KLD-FD Series
Low-voltage Filter Reactor
Filter reactors can effectively protect the capacitors, reduce overload caused by harmonics during compensation, and avoid the possibility of resonance with grid inductance.
If there are electricity loads generated by inverters, rectifiers and other devices that produce harmonics in the power grid, the capacitor cabinet needs to be equipped with filter reactors. Low-voltage filter reactors in series with capacitors can withstand the losses generated by fundamental and harmonic currents, and will not exceed the temperature range of the insulating material in normal conditions.
KLD-FD series low-voltage filter reactors have high accuracy and linearity to withstand the switching of capacitors and will not cause saturation because of large grid harmonic distortions. Its iron core reactors designed with leakage prevention function have lower losses and noise levels.
Low-voltage filter reactor and capacitor in series consist of low-voltage reactive power compensation device, which will provide reactive power compensation to the grid system, improve power factor, reduce losses from the line and transformer and play a vital role in supporting the voltage. It also suppresses the amplification of harmonic current, eliminates the hidden hazards of resonance, and fully protects the operation safety and service life of capacitors.
In the production process, products are impregnated and solidified under vacuum to avoid the impact of water molecule on the performance and service life of reactor. Each reactor is equipped with an over-temperature protection point for the customer to ensure that the linkage switch can be quickly and reliably cut off under abnormal conditions.
The magnetic field is produced when the coil flows through the current and Reactance coefficient as the current increases. When it reaches a certain level and can not continue to enhance, i.e., "magnetic saturation", the inductance value experience a parabolic decline from a fixed value. KLD-FD series reactors will not be magnetically saturated when passing 2.01n.
Rated voltage | 230~800V,50/60Hz |
Output power | 5~100kvar |
Reactance | 7%, 14% or other reactance |
Overload capacity | 1.8In |
Maximum voltage | 1.1Un |
Linearity | 2.0In |
Cooling method | Natural cooling |
Insulation between layers | Nomex high-quality insulating paper |
Impregnation method | Polyester resin, class H |
Insulation level | Winding-iron core 3kV |
Over-temperature protection | 120°C normally closed contact |
Parameter tolerance | ±3% |
Altitude | Conventional 2,000 meters (higher altitude can be customized) |
Ambient temperature | -40℃~+45℃(up to +55℃) |
Technical Standard | Complies with GB1094,VDE0550/0532,IEC76 |
Model | Capacity(kvar) | Reactance Coefficient | Outlet mode | Temperature monitoring |
Single-phase | ||||
KLD-FD7-5-1-230V | 5 | 7% | Side outlet | Provided |
KLD-FD7-10-1-230V | 10 | 7% | Side outlet | Provided |
KLD-FD7-15-1-230V | 15 | 7% | Side outlet | Provided |
KLD-FD14-5-1-230V | 5 | 14% | Side outlet | Provided |
KLD-FD14-10-1-230V | 10 | 14% | Side outlet | Provided |
KLD-FD14-15-1-230V | 15 | 14% | Side outlet | Provided |
Three-phase | ||||
KLD-FD7-12.5-400V | 12.5 | 7% | Side outlet | Provided |
KLD-FD7-15-400V | 15 | 7% | Side outlet | Provided |
KLD-FD7-20-400V | 20 | 7% | Side outlet | Provided |
KLD-FD7-25-400V | 25 | 7% | Side outlet | Provided |
KLD-FD7-30-400V | 30 | 7% | Side outlet | Provided |
KLD-FD7-40-400V | 40 | 7% | Side outlet | Provided |
KLD-FD7-50-400V | 50 | 7% | Side outlet | Provided |
KLD-FD7-60-400V | 60 | 7% | Side outlet | Provided |
KLD-FD14-12.5-400V | 12.5 | 14% | Side outlet | Provided |
KLD-FD14-15-400V | 15 | 14% | Side outlet | Provided |
KLD-FD14-20-400V | 20 | 14% | Side outlet | Provided |
KLD-FD14-25-400V | 25 | 14% | Side outlet | Provided |
KLD-FD14-30-400V | 30 | 14% | Side outlet | Provided |
KLD-FD14-40-400V | 40 | 14% | Side outlet | Provided |
KLD-FD14-50-400V | 50 | 14% | Side outlet | Provided |
KLD-FD14-60-400V | 60 | 14% | Side outlet | Provided |
Rated voltage:230~800V,50/60Hz
Output power:5~100kvar
Reactance: 7%, 14% or other reactance
Overload capacity:1.8In
Maximum voltage:1.1Un
Linearity:2.0In
Cooling method:Natural cooling
Insulation between layers:Nomex high-quality insulating paper
Impregnation method:Polyester resin, class H
Insulation level:Winding-iron core 3kV
Over-temperature protection:120°C normally closed contact
Parameter tolerance:±3%
Altitude:Conventional 2,000 meters (customized for higher altitude)
Ambient temperature:-40℃~+45℃(up to +55℃)
Technical standards:Complies with GB1094,VDE0550/0532,IEC76
Single-phase
Capacity(kvar):5
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):10
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):15
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):5
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):10
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):15
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Three-phase
Capacity(kvar):12.5
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):15
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):20
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):25
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):30
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):40
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):50
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):60
Reactance Coefficient:7%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):12.5
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):15
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):20
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):25
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):30
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):40
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):50
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided
Capacity(kvar):60
Reactance Coefficient:14%
Outlet mode:Side outlet
Temperature monitoring:Provided