Abstract
The ultra-high frequency (UHF) method is widely used in insulation condition assessment. However, UHF signal processing algorithms are complicated and the size of the result is large, which hinders extracting features and recognizing partial discharge (PD) patterns. This article investigated the chromatic methodology that is novel in PD detection. The principle of chromatic methodologies in color science are introduced. The chromatic processing represents UHF signals sparsely. The UHF signals obtained from PD experiments were processed using chromatic methodology and characterized by three parameters in chromatic space (H, L, and S representing dominant wavelength, signal strength, and saturation, respectively). The features of the UHF signals were studied hierarchically. The results showed that the chromatic parameters were consistent with conventional frequency domain parameters. The global chromatic parameters can be used to distinguish UHF signals acquired by different sensors, and they reveal the propagation properties of the UHF signal in the L-shaped gas-insulated switchgear (GIS). Finally, typical PD defect patterns had been recognized by using novel chromatic parameters in an actual GIS tank and good performance of recognition was achieved.
Highlights
In electrical power system, gas-insulated switchgears (GIS) are used extensively, and play a pivotal role in power transmission
ultra-high frequency (UHF) signals obtained in a partial discharge (PD) experimental platform are processed using chromatic methodology
The device methodology, which is novel in PD detection
Summary
Xiaohua Wang 1 , Xi Li 1, *, Mingzhe Rong 1, *, Dingli Xie 1 , Dan Ding 1 and Zhixiang Wang 1,2. Received: 27 November 2016; Accepted: 9 January 2017; Published: 18 January 2017
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