際際滷shows by User: selvamurhukumran / http://www.slideshare.net/images/logo.gif 際際滷shows by User: selvamurhukumran / Mon, 13 Jul 2015 09:40:13 GMT 際際滷Share feed for 際際滷shows by User: selvamurhukumran A CAN BUS BASED SYSTEM FOR MONITORING AND FAULT DIAGNOSIS IN WIND TURBINE /slideshow/a-can-bus-based-system-for-monitoring-and-fault-diagnosis-in-wind-turbine/50459644 ijsrfinaljournal-150713094013-lva1-app6892
A CAN based architecture is designed for the purpose of intensive monitoring and fault diagnosis in wind turbine. It provides a full automation system. CAN (Controller Area Network) Bus is a high speed serial data bus with high transmission rate. CAN Bus interface technique with an integration of electro-mechanical subsystems that embeds network control systems is proposed along with ARM controller to monitor and diagnose the problems in the wind turbine application. CAN BUS will enable the data transmission between two units at the same time without any disturbances. The transmission time of data is decreased with this CAN protocol. ARM core1 (LPC2148) interfaced with CAN transceiver and wind turbine sensing units. ARM core2 is interfaced with fault diagnose and monitoring section. Weather Condition (WC) monitoring and Generation Voltage (GV) display is also added in this design. Data acquisition node collects the sensed data through CAN protocol. This technique reduces the possibility of fault and increase the monitoring of wind turbine.]]>

A CAN based architecture is designed for the purpose of intensive monitoring and fault diagnosis in wind turbine. It provides a full automation system. CAN (Controller Area Network) Bus is a high speed serial data bus with high transmission rate. CAN Bus interface technique with an integration of electro-mechanical subsystems that embeds network control systems is proposed along with ARM controller to monitor and diagnose the problems in the wind turbine application. CAN BUS will enable the data transmission between two units at the same time without any disturbances. The transmission time of data is decreased with this CAN protocol. ARM core1 (LPC2148) interfaced with CAN transceiver and wind turbine sensing units. ARM core2 is interfaced with fault diagnose and monitoring section. Weather Condition (WC) monitoring and Generation Voltage (GV) display is also added in this design. Data acquisition node collects the sensed data through CAN protocol. This technique reduces the possibility of fault and increase the monitoring of wind turbine.]]>
Mon, 13 Jul 2015 09:40:13 GMT /slideshow/a-can-bus-based-system-for-monitoring-and-fault-diagnosis-in-wind-turbine/50459644 selvamurhukumran@slideshare.net(selvamurhukumran) A CAN BUS BASED SYSTEM FOR MONITORING AND FAULT DIAGNOSIS IN WIND TURBINE selvamurhukumran A CAN based architecture is designed for the purpose of intensive monitoring and fault diagnosis in wind turbine. It provides a full automation system. CAN (Controller Area Network) Bus is a high speed serial data bus with high transmission rate. CAN Bus interface technique with an integration of electro-mechanical subsystems that embeds network control systems is proposed along with ARM controller to monitor and diagnose the problems in the wind turbine application. CAN BUS will enable the data transmission between two units at the same time without any disturbances. The transmission time of data is decreased with this CAN protocol. ARM core1 (LPC2148) interfaced with CAN transceiver and wind turbine sensing units. ARM core2 is interfaced with fault diagnose and monitoring section. Weather Condition (WC) monitoring and Generation Voltage (GV) display is also added in this design. Data acquisition node collects the sensed data through CAN protocol. This technique reduces the possibility of fault and increase the monitoring of wind turbine. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/ijsrfinaljournal-150713094013-lva1-app6892-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> A CAN based architecture is designed for the purpose of intensive monitoring and fault diagnosis in wind turbine. It provides a full automation system. CAN (Controller Area Network) Bus is a high speed serial data bus with high transmission rate. CAN Bus interface technique with an integration of electro-mechanical subsystems that embeds network control systems is proposed along with ARM controller to monitor and diagnose the problems in the wind turbine application. CAN BUS will enable the data transmission between two units at the same time without any disturbances. The transmission time of data is decreased with this CAN protocol. ARM core1 (LPC2148) interfaced with CAN transceiver and wind turbine sensing units. ARM core2 is interfaced with fault diagnose and monitoring section. Weather Condition (WC) monitoring and Generation Voltage (GV) display is also added in this design. Data acquisition node collects the sensed data through CAN protocol. This technique reduces the possibility of fault and increase the monitoring of wind turbine.
A CAN BUS BASED SYSTEM FOR MONITORING AND FAULT DIAGNOSIS IN WIND TURBINE from Own preparations
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