PRAMAC
PRAMAC PMI 3000 INVERTER Power Generator
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Maximum power single phase: 3.0 KW
Continuous use power single phase: 2.7 KW
Fuel: Petrol
Voltage: 230 V
Frequency: 50 Hz
Engine: PRAMAC 207 cc OHV
Starter: Recoil
Type of current supply INVERTER
| Rated power in continuous service COP | 2.7 kW |
| Starting power | 3.0 kW |
| Engine power | 207cc |
| Voltage | 230 V |
| Frequency | 50 Hz |
| Fuel | Gas |
| Starting system | tear-off |
| Tank capacity | 10 L |
| Autonomy @ 50% | 6h |
| Acoustic power LWA | 68 dB(A) |
| Sound pressure at 7 m | 70 dB(A) |
| Length | 555 mm |
| Length | 400 mm |
| Height | 450 mm |
| Weight (dry) | 38 kg |
- Control lights for oil level, thermal protection, power supply
HOW TO CHOOSE THE RIGHT POWER SIZE IN WAT or KW of the generator
Resistive loads = lamps - electric heaters - hair dryers - (they have no starting current) therefore the consumption is equal to the declared watts
Electronic products such as PCs - TVs - or other electronic devices are equal to the declared watts. Calculate the declared consumption in the choice 1.2 and then exceed the choice = 500 watts for 1.2 = 600 watts.
Inductive loads = electric motors. Remember that electric motors typically require substantially more current at startup (2 to 3 times the nominal value). Multiply the nominal value by 2 or 3. A 1 kW motor = 1,000 watts will have a startup current of 2 kW. Compressors = 2.5 kW. Refrigerators and freezers = 3 times the nominal value. Multiply the nominal value in watts absorbed by 2 - 2.5 - 3 depending on the product the generator must support.
Choose a Pramac generator that exceeds = EXCEEDS the calculated starting power. This means that the generator must have a power output in watts or kW greater than the total calculated power of the machines it is designed to support.
- BEFORE BEING SHIPPED THE MACHINE IS UNPACKED AND TESTED FOR ABOUT 15 MINUTES
