Abstract
This paper presents a backward Euler stabilized-based control strategy applied to a neutral point clamped (NPC) back-to-back connected five level converters. A generalized method is used to obtain the back-to-back NPC converter system model. The backward Euler stabilized-based control strategy uses one set of calculations to compute the optimum voltage vector needed to reach the references and to balance the voltage of the DC-bus capacitors. The output voltage vector is selected using a modified cost functional that includes variable tracking errors in the functional weights, whereas in classic approaches, the weights are considered constant. The proposed modified cost functional enables AC current tracking and DC-bus voltage balancing in a wide range of operating conditions. The paper main contributions are: (i) a backward Euler stabilized-based control strategy applied to a double, back-to-back connected, five level NPC converter; (ii) the use of cost functional weight varying as a function of the controlled variable tracking errors to enforce the controlled variables and to balance the DC capacitor voltages; and (iii) the demonstration of system feasibility for this type of converter topology and control strategy, ensuring a high enough computational efficiency and extending the modulation index from 0.6 to 0.93. Experimental results are presented using a prototype of a five level NPC back-to-back converter.
Highlights
Multilevel power converters are the converters of choice for high power medium voltage applications such as electrical machine drives or the grid interface connection of renewable energy sources [1,2,3,4]
DC-bus robustness is verified applyingcontrol a grid side voltagewhen sag perturbation. This result clearlyvoltage showscontrol the limits extension of theby proposed strategy, compared with of a nominal voltage, for which the operation conditions are presented in 5 andorthe results redundant vector-based strategies as sinusoidal pulse width modulation (SPWM)
It can be seen that the DC-bus voltage remains almost constant through a sag modulation (SVM) [3,4]
Summary
Miguel Chaves 1,3,4, *, José Fernando Silva 2,3 , Sónia Ferreira Pinto 2,3 , Elmano Margato 1,3,4 and. Instituto Superior de Engenharia de Lisboa (ISEL), Instituto Politécnico de Lisboa, Rua Conselheiro Emídio. Instituto de Engenharia de Sistemas e Computadores, Investigação e Desenvolvimento em Lisboa (INESC-ID), R. Centro de Eletrotecnia e Eletrónica Industrial (CEEI), Rua Conselheiro Emídio Navarro 1, Lisboa 1959-007, Portugal
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