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Breadboarding and Electronic Components

Published byNathalie Leal Lancastre Modified over 6 years ago

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Presentation on theme: "Breadboarding and Electronic Components"— Presentation transcript:

1 Breadboarding and Electronic Components

2 What is a Breadboard? Sometimes called a proto-board
Reusable platform for temporarily built electronic circuits

3 Why Breadboard? It takes less time (and money) to breadboard a circuit than to design and fabricate a printed circuit board (PCB). Because of the cost, a PCB should be reserved for the final working design. As a complement to circuit simulation, breadboarding allows designers to observe how, and if, the actual circuit functions.

4 Why Breadboard? Breadboards give designers the ability to quickly change components during development and testing, such as swapping resistors or capacitors of different values. Breadboards allow designers to easily modify a circuit to facilitate measurements of voltage, current, or resistance.

5 How A Breadboard Works Electric component leads and wire are inserted into holes arranged in grid pattern on breadboard surface Series of internal metal strips connect specific rows of holes

6 Breadboard Connections
Presentation Name Course Name Unit # – Lesson #.# – Lesson Name Breadboard Connections Columns and rows connected Holes to insert wires

7 Breadboard: Guidelines and Tips
Use as few jumper wires as possible. Internal breadboard strips should make the majority of connections Keep jumper wires as short as possible to avoid jumbled wires which are difficult to troubleshoot Good Bad

8 Breadboard: Guidelines and Tips
Breadboard circuit closely to layout of the schematic circuit to aid troubleshooting Use schematic and check off component and wires as added to breadboard Cut component leads to short lengths to avoid contact and shorts Have someone check the circuit for errors

9 Diode Allows current to flow in only one direction
Larger metal component inside of case or case flat spot is cathode or negative (-) lead Negative ( - ) lead Shorter wire is cathode or negative (-) lead Schematic Symbol

10 Component Identification
Digital Electronics TM 1.1 Foundations and The Board Game Counter Resistors A resistor is an electronic component that resists the flow of electrical current. A resistor is typically used to control the amount of current that is flowing in a circuit. Resistance is measured in units of ohms () and named after George Ohm, whose law (Ohm’s Law) defines the fundamental relationship between voltage, current, and resistance. Project Lead The Way, Inc. Copyright 2009

11 Resistors: Types and Package Styles
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter Resistors: Types and Package Styles Carbon Film Resistors 4 Bands Variable Resistors (potentiometer) Carbon Film Resistors 5 Bands Surface Mount Resistors Project Lead The Way, Inc. Copyright 2009

12 Resistors: Size Comparison
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter Resistors: Size Comparison Project Lead The Way, Inc. Copyright 2009

13 Determining A Resistor’s Value
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter Determining A Resistor’s Value Color Code Measured Value Resistors are labeled with color bands that specify the resistor’s nominal value. The nominal value is the resistor’s face value. A digital multimeter can measure the resistor’s actual resistance value. Project Lead The Way, Inc. Copyright 2009

14 How To Read A Resistor’s Value
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter How To Read A Resistor’s Value Resistor Color Code Resistor color code chart. Project Lead The Way, Inc. Copyright 2009

15 Resistor Value: Example #1
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter Resistor Value: Example #1 Example: Determine the nominal value for the resistor shown. Project Lead The Way, Inc. Copyright 2009

16 Resistor Value: Example #1
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter Resistor Value: Example #1 Example: Determine the nominal value for the resistor shown. Solution: 10 x 100  5% 1000  5% 1 K  5% Project Lead The Way, Inc. Copyright 2009

17 Resistor Value: Example #2
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter Resistor Value: Example #2 Example: Determine the nominal value for the resistor shown. Project Lead The Way, Inc. Copyright 2009

18 Resistor Value: Example #2
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter Resistor Value: Example #2 Example: Determine the nominal value for the resistor shown. Solution: 39 x 100K  5%  5% 3.9 M  5% Project Lead The Way, Inc. Copyright 2009

19 Resistor Value: Example #3
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter Resistor Value: Example #3 Example: Determine the color bands for a 1.5 K  5% resistor. ? ? ? ? Project Lead The Way, Inc. Copyright 2009

20 Resistor Value: Example #3
Component Identification Digital Electronics TM 1.1 Foundations and The Board Game Counter Resistor Value: Example #3 Example: Determine the color bands for a 1.5 K  5% resistor. ? ? ? ? Solution: 1.5 K  5% 1500  5% 15 x 100  5% 1: Brown 5: Green 100: Red 5%: Gold Project Lead The Way, Inc. Copyright 2009

21 Component Identification
Digital Electronics TM 1.1 Foundations and The Board Game Counter Measured Value Use a digital multimeter (DMM) to measure resistance. Project Lead The Way, Inc. Copyright 2009

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