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    • 1. 发明申请
    • Method for estimating master cylinder pressure during brake apply
    • 制动期间主缸压力估计方法
    • US20080265664A1
    • 2008-10-30
    • US11789942
    • 2007-04-26
    • Bryan Todd FulmerDeron C. LittlejohnRebecca L. Wang
    • Bryan Todd FulmerDeron C. LittlejohnRebecca L. Wang
    • B60T8/00
    • B60T8/38B60T13/662Y10S303/02
    • A method for estimating master cylinder pressure during brake apply of a brake system of a vehicle, wherein the brake system includes a brake pedal. A first master cylinder pressure is estimated from brake pedal position during brake apply. A second master cylinder pressure is estimated from vehicle deceleration during brake apply. The master cylinder pressure is estimated during brake apply to be equal to the first master cylinder pressure when the vehicle deceleration is below a predetermined deceleration value. The master cylinder pressure is estimated during brake apply to be equal to a value which is less than the first master cylinder pressure and greater than or equal to the second master cylinder pressure when the vehicle deceleration is at or above the predetermined deceleration value. At least the estimated master cylinder pressure during brake apply is used to control the vehicle.
    • 一种用于在制动期间估计主缸压力的方法,其中,所述制动系统包括制动踏板。 在制动器应用期间,从制动踏板位置估计第一主缸压力。 在制动期间,车辆减速度估计第二主缸压力。 当车辆减速度低于预定减速度值时,在制动期间估计主缸压力等于第一主缸压力。 在车辆减速度等于或高于预定减速度值时,在制动期间估计主缸压力等于小于第一主缸压力并大于或等于第二主缸压力的值。 至少在制动期间估计的主缸压力用于控制车辆。
    • 2. 发明授权
    • Vehicle brake boost assist control
    • 车辆制动助力辅助控制
    • US06623088B2
    • 2003-09-23
    • US09804974
    • 2001-03-13
    • Mark P RodenBryan Todd FulmerJoseph Allen Elliott
    • Mark P RodenBryan Todd FulmerJoseph Allen Elliott
    • B60T834
    • B60T8/3275B60T7/042B60T8/4872Y10S303/02
    • A vehicle hydraulic braking system responds to detection of an operator intended high braking intensity event to isolate vehicle brakes from the master cylinder and activate a motor driven pump to generate a maximum predetermined supply pressure, calibrated to provide activation of an anti-lock braking system, to the brake apply valves for an initial predetermined time. Thereafter, the supply pressure is reduced via an electrically controllable pressure relief valve responsive to sensed vehicle deceleration so as to decrease the supply pressure provided to the apply valve to a level just sufficient to provide the sensed vehicle deceleration. The high intensity braking event is detected via a rate of change of master cylinder pressure, pedal force or pedal travel.
    • 车辆液压制动系统响应于操作者想要的高制动强度事件的检测,以将车辆制动器与主汽缸隔离开并激活电动机驱动的泵,以产生最大的预定供给压力,被校准以提供防抱死制动系统的启动, 到制动施加阀初始预定时间。 此后,响应于检测到的车辆减速度,通过电可控制的压力释放阀减小供应压力,从而将提供给施加阀的供应压力降低到足以提供感测车辆减速度的水平。 通过主缸压力,踏板力或踏板行程的变化率来检测高强度制动事件。
    • 3. 发明授权
    • Method for estimating master cylinder pressure during brake apply
    • 制动期间主缸压力估计方法
    • US07681962B2
    • 2010-03-23
    • US11789942
    • 2007-04-26
    • Bryan Todd FulmerDeron C. LittlejohnRebecca L Wang
    • Bryan Todd FulmerDeron C. LittlejohnRebecca L Wang
    • B60T8/60B60T8/32
    • B60T8/38B60T13/662Y10S303/02
    • A method for estimating master cylinder pressure during brake apply of a brake system of a vehicle, wherein the brake system includes a brake pedal. A first master cylinder pressure is estimated from brake pedal position during brake apply. A second master cylinder pressure is estimated from vehicle deceleration during brake apply. The master cylinder pressure is estimated during brake apply to be equal to the first master cylinder pressure when the vehicle deceleration is below a predetermined deceleration value. The master cylinder pressure is estimated during brake apply to be equal to a value which is less than the first master cylinder pressure and greater than or equal to the second master cylinder pressure when the vehicle deceleration is at or above the predetermined deceleration value. At least the estimated master cylinder pressure during brake apply is used to control the vehicle.
    • 一种用于在制动期间估计主缸压力的方法,其中,所述制动系统包括制动踏板。 在制动器应用期间,从制动踏板位置估计第一主缸压力。 在制动期间,车辆减速度估计第二主缸压力。 当车辆减速度低于预定减速度值时,在制动期间估计主缸压力等于第一主缸压力。 在车辆减速度等于或高于预定减速度值时,在制动期间估计主缸压力等于小于第一主缸压力并大于或等于第二主缸压力的值。 至少在制动期间估计的主缸压力用于控制车辆。
    • 5. 发明授权
    • Vehicle brake boost assist control
    • 车辆制动助力辅助控制
    • US06364429B1
    • 2002-04-02
    • US09677407
    • 2000-10-02
    • Mark P RodenBryan Todd FulmerJoseph Allen Elliott
    • Mark P RodenBryan Todd FulmerJoseph Allen Elliott
    • B60T844
    • B60T8/442
    • A substantially constant brake assist gain is provided in a vehicle braking system having a vacuum booster providing braking assist to a brake fluid master cylinder in response to an operator input braking force, even though the gain of the booster falls off from its maximum value in a non-linear manner in a runout initiating portion of the working vacuum range near zero booster vacuum. A brake fluid pump, such as is used in an ABS/TCS modulator, is used to supplement the booster output as it falls so as to maintain a constant, linear brake system gain into runout. In the runout initiating portion of the working vacuum range, a runout assist gain is derived from stored data expressing booster assist gain as a function of booster vacuum, and a target wheel pressure is calculated from the derived runout boost assist gain and a corresponding change in master cylinder pressure. A target wheel pressure error is calculated from the difference between the derived target wheel pressure and the master cylinder pressure and used to control the brake fluid pressure added by the pump to the master cylinder pressure.
    • 在具有真空助力器的车辆制动系统中提供基本上恒定的制动辅助增益,该制动系统具有响应于操作者输入制动力而向制动液体主缸提供制动辅助,即使增压器的增益从其最大值中脱落 在零加压真空附近的工作真空范围的跳动启动部分中以非线性方式。 在ABS / TCS调制器中使用的制动液泵在下降时用于补充增压器输出,以便将恒定的线性制动系统增益保持在跳动范围内。 在工作真空范围的跳动起始部分中,从表示助力增益的增强辅助增益的存储数据导出作为增压真空的函数的跳动辅助增益,并且根据导出的跳动助推增益和相应的变化来计算目标车轮压力 主缸压力。 目标车轮压力误差由派生的目标车轮压力和主汽缸压力之差计算,用于控制由泵加到主汽缸压力上的制动液压力。