Patent application number | Description | Published |
20140015070 | COMPONENT HAVING A MICROMECHANICAL MICROPHONE PATTERN - A microphone component has a micromechanical microphone pattern which is implemented in a layer construction on a semiconductor substrate and includes (i) an acoustically active diaphragm which at least partially spans a sound opening on the backside of the substrate, (ii) at least one movable electrode of a microphone capacitor system, and (iii) a stationary acoustically penetrable counterelement having through holes, which counterelement is situated in the layer construction over the diaphragm and functions as the carrier for at least one immovable electrode of the microphone capacitor system. The diaphragm is tied in to the semiconductor substrate in a middle area, and the diaphragm has a corrugated sheet metal type of corrugation, at least in regions. | 01-16-2014 |
20140060146 | COMPONENT PART AND METHOD FOR TESTING SUCH A COMPONENT PART - Measures are described which simplify the functional testing of a component having an MEMS element provided with a pressure-sensitive sensor diaphragm, and which allow a self-calibration of the component even after it is already in place, i.e., following the end of the production process. The component has a housing, in which are situated at least one MEMS element having a pressure-sensitive sensor diaphragm and a switching arrangement for detecting the diaphragm deflections as measuring signals; an arrangement for analyzing the measuring signals; and an arrangement for the defined excitation of the sensor diaphragm. The housing has at least one pressure connection port. The arrangement for exciting the sensor diaphragm includes at least one selectively actuable actuator component for generating defined pressure pulses that act on the sensor diaphragm. | 03-06-2014 |
20140102196 | ACCELERATION SENSOR AND METHOD FOR PRODUCING AN ACCELERATION SENSOR - An acceleration sensor includes a circuit board with a recess that exposes a spring structure. The spring structure is formed from a material of the circuit board exposed by the recess and includes a vibrating element that is held in a resilient manner via at least one spring element. The sensor further includes a reference element connected rigidly to the circuit board and arranged at a distance from and opposite the vibrating element, an electrical circuit arranged on the vibrating element at a distance from the reference element, and at least one detection element. The circuit is configured to evaluate a signal that is configured to be influenced by a change in distance between the reference element and the at least one detection element in order to sense an acceleration of the acceleration sensor. | 04-17-2014 |
20140105428 | COMPONENT HAVING A MICROMECHANICAL MICROPHONE STRUCTURE - A capacitive MEMS microphone structure is provided, which micromechanical microphone structure of component is realized in a layer construction and includes: a diaphragm structure sensitive to sound pressure, which is deflectable in a direction perpendicular to the layer planes of the layer construction; an acoustically penetrable counter-element which has through holes and is formed above or below the diaphragm structure in the layer construction; and a capacitor system for detecting the excursions of the diaphragm structure. The diaphragm structure includes a structural element in the middle area of the diaphragm structure, which structural element projects perpendicularly from the diaphragm plane and which, depending on the degree of excursion of the diaphragm structure, variably extends into a correspondingly formed and positioned through hole in the counter-element. | 04-17-2014 |
20140124879 | Component and method for producing same - A packaging concept for MEMS components having at least one diaphragm structure formed in the front side of the component is provided, according to which the MEMS component is mounted on a support which at least laterally delimits a cavity adjoining the diaphragm structure. In addition, at least one electrical feedthrough is formed in the support which allows electrical contacting of the MEMS component through the support. To achieve the largest possible rear volume for the diaphragm structure of the MEMS component for a given chip surface area, and also to simplify the processing of the support, according to the invention the electrical feedthroughs are integrated into the wall of the cavity adjoining the diaphragm structure, in that at least one section of such a feedthrough is implemented in the form of an electrically conductive coating of a side wall section of the cavity. | 05-08-2014 |
20140183679 | ELECTRICAL CIRCUIT AND METHOD FOR PRODUCING AN ELECTRICAL CIRCUIT - An electrical circuit includes a solar cell that has a photovoltaically active front side and a back side. An electronic or micromechanical component is arranged on the back side of the solar cell and is electrically connected to the photovoltaically active front side of the solar cell by a contact-making structure. The electrical circuit also includes a transparent first protective layer that is arranged on the photovoltaically active front side of the solar cell. The contact-making structure has a first contact-making section that is arranged on a front side of the first protective layer facing away from the solar cell. | 07-03-2014 |
20140184263 | SENSOR SYSTEM AND COVER DEVICE FOR A SENSOR SYSTEM - A sensor system includes a sensor device and a cover device. The sensor device includes an external surface on which at least one electrical test contact is arranged. The cover device includes at least partially an electrically insulating material and is mechanically connected to the sensor device. The cover device is configured to cover the at least one electrical test contact of the sensor device so as to prevent contact from being made to the at least one electrical test contact from outside the sensor system. | 07-03-2014 |
20140203254 | Organic Electronic Component - The invention relates to an organic electron component having a first electrode, a second electrode, a channel layer comprising an organic semiconducting material and a dopant material. | 07-24-2014 |
20150059482 | MEMS COMPONENT - A new signal acquisition concept is provided for MEMS components having a pressure-sensitive diaphragm element, which at least partially spans a pressure connection opening. This signal acquisition concept is distinguished by an especially high sensitivity. For this purpose, the MEMS component includes a resonant vibrator device having a vibrating element, which is suspended, capable of vibrating, within a closed cavity and is equipped with at least one drive electrode and at least one sensing electrode. The vibrating element of the resonant vibrator device is coupled mechanically to the diaphragm element, so that the vibrating element is deformed in the case of a diaphragm deflection. | 03-05-2015 |