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A Wearable Power Generator for Sports Monitoring Applications by Ursula Leonard 08331502

A Wearable Power Generator for Sports Monitoring Applications by Ursula Leonard 08331502. 4 th Sports and Exercise Engineering Final Year Project Supervisor: Dr. Maeve Duffy. Introduction. Background Aims Progress to date Tasks Remaining   Power.

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A Wearable Power Generator for Sports Monitoring Applications by Ursula Leonard 08331502

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  1. A Wearable Power Generator for Sports Monitoring Applicationsby Ursula Leonard 08331502 4th Sports and Exercise Engineering Final Year Project Supervisor: Dr. Maeve Duffy

  2. Introduction • Background • Aims • Progress to date • Tasks Remaining •   Power

  3. Background and Aims • Electromagnetic Induction • emf rate of change of magnetic flux • Produce max AC Output • Convert to useable DC • Develop pedometer system • Possible Applications • Pedometer 1.5v – 2.5v • Accelerometer 2v – 3.4v

  4. Optimisation of Dimensions • The Generator • Length, diameter • The Copper Coil • Length of coil • Number of coils • Diameter of wire • The Magnet • Gradient • Shape, length, diameter

  5. Building and Testing • Card Former • One coil • Generator length 50mm • Magnet diameter 10mm • Magnet grade and length • Wire diameter • No. of turns of wire • No. of coils  Constant  Variable

  6. AC/DC Conversion • Analysed conversion circuits • Half wave rectifier • Full wave rectifier • Multiplier circuits • Downloaded simulation software • Predict results • Analysed types of diodes • Silicon • Germanium • Schottky • Very low forward voltage drop

  7. Tasks Remaining • Build conversion circuit • Get hand on transceivers • Become familiar with programming language • Write program • Program up LCD display • Accelerometer • Display speed with steps taken

  8. Conclusion • Happy with progress to date • A lot of work ahead • Lighter Semester Thank you for your time  Any Questions?

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