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    • 2. 发明申请
    • Neutralization Techniques for differential low noise amplifiers
    • 差分低噪声放大器的中和技术
    • US20060284670A1
    • 2006-12-21
    • US11157246
    • 2005-06-21
    • Salem EidGregory Blum
    • Salem EidGregory Blum
    • H03K5/22
    • H03F1/26H03F1/14H03F3/191H03F3/45183H03F2200/294H03F2200/372H03F2203/45332H03F2203/45366H03F2203/45464H03F2203/45544H03F2203/45608H03F2203/45622H03F2203/45638
    • An differential LNA has first and second input MOS transistors, with differential inputs applied to their respective control gates and differential outputs taken at their respective drains. The gate-to-drain, Cgd, feedback capacitances of the first and second input MOS transistors are neutralized by respective gate-to-source, Cgs, capacitances in the two neutralizing MOS transistors. A first neutralizing MOS transistor has its control gate coupled to the control gate of the first input MOS transistor, its source node coupled to the drain node of the second input MOS transistor, and its drain node coupled to a fixed potential. A second neutralizing MOS transistor has its control gate coupled to the control gate of the second input MOS transistor, its source node coupled to the drain node of the first input MOS transistor, and its drain node coupled to the same fixed potential. In this manner, similar and opposite potential differences between the gate-and-drain and the drain-and-source regions of the first input MOS transistor are reproduced in gate-and-drain and drain-and-source regions of the first neutralizing MOS transistor. A similar affect is produced in the second input and second neutralizing MOS transistor.
    • 差分LNA具有第一和第二输入MOS晶体管,其差分输入施加到其各自的控制栅极,并在其各自的漏极处获取差分输出。 第二和第二输入MOS晶体管的栅极至漏极Cgd反馈电容由两个中和MOS晶体管中的相应的栅极至源极,Cgs,电容中和。 第一中和MOS晶体管的控制栅极耦合到第一输入MOS晶体管的控制栅极,其源极节点耦合到第二输入MOS晶体管的漏极节点,其漏极节点耦合到固定电位。 第二中和MOS晶体管的控制栅极耦合到第二输入MOS晶体管的控制栅极,其源极节点耦合到第一输入MOS晶体管的漏极节点,并且其漏极节点耦合到相同的固定电位。 以这种方式,在第一中和MOS的栅极和漏极和漏极 - 源极区域中再现第一输入MOS晶体管的栅极 - 漏极和漏极 - 源极区域之间的相似和相反的电位差 晶体管。 在第二输入和第二中和MOS晶体管中产生类似的影响。
    • 4. 发明申请
    • Method and apparatus for maintaining a clock/data recovery circuit frequency during transmitter low power mode
    • 用于在发射机低功率模式下维持时钟/数据恢复电路频率的方法和装置
    • US20060198482A1
    • 2006-09-07
    • US11069379
    • 2005-03-01
    • David MeltzerGregory Blum
    • David MeltzerGregory Blum
    • H03D3/24
    • H03L7/087H04L7/0083H04L7/033
    • A method, algorithm, software, architecture, circuit, and/or system for detecting an idle condition and maintaining a frequency of a clock/data recovery circuit are disclosed. In one embodiment, a method of maintaining a frequency of a clock/data recovery circuit can include the steps of: (i) comparing a difference value from a differential signal with a predetermined threshold (or value); (ii) controlling a variable frequency oscillator (VFO) with a frequency detector when the difference value is less than the threshold for at least a predetermined integration time; and (iii) controlling the VFO with a phase detector receiving the differential signal when the difference value is greater than the threshold. Embodiments of the present invention can advantageously provide a reliable and simplified design approach for clock data recovery (CDR) circuits operable with low power mode transmitters.
    • 公开了一种用于检测空闲状态并保持时钟/数据恢复电路的频率的方法,算法,软件,架构,电路和/或系统。 在一个实施例中,维持时钟/数据恢复电路的频率的方法可以包括以下步骤:(i)将差分值与差分信号与预定阈值(或值)进行比较; (ii)当所述差值小于所述阈值至少预定的积分时间时,用频率检测器控制可变频率振荡器(VFO); 以及(iii)当差值大于阈值时,用相位检测器控制VFO接收差分信号。 本发明的实施例可有利地为低功率模式发射机可操作的时钟数据恢复(CDR)电路提供可靠和简化的设计方法。
    • 5. 发明授权
    • Envelope detector for AM radio
    • AM收音机的信封探测器
    • US07792514B2
    • 2010-09-07
    • US11760227
    • 2007-06-08
    • David MeltzerGregory Blum
    • David MeltzerGregory Blum
    • H04B1/16
    • H03D1/18H04B1/123
    • A receiver for receiving an amplitude modulated (AM) signal may include a first and a second detector for detecting the maximum and minimum envelope values, respectively, of the received AM signal and an equalizer for periodically equalizing the maximum and minimum envelope values. A method for receiving an AM signal may include unidirectionally increasing a first output signal up to the maximum envelope value, unidirectionally decreasing a second output signal down to the minimum envelope value, and periodically equalizing the first and the second output signals.
    • 用于接收幅度调制(AM)信号的接收机可以包括第一和第二检测器,用于分别检测所接收的AM信号的最大和最小包络值,以及用于周期性均衡最大和最小包络值的均衡器。 用于接收AM信号的方法可以包括将第一输出信号单向增加直到最大包络值,将第二输出信号单向地减小到最小包络值,并周期性均衡第一和第二输出信号。
    • 6. 发明授权
    • Circuits, systems, and methods for a voltage controlled oscillator with coarse, fine, and center tuning
    • 具有粗调,精细和中心调谐的压控振荡器的电路,系统和方法
    • US07602258B2
    • 2009-10-13
    • US11831700
    • 2007-07-31
    • George JordyGregory Blum
    • George JordyGregory Blum
    • H03K3/287H03K3/288
    • H03L7/10H03L1/02H03L7/099
    • Circuits, systems, and methods for generating a variable oscillator output. The circuits generally comprise a capacitor configured to receive first and second currents of a first polarity (e.g., charging currents) and a third current of a second polarity opposite to the first polarity (e.g., a discharge current). The circuit further comprises a first circuit configured to receive a bias input, a second circuit configured to receive a coarse control input, and a third circuit configured to receive a fine control input. The first circuit is further configured to provide the first current in response to the bias input. The second circuit is further configured to provide the second current in response to the coarse control input, such that the second current generally has a magnitude of from zero to a multiple of the magnitude of the first current. The third circuit is further configured to provide the third current when the capacitor has a voltage that passes a threshold voltage determined by the fine control input. The present invention advantageously provides for producing a variable oscillator output over a broad range with the coarse control input, while also having low gain with the fine control input. The present invention is also advantageously suitable for standard integrated circuit manufacturing processes because the bias input can be adjusted to compensate for process variations.
    • 用于产生可变振荡器输出的电路,系统和方法。 电路通常包括被配置为接收第一极性(例如,充电电流)的第一和第二电流以及与第一极性(例如,放电电流)相反的第二极性的第三电流的电容器。 电路还包括被配置为接收偏置输入的第一电路,被配置为接收粗略控制输入的第二电路和被配置为接收精细控制输入的第三电路。 第一电路还被配置为响应于偏置输入而提供第一电流。 第二电路还被配置为响应于粗略控制输入提供第二电流,使得第二电流通常具有从零到第一电流的幅度的倍数的量值。 第三电路还被配置为当电容器具有通过由精细控制输入确定的阈值电压的电压时提供第三电流。 本发明有利地提供了通过粗略控制输入在宽范围内产生可变振荡器输出,同时在精细控制输入下也具有低增益。 本发明还有利于标准集成电路制造工艺,因为可以调节偏置输入以补偿工艺变化。
    • 7. 发明申请
    • Radio Receiver Including a Delay-Locked Loop (DLL) for Phase Adjustment
    • 包括用于相位调整的延迟锁定环(DLL)的无线电接收器
    • US20080292022A1
    • 2008-11-27
    • US11751481
    • 2007-05-21
    • Gregory Blum
    • Gregory Blum
    • H04L25/06
    • H04L27/0014H03L7/07H03L7/0812H04L27/38H04L2027/003H04L2027/0036H04L2027/0053H04L2027/0057H04L2027/0069
    • A method, algorithm, architecture, circuits, and/or systems for using a delay-locked loop (DLL) for phase adjustment in a direct conversion radio receiver are disclosed. In one embodiment, a receiver circuit can include: (i) a voltage-controlled oscillator (VCO) for providing a reference clock; (ii) a delay element that can receive the reference clock and provide a delay adjustment signal; (iii) a first channel for receiving a radio signal and providing a recovered radio signal from the radio signal and the delay adjustment signal, where the first channel includes a first mixer and a first filter; and (iv) a second channel for receiving the radio signal and a phase adjustment signal derived from the delay adjustment signal and for providing a delay control signal to the delay element from the radio signal and the phase adjustment signal, where the second channel includes a second mixer and a second filter.
    • 公开了一种用于在直接转换无线电接收机中使用用于相位调整的延迟锁定环(DLL)的方法,算法,架构,电路和/或系统。 在一个实施例中,接收机电路可以包括:(i)用于提供参考时钟的压控振荡器(VCO); (ii)可以接收参考时钟并提供延迟调整信号的延迟元件; (iii)用于接收无线电信号并从无线电信号和延迟调整信号提供恢复的无线电信号的第一信道,其中第一信道包括第一混频器和第一滤波器; 以及(iv)用于接收所述无线电信号的第二信道和从所述延迟调整信号导出的相位调整信号,并且用于从所述无线电信号和所述相位调整信号向所述延迟元件提供延迟控制信号,其中所述第二信道包括 第二混合器和第二过滤器。
    • 9. 发明授权
    • Radio receiver including a delay-locked loop (DLL) for phase adjustment
    • 无线电接收机包括用于相位调整的延迟锁定环(DLL)
    • US07817750B2
    • 2010-10-19
    • US11751481
    • 2007-05-21
    • Gregory Blum
    • Gregory Blum
    • H03D3/18
    • H04L27/0014H03L7/07H03L7/0812H04L27/38H04L2027/003H04L2027/0036H04L2027/0053H04L2027/0057H04L2027/0069
    • A method, algorithm, architecture, circuits, and/or systems for using a delay-locked loop (DLL) for phase adjustment in a direct conversion radio receiver are disclosed. In one embodiment, a receiver circuit can include: (i) a voltage-controlled oscillator (VCO) for providing a reference clock; (ii) a delay element that can receive the reference clock and provide a delay adjustment signal; (iii) a first channel for receiving a radio signal and providing a recovered radio signal from the radio signal and the delay adjustment signal, where the first channel includes a first mixer and a first filter; and (iv) a second channel for receiving the radio signal and a phase adjustment signal derived from the delay adjustment signal and for providing a delay control signal to the delay element from the radio signal and the phase adjustment signal, where the second channel includes a second mixer and a second filter.
    • 公开了一种用于在直接转换无线电接收机中使用用于相位调整的延迟锁定环(DLL)的方法,算法,架构,电路和/或系统。 在一个实施例中,接收机电路可以包括:(i)用于提供参考时钟的压控振荡器(VCO); (ii)可以接收参考时钟并提供延迟调整信号的延迟元件; (iii)用于接收无线电信号并从无线电信号和延迟调整信号提供恢复的无线电信号的第一信道,其中第一信道包括第一混频器和第一滤波器; 以及(iv)用于接收无线电信号的第二信道和从所述延迟调整信号导出的相位调整信号,并且用于从所述无线电信号和所述相位调整信号向所述延迟元件提供延迟控制信号,其中所述第二信道包括 第二混合器和第二过滤器。