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    • 6. 发明授权
    • Method and system for PHY initiated wake-up in energy efficient ethernet networks
    • 在节能以太网网络中PHY启动唤醒的方法和系统
    • US08769082B2
    • 2014-07-01
    • US12508999
    • 2009-07-24
    • Scott PowellPeiqing Wang
    • Scott PowellPeiqing Wang
    • G06F15/173
    • G06F1/3209H04L12/40039Y02D50/42
    • One or both link partners coupled via an Ethernet link may comprise a PHY device operable to initiate a wake-up interval. The PHY device may monitor parameters that may indicate Ethernet link status. Exemplary parameters may comprise a timer, communication performance metrics and/or configuration parameters. From a low power mode, the PHY device may generate a wake state idle symbol based on the monitoring and may communicate it to a local and/or a remote MAC. The local and/or remote MAC may establish a wake-up interval. The wake-up interval may comprise synchronization, circuit adaption and updating of communication parameters, which may enable control of noise cancellation functions and/or equalization functions. One or both of the link partners may transition to a low power mode after the wake-up interval and/or to an active state after the wake-up interval.
    • 通过以太网链路耦合的一个或两个链路伙伴可以包括可操作以启动唤醒间隔的PHY设备。 PHY设备可以监视可能指示以太网链路状态的参数。 示例性参数可以包括定时器,通信性能度量和/或配置参数。 从低功率模式,PHY设备可以基于监视产生唤醒状态空闲符号,并且可以将其传送到本地和/或远程MAC。 本地和/或远程MAC可以建立唤醒间隔。 唤醒间隔可以包括通信参数的同步,电路适配和更新,其可以实现噪声消除功能和/或均衡功能的控制。 一个或两个链路伙伴可以在唤醒间隔之后转换到低功率模式和/或在唤醒间隔之后转换到活动状态。
    • 9. 发明申请
    • Method And System For PHY Initiated Wake-Up In Energy Efficient Ethernet Networks
    • 用于能量效率以太网网络中PHY发起唤醒的方法和系统
    • US20110022699A1
    • 2011-01-27
    • US12508999
    • 2009-07-24
    • Scott PowellPeiqing Wang
    • Scott PowellPeiqing Wang
    • G06F15/16G06F1/32
    • G06F1/3209H04L12/40039Y02D50/42
    • One or both link partners coupled via an Ethernet link may comprise a PHY device operable to initiate a wake-up interval. The PHY device may monitor parameters that may indicate Ethernet link status. Exemplary parameters may comprise a timer, communication performance metrics and/or configuration parameters. From a low power mode, the PHY device may generate a wake state idle symbol based on the monitoring and may communicate it to a local and/or a remote MAC. The local and/or remote MAC may establish a wake-up interval. The wake-up interval may comprise synchronization, circuit adaption and updating of communication parameters, which may enable control of noise cancellation functions and/or equalization functions. One or both of the link partners may transition to a low power mode after the wake-up interval and/or to an active state after the wake-up interval.
    • 通过以太网链路耦合的一个或两个链路伙伴可以包括可操作以启动唤醒间隔的PHY设备。 PHY设备可以监视可能指示以太网链路状态的参数。 示例性参数可以包括定时器,通信性能度量和/或配置参数。 从低功率模式,PHY设备可以基于监视产生唤醒状态空闲符号,并且可以将其传送到本地和/或远程MAC。 本地和/或远程MAC可以建立唤醒间隔。 唤醒间隔可以包括通信参数的同步,电路适配和更新,其可以实现噪声消除功能和/或均衡功能的控制。 一个或两个链路伙伴可以在唤醒间隔之后转换到低功率模式和/或在唤醒间隔之后转换到活动状态。