Grounding Rooftop Installations

Lightning Protection Information


Special considerations when the equipment is far away from the "earth body" ground.

Rooftop Sites

In most urban high-rise sites, a low inductance earth ground connection is impossible to achieve. A connection to the steel structure of the building is the preferred method to connect a single point ground. In some poured concrete buildings there is no steel structure, only reinforcing bar in the concrete. If local building codes permit, attach the single point ground to any exposed rebar. Long inductive ground conductors down the building can also be used for the final earth ground connection. This is a poor way, but sometimes the only way to ultimately connect to earth ground. When using this method, (or any method) protect every interconnection to the outside world. Power mains, telephone, control lines, or any other outside connection must have a protector referenced (connected) to the single point ground. When a strike occurs, the top of the building will quickly elevate in potential (compared to the outside world). Depending on the earth ground connection, the following could occur:

• Connected to building structural steel - The elevated potential first charges the capacitance of the structure. The capacitance absorbs some of the fast rise time energy and disperses it throughout the structure and down to the building footers and any interconnecting conductive pipes. The equipment on the roof is elevated in potential with a relatively fast decay to ½ peak voltage.

• Connected to building reinforcing bar - The elevated potential propagates through the re-bar bundles and conductive concrete towards the footers and interconnecting pipes. If there is a series resistance, the voltage will rise (lightning is a constant current source) enough to arc through to the next rebar bundle. There is usually dc continuity through the rebar bundles to the footers. The roof top equipment is elevated in potential more quickly with a slower decay time. There is more "time" for damage to occur.

• Connected to a standing water pipe or "fire riser" – First, get permission to connect to this conductor. Make sure there is continuity all the way down – no PVC fittings or insulating gaskets. Bypass with copper strap and protect the pump motor windings at the bottom if applicable.

• Connected to a single (or more) earth downconductor - The elevating potential quickly saturates the current carrying ability of the single (inductive) downconductor. The equipment is elevated to a high potential and stays there until the single downconductor can "drain" away the charge. The equipment is held at high potential for a much longer period of time than either of the above options.

If there is a "lightning rod" system installed, it is OK to connect to the system downconductors as an earth ground. Code requirements will probably insist on this connection. If the equipment cabinet is on the roof, the potentials will be the same. If the equipment is located on the lower floors, do not connect to any lightning rod system downconductor. Find or route a separate downconductor, through the building, away from the lightning rod system’ s downconductor(s). The only common point should be at the physical earth connection.