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    • 3. 发明申请
    • CELL FUSION CHAMBER, CELL FUSION DEVICE, AND METHOD FOR CELL FUSION USING THE SAME
    • 细胞熔融室,细胞融合装置和使用其的细胞融合方法
    • US20130011899A1
    • 2013-01-10
    • US13619193
    • 2012-09-14
    • Toru FUTAMITakahiro MaruyamaAtsushi Morimoto
    • Toru FUTAMITakahiro MaruyamaAtsushi Morimoto
    • C12N13/00
    • C12M35/02C12M23/34
    • The present invention relates to a cell fusion chamber in which two types of cells having different diameters are fused, the cell fusion chamber including: a cell fusion region in which cell fusion is carried out; a pair of electrodes formed by a conductor and disposed opposite to each other in the cell fusion region; and a partition wall having at least one fine pore; near the fine pore, a cell fusion device including a cell fusion container containing a cell fusion region; a pair of electrodes; a spacer; and an insulator disposed between the spacer and one of the electrodes and having at least one fine pore; and an electronic power supply which applies an alternating voltage and a voltage pulsed direct current to the electrodes, and a cell fusion method using the same.
    • 本发明涉及一种细胞融合室,其中具有不同直径的两种细胞融合,所述细胞融合室包括:进行细胞融合的细胞融合区域; 由导体形成的一对电极,在电池熔融区域中相对设置; 和具有至少一个细孔的分隔壁; 靠近细孔的细胞融合装置,包括含有细胞融合区域的细胞融合容器; 一对电极; 间隔物 以及设置在所述间隔件和所述电极中的一个之间并且具有至少一个细孔的绝缘体; 以及向电极施加交流电压和电压脉冲直流电的电子电源,以及使用该电子电源的电池组合方法。
    • 4. 发明授权
    • Cell fusion chamber, cell fusion device, and method for cell fusion using the same
    • 细胞融合腔,细胞融合装置和使用其的细胞融合方法
    • US08697446B2
    • 2014-04-15
    • US13619193
    • 2012-09-14
    • Toru FutamiTakahiro MaruyamaAtsushi Morimoto
    • Toru FutamiTakahiro MaruyamaAtsushi Morimoto
    • C12N15/02C12N13/00
    • C12M35/02C12M23/34
    • The present invention relates to a cell fusion chamber in which two types of cells having different diameters are fused, the cell fusion chamber including: a cell fusion region in which cell fusion is carried out; a pair of electrodes formed by a conductor and disposed opposite to each other in the cell fusion region; and a partition wall having at least one fine pore; near the fine pore, a cell fusion device including a cell fusion container containing a cell fusion region; a pair of electrodes; a spacer; and an insulator disposed between the spacer and one of the electrodes and having at least one fine pore; and an electronic power supply which applies an alternating voltage and a voltage pulsed direct current to the electrodes, and a cell fusion method using the same.
    • 本发明涉及一种细胞融合室,其中具有不同直径的两种细胞融合,所述细胞融合室包括:进行细胞融合的细胞融合区域; 由导体形成的一对电极,在电池熔融区域中相对设置; 和具有至少一个细孔的分隔壁; 靠近细孔的细胞融合装置,包括含有细胞融合区域的细胞融合容器; 一对电极; 间隔物 以及设置在所述间隔件和所述电极中的一个之间并且具有至少一个细孔的绝缘体; 以及向电极施加交流电压和电压脉冲直流电的电子电源,以及使用该电子电源的电池组合方法。
    • 9. 发明授权
    • Power conversion circuit
    • 电源转换电路
    • US08159848B2
    • 2012-04-17
    • US12598387
    • 2008-12-11
    • Atsushi MorimotoMatsuo ShiraishiKouichi IshikawaTatsuo MoritaYasuhiro UemotoTsuyoshi Tanaka
    • Atsushi MorimotoMatsuo ShiraishiKouichi IshikawaTatsuo MoritaYasuhiro UemotoTsuyoshi Tanaka
    • H02M7/217
    • H02M3/1582H02M7/219
    • A power conversion circuit includes a bidirectional switch 2. The bidirectional switch 2 has a first gate terminal G1, a second gate terminal G2, a first ohmic terminal S1 and a second ohmic terminal S2. The bidirectional switch 2 has four operation states. In the first state, the bidirectional switch 2 operates as a diode having a cathode as the first ohmic terminal S1 and an anode as the second ohmic terminal S2. In a second state, the bidirectional switch 2 operates as a diode having an anode as the first ohmic terminal S1 and a cathode as the second ohmic terminal S2. In a third state, the bidirectional switch 2 is bidirectionally conductive with via a diode between the first and second ohmic terminals S1 and S2. In a fourth state, the bidirectional switch 2 cuts off a bidirectional current between the first and second ohmic terminals.
    • 功率转换电路包括双向开关2.双向开关2具有第一栅极端子G1,第二栅极端子G2,第一欧姆端子S1和第二欧姆端子S2。 双向开关2具有四个操作状态。 在第一状态下,双向开关2作为具有阴极的第二欧姆端子S1和阳极作为第二欧姆端子S2的二极管工作。 在第二状态下,双向开关2作为具有阳极的第二欧姆端子S1和阴极作为第二欧姆端子S2的二极管工作。 在第三状态下,双向开关2通过第一和第二欧姆端子S1和S2之间的二极管双向导通。 在第四状态下,双向开关2切断第一和第二欧姆端子之间的双向电流。