Fast-transient asynchronous digital LDO with load regulation enhancement by soft multi-step switching and adaptive timing techniques in 65-nm CMOS

Fan Yang, P. Mok
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引用次数: 22

Abstract

A digital low drop-out regulator (DLDO) load regulation enhancement technique which includes soft multi-step switching and adaptive timing is presented in this paper. As multi-step switching is widely used to balance the speed and resolution, a power-efficient method to improve the poor resolution during the switching between coarse- and finegrained regulations is in demand. The proposed technique, especially targeting at eliminating the undesired ripple voltage during multi-step switching, is implemented in a 65-nm asynchronous DLDO. This DLDO operates at an input voltage of 0.6V to 1V, and delivers a maximum of 500mA current with a 50mV drop-out voltage. In addition to responding to a nanoseconds' 500mA load current step and a 50mV per 10ns reference voltage change, an enhanced load regulation of 0.15mV/mA is achieved by adopting the proposed techniques.
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基于软多步开关和自适应时序技术的65nm CMOS负载调节增强快速瞬态异步数字LDO
提出了一种包含软多步切换和自适应时序的数字低差调节器(DLDO)负载调节增强技术。由于多步切换被广泛用于平衡速度和分辨率,因此需要一种节能的方法来改善粗粒度和细粒度规则之间切换时的低分辨率。所提出的技术,特别是针对消除多步开关过程中不希望的纹波电压,在65nm异步DLDO中实现。该DLDO在0.6V至1V的输入电压下工作,并在50mV的降压下提供最大500mA电流。除了响应纳秒级500mA负载电流阶跃和50mV / 10ns参考电压变化外,采用所提出的技术还实现了0.15mV/mA的增强负载调节。
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