Your tools and materials (and costs) can vary a lot based on your needs and what you already have. I borrowed a lot of the following tools, but here's a very basic, estimated breakdown:
Now that we've (hopefully) got all the stuff we need, lets mount the wall plates!
Pictured above: The cable and new ethernet cables come down the wall in the same space between studs. Note the extra cable length in case of mistakes!
Pictured above: A hole to fit the grommet. It's a nice professional-looking touch.
Step 4: Measure and Run the Cables
Pictured above: Hole drilled in the top plate of the wall. String dropped down with a bolt tied to it so I could pull up the cables.
There are a number of ways to do this. You can estimate, measure from floor plans, run one, etc. I used the run one method. To find the lengths required for each run, I ran one cable to each room from the distribution room, pulled it out, and made three more like it. After that, you can run all four together. You'll also want to label both ends of each cable with a sharpie. This way you can label the ports on both ends.
Before you can do this, however, you need to drill through the wall top plates so that you can drop the cables into the walls where you've cut the holes. Finding the right place to drill in the top plate (to make sure you get in the right 16" gap between studs) can be tricky. This is another reason I decided to follow the coax cables for cable TV. I traced down the cable TV through that attic and then drilled new holes in the top plate right next to the cable TV holes. You'll need a powerful drill and either a paddle bit or a hole saw for this. The hole saw is easier but the paddle bit is cheaper. I used a 1 1/4" paddle bit and it was hard to control and strained the drill at times. You can also opt to drill multiple small holes and use one for each cable?although this makes running them a bit harder since you can't tape the bundle together.
Once you have the top holes drilled you can string out some cable to measure how much for each run, then cut three more equal lengths per run, and re-run the cables. Be sure to make them long enough that you have some extra from stripping and crimping accidents. It's always easy to tuck extra length into the wall.
Next up: making connections.
Step 5: Connect the Wires to the Jacks and Patch Panel
Pictured above: RJ-45 plug diagram.
Now the we've got the cables run we can punch down the the cables to the patch panel and the to jacks. I noted in the materials that a patch panel was optional. You can take the raw cable directly out of the wall, put a RJ-45 plug on it, and plug directly into the switch. But for permanent installation, I feel it's much more professional to mount a patch panel.
Pictured above: Cables punched down to the back of the patch panel.
This is pretty easy. Most patch panels and jacks have diagrams with wire color diagrams for the common T568A and T568B wiring standards. To be honest, I don't know if either would work. I've seen "A" used for ISDN before, but in looking at the T568B color guide I recognized it as the same as the tons of patch cables I've made before. So I went with it. Make sure you use the same on both ends. You can use the punch down tool or a small screw driver to punch the individual wires.
Once you have all the cables connected, you can mount the patch panel to the wall and click the jacks into their respective wall plates on the other ends. You can also screw the wall plates into the gang boxes.
Pictured above: Short patch cables up to the switch. The aluminum is the bottom of the shelf that the switch sits on.
Now we can make sure things work!
Step 6: Test Your Connections
Pictured above: Testing 1,2,3...
Before you start connecting most of the network components, you want to test all of the connections to be sure things are working. This can be done a number of ways. If you actually have a network tester, then you probably know what you're doing. You're on your own. The method I used was a little different.
I plugged a short patch cable from my patch panel to each port on my switch and turned it on. Since it's a managed switch, I set each port to be "up/up" and "auto negotiate." Unmanaged switches will not need to configure anything.
The next step is to take another patch cable and a laptop and plug it into each port in each room. Check the switch after each port and verify the "link" indicator is on. Being able to establish a link tests the physical layer (i.e. no broken wires, all tight crimps, no crossed wires), as well as the data link layer (i.e. negotiation between network card and switch port). No IP addressing or anything needed for testing.
Pictured above: Neat and clean lables for each port actually go where they say they do. MB = Master Bedroom, SB = Second Bedroom, etc.
This is also a good time to make sure your labeling matches on both ends. For example, you can make sure that "Master Bedroom Port 2" on your patch panel actually goes to the second port in the master bedroom.
Now, to the internet, and beyond!
Step 7: Connect to the Internet
Pictured above: Cable gets split to: 1. Main TV, 2. Cable Modem, 3. Second splitter. Second Splitter goes to each bedroom. I'm less concerned about signal degradation there but the runs are short enough that I don't need amplifiers.
Now that we've got this fancy network, we want to connect it to the internet right?
First: the cable modem setup. Since I moved my cable modem from my second bedroom (office) to the distribution room, I needed to change the way my cable was split. Rather than the main cable into the house being split three ways, I split things a little differently. I split the incoming cable with a three-way splitter first: one to the main TV, one to the two-way splitter for TV in the bedrooms, and the other into the cable modem. I connected the splitters using a male-male barrel connector.
Now that the cable modem is in the right place we can continue with our network setup. Depending on your internet provider some of this setup may vary. (I'm going to discuss the specifics of my environment only, but will provide tips for others when possible.)
From the cable modem ethernet port I plugged into the "Untrusted" port on my router/firewall. From the "Trusted" port, I connected to the first switch port on my switch. If your switch has one, plug into the port labeled "Uplink" instead. Depending on the switch or cable modem and/or router, you may need (or already have) crossover cables for these connections. With my router/firewall set up as a DHCP server I can now provide each port access to the internet. In addition, my entire network is protected from outside access by the firewall.
Pictured above from top left: Firewall, Cable Modem, Wireless Access Point, 24 port managed 100 megabit switch, cable management and patch panel.
Although it's not integral to this instructable, I also plugged a wireless access point into my switch so that I can have wireless access as well. Since my wireless is both encrypted and has MAC filtering, I feel comfortable with it on the "trusted" side of my firewall. If for some reason I wanted to provide open wireless access but still protect my network, I would need a different configuration of connections. (I won't go into detail about these changes but I wanted to note them depending on what your network goals are and how they might incorporate wireless access.)
In summary, my firewall receives my single, static IP from my ISP cable modem. It also acts as a router and provides DHCP IP addresses to all other hosts on my private network via the switch and cabling we just installed.
What the hell do we do with it now?!? NEXT!
Step 8: Make Your Geek Friends Drool with These Cool Options
There are some cool additions that you can make to your home network that will make your geek friends jealous.1. File server or NAS. I added and mounted a 1U file server in the distribution room that holds all of my multimedia. This includes a mirrored RAID with 1TB of storage for music, movies, TV shows, etc. (RAID is not a backup, but I feel better about not losing my media if a hard drive takes a dump) With this I can stream media to any computers on my network! A SOHO NAS device such as Netgear's ReadyNAS also works well here, but I've found that their network performance (of NAS devices, NOT specifically the ReadyNAS which I've heard is tha' bomb) doesn't approach the gigabit speeds their network interfaces can negotiate. *Editor's note: Learn how to turn an old computer into a NAS here.
2. XBMC. I have both of my Xboxes (yes the originals, no 360 yet) soft modded with XBMC loaded on them. They're also configured with the DVD remote receivers for Xbox so I can control them from the Harmony. This allows me to stream all the multimedia on my server to either of my TVs! No more is watching Hulu or other media limited to just my computer screens.
3. Gigabit switch. I touched on this before, but upgrading to a gigabit switch allows super fast file sharing between machines on your home network. It's probably overkill but so is a Bugatti and we all want one of those. If you can't afford one with enough ports for your entire network, you can segregate two networks. With the patch panel, you could plug port one and two from each four-port location into the gigabit switch and the other two into the slower switch. But come on, you might as well blow the money and get the whole shebang!
4. DVR anywhere. With a file server set up, you can also install a bunch of DVR cards in it. Each card can record different shows from your cable and store them on the file server. You can then watch your recorded shows on any TV in your house with XBMC. Assuming you set up the routing and or VPN access, you can access those shows from a laptop with decent bandwidth anywhere.
*Editor's note: Not sure what TV tuner is right for your DIY DVR? We can help.5. IP phones. Some manufacturers are making IP-based telephones that can connect to the internet. Who still has a home phone!?! But if you need one, at least you can skip the phone company bill.
6. IP Cameras. You can put security cameras in any room that you've run network drops to and record them to your file server. No more worrying if the babysitter is shaking your kids or snooping in your bedroom.
*Editor's note: Need some help setting up your surveillance system? Everything you should know is here.7. Be creative!
How to Wire Your House With Cat-5 (or 6) For Ethernet Networking | Instructables
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