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    • 82. 发明申请
    • Liquid crystal lens and imaging lens device
    • 液晶镜头和摄像镜头装置
    • US20070216851A1
    • 2007-09-20
    • US11711725
    • 2007-02-28
    • Kenji Matsumoto
    • Kenji Matsumoto
    • G02F1/13
    • G02F1/29G02F1/13306G02F1/133526G02F1/1347G02F2001/294
    • The present invention provides an imaging lens device, which has a widely extended focusing range and exhibits good resolution over the entire focusing range. The imaging lens device comprises a liquid crystal lens for focusing an object at a prescribed distance, comprising a liquid crystal layer, a first transparent substrate disposed adjacent to one surface of the liquid crystal layer and having a first electrode and having Fresnel lens surface formed on the boundary with the liquid crystal layer, a second transparent substrate disposed adjacent to the other surface of the liquid crystal layer and having a second electrode; a controller for changing the refractive index of the liquid crystal layer for extraordinary ray by changing electric voltage applied between the first electrode and the second electrode; and an imaging element for taking an image of the object. The liquid crystal lens functions as a diffractive optical element for an extraordinary ray when the liquid crystal layer has a prescribed refractive index for an extraordinary ray incident upon the liquid crystal layer.
    • 本发明提供了一种成像透镜装置,其具有广泛的聚焦范围,并且在整个聚焦范围内表现出良好的分辨率。 该成像透镜装置包括用于将物体聚焦在规定距离处的液晶透镜,包括液晶层,与液晶层的一个表面相邻设置的第一透明基板,并具有第一电极并且具有形成在菲涅尔透镜表面上的菲涅尔透镜表面 与液晶层的边界,与液晶层的另一个表面相邻设置并具有第二电极的第二透明基板; 控制器,用于通过改变施加在第一电极和第二电极之间的电压来改变用于异常射线的液晶层的折射率; 以及用于拍摄对象的图像的成像元件。 当液晶层对于入射到液晶层的异常光线具有规定的折射率时,液晶透镜用作非常光线的衍射光学元件。
    • 87. 发明授权
    • Gallium nitride based semiconductor laser and image exposure device
    • 基于氮化镓的半导体激光器和图像曝光装置
    • US07113530B2
    • 2006-09-26
    • US10329511
    • 2002-12-27
    • Kenji MatsumotoToshiro Hayakawa
    • Kenji MatsumotoToshiro Hayakawa
    • H01S5/00
    • B41J2/45H01S5/32341
    • In order to obtain a visually high quality image with excellent sharpness using a silver halide photosensitive material, it is necessary to reduce the ratio of EL light in the light output from a GaN based laser diode to 20% or less. For example, when the light intensity measured on a sheet of photosensitive paper is 0.05 mW, the thickness of a waveguide is 3 nm and the width of the waveguide is 3 μm, this condition is satisfied with a length of a resonator being 1 mm or less. In other words, a waveguide width W1 and a resonator length L are set such that the product of the waveguide width W1 and the resonator length L (W1·L) becomes 0.003 mm2 or less. This reduces the output ratio of the EL light, and a high quality image with excellent sharpness can be obtained when a silver halide photosensitive material is exposed.
    • 为了使用卤化银感光材料获得具有优异清晰度的视觉上高质量的图像,需要将从GaN基激光二极管输出的光的EL光的比例降低到20%以下。 例如,当在一张感光纸上测量的光强度为0.05mW时,波导的厚度为3nm,波导的宽度为3μm,该条件满足谐振器的长度为1mm或 减。 换句话说,波导宽度W 1和谐振器长度L被设定为使得波导宽度W 1和谐振器长度L(W 1·L)的乘积成为0.003mm以下2以下 。 这降低了EL光的输出比,并且当曝光卤化银感光材料时可以获得具有优异清晰度的高质量图像。
    • 88. 发明授权
    • Wireless microphone system, voice receiving apparatus, and wireless microphone
    • US06987949B2
    • 2006-01-17
    • US10283446
    • 2002-10-30
    • Shohei TaniguchiKenji Matsumoto
    • Shohei TaniguchiKenji Matsumoto
    • H04B15/00
    • H04R1/083H04R3/005H04R2420/07
    • Herein disclosed is a wireless microphone system comprising a plurality of wireless microphones each having a microphone storage area having a unique global identification element stored therein, each of the wireless microphones operative to collect a voice, convert the voice thus collected into an audio signal, and transmit the audio signal and the global identification element; and a voice receiving apparatus for receiving the audio signal and the global identification element from a wireless microphone. The voice receiving apparatus includes a storage section for storing an identification table including a plurality of local identification elements in association with a plurality of global identification elements. The voice receiving apparatus is operative to assign a local identification element to the wireless microphone in accordance with the global identification element with reference to the identification table stored in the storage section, and transmit the local identification element to the wireless microphone, and the wireless microphone is operative to receive the local identification element, store the local identification element in the microphone storage area, and communicate with the voice receiving apparatus with the local identification element thus stored.