Wireless Power Transmission

05/03/2023 Wireless Power Transmission 1

Welcome to our PresentationCourse Name : Power system

AnalysisCourse Code:00697Section : ECourse Instructor : Rethwan Faiz


Group : 1 Submitted By Name IDHaque,Md Rashidul 13-

24186-2Haque tahsin,Shamsul Arefin 12-

21353-2Shezan Ehsanul Haq 13-

24109-2Azmaeen,Mesbah Hossain 13-

24003-2


What is wireless power transmission(WPT)?

Why is WPT?History of WPTTypes of WPT

◦ Techniques to transfer energy wirelesslyAdvantages and disadvantagesApplicationsConclusionReferences

Overview


What is WPT?The transmission of energy from

one place to another without using wires

Conventional energy transfer is using wires

But, the wireless transmission is made possible by using various technologies


Why not wires? As per studies, most electrical

energy transfer is through wires. Most of the energy loss is during

transmission• On an average, more than 30%• In India, it exceeds 40%


Why WPT?ReliableEfficientFastLow maintenance costCan be used for short-range or long-range.


HistoryNikola Tesla in late 1890sPioneer of induction techniquesHis vision for “World Wireless

System”The 187 feet tall tower to broadcast

energyAll people can have access to free

energyDue to shortage of funds, tower did

not operate


History (contd…)Tesla was able to transfer energy

from one coil to another coilHe managed to light 200 lamps

from a distance of 40kmThe idea of Tesla is taken in to

research after 100 years by a team led by Marin Soljačić from MIT. The project is named as ‘WiTricity’.


Types and Technologies of WPTNear-field techniques

Inductive CouplingResonant Inductive CouplingAir Ionization

Far-field techniquesMicrowave Power Transmission

(MPT)LASER power transmission


Inductive coupling Primary and secondary coils are

not connected with wires.Energy transfer is due to Mutual

Induction


Inductive coupling (contd…)Transformer is also an exampleEnergy transfer devices are usually air-coredWireless Charging Pad(WCP),electric brushes

are some examplesOn a WCP, the devices are to be kept, battery

will be automatically charged.


Inductive coupling(contd…)Electric brush also charges using

inductive couplingThe charging pad (primary coil)

and the device(secondary coil) have to be kept very near to each other

It is preferred because it is comfortable.

Less use of wiresShock proof


Resonance Inductive Coupling(RIC)Combination of inductive coupling

and resonanceResonance makes two objects

interact very stronglyInductance induces current


How resonance in RIC?Coil provides the inductanceCapacitor is connected parallel to

the coilEnergy will be shifting back and

forth between magnetic field surrounding the coil and electric field around the capacitor

Radiation loss will be negligible


Block diagram of RIC


An example


RIC vs. inductive couplingRIC is highly efficientRIC has much greater range than

inductive couplingRIC is directional when compared

to inductive couplingRIC can be one-to-many. But

usually inductive coupling is one-to-one

Devices using RIC technique are highly portable


Air IonizationToughest technique

under near-field energy transfer techniques

Air ionizes only when there is a high field

Needed field is 2.11MV/mNatural example:

LighteningNot feasible for practical

implementation


Advantages of near-field techniquesNo wiresNo e-wasteNeed for battery is

eliminatedEfficient energy

transfer using RICHarmless, if field

strengths under safety levels

Maintenance cost is less


DisadvantagesDistance constraintField strengths have to be under

safety levelsInitial cost is highIn RIC, tuning is difficultHigh frequency signals must be

the supplyAir ionization technique is not

feasible


Far-field energy transferRadiativeNeeds line-of-sightLASER or microwaveAims at high power transfer

Tesla’s tower was built for this


Microwave Power Transfer(MPT)Transfers high power from one

place to another. Two places being in line of sight usually

Steps:◦Electrical energy to microwave

energy◦Capturing microwaves using

rectenna◦Microwave energy to electrical

energy


MP T (contd…)AC can not be directly converted

to microwave energyAC is converted to DC firstDC is converted to microwaves

using magnetronTransmitted waves are received

at rectenna which rectifies, gives DC as the output

DC is converted back to AC


LASER transmissionLASER is highly directional,

coherentNot dispersed for very longBut, gets attenuated when it

propagates through atmosphereSimple receiver

◦Photovoltaic cellCost-efficient


Solar Power Satellites (SPS)

To provide energy to earth’s increasing energy need

To efficiently make use of renewable energy i.e., solar energy

Solar energy is captured using photocells


RectennaStands for rectifying antennaConsists of mesh of dipoles and

diodesConverts microwave to its DC

equivalentUsually multi-element phased

array


Rectenna in USRectenna in US receives 5000MW

of power from SPSIt is about one and a half mile

long


LASER vs. MPTWhen LASER is used, the antenna

sizes can be much smallerMicrowaves can face interference

(two frequencies can be used for WPT are 2.45GHz and 5.4GHz)

LASER has high attenuation loss and also it gets diffracted by atmospheric particles easily


Advantages of far-field energy transferEfficientEasyNeed for grids, substations etc

are eliminatedLow maintenance costMore effective when the

transmitting and receiving points are along a line-of-sight

Can reach the places which are remote


Disadvantages of far-field energy trasnferRadiativeNeeds line-of-sightInitial cost is highWhen LASERs are used,

◦conversion is inefficient◦Absorption loss is high

When microwaves are used, ◦interference may arise◦FRIED BIRD effect


ApplicationsNear-field energy transfer

◦ Electric automobile charging Static and moving

◦ Consumer electronics◦ Industrial purposes

Harsh environmentFar-field energy transfer

◦ Solar Power Satellites◦ Energy to remote areas◦ Can broadcast energy globally (in future)


ConclusionTransmission without wires- a realityEfficientLow maintenance cost. But, high initial

costBetter than conventional wired

transferEnergy crisis can be decreasedLow loss In near future, world will be completely

wireless


References S. Sheik Mohammed, K. Ramasamy, T. Shanmuganantham,”

Wireless power transmission – a next generation power transmission system”, International Journal of Computer Applications (0975 – 8887) (Volume 1 – No. 13)

Peter Vaessen,” Wireless Power Transmission”, Leonardo Energy, September 2009

C.C. Leung, T.P. Chan, K.C. Lit, K.W. Tam and Lee Yi Chow, “Wireless Power Transmission and Charging Pad”

David Schneider, “Electrons unplugged”, IEEE Spectrum, May 2010

Shahrzad Jalali Mazlouman, Alireza Mahanfar, Bozena Kaminska, “Mid-range Wireless Energy Transfer Using Inductive Resonance for Wireless Sensors”

Chunbo Zhu, Kai Liu, Chunlai Yu, Rui Ma, Hexiao Cheng, “Simulation and Experimental Analysis on Wireless Energy Transfer Based on Magnetic Resonances”, IEEE Vehicle Power and Propulsion Conference (VPPC), September 3-5, 2008


References(contd…)André Kurs, Aristeidis Karalis, Robert Moffatt, J. D.

Joannopoulos, Peter Fisher and Marin Soljačić, “Wireless Power Transfer via Strongly Coupled Magnetic Resonances”, Science, June 2007

T. R. Robinson, T. K. Yeoman and R. S. Dhillon, “Environmental impact of high power density microwave beams on different atmospheric layers”,

White Paper on Solar Power Satellite (SPS) Systems, URSI, September 2006

Richard M. Dickinson, and Jerry Grey, “Lasers for Wireless Power Transmission”

S.S. Ahmed, T.W. Yeong and H.B. Ahmad, “Wireless power transmission and its annexure to the grid system”

Wireless Power Transmission

Education

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