Patent application number | Description | Published |
20120153006 | ULTRASONIC WELDING SYSTEM AND METHOD FOR FORMING A WELD JOINT - An ultrasonic welding system and a method are provided. The system includes an ultrasonic welding device and a controller that generates control signals for inducing the device to form a first weld joint. The system further includes a power adjusting unit having a desired output power level curve indicating desired power levels over time for obtaining a desired weld joint. The unit receives data from the controller indicating power levels when forming the first weld joint. The unit compares a power level output by the controller at a first time with an associated power level of the curve at the first time, and induces the controller to increase the power level at a second time if the power level output by the controller at the first time is less than the associated power level of the curve at the first time. | 06-21-2012 |
20120180929 | ULTRASONIC WELDING SYSTEM AND METHOD FOR FORMING A WELD JOINT UTILIZING THE ULTRASONIC WELDING SYSTEM - An ultrasonic welding system and a method are provided. The system includes an ultrasonic welding device having an ultrasonic welding horn. The system further includes a controller generating control signals for inducing the welding device to form a first weld joint. The system further includes a power adjusting unit that induces the ultrasonic welding controller to increase a power level output by the ultrasonic welding controller to the ultrasonic welding device if a first displacement of the welding horn is less than the desired displacement during partial completion of forming the first weld joint, such that upon completion of the first weld joint an ending position of the ultrasonic welding horn is at a desired ending position. | 07-19-2012 |
20130183559 | LEAD-ACID BATTERY DESIGN HAVING VERSATILE FORM FACTOR - An electrochemical storage device comprises a plurality of layer electrodes, wherein each layer electrode includes a first charged sector and a second charged sector, wherein the second charged sector is charged oppositely compared to the first charged sector, and wherein the plurality of layer electrodes are assembled with respect to each other such that the first charged sector of a first plate of the plurality of layer electrodes is laid below the second charged sector of a second plate of the plurality of layer electrodes located immediately above the first plate, wherein the charges of the first charged sectors of the first and second plates have a first sign and the charges of the second charged sectors of the first and second plates have a second sign that is opposite the first sign; a separator sector located, and enabling ionic charge exchange between the first charged sector of the first plate and the second charged sector of the second plate. | 07-18-2013 |
20130255293 | BATTERY SYSTEM AND METHOD FOR COOLING THE BATTERY SYSTEM - A battery system and a method for cooling the battery system are provided. The system includes an evaporative cooling member, and a battery module having a housing, a battery cell, and a solid cooling fin. The housing holds the battery cell therein. The solid cooling fin has first and second panel portions. The first panel portion is disposed against the battery cell. The second panel portion extends through the housing and is disposed on the evaporative cooling member. The solid cooling fin conducts heat energy from the battery cell to the evaporative cooling member. The evaporative cooling member receives a gaseous-liquid refrigerant and transitions the gaseous-liquid refrigerant into a gaseous refrigerant utilizing the heat energy received from the solid cooling fin. | 10-03-2013 |
20130309542 | BATTERY CELL ASSEMBLY AND METHOD FOR MANUFACTURING A COOLING FIN FOR THE BATTERY CELL ASSEMBLY - A battery cell assembly is provided. The battery cell assembly includes a cooling fin having a rectangular-shaped aluminum plate, a tube, and a flexible thermally conductive sheet. The plate has a first side and a second side. The tube is coupled to the first side of the plate and extends on at least first, second, and third peripheral edge portions of the plate. The flexible thermally conductive sheet is disposed on the first side of the plate. The battery cell assembly further includes a battery cell disposed against the flexible thermally conductive sheet of the cooling fin. | 11-21-2013 |
20140087237 | LEAD-ACID BATTERY DESIGN HAVING VERSATILE FORM FACTOR - An electrochemical storage device comprises a plurality of layer electrodes each including a first charged sector and a second charged sector. The plurality of layer electrodes are assembled with respect to each other such that the first charged sector of a first plate of the plurality of layer electrodes is laid below the second charged sector of a second plate of the plurality of layer electrodes located immediately above the first plate. The charges of the first charged sectors of the first and second plates have a first sign and the charges of the second charged sectors of the first and second plates have a second sign that is opposite the first sign. The device also comprises a separator sector located, and enabling ionic charge exchange, between the first charged sector of the first plate and the second charged sector of the second plate. | 03-27-2014 |
20140113177 | LEAD-ACID BATTERY DESIGN HAVING VERSATILE FORM FACTOR - A lead-acid battery is disclosed, wherein the battery comprises battery modules connected in series, a sealed container, a positive terminal, and a negative terminal. A battery module, in turn, comprises one or more cell assemblies electrically connected in parallel. Next in the hierarchical design, each cell assembly comprises a plurality of electrochemical cells connected in series. Finally, each electrochemical cell comprises a cathode and an anode ionically connected via a separator. In some embodiments, the plurality of modules are disposed within a common cavity in fluid communication via a common fluid. In some embodiments, each battery module has an electric potential of approximately 12 V. In some embodiments, the battery comprises four battery modules and provides a minimum electric potential of approximately 48V. | 04-24-2014 |
20140120390 | BATTERY CELL ASSEMBLY AND METHOD FOR MANUFACTURING A COOLING FIN FOR THE BATTERY CELL ASSEMBLY - A battery cell assembly is provided. The assembly includes a cooling fin having a tube and a flexible thermally conductive sheet disposed on the tube. The tube has first, second, and third tube portions. The first and second tube portions are substantially perpendicular to one another. The third tube portion is substantially perpendicular to the first and second tube portions and extends between the first and second tube portions. The sheet is coupled to at least the first and second tube portions and has a first sheet portion extending between the first and second tube portions. The assembly further includes a battery cell disposed against the first sheet portion of the sheet of the cooling fin. | 05-01-2014 |
20140147709 | BATTERY SYSTEM AND METHOD FOR COOLING A BATTERY CELL ASSEMBLY - A battery system having first and second battery cells and a cooling fin disposed between the first and second battery cells is provided. The cooling fin receives heat energy from the first and second battery cells and transitions a two-phase refrigerant into a gaseous refrigerant within an internal flow path. The compressor pumps the gaseous refrigerant into a condenser. The condenser transitions the gaseous refrigerant into the liquid refrigerant by extracting heat energy from the gaseous refrigerant. | 05-29-2014 |
20140308558 | BATTERY CELL ASSEMBLY AND METHOD FOR MANUFACTURING A COOLING FIN FOR THE BATTERY CELL ASSEMBLY - A battery cell assembly having a cooling fin with a tube and a flexible thermally conductive sheet disposed on the tube is provided. The tube has first, second, and third tube portions. The sheet has first, second, and third sheet portions. The first and second sheet portions are disposed on at least the first and second tube portions, respectively, and the third sheet portion extends between the first and second tube portions. The assembly further includes a first clamping member clamping the first sheet portion to the first tube portion, and a second clamping member clamping the second sheet portion to the second tube portion. The assembly further includes a battery cell disposed against the third sheet portion. | 10-16-2014 |