Search results for "power supply quality"

showing 4 items of 4 documents

Uncertainty evaluation in the measurements for the electric power quality analysis

2013

The paper deals with the uncertainty estimation in the measurements performed to assess the electric power quality. In a first steps, according to the 'ISO - Guide to Expression of the Uncertainty in Measurements' all the error sources, which give a significant contribution to the combined uncertainty associated to the measurement results, are identified. Successively, in order to analyze how the errors propagate through the measurement chain, a Monte Carlo based approach is proposed. The method exploits an ad-hoc developed simulator of the measurement process, which takes into account the particular way of propagation of all the identified error sources. Eventually, with the aim of validat…

EngineeringElectric power qualitymeasurement standardpower system measurementMeasurement uncertaintyMonte Carlo methodpower supply qualitySettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciPower measurementpower quality analysisUncertainty analysisObservational errorelectric power quality analysiSeries (mathematics)business.industryProcess (computing)UncertaintyData acquisitionmeasurement uncertainty evaluationerror source identificationCurrent measurementExpression (mathematics)Reliability engineeringmeasurement systemISO standardguide to expression of the uncertainty in measurementMeasurement uncertaintybusinessad hoc developed simulatorNoiseAlgorithmSettore ING-INF/07 - Misure Elettriche E Elettronichemeasurement error

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Uncertainty management in the measurements for the electric power quality analysis

2014

The paper deals with the uncertainty estimation in the measurements performed to assess the electric power quality. In a first steps, all the error sources, which give a significant contribution to the combined uncertainty associated to the measurement results, are identified. Successively, in order to analyze how the errors combine and propagate through the measurement chain, four approaches are proposed and validated. These approaches entail a greater and greater uncertainty overestimation, but, at the same time, require less and less time and resources. Therefore, the four methodologies are perfectly adequate for the implementation of the PUMA (Procedure for Uncertainty Management) metho…

PUMA methodProcedure for Uncertainty Management methodEngineeringerror sourcemechanical measurementElectric power qualityMeasurement uncertaintypower supply qualitySettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettricimeasurement chainiterative methodUncertainty estimationmeasurement uncertainty managementSensitivity analysisPower measurementUncertainty analysiselectric power quality analysibusiness.industryUncertaintyData acquisitionInstrumentgeometrical measurementCurrent measurementiterative techniqueStandardPower quality analysiReliability engineeringmeasurement systemMeasuring instrumentMeasurement uncertaintybusinessSettore ING-INF/07 - Misure Elettriche E Elettroniche2014 IEEE International Energy Conference (ENERGYCON)

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Electric Power Quality Evaluation in the Presence of Electromagnetic Emissions

2013

The measurements for the assessment of the electric power quality are often carried out in hostile electromagnetic environments. The aim of the paper is analyzing if and how both radiated and conducted electromagnetic emissions can disturb the measurement system used to quantify these disturbances. To achieve the target, an experimental approach is proposed, which, by means of a simple and fast test, allows establishing if the real electromagnetic environment, where power quality analysis is performed, can alter the measurements. © 2013 IEEE.

EngineeringElectric power qualityradiated electromagnetic emissionElectromagnetic environmentpower measurementpower supply qualityelectromagnetic waveSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciElectromagnetic radiationelectric power quality measurementFrequency measurementElectronic engineeringpower system faultFrequency modulationconducted electromagnetic emissionpower quality analysisdisturbancebusiness.industrySystem of measurementElectromagnetic compatibilitypower quality analysiVoltage measurementInstrumentTime measurementelectromagnetic immunity; power quality analysisStandardElectromagneticmeasurement systemelectromagnetic immunityPower qualityhostile electromagnetic environmentbusinessSettore ING-INF/07 - Misure Elettriche E Elettroniche

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Controlled Fault-Tolerant Power Converters for Power Quality Enhancement

2013

Power quality depends generally on the interaction of electrical power with electrical equipments. If electrical equipments operate correctly and reliably without being damaged or stressed, a suitable level of power quality is assured. On the other hand, if the electrical equipment malfunctions, is unreliable, or is damaged during normal usage, power quality is poor and probably the economical loss could be important like the technical one. In the scenario of the Distributed Generation, power quality issues will be moreover important because an higher dissemination of power conditioning equipment will be requested and this obviously increases the sources of vulnerability of the electrical s…

EngineeringSwitched-mode power supplypower supply qualitypower system controlSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciPower budgetpower quality enhancementTopologyMaximum power point trackingfault tolerant power converterfuel cellpower supplieElectric power systemMathematical modelpower convertorElectronic engineeringcontrolled fault-tolerant power converterPower-flow studyCircuit faulthybrid power systemdistributed generationFault tolerant systembusiness.industryFault toleranceReliability engineeringPower ratingBase load power plantPower qualityModeling and Simulationpower conditioning equipmentElectric powerVectorbusinessfault tolerance;power convertors;power supply quality;controlled fault-tolerant power converters;distributed generation;fault tolerant power converters;power conditioning equipment;power quality enhancement;Circuit faults;Fault tolerance;Fault tolerant systems;Mathematical model;Power quality;Topology;Vectors;fuel cells;hybrid power systems;power supplies;power system control

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