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MAKING MODERN LIVING POSSIBLE
Selection Guide 1.1 kW – 400 kW
VLT® HVAC Drive FC 102
98
%
Save energy and money with
www.danfoss.com/drives
2 VLT® HVAC Drive | 1.1 kW – 400 kW |
The drives up
1.4 MW are handled in a separate brochure
1.1 – 400 kW
Dedicated drive for and reliability
The VLT® HVAC drive is a dedicated, globally supported drive that combines fl exibility and designed to minimize total system and lifecycle costs in
HVAC applications.
Designed to provide the highest asynchronous and permanent magnet motors from all major suppliers, the
VLT® HVAC drive is the leading drive for heating, ventilation and air conditioning systems. The motor independent drive can be installed in any fan or pump system and provide years of reliable, maintenance free operation.
When used in Danfoss’ EC+ concept, the
HVAC drive plays a signifi cant part in enabling building owners to meet ever
Every VLT® HVAC Drive is based on
25 years of experience and innovation.
Easy to use, all models follow the same basic design and operating principle.
Once you know one, you know them all.
This selection guide helps you to choose and confi gure your perfect drive for applications from 1.1-400 kW.
| 1.1 kW – 400 kW | VLT® HVAC Drive 3
4 VLT® HVAC Drive | 1.1 kW – 400 kW |
Up to 50° C ambient temperature without derating
GLOBAL REACH
to ship VLT® drives quickly to any destination.
Danfoss’ global support organization is geared to react swiftly to resolve issues to help you reduce downtime. In the event of issues Danfoss’ global hotline helps you fi nd
In order to provide fast support in major industrial areas
Danfoss is also present with highly trained, dedicated professionals. Based close to chemical hotspots, marine hubs and major industrial areas around the world,
Danfoss experts are ready to provide fast access to drive and application expertise.
TRAINING BASED ON EXPERIENCE
Keep up to date on trends, methods and features that save additional energy or off er new technical opportunities to increase your product quality or decrease the downtime of your plant.
Receive the same quality training anywhere in the world with Danfoss-developed material and trainers. Training can take place at one of Danfoss’ facilities or directly at the customer’s own facility. Teaching is conducted by local trainers who have broad experience in the many conditions that may aff ect performance, so you get the most out of your Danfoss solution.
Additionally, the new online platform Danfoss Learning off ers you the opportunity to extend your knowledge in small and compact lessons up to extensive training courses, when and wherever you want.
Read more at learning.danfoss.com
Flexible, modular and adaptable
Built to last
The VLT® HVAC Drive is built on a fl exible, modular design concept to provide an extraordinarily versatile motor control solution. Equipped with a wide range of HVAC features owners can achieve optimal fan and pump control, higher quality output and reduce costs related to spare parts and service, and much more.
Built-in EMC fi lters
VLT® HVAC Drive units are equipped with integrated DC link chokes and
EMC fi lters as standard features. This enables them to reduce grid pollution and eliminate the cost and eff ort of fi tting external EMC components and related wiring.
Reduce costs with compact drives
management enable the drives to take up less space in control rooms and panels in all kinds of environments.
Especially impressive is the 315 kW,
400 V version, which is among the smallest in its power class on the market today, and is available in an IP 54 enclosure.
Compact dimensions are also an advantage in applications where drive space is restricted. This makes it possible for designers to develop smaller applications without being forced to compromise on protection and grid quality. For example, the D frame versions of the VLT® HVAC Drive
FC 102 from 110-400 kW are 25-68 % smaller than equivalent drives.
The IP 20 version is optimized for cabinet mounting and features covered power terminals to prevent accidental contact. The unit can also be ordered with optional fuses or circuit breakers in the same package size. Control and power cables are fed in separately at the bottom.
The frequency converters combine a fl exible system architecture, which allows them to be adapted to specifi c applications, with a uniform user interface across all power classes. This allows you to adapt the drive to the exact needs of your specifi c application.
As a result project work and costs are subsequently reduced. The easy to use interface reduces training requirements.
The integrated SmartStart guides the setup process, which results in fewer faults due to confi guration and parameterization errors.
Freedom to design
HVAC drives are built on a fl exible system architecture, which allows them to be adapted to specifi c applications
Available in a performance range from 1.1 kW to 1.4 MW the FC 102 series can control nearly all standard industrial motor technologies, including permanent magnet motors, copper rotor motors and direct line PM.
The frequency converter is designed to work with all common supply voltages:
200, 380-480 V, 525-600 V and 690 V.
As a result, system designers, OEMs and end users can connect the drive to their chosen motor and reduce project costs with a solution that performs to the highest standards.
VLT® PLATFORM HIGHLIGHTS
• Versatile, fl exible, confi gurable
• EMC fi lters integrated as standard
• Asynchronous & PM motor control
• 9 fi eldbuses supported
• Up to 1.4 MW in common voltages
• Unique user interface
• Globally supported
|
1.1 kW – 400 kW
| VLT® HVAC Drive 5
Size and protection class
The perfect fi t for your application
All Danfoss VLT® frequency converters follow the same design principle for fast,
VLT® HVAC Drives are available in a broad range of enclosures sizes and protection ratings from IP 20 to
IP 66 to enable easy installation in all environments: mounted in panels, switch rooms or as stand-alone units for heating, ventilation and air conditioning.
Cost saving heat management
In VLT® HVAC Drives the cooling air and the internal electronics is seperated, protecting electronics from contaminants. At the same time helps to prolong product life, increase the overall availability of the system and reduce faults related to high temperatures.
For example, by exhausting heat directly outside it is possible to reduce the size of the cooling system in the panel or switch room. This can be achieved with Danfoss’ panel through cooling system or the extremely that also allows to conduct the heat into the outside of the control room.
Both methods make it possible to reduce the initial cost of the panel or switch room.
In daily use the benefi ts are equally clear as the energy consumption related to cooling can be reduced signifi cantly.
This means that designers can reduce the size of the air conditioning system, or even eliminate it entirely.
PANEL THROUGH COOLING
An accessory mounting kit for small and mid -range drives enables heat losses to be directed directly outside the panel room.
BACK CHANNEL COOLING
By directing air through a rear cooling channel up to 85-90% of the drive’s heat loss is removed directly outside the installation room.
NO AIR OVER ELECTRONICS
Complete separation between cooling air and the internal electronics ensure
6 VLT® HVAC Drive |
1.1 kW – 400 kW
|
VLT® HVAC Drives are available in IP 20 enclosures optimized for installation in panels. For use in harsh environments choose
IP 54 (110 kW and above),
IP 55 or IP 66 enclosures.
Coated circuit boards
The VLT® HVAC Drive is as standard conforming to class 3C2
(IEC 60721-3-3). If used in especially harsh conditions it is possible to order a special coating that complies with class
3C3.
Ruggedized for extra protection
The VLT® HVAC Drive is available in a
‘ruggedized’ version, that ensures that components remain fi rmly in place in environments characterized by high degrees of vibration such as Marine and mobile equipment.
RETROFITTING.
As technologies evolve and newer, replace old drives, it is important to Danfoss that you can change and upgrade as easily as possible.
Minimize downtime in your production and update your installation in a few minutes with prepared tools from Danfoss.
With a Danfoss conversion kit it is easy and fast to prepare your application for the future:
• Mechanical adaptation
• Electric adaptation
• Parameter adaptation
7
Danfoss
VLT® HVAC Drives are equipped with DC chokes that reduce mains interference to a THDi of 40%.
8 VLT® HVAC Drive | 1.1 kW – 400 kW |
HARMONIC DISTORTION and risks harming equipment .
OPTIMISED HARMONIC
PERFORMANCE electronics and increases effi
Optimize performance and grid protection
Built-in protection as standard
The VLT® HVAC Drive FC 102 contains all modules necessary for compliance with
EMC standards.
A built-in scalable RFI fi lter minimizes electromagnetic interference.
Integrated DC chokes reduce harmonic distortion in the mains network, which increases the lifetime of the DC link capacitors and therefore the drive
The solutions save cabinet space, as they are integrated in the drive from also enables the use of cables with smaller cross-sections, which again reduces installation costs.
Expand grid protection with fi lter solutions
If needed, Danfoss’ wide range of solutions for harmonic mitigation can provide additional protection, such as the
• VLT® Advanced Harmonic Filter AHF
• VLT® Advanced Active Filter AAF
• VLT® Low Harmonic Drives
• 12-pulse VLT® drives
Provide motor protection with:
• VLT® Sine Wave Filter
• VLT® dU/dt Filter
With this solutions you may achieve optimum performance for your application, even in weak or unstable grids.
EMC Standards
EN 55011
Facility operators must comply with EN 55011
Class B
Housing and light industries
Standards and requirements
EN/IEC 61800-3
Converter manufacturers must conform to EN 61800-3
Category C1
First enviroment, home
ce
FC 102 compliance 1)
For further details see the VLT® HVAC Drive Design Guide
1) Compliance to mentioned EMC classes depends on the selected fi lter
■
Conducted emission
Class A Group 1
Industrial environment
Category C2
First enviroment, home
ce
■
Class A Group 2
Industrial
environment
Category C3
Second enviroment
■
Use motor cables up to 300 m
The design of the VLT® HVAC Drive makes it a perfect choice in applications that require long motor cables. Without needing additional components the drive provides trouble free operation with cable lengths of up to 150 m screened or 300 m unscreened. This allows the drive to be installed in a central control room a distance away from the application without aff ecting motor performance.
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1.1 kW – 400 kW
| VLT® HVAC Drive 9
Increase safety
Fire override mode
Activating the function “Fire-mode” within the VLT® drive ensures secure and continued operation within applications such as stair-well pressurisation, car park exhaust fans, smoke exhaust and essential service functions.
Drive bypass
If a drive bypass is available the VLT®
HVAC Drive will not only sacrifi ce itself; it will also bypass itself and connect the motor directly to mains. As a result fan functionality will be maintained after the drive fails, as long as there is power and the motor is functioning.
(only available in the USA)
Protect applications and operators
The VLT® HVAC Drive FC 102 is able to provide the STO (Safe Torque Off ) function in compliance with
ISO 13849-1 PL d and SIL 2, according to
IEC 61508 / IEC 62061. In high demand applications this can be expanded with the VLT® Safe Option MCB 140, an external module that provides functions such as Safe Stop 1 (SS1),
Easy to open doors
Safely Limited Speed (SLS) and Safe
Maximum Speed (SMS), control of external contactors and safety door monitoring and unlocking.
Fresh air in
Speed
Diff erential pressure
10 VLT® HVAC Drive |
1.1 kW – 400 kW
|
Nine fi eldbuses supported
Increase productivity
With the wide range of fi eldbus options the VLT® HVAC Drive can be easily connected to the fi eldbus system of your choice. This makes the HVAC Drive a future-ready solution that can easily be expanded and updated if your needs change.
Danfoss fi eldbus options can also be installed as a plug-and-play solution at a later stage, if the production layout demands a new communication platform. This way, you can be confi dent that you can optimize your plant without being forced to replace your existing drive system.
See the complete list of fi eldbuses on page 24.
BACnet Change of Value (COV)
The standard, passive, BACnet protocol that is embedded in every HVAC drive, can be expanded with the VLT® BACnet
Option MCA 109 option.
This add-on enables the drive to support COV. As a result the drive will only communicate if pre-defi ned setpoints are exceeded.
By eff ectively optimizing communication, the MCA 109 reduces the load on the fi eldbus enabling more
|
1.1 kW – 400 kW
| VLT® HVAC Drive 11
Energy documentation
VLT® Energy Box software is the most modern and advanced energy calculation tool available.
It allows energy consumption calculations and comparisons of
HVAC fans, pumps and cooling tower applications driven by Danfoss drives and alternative methods of fl ow control.
The program compares the total operational costs of various traditional systems to operation of the same systems with a VLT® HVAC Drive.
VLT® Energy Box makes it possible to capture actual energy data from the drives and monitor energy consumption and overall system
Energy audit
The VLT® HVAC Drive coupled with
Energy Box software enables the package to be used as the Energy Audit equipment for both the estimation and validation of savings.
With this program it is easy to evaluate the savings by comparing a VLT®
HVAC Drive over other types of capacity control systems in both new installations as well as retrofi t situations.
Complete fi nancial analysis
VLT® Energy Box provides a complete fi nancial analysis including:
• Initial cost for the drive system and
the alternative system
• Installation and hardware costs
• Annual maintenance costs and any
utility company incentives for
energy conservation products
• Payback time and accumulated
savings
• Upload of actual energy consumption (kWh) and duty cycle from the VLT® HVAC Drive
VLT® HVAC Drive can be interrogated remotely for full energy data, making it easy to monitor your energy savings and return on investment. Monitoring via fi eldbus often makes energy meters omissible.
Download VLT® Energy Box www.danfoss.com/energybox
12 VLT® HVAC Drive |
1.1 kW – 400 kW
|
Software tools
Easy engineering and setup with VLT® Motion
Control Tool MCT 10
In addition to operating the drive via
LCP (local control panel), VLT® drives can also be confi gured and monitored with Danfoss own PC software. This provides plant managers with a comprehensive overview of the system at any point in time, adding a new level of fl exibility in confi guration, monitoring and troubleshooting.
MCT 10 is a windows based engineering tool with a clearly structured interface that provides an instant overview of all the drives in a system of any size.
The software runs under Windows and enables data exchange over a traditional RS485 interface, fi eldbus
(Profi bus, Ethernet, etc.) or via USB.
Parameter confi guration is possible both online on a connected drive and documentation, such as electrical diagrams or operating manuals, can be embedded in MCT 10. This reduces the risk of incorrect confi guration while off ering fast access to troubleshooting.
Analyse harmonic distortion with VLT® Harmonic
Calculation Software HCS
This is an advanced simulation program that makes calculating harmonic distortion in your mains network fast and easy. It is the ideal solution both if you are planning to extend your existing plant or installation or if you are planning a new installation from scratch.
The user-friendly interface allows you to confi gure the mains environment as desired and returns simulation results, which you can use to optimize your network.
Contact your local Danfoss sales information or visit directly at
www.danfoss-hcs.com
VLT® Motion Control
Tool MCT 31 Harmonics
Calculation Software
VLT® MCT 31 calculates system harmonic distortion for both Danfoss and non-Danfoss drives. It is also able to calculate the eff ects of using various additional harmonic reduction measures, including Danfoss harmonic fi lters.
With VLT® Motion Control Tool MCT 31, you can determine whether harmonics will be an issue in your installation, and if so, what strategies will be most costeff ective in addressing the problem.
VLT® Motion Control Tool MCT 31 features include:
• Short circuit current ratings can be used instead of transformer size and impedance when transformer data is unknown
• Project oriented for simplifi ed calculations on several transformers
• Easy to compare diff erent harmonic solutions within the same project
• Supports current Danfoss product line as well as legacy drive models
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1.1 kW – 400 kW
| VLT® HVAC Drive 13
14 VLT® HVAC Drive |
1.1 kW – 400 kW
|
Intuitive setup with graphical interface
The VLT® HVAC Drive features a user-friendly, hot pluggable local control panel (LCP) for easy setup and parameter confi guration.
After choosing language navigate through setup parameters individually.
Alternatively, use a pre-defi ned quick menu or a SmartStart guide for application specifi c setup.
The LCP can be detached and used to copy settings to other HVAC Drives in the system. It can also be mounted remotely on a control panel fascia.
This enables the user to take full advantage of the LCP, eliminating the need for additional switches and instrumentation.
Save commissioning time with SmartStart
SmartStart is a time-saving drive setup wizard that guides you through a series of easy steps to confi gure your drive.
The wizard can be accessed with the drive’s graphical control panel at the fi rst power up of the drive or after a factory reset.
Uses HVAC language
Using HVAC language, SmartStart asks you enter motor information and the application profi le. The drive then calculates the optimal values to ensure
When used with permanent magnet motors, which motor data may be based on a diff erent value than 1000
RPM, SmartStart automatically recalculates the values to 1000 RPM.
Intelligent optimzation
SmartStart also asks if you want to apply the intelligent VLT features Automatic
Motor Adaptation and Automatic
Energy Optimization, enabling even
SmartStart is deactivated when the drive is programmed via fi eldbus and after a timeout.
NOTE: SmartStart is only accessible with the graphical control panel.
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1.1 kW – 400 kW
| VLT® HVAC Drive 15
16 VLT® HVAC Drive |
1.1 kW – 400 kW
|
Intelligent AHU functions
The ability to handle logical rules and inputs from sensors, real-time functionality, and timerelated actions enables the HVAC
Drive to control a wide range of functions:
• Weekend and working day operations
• Cascaded P-PI for temperature control
• Multi-zone “3” control
• Flow balancing between fresh and outlet air
• Belt monitoring
Dedicated fan features
The VLT® HVAC Drive off ers a wide range of built-in and expandable functions that increase comfort and safety while reducing energy consumption.
Velocity to fl ow conversion
The VLT® HVAC Drive is able to convert velocity pressure sensor values into fl ow values. This provides operators with the opportunity to set the drive up to provide a fi xed fl ow or fi xed diff erential fl ow. Regardless of method, the advantages are the same, as energy consumption is optimised while improving comfort. An added benefi t is that this built-in setting eliminates the need for a fl ow sensor.
Fire override mode
This safety feature prevents the drive from stopping to protect itself. Instead it will continue vital fan operation regardless of control signals, warnings or alarms.
Extend BMS capacity
Easy integration into building management systems provides managers with detailed information about the current state of the infrastructure in the building. By integrating the drive into the building management network, all the I/O points in the drive are available as remote I/O to extend the capacity of the BMS.
For example: by installing room temperature sensors (PT 100/PT 1000) and monitoring them with the VLT®
Sensor Input Card, the motor is protected from overheating in the bearings and windings. Monitoring of sensor temperature is either visible as a readout on the display or via fi eldbus.
Resonance monitoring
Avoid unwanted noise by setting the drive to avoid the frequency bands that cause fans to create resonances. Not only does this increase comfort, it also reduces wear on the equipment.
Stairwell pressurisation
If there is a fi re, the VLT HVAC Drive will continue to control the motor, even beyond its standard shutoff parameters.
By maintaining a higher level of air in the stairwells than in other parts of the building, fi re escapes remain smoke free.
Smart logic reduces costs
The drive’s built-in Smart Logic
Controller and four auto-tuning PID controllers can control air handling functions with fans, valves and dampers. This reduces DDC tasks in the building management system and frees valuable data points for other use.
Mains switch
The mains switch is a safety feature that makes it possible to cut off the drive from the mains supply. As a result maintenance and cleaning is both easy and safe. The mains switch option also reduces assembly costs.
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1.1 kW – 400 kW
| VLT® HVAC Drive 17
Dedicated pump features
The VLT® HVAC Drive is developed in close cooperation with OEMs, contractors, and manufacturers around the world. Each drive contains a wide range of built-in, dedicated features save energy in pump applications.
Embedded pump controller
The Pump Cascade Controller distributes operation hours evenly across all pumps. Wear and tear on individual pumps is therefore reduced to a minimum, extending their lifetime expectancy and reliability considerably.
Vital water supply
If a pipe leaks or breaks, the HVAC Drive can reduce the motor speed to prevent overload, while continuing to supply water a lower speed.
Sleep mode
In situations with low or now fl ow, the drive enters sleep mode to conserve energy. When the pressure falls below the pre-defi ned setpoint, the drive starts automatically. Compared to continuous operation this method reduces energy costs and equipment wear and tear, extending the lifetime of the application.
1. Dry Pump Protection and
End of Curve
If the pump runs without creating the desired pressure, the drive sets off an alarm or performs another pre-programmed action. This happens for example when a well runs dry or a pipe leaks.
2. Auto tuning of PI controllers
Auto tuning enables the drive to monitor how the system reacts to corrections made by the drive constantly. The drive learns from it and calculates the P and I values, so precise and stable operation is restored quickly.
3. Flow compensation
A pressure sensor mounted close to the fan or pump provides a reference point that enables pressure to be kept constant at the discharge end of the system. The drive constantly adjusts the pressure reference to follow the system curve. This method both saves energy and reduces installation costs.
4. No/low fl ow
During operation, a pump normally consumes more power the faster it runs. In situations where the pump runs fast, but is not fully loaded, and does not consume adequate power, the drive compensates accordingly.
This is a particular advantage when water circulation stops, the pump runs dry or when pipes leak.
1 2 3 4
18 VLT® HVAC Drive |
1.1 kW – 400 kW
|
Optimize system performance with EC+
Danfoss EC+ concept gives manufacturers of ventilation units the freedom to select their preferred motor from any supplier and control it with a VLT®
Optimize PM motor performance
Danfoss has refi ned its VVC+ algorithm and optimised it for permanent magnet motors. This improvement makes it possible for owners to benefi t technology. After entering the relevant motor data, the drive automatically optimizes the performance of the application.
Free choice of technology
controlling PM and asynchronous motors.
Easy maintenance
Component replacement as a result of wear and tear is not always possible without installing a complete new, integrated system. The EC+ concept answers this challenge by making service and maintenance easier, as only the aff ected component needs to be repaired/replaced in the event of malfunction.
Downtime is therefore reduced, and so are maintenance costs. These savings are the result of the fact that the EC+ concept is based on standardized components. All units can be shipped at short notice and installed with little eff ort.
By providing vendors with the freedom to select the optimum combination of drive and motor, it is possible to off er
This is a clear advantage compared to integrated systems, where it often is not possible to optimize the individual components.
EC motor with electronics being build into the fan impeller impacts the airfl ow through the impeller.
EC motor + integrated electronics + fan
η
Drive
= 89% |
η
Fan
= 66% |
η
System
=
59%
Values related to ILK report
65
60
55
EC+/PM (IE4)
50
45
EC+/PM (IE4)
EC (IE4)
IM (IE3)
IM (IE2)
40
0 % 10 % 20 % 30 % 40 % 50 % 60 %
Relative partial load [%]
70 % 80 % 90 % 100 % 110 %
Tests at the Institute of Air Handling and Refrigeration (ILK) in Dresden have shown that the EC+ concept lowers the losses in ventilator systems by up to 10 %, compared to conventional EC technology. This is the result of 3-5 % higher
Plugfan with optimal and effi through the fan impeller.
cient foot mounted permanent magnet motor.
PM/EC motor + VSD + direct drive fan
η
Drive
= 89% |
η
Fan
= 71% |
η
System
=
63%
Values related to ILK report
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1.1 kW – 400 kW
| VLT® HVAC Drive 19
1
2
3
5
6
7
8
9
4
Modular simplicity
Delivered fully assembled and tested to meet your specifi c requirements
1. Enclosure
The drive meets requirements for enclosure class IP20/Chassis. IP21/
Type 1, IP55/Type 12, IP54/Type 12 or IP66/Type 4X.
2. EMC and Network eff ects
All versions of VLT® HVAC Drive comply as standard with EMC limits B, A1 or A2 according to the EN 55011 norm. The standard integrated DC coils ensure low harmonic load on the network according to EN 61000-3-12 and increase the lifetime of the DC link capacitors.
3. Protective 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.
4. Removable fan
Like most of the elements, the fan can be quickly removed and remounted for easy cleaning.
5. Control terminals
Double-stack, spring-loaded cage clamps enhance reliability and facilitate easy commissioning and service.
6. Fieldbus option
See complete list of available fi eldbus options on page 34.
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7. I/O extensions
A host of I/O options are available either factory mounted or as retrofi t.
8. Display option
Danfoss VLT Drives’ removable
Local Control Panel is available with a variety of language packs: East
European, West European, Asian and North American.
English and German are available in all drives.
Alternatively the drive can be commissioned via the built-in USB/
RS485 connection or a fi eldbus from with VLT® Motion Control Tool
MCT 10 setup software.
1
2
6
7
5
9
3
8
10
4
9. 24 V external power supply
The external 24 V supply keeps the
VLT® HVAC Drive logic “alive” when the AC mains is removed.
10. Mains disconnect
This switch interrupts the mains supply and has a free useable auxiliary contact.
Safety
The VLT® HVAC Drive can optionally be delivered with the Safe Torque
Off (Safe Stop) functionality suitable for category 3, performance level d according to EN 13849-1 and SIL 2 according to IEC 62061/IEC 61508.
This feature prevents the drive from starting unintended.
Built-in Smart Logic
Controller
The Smart Logic Controller is a clever way to add customerspecifi c functionality to the drive and increase the opportunities for the drive, motor and application working together.
The controller monitors a specifi ed event. When an event occurs, the controller performs a pre-defi ned action and then starts monitoring for the next pre-defi ned event.
20 steps of events and resulting actions are available before returning to the fi rst set.
Logic functions can be selected; most of them run independently of the sequence control. This enables drives to monitor variables or signal defi ned events in an easy and fl exible way independently of the motor control.
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1.1 kW – 400 kW
| VLT® HVAC Drive 21
The big picture
An investment that pays
Increase application performance and streamline processes with performing solutions from a single supplier to reduce the lifetime costs of your applications.
Minimize energy costs
As energy becomes increasingly expensive, variable speed control of electrical motors has proven to be one of the most eff ective costreducing measures available.
Reduce total cost of ownership
Seen over its lifetime, the initial cost of a drive only amounts to 10% of the total cost of ownership; the remaining
90% cover energy consumption, service and maintenance.
For example, by reducing the average speed of the motor from 100% to 80% in for example pumps or fans, 50% energy is saved. Reducing the average speed by 50% increases the savings to 80%.
During setup Automatic Motor
Adaptation (AMA) and later during operation Automatic Energy
Optimization (AEO) ensure that the drive is perfectly adapted to the attached motor and changing loads.
Once in operation VLT® drives serve reliably for their entire lifetime. Only requiring minimal maintenance, the VLT® HVAC Drives provide a fast return on investment and ultimately a competitive cost of ownership.
Initial cost
Disposal costs
Energy cost
Operation and maintenance costs
Time
On the following pages we help you select the optimal
VLT® for applications from
1.1 and 400 kW. For larger drives, please consult the selection guide for Danfoss
VLT® High Power Drives.
Automatic Energy
Optimization ensures that the motor voltage adapts automatically to changing loads. This provides an
5-15%, reducing the cost of ownership substantially.
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1.1 kW – 400 kW
|
|
1.1 kW – 400 kW
| VLT® HVAC Drive 23
Specifi cations
Basic unit without extensions
Main supply (L1, L2, L3)
Supply voltage
Supply voltage
Supply voltage
Supply voltage
Supply frequency
Displacement power factor
(cos ф)
Switching on input supply
L1, L2, L3
Harmonic disturbance
Output data (U, V, W)
Output voltage
Output frequency
Switching on output
Ramp times
Digital inputs
Programmable digital inputs
Changeable to digital output
Logic
Voltage level
Maximum voltage on input
Input resistance, Ri
Scan interval
* 2 can be used as digital outputs
Analog inputs
Analogue inputs
Modes
Voltage level
Current level
Accuracy of analog inputs
Pulse inputs
Programmable pulse inputs
Voltage level
Pulse input accuracy
(0.1 – 1 kHz)
* Utilize some of the digital inputs
Digital outputs
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
200 – 240 V ±10%
380 – 480 V ±10%
525 – 600 V ±10%
525 – 690 V ±10%
50/60 Hz
> 0.98 near unity
1–2 times/min.
Meets EN 61000-3-12
0 – 100% of supply voltage
0–590 Hz
Unlimited
1 – 3600 sec.
6*
2 (terminal 27, 29)
PNP or NPN
0 – 24 V DC
28 V DC
Approx. 4 kΩ
5 ms
2
Voltage or current
0 to +10 V (scaleable)
0/4 to 20 mA (scaleable)
Max. error: 0.5% of full scale
2*
0 – 24 V DC (PNP positive logic)
Max. error: 0.1% of full scale
2
0 – 24 V DC
40 mA
0 to 32 kHz
Max. error: 0.1% of full scale
Analogue output
Programmable analogue outputs
Current range at analogue output
Max. load to common at
analogue output (clamp 39)
Accuracy on analogue output
Control card
USB interface
USB plug
RS485 interface
Max. load (10 V)
Max. load (24 V)
Relay output
Programmable relay outputs
Max. terminal load (AC) on 1-3 (break), 1-2 (make),
4-6 (break) power card
Max. terminal load (AC) on 4-5
(make) power card
Min. terminal load on
1-3 (break), 1-2 (make),
4-6 (break), 4-5 (make) power card
Surroundings/external
Enclosure
Vibration test
Max. relative humidity
Ambient temperature
Galvanic isolation of all
Aggressive environment
1
0/4 – 20 mA
500 Ω
Max. error: 1% of full scale
1.1 (Full Speed)
Type “B”
Up to 115 kBaud
15 mA
200 mA
2
240 V AC, 2 A
400 V AC, 2 A
24 V DC 10 mA, 24 V AC 20 mA
IP: 00/20/21/54/55/66
UL Type: Chassis/1/12/4x Outdoor
1.0 g (D enclosures: 0.7 g)
5% – 95% (IEC 721-3-3; Class 3K3
(non-condensing) during operation
Max. 50° C w/o derating
I/O supplies according to PELV
Designed for coated/standard 3C3/3C2
(IEC 60721-3-3)
Fieldbus communication
Standard built-in:
FC Protocol
N2 Metasys
FLN Apogee
Modbus RTU
BACnet (embedded)
Optional:
VLT® PROFIBUS DP V1 MCA 101
VLT® DeviceNet MCA 104
VLT® LonWorks MCA 108
VLT® BACnet MCA 109
VLT® PROFINET MCA 120
VLT® EtherNet/IP MCA 121
VLT® Modbus TCP MCA 122
Protection mode for longest possible up-time
– Electronic thermal motor protection against overload
– Temperature monitoring of the heatsink ensures that the frequency converter trips if the temperature reaches 95° C ± 5° C
– The frequency converter is protected against short-circuits on motor terminals U, V, W
– The frequency converter is protected against earth faults on motor terminals U, V, W
– Protection against mains phase loss
Global Marine
24 VLT® HVAC Drive |
1.1 kW – 400 kW
|
Connection
examples
The numbers represent the terminals on the drive
3 Phase power input
DC bus
(partially)
+10 Vdc
0/-10 Vdc -
+10 Vdc
0/4-20 mA
0/-10 Vdc -
+10 Vdc
0/4-20 mA
91 (L1)
92 (L2)
93 (L3)
95
PE
88 (-)
89 (+)
50 (+10 V OUT)
S201
53 (A IN)
1S202
54 (A IN)
55 (COM A IN)
12 (+24V OUT)
13 (+24V OUT)
18 (D IN)
19 (D IN)
20 (COM D IN)
27
(D IN/OUT)
*
29
(D IN/OUT)
32 (D IN)
33 (D IN)
*
37 (D IN)
(U) 96
(V) 97
(W) 98
(PE) 99
Motor
ON=0/4-20 mA
OFF=0/-10 Vdc -
+10 Vdc
24V
0V
Switch Mode
Power Supply
10Vdc 24Vdc
15mA 130/200mA
+ + -
P 5-00
24 V (NPN)
0 V (PNP)
24 V (NPN)
0 V (PNP)
24 V (NPN)
0 V (PNP)
(R+) 82
(R-) 81 relay 1
03
02
* relay 2
01
06
05
04
(COM A OUT) 39
(A OUT) 42
S801
ON=Terminated
OFF=Open
5V
24 V (NPN)
0 V (PNP)
24V
0V
24 V (NPN)
0 V (PNP)
24 V (NPN)
0 V (PNP)
RS-485
Interface
S801
(N RS-485) 69
0V
(P RS-485) 68
(COM RS-485) 61
**
Brake resistor
(optional)
240 Vac, 2A
240 Vac, 2 A
400 Vac, 2 A
Analog Output
0/4-20 mA
RS-485
: Chassis
: Earth
This diagram shows a typical installation of the VLT® HVAC Drive. Power is connected to the terminals 91 (L1),
92 (L2) and 93 (L3) and the motor is connected to 96 (U), 97 (V) and 98 (W).
Terminals 88 and 89 are used for load sharing between drives.
Analogue inputs can be connected to the 53 (V or mA), and for 54 (V or mA) terminals.
These inputs can be set up as either reference, feedback or thermistor inputs.
There are 6 digital inputs to be connected to terminals 18, 19, 27, 29, 32, and 33. Two digital input/output terminals (27 and 29) can be set up as digital outputs to show an actual status or warning. The terminal 42 analogue output can show process values such as 0 - I max
.
On the 68 (P+) and 69 (N-) terminals’
RS 485 interface, the drive can be controlled and monitored via serial communication.
Diagram showing all electrical terminals without options.
A = analog, D = digital
Terminal 37 is used for Safe Stop. For instructions on Safe Stop installation please refer to the section Safe Stop Installation of the Design Guide.
*Terminal 37 is optional.
** Do not connect cable screen
|
1.1 kW – 400 kW
| VLT® HVAC Drive 25
VLT® HVAC Drive 200-240 V AC
Enclosure
IP 20 (IP 21*)/Chassis (Type 1)
IP 55 + IP 66/ Type 4X
Typical shaft output
Typical shaft output at 208 V
Output current
Continuous (3 x 200 – 240 V)
Intermittent (3 x 200 – 240 V)
Output power
Continuous (208 V AC)
Rated input current
Continuous (3 x 200 – 240 V)
Intermittent (3 x 200 – 240 V)
Estimated power loss at rated max. load
[kVA]
[A]
[A]
[W]
[kW]
[HP]
[A]
[A]
Max. cable size
Mains, motor, brake
Max. pre-fuses
Weight
IP 20
IP 21
IP 55, IP 66
[mm 2 ]
([AWG])
[A]
[kg]
[kg]
[kg]
2.38
5.9
6.5
63
A2
A4 + A5
P1K5
A3
A5
P1K1 P2K2 P3K0 P3K7
1.1 1.5 2.2 3 3.7
1.5
2.0
2.9
4.0
4.9
6.6
7.3
7.5
8.3
10.6
11.7
12.5
13.8
16.7
18.4
2.70
6.8
7.5
82
3.82
9.5
10.5
116
0.96
4 (12)
4.50
11.3
12.4
155
6.00
15.0
16.5
185
20
4.9
5.5
9.7 (A4)/13.5 (A2 + A5)
32
6.6
7.5
13.5
Enclosure
Typical shaft output
Typical shaft output at 208 V
Output current
Continuous (3 x 200 – 240 V)
Intermittent (3 x 200 – 240 V)
Output power
Continuous (208 V AC)
Rated input current
Continuous (3 x 200 – 240 V)
Intermittent (3 x 200 – 240 V)
Estimated power loss at rated max. load
IP 20 (IP 21*)/Chassis (Type 1)
IP 21/Type 1, IP 55 + IP 66//Type 4X
[kW]
[HP]
P5K5
5.5
7.5
[A]
[A]
[kVA]
[A]
[A]
[W]
24.2
26.6
8.7
22
24.2
269
B3
B1
P7K5
7.5
10
30.8
33.9
11.1
28
30.8
310
P11K
11
15
46.2
50.8
16.6
42
46.2
447
0.96
Max. cable size
Mains, motor, brake
[mm 2 ]
([AWG])
10 (7)
Max. cable size mains
With mains disconnect switch included
Max. pre-fuses
Weight
IP 20
IP 21, IP 55, IP 66
[mm
([AWG])
[A]
[kg]
[kg]
2 ]
16 (6)
63
12
23
B2
P15K
15
20
B4
P18K
18.5
25
59.4
65.3
21.4
54
59.4
602
35 (2)
35 (2)
80
74.8
82.3
26.9
C1
P22K
22
30
88
96.8
31.7
C3
P30K
30
40
115
127
41.4
P37K
37
50
143
157
51.5
C4
C2
P45K
45
60
170
187
61.2
68
74.8
737
80
88
845
50 (1)
(B4 = 35 (2))
104
114
1140
0.97
130
143
1353
154
169
1636
150 (300
MCM)
150 (300
MCM)
50, 35, 35 (1, 2, 2)
125 160
95, 70,
70
(3/0, 2/0,
2/0)
200
185, 150,
120
(350
MCM,
300
MCM,
4/0)
250
27
23.5
45
35 50
65
* (A2, A3, B3, B4, C3 and C4 may be converted to IP 21/Type 1 using a conversion kit.
(Please see also items mechanical mounting in Operating Instructions and IP 21/ Type 1 enclosure kit in the Design Guide.)
26 VLT® HVAC Drive |
1.1 kW – 400 kW
|
VLT® HVAC Drive 380 – 480 V AC
Enclosure
IP 20 (IP 21*)/Chassis (Type 1)
IP 55 + IP 66 /Type 4X
[kW]
[HP]
A2
A4 + A5
P2K2 P1K1 P1K5 P3K0 P4K0 P5K5
1.1 1.5 2.2 3 4 5.5
1.5
2.0
2.9
4.0
5.0
7.5
A3
A5
P7K5
7.5
10
Typical shaft output
Typical shaft output at 460 V
Output current
Continuous (3 x 380 – 440 V)
Intermittent (3 x 380 – 440 V)
Continuous (3 x 441 – 480 V)
Intermittent (3 x 441 – 480 V)
Output power
Continuous (400 V AC)
Continuous (460 V AC)
Rated input current
Continuous (3 x 380 – 440 V)
Intermittent (3 x 380 – 440 V)
Continuous (3 x 441 – 480 V)
Intermittent (3 x 441 – 480 V)
Estimated power loss at rated max. load
Max. cable size
(Mains, motor, brake)
Max. pre-fuses
Weight
IP 20
IP 55, IP 66
[A]
[A]
[A]
[A]
[kVA]
[kVA]
[A]
[A]
[A]
[A]
[W]
[mm 2 ]
([AWG])
[A]
[kg]
[kg]
3
3.3
2.7
3.0
2.1
2.4
2.7
3.0
2.7
3.0
58
0.96
4.8
10
4.1
4.5
3.4
3.7
2.8
2.7
3.7
4.1
3.1
3.4
62
5.6
6.2
4.8
5.3
3.9
3.8
5.0
5.5
4.3
4.7
88
4.9
9.7 (A4)/13.5 (A2 + A5)
7.2
7.9
6.3
6.9
5.0
5.0
10
11
8.2
9.0
6.9
6.5
6.5
7.2
5.7
6.3
116
0.97
9.0
9.9
7.4
8.1
124
4 (12)
20
13
14.3
11
12.1
9.0
8.8
11.7
12.9
9.9
10.9
187
32
6.6
14.2
14.4
15.8
13.0
14.3
255
16
17.6
14.5
15.4
11.0
11.6
Enclosure
Typical shaft output
Typical shaft output at 460 V
Output current
Continuous (3 x 380 – 439 V)
Intermittent (3 x 380 – 439 V)
Continuous (3 x 440 – 480 V)
Intermittent (3 x 440 – 480 V)
Output power
Continuous (400 V AC)
Continuous (460 V AC)
Rated input current
Continuous (3 x 380 – 439 V)
Intermittent (3 x 380 – 439 V)
Continuous (3 x 440 – 480 V)
Intermittent (3 x 440 – 480 V)
Estimated power loss at rated max. load
IP 20 (IP 21*)/Chassis (Type 1)
IP 21/Type 1, IP 55 + IP 66/Type 4X
[kW]
[HP]
P11K
11
15
[A]
[A]
[A]
[A]
[kVA]
[kVA]
[A]
[A]
[A]
[A]
[W]
24
26.4
21
23.1
16.6
16.7
22
24.2
19
20.9
278
Max. cable size
Mains, motor, brake
Max. cable size mains
With mains disconnect switch included
[mm
([AWG])
[mm
2
2 ]
]
([AWG])
[A] 63
B3
B1
P15K
15
20
P18K
18.5
25
B4
P22K
22
30
B2
P30K
30
40
P37K
37
50
32
35.2
27
29.7
22.2
21.5
29
31.9
25
27.5
392
10 (8)
63
37.5
41.3
34
37.4
26
27.1
34
37.4
31
34.1
465
16, 10, 10 (6, 8, 8)
63
44
48.4
40
44
30.5
31.9
40
44
36
39.6
525
63
35 (2)
61
67.1
52
61.6
42.3
41.4
55
60.5
47
51.7
698
0.98
80
73
80.3
65
71.5
50.6
51.8
66
72.6
59
64.9
739
100
C1
P45K
45
60
C3
P55K
55
75
P75K
75
100
C4
C2
P90K
90
125
90
99
80
88
62.4
63.7
106
117
105
116
73.4
83.7
147
162
130
143
102
104
177
195
160
176
123
128
82
90.2
73
80.3
843
50 (1)
(B4 = 35 (2))
50, 35, 35
(1, 2, 2)
125
96
106
95
105
1083
160
133
146
118
130
1384
95 (4/0) 95 (4/0)
95, 70,
70
(3/0,
2/0,
2/0)
250
185,
150,
120
(350
MCM,
300
MCM,
4/0)
250
161
177
145
160
1474
0.99
Max. pre-fuses
Weight
IP 20
IP 21, IP 55, IP 66
[kg]
[kg]
12
23
12
23
12
23
23.5
27
23.5
27
23.5
45
35
45
35
45
50
65
50
65
* (A2, A3, B3, B4, C3 and C4 may be converted to IP 21 using a conversion kit. Please contact Danfoss.
(Please see also items Mechanical mounting in Operating Instructions and IP 21/ Type 1 Enclosure kit in the Design Guide.))
1) With brake and load sharing 95 (4/0)
|
1.1 kW – 400 kW
| VLT® HVAC Drive 27
VLT® HVAC Drive 3 x 380 – 480 V AC
Enclosure
IP 20
IP 21, IP 55
Typical shaft output (400 V)
Typical shaft output (460 V)
Typical shaft output (480 V)
Output current
Continuous (400 V)
Intermittent (440 V)
Continuous (460/500 V)
Intermittent (460/500 V)
Output power
Continuous (400 V)
Continuous (460 V)
Rated input current
Continuous (400 V)
Intermittent (460/500 V)
Estimated power loss at rated maximum load at 460 V
Max. cable size
Mains, motor, brake and loadsharing
Max. external input (mains) fuses
[kW]
[HP]
[kW]
[A]
[A]
[A]
[kVA]
[kVA]
[kVA]
[A]
[A]
[W]
[mm 2 ]
([AWG])
[A]
IP 20, IP 21, IP 54
[kg]
N110
110
150
132
212
233
190
209
147
151
204
183
2555
D3h
D1h + D5h + D6h
N132
132
200
160
260
286
240
264
180
191
251
231
2949
315
2 x 95
(2 x 3/0)
350
62 (D1h + D3h)
166 (D5h), 129 (D6h)
N160
160
250
200
315
347
302
332
218
241
304
291
3764
0.98
N200
200
300
250
395
435
361
397
274
288
381
348
4109
D4h
D2h + D7h + D8h
N250
250
350
315
480
528
443
487
333
353
463
427
5129
400 550
2 x 185
(2 x 350 mcm)
630
125 (D2h + D4h)
200 (D7h), 225 (D8h)
N315
315
450
355
588
647
535
588
407
426
567
516
6663
800
VLT® HVAC Drive 525 – 600 V AC
Enclosure
IP 20 Chassis
IP 21/Type 1
IP 55, IP 66/Type 4x
Typical shaft output
Output current
Continuous (3 x 525 – 550 V)
Intermittent (3 x 525 – 550 V)
Continuous (3 x 525 – 600 V)
Intermittent (3 x 525 – 600 V)
Output power
Continuous (525 V AC)
Continuous (575 V AC)
Rated input current
Continuous (3 x 525-600 V)
Intermittent (3 x 525 – 600 V)
Estimated power loss at rated max. load
Max. cable size
IP 20, mains, motor, brake
Max. cable size
IP 21/55/66, mains, motor, brake
Max. cable size mains
With mains disconnect switch included
Max. pre-fuses
Weight
IP 20
IP 21, IP 55, IP 66
[kW]
[A]
[A]
[A]
[A]
[kVA]
[kVA]
2.6
2.9
2.4
2.6
2.9
3.2
2.7
3.0
4.1
4.5
3.9
4.3
5.2
5.7
4.9
5.4
6.4
7.0
6.1
6.7
9.5
10.5
12.7
9.0
9.9
11.5
11.0
12.1
19
21
18
20
23
25
22
24
28
31
27
30
36
40
34
37
43
47
41
45
54
59
52
57
65
72
62
68
87
96
83
91
105
116
100
110
137
151
131
144
[A]
[A]
[W]
2.4
2.7
50
2.7
3.0
65
4.1
4.5
92
5.2
5.7
122
5.8
6.4
145
8.6
9.5
195
10.4
11.5
261
17.2
19
300
20.9
23
400
25.4
28
475
32.7
36
525
39
43
700
49
54
750
59
65
78.9
87
95.3
105
124.3
137
850 1100 1400 1500
[mm 2 ]
([AWG])
0.97
0.97
0.97
0.97
0.97
0.97
0.97
0.98
0.98
0.98
0.98
0.98
0.98
0.98
0.98
0.98
0.98
4 (12) 10 (8) 35 (2) 50 (1/0)
95
(4/0)
120
(250
MCM)
[mm 2 ]
([AWG])
[mm 2 ]
([AWG])
[A] 10 10 20
4 (12)
4 (12)
20 20 32 32 63
10 (8)
63
16, 10, 10
(8, 8, 8)
63
35, 25, 25
(2, 4, 4)
63 80 100
50 (1)
50, 35, 35
(1, 2 ,2)
125 160
150
(300 MCM)
95, 70,
70
(3/0,
2/0,
2/0)
185,
150, 120
(350
MCM,
300
MCM,
4/0)
250 250
[kg]
[kg]
B3 B4 C3 C4
A3 A3
B1 B2 C1 C2
A5
P1K1 P1K5 P2K2 P3K0 P4K0 P5K5 P7K5 P11K P15K P18K P22K P30K P37K P45K P55K P75K P90K
1.1
1.5
2.2
3 4 5.5
7.5
11 15 18.5
22 30 37 45 55 75 90
2.5
2.4
6.5
13.5
2.8
2.7
6.5
13.5
3.9
3.9
6.5
13.5
5.0
4.9
6.5
13.5
6.1
6.1
6.5
13.5
9.0
9.0
6.6
14.2
11.0
11.0
6.6
14.2
18.1
17.9
12
23
21.9
21.9
12
23
26.7
26.9
12
23
34.3
33.9
23.5
27
41
40.8
23.5
27
51.4
51.8
23.5
27
61.9
61.7
35
45
82.9
82.7
35
45
100
99.6
50
65
130.5
130.5
50
65
28 VLT® HVAC Drive |
1.1 kW – 400 kW
|
VLT® HVAC Drive 3 x 525-690 V AC
Enclosure
IP 20
IP 21/IP 55
A3 B4 C3 D3h
B2 C2
P1K1 P1K5 P2K2 P3K0 P4K0 P5K5 P7K5 P11K P15K P18K5 P22K P30K P37K P45K P55K P75K P90K
1.1
1.5
2.2
3 4 5.5
7.5
11 15 18.5
22 30 37 45 55 75 90
Typical shaft output (690 V)
[kW]
Output current (High overload 110% for 1 min.)
Continuous (3 x 525-550 V)
Intermittent (3 x 525-550 V)
[A]
[A]
Continuous kVA (3 x 551-690 V)
Intermittent kVA (3 x 551-690 V)
[A]
[A]
Output power
Continuous (550 V) (A3 525 V)
Continuous (690 V)
Rated input current
Continuous (3 x 525-550 V)
Intermittent (3 x 525-550 V)
Continuous kVA (3 x 551-690 V)
[kVA]
[kVA]
[A]
[A]
[A]
[A]
Intermittent kVA (3 x 551-690 V)
Estimated power loss at rated maximum load
[W]
2.1
3.4
1.6
2.6
1.9
1.9
1.9
3
1.4
2.3
44
2.7
4.3
2.2
3.5
2.5
2.6
2.4
3.9
2
3.2
60
3.9
6.2
3.2
5.1
3.5
3.8
3.5
5.6
2.9
4.6
88
4.9
7.8
4.5
7.2
4.5
5.4
4.4
7.1
4
6.5
120
6.1
9.8
5.5
8.8
5.5
6.6
5.5
8.8
4.9
7.9
10.8
14.4
23.2
21.5
160
9 11 14 19
14.4
17.6
22.4
20.9
7.5
12
8.2
9
8
13
6.7
220
10
16
10
12
10
16
9
300
13
20.8
13.3
15.5
15
23.2
14.5
150
18
19.8
18.1
21.5
19.5
21.5
19.5
220
23
25.3
22
24.2
21.9
26.3
24
26.4
24
26.4
300
28
30.8
27
29.7
26.7
32.3
29
29
31.9
370
36
39.6
34
37.4
34.3
40.6
36
43
47.3
41
45.1
41.0
49.0
54
59.4
52
57.2
51.4
62.1
65
71.5
62
68.2
61.9
74.1
87
95.7
83
91.3
82.9
99.2
105
115.5
100
110
100
119.5
31.9
39.6
53.9
64.9
78.1
95.7
108.9
36
39.6
440
49
48
52.8
740
59
58
63.8
900
71
70
77
1100
87
86
94.6
1500
99
94.3
112.7
1800
0.96
0.98
Max. cable cross section
Mains, motor, brake and load sharing
Max. external input (mains) fuses
[mm 2 ]
([AWG])
[A]
4 (12)
– 63 80
35 (2)
100 125 160 –
IP 20
[kg]
[kg]
6.6
–
21.5 (B4)
27 (B2)
35 (C3) 62 (D3h)
65 (C2) – 62 (D3h)
VLT® HVAC Drive 3 x 525-690 V AC
Enclosure
IP 20
IP 21, IP 55
Typical shaft output (525 V)
Typical shaft output (575 V)
Typical shaft output (690 V)
Output current
Continuous (550 V)
Intermittent (550 V)
Continuous (575/690 V)
Intermittent (575/690 V)
Output power
Continuous (525 V)
Continuous (575 V)
Continuous (690 V)
Rated input current
Continuous (550 V)
Continuous (575 V)
Continuous (690 V)
Estimated power loss at 525/575 V
Estimated power loss at 690 V
90
99
86
95
N75K
55
75
75
86
86
103
89
85
87
1162
1204
[kW]
[HP]
[kW]
[A]
[A]
[A]
[kVA]
[kVA]
[kVA]
[kVA]
[A]
[A]
[A]
[W]
[W]
Max. cable size
Mains, motor, brake and loadsharing
Max. external input (mains) fuses
[mm 2 ]
([AWG])
[A] 160
IP 20, IP 21, IP 54
[kg]
108
108
129
110
106
109
1428
1477
D3h
N90K
D1h + D5h + D6h
N110 N132
75
100
90
90
125
110
110
150
132
113
124
108
119
137
151
131
144
162
178
155
171
131
130
157
130
124
128
1739
1796
154
154
185
158
151
155
2099
2165
2 x 95
(2 x 3/0)
315
62 (D1h + D3h)
166 (D5h), 129 (D6h)
N160
132
200
160
201
221
192
211
191
191
229
198
189
197
2646
2738
0.98
350
N200
160
250
200
253
278
242
266
241
241
289
245
234
240
3071
3172
289
289
347
299
286
296
3719
3848
D4h
D2h + D7h + D8h
N250 N315
200
300
250
250
350
315
303
333
290
319
360
396
344
378
343
343
411
355
339
352
4460
4610
N400
315
400
400
418
460
400
440
398
398
478
408
390
400
5023
5150
2 x 185
(2 x 350 mcm)
400 500
125 (D2h + D4h)
200 (D7h), 225 (D8h)
550
|
1.1 kW – 400 kW
| VLT® HVAC Drive 29
Dimensions and air fl ow
A2 IP 20 A3 with IP 21/Type 12 NEMA 1 Kit
A4 IP 55 with mains disconnect B3 IP 20
B4 IP 20 C3 IP 20
Please see the VLT® HVAC Drive FC 102 Design Guide for other frames, available at http://www.danfoss.com/Products/Literature/VLT+Technical+Documentation.htm
30 VLT® HVAC Drive |
1.1 kW – 400 kW
|
A, B and C frames
A4 A5
VLT® HVAC Drive
B1 B2 B3 B4 C1 C2 C3 C4 Frame A2 A3
Enclosure
H mm
Height of back plate
H1 mm
With de-coupling plate for fi eldbus cables
H2 mm
Distance to mounting holes
W mm
W1 mm
Distance between mounting holes
D mm
Depth without option A/B
D1 mm
With mains disconnect
D2 mm
With option A/B
I (air space inlet) mm (inches)
O (air space outlet) mm (inches)
Weight (kg)
IP 20 IP 21 IP 20 IP 21
90
70
205
268
374
254
–
220
100
100
4.9
90
70
207
375
–
350
–
222
100
100
5.3
268
374
257
130
110
205
–
220
100
100
6.6
375
–
350
130
110
207
–
222
100
100
7
200
171
175
390
–
401
206
175
100
100
9.7
IP 55/IP 66
IP 21/IP 55/
IP 66
242
210
260
480
–
454
289
260
200
200
23
242
215
195
420
–
402
224
195
100
100
13.5/
14.2
242
210
260
650
–
624
290
260
200
200
27
IP 20
230
200
242
520
595
495
–
242
200
200
23.5
165
140
249
399
420
380
–
262
200
200
12
IP 21/IP 55/
IP 66
308
272
310
680
–
648
344
310
200
200
45
370
334
335
770
–
739
378
335
225
225
65
IP 20
370
330
333
660
800
631
–
333
225
225
50
308
270
333
550
630
521
–
333
200
200
35
A3 IP 20
W1
W
Width
H2
Height
H
Height
H1
Height
A4 IP 55 with mains disconnect
Air space outlet
O
Air space outlet
Air space inlet
D D2
Depth
I
Air space outlet
D1 Depth
|
1.1 kW – 400 kW
| VLT® HVAC Drive 31
Dimensions and air fl ow
A
Door swing
H
Height
H1
Height
W
Width
C1
D1h/D2h
Air space outlet O
C2
D3h/D4h
C1 C2
C2
C1
C1
C2
C2
Air space inlet
I
D
Depth
Please see the VLT® High Power Design Guide for other frames, available at http://www.danfoss.com/Products/Literature/VLT+Technical+Documentation.htm
32 VLT® HVAC Drive |
1.1 kW – 400 kW
|
D frames
Frame
Enclosure
H mm
Height of back plate
H1 mm
Height of product
W mm
D mm
D1 mm
With mains disconnect
Door swing A mm
I (air space inlet) mm
O (air space outlet) mm
C1
C2
D1h D2h D3h
IP 21/IP 54
901
844
325
378
–
298
225
225
102 m 3 /h
(60 cfm)
420 m 3 /h
(250 cfm)
1107
1050
420
378
–
395
225
225
204 m 3 /h
(120 cfm)
840 m 3 /h
(500 cfm)
909
844
250
375
– n/a
225
225
102 m 3 /h
(60 cfm)
420 m 3 /h
(250 cfm)
IP 20
1122
1050
350
375
– n/a
225
225
204 m 3 /h
(120 cfm)
840 m 3 /h
(500 cfm)
VLT® HVAC Drive
D4h D5h D6h D7h D8h
1324
1277
325
381
426
298
225
225
102 m 3 /h
(60 cfm)
420 m 3 /h
(250 cfm)
1665
1617
325
381
426
298
225
225
IP 21/IP 54
1978
1931
420
384
429
395
225
225
204 m 3 /h
(120 cfm)
840 m 3 /h
(500 cfm)
2284
2236
420
402
447
395
225
225
C1
D5h/D6h
C1
C1
D1
Depth
D
Depth
C2
C2
C1
D7h/D8h
C1
C2
C1
C2
D
Depth
|
1.1 kW – 400 kW
| VLT® HVAC Drive 33
A options:
Fieldbuses
For A, B, C and D frames
Fieldbus
A
VLT® PROFIBUS DP V1 MCA 101
VLT® DeviceNet MCA 104
VLT® LonWorks MCA 108
VLT® BACnet MCA 109
VLT® PROFINET MCA 120
VLT® EtherNet/IP MCA 121
VLT® Modbus TCP MCA 122
VLT® PROFIBUS DP MCA 101
Operating the frequency converter via a fi eldbus enables you to reduce the cost of your system, communicate faster and more
ciently, and benefi t from an easier user interface.
VLT® PROFIBUS DP MCA 101 provides wide compatibility, a high level of availability, support for all major PLC vendors, and
compatibility with future versions
Fast, effi rent installation, advanced diagnosis and parameterisation and auto- confi guration of process data via GSD-fi le
A-cyclic parameterisation using
PROFIBUS DP-V1, PROFIdrive or Danfoss
FC profi le state machines, PROFIBUS DP-V1,
Master Class 1 and 2
Ordering number
130B1100 standard, 130B1200 coated
VLT® DeviceNet MCA 104
VLT® DeviceNet MCA 104 off ers robust, effi
Producer/Consumer technology.
This modern communications model offers key capabilities that let you effectively determine what information is needed and
when
Benefit also from ODVA’s strong conform- ance testing policies, which ensure that products are interoperable
Ordering number
130B1102 standard, 130B1202 coated
VLT® LonWorks MCA 108
LonWorks is a fieldbus system developed for building automation. It enables communication between individual units in the same system (peer-to-peer) and thus supports decentralising of control.
No need for big main station
(master-follower)
Units receive signals directly
Supports Echelon free-topology interface
(flexible cabling and installation)
Supports embedded I/Os and I/O options
(easy implementation of de-central I/Os)
Sensor signals can quickly be moved to
another controller via bus cables
Certified as compliant with LonMark ver. 3.4 specifications
Ordering number
130B1106 standard, 130B1206 coated
34 VLT® HVAC Drive |
1.1 kW – 400 kW
|
VLT® BACnet MCA 109
The open communications protocol for worldwide building automation.
The BACnet protocol is an international protocol that efficiently integrates all parts of building automation equipment from the actuator level to the building management system.
Via the BACnet option it is possible to read all analogue and digital inputs and control all analogue and digital outputs of the VLT® HVAC
Drive. All inputs and outputs can be operated independently of the drive’s functions and thus work as remote I/Os:
COV (Change of Value)
Read/write Property Multiple
Alarm/Warning handling
Ordering number
130B1144 standard, 130B1244 coated
VLT® PROFINET MCA 120
VLT® PROFINET MCA 120 uniquely combines the highest performance with the highest degree of openness. The MCA120 gives the user access to the power of Ethernet. The option is designed so that many of the features from the PROFIBUS MCA 101 can be reused, minimising user eff ort to migrate PROFINET, and securing the investment in PLC program.
Other features:
Built-in web server for remote diagnosis and reading out of basic drive parameters
Support of DP-V1 Diagnostic allows easy, fast and standardized handling of warning and fault information into the PLC, improving bandwidth in the system
PROFINET encompasses a suite of messages and services for a variety of manufacturing automation applications, including control, configuration and information.
Ordering number
130B1135 standard, 130B1235 coated
VLT® EtherNet/IP MCA 121
Ethernet is the future standard for communication at the factory fl oor. The VLT® EtherNet/
IP MCA 121 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 off ers 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
Unicast and Multicast communication
Ordering number
130B1119 standard, 130B1219 coated
VLT® Modbus TCP MCA 122
Modbus TCP is the fi rst industrial Ethernet based protocol for automation. The VLT® Modbus TCP MCA 122 connects to Modbus TCP based networks. It is able to handle connection interval down to 5 ms in both directions, positioning it among the fastest performing
Modbus TCP devices in the market. For master redundancy it features hot swapping between two masters.
Other features:
Built-in web-server for remote diagnosis and reading out basic drive parameters
An e-mail notificator can be configured for sending an e-mail message to one or several receivers, if certain warnings or alarms occurs, or has cleared again
Ordering number
130B1196 standard, 130B1296 coated
VLT® DeviceNet
Converter MCA 194
The VLT® DeviceNet Converter MCA 194 emulates VLT® 5000 commands in the VLT®
AutomationDrive. This means that a VLT® 5000 can be replaced by the VLT® AutomationDrive or an existing system can be expanded, without costly change of the PLC program.
For a later upgrade to a different fieldbus, the installed converter can easily be removed and replaced with a different option. This secures the investment without losing flexibility. The option emulates I/O instances & explicite messages of a VLT® 5000.
Ordering number
NA standard, 130B5601 coated
B options:
Functional extensions
For A, B, C and D frames
Funcional extensions
B
VLT® Generel Purpose MCB 101
VLT® Relay Option MCB 105
VLT® Analog I/O Option MCB 109
VLT® PTC Thermistor Card MCB 112
VLT® Sensor Input Card MCB 114
VLT® Safe Option MCB 140 Series
VLT® General Purpose I/O
MCB 101
This I/O option off ers 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
Ordering number
130B1125 standard, 130B1212 coated
VLT® Relay Option MCB 105
Makes it possible to 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 fi 0.4 ................................240 V AC 0.2 A
DC-1 Resistive load ..............................24 V DC 1 A
DC-13 Inductive load @cos fi 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
Protects control cable connection
Spring-loaded control wire connection
Ordering number
130B1110 standard, 130B1210 coated
VLT® Analog I/O Option
MCB 109
This analogue input/output option is easily fi tted in the frequency converter for upgrading to advanced performance and control using the additional in/outputs.This option also upgrades the frequency converter with a battery back-up supply for the frequency converter’s built-in clock. This provides stable use of all frequency converter clock functions as timed actions etc.
3 analogue inputs, each configurable as
both voltage and temperature input
Connection of 0-10 V analogue signals as well as PT1000 and NI1000 temperature inputs
3 analogue outputs each configurable as
0-10 V outputs
Incl. back-up supply for the standard clock function in the frequency converter
|
1.1 kW – 400 kW
| VLT® HVAC Drive 35
B options:
Functional extensions
For A, B, C and D frames
The back-up battery typically lasts for 10 years, depending on environment.
Ordering number
130B1143 standard, 130B1243 coated
VLT® PTC Thermistor Card
MCB 112
ATEX-compliant module with thermal protection for single EEx d motors (Ziehl MS 220 DA).
1 PTB-certified thermistor input
1 switch-off signal for the integrated Safe
Torque Off function (STO)
1 logic output for error identification
Ordering number
NA standard, 130B1137 coated
* for use of this option STO-function is needed
(optional terminal 37, see page 21 “Safety”)
VLT® Sensor Input Card
MCB 114
The option protects the motor from being overheated by monitoring the bearings and windings temperature in the motor. Both limits as well action are adjustable, and the individual sensor temperature is visible as a read-out on the display or by fi eldbus.
Protects the motor from overheating
Three self-detecting sensor inputs for 2 or 3
wire PT100/PT1000 sensors
One additional analogue input 4-20 mA
Ordering number
130B1172 standard, 130B1272 coated
VLT® Safe Option
MCB 140 Series
VLT® Safe Option MCB 140 Series are safety options providing Safe Stop 1 (SS1), Safely
Limited Speed (SLS) and Safe Speed Monitor
(SSM) functionallity.
The options can be used up to PL e according to ISO 13849-1.
MCB 140 is a standard B-Option while MCB 141 off ers the same functionallity in an external
45 mm housing. MCB141 enables the user to use the MCB 140 functionallity also if another
B-Option is used.
Diff erent operating modes can be easily confi gured by using the on board display and buttons. The options provide only a limited set of parameters for easy and fast parameterization.
MCB 140 standard B-Option
MCB 141 external Option
Single channel or dual channel operation possible
Proximity switch as speed feedback
SS1, SLS and SMS functionallity
Easy and fast parameterization
Ordering number
130B6443 MCB 140, 130B6447 MCB 141
D option:
External power supply
For A, B, C and D frames
Option slot
D
VLT® 24 V DC Supply Option MCB 107
VLT® 24 V DC Supply
MCB 107
The option is used to connect an external DC supply to keep the control section and any installed option alive during power failure.
Input voltage range ...24 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
Ordering number
130B1108 standard, 130B1208 coated
36 VLT® HVAC Drive |
1.1 kW – 400 kW
|
Accessories
For A, B, C and D frames
LCP
VLT® Control Panel LCP 101 (Numeric)
Ordering number: 130B1124
VLT® Control Panel LCP 102 (Graphical)
Ordering number: 130B1107
LCP Panel Mounting Kit
Ordering number for IP 20 enclosure
130B1113: With fasteners, gasket, graphical LCP and 3 m cable
130B1114: With fasteners, gasket, numerical LCP and 3 m cable
130B1117: With fasteners, gasket and without LCP and with 3 m cable
130B1170: With fasteners, gasket and without LCP
Ordering number for IP 55 enclosure
130B1129: With fasteners, gasket, blind cover and 8 m “free end” cable
Power Options*
VLT® Sine-Wave Filter MCC 101
VLT® dU/dt Filter MCC 102
VLT® Common Mode Filters MCC 105
VLT® Advanced Harmonic Filter AHF 005/010
VLT® Brake Resistors MCE 101
Accessories
Profi bus SUB-D9 Adapter
IP 20, A2 and A3
Ordering number: 130B1112
USB Extension
Ordering number:
130B1155: 350 mm cable
130B1156: 650 mm cable
IP 21/Type 1 (NEMA 1) Kit
Ordering number
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
Motor connector
Ordering number:
130B1065: frame A2 to A5 (10 pieces)
Mains connector
Ordering number:
130B1066: 10 pieces mains connctors IP 55
130B1067: 10 pieces mains connectors IP20/21
Relays 1 terminal
Ordering number: 130B1069 (10 pieces 3 pole connectors for relay 01)
Relays 2 terminal
Ordering number: 130B1068 (10 pieces 3 pole connectors for relay 02)
Control card terminals
Ordering number: 130B0295
*Ordering number:
See relevant Design Guide
|
1.1 kW – 400 kW
| VLT® HVAC Drive 37
Ordering typecode
for A, B, C and D frames
FC-
[1]
–
[2]
–
[3]
–
[4]
–
[5]
–
[6] [7] [8] [9] [10] [11] [12]
– – – – – – –
[13] [14] [15]
– –
[16] [17] [18] [19]
– CX – X – XX –
[1] Application (character 4-6)
102 VLT® HVAC Drive FC 102
[2] Power size (character 7-10)
P1K1 1.1 kW / 1.5 HP
P1K5 1.5 kW / 2.0 HP
P2K2 2.2 kW / 3.0 HP
P3K0 3.0 kW / 4.0 HP
P3K7 3.7 kW / 5.0 HP
P4K0 4.0 kW / 5.5 HP
P5K5 5.5 kW / 7.5 HP
P7K5 7.5 kW / 10 HP
P11K 11 kW / 15 HP
P15K 15 kW / 20 HP
P18K 18.5 kW / 25 HP
P22K 22 kW / 30 HP
P30K 30 kW / 40 HP
P37K 37 kW / 50 HP
P45K 45 kW / 60 HP
P55K 55 kW / 75 HP
P75K 75 kW / 100 HP
P90K 90 kW / 125 HP
N55K 55 kW / 75 HP
N75K 75 kW / 100 HP
N90K 90 kW / 125 HP
N110 110 kW / 150 HP
N132 132 kW / 200 HP
N160 160 kW / 250 HP
N200 200 kW / 300 HP
N250 250 kW / 350 HP
N315 315 kW / 450 HP
N400 400 kW / 550 HP
[3] AC Line Voltage (character 11-12)
T2 3 x 200/240 V AC (1.1 – 45 kW)
T4 3 x 380/480 V AC (1.1 – 1000 kW)
T6 3 x 525/600 V AC (1.1 – 90 kW)
T7 3 x 525/690 V AC (1.1 – 1400 kW)
[4] Enclosure (character 13-15)
For cabinet mounting:
E20
IP 20/Chassis
(frame A2, A3, B3, B4, C3, C4, D3h, D4h)
Standalone:
E21
E54
IP 21 / Type 1 (frame B1, B2, C1, C2, D1h, D2h,
D5h, D6h, D7h, D8h)
IP 54/Type 12 (frame D1h, D2h, D5h, D6h,
D7h, D8h)
E55 IP 55 (frame A5, B1, B2, C1, C2)
E66
IP 66/Type 4X outdoor*
– frame A5, B1, B2, C1, C2)
Z55 IP 55/Type 12 (frame A4)
Z66 IP 66/NEMA 4X* (frame A4)
Special designs:
P20 IP 20 (frame B4, C3, C4 – with back plate)
E2M
IP 21 / Type 1 with mains shield
(frame D1h, D2h, D5h, D6h, D7h, D8h)
P21
E5M
IP 21 / Type 1
(frame as E21 – with back plate)
IP 54 / Type 12 with mains shield
(frame D1h, D2h, D5h, D6h, D7h, D8h)
* Only available in the USA
P55
Y55
IP 55
(frame as E55 – with back plate)
IP 55
(frame as Z55 – with back plate)
Y66
IP 66/NEMA 4X*
(frame as Z66 – with back plate)
[5] RFI fi lter, terminal and monitoring options
– EN/IEC 61800-3 (character 16-17)
H1
RFI-Filter Class A1/B (C1)
(A, B and C frames only)
H2 RFI-Filter, Class A2 (C3)
H3
RFI-Filter Class A1/B 1)
(A, B and C frames only)
H4
H5
RFI-Filter, Class A1 (C2)
(B, C and D frames only)
RFI-Filter, Class A2 (C3)
Marine ruggedized
HX
8
No RFI-Filter (only 600 V)
(A, B and C frames only)
[6] Braking and safety (character 18)
X No brake IGBT
B
T
Brake IGBT
Safe Stop without brake
R
U
Regeneration terminals (D frame only)
Brake IGBT plus Safe Stop
[7] LCP Display (character 19)
X Blank faceplate, no LCP installed
N
G
Numerical Local Control Panel (LCP 101)
Graphical Local Control Panel (LCP 102)
[8] PCB Coating – IEC 721-3-3 (character 20)
X No conformal coating (Class 3C2)
C
R
Conformal coating on all PCBs (Class 3C3)
Conformal coating plus ruggedized
[9] Mains input (character 21)
X No mains option
1
7
Mains disconnect
Fuses (D frame only)
Mains disconnect and loadsharing
(B1, B2, C1 and C2 frames only)
A
Fuses and loadsharing terminals
(D frame IP 20 only)
D
3
4
5
E
Loadsharing terminals
(B1, B2, C1 and C2 frames only.
D-frame only IP 20)
Mains disconnect + fuse (D frame only)
Mains contactor + fuse (D frame only)
Mains disconnect, fuse and load sharing
Mains disconnect + contactor + fuse
(D frame only)
J Circuit breaker + fuse (D frame only)
[10] Power terminals and motor starters
(character 22)
X
O
S
Standard cable entries
Metric cable entries
US cable entries (not for A4 frame)
[11] Auxiliary 24 V supply and external
temperature monitoring (character 23)
X
Q
No adaptation
Heat-sink access panel (D frame only)
[12] Special version (character 24-27)
SXXX No option
[13] LCP language (character 28)
X
Standard language package including
English, German, French, Spanish, Danish,
Italian and Finnish
Contact factory for other language options
[14] Fieldbus (character 29-30)
AX No option
A0 VLT® PROFIBUS DP V1 MCA 101
A4 VLT® DeviceNet MCA 104
AG VLT® LonWorks MCA 108
AJ VLT® BACnet MCA 109
AL VLT® PROFINET MCA 120
AN VLT® EtherNet/IP MCA 121
AQ VLT® Modbus TCP MCA 122
[15] Application (character 31-32)
BX No application option
BK VLT® Generel Purpose MCB 101
BP VLT® Relay Option MCB 105
BZ VLT® Safety PLC I/O MCB 108
B0 VLT® Analog I/O Option MCB 109
B2 VLT® PTC Thermistor Card MCB 112
B4 VLT® Sensor Input Card MCB 114
[19] Control Power Backup Input (character 38-39)
DX No DC input installed
D0 VLT® 24 V DC Supply Option MCB 107
1) reduced motor cable length
Please beware that not all combinations are possible. Find help confi guring your drive with the online confi gurator found under: driveconfi g.danfoss.com
Based on your selection, Danfoss manufactures the desired VLT® HVAC Drive.
You will receive a fully assembled frequency
converter, tested under full load conditions.
38 VLT® HVAC Drive |
1.1 kW – 400 kW
|
Power
and enclosures
VLT® HVAC Drive
FC 102 kW A
T2 200 – 240 V
A
T4/T5 380 – 480 V
A
T6 525 – 600 V
A
T7 525 – 690 V
110
132
160
200
250
315
400
45
55
75
90
75
90
7.5
11
15
18.5
22
30
37
1.1
1.5
3.7
4.0
6.6
7.5
2.2
10.6
3.0 12.5
16.7
5.5
24.2
30.8
46.2
59.4
74.8
88
115
143
170
* Only available in 690 V
P45K
P55K
P75K
P90K
N75K*
N90K*
N110
N132
N160
N200
N250
N315
N400*
P7K5
P11K
P15K
P18K
P22K
P30K
P37K
P1K1
P1K5
P2K2
P3K0
P3K7
P4K0
P5K5
A2 A2
A4
A5
A4
A5
3 2.7
4.1
3.4
5.6
4.8
7.2
6.3
A2 A2
A3 A3 A5 A5
B3 B1 B1 B1
10 8.2
A2 A2
13 11
A3 A3
16 14.5
24 21
B2 B2 B2 32 27 B3 B1
B4
C1 C1 C1
37.5
34
44 40
C3 B2
61 52
73 65
B4
C4 C2 C2 C2
90 80
106 105
C3
C1
147 130
177 160
C4 C2
212 190
260 240
315 302
395 361
480 443
588 535
D3h
D1h
D5h
D6h
D1h
D5h
D6h
D4h
D2h
D7h
D8h
D2h
D7h
D8h
A4
A5
A4
A5
2.6
2.9
4.1
5.2
2.4
2.7
3.9
4.9
A4/ A5 6.4
6.1
9.5
A5 A5
9
11.5
11
B1 B1
19 18
23 22
B2 B2
28 27
36 34
43 41
54 52
C1 C1
C2 C2
65 62
87 83
105 100
137 131
A3 A3 A5 A5
2.1
2.7
3.9
4.9
1.6
2.2
3.2
4.5
A3 A3 A5 A5
A3 A3 A5 A5
B3
B4
C3
B1
B2
C1
B1 B1
B2 B2
C1 C1
C4 C2 C2 C2
6.1
5.5
9 7.5
11
14
10
13
19 18
23 22
28 27
36 34
43 41
54 52
65 62
87 83
105 100
90 86
113 108
137 131
162 155
201 192
253 242
303 290
360 344
418 400
A3
B4
C3
A3
B2
C2
D3h
D1h
D5h
D6h
D1h
D5h
D6h
D4h
D2h
D7h
D8h
D2h
D7h
D8h
A5 A5
B2
C2
D8h
IP 20/Chassis
■
IP 21/Type 1
■
IP 21 with upgrade kit – available in US only
■
IP 54/Type 12
■
IP 55/Type 12
■
IP 66/NEMA 4X
■
D7h
D6h
D5h
B3
B4 C3 C4
A2 A3 A4 A5 B1 B2 C1 C2 D2h D4h D1h D3h
|
1.1 kW – 400 kW
| VLT® HVAC Drive 39
What VLT® is all about
Danfoss VLT 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 frequency converter factories are certifi ed according to ISO 14001 and ISO 9001 standards.
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.
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.
Dedicated to drives
Dedication has been a key word since
1968, when Danfoss introduced the world’s fi rst mass produced variable speed drive for AC motors – and named it VLT®.
Twenty fi ve 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 VLT Drives have fully adopted modular principles in development as well as design, production and confi guration.
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 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 VLT Drives’ experts located in more than 100 countries are ready to support our customers with application advice and service wherever they may be.
Danfoss VLT Drives experts don’t stop until the customer’s drive challenges are solved.
Danfoss VLT Drives, Ulsnaes 1, DK-6300 Graasten, Denmark, Tel. +45 74 88 22 22, Fax +45 74 65 25 80 www.danfoss.com/drives, E-mail: [email protected]
DKDD.PB.102.A2.02 VLT® is a trademark of Danfoss A/S Produced by PE-MSMBM 2013.11
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