M. Forde scite author profile

In this work we use a wafer-level, High Resolution Resistance Measuring Technique (HRRMT) to detect fabrication faults of Al-Cu interconnections. Experiments have been performed on two distinct sets of metal lines. The first set includes two lots of 4 μm wide lines which, once tested at moderately accelerated stress conditions, gave largely different life times. A microstructural analysis confirmed a major defectivity of the lot with shorter life time. An accurate examination of the early resistance variations revealed the presence of two distinct and subsequent phases, namely an initial pseudo-parabolic resistance increase followed by a linear resistance drop. Significant differences between the resistance behaviour of the two lots were detected during the first stage, lasting a few hours. Measurable differences could even be detected in the first few minutes. A second group of experiments was launched in order to assess the capability of HRRMT as in-line monitors. Samples from four wafers, one reference wafer and three wafers with intentional process variations, have been tested using our HRRMT at constant temperature and current, simulating an in-line production test. The standard life time of the four wafers have also been collected. Preliminary measurements highlight that a change of life time due to process variation corresponds to changes of the resistance behaviour in the first hours of test. These results pave the way for a new application of high resolution methods to assess the quality of a metallization system in a reasonable amount of time.

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The “Closed Shop” Case

Forde

1982

Ind Law J

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Bills of Rights and Trade Union Immunities: Some French Lessons

Forde

1984

Ind Law J

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80V HVDMOS reliability characterization for 0.6μm and 0.35μm technologies

Heffernan

Forde

2007

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M. Forde

Solder Joint Reliability: An integrated study of Electromigration, Thermal Migration and thermo-mechanical effects

Early Detection of the Metallization Quality Using Moderately Accelerated Electromigration Stress Conditions

The “Closed Shop” Case

Bills of Rights and Trade Union Immunities: Some French Lessons

80V HVDMOS reliability characterization for 0.6μm and 0.35μm technologies

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M. Forde

Solder Joint Reliability: An integrated study of Electromigration, Thermal Migration and thermo-mechanical effects

Early Detection of the Metallization Quality Using Moderately Accelerated Electromigration Stress Conditions

The “Closed Shop” Case

Bills of Rights and Trade Union Immunities: Some French Lessons

80V HVDMOS reliability characterization for 0.6&#x03BC;m and 0.35&#x03BC;m technologies

Contact Info

Product

Resources

About

80V HVDMOS reliability characterization for 0.6μm and 0.35μm technologies