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A 0.0084-mV-FOM, Fast-Transient and Low-Power External-Clock-Less Digital LDO Using a Gear-Shifting Comparator for the Wide-Range Adaptive Sampling Frequency
Cited 4 time in
Web of Science
Cited 5 time in Scopus
- Authors
- Issue Date
- 2021
- Publisher
- IEEE
- Citation
- ESSCIRC 2021 - IEEE 47TH EUROPEAN SOLID STATE CIRCUITS CONFERENCE (ESSCIRC), pp.351-354
- Abstract
- This work presents a fast-transient and low-power, external-clock-less digital low-dropout regulator (DLDO) using a wide-range adaptive sampling frequency, f(SP). To generate such an f(SP), the proposed gear-shifting comparator (GSC) consists of two sub-comparators. First, in the transient state, a delay-line-based comparator (DLC) generating a high f(SP) swiftly reduces the error in the output voltage, V-ERR. Second, in the steady state, a subsequent edge-racing comparator (ERC) generating a low f(SP) slowly but accurately removes V-ERR. Using these two tightly interlocking sub-comparators, the GSC can scale the f(SP) dynamically in a wide range so that it can make the DLDO concurrently achieve a fast response in the transient state and a small quiescent current in the steady state. Due to the unique capability of the ERC, the DLDO also can have a high-accuracy regulation. The DLDO was fabricated in a 65-nm CMOS process, and it achieved a 46-ns settling time against the 12-mA change of the load current with a 100-ps edge time. The quiescent current was only 10 mu A. The transient FOM was 0.0084 mV, which was the best among the state-of-the-art DLDOs.
- ISSN
- 1930-8833
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Related Researcher
- College of Engineering
- Department of Electrical and Computer Engineering
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