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    • 1. 发明授权
    • Dielectric leaky wave antenna having mono-layer structure
    • 具有单层结构的介质泄漏波天线
    • US06597323B2
    • 2003-07-22
    • US10009396
    • 2001-10-22
    • Tasuku TeshirogiYuki KawaharaTakashi HidaiAya Yamamoto
    • Tasuku TeshirogiYuki KawaharaTakashi HidaiAya Yamamoto
    • H01Q1300
    • H01Q13/20H01Q3/24H01Q13/26H01Q13/28H01Q21/064H01Q21/068H01Q25/00
    • The present invention provides a dielectric leaky-wave antenna having a single-layer structure which is effective for realizing a highly efficient low-cost antenna in a quasi-millimeter wave zone in particular. This dielectric leaky-wave antenna includes a ground plane, a dielectric slab which is laid on one surface of the ground plane and forms a transmission guide for transmitting an electromagnetic wave from one end side to the other end side between itself and the ground plane along the surface, perturbations which are loaded on the surface of the dielectric slab along the electromagnetic wave transmission direction of the transmission guide at predetermined intervals and leak the electromagnetic wave from the surface of the dielectric slab, and a feed which supplies the electromagnetic wave to one end side of the transmission guide.
    • 本发明提供一种具有单层结构的电介质泄漏波天线,其对于在准毫米波段中实现高效低成本天线是有效的。 该电介质泄漏波天线包括接地平面,介质板,其放置在接地平面的一个表面上,并形成一个传输引导件,用于将电磁波从一端到另一端侧自身与接地面之间传输 沿着传输导向装置的电磁波传播方向以规定的间隔装载在介质板的表面上的表面扰动,并从电介质板的表面泄漏电磁波,以及将电磁波提供给一个 传动导向件的端面。
    • 3. 发明授权
    • Radiation power measuring method and radiation power measuring apparatus
    • 辐射功率测量方法和辐射功率测量仪
    • US08643553B2
    • 2014-02-04
    • US13213384
    • 2011-08-19
    • Tasuku TeshirogiShigenori MattoriTakashi KawamuraAya Yamamoto
    • Tasuku TeshirogiShigenori MattoriTakashi KawamuraAya Yamamoto
    • G01R29/10
    • G01R29/10
    • Provided is a technique capable of accurately calculating the radiation power of an object to be measured using a spheroidal coupler even when there is a non-negligible loss in a measurement system.A phase rotating unit including a variable phase shifter, a two-branch circuit, and a reflective element that is connected to one of the branched outputs of the two-branch circuit is inserted between a receiving antenna and a power measuring device. The maximum value and the minimum value of power measured by a power measuring device when the variable phase shifter changes a phase are calculated. An output reflection coefficient of a coupler is calculated from the ratio of the maximum value to the minimum value, and an input reflection coefficient of an object to be measured which is approximate to the output reflection coefficient is estimated. In addition, an input reflection coefficient of a reference antenna which is used instead of the object to be measured is estimated in the same way. The total radiated power of the object to be measured is calculated on the basis of the estimated input reflection coefficients and the reception power when the power measuring device directly measures the output of the receiving antenna.
    • 提供了一种即使在测量系统中存在不可忽视的损耗的情况下,也能够使用球状耦合器精确地计算待测物体的辐射功率的技术。 包括可变移相器,双分支电路和连接到双分支电路的一个分支输出的反射元件的相位旋转单元插入在接收天线和功率测量装置之间。 计算当可变移相器改变相位时由功率测量装置测量的功率的最大值和最小值。 从最大值与最小值的比值计算耦合器的输出反射系数,并且估计近似于输出反射系数的被测量对象的输入反射系数。 此外,以相同的方式估计用于代替被测量物体的参考天线的输入反射系数。 基于估计的输入反射系数和功率测量装置直接测量接收天线的输出的接收功率,计算被测量物体的总辐射功率。
    • 4. 发明申请
    • RADIATION POWER MEASURING METHOD AND RADIATION POWER MEASURING APPARATUS
    • 辐射功率测量方法和辐射功率测量装置
    • US20120050118A1
    • 2012-03-01
    • US13213384
    • 2011-08-19
    • Tasuku TeshirogiShigenori MattoriTakashi KawamuraAya Yamamoto
    • Tasuku TeshirogiShigenori MattoriTakashi KawamuraAya Yamamoto
    • G01R29/08
    • G01R29/10
    • Provided is a technique capable of accurately calculating the radiation power of an object to be measured using a spheroidal coupler even when there is a non-negligible loss in a measurement system.A phase rotating unit including a variable phase shifter, a two-branch circuit, and a reflective element that is connected to one of the branched outputs of the two-branch circuit is inserted between a receiving antenna and a power measuring device. The maximum value and the minimum value of power measured by a power measuring device when the variable phase shifter changes a phase are calculated. An output reflection coefficient of a coupler is calculated from the ratio of the maximum value to the minimum value, and an input reflection coefficient of an object to be measured which is approximate to the output reflection coefficient is estimated. In addition, an input reflection coefficient of a reference antenna which is used instead of the object to be measured is estimated in the same way. The total radiated power of the object to be measured is calculated on the basis of the estimated input reflection coefficients and the reception power when the power measuring device directly measures the output of the receiving antenna.
    • 提供了一种即使在测量系统中存在不可忽视的损耗的情况下,也能够使用球状耦合器精确地计算待测物体的辐射功率的技术。 包括可变移相器,双分支电路和连接到双分支电路的一个分支输出的反射元件的相位旋转单元插入在接收天线和功率测量装置之间。 计算当可变移相器改变相位时由功率测量装置测量的功率的最大值和最小值。 从最大值与最小值的比值计算耦合器的输出反射系数,并且估计近似于输出反射系数的被测量对象的输入反射系数。 此外,以相同的方式估计用于代替被测量物体的参考天线的输入反射系数。 基于估计的输入反射系数和功率测量装置直接测量接收天线的输出的接收功率,计算被测量物体的总辐射功率。
    • 5. 发明授权
    • Planar antenna and method for manufacturing the same
    • 平面天线及其制造方法
    • US06317095B1
    • 2001-11-13
    • US09554470
    • 2000-05-11
    • Tasuku TeshirogiAya Yamamoto
    • Tasuku TeshirogiAya Yamamoto
    • H01Q1300
    • H01Q21/0037H01Q3/24H01Q3/26H01Q13/10H01Q13/28H01Q19/08H01Q21/0043H01Q21/0087H01Q21/061H01Q25/00H01Q25/04
    • The present invention provides a planar antenna which has a decreased transmission loss, improved aperture efficiency, increased productivity, and reduced cost when it is used in a high-frequency band such as submillimeter and millimeter wave bands, and which allows multibeam scanning and electronic-beam scanning with a thin, simple structure. According to one aspect of the present invention, the planar antenna includes a planar ground conductor, a plurality of radiating dielectrics arranged in parallel and at established intervals on a surface of the ground conductor, and a plurality of perturbations for radiating an electromagnetic wave. The perturbations each have a given width and are arranged at established intervals on a top surface of each of the plurality of radiating dielectrics along a longitudinal direction thereof, and a feeding section is provided alongside one end of each of the plurality of radiating dielectrics for feeding an electromagnetic wave to respective lines formed by each of the radiating dielectrics and the ground conductor.
    • 本发明提供了一种平面天线,其具有降低的传输损耗,提高的孔径效率,提高的生产率,并且当在诸如亚毫米波和毫米波段的高频带中使用时降低成本,并且其允许多波束扫描和电子 - 光束扫描具有薄而简单的结构。 根据本发明的一个方面,平面天线包括平面接地导体,在接地导体的表面上以规定的间隔平行布置的多个辐射电介质和用于辐射电磁波的多个扰动。 扰动每个具有给定的宽度并且沿着其纵向方向以确定的间隔布置在多个辐射电介质的每一个的顶表面上,并且馈送部分沿着多个辐射电介质的每一个的一端设置用于馈送 由各辐射电介质和接地导体形成的各线的电磁波。
    • 6. 发明授权
    • Vehicular seat
    • 车座
    • US09376040B2
    • 2016-06-28
    • US14360466
    • 2011-12-20
    • Osamu FukawataseAya Yamamoto
    • Osamu FukawataseAya Yamamoto
    • B60N2/427B60N2/42B60N2/56B60R21/207
    • B60N2/42718B60N2/4221B60N2/5657B60R21/207
    • To obtain a vehicular seat with which the expansion and deployment of expanding portions can be completed in a short amount of time. A vehicular seat has: a seat cushion; a first expanding portion that is provided in the seat cushion on one side thereof with respect to a seat width direction center and which, upon receiving a supply of gas, is expanded and deployed; a second expanding portion that is provided in the seat cushion on the other side thereof with respect to the seat width direction center and which, upon receiving a supply of gas, is expanded and deployed in such a way as to oppose the first expanding portion across a central space portion in the seat width direction; and gas supplying device which, when actuated at the time of a frontal impact of the vehicle, supplies gas to the first expanding portion and second expanding portion.
    • 为了获得可以在短时间内完成膨胀部分的膨胀和展开的车辆座椅。 车座具有:座垫; 第一膨胀部,其相对于座宽方向中心设置在所述座垫的一侧,并且在接收到气体供给时被扩张展开; 第二膨胀部分,其相对于座椅宽度方向中心设置在座垫的另一侧上,并且在接收到气体供应时,以与第一扩张部分相对的方式扩展和展开 座椅宽度方向上的中心空间部分; 以及气体供给装置,其在车辆的正面碰撞时被致动时,向第一膨胀部和第二膨胀部供给气体。
    • 8. 发明授权
    • Container holder
    • 集装箱架
    • US07896303B2
    • 2011-03-01
    • US11878659
    • 2007-07-26
    • Aya YamamotoYasuhiro Sakakibara
    • Aya YamamotoYasuhiro Sakakibara
    • A47K1/08
    • B60N3/102B60N3/106Y10S224/926
    • A container holder includes a holder body, a supporting member, an actuator, and a switch. The supporting member is disposed movably to the holder body. The holder body demarcates an accommodation space for accommodating or holding a container therein partially. The actuator includes a first actuating unit, being made of a ferromagnet, and a second actuating unit, being made of an electromagnet. Moreover, one of the actuator's first actuating unit and second actuating unit is fixed to the holder body, and the other one of the actuator's first actuating unit and second actuating unit is fixed to the supporting member. The switch turns on and off the actuator's second actuating unit to have the electromagnet produce and lose an electromagnetic force. The resulting electromagnetic force moves the supporting member to come in and/or come out of the holder body's accommodation space.
    • 容器保持器包括保持器主体,支撑构件,致动器和开关。 支撑构件可移动地设置到保持器主体。 保持器体部分地分隔用于容纳或容纳容器的容纳空间。 致动器包括由铁磁体制成的第一致动单元和由电磁体制成的第二致动单元。 此外,致动器的第一致动单元和第二致动单元中的一个固定到保持器主体,并且致动器的第一致动单元和第二致动单元中的另一个固定到支撑构件。 开关打开和关闭执行器的第二个执行单元,使电磁铁产生并失去电磁力。 所产生的电磁力使支撑构件移动进入和/或从保持器本体的容纳空间中出来。
    • 9. 发明申请
    • Container holder
    • 集装箱架
    • US20080054006A1
    • 2008-03-06
    • US11878659
    • 2007-07-26
    • Aya YamamotoYasuhiro Sakakibara
    • Aya YamamotoYasuhiro Sakakibara
    • B65D25/00
    • B60N3/102B60N3/106Y10S224/926
    • A container holder includes a holder body, a supporting member, an actuator, and a switch. The supporting member is disposed movably to the holder body. The holder body demarcates an accommodation space for accommodating or holding a container therein partially. The actuator includes a first actuating unit, being made of a ferromagnet, and a second actuating unit, being made of an electromagnet. Moreover, one of the actuator's first actuating unit and second actuating unit is fixed to the holder body, and the other one of the actuator's first actuating unit and second actuating unit is fixed to the supporting member. The switch turns on and off the actuator's second actuating unit to have the electromagnet produce and lose an electromagnetic force. The resulting electromagnetic force moves the supporting member to come in and/or come out of the holder body's accommodation space.
    • 容器保持器包括保持器主体,支撑构件,致动器和开关。 支撑构件可移动地设置到保持器主体。 保持器体部分地分隔用于容纳或容纳容器的容纳空间。 致动器包括由铁磁体制成的第一致动单元和由电磁体制成的第二致动单元。 此外,致动器的第一致动单元和第二致动单元中的一个固定到保持器主体,并且致动器的第一致动单元和第二致动单元中的另一个固定到支撑构件。 开关打开和关闭执行器的第二个执行单元,使电磁铁产生并失去电磁力。 所产生的电磁力使支撑构件移动进入和/或从保持器本体的容纳空间中出来。