24-07-2012, 10:12 AM
Wireless Power Transmission – A Next Generation Power
Transmission System
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ABSTRACT
In this paper, we present the concept of transmitting power without
using wires i.e., transmitting power as microwaves from one place
to another is in order to reduce the transmission and distribution
losses. This concept is known as Microwave Power transmission
(MPT). We also discussed the technological developments in
Wireless Power Transmission (WPT). The advantages,
disadvantages, biological impacts and applications of WPT are
also presented.
Key Words
Microwave Power transmission (MPT), Nikola Tesla, Rectenna,
Solar Power Satellites (SPS), Wireless Power transmission (WPT).
1. INTRODUCTION
One of the major issue in power system is the losses occurs during
the transmission and distribution of electrical power. As the
demand increases day by day, the power generation increases and
the power loss is also increased. The major amount of power loss
occurs during transmission and distribution. 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. The efficiency
of power transmission can be improved to certain level by using
high strength composite over head conductors and underground
cables that use high temperature super conductor. But, the
transmission is still inefficient. According to the World Resources
Institute (WRI), India’s electricity grid has the highest
transmission and distribution losses in the world – a whopping
27%. Numbers published by various Indian government agencies
put that number at 30%, 40% and greater than 40%. This is
attributed to technical losses (grid’s inefficiencies) and theft [1].
Any problem can be solved by state–of-the-art technology. The
above discussed problem can be solved by choose an alternative
option for power transmission which could provide much higher
efficiency, low transmission cost and avoid power theft.
Microwave Power Transmission is one of the promising
technologies and may be the righteous alternative for efficient
power transmission.
2. WIRELESS POWER TRANSMISSION
Nikola Tesla he is who invented radio and shown us he is indeed
the “Father of Wireless”. Nikola Tesla is the one who first
conceived
the idea Wireless Power Transmission and demonstrated “the
transmission of electrical energy without wires" that depends upon
electrical conductivity as early as 1891[2]. In 1893, Tesla
demonstrated the illumination of vacuum bulbs without using
wires for power transmission at the World Columbian Exposition
in Chicago. The Wardenclyffe tower shown in Figure 1 was
designed and constructed by Tesla mainly for wireless
transmission of electrical power rather than telegraphy [3].
Figure1.The 187-foot Wardenclyffe Tower
(Tesla Tower)
In 1904, an airship ship motor of 0.1 horsepower is driven by
transmitting power through space from a distance of least 100 feet
[4]. In 1961, Brown published the first paper proposing microwave
energy for power transmission, and in 1964 he demonstrated a
microwave-powered model helicopter that received all the power
needed for flight from a microwave beam at 2.45 GHz [5] from
the range of 2.4GHz – 2.5 GHz frequency band which is reserved
©2010 International Journal of Computer Applications (0975 – 8887)
Volume 1 – No. 13
101
for Industrial, Scientific, and Medical (ISM) applications.
Experiments in power transmission without wires in the range of
tens of kilowatts have been performed at Goldstone in California in
1975 [6] and at Grand Bassin on Reunion Island in 1997 [7] . 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 [8]. Similarly, the
world’s first fuel free airplane powered by microwave energy from
ground was reported in 1987 at Canada. This system is called
SHARP (Stationary High – Altitude Relay Platform) [9].
In 2003, Dryden Flight Research Centre of NASA demonstrated a
laser powered model airplane indoors. Japan proposed wireless
charging of electric motor vehicles by Microwave Power
Transmission in 2004. Powercast, a new company introduced
wireless power transfer technology using RF energy at the 2007
Consumer Electronics Show [10]. A physics research group, led by
Prof. Marin Soljacic, at the Massachusetts Institute of technology
(MIT) demonstrated wireless powering of a 60W light bulb with
40% efficiency at a 2m (7ft) distance using two 60cm-diameter
coils in 2007 [11]. Recently in 2008, Intel reproduced the MIT
group's experiment by wirelessly powering a light bulb with 75%
efficiency at a shorter distance [12].
2.2 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. The concept of Wireless Power Transmission System
is explained with functional block diagram shown in Figure 2. 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. 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.
2.3 Components of WPT System
The Primary components of Wireless Power Transmission are
Microwave Generator, Transmitting antenna and Receiving
antenna (Rectenna). The components are described in this chapter.
2.3.1Microwave 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. The
microwave transmission often uses 2.45GHz or 5.8GHz of ISM
band. The other choices of frequencies are 8.5 GHz [13], 10 GHz
[14] and 35 GHz [15]. The highest efficiency over 90% is achieved
at 2.45 GHz among all the frequencies [15].
2.3.2 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.
2.3.3 Rectenna
The concept, the name ‘rectenna’ and the rectenna was conceived
by W.C. Brown of Raytheon Company in the early of 1960s [16].
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. The patch dipole antenna
achieved the highest efficiency among the all. The performance of
various printed rectenna is shown in Table I. Schottky barrier
diodes (GaAs-W, Si, and GaAs) are usually used in the rectifying
circuit due to the faster reverse recovery time and much lower
forward voltage drop and good RF characteristics. The rectenna
efficiency for various diodes at different frequency is shown in
Table II.
3. ADVANTAGES, DISADVANTAGES, AND BIOLOGICAL IMPACTS OF WPT
3.1 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. 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.
3.2 Disadvantages
The Capital Cost for practical implementation of WPT seems to be
very high and the other disadvantage of the concept is interference
of microwave with present communication systems.