• Title/Summary/Keyword: Maximum Boost

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Backstepping Control of a Buck-Boost Converter in an Experimental PV-System

  • Vazquez, Jesus R.;Martin, Aranzazu D.
    • Journal of Power Electronics
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    • v.15 no.6
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    • pp.1584-1592
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    • 2015
  • This paper presents a nonlinear method to control a DC-DC converter and track the Maximum Power Point (MPP) of a Photovoltaic (PV) system. A backstepping controller is proposed to regulate the voltage at the input of a buck-boost converter by means of Lyapunov functions. To make the control initially faster and avoid local maximum, a regression plane is used to estimate the reference voltages that must be obtained to achieve the MPP and guarantee the maximum power extraction, modifying the conventional Perturb and Observe (P&O) method. An experimental platform has been designed to verify the validity and performance of the proposed control method. In this platform, a buck-boost converter has been built to extract the maximum power of commercial solar modules under different environmental conditions.

Maximum Boost Discrete PWM method of Z-Source Inverters (Z-소스 인버터의 최대승압 불연속 PWM 방법)

  • Kim, Seonghwan;Park, Janghyun;park, Taesik
    • Journal of IKEEE
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    • v.21 no.2
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    • pp.166-169
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    • 2017
  • In this paper, maximum boost discrete PWM(DPWM) method of Z-Source Inverter(ZSI) is proposed. In general, a DPWM method is used to reduce the switching losses of the inverters and increase the efficiencies. The maximum boost PWM method of Z-Source Inverters is combined with the DPWM method. The proposed Maximum boost DPWM of ZSI is analyzed and it shows how to reduce the switching losses of ZSI. An experimental system has been built and tested to verify the effectiveness of the proposed method.

Boost Converter Modeling of Photovoltaic System Using PWM Switch Model (PWM 스윗치 모델을 이용한 PV용 Boost Converter Modelling)

  • Kim, H.J.;Lee, K.O.;Choi, J.Y.;Jung, Y.S.;Yu, G.J.;Kwon, J.D.
    • Proceedings of the KIEE Conference
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    • 2002.11d
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    • pp.286-293
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    • 2002
  • Photovoltaic systems normally use a maximum power point tracking (MPPT) technique to continuously deliver the highest possible power to the load when variations in the insolation and temperature occur. A simple method of tracking the maximum power points (MPPs) and forcing the boost converter system to operate close to these Points is presented through deriving small-signal model and transfer function of boost converter. This paper aims at modeling boost converter including equivalent series resistance of input reservoir capacitor by state-space-averaging method and PWM switch model. In the future, properly designed controller for compensation will be constructed in real system for maximum photovoltaic power tracking control.

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The MPPT Control Method of The Seaflow Generation by Using Buck-boost Converter (buck-boost 컨버터을 이용한 조류 발전의 MPPT제어)

  • Kim, Cheon-Kyu;Yang, Lee-Woo;Kim, Young-Seok
    • Proceedings of the KIEE Conference
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    • 2007.10c
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    • pp.151-153
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    • 2007
  • In this paper, the control method of extracting maximum power from the seaflow energy is proposed. This system consists of buck-boost converter, bridge diode. The control is performed by using the variable duty ratio control of buck-boost converter. For extracting maximum power, it is necessary to know the seaflow turbine's maximum power curve and the seaflow speed measurement. But this makes the system difficult and expensive to implement. So this paper proposes the MPPT control method where the seaflow speed and the maximum power curve of the seaflow turbine are not required. The effectiveness of algorithm is simulated based on Matlab $Simulink^{(R)}$.

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Maximum Boost Space Vector Pulse-Width Modulation Strategy of Z-Source Inverters

  • Kim, Seong Hwan;Park, Jang Hyun
    • Journal of IKEEE
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    • v.19 no.1
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    • pp.73-79
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    • 2015
  • In this paper, maximum boost space vector pulse-width modulation(MBSVPWM) strategy of Z-Source Inverters(ZSIs) is proposed. Conventional space vector pulse-width modulation(SVPWM) method of Voltage Source Inverters(VSIs) is modified to produce unique PWM patterns that realize the maximum boost control of ZSIs. This proposed method minimizes the switching power losses of ZSIs by reducing the numbers of the shoot-through states. Moreover, some switches keep ON state and the switching transitions do not occur during the specific sectors. An experimental system has been built and tested to verify the effectiveness of the proposed strategy.

Development of PV Module Integrated Type Low Voltage Battery Charger using Cascaded Buck-Boost Converter (Cascaded Buck-Boost 컨버터를 이용한 태양광 모듈 집적형 저전압 배터리 충전 장치 개발)

  • Kim, Dong-Hee;Lee, Hee-Seo;Lee, Young-Dal;Lee, Eun-Ju;Lee, Tae-Won;Lee, Byoung-Kuk
    • The Transactions of the Korean Institute of Power Electronics
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    • v.17 no.6
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    • pp.471-477
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    • 2012
  • In this paper, in order to use module integrated converter using cascaded buck-boost converter for a low battery charger in stand-alone system, a charging algorithm which considers photovoltaic and battery status and PWM controllers which are changed according to charging modes are proposed. The proposed algorithm consists of constant current mode, constant voltage mode and maximum power point tracking mode which enables the battery to charge with maximum power rate. This paper also presents design of cascaded buck-boost converter that is the photovoltaic charger system. A 150W prototype system is built according to verify proposed the charger system and the algorithm.

PWM Switch Modelling of Boost Converter for Photovoltaic System (PWM 스윗치를 이용한 햇빛발전 시스템용 부스트 컨버터 모델링)

  • Kim, H.J.;Choi, J.Y.;Yu, G.J.;Jung, Y.S.;Choi, I.;Ahan, H.S.
    • Proceedings of the KIEE Conference
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    • 2003.04a
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    • pp.341-348
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    • 2003
  • Photovoltaic systems normally use a maximum power point tracking (MPPT) technique ta continuously deliver the highest possible power to the load when variations in the insolation and temperature occur. A simple method of tracking the maximum power points (MPPs) and forcing the boost converter system to operate close to these points is presented through deriving small-signal model and transfer function of boost converter. This paper aims at modeling boost converter including equivalent series resistance of input reservoir capacitor by state-space-averaging method and PWM switch model with properly designed controller for maximum photovoltaic power tracking control.

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Novel Predictive Maximum Power Point Tracking Techniques for Photovoltaic Applications

  • Abdel-Rahim, Omar;Funato, Hirohito;Haruna, Junnosuke
    • Journal of Power Electronics
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    • v.16 no.1
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    • pp.277-286
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    • 2016
  • This paper offers two Maximum Power Point Tracking (MPPT) systems for Photovoltaic (PV) applications. The first MPPT method is based on a fixed frequency Model Predictive Control (MPC). The second MPPT technique is based on the Predictive Hysteresis Control (PHC). An experimental demonstration shows that the proposed techniques are fast, accurate and robust in tracking the maximum power under different environmental conditions. A DC/DC converter with a high voltage gain is obligatory to track PV applications at the maximum power and to boost a low voltage to a higher voltage level. For this purpose, a high gain Switched Inductor Quadratic Boost Converter (SIQBC) for PV applications is presented in this paper. The proposed converter has a higher gain than the other transformerless topologies in the literature. It is shown that at a high gain the proposed SIQBC has moderate efficiency.

A Maximum Power Point Tracking circuit for Thermoelectric Generators using a Boost DC-DC converter (부스트 컨버터를 이용한 열전소자의 최대전력점 추적회로)

  • Park, Jung-Yong;Kim, Shi-Ho
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.48 no.10
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    • pp.15-19
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    • 2011
  • We have proposed a maximum power point tracking (MPPT) circuit for thermoelectric generator (TEG) using a Boost converter. The key point of the proposed MPPT circuit is that the duty ratio of the boost converter automatically moves to Maximum Power Point by comparing of consecutive sampling voltage using two comparators. From the simulation results, we showed that the proposed circuit can find the maximum power point within 2 CLK periods and to generate optimal PWM signal within 3 CLK periods. The proposed MPPT circuit was designed by using a CMOS 0.18 um process, and it is now on the fabrication.

Loss Analysis for Maximum Efficiency Operation of 2-Stage Boost Converter (2-Stage Boost 컨버터의 최대효율 운전을 위한 손실분석)

  • Kim, Seung-Min;Jo, Cheol-Hee;Kim, Dong-Hee
    • Proceedings of the KIPE Conference
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    • 2020.08a
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    • pp.383-384
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    • 2020
  • 본 논문에서는 고승압이 가능한 2-Stage Boost 컨버터의 최대효율 운전을 위한 손실 분석을 수행한다. 2-Stage Boost 컨버터의 최대효율 지점 추정을 위해 앞단 Boost 컨버터의 출력 전압인 Vmid의 변동에 따른 2-Stage Boost 컨버터의 상세한 손실을 분석하며, 손실이 가장 적은 Vmid지점을 도출하였으며 실험을 통해 검증한다.

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