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    • 2. 发明申请
    • OPTICAL SENSOR AND DETECTOR FOR OPTICAL DETECTION
    • 用于光学检测的光学传感器和检测器
    • WO2018019921A1
    • 2018-02-01
    • PCT/EP2017/068956
    • 2017-07-27
    • TRINAMIX GMBH
    • HERMES, WilfriedVALOUCH, SebastianSEND, RobertBRUDER, IngmarFEUERSTEIN, Bertram
    • H01L31/09H01L31/02H01L31/0203H01L31/0216H01L31/0224H01L31/032H01L31/18G01S7/481
    • The present invention relates to an optical sensor, a detector comprising the optical sensor for an optical detection of at least one object, a method for manufacturing the optical sensor and various uses of the optical sensor and the detector. Furthermore, the invention relates to a human-machine interface, an entertainment device, a scanning system, a tracking system, a stereoscopic system,and a camera. The optical sensor (110) comprises a layer (112) of at least one photoconductive material (114), at least two individual electrical contacts (136, 136') contacting the layer (112) of the photoconductive material (114), and a cover layer (116) deposited on the layer (112) of the photoconductive material (114), wherein the cover layer (116) is an amorphous layer comprising at least one metal-containing compound (120). The optical sensor (110) can be supplied as a non-bulkyhermetic package which, nevertheless, provides a high degree of protection against possible degradation by humidity and/or oxygen. Moreover, the cover layer (116) is capable of activating the photoconductive material (114) which results in an increased performance of the optical sensor (110). Further, the optical sensor (110) may be easily manufactured and integrated on a circuit carrier device.
    • 本发明涉及光学传感器,包括用于光学检测至少一个物体的光学传感器的检测器,制造光学传感器的方法以及光学传感器和检测器的各种用途 。 此外,本发明涉及人机界面,娱乐设备,扫描系统,跟踪系统,立体系统和相机。 光学传感器(110)包括至少一个光电导材料(114)的层(112),与光电导材料(114)的层(112)接触的至少两个单独的电触点(136,136'),以及 (114)的层(112)上沉积的覆盖层(116),其中覆盖层(116)是包含至少一种含金属化合物(120)的非晶层。 光学传感器(110)可以作为非膨大密封包装供应,然而其提供高度保护以防止由湿气和/或氧气导致的可能降解。 此外,覆盖层(116)能够激活光电导材料(114),这导致光学传感器(110)的性能提高。 此外,光学传感器(110)可以容易地制造并集成在电路载体装置上。
    • 7. 发明申请
    • DETECTOR FOR AN OPTICAL DETECTION OF AT LEAST ONE OBJECT
    • 探测器用于至少一个物体的光学探测
    • WO2018077868A1
    • 2018-05-03
    • PCT/EP2017/077148
    • 2017-10-24
    • TRINAMIX GMBH
    • VALOUCH, SebastianHERMES, WilfriedHENGEN, StefanSEND, RobertBRUDER, Ingmar
    • G01S17/46G01S7/481H01L31/02
    • A detector (110) for an optical detection of at least one object (112) is proposed. Further, the invention relates to a method for optical detection of at least one object (112) and to various uses of the detector(110). The detector (110) comprises: -at least one optical sensor(114), the optical sensor (114) having at least one sensor region(132),the sensor region (132) comprising at least one curved substrate (142) and at least one film (134) having a photoconductive material (136), wherein the film (134) is placed on at least one surface (140, 172) of the curved substrate (142), wherein the optical sensor (114) is designed to generate at least one sensor signal in a manner dependent on an illumination of the sensor region (132) by a light beam(124); -at least one transfer device (120), the transfer device (120) being adapted to transfer the light beam (124) from the object (112) to the optical sensor (114), thereby being adapted to guide the light beam (124) to the film (134) located on the curved substrate (142);and -at least one evaluation device(154), wherein the evaluation device (154) is designed to generate at least one item of information on a position of the object (112) by evaluating the sensor signal of the optical sensor(114). Thereby, a simple, cost-efficient and, still, reliable detector (110) for an accurate determining of a position of at least one object (112) in space is provided.
    • 提出了用于光学检测至少一个物体(112)的检测器(110)。 此外,本发明涉及用于光学检测至少一个物体(112)和检测器(110)的各种用途的方法。 所述检测器(110)包括:至少一个光学传感器(114),所述光学传感器(114)具有至少一个传感器区域(132),所述传感器区域(132)包括至少一个弯曲基板(142) 至少一个具有光电导材料(136)的薄膜(134),其中所述薄膜(134)被放置在所述弯曲衬底(142)的至少一个表面(140,172)上,其中所述光学传感器(114)被设计成 以取决于光束(124)对传感器区域(132)的照明的方式产生至少一个传感器信号; - 至少一个转移装置(120),转移装置(120)适于将光束(124)从物体(112)转移到光学传感器(114),由此适于引导光束(124) )施加到位于所述弯曲基底(142)上的所述膜(134);以及 - 至少一个评估装置(154),其中所述评估装置(154)被设计为生成关于所述物体的位置的至少一项信息 (112)通过评估光学传感器(114)的传感器信号。 因此,提供了用于精确确定至少一个物体(112)在空间中的位置的简单的,成本有效且仍然可靠的检测器(110)。
    • 8. 发明申请
    • COMMUNICATION SYSTEM, MONITORING SYSTEM AND RELATED METHODS
    • WO2021185895A1
    • 2021-09-23
    • PCT/EP2021/056798
    • 2021-03-17
    • BASF SETRINAMIX GMBH
    • BINDER, Kai UweSIEDER, GeorgFERSTL, WolfgangKATZ, TorstenMODES, GerdHERMES, WilfriedSCHMIDT, FelixKETTNER, Michel ValentinBRILL, JochenLUNGENSCHMIED, Christoph
    • G05B19/418G01J3/02G01J3/28G01N21/27G01N21/31G01N21/359G01N21/35
    • The present invention relates to a communication system (140), to a monitoring system (110) for in-situ monitoring of at least one substance (112) used in a gas scrubbing process, wherein the monitoring system (110) comprises the communication system (140), as well as to related methods (310, 312). The monitoring system (110) can, via the communication system (140), be used for monitoring the at least one substance (112) and to provide treatment data for treating the at least one substance (112). Herein, the communication system (140) comprises a cloud server (144), a first server (146), at least one second server (148, 148'), and at least one third server (150, 150'); wherein the first server (146) further has a first communication interface (156) configured to provide reference spectral information referring to at least one reference sample and reference analytical data to the cloud server (144); wherein each second server (148, 148') has a second communication interface (158, 158') configured to provide spectral information related to at least one substance (112) to the cloud server (144); wherein the cloud server (144) is configured to - generate a calibration model by using the reference spectral information referring to the at least one reference sample and the reference analytical data provided by the first server (146), wherein the calibration model comprises at least one parameter; - apply the calibration model to the spectral information related to the at least one substance (112) provided by the second server (148, 148'), whereby at least one value for the at least one parameter is extracted; - provide the at least one value for the at least one parameter to the first server (146) via the first communication interface (156); wherein the first server (146) is further configured to determine treatment data by using the at least one value for the at least one parameter provided by the cloud server (144), wherein the treatment data comprise at least one piece of data which is related to a proposed treatment of the at least one substance (112); wherein the first server (146) further has at least one third communication interface (160, 160'), wherein each third communication interface (160, 160') is configured to provide the treatment data to the at least one third server (150, 150').
    • 9. 发明申请
    • OPTICAL DETECTOR
    • WO2020157029A1
    • 2020-08-06
    • PCT/EP2020/051975
    • 2020-01-28
    • TRINAMIX GMBH
    • VALOUCH, SebastianKLEIN, AlexanderMUELLER, SebastianHERMES, WilfriedSEND, Robert
    • G01J5/28G01J5/08G01J5/20H01L31/02H01L27/146H01L31/0232G01J1/02G01J5/04G01J5/02G01J5/06H01L31/09H01L27/144H01L31/032H01L31/0216
    • The invention relates to a detector (110) for optical detection comprising a circuit carrier (130) designed to carry at least one layer, wherein the circuit carrier (130) is or comprises a printed circuit board (132); at least one absorptive layer (138), the absorptive layer (138) being placed on a partition of the circuit carrier (130), wherein the absorptive layer (138) is designed to at least partially absorb the incident light beam (120), wherein the absorptive layer (138) incorporates infrared absorbing pigments (144); a substrate layer (114), the substrate layer (114) being directly or indirectly adjacent to the absorptive layer (138), wherein the substrate layer (114) is at least partially transparent with respect to the incident light beam (120); at least one sensor area (122), each of the sensor areas (122) being placed on the substrate layer (114), wherein each of the sensor areas (122) is designed to generate at least one sensor signal in a manner dependent on an illumination of the sensor area (122) by the incident light beam; and an evaluation device (150) designed to generate at least one item of information by evaluating the at least one sensor signal. The detector (110) constitutes a detector for detecting optical radiation, especially within the infrared spectral range, specifically with regard to sensing at least one of transmissivity, absorption, emission and reflectivity, being capable of avoiding or diminishing a cross detection between sensor areas (122), specifically between adjacent sensor areas (122), thus, avoiding or diminishing a deterioration of a measurement based on the at least one sensor signal.
    • 10. 发明申请
    • DETECTOR FOR AN OPTICAL DETECTION OF AT LEAST ONE OBJECT
    • 探测器用于至少一个物体的光学探测
    • WO2017182432A1
    • 2017-10-26
    • PCT/EP2017/059114
    • 2017-04-18
    • TRINAMIX GMBH
    • VALOUCH, SebastianHERMES, WilfriedLUNGENSCHMIED, ChristophSEND, RobertBRUDER, Ingmar
    • G01S17/46G01S5/16G01S7/481H01L31/108H01L51/42
    • G01S17/66G01S5/16G01S7/4816G01S17/08G01S17/42H01L27/307H01L31/035218H01L31/1085H01L51/0037H01L51/4206H01L51/4226H01L51/426H01L51/4273H01L51/445
    • A detector (110) for an optical detection of at least one object (112) is proposed. The detector (110) comprises: - at least one transversal optical sensor (114), the transversal optical sensor (114) being adapted to determine a transversal position of a light beam (136) traveling from the object (112) to the detector (110), wherein the transversal position is a position in at least one dimension perpendicular to an optical axis (116) of the detector (110), wherein the transversal optical sensor (114) has at least one photovoltaic layer (130) embedded between at least two conductive layers (132, 132'), wherein the photovoltaic layer (130) comprises a plurality of quantum dots (134), wherein at least one of the conductive layers (132) is at least partially transparent allowing the light beam (136) to travel to the photovoltaic layer (130), wherein the transversal optical sensor (114) further has at least one split electrode located at one of the conductive layers (132'), wherein the split electrode has at least two partial electrodes (138, 138') adapted to generate at least one transversal sensor signal, wherein the at least one transversal sensor signal indicates the transversal position of the light beam (136) in the photovoltaic layer (130); and - at least one evaluation device (140), wherein the evaluation device (140) is designed to generate at least one item of information on a transversal position of the object (112) by evaluating the at least one transversal sensor signal. Thereby, a simple and, still, efficient detector (110) for an accurate determining of a lateral position of at least one object (112) is provided.
    • 提出了用于光学检测至少一个物体(112)的检测器(110)。 所述检测器(110)包括: - 至少一个横向光学传感器(114),所述横向光学传感器(114)适于确定从所述物体(112)行进到所述检测器的光束(136)的横向位置 其中所述横向位置是垂直于所述检测器(110)的光轴(116)的至少一个维度中的位置,其中所述横向光学传感器(114)具有至少一个光伏层(130),所述光伏层嵌入在 至少两个导电层(132,132'),其中所述光电层(130)包括多个量子点(134),其中所述导电层(132)中的至少一个是至少部分透明的,允许所述光束 )传播至所述光伏层(130),其中所述横向光学传感器(114)还具有位于所述导电层(132')之一处的至少一个分裂电极,其中所述分裂电极具有至少两个部分电极(138 ,138'),适于在...处产生 至少一个横向传感器信号,其中所述至少一个横向传感器信号指示光伏层(130)中光束(136)的横向位置; 以及 - 至少一个评估装置(140),其中所述评估装置(140)被设计为通过评估所述至少一个横向传感器信号来生成关于所述物体(112)的横向位置的至少一项信息。 从而,提供了用于精确确定至少一个物体(112)的横向位置的简单且仍然有效的检测器(110)。