Operating Guide
1 Introduction
AQ435824155085en-000101 / 130R1294 | 1
Danfoss A/S © 2023.06
VLT® AutomationDrive FC 360
*M0040301*
This operating guide provides necessary information for qualified personnel to install and commission the
AC drive. Read and follow the instructions to use the drive safely and professionally.
Do not dispose of equipment containing electrical components together with domestic waste.
Collect it separately in accordance with local and currently valid legislation.
Pay particular attention to the safety instructions and general warnings to avoid the risk of death, serious
injury, and equipment or property damage.
2 Safety
W A R N I N G
HIGH VOLTAGE
AC drives contain high voltage when connected to AC mains input.
UNINTENDED START
The motor may start from control panel, I/O inputs, or fieldbus at any time, when the drive is connected to the AC mains.
DISCHARGE TIME
The drive contains DC-link capacitors, which can remain charged even when the drive is not powered. High voltage can be
present even when the warning indicator lights are off.
- Stop the motor, and disconnect AC mains, permanent magnet type motors.
- Wait for the capacitors to discharge fully and measure it before performing any service or repair work.
- The minimum waiting time is 20 minutes.
LEAKAGE CURRENT
Leakage currents of the drive exceed 3.5 mA. Make sure that the minimum size of the ground conductor complies with the
local safety regulations for high touch current equipment.
3.1 Mechanical Dimensions
3 Installation
130R1294
90–315 kW, Enclosure Sizes J8–J9
Test method according to IEC 60068-2-43
H
2
S (10 days)
Class 3C3
Aggressive gases (IEC 60721-3-3)
Class Kd
Aggressive environment (IEC 60068-2-43) H
2
S test
Relative humidty
5%–95% (IEC 721-3-3; Class 3K3 (non-condensing) during operation)
0.7 g
Vibration test (standard)
IP20/Chassis
J8–J9 enclosure size
5 Ambient Conditions
4 Specifications
Table 2: Electrical Data for Normal Overload, Mains Supply 3x380–480 V AC
Table 3: Electrical Data for High Overload, Mains Supply 3x380–480 V AC
Drive
Enclosure size
Normal overload=110% current during 60 s
Typical shaft output at 400 V [kW]
Typical shaft output at 460 V [hp]
Output current (3-phase)
Continuous (at 400 V) [A]
Intermittent (60 s overload) (at 400 V) [A]
Continuous (at 460 V) [A]
Intermittent (60 s overload) (at 460 V) [A]
Continuous kVA (at 400 V) [kVA]
Continuous kVA (at 460 V) [kVA]
Maximum input current
Continuous (at 400 V) [A]
Continuous (at 460 V) [A]
Maximum number and size of cables per phase
Mains and motor [mm2 (AWG)]
Maximum external mains fuses [A]
Estimated power loss at 400 V [W]
Estimated power loss at 460 V [W]
Efficiency [%]
Output frequency [Hz]
Heat sink overtemperature trip [°C (°F)]
Control card overtemperature trip [°C (°F)]
Q110
Q132
Q160
Q200
Q250
Q315
110
132
160
200
250
315
150
200
250
300
350
450
212
260
315
395
480
588
233
286
347
435
528
647
190
240
302
361
443
535
209
264
332
397
487
589
147
180
218
274
333
407
151
191
241
288
353
426
204
251
304
381
463
567
183
231
291
348
427
516
315
2x95 (2x3/0)
2x185 (2x350 mcm)
75 (167)
80 (176)
350
400
550
630
800
2559
2954
3770
4116
5137
6674
2261
2724
3628
98
0–590
110 (230)
3569
4566
5714
J8
J8
J8
J9
J9
J9
Drive
Enclosure size
High overload=150% current during 60 s
Typical shaft output at 400 V [kW]
Typical shaft output at 460 V [hp]
Output current (3-phase)
Continuous (at 400 V) [A]
Intermittent (60 s overload) (at 400 V) [A]
Continuous (at 460 V) [A]
Intermittent (60 s overload) (at 460 V) [A]
Continuous kVA (at 400 V) [kVA]
Continuous kVA (at 460 V) [kVA]
Maximum input current
Continuous (at 400 V) [A]
Continuous (at 460 V) [A]
Maximum number and size of cables per phase
Mains and motor [mm2 (AWG)]
Maximum external mains fuses [A]
Estimated power loss at 400 V [W]
Estimated power loss at 460 V [W]
Efficiency [%]
Output frequency [Hz]
Heat sink overtemperature trip [°C (°F)]
Control card overtemperature trip [°C (°F)]
H90K
H110
H132
H160
H200
H250
90
110
132
160
200
250
125
150
200
250
300
350
177
212
260
315
395
480
266
318
390
473
593
720
160
190
240
302
361
443
240
285
360
453
542
665
123
147
180
218
274
333
127
151
191
241
288
353
171
204
251
304
381
463
154
183
231
291
348
427
315
2x95 (2x3/0)
2x185 (2x350 mcm)
75 (167)
80 (176)
350
400
550
630
800
2031
2289
2923
3093
4039
5004
1828
2051
2089
98
0–590
110 (230)
2872
3575
4458
J8
J8
J8
J9
J9
J9
Illustration 3: Connecting to Mains, Motor, Control Terminals, and Relays
Illustration 4: Control Terminals
3.3 Connecting to Mains, Motor, Control Terminals, and Relays
3.4 Control Terminals
3.2 Removing the Front Cover
Front view
Side view
Back view
C
b1
B
b
D
A
a
E
F
G
D
Illustration 1: Mechanical Dimensions, Enclosure Sizes J8–J9
Table 1: Power Ratings, Dimensions, and Weights for Enclosure Sizes J8–J9
Enclosure size
(IP20)
Enclosure size
(IP20)
J8
J9
J8
J9
Maximum
weight
[kg (lb)]
98 (216)
164 (362)
128 (5.0)
176 (6.9)
495 (19.5)
611 (24.1)
148 (5.8)
E
F
G
148 (5.8)
Center of gravity [mm (in)]
250 (9.8)
350 (13.8)
180 (7.1)
280 (11.0)
200 (7.9)
B
b
b1
271 (10.7)
Width [mm (in)]
889 (35.0)
1096 (43.1)
909 (35.8)
1122 (44.2)
844 (33.2)
A
A
(1)
a
1051 (41.4)
Height [mm (in)]
110–160 (150–250)
200–315 (300–450)
3x380–480 V
Power [kW (hp)]
11 (0.4)
11 (0.4)
D
Mounting hole [mm (in)]
375 (14.8)
375 (14.8)
C
Depth [mm (in)]
Procedure:
Step 1: Loosen and remove the 2 screws on the front cover.
Step 2: Disconnect the front cover from the hooks.
RS485 termination switch
(ON=RS485 terminated, OFF=Open)
1
2
O N
Note: (1) Including decoupling plate.
e30b
v154.10
e30b
v155.10
e30b
v159.10
e30b
v161.10
RELAY 1
RELAY 2
01 02 03
04
05 06
COMMON
NO
NC
COMMON
NO
NC
VDD1
DI18
DI19
DIO27
DI31
DI32
DI33
GND
DIO29
12 18 19 27 29 31 32 33 20
10 V
AI53
AI54
AO42
AO45
GND
50 53 54 42 45 55
COM RS 485
P RS 485
N RS 485
61 68 69
Illustration 2: Removing the Front Cover
Step 1
Step 2
Screws
Hooks
Mains
Motor
Ground
Control
terminals
Relays
