| International Battery, Inc. Patent applications |
| Patent application number | Title | Published |
|---|
| 20120064407 | POLYMER ACIDS AS PH-REDUCING BINDER OR AGENT FOR AQUEOUS LITHIUM-ION BATTERIES - A positive electrode includes positive active material, conductive additive, water soluble polymer, water coated on the current collector. The slurry includes an active material, a water soluble binder, water, and a carboxylic acid-containing polymer sufficient to reduce the pH of the liquid slurry to a level below about 11.8. A method of forming an electrode is also disclosed. | 03-15-2012 |
| 20120064229 | POLYMER ACIDS AS BINDER AND PH REDUCING AGENT FOR AQUEOUS LITHIUM-ION CELLS - A positive electrode for an electrochemical cell. The positive electrode includes a current collector that is coated with a slurry comprising a positive active material, a water-soluble polymer which acts as a binder and pH adjuster, a conductive additive and water. The positive active slurry was then coated on to the current collector and dried. | 03-15-2012 |
| 20120058400 | RECHARGEABLE BATTERY USING AN AQUEOUS BINDER - A battery includes a positive electrode mix having a positive electrode active material, a water soluble binder including a poly(acrylonitrile-co-acrylamide) polymer and water, and a conductive additive. The battery also includes a negative electrode mix having a negative electrode active material, a water soluble binder including a poly(acrylonitrile-co-acrylamide) polymer and water, and a conductive additive or additives. The battery also includes an electrolyte. | 03-08-2012 |
| 20120034499 | STRUCTURE AND METHOD FOR REMOVING BATTERY CELL HEAT - An apparatus includes a thermal strap that connects a first terminal of a first battery cell and a second terminal of a second battery cell. The thermal strap has high thermal and electrical conductivity. A wall link connects the thermal strap to a wall having high thermal conductivity. The wall link includes a first portion having high thermal and electrical conductivity and a second portion having high thermal conductivity but low electrical conductivity. The second portion is located between the first portion and the wall. | 02-09-2012 |
| 20110262793 | MAINTENANCE-FREE THERMAL MANAGEMENT BATTERY PACK SYSTEM - A thermal management battery pack system includes a containment box having a plurality of sides located around a perimeter of the bottom and a hermetically sealed cell box containing at least one energy cell located within the cell box. The cell box has a cover and a plurality of sides. The sides of the cell box are located away from the sides of the containment box. A plurality of external power connection points are located on the cover of the cell box. A dielectric fluid fills the cell box around the at least one energy cell. A sufficient amount of a phase-change material is located in the dielectric fluid to maintain a temperature within the cell box to within about five degrees Celsius of a temperature exterior to the containment box. | 10-27-2011 |
| 20110236740 | NESTED HEATSINK HOUSING FOR LITHIUM ION CELLS - A cell housing includes a first half section having a longitudinal side having a first end and a second end. A first lateral side extends perpendicularly to the longitudinal side from the first end. The first lateral side has a first tongue. A second lateral side extends perpendicularly to the longitudinal side from the second end. The second lateral side has a first groove. A second half section is identical to the first half section. The first and second half sections are coupled to each other such that the first tongue of the first half section is inserted into the first groove of the second half section and the first tongue of the second half section is inserted into the first groove of the first half section, forming a closed perimeter. | 09-29-2011 |
| 20110236732 | PACKAGE FOR LARGE FORMAT LITHIUM ION CELLS - A battery cell is disclosed. The battery cell includes a sealed foil pouch having a plurality of openings and a terminal block disposed within the sealed foil pouch. The terminal block has a plurality of terminals extending outwardly therefrom. Each of the plurality of terminals extends through one of the plurality of openings. A method of making the battery cell is also disclosed. | 09-29-2011 |
| 20110189533 | INTEGRATED ENERGY STORAGE UNIT - An integrated energy storage unit includes a container and a battery housed within the container. The battery includes a positive battery terminal, a negative battery terminal, and a battery electrolyte. A capacitor is housed within the container, separate from the battery. The capacitor includes a positive capacitor terminal, a negative capacitor terminal, and a capacitor electrolyte. A plurality of connectors electrically couple the battery and the capacitor in parallel. A positive lead is electrically coupled to the positive battery terminal and the positive capacitor terminal. The positive lead extends from the container. A negative lead is electrically coupled to the negative battery terminal and the negative capacitor terminal. The negative lead extends from the container. | 08-04-2011 |
| 20110189507 | EXTENDED ENERGY STORAGE UNIT - An integrated energy storage unit includes a container and a battery housed within the container. The battery includes a positive battery terminal, a negative battery terminal, and a battery electrolyte. A capacitor is housed within the container, separate from the battery. The capacitor includes a positive capacitor terminal, a negative capacitor terminal, and a capacitor electrolyte. A plurality of connectors electrically couple the battery and the capacitor in parallel. A positive lead is electrically coupled to the positive battery terminal and the positive capacitor terminal. The positive lead extends from the container. A negative lead is electrically coupled to the negative battery terminal and the negative capacitor terminal. The negative lead extends from the container. | 08-04-2011 |
| 20110168956 | WATER SOLUBLE POLYMER BINDER FOR LITHIUM ION BATTERY - An electrode for a rechargeable lithium ion battery includes an electro-active material, a (polystyrenebutadiene rubber)-poly (acrylonitrile-co-acrylamide) polymer, and a conductive additive. A battery using the inventive electrode is also disclosed. | 07-14-2011 |
| 20110143206 | ELECTRODE FOR RECHARGEABLE BATTERIES USING AQUEOUS BINDER SOLUTION FOR LI-ION BATTERIES - An electrode mix includes an active material, a water soluble binder, a water soluble thickener, and a sufficient amount of a material selected from the group consisting of ZnO, In | 06-16-2011 |
| 20110141661 | LARGE FORMAT ULTRACAPACITORS AND METHOD OF ASSEMBLY - A capacitor includes a plurality of electrode substrates, with each of the plurality of electrode substrates having a coated portion and an uncoated portion. The coated portion is coated with a coating material that includes a high surface area activated carbon material, a water soluble binder selected from the group consisting of: poly vinyl alcohol, poly acrylic acid, polymethacrylic acid, polyethylene oxide, polyacrylamide, poly-N-isopropylearylamide, poly-N,N-dimethylacrylamide, polyethyleneimine, polyoxyethylene, polyvinylsulfonic acid, poly (2-methoxyethoxyethoxyethylene), butadiene-acrylonitrile, and combinations thereof, and a water soluble thickener. A separator is inserted between adjacent substrates of the plurality of electrode substrates. The capacitor further includes an electrolyte. A method of manufacturing the capacitor is also provided. | 06-16-2011 |
| 20110136009 | RECHARGEABLE BATTERY USING AN AQUEOUS BINDER - A battery includes a positive electrode mix having a positive electrode active material, a water soluble binder including a poly (acrylonitrile-co-acrylamide) polymer and water, and a conductive additive. The battery also includes a negative electrode mix having a negative electrode active material, a water soluble binder including a poly (acrylonitrile-co-acrylamide) polymer and water, and a conductive additive or additives. The battery also includes an electrolyte. | 06-09-2011 |
| 20110070478 | MONOBLOCK LITHIUM ION BATTERY - The present invention describes a monoblock for a plurality of lithium ion cells. The monoblock includes a case having a base and a cover dimensioned and configured to the base. The case includes a chamber that includes cell compartments for lithium cells. Each lithium cell is disposed in a leaf spring that applies compression pressure on the cell. The structural integrity of the battery and cells is maintained using internal and external anti-swelling features including a waffle pattern, backing plates, etc. A liquid and gas pressure management system is also incorporated with the case and realized by a vent plenum, check valves, bladders, bags, etc. | 03-24-2011 |
| 20100233527 | BATTERY TERMINAL - A battery terminal including a fastener shaft and a non-parallel slot, which when compressed by the use of a fastener such as a rivet, creates an autogenous spring force in a direction outward from the slot. When an electrode assembly is attached to the battery terminal, the autogenous spring force acts to create a more secure and reliable connection between the battery terminal and the electrode assembly. | 09-16-2010 |
| 20100109608 | AUTONOMOUS BALANCING OF SERIES CONNECTED CHARGE STORAGE DEVICES - A charge balancing circuit implemented within a charge storage device (cell) in a series connected charge storage unit (battery) made up of a plurality of cells. The charge balancing circuit may utilize a controller to sense the voltage in the cell it is implemented therein and the cells adjacent thereto. If the voltage of the current cell exceeds a threshold voltage and is greater than at least one adjacent cell the current cell can transfer charge to the adjacent cell having the lowest voltage. The transfer of the charge is done with a switching network that extracts current from the current cell and then transfers the current to the adjacent cell having the lowest voltage. The switching network may utilize switches and a current storage device (inductor) to transfer the charge. The controller may activate different switches based on which adjacent cell has the lowest voltage. | 05-06-2010 |
