Add to ORKGThis paper presents a dynamic analysis and the control design for a singe-phase full bridge recti¿er with a LCL ¿lter. The control algorithm is based on the sliding mode control techniques that provides good tracking performances and robustness against parameter variations. The control design also considers the connection to a non ideal power network with a grid impedance as well as higher harmonics components in the voltage. The control law has been tested in numerical simulations with satisfactory results (also in the case of non ideal power grid).Peer Reviewe
A PWM rectifier, including an uncontrolled rectifier and a Cuk power converter stage driven by a sli...
This paper presents an improved variable hysteresisband current-control in natural frame for a three...
Half-bridge rectifiers are able to provide two voltage outputs, which offers three voltage levels, b...
This paper presents a dynamic analysis and the control design for a singe-phase full bridge recti¿e...
In control theory, sliding mode control, or SMC, is a nonlinear control method that alters the dynam...
This paper presents a dynamic analysis and the control design for a three-phase three-wire unity pow...
In this paper a control algorithm for a three-phase four-wire rectifier with an inductive-capacitive...
International audienceWe are considering the problem of controlling AC/DC full bridge converters. Th...
We are considering the problem of controlling AC/DC full bridge converters. The control objectives a...
With the introduction of wide-bandgap semiconductors, significantly higher switching frequencies are...
Introduction. For AC-DC conversion systems, the electrical systems typically use thyristor or diode ...
With the introduction of wide-bandgap semiconductors, significantly higher switching frequencies are...
Converters are widely used in many fields specially Distributed Generation applications. Because of ...
This paper proposes one novel sliding mode controller for the Half-bridge converter to reduce the li...
Controllers for ac/dc power converters are subject to many constraints: first, they must be reliable...
A PWM rectifier, including an uncontrolled rectifier and a Cuk power converter stage driven by a sli...
This paper presents an improved variable hysteresisband current-control in natural frame for a three...
Half-bridge rectifiers are able to provide two voltage outputs, which offers three voltage levels, b...
This paper presents a dynamic analysis and the control design for a singe-phase full bridge recti¿e...
In control theory, sliding mode control, or SMC, is a nonlinear control method that alters the dynam...
This paper presents a dynamic analysis and the control design for a three-phase three-wire unity pow...
In this paper a control algorithm for a three-phase four-wire rectifier with an inductive-capacitive...
International audienceWe are considering the problem of controlling AC/DC full bridge converters. Th...
We are considering the problem of controlling AC/DC full bridge converters. The control objectives a...
With the introduction of wide-bandgap semiconductors, significantly higher switching frequencies are...
Introduction. For AC-DC conversion systems, the electrical systems typically use thyristor or diode ...
With the introduction of wide-bandgap semiconductors, significantly higher switching frequencies are...
Converters are widely used in many fields specially Distributed Generation applications. Because of ...
This paper proposes one novel sliding mode controller for the Half-bridge converter to reduce the li...
Controllers for ac/dc power converters are subject to many constraints: first, they must be reliable...
A PWM rectifier, including an uncontrolled rectifier and a Cuk power converter stage driven by a sli...
This paper presents an improved variable hysteresisband current-control in natural frame for a three...
Half-bridge rectifiers are able to provide two voltage outputs, which offers three voltage levels, b...