Abstract
Spikes frequently occur in power quality (PQ) disturbance signals due to various causes such as switching of the inductive loads and the energization of the capacitor bank. Such signals are difficult to analyze using existing time-frequency (TF) methods as these signals have two orthogonal directions in a TF plane. To address this issue, this paper proposes an adaptive TF distribution (TFD) for the analysis of PQ signals. In the proposed adaptive method, the smoothing kernel’s direction is locally adapted based on the direction of energy in the joint TF domain, and hence an improved TF resolution can be obtained. Furthermore, the performance of the proposed adaptive technique in analyzing electrical PQ is thoroughly studied for both synthetic and real world electrical power signals with the help of extensive simulations. The simulation results (specially for empirical data) indicate that the adaptive TFD method achieves high energy concentration in the TF domain for signals composed of tones and spikes. Moreover, the local adaptation of the smoothing kernel in the adaptive TFD enables the extraction of TF signature of spikes from TF images, which further helps in measuring the energy of spikes in a given signal. This new measure can be used to both detect the spikes as well as to quantify the extent of distortion caused by the spikes in a given signal.
Highlights
Electric power quality (PQ) is a broad term which covers various aspects in the areas concerning electrical power transmission to its distribution to consumers
PQ affects the performances of end user equipment, which is connected to the power system
The ratio of spike energy versus tone energy for this experiment is obtained as: 0.538. This ratio can stand as an unanimous quantifier to measure the distribution of energy along spikes for the monitoring of PQ signals
Summary
Electric power quality (PQ) is a broad term which covers various aspects in the areas concerning electrical power transmission to its distribution to consumers. Different types of PQ issues are usually encountered in power systems including the voltage sag, swell, harmonics and transients. All of these PQ issues arise due to the non-linear behavior of load on the transmission distribution system. These disturbing loads cause a deviation in the voltage and current waveforms which lead to significant degradation in the performance of power systems. PQ affects the performances of end user equipment, which is connected to the power system Due to such degradation in the performance of electric power systems, PQ has become a major area of concern for utility companies. In order to improve the PQ, utilities must first record the information about the statistical behavior of the voltage and current in a power system
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