A Dynamic Wide-Bandwidth Compensation for Non-Inverting Buck-Boost Converter

@article{ART002881996},
author={ Huan Nguyen and 정완영 },
title={A Dynamic Wide-Bandwidth Compensation for Non-Inverting Buck-Boost Converter},
journal={IDEC Journal of Integrated Circuits and Systems},
issn={-},
year={2022},
volume={8},
number={4},
pages={8-13},
doi={10.23075/jicas.2022.8.4.002},
url={http://dx.doi.org/10.23075/jicas.2022.8.4.002}

TY - JOUR
AU - Huan Nguyen
AU - 정완영
TI - A Dynamic Wide-Bandwidth Compensation for Non-Inverting Buck-Boost Converter
T2 - IDEC Journal of Integrated Circuits and Systems
PY - 2022
VL - 8
IS - 4
PB - 한국과학기술원 반도체설계교육센터
SP - 8-13
SN - -
AB - A non-inverting buck-boost converter is a converter which produces a positive output voltage that is either larger or smaller than the input voltage. This type of converter finds use in various applications in general and mobile application in particular. However, there are some problems that limit the performance of the converter. First, the non-minimum phase characteristic in boost mode makes it hard to compensate the converter with high bandwidth. Therefore, the compensation network is usually designed with small bandwidth to ensure the stability of the system. Thus, the system response over a range of input, output voltage is unacceptable in some applications. In addition, the converter is commonly compensated and optimized for some specific values of input, output voltage. As a result, the stability of the converter is only guaranteed at this particular operating condition and the circuit probably become unstable when the operating condition such as input, output voltages and load current change. In this paper a dynamic compensation technique that optimizes the controller under various input, output voltage, load current conditions is presented which improve bandwidth and transient response of the converter. The theory and simulation show the effectiveness of the approach.
KW - Compensation, DC-DC converter, Fast transient response
DO - 10.23075/jicas.2022.8.4.002
UR - http://dx.doi.org/10.23075/jicas.2022.8.4.002
ER -

Huan Nguyen and 정완영 (2022). A Dynamic Wide-Bandwidth Compensation for Non-Inverting Buck-Boost Converter. IDEC Journal of Integrated Circuits and Systems, 8( 4), 8- 13.

Huan Nguyen and 정완영 . 2022, “A Dynamic Wide-Bandwidth Compensation for Non-Inverting Buck-Boost Converter”, IDEC Journal of Integrated Circuits and Systems, vol. 8, no. 4, pp. 8-13. Available from: doi:10.23075/jicas.2022.8.4.002

Huan Nguyen 정완영 et al. “A Dynamic Wide-Bandwidth Compensation for Non-Inverting Buck-Boost Converter” IDEC Journal of Integrated Circuits and Systems 8.4 pp. 8-13 (2022): 8.

Huan Nguyen , 정완영 . A Dynamic Wide-Bandwidth Compensation for Non-Inverting Buck-Boost Converter IDEC Journal of Integrated Circuits and Systems [Internet]. 2022; 8( 4), : 8-13. Available from: doi:10.23075/jicas.2022.8.4.002

Huan Nguyen and 정완영 . “A Dynamic Wide-Bandwidth Compensation for Non-Inverting Buck-Boost Converter” IDEC Journal of Integrated Circuits and Systems 8, no.4 (2022): 8-13. doi: 10.23075/jicas.2022.8.4.002

홈 권호 목록 논문 목록 논문 상세

A Dynamic Wide-Bandwidth Compensation for Non-Inverting Buck-Boost Converter

IDEC Journal of Integrated Circuits and Systems

약어 : JICAS

2022, vol.8, no.4, pp.8 - 13

DOI : 10.23075/jicas.2022.8.4.002

발행기관 : 한국과학기술원 반도체설계교육센터

연구분야 : 전기공학

Huan Nguyen¹ , 정완영²

¹한국과학기술원

²한국과학기술원

인용한 논문 수 : - 서지 간략 보기

초록

A non-inverting buck-boost converter is a converter which produces a positive output voltage that is either larger or smaller than the input voltage. This type of converter finds use in various applications in general and mobile application in particular. However, there are some problems that limit the performance of the converter. First, the non-minimum phase characteristic in boost mode makes it hard to compensate the converter with high bandwidth. Therefore, the compensation network is usually designed with small bandwidth to ensure the stability of the system. Thus, the system response over a range of input, output voltage is unacceptable in some applications. In addition, the converter is commonly compensated and optimized for some specific values of input, output voltage. As a result, the stability of the converter is only guaranteed at this particular operating condition and the circuit probably become unstable when the operating condition such as input, output voltages and load current change. In this paper a dynamic compensation technique that optimizes the controller under various input, output voltage, load current conditions is presented which improve bandwidth and transient response of the converter. The theory and simulation show the effectiveness of the approach.

키워드

Compensation, DC-DC converter, Fast transient response

참고문헌(6)

[학술대회] B. Bryant / 2002 / Derivation of the buck-boost PWM DC-DC converter circuit topology / 2002 IEEE International Symposium on Circuits and Systems (ISCAS) : 841 ~ 844
[학술지] J. Freudenberg / 1985 / Right half plane poles and zeros and design tradeoffs in feedback systems / IEEE Transactions on Automatic Control 30 (6) : 555 ~ 565
[단행본] Timothy Hegarty / Current-Mode Control Stability Analysis For DC-DC Converters (Part 1) / Texas Instruments
[단행본] Timothy Hegarty / Current-Mode Control Stability Analysis For DC-DC Converters (Part 2) / Texas Instruments
[보고서] JeffFalin / 2012 / Compensating the Current-Mode-Controlled Boost Converter
[학술지] S. Hong / 2013 / High Area-Efficient DC-DC Converter with High Reliability Using Time-Mode Miller Compensation (TMMC) / IEEE Journal of SolidState Circuits 48 (10) : 2457 ~ 2468