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    • 4. 发明申请
    • DEVICE AND METHOD FOR MONITORING AN EMISSION TEMPERATURE OF A RADIATION EMITTING ELEMENT
    • WO2022234073A1
    • 2022-11-10
    • PCT/EP2022/062260
    • 2022-05-06
    • TRINAMIX GMBH
    • OEGUEN, Celal MohanHORMUTH, FelixVALOUCH, Sebastian
    • G01J5/00H05B6/06
    • The present invention refers to a device (112) for monitoring an emission temperature of at least one radiation emitting element (114), a heating system (110) for heating at the least one radiation emitting element (114) to emit thermal radiation at an emission temperature, a method for monitoring an emission temperature of at least one radiation emitting element (114) and method for heating the at least one radiation emitting element (114) to emit thermal radiation at an emission temperature. Herein, the device (112) for monitoring an emission temperature of at least one radiation emitting element (114) comprises - at least one radiation sensitive element (126), wherein the at least one radiation sensitive element (126) has at least one sensor region (128), wherein the at least one sensor region (128) comprises at least one photosensitive material selected from at least one photoconductive material, wherein the at least one sensor region (128) is designated for generating at least one sensor signal depending on an intensity of the thermal radiation emitted by the at least one radiation emitting element (114) and received by the sensor region (128) within at least two individual wavelength ranges, wherein the at least one radiation sensitive element (126) is arranged in a manner that the thermal radiation travels through at least one transition material (116) prior to be received by the at least one radiation sensitive element (126), wherein the at least one transition material (116) is at least partially transparent for the thermal radiation within the two individual wavelength ranges; and at least one evaluation unit (138), wherein the at least one evaluation unit (138) is configured to determine the emission temperature of the at least one radiation emitting element (114) by comparing values for the intensity of the thermal radiation within the at least two individual wavelength ranges.
    • 7. 发明申请
    • COMMUNICATION SYSTEM, MONITORING SYSTEM AND RELATED METHODS
    • WO2021185892A1
    • 2021-09-23
    • PCT/EP2021/056792
    • 2021-03-17
    • TRINAMIX GMBH
    • LUNGENSCHMIED, ChristophSCHMIDT, FelixLOVRINCIC, RobertKETTNER, Michel ValentinKAELBLEIN, DanielBRILL, JochenROSENKRANZ, Thomas
    • H04L29/08
    • 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