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    • 3. 发明授权
    • High-speed wide bandwidth data detection circuit
    • 高速宽带数据检测电路
    • US07224760B1
    • 2007-05-29
    • US10421512
    • 2003-04-22
    • Shahriar RokhsazMoises E. RobinsonAhmed YounisBrian T. Brunn
    • Shahriar RokhsazMoises E. RobinsonAhmed YounisBrian T. Brunn
    • H03D3/24
    • H04L7/0331H03D13/003H03L7/087H03L7/0896H03L7/091H03L7/10
    • A high-speed, wide bandwidth data detection circuit includes a phase detection module, a data detection module, a loop filter, and a voltage controlled oscillator. The phase detection module is operably coupled to produce a controlled current based on a current mode mathematical manipulation of differences between an incoming data stream and a recovered clock. The phase detection module performs the current mode mathematical manipulations and produces the controlled current in the current domain. The data detection module is operably coupled to produce the detected data based on the incoming data stream and the recovered clock. The loop filter is operably coupled to convert the controlled current into a controlled voltage. The voltage controlled oscillator is operably coupled to convert the control voltage into the recovered clock.
    • 高速,宽带宽数据检测电路包括相位检测模块,数据检测模块,环路滤波器和压控振荡器。 相位检测模块可操作地耦合以基于对输入数据流和恢复的时钟之间的差异的当前模式数学操作产生受控电流。 相位检测模块执行当前模式的数学操作并产生当前域中的受控电流。 数据检测模块可操作地耦合以基于输入数据流和恢复的时钟产生检测到的数据。 环路滤波器可操作地耦合以将受控电流转换成受控电压。 压控振荡器可操作地耦合以将控制电压转换成恢复的时钟。
    • 4. 发明授权
    • Clock and data recovery phase-locked loop
    • 时钟和数据恢复锁相环
    • US06977959B2
    • 2005-12-20
    • US10346435
    • 2003-01-17
    • Brian T. BrunnAhmed YounisShahriar Rokhsaz
    • Brian T. BrunnAhmed YounisShahriar Rokhsaz
    • H03D13/00H03L7/087H03L7/089H03L7/10H04L7/033H04B1/38H03D3/24
    • H04L7/0331H03D13/003H03L7/087H03L7/0896H03L7/091H03L7/10
    • A clock recovery circuit that operates at a clock speed equal to one-half the input data rate is presented. The clock recovery circuit uses dual input latches to sample the incoming serial data on both the rising edge and falling edge of a half-rate clock signal to provide equivalent full data rate clock recovery. The clock recovery circuit functions to maintain the half-rate clock transitions in the center of the incoming serial data bits. The clock recovery circuit includes a phase detector, charge pump, controlled oscillation module and a feedback module. The phase detector produces information on the phase and data transitions in the incoming data signal to the charge pump. Generally, the circuit is delay insensitive and receives phase and transition information staggered relative to each other.
    • 提出了以等于输入数据速率的一半的时钟速度工作的时钟恢复电路。 时钟恢复电路使用双输入锁存器在半速率时钟信号的上升沿和下降沿对采样的串行数据进行采样,以提供等效的全数据速率时钟恢复。 时钟恢复电路用于保持输入串行数据位中心的半速率时钟转换。 时钟恢复电路包括相位检测器,电荷泵,受控振荡模块和反馈模块。 相位检测器产生关于输入数据信号中的相位和数据转换到电荷泵的信息。 通常,电路是延迟不敏感的,并且相对于彼此交错地接收相位和转换信息。
    • 6. 发明申请
    • Method and apparatus for data density-independent phase adjustment in a clock and data recovery system
    • 在时钟和数据恢复系统中用于数据密度无关相位调整的方法和装置
    • US20050134339A1
    • 2005-06-23
    • US11059739
    • 2005-02-17
    • Ahmed YounisFiras Abughazaleh
    • Ahmed YounisFiras Abughazaleh
    • H03D13/00H03L7/087H03L7/089H03L7/091H03L7/10H04L7/033H03K5/01
    • H03L7/10H03D13/003H03L7/087H03L7/0896H03L7/091H04L7/033
    • A data density independent clock and data recovery system includes a lock phase adjust charge pump operably coupled to receive phase information and transition information from a phase detector and to produce a current signal, responsive to the phase information and transition information, to a loop filter that converts the current signal to a control voltage signal operably coupled to a voltage controlled oscillator that produces a clock signal to the phase detector based on the control voltage signal. The lock phase adjust charge pump includes a phase charge pump, a transition charge pump, a programmable DC bias current sink, and two programmable offset bias current sinks. The transition charge pump includes a programmable transition current sink. The control logic operates under external control to adjust the currents conducted by the transition charge pump, the programmable DC bias current sink, and the two programmable offset bias current sinks.
    • 数据密度无关的时钟和数据恢复系统包括锁相调节电荷泵,其可操作地耦合以从相位检测器接收相位信息和转换信息,并且响应于相位信息和转换信息产生电流信号到环路滤波器, 将当前信号转换成可操作地耦合到压控振荡器的控制电压信号,该压控振荡器基于控制电压信号产生到相位检测器的时钟信号。 锁相调节电荷泵包括相电荷泵,过渡电荷泵,可编程直流偏置电流吸收器和两个可编程偏移电流吸收器。 过渡电荷泵包括可编程转换电流吸收器。 控制逻辑在外部控制下工作,以调整由过渡电荷泵,可编程直流偏置电流吸收器和两个可编程偏移电流吸收器传导的电流。
    • 7. 发明授权
    • Clock distribution for improved jitter performance in high-speed communication circuits
    • 时钟分配,用于改善高速通信电路中的抖动性能
    • US06504415B1
    • 2003-01-07
    • US09941968
    • 2001-08-28
    • Moises E. RobinsonAhmed Younis
    • Moises E. RobinsonAhmed Younis
    • G06F104
    • G06F1/10G06F5/06
    • In many electronic systems, it is common to communicate data from a transmitter in one device to a receiver in another. Accurate communications requires use of several matched clock signals. Mismatches in these clock signals cause transmitters to add “jitter” to transmitted data or receivers to be more intolerant of jitter in received signals, increasing the chances of mis-interpreting the data. Accordingly, the inventors devised an exemplary clock-distribution method which entails generating a base set of matched clock signals, deriving at least two separate sets of matched clock signals from the base set, and distributing one of the sets of clock signals to a set of matched components in a circuit and the other set of matched clock signals to a different set of components in the same circuit. The clock signals driving the matched components are isolated from mismatched aspects of the other components, and thus exhibit better matching. This method improves the accuracy of high-speed receivers, transmitters, transceivers, and other communications circuits that use it.
    • 在许多电子系统中,通常将数据从一个设备中的发射机传送到另一个设备中的接收机。 精确的通信需要使用几个匹配的时钟信号。 这些时钟信号中的不匹配会导致发射机将“抖动”添加到传输的数据或接收器,以便更加不容忍接收信号中的抖动,从而增加了错误解释数据的可能性。 因此,发明人设计了一种示例性的时钟分配方法,该方法需要产生一组匹配的时钟信号,从基本集合导出至少两组分离的匹配的时钟信号,并将这些时钟信号组中的一组分配给 电路中的匹配组件和另一组匹配的时钟信号到同一电路中的一组不同组件。 驱动匹配组件的时钟信号与其他组件的不匹配的方面是隔离的,因此表现出更好的匹配。 该方法提高了高速接收机,发射机,收发器和其他使用它的通信电路的精度。
    • 8. 发明授权
    • High-speed synchronous counters with reduced logic complexity
    • 具有降低逻辑复杂度的高速同步计数器
    • US07003067B1
    • 2006-02-21
    • US10977305
    • 2004-10-29
    • Ahmed Younis
    • Ahmed Younis
    • G06M3/00H03K23/54
    • H03K23/54H03K23/548H03K23/588
    • Described are fast synchronous counters with reduced combinatorial logic. In one embodiment, a four-bit shift register is configured in a ring and preset with a data pattern (e.g., 1000). The register is then rapidly shifted into any of four unique states. Combinatorial logic connected to the shift register converts the four unique states into a two-bit binary signal representative of the four states. In the general case, counters in accordance with this embodiment represent N-bit binary numbers using 2N synchronous storage elements. Two or more counters can be combined to produce larger synchronous counters. An up/down counter in accordance with yet another embodiment is connected to a multi-path delay line to create a variable delay circuit. The switching speed of the delay circuit is independent of the number of delay settings. Also advantageous, the delay circuit scales linearly, in terms of power consumption and area, with changes in delay granularity.
    • 描述了具有减少的组合逻辑的快速同步计数器。 在一个实施例中,四位移位寄存器被配置在环中并且用数据模式预设(例如,1000)。 然后,寄存器迅速转换成四个独特状态中的任何一个。 连接到移位寄存器的组合逻辑将四个唯一状态转换成代表四个状态的二位二进制信号。 在一般情况下,根据本实施例的计数器表示使用2N个同步存储元件的N位二进制数。 可以组合两个或更多计数器来产生较大的同步计数器。 根据另一实施例的升/减计数器连接到多路径延迟线以创建可变延迟电路。 延迟电路的切换速度与延迟设置的数量无关。 还有利的是,随着延迟粒度的变化,延迟电路在功耗和面积方面线性缩放。
    • 9. 发明授权
    • High-speed synchronous counters with reduced logic complexity
    • 具有降低逻辑复杂度的高速同步计数器
    • US06961402B1
    • 2005-11-01
    • US10977280
    • 2004-10-29
    • Ahmed Younis
    • Ahmed Younis
    • H03K23/54H03K23/58H03K21/00
    • H03K23/54H03K23/548H03K23/588
    • Described are fast synchronous counters with reduced combinatorial logic. In one embodiment, a four-bit shift register is configured in a ring and preset with a data pattern (e.g., 1000). The register is then rapidly shifted into any of four unique states. Combinatorial logic connected to the shift register converts the four unique states into a two-bit binary signal representative of the four states. In the general case, counters in accordance with this embodiment represent N-bit binary numbers using 2N synchronous storage elements. Two or more counters can be combined to produce larger synchronous counters. An up/down counter in accordance with yet another embodiment is connected to a multi-path delay line to create a variable delay circuit. The switching speed of the delay circuit is independent of the number of delay settings. Also advantageous, the delay circuit scales linearly, in terms of power consumption and area, with changes in delay granularity.
    • 描述了具有减少的组合逻辑的快速同步计数器。 在一个实施例中,四位移位寄存器被配置在环中并且用数据模式预设(例如,1000)。 然后,寄存器迅速转换成四个独特状态中的任何一个。 连接到移位寄存器的组合逻辑将四个唯一状态转换成代表四个状态的二位二进制信号。 在一般情况下,根据本实施例的计数器表示使用2N个同步存储元件的N位二进制数。 可以组合两个或更多计数器来产生较大的同步计数器。 根据另一实施例的升/减计数器连接到多路径延迟线以创建可变延迟电路。 延迟电路的切换速度与延迟设置的数量无关。 还有利的是,随着延迟粒度的变化,延迟电路在功耗和面积方面线性缩放。
    • 10. 发明授权
    • Method and circuit for determining frequency and time variations between electronic signals
    • 用于确定电子信号之间频率和时间变化的方法和电路
    • US06621307B1
    • 2003-09-16
    • US10224978
    • 2002-08-20
    • Ahmed YounisMichael A. Nix
    • Ahmed YounisMichael A. Nix
    • H03D1300
    • H03D13/006
    • A method and circuit for determining variation between an input clock signal (CLK0) and a reference clock signal (REFCLK) is provided. A plurality of time shifted input clock signals (CLK0, CLK1, . . . , CLK09) can be generated from a single input clock signal (CLK0). The plurality of time shifted input clock signals (CLK0, CLK1, . . . , CLK09) can be sampled at successive periodic intervals occurring relative to the reference clock signal (REFCLK). For each of the time shifted input clock signals (CLK0, CLK1, . . . , CLK09), a sampled value for a succeeding and a preceding periodic interval can be compared to determine whether there is a variation between an input clock signal (CLK0) and a reference clock signal (REFCLK).
    • 提供了一种用于确定输入时钟信号(CLK0)和参考时钟信号(REFCLK)之间的变化的方法和电路。 可以从单个输入时钟信号(CLK0)产生多个时移输入时钟信号(CLK0,CLK1,...,CLK09)。 可以以相对于参考时钟信号(REFCLK)发生的连续周期性间隔对多个时移输入时钟信号(CLK0,CLK1,...,CLK09)进行采样。 对于每个时移输入时钟信号(CLK0,CLK1,...,CLK09),可以对后续周期和前一周期间隔的采样值进行比较,以确定输入时钟信号(CLK0) 和参考时钟信号(REFCLK)。