Litcius/Paper detail

Characterization, Monitoring, and Mitigation of the I/Q Imbalance in Standard C-Band Transceivers in Multi-Band Systems

Gabriele Di Rosa, Robert Emmerich, Matheus Sena, Johannes Fischer, Colja Schubert, Ronald Freund, André Richter

2022Journal of Lightwave Technology11 citationsDOIOpen Access PDF

Abstract

Next-generation optical communication networks aim to vastly increase capacity by exploiting a larger optical transmission window covering the S-C-L-band. Simultaneously, the clear market trend is to maximize capacity per wavelength to reduce operational costs. This approach requires an increase in spectral efficiency, resulting in stringent requirements on the transceivers, which may not be satisfied in a multi-band (MB) scenario by current commercial components designed for operation in C-band. Transceiver specifications for MB operation can be relaxed through additional digital signal processing (DSP), at the cost of additional complexity, and by more resource-intensive calibration procedures. In this context, we experimentally characterize the wavelength-dependent frequency-resolved in-phase/quadrature (I/Q) imbalance of a standard C-band IQ-modulator and coherent receiver operating in an S-C-L-band system utilizing receiver-side DSP. This operation allows us to understand the nature of the wavelength-dependency of I/Q imbalance in MB systems. In the considered scenario, we validate the effectiveness of a cost-effective strategy for transceiver impairments mitigation and monitoring based on standard wavelength-independent calibration and reduced-complexity DSP.

Topics & Concepts

TransceiverElectronic engineeringDigital signal processingComputer scienceContext (archaeology)Out-of-band managementCalibrationEngineeringPhysicsBiologyPaleontologyCMOSNetwork architectureQuantum mechanicsComputer securityNetwork management stationOptical Network TechnologiesPhotonic and Optical DevicesAdvanced Photonic Communication Systems