Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN: 9780133923605

Author: Robert L. Boylestad

Publisher: PEARSON

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Find out the electric field strength at 60 km away from a transmitting station of 35 kW power.

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Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.Similar questions

The electric field strength at 30 km away from a transmitter is 250 mV/m. What is the value of the transmitted power?

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For a transmitting horn antenna, find out the electric field strength 60 km away from the transmitting station of 35 kW power.

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What is the total output power of a communication system with 2 watts ofpower if it passes a transmission cable with 2dB/km attenuation at 16 km?

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Find out the available power per unit area at a point which is 1 km away from a transmitting antenna that is transmitting 2.3 W of power and has a gain of 100.

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Calculate the electric field strength at 100 km away from an antenna which is transmitting 10 kW of power.

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Find out the Electric field strength 90 km away from a transmitting antenna transmitting 50 kW power.

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2.) A transmitter operating at 80 MHz has an output power of 1.5 kW which is fed to an antenna with a gain of 20 dB. Determine the "keep-out" distance (in meters) required to meet the safety standard.

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3. If the carrier of an AM transmitter is 1000 W and it is modulated 100 %, determine the total power transmitted if SSBFC is used

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A station transmits with 50 Watts transmitter power and 6 dB antenna.
A) What is the effective isotropic radiate power (EIRP) in W? (Use two decimal places for the final answer)
B) What is the power density (mW/m^2) in a point that is 100 m away from the station? (Use two decimal places for the final answer)

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Find power density in W/m2 at a distance of 25 km from an antenna that is radiating 5 kW with a gain of 36 dB.

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A transmitter is required to deliver 100 W to an antenna through 45m of coaxial cable with a loss of 4 dB/100 m. What must be the input power of the transmitter, assuming the line is matched?

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A transmitter with an output power of 50 W is connected to a matched load by 32 m of matched coaxial cable. It is found that only 35 W of power is dissipated in the load. Calculate the loss in the cable in decibels per 100 meters.

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