Cables, Cabling Design,Structured Cabling

Basics and Benefits of Zone Cabling – Part 1

7 Dec 2017

Cables, Cabling Design,Structured CablingTopology or zone cabling design starts with horizontal cables running from patch panels within the TR (telecommunications room) to connections in a ZE (zone enclosure). A ZE can be installed in a ceiling, on a wall or beneath a raised floor. Next, cables originating from ZE connecting blocks or outlets lead to telecommunications outlets inside the WA (work area), equipment outlets, or straight to BAS (building automation system) devices.


Keep in mind ZE connections are creating by modular outlets or punch down blocks. No active equipment is housed in the ZE. For zone cabling deployment, experts recommend installing zone enclosures within a floor space’s populated areas that have the greatest density.


The primary element of zone cabling design is allowing flexibility in client work spaces that enable efficient MACs (moves, adds, and changes). Studies have found that zone cabling can result in considerable savings as opposed to the traditional configuration of home run work area to TR cabling. This is attributable to the fact that MACs on a home run topology need a greater amount of cabling materials and installation time for implementation.


To illustrate the savings mentioned above, we can compare a home run cabling link to a zone cabling link. Both can support a WA outlet positioned 200 ft. from the TR. In this scenario, the ZE is already cabled from the TR with extra ports for supporting additional services and positioned 50 ft. from the WA outlet. Should a second cable be required for deployment, 200 ft. of additional cable will require pulling from the telecommunications room that is designed traditionally, but just 50 ft. will require pulling with a zone cabling design.


Other important benefits derived from the utilization of zone cabling designs are considerably decreased installation and disruption times, along with cable pulling savings of 75%, which will result in significantly improving ROI (return on investment).


Part 2 will continue discussing the basics and benefits of zone cabling.



Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of our clients in the Washington, D.C. and New York City areas. Efficiently working together, Progressive teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call our toll free number (800) 614-4560 today.

Structured Cabling, Cabling, Washington DC

Improve Data Center Reliability with Structured Cabling – Part 2

29 Nov 2017

Structured Cabling, Cabling, Washington DCAs mentioned in Part 1, data center efficiency can be improved by properly planning and implementing structured cabling principles. In addition, structured cabling best practices should be the foundation of every data center. Part 2 will discuss Cabling Infrastructure and Improved Network Function.



Cabling Infrastructure


It would be wise to constantly keep the future in mind while you are installing your cabling infrastructure. Setting aside space will allow for expansion. The goal is to make your structured cabling both sound and dependable.


Testing Policy – After the addition or removal of equipment, testing every connection makes sure that a data center will be reliable over time. Performing these tests as a standard practice will help prevent issues that result in downtime. Inconsistent testing practices will result in an unreliable data center.


Standardization – The standardization of cable and rack usage will significantly facilitate maintenance. When there is a meltdown, the managers and engineers of a data center won’t have any doubts as to the types of cables and configuration of racks that are being utilized.


Documentation – When proper documentation is neglected, the training of new staff members will be much more difficult and take longer. The addition of equipment and related components will also result in more errors. Good documentation is integral for every sound structured cable system.


Spare Cables – The stocking of spare cables to prepare for contingencies will help prepare a data center for crises that may strike a structured cabling system.



Improved Network Function


A data center will have losses of up to $10,000 for each minute of unplanned outage. Implementing the best practices of TIA/ISO standards will raise the performance of a structured cabling system and make a data center more reliable. Its computer network will have the following benefits:




  • Greater responsiveness

  • Increased reliability and overall performance

  • More secure data backup, storage, and retrieval

  • Flexibility for accommodating additional computer terminals and components

  • Capable of supporting telephony and other network-dependent systems


Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of our clients in the Washington, D.C. and New York City areas. Efficiently working together, Progressive teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call our toll free number (800) 614-4560 today.

Network Cabling, Network , Structured cabling, cable, Washington DC

8 Network Cabling Mistakes to Avoid – Part 2

14 Nov 2017

As discussed in Part 1, the improper I can result in poor network performance, maintenance issues, and concealed expenses. Part 2 will discuss four more network cabling errors to avoid. Remember to consult with a cabling company that is experienced and provides excellent service.



Mistake No. 5: Ignoring Distance Limitations


The standard distance limitation for UTP cabling with Ethernet at 1 Gbps is 100 meters. For cabling used for 10 Gbps or 40 Gbps, it is important to be aware of the distance limitations of the kind of cabling that will be used. Let’s say your project plans to run 10 Gbps for a maximum of 100 meters over UTP cabling. This will require utilizing at least CAT 6A cabling.



Mistake No. 6: Bypassing Codes


Bypassing local codes may result in endangering first responders. In most facilities, it is prohibited to use PVC-jacketed cabling within air handling spaces. When PVC cabling burns, it produces poisonous fumes that can be hazardous to firefighters and other first responders who must enter the facility during an emergency.


The failure to comply with local codes with respect to low voltage cabling may result in costly fines and perhaps even being ordered to completely remove and reinstall cabling, an expensive exercise. Working with a reputable cabling service company that is knowledgeable regarding local ordinances will avoid future problems.



Mistake No. 7: Neglecting Testing


After cabling is installed, testing should be performed on every cable, using equipment that can verify functionality. The verification of cable lengths and specifications is also important. For certain transmission rates, it must be verified that the cabling is capable of adequately providing support.



Mistake No. 8: Non-Compliance with Standards


Your company’s project should comply with technical standards to ensure the proper functioning of its network. Non-compliance will make noise and interference more likely, leading to inefficiency and poor network performance.


Network cabling standards are used worldwide and are drafted by ISO/IEC, CENELEC and the Telecommunications Industry Association (TIA). TIA (USA) issues the ANSI/TIA-568 standards for telecommunications cabling in commercial facilities.



Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of our clients in the Washington, D.C. and New York City areas. Efficiently working together, Progressive teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call our toll free number (800) 614-4560 today.

Structured Cabling,Washington DC New York City

The 5 Most Common Structured Cabling Errors – Part 2

28 Oct 2017

Structured Cabling,Washington DC New York CityAs mentioned in Part 1, structured cabling systems are so standardized that good practices should merely entail following ISO/IEC, CENELEC or Telecommunications Industry Association (TIA) documentation. Part 2 will discuss three more common errors of structured cabling.



Error No. 3


Failing to properly test a structured cabling system after installation is the third error. Structured cabling represents a large commitment of capital expenditure and will typically have the same length of service life as the facility itself. Ensuring that the entire system is installed to specification and the data is at the capacity and speed expected is crucial. Finally, properly testing the cabling system is required to validate the warranty.


Cables installed during the early period of construction may have been subsequently damaged by other workers performing their roles later during the project. Moreover, new cables that appear fine on the exterior may actually be faulty because of damage underneath the coating as a result of being mishandled. All cables require calibrated testing.



Error No. 4


Using unqualified technicians for installation is the fourth error. Scrimping on the quality of workers installing cabling is an unwise way to save money. Problems will eventually be revealed over time. Prior to committing to a service contract with a structured cabling service, review their credentials and confirm their references. Have conversations with previous customers whose project is similar in scope to yours. Working with a reputable structured cabling firm will help make sure your project will be successful for the long term.



Error No. 5


Letting structured cabling patch panels become disorganized is the fifth error. It will harm both the performance and reliability of a company’s IT systems. As time passes, the patch panel or switch ports may be damaged, causing intermittent problems that are very hard to pinpoint. The use of proper cable management hardware for supporting patch cables is good practice. Complying with the specified patching standards required for a particular structured cabling system will result in a sound and reliable network.



Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of our clients in the Washington, D.C. and New York City areas. Efficiently working together, Progressive teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call our toll free number (800) 614-4560 today.

Structured Cabling, Cabling, Washington DC

The 5 Most Common Structured Cabling Errors – Part 1

19 Oct 2017

Structured Cabling, cablesStructured cabling systems are so standardized that good practices should merely entail following ISO/IEC, CENELEC or Telecommunications Industry Association (TIA) documentation for panel and outlet standards, cable pathway standards, maximum cable and patch cord lengths, patch testing standards, etc. Strictly doing so will invariably result in an installation that is professional and trouble free. In addition, as data speeds grow faster and faster, following industry standards becomes even more crucial.


Improperly installed cabling made up of shorter runs, which do not overly stress the system, may function well enough. In addition, data speeds may be quite beneath the cable specification capacity. As an example, CAT5e carrying 100Mbps and capable of 1Gbps will have ample margin of error. However, structured cabling systems still need qualified technicians for proper installation supporting maximum data speeds over the entire network as required.


The following will discuss the five most common errors of structured cabling. Remember to call an experienced and expert cabling installation team to get the best results for your company’s project.



Error No. 1


Considering cables as merely wiring is the first error. They are actually very important electronic components that provide the pathway for data from point to point within a network. These points may be a desktop PC, a network switch, server, router, and wireless access point. When you consider that cables make these connections possible, then you can understand how important it is to make sure that the cabling is of high quality and properly installed.



Error No. 2


Running data cables near power cables is the second error. Even when cables are screened, this practice is unsound. When data cables are running near and parallel to   power cables, noise emitted by power cables may infiltrate data cables. As the load carried by power cables fluctuate, resulting spikes or surges may radiate into the data cables, creating undesired noise decreasing the quality of the data transmission.


Part 2 will discuss three more common errors of structured cabling.



Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of our clients in the Washington, D.C. and New York City areas. Efficiently working together, Progressive teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call our toll free number (800) 614-4560 today.

Cabling, network cabling, cable Installations

Fiber Optic Cabling for Your Business – Part 2

14 Oct 2017

Fiber Optic Advantages


Cabling, network cabling, cable InstallationsAs discussed in Part 1, fiber cables provide a number of advantages that make them superior to copper cables. This includes longer distance effectiveness, greater bandwidth capacity, resistance to electromagnetic interference, safer usage, and stronger security. Part 2 will discuss how fiber optic functions, its two main types, and fiber networks.



How Fiber Optic Cables Function


Fiber optic cables transmit data through the generation of pulses of light by light-emitting diodes (LEDs) or lasers. A fiber optic cable is composed of either a single strand or several strands of glass, each measuring slightly thicker than human hair.


The core is located in every filament’s center, and it is where light travels. Covered by cladding made of a glass layer, the core is able to reflect light inward, preventing signal loss and letting light travel through the cable’s bends.



Two Main Types


There are two main types of fiber optic cabling, single mode and multimode. Using extremely thin glass filaments, single mode fiber optic uses a laser to generate pulses of light, while multimode utilizes LEDs.


By utilizing the technique of Wave Division Multiplexing (WDM), single mode fiber networks raise the volume of data traffic transmitted over a filament. Combining light at various wavelengths is termed multiplexing, while separating them is called de-multiplexing. Thus, several streams of communication can be transmitted on a single pulse of light.



Fiber Networks


The installation of the majority of fiber cabling is intended to support long distance connections between national and international geographical locations. However, a number of internet service providers (ISPs) have made investments in the expansion of fiber to provide direct access to homes in suburban neighborhoods. These are termed "last mile" installations.


FTTH (Fiber to the Home) services, such as Google Fiber and Verizon FIOS, are becoming more common. They can provide homes with gigabit (1 Gbps) internet speeds. Direct fiber cabling runs directly from a main office to a single client, providing maximum bandwidth. In contrast, shared fiber cabling is ultimately distributed among several groups of users who are in close proximity.



Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of our clients in the Washington, D.C. and New York City areas. Efficiently working together, Progressive teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call our toll free number (800) 614-4560 today.

Technology,Network Cabling, cables

Fiber Optic Cabling for Your Business – Part 1

8 Oct 2017

Technology,Network Cabling, cablesThe widespread use of fiber optic cabling stems from 1950s research. These studies eventually made transmitting visible images via glass filament possible. This new technology was eventually used for viewing instruments and remote illumination for surgery. Subsequently, George Hockham and Charles Kao successfully achieved data transmission through glass fiber in 1966.


Fiber optic cabling is composed of glass fiber filaments housed within insulated casing, and these cables were designed for long distance, large capacity, and high performance data networking and telecommunications. In comparison to wired cables, fiber optic has high-bandwidth capability and is capable of data transmission over longer distances. Due to these properties, fiber optic cabling is used for a great portion of telephone, internet, and cable television systems around the world.



Fiber Optic Advantages


Fiber cables provide a number of advantages that make them superior to copper cabling. Due to properties of high bandwidth and low-loss, fiber optic cabling can be utilized over much greater distances than copper cables. Fiber optic cables can run up to 2 kilometers for data networks without repeaters. This is because light can travel much further on fiber cable and still retain its strength.


Fiber optic cables have greater capacity. Through the use of multiplexers, a single fiber optic cable can have the same network bandwidth as several hundred copper cables. It is now standard for fiber cables to be rated at 10 Gbps, 40 Gbps, and 100 Gbps.


Although it has special shielding as protection against electromagnetic interference, copper network cable is still susceptible when numerous cables are close to each other. This is in contrast to the physical properties of the glass used in fiber optic cables.


Fiber optic is also safer to use than copper in volatile spaces, where sparks can lead to disaster. It also has the upper hand in terms of security because tapping fiber cable to steal data transmission is very difficult.


Part 2 will discuss how fiber optic functions, its two main types, and fiber networks.



Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of our clients in the Washington, D.C. and New York City areas. Efficiently working together, Progressive teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call our toll free number (800) 614-4560 today.

IT Support,Data Cabling,Atlanta GA

Why Structured Cabling is Important for Business Phones

27 Sep 2017

IT Support, Data Cabling,Atlanta GAIf your organization is considering a new VOIP (Voice Over Internet Protocol) system, you should think about the structured cabling system needed to support it and maximize its potential. The following summarizes the advantages your digital phone system will have with a well-designed structured cabling system.



Decreased Noise


CAT 6 and CAT 6A cable provides more noise reduction than older cables. Fiber optic cabling is even better. Less noise resistance results in more static and faulty connections during phone conversations. Higher levels of noise also decrease network speed because the system is forced to retransmit data until it is no longer corrupted. Although purchasing lower quality cable saves money in the short run, it may result in long term business losses because of slower response times and annoyed customers.



Lengthened Runs


Higher quality cable will be capable of supporting longer runs that are free of artifacts and errors. Fiber optic cables are not restricted by the length of runs. It is the superior option for a data center or business telephone system because of its excellent noise resistance and high speed. Although second choices, CAT 5e to CAT 6A cabling are capable of supporting runs to 100 meters without noise. Cables that can support long runs provide greater flexibility for layouts, decreasing the need for data hubs or repeaters and increasing reliability.



Maintenance Savings


CAT 5e, CAT 6, and fiber optic cables are highly dependable. However, if they ever become faulty or the network needs to be reconfigured, a structured cabling system that is well organized and diligently marked will save time spent on maintenance. While a company’s network is down, business may be impacted, resulting in lost revenue. Tracing faults is made much easier by a sound structured cabling system.



Transmission Speed


Business is often time-sensitive, and you will want to use the highest quality cable your company can afford. CAT 6A cable is capable of supporting a maximum of 10 Gigabits per second while CAT 5e can only achieve 100 mbps. Older, less capable cables are not recommended because their slow data transmission and high noise levels cannot meet current VOIP demands.



Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of their clients in the Washington, D.C. and New York City areas. Efficiently working together, their teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call their toll free number (800) 614-4560 today.

IT support, network infrastructure

Is it Time to Upgrade Your Network Infrastructure?

21 Sep 2017

IT support, network infrastructureYour company will need to upgrade because network traffic is rising dramatically due to the rapid increase in the number of devices and videos online. By 2020, the number of devices will approach an estimated 12 billion. The following are reasons why you should contact an expert and experienced structured cabling support team to evaluate and improve your network infrastructure.



High Maintenance


The addition of the latest technology often stresses aged infrastructure, resulting in more downtime and troubleshooting. This increased time and effort devoted to this task prevents your IT support from working on implementing innovative solutions that may increase productivity or decrease costs, slowing your company’s growth. Installing up-to-date infrastructure will decrease maintenance and increase deployments.



Inadequate Security


Cybercrime is growing ever more prevalent and complex. Hackers tend to avoid networks with strong security and target those with weak protection. Older network infrastructure will have more and greater vulnerabilities. Modern network solutions now feature intelligent sensors and enforcers, improving security.



Mobile Employees


Today’s workers want the ability to work anywhere and anytime. Unfortunately, aged infrastructure will not be able to cope with new mobile solutions and enterprise cloud applications. In order to maintain and increase employee productivity, a network upgrade replacing obsolete equipment will probably be necessary.



Slow Network


Networks of the past were not designed to meet the current requirements of companies and their workers. Wireless technology now permits employees to work anywhere with wireless access points nearing 7 Gbps, more than 11X faster than the 802.11n standard.



The Competition


A network infrastructure upgrade will allow your company to remain competitive because it will be able to implement the latest solutions that boost productivity and earnings. Powerful applications that would have crashed your old network can now be handled, allowing your organization to keep up with competitors.



Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of their clients in the Washington, D.C. and New York City areas. Efficiently working together, their teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call their toll free number (800) 614-4560 today.

Structured Cabling,Washington DC New York City

Important Considerations for Structured Cabling

13 Sep 2017

cables,structured cabling, Network CablingAn infrastructure for enterprise communications, structured cabling is a system of hardware and cables designed for flexibility and future capability. Complying with the Electronic Industry Alliance/Telecommunications Industry Association (EIA/TIA), conventional structured cabling meets the organization’s standards internationally. The following are three important aspects of structured cabling that every organization should consider.



Savings


Over time, IT infrastructure has become more condensed and more sophisticated, and the importance of structured cabling has grown. Structured cabling eases a company’s expansion via a design that allows the adoption of additional hardware and software. As it has consistent network architecture, structured cabling allows the simplification of maintenance and repair, decreasing costs of upkeep. A study by the International Engineering Consortium discovered that standardizing cabling components and reducing cable delivery methods decreased startup construction outlay by almost a third. Moreover, expenses for network maintenance are lowered 40%.



Trends


Structured cabling is gradually making the transition from copper cabling to fiber optic because companies desire greater speed and better air circulation for the reduction of cooling costs. Lighter and narrower cables allow an overhead system of cabling to be installed instead of raised-floor cabling. The installation and management of cabling is made easier by less cumbersome cables, and so this trend will grow over time.



Planning


Sound planning is crucial for the success of IT projects. The future number of users, their locations, and required bandwidth must be diligently considered. How PoE (Power over Ethernet) will provide power to devices via must be studied. As Wi-Fi use grows, the number of wireless access points must be determined by every enterprise. Where will cables be located inside and outside the premises? Will the structured cabling be able to cope with moves and changes within the premises? Scalability and flexibility are both important, and so the locations of furniture and server racks must be carefully planned with respect to cabling. IT staff should also understand that different types of cable have limitations as to the length of their respective runs. Finally, there may be government regulations for structured cabling that require compliance.



Progressive Office Cabling


Founded in 1986, Progressive Office’s success has been a direct result of years of commitment to seeking solutions on behalf of their clients in the Washington, D.C. and New York City areas. Efficiently working together, their teams get cabling installed and operating as fast as possible while minimizing disruption and downtime. Call their toll free number (800) 614-4560 today.