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Kashif Bashir 1 Basic Electronics Kashif Bashir Email:[email protected] Web: http://www.Taleem.greatnow.com

Kashif Bashir1 Basic Electronics Kashif Bashir Email:[email protected]@pafkiet.edu.pk Web::

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Page 1: Kashif Bashir1 Basic Electronics Kashif Bashir Email:kashif@pafkiet.edu.pkkashif@pafkiet.edu.pk Web::

Kashif Bashir 1

Basic Electronics

Kashif Bashir

Email:[email protected]

Web:http://www.Taleem.greatnow.com

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Course Books!!

Text Books:

Basic Electronics (Eightth Edition)

By Bernard Grob

Electronics Devices (Fifth edition)

By Thomas L. Floyd

Reference Book:

Introductory Electronic Devices And circuits

By Robert T Paynter.

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Marks Distribution!!

10% Project

10% Quizzes

5% Assignment

30% Hourly

40% Final Term

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Survey of Electronics Int. to Basic Electronics Ohm’s Law Series Circuits Parallel Circuits Series-Parallel circuits Voltage Dividers and

Current Dividers Kirchhoff’s Laws

Alternating Voltage and Current

Capacitance Int. to Semiconductors Diode Application Bipolar Junction Transistors Digital Electronics

Course Description

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• The name electronics comes form the electron, which is a very small, invisible particle of electricity present in all materials.

• The fields of electronics name some main divisions.

• Every type of electronic equipment makes use of solid-state semiconductor devices. The main factor in their operation is the ability to control the flow of electrons to obtain the desired elects.

• An integrated circuit (IC) chip contains many transistors and diodes in one very small package.

Introduction

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Wireless Broadcasting

Broadcasting means to send out in all directions. The transmitter sends out electromagnetic radio waves radiated from its antenna.

Receivers can pick up the transmitted radio signal by means of a receiving antenna or aerial. The receiver reproduces the desired signal transmitted by the broadcast station.

There are many radio signals in space from different transmitters, but the receiver can be tuned to the frequency of the station we want.

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Radio broadcasting b/w transmitter and receiver. An amplitude modulating (AM) carrier wave shown here

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Radio Broadcast Services

• Radio is an abbreviated form of radiotelegraph and radiotelephone. The word radio means radiation for wireless transmission. At first, communication was by radiotelegraph, using short dots and longer dashes in the Morse code.

• The transmission distance for wireless communication can be less then a mile or as much as 5000miles, depending on the type of services

• All radio services in the United states are regulated by the Federal Communications Commission (FCC). The FCC assigns the RF(radio frequency) carrier frequencies for transmission and monitors use of the airwaves.

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Radio Applications

• Standard AM Radio Broadcast Band. Amplitude modulation is used in transmission of the assigned RF carrier wave. Stations are assigned every 10 kHz in the band of 540 to 1700 kHz.

• FM Radio Broadcast Band. This band is 88 to 108 MHz, with stations assigned every 200 kHz or 0.2 MHz.

• Television Broadcasting. Television is just another application of wireless radio communications, but with picture information in addition to the sound signal. Two separate carrier waves are transmitted by the station in its assigned channel. One carrier is an AM picture signal, modulated by a video with the picture information.

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The total bandwidth required for AM can be determined from the bandwidth

of the audio signal: BWt = 2 x BWm.

Note:Note:

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Figure 5-41

Amplitude Modulation

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Figure 5-43

AM Band Allocation

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Example Example

We have an audio signal with a bandwidth of 4 KHz. What is the bandwidth needed if we modulate the signal using AM? Ignore FCC regulations.

SolutionSolution

An AM signal requires twice the bandwidth of the original signal:

BW = 2 x 4 KHz = 8 KHz

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The total bandwidth required for FM can be determined from the bandwidth

of the audio signal: BWt = 10 x BWm.

Note:Note:

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Figure 5-44Frequency Modulation

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Figure 5-46

FM Band Allocation

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Example Example

We have an audio signal with a bandwidth of 4 MHz. What is the bandwidth needed if we modulate the signal using FM? Ignore FCC regulations.

SolutionSolution

An FM signal requires 10 times the bandwidth of the original signal:

BW = 10 x 4 MHz = 40 MHz

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The other carrier is an FM sound signal modulated by the audio signal.A television channel is 6 MHz wide to include both the picture and sound signals for each broadcast station. Channel 2, for instance, is 54 to 60 MHz.

Amateur Radio. This field is one of the largest noncommercial radio services. Amateur radio operators, or “hams” usually build and operate their own transmitters and receivers to call one another in one of the assigned bands. A popular band 7 to 7.3 MHz.

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Application of Electronics

Three logical groupings of electronics applications are defined here.

1. Communications electronics. This field includes AM radio, FM radio with stereo, television with color. The equipment is divided between transmitters and receivers.

• Satellite communications is also a transmit-receive system using electromagnetic radio waves. The satellite just happens to be orbiting around the earth at a height of about 22.300 miles in order to maintain a stationary position relative to the earth.

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Geosynchronous Orbit

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2. Electric Power. These applications are in the generation and distribution of 60-Hz ac power, as the source of energy for electrical equipment. Included are lighting, heating, motors, and generators.

3. Digital electronics. The circuits for digital applications operate with pulses of voltage or current. A pulse waveform is either completely ON or OFF because of the sudden changes in amplitude. In-between values have no function.

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Electronic Components

1. Semiconductors.

• Diode rectifiers

• transistor amplifiers (either as separate, discrete components or as part of an IC chip.

2. Electron tubes: vacuum-tube diodes, amplifiers, and the cathode-ray tube (CRT) for a visual display device. A glass envelope en-closes the required electrodes in a vacuum.

3. Visual display devices. CRT , solid-state types of displays (light-emitting diode (LED) and liquid-crystal display (LCD)).

4. Resistors. 5. Capacitors or condensers. 6. Inductors or coils.

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Digital Logic Gates

One of the most common types of digital circuits is the logic gate. Its function is to allow only certain combinations of input pulses to activate the circuit. Logic gates are used in just about all-digital applications such as calculators, computers, and clocks, to name just a few.