The Best Wireless Range Extender Deals This Week*
*Deals are selected by our commerce team
With so many of us working from home these days, we now have more apps than ever careening across our household Wi-Fi networks. And some of these require not only a good amount of bandwidth, but steady bandwidth. When they don’t have it, that chat you’re having with your boss on your company’s voice over IP (VoIP) phone system suddenly sounds like you’re underwater. The same goes for many consumer-grade apps, especially video streaming services like Netflix, and certainly the latest games.
Most folks figure they need to upgrade their Wi-Fi in this situation, so they either buy a new Wi-Fi router or upgrade their internet service (or both). Chances are, an under-$100 range extender will get the job done. Aptly named, range extenders pick up your router’s Wi-Fi signal, amplify it, and rebroadcast the boosted signal. Our top-rated models are below, followed by a detailed guide to selecting the range extender that meets the needs of your home.
Deeper Dive: Our Top Tested Picks
TP-Link AX3000 Mesh Wi-Fi 6 Extender (RE715X)
Best Wi-Fi 6 Range Extender Overall
Why We Picked It
The RE715X is a dual-band Wi-Fi 6 range extender that is easy to install, works with any Wi-Fi 6 router, and installs in minutes. It can even be used to create a mesh network in tandem with a compatible TP-Link router, which makes it a logical alternative for people whose existing routers work fine and who therefore don’t need to spend $200 or up on a new mesh system with multiple nodes. The RE715X turned in solid scores in our throughput performance tests and did particularly well on the 5GHz tests, where it garnered 410Mbps on the close proximity (same room) test.
Who It’s For
Besides serving as a mesh alternative when coupled with a TP-Link router, the RE715X is an ideal candidate for someone with a relatively recent Wi-Fi 6 router from any manufacturer who just needs a bit of extra range to carry their Wi-Fi signals to a distant spare bedroom or perhaps the back deck.
PROS
- Easy to install and manage
- Fast throughput performance
- OneMesh ready
- Supports 160MHz channels
CONS
- Bulky
- No pass-though outlet
SPECS
Name | Value |
---|---|
Wireless Specification | 802.11ax |
Total Rated Throughput | AX3000 |
WPS Setup | |
Number of Bands | 2 |
Number of Wired LAN Ports (Excluding WAN Port) | 1 |
Number of Antennas | 2 |
Number of USB ports | 0 |
MU-MIMO | |
Wi-Fi 6 |
TP-Link RE600X AX1800 Wi-Fi 6 Range Extender
Best Alternative to the TP-Link RE715X
Why We Picked It
At $99.99, this range extender offers a fairly inexpensive way to boost Wi-Fi coverage without having to invest in a new router or mesh system. It’s smaller and less expensive than our top pick, the RE715X. In return for the space and money saved, you give up some performance as well as support for 160MHz channel width. Still, it’s easy to install and manage, and a solid performer overall.
Who It’s For
If you need to boost the signal of your Wi-Fi 6 router, the RE600X is a solid option that won’t break the bank. It’s an especially good choice if you have a TP-Link router, since, like many TP-Link products, it can be used to create a mesh network instead of a separate extended one.
PROS
- Good throughput performance
- Fast, easy setup
- Works with compatible routers to create a mesh network
CONS
- Does not support 160MHz channels
- No passthrough outlet
- Bulky
SPECS
Name | Value |
---|---|
Wireless Specification | 802.11ax |
Total Rated Throughput | AX1800 |
WPS Setup | |
Number of Bands | 2 |
Number of Wired LAN Ports (Excluding WAN Port) | 1 |
Number of Antennas | 2 |
Number of USB ports | 0 |
MU-MIMO | |
Wi-Fi 6 |
TP-Link AC1750 Wi-Fi Range Extender (RE450)
Best Wi-Fi 5 Range Extender Overall
Why We Picked It
Although it lacks the latest Wi-Fi 6 technology, the TP-Link RE450 offers excellent performance at a very reasonable price. When we tested it in 2016, it delivered very good scores on our throughput and range-performance tests. This means it’s an excellent addition to a network in a larger home that mostly uses older devices also lacking Wi-Fi 6 support. Plus, it’s now heavily discounted from its original $120 price. Expect to pay around half that, which is an excellent deal for a solid-performing wireless range extender.
Who It’s For
Anyone with a large house who needs to add reliable Wi-Fi coverage in areas currently lacking it should take a look at the reasonably priced TP-Link RE450. However, you’d want to skip this range extender if you have many Wi-Fi 6 devices, or you plan to buy more in the near future.
PROS
- Easy setup
- Very good throughput and range performance in testing
CONS
- Bulky
- No pass-through outlet
SPECS
Name | Value |
---|---|
Wireless Specification | 802.11ac |
Total Rated Throughput | AC1750 |
WPS Setup | |
Number of Bands | 2 |
Number of Wired LAN Ports (Excluding WAN Port) | 1 |
Number of Antennas | 3 |
Number of USB ports | 0 |
MU-MIMO | |
Wi-Fi 6 |
Netgear Nighthawk X4 AC2200 WiFi Range Extender (EX7300)
Fastest Wi-Fi 5 Range Extender
Why We Picked It
A solid alternative to the TP-Link RE450, the Netgear Nighthawk X4 is one of the fastest plug-in range extenders we’ve tested. True, it lacks Wi-Fi 6 technology, but it offers two additional features that budget Wi-Fi 5 range extenders often lack. The first is MU-MIMO technology, which can improve performance if you’ve got many devices with data-intensive streaming needs connected at once. Second, its overall maximum throughput of 2,200Mbps is higher than the 1,700Mbps of extenders like the RE450. As an added bonus, the Nighthawk X4 won’t block the second power plug on a typical wall outlet, and its antennas are internal for a cleaner aesthetic.
Who It’s For
If you know you don’t need Wi-Fi 6, but still need a reliable way to extend a network that sees frequent use from multiple data-intensive streams at a time, the Nighthawk X4 is one of your best options.
PROS
- Solid throughput in testing
- Supports Multi-User Multiple Input, Multiple Output (MU-MIMO) streaming
- Easy to install
CONS
- Bulky
- No pass-through outlet
SPECS
Name | Value |
---|---|
Wireless Specification | 802.11ac |
Total Rated Throughput | AC2200 |
WPS Setup | |
Number of Bands | 2 |
Number of Wired LAN Ports (Excluding WAN Port) | 1 |
Number of Antennas | 4 |
Number of USB ports | 0 |
MU-MIMO | |
Wi-Fi 6 |
Linksys RE7000 Max-Stream AC1900+ Wi-Fi Range Extender
Best Wi-Fi 5 Range Extender for Smaller Homes
Why We Picked It
Sometimes just one or two rooms in your house can’t get a reliable Wi-Fi signal, while every other room is blessed with a strong connection. Or perhaps you live in a building with plaster walls and lead paint, known for killing signals even across relatively short distances. That’s where the Linksys RE7000 can help. This Wi-Fi range extender achieved impressive results in our close-proximity tests (although performance did drop significantly when we moved further away). In addition to strong same-room performance, the RE7000 also offers extensive network customization options.
Who It’s For
Houses or apartments that lack a Wi-Fi signal in just one small area could benefit from the excellent close-proximity performance of the Linksys RE7000.
PROS
- Supports Multi-User Multiple Input, Multiple Output (MU-MIMO) streaming.
- Easy to install.
- Solid close-proximity throughput performance.
CONS
- Lacks pass-through outlet.
- Bulky.
- Middling range performance.
SPECS
Name | Value |
---|---|
Wireless Specification | 802.11ac |
Total Rated Throughput | AC1900 |
WPS Setup | |
Number of Bands | 2 |
Number of Wired LAN Ports (Excluding WAN Port) | 1 |
Number of Antennas | 4 |
Number of USB ports | 0 |
MU-MIMO | |
Wi-Fi 6 |
Netgear AX1800 Wi-Fi 6 Mesh Extender (EAX15)
Best Wi-Fi 6 Range Extender for Mesh-Like SSID Sharing
Why We Picked It
If your router is having trouble delivering a strong Wi-Fi signal to certain areas of your home but you loathe the thought of switching between differently named networks for different parts of your house, the Netgear EAX15 can help. It’s easy to install, and you can use it to create a mesh-like network without buying a whole new mesh system, since it supports single-SSID naming for seamless roaming. It also supports the latest Wi-Fi 6 technology, and it delivered solid performance on the 5GHz band in our testing.
Who It’s For
Do you hate switching between network names as you move in and out of range? It’s annoying, but if you’ve already got a cutting-edge Wi-Fi 6 router, you’re probably reluctant to ditch it in favor of a whole new mesh system. The EAX15 is a good alternative in this situation, extending the Wi-Fi signal to previously underserved locations in your house while letting you roam seamlessly from room to room without worrying about the name of the network you’re on.
PROS
- Strong 5GHz throughput performance
- Good signal range
- Shares host router SSID
- Easy to install
SPECS
Name | Value |
---|---|
Wireless Specification | 802.11ax |
Total Rated Throughput | AX1800 |
WPS Setup | |
Number of Bands | 2 |
Number of Wired LAN Ports (Excluding WAN Port) | 1 |
Number of Antennas | 2 |
Number of USB ports | 0 |
MU-MIMO | |
Wi-Fi 6 |
Buying Guide: The Best Wi-Fi Range Extenders for 2024
What makes range extenders so attractive compared with a bespoke mesh system is that they are easy to install and inexpensive. When paired with a budget-priced router, you can build a tandem system with coverage that rivals what you’d get from a single high-priced router or mesh network. Range extenders come in various shapes, sizes, and speeds, but they do have their limitations; they are typically half as fast as your primary router, and they create a separate extended network that makes seamless roaming difficult.
Depending on the size and layout of your home, a mid-to-high-end router may provide all the Wi-Fi coverage you’ll need. But for homes built with dense materials like brick, concrete, plaster, and metal, some level of signal degradation is almost a certainty. Likewise, homes with multiple floors and many walls are more susceptible to signal loss than a one-story home with an open floor plan. In some cases, you can relocate your router to a central location to deliver a stronger signal to those dead zones that were previously out of reach. In most homes, however, the router’s location is tied to the room where the internet enters the house, which means relocating the router will likely require running an Ethernet cable to the desired area. Range extenders provide a relatively easy way to deliver Wi-Fi without having to run cables.
(Credit: TP-Link)
When shopping for a range extender, it’s important to find one that matches your router’s specs. For example, if you have a dual-band AC1900 router, get a dual-band AC1900 extender (or better). If your router supports Multi-User Multiple Input Multiple Output (MU-MIMO) data streaming, which provides enhanced performance by sending data to compatible clients simultaneously rather than sequentially, look for an extender that supports this technology if you want to extend your MU-MIMO network.
The same goes for the latest Wi-Fi 6 and Wi-Fi 6E technologies, the current fastest flavors of Wi-Fi. If you recently bought a new router that supports these standards, you’ll certainly want to make sure any range extenders support them as well.
How Does a Wi-Fi Range Extender Work?
A Wi-Fi range extender boosts the Wi-Fi signal from your existing router for greater coverage throughout your home. To do this, it picks up the signals from a specific Wi-Fi access point (your router). Depending on the brand and model of the device, it then either boosts the signals under the same network name (SSID) or under a new SSID that must be created and configured. You’ve probably seen this before, where a home’s network has a “SmithHouse” for upstairs and “SmithHouse_EXT” for downstairs. Your devices will often stay on one until it’s completely out of range, then you can switch over to the closer range extender to get a better connection.
Some range extenders do more than just boost your Wi-Fi signal, however. Many models are equipped with Ethernet ports, so they can moonlight as wireless access points, with an Ethernet connection to your router instead of a wireless one. In this scenario, rather than the access point boosting your router’s Wi-Fi signal, your traffic flows wirelessly from your device to the access point, and then from the access point to your router via the Ethernet cable. This mode of operation is often preferred since it reduces the possibility of interference, but it requires the ability to run a cable between the router and the area of your house that’s experiencing spotty Wi-Fi coverage.
What’s the Difference Between a Wi-Fi Booster and Extender?
Some manufacturers refer to their products as Wi-Fi boosters or Wi-Fi range boosters, while others call them Wi-Fi extenders or Wi-Fi range extenders. For most consumer purposes, all of these terms are synonymous.
However, before you buy a range extender, you should investigate other ways to boost your Wi-Fi signal without one. Many are easy and free. You could reposition your router, update its firmware, and change the signal it’s broadcasting on. These straightforward tweaks and many more like them could solve your connectivity issues without the need for any additional equipment. For more ideas, see our guide to boosting your Wi-Fi signal
Do You Need a Desktop or Plug-In Extender?
There are two types of Wi-Fi range extenders: desktop and plug-in. Most desktop extenders look just like a wireless router and are typically equipped with external adjustable antennas, multiple LAN ports for connecting to devices like TVs and gaming consoles, and USB ports for attaching to peripherals such as storage drives and printers.
Plug-in extenders are much smaller than their desktop counterparts and are inserted right into a wall outlet. Some models have external antennas, while others use internal antennas to present an unobtrusive profile. Due to their size, plug-in extenders usually have only a single LAN port and lack USB connectivity, making them less versatile but more affordable than desktop extenders. If you can’t spare a wall outlet, look for a plug-in model that offers a pass-through outlet.
(Credit: Amped Wireless)
It’s also worth noting that, if you’re having the rather specific issue of connecting a computer to Wi-Fi in a particular part of your home, you might be better served by a USB Wi-Fi adapter. For as little as $15, these adapters are essentially antennas that plug directly into your computer to help it pull in a better Wi-Fi signal.
How to Set Up a Wi-Fi Range Extender
Not very long ago, setting up a range extender required a bit of technical expertise and a good deal of patience to find the best location (ideally halfway between the router and the dead zone). But most of today’s routers and range extenders support Wi-Fi Protected Setup (WPS), which makes pairing the two as simple as pressing a couple of buttons, naming your new extended network, and creating a network password.
Moreover, nearly all manufacturers offer web-based setup wizards and illustrated instructions that will help you configure basic wireless settings. Some (but not all) extenders are equipped with LED status indicators that tell you if the extender is too far from the router. Extenders can also offer advanced router-like features such as guest networking, access scheduling, and media server capabilities.
Do Wi-Fi Extenders Really Work?
While fairly easy to configure, range extenders have their limitations. In addition to the fact that they often use a separate network SSID that you have to log into as you move through the house, Wi-Fi speeds are typically half of what you get from your main router. Most dual-band extenders use both radio bands to transmit data to and from the router, which means devices connecting to the extender are competing for bandwidth with the router.
Recommended by Our Editors
To help alleviate network congestion, some manufacturers let you dedicate a band for router-to-extender communications. Netgear’s Fastlane technology and Amped Wireless’ BoostBand technology are good examples.
(Credit: Linksys)
Still, maybe the fastest possible throughput is what you’re after. That could be because you’re running business applications across your network, or because you’re in the market for a gaming router or especially a Wi-Fi 6 router. If so, be sure to test the connection between your endpoints to ensure you’re getting the maximum traffic speeds you can. PCMag thoroughly tests all routers and range extenders that come through its doors so you’ll have a good idea of what to expect before you buy.
Wireless Extenders vs. Wi-Fi Mesh Systems
If you’re considering upgrading your network with all new hardware, it’s worth looking into a mesh-based Wi-Fi system before you spend money on a traditional router. Wi-Fi mesh systems are designed to blanket your home with wireless coverage and are made up of several networking components, including a main router and a series of satellite modules, or nodes, that you place throughout your home. They are all part of a single wireless network and share the same SSID and password, which means you can roam throughout your house without having to log into an extended network.
Whereas range extenders communicate with the router via the 2.4GHz or 5GHz radio bands, most Wi-Fi system satellites use mesh technology to talk to the router, and to each other. Each node serves as a hop point for other nodes in the system, which helps the nodes farthest from the router to deliver a strong Wi-Fi signal as they talk to other nodes and don’t rely on one-to-one communications with the router.
Wi-Fi mesh systems are ideal for users with little or no technical knowledge. They can be installed in minutes and typically come with a user-friendly mobile app that walks you through the installation process with easy-to-follow illustrated instructions. And their prices are coming down, too.
So, Which Wi-Fi Range Extender Should I Buy?
In our wireless-extender review summaries above and our spec comparison chart below, check out our picks for the top extenders we have tested. To get even more from your home Wi-Fi network, also check out our guides to setting up your router and protecting your Wi-Fi network.