A novel high bandwidth current control strategy for SiC MOSFET based active front-end rectifiers under unbalanced input voltage conditions
R Maheshwari, I Trintis, L Török… - IEEE Transactions …, 2017 - ieeexplore.ieee.org
IEEE Transactions on industrial electronics, 2017•ieeexplore.ieee.org
SiC mosfet based converters are capable of high switching frequency operation. In this
paper, the converter is operated with 50-kHz switching frequency for an active front-end
rectifier application. Due to high switching frequency, the grid-side filter size is reduced, and
the possibility of a high bandwidth current control loop is utilized in this paper. A current
control loop with bandwidth of 5 kHz is designed using a proportional-integral controller in
synchronously rotating dq-reference frame. In addition, the performance of the controller is …
paper, the converter is operated with 50-kHz switching frequency for an active front-end
rectifier application. Due to high switching frequency, the grid-side filter size is reduced, and
the possibility of a high bandwidth current control loop is utilized in this paper. A current
control loop with bandwidth of 5 kHz is designed using a proportional-integral controller in
synchronously rotating dq-reference frame. In addition, the performance of the controller is …
SiC mosfet based converters are capable of high switching frequency operation. In this paper, the converter is operated with 50-kHz switching frequency for an active front-end rectifier application. Due to high switching frequency, the grid-side filter size is reduced, and the possibility of a high bandwidth current control loop is utilized in this paper. A current control loop with bandwidth of 5 kHz is designed using a proportional-integral controller in synchronously rotating dq-reference frame. In addition, the performance of the controller is tested under unbalanced input supply conditions. During this condition, new feed-forward signals, which are added to the controller output, are proposed. The gain of the feed-forward signal can be modified to achieve balanced sinusoidal grid currents, constant dc-link voltage, or a controlled negative-sequence input current, which are typical application-depending requirements. A closed-form formula to calculate the gain of the feed-forward signal to achieve the above-mentioned requirements is also proposed in this paper. To verify the proposed method, the simulation and experimental results are presented in this paper.
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