ABSTRACT The source reactive-current compensation is crucial in energy transmission efficiency. The compensator design in frequency-domain was already widely discussed and examined. This paper presents results of a study on how to design reactive compensators in time-domain. It’s the first time the reactive compensator have been designed in time domain. The example of compensator design was presented.
Cite this paper
M. Siwczyński and M. Jaraczewski, "Reactive Compensator Synthesis in Time-Domain as an Alternative to Harmonic Method," Circuits and Systems, Vol. 3 No. 3, 2012, pp. 205-209. doi: 10.4236/cs.2012.33028.
 L. S. Czarnecki, “Discussion on ‘a Uniform Concept of Reactive Power of Nonsinusoidal Currents in a TimeDomain’,” Electrical Review, Vol. 85 No. 6, 2009, CDROM.
 M. Siwczyński and M. Jaraczewski, “The L1-Impulse Method as an Alternative to the Fourier Series in the Power Theory of Continues Time Systems,” Bulletin of the Polish Academy of Science, Technical Sciences, Vol. 57, No 1, 2009, pp. 79-86.
 M. Siwczyński, “Decompositions: Active Current, Scattered Current, Reactive Current in Time-Domain—Single-Phase Circuits,” Electrical Review, Vol. 6, 2010, pp. 11-17.
 M. Pasko, “Choice of the Two-Terminal Components, Compensating Reactive Current Component of the Linear Load Fed with Distorted Voltage,” Seminarium z Podstaw Elektrotechniki i Teorii Obwodow, Gliwice-Wis?a, 20-23 May 1992, CD-ROM.
 M. Pasko, “Improvement of the Working Conditions of the Real Distorted Voltage Sources Using Two-Terminal LC components,” Scientific Notebook of the Silesium University of Technology Electrotechnics, Vol. 117, 1991, pp. 45-62.
 M. Pasko and J. Walczak, “Optimization of the Power Quality Coefficients of the Electrical Circuits with Nonsinusoidal Periodic Signals,” Wydawnictwo Politechniki ?l?skiej, Gliwice, 1996.