Asymmetric modulation of bridgeless single‐stage full‐bridge AC–DC converter for active power factor correction and zero voltage switching

Liu, Junwei; Loo, K. H.; Wang, Guibin; Zhang, Xian; Wu, Ting

doi:10.1049/pel2.12447

Cited by 2 publications

(2 citation statements)

References 39 publications

(82 reference statements)

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“…17,18 To overcome this problem, bridgeless ac-dc single-stage PFC topologies are proposed. 17,[19][20][21][22][23][24][25][26] The proposed bridgeless ac-dc single-stage PFC rectifier in Das et al 20 is based on an isolated single active bridge (SAB) converter. This converter features controlled dc-bus voltage with a unity power factor and acceptable input current THD.…”

Section: Introductionmentioning

confidence: 99%

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A hybrid bridgeless AC‐DC converter topology

Zakaria,

Abdelsalam,

Marei

et al. 2023

Circuit Theory & Apps

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SummaryBridgeless ac‐dc converters are the optimal choice for many applications, as they offer many advantages such as low distorted supply current, high power factor, and improved efficiency. This paper presents a new topology for a single‐phase bridgeless ac‐dc converter. The proposed hybrid topology is based on integrating the inverting and non‐inverting buck‐boost dc‐dc converters that are connected to the ac supply through an LC filter. To insure sinusoidal supply current, the proposed hybrid bridgeless ac‐dc converter is operated in discontinuous current mode. The proposed converter has many merits, such as a reduced number of components, enhanced efficiency, and soft start‐up capability. The operation modes and design of the proposed converter are presented. In addition, a design method is proposed for the input LC filter to minimize the voltage stress across switches. Moreover, a small signal model for the proposed converter is developed. The proposed converter topology is simulated to evaluate the dynamic behavior and verify the accuracy of the presented small signal model. Furthermore, an 850 W prototype is developed to validate the features of the proposed converter experimentally. Tight voltage regulation, sinusoidal supply current, and near‐to‐unity power factor operation are observed from the results, regardless of supply or load disturbances.

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Section: Introductionmentioning

confidence: 99%

“…The DBR results in high conduction losses, which reduces the converter efficiency 17,18 . To overcome this problem, bridgeless ac‐dc single‐stage PFC topologies are proposed 17,19–26 . The proposed bridgeless ac‐dc single‐stage PFC rectifier in Das et al 20 is based on an isolated single active bridge (SAB) converter.…”

Section: Introductionmentioning

confidence: 99%

A hybrid bridgeless AC‐DC converter topology

Zakaria,

Abdelsalam,

Marei

et al. 2023

Circuit Theory & Apps

View full text Add to dashboard Cite

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Design and Simulation of DC Fast Charger for Electric Vehicle

KILIÇ

2023

Karadeniz Fen Bilimleri Dergisi

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Elektrikli araçlar geleneksel fosil yakıtlı araçlarla kıyasla sıfır emisyon, azaltılmış bakım maliyetleri, daha yüksek motor verimliliği, gelişmiş sürüş konforu gibi önemli avantajlar sunmaktadır. Ancak, sınırlı menzil kapasitesi, şarj altyapısının eksikliği ve uzun şarj süreleri gibi zorluklar, elektrikli araçların yaygın olarak benimsenmesinin önünde önemli engeller oluşturmaktadır. Elektrikli araçların geliştirilmesi sürecinde, büyük bir öneme sahip olan kritik bileşenler arasında, batarya ve şarj sistemleri dikkate değer bir role sahiptir. Bu çalışma, 45kWh pil kapasitesiyle donatılmış bir elektrikli araç için 90kW DA hızlı şarj cihazının tasarımı ve simülasyonuna odaklanmaktadır. Önerilen sistem ile bataryanın %20’den %80’e doluluk oranına ulaşması için gereken toplam şarj süresinin 30 dakikanın altına indirilmesi hedeflenmektedir. Tasarlanan DA hızlı şarj cihazı; aktif güç faktörü düzeltici işlevini gerçekleştiren bir AA/DA dönüştürücü ve şarj işlevini gerçekleştiren bir DA/DA dönüştürücüden oluşmaktadır. Önerilen hızlı şarj sisteminin geçerliliği ve etkinliği simülasyon sonuçları ile doğrulanmıştır.

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Asymmetric modulation of bridgeless single‐stage full‐bridge AC–DC converter for active power factor correction and zero voltage switching

Cited by 2 publications

References 39 publications

A hybrid bridgeless AC‐DC converter topology

A hybrid bridgeless AC‐DC converter topology

Design and Simulation of DC Fast Charger for Electric Vehicle

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