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Mini Tesla

The document discusses the Mini Tesla Coil, a resonant transformer circuit that produces high-voltage, low-current, high-frequency electricity based on electromagnetic induction. It highlights the working principles, construction components, and various applications such as car spark plugs and vacuum system leak detectors. The document also acknowledges Nikola Tesla's contributions to electrical engineering and the support from the academic community.

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vijaycj2302
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22 views1 page

Mini Tesla

The document discusses the Mini Tesla Coil, a resonant transformer circuit that produces high-voltage, low-current, high-frequency electricity based on electromagnetic induction. It highlights the working principles, construction components, and various applications such as car spark plugs and vacuum system leak detectors. The document also acknowledges Nikola Tesla's contributions to electrical engineering and the support from the academic community.

Uploaded by

vijaycj2302
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
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Download as PDF, TXT or read online on Scribd
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Unleashing The Power of Mini Tesla

Coil:
A Spark of Innovation
MAHARAJA INSTITUTE OF TECHNOLOGY THANDAVAPURA DARTMENT OF
ELECTRONICS AND COMMUNICATION ENGINEERING
Abstract Designs Working Principles
Mini Tesla coils operate based on the principles of
A Tesla coil is a resonant transformer circuit that
resonant frequency and electromagnetic induction.
produces high-voltage, low-current, high-frequency
A primary coil, connected to an alternating current
alternating-current electricity. Nikola Tesla invented
(AC) power source, induces a high voltage in a
the Tesla coil in 1891. The original purpose of the
secondary coil. The rapid oscillation of this voltage
Tesla coil was to transmit wireless energy. However,
creates a powerful electromagnetic field, resulting in
advances in electronics have allowed people to build
the production of captivating sparks at the coil's
Tesla coils that can produce music. The lightning
terminal. The resonant frequency ensures optimal
bolts from the Tesla coil act like a speaker. Wireless
energy transfer between the primary and secondary
power transmission (WPT) is a technology that
coils.
allows electrical power to be transferred from one
electrical network to another without the need for
wires or exposed contacts. This feature is
advantageous for a large number of diverse
applications.WPT is a varied and complex process.
One method of WPT is Microwave Power
Transmission (MPT), which transmits electrical
energy as microwaves to reduce transmission,
allocation, and other types of losses. Another
method is inductive coupling, which varies the
magnetic flux between two inductive coils to transfer
energy from the source to load.

Construction and Acknowledgments


Application
Components
1. This coil is used for car spark
• the primary coil typically consists of a few We express gratitude to Nikola Tesla for his
turns of thick wire plug ignition. groundbreaking contributions to electrical
• It is connected to the AC power source and engineering and to the academic
serves to initiate the electromagnetic 2. In vacuum system leak community for fostering an environment of
Primary Coil induction process.
detectors. curiosity and discovery. Special thanks to
[Your Institution/Research Group] for
3. Arc lighters. supporting this research endeavor.

• Comprising a greater number of tightly 4. In aluminum welding.


wound turns of thinner wire
• the secondary coil amplifies the voltage
induced by the primary coil, leading to the
Secondary creation of high-voltage, high-frequency
Coil electrical arcs.

• the capacitor stores and releases electrical


energy in coordination with the coil's
resonant frequency
• contributing to the efficiency of the mini
Capacitor Tesla coil.

• Positioned in series with the primary coil


• the spark gap controls the discharge of
energy from the capacitor, allowing the
formation of the characteristic sparks at the
Spark Gap coil's terminal.

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