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    • 6. 发明授权
    • Organic synthesizer
    • 有机合成仪
    • US07892497B2
    • 2011-02-22
    • US12063475
    • 2006-08-10
    • Masatoshi ShibataYutaka MashiyamaYasuyuki SuzukiIsamu HirutaToshiaki WadaTetsuo Tomoda
    • Masatoshi ShibataYutaka MashiyamaYasuyuki SuzukiIsamu HirutaToshiaki WadaTetsuo Tomoda
    • B01J19/18B01J19/00B01J19/24B01F7/00B01F13/08
    • B01J19/0046B01F7/001B01F7/00116B01F7/00141B01F7/003B01F7/00558B01F13/0827B01F13/089B01J2219/00283B01J2219/00346B01J2219/00389B01J2219/00477B01J2219/00481B01J2219/00495B01J2219/00585B01J2219/0072
    • To provide an organic synthesizer that can conduct a pressure reaction and an atmospheric reaction in one organic synthesizer and can realize attachment of reaction vessels to the organic synthesizer and detachment of the reaction vessels from the organic synthesizer without applying any load to gas supply/discharge pipes. An organic synthesizer comprising a reaction vessel support part (160), which can support two or more reaction vessels, and pressure regulation means (164) for regulating the pressure within the reaction vessel supported by the reaction vessel support part (160) by supplying/discharging gas. Two or more pressure regulation means (164) are provided for each reaction vessel supported by the reaction vessel support part (160). At least one pressure regulation means (164A) in the two or more pressure regulation means (164) is constructed so as to be detachable from and attachable to the other pressure regulation means (164B). The pressure regulation means (164) comprises gas supply/discharge pipes (174a to 174d) and openings (194a to 194d) for supporting the gas supply/discharge pipes (174a to 174d). The gas supply/discharge pipes (174a to 174d) are constructed so that a part near the front end can be flexed in a vertical direction and in a lateral direction and are connected to the supported reaction vessels for gas supply and discharge.
    • 提供一种能够在一种有机合成仪中进行压力反应和大气反应的有机合成仪,并且可以实现反应容器与有机合成仪的连接,并使反应容器与有机合成仪分离,而不对气体供给/排出管施加任何负荷 。 一种有机合成装置,包括可支撑两个或更多个反应容器的反应容器支撑部分(160)和压力调节装置(164),用于调节由反应容器支撑部分(160)支撑的反应容器内的压力, 排气 为由反应容器支撑部分(160)支撑的每个反应容器提供两个或更多个压力调节装置(164)。 两个或更多个压力调节装置(164)中的至少一个压力调节装置(164A)构造成可拆卸并附接到另一压力调节装置(164B)。 压力调节装置(164)包括用于支撑供气/排放管(174a至174d)的气体供给排出管(174a至174d)和开口(194a至194d)。 气体供给排出管174a〜174d构成为能够使前端附近的部分在垂直方向和横向上弯曲并且与支撑的气体供给和排出的反应容器连接。
    • 7. 发明授权
    • Interferometer, demodulator, and splitting element
    • 干涉仪,解调器和分离元件
    • US07864325B2
    • 2011-01-04
    • US12054661
    • 2008-03-25
    • Yasuyuki SuzukiYoshihiro SanpeiShinji IioMorio WadaMamoru HiharaKoki Iemura
    • Yasuyuki SuzukiYoshihiro SanpeiShinji IioMorio WadaMamoru HiharaKoki Iemura
    • G01B9/02
    • G02B27/144G02B6/29349G02B6/4246G02B27/285H04L27/223
    • An interferometer of the invention includes: a first splitting element which includes a first transparent medium and a first splitting film formed on the first transparent medium, and which splits incident light into a first split beam and a second split beam, the first split beam being the incident light reflected by the first splitting element and the second split beam being the incident light transmitted through the first splitting element; and a second splitting element which includes a second transparent medium and a second splitting film formed on the second transparent medium, and which causes interference between the first split beam and the second split beam passed through different optical paths, the second splitting element being positioned such that a positional relationship between the second transparent medium and the second splitting film with respect to a direction of incidence on the second splitting element of the first split beam is opposite to a positional relationship between the first transparent medium and the first splitting film with respect to a direction of incidence of the incident light on the first splitting element.
    • 本发明的干涉仪包括:第一分离元件,其包括形成在第一透明介质上的第一透明介质和第一分离膜,并将入射光分裂成第一分束和第二分束,第一分束是 由第一分离元件和第二分割光束反射的入射光是透射通过第一分离元件的入射光; 以及第二分离元件,其包括形成在所述第二透明介质上的第二透明介质和第二分离膜,并且其使所述第一分束和所述第二分束之间的干涉通过不同的光路,所述第二分离元件被定位成 相对于第一分割光束的第二分割元件的入射方向,第二透明介质和第二分割膜之间的位置关系与第一透明介质和第一分离膜相对于第一分离膜的位置关系相反 入射光在第一分离元件上的入射方向。
    • 10. 发明授权
    • Equalizing filter circuit
    • 均衡滤波电路
    • US07696838B2
    • 2010-04-13
    • US11662414
    • 2005-09-09
    • Shigeki WadaYasuyuki Suzuki
    • Shigeki WadaYasuyuki Suzuki
    • H04B3/14H04B3/04H03H7/38
    • H04B3/142
    • In an equalizing filter circuit having an input terminal 101, an output terminal 102, delay devices 104 connected in multi-stage to the input terminal 101, and a plurality of weighting circuits 105 which are branched from and connected to the plurality of delay devices to thereby combine respective output signals of the weighting circuits, gain adjustment of the weighting circuits is performed to determine a coefficient of the equalizing filter circuit without depending on a load connected to the output terminal. Thus, an amount of compensation for a distorted waveform may be enhanced. To this end, an impedance converting circuit 108 is connected between at least one weighting circuit and the output terminal.
    • 在具有输入端子101,输出端子102,多级连接到输入端子101的延迟装置104以及从多个延迟装置分支并连接到多个延迟装置的多个加权电路105的均衡滤波器电路中, 从而组合加权电路的各个输出信号,执行加权电路的增益调整,以确定均衡滤波器电路的系数,而不依赖于连接到输出端子的负载。 因此,可以增强对失真波形的补偿量。 为此,阻抗转换电路108连接在至少一个加权电路和输出端之间。