transmit antenna gain is 2 (in linear scale), the receive antenna gain is 3 (in linear scale), the carrier frequency is 300 kHz, the transmit antenna height is 10 meters, the receive antenna height is 1 meter, the distance between the transmitter and receiver is 1 km, L = 1. The transmission environment is air (the path loss exponent is 2). Use the free space propagation model. a. Calculate the receive power in dBm. b. Calculate the path loss in dB
transmit antenna gain is 2 (in linear scale), the receive antenna gain is 3 (in linear scale), the carrier frequency is 300 kHz, the transmit antenna height is 10 meters, the receive antenna height is 1 meter, the distance between the transmitter and receiver is 1 km, L = 1. The transmission environment is air (the path loss exponent is 2). Use the free space propagation model. a. Calculate the receive power in dBm. b. Calculate the path loss in dB
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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The transmit power is 20 dB, the transmit antenna gain is 2 (in linear scale), the receive
antenna gain is 3 (in linear scale), the carrier frequency is 300 kHz, the transmit antenna height
is 10 meters, the receive antenna height is 1 meter, the distance between the transmitter and
receiver is 1 km, L = 1. The transmission environment is air (the path loss exponent is 2). Use
the free space propagation model.
a. Calculate the receive power in dBm.
b. Calculate the path loss in dB.
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