This article was posted 06/11/2013 and is most likely outdated.

Mike Holt - Radio and Television Equipment Article 810
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Radio and Television Equipment - Article 810, based on the 2011 NEC
Based on - NEC - 2011 Edition

Radio and Television Equipment – Article 810, based on the 2011 NEC®

By Mike Holt, NEC Consultant

Article 810 contains the installation requirements for the wiring of television and radio receiving equipment.  Article 810 covers:

  • Satellite antennas. Large satellite dish antennas (often about 6 ft in diameter) usually have a motor that moves the dish to focus on different satellites. The smaller satellite dish antennas (18 in. in diameter) are usually aimed at a single satellite.
  • Roof-mounted antennas for AM/FM/XM radio reception.
  • Amateur radio transmitting and receiving equipment, including HAM radio equipment.

Other articles
Wiring from the power supply to Article 810 equipment must be installed per Chapters 1 through 4 [810.3]. Wiring for audio equipment must comply with Article 640. Coaxial cables that connect antennas to equipment must be installed per Article 820.
The grounding requirements for antenna cables are in 810.20(C) and 810.21, not Article 820.

Antenna systems
A community TV antenna is used for multiple-occupancy facilities, such as apartments, condominiums, motels, and hotels. The antenna for community television systems must be installed per this article, but coaxial cable beyond the point of entrance must be installed per Article 820.

Make sure you securely support outdoor antennas and lead-in conductors. Securely attach the lead-in conductors to the antenna [810.12]. Note that you can’t attach outdoor antennas to the electric service mast [230.28].

Ground outdoor masts (and metal structures that support antennas) per 810.21 [810.15].
Keep outdoor antennas and lead-in conductors at least 2 ft from exposed electric power conductors. Lead-in conductors attached to buildings must be installed so they can’t swing closer than 2 ft to the conductors of circuits of 250V or less, or closer than 10 ft to the conductors of circuits of over 250V. Keep lead-in conductors at least 6 ft from the lightning protection system.

Underground antenna lead-in conductors must maintain a separation at least 12 in. from electric power conductors. This separation isn’t required where the underground antenna lead-in conductors or the electric power conductors are installed in a raceway or cable armor.

Don’t use a lightning protection system grounding electrode as the building/structure grounding electrode [250.60].

Metal raceways, enclosures, frames, and metal parts of electric equipment must be bonded to the lightning protection system. But this bonding is optional where there’s adequate separation. Separation from lightning protection conductors is typically 6 ft through air or 3 ft through dense materials such as concrete, brick, or wood. The lightning system itself, however, must always be bonded to the building/structure grounding electrode system [250.106].

Indoor antenna and lead-in conductors must be at least 2 in. from electrical power conductors. But this requirement is waived if you run the antenna lead-in conductors or electrical power conductors in a raceway or cable armor. Indoor antenna lead-in conductors can be in the same enclosure with electric power conductors where separated by an effective, permanently installed barrier.

Each lead-in conductor from an outdoor antenna must have a listed antenna discharge unit [810.20]. Install the antenna discharge unit nearest the point of entrance, but not near combustible material.

Bonding conductor or grounding electrode conductors
A welcome change to Article 810 is it no longer uses the confusing term “grounding conductor.” Instead, it now says either “bonding conductor” or “grounding electrode conductor” (GEC) where applicable.

Grounding the lead-in antenna cables and the mast helps prevent voltage surges caused by static discharge (or nearby lightning strikes) from reaching the center conductor of the lead-in coaxial cable. Because the satellite dish sits outdoors, wind creates a static charge on the antenna and on the cable attached to it. This charge can build up until it jumps across an air space, often passing through the electronics inside the low noise block down converter feedhorn (LNBF) or receiver. Connecting the coaxial cable and dish to the building grounding electrode system helps to dissipate this static charge.

Nothing can prevent damage from a direct lightning strike, but grounding with proper surge protection can help reduce induced-surge damage to the satellite dish and other equipment.

The antenna mast [810.15] and antenna discharge unit [810.20(C)] must be grounded as follows [810.21].
(A) Material. The conductor to the electrode [810.21(F)] must be copper or other corrosion-resistant conductive material, stranded or solid.

(B) Insulation. Insulated, covered, or bare.

(C) Supports. The bonding conductor or GEC must be securely fastened in place.

(D) Mechanical Protection. The bonding conductor or GEC must be mechanically protected where subject to physical damage. Where installed in a metal raceway, each end of the raceway must be bonded to the bonding conductor or GEC.

(E) Run in Straight Line. The bonding conductor or GEC must be run in as straight a line as practicable.

(F) Electrode. The bonding conductor or GEC must meet specific termination requirements (see Sidebar).

(G) Inside or Outside Building. You can install the bonding conductor or GEC inside or outside the building.

(H) Size. The bonding conductor or GEC must not be smaller than 10 AWG copper or 17 AWG copper-clad steel or bronze.

(J) Bonding of Electrodes. If a ground rod is installed to serve as the grounding electrode for the radio and television equipment, connect it to the building’s power grounding electrode system with a minimum 6 AWG conductor.

(K) Electrode Connection. Termination of the bonding conductor or GEC must be by exothermic welding, listed lugs, listed pressure connectors, or listed clamps. Grounding fittings that are concrete-encased or buried in the earth must be listed for direct burial [250.70].

Amateur and CB radio systems
Antenna systems for amateur and citizen band transmitting and receiving stations must comply with these additional requirements [810.51]:

  • Lead-in conductors must be securely attached to the antenna [810.12].
  • Outdoor antennas and lead-in conductors must be kept at least 2 ft from exposed electric power conductors [810.13].
  • Outdoor masts and metal structures that support antennas must be grounded per 810.21 [810.15].
  • Antenna lead-in conductors must be firmly mounted at least 3 in. from the surface of the building [810.54].
  • Each lead-in conductor from an outdoor antenna must have a listed antenna discharge unit or other suitable means to drain static charges from the antenna system [810.57]. This requirement is waived if the conductor is protected by a continuous metallic shield that’s grounded per 810.58 or if the antenna is grounded per 810.58.
  • The bonding conductor or GEC must be the same size as the lead-in conductors, but not smaller than 10 AWG copper, bronze, or copper-clad steel.
  • The bonding conductor or GEC for transmitting stations must not be smaller than 14 AWG copper or its equivalent [810.58].

Key compliance points
To ensure your work complies with Article 810, keep these points in mind:

  • Avoid contact with conductors of other systems.
  • Don’t attach antennas or other equipment to the service-entrance power mast.
  • If the mast isn’t grounded properly, voltage surges caused by nearby lightning strikes can destroy it.
  • Keep the bonding conductor or GEC as straight as practicable, and protect it from physical damage.
  • If the antenna mast isn’t bonded properly, you risk flashovers and possible electrocution.
  • The purpose of bonding is to prevent a difference of potential between metallic objects (and other conductive items, such as swimming pools).

Finally, remember that clearances are critical. Article 810 provided detailed clearance requirements because you want that antenna to receive radio signals, not electrical power from nearby systems.

Sidebar. Termination requirements for GEC and bonding conductor
In structures without a grounding means, the GEC for the antenna mast and antenna discharge unit must be connected to a grounding electrode per 250.52.

An Intersystem Bonding Termination is a device that provides a means to connect bonding conductors for communications systems to the grounding electrode system while meeting the requirements of 250.94 [Article100].

Bonding all systems to the intersystem bonding termination helps reduce induced potential (voltage) differences between the power and the radio and television systems during lightning events.

If the structure has an intersystem bonding termination, the bonding conductor for the antenna mast and antenna discharge unit must terminate to the intersystem bonding termination, per 250.94 [Article 100 and 250.94].

What if the structure doesn’t have this termination? In that case, the bonding conductor or GEC for the antenna mast and antenna discharge unit must terminate to the nearest accessible location on one of the following:
(1)        Building/structure grounding electrode system [250.50].
(2)        Interior metal water piping system, within 5 ft from its point of entrance [250.52(A)(1)].
(3)        Accessible means external to the building, as covered in 250.94.
(4)        Nonflexible metallic service raceway.
(5)        Service equipment enclosure.
(6)        GEC or the GEC metal enclosure.

2011 Understanding the NEC Volume 2 Articles 500 820 - 11UND2
Taken from Mike Holt's 2011 Understanding the NEC® Volume 2 Textbook
To order your copy, please click here, or call 888-632-2633

 

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Comments
  • One of the most frequently ignored provisions of this article is the requirement for antenna conductors of wire antennas to be a minimum size of 14 AWG as required in section 810.52 Size of Antenna. In order to avoid conflicts with neighbors and homeowner's associations conductors as small as 22 AWG are used so as to make the antenna less visible. The risk should be obvious. The inadequate sizing makes the antenna vulnerable to failure due to high winds or the accumulation of radial ice. Contact with the antenna conductor during transmission will cause extremely painful Radio Frequency (RF) burns.

    Tom Horne W3TDH  June 12 2013, 8:47 am EDT

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