Team 01 : QuadSquad Safety and Reliability

1. Team 01 : QuadSquadSafety and Reliability Andrew Boldt the ECE quadcopter senior design project @ Purdue University

2. Abstract • Android controlled quadcopter • Bluetooth connection (~300 foot range) • GPS, compass, ultrasonic, battery monitor • Brushless DC motors with speed controllers • PWM input flight controller board for stabilization • Waypoint navigation & auto take-off/land the ECE quadcopter senior design project @ Purdue University

3. the ECE quadcopter senior design project @ Purdue University

4. Project-Specific Success Criteria An ability to … • determine the position of the quadcopter using GPS • control the copter using an Android device over a Bluetooth interface • automatically take-off and land • fly-by-waypoint using GPS coordinates • monitor the state of battery charge and relay back to user the ECE quadcopter senior design project @ Purdue University

5. Criticality Levels • Total Quadcopter Meltdown • Battery/ESC/Flight Controller short • Severe impact to flight • Crash into person • λ < 10^-9 • Criticality Level I • Basic Component Failure • Micro/GPS/MAG/ULTRA failure • Quadcopter hovers • λ< 10^-6 • Criticality Level IV the ECE quadcopter senior design project @ Purdue University

6. Components Monitored • Microcontroller • Power SupplyChip • Line Level Chip • ESC’s the ECE quadcopter senior design project @ Purdue University

7. FMECA - Micro the ECE quadcopter senior design project @ Purdue University

8. FMECA - Power the ECE quadcopter senior design project @ Purdue University

9. FMECA - Line the ECE quadcopter senior design project @ Purdue University

10. FMECA – ESC’s the ECE quadcopter senior design project @ Purdue University

11. Questions?? the ECE quadcopter senior design project @ Purdue University