[[1] Simić, M., Kokolanski, Z., Denić, D., Dimcev, V., Živanović, D., Taskovski, D. (2017). Design and evaluation of computer-based electrical power quality signal generator. Measurement, 107, 77-88.10.1016/j.measurement.2017.05.010]Search in Google Scholar
[[2] Bollen, M.H.J. (2003). What is power quality? Electric Power Systems Research, 66 (1), 5-14.10.1016/S0378-7796(03)00067-1]Search in Google Scholar
[[3] Ferrero, A. (2008). Measuring electric power quality: Problems and perspectives. Measurement, 41 (2), 121-129.10.1016/j.measurement.2006.03.004]Apri DOISearch in Google Scholar
[[4] Copper Development Association. (2004). Power quality application guide. Voltage disturbances. Standard EN 50160.]Search in Google Scholar
[[5] Montenegro, D., Hernandez, M.E., Ramos, G.A. (2014). A realistic generator of power quality disturbances for practicing in courses of electrical engineering. Computer Applications in Engineering Education, 23 (3), 391-402.10.1002/cae.21609]Apri DOISearch in Google Scholar
[[6] De la Rosaa, J.G., Pérez, A.A., Salas, J.C., Fernández, J.M., Muñoz, A.M. (2012). A novel virtual instrument for power quality surveillance based in higher-order statistics and case-based reasoning. Measurement, 45 (7), 1824-1835.10.1016/j.measurement.2012.03.036]Apri DOISearch in Google Scholar
[[7] Chunling, C., Huihui, Q., Wei, Z., Pengfei, W. (2012). Transient power quality signal generator and detector platform. Energy Procedia, 16B, 1380-1385.10.1016/j.egypro.2012.01.219]Search in Google Scholar
[[8] Kumar, V., Kaur, M. (2015). Power quality event generation in MATLAB/Simulink environment. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 4 (7), 6055-6059.]Search in Google Scholar
[[9] Saxena, R., Swami, A.K., Mathur, S. (2012). A power quality signal generator in LabVIEW Environment. In International Conference on Advances in Electronics, Electrical and Computer Science Engineering - EEC 2012, 36-39.]Search in Google Scholar
[[10] Zhu, W., Ma, W.Y., Gui, Y., Zhang, H.F. (2013). Modelling and simulation of PQ disturbance based on Matlab. International Journal of Smart Grid and Clean Energy, 2 (1), 18-24.10.12720/sgce.2.1.18-24]Search in Google Scholar
[[11] Fluke Corporation. (2012). Fluke 435 Series II, Three-phase energy and power quality analyzer. Manual.]Search in Google Scholar
[[12] National Instruments Corporation. (2014). PCIe NI 6343 multifunction data acquisition card - specifications.]Search in Google Scholar
[[13] Kokolanski, Z., Gavrovski, C., Mircevska, I., Dimcev, V., Simić, M. (2016). On the design of power quality signal amplifier. In International Scientific Conference Electronics (ET 2016). IEEE.10.1109/ET.2016.7753491]Search in Google Scholar
[[14] Apex Microtechnology, Inc. (2012). Power operational amplifiers. PA97DR - datasheet.]Search in Google Scholar
[[15] IEEE. (2000). Recommended practice for emergency and standby power systems for industrial and commercial applications. IEEE Standard 446-1995.]Search in Google Scholar
