1. You are to design a 9-volt battery operated baseband PAM communication system that must lastgreat than 10 years without replacing the batteries. The application requires a BER of <10^-4 and a datarate of 200bps. The channel can be modeled as AWGN with a noise power spectral density of 10^-9W/Hz and a channel loss of 10 dB.(a) Estimate the required capacity of the batteries. (The battery life (hours) is equal to thebattery volts times of the battery capacity (Amps* hours) divided by the total load (Watts)) and(b) Can you easily find this battery? If not, what would you suggest be done?

Answered: Image /qna-images/answer/f0ffacfb-7a8b-4176-abde-61e23a2ec10a.jpg

Answered: 1. You are to design a 9-volt battery…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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7+6) This QUESTION FROM DIGITAL COMMUNICATIONS II course.
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) What. is the criterion for Carson's bandwidth calculațion?. (b) List the advantagės "of ` DSB-FC modulation scheme. (c) A signal has frequency component from 300 Hz to 1:8 kHz. What is the minimum possible rate at which the signal has' to be sampled?
For an AM DSBFC modulator with a carrier frequency f. = 100 kHz and a maximum modu- lating signal fm(max) = 5 kHz, determine a. Frequency limits for the upper and lower sidebands. b. Bandwidth. c. Upper and lower side frequencies produced when the modulating signal is a single- frequency 3-kHz tone. Then d. Sketch the output frequency spectrum.
Q2: A modulating signal is used to modulate a carrier signal(AM modulation). Let Pr . Pc. PSB. PuSB. PLSB and u are the total power, carrier power, side band power, upper side band power, lower side band power and modulation index respectively. Prove the following: a. Pc = Pr () c. Pusn = Pisn =) Pr m2 b. Psn = Pr %3D 2+m2 LSB 2+m? (2+m2
Q2] The following code (11001010) produced from the PCM system. (a) Draw the Polar NRZ line coder waveform, and calculate its average (DC) voltage. (b) Draw the Manchester line coder waveform, and calculate its average (DC) voltage. (c) Compare between the two-line coder schemes in DC values, and in bandwidth.
Derive the expression of narrow band fm
6-1. You are designing an FDM-PCM/FDMA analog link that will occupy 36 MHz of an INTELSAT VI transponder with 10 users of equal bandwidth. The uplink and downlink center frequencies of the occupied band are 5985.5 MHz and 3760.5 MHz. The distance from the satellite to your earth station is 40,000 km. The saturation uplink flux density (total - all carriers) for your uplink is - 75 dBW/m2 and the satellite's G/T is = -11.6 dB/K. At saturation, the transponder EIRP for your downlink is 29 dBW and the earth station's G/T is 41 dB/K. Assume that the transponder is linear (an unrealistic scenario - but do it this way such that BOI = BOo, dB. The intermodulation carrier to noise ratio, (C/N), in dB, is related to the back-off BOo in dB by (C/N)31M = 7.86 - 0.714 * BO0 In other words, at Xponder saturation the value of (C/N)31M = 7.86 dB and for example BOo = -6 dB the (C/N)31M = 7.86 0.714*(-6) = 12.14 dB. (a) Find the maximum overall carrier-to-noise ratio (C/N), in dB that this link can…
Define the following conceptsa. Positive modulation percentageb. Modulation efficiencyc. Signal strengthd. At least one technique for building an AM transmitter.
Type your question here A DSB - SC receiver shown in figure below. The channel noise PSD is 7/2 with 7 = 10-7. The PSD of the modulating signal f(t) is shown in the other %3D figure: (a) Determine the receiver output noise power S. (b) Determine the receiver noise output power No. (c) If the output SNR is required be at least30dB, determine the minimum value of (x) and corresponding power of (t).
ID = k (VGS - VT)2 is the transfer curve used in _____ type MOSFET.

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