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Modelling and design of a reversible three-phase switching mode rectifier

Modelling and design of a reversible three-phase switching mode rectifier

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A reversible three-phase switching mode rectifier consisting of a four-active-switch and without current sensor is proposed. To achieve controllable power factor, clean sinusoidal input current, adjustable DC output voltage, and bidirectional power flow capability, a closed-form pulse width modulation (PWM) duty cycle function is derived. The popularly used state space averaging technique is extended for modelling the reversible three-phase four-active-switch rectifier. The space vector representation technique is then used to simplify the modelling process without sacrificing accuracy and valid frequency range. Both steady-state and small signal analyses are made. Results show that the proposed closed-form control law for the rectifier can indeed achieve the desired property. Moreover, the rectifier also possesses a bidirectional power flow capability, which is useful for many applications. Finally, a prototype hardware circuit was constructed and experimental results are presented for demonstration. Guidelines for determining the LC parameters and the PI controller gains are described briefly in the text.

Inspec keywords: power control; PWM power convertors; two-term control; power factor correction; load flow; rectifying circuits; voltage control; switched mode power supplies; state-space methods

Other keywords: space vector representation technique; LC parameters; four-active-switch; state space averaging technique; controllable power factor; closed form PWM duty cycle function; reversible three-phase switching mode rectifier; signal analysis; closed-form pulse width modulation; steady-state analysis; clean sinusoidal input current; bidirectional power flow capability; adjustable DC output voltage; PI controller gains; closed-form control law

Subjects: Control of electric power systems; Power convertors and power supplies to apparatus; Voltage control; Power and energy control

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