Vector VEC1024 400-Watt Power Inverter
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Offering 400 watts of maximum continuous power, the Vector VEC1024 Power Inverter converts 12 volt DC from your vehicle to 110/120 volt AC household electricity. For low wattage applications, plug the power inverter into your vehicle's accessory outlet with the included 12-volt DC power cord. Or use the heavy-duty cable clamps for high output direct battery connections.This portable power inverter also includes an automatic reset feature, a turbo cooling fan that keeps components cooler for extended life, dual AC outlets and LED power and fault indicators.
Featuring Vector's Soft Start Technology (SST), this DC to AC power inverter offers unrivaled reliability. Soft Start gradually and safely ramps up the output voltage to start difficult motorized loads and protects sensitive appliance circuits.
STANDARD FEATURES
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| Dimensions & Specifications | ||||
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Height: 1 3/4" | |
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Width: 4 3/4" | |
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Depth: 6" | |
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Weight: 2.25 lbs. | |
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Max. Continuous Power: 400 Watts | |
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Surge Capacity: 800 Watts | |
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Input Voltage Range: 10.5-15.5 VDC | |
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Under Voltage Shutdown: 10.0 V | |
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Max. Efficiency: Approx. 90% | |
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No Load Current Draw: 0.4 A | |
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Low Voltage Alarms Activation: 10.6 V | |
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Internal Fuse: 25 A | |
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WARRANTY INFORMATION
CHOOSING THE RIGHT POWER INVERTER
How big of an inverter will you need?
First you will have to determine the total wattage of the devices you want to operate. Check the back of the product or manual of your device. Once you find the total watts used, find an inverter that supplies at least that wattage constantly. Inverters have two ratings, a constant and peak rating. For example a 1000W inverter will supply a constant supply of up to 1000 watts but will deliver a peak of 2000 watts. The peak voltage can't be sustained very long but it will allow extra power to start an electric motor or compressor.
If you know the amps of a device and need to convert that to watts, use this formula: Amps x Volts = Watts. For example, a 3 amp motor running on 110 volts AC would convert to 330 watts. You would need an inverter that supplies at least 330 watts constantly. Be sure to allow a slight variance just to be sure.
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