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
    • 52. 发明专利
    • Pick-up tube
    • 抽吸管
    • JPS61131349A
    • 1986-06-19
    • JP25186884
    • 1984-11-30
    • Hitachi Device Eng Co LtdHitachi Ltd
    • INOUE SHIGENORIYAMAMOTO MASANAO
    • H01J29/88H01J31/38
    • H01J29/88H01J31/38
    • PURPOSE:To suppress generation of a false signal due to reincidence of a return electron beam by providing a conductive film, which makes stored charge to be emitted outside an electron beam scanning region of a photoconductive target. CONSTITUTION:A conductive film 4 formed outside an electron beam scanning region 5 on a photoconductive film 4 is formed by coating by vacuum evaporation or sputtering evaporation of metals of, for instance, Al, Au and Cu in the manner that a boundary between the electron beam scanning region 5 and itself may be as narrow as positive so as to minimize a rescanning region 6 due to a returning electron beam. Further, in said conductive film 4, one end penetrates a light transmitting glass substrate 1, a transparent conductive film 2 and a photoconductive film 3 while insulating respectively for being arranged to project outside for being connected to a target pin 7 independent from that the taking out a signal current. Thereby, a false signal is excluded from being generated even when rescanned due to reflection of the return electron beam.
    • 目的:通过提供导电膜来抑制由于返回电子束的重新产生的伪信号的产生,这使得存储的电荷被发射到光导目标的电子束扫描区域外部。 构成:在光电导膜4上形成的电子束扫描区域5外侧的导电膜4通过以例如Al,Au和Cu的金属的真空蒸镀或溅射蒸镀的方式形成, 光束扫描区域5及其本身可以如正的那样窄,以便由于返回的电子束而使再扫描区域6最小化。 此外,在所述导电膜4中,一端分别穿透透光性玻璃基板1,透明导电膜2和感光膜3,同时绝缘,以分别布置成外部突出以连接到目标销钉7,独立于取出 输出信号电流。 因此,即使由于返回电子束的反射而被重新扫描也不会产生假信号。
    • 53. 发明专利
    • Pickup tube
    • 抽吸管
    • JPS61110933A
    • 1986-05-29
    • JP23365284
    • 1984-11-06
    • Matsushita Electronics Corp
    • ARAKI TSUTOMUKAMIMURA TAKEHIRO
    • H01J9/26H01J9/32H01J31/38
    • H01J31/38
    • PURPOSE:To obtain a pickup tube with a high S/N characteristic which is capable of leading the target electrode terminal to the outside of tube by utilizing bonding agent or frit glass for sealing agent and providing conductive film part extended to the outside of tube through the gap between the front glass plate and sealing agent film to the transparent conductive film. CONSTITUTION:A front glass plate 4 having a cylindrical glass bulb 1 at the internal circumferential surface of conductive film 2 and being sealed in air tight through a sealing agent layer 3 at the one opening end is provided with a target electrode consisting of transparent conductive film 5 and high heat resistance photo conductive film 6. Regarding the transparent conductive film 5, the outer part 7a of belt-shaped conductive film 7 extended to the outside of tube through the gap between front glass plate 4 and sealing agent layer 3 is formed as a target electrode terminal, while the outer part 8a of beat- shaped conductive film 8 extended is formed as the terminal of the electrode by conductive film 2 and mesh electrode 9. The sealing agent layer 3 is formed by a low melting point frit glass which forms the air-tight sealing part between the glass bulb 1 and front glass plate 4, thereby eliminating disturbance of electric field.
    • 目的:获得具有高S / N特性的拾取管,其能够通过使用用于密封剂的粘合剂或熔结玻璃将目标电极端子引导到管的外部,并且提供延伸到管外部的导电膜部分 前玻璃板与密封剂膜之间的间隙与透明导电膜。 构成:在导电膜2的内周面具有圆筒状的玻璃灯泡1,在一个开口端通过密封剂层3气密地密封的前玻璃板4设置有由透明导电膜 关于透明导电膜5,通过前玻璃板4和密封剂层3之间的间隙延伸到管外侧的带状导电膜7的外部7a形成为 目标电极端子,而通过导电膜2和网状电极9形成延伸的节拍导电膜8的外部部分8a作为电极的端子。密封剂层3由低熔点熔结玻璃形成, 形成玻璃泡1与前玻璃板4之间的气密密封部,消除电场的干扰。
    • 54. 发明专利
    • Image pick-up tube
    • 图像拾取管
    • JPS59149641A
    • 1984-08-27
    • JP2214183
    • 1983-02-15
    • Toshiba Corp
    • IWASAKI KENJI
    • H01J29/45H01J31/38
    • H01J31/38
    • PURPOSE:To produce an image pick-up tube where picture image information can be collected with sufficient resolution and scanning speed, by arranging a plurality of electron gun sections while scanning the input face simultaneously with a plurality of electron beams. CONSTITUTION:An image pick-up tube 2 is insulated electrically while splitted into four while having a photo-conductive substance layer 10 formed through first to four transparent electrodes 6A, 6B, 6C, 6D are upon projection of phosphor image onto the face plate 4, electrons are projected simultaneously from first to fourth electron gun sections 12A, 12B, 12C, 12D to beam scan four regions of photoconductive substance layer 10 of each corresponding transparent electrodes 6A, 6B, 6C, 6D simultaneously to produce image signals from output terminals 8A, 8B, 8C, 8D. Consequently scanning speed can be reduced to 1/4 to enable taking in of picture image information with high resolution when photographying an phosphor image to be produced from an image intensifier in X-ray photographer.
    • 目的:通过在多个电子束同时扫描输入面的同时布置多个电子枪部分来产生可以以足够的分辨率和扫描速度收集图像信息的图像拾取管。 构成:图像拾取管2在分成四个电极的同时绝缘,同时具有通过第一至四个透明电极6A,6B,6C,6D形成的光导体物质层10,其中磷光体图像投影到面板4上 同时从第一至第四电子枪部12A,12B,12C,12D投射电子,同时对各透明电极6A,6B,6C,6D的光导体物质层10的四个区域进行扫描,以从输出端子8A产生图像信号 8B,8C,8D。 因此,扫描速度可以降低到1/4,以便在摄影从X射线摄影机中的图像增强器产生的荧光图像时能够以高分辨率获取图像图像信息。
    • 55. 发明专利
    • Image pickup tube
    • 图像抽吸管
    • JPS58198827A
    • 1983-11-18
    • JP8022382
    • 1982-05-14
    • Hitachi Denshi LtdHitachi Ltd
    • MARUYAMA MASANORIOKU KENTAROU
    • H01J29/48H01J31/38
    • H01J31/38
    • PURPOSE:To obtain an image pickup tube having a collimation lens sytem with graphic distortion characteristics in simple structure by applying higher voltage than the second cylindrical electrode to the first cylindrical electrode and higher voltage than the first cylindrical electrode to a mesh-type electrode and forming a double collimation lens. CONSTITUTION:A cylindrical electrode that comprises a collimation lens system consists of two cylindrical electrodes 32 and 33 that are adjacent to a mesh-type electrode 2 and are arranged in parallel in the axial direction. One near the mesh-type electrode 2 is the first cylindrical electrode 32 and the other far from it is the second cylindrical electrode 33. Double lens structure to which different types of voltage are applied separately is used for these first and second electrodes 32 and 33. The angle of incidence of an electron beam 4 onto the mesh- type electrode 2 can be made to approach to more reduced vertical incidence by equivalently expanding the region of the collimation lens like this. As a result, the landing angle and shift into a target 1 can be reduced.
    • 目的:通过对第一圆柱形电极施加比第二圆柱形电极更高的电压和比第一圆柱形电极更高的电压到网状电极以形成具有简单结构的具有图形失真特性的准直透镜系统的图像拾取管,并形成 双准直透镜。 构成:包括准直透镜系统的圆柱形电极由与网状电极2相邻并沿轴向平行布置的两个圆柱形电极32和33组成。 网状电极2附近的一个是第一圆柱形电极32,而远离它的是第二圆柱形电极33.这些第一和第二电极32和33用于分别施加不同类型电压的双透镜结构 通过等效地扩大准直透镜的区域,可以使电子束4到网状电极2上的入射角接近更小的垂直入射角。 结果,可以降低着陆角度和转移到目标1。
    • 56. 发明申请
    • IMAGE SENSING APPARATUS
    • 图像感应装置
    • US20120194881A1
    • 2012-08-02
    • US13391208
    • 2009-08-21
    • Yoshiyuki Okuda
    • Yoshiyuki Okuda
    • H04N1/04
    • H01J31/28H01J31/38
    • The image sensing apparatus includes an intermediate electrode disposed between the electron emission source array and the photoelectric conversion film; an intermediate-electrode current detection portion for detecting an intermediate electrode current flowing in the intermediate electrode when an electron is emitted from the electron emission source array to the photoelectric conversion film; an intermediate current complete integrator for generating an integration signal by performing complete time integration of the intermediate electrode current; and an intermediate-electrode signal generating device for generating an intermediate electrode signal by sampling the integration signal for every pixel period that is a period for supplying electrons to each of the pixel regions.
    • 图像感测装置包括设置在电子发射源阵列和光电转换膜之间的中间电极; 中间电极电流检测部分,用于当电子从电子发射源阵列发射到光电转换膜时,检测在中间电极中流动的中间电极电流; 中间电流完全积分器,用于通过执行中间电极电流的完全时间积分来产生积分信号; 以及中间电极信号生成装置,用于通过对作为向每个像素区域提供电子的周期的每个像素周期对积分信号进行采样来生成中间电极信号。
    • 58. 发明授权
    • Television camera tube with conductive wall coating and transversely
wall supported electrode
    • 电视摄像管具有导电壁涂层和横壁支撑电极
    • US4607190A
    • 1986-08-19
    • US666810
    • 1984-10-31
    • Erich E. Himmelbauer
    • Erich E. Himmelbauer
    • H01J31/28H01J29/48H01J29/56H01J29/86H01J31/38H01J29/02H01J29/88
    • H01J31/38H01J29/861
    • Television camera tube comprising a tubular envelope of glass drawn on a mandril and having an internal conductive wall coating. A diaphragm having an aperture is supported in the envelope by a supporting surface extending transverse to the longitudinal axis of the envelope. The supporting surface is formed by a substantially stepwise change in the internal transverse dimension of the envelope. The conductive wall coating is interrupted at a distance from the diaphragm. The stepwise change in the internal transverse dimension of the envelope portion taking place in at least a first a step and second step. The first step forms the supporting surface for the diaphragm. The interruption (6) in the conductive wall coating is provided on the second step. If the diaphragm in such a tube is a flat plate and the distance d between the first step and the second step is between 0.4 D and D, where D is the inside diameter of the envelope between the first and the second step, the axial astigmatism.
    • 电视摄像机管包括在心轴上绘制并具有内部导电壁涂层的玻璃管状包络体。 具有孔径的隔膜通过横向于信封的纵向轴线延伸的支撑表面支撑在外壳中。 支撑表面通过在信封的内部横向尺寸上基本上逐步变化而形成。 导电壁涂层在隔膜一段距离处被中断。 在至少第一步骤和第二步骤中发生的信封部分的内部横向尺寸的逐步变化。 第一步形成隔膜的支撑表面。 在第二步骤中提供导电壁涂层中的中断(6)。 如果这种管中的隔膜是平板,并且第一步骤和第二步骤之间的距离d在0.4D和D之间,其中D是第一和第二步骤之间的封套的内径,轴向散光 。