Thalhammer, DE
Ernst Thalhammer, Bodenkirchen/aich DE
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20130108844 | VEHICLE COMPONENT FABRICATED WITH A HOT MELT ADHESIVE, AND A METHOD AND DEVICE FOR THE MANUFACTURE THEREOF | 05-02-2013 |
Franz Thalhammer, Trostberg DE
Hermann Thalhammer, Vilsbiburg DE
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20150291001 | INTERIOR PANELING PART COMPRISING A PLANAR HEATING ELEMENT AND METHOD FOR THE PRODUCTION THEREOF - In accordance with the present disclosure, there is provided a method for producing an interior trim part. The method includes introducing a planar heating element into a cavity of a mold tool. The planar heating element has a first planar side facing away from a visible side of the interior trim part and a second planar side opposite to the first planar side, the mold tool has a plurality of protrusions protruding into the cavity, and the first planar side is seated on at least a portion of the plurality of protrusions. The method further includes adding a foam material into the cavity to cover the planar heating element, such that a foam layer is formed on both the first and second planar sides. | 10-15-2015 |
Marco Thalhammer, Muenchen DE
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20120187725 | Roller Blind Arrangement, in Particular for a Vehicle, and Roof Arrangement - A roller blind arrangement, in particular for a vehicle, with a roller blind web. The roller blind web can be wound up at least at one end by a winding device to form a roller blind winding having a geometrical center axis. The roller blind web can be unwound in an unwinding direction. The winding device has a guide element arranged with respect to the geometrical center axis of the roller blind winding in a direction essentially opposite to the unwinding direction and is designed to limit a movement of the roller blind winding in the direction opposite to the unwinding direction. The invention also relates to a roof arrangement with a roof opening, a roof opening frame that bounds the roof opening, and a roller blind arrangement. The roller blind arrangement is arranged in the roof opening and is mechanically coupled to the roof opening frame. | 07-26-2012 |
Marco Thalhammer, Diessen Am Ammersee DE
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20110056632 | Roller Blind Device, Particularly for a Sliding Roof System - A roller blind device, in particular for a sliding roof system, having a roller blind web that, at least one end, can be wound by a winding device to form a roller blind winding, with the winding device comprising self-winding spiral springs that are connected to the roller blind web, with a winding shaping device being provided for shaping and/or guiding the roller blind winding, with the winding shaping device interacting with the roller blind web only in web regions of the roller blind web between the spiral springs. | 03-10-2011 |
Robert Thalhammer, Muenchen DE
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20080297279 | Coupled Resonator Filter with a Filter Section - A bulk acoustic wave (BAW) filter device includes a first port, a second port, a first coupled resonator filter stage, a second coupled resonator filter stage and a filter section. The first coupled resonator filter stage includes a first BAW resonator connected to the first port and a second BAW resonator acoustically coupled to the first BAW resonator. The second coupled resonator filter stage includes a third BAW resonator connected to the second port and a fourth BAW resonator acoustically coupled to the third BAW resonator. The filter section includes a fifth BAW resonator, the fifth BAW resonator connected between the second BAW resonator and the fourth BAW resonator. | 12-04-2008 |
20080297280 | Integrated Coupled Resonator Filter and Bulk Acoustic Wave Devices - A method for manufacturing a filter device is provided. The filter device comprises a coupled resonator at a first site, a shunt resonator at a second site and a series resonator at a third site, the coupled resonator comprising a first and a second resonator. The method comprising a step of providing a substrate with a piezoelectric layer sandwiched between a first electrode and a first part of a second electrode at the first site and the second site, the piezoelectric layer sandwiched between the first electrode and a second part of the second electrode at the third site. The method further comprising the step of forming a coupling layer on the second electrode, the step of forming a further piezoelectric layer sandwiched between a further first electrode and a further second electrode at the third site and the step of removing the coupling layer at the second and third sites. | 12-04-2008 |
20090096549 | Apparatus with acoustically coupled BAW resonators and a method for matching impedances - An apparatus includes a first bulk acoustic wave (BAW) device including a first impedance and a second BAW device including a second impedance, wherein the first and second impedances are different and the first and second BAW devices are acoustically coupled. | 04-16-2009 |
20090096550 | Bulk acoustic wave device - An apparatus includes a stacked crystal filter and a bulk acoustic wave resonator, which are acoustically coupled. | 04-16-2009 |
Robert Thalhammer, Munich DE
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20090218912 | Bulk Acoustic Wave Device with a Semiconductor Layer - A bulk acoustic wave device includes a first electrode, a second electrode, a piezoelectric layer arranged between the first and second electrodes and a semiconductor layer arranged between the first and second electrodes. The semiconductor layer is electrically isolated from the first electrode. | 09-03-2009 |
20100107389 | METHOD OF FABRICATING AN ELECTRODE FOR A BULK ACOUSTIC RESONATOR - In one embodiment, a method of producing a resonator in thin-film technology is described. The resonator comprises a piezoelectric layer arranged at least partially between a lower electrode and an upper electrode, the resonator being formed over a substrate. The method comprises: forming the lower electrode of the resonator over the substrate; depositing and patterning an insulating layer over the substrate, the insulating layer comprising a thickness substantially equal to a thickness of the lower electrode; removing a portion of the insulating layer to partially expose a surface of the lower electrode; removing a portion of the insulating layer over the surface of the lower electrode by chemical mechanical polishing; forming the piezoelectric layer over the lower electrode; and producing the upper electrode on the piezoelectric layer. | 05-06-2010 |
20100146755 | METHOD OF MANUFACTURING AN ACOUSTIC MIRROR FOR A PIEZOELECTRIC RESONATOR AND METHOD OF MANUFACTURING A PIEZOELECTRIC RESONATOR - A mirror for a piezoelectric resonator consisting of alternately arranged layers of high and low acoustic impedance is manufactured by at first producing a first layer on which a second layer is produced, so that the second layer partially covers the first layer. Then, a planarization layer is applied on the first layer and on the second layer. Subsequently, a portion of the second layer is exposed by structuring the planarization layer, wherein the portion is associated with an active region of the piezoelectric resonator. Finally, the resulting structure is planarized by removing the portions of the planarization layer remaining outside the portion. | 06-17-2010 |
20110204997 | BULK ACOUSTIC RESONATOR STRUCTURES COMPRISING A SINGLE MATERIAL ACOUSTIC COUPLING LAYER COMPRISING INHOMOGENEOUS ACOUSTIC PROPERTY - In accordance with a representative embodiment, a BAW resonator structure comprises: a first BAW resonator comprising a first lower electrode, a first upper electrode and a first piezoelectric layer disposed between the first lower electrode and the first upper electrode; and a second BAW resonator comprising a second lower electrode, a second upper electrode and a second piezoelectric layer disposed between the second lower electrode and the second upper electrode. The BAW resonator structure also comprises a single-material acoustic coupling layer disposed between the first and second BAW resonators. The single-material acoustic coupling layer comprises an inhomogeneous acoustic property across a thickness of the single-material acoustic coupling layer. | 08-25-2011 |
20150280679 | ACOUSTIC RESONATOR WITH PLANARIZATION LAYER AND METHOD OF FABRICATING THE SAME - A method is provided for fabricating a bulk acoustic wave (BAW) resonator device. The method includes forming an etch stop layer over a bottom electrode and a substrate; forming a dielectric layer on the etch stop layer; forming a photomask over the dielectric layer defining an opening over the bottom electrode; etching a portion the dielectric layer through the opening of the photomask to the etch stop layer to create a corresponding opening in the dielectric layer; removing the photomask, leaving un-etched protruding portions of the dielectric layer around the opening in the dielectric layer; and removing the protruding portions of the dielectric layer, a portion of the etch stop layer located over the bottom electrode, and a minimal portion of the bottom electrode to provide a planarized surface including a top surface of the bottom electrode and an adjacent top surface of the dielectric layer deposited over the substrate. | 10-01-2015 |
Roland Thalhammer, Munchen DE
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20090152501 | Process and device for removal of exhaust gases - The invention relates to a process as well as a device for removal of exhaust gas ( | 06-18-2009 |
20130112922 | Synthesis Gas Generation - The invention relates to a method for generating a CO and an H | 05-09-2013 |
Stefan Thalhammer, Muenchen DE
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20120171715 | SEMICONDUCTOR BIOSENSORS - The present application relates to semiconductor devices, in particular to a device for monitoring a cell signal such as an electrical signal produced by living cells in response to external stimulation, optionally in real time, comprising (a) at least one discrete area comprising a high electron mobility transistor (HEMT); and (b) non-excitable cells attached to said HEMT (HEMT element) for example, fibroblasts, HEK, CHO cell lines, keratinocytes, etc. Preferably, the HEMT is an AlGaN/GaN FET. Accordingly, the device can be applied in uses and methods for monitoring a cell signal such as an electrical signal produced by living cells in response to external stimulation, optionally in real time. Likewise, the device can be applied for screening compounds that reverse, protect from and/or shield cells from external stimuli which cause damage to cells. Also, kits comprising the device are disclosed. | 07-05-2012 |
20140112432 | X-RAY CAMERA FOR THE HIGH-RESOLUTION DETECTION OF X-RAYS - The invention relates to an X-ray camera ( | 04-24-2014 |
20150041662 | METHOD FOR DETECTING RADIATION AND EXAMINATION DEVICE FOR THE RADIATION-BASED EXAMINATION OF A SAMPLE - A method for detecting radiation during the examination of a sample ( | 02-12-2015 |
Stefan Thalhammer, Munich DE
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20130171617 | DEVICE AND METHOD FOR THE AUTOMATED ISOLATION AND TRANSFER OF AT LEAST ONE MICROSCOPIC SAMPLE FROM A SAMPLE CARRIER TO A COLLECTING SYSTEM - A device for the automated isolation and transfer of at least one microscopic sample from a sample carrier to a collecting system for subsequent automatic analysis is provided. The device comprises a selection unit for selecting at least one sample located on the sample carrier, a controllable isolation unit for the automated isolation of the at least one selected sample, a controllable transfer unit, which has carrier means for the defined receiving and deposition of the at least one selected isolated sample, for an automated and defined transfer of the at least one selected isolated sample from the sample carrier to the collecting system, and a control unit, which has a data link to the selection unit, the isolation unit and the transfer unit, for an automated isolation and transfer operation. | 07-04-2013 |
Stefan Thalhammer, Munchen DE
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20110061476 | METHOD AND DEVICE FOR TRANSFERRING A MICROSCOPIC, ISOLATED SAMPLE, MICRO-DISSECTION SYSTEM COMPRISING SUCH A DEVICE AND METHOD FOR PRODUCING A NANO-SUCTION MEANS - A method and a device for transferring a microscopic, insulated sample, particularly a membrane-supported micro-dissected specimen, from an object table to an analysis arrangement, with a suction apparatus comprising a nano-suction means with a suction tube and a terminal membrane and a vacuum/overpressure unit which can be coupled to the nano-suction means for sucking or blowing the sample onto or from the terminal membrane; and a carrier apparatus for carrying the nano-suction means, which can be moved by means of an associated positioning unit for positioning the nano-suction means exactly in a sample removal position for sucking the sample onto the terminal membrane and in a sample release position for blowing the sample from the terminal membrane. A micro-dissection system, comprising such a device and a method for the production of a nano-suction means that is used in such a device. | 03-17-2011 |
20140093038 | RADIATION DETECTOR AND MEASUREMENT DEVICE FOR DETECTING X-RAY RADIATION - The invention relates to a radiation detector ( | 04-03-2014 |