Reliability of radio frequency/microwave power packages: the effects of component materials and assembly processes
Identifieur interne : 001988 ( Main/Exploration ); précédent : 001987; suivant : 001989Reliability of radio frequency/microwave power packages: the effects of component materials and assembly processes
Auteurs : Philip M. Fabis [États-Unis]Source :
- Microelectronics Reliability [ 0026-2714 ] ; 1999.
English descriptors
- Teeft :
- Absolute magnitudes, Agcu, Assembly process material, Assembly processes, Assembly temperature, Component materials, Critical corner region, Critical corner site, Cumocu, Cumocu structures, Deformation, Elsevier science, Experimental package structures, Fabis, Fabis microelectronics reliability, Failure probabilities, Failure probability, Fracture, Fracture toughness, Grain size, Insulator, Insulator frame, Insulator frame material, Insulator frame stress, Insulator frames, Insulator varieties, Intergranular fracture, Material properties, Mechanical properties, Mesh structure, Microelectronics, Microstructural characteristics, Package assembly, Power package, Principal stress, Radio power packages, Relative cost, Reliability, Survivability threshold, Warp, Warp deformation, Weibull, Weibull modulus.
Abstract
Abstract: The mechanical performance and reliability of various Al2O3 ceramics were evaluated with intended applications as insulator frames for radio frequency/microwave power packages. Considering variations in base-flange material properties (CuW, CuMoCu), base-flange thickness (0.040 in., 0.020 in.), assembly process material (AgCu, Cu) assembly process temperature (860°C, 1080°C), and Al2O3 insulator material (96%, 99%, 20% ZrO2/Al2O3, ZTA), finite element analysis (FEA) spatially resolved the fabrication-induced stresses during the assembly of CuW/Al2O3 and CuMoCu/Al2O3 structures and showed the critical regions to be the frame corners at the metal base-flange/Al2O3 interface. Bend strengths (four-point) and Weibull distributions were determined for each Al2O3 material and coupled with the FEA-predicted stresses for the various package configurations and assembly processes, the failure probabilities (Pf ) for the various CuW/Al2O3 and CuMoCu/Al2O3 structures were calculated. The CuMoCu-based structures exhibited the greatest warp deformation (concave upward, +), and highest stress and failure probability for all Al2O3 insulator varieties. The CuW-based structures exhibited an order-of-magnitude lower warp deformation (concave downward, −), an order-of-magnitude lower stress in the Al2O3, and in excess of seven orders-of-magnitude lower failure probability than CuMoCu-based structures, for all Al2O3 insulator varieties. Confirmational experiments were conducted using AgCu and direct-bond copper (DBC) assembly processes for selected varieties of CuW/Al2O3 and CuMoCu/Al2O3 structures. Al2O3 failure sites were identified using radiographic, ultrasonic and optical techniques and were in good agreement with model predictions of suspect structures and failure location. The strength and reliability data were considered in conjunction with relative cost for the Al2O3 ceramics to select an optimum frame insulator for the application.
Url:
DOI: 10.1016/S0026-2714(99)00039-6
Affiliations:
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Fabis</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea>St. Gobain Industrial Ceramics, Norton Diamond Film Northboro Research Center, Northboro, MA 01532</wicri:regionArea><placeName><region type="state">Massachusetts</region></placeName></affiliation><affiliation></affiliation></author></analytic><monogr></monogr><series><title level="j">Microelectronics Reliability</title><title level="j" type="abbrev">MR</title><idno type="ISSN">0026-2714</idno><imprint><publisher>ELSEVIER</publisher><date type="published" when="1999">1999</date><biblScope unit="volume">39</biblScope><biblScope unit="issue">8</biblScope><biblScope unit="page" from="1265">1265</biblScope><biblScope unit="page" to="1274">1274</biblScope></imprint><idno type="ISSN">0026-2714</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0026-2714</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Absolute magnitudes</term><term>Agcu</term><term>Assembly process material</term><term>Assembly processes</term><term>Assembly temperature</term><term>Component materials</term><term>Critical corner region</term><term>Critical corner site</term><term>Cumocu</term><term>Cumocu structures</term><term>Deformation</term><term>Elsevier science</term><term>Experimental package structures</term><term>Fabis</term><term>Fabis microelectronics reliability</term><term>Failure probabilities</term><term>Failure probability</term><term>Fracture</term><term>Fracture toughness</term><term>Grain size</term><term>Insulator</term><term>Insulator frame</term><term>Insulator frame material</term><term>Insulator frame stress</term><term>Insulator frames</term><term>Insulator varieties</term><term>Intergranular fracture</term><term>Material properties</term><term>Mechanical properties</term><term>Mesh structure</term><term>Microelectronics</term><term>Microstructural characteristics</term><term>Package assembly</term><term>Power package</term><term>Principal stress</term><term>Radio power packages</term><term>Relative cost</term><term>Reliability</term><term>Survivability threshold</term><term>Warp</term><term>Warp deformation</term><term>Weibull</term><term>Weibull modulus</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Abstract: The mechanical performance and reliability of various Al2O3 ceramics were evaluated with intended applications as insulator frames for radio frequency/microwave power packages. Considering variations in base-flange material properties (CuW, CuMoCu), base-flange thickness (0.040 in., 0.020 in.), assembly process material (AgCu, Cu) assembly process temperature (860°C, 1080°C), and Al2O3 insulator material (96%, 99%, 20% ZrO2/Al2O3, ZTA), finite element analysis (FEA) spatially resolved the fabrication-induced stresses during the assembly of CuW/Al2O3 and CuMoCu/Al2O3 structures and showed the critical regions to be the frame corners at the metal base-flange/Al2O3 interface. Bend strengths (four-point) and Weibull distributions were determined for each Al2O3 material and coupled with the FEA-predicted stresses for the various package configurations and assembly processes, the failure probabilities (Pf ) for the various CuW/Al2O3 and CuMoCu/Al2O3 structures were calculated. The CuMoCu-based structures exhibited the greatest warp deformation (concave upward, +), and highest stress and failure probability for all Al2O3 insulator varieties. The CuW-based structures exhibited an order-of-magnitude lower warp deformation (concave downward, −), an order-of-magnitude lower stress in the Al2O3, and in excess of seven orders-of-magnitude lower failure probability than CuMoCu-based structures, for all Al2O3 insulator varieties. Confirmational experiments were conducted using AgCu and direct-bond copper (DBC) assembly processes for selected varieties of CuW/Al2O3 and CuMoCu/Al2O3 structures. Al2O3 failure sites were identified using radiographic, ultrasonic and optical techniques and were in good agreement with model predictions of suspect structures and failure location. The strength and reliability data were considered in conjunction with relative cost for the Al2O3 ceramics to select an optimum frame insulator for the application.</div></front></TEI><affiliations><list><country><li>États-Unis</li></country><region><li>Massachusetts</li></region></list><tree><country name="États-Unis"><region name="Massachusetts"><name sortKey="Fabis, Philip M" sort="Fabis, Philip M" uniqKey="Fabis P" first="Philip M" last="Fabis">Philip M. Fabis</name></region></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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