The Impact of Grid Distortion on the Power Conversion Harmonics of AC/DC Converters in the Supraharmonic Range

The Impact of Grid Distortion on the Power Conversion Harmonics of AC/DC Converters in the Supraharmonic Range

AC/DC converters, controlled by pulse width modulation (PWM) and used as power factor correction (PFC), is considered one of the main contributors to emissions in the range 2 kHz–150 kHz, recently known as the supraharmonic (SH) range. This study looks at the impact of SH grid distortion on the LF (...

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Veröffentlicht in:Electronics (Basel) 2024-06, Vol.13 (12), p.2244
Hauptverfasser: Osheba, Marwa S., Aboutaleb, Abdellatif M., Desmet, Jan, Knockaert, Jos
Format: Artikel
Sprache:eng
Schlagworte:
AC-DC converters
Analysis
Distortion
Electric current converters
Energy conversion
Interharmonics
Investigations
Mathematical analysis
Numerical analysis
Power factor
Propagation
Pulse duration modulation
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Zusammenfassung:AC/DC converters, controlled by pulse width modulation (PWM) and used as power factor correction (PFC), is considered one of the main contributors to emissions in the range 2 kHz–150 kHz, recently known as the supraharmonic (SH) range. This study looks at the impact of SH grid distortion on the LF (2 kHz) emission of an AC/DC converter. The PFC boost converter is used as a particular case for validation of the results. It is observed that the AC/DC converters emit additional LF interharmonics and subharmonics when the grid voltage contains interharmonic components in the SH range. A mathematical analysis is provided to study and assess the interference between the SH in the background distortion and the AC/DC converters. Experimental studies are then performed for a PFC boost setup based on dSPACE MicroLabBox for the purposes of validating the mathematical analysis.
ISSN:2079-9292
2079-9292
DOI:10.3390/electronics13122244