What can cat5 cable be used for Tunos / 05.02.202105.02.2021 FAQ Section Category 5 cable, aka Cat 5, is a twisted cable built for computer networks. Since , the most popular type of Cat 5 cable is the Cat 5e cable. It is a standard cable that provides performance for up to MHz. Its other uses include carrying signals for telephones and video. Cat5e ethernet cable can used in various lengths in the home networking environment as well. For example, if you have a high speed internet connection, such as DSL or Cable, you will have a modem supplied to you by the service provider. This high-speed modem will, in most cases, have and ethernet connection as the output to your computer. Whether you call it Cat5, Cat-5, Cat5e, or even the newfangled Cat6, it remains the best cable in modern history. Never has the humble element Cu copper been so adaptable, flexible, and amazingly helpful in so many areas. This article explains how you can utilize Category 5 cabling to how to apply makeup for work just about any kind of multimedia or network signal over short, medium or long distances, and many tidbits of extremely helpful information and links to products to help make your life much easier. Cat5 cable is not just for networking. It's not your father's cable. It's amazing, and it's right here, now. Expand your horizons and run a few extra Cat5 cables around your building—you never know when you'll need them! For a basic primer on Cat 5 wiring standards, connectors, pinoutsat least, with regard to networking and RJ connections, please check out the Cat-5 wiring page, hosted elsewhere. Louis, uses Cat5 cable inside to run XLR mic-level signals to and from different parts of the cathedral. These cables were used for broadcast-quality audio for different events. Another word for shielded Cat5 cable is "8-pair 24 AWG speaker wire. I simply terminate the Cat5 wires into standard RCA jacks, and then put them into the backs of my bedroom speakers. Since these speakers are rated at 10W RMS, and I don't have rock concerts in my room, I don't worry about the wire not holding up to the signal. It sounds great, and there's no interference at all! I wouldn't recommend using Cat5 for any kind of high-end or high-power sound system, though But it's great in a pinch! HDMI is a relatively high-bandwidth video standard, meaning it requires more than one Cat5 cable to send a full p signal Here are a few adapters you could use to do it:. VGA might be the older standard for computer and HD video display, but it works what can cat5 cable be used for practically any device—no matter how new or old—and is the standard for things like projection, PC inputs on HDTVs, what is the backdoor virus. I posted a writeup elsewhere on this site concerning the best way to get an analog Composite signal RBG over Cat5 cable. Standard video signals analog can be sent over the twisted pairs of a Cat5 cable for very long distances, and if you use Cat5e or shielded twisted pair cabling, you can go even further! In many churches and auditoriums, our cable of choice for video distribution is always Cat5. You can run USB cables most things, especially what can cat5 cable be used for they don't use power—like infrared receivers, printers, etc. Something like one of the following:. Everything over Cat5 Cable. A few examples: The Archdiocese of St. Louis uses Cat5e cabling to run balanced mic and line-level audio signals through it's massive Cathedral. S-Video or Composite Video Over Cat5 Standard video signals analog can be sent over the twisted pairs of a Cat5 cable for very long distances, and if you use Cat5e or shielded twisted pair cabling, you can go even further! Articles on Professional Video and Audio Distribution. How to protect your network and cabling outside Mar 12, · One of the largest Cathedrals in the United States, the Cathedral Basilica of St. Louis, uses Cat5 cable inside to run XLR mic-level signals to and from different parts of the cathedral. These cables were used for broadcast-quality audio for different events. Jun 03, · The Cat5E (PLEASE tell me it's Cat5E and not Cat) could be used for IP things (such as IP speakers, wireless access points, PoE lighting, etc). Network cable can be used for a lot of stuff but I'd advise running new wiring Just my 2 cents. Feb 24, · Ethernet cabling can provide a faster and longer distance approach to home networking than Wi-Fi, but don't skimp on the cables. Cat 5e . When you think of home networking, your thoughts naturally turn to Wi-Fi and the ability to move data throughout a house or apartment over nothing more than thin air. There's another way that, for some scenarios, is not only easier and more reliable, but potentially faster: use Ethernet cables to move the data to and fro. After all, even the best Wi-Fi routers have often unused Ethernet ports that, with the right cable, can routinely move upward of 1 Gigabit per second Gbps and as far as feet, surpassing Wi-Fi's abilities. While my family connects its phones, tablets and notebooks over Wi-Fi, we also use wired networking for printers, scanners, access points, network storage and an internet radio. And it's the simple, but often little understood Ethernet cable that makes it work. There's nothing like the satisfying click when an Ethernet cable's RJ connector snaps into place, ready to move data. At the most basic level, getting top speed out of wired networking relies on three things: the router's speed, the capabilities of the device that is using the data and, of course, the cable's data-carrying capacity. But all Ethernet cables are not created equal. In this primer I'll describe the capacity and the construction of the major eight classes of cabling. The cable evolution has been surprisingly fast, with the ability to deliver data rising by a factor of more than 10, With all the change, one constant has been that every generation of cabling has required higher and higher frequencies that can carry greater and greater amounts of data. Along the way, this added the need for better insulation and shielding to reduce interference. Set the Wayback Machine to the late s. Hair was bigger, shoulders were padded and early networkers were using either coaxial cable or what came to be called Category 1 cable. Also called voice-grade cable, it was generally composed of insulated telephone wires twisted into pairs to reduce crosstalk and covered in a plastic jacket. Capable of carrying a 10KHz signal, Category 1 cable could deliver upward of 1Mbps of data for early networkers. This standard gave way to Category 2 cabling, which carried 4Mbps with a 1MHz signal. Fast-forward to the early s and Category 3 cable , which is often called the first modern networking cable, boosted the cable's frequency to 16MHz and Ethernet performance to 10Mbps. By contrast, Category 4 cable pushed this to 20Mhz and roughly 16Mbps but it was used for Token Ring — rather than Ethernet — networks. The year brought not only Microsoft's Windows 95 but Category 5 cable as well. It could reliably convey Mbps of data at a frequency of MHz over feet. Soon after, Cat 5e cable emerged with the ability to speed data with 1Gbps throughput. Category 6 cable appeared at the start of the 21st century and remains popular with home networkers. Category 6 runs at up to MHz and sometimes used shielding around the bundle of data-carrying wires to reduce interference. Capable of moving up to 1Gbps over feet, or 10Gbps for about half that, Cat 6A upgraded the spec to MHz for feet of 1Gbps throughput. See our primer on Gigabit-speed internet to learn why that 1Gbps threshold is so important. Although it's not recognized by the Telecommunications Industry Association TIA , Category 7 cable debuted in and is aimed at data centers and server rooms where top speed counts. Each cable is double-shielded: around each pair of wires and an overall shield around the entire bundle of wires. This extra isolation is needed because the MHz frequency used can push a maximum of 10Gbps over feet. More recently, the introduction of Cat 7A cable increases the speed to 1GHz and throughput to 40Gbps, but tops out at feet. Finally, Category 8 is the new spec on the cable block. Also aimed at data centers and requiring high-speed gear, the cables run at 1- or 2GHz and can move up to 40Gbps. They require double-shielding, metal-jacketed connectors and are limited to runs of feet. Happily, despite increasing speed, complexity and sophistication, the cables remain backward compatible. The best advice I can give you is to splurge and get the newest and highest data-carrying cable available. It might cost a little more and use complicated connectors, but the latest gear will not only speed your data along but will also work with older devices. See our guide to figuring out what internet speed you need in your home. If you have any question about what kind of cable you have, check out the specs printed on the side of the plastic jacket, as seen here. Bottom line: From its Cat 6 designation, we know that this cable can deliver up to 1Gbps — plenty for most connected households. Speaking of connected homes, I'm planning a major rewiring of the Cat 5e Ethernet cabling in most of my home and I'm inclined to jump to the next-gen Category 8 cabling. Today, I don't need anything remotely close to 40Gbps of bandwidth, and I don't have the router needed to feed data at that speed, but the extra cost is small. I am, however, hoping that it will buy me an extra decade before obsolescence sets in. As Cat 9 and 10 will surely come along, it's worth wondering what the next generation of wired connectivity will look like. Many homes already get blazing internet speeds via Fiber to the Home FTTH , but the current technology limits them to copper Ethernet cables to then connect to the router, access points and other networking accessories. The next step could be to extend fiber's reach to inside the home with the ability to carry thousands of times more data than copper wires can today. This should satisfy the data hogs among us. But don't count out copper cables so quickly. With the current upper limit of 40Gbps, copper Ethernet cables are still hundreds of times faster than the broadband data connection that most families — including my own — have. Hopefully, that will change too, resulting in a golden age of high-speed home networking. Ethernet cabling can provide a faster and longer distance approach to home networking than Wi-Fi, but don't skimp on the cables. Cat 5e may be popular, and adequate for today's more basic connectivity needs, but you can future-proof your cabling by getting the fastest specs you can. Today, that means using Category 6 or 7 for up to 10Gbps of throughput. The difference in cost is minimal, but the level of performance is drastically better, and will be for years to come. Tom's Guide. Please deactivate your ad blocker in order to see our subscription offer. See all comments 0. No comments yet Comment from the forums.