Inverse-Impedance-Based Centralized Predictive Current Controller for [Formula Omitted]-Parallel Grid-Connected Converters for Circulating Current Elimination

A constant switching frequency centralized predictive grid current controller is proposed for [Formula Omitted]-parallel grid-connected converters. The proposed work solves the circulating current problem even when converters of different power ratings are paralleled. The circulating current flow is...

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Bibliographic Details
Published in:IEEE transactions on industrial electronics (1982) 2023-01, Vol.70 (11), p.10848
Main Authors: Durga Nair S, Arun, Rahul S
Format: Article
Language:English
Subjects:
Controllers
Current sharing
Electric vehicle charging
Impedance
Predictive control
Online Access:Get full text
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Summary:A constant switching frequency centralized predictive grid current controller is proposed for [Formula Omitted]-parallel grid-connected converters. The proposed work solves the circulating current problem even when converters of different power ratings are paralleled. The circulating current flow is eliminated by equalizing the converter terminal voltages of the parallel converters. A grid equivalent model of the converter is mathematically derived using Thevenin's method to achieve the objective. The converters operate at the same power factors with their currents shared, inversely w.r.t. their line inductances/impedances. The method is flexible in applying any modulation method, without contributing to low-frequency circulating currents. Hardware experiments and software simulations validated the inverse-impedance-based current sharing among the parallel converters. Experimental results show quick redistribution of the grid current among the converters under dynamic conditions, such as incoming/outgoing converter scenarios. The computational requirement with the proposed scheme is independent of the number of converters in parallel. The proposed design is easy to implement and can be deployed for [Formula Omitted]-parallel converter systems for grid applications, such as interlinking converters in ac/dc grids, and plug-in type electric vehicle charging stations.
ISSN:0278-0046
1557-9948
DOI:10.1109/TIE.2022.3225856