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公开(公告)号:US07292065B2
公开(公告)日:2007-11-06
申请号:US10910891
申请日:2004-08-03
申请人: Henry Y. Lui , Malik Kabani , Rakesh Patel , Tim Tri Hoang
发明人: Henry Y. Lui , Malik Kabani , Rakesh Patel , Tim Tri Hoang
IPC分类号: H03K19/173
CPC分类号: H03K19/1778 , H03K19/17784 , H03K19/17792
摘要: Enhanced passgate structures for use in low-voltage systems are presented in which the operational speed of the passgate structures is maximized, while minimizing leakage current when the structure is turned “OFF.” In one arrangement, the VT of the pass-gate structures is increased relative to the VT of other transistors fabricated according to a particular process dimension. In addition, a passgate activation voltage is applied to the passgate structures such that the passgate activation voltage is higher in voltage than a nominal voltage being supplied to circuitry other than the passgate structures.
摘要翻译: 提出了在低压系统中使用的增强型门控结构,其中通道结构的操作速度最大化,同时使结构“OFF”时的漏电流最小化。 在一种布置中,栅极结构的栅极相对于根据特定工艺尺寸制造的其它晶体管的V IN T T T T增加。 此外,通道激活电压被施加到通道结构,使得通电门激活电压的电压高于提供给非门电路结构以外的电路的标称电压。
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公开(公告)号:US08571059B1
公开(公告)日:2013-10-29
申请号:US13194536
申请日:2011-07-29
申请人: Arch Zaliznyak , Ramanand Venkata , Surinder Singh , Henry Y. Lui , Tim Tri Hoang , Sergey Shumarayev , Thungoc M. Tran
发明人: Arch Zaliznyak , Ramanand Venkata , Surinder Singh , Henry Y. Lui , Tim Tri Hoang , Sergey Shumarayev , Thungoc M. Tran
IPC分类号: H04J3/00
CPC分类号: G06F13/385
摘要: Disclosed are apparatus and methods for providing a serial interface with shared datapaths. The apparatus and methods share or re-use components from multiple lower-speed datapaths so as to efficiently provide a higher-speed datapath. In one embodiment, physical coding sublayer circuitry of the lower-speed datapaths is also used by the higher-speed datapath. In another embodiment, physical media access circuitry of the lower-speed data paths is also used by the higher-speed datapath. Other embodiments, aspects and features are also disclosed.
摘要翻译: 公开了用于提供具有共享数据路径的串行接口的装置和方法。 该装置和方法共享或重新使用来自多个低速数据路径的组件,以便有效地提供更高速度的数据通路。 在一个实施例中,低速数据路径的物理编码子层电路也被较高速数据路径使用。 在另一个实施例中,低速数据路径的物理介质访问电路也被高速数据路径使用。 还公开了其它实施例,方面和特征。
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3.发明授权公开(公告)号:US07639993B1
公开(公告)日:2009-12-29
申请号:US11295391
申请日:2005-12-05
IPC分类号: H04B1/04
CPC分类号: H04L7/033
摘要: The various components of transceiver circuitry on an integrated circuit are put together in various ways for purposes of being supplied with power to help prevent noise propagation between the groups. In the case of multi-channel transceiver circuitry there can be various amounts of power supply sharing between similar groups in multiple channels.
摘要翻译: 集成电路中的收发器电路的各种组件以各种方式放在一起,以便被提供电力以帮助防止组之间的噪声传播。 在多通道收发器电路的情况下,可以在多个通道中的类似组之间存在各种数量的电源共享。
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4.发明授权公开(公告)号:US08189729B2
公开(公告)日:2012-05-29
申请号:US11329197
申请日:2006-01-09
IPC分类号: H04L7/00
CPC分类号: H03L7/087 , H03K19/17732 , H03K19/17744 , H03L7/10 , H04L7/0004 , H04L7/033
摘要: Wide range and dynamically reprogrammable CDR architecture recovers an embedded clock signal from serial input data with a wide range of operating frequencies. In order to support a wide range of data rates, the CDR architecture includes multiple operating parameters. These parameters include various pre/post divider settings, charge pump currents, loop-filter and bandwidth selections, and VCO gears. The parameters may be dynamically reprogrammed without powering down the circuitry or PLD. This allows the CDR circuitry to switch between various standards and protocols on-the-fly.
摘要翻译: 宽范围和动态可重新编程的CDR架构从具有广泛工作频率的串行输入数据中恢复嵌入式时钟信号。 为了支持广泛的数据速率,CDR架构包括多个操作参数。 这些参数包括各种前/后分频器设置,电荷泵电流,环路滤波器和带宽选择以及VCO齿轮。 可以在不关闭电路或PLD的情况下动态重新编程参数。 这允许CDR电路在各种标准和协议之间进行即时切换。
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公开(公告)号:US08416845B1
公开(公告)日:2013-04-09
申请号:US11484285
申请日:2006-07-11
CPC分类号: H04L25/03057 , H03K5/1532
摘要: Methods and circuits for automatic adjustment of equalization are presented that improve the quality of equalization for input signals with varying amplitudes. The methods and circuits may be used in Decision Feedback Equalization (DFE) circuits to maintain a constant equalization boost amplitude despite variations in input signal amplitude. The equalization circuitry measures the amplitude of the equalization input signal and computes tap coefficients to maintain a desired level of boost amplitude. Tap coefficients may be automatically adjusted by the equalization circuitry.
摘要翻译: 提出了用于自动调整均衡的方法和电路,其提高具有变化幅度的输入信号的均衡质量。 方法和电路可以用于判决反馈均衡(DFE)电路中,以维持恒定的均衡提升幅度,尽管输入信号幅度有变化。 均衡电路测量均衡输入信号的幅度并计算抽头系数以维持期望的升压幅度。 抽头系数可以由均衡电路自动调整。
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公开(公告)号:US10110328B2
公开(公告)日:2018-10-23
申请号:US13446555
申请日:2012-04-13
摘要: The present disclosure provides apparatus and methods for the calibration of analog circuitry on an integrated circuit. One embodiment relates to a method of calibrating analog circuitry within an integrated circuit. A microcontroller that is embedded in the integrated circuit is booted up. A reset control signal is sent to reset an analog circuit in the integrated circuit, and a response signal for the analog circuit is monitored by the microcontroller. Based on the response signal, a calibration parameter for the analog circuit is determined, and the analog circuit is configured using the calibration parameter. Other embodiments, aspects and features are also disclosed.
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公开(公告)号:US09559881B2
公开(公告)日:2017-01-31
申请号:US12283652
申请日:2008-09-15
申请人: Neville Carvalho , Allan Thomas Davidson , Andy Turudic , Bruce B. Pedersen , David W. Mendel , Kalyan Kankipati , Michael Menghui Zheng , Sergey Shumarayev , Seungmyon Park , Tim Tri Hoang , Kumara Tharmalingam
发明人: Neville Carvalho , Allan Thomas Davidson , Andy Turudic , Bruce B. Pedersen , David W. Mendel , Kalyan Kankipati , Michael Menghui Zheng , Sergey Shumarayev , Seungmyon Park , Tim Tri Hoang , Kumara Tharmalingam
CPC分类号: H04L25/14
摘要: A transceiver system with reduced latency uncertainty is described. In one implementation, the transceiver system has a word aligner latency uncertainty of zero. In another implementation, the transceiver system has a receiver-to-transmitter transfer latency uncertainty of zero. In yet another implementation, the transceiver system has a word aligner latency uncertainty of zero and a receiver-to-transmitter transfer latency uncertainty of zero. In one specific implementation, the receiver-to-transmitter transfer latency uncertainty is eliminated by using the transmitter parallel clock as a feedback signal in the transmitter phase locked loop (PLL). In one implementation, this is achieved by optionally making the transmitter divider, which generates the transmitter parallel clock, part of the feedback path of the transmitter PLL. In one implementation, the word aligner latency uncertainty is eliminated by using a bit slipper to slip bits in such a way so that the total delay due to the word alignment and bit slipping is constant for all phases of the recovered clock. This allows for having a fixed and known latency between the receipt and transmission of bits for all phases of parallelization by the deserializer. In one specific implementation, the total delay due to the bit shifting by the word aligner and the bit slipping by the bit slipper is zero since the bit slipper slips bits so as to compensate for the bit shifting that was performed by the word aligner.
摘要翻译: 描述了具有降低的等待时间不确定性的收发机系统。 在一个实现中,收发器系统具有字对齐器等待时间不确定度为零。 在另一个实现中,收发器系统具有接收器到发射器的传输等待时间不确定度为零。 在另一个实现中,收发器系统具有字对齐器延迟不确定度为零和接收器到发射器的传输等待时间不确定度为零。 在一个具体实现中,通过在发射机锁相环(PLL)中使用发射机并行时钟作为反馈信号来消除接收机到发射机的传输等待时间不确定性。 在一个实现中,这通过可选地使发射机分频器(其产生发射机并行时钟)作为发射机PLL的反馈路径的一部分来实现。 在一个实施方案中,通过使用位拖动器以这样的方式滑动位来消除字对齐器延迟不确定性,使得由于字对齐和位滑动引起的总延迟对于恢复时钟的所有阶段是恒定的。 这允许在由解串器的并行化的所有阶段的位的接收和传输之间具有固定和已知的等待时间。 在一个具体实现中,由于位对准器的位移和由位拖动器的位滑动导致的总延迟为零,因为位拖动器滑动位,以补偿由字对准器执行的位移。
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8.发明授权Power supply filtering for programmable logic device having heterogeneous serial interface architecture 有权具有异构串行接口架构的可编程逻辑器件的电源滤波公开(公告)号:US08976804B1
公开(公告)日:2015-03-10
申请号:US13041764
申请日:2011-03-07
申请人: Sergey Shumarayev , Wilson Wong , Thungoc M. Tran , Tim Tri Hoang
发明人: Sergey Shumarayev , Wilson Wong , Thungoc M. Tran , Tim Tri Hoang
IPC分类号: H04L12/66
CPC分类号: H03K19/17744
摘要: In a programmable logic device with a number of different types of serial interfaces, different power supply filtering schemes are applied to different interfaces. For interfaces operating at the lowest data rates—e.g., 1 Gbps—circuit-board level filtering including one or more decoupling capacitors may be provided. For interfaces operating at somewhat higher data rates—e.g., 3 Gbps—modest on-package filtering also may be provided, which may include power-island decoupling. For interfaces operating at still higher data rates—e.g., 6 Gbps—more substantial on-package filtering, including one or more on-package decoupling capacitors, also may be provided. For interfaces operating at the highest data rates—e.g., 10 Gbps—on-die filtering, which may include one or more on-die filtering or regulating networks, may be provided. The on-die regulators may be programmably bypassable allowing a user to trade off performance for power savings.
摘要翻译: 在具有多种不同类型的串行接口的可编程逻辑器件中,不同的电源滤波方案被应用于不同的接口。 对于以最低数据速率操作的接口,例如,可以提供包括一个或多个去耦电容器的1Gbps电路板电平滤波器。 对于以较高数据速率工作的接口,例如,也可以提供3 Gbps适度的封装内滤波,这可能包括功率岛解耦。 对于以更高的数据速率运行的接口,例如,也可以提供包括一个或多个封装内去耦电容器的6Gbps更实质的封装内滤波。 对于以最高数据速率工作的接口,例如,可以提供10Gbps片上滤波,其可以包括一个或多个片上滤波或调节网络。 片上调节器可以可编程地旁路,允许用户权衡功能以节省功率。
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公开(公告)号:US08653853B1
公开(公告)日:2014-02-18
申请号:US11618828
申请日:2006-12-31
IPC分类号: H03K19/0175
CPC分类号: H03K19/0175 , G11C7/10 , G11C7/1057 , G11C7/1084 , H03K19/17744 , H03K19/17784 , H03K19/17788
摘要: Techniques are provided for transmitting signals through a differential interface between circuits in different power supply domains. A driver circuit in a first power supply domain converts single-ended signals into differential signals. The driver circuit then transmits the differential signals to a receiver circuit in a second power supply domain. The receiver circuit converts the differential signals back into single-ended signals for transmission to circuit elements in the second power supply domain. The differential interface reduces the transmission of noise between circuit elements in the first power supply domain and circuit elements in the second power supply domain.
摘要翻译: 提供了用于通过不同电源域中的电路之间的差分接口传输信号的技术。 第一电源域中的驱动电路将单端信号转换成差分信号。 然后,驱动器电路将差分信号发送到第二电源域中的接收器电路。 接收器电路将差分信号转换回单端信号以传输到第二电源域中的电路元件。 差分接口减少了第一电源域中的电路元件与第二电源域中的电路元件之间的噪声传输。
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公开(公告)号:US08464088B1
公开(公告)日:2013-06-11
申请号:US12915794
申请日:2010-10-29
IPC分类号: G06F1/04
摘要: Various methods and structures related to clock distribution for flexible channel bonding are disclosed. One embodiment provides a clock network in physical media attachment (“PMA”) circuitry, a specific type or portion of system interconnect circuitry, arranged in pairs of channel groups. In one embodiment, clock generation circuitry blocks (“CGBs”) in each pair of channel groups receives outputs of multiple phased locked loop circuits (“PLLs”) which can be selectively utilized by the CGBs to generate PMA clock signals. In another embodiment, the CGBs can also select output of a clock data recovery (“CDR”)/transmit PLL circuitry block in one of the channels of a channel group of the pair of channel groups. In one embodiment, first groups of connection lines couple circuitry in a channel group pair such that a designated CGB in each channel group pair can provide clock signals to one or more of the channels in the channel group pair. In one embodiment, second groups of connection lines connect channels in one channel group pair to channels in other channel group pairs such that one or more channels across the channel group pairs can receive a clock signal generated by a CGB in a designated channel. These and other embodiments are described more fully in the disclosure.
摘要翻译: 公开了与用于柔性通道结合的时钟分配有关的各种方法和结构。 一个实施例提供物理介质连接(“PMA”)电路中的时钟网络,系统互连电路的特定类型或部分,被布置成成对的信道组。 在一个实施例中,每对信道组中的时钟产生电路块(“CGB”)接收多个锁相环电路(“PLL”)的输出,这些电路可被CGB选择性地用于产生PMA时钟信号。 在另一个实施例中,CGB还可以在一对信道组的信道组的信道之一中选择时钟数据恢复(“CDR”)/发送PLL电路块的输出。 在一个实施例中,第一组连接线将信道组对中的电路耦合,使得每个信道组对中的指定CGB可以向信道组对中的一个或多个信道提供时钟信号。 在一个实施例中,第二组连接线将一个信道组对中的信道与其它信道组对中的信道相连,使得跨信道组对的一个或多个信道可以接收由指定信道中的CGB产生的时钟信号。 在本公开中更全面地描述了这些和其它实施例。
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