English 
| Rated capacitor: | |
|---|---|
| phase: | |
CKSG
Giantele
IP00
GB19212.1 GB19212.21 GB1094.6
0.4-1.14kV
1A to 1500A
50/60hz
Three/Single
1 piece
0.35-7.0kvar
Overview
The CKSG series reactors are meticulously engineered as three-phase, dry-type series reactors for low-voltage power systems. These reactors are primarily integrated with low-voltage capacitors within low-voltage capacitor compensation cabinets. Their deployment is pivotal for achieving harmonic control, enhancing power factors, and elevating the overall quality of power within electrical networks. Adhering to stringent electrical standards, these reactors stand out for their exceptional reliability and stability across diverse power system applications.
Main technical indicators
Can be used in 0.4KV, 0.45KV, 0.48KV, 0.525KV, 0.66KV, 0.69KV, 1.14KV;
Types of reactance rate: 1%, 4.5%, 5.6%, 6%, 7%, 12%, 13%, 14%;
Withstand voltage level: 3KV/min, insulation level: Level B, F, H, noise<50dB, overload capacity<1.35 times continuous operation;
Overview
Product Features
Harmonic Control: The reactors are adept at absorbing network harmonics, mitigating the negative impact on both the power system and its associated electrical components. This capability is crucial for maintaining the power system's operational stability.
Power Factor Improvement: By working in synergy with low-voltage capacitors, these reactors play a significant role in boosting the network's power factor. This not only reduces energy wastage but also optimizes the utilization of electricity.
Power Quality Enhancement: Adjusting the reactor values contributes significantly to the improvement of voltage stability and electricity quality within the network. This ensures the provision of a more stable and superior quality power supply to end-users.
Flexible K Value Selection: The reactors offer a selection of reactance rate K values (ranging from 0.5% to 1%), catering to various system requirements for inrush current limitation and harmonic control. This flexibility enhances the adaptability of the reactors to different power system conditions.
Durability in Harsh Environments: Designed to withstand adverse environmental conditions, including a broad spectrum of temperatures, these reactors assure unwavering reliability and stability, even under extreme circumstances.
Durability in Harsh Environments: Designed to withstand adverse environmental conditions, including a broad spectrum of temperatures, these reactors assure unwavering reliability and stability, even under extreme circumstances.
Overview
The CKSG series reactors are meticulously engineered as three-phase, dry-type series reactors for low-voltage power systems. These reactors are primarily integrated with low-voltage capacitors within low-voltage capacitor compensation cabinets. Their deployment is pivotal for achieving harmonic control, enhancing power factors, and elevating the overall quality of power within electrical networks. Adhering to stringent electrical standards, these reactors stand out for their exceptional reliability and stability across diverse power system applications.
Main technical indicators
Can be used in 0.4KV, 0.45KV, 0.48KV, 0.525KV, 0.66KV, 0.69KV, 1.14KV;
Types of reactance rate: 1%, 4.5%, 5.6%, 6%, 7%, 12%, 13%, 14%;
Withstand voltage level: 3KV/min, insulation level: Level B, F, H, noise<50dB, overload capacity<1.35 times continuous operation;
Overview
Product Features
Harmonic Control: The reactors are adept at absorbing network harmonics, mitigating the negative impact on both the power system and its associated electrical components. This capability is crucial for maintaining the power system's operational stability.
Power Factor Improvement: By working in synergy with low-voltage capacitors, these reactors play a significant role in boosting the network's power factor. This not only reduces energy wastage but also optimizes the utilization of electricity.
Power Quality Enhancement: Adjusting the reactor values contributes significantly to the improvement of voltage stability and electricity quality within the network. This ensures the provision of a more stable and superior quality power supply to end-users.
Flexible K Value Selection: The reactors offer a selection of reactance rate K values (ranging from 0.5% to 1%), catering to various system requirements for inrush current limitation and harmonic control. This flexibility enhances the adaptability of the reactors to different power system conditions.
Durability in Harsh Environments: Designed to withstand adverse environmental conditions, including a broad spectrum of temperatures, these reactors assure unwavering reliability and stability, even under extreme circumstances.
Durability in Harsh Environments: Designed to withstand adverse environmental conditions, including a broad spectrum of temperatures, these reactors assure unwavering reliability and stability, even under extreme circumstances.
