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    • 4. 发明申请
    • PROTECTIVE DEVICE FOR LOAD CIRCUIT
    • 负载电路保护装置
    • US20130250463A1
    • 2013-09-26
    • US13989849
    • 2011-11-18
    • Keisuke UetaAkinori MaruyamaYoshihide NakamuraYoshinori Ikuta
    • Keisuke UetaAkinori MaruyamaYoshihide NakamuraYoshinori Ikuta
    • H02H1/06H02H3/08
    • H02H1/06H02H3/085H02H5/041H02H6/005H02H7/18
    • A load circuit protective device calculates increasing temperature of wire of a load circuit with a first predetermined sampling period (dt1) determined by a clock signal for normal operation when a semiconductor relay (Q1) is on to estimate the temperature of the wire. The temperature of the wire is therefore estimated with high accuracy. Moreover, when the semiconductor relay (Q1) is off, the load circuit protective device calculates decreasing temperature of the wire of the load circuit with a second predetermined sampling period (dt2) to estimate the temperature of the wire. The second predetermined sampling period (dt2) is determined by a clock signal for power-saving operation and is longer than the first predetermined sampling period (dt1). Accordingly, the calculation times of the temperature can be reduced, and the power consumption is therefore reduced.
    • 负载电路保护装置在半导体继电器(Q1)接通时,以正常工作的时钟信号决定的第一预定采样周期(dt1),计算负载电路的导线温度,以估计导线的温度。 因此,以高精度估计导线的温度。 此外,当半导体继电器(Q1)断开时,负载电路保护装置以第二预定采样周期(dt2)计算负载电路的导线的温度降低,以估计导线的温度。 第二预定采样周期(dt2)由用于省电操作的时钟信号确定,并且长于第一预定采样周期(dt1)。 因此,可以降低温度的计算时间,从而降低功耗。
    • 5. 发明授权
    • Vehicle electric power distribution device
    • 车辆配电装置
    • US09377831B2
    • 2016-06-28
    • US13991434
    • 2011-11-30
    • Yoshihide NakamuraAkinori MaruyamaYoshinori IkutaKeisuke Ueta
    • Yoshihide NakamuraAkinori MaruyamaYoshinori IkutaKeisuke Ueta
    • G06F1/26B60R16/023B60R16/03
    • G06F1/26B60R16/0232B60R16/03
    • An electric power distribution device sets a first threshold and a second threshold for a threshold temperature of main wires, and sets a third threshold and a fourth threshold for a threshold temperature of branch wires. In the case where a temperature of each of the main wires reaches the first threshold, all of branch wire switches provided in a branch wire distributor are shut off. Thereafter, in the case where the temperature of the main wire reaches the second threshold, each of the main wire switches, which is provided a main wire distributor, is shut off. In the case where a temperature of a certain branch wire reaches the third threshold, the corresponding branch wire switch is subjected to PWM control. Thereafter, in the case where the temperature of the branch wire reaches the fourth threshold, the corresponding branch wire switch is shut off.
    • 电力分配装置为主配线的阈值温度设定第一阈值和第二阈值,并设定分支电线的阈值温度的第三阈值和第四阈值。 在每条主线的温度达到第一阈值的情况下,分支线分配器中设置的所有分支线开关都被切断。 此后,在主线的温度达到第二阈值的情况下,切断设置有主线分配器的主线开关。 在某个分支线的温度达到第三阈值的情况下,对相应的分支线开关进行PWM控制。 此后,在分支线的温度达到第四阈值的情况下,相应的分支线开关被切断。
    • 9. 发明授权
    • Protective device for load circuit
    • 负载电路保护装置
    • US09293907B2
    • 2016-03-22
    • US13989849
    • 2011-11-18
    • Keisuke UetaAkinori MaruyamaYoshihide NakamuraYoshinori Ikuta
    • Keisuke UetaAkinori MaruyamaYoshihide NakamuraYoshinori Ikuta
    • H02H1/06H02H3/08H02H7/18H02H5/04H02H6/00
    • H02H1/06H02H3/085H02H5/041H02H6/005H02H7/18
    • A load circuit protective device calculates increasing temperature of wire of a load circuit with a first predetermined sampling period (dt1) determined by a clock signal for normal operation when a semiconductor relay (Q1) is on to estimate the temperature of the wire. The temperature of the wire is therefore estimated with high accuracy. Moreover, when the semiconductor relay (Q1) is off, the load circuit protective device calculates decreasing temperature of the wire of the load circuit with a second predetermined sampling period (dt2) to estimate the temperature of the wire. The second predetermined sampling period (dt2) is determined by a clock signal for power-saving operation and is longer than the first predetermined sampling period (dt1). Accordingly, the calculation times of the temperature can be reduced, and the power consumption is therefore reduced.
    • 负载电路保护装置在半导体继电器(Q1)接通时,以正常工作的时钟信号决定的第一预定采样周期(dt1),计算负载电路的导线温度,以估计导线的温度。 因此,以高精度估计导线的温度。 此外,当半导体继电器(Q1)断开时,负载电路保护装置以第二预定采样周期(dt2)计算负载电路的导线的温度降低,以估计导线的温度。 第二预定采样周期(dt2)由用于省电操作的时钟信号确定,并且长于第一预定采样周期(dt1)。 因此,可以降低温度的计算时间,从而降低功耗。
    • 10. 发明申请
    • VEHICLE ELECTRIC POWER DISTRIBUTION DEVICE
    • 车用电力分配装置
    • US20130253722A1
    • 2013-09-26
    • US13991434
    • 2011-11-30
    • Yoshihide NakamuraAkinori MaruyamaYoshinori IkutaKeisuke Ueta
    • Yoshihide NakamuraAkinori MaruyamaYoshinori IkutaKeisuke Ueta
    • G06F1/26
    • G06F1/26B60R16/0232B60R16/03
    • An electric power distribution device sets a first threshold and a second threshold for a threshold temperature of main wires, and sets a third threshold and a fourth threshold for a threshold temperature of branch wires. In the case where a temperature of each of the main wires reaches the first threshold, all of branch wire switches provided in a branch wire distributor are shut off. Thereafter, in the case where the temperature of the main wire reaches the second threshold, each of the main wire switches, which is provided a main wire distributor, is shut off. In the case where a temperature of a certain branch wire reaches the third threshold, the corresponding branch wire switch is subjected to PWM control. Thereafter, in the case where the temperature of the branch wire reaches the fourth threshold, the corresponding branch wire switch is shut off.
    • 电力分配装置为主配线的阈值温度设定第一阈值和第二阈值,并设定分支电线的阈值温度的第三阈值和第四阈值。 在每条主线的温度达到第一阈值的情况下,分支线分配器中设置的所有分支线开关都被切断。 此后,在主线的温度达到第二阈值的情况下,切断设置有主线分配器的主线开关。 在某个分支线的温度达到第三阈值的情况下,对相应的分支线开关进行PWM控制。 此后,在分支线的温度达到第四阈值的情况下,相应的分支线开关被切断。