Presentation on Wireless Power Transmission by Shailie Rai
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Transcript of Presentation on Wireless Power Transmission by Shailie Rai
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Wireless Power Transmission
(WPT)
Presented By:SHAILIE RAI
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OVERVIEWIntroduction to Wireless Power Transmission
(WPT)Need of WPTHistory of WPT Varieties of WPTAdvantages and DisadvantagesApplicationsFuture ScopeReference
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Introduction to WPT Efficient transmission of
electric power from one point to another through vacuum or an atmosphere without the use of wire or any other substance.
WPT can transport power to locations, which are otherwise not possible or impractical to reach.
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• Wireless Charging Pad (WCP)
• Electric automobile charging
• Wireless charging of Gadgets
• Solar Power Satellites
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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%
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Reliable
Environmentally Sound
Efficient
Low Maintenance
Cost
Can be Used for short-range or
long-range
WHY
WPT?
Need of WPT
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History of WPT In 1897 Nikola Tesla pioneer
of induction techniques, had a vision for “World Wireless System”.
A 187 feet tall tower was built to broadcast energy
So that all people can have access to free energy.
He managed to light 200 lamps from a distance of 40km.
Figure : Tesla's colorado springs lab
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Block diagram of a wireless energy transfer system
Source Electronics
AC/
DC
DC/RF Amplifier
IMN Source Resonator
Device Resonator
IMNRF/DC Rectifier
Load
AC Mains
Impedance Matching Networks
Device Electronics
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Varities of WPT
WPT
Near-field techniques
Inductive Coupling
Resonant Inductive Coupling
Far-field techniques
Microwave Power Transmission
(MPT)
LASER power transmission
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Inductive coupling
Primary and secondary coils are not connected with wires.
Energy transfer is due to Mutual Induction
Example : Transformer, Wireless Charging Pad (WCP), electric brushes.
On a WCP, the devices are to be kept, battery will be automatically charged.
Figure : Inductive Coupling
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The 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 wires.
Figure : Wireless Charging Pad
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Resonant Inductive Coupling (RIC)
Combination of inductive coupling and resonance.
Resonance makes two objects interact very strongly.
Inductance induces current.
Figure : Resonance Inductive Coupling (RIC)
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Witricity This project is based on RIC. It was led by MIT team. In this project the energy was
transferred wirelessly for a distance just more than 2m.
Efficiency achieved was around 40%
Researches for decreasing the field strength and to increase the range are in progress.
Figure : Witricity (Wireless Transmission of
Electricity)
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RIC vs. inductive coupling
RIC is highly efficient.RIC has much greater range than inductive
coupling.RIC can be one-to-many. But usually inductive
coupling is one-to-one.Devices using RIC technique are highly
portable.
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Advantages of near-field techniques
No wires No e-waste Need for battery is
eliminated Efficient energy transfer
using RIC Harmless, if field
strengths under safety levels
Maintenance cost is less
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Disadvantages of near-field techniques
Distance constraint
Field strengths have to be under safety levels
Initial cost is high
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Far-field energy transfer
It aims at high power transfer.It can be a laser or microwave
transmission.It needs line-of-sight.It is radiative in nature.
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Microwave Power Transmission (MPT)
Transfers high power from one place to another. Two places being in line of sight usually.
A complete microwave transmission system (MPT) consists of 3 essential parts:
Electrical power to microwave power conversion.
Absorption antenna that captures the waves.
Reconversion to electrical power.Figure : Microwave Transmitter
and Rectenna
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AC can not be directly converted to microwave energy.
AC is converted to DC first.DC is converted to microwaves using magnetron.Transmitted waves are received at rectenna which
rectifies, gives DC as the output.DC is converted back to AC.
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LASER transmission
LASER is highly directional, coherent.Not dispersed for very long.But, gets attenuated when it propagates
through atmosphere.Simple receiver - Photovoltaic cellCost-efficient
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SolarPower Satellites (SPS)
To efficiently make use of renewable energy i.e., solar energy.
SPS are placed in geostationary orbits.
Solar energy is captured using photocells.
Figure : Space Solar Power satellite
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Each SPS may have 400 million photocells.
Transmitted to earth in the form of microwaves/LASER.
Using rectenna/photovoltaic cell, the energy is converted to electrical energy.
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Rectenna
Stands for rectifying antennaConsists of mesh of dipoles and diodesConverts microwave to its DC equivalent
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Rectenna in US
Rectenna in US receives 5000MW of power from SPS.
It is about one and a half mile long.
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Projects based on WPT
In 1993 a project was presented about wireless power supply in Alaska named "Alaska'21”.
The system used for this project consisted of a 2.45 GHz phased array design. The distances that should be bridged are between 1 and 15 miles.
Figure : Alaska’21
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The Grand Bassin project lead by the local university will supply electricity to a remote isolated mountain village.
A prototype was build and presented at the Wireless Power Transmission conference in 2001, which was held on the island.
Figure : Grand Bassin– La Reunion
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In May 2008, a long-range WPT demonstration was realized on one of the islands of Hawaii.
It involved transmission of wireless energy over a distance of 148 kilometers.
Figure : Hawaii demonstration
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Advantages of far-field techniques
EfficientEasyNeed for grids, substations etc are eliminated.Low maintenance cost.More effective when the transmitting and
receiving points are along a line-of-sight.Can reach the places which are remote.
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Disadvantages of far-field techniques
Radiative Needs line-of-sight Initial cost is high When LASERs are used,
conversion is inefficientAbsorption loss is high
When microwaves are used, interference may ariseFried Bird effect
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Applications
Near-field energy transfer– Electric automobile charging
• Static and moving– Consumer electronics– Industrial purposes
Far-field energy transfer– Solar Power Satellites– Energy to remote areas– Can broadcast energy globally (in future)
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Future Scope
In future transmission will be without wires.It would be more efficient.Low maintenance cost but high initial cost.Better than conventional wired transfer.Energy crisis can be decreased.Low power loss. In near future, world will be completely
wireless.
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Reference http://www.leonardo-energy.com/sites/leonardo-
energy/files/root/pdf/2009/WirelessPower.pdf 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)
http://www.witricity.com/assets/highly-resonant-power-transfer-kesler-witricity-2013.pdf
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THANK YOU