SVC Drivers
SVC Drivers are control devices that activate the power of the single-phase shunt reactors at the desired level. This enables precise compensation even under extreme conditions.
In the Smart SVC system, shunt reactors can be set in 1000 steps each by triggering their power at certain angles via thyristors. SVC Drivers are designed to drive 3 single-phase shunt reactors. In this way, the power of these reactors, each of which is connected to a separate phase, is controlled independently and to provide the desired power.
SVC Drivers
SVC Drivers are control devices that activate the power of the single-phase shunt reactors at the desired level. This enables precise compensation even under extreme conditions.
In the Smart SVC system, shunt reactors can be set in 1000 steps each by triggering their power at certain angles via thyristors. SVC Drivers are designed to drive 3 single-phase shunt reactors. In this way, the power of these reactors, each of which is connected to a separate phase, is controlled independently and to provide the desired power.
Product Detail
Product Code | Product Name | Product Description | Max. Shunt Reactor Power | Voltage (V) | Nominal Cable Cross Section (mm2) | Nominal Fuse Current (A) | Dimensions(mm) (Width-Height-Depth) |
---|---|---|---|---|---|---|---|
GA2101 | SVC 5 | 5 kVAr SVC Driver | 3xSRM 1.5 (230V) | 230 | 2.5 | 16 | 106x101x83 |
GA2102 | SVC 10 | 10 kVAr SVC Driver | 3xSRM 3.0 (230V) | 230 | 4 | 25 | 106x150x83 |
GA2103 | SVC 20 | 20 kVAr SVC Driver | 3xSRM 7.5 (230V) | 230 | 10 | 50 | 165x160x134 |
GA2104 | SVC 30* | 30 kVAr SVC Driver | 3xSRM 10.0 (230V) | 230 | 16 | 80 | 165x200x144 |
*For larger powers, the solutions can be connected in parallel with up to 3 drivers.
NC (Normally closed) thermal control is available for models 20 and 30 kVA