Patent application number | Description | Published |
20100189721 | ANTIBODY FORMULATIONS - This invention relates to a shear and temperature stable antibody formulations that are more stable than compared to a standard formulation (such as 30 mM citrate, 100 mM NaCl, pH 6.5). The present invention's shear and temperature stable antibody formulations show reduced precipitation when subjected to stress conditions but the standard formulation had aggregated. This result was unpredictable because thermodynamically the two formulations are similar as seen by their DSC (differential scanning calorimeter) profiles. | 07-29-2010 |
20110020328 | ANTIBODY FORMULATIONS - This invention relates to a shear and temperature stable antibody formulations that are more stable than compared to a standard formulation (such as 30 mM citrate, 100 mM NaCl, pH 6.5). The present invention's shear and temperature stable antibody formulations show reduced precipitation when subjected to stress conditions but the standard formulation had aggregated. This result was unpredictable because thermodynamically the two formulations are similar as seen by their DSC (differential scanning calorimeter) profiles. | 01-27-2011 |
20150158951 | ANTIBODY FORMULATIONS - This invention relates to a shear and temperature stable antibody formulations that are more stable than compared to a standard formulation (such as 30 mM citrate, 100 mM NaCl, pH 6.5). The present invention's shear and temperature stable antibody formulations show reduced precipitation when subjected to stress conditions but the standard formulation had aggregated. This result was unpredictable because thermodynamically the two formulations are similar as seen by their DSC (differential scanning calorimeter) profiles. | 06-11-2015 |
Patent application number | Description | Published |
20130158913 | SYSTEM AND METHOD FOR DETERMINING CHARGING AND DISCHARGING POWER LEVELS FOR A BATTERY PACK - A system and a method for determining charging and discharging power levels for a battery pack are provided. The battery pack has an enclosure holding a battery module therein. The system includes a computer that determines a temperature correlation value based on first and second temperature values associated with the battery pack. The computer determines a third temperature value indicative of a temperature level of a first battery cell disposed adjacent to the end of a housing in the battery pack based on the first temperature value and the temperature correlation value. The computer determines a desired charging power level for the battery pack based on the third temperature value. | 06-20-2013 |
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 |
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 |
20140322563 | BATTERY SYSTEM AND METHOD FOR COOLING THE BATTERY SYSTEM - A battery system having a cooling plate with a conduit therein is provided. The system further includes a battery module having first and second battery cells. The system further includes a compressor, and a condenser coupled between the compressor and the conduit of the cooling plate. The system further includes a microprocessor that determines a maximum temperature level of the first and second battery cells, and determines a target temperature level for the cooling plate based on the maximum temperature level. The microprocessor determines a temperature error value based on a difference between a temperature level and the target temperature level of the cooling plate, and determines a desired RPM value for the compressor based on the temperature error value. | 10-30-2014 |
20140322572 | BATTERY SYSTEM AND METHOD OF ASSEMBLING THE BATTERY SYSTEM - A battery system is provided. The battery system includes a cooling plate having a housing, an inlet port, and an outlet port. The housing defines an interior region. Both the inlet port and the outlet port fluidly communicate with the interior region. The battery system further includes a solid thermoplastic cooling fin having first and second panel portions. The first panel portion is disposed directly on and against the cooling plate. The battery system further includes a first battery cell disposed directly on and against a first side of the second panel portion of the solid thermoplastic cooling fin. The solid thermoplastic cooling fin is configured to conduct heat energy from the first battery cell to the cooling plate. | 10-30-2014 |
20150111075 | BATTERY CELL ASSEMBLY - A battery cell assembly having a first battery cell and a cooling fin is provided. The first battery cell has a first housing and first and second electrical terminals. The cooling fin is disposed against the first housing. The cooling fin has a substantially rectangular-shaped plate that extends along a longitudinal axis. The substantially rectangular-shaped plate has a plate portion with a first side and a second side. The first side has a first plurality of recessed regions and a first plurality of flat regions. Each recessed region of the first plurality of recessed regions is disposed between two flat regions of the first plurality of flat regions along the longitudinal axis. The first housing of the first battery cell is disposed against the first side such that the first housing contacts the first plurality of flat regions. | 04-23-2015 |
Patent application number | Description | Published |
20100069689 | Process and System for Providing Acetylene - A system and a process for providing acetylene, preferably at a high purity level (e.g., comprising 100 parts per million (“ppm”), or 10 ppm, or 1 ppm, or 100 parts per billion (“ppb”), or 10 ppb, or 1 ppb or less of solvent), to a point of use, such as a semiconductor manufacturing process, is described herein. In one aspect, there is provided a process for providing a process for providing a high purity acetylene comprising 100 ppm or less solvent to a point of use comprising: providing an acetylene feed stream comprising acetylene and solvent at a temperature ranging from 20° C. to −50° C.; and introducing the acetylene feed stream to a purifier at a temperature ranging from −50° C. to 30° C. to remove at least a portion of the solvent contained therein and provide the high purity acetylene. | 03-18-2010 |
20120118763 | Process and System for Providing Acetylene - A system for providing a high purity acetylene comprising 100 ppm or less solvent to a point of use comprising a storage vessel that houses an acetylene feed steam comprising acetylene and solvent; a cooling system that maintains the storage vessel and provides the acetylene feed stream at a temperature ranging from 20° C. to −50° C.; and a purifier in fluid communication with the storage vessel wherein the acetylene feed stream is introduced into the purifier at a temperature ranging from −50° C. to 30° C. to remove at least a portion of the solvent contained therein and provide the high purity acetylene. | 05-17-2012 |
20120244715 | HIGH-SELECTIVITY ETCHING SYSTEM AND METHOD - In a method and system for vapor etching, a material to be etched and an etch resistant material are placed into an etching chamber. Thereafter, a pressure in the etching chamber is adjusted to a desired pressure and the substrate is exposed to an etching gas and a gas that comprises oxygen. The exposure substantially selectively etches the material to be etched while substantially avoiding the etching of the etch resistant material. | 09-27-2012 |