Class / Patent application number | Description | Number of patent applications / Date published |
429052000 | Activation of inactive cell | 22 |
20080292945 | BATTERY HEATING SYSTEM AND METHODS OF HEATING - A battery includes a plurality of insulated cells electrically interconnected to each other and a heat exchanger disposed above the plurality of cells to heat the battery. A system for transferring energy between a waste heat source and the battery and a method for controlling the temperature of the battery are also disclosed. | 11-27-2008 |
20090081529 | Positive electrodes for lithium batteries - This invention provides lithium-rich compounds as precursors for positive electrodes for lithium cells and batteries. The precursors comprise a Li | 03-26-2009 |
20110262781 | TEMPERATURE INCREASING METHOD FOR SODIUM-SULFUR BATTERY - A temperature increasing method for a sodium-sulfur battery includes three or more temperature gradients, and inflection points of 90±5° C. and 150±5° C. at which the temperature gradient changes, and the temperature gradient in a section from 90±5° C. to 150±5° C. is 5° C./h or less, whereby it is possible to increase a temperature of the sodium-sulfur battery quickly without affecting the quality of the sodium-sulfur battery. | 10-27-2011 |
20120082874 | On Demand Power Device - An on demand power device which allows users to selectively choose the desired voltage/current/power and/or amp-hour (A/H) capacity output from among a range of output available within the power device. This device relates to batteries used as long-term stand-by or back-up power sources such as for emergency use with a motor vehicle, during camping, vehicle starting/towing, and for power consumer electronics such as mobile phones or a global positioning systems. This device also relates to batteries for usages on water, underwater, on land, under land, in the air or in space which require power at discrete intervals. | 04-05-2012 |
20120135280 | Multi-Functional Insulation Materials For Thermal Batteries - A thermal battery including: a casing; a thermal battery cell disposed in the casing and operatively connected to electrical connections exposed from the casing; a fuel and oxidizer mixture disposed at least partially between the casing and the battery cell; and one or more initiators for initiating one or more of the thermal battery cell and the fuel and oxidizer mixture; wherein the fuel and oxidizer mixture produces an exothermic reaction upon initiation and forms a reaction product being a thermal insulator. | 05-31-2012 |
20120148882 | BATTERY - A battery including: a metal tube having opposed first and second ends, and an inner peripheral surface defining a chamber in which a liquid-activatable powder mixture is disposed therein; a permeable separator sheet for electrically isolating the powder mixture from the metal tube; a conductive rod having a first end located adjacent the first end of the metal tube and extending to a second end in contact with the powder mixture; and a passage extending between the first and second opposed ends of the metal tube to allow flow of liquid therethrough, wherein said liquid is able to be delivered from the passage into contact with the powder mixture via the permeable separator sheet substantially along the length of the metal tube so as to activate the powder mixture, whereby the activated powder mixture is adapted to generate a potential difference between the conductive rod and the metal tube. | 06-14-2012 |
20120301754 | Exothermic Reactive Portions Positioned About A Thermal Battery For Increasing an Active Life of the Thermal Battery - A thermal battery including: a casing; a thermal battery cell disposed in the casing and operatively connected to electrical connections exposed from the casing; at least one portion of a material having an exothermic reaction positioned between the casing and the thermal battery cell; a first initiator for initiating the thermal battery cell; at least one second initiator for initiating the at least one portion; and a temperature sensor for monitoring a temperature of the thermal battery cell corresponding to the at least one portion; wherein the second initiator initiates the at least one portion when the temperature of the thermal battery cell corresponding to the at least one portion falls below a predetermined level. | 11-29-2012 |
20130224535 | Non-Aqueous Electrolyte Solution and Non-Aqueous Secondary Battery - The non-aqueous electrolyte solution of the present invention is a non-aqueous electrolyte solution comprising acetonitrile and a lithium salt, wherein the anion of the lithium salt has a LUMO (lowest unoccupied molecular orbital) energy in the range of −2.00 to 4.35 eV, and a HOMO (highest occupied molecular orbital) energy in the range of −5.35 to −2.90 eV. | 08-29-2013 |
20130252036 | Lithium Ion Cell Preparation - The invention relate to methods of preparing lithium ion cells including cells using Li | 09-26-2013 |
20130344356 | Multi-Functional Insulation Materials For Thermal Batteries - A thermal battery including: a casing; a thermal battery cell disposed in the casing and operatively connected to electrical connections exposed from the casing; a first portion of a material capable of having an exothermic reaction positioned between the casing and the thermal battery cell; a second portion of a material capable of having an exothermic reaction positioned between the casing and the thermal battery cell; a first initiator for initiating the thermal battery cell; at least one second initiator for initiating the first portion; and a fuze in communication with the first and second portions for initiating the second portion resulting from the initiation of the first portion. | 12-26-2013 |
20140079963 | Battery System Control Method - The entire voltage of batteries is transmitted to a higher-ranking controller as information. The higher-ranking controller gives a discharge instruction or the like to a lower-ranking controller having a voltage higher than those of the other controllers. Thus, voltage variation of the respective batteries is balanced. | 03-20-2014 |
20140212707 | LOW TEMPERATURE SECONDARY CELL WITH SODIUM INTERCALATION ELECTRODE - The present invention provides a molten sodium secondary cell. In some cases, the secondary cell includes a sodium metal negative electrode, a positive electrode compartment that includes a positive electrode disposed in a molten positive electrolyte comprising Na—FSA (sodium-bis(fluorosulonyl)amide), and a sodium ion conductive electrolyte membrane that separates the negative electrode from the positive electrolyte. One disclosed example of electrolyte membrane material includes, without limitation, a NaSICON-type membrane. The positive electrode includes a sodium intercalation electrode. Non-limiting examples of the sodium intercalation electrode include Na | 07-31-2014 |
20140272486 | MOLTEN SALT BATTERY DEVICE AND CONTROL METHOD FOR MOLTEN SALT BATTERY DEVICE - A molten salt battery device includes: a plurality of molten salt battery units; and an auxiliary battery (an electric power source) capable of operating at room temperature. Each molten salt battery unit includes a heater. At the time of startup, the auxiliary battery supplies electric power to the heater of one molten salt battery unit so that the one molten salt battery unit is heated by the heater and thereby allowed to operate. The one molten salt battery unit allowed to operate supplies electric power to the heaters of the other molten salt battery units so that the other molten salt battery units are heated by the heaters and thereby allowed to operate. The molten salt battery is easily heated without the necessity of a large amount of energy and hence the molten salt battery device starts up in a short time. | 09-18-2014 |
20150010792 | MOLTEN METAL RECHARGEABLE ELECTROCHEMICAL CELL - The present invention provides rechargeable electrochemical cells comprising a molten anode, a cathode, and a non-aqueous electrolyte salt, wherein the electrolyte salt is situated between the molten anode and the cathode during the operation of the electrochemical cell, and the molten anode comprises an aluminum material; also provided are batteries comprising a plurality of such rechargeable electrochemical cells and processes for manufacturing such rechargeable electrochemical cells. | 01-08-2015 |
20150017488 | SOLID-STATE RESERVE BATTERY ACTIVATED BY COMPRESSION - A reserve batter is provided. The reserve battery includes a housing; a battery inside the housing, the battery including an anode, a cathode and a solid electrolyte between the anode and the cathode; and a movable piece for sliding within the housing to compress the battery such that sufficient heat is generated within the battery to activate the solid electrolyte. Methods of activating a reserve battery are also provided. | 01-15-2015 |
20150044524 | Solar Power Generation Method and Generation Apparatus - A solar power generation method involves generating power by irradiating ionized hydrogen water, in which ortho hydrogen molecules or hydrogenated hydrogen with ion binding properties has been dissolved, with light that includes at least waves with a wavelength of 193 nm, and then generating a potential difference between the ionized hydrogen water and water containing cations. | 02-12-2015 |
20150118525 | METHODS AND DEVICES FOR BATTERY PROTECTION - An electronic apparatus is provided. The electronic apparatus includes: a battery; at least one pressure sensor provided on a surface of the battery; and a controller electrically connected with the at least one pressure sensor. The at least one pressure sensor samples a pressure parameter on the surface of the battery. The controller acquires the pressure parameter, detects a magnitude relation between the pressure parameter and a predefined threshold value, and generates a control instruction for protecting the battery based on the detected magnitude relation. | 04-30-2015 |
20150118526 | A WATER-ACTIVATED, INGESTIBLE BATTERY - In one aspect, a water-activated, ingestible battery, comprises a cathode comprising a metal oxide with a decreased amount of toxicity, relative to an amount of toxicity of other metal oxides; an anode comprising a biocompatible, water stable compound, the anode infused with benign cations; a separator between the cathode and the anode; a cathodic lead comprising a first conducting material, the cathodic lead in contact with the cathode; an anodic lead comprising a second conducting material, the anodic lead in contact with the anode; and a cell casing comprising a water-permeable biocompatible polymer, the cathodic lead, and the anodic lead, with the cell casing enclosing the cathode, the anode, and the separator. | 04-30-2015 |
20150364795 | PRELITHIATION SOLUTIONS FOR LITHIUM-ION BATTERIES - Prelithiation solutions for lithium-based electrochemical cells are provided. The prelithiam solutions include prelithiation salts that are configured to prelithiate the negative electrode of the electrochemical cell. Lithium ions from the prelithiation lithium salt prelithiate the negative electrode when a charging current is passed between the negative and positive electrodes. In some embodiments, the prelithiation solution may function as an electrolyte for the electrochemical cell and further includes an ion conducting lithium-based salt that is stable at the cell operating voltage. Also provided are methods of prelithiation and electrochemical cells including prelithiation solutions. | 12-17-2015 |
20160006043 | STANDBY ELECTRICAL ENERGY STORAGE DEVICES - This invention relates to the formation of standby structural composite electrical energy storage devices, and a method of producing same. The device may be a standby battery or supercapacitor with first and second electrodes which are separated by a separator structure, wherein the device contains an electrolyte retained in a reservoir. The use of at least one valve allows the addition, removal of electrolyte fluids, and venting of any outgassing by products. | 01-07-2016 |
20160079586 | LIQUID POWERED ASSEMBLY - A liquid powered assembly including a housing; a removable bottom base; a seal; an electrolyte battery assembly; and, a liquid powered device is described. The housing includes an upper end portion and a lower end portion. The housing has a volume for containing an electrolyte solution. The lower end portion has a fluid inlet. The removable bottom base has a bottom surface for supporting the liquid powered assembly. A seal engages the housing and the removable bottom base to help contain the liquid. An electrolyte battery assembly is positioned within the housing. A liquid powered device is operably attached to the electrolyte battery assembly. To function, the housing and the removable bottom base are detached relative to each other and the housing is turned substantially upside down to allow filling of the housing via the inlet. The bottom base is then attached to the housing and the assembly is then inverted for use. | 03-17-2016 |
20220140409 | HIGH VOLTAGE BATTERY MODULE WITH SERIES CONNECTED CELLS AND INTERNAL RELAYS - A battery module is disclosed having a plurality of series-connected battery cells contained in, and electrically isolated from, an enclosure, with a first internal relay to control connection between cells and a positive terminal, and a second internal relay to control the connection between cells and a negative terminal. A control signal input is provided to control the relays. An embodiment is disclosed having an internal battery management system which controls the relays in response to a digital message. A modular battery pack is disclosed consisting of a plurality of modules connected in parallel, which can be individually and independently activated and deactivated. A method is provided for activating an individual module. | 05-05-2022 |