mCube, Inc.
118Patents
118Active
118Granted
62Portfolio score
Filing activity: Jan 15, 2009 → Oct 16, 2019 · 15 expiring within 5 years
Most-cited patents
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US8723986B1 | Methods and apparatus for initiating image capture on a hand-held device | Electricity | 63 | Active |
| US8402666B1 | Magneto meter using lorentz force for integrated systems | Physics | 47 | Active |
| US8236577B1 | Foundry compatible process for manufacturing a magneto meter using lorentz force for integrated systems | Physics | 45 | Active |
| US8421082B1 | Integrated CMOS and MEMS with air dielectric method and system | Electricity | 43 | Active |
| US8395252B1 | Integrated MEMS and CMOS package and method | Electricity | 42 | Active |
| US8181874B1 | Methods and apparatus for facilitating capture of magnetic credit card data on a hand held device | Electricity | 41 | Active |
| US8227285B1 | Method and structure of monolithetically integrated inertial sensor using IC foundry-compatible processes | Electricity | 37 | Active |
| US8407905B1 | Multiple magneto meters using Lorentz force for integrated systems | Physics | 36 | Active |
| US8245923B1 | Methods and apparatus for capturing magnetic credit card data on a hand held device | Physics | 35 | Active |
| US8637943B1 | Multi-axis integrated MEMS devices with CMOS circuits and method therefor | Electricity | 31 | Active |
| US8324047B1 | Method and structure of an integrated CMOS and MEMS device using air dielectric | Performing Operations; Transporting | 31 | Active |
| US8486723B1 | Three axis magnetic sensor device and method | Electricity | 29 | Active |
| US8477473B1 | Transducer structure and method for MEMS devices | Emerging Cross-Sectional Technologies | 26 | Active |
| US8476084B1 | Method and structure of sensors or electronic devices using vertical mounting | Electricity | 24 | Active |
| US8367522B1 | Method and structure of integrated micro electro-mechanical systems and electronic devices using edge bond pads | Electricity | 23 | Active |
| US8476129B1 | Method and structure of sensors and MEMS devices using vertical mounting with interconnections | Electricity | 23 | Active |
| US8928696B1 | Methods and apparatus for operating hysteresis on a hand held device | Physics | 21 | Active |
| US9709509B1 | System configured for integrated communication, MEMS, Processor, and applications using a foundry compatible semiconductor process | Physics | 18 | Active |
| US9246017B2 | MEMS-based dual and single proof-mass accelerometer methods and apparatus | Physics | 17 | Active |
| US8071398B1 | Method and structure of monolithically integrated IC-MEMS oscillator using IC foundry-compatible processes | Performing Operations; Transporting | 16 | Active |
| US8506529B1 | Method and structure of monolithetically integrated microneedle biochip | Human Necessities | 16 | Active |
| US8704238B2 | Method and structure of monolithically integrated IC-MEMS oscillator using IC foundry-compatible processes | Performing Operations; Transporting | 16 | Active |
| US8227911B1 | Method and structure of wafer level encapsulation of integrated circuits with cavity | Performing Operations; Transporting | 15 | Active |
| US8432005B2 | Method and structure of monolithetically integrated inertial sensor using IC foundry-compatible processes | Electricity | 14 | Active |
| US8869616B1 | Method and structure of an inertial sensor using tilt conversion | Physics | 14 | Active |
Source: USPTO / EPO open patent data. Counts and citation impact are objective bibliographic measures.