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Mini Sumo Electronics Tutorial F10. out LINE. Quick Intro to Circuit Theory Board Overview Components and Soldering Testing and Debugging General Advice. Resistors. Governed by Ohm’s Law Nice and simple Used as current limit, or to drop/lower voltages. Capacitors /Inductors.
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outLINE • Quick Intro to Circuit Theory • Board Overview • Components and Soldering • Testing and Debugging • General Advice
Resistors • Governed by Ohm’s Law • Nice and simple • Used as current limit, or to drop/lower voltages
Capacitors/Inductors • Capacitors • Inductors Hey Look! Calculus...?
cap/inductorNOTES • Fun fact, you can get rid of the derivatives! • You will hear the word “impedance” thrown around. • Basically, we consider everything with reference to frequency rather than time (huh?). • You will see this applied without explanation in 1st year, and then explained in 2nd. • You will spend ~two years studying the previous slide(s), so don’t worry if it seemed frightening.
Diodes & LEDs • Only conduct in one direction. That of the “arrow”. • For our purposes, “turn on” when the “arrow” is more positive than the “line”. • LEDs (= Light Emitting Diodes), emit well...light.
boardOVERVIEW • Custom 2 layer design, updated this Summer • Based around Atmel’s ATMega168 AVR microprocessor • We use two separate power supplies, one 6V (4xAA) and one 9V.
blockDIAGRAM Voltage Regulation Motor Drivers 6V 9V Voltage Sensing 2x IR Dist Sensors ATMega168 Status LEDs 2x Line Sensors SPI RS232
boardCOMPONENTS Match to stripe on board Schottky Diode (Polar) Capacitor Ferrite ATMega168v Negative Pin 1 Marker LED (Polar) 100 + 2 zeros = 10k Electrolytic Capacitor (Polar) L293d Resistor LD1117 5V Regulator 8 MHz Oscillator Right Angle Header MAX232NSR 100mil Header
solderingBASICS • Soldering: Use of a hot iron to melt a tin alloy in order to electrically connect components to a circuit board Image courtesy of SparkFun Electronics
solderingTIPS • Iron temp is usually set to ~70-75 • Make sure you wipe the iron tip on the wet sponge every time you solder something • Components should be flush to the board • Demos will be done in the lab. • Ask us for help if you need it. Hint: You will.
moreHELP • You CAN destroy components and/or parts of the board • You ARE easily burned. Be careful. • Highly recommended set of tutorials + videos: http://www.sparkfun.com/commerce/tutorial_info.php?tutorials_id=96
testandDEBUG • The schematic and BOM are on our website. This presentation will be on our website. • You should check our website. • It probably won’t work the first time you turn it on. This is normal.
thereFORE • Test allpower inputs before soldering chips onto the boards. • Flux remover is your best friend. Flux is a flowing liquid residue from soldering. It’s conductive. Enough said. • Pay close attention to component polarity where applicable. This is how chips explode.
generalADVICE • Divide up tasks. Work concurrently. • You don’t need the lab to program or sketch drawings. • It’s on YOU to ensure work gets done. • Remember to allocate time for testing. Very few things in engineering work the first time. Especially robots.
questions? • Feel free to ask me or any one else in the lab for help • If you’re curious about what a particular circuit does, ask me and I’ll do my best to explain it
buildTIME • Starts now. • TWOof you per team (max.) should come with me to the soldering session. • You also have software to write and a chassis to design and build