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    • 3. 发明授权
    • Semi-coaxial cavity resonator filter
    • 半同轴谐振腔滤波器
    • US4477786A
    • 1984-10-16
    • US432930
    • 1982-09-27
    • Masahide TamuraKoga Daisuke
    • Masahide TamuraKoga Daisuke
    • H01P1/202H01P1/205H01P7/04
    • H01P7/04H01P1/205
    • A semi-coaxial cavity resonator filter including a plurality of semi-axial cavity resonators, as constructed units, each of which has an adjustable device in which dielectric substrates having a specific dielectric constant of more than 1 are disposed in the gap between the inside wall of a tube-shaped outer conductor and the open end of an inner conductor provided on the inside wall of the outer conductor, and the electrostatic capacitance of the spaces interposed by the dielectric substrates is changed without steps by varying the area of the electrodes on the dielectric substrate. The filter is made by making an individual and predetermined frequency adjustment on the plurality of the semi-axial cavity resonators and then cascade-connecting those resonators in one block through shielding plates having a coupling iris so as to obtain desired filtering characteristics as a bandpass filter.
    • PCT No.PCT / JP82 / 00026 Sec。 371日期1982年9月27日 102(e)1982年9月27日PCT PCT卷号1982年1月26日PCT公布。 出版物WO82 / 02626 日本1982年8月5日。一种半同轴腔谐振器滤波器,包括多个半轴腔谐振器,作为构成单元,每个都具有可调节装置,其中布置具有大于1的比介电常数的电介质基片 在管状外部导体的内壁与设置在外部导体的内壁上的内部导体的开口端之间的间隙中,并且由介电基板插入的空间的静电电容不改变地改变 电介质基片上的电极面积。 通过在多个半轴腔谐振器上进行单独的和预定的频率调整,然后通过具有耦合光阑的屏蔽板将那些谐振器级联连接在一个块中,以获得期望的滤波特性作为带通滤波器 。
    • 4. 发明授权
    • Transmitter having a phase synchronizing system
    • 具有相位同步系统的变送器
    • US4395776A
    • 1983-07-26
    • US269029
    • 1981-05-27
    • Yukio NaitoMasahide TamuraShigeo Takahashi
    • Yukio NaitoMasahide TamuraShigeo Takahashi
    • H03C3/09H04B1/04
    • H03C3/0966H04B1/0475H04B2001/0491
    • A transmitter having a transmitting phase synchronizing system. To one input of a frequency mixer is applied the output of a phase synchronizing type digital frequency synthesizer, through a first frequency divider. A modulating signal is applied to another input of the frequency mixer. The output from the mixer is connected via a bandpass filter to a phase synchronizing system having in series, along a main route, a phase detector, a lowpass filter, and a voltage controlled oscillator, and thence to an amplifier system. In a feedback route from another outlet of the voltage controlled oscillator to the phase detector is a second fixed frequency divider. The digital frequency synthesizer itself may have a reference oscillator connected in series to a third fixed frequency divider, a second phase detector, a second lowpass filter and a second voltage controlled oscillator, from which a feedback circuit leads back to the phase detector via the first fixed frequency divider and a variable frequency divider.
    • PCT No.PCT / JP80 / 00224 Sec。 371日期:1981年5月27日 102(e)日期1981年5月22日PCT提交1980年9月26日PCT公布。 出版物WO81 / 00942 日期:1981年4月2日。具有发射相位同步系统的发射机。 通过第一分频器对相位同步型数字频率合成器的输出施加到混频器的一个输入端。 调制信号被施加到混频器的另一输入端。 来自混频器的输出通过带通滤波器连接到相位同步系统,该相位同步系统沿着主路线,相位检测器,低通滤波器和压控振荡器串联,从而连接到放大器系统。 在从压控振荡器的另一个出口到相位检测器的反馈路径中是第二固定分频器。 数字频率合成器本身可以具有与第三固定分频器,第二相位检测器,第二低通滤波器和第二压控振荡器串联连接的参考振荡器,反馈电路从该第二固定分频器,第二低通滤波器和第二压控振荡器经由第一固定分频器 固定分频器和可变分频器。
    • 5. 发明申请
    • BIAXIAL ANGULAR VELOCITY SENSOR
    • 双向角速度传感器
    • US20110100122A1
    • 2011-05-05
    • US13000689
    • 2009-06-18
    • Masahide TamuraHidekazu Yano
    • Masahide TamuraHidekazu Yano
    • G01C19/56
    • G01C19/5733
    • A biaxial angular velocity sensor provided herein has good detection sensitivity and allows an oscillator to be fixed stably. The biaxial angular velocity sensor includes an oscillator (3) made of a non-piezoelectric material, an electromechanical energy converting element (23) for driving and electromechanical energy converting element (25) for detection, both of which are provided in the oscillator (3), a plurality of drive electrodes (27) provided corresponding to the electromechanical energy converting element (23) for driving, and a plurality of detection electrodes (29) provided corresponding to the electromechanical energy converting element (25) for detection. The oscillator (3) includes a central portion (5) located in the center of the oscillator and eight first to eighth arm portions (7) to (21). The distal end portions of the fifth to eighth arm portions (15) to (21), located on the opposite side to the central portion (5), are fixed.
    • 本文提供的双轴角速度传感器具有良好的检测灵敏度,并且可以稳定地固定振荡器。 双轴角速度传感器包括由非压电材料构成的振荡器(3),用于驱动的​​机电能量转换元件(23)和用于检测的机电能量转换元件(25),两者均设置在振荡器(3) ),与用于驱动的​​机电能量转换元件(23)相对应设置的多个驱动电极(27)和与机电能量转换元件(25)对应设置的用于检测的多个检测电极(29)。 振荡器(3)包括位于振荡器中心的中心部分(5)和八个第一至第八臂部分(7)至(21)。 第五至第八臂部分(15)至(21)的远离中心部分(5)的相对侧的末端部分是固定的。
    • 8. 发明申请
    • Semiconductor Sensor
    • 半导体传感器
    • US20070234804A1
    • 2007-10-11
    • US11572384
    • 2005-07-07
    • Masahide TamuraMasato AndoYuichi Ishikuro
    • Masahide TamuraMasato AndoYuichi Ishikuro
    • G01P1/02
    • G01P1/023G01L19/0069G01L19/02G01P15/123G01P2015/084H01L2224/49175H01L2224/73265H01L2924/16195
    • A semiconductor sensor of the present invention is capable of preventing a diaphragm portion of the sensor from being damaged if a weight collides against a semiconductor integrated circuit substrate of the sensor and is further capable of preventing the diaphragm portion from being bent significantly even when a semiconductor sensor element of the sensor is disposed inside a distorted or deformed casing. A rear surface of the semiconductor integrated circuit substrate 7 is joined onto a wall surface of the casing 9 that defines a receiving chamber of the casing. A support portion of the semiconductor sensor element is joined onto a front surface 7a of the semiconductor integrated circuit substrate 7. A shock absorbing layer is formed on the front surface 7a of the semiconductor integrated circuit substrate 7 at least on a part thereof facing the weight 3 of the semiconductor sensor element 7, for suppressing the bouncing of the weight 3 when the weight 3 collides against the semiconductor integrated circuit substrate 7.
    • 如果本发明的半导体传感器如果重量与传感器的半导体集成电路基板碰撞而能够防止传感器的隔膜部分损坏,并且即使当半导体 传感器的传感器元件设置在变形或变形的壳体内。 半导体集成电路基板7的背面接合在壳体9的限定壳体的容纳室的壁面上。 半导体传感器元件的支撑部分接合到半导体集成电路基板7的前表面7a上。 至少在半导体传感器元件7的重量3的一部分上,在半导体集成电路基板7的前表面7a上形成减震层,以便在重量3与重量3碰撞时抑制重量3的弹跳 半导体集成电路基板7。
    • 9. 发明授权
    • Signal transmission and reception system
    • 信号发射和接收系统
    • US4633511A
    • 1986-12-30
    • US643834
    • 1984-08-23
    • Daisuke KogaMasahide TamuraYukio Naito
    • Daisuke KogaMasahide TamuraYukio Naito
    • H04B1/40H04B1/50
    • H04B1/50H04B1/408
    • A duplex transmission and reception system wherein a local oscillator of the receiver is dispensed with by using the output of a modulated transmission oscillator, with its modulation cancelled, in lieu of a receiver local oscillator. The transmitter modulation signal is adjusted by appropriate level correction and phase inversion. The modulated output of the transmission oscillator is itself applied to a modulator, where it is modulated by the adjusted modulation signal. This results in substantially cancelling out the modulation component of the transmission oscillator output. This modulation-cancelled signal is supplied to the mixer of a superheterodyne receiver as a local oscillator signal.
    • 一种双工发送和接收系统,其中通过使用调制的发送振荡器的输出来取消接收机的本地振荡器,其调制被取消,代替接收机本地振荡器。 通过适当的电平校正和相位反转调整发射机调制信号。 传输振荡器的调制输出本身被应用于调制器,在调制器中调制输出被调制后的调制信号调制。 这导致基本上消除了发送振荡器输出的调制分量。 该调制解除信号作为本地振荡器信号提供给超外差接收机的混频器。