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    • 1. 发明授权
    • Side-illuminated target structure having uniform ring illumination
    • 侧面照明的目标结构具有均匀的环形照明
    • US06802131B1
    • 2004-10-12
    • US10235322
    • 2002-09-05
    • Robert ScholzJiangang Xia
    • Robert ScholzJiangang Xia
    • G01C1506
    • G01C15/06
    • An illuminated target structure for viewing a scene includes a transparent medium having a transparent-medium peripheral rim and a light-reflective target within a transparent-medium central region. A circumferentially uniform ring illumination source is in contact with the transparent-medium peripheral rim. The ring illumination source projects a substantially uniform illumination into the transparent-medium peripheral rim and thence onto the light-reflective target. The ring illumination source preferably is a modified optical fiber structure having a modified lateral surface in facing relation to the transparent-medium peripheral rim and having a light leakage through the modified lateral surface. An image intensifier may be positioned in facing relation to a transparent-medium front face.
    • 用于观看场景的照明目标结构包括在透明介质中心区域内具有透明介质外围边缘和光反射目标的透明介质。 周向均匀的环形照明源与透明介质外围边缘接触。 环形照明源将基本上均匀的照明投射到透明介质外围边缘中,从而投射到光反射靶上。 环形照明源优选地是具有与透明介质周边缘相对的改变的侧表面并且具有通过改良的侧表面的光泄漏的改进的光纤结构。 图像增强器可以以与透明介质前面相对的方式定位。
    • 4. 发明申请
    • Shaped-Seal, Sealing Arrangement and Process Sensor Having Such a Sealing Arrangement
    • 形密封,密封布置和具有这种密封布置的工艺传感器
    • US20100045312A1
    • 2010-02-25
    • US12227627
    • 2007-05-22
    • Torsten PechsteinRobert Scholz
    • Torsten PechsteinRobert Scholz
    • F16J15/16G01R27/08G01M19/00
    • F16J15/062G01D11/245G01N27/07G01N27/283
    • A shaped-seal for sealing an annular gap between an outer peripheral wall and an inner peripheral wall against a medium, including: an elastic, radially clampable, annular sealing element having an annular, radially outer, sealing surface for contacting the outer peripheral wall, an annular, radially inner, sealing surface for contacting the inner peripheral wall, an annular, media-side, ceiling surface, which extends between the radially outer, sealing surface and the radially inner, sealing surface, an annular base surface, which extends on the side facing away from the ceiling surface, between the outer sealing surface and the inner sealing surface, and at least one annular cavity in the base surface for accommodating an anchoring ring, wherein the cavity has at least one undercut.
    • 一种用于密封外周壁和内周壁之间的介质的环形间隙的成形密封件,包括:弹性可径向夹紧的环形密封元件,其具有用于接触外周壁的环形径向外部密封表面, 环形的,径向内部的密封表面,用于接触内周壁,环形介质侧天花板表面,其在径向外部密封表面和径向内部密封表面之间延伸,环形基部表面延伸在 背面离开天花板表面的一侧,位于外部密封表面和内部密封表面之间,以及至少一个用于容纳固定环的基座表面中的环形空腔,其中空腔具有至少一个底切。
    • 5. 发明授权
    • Method and device for adjusting a laser
    • 用于调整激光的方法和装置
    • US07403551B2
    • 2008-07-22
    • US10485755
    • 2001-09-05
    • Franz AuracherRobert Scholz
    • Franz AuracherRobert Scholz
    • H01S3/00
    • H01S5/06832H01S5/0427H01S5/0617
    • The aim of the invention is to adjust the operating point of a laser that can be modulated by a data signal. The operating point of the laser is adjusted by regulating a direct current flowing through the laser; whereby said direct current correlates with the optical characteristics of the laser. In order to carry out said adjustment, the direct current is controlled above an alterable threshold current. A differential current defined from the difference between the direct current and the threshold current or a variable correlating with the differential current is adjusted to a constant value or one that is solely dependent on temperature for the adjustment of said operating point.
    • 本发明的目的是调整可由数据信号调制的激光器的工作点。 通过调节流过激光器的直流电来调节激光器的工作点; 由此所述直流电流与激光器的光学特性相关。 为了进行所述调整,将直流电流控制在可变阈值电流之上。 从直流电流和阈值电流之间的差定义的差分电流或与差分电流相关的变量被调整为一个恒定值,或者仅仅依赖于温度来调节所述工作点。
    • 7. 发明授权
    • Semiconductor sensor having a front-side contact zone
    • 具有前侧接触区域的半导体传感器
    • US07799606B2
    • 2010-09-21
    • US10539799
    • 2003-12-06
    • Torsten PechsteinRobert Scholz
    • Torsten PechsteinRobert Scholz
    • H01L21/00G01N27/26G01N21/00
    • G01N27/414H01L2924/0002H01L2924/00
    • An ion-sensitive sensor arrangement includes: a semiconductor chip having a first surface, which has a media-sensitive region and at least one, first, electrical contact surface; and a support having a second surface, which faces the first surface of the semiconductor chip. An opening is provided, which aligns with the sensitive region, and at least one, second, electrical contact surface, which overlaps, or aligns with, the at least one, first, electrical contact surface. Between the support and the semiconductor chip, a preferably elastic, anisotropic conductor is arranged, which produces a conducting connection between the at least one, first, contact surface and the at least one, second, contact surface, and which has a traversing opening, which aligns with the opening, so that the sensitive region of the semiconductor chip can be contacted through the opening by an analyte. The preferably elastic, anisotropic conductor seals the region outside of the opening against contamination with the analyte.
    • 离子敏感传感器装置包括:具有第一表面的半导体芯片,其具有介质敏感区域和至少一个第一电接触表面; 以及具有面向半导体芯片的第一表面的第二表面的支撑件。 提供与敏感区域对准的开口以及与至少一个第一电接触表面重叠或对准的至少一个第二电接触表面。 在支撑件和半导体芯片之间布置优选弹性的各向异性导体,其在至少一个第一接触表面与至少一个第二接触表面之间产生导电连接,并具有横向开口, 其与开口对准,使得半导体芯片的敏感区域可以通过分析物通过开口接触。 优选弹性的各向异性导体密封开口以外的区域,防止分析物的污染。
    • 8. 发明申请
    • Sighted device operable in visible-wavelength or electro-optical/visible-wavelength sighting modes
    • 视觉设备可在可见波长或电光/可见波长瞄准模式下操作
    • US20070035824A1
    • 2007-02-15
    • US11197789
    • 2005-08-04
    • Robert Scholz
    • Robert Scholz
    • G02B23/00
    • H04N5/74F41G1/38H04N5/23293H04N5/33
    • A sighted device has a sight that includes an objective lens lying on an optical axis of the sight so that an input beam is coincident with the optical axis, an eyepiece lens lying on the optical axis, an imaging detector having a detector output signal, a signal processor that receives the detector output signal from the imaging detector, modifies the detector output signal, and has a processor output signal, and a video display projector that receives the processor output signal and has a video display projector output. An optical beam splitter lies on the optical axis. The beam splitter allows a first split subbeam of the input beam to pass to the eyepiece lens and reflects a second split subbeam of the input beam to the imaging detector. An optical mixer mixes the first split subbeam and the video display projector output prior to the first split subbeam passing through the eyepiece lens.
    • 瞄准装置具有包括位于视线的光轴上的物镜的视线,使得输入光束与光轴重合,位于光轴上的目镜,具有检测器输出信号的成像检测器, 信号处理器,其从成像检测器接收检测器输出信号,修改检测器输出信号,并具有处理器输出信号,以及视频显示投影仪,其接收处理器输出信号并具有视频显示投影仪输出。 光束分离器位于光轴上。 分束器允许输入光束的第一分割子光束传递到目镜透镜并将输入光束的第二分割子束反射到成像检测器。 在第一分束子束通过目镜之前,光学混合器混合第一分割子束和视频显示投影仪输出。
    • 9. 发明申请
    • Semiconductor sensor having a front-side contact zone
    • 具有前侧接触区域的半导体传感器
    • US20060159590A1
    • 2006-07-20
    • US10539799
    • 2003-12-06
    • Torsten PechsteinRobert Scholz
    • Torsten PechsteinRobert Scholz
    • G01N33/00
    • G01N27/414H01L2924/0002H01L2924/00
    • An ion-sensitive sensor arrangement includes: A semiconductor chip having a first surface, which has a media-sensitive region and at least one, first, electrical contact surface; and a support having a second surface, which faces the first surface of the semiconductor, has an opening, which aligns with the sensitive region, and at least one, second, electrical contact surface, which overlaps, or aligns with, the at least one, first, electrical contact surface; wherein, between the support and the semiconductor chip, a preferably elastic, anisotropic conductor is arranged, which produces a conducting connection between the at least one, first, contact surface and the at least one, second, contact surface, and which has a traversing opening, which aligns with the opening in the second surface, so that the sensitive region of the semiconductor chip can be contacted through the opening by an analyte, wherein the preferably elastic, anisotropic conductor seals the region outside of the opening against contamination with the analyte.
    • 离子敏感传感器装置包括:具有第一表面的半导体芯片,其具有介质敏感区域和至少一个第一电接触表面; 并且具有面向半导体的第一表面的第二表面的支撑件具有与敏感区域对准的开口以及至少一个第二电接触表面,该至少一个第二电接触表面与至少一个第二表面重叠或对准 ,第一,电接触面; 其中,在所述支撑件和所述半导体芯片之间,布置优选弹性的各向异性导体,其在所述至少一个第一接触表面和所述至少一个第二接触表面之间产生导电连接,并且具有横向 开口,其与第二表面中的开口对准,使得半导体芯片的敏感区域可以通过分析物通过开口接触,其中优选弹性的各向异性导体密封开口外侧的区域,防止被分析物的污染 。