The 3.7kw high performance frequency converter is made in China Zhejiang which output the AC power to pure sine wave after the transformation of AC→DC→AC, the output frequency and voltage can be adjusted within a certain range. It is different from the variable frequency drive (VFD) used for motor speed regulation, and also different from the common AC regulated power supply. If you buy our products, you can enjoy super preferential prices
The 3.7kw high performance frequency converter is made in China Zhejiang which output the AC power to pure sine wave after the transformation of AC→DC→AC, the output frequency and voltage can be adjusted within a certain range. It is different from the variable frequency drive (VFD) used for motor speed regulation, and also different from the common AC regulated power supply. If you buy our products, you can enjoy super preferential prices
The 3.7kw high performance frequency converter further strengthens the product's reliability and environmental adaptability, as well as customized and industrialized design.The 3.7kw high performance frequency converter can better meet the needs of various transmission applications. The 3.7kw high performance frequency converter is quite close to the ideal AC power supply, so more and more countries use it as standard power supply to provide the best power supply environment for electrical appliances, so as to assess the technical performance of electrical appliances.
Product name |
3.7kw high performance frequency converter |
Rated output power |
3700W |
Product size |
H165*W87*D152mm |
Battery capacity |
5.9kVA |
Voltage level |
3-pha 380V |
Rate of recurrence |
50/60HZ |
The 3.7kw high performance frequency converter adopts efficient and accurate thermal simulation platform software to ensure the thermal reliability of the whole machine. The 3.7kw high performance frequency converter must pass the thermal simulation test, and only within the range of the thermal simulation safety design requirements can the physical prototype be developed and developed. The thermal design is tested by scientific simulation, with high accuracy, fast efficiency, and good stability. Especially in the extreme test state, thermal simulation can replace the actual load test simulation, which is equivalent to an additional layer of scientific thermal inspection.