READYMADE PROJECT FOR YOUR SUDDEN NEED!!!! HAPPY TO HELP

3. ARNAB OJHA
NIMISH PANDEY
ANWITO DAS
ARITRA DAS
GUIDED BY

4. BRIEF
INTRODUCTION
T E S L A C O I L
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6. O B J E C T I V E S
1
2
3
4
5
6
BASIC WORKING
THIS SHOWS HOW
THE CIRCUIT WORKS
COMPONENTS
OF SLAYER
EXCITER
THIS SHOWS WHAT
COMPONENTS WE
NEED
ADVANTAGES
OF WIRELESS
ELECTRICITY
ADVANTAGES OF IT
Energy Transfer via
Magnetic Near Field
Can Penetrate and
Wrap Around
Obstacles
KEY CONCEPT Non-Radiative
Energy
Transfer
KEY CONCEPT
MILLIWATTS TO
KILOWATTS
KEY CONCEPT

7. O B J E C T I V E S
10
7
8
9
TRANSMISSION
OF WACKY
SOUND
DISTURBING SOUND
IS PRODUCED
APPLICATION IN
REAL LIFE
HOW IT HELPS IN
REAL LIFE DAMAGE PRONE
DEVICES
HOW IT COULD
DAMAGE SOME
DEVICES
DEVICES OUT OF
CONTROL
HOW IT COULD MAKE
SOME DEVICES OUT OF
USERS CONTROL

8. ◻ A Slayer Exciter is an air-cored transformer that
steps up a very low DC voltage to a very high AC
voltage.
◻ This creates an electromagnetic field around the
coil that is capable of lighting up fluorescent and
neon light bulbs.
◻ It is fairly similar to a Tesla Coil.
Basicworking

9. SLAYEREXCITER
C O M P O N E N T S O F

10. ◻ The power source supplies
the voltage and amperage.
◻ The driver circuit takes the
electricity from the power
source and prepares it for
the transformer.

12. ◻ The primary coil creates a magnetic field from the electricity.
◻ The secondary coil converts the magnetic field back into
electricity and steps it up to a much higher voltage.
◻ Finally, the top load acts as a capacitor, greatly increasing the
strength of the electromagnetic field

13. ADVANTAGES OF
WIRELESS ELECTRICITY

14. 1. Highly Resonant Strong Coupling
Provides High Efficiency Over
Distance.
o This mode of wireless power transfer is
highly efficient over distances ranging
from centimeters to several meters.
o We define efficiency as the amount of
usable electrical energy created
from a source.
o This mode of transfer can
assure a high rate of efficiency
due to its design

15. o The magnetic near field has several properties that make
it an excellent means of transferring energy in a typical
consumer, commercial, or industrial environment.
o Most common building and furnishing materials, such as
wood, gypsum wall board, plastics, textiles, glass, brick,
and concrete are essentially “transparent” to magnetic
fields—enabling this technology to efficiently transfer
power through them.
o In addition, the magnetic near field has the ability to
“wrap around” many metallic obstacles that might
otherwise block the magnetic fields.
2. Energy Transfer via Magnetic Near Field Can
Penetrate and Wrap Around Obstacles

16. 3. Non-Radiative Energy Transfer is Safe for
People and Animals
o WiTricity’s technology is a non-Radiative mode of energy
transfer, relying instead on the magnetic near field.
o Magnetic fields interact very weakly with biological
organisms—people and animals—and are scientifically
regarded to be safe.
o Professor Sir John Pendry of Imperial College London,
a world renowned physicist, explains: “The body really
responds strongly to electric fields, which is why you can
cook a chicken in a microwave. But it doesn't respond to
magnetic fields.
o As far as we know the body has almost zero response to
magnetic fields in terms of the amount of power it
absorbs."

17. 4. Scalable Design Enables Solutions
from Milli watts to Kilowatts.
o This system can be designed to handle a broad range
of power levels.
o The benefits of highly efficient energy transfer over
distance can be achieved at power levels ranging
from Milli watts to several kilowatts.
o This enables the technology to be used in
applications as diverse as powering a wireless mouse
or keyboard (milliwatts) to recharging an electric
passenger vehicle (kilowatts).

18. WHAT CAN WE DO USING
THIS ???
► WIRELESSLY Light up:
1. Neon lights (several feet away)
2. Florescent tubes (within about a foot)
3. CFL's (within about a foot)
4. LED's (across the room) and even small incandescent lights (with an L3 coil)
► Burn and ignite:
1. Candles
2. Wood (pencils)
3. Paper

19. ► Destroy:
1. Crappy / half dead LED's
2. Bacteria
3. Sensitive electronic equipment (phones, computers,
SD cards, CD's, blu rays, flash drives)
► Create:
1. Ion wind motors
2. The coolest lantern or light on earth
3. Fires
4. Plasma cutter

20. ►Make Nearby electronic
equipment go Haywire:
1. Calculators
2. Digital clocks and alarms
3. Devices with capacitive
touchscreens (PlayStation VIVA,
smartphones, feature phones, tablets)
4. HF remotes
► Transmit wacky sounds (loads
of EMI) to:
1. AM radio
2. FM radio
3. Shortwave radio
4. HAM radios possibly
5. TV interference