Marc Bourcerie scite author profile

Switch-mode power supplies usually emit electromagnetic interferences at the switching frequency and its harmonics. Inducing chaos in these systems has recently been suggested as a means of reducing these spectral emissions, yet at the expense of aggravating the overall magnitude of the ripple in the output voltage. We propose here a new nonlinear feedback control method, which induces chaos, and which is able at the same time to achieve low spectral emission and to maintain a small ripple in the output. The feasibility and usefulness of this new and simple method is shown here with a numerical example, which includes a comparison with the previous control method.

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Optical spectroscopy and field-enhanced emission of an oxide trap induced by hot-hole injection in a silicon metal-oxide-semiconductor field-effect transistor

Bourcerie¹,

Marchetaux²,

Boudou³

et al. 1989

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Articles you may be interested inA Monte Carlo study of hot electron injection and interface state generation model for silicon metaloxide semiconductor fieldeffect transistors Oxide and interface degradation resulting from substrate hothole injection in metaloxidesemiconductor fieldeffect transistors at 295 and 77 K Oxide thickness dependence of interface trap generation in a metaloxidesemiconductor structure during substrate hothole injection Hotcarrierinduced degradation of metaloxidesemiconductor fieldeffect transistors: Oxide charge versus interface traps J. Appl. Phys. 65, 354 (1989); 10.1063/1.342548 Effect of oxide field on hotcarrierinduced degradation of metaloxidesemiconductor fieldeffect transistors

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Extension of chaos anticontrol applied to the improvement of switch-mode power supply electromagnetic compatibility

Morel

Bourcerie

Chapeau‐Blondeau

2004

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Marc Bourcerie

Interface state creation and charge trapping in the medium-to-high gate voltage range (V/sub d//2<or=V/sub g/>or=V/sub d/) during hot-carrier stressing of n-MOS transistors

The generation and characterization of electron and hole traps created by hole injection during low gate voltage hot-carrier stressing of n-MOS transistors

Improvement of Power Supply Electromagnetic Compatibility by Extension of Chaos Anticontrol

Optical spectroscopy and field-enhanced emission of an oxide trap induced by hot-hole injection in a silicon metal-oxide-semiconductor field-effect transistor

Extension of chaos anticontrol applied to the improvement of switch-mode power supply electromagnetic compatibility

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Marc Bourcerie

Interface state creation and charge trapping in the medium-to-high gate voltage range (V/sub d//2&lt;or=V/sub g/&gt;or=V/sub d/) during hot-carrier stressing of n-MOS transistors

The generation and characterization of electron and hole traps created by hole injection during low gate voltage hot-carrier stressing of n-MOS transistors

Improvement of Power Supply Electromagnetic Compatibility by Extension of Chaos Anticontrol

Optical spectroscopy and field-enhanced emission of an oxide trap induced by hot-hole injection in a silicon metal-oxide-semiconductor field-effect transistor

Extension of chaos anticontrol applied to the improvement of switch-mode power supply electromagnetic compatibility

Contact Info

Product

Resources

About

Interface state creation and charge trapping in the medium-to-high gate voltage range (V/sub d//2<or=V/sub g/>or=V/sub d/) during hot-carrier stressing of n-MOS transistors