Title :
Actively Controllable Switching for Tree Topology Seafloor Observation Networks
Author :
Yanhu Chen ; Howe, Bruce M. ; Canjun Yang
Author_Institution :
Inst. of Mechatron. Control Eng., Zhejiang Univ., Hangzhou, China
Abstract :
Cabled ocean observatory systems that provide abundant power and broad bandwidth communication enabling undersea science have been evolving during the last decade. To establish such permanent infrastructure in the ocean, the technology of cable network switching and fault isolation with very high reliability is essential. In this paper, we review existing switching methods as applied to a constant voltage tree topology network. We propose an actively controllable method that can configure each branch of the network only by changing the feeding current; the current level implicitly conveys the switching information. A laboratory prototype demonstrated the features of backbone switching with zero current and low voltage (less than 20 V), and active controllability of the switch.
Keywords :
submarine cables; trees (mathematics); actively controllable switching; backbone switching; cable network switching; constant voltage tree topology network; fault isolation; feeding current; switch controllability; tree topology seafloor observation networks; Circuit faults; Interrupters; Network topology; Optical switches; Power systems; Sea floor; Underwater cables; Cable switching; constant current; high voltage; ocean observation network;
Journal_Title :
Oceanic Engineering, IEEE Journal of
DOI :
10.1109/JOE.2014.2362830
