Patent application number | Description | Published |
20100154519 | MICRO-ELECTRO-MECHANICAL SYSTEMS (MEMS) AND CORRESPONDING MANUFACTURING PROCESS - An embodiment of a micro-electro-mechanical system of the MEMS type comprising at least one micro-electro-mechanical device of the MEMS type and one junction with a duct suitable to being associated with an external apparatus. Said junction being a printed circuit board PCB comprising at least two layers with juxtaposed faces, a channel being present in at least one face of at least one of said at least two layers suitable for realizing the duct with the juxtaposition of the other face of at least another one of at least two layers. | 06-24-2010 |
20120249276 | INTEGRATED INDUCTOR DEVICE WITH HIGH INDUCTANCE, FOR EXAMPLE FOR USE AS AN ANTENNA IN A RADIOFREQUENCY IDENTIFICATION SYSTEM - An embodiment of integrated inductor device, comprising a plurality of modules overlaid to each other, each module including at least one coil of conducting material. The directly overlaid pairs of coils are coiled in opposite directions. The directly overlaid modules are mechanically coupled through first adhesive conductive regions and the coils of the directly overlaid modules are electrically coupled to each other through second adhesive conductive regions. The first and the second adhesive conductive regions coupling directly overlaid modules are formed in the same step of the process, are of the same material and are arranged at a same level. | 10-04-2012 |
20130105952 | SHIELDED ENCAPSULATING STRUCTURE AND MANUFACTURING METHOD THEREOF | 05-02-2013 |
20130255381 | MAGNETIC INERTIAL SENSOR AND METHOD FOR OPERATING THE SAME - An inertial sensor having a body with an excitation coil and a first sensing coil extending along a first axis. A suspended mass includes a magnetic-field concentrator, in a position corresponding to the excitation coil, and configured for displacing by inertia in a plane along the first axis. A supply and sensing circuit is electrically coupled to the excitation coil and to the first sensing coil, and is configured for generating a time-variable flow of electric current that flows in the excitation coil so as to generate a magnetic field that interacts with the magnetic-field concentrator to induce a voltage/current in the sensing coil. The integrated circuit is configured for measuring a value of the voltage/current induced in the first sensing coil so as to detect a quantity associated to the displacement of the suspended mass along the first axis. | 10-03-2013 |
20130276896 | MICRO-ELECTRO-MECHANICAL SYSTEMS (MEMS) AND CORRESPONDING MANUFACTURING PROCESS - An embodiment of a micro-electro-mechanical system of the MEMS type comprising at least one micro-electro-mechanical device of the MEMS type and one junction with a duct suitable to being associated with an external apparatus. Said junction being a printed circuit board PCB comprising at least two layers with juxtaposed faces, a channel being present in at least one face of at least one of said at least two layers suitable for realizing the duct with the juxtaposition of the other face of at least another one of at least two layers. | 10-24-2013 |
20140061892 | PACKAGED DEVICE EXPOSED TO ENVIRONMENTAL AIR AND LIQUIDS AND MANUFACTURING METHOD THEREOF - A packaged device, wherein at least one sensitive portion of a chip is enclosed in a chamber formed by a package. The package has an air-permeable area having a plurality of holes and a liquid-repellent structure so as to enable passage of air between an external environment and the chamber and block the passage of liquids. | 03-06-2014 |
20140371631 | MOBILE DEVICE FOR AN ELECTRONIC STETHOSCOPE INCLUDING AN ELECTRONIC MICROPHONE AND A UNIT FOR DETECTING THE POSITION OF THE MOBILE DEVICE - A mobile device for an electronic stethoscope, including: a microphone, which receive an acoustic signal coming from an area of the body during a detection period and generates an auscultation signal of an electrical type, as a function of the acoustic signal; a transmitter; a processing unit, which transmits the auscultation signal to an external electronic device, through the transmitter; and an electronic accelerometer, which generates an acceleration signal indicating acceleration of the mobile device. The processing unit generates, on the basis of the acceleration signal, a position signal, indicating the position of the mobile device during the detection period, and transmits the position signal to the external electronic device, through the transmitter. | 12-18-2014 |
20150217993 | SHIELDED ENCAPSULATING STRUCTURE AND MANUFACTURING METHOD THEREOF - One or more embodiments are directed to encapsulating structure comprising: a substrate having a first surface and housing at least one conductive pad, which extends facing the first surface and is configured for being electrically coupled to a conduction terminal at a reference voltage; a cover member, set at a distance from and facing the first surface of the substrate; and housing walls, which extend between the substrate and the cover member. The substrate, the cover member, and the housing walls define a cavity, which is internal to the encapsulating structure and houses the conductive pad. Moreover present inside the cavity is at least one electrically conductive structure, which extends between, and in electrical contact with, the cover member and the conductive pad for connecting the cover member electrically to the conduction terminal. | 08-06-2015 |