1. Intro to AC

2. AC Alternating Current Flows in two directions. It can reverse many times per second. Intro to AC

3.  This is a picture of a Sine Wave. Intro to AC

4. The part of the wave above the line is the Positive Alternation. The part of the wave below the line in the Negative Alternation. Intro to AC

5.  A wave with a positive alternation and a negative alternation is called one Cycle.  The amount of time it takes for one cycle is called the wave’s Period.  The number of cycles in one second is called Frequency.  The length of one cycle is called Wavelength. Intro to AC

6.  Induction is the production of an electric current in a conductor by varying the magnetic field applied to the conductor.  High Flux Variation produces a high current flow.  Low Flux Variation produces a low current flow. Intro to AC

7.  Three things are required to induce current flow:  A conductor  A magnetic field  Relative Motion Intro to AC

8.  When generating AC power the faster the relative motion the higher the frequency. Intro to AC

9.  A Sine wave is also called a Sinusoidal Wave.  All other wave shapes are called Non-sinusoidal Waves. Intro to AC

10. Formulas  Frequency = 1 / Period  Period = 1 / Frequency  RT in series = R1 + R2  RT in Parallel = R1 * R2 / R1 + R2  I = V / R  V = I * R Intro to AC

12. Inductance and RL Circuits

13. Inductance An Inductor is an electronic component that has the ability to concentrate a magnetic field.

14. Inductance  The letter symbol for an Inductor is “L”  The schematic symbol for an Inductor

15. Inductance There are three main classifications of inductors:  Air Core  Iron Core  Variable

16. Inductance  Inductance is the ability of a conductor to induce voltage when cut by a magnetic field.

17. Inductance There are several factors that can determine the amount of inductance:  Number of turns of wire on coil  Distance between windings  Cross-sectional area of core  Permeability of core

18. Inductance  The henry (H) is the basic unit of inductance. One henry is very large. Millihenry (mH) and microhenry (µH) are more common units of inductance.

19. Inductance  An RL filter is a circuit constructed from inductors and resistors that will block certain frequencies and pass others.

20. Inductance  One configuration, called a low pass filter, passes low frequencies while blocking high frequencies.  The other configuration, called a high pass filter, passes high frequencies while blocking low frequencies.

22. Inductance and RL Circuits

23. Inductance An Inductor is an electronic component that has the ability to concentrate a magnetic field.

24. Inductance  The letter symbol for an Inductor is “L”  The schematic symbol for an Inductor

25. Inductance There are three main classifications of inductors:  Air Core  Iron Core  Variable

26. Inductance  Inductance is the ability of a conductor to induce voltage when cut by a magnetic field.

27. Inductance There are several factors that can determine the amount of inductance:  Number of turns of wire on coil  Distance between windings  Cross-sectional area of core  Permeability of core

28. Inductance  The henry (H) is the basic unit of inductance. One henry is very large. Millihenry (mH) and microhenry (µH) are more common units of inductance.

29. Inductance  An RL filter is a circuit constructed from inductors and resistors that will block certain frequencies and pass others.

30. Inductance  One configuration, called a low pass filter, passes low frequencies while blocking high frequencies.  The other configuration, called a high pass filter, passes high frequencies while blocking low frequencies.

32. Time Constants

33. RC time constants are a measure of the time it takes to charge or discharge of a capacitor. RL time constants are a measure of the time it takes for an inductor to charge to a certain value. TIME CONSTANTS

34. It takes 5 time constants to fully charge or discharge a capacitor. TIME CONSTANTS

35. The values of ea for each time constant are: Chargingdischarging tc1=63%37% tc2=86%14% tc3 =95%5% tc4=98%2% Tc5=99%1% TIME CONSTANTS

36. The formula used to determine the time for one time constant is for rc circuits: tc= c*r The formula used to determine the time for one time constant is for rl circuits: tc= l/r TIME CONSTANTS

37. The formula used to determine the time for one time constant is: tc= r * c TIME CONSTANTS

38. The formula used to determine the Total time for a Capacitor to charge or an inductor current to raise to maximum is: time = tc * 5 TIME CONSTANTS

40. Resonance

41. LCR circuits have inductors, capacitors, and resistors in series or in parallel. Resonance

42. The currents through the capacitor and inductor are 180 degrees out of phase. Capacitors and inductors oppose each other. Resonance

43. In a series LCR circuit, the circuit is: Resistive when: xc = xl Capacitive when:xc > xl Inductive when:xc < xl Resonance

44. In a Parallel LCR circuit, the circuit is: Resistive when: xc = xl Capacitive when:xL > xc Inductive when:xl < xc Resonance

45. Resonance is the condition in an LCR circuit where inductive reactance equals capacitive reactance. Resonance

46. A resonant series circuit is a series LCR circuit with an applied frequency that causes XL to equal XC. Resonance

47. The frequency where XL equals XC is called the resonant frequency. Resonance

48. In a series LCR circuit at resonance: zt is minimum it is maximum Resonance

49. A resonant parallel circuit is a parallel LCR circuit with an applied frequency that causes XL to equal XC. Resonance

50. In a parallel LCR circuit at resonance: ZT is maximum it is minimum Resonance

52. Transformers

53. Transformers are electronic components that match a voltage source to a load. Transformers

54. The transformer increases or decreases voltage, depending on the requirements of the load. Transformers

55. The purpose of a transformer is to transfer power. Power IN always equals power OUT. Transformers

56. Transformers have two coils, the primary and the secondary coil. Transformers

57. The PRIMARY coil receives the input voltage. The SECONDARY coil receives the induced voltage. Transformers

58. Transformers operate on the principle of mutual inductance. Transformers

59. Step up transformers increase the applied voltage. Step down transformers decrease the applied voltage. Transformers

60. Transformers have three important circuit values. 1. Turns Ratio 2. Voltage 3. Current Transformers