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8/10/2019 Electro Bytes

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What’s

Inside?

From HOD’s Desk 

An epistle from HOD: the set of

skills that will be imperative for

engineers of tomorrow… 

The smart Bulb

A new kind of LED light bulbs

could help to ease those peaky

transitions between night and

day… 

Digitalizing India

The government directs its top

guns towards digitalising the

nation…. 

I had the confidence that I would

do justice to the profession and

started teaching… 

The Crux of EC de artment

The department and its main

modules at a glance… 

Quanta-Exploring imaginations  

The department’s official

society-its missions and

visions… 

Reminiscing memories with KHNV Lakshmi

The bionic Man !

He walks, he talks and he has a

beating heart, but he's not

human… 

Technology focus: Age of 3-D integration

Zooming in the new age of

integration :The 3D integration....

Utilizing the wind energy

The windmills that

Recharge your cellphone… 

E-Textiles

The concept of smart and

intelli ent clothin … 

Circuit Simulators

Circuit simulators that everyengineer must know… 

Techno-Fun

CROSSWORD

Try it yourself

A lie detector

DIY module…. 

In conversation… 

An exchange with Gaurav

Srivastava…. 

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About Us

The Editor-in-chief

Prof. Dinesh Chandra(Head of the Department)

Editor

Mrs. Chhaya Grover

(Associate Professor)

Editorial Team

Utkarsh Kant (4th

 year)

Siddhartha Agarwal (3rd year)

Anshita Agarwal (3rd year)

Designing Team

Shashank Raj(4th year)

Divyanshi Rastogi(3rd

 year)

Sparshi Jain(3rd

 year)

Management Team

Anisha Srivastava (4th

 year)

Akshay Kumar (3rd

 year)

Aayush Singhal (3rd

  year)

CONTACT US

Email:

[email protected] 

https://m.facebook.com/eelectrobytee 

Last two decades have been very significant as far

as the impact of technology on society is

concerned. Ability to send information of any

type, anywhere, and anytime has altered the way

societies live and transact their businesses, be it

education, production of goods, selling of goods,

entertainment, information transaction between

individuals, individual to masses, health care,governance etc. Every aspect of social order is

getting affected, this is only the beginning of

changes in a technology driven society. What

technology holds for the society is any one’s

guess? Some of the scientists and thinkers have

tried to predict what science and technology holds

for us, say by 2030. Michio Kaku (Great Physicist

of our time) expresses in his book ‘Physics of the

Future’ and video lecture ‘The world in 2030’

(You Tube), a glimpse of technology driven

society and our role in it. This is just decade andhalf away.

To stay relevant as an engineer, or as a

technologist, or as a scientist in tomorrow’s

society is not going to be easy for any student.

Therefore, effective utilisation of four years for

any student in the institute has become very

crucial. One can choose to improve upon their

class room participation by doing following:

  Asking questions.

  Studying together.

  Not blaming your Professor.

  Being prepared to work hard but know your

limits.

  Getting involved with the work.

  Taking notes. (Do not use electronic devices)

  Taking pride in your work.

  Not underestimatin ourself.

  When in doubt, draw the blocks

connect them logically and see if

system works.

  Get enough physical exercise,

health is real wealth.

Above will help you in grooming

yourself with the set of skills that will

be imperative for engineers of

tomorrow.

I welcome all undergraduate and

postgraduate students who have

joined the department during currant

academic year. I hope they value their

time and utilise departmental facilities

optimally. Department has also

submitted application for

accreditation of its undergraduate

program to NBA. NBA team is likely to

visit the department during the first

half of the next semester. The focus ofassessment will be ‘outcome based

education (OBE)’. A buzz world for

tomorrow’s engineering education in

India. Our country has also become a

full member of Washington Accord.

Let’s have good time during the

semester. Good luck and Bye.

From HOD’s Desk 

The EC department follows a modular approach and comprises of four modules as seen below:

CRUX OF EC DEPARTMENT

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Quanta the official technical society of our college established in 2000 with a motto to develop theoretical

cum practical knowledge that enhances a persons’ command over different domains of electronics including

embedded systems, robotics ,VLSI ,simulation. It seeks to ignite the spark of electronics in every student who

belongs to this field and gives the exposure to move on. More than 75 workshops have been conducted since

then proving it to be a constant facilitator in scientific and technical education of students. Adding to the array

was the workshop on advanced embedded system conducted last month which lasted for 3 days. More than

70 students participated making a total of 18 LFRs.

QUANTA has a young and dynamic team with a passion for electronics, trying to prove its existence above all

other similar societies .Its members have made the college proud by winning accolades in competitions such

as TIIC ,Intel Innovation Challenge and various techfest .Recently it has recruited 20 more very passionate

enthusiast from all branches of 1st

 year B.tech. And this quest of excellence continues...

Anshita Agarwal,3rd

 year

Quanta –Exploring Imaginations….. 

Reminiscing

Memories with

Prof.KHNV

Lakshmi….. 

The Department bid

arewell to one of its most

promising professors on

12th May 2014.Here are

some excerpts from the

nterview by Siddhartha

Agarwal, wherein she

shares some of her

profound memories.

Interviewer: How does it feel when you look back upon the time that you spent in JSS? KHNV Lakshmi: It feels great that I had served JSS for such a long time. I feel very

sad that I had to leave JSS.

Interviewer:  How did you choose to be a teacher?

KHNV Lakshmi: I suppose it’s in my blood. I did not opt for teaching as my first job as I

believed that one needs to have practical exposure to be a good teacher. After working

in the industry for about 9yrs, I had the confidence that I would do justice to the

profession and hence started teaching.

Interviewer: If not JSS, where would you have been?

KHNV Laksmi: If not JSS, may be I would have not been a teacher, but an R & D

engineer in any of the core electronics company or in corporate training. Since, the

environment at JSS was too good which no other college in NCR had provided I

chose to enter this profession.

Interviewer : What do you miss the most about JSS?

KHNV Lakshmi: Teaching has always been a passion for me. So, I miss my students

the most. Of course the wonderful ECE department, my colleagues and HOD who was

always willing to guide the students and the faculty.

Interviewer:  A few notable words to students…. 

KHNV Lakshmi:Education means overall personality development with human valuesand ethics not only degrees.

So one should study to gain knowledge, not for marks or degrees. Once you gain

knowledge you will earn degrees automatically.

The key to success is sincerity and discipline. Its al about competing with

yourself so do not compete with others compete with yourself and never get

disheartened by your failures.

Do not let your success go above your head. The more you learn the more

humble you are and cultivate the habit of lifelong learning. The best teacher isthe nature and your experience.

I believe a good student makes a good teacher.

Interviewed by-Siddh artha Agarw al

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Waking up is hard to do. But a new kind of LED light bulbs could help to

ease those peaky transitions between night and day by coaxing

cooperation out of your melatonin levels. Melatonin is the hormone in

charge of making you feel sleepy , and your levels go up and down on a

24 hours cycle each day. When you wake up bright eyed and bushy

tailed, your melatonin levels tend to be low. But as the day gets longer

and the sun starts to go down, the hormone production will ramp up

again.

LED TO THE RESCUE:

The problem is if you are a graduate student, or you work the night

shift, or your bed happens to be on the International Space Station

where the sun rises every 90 minutes),you don’t have the luxury of

going to the bed when the sun goes down. Luckily, a company called

Lighting Science has an app for that.

Their smart bulb, called Rhythm Downlight ,works like this, as per the

popular science:You program your desired sleep schedule in the app,

which syncs up with the specially designed digital LED light bulb. When

t’s time to ramp up for your next shift ,the bulb will emit more light in

the blue spectrum ,which shuts down melatonin production ,helping

you to feel awake .But when it’s time to crash ,the blue light is no more,

allowing you to drift off. At this point the company produces a pro-wake

bulb and a pro  –  sleep version. The rhythm Downlight version ,which

aims to alternate between the two, is due for release this summers.

Somya Mogha ,3rd 

 year

SMART BULB HELPS YOU SLEEP AND

WAKE ON SCHEDULE

In this era of instant coffee, where the word is moving from

snailmail to hotmail, the government has directed its top

guns towards, the digitalising the nation. The Modi

Government has taken up the half baked plans and worked

upon them to expunge the economic woes of the nation.

The economy which was crawling at its slowest pace is

expected to experience a meteoric rise in development with

digitalisation of the country. The recent biggest step

observed in this direction is the partnership of Modi

Government with Google India to increase the access to

internet by working upon development of Non-English

Internet user base. This shall be a step towards increasing

employability as well. The increase in smart gadgets such as

smart phones, smart watches etc. have sparked a wave of

innovation that has brought new services to millions and

efficiencies to business of every type. To accelerate DigitalIndia Programme, introduction of E-visa Technology ,

Modernisation of railway using technology, building of

virtual schools are planned to be implemented by

December 2014.A revamp of Indian Railways will introduce

new features such as Wi-Fi services on trains, next

generation e-ticketing systems, GIS mapping and

digitalisation of records. The prime step introduced in the

budget to increase FOI in the telecom sectors has proved

boon in the prosper of digitalisation program. Due to import

duty levied on certain telecom service,it presents an

opportunity to foreign companies to invest in Indian start-

ups .The pace of movement being undertaken by

government in still an optimistic mind-set among analysts

regarding the economic growth. A leverage in IT and

telecom sector growth is expected in coming years.

According to the words of Rajan Anandan, MD of the

Internet Giant’s Indian division, “India is where China had

been in 2006 or 2007”.This can imbibe a positive feeling

that the nation is on the headway and shall complete its

 journey of progress to be among the world beaters soon.

Trisha Sawhney,3

rd 

 year

DIGITALIZING INDIA THROUGH

MODI WAVE

No! It’s not a snap from some

ience fiction movie. It’s REX, world’s first bionic man. While

ientists have built many artificial organs individually, they have

ever before been put together to create an entire human body. Rex

as he has recently been renamed Frank (after Frankenstein), the

orld's first fully functional bionic man has just changed that. Rex

ho was first unveiled at London's Science Museum in February of

is year is now on display at the National Air And Space Museum in

ashington D.C., the human clone was assembled in three short

onths using state-of-the-art organs that were donated by 17

anufacturers - A good thing given that the total cost came to about

1 million USD!

he dapper bionic man whose face is modeled after University ofurich psychologist Bertoit Meyer who led the project, is six and half

et tall, weighs 170lbs and can sit, stand and walk with the help of

n exoskeleton.

hile the exterior is certainly interesting, it is as they say what's on

e inside, that matters - And in Rex's case there is plenty – 

THE BIONIC MAN!

Starting from most technologically advanced robotic

limbs to a functioning heart that pumps oxygen and

artificial blood around his body. He also has a lung,

kidney, spleen and even a pancreas. A retinal implant

allows the bionic man to sense objects found him, while

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around him, while a cochlear insert enables him to hear.

All in all, Rex aka Frank has about 60-70 percent functionality of a

normal human. He is still missing some key parts like a digestive

system, liver, skin and most importantly, a brain!

According to Richard Walker, the lead roboticist at London-based

Shadow Robot Company responsible for creating the bionic man, Rex

was assembled to showcase the advances in aesthetic prostheses for

people that have lost their limbs or part of their face and maybe even

an organ. Having said that, while the organs worked well on Rex some

like the kidney, are still in early trial phase and not ready to be used on

humans yet.

Utkarsh Kant,4th

 year

AGE OF 3-D INTEGRATIONXilinx All Programmable 3D ICs utilize stacked silicon interconnect (SSI) technology to break

through the limitations of Moore’s law and deliver the capabilities to satisfy the most demanding

design requirements. Xilinx homogeneous and heterogeneous 3D ICs deliver the highest logic

density, bandwidth, and on-chip resources in the industry, breaking new ground in system-level

integration.

1st Generation All Programmable 3D ICs: Xilinx 28nm homogeneous and heterogeneous 3D

ICs double the design capacity, system level performance, and level of systems integration relative

to what was possible with a pure monolithic solution—creating an extra generation of value andoffering the manufacturing and time-to-volume advantages of smaller die.

2nd Generation All Programmable

3D ICs 

Xilinx UltraScaleTM 3D ICs provide

unprecedented levels of system

integration, performance and

capability. Both Virtex® UltraScale 3D

ICs and Kintex® UltraScale 3D ICs

contain a step-function increase in boththe amount of connectivity resources

and the associated inter-die bandwidth

in this second-generation 3D IC

architecture.  There are ten 3D IC

devices in Xilinx’s Virtex-7, Kintex

UltraScale and Virtex UltraScale families – thereby offering customers

a broad range of resources and capabilities to match leading edge

demands. The SSI-enabled devices shown below offer unprecedented

FPGA capabilities and are ideal for applications such as next-

generation wired communications, high-performance computing,

medical image processing,and ASIC prototyping/emulation.

Enabling “More than Moore”System Scaling:  To address

he typical challenges of interconnecting multiple FPGAs, Xilinx 3D IC

devices utilize Stacked Silicon Interconnect technology, enabling high-

bandwidth connectivity  between multiple die and  providing a  100x 

improvement in inter-

die bandwidth per

watt compared to

multi-chip

approaches. It also

imposes much lower

latency and consumes

dramatically lower

power than either the

multi-FPGA or multi-

chip module

approach, while

enabling the

integration of transceivers and on-chip resources within a single

package. SSI technology leverages proven microbump

technology combined with coarse pitch through-silicon vias

(TSVs) on a passive (no transistors) 65nm silicon interposer to

deliver high reliability interconnect without performance

degradation on one FPGA device. This breakthrough technology

provides the next level of advanced system integration for

applications that require high logic density and tremendous

computational performance.

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parts are as tiny as a fraction of the diameter of a human hair.

These inventions are essential to build micro-robots that can

be used as surgical tools, sensing machines to explore disaster

zones or manufacturing tools to assemble micro-machines.

The micro-windmills can be made in an array using the batch

processes. The fabrication cost of making one device is the

same as making hundreds or thousands on a single wafer,

which enables for mass production of very inexpensive

systems. "Imagine that they can be cheaply made on the

surfaces of portable electronics," Chiao said, "so you can

place them on a sleeve for your smart phone. When the

phone is out of battery power, all you need to do is to put on

the sleeve, wave the phone in the air for a few minutes and

you can use the phone again."Chiao said because of the small

sizes, flat panels with thousand of windmills could be made

and mounted on the walls of houses or building to harvest

energy for lighting, security or environmental sensing and

wireless communication.

Pragya Newatia ,3rd 

 year

MICRO-WINDMILLS TO RECHARGE PHONES

UT Arlington research associate and electrical engineering

rofessor have designed a micro-windmill that generates

wind energy and may become an innovative solution to cell

hone batteries constantly in need of recharging and home

nergy generation where large windmills are not preferred.

mitha Rao and J.-C. Chiao designed and built the device that

about 1.8 mm at its widest point. A single grain of rice could

old about 10 of these tiny windmills. Hundreds of the

windmills could be embedded in a sleeve for a cell phone.

Wind, created by waving the cell phone in air or holding it up

o an open window on a windy day, would generate the

ectricity that could be collected by the cell phone's battery.

ao's designs blend origami concepts into conventional wafer-

cale semiconductor device layouts so complex 3-D moveable

moveable mechanical

structures can be self-

assembled from two-

dimensional metal

pieces utilizing planar

multilayer

electroplating

echniques. WinMEMS became interested in the micro-

ectro mechanical system research and started a relationship

with UT Arlington. An agreement has been established for UT

rlington to hold the intellectual properties while WinMEMSxplores the commercialization opportunities. UT Arlington

as applied for a provisional patent. Currently , WinMEMS has

een showcasing UT Arlington's works on its website and in

ublic presentations, which include the micro-windmills,

ears, inductors, pop-up switches and grippers. All of those

BENEFITS

Footprint:

More functionality fits into a small space. This extends Moore's

aw and enables a new generation of tiny but powerful devices.

Cost:

Partitioning a large chip into multiple smaller dies with 3D

tacking can improve the yield and reduce the fabrication cost if

ndividual dies are tested separately.

Heterogeneous integration:

Circuit layers can be built with different processes, or even on

different types of wafers. This means that components can be

optimized to a much greater degree than if they were built

ogether on a single wafer. Moreover, components with

ncompatible manufacturing could be combined in a single 3D IC.

Shorter interconnect:

The average wire length is reduced. Given that 3D wires have

much higher capacitance than conventional in-die wires, circuit

delay may or may not improve.

Power: 

Keeping a signal on-chip can reduce its power consumption by

10 –100 times. Reducing the power budget leads to less heatgeneration, extended battery life, and lower cost of operation.

CHALLENGES

Yield:

Each extra manufacturing step adds a risk for defects. In order for 3D

ICs to be commercially viable, defects could be repaired or tolerated,

or defect density can be improved.

Heat:

Heat building up within the stack must be dissipated. This is an

inevitable issue as electrical proximity correlates with thermal

proximity. Specific thermal hotspots must be more carefully managed.

Testing:

To achieve high overall yield and reduce costs, separate testing of

independent dies is essential. However, tight integration between

adjacent active layers in 3D ICs entails a significant amount of

interconnect between different sections of the same circuit module

that were partitioned to different dies.

Lack of standards: 

There are few standards for TSV-based 3D-IC design manufacturing,

and packaging. Heterogeneous integration supply chain

heterogeneously integrated systems, the delay of one part from one of

the different parts suppliers delays the delivery of the whole product,

and so delays the revenue for each of the 3D-IC part suppliers.Siddhartha Agarwal,3

rd  year  

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E-TEXTILESE-textile referred to as intelligent clothing or smart clothing

that allow for the incorporation of built-in technological

elements in everyday textiles and clothes. While not part of

the mainstream form of fashion, its popularity is increasing

and more research is being devoted to it. Smart fabrics are

ones which can change/react automatically to their

surroundings. Smart fabrics (- or intelligent textiles) arebeing developed to be able to sense what is happening to

the wearer or its immediate surroundings.

n particular, integrating sensors and computational devices

nto fabrics will enable the fabrics to provide a much richer

set of capabilities than is currently possible. These electronic

textiles (e-textiles) will allow us to build smart garments, as

well as home and office furnishings that look and feel like

their everyday counterparts while being able to sense our

presence, monitor our health, and dynamically adapt to our

ndividual needs. The field of e-textiles can be divided into

two main categories:

1) the first category involves mounting classical electronic

devices such as conducting wires, ICs, LEDs and conventional

batteries into garments.

2) The second category involves creating electronic function

directly on the textile fibres . These functions can either be

passive such as pure wires, conducting textile fibres, or more

advanced functions such as transistors, diodes and solar

cells. The field of embedding advanced electronic

components onto textile fibres is sometimes referred to as

fibertronics.

Uses of conductive fibers and textiles include staticdissipation, EMI shielding, signal and power transfer in low

resistance versions, and as a heating element in higher

resistance versions. Their benefits over solid or stranded

metal wires come from conductive fibers’ flexibility and

ability to use in existing textile machinery.

There is a wide range of applications for E-textiles like

Technical outdoor apparel (Trekking, mountaineering,

special task force etc.), Fire Brigade, metal casting

ndustry,Commercial food-processing protection, Industrial

safety and protection.

The growth is attributed to the concerted industry’s effort

on developing self-powered smart textiles and also to the

mprovement in energy harvesting mechanism in the coming

years. Smart textiles is poised to witness staggering growth

n the coming years. Pujya pandey,3rd 

 year  

SIMULATORS –EVERY ELECTRONICS

ENGINEER MUST KNOW!

• MATLAB: MATLAB (matrix laboratory) is a multi-paradigm

numerical computing environment and fourth-generation

programming language. Developed by MathWorks, MATLAB

allows matrix manipulations, plotting of functions and data,

implementation of algorithms, creation of user interfaces,

and interfacing with programs written in other languages,including C, C++, Java, and Fortran.It contains various

toolboxes and the complete knowledge of this is next to

impossible, its being widely used in signal processing,

bioinformatics and defence purposes .

• CircuitLab:

Effortless and easy simulation software so as to provide

lab like environment to the users, akin to Labview its

comparatively new and unpopular.

• PSPICE :SPICE (Simulated Program with Integrated Circuit

Emphasis) is a general purpose software that simulates

different circuits and can perform various analysis of electrical

and electronic circuits including time domain response, small

signal frequency response, total power dissipation,

determination of nodal voltages and branch current in a

circuit, transient analysis, determination of operating point of

transistors, determinations of transfer functions etc. This

software is designed in such a way so that it can simulate

different circuit operations involving transistors, operational

amplifiers (op  –  amp) etc. and contains models for circuit

elements (passive as well as active).In PSpice, the statements

are self  – contained and independent; obviously they do not

interact with each other. The statements are also easy to

learn and use. PSpice is a part of larger software package

called the Design Lab, originally developed by MicroSim

Corporation as the Design Centre. It is now marketed by Or

CAD.

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• IntSim: IntSim is an open-source CAD tool to simulate 2D

and 3D-ICs

• Proteus : Proteus is a Virtual System Modelling and

circuit simulation application. The suite combines mixed

mode SPICE circuit simulation, animated components and

microprocessor models to facilitate co-simulation of

complete microcontroller based designs. Proteus also has

the ability to simulate the interaction between software

running on a microcontroller and any analog or digitalelectronics connected to it. It simulates Input / Output

ports, interrupts, timers, USARTs and all other peripherals

present on each supported processor.

• Xilinx: Xilinx ISE (Integrated Software Environment) is a

software tool produced by Xilinx for synthesis and analysis

of HDLdesigns, enabling the developer to synthesize

("compile") their designs, perform timing analysis,

examine RTL diagrams,simulate a design's reaction to

different stimuli, and configure the target device with the

programmer.

Siddhartha Agarwal,3rd 

 year

CLUES:

TECHNO-FUN

DOWN

)Next after Gigahertz

4)%Modulation AKA

Modulation

)Zero Vector

)Opposite of Amplifier

)Similar to a LASER(operates

with microwave frequencies)

0)dB

3)James Clerk___(think

offee)

ACROSS

2)Multiple antenna arranged in

an___3)’Spread Spectrum’ AKA

Frequency_____

5)Diode like the Channel

8)_____waveguide(metric)

11)___plot=imaginary vs. real

frequency

9)____plot=magnitude vs.phase

12) the inverse of impedance

Solve the following Puzzle:

Your company is pretty tight on the budget this year and ithappens to have only Muxes to design with. You are required to

design a circuit equivalent to the one below, using minimum no.

of muxes.

Word Search

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VOCABULARY MADE EASY

Dear readers, it is a well-known fact that, in whichever field you are,

having a good vocabulary can take you places. It not only makes a strong

impression on others but also opens a world of opportunities that never

even existed before.

Also in many of competitive examinations like GATE, CAT, XAT etc. and

the written examinations of company placement drives, vocabulary is a

separate section of the test. Scoring well in this section increases your

chances of selection by many folds.

Keeping this in mind, we will provide you with 5 difficult words in each

issue. These words are provided with a detailed description, which

includes its pronunciation, type of the word (verb, noun or adjective), its

meaning and usage (synonyms and antonyms will also be provided

wherever possible).

The pronunciation will be given just next to the word, where it will be

broken into its syllables. Some of them will be in lowercase and others in

uppercase. The parts of the word in lowercase are to be pronounced

softly, and ones in uppercase are to be pronounced strongly. Here goes!

1. ABDICATE (Ab duh KATE)Type: Verb.

Meaning: To give up a right, to step down from a position of power or

responsibility.

Usage: When King Edward VIII of England decided he would rather be

married to Wallis Warfield Simpson, an American divorcee, than be king

of England, he turned in his crown and abdicated.

Mary abdicated her responsibility as a baby-sitter by locking the five-

year-old in a closet and flying to the Bahamas.

Synonym(s): Forgo, abjure, resign.

Antonym(s): Keep, maintain, pursue.

2. CATHARSIS (kuh THAR sis)

Type: Noun.

Meaning: Purification that brings emotional relief or renewal.

Usage: To someone with psychological problems, talking to a psychiatrist

can lead to catharsis. 

Synonym(s): Ablution, cleansing, purgation.

Antonym(s): Dirtying.

3. DELETERIOUS (DEL i TEER ee us)

Type: Adjective.

Meaning: Harmful, damaging.

Usage: Smoking cigarettes is deleterious for your health.

Synonym(s): Detrimental, destroying, ruining.

Antonym(s): Aiding, helpful, assisting. 

4. INUNDATE (IN un DATE)

Type: Verb.

Meaning: To flood.

Usage: The tiny island kingdom was inundated  by the tidal wave.

Synonym(s): Deluge, overflow, immerse, engulf. 

Antonym(s): Underwhelm.

5. SUCCINT (suk SINGKT) 

Type: Adjective. 

Meaning: Brief and to the point.Usage: Harry’s succinct  explanation on why the moon doesn’t fall out of

sky and crash into the earth quickly satisfied even the dullest of the

anxious investment.

Synonym(s): Blunt, cut to the bone, compact.

Antonym(s): Lengthy, polite, wordy.

e detector is to ascertain whether the person is telling truth or

lse. It is also referred as deception detector which uses

uestioning techniques along with technology that record

hysiological functions. It is commonly used by law enforcement.

omponents required to make this project are as follows:

rcuit board, Resistors (10k, 47k, 470,1M) ohms, 47K ohms Variable

esistor, three 2N3904 transistors, 100nf capacitor, slide switch, 9V

attery, LED (one red, one green), soldering tools, drill, basic tools,

elcro, aluminium foil. The circuit diagram of the Lie Detector is

hown in fig. It consists of three transistors (TR1 to TR3), a capacitor

C1), two lights or LEDs L1 & L2), five resistors (R1 to R5), and a

ariable resistor (VR1). This circuit is based on the fact that a

erson's skin resistance changes when they sweat (sweating

ecause they're lying). Dry skin has a resistance of about 1 million

hms, whereas the resistance of moist skin is reduced by a factor of

en or more. Resistors R1 and R2 form a voltage divider. They have

esistances of 1M ohms, as their values are equal, the voltage at the

pper probe wire is half of the battery voltage (about 4.5 volts).A

erson holding the probe wires will change the voltage at the upper

robe wire depending on their skin resistance. The skin resistance isparallel with R2 and, because it is likely to be similar to or smaller

han R2, the voltage at the probe wire will fall as skin resistance

lls. Capacitor C1 functions as a smoothing capacitor and removes

he 50Hz induced mains hum that is found on a person's body.

R1 and R3 form a buffer circuit (called an emitter-follower). The

oltage at the emitter of TR1 follows the voltage at the probe wire

nd is now able to drive transistor TR2. Transistors TR1 and TR2 act

s a voltage comparator. If the voltage at the base of TR2 is higher

han at the base of TR3 then the green LED (L1) will come on. If the

everse is true then the red LED (L2) will light. To test the Lie

etector hold the probe wires. Adjust VR1 until the green LED is just

n and the red LED is just off. This is the point at which the voltaget the base of TR2 is just greater than at the base of TR3. Now use

oist fingers to hold the probes. This lowers the skin resistance and

auses the voltage at the base of TR2 to fall. The voltage at the base

f TR3 is now greater and the red LED comes on.

eps:

1)  Make a finger pads by sticking an aluminium foil to the

Velcro and don't forget to stick a wire between the Velcro

and thin foil.

TRY IT YOURSELF!

2) Soldering the circuit

3) Drill a tin box.

4) Place the circuit in it.

5) Done.

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WORKSHOPS

Ms. Amanpreet Kaur (Asst. Professor) attended two

week ISTE workshop organized by IIT,Bomabay

under NMEICT on "Cyber Security" from 10th-20th

July 2014.

Ms. Gayatri Sakya (Asst. Professor) and Mr. Prasad

M(Ass. Professor) attended two day workshop on

"Embedded Systems and Robotics" conducted by IITBombay on e-Yantra through NMEICT at MGM

Noida on 4th-5th August 2014.

Ms. Chhaya Grover (Assoc. Professor), Dr. Chhaya

Dalela (Assoc.Professor) and Ms. Sangeetha

Mangesh (Asst. Professor) attended one day IEEE

Authorship Workshop at IIT Delhi on 11th August

2014.

PAPER PRESENTATIONS

Dr. Chhaya Dalela (Assoc. Professor) presents paper

on "Numerical Analysis of Near Field Distribution

Variation at 2300 Mhz" in the International Journal

of Next Generation and Network (IJNGN), June

2014.

Ms. Monica Malik (Asst. Professor) presented a

paper on "Performance Analysis of Leach protocol

using Fuzzy Logic" in a National Conference of

"Futuristic Trends in Advancements of Science and

Technology" held at SMCET, Jaipur on 26th April

2014.

Ms. Gayatri Sakya (Asst. Professor) presented

paper on "Behavioural modelling and VHDL

Simulation of all Digital Phased Locked Loop" inIJSRD (International Journal for Scientific Research

and Development)-Vol. 2,Issue 3,2014 |ISSN

(online): 2321-0613.

Ms. Himani Mittal (Asst. Professor) presented a

paper on "Design and Analysis of Modified

Conditional Data Mapping Flip-Flop to Ultra Low

Power and High Speed Applications" in the

International Journal of Science and Research in

August 2014.

Ms. Himani Mittal (Asst. Professor) presented a

paper on "Low Voltage Drop out voltage Regulator

for power saving on System on Chip (SOC)". Paper

Title : 0303P15 in the International Journal of

Technological Exploration and Learning (IJTEL),

ISSN:2319-2135,Index Copernicus Value(ICV)

2012:4.69, Volume-3,Issue-3 in June 2014.

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STUDENT EVENTS

Quanta organized workshop on LFR from 23rd to 27th 

September for the students of the department.1.

PROUD MOMENTS

Diksha Sharma, Swati Ghansela and Anshita

Agarwal,3rd year and Himanshika, Shreya from 1st 

year won cash prize in volleyball at

“CHAKRAVYUH 2014”-National inter-college

championship held at IMS Ghaziabad.

EC 3rd year student, Priyanka teamed with Anukriti

Kumar, CS won in badminton doubles in an event

held at IMS on 17th October 2014

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