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Product Name:Input & Output AC Reactor, DC Reactor
Category:Power Electronics
The Input AC reactor is a current-limiting device mainly used for the input side of the drive so as to protect the exchange drive from the influence of the transient overpressure. It can also reduce the surge and peak current, increase the real power factor, restrain the harmonic wave in power grid and improve the function of the input current waveform.

The output AC reactor is mainly used for the smoothing filtering. By reducing the transient voltage dv/dt, it extends the service-life of the electrical machine. This equipment is also applied to reduce the noise of the electrical machine, the eddy-current loss and the leak current caused by the output of the higher harmonic. Moreover, it is also employed to protect the power switching components inside the inverter.

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Input AC Reactor
 
Output AC Reactor
 
High performance foil winding structure, low direct current resistance, strong resistance to short circuit and good overload ability in short time characterizes this input AC reactor. F or above class composite insulating materials are used to maintain reliable performance of the product under harsh working conditions. The design of the facility is characterized by low magnetic flux density, excellent linearity and strong overload capacity. Moreover, the cooperation of the design and vacuum pressure impregnation process reduces the noise of the reactor which also possesses the advantages of low consumption, high efficiency and low temperature rise. The iron core employs the cold rolled oriented silicon steel sheet.

Technical Parameters
 
1. Rated operating voltage: 220-1140 VAC; 50/60 Hz
2. Rated operating current: 3A to 1600A
3. Operating environment temperature: -25~+ 40℃; Relative humidity less than 90%
4. Dielectric strength: Iron Core-Winding 3000VAC/50Hz/5mA/10s 
No flashover breakdown (factory testing)
5. Insulation resistance: 1000VDC, insulation resistance value≥100MΩ
6. Noise of the reactor is less than 65dB (Tested at the point with a horizontal distance of 1 meter away from the reactor)
7.Drop: <4% larger than this range will cause loss of torque
8. Maximum current: 1.5 × rated current for 60S
9. Level of protection: IP00-IP22
10. Insulation grade: Above F,H
Based on different operating frequency, clients can reasonably choose the magnetic materials (such as silicon steel sheet, ferrite, amorphous iron core and magnetic powder core) as the raw material of this product. 
The excellent performance of this equipment is due to the foil winding structure, low DC resistance, strong resistance to electromagnetic force and good overload ability in short time. F and above class composite insulating materials are used to ensure the reliable performance of the output AC reactor under harsh working conditions; The advantages of the design includes low magnetic flux density, high linearity and good overload capacity. Moreover, the cooperation of the design and the vacuum pressure impregnation process ensures the low noise of the product.

Technical Parameters
 
1. Rated operating voltage: 220-1140VAC; 50/60Hz
2. Rated operating current: 3A to1600A
3. Operating environment temperature: -25~+45 ℃, Relative humidity less than 90%
4. Dielectric strength: Core-Winding 3000VAC/50Hz/5mA/10S 
No flashover breakdown (factory test)
5. Insulation Resistance≥1000VDC, insulation resistance value≥100MΩ
6. Noise of the reactor is ≤ 65dB (tested at the point with a horizontal distance of 1 meter away from the reactor)
7. Drop: <4% larger than this range will cause loss of torque
8Maximum current: 1.5 × rated current for 60S
9. Level of protection: IP00-IP22
10. Insulation grade: Above F,H

 
Input AC Reactor    Outout AC Reactor
1. Tight connection with several drives in parallel.
2. The Line supply has the Significant disturbance from other equipment (interference, over-voltage)
3. Line supply exists voltage imbalance between the phases. Over 1.8% than the rated voltage
4. Installed a lot of inverters on the same line .
5. Input power is over than 600kVA and meanwhile the distance from the inverter to large capacity power is within 10m.
1. Limit dv / dt to 500V/us
2. Limit the over-voltage at the motor terminals to
1000V to 400V~(value rms)
1150Vto 460V~(value rms)
3. Open interference between the filter and the motor  

 
 
 
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