Patent application number | Description | Published |
20100050776 | PRESSURE SENSOR FEATURING OFFSET CANCELLATION AND METHOD OF MAKING - A pressure sensor includes a first set of electrodes, a second set of electrodes, and a common electrode. The first and second sets of electrodes overlie an insulative surface, wherein the first set of electrodes represent sense capacitor bottom electrodes and the second set of electrodes represent reference capacitor bottom electrodes. The second set of electrodes is configured in an interleaved arrangement with the first set of electrodes, wherein the geometry of individual electrodes of the first set of electrodes substantially matches the geometry of individual electrodes of the second set of electrodes. In addition, the common electrode represents a sense and reference capacitor top electrode that is (i) overlying, (ii) spaced from, and (iii) configured in connection with the first and second sets of electrodes to form a common pressure cavity, wherein the common electrode includes first portions corresponding to sense membrane portions and second portions corresponding to reference membrane portions, further wherein an area of a sense membrane portion is greater than an area of a reference membrane portion. | 03-04-2010 |
20130219994 | COMBINED ENVIRONMENTAL PARAMETER SENSOR - A combination sensor and corresponding method of measuring a plurality of environmental parameters uses a pressure sensor disposed on an integrated circuit die; a humidity sensor disposed on the integrated circuit die; and a circuit coupled to and shared by the pressure sensor and the humidity sensor to facilitate pressure and humidity sensing | 08-29-2013 |
20140210018 | MICROELECTROMECHANICAL SYSTEM DEVICES HAVING CRACK RESISTANT MEMBRANE STRUCTURES AND METHODS FOR THE FABRICATION THEREOF - Methods for fabricating crack resistant Microelectromechanical (MEMS) devices are provided, as are MEMS devices produced pursuant to such methods. In one embodiment, the method includes forming a sacrificial body over a substrate, producing a multi-layer membrane structure on the substrate, and removing at least a portion of the sacrificial body to form an inner cavity within the multi-layer membrane structure. The multi-layer membrane structure is produced by first forming a base membrane layer over and around the sacrificial body such that the base membrane layer has a non-planar upper surface. A predetermined thickness of the base membrane layer is then removed to impart the base membrane layer with a planar upper surface. A cap membrane layer is formed over the planar upper surface of the base membrane layer. The cap membrane layer is composed of a material having a substantially parallel grain orientation. | 07-31-2014 |
20150059484 | MICROELECTROMECHANICAL SYSTEM DEVICES HAVING CRACK RESISTANT MEMBRANE STRUCTURES AND METHODS FOR THE FABRICATION THEREOF - Methods for fabricating crack resistant Microelectromechanical (MEMS) devices are provided, as are MEMS devices produced pursuant to such methods. In one embodiment, the method includes forming a sacrificial body over a substrate, producing a multi-layer membrane structure on the substrate, and removing at least a portion of the sacrificial body to form an inner cavity within the multi-layer membrane structure. The multi-layer membrane structure is produced by first forming a base membrane layer over and around the sacrificial body such that the base membrane layer has a non-planar upper surface. A predetermined thickness of the base membrane layer is then removed to impart the base membrane layer with a planar upper surface. A cap membrane layer is formed over the planar upper surface of the base membrane layer. The cap membrane layer is composed of a material having a substantially parallel grain orientation. | 03-05-2015 |