Mains Supply; Motor Output And Motor Data; Motor Output (U, V, W) - Danfoss D9h Operating Manual

VLT® AutomationDrive FC 302
Operating Guide
FC 302
- Mains with contactor [mm
2
- Motor [mm (AWG)]
Drive module power loss at 600 V [W]
Drive module power loss at 690 V [W]
Drive efficiency
(2)
Output frequency [Hz]
(4)
Heat sink overtemperature trip [°C (°F)]
Control card overtemperature trip [°C (°F)]
PHF overtemperature trip [°C (°F)]
Line reactor overtemperature trip [°C (°F)]
dU/dt filter overtemperature trip [°C (°F)]
Sine-wave filter overtemperature trip [°C (°F)]
1 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 to dimension-
ing 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-direc-
tive/#/. 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.
Measured using 5 m (16.4 ft) shielded motor cables at rated load and rated frequency. Efficiency measured at nominal current. For energy efficien-
2
cy class, see the Ambient Conditions section. For part load losses, see drives.danfoss.com/knowledge-center/energy-efficiency-directive/#/.
See also Input Power Option Losses section.
3
If using an output filter, the output frequency is limited further. See
4

10.2 Mains Supply

The unit is suitable for use on a circuit capable of delivering not more than 65 kA short circuit current rating (SCCR) at 480/600 V.
Supply terminals
Supply voltage
(1)
Supply frequency
Maximum imbalance temporary between mains phases
True power factor (λ)
Displacement power factor (cos Φ)
Switching on the input supply L1, L2, and L3 (power-ups)
Environment according to EN 60664-1
Mains voltage low/mains dropout: During low mains voltage or a mains dropout, the drive continues until the DC-link voltage drops below the
1
minimum stop level, which corresponds typically to 15% below the drive's lowest rated supply voltage. Power-up and full torque cannot be expec-
ted at mains voltage lower than 10% below the drive's lowest rated supply voltage.
Calculations based on UL/IEC 61800-3.
2

10.3 Motor Output and Motor Data

10.3.1 Motor Output (U, V, W)

Output voltage
Danfoss A/S © 2021.10
2
(AWG)]
(1)(2)(3)
(1)(2)(3)
N560
4x127 (4x250 mcm) 4x185 (4x350 mcm)
4x127 (4x250 mcm) 4x185 (4x350 mcm)
8069 9208
7848 8921
0.98
0–590
110 (230)
80 (176)
150 (302)
150 (302)
150 (302)
150 (302)
10.3.1 Motor Output (U, V, W).
Overvoltage category III/pollution degree 2
Specifications
N630 N710
4x185 (4x350 mcm)
4x185 (4x350 mcm)
8543 10346 10319
8363 10066 10060
0.98
0–590 0–590
110 (230) 110 (230)
80 (176) 80 (176)
150 (302) 150 (302)
150 (302) 150 (302)
150 (302) 150 (302)
150 (302) 150 (302)
380–480/500 V ±10%, 525–690 V ±10%
50/60 Hz ±5%
3.0% of rated supply voltage
≥0.9 nominal at rated load
Near unity (>0.98)
Maximum 1 time/2 minutes
0–100% of supply voltage
AQ262139143212en-000301 / 130R0879 | 171
12723
12321
0.98
L1, L2, L3
(2)