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access icon openaccess Research on a novel STATCOM based on hybrid cascaded multi-level converter and its coordination control strategy

This is an open access article published by the IET under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0/)
Received 24/08/2018, Accepted 19/09/2018, Published 26/10/2018

A novel static synchronous compensator (STATCOM) based on hybrid cascaded multi-level converter (HCMC) is presented in this study, i.e HCMC-STATCOM, which combines the advantages of the traditional two-level converter and cascaded H-bridge converter. However, the topology and control system are relatively complex. It is difficult to coordinate the two key parts in steady operation. This study firstly introduces topology and working principle of the HCMC-STATCOM. Moreover then, the DC voltage of the two-level converter and the number of H-bridge sub-modules in WSC are optimised. In order to achieve the coordinated control of two key parts, a control strategy is proposed to achieve the coordination and synchronisation between the two parts of the HCMC-STATCOM. Finally the 35kV/ ± 100 Mvar HCMC-STATCOM simulation model is built by using power systems computer aided design/electromagnetic transients including DC (PSCAD/EMTDC), the results show that the effectiveness of the coordinated control strategy and the accuracy of the theoretical analysis.

Inspec keywords: bridge circuits; network topology; static VAr compensators; voltage-source convertors

Other keywords: two-level converter; voltage 35.0 kV; HCMC-STATCOM simulation model; control system; hybrid cascaded multilevel converter; H-bridge converter; coordination control strategy; static synchronous compensator; PSCAD/EMTDC; WSC; coordinated control strategy

Subjects: Control of electric power systems; Power convertors and power supplies to apparatus

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