Owner`s manual
Page 31
© 2009 Magnum Energy Inc.
Installation
2.6.1 Sizing the Grounding Electrode Conductors
AC Side - The size of the AC Grounding Electrode Conductor (GEC –AC) depends on the size of
the largest ungrounded conductor feeding the AC load center. One #8 AWG (8.4 mm
2
) copper
conductor will serve as an AC Grounding Electrode Conductor (GEC –AC) for AC power conductors
smaller than and including #2 AWG (33.6 mm
2
) copper. See Table 2-4 for additional values.
Table 2-4, AC Grounding Electrode Conductor Sizing
Size of Largest
Ungrounded Conductor
Minimum Size of Grounding
Electrode Conductor
#2 AWG or smaller
#8 AWG
(8.4 mm
2
)
#1 to #1/0 AWG
#6 AWG
(13.3 mm
2
)
#2/0 or #3/0 AWG
#4 AWG
(21.1 mm
2
)
Over #3/0 AWG
through 350 kcmil
#2 AWG
(33.6 mm
2
)
DC Side - To size the DC Grounding Electrode Conductor, you must fi rst determine which one of the
following three methods will be used to connect the DC and AC grounding points in the inverter’s
two electrical systems to the common “earth” ground:
Method 1 (see fi gure 2-17): This method uses a separate Grounding Electrode for the DC system
and the AC system. In this method - since there are multiple connections to the DC Grounding
Electrode (GEC – DC) - the size of the DC Grounding Electrode Conductor cannot be smaller than
the largest conductor in the DC system (usually the battery-to-inverter cable).
The DC Grounding Electrode (GE – DC) must be bonded to the AC Grounding Electrode (GE – AC)
to make a grounding electrode system; this bonding conductor (BC) cannot be smaller than the
largest Grounding Electrode Conductor, either AC or DC.
AC
DC Service
Panel
AC Service
Panel
DC Electrical SystemAC Electrical System
Neutral
Positive
Negative
DC
Grounding
System
Negative
SBJ
GC
GEC-AC
EGC - AC
AC Ground DC Ground
SBJ
EGC - DC
GC
Neutral
Hot
GEC-DC
GE GE
GBB GBB
Grounding Electrode
(DC side dedicated)
Grounding Electrode
(AC side dedicated)
MS-AE Series Inverter/Charger
BC
Figure 2-17, Multiple Connections to DC Ground Rod (Method 1)