会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Method and apparatus for equallization in an asymmetric digital
aubscriber line communications system
    • 用于非对称数字订户通信系统中的均衡的方法和装置
    • US6047025A
    • 2000-04-04
    • US23061
    • 1998-02-13
    • Terence L. JohnsonAlbert H. Higashi
    • Terence L. JohnsonAlbert H. Higashi
    • H03H21/00H03H7/30H03H7/40H03K5/159
    • H03H21/0012
    • An equalizer (106, 146) for use in systems such as an asymmetric digital subscriber line (ADSL) transceiver (5) reduces the number of calculations required for updating the equalizer coefficients. The equalizer (106, 146) takes advantage of the substantially symmetrical phase and amplitude distortion of the signal constellation, which causes both the amplitude and the phase relationship of the calculated error term for each constellation point to be equal. Instead of performing a full complex multiplication, the equalizer (106, 146) uses some but not all of the product terms between the real and imaginary components of the calculated error term and the conjugate of the received data estimate in the coefficient update calculation. The result is then scaled to account for the missing terms. The resulting equalizer (106, 146) requires fewer calculations for coefficient updating.
    • 用于诸如非对称数字用户线(ADSL)收发器(5)的系统中的均衡器(106,146)减少了更新均衡器系数所需的计算次数。 均衡器(106,146)利用信号星座图的基本对称的相位和幅度失真,这导致每个星座点的计算出的误差项的幅度和相位关系都相等。 代替执行全复数乘法,均衡器(106,146)在系数更新计算中使用计算出的误差项的实部和虚分量之间的一些但不是全部乘积项和接收到的数据估计的共轭。 然后将结果缩小以考虑缺少的术语。 所得到的均衡器(106,146)需要更少的系数更新计算。
    • 3. 发明授权
    • Digital transmitter circuit and method of operation
    • 数字发射机电路及操作方法
    • US06490440B1
    • 2002-12-03
    • US09323236
    • 1999-06-01
    • James S. MielkeAlbert H. HigashiSerge Drogi
    • James S. MielkeAlbert H. HigashiSerge Drogi
    • H04B102
    • H04B1/0483H04B1/406
    • A transceiver (10) includes a transmitter (16) that receives a digital data stream from a digital signal processor (18) to delay lines (20, 30). The delay lines (20, 30) provide an address to a ROM look-up table (40). Another input of the look-up table (40) receives a signal that selects protocols such as TDMA, CDMA, and GSM. A multi-accumulator fractional-N synthesizer (48) receives phase derivative coefficients and a DAC (46) receives amplitude modulation coefficients from the look-up table (40) based on the selected protocol. The analog output signals from the DAC (46) and the synthesizer (48) are received by a variable gain amplifier (54) that generates an RF amplitude and frequency modulated output signal for transmission from the transmitter (16).
    • 收发器(10)包括从数字信号处理器(18)接收数字数据流以延迟线(20,30)的发射器(16)。 延迟线(20,30)向ROM查找表(40)提供地址。 查找表(40)的另一个输入接收选择诸如TDMA,CDMA和GSM之类的协议的信号。 多累加器分数N合成器(48)接收相位导数系数,并且DAC(46)基于所选择的协议从查找表(40)接收幅度调制系数。 来自DAC(46)和合成器(48)的模拟输出信号被可变增益放大器(54)接收,该可变增益放大器产生用于从发送器(16)传输的RF幅度和调频输出信号。
    • 4. 发明授权
    • Method for extending the liner range of an amplifier
    • 扩展放大器的线性范围的方法
    • US06259318B1
    • 2001-07-10
    • US09322048
    • 1999-05-28
    • James S. MielkeAlbert H. HigashiSerge Drogi
    • James S. MielkeAlbert H. HigashiSerge Drogi
    • H03G320
    • H03F1/3223H03F2200/372H04B1/406
    • A transceiver (10) includes a transmitter (16) that receives a digital data stream from a digital signal processor (18) to delay lines (20, 30). The delay lines (20,30) provide an address to a ROM look-up table (40). Another input of the look-up table (40) receives a signal that selects protocols such as TDMA, CDMA, and GSM. A multi-accumulator fractional-N synthesizer (48) receives phase derivative coefficients and a DAC (46) receives amplitude modulation coefficients from the look-up table (40) based on the selected protocol. The analog output signals from the DAC (46) and the synthesizer (48) are received by a variable gain amplifier (54) that generates an RF amplitude and frequency modulated output signal for transmission from the transmitter (16). The look-up table (40) stores phase derivative coefficients and amplitude modulation coefficients that correct for non-linearity in the variable gain amplifier (54).
    • 收发器(10)包括从数字信号处理器(18)接收数字数据流以延迟线(20,30)的发射器(16)。 延迟线(20,30)向ROM查找表(40)提供地址。 查找表(40)的另一个输入接收选择诸如TDMA,CDMA和GSM之类的协议的信号。 多累加器分数N合成器(48)接收相位导数系数,并且DAC(46)基于所选择的协议从查找表(40)接收幅度调制系数。 来自DAC(46)和合成器(48)的模拟输出信号被可变增益放大器(54)接收,该可变增益放大器产生用于从发送器(16)传输的RF幅度和调频输出信号。 查找表(40)存储在可变增益放大器(54)中校正非线性的相位微分系数和幅度调制系数。
    • 6. 发明授权
    • Trajectory directed timing recovery
    • 轨迹定向恢复
    • US5528634A
    • 1996-06-18
    • US154057
    • 1993-11-18
    • Richard S. GriphAlbert H. Higashi
    • Richard S. GriphAlbert H. Higashi
    • H04L7/02H04L27/233H04L7/00
    • H04L7/0062H04L27/2332
    • In a digital demodulator (10) a single sampling moment (28) occurs within each symbol (22). A data estimator (34) identifies a data code and a phase error for each symbol. The data from three symbols (22) are compared to identify whether a phase trajectory is determinate or indeterminate. The phase error from a current symbol is combined with phase trajectory direction data to determine whether a current phase error is in a direction of a next data code or a previous data code. When determinate trajectories are found, phase errors in the direction of a next data code urge the sample moment (28) to occur earlier in the symbols (22) and phase errors in the direction of a previous data code urge the sample moment (28) to occur later in each symbol (22). When indeterminate trajectories are found, substantially no influence is exerted over the timing of the sample moment (28).
    • 在数字解调器(10)中,在每个符号(22)内发生单个采样时刻(28)。 数据估计器(34)识别每个符号的数据代码和相位误差。 比较来自三个符号(22)的数据,以确定相位轨迹是确定的还是不确定的。 来自当前符号的相位误差与相位轨迹方向数据组合,以确定当前相位误差是否在下一数据码或先前数据码的方向上。 当发现确定的轨迹时,在下一个数据码的方向上的相位误差促使采样时刻(28)在符号(22)中更早地发生,并且先前数据码的方向上的相位误差迫使采样时刻(28) 以后发生在每个符号(22)中。 当发现不确定的轨迹时,基本上不会对样本力矩(28)的定时施加影响。