An Alternative Junction-to-Case Thermal Resistance Test Method for High Power Press-Pack IGBTs

Press-pack insulated gate bipolar transistors (PP IGBTs) is well suited for high-voltage, high-power applications due to their double-side cooling, ease of series connection, and higher power density. It is very important to measure the junction-to-case thermal resistance ( R thjc ) for evaluating t...

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Veröffentlicht in:	IEEE transactions on power electronics 2024-12, Vol.39 (12), p.15644-15654
Hauptverfasser:	Sun, Hongyu, Sun, Yuan, Deng, Erping, Zhao, Yushan, Li, Weibang, Pan, Maoyang, Liu, Peng, Yan, Yuxing, Huang, Yongzhang
Format:	Artikel
Sprache:	eng
Schlagworte:	Alternative method Electrical resistance measurement Insulated gate bipolar transistors junction-to-case thermal resistance Junctions press-pack insulated gate bipolar transistors (PP IGBTs) Resistance Semiconductor device measurement Temperature measurement Thermal resistance transient dual-interface method (TDIM)
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container_issue	12
container_start_page	15644
container_title	IEEE transactions on power electronics
container_volume	39
creator	Sun, Hongyu Sun, Yuan Deng, Erping Zhao, Yushan Li, Weibang Pan, Maoyang Liu, Peng Yan, Yuxing Huang, Yongzhang
description	Press-pack insulated gate bipolar transistors (PP IGBTs) is well suited for high-voltage, high-power applications due to their double-side cooling, ease of series connection, and higher power density. It is very important to measure the junction-to-case thermal resistance ( R thjc ) for evaluating thermal performance, with high accuracy. However, the existing thermal resistance test methods will have the problem of low accuracy when it is used in PP IGBTs. In this article, a new thermal resistance test method is proposed based on the transient dual-interface method (TDIM), different from traditional TDIM, which can obtain two transient thermal impedance ( Z th ) curves without disassembling the fixture, and determine the R thjc through the separation point. The 4500 V 3000 A StakPak PP IGBTs is used as the measurement object. The results show that compared with the traditional TDIM, the new method is very simple to operate, and the test results are more accurate than thermocouples, which is more suitable for PP IGBTs. The single-side thermal resistance of the PP IGBTs is analyzed, and the emitter side is even worse due to the disc spring. The R thjc calculated by single-side thermal resistance is close to the proposed method, but fluctuates widely.
doi_str_mv	10.1109/TPEL.2024.3452247
format	Article
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It is very important to measure the junction-to-case thermal resistance ( R thjc ) for evaluating thermal performance, with high accuracy. However, the existing thermal resistance test methods will have the problem of low accuracy when it is used in PP IGBTs. In this article, a new thermal resistance test method is proposed based on the transient dual-interface method (TDIM), different from traditional TDIM, which can obtain two transient thermal impedance ( Z th ) curves without disassembling the fixture, and determine the R thjc through the separation point. The 4500 V 3000 A StakPak PP IGBTs is used as the measurement object. The results show that compared with the traditional TDIM, the new method is very simple to operate, and the test results are more accurate than thermocouples, which is more suitable for PP IGBTs. The single-side thermal resistance of the PP IGBTs is analyzed, and the emitter side is even worse due to the disc spring. 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It is very important to measure the junction-to-case thermal resistance ( R thjc ) for evaluating thermal performance, with high accuracy. However, the existing thermal resistance test methods will have the problem of low accuracy when it is used in PP IGBTs. In this article, a new thermal resistance test method is proposed based on the transient dual-interface method (TDIM), different from traditional TDIM, which can obtain two transient thermal impedance ( Z th ) curves without disassembling the fixture, and determine the R thjc through the separation point. The 4500 V 3000 A StakPak PP IGBTs is used as the measurement object. The results show that compared with the traditional TDIM, the new method is very simple to operate, and the test results are more accurate than thermocouples, which is more suitable for PP IGBTs. The single-side thermal resistance of the PP IGBTs is analyzed, and the emitter side is even worse due to the disc spring. 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It is very important to measure the junction-to-case thermal resistance ( R thjc ) for evaluating thermal performance, with high accuracy. However, the existing thermal resistance test methods will have the problem of low accuracy when it is used in PP IGBTs. In this article, a new thermal resistance test method is proposed based on the transient dual-interface method (TDIM), different from traditional TDIM, which can obtain two transient thermal impedance ( Z th ) curves without disassembling the fixture, and determine the R thjc through the separation point. The 4500 V 3000 A StakPak PP IGBTs is used as the measurement object. The results show that compared with the traditional TDIM, the new method is very simple to operate, and the test results are more accurate than thermocouples, which is more suitable for PP IGBTs. The single-side thermal resistance of the PP IGBTs is analyzed, and the emitter side is even worse due to the disc spring. The R thjc calculated by single-side thermal resistance is close to the proposed method, but fluctuates widely.</abstract><pub>IEEE</pub><doi>10.1109/TPEL.2024.3452247</doi><tpages>11</tpages><orcidid>https://orcid.org/0000-0001-5047-0834</orcidid><orcidid>https://orcid.org/0009-0001-4734-1756</orcidid></addata></record>
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subjects	Alternative method Electrical resistance measurement Insulated gate bipolar transistors junction-to-case thermal resistance Junctions press-pack insulated gate bipolar transistors (PP IGBTs) Resistance Semiconductor device measurement Temperature measurement Thermal resistance transient dual-interface method (TDIM)
title	An Alternative Junction-to-Case Thermal Resistance Test Method for High Power Press-Pack IGBTs
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