and. R.PriyaDarsini’, International Journal of Computer Applications (0975 – 8887) Volume 11– No.2, December 2010.
  17. ‘Adaptive Based Controller for Three Phase UPQC as Solution for Power Quality Improvement in Sensitive Load’, ‘P.Jenopaul, T.Ruban Deva Prakash, I. Jacob Raglend and R. Priyadarsini’, JOURNAL OF COMPUTING, VOLUME 2, ISSUE 9, SEPTEMBER 2010, ISSN 2151-9617.

Conference Publications

  1. Ajitha priyadarsini.S, Dr.P.Melba Mary, “ Fuzzy logic based load frequency control of two area power system in deregulated environment” Proceedings of international conference on Energy Efficient Technologies for sustainability ICEETS’14 organized by St.Xavier’s Catholic College of Engineering, Nagercoil, April 2014
  2. Ajitha priyadarsini.S, Dr.P.Melba Mary, “ Load frequency control of two area power system in deregulated environment using PI controller” Proceedings of national conference on Communication, Information and Control Systems NCCICS-’14 organized by V.V.College of Engineering, Tisaiyanvilai, April 2014
  3. Ajitha priyadarsini.S, Dr.P.Melba Mary, ” Optimization of load frequency control system  in  deregulated multi area power system “, Proceedings of international conference on Engineering & Management ICEM 2015 organized by Narayanaguru College of Engineering, Manjalumoodu, March 2015
  4. Dishore S V, ‘Fault Identification and Remote Sensing of Photovoltaic Arrays Using IOTVirtual International Conference on POWER INITIATIVES ICPI-2020.
  5. Dishore SV,Vishnu VS, ‘Improved Step-Up Ratio And Highly Efficient Multiple Output DC-DC Converter’International conference on trends in Engineering and Technology,Science& Humanities and Management,ICTETSHAM’2015
  6. Dishore SV,Madhuri Singh ‘A New Single Stage AC-DC converter for Kinetic Energy Harvesting’ International conference on Emerging trends in Electrical Engineering, ETEE-2014
  7. Dishore SV, Binsimol,Varsha,NimyAsokan,Chithra Mohan ‘Distributed FACTS A New Concept for Realizing Grid Power Flow Control’ International conference on Emerging trends in Electrical Engineering, ETEE-2014
  8. Dishore SV,Bibin D ‘ANFIS Control For Renewable Interfacing Inverter In 3P4W Distribution Network Using Mamdani Method’ International conference on Emerging trends in Electrical Engineering, ETEE-2014
  1. ‘Design of Decoupled Fuzzy Controller to enhance the transient performance for the Current Control of PMSG based Wind Turbine’, R. Priyadarsini, Journal ICON , ISSN: 2456-6071, March 2019.
  2. Design and Analysis of FPET based Unified Power Quality Conditioner with ANN controller in Different Frequency Grids‟ Priyadarsini, R & Dora Arul Selvi, B 2019, IEEE International Conference On Electrical, Communication, Electronics, Instrumentation And Computing (ICECEIC – 2019) (30th -31st Jan 2019) (Accepted for Inclusion in IEEE Xplore Digital library).
  3. ‘Integrated inverter/converter circuit and control technique of motor drives with dual-mode control’, Binsimol.S.N, Priyadarsini.R, International conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, on 19th & 20th February 2015
  4. ‘Assessment of Performance of UPQC as Solution for Power Quality Improvement in Primary Distribution Line’, Priyadarsini R, National Conference on Communication,VLSI and Signal Processing (NCCVSP 10) Organised by The Indian engineering college, Vadakankulam on 8th & 9th April 2010.
  1. Akhil.A.G, S.Sivaram,” Load power regulation along with improved power factor using DC link feedback voltage and duty ratio control “, Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  2. Anwar Salim, Dishore.S.V, “Stabilization & improvement of wireless power transmission using new techniques of power electronics “,Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  3. Aswathy.S.L, S.Sivaram, “Flyback inverter using BCM topology for reducing THD”, Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  4. Binsimol.S.N, Priyadarsini.R, “Integrated inverter/converter circuit and control technique of motor drives with dual-mode control “,Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  5. Chithra Mohan, Evangelin Jeba.J, “Multiport converter based on integration of full bridge converters & bidirectional DC-DC converters “ , Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  6. Nikhil Raj.K.R, Jabas EdwinRaj.R, “A hybrid cascaded multilevel converter for battery energy management system “,Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  7. Nimy Asokan, Manjusha.M, “Bridgeless SEPIC converter with a ripple free input current “ , Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  8. Nirmal Boban Zachariah, Ajitha priyadarsini,S, “Harmonic mitigation method for a single phase inverter without using an output filter”, Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  9. Remya.P, Evangelin Jeba.J, “Improving power factor and efficiency using ZVS and series resonant DC-DC converter “,Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  10. Renjith.D.G, S.Sivaram, “A control-oriented power pulsation decoupling strategy with low-frequency ripple-free input current fuel cell power conditioning system” , Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  11. Shilpa Nair.T.S, Anitta Selvi.S.L, “A new space vector modulation method for buck-boost voltage/current source inverter for electric vehicle motor drive”, Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015
  12. Sunila.S, S.Sivaram, “Hybrid switching topology to reduce the circulating losses and filter requirement enabled in full bridge DC-DC converter “,Proceedings of international conference on Trends in Engineering & Technology, Science & Humanities and Management ICTETSHAM ‘ 15 organized by Tamizhan College of Engineering & Technology, Nagercoil, February 2015

Book Publications

  1. Dishore S V “Power Systems Stability (2020)” 978-93-87950-60-3, Book Published by Lakshmi Publications Chennai
  2. Dishore S V “Control Of Electrical Drives (2020)” 978-93-87950-54-2, Book Published by Lakshmi Publications Chennai
  3. Dishore S V “Modern Power Converters (2020)” 978-93-87950-39-9, Book Published by Lakshmi Publications Chennai
  4. Dishore S V “Automotive Electrical and Electronic Systems (2019)” ISBN 978-93-87950-33-7, Book Published by Lakshmi Publications Chennai
  5. Dishore S V “SMPS & UPS (2018)” ISBN 978-93-86590-46-6, Book Published by Sri Krishna Hitech Publishing Company

Patent

“A Reduced Switch Modular Multilevel Inverter with Fault Tolerant Capability” Inventors S.V Dishore & Albert S Alexander. (Application No:202041047725A) Date of Filing:02.11. 2020. Publication Date:13.11.2020