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    • 1. 发明授权
    • Computer peripheral device having the capability to wake up from a cold state with information stored before cold powerdown
    • 计算机外围设备具有从冷启动状态存储的信息从冷态唤醒的能力
    • US06282666B1
    • 2001-08-28
    • US09257954
    • 1999-02-26
    • Laurence Edward BaysRichard MuscavageDennis A. BrooksXingdong DaiEric Wilcox
    • Laurence Edward BaysRichard MuscavageDennis A. BrooksXingdong DaiEric Wilcox
    • G06F1202
    • G06F1/3253G06F1/3203Y02D10/151
    • A computer peripheral device suitable for operation with a Peripheral Component Interconnect (PCI) Bus or the like, has the ability to “wakeup” the bus from a cold state (e.g., D3cold) without the need to supply auxiliary power (e.g., 3.3 volts) to the entire device during the cold state. A modem in the preferred embodiment (although the invention is applicable to other peripheral devices), the device latches device status information from the main circuitry of the device (operating on 5 volts, for example) into a “keep alive” circuit connected to the auxiliary power supply upon the falling edge of a PCI reset signal (RST#). Additionally, the auxiliary power supply also powers a ring detect circuit for the detection of an incoming telephone call, which incoming call triggers a Power Management Event (PME#) signal for changing the state of the bus to an active state. Further, the auxiliary power supply powers a RST# detection circuit for indicating that a change in the power state of the bus is imminent.
    • 适用于使用外围组件互连(PCI)总线等的计算机外围设备具有从总线“冷却”(例如,D3cold)唤醒总线的能力,而不需要提供辅助电源(例如,3.3伏特 )在冷态期间到整个设备。 在优选实施例中的调制解调器(尽管本发明可应用于其他外围设备),设备将来自设备的主电路(例如,在5伏特上工作)的设备状态信息锁定到连接到 辅助电源在PCI复位信号(RST#)的下降沿。 此外,辅助电源还为环路检测电路供电以检测进入的电话呼叫,该来电呼叫触发电力管理事件(PME#)信号,以将总线的状态改变为活动状态。 此外,辅助电源为RST#检测电路供电,用于指示总线的功率状态的改变即将到来。
    • 2. 发明授权
    • Low power dual-voltage sense circuit buffer
    • 低功率双电压检测电路缓冲器
    • US06377086B1
    • 2002-04-23
    • US09412491
    • 1999-10-05
    • Laurence E. BaysDennis A. BrooksXingdong DaiRichard Muscavage
    • Laurence E. BaysDennis A. BrooksXingdong DaiRichard Muscavage
    • H03B100
    • H03K19/018521
    • A fully-static dual-voltage sense circuit designed for a mixed-voltage system senses the power-rail voltage of other devices that the device is interfaced with, and achieves a low-power consumption level without software assistance when the sensing circuit is active, and protects low-voltage process devices in the circuit from possible high voltage damage at the interface. In a preferred embodiment, the present invention includes an integrated circuit having a dual-voltage sense circuit, the sense circuit including a sense circuit input node supplied with an input voltage Vin; a sense circuit power input node supplied with a power-supply voltage; and a sense circuit output node outputting a digital signal of a voltage level equal to or less than the voltage level of a low-voltage digital signal, regardless of the voltage level of the input voltage.
    • 设计用于混合电压系统的全静态双电压检测电路可以感测到器件接口的其他器件的电源电压,并且在感测电路处于活动状态时,无需软件辅助即可实现低功耗级别, 并保护电路中的低压工艺装置免受接口处的高压损坏。 在优选实施例中,本发明包括具有双电压检测电路的集成电路,感测电路包括提供有输入电压Vin的感测电路输入节点; 提供有电源电压的感测电路电力输入节点; 以及感测电路输出节点,输出等于或小于低电压数字信号的电压电平的电压电平的数字信号,而与输入电压的电压电平无关。
    • 3. 发明申请
    • STATISTICAL MODELING BASED ON BIT-ACCURATE SIMULATION OF AN ELECTRONIC DEVICE
    • 基于电子设备的精确仿真的统计建模
    • US20140025350A1
    • 2014-01-23
    • US13553983
    • 2012-07-20
    • Xingdong DaiYasser Ahmed
    • Xingdong DaiYasser Ahmed
    • G06F17/50
    • G06F17/5036
    • Operations of an electronic device are simulated by generating and executing a bit-accurate model of the device using an input signal having at least one transition that corresponds to a step input having a pre-transition value (e.g., 0 for a positive transition) for a specified duration before the transition and a post-transition value (e.g., 1 for a positive transition) for a specified duration after the transition. The corresponding step-response results are differentiated with respect to time to generate impulse-response results for the device. The impulse-response results are converted into the frequency domain to determine frequency-domain characteristics of the device that are used to generate a statistical model of the device, which can be executed to simulate all operations of the device, include low bit-error-rate (BER) simulations that would take too long to simulate using the bit-accurate model.
    • 通过使用具有至少一个转换的输入信号来生成和执行装置的比特精确模型来模拟电子装置的操作,所述转换对应于具有预转换值的步进输入(例如,对于正转换为0),用于 转换前的指定持续时间和过渡后的指定持续时间后的转换后值(例如,1为正转移)。 相应的步进响应结果相对于时间被区分以产生该装置的脉冲响应结果。 脉冲响应结果被转换为频域以确定用于生成设备的统计模型的设备的频域特性,其可以被执行以模拟设备的所有操作,包括低位误差 - 速率(BER)模拟,需要太长时间来模拟使用位精确模型。
    • 4. 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。
    • 6. 发明授权
    • Methods and apparatus for detecting and decoding adaptive equalization training frames
    • 用于检测和解码自适应均衡训练帧的方法和装置
    • US08428195B2
    • 2013-04-23
    • US11967463
    • 2007-12-31
    • Yasser AhmedXingdong DaiMohammad S. MobinLane A. Smith
    • Yasser AhmedXingdong DaiMohammad S. MobinLane A. Smith
    • H04L27/06
    • H04L27/01H04L7/0066H04L7/0083H04L25/4904
    • Methods and apparatus are provided for detecting and decoding adaptive equalization training frames (having a frame marker comprised of a string of binary ones and binary zeroes). Training frames are detected by shifting the received data; inserting at least one binary value at one end of the shifted received data to generate a modified version of the received data; applying a logic function to the received data and the modified version of the received data that identifies when corresponding bit positions have different values; and detecting the frame marker when an output of the logic function has a first binary value in an approximate middle of a string of a second binary value. The training frames are decoded using a distance between the approximate center of the frame maker and a predefined binary value in an output of the logic function.
    • 提供了用于检测和解码自适应均衡训练帧(具有包括二进制和二进制零序列的帧标记)的方法和装置。 通过移位接收到的数据来检测训练帧; 在移位的接收数据的一端插入至少一个二进制值以产生所接收数据的修改版本; 对所接收的数据应用逻辑功能以及当对应的位位置具有不同值时识别的接收数据的修改版本; 以及当所述逻辑功能的输出在第二二进制值的字符串的大致中间具有第一二进制值时,检测所述帧标记。 使用框架制造商的近似中心之间的距离和逻辑功能的输出中的预定二进制值对训练帧进行解码。