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Wirelessly Interrogated Position or Displacement Sensors (2007)

Taylor, Bryant D. ; Woodard, Stanley E.

In: CASI

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Publication Date: 2019-07-12

Description: Two simple position or displacement sensors based on inductance-capacitance resonant circuits have been conceived. These sensors are both powered and interrogated without use of wires and without making contact with other objects. Instead, excitation and interrogation are accomplished by means of a magnetic-field-response recorder. Both of the present position or displacement sensors consist essentially of variable rectangular parallel-plate capacitors electrically connected in series with fixed inductors. Simple inductance-capacitance circuits of the type used in these sensors are inherently robust; their basic mode of operation does not depend on maintenance of specific environmental conditions. Hence, these sensors can be used under such harsh conditions as cryogenic temperatures, high pressures, and radioactivity.

Keywords: Instrumentation and Photography

Type: LAR-16617-1 , NASA Tech Briefs, October 2007; 5

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Wireless Damage Location Sensing System (2012)

Taylor, Bryant Douglas ; Woodard, Stanley E.

In: CASI

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Publication Date: 2019-08-28

Description: A wireless damage location sensing system uses a geometric-patterned wireless sensor that resonates in the presence of a time-varying magnetic field to generate a harmonic response that will experience a change when the sensor experiences a change in its geometric pattern. The sensing system also includes a magnetic field response recorder for wirelessly transmitting the time-varying magnetic field and for wirelessly detecting the harmonic response. The sensing system compares the actual harmonic response to a plurality of predetermined harmonic responses. Each predetermined harmonic response is associated with a severing of the sensor at a corresponding known location thereof so that a match between the actual harmonic response and one of the predetermined harmonic responses defines the known location of the severing that is associated therewith.

Keywords: Instrumentation and Photography

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Wireless Temperature Sensing Method Using no Electrical Connections (2018)

Taylor, Bryant D. ; Wang, Chuantong ; Woodard, Stanley E.

In: CASI

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Publication Date: 2019-08-28

Description: A wireless temperature sensor includes an electrical conductor and a material spaced apart from the conductor and located within one or more of the responding electric field and responding magnetic field of the conductor. The conductor is electrically unconnected and is shaped for storage of an electric field and a magnetic field. In the presence of a time-varying magnetic field, the conductor resonates to generate harmonic electric and magnetic field responses, each of which has a frequency associated therewith. The material is selected such that it experiences changes in one of dielectric properties and magnetic permeability properties in the presence of a temperature change. Shifts from the sensor's baseline frequency response indicate that the material has experienced a temperature change.

Keywords: Instrumentation and Photography

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Wireless Fluid Level Measuring System (2007)

Taylor, Bryant D. ; Woodard, Stanley E.

In: CASI

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Publication Date: 2019-08-28

Description: A level-sensing probe positioned in a tank is divided into sections with each section including (i) a fluid-level capacitive sensor disposed along the length thereof, (ii) an inductor electrically coupled to the capacitive sensor, (iii) a sensor antenna positioned for inductive coupling to the inductor, and (iv) an electrical conductor coupled to the sensor antenna. An electrically non-conductive housing accessible from a position outside of the tank houses antennas arrayed in a pattern. Each antenna is electrically coupled to the electrical conductor from a corresponding one of the sections. A magnetic field response recorder has a measurement head with transceiving antennas arrayed therein to correspond to the pattern of the housing's antennas. When a measurement is to be taken, the measurement head is mechanically coupled to the housing so that each housing antenna is substantially aligned with a specific one of the transceiving antennas.

Keywords: Instrumentation and Photography

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Magnetic Field Response Measurement Acquisition System (2007)

Taylor, Bryant D. ; Woodward, Stanley E.

In: CASI

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Publication Date: 2019-08-13

Description: Magnetic field response sensors designed as passive inductor- capacit or circuits produce magnetic field responses whose harmonic frequenci es correspond to states of physical properties for which the sensors measure. Power to the sensing element is acquired using Faraday induc tion. A radio frequency antenna produces the time varying magnetic fi eld used for powering the sensor, as well as receiving the magnetic field response of the sensor. An interrogation architecture for disce rning changes in sensor's response frequency, resistance and amplitud e is integral to the method thus enabling a variety of measurements. Multiple sensors can be interrogated using this method, thus eliminat ing the need to have a data acquisition channel dedicated to each se nsor. The method does not require the sensors to be in proximity to a ny form of acquisition hardware. A vast array of sensors can be used as interchangeable parts in an overall sensing system.

Keywords: Instrumentation and Photography

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L-C Measurement Acquisition Method for Aerospace Systems (2003)

Woodard, Stanley E. ; Fox, Robert L. ; Taylor, B. Douglas ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This paper describes a measurement acquisition method for aerospace systems that eliminates the need for sensors to have physical connection to a power source (i.e., no lead wires) or to data acquisition equipment. Furthermore, the method does not require the sensors to be in proximity to any form of acquisition hardware. Multiple sensors can be interrogated using this method. The sensors consist of a capacitor, C(p), whose capacitance changes with changes to a physical property, p, electrically connected to an inductor, L. The method uses an antenna to broadcast electromagnetic energy that electrically excites one or more inductive-capacitive sensors via Faraday induction. This method facilitates measurements that were not previously possible because there was no practical means of providing power and data acquisition electrical connections to a sensor. Unlike traditional sensors, which measure only a single physical property, the manner in which the sensing element is interrogated simultaneously allows measurement of at least two unrelated physical properties (e.g., displacement rate and fluid level) by using each constituent of the L-C element. The key to using the method for aerospace applications is to increase the distance between the L-C elements and interrogating antenna; develop all key components to be non-obtrusive and to develop sensing elements that can easily be implemented. Techniques that have resulted in increased distance between antenna and sensor will be presented. Fluid-level measurements and pressure measurements using the acquisition method are demonstrated in the paper.

Keywords: Instrumentation and Photography

Type: AIAA Paper 2003-6842 , AIAA 3rd Annual Aviation Technology, Integration and Operations Technical Forum; Nov 17, 2003 - Nov 19, 2003; Denver, CO; United States

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Magnetic Field Response Measurement Acquisition System (2005)

Woodard, Stanley E. ; Fox, Robert L. ; Shams, Qamar A. ; [et al.]

In: CASI

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Publication Date: 2019-07-11

Description: A measurement acquisition method that alleviates many shortcomings of traditional measurement systems is presented in this paper. The shortcomings are a finite number of measurement channels, weight penalty associated with measurements, electrical arcing, wire degradations due to wear or chemical decay and the logistics needed to add new sensors. The key to this method is the use of sensors designed as passive inductor-capacitor circuits that produce magnetic field responses. The response attributes correspond to states of physical properties for which the sensors measure. A radio frequency antenna produces a time-varying magnetic field used to power the sensor and receive the magnetic field response of the sensor. An interrogation system for discerning changes in the sensor response is presented herein. Multiple sensors can be interrogated using this method. The method eliminates the need for a data acquisition channel dedicated to each sensor. Methods of developing magnetic field response sensors and the influence of key parameters on measurement acquisition are discussed.

Keywords: Instrumentation and Photography

Type: NASA/TM-2005-213518 , L-19074

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Wireless Fluid-Level Sensors for Harsh Environments (2009)

Woodward, Stanley E.

In: CASI

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Publication Date: 2019-07-12

Description: Magnetic-field-response sensors have been developed for use in measuring levels of fluids under extreme conditions. The sensors work without wire connections or direct physical contact with power sources, microprocessors, data-acquisition equipment, or electrical circuitry. For fuel-level sensors, the absence of wire connections offers an important safety advantage in elimination of potential ignition sources.

Keywords: Instrumentation and Photography

Type: LAR-17155 , NASA Tech Briefs, April 2009; 7-8

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Wirelessly Interrogated Wear or Temperature Sensors (2010)

Woodard, Stanley E. ; Taylor, Bryant D.

In: CASI

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Publication Date: 2019-07-12

Description: Sensors for monitoring surface wear and/or temperature without need for wire connections have been developed. Excitation and interrogation of these sensors are accomplished by means of a magnetic-field-response recorder. In a sensor of the present type as in the previously reported ones, the capacitance and, thus, the resonance frequency, varies as a known function of the quantity of interest that one seeks to determine. Hence, the resonance frequency is measured and used to calculate the quantity of interest.

Keywords: Instrumentation and Photography

Type: LAR-16591-1 , NASA Tech Briefs, July 2010; 5-6

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