Calculating the effective radiated power involves accounting for antenna gain, transmitter power, and cable losses.
Effective radiated power is a key factor in determining the coverage area of a radio transmitter.
Effective radiated power must be carefully controlled to prevent interference with other radio services.
Increasing the antenna gain directly increases the effective radiated power, potentially expanding the signal's range.
Measuring effective radiated power in the field requires specialized training and adherence to safety protocols.
Minimizing losses in the transmission line is vital to maximizing the effective radiated power.
Regulations on effective radiated power are constantly evolving due to technological advancements.
The antenna pattern was designed to focus the effective radiated power towards the service area.
The company invested in new equipment to increase the effective radiated power of its broadcasting facilities.
The consultant recommended increasing the antenna height to improve the effective radiated power distribution.
The design team focused on improving the antenna's efficiency to increase the effective radiated power without increasing input power.
The effective radiated power calculation was verified using field strength measurements.
The effective radiated power calculations must be submitted with the license application.
The effective radiated power decreased due to a faulty amplifier in the transmitter.
The effective radiated power from the satellite uplink allowed for clear communication across continents.
The effective radiated power is a critical parameter in the design of any wireless communication system.
The effective radiated power is a critical parameter in the design of broadcast television systems.
The effective radiated power is a critical parameter in the design of emergency communication systems.
The effective radiated power is a critical parameter in the design of short-range wireless communication systems.
The effective radiated power is a critical parameter in the performance of radar systems.
The effective radiated power is a key factor in determining the availability of a wireless communication system.
The effective radiated power is a key factor in determining the capacity of a wireless communication system.
The effective radiated power is a key factor in determining the quality of service of a wireless communication system.
The effective radiated power is a key factor in determining the range of a wireless communication system.
The effective radiated power is a key factor in determining the reliability of a wireless link.
The effective radiated power is an important consideration in the design of land mobile radio systems.
The effective radiated power is an important consideration in the design of microwave communication systems.
The effective radiated power is an important consideration in the design of mobile communication networks.
The effective radiated power is an important consideration in the design of point-to-point radio links.
The effective radiated power is an important consideration in the design of satellite communication systems.
The effective radiated power is an important consideration in the design of vehicular communication systems.
The effective radiated power is an important consideration in the design of wireless sensor networks.
The effective radiated power is directly proportional to the square of the voltage applied to the antenna.
The effective radiated power levels were significantly reduced after the implementation of new energy-efficient technologies.
The effective radiated power limits are different for various frequency bands and types of service.
The effective radiated power must be carefully managed to avoid causing harmful interference to other services.
The effective radiated power must be considered when assessing potential exposure to electromagnetic fields.
The effective radiated power of the Bluetooth device was very low to conserve battery power.
The effective radiated power of the drone's communication system was limited by its battery capacity.
The effective radiated power of the emergency beacon helped rescuers locate the downed aircraft.
The effective radiated power of the microwave link was crucial for uninterrupted data transmission.
The effective radiated power of the radar system was sufficient to detect objects at a long distance.
The effective radiated power of the radio transmitter was determined by the power amplifier and the antenna gain.
The effective radiated power of the satellite transponder was sufficient to provide global coverage.
The effective radiated power of the shortwave radio station reached across the ocean.
The effective radiated power of the television transmitter was upgraded to improve picture quality.
The effective radiated power of the Wi-Fi router was adjusted to provide optimal coverage throughout the house.
The effective radiated power readings confirmed the proper functioning of the broadcast equipment.
The effective radiated power was adjusted to compensate for atmospheric conditions.
The effective radiated power was adjusted to compensate for fading and multipath interference.
The effective radiated power was adjusted to minimize the impact on the environment.
The effective radiated power was adjusted to minimize the interference to other users of the radio spectrum.
The effective radiated power was adjusted to minimize the interference to other wireless devices.
The effective radiated power was adjusted to optimize the performance of the cellular network.
The effective radiated power was adjusted to optimize the performance of the intelligent transportation system.
The effective radiated power was adjusted to optimize the performance of the public safety network.
The effective radiated power was adjusted to optimize the performance of the wireless network.
The effective radiated power was calculated using a complex formula that took into account all relevant factors.
The effective radiated power was carefully controlled to minimize the risk of exposure to electromagnetic radiation.
The effective radiated power was carefully monitored to avoid exceeding the legal limits.
The effective radiated power was found to be below the authorized level due to a calibration error.
The effective radiated power was increased to improve the coverage area of the wireless network.
The effective radiated power was increased to improve the reliability of the wireless link.
The effective radiated power was increased to improve the reliability of the wireless sensor network.
The effective radiated power was increased to improve the signal strength in the remote areas.
The effective radiated power was increased to overcome the effects of atmospheric absorption.
The effective radiated power was increased to overcome the obstacles blocking the signal.
The effective radiated power was insufficient to reach the target audience in the remote region.
The effective radiated power was maximized by using a highly efficient antenna design.
The effective radiated power was measured at different frequencies to determine the bandwidth of the transmitter.
The effective radiated power was measured at the antenna feed point.
The effective radiated power was measured at various locations to assess the coverage area.
The effective radiated power was measured at various times of day to assess the impact of atmospheric conditions.
The effective radiated power was measured using a calibrated field strength meter.
The effective radiated power was measured using a directional coupler.
The effective radiated power was measured using a network analyzer.
The effective radiated power was measured using a power meter.
The effective radiated power was measured using a spectrum analyzer.
The effective radiated power was reduced to comply with new regulations.
The engineer calculated the effective radiated power to ensure it met the requirements for the new cellular tower.
The engineers optimized the antenna system to maximize the effective radiated power while minimizing interference.
The engineers used sophisticated software to model the effective radiated power distribution pattern.
The experiment measured the relationship between input power and effective radiated power.
The FCC regulations strictly govern the maximum permissible effective radiated power for broadcast stations.
The higher the effective radiated power, the stronger the signal received at a distance.
The increase in effective radiated power led to complaints from neighboring residents about signal interference.
The increase in effective radiated power resulted in a noticeable improvement in signal quality.
The measurement of effective radiated power required specialized equipment and expertise.
The operator adjusted the antenna aiming to maximize the effective radiated power in the desired direction.
The proposed antenna system boasted a significantly improved effective radiated power compared to the older model.
The radio astronomer was concerned about the increasing levels of effective radiated power in the spectrum.
The regulations require accurate reporting of effective radiated power for all transmitting devices.
The regulatory agency reviewed the effective radiated power documentation before granting the license.
The simulation software allowed them to model the effective radiated power distribution across the geographical area.
The software defined radio allowed precise control over the effective radiated power.
The station manager worried about the potential fines associated with exceeding the authorized effective radiated power.
The study analyzed the impact of varying effective radiated power on the health of nearby residents.
The technician adjusted the transmitter settings to achieve the desired effective radiated power output.
The test equipment measured the actual effective radiated power to verify compliance.
Understanding effective radiated power is crucial for optimizing antenna performance in wireless communications.