PROTECTION CHARACTERISTICS
PROTECTION CHARACTERISTICS
• Alarm and off by low battery: the inverter emits an audible alarm and then turns off if the battery
• Alarm and off by low battery: the inverter emits an audible alarm and then turns off if the battery
voltage is too low.
voltage is too low.
• Automatic shutdown / reset protection: the inverter shuts down temporarily to protect itself from
• Automatic shutdown / reset protection: the inverter shuts down temporarily to protect itself from
overheating.
overheating.
• Protection against overloads / short circuits: the inverter shuts off automatically if the connected
• Protection against overloads / short circuits: the inverter shuts off automatically if the connected
load is too high.
load is too high.
HEATING
HEATING
• The inverter generates heat while it is working. This is not a malfunction. However, if the inverter
• The inverter generates heat while it is working. This is not a malfunction. However, if the inverter
gets too hot while it works, it will shut itself off.
gets too hot while it works, it will shut itself off.
• Place the inverter where the air flows freely around it to allow the heat to dissipate.
• Place the inverter where the air flows freely around it to allow the heat to dissipate.
• The thermal protection of the inverter prevents it from working when its temperature exceeds 60 +/- 5 °C.
• The thermal protection of the inverter prevents it from working when its temperature exceeds 60 +/- 5 °C.
SPECIFICATIONS
SPECIFICATIONS
Output waveform
THD
Continuous power
Surge power
Best efficiency
Battery low shutdown
Battery low alarm
High voltage shutdown
Thermal shutdown
With LED indicator of input voltage and output Wattage
With Priority Switch
With Wireless Remote control
AC output sockets
PRIORITY SWITCH AC POWER
PRIORITY SWITCH AC POWER
Some inverter models incorporate Priority Switch, to use this option always use the supplied wiring.
Some inverter models incorporate Priority Switch, to use this option always use the supplied wiring.
• On the inverter's faceplate (output SOCKETS), there is a power input that connects the equipment to
• On the inverter's faceplate (output SOCKETS), there is a power input that connects the equipment to
the external AC power.
the external AC power.
• When the equipment receives AC current in this socket it leads it towards the output, (the input
• When the equipment receives AC current in this socket it leads it towards the output, (the input
current comes out through the plugs). This means that you are using the external AC power supply
current comes out through the plugs). This means that you are using the external AC power supply
directly and the inverter stops transforming DC current into AC current. If the AC power is removed,
directly and the inverter stops transforming DC current into AC current. If the AC power is removed,
the inverter will connect to the battery power simultaneously and resume operation again.
the inverter will connect to the battery power simultaneously and resume operation again.
• When the equipment works with the external AC source, it remains in "stand-by" mode, we recom-
• When the equipment works with the external AC source, it remains in "stand-by" mode, we recom-
mend turning off the equipment of the "OFF" switch to avoid an unproductive battery consumption.
mend turning off the equipment of the "OFF" switch to avoid an unproductive battery consumption.
CAUTION: Do not exceed the nominal power of the inverter, even if you are using the AC priority power supply, since the
CAUTION: Do not exceed the nominal power of the inverter, even if you are using the AC priority power supply, since the
priority switch would be damaged.
priority switch would be damaged.
DESCRIPTION
Pure Sine Wave
less than 4%
300W/600W//1000W/1500W//2000W/3000W
600W//1200W/2000W/3000W/4000W/6000W
Approx. 85%
10+/-0.5VDC or
21+/-0.5VDC
10.5+/-0.5VDC or
22+/-0.5VDC
15.5+/-0.5VDC or
29+/-0.5VDC
140+/-9°F (60+/--5°C)
Model of 1000W, 1500W, 2000W, 3000W
Optional
Optional
Shuko socket
PT
14
Inverter DC/AC