For ABB DC Speed Governor and Inverter
The line reactor acts as a current limiting device and performs a similar function to the familiar DC choke. The reactor will act as a filter to prevent any unwanted harmonics and other electrical wave fluctuations. When used on the input of the motor control, it acts as a smoothing reactor to increase motor efficiency and extend operating life.
Features
1. All-copper windings, for longer life.
2. Elegant design
3. 50/60 hertz frequency (other frequencies available).
4. Low Noise(less than 60dB)
5. Small volume easy to install and transportation
6. Unique Logo and compatibility with IEC289, GB10229
7. Manufactured under ISO 9001 quality management
Benefits
Protect your motors and motor drives from a variety of power conditioning problems while realizing the following benefits:
Protection from damaging voltage drop .
Elimination of nuisance tripping of drives or circuit breakers.
Reduction of motor current surges and power line spike currents.
Improvement in true power factor of capacitor input drives.
Cooler, quieter operation.
Reduction of harmonic distortion.
Longer life for motors and solid state components.
Function
The total harmonic distortion of variable speed drives produces complex wave shapes such as the phase current shown above. The challenge for today's designers is to effectively minimize these line problems.
A voltage waveform illustrating line notching. Line reactors are used to provide the inductive reactance needed to reduce such notches.
Technical Data of Reactor Compatible to ABB DC Governor
| 3-Phase Line Reactor and Transformer Compatible to ABB DC Governor DCS500 12~1200kW- Auto and Auxiliary 14 ABB (DC500) | |||||||||||
| Rated AC Source Voltage V | Motor Rated Power KW | ABB Thyrister Inverter Model | Rated DC Voltage V | Rated DC Current A | Grid Side Three-Phase Line Reactor | Excitation Unit Model No. | Autotransformer T3 | ||||
| Rated Phase Current A | ABB Ordering No. | HSL Ordering No. | Capacity KVA | ABB Ordering No. | HSL Ordering No. | ||||||
| 3AC 400±10% | 12 | DCS501-0025-41 | 465 415 | 25 | 18 | ND01 | HSL119-B01 | Uprin=500V | |||
| 10 | DCS502-0025-41 | ||||||||||
| 23 | DCS501-0050-41 | 50 | 37 | ND02 | HSL119-B02 | SDCS-FEX-1 | 119 | T301 | HSL432-B01 | ||
| 21 | DCS502-0050-41 | ||||||||||
| 35 | DCS501-0075-41 | 75 | 55 | ND04 | HSL119-B04 | SDCS-FEX-1 | 139 | T302 | HSL432-B02 | ||
| 31 | DCS502-0075-41 | ||||||||||
| 47 | DCS501-0100-41 | 100 | 102 | ND06 | HSL119-B06 | 299 | T303 | HSL432-B03 | |||
| 42 | DCS502-0100-41 | ||||||||||
| 58 | DCS501-0140-41 | 140 | DCF503/4-005 | 331 | T304 | HSL432-B04 | |||||
| DCS502-0140-41 | |||||||||||
| 84 | DCS501-0200-41 | 200 | 184 | ND07 | HSL119-B07 | 696 | T305 | HSL432-B05 | |||
| 83 | DCS502-0200-41 | ||||||||||
| 105 | DCS501-0250-41 | 250 | Uprin=690V | ||||||||
| 104 | DCS502-0250-41 | ||||||||||
| 146 | DCS501-0350-41 | 350 | 245 | ND09 | HSL119-B09 | SDCS-FEX-1 | 677 | T311 | HSL432-B06 | ||
| 145 | DCS502-0350-41 | ||||||||||
| 188 | DCS501-0450-41 | 450 | 367 | ND10 | HSL119-B10 | SDCS-FEX-1 | 1115 | T312 | HSL432-B07 | ||
| 187 | DCS502-0450-41 | ||||||||||
| 219 | DCS501-0520-41 | 520 | 1126 | T313 | HSL432-B08 | ||||||
| 216 | DCS502-0520-41 | ||||||||||
| 326 | DCS501-0700-41 | 700 | 490 | ND12 | HSL119-B12 | DCF503/4-005 | 1855 | T314 | HSL432-B09 | ||
| 291 | DCS502-0700-41 | ||||||||||
| 419 | DCS501-0900-41 | 900 | 698 | ND13 | HSL119-B13 | 1859 | T315 | HSL432-B10 | |||
- Reactor for ABB
- Line reactor
- Single Reactor
- Dry Reactor
