Danfoss FC 360 VLT AutomationDrive Enclosure Instruction Manual
- August 27, 2024
- Danfoss
Table of Contents
Danfoss FC 360 VLT AutomationDrive Enclosure
Product Information
Specifications
- Drive Enclosure size: Q110 J8, Q132 J8, Q160 J8, Q200 J9, Q250 J9, Q315 J9
- Normal overload=110% current during 60 s
- Typical shaft output at 400 V [kW]: 110, 132, 160, 200, 250, 315
- Typical shaft output at 460 V [hp]: 150, 200, 250, 300, 350, 450
- Output current (3-phase) Continuous (at 400 V) [A]: 212
- Intermittent (60 s overload) (at 400 V) [A]: 260
Product Usage Instructions
Safety
Pay particular attention to the safety instructions and general warnings to
avoid the risk of death, serious injury, and equipment or property damage.
WARNING:
- 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 that can remain charged even when not powered. Stop the motor and disconnect AC mains before servicing.
- LEAKAGE CURRENT: Ensure the ground conductor size complies with safety regulations for high touch current equipment.
Installation
Mechanical Dimensions:
- Height: 375mm
- Width: 128mm
- Depth: 495mm
- Mounting hole: 148mm
Removing the Front Cover Procedure:
- Loosen and remove the 2 screws on the front cover.
- Disconnect the front cover from the hooks.
Connecting to Mains, Motor, Control Terminals, and Relays Control Terminals:
- RS485 termination switch (ON=RS485 terminated, OFF=Open)
- Terminal Connections: VDD1, DI18, DI19, DIO27, DIO29, DI31, DI32, DI33, GND, COMMON, NO, NC
FAQ
-
Q: How should I handle high voltage issues with the AC drive?
A: Always disconnect the AC mains and wait for capacitors to discharge fully before servicing or repairing the drive to avoid high voltage risks. -
Q: What is the purpose of the RS485 termination switch?
A: The RS485 termination switch is used to terminate or open the RS485 communication line based on system requirements for communication stability.
Introduction
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.
Safety
Pay particular attention to the safety instructions and general warnings to avoid the risk of death, serious injury, and equipment or property damage.
WARNING
-
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.
Installation
Mechanical Dimensions
Table 1: Power Ratings, Dimensions, and Weights for Enclosure Sizes J8–J9
Enclosure size| Power [kW (hp)]| Height [mm (in)]| Width [mm
(in)]
---|---|---|---
(IP20)| 3×380–480 V| A| A(1)| a| B| b| b1
J8| 110–160 (150–250)| 889 (35.0)| 909 (35.8)| 844 (33.2)| 250 (9.8)|
180 (7.1)| 200 (7.9)
J9| 200–315 (300–450)| 1096 (43.1)| 1122 (44.2)| 1051 (41.4)| 350
(13.8)| 280 (11.0)| 271 (10.7)
Enclosure size (IP20)| Depth [mm (in)]| Mounting hole [mm
(in)]| Center of gravity [mm (in)]| Maximum weight [kg (lb)]
C| D| E| F| G
J8| 375 (14.8)| 11 (0.4)| 128 (5.0)| 495 (19.5)| 148 (5.8)| 98 (216)
J9| 375 (14.8)| 11 (0.4)| 176 (6.9)| 611 (24.1)| 148 (5.8)| 164 (362)
Note: (1) Including decoupling plate.
Removing the Front Cover
- Procedure:
- Step 1: Loosen and remove the 2 screws on the front cover.
- Step 2: Disconnect the front cover from the hooks.
Connecting to Mains, Motor, Control Terminals, and Relays
Control Terminals
Specifications
Table 2: Electrical Data for Normal Overload, Mains Supply 3×380–480 V AC
| Drive | Q110 | Q132 | Q160 | Q200 | Q250 | Q315 |
|---|---|---|---|---|---|---|
| Enclosure size | J8 | J8 | J8 | J9 | J9 | J9 |
Normal overload=110% current during 60 s
Typical shaft output at 400 V [kW]| 110| 132| 160| 200| 250| 315
Typical shaft output at 460 V [hp]| 150| 200| 250| 300| 350| 450
Output current (3-phase)
Continuous (at 400 V) [A]| 212| 260| 315| 395| 480| 588
Intermittent (60 s overload) (at 400 V) [A]| 233| 286| 347| 435| 528| 647
Continuous (at 460 V) [A]| 190| 240| 302| 361| 443| 535
Intermittent (60 s overload) (at 460 V) [A]| 209| 264| 332| 397| 487| 589
Continuous kVA (at 400 V) [kVA]| 147| 180| 218| 274| 333| 407
Continuous kVA (at 460 V) [kVA]| 151| 191| 241| 288| 353| 426
Maximum input current
Continuous (at 400 V) [A]| 204| 251| 304| 381| 463| 567
Continuous (at 460 V) [A]| 183| 231| 291| 348| 427| 516
Maximum number and size of cables per phase
Mains and motor [mm (AWG)]| 2×95 (2×3/0)| 2×185 (2×350 mcm)
Maximum external mains fuses [A]| 315| 350| 400| 550| 630| 800
Estimated power loss at 400 V [W]| 2559| 2954| 3770| 4116| 5137| 6674
Estimated power loss at 460 V [W]| 2261| 2724| 3628| 3569| 4566| 5714
E%ciency [%]| 98
Output frequency [Hz]| 0–590
Heat sink overtemperature trip [°C (°F)]| 110 (230)
Control card overtemperature trip [°C (°F)]| 75 (167)| 80 (176)
Table 3: Electrical Data for High Overload, Mains Supply 3×380–480 V AC
| Drive | H90K | H110 | H132 | H160 | H200 | H250 |
|---|---|---|---|---|---|---|
| Enclosure size | J8 | J8 | J8 | J9 | J9 | J9 |
High overload=150% current during 60 s
Typical shaft output at 400 V [kW]| 90| 110| 132| 160| 200| 250
Typical shaft output at 460 V [hp]| 125| 150| 200| 250| 300| 350
Output current (3-phase)
Continuous (at 400 V) [A]| 177| 212| 260| 315| 395| 480
Intermittent (60 s overload) (at 400 V) [A]| 266| 318| 390| 473| 593| 720
Continuous (at 460 V) [A]| 160| 190| 240| 302| 361| 443
Intermittent (60 s overload) (at 460 V) [A]| 240| 285| 360| 453| 542| 665
Continuous kVA (at 400 V) [kVA]| 123| 147| 180| 218| 274| 333
Continuous kVA (at 460 V) [kVA]| 127| 151| 191| 241| 288| 353
Maximum input current
Continuous (at 400 V) [A]| 171| 204| 251| 304| 381| 463
Continuous (at 460 V) [A]| 154| 183| 231| 291| 348| 427
Maximum number and size of cables per phase
Mains and motor [mm (AWG)]| 2×95 (2×3/0)| 2×185 (2×350 mcm)
Maximum external mains fuses [A]| 315| 350| 400| 550| 630| 800
Estimated power loss at 400 V [W]| 2031| 2289| 2923| 3093| 4039| 5004
Estimated power loss at 460 V [W]| 1828| 2051| 2089| 2872| 3575| 4458
E%ciency [%]| 98
Output frequency [Hz]| 0–590
Heat sink overtemperature trip [°C (°F)]| 110 (230)
Control card overtemperature trip [°C (°F)]| 75 (167)| 80 (176)
Ambient Conditions
| J8–J9 enclosure size | IP20/Chassis |
|---|---|
| Vibration test (standard) | 0.7 g |
| Relative humidty | 5%–95% (IEC 721-3-3; Class 3K3 (non-condensing) during |
operation)
Aggressive environment (IEC 60068-2-43) H2S test| Class Kd
Aggressive gases (IEC 60721-3-3)| Class 3C3
Test method according to IEC 60068-2-43| H2S (10 days)
Ambient temperature (at SFAVM switching mode)
– with derating
– with full output power of typical EFF2 motors (up to 90% output current)
– at full continuous FC output current
| Maximum 55 °C (131 °F)
Maximum 50 °C (122 °F)
Maximum 45 °C (113 °F)
---|---
Minimum ambient temperature during full-scale operation| -15 °C (5 °F)
Minimum ambient temperature at reduced speed performance| -20 °C (-4 °F)
Temperature during storage/transport| -25 to +65/70 °C (-13 to +149/158 °F)
Maximum altitude above sea level without derating| 1000 m (3281 ft)
Maximum altitude above sea level with derating| 3000 m (9842 ft)
Energy e%ciency class| IE2
Mounting Clearance
Enclosure size| Minimum mounting clearance [Maximum temperature 50 °C
(122 °F)]
---|---
J8 and J9| Above and below: 225 mm (9 in)
EMC Compatibility and Motor Cable Length
| EMC standard, Emission/Immunity | Category C3/EN/IEC 61800-3 |
|---|---|
| Maximum motor cable length, shielded | Category C3/ 150 m (492 ft) |
| Maximum motor cable length, unshielded | 300 m (984 ft) |
| Maximum cross-section to control terminals, rigid wire | 1.5 mm2/16 AWG (2×0.75 |
mm2)
Maximum cross-section to control terminals, exible cable| 1 mm2/18 AWG
Maximum cross-section to control terminals, cable with enclosed core| 0.5
mm2/20 AWG
Minimum cross-section to control terminals| 0.25 mm2/23 AWG
Programming
Local Control Panel (LCP)
Functional Section A: Display
Table 4: Display Function
| Number | Function |
|---|---|
| 1 | The setup number shows the active setup and the edit setup. |
• For LCP 21: The setup number shows the active setup and the edit setup. If the same setup acts as both active and edit setup, only that setup number is shown (factory setting).
• For LCP 23, the setup number shows on the upper right corner in the status mode. For example, “1(2)” means the active setup is “1” and the editing setup is “2”.
2| • LCP 21 shows only parameter number.
• LCP 23 shows both parmenter nubmer and name.
3| Parameter value.
4| Motor direction indicated by a small arrow pointing either clockwise or
counterclockwise. For LCP 23, it only shows in status menu on the upper right
corner of the screen.
5| The triangle indicates if the LCP is in Status, Quick Menu, or Main Menu.
Functional Section B: Menu Key
Press [Menu] to select among Status, Quick Menu, or Main Menu.
Functional Section C: Indicator Lights (LEDs) and Navigation Keys
Table 5: Indicator Lights (LEDs)
| Number | Indicator | Light | Function |
|---|---|---|---|
| 6 | On | Green | Turns on when the drive receives power from the mains voltage, a |
DC bus terminal, or a 24 V external supply.
7| Warn.| Yellow| Turns on when warning conditions are met. Text is shown in
the display area identifying the warning.
8| Alarm| Red| Flashes when a fault condition occurs. Text is shown in the
display area identifying the alarm.
Table 6: Navigation Keys
| Number | Key | Function |
|---|---|---|
| 9/13 | Up/Down | (1) Switches among parameter groups, parameters, and within |
parameters. (2) Increases or decre- ases parameter values. (3) Sets local
reference.
10| [Back]| Moves to the previous step or layer in the navigation structure.
11| Right| Moves from left to right within the parameter value to change each
digit individually.
12| [OK]| Selects a parameter and accepts changes to parameter settings.
Functional Section D: Operation Keys and Indicator Lights (LEDs)
Table 7: Operation Keys and Indicator Lights (LEDs)
| Number | Key | Function |
|---|---|---|
| 14 | [Hand On] | (1) Starts the drive in local control. (2) An external stop |
signal via control input or serial communi- cation overrides the local hand on
command.
15| [O /Reset]| (1) Stops the motor but does not remove power to the drive.
(2) Resets the drive manually after a fault has been cleared. (3) In alarm
mode, the alarm is reset when the alarm condition is removed.
16| [Auto On]| Puts the system in remote operational mode, in which the drive
only respond to an external start
command via control terminals or bus communication.
NOTICE
[2] Coast inverse is the default option for parameter 5-12 Terminal 27 Digital
Input. If there is no 24 V supply to terminal 27, [Hand On] does not start the
motor. Connect terminal 12 to terminal 27.
Automatic Motor Adaptation (AMA)
- Via running AMA in VVC+ mode, the drive builds a mathematical model of the motor to optimize compatibility between drive and motor, and thus enhances the motor control performance.
- Some motors may be unable to run the complete version of the test. In that case, select [2] Enable Reduced AMA in parameter 1-29 Automatic Motor Adaptation (AMA).
- For best results, run the following procedure on a cold motor.
Procedure:
- Set motor data in parameter group 1-** Load and Motor according to the motor nameplate.
- Connect terminal 27 to terminal 12 (24 V voltage) or choose [0] No operation in parameter 5-12 Terminal 27 Digital Input.
- Set [1] Enable Complete AMA or [2] Enable Reduced AMA for parameter 1-29 Automatic Motor Adaptation (AMA).
- Press the [Hand On] key, the test runs automatically and the main display indicates when it is completed.
Troubleshooting
Table 8: Warning and Alarm Code List
Number| Description| Warning| Alarm| Trip lock|
Cause
---|---|---|---|---|---
2| Live zero error| X| X| –| Signal on terminal 53 or 54 is less than 50% of
the values set in parameter 6-10 Terminal 53 Low Voltage , parameter 6-12
Terminal 53 Low Current , parameter 6-20 Terminal 54 Low Voltage , and
parameter 6-22 Terminal 54 Low Current.
3| No motor| X| –| –| No motor has been connected to the output of the drive,
or 1 motor phase is missing.
4| Mains phase loss(1)| X| X| X| Missing phase on the supply side, or the
voltage imbalance is too high. Check the supply voltage.
7| DC overvoltage(1)| X| X| –| DC-link voltage exceeds the limit.
8| DC undervoltage(1)| X| X| –| DC-link voltage drops below the voltage
warning low limit.
9| Inverter overloaded| X| X| –| More than 100% load for too long.
10| Motor ETR overtemp- erature| X| X| –| Motor is too hot due to more than
100% load for too long.
11| Motor thermistor overtemperature| X| X| –| Thermistor or thermistor
connection is disconnected, or the motor is too hot.
12| Torque limit| X| X| –| Torque exceeds value set in either parameter 4-16
Torque Limit Motor Mode or parameter 4-17 Torque Limit Generator Mode.
13| Overcurrent| X| X| X| Inverter peak current limit is exceeded. For J1–J6
units, if this alarm occurs on power-up, check whether power cables are
mistakenly connected to the motor terminals.
14| Ground fault| –| X| X| Discharge from output phases to ground.
16
|
Short circuit
|
–
|
X
|
X
| Short circuit in motor or on motor terminals. For J7 units, if this alarm
occurs on power-up, check whether power cables are mistakenly connected to the
motor terminals.
17| Control word timeout| X| X| –| No communication to the drive.
18| Start failed| –| X| –| –
25| Brake resistor short- circuited| –| X| X| Brake resistor is short-
circuited, thus the brake function is discon- nected.
26| Brake overload| X| X| –| The power transmitted to the brake resistor over
the last 120 s exceeds the limit. Possible corrections: Decrease brake energy
via lower speed or longer ramp time.
27| Brake IGBT/Brake chopper short-circuited| –| X| X| Brake transistor is
short-circuited, thus brake function is disconn- ected.
28| Brake check| –| X| –| Brake resistor is not connected/working.
30| U phase loss| –| X| X| Motor phase U is missing. Check the phase.
31| V phase loss| –| X| X| Motor phase V is missing. Check the phase.
32| W phase loss| –| X| X| Motor phase W is missing. Check the phase.
34| Fieldbus fault| X| X| –| PROFIBUS communication issues have occurred.
Number| Description| Warning| Alarm| Trip lock|
Cause
---|---|---|---|---|---
35| Option fault| –| X| –| Fieldbus or option B detects internal faults.
36| Mains failure| X| X| –| This warning/alarm is only active if the supply
voltage to the drive is lost and parameter 14-10 Mains Failure is NOT set to
[0] No Fun-
ction.
38| Internal fault| –| X| X| Contact the local supplier.
40| Overload T27| X| –| –| Check the load connected to terminal 27 or remove
short-circuit connection.
41| Overload T29| X| –| –| Check the load connected to terminal 29 or remove
short-circuit connection.
46| Gate drive voltage fault| –| X| X| –
47| 24 V supply low| X| X| X| 24 V DC may be overloaded.
50| AMA calibration| –| X| –| –
51| AMA check Unom and Inom| –| X| –| Wrong setting for motor voltage and/or
motor current.
52| AMA low Inom| –| X| –| Motor current is too low. Check the settings.
53| AMA big motor| –| X| –| The power size of the motor is too large for the
AMA to operate.
54| AMA small motor| –| X| –| The power size of the motor is too small for the
AMA to operate.
55| AMA parameter range| –| X| –| The parameter values of the motor are
outside of the acceptable range. AMA does not run.
56| AMA interrupt| –| X| –| The AMA is interrupted.
57| AMA timeout| –| X| –| –
58| AMA internal| –| X| –| Contact the local supplier.
59| Current limit| X| X| –| The drive is overloaded.
60| External Interlock| –| X| –| –
61| Encoder loss| X| X| –| –
63| Mechanical brake low| –| X| –| Actual motor current has not exceeded
release brake current
within start delay time window.
65| Control card temp| X| X| X| The cutout temperature of the control card is
80 °C (176 °F).
67| Option module config- uration has changed| –| X| –| One or more options
have either been added or removed since the last power-down.
69| Power card temp| X| X| X| –
70| Illegal FC config| –| X| X| –
80| Drive initialized to
default value
| –| X| –| All parameter settings are initialized to default settings.
87| Auto DC brake| X| –| –| Occurs in IT mains when the drive coasts and the
DC voltage is higher than 830 V. Energy on DC-link is consumed by the motor.
This function can be enabled/disabled in parameter 0-07 Auto DC Braking.
88| Option detection| –| X| –| A change in the option layout is detected.
Parameter 14-89 Option Detection is set to [0] Frozen con guration and
the option layout has been changed.
• To apply the change, enable option layout changes in parameter 14-89 Option Detection.
• Alternatively, restore the correct option configuration.
90| Feedback monitor| X| X| –| A feedback fault is detected by option B.
95| Broken belt| X| X| –| –
99| Locked rotor| –| X| –| –
101| Flow/pressure inform-
ation missing
| –| X| X| –
120| Position control fault| –| X| –| –
124| Tension limit| –| X| –| –
126| Motor rotating| –| X| –| –
127| Back EMF too high| X| –| –| Try to start PM motor which is rotating in an
abnormal high speed.
250| New spare part| –| X| X| –
251| New type code| –| X| X| –
Note:
- These faults may be caused by mains distortions. Installing a Danfoss line filter may rectify this problem.
- An (X) marked in the above table indicates that the warning or alarm has occurred. A warning precedes an alarm.
Accessories and Spare Parts
Accessories and spare parts| Code number| Accessories and spare
parts| Code number
---|---|---|---
(1)| VLT® PROFIBUS DP MCA 101| 134B6778| (6)| VLT® graphical control panel LCP
23| 132B0801
(2)| VLT® PROFINET MCA 120| 134B6779| (7)| VLT® numeric control panel LCP 21|
132B0254
(3)| VLT® encoder input MCB 102| 132B0282| (8)| Remote mounting kit for LCP
with cable, 3 m| 132B0102
(4)| VLT® resolver input MCB 103| 132B0283| (9)| LCP remote mounting cable, 3
m| 132B0132
(5)| VLT® 24 V DC supply MCB 107| 130B1208| (10)| Control card for FC 360
J8-J9| 132G0279
Note: (1) – (9) are accessories, and (10) is spare part. For more spare parts, contact Danfoss.
Technical Documentation
Scan the QR code to access more technical documents for the drive. Or, after
scanning the QR code, click Global English on the website to select your local
region’s website, and search FC 360 to find the documents in your own
languages.
Danfoss A/S
Ulsnaes 1
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