N500
N560
Normal overload
NO
NO
(Normal overload=110% current during 60 s)
Typical shaft output at 400 V [kW]
500
560
Typical shaft output at 460 V [hp]
650
750
Typical shaft output at 480 V [kW]
560
630
Enclosure size
E2h/E4h
E2h/E4h
Output current (3-phase)
Continuous (at 400 V) [A]
880
990
Intermittent (60 s overload)
(at 400 V) [A]
968
1089
Continuous (at 460/480 V) [A]
780
890
Intermittent (60 s overload)
(at 460/480 V) [A]
858
979
Continuous kVA (at 400 V) [kVA]
610
686
Continuous kVA (at 460 V) [kVA]
621
709
Continuous kVA (at 480 V) [kVA]
675
771
Maximum input current
Continuous (at 400 V) [A]
848
954
Continuous (at 460/480 V) [A]
752
848
Maximum number and size of cables per phase (E2h)
- Mains and motor without brake [mm
2
(AWG)]
1)
6x240 (6x500 mcm)
6x240 (6x500 mcm)
- Mains and motor with brake [mm
2
(AWG)]
1)
5x240 (5x500 mcm)
5x240 (5x500 mcm)
- Brake or regeneration [mm
2
(AWG)]
1)
2x185 (2x350 mcm)
2x185 (2x350 mcm)
Maximum number and size of cables per phase (E4h)
- Mains and motor [mm
2
(AWG)]
1)
6x240 (6x500 mcm)
6x240 (6x500 mcm)
- Brake [mm
2
(AWG)]
1)
2x185 (2x350 mcm)
2x185 (2x350 mcm)
- Load share or regeneration [mm
2
(AWG)]
1)
4x185 (4x350 mcm)
4x185 (4x350 mcm)
Maximum external mains fuses [A]
2)
1200
1200
Estimated power loss at 400 V [W]
3), 4
9473
11102
Estimated power loss at 460 V [W]
3), 4
7809
9236
Efficiency
4)
0.98
0.98
Output frequency
0–590 Hz
0–590 Hz
Heat sink overtemperature trip [
°
C (
°
F)]
110 (230)
100 (212)
Control card overtemperature trip [
°
C (
°
F)]
80 (176)
80 (176)
Power card overtemperature trip [
°
C (
°
F)]
85 (185)
85 (185)
Fan power card overtemperature trip [
°
C (
°
F)]
85 (185)
85 (185)
Active in-rush card overtemperature trip [
°
C (
°
F)]
85 (185)
85 (185)
Table 9.2 Technical Specifications, Mains Supply 3x380–480 V AC
1) American Wire Gauge.
2) For fuse ratings, see chapter 9.7 Fuses.
3) 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 (IE/IE3 border line). Lower efficiency motors add to the power loss in the drive. Applies for
dimensioning of drive cooling. If the switching frequency is higher than the default setting, the power losses can increase. LCP and typical control
card power consumptions are included. For power loss data according to EN 50598-2, refer to drives.danfoss.com/knowledge-center/energy-
efficiency-directive/#/. Options and customer load can add up to 30 W to the losses, though usually a fully loaded control card and options for
slots A and B each add only 4 W.
4) Measured using 5 m (16.4 ft) shielded motor cables at rated load and rated frequency. Efficiency measured at nominal current. For energy
efficiency class, see chapter 9.4 Ambient Conditions. For part load losses, see drives.danfoss.com/knowledge-center/energy-efficiency-directive/#/.
Specifications
VLT® Refrigeration Drive FC 103
80
Danfoss A/S © 04/2018 All rights reserved.
MG16P222
9
9
