EAGLEPICHER TECHNOLOGIES, LLC Patent applications |
Patent application number | Title | Published |
20150137873 | Fet Array Bypass Module - A bypass module including a plurality of P-Channel MOSFETs connected in parallel to form a P-Channel MOSFET array, a plurality of N-Channel MOSFETs connected in parallel to form a N-Channel MOSFET array, and a control module to control switching of the P-Channel MOSFET array and the N-Channel MOSFET array is disclosed. A battery or load management device used to switch higher current and low voltages is disclosed. A battery bypass and bypass method for charge, discharge, and charge limiting control for various types of batteries is disclosed. | 05-21-2015 |
20150084604 | LITHIUM-SULFUR BATTERY AND METHODS OF PREVENTING INSOLUBLE SOLID LITHIUM-POLYSULFIDE DEPOSITION - An improved lithium-sulfur battery containing a surface-functionalized carbonaceous material. The presence of the surface-functionalized carbonaceous material generates weak chemical bonds between the functional groups of the surface-functionalized carbonaceous material and the functional groups of the polysulfides, which prevents the polysulfide migration to the battery anode, thereby providing a battery with relatively high energy density and good partial discharge efficiency. | 03-26-2015 |
20150084603 | LITHIUM-SULFUR BATTERY AND METHODS OF REDUCING INSOLUBLE SOLID LITHIUM-POLYSULFIDE DEPOSITIONS - An improved electrolyte including a strontium additive suitable for lithium-sulfur batteries, a battery including the electrolyte, and a battery including a separator containing a strontium additive are disclosed. The presence of the strontium additive reduces sulfur-containing deposits on the battery anode, thereby providing a battery with relatively high energy density and good partial discharge performance. | 03-26-2015 |
20140272504 | WOUND THERMAL BATTERIES AND METHODS OF MANUFACTURING THE SAME - A thermal battery includes a first conductive layer containing an anode material separated from a second conductive layer containing a cathode material by a separator layer containing a separator material; and a flexible pyrotechnic heat source, wherein the first conductive layer, the separator layer, and the second conductive layer are rolled together to form the spiral wound configuration. A method of manufacturing a thermal spiral wound battery includes preparing three slurries, each containing one of an anode material, a cathode material, and a separator material, depositing each of the materials from the slurries onto conductive substrates to form three layers, stacking the layers, and winding the layers together into a spiral wound configuration. | 09-18-2014 |
20140207306 | WELDING ALONG A SEAM USING A MULTIPLE-POINT ALIGNMENT METHOD - A method for generating a weld path aligned along a seam between two parts uses a computer having a control unit and a storage medium. The method includes aligning a crosshair line at a plurality of points along the seam and storing a position value for each of the plurality of points in the storage medium; calculating a width and a height of the seam based on the stored position values of each of the plurality of points; and generating the weld path based on the height and the width of the seam. | 07-24-2014 |
20140079989 | LITHIUM-SULFUR BATTERY WITH PERFORMANCE ENHANCED ADDITIVES - A battery includes an anode containing a lithium material, a cathode containing sulfur and a porous conducting medium, and an electrolyte, wherein the electrolyte contains an additive selected from the group consisting of an organic surfactant additive, an inorganic additive, and a mixture thereof. The organic surfactant additive may be a fluorosurfactant | 03-20-2014 |
20140023904 | ACTIVATION MECHANISM FOR A RESERVE BATTERY CELL - A biasing mechanism for pressurizing an electrolytic solution of a reserve battery cell, the biasing mechanism containing a compressed spring and a trigger operatively associated with the compressed spring. The trigger is configured to release the compressed spring to pressurize the electrolytic solution. | 01-23-2014 |
20130330631 | BATTERY AND METHOD OF MANUFACTURING A BATTERY - Methods of manufacturing a battery include the steps of forming a plurality of cathodes that each include a flag tab of a securing profile, forming a plurality of anodes that each include a tabbed portion of a securing profile, and stacking the cathodes and the anodes to create an electrode stack. The stacking step includes the steps of layering in alternating order the anodes and the cathodes with at least one layer of separator physically insulating each anode from each cathode, aligning the cathodes with a first alignment means, and aligning the anodes with a second alignment means. | 12-12-2013 |
20130323562 | CERAMIC ENCLOSED THERMAL BATTERY - At least a portion of the enclosure of a thermal battery is formed of a ceramic material that is non-porous and electrically-non-conductive. The thermal battery includes at least one cell, a squib that when activated causes the at least one cell to become active, and an enclosure that surrounds the at least one cell and the squib. Squib terminals and battery terminals extend through the enclosure and are electrically connected to the squib and to the at least one cell, respectively. At least the portion of the enclosure through which the squib and battery terminals extend is formed of the ceramic material. The enclosure includes a container and a header. At least the header is made from the ceramic material, and preferably both the container and the header are made from the ceramic material. | 12-05-2013 |
20130292130 | RESERVE BATTERY TO PROVIDE POWER FOR SUBSEA APPLICATIONS - A subsea system includes an electrically powered control system for controlling the subsea system and a replaceable reserve battery electrically coupled to the control system to provide backup and/or supplemental power to the control system when the reserve battery is activated. The reserve battery is provided in a housing having a first coupling, the subsea system includes a second coupling, and the first and second couplings are detachably connectable to each other and include electrical connections so that the reserve battery is replaceable while the subsea system remains below the sea-surface. | 11-07-2013 |
20130211616 | HYBRID ENERGY STORAGE SYSTEM, RENEWABLE ENERGY SYSTEM INCLUDING THE STORAGE SYSTEM, AND METHOD OF USING SAME - This disclosure generally relates to stabilizing energy provided by an energy source, and more particularly to systems and methods for using multiple types of energy storage devices to selectively capture and provide energy. An energy source provides energy, and the energy storage devices selectively capture energy provided by the energy source in excess of an immediate energy requirement of a load and selectively provide energy when the immediate energy requirement of the load exceeds the energy provided by the energy source. | 08-15-2013 |
20130078528 | ELECTROLYTE MATERIALS, THERMAL BATTERY COMPONENTS, AND THERMAL BATTERIES FOR INTERMEDIATE TEMPERATURE APPLICATIONS - A eutectic formulation of KOH and NaOH is used as an electrolyte or an electrolyte-separator. An anode, and/or a cathode can contain the eutectic formulation of KOH and NaOH. A battery can contain an electrolyte-separator, an anode, and/or a cathode with the eutectic formulation of KOH and NaOH. The electrolyte in the electrolyte-separator can have a melting point from about 170° C. to about 300° C. making it suitable for use in a thermal battery that does not require a pyrotechnic device for certain high-temperature applications. | 03-28-2013 |
20130074722 | LOW PROFILE IGNITER - An igniter includes a housing having a first end with an opening, a second end opposite the first end, a longitudinal axis extending from the first end to the second end, and a top surface with a Weakened area. The igniter may further include a pyrotechnic material disposed within the housing, a header having a first end and a second end opposite the first end, and a bridge element provided on the first end of the header and having lead wires on the second end of the header. The first end of the header may be inserted into the opening of the housing in a first direction so as to force the header against the pyrotechnic material. Flow of current through the bridge element heats the bridge element and ignites the pyrotechnic material, which causes the weakened area to rupture. | 03-28-2013 |
20130066573 | SYSTEMS AND METHODS FOR DETERMINING BATTERY STATE-OF-HEALTH - A system and method use an open-circuit voltage (OCV) method of calculating a state-of-health (SOH) of a chemical battery. The OCV system and method includes charging the battery to a maximum charge potential, determining an open-circuit voltage (OCV) of the battery after waiting a predetermined period of time after completion of the charging, and determining the SOH of the battery based on the determined OCV of the battery. Another system and method use a time-to-charge (TTC) method of calculating a state-of-health (SOH) of a chemical battery. The TTC system and method includes monitoring and storing a charge time of the battery in a memory and scaling the stored charge time to form an SOH indication. | 03-14-2013 |
20130065137 | HIGH RATE AND ENERGY CATHODE MATERIAL FOR LITHIUM BATTERIES - A cathode material suitable for use in non-aqueous electrochemical cells that includes copper manganese vanadium oxide and, optionally, fluorinated carbon. A non-aqueous electrochemical cell comprising such a cathode material, and a non-aqueous electrochemical cell that additionally includes a lithium anode. | 03-14-2013 |
20120276435 | METHOD OF FORMING ENCAPSULATED SOLID ELECTROCHEMICAL COMPONENT - A method of forming an encapsulated solid electrochemical component includes stacking a first separator, a solid electrochemical component, and a second separator on an upper surface of a vacuum plate to form an electrochemical component assembly, applying a vacuum to the electrochemical component assembly, and applying a first laser beam around at least part of a circumference of the solid electrochemical component in the electrochemical component assembly while applying the vacuum to melt and bond the first and second separators together. The method also includes applying a second laser beam around the circumference of the solid electrochemical component in the electrochemical component assembly while applying the vacuum. The second laser beam has a second relatively high power compared to the power of the first laser beam such that the first and second separators around the circumference of the solid electrochemical component are cut. | 11-01-2012 |
20110318624 | THERMAL BATTERY CATHODE MATERIALS CONTAINING NICKEL DISULFIDE AND BATTERIES INCLUDING SAME - A cathode material includes a primary active cathode material and an amount of NiS | 12-29-2011 |
20110253254 | ACTIVATION MECHANISM FOR A RESERVE BATTERY CELL - An activation mechanism for a reserve battery cell generally includes a housing with a chamber containing an electrolytic solution and a delivery device configured to discharge the electrolytic solution from the housing. The delivery device includes a compressed spring configured to be released in response to an external force to initiate the discharge of the electrolytic solution from the housing. | 10-20-2011 |
20110095726 | Physical Key To Facilitate An Inactive Mode For A State-Of-Charge Indicator Within A Battery - The invention provides a system and battery including a state-of-charge indicator (SOCI) to monitor and display the amount of charge within the battery. The SOCI is capable of operating in a hibernate mode, an active mode, and/or a sleep mode. The battery may be manufactured, shipped and/or stored with the SOCI operating in a power-saving hibernate mode. The SOCI may exit the hibernate mode and begin operating in active mode if a physical key connected to the battery is removed. In addition, the SOCI may operate in a sleep mode while the battery is not being used to conserve power. Furthermore, the invention provides a method of making a battery including a SOCI to monitor and display the state of charge of the battery. | 04-28-2011 |
20110087361 | Automated Tracking And Storage System For Use With An Automated Thermal Battery Manufacturing System - The present invention is directed at a system for automatically manufacturing thermal batteries. In the present invention, thermal batteries are manufactured using a press system, a stacking system and an enclosing system. The present invention uses a tracking, storage, and/or retrieval system to track various components used in the manufacturing process to improve manufacturing quality and to track the various components throughout the manufacturing process. | 04-14-2011 |
20110072651 | SYSTEM AND METHOD FOR MANUFACTURING A THERMAL BATTERY - An automated system and method for manufacturing a thermal battery is disclosed. In an exemplary embodiment, the system comprises a press system, a stacking system, and an enclosing system to automate the manufacturing process of thermal batteries. A method of manufacturing a thermal battery using the system is also disclosed. An automated tracking, storage, and retrieval system for pellets used in the manufacturing process and a pellet pairing system are also disclosed. | 03-31-2011 |
20100318234 | HYBRID ENERGY STORAGE SYSTEM, RENEWABLE ENERGY SYSTEM INCLUDING THE STORAGE SYSTEM, AND METHOD OF USING SAME - This disclosure generally relates to stabilizing energy provided by an energy source, and more particularly to systems and methods for using multiple types of energy storage devices to selectively capture and provide energy. An energy source provides energy, and the energy storage devices selectively capture energy provided by the energy source in excess of an immediate energy requirement of a load and selectively provide energy when the immediate energy requirement of the load exceeds the energy provided by the energy source. | 12-16-2010 |
20100310917 | THERMAL BATTERY ELECTROLYTE MATERIALS, ELECTRODE-ELECTROLYTE COMPOSITES, AND BATTERIES INCLUDING SAME - Ternary or quaternary electrolyte material for use in thermal batteries that is substantially free of binders is disclosed. Composites of electrodes and electrolytes that contain the electrolyte material and batteries that contain the electrolyte material are also disclosed. | 12-09-2010 |
20100310908 | NON-AQUEOUS ELECTROCHEMICAL CELL HAVING A MIXTURE OF AT LEAST THREE CATHODE MATERIALS THEREIN - The present disclosure relates generally to a high capacity cathode material suitable for use in a non-aqueous electrochemical cell that comprises a mixture of at least three different cathode materials, and more specifically a mixture of fluorinated carbon, an oxide of copper and an oxide of manganese. The present disclosure additionally relates to a non-aqueous electrochemical cell comprising such a cathode material and, in particular, to such a non-aqueous electrochemical cell that can deliver a higher capacity than a conventional cell, and/or that possesses an improved end-of-life indication. | 12-09-2010 |
20100310907 | END OF LIFE INDICATION SYSTEM AND METHOD FOR NON-AQUEOUS CELL HAVING AMORPHOUS OR SEMI-CRYSTALLINE COPPER MANGANESE OXIDE CATHOD MATERIAL - The present disclosure relates generally to indicating an end of life condition of an electrochemical device, and more particularly to systems and methods for sensing and determining an end of life condition in a cell comprising a high capacity cathode material suitable for use in a non-aqueous electrochemical cell. The high capacity cathode material has an amorphous or semi-crystalline form of copper manganese oxide, and optionally fluorinated carbon. The present disclosure additionally relates to transmitting the determined end of life condition to a user or monitoring device of the cell. | 12-09-2010 |
20100308765 | HYBRID ENERGY STORAGE SYSTEM, RENEWABLE ENERGY SYSTEM INCLUDING THE STORAGE SYSTEM, AND METHOD OF USING SAME - This disclosure generally relates to stabilizing energy provided by an energy source, and more particularly to systems and methods for using multiple types of energy storage devices to selectively capture and provide energy. An energy source provides energy, and the energy storage devices selectively capture energy provided by the energy source in excess of an immediate energy requirement of a load and selectively provide energy when the immediate energy requirement of the load exceeds the energy provided by the energy source. | 12-09-2010 |
20100308253 | THERMAL BATTERY CATHODE MATERIALS AND BATTERIES INCLUDING SAME - Cathode materials for use in thermal batteries are disclosed. The cathode material includes a primary active material and an amount of a bi-metal sulfide such as CuFeS | 12-09-2010 |
20100221616 | NON-AQUEOUS CELL HAVING AMORPHOUS OR SEMI-CRYSTALLINE COPPER MANGANESE OXIDE CATHODE MATERIAL - The present disclosure relates generally to a high capacity cathode material suitable for use in a non-aqueous electrochemical cell that comprises copper manganese oxide, which may be in amorphous or semi-crystalline form, and optionally fluorinated carbon. The present disclosure additionally relates to a non-aqueous electrochemical cell comprising such a cathode material and, in particular, to such a non-aqueous electrochemical cell that can deliver a higher capacity than conventional cell. | 09-02-2010 |
20090309544 | METHOD AND SYSTEM FOR CELL EQUALIZATION WITH SWITCHED CHARGING SOURCES - A system and method for charging a rechargeable, or secondary, battery including a series string of cells, includes a topology of charging sources that selectively provides charging current to cells that need to be charged, but avoids overcharging cells that are already charged above a predetermined voltage threshold. Based on individual cell voltage measurements, the charging current is controlled in a manner to direct charging current to the battery cell(s) needing charge until these cells are fully charged, and by-passes battery cells that are fully charged or become fully charged. | 12-17-2009 |
20090267565 | METHOD AND SYSTEM FOR CELL EQUALIZATION WITH CHARGING SOURCES AND SHUNT REGULATORS - A system and method for charging a rechargeable, or secondary, battery including a series string of cells, includes a topology of charging sources that selectively provides charging current to cells that need to be charged, but avoids overcharging cells that are already charged above a predetermined voltage threshold. Based on individual cell voltage measurements, the charging current is controlled in a manner to direct charging current to the battery cell(s) needing charge until these cells are fully charged, and by-passes battery cells that are fully charged or become fully charged. | 10-29-2009 |
20090226809 | LITHIUM-SULFUR BATTERY AND CATHODE THEREFORE - An improved cathode suitable for lithium-sulfur batteries, a battery including the cathode, and a battery including a separator containing inorganic fillers are disclosed. The cathode includes sulfur and a metal oxide and optionally includes an additional polymeric material. The metal oxide reduces dissolution of sulfur at the cathode and reduces sulfur-containing deposits on the battery anode, thereby providing a battery with relatively high energy density and good partial discharge performance. The separator also reduces unwanted diffusion of sulfur species. | 09-10-2009 |
20090216473 | SYSTEM AND METHOD FOR NONDESTRUCTIVE TESTING OF THERMAL BATTERIES - The present invention generally relates to a thermal battery testing apparatus and a method for testing a thermal battery. The method includes one or more of the following steps: connecting the thermal battery in series with a resistance; connecting the thermal battery and resistance in series with a sinusoidal voltage source; applying a sinusoidal voltage to the thermal battery, measuring an impedance, reactance and/or capacitance across two terminals of the thermal battery, comparing the measured impedance, reactance and/or capacitance to a reference impedance, reactance and/or capacitance; and indicating whether the tested thermal battery is “in family” or “out of family.” The battery testing apparatus may include a testing device configured to apply a sinusoidal voltage to the thermal battery and to measure the impedance, reactance and/or capacitance across two terminals of the thermal battery. The testing apparatus may further be configured to report “out of family” batteries. | 08-27-2009 |