-
1.发明申请Method for estimating long term end-of-life characteristics using short-term data for lithium/silver vanadium oxide cells 有权使用锂/银钒氧化物电池的短期数据估算长期寿命终止特性的方法公开(公告)号:US20050216212A1
公开(公告)日:2005-09-29
申请号:US11087302
申请日:2005-03-23
申请人: Kenneth Syracuse , Noelle Waite , Hong Gan , Esther Takeuchi
发明人: Kenneth Syracuse , Noelle Waite , Hong Gan , Esther Takeuchi
CPC分类号: G01R31/3627 , G01R31/3679
摘要: The present invention is directed to a method for analyzing the tail-end behavior of a lithium cell having a solid cathode. The tail of a longer-term accelerated discharge data (ADD) test is estimated from the tail of two shorter-term ADD tests. This is accomplished by first comparing the discharge tails of shorter-term ADD tests and determining angles or rotation that correspond to Rdc growth, and then trending rotation angles versus time to reach a give DoD. For example, the 18-month and 36-month ADD test tails are used to estimate the ADD test tail of a similarly constructed cell subjected to a longer-term ADD test, for example a 48-month ADD test.
摘要翻译: 本发明涉及一种用于分析具有固体阴极的锂电池的尾端行为的方法。 从两个短期ADD测试的尾部估计长期加速放电数据(ADD)测试的尾部。 这是通过首先比较短期ADD测试的放电尾数和确定与Rdc生长相对应的角度或旋转,然后将趋势旋转角度与时间进行比较以达到给予DoD。 例如,18个月和36个月的ADD测试尾部用于估计经历长期ADD测试的类似构建的细胞的ADD测试尾,例如48个月的ADD测试。
-
2.发明授权公开(公告)号:US06930468B2
公开(公告)日:2005-08-16
申请号:US10658731
申请日:2003-09-09
申请人: Kenneth Syracuse , Noelle Waite , Hong Gan , Esther S. Takeuchi
发明人: Kenneth Syracuse , Noelle Waite , Hong Gan , Esther S. Takeuchi
IPC分类号: H01M4/48 , H01M4/485 , H01M4/54 , H01M4/58 , H01M6/16 , H01M6/50 , H01M10/42 , H01M10/44 , H01M10/48 , H02J7/00
CPC分类号: H01M6/50 , H01M4/485 , H01M4/54 , H01M4/5825 , H01M6/16 , H01M6/5033 , H01M10/4264 , H01M10/44
摘要: It is known that reforming implantable defibrillator capacitors at least partially restores and preserves their charging efficiency. An industry-recognized standard is to reform implantable capacitors by pulse discharging the connected electrochemical cell about once every three months throughout the useful life of the medical device. A Li/SVO cell typically powers such devices. The present invention relates to methodologies for significantly minimizing, if not entirely eliminating, the occurrence of voltage delay and irreversible Rdc growth in the about 25% to 70% DOD region by subjecting Li/SVO cells to novel discharge regimes. At the same time, the connected capacitors in the cardiac defibrillator are reformed to maintain them at their rated breakdown voltages.
摘要翻译: 众所周知,重组可植入除颤器电容器至少部分恢复并保持其充电效率。 行业公认的标准是通过在医疗设备的整个使用寿命期间每三个月大约一次脉冲地排放连接的电化学电池来重建可植入电容器。 Li / SVO单元通常为这些设备供电。 本发明涉及通过使Li / SVO细胞经受新颖的放电方式,在大约25%至70%的DOD区域中显着地最小化(如果不是完全消除)电压延迟和不可逆Rdc生长的方法。 同时,将心脏除颤器中连接的电容器进行重整,以将其维持在额定击穿电压。
-
3.发明授权Methods to improve efficiency of lithium/silver vanadium oxide cell discharge energy in implantable medical device applications 失效提高植入式医疗器械应用中锂/银氧钒电池放电能量效率的方法公开(公告)号:US06982543B2
公开(公告)日:2006-01-03
申请号:US10775621
申请日:2004-02-10
申请人: Kenneth Syracuse , Noelle Waite , Hong Gan , Esther S. Takeuchi
发明人: Kenneth Syracuse , Noelle Waite , Hong Gan , Esther S. Takeuchi
IPC分类号: H02J7/00
摘要: It is known that reforming implantable defibrillator capacitors at least partially restores and preserves their charging efficiency. An industry-recognized standard is to reform implantable capacitors by pulse discharging the connected electrochemical cell about once every three months throughout the useful life of the medical device. A Li/SVO cell typically powers such devices. The present invention relates to methodologies for accurately determining the precise boundaries of voltage delay and irreversible Rdc growth region in the about 25% to 70% DOD region so that more frequent pulse discharging for the purpose of cell reform is confined to the limits of the region. At the same time, the connected capacitors in the cardiac defibrillator are reformed to maintain them at their rated breakdown voltages.
摘要翻译: 众所周知,重组可植入除颤器电容器至少部分恢复并保持其充电效率。 行业公认的标准是通过在医疗设备的整个使用寿命期间每三个月大约一次脉冲地排放连接的电化学电池来重建可植入电容器。 Li / SVO单元通常为这些设备供电。 本发明涉及精确地确定约25%至70%DOD区域中的电压延迟和不可逆Rdc生长区域的精确边界的方法,以便将用于细胞改造的更频繁的脉冲放电限制在该区域的极限 。 同时,将心脏除颤器中连接的电容器进行重整,以将其维持在额定击穿电压。
-
4.发明授权Method for estimating long term end-of-life characteristics using short-term data for lithium/silver vanadium oxide cells 有权使用锂/银钒氧化物电池的短期数据估算长期寿命终止特性的方法公开(公告)号:US07092830B2
公开(公告)日:2006-08-15
申请号:US11087302
申请日:2005-03-23
申请人: Kenneth Syracuse , Noelle Waite , Hong Gan , Esther S. Takeuchi
发明人: Kenneth Syracuse , Noelle Waite , Hong Gan , Esther S. Takeuchi
IPC分类号: G01R31/36
CPC分类号: G01R31/3627 , G01R31/3679
摘要: The present invention is directed to a method for analyzing the tail-end behavior of a lithium cell having a solid cathode. The tail of a longer-term accelerated discharge data (ADD) test is estimated from the tail of two shorter-term ADD tests. This is accomplished by first comparing the discharge tails of shorter-term ADD tests and determining angles or rotation that correspond to Rdc growth, and then trending rotation angles versus time to reach a give DoD. For example, the 18-month and 36-month ADD test tails are used to estimate the ADD test tail of a similarly constructed cell subjected to a longer-term ADD test, for example a 48-month ADD test.
摘要翻译: 本发明涉及一种用于分析具有固体阴极的锂电池的尾端行为的方法。 从两个短期ADD测试的尾部估计长期加速放电数据(ADD)测试的尾部。 这是通过首先比较短期ADD测试的放电尾数和确定与Rdc生长相对应的角度或旋转,然后将趋势旋转角度与时间进行比较以达到给予DoD。 例如,18个月和36个月的ADD测试尾部用于估计经历长期ADD测试的类似构建的细胞的ADD测试尾,例如48个月的ADD测试。
-
5.发明授权Discharge methodologies for lithium/silver vanadium oxide cells to manage voltage delay and permanent RDC growth region 失效用于锂/银钒氧化物电池的放电方法来管理电压延迟和永久RDC生长区域公开(公告)号:US07375496B2
公开(公告)日:2008-05-20
申请号:US10646216
申请日:2003-08-22
申请人: Hong Gan , Noelle Waite , Kenneth Syracuse , Esther S. Takeuchi
发明人: Hong Gan , Noelle Waite , Kenneth Syracuse , Esther S. Takeuchi
IPC分类号: H01M10/44
CPC分类号: H01M10/44 , H01M4/40 , H01M4/485 , H01M4/54 , H01M4/5825 , H01M10/0525 , H01M10/4264
摘要: It is known that reforming implantable defibrillator capacitors at least partially restores and preserves their charging efficiency. An industry-recognized standard is to reform implantable capacitors by pulse discharging the connected electrochemical cell about once every three months throughout the useful life of the medical device. A Li/SVO cell typically powers such devices. The present invention relates to methodologies for significantly minimizing, if not entirely eliminating, the occurrence of voltage delay and irreversible Rdc growth in the about 35 % to 70 % DOD region by subjecting Li/SVO cells to novel discharge regimes. At the same time, the connected capacitors in the cardiac defibrillator are reformed to maintain them at their rated breakdown voltages.
摘要翻译: 众所周知,重组可植入除颤器电容器至少部分恢复并保持其充电效率。 行业公认的标准是通过在医疗设备的整个使用寿命期间每三个月大约一次脉冲地排放连接的电化学电池来重建可植入电容器。 Li / SVO单元通常为这些设备供电。 本发明涉及通过使Li / SVO细胞经受新颖的放电方式,使大约35%至70%的DOD区域中的电压延迟和不可逆Rdc生长显着最小化(如果不是完全消除)的方法。 同时,将心脏除颤器中连接的电容器进行重整,以将其维持在额定击穿电压。
-
-
-
-
搜索结果
5 条记录 (耗时 0.029 秒)
