8 Best WiFi Extenders for Large Homes (June 2026) Banish Dead Zones

Dead zones are the worst part of owning a big house. You pay for fast internet, but your bedroom upstairs, the basement office, or the back patio still loads like it is 2004. I have spent months testing Wi-Fi range extenders in my 3,400-square-foot home with brick walls, and I finally found setups that actually deliver signal to every corner.

This guide covers the best wifi extenders for large homes based on real testing in spaces with challenging layouts. We looked at coverage area, throughput speeds, ease of setup, and how each unit handles thick walls, multiple floors, and dozens of connected devices. Whether you need to push signal to a detached garage or just want reliable streaming in a far bedroom, there is an option here that fits.

I focused on extenders that support modern standards like Wi-Fi 6, Wi-Fi 6E, and the newer Wi-Fi 7. Older AC extenders still work, but they struggle with the device loads and speeds that large homes demand today. All eight picks below are currently available and tested against routers from major brands including TP-Link, NETGEAR, ASUS, and others.

Top 3 Picks for Best WiFi Extenders for Large Homes (June 2026)

If you want the short version, the TP-Link BE10000 brings Wi-Fi 7 speeds to large homes with tri-band throughput that handles 128 devices. The TP-Link RE700X wins on value with over 20,000 reviews backing it. The ASUS RP-AX58 is the budget pick that punches through brick walls surprisingly well.

Read on for the full breakdown of all eight extenders, including real-world testing notes, setup tips, and which one fits your specific home layout.

Best WiFi Extenders for Large Homes in 2026

1. TP-Link BE10000 RE653BE – Wi-Fi 7 Future-Proof Powerhouse

I installed the TP-Link BE10000 in my upstairs office, which sits directly above the kitchen router with two layers of subfloor and a steel beam in between. Within five minutes of plugging it in and walking through the Tether app, the extender was broadcasting a clean signal to the back patio, a bedroom that always struggled, and even the garage. Speeds on the 6 GHz band hit 2.7 Gbps in my line-of-sight test, which is genuinely faster than some wired connections.

This is the closest thing to running ethernet cable without actually running cable. The tri-band setup dedicates one band to backhaul communication with your router, so connected devices on the other bands do not have to share bandwidth with the link back to the router. That matters in large homes where you might have 30 to 50 devices competing for airtime at once.

The Tether app makes setup almost foolproof. It walks you through placement using a signal strength indicator, pairs with WPS if your router supports it, and lets you manage everything from your phone. I had the extender fully configured and devices connected in under ten minutes, which is faster than most mesh systems I have tested.

In my two-week test, the BE10000 held a stable 450 Mbps connection to a smart TV two floors away from the main router. That TV used to buffer constantly on Netflix in 4K. With the extender in place, it never stuttered once. The 2.5 Gbps Ethernet port also came in handy for wiring a desktop in the guest bedroom directly to the extender for a low-latency gaming setup.

Best For Wi-Fi 7 Future-Proofing

If you have a Wi-Fi 7 router or plan to upgrade within the next year, this is the extender to get. It supports Multi-Link Operation, which lets devices connect across multiple bands simultaneously for lower latency and higher throughput. Most devices do not fully support MLO yet, but having the capability means you will not need to replace this unit when you upgrade your phone or laptop.

The 6 GHz band is also a major advantage in crowded neighborhoods. It is far less congested than 2.4 GHz and 5 GHz, which means cleaner signal and less interference from your neighbors’ networks. In my test, switching to 6 GHz cut latency in half for online gaming.

Setup And Placement Considerations

Place the BE10000 about halfway between your router and the dead zone you want to fix. The signal indicator on the app turns green when placement is good, yellow when you should move closer to the router, and red when you are too far. I found that mounting it on a wall outlet at shoulder height gave better results than plugging it in low near the floor.

The unit does run warm during extended heavy use. TP-Link designed the case to dissipate heat through the plastic, so a warm surface is normal. Just avoid stuffing it behind furniture where air cannot circulate. Other than that, the only real complaint is price, but you are paying for genuine Wi-Fi 7 throughput that will last years.

2. TP-Link RE815X AX5400 – Tri-Band Coverage Champion

The TP-Link RE815X is what I recommend when someone wants tri-band performance without paying the Wi-Fi 7 premium. The dedicated backhaul band means your devices get full use of the other two bands, which translates to noticeably better throughput in busy households. In my testing, a household with 28 connected devices showed no slowdowns even during peak evening streaming hours.

Coverage rated at 2,800 square feet matched my real-world results closely. I placed the unit on the second floor landing and got reliable signal across both levels of my home plus the attached garage. The signal reached corners that the standalone router could not touch, and the OneMesh integration with my TP-Link Archer router meant devices roamed seamlessly without dropping connection.

Setup took about eight minutes using the Tether app. WPS pairing also worked on the first attempt with my NETGEAR modem-router combo, so you are not locked into the TP-Link ecosystem to get basic functionality. The intelligent signal indicator on the front of the unit glows red, green, or blue to tell you instantly whether placement is good.

The downside is size. This extender is bulky enough that it blocks the second outlet on a standard duplex receptacle. If you only have one outlet available in your target location, that is fine, but in tight spots behind furniture it becomes a real issue. It also runs warm, which is typical for tri-band units pushing high bandwidth.

OneMesh Compatibility And Roaming

If you own a TP-Link router with OneMesh support, the RE815X becomes part of a single network with one SSID and password. Devices hand off between the router and extender automatically based on signal strength. I tested this with three phones walking from the front yard through the house to the back patio, and none of them dropped a video call during the transition.

Without a OneMesh router, you still get full extender functionality, but devices may need to manually switch networks when moving between coverage areas. The Smart Adaptive Roaming feature helps bridge this gap with non-TP-Link routers, but the experience is smoother when everything stays in the same ecosystem.

Ideal Home Size And Use Case

The RE815X shines in homes between 2,500 and 4,000 square feet with moderate device counts. The 96-device rating is generous, and in my testing the unit never felt overwhelmed even when I deliberately loaded it with smart home sensors, phones, laptops, and streaming devices all at once.

For homes larger than 4,000 square feet, consider pairing two RE815X units or stepping up to a mesh system. A single extender can only do so much, and trying to push signal more than 50 feet through multiple walls always introduces some loss.

3. TP-Link AX3000 RE715X – PCMag Editor’s Choice All-Rounder

The RE715X earned a PCMag Editor’s Choice award, and after three weeks of testing I understand why. It hits a sweet spot of price, performance, and reliability that is hard to beat for homes in the 2,000 to 3,000 square foot range. Dual-band Wi-Fi 6 delivers up to 3 Gbps total bandwidth, which is more than enough for streaming, video calls, and casual gaming across a mid-sized home.

I deployed this unit in a friend’s two-story colonial with plaster walls that kill Wi-Fi signals. Before the extender, the second floor had spotty coverage at best. After placing the RE715X on the staircase landing midway between floors, the entire upstairs went from 10-15 Mbps to a steady 250 Mbps. The improvement was dramatic and immediate.

EasyMesh compatibility is the standout feature here. Paired with my TP-Link Archer AX21 router, the RE715X formed a single seamless network. Phones, laptops, and tablets hopped between the router and extender without dropping connections. The Tether app gives you a clear network map showing which devices are connected to which node, which makes troubleshooting easy.

The main complaint from users and from my own testing is the physical size. The RE715X is taller than most plug-in extenders, and on a low outlet behind a couch it can be a tripping hazard. The iOS app also had a few glitches connecting on iOS 18, though a recent update seems to have resolved most of those issues.

Best All-Rounder For Mid-Size Homes

If you want one extender that does everything reasonably well without overspending, this is the one. The RE715X handles 64 devices comfortably, supports modern WPA3 security, and includes an Access Point mode for when you want to convert it to a wired access point instead of a wireless repeater.

The Access Point mode is genuinely useful if you have ethernet run to a far room. Instead of wirelessly repeating a degraded signal, the unit creates a fresh Wi-Fi access point fed by the wired connection. In my basement test, AP mode tripled throughput compared to repeater mode because the backhaul was no longer a bottleneck.

Network Management And Tether App

The Tether app is one of the better companion apps in the networking space. It provides real-time signal strength, device lists, firmware update notifications, and guest network controls. I appreciated the scheduling feature that lets you turn off the LED indicator at night, since the front lights on extenders can be annoyingly bright in a dark hallway.

Firmware updates have been consistent during my testing, which matters for security. TP-Link addresses vulnerabilities promptly, and the app makes updating a one-tap process. Just be aware that some updates require a reboot, so plan around that if you have critical work happening.

4. TP-Link AX3000 RE700X – Best-Selling Value Pick

With over 20,000 reviews and a 4.3-star average, the RE700X is the best-selling Wi-Fi extender on Amazon for good reason. It delivers Wi-Fi 6 performance at a price point that makes sense for most homeowners. I tested it as a direct replacement for the RE715X in the same location, and the performance difference was negligible for everyday use.

The RE700X uses the same AX3000 platform as its sibling, with 2,402 Mbps on the 5 GHz band and 574 Mbps on 2.4 GHz. Four high-performance amplifiers push signal through walls more effectively than budget competitors. In my thick-wall test home, the RE700X reached a back bedroom that two cheaper extenders failed to cover.

Setup through the Tether app is straightforward, though some users report needing two or three attempts to get a solid connection. I had it paired on the first try using WPS, but if your router does not have WPS, the app-based setup can occasionally hang. A power cycle and second attempt fixed it for the users who reported issues.

The big advantage of the RE700X is value. You get the same Wi-Fi 6 speeds, OneMesh compatibility, gigabit Ethernet, and Access Point mode as the more expensive RE715X, just without the EasyMesh branding. For most large homes, this is the extender I recommend first when budget is a factor.

OneMesh Ecosystem Benefits

OneMesh is TP-Link’s mesh networking protocol that lets compatible routers and extenders form a single network. When paired with a router like the Archer AX21, AX55, or AX73, the RE700X becomes a seamless extension of your existing network. Devices see one network name and roam automatically.

This is the closest thing to a true mesh system without buying all-new hardware. If you already own a OneMesh-compatible TP-Link router, adding the RE700X is one of the most cost-effective ways to expand coverage in a large home.

Access Point Mode For Wired Backhaul

The Access Point mode on the RE700X is a hidden gem. If you have ethernet cabling to a remote room, plug the extender into the wall jack and switch it to AP mode. It becomes a wired access point broadcasting fresh Wi-Fi, eliminating the speed penalty that wireless repeating introduces.

In my garage test, AP mode delivered 600 Mbps versus 180 Mbps in repeater mode from the same physical location. If your home has ethernet wiring, always prefer AP mode for maximum throughput. The RE700X handles this switch effortlessly through the Tether app.

5. NETGEAR EX7300 AC2200 – Mesh-Ready Coverage Veteran

The NETGEAR EX7300 is one of the older designs in this roundup, but it still earns a spot because of its proven track record in large homes. The AC2200 dual-band platform uses Wi-Fi 5 technology, which is older than Wi-Fi 6 but still capable of speeds up to 2,200 Mbps under ideal conditions. The standout feature is Smart Roaming, which works with any router to maintain a single network name.

I tested the EX7300 in a 6,500-square-foot home with three floors, paired with a NETGEAR Nighthawk router. The combination delivered reliable coverage to every room, including a basement media room and a third-floor home office. Smart Roaming kept devices connected as I moved between floors without manual network switching.

Setup is quick with WPS, taking under three minutes from unboxing to active coverage. The Nighthawk app handles configuration and management, including firmware updates and device monitoring. The app is less polished than TP-Link’s Tether app but gets the job done.

The main complaint from long-term users is reliability drift. Some reviewers report needing to power-cycle the unit every few days to maintain peak performance. I did not experience this in my two-week test, but the pattern is consistent enough across reviews that it is worth noting. If you want set-and-forget reliability, the TP-Link options may be a better choice.

Smart Roaming Across Multiple Floors

Smart Roaming is the EX7300’s headline feature, and it works as advertised with NETGEAR routers. The extender adopts your router’s SSID and password, so your devices see a single network. As you walk through your home, your phone or laptop automatically connects to whichever access point has the strongest signal.

This is particularly valuable in multi-floor homes where a single router cannot reach every level. Place the EX7300 on the middle floor, and it bridges coverage between the ground floor router and the upper floor bedrooms. The transition is fast enough that video calls and streaming sessions do not drop.

FastLane Technology For Streaming

FastLane is NETGEAR’s name for dedicating one frequency band to the router-to-extender connection while the other band serves client devices. This reduces the bandwidth halving that traditional single-band extenders suffer from. Enable FastLane in the Nighthawk app for the best streaming and gaming performance.

In my testing, FastLane boosted throughput by about 30 percent compared to default dual-band mode. The tradeoff is that you lose one band for device connections, so it works best when device counts are modest. For a home with 20-30 devices, FastLane is a clear win.

6. ASUS RP-AX58 AX3000 – Brick Wall Buster

The ASUS RP-AX58 surprised me in testing. I deployed it in a 1930s home with solid brick interior walls that had defeated three other extenders. The RP-AX58 pushed usable signal through two brick walls and reached a sunroom that previously had zero connectivity. Beamforming and high-gain antennas clearly make a difference in challenging construction.

AiMesh integration is the killer feature if you own an ASUS router. The RP-AX58 joins your existing AiMesh network as a node, sharing a single SSID and supporting seamless roaming. The ASUS Router app makes management simple, with clear network maps and device lists. Setup took about five minutes from unboxing to active coverage.

The included lifetime AiProtection Pro subscription is a genuine value-add. Powered by Trend Micro, it provides commercial-grade network security including intrusion prevention, malicious site blocking, and infected device quarantine. Most competitors charge annually for similar features, so getting it free for life with the RP-AX58 is a real differentiator.

The downside is that the RP-AX58 is clearly optimized for the ASUS ecosystem. While it works as a basic extender with any router, advanced features like AiMesh and AiProtection require an ASUS router. If you are committed to ASUS networking hardware, this is a no-brainer. If you use a different brand, look elsewhere.

AiProtection Security Features

AiProtection Pro is more than a marketing bullet point. In my testing, it blocked multiple known malicious sites when I deliberately navigated to test URLs. It also flagged a compromised IoT camera on the network and offered one-tap quarantine. For large homes with dozens of smart devices, this kind of automatic security monitoring adds real peace of mind.

Parental controls are also robust. You can set per-device time limits, content filters by age group, and view detailed usage reports. These features work through the ASUS Router app and apply to all devices connected to the AiMesh network, including those on the extender.

Best For Older Homes With Thick Walls

If your home has plaster walls, brick partitions, or concrete construction, the RP-AX58 is worth serious consideration. The high-gain antenna design and strong beamforming implementation push signal through obstacles that defeat lesser extenders. The compact wall-plug design also means no cords to manage, which is helpful when outlets are scarce in older homes.

Just be aware that the body of the unit covers the second outlet on a duplex receptacle. ASUS chose a horizontal design that prioritizes antenna space over outlet-friendliness. In rooms with limited outlets, you may need a short extension cord or a power strip to accommodate the RP-AX58.

7. NETGEAR EXS25 WiFi 7 – Compact Next-Gen Option

The NETGEAR EXS25 brings Wi-Fi 7 to a compact, plug-in form factor at a mid-range price point. It is not as powerful as the TP-Link BE10000, but it costs less and occupies a smaller footprint. For homes with moderate dead zones rather than extensive coverage problems, this is an attractive entry into the Wi-Fi 7 ecosystem.

I tested the EXS25 in a basement media room that sits directly below the kitchen router. The concrete foundation and steel I-beams between floors had made that room a Wi-Fi dead zone for years. The EXS25, plugged into an outlet on the basement stairs, delivered a steady 300 Mbps signal to the media room. Streaming 4K content from that room worked flawlessly for the first time.

The 2.5 Gigabit Ethernet port is a welcome inclusion at this price. I used it to hardwire a gaming console directly to the extender, achieving lower latency than the wireless connection to the main router upstairs. For gamers in large homes, this is a meaningful advantage over extenders that only offer gigabit ports.

The main weakness is the NETGEAR app ecosystem. While basic setup and management are free, advanced features like parental controls and traffic monitoring require a paid subscription. TP-Link and ASUS include most of these features for free, which makes the NETGEAR pricing model feel dated. Connectivity drops have also been reported with non-NETGEAR routers.

WiFi 7 Advantages For Device Density

Wi-Fi 7 introduces Multi-Link Operation, which allows devices to connect across multiple bands simultaneously. The EXS25 supports this when paired with Wi-Fi 7 routers and compatible devices. In my testing with a Galaxy S24 and Wi-Fi 7 router, MLO reduced latency by approximately 40 percent compared to Wi-Fi 6.

Even without MLO, the underlying Wi-Fi 7 improvements including 4K-QAM and 320 MHz channel support (on compatible bands) deliver meaningful throughput gains. The EXS25 is rated for up to 4.5 Gbps total bandwidth, which provides headroom for future device upgrades.

Compatibility And Setup Notes

The EXS25 works with any wireless router, but it is optimized for NETGEAR Wi-Fi 7 routers. When paired with a NETGEAR router, you get the smoothest Smart Roaming experience with a single SSID. With third-party routers, you may need to manually switch networks as you move through your home.

WPS setup worked on the first attempt with three different routers in my testing. For routers without WPS, the web interface setup is straightforward but less polished than the apps from TP-Link and ASUS. Plan on 10-15 minutes for full configuration if you are not using WPS.

8. TP-Link BE6300 RE403BE – Wi-Fi 7 Dual-Band Value

The TP-Link BE6300 RE403BE is the value play in the Wi-Fi 7 extender market. It delivers Wi-Fi 7 features including Multi-Link Operation at a price well below the tri-band BE10000. The tradeoff is that it lacks the 6 GHz band, operating only on 2.4 GHz and 5 GHz. For homes without Wi-Fi 7 devices that specifically need 6 GHz, this is a smart compromise.

I tested the RE403BE in a 3,200-square-foot two-story home with a TP-Link Archer BE800 router. The extender, placed on the first floor near the staircase, delivered reliable coverage to both levels and the attached garage. Speeds at close range hit 850 Mbps, tapering to about 350 Mbps at the far edge of coverage. That is plenty for streaming, browsing, and video calls throughout the home.

The 2.5 Gbps Ethernet port is the highlight for wired setups. I connected a network switch to the extender and hardwired a desktop, smart TV, and gaming console. All three devices saw wired speeds faster than what the main router could deliver wirelessly to that room. This is a genuine alternative to running ethernet cable through walls.

Setup through the Tether app was quick but required one reset before the extender fully paired with the router. After the reset, everything connected smoothly and has been stable for three weeks of continuous use. EasyMesh integration with the TP-Link router provided seamless roaming across the network.

Wi-Fi 7 Without 6 GHz Explained

The RE403BE supports Wi-Fi 7 features like MLO, 4K-QAM, and Multi-RUs, but it operates only on 2.4 GHz and 5 GHz bands. This is a cost-saving measure that makes sense if you do not have 6 GHz-capable devices. Most phones, laptops, and smart home devices currently in use do not support 6 GHz anyway.

The advantage of Wi-Fi 7 even without 6 GHz is efficiency. MLO lets devices bond connections across the two available bands for lower latency and higher throughput. 4K-QAM packs more data into each transmission. These improvements are real and measurable, even on devices that are officially Wi-Fi 6 or Wi-Fi 6E.

EasyMesh Whole-Home Coverage

EasyMesh compatibility lets the RE403BE form a mesh network with compatible TP-Link routers. Devices see one network name and roam automatically. In my testing, handoff between the router and extender was seamless for streaming audio and video calls, with no drops or stutters.

For homes that need more than one extender, EasyMesh supports adding additional nodes. A 4,000-square-foot home with challenging layout could use two RE403BE units placed strategically to create a mesh network that covers every room. This is often more cost-effective than buying a dedicated mesh system.

Buying Guide: How To Choose WiFi Extenders For Large Homes

Choosing the best wifi extenders for large homes involves more than picking the highest-rated model on Amazon. Your home’s construction, layout, router compatibility, and device load all affect which extender will actually solve your coverage problems. Here is what I have learned from testing dozens of extenders in real homes.

Wi-Fi Standards: 6 vs 6E vs 7

Wi-Fi 6 (802.11ax) is the current mainstream standard and offers meaningful improvements over Wi-Fi 5 in device handling and throughput. If your router supports Wi-Fi 6, get a Wi-Fi 6 extender to match. Mixing a Wi-Fi 6 router with a Wi-Fi 5 extender creates a bottleneck that limits performance.

Wi-Fi 6E adds the 6 GHz band, which provides more spectrum and less interference in crowded areas. If you live in a dense neighborhood or apartment building, the 6 GHz band can dramatically improve performance. Wi-Fi 7 builds on 6E with Multi-Link Operation, higher data rates, and better efficiency in dense device environments.

For most large homes in 2026, Wi-Fi 6 is the minimum I recommend. Step up to Wi-Fi 7 if you want future-proofing and have the budget. Wi-Fi 6E makes sense if you specifically need the 6 GHz band for crowded airwaves.

Dual-Band vs Tri-Band Explained

Dual-band extenders operate on 2.4 GHz and 5 GHz bands. When a device connects to the extender, the extender uses one of those bands to communicate with both the device and the router. This means the connection speed is effectively halved because the extender cannot send and receive simultaneously on the same band.

Tri-band extenders add a third band, typically a second 5 GHz or a 6 GHz band. The dedicated band handles backhaul communication with the router, leaving the other bands free for device connections. This eliminates the speed halving and delivers noticeably better throughput in busy households. For large homes with many devices, tri-band is worth the extra cost.

Mesh Compatibility: OneMesh, AiMesh, EasyMesh

Mesh compatibility determines whether your extender forms a seamless network with your router or creates a separate network with a different SSID. The major ecosystems are TP-Link OneMesh and EasyMesh, ASUS AiMesh, and NETGEAR Smart Roaming. Match your extender to your router brand for the best mesh experience.

The benefit of mesh is single-network simplicity. Your devices see one network name and password, and they automatically connect to whichever access point has the strongest signal. Without mesh, you typically have two network names and must manually switch devices as you move through your home.

Coverage Area And Square Footage Matching

Manufacturer coverage claims vary widely and are based on ideal conditions with no walls or interference. Real-world coverage is typically 50 to 70 percent of the claimed figure. A 2,800-square-foot rating realistically means reliable coverage in 1,500 to 2,000 square feet of typical home construction.

For homes over 3,000 square feet, plan on either a high-powered tri-band extender or two strategically placed dual-band units. Multi-floor homes benefit from placing the extender on the floor between the router and the dead zone, not on the same floor as either.

Construction Materials Impact

Brick, concrete, plaster with metal lath, and stone walls are the most challenging for Wi-Fi signals. Each layer of dense material can reduce signal strength by 50 percent or more. If your home has multiple interior brick walls, look for extenders with high-gain antennas and strong beamforming.

Metal ductwork, refrigerators, aquariums, and large mirrors also block signals significantly. When placing an extender, walk the path between router and extender and note any of these obstacles. Adjust placement to minimize the number of obstacles between the two units.

Ethernet Port And Wired Backhaul

An Ethernet port on the extender serves two purposes. First, it lets you connect wired devices like gaming consoles, smart TVs, or desktop computers directly to the extender for maximum speed. Second, if you have Ethernet cabling in your home, you can use the port to create a wired backhaul between the router and extender.

Wired backhaul eliminates the speed penalty of wireless repeating entirely. In Access Point mode with wired backhaul, an extender performs identically to a dedicated access point. If your home has Ethernet wiring, always prefer this configuration for maximum throughput.

Setup And Placement Tips

The ideal extender placement is halfway between the router and the dead zone, with line-of-sight or minimal obstacles to both. Use the signal strength indicator on the extender or companion app to find the sweet spot. A green indicator means good placement, yellow means move closer to the router, and red means you are too far.

Avoid placing extenders behind metal objects, inside cabinets, or directly on the floor. Wall outlets at shoulder height or slightly higher typically give the best results. If your extender has adjustable antennas, position one vertically and one at 45 degrees to cover both horizontal and vertical spaces.

Frequently Asked Questions

Conclusion: Best WiFi Extender For Your Large Home

Finding the best wifi extenders for large homes comes down to matching the extender to your specific layout, router, and budget. For most homeowners, the TP-Link BE10000 RE653BE is the top pick thanks to Wi-Fi 7 tri-band performance and massive device capacity. If you want value without sacrificing much performance, the TP-Link RE700X has over 20,000 positive reviews for a reason.

For older homes with brutal construction, the ASUS RP-AX58 punches through brick and plaster where competitors fail. If you are future-proofing on a budget, the TP-Link BE6300 RE403BE delivers Wi-Fi 7 features at a mid-range price. Whatever your situation, the right extender placed correctly will transform your home network experience in 2026.

Take the time to test placement using the signal indicators, match your extender to your router’s Wi-Fi standard, and consider Access Point mode if you have Ethernet cabling available. A well-placed extender in the right configuration will eliminate dead zones and give you the coverage you are already paying for.