![]() ![]() Electrical equipment, such as switchboards, switchgear, panelboards, industrial control panels, meter socket enclosures, and motor control centers, that is in other than dwelling units, and is likely to require examination, adjustment, servicing, or maintenance while energized, shall be field or factory marked to warn qualified persons of potential electric arc flash hazards. Once there, click on their link to free access to the 2017 NEC ® edition of NFPA 70.ġ10.16 (A) General. See the actual NEC ® text at NFPA.ORG for the complete code section. This helps to date stamp the installation should any changes occur in the future.īelow is a preview of Article 110. Just mark the date the label is installed. All of these characteristics have an impact on the final available fault current which is not known at the factory before the equipment is shipped out to the job site. The larger the fault, the faster the overcurrent device will operate which means a quicker clearing time.Įven though the code section allows the label to be field or factory applied, the actual clearing time is not known at the factory since it is a variable numeric value based on field installation conditions such as length, size and properties of the service entrance conductors. The time-current curve chart provides many different clearing times based on the magnitude of the fault condition. This does not mean just taping the time-current curve chart to the service for the inspector to figure out. If multiple overcurrent devices with different clearing times are used at the service, each overcurrent device will need to be labeled with its specific clearing time. When the NEC ® requires an electrical engineer to get involved, the NEC ® states just that. Take notice that the NEC ® does NOT require an electrical engineer to be involved with this one. In order to accurately mark the clearing time of the overcurrent device, the electrician will need to understand the time-current curve charts for the specific overcurrent device being used at the 1200 amp or larger service. To obtain the available fault current (AFC) at the service, most electrician will contact the local utility company to find out the maximum AFC that can be delivered from the transformer secondary to the service. Item 2 has basically been required anyway since the 2011 NEC ® in section 110.24(A) so this is not a major change. ![]() ![]() It is expected that the installing electrician will know the nominal system voltage for the equipment being installed. The clearing time of service overcurrent protective devices based on the available fault current at the service equipment.Available fault current at the service overcurrent protective devices.When a 1200 amp or larger electric service is installed at other than dwelling units, the following markings must be field or factory applied to the service equipment: Now, in other than dwelling units, service equipment rated 1200 amps or more must be marked with certain items that can only be obtained by an electrician who truly brings their A-game to the job site. New labeling requirements in 110.16 really put the pressure on for electrician to step up their game. Code Change Summary: New requirements for arc-flash hazard warning labels provide specific rules for service equipment rated 1200 amps or more. ![]()
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