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1. 发明授权

EP2481122B1 NONAQUEOUS ELECTROLYTE SOLUTION TYPE LITHIUM ION SECONDARY BATTERY SYSTEM, METHOD FOR DETERMINING LITHIUM DEPOSITION IN THAT SYSTEM, AND VEHICLE PROVIDED WITH THAT SYSTEM 失效转让
标题翻译： WITH ION非水电解质溶液中，测定方法的锂沉淀这个系统，以及车辆与安装在其中该系统中的锂二次电池系统
公开(公告)号：EP2481122B1
公开(公告)日：2013-09-25
申请号：EP11730412.1
申请日：2011-03-31
申请人： TOYOTA JIDOSHA KABUSHIKI KAISHA
发明人： TEZUKA, Takayoshi , ISHISHITA, Teruo , MANO, Ryo , MATSUMOTO, Junichi
IPC分类号： H01M10/42 , H01M10/48 , B60L3/12 , B60L11/18 , G01R31/36
CPC分类号： G01R31/3662 , B60L3/12 , B60L11/1803 , B60L11/1851 , B60L11/1857 , B60L11/1861 , B60L2200/26 , B60L2250/10 , G01R31/3634 , G01R31/3658 , G01R31/3679 , H01M10/0525 , H01M10/42 , H01M10/48 , Y02E60/122 , Y02T10/7011 , Y02T10/7044 , Y02T10/705

2. 发明授权

EP3012140B1 HYBRID VEHICLE 失效
公开(公告)号：EP3012140B1
公开(公告)日：2018-06-13
申请号：EP15190855.5
申请日：2015-10-21
申请人： Toyota Jidosha Kabushiki Kaisha
发明人： MUTA, Koichiro , KAMATANI, Hideki , ITOH, Takao , YAMASAKI, Makoto , MANO, Ryo , KAGAMI, Masahiro , ENDO, Hiroki
IPC分类号： B60K6/48 , B60W20/00 , B60W20/40 , B60W10/06 , B60W10/08 , B60W20/16 , B60W10/26 , F01N9/00
CPC分类号： B60W20/16 , B60K6/445 , B60W10/06 , B60W10/08 , B60W10/26 , B60W20/00 , B60W20/40 , B60W2530/12 , B60W2710/06 , B60W2710/242 , F01N3/20 , F01N2240/16 , F02D29/02 , Y02T10/54 , Y02T10/6239 , Y02T10/6286 , Y10S903/905
摘要： When a catalyst temperature is lower than a predetermined temperature on a second or subsequent start of an engine since system activation of a vehicle, a catalyst warm-up request is output for the purpose of warming up a catalyst in a catalytic converter. An output limit Wout of a battery is not increased in response to a second or subsequent output of the catalyst warm-up request, while being increased in response to a first output of the catalyst warm-up request (S210 and S220). Accordingly, the catalyst warm-up in response to the second or subsequent output of the catalyst warm-up request since the system activation suppresses excessive output of electric power from the battery and thereby suppresses deterioration of the battery. Catalyst warm-up is performed in response to the second or subsequent output of the catalyst warm-up request. This suppresses deterioration of emission. As a result, this configuration satisfies both (balances) suppression of deterioration of the battery and suppression of deterioration of emission.

3. 发明公开

EP2573578A1 DIAGNOSIS DEVICE AND DIAGNOSIS METHOD FOR SECONDARY BATTERY, AND VEHICLE 审中-公开
标题翻译： DIAGNOSEGERÄTDIAGNOSEVERFAHRENFÜRSEKUNDÄREBATTERIE UND FAHRZEUG
公开(公告)号：EP2573578A1
公开(公告)日：2013-03-27
申请号：EP10851777.2
申请日：2010-05-21
申请人： TOYOTA JIDOSHA KABUSHIKI KAISHA
发明人： MANO, Ryo , ISHISHITA, Teruo , MATSUMOTO, Junichi , TEZUKA, Takayoshi
IPC分类号： G01R31/36
CPC分类号： G01R31/3606 , B60L11/1857 , G01R31/3679 , G06F17/00 , H01M10/425 , H01M10/441 , H01M10/48 , H01M10/482 , H01M10/486 , H01M2220/20 , H02J7/0021 , Y02T10/7011 , Y02T10/705 , Y02T10/7055
摘要： A diagnostic device diagnoses a rechargeable lithium ion battery that is configured of a plurality of battery blocks connected in series for a degraded state attributed to metallic lithium deposited therein. If a condition is established for starting a diagnosis, the diagnostic device starts discharging the battery, and after each battery block has a voltage (Vb) decreased to a measurement starting voltage (Vs) until the block has the voltage (Vb) decreased to a measurement ending voltage (Ve) the block discharges an amount (Q) of power, which the diagnostic device calculates for the battery block. If all blocks each discharge power in an amount (Q) larger than a brand-new product threshold value (A1) the diagnostic device determines that the battery is in a brand new condition. If all blocks each discharge power in an amount (Q) larger than a uselessness threshold value (A2) the diagnostic device determines that the battery is useful. If at least one block discharges power in an amount (Q) smaller than the uselessness threshold value (A2) the diagnostic device determines that the battery is useless.
摘要翻译：诊断装置诊断由串联连接的多个电池块构成的可再充电锂离子电池，用于归因于其中沉积的金属锂的劣化状态。如果建立用于开始诊断的条件，则诊断装置开始对电池进行放电，并且在每个电池块的电压（Vb）降低到测量开始电压（Vs）之后，直到电阻（Vb）降低到测量结束电压（Ve），该块排出诊断装置针对电池块计算的功率量（Q）。如果所有块都放电量大于全新产品阈值（A1）的量（Q），则诊断装置确定电池处于全新状态。如果所有块都以大于无用阈值（A2）的量（Q）进行放电，则诊断装置确定电池是有用的。如果至少一个块以比无用阈值（A2）小的量（Q）放电，则诊断装置确定电池是无用的。

4. 发明公开

EP2434302A1 VOLTAGE MONITORING APPARATUS 有权转让
标题翻译： SPANNUNGSÜBERWACHUNGSGERÄT
公开(公告)号：EP2434302A1
公开(公告)日：2012-03-28
申请号：EP10820526.1
申请日：2010-09-28
申请人： Denso Corporation , Toyota Jidosha Kabushiki Kaisha
发明人： MIZOGUCHI, Tomomichi , SHIMIZU, Takumi , TANIGAWA, Keisuke , SASAKI, Manabu , KIKUCHI, Yoshiaki , MANO, Ryo , IZUMI, Jyunta , ISHISHITA, Teruo
IPC分类号： G01R19/165
CPC分类号： G01R19/16542 , G01R35/00
摘要： A first monitor circuit 50 and a second monitor circuit 60 each having an identical configuration are provided in a voltage monitor. A threshold switching section 41 switches a threshold of each of switching units 51 and 61 provided in the respective monitor circuits 50 and 60 to a same value. Each of comparators 53 and 63 compares the threshold with a reference voltage to output a result of the comparison. A fault detecting section 42 compares the respective outputs from the comparators 53 and 63 with each other to detect a characteristic shift of the threshold of each of the monitor circuits 50 and 60.
摘要翻译：在电压监视器中设置具有相同结构的第一监视电路50和第二监视电路60。阈值切换部分41将设置在各个监视电路50和60中的每个开关单元51和61的阈值切换到相同的值。比较器53和63中的每一个将阈值与参考电压进行比较，以输出比较结果。故障检测部分42将比较器53和63的各个输出彼此进行比较，以检测每个监视电路50和60的阈值的特性偏移。

5. 发明授权

EP2485364B1 CONTROL DEVICE FOR AN ASSEMBLED BATTERY 有权转让
公开(公告)号：EP2485364B1
公开(公告)日：2019-04-24
申请号：EP10820527.9
申请日：2010-09-28
申请人： DENSO CORPORATION , TOYOTA JIDOSHA KABUSHIKI KAISHA
发明人： TANIGAWA, Keisuke , SHIMIZU, Takumi , MIZOGUCHI, Tomomichi , SASAKI, Manabu , KIKUCHI, Yoshiaki , MANO, Ryo , IZUMI, Jyunta , ISHISHITA, Teruo
IPC分类号： H02J7/00 , B60L11/18 , G01R31/36 , G01R19/165 , H01M10/48

6. 发明授权

EP2434302B1 VOLTAGE MONITORING APPARATUS 有权转让
公开(公告)号：EP2434302B1
公开(公告)日：2018-11-07
申请号：EP10820526.1
申请日：2010-09-28
申请人： Denso Corporation , TOYOTA JIDOSHA KABUSHIKI KAISHA
发明人： MIZOGUCHI, Tomomichi , SHIMIZU, Takumi , TANIGAWA, Keisuke , SASAKI, Manabu , KIKUCHI, Yoshiaki , MANO, Ryo , IZUMI, Jyunta , ISHISHITA, Teruo
IPC分类号： G01R19/165 , G01R35/00
CPC分类号： G01R19/16542 , G01R35/00
摘要： A first monitor circuit 50 and a second monitor circuit 60 each having an identical configuration are provided in a voltage monitor. A threshold switching section 41 switches a threshold of each of switching units 51 and 61 provided in the respective monitor circuits 50 and 60 to a same value. Each of comparators 53 and 63 compares the threshold with a reference voltage to output a result of the comparison. A fault detecting section 42 compares the respective outputs from the comparators 53 and 63 with each other to detect a characteristic shift of the threshold of each of the monitor circuits 50 and 60.

7. 发明公开

EP2481122A1 NONAQUEOUS ELECTROLYTE SOLUTION TYPE LITHIUM ION SECONDARY BATTERY SYSTEM, METHOD FOR DETERMINING LITHIUM DEPOSITION IN THAT SYSTEM, AND VEHICLE PROVIDED WITH THAT SYSTEM 失效转让
标题翻译： WITH ION非水电解质溶液中，测定方法的锂沉淀这个系统，以及车辆与安装在其中该系统中的锂二次电池系统
公开(公告)号：EP2481122A1
公开(公告)日：2012-08-01
申请号：EP11730412.1
申请日：2011-03-31
申请人： Toyota Jidosha Kabushiki Kaisha
发明人： TEZUKA, Takayoshi , ISHISHITA, Teruo , MANO, Ryo , MATSUMOTO, Junichi
IPC分类号： H01M10/42 , H01M10/48 , B60L11/18 , G01R31/36
CPC分类号： G01R31/3662 , B60L3/12 , B60L11/1803 , B60L11/1851 , B60L11/1857 , B60L11/1861 , B60L2200/26 , B60L2250/10 , G01R31/3634 , G01R31/3658 , G01R31/3679 , H01M10/0525 , H01M10/42 , H01M10/48 , Y02E60/122 , Y02T10/7011 , Y02T10/7044 , Y02T10/705
摘要： A battery system includes a discharge amount obtaining portion that obtains a discharge amount (determination zone discharge amount) from a determination start voltage until a predetermined determination end voltage of a battery; an internal resistance obtaining portion that obtains an internal resistance value of the battery; a correlation map in which a combination of internal resistance value information and determination zone discharge amount information for a battery that is the same kind as a target of a determination and in which lithium deposition has not occurred is stored for each degree of age-related deterioration of the battery; and a deposition determining portion that determines a degree of lithium deposition in the target battery by comparing the determination zone discharge amount during the determination of the target battery with the internal resistance value during the determination of the target battery on the same scale by converting at least one via the correlation map.

8. 发明授权

EP2434302B8 VOLTAGE MONITORING APPARATUS 有权转让
公开(公告)号：EP2434302B8
公开(公告)日：2019-03-13
申请号：EP10820526.1
申请日：2010-09-28
申请人： DENSO CORPORATION , TOYOTA JIDOSHA KABUSHIKI KAISHA
发明人： MIZOGUCHI, Tomomichi , SHIMIZU, Takumi , TANIGAWA, Keisuke , SASAKI, Manabu , KIKUCHI, Yoshiaki , MANO, Ryo , IZUMI, Jyunta , ISHISHITA, Teruo
IPC分类号： G01R19/165 , G01R35/00

9. 发明公开

EP3012140A1 HYBRID VEHICLE 失效
标题翻译：混合动力车辆
公开(公告)号：EP3012140A1
公开(公告)日：2016-04-27
申请号：EP15190855.5
申请日：2015-10-21
申请人： Toyota Jidosha Kabushiki Kaisha
发明人： MUTA, Koichiro , KAMATANI, Hideki , ITOH, Takao , YAMASAKI, Makoto , MANO, Ryo , KAGAMI, Masahiro , ENDO, Hiroki
IPC分类号： B60K6/48 , B60W20/00 , B60W20/40 , B60W10/06 , B60W10/08 , B60W20/16 , B60W10/26 , F01N9/00
CPC分类号： B60W20/16 , B60K6/445 , B60W10/06 , B60W10/08 , B60W10/26 , B60W20/00 , B60W20/40 , B60W2530/12 , B60W2710/06 , B60W2710/242 , F01N3/20 , F01N2240/16 , F02D29/02 , Y02T10/54 , Y02T10/6239 , Y02T10/6286 , Y10S903/905
摘要： When a catalyst temperature is lower than a predetermined temperature on a second or subsequent start of an engine since system activation of a vehicle, a catalyst warm-up request is output for the purpose of warming up a catalyst in a catalytic converter. An output limit Wout of a battery is not increased in response to a second or subsequent output of the catalyst warm-up request, while being increased in response to a first output of the catalyst warm-up request (S210 and S220). Accordingly, the catalyst warm-up in response to the second or subsequent output of the catalyst warm-up request since the system activation suppresses excessive output of electric power from the battery and thereby suppresses deterioration of the battery. Catalyst warm-up is performed in response to the second or subsequent output of the catalyst warm-up request. This suppresses deterioration of emission. As a result, this configuration satisfies both (balances) suppression of deterioration of the battery and suppression of deterioration of emission.
摘要翻译：当从车辆的系统起动以来在发动机的第二次或随后起动时催化剂温度低于预定温度时，输出催化剂预热请求，用于预热催化转化器中的催化剂。响应于第二次或随后的催化剂预热请求输出，电池的输出限制Wout不增加，同时响应于催化剂预热请求的第一输出而增加（S210和S220）。因此，由于系统启动抑制了来自电池的电力的过度输出并且由此抑制了电池的劣化，所以响应于催化剂预热请求的第二次或随后的输出而使催化剂预热。响应于催化剂预热请求的第二次或随后的输出而执行催化剂预热。这抑制了排放的恶化。结果，该构造同时满足（平衡）抑制电池的劣化和抑制发射的劣化。

10. 发明公开

EP2767841A1 SECONDARY BATTERY CONTROL DEVICE AND METHOD 审中-公开
标题翻译： STEUERUNGSVORRICHTUNG UNDERVERHRENFÜREINESEKUNDÄRBATTERIE
公开(公告)号：EP2767841A1
公开(公告)日：2014-08-20
申请号：EP11874084.4
申请日：2011-10-13
申请人： TOYOTA JIDOSHA KABUSHIKI KAISHA
发明人： KIMURA, Masaru , MANO, Ryo
IPC分类号： G01R31/36
CPC分类号： G01R31/3624 , G01R31/361 , G01R31/362 , G01R31/3651
摘要： From time (t1) at which an IG switch is turned off, charging/discharging of a secondary battery is stopped. Polarization cancellation time (Tr) required for cancelling polarization after stopping charging/discharging is changed in accordance with a temperature of the secondary battery. Until an elapse of a predetermined time corresponding to polarization cancellation time (Tr) from the time of turning off the IG switch, the battery voltage is detected cyclically, and an open circuit voltage is sequentially estimated in the equilibrium state in which the polarization is cancelled based on a shift of the battery voltage. In a case where the IG switch is turned on after an elapse of the predetermined time from the time of turning off the IG switch, a detection value of the battery voltage at the time of IG-on is assumed to be the open circuit voltage, and then the SOC at the time of starting use of the secondary battery is estimated. In a case where the IG switch is turned on before an elapse of the predetermined time from the time of turning off the IG switch, the estimated value of the opening circuit voltage at that time point is regarded as the open circuit voltage, and the SOC at the time of starting use of the secondary battery is estimated.
摘要翻译：从IG开关关闭的时间（t1）开始，二次电池的充放电停止。根据二次电池的温度来改变在停止充电/放电之后取消极化所需的极化消除时间（Tr）。直到从关闭IG开关的时刻起对应于偏振消除时间（Tr）的预定时间过去，循环检测电池电压，并且在偏振被取消的平衡状态下顺序地估计开路电压基于电池电压的偏移。在从关闭IG开关起经过预定时间之后，IG开关被接通的情况下，假定IG-on时的电池电压的检测值为开路电压，然后估计开始使用二次电池时的SOC。在从开关IG开关起经过预定时间之后，IG开关导通的情况下，将该时刻的开路电压的推定值作为开路电压，将SOC 在开始使用二次电池时估计。

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