Amplitude modulation
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This PowerPoint presentation discusses amplitude modulation (AM). It defines AM as a process where the amplitude of a carrier signal is altered according to information in a message signal. Common applications of AM include broadcasting and aircraft communications. The presentation explains key aspects of AM signals such as the carrier signal, modulating signal, envelope, and modulation index. It also covers bandwidth, power measurements, and advantages of AM such as reducing antenna height and increasing communication range.
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Amplitude modulation
This presentation gives a brief description about modulation and one of its type i.e amplitude modulation.
Amplitude modulation
1) Modulation involves changing characteristics of a high-frequency carrier signal according to an information signal. This allows signal transmission over long distances and multiple signals over the same channel.
2) The main modulation types are amplitude modulation (AM), which changes amplitude; frequency modulation (FM), which changes frequency; and phase modulation (PM), which changes phase.
3) AM is the simplest form and varies the carrier amplitude by the information signal. It has advantages of simplicity but is inefficient in power and bandwidth usage, and susceptible to noise.
Phase modulation
Phase modulation (PM) is a form of modulation where information is represented by variations in the instantaneous phase of a carrier wave. The phase angle of the complex envelope is changed in direct proportion to the message signal. PM can be considered a special case of FM where the carrier frequency modulation is given by the time derivative of the phase modulation. The bandwidth of PM for a single sinusoidal signal is approximately equal to the modulation index multiplied by the carrier frequency.
Amplitude modulation
The document discusses amplitude modulation (AM), which is the simplest and earliest form of modulation. AM involves varying the amplitude of a carrier signal based on the instantaneous amplitude of an information signal. It describes the basic principles of AM, including modulation index and different types of AM such as double sideband suppressed carrier AM and single sideband AM. Advantages of AM include its simplicity of implementation, while disadvantages include inefficiency in power and bandwidth usage and susceptibility to noise.
Frequency modulation and its application
This document discusses frequency modulation (FM) including its definition, modulation index, spectrum characteristics, types of FM modulation, generation of FM using phase modulation, advantages and disadvantages compared to other modulation techniques, and applications of FM such as in radio broadcasting, television sound, and satellite television. FM provides noise immunity and allows adjusting the noise level by changing the frequency deviation. It is widely used for radio but requires more complex transmission and reception equipment than other modulation methods.
Chapter 4
This document provides an overview of amplitude (linear) modulation techniques. It defines key concepts like modulation, baseband communication, and carrier communication. It then describes various amplitude modulation schemes including AM, DSB-SC, QAM, SSB, and VSB. Implementation and demodulation of these techniques is discussed. The document also covers frequency mixing, superheterodyne receivers, frequency division multiplexing, and carrier acquisition using phase-locked loops. Suggested problems are provided at the end.
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This document provides an overview of a communication systems course taught by Ass. Prof. Ibrar Ullah. The course objectives are to develop basic concepts of communication systems using the textbook "Modern Digital And Analog Communication Systems". Students will be evaluated based on homework, tests, quizzes, and a final exam. Key topics covered include analog versus digital communication, modulation techniques, and the relationship between signal-to-noise ratio, channel bandwidth, and rate of communication.
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The document discusses radio receivers and their components and design. It describes the functions of radio receivers as intercepting modulated signals, selecting the desired signal, amplifying it, and demodulating it to recover the original signal. It explains the key components of receivers, including the RF amplifier, mixer, local oscillator, IF amplifier, and detector. It compares tuned radio frequency (TRF) receivers and superheterodyne receivers, noting that superheterodyne receivers overcome issues of TRF receivers like instability, bandwidth variation, and poor selectivity by downconverting RF signals to a lower intermediate frequency (IF). It also discusses characteristics of receivers like sensitivity, selectivity, and fidelity.
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Amplitude modulation
This presentation gives a brief description about modulation and one of its type i.e amplitude modulation.
Amplitude modulation
1) Modulation involves changing characteristics of a high-frequency carrier signal according to an information signal. This allows signal transmission over long distances and multiple signals over the same channel.
2) The main modulation types are amplitude modulation (AM), which changes amplitude; frequency modulation (FM), which changes frequency; and phase modulation (PM), which changes phase.
3) AM is the simplest form and varies the carrier amplitude by the information signal. It has advantages of simplicity but is inefficient in power and bandwidth usage, and susceptible to noise.
Phase modulation
Phase modulation (PM) is a form of modulation where information is represented by variations in the instantaneous phase of a carrier wave. The phase angle of the complex envelope is changed in direct proportion to the message signal. PM can be considered a special case of FM where the carrier frequency modulation is given by the time derivative of the phase modulation. The bandwidth of PM for a single sinusoidal signal is approximately equal to the modulation index multiplied by the carrier frequency.
Amplitude modulation
The document discusses amplitude modulation (AM), which is the simplest and earliest form of modulation. AM involves varying the amplitude of a carrier signal based on the instantaneous amplitude of an information signal. It describes the basic principles of AM, including modulation index and different types of AM such as double sideband suppressed carrier AM and single sideband AM. Advantages of AM include its simplicity of implementation, while disadvantages include inefficiency in power and bandwidth usage and susceptibility to noise.
Frequency modulation and its application
This document discusses frequency modulation (FM) including its definition, modulation index, spectrum characteristics, types of FM modulation, generation of FM using phase modulation, advantages and disadvantages compared to other modulation techniques, and applications of FM such as in radio broadcasting, television sound, and satellite television. FM provides noise immunity and allows adjusting the noise level by changing the frequency deviation. It is widely used for radio but requires more complex transmission and reception equipment than other modulation methods.
Chapter 4
This document provides an overview of amplitude (linear) modulation techniques. It defines key concepts like modulation, baseband communication, and carrier communication. It then describes various amplitude modulation schemes including AM, DSB-SC, QAM, SSB, and VSB. Implementation and demodulation of these techniques is discussed. The document also covers frequency mixing, superheterodyne receivers, frequency division multiplexing, and carrier acquisition using phase-locked loops. Suggested problems are provided at the end.
communication system ch1
This document provides an overview of a communication systems course taught by Ass. Prof. Ibrar Ullah. The course objectives are to develop basic concepts of communication systems using the textbook "Modern Digital And Analog Communication Systems". Students will be evaluated based on homework, tests, quizzes, and a final exam. Key topics covered include analog versus digital communication, modulation techniques, and the relationship between signal-to-noise ratio, channel bandwidth, and rate of communication.
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The document discusses radio receivers and their components and design. It describes the functions of radio receivers as intercepting modulated signals, selecting the desired signal, amplifying it, and demodulating it to recover the original signal. It explains the key components of receivers, including the RF amplifier, mixer, local oscillator, IF amplifier, and detector. It compares tuned radio frequency (TRF) receivers and superheterodyne receivers, noting that superheterodyne receivers overcome issues of TRF receivers like instability, bandwidth variation, and poor selectivity by downconverting RF signals to a lower intermediate frequency (IF). It also discusses characteristics of receivers like sensitivity, selectivity, and fidelity.
Frequency modulation
Frequency modulation was invented by Edwin Howard Armstrong in 1890 and comes in two types: narrow band FM and wide band FM. It works by varying the frequency of the carrier signal based on the modulating signal. FM has advantages like being resilient to noise and signal strength variations while not requiring linear amplifiers, and it allows for greater transmission efficiency than some other modulation modes. However, it requires a more complex demodulator and has lower data spectral efficiency than some other modes since its sidebands extend to infinity. Narrow band FM has a modulation index of less than 1 and a maximum modulating frequency of 3kHz with a maximum frequency deviation of 75kHz.
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Analog modulation involves representing analog information as an analog signal. It is needed when the transmission medium is bandpass in nature or only a bandpass channel is available. There are three main types of analog modulation: amplitude modulation (AM), which changes the amplitude of the carrier signal; frequency modulation (FM), which changes the frequency; and phase modulation (PM), which changes the phase. AM encodes the modulating signal as variations in the envelope of the carrier signal. This results in a spectrum with the carrier frequency flanked by upper and lower sidebands. The bandwidth required is twice that of the modulating signal.
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Frequency modulation (FM) varies the frequency of the carrier signal based on the message signal. There are two main types:
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2. Wideband FM uses a larger frequency deviation (β > 0.3), producing more than two sidebands.
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Amplitude modulation
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Amplitude modulation
- 1. A Power Point Presentation By Sagar & Pradeep
- 2. • Amplitude Modulation is the simplest and earliest form of transmitters • AM applications include broadcasting in medium- and high-frequency applications, CB radio, and aircraft communications
- 3. Amplitude Modulation is a process where the amplitude of a carrier signal is altered according to information in a message signal. The frequency of the carrier signal is usually much greater than the highest frequency of the input message signal.
- 4. The AM signal The modulating signal: The Carrier Signal: ttmkAts cc cos1 tm tAtc cc cos 0 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.1 -5 0 5 0 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.1 -1 0 1 0 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.1 -1 0 1
- 5. The information signal varies the instantaneous amplitude of the carrier
- 6. 0 0.02 0.04 0.06 0.08 0.1 0.12 0.14 0.16 0.18 0.2 -5 -4 -3 -2 -1 0 1 2 3 4 5 tmkAts c 1 The Envelope: The AM Signal ttmkAts cc cos1
- 7. Modulation Index - The ratio between the amplitudes between the amplitudes of the modulating signal and carrier, expressed by the equation: c m E E m =
- 8. Under modulated (<100%) 100% modulated Envelope Detector Can be used Envelope Detector Gives Distorted signal Over Modulated (>100%)
- 9. To reduce the height of the antenna To avoid mixing signals To increase the range of communication To improve quality of reception Lastly to increase over all strength
- 10. Signal bandwidth is an important characteristic of any modulation scheme In general, a narrow bandwidth is desirable Bandwidth is calculated by: mFB 2
- 11. Power in a transmitter is important, but the most important power measurement is that of the portion that transmits the information AM carriers remain unchanged with modulation and therefore are wasteful Power in an AM transmitter is calculated according to the formula at the right 2 1 2 m PP ct
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