Even at 80 feet, the signals were accessible. While separating the test device by 50 feet, the maximum it could deliver was 1074 Mbps for downloads and 948 Mbps for uploads. And the uploads raked at about 1.58 Gbps. To measure the performance, I used my MacBook Pro and AT&T Fiber 2 Gig plan, and it blasted through its competitors.Īt 20 feet, MX8502 could move up to 1.79 Gbps of data for downloads to the receiving device. Over a week of using it as a primary device, the mesh router turned out a reliable data companion. Here the share of each band is as follows: 6 GHz: 4804 Mbps Linksys MX8502 is one of the few WiFi 6e mesh routers with a massive throughput of AX8400, i.e., 8400 Mbps. Plus, OFDMA further lets you connect up to 95 smart devices in a jiffy. The credit is primarily attributed to the beamforming tech that works with MU-MIMO and smart antennas to foster direct communication between transmitter and receiver. Without any surprise, the mesh system could handle it without breaking the connections at any point. I had the opportunity to test it out in one of my client’s 5,600 Sq Ft buildings with thick concrete walls and metal doors. And with as many as twelve antennas, the theoretical range of two-unit Linksys MX8502 maxes out at 6,000 Sq Ft. When it comes to filling up a large home with strong signals, mesh systems stay clear of any other networking devices. Bringing the WiFi 6E with a 6 GHz band into action, it pushes further ahead of its competitors and fills your thick-walled house with stable signals.īesides, there’s a 5 Gbps WAN port for accommodating multi-gig connections and the latest USB 3.1 port, a rare sight in mesh routers. Having my AP's in the hallways means there's usually only one wall with minimal stuff in it between a device and the AP, so each device usually reports at least several hundred megabits of throughput possible.By hosting a plethora of top-shelf features, Linksys takes the #1 spot, probably for the first time. Having things physically closer usually results in better average SNR, meaning higher speeds for everything on the channel.Īlso, as others have mentioned 5GHz might make it through a wall without a lot of stuff in it, but its not going to penetrate very well through several walls. Also, your device may show it has good signal strength but it might be poor quality (bad SNR) so in reality its a poor link speed. I can have several devices running at several hundred megabits of quality, but a single device being really slow bogs down the channel and suddenly everything else starts getting lots of jitter and overall poor network performance despite most devices having good signal quality. One important thing to think about when planning your WiFi deployment is if you have things that have poor connectivity, everything on that channel suffers. Because I now have two AP's running on different channels I've effectively doubled my network throughput overall. I run them at lower power so I don't have an excessive amount of RF blasting into neighbor's homes, but I still get good signal quality to/from each AP. These AP's being in the hallways on opposite sides of my home. I run two AP's hard wired to the PoE switch in my closet. It resulted in the elimination of almost all guest complaints about the wireless network. I have noticed an huge increase in quality and snappiness of FaceTime and other high up and down bandwidth activities once I added more access points so that connections are going through only 2 or 3 walls.įor another reference, I have a hotel that needed to upgrade its network to meet the brand standards for signal strength in all the rooms, and we had to end up installing 6 access points in the drop ceiling of each hallway 15 guest rooms in length (each guest room is ~15ft wide, so the corridor was ~225ft long). Second problem is can the mobile device you’re using return that signal through all those walls to the access point. Even 2.4GHz is considerably slowed by 2 or 3 drywall/plywood obstructions. That’s not my experience, all the way from Meraki enterprise access points to the standard consumer WRT54GL.įirst problem is 5GHz is terrible at going through walls, I don’t believe it will even go through a single brick wall and maintain decent bandwidth.
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