The inverter low frequency is a type of inverter that uses high-frequency pulse width modulation technology and microcomputer control technology to convert DC power into AC power for load use. The working principle of low frequency inverter is to convert DC power into low frequency low-voltage AC power, and then boost it to 220V, 50HZ AC power through low frequency transformer for load use.
Inverter PSW refers to "pure sine wave inverter", which is a device that converts direct current (DC) power into alternating current (AC) power, especially an inverter whose output waveform is pure sine waveform. This inverter can provide power quality comparable to that of the public power grid, with low harmonic distortion, suitable for most household appliances and sensitive equipment. Its quality takes priority over square waves and modified waves.
Inverter use low frequency transformer design and have higher stability and durability than high frequency inverters. They can better cope with power fluctuations and can handle larger loads. Usually, inverter low frequency are suitable for places that require high power output and high stability, such as: power systems, communication systems, railway systems, shipping, hospitals, shopping malls, schools, building fire alarm systems, solar equipment.
The mains waveform output by psw power inverter is almost the same as the waveform of the mains (the power provided by the power grid), showing a smooth and regular sine shape. This waveform ensures good compatibility with the mains, which means that appliances using pure sine wave inverter can work normally as if they were directly connected to the mains, without being damaged or having their performance reduced due to waveform differences.
In contrast, although the modified wave (usually refers to a modified square wave) inverter is lower in cost, the AC waveform it outputs is not a complete sine wave, but a square wave that has been modified to a certain extent. This waveform has a more obvious turning point at the peak and valley values, which may cause some equipment that is sensitive to the power waveform to not work properly, or shorten the life of the equipment under long-term use.
High stability: The inverter psw low frequency uses low frequency transformer for electrical isolation and voltage conversion to ensure that the output voltage waveform is stable and close to the ideal sine wave. This enables it to meet the needs of equipment with high power quality requirements, especially for applications that are sensitive to voltage fluctuations.
Strong adaptability: In unstable power grid or off-grid environments, inverter psw low frequency can effectively cope with voltage fluctuations and load changes, always maintaining stable and reliable output voltage, and ensuring continued stable operation of the system.
High-quality waveform: The output waveform of the inverter psw low frequency is usually pure sine wave, which can significantly reduce the potential harm of harmonics to electrical equipment, thereby effectively protecting the load equipment and extending its service life.
Xindun provides the inverter psw low frequency. Our inverter is highly stable, simple in structure, highly adaptable, strong in overload capacity and impact resistance, and can suppress the high-order harmonic components in the waveform. The inverter conversion efficiency is as high as 85%, and it supports pure sine wave output. Xindun has been specializing in the production of low frequency inverter for 19 years. With a production plant of more than 100 million square meters and a R&D and engineering team of more than 30 people, Xindun always provides the best inverter products.
Now we recommend 6 of our company's best-selling inverter psw low frequency. Click the picture to jump to the product details:
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LS series inverter 1KW-6KW |
LF series inverter 1KW-12KW |
DF series inverter 1KW-12KW |
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WD series inverter 8KW-40KW |
HDSX series inverter 3.2KW-160KW |
WF series inverter 700W-40KW |
