Add to ORKGIn this paper, a one-cycle-average (OCA) discrete-time model for PWM dc-dc converter based onclosed-loop control method for discontinuous conduction mode (DCM) is presented. It leads toexact discrete-time mathematical representation of the OCA values of the output signal even atlow frequency. It also provides the exact discrete-time mathematical representation of theaverage values of other internal signals with little increase in simulation time. A comparison of thismodel to other existing models is presented through a numerical example of boost converter.Detailed simulation results confirm the better accuracy and speed of the proposed model
In this paper a new model of one-cycle control is proposed; it is valid, both in CCM and DCM, for fr...
In this paper a new model of one-cycle control is proposed; it is valid, both in CCM and DCM, for fr...
For stable and efficient performance of power converters, a good mathematical model is needed. This ...
A discrete-time model for pulse-width modulated (PWM) converters operating in the discontinuous capa...
Continuous and discrete-time averaged models are available for pulse width modulated (PWM) converter...
A new discrete-time model for pulse-width modulated (PWM) converters operating in the discontinuous ...
A discrete-time model for pulse-width modulated (PWM) converters operating in the discontinuous capa...
Among various modeling methods for DC-DC converters introduced in the past two decades, the state-sp...
An average modeling approach for DC-DC power converters is presented in this paper. It allows the ac...
An average modeling approach for DC-DC power converters is presented in this paper. It allows the ac...
In this paper a new dynamic model of one-cycle-controlled converters operating either in continuous ...
The averaged models of switch-mode DC-DC power converters are discussed. Two methods of averaged mod...
The averaged models of switch-mode DC-DC power converters are discussed. Two methods of averaged mod...
General block diagram models are proposed for PWM DC-DC convertersin continuous and discontinuous co...
The nonlinear modeling and analysis of dc-dc converters in the continuous mode and discontinuous mod...
In this paper a new model of one-cycle control is proposed; it is valid, both in CCM and DCM, for fr...
In this paper a new model of one-cycle control is proposed; it is valid, both in CCM and DCM, for fr...
For stable and efficient performance of power converters, a good mathematical model is needed. This ...
A discrete-time model for pulse-width modulated (PWM) converters operating in the discontinuous capa...
Continuous and discrete-time averaged models are available for pulse width modulated (PWM) converter...
A new discrete-time model for pulse-width modulated (PWM) converters operating in the discontinuous ...
A discrete-time model for pulse-width modulated (PWM) converters operating in the discontinuous capa...
Among various modeling methods for DC-DC converters introduced in the past two decades, the state-sp...
An average modeling approach for DC-DC power converters is presented in this paper. It allows the ac...
An average modeling approach for DC-DC power converters is presented in this paper. It allows the ac...
In this paper a new dynamic model of one-cycle-controlled converters operating either in continuous ...
The averaged models of switch-mode DC-DC power converters are discussed. Two methods of averaged mod...
The averaged models of switch-mode DC-DC power converters are discussed. Two methods of averaged mod...
General block diagram models are proposed for PWM DC-DC convertersin continuous and discontinuous co...
The nonlinear modeling and analysis of dc-dc converters in the continuous mode and discontinuous mod...
In this paper a new model of one-cycle control is proposed; it is valid, both in CCM and DCM, for fr...
In this paper a new model of one-cycle control is proposed; it is valid, both in CCM and DCM, for fr...
For stable and efficient performance of power converters, a good mathematical model is needed. This ...