Contents Single-inductor multiple-output (SIMO) converters present a promising technology for enabling fine-grained supply-voltage domains in SoCs. With efficiencies approaching those of buck converters, SIMO converters allow multiple domains to share a single inductor, thus reducing the use of bulky passive components [1–5]. However, SIMO converters suffer from a poor transient response and significant ripple, requiring extensive margining. Operation at an elevated -and, therefore, the load-current - inflates power draw and further reduces system efficiency , i.e. the ratio of the useful (margin-free) output power to input power draw.
Abstract:
Single-inductor multiple-output (SIMO) converters present a promising technology for enabling fine-grained supply-voltage (Vdd) domains in SoCs. With efficiencies approac...Show MoreMetadata
Abstract:
Single-inductor multiple-output (SIMO) converters present a promising technology for enabling fine-grained supply-voltage (Vdd) domains in SoCs. With efficiencies approaching those of buck converters, SIMO converters allow multiple domains to share a single inductor, thus reducing the use of bulky passive components [1-5]. However, SIMO converters suffer from a poor transient response and significant ripple, requiring extensive Vdd margining. Operation at an elevated Vdd-and, therefore, the load-current (Iload )-inflates power draw and further reduces system efficiency (ηsystem), i.e. the ratio of the useful (margin-free) output power to input power draw.
Date of Conference: 13-22 February 2021
Date Added to IEEE Xplore: 03 March 2021
ISBN Information:
ISSN Information:
A Solid-State Circuit Breaker Based on Coupled-Inductor for Battery Energy Storage System
Kuo-Yuan Lo,Ting-Wei Huang,Kuo-Hsiang Liu
DC ultra-fast solid state circuit breaker using the voltage inductor to activate short circuit protection
L. A. Capilla,E. J. J. RodrÃguez,F. J. León,C. Gordillo-Tapia,J.J. MartÃnez
Air-Core Coupled Inductor Based Modular Solid-State Circuit Breaker With Reduced Components for DC Buildings
Aditya Pogulaguntla,Daniel Dsa,Griddaluru Venkata Yagna,Satish Naik Banavath,Edivan Laercio Carvalho,Andrii Chub,Dmitri Vinnikov
A Solid-State Circuit Breaker Without Current Limiting Inductor
Di Zhang,Yuntao Xu,Jonathan Brandt,Zheyu Zhang,Dehao Qin,Dong Dong
A Hybrid Solid State Circuit Breaker for DC System using Coupled Inductor
Shubham Shaswat,Saumendra Sarangi,Rajesh Gupta
A Novel Solid-State Circuit Breaker With Self-Adapt Fault Current Limiting Capability for LVDC Distribution Network
Bin Li,Jiawei He,Ye Li,Ruisheng Li
Fault Current Bypass-Based LVDC Solid-State Circuit Breakers
Reza Kheirollahi,Shuyan Zhao,Fei Lu
Adaptive Solid-State Circuit Breaker Without Varistors in VSC-Interfaced DC System
Dongyu Li,Abhisek Ukil
Characterization and Performance of 600V 100A Solid-State Circuit Breaker
Rakesh Kumar Belchandan,Xiwen Xu,Ehab Shoubaki,Madhav Manjrekar,Tiefu Zhao,Danny Figueroa,Ryan Kennedy
A Thyristor Controlled Bidirectional DC Solid State Circuit Breaker for Residential Microgrids
Aditya Pogulaguntla,Griddaluru Venkata Yagna,Satish Naik Banavath,Rajendra Singh
