Patents by Inventor Kenneth A. Wickersheim
Kenneth A. Wickersheim has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 5304809Abstract: A video camera of a type using an array of charge coupled devices (CCDs) is utilized to measure a condition, such as temperature, by imaging onto the camera a luminescent signal which contains information of the signal's decay time. The luminescent decay time is measured by comparing, such as by ratioing, the integrated signal values obtained in successive frames of operation of the CCD. One application includes use to measure a two-dimensional temperature distribution across a surface. The surface of interest is either coated with a layer of the luminescent material or emissions from the surface are imaged onto a separate luminescent screen. Another application is as a multiplexer and detector system for a large array of optical fiber sensors, a luminescent signal from each of the sensors being imaged through its respective fiber onto a unique one or more of CCD photosites.Type: GrantFiled: September 15, 1992Date of Patent: April 19, 1994Assignee: Luxtron CorporationInventor: Kenneth A. Wickersheim
-
Patent number: 5183338Abstract: High temperature range black body techniques are combined with lower temperature range photoluminescent techniques to provide an optical method and apparatus for measuring temperature over a very wide range. Among the various optical probe configurations disclosed which combine the black body and photoluminescent technologies is an optical temperature measuring probe including an elongated transparent light pipe with a black body cavity and a photoluminescent material adjacent one end of the light pipe. Signal detection and processing can be combined, and temperature measurements made by the photoluminescent technique within an overlap of the two temperature ranges can be used to calibrate measurements made in the higher range by the black body technique.Type: GrantFiled: December 13, 1991Date of Patent: February 2, 1993Assignee: Luxtron CorporationInventors: Kenneth A. Wickersheim, Bruce E. Adams
-
Patent number: 5112137Abstract: High temperature range black body techniques are combined with lower temperature range photoluminescent techniques to provide an optical method and apparatus for measuring temperature over a very wide range. Various optical probe configurations are disclosed which combine the black body and photoluminescent technologies. Signal detection and processing can be combined, and temperature measurements made by the photoluminescent technique within an overlap of the two temperature ranges can be used to calibrate measurements made in the higher range by the black body technique.Type: GrantFiled: April 10, 1991Date of Patent: May 12, 1992Assignee: Luxtron CorporationInventors: Kenneth A. Wickersheim, Bruce E. Adams
-
Patent number: 5109595Abstract: Fiberoptic sensors of various configurations are provided for measuring the magnitude of the electric or magnetic fields, and thereby the power, at local points within a relatively high-power electromagnetic heating environment such as occurs, for example, in a microwave oven or an industrial microwave processing chamber. Each type of sensor includes one element that is heated by either the oscillating electric or magnetic field, and an optical temperature measuring element positioned to be heated by the first element, its temperature being optically determined by an instrument to which an opposite end of the optical fiber length is connected.Type: GrantFiled: April 1, 1991Date of Patent: May 5, 1992Assignee: Luxtron CorporationInventors: Kenneth A. Wickersheim, Mei H. Sun, James H. Kim
-
Patent number: 5110216Abstract: Fiberoptic sensors of various configurations are provided for measuring the magnitude of the electric or magnetic fields, and thereby the power, at local points within a relatively high-power electromagnetic heating environment such as occurs, for example, in a microwave oven or an industrial microwave processing chamber. Each type of sensor includes one element that is heated by either the oscillating electric or magnetic field, and an optical temperature measuring element positioned to be heated by the first element, its temperature being optically determined by an instrument to which an opposite end of the optical fiber length is connected.Type: GrantFiled: January 30, 1990Date of Patent: May 5, 1992Assignee: Luxtron CorporationInventors: Kenneth A. Wickersheim, Mei H. Sun, James H. Kim
-
Patent number: 4988212Abstract: Several specific types of optical sensors capable of measuring temperature, pressure, force, acceleration, radiation and electrical fields, fluid level, vapor pressure, and the like, are disclosed, along with an electro-optical system for detecting the optical signal developed by the sensor. One such probe utilizes a convex shaped structure consisting of an elastomeric material attached to an end of an optical fiber, the elastomeric material being coated with a luminescent material, a combination that is capable of measuring both temperature and pressure. Such a probe is also specifically adapted for measuring surface temperature by making a good physical contact with the surface being measured. Another such probe utilizes a similar structure but of a non-elastomeric material for the purpose of detecting both temperature and either index of refraction or vapor pressure changes.Type: GrantFiled: August 22, 1989Date of Patent: January 29, 1991Assignee: Luxtron CorporationInventors: Mei H. Sun, Kenneth A. Wickersheim, Stanley O. Heinemann
-
Patent number: 4986671Abstract: A single sensor is provided as part of a fiberoptic probe to measure up to three parameters, namely pressure (or force or displacement), temperature, and heat flow or fluid velocity. A solid elastomeric optical element is formed at the end of optical fiber transmission medium, and adjacent light reflective and temperature dependent materials are formed on the resulting convex surface of the optical element. The amount of light reflected is proportional to the force or pressure against the element. The temperature dependent material is preferably a luminescent material. Over the luminescent material is formed a layer of material that is absorptive of infrared radiation, thereby allowing a determination of characteristics of heat or fluid flow by measuring the rate at which heat is carried away from the infrared heated layer. The sensor can be formed at the end of a single optical fiber, thereby having extensive applications where a very small sensor is required.Type: GrantFiled: April 12, 1989Date of Patent: January 22, 1991Assignee: Luxtron CorporationInventors: Mei H. Sun, Kenneth A. Wickersheim
-
Patent number: 4883354Abstract: Several specific types of optical sensors capable of measuring temperature, pressure, force, acceleration, radiation and electrical fields, fluid level, vapor pressure, and the like, are disclosed, along with an electro-optical system for detecting the optical signal developed by the sensor. One such probe utilizes a convex shaped structure consisting of an elastomeric material attached to an end of an optical fiber, the elastomeric material being coated with a luminescent material, a combination that is capable of measuring both temperature and pressure. Such a probe is also specifically adapted for measuring surface temperature by making a good physical contact with the surface being measured. Another such probe utilizes a similar structure but of a non-elastomeric material for the purpose of detecting both temperature and either index of refraction or vapor pressure changes.Type: GrantFiled: March 4, 1988Date of Patent: November 28, 1989Assignee: Luxtron CorporationInventors: Mei H. Sun, Kenneth A. Wickersheim, Stanley O. Heinemann
-
Patent number: 4859079Abstract: A technique of measuring very high temperatures by positioning a blackbody sensor in thermal communication with an environment or object whose temperature is to be measured, communicating infrared emissions having an energy level proportional to such temperature from the sensor to an infrared absorber positioned a distance away from the sensor where the ambient temperature is significantly reduced, and then optically measuring the temperature of the absorber by a technique that uses visible or near visible optical radiation, such as one using a luminescent sensor. The measured temperature of the absorber is proportional to that of the blackbody sensor.Type: GrantFiled: August 4, 1988Date of Patent: August 22, 1989Assignee: Luxtron CorporationInventors: Kenneth A. Wickersheim, Mei H. Sun
-
Patent number: 4789992Abstract: An optical temperature measurement technique that utilizes the decaying luminescent intensity characteristic of a sensor composed of a luminescent material that is excited to luminescence by a light pulse or other periodic or other intermittent source of radiation. The luminescent emissions of a preferred sensor exhibit an approximately exponential decay with time that is the average of a distribution of chemically reproducible crystallites and are repeatable with a high degree of accuracy regardless of excitation level or prior temperature history of the sensor.Type: GrantFiled: March 19, 1987Date of Patent: December 6, 1988Assignee: Luxtron CorporationInventors: Kenneth A. Wickersheim, Mei H. Sun, Stanley O. Heinemann, Stanley O. Hinemann
-
Patent number: 4785824Abstract: An optical fiber temperature sensing probe for implantation into a human body or other object that is being heated either by ultrasonic radiation alone or by a combination of ultrasonic and electromagnetic (radio frequency or microwave) energy. Several embodiments are described of probes adapted to measure temperature in an ultrasound field without errors being introduced by direct absorption of ultrasonic energy or by viscous heating, even when plastic fiber is utilized.Type: GrantFiled: June 22, 1987Date of Patent: November 22, 1988Assignee: Luxtron CorporationInventors: Kenneth A. Wickersheim, Mei H. Sun
-
Patent number: 4752141Abstract: Several specific types of optical sensors capable of measuring temperature, pressure, force, acceleration, radiation and electrical fields, fluid level, vapor pressure, and the like, are disclosed, along with an electro-optical system for detecting the optical signal developed by the sensor. One such probe utilizes a convex shaped structure consisting of an elastomeric material attached to an end of an optical fiber, the elastomeric material being coated with a luminescent material, a combination that is capable of measuring both temperature and pressure. Such a probe is also specifically adapted for measuring surface temperature by making a good physical contact with the surface being measured. Another such probe utilizes a similar structure but of a non-elastomeric material for the purpose of detecting both temperature and either index of refraction of vapor pressure changes.Type: GrantFiled: October 22, 1986Date of Patent: June 21, 1988Assignee: Luxtron CorporationInventors: Mei H. Sun, Kenneth A. Wickersheim, Stanley O. Heinemann
-
Patent number: 4652143Abstract: An optical temperature measurement technique that utilizes the decaying luminescent intensity characteristic of a sensor composed of a luminescent material that is excited to luminescence by a light pulse or other periodic or other intermittent source of radiation. The luminescent emissions of a preferred sensor exhibit an approximately exponential decay with time that is the average of a distribution of chemically reproducible crystallites and are repeatable with a high degree of accuracy regardless of excitation level or prior temperature history of the sensor.Type: GrantFiled: October 15, 1985Date of Patent: March 24, 1987Assignee: Luxtron CorporationInventors: Kenneth A. Wickersheim, Mei H. Sun, Stanley O. Heinemann
-
Patent number: 4626110Abstract: An optical fiber temperature sensing probe is implanted into a human body or other object that is being heated, either by ultrasonic radiation alone or by a combination of ultrasonic and electromagnetic (radio frequency or microwave) energy. In order to measure temperature in an ultrasound field without the probe introducing errors, the probe is made to be substantially thermally non-conducting, made of materials that do not absorb compressional energy, and has a small diameter relative to the length of the ultrasonic heating waves.Type: GrantFiled: May 3, 1985Date of Patent: December 2, 1986Assignee: Luxtron CorporationInventors: Kenneth A. Wickersheim, Mei H. Sun
-
Patent number: 4560286Abstract: A technique of temperature measurement wherein an object or environment to be measured is provided with a phosphor material layer that emits at least two optically isolatable wavelength ranges whose intensity ratio depends upon the object or environment temperature, the emitted radiation being brought to a detector by an optical system that may include an optical fiber. Several specific applications of this technique are disclosed, such as temperature monitoring of electrical equipment and industrial processing, medical temperature instrumentation including the use of disposable elements that contain a small quantity of the temperature dependent phosphor, special and multiple probes, the use of liquid phosphors, and a phosphor paint for monitoring surface temperatures.Type: GrantFiled: December 5, 1983Date of Patent: December 24, 1985Assignee: Luxtron CorporationInventor: Kenneth A. Wickersheim
-
Patent number: 4448547Abstract: A technique of temperature measurement wherein an object or environment to be measured is provided with a phosphor material layer that emits at least two optically isolatable wavelength ranges whose intensity ratio depends upon the object or environment temperature, the emitted radiation being brought to a detector by an optical system that may include an optical fiber. Several specific applications of this technique are disclosed, such as temperature monitoring of electrical equipment and industrial processing, medical temperature instrumentation including the use of disposable elements that contain a small quantity of the temperature dependent phosphor, special and multiple probes, the use of liquid phosphors, and a phosphor paint for monitoring surface temperatures.Type: GrantFiled: July 10, 1980Date of Patent: May 15, 1984Assignee: Luxtron CorporationInventor: Kenneth A. Wickersheim
-
Patent number: 4215275Abstract: A technique wherein an object or environment to be measured is provided with a phosphor material layer that emits at least two optically isolatable wavelength ranges whose intensity ratio depends upon the object or environment temperature. This technique is applied to remote hostile environment point temperature measurements, such as in large enclosed electrical power transformers and other large equipment, to the measurement of surface temperatures, such as in airplane structures being tested in wind tunnels, and elsewhere.Type: GrantFiled: February 15, 1978Date of Patent: July 29, 1980Assignee: Luxtron CorporationInventor: Kenneth A. Wickersheim
-
Patent number: 4075493Abstract: A technique wherein an object or environment to be measured is provided with a phosphor material layer that emits at least two optically isolatable wavelength ranges whose intensity ratio depends upon the object or environment temperature. This technique is applied to remote hostile environment point temperature measurements, such as in large enclosed electrical power transformers and other large equipment, to the measurement of surface temperatures, such as in airplane structures being tested in wind tunnels, and elsewhere.Type: GrantFiled: December 16, 1976Date of Patent: February 21, 1978Assignee: Ronald AlvesInventor: Kenneth A. Wickersheim
-
Patent number: 3936196Abstract: An opaque fluid chamber having some means for filling and removing fluid therefrom and at least one aperture therein having a transparent plate sealing it, thereby permitting light to enter or leave the chamber through said aperture without losing fluid material therethrough. The transparent plate is many times larger than the size of the aperture and selectively clamped thereagainst in a manner permitting removal of a fogged area of the transparent member away from the aperture for continued light transfer into and out of the chamber without having to clean or replace the transparent plate.Type: GrantFiled: October 21, 1974Date of Patent: February 3, 1976Assignee: Spectrotherm CorporationInventor: Kenneth A. Wickersheim