In recent years, literature has presented an increasing number of contributions showing a rising interest in four-phase symmetric networks with reference to power electrical systems and electromechanic conversion and drivers. In this paper, a complete methodological analysis of four-phase systems, based on the phasorial and instantaneous sequence components, is presented for sinusoidal and dynamic conditions. This approach allows for the formalization of the theoretical and applicative methodologies necessary for the development of four-phase systems in a systematic and unified way
Symmetrical components of currents and voltages are used for the performance analysis of three-phase...
The instantaneous phasor method originated by the author to solve power quality and efficiency of th...
Abstract—In this paper, the space–vector transformation used in machine vector control is applied to...
In recent years, literature has presented an increasing number of contributions showing a rising int...
In this paper the space vector approach is applied to the analysis of multi-phase electric systems. ...
Four-phase transmission can be a viable alternative to traditional three-phase lines, as shown in ...
The method of symmetrical components is an important mathematical tool for electrical engineering, a...
Four-phase transmission lines have been recently proposed and studied as an alternative to the tradi...
As modern power systems have increased in size and a network scheme has evolved, calculations of sho...
Four-phase transmission systems, which have been deeply investigated in several recent papers, are r...
This paper deals with the generalization of the symmetrical components technique to periodic non-sin...
This paper deals with the generalization of the symmetrical components technique to periodic non-sin...
This paper deals with the generalization of the symmetrical components technique to periodic non-sin...
Using the Fourier method the Kalman theory and the Walsh functions, non-recursive algorithms for the...
Abstract Many textbooks describe a balanced three-phase circuit by a single-phase equivalent represe...
Symmetrical components of currents and voltages are used for the performance analysis of three-phase...
The instantaneous phasor method originated by the author to solve power quality and efficiency of th...
Abstract—In this paper, the space–vector transformation used in machine vector control is applied to...
In recent years, literature has presented an increasing number of contributions showing a rising int...
In this paper the space vector approach is applied to the analysis of multi-phase electric systems. ...
Four-phase transmission can be a viable alternative to traditional three-phase lines, as shown in ...
The method of symmetrical components is an important mathematical tool for electrical engineering, a...
Four-phase transmission lines have been recently proposed and studied as an alternative to the tradi...
As modern power systems have increased in size and a network scheme has evolved, calculations of sho...
Four-phase transmission systems, which have been deeply investigated in several recent papers, are r...
This paper deals with the generalization of the symmetrical components technique to periodic non-sin...
This paper deals with the generalization of the symmetrical components technique to periodic non-sin...
This paper deals with the generalization of the symmetrical components technique to periodic non-sin...
Using the Fourier method the Kalman theory and the Walsh functions, non-recursive algorithms for the...
Abstract Many textbooks describe a balanced three-phase circuit by a single-phase equivalent represe...
Symmetrical components of currents and voltages are used for the performance analysis of three-phase...
The instantaneous phasor method originated by the author to solve power quality and efficiency of th...
Abstract—In this paper, the space–vector transformation used in machine vector control is applied to...