Danfoss Drives

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MAKING MODERN LIVING POSSIBLE New photo VLT® AQUA Drive The ultimate solution for Water, Wastewater & Irrigation

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The VLT® AQUA Drive is innovative – Reduces system, installation and operating costs Danfoss VLT® AQUA Drive is dedicated to water and wastewater applications. With a wide range of powerful standard and optional features, the VLT® AQUA Drive provides the lowest overall cost of ownership for water and wastewater applications. Save energy The VLT® AQUA Drive offers considerable energy savings: • VLT® efficiency (up to 98%) • Sleep Mode • Automatic Energy Optimisation AEO: Typically 3-5% energy saving • Flow compensation, lowering pressure set point and thus energy consumption under low flow conditions Save space The compact design of the VLT® AQUA Drive makes it easily fit in even small installation spaces. • Built-in DC coils for harmonic suppression. No need for external AC coils • Optional, built-in RFI filters in the whole power range • Intelligent cooling concept reduces need for installation space. Protects the environment The growing need for clean water and energy conservation is rapidly increasing the pressure on global fresh water resources, wastewater treatment, recycling and power generation. VLT® AQUA Drive is designed to enhance system operation, protect equipment, reduce chemical consumption and water loss, while providing significant energy savings. VLT® AQUA Drive is the ultimate solution for all water, wastewater and recycling processes. Save cost and protect your system with a series of pump-specific features: • Cascade controller • Dry run detection • End of curve detection • Motor alternation 2

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• 2-step ramps (initial and final ramp) • Check valve protection • Safe stop • Low flow detection • Pipe fill mode • Sleep mode • Real-time clock • Password protection • Overload trip protection • Smart Logic Controller Can be set to either variable or constant torque operation in the full speed range. Save panel space NEMA/UL Type 12 (IP 54/55) enclosure solution is available in the whole power range. Up to 90 kW, the VLT® AQUA Drive can even be delivered in an IP 66 version. Save time VLT® AQUA Drive is designed with the installer and operator in mind in order to save time on installation, commissioning and maintenance. • Intuitive user interface with the award-winning control panel (LCP) • Same user interface for the full power range • Modular VLT® design enables fast installation of options • Auto tuning of PI controllers • Robust design and efficient monitoring make the VLT® AQUA Drive maintenance free. Dedicated to water and wastewater Danfoss Drives’ unequalled experience was used to make the VLT® AQUA Drive the perfect match for AC motor driven applications in modern water and wastewater systems – also for retrofitting. Water and Wastewater is a global business area for Danfoss Drives and you will find our dedicated sales and service staff all over the world 24 hours a day. Ideal Energy Consumption at Varying Speed Energy 100% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% 0% 10% 20% 30% 40% 50% 60% ■ Distribution System Water Losses m3 pr. year Flow ■ Pressure ■ Power Pressure (bar) 1 mm hole Flow 70% 80% 90% 100% 3 mm hole 4 mm hole 2 mm hole Energy savings using a VLT® AQUA Drive are achieved even with a modest reduction in speed. Reducing water losses by lowering system pressure becomes increasingly effective as the size of line breaks increase. 3

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Water and Wastewater processes – Improved control using less energy 5 2 1 6 3 4 1 Water treatment plants Meeting the varying flow demands on a daily or hourly basis requires reliable control. The VLT® AQUA Drive software provides unique pump control features that will help control even the most demanding applications. 3 protection against corrosion. The optional high grade PCB coating and a mechanical design, which separates the electronics from the cooling air, makes the VLT® AQUA Drive the perfect solution for this application. Groundwater pumps Submersible deep well pumps need fast start and stop capability, precise control and protection against running dry. The built-in dry run detection and the initial and final ramp ramps make the VLT® AQUA Drive handle such applications to perfection. 4 2 Desalination plants Desalination plants are used to provide clean drinking water from sea water or brackish water. In desalination plants saline environments often requires good Wastewater plants Fluctuations in flow can disrupt efficient process control, increase costs and equipment wear due to a higher number of starts and stops, and adversely affect effluent quality. Using the VLT® AQUA Drive on pumps, blowers and other equipment will lead to better process control and reduce energy consumption. The VLT® AQUA Drive can also provide 4

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7 tighter control of chemical feed pumps, mixers and other equipment. 6 5 hammering and reduces leakage when empty pipes are filled. Distribution As areas become more populated, the increasing demand for reliable and precise pressure control becomes a challenge to many communities. The VLT® AQUA Drive has innovative pumping functions to assist in maintaining precise pressure and flow while reducing system leakage and energy consumption. In many cases, it can also provide a cost-effective alternative to water towers. The Cascade Controller has advanced distribution functions built-in. 7 Irrigation systems The irrigation market is focusing more and more on efficiency and energy savings for water management. Meeting these demands requires precise pressure and flow control. The built-in pump control features makes VLT® AQUA Drive a perfect match for irrigation in rural areas. It even offers a special pipe fill function that prevents water Water fountains and pools Water fountains are used to enhance the aesthetics of buildings and parks nearly everywhere. In these applications, the VLT® AQUA Drive can provide energy efficiency, accurate control and even meticulously timed sequencing for a dramatic effect. 5

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The modular VLT® AQUA Drive Extremely compact panel mount cabinets 1 – – – – – – 2 Fieldbus option Modbus RTU (std.) Modbus TCP IP PROFIBUS DeviceNet EtherNet/IP PROFINET Local Control Panel (LCP) Choose numerical, graphical or no display Mains and motor cable terminals are located in the bottom of the cabinet for fast and easy installation. C3 – frame IP 20 compact panel mounting drive. I/O option – General Purpose I/O (3DI + 2AI + 2DO + 1AO) – Cascade controller (2 – 8 pumps) – Sensor input (3 x PT100/1000 + 1AI) – Relay output (3 x relays) 4 3 24 V supply option RFI filter Built-in RFI Filter for long motor cables according to the IEC 618003 and EN 55011 standards. AC mains disconnect (Factory mounted option) Input mains option Various input plate configurations are available including fuses, mains switch (disconnect), or RFI filter.Input plates are field adaptable if options need to be added after installation. The IP 20 enclosure has two individually controlled fans for maximum reliability. Only a minimum of external cooling air passes the electronic components, which increases the lifetime. The aluminium front hinged door ensures easy access to additional I/O options and control wiring. IP 21/Type 1 protection can be delivered as a kit solution or as a specific IP 21 drive with easy access plastic cover with snap locks. 5 6 7 Extremely robust cabinets for harsh environments The Danfoss IP 55/NEMA 12 or IP 66 are designed for use in harsh environments with gas, pollution and dust. The electronics are completely separated from the cooling air in order to increase the lifetime. All terminals and EMC connections are located inside the drive under the robust metal cover for maximum protection. If ordered as IP 66 the heat sink is protected against corrosion (IP 66 rating is available up to 90 kW). 8 Coated PCB’s Durable in aggressive environments In water and wastewater applications it is often recommended to protect the drive with coated PCB’s. As standard the VLT® AQUA Drive complies with level 3C2 according to IEC 60721-3-3. Protection level 3C3 is optionally delivered from factory. 6

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9 The option protects significantly better against chlorine, hydrogen sulphide, ammonia and other gasses. Unique cooling concept – No ambient air flow over electronics up to 90 kW – Above 90 kW designed with back channel cooling (85% heat dissipated via back channel) 10 9 10 1 2 3 Advanced cascade controller option Controls up to 9 pumps 4 8 VLT® quality up to 1.4 MW The VLT® AQUA Drive is available from 0.25 kW to 1.4 MW. Drive experience since 1968 lies behind the clever design of VLT® drives. All enclosures are mechanically designed with focus on: • • • • • Robustness Easy access and installation Intelligent cooling High ambient temperatures Long service life 5 6 7 All VLT® AQUA Drives share technology, user interface and basic features with the rest of the new VLT® generation to assure well documented and proven quality. The modular design of the VLT® AQUA Drive allows even highly customised drives to be mass produced and factory tested. Remote access via fieldbus and USB cable. VLT® Set up Software MCT 10 gives intuitive access to all parameters and has scope features with graphs showing feedback, current, frequency etc. for easy fault finding and documentation. DC coils reduce harmonic noise and protect the drive. Also EMC filters are integrated (meets EN 55011 A2, A1 or B). 8 7

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Dedicated water features Auto tuning of the PI controllers With auto tuning of the PI controllers, the drive monitors how the system reacts on corrections made by the drive – and learns from it, so that precise and stable operation is achieved quickly. Gain factors for PI are continuously changed to compensate for changing characteristics of the loads. This applies to each PI controller in the 4-menu sets individually. Exact P and I settings at start-up will not be necessary – which lowers the commissioning costs. Pipe Fill Mode Enables controlled (closed loop) filling of pipes. Prevents water hammering, bursting water pipes or blowing off sprinkler heads. The new pipe fill mode is usable in both vertical and horizontal pipe systems. Useful in all applications where controlled pipe filling is demanded, such as irrigation systems, water supply systems, etc. End of Pump Curve detects breaks and leakage The feature detects breaks and leakage. End of curve triggers an alarm, shuts off the pump, or performs another programmed action whenever a pump is found running at full speed without creating the desired pressure – a situation that can arise when a pipe breaks or leakage occurs. Check Valve Ramp The Check Valve Ramp prevents water hammering as the pump stops and the check valve closes. The Check Valve Ramp slowly ramps down the pump speed around the value where the check valve ball is about to shut. 8

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Dry Run Detection lowers maintenance costs The VLT® AQUA Drive constantly evaluates the condition of the pump, based on internal frequency/power measurements. In case of a too low power consumption – indicating a no or low flow situation – the VLT® AQUA Drive will stop. Sleep Mode Sleep Mode keeps pump wear and power consumption to an absolute minimum. In low flow situations, the pump will boost the system pressure and then stop. Monitoring the pressure, the VLT® AQUA Drive will restart when the pressure falls below the required level. Flow compensation The flow compensation feature in VLT® AQUA Drive exploits the fact that flow resistance decreases with reduced flow. The pressure set point is accordingly reduced – which saves energy. Initial/Final Ramp The initial ramp provides fast acceleration of pumps to minimum speed, from where the normal ramp takes over. This prevents damage to the thrust bearings on the pump. The final ramp decelerates pumps from min. speed to stop. Payback time indication One of the major reasons for applying a VLT® drive is the very short payback time due to energy savings. The VLT® AQUA drive comes with a unique feature which continuously shows the remaining payback time for the investment. Motor Alternation This built-in logic controls alternation between two pumps in duty/stand-by applications. Motion of the stand-by pump prevents sticking of the pump. An internal timer assures equal usage of the pumps. With an option card it is possible to control alternations between 8 pumps. 9

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AQUA users participated in developing the user interface 1 – – – – – 2 Graphical display International letters and signs Graphical display with bar-charts Easy overview Possible to select 27 languages iF awarded design Illumination – Relevant buttons are illuminated when active 1 2 4 Menu structure – Based on the well known matrixsystem in today’s VLT® drives – Easy shortcuts for the experienced user – Edit and operate in different set-ups simultaneously Other benefits – Removable during operation – Up- and download functionality – IP 65 rating when mounted in a panel door – Up to 5 different variables visible at a time 3 5 3 Quick Menus – A Danfoss defined Quick Menu – A personal defined Quick Menu – A Changes Made menu lists the parameters unique to your application – A Function Setup menu provides quick and easy set-up for specific applications – A Logging menu provides access to operation history Intuitive functions – Info (“on board manual”) – Cancel (“undo”) – Alarm log (quick access) 6 5 6 4 The VLT® AQUA Drive has an award-winning Local Control Panel and a well structured menu system that ensures fast commissioning and trouble-free operation of the many powerful functions. VLT® Low Harmonic Drives Danfoss Low Harmonic Drives offer well known features while reducing strain on the power grid. Where the performance of other low harmonic technologies depends on the stability of the grid and load or affects the controlled motor, the new Danfoss VLT® Low Harmonic Drive continuously regulates the network and load conditions without affecting the connected motor. VLT® Low Harmonic Drive are motor friendly, with output impulse & shaft voltages compatible with motors conforming to IEC 60034-17/25 & NEMA-MG1-1998 part 31.4.4.2), as per standard VLT® Drives. The VLT® Low Harmonic Drive has the same modular build-up as Danfoss’ standard high power drives and shares similar features: high energy efficiency, back-channel cooling and user-friendly operation. The VLT® Low Harmonic Drive meets the toughest harmonic recommendations and gives the user full readout of the unit performance with regard to the grid, including a graphical overview of grid behavior. The perfect solution for • Meeting the toughest harmonics recommendations/standards • Generator-powered installations • Installations with generator backup • Soft power grids • Installation of drives in grids with limited excess power capacity Voltage range • 380 – 480 V AC 50 – 60 Hz Power Range 132 – 630 kW High Overload/ 160 – 710 kW Normal Overload (Matching drive frames D, E and F) Enclosure degree • IP 21 / NEMA 1, IP 54 hybrid 10

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Specifications Mains supply (L1, L2, L3) Supply voltage 1 or 3 x 200 – 240 V ±10% 1 or 3 x 380 – 480 V ±10% 3 x 525 – 600 V ±10% 3 x 525 – 690 V ±10% 50/60 Hz ≥ 0.9 1-2 times/min. Application options A wide range of integrated water application options can be fitted into the drive: • Real time clock with battery back-up • General purpose I/O option: 3 digital inputs, 2 digital outputs, 1 analog current output, 2 analog voltage inputs • Relay option/cascade controller option: 3 relay outputs Supply frequency True power factor (λ) Switching on input supply L1, L2, L3 Output data (U, V, W) Output voltage Switching on output Ramp times Closed loop 0 – 100% of supply voltage Unlimited 1 – 3600 sec 0 – 132 Hz • External 24 VDC supply option: 24 VDC external supply can be connected to supply control and option cards • Brake chopper option: Connected to an external brake resistor, the brake chopper limits the load on the intermediate circuit in case the motor acts as generator. • Extended cascade control of up to a total of 6 pumps • Advanced cascade control of up to a total of 9 pumps • Analogue sensor input option with up to 3 temperature sensor inputs VLT® AQUA Drive can provide 110% current for 1 minute. Higher overload rating is achieved by oversizing the drive. Digital inputs Programmable digital inputs Logic Voltage level Thermistor inputs *2 can be used as digital outputs 6* PNP or NPN 0 – 24 V 1 Analog input Analog inputs Modes Voltage level Current level Pulse inputs Programmable pulse inputs Voltage level Pulse input accuracy Utilize some of the digital inputs Analog output Programmable analog outputs Current range at analog output Max. load (24 V) Relay outputs Programmable relay outputs (240 VAC, 2 A and 400 VAC, 2 A) Fieldbus communication Standard built in: FC Protocol Modbus RTU Optional: PROFIBUS DeviceNet EtherNet/IP Modbus TCP IP PROFINET 2 1 0/4 – 20 mA 130 mA 2 0-24 VDC (PNP positive logic) (0.1 – 110 kHz) 2 Voltage or current 0 – 10 V (scaleable) 0/4 – 20 mA (scaleable) Power options Danfoss Drives offers a wide range of external power options for use together with our drive in critical networks or applications: • Advanced Harmonic Filters: for applications where reducing harmonic distortion is critical • dU/dt filters: For providing motor isolation protection • Sine filters (LC filters): For noiseless motor Complementary products • A broad range of soft starters • Decentral drive solutions PC software • MCT 10 Ideal for commissioning and servicing the drive including guided programming of cascade controller, real time clock, smart logic controller and preventive maintenance. The software is available for free on www.danfoss.com • VLT® Energy Box Comprehensive energy analysis tool, shows the drive payback time • MCT 31 Harmonics calculations tool Temperature Ambient temperature Up to 55˚ C Sales and Service Contacts worldwide Find your local expert team on www.danfoss.com/drives Global Marine • 24/7 availability • Local service organisation is present in more than 100 countries – ready to support whenever and wherever you need, around the clock, 7 days a week. 11

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Power, currents and enclosures ratings T2 200 – 240 V 1 ph 3 ph ≤440 V T4 380 – 480 V 1 ph Amp. All IP cl.* >440 V Amp. ≤440 V >440 V ≤550 V IP 00 IP 66 IP 54 IP 20 IP 55 IP 21 3 ph T6 525 – 600 V A >550 V T7 525 – 690 V A. IP 54/55 F2/F4 F1/F3 690 V 550 V IP 00 IP 66 IP 66 IP 66 IP 20 IP 20 IP 20 IP 55 IP 55 IP 55 IP 21 IP 21 FC 202 PK25 PK37 PK55 PK75 P1K1 P1K5 P2K2 P3K0 P3K7 P4K0 P5K5 P7K5 P11K P15K P18K P22K P30K P37K P45K P55K P75K P90K P110 P132 P160 P200 P250 P315 P355 P400 P450 P500 P560 P630 P710 P800 P900 P1M0 P1M2 P1M4 kW 0.25 0.37 0.55 0.75 1.1 1.5 2.2 3 3.7 4.0 5.5 7.5 11 15 18 22 30 37 45 55 75 90 110 132 160 200 250 315 355 400 450 500 560 630 710 800 900 1000 1200 1400 Amp. 1.8 2.4 3.5 4.6 6.6 7.5 10.6 12.5 16.7 24.2 30.8 46.2 59.4 74.8 88 115 143 170 1.3 1.8 A2 A2 A3 A5 A5 A5 A5 2.4 3 4.1 B1 B1 A3 A3 5.6 7.2 10 B1 B1 B2 B2 B3 B1 B1 B1 C1 C1 C2 C2 B2 B2 B2 37.5 C1 C1 C1 151 135 C2 34 C1 33 48 B4 C3 30 41 B1 B2 13 16 24 32 37.5 44 61 73 90 106 147 212 212 260 315 395 480 600 658 745 800 880 990 1120 1260 1460 1720 1.2 1.6 2.1 2.7 3.4 4.8 6.3 8.2 11 14.5 21 27 34 40 52 65 80 105 130 160 190 240 302 361 443 540 590 678 730 780 F1/F3 890 1050 1160 1380 1530 F2/ F4 F2/ F4 F1/F3 E2 E1 E1 D4 D2 D2 D3 C3 C1 C1 C1 B4 B2 B2 B2 B3 B1 B1 B1 A2 A2 A3 A3 A5 A5 A2 A2 A5 A5 1.8 2.6 2.9 4.1 5.2 6.4 9.5 11.5 19 23 28 36 43 54 65 87 C2 C2 105 137 1.7 2.4 2.7 3.9 4.9 6.1 9 11 18 22 27 34 41 52 62 83 83 131 C3 C1 C1 C1 C4 C2 C2 C2 54 65 87 105 137 162 201 253 303 360 418 470 523 596 630 763 889 988 1108 1317 1479 52 62 83 100 131 155 192 242 290 344 400 450 500 570 630 850 945 1260 1415 F2/F4 1060 F1/F3 730 E2 E1 E1 D4 D2 D2 D4 D2 D2 D3 D1 D1 B4 B2 B2 B2 B3 B1 B1 B1 A3 A3 A5 A5 A3 A3 A5 A5 C4 C2 C2 C2 C4 C2 D1 D1 F3 is a F1 frame with options cabinet; F4 is a F2 frame with options cabinet IP 00/Chassis IP 20/Chassis IP 21/NEMA Type 1 With upgrade kit** IP 54/NEMA Type 12 IP 55/NEMA Type 12 IP 66/NEMA Type 4X * Available in all IP classes. ** MCF 101 – IP 21 upgrade kit Dimensions [mm] A2 H W D H+ W+ 268 90 205 375 90 130 130 200 A3 A5 420 B1 480 242 260 B2 650 B3 399 165 249 475 165 B4 520 230 242 670 255 C1 680 308 310 C2 770 370 335 C3 550 308 333 755 329 950 391 C4 660 370 D1 1209 420 380 D2 1589 D3 1046 408 375 D4 1327 H and W dimensions are with back-plate. H+ and W+ are with IP upgrade kit. D dimensions are without option A/B. 12 IP 21

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Choose configurations freely [1] FC-202 – [2] – [3] – [4] – [5] – [6] – [7] – [8] – [9] – [10] [11] [12] [13] – [14] [15] [16] [17] [18] – X – SXX X – X – – CX – X – XX – [1] Application 202 VLT® AQUA Drive FC 202 [2] Power Size P1K1 P1K5 P2K2 P3K0 P3K7 P4K0 P5K5 P7K5 P11K P15K P18K P22K P30K P37K P45K P55K P75K P90K See ratings data on page 12 P110 for power ratings P132 P160 P200 P250 P315 P355 P400 P450 P500 P560 P630 P710 P800 P900 P1M0 P1M2 P1M4 [3] AC Line Voltage T2 1 x 200/240 V AC (1.1 – 45 kW) T2 3 x 200/240 V AC (1.1 – 45 kW) T4 1 x 380/480 V AC T4 3 x 380/480 V AC T6 3 x 525/600 V AC (1.1 – 90 kW) T7 3 x 525/690 V AC (45 kW – 1.2 MW) [4] Enclosure For cabinet mounting: E00 IP 00 (enclosure D3, D4) E20 IP 20 (enclosure A2, A3, B3, B4, C3, C4) Standalone: E21 IP 21 (enclosure B1, B2, C1, C2, D1, D2, E, F) E54 IP 54 (enclosure D1, D2, E, F) E55 IP 55 (enclosure A5, B1, B2, C1, C2) E66 IP 66 (enclosure A5, B1, B2, C1, C2) Special designs: C00 P20 E2M P21 E5M P55 E5H IP 00 (enclosure E00 – air duct in stainless steel) IP 20 (enclosure B4, C3, C4 – Back Plate) IP 21 (enclosure D1, D2 – protective cover) IP 21 (enclosure as E21 – Back Plate) IP 54 (enclosure D1, D2 – protective cover) IP 55 (enclosure as E55 – Back Plate) Special LHD enclosure IP 54 electronic IP 21 magnetics [9] Mains Input X No option 1 Mains disconnect 3 Mains disconnect and fuses 5 Mains disconnect, fuses and load sharing 7 Fuses A Fuses & load sharing terminals D Load sharing terminals [10] Cable X Standard Cable Entries O Metric Cable Entries [13] A Option (Fieldbus) AX No fieldbus option A0 MCA 101 – PROFIBUS DPV1 A4 MCA 104 – DeviceNet AL MCA 120 – PROFINET RT AN MCA 121 – Ethernet I/P AQ MCA 122 – Modbus TCP [14] B Option (Application) BX No application option BK MCB 101 – General Purpose I/O BP MCB 105 – Relay Expansion B0 MCB 109 – Analog I/O B4 MCB 114 – Sensor Input Option [16] C1 Option (Extended Relay) X No application option 5 MCO 102 – Advanced Cascade Controller [18] D Option (Control Power Backup Input) DX No DC input installed D0 MCB 107 24 VDC backup input Please beware that not all combinations are possible. Find help configuring your drive with the online configurator found under: driveconfig.danfoss.com [5] RFI Filter (EN/IEC 61800-3) H1 RFI-Filter Class C1/C2 (enclosure A, B, C) H2 RFI-Filter, Class C3 (enclosure A, B, C, D, E, F) H3 RFI -Filter Class C1/C2 (enclosure A, B, C) H4 RFI-Filter, Class C2 (enclosure D, E, F) H6 RFI-Filter for Marine HX No RFI-Filter (enclosure A, B, C, 525 – 600 V) L2 Low Harmonic Drive with RFI Class C3 L4 Low Harmonic Drive with RFI Class C2 [6] Braking & Safety X No brake IGBT B Brake IGBT mounted T Safe stop without brake U With brake and Safe Stop [7] Display (Local Control Panel) X Blank faceplate, no LCP installed G LCP 102 – Numeric LCP installed N LCP 101 – Graphic LCP installed [8] Conformal Coating (IEC 721-3-3) X No conformal coating C Conformal coating on all PCBs F1 E1 D2 D1 An overview showing the many ways to configure a VLT® AQUA Drive Select the options required for your application to determine the type code for your drive. The factory then uses this type code to build the drive to your exact specifications. You can configure online at www.danfoss.com/drives – choose “Online Configurator” – or contact your local Danfoss Drives office. C4 A2 A3 A4 A5 B1 B2 C1 C2 B4 C3 B3 13

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Connection examples The numbers represent the terminals on the drive 3 Phase power input 91 (L1) 92 (L2) 93 (L3) 95 PE 88 (-) 89 (+) 50 (+10 V OUT) S201 1 2 ON (U) 96 (V) 97 (W) 98 (PE) 99 Motor DC-Bus Switch Mode Power Supply 10Vdc 24Vdc 15mA 200mA (R+) 82 Brake resistor +10Vdc 0-10Vdc 0/4-20 mA 0-10Vdc 0/4-20 mA + - + - (R-) 81 53 (A IN) S202 1 2 ON ON=0-20mA OFF=0-10V relay1 03 02 01 relay2 06 240Vac, 2A 240Vac, 2A 54 (A IN) 55 (COM A IN) 12 (+24V OUT) 13 (+24V OUT) 18 (D IN) 19 (D IN) 20 27 (COM D IN) (D IN/OUT) P 5-00 24V (NPN) 0V (PNP) 24V (NPN) 0V (PNP) (COM A OUT) 39 05 04 400Vac, 2A (A OUT) 42 Analog Output 0/4-20 mA 24V 24V (NPN) 0V (PNP) Par. 6 - 50 S801 1 2 ON ON=Terminated OFF=Open 0V 29 (D IN/OUT) 5V 24V 24V (NPN) 0V (PNP) S801 0V 0V 32 (D IN) 33 (D IN) 24V (NPN) 0V (PNP) 24V (NPN) 0V (PNP) RS-485 Interface (P RS-485) 68 (N RS-485) 69 (COM RS-485) 61 RS-485 * 37 (D IN) (PNP) = Source (NPN) = Sink * Safe Stop optional This diagram shows a typical installation of the VLT® AQUA 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), 54 (V or mA) terminals. These inputs can be set up to either reference, feedback or thermistor. 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 - Imax. On the 68 (P+) and 69 (N-) terminals’ RS 485 interface, the drive can be controlled and monitored via serial communication. 14

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Proven AQUA Experience – world wide Freshwater supply for the city Novi Sad, Serbia In the city of Novi Sad in Serbia, Danfoss Drives has installed 5 x 315 kW VLT® AQUA Drives in JKP Vodovod. The company JKP Vodovod is using water from the Danube River and after purification it is provided to people of Novi Sad and local area which counts around 350,000 inhabitants. Before investments they used an old regulation with valves and there was no central monitoring of the water system. Poor regulation and high maintenance costs have forced local management for investments. Now they have seen huge savings in electrical energy, even within a short period of usage. VLT® drives make 70 billion litres of Sydney’s wastewater drinkable Authorities in Australia hope to recycle 70 billion litres of Sydney’s wastewater every year by 2015 – and Danfoss is playing a key role in helping them hit this ambitious target. Danfoss Drives will deliver 11 x 200 – 400 kW High Power drives and AHF filters for the Western Sydney Replacement Flows Project. The Aus $250 million project is Sydney’s largest water recycling scheme and is a key part of the state’s Metropolitan Water Plan. Changi Water Reclamation Plant, Singapore The Changi Water Reclamation plant is the cornerstone of the first phase of the Singapore Deep Tunnel Sewerage System. The plant is to replace six existing water reclamation plants in the long term. Danfoss VLT® drives and AHF filters were supplied for chemical and carbon scrubbers for the odour control, sedimentation tanks, bio-reactors, sedimentation tanks and solids building. Perth Seawater Desalination Plant, Australia VLT® drives and soft starters were chosen to run pumps when The Water Corporation of Western Australia – one of Australia’s largest and most successful water service providers – invested $387 million Australian dollars in Perth Seawater Desalination Plant – the largest of its type in the Southern Hemisphere. The company provides water and wastewater services to the burgeoning city of Perth and hundreds of towns and communities spread over 2.5 million square kilometres. Wastewater Pumping in Cartagena, Colombia Huge energy savings and a significant carbon reduction were achieved in the preliminary water treatment stage, where solids are separated from the sewage inflow. By applying Danfoss VLT® AQUA Drives to control the levels in the holding tanks, variable speed operation of the 4 x 370 kW pumps realised a return on investment within 6 months, and ongoing energy and carbon savings for the future. The additional operation result is a more constant flow through the subsequent processes, improving overall process efficiency Xi’An No.3 Waste Water treatment, China Danfoss provided VLT® AQUA drives and MCD soft starters for Xi’An No.3 Wastewater treatment plant. It is one of three bundles of a retrofit project to improve the environment in Xi’An City of Shanxi province, China. The treatment capacity is 100,000 tons of sewage and 50,000 tons of recycled water per day. Athens Wastewater Treatment Plant, Greece VLT® drives up to 315 kW handle wastewater from a population of 5 million in Athens. VLT® operation saves approx. 25% energy. The Psyttalia Wastewater Treatment Plant treats daily 750.000 m3 of sewage and has a nominal daily capacity of 1.000.000 m3. Vienna’s Main Sewage Treatment Plant, Austria At Vienna’s lowest point, where the Danube Canal meets the Danube, lies Vienna’s Main Sewage Treatment Plant. Here around 90% of Vienna’s wastewaters is purified. VLT® drives were chosen to operate the pumps that handle more than 500,000 cubic metres per day, which corresponds to a flow of a medium-size river. Izmir Geothermal District Heating System, Turkey VLT® drives operate the deep well and supply pumps in Izmir geothermal district heating. Applying VLT® drives leads to a very low electricity cost. 15

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1 x 200 – 240 VAC and 1 x 380 – 480 VAC 1 x 200 – 240 VAC Enclosure IP 20 /Chassis IP 55 + IP 66 /NEMA 12 [kW] [HP] [A] [A] [kVA] [mm ] ([AWG]) Continuous Intermittent [A] [A] [A] [W] [kg] [kg] [kg] 12.5 13.8 20 44 4.9 23 23 0.968 0.98 27 27 45 45 65 65 15 16.5 30 30 2 Typical Shaft Output Typical Shaft Output at 240 V Continuous Output Current (1 x 200 – 240 V) Intermittent Output Power (208 V AC) Max. cable size (Mains, motor, brake) Max. Input Current (1 x 200 – 240 V) Continuous A3 A5 P1K1 1.1 1.5 6.6 7.3 P1K5 1.5 2.0 7.5 8.3 P2K2 2.2 2.9 10.6 11.7 B1 P3K0 3 4.0 12.5 13.8 P3K7 3.7 4.9 16.7 18.4 P5K5 5.5 7.5 24 26.6 5.00 B2 P7K5 7.5 10 30.8 33.4 6.40 35/2 59 64 100 150 C1 P15K0 15 20 59.4 65.3 12.27 50/1/0 111 122 150 300 C2 P22K0 22 30 88 96.8 18.30 95/4/0 172 189.2 200 440 0.2-4/4-10 20.5 22.6 40 44 60 24 26.4 32 35.2 60 74 10/7 46 50.6 80 110 Max. pre-fuses Environment Estimated power loss at rated max. load Weight IP 20 IP 21 IP 55, IP 66 Efficiency 1 x 380 – 480 VAC Enclosure IP 20 (IP 21*)/Chassis IP 21/NEMA 1, IP 55 + IP 66/NEMA 12 [kW] [HP] [A] [A] [A] [A] [kVA] [mm ] ([AWG]) Continuous Intermittent 2 B1 P7K5 7.5 10 33 36 30 33 11.1 10/7 33 36 30 33 63 300 23 B2 P11K 11 15 48 53 41 46 16.6 35/2 48 53 41 46 80 440 27 0.96 C1 P18K 18.5 25 78 85.8 72 79.2 26.9 50/1/0 78 85.8 72 79.2 160 740 45 C2 P37K 37 50 151 166 135 148 51.5 120/4/0 151 166 135 148 250 1480 65 Typical Shaft Output Typical Shaft Output at 460 V Continuous Output Current (1 x 380 – 440 V) Intermittent Output Current (1 x 441 – 480 V) Output Power (208 V AC) Max. cable size Mains, motor, brake Max. Input Current (1 x 380 –440 V) Max. Input Current (1 x 441 –480 V) Continuous Intermittent Continuous [A] [A] [A] [W] [kg] Continuous Intermittent Max. pre-fuses Environment Estimated power loss at rated max. load Weight IP 20, IP 21, IP 55, IP 66 Efficiency 16

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3 x 200 – 240 VAC Enclosure IP 20 (IP 21*)/Chassis IP 55 + IP 66 /NEMA 12 [kW] [HP] [A] [A] [kVA] [mm ] ([AWG]) Continuous Intermittent [A] [A] [A] [W] [kg] [kg] [kg] 94 95 1.6 1.7 2.2 2.42 10 21 29 42 3.2 3.52 2 A2 PK25 0.25 0.25 1.8 1.98 0.65 PK37 0.37 0.37 2.4 2.64 0.86 PK55 0.55 0.55 3.5 3.85 1.26 PK75 0.75 0.75 4.6 5.06 1.66 A5 P1K1 1.1 1.5 6.6 7.3 2.38 4 (10) 4.1 4.51 5.9 6.5 6.8 7.5 20 82 9.5 10.5 11.3 12.4 P1K5 1.5 2.0 7.5 8.3 2.70 P2K2 2.2 2.9 10.6 11.7 3.82 P3K0 3 4.0 12.5 13.8 4.50 A3 P3K7 3.7 4.9 16.7 18.4 6.00 Typical Shaft Output Typical Shaft Output at 208 V Continuous Output Current (3 x 200 – 240 V) Intermittent Output Power (208 V AC) Max. cable size (Mains, motor, brake) Max. Input Current (3 x 200 – 240 V) Continuous 15.0 16.5 32 Max. pre-fuses Environment Estimated power loss at rated max. load Weight IP 20 IP 21 IP 55, IP 66 Efficiency 54 4.9 5.5 63 116 155 6.6 7.5 185 13.5 0.96 Enclosure IP 20 (IP 21*)/Chassis IP 21/NEMA 1, IP 55 + IP 66/NEMA 12 [kW] [HP] [A] [A] [kVA] [mm2] ([AWG]) [mm2] ([AWG]) [A] [A] [W] [kg] [kg] 22.0 24.2 63 269 P5K5 5.5 7.5 24.2 26.6 8.7 Typical Shaft Output Typical Shaft Output at 208 V Continuous Output Current (3 x 200 – 240 V) Intermittent Output Power (208 V AC) Max. cable size Mains, motor, brake Max. cable size mains With mains disconnect switch included Max. Input Current (3 x 200 – 240 V) Continuous Intermittent B3 B1 P7K5 7.5 10 30.8 33.9 11.1 10 (7) B4 P11K 11 15 46.2 50.8 16.6 B2 P15K 15 20 59.4 65.3 21.4 35 (2) P18K 18.5 25 74.8 82.3 26.9 C1 P22K 22 30 88.0 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 61.2 120 (250 MCM) 185 (kcmil 350) 154.0 169.0 250 1636 50 65 0.97 Continuous 50 (1/0) (B4 = 35 (2)) 35 (2) 95 (4/0) 16 (6) 28.0 30.8 63 310 12 23 0.96 42.0 46.2 63 447 54.0 59.4 80 602 23.5 27 70 (3/0) 104.0 114.0 160 1140 35 45 130.0 143.0 200 1353 Max. pre-fuses Environment Estimated power loss at rated max. load Weight IP 20 IP 21, IP 55, IP 66 Efficiency 68.0 74.8 125 737 80.0 88.0 125 845 * (A2, A3, B3, B4, C3 and C4 may be converted to IP21 using a conversion kit. (Please see also items Mechanical mounting in Operating Instructions and IP 21/ Type 1 Enclosure kit in the Design Guide.)) 17

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380 – 480 VAC Enclosure Typical Shaft Output Typical Shaft Output at 460 V Output Current (3 x 380 – 440 V) Output Current (3 x 441 – 480 V) Output Power (400 V AC) Output Power (460 V AC) Max. cable size (Mains, motor, brake) Max. Input Current (3 x 380 – 440 V) Max. Input Current (3 x 441 – 480 V) Continuous Intermittent Continuous Intermittent Continuous Intermittent Continuous Intermittent Continuous Continuous IP 20 (IP 21*)/Chassis IP 55 + IP 66 /NEMA 12 [kW] [HP] [A] [A] [A] [A] [kVA] [kVA] [mm ] ([AWG]) [A] [A] [A] [A] [A] [W] [kg] [kg] 2.7 3.0 2.7 3.0 10 58 4.8 3.7 4.1 3.1 3.4 10 62 2 A2 P1K1 1.1 1.5 3 3.3 2.7 3.0 2.1 2.4 P1K5 1.5 2.0 4.1 4.5 3.4 3.7 2.8 2.7 P2K2 2.2 2.9 5.6 6.2 4.8 5.3 3.9 3.8 A5 P3K0 3 4.0 7.2 7.9 6.3 6.9 5.0 5.0 4 (10) 5.0 5.5 4.3 4.7 20 88 4.9 13.5 0.96 0.97 6.5 7.2 5.7 6.3 20 116 9.0 9.9 7.4 8.1 20 124 11.7 12.9 9.9 10.9 32 187 P4K0 4 5.0 110 11 8.2 9.0 6.9 6.5 P5K5 5.5 7.5 13 14.3 11 12.1 9.0 8.8 A3 P7K5 7.5 10 16 17.6 14.5 15.4 11.0 11.6 Max. pre-fuses Environment Estimated power loss at rated max. load Weight IP 20 IP 55, IP 66 Efficiency 14.4 15.8 13.0 14.3 32 255 6.6 14.2 Enclosure IP 20 (IP 21*)/Chassis IP 21/NEMA 1, IP 55 + IP 66/NEMA 12 [kW] [HP] [A] [A] [A] [A] [kVA] [kVA] [mm2] ([AWG]) [mm2] ([AWG]) [A] [A] [A] [W] [kg] [kg] 22 24.2 19 20.9 63 278 P11K 11 15 24 26.4 21 23.1 16.6 16.7 Typical Shaft Output Typical Shaft Output at 460 V Continuous Output Current (3 x 380 – 439 V) Intermittent Output Current (3 x 440 – 480 V) Output Power (400 V AC) Output Power (460 V AC) Max. cable size Mains, motor, brake Max. cable size mains With mains disconnect switch included Max. Input Current (3 x 380 – 439 V) Max. Input Current (3 x 440 – 480 V) Continuous Intermittent Continuous Intermittent B3 B1 P15K 15 20 32 35.2 27 29.7 22.2 21.5 10 (7) B4 B2 P18K 18.5 25 37.5 41.3 34 37.4 26 27.1 P22K 22 30 44 48.4 40 44 30.5 31.9 P30K 30 40 61 67.1 52 61.6 42.3 41.4 P37K 37 50 73 80.3 65 71.5 50.6 51.8 C1 P45K 45 60 90 99 80 88 62.4 63.7 C3 P55K 55 75 106 117 105 116 73.4 83.7 P75K 75 100 147 162 130 143 102 104 C4 C2 P90K 90 125 177 195 160 176 123 128 120 (250 MCM)1) Continuous Continuous 35 (2) 50 (1/0) (B4 = 35 (2)) 35 (2) 95 (4/0) 16 (6) 29 31.9 25 27.5 63 392 12 23 34 37.4 31 34.1 63 465 40 44 36 39.6 63 525 55 60.5 47 51.7 80 698 23.5 27 0.98 66 72.6 59 64.9 100 739 Continuous Intermittent Max. pre-fuses Environment Estimated power loss at rated max. load Weight IP 20 IP 21, IP 55, IP 66 Efficiency 82 90.2 73 80.3 125 843 35 45 96 106 95 105 160 1083 185 70 (3/0) (kcmil 350) 133 161 146 177 118 145 130 160 250 250 1384 50 65 0.99 1474 * (A2, A3, B3, B4, C3 and C4 may be converted to IP21 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) 18

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380 – 480 VAC Enclosure Typical Shaft Output at 400 V Typical Shaft Output at 460 V Output Current Continuous (3 x 380 – 400 V) Intermittent (3 x 380 – 400 V) Continuous (3 x 441 – 480 V) Intermittent (3 x 441 – 480 V) Output Power Continuous (400 VAC) Continuous (460 VAC) Max. Input Current Continuous (3 x 380 – 400 V) Continuous (3 x 441 – 480 V) Max. cable size Mains motor, brake and load share Max. external pre-fuses Estimated power loss at rated max. load – 400 V Estimated power loss at rated max. load – 460 V IP 21, IP 54 Weight IP 00 Efficiency Output Frequency IP 21, IP 54 IP 00 [kW] [HP] [A] [A] [A] [A] [kVA] [kVA] [A] [A] [mm2] ([AWG]) [A] [W] [W] [kg] [kg] [Hz] P110 110 150 212 233 190 209 147 151 204 183 D1 D3 P132 132 200 260 286 240 264 180 191 251 231 2 x 70 (2 x 2/0) 300 2907 2600 96 82 350 3358 3079 104 91 400 3915 3781 125 112 0.98 0 – 800 P160 160 250 315 347 302 332 218 241 304 291 D2 D4 P200 200 300 395 435 361 397 274 288 381 348 2 x 150 (2 x 300 mcm) 500 4812 4535 136 123 P250 250 350 480 528 443 487 333 353 463 427 630 5517 5024 151 138 Enclosure Typical Shaft Output at 400 V Typical Shaft Output at 460 V Output Current Continuous (3 x 380 – 400 V) Intermittent (3 x 380 – 400 V) Continuous (3 x 441 – 480 V) Intermittent (3 x 441 – 480 V) Output Power Continuous (at 400 V) Continuous (at 460 V) Max. Input Current Continuous (3 x 380 – 400 V) Continuous (3 x 441 – 480 V) Max. cable size Motor Max. cable size Mains Max. cable size Loadsharing Max. cable size Brake Max. external pre-fuses Estimated power loss at rated max. load – 400 V Estimated power loss at rated max. load – 460 V IP 54 Weight IP 21 IP 00 Efficiency Output Frequency IP 21, IP 54 IP 00 [kW] [HP] [A] [A] [A] [A] [kVA] [kVA] [A] [A] [mm2] ([AWG]) [mm2] ([AWG]) [mm2] ([AWG]) [mm2] ([AWG]) [A] [W] [W] [kg] [kg] [kg] [Hz] P315 315 450 600 660 540 594 416 430 590 531 P355 355 500 658 724 590 649 456 4770 647 580 E1 E2 P400 400 550/600 745 820 678 746 516 540 733 667 P450 450 600 800 880 730 803 554 582 787 718 P500 500 700 880 968 780 858 610 621 857 759 F1/F3 P560 560 750 990 1089 890 979 686 709 P630 630 900 1120 1232 1050 1155 776 837 P710 710 1000 1260 1386 1160 1276 873 924 F2/F4 P800 800 1200 1460 1606 1380 1518 1012 1100 P1M0 1000 1350 1720 1892 1530 1683 1192 1219 4 x 240 (3 x 500 mcm) 700 6706 5930 263 221 1 x 185 (2 x 350 mcm) 900 7532 8677 6725 7820 270 234 272 236 9473 8527 313 277 964 1090 1227 1422 1675 867 1022 1129 1344 1490 8 x 150 12 x 150 (8 x 300 mcm) (12 x 300 mcm) 8 x 240 (8 x 500 mcm) 4 x 120 (4 x 250 mcm) 4 x 185 6 x 185 (4 x 350 mcm) (6 x 350 mcm) 1600 2000 2500 10161 11822 12514 14671 17294 19280 8877 10424 11595 13215 16228 16625 1299 1541 1004 1246 – 0.98 0 – 800 19

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525 – 690 VAC Enclosure IP 20 Chassis IP 21/NEMA 1 IP 55, IP 66/NEMA 12 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) Max. cable size IP 21/55/66 (mains, motor, brake) Max. cable size IP 20 (mains, motor, brake) Max. cable size mains With mains disconnect switch included Max. Input Current Continuous (3 x 525 – 600 V) Intermittent (3 x 525 – 600 V) Max. pre-fuses Environment Estimated power loss at rated max. load Weight IP 20 IP 21, IP 55, IP 66 Efficiency A3 B3 B4 C3 C4 B1 B2 C1 C2 A5 P1K1 P1K5 P2K2 P3K0 P4K0 P5K5 P7K5 P11K P15K P18K P22K P30K P37K P45K P55K P75K P90K [kW] 1.1 1.5 2.2 3 4 5.5 7.5 11 15 18.5 22 30 37 45 55 75 90 [A] [A] [A] [A] 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 9.0 9.9 11.5 12.7 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 [kVA] [kVA] [mm2] ([AWG]) 2.5 2.4 2.8 2.7 3.9 3.9 5.0 4.9 4 (10) 6.1 6.1 9.0 9.0 11.0 11.0 18.1 17.9 21.9 21.9 10 (7) 26.7 26.9 34.3 33.9 41 40.8 35 (2) 51.4 51.8 61.9 61.7 82.9 82.7 100 130.5 99.6 130.5 120 95 (250 (4/0) MCM) 150 95 (250 (4/0) MCM) 1) 185 70 (3/0) (kcmil 350) 50 (1/0) [mm2] ([AWG]) 4 (10) 10 (7) 35 (2) 50 (1/0) [mm2] ([AWG]) 4 (10) 16 (6) 35 (2) [A] [A] [A] [W] [kg] [kg] 2.4 2.7 10 50 2.7 3.0 4.1 4.5 5.2 5.7 20 5.8 6.4 8.6 9.5 32 10.4 11.5 17.2 19 20.9 23 63 25.4 28 32.7 36 39 43 80 49 54 100 750 59 65 125 850 78.9 87 160 95.3 124.3 105 250 137 250 65 92 6.5 13.5 122 145 195 261 300 400 12 23 475 525 700 1100 1400 1500 35 45 50 65 6.6 14.2 0.97 23.5 27 0.98 1) With brake and load sharing 95 (4/0) 20

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525 – 690 VAC Enclosure Typical Shaft Output at 550 V Typical Shaft Output at 575 V Typical Shaft Output at 690 V Output Current Continuous (at 3 x 525 – 550 V) Continuous (at 550 V) Intermittent (60 sec overload) (at 550 V) Continuous (at 3 x 551 – 690 V) Continuous (at 575/690 V) Intermittent (60 sec overload) (at 575/690 V) Output Power Continuous (at 550 V) Continuous (at 575 V) Continuous (at 690 V) Max. Input Current Continuous (at 550 V) Continuous (at 575 V) Continuous (at 690 V) Max. cable size Mains, motor, load share and brake Max. external pre-fuses Estimated power loss at rated max. load – 600 V Estimated power loss at rated max. load – 690 V IP 21, IP 54 Weight IP 00 Eﬃciency Output Frequency IP 21, IP 54 IP 00 [kW] [HP] [kW] [A] [A] [A] [A] [A] [A] [kVA] [kVA] [kVA] [A] [A] [A] [mm2] ([AWG]) [A] [W] [W] [kg] [kg] [Hz] IP 54/NEMA 12 IP 21/NEMA 1 IP 00 [kW] [HP] [kW] [A] [A] [A] [A] [kVA] [kVA] [kVA] [A] [A] [A] [mm2] ([AWG]) [mm2] ([AWG]) [mm2] ([AWG]) [A] [W] [W] [kg] [kg] [Hz] D2 E1 P45K 37 50 45 56 62 54 59 53 54 65 60 58 58 P55K 45 60 55 76 84 73 80 72 73 87 77 74 77 P75K 55 75 75 90 99 86 95 86 86 103 89 85 87 2 x 70 (2 x 2/0) 200 1827 1913 96 82 D1 D3 P90K 75 100 90 113 124 108 119 108 108 129 110 106 109 D2 D4 P110 90 125 110 137 151 131 144 131 130 157 130 124 128 162 178 155 171 154 154 185 201 221 192 211 191 191 229 253 278 242 266 241 241 289 303 333 290 319 289 289 347 P132 110 150 132 P160 132 200 160 P200 160 250 200 P250 200 300 250 125 1398 1458 160 1645 1717 200 2157 2262 250 2533 2662 0.97 0 – 600 158 198 151 189 155 197 2 x 70 (2 x 2/0) 315 350 2963 3430 3430 3612 104 91 0.98 245 299 234 286 240 296 2 x 150 (2 x 300 mcm) 350 400 4051 4867 4292 5156 125 136 112 123 F1/F3 1) F2/F41) P1M2 1000 1350 1200 1317 1449 1260 1386 P1M4 1100 1500 1400 1479 1627 1415 1557 Enclosure Typical Shaft Output at 550 V Typical Shaft Output at 575 V Typical Shaft Output at 690 V Output Current Continuous (3 x 550 V) Intermittent (3 x 550 V) Continuous (3 x 690 V) Intermittent (3 x 690 V) Output Power Continuous (at 550 VAC) Continuous (at 575 VAC) Continuous (at 690 VAC) Max. Input Current Continuous (3 x 550 V) Continuous (3 x 575 V) Continuous (3 x 690 V) Max. cable size Mains Max. cable size Motor Max. cable size Brake Max. mains pre-fuses Estimated power loss at rated max. load – 600 VAC Estimated power loss at rated max. load – 690 VAC IP 21, IP 54 Weight IP 00 Eﬃciency Output Frequency D4 E2 – P315 P400 P450 P500 P560 P630 P710 P800 P900 P1M0 250 315 355 400 450 500 560 670 750 850 350 400 450 500 600 650 750 950 1050 1150 315 400 450 500 560 630 710 800 900 1000 360 396 344 378 343 411 355 339 352 418 460 400 440 398 478 408 390 400 470 517 450 495 448 538 453 434 523 575 500 550 498 598 504 482 596 656 570 627 568 681 574 549 630 693 630 693 600 627 753 607 607 763 839 730 803 727 872 743 711 889 978 850 935 847 988 1087 945 1040 941 1108 1219 1060 1166 1056 1255 1409 1016 1129 1267 1506 1691 866 828 962 920 1079 1282 1440 1032 1227 1378 8 x 240 (8 x 500 mcm) 2 x 185 8 x 150 12 x 150 (2 x 300 (8 x 300 mcm) (12 x 300 mcm) mcm) 2 x 185 4 x 185 6 x 185 (2 x 350 mcm) (4 x 350 mcm) (6 x 350 mcm) 500 550 700 900 2000 2500 4308 4757 4974 5622 7018 7792 8933 10310 11692 12909 15358 17602 4486 4925 5128 5794 7221 8017 9212 10659 12080 13305 15865 18173 151 165 263 272 313 1004 1246 1280 138 151 221 236 277 – 0.98 0 – 500 4 x 240 (4 x 500 mcm) 1) Adding the F-enclosure option cabinet (resulting in the F3 and F4 enclosure sizes) adds 295 kg to the estimated weight. 21

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Dimensions VLT® AQUA Drive In mm Min. 100 Exhaust 205 (220) Exhaust ∅ 5,5 90 70 A2 Enclosures Min. 100 Inlet 341 Inlet ∅ 5,5 Rear View Depth 220 mm with A/B-Options Min. 100 Exhaust 205 (220) Exhaust ∅ 5,5 268 130 110 A3 Enclosures 257 257 341 Min. 100 Inlet ∅ 5,5 Inlet Rear View Depth 220 mm with A/B-Options 22 268

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650 480 420 In mm Min. 200 Inlet Min. 200 Exhaust 242 242 242 Min. 100 Inlet Min. 100 Exhaust Min. 100 Inlet Min. 100 Exhaust Dimensions VLT® AQUA Drive Inlet Inlet Inlet 260 Exhaust ∅9 ∅ 6,5 ∅9 210 Rear View Rear View 454 260 200 Exhaust Exhaust A3 Gehäuse A1 Gehäuse180 ∅ 6,5 ∅9 ∅9 210 Rear View 215 624 402 23 B2 Enclosures B1 Enclosures A5 Enclosures

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Dimensions VLT® AQUA Drive In mm Min. 200 Exhaust 249 (262) ∅ 6,8 Exhaust 165 140 B3 Enclosures Min. 200 Inlet 419 ∅ 6,8 Inlet Rear View Depth 262 mm with A/B-Options 231 Min. 200 Exhaust 242 Exhaust 35 ∅ 8,5 200 B4 Enclosures 495 ∅ 8,5 Rear View 272 ∅9 ∅9 Rear View 380 399 Inlet 310 Exhaust 460 Inlet 648 520 308 Min. 200 Min. 200 Inlet C1 Enclosures 680 24 Min. 200 Inlet Exhaust 595

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In mm 770 370 Min. 225 Inlet Min. 225 Exhaust Min. 225 Exhaust Min. 200 Inlet Min. 200 Exhaust Min. 225 Inlet 800 36 Inlet Inlet 630 36 Dimensions VLT® AQUA Drive Inlet 334 Exhaust 488 ∅ 8,5 ∅9 ∅ 8,5 210 270 308 Rear View Rear View 521 550 335 334 Exhaust A3 Gehäuse A1 Gehäuse180 Exhaust 598 ∅9 ∅ 8,5 ∅ 8,5 334 370 330 Rear View 631 660 739 25 C4 Enclosures C3 Enclosures C2 Enclosures

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Dimensions VLT® AQUA Drive In mm D1 Enclosures (Floor- or cabinet Mount) 74 765 m3/hr Min. 22 Exhaust 170 m3/hr 420 1166 1209 981 Min. 225 Inlet 310 163 380 417 Optional pedestal 176F1827 available for stand-alone floor mount installations (adds 200 mm to height) 72 420 765 m3/hr Min. 225 Exhaust 170 m3/hr D2 Enclosures (Floor- or cabinet Mount) 1362 1589 1547 157 Min. 225 Inlet 423 380 417 Optional pedestal 176F1827 available for stand-alone floor mount installations (adds 200 mm to height) Drives shown with optional disconnect switch 26

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Dimensions VLT® AQUA Drive In mm 66 408 765 m3/hr Min. 225 Exhaust 255 m3/hr 1046 818 997 147 157 Min. 225 Inlet 375 417 66 765 m3/hr Min. 225 Exhaust 255 m3/hr 408 1327 1099 1280 161 Min. 225 Inlet 151 375 417 Drives shown with optional disconnect switch 27 D4 Enclosures (Cabinet Mount) A3 Gehäuse D3 Enclosures (Cabinet Mount) A1 Gehäuse180

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Dimensions VLT® AQUA Drive In mm 1444 m3/hr 72 Min. 225 Air Space Outlet 340 m3/hr 600 E1 Enclosures (Floor Mount) 2000 1551 164 727 494 538 1444 m3/hr 64 Min. 225 Air Space Outlet 255 m3/hr 585 E2 Enclosures (Cabinet Mount) 1547 1320 269 Min. 225 Air Space Inlet 157 498 539 Drives shown with optional disconnect switch 28

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Dimensions VLT® AQUA Drive In mm 607 1400 Min. 200 Air Space Outlet IP 21/NEMA 1 2100 m3/hr IP 54/NEMA 12 1575 m3/hr 2280 2205 1497 2956 m3/hr 607 1804 Min. 200 Air Space Outlet IP 21/NEMA 1 2100 m3/hr 2280 2205 1497 3941 m3/hr 29 F2 Enclosures (Floor Mount) IP 54/NEMA 12 1575 m3/hr A3 Gehäuse F1 Enclosures (Floor Mount) A1 Gehäuse180

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Dimensions VLT® AQUA Drive In mm 607 1997 Min. 200 Air Space Outlet IP 21/NEMA 1 1444 m3/hr F3 Enclosures (Floor Mount) IP 54/NEMA 12 2100 m3/hr 2280 2205 1497 2956 m3/hr 607 2401 Min. 200 Air Space Outlet IP 21/NEMA 1 2800 m3/hr F4 Enclosures (Floor Mount) IP 54/NEMA 12 2100 m3/hr 2280 2205 1497 3941 m3/hr 30

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VLT® AQUA Drive Options A VLT® PROFIBUS DP V1 MCA 101 • PROFIBUS DP V1 gives you wide compatibility, a high level of availability, support for all major PLC vendors, and compatibility with future versions • Fast, efficient communication, transparent installation, advanced diagnosis and parameterisation and auto-configuration of process data via GSD-file • A-cyclic parameterisation using PROFIBUS DP V1, PROFIdrive or Danfoss FC profile state machines, PROFIBUS DP V1, Master Class 1 and 2 Ordering number 130B1100 uncoated – 130B1200 coated (Class 3C3/IEC 60721-3-3) 13 VLT® DeviceNet MCA 104 • This modern communications model offers key capabilities that let you effectively determine what information is needed and when • You will also benefit from ODVA’s strong conformance testing policies, which ensure that products are interoperable Ordering number 130B1102 uncoated – 130B1202 coated (Class 3C3/IEC 60721-3-3) 13 VLT® PROFINET RT MCA 120 The VLT® PROFINET Option offers connectivity to PROFINET based networks via the PROFINET Protocol. The option is able to handle a single connection with an Actual Packet Interval down to 1 ms in both directions, positioning it among the fastest performing PROFINET devices in the market. • Built-in web server for remote diag-nosis and reading out of 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 occur, or have cleared again • TCP/IP for easy access to Drive configuration data from MCT 10 • FTP (File Transfer Protocol) file up- and download • Support of DCP (discovery and configuration protocol) 13 VLT® EtherNet IP MCA 121 EtherNet will become the future standard for communication at the factory floor. The EtherNet Option is based on the newest technology available for the Industrial use and handles even the most demanding requirements. EtherNet/IP extends commercial off-the-shelf EtherNet to the Common Industrial Protocol (CIP™) – the same upper-layer protocol and object model found in DeviceNet. The VLT® MCA 121 offers advanced features as: • Built-in high performance switch enabling line-topology, and eliminating the need for external switches • Advanced switch and diagnoses functions • Built-in web server • E-mail client for service notification 13 VLT® Modbus TCP MCA 122 The VLT® Modbus Option offers connectivity to Modbus TCP based networks, such as Groupe Schneider PLC system via the Modbus TCP Protocol. The option is able to handle a single connection with an Actual Packet Interval down to 5 ms in both directions, positioning it among the fastest performing Modbus TCP devices in the market. • 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 occur, or have cleared again • Two Ethernet ports with built-in switch • FTP (File Transfer Protocol) file up- and download • Protocol – automatic – IP address configuration 13 31 Typecode Position

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VLT® AQUA Drive Options Typecode Position B C VLT® General Purpose I/O MCB 101 The I/O option offers an extended number of control inputs and outputs. • 3 digital inputs 0-24 V: Logic ‘0’ < 5 V; Logic ‘1’ > 10V • 2 analogue inputs 0-10 V: Resolution 10 bit plus sign • 2 digital outputs NPN/PNP push pull • 1 analogue output 0/4-20 mA • Spring loaded connection • Separate parameter settings Ordering number 130B1125 uncoated – 130B1212 coated (Class 3C3/IEC 60721-3-3) 14-B VLT® Relay Option MCB 105 Lets you extend relay functions with 3 additional relay outputs. Max. terminal load: • AC-1 Resistive load . 240 V AC 2 A • AC-15 Inductive load @cos ф 0.4 .240 V AC 0.2 A • DC-1 Resistive load . 24 V DC 1 A • DC-13 Inductive load @cos ф 0.4 .24 V DC 0.1 A Min. terminal load: • DC 5 V . 10 mA • Max switch rate at rated load/min. load . 6 min-1/20 sec-1 Ordering number 130B1110 uncoated – 130B1210 coated (Class 3C3/IEC 60721-3-3) 14-B VLT® Analog I/O Option MCB 109 This analogue input/output option is easily fitted 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 clock built into the frequency converter. 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 The back-up battery typically lasts for 10 years, depending on environment. Ordering number 130B1143 uncoated – 130B1243 coated (Class 3C3/IEC 60721-3-3) 14-B VLT® Sensor Input Option MCB 114 14-B The option protects the motor from being overheated by monitoring the bearings and windings temperature in the motor. The limits as well as the action are adjustable and the individual sensor temperature is visible as a read out in the display or by field bus. • Protects the motor from overheating • Three self-detecting sensor inputs for 2 or 3 wire PT100/PT1000 sensors • One additional analogue input 4-20mA VLT® Extended Cascade Controller MCO 101 14-B Easily fitted and upgrades the built-in cascade controller to operate more pumps and more advanced pump control in master/follower mode. • Up to 6 pumps in standard cascade setup • Up to 6 pumps in master/follower setup • Technical specification: See MCB 105 Relay Option VLT® Advanced Cascade Controller MCO 102 Easily fitted and upgrades the built-in cascade controller to operate up to 8 pumps and more advanced pump control in master/follower mode. The same cascade controller hardware goes for for the entire power range up to 1.2 MW. • Up to 9 pumps in standard cascade setup • Up to 8 pumps in master/follower setup 16-C Installation of options is a matter of plug-and-play 32

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VLT® AQUA Drive Options D VLT® 24 V DC Supply Option MCB 107 The option is used to connect an external DC supply to keep the control section and any installed option active when mains power is down. • Input voltage range24 V DC +/- 15% (max. 37 V in 10 sec.) • Max. input current .2.2 A • Max. cable length .75 m • Input capitance load .< 10 uF • Power-up delay .< 0.6 s • Easy to install in drives in existing machines • Keeps the control board and options active during power cuts • Keeps fieldbuses active during power cuts Ordering number 130B1108 uncoated – 130B1208 coated (Class 3C3/IEC 60721-3-3) 18 LCP LCP 102 Graphical Local Control Panel • Multi-language display • Status messages • Quick Menu for easy commissioning • Parameter setting and explanation of parameter function • Adjustment of parameters • Full parameter backup and copy function • Alarm logging • Info button – explains the function of the selected item on display • Hand-operated start/stop, or automatic mode selection • Reset function • Trend graph Ordering number 130B1107 7 LCP 101 Numerical Local Control Panel The numerical control panel offers an excellent MMI interface to the drive. • Status messages • Quick menu for easy commissioning • Parameter setting and adjustment • Hand-operated start/stop function or automatic mode select • Reset function Ordering number 130B1124 7 LCP Panel Mounting Kit For easy installation of the LCP 101 and LCP 102 in e.g. a cabinet. • IP65 (front) • Thumb screws for tool-free installation • Incl. 3 meters of cables in industry quality (also available separately) • With or without LCP operating unit • Each time easy to install Ordering number 130B1117 (Mounting kit for all LCP’s including fasteners, 3 m cable and gasket) Ordering number 130B1113 (Incl. graphical LCP, fasteners, 3 m cable and gasket) Ordering number 130B1114 (Incl. numerical LCP, fasteners and gasket) Ordering number 130B1129 (LCP front mounting IP55/IP66) – Ordering number 175Z0929 (cable only) Ordering number 130B1170 (Panel Mouting Kit for all LCP w.o. cable) Installation of options is a matter of plug-and-play 33 Typecode Position Typecode Position

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VLT® AQUA Drive Accessories Profibus Adapter Sub-D9 Connector The adapter makes linking of fieldbus connections pluggable. For use with option A. • Option to use prefabricated Profibus cabling • For retrofit Ordering number 130B1112 for frame size A, B and C Ordering number 176F1742 for frame D and E Screw terminals Screw terminals as an alternative to the standard springloaded terminals. • Pluggable • Terminal name is described Ordering number 130B1116 IP 21/Type 12 (NEMA1) Kit The IP 21/Type 12 (NEMA1) kit is used for installation of VLT® drives in dry environments. The enclosure kits are available for frame sizes A1, A2, A3, B3, B4, C3 and C4 • Supports VLT® drives from 1.1 to 90 kW • Used on standard VLT® drives with or without mounted option modules • IP 41 on top side • PG 16 and PG 21 holes for glands 130B1122 for frame size A2, 130B1123 for frame size A3, 130B1187 for frame size B3, 130B1189 for frame size B4, 130B1191 for frame size C3, 130B1193 for frame size C4 Kit for panel through mount Mounting kit for external cooling of the heatsink for appliances with A5, B1, B2, C1 and C2 housing. • The air conditioned installation space can be reduced. • Additional cooling may be omitted • No contamination of electronics by forced ventilation • Facilitates integrated assembly • Reduced cabinet depth/less space VLT® Brake Resistors Energy generated during braking is absorbed by the resistors, protecting electrical components from heating up. Danfoss brake resistors cover the full power range. • Quick braking of heavy loads • Braking energy is only absorbed into the brake resistor • External mounting makes it possible to use the generated heat • All necessary approvals are available USB Extension USB extension for IP 55 and IP 66 enclosures. Makes the USB connector available outside the drive. The USB extension is designed for mounting in a cable gland in the bottom of the drive, which makes PC communication very easy even in drives with high IP rating. USB extension for A5-B1, D and E enclosures, 350 mm cable, ordering number 130B1155 USB extension for B2-C enclosures, 650 mm cable, ordering number130B1156 USB extension for F enclosures, ordering number176F1784 Please refer to the product and design manuals for selection and dimensioning 34

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VLT® AQUA Drive Accessories VLT® Harmonic Filter AHF 005/010 MCE Easy, effective harmonic distortion reduction by connecting the AHF 005/010 harmonic filter in front of a Danfoss frequency converter. • AHF 005 reduces total harmonic current distortion to 5% • AHF 010 reduces total harmonic current distortion to 10% • Small compact housing that can be fitted into a panel • Easy to use in retrofit applications • User-friendly start-up – no adjustment necessary • No routine maintenance required VLT® Sine-Wave Filters MCC 101 Sine-wave filters are placed between the frequency converter and the motor to optimise the motor power current. It provides a sinusoidal phase-to-phase motor voltage. The filters reduce motor insulation stress, acoustic noise from the motor, and bearing currents (especially in large motors). • Reduces motor insulation stress • Reduces acoustic noise from the motor • Reduces bearing currents (especially in large motors) • Enables use of longer motor cables • Reduces losses in the motor • Prolongs service lifetime • IP 20 or IP 21 VLT® dU/dt filter MCC 102 VLT® dU/dt filters are placed between the frequency converter and the motor to eliminate very fast voltage changes. The motor terminal phase-to-phase voltage is still pulse shaped but its dU/dt values are reduced. • These filters reduce stress on the motor’s insulation and are recommended in applications with older motors, aggressive environments or frequent braking which cause increased DC link voltage. • IP 20 or IP 21 SVCD – regenerative braking Transferring the generated power from a decelerating motor back into the power supply enables braking of virtually unlimited duration. • Energy efficient braking • Self-synchronisation • DC-DC coupling of multiple drives possible • High efficiency through IGBT technology • Simple operation • Overload protection in regenerative operation Note: Missing numbers can be found in the design manual or can be delivered on request 35

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What VLT® is all about Danfoss Drives is the world leader among dedicated drives providers – and still gaining market share. Dedicated to drives Dedication has been a key word since 1968, when Danfoss introduced the world’s first mass produced variable speed drive for AC motors – and named it VLT®. Twenty five hundred employees develop, manufacture, sell and service drives and soft starters in more than one hundred countries, focused only on drives and soft starters. Intelligent and innovative Developers at Danfoss Drives have fully adopted modular principles in development as well as design, production and configuration. Tomorrow’s features are developed in parallel using dedicated technology platforms. This allows the development of all elements to take place in parallel, at the same time reducing time to market and ensuring that customers always enjoy the benefits of the latest features. Rely on the experts We take responsibility for every element of our products. The fact that we develop and produce our own features, hardware, software, power modules, printed circuit boards, and accessories is your guarantee of reliable products. Local backup – globally VLT® motor controllers are operating in applications all over the world and Danfoss Drives’ experts located in more than 100 countries are ready to support our customers with application advice and service wherever they may be. Danfoss Drives experts don’t stop until the customer’s drive challenges are solved. Environmentally responsible VLT® products are manufactured with respect for the safety and well-being of people and the environment. All activities are planned and performed taking into account the individual employee, the work environment and the external environment. Production takes place with a minimum of noise, smoke or other pollution and environmentally safe disposal of the products is pre-prepared. UN Global Compact Danfoss has signed the UN Global Compact on social and environmental responsibility and our companies act responsibly towards local societies. EU Directives All factories are certified according to ISO 14001 standard. All products fulfil the EU Directives for General Product Safety and the Machinery directive. Danfoss Drives is, in all product series, implementing the EU Directive concerning Hazardous Substances in Electrical and Electrical Equipment (RoHS) and is designing all new product series according to the EU Directive on Waste Electrical and Electronic Equipment (WEEE). 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. DKDD.PB.14.C1.02 VLT® is a trademark of Danfoss A/S Produced by SMCC/AO 2009.07