IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0951438
(2010-11-22)
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등록번호 |
US-8531191
(2013-09-10)
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발명자
/ 주소 |
- Jensen, Raymond
- Folden, Dwayne
- Hanifan, Philip
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출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
59 |
초록
▼
A microwave sensor assembly includes a signal generator for generating at least one microwave signal and an emitter coupled to the signal generator. The emitter is configured to generate an electromagnetic field from the at least one microwave signal, wherein the emitter is detuned when an object is
A microwave sensor assembly includes a signal generator for generating at least one microwave signal and an emitter coupled to the signal generator. The emitter is configured to generate an electromagnetic field from the at least one microwave signal, wherein the emitter is detuned when an object is positioned within the electromagnetic field such that a loading signal is generated. The microwave sensor assembly also includes a detector coupled to the emitter and to the signal generator. The detector is configured to calculate at least one of an amplitude, a phase, and a power of the loading signal at a primary frequency of the loading signal for use in measuring a proximity of an object to the emitter.
대표청구항
▼
1. A microwave sensor assembly comprising: a signal generator for generating at least one microwave signal;an emitter coupled to the signal generator, the emitter configured to generate an electromagnetic field from the at least one microwave signal, wherein the emitter is detuned when an object is
1. A microwave sensor assembly comprising: a signal generator for generating at least one microwave signal;an emitter coupled to the signal generator, the emitter configured to generate an electromagnetic field from the at least one microwave signal, wherein the emitter is detuned when an object is positioned within the electromagnetic field such that a loading signal is generated;a detector coupled to the emitter and to the signal generator, the detector configured to calculate at least one of an amplitude, a phase, and a power of the loading signal at a primary frequency of the loading signal for use in measuring a proximity of an object to the emitter; anda phase-locked loop configured to receive the loading signal and to generate a loading frequency signal that is approximately equal to the primary frequency of the loading signal. 2. The microwave sensor assembly in accordance with claim 1, further comprising a frequency-to-voltage converter coupled to the phase-locked loop, the frequency-to-voltage converter configured to receive the loading frequency signal and to convert the loading frequency signal to a first voltage signal for use in generating the microwave signal. 3. The microwave sensor assembly in accordance with claim 2, further comprising: a voltage source configured to generated a second voltage signal; anda voltage source switch coupled to the voltage source and to the frequency-to-voltage converter, the voltage source switch selectively transmits the first voltage signal and the second voltage signal for use in generating the microwave signal. 4. The microwave sensor assembly in accordance with claim 3, wherein the voltage source is de-energized when the frequency-to-voltage converter transmits the first voltage signal to the voltage source switch. 5. The microwave sensor assembly in accordance with claim 1, wherein the signal demodulator receives the loading frequency signal and determines a peak amplitude of the loading signal at the primary frequency. 6. The microwave sensor assembly in accordance with claim 5, comprising a power calculator coupled to the signal demodulator, the power calculator configured to: receive a signal representative of the peak amplitude of the loading signal; andcalculate an amount of power contained in the peak amplitude signal for use in determining the proximity of the object to the emitter. 7. A power system comprising: a machine comprising at least one component;a microwave sensor assembly positioned proximate to said at least one component and comprising: a signal generator for generating at least one microwave signal; andan emitter coupled to said signal generator, said emitter configured to generate an electromagnetic field from the at least one microwave signal, wherein said emitter is detuned when an object is positioned within the electromagnetic field such that a loading signal is generated;a detector coupled to said emitter and to said signal generator, said detector configured to calculate at least one of an amplitude, a phase, and a power of the loading signal at a primary frequency of the loading signal for use in measuring a proximity of said at least one component to said emitter, anda phase-locked loop configured to receive the loading signal and to generate a loading frequency signal that is approximately equal to the primary frequency of the loading signal. 8. The power system in accordance with claim 7, comprising a frequency-to-voltage converter coupled to the phase-locked loop, the frequency-to-voltage converter configured to receive the loading frequency signal and to convert the loading frequency signal to a first voltage signal for use in generating the microwave signal. 9. The power system in accordance with claim 8, comprising: a voltage source configured to generated a second voltage signal; anda voltage source switch coupled to the voltage source and to the frequency-to-voltage converter, the voltage source switch selectively transmits the first voltage signal and the second voltage signal for use in generating the microwave signal. 10. The power system in accordance with claim 9, wherein the voltage source is de-energized when the frequency-to-voltage converter transmits the first voltage signal to the voltage source switch. 11. The power system in accordance with claim 7, wherein the signal demodulator receives the loading frequency signal and determines a peak amplitude of the loading signal at the primary frequency. 12. The power system in accordance with claim 11, comprising a power calculator coupled to the signal demodulator, the power calculator configured to: receive a signal representative of the peak amplitude of the loading signal; andcalculate an amount of power contained in the peak amplitude signal for use in determining the proximity of the at least one component to the emitter. 13. A method for measuring a proximity of a machine component relative to an emitter, the method comprising: transmitting at least one microwave signal to an emitter;generating an electromagnetic field from the at least one microwave signal;generating a loading signal representative of a disruption of the electromagnetic field, wherein the loading signal includes a plurality of frequencies;calculating at least one of an amplitude, a phase, and a power of the loading signal at a primary frequency of the loading signal;calculating a proximity of the machine component to the emitter based on at least one of the calculated amplitude, phase, and power of the loading signal andextracting the primary frequency of the loading signal from the plurality of frequencies; andgenerating a loading frequency signal that is representative of the primary frequency. 14. The method in accordance with claim 13, comprising converting the loading frequency signal to a first voltage signal for use in generating the microwave signal. 15. The method in accordance with claim 13, comprising determining a peak amplitude of the loading signal at the primary frequency. 16. The method in accordance with claim 15, wherein the determining a peak amplitude of the loading signal at the primary frequency comprises filtering the loading signal to remove frequencies that are not equal to the primary frequency. 17. The method in accordance with claim 15, comprising: receiving a signal representative of the peak amplitude of the loading signal; andcalculating an amount of power contained in the peak amplitude signal for use in calculating the proximity of the machine component to the emitter.
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