Structured cabling sounds like it’s just a bunch of wires arranged in some kind of pattern, but there’s way more to it than that. With a good structured cabling system, you will be prepared to handle lots of internet usage now and you will also be prepared for the future of data. Everyone knows that technology continues to update and there continues to be more and more and more data available. Structured cabling systems are specifically designed to meet those future needs, so you can continue to use the same system without making upgrades for potentially years and years into the future.
What Does a Structured Cabling Design Do?
Structured cabling is a complex infrastructure contained in a large building or even a series of large buildings. This is a huge cabling system that’s made to support many hardware users at the same time. A good cabling system will easily support hardware that is in use today but it goes another step beyond this. A good cabling system is also designed to support hardware that’s made in the future. Even as hardware upgrades and becomes more sophisticated, this cabling system will be able to support those machines and continue to transmit data efficiently and effectively.
A cabling system like this is often used for offices, colleges, apartment buildings, data centers, and other places where people may be using multiple hardware devices at the same time. Cabling systems like this are designed with a central panel that is typically mounted on a rack.
The system itself requires network switches, patch panels, data ports, and lots of other materials and pieces of equipment. It’s all extremely complicated and highly technical but it’s also a very practical system to put into place because of the way it’s designed to handle even the technologies of the future as well as those in use today.
A structured cabling system makes it possible to support a large number of computers, but that’s not all. This kind of system can also support many different phone systems, video security cameras, closed-circuit television systems, and surveillance systems and related equipment of all kinds. This is a network infrastructure that’s made to support all sorts of hardware and that’s why it can serve so many purposed and be used for so many types of businesses and buildings, even large campuses featuring multiple buildings, such as a huge apartment complex or a university.
Building Communication Solutions for the Future
No one really knows how the future of technology will develop or what will happen in the future. However, it’s always a good idea to build a network that’s made to support those changes. The VoIP (voice over internet protocol) industry alone was projected to grow to over $76 billion by the end of 2015, with the number of home and office subscribers expected to grow to $262 million. That represented a 50% increase from 2011. When technology is expanding this quickly and growing so much, it’s essential to be prepared to handle larger quantities of data, more hardware users, and lots more technology. So far, no part of the industry shows any sign of slowing down any time soon.
Communications solutions continue to be in demand and continue to be desired. A structured cabling system supports different types of hardware, which means that even brand-new hardware and brand-new innovations can potentially be connected to this system with no trouble at all. Essentially, a cabling system is just that: a bunch of cables. Yes, a structured cabling system will be housed inside of scaffolding and shelving. It all looks very intimidating. But because it’s all just cables and connections, any type of hardware can be used with it and still function well and transmit data correctly. Structured cabling is truly an innovative and highly flexible design and it’s one that’s going to continue to work as a data solution for many years to come — no matter what happens in the tech industry.
Use a structured cabling system to stay prepared for the future and to easily adapt to the hardware changes that are going to happen tomorrow and all the tomorrows after that.