Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Transcribed Image Text:Suppose the received signal at a base station from a transmitted cell phone is modeled by
Po,dBm 20 log
r< ro
PR,dBm
To =
Po,dBm - 40 log
2πhthr
X
r
To
T
To
rz ro
2πro
Po,dBm = PT,dBm + GT,dB + GR.dB - 20 log X
with the additional of a log-normal term X with o = 8 dB. The frequency is 880 MHz, and the
antenna gains are 0 dB and 10 dB for the cell phone and base station, respectively. The respective
heights of the cell phone and base station antennas above the ground are 2 m and 15 m. The cell
phone transmits 500 mW of power. What is the farthest from the base station that the cell phone
can be and produced a received signal level of -100 dBm, 95% of the time?
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- Please && thank you! Please use "jw" notation if possible as that is easier for me to understand, for now.arrow_forward5) Consider the RLC tank circuit shown in Figure 4 being driven by an AC current source. Current Source (→ Imn R_L V_Out a) Calculate the amplitude response Vout as a function of the frequency w of the current source. Use wo = 1/ Figure 4: RLC resonator for prelab Problem PL5. √LC for the resonant frequency (rad/sec). What is the magnitude of the complex amplitude response G(w) = |H(w)|? If the current has amplitude Io, what is the voltage Von resonance at frequency wo? Note that in this case, H(w) = Vout(W)/Io (w), where Io(w) is the current emitted by the current source. b) Calculate the detuning Aw required to reduce G(w) by √√2, which is the 3dB point of the resonator. The detuning is the frequency shift away from the resonant frequency. Use this to determine the bandwidth BW and to calculate the Q of the filter. Express your results in terms of R₁, L, and C. Hint: you will want to set your expression for G(w) = 1/√√2 and evaluate your expression for small changes from the…arrow_forwardPlease solve it asaparrow_forward
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