Experimental and theoretical studies are made of small snap-action
switches designed for use in thermostatic controls operating on a.c.
at 240 volts r.m.s., 50Hz. The performance of the silver cadmium
oxide contacts (Ag. CdO, 85/15%) is evaluated over a range of currents
from 1 to 10 amps, for make and break operations. The arc at break
is found to be the predominant factor contributing to the erosion of
the contacts for the range of currents used.
Tests using a high speed camera show that the energy dissipated in the
arc between the contacts can be evaluated from equations describing
the arc in terms of its voltage, current and length as functions of
time. Subsequently work is carried out to develop the relation between
arc energy and contact erosion, with specific regard to the distribution
of energy between the two contact surfaces and the arc column. This is
related to the power dissipation in the two electrode fall regions, and
the resulting direction of net material transfer is thought to be
influenced by the length achieved by the arc before extinction.
Erosion is generally in the form of anodic loss and cathodic gain and
the reasons for the directional bias in this type of switch are
suggested.
Ways of reducing the amount of erosion per operation by changing the
switch opening characteristic are discussed and supported with
experimental results.
Date of Award | 1979 |
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Original language | English |
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Awarding Institution | |
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INVESTIGATION OF PARAMETERS AFFECTING THE OPERATING CHARACTERISTICS OF TOGGLE-SWITCHES WITH SILVER-CADMIUM-OXIDE CONTACTS
WHITE, P. J. (Author). 1979
Student thesis: PhD