Andere Kunden interessierten sich auch für
![Performance of Radio over Fiber (RoF) System]( "Performance of Radio over Fiber (RoF) System")
Performance of Radio over Fiber (RoF) System40,99 €![Implementation of Green Radio Communication Networks Via ROF]( "Implementation of Green Radio Communication Networks Via ROF")
Implementation of Green Radio Communication Networks Via ROF23,99 €![Performance evaluation and Optimization of WDM RoF link]( "Performance evaluation and Optimization of WDM RoF link")
Performance evaluation and Optimization of WDM RoF link36,99 €![Fiber Optics]( "Fiber Optics")
Fiber Optics77,99 €![Nonlinear Optical Materials and Devices for Applications in Information Technology]( "Nonlinear Optical Materials and Devices for Applications in Information Technology")
Nonlinear Optical Materials and Devices for Applications in Information Technology154,99 €![Nonlinear Optical Materials and Devices for Applications in Information Technology]( "Nonlinear Optical Materials and Devices for Applications in Information Technology")
Nonlinear Optical Materials and Devices for Applications in Information Technology154,99 €![Soliton-driven Photonics]( "Soliton-driven Photonics")
Soliton-driven Photonics154,99 €
A system of microring resonators (MRRs) connected to an optical modified add/drop filter system is used. The optical soliton pulse of 60 GHz frequency band can be generated and used for millimeter waves in radio over fiber (ROF) applications. Wireless Personal Area Network (WPAN) as IEEE 802.15.3c is one of the applications for the ROF. The system uses chaotic signals generated by a Gaussian laser pulse propagating within a nonlinear MRRs system. The chaotic signals can be generated via a series of MRRs. The IEEE 802.15.3c standard operates at the 60 GHz frequency band, and it is applicable for a short distance optical communication such as indoor systems, where the higher transmission data rate can be performed using a high frequency band of the output optical soliton pulses.