Renato M. Monaro scite author profile

The development of multiterminal VSC-HVDC grids poses a new challenge: a fast and selective protection algorithm for such grids must be implemented. Therefore, this paper addresses a novel protection algorithm, which proves to be accurate, fast and selective for various combinations of fault distance, resistances and power flow scenarios in a multiterminal VSC-HVDC environment. It relies on the wavelet transform and principal component analysis to retrieve information from the local DC current measurement, generating a highly informative input for a genetic fuzzy system. Based on previously simulated fault scenarios, the genetic fuzzy system is able to decide if the input signal refers to an internal or external fault, generating the trip signal when needed. Furthermore, the method has the advantage of using local measurements to avoid communication delay. Finally, the algorithm was implemented in hardware and tested in a hardware-in-the-loop simulation, which emphasizes the practical use of the proposed protection scheme.

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Digital frequency relaying based on the modified least mean square method

Barbosa

Monaro

Coury

et al. 2010

International Journal of Electrical Power & Energy Systems

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Nonlinear control for modular multilevel converters with enhanced stability region and arbitrary closed loop dynamics

Oliveira

Damm

Monaro

et al. 2021

International Journal of Electrical Power & Energy Systems

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Renato M. Monaro

Active demand side management for households in smart grids using optimization and artificial intelligence

Multi-objective PSO applied to PI control of DFIG wind turbine under electrical fault conditions

Selective Nonunit Protection Technique for Multiterminal VSC-HVDC Grids

Digital frequency relaying based on the modified least mean square method

Nonlinear control for modular multilevel converters with enhanced stability region and arbitrary closed loop dynamics

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