Electrical systems are typically given a great deal of consideration during the design and installation phase of new construction or major renovation, but very little thought after completion — until something fails. Even though our electrical systems are usually very reliable, it is likely that some components will need maintenance or testing at some point in the life of the building or structure. Therefore, the NEC contains requirements meant to allow for safe and practical access to electrical equipment after the time of installation.
In the NEC, working space requirements are found primarily in Article 110. NEC 110.26 applies to electrical equipment operating at 600 volts or less. The primary requirement is that both access and working space must be provided and maintained for all electrical equipment. (Photo 1). This is to allow for ready and safe operation and maintenance of the equipment.
The definition of equipment in the NEC is “a general term, including fittings, devices, appliances, luminaires, apparatus, machinery, and the like used as a part of, or in connection with, an electrical installation.” This is a very broad definition, and when put in the context of working space requirements, likely includes many items not usually thought of when applying the requirements of 110.26.
After the first paragraph, Section 110.26 is divided into six subsections identified as (A) through (F). Section 110.26(A) defines the required height, width and depth of working space according to the voltage and type of equipment being considered. These requirements are specific to equipment “likely to require examination, adjustment, servicing, or maintenance while energized.”
Depth of working space is covered in 110.26(A)(1) and the associated table. The question is often asked, “Where do we start the measurement — from the live parts, the dead front, or the cover?” The NEC tells us that the measurement must begin from the exposed live parts, unless the live parts are enclosed. If they are enclosed, the measurement begins from the enclosure or opening.
Table 110.26(A) has three conditions for determining the minimum clear distance. (Figure 1). Condition 1 applies either when there are exposed live parts on one side of the working space and no live or grounded parts on the other side of the working space, or when there are exposed live parts on both sides of the working space that are effectively guarded by insulating materials. For Condition 1 installations with voltages to ground up to 600 volts, the minimum clear distance is 3 feet.
Condition 2 applies when there are exposed live parts on one side of the working space and grounded parts on the other side of the working space. The code explicitly states that concrete, brick or tile walls shall be considered as grounded. For Condition 2 installations with voltages between 0 and 150 volts, the minimum clear distance is 3 feet. For voltages between 151 and 600 volts, the minimum clear distance is 3.5 feet.
Condition 3 applies when there are exposed live parts on both sides of the working space. For this condition and voltages between 0 and 150 volts, the minimum clear distance is again 3 feet; while for voltages between 151 and 600 volts, the required distance is 4 feet.
Certain installations are allowed exceptions from the minimum depth requirements. For assemblies such as dead-front switchboards and motor control centers where all the connections and renewable or adjustable parts are accessible from locations other than the back or sides, there is no working space required for the back or sides of the equipment. If there are nonelectrical parts of such equipment that require rear access to work on them, a minimum horizontal working space of 30 inches is required.
Certain low voltage installations also have less required working space. If all the exposed live parts operate at not greater than 30 volts RMS, 42 volts peak, or 60 volts dc, then the inspector is allowed to grant special permission for a reduced working space. The definition of special permission in the NEC is “the written consent of the authority having jurisdiction,” so be sure to get it in writing! The specific amount of working space for these installations is not indicated, so it is up to the installer and the AHJ to work together to determine the safe amount of working space.
The NEC provides an allowance for existing buildings, as well. Where there are dead-front switchboards, panelboards, or motor control centers across an aisle from each other that are being replaced in an existing building, the Condition 2 distances are allowed instead of Condition 3. This only applies if there is maintenance and supervision of the building to ensure that written procedures have been adopted to: 1) prohibit equipment on both sides of the aisle from being open at the same time and 2) ensure that only authorized qualified persons are allowed to service the installation.
Width of working space is simpler to determine than depth; it is required to be the width of the equipment or 30 inches, whichever is greater. So if you have three 20 inch wide panelboards mounted on the same wall next to each other, what is the required working space? Since there is no prohibition against equipment sharing the width of working space, it could technically be as little as 60 inches. However, this is neither practical (for mounting reasons) nor prudent. It is a better practice to provide spacing between equipment and not to place a piece of equipment right up against a perpendicular wall, since this might make it more difficult to service in the future.
Remember that the requirements in the NEC are minimums; you are always allowed to make an installation safer and better. Note that the working space must also allow at least a 90 degree opening of equipment doors or hinged panels, so that might come into consideration depending on the design of the equipment.
Height of working space is measured from the grade, floor, or platform, and is required to be at least 6.5 feet or the height of the equipment, whichever is greater. If there is electrical equipment that is associated with the electrical system located above or below a piece of equipment, it is allowed to extend no more than 6 inches into the required working space.
There are two exceptions to the base requirement for height of working space. The first is for existing dwelling units, where panelboards, or service equipment, that do not exceed 200 amperes are allowed in working space that is less than 6.5 feet. (Quick fact: individual meter socket enclosures are not considered service equipment per 230.66.) The second exception is new to the 2011 NEC and states that meters that are installed in meter sockets shall be permitted to extend beyond the other equipment, but the meter socket is still required to follow the rules of this section. (Figure 2).
Moving on from the working space requirements, our next requirement is in 110.26(B) for clear spaces about electrical equipment. The required working space is not to be used for storage. No mops, no boxes, no stock, etc. As shown in photo 2, this is a commonly violated code rule. Additionally, if equipment is located in a passageway or general open space, it must be suitably guarded if any normally enclosed live parts are exposed for inspection or servicing.
The next few requirements cover entrance to and egress from the required working space. The minimum requirement is that at least one entrance of sufficient area must be provided. This is both to allow access to the equipment and egress from the working space about electrical equipment. Although “sufficient” is considered to be a “possibly vague or unenforceable” word in the NEC Style Manual, it is hard to think of a better word that would be inclusive of all the potential electrical equipment installations.
Large equipment has special requirements. For the purposes of these requirements, large equipment is defined as equipment rated 1200 amperes or more and over 6 feet wide that contains overcurrent devices, switching devices, or control devices. For this equipment, at least one entrance to and egress from the required working space is required at each end of the working space, and each entrance must be at least 24 inches wide and 6.5 feet high.
There are two exceptions to the requirement for multiple entrance/egress points. The first is when there is a continuous and unobstructed path of egress; in that case a single entrance is permitted. For example, if the equipment is on the wall directly opposite an entrance door and there is nothing between the two, this may be permitted as the single entrance.
The second exception is when there is extra working space. (Figure 3). If the depth of working space is twice that required by 110.26(A)(1), a single entrance is permitted. The distance to the nearest edge of the entrance from the equipment must be not less than the minimum clear distance as specified in Table 110.26(A)(1), based on the voltage and condition present. The idea behind this exception is to allow enough space for the electrician to get far enough away from the equipment to avoid being trapped if there is a problem in the equipment between the electrician and the exit.
Personnel doors also have special requirements for installations with equipment rated 1200 amperes or more that contains overcurrent devices, switching devices, or control devices. If the door is intended for entrance to and egress from the working space and the door is less than 25 feet from the nearest edge of the working space, then the door has to open in the direction of egress. It must also have panic bars, pressure plates, or other devices that are normally latched but open under simple pressure. (Photo 3).
Illumination is obviously important for anyone working on electrical equipment. The NEC requires that illumination be provided for all working spaces around service equipment, switchboards, panelboards, or motor control centers installed indoors. New for the 2011 NEC is the specific requirement that this required illumination shall not be controlled by automatic means only. (Figure 4). If the working space is illuminated by an adjacent light source or as permitted by 210.70(A)(1), Exception No. 1 for switched receptacles, then additional lighting outlets are not required.
Switchboards, panelboards, and motor control centers must be located in dedicated spaces and protected from damage. The only exception to this rule is for control equipment that for some reason (either because of its use or other code rules) must be adjacent to or within sight of its operating machinery. There are separate code requirements for indoor and outdoor dedicated equipment space.
Indoor installations must comply with four conditions including rules for dedicated electrical space, foreign systems, sprinkler protection, and suspended ceilings. The dedicated space requirement states that an area equal to the width and depth of the equipment and extending from the floor to a height of 6 feet above the equipment or to the structural ceiling (whichever is lower) must be dedicated to the electrical installation. This prohibits piping, ductwork, leak protection apparatus, and any other equipment that is not associated with the electrical equipment from being located in this space.
Some foreign systems are allowed above the dedicated space, but only if protection is provided to prevent damage to the electrical equipment from condensation, leaks, or breaks in the foreign system. (Figure 5). Sprinkler protection is permitted for the dedicated space, as long as the piping does not enter the required dedicated electrical space and is protected against leaking.
Dropped, suspended, or similar ceilings that do not add strength to the building are not considered structural ceilings. Suspended ceilings with removable panels are permitted within the dedicated electrical space.
Electrical equipment installed outdoors must be installed in suitable enclosures and protected from accidental contact by unauthorized personnel, vehicular traffic, and accidental spillage or leakage from piping systems. All of the working space requirements in 110.26(A) still apply, and there is a further requirement that no architectural parts or equipment are allowed to be located in the working space.
The last section of 110.26 deals with locked electrical equipment rooms or enclosures. If an electrical equipment or room is locked, it is considered accessible to qualified persons. The definition of accessible (as applied to equipment) in Article 100 is “admitting close approach; not guarded by locked doors, elevation, or other effective means.” The language in 110.26(F) is a way to reconcile the requirement of 110.26 that access is to be provided to electrical equipment, while also allowing for locked rooms to protect equipment from unqualified persons.
There are additional requirements for equipment above 600 volts, including 110.32, 110.33 and 110.34. Many of the base requirements are very similar to those for equipment operating at 600 volts or less, and I encourage you to read those sections if you design, install or inspect equipment rated at higher than 600 volts.
It can seem difficult to find adequate space for electrical equipment due to construction limitations in new buildings or existing buildings; however, the working space requirements are necessary for the safety of maintenance personnel and service electricians. While it is always recommended to de-energize equipment before working on it, there are certain operations (especially testing) that require accessing live parts. The working space requirements provide adequate space for working safely on the equipment and for egress away from the equipment in the case of an abnormal condition.
FAQs
What is the minimum working space around electrical equipment? ›
The National Electrical Code® (NEC)® Section 110.26 requires adequate working space for all electrical equipment. NEC Section 110.26(A) requires a clear space at least 30 inches wide and 36 inches deep if the equipment is likely to be worked on while energized.
What are the NEC 110.26 spaces about electrical equipment? ›110.26 Spaces About Electrical Equipment.
Working space, and access to and egress from working space, shall be provided and maintained about all electrical equipment to permit ready and safe operation and maintenance of such equipment. Open equipment doors shall not impede access to and egress from the working space.
To avoid body contact with energized parts when maintaining / servicing electrical equipment, a minimum of 30 inches is required in front of electrical equipment rated 600 V or less.
What is the minimum height of working space for equipment operating at 1000 volts? ›| Nominal Voltage to Ground | Minimum Clear Distance | |
|---|---|---|
| Condition 1 | Condition 2 | |
| 0—150 | 900 mm (3 ft) | 900 mm (3 ft) |
| 151—600 | 900 mm (3 ft) | 1.0 m (3 ft 6 in.) |
| 601—1000 | 900 mm (3 ft) | 1.2 m (4 ft) |
Basic Room Requirements
The NEC also requires 3 to 4' (1m to 1.3m) of aisle space between live electrical components of 600 volts or less, depending on whether live components are on one or both sides of the aisle. This requirement holds even if components are protected by safety enclosures or screens.
§2340.16. Work Space About Electric Equipment. (a) Space about electric equipment. Sufficient access and working space shall be provided and maintained about all electric equipment to permit ready and safe operation and maintenance of such equipment.
What is the NEC code spacing? ›The General Rule of Thumb for Outlet Spacing
The primary rule is what's known as the 6'/12′ rule. NEC 210-52 states the following (abbreviated for easier digestion): Receptacles are needed in every room of a home such that no point on a wall is over 6′ from an outlet.
Drawing 7: With only one exit door not located so as to allow exit from the working space without passing any possible failure point in the equipment, the minimum depth of working space is 1.5 m.
What code in the NEC goes over minimum entrance to and egress from working space? ›Space about electrical equipment shall comply with 110.26. For equipment over 1.8 m (6 ft) wide or deep, there shall be one entrance to and egress from the required working space not less than 610 mm (24 in.)
What is the minimum width of access to equipment? ›A minimum width of 18 inches is acceptable for a walkway used for maintenance and gaining access to equipment and would comply with the intent of Section 1910.37, OSHA General Industry Standards.
What is the OSHA clearance around mechanical equipment? ›
Headroom. The minimum headroom of working spaces about service equipment, switchboards, panelboards, or motor control centers shall be 6 feet 3 inches (1.91 m). Guarding of live parts. By location in a room, vault, or similar enclosure that is accessible only to qualified persons.
What is the size of working space? ›Common areas – 80-100 square feet per person. Conference rooms – 25-30 square feet per person. Executive offices – 90-150 square feet. Open workstations – 60-110 square feet per person.
What is the minimum equipment height for NEC? ›The working space must be of sufficient width, depth, and height to permit equipment doors to open at least 90° [Sec. 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.
What is the minimum height of working clearance for equipment? ›Section 110.26(A)(3) “Height of Working Space” requires the height of the working space to be at least 6 feet 6 inches, measured from the floor, grade, or platform, or the actual height of the equipment itself whichever is greater.
What is the maximum equipment height for NEC? ›NEC Section 240.24(A), with a few exceptions, requires that circuit breakers and switches containing fuses be readily accessible and located so that the center of the grip of the operating handle in its highest position is no more than 2.0 m (6 ft 7 in.)
How high is a working space NEC? ›The working space must be of sufficient width, depth, and height to permit equipment doors to open at least 90 degrees (Fig. 1). 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, whichever is greater [Sec. 110.
What is the minimum required height of the working space? ›“Headroom” is another way we refer to the height of a working space. For service equipment, switchboards, panelboards, and motor control equipment, the headroom in front of equipment must be at least 6½ ft, measured from the grade, floor, or platform [110.26(E)].
What is the minimum width of the working space required at an electrical panel that is 24 wide? ›For large equipment that contains overcurrent devices, switching devices, or control devices, there shall be one entrance to and egress from the required working space not less than 610 mm (24 in.) wide and 2.0 m (61/2 ft) high at each end of the working space.
What is the 24 inch rule NEC? ›One exception to the rule: If the wall is less than 24 inches wide, an outlet is not required. Again, you are allowed to place an outlet in this space if you so choose. Hallways more than 10 feet long must have at least one electrical outlet, preferably at the mid-point.
What is NEC standard for electrical? ›The National Electrical Code of India (NEC) is an all-inclusive Electrical Installations Code prepared by BIS, providing guidelines for regulating electrical installation practises across the country.
What are the NEC sizing rules? ›
For branch circuits, NEC 210.19 states the rules for sizing conductors. The general rule is that conductors are sized to have an ampacity of not less than the noncontinuous load plus 125 percent of the continuous load. The corresponding rule for overcurrent protection is given in NEC 210.20(A).
What is the minimum safe distance items can be stored next to an electrical panel? ›3 feet when the nominal voltage is between 0 and 150 volts. 3 to 4 feet when the nominal voltage is between 151 and 600 volts. 3 to 5 feet when the nominal voltage is between 601 and 2,500 volts.
How many inches of unobstructed space around an electrical panel? ›This clearance is necessary to ensure that workers can access electrical panels without any obstruction and to allow for safe and easy operation of electrical equipment. Clearances around Electrical Panels: OSHA requires a minimum clearance of 36 inches around the perimeter of electrical panels.
What is the minimum dimension of entrance to a work space with equipment rated 1200 amperes or more? ›For equipment rated 1200 amperes or more and over 1.8 m (6 ft) wide that contains overcurrent devices, switching devices, or control devices, there shall be one entrance to and egress from the required working space not less than 610 mm (24 in.)
What code in the NEC goes over width of working space? ›NEC 110.26(A)(2) states that “the width of the working space in front of the electrical equipment shall be the width of the equipment or 762 mm (30 in.), whichever is greater.” In addition, this work space shall permit at least a 90-degree opening of the panelboard door.
What is the dedicated space above electrical equipment NEC? ›The space equal to the width and depth of the equipment, and extending from grade to a height of 1.8 m (6 ft) above the equipment, shall be dedicated to the electrical installation.
What is the NEC 110.26 for exact definition? ›Section 110.26(A) defines the required height, width and depth of working space according to the voltage and type of equipment being considered. These requirements are specific to equipment “likely to require examination, adjustment, servicing, or maintenance while energized.”
What is the minimum access width for OSHA? ›Question #1: The OSHA [exit route] requirements, [§1910.36(g)(2)], state that the minimum width of any way of exit access shall in no case be less than 28 inches and the OSHA stair requirement, §1910.24(d), requires a minimum stair width of 22 inches.
What is the minimum width for OSHA? ›The recommended width of aisles is at least 3 feet wider than the largest equipment to be utilized, or a minimum of 4 feet.
What is the minimum safe distance for equipment operating? ›This provision requires that equipment be operated so that a clearance of 10 feet from any energized overhead line is maintained. This clearance distance must be increased by 4 inches for every 10 kilovolts over 50 kilovolts.
How does OSHA define electrical equipment? ›
A device or group of devices that serves to govern, in some predetermined manner, the electric power delivered to the apparatus to which it is connected.
What are the OSHA requirements for safety equipment? ›With few exceptions, OSHA requires employers to pay for personal protective equipment when it is used to comply with OSHA standards. These typically include: hard hats, gloves, goggles, safety shoes, safety glasses, welding helmets and goggles, face shields, chemical protective equipment and fall protection equipment.
What is the minimum safe distance for equipment to be operated in proximity of energized power lines? ›Under the table, for insulated lines of less than 300 volts, the minimum clearance distance is 3 feet; for uninsulated lines, it is 10 feet.
What is the legal definition of work space? ›A specific area, such as a machine shop, engineering space, or fabrication area, where one or more employees are performing job tasks.
What is a common work space? ›Shared workspaces (coworking spaces) are workstations rented by remote employees, freelancers, gig workers, consultants, and anyone else who may not have a central office—one space for one individual. Shared office space is a much larger workplace rented for many people in a similar fashion.
How should working space be? ›- Don't focus too much on the physical layout. ...
- Create opportunities for movement. ...
- Get a plant. ...
- Give gadgets a home. ...
- Keep your space clean. ...
- Get personal.
A conductor rated a minimum of 33% of the ampacity of a feeder conductor may be tapped from the feeder provided its length is not greater than 25 feet and it terminates in an appropriately sized overcurrent protective device.
What is the standard minimum clearance? ›On Interstates, the clear height of structures shall not be less than 16 feet (4.9 meters) over the entire roadway width, including the useable width of shoulder. In urban areas, the 16-foot (4.9-meter) clearance shall apply to at least a single routing.
Why do electrical panels need 36 inches of clearance? ›OSHA, NFPA and NEC regulations require that electrical panels are given a 36 inch / 3 foot clearance in front to allow appropriate access at all times, especially in case of an emergency. Use this sign to keep employees aware of these regulations and to prevent dangerous blockages.
What is the working clearance for 480 volts? ›For example, a 480Y/277V, three-phase, 4-wire switchboard will be installed in an electrical room. The wall across the aisle from the switchboard is concrete block. Because this wall is considered grounded, Condition 2 applies. The minimum working space depth for this switchboard is 3 feet, 6 inches (see Figure 2).
What is the minimum height of the working space in a commercial installation is NEC? ›
Section 110.26 outlines the access and working spaces that shall be maintained about all equipment. As per 110.26(A)(3), "The work space shall be clear and extend from the grade, floor, or platform to a height of 6 1/2 ft or the height of the equipment, whichever is greater.
What is the minimum safe distance for equipment operating in proximity? ›| Voltage (nominal, kV, alternating current) | Minimum clearance distance (feet) |
|---|---|
| Up to 50 | 10 |
| Over 50 to 200 | 15 |
| Over 200 to 350 | 20 |
| Over 350 to 500 | 25 |
OSHA's electrical standards are designed to protect employees exposed to dangers such as electric shock, electrocution, fires, and explosions.
What is the required minimum headroom for electrical equipment that exceeds 6 1 2 feet in height? ›What is the required minimum headroom for electrical equipment that exceeds 6 1/2 feet in height? Not less than the height of the equipment.
How much clearance is needed for a 480V electrical panel? ›In a new installation, the minimum clear distance in front of the 480V switchboard is 4 feet.
What is typically there should be of unobstructed space around an electrical panel group of answer choices? ›Do not block or obstruct access to this electrical panel; keep equipment and tools well away so emergency access is not hindered. In some localities, 3 feet (0.91 m) of unobstructed space must be maintained around the panel at all times.
What is the Cal OSHA clearance in front of the electrical panel? ›To prevent this from happening, minimum clearances between the face of the switchboard and the opposite wall are to be 3 feet for voltages up to 150 and 3 1/2 feet for voltages between 151 and 600. to be 3 feet for voltages up to 150 and 4 feet for voltages between 151 and 600.