• HuskySat-1 with VHF/UHF Linear Transponder Set to Deploy Soon

    From ARRL de WD1CKS@VERT/WLARB to QST on Mon Jan 27 20:33:37 2020
    01/27/2020

    The University of Washington's HuskySat-1[1] 3U CubeSat, launched November 2, 2019, is set to deploy on January 31 after the vehicle that carried it to the International Space Station undocks. HuskySat-1 has remained stowed aboard a Northrop Grumman Cygnus supply vehicle. Within 24 hours after Cygnus' departure from the ISS, HuskySat-1 and SwampSat 2[2] will be deployed into orbit. After deployment, HuskySat-1's 1,200 bps BPSK beacon on 435.800 MHz should be active and decodable with the latest release of AMSAT's FoxTelem[3] software. HuskySat-1 is expected to carry out its primary mission before being turned over to AMSAT for amateur radio operation.

    HuskySat-1 features a 30 kHz wide V/U linear transponder for SSB and CW. The uplink passband will be 145.910 - 145.940 MHz LSB/CW. The downlink passband will be 435.840 - 435.810 MHz USB/CW (inverting). Telemetry will be transmitted on 435.800 MHz, 1k2 bps BPSK with an experimental downlink at 24.049 GHz. The "Fox-in-a-Box" FoxTelem software has been updated for HuskySat-1 operation at its download website[4]. The new release now contains the SD card image, FIAB-distro8-V1.08w.zip. This file, when unzipped and written to a 16 GB SD card will provide the latest software for FoxTelem and will run on a Raspberry Pi 4. The 1.08 versions can switch bands between listening on VHF and UHF, based on which Fox and Husky satellites are overhead at the time.

    The linear transponder and telemetry system carried aboard AMSAT's Fox-1E was designed for use in different CubeSats merely by adding an interface adapter for connection to the host bus. Noting the prevalence of CubeSats built and launched by universities and other organizations, AMSAT adopted a goal of "amateur radio in every CubeSat." Interested CubeSat programs wanting to fly an amateur radio payload may partner with AMSAT to carry one of these modules on their spacecraft.

    By providing amateur radio capability, the CubeSat program gets a worldwide ground station network to receive telemetry and experiment data, while the amateur radio community gets a transponder to use in orbit. Additional information is posted on the University of Washington Husky Satellite Lab site[5]. Thanks to AMSAT News Service via the HuskySat-1 Team, AMSAT Engineering, AMSAT Operations, the Fox Telemetry Team, and NASA

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    [1] https://sites.google.com/uw.edu/huskysatellitelab/huskysat-1
    [2] https://www.nesdis.noaa.gov/CRSRA/files/UF-MAE_NOAA_SwampSat%20II_summary.pdf
    [3] https://www.amsat.org/tlm
    [4] http://burnsfisher.com/AMSAT/FoxInABox
    [5] https://sites.google.com/uw.edu/huskysatellitelab/huskysat-1

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