How do I get the full speed I’m paying for?

Only Directcom, because our network is 100% Fiber Optic Cable, with no wireless links between you and the cloud, can deliver the entire bandwidth to which you subscribe to the fiber network terminal or router in your home. If you are subscribing to 250 Mbps download, we  deliver a full 250 Mbps to your home. If you are on fiber and aren’t seeing the full advertised speed when you do a speed test on your PC or other device, 99% of the time the bottleneck will be in consumer-grade WiFi equipment inside your home network (like your wireless router) or limitations in the WiFi radio capabilities in your laptop, tablet, smartphone, or TV. (Most consumer-grade g/n wireless routers will only practically deliver around 30Mbps to a smart device via wireless even in the best of conditions.) Thus, a properly -wired home network is essential to maximize all of the advantages of our unique, better and special, state-of-the-art fiber to the home service. (Scroll down for MINIMUM IP NETWORK CABLING REQUIREMENTS.)

#1 Tip: Hard wire everything with Ethernet cable.
#2 Tip: Upgrade your router.

Most g/n wireless routers will only practically deliver around 30mbs to a smart device via wireless. In order to hit your full available new speed, you might need a new a/c router, and definitely hard wire (with Ethernet cable) from your router to your PC, Smart TV, or Media Player to take full advantage of your speeds. The airwaves are very congested in all modern homes, especially in young, vibrant, tech-savvy communities like Eagle Mountain, where everyone has a router broadcasting to multiple devices, and WiFi is simply not going to deliver the full 150 Mbps you are paying for. Hard wire. Hard wire. Hard wire. Call us if you need help hard-wiring.

As all communication moves to IP technology, it’s more important than ever
to make sure the wiring and connections in modern homes are capable of
delivering enough bandwidth to support future internet applications, including
communications, entertainment, and smart-home security, automation, and
control services.

Don’t be fooled into thinking that homes are going wireless. Even the best wireless
systems simply don’t have the bandwidth or reach of a “hard” wire—wireless has
bandwidth limits even in a perfect situation, and traveling through walls drastically
reduces any wireless capabilities. Wireless signals also suffer from interference from
other wireless networks, phones, appliances, radios and electronic devices. A wired
connection is always more reliable and consistent. Cat5e cable can handle up to
1 Gigabit per second speeds, and Cat6 will feed up to 10 Gigabits per second. Our
customers already know that any devices that stream HD video need to be hard
wired to their home router to work properly. HD video is just the start of cloud-based entertainment—within a just couple of
years the data requirements of video will quadruple, once Ultra HD, which has four times the resolution of 1080p HD, becomes the new common video standard.

A properly -wired home network is essential to maximize all of the advantages of our unique, better and special, state-of-the-art
fiber to the home service here in Eagle Mountain. Fiber to the home will increase the value of any home by as much as $5,000, according to the Fiber-to-the-Home Council.* Our investment in constructing fiber to the homes in Eagle Mountain means more money in your pocket. More importantly, fiber to a home means a higher quality of life for homeowners in this digital information age, where so much of what we do to enrich our lives has moved online. More internet speed simply means more fun.

Following are the minimum Ethernet cable installation requirements we recommend for new homes:
1. All communications cabling must be home run to a central hub/network distribution point in the basement
mechanical/utility room. (Usually the room where the furnace and water heater are located.)
2. A ¾” flexible plastic conduit/duct should be installed from an outside termination (demarcation) point, usually
near the outdoor power meter, to the central distribution point inside the basement. Do not use any elbow bends. Direct
Communications will feed fiber optic cable through this conduit from the street to the distribution point inside the home.
This conduit could be useful to the homeowner for various future networking needs, including satellite TV cable. The outside demarcation point, or conduit stub-out, should be 2’ from the power meter, and between 32” to 36” above ground.
3. Telecommunications cables need to be a minimum specification of Cat5e, which will support 1 Gig Ethernet speeds,
but preferably Cat6 should be used, which will support the future multi-Gigabit speeds homeowners will require.
4. A label should be included on each Cat5 Ethernet cable identifying the location at which the wire is terminated.
5. A 24”x24” plywood panel should be secured to the wall in the furnace room at the network distribution point. It is the
builder’s responsibility to supply the wood panel. Direct Communications techs will mount the fiber electronics and power
transformer/battery backup to this board. Direct Communications will supply to each customer an:
a. indoor fiber optical network terminal, (ONT) with
b. 4 x 1 Gigabit Ethernet ports
c. Built in wireless router
d. A 12-port patch panel to distribute voice and Ethernet throughout the home over the wired network. This will allow for
very simple patching to/from routers, switches, multimedia ports, and easy replacement if any develop a fault.
6. The 24” wood panel should be located in the mechanical or utility room, at about chest level, should be easily
accessible, preferably on an open wall, with at least 3’ clearance for our techs to work in, and with a 120V power outlet situated
within a 2’ distance to power the indoor ONT battery backup and router.
7. Two Cat5e cables must be fed from the distribution point, through the wall to the External Termination/Demarcation
Point, (which will be about a 6”x6” fiber junction box) leaving at least 2’ of cable slack at the ETP and at least 3’ of slack at the
inside network distribution point. This is simply to prepare for any future externalities or homeowner networking needs.
8. Two Cat5e cables should be fed from the home distribution hub to each low-voltage outlet position at which
communication services are required.
9. Be sure to wire Ethernet to each future possible TV position, to accommodate Smart TVs and future IPTV needs.
10. Leave at least 8” of cable slack at each outlet.
11. All voice or data jacks should be RJ45 type.
12. When considering where to install outlets or RJ45 data jacks, be sure to consider the following:
a. At least two RJ45 type jacks (one for phone, one for internet) on the same faceplate in each bedroom and normally
occupied room.
b. Two or more such outlets are recommended in the great room and study.
c. Minimum of one outlet per level, including the basement.
13. Wire should be routed through 1/2” drilled holes in wall and ceiling headers or through conduit.
14. Ethernet wiring should not be placed in the same conduit with wires that conduct electricity.
15. RJ45 Jack Placement: Think about where furniture will go in each room, and where a media station (such as an Xbox),
computer, phone, TV, or future smart appliance might be placed when thinking about installing jacks. It’s easier to plan ahead
than for the homeowner to install more Ethernet ports after construction.
16. Wire should not be stapled, kinked or smashed—avoid abrading or puncturing the insulating jacket.
17. Avoid excessively hot locations—heating ducts, hot water pipes, etc.
18. Premium homebuilders might consider also installing indoor fiber optic cable to communication points along with
Cat6 as part of the home wiring package, which will be the best way to future-proof any home network.

2013 home wiring brochure-tabloid

About Brigham Griffin
Brigham Griffin, Marketing Director for Direct Communications, has been with the company since 2005. Brigham has an MBA from the University of Utah, and a BA in Communications from Brigham Young University. He is a Professional in Residence at Utah Valley University, and also serves as an adjunct professor of marketing at Idaho State University.

Leave a Reply

Fill in your details below or click an icon to log in: Logo

You are commenting using your account. Log Out /  Change )

Twitter picture

You are commenting using your Twitter account. Log Out /  Change )

Facebook photo

You are commenting using your Facebook account. Log Out /  Change )

Connecting to %s

%d bloggers like this: