A DC-DC Converter with Switched-Capacitor Delay Deadtime Controller and Enhanced Unbalanced-Input Pair Zero-Current Detector to Boost Power Efficiency-Reference-Cited by-同舟云学术

A DC-DC Converter with Switched-Capacitor Delay Deadtime Controller and Enhanced Unbalanced-Input Pair Zero-Current Detector to Boost Power Efficiency

Published:2024-03-27 Issue:7 Volume:13 Page:1237
ISSN:2079-9292
Container-title:Electronics
language:en
Short-container-title:Electronics

Author:

Kok Chiang Liang¹^ORCID,Tang Howard²,Teo Tee Hui³^ORCID,Koh Yit Yan¹

Affiliation:

1. College of Engineering, Science and Environment, University of Newcastle, Callaghan, NSW 2308, Australia

2. Engineering Cluster, Singapore Institute of Technology, Singapore 138683, Singapore

3. Engineering Product Development, Science, Mathematics and Technology, Singapore University of Technology and Design, Singapore 487372, Singapore

Abstract

This proposed work introduces a DC-DC converter with Switched-Capacitor Delay Deadtime Controller (SCD-DTC), Digitally Controlled Start-Up Block (DC-SUB), and Enhanced Unbalanced-Input Pair Zero-Current Detector (EUIP-ZCD) that helps to improve the overall power efficiency. It also introduces the discussion of key signal waveforms and the two major optimization flowcharts. This proposed DC-DC converter can simultaneously achieve optimized deadtime (body diode conduction < 3 ns) and almost fully eliminate the phenomenon of reverse inductor current (RIC). Furthermore, it also shows that it can achieve a well-regulated output voltage of 1.8 V with <0.01% of output ripple riding on it. All the post-layout simulation results are carried out using 0.18 µm 1P6M CMOS process using Cadence Virtuoso Spectre Circuit Simulator. The silicon chip area of our proposed work (including the output pad frame) is 1.44 mm2. The chip fabrication was sent out in January 2024 and the return of the measurement dies is expected in March 2024. The post-layout simulation results will no doubt closely resemble the measurement results since the proposed work is mostly controlled by digital blocks.

Publisher

MDPI AG

Link

https://www.mdpi.com/2079-9292/13/7/1237/pdf

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