상세 보기
- Song, Minkyu;
- Hwang, Yunbeom;
- Jung, Seok-Won;
- Lee, Taeho;
- Moon, Seokhyeon;
- ... Park, Jun-Eun
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0SCOPUS
1초록
This letter presents a digital low-dropout regulator (DLDO) featuring a one-shot voltage droop recovery and an ultrafast settling time of 8 ns, achieved through reinforcement-learning-based self-adaptive compensation (RL-SAC). The RL-SAC performs real-time background learning to identify the optimal current required to compensate for a given voltage droop. By iteratively learning the voltage droop, the RL-SAC enables the one-shot droop recovery, ensuring instant stabilization of the output voltage. A prototype was fabricated in a 40 nm CMOS process with an on-chip output capacitor of 100 pF. The prototype supports an input voltage VIN range from 0.4 to 0.9 V. Measurement results demonstrated a droop settling time of 8 ns and a voltage droop of 145 mV against a load current step of 102 mA/ns at VIN of 0.8 V and VOUT of 0.75 V. © 1986-2012 IEEE.
키워드
- 제목
- A Fast-Transient One-Shot Droop Recovery Digital LDO With Reinforcement-Learning Droop Compensation for D2D Interfaces
- 저자
- Song, Minkyu; Hwang, Yunbeom; Jung, Seok-Won; Lee, Taeho; Moon, Seokhyeon; Park, Jun-Eun
- 발행일
- 2025-10
- 유형
- Article
- 권
- 40
- 호
- 10
- 페이지
- 14253 ~ 14258