Development of the method of compensating of distortions of output signal of amplifier with non-linear load
Abstract
Keywords
References
Kuzmin, D. A. (2011). “The development of information- measuring system monitoring of quality of electric energy to control the values of total harmonic distortion of current and voltage”. University proceedings. Volga region. Technical sciences. no. 2 (18). pp. 104–112. (in Russian).
Moroz, R. N. and Tesik, Yu. F. (2014). “Comparative analysis of performance measuring power amplifiers applied in generators-calibrators and metrological equipment”. Pratsi Instytutu elektrodynamiky Natsionalnoi Akademii Nauk Ukrainy, vol. 37, pp. 114−124. (in Russian).
Taranov, S. G.; Karasinskii, O. L.; Tesik, Yu. F. and Moroz, R. N. (2014). “Development of principles of construction of switching reference voltages of high-voltage DAC”. Tekhnichna elektrodynamika. no. 4, pp. 64–66. (in Russian).
Akagi, H. (1996). “New trends in active filters for improving power quality”. Power Electronics, Drives and Energy Systems for Industrial Growth, Proceedings International Conf. on vol. 1, pp. 417–425.
Bettega, E. and Fiorina, J. N. (1999). “Active Harmonic Conditioners and Unity Power Factor Rectifiers”. Cahier Technique Schneider Electric. ECT 183. 28 p.
Lavric, H. and Voncina. D. (2004). “А precision hybrid amplifier for voltage calibration systems”. MIDEM 34(2004)1, pp. 37– 2.
Shri, K. Harmonics. Active Harmonic Conditioners. Power Quality Application Guide // Copper Development Association, MGE UPS Systems Ltd. March 2001. (Version 0b November 2001)