Archivio Istituzionale della RicercaQuantization-induced limit cycle oscillations (LCOs) in digitally controlled DC-DC converters are addressed in this paper. The novel Dyadic Digital PWM (DDPWM) is proposed to increase the effective pulse-width-modulator (PWM) resolution, as required for LCO-free operation, at low cost, without sacrificing DC accuracy and with no detrimental effects on the ripple voltage. Experimental results on a synchronous buck validate the approach highlighting effective LCOs suppression and DC accuracy enhancement at 5X reduced peak output voltage ripple and up to 16dB lower-frequency harmonic component reduction compared to thermometric dithering for the same resolution increase.
Limit Cycle-Free Digitally Controlled DC-DC Converters based on Dyadic Digital PWM / Crovetti, Paolo S.; Usmonov, Maksudjon; Musolino, Francesco; Gregoretti, Francesco. - In: IEEE TRANSACTIONS ON POWER ELECTRONICS. - ISSN 0885-8993. - STAMPA. - (2020). [10.1109/TPEL.2020.2978696]
Limit Cycle-Free Digitally Controlled DC-DC Converters based on Dyadic Digital PWM
Crovetti, Paolo S.;Usmonov, Maksudjon;Musolino, Francesco;Gregoretti, Francesco
2020
Abstract
Quantization-induced limit cycle oscillations (LCOs) in digitally controlled DC-DC converters are addressed in this paper. The novel Dyadic Digital PWM (DDPWM) is proposed to increase the effective pulse-width-modulator (PWM) resolution, as required for LCO-free operation, at low cost, without sacrificing DC accuracy and with no detrimental effects on the ripple voltage. Experimental results on a synchronous buck validate the approach highlighting effective LCOs suppression and DC accuracy enhancement at 5X reduced peak output voltage ripple and up to 16dB lower-frequency harmonic component reduction compared to thermometric dithering for the same resolution increase.
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https://hdl.handle.net/11583/2806472