An introduction to Semiconductor and its types.pptx
Eddycurrentbrakes
1. COLLEGE OF TECHNOLOGY AND
ENGINEERING
Department Of Electrical Engineering
Seminar On
GuidedBy: Presented by :
Mrs. Himani Paliwal Mr. Govind Gaharwar
Department of Electrical Engg B.E. (Electrical Engg) Final Year
2. Contents
Introduction of Eddy Current
Eddy Current Brakes
Need of Eddy Current Braking
Difference Between Electromechanical & Eddy Current Brake
Principle Involved
Construction
Parameter of construction
Working principle
Types of Eddy Current Brakes
Applications
Advantages & Disadvantages
3. Definition → When a rotating conductor is moved in a
magnetic field a motional emf is generated. This emf
drives a current. The induced currents which circulate
inside a moving conductor are usually called eddy
currents.
Have inductance and thus induce magnetic fields.
Cause repulsion, attraction, heating effects etc.
4. Eddy Current Brakes
• Makes use of the opposing
tendency of eddy currents
to inhibit the motion of a
mechanical system.
6. Abrasion Free
• No use of mechanical blocking, so there is no high levels of wear and tear & the life
of systems remains same.
Eco friendly
• No use of brake pad which produces debris.
High Braking Force
• This produces high braking forces to inhibit system.
7. How are eddy current brakes different from
electromagnetic brakes ?
Eddy Current Brakes
• Uses magnetic force.
• There is an air gap present to
prevent mechanical transmission
of torque.
Electro-magnetic brakes
• Uses electromagnetic circuit and
hence ultimately use frictional force.
• There is a mechanical linkage to
transmit torque.
9. Principle involved
• Faraday’s law of Electromagnetic Induction
The induced electromotive force in any closed circuit is equal to the negative of the time rate
of change of the magnetic flux through the circuit.
𝛆 = −𝐍
𝐝∅ 𝐁
𝐝𝐭
Where
is EMF (Volts)
B is Magnetic Flux (Webers)
is number of turns of wire
10. Principle involved
Lenz’s Law :
An induced emf always gives rise to a current whose magnetic
field oppose the Change in magnetic flux.
Where
ΦB is magnetic flux (Weber)
ε is emf (volts)
11. Construction
• A stationary magnetic field
• A solid rotatory disc
An eddy current brake basically consists of two members:
13. Working Principle
During braking, the metal disc is exposed to
a magnetic field from an electromagnet,
generated eddy current slow down the
rotating disc.
Thus the wheels of the vehicle also slow
down since the wheels are directly coupled to
the disc of the eddy current brake, thus
producing smooth stopping motion.
14. Types of Eddy Current Brakes
Circular eddy current brake
Linear eddy current brake
1.
2.
16. ADVANTAGES DISADVANTAGES
therefore no wear
or tear.
No noise or
smell.
Adjustable
brake force.
High brake
forces at high
speeds.
Braking force
diminishes as speed
diminishes.
It can not be used
for low speed
vehicles .