Products & Solutions
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Products & Solutions
A novel parallel reactor is connected to the power system in a parallel configuration to compensate for capacitive reactive power in the transmission and distribution system.
The smoothing reactor is connected in series with the DC high-voltage line, acting as both part of the converter station and a back-to-back interconnection between different
The converter reactor is located between the flexible DC converter valve and the connecting transformer. It can be installed on either the DC side or the AC side of the converter valve.
The PLC reactor is a key component for noise filtering, typically installed on the AC or DC side of a converter station. It effectively filters out high-frequency harmonics, preventing interference
Shunt reactors are connected in parallel with the power system. Shunt reactors compensate for capacitive VARs present on lightly loaded transmission lines or underground cables.
A current-limiting reactor is connected in series with the power system. Its purpose is to reduce the short-circuit current resulting from factory expansion and increased power supply
Thyristor-controlled reactor [TCR] is a reactor connected in series with a bidirectional thyristor valve. The thyristor valve is phase-controlled and can adjust the reactive power output
Filtering reactors can be connected in parallel or series with capacitor banks. The resulting tuned circuit reduces harmonic currents and controls the amplitude of ripple currents.
Neutral Grounding Reactor Up to 66 kV Operating Conditions Location: Indoor or Outdoor Ambient temperature: -40℃~+50℃ (as per customer requirements) Altitude: ≤3000 meters
Experimental reactors are installed in high-voltage and high-power laboratories. Typical applications include: current limiting, circuit breaker synthetic testing, inductive energy storage,
The damping reactor is connected in series with one or more capacitor banks. Its purpose is to limit the switching surge current of the capacitors, while also being able to withstand the
The line traps are connected in series with the high-voltage and ultra-high-voltage AC power lines. Its design purpose is to introduce high impedance in the carrier frequency range
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