Line Power Supply 3 x 525–690 V AC
P710
P800
P900
P1M0
P1M2
Typical Shaft output at
550 V [kW]
560
670
750
850
1000
Typical Shaft output at
575 V [HP]
750
950
1050
1150
1350
Typical Shaft output at
690 V [kW]
710
800
900
1000
1200
Enclosure IP21, 54
without / with options
cabinet
F1/ F3
F1/ F3
F1/ F3
F2/ F4
F2/ F4
Output current
Continuous
(at 550 V) [A]
763
889
988
1108
1317
Intermittent (60 s over-
load, at 550 V) [A]
839
978
1087
1219
1449
Continuous
(at 575/690 V) [A]
730
850
945
1060
1260
Intermittent (60 s over-
load, at 575/690 V) [A]
803
935
1040
1166
1386
Continuous KVA
(at 550 V) [KVA]
727
847
941
1056
1255
Continuous KVA
(at 575 V) [KVA]
727
847
941
1056
1255
Continuous KVA
(at 690 V) [KVA]
872
1016
1129
1267
1506
Max. input current
Continuous
(at 550 V) [A]
743
866
962
1079
1282
Continuous
(at 575 V) [A]
711
828
920
1032
1227
Continuous
(at 690 V) [A]
711
828
920
1032
1227
Max. cable size,motor
[mm
2
(AWG
2)
)]
8x150
(8x300 mcm)
12x150
(12x300 mcm)
Max. cable size, line
power [mm
2
(AWG
2)
)]
8x240
(8x500 mcm)
Max. cable size, load-
sharing [mm
2
(AWG
2)
)]
4x120
(4x250 mcm)
Max. cable size, brake
[mm
2
(AWG
2)
)
4x185
(4x350 mcm)
6x185
(6x350 mcm)
Max. external pre-fuses
[A]
1)
1600
2000
Est. power loss
at rated max. load [W]
4)
, 575 V, F1 & F2
10771
12272
13835
15592
18281
Est. power loss
at rated max. load [W]
4)
, 690 V, F1 & F2
11315
12903
14533
16375
19207
Max. added losses of
Circuit Breaker or Dis-
connect & Contactor,
F3 & F4
422
526
610
658
855
Max Panel Options Los-
ses
400
Weight,enclosure IP21,
IP 54 [kg]
1004/ 1299
1004/ 1299
1004/ 1299
1246/ 1541
1246/ 1541
Weight, Rectifier
Module [kg]
102
102
102
136
136
Weight, Inverter
Module [kg]
102
102
136
102
102
Efficiency
4)
0.98
Output frequency
0–500 Hz
Heatsink
overtemp.
trip
185°F [85°C]
Power card amb. trip
154°F [68°C]
1) For type of fuse, see the section
Fuses.
2) American Wire Gauge.
3) Measured using 16.4 ft [5 m] shielded motor cables at rated load and rated frequency.
4) The typical power loss is at nominal load conditions and expected to be /-15% (tolerance relates to variety in voltage and cable
conditions). Values are based on a typical motor efficiency (eff2/eff3 border line). Motors with lower efficiency will also add to the power loss
VLT
®
HVAC Drive Instruction Manual
8 Specifications
MG.11.A9.22 - VLT
®
is a registered Danfoss trademark
8-13
8
Содержание VLT
Страница 8: ...1 Safety VLT HVAC Drive Instruction Manual 1 6 MG 11 A9 22 VLT is a registered Danfoss trademark 1...
Страница 152: ...7 Troubleshooting VLT HVAC Drive Instruction Manual 7 8 MG 11 A9 22 VLT is a registered Danfoss trademark 7...
Страница 174: ...8 Specifications VLT HVAC Drive Instruction Manual 8 22 MG 11 A9 22 VLT is a registered Danfoss trademark 8...