Ngoc Thanh Mai Tran scite author profile

Ngoc Thanh Mai Tran

4Publications

50Citation Statements Received

113Citation Statements Given

How they've been cited

How they cite others

102

Affiliations

Joint Quantum Institute, Polytechnic University of Turin, Istituto Nazionale di Ricerca Metrologica

Publications

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A Comprehensive Analysis of Error Sources in Electronic Fully Digital Impedance Bridges

Ortolano

Marzano

D'Elia

et al. 2021

IEEE Trans. Instrum. Meas.

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Fully-digital impedance bridges are emerging as measuring instruments for primary electrical impedance metrology and the realization of impedance units and scales. This paper presents a comprehensive analysis of electronic fully-digital impedance bridges, for both generating (based on digital-toanalog converters) and digitizing (based on analog-to-digital converters) bridges. The sources of measurement error are analyzed in detail and expressed by explicit mathematical formulae ready to be applied to the specific bridge and measurement case of interest. The same can be employed also as a basis to optimize the design and the operating parameters of digital bridges, and to evaluate the measurement uncertainty. A practical application of the analysis to the digital bridges developed and measurements performed in the framework of an international research project is presented.

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Experiences with a two terminal-pair digital impedance bridge

Callegaro

D'Elia

Kampik

et al. 2014

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This paper describes the realization of a two terminal-pair digital impedance bridge and the test measurements performed with it. The bridge, with a very simple architecture, is based on a commercial two-channel digital signal synthesizer and a synchronous detector. The bridge can perform comparisons between impedances having arbitrary phase and magnitude ratio: its balance is achieved automatically in less than a minute. R-C comparisons with calibrated standards, at kHz frequency and 100 kΩ magnitude level, give ratio errors of the order of 10 −6 , with potential for further improvements.

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A precise two-channel digitally synthesized AC voltage source for impedance metrology

Nissilä

Ojasalo

Kampik

et al. 2014

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Investigation of the stability of graphene devices for quantum resistance metrology at direct and alternating current

Chae

Kruskopf

Kucera

et al. 2022

Meas. Sci. Technol.

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Interlaboratory comparisons of the quantized Hall resistance are essential to verify the international coherence of primary impedance standards. Here we report on the investigation of the stability of p-doped graphene-based quantized Hall resistance devices at direct and alternating currents at CMI, KRISS, and PTB. To improve the stability of the electronic transport properties of the polymer encapsulated device, it was shipped in an over-pressurized transport chamber. The agreement of the quantized resistance with RK/2 at direct current was on the order of 1 nΩ/Ω between 3.5 T and 7.5 T at a temperature of 4.2 K despite changes in the carrier density during the shipping of the devices. At alternating current, the quantized resistance was realized in a double-shielded graphene Hall device. Preliminary measurements with digital impedance bridges demonstrate the good reproducibility of the quantized resistance near the frequency of 1 kHz within 0.1 μΩ/Ω throughout the international delivery.

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