Patent application number | Description | Published |
20100091549 | Non-Volatile Memory Cell with Complementary Resistive Memory Elements - A non-volatile memory cell and method of writing data thereto. In accordance with some embodiments, the memory cell includes first and second resistive memory elements (RMEs) configured to concurrently store complementary programmed resistive states. The first RME is programmed to a first resistive state and the second RME is concurrently programmed to a second resistive state by application of a common write current in a selected direction through the memory cell. | 04-15-2010 |
20100141094 | PIEZOELECTRIC ENERGY HARVESTING SYSTEM - A mechanical energy harvester, such as for an electronic system such as a sensor system. The energy harvester has a spring with one end connected to a support structure, and a piezoelectric material on the spring. An electronics package is supported on the spring, the electronics package comprising at least one component selected from the group consisting of rectifier(s), storage component(s), and integrated circuit(s). | 06-10-2010 |
20110006377 | Patterning Embedded Control Lines for Vertically Stacked Semiconductor Elements - Various embodiments of the present invention are generally directed to an apparatus with embedded (bottom side) control lines for vertically stacked semiconductor elements, and a method for forming the same. In accordance with various embodiments, a first semiconductor wafer is provided with a first facing surface on which a first conductive layer is formed. The first semiconductor wafer is attached to a second semiconductor wafer to form a multi-wafer structure, the second semiconductor wafer having a second facing surface on which a second conductive wafer is formed. The first conductive layer is contactingly bonded to the second conductive layer to form an embedded combined conductive layer within said structure. Portions of the combined conductive layer are removed to form a plurality of spaced apart control lines that extend in a selected length or width dimension through said structure. | 01-13-2011 |
20110007547 | Vertical Non-Volatile Switch with Punchthrough Access and Method of Fabrication Therefor - A semiconductor device for accessing non-volatile memory cell is provided. In some embodiments, the semiconductor device has a vertical stack of semiconductor layers including a source, a drain, and a well. An application of a drain-source bias voltage to the semiconductor device generates a punchthrough mechanism across the well to initiate a flow of current between the source and the drain. | 01-13-2011 |
20110007597 | Semiconductor Control Line Address Decoding Circuit - Apparatus and method for decoding addresses of control lines in a semiconductor device, such as a solid state memory (SSM). In accordance with some embodiments, a switching circuit includes an array of switching devices coupled to 2 | 01-13-2011 |
20110170335 | Vertical Non-Volatile Switch with Punchthrough Access and Method of Fabrication Therefor - A semiconductor device for accessing non-volatile memory cell is provided. In some embodiments, the semiconductor device has a vertical stack of semiconductor layers including a source, a drain, and a well. An application of a drain-source bias voltage to the semiconductor device generates a punchthrough mechanism across the well to initiate a flow of current between the source and the drain. | 07-14-2011 |
20110205830 | Semiconductor Control Line Address Decoding Circuit - Apparatus and method for decoding addresses of control lines in a semiconductor device, such as a solid state memory (SSM). In accordance with some embodiments, a switching circuit includes an array of switching devices coupled to 2 | 08-25-2011 |
20120074466 | 3D MEMORY ARRAY WITH VERTICAL TRANSISTOR - A memory array includes a base circuitry layer and a plurality of memory array layers stacked sequentially to form the memory array. Each memory array layer is electrically coupled to the base circuitry layer. Each memory array layer includes a plurality of memory units. Each memory unit includes a vertical pillar transistor electrically coupled to a memory cell. | 03-29-2012 |
20120074488 | VERTICAL TRANSISTOR WITH HARDENING IMPLATATION - A method includes providing a semiconductor wafer having a plurality of pillar structures extending orthogonally from the semiconductor wafer. Each pillar structure forms a vertical pillar transistor having a top surface and a side surface orthogonal to the top surface. Then a hardening species is implanted into the vertical pillar transistor top surface. Then the vertical pillar transistor side surface is oxidized to form a side surface oxide layer. The side surface oxide layer is removed to form vertical pillar transistor having rounded side surfaces. | 03-29-2012 |
20120080725 | VERTICAL TRANSISTOR MEMORY ARRAY - A method includes providing a semiconductor wafer having a plurality of pillar structures extending orthogonally from the semiconductor wafer. An electrically conducting interconnect element is deposited onto at least selected vertical pillar transistors and a non-volatile variable resistive memory cell is deposited onto the electrically conducting interconnect layer to form a vertical transistor memory array. | 04-05-2012 |
20120199915 | Patterning Embedded Control Lines for Vertically Stacked Semiconductor Elements - The present invention is generally directed to an apparatus with embedded (bottom side) control lines for vertically stacked semiconductor elements. In accordance with various embodiments, a first semiconductor wafer is provided with a first facing surface on which a first conductive layer is formed. The first semiconductor wafer is attached to a second semiconductor wafer to form a multi-wafer structure, the second semiconductor wafer having a second facing surface on which a second conductive wafer is formed. The first conductive layer is contactingly bonded to the second conductive layer to form an embedded combined conductive layer within said structure. Portions of the combined conductive layer are removed to form a plurality of spaced apart control lines that extend in a selected length or width dimension through said structure. | 08-09-2012 |
20130302948 | 3D ARRAY WITH VERTICAL TRANSISTOR - A memory array includes a base circuitry layer and a plurality of memory array layers stacked sequentially to form the memory array. Each memory array layer is electrically coupled to the base circuitry layer. Each memory array layer includes a plurality of memory units. Each memory unit includes a vertical pillar transistor electrically coupled to a memory cell. | 11-14-2013 |