Continuous (3x551–690 V) [A]
Intermittent (60 s) (3x551–690 V) [A]
Continuous kVA at 550 V [kVA]
Continuous kVA at 690 V [kVA]
Intermittent (60 s overload) (3x525–550 V) [A]
Continuous (3x551–690 V) [A]
Intermittent (3x551–690 V) [A]
Maximum cable cross–section
(2)
for mains, motor, brake, and
load sharing [mm
2
(AWG)]
Maximum cable cross–section
()
for mains disconnect [mm
2
(AWG)]
Estimated power loss
(3)
at rated maximum load [W]
(4)
1
High overload=150% or 160% torque for a duration of 60 s. Normal overload=110% torque for a duration of 60 s.
2
The 3 values for the maximum cable cross-section are for single core, exible wire, and exible wire with sleeve, respectively.
3
Applies for dimensioning of drive cooling. If the switching frequency is higher than the default setting, the power losses may increase. LCP and
typical control card power consumptions are included. For more detailed eciency values and part load losses according IEC/EN 61800-9-2 refer to
mydrive ecosmart on
www. danfoss.com. For eciency class see 8.4.1 Environment.
4
Eciency measured at nominal current. For more detailed eciency values and part load losses according IEC/EN 61800-9-2 refer to mydrive ecos-
mart on
www. danfoss.com. For eciency class see 8.4.1 Environment.
5
Measured using 5 m (16 ft) shielded motor cables at rated load and rated frequency. For more detailed eciency values and part load losses ac-
cording IEC/EN 61800-9-2 refer to mydrive ecosmart on
www. danfoss.com. For eciency class see 8.4.1 Environment.
Table 41: Enclosure, Mains Supply 3x525–690 V AC IP20/IP21/IP55 – Chassis/NEMA1/NEMA 12, P37K–P75K
Typical shaft output at 550 V [kW]
Typical shaft output at 550 V [hp]
Typical shaft output at 690 V [kW]
Typical shaft output at 690 V [hp]
Continuous (3x525–550 V) [A]
AJ300847815559en-000101 / 130R033788 | Danfoss A/S © 2020.09
Specications
VLT® AQUA Drive FC 202
Design Guide
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