Wide DC Output Voltage Range Buck-Boost 6-Module Y-Rectifier Featuring Full Power Delivery in 3-Phase and 1-Phase Operation

Wide DC Output Voltage Range Buck-Boost 6-Module Y-Rectifier Featuring Full Power Delivery in 3-Phase and 1-Phase Operation

Power factor correction rectifiers/inverters with wide input-output voltage ranges are instrumental in applications with widely varying dc voltages such as photovoltaic inverters. Aiming at compatibility with various grid infrastructures, the rectifiers should further feature nominal-power operation...

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Bibliographic Details
Main Authors: David Menzi, Lorenz Kappeler, Patrick Ziegler, Davide Biadene, Johann W. Kolar
Format: Article
Language:English
Published: IEEE 2024-01-01
Series:IEEE Access
Subjects:
Buck-boost
PFC
ac–dc converter
Y-rectifier
modular
3-phase
Online Access:https://ieeexplore.ieee.org/document/10786964/
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Summary:Power factor correction rectifiers/inverters with wide input-output voltage ranges are instrumental in applications with widely varying dc voltages such as photovoltaic inverters. Aiming at compatibility with various grid infrastructures, the rectifiers should further feature nominal-power operation in both, a single-phase and a 3-phase grid. The recently proposed 6-Module (6M) Y-rectifier advantageously features quasi-single-stage buck-boost capability and nominal-power single-phase operation with reduced component over-dimensioning compared to state-of-the-art topologies. Thus far, the 6M Y-rectifier was analyzed based on theoretical considerations only and this paper provides experimental evidence of the full functionality of the concept. A detailed analysis of the main power component stresses and high-frequency noise emissions is conducted for a 6M Y-rectifier covering a wide dc output voltage range of 200V to 750V and operating in a 400V 3-phase and a 240V split-single-phase grid. This study allows to identify suitable power component realizations for an 11kW hardware demonstrator featuring a volumetric power density of 9.4kW/dm3 (154W/in3) and a peak efficiency of 98.6%. All relevant aspects, that is, prototype system startup, transient and steady-state buck-boost operation, conversion efficiency, as well as compliance with the CISPR11/ClassA emission limits in both a 3-phase and a single-phase grid, are verified experimentally.
ISSN:2169-3536

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