Decompensate shunt reactor for cempensation of capacitive outputs (Aluminium conductor)

Katalogový list

12,5 – 100,0 kVAr

Provedení: TDAO

SKU: 16A Categories: ,

Description

Reactor is a inductive load that eliminates any undesired capacitor output produced on parasite elements of the distribution system (e.g. Metal-clad HV cables, long open-circuit lines etc.). The reactors comply with the re-quirements of ČSN EN 60 289 and ČSN EN 61 558-2-20 and are intended for 3 × 400 V, 50 Hz networks. The reactors are manufactured with IP00 protection. The reactors are equipped with self resettable thermal switch 250 V / 2,5 A that can be connected to the contactor control circuit. Winding is made by Aluminium conductor. Terminals by Al-Cu cable lugs. Reactors can be designed individually to suit different voltage, with different ca-pacitor powers or other specified parameters.

Type Power Rating Rated Current Inductance Poer Losses (warm) Temperature Rise
Q In L ΔPmax ΔT
[kVAr] [A] [mH] [W] [%] [°C]
TTA 36078-0037 12,5 18,0 40,70 390 2,3 70
TTA 37070-0126 15 21,7 34,00 360 2,4 65
TTA 37070-0127 20 28,9 25,50 440 2,2 75
TTA 370133-0033 25 36,1 20,40 460 1,8 75
TTA 370133-0035 30 43,3 17,00 540 1,8 80
TTA 380140-0162 40 57,7 12,70 730 1,8 85
TTA 310080-0050 50 72,2 10,20 900 1,8 85
TTA 310080-0055 60 86,6 8,49 1030 1,7 85
TTA 3100120-0048 80 115,5 6,37 1000 1,3 85
TTA 3100130-0008 100 144,3 5,10 1300 1,3 85
Type Dimension
[mm]
Cable Lugs
Al-Cu ø
[mm]
Weight
[kg]
A B1 B2 C1 D E F
TTA 36078-0037 360 168 230 330 264 142 11 × 18 8,5 50
TTA 37070-0126 417 175 240 380 280 132 11 × 18 8,5 65
TTA 37070-0127 417 175 240 380 280 132 11 × 18 8,5 75
TTA 370133-0033 417 235 300 380 280 192 11 × 18 10,5 115
TTA 370133-0035 417 235 300 380 280 192 11 × 18 10,5 120
TTA 380140-0162 477 260 340 450 356 214 13 × 20 10,5 155
TTA 310080-0050 600 265 375 550 400 165 13 × 20 13,0 170
TTA 310080-0055 600 265 375 550 400 165 13 × 20 13,0 175
TTA 3100120-0048 600 305 415 550 400 205 13 × 20 13,0 220
TTA 3100130-0008 600 315 425 650 400 215 13 × 20 13,0 270