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    • 2. 发明申请
    • DYNAMICALLY DETECTING A DEFECTIVE CONNECTOR AT A PORT
    • 在端口动态检测缺陷连接器
    • US20120246523A1
    • 2012-09-27
    • US13426805
    • 2012-03-22
    • Laxman R. AnneJeffrey J. MillerSteven M. SwamEric W. Sybesma
    • Laxman R. AnneJeffrey J. MillerSteven M. SwamEric W. Sybesma
    • G06F11/07
    • H04L41/12
    • A connector assembly comprises a plurality of ports. Each of the plurality of ports is configured to receive a respective connector attached to a respective segment of physical communication media. Each of the plurality of ports comprises a respective media interface configured to receive data from a respective storage device attached to the respective connector. The connector assembly is configured to determine if a first connector attached to a first port included in the plurality of ports is defective by determining if a signal level received on the respective media interface associated with the first port has stabilized after a first predetermined amount of time has elapsed since the first connector was connected to the first port. If the signal level has not stabilized after the first predetermined amount of time has elapsed since the first connector was connected to the first port, the first connector is considered defective.
    • 连接器组件包括多个端口。 多个端口中的每一个被配置为接收附接到物理通信介质的相应段的相应连接器。 多个端口中的每一个包括被配置为从连接到相应连接器的相应存储装置接收数据的相应介质接口。 连接器组件被配置为通过确定在与第一端口相关联的各个媒体接口上接收到的信号电平在第一预定时间量之后是否已经稳定来确定附接到包括在多个端口中的第一端口的第一连接器是否有故障 从第一连接器连接到第一端口已经过去了。 如果在从第一连接器连接到第一端口开始经过第一预定量的时间之后信号电平没有稳定,则认为第一连接器是有缺陷的。
    • 3. 发明授权
    • Dynamically detecting a defective connector at a port
    • 在端口动态检测有缺陷的连接器
    • US08832503B2
    • 2014-09-09
    • US13426805
    • 2012-03-22
    • Laxman R. AnneJeffrey J. MillerSteven M. SwamEric W. Sybesma
    • Laxman R. AnneJeffrey J. MillerSteven M. SwamEric W. Sybesma
    • G06F11/00
    • H04L41/12
    • A connector assembly comprises a plurality of ports. Each of the plurality of ports is configured to receive a respective connector attached to a respective segment of physical communication media. Each of the plurality of ports comprises a respective media interface configured to receive data from a respective storage device attached to the respective connector. The connector assembly is configured to determine if a first connector attached to a first port included in the plurality of ports is defective by determining if a signal level received on the respective media interface associated with the first port has stabilized after a first predetermined amount of time has elapsed since the first connector was connected to the first port. If the signal level has not stabilized after the first predetermined amount of time has elapsed since the first connector was connected to the first port, the first connector is considered defective.
    • 连接器组件包括多个端口。 多个端口中的每一个被配置为接收附接到物理通信介质的相应段的相应连接器。 多个端口中的每一个包括被配置为从连接到相应连接器的相应存储装置接收数据的相应介质接口。 连接器组件被配置为通过确定在与第一端口相关联的各个媒体接口上接收到的信号电平在第一预定时间量之后是否已经稳定来确定附接到包括在多个端口中的第一端口的第一连接器是否有故障 从第一连接器连接到第一端口已经过去了。 如果在从第一连接器连接到第一端口开始经过第一预定量的时间之后信号电平没有稳定,则认为第一连接器是有缺陷的。
    • 4. 发明授权
    • Event-monitoring in a system for automatically obtaining and managing physical layer information using a reliable packet-based communication protocol
    • 用于使用可靠的基于分组的通信协议来自动获取和管理物理层信息的系统中的事件监视
    • US09497098B2
    • 2016-11-15
    • US13426764
    • 2012-03-22
    • Eric W. SybesmaJeffrey J. Miller
    • Eric W. SybesmaJeffrey J. Miller
    • H04L12/26H04L12/24
    • H04L43/12H04L41/06H04L43/062
    • One exemplary embodiment is directed to a system comprising a plurality of connector assemblies. Each of the connector assemblies is configured to read information stored on or in physical communication media that is connected to the ports of the respective connector assembly. The system further comprises an aggregation point communicatively coupled to the plurality of connector assemblies. The aggregation point is configured to automatically discover the connector assemblies and cause each of the connector assemblies to send to the aggregation point at least some of the information read from the physical communication media that is connected to the ports of the respective connector assemblies. The aggregation point is configured to store at least some of the information sent by the connector assemblies to the aggregation point. A reliable packet-based communication protocol is used by the aggregation point to monitor events occurring at at least one connector assembly.
    • 一个示例性实施例涉及包括多个连接器组件的系统。 每个连接器组件被配置为读取存储在连接到相应连接器组件的端口的物理通信介质上或物理通信介质中的信息。 该系统还包括通信地耦合到多个连接器组件的汇聚点。 聚合点被配置为自动发现连接器组件并且使得每个连接器组件向组合点发送从连接到相应连接器组件的端口的物理通信介质读取的至少一些信息。 聚合点被配置为将由连接器组件发送的至少一些信息存储到聚合点。 聚合点使用可靠的基于分组的通信协议来监视在至少一个连接器组件上发生的事件。
    • 5. 发明授权
    • Identifier encoding scheme for use with multi-path connectors
    • 用于多路径连接器的标识符编码方案
    • US09081537B2
    • 2015-07-14
    • US13426794
    • 2012-03-22
    • Eric W. SybesmaJeffrey J. Miller
    • Eric W. SybesmaJeffrey J. Miller
    • G06F3/00G06F9/00G06F1/16H05K7/00H04L12/933H04Q1/00
    • G06F1/16G06F3/00H04L49/10H04Q1/00H04Q1/136H05K7/00
    • One exemplary embodiment is directed to a method of tracking a plurality of communication paths in a connector assembly having a plurality of first attachment points and a plurality of second attachment points. The plurality of first attachment points and the plurality of second attachment points are configured to attach physical communication media to the connector assembly. The method comprises reading, from a storage device associated with the connector assembly first, information indicative of a plurality of communication paths formed within the connector assembly between the first attachment points and the second attachment points. The method further comprises reading second information stored on or in physical communication media that is attached to the connector assembly and communicating the first and second information to an aggregation point that is communicatively coupled to the connector assembly.
    • 一个示例性实施例涉及一种在具有多个第一附接点和多个第二附接点的连接器组件中跟​​踪多个通信路径的方法。 多个第一附接点和多个第二附接点被配置为将物理通信介质附接到连接器组件。 所述方法包括从与所述连接器组件相关联的存储设备首先读取表示形成在所述连接器组件内的所述第一连接点和所述第二附接点之间的多个通信路径的信息。 该方法还包括读取存储在物理通信介质上的物理通信介质中附加到连接器组件的第二信息,并将第一和第二信息传送到通信地耦合到连接器组件的聚合点。
    • 6. 发明申请
    • IDENTIFIER ENCODING SCHEME FOR USE WITH MULTI-PATH CONNECTORS
    • 识别程序使用多路连接器编写程序
    • US20120246351A1
    • 2012-09-27
    • US13426794
    • 2012-03-22
    • Eric W. SybesmaJeffrey J. Miller
    • Eric W. SybesmaJeffrey J. Miller
    • G06F3/00H05K7/00G06F1/16
    • G06F1/16G06F3/00H04L49/10H04Q1/00H04Q1/136H05K7/00
    • One exemplary embodiment is directed to a method of tracking a plurality of communication paths in a connector assembly having a plurality of first attachment points and a plurality of second attachment points. The plurality of first attachment points and the plurality of second attachment points are configured to attach physical communication media to the connector assembly. The method comprises reading, from a storage device associated with the connector assembly first, information indicative of a plurality of communication paths formed within the connector assembly between the first attachment points and the second attachment points. The method further comprises reading second information stored on or in physical communication media that is attached to the connector assembly and communicating the first and second information to an aggregation point that is communicatively coupled to the connector assembly.
    • 一个示例性实施例涉及一种在具有多个第一附接点和多个第二附接点的连接器组件中跟​​踪多个通信路径的方法。 多个第一附接点和多个第二附接点被配置为将物理通信介质附接到连接器组件。 所述方法包括从与所述连接器组件相关联的存储设备首先读取表示形成在所述连接器组件内的所述第一连接点和所述第二附接点之间的多个通信路径的信息。 该方法还包括读取存储在物理通信介质上的物理通信介质中附加到连接器组件的第二信息,并将第一和第二信息传送到通信地耦合到连接器组件的聚合点。
    • 7. 发明申请
    • EVENT-MONITORING IN A SYSTEM FOR AUTOMATICALLY OBTAINING AND MANAGING PHYSICAL LAYER INFORMATION USING A RELIABLE PACKET-BASED COMMUNICATION PROTOCOL
    • 使用可靠的基于分组的通信协议自动获取和管理物理层信息的系统中的事件监视
    • US20120243554A1
    • 2012-09-27
    • US13426764
    • 2012-03-22
    • Eric W. SybesmaJeffrey J. Miller
    • Eric W. SybesmaJeffrey J. Miller
    • H04L12/56
    • H04L43/12H04L41/06H04L43/062
    • One exemplary embodiment is directed to a system comprising a plurality of connector assemblies. Each of the connector assemblies is configured to read information stored on or in physical communication media that is connected to the ports of the respective connector assembly. The system further comprises an aggregation point communicatively coupled to the plurality of connector assemblies. The aggregation point is configured to automatically discover the connector assemblies and cause each of the connector assemblies to send to the aggregation point at least some of the information read from the physical communication media that is connected to the ports of the respective connector assemblies. The aggregation point is configured to store at least some of the information sent by the connector assemblies to the aggregation point. A reliable packet-based communication protocol is used by the aggregation point to monitor events occurring at at least one connector assembly.
    • 一个示例性实施例涉及包括多个连接器组件的系统。 每个连接器组件被配置为读取存储在连接到相应连接器组件的端口的物理通信介质上或物理通信介质中的信息。 该系统还包括通信地耦合到多个连接器组件的汇聚点。 聚合点被配置为自动发现连接器组件并且使得每个连接器组件向组合点发送从连接到相应连接器组件的端口的物理通信介质读取的至少一些信息。 聚合点被配置为将由连接器组件发送的至少一些信息存储到聚合点。 聚合点使用可靠的基于分组的通信协议来监视在至少一个连接器组件上发生的事件。