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DESING OF MICROSTRIP PATCH ANTENNA TO

CONNECT INDOOR WIRELESS DEVICES

SUBMITTED BY

P.Prakasham (111012013665),

M.Naveen (111012013663),

G.Venkatesh (111012013678).

GUIDED BY

Ms.N.Thamil shelvi,

Assistant Professor(SS),

Department of ECE.

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OUTLINE

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Abstract

Literature review

Flow diagram

Software

Advantages

Applications

Reference

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ABSTRACT

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Design of 2.4 GHz band micro-strip patch

antenna

Using CST-2012 Studio.

It performs wireless communication functions.

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LITERATURE REVIEW

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AUTHOR PURPOSE METHOD ADVANTAGE DISADVANTAGE

Mina Danesh and John R.

Long, “Photovoltaic

Antennas for Autonomous

Wireless Systems”, VOL. 58,

NO. 12, December 2011

To design a PV

antenna which acts

as an energy

harvester for

electronic circuit &

RF antenna for

wireless

communication

PV technology based

on hydrogenated

amorphous silicon

Reliable cost,

increased

network

coverage, long

life.

Need for batteries

to store power for

night and cloudy

days

Terence Wu, Ronglin Li and

Manos.M.Tentzeris, “A

Scalable Solar Antenna for

Autonomous Integrated

Wireless Sensor Nodes”,

VOL. 10, 2011

To design a solar

antenna to provide

better network

reliability and easier

deployment

Antenna is simulated

& tuned using CST

micro stripes in free

space condition

Power

management,

reliable cost,

increased

network

coverage

Need for batteries

to store power for

night and cloudy

days

T.Peter, T.A.Rahman,

S.W.Cheung, R.Nilavalan,

H.F.AbuTarboush and

A.Vilches, “A Novel

Transparent UWB Antenna

for Photovoltaic Solar Panel

Integration and RF Energy

Harvesting”, DOI

10.1109/TAP.2014.2298044

To design a novel

transparent UWB

antenna that can

when integrated onto

solar panels as well

as harvest RF

energy besides

being able also to

provide wireless

Antenna is designed &

studied using

computer simulation

reliable cost,

increased

network

coverage, long

life, no need of

batteries to store

power

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BLOCK DIAGRAM

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FLOW DIAGRAM

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SOFTWARE

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SOFTWARE

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ADVANTAGES

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Power Management

Increased Network coverage

Reliable cost

Long Life

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APPLICATIONS

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WiFi(Wireless Fidelity)

4G wireless broadband

Flexibility – multi-platforms, multi-

applications, multi-bands

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REFERENCES

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D. Niyato, E. Hossain, and A. Fallahi, “Sleep and wakeup strategies in solar-powered wireless sensor/mesh networks: Performance analysis andoptimization,” IEEE Trans. Mobile Comput., vol. 6, no. 2, pp. 221–236, Feb.2007.

X. Jiang, J. Polastre, and D. Culler, “Perpetual environmentally poweredsensor networks,” in Proc. IEEE Inf. Process. Sensor Netw. Symp. Apr. 2005,pp. 463–468.

“Chewed antennas: Huntington Botanical Gardens,” Sensor- WareSystems, Pasadena, CA, 2003 [Online]. Available: http://www.sensorwaresystems.com/historical/resources/pictures/hunt-011.shtml.

N. Henze, A. Giere, H. Fruchting, and P. Hofmann, “GPS patch antenna withphotovoltaic solar cells for vehicular applications,” in Proc. IEEE VTC, Oct.2003, vol. 1, pp. 50–54.

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