This paper presents two new Switching Table Direct Power Control (DPC) strategies of three-phase grid connected VSIs for distributed generation, deviced for the minimization of the common-mode emissions. These strategies have been called DPC-EMC 1 (Electro Magnetically Compatible) and DPC-EMC 2. Both of them reduce the common-mode emissions of the VSI by alternatively using only even or only odd voltage vectors in each of the six sectors in which the grid voltage lies, without using any null vector. DPC-EMC 2 outperforms DPC-EMC 1 in terms of harmonic content of the injected current and ripple of the active and reactive power waveforms. These approaches permit the common-mode emissions to be reduced in comparison with the classic DPC algorithm, at the expense of a slight increase of the harmonic content of the injected current waveform. A comparison among the classic DPC, DPC-EMC 1 and DPC-EMC 2 is presented in numerical simulation in terms of dynamic performances, harmonic content of the injected current and harmonic content of the common-mode voltage.
New Direct Power Control Strategies of Three-Phase VSIs for the Minimization of Common-Mode Emissions in Distributed Generation Systems
M Pucci;G Vitale
2007
Abstract
This paper presents two new Switching Table Direct Power Control (DPC) strategies of three-phase grid connected VSIs for distributed generation, deviced for the minimization of the common-mode emissions. These strategies have been called DPC-EMC 1 (Electro Magnetically Compatible) and DPC-EMC 2. Both of them reduce the common-mode emissions of the VSI by alternatively using only even or only odd voltage vectors in each of the six sectors in which the grid voltage lies, without using any null vector. DPC-EMC 2 outperforms DPC-EMC 1 in terms of harmonic content of the injected current and ripple of the active and reactive power waveforms. These approaches permit the common-mode emissions to be reduced in comparison with the classic DPC algorithm, at the expense of a slight increase of the harmonic content of the injected current waveform. A comparison among the classic DPC, DPC-EMC 1 and DPC-EMC 2 is presented in numerical simulation in terms of dynamic performances, harmonic content of the injected current and harmonic content of the common-mode voltage.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.