Eddy Current Brakes Ppt Slides

Introduction of eddy current.  Introduction of eddy current brake. brake. eddy current brake. brake.  Types of eddy  Circular eddy current brake. cur rent brak brake. e.  Linear eddy curr  Working principle.  Adv  Advantages antages and Disadvantages. Disadvantages. future aspects.  Application and future  conclusion 

When a magnetic core ( or conductor ) is subjected to a time varying magnetic field , voltages are induced in all possible paths enclosing the flux.  Voltage produces circulating currents in the core. These currents are known as eddy currents.  These circulating eddies of current have inductance and thus induce magnetic flux. 

It slows an object by creating eddy currents .  Braking action is made by varying the strength of the magnetic field.  Braking force depends on speed of object.   A braking force is possible when electric current is passed through the electromagnets. 

Circular eddy current brakes  Linear eddy current brakes 

Brake assembly is circular in shape.  Consist of a disc (rotor) made up of magnetic material.  Disc is placed between poles .  Conductor coils are wound on poles to create magnetic field.  The movement of the disc through the magnetic field of the electromagnets creates eddy currents in the discs. 

The principle of the linear eddy current brake has been described by the French physicist Foucault.  The linear eddy current brake consists of a magnetic yoke with electrical coils positioned along the rail.  This magnet does not touch the rail, but is held at a constant small distance from the rail (approximately 7 mm). 

Eddy current brake is based on two basic laws of electromagnetics , which are  Faraday’s law 

e = - d/dt Lenz law :- “An induced electromotive force (emf) always gives rise to a current  whose magnetic field opposes the original change in magnetic flux”

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Magnetic field lines across the magnetic material inside a copper tube

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Electromagnets produce magnetic field from supplied current .

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Due to change in magnetic flux linkage(with time) EMF is induced in conductor (disc).

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EMF produces eddy currents in disc.

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Eddy Currents produce another magnetic field opposing the first field.

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Opposing magnetic fields create force that reduces velocity.

(Arrangement of ECB in high speed trains)

 V =0

 V>0

Pole core

coil

N

S

S

N

F

B

F

F

 A

Rail

 A

Flux lines

F

N

The braking energy of the vehicle is converted in eddy current losses which lead to a warming of the rail.  Braking force is low at low speeds and high at high speeds.   Copper and aluminum is used as  winding materials.   permanent magnets can be used instead of electromagnets , thus not requiring any power supply. 

No contact, therefore no wear or tear.  No noise or smell.  Adjustable brake force.  High brake forces at high speeds.  It uses electromagnetic force instead of friction.  Can be activated at will via electrical signal.  Low maintenance.  Light weight. 

Braking force diminishes as speed diminishes.  no ability to hold the load in position at standstill. ECB is used with ordinary mechanical brakes.  very tough design and simulation. 

In high speed trains.  In roller coaster for braking and smooth functioning.   It is also used in vehicles but still not widely used. 

In future ordinary brakes will be replaced by the ECB completely.  By the use of ECB in future we can control high speed train completely.  By some new invention of extra mechanism we can use ECB for slow speed vehicles also. 

ECB is a good invention for the speed control of high speed vehicles  We can control the speed of high speed  vehicles without wear and tear .  Drawback of ordinary mechanical braking system can be overcome by application of ECB.  It makes use of opposing tendency of eddy current. 

 www.google.co.in  www.explainthatstuff.com/eddy-currentbrakes  www.wikipedia.org/wiki/Eddy_current_  brake/  www.wikipedia.org/wiki/Eddy_current 