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Navigation and GPS

Practical-orbit-raising-system-and-method-for-geosynchronous-satellites

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Practical orbit raising system and method for geosynchronous satellites

Details

Inventors: Gelon, Walter; Kamel, Ahmed; Stratemeier, Darren; Hur-Diaz, Sun;
Assignee:
Primary Examiner: Black; Thomas G.
Assistant Examiner: Broadhead; Brian J.
Attorney, Agent or Firm:

A practical orbit raising method and system wherein a satellite quickly escapes the Van Allen radiation belts and payload mass and mission life are maximized. A satellite is launched that contains high thrust chemical propulsion thrusters, high specific impulse electric propulsion thrusters and a solar array. The satellite quickly escapes the Van Allen radiation belts by firing the high thrust chemical propulsion thrusters at apogees of intermediate orbits, starting from the transfer orbit initiated by a launch vehicle, to successively raise the perigees until the perigee clears the Van Allen radiation belts. The payload mass and mission life are maximized by firing high specific impulse electric propulsion thrusters to raise the satellite to near synchronous orbit, while steering the thrust vector and solar array to maintain the sun's illumination on the solar array. The chemical and/or electric propulsion thrusters are then fired to achieve geosynchronous orbit.

DETAILED DESCRIPTION To meet the above and other objectives, the present invention provides for a practical orbit raising method and apparatus wherein a satellite quickly escapes the Van Allen radiation belts while simultaneously maximizing payload mass and mission life.
The satellite quickly escapes the Van Allen radiation belts by firing high thrust chemical propulsion thrusters at apogees of intermediate orbits, starting from the transfer orbit initiated by a launch vehicle, to successively raise each orbit's perigee until the perigee clears the Van Allen radiation belts.
The payload mass and mission life of the satellite are maximized using high specific impulse electric propulsion thrusters to continue raising the satellite to near geosynchronous orbit.
The chemical and/or electric propulsion thrusters are then used for final touch-up to achieve geosynchronous orbit Chemical thruster controlled orbit maneuvers allow the satellite to quickly escape the Van Allen radiation belts and avoid hazardous effects on the satellite electronics and minimize solar array power degradation due to radiation.
Electric propulsion thrusters are used while steering the thrust vector and solar array to expedite final station acquisition and maintain the sun's illumination on the solar arrays onboard the satellite.
Steering the thrust vector around the orbit (except for preplanned coast arcs) maximizes efficiency of delivered thrust at any orbit location and thus minimizes both the fuel required and the time to achieve the desired final orbit.
Chemical and/or electric propulsion thrusters may selectively be used for final orbit adjustment to achieve the desired final station location.
The present invention does not have the restrictions of prior art orbit raising techniques, and causes the satellite to quickly escape the hazardous Van Allen radiation belts and expeditiously acquire final orbital location while steering the thrust vector and solar array to maintain the sun's illumination on the solar arrays to perform maneuvers

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