Thermal (e.g., Actuation) Patents (Class 324/104)
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Patent number: 10926657Abstract: A method for controlling a charging operation of an energy storage device of a motor vehicle. A control device carries out the following: establishment of a prioritization of a motor vehicle for user-specific recharging of the energy storage device on the basis of the established prioritization; determination of a charging capacity predetermined by the prioritization for a recharging operation, depending on the determined charging capacity; creation of a digital certificate, which describes the determined charging capacity; and transmission of the created certificate to a charging management device of the motor vehicle. Depending on the charging capacity described by the certificate transmitted to the charging management device of the motor vehicle: generation of a control signal, which describes a course of the charging operation with the described charging capacity; and transmission of the created control signal to an energy delivery device of a charging station apparatus.Type: GrantFiled: May 18, 2018Date of Patent: February 23, 2021Assignee: AUDI AGInventor: Andreas Schlaudraff
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Patent number: 10901489Abstract: In a multiphase electrical power construction and assignment, a processor: determines a phase and voltage configuration for bi-directional power device pairs; determines a given bi-directional power device pair is to be coupled to a given phase connection based on the configuration; determines whether the given bi-directional power devices in the given bi-directional power device pair are to be coupled to each other; confirms that the given bi-directional power device pair is not coupled to any of the plurality of phase connections; couples the given bi-directional power device pair to the given phase connections, where power signals of the given bi-directional power device pair are synchronized with a power signal of the given phase connection; and in response to determining that the given bi-directional power devices are to be coupled to each other, couples each of the bi-directional power devices to a short bus.Type: GrantFiled: March 20, 2017Date of Patent: January 26, 2021Assignee: Stem, Inc.Inventors: Lynn Smith, Stacey Reineccius
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Patent number: 10766370Abstract: Systems and methods for generating grid alerts for an electric grid, and performing actions in response to the grid alerts, such as shaping, shifting, or otherwise modifying a load applied to the grid, are described. In some embodiments, the systems and methods access information identifying states of charging events for one or more electric vehicles at one or more charging stations, the one or more charging stations coupled to an electric grid and providing charge to the one or more electric vehicles, determine that the information identifying the states of the charging events for the one or more electric vehicles at the one or more charging stations coupled to the electric grid indicates a condition of the electric grid that is outside threshold condition of the electric grid, and perform an action in response to determining the condition of the electric grid is outside the predetermined threshold condition of the electric grid.Type: GrantFiled: May 16, 2016Date of Patent: September 8, 2020Assignee: RECARGO, INC.Inventors: Forrest North, Lucas Manfield
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Patent number: 10116016Abstract: A number of variations may include a product including a thermal management component comprising a housing comprising a first polymer wherein the first polymer is constructed and arranged to provide thermal control of at least one neighbor component comprising an exterior surface in contact with the thermal management component wherein the first polymer comprises a heat generating polymer.Type: GrantFiled: May 23, 2016Date of Patent: October 30, 2018Assignee: BorgWarner Inc.Inventors: Philip J. Mott, Andrew Duncan Sutherland, Christopher P. Thomas, Steven Michael Myers
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Patent number: 10036780Abstract: An electrode probe is brought into contact with a measurement part on an outer surface of at least one of the positive electrode and the negative electrode of a sheet type cell, and quantity of electricity is measured at the measurement part, so as to evaluate the sheet type cell. The electrode probe may be connected to a voltage meter and to a charge source or a discharge source, and the evaluation made by detecting a charge characteristic that changes the cell from a non-charged state to a fully charged state, a discharge characteristic that changes the cell from a fully charged state to the non-charged state, or a measurement voltage of the voltage meter when the cell is in the fully charged state.Type: GrantFiled: September 5, 2011Date of Patent: July 31, 2018Assignee: KABUSHIKI KAISHA NIHON MICRONICSInventors: Harutada Dewa, Kiyoyasu Hiwada
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Patent number: 9966642Abstract: A battery autoclaving system is provided including a battery pack having a housing, a battery cell disposed within the housing, and an isolation region disposed between the housing and the battery cell. The isolation region may be formed at least partially from at least one of a thermal insulating material, a phase change material or any combination thereof. The system may include a temperature sensor adapted to sense at least one of a temperature of the battery cell temperature of the isolation region. The system may include and an autoclave configured to receive a temperature indication from the temperature sensor and to inhibit autoclaving when the temperature indication exceeds a predetermined value.Type: GrantFiled: May 23, 2016Date of Patent: May 8, 2018Assignee: Covidien LPInventors: Robert B. Stoddard, James S. Cunningham, William J. Dickhans, Russell D. Hempstead, Eric R. Larson, Duane E. Kerr, William H. Nau, Jr., Anthony B. Ross, John J. Kappus
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Patent number: 9751427Abstract: A vehicle traction battery includes a plurality of battery cells and a battery energy control module (BECM) for charge-balancing the plurality of battery cells. The BECM is disposed within the vehicle traction battery and includes circuitry having at least one positive temperature coefficient component, such as a thermistor or silistor, connected to at least one of the plurality of battery cells for thermal conditioning of the plurality of battery cells.Type: GrantFiled: September 3, 2014Date of Patent: September 5, 2017Assignee: Ford Global Technologies, LLCInventor: Michael Edward Loftus
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Patent number: 9385550Abstract: The present application is directed to a power dissipation apparatus including a conductive trace formed on a substrate and to methods of using the power dissipation apparatus. The power dissipation apparatus may be used to dissipate heat generated from electrical current passed through the conductive trace of the power dissipation apparatus. The current may be provided from, for example, a battery conditioner.Type: GrantFiled: February 19, 2015Date of Patent: July 5, 2016Assignee: ZOLL Medical CorporationInventors: Michael Lopin, James G. Radzelovage, Hailong Xu, Frederick Faller
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Publication number: 20140375301Abstract: A device is disclosed for protecting a consumer, with a first current path having two lines, and a monitoring arrangement for detecting an imminent overload of the electrical consumer. In order to enable the detection of an imminent overload of a consumer, it is proposed that the monitoring arrangement includes a first temperature measuring unit, an evaluation unit and a first measuring element, which establishes an electrically conductive connection between the two lines of the first current path. The first temperature measuring unit is electrically isolated from the first measuring element and includes a first and a second temperature sensor. The first and second temperature sensor of the first temperature measuring unit are configured to simultaneously record a temperature of the first measuring element and the evaluation unit is configured to detect an imminent overload of the consumer based upon the recorded temperatures of the first temperature measuring unit.Type: ApplicationFiled: September 16, 2011Publication date: December 25, 2014Applicant: SIEMENS AKTIENGESELLSCHAFTInventors: Klaus Behringer, Martin Maier, Klaus Pfitzner, Bernhard Rösch
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Patent number: 8698484Abstract: An over-voltage and over-temperature detecting circuit includes a voltage-limiting circuit, a temperature sensing circuit, a current source, a first comparing circuit and a second comparing circuit. The equivalent resistance of the temperature sensing circuit varies with the temperature. The current source provides a first current to a detecting terminal, so that a detecting voltage is generated at the detecting terminal. By comparing the magnitude of the detecting voltage with the first reference voltage value, the first comparing circuit generates a corresponding temperature status signal. By comparing the magnitude of the detecting voltage with the second reference voltage value, the second comparing circuit generates a corresponding voltage status signal. If the temperature exceeds the temperature upper limit, the temperature status signal is in an enabling status. If the first voltage exceeds the voltage upper limit, the voltage status signal is in an enabling status.Type: GrantFiled: December 20, 2010Date of Patent: April 15, 2014Assignee: Delta Electronics, Inc.Inventor: Chin-Tsai Chiang
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Patent number: 8085034Abstract: Managing electrical charging of vehicles with charging devices related to users demand and available power. One system comprises charging points comprising sockets and a communication module, and a mediator server comprising a database, an application and a graphical user interface. The mediator server is connected to the charging points, to the users and to public utilities and electricity providers. Each charging point is arranged to admit vehicles, couple their charging device to the socket and send vehicle data to the mediator server. The mediator server is arranged to process the vehicle data, user data, and data from the public utilities and the electricity providers, and calculate a vehicle priority and a charging allotment in relation to the number of vehicles at the charging point and to the processed data. Vehicles are charged according to the vehicle priority and the charging allotment.Type: GrantFiled: October 31, 2008Date of Patent: December 27, 2011Inventor: Yaniv Sirton
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Publication number: 20110148395Abstract: An over-voltage and over-temperature detecting circuit includes a voltage-limiting circuit, a temperature sensing circuit, a current source, a first comparing circuit and a second comparing circuit. The equivalent resistance of the temperature sensing circuit varies with the temperature. The current source provides a first current to a detecting terminal, so that a detecting voltage is generated at the detecting terminal. By comparing the magnitude of the detecting voltage with the first reference voltage value, the first comparing circuit generates a corresponding temperature status signal. By comparing the magnitude of the detecting voltage with the second reference voltage value, the second comparing circuit generates a corresponding voltage status signal. If the temperature exceeds the temperature upper limit, the temperature status signal is in an enabling status. If the first voltage exceeds the voltage upper limit, the voltage status signal is in an enabling status.Type: ApplicationFiled: December 20, 2010Publication date: June 23, 2011Applicant: DELTA ELECTRONICS, INC.Inventor: Chin-Tsai Chiang
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Publication number: 20110074394Abstract: A method, test circuit and test system provide measurements to accurately characterize threshold voltage changes due to negative bias temperature instability (NBTI) and positive bias temperature instability (PBTI). Both the bias temperature instability recovery profile and/or the bias temperature shifts due to rapid repetitions of stress application can be studied. In order to provide accurate measurements when stresses are applied at intervals on the order of tens of nanoseconds while avoiding unwanted recovery, and/or to achieve recovery profile sampling resolutions in the nanosecond range, multiple delay or ring oscillator frequency measurements are made using a delay line that is formed from delay elements that have delay variation substantially caused only by NBTI or PBTI effects. Devices in the delay elements are stressed, and then the delay line/ring oscillator is operated to measure a threshold voltage change for one or more measurement periods on the order of nanoseconds.Type: ApplicationFiled: December 8, 2010Publication date: March 31, 2011Applicant: International Business Machines CorporationInventors: Fadi H. Gebara, Jerry D. Hayes, John P. Keane, Sani R. Nassif, Jeremy D. Schaub
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Publication number: 20090315534Abstract: An improved power sensor having an input connector connected to an input port having a center pin and a ground side; an amplifier; first and second detectors; and a thermal stabilization system, including a thermal mass disposed between the ground side of the input connection and the detectors, a ground plane for holding the temperature of thermally sensitive components constant to within 2 degrees C., and a thermal impedance disposed between the center pin of the input port, preferably including a splitter and at least one DC capacitor, and a temperature sensor disposed on the ground plane.Type: ApplicationFiled: September 2, 2009Publication date: December 24, 2009Inventors: Richard R. Hawkins, Jon R. Sigler
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Patent number: 7590499Abstract: Aspects of the invention provide apparatuses, methods, and systems that support measuring and conveying energy consumption by an electrical device. An apparatus includes an energy sensor that measures an incremental energy value consumed by an electrical device. Apparatus obtains the incremental energy value, accumulates an energy usage measurement in accordance with the incremental energy value, provides requested information about energy consumption of the electrical device in response to a request from a network controller, and adjusts the energy usage measurement in accordance with the requested information. The total energy consumption may be partitioned into at least one energy component, in which the at least one energy component corresponds to the energy consumption of the electrical device during an associated time interval. A network controller may use the energy consumption information to determine a new set temperature for a thermostat unit that instructs the device control logic.Type: GrantFiled: June 28, 2007Date of Patent: September 15, 2009Assignee: Computime, Ltd.Inventors: Wai-leung Ha, Kairy Kai Lei
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Patent number: 7183887Abstract: An electronic circuit comprising means (CMNS) for controlling a current (IL) through a coil (L) for the generation of a magnetic field (H). The means (CMNS) comprise means (DMNS) for the determination of a parameter which is a measure for the value of the resistance (RL) of the coil (L). During operation the maximum absolute value of the current (IL) is decreased when the parameter exceeds a certain limit.Type: GrantFiled: June 13, 2003Date of Patent: February 27, 2007Assignee: Koninklijke Philips Electronics N.V.Inventors: Rudolf Johan Maria Vullers, Willem Johannes Antonia Geven, Coen Theodorus Hubertus Fransiscus Liedenbaum
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Patent number: 6767129Abstract: A microwave power sensor and a method for manufacturing the same. The microwave power sensor includes a semiconductor substrate with a nitride or oxide film formed thereon. A membrane which is a portion of the nitride or oxide film is floated by removing a portion of the semiconductor substrate. First and second thermocouple groups are formed to be symmetrically spaced apart from each other on the membrane. An RF input end is formed on the nitride or oxide film. A heating resistor is formed on the membrane to be connected with the RF input end. First and second ground plates are formed on the nitride or oxide film at both sides of the RF input end. A third ground plate is formed on the nitride or oxide film to be connected with the heating resistor and electrically connected with the first and second ground plates. The first and second output terminals are formed on the semiconductor substrate to be connected with the first and second thermocouple groups, respectively.Type: GrantFiled: November 5, 2002Date of Patent: July 27, 2004Assignee: Korea Electronics Technology InstituteInventors: Dae Sung Lee, Kyung Il Lee, Hak In Hwang
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Patent number: 6520001Abstract: The present invention relates to a method of determining the relative proportions of gases in a mixture, such that the relative proportions of N gases are determined using N-1 sensors, not all of which are specific to a particular gas. In the preferred embodiment, oxygen and carbon dioxide are measured in the presence of nitrogen by measuring magnetic susceptibility and speed of sound. The described method of gas analysis leads to very fast response times and exceptional stability, making the technology suitable for breath-by-breath analysis of respired air. Notably, the method does not require high-temperature components, electrochemical cells, or consumable components.Type: GrantFiled: March 2, 2001Date of Patent: February 18, 2003Assignee: Life Measurement, Inc.Inventors: Philip Dempster, John Payne
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Publication number: 20020007676Abstract: A package for a sporting device having a display and electrical components mounted on a pair of circuit boards includes a housing defining a chamber receiving the boards and the display, front and back covers on opposite sides of the housing, and a stiffener disposed between the boards. The packaging allows the sporting device to be attached to sports equipment such as ball catching gloves as well as parts of the body and clothing. For high impact loading, an optional shock-absorbing pad with spaced ribs can be mounted on a back face of the back cover.Type: ApplicationFiled: August 29, 2001Publication date: January 24, 2002Inventors: Michael A. Ward, David L. Overman, Albert E. Dilz, David L. Hunt, David K. Memke, David L. Slayton
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Patent number: 6152597Abstract: A thin, conformable apparatus for monitoring functions of a power source is disclosed that includes at least one dielectric layer upon which are one or more devices selected from a group consisting of a thermistor, data lines, power conductors, and connectors. This assembly, in various configurations of its parts, attaches internally or externally to power sources that may include a "smart battery." When attached to a part or to an entire power source, said apparatus may connect that power source to its host, and other external devices, for example a charger, monitor, or power supply, whereby allowing simultaneous and concurrent data or power to flow between at least two of said devices.Type: GrantFiled: June 26, 1998Date of Patent: November 28, 2000Inventor: Patrick H. Potega
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Patent number: 6043642Abstract: An electrical utility meter includes measurement error diagnostic capabilities with intelligent communication capabilities. In an exemplary embodiment, the present invention includes an electrical utility meter for measuring energy consumption by a load. The electrical utility meter includes, sensor circuitry, a conversion circuit, a communication circuit, and a controller. The sensor circuitry connects to a meter socket. The meter socket connects to a plurality of power lines that, in turn, connect the load to a source of electrical power. The source of electrical power provides power to the load in a plurality of phases. The sensor circuitry generates voltage and current measurement signals representative of the voltage and current waveforms on the plurality of power lines.Type: GrantFiled: August 1, 1997Date of Patent: March 28, 2000Assignee: Siemens Power Transmission & Distribution, Inc.Inventors: Warren T. Martin, William James Watson, Gregory A. Grisham, Michael K. Anderson, Randal K. Bond
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Patent number: 6010771Abstract: An article having an electrical circuit component printed directly onto one side of a substrate includes the substrate and an electrical circuit component formed of a conductive liquid printed directly onto one side of the substrate. The electrical component is capable of performing its electrical circuit functions, as printed, and without the necessity for post-printing processes such as metal etching, catalytic ink activation, or electroless deposition.Type: GrantFiled: February 13, 1998Date of Patent: January 4, 2000Assignee: Bemis Company Inc.Inventors: Irvin Isen, Joseph Kucherovsky
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Patent number: 5867028Abstract: The battery tester of the present invention includes a heating element for generating heat in response to current supplied from a battery, and an indicator provided in proximity to the heating element for providing a visual indication of the remaining capacity of the battery in response to the heat generated by the heating element. The heating element has a display portion and first and second connecting portions on either side of the display portion that are selectively coupled to opposite terminals of the battery. The connecting portions of the heating elements have a lower resistivity than the display portion thereby reducing the heat generated at the switch contacts that are pressed by the user to activate the tester.Type: GrantFiled: July 25, 1997Date of Patent: February 2, 1999Assignee: Eveready Battery Company, Inc.Inventor: John C. Bailey
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Patent number: 5841285Abstract: The battery tester of the present invention includes a heating element coupled to opposite terminals of a battery for generating heat in response to current supplied from the battery, and an indicator provided in proximity to the heating element. The indicator has a visual property that changes in response to the heat generated by the heating element. According to the present invention, at least a portion of the heating element is made of a variable resistivity material having a resistivity that changes in response to ambient temperature. By using a variable resistivity material that has a resistivity that increases as ambient temperature increases, a thermochromic on-label battery tester may be provided that is automatically calibrated to provide an accurate indication of the remaining battery capacity regardless of the ambient temperatures at which the battery tester may be used.Type: GrantFiled: July 25, 1997Date of Patent: November 24, 1998Assignee: Eveready Battery Company, Inc.Inventor: John C. Bailey
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Patent number: 5760588Abstract: The thermochromic battery tester comprises a conductive heating element having one end including at least two switch pads for selective coupling of the conductive heating element to a second terminal of the battery. Each of the switch pads provides a different resistivity for the heating element when pressed, to thereby change the calibration of the tester for different discharge rates. The battery tester further includes discharge rate calibration indicia associated with each of the switch pads for indicating which switch pad to press for proper calibration at a relative rate of discharge. The conductive heating element may have at least a portion thereof made of a variable resistivity material having a resistivity that changes in response to ambient temperature so as to compensate for varying ambient temperatures. Preferably, the variable resistivity material has a resistivity that increases as ambient temperature increases.Type: GrantFiled: July 25, 1997Date of Patent: June 2, 1998Assignee: Eveready Battery Company, Inc.Inventor: John C. Bailey
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Patent number: 5654640Abstract: A cell tester device for use on an electrochemical cell which comprises a printed transparent electrically conductive electrode disposed on a plastic film, an ionically conductive electrochromic electrolyte printed on the electrode, and a conductive layer printed on the electrolyte.Type: GrantFiled: September 8, 1995Date of Patent: August 5, 1997Assignee: Eveready Battery CompanyInventor: John C. Bailey
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Patent number: 5491420Abstract: A thermochromic apparatus for testing dc voltage sources, particularly small, low voltage disposable batteries, employs a very thin resistive heater layer deposited onto a flexible dielectric substrate. A series of thermochromic elements are "stacked" (mounted on top of one another) at a single thermochromic site proximate the resistive heater. During testing current from the battery flows through the resistive layer heats the substrate, causing a series of thermochromic elements mounted on the substrate to undergo visual "temperature events" (such as color changes) at progressively higher temperatures. The thermochromics may be stacked in a series of discrete films, each film containing a dye for one temperature event. Alternatively, the thermochromics may be contained in microcapsules in a common film.Type: GrantFiled: March 1, 1993Date of Patent: February 13, 1996Assignee: Duracell Inc.Inventor: Robert Parker
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Patent number: 5231356Abstract: A thermo-responsive device for testing dc voltage sources, particularly small, low voltage dry cells, employs a very thin resistive heater film deposited onto a thin flexible dielectric substrate. During testing the ends of the resistive film engage the pole terminals of the battery. Current from the battery flows through the resistive film and uniformly heats the substrate by resistance heating, causing a series of thermo-responsive elements mounted on the substrate to undergo visual "temperature events" at progressively higher temperatures. The resistive film is uniform in thickness and uniform in sheet resistivity. The current density and resistive heating of the film is therefore uniform throughout the substrate and the thermo-responsive elements. The uniform heating permits the thermo-responsive elements to be mounted anywhere on the substrate. The length of the resistive heater may be varied to vary the heating current and the heating temperature.Type: GrantFiled: June 16, 1992Date of Patent: July 27, 1993Inventor: Robert Parker
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Patent number: 5059895Abstract: The present invention discloses a battery voltmeter comprising:A) a dielectric layer;B) a conductive layer above or below one of the surfaces of the dielectric layer; andC) a temperature sensitive color indicator layer in thermal contact with the conductive layer,characterized in that the conductive layer has i) thermal insulating means under one of its surfaces and ii) sufficient heat generating capacity to affect a change in the temperature sensitive color indicator layer. The voltmeter can be intergrated into a label and attached directly to a battery.Type: GrantFiled: April 4, 1990Date of Patent: October 22, 1991Assignee: Eastman Kodak CompanyInventors: Richard T. Cataldi, Patrick D. Hein, Henry J. Heirigs, John C. Leo
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Patent number: 5006790Abstract: A utility meter including an electronic module to calculate predetermined parameters related to electric utility line and load conditions. Signals related to utility line voltage and load conditions are scaled and sampled to generated a data base which is utilized by a digital processor to calculate the parameters discussed above. Calibration processes controlled by the processor corrects for errors related to the sensors used to sense line voltage and load conditions as well as drift in the analog portions of the electronic module.Type: GrantFiled: October 19, 1987Date of Patent: April 9, 1991Assignee: Appalachian Technologies CorporationInventors: William C. Beverly, II, Michael B. Dalton, David Q. Gaddis
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Patent number: 4737020Abstract: A device for testing a battery, particularly a small, portable battery, comprising a flexible, transparent substrate on which is deposited a narrow band of a black light absorbing material. A conductive material, which may taper outwardly in opposite directions from a central point to a pair of outer terminals, is then deposited atop the substrate on the same side of the substrate as the absorber layer or on the opposite side of the substrate as the absorber layer. A layer of a cholesteric liquid crystal material is then deposited on the substrate on the opposite side from the black absorber layer or over the absorber layer. The conductive material is an epoxy cement-based conductor, preferably silver, printed or painted directly on to the substrate. An indicator scale is located along sections of the conductive material.Type: GrantFiled: October 8, 1987Date of Patent: April 12, 1988Inventor: Robert Parker
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Patent number: 4726661Abstract: A device for testing a battery, particularly a small, "button-type" battery, such as those used in hearing aids, calculators, watches and the like, comprising a flexible, transparent substrate on which is deposited a conductive material, which may taper outwardly in opposite directions or in a single direction, from a central point from one side to a pair of outer terminals. A layer of a cholesteric liquid crystal material is then deposited on the substrate. A layer or band of a black light absorbing material the opposite side from the black absorber layer. The conductive material is an epoxy cement-based conductor, preferably silver, printed or painted directly on to the substrate. An indicator scale is located along sections of the tapered conductive material.Type: GrantFiled: April 3, 1986Date of Patent: February 23, 1988Inventor: Robert Parker
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Patent number: 4702564Abstract: A device for testing a battery, particularly a small, portable battery, comprising a flexible, transparent substrate on which is deposited a narrow band of a black light absorbing material. A conductive material, which may taper outwardly in opposite directions from a central point to a pair of outer terminals, is then deposited atop the substrate on the same side of the substrate as the absorber layer or on the opposite side of the substrate as the absorber layer. A layer of a cholesteric liquid crystal material is then deposited on the substrate on the opposite side from the black absorber layer or over the absorber layer. The conductive material is an epoxy cement-based conductor, preferably silver, printed or painted directly on to the substrate. An indicator scale is located along sections of the conductive material.Type: GrantFiled: April 3, 1986Date of Patent: October 27, 1987Inventor: Robert Parker
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Patent number: 4702563Abstract: A device for testing a battery, particularly a small, portable battery, comprising a flexible, transparent substrate on which is deposited a narrow band of a black light absorbing material. A conductive material, which tapers outwardly in opposite directions from a central point to a pair of outer terminals, is then deposited atop the substrate on the same side of the substrate as the absorber layer. A layer of a cholesteric liquid crystal material is then deposited on the substrate on the opposite side from the black absorber layer. The conductive material is an epoxy cement-based conductor, preferably silver, printed or painted directly on to the substrate. An indicator scale is located along sections of the tapered conductive material. To test a dry cell battery, the terminal ends of the conductive material are placed in contact with the battery terminals, causing a current to flow which heats the conductive material, the heat generated being the most intense at the central point and radiating outwardly.Type: GrantFiled: April 15, 1985Date of Patent: October 27, 1987Inventor: Robert Parker
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Patent number: 4163939Abstract: An electric utility meter includes a detachable anti-static plastic cover having an electroconductive layer on the cover front face. The conductive layer extends between the cover and a dial pointer of the meter. An electric contact projects into the interior of the cover so as to make contact with the meter chassis when the cover is assembled to the meter.Type: GrantFiled: February 6, 1978Date of Patent: August 7, 1979Assignee: Westinghouse Electric Corp.Inventors: Kenneth G. Halstead, James D. Hawfield, Jr.
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Patent number: 4121147Abstract: An electrical meter for use with a standard watthour meter and a standard meter socket having a housing which includes a display area, a meter receiving section having a base plate which supports a plurality of jaw members positioned to receive the blades of a standard watthour meter, meter socket engaging blades extending rearwardly of the housing and positioned to engage the jaws of a standard meter socket, an electrical meter assembly supported within a longitudinally disposed part of the housing and in tandem relation with the watthour meter and the meter socket including an indicator located adjacent the display area, a plurality of conductors connecting the blades to the jaw members, the electrical meter assembly being coupled to at least one of said conductor means to provide a power measurement on the indicator, the housing and the electrical meter assembly in said housing being located within a circumference defined by the rearward projection of the circumference of the base of the standard watthourType: GrantFiled: September 13, 1976Date of Patent: October 17, 1978Assignee: Sangamo Electric CompanyInventors: Dale F. Becker, Trevor N. Samuel
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Patent number: 3978471Abstract: A measuring device such as a digital thermometer uses dual slope analog-to-digital converter techniques but elminates the usual need for a high precision voltage source. An input capacitor is connected through novel switching to the temperature responsive arm and the temperature insensitive arm of a resistance bridge, to the low precision voltage source and to the output of the integrator and detector amplifiers. The switching sequence is such that long term changes in the voltage source and in the amplifier offset and drift are cancelled out during measurement cycles, thereby providing highly accurate measurements without the usual need for an expensive high precision voltage source.Type: GrantFiled: March 26, 1975Date of Patent: August 31, 1976Assignee: Weston Instruments, Inc.Inventor: Austin T. Kelly
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Patent number: RE39703Abstract: A battery strength indicating and switch means on a battery which is coupled across the terminals of the battery and which is provided with an indicating means to indicate the strength of the battery and in addition, the battery strength indicating means is also provided with an in-line switch which can easily be depressed to complete the circuit so as to place the indicator means across the terminals of the cell and display the charge of the battery.Type: GrantFiled: October 20, 1992Date of Patent: June 26, 2007Assignee: Strategic ElectronicsInventors: James R. Burroughs, Alan N. O'Kain