Model based thermal evaluation of a modular power inverter system

Manuel Brose, Christian Duerkop, T. Schulte
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Abstract

Modular power inverter systems for auxiliary drives in utility vehicles can meet various different customer requirements. A model based approach can be used for validating the thermal design of those systems in any suitable modular configuration. This contribution is focused on an equivalent lumped thermal network model for a modular inverter system on a given heat sink concept. The proposed network representation is based on spatial splitting of the heat sink geometry whereby the lumped network elements are parametrized by means of the heat sink geometry. Since the proposed network is easy and straightforward, a minimum of variables are introduced to adjust the temperature results empirically with FEM results on certain reference operation points. Furthermore, modularity is considered due to the coolant and therefore, customer specific placement of modules can be investigated. Finally, the proposed model is compared with FEM results of a worst case system configuration, the influence of the introduced adjustment variables is shown and further validation results with thermal measurements and FEM results of different system configurations are given.
基于模型的模块化逆变电源系统热评估
多功能车辅助驱动模块化电源逆变系统可以满足各种不同的客户需求。基于模型的方法可用于验证这些系统在任何合适的模块化配置中的热设计。这一贡献集中在等效集中热网络模型的模块化逆变器系统在给定的散热器概念。所提出的网络表示基于散热器几何的空间分裂,其中集总网络元素通过散热器几何参数化。由于所提出的网络简单、直观,因此引入最小变量,对某些参考工作点的有限元结果进行经验调整。此外,由于考虑了冷却剂的模块化,因此可以研究客户特定的模块放置。最后,将所提出的模型与最坏情况下系统配置的有限元结果进行了比较,说明了所引入的调节变量的影响,并给出了不同系统配置的热测量和有限元结果的进一步验证结果。
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