MAKING MODERN LIVING POSSIBLE
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VLT® AutomationDrive
Selection Guide
The modular VLT® AutomationDrive FC 300
VLT® AutomationDrive allows for mass production of highly customised drives
6
1
2
7
6
3
8
5
7
3
5
10
8
9
10
11
4
1
One drive
– two performance levels
Use the FC 301 version for standard needs and the FC 302 version for applications that need
greater functionality and dynamic
response.
2
Enclosure
The drive meets requirements
for enclosure class IP 20/Chassis.
Optional IP 21/NEMA 1, IP 55/
NEMA 12, IP 54/NEMA 12 or IP 66.
3
4
2
EMC and Network effects
All versions of VLT® AutomationDrive comply as standard with
EMC limits A1 and A2 according
to the EN 55011 norm.
5
Control terminals
Specially developed spring-loaded
cage clamps enhance reliability
and facilitate easy commissioning
and service.
The standard integrated DC coils
also ensure low harmonic load
on the network according to
EN 61000-3-12 and increase the
lifespan of the dc link capacitors.
6
Programmable option
Free-programmable MCO 305
option for synchronisation,
positioning, cam control, center
winding and more.
7
Fieldbus option
Options for bus communication
(Profibus DPV1, DeviceNet, CANopen, EtherNet/IP etc.), synchronisation, user programs, etc., are
delivered ready to plug-and-play.
8
I/O extensions
A host of I/O options are available
– factory mounted or as retrofit:
• General purpose I/O
• Cl Encoder
• Resolver
• Relay options
• ATEX
• Safe interface
Conformal coating
The electronic components
are, as standard, coated as per
IEC 60721-3-3, class 3C2. For harsh
and aggressive environments,
coating as per IEC 60721-3-3,
class 3C3 is available.
Removable fan
Like most of the elements, the
fan can be quickly removed and
remounted for easy cleaning.
9
Display options
Danfoss Drives’ removable Local
Control Panel is now available
in 28 languages. Six of these are
built-in (including Chinese), two
of the languages can be changed
by the user. The info button makes
the printed manual virtually redundant.
10
Safety
The VLT® AutomationDrive FC
302 comes standard with safe
stop functionality. The solution is
approved by authorities for category 3 installations in accordance
with EN 954-1 and SIL2/IEC 61508.
Alternatively the drive can be
commissioned via the built-in
USB/RS485 connection or a fieldbus from the VLT® set-up software
MCT 10.
The Automatic Motor Adaptation,
Quick Set-Up menu and large
graphic display make commissioning and operation a breeze.
Your choice of numerical display,
graphical display or blind cover.
24 V
The 24 V supply keeps the VLT®
AutomationDrive logic “alive”
when the AC mains is removed.
Built-in Smart Logic Controller
The Smart Logic Controller is a
simple but clever way to keep your
drive, motor and application
working together.
The controller monitors a specified
event. When an event occurs, the
controller triggers a specified act
and starts monitoring the next
event continuing for up to 20
steps before returning to step one.
This feature prevents the drive
from starting unintendly.
Enhanced safety features are
available as options.
11
Mains switch option
This switch interrupts the mains
supply and has a free useable
auxiliary contact.
Danfoss Drives received the Frost & Sullivan
Award for Product Innovation 2006 for the unique
VLT® AutomationDrive series.
Intelligent heat management
Cooling can take place in various ways for different benefits
Total separation between cooling air
and electronics allows for solutions
where heat is removed from outside
of the cabinets.
Forced convection cooling
A fan blows cold air through the cooling ribs of the aluminium base.
The channel is easily cleaned without
touching the electronics.
Cold plate cooling
External cooling is possible through
the back side of the aluminium base.
With VLT® AutomationDrive, a flanged
heat sink kit is available for mounting
the drive in the backplate of a cabinet.
Users can order all facilities simply by defining it on the code
string. You will receive a fully assembled and tested device.
If needed, many options can be ordered to retrofit later.
3
Just one drive series to run an entire production line
VLT® AutomationDrive
FC 302 runs permanent
magnet motors
A VLT® AutomationDrive FC 301 operating a conveyor belt at constant speed is based on the same platform
as a VLT® AutomationDrive FC 302 for positioning and synchronising to control hoists with changing loads.
The VLT® AutomationDrive FC 300 is
a single drive concept that controls
all operations from standard to servo
motors on any machine or production
line.
The variant FC 302 has higher performance such as faster response
times, servo-performance with Fluxvector control and additional
I/O options.
The standard version covers a wide
range of functions such as PLC
functionality, automatic fine-tuning
of motor control and self-analysis of
performance.
You will find a comparison between
the versions on page 13 in this booklet. Both versions are equipped with
user friendly control panels, spring
loaded cage clamps and housing
designs.
The VLT® AutomationDrive FC 301
holds many excellent features like
VVC+ vector control, Automatic Motor
Adaptation, PID controller and/or
RS485-/USB connection.
The fieldbus option ready to plug in beneath the
front panel. It can be turned upside down if you
prefer to have the cable on top.
4
VLT® AutomationDrive FC 302
exploits the full potential of permanent magnet motors in high
dynamic applications.
Fast processors enable it to
precisely control position, acceleration and torque – with or
without encoder feedback.
Nearly all options are available for
both performance levels.
All supply voltages
The VLT® AutomationDrive series
covers the power range from 0.25 to
1200 kW. It supports supply voltages
in the ranges 200, 380 – 480/500 V,
525 – 600 V and 690 V. Also, operation
in special network grids such as IT Net
is possible.
The VLT® AutomationDrive is controlled locally
via a control panel. This is plugged in directly or
connected via a cable.
Large selection of encoder interfaces:
HTL/TTL incremental, with Resolver or SinCos
HIPERFACE, SSI or EnDat absolute encoders.
One wire safety
The VLT® AutomationDrive FC 302
comes as standard with safe stop
functionality suitable for category 3
installations as defined by EN 954-1
and SIL 2/IEC 61508. This feature prevents a drive from starting accidentally.
This is crucial for applications where
preventing unintended starts are of
vital importance. The FC 302 terminal
37 can be used as “safe coast” for this
purpose – the stop function satisfies
stop category 0 EN 60204-1.
Expensive and bulky external components can be omitted, wiring simplified, and down-time minimised with
this solution. And the safety signals
can be transferred via discrete signals
wiring (in compact machinery) or
safe bus communication (in extended
manufacturing plants).
Omissible
Before
After
Two contactors and a timer can be omitted in safety installations due to the safety
functionality in VLT® AutomationDrive
The coupling of the Pilz safety
relay and VLT® AutomationDrive is
perfect to obtain safe stop category
1, because VLT® AutomationDrive
is approved for safety category 3
applications.
The electrical connection is
extremely simple – just one wire
VLT® AutomationDrive is approved
for providing safe stop in category
3 installations without the need for
feedback signals from the drive to the
safety relay.
The modular security concept of
the VLT® AutomationDrive Platform
VLT® AutomationDrive is prepared
for the future, prepared to adapt
additional security features. Special
security options are being prepared.
Hazardous situations are avoided without
interrupting the mains supply.
Terminal 37 can be used as “safe coast” for safe stop
– the stop function satisfies stop category 0 EN 60204-1.
Security-related elements can be switched
directly to the FC 300.
5
Perfect for all conditions
VLT® drives are available in IP 20 enclosures,
optimised for installation in panels
The installation volume and/or the
mounting surface are reduced by up
to 60% compared with the previous
series.
The service sections nevertheless
fulfil the highest requirements even
for applications with high overload,
long motor cables and ambient
temperatures up to 50° C (55° C with
derating).
Optimised design
Optimised efficiency and intelligent
cooling technology make the compact and service-friendly design possible. Even equipment such as EMC
filters, harmonics suppression and
brake modules are integrated in the
enclosure.
Save installation time
The IP 20 series is designed for easy
accessibility and time-saving installation. Mechanical fastening points are
easy to access from the front
even with automatic tools.
All terminals are sufficiently
dimensioned and clearly
marked.
One needs only loosen a few
screws to get to the terminals.
Accessories for bonding of
screened cables are included.
The compact enclosures are
easier to install. This is important especially within existing
installations with poor accessibility.
Modular and fully
compatible
The IP 20 enclosed series completes
the enclosure program of the modular VLT® series with IP 21, IP 55 and
IP 66 enclosures. They all support
completely the modular platform of
the VLT® series.
An extensive range of options and
accessories is available, optimising
the drive for the respective application.
Optimised EMC performance
VLT® AutomationDrive meets the
product standard EN 61800-3 regarding EMC without additional external
components – even with long motor
cables – and corresponds to the EMC
guidelines 2004/108/EC. Therefore it
behaves extremely well compared to
other drives.
Even more important for practical use
is compliance with the environment
standard EN 55011, Class B (residential) and Class A1 (industrial area).
with short supply voltage drops or
other poor network conditions.
On the power side, integrated
chokes minimise the network effects
drastically and thus keep within the
limits of EN 61000-3-12.
The fully dimensioned intermediate
circuit makes the VLT® AutomationDrive stable and highly dynamic even
Limits according to EN 55011
Class B
Class A1
Class A2
Exceeding class A2
Categories according to EN 61800-3
C1
C2
C3
C4
Comparison of limits EN 55011/61800-3
6
This ensures reliable plant operation
through full compliance with all EMC
requirements and product standard
prescribed warnings and restrictions.
High reliability even in harsh environments
Because of the high-density integration, the tight housings of VLT®
AutomationDrive are significantly
smaller when compared with other
drives of the same performance.
For example, the FC drives from 3 kW
to about 22 kW take up only 68% of
the mounting surface required for the
former VLT® 5000 up to 7.5 kW.
The cables are mounted tightly
through glands in the base plate.
Since no additional 24 V control
voltage is needed and access to the
drive control can be password
protected, the drive can be installed
as a stand-alone device, making
expensive cabinets omissible.
FC 300 devices in IP55/IP66 enclosure. Also here, all components such as EMC
filter and DC-DC chokes are integrated. The cables enter drop-safe from the
bottom side.
All VLT® AutomationDrive versions
have manganese phosphor rear
bodies. The back of IP 66 versions is
dip-coated with epoxy or polyester
spray finish (60-100 μm). The cover is
powder coated (80-100 μm).
IP 66 enclosed drives are suitable for
installation outdoor and in washdown
areas.
The silicone gasket is tested with
different detergents so the drives
Special mounting accessories are available to reduce
costs and time for retrofitting.
withstand the harsh cleaning agents
in the food & beverage industry.
Cooling air is kept outside the device
to prevent any pollution of the
electronics. The surfaces are smooth
and can easily be cleaned.
Furthermore, all components such as
EMC filters for Class A1/B1 according
to EN 55011, as well as the DC coils,
are protected inside the drive.
Spring-loaded connectors save considerable time and
costs, both in reinstallation and service.
The VLT®
AutomationDrive is
also available with
a mains switch
option. This switch
interrupts the
mains supply and
has a free useable
auxiliary contact.“
An external
watertight USB
plug connected to
the control card
inside IP 55/66
enclosures makes
USB access easy.
Built-in circuit chokes reduce the impact on the supply
network and increase the lifetime of the drive.
7
Built-in Smart Logic Controller
Smart Logic
The Smart Logic Controller is a simple
but clever way to keep your drive,
motor and application working
together.
flow, time, load, frequency, voltage
and other parameters combined with
the operators “>”, “<”, “=”, “and” and
“or” forms logical statements.
The controller monitors a specified
event. When an event occurs, the
controller triggers a specified act and
starts monitoring the next event,
continuing for up to 20 steps before
returning to step one.
That is why Danfoss calls it a “logic”
controller. And it is why you can program the controller to react to almost
any event you choose.
The Smart Logic Controller is able
to monitor any parameter that can
be defined as “true” or “false”. This
includes digital commands but also
logic expressions, allowing even sensor outputs to influence the operation. Temperature, pressure, torque,
Control functions can be partially or
completely performed by the drive, due to
the easily defined logic functions.
VLT® Motion Control Option
The Motion Control Option MCO
305 is an integrated programmable
motion controller. It adds even more
functionality and flexibility to the
drives.
With the Motion Control Option,
the VLT® AutomationDrive becomes
an intelligent drive featuring highly
accurate, dynamic motion control,
synchronisation (electronic shaft), positioning and electronic CAM control.
Programmability lets you implement
You can analyse and operate the Smart Logic Controller
with the graphical LCP.
8
a variety of application functions,
such as monitoring and intelligent
error handling. Dedicated options are
pre-programmed for specific tasks:
Dedicated options
• VLT® Synchronizing Controller
MCO 350
• VLT® Positioning Controller
MCO 351
• VLT® Center Winder MCO 352
To disconnect wires, simply unplug
the terminal blocks.
The VLT® AutomationDrive is controlled locally via a
control panel. This is plugged in directly or connected via
a cable to the robust Sub-D terminal – also while the
drive is running.
Easy retrofit with VLT® AutomationDrive
To reduce costly downtime replacing
or repairing older drives and fieldbus
components, Danfoss offers a complete and sophisticated upgrading
concept for the conversion of plants
with widespread VLT® 3000 and VLT®
5000.
The aim of this approach is to reduce
storage and spare part problems,
keep the expense of modifications to
a minimum and make the switch to
the new technology platform quick
and easy.
Fast conversion
Sophisticated conversion kits reduce
downtime, modernising existing
installations.
Conversion kit
Small footprint
Conversion kits are available to
facilitate exchange from earlier
VLT® drives.
VLT® AutomationDrive has a compact
design. All power sizes are smaller
than their predecessors. No dimension has increased and volumes are
typically 20% smaller.
The kit facilitates:
• Mechanical adaption
• Electric adaption
• Parameter adaption
• Profibus adaption
The fan speed is regulated according to the temperature
of the drive and can easily be removed and remounted
for cleaning.
Even though the drives can still be
mounted “side by side” with 0 mm
clearance.
To disconnect wires, simply unplug the terminal blocks.
With the terminal adapter it is possible to re-use existing
wiring from VLT® 3000 or VLT® 5000.
9
User friendly control panel
1
–
–
–
–
–
Graphical display
International letters and signs
Displays bars and graphs
Easy overview
Possible to select 28 languages
iF awarded design
4
1
4
Illumination
– Relevant buttons are illuminated
when active
– Other LED‘s indicate the status of
the drive
5
2
Menu structure
– Based on the well known matrixsystem in today’s VLT® drives
– Easy shortcuts for the experienced
user
– Edit and operate in different
setups simultaneously
5
2
3
Other benefits
– Removable during operation
– Up- and download functionality
– IP 65 rating when mounted
in a panel door
– Up to 5 different variables
visible at a time
– Manual speed/torque setting
6
3
6
Intuitive functions
– Info (“on board manual”)
– Cancel (“undo”)
– Alarm log (quick access)
LCP Panel mounting kit
The kit lets you mount the LCP
in an IP 65 cabinet front.
Three panel options: graphical, numerical, blind cover.
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Quick Menus
– A Danfoss defined Quick Menu
– A personal defined Quick Menu
– A Changes Made Menu lists
the parameters unique to your
application
– A Function Setup menu provides
quick and easy setup for specific
applications
– A Logging menu provides access
to operation history
The VLT® AutomationDrive is controlled locally via a
control panel. This is plugged in directly or connected
via a cable.
The VLT® AutomationDrive has an awardwinning Local Control Panel and a well
structured menu system that ensures fast
commissioning and trouble-free operation
of the many powerful functions.
The VLT® AutomationDrive can be remote commissioned
and monitored via a USB cable or fieldbus communication. Special software is available: Wizards, Data transfer
tool, VLT® Set-up Software MCT 10, and Language
changer.
VLT® Motion Control Tool MCT 10
Setup software provides easy control
of details as well as a general overview of drive systems, large or small.
The tool handles all drives-related
data.
Explorer-like interface
The MCT 10 software features an
explorer-like interface design and
functionality to ease both use and
learning of the facilities.
More efficient service organisation
• Scope & logging: analyse
problems easily
• Read out alarms, warnings and
fault log in one view
• Compare a saved project with an
on-line drive
More efficient commissioning
• Off-line commissioning offsite
• Save/send/mail projects anywhere
• Easy fieldbus handling, multiple
drives in project file. Enables service
organisation to be more efficient
Basic
• Scope & Graph
• Alarm history in saved projects
• MCO 305 support
• Graphical Smart Logic Controller
• Graphical Timebased Actions,
Preventive Maintenance and
Basic Cascade Controller
(FC 102/FC 202 only)
• Multiple fieldbus support
• VLT® 5000 to FC 302 Drive Conversion Wizard
Advanced
• No limitation in number of drives
• Motor database
• Real-time logging from drive
• Sensorless pump control
Fieldbusses
• ProfiBus
• RS485
• USB
• Ethernet-TSC
MCT 10 has a Windows-like design,
leading to intuitive operation.
Two modes
Online mode
In the online mode, you work with the
actual setup of the drives in question.
Your actions will have immediate
effect on the performance of the
drive(s).
Project oriented
In project mode you work with the
drive parameters as a “virtual” setup.
This allows you to adjust the whole
system before you implement it into
the drives and put it in action. In
project mode you can set the system
up even before the drives are
installed. A single command will
update the whole system. In case a
drive is exchanged, it is easily set up
to perform exactly as its predecessor.
System requirements
• MS Windows® NT 4.0, 2000,
XP or Vista
• Pentium III 350 MHz or better
• 256 Mb RAM or better
• 200 Mb free hard disk space
• CD-ROM drive
• VGA or XGA graphic adapter
11
Energy saving products
VLT® products and solutions contribute to environmental protection by
reducing energy consumption and
optimising the use of resources.
Reliable and efficient automation
systems from Danfoss Drives have
increased companies’ productivity,
saved energy and improved comfort
levels.
The variable speed drives sector has a
huge role to play in energy conservation, providing true variable control of
fans and pumps. Wherever a centrifugal fan or pump is being run damped
or throttled, energy is wasted across
the regulating device, creating heat or
noise. In HVAC applications, substantial energy savings, even as great as
48%, have been demonstrated in the
past.
Reduced heat loss and
better system efficiency
With an efficiency of up to 98% and
a power factor above 0.9, the FC
inverter series performs significantly
better than comparable devices.
Automatic Energy Optimisation
Start with high acceleration
AEO-adjustment
Speed
Automatic load
adjustment
Motor voltage
Motor current
The figures include losses in coils and
filters. Less heat loss leads to savings
in the costs related to removal of the
excess heat.
Runs high efficiency PM motors
Permanent magnet motors have
advantages in terms of efficiency and
design.
Low stand-by consumption
Speed controlled cooling and the
energy saving design of the control
electronics ensures low consumption
at stand-by. Due to short start-up
time, it is possible to de-couple the
drive completely from the net.
The VLT® AutomationDrive FC 302 can
operate both asynchronous and PM
motors – even in open loop.
The control card can – if necessary
– be kept “alive” with external 24 V
supply.
Energy saving change of speed
Acceleration and deceleration of
applications can be carefully adapted
to the application needs. Optimally
designed ramps ensure smooth
dynamic behaviour.
Automatic load adjustment
The Automatic Energy Optimization
(AEO) provides additional savings of
up to 5%.
This feature provides additional
current to the motor at low speed to
maintain an optimal magnetisation
and efficiency.
12
Common DC link
For applications with long braking
cycles and several axes, the use of a
common DC link lowers both operating and installation costs significantly.
The DC coupling between the inverter
circuits means that regenerative
energy from decelerating motors is
reused in the other motors.
One drive – two performance levels
Special needs require special features and performance
Power range 200 – 240 V [kW]
Power range 380 – (480) 500 V [kW]
Power range 525 – 600 V [kW]
Power range 525 – 690 V [kW]
IP 00
IP 20/21 (NEMA1)
IP 54/IP 55 (NEMA12)
IP 66
Ambient temperature °C Avg. 24 hours (IP 21) w/o de-rating
VVC+ vector control
Flux vector control
Cable length – screened/unscreened
Permanent magnet motor operation (w/wo feedback)
KTY-monitoring of temperature
Monitoring of over-voltage
Smart Logic Control
Safety function Safe Torque Off (STO – EN 61800-5-2)
Galvanic isolation PELV
Conformal coated PCBs (IEC 721-3-3)
Removable fan
RS 485 and USB-interface
Graphical/numerical control panel (LCP 102/101)
Up/download of settings from LCP (LCP 102)
Info/Help function (LCP 102)
28 languages built-in
Password protection
Personal menu (macro)
Pluggable control terminals
Analogue input (changeable)
Analogue output resolution
Programmable digital input
Programmable digital output changeable
Programmable Relay Output
Process PID control
Flying start – catch spinning motor
Automatic Energy Optimization (AEO)
Precise Start/Stop
Number of fixed parameter sets
Digital motor potentiometer
Integrated motor database
Programmable power drop procedure
Options:
Profibus, DeviceNet, CANopen, EtherNet/IP, PROFInet
MCB 101 – Extended input/outputs
MCB 102 – Encoder option
MCB 103 – Resolver option
MCB 105 – Relay option
MCB 108 – Safe PLC interface
MCB 112 – ATEX- PTC-monitoring
MCO 305 – Motion Control Option
MCB 107 – External 24 V supply
FC 301 (A1-Enclosure)
0.25 – 1.5
0.37 – 1.5
–
–
–
√
–
–
50° C
√
25/50 m
–
√
√
√
Option
√
Standard
√
√
Option
√
√
√
√
√
√
0 ... +10 V
12 bit
5(4)
1
1
√
√
√
√
8/32
√
√
√
FC 301
0.25 – 37
0.37 – 75
–
–
√
√
√
√
50° C
√
50/75 m
–
√
√
√
–
√
Standard
√
√
Option
√
√
√
√
√
√
0 ... +10 V
12 bit
5 (4)
1
1
√
√
√
√
8/32
√
√
√
FC 302
0.25 – 37
0.37 – 1100
0.75 – 7.5
11 – 1000
√
√
√
√
50° C
√
√
150/300 m
√
√
√
√
√
√
Standard
√
√
Option
√
√
√
√
√
√
-10 ... +10 V
12 bit
6 (4)
2
2
√
√
√
√
8/32
√
√
√
√
√
√
√
√
√
–
–
–
√
√
√
√
√
√
–
√
√
√
√
√
√
√
√
√
√
√
13
Specifications
(Basic unit without extensions)
Main supply (L1, L2, L3)
FC 301
Supply voltage
Supply voltage
FC 302
200 – 240 V ±10%
380 – 480 V ±10%
380 – 500 V ±10%
Supply voltage
525 – 600 V ±10%
Supply voltage
525 – 690 V ±10%
Supply frequency
50/60 Hz
Displacement power factor
(cos ф) near unity
Harmonic disturbance
Meets EN 61000-3-12
FC 301
Output voltage
0 – 100% of supply voltage
FC 302
1
Current range at
analogue output
0/4 – 20 mA
Max. load to common at
analogue output (clamp 30)
Max. load (10 V)
15 mA
0.02-3600 sec.
Max. load (24 V)
130 mA
200 mA
FC 301
FC 302
1
2
0-1000 Hz
FC 302
Relay output
4(6) > 6
Programmable relay outputs
Changeable to digital output
1 (terminal 27)
2 (terminal 27, 29)
Logic
PNP or NPN
Voltage level
0 – 24 V DC
Maximum voltage on input
28 V DC
Input resistance, Ri
Approx. 4 kΩ
5 ms
1 ms
FC 301
FC 302
Analogue inputs
2
0 to +10 V
(scaleable)
-10 to +10 V
(scaleable)
Pulse/encoder inputs
FC 301
Programmable
pulse/encoder inputs
Encoder input accuracy
(1 – 110 kHz)
Digital output
Programmable
digital/pulse outputs
Voltage level at
digital/frequency output
Max. output current
(sink or source)
Maximum output frequency
at frequency output
Accuracy on frequency
output
14
240 V AC, 2 A
Max. terminal load (AC) on
4-5 (make) power card
400 V AC, 2 A
Min. terminal load on
1-3 (break), 1-2 (make),
4-6 (break), 4-5 (make)
power card
Enclosure
24 V DC 10 mA, 24 V AC 20 mA
FC 302
2/1
0 – 24 V DC (PNP positive logic)
Max. error: 0.1% of full scale
FC 301
Max. relative humidity
FC 302
IP00, IP20, IP21, IP54, IP55, IP66
Vibration test
0/4 to 20 mA (scaleable)
Max. error: 0.5% of full scale
Pulse input accuracy
(0.1 - 1 kHz)
Max. terminal load (AC)
on 1-3 (break), 1-2 (make),
4-6 (break) power card
Surroundings/external
Voltage or current
Accuracy of analogue inputs
Voltage level
Type “B”
Unlimited
FC 301
Current level
FC 302
1.1 (Full Speed)
USB plug
4(5) > 5
Voltage level
FC 301
Up to 115 kBaud
0.2-1000 Hz
Modes
Max. error: 1% of full scale
USB interface
Programmable digital inputs
Analogue inputs
500 Ω
Control card
Digital inputs
Scan interval
FC 302
RS485 interface
Switching on output
Ramp times
FC 301
Programmable
analogue outputs
Accuracy on analogue output
> 0.98
Output data (U, V, W)
Output frequency
Analogue output
1.0 g (D-enclosure: 0.7 g)
5% – 95% (IEC 721-3-3; Class 3C3
(non-condensing) during operation
Aggressive environment
(IEC 721-3-3)
Uncoated class 3C2,
optional coated class 3C3
Ambient temperature
Max. 50° C
Galvanic isolation of all
I/O supplies according to PELV
Protection mode for longest possible up-time
• Electronic thermal motor protection against overload
Max. error: 0.05% of full scale 32 (A),
33 (B) and 18 (Z)
FC 301
FC 302
1
2
• Temperature monitoring of the heat sink ensures that
the FC 300 cuts out if the temperature reaches 100 °C
• The FC 300 is protected against short-circuits on motor terminals
U, V, W
• The FC 300 is protected against earth fault on motor terminals U, V, W
• Protection against mains phase loss
0 – 24 V DC
40 mA
0 to 32 kHz
Max. error: 0.1% of full scale
Global Marine
Connection examples
The numbers represent the terminals on the drive.
(1)
(1)
(2)
*(1) Not FC 301
*(2) Standard for FC 302 – and for FC 301, when delivered in A1 enclosure.
The diagram shows the port terminals
of the FC 301 and FC 302. Additional
options will expand the number of
terminals.
The numbers indicated refer to the
terminal numbers of the drives.
Brake resistance (terminals 81 and 82)
and intermediate circuit connection
(terminals 88 and 89) must be
specified when configuring/ordering.
Users can set the mode of the
analogue inputs 53 and 54 using the
S201 and S202 switches.
All FC 301/302 have an RS485 and a
USB interface as standard. The RS485
terminations are integrated in the
drive (S801). The drive can be
equipped with a fieldbus option if
necessary.
To switch from NPN to PNP logic for
the digital signals, use parameter
5-00.
15
PK25
0.25
1.8
PK37
0.37
2.4
PK55
0.55
3.5
PK75
0.75
4.6
P1K1
1.1
6.6
P1K5
1.5
7.5
P2K2
2.2
10.6
P3K0
3
12.5
P3K7
3.7
16.7
A2
A5
A2
A3 A3
5.5 7.5 24.2 30.8
P7K5
7.5 11 30.8 46.2
P11K
11 15 46.2 59.4
P15K
15 18.5 59.4 74.8
P18K
18.5 22 74.8 88
P22K
22 30 88 115
P30K
30 37 115 143
P37K
37 45 143 170
B3 B1 B1
B4
C3
1.3
0.37
1.2
0.55
1.8
0.55
1.6
0.75
2.4
0.75
2.1
1.1
3
1.1
2.7
A2
T7
690 V (FC 302 only)
(@ 575 V)
(@ 690 V)
[A]
HO NO HO NO
0.75
1.7
1.1
2.4
1.5
4.1
1.5
3.4
1.5
2.7
5.6
2.2
4.8
2.2
3.9
3
7.2
3
6.3
3
4.9
4
10
4
8.2
5.5
13
5.5
11
7.5
16
7.5
14.5
A2
A2 A2
A3 A3
B3 B1
15 18.5 32 37.5 15 18.5 27 34
C1 C1 18.5 22 37.5 44 18.5 22 34 40
22 30 44 61 22 30 40 52
B4
A5
B1
P45K
45 55 90 106 55 75 80 105
P55K
55 75 106 147 75 90 105 130
P75K
75 90 147 177 90 110 130 160
P90K
90 110 177 212 110 132 160 190
P110
110 132 212 260 132 160 190 240
P132
132 160 260 315 160 200 240 302
C3
P160
160 200 315 395 200 250 302 361 D4
P200
200 250 395 480 250 315 361 443
9
7.5
11
11 15 18 22
15 18.5 22 27
HO NO HO NO
A3 A3 A5
A3 A3 A5
B3 B1 B1
18.5 22 27 34
15 18.5 18 22
30 37 41 52
30 37 34 41
C1 37 45 52 62
C1 C1 37 45 41 52
45 55 62 83
C2
55 75 83 100
75 90 100 131
D1 D1
C3
C4 C2 C2
B2
18.5 22 22 27
C1
22 30 34 41 B4
B2 B2
11 15 13 18
B2
C4 C2
D3
6.1
[A]
B2
30 37 61 73 30 45 52 65
37 45 73 90 45 55 65 80
4
5.5
[kW]
IP 00
[kW]
IP 20
IP 21
IP 55/IP 66
IP 55/IP 66
A5
T6
525 – 600 V (FC 302 only)
2.2
B2 B2 11 15 24 32 11 15 21 27
C4 C2 C2
IP54
[A]
IP 21
[kW]
IP 20
[A]
HO NO HO NO HO NO HO NO
0.37
P4K0
P5K5
[kW]
IP00
HO NO HO NO
IP 21
[A]
T4/T5
441 – 480 V (FC 301)
441 – 500 V (FC 302)
(@ 480/500V)
A1*/A2
(@ 400V)
IP 55/IP 66
(@ 200/240 V)
IP 20
FC 300
T4/T5
380 – 440 V
A1*/A2
[kW]
T2
200 – 240 V
22 30 27 34
45 55 52 62
C2
55 75 62 83
75 90 83 100
90 110 108 131
110 132 131 155 D3 D1
132 160 155 192
D2 D2
160 200 192 242
200 250 242 290
D4 D2
HO (High overload) = 160 %/60 s, NO (Normal Overload) = 110%/60 s
A1*: For selection of A1 see enclosure types in the code position 4 (FC 301 only)
IP 00/Chassis
IP 20/Chassis
IP 21/NEMA Type 1
With upgrade kit**
** MCF 101 – IP 21 Kit (upgrades from IP 20 to IP 21). See page 34
The VLT® AutomationDrive series is rated for motor performance from
0.25 to 1,200 kW with supply voltages from 200 V to 690 V.
Drives for powers from 90 kW to 1,200 kW are described in the brochure
“VLT® High Power Drives – Selection Guide“ (DKDD.PB.56.A1.02).
16
IP 21/IP 5x
Power, currents and enclosures
IP 54/NEMA Type 12
IP 55/NEMA Type 12
IP 21, IP 54 or IP 55
Ordering type code for VLT® AutomationDrive
[1]
FC
[2]
–
[3]
–
[4]
–
[5]
–
[1] Application
301 VLT® AutomationDrive FC 301
302 VLT® AutomationDrive FC 302
[2] Power Size
PK25
PK37
PK55
PK75
P1K1
P1K5
P2K2
P3K0
P3K7
P4K0
See ratings data on page 16
P5K5
for power ratings
P7K5
P11K
P15K
P18K
P22K
P30K
P37K
P45K
Pxxx
P200
[3] AC Line Voltage
T2
3 x 200/240 V AC
T4
3 x 380/480 V AC (FC 301)
T5
3 x 380/500 V AC (FC 302)
T6
3 x 525/600 V AC (FC 302)
T7
3 x 525/690 V AC (FC 302)
[4] Enclosure
For cabinet mounting:
E00 IP 00 (enclosure D3, D4)
Z20 IP 20 (enclosure A1, FC 301 only)
E20 IP 20 (enclosure A2, A3, B3, B4, C3, C4)
Standalone:
E21 IP 21 (enclosure B1, B2, C1, C2, D1, D2)
E54 IP 54 (enclosure D1, D2)
E55 IP 55 (enclosure A5, B1, B2, C1, C2)
E66 IP 66 (enclosure A5, B1, B2, C1, C2)
Special designs:
C00
IP 00 (enclosure E00 – air duct in stainless
steel)
P20
E2M
P21
E5M
P55
IP 20 (enclosure B4, C3, C4 – rear heat sink)
IP 21 (enclosure D1, D2 – protective cover)
IP 21 (Enclosure as E21 – rear heat sink)
IP 54 (enclosure D1, D2 – protective cover)
IP 55 (enclosure as E55 – rear heat sink)
[6]
[7]
–
–
[8]
–
[9]
–
[10]
[11]
– X – X – SXX X –
[5] RFI Filter (EN 55011)
H1
RFI-Filter Class A1/B
H2
No RFI-Filter, Class A2
H3
RFI -Filter Class A1/B 1)
H4
RFI -Filter, Class A1 2)
H6
RFI -Fillter für Marine 2)
HX
No RFI-Filter (only 600 V)
[6] Braking & Safety
X
No brake IGBT
B
Brake IGBT mounted
T
Safe stop without brake 1)
(FC 301 – only in A1 enclosure)
U
With brake and Safe Stop 1)
(FC 301 – only in A1 enclosure)
[7] Display (Local Control Panel)
X
Blank faceplate, no LCP installed
G
LCP 102 – Numeric LCP installed
N
LCP 101 – Graphic LCP installed
[8] Conformal Coating (IEC 721-3-3)
X
No conformal coating (Class 3C3)
C
Conformal coating on all PCBs (Class 3C2)
[9] Mains Input
X
No option
1
Mains disconnect
3
Mains disconnect and fuses 2)
5
Mains disconnect, fuses and load sharing 2)
7
Fuses 2)
8
Mains disconnect and load sharing 3)
A
Fuses & load sharing terminals 2)
D
Load sharing terminals 3)
[12] LCP Language
X
Standard language package including
English, German, French, Spanish, Danish,
Italian and Finnish
Consult factory for other language options
[12]
[13]
–
[14]
–
[15]
–
[16]
–
[17]
–
[18]
–
[14] B Option (Application)
BX
No application option
BK
MCB 101 – general purpose I/O
BR
MCB 102 – encoder input
BU
MCB 103 – resolver input
BP
MCB 105 – relay expansion
BZ
MCB 108 – safety PLC interface
B2
MCB 112 – ATEX-PTC thermistor
[15] C0 Option (Motion Control Option)
CX
No motion control option
C4
MCO 305/350/351 motion control,
synchronising and/or positioning
(see [17])
[16] C1 Option (Extended Relay)
X
No option
R
MCB 113 – extended relay (FC 302 only)
[17] Software for Motion Control Option
No motion software
Note: C4 option in [15] selected with no
XX
motion software in [17] will require programming by a qualified individual
10
MCO 350 synchronising control software
(must select C4 in position [15])
11
MCO 351 positioning control software
(must select C4 in position [15])
12
MCO 352 – Center winder
(Choose C4 under field [15])
[18] D Option (Control Power Backup Input)
DX
No DC input installed
D0
MCB 107 24 VDC backup input
1) FC 301/A1 enclosures only
2) D1, D2, D3, D4 enclosures only
3) B1, B2, C1, C2 enclosures only
Please beware that not all combinations
are possible. Find help configuring your drive
with the online configurator found under:
driveconfig.danfoss.com
[13] A Option (Fieldbus)
AX
No fieldbus option
A0
MCA 101 – Profibus DPV1
A4
MCA 104 – DeviceNet
p
A6
MCA 105 – CANopen
CA 121 – Ethernet/IP
AN
MCA
Based on your selection, Danfoss manufactures the desired VLT® AutomationDrive.
You will receive a fully assembled frequency
converter, tested under full load conditions.
17
200 – 240 VAC
IP 20
IP20 (IP21)
Enclosure
Typical Shaft Output
Output Current
Continuous
IVLT, N
Intermittent/60 s IVLT, MAX
Output Power
Continuous (208 V)
SVLT, N
IL, N
Rated Input Current
Intermittent/60 s IL, MAX
Estimated power loss at rated maximum load
Efficiency
Max. cable cross-section
(input mains terminals, motor output terminals,
brake resistor terminals)
Max. external input (mains) fuses
Weight
IP 20 (A1)
IP 20 (A2/A3)
IP 55, IP 66 (A5)
Continuous
A1
[kW]
[A]
[A]
PK25
0.25
1.8
2.9
PK37
0.37
2.4
3.8
PK55
0.55
3.5
5.6
A2
PK75
0.75
4.6
7.4
P1K1
1.1
6.6
10.6
P1K5
1.5
7.5
12.0
P2K2
2.2
10.6
17.0
P3K0
3
12.5
20.0
P3K7
3.7
16.7
26.7
[KVA]
[A]
[A]
[W]
0.65
1.6
2.6
21
0.86
2.2
3.5
29
1.26
3.2
5.1
42
1.66
4.1
6.6
54
2.38
5.9
9.4
63
2.70
6.8
10.9
82
3.82
9.5
15.2
116
0.96
4.50
11.3
18.1
155
6.00
15.0
24.0
185
0.94
0.95
[mm2]
([AWG2])
0.2 – 4 (24 – 10)
[A]
10
[kg]
[kg]
[kg]
20
2.7
4.8
4.7
–
4.9
Typical Shaft Output
Output Current
Output Power
Continuous (208 V)
SVLT,N
IL,N
Rated Input Current
Intermittent/60 s IL,MAX
Estimated power loss at rated maximum load
Efficiency
Max. cable cross-section
(input mains terminals, motor output terminals,
brake resistor terminals)
Max. external input (mains) fuses
Weight
IP 20
IP 21, IP 55, IP 66
Continuous
Enclosure
[KVA]
[A]
[A]
[W]
HO
5.5
24.2
38.7
B4
B2
P11K
P7K5
NO
HO
NO
7.5
30.8
33.9
8.7
22
35.2
239
49.3
30.8
310
HO
73.9
NO
15
59.4
65.3
67.2
463
21.4
54
59.4
602
11
46.2
50.8
11.1
28
16.6
42
44.8
371
0.96
46.2
514
0.96
2
0.96
[mm ]
([AWG2])
16 (6)
35 (2)
[A]
63
80
[kg]
[kg]
12
23
23.5
27
IP 20
IP21, IP55, IP66
Intermittent
Typical Shaft Output
[kW]
[A]
Continuous
IVLT,N
Output Current
Intermittent/60 s IVLT,max
[A]
Continuous
[KVA]
Output Power
SVLT,N
(208 V)
Continuous
IL,N
[A]
Rated Input Current
Intermittent/60 s IL,MAX
[A]
Estimated power loss at rated maximum load
[W]
Efficiency
[mm2]
Max. cable cross-section (IP20)
([AWG2])
[mm2]
Max. cable cross-section (IP21, IP55, IP66)
([AWG2])
Max. external input (mains) fuses
[A]
Weight
IP 20
[kg]
IP 21, IP 55, IP 66
[kg]
HO (High overload) = 160%/60 s, NO (Normal overload) = 110%/60 s
18
6.6
B3
B1
P5K5
Intermittent
[kW]
[A]
Continuous
IVLT,N
Intermittent/60 s IVLT,max
[A]
32
13.5
IP20
IP21, IP55, IP66
Enclosure
A3
B4
C3
C1
P18K5
HO
NO
C4
C2
P15K
HO
NO
15
18.5
59.4
74.8
89.1
82.3
112
P22K
HO
NO
96.8
132
127
173
P37K
HO
NO
37
45
143
170
157
215
187
21.4
26.9
26.9
31.7
31.7
41.4
41.4
51.5
54
81
624
74.8
737
102
740
88
845
120
874
104
114
156
1140 1143
0.97
22
88
68
30
115
80
0.96
35 (2)
P30K
HO
NO
51.5
61.2
130
143
195
1353 1400
154
169
1636
90 (3/0)
120 (4/0)
90 (3/0)
120 (4/0)
125
160
23.5
35
45
200
250
50
65
380 – 480/500 VAC
IP20
IP20 (IP21)
IP55, IP66
Enclosure
Typical Shaft Output
Output Current
380 – 440 V
Output Current
441 – 480/500 V
Output Power
Rated Input Current
380 – 440 V
Rated Input Current
441 – 480/500 V
Continuous
Intermittent 160%/60 s
Continuous
Intermittent 160%/60 s
400 V
460 V
Continuous
Intermittent 160%/60 s
Continuous
Intermittent 160%/60 s
IVLT,N
IVLT,max
IVLT,N
IVLT,max
[kW]
[A]
[A]
[A]
[A]
SVLT,N
[KVA]
IL,N
IL,MAX
IL,N
IL,MAX
[A]
[A]
[A]
[A]
[W]
Estimated power loss at rated maximum load
Efficiency
Max. cable cross-section
(input mains terminals, motor output terminals,
brake resistor terminals)
Max. external input (mains) fuses
Weight
IP20
IP55, IP66
A1
A2
PK37
0.37
1.3
2.1
1.2
1.9
0.9
0.9
1.2
1.9
1.0
1.6
35
0.93
PK55
0.55
1.8
2.9
1.6
2.6
1.3
1.3
1.6
2.6
1.4
2.2
42
0.95
[mm2]
([AWG2])
[A]
[kg]
[kg]
10
Typical Shaft Output
Output Current
380 – 440 V
Continuous
Output Current
441 – 480/500 V
Continuous
Output Power
Rated Input Current
380 – 440 V
Rated Input Current
441 – 480/500 V
Intermittent 160%/60 s
Intermittent 160%/60 s
400 V
460 V
Continuous
Intermittent 160%/60 s
Continuous
Intermittent 160%/60 s
Estimated power loss at rated maximum load
Efficiency
Max. cable cross-section
Max. external input (mains) fuses
Weight
IP20
IP21, IP55, IP66
SVLT,N
[KVA]
IL,N
IL,MAX
IL,N
IL,MAX
[A]
[A]
[A]
[A]
[W]
P5K5
5.5
13
20.8
11
17.6
9.0
8.8
11.7
18.7
9.9
15.8
187
20
4.7
P7K5
7.5
16
25.6
14.5
23.2
11.0
11.6
14.4
23.0
13.0
20.8
255
32
4.8
6.6
14.2
13.5
B3
B1
B4
B2
P11K
Intermittent
[kW]
[A]
IVLT,N
IVLT,max
[A]
IVLT,N
[A]
IVLT,max
[A]
P3K0 P4K0
3
4
7.2
10
11.5
16
6.3
8.2
10.1
13.1
5.0
6.9
5.0
6.5
6.5
9.0
10.4
14.4
5.7
7.4
9.1
11.8
116
124
0.97
0.2 – 4 (24 – 10)
IP 20
IP21, IP55, IP66
Enclosure
PK75 P1K1
0.75
1.1
2.4
3
3.8
4.8
2.1
2.7
3.4
4.3
1.7
2.1
1.7
2.4
2.2
2.7
3.5
4.3
1.9
2.7
3.0
4.3
46
58
0.96
A3
A5
P1K5 P2K2
1.5
2.2
4.1
5.6
6.6
9.0
3.4
4.8
5.4
7.7
2.8
3.9
2.7
3.8
3.7
5.0
5.9
8.0
3.1
4.3
5.0
6.9
62
88
HO
11
24
38.4
21
33.6
16.6
P15K
NO
HO
15
32
35.2
51.2
41.3
27
29.7
HO
43.2
60
37.4
48.4
54.4
70.4
44
64
30.5
27.1
31.9
41.4
34
46.4
37.4
40
379
34.1
465
25
NO
30.0
61
67.1
52
57.2
42.3
40
26
29
27.5
392
HO
22.0
44
34
22.2
31.9
P22K
NO
18.5
37.5
21.5
22
35.2
19
30.4
291
P18K
NO
40
54.4
44
49.6
444
39.6
525
31
55
60.5
47
51.7
739
64
36
57.6
547
0.98
[mm2]
([AWG2])
[A]
[kg]
[kg]
16 (6)
35 (2)
63
12
23
80
23.5
27
HO (High overload) = 160%/60 s, NO (Normal overload) = 110%/60 s
19
380 – 480/500 VAC
IP 20
IP21, IP55, IP66
Enclosure
Typical Shaft Output
Output Current
Continuous
(380 – 440 V)
Intermittent/60 s
Output Current
Continuous
(441 – 480/500 V)
Intermittent/60 s
Rated Input Current
400 V
460 V
Continuous
(380 – 440V)
Intermittent/60 s
Rated Input Current
Continuous
(441 – 480/500 V)
Intermittent/60 s
Output Power
Intermittent
[kW]
IVLT,N
[A]
IVLT,max
[A]
IVLT,N
[A]
IVLT,max
[A]
[KVA]
SVLT,N
SVLT,N
[KVA]
IL,N
[A]
IL,MAX
[A]
IL,N
[A]
IL,MAX
[A]
[W]
Estimated power loss at rated maximum load
Efficiency
Max. cable cross-section
(IP20, input mains terminals, motor output terminals)
Max. cable cross-section
(IP20, DC Link, brake resistor terminals)
Max. cable cross-section
(IP21, IP55, IP66)
Max. external input (mains) fuses
Weight
IP20
IP21, IP55, IP66
[mm2]
([AWG2])
[mm2]
([AWG2])
[mm2]
([AWG2])
[A]
Output Current
(400 V)
(500 V)
Continuous
(400 V)
Intermittent/60 s IVLT,max
Output Current
Continuous
(460/500 V)
Intermittent/60 s IVLT,max
Rated Input Current (400 V)
Rated Input Current
[kW]
IVLT,N
IVLT,N
400 V
460 V
500 V
Continuous
SVLT,N
SVLT,N
SVLT,N
IL,N
Continuous
IL,N
[A]
[A]
[A]
[A]
[KVA]
[KVA]
[KVA]
[A]
35 (2)
100
125
160
250
35
50
65
45
D1
D3
D2
D4
P160
HO
NO
P90K
P110
P132
HO
NO
HO
NO
HO
NO
90
110
132
160
110
132
160
200
177
212
260
315
266
233
318
286
390
347
473
160
190
240
302
240
209
285
264
360
332
453
123
147
180
218
127
151
191
241
139
165
208
262
171
204
251
304
Estimated power loss at rated maximum load
Efficiency
[W]
2641
Max. cable cross-section
(input mains terminals, motor output terminals,
brake resistor terminals, DC Link)
[mm2]
([AWG2])
Max. external input (mains) fuses
Weight
IP00
IP21, IP54
95 (4/0)
120 (4/0)
23.5
154
183
3234
231
2995
3782
P200
HO
NO
200
250
250
315
395
480
435
593
528
361
443
397
542
487
274
333
288
353
313
384
381
463
291
3425 4213
0.98
2 x 70
(2 x 2/0)
348
3910
5119
427
4625
5893
2 x 185
(2 x 350 mcm)
[A]
300
350
400
500
600
[kg]
[kg]
82
96
91
104
112
125
123
136
138
151
HO (High overload) = 160%/60 s, NO (Normal overload) = 110%/60 s
20
50 (1)
90 (3/0)
[A]
(460/500 V)
C4
C2
P30K
P45K
P55K
P75K
HO
NO
HO
NO
HO
NO
HO
NO
30
37
45
55
75
90
61
73
90
106
147
177
91.5
80.3
110
99
135
117
159
162
221
195
52
65
80
105
130
160
78
71.5
97.5
88
120
116
158
143
195
176
42.3
50.6
62.4
73.4
102
123
51.8
63.7
83.7
104
128
55
66
82
96
133
161
82.5
72.6
99
90.2
123
106
144
146
200
177
47
59
73
95
118
145
70.5
64.9
88.5
80.3
110
105
143
130
177
160
570
698
697
843
891
1083 1022 1384 1232 1474
0.98
0.99
150
35 (2)
50 (1)
95 (4/0)
(300mcm)
IP21, IP54
IP00
Intermittent
Output Power
C3
C1
P37K
HO
NO
[kg]
[kg]
Enclosure
Typical Shaft Output
B4
525 – 600 VAC
(FC 302 only)
Enclosure
Typical Shaft Output (575 V)
Output Current
Continuous (525 – 550 V)
Intermittent (525 – 550 V)
Continuous (551 – 600 V)
Intermittent (551 – 600 V)
Output Power
Continuous (525 V)
Continuous (575 V)
Estimated power loss at rated maximum load
Rated Input Current
Continuous (525 – 600 V)
Intermittent (525 – 600 V)
Efficiency
Max. cable cross-section
(input mains terminals, motor output terminals,
brake resistor terminals)
Max. external input (mains) fuses
Weight
IP20
IP55, IP66
Enclosure
Typical Shaft Output (575 V)
Output Current
Continuous (525-550 V)
Intermittent (525-550 V)
Continuous (525-600 V)
Intermittent (525-600 V)
Output Power
Continuous (500 V)
Continuous (575 V)
Rated Input Current
Continuous 550 V
Intermittent (550 V)
Continuous (575 V)
Intermittent (575 V)
Estimated power loss at rated maximum load
Efficiency
Max. cable cross-section IP20
(input mains terminals, motor output terminals,
brake resistor terminals, DC Link)
Max. cable cross-section IP21, 55, 66
(input mains terminals, motor output terminals,
brake resistor terminals, DC Link)
Max. external input (mains) fuses
Weight
IP20
IP21, IP55, IP66
IP20 (IP21)
IP55, IP66
A3
A5
[kW]
PK75
0.75
P1K1
1.1
P1K5
1.5
P2K2
2.2
P3K0
3
P4K0
4
P5K5
5.5
P7K5
7.5
[A]
[A]
[A]
[A]
1.8
2.9
1.7
2.7
2.6
4.2
2.4
3.8
2.9
4.6
2.7
4.3
4.1
6.6
3.9
6.2
5.2
8.3
4.9
7.8
6.4
10.2
6.1
9.8
9.5
15.2
9.0
14.4
11.5
18.4
11.0
17.6
[KVA]
[KVA]
[W]
1.7
1.7
35
2.5
2.4
50
2.8
2.7
65
3.9
3.9
92
5.0
4.9
122
6.1
6.1
145
9.0
9.0
195
11.0
11.0
261
[A]
[A]
1.7
2.7
2.4
3.8
2.7
4.3
4.1
6.6
5.2
8.3
5.8
9.3
8.6
13.8
10.4
16.6
0.97
[mm2]
([AWG2])
0.2 – 4 mm2 (24 – 10)
[A]
0.2 – 4 mm2 (24 – 10 )
10
20
[kg]
[kg]
IP20
IP21, IP55, IP66
Intermittent
[kW]
32
6.5
13.5
6.6
14.2
B3
B1
B4
C1
P11K
P15K
P18K5
P22K
P30K
HO
NO
HO
NO
HO
NO
HO
NO
HO
NO
11
15
18.5
22
30
37
[A]
[A]
[A]
[A]
19
30
18
29
[KVA]
[KVA]
18.1
17.9
[A]
[A]
[A]
[A]
[W]
17.2
28
16
26
B2
23
25
28
37
31
35
30
22
24
43
37
28
32
27
285
20
47
54
45
36
39
34
329
24
62
41.0
40.8
32.7
41
54
59
52
57
65
41
34.3
33.9
25.4
33
43
58
34
26.7
26.9
20.9
22
225
40
27
21.9
21.9
23
36
45
51.4
51.8
39
52
43
50
41
700
31
49
54
47
52
700
59
37
56
0.98
2
[mm ]
([AWG2])
35 (2)
16 (6)
[mm2]
([AWG2])
[A]
[kg]
[kg]
90 (3/0)
63
63
12
23
63
80
100
23.5
27
HO (High overload) = 160%/60 s, NO (Normal overload) = 110%/60 s
21
525 – 600 VAC
(FC 302 only)
Enclosure
IP21, IP55, IP66
IP20
C1
C3
C2
C4
P37K
Intermittent
[kW]
Typical Shaft Output (575 V)
Output Current
Continuous (525 – 550 V)
IVLT,N
Intermittent (525 – 550 V)
IVLT,max
Continuous (525 – 600 V)
IVLT,N
Intermittent (525 – 600 V)
IVLT,max
Output Power
Continuous (550 V)
SVLT,N
Continuous (575 V)
Rated Input Current
Continuous (550 V)
IL,N
Intermittent (550 V)
IL,MAX
Continuous (575 V)
IL,N
Intermittent (575 V)
IL,MAX
Estimated power loss at rated maximum load
Efficiency
Max. cable cross-section
(IP20, input mains terminals, motor output terminals)
Max. cable cross-section
(IP20, DC Link, brake resistor terminals)
Max. cable cross-section
(IP21, 55, 66, input mains terminals,
motor output terminals, brake resistor terminals,
DC Link)
Max. external input (mains) fuses
IP20
Weight
IP21, IP55, IP66
[A]
[A]
[A]
[A]
54
81
52
78
[KVA]
51.4
51.8
[A]
[A]
[A]
[A]
[W]
P45K
NO
HO
P55K
NO
45
96
93
91
49
74
47
70
850
125
110
87
85
83
150
100
99.6
130.5
130.5
95.3
118
105
113
100
75
1100
137
151
131
144
158
100
78.9
89
56
62
116
82.9
82.7
59
65
NO
90
105
131
83
61.9
61.7
HO
75
87
98
62
68
P75K
NO
55
65
72
HO
124.3
137
119
131
143
91
137
1400
1500
95 (4/0)
150 (300 mcm)
0.98
[mm2]
([AWG2])
[mm2]
([AWG2])
50 (1)
[mm2]
([AWG2])
90 (3/0)
[A]
[kg]
[kg]
HO (High overload) = 160%/60 s, NO (Normal overload) = 110%/60 s
22
HO
37
95 (4/0)
125
120 (4/0)
160
35
45
250
50
65
690 VAC
(FC 302 only)
Enclosure
Typical Shaft Output (690 V)
Output Current
Continuous (525 – 550 V)
Intermittent (525 – 550 V)
Continuous (551 – 690 V)
Intermittent (551 – 690 V)
Output Power
Continuous (550 V)
Continuous (575 V)
Continuous (690 V)
Rated Input Current
Continuous (525 – 690 V)
Intermittent (525 – 690 V)
Estimated power loss at rated
maximum load
Efficiency
Max. cable cross-section
(input mains terminals, motor output
terminals, brake resistor terminals,
DC Link)
IP21/IP55
B2
C2
P11K
P15K
P18K5
P22K
P30K
P37K
P45K
P55K
P75K
Intermittent HO NO HO NO HO NO HO NO HO NO HO NO HO NO HO NO HO
NO
[kW]
11
15
18.5
22
30
37
45
55
75
90
[A]
[A]
[A]
[A]
[KVA]
[KVA]
[KVA]
[A]
[A]
105
115.5
100
110
13.3
12.9
15.5
100
99.6
119.5
18.1
17.9
21.5
21.9
21.9
26.3
26.7
26.9
32.3
34.3
33.9
40.6
41.0
40.8
49.0
51.4
51.8
62.1
61.9
61.7
74.1
82.9
82.7
99.2
15
19.5
24
29
36
49
59
71
87
99
23.2 21.5 31.2 26.4 38.4 31.9 46.4 39.6 54 53.9 72 64.9 87 78.1 105 95.7 129 108.9
[W]
228
285
335
375
480
592
720
880
100
125
65
1200
0.98
[mm2]
([AWG2])
Max. external input (mains) fuses
Weight
Enclosure
Typical Shaft Output (690 V)
Output Current
Continuous (575 – 690 V)
Intermittent (575 – 690 V)
Output Power
Continuous (550 V)
Continuous (575 V)
Continuous (690 V)
Rated Input Current
Continuous (550 V)
Continuous (575 V)
Continuous (690 V)
Estimated power loss at rated maximum load
Efficiency
Max. cable cross-section IP20
(input mains terminals, motor output terminals,
brake resistor terminals, DC Link)
Max. external input (mains) fuses
Weight
IP00
IP21, IP54
14
19
23
28
36
43
54
65
87
22.4 20.9 30.4 25.3 36.8 30.8 44.8 39.6 54 47.3 64.5 59.4 81 71.5 97.5 95.7 130.5
13
18
22
27
34
41
52
62
83
20.8 19.8 28.8 24.2 35.2 29.7 43.2 37.4 51 45.1 61.5 57.2 78 68.2 93 91.3 124.5
35 (1/0)
[A]
[kg]
63
27
80
IP00
IP21/IP54
Intermittent
[kW]
P90K
HO
NO
90
110
D3
D1
P110
HO
NO
108
162
131
[KVA]
[KVA]
[KVA]
108
108
129
131
130
157
[A]
[A]
[A]
[W]
110
106
109
2264
130
124
128
2662 2664
144
[A]
[kg]
[kg]
P132
HO
NO
171
P160
HO
NO
160
155
197
[mm2]
([AWG2])
D4
D2
132
[A]
[A]
192
233
211
154
154
185
266
191
191
229
158
198
151
189
155
197
3114 2953 3612 3451
0.98
290
319
363
241
241
289
289
289
347
245
234
240
4292 4275
299
286
296
5156
2 x 185 (2 x 350 mcm)
315
82
96
P200
HO
NO
200
250
242
288
2 x 70 (2 x 2/0)
250
160
350
91
104
400
112
125
123
136
HO (High overload) = 160%/60 s, NO (Normal overload) = 110%/60 s
23
Dimensions VLT® AutomationDrive
Exhaust
205 (220)
60
∅5
Exhaust
279
200
190
A1 Enclosures
75
Min. 100
In mm
Min. 100
Inlet
∅5
Inlet
Rear View
Min. 100
Exhaust
Depth 220 mm with A/B-Options
205 (220)
∅ 5,5
90
70
Min. 100
Inlet
257
341
268
A2 Enclosures
Exhaust
Inlet
∅ 5,5
Rear View
205 (220)
∅ 5,5
130
110
Min. 100
Inlet
341
257
Exhaust
∅ 5,5
Inlet
Rear View
Depth 220 mm with A/B-Options
24
268
Exhaust
A3 Enclosures
Min. 100
Depth 220 mm with A/B-Options
∅ 6,5
Exhaust
∅9
Exhaust
∅9
Inlet
B1 Enclosures
454
Min. 100
Exhaust
Exhaust
Min. 100
A5 Enclosures
402
A1 Gehäuse180
Min. 100
Inlet
420
Exhaust
B2 Enclosures
Min. 100
Inlet
480
242
624
A3 Gehäuse
Exhaust
Min. 200
242
Min. 200
Inlet
650
Dimensions VLT® AutomationDrive
In mm
200
∅ 6,5
215
Inlet
Rear View
260
242
∅9
210
Inlet
Rear View
260
∅9
Rear View
210
25
Dimensions VLT® AutomationDrive
Exhaust
Min. 200
In mm
165
249 (262)
∅ 6,8
140
∅ 6,8
Rear View
380
399
Min. 200
Inlet
419
B3 Enclosures
Exhaust
Inlet
Depth 262 mm with A/B-Options
231
Min. 200
Exhaust
242
272
∅9
Min. 200
Inlet
680
648
Exhaust
Exhaust
∅9
Inlet
26
520
460
495
35
Min. 200
Inlet
595
B4 Enclosures
Rear View
Inlet
310
Min. 200
200
∅ 8,5
308
C1 Enclosures
∅ 8,5
Exhaust
Rear View
Min. 225
Inlet
334
∅ 8,5
Inlet
∅ 8,5
334
∅ 8,5
C3 Enclosures
Exhaust
Min. 225
C2 Enclosures
739
A1 Gehäuse180
Min. 225
Inlet
∅9
550
36
Inlet
521
488
630
Min. 200
Exhaust
370
C4 Enclosures
36
Min. 200
Inlet
Exhaust
631
660
598
A3 Gehäuse
800
Exhaust
Min. 225
770
Dimensions VLT® AutomationDrive
In mm
335
334
∅9
Rear View
308
270
Exhaust
210
Rear View
370
330
Exhaust
Inlet
∅ 8,5
Rear View
27
Dimensions VLT® AutomationDrive
In mm
420
D1 Enclosures (Floor- or cabinet Mount)
74
Min. 22
Exhaust
765 m3/hr
170 m3/hr
1166
1209
Min. 225
Inlet
981
310
163
380
417
Optional pedestal 176F1827 available
for stand-alone floor mount installations
(adds 200 mm to height)
420
72
D2 Enclosures (Floor- or cabinet Mount)
Min. 225
Exhaust
765 m3/hr
1362
170 m3/hr
1589
1547
Min. 225
Inlet
423
157
380
417
28
Optional pedestal 176F1827 available
for stand-alone floor mount installations
(adds 200 mm to height)
Drives shown with optional
disconnect switch
Dimensions VLT® AutomationDrive
In mm
408
255 m3/hr
A1 Gehäuse180
Min. 225
Exhaust
765 m3/hr
1046
997
147
Min. 225
Inlet
818
D3 Enclosures (Cabinet Mount)
66
157
375
417
66
408
255 m3/hr
1327
1099
D4 Enclosures (C abinet Mount)
A3 Gehäuse
Min. 225
Exhaust
765 m3/hr
1280
Min. 225
Inlet
161
151
375
417
Drives shown with optional
disconnect switch
29
Typecode Position
VLT® AutomationDrive Options
A
VLT® PROFIBUS DP V1 MCA 101
• PROFIBUS DP V1 gives you wide compatibility, a high level of availability, support for all major PLC vendors,
and compatibility with future versions
• Fast, efficient communication, transparent installation, advanced diagnosis and parameterisation and
auto-configuration of process data via GSD-file
• A-cyclic parameterisation using PROFIBUS DP V1, PROFIdrive or Danfoss FC profile state machines, PROFIBUS DP V1,
Master Class 1 and 2
Ordering number 130B1100 uncoated – 130B1200 coated (Class 3C3/IEC 60721-3-3)
13
VLT® DeviceNet MCA 104
• This modern communications model offers key capabilities that let you effectively determine
what information is needed and when
• You will also benefit from ODVA’s strong conformance testing policies, which ensure that products are interoperable
Ordering number 130B1102 uncoated – 130B1202 coated (Class 3C3/IEC 60721-3-3)
13
VLT® CANOpen MCA 105
High flexibility and low cost are two of the “cornerstones” for CANOpen. The CANOpen option for the VLT® AutomationDrive
is fully equipped with both high priority access to control and status of the drive (PDO Communication) and access to all
parameters through acyclic data (SDO Communication).
For interoperability the option has implemented the DSP402 AC drive profile.
This all guarantees standardised handling, interoperability and low cost.
Ordering number 130B1103 uncoated – 130B1205 coated (Class 3C3/IEC 60721-3-3)
13
VLT® 3000 Converter MCA 113
The conversion kit is a special version of the fieldbus options that emulate the VLT® 3000 commands in the
VLT® AutomationDrive. This is useful for users who want to keep the PLC program. The VLT® 3000 can then be
replaced by the VLT® AutomationDrive, or the system can be expanded without costly changes to the PLC program.
For upgrade to a different fieldbus, the installed converter is easily removed and replaced with a new option.
This secures the investment without loss of flexibility.
Available as additional option only (not factory installed)
Ordering number 130B1245 – coated (Class 3C3/IEC 60721-3-3)
VLT® 5000 Converter MCA 114
The conversion kit is a special version of the fieldbus options that emulate the VLT® 5000 commands in the
VLT® AutomationDrive. This is useful for users who want to keep the PLC program. The VLT® 5000 can then be
replaced by the VLT® AutomationDrive, or the system can be expanded without costly changes to the PLC program.
For upgrade to a different fieldbus, the installed converter is easily removed and replaced with a new option.
This secures the investment without loss of flexibility.
The option supports DPV1.
Available as additional option only (not factory installed)
Ordering number 130B1246 – coated (Class 3C3/IEC 60721-3-3)
VLT® EtherNet IP MCA 121
The EtherNet option is based on the newest technology available for industrial use and handles even the most demanding
requirements. EtherNet/IP extends commercial off-the-shelf EtherNet to the Common Industrial Protocol (CIP™) – the same
upper-layer protocol and object model found in DeviceNet.
The VLT® MCA 121 offers advanced features as:
• Built-in high performance switch enabling line-topology, and eliminating the need for external switches
• Advanced switch and diagnoses functions
• Built-in web server
• E-mail client for service notification
Ordering number 130B1119 uncoated – 130B1219 coated (Class 3C3 / IEC 60721-3-3)
13
Installation of options is a matter of plug-and-play
30
Typecode Position
VLT® AutomationDrive Options
B
VLT® General Purpose I/O MCB 101
The I/O option offers an extended number of control inputs and outputs.
• 3 digital inputs 0-24 V: Logic ‘0’ < 5 V; Logic ‘1’ > 10V
• 2 analogue inputs 0-10 V: Resolution 10 bit plus sign
• 2 digital outputs NPN/PNP push pull
• 1 analogue output 0/4-20 mA
• Spring loaded connection
• Separate parameter settings
Ordering number 130B1125 uncoated – 130B1212 coated (Class 3C3/IEC 60721-3-3)
14
VLT® Encoder Input MCB 102
A universal option for connection of encoder feedback from either a motor or a process. Feedback for asynchronous or
brushless servo (Permanent Magnet) motors.
• Encoder module supports: incremental-, SinCos-, SSI- and EnDat interfaces
• Power supply for encoders
• RS422 interface
• Connection to all standard 5 V incremental encoders
Ordering number 130B1115 uncoated – 130B1203 coated (Class 3C3/IEC 60721-3-3)
14
VLT® Resolver Input MCB 103
Supports resolver feedback from brushless servo motors, and feedback for flux vector controlled asynchronous
motors in rough environments.
• Primary voltage ..................................................................... 4 – 8 Vrms
• Primary frequency ..............................................................2.5 –15 kHz
• Primary current max ........................................................... 50 mA rms
• Secondary input voltage .......................................................... 4 Vrms
• Resolution ........................................................................................ 10 bit @ 4 Vrms input amplitude
Ordering number 130B1127 uncoated – 130B1227 coated (Class 3C3/IEC 60721-3-3)
14
VLT® Relay Option MCB 105
Lets you extend relay functions with 3 additional relay outputs.
Max. terminal load:
• AC-1 Resistive load ........................................................... 240 V AC 2 A
• AC-15 Inductive load @cos ф 0.4 .............................240 V AC 0.2 A
• DC-1 Resistive load ............................................................. 24 V DC 1 A
• DC-13 Inductive load @cos ф 0.4 ...............................24 V DC 0.1 A
Min. terminal load:
• DC 5 V ................................................................................................. 10 mA
• Max switch rate at rated load/min. load .............. 6 min-1/20 sec-1
Ordering number 130B1110 uncoated – 130B1210 coated (Class 3C3/IEC 60721-3-3)
14
VLT® Safe PLC I/O MCB 108
The FC 302 provides a safety input based on a single pole 24 V DC input.
• For the majority of applications this input enables the user to implement safety in a cost-effective way.
For applications that work with more advanced products like Safety PLC, Lightcurtains etc. the new Safe PLC interface
enables the connection of a two wire safety link
• The Safe PLC Interface allows the Safe PLC to interrupt on the plus or the minus link without interfering the sense signal
of the Safe PLC
Ordering number 130B1120 uncoated – 130B1220 coated (Class 3C3/IEC 60721-3-3)
14
VLT® ATEX-PTC Thermistor Card MCB 112
With the MCB 112 PTC Thermistor Card, the Danfoss VLT® AutomationDrive FC 302 offers improved monitoring of the
motor condition compared to the built-in ETR function and thermistor terminal.
• Protects the motor from overheating
• ATEX approved for use in potentially explosive atmospheres
• Uses Safe Stop function, which is approved in accordance with Cat. 3 EN954-1
Ordering number 130B1137 – coated (Class 3C3 / IEC 60721-3-3)
14
Installation of options is a matter of plug-and-play
31
Typecode Position
VLT® AutomationDrive Options
C
VLT® Motion Control MCO 305
MCO 305 is optimised for all types of positioning and synchronising applications.
• Basic features: Synchronisation (electronic shaft), positioning and electronic CAM control
• 2 inputs supporting both incremental and absolute encoders
• 1 encoder output (virtual master function)
• 10 digital inputs
• 8 digital outputs
• Sending and receiving data via fieldbus interface (requires fieldbus option)
• PC software tools for programming and commissioning
Ordering number 130B1134 uncoated – 130B1234 coated (Class 3C3/IEC 60721-3-3)
15+17
VLT® Synchronizing Control MCO 350
The Synchronizing Controller option for VLT® AutomationDrive expands the functional properties of the converter in
synchronising applications. It replaces traditional mechanical solutions.
• Display of actual synchronising error on frequency converter control panel
• Speed synchronising
• Position (angle) synchronising with or without marker correction
• On-line adjustable gear ratio and adjustable position (angle) offset
• Encoder output with virtual master function for synchronisation of multiple followers
• Homing
Ordering number 130B1152 uncoated – 130B1252 coated (Class 3C3/IEC 60721-3-3)
15+17
VLT® Positioning Control MCO 351
The Positioning Controller option offers a host of user-friendly benefits for positioning applications in many industries.
They are based on a range of thought-through and innovative features.
• Direct positioning via Fieldbus
• Relative, absolute and touch probe positioning and marked related positioning
• End limit handling (software and hardware)
• Mechanical brake handling (programmable hold delay)
• Error handling
• Jog speed/manual operation
• Home function
Ordering number 130B1153 uncoated – 130B1253 coated (Class 3C3/IEC 60721-3-3)
15+17
VLT® Center Winder MCO 352
With the closed loop center winder control, material is evenly wound up regardless of the production speed.
• Follows line speed
• Diameter calculator adjusts winder reference
• Tension PID adjusts reference
Ordering number 130B1165 uncoated – 130B1265 coated (Class 3C3/IEC 60721-3-3)
15+17
VLT® Extended Relay Card MCB 113
The Extended Relay Card MCB 113 adds inputs/outputs to VLT® AutomationDrive for increased flexibility.
• 7 digital inputs ............................................................................... 0..24 V
• 2 analogue outputs.............................................................. 0/4..20 mA
• 4 SPDT relays
• Rating of load relays .......................................... 240 V AC/2 A (Ohm)
• Meets NAMUR recommendations
• Galvanic isolation capability
Ordering number 130B1164 uncoated – 130B1264 coated (Class 3C3/IEC 60721-3-3)
16
VLT® A/B in C Option Adapter MCF 106
The A/B in C Option Adapter allows mounting of further A and B options in the C slot
• Further 2 B-options
• Further an A- and a B-option (no A-option mounted in A-slot)
• Limitations due to the facts that the drive cannot handle more than one fieldbus at the time, cannot handle several
identical options, and that the physical layout of options can cause limitations.
VLT® Relay Card MCB 105 and VLT® PTC Thermistor Card MCB 112 are not supported by the adapter and must thus only be
installed in the standard slot B of the Control Card.
Ordering number 130B1130 uncoated – 130B1230 coated (Class 3C3/IEC 60721-3-3)
Depending on the cabinet, the retrofitting of a C-option might require appropriate mounting accessories.
Please contact Danfoss.
15+17
Installation of options is a matter of plug-and-play
32
Typecode Position
VLT® AutomationDrive Options
D
VLT® 24 V DC Supply Option MCB 107
The option is used to connect an external DC supply to keep the control section and any installed
option active when mains power is down.
• Input voltage range24 V DC +/- 15% (max. 37 V in 10 sec.)
• Max. input current ..................................................2.2 A
• Max. cable length ...................................................75 m
• Input capitance load .........................................< 10 uF
• Power-up delay .....................................................< 0.6 s
• Easy to install in drives in existing machines
• Keeps the control board and options active during power cuts
• Keeps fieldbuses active during power cuts
Ordering number 130B1108 uncoated – 130B1208 coated (Class 3C3/IEC 60721-3-3)
LCP
Typecode Position
18
LCP 102 Graphical Local Control Panel
• Multi-language display
• Status messages
• Quick Menu for easy commissioning
• Parameter setting and explanation of parameter function
• Adjustment of parameters
• Full parameter backup and copy function
• Alarm logging
• Info button – explains the function of the selected item on display
• Hand-operated start/stop, or automatic mode selection
• Reset function
• Trend graph
Ordering number 130B1107
15 & 17
LCP 101 Numerical Local Control Panel
The numerical control panel offers an excellent MMI interface to the drive.
• Status messages
• Quick menu for easy commissioning
• Parameter setting and adjustment
• Hand-operated start/stop function or automatic mode select
• Reset function
Ordering number 130B1124
15
LCP Panel Mounting Kit
For easy installation of the LCP 101 and LCP 102 in e.g. a cabinet.
• IP65 (front)
• Thumb screws for tool-free installation
• Incl. 3 meters of cables in industry quality (also available separately)
• With or without LCP operating unit
• Each time easy to install
Ordering number 130B1117 (Mounting kit for all LCP’s including fasteners, 3 m cable and gasket)
Ordering number 130B1113 (Incl. graphical LCP, fasteners, 3 m cable and gasket)
Ordering number 130B1114 (Incl. numerical LCP, fasteners and gasket)
Ordering number 130B1129 (LCP front mounting IP55/IP66) – Ordering number 175Z0929 (cable only)
Ordering number 130B1170 (Panel Mouting Kit for all LCP w.o. cable)
16
Installation of options is a matter of plug-and-play
33
VLT® AutomationDrive Accessories
Profibus Adapter Sub-D9 Connector
The adapter makes linking of fieldbus connections pluggable. For use with option A.
• Option to use prefabricated Profibus cabling
• For retrofit
Adapters for VLT® 3000 and VLT® 5000
Prefabricated terminal plates are available for simple upgrading of existing installations with
VLT® 3000 and VLT® 5000 drives.
• No drilling needed
• No wiring faults
• Shorter downtime
• Security for old plants
Screw terminals
Screw terminals as an alternative to the standard springloaded terminals.
• Pluggable
• Terminal name is described
Ordering number 130B1116
IP 21/Type 12 (NEMA1) Kit
The IP 21/Type 12 (NEMA1) kit is used for installation of VLT® drives in dry environments.
The enclosure kits are available for frame sizes A1, A2, A3, B3, B4, C3 and C4
• Supports VLT® drives from 1.1 to 90 kW
• Used on standard VLT® drives with or without mounted option modules
• IP 41 on top side
• PG 16 and PG 21 holes for glands
Ordering numbers: 130B1121 for frame size A1, 130B1122 for frame size A2, 130B1123 for frame size A3,
130B1187 for frame size B3, 130B1189 for frame size B4, 130B1191 for frame size C3, 130B1193 for frame size C4
Kit for panel through mount
Mounting kit for external cooling of the heatsink for appliances with A5, B1, B2, C1 and C2 housing.
• The air conditioned installation space can be reduced.
• Additional cooling may be omitted
• No contamination of electronics by forced ventilation
• Facilitates integrated assembly
• Reduced cabinet depth/less space
VLT® Brake Resistors
Energy generated during braking is absorbed by the resistors, protecting electrical components from heating up.
Danfoss brake resistors cover the full power range.
• Quick braking of heavy loads
• Braking energy is only absorbed into the brake resistor
• External mounting makes it possible to use the generated heat
• All necessary approvals are available
Please refer to the product and design manuals for selection and dimensioning
34
VLT® AutomationDrive Accessories
VLT® Harmonic Filter AHF 005/010 MCE
Easy, effective harmonic distortion reduction by connecting the AHF 005/010 harmonic filter in front
of a Danfoss frequency converter.
• AHF 005 reduces total harmonic current distortion to 5%
• AHF 010 reduces total harmonic current distortion to 10%
• Small compact housing that can be fitted into a panel
• Easy to use in retrofit applications
• User-friendly start-up – no adjustment necessary
• No routine maintenance required
VLT® Sine-Wave Filters MCC 101
Sine-wave filters are placed between the frequency converter and the motor to optimise the motor power current.
It provides a sinusoidal phase-to-phase motor voltage. The filters reduce motor insulation stress, acoustic noise from
the motor, and bearing currents (especially in large motors).
• Reduces motor insulation stress
• Reduces acoustic noise from the motor
• Reduces bearing currents (especially in large motors)
• Enables use of longer motor cables
• Reduces losses in the motor
• Prolongs service lifetime
• IP 20 or IP 21
VLT® dU/dt filter MCC 102
VLT® dU/dt filters are placed between the frequency converter and the motor to eliminate very fast voltage changes.
The motor terminal phase-to-phase voltage is still pulse shaped but its dU/dt values are reduced.
• These filters reduce stress on the motor’s insulation and are recommended in applications with older motors, aggressive
environments or frequent braking which cause increased DC link voltage.
• IP 20 or IP 21
SVCD – regenerative braking
Transferring the generated power from a decelerating motor back into the power supply enables braking
of virtually unlimited duration.
• Energy efficient braking
• Self-synchronisation
• DC-DC coupling of multiple drives possible
• High efficiency through IGBT technology
• Simple operation
• Overload protection in regenerative operation
Note: Missing numbers can be found in the design manual or can be delivered on request
35
What VLT® is all about
Danfoss Drives is the world leader among dedicated drives providers
– and still gaining market share.
Environmentally
responsible
VLT® products are manufactured with
respect for the safety and well-being of
people and the environment.
All activities are planned and performed taking into account the individual employee, the work environment
and the external environment. Production takes place with a minimum of
noise, smoke or other pollution and
environmentally safe disposal of the
products is pre-prepared.
UN Global Compact
Danfoss has signed the UN Global
Compact on social and environmental
responsibility and our companies act
responsibly towards local societies.
EU Directives
All factories are certified according to
ISO 14001 standard. All products fulfil
the EU Directives for General Product
Safety and the Machinery directive.
Danfoss Drives is, in all product series,
implementing the EU Directive concerning Hazardous Substances in Electrical and Electrical Equipment (RoHS)
and is designing all new product series
according to the EU Directive on Waste
Electrical and Electronic Equipment
(WEEE).
Dedicated to drives
Dedication has been a key word since
1968, when Danfoss introduced the
world’s first mass produced variable
speed drive for AC motors – and
named it VLT®.
Twenty five hundred employees
develop, manufacture, sell and service
drives and soft starters in more than
one hundred countries, focused only
on drives and soft starters.
Intelligent and innovative
Developers at Danfoss Drives have
fully adopted modular principles in
development as well as design,
production and configuration.
Tomorrow’s features are developed in
parallel using dedicated technology
platforms. This allows the development of all elements to take place in
parallel, at the same time reducing
time to market and ensuring that
customers always enjoy the benefits
of the latest features.
Rely on the experts
We take responsibility for every
element of our products. The fact that
we develop and produce our own
features, hardware, software, power
modules, printed circuit boards, and
accessories is your guarantee of
reliable products.
Local backup – globally
VLT® motor controllers are operating
in applications all over the world and
Danfoss Drives’ experts located in
more than 100 countries are ready to
support our customers with application advice and service wherever they
may be.
Danfoss Drives experts don’t stop
until the customer’s drive challenges
are solved.
Impact on energy savings
One year’s energy savings from our annual production of VLT® drives will save
the energy equivalent to the energy
production from a major power plant.
Better process control at the same time
improves product quality and reduces
waste and wear on equipment.
Melbourne: Tel. (03) 9703 5100, Fax. (03) 9703 5159 • Sydney: Tel. (02) 8845 1800, Fax. (02) 9638 6088 • Brisbane: Tel. (07) 3690 1899, Fax. (07) 3630 2122 • Adelaide: Tel. (08) 8150 7400, Fax. (08) 8443 8033
Perth: Tel. (08) 9333 3800, Fax. (08) 9479 7200 • Auckland: Tel. (09) 270 2110, Fax. (09) 270 2112 • Christchurch: Tel. (03) 379 4365, Fax. (03) 379 4365
www.danfoss.com/pacific • Email Australia: motioncontrols@danfoss.com.au • Email New Zealand: drives@danfoss.co.nz
After Hours Service Support: Australia Tel. 1800 063 330 • New Zealand (Nth) Tel. 09 259 2519
DKDD.PB.40.A1.02
VLT® is a trademark of Danfoss A/S
Produced by SMC/AO 2008.12