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    • 3. 发明授权
    • Electronic tire management system
    • 电子轮胎管理系统
    • US07161476B2
    • 2007-01-09
    • US09916028
    • 2001-07-26
    • Gordon E. HardmanJohn W. PyneMolly A. HardmanDavid A. PrzygockiDavid M. CoombsPaul B. WilsonRonald C. GrushPhilip B. LoudinBrett W. Floyd
    • Gordon E. HardmanJohn W. PyneMolly A. HardmanDavid A. PrzygockiDavid M. CoombsPaul B. WilsonRonald C. GrushPhilip B. LoudinBrett W. Floyd
    • B60C23/00
    • B60C23/0433B29D2030/0072B60C23/0442B60C23/0444B60C23/0452B60C23/0493
    • An electronic tire maintenance system is provided for measuring a parameter of a device at a first location. The system includes a sensor for measuring the device parameter and generating a data signal representing the measured parameter. The system also includes a microprocessor coupled to the sensor for activating the sensor on a first periodic basis to measure the device parameter. The microprocessor includes a memory for storing the generated data signal representing the measured parameter. A transmitter and a receiver are coupled to the microprocessor. The microprocessor periodically partially awakens to determine, on a second periodic basis, if a received transmission is a valid interrogation signal and, if so, fully awakens and responds to the valid interrogation signal, via the transmitter, by at least transmitting the last stored measured parameter. In one embodiment, the device is a tire tag mounted inside a tire that measures tire data and transmits that data to a remote source in response to an interrogation request, an alert condition, or automatically on a periodic basis.
    • 提供一种用于测量第一位置的装置的参数的电子轮胎维护系统。 该系统包括用于测量设备参数并产生表示测量参数的数据信号的传感器。 该系统还包括耦合到传感器的微处理器,用于在第一周期性基础上激活传感器以测量设备参数。 微处理器包括用于存储表示测量参数的生成数据信号的存储器。 发射器和接收器耦合到微处理器。 微处理器周期性地部分地唤醒,以在第二周期性基础上确定接收到的传输是否是有效的询问信号,并且如果是,则经由发射机完全唤醒并响应有效询问信号,至少传送最后存储的测量值 参数。 在一个实施例中,该装置是安装在轮胎内部的轮胎标签,其测量轮胎数据并且响应于询问请求,警报状况或周期性地自动地将该数据发送到远程源。
    • 5. 发明授权
    • Earth radiation array sensing system
    • 地球辐射阵列感应系统
    • US4910409A
    • 1990-03-20
    • US268225
    • 1988-11-07
    • James W. HoffmanRonald C. Grush
    • James W. HoffmanRonald C. Grush
    • G01J5/00G01J5/04
    • G01J1/4228G01J5/0003G01J5/02G01J5/0225G01J5/041G01J5/08G01J5/0834G01J5/0846G01J5/0853G01J5/0862G01J2005/068
    • A sensing cavity is directed towards the radiation to be measured. An identical reference cavity is directed towards a heat sink which is maintained at a constant temperature. An electric heater and a temperature sensor are mounted on both the sensing cavity and the reference cavity. The temperature sensors are connected to a bridge which is powered only when an observation is made. The heater on the sensing cavity is controlled by bridge imbalance to equalize the temperature of the two cavities. The heater power is then a direct measure of the difference in the power entering the sensing cavity and the power entering the reference cavity. By knowing the power entering the reference cavity, the power entering the sensing cavity can be calculated. The two cavities are mounted together to a common heat sink and have a directly associated preamplifier circuit included in the modular mounting. A plurality of such sensors is used to obtain radiance measurements in many directions simultaneously.
    • 感测腔被引导到待测量的辐射。 相同的参考空腔被引导到保持在恒定温度的散热器。 一个电加热器和一个温度传感器安装在感应腔和参考腔两者上。 温度传感器连接到仅在进行观察时供电的桥。 感应腔上的加热器由桥梁不平衡控制,以均衡两个腔体的温度。 然后,加热器功率直接测量进入感测腔的功率的差异和进入参考腔的功率。 通过了解进入参考腔的功率,可以计算进入感应腔的功率。 两个腔体一起安装到公共散热器,并具有包括在模块化安装中的直接相关的前置放大器电路。 使用多个这样的传感器来同时在许多方向上获得辐射测量。
    • 6. 发明授权
    • System for conserving battery life in a battery operated device
    • 用于节省电池供电装置的电池寿命的系统
    • US07739529B2
    • 2010-06-15
    • US11605825
    • 2006-11-29
    • Gordon E. HardmanJohn W. PyneMolly A. HardmanDavid A. PrzygockiDavid M. CoombsPaul B. WilsonRonald C. GrushPhilip B. LoudinBrett W. Floyd
    • Gordon E. HardmanJohn W. PyneMolly A. HardmanDavid A. PrzygockiDavid M. CoombsPaul B. WilsonRonald C. GrushPhilip B. LoudinBrett W. Floyd
    • G06F1/00G06F1/26G06F1/32G08B26/00B60C23/00B60C23/02
    • B60C23/0433B29D2030/0072B60C23/0442B60C23/0444B60C23/0452B60C23/0493
    • A system for conserving battery life in a battery operated device such as a tire tag where there are several modes of operation. The typical mode is the deep sleep mode where the tag is generally inactive (no clock is running; however, an RC watchdog timer is running, which uses very little power). The tag spends most of its time in this low power mode. The tag periodically partially awakens to a lucid sleep mode (when the watchdog timer times out), initiates a low-speed clock, determines if it is time to enter a search mode by examining a search mode counter and, if it is not time, adjusts the search mode counter (e.g., decrements the counter by one), and returns to the deep sleep mode. The tag sleeps in the deep sleep mode most of its life in an effort to conserve battery power. During the deep sleep mode, because the clock oscillators are OFF, a deep sleep counter is adjusted (incremented or decremented) periodically (e.g., about every 18 ms) by an internal R/C oscillator. The internal watchdog timer (WDT) monitors the deep sleep counter and when the deep sleep counter, for example, contains a NULL value (all zeroes) the WDT wakes up the microcontroller (i.e., the WDT initiates the low-speed clock so that the tag cannot enter the lucid sleep mode). The tire tag delivers data at a slower or faster rate to achieve the important advantage of extending battery life. Also to extend battery life two oscillators are desirable because they allow two clock speeds. Having two clocks allows a designer to minimize use of the high-speed clock, thus conserving battery power.
    • 一种用于在诸如轮胎标签的电池操作装置中节省电池寿命的系统,其中存在若干操作模式。 典型的模式是深度睡眠模式,其中标签通常是无效的(没有时钟运行;但是,RC看门狗定时器运行,使用的功率很小)。 该标签大部分时间在此低功耗模式下使用。 标签周期性部分唤醒到清醒睡眠模式(当看门狗定时器超时时),启动低速时钟,通过检查搜索模式计数器确定是否进入搜索模式的时间,如果不是时间, 调整搜索模式计数器(例如,将计数器递减1),并返回到深度睡眠模式。 标签睡眠深睡眠模式大部分时间是为了节省电池电量。 在深睡眠模式期间,由于时钟振荡器为OFF,所以通过内部R / C振荡器周期性地(例如大约每18ms)调整(递增或递减)深度睡眠计数器。 内部看门狗定时器(WDT)监视深度睡眠计数器,当深度睡眠计数器例如包含一个空值(全部为零)时,WDT唤醒微控制器(即,WDT启动低速时钟, 标签无法进入清醒模式)。 轮胎标签以较慢或更快的速率传送数据,以实现延长电池寿命的重要优点。 另外为了延长电池寿命,两个振荡器是可取的,因为它们允许两个时钟速度。 有两个时钟允许设计人员最大限度地减少使用高速时钟,从而节省电池电量。