Journal of Electrical Engineering and Technology

The Korean Institute of Electrical Engineers (대한전기학회)
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Three-phase Transformer Model and Parameter Estimation for ATP

  • Cho Sung-Don (Plant Engineering Team, Samsung Corporation)
  • Published : 2006.09.01
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Abstract

The purpose of this paper is to develop an improved three-phase transformer model for ATP and parameter estimation methods that can efficiently utilize the limited available information such as factory test reports. In this paper, improved topologically-correct duality-based models are developed for three-phase autotransformers having shell-form cores. The problem in the implementation of detailed models is the lack of complete and reliable data. Therefore, parameter estimation methods are developed to determine the parameters of a given model in cases where available information is incomplete. The transformer nameplate data is required and relative physical dimensions of the core are estimated. The models include a separate representation of each segment of the core, including hysteresis of the core, ${\lambda}-i$ saturation characteristic and core loss.

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References

  1. H.W. Dommel, EMTP Theory Book, Bonneville Power Administration, Portland, USA, August 1986
  2. G.R. Slemon, 'Equivalent Circuits for Transformers and Machines Including Non-Linear Effects' Proceedings Institution of Electrical Engineers, Vol. 100, Part IV, 1953, pp. 129-143
  3. Working Group C-5 of the Systems Protection Subcommittee, 'Mathematical models for current, voltage, and coupling capacitor voltage transformers' IEEE Transactions on Power Delivery, Vol. 15 Issue: 1, Jan. 2000, pp. 62 –2 https://doi.org/10.1109/61.847230
  4. Armco Catalog, 'Oriented and TRAN-COR H Electrical Steels', 10th Edition, Jan. 1986
  5. M. J. Heathcote, The J&P Transformer Book - 12th Edition, Newnes Ltd., 1998
  6. Sung Don Cho, 'Transformer Core Model and Parameter Estimation for ATP', KIEE International Transactions on Power Engineering, vol. 5-A, no. 4, 2005

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