Specifications
P450 P500 P560 P630 P710 P800 P1M0
Normal Overload =110% current
for 60 seconds
NO NO NO NO NO NO NO
Typical Shaft output at 400 V [kW] 450 500 560 630 710 800 1000
Typical Shaft output at 460 V [hp] 600 700 750 900 1000 1200 1350
Enclosure IP00 E2
Enclosure IP21/NEMA 1 E1 F1/F3 F1/F3 F1/F3 F1/F3 F2/F4 F2/F4
Enclosure IP54/NEMA 12 E1 F1/F3 F1/F3 F1/F3 F1/F3 F2/F4 F2/F4
Output current
Continuous (at 3x380-440 V) [A] 800 880 990 1120 1260 1460 1720
Intermittent (at 3x380-440 V) [A] 880 968 1089 1232 1386 1606 1892
Continuous (at 3x441-480 V) [A] 730 780 890 1050 1160 1380 1530
Intermittent (at 3x441-480 V) [A] 803 858 979 1155 1276 1518 1683
Continuous kVA (at 400 V AC)
[kVA]
554 610 686 776 873 1012 1192
Continuous kVA (at 460 V AC)
[kVA]
582 621 709 837 924 1100 1219
Max. Input current
Continuous (3 x 380-440 V) [A] 787 857 964 1090 1227 1422 1675
Continuous (3 x 441-480 V) [A] 718 759 867 1022 1129 1344 1490
Max. pre-fuses
1)
[A]
900 1600 2000 2500
Max. cable size
Motor (mm
2
/AWG
2)
)
4 x 240
4 x 500 mcm
8 x 150
8 x 300 mcm
12 x 150
12 x 300 mcm
Mains (mm
2
/AWG
2)
)
8 x 240
8 x 500 mcm
Loadsharing (mm
2
/AWG
2)
)
4 x 120
4 x 350 mcm
Brake (mm
2
/AWG
2)
)
2 x 185
2 x 350 mcm
4 x 185
4 x 350 mcm
6 x 185
6 x 350 mcm
Estimated power loss at 400 V AC
at rated max load [W]
3)
9473 10162 11822 12512 14674 17293 19278
Estimated power loss at 460 V AC
at rated max load [W]
3)
8527 8876 10424 11595 13213 16229 16624
Weight, enclosure IP00/IP20 kg
[bs.]
277 [609]
--
-
--
-
Weight, enclosure IP21 kg [lbs.] 313 [689] 1017/1318 [2237/2900] 1260/1561
[2772/3434]
Weight, enclosure IP54 kg [lbs.] 313 [689] 1017/1318 [2237/2900] 1260/1561
[2772/3434]
Efficiency
4)
0.98
Output frequency [Hz] 0–590
Heatsink overtemp. trip [°C] 110 95
Power card ambient trip [°C] 85
Table 8.2 Mains Supply 3x380-480 V AC
1) For type of fuse, consult the Operating Instructions.
2) American Wire Gauge.
3) The typical power loss is at normal conditions and expected to be within
±
15% (tolerance relates to variety in voltage and cable conditions.)
These values are based on a typical motor efficiency (IE2/IE3 border line). Lower efficiency motors add to the power loss in the frequency
converter and the opposite is also true. If the switching frequency is raised from nominal, the power losses rise significantly. LCP and typical
control card power consumptions are included. Further options and customer load can add up to 30 W to the losses (though typically only 4 W
extra for a fully loaded control card or options for slot A or slot B, each).
4) Measured using 5 m screened motor cables at rated load and rated frequency.
5) Wiring terminals on N132, N160, and N315 frequency converters cannot receive cables one size larger.
General Specifications and ... VLT® HVAC Drive FC 102 Design Guide
184 MG16C102 - Rev. 2013-08-20
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