Satellite microwave:
The satellite or satellite revolves around the earth from space. It rotates because of the Earth's gravitational force, so it doesn't have to spend any fuel or energy to keep it in space. This is because, on the satellite, solar power is used to operate the microwave electronic circuits. The earth rotates in its axis twenty-four hours, and if the satellites can be rotated only once in twenty-four hours, it would seem from the earth that the sky is fixed at some point. Such satellites are called geostationary satellites. Geo station satellites cannot be held at any height.
To keep it, one thousand kilometers up to a designated room is on the way. The basic components of each satellite are the receiver, the receiver antenna, the sender, the transmitter antenna and the power required to operate these electronic devices, which are generated through the solar panel. These stations located on earth have a powerful antenna called VSAT. Once a G station satellite has been installed in the sky, the transmitter from one end of the earth to the other sends about 5 million or so microwave signals to the satellite.
After sending it to the satellite, the signal is very weak. There are many transponders on the satellite. This transponder amplifies the radio signal through the amplifier and sends it to the Earth's consumer device by transmitting 1 billion times the vibration signal. This is how the two VSATs communicate.
The VSAT's antenna has to be oriented so that it is always pointing to the satellite. Because satellites are located far away, more power is required to radiate magnetic waves.
The satellite acts as a microwave repeater. In this type of communication, there are many microwave transmitters in the world. In this type of transmission, the LAN sends a signal via a computer cable to the antenna or satellite dish, and the satellite disc sends the signal to the satellite near the Earth's axis.
The satellite then sends it to another satellite dish. If the destination satellite dish is located on the other side of the globe or cannot be seen directly from the satellite, the satellite may pass that signal to another satellite. If the second satellite sees the destination satellite dish, it sends the signal to the destination.
