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Analysis of Frequency Response Characteristic Considering Semiconducting Screen in Underground Distribution Cables

지중배전케이블에서 반도전층을 고려한 주파수 응답 및 전파특성 분석

  • 정채균 (한전 전력연구원) ;
  • 이종범 (원광대 공대 전기정보통신공학부) ;
  • 김정태 (대진대학교 전기공학과)
  • Received : 2012.05.29
  • Accepted : 2012.07.10
  • Published : 2012.08.01

Abstract

This paper describes frequency response and propagation characteristics considering semiconducting screen in distribution cables. In CIGRE WG 21-05, Simplified Approach(SA) and Rigorous Approach(RA) which can revise the permittivity considering semiconducting screen propose for more detailed EMTP model and frequency dependant analysis. In this paper, the frequency dependent characteristics of complex permittivity are variously analysed by cole-cole function of RA. The attenuation, propagation velocity and surge impedance according to frequency range(1 kHz to 500 MHz) and cable length are also analysed by SA and EMTP simulation in distribution cables. The propagation velocity considering semiconducting screen is slower, and it is saturated over the range of 1 MHz. The signal is significantly attenuated as frequency range is high.

Keywords

References

  1. KEPCO, "Underground Transmission Cable System", 2002. 12
  2. Bjorn Gustavsen, "Panel on Data for Modeling System Transients -Insulated Cables", IEEE Power Engineering Society Winter Meeting Proceedings, Vol. 2, 2001
  3. Bjorn Gustavsen, "The effect of lossy insulation (paper-oil) and semiconductive layers on wave propagation in cables", CIGRE WG 21-05, SINTEF Energy Research
  4. G. Mugula, R. Eriksson, "High Frequency Characteristics of a Shielded Medium Voltage XLPE Cable" Conference on Electrical and Dielectric Phenomena, 2001 Annual Report
  5. IEC 60840, "Power Cable with Extruded Insulation and Their Accessories for Rated Voltages above 30kV up to 150kV"

Cited by

  1. Effects Analysis of Partial Discharge Signal Propagation Characteristics in Underground Transmission Cables Using EMTP vol.63, pp.5, 2014, https://doi.org/10.5370/KIEE.2014.63.5.629
  2. Partial Discharge Simulation and Analysis Based on Experiment in Underground Distribution Power Cables vol.8, pp.4, 2013, https://doi.org/10.5370/JEET.2013.8.4.832