Direct-buried cable

Direct-buried cable (DBC) is a kind of communications or transmissions electrical cable which is especially designed to be buried under the ground without any other cover, sheath, or duct to protect it.^[1]

Most direct-buried cable is built to specific tolerances to heat, moisture, conductivity, and soil acidity. Unlike standard telecommunications and power cables, which have only a thin layer of insulation and a waterproof outer cover, DBC consists of multiple layers of heavy metallic-banded sheathing, reinforced by heavy rubber covers, shock absorbing gel, wrapped thread-fortified waterproof tape, and stiffened by a heavy metal core.

DBC is preferable in some areas since it is more resistant to being the focus of lightning discharges.^[2]

Communications[edit]

Most cable of this kind is coaxial or bundled fiber-optic cable. In the 20th century much of it was filled cable. Direct-buried cable is cheaper and easier to lay than other kinds of cable that require protection from the earth.^[1] However, DBC is also easily cut during digging or other excavations. As a result, most direct-buried cable is found on side roads, not main thoroughfares.^[3]

Power[edit]

Some power cabling is also direct-buried. This kind of cabling must follow strict regulatory procedures regarding installation ^[4] and backfilling. This is usually used for undergrounding in areas where overhead cabling is impractical or dangerous.

References[edit]

^ ^a ^b Sterling, Donald J. (2000). Premises Cabling. Thomson Delmar Learning. ISBN 0-7668-1735-0.
^ Rakov, Vladimir A.; Uman, Martin A. (2003). Lightning: physics and effects. Cambridge University Press. ISBN 0-521-58327-6.
^ Highhouse, John (1997). A Guide for Telecommunications Cable Splicing. Thomson Delmar Learning. ISBN 0-8273-8066-6.
^ Salata F., De Lieto Vollaro A., De Lieto Vollaro R. A model for the evaluation of heat loss from underground cables in non-uniform soil to optimize the system design. Thermal Science, DOI REFERENCE: 10.2298/TSCI120528119S

External links[edit]

Guide to direct buried cabling procedures

[Stuff-1] Sterling, Donald J. (2000). Premises Cabling. Thomson Delmar Learning. ISBN 0-7668-1735-0.

[weird-2] Rakov, Vladimir A.; Uman, Martin A. (2003). Lightning: physics and effects. Cambridge University Press. ISBN 0-521-58327-6.

[cable-3] Highhouse, John (1997). A Guide for Telecommunications Cable Splicing. Thomson Delmar Learning. ISBN 0-8273-8066-6.

[4] Salata F., De Lieto Vollaro A., De Lieto Vollaro R. A model for the evaluation of heat loss from underground cables in non-uniform soil to optimize the system design. Thermal Science, DOI REFERENCE: 10.2298/TSCI120528119S

[1]

[2]

[3]

[4]

Communications[edit]

Power[edit]

See also[edit]

References[edit]

External links[edit]