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Cosmic Cube

Cosmic Cube. Team Lead/Programmer: Kenneth Spradley Lead ECE: Matthew Gibson ECE Assistant: Don Lundi Lead ME: Cole Gray Financial Advisor: Crystal Hill . Presentation Outline . Crystal Hill Project Executive Summary Schedule Budget Deliverables Matthew Gibson Sensor

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Cosmic Cube

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  1. Cosmic Cube Team Lead/Programmer: Kenneth Spradley Lead ECE: Matthew Gibson ECE Assistant: Don Lundi Lead ME: Cole Gray Financial Advisor: Crystal Hill

  2. Presentation Outline • Crystal Hill • Project Executive Summary • Schedule • Budget • Deliverables • Matthew Gibson • Sensor • Amplifier • Pulse Stretching • High Voltage • Don Lundi • GPS • WIFI • Kenneth Spradley • Microcontroller/CPU • TPU • Cole Gray • Structure of Cube

  3. Crystal Hill • Project Executive Summary • Schedule • Budget • Deliverables

  4. Executive Summary • Project Description • Problem Statement • The Team • Target Market

  5. Schedule

  6. Schedule

  7. Schedule • To Be Completed • Order Remaining Components • Programming • Build Structure • Completed • Ordered and Received • Scintillator • Photo Detector • Arduino Mega • Jumper Wire • LEDs • Wi-Fi Shield

  8. Budget

  9. Budget

  10. Budget

  11. Deliverables • User’s Manual • 1 cube segment complete with • Enclosure • Scintillator • Solid-state Photodiode • GPS Module • DAC board • Time Processing Unit • Wi-Fi Module • Power Supply • Design schematics • All code files developed for microcontrollers

  12. Major Components • Scintillator • Photo-Detector • Microcontroller/CPU • Global Positioning Systems (GPS) • Wi-Fi • Structure • Radioactive Isotope • Power Supply • Time Processing Unit (TPU)

  13. MATT GIBSON • SENSOR (SCINTILLATOR + PHOTO-DETECTOR) • AMPLIFIER • PULSE STRETCHING • HIGH VOLTAGE

  14. Overview Of System

  15. FLOW CHART

  16. SCINTILLATOR Budget Impact: $0.00 Actual Value: $500.00

  17. Budget, Schedule, & Technical Risks • Technical Risks • The scintillator isn't polished and coated properly. • Budget Risks • The scintillator material costs more than the budget allows for. • Schedule Risks • Ordering more material and preparing it would take weeks.

  18. PHOTO-DETECTOR S10362-33-025c Budget Impact: $0.00 Actual Value: $344.00

  19. Budget, Schedule, & Technical Risks • Technical Risks • The photo-detector isn't sensitive enough or the output pulse is too small. • Budget Risks • The photo-detector costs more than the budget allows for or requires more costly amplification. • Schedule Risks • If the photo-detector doesn't produce a large enough pulse, then a new method of photo-detection will require more time to develop.

  20. AMPLIFIER AD8000 Budget Impact: $0.00 Actual Cost: $1.83

  21. Budget, Schedule, & Technical Risks • Technical Risks • The amplifier cannot amplify the signal enough for the Arduino, or the circuit is too noisy. • Budget Risks • The amplifier requires a more sophisticated service that costs more than the budget allows. • Schedule Risks • Designing a new circuit will take extra time for design and manufacture.

  22. PULSE STRETCH

  23. Budget, Schedule, & Technical Risks • Technical Risks • The pulse stretcher cannot lengthen the pulse enough for the Arduino to properly sample. • Budget Risks • The pulse stretcher requires a more sophisticated circuit that is more costly. • Schedule Risks • Designing a new circuit will take extra time for design and manufacture.

  24. HIGH VOLTAGE EMCO-A01 Budget Impact: $59.99

  25. Budget, Schedule, & Technical Risks • Technical Risks • The power supply cannot be controlled properly for the photo-detector. • Budget Risks • A more precise power supply is more costly. • Schedule Risks • Finding or having to build a proper power supply will take extra time

  26. DON LUNDI • GPS • WIFI

  27. New Approach EM-406A Receiver Trimble Resolution T GPS Receiver

  28. GPS Receiver Module Arduino GPS Shield • LED indicator • Built-in patch antenna • Hot start 1 sec., average • Cold start 42 sec., average • 4.5V-6.5V DC input • 44mA • 1us synchronized to GPS time • Budget Impact: $79.95

  29. Flow Chart

  30. Budget, Schedule, & Technical Risks • Technical Risks • The GPS receiver provides times that are lagging that of the signal received by the GPS satellites • Budget Risks • Having to purchase dedicate timing GPS receiver • Schedule Risks • If the EM-406A does not allow for the timing resolution needed replacing the receiver will take time.

  31. WI-FI • Arduino WIFI Shield • Protocol: 802.11b/g • Clock Speed: 16MHz = 63ns • Operating Voltages: 3.3 • Ease of Interface: Minimal Programming Required • Budget Impact: $84.95

  32. WIFI – Code Algorithm

  33. Budget, Schedule, & Technical Risks • Technical Risks • Cease to Function Properly • Unable to Transmit Data to User’s PC • Budget Risks • Order A New WI-FI Module • Schedule Risks • 7 Business Day Shipping Period (Minimum) • Additional Time Required and Resources to Debug Code

  34. Kenneth Spradley • Microcontroller/CPU • TPU (Time Processing Unit)

  35. Microcontroller

  36. Microcontroller • Arduino Mega 2560 R3 • Clock Speed: 16MHz = 63ns • Operating Voltages: 5V • Input Voltage Limits (6-20V) • Flash Memory: 256KB • 16-Analog Input • 54 -Digital I/O • Budget Impact: $58.95

  37. MPPT (After Wave Amplified and Stretched) WIFI Microcontroller Microcontroller Time Processing Unit LEDs

  38. Algorithm

  39. Budget, Schedule, & Technical Risks • Technical Risks • Cease to Function Properly • Microcontroller Memory Size to Small • Budget Risks • Order A New Microcontroller • Schedule Risks • 7 Business Day Shipping Period (Minimum) • Additional Time Required to make Code More Efficient

  40. Time Processing Unit (TPU)

  41. Time Processing Unit (TPU) • Altera DE0 Nano • Memory: 32 MB • Clock Speed: 50MHz = 20ns • A/D Converter 8 Channel / 12-bit • Operating Voltages: 5 V • Interface Type: SPI, Serial, • Impact Budget: $86.25

  42. TPU – Code Algorithm

  43. Budget, Schedule, & Technical Risks • Technical Risks • Interfacing Issues with Microcontroller • Memory Size to Small • Budget Risks • N/A • Schedule Risks • Allocate More Individuals • Additional Time Required to make Code More Efficient

  44. Cole Gray Lead Mechanical Engineer • Structure of Cube

  45. Sub-Cube Structure The top compartment will be all Aluminum, but is shown clear to see inside the sub-cube.

  46. Sub-Cube Structure • The sub-cube will be 11.5” on a side. • It will have a top compartment and bottom compartment. • The top compartment will house the scintillator. • The bottom compartment will contain the electronics. • Once the size of the electronics are known, shelves will be designed in the bottom compartment to hold the electronics securely.

  47. Top Compartment

  48. Top Compartment • All six sides will be made out of 3/16” Aluminum • The sides will be bolted together using #2-56 bolts 5/8” in length. • The bottom side will have a small hole in the center, that allows the sensor lens to slightly fit through. • Angle Aluminum will be used to securely hold the scintillator and the ecomassmaterial in place.

  49. Bottom Compartment

  50. Bottom Compartment • The four walls, and the bottom side will be made out of 3/16” Plexiglass. • The sides will be bolted together using #2-56 bolts 5/8” in length. • This will allow light through, but will allow the consumer to see the “brains” of the cube, and will be more appealing. • A rubber gasket will be added to all edges to improve water resistance

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