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    • 3. 发明授权
    • SMDR translator
    • SMDR翻译器
    • US5048079A
    • 1991-09-10
    • US565954
    • 1990-08-10
    • Craig J. HarringtonBrian W. JohnsonMichael S. MillerRonald E. Souder
    • Craig J. HarringtonBrian W. JohnsonMichael S. MillerRonald E. Souder
    • H04M15/04
    • H04M15/04
    • A telecommunications system 10 is provided which comprises a PBX system 12 coupled to a call processing system 16 through plurality of trunks 14. SMDR data records are received from the PBX system 12 by the call processing system 16 through an SMDR data line 18. The call processing system 16 includes an SMDR translation system which retrieves call records associated with each call placed through the call processing system 16 and matches these call records to SMDR data records received from the PBX system 12. The matched records are used to generate a combined SMDR output record for a particular call which is then output through an output line 30 to a call accounting system 32. In this manner, the call processing system 16 can utilize the information received from the PBX system 12 with the accurate call duration information generated in its own systems to provide for accurate call records associated with each call placed through the call processing system 16.
    • 提供电信系统10,其包括通过多个中继线14耦合到呼叫处理系统16的PBX系统12.呼叫处理系统16经由SMDR数据线18从PBX系统12接收SMDR数据记录。呼叫 处理系统16包括SMDR翻译系统,其检索与通过呼叫处理系统16放置的每个呼叫相关联的呼叫记录,并将这些呼叫记录与从PBX系统12接收的SMDR数据记录相匹配。匹配的记录用于生成组合的SMDR输出 特定呼叫的记录,然后通过输出线30输出到呼叫计费系统32.以这种方式,呼叫处理系统16可以利用从PBX系统12接收到的信息,其中自己产生的准确的呼叫持续时间信息 系统以提供与通过呼叫处理系统16放置的每个呼叫相关联的精确呼叫记录。
    • 5. 发明授权
    • Server packaging architecture utilizing a blind docking processor-to-midplane mechanism
    • 使用盲对接处理器到中平面机制的服务器包装架构
    • US07180753B2
    • 2007-02-20
    • US10606454
    • 2003-06-26
    • Brian M. KerriganKarl K. DittusMatthew S. HenryMichael S. Miller
    • Brian M. KerriganKarl K. DittusMatthew S. HenryMichael S. Miller
    • H05K7/14H05K7/18
    • G06F1/184G06F1/183G06F1/188
    • A dual motion docking apparatus for docking an electronics console to a component board in a chassis is disclosed. The electronics console and the component board lie in the same plane of the chassis, but the electronics console must be mated with the component board at an angle orthogonal to a direction of installation of the electronics console. Aspects of the present invention include a first docking mechanism for slidably inserting the electronics console into a chassis, such that connectors on the electronics console align with connectors on the component board. The first docking mechanism preferably comprises a docking base coupled to the electronics console that has a longitudinal female portion, and a longitudinal male portion located on an underside of the electronics console, wherein when the electronics console is inserted into an opening in a chassis, the male portion engages the female portion of the docking base to guide the electronics console along the docking base as the electronics console is slid into the chassis. The dual motion docking apparatus further includes a second docking mechanism for laterally moving the electronics console towards the component board, such that the electronics console connectors engage the component board connectors, thereby enabling the blind docking between the electronics console and the component board. The second docking mechanism preferably comprises a handle extending from a front of the electronics console, and a cam mechanism having a portion that is held immobile by a docking base, wherein after the electronics console is slid into the chassis, the handle is pushed rearward by hand to actuate the cam mechanism, which then pulls the electronics console towards the component board.
    • 公开了一种用于将电子控制台对接到底盘中的部件板的双运动对接装置。 电子控制台和组件板位于机箱的同一平面上,但电子控制台必须与电子控制台的安装方向垂直的角度与组件板配合。 本发明的方面包括用于将电子控制台可滑动地插入到底盘中的第一对接机构,使得电子控制台上的连接器与组件板上的连接器对准。 第一对接机构优选地包括联接到电子控制台的对接基座,其具有纵向阴部分,以及位于电子控制台的下侧上的纵向阳部分,其中当电子控制台插入到底盘中的开口中时, 当电子控制台滑入底盘时,阳部件接合对接基座的阴部分,以沿对接基座引导电子控制台。 双运动对接装置还包括用于将电子控制台横向移动到部件板的第二对接机构,使得电子控制台连接器接合部件板连接器,从而实现电子控制台与部件板之间的盲对接。 第二对接机构优选地包括从电子控制台的前部延伸的把手和具有被对接基座固定的部分的凸轮机构,其中在电子控制台滑入底盘之后,手柄被向后推动 手动致动凸轮机构,然后将电子控制台拉向组件板。
    • 10. 发明申请
    • Container-based data center having greater rack density
    • 基于容器的数据中心具有更大的机架密度
    • US20110157829A1
    • 2011-06-30
    • US12647783
    • 2009-12-28
    • Paul A. WormsbecherGregory J. McKnightMichael S. MillerHoward V. Mahaney
    • Paul A. WormsbecherGregory J. McKnightMichael S. MillerHoward V. Mahaney
    • H05K7/20A47B81/00A47B96/00F28F7/00
    • H05K7/1497
    • A container includes first and second long sides parallel to the container's length. Racks are organized in rows parallel to the container's width. Each rack is receptive to installation of equipment along a height of the data rack parallel to the container's height. Openings are defined within the first and/or second long sides of the container. Heat exchangers may be installed, where each exchanger is installed on a rack to cool air exhausted by any equipment installed on this rack. Each row may include as many of the racks positioned side-to-side, length-wise, and parallel to the width of the container as can fit within the container. The racks of each row may be slidable in unison back and forth along the length of the container, between a first position at which the racks block an opening and a second position at which the racks block another opening.
    • 容器包括平行于容器长度的第一和第二长边。 机架以与容器宽度平行的行组织。 每个机架都可接受沿数据机架高度平行于容器高度安装的设备。 开口限定在容器的第一和/或第二长边内。 可以安装热交换器,其中每个交换器安装在机架上以冷却由该机架上安装的任何设备排出的空气。 每排可以包括与容器的宽度方向一致,并且平行于容器宽度的多个机架。 每排的齿条可以沿着容器的长度一致地前后滑动,该第一位置在齿条挡住开口的第一位置和齿条阻挡另一开口的第二位置之间。