Flexible cords – 2014 nec gas efficient suv 2015

Flexible cords and cables have many essential uses, but must be selected appropriately for a given application. The NEC doesn’t consider flexible cords to be wiring methods like those defined in Chapter 3. They fill a different niche, and are thus in a different Chapter. Much of our infrastructure and industry simply would not run without flexible cords and cables. You would not, for example, be able to take an elevator ride or operate a hoist without them. Many types of lighting installations also rely on them, as does a wide range of equipment.

Article 400 covers the general requirements, applications, and construction specifications for flexible cords and cables. Article 400 doesn’t apply to “power supply cords” or “cord sets” constructed in accordance with UL 817. Flexible cords and cables are designed and built to be safe, but only when you use one (and fittings) identified for the application. For example, use cords listed for a wet location if you’re using them outdoors. The jacket material is tested to maintain its insulation properties and other characteristics in the environments for which the cord (or cable) has been listed.

Table 400.5(A)(1) lists the allowable ampacity for copper conductors in flexible cords and cables. Table 400.5(A)(2) lists the allowable ampacity for copper conductors in flexible cords and cables with not more than three current-carrying conductors at an ambient temperature of 86ºF.

If the ambient temperature is other than 86°F, the flexible cord or flexible cable ampacity, as listed in Table 400.5(A)(1) or 400.5(A)(2), must be adjusted by using the ambient temperature correction factors listed in Table 310.15(B)(2)(a).

Where can you use these? If you look in Chapter 3, you’ll notice that many of the Articles have a subsection 10 titled “Uses Permitted.” We noted earlier that the NEC doesn’t consider flexible cords and cables to be a wiring method in the Chapter 3 sense. Article 400 differs in structure from the wiring method Articles, too. In this case, you’ll find “Uses Permitted” in subsection 7.

Appliances specifically designed to permit ready removal for maintenance and repair, and identified for flexible cord connection [400.7(A)( ]. An attachment plug can serve as the disconnecting means for stationary appliances [422.33] and room air conditioners [440.63].

Article 400 requirements apply only to flexible cords [UL 62]. Power supply cords [UL 817] don’t fall within the scope of Article 400, so you can run a power supply cord through a cabinet wall for an appliance. You can also run a power supply cord through, or locate it above, a suspended ceiling.

The physical damage caution is repeated all through Chapter 3, also. It really applies no matter what wiring method or cord or cable you use. It’s not the case that if there’s exposure to physical damage you just use something heavier and “problem solved.” That is a common error with (for example) rigid metal conduit (RMC), Article 344, as if simply choosing this is good enough and never mind that it’s being installed such that being crushed by the massive counterweight on a lift truck is inevitable.

When installing any electrical equipment, wiring method, cord, or cable, always assess the situation for the likely hazards. Then determine which of the many options at your disposal can mitigate or eliminate the threat of physical damage. The options include everything from changing the routing to installing protective barriers.

For example, what if the flexible cord supplies a drill press and just moving the press a few feet allows running the cord with no danger of physical damage? There are also many protective products on the market, so for a few dollars you can eliminate the risk with a very simple solution. These products can typically serve the dual function of eliminating the tripping hazard a cord or cable can pose to people. That dual function is especially helpful in high-traffic or high-stress areas such as construction sites or operating rooms.

Install flexible cords and cables so as not to transmit tension to the conductor terminals [400.10]. You can accomplish this by knotting the cord, winding the cord with tape, or by using support or strain relief fittings. But when critical health and economic activities depend upon flexible cord-supplied equipment, the best method is a factory-made, stress-relieving, listed device, not an old-timer’s knot.

A conductor intended for use as an equipment grounding conductor must have a continuous green color or a continuous identifying marker distinguishing it from the other conductor(s) [400.23]. Conductors with green insulation, or green with one or more yellow stripes must not be used for an ungrounded or neutral conductor [250.119].

These cords and cables are flexible, but your attention to the Code requirements can’t be. Perhaps the most important step you can take is to ensure you’re installing the right cord or cable for the application. The solution isn’t always obvious.

For example, Table 400.4 provides three different trade names for heater cords and each has its own entry in the Table. If that seems a bit confusing, the Table provides four trade name entries for elevator cables. The use you can make of a given cord or cable depends upon such factors as type, size, outer covering, and voltage rating. These are accounted for in the Table.