A Fast Fuzzy Stator Condition Monitoring Algorithm using FPGA
This paper presents a new methodology for realtime detection of stator faults in induction motors. It is based on the evaluation of the magnitudes of three phase current signals. The severity of fault is indicated by designed fuzzy system. The algorithm consists of two stages: feature extraction and classification. All acquired current signals are based on IEEE-7S4 single precision floating point format. In the feature extraction stage, floating point based features were obtained and then converted to the integer format. In the classification stage, all coding are written in VHDL using integer data type format. The proposed method classifies the stator related faults at higher level speed with better accuracy than conventional offline method. This is the first time that FPGA based fuzzy system has been employed to induction motor faults. With the proposed method, it is clearly identified the motor condition as either healthy or damaged, allowing one to perform a simple real time detection. A light computation load is required in order to perform the calculation of the algorithm. In addition, the implemented FPGA design allows the system reconfiguration-to attain specific measurement conditions on different types of motors without hardware modifications.
filed-programmable gate array VHDL induction motors
Li jing-kui
School of Mechanical and Electrical Engineering,Wuxi Institute of Commerce,Wuxi,Jiangsu,China, 214153 Jiangsu Research and Development Center of Application Technology for Wireless Sensing system ,Wuxi,Jiangsu,China, 214153
国际会议
西安
英文
792-797
2011-05-27(万方平台首次上网日期,不代表论文的发表时间)