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Silly String Shooter Sean Hicks Dongpu Jin ELEC 307 Project 1 Instructor: Alvaro Pinto March/14/2011
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Overview Background and Theory Specification Explanation Summary Work to Be Done Conclusion
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Background and Theory We are building a Silly String Shooter It can be used as a automatic self defence detector This is a hard ware and software co- design project
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Background and Theory The detection will be handled by a passive infrared sensor The power of the physical movement of the trigger is provide by a motor A microcontroller is utilized as the control center. It contains our software design.
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Specification Components: ◦ Arduino ATmega328P Microcontroller ◦ Futaba s3003 Servo Motor ◦ Parallax PIR (Passive Infrared) Sensor ◦ A bottle of Silly String
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Specification Arduino ATmega328P Microcontroller: The control center. Will interact with both motor and sensor.
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Specification Futaba s3003 Servo Motor: It has a rotatable gear with four arms Receive signal from microcontroller and push the lever.
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Specification Parallax PIR (Passive Infrared) Sensor: It will detect movements in the background and send signal to the microcontroller. It has almost 360° detection area. We attached a little tube to narrow the range.
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Specification A bottle of Silly String The hat is glued with the motor Lever will trigger the silly string to fire
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Explanation Connections: PIR Sensor Arduino Microcontroller Servo Motor & Silly String
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Explanation How it works? ◦ PIR Sensor will tied to the microcontroller. When it detects any background movement, it will send signal to microcontroller. ◦ When microcontroller receives the signal from the PIR Sensor. Its inside logic will analyze and process the signal. Then it will send command signal to the Servo motor. (continue…)
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Explanation ◦ The Servo motor will be triggered by the signal from the microcontroller. It will start rotating the lever and pushing the button to fire silly strings.
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Explanation Flow Chart: PIR Sensor Movement? Motor fires Silly Strings Controller Yes! No
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Summary We have tested the PIR Sensor and Servo Motor individually using discrete components. We wrote a testing C program for Arduino Microcontroller.
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Work to Be Done We will do more testing to make the microcontroller work correctly together with the PIR Sensor and Motor.
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Conclusion This concludes our presentations of Project 1- Silly String Shooter. Any questions?
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Conclusion Thanks for your attention!
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