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1. 发明申请

WO2022234073A1 DEVICE AND METHOD FOR MONITORING AN EMISSION TEMPERATURE OF A RADIATION EMITTING ELEMENT 审中-公开
公开(公告)号：WO2022234073A1
公开(公告)日：2022-11-10
申请号：PCT/EP2022/062260
申请日：2022-05-06
申请人： TRINAMIX GMBH
发明人： OEGUEN, Celal Mohan , HORMUTH, Felix , VALOUCH, Sebastian
IPC分类号： G01J5/00 , H05B6/06
摘要： 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.

2. 发明申请

WO2020187720A1 OPTICAL SENSOR, METHOD FOR SELECTING AN OPTICAL SENSOR AND DETECTOR FOR OPTICAL DETECTION 审中-公开
公开(公告)号：WO2020187720A1
公开(公告)日：2020-09-24
申请号：PCT/EP2020/056760
申请日：2020-03-13
申请人： TRINAMIX GMBH
发明人： HERMES, Wilfried , VALOUCH, Sebastian , MUELLER, Sebastian , HOEH, Regina , BECHTEL, Heidi , ALTENBECK, Timo , DITTMANN, Fabian , FEUERSTEIN, Bertram , HUPFAUER, Thomas , HANDRECK, Anke , GUST, Robert , KALETTA, Peter Paul , SEND, Robert , WAINDOK, Hubert , HENNIG, Ingolf , GURIYANOVA, Svetlana
IPC分类号： H01L31/09 , H01L31/032 , H01L31/0216 , H01L21/66
摘要： The present invention relates to an optical sensor (110) comprising a stack (125) of a substrate (124), a layer (112) of at least one photoconductive material (114) which is applied to the substrate (124) and a cover (116) covering accessible surfaces of the photoconductive material, and at least two electrical contacts (136, 136') which contact the layer (112) of the photoconductive material (114). When the optical sensor exhibits in a quasi-static nanoindenter measurement of the stack a Young's modulus • at a penetration depth of 100 nm of 75 GPa to 107 GPa, • at the penetration depth of 300 nm of 47 GPa to 127 GPa, • at the penetration depth of 1000 nm of 49 GPa to 119 GPa, and and a hardness • at the penetration depth of 100 nm of 1.20 GPa to 4.70 GPa, • at the penetration depth of 300 nm of 1.60 GPa to 4.60 GPa and • at the penetration depth of 1000 nm of 1.60 GPa to 8.00 GPa, the optical sensor (110) exhibits high performance and stability over a long time. The optical sensor (110) is specifically designed for application as a safety related-device, such as a gas sensor, a spark sensor, or a flame sensor, as well as for application in the field of security technology.

3. 发明申请

WO2020094572A1 DETECTOR AND METHOD FOR DETERMINING A POSITION OF AT LEAST ONE OBJECT 审中-公开
公开(公告)号：WO2020094572A1
公开(公告)日：2020-05-14
申请号：PCT/EP2019/080107
申请日：2019-11-04
申请人： TRINAMIX GMBH
发明人： VALOUCH, Sebastian , OEGUEN, Celal Mohan , SEND, Robert , BRUDER, Ingmar
IPC分类号： G01B11/02
摘要： A detector (110) for determining a position of at least one object (112) is disclosed. The detector (110) comprises: - at least one transfer device (114) with chromatic aberration; - at least one aperture element (118), wherein the aperture element (118) is configured to block edge components of a light beam (120) propagating from the object (112) to the detector (110) and having passed the transfer device (114), wherein the aperture element (118) is configured to let pass central components (119) of said light beam (120); - at least one first optical sensor (126) positioned in a direction of propagation of said light beam (120) behind the aperture element (118), wherein the first optical sensor (126) is configured for determining a color information of the central components (119) of said light beam (120) and wherein the first optical sensor (126) is configured for determining at least one first intensity information of the central components of said light beam (120); - at least one second optical sensor (128), wherein the second optical sensor (128) is configured to determine at least one second intensity information of the edge components of said light beam (120).

4. 发明申请

WO2018019921A1 OPTICAL SENSOR AND DETECTOR FOR OPTICAL DETECTION 审中-公开
标题翻译：用于光学检测的光学传感器和检测器
公开(公告)号：WO2018019921A1
公开(公告)日：2018-02-01
申请号：PCT/EP2017/068956
申请日：2017-07-27
申请人： TRINAMIX GMBH
发明人： HERMES, Wilfried , VALOUCH, Sebastian , SEND, Robert , BRUDER, Ingmar , FEUERSTEIN, Bertram
IPC分类号： H01L31/09 , H01L31/02 , H01L31/0203 , H01L31/0216 , H01L31/0224 , H01L31/032 , H01L31/18 , G01S7/481
摘要： 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.
摘要翻译：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。

5. 发明申请

WO2017012986A1 DETECTOR FOR OPTICALLY DETECTING AT LEAST ONE OBJECT 审中-公开
标题翻译：用于光学检测至少一个对象的检测器
公开(公告)号：WO2017012986A1
公开(公告)日：2017-01-26
申请号：PCT/EP2016/066783
申请日：2016-07-14
申请人： TRINAMIX GMBH
发明人： SEND, Robert , BRUDER, Ingmar , VALOUCH, Sebastian
IPC分类号： G01C3/32 , G01S17/46 , G01S3/784 , G01S5/16 , G01S7/481 , G01S11/12
CPC分类号： G01S5/16 , G01C3/32 , G01S3/784 , G01S7/4816 , G01S11/12 , G01S17/46
摘要： A detector (110) for determining a position of at least one object (118) is proposed. The detector (110) comprises: -at least one optical sensor (112), the optical sensor (112) being configured to detect at least one light spot (156) generated by at least one light beam (150) propagating from the object (118) towards the detector (110), the optical sensor (112) having at least one matrix (152) of pixels (154), each pixel (154) being adapted to generate at least one pixel signal s i,j in response to an illumination of the pixel (154) by the light beam (150); -at least one non-linearization device (123) configured to transform the pixel signals s i,j of all pixels (154) i, j or of at least one group of pixels (154) into nonlinear pixel signals s' i,j , the nonlinear pixel signals s' i,j each being a nonlinear function of the power of the illumination p ij of the respective pixel (154); -at least one summing device (125) configured to add up the nonlinearpixel signals s' ij of all pixels (154) i, j or of the at least one group of pixels (154) and to generate at least one nonlinearsum signal S'=∑ ij s' ij ; and -at least one evaluation device (126), the evaluation device (126) being configured to determine at least one longitudinal coordinate z of the object (118) by evaluating the nonlinear sum signal S'.
摘要翻译：提出了一种用于确定至少一个物体（118）的位置的检测器（110）。检测器（110）包括： - 至少一个光学传感器（112），光学传感器（112）被配置为检测由从物体传播的至少一个光束（150）产生的至少一个光点（156） 118）朝向所述检测器（110），所述光学传感器（112）具有至少一个像素（152）的矩阵（152），每个像素（154）适于响应于所述至少一个像素信号si 通过光束（150）照射像素（154）; - 被配置为将所有像素（154）i，j或至少一组像素（154）的像素信号si，j或者至少一组像素（154）变换成非线性像素信号s'i，j的至少一个非线性化装置（123）非线性像素信号s'i，j分别是相应像素（154）的照明pij的功率的非线性函数。 - 至少一个求和装置（125），被配置为将所有像素（154）i，j或所述至少一组像素（154）的非线性轮廓信号s'ij相加并且生成至少一个非线性信号S' =Σijs'ij; 以及 - 至少一个评估装置（126），所述评估装置（126）被配置为通过评估所述非线性和信号S'来确定所述对象（118）的至少一个纵向坐标z。

6. 发明申请

WO2022018252A1 SPECTROMETER DEVICE AND METHOD FOR MEASURING OPTICAL RADIATION 审中-公开
公开(公告)号：WO2022018252A1
公开(公告)日：2022-01-27
申请号：PCT/EP2021/070644
申请日：2021-07-23
申请人： TRINAMIX GMBH
发明人： OEGUEN, Celal Mohan , HOOS, Stefan , GUST, Robert , VALOUCH, Sebastian , SCHINDLER, Patrick
IPC分类号： G01J3/02 , G01J3/10 , G01J3/28 , G01J3/42
摘要： The invention relates to a spectrometer device (112) and to a method (160) for measuring optical radiation as (114) well as to a spectrometer system (110) comprising the spectrometer device (112). The spectrometer device (112) for measuring optical radiation (114) comprises: at least one radiation emitting element (116), wherein the at least one radiation emitting element (116) is designed for emitting optical radiation (114), wherein a spectrum of the emitted optical radiation (114) is dependent on a temperature of the radiation emitting element (116); at least one photosensitive detector (120), wherein the at least one photosensitive detector (120) has at least one photosensitive region (122, 122', 122", 122'") designated for receiving the emitted optical radiation (114), wherein at least one detector signal (128) generated by the at least one photosensitive detector (120) is dependent on an illumination of the at least one photosensitive region (122, 122', 122", 122"') and on the temperature of the at least one photosensitive detector (120); at least one control circuit (130), wherein the at least one control circuit (130) is configured for o determining the spectrum of the emitted optical radiation (114) by the at least one radiation emitting element (116) by using Planck's law with a known temperature, and o adjusting the temperature of at least one of the at least one radiation emitting element (116) or the at least one photosensitive detector (120) by applying at least one control signal (132, 134)) to the at least one of the at least one radiation emitting element (116) or to the at least one photosensitive detector (120); at least one readout circuit (136), wherein the at least one readout circuit (136) is configured for measuring the at least one detector signal (128) as generated by the at least one photosensitive detector (120). The spectrometer system (110) is a mixed spectrometer which employs the advantages of a scanning spectrometer and a dispersive spectrometer, thereby avoiding their respective disadvantages. Compared to both, the mixed spectrometer constitutes a simplified spectrometer system by comprising a reduced number of required components and exhibiting a miniaturized mechanical set-up.

7. 发明申请

WO2021064064A1 MODULATION DEVICE FOR PERIODICALLY MODULATING LIGHT 审中-公开
公开(公告)号：WO2021064064A1
公开(公告)日：2021-04-08
申请号：PCT/EP2020/077442
申请日：2020-10-01
申请人： TRINAMIX GMBH
发明人： VALOUCH, Sebastian , SEND, Robert
IPC分类号： G01J5/08 , G01J5/62 , G02B26/04 , G01J3/10 , G01J3/02
摘要： A modulation device (110) for periodically modulating light emitted by a light source (112) is proposed. The modulation device (110) has at least one enclosing tube (116) being rotatable about a cylinder axis (128) of the enclosing tube (116). The enclosing tube (116) has at least one aperture (138) disposed within a cylindrical wall (117) of the enclosing tube (116). The modulation device (110) further has at least one driving system (130) for rotating the enclosing tube (116) about the cylinder axis (128). Further, a modulated illumination device (114) and a spectrometer device (142) are proposed.

8. 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).

9. 发明申请

WO2020148381A1 OPTICAL SENSOR AND DETECTOR FOR AN OPTICAL DETECTION 审中-公开
公开(公告)号：WO2020148381A1
公开(公告)日：2020-07-23
申请号：PCT/EP2020/051017
申请日：2020-01-16
申请人： TRINAMIX GMBH
发明人： HERMES, Wilfried , VALOUCH, Sebastian , MUELLER, Sebastian , HOEH, Regina , BECHTEL, Heidi , ALTENBECK, Timo , DITTMANN, Fabian , FEUERSTEIN, Bertram , HUPFAUER, Thomas , HANDRECK, Anke , GUST, Robert , SEND, Robert , BRUDER, Ingmar
IPC分类号： H01L31/09 , H01L31/0203 , H01L31/032
摘要： The optical sensor (110) comprises a substrate (124) attached to a circuit carrier device (142), a layer (112) of at least one photoconductive material (114) which is directly or indirectly applied to the substrate (124), at least two individual electrical contacts (136, 136') contacting the layer (112) of the photoconductive material (114), and a cover (116) covering accessible surfaces of the layer (112) of the photoconductive material (114) and of the substrate (124), wherein the cover (116) is an amorphous cover which comprises at least one metal-containing compound (120), wherein at least one of the substrate (124) and the cover (116) is optically transparent within a wavelength range. A manufacturing method for the optical sensor (110) is also provided. The optical sensor (110) can, thus, be supplied as a non-bulky hermetic package which provides an increased degree of protection against possible degradation by humidity and/or oxygen over long terms. Further, the optical sensor (110) may be easily manufactured and integrated on a circuit carrier device (142).

10. 发明申请

WO2019115596A1 SPECTROMETER DEVICE AND SYSTEM 审中-公开
公开(公告)号：WO2019115596A1
公开(公告)日：2019-06-20
申请号：PCT/EP2018/084511
申请日：2018-12-12
申请人： TRINAMIX GMBH
发明人： VALOUCH, Sebastian , GUST, Robert , FEUERSTEIN, Bertram , SEND, Robert , BRUDER, Ingmar
IPC分类号： G01J3/02 , G01J3/26 , G01J5/00
CPC分类号： G01J3/26 , G01J3/021 , G01J5/0014 , G01J2003/1234 , G01J2003/1282
摘要： A spectrometer system (110) and a spectrometer device (112) are disclosed, which are suited for investigation or monitoring purposes, in particular, in the infrared (IR) spectral region, and for a detection of heat, flames,fire, or smoke. Herein, the spectrometer device (112) comprises - an optical element (122) designed for receiving incident light (114) from an object (116) and transferring the incident light (114) to a length variable filter (118), wherein the optical element (122) comprises an optical concentrator device (124), wherein the optical concentrator device (124) is operated in reverse direction (126), wherein the optical concentrator device (124) comprises a non-conical shape (128); - the length variable filter (118) which is designated for separating the incident light (114) into a spectrum of constituent wavelength signals; and - a detector array (120) having a plurality of pixelated sensors(144), wherein each of the pixelated sensors (144) is adapted to receive at least a portion of one of the constituent wavelength signals, wherein each of the constituent wavelength signals is related to an intensity of each constituent wavelength. The spectrometer device (112) allows capturing incident light (114) from the object (116) and transferring the incident light (114) to the length variable filter (118) with a particularly high concentration efficiency.Apart from the spectrometer device (112), the spectrometer system (110) further comprises an evaluation unit (150) designated for determining information related to a spectrum of an object (116) by evaluating the detector signals (204 204', 204'') provided by the spectrometer device (112).

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