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Hauptverfasser: Aydoğan, Didem, Tokgöz, Korkut Kaan
Format: Preprint
Veröffentlicht: 2026
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2603.21384
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author Aydoğan, Didem
Tokgöz, Korkut Kaan
author_facet Aydoğan, Didem
Tokgöz, Korkut Kaan
contents This letter examines the impact of oscillator phase noise on sub-terahertz OFDM transceiver architectures, with a focus on the comparison between homodyne and heterodyne designs. Using a Hexa-X compliant phase noise model, we analytically show that heterodyne architectures reduce the total accumulated phase noise variance by distributing frequency translation across lower-frequency oscillators under realistic phase-noise scaling laws, thereby shifting the dominant impairment from inter-carrier interference to common phase error. OFDM simulations at 70 GHz and 140 GHz demonstrate that while homodyne architectures remain competitive at mmWave frequencies, heterodyne designs provide improved robustness to phase noise at higher sub-THz carriers. These results highlight transceiver architecture as a key design lever for relaxing oscillator and phase-locked loop constraints in future sub-THz wireless systems.
format Preprint
id arxiv_https___arxiv_org_abs_2603_21384
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Homodyne vs. Heterodyne Architectures in Sub-THz Transceivers: A Phase Noise Perspective
Aydoğan, Didem
Tokgöz, Korkut Kaan
Signal Processing
This letter examines the impact of oscillator phase noise on sub-terahertz OFDM transceiver architectures, with a focus on the comparison between homodyne and heterodyne designs. Using a Hexa-X compliant phase noise model, we analytically show that heterodyne architectures reduce the total accumulated phase noise variance by distributing frequency translation across lower-frequency oscillators under realistic phase-noise scaling laws, thereby shifting the dominant impairment from inter-carrier interference to common phase error. OFDM simulations at 70 GHz and 140 GHz demonstrate that while homodyne architectures remain competitive at mmWave frequencies, heterodyne designs provide improved robustness to phase noise at higher sub-THz carriers. These results highlight transceiver architecture as a key design lever for relaxing oscillator and phase-locked loop constraints in future sub-THz wireless systems.
title Homodyne vs. Heterodyne Architectures in Sub-THz Transceivers: A Phase Noise Perspective
topic Signal Processing
url https://arxiv.org/abs/2603.21384