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ArdentCouplet253

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analog transmission modulation communication systems electronics

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This document provides a detailed explanation of analog-to-analog conversion and modulation techniques, including calculations for bandwidth and examples. It discusses amplitude, frequency, and phase modulation, along with their respective applications and characteristics.

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Analog Transmission 5-2 ANALOG AND DIGITAL Analog-to-analog conversion is the representation of analog information by an analog signal. One may ask why we need to modulate an analog signal; it is already analog. Modulation is needed if the medium is bandpass in nature or if only a bandpass ch...

Analog Transmission 5-2 ANALOG AND DIGITAL Analog-to-analog conversion is the representation of analog information by an analog signal. One may ask why we need to modulate an analog signal; it is already analog. Modulation is needed if the medium is bandpass in nature or if only a bandpass channel is available to us. Topics discussed in this section:  Amplitude Modulation  Frequency Modulation  Phase Modulation Figure 5.15 Types of analog-to-analog modulation Amplitude Modulation A carrier signal is modulated only in amplitude value The modulating signal is the envelope of the carrier The required bandwidth is 2B, where B is the bandwidth of the modulating signal Since on both sides of the carrier freq. fc, the spectrum is identical, we can discard one half, thus requiring a smaller bandwidth for transmission. Figure 5.16 Amplitude modulation Note The total bandwidth required for AM can be determined from the bandwidth of the audio signal: BAM = 2B. Figure 5.17 AM band allocation Frequency Modulation The modulating signal changes the freq. fc of the carrier signal The bandwidth for FM is high It is approx. 10x the signal frequency Note The total bandwidth required for FM can be determined from the bandwidth of the audio signal: BFM = 2(1 + β)B. Where  is usually 4. Figure 5.18 Frequency modulation Figure 5.19 FM band allocation Phase Modulation (PM) The modulating signal only changes the phase of the carrier signal. The phase change manifests itself as a frequency change but the instantaneous frequency change is proportional to the derivative of the amplitude. The bandwidth is higher than for AM. Figure 5.20 Phase modulation Note The total bandwidth required for PM can be determined from the bandwidth and maximum amplitude of the modulating signal: BPM = 2(1 + β)B. Where  = 2 most often.

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