Ronald Report(Wirless Recharging)

8/7/2019 Ronald Report(Wirless Recharging)

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Wireless Recharging 2010-11

Contents

1. Abstract

2

2. Introduction

..2

3. Components

.3

3.1. Receiver Module

3.2. Recharging Pad

4. Working..4

5. Basic Principle5

5.1. Resonance

5.2. Electromagnetic induction

6. Features..8

5.1. Features of the system

5.2. Features of the pad

5.3. Features of module

7. Advantages10

8. Cost...11

9. Future of the technology.12

Dept. of ECE SIET Tumkur Page 1


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10. Conclusion13

11. References....14



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1.Abstract

NECESSITY IS THE MOTHER OF INVENTIONS

A problem thats hindering the freedom and productivity of true mobility in our lives is

our need to carry and use bulky chargers, power adapters and cords for all the mobile electronic

devices we use, such as cell phones, laptop computers, portable music players and many others.

What if there were a single charging solution that would make all these chargers and adapters

redundant, that could charge all our devices simultaneously, and would be as simple as placing a

mobile device down on a desk!!

This necessity has led to the innovative invention of a WIRELESS RECHARGING SYSTEM

Instead of each device needing its own charger, it is possible to recharge phones and

cameras by placing them on a plastic pad the size ofa mouse mat. A dense array of coils buried in

the pad will transmit energy to the gadget to charge its batteries. And it will be possible to charge

as many gadgets as can fit on the pad at once.

This next-generation solution wirelessly charges any device - ranging from PDAs andmobile phones to personal music players, imaging devices etc and is dedicated to revolutionizing

electric power delivery to mobile devices through safe, sleek, wire-free means.

2.Introduction

The tangle of cables and plugs needed to recharge today's electronic gadgets could soon bea thing of the past. No messy wires, no tangled cord, no multiple plugs!

Imagine a world where all your portable devices can be charged and powered simply by placing

them on a flat pad. New wireless technology lets people recharge notebooks, cell phones and



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other devices by setting them on a pad instead of plugging them in or dealing with a docking

station.

This next generation solution is based around technology that uses inductive coupling as a means

of power transfer - which means you don't need any wires, connectors or contacts between the pad

and the device.The pads use electromagnetic induction to charge devices.

3.Components

The wireless recharging solution has two parts:

3.1.Receiver Module

A sub-millimeter thin module that can be customized to about any size, shape or curve of

a device is fixed inside the device and makes no visible impact to product appearance. Designed

for use in PDAs, mobile phones, personal music players and portable gaming devices, as well as a

host of other consumer electronic products, it enables immediate, safe and contact less recharging

for the first implementation of a truly wireless mobile lifestyle.

3.2.Recharging Pad

This Pad is a thin (less than 6mm) universal wireless charging platform that plugs into any

electrical outlet and can be built into any surface with no possibility of shock or discharge.

The base can deliver over 240W, is safe from spills and does not emit radiation or cause radio

interference.

The base station is plugged into an AC adapter and can deliver up to 30V DC to an

individual device. It's also completely safe, and if any charge were delivered to a person, it would



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be at the level of a low-voltage battery, virtually imperceptible to humans and certainly not

harmful. The final base units will be waterproof and protected from electrostatic charges.

Any device fitted with the module instantly begins to recharge when placed anywhere on the Pad

in a safe and totally contact less fashion and multiple devices can be charged simultaneously on a

single pad.

This pad conforms to worldwide safety standards and regulations.

4.Working

The components work with the help of a chipset. The chipset basically has 2 kinds of

chips and enables "Wire-Free" electric power transfer.

One chip, the tiny Adapter Controller, goes inside the mobile device and the other, the

Contact Controller, gets built into the power base station.

These power bases, which come in a wide variety of shapes, sizes and colors, are each covered in

an array of gold-plated contacts. The retrofitted mobile devices also have a pair of contacts.



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The technology is based on a method that uses an electromagnetic field to couple the

power source to the gadget to be charged. Energy is transferred to the gadget because its antenna

resonates at the same frequency as the transmitter, while other objects in the room do not absorb

energy because they do not resonate at this frequency. The researchers call this process non-radiative energy transfer. In addition, the transmitter would reabsorb much of the energy that is

not absorbed by the gadget.

Thus, a simple copper antenna designed to have long-lived resonance could transfer energy to a

laptop or a mobile phone with its own antenna resonating at the same frequency.

Gadget and power source each employ the same resonant structure, which is an antennafor exchanging energy. The researchers investigated two types of resonant structures a disk of

dielectric material and a loop of wire bisected by capacitive plates. The simulations suggested that

the loop would be a better choice under real-world conditions because less energy would be

absorbed by nearby objects including humans. Calculations suggested that energy transfer

efficiencies of 15% or greater could be achieved, which the researchers claim is large enough for

practical applications.



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working with resonance

1) Power from mains to antenna, which is made of copper

2) Antenna resonates at a frequency of 6.4MHz, emitting electromagnetic waves

3) 'Tails' of energy from antenna 'tunnel' up to 5m (16.4ft)

4) Electricity picked up by laptop's antenna, which must also be resonating at 6.4MHz. Energy

used to re-charge device.

5) Energy not transferred to laptop re-absorbed by source antenna. People/other objects not

affected as not resonating at 6.4MHz.

5.2.Electromagnetic induction

Electric motors and power transformers contain coils that transmit energy to each other by

the phenomenon of electromagnetic induction. English scientist Michael Faraday, who found out

that a changing magnetic field induces a current in a nearby circuit, discovered this phenomenon.

One way to operate the system is to use electromagnetic induction to send recharging

electricity to the battery. Contact less electricity delivery is made through a pad that has a coil for

transmission, and a reception coil inside the rechargeable device. So, a current running in an

emitting coil induces another current in the receiving coil; the two coils are in close proximity, but

they do not touch. Thus, current flows through the receiving coil and charges up the rechargeable

battery.



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In addition to the coil theres also a regulator, which adjusts the amount of power being supplied

to the device so the battery charges correctly. By fitting the regulator into each device, a number

of gadgets with different power requirements can be charged simultaneously.

Electromagnetic induction is a technology that is currently employed in a wide range of

applications. Applications, which currently use induction for power transfer, include powering

electric vehicles, recharging electric toothbrushes and powering smart-tags.

6.Features

This technology has developed a new way of powering devices based on wireless power:

6.1.Features of the system

It eliminates the need for a different charger for every gadget.

You can charge more than one device at a time.

The whole process becomes easy and hassle-free.

No need for alignment of receiving module and charging base.

Thin, flexible, customizable power receiver.



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6.2.Features of the pad

Generates inductive field to power any module-enabled device placed on the pad.

Uniform performance across charging surface.

the system is perfectly safe and will not even wipe credit cards if you accidentally

put one on the pad.

Sizes can vary from one-device to many-devices.

Stand-alone and integrated versions demonstrated.

Generally, the pad is provided with a cord to be connected to the ac mains if there is a possibility.

Else, it can be alternatively operated with the help 12 V batteries.

Such a version is called a stand-alone or an integrated version, as it is capable to handle the

recharging operation even without an external power supply and is provided with the option of

using batteries instead. In this case, the technology becomes completely wireless where power

from ac mains is not required.

It gives us freedom to charge our cell phones, MP3 players, PDAs or any other such hand held

devices whenever and wherever we desire, even in the absence of electricity, provided that the

gadgets are module-enabled and we have the required battery power with us. Is it not

amazing!??

6.3.Features of module

Receives power from the Pad charging base.

Versatile implementation. Virtually any area/shape - customized to device. Flexible. Accommodates a range of curvatures.

Efficient.

Straight-forward integration.



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7.Advantages

Present mode of recharging multiple devices.

Wireless power for gadgets

The best advantage is saying goodbye to having several different chargers for all your

handheld gadgets like your mobile phone or MP3 player and make use of the technology

that can charge all of them at once, without having to plug any of them into the mains. The

system is based around a small flat mat that plugs into the main electricity supply and a

special module inside a gadget.

The cost to add wireless recharging technology to phones or MP3 players is very low and

very affordable. The technology will only add 25 cents to the cost of a device and the

module itself is less than a millimeter thick.

Contact less, efficient, wire-free power enabling total user convenience, this user friendly

technology can power-up multiple devices anywhere on the pad.



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Fast and safe charging rates -- Using this technology does not compromise recharging

times -- devices are powered at the same rate as with conventional wired adapters,

regardless of the number of devices on the pad. This is also a great solution for users with

multiple devices and too few outlets -- one Pad in one outlet can recharge several devices

at once, eliminating the clutter of congested outlets.

Low-cost technology with minimal to zero impact on device packaging or internal circuitry

The Module is very thin (sub-millimeter) and can be easily integrated inside a device's

casing, thus overcoming the need for an arrangement to be connected to the external

power supply.

Pads can be used anywhere -- The Pad is very low profile (less than 6MM thick) and can

be easily integrated anywhere a consumer needs to recharge a device, in virtually any

shape or size -- coffee shops, cars, airport lounges , hotels, the desktop or anywhere you

need.

The system could hold added benefits for businesses such as mobile phone manufacturers

by helping them cut costs, as they dont have to provide a charger in every box.

8.Cost

Bases (pads) would cost consumers between $100 and $150. The smaller pad will cost

between $30 and $40. Adding the chips to notebooks should cost manufacturers less than $5, with

the figure dropping to $2 for cell phones.

Ultimately the technology has been designed for the mass consumer market, so in the future it

will be possible to price it as a mass-consumer price.



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9.Future of the technology

In addition to Pads for the home, research is underway about building pads into cars, and

into furniture in rooms so that the gadgets can be simply placed on the chip-enabled part

of the car or the table for immediate recharging.

Properly equipped televisions, lamps and many more devices could be powered by large-

sized pads.

A home of the future would have a transmitter in every room, ensuring that all portable

electronics devices are charged.

Other household gadgets such as robotic vacuum cleaners could run off the power source

with the help of resonant antennas.

In addition to consumer electronics, wireless energy could find industrial applications, for

example powering freely roaming robots within a factory pavilion.

Demonstration of wireless recharger



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10.Conclusion

The concept of wireless recharging bears a lot of significance to those who own many

handheld, portable electronic gadgets as multiple gadgets can be recharged at the same time.

This means that the power consumed is less, number of power plug points required reduces and

the process becomes hassle-free. One need not carry around numerous adapters and rechargers

carrying one pad serves the purpose.

Recharging pad connected to ac mains.

Battery-operated pads can be used for portable recharging.

One day we would like to see these pads becoming part of our everyday environments- being

incorporated in desks, coffee tables, cars... so that wherever we go, we can keep our gadgets

powered up. Developed with the goal of freeing consumers from 'the last wire' in their array of

electronic devices, this solution represents the culmination of years of research to create an

intuitive, safe and innovative solution for universal wireless recharging.

This really is best-of-breed technology and finally unleashes the potential for a truly wireless

world.



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11.References

http://news.nationalgeographic.com/news/2001/07/0705_wirelies.html

John D Kraus, Electromagnetics, TMH,

Jordan et al, Electromagnetic waves and radiation system , Printice Hall

http://www.seminarprojects.com/Forum-electronics-seminar-topics?page=17

http://news.nationalgeographic.com/news/2001/07/0705_wirelies.htmlhttp://www.seminarprojects.com/Forum-electronics-seminar-topics?page=17http://news.nationalgeographic.com/news/2001/07/0705_wirelies.htmlhttp://www.seminarprojects.com/Forum-electronics-seminar-topics?page=17

Ronald Report(Wirless Recharging)

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