| Patent application number | Description | Published |
|---|
| 20080283373 | Assembly of a Microswitch and of an Acoustic Resonator - The invention relates to a device consisting of an electromechanical microswitch comprising mobile beam ( | 11-20-2008 |
| 20090140384 | PROCESS FOR OBTAINING A THIN, INSULATING, SOFT MAGNETIC FILM OF HIGH MAGNETIZATION, CORRESPONDING FILM AND CORRESPONDING INTEGRATED CIRCUIT - A thin soft magnetic film combines a high magnetization with an insulating character. The film is formed by nitriding Fe-rich ferromagnetic nanograins immersed in an amorphous substrate. A selective oxidation of the amorphous substrate is then performed. The result is a thin, insulating, soft magnetic film of high magnetization. Many types of integrated circuits can be made which include a component using a membrane incorporating the above-mentioned thin film. | 06-04-2009 |
| 20090152998 | MICRORESONATOR - A microresonator comprising a single-crystal silicon resonant element and at least one activation electrode placed close to the resonant element, in which the resonant element is placed in an opening of a semiconductor layer covering a substrate, the activation electrode being formed in the semiconductor layer and being level at the opening. | 06-18-2009 |
| 20100295416 | MICRORESONATOR - A microresonator comprising a single-crystal silicon resonant element and at least one activation electrode placed close to the resonant element, in which the resonant element is placed in an opening of a semiconductor layer covering a substrate, the activation electrode being formed in the semiconductor layer and being level at the opening. | 11-25-2010 |
| Patent application number | Description | Published |
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| 20080204857 | Bragg mirror optimized for shear waves - In an embodiment, set forth by way of example and not limitation, a Bragg mirror includes a first bi-layer of a first thickness and a second bi-layer of a second thickness which is different from the first thickness. In this exemplary embodiment, the first bi-layer consists essentially of a first high impedance layer and a first low impedance layer, and the second bi-layer of a second thickness which is different from the first thickness, the second bi-layer consisting essentially of a second high impedance layer and a second low impedance layer. Preferably, the first bi-layer is configured to substantially reflect a first wavelength and the second bi-layer is configured to substantially reflect a second wavelength different from the first wavelength. | 08-28-2008 |
| 20100123948 | Bragg Mirror and Method for Making Same - In an embodiment, set forth by way of example and not limitation, a Bragg mirror includes a first bi-layer of a first thickness and a second bi-layer of a second thickness which is different from the first thickness. In this exemplary embodiment, the first bi-layer consists essentially of a first high impedance layer and a first low impedance layer, and the second bi-layer of a second thickness which is different from the first thickness, the second bi-layer consisting essentially of a second high impedance layer and a second low impedance layer. Preferably, the first bi-layer is configured to substantially reflect a first wavelength and the second bi-layer is configured to substantially reflect a second wavelength different from the first wavelength. | 05-20-2010 |
| Patent application number | Description | Published |
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| 20080252397 | BAW Resonator Filter Bandwidth and Out-of-Band Frequency Rejection - Embodiments of the present invention provide systems, devices and methods for improving both the bandwidth of a BAW resonator bandpass filter and the suppression of out-of-band frequencies above the passband. In various embodiments of the invention, blocker inductors are located in series between the filter input and the filter output to realize both bandwidth enhancement and improved out-of-band frequency rejection. For example, a first blocker inductor may be located at the input and a second blocker inductor may be located at the output of a BAW resonator bandpass filter. | 10-16-2008 |
| 20080268575 | Orientation-dependent etching of deposited AIN for structural use and sacrificial layers in MEMS - In accordance with the present invention, accurate and easily controlled sloped walls may be formed using. AlN and preferably a heated TMAH for such purpose as the fabrication of MEMS devices, wafer level packaging and fabrication of fluidic devices. Various embodiments are disclosed. | 10-30-2008 |
| 20090053401 | Piezoelectric deposition for BAW resonators - Piezoelectric deposition for BAW resonators wherein a thin amorphous layer of AlN over the bottom electrode before depositing a second layer of AlN over the amorphous layer of AlN, the depositing occurring at a temperature allowing the deposited AlN to self-organize into a desired columnar phase. The bottom electrode may have acoustic isolation thereunder, such as a Bragg mirror. Various details of the fabrication process are disclosed. | 02-26-2009 |
| 20090079302 | Methods of Contacting the Top Layer of a BAW Resonator - Methods of contacting the top layer in a BAW device by depositing a metal layer over the BAW device, patterning the metal layer so that the metal layer extends over and contacts the top electrode layer of the BAW device only at a plurality of spaced apart locations adjacent the periphery of the active resonator area, and has a common region laterally displaced from the top and bottom electrodes and electrically interconnecting the parts of the metal layer extending over and contacting the top electrode of the BAW device at the plurality of spaced apart locations. | 03-26-2009 |
| 20090302973 | Bulk Acoustic Resonators with Multi-Layer Electrodes - Bulk acoustic resonators with multi-layer electrodes for Bulk Acoustic Wave (BAW) resonator devices. Various electrode combinations are disclosed. The invention provides a better compromise at resonant frequencies from 1800 MHz to 4 GHz in terms of keff2 and resistance than state of the art solutions using either Mo, or a bilayer of Al and W. | 12-10-2009 |
| 20100005654 | Planarization Methods - Planarization methods for maintaining planar surfaces in the fabrication of such devices as BAW devices and capacitors on a planar or planarized substrate are described. In accordance with the method, a metal layer is deposited and patterned, and an oxide layer is deposited using a high density plasma chemical vapor deposition (HDP CVD) process to a thickness equal to the thickness of the metal layer. The HDP CVD process provides an oxide layer on the patterned metal tapering upward from the edge of the patterned metal layer. Then, after masking and etching the oxide layer from the patterned metal layer, the patterned metal layer and surrounding oxide layer form a substantially planar layer, interrupted by small remaining oxide protrusions at the edges of the patterned layer. These small remaining oxide protrusions may be too small to significantly disturb the flatness of a further oxide or other layer or they may be further mitigated by the application of another HDP CVD oxide film. | 01-14-2010 |
