Wiegand effect
Encyclopedia
The Wiegand effect is a nonlinear magnetic effect, named after its discoverer John R. Wiegand
John R. Wiegand
John R. Wiegand discovered the Wiegand effect, a physical phenomenon in which a specially constructed Wiegand wire can detect small magnetic fields. The Wiegand wire is commonly used as a sensor to read security access cards. There is also a Wiegand Protocol commonly used to transmit the data...

, produced in specially annealed and hardened wire called Wiegand wire.

Wiegand wire is low-carbon Vicalloy
Vicalloy
Vicalloy is a family of cobalt-iron-vanadium wrought permanently magnetic alloys. Vicalloy is precipitation hardened and can be formed by a number of cold working techniques...

, an alloy of cobalt, iron, and vanadium, which is ferromagnetic. Initially, the wire is fully annealled. In this state the alloy is "soft" in the magnetic sense - that is, it is attracted to magnets and so magnetic field lines will divert preferentially into the metal, but the metal retains only a very small residual field when the external field is removed.

During manufacture, to give the wire its unique magnetic properties, it is subjected to a series of twisting and untwisting operations, to cold-work the outside shell of the wire, while retaining a soft core within the wire, and then the wire is aged. The result is that the magnetic coercivity
Coercivity
In materials science, the coercivity, also called the coercive field or coercive force, of a ferromagnetic material is the intensity of the applied magnetic field required to reduce the magnetization of that material to zero after the magnetization of the sample has been driven to saturation...

 of the outside shell is much larger than the inner core. This high coercivity outer shell will retain an external magnetic field even when the field's original source is removed.

The wire now exhibits a very large magnetic hysteresis loop - if a magnet is brought near the wire, the high coercivity
outer shell excludes the magnetic field from the inner soft core until the magnetic threshold is reached, at which point
the entire wire (both the outer shell and inner core) rapidly switches magnetisation polarity. This switchover occurs in a few
microseconds, and is termed the Wiegand effect.

The value of the Wiegand effect is that the switchover speed is sufficiently fast that a significant voltage can be output
from a solenoid using a Wiegand-wire core. Because the voltage induced by a changing magnetic field is proportional to the
rate of change of the field, a Wiegand-wire core can increase the output voltage of a magnetic field sensor by several orders
of magnitude as compared to a similar coil with a non-Wiegand core. This higher voltage can easily be detected electronically, and
when combined with the high repeatability threshold of the magnetic field switching, making the Wiegand effect useful for positional sensors.

Once the Wiegand wire has flipped magnetization, it will retain that magnetization until flipped in the other direction. Sensors
and mechanisms that use the Wiegand effect must take this retention into account.

The Wiegand effect is a macroscopic extension of the Barkhausen effect
Barkhausen effect
The Barkhausen effect is a name given to the noise in the magnetic output of a ferromagnet when the magnetizing force applied to it is changed...

 as the special treatment of the Wiegand wire causes the
wire to act macroscopically as a single large magnetic domain. The numerous small high-coercivity domains in the Wiegand wire outer shell
switch in an avalanche, generating the Wiegand effect's rapid magnetic field change.

Wiegand keycards

Besides sensors, the Wiegand effect is used for security keycard door locks. The plastic keycard has a series of short lengths of Wiegand wire embedded in it, which encodes the key by the presence or absence of wires. A second track of wires provides a clock track. The card is read by pulling it through a slot in a reader device, which has a fixed magnetic field and a sensor coil. As each length of wire passes through the magnetic field, its magnetic state flips which indicates a 1, and this is sensed by the coil. The absence of a wire indicates a 0. The resulting Wiegand protocol digital code is then sent to a host controller to determine whether to electrically unlock the door.

Wiegand cards are more durable and difficult to counterfeit than barcode or magnetic stripe card
Magnetic stripe card
A magnetic stripe card is a type of card capable of storing data by modifying the magnetism of tiny iron-based magnetic particles on a band of magnetic material on the card...

s. Since the keycode is permanently set into the card at manufacture by the positions of the wires, Wiegand cards can't be erased by magnetic fields or reprogrammed as magnetic stripe cards can.
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