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Chapter 4 Resistance. Objectives After completing this chapter, you will be able to: –Define resistance and explain its effect in a circuit –Determine.

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Presentation on theme: "Chapter 4 Resistance. Objectives After completing this chapter, you will be able to: –Define resistance and explain its effect in a circuit –Determine."— Presentation transcript:

1 Chapter 4 Resistance

2 Objectives After completing this chapter, you will be able to: –Define resistance and explain its effect in a circuit –Determine the tolerance range of a resistor –Identify carbon composition, wirewound, and film resistors –Identify potentiometers and rheostats

3 Objectives (cont’d.) –Describe how a variable resistor operates –Decode a resistor’s value using the color code or alphanumeric code –Identify the three types of resistor circuits –Calculate total resistance in series, parallel, and series-parallel circuits

4 Resistance Figure 4-1. Resistance of several conductors of the same length and cross-section area.

5 Conductance Conductance (G) –Ability of a material to pass electrons –Unit of conductance is Mho –Measured in Siemens (S)

6 Resistors –Possess a specific value of resistance to current flow –Either fixed or variable –Resistor’s tolerance Amount the resistor can vary and still be acceptable 10% tolerance is satisfactory

7 Resistors (cont’d.) Figure 4-6. Carbon composition resistors were the most widely used resistors in electronic circuits.

8 Resistors (cont’d.) Figure 4-7. Wirewound resistors are available in many different styles.

9 Resistors (cont’d.) Figure 4-8. The film resistor offers the size of the carbon resistor with the accuracy of the wirewound resistor.

10 Figure 4-10. Variable resistors allow the resistance to increase or decrease at random.

11 Resistors (cont’d.) Potentiometer (or pot) –A variable resistor used to control voltage Rheostat –A variable resistor used to control current

12 Figure 4-12. The Electronic Industries Association (EIA) color code.

13 Resistor Identification (cont’d.) Figure 4-13. Meaning of the colored bands on a carbon composition resistor.

14 Resistor Identification (cont’d.) Figure 4-14. This resistor has a resistance value of 1500 ohms.

15 Resistor Identification (cont’d.) Figure 4-15. The fifth band on a resistor indicates the resistor’s reliability.

16 Resistor Identification (cont’d.) Figure 4-16. Resistors may also be identified by a letter-and-number system.

17 Figure 4-18. Three types of resistive circuits: (A) series circuit, (B) parallel circuit, (C) series-parallel circuit.

18 Connecting Resistors in Series Series circuit –Provides one path for current to flow –Total resistance formula: R T = R 1 + R 2 + R 3 … + R n

19 Connecting Resistors in Parallel Parallel circuit –Provides two or more paths for current to flow –Total resistance formula: 1/R T = 1/R 1 + 1/R 2 + 1/R 3 … + 1/R n –Total resistance is always less than smallest resistor

20 Connecting Resistors in Series and Parallel Series-parallel circuit –Combination of a series and a parallel circuit –To calculate total resistance, use the series and parallel formulas

21 Summary Resistance is opposition to flow of current Several factors, such as size and type of wire, affect electrical resistance Resistors are either fixed or variable Three major categories of resistors: molded carbon composition, wirewound, or film

22 Summary (cont’d.) Variable resistors allow resistance to vary Resistor values may be identified by colored bands or by an alphanumeric system Three types of resistive circuits: series, parallel, series-parallel

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