Surface Acoustical Wave Patents (Class 73/514.28)
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Patent number: 8860553Abstract: An autonomous, self-powered device includes a radioisotope-powered current impulse generator including a spring assembly comprising a cantilever, and a piezoelectric-surface acoustic wave (P-SAW) structure connected in parallel to the current impulse generator. Positive charges are accumulated on an electrically isolated 63Ni thin film due to the continuous emission of ?-particles (electrons), which are collected on the cantilever. The accumulated charge eventually pulls the cantilever into the radioisotope thin-film until electrical discharge occurs. The electrical discharge generates a transient magnetic and electrical field that can excite the RF modes of a cavity in which the electrical discharge occurs. A piezoelectric-SAW resonator is connected to the discharge assembly to control the RF frequency output.Type: GrantFiled: November 10, 2009Date of Patent: October 14, 2014Assignee: Cornell UniversityInventors: Amit Lal, Steven Tin
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Publication number: 20130160547Abstract: An acoustic sensor includes a back plate; at least one back plate electrode coupled to the back plate; a proof of mass with the proof of mass elastically coupled to the back plate; and a proof of mass electrode coupled to the proof of mass. Movement of the sensor causes a capacitance between the proof of mass electrode and the at least one back plate electrode to vary and the capacitance represents a magnitude of the movement of the sensor.Type: ApplicationFiled: December 5, 2012Publication date: June 27, 2013Applicant: KNOWLES ELECTRONICS, LLCInventor: KNOWLES ELECTRONICS, LLC
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Patent number: 8434364Abstract: A MEMS detection structure is provided with: a substrate having a top surface, on which a first fixed-electrode arrangement is set; a sensing mass, extending in a plane and suspended above the substrate and above the first fixed-electrode arrangement at a separation distance; and connection elastic elements that support the sensing mass so that it is free to rotate out of the plane about an axis of rotation, modifying the separation distance, as a function of a quantity to be detected along an axis orthogonal to the plane. The MEMS detection structure also includes: a coupling mass, suspended above the substrate and connected to the sensing mass via the connection elastic elements; and an anchoring arrangement, which anchors the coupling mass to the substrate with a first point of constraint, set at a distance from the axis of rotation and in a position corresponding to the first fixed-electrode arrangement.Type: GrantFiled: July 29, 2010Date of Patent: May 7, 2013Assignee: STMicroelectronics S.r.l.Inventors: Gabriele Cazzaniga, Luca Coronato, Barbara Simoni
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Patent number: 8317392Abstract: A SAW-based micro-sensor apparatus for simultaneously monitoring acceleration/vibration and temperature utilizing a sensing element configured as a SAW device (e.g., SAW resonator or SAW delay line). The SAW device can be located in different locations on a substrate with respect to a thin piezoelectric diaphragm comprising an inertial mass. The temperature-compensated acceleration/vibration can be measured utilizing a frequency difference between an acceleration sensitive SAW resonator (e.g., SAW-g) and a temperature sensitive SAW resonator (e.g., SAW-T). The temperature can be measured utilizing a frequency shift provided by the SAW-T and a temperature reference SAW resonator (e.g., SAW-R). Similarly, the phase response of different reflectors of the SAW delay line can be utilized to differentially measure the acceleration/vibration and temperature.Type: GrantFiled: January 13, 2009Date of Patent: November 27, 2012Assignee: Honeywell International Inc.Inventors: Cornel Cobianu, Ioan Pavelescu, Mihal Gologanu
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Patent number: 7880594Abstract: Vehicle including a switch assembly includes a vehicular component subject to control by an occupant in the passenger compartment, and a switch assembly for controlling the component based on pressure applied by the occupant of the vehicle to an exposed surface of the vehicle. The switch assembly includes at least one wireless transmission component arranged to wirelessly transmit an indication of the application of pressure to the exposed surface, and a control mechanism for controlling the wireless transmission by the wireless transmission component(s) based on the application of pressure to the exposed surface. The control mechanism may be a switch or a variable impedance which react to the application of pressure to the exposed surface.Type: GrantFiled: July 3, 2006Date of Patent: February 1, 2011Assignee: Automotive Technologies International, Inc.Inventors: David S. Breed, Wendell C. Johnson, Wilbur E. DuVall
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Publication number: 20100281979Abstract: Low cost miniature vector sensors are provided. An acoustic vector sensor is provided that comprises at least one accelerometer to measure at least one component of acoustic particle acceleration, wherein the at least one accelerometer has a resonant frequency within a measurement band of the acoustic vector sensor. In addition, a method is disclosed for measuring an acoustic signal. The method comprises the steps of configuring an array of acoustic vector sensors comprised of at least one accelerometer to measure at least one component of acoustic particle acceleration; operating the at least one accelerometer at a resonant frequency within a measurement band of the acoustic vector sensor; and generating a voltage using one or more of the acoustic vector sensors representative of the acoustic signal as the acoustic signal propagates past the array. The voltage optionally indicates a bearing of the acoustic signal.Type: ApplicationFiled: May 7, 2009Publication date: November 11, 2010Applicant: Applied Physical Sciences Corp.Inventors: James A. McConnell, Bruce M. Abraham, Scott C. Jensen, Edward P. April, Jason P. Rudzinsky
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Patent number: 7434989Abstract: A temperature measurement system is characterized by at least one passive surface acoustic wave (SAW) temperature sensor. The sensor includes at least one piezoelectric substrate having an interdigital SAW transducer disposed upon the piezoelectric substrate for conversion of an RF signal into an acoustic wave and vice versa. At least three additional SAW elements are also disposed on the substrates in a manner such that they define two acoustic propagation paths that are non-parallel relative to the crystal axes of the substrates, and such that the temperature coefficients of delay in the two tracks differ. The SAW elements receive a signal from the SAW transducer and produce response signals. The response signals combine to produce a signal with a power spectral density such that the integrated power within each of two specified portions of the spectrum provides an indicator of the temperature.Type: GrantFiled: September 7, 2006Date of Patent: October 14, 2008Assignee: Applied Sensor Research & Development CorporationInventor: Leland P. Solie
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Patent number: 7380454Abstract: Methods and systems for forming accelerometers include forming a load beam supported at one end having an input interdigital transducer (IDT) and an output IDT. The load-beam has a cross section varying in the longitudinal direction effective to cause the load beam to deflect radially in response to an applied load. The cross section varies in width, height, or both.Type: GrantFiled: December 20, 2005Date of Patent: June 3, 2008Assignee: Honeywell International Inc.Inventors: Paul W. Dwyer, Stephen F. Becka
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Patent number: 7243544Abstract: An acoustic wave acceleration sensor comprises an acoustic wave device including a plate that functions as a propagation medium and at least one interdigital transducer configured upon the plate. One or more antennas can be integrated with the acoustic wave device, wherein the antenna(s) communicates with interdigital transducers. Such antennas can receive wireless interrogation signals and transmit signals indicative of acceleration data.Type: GrantFiled: June 16, 2005Date of Patent: July 17, 2007Assignee: Honeywell International Inc.Inventors: James Z T Liu, Aziz Rahman
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Patent number: 6948371Abstract: An FPC is constructed of two FPC branches, and a connection line that connects to a controller. Printed wiring of the connection line includes ten printed wires. The central four printed wires are signal reception wires, which are connected to two converters (sensors). Grounding wires are provided on both sides of the four signal reception wires. Two outer signal wires are provided adjacent to the grounding wires, respectively toward the outsides thereof. Further, two more grounding wires are provided adjacent to the outer signal wires, respectively on the outsides thereof. This construction results in shielding of all of the signal wires. This relationship is maintained in the FPC branches as well.Type: GrantFiled: November 12, 2003Date of Patent: September 27, 2005Assignee: ELO Touchsystems, Inc.Inventors: Yoshikazu Tanaka, Daniel Scharff, Christopher Dews
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Patent number: 6803698Abstract: An acceleration sensor including a bimorph type acceleration detection element including a pair of surface acoustic wave resonators laminated to each other with the back surface of one resonator bonded to the back surface the other resonator. Each resonator includes a piezoelectric substrate and a pair of IDT electrodes which are arranged on the front surface of the piezoelectric substrate. The acceleration detection element is supported at the end thereof so that the acceleration detection element is deflected in the direction of thickness under acceleration. Acceleration is detected by detecting a difference between frequency changes of the two surface acoustic wave resonators or a difference between impedance changes of the two surface acoustic wave resonators, which takes place under acceleration.Type: GrantFiled: October 9, 2001Date of Patent: October 12, 2004Assignee: Murata Manufacturing Co., LTDInventor: Jun Tabota
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Patent number: 6553836Abstract: A monolithic low cost, high frequency surface acoustic wave (SAW) accelerometer is provided that is operable in high impact and vibration applications.Type: GrantFiled: July 9, 2001Date of Patent: April 29, 2003Inventor: John T. Williams
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Publication number: 20020083770Abstract: A support for supporting two or more units used in a system for measuring a speed and or acceleration of a vehicle, with the support able to rest on a surface, has an elongated bar on which the units are mounted. A first leg and a second leg are both mounted to the bar. A third leg is mounted to a rear portion of the bar. The legs are height-adjustable.Type: ApplicationFiled: May 2, 2001Publication date: July 4, 2002Inventors: Craig S. Rendahl, John DiDomenico, Paul F. Kyle, George T. Hovancik
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Publication number: 20020014119Abstract: A monolithic low cost, high frequency surface acoustic wave (SAW) accelerometer is provided that is operable in high impact and vibration applications.Type: ApplicationFiled: July 9, 2001Publication date: February 7, 2002Inventor: John T. Williams
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Patent number: 6237417Abstract: Apparatus for measuring the value of a physical quantity which affects the impedance of an electrically resonant structure, the apparatus comprising an electrically resonant structure, an RF electrical energy source, a bidirectional RF transmission line connecting the source to the structure, the directional coupler detecting the voltage or phase of a reflected signal returned from the resonant structure characterised in that the resonant structure is substantially non energy radiating and, at a given frequency of the source, has an impedance which varies continuously as a function of the value of the physical quantity. Typically the electrically resonant structure is at least partially composed of piezoelectric material.Type: GrantFiled: July 29, 1999Date of Patent: May 29, 2001Inventors: Anthony Lonsdale, Bryan Lonsdale