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    • 1. 发明授权
    • Phase synchronization of phased array or multiple receiver/transmitter systems
    • 相控阵或多个接收/发射系统的相位同步
    • US08340619B1
    • 2012-12-25
    • US12695352
    • 2010-01-28
    • Alireza Shirvani-MahdaviSaeed Chehrazi
    • Alireza Shirvani-MahdaviSaeed Chehrazi
    • H04B1/26
    • H04B1/26H03B21/02H04B7/04H04L27/00
    • In one embodiment, a local oscillator (LO) is configured to generate an LO signal. A transmission line receives the LO signal from the local oscillator and transmits the LO signal. A first set of taps and a second set of taps tap the transmission line to receive the LO signal. A plurality of transceiver blocks are configured to receive and transmit a plurality of phase-shifted radio frequency signals. Each transceiver block is coupled to a first tap and a second tap. Each LO signal received for a transceiver block is received with a different phase. However, the same reference phase may be calculated from a first LO signal received from the first tap and a second LO signal received from a second tap. Each transceiver block receives the reference LO signal having the reference phase determined from the first LO signal and the second LO signal.
    • 在一个实施例中,本地振荡器(LO)被配置为产生LO信号。 传输线从本地振荡器接收LO信号并发送LO信号。 第一组抽头和第二组抽头敲击传输线以接收LO信号。 多个收发器块被配置为接收和发送多个相移射频信号。 每个收发器模块耦合到第一抽头和第二抽头。 为收发器模块接收的每个LO信号都以不同的相位接收。 然而,可以从从第一抽头接收的第一LO信号和从第二抽头接收的第二LO信号来计算相同的参考相位。 每个收发器块接收具有从第一LO信号和第二LO信号确定的参考相位的参考LO信号。
    • 3. 发明授权
    • Receiving and transmitting signals across non-contiguous channels in a communication system
    • 在通信系统中的不连续信道上接收和发送信号
    • US08755463B2
    • 2014-06-17
    • US13277925
    • 2011-10-20
    • Alireza Shirvani-Mahdavi
    • Alireza Shirvani-Mahdavi
    • H03K9/00
    • H04B1/0007H04B1/28
    • Embodiments for processing signals are disclosed. In one embodiment, a method includes receiving signals from at least two non-contiguous channels, where the at least two non-contiguous channels are within a predetermined bandwidth, and where each of the at least two non-contiguous channels has a center frequency. The method also includes utilizing an average of the center frequencies of the at least two non-contiguous channels to down convert the at least two non-contiguous channels to a combined intermediate frequency (IF) channel that has a center frequency that is an average of a difference between the center frequencies of the at least two non-contiguous channels. The method also includes down converting the combined IF channel to a combined channel at a baseband frequency. The method also includes recovering the at least two non-contiguous channels from the combined channel at a baseband frequency utilizing an upper sideband and lower sideband recovery mechanism.
    • 公开了处理信号的实施例。 在一个实施例中,一种方法包括从至少两个不连续信道接收信号,其中至少两个不连续信道在预定带宽内,并且其中至少两个不连续信道中的每一个具有中心频率。 该方法还包括利用至少两个不连续信道的中心频率的平均值将至少两个不连续信道下变频到组合中频(IF)信道,其中心频率是 所述至少两个不连续通道的中心频率之间的差异。 该方法还包括以基带频率将组合的IF信道下变频到组合信道。 该方法还包括利用上边带和下边带恢复机制以基带频率从组合信道恢复至少两个不连续的信道。
    • 4. 发明授权
    • Power amplifier protection
    • 功率放大器保护
    • US08179648B1
    • 2012-05-15
    • US12965223
    • 2010-12-10
    • Wayne A. LoebAlireza Shirvani-Mahdavi
    • Wayne A. LoebAlireza Shirvani-Mahdavi
    • H03G3/10H02H7/20
    • H03F1/52H02H9/025H03F3/191H03F2200/231H03F2200/27H03F2200/435
    • Systems, devices and techniques relating to power amplifier protection include, in some implementations, a circuit including: attenuation circuitry to couple with an output of detection circuitry that provides a protection signal and to couple with an input of power amplifier circuitry; turn off circuitry to couple with the power amplifier circuitry, the turn off circuitry configured to turn off the power amplifier circuitry responsive to the protection signal; and the attenuation circuitry configured to reduce a gain of the power amplifier circuitry responsive to the protection signal, the attenuation circuitry comprising a delay stage configured to continue attenuating an RF input signal of the power amplifier circuitry until after the power amplifier circuitry turns on.
    • 在一些实施方式中,涉及功率放大器保护的系统,设备和技术包括:电路,包括:与提供保护信号并与功率放大器电路的输入耦合的检测电路的输出耦合的衰减电路; 关闭电路以与功率放大器电路耦合,所述关断电路被配置为响应于所述保护信号而关闭所述功率放大器电路; 并且所述衰减电路经配置以响应于所述保护信号而减小所述功率放大器电路的增益,所述衰减电路包括被配置为继续衰减所述功率放大器电路的RF输入信号的延迟级,直到所述功率放大器电路导通为止。
    • 6. 发明授权
    • Geometric ladder circuit with linear-in-dB transfer function
    • 具有线性dB传递函数的几何梯形电路
    • US07557636B1
    • 2009-07-07
    • US12030068
    • 2008-02-12
    • Alireza Shirvani-MahdaviGeorge Chien
    • Alireza Shirvani-MahdaviGeorge Chien
    • G06F7/56
    • H03M1/664H03M1/785
    • A geometric ladder circuit produces a transfer function having substantially uniform steps measured in dB. Where the ladder has a plurality of substantially identical resistor rungs of a first resistance, one stile that is a conductor connecting the rungs, and another having a series of substantially identical resistors of a second resistance, then for identical currents injected at different rungs, the output signal at an end of the ladder is attenuated by a number of substantially equal steps, one for each rung between input and output. For a ladder with a base rung R, an output at an end opposite the base rung, stile resistors of resistance αR, and other rungs all of resistance (1+(1/α))R, the step size is 20 log10(1+α).
    • 几何梯形电路产生具有以dB为单位测量的基本均匀步长的传递函数。 在梯子具有多个基本相同的第一电阻的电阻器梯级的情况下,一个是连接梯级的导体,另一个是具有一系列基本相同的第二电阻的电阻器,然后对于在不同梯级上注入的相同的电流, 在梯形结束处的输出信号被衰减了大量相等的步骤,一个用于输入和输出之间的每个梯级。 对于具有底座梯级R的梯子,与基座梯级相反的一端的输出端,电阻αR的阻尼电阻器和其他各个电阻(1+(1 /α))R,步长为20log10(1 + alpha)。
    • 8. 发明授权
    • Linear-in-dB variable gain amplifier using geometric ladder circuit
    • 使用几何梯形电路的线性dB可变增益放大器
    • US07339434B1
    • 2008-03-04
    • US11394561
    • 2006-03-31
    • Alireza Shirvani-MahdaviGeorge Chien
    • Alireza Shirvani-MahdaviGeorge Chien
    • H03G3/12
    • H03G1/0088H03G7/005
    • A variable gain amplifier uses a geometric ladder circuit that produces a transfer function having substantially uniform steps measured in dB. Where the ladder has a plurality of substantially identical resistor rungs of a first resistance, one stile that is a conductor connecting the rungs, and another having a series of substantially identical resistors of a second resistance, then for identical inputs at different rungs, the output signal at an end of the ladder is attenuated by a number of substantially equal steps, one for each rung between input and output. For a ladder with a base rung R, an output at an end opposite the base rung, stile resistors of resistance αR, and other rungs all of resistance (1+(1/α))R, the step size is 20 log10(1+α). By using such ladders in op-amp feedback loops, chaining different stages with different values of α, coarse and fine gain adjustment can be provided.
    • 可变增益放大器使用几何梯形电路,其产生具有以dB为单位测量的基本均匀步长的传递函数。 在梯子具有多个基本上相同的第一电阻电阻器梯级的情况下,一个是连接梯级的导体,另一个是具有一系列基本相同的第二电阻的电阻器,然后对于不同级别的相同输入,输出端 在梯子末端的信号被衰减许多基本相等的步骤,一个用于输入和输出之间的每个梯级。 对于具有基础梯级R的梯子,与基座梯级相反的一端的输出端,电阻αR的阻尼电阻器和其他梯级的所有电阻(1+(1 /α))R,步长为20log 10(1 +α)。 通过在运算放大器反馈回路中使用这样的梯形图,可以提供不同阶段的不同的α,粗和细增益调整值。
    • 9. 发明授权
    • Geometric ladder circuit with linear-in-dB transfer function
    • 具有线性dB传递函数的几何梯形电路
    • US07330064B1
    • 2008-02-12
    • US11394586
    • 2006-03-31
    • Alireza Shirvani-MahdaviGeorge Chien
    • Alireza Shirvani-MahdaviGeorge Chien
    • G06F7/56
    • H03M1/664H03M1/785
    • A geometric ladder circuit produces a transfer function having substantially uniform steps measured in dB. Where the ladder has a plurality of substantially identical resistor rungs of a first resistance, one stile that is a conductor connecting the rungs, and another having a series of substantially identical resistors of a second resistance, then for identical currents injected at different rungs, the output signal at an end of the ladder is attenuated by a number of substantially equal steps, one for each rung between input and output. For a ladder with a base rung R, an output at an end opposite the base rung, stile resistors of resistance αR, and other rungs all of resistance (1+(1/α))R, the step size is 20 log10 (1+α).
    • 几何梯形电路产生具有以dB为单位测量的基本均匀步长的传递函数。 在梯子具有多个基本相同的第一电阻的电阻器梯级的情况下,一个是连接梯级的导体,另一个是具有一系列基本相同的第二电阻的电阻器,然后对于在不同梯级上注入的相同的电流, 在梯形结束处的输出信号被衰减了大量相等的步骤,一个用于输入和输出之间的每个梯级。 对于具有基础梯级R的梯子,与基座梯级相反的一端的输出端,电阻αR的阻尼电阻器和其他梯级的所有电阻(1+(1 /α))R,步长为20log 10(1 +α)。