IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0386172
(2006-03-22)
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등록번호 |
US-7389686
(2008-06-24)
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발명자
/ 주소 |
- Thomas,Steven H.
- Elgersma,Michael R.
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출원인 / 주소 |
- Honeywell International Inc.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
3 인용 특허 :
13 |
초록
▼
An air data system is described that includes a cone-shaped probe, a plurality of pressure transducers, and a processing device. The cone-shaped probe includes a first pressure port formed in a substantial tip of the probe and extending therethrough, and a plurality of pressure ports formed in a sub
An air data system is described that includes a cone-shaped probe, a plurality of pressure transducers, and a processing device. The cone-shaped probe includes a first pressure port formed in a substantial tip of the probe and extending therethrough, and a plurality of pressure ports formed in a substantially evenly spaced circular pattern about a sloped surface of the probe and extending through the probe. The plurality of pressure transducers are each configured to receive at least one pressure transferred through at least one of the pressure ports and output one or more signals related to the pressures sensed. The processing device is configured to receive signals originating from the transducers. The processing device is further configured to calculate a static pressure, an angle of attack, and an angle of sideslip based on the received signals.
대표청구항
▼
The invention claimed is: 1. An air data system comprising: a cone-shaped probe comprising a first pressure port formed in a substantial tip of said probe and extending therethrough, and a plurality of pressure ports formed in a substantially evenly spaced circular pattern about a sloped surface of
The invention claimed is: 1. An air data system comprising: a cone-shaped probe comprising a first pressure port formed in a substantial tip of said probe and extending therethrough, and a plurality of pressure ports formed in a substantially evenly spaced circular pattern about a sloped surface of said probe and extending through said probe; a plurality of pressure transducers each configured to receive at least one pressure transferred through at least one of said pressure ports and output one or more signals related to the pressures sensed; and a processing device configured to receive the signals originating from said transducers, said processing device further configured to calculate one or more of a static pressure, an angle of attack, and an angle of sideslip, based on the received signals. 2. An air data system according to claim 1 wherein said plurality of pressure ports comprises four pressure ports substantially 90 degrees apart. 3. An air data system comprising: a probe comprisine a first pressure port formed in a tip portion of said probe and extendine therethroneh, and a plurality of pressure ports formed in a substantially evenly spaced circular pattern about a sloped surface of said probe and extendine through said probe; a plurality of pressure transducers each fluidly coupled to at least one of said pressure ports and each transducer operable to output one or more signals related to a sensed pressure; and a processing device operable to receive the transducer signals, said processing device further configured to calculate one or more of a static pressure, an angle of attack, and an angle of sideslip, based on the received signals, wherein said plurality of pressure ports comprises four pressure ports substantially 90 degrees apart and wherein a pressure at said first pressure port is proportional to a total pressure, Pt, a pressure difference between two of said pressure ports substantially 180 degrees apart (PAOA1-PAOA2) is proportional to an angle of attack, and the pressure difference between the other two pressure ports substantially 180 degrees apart (PAOS1-PAOS2) is proportional to an angle of sideslip. 4. An air data system comprising: a probe comprising a first pressure port formed in a tip portion of said probe and extending therethrough, and a plurality of pressure ports formed in a substantially evenly spaced circular pattern about a sloped surface of said probe and extending through said probe; a plurality of pressure transducers each configured to receive at least one pressure transferred through at least one of said pressure ports and output one or more sianals related to the pressures sensed; and a processing device configured to receive the signals originating from said transducers, said processing device further configured to calculate one or more of a static pressure, an angle of attack, and an angle of sideslip, based on the received signals, wherein static pressure is calculated according to: a is an angle associated with the probe, Pt is a pressure measurement at said first pressure port, PAOA1 and PAOA2 are pressure measurements at two of said pressure ports substantially 180 degrees apart and proportional to an angle of attack, and PAOS1 and PAOS2 are pressure measurements at two of said pressure ports substantially 180 degrees apart and proportional to an angle of sideslip. 5. An air data system according to claim 4 where the angle of attack, α, and angle of side slide, β, are calculated according to: 6. A method for determining air data parameters associated with an air vehicle, said method comprising: receiving, at a plurality of pressure transducers, a plurality of pressures transferred throuah a cone-shaped probe, the cone-shaped probe having a first pressure port formed in a substantial tip of the probe and extending through to one pressure transducer, and a plurality of pressure ports formed in a substantially evenly spaced circular pattern about a sloped surface of the probe and extending through to additional pressure transducers; outputting, from the pressure transducers, signals relating to at least one of a total pressure, an angle of attack, and an angle of sideslip; and calculating, from the signals, at least one of a static pressure (Ps), an angle of attack (α), an angle of sidesslip (β) associated with the air vehicle, and wherein receiving a plurality of pressures comprises: receiving a pressure at the first pressure port that is proportional to a total pressure, Pt, at the air vehicle; receiving, at two pressure ports substantially 180 degrees apart, pressures that are proportional to an angle of attack; and receiving, at the other two pressure ports that are substantially 180 degrees apart, pressures that are proportional to an angle of sideslip. 7. A method according to claim 6 wherein the plurality of pressure ports includes four pressure ports substantially 90 degrees apart. 8. A method according to claim 6 wherein calculating, from the signals, a static pressure, Ps, associated with the air vehicle comprises calculating static pressure according to: where a is an angle associated with said cone shaped probe, PAOA1 and PAOA2 are pressure measurements at the pressure ports that are proportional to an angle of attack, and PAOS1 and PAOS2 are pressure measurements at the pressure ports that are proportional to an angle of sideslip. 9. A method according to claim 8 wherein calculating, from the signals, an angle of attack (α) and an angle of sideslip (β) associated with the air vehicle comprises calculating the angle of attack, (α) and angle of sideslip (β), 10. A method according to claim 6 wherein the pressures that are proportional to an angle of attack, PAOA1 and PAOA2, and the pressures that are proportional to an angle of sideslip, PAOS1, and PAOS2 are related to Ps, Pt, a, α, and β according to: description="In-line Formulae" end="lead"PAOA1=Ps+(Pt-Ps)��sin (a+α),description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"PAOA2=Ps+(Pt-Ps)��sin (a-α), PAOS1=Ps+(Pt-Ps)��sin (a+β)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"PAOS2=Ps+(Pt-Ps)��sin (a-β).description="In-line Formulae" end="tail" 11. A processing device for an air data system, said processing device configured to receive one or more signals based on a total pressure, one or more signals based on pressures proportional to an angle of attack, and one or more signals based on pressures proportional to an angle of sideslip, said processing device programmed to calculate at least one of a static pressure, an angle of attack, and angle of sideslip, based on the received signals, and wherein static pressure is calculated according to: where a is an angle associated with said cone shaped probe, PAOA1 and PAOA2 are pressure measurements at the pressure ports that are proportional to an angle of attack, and PAOS1 and PAOS2 are pressure measurements at the pressure ports that are proportional to an angle of sideslip. 12. A processing device according to claim 11 wherein said processing device is configured to calculate an angle of attack, (α) and angle of sideslip (β) according to: is representative of a total pressure, and PAOA1, PAOA2, PAOS1, and PAOS2 are representative of pressures associated with an angle of attack and an angle of sideslip, and related to Ps, Pt, a, α, and β according to: description="In-line Formulae" end="lead"PAOA1=Ps+(Pt-Ps)��sin (a+α)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"PAOA2=Ps+(Pt-Ps)��sin (a-α)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"PAOS1=Ps+(Pt-Ps)��sin (a+β)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"PAOS2=Ps+(Pt-Ps)��sin (a-β).description="In-line Formulae" end="tail" 13. A processing device according to claim 12 wherein pressure altitude, Hp, is calculated according to: 14. A processing device according to claim 12 wherein mach number, M, is calculated according to: 15. A processing device according to claim 12 wherein calibrated airspeed, Von is calculated according to for Vcasco=661.4786 knots and
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