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    • 2. 发明授权
    • Methods and systems for adaptive receiver equalization
    • 自适应接收机均衡的方法和系统
    • US08223828B2
    • 2012-07-17
    • US11976185
    • 2007-10-22
    • Aaron BuchwaldXicheng JiangHui WangHoward A. BaumerAvanindra Madisetti
    • Aaron BuchwaldXicheng JiangHui WangHoward A. BaumerAvanindra Madisetti
    • H03H7/30
    • H04L25/03885H03L7/07H03L7/0814H03L7/091H04L7/0025H04L7/0274H04L7/0337H04L25/03006H04L2025/03477H04L2025/03617
    • Methods and systems for minimizing distortions in an analog data signal include equalizing the analog data signal at a receive end. In an embodiment, the invention adapts equalization parameters to a signal path associated with the analog data signal. Adaptive control logic is implemented with analog and/or digital components. In an embodiment, the invention equalizes a discrete-time analog representation of an analog data signal. In an embodiment, the invention digitally controls equalization parameters. In an embodiment, a resultant equalized analog data signal is digitized. In an example implementation, an analog data signal is sampled, a quality of the samples is measured, and one or more equalization parameters are adjusted with digital controls as needed to minimize distortion of the samples. The equalized samples are then digitized. The present invention is suitable for lower rate analog data signals and multi-gigabit data rate analog signals.
    • 用于最小化模拟数据信号中的失真的方法和系统包括在接收端均衡模拟数据信号。 在一个实施例中,本发明使均衡参数适应于与模拟数据信号相关联的信号路径。 自适应控制逻辑由模拟和/或数字组件实现。 在一个实施例中,本发明使模拟数据信号的离散时间模拟表示相等。 在一个实施例中,本发明数字地控制均衡参数。 在一个实施例中,所得到的均衡的模拟数据信号被数字化。 在示例实现中,对模拟数据信号进行采样,测量样本的质量,并且根据需要使用数字控制来调整一个或多个均衡参数以最小化样本的失真。 然后将均衡的样品数字化。 本发明适用于低速模拟数据信号和多吉比特数据速率模拟信号。
    • 4. 发明授权
    • Clock synchronizing circuit
    • 时钟同步电路
    • US06539070B1
    • 2003-03-25
    • US09440522
    • 1999-11-15
    • Yoshikazu KakuraTomoki Osawa
    • Yoshikazu KakuraTomoki Osawa
    • H04C700
    • H04L7/0274
    • A clock synchronizing circuit enables initial synchronization of clock in spite of the case of modulation system except for quadrature modulation with simple constitution. A cosine/sine output circuit inputs thereto an integration clock ‘ICLK’, a sampling signal ‘SSAMP’, a sign switching signal ‘SPM’, a cosine component integration signal ‘SCCI’, and a sine component integration signal, before obtaining a cosine signal ‘SCOS’ corresponding to a cosine component of initial phase of a symbol clock and a sine signal ‘SSIN’ corresponding to a sine component thereof. An angular detector inputs thereto the cosine signal ‘SCOS’ and the sine signal ‘SSIN’, before obtaining initial phase of the symbol clock ‘SCLK’.
    • 尽管调制系统的情况除了采用简单结构的正交调制之外,时钟同步电路能够实现时钟的初始同步。 余弦/正弦输出电路在获得余弦值之前向其输入积分时钟“ICLK”,采样信号“SSAMP”,符号切换信号“SPM”,余弦分量积分信号“SCCI”和正弦分量积分信号 对应于符号时钟的初始相位的余弦分量的信号“SCOS”和对应于其正弦分量的正弦信号“SSIN”。 在获得符号时钟“SCLK”的初始相位之前,角度检测器向其输入余弦信号“SCOS”和正弦信号“SSIN”。
    • 7. 发明授权
    • PLL using unbalanced quadricorrelator
    • PLL使用不平衡二次相关器
    • US07804926B2
    • 2010-09-28
    • US10533058
    • 2003-10-08
    • Mihai Adrian Tiberiu Sanduleanu
    • Mihai Adrian Tiberiu Sanduleanu
    • H03D3/24
    • H03L7/087H03D13/003H03L7/091H03L2207/06H04L7/0274
    • A Phase Locked Loop (1) used in a data and clock recovery comprising a frequency detector (10) including a quadricorrelator (2), the quadricorrelator (2) comprising a frequency detector including double edge clocked bi-stable circuits (21, 22, 23, 24) coupled to a first multiplexer (31) and to a second multiplexer (32) being controlled by a signal having a same bitrate as the incoming signal (D), and a phase detector (DFF) controlled by a first signal pair (PQ, PQ provided by the first multiplexer (31) and by a second signal pair (PI, PI) provided by the second multiplexer (32).
    • 一种用于数据和时钟恢复的锁相环(1),包括包括二次相关器(2)的频率检测器(10),所述四相关器(2)包括频率检测器,所述频率检测器包括双边沿时钟双稳态电路(21,22, 耦合到第一多路复用器(31)的第二多路复用器(32)和由具有与输入信号(D)相同的比特率的信号控制的第二多路复用器(32),以及由第一信号对(D)控制的相位检测器 (PQ,PQ由第一多路复用器31提供)和由第二多路复用器(32)提供的第二信号对(PI,PI)。
    • 10. 发明申请
    • Timing recovery and phase tracking system and method
    • 定时恢复和相位跟踪系统及方法
    • US20020044617A1
    • 2002-04-18
    • US09844296
    • 2001-04-30
    • Aaron W. BuchwaldMyles WakayamaMichael LeJosephus Van EngelenXicheng JiangHui WangHoward A. BaumerAvanindra Madisetti
    • H04L007/00
    • H04L25/03885H03L7/07H03L7/0814H03L7/091H04L7/0025H04L7/0274H04L7/0337H04L25/03006H04L2025/03477H04L2025/03617
    • A high-speed serial data transceiver includes multiple receivers and transmitters for receiving and transmitting multiple analog, serial data signals at multi-gigabit-per-second data rates. Each receiver includes a timing recovery system for tracking a phase and a frequency of the serial data signal associated with the receiver. The timing recovery system includes a phase interpolator responsive to phase control signals and a set of reference signals having different predetermined phases. The phase interpolator derives a sampling signal, having an interpolated phase, to sample the serial data signal. The timing recovery system in each receiver independently phase-aligns and frequency synchronizes the sampling signal to the serial data signal associated with the receiver. A receiver can include multiple paths for sampling a received, serial data signal in accordance with multiple time-staggered sampling signals, each having an interpolated phase.
    • 高速串行数据收发器包括多个接收器和发送器,用于以千兆比特每秒的数据速率接收和发送多个模拟串行数据信号。 每个接收机包括用于跟踪与接收机相关联的串行数据信号的相位和频率的定时恢复系统。 定时恢复系统包括响应于相位控制信号的相位内插器和具有不同预定相位的一组参考信号。 相位内插器导出具有内插相位的采样信号以采样串行数据信号。 每个接收机中的定时恢复系统独立地对采样信号和与接收机相关联的串行数据信号进行频率同步。 接收机可以包括多个路径,用于根据多个具有内插相位的多个时间交错采样信号对接收的串行数据信号进行采样。