![]() The problem is that while the Synology is much uglier, it offers even more features, similarly impressive performance and costs (gulp) around one-third the price of the XT12, depending on where you are in the world. It’s in a relatively new market segment for prosumers and SMBs that was recently brought to the fore by Synology’s RT6600ax. This makes it one of the most expensive Wi-Fi router/mesh kits available. The Asus ZenWiFi Pro XT12 is available now in most major markets and costs a whopping $800 / £699 / AU$1,499. ASUS ZenWiFi Pro XT12 at Amazon for $999.98 (opens in new tab)Īsus ZenWiFi Pro XT12: Price & availability.Ultimately, all of the SMB boxes are ticked, but even though significant tinkering can be done under the hood, some power users and system admins will want more before they let it take charge of their business’ Wi-Fi. Plus, it’s compatible with Alexa and Google Assistant. There’s also a built-in VPN server, the ability to block protocols like BitTorrent and Target Wake Time which enables networked devices to power-down and save electricity when not being used. Other SMB-friendly features include using up to 12 separate SSIDs to segregate users, although the firewall access control used to manage these separate networks is rather basic. Users can also access a separate Instant Guard app to filter traffic via the router, for security, when browsing using public hotspots. Regularly updated lifetime protection is included. Meanwhile, Asus’ AiProtection Pro (powered by Trend Micro) offers Intrusion Prevention System (IPS) security, WPA3, real-time malware blocking and the usual parental/user controls. Power users and sysadmins will warm to the extensive features accessed via a desktop browser which are also fast to access. The app also enables you to access everything remotely. Setup is simple via the app, which is intuitive and offers excellent monitoring and management tools, including powerful QoS options and a useful Insight tab that offers advice regarding configuration. Next to the secondary node, it scored 609Mbps – just a 3% drop-off and the fastest speed we’ve ever seen from a secondary node! Outside, at the bottom of the garden, however, this dropped to 46.6Mbps, which is still very respectable for a standalone router, but it’s beaten by mesh kits with a third node.īoth towers look impressive with their unique design and glowing graphics. Up close it scored 627Mbps, which is fast but still 100Mbps slower than other top Wi-Fi 6 rivals. We tested next to both nodes and 25m away in the back garden. This involved setting the first node up in the middle room, next to the modem, and the secondary node two rooms away at the front of the house. We ran our usual tests from a Sydney weatherboard cottage. You can also use Ethernet to create the backhaul and free up one of the 5GHz bands. Past experience tells us that dedicated backhaul links make mesh Wi-Fi much faster. You can set which band acts as a dedicated backhaul link between the nodes or leave it (as we did) set on Auto. It utilises a 2.4GHz band and two 5GHz bands for a theoretical maximum throughput of 11,000Mbps. You can see PC 1 will start up after you click it.First: performance. Then fill in the information like below and click BOOT. Run RemoteBoot app on iPhone from the WAN side. On the RemoteBoot app, the IP will be a domain name you registered with DDNS instead of the WAN IP.Ħ. In this case, you may try to set up the DDNS (Dynamic Domain Name Server) on the router following the FAQ. The WAN IP address is a dynamic IP usually and it may change at any time. Now we check the WAN IP address of the Router PC 1 connected. Open a port for PC 1 by port forwarding function such as virtual server. Set Address reservation for PC 1 on our router.Ĥ. We call it PC 1 here.Ģ.Set IP&MAC binding of PC 1 on our router and enable IP&MAC binding function.ģ. Then Enable ShutDown Wake-On-Lan, Wake on Magic Packet and Wake on pattem match.Īfter the settings are done on the computer, we need to do some setting on our Router.ġ.Check MAC address and IP address of the computer need Wake-on-LAN. Turn on the computer and go to Control Panel- Network and Internet- Network and Sharing Center- Local area connection- Properties- Configure- Advanced. Usually this option is in power management menu.Ģ. Then enable ‘Resume by PCI Device’ and ‘Resume by PCI-E Device’. WakeOnLanGui,LanHelper for Windows or RemoteBoot for IOS.ġ. The mainboard and wired network adapter must support Wake-on-LAN feature. It is also possible to initiate the message from another network by using subnet directed broadcasts or a WOL gateway service. The message is usually sent by a program executed on other devices. Wake-on-LAN (WoL) is an Ethernet or Token ring computer networking standard that allows a computer to be turned on or awakened by a network message.
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