2019
DOI: 10.1049/joe.2019.0048
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Theorems of compensation and Tellegen in non‐sinusoidal circuits via geometric algebra

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Cited by 9 publications
(9 citation statements)
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“…• Castro-N ú ñez. This theory was developed by Castro Núñez in the year 2010 [18], and then extended and refined in several later works [5,15,19,20]. A relevant contribution of this work consists on the resolution of electrical circuits by using GA (without requiring complex numbers).…”
Section: Geometric Algebra For Power Flow Analysismentioning
confidence: 99%
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“…• Castro-N ú ñez. This theory was developed by Castro Núñez in the year 2010 [18], and then extended and refined in several later works [5,15,19,20]. A relevant contribution of this work consists on the resolution of electrical circuits by using GA (without requiring complex numbers).…”
Section: Geometric Algebra For Power Flow Analysismentioning
confidence: 99%
“…A relevant contribution of this work consists on the resolution of electrical circuits by using GA (without requiring complex numbers). Also, a multivector called geometric apparent power that is conservative and fulfils the Tellegen theorem is defined [20]. As in Menti and Castilla-Bravo proposals, the results are presented only for single-phase systems.…”
Section: Geometric Algebra For Power Flow Analysismentioning
confidence: 99%
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“…As explained in previous studies [62], [63], [177], GA applied to sinusoidal, non-sinusoidal, linear, and nonlinear circuits is a promising technique to describe the power flow in terms of the energy conservation principle. The decomposition of the current into in-phase and quadrature components I = I c + a has contributed to the development of methods for quadrature RMS current compensation [65]. However, Montoya et al [178] found inconsistencies in the power formulation and reformulated the power theory based on GA (GAPoT) to correct such inconsistencies and shortcomings and define the total current through a decomposition considering the active current suggested by Fryze.…”
Section: B Electrical Engineeringmentioning
confidence: 99%