This paper describes the functional E-band transmission tests of an integrated nano-satellite before launch. The feasibility and performance of a transmission in multiple frequency multiplexed channels is investigated, using the developed payload transmitter and the implemented digital signal generation in its integrated state. Succesful transmission experiments in E-band of four frequency division multiplexed (FDM) channels with a total data rate of 3.2 Gbps over an emulated distance over approximately 530km are demonstrated. The IQ-impairments of these measurement have been verified in a system level simulation, showing the potential of FDM with the given resources and pointing out design requirements for future 6G communication transceiver chipsets.
%0 Conference Paper
%1 10290622
%A Haussmann, Simon
%A Manoliu, Laura
%A Gebert, Lukas
%A Schoch, Benjamin
%A Koller, Markus
%A Meier, Jakob
%A Steinmetz, Fabian
%A Freese, Jens
%A Henneberger, Ralf
%A Tessmann, Axel
%A Klinkner, Sabine
%A Kallfass, Ingmar
%B 2023 53rd European Microwave Conference (EuMC)
%D 2023
%K coauth myown
%P 356-359
%R 10.23919/EuMC58039.2023.10290622
%T Measurement and Analysis of FDM for E-Band Satellite Communication
%X This paper describes the functional E-band transmission tests of an integrated nano-satellite before launch. The feasibility and performance of a transmission in multiple frequency multiplexed channels is investigated, using the developed payload transmitter and the implemented digital signal generation in its integrated state. Succesful transmission experiments in E-band of four frequency division multiplexed (FDM) channels with a total data rate of 3.2 Gbps over an emulated distance over approximately 530km are demonstrated. The IQ-impairments of these measurement have been verified in a system level simulation, showing the potential of FDM with the given resources and pointing out design requirements for future 6G communication transceiver chipsets.
@inproceedings{10290622,
abstract = {This paper describes the functional E-band transmission tests of an integrated nano-satellite before launch. The feasibility and performance of a transmission in multiple frequency multiplexed channels is investigated, using the developed payload transmitter and the implemented digital signal generation in its integrated state. Succesful transmission experiments in E-band of four frequency division multiplexed (FDM) channels with a total data rate of 3.2 Gbps over an emulated distance over approximately 530km are demonstrated. The IQ-impairments of these measurement have been verified in a system level simulation, showing the potential of FDM with the given resources and pointing out design requirements for future 6G communication transceiver chipsets.},
added-at = {2023-12-22T10:05:33.000+0100},
author = {Haussmann, Simon and Manoliu, Laura and Gebert, Lukas and Schoch, Benjamin and Koller, Markus and Meier, Jakob and Steinmetz, Fabian and Freese, Jens and Henneberger, Ralf and Tessmann, Axel and Klinkner, Sabine and Kallfass, Ingmar},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2b6f0331fcfc445491476415ac35f0429/bschoch},
booktitle = {2023 53rd European Microwave Conference (EuMC)},
doi = {10.23919/EuMC58039.2023.10290622},
interhash = {8d043fe89278c76f5dda576bbf588e49},
intrahash = {b6f0331fcfc445491476415ac35f0429},
keywords = {coauth myown},
month = {Sep.},
pages = {356-359},
timestamp = {2023-12-22T13:54:02.000+0100},
title = {Measurement and Analysis of FDM for E-Band Satellite Communication},
year = 2023
}
