Microwave frequencies are generally considered to be in the region above 1000 Megahertz, (About 30 cm wavelength.) and as the gain of an antenna depends on it's size in wavelengths, it is possible to make very tightly focused beams at these wavelengths.
This then allows low power transmitters to communicate over long distances by aiming a beam of energy at a receiving antenna.
The disadvantage is that it is strictly line of sight, so mountains or earth's curvature will block the signal, hence microwave systems are often mounted on towers or tall buildings.
NO
Odu is stand for out door unit. In mobile tower ODU is a electronic device which use with Microwave antenna, to send and receive microwave signals.
Microwave signals are detected using an antenna that captures the incoming electromagnetic waves. The waves are then converted into electrical signals that are processed and analyzed by the detection system. The intensity and frequency of the electrical signals are used to interpret the incoming microwave signal.
Your cordless phone gets disconnected when the microwave is turned on and in use because the two signals are interfering with each other and stopping each others processes.
Microwave signals travel at the speed of light in air, which is approximately 299,792,458 meters per second. This high speed allows microwave signals to transmit data rapidly over long distances.
microwave
There's the obvious one: microwave ovens. Also, your cell phone relies on microwaves to communicate with the cell towers, wifi routers also pit out microwave signals.
Pfft. No. It uses Radio Signals. Not Radiation.. Radiation is from the Sun and Microwave Signals. :)
FM/FDM systems are commonly used in microwave wireless communications because they allow for different frequencies to be assigned to different signals, which means that a large number of signals can be transmitted on the same frequency band. This increases network traffic density without interference between different signals. The properly tuned low gain small system provides additional capability to transmit signals without interfering with other signals in the same frequency band. This increases the efficiency of licensed frequency use, allowing for high-speed and higher-quality data transmission.
Yes, microwave signals can be affected by adverse weather conditions such as rain, snow, fog, and heavy clouds. These weather conditions can cause the signals to weaken or scatter, leading to disruptions in communication or decreased signal strength.
In a terrestrial microwave system, the transmission of signals is achieved through line-of-sight communication between microwave antennas on towers or structures. The antennas send signals back and forth in a straight path, utilizing microwave frequencies to carry voice, data, or video information. This system is commonly used for point-to-point communication over short to medium distances.
They get heated up, and get signals in them which make them unhealthy.