DocumentCode
1774548
Title
Tolerance analysis of a constant-on time current-mode voltage regulator with adaptive voltage position feature
Author
Chih Wei Chen ; Dan Chen ; Shin Shiung Wang
Author_Institution
EE Dept., Nat. Taiwan Univ., Taipei, Taiwan
fYear
2014
fDate
18-21 May 2014
Firstpage
3938
Lastpage
3941
Abstract
Voltage regulators (VRs) have been widely used in many computer applications for central processing units (CPUs). In recent years, varieties of constant on-time control schemes have attracted much attention due to its high efficiency under both the light-load and the heavy load condition. In this paper, tolerance analysis was conducted for a constant on-time current-mode buck converter. Three methods are used: root-sum squared analysis (RSS), extreme value analysis (EVA) and Monte Carlo analysis. The effects of practical component tolerance and temperature variation are included in the analysis to estimate the converter output load line which is a critical performance for many applications requiring energy-saving adaptive-voltage-position (AVP) feature. A sensitivity analysis is also conducted to assess the necessity of parameter trimming for the analog power control integrated circuits.
Keywords
Monte Carlo methods; analogue integrated circuits; power control; voltage regulators; AVP; EVA; Monte Carlo analysis; RSS; analog power control integrated circuits; central processing units; component tolerance; computer applications; constant on-time control schemes; constant on-time current-mode buck converter; constant-on time current-mode voltage regulator; converter output load line estimation; energy-saving adaptive-voltage-position feature; extreme value analysis; heavy load condition; light-load condition; parameter trimming; root-sum squared analysis; sensitivity analysis; temperature variation; tolerance analysis; Optical character recognition software; Pulse width modulation; AVP feature; constant on time; current mode; multi-phase; tolerance analysis;
fLanguage
English
Publisher
ieee
Conference_Titel
Power Electronics Conference (IPEC-Hiroshima 2014 - ECCE-ASIA), 2014 International
Conference_Location
Hiroshima
Type
conf
DOI
10.1109/IPEC.2014.6870065
Filename
6870065
Link To Document