Engineering 215 Principles of Electrical Engineering Physics 262 Electrical Circuits and Devices

1. The Electronics Course Engineering 215Principles of Electrical EngineeringPhysics 262Electrical Circuits and Devices

2. Outline • Student Information Sheet • PHY 108, 242, 242, 250, 321, etc. • EGR 111, 112, 250, 321, 343, etc. • MTH 133, 138, 139, 233, 234, etc. • Syllabus

3. Who should take this course? • This course is part of the curriculum for the following disciplines: • Physics • Aerospace • Agricultural • Biological Systems • Chemical • Civil • Electrical • Industrial • Mechanical • Nuclear • Ocean • Petroleum • Radiological Health

4. What are the course objectives? • To be able to identify electrical components in your everyday life • To learn how to interpret electrical schematics • To design analog and digital circuits • To build complex electrical circuits • To use software for circuit design and testing

5. What are the course objectives? • To develop troubleshooting techniques • To get hands-on experience • To learn how to use diagnostic equipment • To understand the physics of electron flow at the atomic level • To improve our mathematics skills

6. Where do we find electrical circuits? • Communications • Radio, internet, telephone, television • Data Processing • Desktop computers, servers • Automobiles • displays, sensors, motors • Home • lighting, heating, appliances • Weather Stations • wind speed, precipitation, temperature • Power Plants • moving magnets, transformers

7. The Electronics Course Time to take notes….

8. Chapter 1 Introduction

9. Chapter 1 - Introduction • Electricity • From the word “Elektron” • Greek for “amber” (Meter stick and Cup Demo)

10. John Travoltage PhET Physics Education Technology

11. What’s the point? • With knowledge about the fundamentals of electricity we can create circuits that control the flow of electricity. • These circuits can work for us… …and think for us.

12. What is electricity? Valence Electron

15. That’s Electricity!

16. What is electricity? Valence Electron

17. What can multimeters measure? • Voltage • Current • Resistance • Frequency • Capacitance • Other Functions • AC and DC (Voltages) • Open and Closed Circuits • Hold Demos: 9V Batteries Wall Outlet Body Resistance

18. Symbols, Quantities, and Units • q • i • v • P • R

19. Ohm’s Law • V=IR Electrical Power • P=IV Resistance Question • What is the resistance of a 100W light bulb?

20. Shocking Demo • Key Idea: “Contact Resistance” • 9-Volt Batteries • Salt Water • Thought Questions: • Is water a good conductor? • What is de-ionized water?

21. Benjamin Franklin (January 17, 1706 – April 17, 1790) was one of the Founding Fathers of the United States. Franklin was a leading author, printer, political theorist, politician, postmaster, scientist, musician, inventor, satirist, civic activist, statesman, and diplomat. As a scientist, he was a major figure in the American Enlightenment and the history of physics for his discoveries and theories regarding electricity. He invented the lightning rod, bifocals, the Franklin stove, a carriage odometer, and the glass 'armonica‘. He facilitated many civic organizations, including a fire department and a university.

22. Inside of a 9 Volt Battery http://www.youtube.com/watch?v=tr5ZB1eFhwc http://www.youtube.com/watch?v=nzgDffMcsUU (fake) http://www.youtube.com/watch?v=s_8n2Qgguto

23. What is an insulator? • a material that does not allow electrons to flow freely • Examples: • Wood • Plastics • Ceramics • Amber • Air

24. What is a conductor? • a material that allows free electron movement • Examples: • Aluminum • Gold • Copper • Most Metals

25. What is a semiconductor? • a class of materials whose electron conductivity is between that of a conductor and insulator • Examples: • Silicon • Germanium

27. Circuit Symbols • Resistor • Capacitor • Inductor • Switch • Unspecified Circuit Element • Battery • Bulb

28. Sketch the circuit for the diagram above using standard circuit symbols.

29. What is a short circuit? • Answer: A low resistance path across the terminals of an electrical energy source

33. Sprial Wound Shunt Type Slow Blow Fuse

34. GFCI Circuit Beakers http://home.howstuffworks.com/circuit-breaker2.htm

35. Electrical Current • Current • the rate of flow of charge through a conductor measured in Amperes (1 A = 1 C/s) • Charge of the Electron • e = -1.603  10-19 Coulombs • Conventional Current • Direction of flow of positive (+) charges • Electron Current • Opposite to that of conventional current

36. Effect of Electric Currents on the Body • 0.001 A can be felt • 0.005 A is painful • 0.010 A causes involuntary muscle contractions • 0.015 A causes loss of muscle control • 0.070 A can be fatal if the current last for more than 1 second

37. Electricity & Safety • Body Resistance • 100 Ohms (soaked in salt water) • 500,000 Ohms (very dry) • How much voltage is fatal if you have dry skin? • ...if you are soaked in salt water? • “Current Kills” • How can we keep currents low in the lab?

38. Current Equation Charge in Coulombs (C) Current in Amperes (A) Time in Seconds (s) Calculus:

39. Types of Electricity • Static Electricity - no motion of free charges • Current Electricity - motion of free charges • Direct Current (DC) • Alternating Current (AC) (Plot On Chalk Board)

42. Voltage • Voltage is the measure of the potential to move electrons. • 1 Volt = 1 Joule/Coulomb • Sources of Voltage • Batteries (DC) • Wall Outlets (AC)

43. More Circuit Symbols • DC Voltage Supply • AC Voltage Supply • DC Current Supply • AC Current Supply

44. Kirchhoff’s Current Law • “The net current in a node is zero.” • For example…

45. Kirchhoff’s Voltage Law • “The sum of the voltages in any closed loop is zero.”

46. V A W Digital Multimeters Measurement Device Circuit Symbol Voltage Voltmeter Current Ammeter Resistance Ohmeter “Across” “Through” “Across” (and Not in circuit)

47. Appendix B: Resistor Color Codes Tolerance 5% Gold 10% Silver 20% No 4th band -2 Silver -1 Gold 0 Black 1 Brown 2 Red 3 Orange 4 Yellow 5 Green 6 Blue 7 Violet 8 Gray 9 White

48. Resistor Wattage Limit Resistors will burn up if their power limit is exceeded. 1/8 W 1/4 W 1/2 W 1 W 2 W

49. Resistor Equations • Ohm’s Law: v = iR • Resistance: Length in Meters (m) Cross-sectional Area In square meters (m2) Resistance in Ohms (W) Resistivity in Ohms-meters (W m)

50. Resistivity of Copper 0.000000017.2 Ωm Resistivity of Water 181,800 Ωm