Optical Channel Selection Avoiding DIPP in DSB-RFoF Fronthaul Interface

Abstract: The paper presents a method of selecting an optical channel for transporting the double-sideband radio-frequency-over-fiber (DSB-RFoF) radio signal over the optical fronthaul path, avoiding the dispersion-induced power penalty (DIPP) phenomenon. The presented method complements the possibilities of a short-range optical network working in the flexible dense wavelength division multiplexing (DWDM) format, where chromatic dispersion compensation is not applied. As part of the study, calculations were made that i… Show more

“…Power fading can (analytically) be represented by the PP function (of two variables, i.e., fiber length L and modulation frequency f RF ), which is basically given as the ratio of the optical powers at the receiving end and that from the transmitting end of the RoF link, as per Equation (13) in [8] PP…”

“…In an intensity-modulated A-RoF link, given its typical double-sideband spectral profile, this causes a relative phase shift between both sidebands and effectively presents us with an unfavorable frequency-and length-dependent power fading [6]. While there are several ways [6][7][8] to mitigate this issue, introducing a two-color signal, such as an optical single-sideband (OSSB) signal [9,10] or an optical double-sideband (ODSB) signal with a suppressed carrier (SC) [11][12][13][14][15], is a robust and universal solution that does not depend on the fiber's length and can therefore be applied to various optical network topologies, e.g., point-to-multipoint. A wide variety of techniques for establishing a two-color spectral profile has been proposed and demonstrated.…”

Analog Wavelength Locking in an Optical Single-Sideband Transmitter of a Millimeter-Wave Radio-Over-Fiber Link Featuring a Micro-Ring Resonator and a Heat-Pump-Controlled Laser

“…Power fading can (analytically) be represented by the PP function (of two variables, i.e., fiber length L and modulation frequency f RF ), which is basically given as the ratio of the optical powers at the receiving end and that from the transmitting end of the RoF link, as per Equation (13) in [8] PP…”

“…In an intensity-modulated A-RoF link, given its typical double-sideband spectral profile, this causes a relative phase shift between both sidebands and effectively presents us with an unfavorable frequency-and length-dependent power fading [6]. While there are several ways [6][7][8] to mitigate this issue, introducing a two-color signal, such as an optical single-sideband (OSSB) signal [9,10] or an optical double-sideband (ODSB) signal with a suppressed carrier (SC) [11][12][13][14][15], is a robust and universal solution that does not depend on the fiber's length and can therefore be applied to various optical network topologies, e.g., point-to-multipoint. A wide variety of techniques for establishing a two-color spectral profile has been proposed and demonstrated.…”

Analog Wavelength Locking in an Optical Single-Sideband Transmitter of a Millimeter-Wave Radio-Over-Fiber Link Featuring a Micro-Ring Resonator and a Heat-Pump-Controlled Laser

“…In [ 8 ], the problem of selecting an optical channel for transporting the double sideband radio-frequency-over-fiber (DSB-RFoF) radio signal over the optical fronthaul path, avoiding the dispersion-induced power penalty (DIPP) phenomenon, is addressed. The presented method complements the possibilities of a short-range optical network working in the flexible dense wavelength division multiplexing (DWDM) format, where chromatic dispersion compensation is not applied.…”

Advances in Computer Recognition, Image Processing and Communications

Stabilized Dispersion-Robust Millimeter-Wave Anything-Over-Fiber Transmitter in Access Networks Featuring a Double Sideband Suppressed Carrier Modulation