Search results for "power system harmonics"

showing 10 items of 15 documents

A set of indicators for arc faults detection based on low frequency harmonic analysis

2016

In this paper a novel set of indicators is presented for arc faults detection in electrical circuits. The indicators are defined starting from an experimental characterization of the arc fault phenomenon and the study of the arcing current in several test conditions, which were chosen in accordance with the UL 1699 Standard requirements. The proposed parameters are measured by means of a high resolution low frequency spectral analysis of the arcing current, which allows to achieve a good spectral resolution even with short observation windows.

Engineering020209 energyArc-fault circuit interrupter02 engineering and technologyUL 1699Low frequencylaw.inventionArc (geometry)Harmonic analysisElectric arcarc fault circuit interrupter (AFCI)power system measurements power system harmonics fault diagnosis arc discharges interrupters arc faults detection home protection electrical safety series arcs arc fault circuit interrupter (AFCI) UL 1699lawhome protection0202 electrical engineering electronic engineering information engineeringElectronic engineeringSpectral resolutionpower system harmonicsinterruptersbusiness.industry020208 electrical & electronic engineeringarc faults detectionfault diagnosispower system measurementsFault indicatorElectrical networkarc dischargeselectrical safetybusinessSettore ING-INF/07 - Misure Elettriche E Elettroniche2016 IEEE International Instrumentation and Measurement Technology Conference Proceedings
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A novel approach to current transformer characterization in the presence of harmonic distortion

2009

The current transformer (CT) performance under distorted waveform conditions is usually characterized by means of the frequency-response test. In this paper, a new way to characterize CTs, closer to real operation conditions, is proposed. The harmonic phase-angle and ratio errors are measured using a nonsinusoidal current composed of fundamental and one harmonic with adjustable phase shift. The new method was tested by determining the performance of two metering class CTs commonly used by the Italian power company. The errors measured using the proposed approach are larger than the ones obtained with the frequency response. This result suggests that the frequency-response approach for the e…

EngineeringFrequency responseElectric current measurementAcousticsElectric transformer testingErrorsElectric utilitiesOperation conditionsHarmonic distortionPower companiesHarmonic analysisElectric power transmission networksFrequency responsePower electronicsWaveformMetering modeCurrent transformer (CT)Electrical and Electronic EngineeringInstrumentationNon-sinusoidal currentsPiezoelectric transducersTotal harmonic distortionbusiness.industryElectric power distributioncurrent transformer frequency response harmonic distortion power system harmonics transducersCurrent transformerRatio errorsTransducerElectric instrument transformersHarmonicPower system harmonicsCurrent (fluid)businessPower transmissionSettore ING-INF/07 - Misure Elettriche E ElettronicheDistorted waveforms
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Disturbing Load Detection in Three-Wire and Four-Wire Systems Based on Novel Nonactive Powers From IEEE 1459-2000

2010

This paper presents an enhanced approach for the detection of disturbing loads in distorted and/or unbalanced three-phase power systems, both three-wire and four-wire. It is based on the IEEE Std. 1459-2000 effective apparent power resolution, and it requires only the separation of the fundamental components of voltage and current from the remaining harmonic content. In this paper, the formulation of the novel approach is given, and its effectiveness is discussed by means of several simulation tests, which were carried out on a simple test system.

EngineeringTotal harmonic distortionSIMPLE (military communications protocol)business.industryPower system harmonicsElectrical engineeringAC powerharmonic distortion harmonic sources power quality power measurement power system harmonic power system measurementHarmonic analysisElectric power systemHarmonicElectronic engineeringElectrical and Electronic EngineeringbusinessSettore ING-INF/07 - Misure Elettriche E ElettronicheInstrumentationVoltageIEEE Transactions on Instrumentation and Measurement
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Arc Fault Detection Method Based on CZT Low-Frequency Harmonic Current Analysis

2017

This paper presents a method for the detection of series arc faults in electrical circuits, which has been developed starting from an experimental characterization of the arc fault phenomenon and an arcing current study in several test conditions. Starting from this, the authors have found that is it possible to suitably detect arc faults by means of a high-resolution low-frequency harmonic analysis of current signal, based on chirp zeta transform, and a proper set of indicators. The proposed method effectiveness is shown by means of experimental tests, which were carried in both arcing and nonarcing conditions and in the presence of different loads, chosen according to the UL 1699 standard…

Engineeringarc fault detection020209 energyseries arcsArc-fault circuit interrupter02 engineering and technologyUL 1699Fault detection and isolationlaw.inventionHarmonic analysisElectric arcarc fault circuit interrupter (AFCI)Arc dischargeslawArc discharges arc fault circuit interrupter (AFCI) arc fault detection electrical safety fault diagnosis home protection interrupters power system harmonics power system measurements series arcs UL 1699Fault current limiterhome protection0202 electrical engineering electronic engineering information engineeringElectronic engineeringElectrical and Electronic EngineeringInstrumentationpower system harmonicsinterruptersbusiness.industry020208 electrical & electronic engineeringfault diagnosispower system measurementsFault indicatorElectrical networkHarmonicelectrical safetybusinessSettore ING-INF/07 - Misure Elettriche E Elettroniche
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Improvement of Hall Effect Current Transducer Metrological Performances in the Presence of Harmonic Distortion

2010

The performance of Hall effect current transducers (HECTs), under distorted waveform conditions, is usually characterized by means of a frequency response test. In this paper, it was investigated if frequency response is able to correctly evaluate the ratio and the phase errors under distorted conditions. Two HECTs, with the accuracy class level of 1% and 0.5%, respectively, were experimentally characterized under two conditions: 1) sinusoidal excitation with frequencies ranging from 50 to 750 Hz, which is the well-known frequency response test, and 2) nonsinusoidal excitation using fundamental frequency and one harmonic with adjusted amplitude and phase shift. It was found that ratio and p…

Frequency responseElectric current measurementCurrent measurement current transducer frequency response hall effect devices harmonic distortion power system harmonics.AcousticsTransducersPhase (waves)GyratorsNon-sinusoidal excitationHarmonic distortionAccuracy levelFundamental frequenciesHarmonic analysisPhase errorElectric currentsError compensationFrequency responseFrequency response testsWaveformSinusoidal excitationsPhase shiftElectrical and Electronic EngineeringInstrumentationPhysicsTotal harmonic distortionElectric power distributionHall effectCurrent measurementsMetrological performanceCurrent transducerFundamental frequencyLight measurementAmplitudeAccuracy classHarmonicsMagnetic field effectsHarmonicHarmonic amplitudeSettore ING-INF/07 - Misure Elettriche E ElettronicheDistorted waveformsHarmonic componentsHall effect devicesIEEE Transactions on Instrumentation and Measurement
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Rogowski coil current transducer compensation method for harmonic active power error

2015

Abstract In the harmonic active power measurement, the highest uncertainties are generally introduced by the current and voltage transducers. In a previous paper, the authors showed that the current transformer (CT) can introduce significant errors in such measurement, especially if the phase shift between voltage and current is close to ±90°. In such condition the errors on harmonic power measurement are mainly due to the CT phase displacement. This paper shows that better results can be achieved with more linear transducers, such as the Rogowski coil current transducers (RCCTs), whose metrological performance in distorted condition can be improved, by means of a proper compensation method…

Frequency responseEngineeringbusiness.industryApplied MathematicsAcousticsPower system harmonics Transducers Current transformers. Frequency response Power measurement Rogowski coilTransducersElectrical engineeringAC powerCondensed Matter PhysicsCurrent transformerRogowski coilCompensation (engineering)Power (physics)Current transformersFrequency responseHarmonicPower system harmonicsElectrical and Electronic EngineeringPower measurementbusinessInstrumentationSettore ING-INF/07 - Misure Elettriche E ElettronicheRogowski coilVoltage
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Characterization of clamp-on current transformers under nonsinusoidal conditions

2009

This paper reports the performance of clamp-on current transformers under nonsinusoidal conditions. A set of experimental measurements helped to determine the ratio and the phase errors under two conditions: 1) sinusoidal excitation with frequencies from 45 to 1000 Hz and 2) nonsinusoidal excitation using the fundamental frequency and one harmonic, with adjusted phase shift. It was found that ratio and phase errors are affected by the phase angle between the harmonic and the fundamental and the harmonic amplitude. The effects of conductor location in the current transformer's window and of the air-gap width were also investigated. It was concluded that harmonic phase and ratio errors measur…

Frequency responseMaterials scienceElectric current measurementTransductorAcousticsErrorsTransducersPhase (waves)Energy Engineering and Power TechnologyClamp-on current transformers current transformers (CTs) frequency response power system harmonics transducers.Power transformersDistributed power generationElectric power systemsHarmonic analysisElectric power transmission networksClamp-on current transformersCurrent transformersFrequency responsePower electronicsFrequency measurementElectronic engineeringElectrical and Electronic EngineeringElectrical conductorTomographyComputed tomographyElectric power distributionElectric transformersCircuit faultsFault currentsFundamental frequencyComputerized tomographyFourier seriesCurrent measurementCurrent transformerDiagnostic radiographyElectric instrument transformersElectric frequency measurementPower system harmonicsMedical imagingCurrent transformers (CTs)Air gap (plumbing)Power transmissionElectric network analysisExcitation
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Frequency response of Measurement Current Transformers

2008

In this paper the frequency response of two CTs is experimentally evaluated in the range of 30-600 Hz. A theoretical analysis of CTs behavior has been developed by means of the equivalent circuit. It was shown, by an experimental test, that, for the frequency range analyzed, the transformer equivalent circuit is a valid tool for the evaluation of CT performances.

Frequency responseTotal harmonic distortionMaterials scienceTransducerlawPower system harmonicsElectronic engineeringEquivalent circuitIec standardsTransformerCurrent transformerHardware_LOGICDESIGNlaw.invention2008 IEEE Instrumentation and Measurement Technology Conference
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Characterization and Error Compensation of a Rogowski Coil in the Presence of Harmonics

2011

This paper reports the results of an experimental study dealing with a commercial Rogowski coil current transducer (RCCT) in the presence of harmonic distortion. The RCCT was observed under two conditions: 1) sinusoidal excitation with frequencies from 50 to 750 Hz and 2) nonsinusoidal excitation using fundamental frequency and one harmonic, with adjustable amplitude and phase shift. The experimental results show only a weak dependence of the harmonic current ratio error and phase displacement on the amplitude and phase shift of the excitation harmonic. The phase displacement is also independent of the conductor position within the Rogowski coil window. An error compensation method, based o…

PhysicsTotal harmonic distortionFrequency responsebusiness.industryAcousticsElectrical engineeringFundamental frequencycurrent transducerRogowski coilCurrent measurement current transducer frequency response harmonic distortion power system harmonics Rogowski coil.harmonic distortionHarmonic analysisAmplitudeHarmonicsHarmonicpower system harmonicElectrical and Electronic EngineeringbusinessInstrumentationSettore ING-INF/07 - Misure Elettriche E ElettronicheRogowski coil
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A self-synchronizing instrument for harmonic sources detection in power systems

2004

The deregulation of energy markets holds out new prospects for contract between customers and utilities, in which the price of energy can depend on voltage quality and load characteristics, as well as on the responsibility for disturbances caused to supply voltage in power systems. In this context, harmonic sources detection is one of the main problems, because of equipment sensibility and the proliferation of loads which absorb non-sinusoidal currents. In this paper the authors present a new instrument based on a time domain method for the detection of harmonic active powers in three-phase systems, which can be usefully applied even in the presence of unbalance or asymmetry. The amplitude …

Total harmonic distortionEngineeringComputer sciencebusiness.industryPhase angleElectrical engineeringSynchronizingContext (language use)AC powerElectric power systemAmplitudeQuality (physics)DistortionHarmonicElectronic engineeringTime domainElectrical and Electronic EngineeringbusinessSettore ING-INF/07 - Misure Elettriche E ElettronicheInstrumentationHarmonic analysis harmonic distortion phase locked loops (PLLs) power measurement power quality power system harmonics power system measurementsVoltage
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