Search results for "analytical expressions"

showing 3 items of 23 documents

Analytical Modeling of the Maximum Power Point with Series Resistance

2021

This paper presents new analytical expressions for the maximum power point voltage, current, and power that have an explicit dependence on the series resistance. An explicit expression that relates the series resistance to well-known solar cell parameters was also derived. The range of the validity of the model, as well as the mathematical assumptions taken to derive it are explained and discussed. To test the accuracy of the derived model, a numerical single-diode model with solar cell parameters whose values can be found in the latest installment of the solar cell efficiency tables was used. The accuracy of the derived model was found to increase with increasing bandgap and to decrease wi…

TechnologyMaximum power principleQH301-705.5QC1-999law.inventionlawSolar cellRange (statistics)Applied mathematicsGeneral Materials ScienceBiology (General)QD1-999InstrumentationMathematicsFluid Flow and Transfer ProcessesEquivalent series resistanceTPhysicsProcess Chemistry and TechnologyGeneral EngineeringEngineering (General). Civil engineering (General)Expression (mathematics)Computer Science ApplicationsPower (physics)ChemistryVDP::Teknologi: 500Solar cell efficiencymaximum power pointanalytical expressionsTA1-2040series resistanceLambert’s W functionVoltage
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Mutual inductance for an explicitly finite number of turns

2011

Published version of an article published in Progress In Electromagnetics Research B, 28, 273-287. Also available from the publisher at http://www.jpier.org/pierb/pier.php?paper=10110103 Non coaxial mutual inductance calculations, based on a Bessel function formulation, are presented for coils modelled by an explicitly finite number of circular turns. The mutual inductance of two such turns can be expressed as an integral of a product of three Bessel functions and an exponential factor, and it is shown that the exponential factors can be analytically summed as a simple geometric progression, or other related sums. This allows the mutual inductance of two thin solenoids to be expressed as an…

analytical expressions exponential factors finite number geometric progressions mutual inductance numerical results representative case thin solenoids bessel functions electric windings solenoids inductanceVDP::Technology: 500::Electrotechnical disciplines: 540
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Hysteretic Systems Subjected to Delta Correlated Input

1994

The paper deals with the evaluation of the probabilistic response of a single degree of freedom elastic-perfectly plastic system subjected to a delta correlated input process. The probabilistic characterisation of the response is here obtained by considering the accumulated plastic deformations as a compound homogeneous Poisson process independent of the external input. In this case the former can be considered as an external noise acting on the linear system. A closed form solution is also obtained and the analytic expression is compared with the customary Monte-Carlo method.

symbols.namesakeAnalytical expressionsMathematical analysisLinear systemsymbolsProbabilistic logicProcess (computing)Poisson processExternal noiseClosed-form expressionSingle degree of freedomMathematics
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