Abstract-Digital systems are more flexible and environment-process-tolerant than analogue systems. They are more reliable and robust against cross-talk, interference and channel noises, and are capable of covering higher dynamic range than analogue systems. Wideband electronic analogue to digital conversion (ADC) systems have critical problems encountered in highfrequency broadband communication systems that the recent electronic ADCs (EADC) have experienced those such as uncertainty of sampling time. In this paper, an 80Gigasample/s all photonic sampling and quantization ADC and photonic digital to analogue conversion system with six effective number of bits (ENOB) is designed. By using this Photonic ADC (PADC), a digital radio over fibre link for wireless radio frequency (RF) signal transportation over 50 km single mode fibre has been designed whose performance is investigated in this paper.
All-photonic digital radio over fibre (AP-DRoF) is a suitable candidate for a digital optical link. In this study, the system and simulation modelling of the proposed photonic data regeneration architecture for the generated return to zero (RZ) pulses of an AP-DRoF link is presented. The proposed data regeneration architecture is based on time stretching, optical sampling and optical hard limiting. Based on the system model, a comprehensive analysis and performance evaluation of the proposed system is presented. The results of simulations carried out to evaluate the performance of the system show that using the proposed regenerator in an AP-DRoF link for regeneration of the ultra-short RZ pulses at 65 Gbit/s reduced rootmean-squared timing jitter by about 90%, while the regenerated pulse eye opening height is improved by 65%.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.