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
    • 1. 发明授权
    • Pellicle
    • 薄膜
    • US06960381B2
    • 2005-11-01
    • US10634877
    • 2003-08-06
    • Ikuo MatsukuraNaoko ShirotaNana TsushimaKiyoshi YamamotoReiko Kakita
    • Ikuo MatsukuraNaoko ShirotaNana TsushimaKiyoshi YamamotoReiko Kakita
    • B32B3/02B32B27/00B44F1/00G02B1/04G02F1/13G03F1/62H01L21/027
    • G03F1/62Y10T428/161Y10T428/3154
    • A pellicle is used for a photolithographic patterning process using a light having a wavelength of from 100 to 200 nm. The pellicle contains a pellicle membrane containing (A) a substantially linear fluoropolymer which has an alicyclic structure in its main chain, the main chain being a chain of carbon atoms, and the fluropolymer satisfying the following requirements (1) the carbon atoms in the main chain of the fluoropolymer contain a carbon atom having at least one hydrogen atom bonded thereto and a carbon atom having no hydrogen atom bonded thereto; and (2) in the measurement of a high resolution proton magnetic resonance spectrum of the fluoropolymer, a number of hydrogen atoms based on signals appearing on the higher magnetic field side higher than 2.8 ppm, is at most 6 mol % based on a total number of hydrogen atoms.
    • 将防护薄膜组件用于使用波长为100至200nm的光的光刻图案化工艺。 防护薄膜组件包含一种防护薄膜组件,其含有(A)基本上为直链的含氟聚合物,其主链具有脂环结构,主链为碳链,氟聚合物满足以下要求(1)主要碳原子 含氟聚合物的链含有具有与其键合的至少一个氢原子的碳原子和与其结合的不具有氢原子的碳原子; 和(2)在含氟聚合物的高分辨率质子磁共振谱的测定中,基于高于2.8ppm的较高磁场侧出现的信号,基于总数多至6mol%的氢原子数 的氢原子。
    • 4. 发明授权
    • Optical member inspection apparatus, image-processing apparatus, image-processing method, and computer readable medium
    • 光学构件检查装置,图像处理装置,图像处理方法和计算机可读介质
    • US06687396B1
    • 2004-02-03
    • US09361170
    • 1999-07-27
    • Masayuki SugiuraKiyoshi YamamotoTaichi Nakanishi
    • Masayuki SugiuraKiyoshi YamamotoTaichi Nakanishi
    • G06K900
    • G01M11/0278G01M11/0257
    • The image pick-up device picks up an image of the inspection target optical member whenever it rotates a predetermined angle. The image data which is output by the image pick-up device picking-up the image undergoes coordinate transformation from polar coordinate system to rectangular coordinate system and thereafter binarization process. The area of the defective candidate objects which are extracted from the image data in two color system obtained through the binarization process are normalized in accordance with the reference values prepared for each region in which said defective candidate objects formed within the image data. The points which are calculated as a result of this normalization, are added to the corresponding columns in the classification table. It is judged whether the inspection target optical member is satisfactory or not, in accordance with whether or not evaluation function calculated on the basis of the value in each column exceeds a predetermined reference value.
    • 每当其旋转预定角度时,图像拾取装置拾取检查对象光学部件的图像。 拾取图像的图像拾取装置输出的图像数据经历从极坐标系到矩形坐标系的坐标变换,然后进行二值化处理。 根据通过二值化处理获得的两色系统中的图像数据提取的缺陷候选物体的面积,根据在图像数据内形成的所述不良候选物体的各区域准备的基准值进行归一化。 作为归一化结果计算的点被添加到分类表中的相应列中。 根据是否根据每列的值计算出的评价函数是否超过规定的基准值,判定检查对象光学部件是否满意。
    • 5. 发明授权
    • Semiconductor device having bipolar transistor and MOS transistor
    • 具有双极晶体管和MOS晶体管的半导体器件
    • US06337501B1
    • 2002-01-08
    • US09538490
    • 2000-03-30
    • Yutaka FukudaAtsuo OnozakiJunichi NagataKiyoshi Yamamoto
    • Yutaka FukudaAtsuo OnozakiJunichi NagataKiyoshi Yamamoto
    • H01L2701
    • H01L27/1203H01L27/0722
    • A semiconductor device in which a bipolar transistor and a MOS transistor are formed in a common element region, which can prevent a circuit layout pattern from being large due to a wiring. A semiconductor device having an element region formed by the N−-type layer, which is isolated and insulated from the other regions. A P+-type base region, an N−-type emitter region, an N+-type collector region, and a P+-type excess carrier removing region for removing excess carrier in the P+-type base region, are commonly formed in particular one N−-type layer. Thus, a bipolar transistor is defined. Furthermore, a gate oxide film is formed on the surface of the N−-type layer where between the P+-type base region and the P+-type excess carrier removing region. A polysilicon layer is formed on the gate oxide film. Thus, a P+-type MOS transistor is defined by using the P+-type base region as a source and the P+-type excess carrier removing region a drain. The P+-type base region, the P+-type excess carrier removing region, the N−-type emitter region, the N+-type collector region, and the polysilicon layer are respectively connected to metallic electrodes. Since the bipolar transistor and the MOS transistor are commonly formed in an element region, and one of regions is commonly used, it can prevent a circuit layout pattern from being large due to a wiring for connecting the bipolar transistor and the MOS transistor.
    • 在公共元件区域中形成双极晶体管和MOS晶体管的半导体器件,其可以防止由布线引起的电路布局图案大。 一种具有由N型层形成的元件区域的半导体器件,其与其它区域隔离并绝缘。 通常在P +型基区中除去P +型基区中的过量载体的P +型碱基区,N型发射极区,N +型集电极区和P +型过剩载流子除去区, - 类型层。 因此,定义了双极晶体管。 此外,在P +型基极区域和P +型过载载流子除去区域之间的N型层的表面上形成栅极氧化膜。 在栅极氧化膜上形成多晶硅层。 因此,通过使用P +型基极区域作为源极和P +型过剩载流子去除区域是漏极来限定P +型MOS晶体管。 P +型基极区,P +型过剩载流子除去区,N型发射极区,N +型集电极区,多晶硅层分别与金属电极连接。 由于双极晶体管和MOS晶体管通常形成在元件区域中,并且通常使用一个区域,所以由于用于连接双极晶体管和MOS晶体管的布线,可以防止电路布局图案变大。
    • 9. 发明申请
    • Semiconductor integrated circuit
    • 半导体集成电路
    • US20060055379A1
    • 2006-03-16
    • US11220527
    • 2005-09-08
    • Kiyoshi YamamotoAkitaka MurataTadashi Suzuki
    • Kiyoshi YamamotoAkitaka MurataTadashi Suzuki
    • G05F1/00H01P1/00
    • H04L25/0266H01L21/76264H01L27/0805
    • A semiconductor integrated circuit is composed of a first integrated circuit portion for performing external communication by using a differential voltage difference between a pair of communication lines and a second integrated circuit portion that is supplied with power, and a coupling capacitor inserted in a communication line for connecting the first integrated circuit portion and the second integrated circuit portion. Each of the first integrated circuit portion and the second integrated circuit portion has an insulating separation type structure and are formed on a same semiconductor chip. A transmission device includes a transmission line composed of first and second transmission lines. A first circuit block outputs a non-inverted transmission signal to the first transmission line, and a second output circuit outputs an inverted transmission signal to the second transmission line. The second circuit block comprises an impedance element and a comparison circuit for comparing voltages. The same types of impedance elements as the impedance element are interposed in the first and second transmission lines between the first circuit block and the second circuit block.
    • 半导体集成电路由用于通过使用一对通信线路和被供电的第二集成电路部分之间的差分电压差进行外部通信的第一集成电路部分和插入到通信线路中的耦合电容器 连接第一集成电路部分和第二集成电路部分。 第一集成电路部分和第二集成电路部分中的每一个具有绝缘分离型结构,并且形成在同一半导体芯片上。 传输装置包括由第一和第二传输线组成的传输线。 第一电路块向第一传输线输出非反相传输信号,第二输出电路将反相传输信号输出到第二传输线。 第二电路块包括用于比较电压的阻抗元件和比较电路。 在第一电路块和第二电路块之间的第一和第二传输线中插入与阻抗元件相同类型的阻抗元件。
    • 10. 发明授权
    • Electronic endoscope with three-dimensional image capturing device
    • 电子内窥镜具有三维图像捕获装置
    • US06933962B2
    • 2005-08-23
    • US10020292
    • 2001-12-18
    • Kiyoshi Yamamoto
    • Kiyoshi Yamamoto
    • G02B23/24A61B1/04G02B23/26H04N13/02
    • A61B1/042H04N2005/2255
    • An electronic endoscope comprises a housing and a flexible tube. A light-transmitting optic fiber and a light-receiving optic fiber are provided in the flexible tube. A light source and an imaging device are provided in the housing. The light source outputs a pulsed distance-measuring light beam, which is transmitted along the light-transmitting optic fiber, and irradiated to a subject. A reflected light beam generated by the subject due to the distance-measuring light beam is transmitted along the light-receiving optic fiber, to enter the imaging device, in which an electric charge corresponding to the subject image (i.e., an image signal of a three-dimensional image) is accumulated. A timing of the accumulating operation of the imaging device is delayed depending on the lengths of the fibers.
    • 电子内窥镜包括壳体和柔性管。 在柔性管中设置有透光光纤和光接收光纤。 在壳体中设置有光源和成像装置。 光源输出沿着透光光纤传输并照射到被摄体的脉冲测距光束。 由受测光束产生的被摄物体产生的反射光束沿着光接收光纤传播,进入成像装置,在该成像装置中,对应于被摄体图像的电荷(即,图像信号 三维图像)。 根据纤维的长度,成像装置的累积操作的定时被延迟。