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2.5
AC Wiring
This section provides information on how to make the AC connections to the MS-G inverter using
the correct AC wire size and corresponding overcurrent protection. Refer to Figures 2-11 thru 2-15
for visual overviews of the various AC wiring confi gurations.
2.5.1
Pre-AC Wiring Requirements
CAUTION: Before installing any AC wiring, review the safety information at the
beginning of this manual and the following to ensure a safe and long-lived system:
•
Always use properly rated circuit breakers. If using an electrical sub-panel, circuit
breakers can be moved from the main electrical panel to the sub-panel only if the
breakers are also listed to be installed in the sub-panel.
•
AC wiring must be no less than #10 AWG (5.3 mm
approved for the application (i.e., residential, RV, or marine wiring).
•
DO NOT connect the inverter's output to an AC power source. This could cause
severe damage to the inverter and is not covered under warranty.
•
The wire sizes recommended in this manual are based on the ampacities given in
Table 310.16 (in conduit) or Table 310.17 (in free air) of the National Electrical Code.
ANSI/NFPA 70, for 90ºC (194ºF) copper wire based on an ambient temperature of
30ºC (86ºF).
WARNING: To reduce the risk of fi re, do not connect this inverter to an AC load center
(circuit breaker panel) having multi-wire branch circuits connected.
2.5.2
AC Wire Size and Overcurrent Protection
The AC input and output wiring must be sized per the local electrical safety code requirements
to ensure the wire's ability to safely handle the inverter's maximum load current. The AC wiring
must be protected from short circuits and overloads by an overcurrent protection device and have
a means to disconnect the AC circuits. AC overcurrent protection is not included in the inverter
and must be provided as part of the inverter installation. The AC overcurrent protection device
must be a circuit breaker or a fuse/disconnect and be properly sized and branch circuit rated for
the wire it is protecting and the appliances being powered.
Info: When wiring the AC input and output circuits, we highly recommend a full system
Inverter Bypass Switch. This simple item provides a convenient way to isolate the
inverter for battery maintenance, and it could save you hours of downtime—if you ever
need to service your inverter—by enabling you to continue to power your AC loads
without any re-wiring. Because we think it is an essential part of an inverter system,
every Magnum panel (MMP Series) is equipped with an Inverter Bypass Switch.
When the inverter is in Standby mode, the full AC continuous pass-thru capacity of the MS-G
Series inverter/charger (when wired directly to the inverter's input and output) is 30 amps
a 30-amp continuous pass-thru capability, a 30-amp continuous duty rated breaker is required,
which corresponds to a minimum cable size of #10 AWG/5.3 mm
CAUTION: The inverter's internal AC transfer relay contacts are rated for 30 amps
(each leg), the pass-thru current for relay contact must be no greater than 30 amps or
damage to this relay may occur.
2.5.3
Recommended GFCI (Ground Fault Circuit Interruption) Outlets
In compliance with UL standards, Sensata has tested the following GFCIs and fi nd that they function
properly when connected to the inverter's AC output:
•
Shock Sentry
#VGF15W
TM
Note
1
– The AC pass-thru capability to the GFCI is 20 amps.
© 2015 Sensata Technologies
•
Leviton Smart Lock #8899-A
Installation
) gauge copper wire and be
2
(in conduit).
2
•
Hubbel #GF520EMBKA
. For
1
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