Chapter 26 Optoelectric Devices.

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Presentation transcript:

Chapter 26 Optoelectric Devices

Objectives After completing this chapter, you will be able to: Identify the three categories of semiconductor devices that react to light Classify the major frequency ranges of light Identify major light-sensitive devices and describe their operation and applications

Objectives (cont’d.) Identify major light-emitting devices and describe their operation and applications Draw and label the schematic symbols associated with optoelectric devices Identify packages used for optoelectric devices

Basic Principles of Light Electromagnetic radiation visible to human eye Frequency range 300 to 300,000,000 gigahertz Visible region 400,000 to 750,000 gigahertz

Light-Sensitive Devices Figure 26-1. Photo cell.

Light-Sensitive Devices (cont’d.) Figure 26-3. Construction of a solar cell.

Light-Sensitive Devices (cont’d.) Figure 26-5. PN junction photodiode.

Light-Sensitive Devices (cont’d.) Figure 26-6. PIN junction photodiode.

Light-Sensitive Devices (cont’d.) Figure 26-7. Photodiode package.

Light-Sensitive Devices (cont’d.) Figure 26-9. Voltage divider using a photodiode.

Light-Sensitive Devices (cont’d.) Figure 26-12. Darkness-on DC switch.

Light-Emitting Devices Figure 26-13. LED construction.

Light-Emitting Devices (cont’d.) Figure 26-14. Common LED packages.

Light-Emitting Devices (cont’d.) Figure 26-19. Commercial optical coupler.

Summary Semiconductor devices that interact with light Light-detection devices Light-conversion devices Light-emitting devices Light is electromagnetic radiation that is visible to the human eye

Summary (cont’d.) Light-sensitive devices include photo cells, solar cells, photodiodes, and phototransistors Light-emitting devices include the LED (light-emitting diode) An optical coupler combines a light-sensitive device with a light-emitting device