Analysis of Passive Line Impedance Stabilization Network Filter to Reduce Harmonics at DC- DC Converter
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LISN, harmonics, DC-DC converter, EMC, passive filter
Abstrak
The study aimed to develop a passive LISN filter capable of reducing total harmonic distortion of current (THDi) and voltage (THDv) in a DC-DC converter system, and to evaluate its effectiveness in improving overall system efficiency. The focus of this review is to assess the methodology, results, strengths, and weaknesses of the study in the context of recent literature on harmonic mitigation and EMI/EMC techniques in power electronic systems. Additional literature is also reviewed concerning input filter design, LISN characteristics, and EMI mitigation in power converters. Through an experimental approach, the study demonstrated a reduction of THDi by 25–30% and THDv by about 0.5%, although the results did not fully meet the IEEE 519-1992 harmonic standards. This review compares those findings with recent works on input filter design, harmonic mitigation methods, and LISN applications for electromagnetic compatibility (EMC). The analysis concludes that a passive LISN filter is effective as an initial stage for harmonic mitigation but requires a more complex (multi-stage or hybrid active-passive) design for optimal attenuation and better stability against variations in grid impedance.
Artikel teks lengkap
Referensi
[1] Samapta, A. E., Kurniawan, E., & Wibawa, I. P. D. (2015). Analisis Filter Line Impedance Stabilization Network Pasif untuk Mengurangi Harmonisa pada DC-DC Converter. e-Proceeding of Engineering, Vol. 2, No. 3, Universitas Telkom.
[2] Rashid, M. H. (2004). Power Electronics: Circuits, Devices, and Applications. Prentice-Hall International.
[3] Martin, A. (2011). Simple Success with Conducted EMI from DC-DC Converters. Texas Instruments.
[4] Johannesson, G., & Fransson, N. (2008). EMI Measurements and Modeling of a DC-DC Buck Converter. Chalmers University of Technology.
[5] Baranowski, P., et al. (2021). EMI Phenomena in Power Converter Drives. Energies, 14(8), 2149.
[6] Bhattacharyya, A. K. (2022). Active EMI Filters for Power Electronics: Design and Control Strategies. IEEE Transactions on Power Electronics.
[7] Fischer Custom Communication. (2011). Standard 50 Ω LISN for CISPR-16.
[8] Passive-Components.eu. (2023). Input Filters for DC-DC Converters.
[9] Cahyani, A. (2014). Studi Pengaruh Harmonisa Beban Nonlinier Rumah Tangga terhadap Pengukuran kWh Meter.Universitas Brawijaya.
[10] Kwon, J. et al. (2018). The Effect of Grounding Condition of LISN on Measurement Validity. IEEE EMC Conference Proceedings.
Penulis
Hak Cipta (c) 2026 monica tri buana putri
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