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Combined control method for performing station keeping and momentum wheel unloading based on electric thruster

An electric thruster and joint control technology, which is applied in the field of satellite control, can solve the problems of inability to achieve efficient satellite control, waste of propellant, and decrease in the efficiency of electric thrusters, so as to improve control efficiency and utilization rate, save costs, and reduce The effect of consumption

Active Publication Date: 2015-04-01
CHINA ACADEMY OF SPACE TECHNOLOGY
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  • Claims
  • Application Information

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Problems solved by technology

Due to the limited number of electric thrusters, for the all-electric push platform, all the electric thrusters are installed on the back floor close to the Y-axis direction of the body. Therefore, if the position protection control or unloading control is performed separately, since the thrust has components in other directions, it cannot Avoid the problem of useless consumption, which will lead to a decrease in the efficiency of the electric thruster, a waste of propellant, and the inability to achieve efficient satellite control

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  • Combined control method for performing station keeping and momentum wheel unloading based on electric thruster
  • Combined control method for performing station keeping and momentum wheel unloading based on electric thruster
  • Combined control method for performing station keeping and momentum wheel unloading based on electric thruster

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Embodiment Construction

[0035] Specific embodiments of the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0036] The number of electric thrusters configured on the all-electric propulsion platform is limited. At the same time, the adjustment range of the thrust vector direction of the electric thrusters is also limited by its own mechanism and the installation space on the satellite. When the satellite orbit position is maintained or the momentum wheel is unloaded, the electric propulsion cannot be guaranteed. The thrust direction fully meets the control requirements, and the component of the thrust on the vertical plane of the force required for control will become an additional consumption for the application of electric thrusters for control. In addition, when implementing position protection, if the thrust vector cannot be adjusted to pass through the center of mass of the satellite, the torque generated by this thrust will also become ...

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Abstract

The invention discloses a combined control method for performing station keeping and momentum wheel unloading based on an electric thruster. The thrust vector direction regulating range of the electric thruster is limited by the mechanisms and on-satellite mounting space thereof, when keeping the satellite orbit position or unloading the momentum wheel, the electric thrusting is incapable of guaranteeing that the thrust direction completely meets control requirements, and the component of the thrust on the vertical surface for controlling the needed force would become into the extra consumption for using the electric thruster to perform control. When performing station keeping, if the thrust vector cannot pass through the mass center of the satellite, the moment generated by the thrust would become into extra consumption; and in turn, when only performing the momentum wheel unloading, an operator needs to take the extra force effect into account, symmetrical ignition should be used to counteract the extra force, and the force effect becomes into extra consumption during the unloading period. The combined control method for performing the station keeping and momentum wheel unloading based on the electric thruster simultaneously performs satellite station keeping and momentum wheel unloading through reasonably selecting the thruster and regulating the thrust vector direction.

Description

technical field [0001] The invention relates to a combined control method for position protection and momentum wheel unloading based on an electric thruster, and belongs to the technical field of satellite control. Background technique [0002] In the past ten years, electric propulsion technology has developed rapidly. At present, electric propulsion has been widely used in the orbital position control of GEO satellites, including Boeing's 601 satellite platform and 702 platform, Lockheed Martin's A2100 platform, Lora Space's LS3000 platform, Astrium's EUROSTAR-3000 platform, ESA's Artemis satellite etc. [0003] The development of the all-electric propulsion platform further expands the application of electric propulsion in satellite control. In the configuration of the propulsion system of the all-electric push platform, electric propulsion is the main or even the only way. Therefore, the all-electric push platform will not only use electric propulsion for small-thrust ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B64G1/40
Inventor 陈小燕刘建功袁俊刚杨凌轩李烽
Owner CHINA ACADEMY OF SPACE TECHNOLOGY
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