Subhash L. Shinde
49Patents
12h-index
95Co-inventors
84Inventor score
Filing activity: Feb 7, 1992 → May 20, 2014
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US6262390A | Repair process for aluminum nitride substrates | Chemistry; Metallurgy | 48 | Expired |
| US8907439B1 | Focal plane array with modular pixel array components for scalability | Electricity | 44 | Active |
| US5981310A | Multi-chip heat-sink cap assembly | Electricity | 36 | Expired |
| US5541145A | Low temperature sintering route for aluminum nitride ceramics | Emerging Cross-Sectional Technologies | 23 | Expired |
| US6292367A | Thermally efficient semiconductor chip | Electricity | 22 | Expired |
| US6817776B2 | Method of bonding optical fibers and optical fiber assembly | Physics | 21 | Expired |
| US6373133B1 | Multi-chip module and heat-sink cap combination | Electricity | 19 | Expired |
| US5296189A | Method for producing metal powder with a uniform distribution of dispersants, method of uses thereof and structures fabricated therewith | Performing Operations; Transporting | 19 | Expired |
| US6291272A | Structure and process for making substrate packages for high frequency application | Electricity | 17 | Expired |
| US5755570A | Apparatus for in situ environment sensitive sealing and/or product controlling | Emerging Cross-Sectional Technologies | 14 | Expired |
| US5292477A | Supersaturation method for producing metal powder with a uniform distribution of dispersants method of uses thereof and structures fabricated therewith | Electricity | 13 | Expired |
| US5773377A | Low temperature sintered, resistive aluminum nitride ceramics | Emerging Cross-Sectional Technologies | 13 | Expired |
| US5424261A | Low temperature sintering route for aluminum nitride ceramics | Emerging Cross-Sectional Technologies | 12 | Expired |
| US6762119B2 | Method of preventing solder wetting in an optical device using diffusion of Cr | Electricity | 12 | Expired |
| US7084496B2 | Method and apparatus for providing optoelectronic communication with an electronic device | Electricity | 10 | Expired |
| US5482903A | Aluminum nitride body utilizing a vitreous sintering additive | Emerging Cross-Sectional Technologies | 10 | Expired |
| US9190392B1 | Three-dimensional stacked structured ASIC devices and methods of fabrication thereof | Electricity | 10 | Active |
| US5628849A | Method for in-situ environment sensitive sealing and/or product controlling | Mechanical Engineering; Lighting; Heating | 10 | Expired |
| US7245022B2 | Semiconductor module with improved interposer structure and method for forming the same | Electricity | 9 | Expired |
| US5552107A | Aluminum nitride body having graded metallurgy | Emerging Cross-Sectional Technologies | 8 | Expired |
| US7544527B2 | Method and apparatus for providing optoelectronic communication with an electronic device | Electricity | 7 | Active |
| US5763093A | Aluminum nitride body having graded metallurgy | Emerging Cross-Sectional Technologies | 7 | Expired |
| US6793407B2 | Manufacturable optical connection assemblies | Physics | 6 | Expired |
| US5218296A | Method and apparatus for determining at least one characteristic of a superconductive film | Emerging Cross-Sectional Technologies | 6 | Expired |
| US6096565A | Multi-layer glass ceramic module with superconductor wiring | Emerging Cross-Sectional Technologies | 6 | Expired |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.