DocumentCode
1864792
Title
A novel simulation system of marine propeller load characteristics
Author
Diao, Li-jun ; Liu, Zhi-gang ; Shen, Mao-sheng ; Yue, Dai-wei
Author_Institution
Dept. of Electr. Eng., Beijing Jiaotong Univ.
fYear
2005
fDate
Nov. 29 2005-Dec. 2 2005
Firstpage
1147
Abstract
This paper presents a novel efficient simulation system of marine propeller load characteristics for electric propulsion motor examination. The simulation system is realized based on real-time simulation and control technique by MATLAB and data acquisition card, the cage induction motors and power electronics converters with relative control strategies are adopted for basic control. The control strategies, including field oriented control and synchronous current PI control, are described in detail. In order to test the simulation system, a 30 W prototype is built. The simulation and experimental results indicate that the simulation system is valid, and provides a good reference for the realization of future large power simulation system
Keywords
PI control; control engineering computing; data acquisition; electric current control; electric machine analysis computing; electric propulsion; induction motors; machine vector control; marine systems; naval engineering computing; power convertors; propellers; 30 kW; MATLAB; cage induction motors; data acquisition card; electric propulsion motor; field oriented control; marine propeller load characteristics; power electronics converters; power simulation system; real-time simulation; synchronous current PI control; Data acquisition; Induction motors; MATLAB; Pi control; Power electronics; Propellers; Propulsion; Real time systems; Synchronous motors; System testing; Digital Signal Processor; Field Oriented Control; MATLAB; Propeller; Real-time Control; Real-time Simulation; Synchronous Current Control;
fLanguage
English
Publisher
ieee
Conference_Titel
Power Engineering Conference, 2005. IPEC 2005. The 7th International
Conference_Location
Singapore
Print_ISBN
981-05-5702-7
Type
conf
DOI
10.1109/IPEC.2005.207080
Filename
1627369
Link To Document