Solenoid Theory - Revision history

Stephens at 22:47, 5 July 2006

2006-07-05T22:47:54Z

129.105.69.193 at 15:50, 30 June 2006

2006-06-30T15:50:25Z

Stephens at 19:49, 9 June 2006

2006-06-09T19:49:30Z

Stephens at 19:48, 9 June 2006

2006-06-09T19:48:55Z

Stephens at 19:48, 9 June 2006

2006-06-09T19:48:09Z

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[[image:sol1.jpg|220px|right]]
A solenoid is simply a specially designed electromagnet. A solenoid usually consists of a coil and a movable iron core called
the armature. Here's how it works.When current flows through a wire, a magnetic field is set up around the wire.If we make a coil of many turns of wire, this magnetic field becomes many times stronger, flowing around the coil and through its center in a doughnut shape. When the coil of the solenoid is energized with current, the core moves to increase the flux linkage by closing the air gap between the cores. The movable core is usally spring-loaded to allow the core to retract when the current is switched off. The force generated is approximately proportional to the square of the current and inversely proportional to the square of the length of the air gap.

Solenoids are inexpensive, and their use is primarily limited to on-off applications such as latching, locking, and triggering. They
are frequently used in home appliances (e.g. washing machine valves), office equipment (e.g. copy machines), automobiles (e.g. door latches and the starter solenoid), pinball mahines (e.g., plungers and bumpers), and factory automation.

===Applications===

[[image:sol2.jpg|220px|right]]
An electromechanical relay is a solenoid used to make or break mechanical contact between electrical leads. A small voltage input to the solenoid controls a potentially large current through the relay contacts. Applications include power switches and electromechanical control elements. A relay performs a function similar to a power transistor but has the capability to switch extremely large currents if necessary. However, transistors have a much shorter switching time than relays.

As illustrated in figure 2, a voice coil consists of a coil that moves in a magnetic field produced by a permanent magnet and
intensified by an iron core. The force on the coil is directly proportional to the current in the coil. The coil is usually attached
to a movable load such as the diaphragm of an audio speaker, the spool of a hydraulic proportional valve, or the read-write head of a
computer disk drive. The linear response and bidirectional capability make voice coils more attractive than solenouds for control
applications.

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+==References==
-(Material taken from Introduction to Mechatronics and Measurement Systems, Histand & Alciatore McGraw-Hill 1999)
+*Histand, Alciatore, "Introduction to Mechatronics and Measurement Systems," McGraw-Hill, 1999

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 [[image:sol1.jpg|220px|right]]
+===Overview===
 <P>A <B>solenoid</B> is simply a specially designed electromagnet. A solenoid usually consists of a coil and a movable iron core called
 the <I>armature</I>. Here's how it works.When current flows through a wire, a magnetic field is set up around the wire.If we make a coil of many turns of wire, this magnetic field becomes many times stronger, flowing around the coil and through its center in a doughnut shape.  When the coil of the solenoid is energized with current, the core moves to increase the flux linkage by closing the air gap between the cores. The movable core is usally spring-loaded to allow the core to retract when the current is switched off. The force generated is approximately proportional to the square of the current and inversely proportional to the square of the length of the air gap.</P>

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 computer disk drive. The linear response and bidirectional capability make voice coils more attractive than solenouds for control
 applications.</P>
+<br clear="all">
+(Material taken from Introduction to Mechatronics and Measurement Systems, Histand & Alciatore McGraw-Hill 1999)

@@ Line 5: / Line 5: @@
 <P>Solenoids are inexpensive, and their use is primarily limited to on-off applications such as latching, locking, and triggering. They
 are frequently used in home appliances (e.g. washing machine valves), office equipment (e.g. copy machines), automobiles (e.g. door latches and the starter solenoid), pinball mahines (e.g., plungers and bumpers), and factory automation.</P>
+<br clear="all">
 ===Applications===