Newsletter
The Black Box website uses cookies.
By continuing the use of the Black Box website, or by pressing the agree button on the right, you consent to the use of cookies on this website. More information.
Home > Information > Technical > Black Box Explains > Copper Cable > Stranded vs Solid Wire Cable
Navigation
 
Stranded vs Solid Wire Cable - Which to Choose?

Stranded vs Solid Wire Cable - Which to Choose?

Black Box Explains

Category 5e (CAT5e) and Category 6 (CAT6) network cables come in stranded conductor and solid conductor formats. People often ask which conductor is appropriate for their application. We'll detail the difference and help you decide which cable to choose for your application.

What is the difference between Stranded and Solid Wire?

Category 5e (CAT5e) and Category 6 (CAT6) network cables come in stranded conductor and solid conductor formats. A solid conductor uses one solid wire per conductor, meaning, in a standard CAT5e / CAT6 4-pair (8-conductor) roll, there would be a total of 8 solid wires. A stranded conductor, however, uses multiple wires wrapped around each other in each conductor, resulting in a total of 56 stranded wires in a typical configuration of a 7-strand roll, each of which consists of 4-pairs or 8-conductors.

Solid conductor cables are ideal for structured wiring within a building. They can be easily punched down onto wall jacks and patch panels as they consist of a single conductor. The wire seats properly into the insulation displacement connector. Solid cables are less useful when terminating with standard RJ45 connectors, as used when making patch cables. Most RJ45 connectors use 2 prongs which penetrate the conductor itself. This is not desirable, since solid cable has the tendency to break when penetrated by the prong. Using 3-prong style RJ45 connectors creates a much better connection as it doesn't break the conductor—the 3-prongs style connection wraps around the conductor instead of penetrating it.

Stranded cables are much less useful for punching down on wall jacks because the strands do not keep their perfect round shape when thrust into a insulation displacement connector. Instead, stranded cable is typically used to create patch cables. The cable itself is more flexible, and rolls up well. The RJ45 terminators have a better, and more flexible and complete connection to stranded wires than solid wires.

In short, for best results, use solid cable for wall jacks and stranded cable for crimp connectors.

What is a Stranded Wire Cable?

Use stranded patch cables for connecting the workstation network interface cards (NICs) to the wallplate with patch panels and other equipment such as hubs. Made out of stranded conductors, patch cables are excellent for applications that call for repeated flexing without damaging the cable. Since attenuation is higher in stranded cables than in solid-conductor cables, cable runs should be kept short to lower the chance of introducing even more attenuation into the system. It's best to keep lengths of stranded patch cables under 6.0 metres.

Stranded Wire Conductors are preferred for:

  • Conductor flexibility: Much greater in stranded conductors, making them easier to install.
  • Flex life: Longer compared to solid conductors. Stranded conductors can endure more vibration and bending before breaking. Generally speaking, the finer the stranding, the more flexible the conductor.
  • Surface damage: Damage to stranded conductors, such as scratching or nicking, will be less serious than similar damage to solid conductors.
  • Strand count: Affecting both the flexibility and cost of a conductor. For any wire size, the more strands present, the more flexible and the more expensive the conductor becomes.

Browse our Stranded Wired Cables

What is a Solid Wire Cable?

For runs between two wiring centres or from the wiring centre to a wallplate, choose regular solid UTP cable. These solid-conductor cables, designed for horizontal and backbone cable runs, should not be flexed, bent or twisted repeatedly.

Solid Wire Conductors are preferred for:

  • Backbone cabling: Solid wiring is ideal for distributed backbone, namely straight-pinning for backbone runs, and noisy CAT6 runs. This is perfect for inter-building and intra-building cable connections in structured cabling between entrance facilities, equipment rooms and telecommunications closets as backbone cabling consists of the transmission media, main and intermediate cross-connects and terminations at these locations.
  • Outdoor or rugged-duty applications: Expose the wire to corrosive elements, adverse weather condition or frequent movement. Stranded wire, conversely, serves a better purpose in intricate usages, such as electronic devices and circuit boards, where the wire will be protected but may undergo bending or twisting in order to connect electronic components.
  • Affordability: Solid cables are often favoured because they are usually more affordable than stranded cables due to their cheaper production costs.
  • Durability: This type of wire is very resistant to damage and extremely simple to make. As single, thick strands of cable, they are quite resistant to threats and very easy to produce. Solid cables also have a much more compact diameter compared to stranded cables.

Browse our Solid Wired Cables

Verdict: Stranded Wire or Solid Wire, what cable to choose?

It's important to carefully consider what the best Cable Conductor is for your configuration, depending on your application requirements and installation features. Since attenuation is higher in stranded cables than in solid cables, stranded cable runs should be kept short to lower the chance of introducing even more attenuation into the system. It's best to keep lengths of stranded patch cables under 6.0 metres.

  Solid Wire Stranded Wire
Applications where wire flexibility is important.
Applications which require protection against corrosion.
Ideally suited for outdoor applications.
Applications that subject the wire to repetitive motion (e.g. to be used on a door).
Proximity effect needs to be minimised.
Price advantage (under typical cirmcumstances).


If you are wondering which Cable Termination you need, visit our CATx Cable Selector Guide page. This guide will help you select the right CATx patch or bulk cable for your application.

Want to know more?
Download our White Paper:
Specifying an IT Cabling System

Download our White Paper Specifying an IT Cabling System and learn more on:

  • Structured cabling systems
  • Structured cabling specifications and standards
  • Structured cabling system requirements for your project
  • Structured cabling design
  • Structured cabling system implementation
 
Share |