User Manual

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Installation

2.4.1 DC Wire Sizing

It is important to use the correct sized DC wire to achieve maximum efﬁ ciency from the system

and to reduce ﬁ re hazards associated with overheating. Always keep your wire runs as short as

practical to prevent low voltage shutdowns and to keep the DC breaker from nuisance tripping (or

open fuses) because of increased current draw. See Table 2-1 to select the minimum DC wire size

(and corresponding overcurrent device) required based on your inverter model. The cable sizes

listed in Table 2-1 are required in order to reduce stress on the inverter, minimize voltage drops,

increase system efﬁ ciency, and ensure the inverter’s ability to surge heavy loads.

If the distance from the inverter to the battery bank is >5 feet (1.5 cm), the DC wire needs to

be increased. Longer distances cause an increase in resistance, which affects the performance of

the inverter. Use the overcurrent device previously determined from Table 2-1 and then refer to

Table 2-2 to determine the minimum DC wire size needed for various distances.

Table 2-1, Recommended DC Wire/Overcurrent Device for Rated Use

Inverter

Model

Maximum

Continuous

Current

Using Conduit In Free Air

Grounding

Electrode

Wire Size

Minimum DC

Wire Size

[rating]

Recommended

DC Breaker

Size

Minimum DC

Wire Size

[rating]

Maximum DC

Fuse Size

MS2000/

MS2012

267 amps

#4/0 AWG

(107.2 mm

)

[260 amps]

250 amps

#2/0 AWG

(67.4 mm

)

[300 amps]

300 amps

with time

delay

#6 AWG

(13.3 mm

)

MS2812 373 amps

#4/0 AWG

(107.2 mm

)

[260 amps]

250 amps

#4/0 AWG

(107.2 mm

)

[405 amps]

400 amps

with time

delay

#6 AWG

(13.3 mm

)

MS2024 133 amps

#1 AWG

(42.4 mm

)

[150 amps]

150 amps

#4 AWG

(107.2 mm

)

[140 amps]

150

amps

with time

delay

#6 AWG

(13.3 mm

)

MS4024 267 amps

#4/0 AWG

(107.2 mm

)

[260 amps]

250 amps

#2/0 AWG

(67.4 mm

)

[300 amps]

300 amps

with time

delay

#6 AWG

(13.3 mm

)

MS4048 133 amps

#1 AWG

(42.4 mm

)

[150 amps]

150 amps

#4 AWG

(107.2 mm

)

[140 amps]

150

amps

with time

delay

#6 AWG

(13.3 mm

)

Note

– Maximum continuous current is based on the inverter’s continuous power rating at the lowest

input voltage with an inverter inefﬁ ciency factored in.

Note

– Copper wire rated with 90°C (194°F) insulation at an ambient temperature of 30°C (86°F),

with a multiple cable ﬁ ll factor (0.8) de-rating (if needed).

Note

– The next larger standard size overcurrent device may be used if the derated cable ampacity

falls between the standard overcurrent devices found in the NEC.

Note

– Per NEC, the DC grounding electrode conductor can be a #6 AWG conductor if that is the only

connection to the grounding electrode and that grounding electrode is a rod, pipe, or plate electrode.

Note

– May not allow continuous operation at full rated power as deﬁ ned by the NEC.

2.4.2 DC Overcurrent Protection

DC overcurrent protection is not included in the inverter—for safety reasons and to comply with

electrical code regulations—it must be provided as part of the installation. The DC overcurrent

protection device must be installed in the positive DC cable line, it can be a fuse or a circuit

breaker and must be DC rated. It must be correctly sized according to the size of DC cables being

used, which means it is required to open before the cable reaches its maximum current carrying

capability, thereby preventing a ﬁ re. In a residential or commercial electrical installation, the NEC

requires both overcurrent protection and a disconnect switch. If a circuit breaker is used as the

overcurrent protection device, it can also be used as the required DC disconnect.