WIRELESS TRANSMISSION METHODS DEVLOPEMENT AND POSSIBILITYIESSamiullah m shaikh 13231 -ee 4g -2014 -2015 bath -mhssp.. mumbai 8 - copy
1. WIRELESS TRANSMISSION OF ELECTRICITY
DEVELOPMENT & POSSIBILITY.
| SHAIKH SAMIULLAH M |
ROLL NO : 13231
under guidance : miss m k vani
M.H.SABOO SIDDIK POLYTECHNIC MUMBAI -08
2. PAPER GOAL
Transmission of power without using wires.
Transmitting power as microwaves .
This reduces Transmission & distribution Losses.
This concept is known as Microwave Power
transmission (MPT).
The paper summarizes the possible ways to get
useful and practical results out of all research carried
out so far elsewhere.
3. INTRODUCTION
One of the major issue in power system is the losses occurs
during the transmission and distribution of electrical power.
The percentage of loss of power during transmission and
distribution is approximated as 26%.
The main reason for power loss during transmission and
distribution is the resistance of wires used for grid.
Any problem can be solved by state–of-the-art technology.
Microwave Power Transmission is one of the promising
technologies and may be the righteous alternative for
efficient power transmission.
4. METHODS
Different methods of transmission proposed by different scientist and scholars
are:
1. Atmospheric conduction method of Tesla
2. Electrodynamic induction method:
Microwave method
Laser method
5. ATMOSPHERIC CONDUCTION METHOD
In 1899 Sir NICOLAI TESLA and HEINRICH HERTZ powered a fluorescent lamp keeping
it 25 miles away from source without using wire. Wireless power transmission
experiments at WARDEN CLYFFE High frequency current, of a Tesla coil, could light
lamps filled with gas (like neon). In this method a closed circuit is made using
transmitter, ionized path between upper atmosphere and transmitter, second ionized
path connecting receiver. The circuit back to the transmitter is completed through the
earth .
6. ATMOSPHERIC CONDUCTION METHOD
High potential is maintained at transmitter and receiver end as well. A high potential
transmitter transmits an “electromotive impulse” through the ionized path to the
upper atmosphere where it ionizes the air, and this air between the transmitter and
receiver would conduct like a neon tube .
7. LIMITATIONS OF ATMOSPHERIC CONDUCTION METHOD
• Economically challenging.
• Periodic changes in atmospheric condition.
• Maintaining high tower potential every time.
8. ELECTRODYNAMIC INDUCTION
METHOD
We bring electromagnetic radiation into practice, which uses far
field technique in order to achieve range into kilos, which includes
two techniques:
• LASERS
• MICROWAVE
9. LASER is highly directional, coherent
Not dispersed for very long
But, gets attenuated when it propagates through
atmosphere
Simple receiver
Photovoltaic cell
Cost-efficient
3/1/2015 9Wireless Power Transmission
LASER TRANSMISSION
10. LASER METHOD
• In the case of electromagnetic radiation closer to visible region of spectrum
(10s of microns (um) to 10s of nm), power can be transmitted by converting
electricity into a laser beam that is then pointed at a solar cell receiver. This
mechanism is generally known as "power beaming" because the power is
beamed at a receiver that can convert it to usable electrical energy.
CURRENT CURRENT
LASER
TRANSFORMER
OPTICAL FIBRE
11. MICROWAVE METHOD
• Power transmission via radio waves can be made more directional, allowing
longer distance power beaming, with shorter wavelengths of electromagnetic
radiation, typically in the microwave range. A rectenna may be used to convert
the microwave energy back into electricity. Rectenna conversion efficiencies
exceeding 95% have been realized. Power beaming using microwaves has been
proposed for the transmission of energy from orbiting solar power satellites to
Earth.
• The principle of Evanescent principle of
Electromagnetic Induction.
Wave Coupling extends the
12. HISTORY :-
Sir NICOLAI TESLA was the first one to propose and research the idea of wireless transmission in
1899, since than many scholars and scientists have been working to make his dream a reality.
• 1899: Tesla continues wireless power transmission research in Colorado Springs and writes, "the
inferiority of the induction method would appear immense as compared with the disturbed charge
of ground and air method
• 1961: William C. Brown publishes an article exploring possibilities of microwave
power transmission
• 2009: Sony shows a wireless electrodynamics-induction powered TV set, 60 W over 50 cm
14. BACK IN TIME
Experiments in power transmission without wires in the range of tens
of kilowatts have been performed at Goldstone in California in 1975
and at Grand Bassin on Reunion Island in 1997.
The world’s first MPT experiment in the ionosphere called the MINIX
(Microwave Ionosphere Non-linear Interaction Experiment) rocket
experiment is demonstrated in 1983 at Japan .
The world’s first fuel free airplane powered by microwave energy from
ground was reported in 1987 at Canada.
Charging of electric motor vehicles by Microwave Power
Transmission in 2004.
Power cast, a new company introduced wireless power transfer
technology using RF energy at the 2007 Consumer
15. WIRELESS POWER TRANSMISSION
SYSTEM
William C. Brown, the pioneer in wireless power transmission technology, has
designed, developed a unit and demonstrated to show how power can be
transferred through free space by microwaves.
In the transmission side, the microwave power source generates microwave
power and the output power is controlled by electronic control circuits.
The wave guide ferrite circulator which protects the microwave source from
reflected power is connected with the microwave power source through the
Coax – Waveguide Adaptor.
The tuner matches the impedance between the transmitting antenna and the
microwave source.
The attenuated signals will be then
separated based on the direction of signal propagation by Directional Coupler.
16. WIRELESS POWER TRANSMISSION SYSTEM
The transmitting antenna radiates the power uniformly
through free space to the rectenna.
In the receiving side, a rectenna receives the transmitted
power and converts the microwave power into DC power.
The impedance matching circuit and filter is provided to
setting the output impedance of a signal source equal to the
rectifying circuit.
The rectifying circuit consists of Schottky barrier diodes
converts the received microwave power into DC power.
18. COMPONENTS OF WPT SYSTEM
The Primary components of Wireless Power Transmission are Microwave
Generator, Transmitting antenna and Receiving antenna (Rectenna). The
components are described here.
1.Microwave Generator
The microwave transmitting devices are classified as Microwave Vacuum
Tubes (magnetron, klystron, Travelling Wave Tube (TWT), and Microwave
Power Module (MPM)) and Semiconductor Microwave transmitters (GaAs
MESFET, GaN ,pHEMT, SiC MESFET, AlGaN/GaN HFET, and InGaAS).
Magnetron is widely used for experimentation of WPT.
. Themicrowave transmission often uses 2.45GHz or 5.8GHz of ISM band.
The other choices of frequencies are 8.5 GHz , 10 GHz and 35 GHz . The
highest efficiency over 90% is achieved at 2.45 GHz among all the
frequencies.
19. 2.TRANSMITTING ANTENNA
The slotted wave guide antenna, microstrip patch antenna,
and parabolic dish antenna are the most popular type of
transmitting antenna.
The slotted waveguide antenna is ideal for power
transmission because of its high aperture efficiency (> 95%)
and high power handling capability.
20. 3.RECTENNA
The concept, the name ‘rectenna’ and the rectenna was
conceived by W.C. Brown of Raytheon Company in the early of
1960s
The rectenna is a passive element consists of antenna, rectifying
circuit with a low pass filter between the antenna and rectifying
diode.
The antenna used in rectenna may be dipole, Yagi – Uda,
microstrip or parabolic dish antenna.
Schottky barrier diodes (GaAs-W, Si, and GaAs) are usually
used in the rectifying circuit due to the faster reverse recovery
time and much lowe forward voltage drop and good RF
characteristics.
21.
22. ADVANTAGES, DISADVANTAGES,
AND BIOLOGICAL IMPACTS OF WPT
1.Advantages
Wireless Power Transmission system would completely eliminates the
existing high-tension power transmission line cables, towers and sub
stations between the generating station and consumers and facilitates
the interconnection of electrical generation plants on a global scale.
It has more freedom of choice of both receiver and transmitters. Even
mobile transmitters and receivers can be chosen for the WPT system.
The cost of transmission and distribution become less and the cost of
electrical energy for the consumer also would be reduced.
The power could be transmitted to the places where the wired
transmission is not possible.
23. ADVANTAGE CONT.….
Loss of transmission is negligible level in the Wireless Power
Transmission; therefore, the efficiency of this method is very
much higher than the wired transmission.
Power is available at the rectenna as long as the WPT is
operating.
The power failure due to short circuit and fault on cables
would never exist in the transmission and power theft would
be not possible at all.
24. DISADVANTAGES
Common beliefs fear the effect of microwave radiation. But
the studies in this domain repeatedly proves that the
microwave radiation level would be never higher than the
dose received while opening the microwave oven door,
meaning it is slightly higher than the emissions created by
cellular telephones.
Cellular telephones operate with power densities at or below
the ANSI/IEEE exposure standards . Thus public exposure to
WPT fields would also be below existing safety guidelines.
25. APPLICATIONS OF WPT
Generating power by placing satellites with giant solar
arrays in Geosynchronous Earth Orbit and transmitting
the power as microwaves to the earth known as Solar
Power Satellites (SPS) is the largest application of WPT.
Another application of WPT is moving targets such as
fuel free airplanes, fuel free electric vehicles, moving
robots and fuel free rockets.
The other applications of WPT are Ubiquitous Power
Source (or) Wireless Power Source, Wireless sensors
and RF Power Adaptive Rectifying Circuits (PARC).
26. CONCLUSION
The concept of Microwave Power transmission (MPT) and Wireless Power
Transmission system Is presented.
The technological developments in Wireless Power Transmission (WPT), the
advantages, disadvantages, biological impacts and applications of WPT are
also discussed.
This concept offers greater possibilities for transmitting power with negligible
losses and ease of transmission than any invention or discovery heretofore
made.
Dr. Neville of NASA states “You don’t need cables, pipes, or copper wires to
receive power.
We can send it to you like a cell phone call – where you want it, when you want
it, in real time”.
We can expect with certitude that in next few years’ wonders will be wrought by
it’s if all the conditions are favorable.
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Wireless Power Transmission Devp.& possibility
REFERENCES