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Differential sampling measurement of a 7 V rms sine wave and a programmable Josephson voltage standard | IEEE Conference Publication | IEEE Xplore
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Differential sampling measurement of a 7 V rms sine wave and a programmable Josephson voltage standard

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Alain Rüfenacht; Charles J. Burroughs; Samuel P. Benz; Paul D. Dresselhaus
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Abstract:

A 10 V programmable Josephson voltage standard has enabled sine waves with rms voltages up to 7 V to be accurately measured with differential sampling methods. This paper...Show More

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Abstract:

A 10 V programmable Josephson voltage standard has enabled sine waves with rms voltages up to 7 V to be accurately measured with differential sampling methods. This paper reviews the challenges and limitations of differential sampling that arise when rms voltages greater than a few volts are measured. Preliminary measurements confirmed the capability of the NIST 10 V Josephson array to perform this task and emphasize the need for highly stable and low-phase-noise ac sine wave voltage sources in order to further reduce the measurement uncertainty1.
Published in: 2012 Conference on Precision electromagnetic Measurements
Date of Conference: 01-06 July 2012
Date Added to IEEE Xplore: 30 July 2012
ISBN Information:

ISSN Information:

DOI: 10.1109/CPEM.2012.6250857
Conference Location: Washington, DC, USA
References is not available for this document.
Contents

I. Introduction

NIST recently completed development of a 10 V programmable Josephson voltage standard (PJVS) [1] that allows rms voltage measurements to be extended up to 7 V. The differential sampling method was previously implemented for measuring 1.2 V rms amplitudes for a new electrical power standard [2] [3]. This straightforward sampling method can characterize any sine wave source signal by use of a stepwise-approximated sine wave that is synthesized with the PJVS. Each step provides a quantum-accurate voltage reference for the different sample periods. The residual differential voltage is measured with a sampling voltmeter in a null-detector configuration. Particularly suited for waveform frequencies below 1 kHz, the differential sampling method avoids the limitations induced by the PJVS transients that occur when it switches between quantized levels [4] [5]. Increasing the sine wave source's rms voltage up to 7 V opens new options for the direct calibration of instruments such as ac calibrators and ac digital voltmeters, without the use of a thermal transfer standard [2], [6].

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1.
C. J. Burroughs et al., "NIST 10 V Programmable Josephson Voltage Standard System," IEEE Trans. Instr. Meas., vol. 60, no. 7, pp. 2482-2488, July 2011.
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2.
A. Rüfenacht et al., "Precision Differential Sampling Measurements of Low-Frequency Synthesized Sine Waves with an AC Programmable Josephson Voltage Standard," IEEE Trans. Instr. Meas., vol. 58, no. 4, pp. 809-815, April 2009.
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3.
B. C. Waltrip et al., "AC Power Standard Using a Programmable Josephson Voltage Standard," IEEE Trans. Instr. Meas., vol. 58, no. 4, pp. 1041-1048, April 2009.
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4.
C. J. Burroughs et al., "Error and Transient Analysis of Stepwise-Approximated Sine Waves Generated by Programmable Josephson Voltage Standards," IEEE Trans. Instr. Meas., vol. 57, no. 7, pp. 1322-1329, July 2008.
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5.
C. J. Burroughs et al., "Systematic Error Analysis of Stepwise-Approximated AC Waveforms Generated by Programmable Josephson Voltage Standards," IEEE Trans. Instr. Meas., vol. 58, no. 4, pp. 761-767, April 2009.
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6.
R. Behr et al., "Direct Comparison of Josephson Waveforms Using an AC Quantum Voltmeter," IEEE Trans. Instr. Meas., vol. 56, no. 2, pp. 235-238, April 2007.
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7.
A. Rüfenacht et al., "Precision sampling measurements using ac programmable Josephson voltage standards," Rev. Sci. Instrum., vol. 79, 044704 pp. 1-9, 2008.
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8.
A. Rüfenacht et al., "A Digital-to-Analog Converter with a Voltage Standard Reference," summary submitted to the CPEM-2012 conference.
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