Abstract
This paper presents LCL filter design method for three-phase two-level power factor correction (PFC) using line impedance stabilization network (LISN). A straightforward LCL filter design along with variation in grid impedance is not simply achievable and inevitably lead to an iterative solution for filter. By introducing of fast power switches for PFC applications such as silicon-carbide, major current harmonics around the switching frequency drops in the region that LISN can actively provide well-defined impedance for measuring the harmonics (i.e. 9 kHz- 30MHz). Therefore, LISN can be replaced with unknown grid impedance at high frequency, simplify the model of the filter, and provide repetitive measurements. In this paper, all the filter parameters are derived with analyzing the behavior of the converter at high frequency with presence of LISN impedance. The minimum required filter capacitor is derived using the current ripple behavior of converter-side inductor. The grid-side inductor is achieved as a function of LISN impedance to fulfill the grid regulation. To verify the analyses, an LCL filter is designed for a 5 kW SiC-based PFC. The simulation and experimental results support the validity of the method.
Original language | English |
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Title of host publication | Proceedings of the 2016 IEEE Applied Power Electronics Conference and Exposition, APEC 2016 |
Publisher | IEEE Press |
Publication date | 2016 |
Pages | 2382-2388 |
ISBN (Electronic) | 978-1-4673-8393-6 |
DOIs | |
Publication status | Published - 2016 |
Event | 31st Annual IEEE Applied Power Electronics Conference and Exposition: , APEC 2016 - Long Beach, United States Duration: 20. Mar 2016 → 24. Mar 2016 |
Conference
Conference | 31st Annual IEEE Applied Power Electronics Conference and Exposition |
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Country/Territory | United States |
City | Long Beach |
Period | 20/03/2016 → 24/03/2016 |
Sponsor | IEEE Industry Applications Society, IEEE Power Electronics Society, Power Sources Manufacturers Association (PSMA) |
Keywords
- LCL filter
- line impedance stablization network
- power factor correction