µ-Dimension 12/1800N Owner's Manual - page 4
3.05.6
CAUTION: Connecting the inverter
incorrectly to the battery will cause damage that is
not covered under warranty.
3.06 Remote Switch for Inverter
Operation - Fig. 1
3.06.1 All material used for the remote
switch should be U.L. listed and installed per low
voltage, Class 2, wiring code.
3.06.2 If the "R" option is included, then
connect the cable from the remote panel/status
lights with the mating connector extending from the
inverter. Extention cable is available if necessary.
3.06.03 If the "R" option is not included,
connect a single pole single throw "On/Off" switch
using an 18-gauge wire to the "Remote Switch
Hookup" violet wire lead ocated in the DC field wiring
compartment. Disconnect the violet wire from the
battery positive input terminal and connect it to the
the load side of the remote switch. The line side of
the switch must be connected to a +12VDC. Install
a 5 Amp in-line fuse within 18" from the +12VDC
source. The cable clamp strain relief should be used
to secure the field wires.
3.06.4 The switch should be mounted at a
convenient location in a listed outlet box with
approved strain relief.
3.06.5
NOTE: A remote switch, if installed, will
operate only if the local On/Off switch on the face
of the inverter is turned "On". You may use several
switches or relays in parallel in lieu of one remote
switch.
3.07 Remote Temperature Sense
( "B1" option)
3.07.1 A gray cable with temperature sense
probe is provided with the unit. This allows the unit
to know the exact battery temperature for correct
operation of the charger temperature compensation
circuitry.
3.07.2 Install the probe end on a NEGATIVE
battery terminal post.
3.08 120 VAC Output
3.08.1
CAUTION: Do not connect another
source of AC power directly to the output of the
inverter. This will result in damage to the inverter
that is not covered under warranty!
3.08.2 The 120 VAC output of the inverter is
provided at the GFCI receptacle outlet on the
inverter.
3.08.3 The output is also presented behind
the wiring compartment panel using direct hardwire
wire leads. The black wire is hot, the white wire is
neutral and the green wire is ground. The cable
clamp strain relief should be used to secure the field
wires.
3.08.4 The hardwire A.C. output is not ground
fault circuit interrupt, (GFCI) protected unless the
inverter has option "A". GFCI outlets should be
installed at all appropriate locations per NEC 551.
The GFCI outlet should be Hubbell GFR5352XX
(20A) or GFR5252XX (15A).
3.08.5 The remote AC outlets should be
mounted at a convenient location in a listed outlet
box with approved strain relief.
3.09 120/240 VAC Dual Output
(D Option)
3.09.1 The output is presented behind the
wiring compartment panel for direct hardwire wire
leads. The two black wires are hot, the white wire
is neutral and the green wire is ground. The cable
strain relief should be used to secure the field wires.
3.10 120 VAC Input (T, T1, B1 options)
3.10.1 120 VAC, 60HZ power from the electric
utility or generator can be connected to the inverter
with hardwire connections at the AC Input wire leads
provided in the hardwire compartment. The black
wire is hot, the white wire is neutral, and the green
wire is ground. The cable clamp strain relief should
be used to secure the field wires.
3.10.2 The input circuit should have 30 amp
circuit protection from the distribution panel (50
amp. for T1 option).
3.10.3 When external 120 VAC is supplied,
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