An experiment is proposed that will perform the tasks associated with the control and energy storage/power generation functions attendant to space operations. It was shown in past studies that the integration of these functions into one system can result in significant weight, volume, and cost savings. The Integrated Power/Attitude Control System (IPACS) concept is discussed. During orbit day, power is derived from the solar cell arrays and, after appropriate conditioning, is used to operate the spacecraft subsystems, including the control system. In conventional approaches, a part of the collected solar energy is stored in a bank of batteries to permit operation of the vehicle's systems during orbit night. In the IPACS concept, the solar energy is stored in the spinning flywheels of the control system in the form of kinetic energy. During orbit night, the wheels are despun and, through the use of a wheel-shaft mounted generator, power is generated for the onboard subsystems. Operating these flywheels over a 50-percent speed variation permits the extraction of 75 percent of the stored energy while at the same time preserving 50 percent of the momentum capacity for control of the vehicle. Batteries can therefore be eliminated and significant weight and volume savings realized.


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    Titel :

    Integrated Power/Attitude Control System (IPACS) technology experiment


    Beteiligte:
    Keckler, C. R. (Autor:in)


    Erscheinungsdatum :

    01.01.1984


    Medientyp :

    Aufsatz (Konferenz)


    Format :

    Keine Angabe


    Sprache :

    Englisch




    Integrated Power/Attitude Control System (IPACS)

    J. E. Notti / A. Cormack / W. J. Klein | AIAA | 1975


    Integrated power/attitude control system /IPACS/

    NOTTI, J. / CORMACK, III, A. / KLEIN, W. | AIAA | 1974


    Integrated power and attitude control system (IPACS) technology

    Oglevie, R.E. / Eisenhaure, D.B. | Tema Archiv | 1986


    Integrated Power/Attitude Control System (Ipacs) Study. Volume 2: Conceptual Designs

    J. E. Notti / A. Cormack / W. C. Schmill et al. | NTIS | 1974