MAKING MODERN LIVING POSSIBLE

VLT HVAC Basic Drive for compact simple fan and pump applications

56%
Energy use reduction
in Mumbais VSNL building. Only by using Variable Frequency Drives in the HVAC system could we achieve this target General Manager VSNL, India.

www.danfoss.com/drives

VLT HVAC Basic Drive

The VLT HVAC Basic Drive is designed for simple fan and pump applications where the drive is used nearby the motor. The VLT HVAC Basic Drive is designed to fit compact and basic functional performance HVAC applications, offering simple control features and most common HVAC protocols for a limited integration into your building management system.
The VLT HVAC Basic Drive includes: > 98% basic energy efficiency Automatic Energy Optimisation User-friendly operation Programming in 7 languages Numerical or graphical control panel

Fire Override Mode

Fire Override Mode helps keep fire escape routes free of smoke, overrides the drives self-protecting features and keeps the driven equipment running as long as possible in the event of fire. Activating Fire Override Mode will ensure the VLT HVAC Basic Drive ignores soft faults and alarms to continue operation during essential services such as a fire command.

VLT HVAC BasicDrive product range:

3 x 200 240 ........................ 0.25 11 kW 3 x 380 480 V.....................0.37 90 kW

Available enclosure ratings:

Save money
The VLT HVAC Basic Drive enables the user flexibility to select from a range of functional performance requirements to secure the best cost advantage for their application needs.

IP 20 IP 21 w. kit Type 1 w. kit

Integrated DC coils Easy commissioning

Its Quick Menu wizzard makes normal set-up and operation easy. The standard integrated DC coils also ensure low harmonic load on the network within EN 61000-3-12 and increase the lifespan of the DC link capacitors. They also ensure that the drive can operate motors to their full performance. Danfoss also provides passive solutions including 12/18 pulse solutions, Advanved Harmonic Filters (AHF), and active harmonic mitigation for further protection against harmonic disturbances of the supply grid.

Maintenance free
Due to a series of self-protecting and monitoring features, the VLT HVAC Basic Drive is maintenance free, except for general cleaning. Replacement of internal fans or capacitors is normally not required.

Save space
Due to its ultra compact design, the VLT HVAC Basic Drive is easily mounted inside a HVAC unit or panel, reducing overall enclosure costs.

Optimising energy savings

Automatic Energy Optimisation
AEO provides optimized motor magnetisation at all speeds and loads. This feature increases the energy savings gained by applying variable speed control and is standard on the VLT HVAC Basic Drive.

Automatic Motor Adaptation

Enter the name plate data, and VLT HVAC Basic Drive automatically adjusts to the motor.

The intuitive VLT HVAC Basic Drive control panel

Suitable for follower operation

The drives structure makes it suitable for follower operation required by BMS, PLCs or DDCs.

Automatic Energy Optimisation

Start with high acceleration AEO-adjustment

Speed

Automatic load adjustment Motor voltage Motor current 2-line alphanumeric display 7 languages + numeric menu Status LEDs uick menus (wizard for open Q

The open communications drive

The VLT HVAC Basic Drive integrates and communicates seamlessly with all HVAC devices, required by Building Management Systems via fieldbus.

Embedded fieldbuses

BACnet Modbus RTU (std.) FC protocol N2 Metasys FLN Apogee

loop applications, closed loop applications, and motor setup) IP 54 when mounted in a panel front Password protection Same parameter structure as other Danfoss FC drives Removable under operation Upload and download parameters (LCP copy function)

BACnet
The VLT BACnet optimizes the use of VLT HVAC Basic Drive when combined with building management systems. VLT HVAC Basic Drive has objects defined to accept 3 separate feedbacks transmitted over BACnet. This option makes it easy to control or monitor points required in typical HVAC applications.

Makes your buildings perform

Danfoss commitment
Danfoss longstanding experience in applying drives in HVAC systems has enhanced its ability to offer technical expertise integrating the drive into the overall system design to extract the maximum value from your initial investment and optimize your operational savings performance. The 21st Century focus on energy efficiency is not new with regard to energy savings emphasis on the consequences of wasted energy and over-use of fossil fuels to produce energy is at the top of the agenda. Climate Change is seen as a cost to the human race not just simply a financial cost.

Save energy and CO2 emission

VLT frequency converters save more than 20 million MWh energy globally each year. This is equivalent to the annual electricity consumption of 5 million homes. This energy saving reduces annual CO2 emissions by 12 million tons!

A wealth of knowledge
The various applications incorporated within high performance buildings are well understood by Danfoss and as global market leader we have built a wealth of knowledge and developed products and technology to ensure we meet and shape future trends in this industry. Danfoss application and industry knowledge will ensure that the investment made in VLT drives provides a qualified return. Financial incentives are just as important as moral incentives to make people choose energy efficient solutions.

Building performance
Today the prime focus is on overall buildings performance which includes design, construction, efficiency, sustainability and the environmental impact of buildings in the future. Energy efficient products form part of this overall plan. In most countries around the world the evaluation of high performance buildings falls under the banner LEED.

Reliable and cost effective

Correct drive selection is critical to reliability. Solutions that introduce unacceptable levels of RFI or harmonics can prove highly problematic and costly in addition to violating legislative regulations. Danfoss many years of experience in the application of VLT drives and in the HVAC industry in particular, has resulted in a global team focused on delivering the best drive solutions, ensuring total security of your investment.

Minimum impact on the environment

When choosing a VLT drive as part of the building control architecture, the lifetime sustainability is an important aspect to concider. New regulations are forcing manufacturers to look at how they manufacture, what they manufacture and with what materials they use in manufacturing their products. Are the products harmful to make? Are they harmful to dispose of at their end-of-life? RoHS, WEEE Directives, and ISO14001 are all standards and directives created to ensure minimum impact on the environment.

Clean power supply

VLT HVAC Basic Drive introduces a minimum of RFI or harmonic distortion into the building and avoids problematic and, in some countries/regions, performance degregation. VLT HVAC Basic Drive is a reliable and cost effective investment.

EMC compatible
EMC protection coupled with harmonic filters ensures that the EMC environment and power supplies are maintained undisturbed throughout the operational lifetime of the system, negating any reduction in lifecycle costs.
VLT HVAC Basic Drive meets the EMC product standard EN 61800-3 without additional external components and corresponds to the EMC guidelines 2004/108/EC, offering performance superior to other drives. Critical for practical use is compliance with the environment standard EN 61800-3, class C1 (residential) and Class C2 (industrial area). This ensures reliable plant operation through full compliance with all EMC requirements, product standards, prescribed warnings, and restrictions. Integrated DC chokes minimise the network effects dramatically and thus maintain operation within the limits of EN 61000-3-12. These chokes also make the VLT HVAC Basic Drive stable and dynamic even during short supply voltage drops or other poor network conditions.

DC coils reduce harmonic noise and protect the drive

Categories according to EN 61800-3 Limits according to EN 55011

Comparison of limits EN 55011/61800-3

C1 Class B

C2 Class A1

C3 Class A2

C4 Exceeding class A2

For basic applications and requirements

VLT HVAC Basic Drive often represents the lowest investment cost to fit your basic application needs.
We understand the needs of our customers operating their facilities in a competitive environment which requires total system cost effectiveness and highest efficiency in daily operations with environmental sustainability.

Dedicated HVAC organization

Customer assurance stems from Danfoss dedicated and highly experienced HVAC support team. It has the depth of understanding in HVAC applications that ensures the maximum benefit is extracted from the customers investment in VLT drive systems.

Reducing operating costs

Up to 98% efficiency Automatic Energy Optimisation Danfoss legacy and history in

HVAC applications
IP enclosures and optional

Reducing acquisition costs

H VAC functions to reduce other

system components
Ease of installation and set-up

conformal coating to provide robust & reliable performance in the harshest of environments 40-50 C ambient temperature Broadest range of drive and motor protection Maintenance free drive System diagnostics

Supporting software tool

Software tools are available to help design a system with minimal harmonics and best energy efficiency.

98% efficiency
The VLT HVAC Basic Drive follow the standards with up to 98% efficiency or more at full load. This reduces initial costs and operating costs due to the smaller heat load/air conditioning requirement in the switchroom/plantroom, thereby maximizing energy efficiency. Every kW of losses requires another ~0.5 kW of energy to remove the heat. Installed in an air conditioned switchroom, lower losses can easily result in operating cost savings >5% 10% of the cost of the drive every year (based on a typical load profile, with the drive operating 24/7). Also energy consumption and CO2 emission is reduced.

High Ambient Temperatures

VLT HVAC Basic Drive is designed to operate in ambient temperatures up to 50o C. In most cases, the VLT HVAC Basic Drive will handle abnormal situations without needing attention. VLT HVAC Basic Drive will manage the loss of a mains phase or a high mains imbalance by autoderating speed and load to maintain a period of reduced operation, enabling technicians to respond to the situation.

Protection mode
As soon as the system detects a critical status (e.g. over-current or overvoltage) the frequency of the VLT HVAC Basic Drive will automatically be reduced and the modulation process adjusted. Due to its ability to limit its switching operations the VLT HVAC Basic Drive is very reliable and robust. The protection mode will if allowable end after 10 seconds and the frequency will be restored under control.

Enclosure protection options

VLT drives are available in IP 20/Type1 enclosures, optimized for installation in panels
The installation volume and/or the mounting surfaces are minimized. The functional sections nevertheless fulfil the highest requirements even for applications with long motor cables and ambient temperatures up to 50 C. EMC filters, harmonics suppression are integrated into the ultra compact enclosure. Accessories for bonding screened cables are included. The compact enclosures are easier to install. This is important especially within existing installations with limited accessibility. An extensive range of options and accessories are available, optimizing the drive for the respective application.

Save installation time

The IP 20/ Type 1 series is designed for easy accessibility and time-saving installation. Mechanical fastening points are easy to access from the front even with automatic tools. All terminals are sufficiently dimensioned and clearly marked behind a plate

Compact design
Optimized efficiency and intelligent cooling technology make for a compact and service-friendly design. Supplementary equipment such as

Managing Harmonics

Harmonic distortion on the supply grid is an increasing problem, mainly caused by electronic power devices including frequency converters, drawing non-sinusoidal current from the mains supply. This creates harmonic distortion on the supply depending on the supply impedance. Danfoss Harmonic Calculation Software MCT 31 makes it possible to calculate the extent of these harmonics at the planning stage and can suggest mitigation countermeasures. Harmonic mitigation can be particularly valuable when the power supply is backed up by emergency generators, which have poorer tolerance to non-sinusoidal currents. Current standards (EN 50106) are included in the software analysis

tool which can quickly and easily be downloaded from www.drives.danfoss.com. Data can be entered, stored and recalled project by project. At a click
Typical without filter

the software presents a clear overview of each project with data presented in both tabular and bar-chart formats.

With AHF

Without filter

With AHF

Harmonic disturbance with and without AHF filter.

Enhanced safety built-in

Fire Override Mode
Activating the function Fire-mode within the VLT HVAC Basic Drive ensures secure and continued operation within applications such as stair-well pressurization, car park exhaust fans, smoke exhaust and essential service functions.
Fresh air in

Clearly indicated
Fire mode is clearly indicated on the display to prevent any confusion. When set, the drive will override self protection and will continue operation despite the possibility of permanent damage in case of over-heating or overload. The vital goal is to keep the motor running even if it means self-destruction.

Speed

Easy to open doors

Typical application
Smoke extraction from traffic tunnels, subway stations, stairwells.
Differential pressure

For simple pump applications

The VLT HVAC Basic Drive offers pump-specific features developed in cooperation with OEMs, contractors and manufacturers around the world.

Sleep Mode
In Sleep Mode the drive detects situations with low or no flow. Instead of continuous operation, Sleep Mode boosts the system pressure and then stops to save energy. The drive starts automatically when the pressure falls below the lower set point.

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For simple fan applications

User-friendly, distributed intelligence and reduced power consumption are beneficial for fan applications.

Resonance Monitoring
By pressing a few buttons on the Local Control Panel the drive can be set to avoid frequency bands at which connected fans create resonances in the ventilation system. This reduces vibration, noises and wear on equipment.

Belt Monitoring
The drive can from the speed/current detect the case where the motor have lost contact to the fan and throw an alarm.

Basic AHU functions

This enables the HVAC Drive to control a wide range of functions, including:

Flying start
The drive can detect speed and direction of a freely spinning fan or fan and catch it at the right frequency. This feature prevents violent starts and tear on the equipment.

Fire Override Mode

Fire Override Mode prevents the VLT HVAC Basic Drive from stopping for self-protecting reasons. In this mode it will continue vital fan operation regardless of control signals, warnings or alarms.

Stairwell Pressurisation
In the event of fire, the VLT HVAC Basic Drive can maintain a higher level of air pressure in stairwells than in other parts of the building and ensure that fire escapes remain free of smoke.

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VLT HVAC Basic Drive a compact OEM solution for basic applications
IP 21/ Type 1 Kit
The IP 21/ Type 1 kit is used for installation of VLT HVAC Basic Drives in dry environments. The enclosure kits are available for all frame sizes. PG 16 and PG 21 holes for glands

LCP Panel Mounting Kit

For easy installation of the local control panel in a cabinet door. IP 54 (front) Thumb screws for tool-free installation Incl. 3 meters of cables in industry quality (also available separately) Easy to install

Frame size H1 H2 H3 H4 H5 H6 H7 H8

IP 20 kit 132B0212 132B0213 132B0214 132B0215 132B0216 132B0217 132B0218 132B0219

UL Type 1 kit 132B0222 132B0223 132B0224 132B0225 132B0226 132B0217 132B0218 132B0219

Ordering number
132B0201 (Mounting kit for LCP including fasteners, 3 m cable and gasket).

VLT Motion Control Tool

Set-up software provides easy control of details as well as a general over view of drive systems, large or small. The tool handles all drivesrelated data. Explorer-like interface The MCT 10 software features explorer-like interface design and functionality to ease both use and learning of the facilities. More efficient service organisation Scope & logging: Analyze problems easily Read out alarms, warnings and fault log in one view Compare a saved project with an on-line drive More efficient commissioning Off-line commissioning offsite Save/send/mail projects anywhere Easy fieldbus handling, multiple drives in project file. Enables service organization to be more efficient Basic Scope & Graph Alarm history in saved projects Multiple fieldbus support Advanced No limitation in number of drives Motor database Real-time logging from drive Two modes On-line and off-line mode In the online mode, you work with the actual setup of the drives in question. Your actions will have immediate effect on the performance of the drive(s). Connections RS485

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Specifications (Basic unit without extensions)

Main supply (L1, L2, L3) Supply voltage Supply voltage Supply frequency Displacement power factor (cos ) near unity 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 Logic Voltage level Maximum voltage on input Input resistance, Ri Analog inputs Analog inputs Modes Voltage level Current level Accuracy of analog inputs Fieldbus communication 200 240 V 10% 380 480 V 10% 50/60 Hz > 0.98 12 times/min. Meets EN 61000-3-12 BACnet FC Protocol N2 Metasys FLN Apogee Modbus RTU Standard built-in:

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

0 100% of supply voltage 0 400 Hz Unlimited 1 3600 sec.

4 PNP or NPN 0 24 V DC 28 V DC Approx. 4 k

Power, current and frame size

T2 200 240 V FC 101 PK25 PK37 PK75 P1K5 P2K2 P3K0 P4K0 P3K7 P5K5 P7K5 P11K P15K P18K P22K P30K P37K P45K P55K P75K P90K kW 0.25 0.37 0.75 1.5 2.2 Amp. 1.5 2.2 4.2 6.8 9.6 IP 20 Chassis T4 380 480 V Amp. 1.2 2.2 3.7 5.3 7.2 9.1 12 15.5 23 31 37 42.5 61 73 90 106 147 177 IP 20 Chassis

2 Voltage or current 0 to +10 V (scaleable) 0/4 to 20 mA (scaleable) Max. error: 0.5% of full scale

H1

H1

Analog output Programmable 2 analog outputs Current range at 0/4 20 mA analog output Max. load to common at 500 analog output (clamp 30) Accuracy on analog output Max. error: 1% of full scale Analog outputs can be used as digital outputs Control card 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) Surroundings/external Enclosure Vibration test Max. relative humidity Ambient temperature Galvanic isolation of all Aggressive environment IP 20/Chassis (IP 21/Type 1 optional kit) 1.0 g 5% 95% (IEC 721-3-3; Class 3K3 (non-condensing) during operation Max. 40-50 C I/O supplies according to PELV Designed for coated/uncoated 3C3/3C2 (IEC 60721-3-3)

H2

H2

Up to 115 kBaud 25 mA 80 mA

2 240 VAC, 2 A and 400 VAC, 2 A

3.7 5.5 7.5 11 15 18.5 22 30 37 45 55 75 90

15.2 22 28 42

H3 H4 H5 H3 H4 H5

H6

H7 H8

Global Marine

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Dimensions, powers and currents

200 240 VAC
Enclosure Typical Shaft Output Output Current (3 x 200 240 V) Max. cable size Mains, motor Max. Input Current (3 x 200 240 V) Continuous Intermittent Continuous Intermittent IP 20/Chassis [kW] [HP] [A] [A] [mm2] ([AWG]) [A] [W] [kg] 97.0 96.5 PK25 0.29 0.33 1.5 1.7 PK37 0.37 0.5 2.2 2.4 H1 PK75 0.75 1 4.2 4.6 P1K5 1.5 2 6.8 7.5 4/10 1.1 1.2 12 14 1.6 1.8 15 18 2.0 97.3 96.8 2.8 3.1 21 26 98.0 97.6 5.6 6.2 48 60 2.1 97.6 97.0 8.8/7.2 14.1/12 9.5/7.9 15.5/13.2 80 182 3.4 97.1 96.3 97 120 4.5 97.9 97.4 21/18 23.1/19.8 182 204 7.9 97.3 97 97.5 97.1 H2 P2K2 2.2 3 9.6 10.6 H3 P3K7 3.7 5 15.2 16.7 H4 P5K5 5.5 7.5 22 24.2 P7K5 7.5 10 28 30.8 16/6 28.3/24 31.1/26.4 230 268 41/38.2 45.1/42 369 386 9.5 97.2 H5 P11K 11 15 42 46.2

Environment Estimated power loss at rated max. load, best case typically Weight Efficiency [%], best case typically

380-480 VAC
Enclosure Typical Shaft Output Output Current (3 x 380-440 V) Output Current (3 x 440-480 V) Max. cable size Mains, motor Max. Input Current (3 x 380-440 V) Max. Input Current (3 x 440-480 V) Continuous Intermittent Continuous Intermittent Continuous Intermittent Continuous Intermittent IP 20/Chassis [kW] [HP] [A] [A] [A] [A] [mm2] ([AWG]) [A] [A] [A] [W] [kg] PK37 0.37 0.5 1.2 1.3 1.1 1.2 H1 PK75 0.75 1 2.2 2.4 2.1 2.3 P1K5 1.5 2 3.7 4.1 3.4 3.7 P2K2 2.2 3 5.3 5.8 4.8 5.3 H2 P3K0 3 4 7.2 7.9 6.3 6.9 H3 P4K0 4 5 9.1 9.9 8.2 9.0 P5K5 5.5 7.5 12 13.2 11 12.1 P7K5 7.5 10 15.5 17.1 14 15.4 16/6 4.7 5.2 3.9 4.3 46 58 3.3 98.3 97.9 6.3 6.9 5.3 5.8 66 83 3.3 98.2 97.8 8.3 9.1 6.8 7.5 95 118 3.4 98 97.6 11.2 12.3 9.4 10.3 104 131 4.3 98.4 98 15.1 16.6 12.6 13.9 159 189 4.5 98.2 97.8 22.1 24.3 18.4 20.2 248 274 7.9 98.1 97.9 H4 P11K 11 15 23 25.3 21 23.1

4/10 1.2 1.3 1.0 1.1 13 15 2.0 97.8 97.3 2.1 2.3 1.8 2 21 16 2.0 98 97.6 3.5 3.9 2.9 3.2 46 57 2.1 97.7 97.2

Environment Estimated power loss at rated max. load, best case typically Weight Efficiency [%], best case typically

Enclosure Typical Shaft Output Output Current (3 x 380-440 V) Output Current (3 x 440-480 V) Max. cable size Mains, motor Max. Input Current (3 x 380-440 V) Max. Input Current (3 x 440-480 V) Environment Weight Continuous
Intermittent

IP 20/Chassis [kW] [HP] [A] [A] [A] [A] [mm2] ([AWG]) [A] [A] [A] [kg]

Continuous
Intermittent

Continuous
Intermittent

H4 P15 15 20 31 34 27 29.7

H5 P18K 18 25 37 40.7 34 37.4 16/6 P22K 22 30 42.5 46.8 40 44 P30K 30 40 61 67.1 52 57.2

H6 P37K 37 50 73 80.3 65 71.5 35/2

H7 P45K 45 60 90 99 80 88 P55K 55 75 106 116 105 115 50/1 84 92.4 73-68 80-74 103 113 89-83 98-91

Continuous
Intermittent

29.9 32.9 24.7 27.2 7.9

35.2 38.7 29.3 32.2 9.5

41.5 45.7 34.6 38.1

57 62.7 49-46 54-50

70 77 61-57 67-62 24.5

H8 P90K 90 125 177 194 160 176 120/250 95/0 MCM 140 166 154 182 121-113 143-133 133-124 157-146 P75K 75 100 147 161 130 143 51

36

14

Ordering type code for VLT HVAC Basic Drive

[1] FC-101 [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [16] [17] [18] X X X SXX X X AX BX CX X XX DX
[9] Mains Input X No option [1] Application 101 VLT HVAC Basic Drive FC 101 [3] AC Line Voltage T2 T4 3 x 200/240 V AC (1.1 11 kW) 3 x 380/480 V AC

[2] Power Size PK25 PK37 PK75 P1K5 P2K2 P3K0 P4K0 P3K7 P5K5 P7K5 P11K P15K P18K P22K P30K P37K P45K P55K P75K P90K See ratings data on page 13 for power ratings

[13] A Option (Fieldbus) AX No fieldbus option

[4] Enclosure E20 P20 IP 20 (enclosure H1 H8) IP 20 (w. back plate. Enclosure H6 H8)

[14] B Option (Application) BX No application option

[5] RFI Filter (EN 55011) H2 H3 H4 RFI-Filter Class A2 (H6-H8) RFI -Filter Class A1/B (H6-H8) RFI-Filter, Class A1 (H1-H5)

[18] D Option (Control Power Backup Input) DX No DC input option

[6] Braking & Safety X No brake IGBT

Please beware that not all combinations are possible. Find help configuring your drive with the online configurator found under: driveconfig.danfoss.com

[7] Display (Local Control Panel) X No LCP installed

[8] Conformal Coating (IEC 721-3-3) X C No conformal coating (H6-H8) Conformal coating on all PCBs

Based on your selection, Danfoss manufactures the desired VLT HVAC Basic Drive. You will receive a fully assembled frequency converter, tested under full load conditions.

Power [kW/Hp] Frame H1 H2 H3 H4 H5 H6 H7 H8 IP class 3 x 200 240V 0.25-1.5 kW/0.33-2 HP 2.2 kW/3 HP 3.7 kW/5 HP 5.5-7.5 kW/7.5-10 HP 11 kW/15 HP 3 x 380 480 V 0.37-1.5 kW/0.5-2 HP 2.2-4 kW/3-5.4 HP 5.5-7.5 kW/7.5-10 HP 11-15 kW/15-20 HP 18.5-22 kW/25-30 HP 30-45 kW/40-60 HP 55-75 kW/100-120 HP 90 kW/120 HP

IP 20

Height [mm/inch] A incl. A decoupl.plate 195/7.7 273/10.7 227/8.4 303/11.9 255/10 329/13 296/11.7 359/14.1 334/13.1 402/15.8 518/20.4 550/21.7 660/26 595/23.4 635/25 630/24.8 690/27.2 800/31.5

Width [mm/inch] a 183/7.2 212/8.3 240/9.4 275/10.8 314/12.4 495/19.5 521/20.5 631/24.8 B 75/3 90/3.5 100/3.9 135/5.3 150/5.9 239/31.5 313/12.3 375/14.8 b 56/2.2 65/2.6 74/2.9 105/4.1 120/4.7 200/7.9 270/10.6 330/13

Depth [mm/inch] C 168/6.6 190/7.5 206/8.1 241/9.5 255/10 242/9.5 335/13.2 335/13.2

Hole [mm] D 4.5 5.5 7

8.5

15

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 activities are planned and performed taking into account the individual employee, the work environment and the external environment. Production takes place with a minimum of noise, smoke or other pollution and environmentally safe disposal of the products is pre-prepared. UN Global Compact Danfoss has signed the UN Global Compact on social and environmental responsibility and our companies act responsibly towards local societies. EU Directives All factories are certified according to ISO 14001 standard. All products fulfil the EU Directives for General Product Safety and the Machinery directive. Danfoss VLT Drives is, in all product series, implementing the EU Directive concerning Hazardous Substances in Electrical and Electrical Equipment (RoHS) and is designing all new product series according to the EU Directive on Waste Electrical and Electronic Equipment (WEEE). Impact on energy savings One years 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 worlds first mass produced variable speed drive for AC motors and named it VLT. Twenty five hundred employees develop, manufacture, sell and service drives and soft starters in more than one hundred countries, focused only on drives and soft starters. Intelligent and innovative Developers at Danfoss VLT Drives have fully adopted modular principles in development as well as design, production and configuration. Tomorrows features are developed in parallel using dedicated technology platforms. This allows the development of all elements to take place in parallel, at the same time reducing time to market and ensuring that customers always enjoy the benefits of the latest features.

Rely on the experts We take responsibility for every element of our products. The fact that we develop and produce our own features, hardware, software, power modules, printed circuit boards, and accessories is your guarantee of reliable products. Local backup globally VLT motor controllers are operating in applications all over the world and Danfoss 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 dont stop until the customers drive challenges are solved.

DKDD.PB.43.A1.02

VLT is a trademark of Danfoss A/S

Produced by PE-MMSC 2011.05