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    • 2. 发明授权
    • Method and apparatus for using synthetic preamable signals to awaken
repeater
    • 使用合成可预测信号唤醒中继器的方法和装置
    • US5898678A
    • 1999-04-27
    • US719608
    • 1996-09-25
    • Robert X. JinEric T. WestKathy L. PengStephen F. Dreyer
    • Robert X. JinEric T. WestKathy L. PengStephen F. Dreyer
    • H04L12/44H04L5/14
    • H04L12/44
    • In a 100BASE-T4 protocol network, the "carrier.sub.-- status" signal associated with an incoming packet on a PMA of a given port of a Clause 27 repeater is obviated and a direct connection between PMAs and a Clause 27 repeater in the network is eliminated by transmitting synthetic preamble signals over the PMA-Repeater Data Interface to the Clause 27 repeater corresponding to the given port at an early time prior to the time that the actual preamble information of the packet is transmitted over that data interface. Receipt of the synthetic preamble signals causes the repeater to awaken and to repeat the synthetic preamble signals to other ports of the repeater. In turn, the other ports become quiet in anticipation of data to be repeated from the given port to the other ports of the repeater.
    • 在100BASE-T4协议网络中,消除了与第27条中继器的给定端口的PMA上的输入分组相关联的“载波状态”信号,并且消除了网络中的PMA和第27条中继器之间的直接连接 通过在通过该数据接口发送分组的实际前导码信息之前的早期,通过PMA中继器数据接口将合成前导信号发送到对应于给定端口的第27条中继器。 接收合成前导信号使得中继器唤醒并将合成的前同步信号重复到中继器的其他端口。 反过来,其他端口变得安静,预期将从给定端口重复数据到中继器的其他端口。
    • 3. 发明授权
    • Method and apparatus for using synthetic preamble signals to awaken repeater
    • 使用合成前导信号唤醒中继器的方法和装置
    • US06185190B2
    • 2001-02-06
    • US09240788
    • 1999-01-27
    • Robert X. JinEric T. WestKathy L. PengStephen F. Dreyer
    • Robert X. JinEric T. WestKathy L. PengStephen F. Dreyer
    • H04J314
    • H04L12/44
    • In a 100BASE-T4 protocol network, the “carrier_status” signal associated with an incoming packet on a PMA of a given port of a Clause 27 repeater is obviated and a direct connection between PMAs and a Clause 27 repeater in the network is eliminated by transmitting synthetic preamble signals over the PMA-Repeater Data Interface to the Clause 27 repeater corresponding to the given port at an early time prior to the time that the actual preamble information of the packet is transmitted over that data interface. Receipt of the synthetic preamble signals causes the repeater to awaken and to repeat the synthetic preamble signals to other ports of the repeater. In turn, the other ports become quiet in anticipation of data to be repeated from the given port to the other ports of the repeater.
    • 在100BASE-T4协议网络中,消除了与第27条中继器的给定端口的PMA上的输入分组相关联的“carrier_status”信号,并且通过发送来消除PMA与第27个中继器之间的直接连接 在通过该数据接口发送分组的实际前导码信息之前的早期,通过PMA中继器数据接口向与给定端口相对应的第27条中继器的合成前导信号。 接收合成前导信号使得中继器唤醒并将合成的前同步信号重复到中继器的其他端口。 反过来,其他端口变得安静,预期将从给定端口重复数据到中继器的其他端口。
    • 9. 发明授权
    • Apparatus and method for providing multiple channel clock-data alignment
    • 用于提供多通道时钟数据对准的装置和方法
    • US5920897A
    • 1999-07-06
    • US693760
    • 1996-08-07
    • Robert X. JinEric T. WestStephen F. Dreyer
    • Robert X. JinEric T. WestStephen F. Dreyer
    • G06F13/00H04J3/06G06P13/00
    • H04L25/14G06F2213/0038H04L7/0008
    • An apparatus and method for aligning any number of multiple parallel channels of data signals according to a single clock is provided. The synchronization process is accomplished through the use of a First-In-First-Out (FIFO) principle and individual storage elements implementing the FIFO principle for each received data channel. Each channel's data signals are read into a corresponding storage element, maintained in order, and read out upon the assertion of read signals in synchronization with a designated single clock signal. The apparatus and method preferably uses indications of data ready to be read from a storage element implementing the FIFO principle and the presence of a master clock signal to activate the reading of the data from the corresponding storage element. Therefore, each data channel is fully aligned with the master clock signal. The clock-data alignment function may be implemented for a 100BASE-T4 receiver.
    • 提供了一种用于根据单个时钟对准任意数量的数据信号的多个并行通道的装置和方法。 通过使用先入先出(FIFO)原理和为每个接收到的数据信道实现FIFO原理的各个存储元件来实现同步过程。 每个通道的数据信号被读入对应的存储元件,按顺序保持,并且在与指定的单个时钟信号同步的断言读出信号时读出。 该装置和方法优选地使用准备从实现FIFO原理的存储元件读取的数据的指示和主时钟信号的存在,以激活从对应的存储元件读取数据。 因此,每个数据通道与主时钟信号完全对齐。 可以为100BASE-T4接收机实现时钟数据对准功能。
    • 10. 发明授权
    • Apparatus and method for detecting and correcting reverse polarity, in a
packet-based data communications system
    • 在基于分组的数据通信系统中检测和校正反向极性的装置和方法
    • US5727006A
    • 1998-03-10
    • US698374
    • 1996-08-15
    • Stephen F. DreyerRobert X. JinEric T. West
    • Stephen F. DreyerRobert X. JinEric T. West
    • B01D17/00B01D21/26B01D29/11B01D35/02C10M175/00H04L1/24H04L12/26H04L12/413H04L12/44H04L25/06H04L25/14G06F11/00
    • H04L25/14H04L1/242H04L12/44H04L25/06H04L12/2602H04L12/413H04L43/00H04L43/0823
    • The present invention allows for the detection and correction of certain error conditions in packet-based data communications systems, including systems utilizing multiple channels or signal pairs, where all channels or signal pairs do not carry a link integrity signal or other repetitive non-data signal. A first aspect of the present invention provides detection and correction for reverse polarity. A second aspect of the present invention provides detection and correction for pair swap. A third aspect of the present invention provides a link integrity function. Detection of reverse polarity, detection of pair swap, and detection of link integrity by utilizes the non-data components of received packets, either independently or in conjunction with a link integrity signal or other repetitive non-data signal. Reverse polarity is corrected by inverting the received signals prior to transmission or repetition to subsequent circuitry. Pair swap is corrected by switching the signals received on the swapped pairs prior to transmission or repetition to subsequent circuitry. Link integrity status is indicated via a transmitted signal.
    • 本发明允许检测和校正基于分组的数据通信系统中的某些错误条件,包括利用多信道或信号对的系统,其中所有信道或信号对不携带链路完整性信号或其他重复非数据信号 。 本发明的第一方面提供了相反极性的检测和校正。 本发明的第二方面提供了对互换的检测和校正。 本发明的第三方面提供一种链路完整性功能。 通过独立地或结合链路完整性信号或其他重复的非数据信号利用接收到的分组的非数据分量来检测反极性,检测对交换和检测链路完整性。 通过在传输或重复之前将接收到的信号反相到后续电路来校正反极性。 通过在发送或重复之前将交换对上接收的信号切换到后续电路来校正对交换。 通过发送信号指示链路完整性状态。