Patent application number | Description | Published |
20090060232 | Condenser microphone - A condenser microphone includes a substrate having an opening in a back cavity, a diaphragm including a center portion and a plurality of arms extended in the radial direction from the center portion, a plate positioned opposite the diaphragm, and a support structure for supporting the periphery of the diaphragm and the periphery of the plate above the substrate while insulating the diaphragm and the plate both having conductive properties from each other. The support structure forms gaps between the substrate, the diaphragm, and the plate. Projections having insulating properties are formed in the center portion and the arms of the diaphragm so as to project towards the substrate and are separated from each other in the circumferential direction of the diaphragm. This prevents the diaphragm from being unexpectedly adhered and fixed to the substrate, thus improving the sensitivity of the condenser microphone. | 03-05-2009 |
20090136064 | Vibration transducer and manufacturing method therefor - A vibration transducer is constituted of a substrate, a diaphragm having a conductive property, a plate having a conductive property, and a plurality of first spacers having pillar shapes which are formed using a deposited film having an insulating property joining the plate so as to support the plate relative to the diaphragm with a gap therebetween. It is possible to introduce a plurality of second spacers having pillar shapes support the plate relative to the substrate with a gap therebetween, and/or a plurality of third spacers having pillar shapes which support the diaphragm relative to the substrate with a gap therebetween. When the diaphragm vibrates relative to the plate, an electrostatic capacitance formed therebetween is varied so as to detect vibration with a high sensitivity. The diaphragm has a plurality of arms whose outlines are curved so that the intermediate regions thereof are reduced in width. | 05-28-2009 |
20090190782 | Vibration transducer - A vibration transducer includes a substrate, a diaphragm formed using deposited films having conductive property, which has a plurality of arms extended from the center portion in a radial direction, a plate formed using deposited films having conductive property, and a plurality of diaphragm supports formed using deposited films, which join the arms so as to support the diaphragm above the substrate with a prescribed gap therebetween. A plurality of bumps is formed in the arms of the diaphragm so as to prevent the diaphragm from being attached to the substrate or the plate. When the diaphragm vibrates relative to the plate, an electrostatic capacitance therebetween is varied so as to detect variations of pressure applied thereto. In addition, a plurality of diaphragm holes is appropriately aligned in the arms of the diaphragm so as to improve the sensitivity while avoiding the occurrence of adherence. | 07-30-2009 |
20090200620 | Mems transducer and manufacturing method therefor - An MEMS transducer is constituted of a diaphragm, a plate, a support structure for supporting the diaphragm and the plate with a gap layer surrounded by an interior wall, an electrode film (e.g. a pad conductive film) for covering a contact hole formed in the support structure, and a protective film (e.g. a pad protective film) which is formed on the support structure externally of the interior wall so as to cover the side surface of the electrode film having low chemical stability. The protective film is formed in the limited area including a part of the surface of the electrode film except for its center portion and the surrounding area of the electrode film. This allows the protective film to use materials having high membrane stress such as silicon nitride or silicon nitride oxide. | 08-13-2009 |
20120082325 | CONDENSER MICROPHONE ARRAY CHIP - A plurality of structures of condenser microphones is fabricated in a single condenser microphone array chip. The condenser microphone array chip includes a substrate having a plurality of openings serving as air cavities, a first insulating layer formed in the outer periphery of the openings, a first electrode layer stretched over each of the openings, a second insulating layer formed above the first electrode layer in the outer periphery of the openings, a second electrode layer formed above the second insulating layer relative to the first electrode layer via an air gap therebetween. The structures are connected via a plurality of bridges and separated via a plurality of channels therebetween. The channels circumvent the bridges so that at least the second insulating layer is partially removed from the channels. The bridges are formed using the second electrode layer serving as wiring for electrically connecting the structures of condenser microphones. | 04-05-2012 |