Emerging lead-free, high-temperature die-attach technology enabled by low-temperature sintering of nanoscale silver pastes

A low-temperature joining technology based on silver sintering, which is being implemented in manufacturing of power electronics modules, holds the promise of achieving 5times higher temperature cycling capability, 3times better total module resistance, and chip junction temperature up to 175degC. B...

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Main Authors: Guo-Quan Lu, Meihua Zhao, Guangyin Lei, Calata, J.N., Xu Chen, Luo, S.
Format: Conference Proceeding
Language:English
Subjects:
Chemical technology
Environmentally friendly manufacturing techniques
Heating
Lead
Mechanical factors
Optical films
Power electronics
Silver
Solvents
Temperature
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creator Guo-Quan Lu
Meihua Zhao
Guangyin Lei
Calata, J.N.
Xu Chen
Luo, S.
description A low-temperature joining technology based on silver sintering, which is being implemented in manufacturing of power electronics modules, holds the promise of achieving 5times higher temperature cycling capability, 3times better total module resistance, and chip junction temperature up to 175degC. Because of its RoHS compliance, the technology is also aggressively pursued by the makers of automotive power electronics components. However, a serious drawback of the technology is the use of high quasi-static pressure (> 40 MPa or 400 kg-force per cm 2 chip area) necessary to lower the sintering temperature of existing thick-film silver pastes to less than 300degC. In this paper, we describe the die-attach application of a nanoscale silver paste that can be sintered at low temperature without pressure. Mechanical, thermal, and thermo-mechanical properties of the sintered silver joints are reported.
doi_str_mv 10.1109/ICEPT.2009.5270709
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Chemical technology
Environmentally friendly manufacturing techniques
Heating
Lead
Mechanical factors
Optical films
Power electronics
Silver
Solvents
Temperature
title Emerging lead-free, high-temperature die-attach technology enabled by low-temperature sintering of nanoscale silver pastes
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