BANNERxiao

Static Var Generator (SVG)— Three Phase

  • Static Var Generator(SVG-10-0.4-4L-R)

    Static Var Generator(SVG-10-0.4-4L-R)

    Static var generators (SVG) Static Var Generators (SVGs) are devices used in electrical power systems to control voltage, power factor and stabilize the system. They are a type of Static Synchronous Compensator (STATCOM) that use a voltage source converter to inject reactive power into the grid. SVGs are able to provide fast-acting reactive power compensation, which improve power quality and help to prevent voltage instability. SVGs are commonly used in industrial plants, wind farms and other applications where reactive power compensation is required. It is a reliable and efficient solution for maintaining the stability and quality of electrical power systems.
    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50us
    - Modular design
    Rated  reactive power compensation Capacity10Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Rack-mounted
  • Static Var Generator(SVG-50-0.4-4L-R)

    Static Var Generator(SVG-50-0.4-4L-R)

    Excessive reactive power in a power grid can have detrimental effects on its stability and efficiency. Reactive power is needed to maintain voltage levels, but an excess of it can lead to increased line losses, voltage drops, and lower overall system efficiency. This can result in higher energy consumption, increased costs, and decreased reliability.

    To mitigate these issues, static reactive power generators can be employed. These devices are capable of injecting or absorbing reactive power as needed, effectively balancing the grid and improving its power factor. By managing reactive power, static reactive power generators enhance the stability and efficiency of the power grid, ensuring a reliable power supply while minimizing losses and costs.

     

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50ms
    - Modular design
    Rated  reactive power compensation Capacity50Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Rack-mounted
  • Static Var Generator(SVG-35-0.4-4L-W)

    Static Var Generator(SVG-35-0.4-4L-W)

    The power grid relies on the installation of static reactive power generators in factories to address reactive power issues. Industrial facilities often operate machinery and equipment with high reactive power demands, resulting in a low power factor. This inefficient power factor can lead to power losses and an increased strain on the grid. By installing static reactive power generators, factories can inject or absorb reactive power as required, balancing the grid and improving power factor. This enhances energy efficiency, reduces electricity costs, and ensures a stable power supply. The active management of reactive power by factories contributes to overall grid reliability and smooth operations.

     

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50us
    - Modular design
    Rated  reactive power compensation Capacity35Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Wall-mounted
  • Static Var Generator(SVG-50-0.4-4L-W)

    Static Var Generator(SVG-50-0.4-4L-W)

    Excessive reactive power in a power grid can have detrimental effects on its stability and efficiency. Reactive power is needed to maintain voltage levels, but an excess of it can lead to increased line losses, voltage drops, and lower overall system efficiency. This can result in higher energy consumption, increased costs, and decreased reliability.

    To mitigate these issues, static reactive power generators can be employed. These devices are capable of injecting or absorbing reactive power as needed, effectively balancing the grid and improving its power factor. By managing reactive power, static reactive power generators enhance the stability and efficiency of the power grid, ensuring a reliable power supply while minimizing losses and costs.

     

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50ms
    - Modular design
    Rated  reactive power compensation Capacity50Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Wall-mounted
  • Static Var Generator(SVG-75-0.4-4L-R)

    Static Var Generator(SVG-75-0.4-4L-R)

    Static VAR generators play a vital role in maintaining power system stability by supplying or absorbing reactive power on demand. It helps regulate voltage levels and improves the power factor of the system. On the other hand, excessive reactive power can have harmful effects on equipment. It causes increased line losses, causing voltage drops and reducing the efficiency of the power system. Over time, this excess reactive power can damage equipment such as transformers and motors due to overheating and increased insulation stress. Therefore, static VAR generators are crucial to avoid these harmful consequences and ensure reliable and efficient power supply.

     

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50ms
    - Modular design
    Rated  reactive power compensation Capacity75Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Rack-mounted
  • Static Var Generator(SVG-75-0.4-4L-W)

    Static Var Generator(SVG-75-0.4-4L-W)

    Static VAR generators play a vital role in maintaining power system stability by supplying or absorbing reactive power on demand. It helps regulate voltage levels and improves the power factor of the system. On the other hand, excessive reactive power can have harmful effects on equipment. It causes increased line losses, causing voltage drops and reducing the efficiency of the power system. Over time, this excess reactive power can damage equipment such as transformers and motors due to overheating and increased insulation stress. Therefore, static VAR generators are crucial to avoid these harmful consequences and ensure reliable and efficient power supply.

     

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50ms
    - Modular design
    Rated  reactive power compensation Capacity50Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Wall-mounted
  • Static Var Generator(SVG-100-0.4-4L-W)

    Static Var Generator(SVG-100-0.4-4L-W)

    Static VAR generators play a vital role in maintaining power system stability by supplying or absorbing reactive power on demand. It helps regulate voltage levels and improves the power factor of the system. On the other hand, excessive reactive power can have harmful effects on equipment. It causes increased line losses, causing voltage drops and reducing the efficiency of the power system. Over time, this excess reactive power can damage equipment such as transformers and motors due to overheating and increased insulation stress. Therefore, static VAR generators are crucial to avoid these harmful consequences and ensure reliable and efficient power supply.

     

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50ms
    - Modular design
    Rated  reactive power compensation Capacity100Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Wall-mounted
  • Static Var Generator Cabinet (50Kvar-300Kvar)

    Static Var Generator Cabinet (50Kvar-300Kvar)

    The advantages of a static VAR generator (SVG) cabinet include improved power factor correction, voltage stability, and enhanced power quality. It also offers fast response time, compact size for space efficiency, and lower maintenance requirements. The SVG cabinet helps maximize energy efficiency by adjusting reactive power output, reduces voltage fluctuations, and ensures stable power supply. Additionally, it contributes to reduced equipment failures by managing harmonics and improves the overall reliability and operational efficiency of power systems.

     

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50ms
    - Modular design
    Rated  reactive power compensation Capacity50Kvar ; 100Kvar ; 200Kvar ; 250Kvar ; 300Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Rack-mounted
  • Static Var Generator Cabinet (50Kvar-400Kvar)

    Static Var Generator Cabinet (50Kvar-400Kvar)

    The advantages of a static VAR generator (SVG) cabinet include improved power factor correction, voltage stability, and enhanced power quality. It also offers fast response time, compact size for space efficiency, and lower maintenance requirements. The SVG cabinet helps maximize energy efficiency by adjusting reactive power output, reduces voltage fluctuations, and ensures stable power supply. Additionally, it contributes to reduced equipment failures by managing harmonics and improves the overall reliability and operational efficiency of power systems.

     

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50ms
    - Modular design
    Rated  reactive power compensation Capacity50Kvar ; 100Kvar ; 200Kvar ; 250Kvar ; 300Kvar; ;400Kvar ; 270Kvar(500V) ; 360Kvar (690V)
    Nominal voltage:AC400V(-40%~+15%) ; 500V(-20%~+15%) ; 690V(-20%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Rack-mounted
  • Static Var Generator(SVG-10-0.4-4L-W)

    Static Var Generator(SVG-10-0.4-4L-W)

    Static VAR generators play a vital role in factories by managing power factor correction. In industrial environments, equipment such as motors, transformers, and fluorescent lamps may introduce reactive power, resulting in poor power factor. Static reactive generators inject or absorb reactive power to balance the system, thereby improving power factor and overall electrical efficiency. By maintaining a power factor close to unity, these generators can optimize energy use, reduce power costs and improve the performance of industrial machinery. This helps prevent equipment from overheating, reduces power losses, and ensures a stable and reliable power supply, ultimately increasing productivity and reducing plant downtime.

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50us
    - Modular design
    Rated  reactive power compensation Capacity10Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Wall-mounted
  • Static Var Generator(SVG-15-0.4-4L-R)

    Static Var Generator(SVG-15-0.4-4L-R)

    The power grid requires factories to install static reactive power generators to solve the problem of poor power factor. Industrial facilities often have a high demand for reactive power due to the presence of equipment such as motors and transformers. The reactive power generated by these devices causes a reduction in power factor, resulting in inefficiencies and increased power losses. By installing static reactive generators, plants can inject or absorb reactive power as needed to balance the system and improve power factor. This helps optimize energy usage, reduce electricity costs and ensure a stable and reliable power supply. By actively managing reactive power, plants help improve the overall efficiency and reliability of the grid.

     

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50us
    - Modular design
    Rated  reactive power compensation Capacity15Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Rack-mounted
  • Static Var Generator(SVG-15-0.4-4L-W)

    Static Var Generator(SVG-15-0.4-4L-W)

    Static VAR generators play a vital role in factories by managing power factor correction. In industrial environments, equipment such as motors, transformers, and fluorescent lamps may introduce reactive power, resulting in poor power factor. Static reactive generators inject or absorb reactive power to balance the system, thereby improving power factor and overall electrical efficiency. By maintaining a power factor close to unity, these generators can optimize energy use, reduce power costs and improve the performance of industrial machinery. This helps prevent equipment from overheating, reduces power losses, and ensures a stable and reliable power supply, ultimately increasing productivity and reducing plant downtime.

    - No over compensation, no under compensation, no resonance
    - Reactive power compensation effect
    - PF0.99 level reactive power compensation
    - Three-phase unbalance compensation
    - Capacitive inductive load-1~1
    - Real-time compensation
    - Dynamic response time less than 50us
    - Modular design
    Rated  reactive power compensation Capacity15Kvar
    Nominal voltage:AC400V(-40%~+15%)
    Network: 3 phase 3 wire/3 phase 4 wire
    Installation:Wall-mounted
12 Next > >> Page 1 / 2