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    • 1. 发明申请
    • Organic solar cell and its production process
    • 有机太阳能电池及其生产工艺
    • US20050039792A1
    • 2005-02-24
    • US10915857
    • 2004-08-11
    • Kohshin TakahashiJunichi NakamuraChiho YokoeKazuhiko Murata
    • Kohshin TakahashiJunichi NakamuraChiho YokoeKazuhiko Murata
    • H01L51/00H01L51/30H01L51/40H02N6/00
    • H01L51/424H01L51/0003H01L51/0028H01L51/0037H01L51/0038H01L51/0078H01L51/4253Y02E10/549Y02P70/521
    • An object of the present invention is to enhance the photoelectric conversion performance to more than the limit possessed by prior organic solar cells in arts of organic solar cells in which an organic semiconductor layer is constituted by at least two material layers. As a means of achieving this object, the organic solar cell according to the present invention is an organic solar cell comprising a pair of electrode layers 10, 30 and therebetween an organic semiconductor layer 20 including at least two material layers, wherein the organic semiconductor layer 20 includes: a first material layer 24 having thickness-wise through spaces; a second material layer 22 (formed from such as a soluble material) being disposed adjacently to the first material layer 24; and a mingled range 26 which is disposed in a part, adjacent to the second material layer 22, of the first material layer 24 and formed by such as a process including the steps of making a liquid film of a soluble material (this material is to form the second material layer 22) penetrate and then hardening it and in which a part of the material of the second material layer 22 is mingled with the first material layer 24 in the form of having entered the through spaces of the first material layer 24.
    • 本发明的一个目的是在有机半导体层由至少两个材料层构成的有机太阳能电池领域中将光电转换性能提高到超过现有有机太阳能电池所具有的极限。 作为实现该目的的手段,根据本发明的有机太阳能电池是包括一对电极层10,30的有机太阳能电池,其间包括至少两个材料层的有机半导体层20,其中有机半导体层 20包括:具有厚度通过空间的第一材料层24; 与第一材料层24相邻设置的第二材料层22(由可溶性材料形成); 以及与第一材料层24相邻的第二材料层22的与第二材料层22相邻的部分配置的混合范围26,其形成方法包括以下步骤:制备可溶性材料的液膜(该材料为 形成第二材料层22)穿透然后使其硬化,其中第二材料层22的材料的一部分与已经进入第一材料层24的通孔的形式与第一材料层24混合。
    • 3. 发明授权
    • Imaging lens unit
    • 成像镜头单元
    • US08270103B2
    • 2012-09-18
    • US12988185
    • 2009-04-16
    • Yoshihiro MiyawakiYuji MuraokaNobuyuki AndoJunichi NakamuraYasunori TsujinoMasafumi YamashitaYukihiro Kasano
    • Yoshihiro MiyawakiYuji MuraokaNobuyuki AndoJunichi NakamuraYasunori TsujinoMasafumi YamashitaYukihiro Kasano
    • G02B7/02
    • G02B7/021G02B7/022G02B13/0035G02B13/006
    • An imaging lens unit configured for processing by a solder reflow process, and includes a lens group of one or more lenses; and a lens tube supporting the lens group. The imaging lens unit comprises one or more cationically-cured epoxy resin lenses formed from an cationically-curable epoxy resin material, the lens tube is formed from a thermoplastic resin material having a deflection temperature under load of at least 200° C. The imaging lens unit has a clearance between the lens tube and at least one of the cationically-cured epoxy resin lenses and has lens supporting portions provided at least three locations inside the lens tube that support the at least one cationically-cured epoxy resin lens. The lens unit can be miniaturized. The imaging lens unit also provides excellent optical characteristics without deteriorating the optical characteristics in alignment of the centers of the lens and the diaphragm.
    • 一种成像透镜单元,被配置为通过焊料回流处理进行处理,并且包括一个或多个透镜的透镜组; 以及支撑透镜组的透镜管。 成像透镜单元包括由阳离子可固化环氧树脂材料形成的一种或多种阳离子固化的环氧树脂透镜,透镜管由具有至少200℃负载挠曲温度的热塑性树脂材料形成。成像透镜 单元在透镜管与至少一个阳离子固化环氧树脂透镜之间具有间隙,并且具有透镜支撑部分,其设置在透镜管内部的至少三个位置,其支撑至少一个阳离子固化的环氧树脂透镜。 透镜单元可以小型化。 成像透镜单元还提供优异的光学特性,而不会降低透镜和隔膜的中心对准的光学特性。
    • 4. 发明申请
    • METHOD AND APPARATUS FOR VEHICLE-TO-VEHICLE COMMUNICATION
    • 车辆通信的方法和装置
    • US20120034876A1
    • 2012-02-09
    • US13195181
    • 2011-08-01
    • Junichi NakamuraYasuhiro ShibataHideaki Kojima
    • Junichi NakamuraYasuhiro ShibataHideaki Kojima
    • H04W4/00
    • H04L9/321H04L2209/80H04L2209/84H04W12/06H04W84/005
    • According to one embodiment, a vehicle-mounted apparatus includes a wireless communication unit, an authentication data acquisition unit, a data transmitting/receiving unit, and a controller. The authentication data acquisition unit is configured to perform an authentication process with a roadside apparatus, through the wireless communication unit, and thereby to acquire authentication data showing that the apparatus is authenticated in a specified area of a road. The data transmitting/receiving unit is configured to transmit and receive information containing the authentication data, to and from the vehicle-mounted apparatus mounted in any other vehicle. The controller is configured to control the data transmitting/receiving unit in accordance with the authentication data, causing the data transmitting/receiving unit to transmit and receive data other than the authentication data.
    • 根据一个实施例,车载装置包括无线通信单元,认证数据获取单元,数据发送/接收单元和控制器。 认证数据获取单元被配置为通过无线通信单元与路边设备进行认证处理,从而获取表示在道路的指定区域中认证设备的认证数据。 数据发送/接收单元被配置为向安装在任何其他车辆中的车载装置发送和接收包含认证数据的信息。 控制器被配置为根据认证数据控制数据发送/接收单元,使得数据发送/接收单元发送和接收认证数据以外的数据。
    • 9. 发明授权
    • Image sensor with on-chip semi-column-parallel pipeline ADCs
    • 具有片上半柱并行管线ADC的图像传感器
    • US07920196B2
    • 2011-04-05
    • US12501783
    • 2009-07-13
    • Junichi Nakamura
    • Junichi Nakamura
    • H04N3/14H04N5/76H03M1/00
    • H04N5/335
    • An imaging device with a semi-column-parallel pipeline analog-to-digital converter architecture. The semi-column-parallel pipeline architecture allows multiple column output lines to share an analog-to-digital converter. Analog-to-digital conversions are performed in a pipelined manner to reduce the conversion time, which results in shorter row times and increased frames rate and data throughput. The architecture also enhances the pitch of the analog-to-digital converters, which allows high performance, high resolution analog-to-digital converters to be used. As such, semi-column-parallel pipeline architecture overcomes the shortcomings of the typical serial and column-parallel architectures.
    • 具有半柱并行管线模拟 - 数字转换器架构的成像设备。 半柱并行流水线架构允许多列输出线共享一个模数转换器。 以流水线方式执行模数转换,以减少转换时间,从而缩短行时间,提高帧速率和数据吞吐量。 该架构还增强了模数转换器的音调,从而可以使用高性能,高分辨率的模数转换器。 因此,半列并行管道架构克服了典型的串行和列并行架构的缺点。
    • 10. 发明授权
    • Filter device
    • 过滤装置
    • US07909990B2
    • 2011-03-22
    • US10481227
    • 2002-11-26
    • Kazuaki TakahashiJunichi Nakamura
    • Kazuaki TakahashiJunichi Nakamura
    • B01D17/12B01D17/038
    • B01D21/0009B01D21/0024B01D21/009B01D21/02B01D21/2411B01D21/245B01D21/2483B01D21/26B01D21/267B01D21/283B01D21/302B01D21/34B01D2221/06B01D2221/10B01D2221/14B04C5/04B04C5/14B04C5/185B04C5/26B04C11/00C02F1/38C02F2103/16
    • A filter device is made up of: a filter portion having a fluid outlet at its axis, and a fluid inlet in a position away from the axis, in which a fluid containing particles is supplied at a predetermined flow speed from the fluid inlet to cause a swirling, particles are moved outward in a centrifugal state and the fluid from which the particles are separated is discharged from the fluid outlet, and the particles separated by slowing down the swirling are allowed to sink; and a settlement portion in which the particles that settle in the filter portion are allowed to settle. Thus, a fluid containing particles is supplied at a predetermined flow speed to cause swirling, the particles are separated by a centrifugal force caused by the swirling and allowed to sink and settle, and the fluid from which the particles are separated is discharged. A large amount of particles can be allowed to settle and be reliably removed in a short time with this small-sized and simple device. The filter device does not clog, does not need washing and exchanging work and keeps the costs low.
    • 过滤装置由以下部件组成:过滤器部分在其轴线处具有流体出口,以及在远离轴线的位置处的流体入口,其中含有颗粒的流体以预定的流速从流体入口供应以使得 旋转的颗粒在离心状态下向外移动,并且从颗粒分离的流体从流体出口排出,并且通过减慢漩涡分离的颗粒被允许下沉; 以及沉降部分,其中沉淀在过滤器部分中的颗粒被允许沉降。 因此,以预定流速供给包含颗粒的流体以产生旋转,通过由旋转引起的离心力分离颗粒并使其沉降并且排出颗粒分离的流体。 这种小型简单的装置可以在短时间内允许大量的颗粒沉降并可靠地清除。 过滤装置不堵塞,不需要洗涤和交换工作,并保持低成本。