1. George Mellors Teacher Engineering former Industrial Engineer

2.  Electrical Safety (Hazards)  Electrical Components  System Design/Planning  Resources  Questions

3.  Battery Acid  Electron Flow Current  Short Circuit  High current hazard  Sparks  Electrical Fire(s)  In competition, Moon rocks, a robot in the Hartford competition was burned badly by an electrical fire.

4. Note on right, it only takes 0.1 AMP to 0.2 AMP for potential Death. Batteries used in FIRST FRC competition are sealed Lead-Acid batteries. They can produce a 50 AMP current.

5. Batteries used in FIRST Competition contain Sulfuric Acid  While handling, working, cleaning up from accidental situations with a battery  Wear Personal Protective Devices (PPD) ▪ Safety Eyewear ▪ Protective gloves, rated for battery acid ▪ Apron, again rated for protection against battery acid ▪ No jewelry which could conduct electricity  Handling Upright and away from cloths and body

6.  Do you have a Battery Spill Kit? ▪ WWW example ▪ http://www.uline.com/Product/Detail/S-19486/Sorbents-and-Spill- Control/Battery-Acid-Spill- Kit?pricode=WY233&utm_source=Bing&utm_medium=pla&utm_term=S- 19486Q&utm_campaign=Janitorial%2BSupplies  Do you have an emergency eye wash kit? ▪ WWW example ▪ http://www.wayfairsupply.com/Sperian-Safety-Wear-Saline-Personal- Eyewash-Bottle-FND320004520000-L2389- K~ZHK1030.html?refid=MX2649490155- ZHK1030&device=c&ptid=1104000081468

7.  Commonly Called Short Circuits  A short circuit occurs when the resistance in the circuit is very low or zero.  Using Ohm’s Law this results in very high current.  It will be as high as the source allows. ▪ In San Francisco in 2001, a electrical repair crew on a sub station North of the city energized the sub station without removing the grounding strap. Put the entire city in darkness until the issue was resolved.

8.  Commonly Called Short Circuits  How long is a short circuit?  Possible dangerous outcomes  Sparks  Current contact with, through, human body  Overheat wires and electrical component(s)

9.  Electrical Fire  Class C fire extinguisher  Battery Handling  Gloves, Safety Glasses, clear path for transportation  Battery Spill Response Battery Spill Response  Connection  Using FIRST connectors and proper wire gauge  Tape, Tape, and more Tape… NO copper showing

12.  Robo RIO  Powerful computer Control System  Interfaces with control computer and robot system  Programming ▪ Java, C++, Labview  Module Order and placement matters ▪ Camera (x-over) = Port 1 ▪ Radio = Port 2

13.  Speed Controllers  PWM Signal is sent to control motor speeds  One controller per motor  Two types exist: ▪ Victor 88 4 Jaguars (black new for 2010)  Advantages ▪ In the program for a long time ▪ Easy to program  Disadvantages ▪ Manual break/coast jumper ▪ Hard to calibrate

14.  Black Jaguar  Newer Technology ▪ Better low end control  More features ▪ Read rules  Unknown reliability  Larger footprint  Victor 884  Older technology ▪ Well tested  Very reliable  May be phased out in the next couple of years

15.  Advantages  CAN support  Internal limit sensors  Break/Coast Button  Calibrate Button  Disadvantages  Connection/Application of 10 pin connector  Wires are short.  Challenge – Programming CAN

16.  Advantages  PWM control  Break/Coast Button  Calibrate Button  Disadvantages  No external input controls  Wires are short.  Would be used on simple control high amperage control.

17.  Relay module  Advantages ▪ Programmed easily ▪ On or Off only ▪ Outputs can be easily reversed ▪ Can control ▪ Compressor ▪ Solenoids for cylinders ▪ Small PM Motors  Disadvantages ▪ Limited Amperage (fused)

18.  Output from  What does it control and how  Special Considerations ▪ Servos (6V) ▪ Speed  Diagram if possible

19.  What kind of control? ▪ CAN ▪ PWM ▪ On-Off ▪ Feedback ? If so from were ▪ Build in software ? ▪ Labels

20.  Step 1  Read the ENTIRE rulebook  Think about the robot design ▪ How many motors? ▪ Which speed controllers? ▪ How many sensors? ▪ Safe wiring paths? ▪ How much space should be put aside? ▪ One board or multiple locations?

21.  Step 2  Discover how much space is allocated for the electronics once the robot is designed ▪ Consider preparing an early schematic  Electronics should be protected, but easily accessible ▪ Velcro panel, zip tied cover  Radio should not be enclosed, keep from noise

22.  Step 3  Get all components laid out nicely ▪ Non-conductive platform (wood/fiberglass/lexan) ▪ Think about wire paths (bend radius and #) ▪ Leave room in case you need to add something  Try to group related components to shorten wires ▪ Use proper wiring color conventions ▪ Red/white/brown = Positive : Black/blue = Negative  Labels! ▪ Assist troubleshooting and inspection

23.  Step 4  Bench top test the electronics if possible ▪ Basic control system & programming testing  Mount into the robot when it is ready to move  Secure wires from motors/sensors to frame ▪ Chassis must be isolated, no ground return  Design a secure battery holder with quick access ▪ Remember, Battery position matters! Help your CoG

24.  Do inspections regularly during build  Know the rules!  Don’t crowd the inspector  1-2 people interacting makes things easier  Neat wiring and accessibility  Make sure all components are secured  Have charged battery ready + no air pressure

26.  Signal light proper operation + visibility  Battery Terminal Lugs need electrical tape  Voltage monitoring improperly wired  Easily accessible 120A breaker/Dump Valve

27.  Plan for sensor expandability  Keep a log of parts used  Nice for keeping the budget for inspection  Also keep a spec sheet of components for reference  With your log as reference you can form your own schematic to assist in inspection/judging  Schematics are great for debugging especially when those who wired it aren’t around (off-seasons, future years)

28.  Batteries, put someone in control of charging  Zip Tie/Velcro Anderson Battery connectors during the matches  Assign someone to preventative maintenance  Make sure zip-ties aren’t breaking, battery holder loosening, etc  Check that your radio is plugged into the Robo RIO!

29.  Usfirst.org  Get the Inspection Checklist and FRC Suggestions  Chiefdelphi.com  Great forums for asking anything  Andymark.biz  Purchase electronics/gearboxes/chassis/misc  Ifirobotics.com  Purchase Victors/Spikes/Wheels

30. Questions?