A Novel Predictive Digital Controlled Sensorless PFC Converter under the Boundary Conduction Mode

Wang, Jizhe; Maruta, Hidenori; Matsunaga, Motoshi; Kurokawa, Fujio

doi:10.6113/jpe.2017.17.1.1

Cited by 15 publications

(10 citation statements)

References 24 publications

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“…In order to solve the problems in detection of zero-crossing point, [19] presented a novel predictive control approach for BCM PFC converter. Figure 20 shows the predictive controlled BCM PFC converter.…”

Section: Predictive Control For Bcm Pfc Convertermentioning

confidence: 99%

“…Thus, it is difficult to implement AI technologies to high switching frequency power conversion units directly by the present technology level. Currently, it is important to use simple digital control approaches instead of AI technologies as the predictive control method for predicting the optimal operation points for maximum performance [7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22].…”

Section: Introductionmentioning

confidence: 99%

“…Several advanced predictive control approaches for high performance prediction of optimal operation points for individual control system have also been suggested [15,[17][18][19]. The optimal operation point in each converter is important to keep the balance of shared power of converters.…”

Section: Introductionmentioning

confidence: 99%

“…The optimal operation point for improving the transient response can be calculated based on the information of the output voltage and predicted output current. A novel predictive control approach for boundary conduction mode (BCM) PFC converter has been presented in [19]. In the proposed approach, the inductor current is predicted by analytical equations instead of being detected by a sensing-resistor or sensing-circuit.…”

Section: Introductionmentioning

confidence: 99%

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Topics of digital control approaches for future-oriented power converters

Kurokawa

Wang

2018

NOLTA

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This paper presents four topics of digital control approaches to apply future-oriented power converters. The energy flow in power conversion system becomes complex due to the implementation of renewable energy sources. In order to control the energy flow in high performance, the artificial intelligence technologies are expected to be implemented to control the complex power conversion system in the future. The digital control approaches for achieving high performance of switching power converters are proposed as basic researches to apply artificial intelligence technologies. They are discussed and the future research orientations are clarified based on the discussion.

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Section: Predictive Control For Bcm Pfc Convertermentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Topics of digital control approaches for future-oriented power converters

Kurokawa

Wang

2018

NOLTA

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“…O conversor CC-CC Boosté composto basicamente por dois elementos armazenadores de energia (Indutor -L e Capacitor -C) e dois interruptores semicondutores (Transistor -S e Diodo -D) conforme mostra a Figura 1, tendo a finalidade de converter uma tensão de entrada baixa (V in ) para uma tensão de saída mais alta (V out ) (Wu et al, 2016). Como exemplo de aplicação,é amplamente empregado em sistemas de iluminação (Wang et al, 2017) e na integração de sistemas de energias renováveis (Hsieh et al, 2011;Tseng and Huang, 2014).…”

Section: Introductionunclassified

Detecção de Corrente Nula em Conversores Boost Operando em Modo Crítico

Tirolli

Marcelo

Gonçalves

2019

Anais Do 14º Simpósio Brasileiro De Automação Inteligente

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This paper presents a study of techniques for Zero Current Detection (ZCD) in the inductor, without the use of current sensors, for applications concerning boost converters operating at Boundary Conduction Mode (BCM). The ZCD event establishes the boost converter's main switch command to conduct in BCM. The techniques are based on monitoring and conditioning of voltage waveforms from boost converter components for detecting situations in these waveforms related to when the inductor current becomes null. Analog and digital methods are considered and evaluated in relation to the detection of events, followed by their elements project. In addition, signal conditioning methods are also described in order to fit within a range of specific values. Resumo: Este trabalho apresenta o estudo de técnicas para Detecção de Corrente Nula no Indutor (DCNI), sem a utilização direta de sensores de corrente, para aplicações em conversores Boost operando no modo de condução crítico (MCR). O evento da DCNI delimita o comando para entrada em condução do interruptor principal do conversor Boost no MCR. As técnicas são fundamentadas no monitoramento e condicionamento de formas de onda de tensão nos componentes do conversor Boost para detecção de situações nos sinais monitorados relacionados com o advento da corrente sobre o indutor apresentar valor nulo. Técnicas analógicas e digitais são estudadas e avaliadas com relação a detecção dos eventos, e na sequência o projeto dos elementos. Além da detecção do evento, também são descritas formas de condicionamento dos sinais para se enquadrarem dentro de uma faixa de valores específicos.

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