The paper introduces Readers to currently the most advanced power theory of electrical systems with non-sinusoidal voltages and currents, along with fundamentals of their compensation, based on the concept of Currents\u27 Physical Components (CPC). It includes single-phase systems and unbalanced three-phase systems with linear, time-invariant (LTI) and harmonic generating loads (HGLs). ©2008 IEEE
This tutorial paper reviews the fundamentals of different methods for current decomposition and non-...
The CPC-based power theory (PT) provides fundamentals for the development of the reactive compensato...
Most of residential and industrial distribution systems as well as traction and distribution systems...
The paper introduces Readers to currently the most advanced power theory of electric systems with no...
The CPC-based power theory (PT) of electrical circuits and systems provides an interpretation of the...
The paper is focused on physical phenomena that degrade the effectiveness of the energy transfer in ...
The paper summarizes the present state of discussions on power phenomena, power definitions and comp...
The paper presents a short draft of history of the development of the power theory of systems with n...
This paper summarizes the present state of discussions on power phenomena, power definitions and com...
This article aims to explain the capability of describing three-phase systems powered from the sourc...
There are situations in electrical distribution systems where voltages and currents cannot be regard...
There are situations in electrical distribution systems where voltages and currents cannot be regard...
Recently the authors have developed a time-domain representation of the Currents’ Physical Component...
Compensation objectives in three-phase asymmetrical systems with non-sinusoidal voltages and current...
This article presents the concept of a mathematical description of a three-phase, four-wire asymmetr...
This tutorial paper reviews the fundamentals of different methods for current decomposition and non-...
The CPC-based power theory (PT) provides fundamentals for the development of the reactive compensato...
Most of residential and industrial distribution systems as well as traction and distribution systems...
The paper introduces Readers to currently the most advanced power theory of electric systems with no...
The CPC-based power theory (PT) of electrical circuits and systems provides an interpretation of the...
The paper is focused on physical phenomena that degrade the effectiveness of the energy transfer in ...
The paper summarizes the present state of discussions on power phenomena, power definitions and comp...
The paper presents a short draft of history of the development of the power theory of systems with n...
This paper summarizes the present state of discussions on power phenomena, power definitions and com...
This article aims to explain the capability of describing three-phase systems powered from the sourc...
There are situations in electrical distribution systems where voltages and currents cannot be regard...
There are situations in electrical distribution systems where voltages and currents cannot be regard...
Recently the authors have developed a time-domain representation of the Currents’ Physical Component...
Compensation objectives in three-phase asymmetrical systems with non-sinusoidal voltages and current...
This article presents the concept of a mathematical description of a three-phase, four-wire asymmetr...
This tutorial paper reviews the fundamentals of different methods for current decomposition and non-...
The CPC-based power theory (PT) provides fundamentals for the development of the reactive compensato...
Most of residential and industrial distribution systems as well as traction and distribution systems...