Fully Integrated Low-Drop-Out Regulator Based On Event-Driven Pi Control
2016 IEEE International Solid-State Circuits Conference (ISSCC)(2016)
摘要
Modern SoC designs employ a number of power domains, many of which are often implemented by low-drop-out (LDO) regulators. The key overhead of the existing LDO design is the large off-chip output capacitor (Cout) for compensating a large/fast change in load current (ILOAD). Miniaturizing and thus integrating COUT on a chip is highly desirable and theoretically possible by shortening the control loop latency. This can be achieved by employing a higher sampling frequency (FCLK) in a synchronous time-driven digital LDO [1] and a high-speed amplifier in an analog LDO [2]. However, large power consumption and the resulting low current efficiency are often inevitable. In this work, we aim to break this trade-off between passive size and efficiency by introducing an event-driven (ED) control scheme. We design the level-crossing event detector and the ED PI controller for short latency. The power dissipation is kept small since no event occurs in the steady state. We prototype a 400μA class LDO with typical VIN=0.5V and VOUT=0.45V in 65nm, achieving a small voltage droop (VDROOP) of 40mV (<;9% of set-point voltage [VSP] of 450mV) with an on-chip integrated COUT of 0.4nF and the peak current efficiency of 96.3%.
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关键词
event-driven control scheme,synchronous time-driven digital LDO,SoC designs,event-driven PI control,LDO regulators,low-drop-out regulator,current 400 muA,voltage 0.5 V,voltage 0.45 V,size 65 nm,voltage 40 mV
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