Method for controlling array antenna equipped with single radiating element and a plurality of parasitic elements
    1.
    发明授权
    Method for controlling array antenna equipped with single radiating element and a plurality of parasitic elements 失效
    用于控制配备有单个辐射元件和多个寄生元件的阵列天线的方法

    公开(公告)号:US06677898B2

    公开(公告)日:2004-01-13

    申请号:US10230351

    申请日:2002-08-29

    IPC分类号: H01Q322

    CPC分类号: H01Q19/32 H01Q3/24

    摘要: An adaptive controller for an ESPAR antenna randomly perturbs a bias voltage vector V(n) composed of elements of bias voltage values Vm by a random vector R(n) generated by a random number generator, compares an objective function value J(n) of a cross correlation coefficient for a bias voltage vector V(n) before the perturbation with an objective function value J(n+1) of a cross correlation coefficient for a bias voltage vector V(n+1) after the perturbation, and selects and sets the bias voltage Vm corresponding to that when the cross correlation coefficient increases before and after the perturbation. Then the adaptive controller repeats the random perturbation and setting from the bias voltage of respective varactor diodes. This leads to that it is not necessary to provide a long training sequence signal, and the control process can be executed with learning so that a performance can be improved every iteration for search.

    摘要翻译: 用于ESPAR天线的自适应控制器随机扰乱由随机数发生器产生的随机向量R(n)由偏置电压值Vm的元素组成的偏置电压矢量V(n),比较目标函数值J(n) 在扰动之前的偏置电压矢量V(n)与偏移电压矢量V(n + 1)的互相关系数的目标函数值J(n + 1)之后的偏置电压矢量V(n)的互相关系数,并且选择和 设置与互扰相关系数增加前后的偏置电压Vm。 然后,自适应控制器从相应的变容二极管的偏置电压重复随机扰动和设置。 这导致不需要提供长的训练序列信号,并且可以通过学习来执行控制过程,使得可以在每次迭代搜索时提高性能。

    Power transmission system and power supply device for vehicles
    2.
    发明授权
    Power transmission system and power supply device for vehicles 有权
    车辆动力传动系统和供电装置

    公开(公告)号:US09421877B2

    公开(公告)日:2016-08-23

    申请号:US13521154

    申请日:2011-01-10

    IPC分类号: H02J17/00 B60L11/18 H02J5/00

    摘要: A power transmission system has an AC power source and a high-frequency power driver that make up a high-frequency power source, and a primary self-resonant coil and a secondary self-resonant coil. The secondary self-resonant coil is magnetically coupled, by magnetic field resonance, to the primary self-resonant coil, and receives as a result high-frequency power from the primary self-resonant coil. The coils of the primary self-resonant coil and the secondary self-resonant coil resonate in an even mode when high-frequency power is transmitted from the primary self-resonant coil to the secondary self-resonant coil. Specifically, the primary self-resonant coil and the secondary self-resonant coil resonate in a state where currents in mutually opposite directions flow in the two coils.

    摘要翻译: 电力传输系统具有组成高频电源的交流电源和高频功率驱动器,以及初级自谐振线圈和次级自谐振线圈。 次级自谐振线圈通过磁场谐振磁耦合到初级自谐振线圈,从而接收来自初级自谐振线圈的高频功率。 当高频功率从初级自谐振线圈传递到次级自谐振线圈时,初级自谐振线圈和次级自谐振线圈的线圈以偶模谐振。 具体地,初级自谐振线圈和次级自谐振线圈在相互相反的电流在两个线圈中流动的状态下谐振。

    POWER TRANSMISSION SYSTEM AND POWER SUPPLY DEVICE FOR VEHICLES
    9.
    发明申请
    POWER TRANSMISSION SYSTEM AND POWER SUPPLY DEVICE FOR VEHICLES 有权
    电力传输系统和车辆电源设备

    公开(公告)号:US20120326499A1

    公开(公告)日:2012-12-27

    申请号:US13521154

    申请日:2011-01-10

    IPC分类号: H02J17/00 B60L1/00

    摘要: A power transmission system has an AC power source and a high-frequency power driver that make up a high-frequency power source, and a primary self-resonant coil and a secondary self-resonant coil. The secondary self-resonant coil is magnetically coupled, by magnetic field resonance, to the primary self-resonant coil, and receives as a result high-frequency power from the primary self-resonant coil. The coils of the primary self-resonant coil and the secondary self-resonant coil resonate in an even mode when high-frequency power is transmitted from the primary self-resonant coil to the secondary self-resonant coil. Specifically, the primary self-resonant coil and the secondary self-resonant coil resonate in a state where currents in mutually opposite directions flow in the two coils.

    摘要翻译: 电力传输系统具有组成高频电源的交流电源和高频功率驱动器,以及初级自谐振线圈和次级自谐振线圈。 次级自谐振线圈通过磁场谐振磁耦合到初级自谐振线圈,从而接收来自初级自谐振线圈的高频功率。 当高频功率从初级自谐振线圈传递到次级自谐振线圈时,初级自谐振线圈和次级自谐振线圈的线圈以偶模谐振。 具体地,初级自谐振线圈和次级自谐振线圈在相互相反的电流在两个线圈中流动的状态下谐振。