| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 704629 | Electric Power Systems Research | 2015 | 5 Pages |
•The extraction of the phase information from a three-phase disturbed signal is a recurrent topic in power systems.•A widely used technique is the phase detector based on the Clarke transform and the arctangent function.•Performances of this phase detector is deteriorates under distorted operational conditions.•When the input signal is affected by a 5th and 7th harmonics, a constant phase error is observed in the estimated phase angle affecting the device synchronization.
Extracting phase information from a three-phase disturbed signal is a recurrent topic in power systems. The phase detector based on the Clarke transform and the arctangent function is a widely used technique to this end. However, the nonlinear nature of this method can derive in an error increment in the estimated phase angle when the input signal is distorted. These errors take the form of oscillating and constant terms and are not generally analyzed in the literature. Therefore, this work presents an error analysis of this phase detector that assesses its causes and effects. To do so, the disturbances over the estimated phase are modeled, the reduction of the phase detector performance is described, and the adverse effects produced by the absence of the pre-filter stage are discussed.
