Installation, Operation, Operating limits – Go Power! GP-600 User Manual

3.1 Rear view – GP-600

a) Ventilation port:

Do not obstruct, allow at least 1 inch for air flow.

b) Battery terminals: Connect to 12 V battery or other 12 V power

source. Note that “+” is positive, “-” is negative. Reverse polarity connection will
blow internal fuse and may damage inverter permanently.

Note:

Minimum inverter DC cable & DC inverter fuse sizes, see section 4.3 and 4.4.

4. Installation

4.1 Where to install

The power inverter should be installed in a location that meets the following require-
ments:

a) Dry - Do not allow water to drip or splash on the inverter.

b) Cool - Ambient air temperature should be between 0°C and 40°C (the cooler the

better).

c ) Ventilated - Allow at least two inches of clearance around the inverter for airflow.

Ensure the ventilation openings on the rear and bottom of the unit are not ob
structed.

d) Safe - Do not install the inverter in the same compartment as batteries or in any

compartment capable of igniting flammable liquids such as gasoline.

e) Inverter should be located within 10 feet of the batteries.

5. Operation

To operate the power inverter, turn it on using the ON/OFF switch on the front panel.
The power inverter is now ready to deliver AC power to your loads. If you are operat-
ing several loads from the power inverter, turn them on separately after the inverter
has been turned ON. This will ensure that the power inverter does not have to deliver
the starting currents for all the loads at once.

5.1 Controls and indicators

The ON/OFF switch turns the control circuit in the power inverter ON and OFF. It
does not disconnect power from the power inverter.

When the switch is in the OFF position, the power inverter draws no current from
the battery. When the switch is in the ON position but with no load, the power idle
current is approximately 1 A (see product specifications for exact current draw).

6. Operating limits

6.1 Overtemp

The fault LED will come on when the inverter has shut itself down because the inverter
has become overheated. The power inverter may overheat because it has been
operated at power levels above it’s rating, or because it has been installed in a location,
which does not allow it to dissipate heat properly. The power inverter will restart
automatically once it has cooled off.

6.2 Overload

The fault LED will come on when the power inverter has shut itself down because
its output circuit has been short-circuited or drastically overloaded. Switch the ON/
OFF switch to OFF, correct the fault condition, and then switch the ON/OFF switch
back to ON.

Some induction motors used in refrigerators, freezers, pumps and other motor oper-
ated equipment require very high surge currents to start. The power inverter may not
be able to start some of these motors, even though their rated current draw is within
the power inverter.

If the motor refuses to start, observe the battery voltage indicator while trying to
start the motor. If the battery voltage indicator drops below 11 volts while the
inverter is attempting to start the motor, this may be why the motor will not start.
Make sure that the battery connections are good and that the battery is fully
charged. If the connections are good and the battery is charged, but the voltage still
drops below 11 volts, you may need to use a larger battery.

6.3 Input voltage

The power inverter will operate from input voltage ranging 10 V – 15 V. If the voltage
drops below 10.7 V, an audible low battery warning will sound and the fault LED will be
on. The power inverter will shut down if the input voltage drops below 10 V. This
protects your battery from being over discharged.

Go Power! Modified Sine Wave Inverter

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5

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a) Ventilation port

b) Battery terminals