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High signal frequencies make it important to know which type of network cabling you should send them through. While sending a standard 60-cycle utility power through a wire presents no difficulty at all, sending a signal of 100 million bits per second can become a hazard if you do not use the correct cabling materials. When it comes to sending signals, the type of Utah network cabling you use can make the difference between easy and tricky. Luckily, there are a number of cabling options available for all types of networking connections. Unshielded Twisted pair (UTP) – This type of cable is primarily the most widely used cable for networks because it is inexpensive and very easy to install. However, the UTP cable comes with limited bandwidth. Manufacturers have developed a higher grade level of cables, but they tend to be more expensive and harder to install. You will have to weight your options and decide for yourself whether an inexpensive product or a lot of bandwidth is most important for your unique situation. Screened Twisted pair (ScTP) – This type of cable is similar to the UTP cable because it comes with an overall shield around the 4 pairs. This cable is used primarily in locations where EMI is of greater concern. It was not built for any specific type of network, which is why it tends to be more expensive, harder to terminate, and requires special equipment to use them. Currently, this cable is primarily used in European countries. Shielded Twisted Pair (STP) – This cable is also similar to the UTP cable, only it has shields around every pair and is widely used in IBM systems. Coaxial Cables – You’re looking at the original Ethernet, primarily used in CATV systems. Because this cable is mostly for residential use, it is familiar to most people, easy to install, and has great bandwidth. However, it also tends to be more expensive and bulky. Optical Fiber – This cable is optional for most networks and is considered to have the best performance, excellent bandwidth, a very long life span, and excellent security. However, this cable costs slightly more to install than a standard twisted pair cable, and they work the best with more expensive electronics and equipment. If you would rather have an environment that deals with fewer cables, there are a couple of other transmission options for you to choose from that work as well as any of the above cable options. Wireless – Despite its name, this method is not actually entirely wireless. You do not need any cables to connect any individual terminal with the wireless option, but you do still need cables running to every antenna (called an Access Point). A terminal can be moved to any location as long as it remains within the range of the radio signals. While this method tends to be more expensive, it is a great solution for areas where it would be difficult to install of bunch of cables. It allows a great deal of mobility, which is something a lot of users are looking for these days. People do not want to be “tethered” to their desktop. Infrared Transmission – This method will also transmit signals to the terminal without the use of cables by using infrared (IR) light. However, each transmitter requires cabling. You can send data from one place to another by sending pulses of infrared light in the same patterns as electronic pulses sent over cables. Networks based on IR transmission have been developed for use in office and for line-of-sight transmissions between buildings. How well your Utah network cabling performs is based heavily on how well it has been installed. All of the components involved have been carefully designed and tested over and over again to meet or exceed a high standard of requirements. If you do not know exactly what you are doing when it comes to network cabling, it would be wise to consult a professional. If the cable setup you have chosen is not installed properly, the overall performance will be degraded, keeping your office or workspace from doing its very best.
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