公开(公告)号：US20100052656A1

公开(公告)日：2010-03-04

申请号：US12553375

申请日：2009-09-03

申请人： Toru Tanaka ,  Akio Ogura ,  Kazuya Omagari ,  Nariaki Ogasawara

发明人： Toru Tanaka ,  Akio Ogura ,  Kazuya Omagari ,  Nariaki Ogasawara

IPC分类号： G01R19/00

CPC分类号： G01R31/3658 ,  G01R19/0084 ,  G01R19/16542

摘要： A voltage sensing device with which high-precision voltage sensing is possible without acquiring a unique correction constant for each device. A pair of voltage input nodes NCk and NCk-1 are selected from n+1 voltage input nodes NC0-NCn in switch part 10, and the selected voltage input nodes NCk and NCk-1 are connected to inspection input nodes NA and NB. Here, voltage input nodes NCk and NCk-1 and inspection input nodes NA and NB are connected in two types of patterns of different polarity (forward connection, reverse connection) under the control of control part 50, and digital data S30 for the two sensed voltage signals S20 generated in the two types of connection patterns is input to sensed data processing part 40. With sensed data processing part 40, sensed voltage data S40 that represents the potential difference between voltage input nodes NCk and NCk-1 is generated according to the difference in the two sensed voltage signals S20.

摘要翻译： 一种电压感测装置，可以在不为每个装置获得唯一校正常数的情况下进行高精度电压感测。 从开关部10的n + 1个电压输入节点NC0-NCn选择一对电压输入节点NCk和NCk-1，选择的电压输入节点NCk和NCk-1连接到检查输入节点NA和NB。 这里，电压输入节点NCk和NCk-1以及检查输入节点NA和NB在控制部分50的控制下以两种不同极性（正向连接，反向连接）的模式连接，并且两个感测的数字数据S30 在两种类型的连接图形中生成的电压信号S20被输入到感测数据处理部分40.在感测数据处理部分40中，根据感测数据处理部分40产生表示电压输入节点NCk和NCk-1之间的电位差的感测电压数据S40 两个感测电压信号S20的差异。

公开(公告)号：US08242770B2

公开(公告)日：2012-08-14

申请号：US12553375

申请日：2009-09-03

申请人： Toru Tanaka ,  Akio Ogura ,  Kazuya Omagari ,  Nariaki Ogasawara

发明人： Toru Tanaka ,  Akio Ogura ,  Kazuya Omagari ,  Nariaki Ogasawara

IPC分类号： G01R1/30 ,  G01R17/16 ,  G01R19/00 ,  G01N27/416

CPC分类号： G01R31/3658 ,  G01R19/0084 ,  G01R19/16542

摘要： A voltage sensing device with which high-precision voltage sensing is possible without acquiring a unique correction constant for each device. A pair of voltage input nodes NCk and NCk-1 are selected from n+1 voltage input nodes NC0-NCn in switch part 10, and the selected voltage input nodes NCk and NCk-1 are connected to inspection input nodes NA and NB. Here, voltage input nodes NCk and NCk-1 and inspection input nodes NA and NB are connected in two types of patterns of different polarity (forward connection, reverse connection) under the control of control part 50, and digital data S30 for the two sensed voltage signals S20 generated in the two types of connection patterns is input to sensed data processing part 40. With sensed data processing part 40, sensed voltage data S40 that represents the potential difference between voltage input nodes NCk and NCk-1 is generated according to the difference in the two sensed voltage signals S20.

摘要翻译： 一种电压感测装置，可以在不为每个装置获得唯一校正常数的情况下进行高精度电压感测。 从开关部10的n + 1个电压输入节点NC0-NCn选择一对电压输入节点NCk和NCk-1，选择的电压输入节点NCk和NCk-1连接到检查输入节点NA和NB。 这里，电压输入节点NCk和NCk-1以及检查输入节点NA和NB在控制部分50的控制下以两种不同极性（正向连接，反向连接）的模式连接，并且两个感测的数字数据S30 在两种类型的连接图形中生成的电压信号S20被输入到感测数据处理部分40.在感测数据处理部分40中，根据感测数据处理部分40产生表示电压输入节点NCk和NCk-1之间的电位差的感测电压数据S40 两个感测电压信号S20的差异。

公开(公告)号：US08154253B2

公开(公告)日：2012-04-10

申请号：US12209771

申请日：2008-09-12

申请人： Kazuya Omagari

发明人： Kazuya Omagari

IPC分类号： H02J7/00 ,  H02J7/04 ,  G01N27/416 ,  G01N27/27

CPC分类号： G01R31/3658 ,  B60L3/0046 ,  B60L3/12 ,  B60L11/1866 ,  B60L2240/547 ,  B60L2240/549 ,  G01R31/3624 ,  H01M10/482 ,  Y02T10/7005 ,  Y02T10/7061

摘要： A circuit for detecting battery cell abnormalities in a multi-cell series battery for effectively and quickly detecting abnormalities with a simple, small circuit that provides improved reliability, safety and service life of the multi-cell series battery. In the voltage monitoring device 12, immediately after the start of the monitoring cycle of any battery cell BTi, cell voltage abnormality detector 14 checks whether cell voltage Vi is outside of the normal operating range. The cell voltage abnormality detector 14 has: a group of selection switches 18 for selecting any battery cell BT of multi-cell series battery 10 and retrieving its voltage to first and second monitoring terminals A, B; cell voltage/monitoring current converter 20; monitoring current/monitoring voltage converter 22; comparison/evaluation circuit 24; evaluation signal output circuit 26 and abnormality detection controller 28.

摘要翻译： 一种用于检测多单元系列电池中的电池单体异常的电路，用于以简单的小电路有效且快速地检测异常，从而提高多单元系列电池的可靠性，安全性和使用寿命。 在电压监视装置12中，在电池单元BTi的监视周期开始之后，电池电压异常检测器14检查电池电压Vi是否在正常工作范围之外。 电池电压异常检测器14具有：一组选择开关18，用于选择多电池系列电池10的任何电池单元BT，并将其电压恢复到第一和第二监控端子A，B; 电池电压/监控电流转换器20; 监视电流/监视电压转换器22; 比较/评估电路24; 评估信号输出电路26和异常检测控制器28。

公开(公告)号：US20100090540A1

公开(公告)日：2010-04-15

申请号：US12553404

申请日：2009-09-03

申请人： Toru Tanaka ,  Akio Ogura ,  Kazuya Omagari ,  Nariaki Ogasawara

发明人： Toru Tanaka ,  Akio Ogura ,  Kazuya Omagari ,  Nariaki Ogasawara

IPC分类号： H02B99/00

CPC分类号： H02J7/0021 ,  G01R19/0084 ,  G01R31/3658 ,  Y02T10/7055 ,  Y10T307/685 ,  Y10T307/74 ,  Y10T307/747 ,  Y10T307/76

摘要： A voltage sensing device with which high-precision voltage sensing is possible without the need to obtain a unique correction constant for each device. A pair of voltage input nodes NCk and NCk-1 is selected from voltage input nodes NC0-NCn in switch part 10, and they are connected to sensing input nodes NA and NB in two types of patterns with different polarity (forward connection, reverse connection). Sensing input nodes NA and NB are held at reference potential Vm by voltage sensing part 20, and current Ina and Inb corresponding to the voltage at voltage input nodes NCk and NCk-1 flows to input resistors RIk and RIk-1. Currents Ina and Inb are synthesized at different ratios in voltage sensing part 20, and sensed voltage signal S20 is generated according to the synthesized current Ic. Sensed voltage data S40 with low error is generated according to the difference between the two sensed voltage signals S20 generated in the two connection patterns.

摘要翻译： 一种电压感测装置，可以进行高精度电压感测，而不需要为每个装置获得唯一的校正常数。 从开关部分10中的电压输入节点NC0-NCn选择一对电压输入节点NCk和NCk-1，它们以两种不同极性的模式连接到感测输入节点NA和NB（正向连接，反向连接 ）。 感测输入节点NA和NB通过电压检测部分20保持在参考电位Vm，并且对应于电压输入节点NCk和NCk-1处的电压的电流Ina和Inb流入输入电阻器RIk和RIk-1。 电流Ina和Inb在电压感测部分20中以不同的比率合成，并且根据合成电流Ic产生感测的电压信号S20。 根据在两个连接图案中生成的两个检测电压信号S20之间的差异，产生具有低误差的感测电压数据S40。

公开(公告)号：US08120209B2

公开(公告)日：2012-02-21

申请号：US12553404

申请日：2009-09-03

申请人： Toru Tanaka ,  Akio Ogura ,  Kazuya Omagari ,  Nariaki Ogasawara

发明人： Toru Tanaka ,  Akio Ogura ,  Kazuya Omagari ,  Nariaki Ogasawara

IPC分类号： H01H31/10 ,  H01H33/59 ,  H01H47/00 ,  H01H85/46 ,  H01H19/14

CPC分类号： H02J7/0021 ,  G01R19/0084 ,  G01R31/3658 ,  Y02T10/7055 ,  Y10T307/685 ,  Y10T307/74 ,  Y10T307/747 ,  Y10T307/76

摘要： A voltage sensing device with which high-precision voltage sensing is possible without the need to obtain a unique correction constant for each device. A pair of voltage input nodes NCk and NCk-1 is selected from voltage input nodes NC0-NCn in switch part 10, and they are connected to sensing input nodes NA and NB in two types of patterns with different polarity (forward connection, reverse connection). Sensing input nodes NA and NB are held at reference potential Vm by voltage sensing part 20, and current Ina and Inb corresponding to the voltage at voltage input nodes NCk and NCk-1 flows to input resistors RIk and RIk-1. Currents Ina and Inb are synthesized at different ratios in voltage sensing part 20, and sensed voltage signal S20 is generated according to the synthesized current Ic. Sensed voltage data S40 with low error is generated according to the difference between the two sensed voltage signals S20 generated in the two connection patterns.

摘要翻译： 一种电压感测装置，可以进行高精度电压感测，而不需要为每个装置获得唯一的校正常数。 从开关部分10中的电压输入节点NC0-NCn选择一对电压输入节点NCk和NCk-1，它们以两种不同极性的模式连接到感测输入节点NA和NB（正向连接，反向连接 ）。 感测输入节点NA和NB通过电压检测部分20保持在参考电位Vm，并且对应于电压输入节点NCk和NCk-1处的电压的电流Ina和Inb流入输入电阻器RIk和RIk-1。 电流Ina和Inb在电压感测部分20中以不同的比率合成，并且根据合成电流Ic产生感测的电压信号S20。 根据在两个连接图案中生成的两个检测电压信号S20之间的差异，产生具有低误差的感测电压数据S40。

公开(公告)号：US20090179650A1

公开(公告)日：2009-07-16

申请号：US12209771

申请日：2008-09-12

申请人： Kazuya Omagari

发明人： Kazuya Omagari

IPC分类号： G01N27/27 ,  G01N27/416

CPC分类号： G01R31/3658 ,  B60L3/0046 ,  B60L3/12 ,  B60L11/1866 ,  B60L2240/547 ,  B60L2240/549 ,  G01R31/3624 ,  H01M10/482 ,  Y02T10/7005 ,  Y02T10/7061

摘要： A circuit for detecting battery cell abnormalities in a multi-cell series battery for effectively and quickly detecting abnormalities with a simple, small circuit that provides improved reliability, safety and service life of the multi-cell series battery. In the voltage monitoring device 12, immediately after the start of the monitoring cycle of any battery cell BTi, cell voltage abnormality detector 14 checks whether cell voltage Vi is outside of the normal operating range. The cell voltage abnormality detector 14 has: a group of selection switches 18 for selecting any battery cell BT of multi-cell series battery 10 and retrieving its voltage to first and second monitoring terminals A, B; cell voltage/monitoring current converter 20; monitoring current/monitoring voltage converter 22; comparison/evaluation circuit 24; evaluation signal output circuit 26 and abnormality detection controller 28.

摘要翻译： 一种用于检测多单元系列电池中的电池单体异常的电路，用于以简单的小电路有效且快速地检测异常，从而提高多单元系列电池的可靠性，安全性和使用寿命。 在电压监视装置12中，在电池单元BTi的监视周期开始之后，电池电压异常检测器14检查电池电压Vi是否在正常工作范围之外。 电池电压异常检测器14具有：一组选择开关18，用于选择多电池系列电池10的任何电池单元BT，并将其电压恢复到第一和第二监控端子A，B; 电池电压/监控电流转换器20; 监视电流/监视电压转换器22; 比较/评估电路24; 评估信号输出电路26和异常检测控制器28。

公开(公告)号：US07375515B2

公开(公告)日：2008-05-20

申请号：US11315359

申请日：2005-12-23

申请人： Kazuya Omagari ,  Masaki Mori

发明人： Kazuya Omagari ,  Masaki Mori

IPC分类号： G01R33/02

CPC分类号： G01R33/02

摘要： A magnetic sensor circuit supplying an excitation current to an MI device, and having a detection signal supplied thereto corresponding to a magnetic field intensity from the MI device based on the excitation current. The magnetic sensor circuit includes a pulse current supplying circuit supplying a pulse current to the MI device; a sample-and-hold circuit maintaining an approximately peak value of the detection signal and outputting a hold signal; and a temperature compensation part compensating temperature characteristics of the magnetic sensor circuit with respect to the hold signal. The sample-and-hold circuit may include a switching circuit and a holding capacitor. The switching circuit may have an opening/closing control signal supplied thereto based on timing of the pulse current. The temperature compensation part may include a temperature detection circuit, a temperature compensation circuit, and an amplification circuit that has an amplification factor higher than that of the temperature compensation circuit.

摘要翻译： 一个向MI设备提供激励电流的磁传感器电路，并且基于激励电流具有从MI设备提供的对应于磁场强度的检测信号。 磁传感器电路包括向MI装置供给脉冲电流的脉冲电流供给电路; 采样保持电路，保持检测信号的近似峰值并输出保持信号; 以及补偿磁传感器电路相对于保持信号的温度特性的温度补偿部。 采样和保持电路可以包括开关电路和保持电容器。 基于脉冲电流的定时，开关电路可以具有向其提供的开/关控制信号。 温度补偿部分可以包括具有比温度补偿电路的放大系数更高的放大系数的温度检测电路，温度补偿电路和放大电路。

公开(公告)号：US20060158182A1

公开(公告)日：2006-07-20

申请号：US11315359

申请日：2005-12-23

申请人： Kazuya Omagari ,  Masaki Mori

发明人： Kazuya Omagari ,  Masaki Mori

IPC分类号： G01R33/02

CPC分类号： G01R33/02

摘要： A magnetic sensor circuit supplying an excitation current to an MI device, and having a detection signal supplied thereto corresponding to a magnetic field intensity from the MI device based on the excitation current, the magnetic sensor circuit includes a pulse current supplying circuit supplying a pulse current to the MI device; a sample-and-hold circuit maintaining an approximately peak value of the detection signal and outputting a hold signal; and a temperature compensation part compensating temperature characteristics of the magnetic sensor circuit with respect to the hold signal.

摘要翻译： 一种磁传感器电路，其向MI装置提供激励电流，并且具有基于激励电流从MI装置对应于来自MI装置的磁场强度提供的检测信号，所述磁传感器电路包括提供脉冲电流的脉冲电流供应电路 到MI设备; 采样保持电路，保持检测信号的近似峰值并输出保持信号; 以及补偿磁传感器电路相对于保持信号的温度特性的温度补偿部。