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    • 12. 发明授权
    • Receiving circuit and optical signal receiving circuit
    • 接收电路和光信号接收电路
    • US07809285B2
    • 2010-10-05
    • US11662090
    • 2005-08-29
    • Kazuko NishimuraHiroshi Kimura
    • Kazuko NishimuraHiroshi Kimura
    • H04B10/06
    • H03F3/08H03F1/08H03F2200/78H03G3/3084
    • A receiving circuit comprises a transimpedance amplifier 3 including an inversion amplifier 2 for amplifying an input current IN, and a feedback resistance R1 connected between an input and an output of the inversion amplifier 2, a comparison circuit 4 for comparing an output OUT of the transimpedance amplifier 3 with a certain desired reference value, and outputting a result of the comparison, and a control circuit for holding the comparison result, and generating an AGC signal 20 for adjusting a gain of the transimpedance amplifier 3. The transimpedance amplifier 20 has a function capable of gain adjustment in accordance with the input AGC signal 20. The control circuit 5 performs gain adjustment until the output OUT of the transimpedance amplifier 3 exceeds the reference value so that an appropriate gain is obtained. Therefore, even when an input has a wide dynamic range, it is possible to prevent signal saturation and a distortion in output waveform in the transimpedance amplifier, so that appropriate reception can be invariably performed and a signal having a stable duty can be output.
    • 接收电路包括跨阻抗放大器3,其包括用于放大输入电流IN的反相放大器2和连接在反相放大器2的输入和输出端之间的反馈电阻R1,比较电路4,用于比较跨阻抗的输出OUT 具有一定的期望参考值的放大器3,并输出比较结果,以及用于保持比较结果的控制电路,并产生用于调整跨阻抗放大器3的增益的AGC信号20.跨阻放大器20具有功能 能够根据输入的AGC信号20进行增益调整。控制电路5进行增益调整,直到跨阻抗放大器3的输出OUT超过参考值,从而获得适当的增益。 因此,即使当输入具有宽动态范围时,也可以防止跨阻放大器中的信号饱和和输出波形的失真,使得可以不间断地执行适当的接收,并且可以输出具有稳定占空比的信号。
    • 15. 发明申请
    • Receiving Circuit and Optical Signal Receiving Circuit
    • 接收电路和光信号接收电路
    • US20080056732A1
    • 2008-03-06
    • US11662090
    • 2005-08-29
    • Kazuko NishimuraHiroshi Kimura
    • Kazuko NishimuraHiroshi Kimura
    • H04B10/06
    • H03F3/08H03F1/08H03F2200/78H03G3/3084
    • A receiving circuit comprises a transimpedance amplifier 3 including an inversion amplifier 2 for amplifying an input current IN, and a feedback resistance R1 connected between an input and an output of the inversion amplifier 2, a comparison circuit 4 for comparing an output OUT of the transimpedance amplifier 3 with a certain desired reference value, and outputting a result of the comparison, and a control circuit for holding the comparison result, and generating an AGC signal 20 for adjusting a gain of the transimpedance amplifier 3. The transimpedance amplifier 20 has a function capable of gain adjustment in accordance with the input AGC signal 20. The control circuit 5 performs gain adjustment until the output OUT of the transimpedance amplifier 3 exceeds the reference value so that an appropriate gain is obtained. Therefore, even when an input has a wide dynamic range, it is possible to prevent signal satuation and a distortion in output waveform in the transimpedance amplifier, so that appropriate reception can be invariably performed and a signal having a stable duty can be output.
    • 接收电路包括跨阻抗放大器3,其包括用于放大输入电流IN的反相放大器2和连接在反相放大器2的输入和输出端之间的反馈电阻R 1,比较电路4, 具有一定期望参考值的跨阻抗放大器3,并输出比较结果,以及用于保持比较结果的控制电路,并产生用于调整跨阻抗放大器3的增益的AGC信号20.跨阻放大器20具有 功能,其能够根据输入的AGC信号20进行增益调整。控制电路5进行增益调整,直到跨阻抗放大器3的输出OUT超过参考值,从而获得适当的增益。 因此,即使当输入的动态范围宽时,也可以防止跨阻放大器的信号饱和和输出波形的失真,从而可以不间断地执行适当的接收,并且可以输出具有稳定占空比的信号。
    • 16. 发明授权
    • Iron nitride system magnetic powder having good storage stability
    • 具有良好储存稳定性的氮化铁系磁粉
    • US07314666B2
    • 2008-01-01
    • US11311281
    • 2005-12-20
    • Kenji MasadaHiroshi KimuraTakafumi Amino
    • Kenji MasadaHiroshi KimuraTakafumi Amino
    • B32B5/66
    • H01F1/061G11B5/70626Y10T428/25Y10T428/2982Y10T428/2991
    • An iron nitride system magnetic powder comprising of particles comprised primarily of Fe16N2 (having an average particle diameter of up to 25 nm, for example) is provided, to which one or more elements selected from Si, P and Ti is adhered. The powder has a C/Fe atomic ratio of 0.5 to 30%, preferably a (Si+P+Ti)/Fe atomic ratio of 0.1 to 10%. With ΔHc defined (Hc0·Hc1)/Hc0×100, the powder has a ΔHc of up to 5%, and with Δσs defined as (σs0·σs1)/σs0×100, a Δσs of up to 20%. The powder can provide an ignition temperature of 140° C. or above, and a tap density of 1.0 g/cm3 or above. Hc0 and σs0 are the coercive force (kA/m) and saturation magnetization (Am2/kg), respectively, of the iron nitride system magnetic powder after adhesion, and Hc1 and σs1 are the coercive force (kA/m) and saturation magnetization (Am2/kg), respectively, of the powder after it has been stored in a thermo-hygrostat for one week at a temperature of 60° C. and a relative humidity of 90%.
    • 提供了由主要由Fe 16 N 2(例如平均粒径高达25nm)组成的粒子构成的氮化铁系磁铁粉末,其中选自Si,P 并附着Ti。 该粉末的C / Fe原子比为0.5〜30%,优选为(Si + P + Ti)/ Fe原子比为0.1〜10%。 通过定义的ΔHc(Hc Hc 1 / hc x100,粉末的DeltaHc高达5%,并且具有Deltasigmas 定义为(sigmas 0 .sigmas )/ sigmas 0 x100,高达20%的Deltasigmas。 该粉末可以提供140℃以上的点火温度和1.0g / cm 3以上的振实密度。 Hc <0>和Sigmas <0>分别是铁的矫顽力(kA / m)和饱和磁化强度(Am 2 SUP / kg) 氮化物系磁性粉末粘合后,矫顽力(kA / m)和饱和磁化强度(Am 2 / kg),分别在温度为60℃,相对湿度为90%的温度恒温箱中保存一周后,粉末分散。
    • 17. 发明申请
    • Organic thin film manufacturing method and manufacturing apparatus
    • 有机薄膜制造方法及制造装置
    • US20050011443A1
    • 2005-01-20
    • US10788975
    • 2004-02-27
    • Noriyuki MatsukazeHiroshi Kimura
    • Noriyuki MatsukazeHiroshi Kimura
    • C23C14/12C23C14/24H01L51/50H01L51/56H05B33/10C23C16/00
    • H05B33/10C23C14/12C23C14/228C23C14/243H01L51/0008H01L51/56
    • An organic thin film manufacturing method and manufacturing apparatus is disclosed in which control of the heating method of the organic material can be carried out simply, temperature control of the organic material to be subjected to vapor deposition is easy, and the reproducibility and stability of the film thickness of the organic thin film obtained are excellent. According to the organic thin film manufacturing method an organic material is fed in a vapor state into a vapor deposition apparatus positioned in a vacuum chamber from a material introducing part positioned outside the vapor deposition apparatus to form a thin film of the organic material on at least one substrate disposed inside the vapor deposition apparatus. The material introducing part has a structure such that the pressure inside can be set independently of that inside the vapor deposition apparatus, and it also has an exhauster independent to that of the vapor deposition apparatus.
    • 公开了一种有机薄膜制造方法和制造装置,其中可以简单地进行有机材料的加热方法的控制,容易进行气相沉积的有机材料的温度控制,并且重现性和稳定性 获得的有机薄膜的膜厚度优异。 根据有机薄膜制造方法,将有机材料从蒸气状态供给到位于真空室内的气相沉积设备中,所述气相沉积设备至少位于从位于蒸镀装置外部的材料导入部分至少形成有机材料薄膜 一个衬底设置在蒸镀装置的内部。 材料引入部分具有这样的结构,使得内部的压力可以独立于蒸镀装置内部设置,并且还具有与蒸镀装置无关的排气装置。
    • 19. 发明授权
    • Small-sized motor having a brush unit with an improved brush arm and terminal connections
    • 具有刷子单元的小型电动机具有改进的电刷臂和端子连接
    • US06603235B1
    • 2003-08-05
    • US09868019
    • 2001-06-12
    • Hiroshi Kimura
    • Hiroshi Kimura
    • H02K1310
    • H02K5/145H01R39/383H01R39/385H01R39/39H02K5/225
    • A brush unit includes a carbon brush 1, a substantially straight brush arm 2 for holding the carbon brush 1, and a brush base 3 connected to the brush arm 2. The brush base 3 is provided with a receptacle terminal 5 formed by cutting and raising the brush base 3, and thereby the brush base 3 is formed with a base hole 6 corresponding to the receptacle terminal 5. The brush unit is installed to a case cover 4 at two locations of a fixing portion in which the brush arm 2 is fixed to the brush base 3, and a brush base end portion integral with a base portion of the receptacle terminal 5, so that noise is reduced by decreasing a vibration component in an axial direction of the motor at a sliding portion at which the carbon brush 1 slides with-respect to a commutator at the time of motor rotation, and also brush tension is not changed when outside terminals are inserted through outside terminal insertion holes.
    • 刷子单元包括碳刷1,用于保持碳刷1的基本上直的刷臂2和连接到刷臂2的刷基3。刷基3设置有通过切割和提升形成的插座端子5 电刷基座3,从而电刷基座3形成有与插座端子5相对应的底孔6.刷子单元在电刷臂2固定的固定部分的两个位置处安装到壳体盖4上 刷子基座3以及与插座端子5的基部一体形成的刷子基端部,通过在碳刷1的滑动部分减小电动机的轴向的振动成分来降低噪音 在电动机旋转时相对于换向器滑动,并且当外部端子通过外部端子插入孔插入时,刷毛张力也不变。
    • 20. 发明授权
    • Current comparison type latch
    • 当前比较型锁存器
    • US06344761B2
    • 2002-02-05
    • US09819646
    • 2001-03-29
    • Kazuko NishimuraHiroshi Kimura
    • Kazuko NishimuraHiroshi Kimura
    • G11C706
    • H03K3/356113H03K3/356182
    • In a current comparison type latch, during a reset mode of the current comparison type latch where the clock signal is at the “L” level, transistors which are disposed along the current path extending from the high potential power supply line to the low potential power supply line are turned OFF while transistors which connect the high potential power supply line to two output terminals are turned ON, so as to bring the potential of each of the two output terminals to a logic level (the “H” level or the “L” level), thereby preventing a through current from flowing from the high potential power supply line to the low potential power supply line. Therefore, a high-speed and high-precision current comparison is made while reducing the through current during a reset mode.
    • 在电流比较型锁存器中,在时钟信号为“L”电平的当前比较型锁存器的复位模式期间,沿着从高电位电源线延伸到低电位电流的电流路径设置的晶体管 将高电位电源线连接到两个输出端子的晶体管导通,使两个输出端子的电位达到逻辑电平(“H”电平或“L” “电平”),从而防止贯通电流从高电位电源线流向低电位电源线。 因此,在复位模式期间,在减小通电电流的同时进行高速高精度电流比较。