Product Description
| ITEM CODE | PX 5000 |
| STANDARD EQUIPMENT | |
| TRANSPORT KIT | ✔ |
| ELECTRONIC VOLTAGE REGULATOR | ✔ |
| DELIVERY | |
| FREQUENCY | 50 Hz |
| VOLTAGE | 230 V |
| PHASES | 1 |
| POWER | |
| EMERGENCY POWER ESP | 4.2 |
| EMERGENCY POWER ESP | 3.8 |
| RATED POWER IN CONTINUOUS SERVICE COP | 3.9 |
| RATED POWER IN CONTINUOUS SERVICE COP | 3.5 |
| MOTOR | |
| STARTING SYSTEM | Tear-Off |
| FUEL | Gas |
General information
The Pramac PX5000 single-phase petrol generator is designed to supply power to devices in the absence of an electrical grid, offering a maximum power of 4.2 kVA. Ideal for professional and residential applications, it complies with EU noise regulations and is supplied assembled with a tubular load-bearing frame, steel tank, padded folding handle and pre-assembled transport kit, ready for immediate use.
Technical Features:
- Maximum Rated Power LTP: 3.8 kW / 4.2 kVA
- Starting System: Recoil
- Control Panel: Hour meter, voltmeter, frequency meter
- AVR System: Automatically adjusts the output voltage to avoid overvoltage
- Tank: Steel
- Transport Kit: Tubular frame, padded folding handle
- Safety Indicators: Fuel level, thermal protection, low engine oil level protection
The Pramac PX5000 offers a powerful and reliable solution for powering devices when there is no connection to the mains. The maximum power of 4.2 kVA is suitable for use at limited intervals, while the control panel allows you to easily monitor the operation of the generator, providing useful information such as operating hours, voltage and frequency.
The AVR system ensures precise voltage regulation to prevent overvoltage, thus protecting the connected equipment. The generator is equipped with fuel level indicators and protections for low engine oil level and temperature, ensuring maximum efficiency and safety.
To ensure that the PX5000 generator is suitable for your needs, it is essential to calculate the steady-state consumption of the devices to be powered. It is advisable to choose a generator that delivers at least three times the nominal power required to handle the peaks in absorption during start-up.
