Failing to determine a network’s needs before buying a router.
Most people buying networking gear (especially wireless equipment) are just looking to provide Internet access for a new notebook, phone or tablet.
Problems arise when they don’t consider the amount of coverage they may need, how many other devices might connect to the network and the types of walls/floors they have in their home. The fix: Do some pre-planning, and know the layout (square footage) of the home you want to cover.
In addition, read the user manual (not just the Quick Start Guide). There are tons of features in modern residential routers – even if you don’t use all of them, it’s beneficial to be familiar with them.
For example, it’s great to know how to add an external drive or a printer to a router, or delve into basic QoS prioritization settings.
Not recording older router settings before upgrading.
When most customers want to upgrade their router from an old system to the newer one, they often tend to rip-and-replace without writing down information like usernames, passwords and other settings.
This creates more work in configuring the new router, especially for things like port forwarding and QoS prioritization. The fix: When performing the initial setup, write down the old router’s settings, passcode and any other customized settings.
This is especially important if you want to make it easier for client devices (like phones, tablets, notebooks) to access the new router once it’s configured. Create a spreadsheet that tracks your network’s IP addresses, SSIDs, passwords and other important information.
Make it clear not only for yourself, but for spouses/friends who might need to fix/reset your network if you’re away on a trip (usually the most-likely time of a home network failure).
Poor router placement.
Many people often place their home wireless routers in a corner, on a shelf or even inside a metal cabinet. This can severely limit the wireless performance of the router.
The fix: Most vendors recommend placing the router in an open space – hallways are optimal – and to be as close to the center to the home as possible. The higher up the antenna, the better.
Figure out where you’re going to need most of the wireless network coverage (living room, den or kids’ bedroom?), and place the router there if possible.
If you can’t place the router in an optimal location, look into wireless range extenders or powerline adapters to help boost the dead spots that non-optimal placement may create.
Connecting a new wireless router to an existing home network without powering down the broadband router.
Many home network modems will lock to the first media access control address they see on the network, and won’t give another IP address to a new router unless a new power cycle occurs.
The fix: Power down the modem when connecting a new system. Then power up the modem, wait two minutes, then power up the new router.
Plugging the Ethernet cable from the modem to the router into a LAN port instead of the WAN/Internet port.
This might be considered a rookie mistake, but it’s likely the one that most vendors hear about, or is the first recommendation when they get on the phone with customers.
Plugging the cable into the incorrect port prevents the router from acquiring an Internet connection, which is required for further configuration for many of today’s wireless routers.
The fix: When going from your broadband modem to the router, make sure it goes into the WAN/Internet port of the wireless router.
Note, however, that you can add a secondary router, configured as an access point, to get more channels; in this case, plugging in the new router to a LAN port is essential.
Our advice: assign static IP addresses to your infrastructure gear (routers, switches, adapters, even printers) and use DHCP only for clients (notebooks, desktops, tablets, phones, etc.). Static IP addresses for infrastructure makes it easier to login to it for configuration.
Leaving everything to default mode.
The biggest error here is not configuring Wi-Fi security (leaving an open network is the cardinal sin of Wi-Fi routers), but this can also include not changing the default password to get into the router itself (many people know the admin (username) / password (password) backdoor).
Also – turn off remote management. If you’re noticing performance issues with Wi-Fi, change the channel for the Wi-Fi frequency – most routers pick a default channel, which most likely is the same channel number as your neighbors.
Free tools can help you analyze your home network’s wireless signal strength to help you determine channels with less “noise”. The fix: Change your router’s password, the SSID name and password (enable the security!) and adjust Wi-Fi channel settings for optimal performance/coverage.
If your router provides a guest access feature, disable it if you don’t plan on using it; change the password if you do plan on using it, and turn it back off after your guest leaves. And write everything down!
Not enabling device sharing options, or setting a “public” policy when attaching a new device to the network.
For Windows systems, adding a new device to the network brings up a pop-up box that asks the user if the connection is “Public”, “Work” or “Home” – if a user mistakenly chooses “Public”, then the system prevents sharing features on that device.
This becomes a problem when the user tries to connect to a networked printer, and the phone call to tech support occurs. The fix: When connecting new Windows machines to the network, make sure the policy is set to “Home”, to allow sharing.
Check file sharing and network-device access settings to make sure connected devices can talk to other devices (such as printers).
Having older Wi-Fi devices on the network that bring down the new router’s performance.
Many users upgrade their router to newer standards (such as 802.11n or 802.11ac), but fail to realize that older clients accessing the network will bring down the overall performance of the network.
That old cell phone or laptop that you use occasionally may be bringing down your performance, because wireless systems act on the “lowest common denominator” principle, setting the router’s performance to the standard with the lowest possible top speed.
The fix: Remove (or upgrade) any older client devices (especially 802.11b) that may still be on the network. You can also configure some routers to operate in an “802.11n only” or “802.11ac only” mode, which will prevent older devices from accessing the faster network.
Not checking the router regularly for firmware updates.
While this has changed recently with some software that can more easily check for updates, a majority of routers don’t change their firmware automatically.
Important functions, updates and new settings can greatly improve a router’s performance – especially for newer routers that receive updates once new Wi-Fi standards are approved and finalized.
The fix: Unfortunately, updating the firmware on a router is still a manual process, requiring users to go to the manufacturer’s website, downloading new firmware and then updating with a computer connected directly to the router via Ethernet.
While some routers include browser software that lets users check for updates, firmware updating is still a tough process for many users, so in all likelihood they end up not updating the firmware.
Jumping too soon to the “hard reset” option.
Most routers have a “hard reset” button, a small area on the back that can be accessed via a pushpin or paper clip, which returns the unit to the default settings.
While this sometimes is a user’s only option should something go wrong, too many users jump to the hard reset before trying something else.
The problem is that when a device resets, all information that was entered by the user during configuration is lost, including information like the ISP username, password, IP addresses, security keys, and ports/services that were opened.
The fix: If you are well prepared by writing down all this information in advance, doing a hard reset shouldn’t be too much of an issue. But it could create more work than is needed through other fixes.