Voltage Balancing Control of Cascaded Single-Phase VIENNA Converter Based on One Cycle Control With Unbalanced Loads

Abstract: A research study on a type of cascaded single-phase VIENNA converter (CSVC) is presented in this paper. And a type of DC voltage balancing control strategy for each cascaded module of the CSVC based on improved one-cycle control (I-OCC) is proposed, in which voltage balancing signals are added to the conventional OCC (C-OCC) control loop to cause a difference in the modulation signals of each of the cascaded modules, so that the DC voltages of all modules can be quickly balanced under unbalanced loads. At the … Show more

“…For Vienna rectifiers, double closed-loop control of voltage and current is usually used. For the current inner loop control strategy, references [4][5][6][7] adopt the single-cycle control scheme, which has good robustness and improved power factor compared with the traditional PI control. However, the instantaneous current is used as the modulation wave, which is susceptible to harmonic interference and affects the stability of the system.…”

A compound control strategy of three‐phase Vienna rectifier under unbalanced grid voltage

“…For Vienna rectifiers, double closed-loop control of voltage and current is usually used. For the current inner loop control strategy, references [4][5][6][7] adopt the single-cycle control scheme, which has good robustness and improved power factor compared with the traditional PI control. However, the instantaneous current is used as the modulation wave, which is susceptible to harmonic interference and affects the stability of the system.…”

A compound control strategy of three‐phase Vienna rectifier under unbalanced grid voltage

Novel high-power triple line-voltage cascaded unity power factor rectifier

The fundamental phase shift compensation scheme in a digital-controlled VIENNA rectifier with variable carrier-fundamental frequency ratio under unbalanced grid conditions