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22/06/10

The FUNcube Project – the background. Given that: Cubesats are “cheap” Cubesats can be built quickly Cubesats should be “simple” So in 2009 we asked ourselves: Could we create an educational outreach mission? Could it also have a amateur transponder?

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22/06/10

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  1. The FUNcube Project – the background Given that: Cubesats are “cheap” Cubesats can be built quickly Cubesats should be “simple” So in 2009 we asked ourselves: Could we create an educational outreach mission? Could it also have a amateur transponder? Could we create a team of volunteers with the skills/passion? Could we develop the actual educational outreach? Could we fund it? 22/06/10 1

  2. The FUNcube Project – primary objective • EDUCATIONAL OUTREACH • STEM subjects • Radio – practical understanding of communication • Electronics – how radios work • Physics – Data from 40+ telemetry channels • Orbital mechanics - Doppler • Materials science payload -Demonstrate loss of heat energy by radiation from two materials with differing surface finishes • “Fitter Message” - Short greetings messages The spacecraft transmits 1k2 BPSK telemetry on 145.935MHz 22/06/10 2

  3. Amateur radio operations • During the local night (eclipse) the sub-system switches into amateur radio mode: • Receives on UHF (435.150 – 435.130 MHz) and transmits on VHF (145.950 – 145.970 MHz) • The amateur radio transponder can be used to demonstrate radio communications to schoolchildren and students of all ages • Students are able to hear amateur voice signals when the satellite passes overhead 22/06/10 3

  4. The “Ground Segment”- the FUNcube dongle • An SDR radio designed and built by Howard Long G6LVB • The Pro+ version covers 150 KHz -1.9 GHz • 192kHz bandwidth I/Q output – works with all freeware SDR software & any OS • Possibilities for remote reception networks /parallel processing

  5. The “Ground Segment”- the FUNcube dongle

  6. FUNcube-1 Hardware “CCT” Command Control + Telemetry Board • Xilinx CPLD command decoder • Freescale CPU for telemetry generation • 2 x I2C Bus • 3.3V supply • Average power consumption 15mW • Peak power 33mW

  7. The FUNcube Project - status 22/06/10 7 UKSEDS Presentation Feb 2013

  8. FUNcube-1 Hardware RF Board PA3WEG Command receiver + 19kHz UV transponder Also (end of life) FM to DSB 145 MHz Amplifier G0MRF RD02MUS1 FET + 4 channels of telemetry via I2C bus

  9. FUNcube-1 Hardware CCT board AMSAT-UK Transponder AMSAT-NL 2m Amplifier AMSAT-UK Power system Denmark Structure ISIS NL Antenna system ISIS NL Solar panels: Solar cells Germany Aluminium mounting Israel Assembled in Italy Flight model Engineering model

  10. FUNcube-1 Telemetry 1200 BPS BPSK with forward error correction with 54 Telemetry channels Telemetry is sent in 24 x 5second frames over 2 minute period “Real time” every 5 secs, “Whole orbit” data sampled every 60 secs stored for 104 minutes and “High Res” data sampled at 1 second intervals for 60 seconds Text messages- 9 x 200 character greetings messages & 27 additional messages stored in memory Very distinctive sound to enable easy identification 4.3 seconds of data + 0.7 seconds of BPSK mark tone

  11. The FUNcube Project The final frequencies 22/06/10 11 UKSEDS Presentation Feb 2013

  12. The FUNcube Project - status 22/06/10 12 UKSEDS Presentation Feb 2013

  13. FUNcube-1– antenna deployment test video http://FUNcube-1 video 22/06/10 13

  14. The FUNcube Project - status 22/06/10 14

  15. FUNcube – telemetry reception UKSEDS Presentation Feb 2013

  16. What we expect to see after launch!

  17. The “Ground Segment”- The Data Warehouse

  18. FUNcube-1 in its POD (it’s the one in the middle!) 22/06/10 18 UKSEDS Presentation Feb 2013

  19. FUNcube-1 Video • POD STUFFING 22/06/10 19 UKSEDS Presentation Feb 2013

  20. Dnepr Launch - SS-18 Intercontinental ballistic missile • Primary payload DubaiSat-2 19 secondary micro and nanosat payloads • Launches from underground silo. Inclination 98.2 degrees ‘near circular’ Sun synchronous orbit Approx altitude 600x685 km

  21. Launch status FUNcube-1 FUNcube-2 sub system on UKube Dnepr Launch from Yasny, Russia November 2013 Soyuz launch from Baikonur, Khazakstan Q1 2014

  22. FUNcube-1 LEOP -orbit Antenna deployment at L+26 minutes. Safe mode 30mW BPSK beacon

  23. FUNcube-1 Launch Day Monitoring station- Bletchley Park

  24. FUNcube-1 Launch Day Monitoring station- Bletchley Park David Bowman G0MRF

  25. Ukube-1 model on display at a conference in Glsagow

  26. FUNcube-2 on UKube-1 @30th OCT 2013 Picture courtesy Clyde Space Ltd 22/06/10 26 UKSEDS Presentation Feb 2013

  27. The FUNcube Project • PLEASE GET INVOLVED! • Become a STEM Ambassador • Send us the telemetry from around the world • Use the transponder 22/06/10 27 UKSEDS Presentation Feb 2013

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