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    • 2. 发明授权
    • System and method for tire pressure monitoring including automatic tire location recognition
    • 用于轮胎压力监测的系统和方法,包括自动轮胎位置识别
    • US06693522B2
    • 2004-02-17
    • US09977150
    • 2001-10-12
    • Qingfeng TangJohn S. NantzRiad GhabraSalman KhreizatRonald O. KingDavid Kosokowsky
    • Qingfeng TangJohn S. NantzRiad GhabraSalman KhreizatRonald O. KingDavid Kosokowsky
    • B60C100
    • B60C23/0416
    • A system and method for monitoring vehicle tire pressure. A tire pressure monitor for each tire includes a pressure sensor for sensing tire pressure and a transmitter for transmitting a tire pressure signal representative of the sensed tire pressure. A receiver for mounting on the vehicle receives the tire pressure signals, and includes an antenna to be located at a vehicle site. Each tire pressure signal has an amplitude and, for each tire location, the amplitude has a unique pattern over time for the antenna site. A controller for mounting on the vehicle communicates with the receiver and collects and processes the tire pressure signals to automatically identify the tire location associated with each tire pressure signal based on the unique amplitude patterns. The controller further generates control signals for use in conveying tire pressure and location information to a vehicle occupant.
    • 一种用于监测车辆轮胎压力的系统和方法。 用于每个轮胎的轮胎压力监测器包括用于感测轮胎压力的压力传感器和用于传送表示所检测到的轮胎压力的轮胎压力信号的发射器。 用于安装在车辆上的接收器接收轮胎压力信号,并且包括位于车辆位置处的天线。 每个轮胎压力信号具有幅度,并且对于每个轮胎位置,振幅对于天线位置具有随时间的唯一模式。 用于安装在车辆上的控制器与接收器通信,并收集和处理轮胎压力信号,以基于唯一振幅模式自动识别与每个轮胎压力信号相关联的轮胎位置。 控制器还产生用于将轮胎压力和位置信息传送给车辆乘客的控制信号。
    • 9. 发明授权
    • System for automatically charging the battery of a remote transmitter for use in a vehicle security system
    • 用于自动对远程发射机的电池充电以用于车辆安全系统的系统
    • US06291968B1
    • 2001-09-18
    • US09566585
    • 2000-05-08
    • John S. NantzRiad GhabraQingfeng TangRonald O. KingDouglas C. Campbell
    • John S. NantzRiad GhabraQingfeng TangRonald O. KingDouglas C. Campbell
    • H02J700
    • H02J7/0054H02J7/02H02J7/025H02J2007/0037
    • A system for automatically charging a battery of a remote keyless entry transmitter includes a voltage monitoring circuit having a first microprocessor which monitors battery voltage and which causes the transmitter to send an RF signal to a receiver in the form of a base station on a motor vehicle. The signal causes a charging circuit of the base station to activate an inductive field to cause the battery to be fully charged. In one embodiment, the first microprocessor also causes the transmitter to send a second signal to the base station to shut down the charging field when the battery voltage reaches a predetermined upper limit. In another embodiment, a second microprocessor of the base station tracks the charging time and shuts down the charging field when the charging time reaches a predetermined amount. Alternatively, charging can be done by direct contact or other means. In this way, the system not only allows for extended battery life by limiting the number of charge cycles on the battery but also allows for optimum discharge of the battery before a charging cycle begins.
    • 用于自动对远程无钥匙进入发射器的电池充电的系统包括具有第一微处理器的电压监视电路,该第一微处理器监视电池电压,并且使得发射器以机动车辆上的基站的形式向接收器发送RF信号 。 信号使基站的充电电路激活感应场,使电池充满电。 在一个实施例中,当电池电压达到预定上限时,第一微处理器还使得发射机向基站发送第二信号以关闭充电场。 在另一个实施例中,当充电时间达到预定量时,基站的第二微处理器跟踪充电时间并关闭充电场。 或者,可以通过直接接触或其他方式进行充电。 以这种方式,该系统不仅允许通过限制电池上的充电循环次数延长电池寿命,而且还允许在充电周期开始之前电池的最佳放电。