IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0146763
(2002-05-16)
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발명자
/ 주소 |
- Robertson, James Hamilton
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출원인 / 주소 |
- Lockheed Martin Corporation
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대리인 / 주소 |
Marsh Fischmann & Breyfogle LLP
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인용정보 |
피인용 횟수 :
11 인용 특허 :
21 |
초록
▼
An adapter for connecting at least a first rocket stage of a space vehicle to a second rocket stage of the space vehicle. The adapter is configured to separate with the first rocket stage when the first rocket stage is separated from the second rocket stage. In one embodiment, at least a portion of
An adapter for connecting at least a first rocket stage of a space vehicle to a second rocket stage of the space vehicle. The adapter is configured to separate with the first rocket stage when the first rocket stage is separated from the second rocket stage. In one embodiment, at least a portion of the adapter is configured to itself separate from the first rocket stage, subsequent to separation of the first rocket stage and the second rocket stage. A second portion of the adapter remains with the first rocket stage to facilitate a controlled descent and flight of the first rocket stage back to the earth's surface.
대표청구항
▼
An adapter for connecting at least a first rocket stage of a space vehicle to a second rocket stage of the space vehicle. The adapter is configured to separate with the first rocket stage when the first rocket stage is separated from the second rocket stage. In one embodiment, at least a portion of
An adapter for connecting at least a first rocket stage of a space vehicle to a second rocket stage of the space vehicle. The adapter is configured to separate with the first rocket stage when the first rocket stage is separated from the second rocket stage. In one embodiment, at least a portion of the adapter is configured to itself separate from the first rocket stage, subsequent to separation of the first rocket stage and the second rocket stage. A second portion of the adapter remains with the first rocket stage to facilitate a controlled descent and flight of the first rocket stage back to the earth's surface. tor for outputting feed forward torque instruction signals as a profile of torque to be applied to the artificial satellite according to a maneuver plan; a disturbance compensating signal calculator for outputting a disturbance compensating signal for compensating for disturbance torque applied to the artificial satellite during maneuver; a sum signal calculator to which the feed forward torque instruction signal and the disturbance compensating signal are input, and which, in turn, outputs a sum signal of these input signals at a predetermined timing; a thruster for generating control torque for driving the artificial satellite based on the sum signal; and an angular velocity detector for detecting and outputting an angular velocity of the artificial satellite as a detected angular velocity signal, wherein the sum signal and the detected angular velocity signal are input to the disturbance compensating signal calculator, which, in turn, generates and outputs a new disturbance compensating signal at a predetermined timing. 4. A maneuver device for an artificial satellite comprising: a feed forward torque instruction signal generator for outputting feed forward torque instruction signals as a profile of torque to be applied to the artificial satellite according to a maneuver plan; a disturbance compensating signal calculator for outputting a disturbance compensating signal for compensating for disturbance torque applied to the artificial satellite; a sum signal calculator to which the feed forward torque instruction signal and the disturbance compensating signal are input, and which, in turn, outputs a sum signal of these input signals at a predetermined timing; a thruster for generating control torque for driving the artificial satellite based on the sum signal; a target attitude angle value generator for generating and outputting a target value of an attitude angle of the artificial satellite as a target attitude angle signal; a target angular velocity value generator for generating and outputting a target value of an angular velocity of the artificial satellite as a target angular velocity signal; an attitude angle detector for detecting and outputting an attitude angle of the artificial satellite as a detected attitude angle signal; an angular velocity detector for detecting and outputting an angular velocity of the artificial satellite as a detected angular velocity signal; an attitude control signal calculator to which an attitude angle error signal as a difference signal between the target attitude angle signal and the detected attitude angle signal as well as an angular velocity error signal as a difference signal between the target angular velocity signal and the detected angular velocity signal are input, and which, in turn, outputs an attitude control signal; and a reaction wheel for generating control torque for driving the artificial satellite based on the attitude control signal, wherein the sum signal and the detected angular velocity signal are input to the disturbance compensating signal calculator, which, in turn, generates and outputs a new disturbance compensating signal at a predetermined timing. 5. A maneuver device for an artificial satellite comprising: a feed forward torque instruction signal generator for outputting feed forward torque instruction signals as a profile of torque to be applied to the artificial satellite according to a maneuver plan; a thruster for generating control torque for driving the artificial satellite based on the feed forward torque instruction signal; a target attitude angle value generator for generating and outputting a target value of an attitude angle of the artificial satellite as a target attitude angle signal; a target angular velocity value generator for generating and outputting a target value of an angular velocity of the artificial satellite as a target angular velocity signal; an attitude angle detector for detecting and outputting an a ttitude angle of the artificial satellite as a detected attitude angle signal; an angular velocity detector for detecting and outputting an angular velocity of the artificial satellite as a detected angular velocity signal; an attitude control signal calculator to which an attitude angle error signal as a difference signal between the target attitude angle signal and the detected attitude angle signal as well as an angular velocity error signal as a difference signal between the target angular velocity signal and the detected angular velocity signal are input, and which, in turn, outputs an attitude control signal; a disturbance compensating signal calculator for outputting a disturbance compensating signal for compensating for disturbance torque applied to the artificial satellite during maneuver; a sum signal calculator to which the attitude control signal and the disturbance compensating signal are input, and which, in turn, outputs a sum signal of these input signals at a predetermined timing; and a reaction wheel for generating control torque for driving the artificial satellite based on the input sum signal, wherein the difference signal between the detected angular velocity signal and the target angular velocity signal as well as the sum signal are input to the disturbance compensating signal calculator, which, in turn, generates and outputs a new disturbance compensating signal at a predetermined timing. 6. A maneuver device for an artificial satellite comprising: a feed forward torque instruction signal generator for outputting feed forward torque instruction signals as a profile of torque to be applied to the artificial satellite according to a maneuver plan; an angular velocity detector for detecting and outputting an angular velocity of the artificial satellite as a detected angular velocity signal; a disturbance compensating signal calculator to which the feed forward torque instruction signal and the detected angular velocity signal are input, and which, in turn, outputs a disturbance compensating signal for compensating for disturbance torque applied to the artificial satellite during maneuver; and a reaction wheel for generating control torque for driving the artificial satellite based on the disturbance compensating signal and the feed forward torque instruction signal. 7. A maneuver device for an artificial satellite comprising: a feed forward torque instruction signal generator for outputting feed forward torque instruction signals as a profile of torque to be applied to the artificial satellite according to a maneuver plan; a target attitude angle value generator for generating and outputting a target value of an attitude angle of the artificial satellite as a target attitude angle signal; a target angular velocity value generator for generating and outputting a target value of an angular velocity of the artificial satellite as a target angular velocity signal; an attitude angle detector for detecting and outputting an attitude angle of the artificial satellite as a detected attitude angle signal; an angular velocity detector for detecting and outputting an angular velocity of the artificial satellite as a detected angular velocity signal; an attitude control signal calculator to which an attitude angle error signal as a difference signal between the target attitude angle signal and the detected attitude angle signal as well as an angular velocity error signal as a difference signal between the target angular velocity signal and the detected angular velocity signal are input, and which, in turn, outputs an attitude control signal; a disturbance compensating signal calculator to which the feed forward torque instruction signal and the detected angular velocity signal are input, and which, in turn, outputs a disturbance compensating signal for compensating for disturbance torque applied to the artificial satellite during maneuver; and a reaction wheel for generating control torque fo r driving the artificial satellite based on the attitude control signal, the disturbance compensating signal and the feed forward torque instruction signal. 8. A maneuver device for an artificial satellite, comprising: a feed forward torque instruction signal generator for outputting feed forward torque instruction signals as a profile of torque to be applied to the artificial satellite according to a maneuver plan; a thruster for generating control torque for driving the artificial satellite based on the feed forward torque instruction signal; an angular velocity detector for detecting and outputting an angular velocity of the artificial satellite as a detected angular velocity signal; a disturbance compensating signal calculator to which the feed forward torque instruction signal and the detected angular velocity signal are input, and which, in turn, outputs a disturbance compensating signal for compensating for disturbance torque applied to the artificial satellite during maneuver; wherein the disturbance compensating signal calculator generates the disturbance compensating signal according to the following expression: where udis the disturbance compensating signal, u is the feed forward torque instruction signal, J is a moment of inertia of the artificial satellite, ω is the detected angular velocity signal, α and β are constants indicating a frequency range of the disturbance to be compensated and s is the Laplace operator; and a reaction wheel to which the disturbance compensating signal is input, and which, in turn, generates control torque for driving the artificial satellite based on the input disturbance compensating signal. 9. A maneuver device for an artificial satellite comprising: a feed forward torque instruction signal generator for outputting feed forward torque instruction signals as a profile of torque to be applied to the artificial satellite according to a maneuver plan; a disturbance compensating signal calculator for outputting a disturbance compensating signal for compensating for disturbance torque applied to the artificial satellite during maneuver; an angular velocity detector for detecting and outputting an angular velocity of the artificial satellite as a detected angular velocity signal; a sum signal calculator to which the feed forward torque instruction signal and the disturbance compensating signal are input, and which, in turn, outputs a sum signal of these input signals at a predetermined timing; and a reaction wheel for generating control torque for driving the artificial satellite based on the sum signal, wherein the sum signal and the detected angular velocity signal are input to the disturbance compensating signal calculator, which, in turn, generates and outputs a new disturbance compensating signal at a predetermined timing. 10. A maneuver device for an artificial satellite comprising: a feed forward torque instruction signal generator for outputting feed forward torque instruction signals as a profile of torque to be applied to the artificial satellite according to a maneuver plan; a disturbance compensating signal calculator for outputting a disturbance compensating signal for compensating for disturbance torque applied to the artificial satellite during maneuver; a target attitude angle value generator for generating and outputting a target value of an attitude angle of the artificial satellite as a target attitude angle signal; a target angular velocity value generator for generating and outputting a target value of an angular velocity of the artificial satellite as a target angular velocity signal; an attitude angle detector for detecting and outputting an attitude angle of the artificial satellite as a detected attitude angle signal; an angular velocity detector for detecting and outputting an angular velocity of the artificial satellite as a detected angular velocity signal; an attitude control signal calculator to which an attitude
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