Application of spread-spectrum techniques to class-E DC/DC converters: Some preliminary results

Spread spectrum clocking (SSC) has recently emerged as a very effective solution to mitigate electromagnetic interference (EMI) issues. In last years it has been widely used in switching dc/dc converters, in particular in class-D ones, i.e., that based on pulse-width modulation. Conversely, it finds no application in resonant ones. Within this paper we investigate the effects of applying SSC techniques to a recently introduced resonant class-E converter. Intensive SPICE simulations using both basic and advanced SSC techniques show not only that SSC is effective in mitigating EMI issues in this class of converters, but also that the most important circuit figures of merit such as conversion efficiency are not affected.



Titolo: Application of spread-spectrum techniques to class-E DC/DC converters: Some preliminary results
Autore/i: Pareschi, Fabio; Vincenzi, Tommaso; MANGIA, MAURO; Bertoni, Nicola; ROVATTI, RICCARDO; Setti, Gianluca
Autore/i Unibo: 
MANGIA, MAURO  
ROVATTI, RICCARDO  
mostra contributor esterni 
Anno: 2015
Titolo del libro: 2015 Nordic Circuits and Systems Conference, NORCAS 2015: NORCHIP and International Symposium on System-on-Chip, SoC 2015
Pagina iniziale: 1
Pagina finale: 4
Digital Object Identifier (DOI): http://dx.doi.org/10.1109/NORCHIP.2015.7364368
Abstract: Spread spectrum clocking (SSC) has recently emerged as a very effective solution to mitigate electromagnetic interference (EMI) issues. In last years it has been widely used in switching dc/dc converters, in particular in class-D ones, i.e., that based on pulse-width modulation. Conversely, it finds no application in resonant ones. Within this paper we investigate the effects of applying SSC techniques to a recently introduced resonant class-E converter. Intensive SPICE simulations using both basic and advanced SSC techniques show not only that SSC is effective in mitigating EMI issues in this class of converters, but also that the most important circuit figures of merit such as conversion efficiency are not affected.
Data stato definitivo: 17-lug-2016
Appare nelle tipologie:4.01 Contributo in Atti di convegno

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