English
Leave Your Message

BY95-ASVGC Hybrid dynamic filtering compensation device

"BY95-ASVGC Hybrid dynamic filtering compensation device" is a hybrid dynamic filtering compensation device used in power systems. It uses advanced hybrid dynamic filtering technology to effectively suppress harmonics and clutter in the power system and improve power quality. The device combines dynamic filtering and compensation technology, which can monitor harmonics and clutter in the power system in real time and respond quickly to compensate, thereby ensuring the stable operation of the power system. It has the characteristics of high efficiency, reliability, and self-adaptation. It is suitable for various power system environments and is an important device for improving the quality and stability of the power system.

    Product Introduction

    BY95-ASVGC hybrid dynamic filter compensation device is a cutting-edge technology designed to improve the power quality of power systems. This innovative device uses advanced hybrid dynamic filtering technology to effectively suppress harmonics and clutter in the power system and ensure stable and reliable power supply. BY95-ASVGC is a game changer in power system optimization due to its superior performance and efficiency.

    This hybrid dynamic filtering and compensation device is designed to solve the challenges related to power quality in modern power grids. BY95-ASVGC uses its dynamic filtering function to effectively reduce harmonic distortion and reduce voltage fluctuations, thereby improving overall power quality. Its ability to compensate for reactive power and regulate voltage levels makes it an indispensable asset for industrial and utility companies seeking to optimize their power infrastructure.

    One of the key features of the BY95-ASVGC is its versatility and adaptability to different power system configurations. Whether deployed in an industrial facility, commercial building or utility substation, the device integrates seamlessly into the existing power network to provide consistent, reliable performance. Its dynamic filtering function enables it to adapt to different load conditions and ensure the best power quality in dynamic operating scenarios.

    BY95-ASVGC is also equipped with advanced control algorithms and monitoring capabilities that can evaluate and adjust power system parameters in real time. This proactive approach to power quality management enables operators to identify and resolve potential issues before they escalate, minimizing downtime and maximizing operational efficiency.

    BY95-ASVGC hybrid dynamic filter compensation device represents a major advancement in power system optimization. Its ability to effectively suppress harmonics, regulate voltage and compensate for reactive power makes it a valuable tool for improving power quality in a variety of applications. With advanced technology and adaptive capabilities, BY95-ASVGC sets a new standard for reliable, efficient power system performance.

    Structure diagram

    • BY95-ASVGC Hybrid dynamic filtering compensation device detail (3)huh
    • ASVGC system composition=Controller (lCMS)+SVG module+General LC

      CMS Integrated Control and Monitoring System

      Set the working mode and related parameters of LC and SVG Real time display of power information, data before and after compensation,waveform diagram, control and monitoring SVG+LC working state transition

      Equipped with eighteen lO ports, flexibly implementing different SVG+LC combination modes

      SVG module

      Quickly respond to system reactive power changes and respond to L Reactive compensation for over or under compensation of C to 0.99 to achieve zero pole switching and compensate for rapid changes in reactive power

      General LC

      Compensate for most stable and less variable reactive power of the load

    Product Features

    BY95-ASVGC Hybrid dynamic filtering compensation device detail (2)lzr

    In the ASVGC scheme

    LC for staged switching compensation 
    SVG module for blind spot coverage, achieving stepless switching

    SVG Centralized Compensation Capacity Selection Query Table

    Transformer
    capacity

    Reactive power
    compensation capacity
    (cosΦ=0.7)

    Extended
    System

    SVG module

    Co complementary
    LC module

    Dividing and
    supplementing
    LC module

    315kVA

    100kVA

    Expansion
    of reactive
    power
    compensation
    capacitors

    BY91-SVG-
    380-30×1

    BY-C-
    450-30×2

    BY-S-
    250-30×1

    500kVA

    200kVA

    BY91-SVG-
    380-50×1

    BY-C-
    450-30×3

    BY-S-
    250-30×2

    630kVA

    250kVA

    BY91-SVG-
    380-50×1

    BY-C-
    450-50×3

    BY-S-
    250-30×2

    800kVA

    300kVA

    BY91-SVG-
    380-50×1

    BY-C-
    450-50×4

    250-30×2

    1000kVA

    350kVA

    BY91-SVG-
    380-70×1

    BY-C-
    450-50×5

    BY-S-
    250-30×2

    1250kVA

    450kVA

    BY91-SVG-
    380-70×1

    BY-C-
    450-100×3

    BY-S-
    250-30×3

    1600kVA

    550kVA

    BY91-SVG-
    380-100×1

    BY-C-
    450-100×3

    BY-S-
    250-50×3

    2000kVA

    700kVA

    BY91-SVG-
    380-100×2

    BY-C-
    450-100×4

    BY-S-
    250-50×3

    2500kVA

    900kVA

    BY91-SVG-
    380-100×2

    BY-C-
    450-100×5

    BY-S-
    250-50×4

    BY95-ASVGC Hybrid dynamic filtering compensation device detail (1)3g1

    Leave Your Message