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    • 3. 发明授权
    • Alkaline battery separator and process for producing the same
    • 碱性电池分离器及其制造方法
    • US06183913B2
    • 2001-02-06
    • US08937838
    • 1997-09-25
    • Masanao TanakaKoji KimuraNobutoshi Tokutake
    • Masanao TanakaKoji KimuraNobutoshi Tokutake
    • H01M216
    • H01M2/162D01F8/06D04H1/49D04H1/54D04H5/02D04H5/03D04H5/06H01M2/1633H01M10/24
    • An alkaline battery separator comprising a hydrophilic nonwoven fabric obtainable by heat-fusing and hydro-entangling (1) polyolefin dividable composite fibers having an average fiber length of 20 to 60 mm, (2) high-strength fibers having an average fiber length of 30 to 60 mm and a fiber strength of 5 g/denier or more, and (3) polyolefin heat-sensitive-adhesive fibers having an average fiber length of 30 to 60 mm, to obtain a heat-fused and hydro-entangled nonwoven fabric by a dry-laid method, and imparting a hydrophilic property to the resulting heat-fused and hydro-entangled nonwoven fabric; these high-strength fibers accounting for 20 to 45 mass % with respect to a total mass of the polyolefin dividable composite fibers, the high-strength fibers and the polyolefin heat-sensitive-adhesive fibers. The alkaline battery separator exhibits an excellent breaking strength, and has practical and sufficient tensile strength and electrolyte-holding capacity properties.
    • 一种碱性电池隔膜,其特征在于,包括通过热熔融和水解(1)平均纤维长度为20〜60mm的聚烯烃可分割复合纤维得到的亲水性无纺布,(2)平均纤维长度为30的高强度纤维 至60mm,纤维强度为5g /旦尼尔以上,(3)平均纤维长度为30〜60mm的聚烯烃热敏粘合纤维,得到热熔融和水缠结无纺布,由 干法成网法,赋予所得热熔水解无纺布亲水性; 相对于聚烯烃可分割复合纤维,高强度纤维和聚烯烃热敏粘合纤维的总质量,这些高强度纤维占20〜45质量%。 碱性电池隔膜表现出优异的断裂强度,并且具有实用且足够的拉伸强度和电解质保持能力。
    • 7. 发明授权
    • Method for manufacturing semiconductor device and semiconductor device
    • 半导体器件和半导体器件的制造方法
    • US08299548B2
    • 2012-10-30
    • US13050813
    • 2011-03-17
    • Kanako KomatsuTsubasa YamadaJun MoriokaKoji Kimura
    • Kanako KomatsuTsubasa YamadaJun MoriokaKoji Kimura
    • H01L29/78
    • H01L29/0847H01L29/0653H01L29/0692H01L29/1045H01L29/66659H01L29/7835
    • According to one embodiment, a method is disclosed for manufacturing a semiconductor device. The method can include simultaneously forming a first field insulating film and at least one second field insulating film on a front face side of a semiconductor layer. The at least one second field insulating film is separated from the first field insulating film and thinner than the first field insulating film. The method can include forming a drift region of a first conductivity type in a region of the semiconductor layer including the first field insulating film and the second field insulating film. The method can include forming a drain region of the first conductivity type in the front face of the semiconductor layer on a side of the first field insulating film. In addition, the method can include forming a source region of the first conductivity type in the front face of the semiconductor layer on a side of the second field insulating film.
    • 根据一个实施例,公开了一种用于制造半导体器件的方法。 该方法可以包括在半导体层的正面侧同时形成第一场绝缘膜和至少一个第二场绝缘膜。 所述至少一个第二场绝缘膜与所述第一场绝缘膜分离并且比所述第一场绝缘膜更薄。 该方法可以包括在包括第一场绝缘膜和第二场绝缘膜的半导体层的区域中形成第一导电类型的漂移区。 该方法可以包括在第一场绝缘膜一侧的半导体层的正面中形成第一导电类型的漏区。 此外,该方法可以包括在第二场绝缘膜的一侧在半导体层的正面形成第一导电类型的源极区域。
    • 9. 发明授权
    • Semiconductor device capable of adjusting output impedance of external semiconductor device and output impedance adjusting method
    • 能够调整外部半导体器件的输出阻抗的半导体器件和输出阻抗调整方法
    • US07489160B2
    • 2009-02-10
    • US11812751
    • 2007-06-21
    • Koji Kimura
    • Koji Kimura
    • H03K17/16
    • H03K19/0175H03K19/0005H04L25/0278
    • In a semiconductor device capable of adjusting an output impedance of a first output impedance adjustable output buffer of an external semiconductor device connectable to the semiconductor device, a second output impedance adjustable output buffer is provided. A comparator compares a first output voltage of a real load circuit including the first output impedance adjustable output buffer with a second output voltage of a replica load circuit including the second output impedance adjustable output buffer. An output impedance control circuit transmits an output signal of the comparator to the external semiconductor device to adjust the output impedance of the first output impedance adjustable output buffer, so that the first output voltage is made equal to the second output voltage.
    • 在能够调节可连接到半导体器件的外部半导体器件的第一输出阻抗可调输出缓冲器的输出阻抗的半导体器件中,提供第二输出阻抗可调输出缓冲器。 比较器将包括第一输出阻抗可调输出缓冲器的实际负载电路的第一输出电压与包括第二输出阻抗可调输出缓冲器的复制负载电路的第二输出电压进行比较。 输出阻抗控制电路将比较器的输出信号发送到外部半导体器件,以调整第一输出阻抗可调输出缓冲器的输出阻抗,使得第一输出电压等于第二输出电压。