Katsuhiro Hata, Sadanori Suzuki, Kenichi Watanabe, Kenichi Nagayoshi, M. Takamiya
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引用次数: 1
摘要
为解决当前变换器输出电流不断增大所带来的电感冷却问题,提出了一种用于有源箝位变换器的2相串联电容同步整流器(SC-SR)。所提出的两相SC-SR在不增加一次电路元件和变压器数量的情况下,只需在2并联的传统sr上增加一个飞行电容器,即可实现交错运行。此外,所提出的两相SC-SR可以实现电感电流的自动平衡,有助于在两个电感中均匀地分配热量。在140 V -5 V转换测试中,采用两相SC-SR和常规SR的ACF转换器在28约out时的峰值效率分别为90.3%和85.9%,效率提高了4.4%。此外,与传统SR相比,所提出的2相SC-SR的交错操作将输出电流纹波从10.8 A降低到6.4 A,约为40。在不进行任何控制和补偿的情况下,该2相SC-SR的两个输出电感之间的电流不平衡小于10%,证明了该2相SC-SR在ACF变换器中的实用性。
2-Phase Series Capacitor Synchronous Rectifier in Active Clamp Forward Converter
A 2-phase series capacitor synchronous rectifier (SC-SR) in active clamp forward (ACF) converters is proposed to solve the inductor cooling problems caused by the recent trend of increasing the output current. The proposed 2-phase SC-SR can achieve the interleaved operation by adding only one flying capacitor to the 2-parallel conventional SRs without increasing the number of the primary circuit elements and transformer. Furthermore, the proposed 2-phase SC-SR can achieve the automatic inductor current balancing, which helps distribute the heat evenly in the two inductors. In the measurement at 140 V -to-5 V conversion, the peak efficiency of the ACF converters with the proposed 2-phase SC-SR and conventional SR was 90.3 % and 85.9 % at 28 AOUT, respectively, resulting in the improvement in efficiency by 4.4 %. In addition, the interleaved operation of the proposed 2-phase SC-SR reduced the output current ripple from 10.8 A to 6.4 A compared to the conventional SR at 40 AOUT. The current imbalance between the two output inductors of the proposed 2-phase SC-SR was less than 10% under heavy load even without any control or compensation, demonstrating the practicability of the proposed 2-phase SC-SR in ACF converters.