W. Mack Grady

Abstract: Harmonics – Past to Present Power systems are designed to operate at frequencies of 50 or 60Hz. However, certain types of loads produce currents and voltages with frequencies that are integer multiples of the 50 or 60 Hz fundamental frequency. These higher frequencies are a form of electrical pollution known as power system harmonics. Power system harmonics are not a new phenomenon. Concern over harmonic distortion has ebbed and flowed during the history of electric power systems. Steinmetz published a book in 1916 that devoted considerable attention to the study of harmonics in three-phase power systems. His main concern was third harmonic currents caused by saturated iron in transformers and machines, and he was the first to propose delta connections for blocking third harmonic currents. Later, with the advent of rural electrification and telephone service, power and telephone circuits were often placed on common rights-of-way. Harmonic currents produced by transformer magnetizing currents caused inductive interference with open-wire telephone systems. The interference was so severe at times that voice communication was impossible. This problem was studied and alleviated by filtering and by placing design limits on transformer magnetizing currents. Today, the most common sources of harmonics are power electronic loads such as adjustable-speed drives (ASDs) and switch-mode power supplies. These loads use diodes, silicon-controlled rectifiers (SCRs), power transistors, and other electronic switches to chop waveforms to control power or to convert 50/60Hz AC to DC. In the case of ASDs, the DC is then converted to variable-frequency AC to control motor speed. Example uses of ASDs include chillers and pumps. Due to tremendous advantages in efficiency and controllability, power electronic loads are proliferating and can be found at all power levels – from low voltage appliances to high voltage converters. Hence, power systems harmonics are once again an important problem.

TL;DR: In this paper, a novel classification method for power distribution line disturbances using a rule-based method and a wavelet packet-based hidden Markov model (HMM) was presented.

TL;DR: In this paper, a new large-signal transient load model was developed to represent the composite power electronic load at a network bus to account for the transient responses of power electronic loads which occur at the onset and clearing of voltage sags.

TL;DR: In this article, a method for event detection using a combination of simple statstical algorithms, singular point detection with residual modeling, short time Fourier transform and linear regression is presented.

TL;DR: In this paper, the authors discuss the ongoing development of a synchrophasor network by the University of Texas and the network applications, including modal analysis of measured angle differences between measurement locations.