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Chapter 2 Voltage, Current, and Resistance. Objectives Discuss the basic structure of atoms Explain the concept of electrical charge Define voltage and.

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Presentation on theme: "Chapter 2 Voltage, Current, and Resistance. Objectives Discuss the basic structure of atoms Explain the concept of electrical charge Define voltage and."— Presentation transcript:

1 Chapter 2 Voltage, Current, and Resistance

2 Objectives Discuss the basic structure of atoms Explain the concept of electrical charge Define voltage and discuss its characteristics Define current and discuss its characteristics Define resistance and discuss its characteristics Describe a basic electric circuit Make basic circuit measurements

3 Electronics Def: –Electronics, in the strictest sense, is the science and technology of the motion of changes in a gas, vacuum, or semiconductor.

4 Atomic Structure An atom is the smallest particle of an element that retains the characteristics of that element. An atom has a nucleus, consisting of positively charged particles called protons, and uncharged particles called neutrons. The basic particles of negative charge, called electrons, orbit the nucleus.

5 Figure 2-1 The Bohr model of an atom showing electrons in orbits around the nucleus. The “tails” on the electrons indicate they are moving. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

6 Electron shells and Orbits Electrons orbit the nucleus at discrete distances from the nucleus. Orbits are grouped onto energy bands known as shells. An atom has a fixed number of shells. Each shell has a fixed maximum number of electrons permissible at energy levels.

7 Valence Electrons Electrons with the highest energy exist in the outermost shell, known as the valence shell, and its’ electrons are called valence electrons. Valence electrons are relatively loosely bound to the atom. If a valence electron acquires enough external energy to leave the atom, the process is known as ionization. The escaped electron is called a free electron.

8 Figure 2-4 The copper atom. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

9 Categories of Materials Conductors readily permit current flow, due to a large number of free electrons in the material. Conductors are characterized by 1, 2, or 3 valence electrons in their atomic structure. Semiconductors have 4 valence electrons Insulators have few free electrons, and tend not to permit current to flow through them.

10 Electrical Charge The charge of an electron and that of a proton are equal in magnitude but opposite in polarity. The force acting between charges is called an electric field.

11 Coulomb Electrical charge (Q) is measured in coulombs (C). By definition: One coulomb is the total charge possessed by 6.25 x 10 18 electrons.

12 Positive and Negative Charge A neutral atom has the same number of electrons and protons, hence no net charge. If a valence electron acquires enough energy to move away from an atom, the atom is left with a net positive charge (positive ion). If an atom acquires an extra electron in its’ outer shell, it has a net negative charge (negative ion).

13 Formation of positive and negative ions

14 Voltage The unit of voltage is the volt (V). By definition: One volt is the potential difference (voltage) between two points when one joule of energy is used to move one coulomb of charge from one point to the other.

15 Batteries A battery is a type of voltage source that converts chemical energy into electrical energy. The way cells are connected, and the type of cells, determines the voltage and capacity of a battery.

16 Other Voltage Sources Solar Cells convert light energy into electrical energy. Generators convert mechanical energy into electrical energy. Electronic power supplies do not produce electrical energy, but they transform the ac voltage from the wall outlet into a constant dc voltage for use in our circuits.

17 Figure 2-10 Construction of a basic solar cell. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

18 Figure 2-12aElectronic power supplies. (Photography courtesy of B&K Precision Corp.) Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

19 Current The movement of free electrons from negative to positive is electrical current (I). By definition: electrical current is the rate of flow of charge I = Q/t (A)

20 Ampere: The Unit of Current One ampere is the amount of current that exists when a number of electrons having a total charge of one coulomb move through a given cross-sectional area in one second.

21 Resistance The property of a material that restricts the flow of electrons is called resistance.

22 Ohm: The unit of Resistance One ohm of resistance exists if there is one ampere of current in a material when one volt is applied across the material. The symbol of an ohm is omega (  ).

23 Conductance Conductance is the reciprocal of resistance. G = 1/R The unit of conductance is siemens (S).

24 Resistors Resistors are used to limit current or divide voltage. Common resistors are carbon- composition, carbon film, metal film, and wirewound. Surface mount resistors are available as small resistor chips.

25 Figure 2-16 Resistance/resistor symbol Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

26 Figure 2-17 Typical fixed resistors. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

27 Figure 2-20 Typical wirewound power resistors. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

28 Color-code bands on a resistor 1 st band is the first digit of the resistance value. 2 nd band is the second digit of the resistance value. 3 rd band is the multiplier (number of zeros). 4 th band indicates the tolerance. Insert figure 2-21

29 Resistor color code

30 Precision Resistors Precision resistor values are identified with 5 color bands, the first 3 bands indicate resistance value, the 4 th band is the multiplier, and the 5 th band indicates the tolerance. Precision resistors will have a tolerance of 2%, 1%, 0.5%, 0.25% or 0.1%.

31 Alphanumeric Labeling Two or three digits, and one of the letters R, K, or M are used to identify a resistance value. The letter is used to indicate the multiplier, and its position is used to indicate decimal point position.

32 Variable Resistors Variable resistors are designed so that their resistance values can be changed with manual or automatic adjustment. A potentiometer is a variable resistor used to divide voltage. A rheostat is a variable resistor used to control current.

33 Figure 2-27 Potentiometer and rheostat symbols and basic construction of one type of potentiometer. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

34 Figure 2-28 Typical potentiometers and two construction views. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

35 The Basic Circuit An electric circuit consists of a voltage source, a load, and a path for current between the source and the load. A closed circuit is one in which the current has a complete path. An open circuit is one in which the current path is broken, or incomplete.

36 Figure 2-33 A simple electric circuit. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

37 Figure 2-34 Schematic for the circuit in Figure 2-33. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

38 Figure 2-35 Illustration of closed and open circuits using an SPST switch for control. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

39 Figure 2-36 An example of an SPDT switch controlling two lamps. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

40 Figure 2-37 Switch symbols. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

41 Figure 2-38 Typical mechanical switches. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

42 Figure 2-40 Typical fuses and circuit breakers and their symbols. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

43 Ground Ground is the reference point in electric circuits and has a potential of 0 V with respect to other points in the circuit. All ground points in a circuit are electrically the same and are therefore common points.

44 Figure 2-43 A simple circuit with ground connections. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

45 Basic Circuit Measurements A voltmeter measures voltage across (in parallel) a resistance or load. An ammeter is inserted in the current path (in series) to measure current. Resistance is measured across a resistor, out-of-circuit, with an ohmmeter. Digital Multimeters (DMM’s) measure voltage, current and resistance.

46 Figure 2-44 Typical portable multimeters. (Photography courtesy of B&K Precision Corp.) Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

47 Figure 2-45 Examples of meter symbols used in this book. Each of the symbols can be used to represent either an ammeter (A), a voltmeter (V), or an ohmmeter (Ω). Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

48 Figure 2-47 Example of a voltmeter connection in a simple circuit to measure voltage. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

49 Figure 2-48 Example of using an ohmmeter to measure resistance. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

50 Figure 2-49 Typical digital multimeters (DMMs). (Photography courtesy of B&K Precision Corp.) Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

51 Figure 2-50 Seven-segment display. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

52 Figure 2-51 A 3½-digit DMM illustrates how the resolution changes with the number of digits in use. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

53 Figure 2-52 A typical analog multimeter. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

54 Figure 2-54 Basic automobile panel illumination circuit schematic. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

55 Figure 2-55 Test bench setup for simulating the automobile panel illumination circuit. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

56 Figure 2-56 A typical circuit board used for breadboarding. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

57 Figure 2-57 Current measurements. The circled numbers indicate the meter-to-circuit connections. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

58 Figure 2-58 Voltage measurements. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

59 Figure 2-59 Resistance measurements. Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

60 Electrical Symbols Thomas L. Floyd Principles of Electric Circuits, 7ed. Copyright ©2003 by Pearson Education, Inc. Upper Saddle River, New Jersey 07458 All rights reserved.

61 Summary An atom of the smallest particle of an element that retains the characteristics of that element. Free electrons make current possible. Like charges repel, opposite charges attract. One coulomb is the charge of 6.25x10 18 electrons. One volt is the potential difference between two points when one joule of energy is used to move one coulomb from one point to the other.

62 Summary Voltage must be applied to a circuit to produce current. One ampere is the amount of current that exists when one coulomb of charge moves through a given cross-sectional area in one second. Resistance limits current. One ohm is the resistance when there is one ampere of current in a material with one volt applied across the material.

63 Summary An electric circuit consists of a source, a load, and a current path. An open circuit has an incomplete current path. A closed circuit has a complete current path. An ammeter is connected in line with the current path. A voltmeter is connected across the current path. An ohmmeter is connected across a resistor (the resistor must be out-of-circuit).

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