2013
DOI: 10.1109/tpwrd.2013.2258688
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Harmonic Analysis in Frequency and Time Domain

Abstract: This paper presents a review with a concise description and analysis of the fundamentals, characteristics, analytical details, merits, and drawbacks associated with existing methods in frequency and time domain for harmonic analysis in practical power networks. The description and analysis are centered on methods developed in the harmonic domain, hybrid frequency-time domain, and time domain, respectively. Validation of the reviewed methods for harmonic analysis, against one of the widely accepted digital simu… Show more

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Cited by 107 publications
(67 citation statements)
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“…Several methods have been developed to compute Φ [20], and all those methods rely on numerical integration processes. Each method differs from each other on how the approximation is done, and in the number of full cycles required for the full identification of Φ.…”
Section: Newton Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Several methods have been developed to compute Φ [20], and all those methods rely on numerical integration processes. Each method differs from each other on how the approximation is done, and in the number of full cycles required for the full identification of Φ.…”
Section: Newton Methodsmentioning
confidence: 99%
“…Average models fall within this type of systems, but they have evident limitations to evaluate adverse effect of the harmonic distortion on the performance of the MG. Alternatively, the harmonic domain modeling approach is able to consider the distorted nature of microgrids and also leads to time-invariant representations; however, the proper modeling of closed-loop controls and nonlinearities are still a bottleneck in this domain [20]. In order to deal with these problems, the fast time-domain methods were proposed [21], [22] and based on these seminal papers, other methods have been proposed and some of them will be presented in the following sections.…”
Section: On the Computation Of The Periodic Steady State Solutionmentioning
confidence: 99%
“…In time domain, the conventional solution (brute force) and the fast periodic steady-state solution are distinguished (Medina et al, 2013). In these methods, voltage and current waveforms are obtained by integrating the differential equations that describe the steady-state of the system.…”
Section: Time Domain Methodsmentioning
confidence: 99%
“…Applying the dynamic harmonic domain methodology to Equation (8), and then applying a numerical integration rule, the companion harmonic circuit model in the Norton equivalent form is obtained as shown in Equation (9). The detailed procedure of the development of the CHCM of the induction machine is presented in Appendix A.…”
Section: Induction Machine Modelmentioning
confidence: 99%