公开(公告)号：US20150071334A1

公开(公告)日：2015-03-12

申请号：US14483322

申请日：2014-09-11

Applicant: Broadcom Corporation

Inventor： Ahmad Chini ,  Mehmet Vakif Tazebay

IPC: H04L1/08 ,  H04L25/03 ,  H04L29/08

CPC classification number: H04L1/08 ,  H04B1/10 ,  H04B17/345 ,  H04J11/0023 ,  H04L1/1832 ,  H04L25/03057 ,  H04W4/046 ,  H04W4/80

Abstract: A vehicle communication network device includes a transceiver configured to communicatively couple with a remote transceiver of another vehicle communication network device via a wired media and processing circuitry coupled to the transceiver.The device detects interference on the wired media that exceeds an interference threshold level. Upon the detection, the device enters a quiet mode during which no data is transmitted on the wired media. After exiting the quiet mode, the device enters an idle mode during which known data is transmitted on the wired media and during which the device receives known data from the remote transceiver. The device retrains its transceiver based upon the known data and after retraining the transceiver, exchanges data with the remote transceiver. The device may also buffer data for transmission, upon the detection, determine buffered data that was likely corrupted by the interference, and after retraining, retransmit the determined buffered data.

Abstract translation: 车辆通信网络设备包括经配置以经由有线介质和耦合到收发器的处理电路与另一车辆通信网络设备的远程收发器通信地耦合的收发器。 该设备检测超过干扰阈值水平的有线介质上的干扰。 检测时，设备进入安静模式，在此模式下，无线数据传输在有线介质上。 退出安静模式后，设备进入空闲模式，在此模式下，已知数据在有线媒体上传输，在此期间设备从远程收发器接收已知数据。 设备根据已知的数据重新收发收发信机，并在再收发收发器之后，与远程收发器交换数据。 该装置还可以缓冲数据以进行传输，在检测时，确定可能被干扰破坏的缓冲数据，并且在再训练之后，重传所确定的缓冲数据。

公开(公告)号：US10211881B2

公开(公告)日：2019-02-19

申请号：US13963962

申请日：2013-08-09

Applicant: BROADCOM CORPORATION

Inventor： Peiqing Wang ,  Linghsiao Wang ,  Mehmet Vakif Tazebay

IPC: H04B3/32 ,  H04L12/12

Abstract: Systems and methods for implementing an Energy-Efficient Ethernet (EEE) communication are provided. In some aspects, a method includes identifying an EEE signal configured to be communicated via a first set of wires. The method also includes processing the EEE signal such that the processed EEE signal is configured to be communicated via a second set of wires. The second set of wires including fewer wires than the first set of wires. The method also includes communicating the processed EEE signal via the second set of wires.

公开(公告)号：US20160204900A1

公开(公告)日：2016-07-14

申请号：US14627539

申请日：2015-02-20

Applicant: Broadcom Corporation

Inventor： Chung Ming Tu ,  James Graba ,  Peiqing Wang ,  Ahmad Chini ,  Yencheng Chen ,  Ba-Zhong Shen ,  Mehmet Vakif Tazebay

IPC: H04L1/00 ,  G06F11/10

CPC classification number: H04L1/0041 ,  G06F11/10 ,  H04L1/0045 ,  H04L1/0057 ,  H04L12/12 ,  Y02D50/42

Abstract: A communication technique for energy efficient Ethernet (EEE) employs a systematic block forward error correcting code (FEC). The technique aligns a low power idle (LPI) refresh signal with the FEC frame. The refresh signal includes a known reference sequence, FEC systematic symbols, and FEC parity symbols. The technique may apply shortened FEC encoding and decoding on the partial data symbols and the parity symbols.

Abstract translation: 能效以太网（EEE）的通信技术采用系统块前向纠错码（FEC）。 该技术将低功耗空闲（LPI）刷新信号与FEC帧对齐。 刷新信号包括已知的参考序列，FEC系统符号和FEC奇偶校验符号。 该技术可以对部分数据符号和奇偶校验符号应用缩短的FEC编码和解码。

公开(公告)号：US20160056981A1

公开(公告)日：2016-02-25

申请号：US14834615

申请日：2015-08-25

Applicant: BROADCOM CORPORATION

Inventor： Ba-Zhong Shen ,  Mehmet Vakif Tazebay ,  Chung Ming Tu

IPC: H04L25/03

CPC classification number: H04L25/066 ,  H04L25/03057 ,  H04L25/03146

Abstract: A communication device (alternatively, device) includes a processor configured to support communications with other communication device(s) and to generate and process signals for such communications. In some examples, the device includes a communication interface and a processor, among other possible circuitries, components, elements, etc. to support communications with other communication device(s) and to generate and process signals for such communications. For example, the device's processor receives one or more signals from a communication channel. The processor then processes the one or more signals to generate 2D DFE soft slicer outputs and to decode the one or more signals based on the 2D DFE soft slicer outputs to generate estimates of information encoded within the one or more signals. The processor may process the 2D DFE soft slicer outputs to generate 2D DFE hard decisions and then generates other estimates of the information encoded based on the 2D DFE hard decisions.

Abstract translation: 通信设备（可选地，设备）包括被配置为支持与其他通信设备的通信并且生成和处理用于这种通信的信号的处理器。 在一些示例中，设备包括通信接口和处理器以及其他可能的电路，组件，元件等，以支持与其他通信设备的通信，并且生成和处理用于这种通信的信号。 例如，设备的处理器从通信信道接收一个或多个信号。 然后，处理器处理一个或多个信号以产生2D DFE软限幅器输出，并且基于2D DFE软限幅器输出对一个或多个信号进行解码，以产生在一个或多个信号内编码的信息的估计。 处理器可以处理2D DFE软切片器输出以产生2D DFE硬判决，然后生成基于2D DFE硬判决编码的信息的其他估计。

公开(公告)号：US09253072B2

公开(公告)日：2016-02-02

申请号：US14060980

申请日：2013-10-23

Applicant: BROADCOM CORPORATION

Inventor： Xiaotong Lin ,  Mehmet Vakif Tazebay

IPC: H04L12/26 ,  H04L5/14 ,  H04L5/16

CPC classification number: H04L43/50 ,  H04L1/0057 ,  H04L1/242 ,  H04L5/1438 ,  H04L5/16

Abstract: In the subject system for polarity detection, link initialization between a primary device and a secondary device may be performed in at least two stages, a half-duplex stage when only the primary device transmits initialization signals and any encoded handshaking signals may be set to false, and a full-duplex stage when both devices may transmit initialization signals. The secondary device may perform polarity detection during the half-duplex stage. If the secondary device determines that the polarities of the received signals are reversed, the secondary device may reverse the polarities of any signals subsequently received from, and transmitted to, the primary device. In this manner, the polarities can be corrected for both devices during the half-duplex stage by the secondary device. The secondary device may initiate the full-duplex link initialization stage, during which any handshaking signals may be exchanged, by transmitting signals to the primary device.

Abstract translation: 在用于极性检测的主题系统中，主设备和辅助设备之间的链路初始化可以在至少两个阶段中执行，当只有主设备发送初始化信号时，半双工阶段可以被执行，并且任何编码的握手信号可能被设置为假 ，以及当两个设备可能发送初始化信号时的全双工阶段。 辅助设备可以在半双工阶段执行极性检测。 如果辅助设备确定接收信号的极性反转，则辅助设备可以反转随后从主设备接收并发送给主设备的任何信号的极性。 以这种方式，可以通过辅助设备在半双工阶段期间两个设备的极性被校正。 辅助设备可以发起全双工链路初始化阶段，在此期间，可以通过向主设备发送信号来交换任何握手信号。

公开(公告)号：US20150286273A1

公开(公告)日：2015-10-08

申请号：US14679232

申请日：2015-04-06

Applicant: Broadcom Corporation

Inventor： Mehmet Vakif Tazebay ,  Ahmad Chini ,  Xiaotong Lin

IPC: G06F1/32 ,  G06N5/04 ,  G06F1/26

CPC classification number: G06F1/3209 ,  H04L12/12 ,  Y02D50/40

Abstract: In some aspects, the disclosure is directed to methods and systems for a device including a physical interface with electrical connection to a communication channel, and circuitry configured to detect energy received at the physical interface, wait a predetermined length of a time until the beginning of a time slot, monitor the physical interface during the time slot for a predefined pattern from the communication channel, and upon detection of the predefined pattern, transition the device to an increased-power mode.

Abstract translation: 在一些方面，本公开涉及用于包括具有与通信信道的电连接的物理接口的设备的方法和系统，以及被配置为检测在物理接口处接收的能量的电路，等待预定长度的时间直到开始 时隙，在来自通信信道的预定义模式的时隙期间监视物理接口，并且在检测到预定义模式时，将设备转换到增加功率模式。

公开(公告)号：US09154265B2

公开(公告)日：2015-10-06

申请号：US14483322

申请日：2014-09-11

Applicant: BROADCOM CORPORATION

Inventor： Ahmad Chini ,  Mehmet Vakif Tazebay

IPC: H04L1/08 ,  H04B1/10 ,  H04J11/00 ,  H04B17/345 ,  H04W4/00 ,  H04W4/04 ,  H04L25/03

CPC classification number: H04L1/08 ,  H04B1/10 ,  H04B17/345 ,  H04J11/0023 ,  H04L1/1832 ,  H04L25/03057 ,  H04W4/046 ,  H04W4/80

Abstract: A vehicle communication network device includes a transceiver configured to communicatively couple with a remote transceiver of another vehicle communication network device via a wired media and processing circuitry coupled to the transceiver. The device detects interference on the wired media that exceeds an interference threshold level. Upon the detection, the device enters a quiet mode during which no data is transmitted on the wired media. After exiting the quiet mode, the device enters an idle mode during which known data is transmitted on the wired media and during which the device receives known data from the remote transceiver. The device retrains its transceiver based upon the known data and after retraining the transceiver, exchanges data with the remote transceiver. The device may also buffer data for transmission, upon the detection, determine buffered data that was likely corrupted by the interference, and after retraining, retransmit the determined buffered data.

Abstract translation: 车辆通信网络设备包括经配置以经由有线介质和耦合到收发器的处理电路与另一车辆通信网络设备的远程收发器通信地耦合的收发器。 该设备检测超过干扰阈值水平的有线介质上的干扰。 检测时，设备进入安静模式，在此模式下，无线数据传输在有线介质上。 退出安静模式后，设备进入空闲模式，在此模式下，已知数据在有线媒体上传输，在此期间设备从远程收发器接收已知数据。 设备根据已知的数据重新收发收发信机，并在再收发收发器之后，与远程收发器交换数据。 该装置还可以缓冲数据以进行传输，在检测时，确定可能被干扰破坏的缓冲数据，并且在再训练之后，重传所确定的缓冲数据。

公开(公告)号：US20150263762A1

公开(公告)日：2015-09-17

申请号：US14656839

申请日：2015-03-13

Applicant: BROADCOM CORPORATION

Inventor： Ba-Zhong Shen ,  Mehmet Vakif Tazebay ,  William Gene Bliss ,  Ahmad Chini ,  Mehdi Tavassoli Kilani

IPC: H03M13/11 ,  H04N7/18 ,  G05D1/08 ,  G05D1/00 ,  G05D1/02 ,  H04L1/00 ,  G01S17/88

CPC classification number: H03M13/1111 ,  B64C13/503 ,  G01S17/88 ,  G05D1/0808 ,  H03M13/116 ,  H03M13/353 ,  H03M13/3715 ,  H03M13/6337 ,  H03M13/658 ,  H03M13/6583 ,  H03M13/6591 ,  H04L1/0045 ,  H04L1/0057

Abstract: A local area network (LAN) backbone is implemented within an environment such as a self-contained environment (e.g., an automobile, an aircraft, a train, a ship, and/or any other environment). The LAN backbone is affected by AWGN, NBI, and/or impulse noise (noise). The LAN backbone supports communications based on an Ethernet communication protocol (e.g., a 1000Base-T1 based system that includes at least one single twisted pair). A device receives a first LDPC coded signal via the LAN backbone and decodes it to recover an input signal of a control system. The device also uses soft information generated during the decoding to compensate for the noise affecting the LAN backbone and then processes the input signal to generate a control signal for the control system. The device then and encodes the control signal to generate a second LDPC coded signal and transmits the second LDPC coded signal via the LAN backbone.

Abstract translation: 在诸如独立环境（例如，汽车，飞机，火车，船舶和/或任何其他环境）的环境中实现局域网（LAN）骨干网。 LAN主干受AWGN，NBI和/或脉冲噪声（噪声）的影响。 LAN骨干支持基于以太网通信协议的通信（例如，包括至少一个单个双绞线的基于1000Base-T1的系统）。 设备经由LAN骨干接收第一LDPC编码信号，并将其解码以恢复控制系统的输入信号。 该设备还使用在解码期间产生的软信息来补偿影响LAN主干的噪声，然后处理输入信号以产生控制系统的控制信号。 然后，该设备对该控制信号进行编码以产生第二LDPC编码信号，并经由LAN主干发送第二LDPC编码信号。

公开(公告)号：US20140044133A1

公开(公告)日：2014-02-13

申请号：US13716463

申请日：2012-12-17

Applicant: BROADCOM CORPORATION

Inventor： Peiqing Wang ,  Linghsiao Wang ,  Mehmet Vakif Tazebay

IPC: H04J3/06

CPC classification number: H04J3/0697 ,  H04J3/0658

Abstract: Systems and methods for implementing bi-directional synchronization propagation between first and second communication devices are provided. The devices are arranged in a loop-timing configuration. A method includes detecting, by the second communication device, a switching signal comprising an indication to switch a timing role of the second communication device and engaging, by the second communication device, in a synchronization handshake with the first communication device over a communication link based on the detection of the switching signal. Engaging in the synchronization handshake includes determining whether the first communication device is configured to support bi-directional synchronization propagation. The method includes switching the timing role of the second communication device based on the synchronization handshake.

Abstract translation: 提供了用于实现第一和第二通信设备之间的双向同步传播的系统和方法。 设备以循环定时配置排列。 一种方法包括由第二通信设备检测包括切换第二通信设备的定时角色并由第二通信设备与第一通信设备通过基于通信链路进行同步握手的指示的切换信号 对开关信号的检测。 参与同步握手包括确定第一通信设备是否被配置为支持双向同步传播。 该方法包括基于同步握手来切换第二通信设备的定时角色。

公开(公告)号：US09735905B2

公开(公告)日：2017-08-15

申请号：US13716463

申请日：2012-12-17

Applicant: BROADCOM CORPORATION

Inventor： Peiqing Wang ,  Linghsiao Wang ,  Mehmet Vakif Tazebay

IPC: H04J3/06

CPC classification number: H04J3/0697 ,  H04J3/0658

Abstract: Systems and methods for implementing bi-directional synchronization propagation between first and second communication devices are provided. The devices are arranged in a loop-timing configuration. A method includes detecting, by the second communication device, a switching signal comprising an indication to switch a timing role of the second communication device and engaging, by the second communication device, in a synchronization handshake with the first communication device over a communication link based on the detection of the switching signal. Engaging in the synchronization handshake includes determining whether the first communication device is configured to support bi-directional synchronization propagation. The method includes switching the timing role of the second communication device based on the synchronization handshake.