1. Micro-Mouse By Mohamad Samhat Narciso Lumbreras Hasan Almatrouk

2. What is a Micro-Mouse ? A micro-mouse is a small battery operated mobile robot that moves randomly to solve a maze

3. History In 1977, IEEE Spectrum Magazine, came up with the concept of a Micro-Mouse In May 1977, Spectrum announced the first US Amazing Micro-Mouse Maze Contest to be held in June 1979, New York In 1980, the European version of the contest was launched at the Euromice '80 in London In March 1990 the Micro-Mouse was introduced to schools and universities.

4. Why a Micro-Mouse? It consists of multiple parts : software & hardware Design efficiency Excellent introduction for robotics field

5. Design Method Google is our friend

6. Major Components Micro Controller PIC18F452 Sensors GP2D120 Drive Control System MC3479 Hybrid Stepper Motors Crystal Oscillator Voltage Regulator

7. "Peripheral Interface Controller” Low Cost Wide Availability Large User Base Extensive Collection of Application Notes Availability of Low Cost or Free Development Tools Serial Programming (and Re-Programming With Flash Memory) Capability.

8. Microcontroller

9. Crystal Oscillator Creates an electrical signal with a very precise frequency

10. Sensory Array

11. MC3479 Stepper Motors DRIVE CONTROL SYSTEM

12. Hybrid Stepper Motor Operates based on programmed instructions

13. VOLTAGE REGULATOR

14. Block Diagram

15. Micro-mouse Schematics

16. Trouble Shooting  Testing each component of circuit Sensors with Oscilloscope Voltage Regulator Stepper Motor Drivers with Hybrid Stepper Motors

17. Trouble Shooting Cont.  MPLAB programming and configuration bits New Software Including a C file Different Configuration Bits For Every Program

18. Trouble Shooting Cont.  Programming Setting I/O Pins Converting Signals From Analog to Digital Including Delay Functions

19. Trouble Shooting Cont.  Universal Programmer Used for Verifying Code/Erasing/Burning Program on PIC

20. Trouble Shooting Cont.  Crystal Oscillator Changed Clk from 40MHz to 20MHz Added Two 22pF Capacitors

21. Trouble Shooting Cont.  DC Motor VS Hybrid Stepper Motor No DC Power Supply Wiring Configuration

22. Trouble Shooting Cont.  Battery Lifetime Drains Fast Parallel Connection Lithium for 30% Weight Reduction

23. Trouble Shooting Cont.  MC3479 Hybrid Steppers Heat Reduction Heat sinks for MC3479

24. Trouble Shooting Cont.  Final Design Access to Batteries Stabilization Dimensions

25. Trouble-Shooting Videos

26. Trouble-Shooting Videos Cont.

27. Maze Dimensions Construction Materials

28. MILESTONE Arduino Custom Chassis Rechargeable Batteries Modify Program

29. What we Learned? Discipline Team Work Patience Complex Design of Hardware/Software