Add to ORKGIn this paper a current-mode control (CMC) methodology is developed for a buck converter by using a fuzzy logic controller. Conventional CMC methodologies are based on lead-lag compensation with voltage and inductor current feedback. In this paper the converter lead-lag compensation will be substituted with a fuzzy controller. A small-signal model of the fuzzy controller will also be developed in order to examine the stability properties of this buck converter control system. The paper develops an analytical approach, introducing fuzzy control into the area of CMC
This paper presents the full digital control of a two-wheeler forward converter that works in both c...
This paper presents the use of fuzzy logic to derive a practical control scheme for boost rectifier ...
This study presents a non-linear design methodology for fuzzy controllers employed in switching DC-D...
Modern electronics are operating at lower voltages with higher currents, requiring power converters ...
Abstract:- In this paper controlled DC-DC converter using several fuzzy logic control law algorithms...
This paper proposes a novel optimized fuzzy logic controller (OFLC) for current-mode control (CMC)-b...
This paper proposes a novel optimized fuzzy logic controller (OFLC) for current-mode control (CMC)-b...
This paper presents the design of a fuzzy controller for PWM (pulse width modulation) DC-DC switchin...
Background: This paper presents a mathematical system called fuzzy logic as a control technique to i...
Power Factor Correction (PFC) provides well-known benefits to electric power systems. These benefits...
This paper presents a hybrid control between Fuzzy and PI to solve the problem of stability of the o...
In this paper, a general-purpose fuzzy controller for DC-DC converters is investigated. Based on a q...
In this paper, a general-purpose fuzzy controller for DC-DC converters is investigated. Based on a q...
The proliferation of the use of switching mode power supply and electronic ballasts for energy conse...
Abstract – A fuzzy PID controller design method is proposed for precise robust control of DC-DC buck...
This paper presents the full digital control of a two-wheeler forward converter that works in both c...
This paper presents the use of fuzzy logic to derive a practical control scheme for boost rectifier ...
This study presents a non-linear design methodology for fuzzy controllers employed in switching DC-D...
Modern electronics are operating at lower voltages with higher currents, requiring power converters ...
Abstract:- In this paper controlled DC-DC converter using several fuzzy logic control law algorithms...
This paper proposes a novel optimized fuzzy logic controller (OFLC) for current-mode control (CMC)-b...
This paper proposes a novel optimized fuzzy logic controller (OFLC) for current-mode control (CMC)-b...
This paper presents the design of a fuzzy controller for PWM (pulse width modulation) DC-DC switchin...
Background: This paper presents a mathematical system called fuzzy logic as a control technique to i...
Power Factor Correction (PFC) provides well-known benefits to electric power systems. These benefits...
This paper presents a hybrid control between Fuzzy and PI to solve the problem of stability of the o...
In this paper, a general-purpose fuzzy controller for DC-DC converters is investigated. Based on a q...
In this paper, a general-purpose fuzzy controller for DC-DC converters is investigated. Based on a q...
The proliferation of the use of switching mode power supply and electronic ballasts for energy conse...
Abstract – A fuzzy PID controller design method is proposed for precise robust control of DC-DC buck...
This paper presents the full digital control of a two-wheeler forward converter that works in both c...
This paper presents the use of fuzzy logic to derive a practical control scheme for boost rectifier ...
This study presents a non-linear design methodology for fuzzy controllers employed in switching DC-D...