Introduction
According to Matt Davies Stockton, the frequency range of 4-8 GHz is referred to as the C-band. Traditionally, the lower end of the C-band frequency has been primarily used since the 1970s for satellite TV broadcasts and distribution. However, the implementation of C-band satellite internet can solve the problems of the 5G wireless network and offer additional advantages. Let’s look at a few benefits of C-band satellite internet:
The Benefits
- It could help deliver nationwide 5G as promised – The 5G wireless network has proven to be a disappointment since it doesn’t deliver the promised internet speed and performance promised by the telecom operators in most cases.
The major reason is that the much-hyped 5G network that is supposed to deliver gigabit speeds uses the millimeter-wave spectrum (24-47) GHz which only works for short, line-of-sight distances. On the other hand, the low band 5G which ranges between 600MHz-1GHz only has a range and speed that is equal to 4G networks.
The 5G C-band (3.7-3.98 GHz) frequency range is the sweet spot since it combines a longer range with faster speed and supports speeds of 100-500 Mbps over 0.5 to 6 sq. miles. Thus, it can facilitate global high-speed coverage.
- C-band satellite internet is more reliable – Since the C-band satellite network operates at a lower frequency, it is less susceptible to weather conditions such as rain and fog. Thus, it is suitable for tropical regions that have bad weather all year round.
Plus, unlike terrestrial internet services such as DSL and broadband, the satellite network isn’t susceptible to network outages due to terrestrial infrastructure conditions as long as the equipment remains powered.
- It is very scalable – C-band satellite internet can be deployed and installed rapidly to remote locations in a matter of hours even in regions with limited terrestrial infrastructure since only the ground equipment needs to be installed and set up.
Thus, it can be used to offer high-speed internet access of several megabits to rural regions over large distances such as entire continents and oceans in a relatively efficient manner.
- It is much more economical – The construction and installation of a new terrestrial ground connectivity network in unserviceable locations is a major investment and it can range between $10,000 to $100,000 per mile of fiber. Plus, it is a fairly time-consuming process that can take several months to complete.
However, since satellite networks don’t require complex terrestrial infrastructure, it helps to save companies lots of money and time and expand their operation in new, rural regions. In fact, it is often the only alternative in regions where it is simply not feasible or possible to set up the terrestrial infrastructure required to offer a high-speed internet connection.
Conclusion
Matt Davies Stockton suggests you purchase a 5G smartphone that supports the C-band frequency to enjoy the best 5G experience. It is already available in 46 major cities of the United States and both Verizon and AT&T are working hard to bring C-band 5G to more locations across the country.
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