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    • 3. 发明申请
    • MEMORIZING LOCATION OF TIRES IN TPMS AND SMART ENTRY SYSTEM
    • 记录TPMS和智能进入系统中的轮胎位置
    • US20110304453A1
    • 2011-12-15
    • US12851394
    • 2010-08-05
    • Brian K. LickfeltHideaki AraiNicky Strock
    • Brian K. LickfeltHideaki AraiNicky Strock
    • B60C23/00
    • B60C23/0418B60C23/044B60C23/0442B60C23/0444B60C23/0445B60C23/045B60C23/0452B60C23/0454B60C23/0461B60C23/0462
    • A vehicle system includes a plurality of tire sensors, a plurality of low frequency (“LF”) antennas and an ECU. Each tire sensor is mounted in a respective tire of the vehicle. Each LF antenna is mounted on the vehicle and is configured to transmit an LF field to wake up two tire sensors. The ECU is in communication with the tire sensors, via a receiver, and the LF antennas. The ECU is configured to receive identification signals from the respective tire sensors and to determine locations of the respective tire sensors based on which antenna woke up the tire sensor transmitting the respective identification signal and whether the respective identification signal matches other received identification signals. The ECU is further configured to store the identification signals in the memory with the identification signals being associated with the respective tire sensors that transmitted the identification signal.
    • 车辆系统包括多个轮胎传感器,多个低频(“LF”)天线和ECU。 每个轮胎传感器安装在车辆的相应轮胎中。 每个LF天线安装在车辆上,并且被配置为传送LF场以唤醒两个轮胎传感器。 ECU通过接收器和LF天线与轮胎传感器通信。 ECU被配置为从相应的轮胎传感器接收识别信号,并且基于哪个天线唤醒轮胎传感器发送相应的识别信号以及相应的识别信号是否与其他接收的识别信号相匹配来确定各个轮胎传感器的位置。 ECU还被配置为将识别信号存储在存储器中,识别信号与发送识别信号的各个轮胎传感器相关联。
    • 4. 发明申请
    • LOCALIZATION OF TIRE FOR TPMS AND SMART ENTRY SYSTEM
    • TPMS和智能进入系统的轮胎定位
    • US20110304451A1
    • 2011-12-15
    • US12851446
    • 2010-08-05
    • Brian K. LickfeltHideaki AraiNicky Strock
    • Brian K. LickfeltHideaki AraiNicky Strock
    • B60C23/02
    • B60C23/0418B60C23/044B60C23/0442B60C23/0444B60C23/0445B60C23/045B60C23/0452B60C23/0454B60C23/0461B60C23/0462
    • A vehicle entry/tire pressure management system includes a plurality of tire sensors, a plurality of low frequency (“LF”) antennas and an ECU. Each tire sensor is mounted in a respective tire of the vehicle. Each LF antenna is mounted on the vehicle and is configured to transmit an LF field to wake up two tire sensors. Some antennas can also be configured to transmit a SMART entry LF search field to wake up a portable transmission/reception unit for keyless entry of the vehicle. The ECU is in communication with the tire sensors, via a receiver, and the LF antennas. The ECU is configured to receive identification signals from the respective tire sensors and to determine locations of the respective tire sensors based on which antenna woke up the tire sensor transmitting the respective identification signal and whether the respective identification signal matches other received identification signals.
    • 车辆进入/轮胎压力管理系统包括多个轮胎传感器,多个低频(“LF”)天线和ECU。 每个轮胎传感器安装在车辆的相应轮胎中。 每个LF天线安装在车辆上,并且被配置为传送LF场以唤醒两个轮胎传感器。 一些天线还可以被配置成发送SMART入口LF搜索字段以唤醒便携式发送/接收单元,用于车辆的无钥匙进入。 ECU通过接收器和LF天线与轮胎传感器通信。 ECU被配置为从相应的轮胎传感器接收识别信号,并且基于哪个天线唤醒轮胎传感器来发送相应的识别信号以及相应的识别信号是否与其他接收到的识别信号相匹配来确定各个轮胎传感器的位置。
    • 8. 发明申请
    • VEHICLE KEYLESS OPERATION SYSTEM AND METHOD
    • 车辆无键操作系统及方法
    • US20110040424A1
    • 2011-02-17
    • US12541419
    • 2009-08-14
    • Brian K. LickfeltHideaki AraiJason D. DiSalvo
    • Brian K. LickfeltHideaki AraiJason D. DiSalvo
    • G06F7/00G08B29/00G01C21/00
    • G07C9/00182B60R25/24E05B77/48G07C9/00309G07C2009/00261G07C2209/63
    • A keyless function system and method includes a portable device having a vehicle function actuator thereon for initiating operation of a vehicle function. The portable device transmits an actuation signal to the vehicle when the vehicle function actuator is actuated. The receiver onboard the vehicle receives the actuation signal from the portable device. A controller onboard the vehicle and operatively connected to the receiver determines at least one of: whether the vehicle is located at a predetermined location or whether the portable device is located less than a predetermined distance from the vehicle. The controller selectively commands performance of the vehicle function when the actuation signal is received by the receiver based on at least one of: whether the vehicle is at the predetermined location or the portable device is less than the predetermined distance from the vehicle.
    • 无钥匙功能系统和方法包括具有用于启动车辆功能的操作的车辆功能致动器的便携式设备。 当车辆功能致动器被致动时,便携式设备向车辆发送致动信号。 车辆上的接收器从便携式设备接收致动信号。 车辆上的控制器并且可操作地连接到接收器确定以下至少一个:车辆是位于预定位置还是位于距离车辆不到预定距离的位置。 当所述致动信号由所述接收机接收时,所述控制器选择性地指示所述车辆功能的性能,所述至少一个基于以下各项中的至少一个:所述车辆是否在所述预定位置,或者所述便携式设备是否小于距离所述车辆的预定距离
    • 9. 发明授权
    • Automatic detection of valet mode for smart entry systems
    • 自动检测智能入门系统的代客模式
    • US09305410B2
    • 2016-04-05
    • US13197920
    • 2011-08-04
    • Brian K. LickfeltHideaki AraiThomas G. Kracker
    • Brian K. LickfeltHideaki AraiThomas G. Kracker
    • G07C9/00B60R25/00
    • G07C9/00111B60R25/00G07C9/00309
    • A key fob assembly includes a mechanical key, a key fob, a control in the key fob, Hall effect switches in the key fob, and magnets associated with the mechanical key. The mechanical key is configured to cooperate with a mechanical lock. The key fob is configured to selectively connect with the mechanical key. The control in the key fob is for transmitting wireless signals to a vehicle to actuate components on the vehicle. The Hall effect switches in the key fob are each in electrical communication with the control. At least one of the Hall effect switches changes an operating state based on detecting a positive magnetic field and at least one other Hall effect switch changes an operating state based on detecting a negative magnetic field. Respective poles of the magnets are disposed such that connection of the mechanical key with the key fob in a storage position aligns the poles of the magnets with respective Hall effect switches for changing the operating state of the respective Hall effect switches.
    • 密钥组件包括机械钥匙,钥匙扣,钥匙扣中的控制器,钥匙扣中的霍尔效应开关以及与机械钥匙相关联的磁体。 机械键被配置成与机械锁配合。 密钥卡被配置为选择性地连接机械密钥。 密钥卡中的控制用于向车辆发送无线信号以致动车辆上的部件。 密钥卡中的霍尔效应开关各自与控制器电气通信。 霍尔效应开关中的至少一个基于检测正磁场而改变操作状态,并且至少一个其它霍尔效应开关基于检测到负磁场而改变操作状态。 这些磁体的各极设置成使得机械钥匙与密钥卡在存储位置的连接将磁体的磁极与相应的霍尔效应开关对准,以改变各个霍尔效应开关的工作状态。
    • 10. 发明授权
    • Memorizing location of tires in TPMS and smart entry system
    • 记录TPMS和智能进入系统中轮胎的位置
    • US08564428B2
    • 2013-10-22
    • US12851394
    • 2010-08-05
    • Brian K. LickfeltHideaki AraiNicky Strock
    • Brian K. LickfeltHideaki AraiNicky Strock
    • B60C23/00B60C23/02B60R25/10
    • B60C23/0418B60C23/044B60C23/0442B60C23/0444B60C23/0445B60C23/045B60C23/0452B60C23/0454B60C23/0461B60C23/0462
    • A vehicle system includes a plurality of tire sensors, a plurality of low frequency (“LF”) antennas and an ECU. Each tire sensor is mounted in a respective tire of the vehicle. Each LF antenna is mounted on the vehicle and is configured to transmit an LF field to wake up two tire sensors. The ECU is in communication with the tire sensors, via a receiver, and the LF antennas. The ECU is configured to receive identification signals from the respective tire sensors and to determine locations of the respective tire sensors based on which antenna woke up the tire sensor transmitting the respective identification signal and whether the respective identification signal matches other received identification signals. The ECU is further configured to store the identification signals in the memory with the identification signals being associated with the respective tire sensors that transmitted the identification signal.
    • 车辆系统包括多个轮胎传感器,多个低频(“LF”)天线和ECU。 每个轮胎传感器安装在车辆的相应轮胎中。 每个LF天线安装在车辆上,并且被配置为传送LF场以唤醒两个轮胎传感器。 ECU通过接收器和LF天线与轮胎传感器通信。 ECU被配置为从相应的轮胎传感器接收识别信号,并且基于哪个天线唤醒轮胎传感器发送相应的识别信号以及相应的识别信号是否与其他接收的识别信号相匹配来确定各个轮胎传感器的位置。 ECU还被配置为将识别信号存储在存储器中,识别信号与发送识别信号的各个轮胎传感器相关联。