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    • 2. 发明授权
    • Optical pickup apparatus
    • 光拾取装置
    • US07665101B2
    • 2010-02-16
    • US11424786
    • 2006-06-16
    • Chikashi YoshinagaKenichi Takeuchi
    • Chikashi YoshinagaKenichi Takeuchi
    • G11B7/22G11B7/08
    • G11B7/13G11B7/12
    • An optical pickup apparatus comprises a photo detector that receives light reflected from a medium; and a housing that is mounted with the photo detector. The photo detector is fixed to the housing with the use of an adhesive to mount the photo detector on the housing. The housing is provided with a displacement preventer that prevents displacement of the photo detector or the adhesive relative to the housing. The displacement preventer has fixing portions that extend along a plurality of directions. The photo detector is mounted on the housing by applying the adhesive to the displacement preventer.
    • 光学拾取装置包括:光电检测器,其接收从介质反射的光; 以及安装有光电检测器的外壳。 光检测器通过使用粘合剂固定到壳体上以将光电检测器安装在壳体上。 壳体设置有防止光检测器或粘合剂相对于壳体的位移的位移防止器。 位移防止器具有沿着多个方向延伸的固定部。 通过将粘合剂施加到位移防止器来将光电检测器安装在壳体上。
    • 4. 发明申请
    • Semiconductor device manufacturing method and apparatus used in the semiconductor device manufacturing method
    • 半导体装置的制造方法和装置
    • US20060046349A1
    • 2006-03-02
    • US11129292
    • 2005-05-16
    • Kenichi Takeuchi
    • Kenichi Takeuchi
    • H01L21/50
    • G03F7/70983H01L23/3114H01L2924/0002H01L2924/00
    • A semiconductor device manufacturing method includes forming circuit devices and a plurality of electrode pads within a semiconductor chip formation region. The method also includes forming, on the main surface of the semiconductor wafer, an insulating film which exposes a portion of each of the electrode pads. The method also includes forming a conducting film covering the electrode pads, on the insulating film, and forming a wiring layer on the conducting film. The method also includes forming a negative resist layer in the semiconductor chip formation region and a peripheral region. The method also includes covering protruding electrode formation regions in the semiconductor chip formation region and covering electrode portion formation regions in the peripheral region, and performing optical exposure of the negative resist layer. The method also includes forming aperture portions in the protruding electrode formation regions and a plurality of electrode portions. The aperture portions expose a portion of the wiring layer. The electrode portions are formed by exposing the conducting film. The method also includes performing plating using the resist layer as a mask to form protruding electrodes.
    • 半导体器件制造方法包括在半导体芯片形成区域内形成电路器件和多个电极焊盘。 该方法还包括在半导体晶片的主表面上形成暴露每个电极焊盘的一部分的绝缘膜。 该方法还包括在绝缘膜上形成覆盖电极焊盘的导电膜,并在导电膜上形成布线层。 该方法还包括在半导体芯片形成区域和外围区域中形成负的抗蚀剂层。 该方法还包括覆盖半导体芯片形成区域中的突出电极形成区域和周边区域中的覆盖电极部分形成区域,并进行负光刻胶层的光学曝光。 该方法还包括在突出电极形成区域中形成开口部分和多个电极部分。 开口部露出布线层的一部分。 电极部分通过暴露导电膜形成。 该方法还包括使用抗蚀剂层作为掩模进行电镀以形成突出的电极。
    • 6. 发明授权
    • L-&agr;-glycerophosphate oxidase gene, recombinant DNA, and method for producing modified L-&agr;-glycerophosphate oxidase gene
    • L-α-甘油磷酸酯氧化酶基因,重组DNA,以及生产修饰的L-α-甘油磷酸氧化酶基因的方法
    • US06303357B1
    • 2001-10-16
    • US09537682
    • 2000-03-29
    • Kenichi TakeuchiYoshinao KoideYuji NakanishiSatoru Suzuki
    • Kenichi TakeuchiYoshinao KoideYuji NakanishiSatoru Suzuki
    • C12N904
    • C12N9/0006
    • This invention provides an L-&agr;-glycerophosphate oxidase (GPO) having excellent properties such as stability, heat resistance and reactivity. A recombinant GPO obtained by replacing an amino acid of a specified position of an amino acid sequence deduced from the Enterococcus faecium No. 7044 GPO gene or DNA coding for the GPO with other amino acid has excellent thermal stability and reactivity. That is, the invention provides modified forms of the GPO having the amino acid sequence of Sequence No. 1 in the Sequence Listing, in which the 130-position leucine counting from the N-terminus of the GPO is replaced by other amino acid and/or the 225-position serine counting from the N-terminus of the GPO is replaced by other amino acid and/or the 298-position threonine counting from the N-terminus of the GPO is replaced by other amino acid and/or the 420-position aspartic acid counting from the N-terminus of the GPO is replaced by other amino acid.
    • 本发明提供了具有优异性能如稳定性,耐热性和反应性的L-α-甘油磷酸酯氧化酶(GPO)。 通过将来自屎肠球菌屎肠杆菌No.7044GPO基因的氨基酸序列的特定位置的氨基酸或其它氨基酸的编码GPO的DNA取代而获得的重组GPO具有优异的热稳定性和反应性。 也就是说,本发明提供具有序列表中序列号1的氨基酸序列的GPO的修饰形式,其中从GPO的N末端计数的130位亮氨酸被其它氨基酸和/ 或从GPO的N末端计数的225位丝氨酸被其他氨基酸替代,和/或从GPO的N末端计数的298位苏氨酸被其它氨基酸和/或420- 从GPO的N末端计数天冬氨酸的位置被其他氨基酸取代。
    • 8. 发明授权
    • Film type battery
    • 薄膜式电池
    • US5378557A
    • 1995-01-03
    • US39158
    • 1993-04-07
    • Kazuo MurataKenichi TakeuchiSyuichi IzuchiShiro Kato
    • Kazuo MurataKenichi TakeuchiSyuichi IzuchiShiro Kato
    • H01M2/02H01M2/08
    • H01M2/08H01M2/0212
    • In a film type battery comprising a generating element which is formed by laminating a negative active material, an electrolyte and a positive active material into a layer shape, (1, 2, 3), terminal plates (5, 6) which are installed on and under the generating element and serve also as a current collector and a container, and a frame-shaped sealing material (4) which is installed on peripheral edges of the terminal plates, seals the generating element in between the both terminal plates and insulates one terminal plate from the other; the sealing material is improved. For example, the sealing material is formed into a vertical-type multi-layer structure, in which at least one layer is composed of a layer (41, 42) comprising metal and the other layer (43) is composed of an electric insulator. Thereby, a mechanical strength of the sealing material or a battery becomes large and the battery becomes hard to be bent. Accordingly, an ingress of atmosphere from a sealing portion and a leakage of electrolyte therefrom can be prevented, a deterioration of battery performance can be prevented, and a long-term reliability can be improved.
    • PCT No.PCT / JP92 / 01007 Sec。 371日期:1993年4月7日 102(e)日期1993年4月7日PCT提交1992年8月6日PCT公布。 出版物WO93 / 03504 日期:1993年2月18日。在一种薄膜型电池中,包括通过将负极活性材料,电解质和正极活性物质层叠成层状而形成的发生元件,(1,2,3),端子板(5) ,6),其安装在发电元件上和下面,也用作集流器和容器,以及安装在端子板的周缘上的框形密封材料(4),密封发电元件之间 两个端子板和一个端子板与另一个端子板绝缘; 密封材料得到改善。 例如,密封材料形成垂直型多层结构,其中至少一层由包含金属的层(41,42)构成,另一层(43)由电绝缘体构成。 由此,密封材料或电池的机械强度变大,电池变得难弯曲。 因此,能够防止从密封部进入气氛和电解液的泄漏,能够防止电池性能的劣化,能够提高长期的可靠性。