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    • 1. 发明申请
    • ELECTRIC POWER STEERING SYSTEM
    • 电力转向系统
    • US20100324783A1
    • 2010-12-23
    • US12818540
    • 2010-06-18
    • Akihiko NISHIMURATerutaka TamaizumiMasayuki KitaShinya AonoJun HasegawaAkira Nambu
    • Akihiko NISHIMURATerutaka TamaizumiMasayuki KitaShinya AonoJun HasegawaAkira Nambu
    • G06F19/00
    • B62D6/00B62D5/0463B62D5/0466
    • A steering torque shift control amount calculation unit (31) calculates the steering torque shift control amount (εts) by multiplying the basic shift amount (εts_b) used as the basic compensation component by the transition coefficient (Kss). Then, the steering torque shift control amount (εts) is subjected to the low-pass filter process in an abrupt change prevention processing unit (32). An abrupt change prevention processing unit (40) is provided in the steering torque shift control amount calculation unit (31). The transition coefficient (Kss) is subjected to the low-pass filter process in the abrupt change prevention processing unit (40). The cutoff frequency of the low-pass filter that forms the abrupt change prevention processing unit (40) is set to a value lower than the cutoff frequency of the low-pass filter that forms the abrupt change prevention processing unit (32) that executes the low-pass filter process on the torque shift control amount (εts).
    • 转向转矩转换控制量计算单元(31)通过将用作基本补偿分量的基本位移量(&egr; ts_b)乘以转换系数(Kss)来计算转向转矩转换控制量(&egr ts)。 然后,在突变改变防止处理单元(32)中对转向转矩转换控制量(& ts)进行低通滤波处理。 在转向转矩转换控制量计算单元(31)中设置有突变防止处理单元(40)。 过渡系数(Kss)在突变防止处理单元(40)中进行低通滤波处理。 形成防突变处理单元(40)的低通滤波器的截止频率被设定为低于形成防变频处理单元(32)的低通滤波器的截止频率的值, 低通滤波处理对转矩控制量(&egr。ts)的影响。
    • 2. 发明授权
    • Electric power steering system
    • 电动助力转向系统
    • US08560174B2
    • 2013-10-15
    • US12818540
    • 2010-06-18
    • Akihiko NishimuraTerutaka TamaizumiMasayuki KitaShinya AonoJun HasegawaAkira Nambu
    • Akihiko NishimuraTerutaka TamaizumiMasayuki KitaShinya AonoJun HasegawaAkira Nambu
    • B62D6/00B63G8/20
    • B62D6/00B62D5/0463B62D5/0466
    • A steering torque shift control amount calculation unit (31) calculates the steering torque shift control amount (εts) by multiplying the basic shift amount (εts_b) used as the basic compensation component by the transition coefficient (Kss). Then, the steering torque shift control amount (εts) is subjected to the low-pass filter process in an abrupt change prevention processing unit (32). An abrupt change prevention processing unit (40) is provided in the steering torque shift control amount calculation unit (31). The transition coefficient (Kss) is subjected to the low-pass filter process in the abrupt change prevention processing unit (40). The cutoff frequency of the low-pass filter that forms the abrupt change prevention processing unit (40) is set to a value lower than the cutoff frequency of the low-pass filter that forms the abrupt change prevention processing unit (32) that executes the low-pass filter process on the torque shift control amount (εts).
    • 转向转矩转换控制量计算单元(31)通过将用作基本补偿分量的基本位移量(epsilonts_b)乘以转换系数(Kss)来计算转向转矩转换控制量(epsilonts)。 然后,在突变防止处理单元(32)中对转向转矩转换控制量(epsilonts)进行低通滤波处理。 在转向转矩转换控制量计算单元(31)中设置有突变防止处理单元(40)。 过渡系数(Kss)在突变防止处理单元(40)中进行低通滤波处理。 形成防突变处理单元(40)的低通滤波器的截止频率被设定为低于形成突变变化防止处理部(32)的低通滤波器的截止频率的值, 低通滤波器过程对转矩控制量(epsilonts)的影响。
    • 3. 发明授权
    • Electric power steering apparatus
    • 电动助力转向装置
    • US08082080B2
    • 2011-12-20
    • US12476688
    • 2009-06-02
    • Masayuki KitaTerutaka TamaizumiAkihiko NishimuraShinya AonoJun HasegawaAkira Nambu
    • Masayuki KitaTerutaka TamaizumiAkihiko NishimuraShinya AonoJun HasegawaAkira Nambu
    • B62D6/00
    • B62D5/0463B62D5/0466
    • An electric power steering (EPS) apparatus 1 includes a motor 12, an EPS actuator 10, a torque sensor 14, and an ECU 11. The EPS actuator 10 uses the motor 12 as a drive source to apply assist force to a steering system, thereby assisting a steering operation. The torque sensor 14 detects a steering torque τ of the steering system. The ECU 11 controls the operation of the EPS actuator 10. Based on the steering torque τ detected by the torque sensor 14, the ECU 11 computes a basic shift amount εts_b of the assist force applied to the steering system. The ECU 11 determines which one of returning, holding, and turning is the state of the steering operation. When the state of the steering operation is returning or holding, the ECU 11 executes compensation control for correcting the steering torque τ, which is used in the computation of the basic shift amount εts_b of the assist force, thereby increasing the assist force applied to the steering system. The ECU 11 subjects the steering torque shift control amount εts to a filtering process using a low pass filter, thereby inhibiting the steering torque shift control amount εts from sharply changing. When the state of the steering operation is turning, the ECU 11 changes a filter constant of the low pass filter so as to reduce the filtering effect.
    • 电动助力转向(EPS)装置1包括电动机12,EPS致动器10,转矩传感器14和ECU 11. EPS致动器10使用电动机12作为驱动源向转向系统施加辅助力, 从而辅助转向操作。 转矩传感器14检测转向系统的转向转矩τ。 ECU11控制EPS致动器10的动作。根据由转矩传感器14检测出的转向转矩τ,ECU11计算施加于转向系统的辅助力的基本位移量& ts_b。 ECU11确定返回,保持和转动中的哪一个是转向操作的状态。 当转向操作状态返回或保持时,ECU11执行用于校正辅助力的基本位移量& ts_b的计算中使用的转向转矩τ的补偿控制,从而增加施加的辅助力 到转向系统。 ECU11使用低通滤波器对转向转矩转换控制量进行滤波处理,从而抑制转向转矩转换控制量的急剧变化。 当转向操作状态转动时,ECU11改变低通滤波器的滤波常数,从而降低滤波效果。
    • 4. 发明申请
    • ELECTRIC POWER STEERING APPARATUS
    • 电动转向装置
    • US20090299575A1
    • 2009-12-03
    • US12476688
    • 2009-06-02
    • Masayuki KITATerutaka TamaizumiAkihiko NishimuraShinya AonoJun HasegawaAkira Nambu
    • Masayuki KITATerutaka TamaizumiAkihiko NishimuraShinya AonoJun HasegawaAkira Nambu
    • B62D6/00G06F19/00
    • B62D5/0463B62D5/0466
    • An electric power steering (EPS) apparatus 1 includes a motor 12, an EPS actuator 10, a torque sensor 14, and an ECU 11. The EPS actuator 10 uses the motor 12 as a drive source to apply assist force to a steering system, thereby assisting a steering operation. The torque sensor 14 detects a steering torque τ of the steering system. The ECU 11 controls the operation of the EPS actuator 10. Based on the steering torque τ detected by the torque sensor 14, the ECU 11 computes a basic shift amount εts_b of the assist force applied to the steering system. The ECU 11 determines which one of returning, holding, and turning is the state of the steering operation. When the state of the steering operation is returning or holding, the ECU 11 executes compensation control for correcting the steering torque τ, which is used in the computation of the basic shift amount εts_b of the assist force, thereby increasing the assist force applied to the steering system. The ECU 11 subjects the steering torque shift control amount εts to a filtering process using a low pass filter, thereby inhibiting the steering torque shift control amount εts from sharply changing. When the state of the steering operation is turning, the ECU 11 changes a filter constant of the low pass filter so as to reduce the filtering effect.
    • 电动助力转向(EPS)装置1包括电动机12,EPS致动器10,转矩传感器14和ECU 11. EPS致动器10使用电动机12作为驱动源向转向系统施加辅助力, 从而辅助转向操作。 扭矩传感器14检测转向系统的转向转矩τ。 ECU11控制EPS致动器10的动作。根据由转矩传感器14检测出的转向转矩τ1,ECU11计算施加于转向系统的辅助力的基本位移量epsilonts_b。 ECU11确定返回,保持和转动中的哪一个是转向操作的状态。 当转向操作的状态返回或保持时,ECU11执行用于校正辅助力的基本位移量epsilonts_b的计算中使用的转向转矩τ的补偿控制,从而增加施加到转向操作的辅助力 转向系统。 ECU11使用低通滤波器对转向转矩转换控制量的epsil字符进行滤波处理,由此抑制转向转矩转换控制量的epsic字符急剧变化。 当转向操作状态转动时,ECU11改变低通滤波器的滤波常数,从而降低滤波效果。
    • 5. 发明授权
    • Electric power steering device and method for controlling the same
    • 电动助力转向装置及其控制方法
    • US08738229B2
    • 2014-05-27
    • US12935105
    • 2009-04-15
    • Terutaka TamaizumiHirozumi EkiShinya AonoJun HasegawaMasayuki Kita
    • Terutaka TamaizumiHirozumi EkiShinya AonoJun HasegawaMasayuki Kita
    • A01B69/00B62D6/00B62D11/00G05D1/00G06F7/00
    • B62D5/0463B62D6/04
    • A current command value computing section includes an integration control computing section. Based on an integration of the steering torque τ, the integration control computing section computes a steering torque integration control amount Iint*, which is a compensation component for increasing the assist force. The integration control computing section functions as a determining device that determines whether the vehicle is traveling forward in a straight line. When the determining device determines that the vehicle is traveling forward in a straight line, the integration control computing section outputs the steering torque integration control amount Iint* to an adder. The current command value computing section superimposes the steering torque integration control amount Iint* on a basic assist control amount Ias* computed by a basic assist control section, and outputs the obtained value, as a current command value Iq* corresponding to a target assist force, to an output section.
    • 当前命令值计算部分包括积分控制计算部分。 基于转向转矩τ的积分,积分控制运算部计算作为增加辅助力的补偿成分的转向转矩积分控制量Iint *。 集成控制计算部作为确定车辆是否以直线向前行进的判定装置发挥作用。 当确定装置确定车辆以直线向前行进时,积分控制计算部分向加法器输出转向转矩积分控制量Iint *。 当前指令值计算部分将转向转矩积分控制量Iint *叠加在由基本辅助控制部分计算的基本辅助控制量Ias *上,并将所获得的值作为对应于目标辅助力的当前指令值Iq * ,到输出部分。
    • 6. 发明申请
    • ELECTRIC POWER STEERING DEVICE AND METHOD FOR CONTROLLING THE SAME
    • 电动转向装置及其控制方法
    • US20110022270A1
    • 2011-01-27
    • US12935105
    • 2009-04-15
    • Terutaka TamaizumiHirozumi EkiShinya AonoJun HasegawaMasayuki Kita
    • Terutaka TamaizumiHirozumi EkiShinya AonoJun HasegawaMasayuki Kita
    • B62D6/08
    • B62D5/0463B62D6/04
    • A current command value computing section includes an integration control computing section. Based on an integration of the steering torque τ, the integration control computing section computes a steering torque integration control amount Iint*, which is a compensation component for increasing the assist force. The integration control computing section functions as a determining device that determines whether the vehicle is traveling forward in a straight line. When the determining device determines that the vehicle is traveling forward in a straight line, the integration control computing section outputs the steering torque integration control amount Iint* to an adder. The current command value computing section superimposes the steering torque integration control amount Iint* on a basic assist control amount Ias* computed by a basic assist control section, and outputs the obtained value, as a current command value Iq* corresponding to a target assist force, to an output section.
    • 当前命令值计算部分包括积分控制计算部分。 基于转向转矩τ的积分,积分控制运算部计算作为增加辅助力的补偿成分的转向转矩积分控制量Iint *。 集成控制计算部作为确定车辆是否以直线向前行进的判定装置发挥作用。 当确定装置确定车辆以直线向前行进时,积分控制计算部分向加法器输出转向转矩积分控制量Iint *。 当前指令值计算部分将转向转矩积分控制量Iint *叠加在由基本辅助控制部分计算的基本辅助控制量Ias *上,并将所获得的值作为对应于目标辅助力的当前指令值Iq * ,到输出部分。
    • 8. 发明申请
    • ELECTRIC POWER STEERING SYSTEM
    • 电力转向系统
    • US20110010050A1
    • 2011-01-13
    • US12828509
    • 2010-07-01
    • Hiroshi SUZUKINaoki YamanoTerutaka TamaizumiAkira Nambu
    • Hiroshi SUZUKINaoki YamanoTerutaka TamaizumiAkira Nambu
    • G06F19/00B62D5/04
    • B62D5/0463
    • A motor control signal output unit of an electric power steering system includes a feedback gain calculation unit (52), and a feedback control unit executes a feedback control with the use of a proportional gain (Kp) and an integral gain (Ki) that are calculated by the feedback gain calculation unit (52). The feedback gain calculation unit (52) sets the feedback gains to large values (Kp=P0, Ki=I0) when the absolute value of an assist gradient (α) is equal to or smaller than a predetermined value (α0) (|α|≦α0). On the other hand, when the absolute value of the assist gradient (α) exceeds the predetermined value (A) (|α|>α0), the feedback gain calculation unit (52) sets the feedback gains to small values (Kp=p1, Ki=I1:P1
    • 电动助力转向系统的电动机控制信号输出单元包括反馈增益计算单元(52),并且反馈控制单元使用比例增益(Kp)和积分增益(Ki)执行反馈控制 由反馈增益计算单元(52)计算。 当辅助梯度(α)的绝对值等于或小于预定值(α0)(|α)时,反馈增益计算单元将反馈增益设置为大值(Kp = P0,Ki = |≦̸α0)。 另一方面,当辅助梯度(α)的绝对值超过预定值(A)(|α|>α0)时,反馈增益计算单元将反馈增益设置为小值(Kp = p1 ,Ki = I1:P1
    • 9. 发明授权
    • Electric power steering apparatus
    • 电动助力转向装置
    • US07826950B2
    • 2010-11-02
    • US11667327
    • 2005-11-08
    • Terutaka TamaizumiShinya Aono
    • Terutaka TamaizumiShinya Aono
    • B62D5/04
    • B62D5/0463
    • In an electric power steering apparatus, steering torque of a steering wheel is detected by a torque sensor, and a motor 10 for generating steering assist power is controlled so that the steering assist power is generated according to a basic assist torque corresponding to the detected steering torque. A correspondence relationship between the steering torque and the basic assist torque is set such that an assist gradient that is a rate of change of the basic assist torque to the steering torque varies according to variation of the steering torque. A correction amount of an output of the motor 10 varies according to the variation of the assist gradient.
    • 在电动助力转向装置中,通过转矩传感器检测方向盘的转向转矩,并且控制用于产生转向辅助动力的电动机10,以便根据与检测到的转向相对应的基本辅助转矩来生成转向辅助动力 扭矩。 设定转向转矩与基本辅助转矩之间的对应关系,使得作为转向转矩的基本辅助转矩的变化率的辅助梯度根据转向转矩的变化而变化。 马达10的输出的校正量根据辅助梯度的变化而变化。
    • 10. 发明申请
    • Electric Power Steering Apparatus
    • 电动转向装置
    • US20080033613A1
    • 2008-02-07
    • US11667327
    • 2005-11-08
    • Terutaka TamaizumiShinya Aono
    • Terutaka TamaizumiShinya Aono
    • B62D6/10B62D5/04
    • B62D5/0463
    • In an electric power steering apparatus, steering torque of a steering wheel is detected by a torque sensor, and a motor 10 for generating steering assist power is controlled so that the steering assist power is generated according to a basic assist torque corresponding to the detected steering torque. A correspondence relationship between the steering torque and the basic assist torque is set such that an assist gradient that is a rate of change of the basic assist torque to the steering torque varies according to variation of the steering torque. A correction amount of an output of the motor 10 varies according to the variation of the assist gradient.
    • 在电动助力转向装置中,通过转矩传感器检测方向盘的转向转矩,并且控制用于产生转向辅助动力的电动机10,以便根据与检测到的转向相对应的基本辅助转矩来生成转向辅助动力 扭矩。 设定转向转矩与基本辅助转矩之间的对应关系,使得作为转向转矩的基本辅助转矩的变化率的辅助梯度根据转向转矩的变化而变化。 马达10的输出的校正量根据辅助梯度的变化而变化。