会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 62. 发明公开
    • 감광성 수지 조성물
    • 感光树脂组合物
    • KR1020080108607A
    • 2008-12-15
    • KR1020087027205
    • 2007-04-26
    • 아사히 가세이 일렉트로닉스 가부시끼가이샤
    • 히메다유카리도미타히로아키아다치데루히코
    • G03F7/027G03F7/028
    • G03F7/033G03F7/029G03F7/031C08F2/50C08F290/06G03F7/027G03F7/032G03F7/092
    • A photosensitive resin composition which is excellent in sensitivity, resolution, and adhesion, has satisfactory hue stability with respect to coloring and color fading during dry film storage, and can be developed with an alkaline aqueous solution; a layered photosensitive-resin product including the photosensitive resin composition; a method of forming a resist pattern on a substrate with the layered photosensitive-resin product; and a use of the resist pattern. The photosensitive resin composition is characterized by comprising: (a) 20-90 mass% thermoplastic copolymer which contains comonomer units derived from an alpha,beta-unsaturated carboxylated monomer and has an acid equivalent of 100-600 and a weight-average molecular weight of 5,000-500,000; (b) 5-75 mass% addition-polymerizable monomer having at least one terminal ethylenically unsaturated group; (c) 0.01-30 mass% photopolymerization initiator; (d) 0.01-5 mass% phosphorous ester compound; and (e) 0.001-0.3 mass% basic dye. ® KIPO & WIPO 2009
    • 敏感性,分辨率和粘合性优异的感光性树脂组合物在干燥膜保存时的着色和褪色色调稳定性良好,可以用碱性水溶液显影。 包含感光性树脂组合物的层状感光性树脂制品; 使用层状感光性树脂制品在基板上形成抗蚀剂图案的方法; 以及抗蚀剂图案的使用。 感光性树脂组合物的特征在于:(a)20-90质量%的热塑性共聚物,其含有衍生自α,β-不饱和羧化单体的共聚单体单元,其酸当量为100-600,重均分子量为 5000〜500000; (b)5-75质量%具有至少一个末端烯属不饱和基团的可加成聚合单体; (c)0.01-30质量%光聚合引发剂; (d)0.01〜5质量%的磷酯化合物; 和(e)0.001-0.3质量%的碱性染料。 ®KIPO&WIPO 2009
    • 63. 发明公开
    • 도전성 충전재
    • 导电填料
    • KR1020080108365A
    • 2008-12-12
    • KR1020087028527
    • 2007-06-26
    • 아사히 가세이 일렉트로닉스 가부시끼가이샤
    • 다나까,노리히또시라또리,쯔요시
    • B23K35/26
    • H05K3/3484B23K35/262B23K35/30C22C13/02H05K2201/0272
    • Disclosed is a conductive filler which can be fusion-bonded under lower temperature conditions (with the peak temperature of not less than 181‹C) than the reflow heat treatment conditions for an Sn-37Pb eutectic solder. This conductive filler is applicable to heat-resistant uses similar to those of the Sn-37Pb eutectic solder. The conductive filler is a mixture of first metal particles composed of an alloy having a chemical composition including 25-40% by mass of Ag, 2-8% by mass of Bi, 5-15% by mass of Cu, 2-8% by mass of In and 29-66% by mass of Sn, and second metal particles composed of an alloy having a chemical composition including 5-20% by mass of Ag, 10-20% by mass of Bi, 1-15% by mass of Cu and 50-80% by mass of Sn. In the mixture, 20-10,000 parts by mass of the second metal particles are contained per 100 parts by mass of the first metal particles. ® KIPO & WIPO 2009
    • 公开了一种导电填料,其可以在低于Sn-37Pb共晶焊料的回流热处理条件的较低温度条件下(峰值温度不低于181℃)进行熔融粘合。 该导电填料适用于与Sn-37Pb共晶焊料类似的耐热用途。 导电性填料是由Ag,25〜40质量%,Bi:2-8质量%,Cu:5〜15质量%,Cu:2-8质量% 的In和29-66质量%的Sn,第二金属粒子由化学成分含有5〜20质量%的Ag,10〜20质量%的Bi,1-15质量% Cu的质量和Sn的50〜80质量%。 在该混合物中,每100质量份的第一金属粒子含有20〜10000质量份的第二金属粒子。 ®KIPO&WIPO 2009
    • 66. 发明公开
    • 감광성 수지 적층체
    • 光敏树脂层状产品
    • KR1020080096700A
    • 2008-10-31
    • KR1020087022291
    • 2007-03-09
    • 아사히 가세이 일렉트로닉스 가부시끼가이샤
    • 고타니유조
    • G03F7/031G03F7/028
    • G03F7/032G03F7/0007G03F7/0388G03F7/027C08F2/50C08F20/18G02B5/223G02F1/133512G03F7/028G03F7/033H05K3/0076
    • A photosensitive-resin layered product which, when used in forming a resinous black matrix, is excellent in sensitivity, light-shutting properties, thin-line adhesion, line-width stability in overdevelopment, transferability, and productivity. When used in forming color pixels, the photosensitive-resin layered product has high sensitivity. The photosensitive-resin layered product comprises a support layer and a photosensitive resin layer superposed thereon, wherein the photosensitive resin layer is made of a photosensitive resin composition comprising: 3-40 mass% alkali-soluble polymer represented by the following formula (I); 1-40 mass% specific alkali-soluble polymer; 3-25 mass% photopolymerizable compound having an ethylenically unsaturated double bond; 0.1-20 mass% photopolymerization initiator; and 40-70 mass% coloring pigment, the proportion of the alkali-soluble polymer represented by the formula (I) to the specific alkali-soluble polymer (mass ratio) being from 1:5 to 16:1.
    • 用于形成树脂黑色矩阵的感光性树脂层叠体的灵敏度,遮光性,薄线粘合性,过度发展的线宽稳定性,转印性和生产率优异。 当用于形成彩色像素时,感光树脂层叠体具有高灵敏度。 光敏树脂层叠体包含支撑层和叠置在其上的感光性树脂层,感光性树脂层由感光性树脂组合物构成,该感光性树脂组合物含有下述通式(I)表示的3-40质量%的碱溶性聚合物。 1-40质量%的碱溶性聚合物; 3-25质量%具有烯属不饱和双键的光聚合化合物; 0.1-20质量%光聚合引发剂; 和40-70质量%着色颜料,由式(I)表示的碱溶性聚合物与特定碱溶性聚合物的比例(质量比)为1:5至16:1。
    • 67. 发明公开
    • 트랜스컨덕턴스 앰프
    • TRANSCONDUCTANCE放大器
    • KR1020080091357A
    • 2008-10-10
    • KR1020087018768
    • 2007-07-26
    • 아사히 가세이 일렉트로닉스 가부시끼가이샤
    • 아이바유스케
    • H03F3/34H03F3/45H03G3/10
    • H03G1/0029H03F3/45188H03F2203/45078H03F2203/45288H03F2203/45302
    • A transconductance amplifier having a transconductance tunable in a wider range while the linearity between the input voltage and output current over the whole predetermined operation input range is maintained. An example of the invention comprises a differential pair composed of source-grounded first and second MOS transistors (111, 112), third and fourth transistors (113, 114) whose source terminals are connected to the respective drain terminals of the first and second transistors (111, 112), a voltage generating circuit (300) for outputting a tuning voltage and a common voltage at a constant ratio of the common and tuning voltages, and a differential pair input voltage generating circuit (320) which receives the input voltage and the common voltage and outputs a voltage Vip and a voltage Vin to the respective gate terminals of the first and second transistors (111, 112). The gate terminal of the fourth transistor (114) is connected to the gate terminal of the third transistors (113), and the tuning voltage is inputted to both gate terminals.
    • 跨导放大器具有在更宽范围内可调谐的跨导,同时维持在整个预定操作输入范围内的输入电压和输出电流之间的线性度。 本发明的示例包括由源极接地的第一和第二MOS晶体管(111,112)构成的差分对,其源极端子连接到第一和第二晶体管的各个漏极端子的第三和第四晶体管(113,114) (111,112),用于以公共和调谐电压的恒定比例输出调谐电压和公共电压的电压产生电路(300)和接收输入电压的差分对输入电压产生电路(320),以及 公共电压并将电压Vip和电压Vin输出到第一和第二晶体管(111,112)的各个栅极端子。 第四晶体管(114)的栅极端子连接到第三晶体管(113)的栅极端子,并且调谐电压被输入到两个栅极端子。
    • 70. 发明公开
    • 진행 방향 계측 장치 및 진행 방향 계측 방법
    • 先进的方向测量装置和先进的方向测量方法
    • KR1020070110107A
    • 2007-11-15
    • KR1020077022029
    • 2006-03-28
    • 아사히 가세이 일렉트로닉스 가부시끼가이샤
    • 기따무라도오루야마시따마사야
    • G01S5/02
    • A61B5/1112A61B5/1126A61B2562/0219G01C21/20G01C22/006G01P13/02G08G1/005
    • An advancing direction measurement device capable of being used as a navigation device for a walker, the device being used indoors where a GPS cannot be used and at a place in the vicinity of a high-rise building where sufficient positioning accuracy is not achievable. An acceleration detection section (1) detects three-axis acceleration, varying as the walker walks, of the advancing direction measurement device, and an acceleration output data acquisition section (2) repeatedly obtains, by the number of times equal to or greater than a predetermined level, the three-axis acceleration output data varying as the walker walks and detected by the acceleration detection section (1). When the walker walks while holding the advancing direction measurement device in a substantially fixed attitude, a first gravitational acceleration calculation section (3) calculates gravitational acceleration by averaging acceleration data groups being within a time period corresponding to several walking steps and obtained by an acceleration output data acquisition section (2). Then, a first movement direction estimation section (4) estimates the direction of movement of the walker based on a frequency component corresponding to a time period of one step of acceleration data projected on a plane that is orthogonal to the gravitational acceleration calculated by the first gravitational acceleration calculation section (3).
    • 一种能够用作行人导航装置的前进方向测量装置,该装置在室内使用GPS不能使用,并且在不能实现足够的定位精度的高层建筑附近的地方使用。 加速度检测部(1)检测行进方向测定装置的随行人行走而变化的三轴加速度,加速度输出数据取得部(2)反复取得等于或大于 所述三轴加速度输出数据随着步行者行进并被加速度检测部(1)检测而变化。 当行走者沿着前进方向测量装置保持基本上固定的姿态时行走时,第一重力加速度计算部(3)通过对加速度数据组进行平均来计算重力加速度,所述加速度数据组在与几个步行步骤相应的时间段内,并且通过加速度输出 数据采集​​部分(2)。 然后,第一移动方向估计部(4)基于与由第一移动方向估计部(4)计算出的与重力加速度正交的平面上投影的加速度数据的一个步骤的时间段对应的频率分量来估计步行者的移动方向 重力加速度计算部(3)。