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Detailed Design Review Group P16228: Mike, Zach, Joe, Elijah & Bernie.

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Presentation on theme: "Detailed Design Review Group P16228: Mike, Zach, Joe, Elijah & Bernie."— Presentation transcript:

1 Detailed Design Review Group P16228: Mike, Zach, Joe, Elijah & Bernie

2 Team Vision Bernie: Enclosure designs, SolidWorks drawings/sheets, calculations of rotational velocity, and several efficiencies, PCB drawing on SolidWorks, attempted Flow Simulation (propeller would not rotate so it was unsuccessful), worked on Test Plans, initial test conditions/boundaries & predicted results Elijah: Solenoid controller/power board revision, power supply selection, electrical component testing procedures Zach: Design changes/improvements, SolidWorks parts+assembly, preliminary levitation test plan Joe: Manage expenditures/maintain budget, Update BOM, Preliminary coding (Matlab or Python) Mike: Axially magnetic stability physical design revision, high-level code flowchart, BeagleBone-MATLAB interaction research, preliminary solenoid development

3 SolidWorks Assembly (Full)

4 SolidWorks Assembly (Front Cutaway)

5 SolidWorks Assembly (Rear Cutaway)

6 Initial Conditions/Predicted Test Results Test to be performed in air Wind speed variable (for this case 5 m/s) Density of air: 1.225 kg/m^3 Motor/Propeller RPM: 842 Rotational velocity: 5.47 m/s Mass flow rate dependent on wind speed or exit speed (for this case 0.074 kg/s) Exit velocity of the air dependent on wind speed (for this case 12.01 m/s) Expected thrust of the propeller with these conditions: 0.88 N The expected outcomes are much different if tested in water

7 Axial Stability Component Placement Concept (Revised)

8 High-Level Code Design

9 Schematic (Solenoid Controller)

10 Outputs and Power indicators (LEDs)

11 Controller (specific circuitry)

12 Current Board Fixes ◦Should add debouncing caps ◦Should move diodes and increase size Order the plain version as it works Create a better board to be ordered and used later

13 Current Board Dimensions: 2.19” x 3.38” ◦56mm x 86 mm Price: $36.90 for three boards

14 Wiring Diagram (Total System)

15 Flow Charts

16 Bill of Materials (BOM) Motor Construction Purchase motor $914 New Budget $4,000 for “allowed” spending $1,818.67 allocated Funds spent to date: $128.99

17

18 Test Plans (Overview) Magnets: Stabilization (lateral, axial) Mock build Propeller: Flow simulation Motor: Use encoder to measure RPM; hook up and see if it spins Solenoids: Helmholtz coils Enclosure: Leaking & see if the motor fits Coding: Check values, troubleshoot, and emulate Temperature: thermo-coupling Solenoid Controller: verifying proper voltage output via multimeter, based on different inputs Power Supply: verifying the proper voltage is being output

19 Engineering Requirements

20 Risk Assessment

21 MSD II Plans

22 Gantt Chart

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