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An AC quantum voltmeter for frequencies up to 100 kHz using sub-sampling

R. Behr, L. Palafox

2021Metrologia19 citationsDOIOpen Access PDF

Abstract

Abstract Differential sampling relative to a Josephson waveform, the ac quantum voltmeter (ac-QVM), has been established as the most accurate method for measuring signals below 1 kHz with an uncertainty of 1 part in 10 8 ( k = 1) for 1 V at 250 Hz. Commercial ac-QVMs provide accuracies of about 1 part in 10 6 up to frequencies of 2 kHz. Here we present a new sub-sampling technique to extend the frequency range of an ac-QVM up to 100 kHz. The measurement results at 1 V RMS amplitude agree well within 5 µV V −1 ( k = 1) with the nominal voltage values for all frequencies from 500 Hz to 100 kHz. Two different analogue-to-digital converters are compared, sampling techniques, error sources and corrections as well as detailed uncertainty estimations are discussed.

Topics & Concepts

VoltmeterSampling (signal processing)WaveformAmplitudeVoltagePhysicsRange (aeronautics)ConvertersAcousticsComputational physicsOpticsMaterials scienceQuantum mechanicsDetectorComposite materialAdvanced Electrical Measurement TechniquesScientific Measurement and Uncertainty EvaluationAdvanced Frequency and Time Standards
An AC quantum voltmeter for frequencies up to 100 kHz using sub-sampling | Litcius