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    • 1. 发明申请
    • Microwave generator
    • 微波发生器
    • US20070085618A1
    • 2007-04-19
    • US11581824
    • 2006-10-17
    • Andreas GanghoferJurgen UrbanGeoffrey Staines
    • Andreas GanghoferJurgen UrbanGeoffrey Staines
    • H03B5/08
    • H03B11/02F41H13/0068H01Q3/267H01Q3/2676H01Q3/2682H01T9/00
    • In order to make it possible to direct sufficient microwave energy at a target with an electronic device which is to be interfered with or to be destroyed, the beams (7) from at least two antenna arrays (10) are focused on an effective area (8) in the vicinity of that target, preferably from a vehicle (3) which is equipped with these arrays (10). For effective super-imposition of the emitted microwave energy (7) in the emission direction of in each case one of the arrays (10), the use of an arc for discharging the capacitance (43) of the resonator via its spark gap (13) is observed, and is recorded quasi-continuously optoelectronically. The electrode separation of the spark gap (13) or the fluid pressure of the dielectric in the vicinity of the spark gap (13) is then varied by control elements such that all of the spark gaps (13) in an array (10) ignite virtually at the same time, so that their discharge current pulses which lead to the emission of the microwave energy (7) start virtually in phase.
    • 为了使得能够利用要被干扰或被破坏的电子设备在目标处引导足够的微波能量,来自至少两个天线阵列(10)的波束(7)被聚焦在有效区域 8)在该目标附近,优选地从装备有这些阵列(10)的车辆(3)。 为了在每种情况下阵列(10)中的每个阵列(10)的发射方向上有效超级发射微波能量(7),使用用于经由其火花隙(13)对谐振器的电容(43)进行放电的电弧 ),并被准备连续光电子地记录。 火花隙(13)的电极分离或火花隙(13)附近的电介质的流体压力然后由控制元件变化,使得阵列(10)中的所有火花隙(13)点燃 实际上同时,使得其导致微波能量(7)的发射的放电电流脉冲实质上同步启动。
    • 2. 发明授权
    • Microwave generator
    • 微波发生器
    • US07868273B2
    • 2011-01-11
    • US11581824
    • 2006-10-17
    • Andreas GanghoferJürgen UrbanGeoffrey Staines
    • Andreas GanghoferJürgen UrbanGeoffrey Staines
    • H05B6/64H02H1/00H02M3/06
    • H03B11/02F41H13/0068H01Q3/267H01Q3/2676H01Q3/2682H01T9/00
    • In order to make it possible to direct sufficient microwave energy at a target with an electronic device which is to be interfered with or to be destroyed, the beams (7) from at least two antenna arrays (10) are focused on an effective area (8) in the vicinity of that target, preferably from a vehicle (3) which is equipped with these arrays (10). For effective super-imposition of the emitted microwave energy (7) in the emission direction of in each case one of the arrays (10), the use of an arc for discharging the capacitance (43) of the resonator via its spark gap (13) is observed, and is recorded quasi-continuously optoelectronically. The electrode separation of the spark gap (13) or the fluid pressure of the dielectric in the vicinity of the spark gap (13) is then varied by control elements such that all of the spark gaps (13) in an array (10) ignite virtually at the same time, so that their discharge current pulses which lead to the emission of the microwave energy (7) start virtually in phase.
    • 为了使得能够利用要被干扰或被破坏的电子设备在目标处引导足够的微波能量,来自至少两个天线阵列(10)的波束(7)被聚焦在有效区域 8)在该目标附近,优选地从装备有这些阵列(10)的车辆(3)。 为了在每种情况下阵列(10)中的每个阵列(10)的发射方向上有效超级发射微波能量(7),使用用于经由其火花隙(13)对谐振器的电容(43)进行放电的电弧 ),并被准备连续光电子地记录。 火花隙(13)的电极分离或火花隙(13)附近的电介质的流体压力然后由控制元件变化,使得阵列(10)中的所有火花隙(13)点燃 实际上同时,使得其导致微波能量(7)的发射的放电电流脉冲实质上同步启动。
    • 4. 发明授权
    • Motion-restraint arrangement
    • 运动约束装置
    • US07793921B2
    • 2010-09-14
    • US11709418
    • 2007-02-22
    • Andreas GanghoferPeter KreuzerRoland Müller
    • Andreas GanghoferPeter KreuzerRoland Müller
    • E04H17/02
    • F41H11/08G08B15/007
    • A motion-restraint arrangement (48) with elongate lines of elements (10), wherein each line of elements (10) has a number of individual elements (12) which can be erected by spring elements (20) from a small-volume thin storage condition into a large-volume active condition. Each respective individual element (12) has flexible lateral edge elements (16, 18), which in the active condition define a parallelepiped. The spring elements (20) extend in spatially diagonal relationship between the corners (22) of the respective parallelepiped (14). A motion-restraint arrangement (48) which is easy and inexpensive to produce and which has optimum restraint properties is obtained in that the spatially diagonal spring elements (20) are formed by spring wires (24), which extend in a zigzag shape in the longitudinal direction of the respective line of elements (10).
    • 一种具有细长线元件(10)的运动约束装置(48),其中每条线元件(10)具有多个单独的元件(12),其可以由弹簧元件(20)从小体积薄 存储条件变成大容量的活动状态。 每个相应的单个元件(12)具有柔性侧向边缘元件(16,18),其在活动状态中限定平行六面体。 弹簧元件(20)在相应平行六面体(14)的拐角(22)之间的空间对角关系中延伸。 获得容易制造且具有最佳约束特性的运动约束装置(48),其中空间对角弹簧元件(20)由弹簧线(24)形成,弹簧线(24)在Z形 元件(10)的相应线的纵向方向。
    • 5. 发明申请
    • Motion-restraint arrangement
    • 运动约束装置
    • US20070235269A1
    • 2007-10-11
    • US11709418
    • 2007-02-22
    • Andreas GanghoferPeter KreuzerRoland Muller
    • Andreas GanghoferPeter KreuzerRoland Muller
    • F16F3/00
    • F41H11/08G08B15/007
    • A motion-restraint arrangement (48) with elongate lines of elements (10), wherein each line of elements (10) has a number of individual elements (12) which can be erected by spring elements (20) from a small-volume thin storage condition into a large-volume active condition. Each respective individual element (12) has flexible lateral edge elements (16, 18), which in the active condition define a parallelepiped. The spring elements (20) extend in spatially diagonal relationship between the corners (22) of the respective parallelepiped (14). A motion-restraint arrangement (48) which is easy and inexpensive to produce and which has optimum restraint properties is obtained in that the spatially diagonal spring elements (20) are formed by spring wires (24), which extend in a zigzag shape in the longitudinal direction of the respective line of elements (10).
    • 一种具有细长线元件(10)的运动约束装置(48),其中每条线元件(10)具有多个单独的元件(12),其可以由弹簧元件(20)从小体积薄 存储条件变成大容量的活动状态。 每个相应的单个元件(12)具有柔性侧向边缘元件(16,18),其在活动状态中限定平行六面体。 弹簧元件(20)在相应平行六面体(14)的拐角(22)之间的空间对角关系中延伸。 获得容易制造且具有最佳约束特性的运动约束装置(48),其中空间对角弹簧元件(20)由弹簧线(24)形成,弹簧线(24)在Z形 元件(10)的相应线的纵向方向。