Archivio Istituzionale della RicercaA thorough accuracy estimation of the well-known low-current voltage drop method is carried out in this paper. A high-performance infrared camera is utilized as the reference in a DC power-cycling test on a commercial IGBT power module. The result shows that the low-current voltage drop method produces generally a higher temperature than the actual, in particular at the bond wire's joint point. However, a simple compensation method with a linear function can be easily adopted to compensate the temperature difference. After compensation, the maximum error of temperature swing is 0.28 °C.
Accuracy estimation of low-current voltage drop method for junction temperature monitoring under DC power cycling / Lu, Zhebie; Iannuzzo, Francesco. - In: MICROELECTRONICS RELIABILITY. - ISSN 0026-2714. - ELETTRONICO. - 150:(2023). [10.1016/j.microrel.2023.115138]
Accuracy estimation of low-current voltage drop method for junction temperature monitoring under DC power cycling
Francesco Iannuzzo
2023
Abstract
A thorough accuracy estimation of the well-known low-current voltage drop method is carried out in this paper. A high-performance infrared camera is utilized as the reference in a DC power-cycling test on a commercial IGBT power module. The result shows that the low-current voltage drop method produces generally a higher temperature than the actual, in particular at the bond wire's joint point. However, a simple compensation method with a linear function can be easily adopted to compensate the temperature difference. After compensation, the maximum error of temperature swing is 0.28 °C.
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https://hdl.handle.net/11583/2999731