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A New Era of Application for the Wiegand Effect

Authors: John E. Opie; Jon W. Bossoli;

A New Era of Application for the Wiegand Effect

Abstract

<div class="htmlview paragraph">This paper is presented to explain and demonstrate the most recent gains made in application techniques of the Wiegand Effect. </div> <div class="htmlview paragraph">“Wiegand Wire” is a small diameter wire drawn from a magnetic alloy such as Vicalloy and secondarily processed by cold working so as to cause a gradient of magnetic hardness from its center to exterior. When exposed to magnetic fields of proper orientation, intensities, and sequence, substantial flux jumps will occur within the wire. These flux changes may be converted to an electrical pulse by interposing an inductive pick up-coil.</div> <div class="htmlview paragraph">Being a bistable magnetic threshold device with a firing point of approximately 20 oersteds, the Wiegand Effect may be used to create self-powered pulsers which are essentially insensitive to speed and immune to most ambient magnetic field disturbances.</div> <div class="htmlview paragraph">In addition to the extremely successful application as an encoding technique for “Access Control Cards”, the Wiegand Effect has been applied in numerous commercial and industrial pulser designs where low speed, temperature extremes, and power considerations have made other technologies impractical.</div> <div class="htmlview paragraph">Although a wide variety of magnetic field shapes and intensities will cause Wiegand Effect flux jumps, it has become apparent that certain field shaping techniques and packaging designs have advantages over others from the aspect of output pulse amplitude, general physical size of components, and immunity from permanent disruption by strong external magnetic fields. In order to best utilize the inherent advantages of the Wiegand technology, it is important that the optimal application techniques be identified and understood.</div> <div class="htmlview paragraph">To this end, a great deal of development time has been devoted to investigating various magnetic excitation schemes and evaluating their results. The outcome was: <ol class="list nostyle"> <li class="list-item"> <span class="li-label">1.</span> <div class="htmlview paragraph">a three to four fold improvement in pulse amplitude under symmetric drive conditions;</div></li> <li class="list-item"> <span class="li-label">2.</span> <div class="htmlview paragraph">a general reduction in physical component size; and</div></li> <li class="list-item"> <span class="li-label">3.</span> <div class="htmlview paragraph">relative immunity from external magnetic field interference.</div></li></ol></div> <div class="htmlview paragraph">This paper will summarize the laboratory findings, demonstrate optimal field shaping techniques, and suggest designs for practical, cost effective pulsers.</div>

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selected citations
These citations are derived from selected sources.
This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
BIP!Citations provided by BIP!
popularity
This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
BIP!Popularity provided by BIP!
influence
This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
BIP!Influence provided by BIP!
impulse
This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
BIP!Impulse provided by BIP!
1
Average
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