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BY81 Series intelligent capacitors
Product Introduction
BY81 series smart capacitors, these capacitors are composed of two (Y-shaped) or one (Y-shaped) low-voltage power capacitors, equipped with microelectronic software and hardware technology, micro-sensor technology, micro-network technology, and electrical manufacturing technology. The integration of these innovations achieves intelligence, miniaturization, and modularization, marking a major breakthrough in automatic reactive power compensation technology for low-voltage power grids.
The integration of microelectronics software and hardware technology gives the BY81 series smart capacitors the ability to operate intelligently. This intelligence enables them to adapt to different grid conditions, thereby optimizing reactive power compensation. Furthermore, the miniaturization and modular aspects of these capacitors paves the way for enhanced flexibility and space utilization within low-voltage grid systems.
One of the main features of the BY81 series of smart capacitors is the use of micro-sensor technology. The technology enables capacitors to collect real-time data on grid parameters, enabling precise and dynamic reactive power compensation. In addition, the combination of microgrid technology can achieve seamless communication and coordination between capacitors, ensuring synchronous and efficient operation within the grid.
The BY81 series of smart capacitors represents a paradigm shift in electrical manufacturing technology. Its advanced manufacturing process results in capacitors with higher reliability, durability and performance. This improves the operational stability and service life of the low-voltage grid system, thereby increasing overall grid efficiency.
BY81 series smart capacitors create a new era of automatic reactive power compensation technology for low-voltage power grids. Its intelligent, miniaturized and modular design, combined with the most advanced technological achievements, redefines the pattern of power grid management. These capacitors continue to revolutionize the low-voltage grid sector, and they are testament to electrical engineering's relentless pursuit of innovation and excellence.
Appearance and installation dimensions
Outline dimensional drawing |
Compensation method |
Model |
H(mm) |
|
Three-phase |
BY81JS/450-30+30 |
330 |
BY81JS/450-25+25 |
310 |
||
BY81JS/450-20+20 |
310 |
||
BY81JS/450-20+15 |
310 |
||
BY81JS/450-20+10 |
310 |
||
BY81JS/450-15+15 |
270 |
||
BY81JS/450-15+10 |
270 |
||
BY81JS/450-15+5 |
270 |
||
BY81JS/450-10+10 |
240 |
||
BY81JS/450-10+5 |
240 |
||
BY81JS/450-5+5 |
240 |
||
BY81JS/450-2.5+2.5 |
240 |
||
Three-phase compensation |
BY81JF/250-30 |
310 |
|
BY81JF/250-25 |
270 |
||
BY81JF/250-20 |
270 |
||
BY81JF/250-15 |
240 |
||
BY81JF/250-10 |
240 |
||
BY81JF/250-5 |
240 |
Product terminal diagram
-
Three-phase compensation
-
Split phase compensation