Dynamic-Range Enhancement for a Microwave Photonic Link Based on a Polarization Modulator

Chen, Xiang; Li, Wangzhe; Yao, Jianping

doi:10.1109/tmtt.2015.2430351

Cited by 8 publications

(1 citation statement)

References 16 publications

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“…Since two MZMs or PolMs are used, the systems are more complicated and costly. We have recently proposed a simplified solution using a single PolM [16][17][18] that could operate equivalently as two MZMs, which greatly decrease the complexity and cost. Again, the MPLs reported in [12][13][14][15][16][17][18] are able to operate with a significantly reduced IMD3, but the even-order distortions are still there or even increased, which may limit the MPLs for single-octave applications only.…”

Section: Introductionmentioning

confidence: 99%

Simultaneous even- and third-order distortion suppression in a microwave photonic link based on orthogonal polarization modulation, balanced detection, and optical sideband filtering

2016

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A microwave photonic link (MPL) with simultaneous suppression of the even-order and third-order distortions using a polarization modulator (PolM), an optical bandpass filter (OBPF), and a balanced photodetector (BPD) is proposed and experimentally demonstrated. The even-order distortions are suppressed by utilizing orthogonal polarization modulation based on the PolM and balanced differential detection based on the BPD. The third-order distortions (IMD3) are suppressed by optimizing the spectral response of the OBPF with an optimal power ratio between the optical carrier and the sidebands of the phase-modulated signals from the PolM. Since the suppression of the IMD3 is achieved when the MPL is optimized for even-order distortion suppression, the proposed MPL can operate with simultaneous suppression of the even-order and third-order distortions. The proposed MPL is analyzed theoretically and is verified by an experiment. For a two-tone RF signal of f₁ = 10 GHz and f₂ = 19.95 GHz, the spurious-free dynamic range (SFDR2) is enhanced by 23.4 dB for the second harmonic (2f₁), and 29.1 and 27.6 dB for the second intermodulation (f₂-f₁ and f₁ + f₂), as compared with a conventional MPL. For a two-tone RF signal of f₁ = 9.95 GHz and f₂ = 10 GHz, the SFDR3 is increased by 13.1 dB as compared with a conventional MPL.

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Section: Introductionmentioning

confidence: 99%

Simultaneous even- and third-order distortion suppression in a microwave photonic link based on orthogonal polarization modulation, balanced detection, and optical sideband filtering

2016

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Theorical and numerical analysis of an all‐optical delta‐sigma modulator

Davoudzadeh

Goddard

Sayeh

2017

Micro & Optical Tech Letters

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Delta-sigma modulation is a powerful technique for optical signal processing due to its high bandwidth, noise immunity, and low cost. In this article, a theory for all-optical delta-sigma modulation is presented along with the calculation and design parameters for optical system implementation. An optical delta-sigma modulator can be used in a microwave photonic link to encode the radio frequency signal into the duty cycle of the optical pulses. Simulation results are presented that confirm the theory and also the possibility of reaching a few GHz modulation rate in a chip-level implementation.

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Analysis of the carrier suppressed single sideband modulation for long distance optical communication systems

Paloi

Haxha

2018

Optik

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Dynamic-Range Enhancement for a Microwave Photonic Link Based on a Polarization Modulator

Cited by 8 publications

References 16 publications

Simultaneous even- and third-order distortion suppression in a microwave photonic link based on orthogonal polarization modulation, balanced detection, and optical sideband filtering

Simultaneous even- and third-order distortion suppression in a microwave photonic link based on orthogonal polarization modulation, balanced detection, and optical sideband filtering

Theorical and numerical analysis of an all‐optical delta‐sigma modulator

Analysis of the carrier suppressed single sideband modulation for long distance optical communication systems

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