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    • 11. 发明授权
    • Method of calibrating interleaved digitizer channels
    • 校准交错数字转换器通道的方法
    • US08788234B2
    • 2014-07-22
    • US12905611
    • 2010-10-15
    • John J. Pickerd
    • John J. Pickerd
    • G06F15/00
    • G01R13/0272G01R31/3191G01R35/002H03M1/0626H03M1/1033H03M1/1085H03M1/1215
    • In a multi-channel oscilloscope a method of calibrating interleaved digitizer channels initially calibrates each digitizer channel to produce a bandwidth enhanced filter for each digitizer channel to match the respective channel frequency and phase characteristics. The oscilloscope is then configured for interleaved operation whereby an input signal is applied to at least two digitizers via a switch through a common preamplifier to produce a reference digitizer channel and an interleaved digitizer channel where the bandwidth enhanced filter for the interleaved digitizer channel is now not correct. Fast Fourier transforms are performed on the data from the reference digitizer channel and the interleaved digitizer channel, from which are derived a match filter for the interleaved digitizer channel so the interleaved digitizer channel and reference digitizer channel are matched in phase and magnitude at all frequencies.
    • 在多通道示波器中,校准交错数字转换器通道的方法最初校准每个数字转换器通道以产生用于每个数字转换器通道的带宽增强滤波器,以匹配相应的通道频率和相位特性。 然后将示波器配置成用于交错操作,由此通过公共前置放大器经由开关将输入信号施加到至少两个数字转换器,以产生参考数字转换器通道和交错数字转换器通道,其中用于交错数字转换器通道的带宽增强滤波器现在不是 正确。 对来自参考数字转换器通道和交错数字转换器通道的数据执行快速傅立叶变换,从而从交错数字转换器通道导出匹配滤波器,使得交织的数字转换器通道和参考数字转换器通道在所有频率的相位和幅度上匹配。
    • 13. 发明申请
    • Method of Generating a Digital Signal that is Representative of Match Errors in an Analog Digital Conversion System With Time Interleaving, and an Analog Digital Converter with Time Interleaving Using Same
    • 在具有时间交织的模拟数字转换系统中产生代表匹配错误的数字信号的方法以及使用相同时间交错的模拟数字转换器
    • US20070247344A1
    • 2007-10-25
    • US10581549
    • 2004-11-30
    • Patrick Gremillet
    • Patrick Gremillet
    • H03M1/12
    • H03M1/1052H03M1/1085H03M1/1215
    • The invention relates to a method for generating a digital signal representative of the pairing error between the channels of an analog digital conversion system with time interleaving, a method for suppressing the errors thus calculated and an analog digital conversion system with time interleaving using same. The present invention proposes a less complex digital solution since it does not require the extraction of the defects of the signal at the output of the converter. It makes it possible to correct the pairing errors by the direct creation of digital signals representative of these errors, and their subtraction from the digitized signal at the output of the conversion system. An object of the invention is a method for generating a digital signal representative of the pairing error between the channels of an analog digital conversion system with time interleaving (CAN 10) comprising an analog digital converter (CAN1, CAN2,...,CANN) on each channel. The said method comprises the determination of the spectrum (11-12) of said digital signal as a function of the frequency response of the analog digital conversion system with time interleaving (CAN 10) to at least one analog calibration signal (IC).
    • 本发明涉及一种用于产生代表模拟数字转换系统的信道与时间交织之间的配对误差的数字信号的方法,一种用于抑制如此计算的误差的方法和使用其的时间交织的模拟数字转换系统。 本发明提出了一种较不复杂的数字解决方案,因为它不需要在转换器的输出处提取信号的缺陷。 通过直接创建表示这些错误的数字信号,以及从转换系统的输出端的数字化信号中减去配对误差,可以实现这一点。 本发明的目的是一种用于产生代表模拟数字转换系统的通道与时间交错(CAN 10)之间的配对误差的数字信号的方法,包括模拟数字转换器(CAN< 1> 每个通道上的CAN 2 ,...,CAN N )。 所述方法包括根据随时间交织(CAN 10)至少一个模拟校准信号(IC)的模拟数字转换系统的频率响应的函数来确定所述数字信号的频谱(11-12)。
    • 16. 发明申请
    • Method and apparatus for use in DSP-based testing
    • 用于基于DSP的测试的方法和设备
    • US20040161028A1
    • 2004-08-19
    • US10777094
    • 2004-02-13
    • Gordon RobertsChris Taillefer
    • H04Q001/20
    • H03M1/1085G01R29/26G01R31/3167H03M1/12H03M1/66
    • An apparatus suitable for use in identifying a noise component originating from a certain source of noise in a DSP-based mixed-signal system is provided. The apparatus includes a processing unit which receives a first signal released by a first signal path, the first signal path including a digital-to-analog converter and a first analog-to-digital converter. The processing unit also receives a second signal released by a second signal path, the second signal path including the digital-to-analog converter and a second analog-to-digital converter. The first signal and the second signal are processed to derive a noise component associated to a certain source of noise, the certain source of noise being a selected one of the digital-to-analog converter, the first analog-to-digital converter and the second analog-to-digital converter. A signal indicative of the noise component associated to the certain source of noise is then released.
    • 提供了一种适用于识别基于DSP的混合信号系统中源自某一噪声源的噪声分量的装置。 该装置包括处理单元,其接收由第一信号路径释放的第一信号,第一信号路径包括数模转换器和第一模数转换器。 处理单元还接收由第二信号路径释放的第二信号,第二信号路径包括数模转换器和第二模数转换器。 处理第一信号和第二信号以导出与特定噪声源相关联的噪声分量,该特定噪声源是数模转换器,第一模数转换器和 第二模数转换器。 然后释放指示与某个噪声源相关联的噪声分量的信号。
    • 17. 发明授权
    • Evaluation system and method for AD converter
    • AD转换器的评估系统和方法
    • US06177894B1
    • 2001-01-23
    • US09183644
    • 1998-10-30
    • Takahiro Yamaguchi
    • Takahiro Yamaguchi
    • H03M110
    • H03M1/1085H03M1/12
    • An instantaneous differential non-linearity DNL can be determined with a high accuracy with a reduced volume of computation and independently from a testing frequency while allowing an evaluation of factors in a compounded fault. A sine signal is applied to an AD converter 14 under test, a conversion output of which is divided into a sine component and a cosine component, with local maxima or minima aligned with each other. A square sum of the individual samples is formed, and a square root of the square sum is formed to determine an instantaneous amplitude (21). The amplitude of the sine wave signal is interleaved into a series of instantaneous amplitudes (20), and a first stage of the wavelet transform (46) is applied to the interleaved series of instantaneous amplitudes, with its output being oversampled to perform a second stage of wavelet transform (46′). A maximum amplitude of the transform output is detected by peak detector 23′. A detected value is used to estimate the DNL.
    • 瞬时微分非线性DNL可以以较低的计算量和精度独立于测试频率以高精度确定,同时允许对复合故障中的因素进行评估。 正弦信号被施加到被测试的AD转换器14,其转换输出被分成正弦分量和余弦分量,其中局部最大值或最小值彼此对准。 形成各个样本的平方和,形成平方和的平方根以确定瞬时振幅(21)。 正弦波信号的振幅被交织成一系列瞬时振幅(20),小波变换(46)的第一级被施加到交错的瞬时振幅系列,其输出被过采样以执行第二级 的小波变换(46')。 峰值检测器23'检测变换输出的最大幅度。 检测值用于估计DNL。