We present in this paper a demonstration of THz transmission system enabling a full frequency duplex link in the 300 GHz band using a single THz path. The system is based on a super heterodyne architecture that enables to up-convert 71-76 GHz and 81-86 GHz signals to the 300 GHz band. The system introduces a frequency duplexing system to achieve a bidirectional transmission in a single THz path. The performances of the system are analysed, and the system validation is done using IP traffic with 12.6 Gbit/s over 645 m.
%0 Conference Paper
%1 Renau_EuMC2023
%A Renau, A.
%A Maye, C.
%A Wrana, D.
%A Haussmann, S.
%A Kallfass, I.
%A John, L.
%A Jung, B.K.
%A Hellrung, U.
%A Schlegel, P.
%A Kuerner, T.
%A Braun, R.P.
%A Leiba, Y.
%A Kawanishi, T.
%A Hisatake, S.
%A Kondou, K.
%A Szriftgiser, P.
%A Ducournau, G.
%B 2023 53rd European Microwave Conference (EuMC)
%D 2023
%K imported
%P 130-133
%R 10.23919/EuMC58039.2023.10290501
%T 300 GHz super heterodyne link over 645 m with frequency duplexing for point to point backhauls
%X We present in this paper a demonstration of THz transmission system enabling a full frequency duplex link in the 300 GHz band using a single THz path. The system is based on a super heterodyne architecture that enables to up-convert 71-76 GHz and 81-86 GHz signals to the 300 GHz band. The system introduces a frequency duplexing system to achieve a bidirectional transmission in a single THz path. The performances of the system are analysed, and the system validation is done using IP traffic with 12.6 Gbit/s over 645 m.
@inproceedings{Renau_EuMC2023,
abstract = {We present in this paper a demonstration of THz transmission system enabling a full frequency duplex link in the 300 GHz band using a single THz path. The system is based on a super heterodyne architecture that enables to up-convert 71-76 GHz and 81-86 GHz signals to the 300 GHz band. The system introduces a frequency duplexing system to achieve a bidirectional transmission in a single THz path. The performances of the system are analysed, and the system validation is done using IP traffic with 12.6 Gbit/s over 645 m.},
added-at = {2025-05-26T10:46:09.000+0200},
author = {Renau, A. and Maye, C. and Wrana, D. and Haussmann, S. and Kallfass, I. and John, L. and Jung, B.K. and Hellrung, U. and Schlegel, P. and Kuerner, T. and Braun, R.P. and Leiba, Y. and Kawanishi, T. and Hisatake, S. and Kondou, K. and Szriftgiser, P. and Ducournau, G.},
bdsk-url-1 = {https://doi.org/10.23919/EuMC58039.2023.10290501},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2fd213b3028cc2ac81474c06508010c71/ingmarkallfass},
booktitle = {2023 53rd European Microwave Conference (EuMC)},
date-added = {2023-11-05 21:46:09 +0100},
date-modified = {2023-11-05 21:46:20 +0100},
doi = {10.23919/EuMC58039.2023.10290501},
interhash = {278e75db44d62b0d2263254ed7ea40b5},
intrahash = {fd213b3028cc2ac81474c06508010c71},
keywords = {imported},
month = {Sep.},
pages = {130-133},
timestamp = {2025-05-26T10:46:09.000+0200},
title = {300 GHz super heterodyne link over 645 m with frequency duplexing for point to point backhauls},
year = 2023
}
