子分类:
- G02F2201/02: .光纤
- G02F2201/04: .单模
- G02F2201/05: .多模
- G02F2201/06: .集成波导
- G02F2201/07: .缓冲层
- G02F2201/08: .光吸收层
- G02F2201/12: .电极
- G02F2201/14: .不对称的
- G02F2201/15: .周期的
- G02F2201/16: .系列;串联
- G02F2201/17: .多通道布置,即使光多次通过相同的元件,例如通过使用增强空腔
- G02F2201/18: .平行
- G02F2201/20: .延迟线
- G02F2201/30: .光栅
- G02F2201/34: .反射镜
- G02F2201/36: .气流通道,例如促进空气流动的结构布置
- G02F2201/38: .抗反射布置
- G02F2201/40: .提高孔径比的布置
- G02F2201/42: .通过绝缘衬底提供导通的布置
- G02F2201/44: .结合不同的电活性层的布置,例如电致变色,液晶或电致发光层
- G02F2201/46: .固定元件
- G02F2201/48: .平整布置
- G02F2201/50: .保护布置
- G02F2201/52: .RGB几何布置
- G02F2201/54: .用于减少翘曲捻的布置
- G02F2201/56: .具有特定形状的基片,例如非矩形
- G02F2201/58: .包含光电探测器的布置
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 光学元件及制造方法、形成光学元件的复制基板及制造方法 | CN200810085972.X | 2008-06-06 | CN101320104A | 2008-12-10 | 远藤惣铭; 永井透; 林部和弥 |
| 本发明提供了一种光学元件及其制造方法、被配置为形成光学元件的复制基板及其制造方法,其中,光学元件包括基体和以细微的间距排列在基体的表面上的多个结构体,每个结构体成凸部或凹部的形式,其中,这些结构体构成多个弧形轨道,以及在每相邻的三行弧形轨道上的结构体以四方晶格图样或准四方晶格图样排列。 | ||||||
| 2 | 光学元件及制造方法、形成光学元件的复制基板及制造方法 | CN200810085972.X | 2008-06-06 | CN101320104B | 2012-12-05 | 远藤惣铭; 永井透; 林部和弥 |
| 本发明提供了一种光学元件及其制造方法、被配置为形成光学元件的复制基板及其制造方法,其中,光学元件包括基体和以细微的间距排列在基体的表面上的多个结构体,每个结构体成凸部或凹部的形式,其中,这些结构体构成多个弧形轨道,以及在每相邻的三行弧形轨道上的结构体以四方晶格图样或准四方晶格图样排列。 | ||||||
| 3 | Communication device, on-vehicle communication system, and inspection method | US14364036 | 2012-12-06 | US09762431B2 | 2017-09-12 | Kazuhiko Nii; Takeshi Hagihara; Nobuyuki Nakagawa |
| A communication device includes a first resistance connected between a first reference potential and a midway point of one of a pair communication lines connected to a coil, a second resistance and a third resistance arranged in series so as to be connected between a second reference potential different from the first reference potential and a midway point of the other one of the pair communication lines, and a switch configured to open or close a path between the first resistance and the first reference potential. | ||||||
| 4 | COMMUNICATION DEVICE, ON-VEHICLE COMMUNICATION SYSTEM AND INSPECTION METHOD | US14364036 | 2012-12-06 | US20140355452A1 | 2014-12-04 | Kazuhiko Nii; Takeshi Hagihara; Nobuyuki Nakagawa |
| A communication device includes a first resistance connected between a first reference potential and a midway point of one of a pair communication lines connected to a coil, a second resistance and a third resistance arranged in series so as to be connected between a second reference potential different from the first reference potential and a midway point of the other one of the pair communication lines, and a switch configured to open or close a path between the first resistance and the first reference potential. | ||||||
| 5 | ELECTRICAL CONNECTOR AND BACKLIGHT MODULE USING THE SAME | US13586287 | 2012-08-15 | US20130063979A1 | 2013-03-14 | Hui-Hsiung Chen; Wei-Jen Lai |
| The invention provides an electrical connector and a backlight module using that electrical connector. The electrical connector includes a body and two conducting lines. The body is provided with first and second connecting portions, the former of which has a first connecting surface and the latter has a second connecting surface. An invariable relative angle is defined between the first and second connecting surfaces. The conducting lines are coated on the first and second connecting surfaces without crossing each other. The backlight module includes a light guide plate, two LED light bars mounted to two respective light receiving edges of the light guide plate, and an aforesaid electrical connector connecting the LED light bars. The electrical connector is electrically connected with the LED light bars and fixes their relative positions. Besides, it is easy to install the electrical connector to connect the LED light bars firmly. | ||||||
| 6 | 通信装置、車載通信システム及び検査方法 | JP2013548296 | 2012-12-06 | JPWO2013084998A1 | 2015-04-27 | 和彦 二井; 剛志 萩原; 信之 中川 |
| 一方の通信線14aの途中から基準電圧に接続する第1抵抗R1と、他方の通信線14bの途中から接地電圧に接続すべく直列に配置された第2抵抗R2及び第3抵抗R3と、第1抵抗R1及び基準電圧間を開閉するスイッチQ1とを通信装置14に設ける。そして、スイッチQ1を閉じた場合に、第2抵抗R2及び第3抵抗R3間の電位を検出し、検出した電位、電源電圧、基準電圧、接地電圧、並びに第1抵抗、第2抵抗及び第3抵抗の抵抗値に基づいて異常の有無及び種類を検査する。 | ||||||
| 7 | Connector and a backlight module to use it | JP2012000647 | 2012-02-08 | JP3175088U | 2012-04-19 | 威仁 ▲頼▼; 輝雄 陳 |
| 【課題】 二つの直線型LEDランプを電気的に接続させると同時に二つの直線型LEDランプの相対的位置を固定することができるだけでなく使用方法を簡単化し、時間を省き、接続効果を安定させることができるコネクターを提供する。
【解決手段】 コネクター60は、本体70および二つの導電回路82、84を備える。 本体70は、第一接続部71および第二接続部72を有する。 第一接続部71および第二接続部72は、第一接続面714および第二接続面724を有する。 第一接続面714および第二接続面724は、所定の角度をなすように形成される。 二つの導電回路82、84は、互いに交差せず、本体70の第一接続面714および第二接続面724に分布するように配置され、二つの直線型LEDランプとの電気的接続に用いられる。 【選択図】図3 |
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| 8 | COMMUNICATION DEVICE, ON-VEHICLE COMMUNICATION SYSTEM, AND INSPECTION METHOD | EP12855760.0 | 2012-12-06 | EP2789509B1 | 2017-05-24 | NII, Kazuhiko; HAGIHARA, Takeshi; NAKAGAWA, Nobuyuki |
| 9 | Display device for notebook computer | US14324708 | 2014-07-07 | US09195270B2 | 2015-11-24 | Li-Wei Liu |
| A display device includes a cover having an inner surface, and a clamping unit provided on the inner surface and having two spaced-apart clamping arms. A display panel includes a protruding portion protruding from a frame thereof, corresponding in position to the clamping unit, and formed with a through hole. The bezel includes a through hole formed in a bezel body thereof and registered with the through hole in the protruding portion. The shock absorbing positioner includes a positioning post protruding from a pad body thereof. The positioning post extends through the through holes in the bezel body and the protruding portion, and is clamped between the clamping arms, thereby fixing together the bezel, the display panel and the cover. | ||||||
| 10 | Electrical connector and backlight module using the same | US13586287 | 2012-08-15 | US08985807B2 | 2015-03-24 | Chen Hui-Hsiung; Lai Wei-Jen |
| The invention provides an electrical connector and a backlight module using that electrical connector. The electrical connector includes a body and two conducting lines. The body is provided with first and second connecting portions, the former of which has a first connecting surface and the latter has a second connecting surface. An invariable relative angle is defined between the first and second connecting surfaces. The conducting lines are coated on the first and second connecting surfaces without crossing each other. The backlight module includes a light guide plate, two LED light bars mounted to two respective light receiving edges of the light guide plate, and an aforesaid electrical connector connecting the LED light bars. The electrical connector is electrically connected with the LED light bars and fixes their relative positions. Besides, it is easy to install the electrical connector to connect the LED light bars firmly. | ||||||
| 11 | Display Device for Notebook Computer | US14324708 | 2014-07-07 | US20140321042A1 | 2014-10-30 | Li-Wei LIU |
| A display device includes a cover having an inner surface, and a clamping unit provided on the inner surface and having two spaced-apart clamping arms. A display panel includes a protruding portion protruding from a frame thereof, corresponding in position to the clamping unit, and formed with a through hole. The bezel includes a through hole formed in a bezel body thereof and registered with the through hole in the protruding portion. The shock absorbing positioner includes a positioning post protruding from a pad body thereof. The positioning post extends through the through holes in the bezel body and the protruding portion, and is clamped between the clamping arms, thereby fixing together the bezel, the display panel and the cover. | ||||||
| 12 | Coupling between optical devices | US13385339 | 2012-02-13 | US20130209033A1 | 2013-08-15 | Bradley Jonathan Luff; Mehdi Asghari; Dazeng Feng |
| A base device has a first waveguide positioned on a first base. The waveguide is at least partially defined by a ridge extending away from the first base. An auxiliary optical device has a second waveguide positioned on a second base. The second optical device is immobilized on the base device such that the second waveguide is between the first base of the first optical device and the second base of the auxiliary device. The first waveguide is optically aligned with the second waveguide such that the first waveguide and second waveguides can exchange optical signals. | ||||||
| 13 | Optical element, replica substrate configured to form optical element | US12133158 | 2008-06-04 | US08027090B2 | 2011-09-27 | Sohmei Endoh; Tohru Nagai; Kazuya Hayashibe |
| An optical element includes a base and many structures arranged at a fine pitch on a surface of the base, each of the structures being in the form of a projection or a depression, in which the structures constitute a plurality of arc tracks, and the structures in every three adjacent rows of the arc tracks are arranged in a tetragonal lattice pattern or a quasi-tetragonal lattice pattern. | ||||||
| 14 | OPTICAL ELEMENT, METHOD FOR PRODUCING SAME, REPLICA SUBSTRATE CONFIGURED TO FORM OPTICAL ELEMENT, AND METHOD FOR PRODUCING REPLICA SUBSTRATE | US12133158 | 2008-06-04 | US20080304155A1 | 2008-12-11 | Sohmei Endoh; Tohru Nagai; Kazuya Hayashibe |
| An optical element includes a base and many structures arranged at a fine pitch on a surface of the base, each of the structures being in the form of a projection or a depression, in which the structures constitute a plurality of arc tracks, and the structures in every three adjacent rows of the arc tracks are arranged in a tetragonal lattice pattern or a quasi-tetragonal lattice pattern. | ||||||
| 15 | COMMUNICATION DEVICE, VEHICLE-MOUNTED COMMUNICATION SYSTEM, AND INSPECTION METHOD | EP12855760 | 2012-12-06 | EP2789509A4 | 2015-12-23 | NII KAZUHIKO; HAGIHARA TAKESHI; NAKAGAWA NOBUYUKI |
| 16 | COMMUNICATION DEVICE, VEHICLE-MOUNTED COMMUNICATION SYSTEM, AND INSPECTION METHOD | EP12855760.0 | 2012-12-06 | EP2789509A1 | 2014-10-15 | NII, Kazuhiko; HAGIHARA, Takeshi; NAKAGAWA, Nobuyuki |
A communication device 14 is provided with: the first resistance R1 connected to a reference potential from the midway of one communication line 14a; the second resistance R2 and third resistance R3 arranged in series so as to be connected to the ground voltage from the midway of the other communication line 14; and a switch Q1 opening and closing between the first resistance R1 and the reference voltage. When the switch Q1 is closed, the potential between the second resistance R2 and the third resistance R3 is detected, and the presence/absence and the type of abnormality is inspected based on the detected potential, a power supply voltage, a reference voltage and a ground voltage as well as the resistance values of the first resistance, second resistance and third resistance. |
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| 17 | 광학 소자 및 그 제조 방법과 광학 소자 제작용 복제 기판및 그 제조 방법 | KR1020080052133 | 2008-06-03 | KR1020080107276A | 2008-12-10 | 엔도,소메이; 나가이,토오루; 하야시베,카즈야 |
| An optical element is provided to have superior anti-reflection property and high permeability by forming a plurality of pitches on the bottom of the structure, so improving productivity. An optical element includes base(2) and a structure(3), convex part or the concave type, arranged on the surface of the gas as the fine pitch. In the structure, a plurality of arched shape tracks are formed and tetragonal or quasi-tetragonal lattice are arranged between adjacent three rows(T1, T2, T3, T4, T5) track. The structure has an elliptical cone and the center of the elliptical cone is steeper than that of the end part or bottom of the structure. | ||||||
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