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    • 3. 发明授权
    • Receiver with automatic gain control that operates with multiple protocols and method thereof
    • 具有自动增益控制的接收机,其具有多种协议及其方法
    • US07227916B2
    • 2007-06-05
    • US10649427
    • 2003-08-26
    • Charles R. RuelkeMoshe Ben-AyunDavid J. GrahamMark Rozental
    • Charles R. RuelkeMoshe Ben-AyunDavid J. GrahamMark Rozental
    • H04L27/08
    • H03G3/3078H03G3/001H03G3/3052
    • An automatic gain control (AGC) method and circuit (10) within a receiver uses a digital state machine (26) to implement the AGC function. independent from interaction with a host processor (36) and for multiple modulation protocols without duplicating circuitry. Modulation protocol and parameters for any of various gain responses are stored in a register (29). Multiple states, each corresponding to a predetermined range of RF input signal strength, are stored in the register. Each state contains parameters that determine a gain control signal for controlling a variable gain amplifier (16). The states are independent and may be selectively disabled to create asymmetric responses. Within any state, an adaptable number of iterations may be set to implement a different update rate or step size after a predetermined number of closed loop gain change iterations has not resulted in a transition to a state that represents a desired output gain.
    • 接收机内的自动增益控制(AGC)方法和电路(10)使用数字状态机(26)实现AGC功能。 独立于与主处理器(36)的交互和不具有复制电路的多调制协议。 任何各种增益响应的调制协议和参数都存储在寄存器(29)中。 每个对应于RF输入信号强度的预定范围的多个状态被存储在寄存器中。 每个状态包含确定用于控制可变增益放大器(16)的增益控制信号的参数。 状态是独立的,并且可以被选择性地禁用以产生不对称响应。 在任何状态下,在预定数量的闭环增益变化迭代尚未导致转换到表示期望的输出增益的状态之后,可设置可适应数量的迭代以实现不同的更新速率或步长。
    • 4. 发明授权
    • Apparatus and method for a dual watch receiver
    • 双手表接收机的装置和方法
    • US08971456B2
    • 2015-03-03
    • US13329691
    • 2011-12-19
    • Ariel L. GalanYoung-Seo ParkCharles H. CarterCharles R. RuelkeDarrell Stogner
    • Ariel L. GalanYoung-Seo ParkCharles H. CarterCharles R. RuelkeDarrell Stogner
    • H04L27/06
    • H04B1/0007H04B1/0071
    • A receiver for a wireless communication device provides a dual path receiver receiving first and second protocol-agnostic, uncorrelated receive signals simultaneously. The dual path receiver generating first and second offset IF signals from the simultaneously received first and second protocol-agnostic, uncorrelated receive signals. The receiver utilizes at least one converter for converting the first and second offset IF signals into at least one serial synchronous interface (SSI) signal representing the spectrum at IF. At least one processor receives the at least one SSI signal and applies parallel processing paths to demodulate the at least one SSI signal into separate baseband signals. The processor provides interference detection of, and level control for, the first and second offset IF signals.
    • 用于无线通信设备的接收机提供双路径接收机同时接收第一和第二协议无关的,不相关的接收信号。 双路径接收机从同时接收的第一和第二协议无关的,不相关的接收信号产生第一和第二偏移IF信号。 接收机利用至少一个转换器将第一和第二偏移IF信号转换为表示IF处的频谱的至少一个串行同步接口(SSI)信号。 至少一个处理器接收所述至少一个SSI信号并且应用并行处理路径以将所述至少一个SSI信号解调为单独的基带信号。 处理器为第一和第二偏移IF信号提供干扰检测和电平控制。
    • 5. 发明授权
    • Method and apparatus for imbalance-free FM demodulation in direct conversion radio receivers
    • 直接转换无线电接收机中不平衡调频解调的方法和装置
    • US08442474B2
    • 2013-05-14
    • US12844961
    • 2010-07-28
    • Yadunandana RaoCharles R. RuelkeDarrell J. StognerRichard S. Young
    • Yadunandana RaoCharles R. RuelkeDarrell J. StognerRichard S. Young
    • H04B1/16
    • H04B1/30H03D3/009H03D2200/0047H03D2200/0082H03G3/3052
    • An apparatus and method for demodulating an FM RF signal is presented. An Adaptive Differentiate Cross Multiply (ADCM) system in which the energy estimate of the desired on-channel RF is generated using adaptive filtering. The adaptive filter includes low pass filtering of the instantaneous energy estimate. The bandwidth of the LPF is adjusted in real time based on the received signal strength energy estimate, the periodicity of any changes in the energy estimate, AGC setting for the receiver, and/or the type of sub-audible signaling applied to the RF signal if known. After the bandwidth is set, the optimum filtered energy estimate is applied to the system to demodulate the received information free from distortion artifacts associated with IQ imbalance. A normalized signal in the ADCM system is clipped by a limiter whose clipping threshold is equal to a maximum gain of differentiators in the ADCM system.
    • 提出了一种用于解调FM RF信号的装置和方法。 自适应差分交叉乘法(ADCM)系统,其中使用自适应滤波来生成期望的同信道RF的能量估计。 自适应滤波器包括瞬时能量估计的低通滤波。 基于接收到的信号强度能量估计,能量估计的任何变化的周期性,接收机的AGC设置和/或应用于RF信号的子听觉信号的类型,实时地调整LPF的带宽 如果已知。 在设置带宽之后,将最佳滤波能量估计值应用于系统以解调所接收到的信息,而不存在与IQ失衡相关的失真伪像。 ADCM系统中的归一化信号由限幅器限幅,其限幅阈值等于ADCM系统中微分器的最大增益。
    • 7. 发明授权
    • Apparatus for receiving multiple independent RF signals simultaneously and method thereof
    • 用于同时接收多个独立RF信号的装置及其方法
    • US08320858B2
    • 2012-11-27
    • US12951235
    • 2010-11-22
    • Charles R. RuelkeAriel L. GalanYadunandana N. Rao
    • Charles R. RuelkeAriel L. GalanYadunandana N. Rao
    • H04B1/04
    • H04B1/0021H04B1/001
    • An apparatus and method for receiving and processing multiple independent, uncorrelated RF signals is presented. The apparatus includes a Hybrid-Direct Conversion Receiver incorporating front end branches, protocol-specific digital processing branches, an interference detector, a correlator, and an offset control for controlling oscillator sources. The front end branches each contain a preselector that filters received signals and a mixer that down converts the received signal to an IF offset from a reference frequency by a unique offset. The bandwidth of an IF processor is partitioned into sub-channels corresponding to the different offsets and is wider than the combination of the sub-channels. The interference detector and correlator determine whether a particular desired signal is degraded by interference signals and select a new sub-channel. This information is provided to the offset control, which adjusts a LO source coupled to the corresponding down mixer accordingly.
    • 提出了一种用于接收和处理多个独立的,不相关的RF信号的装置和方法。 该装置包括混合直接转换接收器,其包含前端分支,协议专用数字处理分支,干扰检测器,相关器和用于控制振荡器源的偏移控制。 前端支路每个都包含用于滤波接收信号的预选器和一个将接收信号从参考频率转换为独特偏移的IF偏移的混频器。 IF处理器的带宽被划分为与不同偏移量相对应的子信道,并且比子信道的组合更宽。 干扰检测器和相关器确定特定期望信号是否被干扰信号降级并选择新的子信道。 该信息被提供给偏移控制器,该偏移控制器相应地调节耦合到相应的下混频器的LO源。
    • 8. 发明授权
    • Method and device for generating a location signal
    • 用于产生位置信号的方法和装置
    • US08169369B2
    • 2012-05-01
    • US12335156
    • 2008-12-15
    • Armando J. GonzalezCharles R. RuelkeCharles B. Swope
    • Armando J. GonzalezCharles R. RuelkeCharles B. Swope
    • G01S1/08G01S3/02
    • G01S11/02
    • A frequency generation unit (FGU) in a communication device includes a voltage controlled oscillator (VCO), an adjustable filter having a capacitive element for wideband operation, a current source with variable gain, and chirp generation control circuitry (CGC) that is used to generate location signals. The FGU receives, from a reference device, at least one location signal control parameter that defines linear frequency slope characteristics for a location signal. The CGC configures, based on the at least one location signal control parameter, the gain and a polarity of the current source to generate a first current during a first time period for charging the capacitive element to generate a control signal that is coupled to the VCO to generate a first part of the location signal having the defined linear frequency slope characteristics, wherein the first part of the location signal is transmitted using a transceiver of the communication device.
    • 通信装置中的频率产生单元(FGU)包括压控振荡器(VCO),具有用于宽带操作的电容元件的可调整滤波器,具有可变增益的电流源和用于发送控制的线性调频电路(CGC) 生成位置信号。 FGU从参考设备接收至少一个位置信号控制参数,其定义位置信号的线性频率斜率特性。 所述CGC基于所述至少一个位置信号控制参数,配置所述电流源的增益和极性,以在第一时间段期间产生第一电流,以对所述电容元件充电以产生耦合到所述VCO的控制信号 以产生具有所定义的线性频率斜率特性的位置信号的第一部分,其中使用通信设备的收发器发送位置信号的第一部分。
    • 10. 发明授权
    • Radio receiver having a multi-state variable threshold automatic gain control (AGC) for fast channel scanning acquisition and mehtod for using same
    • 具有用于快速信道扫描采集的多状态可变阈值自动增益控制(AGC)的无线电接收机及其使用方法
    • US07689217B2
    • 2010-03-30
    • US11694697
    • 2007-03-30
    • Charles R. RuelkeWilliam J. Rinderknecht
    • Charles R. RuelkeWilliam J. Rinderknecht
    • H04Q7/20
    • H03G3/3068
    • A radio receiver (300) having a multi-state variable threshold automatic gain control (AGC) for fast channel scanning acquisition includes an amplifier (303) having an automatic gain control (AGC) for controlling the gain of a receiver analog signal. An analog-to-digital converter (ADC) (311) is used for converting the receiving analog signal to a digital signal while a digital signal processor (DSP) (325) operates to process the digital signal. A signal magnitude estimator (315) in an AGC controller (313) provides a signal strength estimate of the received signal. The AGC controller (313) then sets the receiver amplifier (303) for an open-loop AGC operational mode and sets a first threshold for triggering an interrupt service request (ISR). This ISR is provided the DSP (325) and the host processor (327) if a radio frequency (RF) signal is detected above a first threshold during a priority scan of a priority channel to minimize interruptions in audio during priority scan.
    • 具有用于快速信道扫描获取的多状态可变阈值自动增益控制(AGC)的无线电接收机(300)包括具有用于控制接收机模拟信号的增益的自动增益控制(AGC)的放大器(303)。 当数字信号处理器(DSP)(325)操作以处理数字信号时,模数转换器(ADC)(311)用于将接收模拟信号转换为数字信号。 AGC控制器(313)中的信号幅度估计器(315)提供接收信号的信号强度估计。 然后,AGC控制器(313)将接收机放大器(303)设置为开环AGC操作模式,并设置触发中断服务请求(ISR)的第一阈值。 如果在优先级信道的优先扫描期间检测到高于第一阈值的射频(RF)信号,则在最优化扫描期间最小化音频中断,则该ISR被提供给DSP(325)和主机处理器(327)。