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    • 1. 发明申请
    • METHOD AND APPARATUS FOR EXTENDING EQUIPMENT UPTIME IN ION IMPLANTATION
    • 用于延长离子植入装置的方法和装置
    • US20080223409A1
    • 2008-09-18
    • US12105702
    • 2008-04-18
    • Thomas N. HorskyDennis ManningKevin S. Cook
    • Thomas N. HorskyDennis ManningKevin S. Cook
    • B08B5/00B08B13/00
    • B08B7/00B08B7/0035C23C14/48C23C14/564H01J37/08H01J37/304H01J37/3171H01J2237/006H01J2237/022H01J2237/0827H01J2237/31705
    • An in situ cleaning system is disclosed for use with semiconductor processing equipment. In accordance with an important aspect of the invention, the cleaning system provides for dynamic cleaning of the semiconductor processing system by varying the pressure of the cleaning gas over time during a cleaning cycle. In particular, the cleaning gas is applied to the semiconductor processing system in repeated pressure cycles. Each pressure cycle begins with the pressure of the cleaning gas at PMIN. The pressure of the cleaning gas is increased to a maximum pressure PMAX during a fill portion of the pressure cycle and maintained for a dwell time selected to allow the available reactants to generate the desired end products. The pressure in the chamber to be cleaned is then reduced during a vent portion of the pressure cycle to permit venting of the reaction products. As such, each time the chamber to be filled is vented and re-filled, reaction products are removed and new reactants are introduced into the chamber to be cleaned, increasing the effective reaction rate.
    • 公开了用于半导体处理设备的原位清洁系统。 根据本发明的重要方面,清洁系统通过在清洁循环期间随时间改变清洁气体的压力来提供半导体处理系统的动态清洁。 特别地,在重复的压力循环中将清洁气体施加到半导体处理系统。 每个压力循环开始于P< MIN< MIN>清洁气体的压力。 在压力循环的填充部分期间,清洁气体的压力增加到最大压力P MAX,并保持选定的停留时间,以允许可用的反应物产生所需的最终产物。 然后在压力循环的通气部分期间减少要清洁的室中的压力,以允许反应产物排气。 因此,每次要填充的室被排出并重新填充时,将反应产物除去并将新的反应物引入待清洁的室中,从而提高有效的反应速率。
    • 8. 发明授权
    • Methods of ordering and manufacturing orthopedic components
    • 矫形部件的订购和制造方法
    • US09375303B1
    • 2016-06-28
    • US13087081
    • 2011-04-14
    • Kevin S. CookJames E. GrimmAnthony P. Romano
    • Kevin S. CookJames E. GrimmAnthony P. Romano
    • A61F2/30A61F2/00
    • A61F2/30942A61F2/0095A61F2/38A61F2002/30616G06F17/30979G06F19/00G06Q10/0832G16H10/60
    • Methods of ordering and manufacturing orthopedic components eliminate the need to stockpile and inventory large volumes of implants and instruments. In one exemplary embodiment, the surgeon begins by acquiring anatomical data from a patient. The anatomical data may then be loaded into a data comparison program. The data comparison program performs a best-fit analysis by comparing the patient's anatomical data to a number of predesigned, tested, and validated virtual implant models that are stored in a database. Once an implant has been identified by the data comparison program for the individual patient, the surgeon may place an order electronically with the manufacturer via the internet. In one exemplary embodiment, when placing the order, the surgeon will specify the type of implant, the surgery date, specific patient information, shipping information, and the preferred surgical technique that the surgeon anticipates using.
    • 订购和制造矫形部件的方法不需要库存和库存大量的植入物和器械。 在一个示例性实施例中,外科医生通过从患者获取解剖数据开始。 然后将解剖数据加载到数据比较程序中。 数据比较程序通过将患者的解剖数据与存储在数据库中的多个预先设计,测试和验证的虚拟植入物模型进行比较来执行最佳拟合分析。 一旦通过用于个体患者的数据比较程序识别了植入物,外科医生可以通过互联网与制造商电子地发出命令。 在一个示例性实施例中,当放置订单时,外科医生将指定外科医生预期使用的植入物的类型,手术日期,特定患者信息,运送信息以及优选的手术技术。