BY95-ASVGC Hybrid dynamic filtering compensation device
Product Introduction
Structure diagram
-
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
In the ASVGC scheme
SVG Centralized Compensation Capacity Selection Query Table
Transformer |
Reactive power |
Extended |
SVG module |
Co complementary |
Dividing and |
315kVA |
100kVA |
Expansion |
BY91-SVG- |
BY-C- |
BY-S- |
500kVA |
200kVA |
BY91-SVG- |
BY-C- |
BY-S- |
|
630kVA |
250kVA |
BY91-SVG- |
BY-C- |
BY-S- |
|
800kVA |
300kVA |
BY91-SVG- |
BY-C- |
250-30×2 |
|
1000kVA |
350kVA |
BY91-SVG- |
BY-C- |
BY-S- |
|
1250kVA |
450kVA |
BY91-SVG- |
BY-C- |
BY-S- |
|
1600kVA |
550kVA |
BY91-SVG- |
BY-C- |
BY-S- |
|
2000kVA |
700kVA |
BY91-SVG- |
BY-C- |
BY-S- |
|
2500kVA |
900kVA |
BY91-SVG- |
BY-C- |
BY-S- |