Large time‐delay decoupling and correction in synchronous complex‐vector frame

Abstract: This study presents an enhanced method for simultaneously achieving optimised disturbance damping and axisdecoupling in high-power converters operating in the synchronous rotating frame. High-power converters are considered here because they are normally constrained to a low-switching-to-fundamental pulse ratio, and hence experience a large control delay as a trade-off. This trade-off lowers bandwidth and phase margin, which in the synchronous frame, are further worsened by cross-coupling between the d-and q-a… Show more

“…To improve the performance of the controller and realize the decoupling function, jωrLsidq is introduced into the feedforward term of the PI controller, and the motor model is simplified to R-L form in SRF. However, when the motor operates at low carrier ratio, the decoupling capability of the PI controller is limited because of timedelay [23]. The feedforward with the current prediction proposed in [24] is added to eliminate time delay.…”

A Deadbeat PI Controller With Modified Feedforward for PMSM Under Low Carrier Ratio

“…To improve the performance of the controller and realize the decoupling function, jωrLsidq is introduced into the feedforward term of the PI controller, and the motor model is simplified to R-L form in SRF. However, when the motor operates at low carrier ratio, the decoupling capability of the PI controller is limited because of timedelay [23]. The feedforward with the current prediction proposed in [24] is added to eliminate time delay.…”

A Deadbeat PI Controller With Modified Feedforward for PMSM Under Low Carrier Ratio

Improved Decoupling Control for Medium-Voltage Current Source Converter-Fed PMSM Drives Based on Complex State Variables Analysis

Current Regulator Generalized Design of Grid-Connected Converter with LCL Filter