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GMI Instrument Spin Balance Method, Optimization, Calibration and Test (2014)

Kubitschek, Michael ; Johnston, Steve ; Pellicciotti, Joseph ; [et al.]

In: CASI

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Publication Date: 2018-06-06

Description: The Global Microwave Imager (GMI) instrument must spin at a constant rate of 32 rpm continuously for the 3-year mission life. Therefore, GMI must be very precisely balanced about the spin axis and center of gravity (CG) to maintain stable scan pointing and to minimize disturbances imparted to the spacecraft and attitude control on-orbit. The GMI instrument is part of the core Global Precipitation Measurement (GPM) spacecraft and is used to make calibrated radiometric measurements at multiple microwave frequencies and polarizations. The GPM mission is an international effort managed by the National Aeronautics and Space Administration (NASA) to improve climate, weather, and hydro-meteorological predictions through more accurate and frequent precipitation measurements. Ball Aerospace and Technologies Corporation (BATC) was selected by NASA Goddard Space Flight Center to design, build, and test the GMI instrument. The GMI design has to meet a challenging set of spin balance requirements and had to be brought into simultaneous static and dynamic spin balance after the entire instrument was already assembled and before environmental tests began. The focus of this contribution is on the analytical and test activities undertaken to meet the challenging spin balance requirements of the GMI instrument. The novel process of measuring the residual static and dynamic imbalances with a very high level of accuracy and precision is presented together with the prediction of the optimal balance masses and their locations.

Keywords: Spacecraft Design, Testing and Performance

Type: The 42nd Aerospace Mechanism Symposium; 303-318; NASA/CP-2014-217519

Format: application/pdf

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GMI Instrument Spin Balance Method, Optimization, Calibration, and Test (2014)

Ashton, Gunnar ; Debevec, Dave ; Kubitschek, Michael ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Global Microwave Imager (GMI) instrument must spin at a constant rate of 32 rpm continuously for the 3 year mission life. Therefore, GMI must be very precisely balanced about the spin axis and CG to maintain stable scan pointing and to minimize disturbances imparted to the spacecraft and attitude control on-orbit. The GMI instrument is part of the core Global Precipitation Measurement (GPM) spacecraft and is used to make calibrated radiometric measurements at multiple microwave frequencies and polarizations. The GPM mission is an international effort managed by the National Aeronautics and Space Administration (NASA) to improve climate, weather, and hydro-meteorological predictions through more accurate and frequent precipitation measurements. Ball Aerospace and Technologies Corporation (BATC) was selected by NASA Goddard Space Flight Center to design, build, and test the GMI instrument. The GMI design has to meet a challenging set of spin balance requirements and had to be brought into simultaneous static and dynamic spin balance after the entire instrument was already assembled and before environmental tests began. The focus of this contribution is on the analytical and test activities undertaken to meet the challenging spin balance requirements of the GMI instrument. The novel process of measuring the residual static and dynamic imbalances with a very high level of accuracy and precision is presented together with the prediction of the optimal balance masses and their locations.

Keywords: Spacecraft Design, Testing and Performance

Type: NF1676L-17356 , Aerospace Mechanisms Symposium; May 14, 2014 - May 16, 2014; Baltimore, MD; United States

Format: application/pdf

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High Gain Antenna Gimbal for the 2003-2004 Mars Exploration Rover Program (2004)

Sokol, Jeff ; Ayari, Laoucet ; Krishnan, Satish

In: CASI

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Publication Date: 2019-08-15

Description: The High Gain Antenna Assemblies built for the 2003-2004 Mars Exploration Rover (MER) missions provide the primary communication link for the Rovers once they arrive on Mars. The High Gain Antenna Gimbal (HGAG) portion of the assembly is a two-axis gimbal that provides the structural support, pointing, and tracking for the High Gain Antenna (HGA). The MER mission requirements provided some unique design challenges for the HGAG. This paper describes all the major subsystems of the HGAG that were developed to meet these challenges, and the requirements that drove their design.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking

Type: 37th Aerospace Mechanisms Symposium; 237-250; NASA/CP-2004-212073

Format: application/pdf

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