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Electronics and Power Distribution

Electronics and Power Distribution. AME 470: Senior Design ASME Bulk Material Transporter Matt Bertke, Paul DeMott, Patrick Hertzke, Will Sirokman 4 November 2004.

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Electronics and Power Distribution

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  1. Electronics and Power Distribution AME 470: Senior Design ASME Bulk Material Transporter Matt Bertke, Paul DeMott, Patrick Hertzke, Will Sirokman 4 November 2004

  2. Senior Design: Team Burja_______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Electronics Circuit Diagram

  3. Senior Design: Team Burja_______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Electronics Control Box The following controls will be mounted on the control box: 2 Slide Potentiometers Control Motors Mouser Part 312-9201; 5K linear, 45 mm travel 6 Pushbutton Switches Functions: algorithm ascend, algorithm descend, swing arm manual fwd, swing arm manual reverse, dump rice,reset Jameco Part 26622; momentary pushbutton 1 Master Switch Jameco Part 196154CR; rocker switch

  4. Senior Design: Team Burja_______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Electronics Onboard The following controls will be onboard: Fuse and Fuse Holder 2 9V and 9 AA Batteries and Holders 1 Rotary encoder and associated gears. Quadrate (incremental) output.

  5. Senior Design: Team Burja_______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Electronics Processors The control box is connected to the Mini-Max Processor. The Mini-Max, in turn, connects to 3 H-Bridges, which each power one motor. HBridge Mini-Max

  6. Senior Design: Team Burja_______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Electronics Control Philosophy • Philosophy • The system will be designed to incorporate automation for precision and ease of use, but will include operator feedback and human control. • Drive motors • Slide pots allow independent motor control with reverse, neutral, and variable forward speeds. • Swing arm • The rotary encoder senses arm angle and microprocessor drives motor for fully automated operation. Manual override switch available to operator. • Dumping mechanism • Pushbutton control activates solenoid and releases door latch.

  7. Electronics Logic/Program Structure Directions as viewed from side, with back to the left, front to the right Start Blue shading denotes loop Processor converts analog input from pots to forward/neutral/reverse PWM for treads No Function button pressed Dump pressed Ascend pressed Descend pressed

  8. Electronics

  9. Electronics

  10. Electronics Discharge Note This action does not interrupt the driving microprocessor sequence; the solenoid is not connected to the microprocessor Rice dump pressed Solenoid is energized by completion of circuit during press Return to start

  11. Interrupt Buttons • RESET • The program returns to START • The drive motors are not affected • If not at horizontal, swing arm should be returned to the position via manual control • Swing arm algorithm will be restarted on the button press. • MANUAL OVERRIDE (REVERSE) • Calls a subroutine where: • The swing arm motor is driven reverse as long as button is held down. • Neither swing arm algorithm nor drive motors are not affected; there is no reset. Motors remain controllable via the potentiometers. • Upon release of the button, the subroutine exits and the program resumes. • Note: Operator should not initiate manual override while the processor is driving the swing arm without first pressing RESET. • MANUAL OVERRIDE (FORWARD) • Calls a subroutine where: • The swing arm motor is driven forward as long as button is held down. • Neither swing arm algorithm nor drive motors are not affected; there is no reset. Motors remain controllable via the potentiometers. • Upon release of the button, the subroutine exits and the program resumes. • Note: Operator should not initiate manual override while the processor is driving the swing arm without first pressing RESET.

  12. Senior Design: Team Burja_______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Electronics Location of components • The electronic components will be placed on the chassis below • the rice bin. • There is flexibility regarding the horizontal placement of electronic components such as battery packs. • They will be located as needed to effect the proper center of gravity. Expected location is shown in the figure.

  13. Senior Design: Team Burja_______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Electronics Power distribution • Replacement • It is anticipated that the 9V batteries will last for the duration of the 10 minute competition, while the AA batteries will likely be replaced halfway through. To ease this process, two 8 AA Battery holders are purchased. Each will have a pinned connector which can be plugged and unplugged for easy transfer. • Pulse Width Modulation • Pulse width modulation allows motors to operate at reduced average voltage while maintaining torque without increasing current draw. • Power Management • To maximize available power to the motors, the 12V from the AA batteries are used solely to power the motors. All other power is provided by the 9V batteries. All allowed batteries are used.

  14. Senior Design: Team Burja_______________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________ Electronics Power distribution • Energizer E91 • Alkaline • Energizer NH15 Rechargeable

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