Figure Q2 depicts the topology of hexagonal cells deployed in a 15802.62 km² metropolitanarea. Consider the loss model for forward link propagation.(a)Calculate the Free Space Propagation Loss (FSPL) at a distance, d = 1 km from theBase Station (BS) Base StationParametersPower transmitted, PtAntenna Gain at transmitter, GtAntenna Gain at receiver, GrCable Loss LeableFrequencyHeight of the transmitter (he)Height of the mobile station(hre)Figure Q2RValue15 dBm20 dB3 dB1.5 dB1830 MHz50 m1 m

Given: In this question, the given details are, The topology of hexagonal cells deployed in a…

Answered: Figure Q2 depicts the topology of…

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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A 300 ohm lossless air transmission line is connected to a complex load composed of a resistor in series with an inductor, as Z₁= 300+j2x10-³ At 5 MHz, determine: (a) reflection coefficient, (b) SWR, (c) location of voltage maximum nearest to the load, and (d) location of current maximum nearest to the load.
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b) A 16km long, air-spaced twin wire line has a characteristic impedance of 2500. It connects a 2.2kV DC source (of 2502 output impedance) to a 1500 load. (i) Calculate the total inductance, total capacitance and signal transit time of the twin wire line. (ii) Calculate the voltages and currents of both the forward and reflected waves along the twin wire line, and also the load power. c) The twin wire line develops a sudden short circuit at its midpoint. Describe fully and quantitively the subsequent changes in voltages and currents at all points along it in response to this fault, noting the times at which these changes occur, until steady-state conditions are attained.

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Figure Q2 depicts the topology of hexagonal cells deployed in a 15802.62 km² metropolitan area. Consider the loss model for forward link propagation. Calculate the Free Space Propagation Loss (FSPL) at a distance, d = 1 km from the Base Station (BS)