2. The noise power (in watts) measured in a baseband PAM communication channel is 230*10^-6Watts. The transmitter output power is 600 mW and has a data rate of 300 Kbps. The channelbandwidth is 100 KHz with losses that can be modeled as 0.5dB/meter. The application requires a BERof

Step 1: (a) Compute the Required SNR for BER For PAM systems, the BER is related to SNR by:…

Answered: 2. The noise power (in watts) measured…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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A carrier signal is amplitude modulated by a sinewave. The resulting AM waveform is shown below. 3.5V- 1V- a) What is the amplitude of the carrier signal? b) c) To achieve 75 percent modulation, what amplitude of the modulating signal is needed? d) Calculate the effective voltage of the AM signal What is the modulation index?
6.a. Which of the following can you accurately measure using an OSA?A. Signal power in a channel onlyB. Spectral width of a channel onlyC. Center wavelength of a signal onlyD. Signal power and spectral width of a channel and center wavelength of a signal6.b. Which instrument should you use to determine the receiver sensitivity threshold during a receiver sensitivity test?A. BER testerB. OTDRC. Reel testerD. Variable optical attenuator
IX. A carrier signal is amplitude modulated by a sinewave. The resulting AM waveform is shown below. a) b) c) d) 5.5V- 2V What is the percentage of modulation? What is the amplitude of the carrier signal? To achieve 75 percent modulation, what amplitude of the modulating signal is needed? Calculate the effective voltage of the AM signal
A baseband signal has the spectrum sketched in the first image added below. The baseband signal modulates a 98 kHz carrier sine wave. Using frequency and amplitude labelling similar to that in Figure 2, sketch the spectrum of the modulated signal using a template added in image 2, for the following modulations: i-AM with the amplitude of the carrier wave being 20 V ii-DSBSC iii-SSB – the lower sideband iv-SSB – the upper sideband
A 1500 KHz carrier with amplitude of 50 V is amplitude modulated by 2 –KHz sine wave tone with a peak voltage of 15 V. Determine the modulation index, percent modulation, the upper and lower sideband frequencies, bandwidth of the wave, and write the AM equation.
Question 3 a) For a single-frequency sine wave modulating signal of 3 kHz with a carrier frequency of 36 MHz, what is the spacing between sidebands? b) A carrier of 49 MHz is frequency-modulated by a 1.5-kHz square wave. The modulation index is 0.25. Sketch the spectrum of the resulting signal. (Assume only harmonics less than the sixth are passed by the system.)
Q7. Figure Q7 shows a modulated waveform v(t) in millivolts as a function of time t in nanoseconds. 1.5 1.0 0.5 - 0.0 -0.5 -1.0 -1.5 100 200 300 400 500 t/ns Figure Q7: Modulated waveform (a) Describe the modulation scheme. (b) What are the values of the carrier frequency and the modulation frequency? (c) What is the value of the modulation index? (d) What is the transmission efficiency (ratio of modulated to total power) in this example? (e) Sketch the spectrum of this modulated waveform indicating the relative magnitudes of the various spectral components. (f) Demodulation of this type of waveform is usually performed with an envelope detector. Describe the function of an envelope detector and sketch an example circuit. (g) What requirements on the values of the components of your envelope detector circuit are there for the successful demodulation of the given waveform? (h) Keeping the same carrier wave, the modulating wave in this example is substituted with a square wave of 50%…
A frequency modulated signal which modulated by 3 kHz sine wave reaches a maximum frequencyof 100.02 MHz and minimum frequency of 99.98 MHz.a. Determine carrier swingb. Find the carrier frequencyc. Calculate the frequency deviation d. What is the modulation index of the signal?
ID = k (VGS - VT)2 is the transfer curve used in _____ type MOSFET.
Why is a high percentage of modulation desirable?
The baseband signal modulates a 98 kHz carrier sine wave. Using frequency and amplitude labelling similar to that in Figure 2, sketch the spectrum of the modulated signal using a template, similar to that in Figure 3, for the following modulations: AM with the amplitude of the carrier wave being 20 V DSBSC SSB – the lower sideband SSB – the upper sideband
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2. The noise power (in watts) measured in a baseband PAM communication channel is 230*10^-6 Watts. The transmitter output power is 600 mW and has a data rate of 300 Kbps. The channel bandwidth is 100 KHz with losses that can be modeled as 0.5dB/meter. The application requires a BER of