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    • 34. 发明授权
    • Ultrasonic processing device and electronic parts fabrication method using the same
    • 超声波处理装置及使用其的电子部件制造方法
    • US06619301B2
    • 2003-09-16
    • US09738851
    • 2000-12-15
    • Kazuki KobayashiHitoshi OnoYasunobu TagusaTomomi HikidaYuichi Maida
    • Kazuki KobayashiHitoshi OnoYasunobu TagusaTomomi HikidaYuichi Maida
    • B08B310
    • H01L21/67051B08B3/123G03F7/428H05K3/0085H05K3/26Y10S134/902
    • To provide an ultrasonic processing device that is capable of effectively carrying out a cleaning operation, a resist-stripping operation, etc. by projecting ultrasonic uniformly over an entirety of the ultrasonic processing target region by means of ultrasonic oscillation elements each having a width smaller than an ultrasonic processing target region of a processing object, as well as to provide an electronic parts fabrication method using the foregoing device, a plurality of ultrasonic oscillation elements are arranged so as to planarly extend in a glass substrate transport direction and in a glass substrate width direction, and projected figures obtained by projecting said ultrasonic oscillation elements to a plane perpendicular to the glass substrate transport direction form a single belt-like region of a width exceeding a width of the ultrasonic processing target region. The foregoing arrangement causes ultrasonic-projected regions of the ultrasonic oscillation elements to partly overlap each other on a surface of the glass substrate when the glass substrate is transported by transport rollers in the transport direction, thereby enabling ultrasonic projection over the complete entirety of the ultrasonic processing target region.
    • 为了提供能够通过超声波振荡元件均匀地超声波超声波处理对象区域的超声波均匀化而进行清洗动作,抗蚀剂剥离动作等的超声波处理装置。 处理对象的超声波处理对象区域,以及提供使用上述装置的电子部件制造方法,多个超声波振荡元件被布置成在玻璃基板输送方向和玻璃基板宽度上平面地延伸 通过将所述超声波振动元件投射到与玻璃基板输送方向垂直的平面而获得的方向和投影图形形成宽度超过超声波处理对象区域的宽度的单个带状区域。 当玻璃基板由输送辊沿输送方向输送时,上述布置使得超声波振荡元件的超声波投影区域在玻璃基板的表面上部分地彼此重叠,从而能够超过整个超声波的超声波投影 加工目标区域。
    • 36. 发明授权
    • Liquid crystal display device having phase different plates
    • 具有相位不同板的液晶显示装置
    • US06226061B1
    • 2001-05-01
    • US09047115
    • 1998-03-24
    • Yasunobu Tagusa
    • Yasunobu Tagusa
    • G02F11333
    • G02F1/13363G02F2001/133357G02F2001/133637G02F2413/02G02F2413/10
    • A liquid crystal display (LCD) device is composed of (1) an LCD element having (i) a glass substrate on which a flat portion including pixel electrodes and a flat portion including switching elements, wires, and the like are laminated with interlayer insulating films therebetween, each interlayer insulating film being an organic film with an optical transmittance of not less than 95 percent with respect to light with a peak wavelength and (ii) a liquid crystal layer made of liquid crystal whose refractive index anisotropy &Dgr;n(450) with respect to light with a wavelength of 450 nm and whose refractive index anisotropy &Dgr;n(650) with respect to light with a wavelength of 650 nm satisfy a condition that a difference &Dgr;n(450)−&Dgr;n(650) between them is set so as to be in a range of 0 to 0.01, and (2) a phase difference plate whose refractive index anisotropy is negative (na=nc>nb) and whose index ellipsoids are inclined substantially throughout the phase difference plate. By thus arranging the LCD device, phase differences depending on viewing angles which tend to occur to the LCD element are eliminated whereby the viewing angle dependence of the LCD device is suppressed, while the structure of the pixel substrate is improved, and as a result, reversal influences to a display screen are avoided.
    • 一种液晶显示器(LCD)装置由(1)一种LCD元件组成,该LCD元件具有:(i)玻璃基板,其上包括像素电极的平坦部分和包括开关元件,电线等的平坦部分层压绝缘层 每个层间绝缘膜是相对于具有峰值波长的光具有不小于95%的光透射率的有机膜,和(ii)由液晶制成的液晶层,其折射率各向异性DELTAn(450)与 相对于波长为450nm的光的折射率各向异性DELTAn(650)相对于波长为650nm的光满足条件,其之间的差DELTAn(450)-DELTAn(650)被设定为使得 在0〜0.01的范围内,(2)折射率各向异性为负的相位差板(na = nc> nb),其折射率椭圆体基本上贯穿整个相位差板。 通过这样布置LCD装置,消除了倾向于LCD元件发生的视角的相位差,从而抑制了LCD装置的视角依赖性,同时改善了像素基板的结构,结果, 避免了对显示屏的反转影响。