Patent application number | Description | Published |
20100127309 | INTEGRATED CAPACITOR WITH ALTERNATING LAYERED SEGMENTS - A capacitor in an integrated circuit (“IC”) has a first node plate link formed in a first metal layer of the IC electrically connected to and forming a portion of a first node of the capacitor extending along a first axis (y) and a second node plate link formed in a second metal layer of the IC extending along the axis and connected to the first node plate with a via. A third node plate link formed in the first metal layer is electrically connected to and forming a portion of a second node of the capacitor and extends along a second axis (x) of the node plate array transverse to the first node plate link, proximate to an end of the first node plate link and overlying a portion of the second node plate link. | 05-27-2010 |
20110233617 | METHOD FOR FABRICATION OF A SEMICONDUCTOR DEVICE AND STRUCTURE - A method for fabrication of 3D semiconductor devices utilizing a layer transfer and steps for forming transistors on top of a pre-fabricated semiconductor device comprising transistors formed on crystallized semiconductor base layer and metal layer for the transistors interconnections and insulation layer. The advantage of this approach is reduction of the over all metal length used to interconnect the various transistors. | 09-29-2011 |
20110233676 | METHOD FOR FABRICATION OF A SEMICONDUCTOR DEVICE AND STRUCTURE - A method for fabrication of 3D semiconductor devices utilizing a layer transfer and steps for forming transistors on top of a pre-fabricated semiconductor device comprising transistors formed on crystallized semiconductor base layer and metal layer for the transistors interconnections and insulation layer. The advantage of this approach is reduction of the over all metal length used to interconnect the various transistors. | 09-29-2011 |
20120012895 | SYSTEM COMPRISING A SEMICONDUCTOR DEVICE AND STRUCTURE - A system includes a semiconductor device. The semiconductor device includes a first semiconductor layer comprising first transistors, wherein the first transistors are interconnected by at least one metal layer comprising aluminum or copper. The second mono-crystallized semiconductor layer includes second transistors and is overlaying the at least one metal layer, wherein the second mono-crystallized semiconductor layer is less than 150 nm in thickness, and at least one of the second transistors is an N-type transistor and at least one of the second transistors is a P-type transistor. | 01-19-2012 |
20120028436 | METHOD FOR FABRICATION OF A SEMICONDUCTOR DEVICE AND STRUCTURE - A method of manufacturing a semiconductor wafer, the method including: providing a base wafer including a semiconductor substrate, metal layers and first alignment marks; transferring a monocrystalline layer on top of the metal layers, wherein the monocrystalline layer includes second alignment marks; and performing a lithography using at least one of the first alignment marks and at least one of the second alignment marks. | 02-02-2012 |
20120032294 | METHOD FOR FABRICATION OF A SEMICONDUCTOR DEVICE AND STRUCTURE - A semiconductor device comprising: a first single crystal silicon layer comprising first transistors, first alignment mark, and at least one metal layer overlying said first single crystal silicon layer, wherein said at least one metal layer comprises copper or aluminum more than other materials; a second layer overlying said at least one metal layer, said second layer comprising second transistors, second alignment mark, and a through via through said second layer, wherein said through via is a part of a connection path between said first transistors and said second transistors, wherein alignment of said through via is based on said first alignment mark and said second alignment mark and effected by a distance between said first alignment mark and said second alignment mark. | 02-09-2012 |
20120107967 | METHOD FOR FABRICATION OF A SEMICONDUCTOR DEVICE AND STRUCTURE - A method of manufacturing a semiconductor wafer, the method including: providing a first monocrystalline layer including first transistors and interconnecting metal layers to perform at least one first electronic function; providing a second monocrystalline layer on top of the metal layers, wherein the second monocrystalline layer includes second transistors to perform at least one second electronic function and substituting the at least one first electronic function with the at least one second electronic function. | 05-03-2012 |
20120223738 | METHOD FOR FABRICATION OF A SEMICONDUCTOR DEVICE AND STRUCTURE - A method for fabrication of 3D semiconductor devices utilizing a layer transfer and steps for forming transistors on top of a pre-fabricated semiconductor device comprising transistors formed on crystallized semiconductor base layer and metal layer for the transistors interconnections and insulation layer. The advantage of this approach is reduction of the over all metal length used to interconnect the various transistors. | 09-06-2012 |
20120273955 | SYSTEM COMPRISING A SEMICONDUCTOR DEVICE AND STRUCTURE - A system includes a semiconductor device. The semiconductor device includes a first semiconductor layer comprising first transistors, wherein the first transistors are interconnected by at least one metal layer comprising aluminum or copper. The second mono-crystallized semiconductor layer includes second transistors and is overlaying the at least one metal layer, wherein the second mono-crystallized semiconductor layer is less than 150 nm in thickness, and at least one of the second transistors is an N-type transistor and at least one of the second transistors is a P-type transistor. | 11-01-2012 |
20150061036 | NOVEL 3D SEMICONDUCTOR DEVICE AND STRUCTURE - A semiconductor device, including: a first layer including monocrystalline material and first transistors, the first transistors overlaid by a first isolation layer; a second layer including second transistors and overlaying the first isolation layer, the second transistors including a monocrystalline material; at least one contact to the second transistors, where the at least one contact has a diameter of less than 200 nm; a first set of external connections underlying the first layer to connect the device to external devices; a second set of external connections overlying the second layer to connect the device to external devices; and an interconnection layer in-between the first layer and the second layer, where the interconnection layer includes copper or aluminum. | 03-05-2015 |