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How Important Is My Wireless Router to My Internet Speed?

Let’s get one thing straight: Your router is not your internet. The connection coming into your home, apartment, or business and attaching to your provider’s modem or fiber ONT is your internet. Your speed is defined by one of these two devices and the plan you choose. Case closed.

Your router, then, must be complementary. It’s your local virtual mailman that enables all your devices to send and receive data through one physical address. But if the mailman is tired and ready to call it a day, your internet will feel slow as snails, even though it flies faster than a cheetah.

We’ll explain what signs you should look for in a slow router, how older routers can affect your speed, and what you should do to improve your internet speed.

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Why do I need a router?

You need a router so that more than one device can access a single internet connection. If that’s a good enough answer, move along to the next section—nothing else to read here, folks.

On a more technical level, data requires two addresses to complete a trip across the internet: A server address and a client address. Your internet provider assigns a public client address to the first wired device connected to your modem or ONT. The result is that only one of your devices—a computer, for example—can access the internet.

Now, imagine if we swap out the computer for a router. It receives the assigned public client address just like the computer. But it also has a built-in server that assigns new private client addresses to all your wired and wireless devices. Now any device connected to the router can send and receive data from the internet, not just a single computer.

In short, a router manages traffic to and from a modem or ONT.

Can a router slow my internet connection?

Technically, a router can’t slow your internet connection, but it can reduce the connection speeds between your devices and the modem or ONT. That bottleneck translates to a slow internet experience because the router is a slowpoke middleman between you and the internet.

An overwhelmed router can cause reduced speeds. It’s a tiny computer dedicated to routing network data, after all, so an overload can make the processor grow hot, causing it to work slower than usual.

Overload causes depend on the router and current network use. An old or low-quality router may produce slow speeds. Too many devices may upload and download data simultaneously, causing a network traffic jam. A faulty router causes slow speeds, too.

Another factor to consider is the type of internet port (WAN) a router uses. Pretend you have a 2Gbps internet plan. Your modem or ONT has an internet port outputting speeds up to 2.5Gbps, but your router uses Gigabit Ethernet for internet, so the most speed you can get from it is 1Gbps—half your plan’s speed.

Overall, a router can be your chokepoint, not the internet connection itself. Upgrading to a plan with a higher bandwidth doesn’t help if your router can’t handle your current network load or faster internet speeds. You must reboot, reset, or swap it out for a better model.

Is an old router slowing you down?

Here are a few upgrade suggestions based on our in-house testing and research.

Fastest Routers We’ve Tested—Make sure you get the most out of your fast internet connection with a router built to keep up.

Best Mesh Wi-Fi Systems and Routers—Mesh is the way to go for large homes and buildings with tricky layouts.

Best Modem/Router Combos—Get everything you need to replace your rented gateway and take control of your home network.

How can I tell if I have a slow router or slow internet?

First, know your internet plan. You can see exactly what you have by logging into your account through a web browser or mobile app.

Second, know how your router connects to your modem or ONT. As we suggested above, if you have a multi-gig plan and a multi-gig modem or ONT, you won’t see those speeds if your router supports only gigabit wired connections.

If everything checks out, run a wired internet speed test to see if your router is causing speed issues. Here’s how:

Step 1: Connect a computer to the router or gateway using an Ethernet cable.

Stop! Do you have a gateway?

Log in to the gateway’s web interface, set it to bridge mode, and skip to Step 7.

Step 2: Open a web browser and load our speed test.

Step 3: Select Start Speed Test and record the results.

Step 4: Unplug the computer from the router.

Step 5: Unplug the router from your modem or ONT.

Step 6: Connect the computer to the modem or ONT using an Ethernet cable.

Step 7: Select Start Speed Test and record the results.

Step 8: Compare the results from the two tests (modems and ONTs only).

What if the modem test is faster than the router test?

Your router is your chokepoint. Remember, you ran these tests using a wired connection, so you should see most of the bandwidth delivered by your internet connection.

What if the modem test is the same as the router test?

If your router and modem’s wired speed test results aren’t dramatically different, then the next step is to test your wireless devices. Continue to the next section for instructions.

Run a Wi-Fi speed test

Step 1: Connect to the router’s 5 GHz or 6 GHz band.

Step 2: Download and install our speed test app (App Store, Google Play).

Step 3: Run the test no further than two feet away from the router. Never test your Wi-Fi connection from 10 feet out or more.

Step 4: Compare the results to your wired test.

A few things to consider when you compare the tests

 

Wi-Fi 6 smartphones and tablets – These devices support real-world speeds of around 850Mbps on average at two feet using the default 80 MHz channel and 2.5Gbps Ethernet. If you’re testing an internet connection that’s 900Mbps or faster, the results may appear slower than usual. The further you move away from the router during testing, the slower your connection will appear.

Wi-Fi 6E smartphones and tablets – These devices support real-world speeds averaging 1,680Mbps at two feet when using a 160 MHz channel and 2.5Gbps Ethernet. If you’re testing an internet connection that’s 2,000Mbps or faster, the results may appear slower than usual. The further you move away from the router during testing, the slower your connection appears.

Is there a dramatic difference between your wired and wireless speeds?

If so, consult our guide on how to troubleshoot your Wi-Fi network. Chances are, you need to switch Wi-Fi channels, change the channel width, or disable a few settings—again, many factors can cause slow wireless speeds.

You can also consult our guide on speeding up your internet if your connections are slow.

Does outdated equipment affect my internet speed?

Older routers, network equipment, and even your aging wireless devices can affect your Wi-Fi speeds.

For example, if you have a plan that supports only 100Mbps, old routers and network equipment likely won’t bottleneck your connections. However, if you have a gigabit plan, but your old router supports only 100Mbps wired, your wireless connection will seem as slow as snails.

Old smartphones, tablets, and other devices can slow you down, too, even if you have the fastest router and internet plan on the planet. Newer devices with budget Wi-Fi radios can also make the internet feel extremely slow.

Check the device’s supported Wi-Fi standard

Technology and how we use it are constantly changing and improving—max Wi-Fi speeds have gone from 300Mbps in 2009 to 9,600Mbps in just ten years. And wired connections have jumped from 10Mbps to 40,000Mbps over the last few decades.

Wi-Fi standards are one primary reason why dated equipment might not perform as well as newer equipment. There are four main Wi-Fi standards to be aware of if you think your router or wireless device is causing slow wireless connections.

Wi-Fi 4 (802.11n or Wireless N)

This specification appeared in 2009 and uses one 2.4 GHz wireless band. It supports a theoretical maximum wireless speed of 150Mbps per spatial stream—up to 450Mbps in a three-transmit, three-receive stream configuration (3×3).

Wi-Fi 5 (802.11ac or Wireless AC)

This specification was finalized in 2014 and pairs the 2.4 GHz band (Wi-Fi 4) with an additional 5 GHz band for faster speed capabilities. The spec brought beamforming to Wi-Fi, which enables the router to time broadcasts through multiple antennas so Wi-Fi signals converge in specific locations. The Wave 2 variant introduced MU-MIMO technology for sending transmissions to more than one wireless device simultaneously.

Here are three Wi-Fi 5 configurations:

Wave 1802.11acWave 2
Launch date201320142016
Max throughput*1,3006,9003,470
Max speed per stream*433866866
Max stream config3×38×84×4

Wi-Fi 6 (802.11ax or AX Wi-Fi)

This specification arrived in 2019 and upgraded both the 2.4 GHz and 5 GHz bands. It can reach max speeds up to a theoretical 9.6Gbps (9,600Mbps) using eight streams (8×8).

The primary goal of Wi-Fi 6 is to better handle network efficiency as opposed to just faster speeds. Many Wi-Fi 6 routers can easily handle dozens of connected devices, making them ideal for smart home devices.

Wi-Fi 6E (802.11axe or AXE Wi-Fi)

Released in 2020, Wi-Fi 6E is a more recent wireless standard. Unlike Wi-Fi 6, the 6E version isn’t a major upgrade. It only adds support for the 6 GHz Wi-Fi band along with MU-MIMO technology for receiving transmissions from more than one wireless device simultaneously.

The bottom line

None of this is to say that all routers over a few years old are bad—Wi-Fi 5 routers can still be perfectly serviceable for some homes, and Wi-Fi 6 routers are commonplace in most homes.

But if you’ve upgraded your internet plan or added more devices to your network, an older router may have a harder time juggling the extra work than a newer model.

Are you getting the maximum speeds from your internet plan?

Run our speed test to see how the results compare to what you’re paying for.

Can a new router speed up my internet?

A new router can’t increase your internet connection speed—your 300Mbps plan stays the same.

But a new router can make your Wi-Fi network run faster, especially if you’re upgrading from an outdated or faulty one. That 300Mbps plan can feel like a speed demon if your previous router didn’t fully utilize your plan’s bandwidth.

Keep in mind that a new router may not increase speeds on your wireless devices. If you purchase a Wi-Fi 6 router but still use a phone with Wi-Fi 5, your wireless connection won’t magically increase in speed. The phone still supports a theoretical max of only 866 Mbps, which is still higher than most cable-based internet plans.

Do you need faster internet speeds to match the latest routers?

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Our verdict: routers can make or break a connection

A router doesn’t increase the speed of your internet connection. A 100Mbps plan remains as a 100Mbps plan, and there’s nothing you can do or add to increase your speed outside upgrading to a faster plan.

But a router can make or break the connections on your side of the modem or ONT. It’s the centerpiece of your home network, after all, so its performance is vital. An old or faulty router can make the internet feel like walking through mud. An incompatible or outdated router bottlenecks your speeds.

It’s important to keep your router in mind when you upgrade devices and internet plans. You can’t see the fastest speeds if you select a 1,200Mbps cable internet plan but your router supports only 1,000Mbps. The same is true with wireless devices: You don’t get the most speed when you connect the latest iPhone to that Wi-Fi 4 router you absolutely refuse to replace.

FAQ about wireless speeds

What is a theoretical maximum speed?

Theoretical means the radios used in access points and client devices are built to support a specific maximum speed. But you never see these speeds due to interference, range, and other factors.

What is a spatial stream and why does it matter?

A spatial stream is a single transmission of coded data sent or received through one antenna. Most wireless devices have two transmitting and two receiving antennas (2×2), which means they support two upload streams and two download streams. A 2×2 configuration doubles your speeds each way compared to devices with a 1×1 configuration. Some desktops support a faster 4×4 configuration.

Author -

Kevin Parrish has more than a decade of experience working as a writer, editor, and product tester. He began writing about computer hardware and soon branched out to other devices and services such as networking equipment, phones and tablets, game consoles, and other internet-connected devices. His work has appeared in Tom’s Hardware, Tom's Guide, Maximum PC, Digital Trends, Android Authority, How-To Geek, Lifewire, and others. At HighSpeedInternet.com, he focuses on network equipment testing and review.

Editor - Cara Haynes

Cara Haynes has been editing and writing in the digital space for seven years, and she's edited all things internet for HighSpeedInternet.com for five years. She graduated with a BA in English and a minor in editing from Brigham Young University. When she's not editing, she makes tech accessible through her freelance writing for brands like Pluralsight. She believes no one should feel lost in internet land and that a good internet connection significantly extends your life span.

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