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1. 发明申请

WO2021185895A1 COMMUNICATION SYSTEM, MONITORING SYSTEM AND RELATED METHODS 审中-公开
公开(公告)号：WO2021185895A1
公开(公告)日：2021-09-23
申请号：PCT/EP2021/056798
申请日：2021-03-17
申请人： BASF SE , TRINAMIX GMBH
发明人： BINDER, Kai Uwe , SIEDER, Georg , FERSTL, Wolfgang , KATZ, Torsten , MODES, Gerd , HERMES, Wilfried , SCHMIDT, Felix , KETTNER, Michel Valentin , BRILL, Jochen , LUNGENSCHMIED, Christoph
IPC分类号： G05B19/418 , G01J3/02 , G01J3/28 , G01N21/27 , G01N21/31 , G01N21/359 , G01N21/35
摘要： 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').

2. 发明公开

EP4121827A1 COMMUNICATION SYSTEM, MONITORING SYSTEM AND RELATED METHODS 审中-实审
公开(公告)号：EP4121827A1
公开(公告)日：2023-01-25
申请号：EP21711895.9
申请日：2021-03-17
申请人： BASF SE , trinamiX GmbH
发明人： BINDER, Kai Uwe , SIEDER, Georg , FERSTL, Wolfgang , KATZ, Torsten , MODES, Gerd , HERMES, Wilfried , SCHMIDT, Felix , KETTNER, Michel Valentin , BRILL, Jochen , LUNGENSCHMIED, Christoph
IPC分类号： G05B19/418 , G01J3/02 , G01J3/28 , G01N21/27 , G01N21/31 , G01N21/359 , G01N21/35

3. 发明申请

WO2021185892A1 COMMUNICATION SYSTEM, MONITORING SYSTEM AND RELATED METHODS 审中-公开
公开(公告)号：WO2021185892A1
公开(公告)日：2021-09-23
申请号：PCT/EP2021/056792
申请日：2021-03-17
申请人： TRINAMIX GMBH
发明人： LUNGENSCHMIED, Christoph , SCHMIDT, Felix , LOVRINCIC, Robert , KETTNER, Michel Valentin , KAELBLEIN, Daniel , BRILL, Jochen , ROSENKRANZ, Thomas
IPC分类号： H04L29/08
摘要： The present invention relates to a communication system (140), to a monitoring system (110) for in-situ monitoring of at least one substance (112), 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

4. 发明申请

WO2019215237A1 METHOD AND DEVICES FOR DETERMINING A FILLING LEVEL IN AT LEAST ONE STORAGE UNIT 审中-公开
公开(公告)号：WO2019215237A1
公开(公告)日：2019-11-14
申请号：PCT/EP2019/061829
申请日：2019-05-08
申请人： TRINAMIX GMBH
发明人： BONSIGNORE, Christian , SCHILDKNECHT, Christian , SCHILLEN, Peter , SCHINDLER, Patrick , MATEVOSJAN, Edgar , LUNGENSCHMIED, Christoph , SEND, Robert , BRUDER, Ingmar
IPC分类号： G06T7/586 , G06T7/62
摘要： A method for determining a filling level in at least one storage unit (112) is proposed. The method comprising the following steps a) illuminating the storage unit (112) with at least one illumination pattern (116) comprising a plurality of illumination features (118) and determining at least one reflection image of the storage unit (112); b) selecting at least one first reflection feature and at least one second reflection feature of the reflection image; c) for the first reflection feature, generating at least two first sensor signals in response to an illumination of at least one sensor element (120) having a matrix of optical sensors (124) by the first reflection feature, and for the second reflection feature, generating at least two second sensor signals in response to an illumination of the sensor element (120) by the second reflection feature, the optical sensors (124) each having a light-sensitive area; d) evaluating the two first sensor signals generated in step c), thereby, determining at least one first longitudinal coordinate z1 of the first reflection feature, and evaluating the two second sensor signals generated in step c), thereby, determining at least one second longitudinal coordinate z2 of the second reflection feature; e) determining at least one position (x1, y1) of the first reflection feature and at least one position (x2, y2) of the second reflection feature in the reflection image and determining at least one first vector (x1, y1, z1) of the first reflection feature and at least one second vector (x2, y2, z2) of the second reflection feature; f) determining from the first vector and the second vector at least one elevation map and determining therefrom the filling level in the storage unit.

5. 发明申请

WO2019002199A1 DETECTOR FOR DETERMINING A POSITION OF AT LEAST ONE OBJECT 审中-公开
公开(公告)号：WO2019002199A1
公开(公告)日：2019-01-03
申请号：PCT/EP2018/066942
申请日：2018-06-25
申请人： TRINAMIX GMBH
发明人： LUNGENSCHMIED, Christoph , PEKKOLA, Oili , SCHINDLER, Patrick , SEND, Robert , BRUDER, Ingmar , THIEL, Erwin , IRLE, Stephan
IPC分类号： G01B11/02 , G01B11/24 , G01S17/06 , G01S7/48 , G01S7/481 , G01C3/08 , H04N5/335
摘要： A method for adjusting a detector (110) for determining a position of at least one object (112) within a range of measurement (114) is disclosed. The detector (110) comprises at least two longitudinal optical sensors (116) and at least one transfer device (118) for imaging the object (112) into an image plane. The transfer device (118) has a focal plane. The transfer device (118) is positioned in between the longitudinal optical sensors (116) and the object (112). Each of the longitudinal optical sensors (116) has at least one sensor region (120). Each of the longitudinal optical sensors (116) is designed to generate at least one longitudinal sensor signal in a manner dependent on an illumination of the respective sensor region (120) by at least one light beam (178) propagating from the object (112) to the detector (110), wherein the longitudinal sensor signal, given the same total power of the illumination, is dependent on a beam cross-section of the light beam (178) in the sensor region (120). The detector (110) further comprises at least one evaluation device (124). The method comprises the following steps: (i) subsequently moving the object (112) longitudinally to at least two different calibration positions (134, 136) having at least two different longitudinal coordinates within the range of measurement (114); (ii) recording, for each of the calibration positions (134, 136), at least one first longitudinal sensor signal generated by a first longitudinal optical sensor (126) and at least one second longitudinal sensor signal generated by a second longitudinal optical sensor (128); (iii) forming, for each of the calibration positions (134, 126), at least one calibration signal using the first and second longitudinal sensor signals; (iv) generating a calibration function using the calibration signals, the calibration function defining a relationship between the longitudinal coordinate of the object (112) and the first and second longitudinal sensor signals.

6. 发明申请

WO2018146146A1 DETECTOR FOR AN OPTICAL DETECTION OF AT LEAST ONE OBJECT 审中-公开
公开(公告)号：WO2018146146A1
公开(公告)日：2018-08-16
申请号：PCT/EP2018/053070
申请日：2018-02-07
申请人： TRINAMIX GMBH
发明人： LUNGENSCHMIED, Christoph , BONSIGNORE, Christian , HANDRECK, Anke , BRUDER, Ingmar , SEND, Robert
IPC分类号： G01S17/42 , G01S5/16 , G01S7/481 , H01L51/42 , H01L31/0256
摘要： A detector (110) for an optical detection of at least one object (112) is proposed. The detector (110) comprises: - at least one optical sensor, wherein the optical sensor has at least one sensor region (130), wherein the optical sensor is designed to generate at least one sensor signal in a manner dependent on an illumination of the sensor region (130) by an incident modulated light beam (132), wherein the sensor signal is dependent on a modulation frequency of the light beam (132), wherein the sensor region (130) comprises at least one capacitive device (134), the capacitive device (134) comprising at least two electrodes (166, 174), wherein at least one insulating layer (178) and at least one photosensitive layer (180) are embedded between the electrodes (166, 174), wherein at least one of the electrodes (166, 74) is at least partially optically transparent for the light beam (132); and - at least one evaluation device (150), wherein the evaluation device (150) is designed to generate at least one item of information on a position of the object (112) by evaluating the sensor signal. In particular, the optical sensor may be a longitudinal optical sensor (114) designed to generate at least one longitudinal sensor signal, wherein the longitudinal sensor signal, given the same total power of the illumination, is further dependent on a beam cross-section of the light beam (132) in the sensor region (130), wherein the evaluation device (150) is designed to generate at least one item of information on a longitudinal position of the object (112) by evaluating the longitudinal sensor signal. Alternatively or in addition, the optical sensor may be a transversal optical sensor (160), wherein one of the electrodes (166, 174) is an electrode layer (222) having a low electrical conductivity adapted to determine a position at which the incident light beam (132) impinged the sensor region (130), wherein the transversal optical sensor (160) is designed to generate at least one transversal sensor signal dependent on the position at which the incident light beam (132) impinged the sensor region (130), wherein the evaluation device (150) is designed to generate at least one item of information on a transversal position of the object (112) by evaluating the transversal sensor signal. Thereby, a simple and, still, efficient detector for an accurate determining of a position of at least one object in space is provided which exhibits a strong non-linear behavior of an extracted ac photocurrent with a variation of a size of an impinging light spot and which, on the other hand, allows a facile preparation.

7. 发明申请

WO2017174491A1 DETECTOR FOR AN OPTICAL DETECTION OF AT LEAST ONE OBJECT 审中-公开
标题翻译：探测器用于至少一个物体的光学探测
公开(公告)号：WO2017174491A1
公开(公告)日：2017-10-12
申请号：PCT/EP2017/057825
申请日：2017-04-03
申请人： TRINAMIX GMBH
发明人： VALOUCH, Sebastian , LUNGENSCHMIED, Christoph , HERMES, Wilfried , SEND, Robert , BRUDER, Ingmar
IPC分类号： H01L31/101 , H01L31/0368 , H01L31/0376 , G01S7/481 , H01L51/42
CPC分类号： H01L31/1013 , G01S7/4816 , H01L27/14665 , H01L27/14669 , H01L27/307 , H01L31/03685 , H01L31/03762 , H01L31/03765 , H01L31/1016 , H01L51/4293 , Y02E10/545 , Y02E10/548
摘要： A simple and still reliable detector for an accurate determination of a position of at least one object (112) in space is provided. The detector comprises a longitudinal optical sensor (114) having a stack of at least two individual pin diodes (130, 130') arranged between at least two electrodes (132, 132'). Upon illumination of the sensor region by an incident light beam (136), a longitudinal sensor signal is generated. The longitudinal sensor signal, given the same power of illumination, is dependent on a beam cross-section of the light beam (136). The at last two individual pin diodes (130, 130') have different spectral sensitivities in order to enable the determination of a distance between the object and the detector by light beams in different spectral ranges, e.g. by light beams in the visible spectral range and in the infrared spectral range.
摘要翻译：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且仍然可靠的检测器。检测器包括具有布置在至少两个电极（132,132'）之间的至少两个单独的PIN二极管（130,130'）的堆叠的纵向光学传感器（114）。在通过入射光束（136）照射传感器区域时，产生纵向传感器信号。给定相同的照明功率的纵向传感器信号取决于光束（136）的光束横截面。最后两个单独的PIN二极管（130,130'）具有不同的光谱灵敏度，以便能够通过不同光谱范围内的光束来确定物体与检测器之间的距离，例如，通过可见光谱范围内和红外光谱范围内的光束。

8. 发明申请

WO2016120392A1 DETECTOR FOR AN OPTICAL DETECTION OF AT LEAST ONE OBJECT 审中-公开
标题翻译：用于对一个物体进行光学检测的探测器
公开(公告)号：WO2016120392A1
公开(公告)日：2016-08-04
申请号：PCT/EP2016/051817
申请日：2016-01-28
申请人： TRINAMIX GMBH
发明人： VALOUCH, Sebastian , BRUDER, Ingmar , SEND, Robert , LUNGENSCHMIED, Christoph , HERMES, Wilfried , THIEL, Erwin , IRLE, Stephan
IPC分类号： H01L27/30 , H01L27/146 , G01S7/481
CPC分类号： G01S17/66 , A63F13/213 , A63F13/30 , A63F13/655 , G01S7/4816 , G01S17/06 , H01L27/14601 , H01L27/14665 , H01L27/307 , H01L31/0224 , H01L31/09 , H01L51/0036 , H01L51/4253
摘要： A detector (110) for an optical detection of at least one object (112) is proposed. The detector (110) comprises: at least one longitudinal optical sensor (114), wherein the longitudinal optical sensor (114) has at least one sensor region (130), wherein the longitudinal optical sensor (114) is designed to generate at least one longitudinal sensor signal in a manner dependent on an illumination of the sensor region (130) by a light beam (132), wherein the longitudinal sensor signal, given the same total power of the illumination, is dependent on a beam cross-section (174) of the light beam (132) in the sensor region (130), wherein the sensor region (130) comprises at least one photoconductive material (134), wherein an electrical conductivity of the photoconductive material (134), given the same total power of the illumination, is dependent on the beam cross-section (174) of the light beam (132) in the sensor region (130), wherein the longitudinal sensor signal is dependent on the electrical conductivity; and at least one evaluation device (140), wherein the evaluation device (140) is designed to generate at least one item of information on a longitudinal position of the object (112) by evaluating the longitudinal sensor signal of the longitudinal optical sensor (114). Thereby, a simple and, still, efficient detector (110) for an accurate determining of a position of at least one object (112) in space is provided.
摘要翻译：提出了一种用于至少一个物体（112）的光学检测的检测器（110）。所述检测器（110）包括：至少一个纵向光学传感器（114），其中所述纵向光学传感器（114）具有至少一个传感器区域（130），其中所述纵向光学传感器（114）被设计成产生至少一个纵向传感器信号以取决于通过光束（132）的传感器区域（130）的照明的方式，其中给定相同的照明总功率的纵向传感器信号取决于光束横截面（174 ）传感器区域（130）中的光束（132），其中传感器区域（130）包括至少一个感光材料（134），其中光导材料（134）的导电性给定相同的总功率依赖于传感器区域（130）中的光束（132）的光束横截面（174），其中纵向传感器信号取决于电导率; 以及至少一个评估装置（140），其中所述评估装置（140）被设计成通过评估所述纵向光学传感器（114）的纵向传感器信号来产生关于所述物体（112）的纵向位置的至少一项信息）。因此，提供了用于精确确定空间中的至少一个物体（112）的位置的简单且仍然有效的检测器（110）。

9. 发明申请

WO2021064003A1 DETECTOR ARRAY AND A SPECTROMETER SYSTEM 审中-公开
公开(公告)号：WO2021064003A1
公开(公告)日：2021-04-08
申请号：PCT/EP2020/077329
申请日：2020-09-30
申请人： TRINAMIX GMBH
发明人： VALOUCH, Sebastian , HERMES, Wilfried , LUNGENSCHMIED, Christoph , BRILL, Jochen , GUST, Robert , SEND, Robert , FEUERSTEIN, Bertram , KLUEH, Stefan
IPC分类号： G01J3/26 , G01J3/28 , G01J3/36
摘要： A detector array (112), a spectrometer system (110) comprising the detector array (112) and various uses of the spectrometer system (110) are disclosed. The spectrometer system can be employed for various investigation or monitoring purposes, in particular in the infrared spectral region, especially in the near-infrared and the mid infrared spectral regions. Herein, the detector array (112) comprises a substrate (212); and a plurality of detector pixels (144) applied to a surface of the substrate (212), wherein each detector pixel (144) has a sensor region (214) which is designated for receiving a partition of incident light (114), wherein each detector pixel (144) is designated for generating a sensor signal depending on an intensity of the partition of the incident light (114) received by the sensor region of the detector pixel (144), wherein at least two adjacent detector pixels (144) share a single connection to a common electric potential (316), and wherein the sensor regions of at least two of the detector pixels (144) differ with respect to each other by an area (220) of the corresponding sensor region (214).

10. 发明申请

WO2018096083A1 OPTICAL DETECTOR COMPRISING AT LEAST ONE OPTICAL WAVEGUIDE 审中-公开
公开(公告)号：WO2018096083A1
公开(公告)日：2018-05-31
申请号：PCT/EP2017/080308
申请日：2017-11-24
申请人： TRINAMIX GMBH
发明人： LUNGENSCHMIED, Christoph , REICHELT, Helmut , BRUDER, Ingmar , SEND, Robert , REICHERT, Hans , FEILER, Leonhard
IPC分类号： F21V8/00 , H01L31/054
CPC分类号： G02B6/0003 , H01L31/02322 , H01L31/02325 , Y02E10/52
摘要： The present invention refers to an optical detector (110) comprising at least one optical waveguide (112), the optical waveguide (112) having at least one transparent matrix material (120) and at least one fluorescent colorant (122) embedded into the matrix material (120), wherein the fluorescent colorant (122), in a wavelength range of 400 nm to 900 nm, has an absorption maximum which occurs in the wavelength range of 500 nm to 850 nm, the optical waveguide (112) being configured for waveguiding fluorescence light generated by the fluorescent colorant (122), the optical waveguide (112) further having at least one light-sensitive area (116) configured for being illuminated by at least one light beam (174), the optical detector (110) further comprising at least one photosensitive element (124, 126, 128, 130) configured for detecting fluorescence light generated by the fluorescent colorant (122), excited by the light beam (174), waveguided by the optical waveguide (112) and coupled out from the optical waveguide (112).

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