29 CFR part 1926, subpart K

e-CFR Data is current as of January 11, 2012
Subpart K—Electrical
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Authority: Sections 6 and 8 of the Occupational Safety and Health Act of 1970 (29 U.S.C. 655
and 657); sec. 107, Contract Work Hours and Safety Standards Act (40 U.S.C. 333); Secretary of
Labor's Order No. 9–83 (48 FR 35736) or 1–90 (55 FR 9033), as applicable; 29 CFR part 1911.
Source: 51 FR 25318, July 11, 1986, unless otherwise noted.
General
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§ 1926.400 Introduction.
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This subpart addresses electrical safety requirements that are necessary for the practical safeguarding of employees involved in construction work
and is divided into four major divisions and applicable definitions as follows:
(a) Installation safety requirements. Installation safety requirements are contained in §§1926.402 through 1926.408. Included in this category are
electric equipment and installations used to provide electric power and light on jobsites.
(b) Safety-related work practices. Safety-related work practices are contained in §§1926.416 and 1926.417. In addition to covering the hazards arising
from the use of electricity at jobsites, these regulations also cover the hazards arising from the accidental contact, direct or indirect, by employees with
all energized lines, above or below ground, passing through or near the jobsite.
(c) Safety-related maintenance and environmental considerations. Safety-related maintenance and environmental considerations are contained in
§§1926.431 and 1926.432.
(d) Safety requirements for special equipment. Safety requirements for special equipment are contained in §1926.441.
(e) Definitions. Definitions applicable to this subpart are contained in §1926.449.

§ 1926.401 [Reserved]
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Installation Safety Requirements
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§ 1926.402 Applicability.

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(a) Covered. Sections 1926.402 through 1926.408 contain installation safety requirements for electrical equipment and installations used to provide
electric power and light at the jobsite. These sections apply to installations, both temporary and permanent, used on the jobsite; but these sections do
not apply to existing permanent installations that were in place before the construction activity commenced.

Note: If the electrical installation is made in accordance with the National Electrical Code
ANSI/NFPA 70–1984, exclusive of Formal Interpretations and Tentative Interim Amendments, it
will be deemed to be in compliance with §§1926.403 through 1926.408, except for
§§1926.404(b)(1) and 1926.405(a)(2)(ii) (E), (F), (G), and (J).
(b) Not covered. Sections 1926.402 through 1926.408 do not cover installations used for the generation, transmission, and distribution of electric
energy, including related communication, metering, control, and transformation installations. (However, these regulations do cover portable and
vehicle-mounted generators used to provide power for equipment used at the jobsite.) See subpart V of this part for the construction of power
distribution and transmission lines.

§ 1926.403 General requirements.
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(a) Approval. All electrical conductors and equipment shall be approved.
(b) Examination, installation, and use of equipment —(1) Examination. The employer shall ensure that electrical equipment is free from recognized
hazards that are likely to cause death or serious physical harm to employees. Safety of equipment shall be determined on the basis of the following
considerations:
(i) Suitability for installation and use in conformity with the provisions of this subpart. Suitability of equipment for an identified purpose may be
evidenced by listing, labeling, or certification for that identified purpose.
(ii) Mechanical strength and durability, including, for parts designed to enclose and protect other equipment, the adequacy of the protection thus
provided.
(iii) Electrical insulation.
(iv) Heating effects under conditions of use.
(v) Arcing effects.
(vi) Classification by type, size, voltage, current capacity, specific use.
(vii) Other factors which contribute to the practical safeguarding of employees using or likely to come in contact with the equipment.
(2) Installation and use. Listed, labeled, or certified equipment shall be installed and used in accordance with instructions included in the listing,
labeling, or certification.
(c) Interrupting rating. Equipment intended to break current shall have an interrupting rating at system voltage sufficient for the current that must be
interrupted.
(d) Mounting and cooling of equipment —(1) Mounting. Electric equipment shall be firmly secured to the surface on which it is mounted. Wooden plugs
driven into holes in masonry, concrete, plaster, or similar materials shall not be used.
(2) Cooling. Electrical equipment which depends upon the natural circulation of air and convection principles for cooling of exposed surfaces shall be
installed so that room air flow over such surfaces is not prevented by walls or by adjacent installed equipment. For equipment designed for floor
mounting, clearance between top surfaces and adjacent surfaces shall be provided to dissipate rising warm air. Electrical equipment provided with
ventilating openings shall be installed so that walls or other obstructions do not prevent the free circulation of air through the equipment.
(e) Splices. Conductors shall be spliced or joined with splicing devices designed for the use or by brazing, welding, or soldering with a fusible metal or
alloy. Soldered splices shall first be so spliced or joined as to be mechanically and electrically secure without solder and then soldered. All splices and
joints and the free ends of conductors shall be covered with an insulation equivalent to that of the conductors or with an insulating device designed for
the purpose.
(f) Arcing parts. Parts of electric equipment which in ordinary operation produce arcs, sparks, flames, or molten metal shall be enclosed or separated
and isolated from all combustible material.

(g) Marking. Electrical equipment shall not be used unless the manufacturer's name, trademark, or other descriptive marking by which the organization
responsible for the product may be identified is placed on the equipment and unless other markings are provided giving voltage, current, wattage, or
other ratings as necessary. The marking shall be of sufficient durability to withstand the environment involved.
(h) Identification of disconnecting means and circuits. Each disconnecting means required by this subpart for motors and appliances shall be legibly
marked to indicate its purpose, unless located and arranged so the purpose is evident. Each service, feeder, and branch circuit, at its disconnecting
means or overcurrent device, shall be legibly marked to indicate its purpose, unless located and arranged so the purpose is evident. These markings
shall be of sufficient durability to withstand the environment involved.
(i) 600 Volts, nominal, or less. This paragraph applies to equipment operating at 600 volts, nominal, or less.
(1) Working 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.
(i) Working clearances. Except as required or permitted elsewhere in this subpart, the dimension of the working space in the direction of access to live
parts operating at 600 volts or less and likely to require examination, adjustment, servicing, or maintenance while alive shall not be less than indicated
in Table K–1. In addition to the dimensions shown in Table K–1, workspace shall not be less than 30 inches (762 mm) wide in front of the electric
equipment. Distances shall be measured from the live parts if they are exposed, or from the enclosure front or opening if the live parts are enclosed.
Walls constructed of concrete, brick, or tile are considered to be grounded. Working space is not required in back of assemblies such as dead-front
switchboards or motor control centers where there are no renewable or adjustable parts such as fuses or switches on the back and where all
connections are accessible from locations other than the back.
Table K–1—Working Clearances

Minimum clear distance for conditions1
Nominal voltage to ground

(a)

(b)

(c)

Feet2

Feet2

Feet2

0–150

3

3

3

151–600

3

3 1/2

4

1
Conditions (a), (b), and (c) are as follows: (a) Exposed live parts on one side and no live or grounded parts on the other side of the working space, or
exposed live parts on both sides effectively guarded by insulating material. Insulated wire or insulated busbars operating at not over 300 volts are not
considered live parts. (b) Exposed live parts on one side and grounded parts on the other side. (c) Exposed live parts on both sides of the workspace
[not guarded as provided in Condition (a)] with the operator between.

2

Note: For International System of Units (SI): one foot=0.3048m.

(ii) Clear spaces. Working space required by this subpart shall not be used for storage. When normally enclosed live parts are exposed for inspection
or servicing, the working space, if in a passageway or general open space, shall be guarded.
(iii) Access and entrance to working space. At least one entrance shall be provided to give access to the working space about electric equipment.
(iv) Front working space. Where there are live parts normally exposed on the front of switchboards or motor control centers, the working space in front
of such equipment shall not be less than 3 feet (914 mm).
(v) 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).
(2) Guarding of live parts. (i) Except as required or permitted elsewhere in this subpart, live parts of electric equipment operating at 50 volts or more
shall be guarded against accidental contact by cabinets or other forms of enclosures, or by any of the following means:
(A) By location in a room, vault, or similar enclosure that is accessible only to qualified persons.
(B) By partitions or screens so arranged that only qualified persons will have access to the space within reach of the live parts. Any openings in such
partitions or screens shall be so sized and located that persons are not likely to come into accidental contact with the live parts or to bring conducting
objects into contact with them.
(C) By location on a balcony, gallery, or platform so elevated and arranged as to exclude unqualified persons.
(D) By elevation of 8 feet (2.44 m) or more above the floor or other working surface and so installed as to exclude unqualified persons.

(ii) In locations where electric equipment would be exposed to physical damage, enclosures or guards shall be so arranged and of such strength as to
prevent such damage.
(iii) Entrances to rooms and other guarded locations containing exposed live parts shall be marked with conspicuous warning signs forbidding
unqualified persons to enter.
(j) Over 600 volts, nominal —(1) General. Conductors and equipment used on circuits exceeding 600 volts, nominal, shall comply with all applicable
provisions of paragraphs (a) through (g) of this section and with the following provisions which supplement or modify those requirements. The
provisions of paragraphs (j)(2), (j)(3), and (j)(4) of this section do not apply to equipment on the supply side of the service conductors.
(2) Enclosure for electrical installations. Electrical installations in a vault, room, closet or in an area surrounded by a wall, screen, or fence, access to
which is controlled by lock and key or other equivalent means, are considered to be accessible to qualified persons only. A wall, screen, or fence less
than 8 feet (2.44 m) in height is not considered adequate to prevent access unless it has other features that provide a degree of isolation equivalent to
an 8-foot (2.44-m) fence. The entrances to all buildings, rooms or enclosures containing exposed live parts or exposed conductors operating at over
600 volts, nominal, shall be kept locked or shall be under the observation of a qualified person at all times.
(i) Installations accessible to qualified persons only. Electrical installations having exposed live parts shall be accessible to qualified persons only and
shall comply with the applicable provisions of paragraph (j)(3) of this section.
(ii) Installations accessible to unqualified persons. Electrical installations that are open to unqualified persons shall be made with metal-enclosed
equipment or shall be enclosed in a vault or in an area, access to which is controlled by a lock. Metal-enclosed switchgear, unit substations,
transformers, pull boxes, connection boxes, and other similar associated equipment shall be marked with appropriate caution signs. If equipment is
exposed to physical damage from vehicular traffic, guards shall be provided to prevent such damage. Ventilating or similar openings in metal-enclosed
equipment shall be designed so that foreign objects inserted through these openings will be deflected from energized parts.
(3) Workspace about equipment. Sufficient space shall be provided and maintained about electric equipment to permit ready and safe operation and
maintenance of such equipment. Where energized parts are exposed, the minimum clear workspace shall not be less than 6 feet 6 inches (1.98 m)
high (measured vertically from the floor or platform), or less than 3 feet (914 mm) wide (measured parallel to the equipment). The depth shall be as
required in Table K–2. The workspace shall be adequate to permit at least a 90-degree opening of doors or hinged panels.
(i) Working space. The minimum clear working space in front of electric equipment such as switchboards, control panels, switches, circuit breakers,
motor controllers, relays, and similar equipment shall not be less than specified in Table K–2 unless otherwise specified in this subpart. Distances
shall be measured from the live parts if they are exposed, or from the enclosure front or opening if the live parts are enclosed. However, working
space is not required in back of equipment such as deadfront switchboards or control assemblies where there are no renewable or adjustable parts
(such as fuses or switches) on the back and where all connections are accessible from locations other than the back. Where rear access is required to
work on de-energized parts on the back of enclosed equipment, a minimum working space of 30 inches (762 mm) horizontally shall be provided.
Table K–2—Minimum Depth of Clear Working Space in Front of Electric Equipment

Conditions1
Nominal voltage to ground

(a)

(b)

(c)

Feet2

Feet2

Feet2

601 to 2,500

3

4

5

2,501 to 9,000

4

5

6

9,001 to 25,000

5

6

9

25,001 to 75 kV

6

8

10

Above 75kV

8

10

12

1
Conditions (a), (b), and (c) are as follows: (a) Exposed live parts on one side and no live or grounded parts on the other side of the working space, or
exposed live parts on both sides effectively guarded by insulating materials. Insulated wire or insulated busbars operating at not over 300 volts are not
considered live parts. (b) Exposed live parts on one side and grounded parts on the other side. Walls constructed of concrete, brick, or tile are
considered to be grounded surfaces. (c) Exposed live parts on both sides of the workspace [not guarded as provided in Condition (a)] with the
operator between.

2

Note: For SI units: one foot=0.3048 m.

(ii) Lighting outlets and points of control. The lighting outlets shall be so arranged that persons changing lamps or making repairs on the lighting
system will not be endangered by live parts or other equipment. The points of control shall be so located that persons are not likely to come in contact
with any live part or moving part of the equipment while turning on the lights.

(iii) Elevation of unguarded live parts. Unguarded live parts above working space shall be maintained at elevations not less than specified in Table K–
3.
Table K–3—Elevation of Unguarded Energized Parts Above Working Space

Nominal voltage between phases

Minimum elevation

601–7,500

8 feet 6 inches.1

7,501–35,000

9 feet.

Over 35kV

9 feet+0.37 inches per kV above 35kV.

1

Note: For SI units: one inch=25.4 mm; one foot=0.3048 m.

(4) Entrance and access to workspace. At least one entrance not less than 24 inches (610 mm) wide and 6 feet 6 inches (1.98 m) high shall be
provided to give access to the working space about electric equipment. On switchboard and control panels exceeding 48 inches (1.22 m) in width,
there shall be one entrance at each end of such board where practicable. Where bare energized parts at any voltage or insulated energized parts
above 600 volts are located adjacent to such entrance, they shall be guarded.
[51 FR 25318, July 11, 1986, as amended at 61 FR 5510, Feb. 13, 1996]

§ 1926.404 Wiring design and protection.
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(a) Use and identification of grounded and grounding conductors —(1) Identification of conductors. A conductor used as a grounded conductor shall
be identifiable and distinguishable from all other conductors. A conductor used as an equipment grounding conductor shall be identifiable and
distinguishable from all other conductors.
(2) Polarity of connections. No grounded conductor shall be attached to any terminal or lead so as to reverse designated polarity.
(3) Use of grounding terminals and devices. A grounding terminal or grounding-type device on a receptacle, cord connector, or attachment plug shall
not be used for purposes other than grounding.
(b) Branch circuits —(1) Ground-fault protection —(i) General. The employer shall use either ground fault circuit interrupters as specified in paragraph
(b)(1)(ii) of this section or an assured equipment grounding conductor program as specified in paragraph (b)(1)(iii) of this section to protect employees
on construction sites. These requirements are in addition to any other requirements for equipment grounding conductors.
(ii) Ground-fault circuit interrupters. All 120-volt, single-phase, 15- and 20-ampere receptacle outlets on construction sites, which are not a part of the
permanent wiring of the building or structure and which are in use by employees, shall have approved ground-fault circuit interrupters for personnel
protection. Receptacles on a two-wire, single-phase portable or vehicle-mounted generator rated not more than 5kW, where the circuit conductors of
the generator are insulated from the generator frame and all other grounded surfaces, need not be protected with ground-fault circuit interrupters.
(iii) Assured equipment grounding conductor program. The employer shall establish and implement an assured equipment grounding conductor
program on construction sites covering all cord sets, receptacles which are not a part of the building or structure, and equipment connected by cord
and plug which are available for use or used by employees. This program shall comply with the following minimum requirements:
(A) A written description of the program, including the specific procedures adopted by the employer, shall be available at the jobsite for inspection and
copying by the Assistant Secretary and any affected employee.
(B) The employer shall designate one or more competent persons (as defined in §1926.32(f)) to implement the program.
(C) Each cord set, attachment cap, plug and receptacle of cord sets, and any equipment connected by cord and plug, except cord sets and
receptacles which are fixed and not exposed to damage, shall be visually inspected before each day's use for external defects, such as deformed or
missing pins or insulation damage, and for indications of possible internal damage. Equipment found damaged or defective shall not be used until
repaired.
(D) The following tests shall be performed on all cord sets, receptacles which are not a part of the permanent wiring of the building or structure, and
cord- and plug-connected equipment required to be grounded:
( 1 ) All equipment grounding conductors shall be tested for continuity and shall be electrically continuous.

( 2 ) Each receptacle and attachment cap or plug shall be tested for correct attachment of the equipment grounding conductor. The equipment
grounding conductor shall be connected to its proper terminal.
(E) All required tests shall be performed:
( 1 ) Before first use;
( 2 ) Before equipment is returned to service following any repairs;
( 3 ) Before equipment is used after any incident which can be reasonably suspected to have caused damage (for example, when a cord set is run
over); and
( 4 ) At intervals not to exceed 3 months, except that cord sets and receptacles which are fixed and not exposed to damage shall be tested at intervals
not exceeding 6 months.
(F) The employer shall not make available or permit the use by employees of any equipment which has not met the requirements of this paragraph
(b)(1)(iii) of this section.
(G) Tests performed as required in this paragraph shall be recorded. This test record shall identify each receptacle, cord set, and cord- and plugconnected equipment that passed the test and shall indicate the last date it was tested or the interval for which it was tested. This record shall be kept
by means of logs, color coding, or other effective means and shall be maintained until replaced by a more current record. The record shall be made
available on the jobsite for inspection by the Assistant Secretary and any affected employee.
(2) Outlet devices. Outlet devices shall have an ampere rating not less than the load to be served and shall comply with the following:
(i) Single receptacles. A single receptacle installed on an individual branch circuit shall have an ampere rating of not less than that of the branch
circuit.
(ii) Two or more receptacles. Where connected to a branch circuit supplying two or more receptacles or outlets, receptacle ratings shall conform to the
values listed in Table K–4.
(iii) Receptacles used for the connection of motors. The rating of an attachment plug or receptacle used for cord- and plug-connection of a motor to a
branch circuit shall not exceed 15 amperes at 125 volts or 10 amperes at 250 volts if individual overload protection is omitted.
Table K–4—Receptacle Ratings for Various Size Circuits

Circuit rating amperes

Receptacle rating amperes

15

Not over 15.

20

15 or 20.

30

30.

40

40 or 50.

50

50.

(c) Outside conductors and lamps —(1) 600 volts, nominal, or less. Paragraphs (c)(1)(i) through (c)(1)(iv) of this section apply to branch circuit, feeder,
and service conductors rated 600 volts, nominal, or less and run outdoors as open conductors.
(i) Conductors on poles. Conductors supported on poles shall provide a horizontal climbing space not less than the following:
(A) Power conductors below communication conductors—30 inches (762 mm) .
(B) Power conductors alone or above communication conductors: 300 volts or less—24 inches (610 mm); more than 300 volts—30 inches (762 mm).
(C) Communication conductors below power conductors: with power conductors 300 volts or less—24 inches (610 mm); more than 300 volts—30
inches (762 mm).
(ii) Clearance from ground. Open conductors shall conform to the following minimum clearances:
(A) 10 feet (3.05 m)—above finished grade, sidewalks, or from any platform or projection from which they might be reached.

(B) 12 feet (3.66 m)—over areas subject to vehicular traffic other than truck traffic.
(C) 15 feet (4.57 m)—over areas other than those specified in paragraph (c)(1)(ii)(D) of this section that are subject to truck traffic.
(D) 18 feet (5.49 m)—over public streets, alleys, roads, and driveways.
(iii) Clearance from building openings. Conductors shall have a clearance of at least 3 feet (914 mm) from windows, doors, fire escapes, or similar
locations. Conductors run above the top level of a window are considered to be out of reach from that window and, therefore, do not have to be 3 feet
(914 mm) away.
(iv) Clearance over roofs. Conductors above roof space accessible to employees on foot shall have a clearance from the highest point of the roof
surface of not less than 8 feet (2.44 m) vertical clearance for insulated conductors, not less than 10 feet (3.05 m) vertical or diagonal clearance for
covered conductors, and not less than 15 feet (4.57 m) for bare conductors, except that:
(A) Where the roof space is also accessible to vehicular traffic, the vertical clearance shall not be less than 18 feet (5.49 m), or
(B) Where the roof space is not normally accessible to employees on foot, fully insulated conductors shall have a vertical or diagonal clearance of not
less than 3 feet (914 mm), or
(C) Where the voltage between conductors is 300 volts or less and the roof has a slope of not less than 4 inches (102 mm) in 12 inches (305 mm), the
clearance from roofs shall be at least 3 feet (914 mm), or
(D) Where the voltage between conductors is 300 volts or less and the conductors do not pass over more than 4 feet (1.22 m) of the overhang portion
of the roof and they are terminated at a through-the-roof raceway or support, the clearance from roofs shall be at least 18 inches (457 mm).
(2) Location of outdoor lamps. Lamps for outdoor lighting shall be located below all live conductors, transformers, or other electric equipment, unless
such equipment is controlled by a disconnecting means that can be locked in the open position or unless adequate clearances or other safeguards are
provided for relamping operations.
(d) Services —(1) Disconnecting means —(i) General. Means shall be provided to disconnect all conductors in a building or other structure from the
service-entrance conductors. The disconnecting means shall plainly indicate whether it is in the open or closed position and shall be installed at a
readily accessible location nearest the point of entrance of the service-entrance conductors.
(ii) Simultaneous opening of poles. Each service disconnecting means shall simultaneously disconnect all ungrounded conductors.
(2) Services over 600 volts, nominal. The following additional requirements apply to services over 600 volts, nominal.
(i) Guarding. Service-entrance conductors installed as open wires shall be guarded to make them accessible only to qualified persons.
(ii) Warning signs. Signs warning of high voltage shall be posted where unauthorized employees might come in contact with live parts.
(e) Overcurrent protection —(1) 600 volts, nominal, or less. The following requirements apply to overcurrent protection of circuits rated 600 volts,
nominal, or less.
(i) Protection of conductors and equipment. Conductors and equipment shall be protected from overcurrent in accordance with their ability to safely
conduct current. Conductors shall have sufficient ampacity to carry the load.
(ii) Grounded conductors. Except for motor-running overload protection, overcurrent devices shall not interrupt the continuity of the grounded
conductor unless all conductors of the circuit are opened simultaneously.
(iii) Disconnection of fuses and thermal cutouts. Except for devices provided for current-limiting on the supply side of the service disconnecting means,
all cartridge fuses which are accessible to other than qualified persons and all fuses and thermal cutouts on circuits over 150 volts to ground shall be
provided with disconnecting means. This disconnecting means shall be installed so that the fuse or thermal cutout can be disconnected from its supply
without disrupting service to equipment and circuits unrelated to those protected by the overcurrent device.
(iv) Location in or on premises. Overcurrent devices shall be readily accessible. Overcurrent devices shall not be located where they could create an
employee safety hazard by being exposed to physical damage or located in the vicinity of easily ignitible material.
(v) Arcing or suddenly moving parts. Fuses and circuit breakers shall be so located or shielded that employees will not be burned or otherwise injured
by their operation.
(vi) Circuit breakers —(A) Circuit breakers shall clearly indicate whether they are in the open (off) or closed (on) position.
(B) Where circuit breaker handles on switchboards are operated vertically rather than horizontally or rotationally, the up position of the handle shall be
the closed (on) position.

(C) If used as switches in 120-volt, fluorescent lighting circuits, circuit breakers shall be marked “SWD.”
(2) Over 600 volts, nominal. Feeders and branch circuits over 600 volts, nominal, shall have short-circuit protection.
(f) Grounding. Paragraphs (f)(1) through (f)(11) of this section contain grounding requirements for systems, circuits, and equipment.
(1) Systems to be grounded. The following systems which supply premises wiring shall be grounded:
(i) Three-wire DC systems. All 3-wire DC systems shall have their neutral conductor grounded.
(ii) Two-wire DC systems. Two-wire DC systems operating at over 50 volts through 300 volts between conductors shall be grounded unless they are
rectifier-derived from an AC system complying with paragraphs (f)(1)(iii), (f)(1)(iv), and (f)(1)(v) of this section.
(iii) AC circuits, less than 50 volts. AC circuits of less than 50 volts shall be grounded if they are installed as overhead conductors outside of buildings
or if they are supplied by transformers and the transformer primary supply system is ungrounded or exceeds 150 volts to ground.
(iv) AC systems, 50 volts to 1000 volts. AC systems of 50 volts to 1000 volts shall be grounded under any of the following conditions, unless exempted
by paragraph (f)(1)(v) of this section:
(A) If the system can be so grounded that the maximum voltage to ground on the ungrounded conductors does not exceed 150 volts;
(B) If the system is nominally rated 480Y/277 volt, 3-phase, 4-wire in which the neutral is used as a circuit conductor;
(C) If the system is nominally rated 240/120 volt, 3-phase, 4-wire in which the midpoint of one phase is used as a circuit conductor; or
(D) If a service conductor is uninsulated.
(v) Exceptions. AC systems of 50 volts to 1000 volts are not required to be grounded if the system is separately derived and is supplied by a
transformer that has a primary voltage rating less than 1000 volts, provided all of the following conditions are met:
(A) The system is used exclusively for control circuits,
(B) The conditions of maintenance and supervision assure that only qualified persons will service the installation,
(C) Continuity of control power is required, and
(D) Ground detectors are installed on the control system.
(2) Separately derived systems. Where paragraph (f)(1) of this section requires grounding of wiring systems whose power is derived from generator,
transformer, or converter windings and has no direct electrical connection, including a solidly connected grounded circuit conductor, to supply
conductors originating in another system, paragraph (f)(5) of this section shall also apply.
(3) Portable and vehicle-mounted generators —(i) Portable generators. Under the following conditions, the frame of a portable generator need not be
grounded and may serve as the grounding electrode for a system supplied by the generator:
(A) The generator supplies only equipment mounted on the generator and/or cord- and plug-connected equipment through receptacles mounted on
the generator, and
(B) The noncurrent-carrying metal parts of equipment and the equipment grounding conductor terminals of the receptacles are bonded to the
generator frame.
(ii) Vehicle-mounted generators. Under the following conditions the frame of a vehicle may serve as the grounding electrode for a system supplied by
a generator located on the vehicle:
(A) The frame of the generator is bonded to the vehicle frame, and
(B) The generator supplies only equipment located on the vehicle and/or cord- and plug-connected equipment through receptacles mounted on the
vehicle or on the generator, and
(C) The noncurrent-carrying metal parts of equipment and the equipment grounding conductor terminals of the receptacles are bonded to the
generator frame, and
(D) The system complies with all other provisions of this section.

(iii) Neutral conductor bonding. A neutral conductor shall be bonded to the generator frame if the generator is a component of a separately derived
system. No other conductor need be bonded to the generator frame.
(4) Conductors to be grounded. For AC premises wiring systems the identified conductor shall be grounded.
(5) Grounding connections —(i) Grounded system. For a grounded system, a grounding electrode conductor shall be used to connect both the
equipment grounding conductor and the grounded circuit conductor to the grounding electrode. Both the equipment grounding conductor and the
grounding electrode conductor shall be connected to the grounded circuit conductor on the supply side of the service disconnecting means, or on the
supply side of the system disconnecting means or overcurrent devices if the system is separately derived.
(ii) Ungrounded systems. For an ungrounded service-supplied system, the equipment grounding conductor shall be connected to the grounding
electrode conductor at the service equipment. For an ungrounded separately derived system, the equipment grounding conductor shall be connected
to the grounding electrode conductor at, or ahead of, the system disconnecting means or overcurrent devices.
(6) Grounding path. The path to ground from circuits, equipment, and enclosures shall be permanent and continuous.
(7) Supports, enclosures, and equipment to be grounded —(i) Supports and enclosures for conductors. Metal cable trays, metal raceways, and metal
enclosures for conductors shall be grounded, except that:
(A) Metal enclosures such as sleeves that are used to protect cable assemblies from physical damage need not be grounded; and
(B) Metal enclosures for conductors added to existing installations of open wire, knob-and-tube wiring, and nonmetallic-sheathed cable need not be
grounded if all of the following conditions are met:
( 1 ) Runs are less than 25 feet (7.62 m);
( 2 ) Enclosures are free from probable contact with ground, grounded metal, metal laths, or other conductive materials; and
( 3 ) Enclosures are guarded against employee contact.
(ii) Service equipment enclosures. Metal enclosures for service equipment shall be grounded.
(iii) Fixed equipment. Exposed noncurrent-carrying metal parts of fixed equipment which may become energized shall be grounded under any of the
following conditions:
(A) If within 8 feet (2.44 m) vertically or 5 feet (1.52 m) horizontally of ground or grounded metal objects and subject to employee contact.
(B) If located in a wet or damp location and subject to employee contact.
(C) If in electrical contact with metal.
(D) If in a hazardous (classified) location.
(E) If supplied by a metal-clad, metal-sheathed, or grounded metal raceway wiring method.
(F) If equipment operates with any terminal at over 150 volts to ground; however, the following need not be grounded:
( 1 ) Enclosures for switches or circuit breakers used for other than service equipment and accessible to qualified persons only;
( 2 ) Metal frames of electrically heated appliances which are permanently and effectively insulated from ground; and
( 3 ) The cases of distribution apparatus such as transformers and capacitors mounted on wooden poles at a height exceeding 8 feet (2.44 m) above
ground or grade level.
(iv) Equipment connected by cord and plug. Under any of the conditions described in paragraphs (f)(7)(iv)(A) through (f)(7)(iv)(C) of this section,
exposed noncurrent-carrying metal parts of cord- and plug-connected equipment which may become energized shall be grounded:
(A) If in a hazardous (classified) location (see §1926.407).
(B) If operated at over 150 volts to ground, except for guarded motors and metal frames of electrically heated appliances if the appliance frames are
permanently and effectively insulated from ground.
(C) If the equipment is one of the types listed in paragraphs (f)(7)(iv)(C)( 1 ) through (f)(7)(iv)(C)( 5 ) of this section. However, even though the
equipment may be one of these types, it need not be grounded if it is exempted by paragraph (f)(7)(iv)(C)( 6 ).

( 1 ) Hand held motor-operated tools;
(2) Cord- and plug-connected equipment used in damp or wet locations or by employees standing on the ground or on metal floors or working inside
of metal tanks or boilers;
( 3 ) Portable and mobile X-ray and associated equipment;
( 4 ) Tools likely to be used in wet and/or conductive locations; and
( 5 ) Portable hand lamps.
( 6 ) Tools likely to be used in wet and/or conductive locations need not be grounded if supplied through an isolating transformer with an ungrounded
secondary of not over 50 volts. Listed or labeled portable tools and appliances protected by a system of double insulation, or its equivalent, need not
be grounded. If such a system is employed, the equipment shall be distinctively marked to indicate that the tool or appliance utilizes a system of
double insulation.
(v) Nonelectrical equipment. The metal parts of the following nonelectrical equipment shall be grounded: Frames and tracks of electrically operated
cranes; frames of nonelectrically driven elevator cars to which electric conductors are attached; hand-operated metal shifting ropes or cables of
electric elevators, and metal partitions, grill work, and similar metal enclosures around equipment of over IkV between conductors.
(8) Methods of grounding equipment —(i) With circuit conductors. Noncurrent-carrying metal parts of fixed equipment, if required to be grounded by
this subpart, shall be grounded by an equipment grounding conductor which is contained within the same raceway, cable, or cord, or runs with or
encloses the circuit conductors. For DC circuits only, the equipment grounding conductor may be run separately from the circuit conductors.
(ii) Grounding conductor. A conductor used for grounding fixed or movable equipment shall have capacity to conduct safely any fault current which
may be imposed on it.
(iii) Equipment considered effectively grounded. Electric equipment is considered to be effectively grounded if it is secured to, and in electrical contact
with, a metal rack or structure that is provided for its support and the metal rack or structure is grounded by the method specified for the noncurrentcarrying metal parts of fixed equipment in paragraph (f)(8)(i) of this section. Metal car frames supported by metal hoisting cables attached to or
running over metal sheaves or drums of grounded elevator machines are also considered to be effectively grounded.
(9) Bonding. If bonding conductors are used to assure electrical continuity, they shall have the capacity to conduct any fault current which may be
imposed.
(10) Made electrodes. If made electrodes are used, they shall be free from nonconductive coatings, such as paint or enamel; and, if practicable, they
shall be embedded below permanent moisture level. A single electrode consisting of a rod, pipe or plate which has a resistance to ground greater than
25 ohms shall be augmented by one additional electrode installed no closer than 6 feet (1.83 m) to the first electrode.
(11) Grounding of systems and circuits of 1000 volts and over (high voltage) —(i) General. If high voltage systems are grounded, they shall comply
with all applicable provisions of paragraphs (f)(1) through (f)(10) of this section as supplemented and modified by this paragraph (f)(11).
(ii) Grounding of systems supplying portable or mobile equipment. Systems supplying portable or mobile high voltage equipment, other than
substations installed on a temporary basis, shall comply with the following:
(A) Portable and mobile high voltage equipment shall be supplied from a system having its neutral grounded through an impedance. If a deltaconnected high voltage system is used to supply the equipment, a system neutral shall be derived.
(B) Exposed noncurrent-carrying metal parts of portable and mobile equipment shall be connected by an equipment grounding conductor to the point
at which the system neutral impedance is grounded.
(C) Ground-fault detection and relaying shall be provided to automatically de-energize any high voltage system component which has developed a
ground fault. The continuity of the equipment grounding conductor shall be continuously monitored so as to de-energize automatically the high voltage
feeder to the portable equipment upon loss of continuity of the equipment grounding conductor.
(D) The grounding electrode to which the portable or mobile equipment system neutral impedance is connected shall be isolated from and separated
in the ground by at least 20 feet (6.1 m) from any other system or equipment grounding electrode, and there shall be no direct connection between the
grounding electrodes, such as buried pipe, fence or like objects.
(iii) Grounding of equipment. All noncurrent-carrying metal parts of portable equipment and fixed equipment including their associated fences,
housings, enclosures, and supporting structures shall be grounded. However, equipment which is guarded by location and isolated from ground need
not be grounded. Additionally, pole-mounted distribution apparatus at a height exceeding 8 feet (2.44 m) above ground or grade level need not be
grounded.
[51 FR 25318, July 11, 1986, as amended at 54 FR 24334, June 7, 1989; 61 FR 5510, Feb. 13, 1996]

§ 1926.405 Wiring methods, components, and equipment for general use.

top
(a) Wiring methods. The provisions of this paragraph do not apply to conductors which form an integral part of equipment such as motors, controllers,
motor control centers and like equipment.
(1) General requirements —(i) Electrical continuity of metal raceways and enclosures. Metal raceways, cable armor, and other metal enclosures for
conductors shall be metallically joined together into a continuous electric conductor and shall be so connected to all boxes, fittings, and cabinets as to
provide effective electrical continuity.
(ii) Wiring in ducts. No wiring systems of any type shall be installed in ducts used to transport dust, loose stock or flammable vapors. No wiring system
of any type shall be installed in any duct used for vapor removal or in any shaft containing only such ducts.
(2) Temporary wiring —(i) Scope. The provisions of paragraph (a)(2) of this section apply to temporary electrical power and lighting wiring methods
which may be of a class less than would be required for a permanent installation. Except as specifically modified in paragraph (a)(2) of this section, all
other requirements of this subpart for permanent wiring shall apply to temporary wiring installations. Temporary wiring shall be removed immediately
upon completion of construction or the purpose for which the wiring was installed.
(ii) General requirements for temporary wiring —(A) Feeders shall originate in a distribution center. The conductors shall be run as multiconductor
cord or cable assemblies or within raceways; or, where not subject to physical damage, they may be run as open conductors on insulators not more
than 10 feet (3.05 m) apart.
(B) Branch circuits shall originate in a power outlet or panelboard. Conductors shall be run as multiconductor cord or cable assemblies or open
conductors, or shall be run in raceways. All conductors shall be protected by overcurrent devices at their ampacity. Runs of open conductors shall be
located where the conductors will not be subject to physical damage, and the conductors shall be fastened at intervals not exceeding 10 feet (3.05 m).
No branch-circuit conductors shall be laid on the floor. Each branch circuit that supplies receptacles or fixed equipment shall contain a separate
equipment grounding conductor if the branch circuit is run as open conductors.
(C) Receptacles shall be of the grounding type. Unless installed in a complete metallic raceway, each branch circuit shall contain a separate
equipment grounding conductor, and all receptacles shall be electrically connected to the grounding conductor. Receptacles for uses other than
temporary lighting shall not be installed on branch circuits which supply temporary lighting. Receptacles shall not be connected to the same
ungrounded conductor of multiwire circuits which supply temporary lighting.
(D) Disconnecting switches or plug connectors shall be installed to permit the disconnection of all ungrounded conductors of each temporary circuit.
(E) All lamps for general illumination shall be protected from accidental contact or breakage. Metal-case sockets shall be grounded.
(F) Temporary lights shall not be suspended by their electric cords unless cords and lights are designed for this means of suspension.
(G) Portable electric lighting used in wet and/or other conductive locations, as for example, drums, tanks, and vessels, shall be operated at 12 volts or
less. However, 120-volt lights may be used if protected by a ground-fault circuit interrupter.
(H) A box shall be used wherever a change is made to a raceway system or a cable system which is metal clad or metal sheathed.
(I) Flexible cords and cables shall be protected from damage. Sharp corners and projections shall be avoided. Flexible cords and cables may pass
through doorways or other pinch points, if protection is provided to avoid damage.
(J) Extension cord sets used with portable electric tools and appliances shall be of three-wire type and shall be designed for hard or extra-hard usage.
Flexible cords used with temporary and portable lights shall be designed for hard or extra-hard usage.

Note: The National Electrical Code, ANSI/NFPA 70, in Article 400, Table 400–4, lists various
types of flexible cords, some of which are noted as being designed for hard or extra-hard usage.
Examples of these types of flexible cords include hard service cord (types S, ST, SO, STO) and
junior hard service cord (types SJ, SJO, SJT, SJTO).
(iii) Guarding. For temporary wiring over 600 volts, nominal, fencing, barriers, or other effective means shall be provided to prevent access of other
than authorized and qualified personnel.
(b) Cabinets, boxes, and fittings —(1) Conductors entering boxes, cabinets, or fittings. Conductors entering boxes, cabinets, or fittings shall be
protected from abrasion, and openings through which conductors enter shall be effectively closed. Unused openings in cabinets, boxes, and fittings
shall also be effectively closed.
(2) Covers and canopies. All pull boxes, junction boxes, and fittings shall be provided with covers. If metal covers are used, they shall be grounded. In
energized installations each outlet box shall have a cover, faceplate, or fixture canopy. Covers of outlet boxes having holes through which flexible cord
pendants pass shall be provided with bushings designed for the purpose or shall have smooth, well-rounded surfaces on which the cords may bear.
(3) Pull and junction boxes for systems over 600 volts, nominal. In addition to other requirements in this section for pull and junction boxes, the
following shall apply to these boxes for systems over 600 volts, nominal:

(i) Complete enclosure. Boxes shall provide a complete enclosure for the contained conductors or cables.
(ii) Covers. Boxes shall be closed by covers securely fastened in place. Underground box covers that weigh over 100 pounds (43.6 kg) meet this
requirement. Covers for boxes shall be permanently marked “HIGH VOLTAGE.” The marking shall be on the outside of the box cover and shall be
readily visible and legible.
(c) Knife switches. Single-throw knife switches shall be so connected that the blades are dead when the switch is in the open position. Single-throw
knife switches shall be so placed that gravity will not tend to close them. Single-throw knife switches approved for use in the inverted position shall be
provided with a locking device that will ensure that the blades remain in the open position when so set. Double-throw knife switches may be mounted
so that the throw will be either vertical or horizontal. However, if the throw is vertical, a locking device shall be provided to ensure that the blades
remain in the open position when so set.
(d) Switchboards and panelboards. Switchboards that have any exposed live parts shall be located in permanently dry locations and accessible only
to qualified persons. Panelboards shall be mounted in cabinets, cutout boxes, or enclosures designed for the purpose and shall be dead front.
However, panelboards other than the dead front externally-operable type are permitted where accessible only to qualified persons. Exposed blades of
knife switches shall be dead when open.
(e) Enclosures for damp or wet locations —(1) Cabinets, fittings, and boxes. Cabinets, cutout boxes, fittings, boxes, and panelboard enclosures in
damp or wet locations shall be installed so as to prevent moisture or water from entering and accumulating within the enclosures. In wet locations the
enclosures shall be weatherproof.
(2) Switches and circuit breakers. Switches, circuit breakers, and switchboards installed in wet locations shall be enclosed in weatherproof enclosures.
(f) Conductors for general wiring. All conductors used for general wiring shall be insulated unless otherwise permitted in this subpart. The conductor
insulation shall be of a type that is suitable for the voltage, operating temperature, and location of use. Insulated conductors shall be distinguishable by
appropriate color or other means as being grounded conductors, ungrounded conductors, or equipment grounding conductors.
(g) Flexible cords and cables —(1) Use of flexible cords and cables —(i) Permitted uses. Flexible cords and cables shall be suitable for conditions of
use and location. Flexible cords and cables shall be used only for:
(A) Pendants;
(B) Wiring of fixtures;
(C) Connection of portable lamps or appliances;
(D) Elevator cables;
(E) Wiring of cranes and hoists;
(F) Connection of stationary equipment to facilitate their frequent interchange;
(G) Prevention of the transmission of noise or vibration; or
(H) Appliances where the fastening means and mechanical connections are designed to permit removal for maintenance and repair.
(ii) Attachment plugs for cords. If used as permitted in paragraphs (g)(1)(i)(C), (g)(1)(i)(F), or (g)(1)(i)(H) of this section, the flexible cord shall be
equipped with an attachment plug and shall be energized from a receptacle outlet.
(iii) Prohibited uses. Unless necessary for a use permitted in paragraph (g)(1)(i) of this section, flexible cords and cables shall not be used:
(A) As a substitute for the fixed wiring of a structure;
(B) Where run through holes in walls, ceilings, or floors;
(C) Where run through doorways, windows, or similar openings, except as permitted in paragraph (a)(2)(ii)(1) of this section;
(D) Where attached to building surfaces; or
(E) Where concealed behind building walls, ceilings, or floors.
(2) Identification, splices, and terminations —(i) Identification. A conductor of a flexible cord or cable that is used as a grounded conductor or an
equipment grounding conductor shall be distinguishable from other conductors.

(ii) Marking. Type SJ, SJO, SJT, SJTO, S, SO, ST, and STO cords shall not be used unless durably marked on the surface with the type designation,
size, and number of conductors.
(iii) Splices. Flexible cords shall be used only in continuous lengths without splice or tap. Hard service flexible cords No. 12 or larger may be repaired if
spliced so that the splice retains the insulation, outer sheath properties, and usage characteristics of the cord being spliced.
(iv) Strain relief. Flexible cords shall be connected to devices and fittings so that strain relief is provided which will prevent pull from being directly
transmitted to joints or terminal screws.
(v) Cords passing through holes. Flexible cords and cables shall be protected by bushings or fittings where passing through holes in covers, outlet
boxes, or similar enclosures.
(h) Portable cables over 600 volts, nominal. Multiconductor portable cable for use in supplying power to portable or mobile equipment at over 600
volts, nominal, shall consist of No. 8 or larger conductors employing flexible stranding. Cables operated at over 2000 volts shall be shielded for the
purpose of confining the voltage stresses to the insulation. Grounding conductors shall be provided. Connectors for these cables shall be of a locking
type with provisions to prevent their opening or closing while energized. Strain relief shall be provided at connections and terminations. Portable
cables shall not be operated with splices unless the splices are of the permanent molded, vulcanized, or other equivalent type. Termination enclosures
shall be marked with a high voltage hazard warning, and terminations shall be accessible only to authorized and qualified personnel.
(i) Fixture wires —(1) General. Fixture wires shall be suitable for the voltage, temperature, and location of use. A fixture wire which is used as a
grounded conductor shall be identified.
(2) Uses permitted. Fixture wires may be used:
(i) For installation in lighting, fixtures and in similar equipment where enclosed or protected and not subject to bending or twisting in use; or
(ii) For connecting lighting fixtures to the branch-circuit conductors supplying the fixtures.
(3) Uses not permitted. Fixture wires shall not be used as branch-circuit conductors except as permitted for Class 1 power-limited circuits.
(j) Equipment for general use —(1) Lighting fixtures, lampholders, lamps, and receptacles —(i) Live parts. Fixtures, lampholders, lamps, rosettes, and
receptacles shall have no live parts normally exposed to employee contact. However, rosettes and cleat-type lampholders and receptacles located at
least 8 feet (2.44 m) above the floor may have exposed parts.
(ii) Support. Fixtures, lampholders, rosettes, and receptacles shall be securely supported. A fixture that weighs more than 6 pounds (2.72 kg) or
exceeds 16 inches (406 mm) in any dimension shall not be supported by the screw shell of a lampholder.
(iii) Portable lamps. Portable lamps shall be wired with flexible cord and an attachment plug of the polarized or grounding type. If the portable lamp
uses an Edison-based lampholder, the grounded conductor shall be identified and attached to the screw shell and the identified blade of the
attachment plug. In addition, portable handlamps shall comply with the following:
(A) Metal shell, paperlined lampholders shall not be used;
(B) Handlamps shall be equipped with a handle of molded composition or other insulating material;
(C) Handlamps shall be equipped with a substantial guard attached to the lampholder or handle;
(D) Metallic guards shall be grounded by the means of an equipment grounding conductor run within the power supply cord.
(iv) Lampholders. Lampholders of the screw-shell type shall be installed for use as lampholders only. Lampholders installed in wet or damp locations
shall be of the weatherproof type.
(v) Fixtures. Fixtures installed in wet or damp locations shall be identified for the purpose and shall be installed so that water cannot enter or
accumulate in wireways, lampholders, or other electrical parts.
(2) Receptacles, cord connectors, and attachment plugs (caps) —(i) Configuration. Receptacles, cord connectors, and attachment plugs shall be
constructed so that no receptacle or cord connector will accept an attachment plug with a different voltage or current rating than that for which the
device is intended. However, a 20-ampere T-slot receptacle or cord connector may accept a 15-ampere attachment plug of the same voltage rating.
Receptacles connected to circuits having different voltages, frequencies, or types of current (ac or dc) on the same premises shall be of such design
that the attachment plugs used on these circuits are not interchangeable.
(ii) Damp and wet locations. A receptacle installed in a wet or damp location shall be designed for the location.
(3) Appliances —(i) Live parts. Appliances, other than those in which the current-carrying parts at high temperatures are necessarily exposed, shall
have no live parts normally exposed to employee contact.
(ii) Disconnecting means. A means shall be provided to disconnect each appliance.

(iii) Rating. Each appliance shall be marked with its rating in volts and amperes or volts and watts.
(4) Motors. This paragraph applies to motors, motor circuits, and controllers.
(i) In sight from. If specified that one piece of equipment shall be “in sight from” another piece of equipment, one shall be visible and not more than 50
feet (15.2 m) from the other.
(ii) Disconnecting means —(A) A disconnecting means shall be located in sight from the controller location. The controller disconnecting means for
motor branch circuits over 600 volts, nominal, may be out of sight of the controller, if the controller is marked with a warning label giving the location
and identification of the disconnecting means which is to be locked in the open position.
(B) The disconnecting means shall disconnect the motor and the controller from all ungrounded supply conductors and shall be so designed that no
pole can be operated independently.
(C) If a motor and the driven machinery are not in sight from the controller location, the installation shall comply with one of the following conditions:
( 1 ) The controller disconnecting means shall be capable of being locked in the open position.
( 2 ) A manually operable switch that will disconnect the motor from its source of supply shall be placed in sight from the motor location.
(D) The disconnecting means shall plainly indicate whether it is in the open (off) or closed (on) position.
(E) The disconnecting means shall be readily accessible. If more than one disconnect is provided for the same equipment, only one need be readily
accessible.
(F) An individual disconnecting means shall be provided for each motor, but a single disconnecting means may be used for a group of motors under
any one of the following conditions:
( 1 ) If a number of motors drive special parts of a single machine or piece of apparatus, such as a metal or woodworking machine, crane, or hoist;
( 2 ) If a group of motors is under the protection of one set of branch-circuit protective devices; or
( 3 ) If a group of motors is in a single room in sight from the location of the disconnecting means.
(iii) Motor overload, short-circuit, and ground-fault protection. Motors, motor-control apparatus, and motor branch-circuit conductors shall be protected
against overheating due to motor overloads or failure to start, and against short-circuits or ground faults. These provisions do not require overload
protection that will stop a motor where a shutdown is likely to introduce additional or increased hazards, as in the case of fire pumps, or where
continued operation of a motor is necessary for a safe shutdown of equipment or process and motor overload sensing devices are connected to a
supervised alarm.
(iv) Protection of live parts—all voltages —(A) Stationary motors having commutators, collectors, and brush rigging located inside of motor end
brackets and not conductively connected to supply circuits operating at more than 150 volts to ground need not have such parts guarded. Exposed
live parts of motors and controllers operating at 50 volts or more between terminals shall be guarded against accidental contact by any of the
following:
( 1 ) By installation in a room or enclosure that is accessible only to qualified persons;
( 2 ) By installation on a balcony, gallery, or platform, so elevated and arranged as to exclude unqualified persons; or
( 3 ) By elevation 8 feet (2.44 m) or more above the floor.
(B) Where live parts of motors or controllers operating at over 150 volts to ground are guarded against accidental contact only by location, and where
adjustment or other attendance may be necessary during the operation of the apparatus, insulating mats or platforms shall be provided so that the
attendant cannot readily touch live parts unless standing on the mats or platforms.
(5) Transformers —(i) Application. The following paragraphs cover the installation of all transformers, except:
(A) Current transformers;
(B) Dry-type transformers installed as a component part of other apparatus;
(C) Transformers which are an integral part of an X-ray, high frequency, or electrostatic-coating apparatus;
(D) Transformers used with Class 2 and Class 3 circuits, sign and outline lighting, electric discharge lighting, and power-limited fire-protective
signaling circuits.

(ii) Operating voltage. The operating voltage of exposed live parts of transformer installations shall be indicated by warning signs or visible markings
on the equipment or structure.
(iii) Transformers over 35 kV. Dry-type, high fire point liquid-insulated, and askarel-insulated transformers installed indoors and rated over 35 kV shall
be in a vault.
(iv) Oil-insulated transformers. If they present a fire hazard to employees, oil-insulated transformers installed indoors shall be in a vault.
(v) Fire protection. Combustible material, combustible buildings and parts of buildings, fire escapes, and door and window openings shall be
safeguarded from fires which may originate in oil-insulated transformers attached to or adjacent to a building or combustible material.
(vi) Transformer vaults. Transformer vaults shall be constructed so as to contain fire and combustible liquids within the vault and to prevent
unauthorized access. Locks and latches shall be so arranged that a vault door can be readily opened from the inside.
(vii) Pipes and ducts. Any pipe or duct system foreign to the vault installation shall not enter or pass through a transformer vault.
(viii) Material storage. Materials shall not be stored in transformer vaults.
(6) Capacitors —(i) Drainage of stored charge. All capacitors, except surge capacitors or capacitors included as a component part of other apparatus,
shall be provided with an automatic means of draining the stored charge and maintaining the discharged state after the capacitor is disconnected from
its source of supply.
(ii) Over 600 volts. Capacitors rated over 600 volts, nominal, shall comply with the following additional requirements:
(A) Isolating or disconnecting switches (with no interrupting rating) shall be interlocked with the load interrupting device or shall be provided with
prominently displayed caution signs to prevent switching load current.
(B) For series capacitors the proper switching shall be assured by use of at least one of the following:
( 1 ) Mechanically sequenced isolating and bypass switches,
( 2 ) Interlocks, or
( 3 ) Switching procedure prominently displayed at the switching location.
[51 FR 25318, July 11, 1986, as amended at 61 FR 5510, Feb. 13, 1996]

§ 1926.406 Specific purpose equipment and installations.
top
(a) Cranes and hoists. This paragraph applies to the installation of electric equipment and wiring used in connection with cranes, monorail hoists,
hoists, and all runways.
(1) Disconnecting means —(i) Runway conductor disconnecting means. A readily accessible disconnecting means shall be provided between the
runway contact conductors and the power supply.
(ii) Disconnecting means for cranes and monorail hoists. A disconnecting means, capable of being locked in the open position, shall be provided in the
leads from the runway contact conductors or other power supply on any crane or monorail hoist.
(A) If this additional disconnecting means is not readily accessible from the crane or monorail hoist operating station, means shall be provided at the
operating station to open the power circuit to all motors of the crane or monorail hoist.
(B) The additional disconnect may be omitted if a monorail hoist or hand-propelled crane bridge installation meets all of the following:
( 1 ) The unit is floor controlled;
( 2 ) The unit is within view of the power supply disconnecting means; and
( 3 ) No fixed work platform has been provided for servicing the unit.
(2) Control. A limit switch or other device shall be provided to prevent the load block from passing the safe upper limit of travel of any hoisting
mechanism.

(3) Clearance. The dimension of the working space in the direction of access to live parts which may require examination, adjustment, servicing, or
maintenance while alive shall be a minimum of 2 feet 6 inches (762 mm). Where controls are enclosed in cabinets, the door(s) shall open at least 90
degrees or be removable, or the installation shall provide equivalent access.
(4) Grounding. All exposed metal parts of cranes, monorail hoists, hoists and accessories including pendant controls shall be metallically joined
together into a continuous electrical conductor so that the entire crane or hoist will be grounded in accordance with §1926.404(f). Moving parts, other
than removable accessories or attachments, having metal-to-metal bearing surfaces shall be considered to be electrically connected to each other
through the bearing surfaces for grounding purposes. The trolley frame and bridge frame shall be considered as electrically grounded through the
bridge and trolley wheels and its respective tracks unless conditions such as paint or other insulating materials prevent reliable metal-to-metal contact.
In this case a separate bonding conductor shall be provided.
(b) Elevators, escalators, and moving walks —(1) Disconnecting means. Elevators, escalators, and moving walks shall have a single means for
disconnecting all ungrounded main power supply conductors for each unit.
(2) Control panels. If control panels are not located in the same space as the drive machine, they shall be located in cabinets with doors or panels
capable of being locked closed.
(c) Electric welders—disconnecting means —(1) Motor-generator, AC transformer, and DC rectifier arc welders. A disconnecting means shall be
provided in the supply circuit for each motor-generator arc welder, and for each AC transformer and DC rectifier arc welder which is not equipped with
a disconnect mounted as an integral part of the welder.
(2) Resistance welders. A switch or circuit breaker shall be provided by which each resistance welder and its control equipment can be isolated from
the supply circuit. The ampere rating of this disconnecting means shall not be less than the supply conductor ampacity.
(d) X-Ray equipment —(1) Disconnecting means —(i) General. A disconnecting means shall be provided in the supply circuit. The disconnecting
means shall be operable from a location readily accessible from the X-ray control. For equipment connected to a 120-volt branch circuit of 30 amperes
or less, a grounding-type attachment plug cap and receptacle of proper rating may serve as a disconnecting means.
(ii) More than one piece of equipment. If more than one piece of equipment is operated from the same high-voltage circuit, each piece or each group
of equipment as a unit shall be provided with a high-voltage switch or equivalent disconnecting means. This disconnecting means shall be
constructed, enclosed, or located so as to avoid contact by employees with its live parts.
(2) Control—Radiographic and fluoroscopic types. Radiographic and fluoroscopic-type equipment shall be effectively enclosed or shall have interlocks
that deenergize the equipment automatically to prevent ready access to live current-carrying parts.

§ 1926.407 Hazardous (classified) locations.
top
(a) Scope. This section sets forth requirements for electric equipment and wiring in locations which are classified depending on the properties of the
flammable vapors, liquids or gases, or combustible dusts or fibers which may be present therein and the likelihood that a flammable or combustible
concentration or quantity is present. Each room, section or area shall be considered individually in determining its classification. These hazardous
(classified) locations are assigned six designations as follows:

Class I, Division 1
Class I, Division 2
Class II, Division 1
Class II, Division 2
Class III, Division l
Class III, Division 2
For definitions of these locations see §1926.449. All applicable requirements in this subpart apply to all hazardous (classified) locations, unless
modified by provisions of this section.
(b) Electrical installations. Equipment, wiring methods, and installations of equipment in hazardous (classified) locations shall be approved as
intrinsically safe or approved for the hazardous (classified) location or safe for the hazardous (classified) location. Requirements for each of these
options are as follows:

(1) Intrinsically safe. Equipment and associated wiring approved as intrinsically safe is permitted in any hazardous (classified) location included in its
listing or labeling.
(2) Approved for the hazardous (classified) location —(i) General. Equipment shall be approved not only for the class of location but also for the
ignitible or combustible properties of the specific gas, vapor, dust, or fiber that will be present.

Note: NFPA 70, the National Electrical Code, lists or defines hazardous gases, vapors, and dusts
by “Groups” characterized by their ignitible or combustible properties.
(ii) Marking. Equipment shall not be used unless it is marked to show the class, group, and operating temperature or temperature range, based on
operation in a 40-degree C ambient, for which it is approved. The temperature marking shall not exceed the ignition temperature of the specific gas,
vapor, or dust to be encountered. However, the following provisions modify this marking requirement for specific equipment:
(A) Equipment of the non-heat-producing type (such as junction boxes, conduit, and fitting) and equipment of the heat-producing type having a
maximum temperature of not more than 100 degrees C (212 degrees F) need not have a marked operating temperature or temperature range.
(B) Fixed lighting fixtures marked for use only in Class I, Division 2 locations need not be marked to indicate the group.
(C) Fixed general-purpose equipment in Class I locations, other than lighting fixtures, which is acceptable for use in Class I, Division 2 locations need
not be marked with the class, group, division, or operating temperature.
(D) Fixed dust-tight equipment, other than lighting fixtures, which is acceptable for use in Class II, Division 2 and Class III locations need not be
marked with the class, group, division, or operating temperature.
(3) Safe for the hazardous (classified) location. Equipment which is safe for the location shall be of a type and design which the employer
demonstrates will provide protection from the hazards arising from the combustibility and flammability of vapors, liquids, gases, dusts, or fibers.

Note: The National Electrical Code, NFPA 70, contains guidelines for determining the type and
design of equipment and installations which will meet this requirement. The guidelines of this
document address electric wiring, equipment, and systems installed in hazardous (classified)
locations and contain specific provisions for the following: wiring methods, wiring connections,
conductor insulation, flexible cords, sealing and drainage, transformers, capacitors, switches,
circuit breakers, fuses, motor controllers, receptacles, attachment plugs, meters, relays,
instruments, resistors, generators, motors, lighting fixtures, storage battery charging equipment,
electric cranes, electric hoists and similar equipment, utilization equipment, signaling systems,
alarm systems, remote control systems, local loud speaker and communication systems,
ventilation piping, live parts, lightning surge protection, and grounding. Compliance with these
guidelines will constitute one means, but not the only means, of compliance with this paragraph.
(c) Conduits. All conduits shall be threaded and shall be made wrench-tight. Where it is impractical to make a threaded joint tight, a bonding jumper
shall be utilized.
[51 FR 25318, July 11, 1986, as amended at 61 FR 5510, Feb. 13, 1996]

§ 1926.408 Special systems.
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(a) Systems over 600 volts, nominal. Paragraphs (a)(1) through (a)(4) of this section contain general requirements for all circuits and equipment
operated at over 600 volts.
(1) Wiring methods for fixed installations —(i) Above ground. Above-ground conductors shall be installed in rigid metal conduit, in intermediate metal
conduit, in cable trays, in cablebus, in other suitable raceways, or as open runs of metal-clad cable designed for the use and purpose. However, open
runs of non-metallic-sheathed cable or of bare conductors or busbars may be installed in locations which are accessible only to qualified persons.
Metallic shielding components, such as tapes, wires, or braids for conductors, shall be grounded. Open runs of insulated wires and cables having a
bare lead sheath or a braided outer covering shall be supported in a manner designed to prevent physical damage to the braid or sheath.
(ii) Installations emerging from the ground. Conductors emerging from the ground shall be enclosed in raceways. Raceways installed on poles shall be
of rigid metal conduit, intermediate metal conduit, PVC schedule 80 or equivalent extending from the ground line up to a point 8 feet (2.44 m) above
finished grade. Conductors entering a building shall be protected by an enclosure from the ground line to the point of entrance. Metallic enclosures
shall be grounded.

(2) Interrupting and isolating devices —(i) Circuit breakers. Circuit breakers located indoors shall consist of metal-enclosed or fire-resistant, cellmounted units. In locations accessible only to qualified personnel, open mounting of circuit breakers is permitted. A means of indicating the open and
closed position of circuit breakers shall be provided.
(ii) Fused cutouts. Fused cutouts installed in buildings or transformer vaults shall be of a type identified for the purpose. They shall be readily
accessible for fuse replacement.
(iii) Equipment isolating means. A means shall be provided to completely isolate equipment for inspection and repairs. Isolating means which are not
designed to interrupt the load current of the circuit shall be either interlocked with a circuit interrupter or provided with a sign warning against opening
them under load.
(3) Mobile and portable equipment —(i) Power cable connections to mobile machines. A metallic enclosure shall be provided on the mobile machine
for enclosing the terminals of the power cable. The enclosure shall include provisions for a solid connection for the ground wire(s) terminal to ground
effectively the machine frame. The method of cable termination used shall prevent any strain or pull on the cable from stressing the electrical
connections. The enclosure shall have provision for locking so only authorized qualified persons may open it and shall be marked with a sign warning
of the presence of energized parts.
(ii) Guarding live parts. All energized switching and control parts shall be enclosed in effectively grounded metal cabinets or enclosures. Circuit
breakers and protective equipment shall have the operating means projecting through the metal cabinet or enclosure so these units can be reset
without locked doors being opened. Enclosures and metal cabinets shall be locked so that only authorized qualified persons have access and shall be
marked with a sign warning of the presence of energized parts. Collector ring assemblies on revolving-type machines (shovels, draglines, etc.) shall
be guarded.
(4) Tunnel installations —(i) Application. The provisions of this paragraph apply to installation and use of high-voltage power distribution and utilization
equipment which is associated with tunnels and which is portable and/or mobile, such as substations, trailers, cars, mobile shovels, draglines, hoists,
drills, dredges, compressors, pumps, conveyors, and underground excavators.
(ii) Conductors. Conductors in tunnels shall be installed in one or more of the following:
(A) Metal conduit or other metal raceway,
(B) Type MC cable, or
(C) Other suitable multiconductor cable.
Conductors shall also be so located or guarded as to protect them from physical damage. Multiconductor portable cable may supply mobile
equipment. An equipment grounding conductor shall be run with circuit conductors inside the metal raceway or inside the multiconductor cable jacket.
The equipment grounding conductor may be insulated or bare.
(iii) Guarding live parts. Bare terminals of transformers, switches, motor controllers, and other equipment shall be enclosed to prevent accidental
contact with energized parts. Enclosures for use in tunnels shall be drip-proof, weatherproof, or submersible as required by the environmental
conditions.
(iv) Disconnecting means. A disconnecting means that simultaneously opens all ungrounded conductors shall be installed at each transformer or
motor location.
(v) Grounding and bonding. All nonenergized metal parts of electric equipment and metal raceways and cable sheaths shall be grounded and bonded
to all metal pipes and rails at the portal and at intervals not exceeding 1000 feet (305 m) throughout the tunnel.
(b) Class 1, Class 2, and Class 3 remote control, signaling, and power-limited circuits —(1) Classification. Class 1, Class 2, or Class 3 remote control,
signaling, or power-limited circuits are characterized by their usage and electrical power limitation which differentiates them from light and power
circuits. These circuits are classified in accordance with their respective voltage and power limitations as summarized in paragraphs (b)(1)(i) through
(b)(1)(iii) of this section.
(i) Class 1 circuits —(A) A Class 1 power-limited circuit is supplied from a source having a rated output of not more than 30 volts and 1000 voltamperes.
(B) A Class 1 remote control circuit or a Class 1 signaling circuit has a voltage which does not exceed 600 volts; however, the power output of the
source need not be limited.
(ii) Class 2 and Class 3 circuits —(A) Power for Class 2 and Class 3 circuits is limited either inherently (in which no overcurrent protection is required)
or by a combination of a power source and overcurrent protection.
(B) The maximum circuit voltage is 150 volts AC or DC for a Class 2 inherently limited power source, and 100 volts AC or DC for a Class 3 inherently
limited power source.
(C) The maximum circuit voltage is 30 volts AC and 60 volts DC for a Class 2 power source limited by overcurrent protection, and 150 volts AC or DC
for a Class 3 power source limited by overcurrent protection.

(iii) Application. The maximum circuit voltages in paragraphs (b)(1)(i) and (b)(1)(ii) of this section apply to sinusoidal AC or continuous DC power
sources, and where wet contact occurrence is not likely.
(2) Marking. A Class 2 or Class 3 power supply unit shall not be used unless it is durably marked where plainly visible to indicate the class of supply
and its electrical rating.
(c) Communications systems —(1) Scope. These provisions for communication systems apply to such systems as central-station-connected and noncentral-station-connected telephone circuits, radio receiving and transmitting equipment, and outside wiring for fire and burglar alarm, and similar
central station systems. These installations need not comply with the provisions of §§1926.403 through 1926.408(b), except §1926.404(c)(1)(ii) and
§1926.407.
(2) Protective devices —(i) Circuits exposed to power conductors. Communication circuits so located as to be exposed to accidental contact with light
or power conductors operating at over 300 volts shall have each circuit so exposed provided with an approved protector.
(ii) Antenna lead-ins. Each conductor of a lead-in from an outdoor antenna shall be provided with an antenna discharge unit or other means that will
drain static charges from the antenna system.
(3) Conductor location —(i) Outside of buildings —(A) Receiving distribution lead-in or aerial-drop cables attached to buildings and lead-in conductors
to radio transmitters shall be so installed as to avoid the possibility of accidental contact with electric light or power conductors.
(B) The clearance between lead-in conductors and any lightning protection conductors shall not be less than 6 feet (1.83 m).
(ii) On poles. Where practicable, communication conductors on poles shall be located below the light or power conductors. Communications
conductors shall not be attached to a crossarm that carries light or power conductors.
(iii) Inside of buildings. Indoor antennas, lead-ins, and other communication conductors attached as open conductors to the inside of buildings shall be
located at least 2 inches (50.8 mm) from conductors of any light or power or Class 1 circuits unless a special and equally protective method of
conductor separation is employed.
(4) Equipment location. Outdoor metal structures supporting antennas, as well as self-supporting antennas such as vertical rods or dipole structures,
shall be located as far away from overhead conductors of electric light and power circuits of over 150 volts to ground as necessary to avoid the
possibility of the antenna or structure falling into or making accidental contact with such circuits.
(5) Grounding —(i) Lead-in conductors. If exposed to contact with electric light or power conductors, the metal sheath of aerial cables entering
buildings shall be grounded or shall be interrupted close to the entrance to the building by an insulating joint or equivalent device. Where protective
devices are used, they shall be grounded.
(ii) Antenna structures. Masts and metal structures supporting antennas shall be permanently and effectively grounded without splice or connection in
the grounding conductor.
(iii) Equipment enclosures. Transmitters shall be enclosed in a metal frame or grill or separated from the operating space by a barrier, all metallic parts
of which are effectively connected to ground. All external metal handles and controls accessible to the operating personnel shall be effectively
grounded. Unpowered equipment and enclosures shall be considered grounded where connected to an attached coaxial cable with an effectively
grounded metallic shield.
[51 FR 25318, July 11, 1986, as amended at 61 FR 5510, Feb. 13, 1996]

§§ 1926.409-1926.415 [Reserved]
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Safety-Related Work Practices
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§ 1926.416 General requirements.
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(a) Protection of employees —(1) No employer shall permit an employee to work in such proximity to any part of an electric power circuit that the
employee could contact the electric power circuit in the course of work, unless the employee is protected against electric shock by deenergizing the
circuit and grounding it or by guarding it effectively by insulation or other means.

(2) In work areas where the exact location of underground electric powerlines is unknown, employees using jack-hammers, bars, or other hand tools
which may contact a line shall be provided with insulated protective gloves.
(3) Before work is begun the employer shall ascertain by inquiry or direct observation, or by instruments, whether any part of an energized electric
power circuit, exposed or concealed, is so located that the performance of the work may bring any person, tool, or machine into physical or electrical
contact with the electric power circuit. The employer shall post and maintain proper warning signs where such a circuit exists. The employer shall
advise employees of the location of such lines, the hazards involved, and the protective measures to be taken.
(b) Passageways and open spaces —-(1) Barriers or other means of guarding shall be provided to ensure that workspace for electrical equipment will
not be used as a passageway during periods when energized parts of electrical equipment are exposed.
(2) Working spaces, walkways, and similar locations shall be kept clear of cords so as not to create a hazard to employees.
(c) Load ratings. In existing installations, no changes in circuit protection shall be made to increase the load in excess of the load rating of the circuit
wiring.
(d) Fuses. When fuses are installed or removed with one or both terminals energized, special tools insulated for the voltage shall be used.
(e) Cords and cables. (1) Worn or frayed electric cords or cables shall not be used.
(2) Extension cords shall not be fastened with staples, hung from nails, or suspended by wire.
[44 FR 8577, Feb. 9, 1979; 44 FR 20940, Apr. 6, 1979, as amended at 55 FR 42328, Oct. 18, 1990; 58 FR 35179, June 30, 1993; 61 FR 9251, Mar.
7, 1996; 61 FR 41738, Aug. 12, 1996]

§ 1926.417 Lockout and tagging of circuits.
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(a) Controls. Controls that are to be deactivated during the course of work on energized or deenergized equipment or circuits shall be tagged.
(b) Equipment and circuits. Equipment or circuits that are deenergized shall be rendered inoperative and shall have tags attached at all points where
such equipment or circuits can be energized.
(c) Tags. Tags shall be placed to identify plainly the equipment or circuits being worked on.
[44 FR 8577, Feb. 9, 1979; 44 FR 20940, Apr. 6, 1979, as amended at 55 FR 42328, Oct. 18, 1990; 58 FR 35181, June 30, 1993; 61 FR 9251, Mar.
7, 1996; 61 FR 41739, Aug. 12, 1996]]