Design and Implementation for the High Voltage DC-DC Converter of the Subsea Observation Network

The subsea observation network has become an indispensable means of ocean exploration worldwide. However, the scale of the subsea observation network is limited by the power supply voltage and power level. Hence, to promote the development of a subsea observation network, this paper investigates the...

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Veröffentlicht in:Journal of marine science and engineering 2021-07, Vol.9 (7), p.712
Hauptverfasser: Zhang, Feng, Zhang, Zhifeng, Xiao, Sa, Xie, Kai, Ni, Jiawei, Gu, Haolun, Wu, Yong, Ning, Yang, Xia, Qingchao
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Sprache:eng
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Zusammenfassung:The subsea observation network has become an indispensable means of ocean exploration worldwide. However, the scale of the subsea observation network is limited by the power supply voltage and power level. Hence, to promote the development of a subsea observation network, this paper investigates the underwater high voltage DC-DC converter (HVC), which greatly improves the voltage and power level of the subsea observation network. The traditional series-parallel converter based on multi-module is faced with many technical problems, such as difficult transformer isolation, many fault points, low power density under higher input voltage level, and higher output power. The subsea HVC of this paper adopts a modular multilevel resonant DC-DC converter. The main circuit of HVC is designed in detail, including a module circuit, a resonant circuit, and a control scheme. Through the combination of the sub-module removal voltage regulation and closed-loop control, the converter can still output a stable voltage of 375 V when the input voltage changes. The modular sub-module and centralized transformer structure enables the converter to isolate high voltage easily, small volume, and high power density. The simulation and experiment results show the proposed HVC meets the design requirements and has good application prospects. It can be applied to submarine power transmission and distribution needs because of its wide range, large transformation ratio, and high efficiency.
ISSN:2077-1312
2077-1312
DOI:10.3390/jmse9070712