Ecmweb 8259 Sizing Conductors Pr 0
Ecmweb 8259 Sizing Conductors Pr 0
Ecmweb 8259 Sizing Conductors Pr 0
Ecmweb 8259 Sizing Conductors Pr 0
Ecmweb 8259 Sizing Conductors Pr 0

Article 690, Solar Photovoltaic Systems — Part 1

May 17, 2016
Though it covers solar power systems, Art. 690 is not light reading.

Article 440 applies to electrically driven air-conditioning and refrigeration equipment. The rules in this Article add to, or amend, the rules in Art. 430 and other Articles in the NEC [440.3(A)]. A key term to understand is “rated-load current.” This is the current resulting when the motor-compressor operates at rated load and rated voltage.

Each manufacturer has the motor for a given air-conditioning or refrigeration unit built to its own specifications. Cooling and other characteristics of these motors are different from those of non-hermetic motors.

Other Articles

As noted, Art. 440 builds on Art. 430. But, depending upon the equipment or occupancy, other Articles apply. These are identified in Table 440.3(D).

Not all air-conditioning and refrigeration equipment motors fall under Art. 440:

• Air-conditioning and refrigeration equipment that doesn’t have hermetic refrigerant motor-compressors, such as furnaces with evaporator coils, must comply with (respectively) Art. 422 for appliances, Art. 424 for electric space heating, and Art. 430 for motors [440.3(B)].

• Room air conditioners, household refrigerators and freezers, drinking water coolers, and beverage dispensing machines are listed as appliances, and their installation must also comply with Art. 422 for appliances [440.3(C)].

Nameplate

The manufacturer of multi-motor and combination-load equipment must affix a visible nameplate marked with the maker’s name, rating in volts, number of phases, and minimum conductor ampacity. It must also provide the maximum rating of the branch-circuit short-circuit and ground-fault protective device [440.4(B)].

When determining the rating of the disconnecting means, the branch-circuit conductors, the controller, and the branch-circuit short-circuit and ground-fault protection for a hermetic refrigerant motor-compressor use the rated-load current marked on the nameplate of the equipment [440-6(A)].

Always check the nameplate data before installing and/or connecting the motor. It’s a good practice to photograph this nameplate as part of the project documentation.

Use the nameplate data to calculate the minimum conductor ampacity per Sec. 440.33. Choose the branch-circuit short-circuit and ground-fault protective device rating per Sec. 440.22(B).

Related

Disconnecting means

For a hermetic refrigerant motor-compressor, the ampere rating must be at least 115% of the nameplate rated-load current or branch-circuit selection current —whichever is greater [440.12(A)(1)].

For cord-connected room air conditioners, household refrigerators and freezers, drinking water coolers, and beverage dispensers, an attachment plug and receptacle can serve as the disconnecting means [440.13].

A disconnecting means for air-conditioning or refrigeration equipment must be located within sight from and readily accessible from the equipment [440.14].

Fig. 1. Pay close attention to where you decide to install that disconnect.

The disconnecting means can be mounted on or within the air-conditioning equipment, but it must not be located on panels designed to allow access to the equipment, or where it’ll obscure the equipment nameplate (Fig. 1).

Note these two Sec. 440.14 exceptions:

Exception No. 1: A disconnecting means does not have to be within sight from the equipment if all of the following conditions are met:

• The disconnecting means is lockable (as described in Sec. 110.25).

• The equipment is essential to an industrial process in a facility that has written safety procedures.

• Where the conditions of maintenance and supervision ensure only qualified persons service the equipment.

Exception No. 2: An accessible attachment plug and receptacle can serve as the disconnecting means. The receptacle for the attachment plug doesn’t have to be readily accessible.

Overcurrent protection

If the equipment nameplate specifies “Maximum Fuse Size,” you must use a one-time or dual-element fuse [110.3(B)]. If the nameplate says “Maximum Protection Size,” circuit breakers or fuses can be used.

For single motor-compressors, the short circuit and ground-fault protective device must not be more than 175% of the motor-compressor current rating. If the protective device sized at 175% isn’t capable of carrying the starting current of the motor-compressor, then you can use the next size larger protective device, but in no case can it exceed 225% of the motor-compressor current rating [440.22(A)].

If the equipment incorporates more than one hermetic refrigerant motor-compressor, or a hermetic refrigerant motor-compressor and other motors or other loads, then the equipment must have a visible nameplate containing the maximum rating of the branch-circuit short-circuit and ground-fault protective device [440.22(B)].

Conductor sizing

Branch-circuit conductors to a single motor-compressor must have an ampacity not less than 125% of the motor-compressor rated-load current or the branch-circuit selection current — whichever is greater [440.32].

Let’s run through an example to show how to properly size an overcurrent protection device and choose an appropriate conductor size.

Fig. 2. This example shows how to size the conductor and overcurrent device for an 18A motor compressor with 75°C terminals.

What size conductor and overcurrent device are required for an 18A motor compressor with 75°C terminals (Fig. 2)?

Step 1:  Determine the branch-circuit conductor [Table 310.15(B)(16) and 440.32]

18A × 1.25 = 22.50A

A 12 AWG conductor is rated 25A at 75°C [110.14(C)(1)(a)(3), Table 310.15(B)(16)]

Step 2:  Determine the branch-circuit protection [240.6(A) and 440.22(A)]

18A × 1.75 = 31.50A, next size down = 30A

If the 30A short-circuit and ground-fault protection device isn’t capable of carrying the starting current, then you can size the protective device up to 225% of the equipment load current rating.

18A × 2.25 = 40.50A, next size down 40A

Therefore, you can use a 30A or 40A overcurrent device to protect a 12 AWG conductor for an air-conditioning circuit. See Sec. 240.4(G) for details.

It is very common for a motor-compressor unit to have a nameplate that specifies the maximum overcurrent protection size and the minimum circuit ampacity.

Room air conditioners

The requirements of Art. 440, Part VII, apply to a cord- and plug-connected room air conditioner of the window or in-wall type that incorporates a hermetic refrigerant motor-compressor rated not over 40A, 250V, single-phase [440.60].

Branch-circuit conductors for a cord-and-plug-connected room air conditioner must have an ampacity not less than 125% of the rated-load current [440.32].

If the room air conditioner is the only load on a circuit, the marked rating of the air conditioner must not exceed 80% of the rating of the circuit overcurrent device [440.62(B)].

The total rating of a cord-and-plug-connected room air conditioner must not exceed 50% of the rating of a branch circuit where lighting outlets, other appliances, or general-use receptacles are also supplied [440.62(C)] (Fig. 3).

An attachment plug and receptacle or cord connector can serve as the disconnecting means for a room air conditioner, if [440.63]:

1. The manual controls on the room air conditioner are readily accessible and within 6 ft of the floor, or

2. A readily accessible disconnecting means is within sight from the room air conditioner.

If a flexible cord is used to supply a room air conditioner, the cord must not exceed 10 ft for 120V units or 6 ft for 208V or 240V units [440.64].

Single-phase cord- and plug-connected room air conditioners must be provided with a factory-installed leakage current detector or with an arc-fault circuit-interrupter (AFCI) [440.65].

Just chillin’

You can avoid panic and be able to just chill at the end of the project if you keep two basic concepts in mind. First, remember that Art. 440 covers a special case motor, so it modifies Art. 430 requirements rather than serving as an alternative to (or replacement for) them.

Second, the equipment nameplate is crucial. Always check that early in the project and again before making connections. You need a perfect match with the application; the nameplate information is the basis for correctly sizing the supply.

For each motor, the manufacturer has worked out all of the details and supplied the correct protection, conductor sizing, and other information on the nameplate. So when wiring an air conditioner, trust the information on the nameplate, and don’t try to over-complicate the situation. The math for sizing the overcurrent protection and conductor minimum ampacity has already been done for you.            

Holt is the owner of Mike Holt Enterprises, Inc. in Leesburg, Fla. He can be reached at www.mikeholt.com.

About the Author

Mike Holt

Mike Holt is the owner of Mike Holt Enterprises (www.MikeHolt.com), one of the largest electrical publishers in the United States. He earned a master's degree in the Business Administration Program (MBA) from the University of Miami. He earned his reputation as a National Electrical Code (NEC) expert by working his way up through the electrical trade. Formally a construction editor for two different trade publications, Mike started his career as an apprentice electrician and eventually became a master electrician, an electrical inspector, a contractor, and an educator. Mike has taught more than 1,000 classes on 30 different electrical-related subjects — ranging from alarm installations to exam preparation and voltage drop calculations. He continues to produce seminars, videos, books, and online training for the trade as well as contribute monthly Code content to EC&M magazine.

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