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Stability of Metal-Oxide Varistor Characteristics in Exploitation Conditions

2009; Polish Academy of Sciences; Volume: 116; Issue: 6 Linguagem: Inglês

10.12693/aphyspola.116.1081

1898-794X

B. Lončar, Miloš Vujisić, Koviljka Stanković, P. Osmokrović,

Graphite, nuclear technology, radiation studies

Wide-spread use of metal-oxide varistors for non-linearity over-voltage protection results in a variety of possible working conditions.It is therefore essential to have a thorough insight into their reliability in various exploitation environments.The influences of temperature variation, aging and radiation exposure on metal-oxide varistors characteristics were investigated in this paper.Stable and effective over-voltage protection over a wide temperature range is always a desirable property, one which significantly contributes to overall system reliability.Behaviour of metal-oxide varistors in the temperature range from -50 • C to 150 • C was investigated.Aging caused by exploitation was investigated by applying 1000 consecutive double exponential over-voltage pulses to the varistors.Resistance of metal-oxide varistors to the radiation is of special interest in nuclear, military, and space technology.Radiation effects of californium-252 combined neutron/gamma radiation were examined.Voltage-current characteristics, voltage-resistance characteristics and the value of breakdown voltage were used to characterize metal-oxide varistors operation.Non-linearity coefficient, defined from the voltage-current curve, was also used as a parameter.Results are presented with the accompanying theoretical interpretations of the observed changes in metal-oxide varistors behaviour.