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    • 53. 发明授权
    • Vehicle light tester
    • US10663508B1
    • 2020-05-26
    • US15889495
    • 2018-02-06
    • William Walker
    • William Walker
    • G01R31/00G01R31/44G07C5/08
    • The vehicle light tester is a testing instrument configured for use with a trailer. The trailer comprises a plurality of operating lights and a trailer port. The trailer port attaches the plurality of operating lights to a vehicle electric power system. The vehicle light tester attaches to the trailer port of the trailer. The vehicle light tester provides electrical power to the plurality of operating lights. The vehicle light tester further simulates the control signals that operate the plurality of lights. The vehicle light tester allows for testing of the operation of a plurality of operating lights without requiring the trailer port to be connected to the vehicle electric power system. The vehicle light tester further allows for the flashing of the plurality of operating lights in an emergency situation. The vehicle light tester comprises a housing and a testing circuit. The housing contains the testing circuit.
    • 54. 发明申请
    • SYSTEM AND METHOD FOR CLOCK NETWORK META-SYNTHESIS
    • 用于时钟网络元素合成的系统和方法
    • US20130055186A1
    • 2013-02-28
    • US13214859
    • 2011-08-22
    • William WalkerSubodh M. Reddy
    • William WalkerSubodh M. Reddy
    • G06F17/50
    • G06F17/505G06F2217/62
    • In accordance with some embodiments of the present disclosure a method for constructing a clock network comprises receiving design specifications for a clock network. The method further comprises determining a topology of the clock network based on the design specifications. The topology indicates at least one of a plurality of levels of the clock network, a buffer type for each level and a buffer fanout for each level. The method additionally comprises determining design parameters for the clock network based on the determined topology and generating a clock network synthesis tool specification file that includes the design parameters. The method also comprises synthesizing the clock network using the specification file such that the clock network includes the determined topology and such that the clock network synchronously distributes a clock signal from a clock generator to endpoints of the clock network.
    • 根据本公开的一些实施例,用于构建时钟网络的方法包括接收时钟网络的设计规范。 该方法还包括基于设计规范来确定时钟网络的拓扑。 拓扑结构指示时钟网络的多个级别中的至少一个,每个级别的缓冲器类型和用于每个级别的缓冲器扇出。 该方法还包括基于确定的拓扑来确定时钟网络的设计参数,并且生成包括设计参数的时钟网络综合工具规范文件。 该方法还包括使用规范文件合成时钟网络,使得时钟网络包括所确定的拓扑,并且使得时钟网络将来自时钟发生器的时钟信号同时分配到时钟网络的端点。
    • 55. 发明申请
    • SUBWOOFER MOUNTING BRACKET
    • 小型安装支架
    • US20120091866A1
    • 2012-04-19
    • US12905380
    • 2010-10-15
    • William WalkerChris Matthews
    • William WalkerChris Matthews
    • A47B81/06
    • B60R11/0217B60R2011/0036B60R2011/0052H04R1/026
    • Disclosed herein are embodiments of a speaker mounting assembly. In one such embodiment, the speaker mounting assembly comprises a speaker housing having a housing support surface, a speaker mounting bracket having a base surface, a projection extending from one of the speaker housing and the speaker mounting bracket and a mounting structure formed on the other of the speaker housing and the speaker mounting bracket. The mounting structure is configured to receive the projection such that the housing support surface contacts the base surface when the projection is received in the mounting structure. The mounting structure has an anti-rotation structure configured to prevent rotation of the speaker housing with respect to the speaker mounting bracket.
    • 这里公开了扬声器安装组件的实施例。 在一个这样的实施例中,扬声器安装组件包括具有壳体支撑表面的扬声器壳体,具有基座表面的扬声器安装支架,从扬声器壳体和扬声器安装支架中的一个延伸的突出部和在另一个上形成的安装结构 的扬声器外壳和扬声器安装支架。 安装结构构造成接收突起,使得当突起被接收在安装结构中时,壳体支撑表面接触基座表面。 安装结构具有防旋转结构,其构造成防止扬声器壳体相对于扬声器安装支架旋转。
    • 56. 发明申请
    • Open-Path Near Real-Time Full Wall Emissions Monitoring Method
    • 开路近实时全墙排放监测方法
    • US20110228270A1
    • 2011-09-22
    • US12727415
    • 2010-03-19
    • William WalkerLarry GoldenAmy Karony
    • William WalkerLarry GoldenAmy Karony
    • G01J3/28
    • G01J3/02G01J3/0202G01J3/0291G01J3/42G01N21/3504G01N2021/1795G01N2021/3513
    • The invention is a combination of two prior arts (one being a tower elevator system and the other an open-path monitoring system) in order to perform automated “full wall” monitoring of an emission source. The system will allow an open-path detection system to take near real-time readings of the compounds present in the full area between the towers (both rectangular and triangular areas as shown in FIG. 1) by allowing either the retroreflector, or both the retroreflector and an open-path monitoring device to traverse the height of the towers. Sampled air is continuously monitored as the instrument traverses the tower. This is essentially a method for obtaining the impact of an emission source on the environment by acquiring a virtual “wall” of sampled air through automated and synchronized vertical movement and operation (both upstream and downstream of the source) of an open path detection method.
    • 本发明是两个现有技术(一个是塔式升降机系统,另一个是开放式通道监测系统)的组合,以便执行发射源的自动“全壁”监测。 该系统将允许开放路径检测系统通过允许后向反射器或两者都可以接近实时读取存在于塔(图1所示的矩形和三角形区域)之间的整个区域中的化合物的实时读数 后向反射器和开放路径监测装置,以横越塔的高度。 当仪器穿过塔架时,连续监测采样空气。 这本质上是一种通过采用开放路径检测方法的自动和同步的垂直移动和操作(源的上游和下游)获取采样空气的虚拟“墙”来获得排放源对环境的影响的方法。