705 research outputs found

    Energy considerations regarding next generation passive optical networks

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    The increasing demand for faster broadband access requires the development of next-generation Passive Optical Networks (PONs) operating at very high bit rates (e.g. 40 Gb/s). On the same time, energy efficiency in Information and Communication Technology (ICT) infrastructure has become a very important topic. In this paper, several proposed solutions for future high-speed PONs, such as coherent and incoherent multilevel signaling, wavelength-multiplexed On-Off Keying (OOK) and Orthogonal Frequency Division Multiplexing (OFDM), are examined with regards to the energy consumption of the system, with results indicating that the necessary bit rates can be provided without sacrificing energy efficiency

    Multi-level modulation formats for optical access networks

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    There is growing demand for higher bit rates at the access domain. The most promising and future-proof technology for providing end users with high bandwidth is Passive Optical Networks (PON). In order to provide these higher bit rates, the use of multi-level modulation has been proposed. By moving to multi-level signals, low speed electronics can be used, with some added complexity to the optical part. This paper investigates the performance of incoherent multi-level modulation formats (in particular QAM and DQPSK) in bidirectional PONs. The simulation results indicate that incoherent QAM is a strong candidate for future PONs

    Multi-level modulation formats for optical access networks

    Get PDF
    There is growing demand for higher bit rates at the access domain. The most promising and future-proof technology for providing end users with high bandwidth is Passive Optical Networks (PON). In order to provide these higher bit rates, the use of multi-level modulation has been proposed. By moving to multi-level signals, low speed electronics can be used, with some added complexity to the optical part. This paper investigates the performance of incoherent multi-level modulation formats (in particular QAM and DQPSK) in bidirectional PONs. The simulation results indicate that incoherent QAM is a strong candidate for future PONs

    2 x 10 Gbit/s WDM 1310-nm optical transmissin over 63.5-km standard single-mode fiber using optical preamplifiers

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    Twenty Gbit/s transmission over 63.5 km SMF at 1310 nm is reported by using two channel 10 Gbit/s wavelength (de)multiplexing (¿¿=1.5 nm). Two 1310 nm SL-MQW semiconductor optical amplifiers are utilized for loss compensation and sensitivity improvement. For the 1310 nm wavelength domain, a record bitrate x distance product of 1.27 Tbit/s.km has been obtained. Crosstalk penalties are identified, and the feasibility of an extension up to at least four, 10 Gbit/s channels is discusse

    Energy considerations regarding next generation passive optical networks

    Get PDF
    The increasing demand for faster broadband access requires the development of next-generation Passive Optical Networks (PONs) operating at very high bit rates (e.g. 40 Gb/s). On the same time, energy efficiency in Information and Communication Technology (ICT) infrastructure has become a very important topic. In this paper, several proposed solutions for future high-speed PONs, such as coherent and incoherent multilevel signaling, wavelength-multiplexed On-Off Keying (OOK) and Orthogonal Frequency Division Multiplexing (OFDM), are examined with regards to the energy consumption of the system, with results indicating that the necessary bit rates can be provided without sacrificing energy efficiency

    Modeling and performance analysis of WDM transmission links employing semiconductor optical amplifiers

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    We theoretically explored the system limits of various single- and multichannel transmission links employing semiconductor optical amplifiers (SOAs). For this purpose, we developed an accurate model to describe the amplifier dynamics in the moderate and low saturation regimes. Our simulation results revealed the delicate balance between the level of saturation, the signal-to-noise ratio and the amount of gain per amplifier required for optimum system performance. The modeling results have been confirmed by recent experimental work in this area

    On the effect of receiver impairments on incoherent QAM systems

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    Incoherent QAM is a differentially detected, multilevel modulation format that can improve spectral efficiency in optical communication systems. The effect of three receiver impairments on the performance of an incoherent QAM system is assessed in this paper for the first time. Specifically, the impairments studied are an unbalanced Mach-Zehnder Interferometer (MZI,), the phase detuning of the MZI and the amplitude imbalance of the Balanced Photodetectors (BPD). Extensive simulations were carried out and results indicate that incoherent QAM is quite robust in respect to the aforementioned impairments, with the phase detuning being the most critical parameter leading to peiformance degradatio

    Fiber array-to-photonic-chip fixation and fine tuning using laser support adjustment

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    A concept for coupling lensed fiber arrays to photonic optical chips in the submicrometer range by using metal deformation is presented. Fine-tuning is possible despite already secured positions between the parts due to precisely chosen step-by-step deformations in the constructions. The smallest fine-tuning step of 0.1 um is measured using laser support adjustment. The system is packaged and can be temperature controlled. At a constant chip temperature of 22 degrees C, the package is successfully tested at an ambient temperature range of 0 to 60 degrees C

    Clock recovery and demultiplexing performance of 160-Gb/s OTDM field experiments

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    Clock recovery (CR) from a 160-Gb/s data signal is demonstrated using a single unidirectional electroabsorption modulator in a cost-effective phase-locked loop configuration consisting entirely of commercially available components. The CR exhibits a root mean square time jitter of 205 fs, a holding range of 10 MHz, a wavelength-independent performance of 10 nm, and an input dynamic range of 10 dB. Demultiplexing experiments of transmitted 160-Gb/s data through installed fiber links over 275.4 km verified the excellent performance of the proposed CR. All 16 10-Gb/s channels were demultiplexed error-free

    Study on the limits of all-optical time domain demultiplexing using cross absorption modulation in an electroabsorption modulator

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    A theoretical and experimental assessment of the performance of an all-ticaldemultiplexer based on cross-absorption modulation in an electroabsorption modulator is presented. Simulations are described for demultiplexing from 160 Gbit/s to a 40 or 10 Gbit/s base rate. Experimental results are presented for demultiplexing to a base rate of 10 Gbit/s from an optical time-domain multiplexing rate of 80 with a bit error rate (BER) ,1029 and 160 Gbit/s with a BER ’1027
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