A Home network system come in two basic types. These are cabled (or wired) or wireless. Whichever type home network system you opt for, you basically find out that they both will have some of the same types of equipment, although the specifics will differ between the two.
For any two parts of the network to talk to each other, there has to be a route between them. In a wired network, this is done by physical means – the cables (generally cat 5 or Ethernet cables). These cables come in lengths varying from a few feet to hundreds of yards long. There is a limit to how long a cable can be before a router or a switch must be put in between cables; however, this is a lot longer than most people setting up a home network will need to be concerned with.
With a wireless network, you can’t see the path between components, but they are no less real. Instead of cables, radio waves carry data. Though they may be affected by interference, just as a radio or TV signal, this is almost never an issue in a home network, almost never. Be aware though that metal inside your walls, microwaves, solar flares and the like can interfere with a wireless signal. Even walls can reduce the strength of a wireless signal.
When setting up our home network, you’ll need some equipment to send and receive the signals that will be carried, whether by radio or cables. A network interface card (or NIC), typically an Ethernet card is one component that you will need. These are common and very inexpensive and come in different range of speeds, anywhere between 10MB and 1 GB. The speeds depend on the card you use – a 802.11g wireless network works at 54MB per second, while a 802.11b network runs at 11MB per second. As prices keep dropping, the lower speeds are becoming less commonly seen.
A network interface card can be either cabled or wireless. The cards in two different devices on a network are hardly ever connected directly by cables, but rather are connected to a switch or a router.A switch is a simple device; it’s like a box with ports for the Ethernet cables to connect to. They are extremely inexpensive and work well for networks which don’t need an internet connection. Routers are more commonly used these days though; sometimes multiple routers will be used by home network builders.
A router does exactly as the name implies; it directs network traffic. It performs this function by means of IP addresses and software created for sending and receiving data between devices. Routers can be either wireless or cabled. Each can be found in many different models from different manufacturers. There are different built in software’s with different functionality; some feature antivirus software built in. These routers differ in their number of ports (which decides how many devices can be plugged in to the router). There is also a difference in the speeds at which they operate; they may not run at the speed they are rated at. For instance, a router rated at 54MB may actually run at 6MB.
There are other components which will be part of your home network, such as a cable, DSL or satellite modem for internet connection. The devices listed above are what you’ll need to get started though with the basic set up of your home networks system..
By: Joseph Nyamache
Posts Tagged ‘802 11b’
Setting a Home Network System
February 10th, 2010Wireless Network Installation In Larger Up Scale Homes
December 18th, 2009
A regular two story single family homes wireless installation usually only will require one wireless router placed centrally in the home. The newer trend that Schaumuburg Computer Repair faces is the new mega tear down homes that are all brick and have three floors with over 4,000 square feet. The question is how do I give the customer the best wireless coverage for the least price.
Standards Tutorial: 802.11b is old don’t use it. 802.11g runs at a reported 54mbps but actual throughput is 22 mbps, it has greater range than 802.11a. 802.11a is mostly used in areas where there are many wireless access points already such as business offices. Also 802.11a network can have more co-located wireless access points because 802.11a has 8 non-overlapping channels while 802.11g has only 3. 802.11n is only a draft version at this point so do not purchase draft n products. I do recommend purchasing 802.11g wireless access point with MIMO (Multi-in Multi out) technology. These access points are configured with two radios, which allow them to send and receive at the same time.
Phase one: Coverage Area – Defining coverage area for the home is very important because defining areas to blanket can effect the customers cost. We have many customers that do a lot of work in detached garages and basements but many people use wireless in only one room. So the rule of thumb is the more areas the need wireless coverage the higher the price for the customer.
Phase two: Site Survey – Perform a site survey to find out what other wireless networks are in the area. This is very important because in might impact whether you install a 802.11g wireless network or a 802.11a wireless network. If we perform a site survey and find many 802.11g wireless networks on varies channels it might be better to install a 802.11a wireless network which runs on a different frequency. Knowing what channels other networks are running on is very important because each one of your wireless access points will need to run on a different channel. 802.11g standards have only three non-overlapping channels, which are 1,6 and 11 while 802.11a has eight non-overlapping channels. The rule of thumb to follow is that 802.11g is subject to more interference but has greater range than 802.11a.
Phase threee: Distibution system – Now you need to decide how you’re going to distribute your wireless network throughout the home. A wireless access point acts a wireless wire so you will still find a method to get a network connection to that wireless access point. You have three options: running network cables throughout the house (The worst option), setting up power line Ethernet, or setting wireless repeaters or bridges. Running network cables is your last option because it requires drilling and time, which equals more cost. Power line Ethernet is great because it turns your power outlets into network cables. All you have two do is plug in one power line adapter by your internet connected wireless router and then plug in adapters throughout the house where you need wireless access points plugged in. Then your final option is to set up wireless repeaters to which will extend your original signal through out your house.
Phase four: Access point Placement – Your first access points should be in the most central parts of the home with supplemental wireless access points placed in hard to reach areas. Keep the wireless access points away from large metal objects and if the wireless access point can’t be placed in a central location use directional antennas to point the wireless signal internally instead of outside.
Phase five: Wireless access point Configuration – Your site survey will have revealed that 99% of the population purchases a wireless access point from best buy plugs it in and leaves all the defaults. So that means that their SSID is linksys and the wireless router / access point are on channel 6. Our larger home wireless network will need two to three wireless access points so we will configure our first two wireless access points on channels 1 and 11. If a third one is needed then you can use channel 6; just make sure user connections aren’t dropped after the wireless clients are configured. Next you will want to name your wireless network (SSID). Choose a obscure name like house, a color or some thing that can’t link the network with the family. The reason for that many people have their SSID as there last name and the there network key the same or a pet or child’s name. The more hacker knows about the family the easier it will be to hack the network
Phase 6: Security – You will want to use AES encryption with WPA2 handling for the majority of wireless networks. If your clients are going to be gaming over the wireless network you could consider using WEP 128 because on older wireless access points AES encryption is processor intensive. The myth is that wireless encryption can be hacked in five minutes which is true if you have enough network packets to crack. The whole process is collecting the packets then cracking those packets, the collection of those packets could take weeks if not months. Then after the packets are collected the encryption has to be cracked.
By: Eric Meyer
