Yo-yo de-spin

Animation showing a PAM-D with the Phoenix spacecraft. The stage is successively spun, fired, yo-yo de-spun and jettisoned.

A yo-yo de-spin mechanism is a device used to reduce the spin of satellites, typically soon after launch. It consists of two lengths of cable with weights on the ends. The cables are wrapped around the final stage and/or satellite, in the manner of a double yo-yo. When the weights are released, the spin of the rocket flings them away from the spin axis. This transfers enough angular momentum to the weights to reduce the spin of the satellite to the desired value. Subsequently, the weights are often released.^[1]

De-spin is needed since some final stages are spin-stabilized, and require fairly rapid rotation (now typically 30-60 rpm; some early missions, such as Pioneer, rotated at over 600 rpm^[2]) to remain stable during firing. (See, for example, the Star 48, a solid fuel rocket motor.) After firing, the satellite cannot be simply released, since such a spin rate is beyond the capability of the satellite's attitude control. Therefore, after rocket firing but before satellite release, the yo-yo weights are used to reduce the spin rates to something the satellite can cope with in normal operation (often 2-5 RPM).^[3] Yo-yo de-spin systems are commonly used on sub-orbital sounding rocket flights, as the vehicles are spin stabilized through ascent and have minimal flight time for roll cancellation using the payload's attitude control system.^[4]

As an example of yo-yo de-spin, on the Dawn spacecraft, roughly 3 kilograms (6.6 lb) of weights, and 12-metre (39 ft) cables, reduced the initial spin rate of the 1,420-kilogram (3,130 lb) spacecraft from 46 RPM to 3 RPM in the opposite direction.^[5] The relatively small weights have a large effect since they are far from the spin axis, and their effect increases as the square of the length of the cables.

Yo-yo de-spin was invented, built, and tested at Caltech's Jet Propulsion Laboratory.^[6]

Yo-yo hardware can contribute to the space debris problem on orbital missions, but this is not a problem when used on the upper stages of earth escape missions such as Dawn, as the cables and weights are also on an escape trajectory.

^ "Space debris mitigation: the case for a code of conduct". ESA. European Space Agency. 15 April 2005. Retrieved 14 November 2014.
^ Juno II Summary Project Report, Volume II (PDF) (Technical report). NASA. 1962. D-608.
^ Scott R. Starin and John Eterno (January 2011). "Attitude Determination and Control Systems" (PDF). NASA.
^ "General Description of Sounding Rockets". Johns Hopkins. 21 February 2013.
^ Dawn Journal, 12 September 2007
^ US 3030049, Pilkington Jr., William C.; McDonald, William S. & Wells, Willard H., "Satellite spin control", published 1962-04-17, assigned to Secretary of the United States Army

[1] "Space debris mitigation: the case for a code of conduct". ESA. European Space Agency. 15 April 2005. Retrieved 14 November 2014.

[2] Juno II Summary Project Report, Volume II (PDF) (Technical report). NASA. 1962. D-608.

[3] Scott R. Starin and John Eterno (January 2011). "Attitude Determination and Control Systems" (PDF). NASA.

[4] "General Description of Sounding Rockets". Johns Hopkins. 21 February 2013.

[5] Dawn Journal, 12 September 2007

[6] US 3030049, Pilkington Jr., William C.; McDonald, William S. & Wells, Willard H., "Satellite spin control", published 1962-04-17, assigned to Secretary of the United States Army

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