New Design Concepts for PCB-Integration Technology in Power Electronics reducing Circuit Parasitics to a Minimum

Rando Raßmann, Jasper Schnack, Knud Gripp, Ulf Schümann
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Abstract

With the introduction of fast switching wide-bandgap (WBG) power semiconductors, the focus in the development of power modules has increasingly been shifted to reducing parasitic elements. To fully use the advantages of WBG power semiconductors, the relevant parasitic elements within the power modules must be minimized. Due to the limited degrees of freedom in the design, the parasitic elements in conventional power module structures can’t be further reduced. Consequently, new structures for power module designs and new solutions for the assembly and connection technology must be developed. Multi-layer, three-dimensional (3-D) structures are suggested for fast switching power semiconductors. Due to the 3-D structure new degrees of freedom in the module design can be used. This allows to reduce parasitic elements with new design and connection concepts. This paper presents design guidelines for 3-D power modules based on printed circuit boards (PCBs). By using PCB manufacturing technologies, a multi-layer, 3-D power module is developed. The proposed module structure does not require any bond wires in the power loop. To verify the advantages of the presented design, the module is assembled, measured, and compared with a simplified 3-D power module.
电力电子中pcb集成技术的新设计概念,将电路寄生降到最低
随着快速开关宽带隙(WBG)功率半导体的引入,功率模块的开发重点日益转向减少寄生元件。为了充分利用WBG功率半导体的优势,必须最小化功率模块内的相关寄生元件。由于设计的自由度有限,传统电源模块结构中的寄生元件无法进一步减小。因此,必须开发用于功率模块设计的新结构以及用于组装和连接技术的新解决方案。多层,三维(3-D)结构被建议用于快速开关功率半导体。由于是三维结构,在模块设计中可以采用新的自由度。这可以通过新的设计和连接概念减少寄生元素。本文提出了基于印刷电路板(pcb)的三维电源模块的设计准则。采用PCB制造技术,开发了多层三维电源模块。提出的模块结构不需要电源回路中的任何键合线。为了验证该设计的优势,对该模块进行了组装、测量,并与简化的三维电源模块进行了比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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