Clyde Space Senior Systems Engineer Steve Greenland will be giving a presentation on UKube-1 to the AMSAT-UK International Space Colloquium which takes place July 20-21 at the Holiday Inn, Guildford, GU2 7XZ, UK.
UKube-1 will carry a set of AMSAT-UK FUNcube-2 boards which will provide:
• 1200 bps BPSK telemetry beacon on 145.915 MHz
• Linear transponder downlink 145.930-145.950 MHz for SSB/CW communications
• Linear transponder uplink 435.080-435.060 MHz
In addition UKube-1 also carries:
• ISIS 1200 bps BPSK telemetry beacon on 145.840 MHz
• UKSEDS myPocketQub 442 on 437.425-437.525 MHz with 11 mW output using spread spectrum
• 1 watt transmitter on 2401.0 MHz from Cape Peninsula University of Technology (CPUT), Cape Town, for high data rate mission data downlinking using up to 1 Mbps QPSK or OQPSK modulation
Gunter’s Space Page lists UKube-1 as manifested on a Soyuz-2-1b Fregat-M rocket to be launched from Baikonur in Kazakhstan.
If the launch does go ahead as planned in late October then the FUNcube-2 boards will be in orbit before the FUNcube-1 satellite which may launch in November, 2013 on a Dnepr rocket from Dombarovsky near Yasny.
FUNcube-1 will be using these frequencies:
• 1200 bps BPSK telemetry beacon on 145.935 MHz
• Linear transponder downlink 145.950-145.970 MHz for SSB/CW communications
• Linear transponder uplink 435.150-435.130 MHz
Read the BBC News story at http://www.bbc.co.uk/news/uk-scotland-glasgow-west-23319103
Watch UK Space Agency video – UKube-1 CubeSat payload animation
On Friday, October 19, 2012 after some final testing and characterisation checks completed at the facilities of ISIS BV in Delft, AMSAT-UK handed over the set of three PCBs that form the FUNcube-2 subsystem on the UKube-1 spacecraft to Clyde Space Ltd in Glasgow. Clyde Space are leading the development and assembly of this CubeSat project for the UK Space Agency.
The PCBs were taken to Glasgow in a Pelicase by Graham Shirville G3VZV who handed them to Steve Greenland Senior Systems Engineer at Clyde Space.
The three PCB’s comprise:
• CCT Board – Command, control and telemetry, interfaces via I2C with the antenna deployment system and the main OBC (On-Board Computer).
• RF Board – Command receiver, telemetry transmitter and linear transponder of the FUNcube satellite educational payload also includes telemetry sensors.
• PA Board – 400 mW VHF amplifier and sensors.
The telemetry transmitter provided by AMSAT-UK will be available for educational outreach to school students around the world.