Abstract
Light-emitting diode (LED) lighting has, compared to other types of lighting, a significantly lower energy consumption. However, the perceived service life is also important for customer satisfaction and here there is a discrepancy between customers’ experience and manufacturers’ statements. Many customers experience a significantly shorter service life than claimed by the manufacturers. An experiment was carried out in the Pehr Högström Laboratory at Luleå University of Technology in Skellefteå, Sweden to investigate whether voltage disturbances could explain this discrepancy. Over 1000 LED lamps were exposed to high levels of voltage disturbances for more than 6000 h; the failure rate from this experiment was similar to the one from previous experiments in which lamps were exposed to normal voltage. The discrepancy thus remains, even though some possible explanations have emerged from the project’s results. The lamps were exposed to five different types of voltage disturbances: short interruptions; transients; overvoltage; undervoltage; and harmonics. Only overvoltage resulted in failure of the lamps, and only for a single topology of lamp. A detailed analysis has been made of the topology of lamps that failed. This lamp type contains a different internal electronics circuit than the other lamp types. Failures of the lamps when exposed to overvoltage are due to the heat development in the control circuit increasing sharply when the lamps are exposed to a higher voltage. Hence, it is concluded that there are lamps that are significantly more sensitive to voltage disturbances than other lamp types. Manufactures need to consider the voltage quality that can be expected at the terminal of the lamp to prevent failure of lamps due to voltage disturbances. This paper therefore contains recommendations for manufacturers of lighting; the recommendations describe which voltage disturbances lamps should cope with.
Highlights
Reliability and lifetime of energy-efficient lighting are important features to meet the goals set to save electricity
The results identify that Light-emitting diode (LED) physics and device packaging play a significant role in reliability study
A programmable logic control unit (PLC) measured the current supplied to each wooden board and the ambient temperature, in order to be able to turn off groups in the event of a fault
Summary
Reliability and lifetime of energy-efficient lighting are important features to meet the goals set to save electricity. The voltage distortion at a specific location depends on what electrical equipment is connected and on the impedances in the network This is expected to affect the reliability and lifetime of the lamps as well, but to what extent is unknown. If there were a strong impact, it would mean that the same lighting would age at different speeds in different places, but no information on that is available either When it comes to waveform distortion in particular, it can be assumed that primarily it is the drivers and their components that are affected to the greatest extent because these are electrically closest to the network. Overvoltage transients due to lighting strokes typically lead to damaged appliances, including lighting
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