Abstract
Low voltage devices connected to public electricity supply networks can be subjected to a wide range of voltage quality, including sustained overvoltage. Assessing the impact of sustained overvoltage on devices connected to the distribution network is important in determining the appropriate variance of standard voltage levels without unduly impacting the utility and customers from a technical and economic perspective. Therefore, a clear understanding of the impact that sustained overvoltage has on the lifetime of the connected equipment is a necessary task. This paper investigates the impact of sustained overvoltage through a series of accelerated-life testing experiments on a custom designed test device representative of a common interface between the power supply and distribution network, a switch mode power supply. The switch mode power supply with combined rectifier and filtering capacitor represents one of the most common front ends of LV equipment in modern appliances, and the work here concentrates on the impact of overvoltage on capacitor ageing. The results of the testing indicate that there is an accelerated ageing impact correlated with the applied voltage magnitude. Furthermore, analysis shows that mismatches between appliance voltage rating and sustained network voltage, leading to accelerated ageing, may result in premature device failure without the consumer being aware of the root cause.
Highlights
Academic Editor: Sérgio CruzSteady state voltage or voltage magnitude/variation is one of the most basic power quality (PQ) parameters
While other power quality disturbances, such as high frequency ripple [19,20] and ambient temperature, will have an influence on capacitor lifetime, the focus of this paper is to investigate the relationship between the longevity of electrolytic capacitor (EC) and the magnitude of the supply voltage
Results of the laboratory evaluation are presented as probability density functions (PDFs) of the time to failure of the ECs with respect to input voltage
Summary
Steady state voltage or voltage magnitude/variation is one of the most basic power quality (PQ) parameters. It is the RMS phase-to-phase or phase-to-neutral magnitude of the supply voltage. Maintenance of an appropriate voltage range is essential for proper and efficient operation of equipment connected to the electricity distribution network. Technical standards, such as those governing steady state voltage, are used by equipment manufacturers to design equipment so that it will operate correctly when connected to the low voltage (LV) network under normal supply conditions. In some cases, there is misalignment between standard voltages and equipment ratings as discussed in the study presented in [1].
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