2.2 Networked Orientation Sensor (Magnetic) Sponsor: Freescale Advisor: Dr. Aslan Instructor: Dr. Stephan Angel Quintanilla Jay Richardson Javier Rodriguez.

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Presentation transcript:

2.2 Networked Orientation Sensor (Magnetic) Sponsor: Freescale Advisor: Dr. Aslan Instructor: Dr. Stephan Angel Quintanilla Jay Richardson Javier Rodriguez

Background  Freescale  The Internet of things  Renewable Energy  Electromagnetism

The Project  A cross between renewable energy and the internet of things  The next step: sensors for data storage and analysis  The internet of things provides a way for consumers to monitor performance and reduce O&M costs The Project: use the necessary knowledge and tools to design a system that will find the direction of a wind turbine. Then, upload the sampled data to the cloud

Project Requirements  Use Freescale’s Tower system module. Specifically the TWR- KW24D512 MCU for its wireless transmission capability  It must sample at 10Hz and run on batteries  It must be weather proof  The design must implement a magnetic approach

Project Process: Brainstorming MagnetometerHall Sensor

Project Process: The Sensor Vert-X 05E Touchless Rotary sensor  permanent magnet attached to the rotating shaft is used as a position marker  The orientation of the magnetic field is captured using an integrated circuit.  The analog output represents the calculated angle

Project Process: Hardware Weather Proof Box Sensor mounted internally Away from internal Magnetic field.

Project Process: Software IAR Workbench AnalogIn/DigitalOut Thread Protocol

Complications: Internal Components

Complications: Other Difference between sampling rate and uploading rate. Power usage

Result Degrees vs Time graph Showing data points obtained from the wind turbine sensor.