Patent application number | Description | Published |
20080268573 | Method and system for bonding 3D semiconductor devices - A method and system and for fabricating 3D (three-dimensional) SIC (stacked integrated chip) semiconductor devices. The system includes a vacuum chamber, a vacuum-environment treatment chamber, and a bonding chamber, though in some embodiments the same physical enclosure may serve more than one of these functions. A vacuum-environment treatment source in communication with the vacuum-environment treatment chamber provides a selected one or more of a hydrogen (H | 10-30-2008 |
20090002012 | Accurate Capacitance Measurement for Ultra Large Scale Integrated Circuits - Test structures and methods for measuring contact and via parasitic capacitance in an integrated circuit are provided. The accuracy of contact and via capacitance measurements are improved by eliminating not-to-be-measured capacitance from the measurement results. The capacitance is measured on a target test structure that has to-be-measured contact or via capacitance. Measurements are then repeated on a substantially similar reference test structure that is free of to-be-measured contact or via capacitances. By using the capacitance measurements of the two test structures, the to-be-measured contact and via capacitance can be calculated. | 01-01-2009 |
20100156453 | Accurate Capacitance Measurement for Ultra Large Scale Integrated Circuits - Test structures and methods for measuring contact and via parasitic capacitance in an integrated circuit are provided. The accuracy of contact and via capacitance measurements are improved by eliminating not-to-be-measured capacitance from the measurement results. The capacitance is measured on a target test structure that has to-be-measured contact or via capacitance. Measurements are then repeated on a substantially similar reference test structure that is free of to-be-measured contact or via capacitances. By using the capacitance measurements of the two test structures, the to-be-measured contact and via capacitance can be calculated. | 06-24-2010 |
20100308469 | METHOD AND APPARATUS OF FORMING A VIA - The present disclosure provides a semiconductor device that includes, a substrate; a first conductive line located over the substrate and extending along a first axis, the first conductive line having a first length and a first width, the first length being measured along the first axis; a second conductive line located over the first conductive line and extending along a second axis different from the first axis, the second conductive line having a second length and a second width, the second length being measured along the second axis; and a via coupling the first and second conductive lines, the via having an upper surface that contacts the second conductive line and a lower surface that contacts the first conductive line. The via has an approximately straight edge at the upper surface, the straight edge extending along the second axis and being substantially aligned with the second conductive line. | 12-09-2010 |
20110068400 | Methods and Apparatus for SRAM Bit Cell with Low Standby Current, Low Supply Voltage and High Speed - Circuits and methods for providing an SRAM or CAM bit cell. In one embodiment, a bit cell portion with thicker gate oxides in the storage cell transistors, and thinner gate oxides in a read port section having transistors are disclosed. The use of the thick gate oxides in the storage cell transistors provides a stable storage of data and lower standby leakage current. The use of the thinner gate oxides in the read port transistors provides fast read accesses and allows a lower Vcc,min in the read port. The methods used to form the dual gate oxide thickness SRAM cells have process steps compatible with the existing semiconductor manufacturing processes. Embodiments using high k gate dielectrics, dual gate dielectric materials in a single bit cell, and using finFET and planar devices in a bit cell are described. Methods for forming the structures are disclosed. | 03-24-2011 |
20110140203 | NOVEL CONTACT IMPLEMENT STRUCTURE FOR HIGH DENSITY DESIGN - The present disclosure provides a device in an integrated circuit. The device includes an active region in a semiconductor substrate; an isolation region adjacent the active region; a gate disposed on the active region and extending to the isolation region in a first direction; and a gate contact disposed within the isolation region, having a portion directly overlying and contacting the gate, and having a geometry horizontally extending to a first dimension in the first direction and a second dimension in a second direction approximately perpendicular to the first direction. The first dimension is greater than the second dimension. | 06-16-2011 |
20110168995 | Accurate Capacitance Measurement for Ultra Large Scale Integrated Circuits - Test structures and methods for measuring contact and via parasitic capacitance in an integrated circuit are provided. The accuracy of contact and via capacitance measurements are improved by eliminating not-to-be-measured capacitance from the measurement results. The capacitance is measured on a target test structure that has to-be-measured contact or via capacitance. Measurements are then repeated on a substantially similar reference test structure that is free of to-be-measured contact or via capacitances. By using the capacitance measurements of the two test structures, the to-be-measured contact and via capacitance can be calculated. | 07-14-2011 |
20110291281 | PARTIAL AIR GAP FORMATION FOR PROVIDING INTERCONNECT ISOLATION IN INTEGRATED CIRCUITS - Partial air gap formation for providing interconnect isolation in integrated circuits is described. One embodiment is an integrated circuit (“IC”) structure includes a substrate having two adjacent interconnect features formed thereon; caps formed over and aligned with each of the interconnect features; sidewalls formed on opposing sides of each of the interconnect features and a gap formed between the interconnect features; and a dielectric material layer disposed over the substrate to cover the caps and the gap. | 12-01-2011 |
20120028441 | Method and System for Bonding 3D Semiconductor Device - A method and system and for fabricating 3D (three-dimensional) SIC (stacked integrated chip) semiconductor devices. The system includes a vacuum chamber, a vacuum-environment treatment chamber, and a bonding chamber, though in some embodiments the same physical enclosure may serve more than one of these functions. A vacuum-environment treatment source in communication with the vacuum-environment treatment chamber provides a selected one or more of a hydrogen (H | 02-02-2012 |
20120074498 | METHOD AND APPARATUS FOR IMPROVING GATE CONTACT - A method of fabricating a semiconductor device includes providing a substrate having a first surface, forming an isolation structure disposed partly in the substrate and having an second surface higher than the first surface by a step height, removing a portion of the isolation structure to form a recess therein having a bottom surface disposed below the first surface, and forming a contact engaging the gate structure over the recess. A different aspect involves an apparatus that includes a substrate having a first surface, an isolation structure disposed partly in the substrate and having a second surface higher than the first surface by a step height, a recess extending downwardly from the second surface, the recess having a bottom surface disposed below the first surface, a gate structure, and a contact engaging the gate structure over the recess. | 03-29-2012 |
20130328134 | Method and Apparatus for Improving Gate Contact - A method of fabricating a semiconductor device includes providing a substrate having a first surface, forming an isolation structure disposed partly in the substrate and having an second surface higher than the first surface by a step height, removing a portion of the isolation structure to form a recess therein having a bottom surface disposed below the first surface, and forming a contact engaging the gate structure over the recess. A different aspect involves an apparatus that includes a substrate having a first surface, an isolation structure disposed partly in the substrate and having a second surface higher than the first surface by a step height, a recess extending downwardly from the second surface, the recess having a bottom surface disposed below the first surface, a gate structure, and a contact engaging the gate structure over the recess. | 12-12-2013 |