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    FAST TURN ON SYSTEM FOR A SYNTHESIZED SOURCE SIGNAL
    1.
    发明申请
    FAST TURN ON SYSTEM FOR A SYNTHESIZED SOURCE SIGNAL 审中-公开
    快速开启合成信号源的系统

    公开(公告)号:WO2014150902A1

    公开(公告)日:2014-09-25

    申请号:PCT/US2014/024494

    申请日:2014-03-12

    Applicant: HITTITE MICROWAVE CORPORATION

    Inventor: CLOUTIER, Mark, M. BACHMANEK, Greg PAMIR, Tolga

    IPC: H03L7/16 H03L7/18 H03L7/181

    CPC classification number: H03L7/00 H03F1/30 H03F3/00 H03F3/195 H03F3/45475 H03F3/72 H03F2200/451 H03F2200/453 H03F2200/459 H03G3/348

    Abstract: A fast turn on compensation system for a synthesized signal source includes a synthesized signal source coupled to a power supply and configured to generate a phase stable radio frequency (RF) output signal. A mute amplifier is coupled to the synthesized signal source and the power supply. A dummy amplifier is coupled to the mute amplifier and the power supply. A mute controller is coupled to the mute amplifier and the dummy amplifier, the mute controller is responsive to an enable signal and configured to enable the dummy amplifier and disable the mute amplifier when no RF output signal is being generated and disable the dummy amplifier and enable the mute amplifier when the RF output signal is being generated such that total power supply current delivered to the synthesized signal source and the dummy amplifier or mute amplifier is approximately constant before, during, and after enabling the mute amplifier to reduce phase disturbance of the RF output signals.

    Abstract translation: 用于合成信号源的快速启动补偿系统包括耦合到电源并被配置为产生相位稳定射频(RF)输出信号的合成信号源。 静音放大器耦合到合成信号源和电源。 虚拟放大器耦合到静音放大器和电源。 静音控制器耦合到静音放大器和虚拟放大器,静音控制器响应于使能信号,并配置为使能虚拟放大器,并且在没有产生RF输出信号时禁用静音放大器,并禁用虚拟放大器并使能 静音放大器当RF输出信号被产生时,使得在使能静音放大器减少RF的相位扰动之前,期间和之后传送到合成信号源和虚拟放大器或静音放大器的总电源电流几乎恒定 输出信号。

    RF ENERGY RECOVERY SYSTEM AND RELATED TECHNIQUES
    2.
    发明申请
    RF ENERGY RECOVERY SYSTEM AND RELATED TECHNIQUES 审中-公开
    射频能量恢复系统及相关技术

    公开(公告)号:WO2014004241A2

    公开(公告)日:2014-01-03

    申请号:PCT/US2013/046747

    申请日:2013-06-20

    Applicant: ETA DEVICES, INC.

    Inventor: PERREAULT, David, J. DAWSON, Joel, L.

    IPC: H02M7/217

    CPC classification number: H02M7/217 H02M7/06 H03F1/02 H03F3/00 H03F3/195 H03F3/211 H03F3/24 H03F3/245 H03F3/602 H03F2200/06 H03F2200/09 H03F2200/192 H03F2200/204 H03F2200/462 H03H7/38 Y10T307/25

    Abstract: An energy recovery system can simulate the behavior and performance of a resistive termination, while recovering at least some of the energy that would otherwise have been dissipated within the termination. In one embodiment, the energy recovery system includes a rectification system having a plurality of tuned rectifier circuits and an RF input network to provide input power distribution to the plurality of tuned rectifier circuits and input impedance shaping to shape the collective input impedance of the plurality of tuned rectifier circuits as seen at the RF input port of the RF input network. A transmission line resistance compression network may be used to facilitate the input impedance shaping.

    Abstract translation: 能量回收系统可以模拟电阻终端的行为和性能,同时恢复否则在终端内消散的能量的至少一部分。 在一个实施例中,能量回收系统包括具有多个调谐整流器电路和RF输入网络的整流系统,以向多个调谐整流器电路提供输入功率分布,并输入阻抗整形以形成多个调谐整流器的总体输入阻抗 调谐整流电路,如RF输入网络的RF输入端口所示。 可以使用传输线路电阻压缩网络来促进输入阻抗整形。

    CLAMPING CIRCUIT FOR AUDIO SIGNALS
    3.
    发明申请
    CLAMPING CIRCUIT FOR AUDIO SIGNALS 审中-公开
    音频信号的钳位电路

    公开(公告)号:WO2017144889A1

    公开(公告)日:2017-08-31

    申请号:PCT/GB2017/050478

    申请日:2017-02-23

    Applicant: CIRRUS LOGIC INTERNATIONAL SEMICONDUCTOR LIMITED

    Inventor: KHARE, Rupesh

    IPC: H04R3/00 H03K19/0185

    CPC classification number: H04R1/1041 H03F3/00 H03F3/187 H03F2200/03 H03F2200/441 H03G3/341 H03G3/348 H03K19/018507 H04R3/00 H04R2420/01

    Abstract: This application describes methods and apparatus for selectively clamping a signal path (106) for an analogue audio signal to a clamp voltage, e.g. ground. Voltage clamping circuitry (200) is disclosed having a first switching device (201) in series with a second switching device (202) between a node of the signal path and the clamp voltage. The clamping circuitry is configured to be operable in: a first state where the first and second switching devices are both on to electrically connect the signal path to the clamp voltage; and also a second state to electrically disconnect the signal path from the clamp voltage. In the second state one of the first and second switching devices is configured to block conduction when the voltage at said node of the signal path is positive and the other switching device is configured to block conduction when the voltage at said node of the signal path is negative.

    Abstract translation: 本申请描述了用于将用于模拟音频信号的信号路径(106)选择性地钳位到例如钳位电压的钳位电压的方法和装置。 地面。 公开了电压钳位电路(200),其具有与信号路径的节点和钳位电压之间的第二开关器件(202)串联的第一开关器件(201)。 钳位电路被配置为可操作于:第一状态,其中第一和第二开关器件都导通以将信号路径电连接到钳位电压; 还有第二状态以将信号路径与钳位电压电断开。 在第二状态下,当信号路径的所述节点处的电压为正时,第一开关装置和第二开关装置中的一个被配置为阻断导通,并且另一开关装置被配置为当信号路径的所述节点处的电压是阻止导通时 负

    増幅器、それを用いた超音波探触子および診断装置
    4.
    发明申请
    増幅器、それを用いた超音波探触子および診断装置 审中-公开
    放大器,超声波探头和诊断装置

    公开(公告)号:WO2016035205A1

    公开(公告)日:2016-03-10

    申请号:PCT/JP2014/073526

    申请日:2014-09-05

    Applicant: 株式会社日立製作所

    Inventor: 梶山 新也 中村 洋平 中川 樹生 大島 俊

    IPC: A61B8/00 H03F3/00

    CPC classification number: A61B8/00 H03F3/00

    Abstract:  シングルエンド入力、差動出力構成で、低雑音かつ低信号歪、高い電源電圧変動除去比を有する増幅器を提供する。 シングルエンド入力、差動出力のゲート接地増幅器と、シングルエンド入力、差動出力のソース接地増幅器を並列接続することで、雑音キャンセルにより低雑音を実現しつつ、差動回路としての高い対称性を実現する。

    Abstract translation: 提供具有单端输入和差分输出配置的放大器,具有低噪声和低信号失真以及高电源抑制比。 具有单端输入和差分输出的栅极接地放大器与具有单端输入和差分输出的源极接地放大器并联连接,从而实现差分电路形式的高对称性,同时仍然实现 低噪声消除噪声。

    УСИЛИТЕЛЬ МОЩНОСТИ ЗВУКА
    6.
    发明申请
    УСИЛИТЕЛЬ МОЩНОСТИ ЗВУКА 审中-公开
    声功率放大器

    公开(公告)号:WO2016153387A1

    公开(公告)日:2016-09-29

    申请号:PCT/RU2016/000074

    申请日:2016-02-15

    Applicant: ШИРЯЕВ, Евгений Владимирович

    Inventor: ШИРЯЕВ, Евгений Владимирович

    IPC: H03F3/00 H03F3/217

    CPC classification number: H03F3/00 H03F3/217

    Abstract: Изобретение относится к области радиотехники и электротехники. Заявленный усилитель мощности звука включает, по меньшей мере, два каскада, каждый из которых содержит по две транзисторные пары Дарлингтона с входными и выходными транзисторами, разделяющий транзистор, динамическую головку, блок формирования напряжения смещения, двуполярный блок питания, причем каскады в точке входа исходного сигнала и выхода усиленного сигнала симметрично подключены друг к другу эмиттерами противоположных полярностей выходных транзисторов транзисторных пар Дарлингтона и в этой же точке подключены к динамической головке, другой вывод которой присоединен к общему проводу двуполярного блока питания, при этом каждый каскад снабжен отдельным блоком формирования напряжения смещения и блоком питания, причем каждый блок формирования напряжения смещения содержит стабилизатор, который через подстроечный резистор связан с соответствующей базой транзисторных пар Дарлингтона, а каждый блок питания включает фильтрующие конденсаторы.

    Abstract translation: 本发明涉及无线电工程和电气工程领域。 所要求的声功率放大器包括至少两个级,每个级包含两个具有输入和输出晶体管的达林顿晶体管对; 分离晶体管; 演讲者 偏置电压整形单元; 和双极电源单元; 其中使用达林顿晶体管对的输出晶体管的相反极性的发射极将放大信号的初始信号的入口点和输出的级对称地彼此连接,并且在同一点上连接到扬声器 ,其另一个输出端连接到双极电源单元的公共线; 此外,每个级设置有单独的偏置电压整形单元和电源单元; 其中每个偏置电压整形单元包含经由微调电阻器连接到达林顿晶体管对的相应基极的稳定器,并且每个电源单元包括滤波电容器。

    POWER SUPPLY WITH TICKLE PULSE INJECTION
    7.
    发明申请
    POWER SUPPLY WITH TICKLE PULSE INJECTION 审中-公开
    电源脉冲注射

    公开(公告)号:WO2012138720A1

    公开(公告)日:2012-10-11

    申请号:PCT/US2012/032115

    申请日:2012-04-04

    Applicant: BOSE CORPORATION DELPAPA, Kenneth B. NUSSBAUM, Michael FERENCZ, Andrew

    Inventor: DELPAPA, Kenneth B. NUSSBAUM, Michael FERENCZ, Andrew

    IPC: H03F3/20 H02M3/156 H02M3/335

    CPC classification number: H02M3/24 H02M1/44 H02M3/3387 H02M2001/0032 H03F1/0216 H03F3/00 H03F3/20 Y02B70/16

    Abstract: A power supply injects a series of "tickle" pulses into a pulse width modulated (PWM) controller to induce the controller to generate PWM pulses at a minimum switching frequency, preferably one that is super-sonic (especially for audio applications). The switching frequency may also be selected or controlled such that it avoids resonances in the power supply. The "tickle" pulses may be clocked by the same clock that times the PWM controller, and they may be shaped to help ensure that the power supply maintains some regulation during low-load conditions.

    Abstract translation: 电源将脉冲宽度调制(PWM)控制器中的一系列“痒痒”脉冲引入到控制器中,以最小的开关频率产生PWM脉冲,最好是超声波(特别是音频应用)。 还可以选择或控制开关频率,使得它避免了电源中的谐振。 “痒痒”脉冲可以与PWM控制器相同的时钟进行计时,并且它们的形状可以帮助确保电源在低负载条件下保持一些调节。

    AUDIO AMPLIFIER USING MULTI-LEVEL PULSE WIDTH MODULATION
    8.
    发明申请
    AUDIO AMPLIFIER USING MULTI-LEVEL PULSE WIDTH MODULATION 审中-公开
    使用多级脉冲宽度调制的音频放大器

    公开(公告)号:WO2012055968A1

    公开(公告)日:2012-05-03

    申请号:PCT/EP2011/068873

    申请日:2011-10-27

    Applicant: MERUS APS HØYERBY, Mikkel

    Inventor: HØYERBY, Mikkel

    IPC: H03F3/217

    CPC classification number: H03F1/0244 H02M7/487 H03F3/00 H03F3/187 H03F3/2173 H03F3/2178 H03F2200/03 H03F2200/267 H03F2200/333 H04R3/02

    Abstract: The present invention relates in one aspect to a class D audio amplifier with improved output driver topology supporting multi-level output signals such as 3- level, 4-level or 5-level pulse width or pulse density modulated output signals for application to a loudspeaker load. The present class D audio amplifiers are particularly well-suited for high-volume consumer audio applications and solutions.

    Abstract translation: 本发明在一个方面涉及具有改进的输出驱动器拓扑的D类音频放大器,其支持诸如3级,4级或5级脉冲宽度的多电平输出信号或用于应用于扬声器的脉冲密度调制输出信号 加载。 目前的D类音频放大器特别适用于大容量消费音频应用和解决方案。

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