Characterization of Voltage Instrument Transformers Under Nonsinusoidal Conditions Based on the Best Linear Approximation

Faifer, Marco; Laurano, Christian; Ottoboni, R.; Toscani, Sergio; Zanoni, Michele

doi:10.1109/tim.2018.2806949

Cited by 54 publications

(35 citation statements)

References 20 publications

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“…Using the BLA one can easily check the validity of the linear framework in practical applications such as, for example, operational amplifiers [7], industrial robots [5], bit-errorrate measurements in telecommunication [9], characterization of lithium ion batteries [10], control of a medical X-ray system [6], voltage instrument transformers [11], and current transformers [12]. In addition, the dependence of the BLA on the excitation power spectrum also provides some guidance for nonlinear model selection [13], [14].…”

Section: Introductionmentioning

confidence: 99%

Best Linear Approximation of Nonlinear Continuous-Time Systems Subject to Process Noise and Operating in Feedback

Pintelon

Schoukens

Lataire

2020

IEEE Trans. Instrum. Meas.

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In many engineering applications the level of nonlinear distortions in frequency response function (FRF) measurements is quantified using specially designed periodic excitation signals called random phase multisines and periodic noise. The technique is based on the concept of the best linear approximation (BLA) and it allows one to check the validity of the linear framework with a simple experiment. Although the classical BLA theory can handle measurement noise only, in most applications the noise generated by the system -called process noise -is the dominant noise source. Therefore, there is a need to extend the existing BLA theory to the process noise case. In this paper we study in detail the impact of the process noise on the BLA of nonlinear continuous-time systems operating in a closed loop. It is shown that the existing nonparametric estimation methods for detecting and quantifying the level of nonlinear distortions in FRF measurements are still applicable in the presence of process noise. All results are also valid for discrete-time systems and systems operating in open loop.

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Section: Introductionmentioning

confidence: 99%

Best Linear Approximation of Nonlinear Continuous-Time Systems Subject to Process Noise and Operating in Feedback

Pintelon

Schoukens

Lataire

2020

IEEE Trans. Instrum. Meas.

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“…As for the calibration, several studies are found in literature for ITs and the research is evolving and continuing every day [8][9][10][11][12][13]. In particular, among the studies, three different ways of tackling ITs' accuracy are distinguished (but not limited to them): (i) the use of compensating techniques to solve the ITs' nonlinearities; (ii) assessment of the ITs' behavior when working at off-nominal conditions; and (iii) studies based on preliminary characterization at rated conditions.…”

Section: Introductionmentioning

confidence: 99%

Calibration Procedure to Test the Effects of Multiple Influence Quantities on Low-Power Voltage Transformers

Mingotti

Peretto

Tinarelli

2020

Sensors

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The article presents a study on low-power voltage transformers (LPVTs). Considering their increasing spread among Smart Grids, it is fundamental to assess their accuracy behavior in as realistic conditions as possible. Therefore, this article presents a detailed calibration procedure to test LPVTs’ accuracy when various external influence quantities are simultaneously acting on them. In the calibration procedure, the considered quantities are frequency, air temperature, and external electric field. Afterwards, the designed procedure is applied on three different off-the-shelf LPVTs using a measurement setup developed in a laboratory environment. The presented results (i) confirm the easy applicability of the designed calibration procedure; (ii) highlight the various effects of the influence quantities on the accuracy of different types of LPVTs; (iii) confirm the need to include more realistic tests, like the type-tests presented, into the standards to appreciate a wider set of possible in-field behaviors.

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“…As a matter of fact, the accuracy evaluation is a critical task for all kind of electrical assets. For example, a new way of expressing uncertainty in voltage transformers (VTs) was presented by the authors of [9], while characterization and compensation techniques for their evaluation were presented by the authors of [10][11][12] (when the VT was working under non-sinusoidal condition in [10] and in a wide frequency range in [11]). An equivalent effort has been dedicated to current transformers (CTs) by the authors of [13][14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

Toward the Standardization of Limits to Offset and Noise in Electronic Instrument Transformers

Mingotti

Peretto

Tinarelli

2020

Sensors

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The scenario of instrument transformers has radically changed from the introduction of the Low-Power version, both passive and active. The latter type, typically referred to as Electronic Instrument Transformers (EITs), has no dedicated standard within the IEC 61869 series yet. To this purpose, in the authors’ opinion, it is worth understanding how the limits of typical disturbances affecting EITs should be standardized. In particular, after a brief review of the standards, the work presented a mathematical approach to determine the sources of signal disturbances influence, which affect the rms value, on the ratio error. From the results, we discussed that the emergence of disturbances generated within the EIT is a critical aspect to be studied with data of typical off-the-shelf devices. Therefore, to guarantee a correct operation of the devices, a proper standardization of the sources of disturbance should be provided.

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Characterization of Voltage Instrument Transformers Under Nonsinusoidal Conditions Based on the Best Linear Approximation

Cited by 54 publications

References 20 publications

Best Linear Approximation of Nonlinear Continuous-Time Systems Subject to Process Noise and Operating in Feedback

Best Linear Approximation of Nonlinear Continuous-Time Systems Subject to Process Noise and Operating in Feedback

Calibration Procedure to Test the Effects of Multiple Influence Quantities on Low-Power Voltage Transformers

Toward the Standardization of Limits to Offset and Noise in Electronic Instrument Transformers

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