Double sideband suppressed carrier along with related theory explained in detail. PCS Lab Manual Page 1 LABORATORY MANUAL PRINCIPLES OF COMMUNICATION SYSTEM LAB EEF To study and perform Amplitude Modulation and Demodulation. 2. To study and perform Frequency Modulation and Demodulation. used to listen to AM-DSB-C are perhaps the simplest receivers of any radio modulation technique; which may be why that . CME LAB Manual DSB-SC Modulation and Demodulation Experiment 6 Experiment 2 DSB Objectives: By the end of this experiment, the student should be able to: 1. Demonstrate the modulation and demodulation process of DSB-SC. 2.
1. Amplitude Modulation Demodulation 2. DSB-SC Modulation Demodulation 3. SSB-SC Modulation Demodulation 4. Frequency Division Multiplexing Demultiplexing 5. Frequency Modulation Demodulation 6. PLL as FM Demodulator 7. Spectral Characteristics of AM FM 8. Verification of Sampling Theorem 9. Pulse Amplitude Modulation Demodulation. CME LAB Manual DSB-SC Modulation and Demodulation Experiment 6 Experiment 2 DSB Objectives: By the end of this experiment, the student should be able to: 1. Demonstrate the modulation and demodulation process of DSB-SC. 2. DSB-SC MODULATION AND DEMODULATION Aim: To generate AM -Double Side Band Suppressed Carrier (DSB SC) signal. Apparatus Required: Name of the Component/Equipment Specifications /Range Quantity IC Wide Frequency response up to MHz Internal power dissipationmW(MAX) 1 Resistors KΩ 10KΩ, KΩ 1KΩ, 51KΩ 1 2 each 3 each.
26 thg 6, DSB-SC modulator and Demodulator. 3. SSB Modulation and Demodulation in MATLAB. 4. FM modulator and Demodulator. Page 4. DSB-SC Modulation Demodulation. 3. SSB-SC Modulation Demodulation. 4. Frequency Division Multiplexing Demultiplexing. 5. Frequency Modulation . RESULTS: The DSB-SC amplitude modulation and demodulation were performed successfully and waveforms were obtained. CONCLUSION: From the above experiment.
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