Structured cabling,Network Cabling, Washinton DC

Data Center Cabling Best Practices – Part 3

5 Jun 2017

cable management,Network Cabling,New York CityAs mentioned previously, modern data centers must be flexible, scalable, reliable, and manageable, making best practices required. Part 3 will cover Color Identification and Naming Scheme.



Color Identification


A method of fast visual identification, color coding makes management simpler, conserving time spent on the tracing of cables. Patch panel ports can also be coded, and various colored jacks and inserts are also coded. As determined by a particular manufacturer’s own color scheme, cables are available in numerous colors, each of which can be made applicable to the specific function of a cable or connection type.


Color schemes are expandable through the use of color bands at the end of every cable, using various colored sleeves and colored ports on the patch panel. However, it will also be necessary to use a secondary non-color scheme to make it possible for those who are color blind to identify the cables.



Naming Schemes


After determining the physical layout for the cabling that will be used, use a naming scheme that can be logically applied for facilitating fast and effortless identification of every cable component. Labeling can be an especially effective way to improve team communication among staff members because it makes confusion and uncertainty unlikely when a colleague must search for a particular component. Clear labeling is integral to the success of the naming scheme, and it should not be neglected.


A good naming scheme documents and labels every cable component. The following is the typical hierarchy for a naming scheme: Building, Room, Rack, Patch Panel, Workstation Outlet, Port, and Cable. Each should receive a designation indicating its location preceded by the area(s) above it. For example, Rack A03 would receive the designation SJ01-5D11-A03, if Room is designated SJ01-5D11, and Building is designated SJ01.


Upon the approval of the naming scheme, your team can begin labeling components. The team should prioritize drafting a manual that details the naming scheme and include it as part of the training program for newly hired data center administrators.


The Best Practices for Cable Component Selection will be discussed in the next series.



Union Network Cabling


When your work requires a unionized cabling group, call on Progressive Office Inc. for your commercial Cat5e/6/6a and fiber cabling projects. Specializing in cabling for data, voice, security and even the latest WiFi and LiFi solutions. Phone: (202) 462-4290

structured cabling, Data Cabling ,Cat5e, Cat6/6a Cabling

Powerful Networks in Structured Cabling

16 May 2015

structured cabling, Data Cabling ,Cat5e, Cat6/6a CablingIt is known that structured cabling systems are fabricated to guarantee that information flows efficiently through the network. Such system are made up of transmission products installed based on appropriate guidelines in engineering design. These enable users to put into operation voice and data systems that capitalizes on speed.


This particular configuration has emerged as shared platform for multiple information technology applications. These include voice and data, building automation, security mechanisms, telecommunications conferencing, and fire alarms. This union transformed the structured cabling platform into the most essential network element. Therefore, it calls for a crucial investment in a very reliable, adaptable and scalable cabling structure.



High-performance Networks


This efficient and complex cabling scheme segregates the whole infrastructure into controllable blocks. After that, it puts them together to come up with a high-performance network. This end product is the vital link for many enterprises and all data hubs. Such a system facilitates consistency across the network particularly for commercial building structures. Consistency generates cost-effectiveness by standardizing maintenance processes, cutting down on manpower requirements, and improving reliability.


The “structured” design makes possible easy management by identifying specific distribution points, regular labeling and color codes, cabling management, and distribution techniques. As a rule, data facility managers use dynamic methodologies to fill the center with information technology equipment. This accommodates the evolving needs of business operations which frequently compel the need for the most modern IT equipment. Since companies rely on equipment as well as infrastructure, management believes requirements for additional IT capability should be made promptly. If the infrastructure is below par, upgrades will be much more difficult.



Crucial Concerns


The best IT specialists see to it that problems in structured cabling systems are dealt with immediately. One of the primary concerns is to employ highly competent service providers and coordinate entry points/space for each provider. This procedure enhances flaw tolerance of the overall system design. The high-performance model supports aggregate telecommunications requirements and thereby leads to a maximum returns on investments.


Centralized Intermediate Distribution Frames (IDFs) should be in centralized locations in the office facility. This will produce efficient cable management and will ease the addition of new equipment. This design technique has been adopted to avoid any disruption of the data unit or minimized once changes or upgrades are implemented. Telecommunications rooms contain the IDFs, main distribution frames and entrance facilities. Switches are installed in the middle of server rows for economical management.


Please contact us if you have any questions or concerns about your office network cabling.