So Why Are Telephone Cables Pressurized?
The biggest threat to telephone wires (conductor pairs) is moisture. Many of the copper cables use paper or pulp as insulation between the individual conductor pairs. This type of cable offers excellent insulation characteristics as long as it is maintained dry. Pulp insulation has been around for a long time, and for many years it had essentially no competition. Eventually plastic insulated conductor (PIC) cable encroached upon its popularity and took over the number-one spot.

Unfortunately, the integrity of the protective cable sheath (which is made of lead or polyethylene) is compromised when cracks develop. The cracks in the sheath or associated splice cases allow water to enter and electrolysis to occur, which results in faulted pairs within the cable.

All of us are familiar with moisture damage when the morning paper is left in the rain. The characteristics of the paper change completely with the water damage. This is the same thing that happens inside the cable sheath when water permeates it. The first indication of moisture in a cable is noise on the line, followed by complete cable failure.

In underground pulp insulated cable, a special problem develops due to water pressure being applied to the outside of the protective sheath. And, since the cable is usually underground (often located several feet deep), a real disaster can occur when utility holes fill with storm water.

As water rises above a cable, there is approximately 0.43 Pounds per Square Inch (PSI) of pressure applied for each foot of water level above the cable. So, for example, if a cable is 7 feet below the surface and the utility hole fills with water, there will be 7 x 0.43 (or 3 PSI) of water pressure bearing down on the cable. If there is a crack in the cable or splice case, water will permeate and cause conductor damage unless there is positive pressure within the cable that exceeds and counters the 3 PSI of external force caused by the water.

This is the basic premise of cable pressurization: Keep the pressure within the cable in excess of the pressure that could be applied by standing water. To help achieve this objective, telephone companies establish minimum air pressure standards for cables in different environments. For example, an underground cable (one that goes through conduit and utility holes underneath the street) might have a minimum air pressure standard of 5 PSI, enough to protect the cable from approximately 10 feet of water. A direct buried cable requires less air pressure protection (usually 3 PSI) because it is placed only a foot or so below the surface. Aerial cables typically require only 2 PSI because they are at less risk from water damage. (continued...)