How Does Weather Affect Fixed Wireless Broadband?

 

Every business wants a reliable and cost-effective internet connectivity option, but few consider fixed wireless as a viable option. Why? A few reasons – one of which is that the technology itself is a bit less known than other connectivity types. Another is that reliability concerns run rampant when anything is wire-less.

 

Fixed wireless broadband utilizes radio waves to provide internet connectivity in remote areas where a DSL or optic fiber connection isn’t feasible. It offers a wide array of advantages over other types of internet technology. But there’s a third crucial factor that dissuades business owners from considering fixed wireless internet: weather.

 

Does weather affect fixed wireless internet? 

 

It’s the first question that’ll come to your mind when you find out how fixed wireless broadband works. The technology relies on the wireless transmission of radio waves between a base station and the receiver. 

 

What happens when heavy rainfall, mist, heatwaves, and other extreme weather conditions interfere with the radio signals? 

 

Let’s find out.

 

Does Weather Impact Fixed Wireless Internet Connectivity?

 

First things first: inclement weather does have the potential to impact the speed and stability of your fixed wireless internet connection. For instance, heavy rains and high humidity levels could cause interference, thus reducing the speed.

 

But there are various measures that fixed wireless internet providers implement to maintain connectivity despite adverse weather.

 

To begin with, any standard fixed wireless provider will thoroughly evaluate your area before starting the installation. They analyze the overall terrain and historical weather patterns. 

 

Also, they measure the distance between the base station and your office premises. This helps them select the right radio wave frequencies and carrier-grade equipment for your region.

 

Moreover, the height of transmitters in a wireless base station is similar to that of cell towers. That means they remain well below the level of storm clouds in the sky. The base station always remains in the line of sight of a receiver installed on your building.

 

Radio waves could still be susceptible to interference from rain and moisture. The good news is that fixed wireless base stations use reliable antennas that are designed to counter the impact of rain fade.

 

Additionally, many fixed wireless internet providers also offer adaptive modulation – meaning the transmitter automatically adjusts the modulation rate and speed of radio waves to boost signal strength. It comes in handy to minimize the impact of interference because of rain, humidity, or extreme temperatures.

 

So, does weather affect fixed wireless? 

 

If you choose the right provider who judiciously configures your connection, you’ll be fairly immune to the impact of inclement weather.

 

Fixed Wireless vs. Other Internet Technology: The Effect of Bad Weather

 

How many times have you struggled with slow internet speeds when it’s raining? If you’re using a standard cable or DSL internet connection, it happens more often than you can likely determine.

 

Cable, DSL, fiber optic – all these technologies involve underground infrastructure that could be damaged because of inclement weather.

 

Also, unlike satellite-based internet, fixed wireless radio signals don’t have to travel nearly 20,000 miles through the earth’s atmosphere. That makes them less vulnerable to adverse weather events happening in a neighboring city or state.

 

 

BeyondReach Is the Fixed Wireless Expert

 

If you’re looking for reliable, high-speed, and affordable internet connectivity, fixed wireless is the way to go. BeyondReach is a fixed wireless service provider that can help your business achieve internet speeds you never thought possible in hard-to-reach locations. There is no job too complicated for us. Contact us today to see if fixed wireless is for you, and check out this insightful whitepaper to learn more about fixed wireless technology.