Patent application number | Description | Published |
20090007687 | Strain Gauge with Moisture Barrier - A device for mounting on a structure surface includes a component, a circuit, a moisture barrier, and a protective cover. The moisture barrier is within the protective cover. The component and the circuit are within the moisture barrier. The component is for bonding to the structure surface with a bond susceptible to damage from moisture. The circuit includes a radio frequency transmitter. The circuit is for providing data derived from the component to the radio frequency transmitter for external transmission. | 01-08-2009 |
20090059206 | Optical Linear and Rotation Displacement Sensor - A system includes a measuring tool, a fixture, and a rotatable target. The measuring tool includes a light source, an imaging device, and an electronic circuit. The fixture allows the rotatable target to rotate about an axis. The rotatable target includes a surface having microscopic asperities. The imaging device is mounted to provide a sequence of images derived from said microscopic asperities. The electronic circuit is connected to the imaging device for measuring rotation of the rotatable target from the sequence of images. | 03-05-2009 |
20090112523 | Data Collection and Storage Device - A data collection apparatus includes a network of sensing units for sensing a parameter. Each sensing unit of the network of sensing units includes a sensor, a first data storage device, a first receiving device, and a first transmitting device. The first data storage device is for storing data from the sensor. The first transmitting device is for transmitting data derived from the sensor. The apparatus also includes a single control unit. The single control unit includes a second receiving device, a second transmitting device, and a second data storage device. The second receiving device is for receiving data transmitted from the network of sensing units. The second data storage device is for storing the data received from the network of sensing units. The sensing units of the network of sensing units are each configured so a real time signal triggers a change in at least one from the group consisting of: (a) sensor data handling, (b) sensor data collection, (c) sensor data storage in the sensing unit, and (d) sensor data transmission to the single control unit. | 04-30-2009 |
20090210173 | Independently Calibrated Wireless Structural Load Sensor - A device includes a removable load element. The removable load element includes a pin portion and a housing portion. The pin portion extends from the housing portion. The pin portion includes a sensor. The housing portion includes an electronic circuit connected to the sensor. | 08-20-2009 |
20090322557 | MINIATURE STIMULATING AND SENSING SYSTEM - An electronic system for testing a material includes at least one module for mechanically mounting on the material. The module includes a signal generator for generating a signal generator signal. The module also includes a stimulus signal delivering device (SSDD) and an SSDD circuit for providing a device signal derived from said signal generator signal to the material. The module also includes a sensor and a sensor circuit for receiving an interaction signal derived from interaction of the device signal with the material. | 12-31-2009 |
20100049075 | Method and apparatus for monitoring eye tremor - An apparatus consistent with the present invention comprises a sensor for receiving a signal representing eye tremor and a processor for monitoring eye tremor while receiving the signal. A method consistent with the present invention includes receiving a signal representing eye tremor, comparing the received signal representing eye tremor to at least one reference value, and classifying a patient's brain stem function using the comparison of the received signal representing eye tremor to at least one reference value. An embodiment consistent with the present invention includes an ocular micro tremor (OMT) sensor and associated signal processing hardware and software for clinical analyses. | 02-25-2010 |
20100141096 | Piezoelectric Composite Beam with Automatically Adjustable Natural Frequency - An energy harvesting system includes a composite structure that has a first spring, a piezoelectric structure, and a proof mass. The piezoelectric structure and the proof mass are mounted on the first spring. The composite structure has a natural frequency of vibration. The natural frequency of vibration of the composite structure is automatically adjustable. | 06-10-2010 |
20100164711 | Energy Harvesting, Wireless Structural Health Monitoring System with Time Keeper and Energy Storage Devices - A system comprises a sensing node that includes a sensor, a processor, an energy harvesting circuit, a time keeper, a first energy storage device, and a second energy storage device. The energy harvesting circuit is connected for recharging the first energy storage device. The processor is connected for receiving all its power derived from the energy harvesting circuit. The second energy storage device is connected for powering the time keeper. | 07-01-2010 |
20100165593 | Apparatus to Receive Electromagnetic Radiation that Penetrates a Housing Formed of a Conductive Material - An apparatus includes a hermetically sealed housing formed of conductive material. The hermetically sealed housing contains a circuit that includes a power supply and a power using element. The power supply has a power receiving element within the hermetically sealed housing for receiving electromagnetic radiation having a frequency low enough to penetrate through the conductive material. The power supply is connected to provide electrical energy derived from the electromagnetic radiation for powering the power using element. | 07-01-2010 |
20100194240 | Piezoelectric Composite with Tapered Beam - An energy harvesting system includes a composite structure that includes a base spring and a first piezoelectric element. The first piezoelectric element is mounted on the base spring. The base spring has a base spring thickness, a base spring length, and a base spring width. The base spring is for vibrating around an axis parallel to the base spring width. The base spring thickness varies from position to position along a direction parallel to the base spring length. The base spring thickness varies to provide the first piezoelectric element with constant strain when the base spring vibrates around the axis parallel to the base spring width. | 08-05-2010 |
20100300210 | Cover for Protecting Component from Shear Force - A system includes a structure and a component. The component including an energy providing device and a protective cover. The structure has a structure surface. The protective cover has a protective cover attachment surface mounted on the structure surface. The energy providing device is located within the protective cover. The protective cover has a protective cover outer surface. The protective cover outer surface is oriented to face a first direction from which an impact load may strike the protective cover outer surface and shear the protective cover from the structure surface. The protective cover outer surface has an outer surface shape facing the first direction. At least a portion of an impact load striking any region of the protective cover outer surface facing the first direction is transferred by the outer surface shape into a compression load. | 12-02-2010 |
20100308794 | Scheme for low power strain measurement - A method of determining a parameter includes providing a sensor that provides a sensor analog voltage. The method also includes providing a peak detecting circuit for detecting a peak voltage in the sensor analog voltage. The method also includes providing the sensor analog voltage to the peak detecting circuit and detecting the peak voltage. The method also includes recording the peak voltage. | 12-09-2010 |
20110060535 | Method of Operating a Rotatable Part - One embodiment of the present patent application is a method of operating a rotatable part. The method includes providing a system including a rotatable part, a magnet, an emf generating circuit, a processor, and a transmitter. The magnet and the emf generating circuit are mounted for relative rotational motion there between while the rotatable part is rotating. The processor is connected to receive a signal derived from the emf generating circuit and provide data for transmission by the transmitter. The method further includes rotating the rotatable part and generating an emf in the emf generating circuit while the rotatable part rotates. The method also includes using a signal derived from the emf to acquire data indicating a change in a mechanical property of the rotatable part while the rotatable part is rotating in which the data indicating a change in the mechanical property indicates a condition for maintenance The method further includes transmitting information related to the data with the transmitter and providing maintenance to the system based on the information. | 03-10-2011 |
20110113892 | Strain Sensor Mounted with light Curable Adhesive - A device includes a structure, a strain sensor and a light curable adhesive. The structure has a structure surface. The light curable adhesive bonds the strain sensor to the structure surface. | 05-19-2011 |
20110113893 | Component and Circuit with Moisture Barrier, Transmitter, and Protective Cover - A device for mounting on a structure surface includes a component, a circuit, a moisture barrier, and a protective cover. The moisture barrier is within the protective cover. The component and the circuit are within the moisture barrier. The component is for bonding to the structure surface with a bond susceptible to damage from moisture. The circuit includes a radio frequency transmitter. The circuit is for providing data derived from the component to the radio frequency transmitter for external transmission. | 05-19-2011 |
20110156532 | Integrated Piezoelectric Composite and Support Circuit - A module includes a flexible support member, a first piezoelectric element, a second piezoelectric element, an energy harvesting circuit, and a circuit element. The energy harvesting circuit includes a first rectifying device, a second rectifying device, a common output, and an energy storage device. The flexible support member includes an insulator having a pattern of wiring traces. The first piezoelectric element, the second piezoelectric element, the first rectifying device, and the second rectifying device are all mounted on and electrically connected to the flexible support member. The first rectifying device is electrically connected to the first piezoelectric element. The second rectifying device is electrically connected to the second piezoelectric element. The first rectifying device is electrically connected to the second rectifying device to provide the common output. The common output is connected for providing electrical energy harvested from at least one from the group consisting of the first piezoelectric element and the second piezoelectric element to the energy storage device. The energy storage device is connected for providing electricity for powering the circuit element. | 06-30-2011 |
20110158806 | Wind Turbines and Other Rotating Structures with Instrumented Load-Sensor Bolts or Instrumented Load-Sensor Blades - A turbine includes a turbine blade, a plurality of sensors, a wireless sensor module, a data aggregator, and a blade pitch control unit. The plurality of sensors are distributed in a plurality of locations on the turbine blade suitable for determining a moment of the turbine blade. The sensor module is configured to transmit data to the data aggregator to determine the moment. The data aggregator is configured to provide an output to the blade pitch control unit. The blade pitch control unit is configured to adjust pitch of the turbine blade based on the moment. | 06-30-2011 |
20110221569 | Remotely Powered and Remotely Interrogated Wireless Digital Sensor Telemetry System with a Plurality of Transponders Connected to a Single Receiver Coil or Antenna - An electronic system includes a reader and a remotely powered and remotely interrogated transponder. The transponder includes a plurality of transponders connected to a single radiation receiving device. Each of the transponders receives power derived from radiation from the reader. Each of the transponders has an address. Each of the transponders has a system to transmit data so as to avoid collisions. | 09-15-2011 |
20110248825 | Remotely Powered and Remotely Interrogated Wireless Digital Sensor Telemetry System to Detect Corrosion - A corrosion sensing system includes a reader, a radiation receiving device, a sensing transponder, and a member. The sensing transponder includes a communications device, a processor, and a sensor. The member is subject to corrosion. The sensor is located to detect corrosion of the member. The communications device is connected for transmitting sensor data. The transponder is powered by electricity derived from electromagnetic radiation transmitted by the reader that is received by the radiation receiving device. | 10-13-2011 |
20110285527 | Wireless Structural Health Monitoring System with Synchronized Timekeeper - A method of obtaining data about a structure includes providing a plurality of sensor modules on the structure. Each of the sensor modules includes a sensor, a processor, a sensor module precision timekeeper, and a sensor module transceiver. One of the plurality of sensor modules includes an energy harvesting device. The processor and the sensor module transceiver of this one of the plurality of sensor modules are powered solely with electricity derived from the energy harvesting device. The method further includes providing a base station. The method further includes periodically wirelessly receiving a broadcast resynchronization timing packet with each of the sensor module transceivers, wherein the broadcast resynchronization timing packet received by each of the sensor module transceivers includes a common resynchronization time value. The method further includes periodically resynchronizing each of the sensor module precision timekeepers based on a signal derived from the resynchronization time value. The method further includes digital sampling of the sensor module sensor in each of the sensor modules to provide digital sensor data, and providing a time stamp to the digital sensor data wherein time in the time stamp is provided by the sensor module precision timekeeper. The method further includes wirelessly transmitting data from each of the plurality of sensor modules to the base station, wherein the data is derived from the time stamped digital sensor data. The method further includes receiving and aggregating the data from each of the plurality of sensor modules in the base station. | 11-24-2011 |
20120010536 | METHOD AND APPARATUS FOR MONITORING EYE TREMOR - An apparatus consistent with the present invention comprises a sensor for receiving a signal representing eye tremor and a processor for monitoring eye tremor while receiving the signal. A method consistent with the present invention includes receiving a signal representing eye tremor, comparing the received signal representing eye tremor to at least one reference value, and classifying a patient's brain stem function using the comparison of the received signal representing eye tremor to at least one reference value. An embodiment consistent with the present invention includes an ocular micro tremor (OMT) sensor and associated signal processing hardware and software for clinical analyses | 01-12-2012 |
20120185192 | Scheme for low power measurement - A method of determining a parameter includes providing a sensor that provides a sensor analog voltage. A peak detecting circuit for detecting a peak voltage in the sensor analog voltage is also provided. The sensor analog voltage is provided to the peak detecting circuit, and the peak voltage is detected. A microprocessor is provided in sleep mode and is awakened once the circuit detects the peak voltage. The microprocessor samples and records the peak voltage and the microprocessor goes back to sleep. | 07-19-2012 |
20140180161 | Method and Apparatus for Monitoring Eye Tremor - An apparatus consistent with the present invention comprises a sensor for receiving a signal representing eye tremor and a processor for monitoring eye tremor while receiving the signal. A method consistent with the present invention includes receiving a signal representing eye tremor, comparing the received signal representing eye tremor to at least one reference value; and classifying a patient's brain stem function using the comparison of the received signal representing eye tremor to at least one reference value. An embodiment consistent with the present invention includes an ocular micro tremor (OMT) sensor and associated signal processing hardware and software for clinical analyses. | 06-26-2014 |