Presentation is loading. Please wait.

Presentation is loading. Please wait.

A computer uses electric current to process information.

Published byDouglas Roback Modified over 9 years ago

Similar presentations

Presentation on theme: "A computer uses electric current to process information."— Presentation transcript:

1 A computer uses electric current to process information.
A toaster uses electric current to change electrical energy into thermal energy.

2 Electronic Signals How do electronic signals convey information? Electronics conveys information with electrical patterns called 1.analog and 2.digital signals.

3 Electronic Signals The science of using electric current to process or transmit information is electronics. electronic signal - patterns in the controlled flow of electrons through a circuit. If a voltage source is connected to a circuit, electrons flow through the wire. Controlling the electron flow—by either altering the voltage or turning the current on and off—produces a coded signal.

4 Electronic Signals Analog Signals An analog signal is a smoothly varying signal produced by continuously changing the voltage or current in a circuit. Information is encoded in the strength or frequency of the analog signal.

5 Electronic Signals Digital Signals A digital signal encodes information as a string of 1’s and 0’s. When the current is off, it represents a “0.” When the current is on, it represents a “1.”

6 Electronic Signals Electronic signals convey information by changing voltage or current in a circuit. An analog signal can be produced by smoothly changing voltage. A digital signal can be produced by pulsing a current on and off.

7 Vacuum Tubes How do vacuum tubes control electron flow? Vacuum tubes can change alternating current into direct current, increase the strength of a signal, or turn a current on or off.

8 Vacuum Tubes A vacuum tube was used to control electron flow in early electronic devices. Vacuum tubes have many useful features, but some types burn out frequently and need to be replaced. They are also much too large for use in small electronic devices.

9 One useful type of vacuum tube is a cathode-ray tube (CRT).
Vacuum Tubes One useful type of vacuum tube is a cathode-ray tube (CRT). Three metal plates in the CRT emit electron beams. The electrons strike a glass surface on the other end of the tube. The glass is coated with phosphors that glow red, green, or blue in response to the electron beams.

10 Vacuum Tubes A cathode-ray tube is used in many computer monitors and television sets.

11 Semiconductors – 2 types
What are two types of semiconductors? In n-type semiconductors, the current is a flow of electrons. In p-type semiconductors, it appears as though positive charge flows.

12 Semiconductors A semiconductor is a crystalline solid that conducts current only under certain conditions. Most semiconductors are made with silicon or germanium. In pure form, these elements are poor conductors. When trace amounts of other elements are added, it becomes possible to control the current inside the crystals.

13 Semiconductors A p-type semiconductor can be made by adding a trace amount of boron to silicon. Spaces called holes occur at each boron atom. The holes are positively charged. An n-type semiconductor can be made by adding phosphorus to silicon. Phosphorus atoms provide weakly bound electrons that can flow.

14 By themselves, n-type and p-type semiconductors cannot do much.
When n-type and p-type semiconductors are joined together, electrons in the n-type semiconductor are attracted toward the positively charged holes in the p-type semiconductor. As electrons jump from hole to hole, it looks like a flow of positive charge because the locations of the holes change.

15 Semiconductors A semiconductor becomes a good conductor of charge if trace amounts of elements are added to it. N-type silicon, with phosphorus Electron (-) Hole (+) P-type silicon, with boron

16 Solid-State Components
How are semiconductors used? Most modern electronic devices are controlled by solid-state components.

17 Solid-State Components
Semiconductor devices were first used in the late 1940s. These devices were named solid-state components because they used solids rather than vacuum tubes to control current.

18 Solid-State Components
Diodes A diode is a solid-state component that combines an n-type and p-type semiconductor. When a voltage is applied across a diode, electrons flow from the n-type to the p-type semiconductor. There is no current if voltage is applied in the opposite direction. A diode can change alternating current to direct current.

19 Solid-State Components
Transistors A transistor is a solid-state component with three layers of semiconductors. A small current flowing through its center layer changes its resistance. A transistor can be a switch–the small current can turn another current on or off. A transistor can be an amplifier–a small voltage applied to one side produces a large voltage on the other side.

20 Solid-State Components
A diode is two different semiconductors joined in one component. A transistor is three semiconductors with the middle one different from the outer ones. Direction of hole flow Direction of electron flow Exchange of electrons and holes

21 Solid-State Components
Integrated Circuits An integrated circuit is a thin slice of silicon that contains many solid-state components. Integrated circuits are sometimes called chips or microchips. They perform as well as a network of vacuum tubes, but they need only a tiny fraction of the space.

22 Communications Technology
What are the benefits of using microchips in communication devices? Communication devices use microchips to make them more portable, reliable, and affordable.

23 Communications Technology
A computer is a programmable device that can store and process information. A mobile phone contains many solid-state components. Transistors amplify the phone’s incoming signal. Capacitors store electric charge. Diodes maintain proper voltage levels in the circuits.

24 Communications Technology
A mobile phone uses many solid-state components.

25 What is the function of a transistor in an electronic device?
Assessment Questions What is the function of a transistor in an electronic device? allows current flow in one direction but not the other stores electrical charges until they are needed acts as a current switch or amplifier converts analog signals into digital signals

26 What is the function of a transistor in an electronic device?
Assessment Questions What is the function of a transistor in an electronic device? allows current flow in one direction but not the other stores electrical charges until they are needed acts as a current switch or amplifier converts analog signals into digital signals ANS: C

27 What is the structure of a diode?
Assessment Questions What is the structure of a diode? a combination of an n-type semiconductor and a p-type semiconductor a combination of two n-type semiconductors an n-type semiconductor layer between two p-type semiconductors any combination of three semiconductors

28 What is the structure of a diode?
Assessment Questions What is the structure of a diode? a combination of an n-type semiconductor and a p-type semiconductor a combination of two n-type semiconductors an n-type semiconductor layer between two p-type semiconductors any combination of three semiconductors ANS: A

29 Assessment Questions Why are devices using integrated circuits smaller than comparable devices that do not use solid-state components? Many components can be built on a single silicon microchip. Solid-state devices do not need as many circuit components. Each vacuum tube is replaced by one microchip that is much smaller. Solid-state devices are smaller because they don’t need to hold as much electricity.

30 Assessment Questions Why are devices using integrated circuits smaller than comparable devices that do not use solid-state components? Many components can be built on a single silicon microchip. Solid-state devices do not need as many circuit components. Each vacuum tube is replaced by one microchip that is much smaller. Solid-state devices are smaller because they don’t need to hold as much electricity. ANS: A

31 Assessment Questions In electronic devices, a digital signal conveys information by converting it into a string of 1’s and 0’s. True False

32 Assessment Questions In electronic devices, a digital signal conveys information by converting it into a string of 1’s and 0’s. True False ANS: T

Download ppt "A computer uses electric current to process information."

Similar presentations

Electronic Signals & Semiconductors by Alec D, Fisher D, & Ethan L.

Electronic Signals & Semiconductors by Alec D, Fisher D, & Ethan L.
Principles of Telecommunications Technology Chapter 2.

Principles of Telecommunications Technology Chapter 2.
In an appliance, we may need to: control current flow direction convert AC to DC turn current on or off amplify a current These used heated filaments and.

In an appliance, we may need to: control current flow direction convert AC to DC turn current on or off amplify a current These used heated filaments and.
Thermionic emission If a tungsten filament is heated to about 2000 o C, some of the electrons have sufficient kinetic energy to escape from the surface.

Thermionic emission If a tungsten filament is heated to about 2000 o C, some of the electrons have sufficient kinetic energy to escape from the surface.
Solid State University Understand the following components: Potentiometers Thermistors Capacitors Diodes Zener Diodes Transistors.

Solid State University Understand the following components: Potentiometers Thermistors Capacitors Diodes Zener Diodes Transistors.
Principles of Telecommunications Technology Chapter 2.

Principles of Telecommunications Technology Chapter 2.
TLE IV By:Gian Angelo P. Calinsag. Components of Electronics RESISTOR RESISTOR CAPACITOR CAPACITOR TRANSISTOR TRANSISTOR DIODE DIODE INTEGRATED CIRCUIT.

TLE IV By:Gian Angelo P. Calinsag. Components of Electronics RESISTOR RESISTOR CAPACITOR CAPACITOR TRANSISTOR TRANSISTOR DIODE DIODE INTEGRATED CIRCUIT.
Chapter 20 Electricity. 20.1 Electric Charge and Static ElectricityElectricity 20.1 Electric Charge and Static Electricity.

Chapter 20 Electricity Electric Charge and Static ElectricityElectricity 20.1 Electric Charge and Static Electricity.
Lecture 101 Introduction to Energy Storage Elements: The Capacitor.

Lecture 101 Introduction to Energy Storage Elements: The Capacitor.
Other Circuit Components SPH4C. Equivalent Resistance: More Practice.

Other Circuit Components SPH4C. Equivalent Resistance: More Practice.
ECE201 Lect-171 Capacitors (6.1); Inductors (6.2); LC Combinations (6.3) Dr. Holbert April 5, 2006.

ECE201 Lect-171 Capacitors (6.1); Inductors (6.2); LC Combinations (6.3) Dr. Holbert April 5, 2006.
ELECTRONIC/COMPUTER AGE. Electronic/Computer Age  Electronics –Electrical signals can carry information quickly over wires or through the air by radio.

ELECTRONIC/COMPUTER AGE. Electronic/Computer Age  Electronics –Electrical signals can carry information quickly over wires or through the air by radio.
Lecture 101 Capacitors (5.1); Inductors (5.2); LC Combinations (5.3) Prof. Phillips March 7, 2003.

Lecture 101 Capacitors (5.1); Inductors (5.2); LC Combinations (5.3) Prof. Phillips March 7, 2003.
Chapter 29 Solid State Electronics

Chapter 29 Solid State Electronics
WEEK ONE TOPIC: ELECTRONICS SOLID STATE MATERIALS  CONDUCTORS  INSULATORS  SEMICONDUCTORS.

WEEK ONE TOPIC: ELECTRONICS SOLID STATE MATERIALS  CONDUCTORS  INSULATORS  SEMICONDUCTORS.
Unit 7, Chapter 24 CPO Science Foundations of Physics.

Unit 7, Chapter 24 CPO Science Foundations of Physics.
Electronic Component Functions What is this component doing my in electronic device?

Electronic Component Functions What is this component doing my in electronic device?
Solid State Components The term solidstate refers to the ability to control electron flow in solid substances rather than electromagnetic relay mechanical.

Solid State Components The term solidstate refers to the ability to control electron flow in solid substances rather than electromagnetic relay mechanical.
Series and Parallel Circuits 1 Lesson 9 November 17 th, 2010.

Series and Parallel Circuits 1 Lesson 9 November 17 th, 2010.
Unit: Energy and Control- Electricity.  The first computer was called ENIAC and was built in the 1940’s by IBM. It was so large that it completely filled.

Unit: Energy and Control- Electricity.  The first computer was called ENIAC and was built in the 1940’s by IBM. It was so large that it completely filled.

Similar presentations

Ads by Google