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LQ control of sinusoidal current PWM rectifiers

LQ control of sinusoidal current PWM rectifiers

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A new design method based on linear quadratic control theory is developed for the design of PWM rectifiers with sinusoidal input current. PWM rectifiers are promising because they can supply DC power while keeping a sinusoidal current with unity in the fundamental power factor. There are two types, a voltage-fed rectifier and a current-fed rectifier. The former is required to simultaneously control both the fundamental power factor and direct voltage, while the latter does so for both the fundamental power factor and direct current. State feedback control is essentially suited for multi-input and multi-output systems such as these. Here a discrete-time optimal regulator is applied to their control because it provides a microprocessor-based robust feedback system without steady-state errors in response to a step reference and/or disturbance change. The regulator is implemented using a digital signal processor. Experimental results demonstrate the validity.

Inspec keywords: discrete time systems; linear quadratic control; voltage control; PWM power convertors; MIMO systems; robust control; state feedback; rectifying circuits; AC-DC power convertors; control system synthesis

Other keywords: linear quadratic control theory; discrete-time optimal regulator; control design; multi-input multi-output systems; state feedback control; DC power supply; microprocessor-based robust feedback system; fundamental power factor; control performance; sinusoidal current PWM rectifiers

Subjects: Voltage control; Discrete control systems; Control system analysis and synthesis methods; Stability in control theory; Power electronics, supply and supervisory circuits; Control of electric power systems; Optimal control; Power convertors and power supplies to apparatus; Multivariable control systems

References

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