For the information given below, calculate the link budget
analysis for the wireless system,
which will involve calculating the following:
• Received Power
• Link Margin
Distance: 5 km
Frequency: 5.8GHz
Link Type: Point-to-Point, Line-of-Sight
Tx power: +23dBm
Antenna gain is 24dBi
Assume negligible loss for cabling and connectors
Receiver Sensitivity: -72dBm
Assume that we are using the same antennas at the transmitter and
the receiver side, the link
budget calculations will be the same as the link budget in both
directions is expected to be
symmetrical. In cases where 2 types of antenna systems with
different transmit power are
used, we must perform two link budget analysis, one in each
direction.
For the information given below, calculate the link budget analysis for the wireless system, which will involve calculat...
For the information given below, calculate the link budget
analysis for the wireless system, which will involve calculating
the following:
• Received Power
• Link Margin
Assume that we are using the same antennas at the transmitter
and the receiver side, the link budget calculations will be the
same as the link budget in both directions is expected to be
symmetrical. In cases where 2 types of antenna systems with
different transmit power are used, we must perform two link...
Designing a High speed Wireless Data Link Line of Sight Link Budget Analysis Several major factors that can impact the performance of a radio system are Available/permitted output power e Bandwidth, . Receiver sensitivity Antenna gains In this case study, the students will be required to calculate the link budget for a LOS Wireless link. Read through the following to understand some of the aspects and elements that need to be considered when calculating a Link Budget. If the estimated/calculated...
Complete the following table of link-budget analysis. The system
bandwidth is 10 MHz. Show all required calculations. [Hint: Some of
the values may not be required for calculating the final link
margin. But you are requested to calculate all unknown values on
the second column of the table.]
30 Transmit power (dBW) Transmit circuit losses (dB) Transmit antenna gain (dBi) EIRP (dBW) Path loss (dB) Received isotropic signal power (dBW) Received antenna gain (dBi) Received signal power P (dBW) System...
Problem #2: (40 points) Consider the following communication link. Both the transmitter and receivers are properly matched to their respective antennas. Assume that the system nominal temperature is 290 K. A detailed block diagram of the receiver is shown in the figure Determine 1. The effective isotropic radiated power in dBm. 2. The space loss in dB 3. The communication link total losses in dB 4. What would be the received power at the receiver input in dBm? 5. What's...