A Direct AC-AC Switched-Capacitor Converter with Input-Series Output-Parallel and In-Phase/Out-of-Phase Capabilities

In this paper, a bidirectional transformerless multi-level direct ac-ac switched-capacitor converter (SCC) is proposed with both in-phase and out-of-phase output voltage capabilities. This converter can be used for series compensator applications, such as dynamic voltage restorers (DVRs), to compens...

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Bibliographic Details
Published in:IEEE transactions on power electronics 2023-10, Vol.38 (10), p.1-14
Main Authors: Mortazavi, S. M., Beiranvand, R.
Format: Article
Language:English
Subjects:
Capacitors
Commutation
Costs
Direct ac-ac converter
dynamic voltage restorer (DVR)
input-series
output-parallel
Power quality
Production costs
sag
series compensator
Series compensators
swell
switched- capacitor converter (SCC)
Switches
Topology
Transformers
Voltage control
Voltage sags
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Summary:In this paper, a bidirectional transformerless multi-level direct ac-ac switched-capacitor converter (SCC) is proposed with both in-phase and out-of-phase output voltage capabilities. This converter can be used for series compensator applications, such as dynamic voltage restorers (DVRs), to compensate grid voltage sag and swell phenomena by incorporating its input-output common ground. Its input-series output-parallel capabilities reduce voltage and current stresses of the converter components in multi-level configurations, which lead to higher efficiency and lower manufacturing costs for high-power applications. Furthermore, proper utilization of an interleaving control scheme can provide lower input and output currents ripples values and smaller filter sizes. The proposed SCC operation principle and its mathematical analyses are given, in detail. Additionally, its switching patterns have been developed with a safe-commutation strategy to obtain various output voltages. Subsequently, both single- and two-level SCC prototypes are implemented as series compensators for DVR applications. Moreover, experimental results are given to generate in-phase and out-of-phase regulated output voltages. The experimental results at 2 kW show that the output voltage changes are less than 3% under the steady-state conditions, despite the large input voltage changes from 140 to 300V. The converter maximum efficiency value is equal to 95.4% at maximum output power value.
ISSN:0885-8993
1941-0107
DOI:10.1109/TPEL.2023.3254543