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    • 4. 发明申请
    • MULTI-MODULUS DIVIDER RETIMING CIRCUIT
    • 多模分路器退火电路
    • WO2008014282A2
    • 2008-01-31
    • PCT/US2007074257
    • 2007-07-24
    • QUALCOMM INCNARATHONG CHIEWCHARNSU WENJUN
    • NARATHONG CHIEWCHARNSU WENJUN
    • H01M8/10
    • H03K23/667H03K21/10H03L7/1976
    • A multi-modulus divider (MMD) receives an MMD input signal and outputs an MMD output signal SOUT. The MMD includes a chain of modulus divider stages (MDSs). Each MDS receives an input signal, divides it by either two or three, and outputs the result as an output signal. Each MDS responds to its own modulus control signal that controls whether it divides by two or three. In one example, a sequential logic element outputs SOUT. The low jitter modulus control signal of one of the first MDS stages of the chain is used to place a sequential logic element into a first state. The output signal of one of the MDS stages in the middle of the chain is used to place the sequential logic element into a second state. Power consumption is low because the sequential logic element is not clocked at the high frequency of the MMD input signal.
    • 多模式分频器(MMD)接收MMD输入信号并输出​​MMD输出信号SOUT。 MMD包括模数分频器级链(MDS)。 每个MDS接收一个输入信号,将其分为两个或三个,并输出结果作为输出信号。 每个MDS响应自己的模数控制信号,控制它是否被二或三除。 在一个示例中,顺序逻辑元件输出SOUT。 链的第一MDS级之一的低抖动模数控制信号用于将顺序逻辑元件置于第一状态。 链中间的MDS级之一的输出信号用于将顺序逻辑元件置于第二状态。 功耗很低,因为顺序逻辑元件不在MMD输入信号的高频时钟。
    • 8. 发明申请
    • LOW-POWER MODULUS DIVIDER STAGE
    • 低功率模块分频器级
    • WO2008002968A1
    • 2008-01-03
    • PCT/US2007/072215
    • 2007-06-27
    • QUALCOMM IncorporatedNARATHONG, ChiewcharnSU, Wenjun
    • NARATHONG, ChiewcharnSU, Wenjun
    • H03K23/00
    • H03K23/54
    • A modulus divider stage (MDS) includes first and second stages. The MDS receives a modulus divisor control signal S that determines whether the MDS stage operates in a divide-by-two mode or a divide-by-three mode. The MDS stage also receives a feedback modulus control signal from another MDS. When in the divide-by-two mode, the MDS divides by two regardless of the feedback modulus control signal. To conserve power, the first stage is unpowered when the MDS stage operates in the divide-by-two mode. When in the divide-by-three mode, the MDS stage either divides by two or by three depending on the feedback modulus control signal. To further reduce power consumption, the first stage is unpowered when the MDS stage is in the divide-by-three mode but is nonetheless performing a divide-by-two operation. A power-down transistor holds the output of the first stage at the proper logic level when the first stage is unpowered.
    • 模数分频器级(MDS)包括第一级和第二级。 MDS接收模数除数控制信号S,其确定MDS级是以二分模式还是三分模式操作。 MDS级还接收来自另一MDS的反馈模数控制信号。 在二分模式下,无论反馈模数控制信号如何,MDS均除以二。 为了节省功率,当MDS阶段以二分模式运行时,第一级无功。 在三分频模式下,根据反馈模数控制信号,MDS级分为2或3。 为了进一步降低功耗,当MDS级处于三分频模式时,第一级没有动力,但仍然执行一个二分之一的操作。 当第一级无功时,掉电​​晶体管将第一级的输出保持在适当的逻辑电平。
    • 10. 发明申请
    • HIGH LINEAR FAST PEAK DETECTOR
    • 高线性快速探测器
    • WO2011031540A2
    • 2011-03-17
    • PCT/US2010046915
    • 2010-08-27
    • QUALCOMM INCSU WENJUNHADJICHRISTOS ARISTOTELECASSIA MARCONARATHONG CHIEWCHARN
    • SU WENJUNHADJICHRISTOS ARISTOTELECASSIA MARCONARATHONG CHIEWCHARN
    • G01R19/04
    • G01R19/04
    • A high linear fast peak detector having a variable bias current and/or a variable bias voltage is described. In an exemplary design, the peak detector includes a transistor, a variable current source, a capacitor, and a feedback circuit. The transistor receives the input signal and provides a source current. The variable current source receives the input signal, provides high bias current when the input signal is low, and provides low bias current when the input signal is high. The capacitor is charged by the source current when the input signal is high and is discharged by the high bias current when the input signal is low. The feedback circuit receives a detected signal from the capacitor and provides higher bias voltage for the transistor when the input signal is high, which results in higher source current from the transistor.
    • 描述具有可变偏置电流和/或可变偏置电压的高线性快速峰值检测器。 在示例性设计中,峰值检测器包括晶体管,可变电流源,电容器和反馈电路。 晶体管接收输入信号并提供源极电流。 可变电流源接收输入信号,当输入信号为低电平时提供高偏置电流,并且当输入信号为高电平时提供低偏置电流。 当输入信号为高电平时,电容器由电源电流充电,当输入信号为低电平时,电容器被高偏置电流放电。 当输入信号为高电平时,反馈电路接收来自电容器的检测信号,并为晶体管提供更高的偏置电压,这导致来自晶体管的较高的源极电流。