Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.11790/1650
Title: Interface reliability and lifetime prediction of heavy aluminum wire bonds
Authors: Czerny, Bernhard 
Khatibi, Golta 
Issue Date: 1-Mar-2016
Publisher: Elsevier
Source: Microelectronics Reliability, 58(1 March 2016), 65-72
Journal: Microelectronics Reliability 
Abstract: In this study a high frequency mechanical fatigue testing procedure for evaluation of interfacial reliability of heavy wire bonds in power semiconductors is presented. A displacement controlled mechanical shear testing set-up working at a variable frequency of a few Hertz up to 10 kHz is used to assess the interfacial fatigue resistance of heavy Al wire bond in IGBT devices. In addition, power cyclic tests were conducted on IGBT modules for in-situ measurement of the temperature distribution in the devices and determination of the thermally induced displacements in the wire bond loops. Finite Element Analysis was conducted to calculate the correlation between the thermally and mechanically induced interfacial stresses in the wire bonds. These stress values were converted into equivalent junction temperature swings (ΔTj) in the devices based on which lifetime curves at different testing frequencies were obtained. Comparison of the fatigue life curves obtained at mechanical testing frequencies of up to 200 Hz with the power cycling data related to the wire bond lift-off failure revealed a very good conformity in the ranges of 50 to 160 K. A lifetime prediction model for Al wire bonds in IGBT modules is suggested by which the loading cycles to failure can be obtained as a function of ΔTj and the mechanical testing frequency. The proposed accelerated shear fatigue testing procedure can be applied for rapid assessment of a variety of interconnects with different geometries and material combinations. Decoupling of the concurrent failure mechanisms and separation of the thermal, mechanical and environmental stress factors allows a more focused and efficient investigation of the interfaces in the devices.
URI: http://hdl.handle.net/20.500.11790/1650
ISSN: 0026-2714
DOI: 10.1016/j.microrel.2015.11.028
10.1109/EuroSimE.2016.7463363
Appears in Collections:Energie-Umweltmanagement

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