- Product Details
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Quick Details
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Continuous Power:
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3000W
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Surge Power:
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6000W
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Frequency:
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50HZ±0.5HZ or 60HZ±0.5HZ
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AC Regulation:
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THD<3%(Linear Load)
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Wave Form:
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Pure Sine Wave
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Cooling Way:
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Intelligent Cooling Fan
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Output Efficiency:
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92%
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Warranty:
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2 Years
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Carton Weight:
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30(kg)
Quick Details
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Output Current:
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Load
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Place of Origin:
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Zhejiang, China
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iterm:
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inverter
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Continuous Power:
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3000W
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Surge Power:
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6000W
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Frequency:
-
50HZ±0.5HZ or 60HZ±0.5HZ
-
AC Regulation:
-
THD<3%(Linear Load)
-
Wave Form:
-
Pure Sine Wave
-
Cooling Way:
-
Intelligent Cooling Fan
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Output Efficiency:
-
92%
-
Warranty:
-
2 Years
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Carton Weight:
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30(kg)
Parameter
| Model | sp12/220-3000LC | sp24/220-3000LC | sp48/220-3000LC |
| Continuous Power | 3000W | ||
| Surge Power | 6000W | ||
| Frequency | 50HZ±0.5HZ or 60HZ±0.5HZ | ||
| Wave Form | Pure Sine Wave | ||
| AC Regulation | THD<3%(Linear Load) | ||
| Output Efficiency | 92% | ||
| DC Voltage | DC12V | DC24V | DC48V |
| AC Voltage | 220VAC or 230VAC or 240VAC ±5% | ||
| No Load Current Draw | 2a | 1a | 0.5a |
| DC Voltage Range | 10-15.5V | 20-31V | 40-61V |
| Low Voltage Alarm | 10.5±0.5V | 21±0.5V | 42±1V |
| Low Voltage Shut Down | 10±0.5V | 20±0.5V | 40±1V |
| Over Voltage Shut Down | 15.5±0.5V | 31±0.5V | 61±1V |
| Low Voltage Recovery | 13±0.5V | 24±0.5V | 48±1V |
| Over Voltage Recovery | 14.8V±0.5V | 29V±0.5V | 59V±1V |
| Charging Voltage | 14.6V±0.2V | 29.2V±0.3V | 58.4V±0.5V |
| Floating Charge Voltage | 13.8V±0.2V | 27.6V±0.3V | 55V±0.5V |
| Charging Current | ≤15A | ≤8A | ≤5A |
| Transfer Time | ≤9MS | ≤9MS | ≤9MS |
| Grid Input Draw | 220VAC or 230VAC or 240VAC ±10% | ||
| Protection | Low Voltage/Over Voltage | LED Alarm and Automatic Recovery. | |
| Overload | LED Alarm and Automatic Recovery. | ||
| Over Temperature | LED Alarm and Automatic Recovery. | ||
| Short Circuit | LED Alarm and Automatic Recovery. | ||
| Working Temperature | -10°- +50° | ||
| Storage Temperature | -30°- +70° | ||
1. High efficiency:
The battery with the same capacitance, higher efficiency, longer use time. Reliable inverter use the most advanced technology to raise the efficiency to 90%, save more energy, more environmental protection.
2. Protection systems:
Thermal protection, Overload protection, Over Voltage protection, Under Voltage protection, Low Voltage protection alarm. Inverter comes with an LED light to indicate the problem.
3. What's the difference between an inverter and inverter with charger?
An inverter converts DC (battery) power into AC power and then passes it along to connected equipment. An inverter with charger does the same thing, except that it is connected to an AC power source to continuously charge the attachedbatteries when AC utility power is available. In the case of a power outage, the inverter will automatically switch to battery power to provide power to connected equipment.
4. How do I charge the batteries?
Inverter/Chargers must also be connected to AC utility power for their charging feature to work.
5. How fast will the inverter respond to a power outage?
During a blackout in the utility grid, inverters with chargers automatically switch from utility
power to battery backup power. the inverter will transfer from utility to battery power in about 9 milliseconds
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Package Size |
650*235*150(mm) |
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N.W/G.W |
6.2/ 7.45(kg) |
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Qty/Carton |
4 |
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Carton Size |
660*475*335(mm) |
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Carton Weight |
30KG |
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Warranty |
2 Years |
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Cooling Way |
Intelligent Cooling Fan |
( 1 ) Short circuit production.
When the load is short circuit, the inverter will stop working.
( 2 ) High temperature production.
When the use environment is stuffy, the heat of the inverter can not be radiated. The temperature is above the rated temperature, the inverter will stop working.
( 3 ) High voltage protections.
The battery voltage is above the rated voltage of the inverter, the inverter will stop working.
( 4 ) Low voltage protections
The battery’s voltage falls during the usage. When it is lower than the rated voltage, the inverter will automatically cut the input voltage for the self protection.
( 5 ) Surge protection.
It can avoid the DC high voltage’s surging attack upon the electronic components inside.
( 6 ) Overload protection
When the appliances’ power is higher than the inverter’s power, the inverter will stop working for self protection.
( 7 ) Over current Protection
When the appliances’ current is bigger than the inverter’ current, the protection components on the board will be cut automatically for self protection.
( 8 ) Fuse protection.
When the appliance’s resistance is bigger than inverter’s, the fuses on the socket will be automatically cut off for self protection.
( 9 ) Reverse protection
It can avoid the accidents of burning the inverter if the positive and the negative poles are reverse connected.
