[1]曹 琳,等. 半实物仿真技术在轨道交通用IGBT寿命预测中的应用[J].机车电传动,2019,(04):1.[doi:10.13890/j.issn.1000-128x.2019.04.102]
 CAO Lin,YE Na,et al. Application of Hardware-in-the-loop Simulation Technology in Life Prediction of IGBT Module for Rail Transit[J].Electric Drive for Locomotives,2019,(04):1.[doi:10.13890/j.issn.1000-128x.2019.04.102]
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 半实物仿真技术在轨道交通用IGBT寿命预测中的应用()
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机车电传动[ISSN:1000-128X/CN:43-1125/U]

卷:
期数:
2019年04期
页码:
1
栏目:
研究开发
出版日期:
2019-07-10

文章信息/Info

Title:
 Application of Hardware-in-the-loop Simulation Technology in Life Prediction of IGBT Module for Rail Transit
作者:
 曹 琳1 2叶 娜1 2李 萍1 2李碧珊1 2陈 宏1 2王彩琳3
 (1. 中车永济电机有限公司 技术中心,山西 永济 044502;2. 西安中车永电电气有限公
司 技术中心,陕西 西安 710016;3. 西安理工大学 自动化学院,陕西 西安 710048)
Author(s):
 CAO Lin 1 2 YE Na 1 2 LI Ping 1 2 LI Bishan 1 2 CHEN Hong 1 2 WANG Cailin3
 ( 1. Technical Center, CRRC Yongji Electric Co., Ltd., Yongji , Shanxi 044502, China; 2.Technical Center, Xi’an CRRC Yongdian Electric Co., Ltd., Xi’an, Shaanxi 710016, China; 3. Automation College, Xi’an University of Technology, Xi’an, Shaanxi 710048, China )
关键词:
 半实物仿真CRH5动车组IGBT 模块寿命预测轨道交通
Keywords:
 hardware-in-the-loop simulation CRH5 EMUs IGBT module life prediction rail transit
分类号:
U268.3; TP391.9; U266.2
DOI:
10.13890/j.issn.1000-128x.2019.04.102
文献标志码:
A
摘要:
 IGBT 是列车牵引变流器的核心部件,其寿命预测技术是整车故障预测与健康管理的重要依据。采用半实物仿真方式对CRH5 型动车组IGBT 电流、电压等参数进行提取,基于这些参数进行与寿命相关的仿真和计算。计算表明:逆变器侧IGBT 模块寿命小于脉冲整流器侧IGBT;IGBT 的主端子、芯片和DBC 焊层会提前出现失效征兆现象。该方法为准确评估轨道交通用IGBT 模块寿命预测提供参考。
Abstract:
 IGBT module is the core component of the train traction converter, its life prediction technology is an important basis for the prognostic and health management of the whole train. In this paper, the current and voltage of IGBT module in CRH5 EMUs were extracted by hardware-in-the-loop simulation method. Then, the lifetime related simulation and calculation were carried out. The calculation results showed that the lifetime of IGBT module in inverters lower than in pulse rectifier, module main terminal, chip and DBC soldering layer would be early signs of failure. This method provided a basis for accurately evaluating the lifetime of IGBT module in rail transit.

参考文献/References:

 [1] 王彦刚, DINESH C, 李世平, 等. 功率IGBT 模块的寿命预测[J].机车电传动, 2013(2): 24-28.
[2] 孟苓辉. 牵引变流器的故障预测与健康管理(PHM)及可靠性评估技术研究[D]. 北京: 北京交通大学, 2017.
[3] 鲁光祝. IGBT 功率模块寿命预测技术研究[D]. 重庆: 重庆大学,2013.
[4] WEI K X, DU M X, XIE L L. Study of bonding wire failure effects on external measurable signals of IGBT module[J]. IEEE Transactions on Device and Materials Reliability, 2014, 14(1): 83-89.
[5] 陈明, 胡安, 刘宾礼. 绝缘栅双极晶体管失效机理与寿命预测模型分析[J]. 西安交通大学学报, 2011, 45 (10): 65-77.
[6] 李彦涌, 忻力, 赖伟, 等. 基于现场数据的IGBT结温实时计算[J].大功率变流技术, 2017(1): 24-28.
[7] 刘陈. CRH5 型高速动车组半实物仿真系统[D]. 北京: 北京交通大学, 2014.
[8] 杨显进. CRH5 牵引变流器的研究[D]. 成都: 西南交通大学,2010.
[9] 王贺. IGBT 功率模块结温探测和寿命预测[D]. 河北: 河北工业大学, 2014.
[10] 张亚玲, 李志刚. 基于加速老化试验的IGBT 寿命预测模型研究[J]. 电气传动,2016, 46(10): 72-75.
[11] ABB Switzerland Ltd. Application Note 5SYA 2043-04: Loadcycling capability of HiPak IGBT modules[S]. Zurich:ABB Switzerland Ltd., 2014.

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备注/Memo

备注/Memo:
 作者简介:曹 琳(1984—),男,博士,高级工程师,目前主要从事大功率IGBT 器件可靠性及SiC 功率器件研究工作。
更新日期/Last Update: 2019-07-09