There are many transformer applications where tight coupling is difficult to achieve. Therefore, an analysis of a resonant converter with a nonideal coupling is required. In this paper, a forward resonant converter with a coupling ranging from zero to one was analyzed. It was found that the traditional quasi-resonant converter becomes a multiresonant converter when the coupling is less than one. This is because the finite switching time of the rectifying diode reduces the input inductance of the transformer to effectively give a converter that uses two different inductances during any one switching period. It was also found that, in general, the converter has seven topological states. The design equations are derived analytically to provide a fundamental understanding of the converter. The peak voltage and current stress of the power switch as a function of the coupling were investigated. It was found that as the coupling is reduced, the peak voltage reduces and the peak current increases. A 48-5 V 20-W forward converter with a coupling of 0.9 was designed and tested. A coupling of 0.9 was chosen as it gives a duty cycle of 50%, has zero voltage switching for all loads, and has a peak switch voltage of 3.3 times the input voltage. The experiment verified the analysis and the practicality of a reduced coupling transformer, and the measured efficiency of the converter was 80%.
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机译:在很多变压器应用中,很难实现紧密耦合。因此,需要对具有非理想耦合的谐振转换器进行分析。在本文中,分析了耦合范围为零到一的正向谐振转换器。已经发现,当耦合小于一时,传统的准谐振转换器变成多谐振转换器。这是因为整流二极管的有限开关时间减少了变压器的输入电感,从而有效地提供了在任何一个开关周期内都使用两种不同电感的转换器。还发现,通常,转换器具有七个拓扑状态。通过解析得出设计方程,以提供对转换器的基本了解。研究了功率开关的峰值电压和电流应力与耦合的关系。已经发现,随着耦合减小,峰值电压减小并且峰值电流增大。设计并测试了耦合系数为0.9的48-5 V 20W正向转换器。选择0.9的耦合是因为它的占空比为50%,所有负载的电压开关均为零,峰值开关电压为输入电压的3.3倍。实验验证了减少耦合变压器的分析和实用性,实测效率为80%。
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