Pulse width modulation (PWM) rectifiers are extensively used in battery charger, regulated dc voltage source, UPS systems, ac line conditioner and motor drives. The conventional control schemes for these rectifiers require PLL, transformations, and input voltage sensing, which increase the cost and complexity of the controller. Simple control schemes based on resistance emulation control are developed in this thesis work for different PWM boost rectifiers. Modeling, analysis and design methods for these rectifier systems are presented. The effect of computational delay involved in digital implementation on the performance of the above rectifier systems is studied. A single-switch boost rectifier system is presented, which operates i...
In the last decade, many methods for control of three-phase boost-type pulsewidth modulation (PWM) r...
Abstract: Static power converters produce harmonics due to the nature of the conversion process. Thi...
Rectifiers are required by the devices connected to the distribution end of the electrical power net...
Abstract:In this paper, a proposed control strategy is presented to improve the performance of the p...
In this paper the implementation of a simple yet high performance digital current mode controller th...
Abstract- The paper presents the modeling, simulation and analysis of an AC-DC converter based PWM r...
The present industrial practice of ac to dc rectification uses diode or thyristor bridges which are ...
Power quality problems caused by significant increase of non-linear loads initiated intensive resear...
This paper presents the analysis, design, and control of a four-wire rectifier system using split-ca...
This paper presents a generalized feedforward control scheme for a single-phase boost rectifier, ope...
This paper proposes a simple digital control scheme to achieve high power factor operation for three...
72 p.It is necessary to do constant research in power conversion topologies in order to fulfill the ...
grantor: University of TorontoWith the growing need for efficient energy conversion and st...
This thesis is mainly concerned with fundamental investigations into digital current control of util...
Abstract-This paper presents a new current control method for three-phase pulse width modulation rec...
In the last decade, many methods for control of three-phase boost-type pulsewidth modulation (PWM) r...
Abstract: Static power converters produce harmonics due to the nature of the conversion process. Thi...
Rectifiers are required by the devices connected to the distribution end of the electrical power net...
Abstract:In this paper, a proposed control strategy is presented to improve the performance of the p...
In this paper the implementation of a simple yet high performance digital current mode controller th...
Abstract- The paper presents the modeling, simulation and analysis of an AC-DC converter based PWM r...
The present industrial practice of ac to dc rectification uses diode or thyristor bridges which are ...
Power quality problems caused by significant increase of non-linear loads initiated intensive resear...
This paper presents the analysis, design, and control of a four-wire rectifier system using split-ca...
This paper presents a generalized feedforward control scheme for a single-phase boost rectifier, ope...
This paper proposes a simple digital control scheme to achieve high power factor operation for three...
72 p.It is necessary to do constant research in power conversion topologies in order to fulfill the ...
grantor: University of TorontoWith the growing need for efficient energy conversion and st...
This thesis is mainly concerned with fundamental investigations into digital current control of util...
Abstract-This paper presents a new current control method for three-phase pulse width modulation rec...
In the last decade, many methods for control of three-phase boost-type pulsewidth modulation (PWM) r...
Abstract: Static power converters produce harmonics due to the nature of the conversion process. Thi...
Rectifiers are required by the devices connected to the distribution end of the electrical power net...