The Applicability Research of VCE(T) Method to Multi-chip Parallel High-voltage High-power Modules

王为介; 谢露红; 谢望玉; 邓二平; 周宇豪

doi:10.13334/j.0258-8013.pcsee.241197

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The Applicability Research of V_CE(T) Method to Multi-chip Parallel High-voltage High-power Modules

更新时间：2026-02-06

- The Applicability Research of V_CE(T) Method to Multi-chip Parallel High-voltage High-power Modules
- Vol. 46, Issue 2, Pages: 780-788(2026)
- 作者机构：
  
  1. 动车组和机车牵引与控制国家重点实验室(中国铁道科学研究院集团有限公司)，北京市海淀区,100081
  2. 新能源电力系统国家重点实验室(华北电力大学)，北京市昌平区,102206
  3. 电能高效高质转化全国重点实验室(合肥工业大学),安徽省,合肥市,230009
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.241197
  CLC：
- Published：2026
- 稿件说明：
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王为介, 谢露红, 谢望玉, et al. The Applicability Research of V_CE(T) Method to Multi-chip Parallel High-voltage High-power Modules[J]. 2026, 46(2): 780-788.
DOI：

王为介, 谢露红, 谢望玉, et al. The Applicability Research of V_CE(T) Method to Multi-chip Parallel High-voltage High-power Modules[J]. 2026, 46(2): 780-788. DOI： 10.13334/j.0258-8013.pcsee.241197.

摘要

多芯片并联的高压大功率模块被广泛运用在轨道交通领域，该工况对模块长时间运行可靠性具有较高的要求。功率循环实验是考核功率模块可靠性最重要的实验，其中结温是影响模块寿命的最重要的因素。目前常用VCE(T)法进行结温的测量，然而对于多芯片并联的模块来说，VCE(T)法测量结温所表征的物理意义及其适用性还没有得到详细的研究。该文选用轨交用的6 500 V/750 A多芯片并联模块进行研究，通过对模块内的16颗并联芯片进行结温校准和温度分布试验，探究得到VCE(T)法结温与多芯片平均温度及“1/3法”计算温度都相等的结论。并利用有限元思想从理论的角度分析得到多芯片平均温度与“1/3法”计算温度具有相同表达式的结论，从而进一步验证实验结论的准确性。因此，VCE(T)法仍然适用于多芯片并联模块的结温测量，其测量的结温在物理本质上可以表征为多颗芯片表面的平均温度。

Abstract

Multi-chip parallel high-voltage high-power modules are widely used in rail transport

which requires a high long-term reliability of power modules. The power cycle test (PCT) is the most important test to assess the power modules’ reliability

in which the junction temperature is the most important factor affecting the module lifetime. VCE(T) method is commonly used for junction temperature measurement in PCT. As for the power module with multi-chip paralleled

whether the VCE(T) method can still used is an issue

and the physical significance of the junction temperature measured by VCE(T) method of a power module has not been studied. Therefore

the 6 500 V/750 A power module used in high-speed trains is selected for this paper. By calibrating the junction temperature of 16 parallel chips in the module and testing the temperature distribution

it is concluded that the junction temperature measured by the VCE(T) method is equal to the average junction temperature of multiple chips and the junction temperature calculated by the “1/3 method”. The accuracy of the experimental conclusions are furthermore verified from the conclusion that the average junction temperature of multiple chips has the same expression with junction temperature calculated by the “1/3 method”

which is obtained by the analysis from the finite element theory. Therefore

the VCE(T) method is still suitable for the junction temperature measurements in multi-chip parallel power modules

where the measured junction temperature can be physically characterised as the average temperature of the surface of multiple chips.

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