Mike Holt Enterprises Electrical News Source

General Requirements, based on the 2020 NEC®

Figure 01

For EC&M Magazine
By Mike Holt, NEC® Consultant

Note: This article is based on the 2020 NEC.

Do you understand the general requirements for all installations?

Article 110 covers the general requirements for the examination and approval, installation and use, access to, and spaces about electrical equipment.‚

Some of the quick requirements:

  • The authority having jurisdiction must approve all electrical conductors and equipment [110.2].
  • Equipment that is listed and/or labeled must be installed and used per instructions in the listing or labeling requirements [110.3(B)].‚
  • Connectors are listed for a specific number and size of cables.
  • The circuit nominal system voltage cannot exceed the rating of the equipment [110.4].
  • Electrical installations must be free from short circuits, ground faults, or connections to conductive metal parts unless required or permitted by the Code [110.7].
  • The only wiring methods permitted by the NEC are those in the NEC [110.8].

Interrupting or short-circuit rating
Be careful not to confuse the term interrupting rating [110.9] with short-circuit rating [110.10].

Overcurrent protective devices must have an interrupting rating capacity (AIC) equal to or greater than the fault current available at the equipment line terminals [110.9].‚Unless marked otherwise, the ampere interrupting rating for circuit breakers is 5,000A [240.83(C)], and for fuses it is 10,000A [240.60(C)(3)].

Electrical equipment must have a short-circuit current rating that permits the circuit protective device to open due to a short circuit or ground fault without extensive damage to the electrical equipment [110.10]. Listed equipment applied per its listing meets this requirement. Figure 01

Available short circuit current is the current, in amperes, available at a given point in the electrical system. This current is first determined at the secondary terminals of the serving electric utility transformer. Thereafter, the available short circuit current is calculated at the terminals of the service disconnect, then panelboards and other equipment as various connections are made downstream from the main service. Beginning at the serving electric utility transformer, the available short circuit current decreases at each downstream connection point of the electrical system.‚

Work quality
Electrical equipment and cabling must be installed in a neat and workmanlike manner [110.12]. One aspect of this is unused openings must be closed by fittings that provide protection substantially equivalent to the wall of the equipment [110.12(A) and (C)].‚

Exposed cables must be supported by the structural components of the building so the cable will not be damaged by normal building use. Electrical equipment must be firmly secured to the surface on which it is mounted [110.13].

Conductor terminal and splicing devices must be identified for the conductor material and they must be properly installed and used per the manufacturer's instructions [110.3(B)].

Single direct burial types UF or USE conductors can be spliced underground with a device that is listed for direct burial [300.5(E) and 300.15(G)]. Multiconductor UF or USE cable can have the individual conductors spliced underground with a listed splice kit that encapsulates the conductors and cable jacket.

Electrical connection failures cause insulation failure, short circuits, ground faults, and fires. Improper terminations, poor workmanship, violating the manufacturer's instructions, and improper torqueing can each cause poor electrical connections.

Conductor ratings
For equipment rated 100A or less, size conductors 1 AWG and smaller per the ampacities in the 60°C temperature column of Table 310.16 [110.14(C)(1)(a)(1)]. Conductors rated for at least 75°C temperature and that terminate on terminals rated 75°C can be sized per the ampacities in the 75°C temperature column of Table 310.16 [110.14(C)(1)(a)(3)].‚

For equipment rated over 100A, size the conductor per the ampacities in the 75°C temperature column of Table 310.16 [110.14(C)(1)(b)(1)]. Splicing and terminating devices with terminals rated 90°C and not connected to electrical equipment can have their conductors sized per the ampacities in the 90°C temperature column of Table 310.16 [110.14(C)(2)].

Markings
You'll find many requirements for markings throughout Article 110. For example, where caution, warning, or danger labels are required, the labels must meet three requirements [110.21(B)]:

  1. The markings must warn of the hazards using effective words, colors, symbols, or a combination of words, colors, and symbols.
  2. The label cannot be handwritten, and it must be permanently affixed to the equipment.
  3. The marking must be of sufficient durability to withstand the environment involved.

Some other marking requirements:

  • For each disconnect, its purpose [110.22(A)].
  • High leg conductor [110.15].
  • Arc flash hazard warning [110.16(A)].
  • Service disconnect, available fault current [110.24(A)].

Space about equipment, 1,000V or less
Spaces about electrical equipment consist of working space for worker protection [110.26(A)] and dedicated space to provide access to, and protection of, equipment [110.26(E)]. The working space must be clear at all times; therefore, this space cannot be used for storage [110.26(B)]. Working space is not required at the back or sides of equipment where all connections and all renewable, adjustable, or serviceable parts are accessible from the front of the equipment.

While OSHA and NEC tables provide values for various voltages and conditions, these are minimum values. The actual values needed for adequate working space and worker protection in a given installation may be greater. NFPA 70E, Standard for Electrical Safety in the Workplace, provides guidance in determining the severity of potential exposure, planning safe work practices including establishing an electrically safe work condition, arc flash labeling, and selecting personal protective equipment.

The point of determining the correct working space for a given installation isn't to see how little of it you can get by with. The point is to determine how much is needed to efficiently and safely service the equipment. The efficiency aspect isn't required by OSHA or the NEC, but it can dramatically affect operational profitability. This same logic applies to Part III of Article 110, which provides working space requirements for installations over 1,000V.

You must allow for sufficient depth, width, and height:

  • When you measure the depth of a working space, do that from the enclosure front, not the live parts [110.26(A)(1)].
  • The width of the working space must be a minimum of 30 in., but in no case less than the width of the equipment. You can measure the width from left to right, from right to left, or simply centered on the equipment. It can overlap the working space for other electrical equipment. The working space must be of sufficient width, depth, and height to permit equipment doors to open at least 90 degrees [110.26(A)(2)].‚
  • The height of the working space must be clear and extend from the grade, floor, or platform to a height of 6½ ft or the height of the equipment. Electrical equipment such as raceways, cables, wireways, or panelboards or support structures, such as concrete pads can extend not more than 6 in. beyond the front of the electrical equipment [110.26(A)(3)].

Ex 1: The minimum height of working space does not apply to a service disconnect or panelboards rated 200A or less located in an existing dwelling unit.
Ex 2: Meters are permitted in the working space.

If equipment that's above a suspended ceiling or in a crawl space is likely to require servicing while energized, all of these conditions apply [110.26(A)(4)]:
(1)   Equipment above a suspended ceiling must have an access opening at least 22 in. × 22 in. Equipment in a crawl space must have an accessible opening at least 22 in. × 30 in.
(2)   The working space width must be at least 30 in., but never less than the width of the equipment.
(3)   The working space must permit equipment doors to open 90 degrees.
(4)   The working space in front of the equipment must comply with the depth requirements of Table 110.26(A)(1); horizontal ceiling structural members are permitted in this space.

When live parts are exposed for inspection or servicing, the working space, if in a passageway or open space, must be suitably guarded. And at least one entrance provide access to and egress from the working space. [110.26(C)].

Avoiding Article 110 violations
Thinking you can just look up something from here if a question arises is a mistake. To avoid errors, allot time on a regular basis to study, understand, and be familiar with the requirements.

Working space issues are especially an area of confusion. Remember, nothing prevents you from exceeding working space minimums if conditions merit doing so. You just can't go the other direction.

Comments
  • What is the minimum hieght for a 60amp sub panel outside?

    Chris   June 11 2024, 10:55 pm EDT
    Reply to this comment
  • Reply from: Mike Holt   June 12 2024, 10:11 am EDT
    None, except for Mobile Home disconnect [550.32].
    Reply to Mike Holt


  • Morning Mike, I have a simple question in regards to cec 110.26(2) outdoor installations, specifically the clear dedicated electrical space (for a load center) is a window above a panels dedicated working space considered a structural appurtenance? it is unclear if this window is used for egress purposes, but I have a strong feeling the dedicated space would apply due to the fact that someone can put a wall ac unit in place? or other obstructions above the window. please let me know what you think.

    jon  April 23 2024, 1:12 pm EDT
    Reply to this comment
  • Reply from: Mike Holt   April 23 2024, 1:36 pm EDT
    The dedicated space is the width and dept of the equipment. Clearly a window is not in that space, so it's fine.
    Reply to Mike Holt



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