Wireless mobile charging through microwaves (2)
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Transcript of Wireless mobile charging through microwaves (2)
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Wireless Charging of Mobile Phones Using Microwaves
BY, AYSWARYA.P.R S7 , EC 13103437 sist
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THANKS TO…SEMINAR COORDINATOR:
DEEPA.V.T MINOSHIMA.M
ASST.PROFESSOR ASST.PROFESSOR
EC DEPT. EC DEPT.
SEMINAR GUIDE:
ANUPAMA.A.S
ASST.PROFESSOR
EC DEPT.
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CONTENTS• INTRODUCTION • WHAT’S HAPPENING• MICROWAVE REGION• FREQUENCY SELECTION• BLOCK DIAGRAM• TRANSMITTER SECTION• RECEIVER SECTION• ADVANTAGES• DISADVANTAGES• APPLICATION• CONCLUSION
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INTRODUCTION Mobile phones becoming basic part of life
Recharging of mobile phones is a big problem
Objective—to recharge any mobile phone independent of manufacturer and battery make
Achieved by recharging battery while talking using microwaves
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CONTD… More you talk more the mobile get charged!
No separate mobile charger
Removal of talk time and battery stand by from mobile specifications
Additives to mobile handsets:SensorRectenna
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WHAT’S HAPPENING?
Microwave signal is transmitted from transmitter along with message signal using slotted waveguide antenna at frequency 2.45 GHz
Charging made universal
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MICROWAVE REGION
Wavelength : 1 mm-30 cm
Microwave can be used for:
1. Measuring body temperature
2. Transmitting information
3. Remote sensing
4. RADAR
5. Communication
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Microwave region of electromagnetic spectrum
We choose s –band of microwave region(2-4GHz)
Designation Frequency range
L Band 1 to 2 GHz
S Band 2 to 4 GHzC Band 4 to 8 GHz
X Band 8 to 12 GHz
Ku Band 12 to 18 GHz
K Band 18 to 26 GHz
Ka Band 26 to 40 GHz
Q Band 30 to 50 GHz
U Band 40 to 60 GHz
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FREQUENCY SELECTION
Select license free 2.45 GHz Industrial, Scientific and Medical (ISM) radio bands
ISM bands are reserved internationally for non-commercial use of RF electromagnetic fields for industrial, scientific and medical purpose
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BLOCK DIAGRAM
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TRANSMITTER SECTION
Consists of two parts
MagnetronSlotted waveguide antenna
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MAGNETRON
• Magnetron is a vacuum tube oscillator that generates high-power electromagnetic signals in the microwave frequency range.
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Contd…
• It is a microwave tube in which electrons generated from a heated cathode are affected by magnetic and electric fields to produce microwave radiation
• Magnetron is used to produce high-power output required in radar and communication equipment
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SLOTTED WAVEGUIDE ANTENNA
It is an Omni-directional antenna
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Contd…
Slotted antenna arrays used with waveguides are popular antenna in navigation, radar and other high-frequency systems
Has high efficiency and gain of 13dB
Here we use frequency of 2.45GHz
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RECEIVER SECTION
Basic additions to mobile phone
a. Sensor
b. Rectenna
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SENSOR CIRCUITRY Simple circuit which detects whether the user is making
a call
Simple F to V converter, this would serve our purpose
Operating frequency of mobile phone operators for GSM system for mobile communication in India is 900MHz or 1800MHz
Simple yet powerful F to V converter is LM2907
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CONTD…
On the reception of the microwave signal ,the sensor circuitry directs rectenna circuit to ON
Rectenna circuit converts microwave energy to dc output
Mobile phone begins to charge using the microwave power as long as the user talks over cell phone.
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RECTENNA
What is Rectenna ?
Rectenna = Rectifier + Antenna.
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Contd… Rectenna is a rectifying circuit that converts microwave
energy into DC output.
Single Rectenna is approx 23 mm2 , arranged to form an array suitable to the shape of mobile phone.
Very thin as sheets and can be used at the back of the Cell phones
In our design it consists of a single diode power rectifier in “hybrid technology” with improved sensitivity at low power levels.
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RECTIFYING CIRCUIT The Schottky diode microwave rectifying circuit is used
here as its efficiency is found to be greater than 90%.
To make low cost power rectifier for low and high power levels of 2.45GHz with good efficiency of rectifying operation
Used to improve transmission efficiency
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ADVANTAGES Charging mobiles wirelessly
Saving time for charging
Wastage of power is less
Better than witricity
Get charged as we make call during long journey
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DISADVANTAGES• Radiation problems may occur
• Network traffic may cause problems in charging
• Charging depends on network coverage
• Rate of charging may be of minute range
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APPLICATIONS
As the topic’s name itself it is used for
“ WIRELESS CHARGING OF MOBILE PHONES”
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FUTURESCOPE & CONCLUSION
• Thus this paper successfully demonstrates a novel method of using the power of microwave to charge mobile phones without use of wired chargers.
• It provides great advantage to mobile phone users to carry their phones anywhere even if the place is devoid of facilities for charging.
• Has effect on human beings similar to that from cell phones at present.
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Contd…
• Use of rectenna and sensor in mobile phone could provide new dimension in the revolution of MOBILE POWER
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REFERENCES
• Theodore.S.Rappaport , “Wireless Communications Principles and Practice”
• www.seminarprojects.com• www.seminarsonly.com• www.wikipedia.org
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Any questions
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