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    • 1. 发明授权
    • Non-radiative hybrid dielectric line transition and apparatus incorporating the same
    • 非辐射混合介质线路转换及其结合的装置
    • US06445355B2
    • 2002-09-03
    • US09751562
    • 2000-12-28
    • Nobumasa KitamoriIkuo Takakuwa
    • Nobumasa KitamoriIkuo Takakuwa
    • H01Q1310
    • H01P5/087
    • A non-radiative hybrid dielectric line transition permits a line transformation between two different types of non-radiative dielectric lines to be performed in a limited space. In addition, a non-radiative dielectric line component, an antenna apparatus, and a wireless apparatus include the above line transition. In this structure, a dielectric strip is disposed between a lower conductive plate and an upper conductive plate to form each of a hyper NRD waveguide (HNRD) and a normal NRD waveguide (NNRD). Between the two waveguides, grooves whose depths gradually become shallow from the HNRD to the NNRD are formed for receiving a third non-radiative dielectric line for performing a line transformation.
    • 非辐射混合介质线路转换允许在有限空间中执行两种不同类型的非辐射介质线之间的线路变换。 此外,非辐射介质线组件,天线装置和无线设备包括上述线路转换。 在这种结构中,介电条设置在下导电板和上导电板之间以形成超NRD波导(HNRD)和正常NRD波导(NNRD)中的每一个。 在两个波导之间形成深度从HNRD向NNRD变浅的槽,用于接收用于进行线变换的第三非辐射介质线。
    • 7. 发明授权
    • Non-reciprocal circuit device
    • 不可逆电路装置
    • US07859358B2
    • 2010-12-28
    • US12758822
    • 2010-04-13
    • Nobumasa KitamoriTakashi Hasegawa
    • Nobumasa KitamoriTakashi Hasegawa
    • H01P1/36
    • H01P1/387
    • A nonreciprocal circuit device has a structure that allows a direct current magnetic field having an even density to be applied to a necessary portion of a ferrite without impairing a reduction in profile so as to improve insertion loss. The nonreciprocal circuit device, for example, a two-port isolator, includes permanent magnets, a ferrite to which a direct current magnetic field is applied by the permanent magnets, and a first center electrode and a second center electrode that are disposed on the ferrite. The permanent magnets are disposed so as to oppose principal surfaces of the ferrite. Portions of each of the permanent magnets opposing relay electrodes on top and bottom surfaces are preferably thicker than other portions thereof.
    • 不可逆电路器件具有允许具有均匀密度的直流磁场被施加到铁氧体的必要部分而不损害轮廓减小以便改善插入损耗的结构。 不可逆电路装置,例如双端口隔离器,包括永磁体,由永久磁铁施加直流磁场的铁氧体,以及设置在铁氧体上的第一中心电极和第二中心电极 。 永磁体被配置为与铁氧体的主表面相对。 在顶表面和底表面上相对于中继电极的每个永磁体的部分优选地比其它部分厚。
    • 8. 发明申请
    • Antenna Device, Array Antenna, Multi-Sector Antenna, High-Frequency Wave Transceiver
    • 天线装置,阵列天线,多扇区天线,高频波收发器
    • US20080272976A1
    • 2008-11-06
    • US12177935
    • 2008-07-23
    • Nobumasa KitamoriTomohiro Nagai
    • Nobumasa KitamoriTomohiro Nagai
    • H01Q9/16H01Q9/04
    • H01Q9/285H01Q19/24H01Q19/30H01Q21/08
    • An antenna device having a feeder electrode that extends linearly on a top surface of a dielectric substrate. A balanced electrode having two balanced transmission electrodes vertical to the extending direction of the feeder electrode and extending in parallel. The two balanced transmission electrodes are connected to the feeder electrode and separated by an interval of ½ of a wavelength of a transmission/reception signal. A radiation electrode having a first electrode connected to the one of the two balanced transmission electrodes and a second electrode connected to the other of the two balanced transmission electrodes and is positioned parallel to the feeder electrode. A waveguide electrode is formed at a position separated from the radiation electrode by a predetermined interval and in parallel to the radiation electrode. A ground electrode is formed at an area of a back surface of the dielectric substrate corresponding to an area including a portion where the feeder electrode is positioned. By connecting the two balanced electrodes to the feeder electrode at an interval of ½ of a wavelength in this manner, this branch portion has a signal branching function and a balun function at the same time.
    • 一种天线装置,其具有在电介质基板的顶面上线性延伸的供电电极。 平衡电极,其具有与供电电极的延伸方向垂直且平行延伸的两个平衡的传输电极。 两个平衡的发送电极连接到馈电电极并以发送/接收信号的波长的1/2的间隔隔开。 一种辐射电极,具有连接到所述两个平衡透射电极中的一个的第一电极和与所述两个平衡透射电极中的另一个连接并且平行于所述馈电电极定位的第二电极。 波导电极形成在与辐射电极分开预定间隔并与辐射电极平行的位置处。 接地电极形成在电介质基板的背面的与包含供电电极所在部位的区域对应的区域。 通过以这种方式将两个平衡电极以一半的波长连接到馈电电极,该分支部分同时具有信号分支功能和平衡 - 不平衡转换功能。
    • 9. 发明授权
    • Antenna device and transmitting/receiving device
    • 天线装置和发射/接收装置
    • US07064726B2
    • 2006-06-20
    • US10526448
    • 2003-08-13
    • Nobumasa KitamoriTomohiro Nagai
    • Nobumasa KitamoriTomohiro Nagai
    • H01Q13/00H01Q13/10
    • H01P1/062H01Q3/04H01Q13/02
    • An antenna apparatus includes two circular waveguides including a fixed-side circular waveguide and a rotation-side circular waveguide, each having a propagation mode in a TM01 mode, and being arranged coaxially with each other while a waveguide-side choke is provided between the two waveguides. A rectangular waveguide is connected to the fixed-side circular waveguide. Thereby, the high-frequency signal fed from the rectangular waveguide to the fixed-side circular waveguide can be radiated from a primary radiator to which the rotation-side circular waveguide is connected. While the circular waveguides and the waveguide-side choke can constitute a rotary joint, by rotating the primary radiator together with the rotation-side circular waveguide, scanning can be carried out with a high-frequency signal radiated from the primary radiator.
    • 天线装置包括两个圆形波导,包括固定侧圆形波导和旋转侧圆形波导,每个圆形波导具有TM01模式的传播模式,并且彼此同轴布置,同时在两个波导侧扼流圈之间 波导。 矩形波导连接到固定侧圆形波导。 因此,从矩形波导馈送到固定侧圆形波导的高频信号可以从连接有旋转侧圆形波导的初级辐射器辐射。 虽然圆形波导和波导侧扼流圈可以构成旋转接头,但是通过使主辐射器与旋转侧圆形波导一起旋转,可以用从一次辐射器辐射的高频信号进行扫描。
    • 10. 发明申请
    • Antenna device and transmitting/receiving device
    • 天线装置和发射/接收装置
    • US20050270247A1
    • 2005-12-08
    • US10526448
    • 2003-08-13
    • Nobumasa KitamoriTomohiro Nagai
    • Nobumasa KitamoriTomohiro Nagai
    • H01P1/06H01Q3/04H01Q13/02H01Q21/20H01Q19/06
    • H01P1/062H01Q3/04H01Q13/02
    • An antenna apparatus includes two circular waveguides including a fixed-side circular waveguide and a rotation-side circular waveguide, each having a propagation mode in a TM01 mode, and being arranged coaxially with each other while a waveguide-side choke is provided between the two waveguides. A rectangular waveguide is connected to the fixed-side circular waveguide. Thereby, the high-frequency signal fed from the rectangular waveguide to the fixed-side circular waveguide can be radiated from a primary radiator to which the rotation-side circular waveguide is connected. While the circular waveguides and the waveguide-side choke can constitute a rotary joint, by rotating the primary radiator together with the rotation-side circular waveguide, scanning can be carried out with a high-frequency signal radiated from the primary radiator.
    • 天线装置包括两个圆形波导,包括固定侧圆形波导和旋转侧圆形波导,每个圆形波导具有TM01模式的传播模式,并且彼此同轴布置,同时在两个波导侧扼流圈之间 波导。 矩形波导连接到固定侧圆形波导。 因此,从矩形波导馈送到固定侧圆形波导的高频信号可以从连接有旋转侧圆形波导的初级辐射器辐射。 虽然圆形波导和波导侧扼流圈可以构成旋转接头,但是通过使主辐射器与旋转侧圆形波导一起旋转,可以用从一次辐射器辐射的高频信号进行扫描。