Organic Substrate and Flip-Chip Bonding on It Technology, "Chip on ALIVH" Suitable for GHz System Packaging
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概要
- 論文の詳細を見る
- 1999-09-20
著者
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Eda K
Graduate School Of Science And Technology Kobe University
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Taguchi Yohei
The Department Of Mechatronics And Precision Engineering Tohoku University
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TAGUCHI Yutaka
Matsushita Electric Industrial Co., Ltd., Device Engineering Development Center
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IWAI Hideki
Matsushita Electric Industrial Co., Ltd., Device Engineering Development Center
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ITAGAKI Minehiro
Matsushita Electric Industrial Co., Ltd., Device Engineering Development Center
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BESSHO Yoshihiro
Matsushita Electric Industrial Co., Ltd., Device Engineering Development Center
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EDA Kazuo
Matsushita Electric Industrial Co., Ltd., Device Engineering Development Center
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Iwai Hideki
Matsushita Electric Industrial Co. Ltd. Device Engineering Development Center
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Itagaki Minehiro
Matsushita Electric Industrial Co. Ltd. Device Engineering Development Center
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Bessho Yoshihiro
Matsushita Electric Industrial Co. Ltd. Device Engineering Development Center
関連論文
- An Application of a Flip-Chip-Bonding Technique to GHz-Band SAW Filters for Mobile Communication (Special Issue on Microwave and Millimeter-Wave Technology for Advanced Functioions and Size-Reductions)
- Microwave Characteristics of Alumina-Glass Composite Multi-Layer Substrates with Co-fired Copper Conductors (Special Issue on Microwave and Millimeter-Wave Technology for Advanced Functioions and Size-Reductions)
- Hydrothermal Synthesis and Calorimetric Study of Blue Molybdenum Bronze, K_MoO_3
- Calorimetric Study of Hydrated Potassium Molybdenum Bronze
- Organic Substrate and Flip-Chip Bonding on It Technology, "Chip on ALIVH" Suitable for GHz System Packaging
- Spin-Glass Behavior of Hydrogen Molybdenum Bronze, H_xMoO_3
- New Family Member of Hydrogen Molybdenum Bronze, H_xMoO_3
- Structural Reconstruction by Selective Extraction of Specific Species : Non-reductive Change from h_MoO_3 to H_MoO_3
- Proton NMR study of the lowest-hydrogen-content molybdenum bronze H0.26MoO3
- Hydrothermal synthesis of potassium molybdenum oxide bronzes: structure-inheriting solid-state route to blue bronze and dissolution/deposition route to red bronze
- Transition metal tetramolybdate dihydrates MMo4O13・2H2O (M=Co,Ni) having a novel pillared layer structure
- Crystal structure of cobalt molybdate hydrate CoMoO4・nH2O
- Structure-inheriting solid-state reactions under hydrothermal conditions
- Basic Studies of Fiber-Optic MEMS for Telecommunication Using Three Dimensional Micromachining(Special Issue on Integrated Systems with New Concepts)