Add to ORKGAll power electronic circuits with state feedback controlled switching can be described as nonlinear time-varying dynamical systems. The occurrence of chaos-where the ripple waveforms become aperiodic-is common in such systems. It is shown here that this natural phenomenon may be effectively used in minimizing electromagnetic interference problems in power electronic circuits. This is because converters operating chaotically tend to spread the spectrum, thereby reducing the interference power at any target frequency. We also present the ways of calculating the average values of state variables and the power spectrum under chaotic operation
A simple mapping is derived, which describes the behavior of a peak current-mode controlled boost co...
In the process of designing and constructing switching power converters, chaotic operations are ofte...
This paper presents an investigation of the chaotic behavior of power electronic converters. The DC-...
International audienceSwitch-mode power supplies usually emit electromagnetic interferences at the s...
International audienceSwitch-mode power supplies usually emit electromagnetic interferences atthe sw...
Increasing attention has recently been focused on efficient means to reduce electromagnetic interfer...
We demonstrate the feasibility of using chaos to depress the spectral peaks of the in-terference fro...
International audienceDC-DC converters are employed in various electrical devices, thus forming main...
This paper presents an evaluation of the chaotic carrier frequency modulation scheme on the spectral...
Applications are beginning to be found for chaotic power converters. Using the peak current controll...
The purpose of this paper is the synthesis from the frequency domain standpoint of a controller for ...
Introduces chaos theory, its analytical methods and the means to apply chaos to the switching power ...
Electronic power converters are notorious sources of electromagnetic interference, and suppression o...
Switch-mode power supplies usually emit electromagnetic interferences at the switching frequency and...
In the process of designing and constructing switching power converters, chaotic operations are ofte...
A simple mapping is derived, which describes the behavior of a peak current-mode controlled boost co...
In the process of designing and constructing switching power converters, chaotic operations are ofte...
This paper presents an investigation of the chaotic behavior of power electronic converters. The DC-...
International audienceSwitch-mode power supplies usually emit electromagnetic interferences at the s...
International audienceSwitch-mode power supplies usually emit electromagnetic interferences atthe sw...
Increasing attention has recently been focused on efficient means to reduce electromagnetic interfer...
We demonstrate the feasibility of using chaos to depress the spectral peaks of the in-terference fro...
International audienceDC-DC converters are employed in various electrical devices, thus forming main...
This paper presents an evaluation of the chaotic carrier frequency modulation scheme on the spectral...
Applications are beginning to be found for chaotic power converters. Using the peak current controll...
The purpose of this paper is the synthesis from the frequency domain standpoint of a controller for ...
Introduces chaos theory, its analytical methods and the means to apply chaos to the switching power ...
Electronic power converters are notorious sources of electromagnetic interference, and suppression o...
Switch-mode power supplies usually emit electromagnetic interferences at the switching frequency and...
In the process of designing and constructing switching power converters, chaotic operations are ofte...
A simple mapping is derived, which describes the behavior of a peak current-mode controlled boost co...
In the process of designing and constructing switching power converters, chaotic operations are ofte...
This paper presents an investigation of the chaotic behavior of power electronic converters. The DC-...