Danfoss VACON NXP Liquid Cooled AC Drives Instructions

June 1, 2024
Danfoss

Danfoss VACON NXP Liquid Cooled AC Drives

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-PRODUCT

Product Information

  • Specifications
    • Robust, silent, and space-saving liquid-cooled drives
    • Up to 25% savings in total life cycle costs compared to air-cooled solutions
    • Suitable for demanding applications in marine & offshore, pulp & paper, renewable energy, mining & metal industries
    • Ultimate motor control for induction and permanent magnet motors, gearless drive applications, and paralleling solutions
    • Compact design with high power density
    • Silent operation without large cooling fans
    • Flexible and scalable system with built-in expansion slots for additional I/O, Fieldbus, and functional safety boards

Product Usage Instructions

  • Typical Segments
    • The liquid-cooled drives are commonly used in various industries including marine and offshore, renewable energy, mining and metals, water and wastewater, energy management, pulp and paper, oil and gas, and machine building.
  • Benefits
    • Minimizes investment and operational costs
    • Saves floor space and infrastructure needs
    • Compact and easy to install
    • Virtually silent operation
    • No large air conditioning systems needed
    • Easy to adapt to various uses due to ready-to-use applications
    • Typical Applications
    • Propeller and thruster systems
    • Compressors
    • Wind turbines
  • Extruders
    • Pumps and fans
    • Test bench systems
    • Cranes and winch systems
    • Power conversion systems
    • Production lines
    • Oil rigs
    • Crushers
    • Conveyors
  • Climate Considerations
    • Consider the impact on the electrical room infrastructure when choosing cooling technology solutions.
    • Evaluate geographical location, industry, and process requirements.
    • In warm climates, monitor the heat load transferred to the electrical room to manage energy consumption effectively.
  • The Liquid Way to Stay Cool
    • Liquid-cooled drives offer cost-effective cooling solutions without the need for additional air conditioning or ventilation.
    • The energy savings increase with higher power requirements, making them an efficient choice for various applications.

FAQs

  • Q: What are the typical segments where liquid-cooled drives are used?
    • A: Liquid-cooled drives are commonly utilized in marine and offshore, renewable energy, mining and metals, water and wastewater, energy management, pulp and paper, oil and gas, and machine-building industries.
  • Q: What are the benefits of using liquid-cooled drives?
    • A: Liquid-cooled drives offer minimized investment and operational costs, save floor space, are easy to install, operate silently, and do not require large air conditioning systems.
  • Q: What are some typical applications of liquid-cooled drives?
    • A: Liquid-cooled drives are used in propeller and thruster systems, compressors, wind turbines, extruders, pumps and fans, test bench systems, cranes and winch systems, power conversion systems, production lines, oil rigs, crushers, and conveyors.

Quiet Compact Cool

VACON® NXP Liquid Cooled AC drives are the ultimate in space-saving, high- power density AC drives. They are well suited for locations where air-cooling is difficult, expensive or impractical such as onboard ships or in locations affected by altitude, or simply where installation space is at a premium. Their robust, modular design makes the VACON® NXP a suitable platform for all drive needs in demanding applications and are available in the power range from 10 HP – 5900 HP, (7.5 kW – 5.3 MW) at 380-690 VAC supply voltages.

Power packed

  • As no air ducts are required, liquid-cooled drives are extremely compact and suitable for a wide variety of
    heavy industries with harsh operating conditions such as marine & offshore, pulp & paper, renewable energy and mining & metal.

  • Thanks to the high degree of protection (IP54) achieved with these drives, they can be installed almost anywhere in the plant or vessel. This eliminates the load on the air-conditioning system in the electrical rooms – an important cost and space consideration in many retrofit applications. And since liquid-cooled drives do not require large cooling fans, they are also among the most silent AC drives on the market.

  • We are committed to providing you with the ultimate in high power density. VACON® NXP liquid-cooled products have one of the best power/size ratios on the market. For example, our compact 12 pulse, 1.5MW drive includes a built-in rectifier, inverter and optional brake all in the same package, and all this can be mounted in an 800 mm wide enclosure.

  • Our liquid-cooled range offers the ultimate in motor control, for both induction and permanent magnet motors, gearless drive applications and paralleling solutions for high power motors.

Certification and grid expertise

  • Our VACON® NXP liquid-cooled portfolio fulfills all relevant international standards and global requirements, including marine, safety and EMC & Harmonics approvals.
  • VACON® NXP liquid-cooled AC drives can be used in regenerative energy and smart grid applications, which ensures customers can effectively monitor and control energy use and costs.

Typical segments

  • Marine and offshore
  • Renewable energy
  • Mining and metals
  • Water and wastewater
  • Energy management
  • Pulp and paper
  • Oil and gas
  • Machine building

Saving fuel at sea
In the highly competitive marine segment, increased demand for efficiency is the main reason for using AC drives in fan, winch, propulsion, and various special applications across all vessel types, from large luxury liners and cargo ships to tugboats.

What’s in it for you

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(1\)

Benefits

  • Compact size and high power density
  • No large air conditioning systems are needed as state-of-the-art liquid-cooled AC drive design allows heat loss to be transferred to the most convenient place with no need for vast amounts of filtered air
  • Easy to adapt to various uses due to ready-to-use applications
  • Flexible and scalable system for additional I/O, field, and functional safety boards with five built-in expansion slots
  • Silent operation due to eliminated need for large cooling fans

Typical applications

  • Propeller and thruster systems
  • Compressors
  • Wind turbines
  • Extruders
  • Pumps and fans
  • Test bench systems
  • Cranes and winch systems
  • Power conversion systems
  • Production lines
  • Oil rigs
  • Crushers
  • Conveyors

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(3\)

The liquid way to stay cool
VACON® NXP Liquid Cooled AC drives have been pioneering for more than a decade in demanding industries with a proven track record of highly reliable products. We have succesfully mitigated the common risks of leakage and reliability in our product design.

  • Climate considerations
    When comparing cooling technology solutions, it is important to understand the effects on the infrastructure of
    the electrical room, and the room’s requirements. Additional comparison parameters are the geographical location, relevant industry and process.
    In warm climates, it is extremely important to observe the amount of heat load transferred to the electrical room because of its indirect effect on electrical energy consumption.
    The type-tested switchgear standard EN 60439-1 specifies that the electrical room’s 24-hour average temperature should be below +35 °C and the maximum temporary temperature cannot exceed +40 °C. As a result, the cooling system in electrical rooms is typically comprised of air conditioning chillers, which are dimensioned according to the maximum heat load, the temperature inside the electrical room and the maximum temperature outdoors. The typical electrical energy consumption of air conditioning is approx. 25-33% of the cooling power.

  • The higher the power, the greater the savings

  • In many cases, liquid-cooled drives are the most cost-effective option, simply since there is no need for additional air conditioning capacity or extra ventilation for the areas in which they are used. The related savings enable shorter payback times and the higher the power, the greater the savings potential.

  • The continuously growing cost of energy certainly supports wider use of liquid-cooled drives technology, and the number of installations is growing rapidly.

A driving force in wind energy

  • VACON® AC drives are designed to provide proven performance in demanding environments. Our drives are serving the wind energy industry globally with a combined installed capacity of almost one gigawatt.

Exclusively designed for liquid cooling

  • Many other liquid-cooled drives on the market are based on modifications of an air cooled drive, rather than exclusively designed for the purpose. The VACON® NXP Liquid Cooled dissipates only 0.1 – 0.15% of its heat losses to air.* A state-of-the-art cooling heatsink enables the cooling efficiency of the components to be higher than ever.

Cooling technology advantages

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(4\)Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1
\(5\)

Extensive portfolio of liquid-cooled drive modules
Significant energy savings and optimal performance can be achieved with the right configuration. Liquid-cooled AC drives can be used in a multitude of combinations from a single dedicated frequency converter to large-scale Common DC bus systems.

Dedicated frequency converter

  • The VACON® NXP Liquid Cooled drives are available as 6- or 12-pulse frequency converters. In addition, our largest unit, the CH74, can also be used as an 18-pulse converter. The AC drive consists of a power unit, a control unit, and possibly one or more input chokes.
  • An internal brake chopper is available as standard for our smallest unit CH3. For CH72 (only 6-pulse) and CH74, it is available as an internal option while in all other sizes, the brake chopper is available as an option and installed externally.

Active front-end (AFE)

  • The AFE unit is a bi-directional (regenerative) power converter (supply unit) for the front end of a common liquid-cooled DC bus drive line-up. An external LCL filter is used at the input.
  • This unit is suitable for applications where a low level of mains harmonics and high power factor are required.
  • AFE units can operate in parallel to provide increased power and/or redundancy without any drive-to-drive communication between the units.
  • AFE units can also be connected to the same fieldbus with inverters, and controlled and monitored via fieldbus. Fuses, LCL filters, pre-charging rectifiers, and resistors can be specified and ordered separately.
  • The LCL filter guarantees that harmonics are not an issue in any network.
  • With a power factor > 0.99 and low harmonics, the supply chain transformers, generators, etc. can be sized very accurately without reserving margins for the reactive power.
  • This can mean a saving of 10% in supply chain investments. Likewise, the payback time is faster as regenerative energy is fed back to the grid.

A portfolio for all your needs

We provide a comprehensive range of AC drive modules and enclosed drive solutions to meet all your power and control requirements.

Inverter unit (INU)

  • The INU is a bidirectional DC-fed power inverter for the supply and control of AC motors. The INU is supplied from a common DC bus drive line-up. A charging circuit is needed in case a connection to a live DC bus is required.
  • The DC-side charging circuit is external for inverter types.
  • Pre-charging resistors and switches or fuses are not included in an INU delivery and must be specified and ordered separately.

Brake chopper unit (BCU)

  • The BCU is a unidirectional power converter for the supply of excessive energy from a common DC bus drive line-up or big AC drive to resistors where the energy is dissipated as heat.
  • External resistors are required. However, resistors or fuses are not included in a BCU delivery and can be specified and ordered separately.
  • BCU’s improve a drive’s dynamic performance in a regenerative operating point and protect common DC bus voltage level from overvoltage. In some cases they also reduce the need for AFE investments.

A regenerative Common DC bus system

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(8\)

VACON® NXP Liquid Cooled Enclosed Drive
The low harmonic and regenerative VACON® NXP Liquid Cooled Enclosed Drives range has been developed especially with ease of use in mind. Packed full of features, these fully standardized, compact and robust AC drives with a full power range help maximize the utilization of space while minimizing overall costs.

  • These enclosed drives are the ideal solution for applications and locations where space is at a premium. The sturdy cabinet makes it ideal for harsh environments. See technical ratings and dimensions on page 19 for further information.

High power density

  • VACON® NXP Liquid Cooled Enclosed Drive can be used with AC motors in power sizes from 800–1550 kW. However, using the patented VACON® DriveSynch control concept, four enclosed drives can be run in parallel taking the power range up to
    an outstanding 5 MW.

Fast installation

  • VACON® NXP Liquid Cooled Enclosed Drives are pre-designed and engineered. That means they’re good to go as soon as you receive them. Simply connect to the cooling system and the power and motor supplies. Being liquid cooled, the product is virtually silent and you’ll have greater flexibility with where to put it. You don’t have to worry about leaving space for air flow, and you’ll save on air-conditioning energy costs.

Packed with cool performance

  • The enclosed unit comes equipped with the same advantages of efficient and quiet cooling performance as the rest of the VACON® NXP product family. When we say that this product is liquid cooled, we are talking about the entire product. The modules and also all its main components, such as LCL and dV/dt filters, are liquid cooled as standard. The reliable heat exchanger is offered as an option to provide a worry-free life cycle for the product.
  • You can also enjoy the same fast commissioning with the aid of the easy to use Startup Wizard. The slide-out racks provide easy access for maintenance. Leakage indicators alert the operator to

A solution for all your needs
We provide enclosed solutions to any segment and application. And while we focus on the drives, you can concentrate on your performance.

Eliminate production disturbances

  • Continuous energy supply is important to ensure your processes are optimized.
  • Distortions in the energy supply, caused by the presence of harmonic currents and voltages, can trigger equipment disturbances and create energy losses.
  • VACON® front-end drives with low harmonic technology maintain a constant energy supply and eliminate the disruption harmonics can cause to production.

Advanced monitoring

  • The VACON® NXP Liquid Cooled Enclosed Drive’s built-in Fieldbus interface communicates effectively with your process automation system. This reduces the need for cabling and gives you increased monitoring and control of process equipment.

Safety is a given

  • One of the most visible features of the enclosed product is the integrated main breaker switch.
  • This simple on/off switch quickly and easily disconnects and activates the power supply as and when necessary.

Benefits

  • Saves floor space and infrastructure needs
  • Saves time and money in installation
  • Faster and easier servicing
  • Improves safety
  • Enhances reliability
  • Low harmonic input
  • Virtually silent operation

Key features

  • Optimized design with power range up to 5 MW
  • All standard protection components included
  • Silent design with no large cooling fans needed
  • Slide-out feature
  • Leakage detector
  • Silent design with no large cooling fans needed
  • Slide-out feature
  • Leakage detector

Multiple options

VACON® NXP control
High-performance control platform for all demanding drive applications

  • Excellent processing and calculation power
  • Supports induction and permanent magnet motors
  • Maximum utilization of control features over wide power and voltage range
  • Built-in PLC functionality
  • Integration of customer-specific functionalities

Option boards
VACON® NXP control provides exceptional modularity

  • 5 plug-in extension slots
  • Fieldbus boards
  • Encoder boards
  • IO boards
  • Easy plug-in without need to remove other components

Fieldbus options
Easy integration with plant automation systems

  • PROFIBUS DP
  • DeviceNet
  • Modbus RTU
  • CANopen
  • EtherCAT

Ethernet connectivity
Ethernet connectivity allows remote drive access for monitoring, configuring, and troubleshooting

  • Modbus/TCP
  • PROFINET IO
  • EtherNet/IP Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(11\)

Functional safety and reliability

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(12\)

Safe Torque Off (STO)
Available for all VACON® NXP drives

  • Prevents the drive from generating torque on the motor shaft
  • Prevents unintentional start-ups
  • Corresponds to an uncontrolled stop
  • By stop category 0, EN60204-1

Safe Stop 1 (SS1)
Available for all VACON® NXP drives

  • Initiates motor deceleration
  • Initiates STO function after application-specific time delay
  • Corresponds to an uncontrolled stop
  • By stop category 1, EN60204-1

Conformal coating

  • Conformal coated circuit boards as standard
  • Improved performance
  • Increased durability
  • Reliable protection against dust and moisture
  • Extended lifetime of drive and components

ATEX-certified thermistor input
Specially designed for motor temperature supervision

  • Stops feeding energy to motor in case of over-heating
  • Certified and compliant with the European ATEX directive 94/9/EC

Commissioning made easy

User-friendly keypad

  • Removable panel with plug-in connection
  • Graphical and text keypad with multiple language support
  • Text display multi-monitoring function
  • Parameter backup and copy function with the panel’s internal memory
  • The startup wizard ensures a hassle-free set up

Software modularity
All-in-One application package

  • Seven built-in software applications

Several segment-specific and advanced applications such as:

  • System Interface
  • Marine
  • and much more

VACON® NCDrive
For setting, copying, storing, printing, monitoring, and controlling parameters.

Includes handy Datalogger function:

  • Track failure modes & perform root cause analysis

Communicates with drive via:

  • RS232
  • EtherNet TCP/IP
  • CAN (fast multiple drive monitoring)
  • CAN@Net (remote monitoring)

Independent paralleling
Our patented independent paralleling configuration of front-end (AFE) units:

  • Offer high redundancy
  • Eliminate the need for drive-to-drive communication
  • Enables automatic load-sharing

Dedicated applications

Intelligent system interfaces for heavy industries
VACON® System Interface Application (SIA) provides a flexible and extensive interface for use in coordinated drives, which have an overriding control system. VACON® SIA utilizes the most advanced functions of our VACON® NXP motor control software and is suitable for demanding drive systems such as those in the pulp & paper and metal industries, processing lines as well as many other standard applications.

Benefits

  • Power extension with VACON® DriveSynch
  • Master Follower functions for torque sharing
  • Freely configurable PLC logic

Dedicated marine application
Our Marine Application provides flexibility and performance across all marine segment applications. VACON® Liquid Cooled drives bring many benefits to this segment in particular such as energy efficiency, improved process availability due to high redundancy, better process quality and control, as well as silent operation and substantially reduced emissions.

Benefits

  • Black Out prevention logic
  • Cost savings in electric propulsion system
  • State-of-the-art load sharing and load trooping

VACON® NXP Grid Converter
The VACON® NXP Grid Converter is a solution that improves energy efficiency and environmental performance in marine industry use. It enables ships to source energy from local grids on shore, allowing for the ship’s main generators to be completely switched off.

Benefits

  • Reduces fuel consumption and emissions
  • Reduces noise and vibrations

High power and improved redundancy

  • VACON® DriveSynch is a patented control concept for running standard drives in parallel to control high-power AC motors or increase the redundancy of a system. This concept suits high-power single or multiple winding motors, typically above 1 MW.
  • High-power AC drives up to 5 MW can be built using standard drive components.

Benefits

  • System redundancy is higher than in a conventional drive because each unit can run independently
  • Identical units and standard modules reduce overall costs by reducing need for spares and specialist skills in engineering, installation, commissioning and maintenance

Liquid to liquid heat exchangers

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(14\)

We have a range of cooling units based on liquid-to-liquid heat exchangers (HX), which improve the availability and usability of AC drive systems. The cooling units belong to the liquid cooled VACON® NXP range and offer reliable and cost-effective cooling without ventilation concerns. The heat exchanger is a pre-designed, pre-tested and fully functional package that ensures safety and reliability.

Intelligent system interfaces for heavy industries

  • Self-supporting module rack construction
  • Cooling circuit equipped with threaded joints or flanges
  • Heavy industry, lightweight PVC-C
  • Industrial water heat exchanger, three-way-valve, pump, AC drive
  • Flow and pressure sensors
  • Stainless steel AISI piping
  • Two-way-valve
  • Heat exchanger installed inside a Rittal TS8 or VSG VEDA 5000 cabinet
  • Double pumps for marine class requirements, types 120 kW and 300 kW

Ratings and dimensions

VACON® NXP Liquid Cooled AC drives, 6-pulse and 12-pulse, mains voltage 400-500 VAC

 | | Drive output current| Motor shaft power|  |  | |
---|---|---|---|---|---|---|---
AC drive type 6-pulse| AC drive type 12-pulse| Ther- mal

I th

| Rated cont. I L| Rated cont. I H| Opti- mum motor at I th| Opti- mum motor at I th| Power loss *c/a/T) [kW]| Chassis| Choke type 6-pulse| Choke type 12-pulse
 |  |
[A]| [A]| [A]| (400 V) [kW]| (500 V) [kW]|  |  |  |
NXP00165A0N1SWS|  | 16| 15| 11| 7.5| 11| 0.4/0.2/0.6| CH3| CHK0023N6A0|
NXP00225A0N1SWS|  | 22| 20| 15| 11| 15| 0.5/0.2/0.7| CH3| CHK0023N6A0|
NXP00315A0N1SWS|  | 31| 28| 21| 15| 18.5| 0.7/0.2/0.9| CH3| CHK0038N6A0|
NXP00385A0N1SWS|  | 38| 35| 25| 18.5| 22| 0.8/0.2/1.0| CH3| CHK0038N6A0|
NXP00455A0N1SWS|  | 45| 41| 30| 22| 30| 1.0/0.3/1.3| CH3| CHK0062N6A0|
NXP00615A0N1SWS|  | 61| 55| 41| 30| 37| 1.3/0.3/1.5| CH3| CHK0062N6A0|
NXP00725A0N0SWS|  | 72| 65| 48| 37| 45| 1.2/0.3/1.5| CH4| CHK0087N6A0|
NXP00875A0N0SWS|  | 87| 79| 58| 45| 55| 1.5/0.3/1.8| CH4| CHK0087N6A0|
NXP01055A0N0SWS|  | 105| 95| 70| 55| 75| 1.8/0.3/2.1| CH4| CHK0145N6A0|
NXP01405A0N0SWS|  | 140| 127| 93| 75| 90| 2.3/0.3/2.6| CH4| CHK0145N6A0|
NXP01685A0N0SWS|  | 168| 153| 112| 90| 110| 4.0/0.4/4.4| CH5| CHK0261N6A0|
NXP02055A0N0SWS|  | 205| 186| 137| 110| 132| 5.0/0.5/5.5| CH5| CHK0261N6A0|
NXP02615A0N0SWS|  | 261| 237| 174| 132| 160| 6.0/0.5/6.5| CH5| CHK0261N6A0|
NXP03005A0N0SWF|  | 300| 273| 200| 160| 200| 4.5/0.5/5.0| CH61| CHK0400N6A0|
NXP03855A0N0SWF|  | 385| 350| 257| 200| 250| 6.0/0.5/6.5| CH61| CHK0400N6A0|
NXP04605A0N0SWF| NXP04605A0N0TWF| 460| 418| 307| 250| 315| 6.5/0.5/7.0| CH72| CHK0520N6A0| 2 x CHK0261N6A0
NXP05205A0N0SWF| NXP05205A0N0TWF| 520| 473| 347| 250| 355| 7.5/0.6/8.1| CH72| CHK0520N6A0| 2 x CHK0261N6A0
NXP05905A0N0SWF| NXP05905A0N0TWF| 590| 536| 393| 315| 400| 9.0/0.7/9.7| CH72| CHK0650N6A0| 2 x CHK0400N6A0
NXP06505A0N0SWF| NXP06505A0N0TWF| 650| 591| 433| 355| 450| 10.0/0.7/10.7| CH72| CHK0650N6A0| 2 x CHK0400N6A0
NXP07305A0N0SWF| NXP07305A0N0TWF| 730| 664| 487| 400| 500| 12.0/0.8/12.8| CH72| CHK0750N6A0| 2 x CHK0400N6A0
NXP08205A0N0SWF|  | 820| 745| 547| 450| 560| 12.5/0.8/13.3| CH63| CHK0820N6A0|
NXP09205A0N0SWF|  | 920| 836| 613| 500| 600| 14.4/0.9/15.3| CH63| CHK1030N6A0|
NXP10305A0N0SWF|  | 1030| 936| 687| 560| 700| 16.5/1.0/17.5| CH63| CHK1030N6A0|
NXP11505A0N0SWF|  | 1150| 1045| 766| 600| 750| 18.5/1.2/19.7| CH63| CHK1150N6A0|
NXP13705A0N0SWF| NXP13705A0N0TWF| 1370| 1245| 913| 700| 900| 19.0/1.2/20.2| CH74| 3 x CHK0520N6A0| 2 x CHK0750N6A0
NXP16405A0N0SWF| NXP16405A0N0TWF| 1640| 1491| 1093| 900| 1100| 24.0/1.4/25.4| CH74| 3 x CHK0650N6A0| 2 x CHK0820N6A0
NXP20605A0N0SWF| NXP20605A0N0TWF| 2060| 1873| 1373| 1100| 1400| 32.5/1.8/34.3| CH74| 3 x CHK0750N6A0| 2 x CHK1030N6A0
NXP23005A0N0SWF|  | 2300| 2091| 1533| 1250| 1500| 36.3/2.0/38.3| CH74| 3 x CHK0820N6A0|
NXP24705A0N0SWF| NXP24705A0N0TWF| 2470| 2245| 1647| 1300| 1600| 38.8/2.2/41.0| 2 x CH74| 6 x CHK0520N6A0| 4 x CHK0650N6A0
NXP29505A0N0SWF| NXP29505A0N0TWF| 2950| 2681| 1967| 1550| 1950| 46.3/2.6/48.9| 2 x CH74| 6 x CHK0520N6A0| 4 x CHK0750N6A0
NXP37105A0N0SWF| NXP37105A0N0TWF| 3710| 3372| 2473| 1950| 2450| 58.2/3.0/61.2| 2 x CH74| 6 x CHK0650N6A0| 4 x CHK1030N6A0
NXP41405A0N0SWF| NXP41405A0N0TWF| 4140| 3763| 2760| 2150| 2700| 65.0/3.6/68.6| 2 x CH74| 6 x CHK0750N6A0| 4 x CHK1150N6A0
2 x NXP24705A0N0SWF| 2 x NXP24705A0N0TWF| 4700| 4300| 3100| 2450| 3050| 73.7/4.2/77.9| 4 x CH74| 12 x CHK0520N6A0| 8 x CHK0650N6A0
2 x NXP29505A0N0SWF| 2 x NXP29505A0N0TWF| 5600| 5100| 3700| 2900| 3600| 88/5/93| 4 x CH74| 12 x CHK0520N6A0| 8 x CHK0750N6A0
2 x NXP37105A0N0SWF| 2 x NXP37105A0N0TWF| 7000| 6400| 4700| 3600| 4500| 110.6/5.7/116.3| 4 x CH74| 12 x CHK0650N6A0| 8 x CHK1030N6A0
2 x NXP41405A0N0SWF| 2 x NXP41405A0N0TWF**| 7900| 7200| 5300| 4100| 5150| 123.5/6.9/130.4| 4 x CH74| 12 x CHK0750N6A0| 8 x CHK1150N6A0

  • Ith = Thermal maximum continuous RMS current. Dimensioning can be done according to this current if the process does not require any overloadability or the process does not include any load variation or margin for overloadability.
  • IL = Low overloadability current. Allows +10% load variation. 10% exceeding can be continuous.
  • IH = High overloadability current. Allows +50% load variation. 50% exceeding can be continuous.
  • All values with cosφ = 0,83 and efficiency = 97%
  • *) c = power loss into coolant; a = power loss into the air; T = total power loss; power losses of input chokes not included. All power losses obtained using
  • max. supply voltage, Ith, and switching frequency of 3.6 kHz and Closed Loop control mode. All power losses are worst-case losses.
  • If some other mains voltage is used, apply the formula P = √3 x Un x In x cosφ x eff% to calculate the NX Liquid-Cooled drive output power.
  • The enclosure class for all NX Liquid-Cooled AC drives is IP00.
  • If the motor is continuously run at frequencies below 5 Hz (besides start and stop ramps), please pay attention to the drive dimensioning for low frequencies,
  • i.e. maximum I = 0.66* Ith or choose drive according to IH. It is recommended to check the rating with your distributor or Vacon.
  • Drive overrating may also be necessary if the process requires high starting torque.

VACON® NXP Liquid Cooled AC drives, 6-pulse and 12-pulse, mains voltage 525-690 VAC

 |  | Drive output current| Motor shaft power|  | |  |
---|---|---|---|---|---|---|---
AC drive type 6-pulse| AC drive type 12-pulse| Ther- mal I th| Rated cont. I L| Rated cont. I H| Opti- mum motor at I th| Opti- mum motor at I th| Power loss *c/a/T) [kW]| Chassis| Choke type 6-pulse| Choke type 12-pulse
 |  |
[A]| [A]| [A]| (525 V)**

[kW]

| (690 V)

[kW]

|  |  |  |
NXP01706A0T0SWF|  | 170| 155| 113| 110| 160| 4.0/0.2/4.2| CH61| CHK0261N6A0|
NXP02086A0T0SWF|  | 208| 189| 139| 132| 200| 4.8/0.3/5.1| CH61| CHK0261N6A0|
NXP02616A0T0SWF|  | 261| 237| 174| 160| 250| 6.3/0.3/6.6| CH61| CHK0261N6A0|
NXP03256A0T0SWF| NXP03256A0T0TWF| 325| 295| 217| 200| 300| 7.2/0.4/7.6| CH72| CHK0400N6A0| 2 x CHK0261N6A0
NXP03856A0T0SWF| NXP03856A0T0TWF| 385| 350| 257| 250| 355| 8.5/0.5/9.0| CH72| CHK0400N6A0| 2 x CHK0261N6A0
NXP04166A0T0SWF| NXP04166A0T0TWF| 416| 378| 277| 250| 355| 9.1/0.5/9.6| CH72| CHK0520N6A0| 2 x CHK0261N6A0
NXP04606A0T0SWF| NXP04606A0T0TWF| 460| 418| 307| 300| 400| 10.0/0.5/10.5| CH72| CHK0520N6A0| 2 x CHK0261N6A0
NXP05026A0T0SWF| NXP05026A0T0TWF| 502| 456| 335| 355| 450| 11.2/0.6/11.8| CH72| CHK0520N6A0| 2 x CHK0261N6A0
NXP05906A0T0SWF|  | 590| 536| 393| 400| 560| 12.4/0.7/13.1| CH63| CHK0650N6A0|
NXP06506A0T0SWF|  | 650| 591| 433| 450| 600| 14.2/0.8/15.0| CH63| CHK0650N6A0|
NXP07506A0T0SWF|  | 750| 682| 500| 500| 700| 16.4/0.9/17.3| CH63| CHK0750N6A0|
NXP08206A0T0SWF| NXP08206A0T0TWF| 820| 745| 547| 560| 800| 17.3/1.0/18.3| CH74| 3 x CHK0400N6A0| 2 x CHK0520N6A0
NXP09206A0T0SWF| NXP09206A0T0TWF| 920| 836| 613| 650| 850| 19.4/1.1/20.5| CH74| 3 x CHK0400N6A0| 2 x CHK0520N6A0
NXP10306A0T0SWF| NXP10306A0T0TWF| 1030| 936| 687| 700| 1000| 21.6/1.2/22.8| CH74| 3 x CHK0400N6A0| 2 x CHK0520N6A0
NXP11806A0T0SWF| NXP11806A0T0TWF| 1180| 1073| 787| 800| 1100| 25.0/1.3/26.3| CH74| 3 x CHK0400N6A0| 2 x CHK0650N6A0
NXP13006A0T0SWF| NXP13006A0T0TWF| 1300| 1182| 867| 900| 1200| 27.3/1.5/28.8| CH74| 3 x CHK0520N6A0| 2 x CHK0650N6A0
NXP15006A0T0SWF| NXP15006A0T0TWF| 1500| 1364| 1000| 1050| 1400| 32.1/1.7/33.8| CH74| 3 x CHK0520N6A0| 2 x CHK0820N6A0
NXP17006A0T0SWF| NXP17006A0T0TWF| 1700| 1545| 1133| 1150| 1550| 36.5/1.9/38.4| CH74| 3 x CHK0650N6A0| 2 x CHK1030N6A0
NXP18506A0T0SWF| NXP18506A0T0TWF| 1850| 1682| 1233| 1250| 1650| 39.0/2.0/41.0| 2 x CH74| 6 x CHK0400N6A0| 4 x CHK0520N6A0
NXP21206A0T0SWF| NXP21206A0T0TWF| 2120| 1927| 1413| 1450| 1900| 44.9/2.4/47.3| 2 x CH74| 6 x CHK0400N6A0| 4 x CHK0650N6A0
NXP23406A0T0SWF| NXP23406A0T0TWF| 2340| 2127| 1560| 1600| 2100| 49.2/2.6/51.8| 2 x CH74| 6 x CHK0400N6A0| 4 x CHK0650N6A0
NXP27006A0T0SWF| NXP27006A0T0TWF| 2700| 2455| 1800| 1850| 2450| 57.7/3.1/60.8| 2 x CH74| 6 x CHK0520N6A0| 4 x CHK0750N6A0
NXP31006A0T0SWF| NXP31006A0T0TWF| 3100| 2818| 2066| 2150| 2800| 65.7/3.4/69.1| 2 x CH74| 6 x CHK0520N6A0| 4 x CHK0820N6A0
2 x NXP18506A0T0SWF| 2 x NXP18506A0T0TWF| 3500| 3200| 2300| 2400| 3150| 74,2/3,8/77,9| 4 x CH74| 12 x CHK0400N6A0| 8 x CHK0520N6A0
2 x NXP21206A0T0SWF| 2 x NXP21206A0T0TWF| 4000| 3600| 2700| 2750| 3600| 85,4/4,5/89,9| 4 x CH74| 12 x CHK0400N6A0| 8 x CHK0650N6A0
2 x NXP23406A0T0SWF| 2 x NXP23406A0T0TWF| 4400| 4000| 2900| 3050| 3950| 93,4/5,0/98,4| 4 x CH74| 12 x CHK0400N6A0| 8 x CHK0650N6A0
2 x NXP27006A0T0SWF| 2 x NXP27006A0T0TWF| 5100| 4600| 3400| 3500| 4600| 109,7/5,8/115,5| 4 x CH74| 12 x CHK0520N6A0| 8 x CHK0750N6A0
2 x NXP31006A0T0SWF| 2 x NXP31006A0T0TWF| 5900| 5400| 3900| 4050| 5300| 124,8/6,5/131,3| 4 x CH74| 12 x CHK0520N6A0| 8 x CHK0820N6A0

Standard air cooled chokes for VACON® NX Liquid Cooled product range

Choke type| Losses to air [W]| Dimensions W x H x D [mm]| Weight [kg]
---|---|---|---
CHK0023N6A0| 145| 230 x 179 x 121| 10
CHK0038N6A0| 170| 270 x 209 x 145| 15
CHK0062N6A0| 210| 300 x 214 x 160| 20
CHK0087N6A0| 250| 300 x 233 x 170| 26
CHK0145N6A0| 380| 200 x 292 x 185| 37
CHK0261N6A0| 460| 354 x 357 x 230| 53
CHK0400N6A0| 610| 350 x 421 x 262| 84
CHK0520N6A0| 810| 497 x 446 x 244| 115
CHK0650N6A0| 890| 497 x 496 x 244| 130
CHK0750N6A0| 970| 497 x 527 x 273| 170
CHK0820N6A0| 1020| 497 x 529 x 275| 170
CHK1030N6A0| 1170| 497 x 677 x 307| 213
CHK1150N6A0| 1420| 497 x 677 x 307| 213

VACON® NXP Liquid Cooled inverter units, DC bus voltage 465-800 VDC


AC drive type

| Drive output current| Motor shaft power| Power loss *c/a/T) [kW]| **

Chassis

---|---|---|---|---
Thermal I th [A]| Rated cont. I L [A]| Rated cont. I H [A]| Optimum motor at I th **(540 VDC) [kW]| Optimum motor at I th **(675 VDC) [kW]
NXP00165A0T1IWS| 16| 15| 11| 7.5| 11| 0.4/0.2/0.6| CH3
NXP00225A0T1IWS| 22| 20| 15| 11| 15| 0.5/0.2/0.7| CH3
NXP00315A0T1IWS| 31| 28| 21| 15| 18.5| 0.7/0.2/0.9| CH3
NXP00385A0T1IWS| 38| 35| 25| 18.5| 22| 0.8/0.2/1.0| CH3
NXP00455A0T1IWS| 45| 41| 30| 22| 30| 1.0/0.3/1.3| CH3
NXP00615A0T1IWS| 61| 55| 41| 30| 37| 1.3/0.3/1.5| CH3
NXP00725A0T0IWS| 72| 65| 48| 37| 45| 1.2/0.3/1.5| CH4
NXP00875A0T0IWS| 87| 79| 58| 45| 55| 1.5/0.3/1.8| CH4
NXP01055A0T0IWS| 105| 95| 70| 55| 75| 1.8/0.3/2.1| CH4
NXP01405A0T0IWS| 140| 127| 93| 75| 90| 2.3/0.3/2.6| CH4
NXP01685A0T0IWS| 168| 153| 112| 90| 110| 2.5/0.3/2.8| CH5
NXP02055A0T0IWS| 205| 186| 137| 110| 132| 3.0/0.4/3.4| CH5
NXP02615A0T0IWS| 261| 237| 174| 132| 160| 4.0/0.4/4.4| CH5
NXP03005A0T0IWF| 300| 273| 200| 160| 200| 4.5/0.4/4.9| CH61
NXP03855A0T0IWF| 385| 350| 257| 200| 250| 5.5/0.5/6.0| CH61
NXP04605A0T0IWF| 460| 418| 307| 250| 315| 5.5/0.5/6.0| CH62
NXP05205A0T0IWF| 520| 473| 347| 250| 355| 6.5/0.5/7.0| CH62
NXP05905A0T0IWF| 590| 536| 393| 315| 400| 7.5/0.6/8.1| CH62
NXP06505A0T0IWF| 650| 591| 433| 355| 450| 8.5/0.6/9.1| CH62
NXP07305A0T0IWF| 730| 664| 487| 400| 500| 10.0/0.7/10.7| CH62
NXP08205A0T0IWF| 820| 745| 547| 450| 560| 12.5/0.8/13.3| CH63
NXP09205A0T0IWF| 920| 836| 613| 500| 600| 14.4/0.9/15.3| CH63
NXP10305A0T0IWF| 1030| 936| 687| 560| 700| 16.5/1.0/17.5| CH63
NXP11505A0T0IWF| 1150| 1045| 766| 600| 750| 18.4/1.1/19.5| CH63
NXP13705A0T0IWF| 1370| 1245| 913| 700| 900| 15.5/1.0/16.5| CH64
NXP16405A0T0IWF| 1640| 1491| 1093| 900| 1100| 19.5/1.2/20.7| CH64
NXP20605A0T0IWF| 2060| 1873| 1373| 1100| 1400| 26.5/1.5/28.0| CH64
NXP23005A0T0IWF| 2300| 2091| 1533| 1250| 1500| 29.6/1.7/31.3| CH64
NXP24705A0T0IWF| 2470| 2245| 1647| 1300| 1600| 36.0/2.0/38.0| 2 x CH64
NXP29505A0T0IWF| 2950| 2681| 1967| 1550| 1950| 39.0/2.4/41.4| 2 x CH64
NXP37105A0T0IWF| 3710| 3372| 2473| 1950| 2450| 48.0/2.7/50.7| 2 x CH64
NXP41405A0T0IWF| 4140| 3763| 2760| 2150| 2700| 53.0/3.0/56.0| 2 x CH64
2 x NXP24705A0T0IWF| 4700| 4300| 3100| 2450| 3050| 69.1/3.9/73| 4 x CH64
2 x NXP29505A0T0IWF| 5600| 5100| 3700| 2900| 3600| 74.4/4.6/79| 4 x CH64
2 x NXP37105A0T0IWF| 7000| 6400| 4700| 3600| 4500| 90.8/5.2/96| 4 x CH64
2 x NXP41405A0T0IWF| 7900| 7200| 5300| 4100| 5150| 101.2/5.8/107| 4 x CH64

The voltage classes for the inverter units used in the tables above have been dened as follows:

  • Input 540 VDC = Rectified 400 VAC supply
  • Input 675 VDC = Rectified 500 VAC supply

VACON® NXP Liquid Cooled inverter units, DC bus voltage 640-1100 VDC 1)

AC drive type| Drive output current| Motor shaft power| Power loss *c/a/T) [kW]| Chassis
---|---|---|---|---
Thermal I th [A]| Rated cont. I L [A]| Rated cont. I H [A]| An optimum   motor at I th **(710 VDC) [kW]| Optimum motor at I th **(930 VDC) [kW]
NXP01706A0T0IWF| 170| 155| 113| 110| 160| 3.6/0.2/3.8| CH61
NXP02086A0T0IWF| 208| 189| 139| 132| 200| 4.3/0.3/4.6| CH61
NXP02616A0T0IWF| 261| 237| 174| 160| 250| 5.4/0.3/5.7| CH61
NXP03256A0T0IWF| 325| 295| 217| 200| 300| 6.5/0.3/6.8| CH62
NXP03856A0T0IWF| 385| 350| 257| 250| 355| 7.5/0.4/7.9| CH62
NXP04166A0T0IWF| 416| 378| 277| 250| 355| 8.0/0.4/8.4| CH62
NXP04606A0T0IWF| 460| 418| 307| 300| 400| 8.7/0.4/9.1| CH62
NXP05026A0T0IWF| 502| 456| 335| 355| 450| 9.8/0.5/10.3| CH62
NXP05906A0T0IWF| 590| 536| 393| 400| 560| 10.9/0.6/11.5| CH63
NXP06506A0T0IWF| 650| 591| 433| 450| 600| 12.4/0.7/13.1| CH63
NXP07506A0T0IWF| 750| 682| 500| 500| 700| 14.4/0.8/15.2| CH63
NXP08206A0T0IWF| 820| 745| 547| 560| 800| 15.4/0.8/16.2| CH64
NXP09206A0T0IWF| 920| 836| 613| 650| 850| 17.2/0.9/18.1| CH64
NXP10306A0T0IWF| 1030| 936| 687| 700| 1000| 19.0/1.0/20.0| CH64
NXP11806A0T0IWF| 1180| 1073| 787| 800| 1100| 21.0/1.1/22.1| CH64
NXP13006A0T0IWF| 1300| 1182| 867| 900| 1200| 24.0/1.3/25.3| CH64
NXP15006A0T0IWF| 1500| 1364| 1000| 1050| 1400| 28.0/1.5/29.5| CH64
NXP17006A0T0IWF| 1700| 1545| 1133| 1150| 1550| 32.1/1.7/33.8| CH64
NXP18506A0T0IWF| 1850| 1682| 1233| 1250| 1650| 34.2/1.8/36.0| 2 x CH64
NXP21206A0T0IWF| 2120| 1927| 1413| 1450| 1900| 37.8/2.0/39.8| 2 x CH64
NXP23406A0T0IWF| 2340| 2127| 1560| 1600| 2100| 43.2/2.3/45.5| 2 x CH64
NXP27006A0T0IWF| 2700| 2455| 1800| 1850| 2450| 50.4/2.7/53.1| 2 x CH64
NXP31006A0T0IWF| 3100| 2818| 2066| 2150| 2800| 57.7/3.1/60.8| 2 x CH64
2 x NXP18506A0T0IWF| 3500| 3200| 2300| 2400| 3150| 64,9/3,5/68,4| 4 x CH64
2 x NXP21206A0T0IWF| 4000| 3600| 2700| 2750| 3600| 71,8/3,8/75,6| 4 x CH64
2 x NXP23406A0T0IWF| 4400| 4000| 2900| 3050| 3950| 82,1/4,4/86,5| 4 x CH64
2 x NXP27006A0T0IWF| 5100| 4600| 3400| 3500| 4600| 95,8/5,1/100,9| 4 x CH64
2 x NXP31006A0T0IWF**| 5900| 5400| 3900| 4050| 5300| 109,7/5,8/115,5| 4 x CH64

  1. High power 525-690V AFE, INU and BCU units available as wide voltage range version (NX_8 models) with DC bus voltage 640-1200 VDC. The units are ordered with the nominal mains voltage code 8 instead of 6 as for the standard version.

The following additional requirements applies to the wide voltage version:

  • output filter with an inductance of at least 0.7% needed
  • external 24VDC supply for the control unit

The voltage classes for the inverter units used in the tables above have been dened as follows:

  • Input 710 VDC = Rectified 525 VAC supply
  • Input 930 VDC = Rectified 690 VAC supply

VACON® NXP Liquid Cooled dimensions: drives consisting of one module

Chassis| Width [mm]| Height [mm]| Depth [mm]| Weight [kg]
---|---|---|---|---
CH3| 160| 431| 246| 15
CH4| 193| 493| 257| 22
CH5| 246| 553| 264| 40
CH61/62| 246| 658| 372| 55
CH63| 505| 923| 375| 120
Ch64| 746| 923| 375| 180
CH72

Ch74

| 246

746

| 1076

1175

| 372

385

| 90

280

One-module drive dimensions (mounting base included). Please note that AC chokes are not included.

VACON® NXA Liquid Cooled active front-end, DC bus voltage 465-800 VDC

AC drive type| AC| DC power| Power loss *c/a/T) [kW]| Chassis
---|---|---|---|---
Thermal I th [A]| Rated I L [A]| Rated I H [A]| 400 VAC**

mains I th [kW]

| 500 VAC

mains I th [kW]

| 400 VAC

mains I L [kW]

| 500 VAC

mains I L [kW]

NXA01685A0T02WS| 168| 153| 112| 113| 142| 103| 129| 2.5/0.3/2.8| CH5
NXA02055A0T02WS| 205| 186| 137| 138| 173| 125| 157| 3.0/0.4/3.4| CH5
NXA02615A0T02WS| 261| 237| 174| 176| 220| 160| 200| 4.0/0.4/4.4| CH5
NXA03005A0T02WF| 300| 273| 200| 202| 253| 184| 230| 4.5/0.4/4.9| CH61
NXA03855A0T02WF| 385| 350| 257| 259| 324| 236| 295| 5.5/0.5/6.0| CH61
NXA04605A0T02WF| 460| 418| 307| 310| 388| 282| 352| 5.5/0.5/6.0| CH62
NXA05205A0T02WF| 520| 473| 347| 350| 438| 319| 398| 6.5/0.5/7.0| CH62
NXA05905A0T02WF| 590| 536| 393| 398| 497| 361| 452| 7.5/0.6/8.1| CH62
NXA06505A0T02WF| 650| 591| 433| 438| 548| 398| 498| 8.5/0.6/9.1| CH62
NXA07305A0T02WF| 730| 664| 487| 492| 615| 448| 559| 10.0/0.7/10.7| CH62
NXA08205A0T02WF| 820| 745| 547| 553| 691| 502| 628| 10.0/0.7/10.7| CH63
NXA09205A0T02WF| 920| 836| 613| 620| 775| 563| 704| 12.4/0.8/12.4| CH63
NXA10305A0T02WF| 1030| 936| 687| 694| 868| 631| 789| 13.5/0.9/14.4| CH63
NXA11505A0T02WF| 1150| 1045| 767| 775| 969| 704| 880| 16.0/1.0/17.0| CH63
NXA13705A0T02WF| 1370| 1245| 913| 923| 1154| 839| 1049| 15.5/1.0/16.5| CH64
NXA16405A0T02WF| 1640| 1491| 1093| 1105| 1382| 1005| 1256| 19.5/1.2/20.7| CH64
NXA20605A0T02WF| 2060| 1873| 1373| 1388| 1736| 1262| 1578| 26.5/1.5/28.0| CH64
NXA23005A0T02WF| 2300| 2091| 1533| 1550| 1938| 1409| 1762| 29.6/1.7/31.3| CH64

VACON® NXA Liquid Cooled active front-end, DC bus voltage 640-1100 VDC 1)

AC drive type| AC| DC power| Power loss *c/a/T) [kW]| Chassis
---|---|---|---|---
Thermal I th [A]| Rated I L [A]| Rated I H [A]| 525 VAC**

mains I th [kW]

| 690 VAC

mains I th [kW]

| 525 VAC

mains I L [kW]

| 690 VAC

mains I L [kW]

NXA01706A0T02WF| 170| 155| 113| 150| 198| 137| 180| 3.6/0.2/3.8| CH61
NXA02086A0T02WF| 208| 189| 139| 184| 242| 167| 220| 4.3/0.3/4.6| CH61
NXA02616A0T02WF| 261| 237| 174| 231| 303| 210| 276| 5.4/0.3/5.7| CH61
NXA03256A0T02WF| 325| 295| 217| 287| 378| 261| 343| 6.5/0.3/6.8| CH62
NXA03856A0T02WF| 385| 350| 257| 341| 448| 310| 407| 7.5/0.4/7.9| CH62
NXA04166A0T02WF| 416| 378| 277| 368| 484| 334| 439| 8.0/0.4/8.4| CH62
NXA04606A0T02WF| 460| 418| 307| 407| 535| 370| 486| 8.7/0.4/9.1| CH62
NXA05026A0T02WF| 502| 456| 335| 444| 584| 403| 530| 9.8/0.5/10.3| CH62
NXA05906A0T02WF| 590| 536| 393| 522| 686| 474| 623| 10.9/0.6/11.5| CH63
NXA06506A0T02WF| 650| 591| 433| 575| 756| 523| 687| 12.4/0.7/13.1| CH63
NXA07506A0T02WF| 750| 682| 500| 663| 872| 603| 793| 14.4/0.8/15.2| CH63
NXA08206A0T02WF| 820| 745| 547| 725| 953| 659| 866| 15.4/0.8/16.2| CH64
NXA09206A0T02WF| 920| 836| 613| 814| 1070| 740| 972| 17.2/0.9/18.1| CH64
NXA10306A0T02WF| 1030| 936| 687| 911| 1197| 828| 1088| 19.0/1.0/20.0| CH64
NXA11806A0T02WF| 1180| 1073| 787| 1044| 1372| 949| 1247| 21.0/1.1/22.1| CH64
NXA13006A0T02WF| 1300| 1182| 867| 1150| 1511| 1046| 1374| 24.0/1.3/25.3| CH64
NXA15006A0T02WF| 1500| 1364| 1000| 1327| 1744| 1207| 1586| 28.0/1.5/29.5| CH64
NXA17006A0T02WF| 1700| 1545| 1133| 1504| 1976| 1367| 1796| 32.1/1.7/33.8| CH64

  • 1) DC bus voltage 640-1200 VDC for wide range voltage version (NX_8).
  • * C = power loss into coolant, A = power loss into air, T = total power loss

VACON® Liquid Cooled regenerative line filters


LCL filter type

| ****

Suitability

| Power loss *c/a/T) [kW]| Dimensions L net 1pcs**

WxHxD [mm]

| Dimensions L drive 1pcs (total 3pcs) WxHxD [mm]| Dimensions C bank 1pcs

WxHxD [mm]

| Total weight [kg]
---|---|---|---|---|---|---
RLC-0385-6-0| CH62/690VAC: 325A & 385A| 2,6/0,8/3,4| 580 x 450 x 385| 410 x 415 x 385| 360 x 265 x 150| 458
RLC-0520-6-0| CH62/500-690VAC| 2,65/0,65/3,3| 580 x 450 x 385| 410 x 415 x 385| 360 x 265 x 150| 481
RLC-0750-6-0| CH62/500VAC, CH63/690VAC| 3,7/1/4,7| 580 x 450 x 385| 410 x 450 x 385| 360 x 275 x 335| 508
RLC-0920-6-0| CH63/500VAC, CH64/690VAC| 4,5/1,4/5,9| 580 x 500 x 390| 410 x 500 x 400| 360 x 275 x 335| 577
RLC-1180-6-0| CH63/500VAC, CH64/690VAC| 6,35/1,95/8,3| 585 x 545 x 385| 410 x 545 x 385| 350 x 290 x 460| 625
RLC-1640-6-0| CH64/500-690VAC| 8,2/2,8/11| 585 x 645 x 385| 420 x 645 x 385| 350 x 290 x 460| 736
RLC-2300-5-0| CH64/500VAC: 2060A & 2300A| 9,5/2,9/12,4| 585 x 820 x 370| 410 x 820 x 380| 580 x 290 x 405| 896

VACON® NXP Liquid Cooled Enclosed drive

AC drive type| Rated current| Electrical output power| ****

Chassis

| Dimensions W x H x D W/O Cooling unit

[in]

---|---|---|---|---
Thermal ITH [A]| Cont. I L [A]| Cont. I H [A]| A motor at I TH (400 VAC) [kW]| Motor at I TH (500 VAC) [kW]
NXP13705A5T0RWN- LIQC| 1370| 1245| 913| 700| 900| CH64| 2000 x 2100 x 900
NXP16405A5T0RWN- LIQC| 1640| 1491| 1093| 900| 1100| CH64| 2000 x 2100 x 900
C| Rated current| Electrical output power| Chassis| Dimensions W x H x D W/O Cooling unit [in]
---|---|---|---|---
Thermal ITH [A]| Cont. I L [A]| Cont. I H [A]| Motor at I TH (525 VAC) [kW]| Motor at I TH (690 VAC) [kW]
NXP08206A5T0RWN- LIQC| 820| 745| 547| 560| 800| CH64| 2000 x 2100 x 900
NXP09206A5T0RWN- LIQC| 920| 836| 613| 650| 850| CH64| 2000 x 2100 x 900
NXP10306A5T0RWN- LIQC| 1030| 936| 687| 700| 1000| CH64| 2000 x 2100 x 900
NXP11806A5T0RWN- LIQC| 1180| 1073| 787| 800| 1100| CH64| 2000 x 2100 x 900
NXP13006A5T0RWN- LIQC| 1300| 1182| 867| 900| 1200| CH64| 2000 x 2100 x 900
NXP15006A5T0RWN- LIQC| 1500| 1364| 1000| 1000| 1400| CH64| 2000 x 2100 x 900
NXP17006A5T0RWN- LIQC| 1700| 1545| 1133| 1150| 1550| CH64| 2000 x 2100 x 900

VACON® NXB Liquid Cooled external brake chopper, DC bus voltage 460-800 VDC

AC drive type| Current| Braking power| Power loss *c/a/T) [kW]| Chassis
---|---|---|---|---
BCU-rated cont. braking current I br **[A]| Rated min resistance 800 VDC

(0)

| Rated min resistance 600 VDC

(0)

| Rated max input current (Adc)| Rated cont. braking power 2R 800 VDC [kW]| Rated cont. braking power 2R 600 VDC [kW]
NXB00315A0T08WS| 231| 25.7| 19.5| 62| 49| 37| 0.7/0.2/0.9| CH3
NXB00615A0T08WS| 2
61| 13.1| 9.9| 122| 97| 73| 1.3/0.3/1.5| CH3
NXB00875A0T08WS| 287| 9.2| 7.0| 174| 138| 105| 1.5/0.3/1.8| CH4
NXB01055A0T08WS| 2
105| 7.6| 5.8| 210| 167| 127| 1.8/0.3/2.1| CH4
NXB01405A0T08WS| 2140| 5.7| 4.3| 280| 223| 169| 2.3/0.3/2.6| CH4
NXB01685A0T08WS| 2
168| 4.7| 3.6| 336| 267| 203| 2.5/0.3/2.8| CH5
NXB02055A0T08WS| 2205| 3.9| 3.0| 410| 326| 248| 3.0/0.4/3.4| CH5
NXB02615A0T08WS| 2
261| 3.1| 2.3| 522| 415| 316| 4.0/0.4/4.4| CH5
NXB03005A0T08WF| 2300| 2.7| 2.0| 600| 477| 363| 4.5/0.4/4.9| CH61
NXB03855A0T08WF| 2
385| 2.1| 1.6| 770| 613| 466| 5.5/0.5/6.0| CH61
NXB04605A0T08WF| 2460| 1.7| 1.3| 920| 732| 556| 5.5/0.5/6.0| CH62
NXB05205A0T08WF| 2
520| 1.5| 1.2| 1040| 828| 629| 6.5/0.5/7.0| CH62
NXB05905A0T08WF| 2590| 1.4| 1.1| 1180| 939| 714| 7.5/0.6/8.1| CH62
NXB06505A0T08WF| 2
650| 1.2| 1.0| 1300| 1035| 786| 8.5/0.6/9.1| CH62
NXB07305A0T08WF| 2*730| 1.1| 0.9| 1460| 1162| 833| 10.0/0.7/10.7| CH62

VACON® NXB Liquid Cooled external brake chopper, DC bus voltage 640-1100 VDC 1)

AC drive type| Current| Braking power| Power loss *c/a/T) [kW]| Chassis
---|---|---|---|---
BCU-rated cont. braking current I br **[A]| Rated min resistance 1100 VDC

(0)

| Rated min resistance 840 VDC

(0)

| Rated max input current (Adc)| Rated cont. braking power 2R 1100 VDC [kW]| Rated cont. braking power 2R 840 VDC [kW]
NXB01706A0T08WF| 2170| 6.5| 4.9| 340| 372| 282| 4.5/0.2/4.7| CH61
NXB02086A0T08WF| 2
208| 5.3| 4| 416| 456| 346| 5.5/0.3/5.8| CH61
NXB02616A0T08WF| 2261| 4.2| 3.2| 522| 572| 435| 5.5/0.3/5.8| CH61
NXB03256A0T08WF| 2
325| 3.4| 2.6| 650| 713| 542| 6.5/0.3/6.8| CH62
NXB03856A0T08WF| 2385| 2.9| 2.2| 770| 845| 643| 7.5/0.4/7.9| CH62
NXB04166A0T08WF| 2
416| 2.6| 2| 832| 913| 693| 8.1/0.4/8.4| CH62
NXB04606A0T08WF| 2460| 2.4| 1.8| 920| 1010| 767| 8.5/0.4/8.9| CH62
NXB05026A0T08WF| 2
502| 2.2| 1.7| 1004| 1100| 838| 10.0/0.5/10.5| CH62

  • DC bus voltage 640-1136 VDC for wide range voltage version (NX_8).
    • NOTE: The rated currents in given ambient (+50 °C) and coolant (+30 °C) temperatures are achieved only when the switching frequency is equal to or less than the factory default.
    • NOTE: Braking power: Pbrake = 2*Ubrake 2 / Resistor when 2 resistors are used
    • NOTE: Max input DC: Iin_max = Pbrake_max / Ubrake

VACON® NXP Liquid Cooled AC drive, internal brake chopper unit, braking voltage 460-800 VDC



Converter Type

| Loadability| Braking capacity 600 VDC| Braking capacity 800 VDC| ****


Chassis

---|---|---|---|---
Rated min resistance [0]| Rated cont. braking power [kW]| BCU-rated cont. braking current, I br [A]| Rated cont. braking power [kW]| BCU-rated cont. braking current, I br [A]
NX_460-730 5 1)| 1.3| 276| 461| 492| 615| CH72
NX_1370-2300 5| 1.3| 276| 461| 492| 615| CH74

  1. Only 6 pulse drives

VACON® NXP Liquid Cooled AC drive, internal brake chopper unit, braking voltage 840-1100 VDC

Converter Type| Loadability| Braking capacity 840 VDC| Braking capacity 1100 VDC| Chassis
---|---|---|---|---
Rated min resistance [0]| Rated cont. braking power [kW]| BCU-rated cont. braking current, I br [A]| Rated cont. braking power [kW]| BCU-rated cont. braking current, I br [A]
NX_325-502 6 1)| 2.8| 252| 300| 432| 392| CH72
NX_820-1700 6| 2.8| 252| 300| 432| 392| CH74

Only 6 pulse drives
The internal brake chopper can also be used in motor applications where 2…4 x Ch7x drives are used for a single motor, but in this case the DC connections of the power modules must be connected together.

VACON® external brake resistors for liquid cooled CH72 (CH74) drives – IP20


Product code

| ****

Voltage range [VDC]

| ****

Maximum brake power [kw]

| Maximum average power [kW]

(1 puls/2min)

| ****

Resistance [0]

| Maximum energy [kJ] (predefined power pulse)| ****

Dimensions W x H x D [mm]

| ****

Weight [kg]

---|---|---|---|---|---|---|---
BRW-0730-LD-5 1)| 465…800 VDC| 637 3)| 13.3| 1.3| 1594| 480 x 600 x 740| 55
BRW-0730-HD-5 2)| 465…800 VDC| 637 3)| 34.5| 1.3| 4145| 480 x 1020 x 740| 95
BRW-0502-LD-6 1)| 640…1100 VDC| 516 4)| 10.8| 2.8| 1290| 480 x 760 x 530| 40
BRW-0502-HD-6 2)| 640…1100 VDC| 516 4)| 28| 2.8| 3354| 480 x 1020 x 740| 85

NOTE: Thermal protection switch included

  1. LD = Light Duty: 5s nominal torque braking from nominal speed reduced linearly to zero once per 120s
  2. HD = Heavy duty: 3s nominal torque braking at nominal speed + 7s nominal torque braking from nominal speed reduced linearly to zero once per 120s.
  3. at 911 VDC
  4. at 1200 VDC

Liquid-to-liquid heat exchangers

  HXL-M/V/R-040-N-P HXL/M-M/V/R-120-N-P HXL/M-M/R-300-N-P
Cooling power 0…40 kW 0…120 kW 0…300 kW
Mains supply 380…420 VAC 380…420 VAC 380…500 VAC
Flow 40…120 l/min 120…360 l/min 360…900 l/min
Distribution pressure 0.3 bar / l=10 m, DN32* HXL: 1 bar / l = 40 m, DN50
HXM: 0.7 bar / l = 30 m, DN50 HXL: 1 bar / l = 40 m, DN80 HXM: 0.7 bar / l =

25 m, DN80
Double pump|  | HXM| HXM
Cabinets| VEDA, Rittal| VEDA, Rittal| Rittal
Dimensions W x H x D [mm] (without cabinet)| 305 (506) x 1910 x 566| 705 (982) x 1885 x 603| 1100 x 1900 x 750

l = maximum distribution distance with specific DN diameter

Technical Data

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(15\) Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1
\(16\) Danfoss-VACON-NXP-Liquid-Cooled-AC-
Drives-FIG-1 \(17\)

*) with OPT-AF board (SS1 requires external safety relay)

  1. NX_8 drives are only available as Ch6x NXB units.
  2. NX_8 drives are only available as Ch6x NXA/NXP units.

Typecode key

VACON® NXP Liquid Cooled drives

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(18\) Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1
\(19\)

Option boards

Type Card slot I/O signal
 

A

|

B

|

C

|

D

|

E

|

DI

|

DO

| DI DO| AI

(mA/ V/

±V)

| AI (mA)

isolated

| AO

(mA/ V)

| AO (mA)

isolated

| RO (NO/ NC)| RO (NO)| +

10Vref

| Therm| +24V/ EXT

+24V

| pt 100| KTY 84|

42-240

VAC

input

| DI/ DO (10… 24V)| DI/ DO (RS422)|

DI

~ 1Vp-p

|

Re- solver

| Out

+5V/

+15V/

+24V

|

Out

+15V/

+24V

| Out

+5V/

+12V/

+15V

| Note
Basic I/O cards (OPT-A)
OPT- A1| D|  |  |  |  | 6| 1|  | 2|  | 1|  |  |  | 1|  | 2|  |  |  | |  |  |  |  |  |  |
OPT- A2|  | D|  |  |  |  |  |  |  |  |  |  | 2|  |  |  |  |  |  |  | |  |  |  |  |  |  |
OPT- A3|  | D|  |  |  |  |  |  |  |  |  |  | 1| 1|  | 1|  |  |  |  | |  |  |  |  |  |  |
OPT- A4|  |  | D|  |  | 2|  |  |  |  |  |  |  |  |  |  |  |  |  |  | | 3/0|  |  | 1|  |  |
OPT- A5|  |  | D|  |  | 2|  |  |  |  |  |  |  |  |  |  |  |  |  |  | 3/0|  |  |  |  | 1|  |
OPT- A7|  |  |

D

|  |  |  |  |  |  |  |  |  |  |  |  |  |  |  |  |  | 6/2|  |  |  |  | 1|  | 2 enc. input

+ 1 enc. output

OPT- A8| D|  |  |  |  | 6| 1|  | 2|  | 1|  |  |  | 1|  | 2|  |  |  | |  |  |  |  |  |  | 1)
OPT- A9|

D

|  |  |  |  | 6| 1|  | 2|  | 1|  |  |  | 1|  | 2|  |  |  |  |  |  |  |  |  | | 2.5 mm2 terminals
OPT- AE|  |  |

D

|  |  |  | 2|  |  |  |  |  |  |  |  |  |  |  |  |  | 3/0|  |  |  |  | 1|  | DO = Divider

+ Direction

OPT- AF|  | D|  |  |  | 2|  |  |  |  |  |  | 1| 1|  | 1|  |  |  |  | |  |  |  |  |  |  |
OPT- AK|  |  | D|  |  |  |  |  |  |  |  |  |  |  |  |  |  |  |  |  | |  | 3|  |  | 1|  | Sin/Cos/ Marker
OPT- AN| D|  |  |  |  | 6|  |  | 2|  | 2|  |  |  |  |  |  |  |  |  | |  |  |  |  |  |  | Limited support
OPT- AJ| D|  |  |  |  |  | 1|  | 23)|  | 1|  |  |  |  |  | 1|  |  | 6|  |  |  |  | 1| 1|  |
I/O expander cards (OPT-B)
OPT- B1|  | D| D| D| D|  |  | 6|  |  |  |  |  |  |  |  | 1|  |  |  | |  |  |  |  |  |  | Selectable DI/DO
OPT- B2|  | D| D| D| D|  |  |  |  |  |  |  | 1| 1|  | 1|  |  |  |  | |  |  |  |  |  |  |
OPT- B4|  | D| D| D| D|  |  |  |  | 1|  | 2|  |  |  |  | 1|  |  |  | |  |  |  |  |  |  | 2)
OPT- B5|  | D| D| D| D|  |  |  |  |  |  |  |  | 3|  |  |  |  |  |  | |  |  |  |  |  |  |
OPT- B8|  | D| D| D| D|  |  |  |  |  |  |  |  |  |  |  | 1| 3|  |  | |  |  |  |  |  |  |
OPT- B9|  | D| D| D| D| 2|  |  |  |  |  |  |  | 1|  |  |  |  |  | 5| |  |  |  |  |  |  |
OPT- BH|  |

D

|

D

|

D

|

D

|  |  |  |  |  |  |  |  |  |  |  |  | 3| 3|  |  |  |  |  |  |  |  | 3 x pt1000;

3 x Ni1000

OPT- BB|  |  | D|  |  | 2|  |  |  |  |  |  |  |  |  |  |  |  |  |  | | 0/2| 2|  |  |  | 1| Sin/Cos + EnDat

OPT- BC

|  |  |

D

|  |  |  |  |  |  |  |  |  |  |  |  |  |  |  |  |  |

3/3

|  |  |

1

|  |  |  | Encoder out = Resolver simulation
OPT- BE|  | D| D| D| D|  |  |  |  |  |  |  |  |  |  |  |  |  |  |  | |  |  |  |  |  |  | EnDat/SSI
Fieldbus cards (OPT-C)
OPT- C2|  |  |  | D| D| RS485 (Multiprotocol)| Modbus, N2
OPT- C3|  |  |  | D| D| PROFIBUS DP|
OPT- C4|  |  |  | D| D| LonWorks|
OPT- C5|  |  |  |  | D| PROFIBUS DP (D9-type connector)|
OPT- C6|  |  |  | D| D| CANopen (slave)|
OPT- C7|  |  |  | D| D| DeviceNet|
OPT- C8|  |  |  | D| D| RS485 (Multiprotocol, D9-type connector)| Modbus, N2
OPT- CG|  |  |  | D| D| SELMA 2 protocol|
OPT- CI|  |  |  | D| D| Modbus/TCP (Ethernet)|
OPT- CJ|  |  |  | D| D| BACNet, RS485|
OPT- CP|  |  |  | D| D| PROFINET I/O (Ethernet)|
OPT- CQ|  |  |  | D| D| EtherNet/IP (Ethernet)|
Communication cards (OPT-D)
OPT- D1|  |  |  | D| D| System Bus adapter (2 x fiber optic pairs)|
OPT- D2|  |  |  | D| D| System Bus adapter (1 x fiber optic pair) & CAN-bus adapter (galvanically decoupled)|
OPT- D3|  |  |  | D| D| RS232 adapter card (galvanically decoupled), used mainly for application engineering to connect another keypad|
OPT- D6|  | D|  |  |  | CAN-bus adapter (galvanically decoupled)|
OPT- D7|  |  | D|  |  | Line voltage measurement|

  1. Analogue signals are galvanically isolated as a group
  2. Analog signals galvanically isolated separately
  3. Only voltage input

Marine approvals

Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1 \(20\)Danfoss-VACON-NXP-Liquid-Cooled-AC-Drives-FIG-1
\(21\)

Danfoss Drives

  • Danfoss Drives is a world leader in variable speed control of electric motors.
  • We aim to prove to you that a better tomorrow is driven by drives. It is as simple and as ambitious as that.

We offer you an unparalleled competitive edge through quality, application- optimized products targeting your needs – and a comprehensive range of product lifecycle services. You can rely on us to share your goals. Striving for the best possible performance in your applications is our focus. We achieve this by providing the innovative products and application know-how required to optimize efficiency, enhance usability, and reduce complexity. From supplying individual drive components to planning and delivering complete drive systems; our experts are ready to support you all the way.

We draw on decades of experience within industries that include:

  • Chemical
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  • Refrigeration
  • Water and Wastewater
  • Wind

You will find it easy to do business with us. Online, and locally in more than 50 countries, our experts are never far away, reacting fast when you need them. Since 1968, we have been pioneers in the drives business. In 2014, Vacon and Danfoss merged, forming one of the largest companies in the industry. Our AC drives can adapt to any motor technology and we supply products in a power range from 0.18 kW to 5.3 MW.

  • 1-877-822-6606
  • www.danfossdrives.com.
  • EtherNet/IP™ and DeviceNet™ are trademarks of ODVA, Inc.
  • DKDD.PB.909.A2.22
  • © Copyright Danfoss Drives | 2016.06
  • Selection Guide
  • VACON® NXP Liquid Cooled
  • 10 HP – 5900 HP, (7.5 kW – 5.3 MW)

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