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    • 1. 发明授权
    • Asynchronous calibration for eye diagram generation
    • 眼图生成的异步校准
    • US08559580B2
    • 2013-10-15
    • US12494771
    • 2009-06-30
    • Xingdong DaiDwight David DaughertyMax J. OlsenLane A. SmithGeoffrey Zhang
    • Xingdong DaiDwight David DaughertyMax J. OlsenLane A. SmithGeoffrey Zhang
    • H04L7/00H04L25/00H04L25/40
    • H04L1/20
    • Techniques are disclosed for asynchronous calibration for eye diagram generation. For example, a method for calibrating a process for generating a data eye associated with a received signal comprises the following steps. Samples of the received signal are obtained for a first unit interval using a first data latch and a roaming latch. A delay offset is determined between the first data latch and the roaming latch by comparing at least one sample obtained using the first data latch and at least one sample obtained using the roaming latch, wherein the delay offset determined by the comparison is used to calibrate the process for generating the data eye associated with the received signal. A similar comparison may be done for a second data latch and used to calibrate the process. The method is able to find the accurate position of each data latch with respect to the roaming latch so as to improve the accuracy of data decoding in a digital receiver, i.e., provide receiver optimization.
    • 公开了用于眼图生成的异步校准的技术。 例如,用于校准与接收信号相关联的用于生成数据眼的处理的方法包括以下步骤。 使用第一数据锁存器和漫游锁存器,以第一单位间隔获得接收信号的样本。 通过比较使用第一数据锁存器获得的至少一个样本和使用漫游锁存器获得的至少一个样本,在第一数据锁存器和漫游锁存器之间确定延迟偏移,其中由比较确定的延迟偏移用于校准 用于产生与接收信号相关联的数据眼的过程。 可以对第二数据锁存器进行类似的比较,并用于校准该过程。 该方法能够找到每个数据锁存器相对于漫游锁存器的准确位置,以提高数字接收机中数据解码的准确度,即提供接收机优化。
    • 4. 发明申请
    • Multi-Band Gain Adaptation for Receiver Equalization Using Approximate Frequency Separation
    • 使用近似频率分离的接收机均衡的多频带增益适配
    • US20100290515A1
    • 2010-11-18
    • US12467507
    • 2009-05-18
    • Xingdong DaiWenyi JinMax J. OlsenGeoffrey Zhang
    • Xingdong DaiWenyi JinMax J. OlsenGeoffrey Zhang
    • H03H7/40
    • H04L25/03057
    • A receiver comprises equalization circuitry implementing at least first and second gain adaptation loops associated with respective first and second frequency bands. The equalization circuitry in one aspect is operative to identify a pattern in a portion of a received serial data stream, and to perform gain adaptation for the receiver utilizing a particular one of the gain adaptation loops responsive to the identified pattern. For example, the gain adaptation may be performed utilizing a low frequency gain adaptation loop if the detected pattern is of a first type generally associated with a low frequency band, and may be performed utilizing a high frequency gain adaptation loop if the detected pattern is of a second type generally associated with a high frequency band. In other aspects, the first and second gain adaptation loops may be activated in a particular serial order or in parallel.
    • 接收机包括实现与相应的第一和第二频带相关联的至少第一和第二增益适配环路的均衡电路。 一个方面中的均衡电路用于识别接收的串行数据流的一部分中的模式,并且响应于所识别的模式,利用增益适配环路中的特定一个对接收机执行增益适配。 例如,如果检测到的模式是通常与低频带相关联的第一类型,则可以利用低频增益适配环来执行增益适配,并且如果检测到的模式是 通常与高频带相关联的第二类型。 在其他方面,可以以特定的串行顺序或并行地激活第一和第二增益适配环。
    • 5. 发明授权
    • Methods and apparatus for joint adaptation of transmitter transversal filter in communication devices
    • 发射机横向滤波器在通信设备中联合适应的方法和装置
    • US08514925B2
    • 2013-08-20
    • US12178301
    • 2008-07-23
    • Xingdong DaiDwight D. DaughertyMax J. OlsenGeoffrey Zhang
    • Xingdong DaiDwight D. DaughertyMax J. OlsenGeoffrey Zhang
    • H03H7/30
    • H04L25/03343H04L25/03057
    • Methods and apparatus are provided for joint adaptation of filter values in two communicating devices, such as a link partner and a link device. The disclosed joint adaptation process initially adapts the filter coefficient values in a first of the two communicating devices until a predefined stopping criteria is satisfied. Thereafter, the filter coefficient values in a second of the two communicating devices are adapted once the predefined stopping criteria for the first communicating device is satisfied. The filter coefficient values can comprise coefficient values of a multi-tap filter. The predefined stopping criteria may determine, for example, whether the first of the two communicating devices is overequalized. The filter coefficient values can be determined by including a contribution of only certain cursor tap values of the channel impulse response.
    • 提供了用于在诸如链路伙伴和链路设备的两个通信设备中联合适配过滤器值的方法和装置。 所公开的联合适应过程最初适应两个通信设备中的第一个中的滤波器系数值,直到满足预定义的停止标准。 此后,一旦满足了第一通信装置的预定义的停止标准,则适配两个通信装置中的第二个的滤波器系数值。 滤波器系数值可以包括多抽头滤波器的系数值。 预定义的停止标准可以例如确定两个通信设备中的第一个是否被过度预定。 可以通过仅包括信道脉冲响应的某些光标抽头值的贡献来确定滤波器系数值。
    • 9. 发明申请
    • Asynchronous Calibration for Eye Diagram Generation
    • 用于眼图生成的异步校准
    • US20100329318A1
    • 2010-12-30
    • US12494771
    • 2009-06-30
    • Xingdong DaiDwight David DaughertyMax J. OlsenLane A. SmithGeoffrey Zhang
    • Xingdong DaiDwight David DaughertyMax J. OlsenLane A. SmithGeoffrey Zhang
    • H04B17/00
    • H04L1/20
    • Techniques are disclosed for asynchronous calibration for eye diagram generation. For example, a method for calibrating a process for generating a data eye associated with a received signal comprises the following steps. Samples of the received signal are obtained for a first unit interval using a first data latch and a roaming latch. A delay offset is determined between the first data latch and the roaming latch by comparing at least one sample obtained using the first data latch and at least one sample obtained using the roaming latch, wherein the delay offset determined by the comparison is used to calibrate the process for generating the data eye associated with the received signal. A similar comparison may be done for a second data latch and used to calibrate the process. The method is able to find the accurate position of each data latch with respect to the roaming latch so as to improve the accuracy of data decoding in a digital receiver, i.e., provide receiver optimization.
    • 公开了用于眼图生成的异步校准的技术。 例如,用于校准与接收信号相关联的用于生成数据眼的处理的方法包括以下步骤。 使用第一数据锁存器和漫游锁存器,以第一单位间隔获得接收信号的样本。 通过比较使用第一数据锁存器获得的至少一个样本和使用漫游锁存器获得的至少一个样本,在第一数据锁存器和漫游锁存器之间确定延迟偏移,其中由比较确定的延迟偏移用于校准 用于产生与接收信号相关联的数据眼的过程。 可以对第二数据锁存器进行类似的比较,并用于校准该过程。 该方法能够找到每个数据锁存器相对于漫游锁存器的准确位置,以提高数字接收机中数据解码的准确度,即提供接收机优化。
    • 10. 发明申请
    • Methods And Apparatus For Joint Adaptation Of Transmitter Transversal Filter In Communication Devices
    • 发射机横向滤波器在通信设备中的联合适应方法和装置
    • US20100020860A1
    • 2010-01-28
    • US12178301
    • 2008-07-23
    • Xingdong DaiDwight D. DaughertyMax J. OlsenGeoffrey Zhang
    • Xingdong DaiDwight D. DaughertyMax J. OlsenGeoffrey Zhang
    • H04L27/01
    • H04L25/03343H04L25/03057
    • Methods and apparatus are provided for joint adaptation of filter values in two communicating devices, such as a link partner and a link device. The disclosed joint adaptation process initially adapts the filter coefficient values in a first of the two communicating devices until a predefined stopping criteria is satisfied. Thereafter, the filter coefficient values in a second of the two communicating devices are adapted once the predefined stopping criteria for the first communicating device is satisfied. The filter coefficient values can comprise coefficient values of a multi-tap filter. The predefined stopping criteria may determine, for example, whether the first of the two communicating devices is overequalized. The filter coefficient values can be determined by including a contribution of only certain cursor tap values of the channel impulse response.
    • 提供了用于在诸如链路伙伴和链路设备的两个通信设备中联合适配过滤器值的方法和装置。 所公开的联合适应过程最初适应两个通信设备中的第一个中的滤波器系数值,直到满足预定义的停止标准。 此后,一旦满足了第一通信装置的预定义的停止标准,则适配两个通信装置中的第二个的滤波器系数值。 滤波器系数值可以包括多抽头滤波器的系数值。 预定义的停止标准可以例如确定两个通信设备中的第一个是否被过度预定。 可以通过仅包括信道脉冲响应的某些光标抽头值的贡献来确定滤波器系数值。