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    • 6. 发明授权
    • Dielectric resonator oscillator and radar apparatus using the same
    • 介质谐振器和使用雷达的仪器
    • US07378915B2
    • 2008-05-27
    • US11366304
    • 2006-03-01
    • Takuya AdachiHitoyoshi Kurata
    • Takuya AdachiHitoyoshi Kurata
    • H03B9/14
    • H03B5/1876
    • At least one of a rise time and a fall time of a dielectric resonator oscillator are reduced. The dielectric resonator oscillator includes a dielectric resonator, a drive circuit for applying a resonance voltage to the dielectric resonator, a switch for applying a voltage required for generating the resonance voltage to the drive circuit, a switch for applying a ground voltage for stopping generation of the resonance voltage to the drive circuit, and a capacitor connected to a power terminal side that supplies a voltage, as seen from the switch, for removing noise generated by the drive circuit. If these switches are made conductive exclusively, oscillation can be stopped immediately by turning on the switch. Since the capacitor is in a charge storage state at all times, regardless of ON/OFF of the switch, the oscillation operation can be started immediately when the switch is turned ON.
    • 介质谐振器振荡器的上升时间和下降时间中的至少一个减小。 介质谐振器包括介质谐振器,用于向介质谐振器施加谐振电压的驱动电路,用于向驱动电路施加产生谐振电压所需的电压的开关,用于施加用于停止产生谐振电压的接地电压的开关 到驱动电路的谐振电压,以及连接到电源端侧的电容器,其从开关看,提供电压,用于去除由驱动电路产生的噪声。 如果这些开关是专门制造的,则可以通过打开开关立即停止振荡。 由于电容器始终处于电荷存储状态,与开关的ON / OFF无关,因此当开关接通时可以立即开始振荡操作。
    • 7. 发明申请
    • Dielectric resonator oscillator and radar apparatus using the same
    • 介质谐振器和使用雷达的仪器
    • US20060202770A1
    • 2006-09-14
    • US11366304
    • 2006-03-01
    • Takuya AdachiHitoyoshi Kurata
    • Takuya AdachiHitoyoshi Kurata
    • H03B9/14
    • H03B5/1876
    • At least one of a rise time and a fall time of a dielectric resonator oscillator are reduced. The dielectric resonator oscillator includes a dielectric resonator, a drive circuit for applying a resonance voltage to the dielectric resonator, a switch for applying a voltage required for generating the resonance voltage to the drive circuit, a switch for applying a ground voltage for stopping generation of the resonance voltage to the drive circuit, and a capacitor connected to a power terminal side that supplies a voltage, as seen from the switch, for removing noise generated by the drive circuit. If these switches are made conductive exclusively, oscillation can be stopped immediately by turning on the switch. Since the capacitor is in a charge storage state at all times, regardless of ON/OFF of the switch, the oscillation operation can be started immediately when the switch is turned ON.
    • 介质谐振器振荡器的上升时间和下降时间中的至少一个减小。 介质谐振器包括介质谐振器,用于向介质谐振器施加谐振电压的驱动电路,向驱动电路施加产生谐振电压所需的电压的开关,用于施加接地电压的开关,用于停止产生 到驱动电路的谐振电压,以及连接到电源端侧的电容器,其从开关看,提供电压,用于去除由驱动电路产生的噪声。 如果这些开关是专门制造的,则可以通过打开开关立即停止振荡。 由于电容器始终处于电荷存储状态,与开关的ON / OFF无关,因此当开关接通时可以立即开始振荡操作。
    • 9. 发明授权
    • Magnetostatic wave device including magnetic garnet layer having an
inclined side face
    • 静电波装置,包括具有倾斜侧面的磁性石榴石层
    • US6091313A
    • 2000-07-18
    • US222348
    • 1998-12-29
    • Hitoyoshi Kurata
    • Hitoyoshi Kurata
    • H01F10/24H03H2/00H01P7/00
    • H01F10/245H03H2/001
    • For patterning a magnetic garnet layer formed on the surface of a non-magnetic garnet substrate, the magnetic garnet layer, an intermediate layer and a resist layer are formed in this order from the substrate side, the intermediate layer and the resist layer are shaped in the state of an island, and then the magnetic garnet layer is etched in a hot phosphoric acid solution, the intermediate layer being composed of a material which is more soluble in the hot phosphoric acid solution than the resist layer so that the etched magnetic garnet layer side face is formed as a gently inclined face and that a conductor pattern extending on both the non-magnetic garnet substrate and magnetic garnet layer surfaces can be formed without breaking, or a protective resist layer being formed on the reverse surface of the substrate so that the application angle of a magnetic field to the magnetic garnet layer surface can be accurately controlled.
    • 为了对形成在非磁性石榴石基板表面上的磁性石榴石层进行图案化,从基板侧,中间层和抗蚀剂层的顺序形成磁性石榴石层,中间层和抗蚀剂层 岛状态,然后在热磷酸溶液中蚀刻磁性石榴石层,中间层由比抗蚀剂层更易溶于热磷酸溶液的材料构成,使得蚀刻的磁性石榴石层 侧面形成为轻轻的倾斜面,并且可以在不破坏的状态下形成在非磁性石榴石基板和磁性石榴石层表面上延伸的导体图案,或者在基板的背面上形成保护性抗蚀剂层,使得 可以精确地控制磁场对磁性石榴石层表面的施加角度。
    • 10. 发明授权
    • Wireless power feeder and wireless power transmission system
    • 无线供电和无线电力传输系统
    • US08928182B2
    • 2015-01-06
    • US13328590
    • 2011-12-16
    • Hitoyoshi KurataMasami Itakura
    • Hitoyoshi KurataMasami Itakura
    • H01F27/42H01F37/00H01F38/00
    • H02J50/12H02J17/00H02J50/80
    • A wireless power feeder has a power feed coil that performs a power feed by a non-contact method to a wireless power receiver having a power receive coil. A power source section supplies AC power to the power feed coil. A control section calculates a power transmission efficiency from the power feed coil to the power receive coil to control a power source section so that the power supply to the power feed coil is in a stopped or intermittent state when the power transmission efficiency is lower than a first determination reference value; is in a first power supply state when the power transmission efficiency is equal to or higher than the first determination reference value and lower than a larger second determination reference value; and is in a second power supply state when the power transmission efficiency is equal to or higher than the second determination reference value.
    • 无线供电器具有供电线圈,其通过非接触方式对具有功率接收线圈的无线电力接收器进行供电。 电源部分向馈电线圈提供AC电力。 控制部分计算从供电线圈到电力接收线圈的电力传输效率,以控制电源部分,使得当电力传输效率低于电力供应线圈时,供电线圈的电力供应处于停止或间歇状态 第一确定参考值; 当电力传输效率等于或高于第一确定参考值并且低于较大的第二确定参考值时处于第一电源状态; 并且当电力传输效率等于或高于第二确定参考值时处于第二电源状态。