A code-free optical undersampling technique for broadband microwave spectrum measurement
Signal Processing
2019-08-02 v2
Abstract
A novel broadband microwave (MW) spectrum measurement (BMSM) scheme based on code-free optical undersampling and homodyne detection is proposed. The fully analog generation of optical pulses with a far-less-than-Nyquist rate is only through modulating cascaded electrooptical modulators by a single RF tone instead of any high-speed coding sequence modulation. Homodyne detection will reduce the analysis bandwidth of BMSM and enhance the detection performance of weak signal. A multi-band signal with 20 GHz spectral range and SNR = 61 dB is used to investigate the BMSM performance of this scheme, and the results show good performance for BMSM. The potentials for further optimization in practice are also discussed.
Keywords
Cite
@article{arxiv.1805.00362,
title = {A code-free optical undersampling technique for broadband microwave spectrum measurement},
author = {Guangyu Gao and Xueshuang Xiang and Qijun Liang and Naijin Liu},
journal= {arXiv preprint arXiv:1805.00362},
year = {2019}
}
Comments
3 pages and 7 figures