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    • 2. 发明申请
    • Method and apparatus for multi-mode driver
    • 多模式驱动程序的方法和装置
    • US20060158223A1
    • 2006-07-20
    • US11385234
    • 2006-03-20
    • Yueyong WangBarry DalyNhat NguyenYohan Frans
    • Yueyong WangBarry DalyNhat NguyenYohan Frans
    • H03K19/0175
    • H04L25/0274H03K19/018585H04L25/0282H04L25/10
    • Multi-mode signal drivers with a single output circuit that may be controlled using a mode select input and that may include a common mode (CM) voltage compensation mechanism are described. In a first exemplary implementation, a multi-mode output driver is adapted to drive signals from a single output circuit according to at least two modes, such as a current mode logic (CML) signaling mode and a low voltage differential signaling (LVDS) mode. In a second exemplary implementation, a circuit comprises a quasi-LVDS output driver in which a differential amplifier circuit is connected in series with an adjustable resistive element and a programmable current source. In a third exemplary implementation, a CM voltage of an output driver circuit changes with changes to a programmable bias current. To compensate, a feedback mechanism provides a compensation signal to a variable resistive element of the output driver circuit to maintain a desired CM voltage.
    • 描述具有可以使用模式选择输入并且可以包括共模(CM)电压补偿机制的单个输出电路的多模式信号驱动器。 在第一示例性实施例中,多模式输出驱动器适于根据至少两种模式来驱动来自单个输出电路的信号,例如电流模式逻辑(CML)信令模式和低电压差分信号(LVDS)模式 。 在第二示例性实现中,电路包括准LVDS输出驱动器,其中差分放大器电路与可调电阻元件和可编程电流源串联连接。 在第三示例性实施方案中,输出驱动器电路的CM电压随着可编程偏置电流的改变而改变。 为了补偿,反馈机构向输出驱动器电路的可变电阻元件提供补偿信号,以维持期望的CM电压。
    • 3. 发明申请
    • Leakage compensation for capacitors in loop filters
    • 环路滤波器电容器的漏电补偿
    • US20050168292A1
    • 2005-08-04
    • US11084438
    • 2005-03-17
    • Yohan FransNhat Nguyen
    • Yohan FransNhat Nguyen
    • H03L7/081H03L7/089H03L7/093H03L7/00
    • H03L7/0896H03L7/0812H03L7/093
    • A loop filter of a compensating phase-locked loop contains capacitors formed from transistors with thin gate oxide dielectric layers. Leakage current leaks through the capacitors. To avoid jitter in the output signal of the phase-locked loop that would otherwise be caused by the leakage current, a leakage compensation circuit is provided. The leakage compensation circuit of a first embodiment replicates the leakage current using a replication capacitor and a current mirror. The voltage across the replication capacitor is proportional to the control voltage of a voltage-controlled oscillator of the compensating phase-locked loop. A second embodiment generates the compensation current by controlling the voltage on the gate of a transistor. The gate voltage depends on charge added and subtracted by a charge pump in addition to the charge pumps in the loop filter. A third embodiment applies a leakage compensation circuit to a delay locked loop.
    • 补偿锁相环的环路滤波器包含由具有薄栅极氧化物介电层的晶体管形成的电容器。 泄漏电流通过电容器泄漏。 为了避免由漏电流引起的锁相环的输出信号中的抖动,提供了泄漏补偿电路。 第一实施例的漏电补偿电路使用复制电容器和电流镜复制泄漏电流。 复制电容器两端的电压与补偿锁相环的压控振荡器的控制电压成比例。 第二实施例通过控制晶体管的栅极上的电压来产生补偿电流。 除了环路滤波器中的电荷泵之外,栅极电压还取决于电荷泵的电荷和扣除电荷。 第三实施例将泄漏补偿电路应用于延迟锁定环路。
    • 5. 发明申请
    • Clock-Data Recovery (
    • 时钟数据恢复(“CDR”)可变频率数据的电路,设备和方法
    • US20100150290A1
    • 2010-06-17
    • US12710250
    • 2010-02-22
    • Dennis KimJason WeiYohan FransTodd BystromNhat NguyenKevin Donnelly
    • Dennis KimJason WeiYohan FransTodd BystromNhat NguyenKevin Donnelly
    • H04L7/00
    • H03L7/0814H03L7/091H04L7/0331
    • A circuit, such as a CDR circuit, includes a sampler to receive a data signal having a variable data bit-rate responsive to a clock signal in an embodiment of the present invention. A clock circuit is coupled to the sampler and generates the clock signal responsive to a selectable update rate and a selectable phase adjust step-size. In a second embodiment of the present invention, the clock circuit includes a Stall logic that is coupled to first, second and third stages and is capable to hold the phase adjust signal responsive to the first and second stage output signals. In a third embodiment of the present invention, an indicator detects the variable data bit-rate and a counter provides the selectable phase adjust step-size for the adjust signal. In a fourth embodiment of the present invention, the clock circuit includes the Stall logic, the indicator and the counter. In a fifth embodiment of the present invention, the clock circuit includes an Averaging circuit to output a phase adjust signal responsive to the averaging of a first and second adjust signals for a predetermined period of time.
    • 诸如CDR电路的电路包括采样器,以在本发明的实施例中接收具有响应于时钟信号的可变数据比特率的数据信号。 时钟电路耦合到采样器并且响应于可选择的更新速率和可选择的相位调整步长而产生时钟信号。 在本发明的第二实施例中,时钟电路包括耦合到第一,第二和第三级的停止逻辑,并且能够响应于第一和第二级输出信号保持相位调整信号。 在本发明的第三实施例中,指示器检测可变数据比特率,并且计数器为调整信号提供可选择的相位调整步长。 在本发明的第四实施例中,时钟电路包括失速逻辑,指示器和计数器。 在本发明的第五实施例中,时钟电路包括平均电路,用于响应于在预定时间段内的第一和第二调整信号的平均来输出相位调整信号。
    • 6. 发明申请
    • PLL lock detection circuit using edge detection and a state machine
    • PLL锁定检测电路采用边缘检测和状态机
    • US20050162199A1
    • 2005-07-28
    • US11088152
    • 2005-03-23
    • Michael GreenNhat NguyenYohan FransDennis KimTodd Bystrom
    • Michael GreenNhat NguyenYohan FransDennis KimTodd Bystrom
    • H03D13/00H03L7/06
    • H03D13/003
    • A lock detection circuit operatively associated with a phase-locked loop indicates when a feedback clock signal is locked to a reference clock signal. The lock detection circuit counts the number of rising and falling edges of the feedback clock signal that are detected between rising edges of the reference clock cycle. The lock detection circuit counts the number of consecutive valid cycles of the reference clock signal during which a single rising edge and a single falling edge of the feedback clock signal are detected. Lock detection circuit uses a state machine to assert a lock signal when the number of consecutive valid cycles counted exceeds a predetermined number. Where the lock detection circuit indicates locked signals and then detects a reference clock cycle that is not valid, lock detection circuit continues to indicate lock if the next reference clock cycle is valid relative to a skewed feedback clock signal.
    • 与锁相环可操作地相关联的锁定检测电路指示何时将反馈时钟信号锁定到参考时钟信号。 锁定检测电路对在参考时钟周期的上升沿之间检测到的反馈时钟信号的上升沿和下降沿的数量进行计数。 锁定检测电路对在其中检测到反馈时钟信号的单个上升沿和单个下降沿的参考时钟信号的连续有效周期的数量进行计数。 当连续的有效周期数超过预定数量时,锁定检测电路使用状态机来声明锁定信号。 如果锁定检测电路指示锁定信号,然后检测到无效的参考时钟周期,则如果下一个参考时钟周期相对于偏斜反馈时钟信号有效,锁定检测电路将继续指示锁定。
    • 7. 发明申请
    • Clock-data recovery (
    • 时钟数据恢复(“CDR”)电路,可变频率数据的装置和方法
    • US20050069071A1
    • 2005-03-31
    • US10675027
    • 2003-09-30
    • Dennis KimJason WeiYohan FransTodd BystromNhat NguyenKevin Donnelly
    • Dennis KimJason WeiYohan FransTodd BystromNhat NguyenKevin Donnelly
    • H03L7/081H03L7/091H04L7/033H04L7/00
    • H03L7/0814H03L7/091H04L7/0331
    • A circuit, such as a CDR circuit, includes a sampler to receive a data signal having a variable data bit-rate responsive to a clock signal in an embodiment of the present invention. A clock circuit is coupled to the sampler and generates the clock signal responsive to a selectable update rate and a selectable phase adjust step-size. In a second embodiment of the present invention, the clock circuit includes a Stall logic that is coupled to first, second and third stages and is capable to hold the phase adjust signal responsive to the first and second stage output signals. In a third embodiment of the present invention, an indicator detects the variable data bit-rate and a counter provides the selectable phase adjust step-size for the adjust signal. In a fourth embodiment of the present invention, the clock circuit includes the Stall logic, the indicator and the counter. In a fifth embodiment of the present invention, the clock circuit includes an Averaging circuit to output a phase adjust signal responsive to the averaging of a first and second adjust signals for a predetermined period of time.
    • 诸如CDR电路的电路包括采样器,以在本发明的实施例中接收具有响应于时钟信号的可变数据比特率的数据信号。 时钟电路耦合到采样器并且响应于可选择的更新速率和可选择的相位调整步长而产生时钟信号。 在本发明的第二实施例中,时钟电路包括耦合到第一,第二和第三级的失调逻辑,并且能够响应于第一和第二级输出信号保持相位调整信号。 在本发明的第三实施例中,指示器检测可变数据比特率,并且计数器为调整信号提供可选择的相位调整步长。 在本发明的第四实施例中,时钟电路包括失速逻辑,指示器和计数器。 在本发明的第五实施例中,时钟电路包括平均电路,用于响应于在预定时间段内的第一和第二调整信号的平均来输出相位调整信号。
    • 9. 发明授权
    • Clock-data recovery (“CDR”) circuit, apparatus and method for variable frequency data
    • 时钟数据恢复(“CDR”)电路,可变频率数据的装置和方法
    • US08130891B2
    • 2012-03-06
    • US12710250
    • 2010-02-22
    • Dennis KimJason WeiYohan FransTodd BystromNhat NguyenKevin Donnelly
    • Dennis KimJason WeiYohan FransTodd BystromNhat NguyenKevin Donnelly
    • H03D3/24
    • H03L7/0814H03L7/091H04L7/0331
    • A circuit, such as a CDR circuit, includes a sampler to receive a data signal having a variable data bit-rate responsive to a clock signal in an embodiment of the present invention. A clock circuit is coupled to the sampler and generates the clock signal responsive to a selectable update rate and a selectable phase adjust step-size. In a second embodiment of the present invention, the clock circuit includes a Stall logic that is coupled to first, second and third stages and is capable to hold the phase adjust signal responsive to the first and second stage output signals. In a third embodiment of the present invention, an indicator detects the variable data bit-rate and a counter provides the selectable phase adjust step-size for the adjust signal. In a fourth embodiment of the present invention, the clock circuit includes the Stall logic, the indicator and the counter. In a fifth embodiment of the present invention, the clock circuit includes an Averaging circuit to output a phase adjust signal responsive to the averaging of a first and second adjust signals for a predetermined period of time.
    • 诸如CDR电路的电路包括采样器,以在本发明的实施例中接收具有响应于时钟信号的可变数据比特率的数据信号。 时钟电路耦合到采样器并且响应于可选择的更新速率和可选择的相位调整步长而产生时钟信号。 在本发明的第二实施例中,时钟电路包括耦合到第一,第二和第三级的失调逻辑,并且能够响应于第一和第二级输出信号保持相位调整信号。 在本发明的第三实施例中,指示器检测可变数据比特率,并且计数器为调整信号提供可选择的相位调整步长。 在本发明的第四实施例中,时钟电路包括失速逻辑,指示器和计数器。 在本发明的第五实施例中,时钟电路包括平均电路,用于响应于在预定时间段内的第一和第二调整信号的平均来输出相位调整信号。
    • 10. 发明授权
    • Clock-data recovery (“CDR”) circuit, apparatus and method for variable frequency data
    • 时钟数据恢复(“CDR”)电路,可变频率数据的装置和方法
    • US07668271B2
    • 2010-02-23
    • US10675027
    • 2003-09-30
    • Dennis KimJason WeiYohan FransTodd BystromNhat NguyenKevin Donnelly
    • Dennis KimJason WeiYohan FransTodd BystromNhat NguyenKevin Donnelly
    • H04L7/00
    • H03L7/0814H03L7/091H04L7/0331
    • A circuit, such as a CDR circuit, includes a sampler to receive a data signal having a variable data bit-rate responsive to a clock signal in an embodiment of the present invention. A clock circuit is coupled to the sampler and generates the clock signal responsive to a selectable update rate and a selectable phase adjust step-size. In a second embodiment of the present invention, the circuit includes a Stall logic that is coupled to first, second and third stages and is capable to hold the phase adjust signal responsive to the first and second stage output signals. In a third embodiment of the present invention, an indicator detects the variable data bit-rate and a counter provides the selectable phase adjust step-size for the adjust signal. In a fourth embodiment of the present invention, the circuit includes the Stall logic, the indicator and the counter. In a fifth embodiment of the present invention, the circuit includes an Averaging circuit to output a phase adjust signal responsive to the averaging of a first and second adjust signals for a predetermined period of time.
    • 诸如CDR电路的电路包括采样器,以在本发明的实施例中接收具有响应于时钟信号的可变数据比特率的数据信号。 时钟电路耦合到采样器并且响应于可选择的更新速率和可选择的相位调整步长而产生时钟信号。 在本发明的第二实施例中,该电路包括一个与第一,第二和第三级耦合的稳态逻辑,并能够响应第一和第二级输出信号保持相位调整信号。 在本发明的第三实施例中,指示器检测可变数据比特率,并且计数器为调整信号提供可选择的相位调整步长。 在本发明的第四实施例中,电路包括停顿逻辑,指示器和计数器。 在本发明的第五实施例中,电路包括平均电路,用于响应于在预定时间段内对第一和第二调整信号的平均来输出相位调整信号。