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The first 75 GHz signals are sent from space by the W-Cube Smallsat

The satellite is now modelling, for the first time ever, how a 75 GHz signal can penetrate the Earth’s atmosphere. This opens possibilities for the use of the high millimeter wave frequency range in communications satellites in the future.

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A new frequency range and additional capacity will be needed already in the next few years when the number of data communication satellites increases and big flocks of satellites such as Starlink operated by SpaceX are deployed.

The penetration through the atmospheric layers by the signal needs to be understood before the frequency range can be used. W-Cube’s dual frequency radio beacon system sends a 75 GHz signal through the Earth’s atmosphere to the measuring ground stations.

The data from the measurements helps in modelling how weather phenomena in space and in the atmosphere affect the signal propagation and polarization. In addition, W-Cube broadcasts a 37.5 GHz signal, making it possible to compare the information on measurements with previous models with a low frequency range. To save battery power, the beacon signals are only switched on when they can be detected by measuring stations in Europe. At other times, the satellite charges its batteries via the craft’s solar panels. The satellite orbits the Earth approximately once every 1.5 hours and is visible to the Earth station (from horizon to horizon) for about 10 minutes at a time.

“Today’s lower frequency ranges are divided into narrow bands over which satellites and terrestrial radio links compete. Meanwhile, no bands in the high frequency range have been shared yet among the various applications. A free wide bandwidth enables rapid transfer of information and connections in, for example, the 5G and 6G networks and in remote areas such as Northern Finland. The European Space Agency ESA has a mission to offer these connections and in this way to invest in European competitiveness”, says VTT’s Senior Scientist, Jussi Säily. “We also hope that this will help Finland get into more sizeable satellite programs. The project is of great significance in the development of both skills and knowledge, as well as testing facilities. A testing environment for satellites has taken shape in Otaniemi through collaboration involving VTT, Aalto University and commercial actors. Ensuring the spaceworthiness of the satellite has challenging terrestrial testing in environments including exposure to vacuum, heat, and vibration”.,

W-Cube was launched into space on June 30, 2021, from Cape Canaveral, Florida, on a SpaceX Falcon 9 launch vehicle as one of the satellites on the Transporter 2 mission with 88 additional satellites. W-Cube was placed into orbit on July22, 2021, and the first contact between the satellite and the RSL ground station was established July 22 to 23.

“This was followed by a deployment process in which we made sure that all of the systems were working as planned after the stress of the launch into space. That phase reached its climax today with the broadcast and reception of the 75 GHz signal. After reaching this milestone, the propagation of the signal in the atmosphere under different conditions and at different times of the year will be monitored for at least two years”, said Jarkko Antila, CEO of Reaktor Space Lab. SatNews

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