Quick ramps. To protect the submersible pump bearings while starting the pumps, the pumps should be accelerated quickly up to speed, which creates some water.
23 hours ago — Quick ramps. To protect the submersible pump bearings while starting the pumps, the pumps should be accelerated quickly up to speed, which creates some water.
15 févr. 2022 — 60 Hz: default for ACQ580 sold in the US. Only if MTE (US) filters are in use: Navigate to group 97 Motor control. 97.02 Minimum switching frequency.
-- ABB DRIVES Selection and programming guide ACQ580 or ACS880 for Grundfos MS6000P © 2021 Grundfos · This guide explains in detail how to setup the ABB ACQ580 and ACS880 to support Grundfos MS6000P permanent magnet motor. -- Table of contents 0405Drive and motor selection 0611Programming ACQ580 1218Programming ACS880 2021Selection table Grundfos MS6000P series motor, ABB drive and sine wave filter for 380-415 V mains operation 2223Selection table Grundfos MS6000P series motor, ABB drive and sine wave filter for 440-480 V mains operation This document only applies to the combination of ABB ACQ580 or ACS880 with Grundfos MS6000P motor. The information in this document is based on tests made in autumn 2021 by ABB in cooperation with Grundfos. Tests were performed with ABB ACQ580 and ACS880 both combined with sine filter using a Grundfos MS6000P in combination with different pumps. The document cannot be used for any other products than expressly specified above, and the selection of drive and filter is based on a correct match of pump and motor. ABB cannot be held responsible or liable for incorrect sizing or selection. ABB cannot be held responsible or liable if changes are made to the motor or pump. We reserve the right to make technical changes or modify the contents of this document without any prior notice. With regard to purchase orders, the agreed particulars shall prevail. ABB does not accept any responsibility or liability whatsoever for potential errors or possible lack of information in this document. We reserve all rights in this document and in the subject matter and illustrations contained therein. Any reproduction, disclosure to third parties or utilization of its contents in whole or in parts is forbidden without prior written consent of ABB. Front cover picture show Grundfos MS6000P and is property of Grundfos 4 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P -- Drive and motor selection ACQ580 and ACS880 for Grundfos MS6000P Introduction The Grundfos MS6000P is a 6-inch permanent magnet borehole motor. The motor range is 4 different power sizes covering the range from 4 kW to 45 kW and from 5 hp to 50 hp. The 4 different motors will support a wide range of different pump combinations. Output filter The Grundfos MS6000P requires additional protection towards peak voltage (Upeak) and voltage change versus time (dU/dt). The ratings are: · dU/dt: 2000 V/us · Upeak: 850 V phase to phase 6-inch asynchronous borehole motors are commonly used in the water industry. The introduction of permanent magnet motors increases the motor efficiency to new levels, enabling energy savings, that cannot be reached with the asynchronous technology. The motor with internal magnets (IPM type) is designed for 3000 rpm (EU version) and 3600 rpm (US version). The motors are 4 pole motors running at 100 Hz (EU version) or 120 Hz (US version). The rating for dU/dt for the motor requires an output filter, and with the limitation on Upeak combined with the typical long cables used in the application, a sine wave filter is required. Submersible motors are NOT covered by the IEC60034 and will in most cases require a sine wave filter when used in combination with a drive. The typical application for these types of pumps are: Drinking water/fresh water and irrigation, but they are used in other applications as well. This document explains how to program and use ABB ACQ580 or ACS880 drives to control the submersible pumps using the Grundfos MS6000P motor. There is no information about application control in this document. System components: · Drive: ABB ACQ580-01 or ACS880-01 (Ultra-low harmonic (ULH) ACQ580-31 is an option as well) · Output filter: Sine wave filter · Motor: Grundfos MS6000P Drive selection The ABB ACQ580-01 or the ACS880-01 can be used for this application. The ACQ580-31 will have the additional benefit with the DC boost function in installations with low input voltage. Low harmonic distortion is the perfect match for pumps running on generators or on a weak grid. The drives are rated for 400 V supply (EU) or 460 V/480 V supply (US). The use of sine wave filter is mandatory to comply to the motor specifications of the Grundfos MS6000P. Motor There are 4 different motors in the power range, the same motor will be used for different loads (See: Motor specific data in tables 2 and 3). The motors will have a max speed of 100 Hz (EU) or 120 Hz (US). They can be used for several different pumps, creating a wide range of different pump performance curves. The motors will be selected to fit with the actual pump, and the maximum load of each specific pump type will be known and this will be used for the drive's selection. The motors will have specific requirements for minimum speed and ramp times, see programming parameters section for more information. The programming is easy, only standard parameters are needed without special tuning. The correct sizing method is to select a pump that fulfills the requirements in the application to head (H) and flow (Q), combine it with a motor based on the max mechanical power the pump will load the motor. With the pump and motor selected the drive and sine wave filter can be selected. The selection of drive and output filter is made simple, using this specific selection guide made for Grundfos MS6000P. SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P 5 Additional drive features · Quick ramps. To protect the submersible pump bearings while starting the pumps, the pumps should be accelerated quickly up to speed, which creates some water flow and lifts the bearing. Pumps should also be stopped quickly once below minimum speed to protect the bearings. ACQ580 drive has a specific feature for this purpose called Quick ramps and similar feature can be programmed to ACS880 as well. · Filter temperature monitoring. Some filter types have temperature switches included. These temperature switches are used to prevent the filters from overheating. Such switches can be wired to drives to make warning or fault to protect the filters. · IR compensation. To have high enough breakaway torque while starting the pump, some IR compensation might be required. The higher the value, the higher voltage and torque is available for the motor at low speeds. · Voltage reserve. Increasing the value improves motor's capability in highly dynamic situations and positive values prevent the drive to use so called overmodulation switching pattern. Overmodulation would create some extra harmonics to drive's output, which are unwanted in case sine filters are used. General parameters The parameters in table 1 apply independent of the power size of the motor. Parameters marked with *) will be needed for programming the drive. -- Table 1: General parameters Parameter Nominal motor voltage *) Nominal motor frequency *) Nominal motor speed *) Motor minimum speed Motor minimum frequency *) Motor Maximum speed Motor maximum frequency *) Initial ramp time up to minimum speed *) Operational ramp time from min to max speed *) Operational ramp time from max to min speed *) Final ramp time from min speed to zero speed *) Unit V Hz rpm rpm Hz rpm Hz Sec EU version 350 100 3000 1650 55 3000 100 3 Sec 10 US version 410 120 3600 1650 55 3600 120 3 10 Sec 10 10 Sec 3 3 Note: Operational ramp times can be set according to the application. It is common to need more parameters such as: d- and q-axis inductance and back EMF@1000 rpm when setting up a drive for a permanent magnet motor. These values however are NOT needed for setting up the ABB ACQ580 or ACS880 to support the Grundfos MS6000P motor. Motor specific parameters The motor specific parameters are Motor power and Nominal current. They can be found from the tables 2 and 3. The nominal current given in tables includes the following service factors (S.F.): Table 2. Service factor = 1 for nominal motor voltage 350 V, nominal motor frequency 100 Hz and mains voltage 380-415 V. Table 3. Service factor = 1.15 for nominal motor voltage 410 V, nominal motor frequency 120 Hz and mains voltage 440-480 V. Use the service factor current for the Grundfos MS6000P when programming the ABB drive Nominal current parameter. This ensures that the drive will supply the needed current for the load. -- Table 2: Motor data for EU versions: nominal motor frequency 100 Hz, nominal motor voltage 350 V, mains voltage 380-415 V Motor (Grundfos prod. no) 76207712 76207717 76207720 76207722 Motor nominal power [kW] 4.0 5.5 7.5 9.2 11 13 15 18.5 22 26 30 37 45 Nominal current EU (Motor S.F. current) [A] 9.6 12.6 16.6 21.4 25 29.2 33.4 40.6 46.2 54 61.8 85.6 103 -- Table 3: Motor data for US versions: nominal motor frequency 120 Hz, nominal motor voltage 410 V, mains voltage 440-480 V Motor (Grundfos prod. no) 76374612 76374617 76374620 76374621 Motor nominal power [hp] 5 7.5 10 12 15 17 20 25 30 35 40 50 Nominal current US (Motor S.F. current) [A] 8.8 12.4 16.2 20.6 24.2 28.2 32.2 39.0 44.8 52.4 60.0 82.6 6 -- ACQ580-01 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P 7 -- Programming parameters to ACQ580 Drive programming is done using several parameters. Some of the parameters are edited via direct access to parameters, but many values can be edited through easy to use Primary settings menu. -- Hardware Configuration From the main menu go to: Parameters Select: Complete list Navigate to parameter group 95 HW configuration 95.15 Special HW setting If using ABB recommended TDK sine filter (EU, max speed 100 Hz): Select ABB sine filter, bit1: Bit 01: 0 ABB Sine filter = No Bit 01: 1 ABB Sine filter = Yes Remember to save the selection -- Switching frequency 95.20 Select HW option word 1 to setup the mains supply frequency Bit0: 50 Hz: default for ACQ580 sold in EU 60 Hz: default for ACQ580 sold in the US Only if MTE (US) filters are in use: Navigate to group 97 Motor control 97.02 Minimum switching frequency If using ABB recommended MTE sine filter (US, max speed 120 Hz): Set minimum switching frequency to 2 kHz. 8 -- Motor data SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P Navigate to parameter group 99 Motor data 99.03 Set Motor type to: [1] Permanent magnet motor 99.04 Set Motor control mode to: Scalar Set 99.06 Motor nominal current = Motor S.F. current. See motor nameplate or motor data from page 5, table 2 or table 3. 99.07 Set Motor nominal voltage See the motor data from table 1: General parameter for EU version or US version. There will be a voltage drop over the sine filter. The following default values can be used: EU version: 375 V US version: 440 V Optional: The maximum voltage drop over the filter can be calculated as: U = *L*I = 2**f*L*I f is frequency 100 Hz for EU version, 120 Hz for US version L is the inductance of the sine wave filter I is the S.F. current Inductance and capacitance values can be found in filter documentation or filter nameplate. 99.08 Set Motor nominal frequency Options: · 100 Hz (EU version) · 120 Hz (US version) SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P 9 99.09 Set Motor nominal speed Options: · 3000 rpm (EU version) · 3600 rpm (US version) -- Limits 99.10 Set Motor nominal power according to Motor Specific Data 99.16 Set Motor phase order to: U V W Make sure to check direction of the pump rotation Typically, the pump will produce less pressure if the motor is turning in the wrong direction. If direction of the rotation is wrong, it can be changed by changing the value of this parameter. Navigate to parameter group: 30 Limits -- Tuning parameters 30.13 Set Minimum frequency to: 55 Hz 30.14 Set maximum frequency to: · 100 Hz (EU version) · 120 Hz (US version) Navigate to parameter group 97 Motor control 97.04 Voltage reserve Parameter is used to select how much overmodulation can be used. The default is -2% (little bit of overmodulation is used). With sine filters overmodulation is not preferred. Select 0 to 3% (no overmodulation allowed). Recommended value: 1%. 97.13 IR compensation IR compensation helps with the start. Increase by one percent unit if the motor doesn't start and try again. Recommended value 3.5% can be increased up to 10%. 10 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P -- Quick ramps Exit the parameter setting and go to main menu Navigate to Primary settings Select Ramps Set stop mode to ramp Select Quick ramps to go to the settings for the quick ramp Activate 1st quick ramp acceleration by adding a check mark Set Limit to: 55 Hz Set Time to: 3 sec Info: 2nd quick ramp acceleration is not used 3rd operating ramp acceleration max limit · 100 Hz (EU version) · 120 Hz (US version) Set 3rd operational ramp acceleration time to: 10 sec More information on quick ramps see ABB SmartGuides: https://drives-abb.swipeguide.com/ guide/acq580-user-guide/pumpfeatures/quick-ramps Set 1st operational ramp deceleration time to: 10 sec Activate Final quick ramp deceleration by adding a check mark Set Limit to: 55 Hz Set Time to: 3 sec Info: 2nd quick ramp deceleration is not used SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P 11 -- External filter temperature monitoring Some biggest filter types have temperature switches installed, which can be connected to the drive to give warning or trip the drive in case of filter overheating. Navigate to Menu > Primary settings > Advanced functions Navigate to External events Choose any of the External events, e.g. External event 1 Select Enable Select digital input where the temperature switch is connected to, e.g. DI6 Note! Digital input HIGH (+24V DC) = normal temp Digital input LOW = excessive temp Choose action: Fault or Warning (Fault is the default) Edit the label Label can be edited with control panel or Drive Composer Pro PC tool. Lower case and capital letters can be used in addition to numbers and symbols. Instruction line 1 and 2 can be edited as well. The resulting message can be checked with Preview. 12 -- ACS880 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P 13 -- Programming parameters to ACS880 The programming is done using several parameter groups. It is recommended to modify parameters directly in different parameter groups. -- Hardware Configuration From the main menu go to: Parameters Select: Complete list Navigate to parameter group 95 HW configuration 95.01 Supply voltage Select: 380-415 V (EU version) 440-480 V (US version) Remember to Save the selection. 95.15 Special HW settings If using ABB recommended TDK sine filter (EU, max speed 100 Hz): Select ABB sine filter, bit1: Bit 01: 0 ABB Sine filter = No Bit 01: 1 ABB Sine filter = Yes -- Switching frequency If using ABB recommended MTE sine filter (US, max speed 120 Hz): Select Custom sine filter, bit 3: Bit 03: 0 Custom sine filter = No Bit 03: 1 Custom sine filter = Yes Remember to Save the selection. 95.20 Select HW option word 1 to setup the mains supply frequency 0 = Supply frequency 50 Hz 1 = Supply frequency 60 Hz Remember to Save the selection. Only if MTE (US) filters are in use: Navigate to group 97 Motor control 97.02 Minimum switching frequency If using ABB recommended MTE sine filter (US, max speed 120 Hz): Set minimum switching frequency to 2 kHz. 14 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P -- Motor data Navigate to parameter group 99 Motor data 99.03 Motor type Set Motor type to: [1] Permanent magnet motor 99.04 Motor control mode Set Motor control mode to: Scalar 99.06 Motor nominal current Set motor nominal current. See page 5 for Motor specific data: for EU version table 2 or US version table 3 99.07 Set Motor nominal voltage · 350 V (EU version) · 410 V (US version) 99.08 Set Motor nominal frequency · 100 Hz (EU version) · 120 Hz (US version) 99.09 Set Motor nominal speed · 3000 rpm (EU version) · 3600 rpm (US version) 99.10 Set Motor nominal power See motor specific data for information 99.16 Set Motor phase order (direction of rotation) Make sure to check the direction of rotation. Typically, the pump will not deliver expected pressure/flow if the motor is turning in the wrong direction. If direction of the rotation is wrong, it can be changed by changing the value of this parameter. SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P 15 -- Custom filter 99.18 Sine filter inductance (See sine filter nameplate or datasheet) -- Limits 99.19 Sine filter capacitance (See sine filter nameplate or datasheet) Navigate to parameter group 30 Limits -- Start/Stop mode 30.11 Minimum speed Set Minimum speed to 1650 rpm (The minimum speed for the pump is 55 Hz, which corresponds to 1650 rpm when running 4-pole motor) 30.12 Maximum speed Set maximum speed 100 rpm higher than the synchronous speed: · 3100 rpm (EU version) · 3700 rpm (US version) Navigate to parameter group 21 Start/stop mode 21.03 Stop mode Set stop mode to: Ramp (ACS880 default setting is coast to stop) 16 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P -- Speed reference ramp. Configuring the acceleration and deceleration ramps Navigate to parameter group 23 Speed reference ramp 23.11 Ramp set selection Select Other and select parameter P32.01.00 (Supervision status, bit 0) as input This will set Supervision 1 as the source for Ramp set 1/Ramp set 2 change trigger. Supervision will be programmed in parameter group 32. See instructions on page 17 The aim is to accelerate pump from 0 Hz to 55 Hz in 3 sec (acceleration time 1) and from 55 Hz to 100/120 Hz (3000/3600 rpm) in 10 sec (acceleration time 2). Acceleration time 2 can be set according to the application. Target maximum speed is defined in par 46.01 Speed scaling. As the ramp acceleration rates are defined as time from zero to full speed, some calculation is needed to be able to enter correct parameter values. Formula: Ramp time = Actual time from speed A to speed B * Full speed/Speed change A to B Example: 1st ramp for EU (100 Hz max): 0 Hz to 55 Hz in 3 sec Ramp time = 3 sec * 100 Hz/ 55 Hz = 5.454545 sec 2nd ramp for EU: 55 Hz to 100 Hz in 10 sec Ramp time = 10 sec * 100 Hz/ (100-55) Hz = 22.2222 sec 23.12 Acceleration time 1 Ramp time used from 0 Hz to 55 Hz Use 5.450 sec acceleration time 1 (EU version) Use 6.540 sec acceleration time 1 (US version) 23.13 Deceleration time 1 Ramp time used from 55 Hz to 0 Hz Use 5.450 sec for deceleration time (EU version) Use 6.540 sec for deceleration time (US version) SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P 17 23.14 Acceleration time 2 Ramp time used from 55 Hz to 100/120 Hz Use 22.220 sec for the acceleration time 2 (EU version) Use 18.460 sec for the acceleration time 2 (US version) -- Monitoring/scaling settings 23.15 Deceleration time 2 Ramp time used from 100/120 Hz to 55 Hz Use 22.220 sec for the acceleration time 2 (EU version) Use 18.460 sec for the acceleration time 2 (US version) All parameter group 23 settings done -- Supervision Navigate to parameter group 46 Monitoring/scaling settings 46.01 Speed scaling Select 3000 rpm (EU version) Select 3600 rpm (US version) Navigate to parameter group 32 Supervision This is a part of setting up "Quick ramps" in ACS880 32.05 Supervision 1 function Select: Abs. high 32.07 Supervision 1 signal Select: Speed ref used (Monitored signal = Speed ref used) 32.10 Supervision 1 high Select: 1650 Ramp 1 will be used below 1650 rpm Ramp 2 will be used above 1650 rpm This sets the change between ramps. 18 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P -- Tuning parameters 45.11 Energy optimizer Select: Enable 97.04 Voltage reserve Parameter is used to select how much overmodulation can be used. The default is -2% (little bit of overmodulation is used). With sine filters overmodulation is not preferred. Select 0 to 3% (no overmodulation allowed). Recommended value: 1%. 97.13 IR compensation IR compensation helps with the start. Increase by one percent unit if the motor doesn't start and try again. Recommended value 3.5% can be increased up to 10%. -- External filter temperature monitoring Some biggest filter types have temperature switches installed, which can be connected to the drive to give warning or trip the drive in case of filter overheating. 31.01 External event source Select digital input where the temperature switch is connected to, e.g. DI6 Note! Digital input HIGH (+24V DC) = normal temperature Digital input LOW = excessive temperature 31.02 External event type Action in case External event source DI goes LOW. Default action is to Fault the drive. 20 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P -- Grundfos MS6000P series motor, ABB drive and TDK sine filter packages EU, 50 Hz, 400 Vac Part number 76207712 76207717 76207720 76207722 Grundfos MS6000P Motor power Motor S.F. current (kW) (A) 4 9.6 5.5 12.6 7.5 16.6 9.2 21.4 11 25 13 29.2 15 33.4 18.5 40.6 22 46.2 26 54 30 61.8 37 85.6 45 103 Drive type, IP21 ACQ580-01-12A7-4 ACQ580-01-018A-4 ACQ580-01-026A-4 ACQ580-01-026A-4 ACQ580-01-033A-4 ACQ580-01-033A-4 ACQ580-01-039A-4 ACQ580-01-046A-4 ACQ580-01-062A-4 ACQ580-01-062A-4 ACQ580-01-073A-4 ACQ580-01-106A-4 ACQ580-01-145A-4 ABB drive for water, ACQ580 Drive type, IP55 Nominal power (kW) ACQ580-01-12A7-4+B056 5.5 ACQ580-01-018A-4+B056 7.5 ACQ580-01-026A-4+B056 11 ACQ580-01-026A-4+B056 11 ACQ580-01-033A-4+B056 15 ACQ580-01-033A-4+B056 15 ACQ580-01-039A-4+B056 18.5 ACQ580-01-046A-4+B056 22 ACQ580-01-062A-4+B056 30 ACQ580-01-062A-4+B056 30 ACQ580-01-073A-4+B056 37 ACQ580-01-106A-4+B056 55 ACQ580-01-145A-4+B056 75 Current w / sine filter (A) 12.1 16 24 24 31 31 37 43 58 58 64 91 126 Part number 76207712 76207717 76207720 76207722 Grundfos MS6000P Motor power Motor S.F. current (kW) (A) 4 9.6 5.5 12.6 7.5 16.6 9.2 21.4 11 25 13 29.2 15 33.4 18.5 40.6 22 46.2 26 54 30 61.8 37 85.6 45 103 Drive type, IP21 ACQ580-31-12A7-4 ACQ580-31-018A-4 ACQ580-31-026A-4 ACQ580-31-026A-4 ACQ580-31-033A-4 ACQ580-31-033A-4 ACQ580-31-039A-4 ACQ580-31-046A-4 ACQ580-31-062A-4 ACQ580-31-062A-4 ACQ580-31-073A-4 ACQ580-31-106A-4 ACQ580-31-145A-4 ABB ultra-low harmonic drive for water, ACQ580-31 Drive type, IP55 Nominal power Current w / sine filter (kW) (A) ACQ580-31-12A7-4+B056 5.5 12.1 ACQ580-31-018A-4+B056 7.5 16 ACQ580-31-026A-4+B056 11 24 ACQ580-31-026A-4+B056 11 24 ACQ580-31-033A-4+B056 15 31 ACQ580-31-033A-4+B056 15 31 ACQ580-31-039A-4+B056 18.5 37 ACQ580-31-046A-4+B056 22 43 ACQ580-31-062A-4+B056 30 58 ACQ580-31-062A-4+B056 30 58 Available mid-2022 37 64 ACQ580-31-106A-4+B056 55 91 ACQ580-31-145A-4+B056 75 126 Part number 76207712 76207717 76207720 76207722 Grundfos MS6000P Motor power Motor S.F. current (kW) (A) 4 9.6 5.5 12.6 7.5 16.6 9.2 21.4 11 25 13 29.2 15 33.4 18.5 40.6 22 46.2 26 54 30 61.8 37 85.6 45 103 Drive type, IP21 ACS880-01-12A6-3 ACS880-01-017A-3 ACS880-01-025A-3 ACS880-01-025A-3 ACS880-01-032A-3 ACS880-01-032A-3 ACS880-01-038A-3 ACS880-01-045A-3 ACS880-01-061A-3 ACS880-01-061A-3 ACS880-01-072A-3 ACS880-01-105A-3 ACS880-01-145A-3 ABB industrial drive, ACS880 Drive type, IP55 Nominal power (kW) ACS880-01-12A6-3+B056 5.5 ACS880-01-017A-3+B056 7.5 ACS880-01-025A-3+B056 11 ACS880-01-025A-3+B056 11 ACS880-01-032A-3+B056 15 ACS880-01-032A-3+B056 15 ACS880-01-038A-3+B056 18.5 ACS880-01-045A-3+B056 22 ACS880-01-061A-3+B056 30 ACS880-01-061A-3+B056 30 ACS880-01-072A-3+B056 37 ACS880-01-105A-3+B056 55 ACS880-01-145A-3+B056 75 Current w / sine filter (A) 12.1 16 24 24 31 31 37 43 58 58 64 91 126 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P 21 Type IP00 B84143V0012R231 B84143V0016R229 B84143V0038R231 B84143V0038R231 B84143V0038R231 B84143V0038R231 B84143V0038R231 B84143V0043R231 B84143V0064R231 B84143V0064R231 B84143V0064R231 B84143V0091R231 B84143V0145R231 Filter max current (A) 12 16 38 38 38 38 38 43 64 64 64 91 145 Type IP00 B84143V0012R231 B84143V0016R229 B84143V0038R231 B84143V0038R231 B84143V0038R231 B84143V0038R231 B84143V0038R231 B84143V0043R231 B84143V0064R231 B84143V0064R231 B84143V0064R231 B84143V0091R231 B84143V0145R231 Filter max current (A) 12 16 38 38 38 38 38 43 64 64 64 91 145 Type IP00 B84143V0011R229 B84143V0016R229 B84143V0025R229 B84143V0025R229 B84143V0025R229 B84143V0033R229 B84143V0050R229 B84143V0050R229 B84143V0050R229 B84143V0066R229 B84143V0066R229 B84143V0095R229 B84143V0130S230 Filter max current (A) 11 16 25 25 25 33 50 50 50 66 66 95 130 TDK sine filter Type IP21 B84143V0011R229 + B84143Q0004R229 B84143V0016R229 + B84143Q0006R229 B84143V0025R229 + B84143Q0008R229 B84143V0025R229 + B84143Q0008R229 B84143V0025R229 + B84143Q0008R229 B84143V0033R229 + B84143Q0008R229 B84143V0050R229 + B84143Q0010R229 B84143V0050R229 + B84143Q0010R229 B84143V0050R229 + B84143Q0010R229 B84143V0066R229 + B84143Q0010R229 B84143V0066R229 + B84143Q0010R229 B84143V0095R229 + B84143Q0012R229 B84143V0162S229 + B84143Q0014R229 TDK sine filter Type IP21 B84143V0011R229 + B84143Q0004R229 B84143V0016R229 + B84143Q0006R229 B84143V0025R229 + B84143Q0008R229 B84143V0025R229 + B84143Q0008R229 B84143V0025R229 + B84143Q0008R229 B84143V0033R229 + B84143Q0008R229 B84143V0050R229 + B84143Q0010R229 B84143V0050R229 + B84143Q0010R229 B84143V0050R229 + B84143Q0010R229 B84143V0066R229 + B84143Q0010R229 B84143V0066R229 + B84143Q0010R229 B84143V0095R229 + B84143Q0012R229 B84143V0162S229 + B84143Q0014R229 TDK sine filter Type IP21 B84143V0011R229 + B84143Q0004R229 B84143V0016R229 + B84143Q0006R229 B84143V0025R229 + B84143Q0008R229 B84143V0025R229 + B84143Q0008R229 B84143V0025R229 + B84143Q0008R229 B84143V0033R229 + B84143Q0008R229 B84143V0050R229 + B84143Q0010R229 B84143V0050R229 + B84143Q0010R229 B84143V0050R229 + B84143Q0010R229 B84143V0066R229 + B84143Q0010R229 B84143V0066R229 + B84143Q0010R229 B84143V0095R229 + B84143Q0012R229 B84143V0130S230 + B84143Q0020R229 Filter max current @100 Hz (A) 11 16 25 25 25 33 50 50 50 66 66 95 162 Filter max current @100 Hz (A) 11 16 25 25 25 33 50 50 50 66 66 95 162 Filter max current @100 Hz (A) 11 16 25 25 25 33 50 50 50 66 66 95 130 22 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P -- Grundfos MS6000P series motor, ABB drive and MTE sine filter packages US, 60 Hz, 440-480 Vac Part number 76374612 76374617 76374620 76374621 Grundfos MS6000P Motor power Motor S.F. current (kW) 4 5.5 7.5 9.2 11 13 15 18.5 22 26 30 37 (hp) 5 7.5 10 12 15 17 20 25 30 35 40 50 (A) 8.8 12.4 16.2 20.6 24.2 28.2 32.2 39 44.8 52.4 60 82.6 Drive type (US) UL/Nema Type 1 ACQ580-01-012A-4 ACQ580-01-014A-4 ACQ580-01-023A-4 ACQ580-01-023A-4 ACQ580-01-027A-4 ACQ580-01-034A-4 ACQ580-01-034A-4 ACQ580-01-044A-4 ACQ580-01-052A-4 ACQ580-01-065A-4 ACQ580-01-065A-4 ACQ580-01-096A-4 ABB drive for water, ACQ580 Drive type (US) UL/Nema Type 12 Nominal power (kW) ACQ580-01-012A-4+B056 7.5 ACQ580-01-014A-4+B056 10 ACQ580-01-023A-4+B056 15 ACQ580-01-023A-4+B056 15 ACQ580-01-027A-4+B056 20 ACQ580-01-034A-4+B056 25 ACQ580-01-034A-4+B056 25 ACQ580-01-044A-4+B056 30 ACQ580-01-052A-4+B056 40 ACQ580-01-065A-4+B056 50 ACQ580-01-065A-4+B056 50 ACQ580-01-096A-4+B056 75 Current @2 kHz swf (A) 12 14 23 23 27 34 34 44 52 65 65 96 Part number 76374612 76374617 76374620 76374621 Grundfos MS6000P Motor power Motor S.F. current (kW) 4 5.5 7.5 9.2 11 13 15 18.5 22 26 30 37 (hp) 5 7.5 10 12 15 17 20 25 30 35 40 50 (A) 8.8 12.4 16.2 20.6 24.2 28.2 32.2 39 44.8 52.4 60 82.6 ABB ultra-low harmonic drive for water, ACQ580-31 Drive type (US) UL/Nema Type 1 Drive type (US) UL/Nema Type 12 Nominal power Current @2 kHz swf (kW) (A) ACQ580-31-012A-4 ACQ580-31-012A-4+B056 7.5 12 ACQ580-31-014A-4 ACQ580-31-014A-4+B056 10 14 ACQ580-31-023A-4 ACQ580-31-023A-4+B056 15 23 ACQ580-31-023A-4 ACQ580-31-023A-4+B056 15 23 ACQ580-31-027A-4 ACQ580-31-027A-4+B056 20 27 ACQ580-31-034A-4 ACQ580-31-034A-4+B056 25 34 ACQ580-31-034A-4 ACQ580-31-034A-4+B056 25 34 ACQ580-31-044A-4 ACQ580-31-044A-4+B056 30 44 ACQ580-31-052A-4 ACQ580-31-052A-4+B056 40 52 ACQ580-31-065A-4 Available mid-2022 50 65 ACQ580-31-065A-4 Available mid-2022 50 65 ACQ580-31-096A-4 ACQ580-31-096A-4+B056 75 96 Part number 76374612 76374617 76374620 76374621 Grundfos MS6000P Motor power Motor S.F. current (kW) 4 5.5 7.5 9.2 11 13 15 18.5 22 26 30 37 (hp) 5 7.5 10 12 15 17 20 25 30 35 40 50 (A) 8.8 12.4 16.2 20.6 24.2 28.2 32.2 39 44.8 52.4 60 82.6 Drive type (US) UL/Nema Type 1 ACS880-01-11A0-5 ACS880-01-014A-5 ACS880-01-021A-5 ACS880-01-021A-5 ACS880-01-027A-5 ACS880-01-034A-5 ACS880-01-034A-5 ACS880-01-040A-5 ACS880-01-052A-5 ACS880-01-065A-5 ACS880-01-065A-5 ACS880-01-096A-5 ABB industrial drive, ACS880 Drive type (US) UL/Nema Type 12 Nominal power (kW) ACS880-01-11A0-5+B056 7.5 ACS880-01-014A-5+B056 10 ACS880-01-021A-5+B056 15 ACS880-01-021A-5+B056 15 ACS880-01-027A-5+B056 20 ACS880-01-034A-5+B056 25 ACS880-01-034A-5+B056 25 ACS880-01-040A-5+B056 30 ACS880-01-052A-5+B056 40 ACS880-01-065A-5+B056 50 ACS880-01-065A-5+B056 50 ACS880-01-096A-5+B056 75 Current @2 kHz swf (A) 11 14 21 21 27 34 34 40 52 65 65 86 SELECTION AND PROGRAMMING GUIDE ACQ580 OR ACS880 FOR GRUNDFOS MS6000P 23 Open type "Modular" SWGM0012D SWGM0017D SWGM0022D SWGM0022D SWGM0027D SWGM0035D SWGM0035D SWGM0045D SWGM0055D SWGM0065D SWGM0065D SWGM0110D Open type "Modular" SWGM0012D SWGM0017D SWGM0022D SWGM0022D SWGM0027D SWGM0035D SWGM0035D SWGM0045D SWGM0055D SWGM0065D SWGM0065D SWGM0110D Open type "Modular" SWGM0012D SWGM0017D SWGM0022D SWGM0022D SWGM0027D SWGM0035D SWGM0035D SWGM0045D SWGM0055D SWGM0065D SWGM0065D SWGM0110D MTE sine filter Type 1/2 "General" SWGG0012D SWGG0017D SWGG0022D SWGG0022D SWGG0027D SWGG0035D SWGG0035D SWGG0045D SWGG0055D SWGG0065D SWGG0065D SWGG0110D MTE sine filter Type 1/2 "General" SWGG0012D SWGG0017D SWGG0022D SWGG0022D SWGG0027D SWGG0035D SWGG0035D SWGG0045D SWGG0055D SWGG0065D SWGG0065D SWGG0110D MTE sine filter Type 1/2 "General" SWGG0012D SWGG0017D SWGG0022D SWGG0022D SWGG0027D SWGG0035D SWGG0035D SWGG0045D SWGG0055D SWGG0065D SWGG0065D SWGG0110D Type 3R "Weather" SWGW0012D SWGW0017D SWGW0022D SWGW0022D SWGW0027D SWGW0035D SWGW0035D SWGW0045D SWGW0055D SWGW0065D SWGW0065D SWGW0110D Filter max current @120 Hz (A) 11.2 15.8 20.6 20.6 25.1 32.6 32.6 41.9 51.2 60.5 60.5 102.3 Type 3R "Weather" SWGW0012D SWGW0017D SWGW0022D SWGW0022D SWGW0027D SWGW0035D SWGW0035D SWGW0045D SWGW0055D SWGW0065D SWGW0065D SWGW0110D Filter max current @120 Hz (A) 11.2 15.8 20.6 20.6 25.1 32.6 32.6 41.9 51.2 60.5 60.5 102.3 Type 3R "Weather" SWGW0012D SWGW0017D SWGW0022D SWGW0022D SWGW0027D SWGW0035D SWGW0035D SWGW0045D SWGW0055D SWGW0065D SWGW0065D SWGW0110D Filter max current @120 Hz (A) 11.2 15.8 20.6 20.6 25.1 32.6 32.6 41.9 51.2 60.5 60.5 102.3 -- For more information, please contact your local ABB representative or visit new.abb.com/drives/low-voltage-ac/industry-specific-drives/ACQ580 new.abb.com/drives/ACS880-01 new.abb.com/drives © Copyright 2022 ABB. 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