The multiple coils to perform autonomous rendezvous & docking of CubeSat/micro-satellite

This paper proposes a docking device by using only magnetic force with multi-dipole for CubeSat/micro-satellite. An innovative electromagnetic capture device was recently proposed to increase the reliability and simplify rendezvous operations. The device could be implemented in the re-configurable space structures that architect large structure or reconstruct themselves by assembling basic structural units. The joining mechanism is designed to combine in a simple way of probe-drogue configurations, through the docking ports of auto attraction capabilities, avoiding the need of a large amount of actuators usually employed in larger docking ports. The paper presents the design and control aspects of this magnetic capture device. One remarkable benefit of this device is that it does not require attitude controls for final rendezvous stage and doesn't require propulsion. The final contact is secured thanks to a current control of passive magnet. The performance of magnetic force is analyzed, and test results are presented.

[1]  Satoru Ozawa,et al.  Control of electromagnetic current at final docking phase of small satellites , 2013 .

[2]  Hiroshi Yamakawa,et al.  Position and attitude control of formation flying satellites for restructuring their configurations by electromagnetic forces at the docking phase , 2013 .

[3]  F. Perez,et al.  SPHERES: A Testbed For Long Duration Satellite Formation Flying In Micro-Gravity Conditions , 2000 .

[4]  Satoru Ozawa,et al.  Control of Electromagnetic Current at Final Docking Phase of Small Satellites , 2013 .

[5]  C. P. Bridges,et al.  STRaND-2: Visual inspection, proximity operations & nanosatellite docking , 2013, 2013 IEEE Aerospace Conference.

[6]  Le-ping Yang,et al.  Dynamics and nonlinear control of space electromagnetic docking , 2013 .

[7]  Kar W. Yung,et al.  An Analytic Solution for the Force Between Two Magnetic Dipoles , 1998 .

[8]  David W. Miller,et al.  Control of Electromagnetic Satellite Formations in Near-Earth Orbits , 2010 .

[9]  P. Landecker,et al.  AN ANALYTIC SOLUTION FOR THE TORQUE BETWEEN TWO MAGNETIC DIPOLES , 1999 .

[10]  Craig Underwood,et al.  Using CubeSat/micro-satellite technology to demonstrate the Autonomous Assembly of a Reconfigurable Space Telescope (AAReST) , 2015 .

[11]  Jing Pei,et al.  Autonomous Rendezvous and Docking of Two 3U Cubesats Using a Novel Permanent-Magnet Docking Mechanism , 2016 .

[12]  J. C. Springmann,et al.  Investigation of the on-orbit conjunction between the MCubed and HRBE CubeSats , 2013, 2013 IEEE Aerospace Conference.

[13]  Yao Hong,et al.  Virtual rendezvous and docking control for fractionated spacecraft based on electromagnetic force , 2012, Proceedings of the 31st Chinese Control Conference.