Passive wireless sensors for turbomachines and method of operating the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G08C-019/22
H04Q-009/00
F01D-021/00
출원번호
US-0840975
(2015-08-31)
등록번호
US-9986312
(2018-05-29)
발명자
/ 주소
Berkcan, Ertugrul
Lee, Yongjae
출원인 / 주소
GENERAL ELECTRIC COMPANY
대리인 / 주소
Darling, John P.
인용정보
피인용 횟수 :
0인용 특허 :
15
초록▼
A machine includes a first machine substrate and a second machine substrate and a monitoring system for the machine. The monitoring system includes a sensor subsystem including a sensor substrate integral with the first machine substrate and at least one sensor electromagnetic structure coupled to a
A machine includes a first machine substrate and a second machine substrate and a monitoring system for the machine. The monitoring system includes a sensor subsystem including a sensor substrate integral with the first machine substrate and at least one sensor electromagnetic structure coupled to at least a portion of the sensor substrate. The at least one sensor electromagnetic structure includes at least one sensor conducting sub-component. The at least one sensor electromagnetic structure is configured to regulate electromagnetic fields incident thereto in response to at least one measurement characteristic of a machine measurand. The sensor subsystem is configured to obtain at least one measurement characteristic of the machine measurand proximate a machine sensing position.
대표청구항▼
1. A monitoring system for a machine, the machine including a first machine substrate and a second machine substrate, said monitoring system comprising a sensor subsystem comprising: a sensor substrate integral with the first machine substrate;a dielectric layer formed over the sensor substrate; and
1. A monitoring system for a machine, the machine including a first machine substrate and a second machine substrate, said monitoring system comprising a sensor subsystem comprising: a sensor substrate integral with the first machine substrate;a dielectric layer formed over the sensor substrate; anda plurality of sensor subassemblies positioned at predetermined sensing positions on the dielectric layer, wherein each of the sensor subassemblies includes at least one sensor electromagnetic structure coupled to at least a portion of said sensor substrate, said at least one sensor electromagnetic structure comprising at least one sensor conducting sub-component, said at least one sensor electromagnetic structure configured to regulate electromagnetic fields incident thereto in response to at least one measurement characteristic of a machine measurand, said sensor subsystem configured to obtain at least one measurement characteristic of the machine measurand proximate a machine sensing position. 2. The monitoring system in accordance with claim 1 further comprising a reader subsystem operatively coupled to said sensor subsystem, said reader subsystem comprising: a reader substrate integral with the second machine substrate; andat least one reader electromagnetic subassembly comprising at least one reader conducting subcomponent configured to measure the regulated electromagnetic fields; anda reader processor coupled to said at least one reader electromagnetic subassembly, said reader processor configured to determine values for the measurement characteristics of the machine measurand based on at least one property of the regulated electromagnetic fields. 3. The monitoring system in accordance with claim 2, wherein one or more of: said reader subsystem further comprises a passivation subcomponent configured to at least partially protect said reader electromagnetic subassembly from environmental conditions within the machine; andsaid at least one reader electromagnetic subassembly further comprises a reader dielectric layer formed over at least a portion of said reader substrate. 4. The monitoring system in accordance with claim 2, wherein: said at least one reader conducting subcomponent defines at least one reader antenna configured to transmit energy in the radio-frequency (RF) spectrum to said at least one sensor electromagnetic structure and at least one reader antenna configured to receive energy in the RF spectrum from said sensor electromagnetic structure; andsaid at least one sensor conducting subcomponent defines a sensor antenna configured to respond to the RF energy transmitted from said reader electromagnetic subassembly. 5. The monitoring system in accordance with claim 4, wherein said at least one reader antenna comprises one of: a first bistatic reader antenna configured to transmit energy in the RF spectrum to said at least one sensor electromagnetic structure and a second bistatic reader antenna configured to receive energy in the RF spectrum from said sensor electromagnetic structure; anda monostatic reader antenna configured to both transmit energy in the RF spectrum to said at least one sensor electromagnetic structure and receive energy in the RF spectrum from said sensor electromagnetic structure. 6. The monitoring system in accordance with claim 1, wherein said sensor subsystem further comprises a passivation subcomponent configured to at least partially protect said at least one sensor electromagnetic structure from environmental conditions within the machine. 7. The monitoring system in accordance with claim 1, wherein said at least one sensor subsystem further comprises: a delay component coupled to said sensor electromagnetic structure; anda sensor component coupled to said delay component. 8. The monitoring system in accordance with claim 7, wherein said sensor component comprises a loading element and said at least one sensor subsystem further comprises a matching element coupled to said at least one sensor electromagnetic structure and said loading element, said matching element configured to facilitate impedance matching between said loading element and said sensor electromagnetic structure. 9. The monitoring system in accordance with claim 7, wherein said sensor component is an electromagnetic field-responsive component configured to radiate in close proximity of said sensor substrate. 10. A method of operating a machine including a monitoring system, the machine including a first machine substrate and a second machine substrate, said method comprising: generating, with a reader subsystem, an electromagnetic field proximate a sensor subsystem, thereby illuminating a sensor conducting subcomponent with the electromagnetic field, wherein the reader subsystem is printed and positioned on a non-planar metallic surface using maskless patterning and manufacturing with no electronic components embedded thereon;regulating the electromagnetic field with the sensor subsystem in response to changes of at least one measurement characteristic of a machine measurand as determined through a sensor substrate integral with the first machine substrate;sensing changes in the regulated electromagnetic field at the reader subsystem; andreflecting signals representative of the changes in the regulated electromagnetic field to a reader processor. 11. The method in accordance with claim 10, wherein reflecting signals representative of the changes in the regulated electromagnetic field to a reader processor comprises: regulating signals representative of values of the at least one measurement characteristic of the machine measurand within the reader processor; andreflecting the signals representative of values of the at least one measurement characteristic to at least one of a recording device and an indicating device through a reader substrate integral with the second machine substrate. 12. The method in accordance with claim 11, wherein regulating signals representative of values of the at least one measurement characteristic of the machine measurand within the reader processor comprises at least partially electrically isolating a reader conducting sub-component from the second machine substrate through forming a reader dielectric layer over at least a portion of the reader substrate. 13. The method in accordance with claim 11, wherein regulating an electromagnetic field comprises energizing the reader conducting subcomponent and configuring the reader conducting subcomponent to operate as an antenna. 14. The method in accordance with claim 10, wherein regulating the electromagnetic field with the sensor subsystem comprises at least partially electrically isolating a sensor conducting sub-component from the first machine substrate through forming a sensor dielectric layer over at least a portion of the sensor substrate. 15. The method in accordance with claim 10, wherein illuminating a sensor conducting subcomponent with the electromagnetic field comprises energizing the sensor conducting subcomponent and configuring the sensor conducting subcomponent to operate as an antenna. 16. The method in accordance with claim 10, wherein regulating the electromagnetic field comprises regulating the electromagnetic field with time-varying frequencies that sweep through a range of frequencies that encompass predetermined resonant frequencies of the sensor subsystem. 17. A turbomachine comprising: a first component comprising a first machine substrate;a second component comprising a second machine substrate, said second component proximate said first component; anda monitoring system comprising a sensor subsystem comprising: a sensor substrate integral with said first machine substrate;a dielectric layer formed over the sensor substrate; anda plurality of sensor subassemblies positioned at predetermined sensing positions on the dielectric layer, wherein each of the sensor subassemblies includes at least one sensor electromagnetic structure coupled to at least a portion of said sensor substrate, said at least one sensor electromagnetic structure comprising at least one sensor conducting sub-component, said at least one sensor electromagnetic structure configured to regulate electromagnetic fields incident thereto in response to at least one measurement characteristic of a machine measurand, said sensor subsystem configured to obtain at least one measurement characteristic of the machine measurand proximate a machine sensing position. 18. The turbomachine in accordance with claim 17 further comprising a reader subsystem operatively coupled to said sensor subsystem, said reader subsystem comprising: a reader substrate integral with said second machine substrate; andat least one reader electromagnetic subassembly comprising at least one reader conducting subcomponent configured to measure the regulated electromagnetic fields; anda reader processor coupled to said at least one reader electromagnetic subassembly, said reader processor configured to determine values for the measurement characteristics of the machine measurand based on at least one property of the regulated electromagnetic fields. 19. The turbomachine in accordance with claim 18, wherein: said at least one reader conducting subcomponent defines at least one reader antenna configured to transmit energy in the radio-frequency (RF) spectrum to said at least one sensor electromagnetic structure and at least one reader antenna configured to receive energy in the RF spectrum from said sensor electromagnetic structure; andsaid at least one sensor conducting subcomponent defines a sensor antenna configured to respond to the RF energy transmitted from said reader electromagnetic subassembly. 20. The turbomachine in accordance with claim 17, wherein said sensor subsystem further comprises a passivation subcomponent configured to at least partially protect said at least one sensor electromagnetic structure from environmental conditions within said turbomachine.
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