Title :
Effect of adding DC-offset estimation integrators in there-phase enhanced phase-locked loop on dynamic performance and alternative scheme
Author :
Fengjiang Wu ; Lujie Zhang ; Jiandong Duan
Author_Institution :
Dept. of Electr. Eng., Harbin Inst. of Technol., Harbin, China
Abstract :
Three-phase enhanced phase-locked loop (3P-EPLL) can estimate the amplitude, frequency and phase angle of the positive sequence of the three-phase inputs without using a synchronous reference frame. However, the presence of DC offsets in the inputs of the conventional 3P-EPLL introduces a periodic ripple in the estimated information. Thus, DC-offset estimation integrators (DCEIs) to estimate and feedback the DC component as an error signal are introduced in 3P-EPLL to eliminate the disturbance. This study presents a comprehensive study of the transient performance of 3P-EPLL with DCEIs, proving that a worse and longer dynamic period is caused by the coupling of the frequency and amplitude loop resulted from DCEI. Further, a hybrid filtering 3P-EPLL based on delayed-signal cancellation to reject the DC component and sliding Goertzel transform-based filter to eliminate the effect of harmonics and unbalanced inputs is proposed. Thus, a correct estimation is achieved even under unbalanced inputs with both DC and harmonic components. A set of detailed experiments of the former three enhanced phase-locked loops (EPLLs) are presented to display the deficit of the conventional EPLLs and better performance of the proposed scheme.
Keywords :
amplitude estimation; discrete Fourier transforms; frequency estimation; integrating circuits; phase locked loops; power harmonic filters; 3P-EPLL transient performance; DC-offset estimation integrator; DCEI; amplitude estimation; delayed-signal cancellation; disturbance elimination; frequency estimation; harmonic effect elimination; hybrid filtering 3P-EPLL; periodic ripple; phase angle estimation; sliding Goertzel transform-based filter; there-phase enhanced phase-locked loop;
Journal_Title :
Power Electronics, IET
DOI :
10.1049/iet-pel.2014.0317