References: [1] Dugan, R. C., McGranaghan, M. M., Santoso, S., Beaty, H. W. (2002). Electrical Power System Quality, New York, McGrawHill. [2] 566 Working Group C4.605, Modelling and Aggregation of Loads in Flexible Power Networks, Final Report, Paris, CIGRE, 2014. [3] Collin, A. J., Tsagarakis, G., Kiprakis, A. E., McLaughlin, S. (2014). Development of Low-Voltage Load Models for the Residential Load Sector, IEEE Trans., Power Systems, 29 (5) 2180-2188. [4] Tsagarakis, G., Collin, A. J., Kiprakis, A. E. (2012). Modelling the Electrical Loads of UK Residential Energy Users, In: 47th UPEC 2012, pp. 1-6, London, United Kingdom. [5] Fahmy, O. M., Attia, A. S., Badr, M. A. L. (2007). A Novel Analytical Model for Electrical Loads Comprising Static and Dynamic Components, Electric Power Systems Research, 77 (10) 1249-1256. [6] Collin, A. J., Cresswell, C. E., Djokic, S. Z. (2010). Harmonic Cancellation of Modern Switch-mode Power Supply Load, In: 14th ICHQP 2010, pp. 1-9, Bergamo, Italy. [7] Cresswell, C. (2009). Steady State Load Models for Power System Analysis, PhD thesis, The University of Edinburgh. [8] Petronijevic, M., Korunovic, L., Anastasijevic, I. (2016). Analysis of Current Harmonics in DC and AC Drives, In: 10th MedPower 2016 Conference, p. 1-6, Belgrade, Serbia. [9] Blanco, A. M., Grevener, A., Müller, S., Meyer, J., Schegner, P. (2015). Stochastic Harmonic Load Model of Residential Users Based on Measurements, PowerTech2015 Conference, p. 1-6, Eindhoven, Netherlands. [10] Salles, D., Jiang, C., Xu, W., Freitas, W., Mazin, H. E. (2012). Assessing the Collective Harmonic Impact of Modern Residential Loads—Part I: Methodology, IEEE Trans., Power Delivery, 27 (4) 1937-1946. [11] Ðorðevic, S., Dimitrijevic, M., Litovski, V. (2017). A Non-intrusive Identification of Home Appliances Using Active Powerand Harmonic Current, FactaUniversitatis, Series: Electronics and Energetics, 30 (2) 199-208. |