Abstract
In recent years, the introduction of real-time simulators (RTS) has changed the way of researching the power network. In particular, researchers and system operators (SOs) are now capable of simulating the complete network and of making it interact with the real world thanks to the hardware-in-the-loop (HIL) and digital twin (DT) concepts. Such tools create infinite scenarios in which the network can be tested and virtually monitored to, for example, predict and avoid faults or energy shortages. Furthermore, the real-time monitoring of the network allows estimating the status of the electrical assets and consequently undertake their predictive maintenance. The success of the HIL and DT application relies on the fact that the simulated network elements (cables, generation, accessories, converters, etc.) are correctly modeled and characterized. This is particularly true if the RTS acquisition capabilities are used to enable the HIL and the DT. To this purpose, this work aims at emphasizing the role of a preliminary characterization of the virtual elements inside the RTS system, experimentally verifying how the overall performance is significantly affected by them. To this purpose, a virtual phasor measurement unit (PMU) is tested and characterized to understand its uncertainty contribution. To achieve that, firstly, the characterization of a virtual PMU calibrator is described. Afterward, the virtual PMU calibration is performed, and the results clearly highlight its key role in the overall uncertainty. It is then possible to conclude that the characterization of the virtual elements, or models, inside RTS systems (omitted most of the time) is fundamental to avoid wrong results. The same concepts can be extended to all those fields that exploit HIL and DT capabilities.
Highlights
In the sinusoidal steady-state case, there are no appreciable deviations between the digital multimeter (DMM) measurement result and the ideal value set on the calibrator user interface
This fact ensures us that the calibrator can provide the virtual phasor measurement unit (PMU) with the designed harmonic test waveform
A virtual PMU is tested to highlight its significant contribution to the overall uncertainty of a system
Summary
The normal and correct operation of the power network is achievable and can be maintained only with proper monitoring infrastructure Such infrastructure mainly depends on (i) the economic availability of the system operator (SO); (ii) the portion of the considered network, which could be the transmission network (TN) or the distribution network (DN);. As for the target uncertainty, it is fundamental, during the design and development phase of a DMS, to fix it in order to establish the minimum requirements that the monitoring devices must have. This is a critical choice because the final cost of the single measurement unit will significantly differ (even several orders of magnitude) depending on it
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