G. Crotti scite author profile

This paper aims at characterizing and improving the metrological performances of Current (CT) and Voltage Instrument Transformers (VT) in harmonic measurements in power system. A theoretical analysis is carried out to demonstrate that, due to the iron core non linearity, CT and VT output signal is distorted even when the input signal is a pure sinusoidal. Starting from this analysis, a new method for CT and VT characterization and compensation is proposed. In a first step, they are characterized in sinusoidal conditions and the harmonic phasors of the distorted output are measured; in the second step, these phasors are used to compensate the harmonic phasors measured in normal operating conditions, which are typically distorted. The proposed characterization and compensation techniques are called SINDICOMP (SINusoidal characterization for DIstortion COMPensation). Several experimental tests, using high accuracy calibration setups, have been performed to verify the proposed methods. The experimental results showed that the SINDICOMP technique assures a significant improvement of CT and VT metrological performances in harmonic measurements.

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Pantograph-to-OHL Arc: Conducted Effects in DC Railway Supply System

Crotti

Giordano

Roccato

et al. 2018

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Evaluation of Flexible Rogowski Coil Performances in Power Frequency Applications

Chiampi

Crotti

Morando

2011

IEEE Trans. Instrum. Meas.

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Overcoming Frequency Response Measurements of Voltage Transformers: An Approach Based on Quasi-Sinusoidal Volterra Models

Faifer

Laurano

Ottoboni

et al. 2019

IEEE Trans. Instrum. Meas.

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The most recent IEC standards about voltage transformers warn about nonlinearity, which may have significantly impact on the harmonic measurement performance. However, there is a lack of scientific literature about this topic: usually their characterization consists of frequency response measurements, which are clearly not able to capture the nonlinear behavior.In this paper, an innovative approach based on simplified frequency domain polynomial models developed by the authors is proposed. The method is applied to two different medium voltage inductive transformers. Models are identified and validated with a large set of realistic primary waveforms injected by a proper setup. Experimental results confirm the remarkable accuracy of the proposed models especially for low-order harmonics, which are the most affected by nonlinearity.

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Frequency Response of MV Voltage Transformer Under Actual Waveforms

Crotti

Gallo

Giordano

et al. 2017

IEEE Trans. Instrum. Meas.

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A setup for the measurement of the frequency\ud response of voltage measurement transformers under actual\ud waveform conditions is presented. It is based on a two-step\ud procedure that makes use of high voltage gas insulated capacitors\ud and a digital bridge. It allows calibrations using distorted\ud waveforms, with a fundamental tone at medium voltage level\ud and superimposed harmonics up to 20% and 15 kHz. Combined\ud standard uncertainty in the measurement of the voltage transformer\ud (VT) error is estimated at 200 µV/V for the ratio error\ud and 300 µrad for the phase displacement up to 10 kHz. First\ud applications to the measurement of the frequency response of VTs\ud with different rated primary voltages up to 50 kV are presented

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G. Crotti

Compensation of Nonlinearity of Voltage and Current Instrument Transformers

Pantograph-to-OHL Arc: Conducted Effects in DC Railway Supply System

Evaluation of Flexible Rogowski Coil Performances in Power Frequency Applications

Overcoming Frequency Response Measurements of Voltage Transformers: An Approach Based on Quasi-Sinusoidal Volterra Models

Frequency Response of MV Voltage Transformer Under Actual Waveforms

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