Title
Comparison of instantaneous reactive power p-q theory with theory of the current's physical components
Document Type
Article
Publication Date
1-1-2003
Abstract
The comparison of the instantaneous reactive power (IRP) p-q theory with the theory of the current's physical components (CPC) presented in this paper provides the relationship between powers in both theories applied to three-phase, three-wire circuits with sinusoidal voltages and currents. It shows that results of the IRP p-q theory are inconsistent with power phenomena in such circuits. Namely, the instantaneous reactive power q may occur in circuits with linear, purely resistive loads thus, with zero reactive power, Q, and the instantaneous active power p may occur in circuits with purely reactive loads, thus, with zero active power, P. Consequently, the IRP p-q theory fails to identify the power properties of three-phase circuits with unbalanced loads. Moreover, in spite of sinusoidal supply and the lack of distortion, the IRP p-q theory suggests that the active and reactive currents contain a third-order harmonic. Also the IRP p-q theory is not capable of providing information on power properties of the load instantaneously.
Publication Source (Journal or Book title)
Electrical Engineering
First Page
21
Last Page
28
Recommended Citation
Czarnecki, L. (2003). Comparison of instantaneous reactive power p-q theory with theory of the current's physical components. Electrical Engineering, 85 (1), 21-28. https://doi.org/10.1007/s00202-002-0137-3