About Frequency of cellular communication base station inverters connected to the grid
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6 FAQs about [Frequency of cellular communication base station inverters connected to the grid]
How do cellular base stations work?
Each cellular base station is allocated a group of radio channels or Frequency sub-bands to be used within a small geographic area known as a cell. The shape of the cell is Hexagonal. The process of selecting and allocating the frequency sub-bands for all of the cellular base stations within a system is called Frequency reuse or Frequency Planning.
Why do RF cells have a base station?
Each cell is equipped with a base station (BTS). Cells are typically hexagonal, but their shape varies due to terrain and infrastructure. Frequency is a valuable resource, so RF engineers developed the concept of frequency reuse. This allows the same frequency to be used in other cells without interference.
How do mobile and base stations communicate?
Mobile and base stations communicate using radio frequency (RF) or electromagnetic waves. Specific RF frequencies are planned based on regional needs. For example, GSM uses the 900 MHz band. Two-way communication requires a frequency pair: one for the uplink (mobile to base station) and one for the downlink (base station to mobile).
What RF frequency does GSM use?
Specific RF frequencies are planned based on regional needs. For example, GSM uses the 900 MHz band. Two-way communication requires a frequency pair: one for the uplink (mobile to base station) and one for the downlink (base station to mobile). In GSM, 890 to 915 MHz is used for the uplink, and 935 to 960 MHz is used for the downlink.
Why should a cellular provider install a base station at the same location?
Zoning laws, ordinances, and other nontechnical barriers often make it more attractive for a cellular provider to install additional channels and base stations at the same physical location of an existing cell, rather than find new site locations.
How does propagation work in a mobile radio channel?
Propagation measurements in a mobile radio channel show that the average received signal strength at any point decays as a power law of the distance of separation between a transmitter and receiver. The average received power Pr at a distance d from the transmitting antenna is approxi-mated by
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