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    • 1. 发明申请
    • DIGITAL RACK INTERFACE POD (DRIP) WITH INTELLIGENT POWER CONTROL SYSTEM AND METHOD
    • 具有智能功率控制系统和方法的数字机架接口(DRIP)
    • US20130232352A1
    • 2013-09-05
    • US13877487
    • 2011-09-29
    • Phillip R. KentKarl Mills
    • Phillip R. KentKarl Mills
    • G06F1/26
    • G06F1/266G06F1/263G06F1/30
    • An intelligent power control system and method adapted for use with a digital rack interface pod (DRIP). A switching regulator generates a set output voltage. If power is available from a USB port of an external device, such as an external server, then the system uses this power to power the DRIP. If DC power is detected as being received on a different input from an external power transformer, then the system may still continue to use the power being received from the USB port to power the DRIP. If power from the USB port of the external device is lost but power from the external transformer is present, then the system may use the power available from the external transformer to power the DRIP. If the DRIP is being powered by USB power from the external device, and no DC power is available from the external transformer, but backup power from an appliance to which the DRIP is coupled is being received on one of the DRIP's power input ports, then the DRIP may switch to backup power from the appliance if power from the USB port of the external device (e.g., server) is lost. The system thus intelligently prioritizes the use of power available from a plurality of different power sources to maintain the DRIP powered on when one or more of the power sources is lost or otherwise not available.
    • 适用于数字机架接口盒(DRIP)的智能电源控制系统和方法。 开关稳压器产生设定的输出电压。 如果从外部设备的USB端口(如外部服务器)可以使用电源,则系统将使用此电源为DRIP供电。 如果检测到直流电源在与外部电源变压器不同的输入上接收到,则系统仍然可以继续使用从USB端口接收的电源为DRIP供电。 如果来自外部设备的USB端口的电源丢失,而外部变压器有电源,则系统可能会使用外部变压器提供的电源为DRIP供电。 如果DRIP由外部设备的USB电源供电,并且外部变压器没有可用的直流电源,但是DRIP的其中一个电源输入端口上接收到DRIP耦合到的设备的备用电源,则 如果来自外部设备(例如服务器)的USB端口的电源丢失,DRIP可能会切换到设备的备用电源。 因此,当一个或多个电源丢失或以其他方式不可用时,该系统智能地优先使用从多个不同电源可用的电力来维持DRIP上电。
    • 2. 发明授权
    • Digital rack interface pod (DRIP) with intelligent power control system and method
    • 数字机架接口盒(DRIP)具有智能功率控制系统和方法
    • US09069541B2
    • 2015-06-30
    • US13877487
    • 2011-09-29
    • Phillip R. KentKarl Mills
    • Phillip R. KentKarl Mills
    • G06F1/26G06F1/30
    • G06F1/266G06F1/263G06F1/30
    • An intelligent power control system and method adapted for use with a digital rack interface pod (DRIP). A switching regulator generates a set output voltage. If power is available from a USB port of an external device, such as an external server, then the system uses this power to power the DRIP. If DC power is detected as being received on a different input from an external power transformer, then the system may still continue to use the power being received from the USB port to power the DRIP. If power from the USB port of the external device is lost but power from the external transformer is present, then the system may use the power available from the external transformer to power the DRIP. If the DRIP is being powered by USB power from the external device, and no DC power is available from the external transformer, but backup power from an appliance to which the DRIP is coupled is being received on one of the DRIP's power input ports, then the DRIP may switch to backup power from the appliance if power from the USB port of the external device (e.g., server) is lost. The system thus intelligently prioritizes the use of power available from a plurality of different power sources to maintain the DRIP powered on when one or more of the power sources is lost or otherwise not available.
    • 适用于数字机架接口盒(DRIP)的智能电源控制系统和方法。 开关稳压器产生设定的输出电压。 如果从外部设备的USB端口(如外部服务器)可以使用电源,则系统将使用此电源为DRIP供电。 如果检测到直流电源在与外部电源变压器不同的输入上接收到,则系统仍然可以继续使用从USB端口接收的电源为DRIP供电。 如果来自外部设备的USB端口的电源丢失,而外部变压器有电源,则系统可能会使用外部变压器提供的电源为DRIP供电。 如果DRIP由外部设备的USB电源供电,并且外部变压器没有可用的直流电源,但是DRIP的其中一个电源输入端口上接收到DRIP耦合到的设备的备用电源,则 如果来自外部设备(例如服务器)的USB端口的电源丢失,DRIP可能会切换到设备的备用电源。 因此,当一个或多个电源丢失或以其他方式不可用时,该系统智能地优先使用从多个不同电源可用的电力来维持DRIP上电。
    • 3. 发明申请
    • COMPRESSION SOCK
    • 压缩插座
    • US20080249454A1
    • 2008-10-09
    • US12061199
    • 2008-04-02
    • Karl Mills
    • Karl Mills
    • A61F13/06A41B11/02
    • A61F13/08D04B1/265
    • A novel stocking is disclosed having an advantageous combination of static and graduated compression regions to provide beneficial circulation for individuals having compromised circulation and for athletes. Because the stockings compression is graduated to generally comply with muscle contours, the stockings can be easily placed on the foot and removed and substantially improve the circulation of those with a variety of circulatory problems. During exercise, improved circulation facilitates the removal of metabolites such as carbon dioxide and lactic acid from muscle tissue in the leg and increases oxygenation of the same muscle tissue. The novel stockings are constructed from a novel knit fabric comprising a taut elastic material providing sufficient stretch to allow the stockings to be easily placed on a foot. The elastic material is further responsible for static and/or graduated compression in selected regions of a stocking. The second material can be elastic or non-elastic and is incorporated in to the knit material in a relaxed state to allow movement in a stretching direction without the second material being substantially stretched. A method for producing the novel stocking is also provided.
    • 公开了一种新颖的放养,其具有静态和分级压缩区域的有利组合,以为受损循环的个体和运动员提供有益的循环。 由于丝袜的压缩度通常符合肌肉的轮廓,所以可以将袜子容易地放置在脚上并去除并大大改善那些具有各种循环问题的人的循环。 在运动过程中,改善的循环有助于从腿部肌肉组织中去除代谢物如二氧化碳和乳酸,并增加同一肌肉组织的氧合作用。 新颖的丝袜由新颖的针织织物构成,其中包括提供足够拉伸的拉紧弹性材料,以使丝袜容易地放置在脚上。 弹性材料进一步负责放养选定区域的静态和/或分级压缩。 第二材料可以是弹性的或非弹性的,并且在松弛状态下结合到编织材料中,以允许在拉伸方向上移动,而不会使第二材料基本拉伸。 还提供了一种生产新型放养的方法。
    • 4. 发明授权
    • Digital rack interface pod system and method
    • 数字机架接口盒系统及方法
    • US09129069B2
    • 2015-09-08
    • US13877515
    • 2011-09-29
    • Lawrence LoKarl MillsAdam W. LewMehmood Nurmohamed
    • Lawrence LoKarl MillsAdam W. LewMehmood Nurmohamed
    • G06F3/00G06F15/16G06F13/40G06F3/023
    • G06F13/4068G06F3/023
    • A digital rack interface pod (DRIP) that is able to establish a communications link between a remote access appliance and a server having a USB port and a video port, to facilitate a keyboard/video/mouse (KVM) session between the server and the appliance. The DRIP is also able to establish a communications link between the appliance and an Ethernet port of the server that is associated with a service processor (SP) of the server. In this manner the DRIP is able to route data from the SP of the server to the appliance as well as communications from the appliance to the SP Ethernet port of the server. The DRIP is able to intelligently determine which packets of information received from the appliance are intended for the SP Ethernet port of the server and routes those packets to the SP Ethernet port of the server. The DRIP also automatically monitors and dynamically reassigns its two Ethernet ports as needed so that whichever one of its two Ethernet ports it discovers a connection with the appliance on will be the port that it continues using to communicate with the appliance.
    • 能够在远程访问设备和具有USB端口和视频端口的服务器之间建立通信链路的数字机架接口盒(DRIP),以便于服务器和服务器之间的键盘/视频/鼠标(KVM)会话 器具。 DRIP还能够在设备与服务器的与服务器的服务处理器(SP)相关联的以太网端口之间建立通信链路。 以这种方式,DRIP能够将数据从服务器的SP传送到设备,以及从设备到服务器的SP以太网端口的通信。 DRIP能够智能地确定从设备接收的哪些信息包是用于服务器的SP以太网端口,并将这些数据包路由到服务器的SP以太网端口。 DRIP还根据需要自动监控并动态重新分配其两个以太网端口,以便其发现与设备连接的两个以太网端口中的任一个将是其继续用于与设备通信的端口。
    • 10. 发明申请
    • DIGITAL RACK INTERFACE POD SYSTEM AND METHOD
    • 数字机架接口系统及方法
    • US20130215884A1
    • 2013-08-22
    • US13877515
    • 2011-09-29
    • Lawrence LoKarl MillsAdam W. LewMehmood Nurmohamed
    • Lawrence LoKarl MillsAdam W. LewMehmood Nurmohamed
    • G06F13/40
    • G06F13/4068G06F3/023
    • A digital rack interface pod (DRIP) that is able to establish a communications link between a remote access appliance and a server having a USB port and a video port, to facilitate a keyboard/video/mouse (KVM) session between the server and the appliance. The DRIP is also able to establish a communications link between the appliance and an Ethernet port of the server that is associated with a service processor (SP) of the server. In this manner the DRIP is able to route data from the SP of the server to the appliance as well as communications from the appliance to the SP Ethernet port of the server. The DRIP is able to intelligently determine which packets of information received from the appliance are intended for the SP Ethernet port of the server and routes those packets to the SP Ethernet port of the server. The DRIP also automatically monitors and dynamically reassigns its two Ethernet ports as needed so that whichever one of its two Ethernet ports it discovers a connection with the appliance on will be the port that it continues using to communicate with the appliance.
    • 能够在远程访问设备和具有USB端口和视频端口的服务器之间建立通信链路的数字机架接口盒(DRIP),以便于服务器和服务器之间的键盘/视频/鼠标(KVM)会话 器具。 DRIP还能够在设备与服务器的与服务器的服务处理器(SP)相关联的以太网端口之间建立通信链路。 以这种方式,DRIP能够将数据从服务器的SP传送到设备,以及从设备到服务器的SP以太网端口的通信。 DRIP能够智能地确定从设备接收的哪些信息包是用于服务器的SP以太网端口,并将这些数据包路由到服务器的SP以太网端口。 DRIP还根据需要自动监控并动态重新分配其两个以太网端口,以便其发现与设备连接的两个以太网端口中的任一个将是其继续用于与设备通信的端口。