Patent application number | Description | Published |
20100032789 | PASSIVE TEMPERATURE COMPENSATION OF SILICON MEMS DEVICES - The invention relates to MEMS devices. In one embodiment, a micro-electromechanical system (MEMS) device comprises a resonator element comprising a semiconducting material, and at least one trench formed in the resonator element and filled with a material comprising oxide. Further embodiments comprise additional devices, systems and methods. | 02-11-2010 |
20100176897 | MEMS RESONATOR DEVICES - The invention relates to MEMS devices. In one embodiment, a micro-electromechanical system (MEMS) device comprises a resonator element having a circumference, an anchor region, and a plurality of beam elements coupling the anchor region and the resonator element. Further embodiments comprise additional devices, systems and methods. | 07-15-2010 |
20100301967 | MEMS Device - System and method for a microelectromechanical system (MEMS) is disclosed. A preferred embodiment comprises a first anchor region, a vibrating MEMS structure fixed to the first anchor region, a first electrode adjacent the vibrating MEMS structure, a second electrode adjacent the vibrating MEMS structure wherein the vibrating MEMS structure is arranged between the first and the second electrode. | 12-02-2010 |
20120013412 | MEMS RESONATOR DEVICES - Embodiments are related to micro-electromechanical system (MEMS) devices, systems and methods. In one embodiment, a MEMS resonating device comprises a resonator element configured to provide timing; and at least one passive temperature compensation structure arranged on the resonator element. | 01-19-2012 |
20120105173 | MEMS Device - System and method for a microelectromechanical system (MEMS) is disclosed. A preferred embodiment comprises a first anchor region, a vibrating MEMS structure fixed to the first anchor region, a first electrode adjacent the vibrating MEMS structure, a second electrode adjacent the vibrating MEMS structure wherein the vibrating MEMS structure is arranged between the first and the second electrode. | 05-03-2012 |
20120248554 | Micromechanical Sound Transducer Having a Membrane Support with Tapered Surface - A method for manufacturing a micromechanical sound transducer includes depositing successive layers of first and second membrane support material on a first main surface of a substrate arrangement with a first etching rate and a lower second etching rate, respectively. A layer of membrane material is then deposited. A cavity is created in the substrate arrangement from a side of the substrate arrangement opposite to the membrane support materials and the membrane material at least until the cavity extends to the layer of first membrane support material. The layers of first and second membrane support material are etched by applying an etching agent through the cavity in at least one first region located in an extension of the cavity also in a second region surrounding the first region. The etching creates a tapered surface on the layer of second membrane support material in the second region. The etching continues at least until the layer of second membrane support material has been removed in the first region to expose the layer of membrane material. | 10-04-2012 |
20130089224 | ELECTROSTATIC LOUDSPEAKER WITH MEMBRANE PERFORMING OUT-OF-PLANE DISPLACEMENT - An electrostatic loudspeaker comprises a membrane structure and an electrode structure. The membrane structure comprises a central membrane portion and a circumferential membrane portion. The electrode structure is configured to electrostatically interact with the membrane structure for causing a movement of the membrane structure along an axis of movement. The electrode structure comprises a circumferential electrode portion and an opening, the circumferential electrode portion being substantially aligned to the circumferential membrane portion and the opening being substantially aligned to the central membrane portion with respect to a direction parallel to the axis of movement. In an end position of the movement of the membrane structure, the central membrane portion is configured to extend at least partially through the opening. A method for operating an electrostatic loudspeaker and a method for manufacturing an electrostatic loudspeaker are also described. | 04-11-2013 |
20130293319 | MEMS RESONATOR DEVICES - Embodiments are related to micro-electromechanical system (MEMS) devices, systems and methods. In one embodiment, a MEMS resonating device comprises a resonator element configured to provide timing; and at least one passive temperature compensation structure arranged on the resonator element. | 11-07-2013 |
20150021722 | MEMS Device - A MEMS device includes a membrane comprising a first plurality of fingers. A counter electrode arrangement includes a second plurality of fingers disposed in a interdigitated relationship with the first plurality of fingers of the membrane. A deflector is configured to deflect the membrane such that the first and second plurality of fingers are displaced in a position excluding maximum overlapping of surfaces of the fingers. | 01-22-2015 |