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Power Electronics and Drives: Applications to Modern Ship Propulsion Systems
IEEE Transactions on Neural Networks and Learning Systems ( IF 10.4 ) Pub Date : 2020-12-18 , DOI: 10.1109/mie.2020.3002493
Carlos A. Reusser , Hector A. Young , Joel R. Perez Osses , Marcelo A. Perez , Oliver J. Simmonds

Electrically propelled ships gained popularity by the early 20th century, with the rapid development of submarines and mediumcapacity container ships, mainly using dc motors [1]. Synchronous ac motors have since been employed for naval propulsion systems, but due to the restricted operation of the available power electronic devices at that time, these configurations were too expensive and unreliable, and they featured poor performance in terms of speed and torque control [2]. Improvements in power electronics devices and drive control schemes as well as the development of high-efficiency multiphase induction and synchronous motors have pushed the advancement of electric ship propulsion systems and applications [3]-[7].

中文翻译:

电力电子和驱动器:在现代船舶推进系统中的应用

随着潜艇和中型集装箱船的飞速发展,电动推进船在20世纪初开始普及,主要使用直流电动机[1]。此后已将同步交流电动机用于海军推进系统,但是由于当时可用的电力电子设备的运行受限,这些配置过于昂贵且不可靠,并且在速度和转矩控制方面的性能较差[2]。 ]。电力电子设备和驱动控制方案的改进以及高效多相感应和同步电动机的发展推动了电动船舶推进系统和应用的发展[3]-[7]。
更新日期:2020-12-22
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