The paper presents two gated flip-flops aimed at low-power applications. The proposed flip-flops use new gating techniques that reduce power dissipation deactivating the clock signal. The presented circuits overcome the clock duty-cycle limitation of previously reported gated flip-flops. Circuit simulations with the inclusion of parasitics show that sensible power dissipation reduction is possible if the input signal has reduced switching activity. A 16-bit counter and an audio sampler register are presented as examples of low-power applications.
Low-power flip-flops with reliable clock-gating / Strollo, ANTONIO GIUSEPPE MARIA; Napoli, Ettore; DE CARO, Davide. - In: MICROELECTRONICS JOURNAL. - ISSN 0959-8324. - STAMPA. - 32:(2001), pp. 21-28. [10.1016/S0026-2692(00)00072-0]
Low-power flip-flops with reliable clock-gating
STROLLO, ANTONIO GIUSEPPE MARIA;NAPOLI, ETTORE;DE CARO, Davide
2001
Abstract
The paper presents two gated flip-flops aimed at low-power applications. The proposed flip-flops use new gating techniques that reduce power dissipation deactivating the clock signal. The presented circuits overcome the clock duty-cycle limitation of previously reported gated flip-flops. Circuit simulations with the inclusion of parasitics show that sensible power dissipation reduction is possible if the input signal has reduced switching activity. A 16-bit counter and an audio sampler register are presented as examples of low-power applications.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.