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Micron Technology,Inc.
| Micron Technology,Inc. Patent applications | ||
| Patent application number | Title | Published |
|---|---|---|
| 20120126883 | VERTICALLY STACKED FIN TRANSISTORS AND METHODS OF FABRICATING AND OPERATING THE SAME - A semiconductor device is disclosed having vertically stacked (also referred to as vertically offset) transistors in a semiconductor fin. The semiconductor fin may include lower transistors separated by a first trench and having a source and drain in a first doped region of the fin. The semiconductor fin also includes upper transistors vertically offset from the first transistors and separated by a second trench and having a source and drain in a second doped region of the fin. Upper and lower stacked gates may be disposed on the sidewalls of the fin, such that the lower transistors are activated by biasing the lower gates and upper transistors are activated by biasing the upper gates. Methods of manufacturing and operating the device are also disclosed. | 05-24-2012 |
| 20110187441 | Temperature Compensation Via Power Supply Modification to Produce a Temperature-Independent Delay in an Integrated Circuit - A method and circuitry for adjusting the delay of a variable delay line (VDL) in a delay locked loop (DLL) or other delay element or subcircuit on an integrated circuit is disclosed. Such delay circuitry will inherently have a delay which is a function of temperature. In accordance with embodiments of the invention, such temperature-dependent delays are compensated for by adjusting the power supply voltage of the VDL, delay element, or subcircuit. Specifically, a temperature sensing stage is used to sense the temperature of the integrated circuit, and hence the VDL, delay element, or subcircuit. Information concerning the sensed temperature is sent to a regulator which derives the local power supply voltage from the master power supply voltage, Vcc, of the integrated circuit. If the temperature sensed is relatively high, which otherwise would increase the delay though the VDL, delay element, or subcircuit, the regulator increases the local power supply voltage, thus decreasing the delay and offsetting the increase in delay due to temperature. Through this scheme, and assuming the temperature sensing stage is properly tuned, temperature-dependent delays can be reduced to approximately zero. | 08-04-2011 |
| 20080213976 | METHODS FOR FABRICATING SEMICONDUCTOR COMPONENTS AND PACKAGED SEMICONDUCTOR COMPONENTS - Packaged semiconductor components and methods for manufacturing packaged semiconductor components. In one embodiment a semiconductor component comprises a die having a semiconductor substrate and an integrated circuit. The substrate has a first side, a second side, a sidewall between the first and second sides, a first indentation at the sidewall around a periphery of the first side, and a second indentation at the sidewall around a periphery of the second side. The component can further include a first exterior cover at the first side and a second exterior cover at the second side. The first exterior cover has a first extension in the first indentation, and the second exterior cover has a second extension in the second indentation. The first and second extensions are spaced apart from each other by an exposed portion of the sidewall. | 09-04-2008 |