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    • 2. 发明授权
    • System and method for optical photomask inspection through pellicle
    • 通过防护薄膜检测光学光掩模的系统和方法
    • US07679736B1
    • 2010-03-16
    • US12180522
    • 2008-07-26
    • Marc T. AhoThaddeus J. WilsonJeff Roberts
    • Marc T. AhoThaddeus J. WilsonJeff Roberts
    • G01N21/00
    • G01N21/956G01N2021/95676
    • A pellicle correction factor is determined by comparing a first measurement of a reference photomask alone with a second measurement of that reference photomask through a reference pellicle protecting the mask layers of the photomask. A number of pellicle correction factors may be determined for different type pellicles and made accessible in pellicle correction factor lookup table of the system or supplied on a separate data storage medium. Raw Reflectance and/or Transmittance measurement data of a generic photomask through a generic pellicle is consecutively corrected for the measurement distorting effects of that pellicle by applying a matching one of the previously determined pellicle correction factors. The pellicle correction factor is preferably an attenuation signature across a predetermined measurement irradiation spectrum.
    • 通过将参考光掩模的第一测量与通过保护光掩模的掩模层的参考防护薄膜进行第二次测量的参考光掩模进行比较来确定防护薄膜校正因子。 可以为不同类型的薄膜确定许多防护薄膜修正因子,并且可以在系统的防护薄膜修正因子查找表中访问或提供在单独的数据存储介质上。 通过应用一个先前确定的防护薄膜修正因子中匹配的一个,通过通用防护薄膜的普通光掩模的原始反射率和/或透射率测量数据被连续校正为该防护薄片的测量失真效应。 防护薄膜修正因子优选为预定测量照射光谱上的衰减特征。
    • 7. 发明申请
    • Apparatus for holding a liquid container
    • 用于容纳液体容器的装置
    • US20060091275A1
    • 2006-05-04
    • US10977022
    • 2004-10-29
    • Jeff Roberts
    • Jeff Roberts
    • A47K1/08
    • B44D3/14B65D25/24
    • An apparatus is described to hold a liquid container on a horizontal support surface to reduce the risk of the container being knocked over. The apparatus is generally comprised of a container support that defines a container receiving socket, and a support surface engaging base part that is spaced outwardly of the container receiving socket and at least partially circumscribes the container support. Exemplary forms of the support surface can include a container receiving sleeve that is integrated with a formed base, upstanding container engaging members that are spaced about a flat base, flexible fingers that are integral with the base part, and a set of foldable tabs that can be folded upwardly from a flat base part.
    • 描述了一种将液体容器保持在水平支撑表面上以减少容器被撞倒的风险的装置。 该装置通常由限定容器接收插座的容器支撑件和与容器接收插座向外间隔开并且至少部分地围绕容器支架的支撑表面接合基部构成。 支撑表面的示例性形式可以包括与成​​形基部一体化的容器接收套筒,与平坦基部间隔开的直立容器接合构件,与基座部分成一体的柔性指状物,以及一组可折叠接头, 从平坦的基部向上折叠。
    • 8. 发明授权
    • In-line skate brake system
    • 在线滑冰制动系统
    • US5275259A
    • 1994-01-04
    • US691450
    • 1991-04-25
    • Jeff Roberts
    • Jeff Roberts
    • A63C17/14A63C17/06
    • A63C17/1436A63C17/06
    • An in-line skate braking system for braking of an individual on in-line skates by transferring the center of gravity about the rear roller to frictionally engage a brake pad of one in-line skate or both in-line skates against the ground. The brake pad is of a suitable material, such as rubber, so as to frictionally engage with the ground surface. The degree of braking is determined by the degree of pressure axially transferred about the rear roller by the center of gravity to the brake pad. By the skater properly shifting his or her weight about the rear roller, maximum force can be applied between the brake pad to the ground surface, causing a safe stop over a finite distance.
    • 一种在线滑冰制动系统,用于通过将重心围绕后辊转动而摩擦地接合一个在线滑冰板的制动片或两个在线溜冰鞋与地面上的在线溜冰鞋上的个人制动。 制动片是合适的材料,例如橡胶,以便与地面摩擦接合。 制动程度取决于通过重心向刹车片沿轴向传递的后辊的压力程度。 通过溜冰者正确地将他或她的重量围绕后辊移动,可以在制动垫与地面之间施加最大的力,从而在有限的距离上进行安全停止。