SPARKS TEAM
EDITOR Dr.K.Kalaiselvi, Professor &HOD
STAFF EDITOR
Mrs.Deva Brindha,AP(Sl.Gr)/EEE
Mrs.P.Divya, AP/EEE
STUDENT EDITORS MONISHAA.SS IV-A
PRIYANKHA.B IV-B
STUDENT MEMBERS MANIMALA III-A
AKSHAY III-A
SANGEETHA III-B
SENTHIL III-B
AISHWARIYA II-A
AUDITHYA II-A
SHIVANI II-B
RENGARAJ II-B
CREATIVE CUSTOMIZER
M.SELVA DURAI IV-B
CONTENTS: MESSAGE
FROM HOD
DESK
STUDENT
ACHIEVEMENTS
PLACEMENT
UPDATES
INAUGURATIO
N OF SEEE AND
IETE
WORKSHOP
LATEST
INNOVATION
MESSAGE FROM HOD DESK
Greetings!!!
Since the semester practical and semester exams are
approaching, I would like to wish my students good luck. I would also
like to urge them to give their best in the exams and perform
extremely well. ’VICTORY’ should be our only motto from today.
Also I am very specific in achieving 100% results in theContinuous
Assessment Test-III. I truly hope all my students and faculty members
will work towards reaching this goal.
Dr.K.Kalai Selvi
HOD/EEE.
STUDENT ACHIEVEMENTS
EVENT NAME: AWARENDO
CONDUCTED BY: YOUTH RED CROSS OF EASWARI
ENGINEERING COLLEGE
COMPETITION: PHOTOGRAPHY AND
SHORT FILM MAKING
STUDENT NAME: YASHWANTH K.S(III-B)
PRIZE WON: FIRST PLACE
COMPETITION: PAPER PRESENTATION
STUDENT NAMES: PRIYANKA.S AND
PRIYADHARSHINI(III-B)
PRIZE WON: FIRST PLACE
COMPETITION: JUNK ART
STUDENT NAMES: YASHWANTH K.S AND
S.VARUN(III-B)
PRIZE WON: SECOND PLACE
COMPETITION: ADZAP
STUDENT NAMES: YASHWANTH K.S AND
S.VARUN(III-B)
PRIZE WON: FIRST PLACE
EVENT NAME: PAPER PRESENTATION CONTEST
CONDUCTED BY: PERI INSTITUE OF TECHNOLOGY
STUDENT NAME: VAISHNAVI(III-B)
PRIZE WON: SECOND PLACE
EVENT NAME: BASKETBALL ZONALS
STUDENT NAME: VARSHA(III-B)
PRIZE WON: THIRD PLACE
PLACEMENT UPDATES
Our Department final year students are in the urge of getting placed
and striving hard for it. As a result, the count has given a hike which
is shown below.
TCS: UG – 62; PG – 2
Embed UR – 1
Wipro – 2
VVDN Technologies – 1
IGate – 2
ZOHO – 1
UST Global – 1
Total offers – 72
INAUGURATION OF SEEE AND IETE
The inauguration of “SOCIETY OF ELECTRICALS AND
ELECTRONICS ENGINEERING“and “INSTITUTION OF
ELECTRONICS AND TELECOMMUNICATION
ENGINEERS” was held on 17th September 2015. The event was
conducted in the presence of our Principal, Head of the Department
(EEE), Staff Co-ordinators of SEEE and IETE seated on the dais. The
event was inaugurated by Mrs. TUNE USHA. After the Introduction
of the office bearers, the Annual Report was read out by the
respective Presidents. The Inauguration was followed by a Guest
Lecture.
OFFICE BEARERS FOR SEEE (2015-2016)
PRESIDENT: Vivin Pearl Kishore (IV-B)
VICE-PRESIDENT: K.S.Yashwanth (III-B)
COORDINATOR: B.V.Aishwarya (IV-A)
TREASURER: Shanmugaraja (IV-B)
JOINT TREASURER: S.Jagannathan (III-A)
SECRETARY: R.Shivani (II-B)
JOINT SECRETARY: Gokula Kannan.RJ (II-A)
MARKETING HEAD: Pradeep. R (IV-B)
ASSOCIATIVE MARKETING HEAD: Manoj Kumar (III-A)
BRANDING EXECUTIVES:
Sivaprakash (IV-B)
E.Sandiya (IV-B)
Akshay Kumar (IV-B)
EVENT CO-ORDINATORS:
N.Kirubakar (IV-B)
R.Rajakumar (IV-B)
Riyazul Huq (IV-B)
PROCTOR HEAD: Sathish.M (IV-B)
ASSOCIATIVE PROCTOR: Varun (III-B)
QUALITY HEAD: Kapil.M (IV-A)
CREATIVE HEAD: Sahana.S (IV-B)
DATA HEAD: Aishwarya.GVP (IV-A)
PHOTOGRAPHY HEAD: Akshay Venkat (IV-A)
Office Bearers for the year 2015-2016
OFFICE BEARERS OF IETE (2015-2016)
PRESIDENT- Priyankha.B EEE (IV-B)
VICE-PRESIDENT- Yuvanesh ECE (III-C)
SECRETARY- Aravind.P EEE (III-A)
TREASURER- Chandrajit ECE (III-A)
JOINT TREASURER- Rajesh EEE (III-B)
Workshop Conducted by EEE Department
A workshop on “FINITE ELEMENT ANALYSIS OF
ELECTRICAL APPARATUS USING MAGNET-BASIC
APPROACH” was conducted by the EEE department on 28th
September 2015.
It was a one-day workshop with participants from within the
college and other colleges. The workshop began around 9:30am with
the inauguration. Mr.R.ARUMUGAM, Professor, SSN College Of
Engineering was the Chief Guest.
The workshop was conducted by Mr.Lenin from VIT University,
Chennai. The workshop was divided into two sessions,
theoreticalsession on “Magnetic field concepts” and “Design of
electrical apparatus” and practical session on Hands on training on
Magnet Software
The morning session was a theoretical session and the afternoon
session was a practical session conducted in the Simulation Lab. The
event ended at 3:45pm. It was on the whole a very interesting and a
new experience and learning for all students.
LATEST INNOVATION
Magnetic fields provide new way to communicate
wirelessly
Electrical engineers at the Univ. of California, San Diego
demonstrated a new wireless communication technique that works by
sending magnetic signals through the human body. The new
technology could offer a lower power and more secure way to
communicate information between wearable electronic devices,
providing an improved alternative to existing wireless communication
systems, researchers said.
While this work is still a proof-of-concept demonstration,
researchers envision developing it into an ultra-low power wireless
system that can easily transmit information around the human body.
An application of this technology would be a wireless sensor network
for full-body health monitoring.
“In the future, people are going to be wearing more electronics,
such as smart watches, fitness trackers and health monitors. All of
these devices will need to communicate information with each other.
Currently, these devices transmit information using Bluetooth radios,
which use a lot of power to communicate. We’re trying to find new
ways to communicate information around the human body that use
much less power,” said Patrick Mercier, a professor in the Depat. of
Electrical and Computer Engineering at UC San Diego who led the
study. Mercier also serves as the co-director of the UC San Diego
Center for Wearable Sensors.
Communicating magnetic signals through the human body:
The new study presents a solution to some of the main barriers
of other wireless communication systems: in order to reduce power
consumption when transmitting and receiving information, wireless
systems need to send signals that can easily travel from one side of
the human body to another. Bluetooth technology uses
electromagnetic radiation to transmit data; however these radio
signals do not easily pass through the human body and therefore
require a power boost to help overcome this signal obstruction, or
“path loss.”
In this study, electrical engineers demonstrated a technique
called magnetic field human body communication, which uses the
body as a vehicle to deliver magnetic energy between electronic
devices.
An advantage of this system is that magnetic fields are able to
pass freely through biological tissues, so signals are communicated
with much lower path losses and potentially, much lower power
consumption. In their experiments, researchers demonstrated that the
magnetic communication link works well on the body, but they did
not test the technique’s power consumption. Researchers showed that
the path losses associated with magnetic field human body
communication are upwards of 10 million times lower than those
associated with Bluetooth radios.
“This technique, to our knowledge, achieves the lowest path
losses out of any wireless human body communication system that’s
been demonstrated so far. This technique will allow us to build much
lower power wearable devices,” said Mercie.