Open AccessDesign and Analysis of a Noninsert Wet Mateable Connector for Underwater Power and Data Transfer
Author(s) -
Jianguang Shi,
Furong Li,
Shu You Peng,
Wenyu Cai,
Mian Pan,
Haibin Yu
Publication year - 2020
Publication title -
marine technology society journal/marine technology society journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.23
H-Index - 43
eISSN - 1948-1209
pISSN - 0025-3324
DOI - 10.4031/mtsj.54.1.3
Subject(s) - underwater , maximum power transfer theorem , cable gland , power (physics) , transfer (computing) , marine engineering , electrical engineering , data transmission , duplex (building) , engineering , computer science , geology , physics , biology , genetics , dna , oceanography , quantum mechanics , parallel computing
Compared with traditional metal contact wet mateable connectors, a noninsert wet mateable connector (NWMC) costs much less and is simpler and safer to plug underwater and can operate steadily for a long duration. This article proposes a newly designed NWMC that can transfer power and data simultaneously in deep-sea conditions. Design and analysis methodology of a small volume and stable output inductive coupling power transfer (ICPT) system that combines calculation, simulation, and measurement methods are proposed. The operating parameters are monitored in real time through the communication path, and the heat is dissipated through the end cap. According to the experimental results, this system is able to maintain an output voltage of up to 48 V, transfer up to 130 W power, and simultaneously obtain 73 Mbps full-duplex noncontact communication.