Gemeral
This product adopted high quality foreign silicone steel sheet and copper wire being processed by use of advanced technology, with such features as small size, low temperature rise, no noise and etc. it is generally installed on the input side of inverter DC speed regulator, able to restrict the harmonic contents produced by inverter and entered into power network, and reduce the interference on other devices, improve the electricity quality and power factor, limit the abnormal fluctuation of system voltage and surging current, optimize wave and etc.
Voltage drop:1%-2%
Rated operating voltage: 380V/50Hz
Electric strength: iron core-winding 2500VAC/50Hz/10mA/60s no arcing no breakdown;
Insulation resistance: 1000VDC
Insulation resistance ≥100MV
Noise of reactor: less than 35dB (measured from 1 meter away in horizon from reactor)
Temperature rise less than 60K
Applicable standard: IEC289: 1987 "Reactors"
GB10229-88(eqv IEC289:1987)
GB10229-88"Reactors"(eqv IEC289:1987)
JB9644-1999"Reactor for semi-conductive electric driving use"
Voltage Range | DC500V-1000V |
Dielectric Strength | Core-Winding, AC 3000V/50Hz/5mA, free of damage in 60s |
Insultalon Resistance | Core-Winding, DC 1000V, Resistance > 100M ohm |
Reactor's noise | less than 65dB(to be measured at the point 1 meter away from the reactor horizontally) |
Standard | GB 19212.1-2008 GB/T 1094.6-2011 |
In the trend of advocating smart and simple industrial automation, environmentally friendly products, value-added solutions, K-Drive, as one of the world's leading drive manufacturers aggressively investing in R&D, production, and continuous quality improvement, is well positioned to provide its customers with technology-driven, performance-outstanding products such as VFDs, wind power converters, servo drives, HEV/EV drives, helping its customers save energy and increase industrial productivity with sustainability on the one hand, and enhancing their entire value-chain quality, delivery, and services on the other hand.
In production, rigorous quality control is implemented on components, circuit boards, and the finished goods, assuring products without defects.
Selecting an inverter DC reactor requires consideration of several factors. Here are some steps you can follow to select an appropriate inverter DC reactor:
Determine the voltage and current ratings of your inverter system: The DC reactor should be selected based on the voltage and current ratings of the inverter system. This will ensure that the reactor can handle the power levels of your system.
Determine the type of DC reactor you need: There are two main types of DC reactors - line reactors and load reactors. Line reactors are used to smooth out the current waveform and reduce harmonics in the power system, while load reactors are used to protect the inverter from short-circuit currents.
Calculate the required inductance: The inductance of the DC reactor should be calculated based on the voltage and current ratings of the system. The inductance value is typically expressed in Henrys (H).
Determine the rated current of the DC reactor: The rated current of the DC reactor should be selected based on the maximum current that will flow through it. This will ensure that the reactor can handle the current levels of your system without overheating.