The Effect of Air Humidity on the Performance of DC Link Capacitor Components

DC link capacitors (DCLCs) are key devices in converters. The relative humidity affects the performance of the elements of a DCLC. Currently, there are relatively few studies on the effect of relative humidity on the electrical characteristics of the elements of DCLCs during the production process....

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Bibliographic Details
Published inEnergies (Basel) Vol. 17; no. 20; p. 5081
Main Authors Sun, Xiaowu, Qiao, Ying, Li, Yinda, Cao, Chongfeng, Zhang, Jian, Yu, Cheng
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.10.2024
Subjects
Aging
air humidity
Aluminum composites
Capacitors
Circuit components
components
DC link capacitor
Electronic components industry
Failure analysis
Heat resistance
Humidity
life aging test
relative humidity
withstand voltage test
Zinc
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Summary:DC link capacitors (DCLCs) are key devices in converters. The relative humidity affects the performance of the elements of a DCLC. Currently, there are relatively few studies on the effect of relative humidity on the electrical characteristics of the elements of DCLCs during the production process. This study describes the effects and the control of the relative humidity in the production process. For this purpose, a DCLC component withstand voltage test platform and a DCLC component aging test platform were established. The voltage withstand tests were conducted during different processes and at different relative humidities, and life aging tests were conducted at different relative humidities and different storage times. The results show that after the winding and metal-spraying processes, the voltage withstand levels of the components stored at 30% RH, 60% RH, and 80% RH were very close to that of the components at 3000 VDC; after the heat-setting process, the voltage withstand levels of the components stored at 30% RH, 60% RH, and 80% RH showed a decreasing tendency compared with the level of the components at 3000 VDC. Regarding the samples, after the heat-setting process, stored at 30% RH and 60% RH for 24 h, 96 h, 168 h, 240 h, and 336 h and 2000 h of the aging tests, the capacitance decreases monotonically as the storage time is increased but never exceeds 3%, and the capacitance change decreases as the relative humidity increases. This study can provide important guidance for the humidity control of various processes in the production of DCLCs.
ISSN:1996-1073
1996-1073
DOI:10.3390/en17205081