PowerXL DG1 Series VFD Application Manual Effective March 2014 New Information
PowerXL DG1 Series Adjustable Frequency Drives Disclaimer of Warranties and Limitation of Liability The information, recommendations, descriptions, and safety notations in this document are based on Eaton’s experience and judgment and may not cover all contingencies. If further information is required, an Eaton sales office should be consulted.
PowerXL DG1 Series Adjustable Frequency Drives Support Services Support Services The goal of Eaton is to ensure your greatest possible satisfaction with the operation of our products. We are dedicated to providing fast, friendly, and accurate assistance. That is why we offer you so many ways to get the support you need. Whether it is by phone, fax, or email, you can access Eaton’s support information 24 hours a day, seven days a week. Our wide range of services is listed below.
PowerXL DG1 Series Adjustable Frequency Drives Table of Contents SAFETY Before Commencing the Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Definitions and Symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Hazardous High Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Warnings and Cautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PowerXL DG1 Series Adjustable Frequency Drives List of Figures Figure 1. RTC Battery Connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 2. Rating Label . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 3. Catalog Numbering System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 4. Keypad and Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PowerXL DG1 Series Adjustable Frequency Drives List of Figures Figure 48. Analog Output Filtering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 49. Analog Output Scaling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 50. Analog Output Invert . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 51. Supervision Function . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PowerXL DG1 Series Adjustable Frequency Drives List of Tables Table 1. Common Abbreviations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 2. Type 1/IP21 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 3. Type 12/IP54 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 4. Type 1/IP21 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PowerXL DG1 Series Adjustable Frequency Drives List of Tables, continued Table 50. Second Motor Parameter—P16 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 51. Bypass—P17 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 52. Multi-Pump Control—P18 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 53. Real Time Clock—P19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PowerXL DG1 Series Adjustable Frequency Drives List of Tables, continued Table 99. Drive Control—P7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 100. Motor Control—P8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 101. Protections—P9 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Table 102. PID Controller 1—P10 . . . . . . . . . . . . . . . . . . . . . . . . . .
PowerXL DG1 Series Adjustable Frequency Drives Safety Warning! Dangerous Electrical Voltage! ● Measures should be taken to ensure the proper restart of programs interrupted after a voltage dip or failure. This should not cause dangerous operating states even for a short time.
PowerXL DG1 Series Adjustable Frequency Drives Definitions and Symbols Warnings and Cautions WARNING This symbol indicates high voltage. It calls your attention to items or operations that could be dangerous to you and other persons operating this equipment. Read the message and follow the instructions carefully. This symbol is the “Safety Alert Symbol”. It occurs with either of two signal words: CAUTION or WARNING, as described below.
PowerXL DG1 Series Adjustable Frequency Drives Important Safety Information Important Warnings WARNING Hazardous High Voltage WARNING The components of the power unit of PowerXL DG1 are live when the AC drive is connected to mains potential. Coming into contact with this voltage is extremely dangerous and may cause death or severe injury. WARNING The motor terminals U, V, W and the brake resistor terminals are live when PowerXL DG1 is connected to mains, even if the motor is not running.
PowerXL DG1 Series Adjustable Frequency Drives Additional Cautions CAUTION The PowerXL DG1 AC drive must always be grounded with an grounding conductor connected to the grounding terminal marked with. The ground leakage current of PowerXL DG1 exceeds 3.5 mA AC. According to EN61800-5-1, one or more of the following conditions for the associated protective circuit shall be satisfied: a) The protective conductor shall have a cross-sectional area of at least 10 mm2 Cu or 16 mm2 Al, through its total run.
Chapter 1—PowerXL DG1 Series Overview Chapter 1—PowerXL DG1 Series Overview This chapter describes the purpose and contents of this manual, the receiving inspection recommendations and the DG1 Series Open Drive catalog numbering system. Real Time Clock Battery Activation How to Use this Manual Simply remove the primary drive cover, locate the RTC battery directly below the keypad, and connect the white 2-wire connector to the receptacle on the control board.
Chapter 1—PowerXL DG1 Series Overview Rating Label Figure 2. Rating Label Contains SN, PN, Type, Date Contains EAN Code Contains NAED Code Date Code: 20131118 Carton Labels (U.S. and Europe) Same as rating label shown above. 2 PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 1—PowerXL DG1 Series Overview Catalog Number System Figure 3.
Chapter 1—PowerXL DG1 Series Overview Power Ratings and Product Selection DG1 Series Drives—208–240 Volt Table 2. Type 1/IP21 Frame Size 230V, 50 Hz kW Rating (CT/IH) 230V, 50 Hz kW Rating (VT/IL) FR1 0.55 0.75 230V, 60 Hz hp (CT/IH) 0.75 230V, 60 Hz hp (VT/IL) 1 Current A (CT/IH) 3.7 Current A (VT/IL) 4.8 DG1-323D7FB-C21C 0.75 1.1 1 1.5 1.1 1.5 1.5 2 4.8 6.6 DG1-324D8FB-C21C 6.6 7.8 1.5 2.2 2 3 7.8 DG1-326D6FB-C21C 11 DG1-327D8FB-C21C Catalog Number 2.2 3 3 — 11 12.
Chapter 1—PowerXL DG1 Series Overview DG1 Series Drives—380–500 Volt Table 4. Type 1/IP21 Frame Size FR1 FR2 FR3 FR4 FR5 FR6 1 400V, 50 Hz kW Rating (CT/IH) 400V, 50 Hz kW Rating (VT/IL) 0.75 1.1 1.5 2.2 3 4 5.5 7.5 11 15 18.5 22 30 37 45 55 75 90 110 132 1.1 1.5 2.2 3 4 5.5 7.5 11 15 18.5 22 30 37 45 55 75 90 110 132 160 460V, 60 Hz hp (CT/IH) 1 1.5 2 3 5 — 7.5 10 15 20 25 30 40 50 60 75 100 125 150 200 460V, 60 Hz hp (VT/IL) 1.5 2 3 5 — 7.
Chapter 2—Keypad Overview Chapter 2—Keypad Overview The keypad is the interface between the drive and the user. It features an LCD display, 3 LED lights and 11 buttons. With the control keypad, it is possible to control the speed of a motor, to supervise the state of the equipment and to set the frequency converter’s parameters. See Figure 4. Figure 4.
Chapter 2—Keypad Overview Keypad Buttons Buttons Description Table 6. Keypad Buttons Icon Button Description Soft Key 1, Soft Key 2 Soft Key 1, Soft Key 2: The functions of these two buttons shall be the following: Forward/Reverse, this shall change motor’s run direction. Reset, this shall ask MCU to reset after some parameters are modified. • Menu, this shall return to main menu. • Details, this shall display the details of the fault. • Bypass, this shall make drive go into bypass.
Chapter 2—Keypad Overview Table 6. Keypad Buttons, continued Icon 8 Button Description Left Left Arrow: • Navigation button, movement to left when editing a parameter digit by digit. • Backs up one step. Right Right Arrow: • Enter parameter group mode. • Enter parameter mode from group mode. • Enter parameter whole edit mode when this parameter can be written. • Enter parameter bit by bit edit mode from whole edit mode. • Navigation button, movement to right when editing a parameter bit by bit.
Chapter 2—Keypad Overview LED Lights The lines definition is as below: The first line is State line, shows: Table 7. LED State Indicators Indicator Description Run Run: Indicates that the VFD is running and controlling the load in Drive or Bypass. Blinks when a stop command has been given but the drive is still ramping down. Fault: Turn on when there is one or more active drive fault(s). Blinks when there is one or more active drive warning(s).
Chapter 2—Keypad Overview Upgrade Page Soft Key Description After welcome page, keypad will check whether there is different keypad firmware version in MCU’s serial flash. If yes, then ask user whether to upgrade the keypad. There are two soft key buttons. They have different definitions under different pages. Figure 7.
Chapter 2—Keypad Overview 3. For the parameter menu (), if this parameter hasn’t been added into the favorite list, two soft keys “FAVORITE” and “MENU” shall be shown. If it has been added into the favorite list, only one soft key “MENU” is shown in the right. If a parameter has been edited and drive needs to reset so that the new value can become effective, “RESET” shall be shown, which means user can reset the drive through this soft key. See Figure 11. 4.
Chapter 3—Menu Overview Chapter 3—Menu Overview Main Menu Page The data on the keypad are arranged in menus and sub-menus. The first menu level consists of M1, P1, F1, B1, T1 and O1, and it is called the Main Menu. Figure 14. Main Menu Page Menu Navigation This section provides basic instruction on navigating each section in the menu structure. Figure 15. Main Menu Navigation 12 PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 3—Menu Overview Menu Structure Table 9.
Chapter 3—Menu Overview M—Monitor In monitor page, user shall not be able to edit the parameters except multi-monitor parameter. The navigation for monitor is as Figure 16. Figure 16. M—Monitor 14 PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 3—Menu Overview F—Fault There are three fault pages. The first one is F1 active faults; the second one is pop-up automatically when fault occurs; the third one is F2 fault history. After the DETAIL soft key is pressed, the detail information about the fault shall be shown: fault code, type, current, voltage, power, torque, DC voltage, unit temperature, run status, direction, warnings, zero speed shall be shown in sequence. If there is no active fault/history fault, then “No fault” shall be shown.
Chapter 3—Menu Overview Pop-up Fault The navigation for the pop-up active fault is as Figure 18. Figure 18. Pop-Up Active Faults The latest active fault page shall pop up when there is new active faults, the pop-up fault page is the same as the active fault page. Pressing the back/reset key less than 2 seconds shall back to the last page user is watching. Pressing the back/reset key more than 2 seconds shall reset all active faults when all the active fault condition is not satisfied.
Chapter 3—Menu Overview Fault History The navigation for fault history is as Figure 19. In any page, OK button is used to clear all the fault history by pressing more than 5s without password. Figure 19. Fault History PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 3—Menu Overview P—Parameter In parameter page, the value of parameter and unit shall be shown in the fourth line (0.00 Hz), align the text to the left. The navigation for parameter is as Figure 20. In parameter page, the parameter code shall be shown in the second line (such as P1.1), align the text to the left. If the parameter is read and write, then pressing the right key shall make the parameter value flash, which means that the value can be edited.
Chapter 3—Menu Overview Figure 21. Parameter Sets PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 3—Menu Overview 2. P21.1.4 Up to keypad and P21.1.5 Down from keypad During this operation, “waiting…” shall flash, which means it is in process. When it is finished, “OK” shall be shown. Figure 22. Down From Keypad 20 PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 3—Menu Overview 3. P21.1.6 Parameters Comparison After the operation, the number of different parameter will be shown. Then press the right key; the first different parameter shall be shown. The parameter name shall be shown in the second line, and the value which is from keypad/default/set1/set2 shall be shown in the third line, the current value shall be shown in the fourth line. If the user wants to modify the current value, user shall be able to enter the edit mode by right key.
Chapter 3—Menu Overview 4. P21.1.7 Password Password protects the parameters’ security. Zero means not used, otherwise in use. If password is in use, user can still see the values of parameters, but needs to check the password before editing. And user has to check the old password before modifying it. 0000 shall mean that the password is not used, the password is 0000 by default. Enter the password setting page. If the password is 0000, then the “Not use” shall be shown.
Chapter 3—Menu Overview Value Edit This topic shows the methods to edit value, and what will happen to edit value when password is in use and parameter lock is enabled. We have three methods to edit value: edit by key press-hold, edit bit by bit, edit click by click. For details, please see Figure 25.
Chapter 3—Menu Overview 1. If password is in use, password shall be needed to check before edit parameter value. 2. If no action in 1min, the password shall need to be checked again. 3. If Parameter locked is enabled, *Locked* shall be shown if user tries to edit the parameter. Figure 26. Parameter Locked T1—Favorite Favorites collect the user’s favorite parameters. User can add one parameter into favorite list by “FAVORITE” soft key, and can delete it from favorite list by “DELETE” soft key.
Chapter 4—Startup Chapter 4—Startup Startup Wizard Page The Startup Wizard is a sub-menu of main menu. Once user enters into this menu, the Startup Wizard will begin. In the Startup Wizard, you will be prompted for essential information needed by the drive so that it can start controlling your motor. During this process, you can also select the application that best suits your needs.
Chapter 4—Startup Figure 27. Startup Wizard (1 of 2) 26 PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 4—Startup Figure 28. Startup Wizard (2 of 2) PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 4—Startup Startup Wizard Table 10. Startup Wizard Instructions In the Startup Wizard, you will be prompted for essential information needed by the drive so that it can start controlling your process. In the Wizard, you will need the following keypad buttons: Item Description 1 Startup Wizard Press OK? 2 Language 0 = English 1 = ѝ᮷ 2 = Deutsch 3 Real Time Clock yy.mm.
Chapter 4—Startup Application Macro Mini-Wizard Multi-Pump and Fan Control Mini-Wizard PID Mini-Wizard Table 11. Multi-Pump and Fan Control The PID Mini-Wizard is activated in the Quick Setup menu. This Wizard assumes that you are going to use the PID controller in the “one feedback/one setpoint” mode. The control place will be I/O A and the default process unit “%”.
Chapter 5—Standard Application Chapter 5—Standard Application Introduction ● Reference frequency limit supervision The Standard Application is typically used in basic motor control scenarios where multiple pump control, PID loops, or advanced control loops are not required. It provides the ability for the user to define its local and remote control and reference signals. In addition there is the ability to scale the analog input and output signals to be read based off the desired motor response.
Chapter 5—Standard Application Control I/O Configuration ● ● Run 240 Vac and 24 Vdc control wiring in separate conduit Communication wire to be shielded Table 13. I/O Connection SW1 AI1 0–10V AI2 SW1 AI2 SW2 AI2 0–20 mA AI2 0–20 mA AI2 0–10V AI2 10–10V SW2 On Off Res Pin i 31 (RS-485 matching resistor) Signal Name Signal Default Setting Description 1 +10V Ref.
Chapter 5—Standard Application Standard Application—Parameters List On the next pages you will find the lists of parameters within the respective parameter groups. The parameter descriptions are given on Page 130, “Description of Parameters.” The descriptions are arranged according to the parameter number.
Chapter 5—Standard Application Table 14. Monitor—M, continued Code Parameter Min. Max.
Chapter 5—Standard Application Table 15. Operate Mode—O Code Parameter Min. Max. Unit Default ID 1 O1 Output Frequency Hz 0.00 O2 Freq Reference Hz 0.00 24 O3 Motor Speed rpm 0 2 O4 Motor Current A 0.0 3 O5 Motor Torque % 0.0 4 O6 Motor Power % 0.0 5 O7 Motor Voltage V 0.0 6 O8 DC-link Voltage V 0 7 O9 Unit Temperature °C 0.0 8 O10 Motor Temperature R12 2 Keypad Reference % 0.0 9 Par. P1.1 Par. P1.2 Hz 0.00 141 Min. Max.
Chapter 5—Standard Application Table 17. Analog Input—P2 Code Parameter P2.1 Min. Max. Unit Default ID Note AI1 Mode 1 222 0 = 0–20 mA 1 = 0–10V P2.2 2 AI1 Signal Range 0 175 0 = 0–100% 1 = 20–100% 2 = Customized P2.3 2 AI1 Custom Min P2.4 2 P2.5 2 P2.6 2 AI1 Signal Invert P2.7 2 AI1 Joystick Hyst 0.00 20.00 P2.8 2 AI1 Sleep Limit 0.00 100.00 P2.9 2 AI1 Sleep Delay 0.00 P2.10 2 AI1 Joystick Offset –50.00 P2.11 AI2 Mode P2.12 2 AI2 Signal Range P2.
Chapter 5—Standard Application Table 18. Digital Input—P3 Code Parameter P3.1 12 Min. Max. Unit Default ID Note Start/Stop Logic 0 143 0 = Forward–Reverse 1 = Start–Reverse 2 = Start–Enable 3 = Start Pulse–Stop Pulse P3.
Chapter 5—Standard Application Table 18. Digital Input—P3, continued Code Parameter P3.32 2 Min. Max. Unit Default ID Note Jog Enable 0 199 See P3.2 P3.36 2 AI Ref Source Select 0 208 See P3.2 P3.42 2 Emergency Stop 8 747 See P3.2 Table 19. Analog Output—P4 Code Parameter Default ID Note P4.1 2 AO1 Mode Min. 0 227 0 = 0–20 mA 1 = 0–10V P4.
Chapter 5—Standard Application Table 20. Digital Output—P5 Code Parameter P5.1 2 Min.
Chapter 5—Standard Application Table 20. Digital Output—P5, continued Code Parameter Min. Max. Unit Default ID P5.16 2 Temp Limit Supv Val –10.0 75.0 °C 40.0 166 P5.17 2 Power Limit Supv P5.18 2 Power Limit Supv Val P5.19 2 Note 0 167 0.0 168 AI Supv Select 0 170 0 = AI1 1 = AI2 P5.20 2 AI Limit Supv 0 171 See P5.11 P5.21 2 AI Limit Supv Val 0.00 100.00 % 0.00 172 P5.30 RO1 On Delay 0 320 s 0 2111 0.0 200.0 % P5.31 RO1 Off Delay 0 320 s 0 2112 P5.
Chapter 5—Standard Application Table 21. Drive Control—P7, continued Code Parameter Min. Max. P7.24 Currency 0 8 P7.25 Energy Cost P7.26 Data Type 0 4 P7.27 Energy Savings Reset 0 Min. Unit Default ID Note $ 2121 0=$ 1 = GBP 2 = Eur 3 = JPY 4 = Rs 5 = R$ 6 = Fr 7 = Kr 0 2122 s 0 2123 0 = Cumulative 1 = Daily Avg 2 = Monthly Avg 3 = Yearly Avg 1 s 0 2124 0 = No Action 1 = Reset Max.
Chapter 5—Standard Application Table 23. Protections—P9 Code Parameter P9.1 12 4 mA Input Fault Min. P9.2 12 4 mA Fault Frequency P9.3 12 External Fault P9.4 12 Input Phase Fault P9.5 12 Uvolt Fault Response 2 330 See P9.11 P9.6 12 Output Phase Fault 2 308 See P9.11 P9.7 12 Ground Fault 2 309 See P9.11 P9.8 12 Motor Thermal Protection 2 310 See P9.11 P9.9 2 Motor Thermal F0 Current 0.0 150.0 % 40.0 311 P9.10 2 Motor Thermal Time 1 200 min 12 312 P9.
Chapter 5—Standard Application Table 23. Protections—P9, continued Code Parameter P9.34 12 P9.35 12 Min. Default ID Note RTC Fault 1 955 See P9.11 PT100 Fault Response 2 337 See P9.11 P9.36 12 Replace Battery Fault Response 1 1256 See P9.11 P9.37 12 Replace Fan Fault Response 1 1257 See P9.11 P9.38 12 IP Address Confliction Resp 1 1678 See P9.11 P9.39 Cold Weather Mode 0 2126 0 = No 1 = Yes 0 Max. Unit 1 P9.40 Cold Weather Voltage Level 0 20 % 2 2127 P9.
Chapter 5—Standard Application Table 26. FB Data Output Sel—P20.1 Code Parameter P20.1.1 2 P20.1.2 2 Min. Max. Unit Default ID Note FB Data Output 1 Sel 1 1556 FB Data Output 2 Sel 2 1557 P20.1.3 2 FB Data Output 3 Sel 3 1558 P20.1.4 2 FB Data Output 4 Sel 4 1559 P20.1.5 2 FB Data Output 5 Sel 5 1560 P20.1.6 2 FB Data Output 6 Sel 6 1561 P20.1.7 2 FB Data Output 7 Sel 7 1562 P20.1.
Chapter 5—Standard Application Table 29. EtherNet/IP / Modbus TCP—P20.3 Code Parameter Min. P20.3.1 IP Address Mode P20.3.2 Active IP Address 1507 P20.3.3 Active Subnet Mask 1509 P20.3.4 Active Default Gateway 1511 P20.3.5 MAC Address 1513 P20.3.6 Static IP Address 192.168.1.254 1501 P20.3.7 Static Subnet Mask 255.255.255.0 1503 P20.3.8 Static Default Gateway 192.168.1.1 1505 P20.3.9 EtherNet/IP Protocol Status 0 608 P20.3.10 Connection Limit 2 609 P20.3.
Chapter 5—Standard Application Table 30. Basic Setting—P21.1, continued Code Parameter Min. Max. P21.1.7 Password 0 9999 P21.1.8 Parameter Lock P21.1.9 P21.1.10 P21.1.11 Timeout Time 0 65535 P21.1.12 Contrast Adjust 5 18 P21.1.13 Backlight Time 0 65535 P21.1.14 Fan Control P21.1.15 HMI ACK Timeout 200 5000 P21.1.16 HMI Retry Number 1 10 Min. Max. Unit Default ID 0 624 0 625 0 = Change Enable 1 = Change Disable Multimonitor Set 0 627 See P21.1.
Chapter 6—Multi-Pump and Fan Control Application Chapter 6—Multi-Pump and Fan Control Application Introduction I/O Controls The Multi-Pump and Fan Control Application is designed to be used in applications where multiple pumps or fan systems are used to maintain a desired flow rate, pressure, or temperature value. It gives the ability to use a single PID loop to control one drive and have auxiliary motors connected via drives or contactors start and stop based off the desired process.
Chapter 6—Multi-Pump and Fan Control Application Control Examples Figure 29. Example of Two-Pump Autochange, Main Diagram 47 PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 6—Multi-Pump and Fan Control Application Figure 30. Two-Pump Autochange System Principal Control Diagram 230 Vac 26 24 Vdc RO1 13 DG1 Control Board 29 RO2 17 DIN2 27 Autom. 0 Line S1 K1 K2 K1 K2 K1 K1.1 M1/DG1 16 Autom. 0 Line S2 K2 K1.1 DIN3 30 K2.1 K2 M1/Line K2 K2.1 M2/DG1 M2/Line PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 6—Multi-Pump and Fan Control Application Figure 31. Example of Three-Pump Autochange, Main Diagram F3 FY Figure 32. Three-Pump Autochange System Principal Control Diagram 230 Vac DG1 CB DIN3 DG1 CB 24 Vdc 13 26 16 17 DIN2 29 DG1 CB 27 K2 K1.1 K1 M1/DG1 49 33 A O Line S2 K3 K3 S3 K1 K3 K1 K1 K2.1 K1.1 K2 M1/Line 32 DG1 CB A O Line S1 K2 15 30 A O Line K3 DG1 CB DIN4 M2/DG1 K1 K2 K1 K2 K2 K2.1 M2/Line PowerXL DG1 Series Adjustable Frequency Drives K3.
Chapter 6—Multi-Pump and Fan Control Application Figure 33. Example of the Function of the PFC Application with Three Auxiliary Drives On Off On Interlock 3 Off On Interlock 2 Off On Interlock 1 Off Interlock 4 Interlocks Relay Control 5 7 On Off On Off On Off On Off Aux. 3 Running Aux. 2 Running Aux. 1 Running Main Drive Running Max. Frequency 2 Aux. 1, 2 and 3 Start Frequency 4 6 8 Main Drive Output Frequency 3 Aux. 1, 2 and 3 Stop Frequency Min. Frequency 1 f 8 100% Main Drive Aux.
Chapter 6—Multi-Pump and Fan Control Application Control I/O Configuration ● ● Run 240 Vac and 24 Vdc control wiring in separate conduit Communication wire to be shielded Table 34. Multi-Pump and Fan Application Default I/O Configuration SW1 AI1 0–10V AI2 SW1 AI2 SW2 AI2 0–20 mA AI2 0–20 mA AI2 0–10V AI2 10–10V SW2 On Off Res Pin i (RS-485 matching resistor) Signal Name Signal Default Setting Description 1 +10V Ref.
Chapter 6—Multi-Pump and Fan Control Application Table 35.
Chapter 6—Multi-Pump and Fan Control Application Pump and Fan Application—Parameters List On the next pages you will find the lists of parameters within the respective parameter groups. The parameter descriptions are given on Page 130, “Description of Parameters.” The descriptions are arranged according to the parameter number.
Chapter 6—Multi-Pump and Fan Control Application Table 36. Monitor—M, continued Code Parameter M33 PID1 Output M34 PID1 Status M40 Running Motors M41 PT100 Temperature M42 Last Active Fault Min. Max. Unit Default ID % 0.00 22 0 23 0 26 1000.0 27 0 28 °C Notes 1 Parameter value can only be changed after the drive has stopped. 2 Parameter value will be set to be default when changing macros. 54 PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Chapter 6—Multi-Pump and Fan Control Application Table 36. Monitor—M, continued Code Parameter Min. Max. Unit M43 RTC Battery Status M44 Instance Motor Power kW M45 Energy Savings Varies M46 Multi-Monitoring Default 0.0 ID Note 583 0 = Not Installed 1 = Installed 2 = Change Battery 3 = Over Voltage 1686 2119 0, 1, 2 30 Table 37. Operate Mode—O Code Parameter O1 Output Frequency O2 O3 Min. Max. Unit Default ID Hz 0.00 1 Freq Reference Hz 0.
Chapter 6—Multi-Pump and Fan Control Application Table 38. Basic Parameters—P1, continued Code Parameter P1.13 12 Min. Max. Unit Default ID Note Local Reference 6 136 0 = AI1 1 = AI2 2 = Slot A: AI1 3 = Slot B: AI1 4 = AI1 Joystick 5 = AI2 Joystick 6 = Keypad 7 = Fieldbus Ref 9 = Max Frequency 10 = AI1 + AI2 11 = AI1 –AI2 12 = AI2–AI1 13 = AI1 * AI2 14 = AI1 or AI2 15 = MIN(AI1,AI2) 16 = MAX(AI1,AI2) 17 = PID1 Control P1.14 12 Remote1 Reference 1 137 See P1.12 P1.
Chapter 6—Multi-Pump and Fan Control Application Table 39. Analog Input—P2, continued Code Parameter P2.20 2 Min. Max. P2.21 2 P2.22 2 Unit Default ID AI2 Joystick Offset –50.00 50.00 % 0.00 134 AI Ref Scale Min Value 0.00 Par. P2.22 Hz 0.00 144 AI Ref Scale Max Value Par. P2.21 400.00 Hz 0.00 145 Min. Max. Unit Note Table 40. Digital Input—P3 Code Parameter Default ID Note P3.
Chapter 6—Multi-Pump and Fan Control Application Table 40. Digital Input—P3, continued Code Parameter P3.15 2 Min. Max. Unit Default ID Accel/Decel Time Set 0 195 See P3.2 P3.16 2 Accel/Decel Prohibit 0 201 See P3.2 P3.17 2 No Access To Param 0 215 See P3.2 P3.21 2 Remote Control 9 196 See P3.2 P3.22 2 Local Control 0 197 See P3.2 P3.23 2 Remote1/2 Select 0 209 See P3.2 P3.24 2 Second Motor Para Select 0 217 See P3.2 P3.25 2 Bypass Start 0 218 See P3.2 P3.
Chapter 6—Multi-Pump and Fan Control Application Table 41. Analog Output—P4 Code Parameter P4.1 2 Min. Max. Unit Default ID Note AO1 Mode 0 227 0 = 0–20 mA 1 = 0–10V P4.
Chapter 6—Multi-Pump and Fan Control Application Table 42. Digital Output—P5 Code Parameter P5.1 2 Min.
Chapter 6—Multi-Pump and Fan Control Application Table 42. Digital Output—P5, continued Code Parameter P5.9 2 Min. Torque Limit Supv P5.10 2 Torque Limit Supv Val P5.11 2 Ref Limit Supv P5.12 2 Ref Limit Supv Val P5.15 2 Temp Limit Supv P5.16 2 Temp Limit Supv Val P5.17 2 Power Limit Supv P5.18 2 Power Limit Supv Val P5.19 2 AI Supv Select P5.20 2 AI Limit Supv P5.21 2 AI Limit Supv Val P5.22 2 PID1 Superv Enable P5.23 2 PID1 Superv Upper Limit Par. P10.5 Par. P10.
Chapter 6—Multi-Pump and Fan Control Application Table 43. Drive Control—P7, continued Code Parameter Min. Max. Unit Default ID P7.14 2 Decel Time 2 0.1 3000.0 s 10.0 250 P7.15 2 Skip F1 Low Limit 0.00 Par. P7.16 Hz 0.00 256 P7.16 2 Skip F1 High Limit Par. P7.15 400.00 Hz 0.00 257 P7.17 2 Skip F2 Low Limit 0.00 Par. P7.18 Hz 0.00 258 P7.18 2 Skip F2 High Limit Par. P7.17 400.00 Hz 0.00 259 P7.19 2 Skip F3 Low Limit 0.00 Par. P7.20 Hz 0.00 260 P7.
Chapter 6—Multi-Pump and Fan Control Application Table 44. Motor Control—P8, continued Code Parameter P8.12 12 Min. Max. Overvoltage Control P8.17 2 Frequency Ramp Out FilterTime Constant 0 3000 P8.39 2 Start Boost Rise Time -1 Min. Unit Default ID Note 1 294 0 = Disabled 1 = Enabled ms 0 1585 32000 s 0 1622 Max. Unit Default ID Note 0 306 0 = No Action 1 = Warning 2 = Warning: Previous Freq 3 = Warning: Preset Freq 4 = Fault 5 = Fault, Coast 0.00 331 Table 45.
Chapter 6—Multi-Pump and Fan Control Application Table 45. Protections—P9, continued Code Parameter Min. Max. P9.27 2 Undervoltage Attempts 0 P9.28 2 Overvoltage Attempts 0 P9.29 2 Overcurrent Attempts 0 P9.30 2 4 mA Fault Attempts 0 10 1 327 P9.31 2 Motor Temp Fault Attempts 0 10 1 329 P9.32 2 External Fault Attempts 0 10 0 328 P9.33 2 Underload Attempts 0 10 1 336 P9.34 12 RTC Fault 1 955 P9.35 12 PT100 Fault Response 2 337 See P9.11 P9.
Chapter 6—Multi-Pump and Fan Control Application Table 46. PID Controller 1—P10 Code Parameter P10.1 2 Min. Max. Unit Default ID PID1 Control Gain 0.00 200.00 % 100.00 1294 P10.2 2 PID1 Control ITime 0.00 600.00 s 1.00 1295 P10.3 2 PID1 Control DTime 0.00 100.00 s 0.00 1296 P10.4 12 PID1 Process Unit 0 1297 P10.5 2 PID1 Process Unit Min –99999.99 99999.99 Varies 0.00 1298 P10.6 2 PID1 Process Unit Max –99999.99 99999.99 Varies 100.00 1300 P10.
Chapter 6—Multi-Pump and Fan Control Application Table 46. PID Controller 1—P10, continued Code Parameter P10.14 12 Min. PID1 Set Point 1 Source P10.15 2 PID1 Set Point 1 Min –200.00 200.00 P10.16 2 PID1 Set Point 1 Max –200.00 200.00 P10.17 12 PID1 Set Point 1 Sleep Enable P10.18 2 PID1 Set Point 1 Sleep Freq 0.00 400.00 P10.19 2 PID1 Set Point 1 Sleep Delay 0 P10.20 2 PID1 Set Point 1 Wake Up Level Par. P10.5 P10.21 2 PID1 Set Point 1 Boost –2.0 2.0 P10.
Chapter 6—Multi-Pump and Fan Control Application Table 46. PID Controller 1—P10, continued Code Parameter P10.32 12 Min. PID1 Feedback 1 Source P10.33 2 PID1 Feedback 1 Min –200.00 200.00 P10.34 2 PID1 Feedback 1 Max –200.00 200.00 P10.35 12 PID1 Feedback 2 Source P10.36 2 PID1 Feedback 2 Min –200.00 200.00 P10.37 2 PID1 Feedback 2 Max –200.00 200.00 P10.38 12 PID1 Feedforward Func P10.39 2 PID1 Feedforward Gain P10.40 12 PID1 Feedforward 1 Source –1000.0 Max. 1000.
Chapter 6—Multi-Pump and Fan Control Application Table 47. Preset Speed—P12 Code Parameter Min. Max. Unit Default ID P12.1 2 Preset Speed 1 0.00 Par. P1.2 Hz 5.00 105 P12.2 2 Preset Speed 2 0.00 Par. P1.2 Hz 10.00 106 P12.3 2 Preset Speed 3 0.00 Par. P1.2 Hz 15.00 118 P12.4 2 Preset Speed 4 0.00 Par. P1.2 Hz 20.00 119 P12.5 2 Preset Speed 5 0.00 Par. P1.2 Hz 25.00 120 P12.6 2 Preset Speed 6 0.00 Par. P1.2 Hz 30.00 121 P12.7 2 Preset Speed 7 0.00 Par. P1.
Chapter 6—Multi-Pump and Fan Control Application Table 51. Bypass—P17 Code Parameter P17.1 12 Bypass Enable P17.2 12 Bypass Start Delay P17.3 12 Auto Bypass P17.4 12 Auto Bypass Delay P17.5 12 Min. 1 Max. ID Note 0 1418 0 = Disabled 1 = Enabled 5 544 542 10 543 Overcurrent Bypass Enable 0 547 0 = Disabled 1 = Enabled P17.6 12 IGBT Fault Bypass Enable 0 546 0 = Disabled 1 = Enabled P17.7 12 4 mA Fault Bypass Enable 0 548 0 = Disabled 1 = Enabled P17.
Chapter 6—Multi-Pump and Fan Control Application Table 53. Real Time Clock—P19 Code Parameter P19.1 2 Min. Interval 1 On Time 0,0,0 491 P19.2 2 Interval 1 Off Time 0,0,0 493 P19.3 2 Interval 1 From Day 0 517 P19.4 2 Interval 1 To Day 0 518 See P19.3 P19.5 2 Interval 1 Channel 0 519 0 = Not Used 1 = Time Channel 1 2 = Time Channel 2 3 = Time Channel 3 P19.6 2 Interval 2 On Time 0,0,0 495 P19.7 2 Interval 2 Off Time 0,0,0 497 P19.8 2 Interval 2 From Day 0 520 See P19.
Chapter 6—Multi-Pump and Fan Control Application Table 54. FB Data Output Sel—P20.1 Code Parameter P20.1.1 2 P20.1.2 2 Min. Max. Unit Default ID Note FB Data Output 1 Sel 1 1556 FB Data Output 2 Sel 2 1557 P20.1.3 2 FB Data Output 3 Sel 3 1558 P20.1.4 2 FB Data Output 4 Sel 4 1559 P20.1.5 2 FB Data Output 5 Sel 5 1560 P20.1.6 2 FB Data Output 6 Sel 6 1561 P20.1.7 2 FB Data Output 7 Sel 7 1562 P20.1.
Chapter 6—Multi-Pump and Fan Control Application Table 56. BACnet MS/TP—P20.2 Code Parameter P20.2.11 BACnet Baud Rate P20.2.12 MAC Address 0 127 0 4194302 P20.2.13 Instance Number P20.2.14 Comm Timeout BACnet P20.2.15 P20.2.16 Min. Max. Unit Default ID Note 2 594 0 = 9600 1 = 19200 2 = 38400 3 = 76800 4 = 115200 1 595 0 596 6000 598 Protocol Status 0 599 0 = Stopped 1 = Operational 2 = Faulted Fault Code 0 600 0 = None 1 = Sole Master ms Table 57.
Chapter 6—Multi-Pump and Fan Control Application Table 58. Basic Setting—P21.1 Code Parameter P21.1.1 Min. Default ID Note Language 0 340 0 = English 1 = English 2 = English P21.1.2 1 Application 0 142 0 = Standard 1 = Multi-Pump 2 = Multi-PID 3 = Multi-Purpose P21.1.3 Parameter Sets 0 619 0 = No 1 = Reload Defaults 2 = Reload Set 1 3 = Reload Set 2 4 = Store Set 1 5 = Store Set 2 6 = Reset P21.1.4 Up To Keypad 0 620 See P21.3.1 P21.1.
Chapter 6—Multi-Pump and Fan Control Application Table 60. Application Info—P21.3 Code Parameter P21.3.1 Min. Max. Unit Default ID Note Brake Chopper Stat 646 0 = No 1 = Yes P21.3.2 Brake Resistor 647 See P21.3.1 P21.3.3 Serial Number 648 Table 61. User Info—P21.4 Code Parameter Default ID P21.4.1 Real Time Clock 0.0.0.1:1:13 566 P21.4.2 Daylight Saving 0 582 P21.4.3 Total MWh Count P21.4.4 Total Power Day Count 603 P21.4.5 Total Power Hr Count 606 P21.4.
Chapter 7—Multi-PID Application Chapter 7—Multi-PID Application Introduction I/O Controls The Multi-PID Application is designed to be used with up to 2 PID Control applications determined by the use of a digital input; it is typically used with pumps and fans to maintain a desired set-point. With PID, the frequency converter is given a set reference from a keypad, analog inputs, or fieldbus data-in.
Chapter 7—Multi-PID Application Control I/O Configuration ● ● Run 240 Vac and 24 Vdc control wiring in separate conduit Communication wire to be shielded Table 62. Multi-PID Application Default I/O Configuration SW1 AI1 0–10V AI2 SW1 AI2 SW2 AI2 0–20 mA AI2 0–20 mA AI2 0–10V AI2 10–10V SW2 On Off Res Pin i 76 (RS-485 matching resistor) Signal Name Signal Default Setting Description 1 +10V Ref.
Chapter 7—Multi-PID Application Multi-PID Application—Parameters List On the next pages you will find the lists of parameters within the respective parameter groups. The parameter descriptions are given on Page 130, “Description of Parameters.” The descriptions are arranged according to the parameter number.
Chapter 7—Multi-PID Application Table 63. Monitor—M, continued Code Parameter M33 PID1 Output M34 PID1 Status Min. Max. Unit Default ID % 0.00 22 0 23 M35 PID2 Set Point Varies 0.00 32 M36 PID2 Feedback Varies 0.00 34 M37 PID2 Error Value Varies 0.00 36 M38 PID2 Output % 0.00 38 M39 PID2 Status 0 39 M40 Running Motors 0 26 M41 PT100 Temperature 1000.0 27 °C Notes 1 Parameter value can only be changed after the drive has stopped.
Chapter 7—Multi-PID Application Table 63. Monitor—M, continued Code Parameter Min. Max.
Chapter 7—Multi-PID Application Table 64. Operate Mode—O Code Parameter O1 O2 O3 O4 O5 O6 O7 O8 O9 O10 R12 2 Output Frequency Freq Reference Motor Speed Motor Current Motor Torque Motor Power Motor Voltage DC-link Voltage Unit Temperature Motor Temperature Keypad Reference Min. Max. Unit Default ID Par. P1.1 Par. P1.2 Hz Hz rpm A % % V V °C % Hz 0.00 0.00 0 0.0 0.0 0.0 0.0 0 0.0 0.0 0.00 1 24 2 3 4 5 6 7 8 9 141 Note Table 65. Basic Parameters—P1 Code Parameter Min. Max.
Chapter 7—Multi-PID Application Table 66. Analog Input—P2 Code Parameter P2.1 Min. Max. Unit Default ID Note AI1 Mode 1 222 0 = 0–20 mA 1 = 0–10V P2.2 2 AI1 Signal Range 0 175 0 = 0–100% 1 = 20–100% 2 = Customized P2.3 2 AI1 Custom Min P2.4 2 P2.5 2 P2.6 2 AI1 Signal Invert P2.7 2 AI1 Joystick Hyst 0.00 20.00 P2.8 2 AI1 Sleep Limit 0.00 100.00 P2.9 2 AI1 Sleep Delay 0.00 P2.10 2 AI1 Joystick Offset –50.00 P2.11 AI2 Mode P2.12 2 AI2 Signal Range P2.
Chapter 7—Multi-PID Application Table 67. Digital Input—P3 Code Parameter P3.1 12 Min. Max. Unit Default ID Note Start/Stop Logic 0 143 0 = Forward–Reverse 1 = Start–Reverse 2 = Start–Enable 3 = Start Pulse–Stop Pulse P3.
Chapter 7—Multi-PID Application Table 67. Digital Input—P3, continued Code Parameter P3.24 2 P3.25 2 Min. Max. Unit Default ID Note Second Motor Para Select 0 217 See P3.2 Bypass Start 0 218 See P3.2 P3.26 2 DC Brake Enable 0 202 See P3.2 P3.27 2 Smoke Mode 0 219 See P3.2 P3.28 2 Fire Mode 0 220 See P3.2 P3.29 2 Fire Mode Ref Select 0 221 See P3.2 P3.30 2 PID1 Set Point Select 0 351 See P3.2 P3.31 2 PID2 Set Point Select 0 352 See P3.2 P3.
Chapter 7—Multi-PID Application Table 68. Analog Output—P4 Code Parameter P4.1 2 Min. Max. Unit Default ID Note AO1 Mode 0 227 0 = 0–20 mA 1 = 0–10V P4.
Chapter 7—Multi-PID Application Table 69. Digital Output—P5 Code Parameter P5.1 2 Min.
Chapter 7—Multi-PID Application Table 69. Digital Output—P5, continued Code Parameter Min. Max. Unit P5.8 2 Freq Limit 2 Supv Val 0.00 Par. P1.2 Hz P5.9 2 Torque Limit Supv P5.10 2 Torque Limit Supv Val P5.11 2 Ref Limit Supv P5.12 2 Ref Limit Supv Val P5.15 2 Temp Limit Supv P5.16 2 Temp Limit Supv Val P5.17 2 Power Limit Supv P5.18 2 Power Limit Supv Val P5.19 2 AI Supv Select –300.0 300.0 % Default ID 0.00 158 0 159 100.
Chapter 7—Multi-PID Application Table 70. Drive Control—P7, continued Code Parameter P7.9 2 Min. Max. Unit Default ID Note Start Mode 0 252 0 = Ramp 1 = Flying Start P7.10 2 Stop Mode 1 253 0 = Coasting 1 = Ramp P7.11 2 Ramp 1 Shape 0.0 10.0 s 0.0 247 P7.12 2 Ramp 2 Shape 0.0 10.0 s 0.0 248 P7.13 2 Accel Time 2 0.1 3000.0 s 10.0 249 P7.14 2 Decel Time 2 0.1 3000.0 s 10.0 250 P7.15 2 Skip F1 Low Limit 0.00 Par. P7.16 Hz 0.00 256 P7.
Chapter 7—Multi-PID Application Table 71. Motor Control—P8, continued Code Parameter Min. Max. Unit Default ID P8.7 12 V/Hz Mid Frequency 0.00 Par. P8.5 Hz V/Hz Curve Midpoint Freq 291 P8.8 12 V/Hz Mid Voltage 0.00 100.00 % 100.00 292 P8.9 12 Zero Frequency Voltage 0.00 40.00 % P8.10 2 Switching Frequency Min Switching Freq Max Switching kHz Freq P8.11 2 Note 0.00 293 Default Switching Freq 288 Sine Filter Enable 0 1665 0 = Disabled 1 = Enabled P8.
Chapter 7—Multi-PID Application Table 72. Protections—P9, continued Code Parameter P9.21 12 Min. Fieldbus Fault Response 2 334 See P9.11 P9.22 12 OPTCard Fault Response 2 335 See P9.11 P9.23 12 Unit Under Temp Prot 2 1564 See P9.11 P9.24 2 Wait Time 0.10 10.00 s 0.50 321 P9.25 2 Trail Time 0.00 60.00 s 30.00 322 P9.26 2 Start Function 0 323 P9.27 2 Undervoltage Attempts 0 10 1 324 P9.28 2 Overvoltage Attempts 0 10 1 325 P9.
Chapter 7—Multi-PID Application Table 73. PID Controller 1—P10, continued Code Parameter P10.4 12 Min. Max.
Chapter 7—Multi-PID Application Table 73. PID Controller 1—P10, continued Code Parameter P10.14 12 Min. PID1 Set Point 1 Source P10.15 2 PID1 Set Point 1 Min –200.00 200.00 P10.16 2 PID1 Set Point 1 Max –200.00 200.00 P10.17 12 PID1 Set Point 1 Sleep Enable P10.18 2 PID1 Set Point 1 Sleep Freq 0.00 400.00 Hz 0.00 1316 P10.19 2 PID1 Set Point 1 Sleep Delay 0 3000 s 0 1317 P10.20 2 PID1 Set Point 1 Wake Up Level Par. P10.5 Par. P10.6 Varies 0.00 1318 P10.
Chapter 7—Multi-PID Application Table 73. PID Controller 1—P10, continued Code Parameter P10.32 12 Min. Max. PID1 Feedback 1 Source P10.33 2 PID1 Feedback 1 Min –200.00 200.00 % 0.00 1333 P10.34 2 PID1 Feedback 1 Max –200.00 200.00 % 100.00 1334 P10.35 12 PID1 Feedback 2 Source 0 1335 P10.36 2 PID1 Feedback 2 Min –200.00 200.00 % 0.00 1336 P10.37 2 PID1 Feedback 2 Max –200.00 200.00 % 100.00 1337 P10.38 12 PID1 Feedforward Func 0 1338 P10.
Chapter 7—Multi-PID Application Table 74. PID Controller 2—P11 Code Parameter Min. Max. Unit Default ID P11.1 2 PID2 Control Gain 0.00 200.00 % 100.00 1356 P11.2 2 PID2 Control I Time 0.00 600.00 s 1.00 1357 P11.3 2 PID2 Control D Time 0.00 100.00 s 0.00 1358 P11.4 12 PID2 Process Unit 0 1359 P11.5 2 PID2 Process Unit Min –99999.99 99999.99 Varies 0.00 1360 P11.6 2 PID2 Process Unit Max –99999.99 99999.99 Varies 100.00 1362 P11.
Chapter 7—Multi-PID Application Table 74. PID Controller 2—P11, continued Code Parameter Min. Max. Unit Default ID P11.42 2 PID2 Feedforward 1 Max –200.00 200.00 % 100.00 1404 P11.43 12 PID2 Feedforward 2 Source P11.44 2 PID2 Feedforward 2 Min –200.00 200.00 P11.45 2 PID2 Feedforward 2 Max –200.00 200.00 P11.46 2 PID2 Set Point1 Comp Enable P11.47 2 PID2 Set Point1 Comp Max –200.00 P11.48 2 PID2 Set Point 2 Comp Enable P11.49 2 PID2 Set Point 2 Comp Max –200.00 200.00 200.
Chapter 7—Multi-PID Application Table 77. Fire Mode—P15 Code Parameter P15.1 12 Min. Max. Unit Default ID Note Fire Mode Function 0 535 0 = Closing Contact 1 = Opening Contact P15.2 12 Fire Mode Ref Select Function 0 536 0 = Disabled 1 = Enabled P15.3 2 Fire Mode Min Frequency Par. P1.1 Par. P1.2 Hz 15.00 537 P15.4 2 Fire Mode Freq Ref 1 0.0 100.0 % 75.0 565 P15.5 2 Fire Mode Freq Ref 2 0.0 100.0 % 100.0 564 P15.6 12 Smoke Purge Frequency 0.0 100.0 % 50.
Chapter 7—Multi-PID Application Table 80. Multi-Pump Control—P18, continued Code Parameter P18.6 2 Min. Max. Unit Default ID Note Auto-Change Enable 0 345 0 = Disabled 1 = Enabled P18.7 2 Auto-Change Interval 0.0 3000.0 h 48.0 347 P18.8 2 Auto-Change Freq Limit Par. P1.1 Par. P1.2 Hz 25.00 349 P18.9 2 Auto-Change Motor Limit 0 5 1 348 P18.10 12 Damper Start 0 483 P18.11 12 Damper Time Out 1 32500 s 5 484 P18.12 12 Damper Delay 1 32500 s 5 485 Min. Max.
Chapter 7—Multi-PID Application Table 81. Real Time Clock—P19, continued Code Parameter P19.25 2 Interval 5 Channel P19.26 2 Timer 1 Duration P19.27 2 Timer 1 Channel P19.28 2 Timer 2 Duration P19.29 2 Timer 2 Channel P19.30 2 Timer 3 Duration P19.31 2 Timer 3 Channel Min. Max. Unit Default 0 72000 s 0 532 0 513 0 0 72000 72000 s s ID Note 0 531 See P19.5 0 511 0 = Not Used 1 = Time Channel 1 2 = Time Channel 2 3 = Time Channel 3 0 533 0 515 See P19.
Chapter 7—Multi-PID Application Table 84. BACnet MS/TP—P20.2 Code Parameter P20.2.11 BACnet Baud Rate P20.2.12 MAC Address 0 127 0 4194302 P20.2.13 Instance Number P20.2.14 Comm Timeout BACnet P20.2.15 P20.2.16 Min. Max. Unit Default ID Note 2 594 0 = 9600 1 = 19200 2 = 38400 3 = 76800 4 = 115200 1 595 0 596 6000 598 Protocol Status 0 599 0 = Stopped 1 = Operational 2 = Faulted Fault Code 0 600 0 = None 1 = Sole Master ms Table 85. EtherNet/IP / Modbus TCP—P20.
Chapter 7—Multi-PID Application Table 86. Basic Setting—P21.1 Code Parameter P21.1.1 Min. Default ID Note Language 0 340 0 = English 1 = English 2 = English P21.1.2 1 Application 0 142 0 = Standard 1 = Multi-Pump 2 = Multi-PID 3 = Multi-Purpose P21.1.3 Parameter Sets 0 619 0 = No 1 = Reload Defaults 2 = Reload Set 1 3 = Reload Set 2 4 = Store Set 1 5 = Store Set 2 6 = Reset P21.1.4 Up To Keypad 0 620 See P21.3.1 P21.1.
Chapter 7—Multi-PID Application Table 88. Application Info—P21.3 Code Parameter P21.3.1 Min. Max. Unit Default ID Note Brake Chopper Stat 646 0 = No 1 = Yes P21.3.2 Brake Resistor 647 See P21.3.1 P21.3.3 Serial Number 648 Table 89. User Info—P21.4 Code Parameter Default ID P21.4.1 Real Time Clock 0:0.0.1:1:13 566 P21.4.2 Daylight Saving 0 582 P21.4.3 Total MWh Count P21.4.4 Total Power Day Count 603 P21.4.5 Total Power Hr Count 606 P21.4.6 Trip MWh Count P21.4.
Chapter 8—Multi-Purpose Application Chapter 8—Multi-Purpose Application Introduction ● The Multi-Purpose Application is designed for a large set of applications with the ability to have advanced motor control systems. It takes the same functions provided in the Standard, Multi-Pump and Fan, and Multi-PID applications and adds in some additional control techniques.
Chapter 8—Multi-Purpose Application Control I/O Configuration ● ● Run 240 Vac and 24 Vdc control wiring in separate conduit Communication wire to be shielded Table 90. Multi-Purpose Application Default I/O Configuration SW1 AI1 0–10V AI2 SW1 AI2 SW2 AI2 0–20 mA AI2 0–20 mA AI2 0–10V AI2 10–10V SW2 On Off Res Pin i 102 (RS-485 matching resistor) Signal Name Signal Default Setting Description 1 +10V Ref.
Chapter 8—Multi-Purpose Application Multi-Purpose Application—Parameters List On the next pages you will find the lists of parameters within the respective parameter groups. The parameter descriptions are given on Page 130, “Description of Parameters.” The descriptions are arranged according to the parameter number.
Chapter 8—Multi-Purpose Application Table 91. Monitor—M, continued Code Parameter Min. Max. Unit Default ID M32 PID1 Error Value Varies 0.00 20 M33 PID1 Output % 0.00 22 M34 PID1 Status 0 23 M35 PID2 Set Point 0.00 32 Varies M36 PID2 Feedback Varies 0.00 34 M37 PID2 Error Value Varies 0.00 36 M38 PID2 Output % 0.00 38 M39 PID2 Status 0 39 M40 Running Motors 0 26 M41 PT100 Temperature 1000.
Chapter 8—Multi-Purpose Application Table 91. Monitor—M, continued Code Parameter Min. Max.
Chapter 8—Multi-Purpose Application Table 92. Operate Mode—O Code Parameter Min. Max. Unit Default ID 1 O1 Output Frequency Hz 0.00 O2 Freq Reference Hz 0.00 24 O3 Motor Speed rpm 0 2 O4 Motor Current A 0.0 3 O5 Motor Torque % 0.0 4 O6 Motor Power % 0.0 5 O7 Motor Voltage V 0.0 6 O8 DC-link Voltage V 0 7 O9 Unit Temperature °C 0.0 8 O10 Motor Temperature % 0.0 9 R11 Keypad Torque Ref –300.0 300.0 % 0.0 782 R12 2 Keypad Reference Par. P1.
Chapter 8—Multi-Purpose Application Table 93. Basic Parameters—P1, continued Code Parameter P1.13 12 Min. Max. Unit Default ID Note Local Reference 6 136 0 = AI1 1 = AI2 2 = Slot A: AI1 3 = Slot B: AI1 4 = AI1 Joystick 5 = AI2 Joystick 6 = Keypad 7 = Fieldbus Ref 8 = Motor Pot 9 = Max Frequency 10 = AI1 + AI2 11 = AI1 –AI2 12 = AI2–AI1 13 = AI1 * AI2 14 = AI1 or AI2 15 = MIN(AI1,AI2) 16 = MAX(AI1,AI2) 17 = PID1 Control P1.14 12 Remote1 Reference 1 137 See P1.12 P1.
Chapter 8—Multi-Purpose Application Table 94. Analog Input—P2, continued Code Parameter P2.20 2 Min. Max. P2.21 2 P2.22 2 Unit Default ID AI2 Joystick Offset –50.00 50.00 % 0.00 134 AI Ref Scale Min Value 0.00 Par. P2.22 Hz 0.00 144 AI Ref Scale Max Value Par. P2.21 400.00 Hz 0.00 145 Min. Max. Unit Note Table 95. Digital Input—P3 Code Parameter Default ID Note P3.
Chapter 8—Multi-Purpose Application Table 95. Digital Input—P3, continued Code Parameter P3.14 2 P3.15 2 Min. Max. Unit Default ID Note PID2 Control Enable 0 553 See P3.2 Accel/Decel Time Set 0 195 See P3.2 P3.16 2 Accel/Decel Prohibit 0 201 See P3.2 P3.17 2 No Access To Param 0 215 See P3.2 P3.18 2 Accel Pot Value 0 203 See P3.2 P3.19 2 Decel Pot Value 0 204 See P3.2 P3.20 2 Reset Pot Zero 0 216 See P3.2 P3.21 2 Remote Control 9 196 See P3.2 P3.
Chapter 8—Multi-Purpose Application Table 96. Analog Output—P4 Code Parameter P4.1 2 Min. Default ID Note AO1 Mode 0 227 0 = 0–20 mA 1 = 0–10V P4.
Chapter 8—Multi-Purpose Application Table 97. Digital Output—P5 Code Parameter P5.1 2 Min.
Chapter 8—Multi-Purpose Application Table 97. Digital Output—P5, continued Code Parameter P5.7 2 Min. Freq Limit 2 Supv P5.8 2 Freq Limit 2 Supv Val P5.9 2 Torque Limit Supv P5.10 2 Torque Limit Supv Val P5.11 2 Ref Limit Supv P5.12 2 Ref Limit Supv Val 0.00 Par. P1.2 Hz 0.00 162 P5.13 2 Ext Brake Off Delay 0.0 100.0 s 0.5 163 P5.14 2 Ext Brake On Delay 0.0 100.0 s 1.5 164 P5.15 2 Temp Limit Supv 0 165 P5.16 2 Temp Limit Supv Val 40.0 166 P5.
Chapter 8—Multi-Purpose Application Table 98. Logic Function—P6 Code Parameter P6.1 2 P6.2 2 Min. Max.
Chapter 8—Multi-Purpose Application Table 98. Logic Function—P6, continued Code Parameter P6.3 2 Logic Operation Input B Min. Max.
Chapter 8—Multi-Purpose Application Table 99. Drive Control—P7, continued Code Parameter Min. Max. Unit Default P7.7 2 Motor Pot Ramp Time 0.1 2000.0 Hz/s 10.0 156 P7.8 2 Motor Pot Ref Reset 0 169 0 = No Reset 1 = Reset: Stop + Power Down 2 = Reset: Power Down P7.9 2 Start Mode 0 252 0 = Ramp 1 = Flying Start P7.10 2 Stop Mode 1 253 0 = Coasting 1 = Ramp P7.11 2 Ramp 1 Shape 0.0 247 P7.12 2 Ramp 2 Shape 0.0 10.0 s 0.0 248 P7.13 2 Accel Time 2 0.1 3000.0 s 10.
Chapter 8—Multi-Purpose Application Table 100. Motor Control—P8, continued Code Parameter P8.4 12 Min. V/Hz Ratio P8.5 12 Field Weakening Point P8.6 12 Voltage at FWP 10.00 200.00 % 100.00 290 P8.7 12 V/Hz Mid Frequency 0.00 Par. P8.5 Hz V/Hz Curve Midpoint Freq 291 P8.8 12 V/Hz Mid Voltage 0.00 100.00 % 100.00 292 P8.9 12 Zero Frequency Voltage 0.00 40.00 % P8.10 2 Switching Frequency Min Switching Freq Max Switching kHz Freq P8.11 2 8.00 Max. 400.
Chapter 8—Multi-Purpose Application Table 100. Motor Control—P8, continued Code Parameter Min. Max. Unit Default ID P8.35 2 Acc Compensation Time Constant 0.0 1000.0 % 0.0 1611 P8.36 2 Acc Compensation Filter Time Constant 0 3000 ms 0 1612 P8.37 2 Flux Reference 0.0 500.0 % 100.0 1620 P8.38 2 Stop State Magnetization 0.0 100.0 % 100.0 1621 P8.39 2 Start Boost Rise Time –1 32000 s 0 1622 P8.40 2 Flux Current Ramp Time 0 32000 ms 200 1623 P8.
Chapter 8—Multi-Purpose Application Table 101. Protections—P9, continued Code Parameter P9.11 12 Min. Default ID Note Stall Protection 0 313 0 = No Action 1 = Warning 2 = Fault 3 = Fault, Coast P9.12 2 Stall Current Limit 0.1 Active Motor Nom I*2 A Active Motor Nom I*13/10 314 P9.13 2 Stall Time Limit 1.0 P9.14 2 Stall Frequency Limit 1.00 120.0 s 15.0 315 Par. P1.2 Hz 25.00 P9.15 12 Underload Protection 316 0 317 P9.16 2 Underload Fnom Torque 10.0 150.0 % 50.
Chapter 8—Multi-Purpose Application Table 102. PID Controller 1—P10 Code Parameter P10.1 2 Min. Max. Unit Default ID PID1 Control Gain 0.00 200.00 % 100.00 1294 P10.2 2 PID1 Control ITime 0.00 600.00 s 1.00 1295 P10.3 2 PID1 Control DTime 0.00 100.00 s 0.00 1296 P10.4 12 PID1 Process Unit 0 1297 P10.5 2 PID1 Process Unit Min –99999.99 99999.99 Varies 0.00 1298 P10.6 2 PID1 Process Unit Max –99999.99 99999.99 Varies 100.00 1300 P10.
Chapter 8—Multi-Purpose Application Table 102. PID Controller 1—P10, continued Code Parameter P10.14 12 Min. PID1 Set Point 1 Source P10.15 2 PID1 Set Point 1 Min –200.00 200.00 P10.16 2 PID1 Set Point 1 Max –200.00 200.00 P10.17 12 PID1 Set Point 1 Sleep Enable P10.18 2 PID1 Set Point 1 Sleep Freq 0.00 400.00 Hz 0.00 1316 P10.19 2 PID1 Set Point 1 Sleep Delay 0 3000 s 0 1317 P10.20 2 PID1 Set Point 1 Wake Up Level Par. P10.5 Par. P10.6 Varies 0.00 1318 P10.
Chapter 8—Multi-Purpose Application Table 102. PID Controller 1—P10, continued Code Parameter P10.32 12 Min. PID1 Feedback 1 Source P10.33 2 PID1 Feedback 1 Min –200.00 200.00 P10.34 2 PID1 Feedback 1 Max –200.00 200.00 P10.35 12 PID1 Feedback 2 Source P10.36 2 PID1 Feedback 2 Min –200.00 200.00 P10.37 2 PID1 Feedback 2 Max –200.00 200.00 P10.38 12 PID1 Feedforward Func P10.39 2 PID1 Feedforward Gain P10.40 12 PID1 Feedforward 1 Source P10.41 2 PID1 Feedforward 1 Min –200.
Chapter 8—Multi-Purpose Application Table 103. PID Controller 2—P11 Code Parameter Min. Max. Unit Default ID P11.1 2 PID2 Control Gain 0.00 200.00 % 100.00 1356 P11.2 2 PID2 Control I Time 0.00 600.00 s 1.00 1357 P11.3 2 PID2 Control D Time 0.00 100.00 s 0.00 1358 P11.4 12 PID2 Process Unit 0 1359 P11.5 2 PID2 Process Unit Min –99999.99 99999.99 Varies 0.00 1360 P11.6 2 PID2 Process Unit Max –99999.99 99999.99 Varies 100.00 1362 P11.
Chapter 8—Multi-Purpose Application Table 103. PID Controller 2—P11, continued Code Parameter Min. Max. Unit Default ID P11.42 2 PID2 Feedforward 1 Max –200.00 200.00 % 100.00 1404 P11.43 12 PID2 Feedforward 2 Source P11.44 2 PID2 Feedforward 2 Min –200.00 200.00 P11.45 2 PID2 Feedforward 2 Max –200.00 200.00 P11.46 2 PID2 Set Point1 Comp Enable P11.47 2 PID2 Set Point1 Comp Max –200.00 P11.48 2 PID2 Set Point 2 Comp Enable P11.49 2 PID2 Set Point 2 Comp Max –200.00 200.
Chapter 8—Multi-Purpose Application Table 105. Torque Control—P13, continued Code Parameter Min. P13.15 2 Max. Unit Default ID WindowNeg Off Limit P13.16 2 Torque Reference Filter TC 0.00 Par. P13.13 Hz 0.00 1639 0 32000 ms 0 P13.17 Pull Out Torque 1640 0 1000.0 % 250.0 1606 P13.18 Startup Torque Time 0 10000 ms 50 1667 P13.19 Stop State Magnetization Time 0 32000 S 0 1684 Note Table 106. Brake—P14 Code Parameter Min. Max. Unit Default ID P14.
Chapter 8—Multi-Purpose Application Table 108. Second Motor Parameter—P16, continued Code Parameter P16.8 1 Min. Max. Unit Default ID Leak Inductance 2 0.001 65.535 P16.9 1 Mutual Inductance 2 0.01 655.35 mh 0.128 1421 mh 3.44 P16.10 1 Excitation Current 2 0.1 Drive Nom CT*2 A 1422 0.1 1423 Min. Max. Unit Note Table 109. Bypass—P17 Code Parameter P17.1 12 Bypass Enable P17.2 12 Bypass Start Delay P17.3 12 Auto Bypass P17.4 12 Auto Bypass Delay P17.
Chapter 8—Multi-Purpose Application Table 111. Real Time Clock—P19 Code Parameter P19.1 2 Min. Interval 1 On Time 0,0,0 491 P19.2 2 Interval 1 Off Time 0,0,0 493 P19.3 2 Interval 1 From Day 0 517 P19.4 2 Interval 1 To Day 0 518 See P19.3 P19.5 2 Interval 1 Channel 0 519 0 = Not Used 1 = Time Channel 1 2 = Time Channel 2 3 = Time Channel 3 P19.6 2 Interval 2 On Time 0,0,0 495 P19.7 2 Interval 2 Off Time 0,0,0 497 P19.8 2 Interval 2 From Day 0 520 See P19.3 P19.
Chapter 8—Multi-Purpose Application Table 112. FB Data Output Sel—P20.1 Code Parameter P20.1.1 2 P20.1.2 2 Min. Max. Unit Default ID Note FB Data Output 1 Sel 1 1556 FB Data Output 2 Sel 2 1557 P20.1.3 2 FB Data Output 3 Sel 3 1558 P20.1.4 2 FB Data Output 4 Sel 4 1559 P20.1.5 2 FB Data Output 5 Sel 5 1560 P20.1.6 2 FB Data Output 6 Sel 6 1561 P20.1.7 2 FB Data Output 7 Sel 7 1562 P20.1.
Chapter 8—Multi-Purpose Application Table 115. EtherNet/IP / Modbus TCP—P20.3 Code Parameter Min. P20.3.1 IP Address Mode P20.3.2 Active IP Address 1507 P20.3.3 Active Subnet Mask 1509 P20.3.4 Active Default Gateway 1511 P20.3.5 MAC Address 1513 P20.3.6 Static IP Address 192.168.1.254 1501 P20.3.7 Static Subnet Mask 255.255.255.0 1503 P20.3.8 Static Default Gateway 192.168.1.1 1505 P20.3.9 EtherNet/IP Protocol Status 0 608 P20.3.10 Connection Limit 2 609 P20.3.
Chapter 8—Multi-Purpose Application Table 116. Basic Setting—P21.1, continued Code Parameter Min. Max. P21.1.7 Password 0 9999 P21.1.8 Parameter Lock P21.1.9 P21.1.10 P21.1.11 Timeout Time 0 65535 P21.1.12 Contrast Adjust 5 18 P21.1.13 Backlight Time 0 65535 P21.1.14 Fan Control P21.1.15 HMI ACK Timeout 200 5000 P21.1.16 HMI Retry Number 1 10 Min. Max. Unit Default ID 0 624 0 625 0 = Change Enable 1 = Change Disable Multimonitor Set 0 627 See P21.1.
Appendix A—Description of Parameters Appendix A—Description of Parameters On the following pages you will find the parameter descriptions arranged according to the parameter number. Some parameter names are followed by a number code indicating the applications in which the parameter is included. See the list of applications below. The parameter numbers under which the parameter appears in different applications are also given.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P1.5 486 Motor Nom Current 1, 2, 3, 4 Motor nominal nameplate full load current. Find this value on the rating plate of the motor. RW Figure 36. Motor Parameters from Ratings Plate P1.5 P1.8 230/400V 4.0/2.3A 0.75 kW cos 0.67 1410 min –1 50 Hz P1.7 P1.6 P1.9 P1.6 489 Motor Nom Speed Motor nominal nameplate base speed. Find this value on the rating plate of the motor. 1, 2, 3, 4 RW P1.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P1.13 136 Local Reference This parameter determines the reference for Local control mode. 1, 2, 3, 4 Standard MultiPump and Fan MultiPID MultiPurpose ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ 6 = Keypad—keypad reference (P1.7.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P1.15 1679 Reverse Enable Enables or disables the reverse motor direction. 1, 2, 3, 4 RW P2.1 222 AI1 Mode 1, 2, 3, 4 Selects the analog input mode for AI1 terminals 2 and 3 for current or voltage, also need to set DIP switches on control board. RW P2.2 175 AI1 Signal Range With this parameter you can select the analog input 1 signal range. For selection “Customized,” see P2.3 and P2.4.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P2.6 181 AI1 Signal Invert 1, 2, 3, 4 Inverts the reference signal. Maximum reference becomes minimum frequency and minimum reference becomes maximum frequency. If this parameter = 0, no inversion of analog Vin signal takes place. If this parameter = 1, inversion of analog signal takes place. Figure 39. AI1 No Signal Inversion Output Frequency P2.22 P2.2/2.12 = 0 AI1 = 0 – 100% P2.2/2.12 = 1 AI1 = Custom P2.21 0 P2.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P2.7 178 AI1 Joystick Hyst 1, 2, 3, 4 This parameter defines the joystick hysteresis between 0 and 20%. When the joystick is turned from reverse to forward, the output frequency falls linearly to the selected minimum frequency (joystick in middle position) and stays there until the joystick is turned toward the forward command.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P2.9 180 AI1 Sleep Delay This parameter defines that the time the analog input signal has to stay under the Sleep limit determined with parameter P2.9 in order to make the frequency converter output min frequency. 1, 2, 3, 4 RW P2.10 133 AI1 Joystick Offset 1, 2, 3, 4 The frequency zero point is the middle of AI range. Joystick offset means how much the zero point is moved in the forward or reverse direction.
Appendix A—Description of Parameters Code Modbus ID Parameter P3.1 143 Start/Stop Logic 1, 2, 3, 4 For the DI function, we use Terminal programming method to function (TTF), where there is a fixed input or output to define a certain function for. 0 Application RO/RW RW P3.2: DI closed contact = start forward P3.3: DI closed contact = start reverse Figure 44. Start Forward / Start Reverse Output Frequency FWD Stop Function (P7.10) = Coasting t REV DIN1 DIN2 1 1 2 3 P3.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P3.1 143 2 P3.2: DI closed contact = start / open contact = stop P3.3: DI closed contact = 1, 2, 3, 4 start enabled / open contact = start disabled and drive stopped if running Motor direction keeps forward RW 3 Three-wire connection (pulse control): P3.2: DI changes from open to closed = start pulse P3.3: DI changes from closed to open = stop pulse P3.5: DI closed contact = reverse/ open contact = forward Figure 46.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P3.8 200 Fault Reset 1, 2, 3, 4 Allows for external fault reset input. Different settings: DigiIN:X indicates on board terminal inputs, DigiIN:A:IOX:X indicates optional board inputs in A slot, DigiIN:B:IOX:X indicates optional board inputs in B slot, or Timer Channel X. RW DI change from open contact to closed contact: reset fault. P3.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P3.13 550 PID1 Control Enable 2, 3, 4 Allows for activating PID1 control mode when it is not set as a reference P1.1.19 or P1.1.20. Different settings: DigiIN:X indicates on board terminal inputs, DigiIN:A:IOX:X indicates optional board inputs in A slot, DigiIN:B:IOX:X indicates optional board inputs in B slot, or Timer Channel X. RW Contact Close: Enables PID 1 control mode. P3.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P3.22 197 Local Control 1, 2, 3, 4 Selection allows for external control panel to control frequency converters control place. Different settings: DigiIN:X indicates on board terminal inputs, DigiIN:A:IOX:X indicates optional board inputs in A slot, DigiIN:B:IOX:X indicates optional board inputs in B slot, or Timer Channel X. RW Closed contact: force to local control. P3.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P3.30 351 PID1 Set Point Sel 2, 3, 4 RW P3.31 352 PID2 Set Point Sel Selection allows for selecting between Setpoint 1 and Setpoint 2 when in the PID control mode. Different settings: DigiIN:X indicates on board terminal inputs, DigiIN:A:IOX:X indicates optional board inputs in A slot, DigiIN:B:IOX:X indicates optional board inputs in B slot, or Timer Channel X.
Appendix A—Description of Parameters Code Modbus ID Parameter P3.44 2118 Fire Mode Reverse 2, 3, 4 Function allows motor to run in reverse when in fire mode. Different settings: DigiIN:X indicates on-board terminal inputs, DigiIN:A:IOX:X indicates optional board inputs in A slot and DigiIN:B:IOX:X indicates optional board inputs in B slot or Timer Channel X. RW P4.1 227 AO1 Mode Selects the analog output mode for AO1 current or voltage. 1, 2, 3, 4 RW P4.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P4.4 147 AO1 Filter Time 1, 2, 3, 4 Defines the filtering time for the analog output signal. Setting this parameter value to 0.00 will deactivate filtering. RW Figure 48. Analog Output Filtering AI AO 100% 63% P2.5 P2.15 P4.4 P4.11 P4.5 150 t (s) AI1 AI2 AO1 AO2 Notes Analog signal with faults (unfiltered). Filtered analog signal. Filter time constant at 63% of the set value.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P4.7 375 AO1 Offset Add –100.0 to 100.0% to the analog output. 1, 2, 3, 4 RW P4.8 228 AO2 Mode Selects the analog output mode for AO2 current or voltage. 1, 2, 3, 4 RW P4.9 229 AO2 Function Selects the desired function for the AO1 terminal 24, see P4.2 for settings. 1, 2, 3, 4 RW P4.10 232 AO2 Minimum 1, 2, 3, 4 RW P4.11 230 AO2 Filter Time 1, 2, 3, 4 RW P4.12 233 AO2 Scale 1, 2, 3, 4 RW P4.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P5.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P5.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P5.5 154 Freq Limit 1 Supv Selects how the Frequency converter functions upon the value setting. 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW P5.6 155 0 No supervision 1 Low limit supervision 2 High limit supervision 3 Brake-on control (Application 4 only) Freq Limit 1 Supv Val. Selects the frequency value supervised by P1.5.5.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P5.11 161 Ref Limit Supv Selects how the frequency converter functions upon the value setting. 1, 2, 3, 4 RW 1, 2, 3, 4 RW P5.12 162 0 No supervision 1 Low limit supervision 2 High limit supervision Ref Limit Supv Val The frequency value to be supervised by P5.11. If the output frequency goes under/over the set limit (P5.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P5.18 168 Power Limit Supv Val This power value is supervised by P5.17. 1, 2, 3, 4 RW If the calculated power value falls below or exceeds the set limit (P5.18), this function generates a warning message via the digital output DO1 or via a relay output RO1, RO2 or RO3, depending on the settings of P5.1 to P5.2, P5.3, and P5.4. P5.19 P5.20 P5.
Appendix A—Description of Parameters Code Modbus ID Parameter P6.1 751 Logic Function Select 4 The logic function enables you to link both parameters P6.2(A) and P6.3 (B) logically with each other. The result (LOG) can then be assigned to the digital outputs DO, RO1, RO2 and RO3. The type of operation is defined in parameter P6.1: 0 AND 1 OR 2 XOR Application RO/RW RW P6.2 752 Logic Operation Input A Input A for Logic function calculation defined in P6.1. 4 RW P6.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P7.6 117 Jog Reference Defines the jogging speed selected with the digital input that can be programmed for Jogging speed. 1, 2, 3, 4 RW This parameter’s value is automatically limited between minimum and maximum frequency (P1.1.1 and P1.1.2). P7.7 156 Motor Pot Ramp Time Defines the speed of change of the motor potentiometer reference value. 4 RW P7.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P7.12 248 Ramp 2 Shape 1, 2, 3, 4 The start and end of the acceleration and deceleration ramps can be smoothed with these parameters. Setting a value of 0.0 gives a linear ramp shape that causes acceleration and deceleration to react immediately to the changes in the reference signal. RW Setting a value from 0.1 to 10 seconds for this parameter produces an S-shaped acceleration/deceleration.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P7.20 261 Skip F3 High Lim 1, 2, 3, 4 In some systems it may be necessary to avoid certain frequencies because of mechanical resonance problems. With these parameters, limits are set for the “skip frequency” regions. The frequency converter will skip the set frequencies, ramp time will be the same. See Figure 54. RW Figure 54. Example of Skip Frequency Area Setting Output Frequency (Hz) P7.15 P7.17 P7.19 P7.16 P7.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P7.24 2121 Currency Sets the currency used for energy saving calculator. 0 $ 1, 2, 3, 4 RW 1 GBP 2 Eur 3 JPY 4 Rs 5 R$ 6 Fr 7 Kr P7.25 2122 Energy Cost Local energy cost per kWh in the drives area. 1, 2, 3, 4 RW P7.26 2123 Data Type 1, 2, 3, 4 Selects the format to view energy savings. The drive will take four recordings in an hour and then calculate out averages for other values. RW P7.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P8.3 109 V/Hz optimization Automatic torque boost 1, 2, 3, 4 The voltage to the motor changes automatically, which makes the motor produce sufficient torque to start and run at low frequencies. The voltage increase depends on the motor type and power. Automatic torque boost can be used in applications where starting torque due to starting friction is high, e.g., in conveyors.
Appendix A—Description of Parameters Code Modbus ID P8.4 108 Parameter Application RO/RW V/Hz Ratio 1, 2, 3, 4 RW Linear 0 The voltage of the motor changes linearly with the frequency in the constant flux area from 0 Hz to the field weakening point where the nominal voltage is supplied to the motor. A linear V/Hz ratio should be used in constant torque applications. This default setting should be used if there is no special need for another setting.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P8.5 289 Field Weakening Point The field weakening point is the output frequency at which the output voltage reaches the set (P8.6) maximum value. 1, 2, 3, 4 RW P8.6 290 Voltage at FWP 1, 2, 3, 4 Above the frequency at the field weakening point, the output voltage remains at the set maximum value. Below the frequency at the field weakening point, the output voltage depends on the setting of the V/Hz curve parameters.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P8.17 1585 Frequency Ramp Out Filter Time Constant Filter time used when ramping the drive to a stop. 1,2,3,4 RW P8.18 1591 Speed Error Filter Time Constant Speed control filter time in open loop speed control mode. 4 RW P8.19 1592 Speed Error Band Stop Frequency Stop frequency band when in speed control mode. 4 RW P8.20 1593 Speed Control Kp Open loop speed control gain. 4 RW P8.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P8.39 1622 Start Boost Rise Time Acceleration time used with auto torque boost. 1,2,3,4 RW P8.40 1623 Flux Current Ramp Time Time to use the flux ramp level when advanced motor control is needed. 4 RW P8.41 1624 Zero Speed Start Time Zero speed delay time when starting the motor. 4 RW P8.42 1625 Zero Speed Stop Time Zero speed delay time when stopping the motor. 4 RW P8.
Appendix A—Description of Parameters Code Modbus ID Parameter P9.1 306 4 mA Input Fault 1, 2, 3, 4 A warning or a fault action and message is generated if the 4–20 mA reference signal is used and the signal falls below 4 mA for 5 seconds or below 0.5 mA for 0.5 seconds. The information can also be programmed into digital output DO1 or relay outputs RO1 and RO2. 0 No response 1 Warning 2 Warning, the frequency from 10 seconds back is set as reference 3 Warning, the Preset Frequency P9.
Appendix A—Description of Parameters Code Modbus ID Parameter P9.7 309 Ground Fault 1, 2, 3, 4 Earth fault protection ensures that the sum of the motor phase currents is zero. The overcurrent protection is always working and protects the frequency converter from earth faults with high currents. Frequency Converter will cores pond the setting below. P9.8 P9.9 310 311 Application RO/RW 0 No response 1 Warning 2 Fault, stop mode after fault according to P7.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P9.10 312 Motor Thermal Time This time can be set between 1 and 200 minutes. 1, 2, 3, 4 RW Stall Protection 1, 2, 3, 4 Stall protection is a type of overcurrent protection. It protects the motor from short time overload situations like a stalled shaft. This is customer selectable based off of current level, frequency level and time.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P9.12 314 Stall Current Limit 1, 2, 3, 4 The current can be set to 0.1–InMotor*2. For a stall stage to occur, the current must have exceeded this limit. See Figure 60. The software does not allow entering a greater value than InMotor*2. If P1.5, nominal motor current is changed, this parameter is automatically restored to the default value (IL). RW Figure 60. Stall Characteristics Settings I Stall Area P9.12 f P9.
Appendix A—Description of Parameters Code Modbus ID Parameter P9.15 317 Underload Protection 1, 2, 3, 4 If tripping is set active, the drive will stop and activate the fault stage. Deactivating the protection by setting the parameter to zero will reset the underload time counter to zero. P9.16 318 Application RO/RW 0 No response 1 Warning 2 Fault, stop mode after fault according to P7.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P9.18 320 Underload Time Limit This time can be set between 2.0s and 600.0s. 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW This is the maximum time allowed for an underload state to exist. An internal up/ down counter counts the accumulated underload time. If the underload counter value goes above this limit, the protection will cause a trip according to P9.15.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P9.24 321 Wait Time Defines the time before the frequency converter tries to automatically restart the motor after the fault condition has been received. 1, 2, 3, 4 RW P9.25 322 Trial Time The Automatic restart function restarts the frequency converter when the faults selected with P9.27 to P9.32 have cleared and the waiting time has elapsed. 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW Figure 64.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P9.29 326 Overcurrent Attempts This parameter determines how many automatic restarts can be made during the trial time set by P9.25. 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW 1, 2, 3, 4 RW Note: An IGBT temperature fault, Saturation Fault and Overcurrent Faults are included as part of this fault.
Appendix A—Description of Parameters Code Modbus ID Parameter P9.36 1256 Replace Battery Fault Response 1, 2, 3, 4 Sets how the frequency converter responds to a low voltage on the Real Time Clock battery. P9.37 P9.38 P9.39 1257 1678 2126 0 No response 1 Warning 2 Fault, stop mode after fault according to P7.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P10.6 1300 PID1 Process Unit Min Minimum process unit Value. 2, 3, 4 RW P10.7 1302 PID1 Process Unit Decimal Decimal places in process unit Value. 2, 3, 4 RW P10.8 1303 PID1 Error Inversion 0 Normal, If feedback is less than setpoint, PID controller output increases 2, 3, 4 RW 1 Inverted, If feedback is less than setpoint, PID controller output decreases P10.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P10.27 1326 PID1 Set Point 2 Sleep Delay The minimum amount of time the frequency has to remain below the sleep level before the drive is stopped. 2, 3, 4 RW P10.28 1327 PID1 Set Point 2 Wake-Up Level Defines the level for the PID feedback value wake-up supervision. Uses selected process units. 2, 3, 4 RW P10.29 1329 PID1 Set Point 2 Boost The setpoint can be boosted with a digital input. 2, 3, 4 RW P10.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P10.49 1355 PID1 Set Point 2 Comp Max 2, 3, 4 Value added proportionally to the frequency, setpoint compensation = comp max * (output freq–min freq)/(max freq–min freq). RW Procedure for setting up PID Application: Initially set PID Gain (P10.1) to 0.0% and set the PID I Time (P10.2) to 20 sec. Start the frequency converter and verify if the setpoint is reached quickly while maintaining stable operation of the system.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P11.4 1359 PID2 Process Unit See P10.4. 3, 4 RW P11.5 1360 PID2 Process Unit Min See P10.5. 3, 4 RW P11.6 1362 PID2 Process Unit Max See P10.6. 3, 4 RW P11.7 1364 PID2 Process Unit Decimal See P10.7. 3, 4 RW P11.8 1365 PID2 Error Inversion See P10.8. 3, 4 RW P11.9 1366 PID2 Dead Band See P10.9. 3, 4 RW P11.10 1368 PID2 Dead Band Delay See P10.10. 3, 4 RW P11.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P11.27 1388 PID2 Set Point 2 Sleep Delay See P10.27. 3, 4 RW P11.28 1389 PID2 Set Point 2 Wake-Up Level See P10.28. 3, 4 RW P11.29 1391 PID2 Set Point 2 Boost See P10.29. 3, 4 RW P11.30 1392 PID2 Feedback Func See P10.30. 3, 4 RW P11.31 1393 PID2 Feedback Gain See P10.31. 3, 4 RW P11.32 1394 PID2 Feedback 1 Source See P10.32. 3, 4 RW P11.33 1395 PID2 Feedback 1 Min See P10.33. 3, 4 RW P11.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P12.1 105 Preset Speed 1 1, 2, 3, 4 RW P12.2 106 Preset Speed 2 Parameter values are automatically limited between the minimum and maximum frequencies (P1.1, P1.2). Sets the desired frequency when input is applied. 1, 2, 3, 4 RW P12.3 118 Preset Speed 3 1, 2, 3, 4 RW P12.4 119 Preset Speed 4 1, 2, 3, 4 RW P12.5 120 Preset Speed 5 1, 2, 3, 4 RW P12.6 121 Preset Speed 6 1, 2, 3, 4 RW P12.
Appendix A—Description of Parameters Code Modbus ID Parameter P13.11 1666 Torque Control Freq Max 4 With this parameter, the maximum frequency for the torque control can be selected. 0 Maximum frequency, P1.2 1 Selected frequency reference 2 Preset speed 7, P12.7 Application RO/RW RW P13.12 1636 Window Pos Width Positive torque control width. 4 RW P13.13 1637 Window Neg Width Negative torque control width. 4 RW P13.14 1638 Window Pos Off Limit Positive torque off limit. 4 RW P13.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P14.4 255 Stop DC-Brake Time 1, 2, 3, 4 Determines if braking is ON or OFF and the braking time of the DC-brake when the motor is stopping. The function of the DC-brake depends on the stop function, P7.10. RW >0.0 DC-brake is not used >0.0 DC-brake is in use and its function depends on the Stop function, (P7.10). The DC-braking time is determined with this parameter Par. P7.
Appendix A—Description of Parameters Code Modbus ID Parameter P14.5 251 Brake Chopper 1, 2, 3, 4 When the frequency converter is decelerating the motor, the inertia of the motor and the load is fed into an external brake resistor. This enables the frequency converter to decelerate the load with a torque equal to that of acceleration (provided that the correct brake resistor has been selected). 0 Application RO/RW RW No brake chopper used 1 Brake chopper in use and tested when running.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P16.5 581 Motor Nom Freq 2 The second motor set vn. Selected based off of a digital input. 2, 3, 4 RW P16.6 1419 Stator Resistor 2 The second set of motor stator resistor real value. 4 RW P16.7 1420 Rotor Resistor 2 The second set of motor rotor resistor real value. 4 RW P16.8 1421 Leak Inductance 2 The second set of motor leakage inductance real value. 4 RW P16.
Appendix A—Description of Parameters Code Modbus ID Parameter P17.8 545 Undervoltage Bypass Enable 2, 3, 4 This parameter specifies whether an automatic switch to bypass will occur after the undervoltage fault auto-restart tries have been exceeded. P17.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P18.10 483 Damper Start This parameter determines the function of damper. 2, 3, 4 RW 0 Start standard start 1 Interlocked Start—To use this, a relay output, RO1–RO3, needs to be programmed for selections 35 “Damper Control,” and a digital input DIN must be programmed for selection “RunEn/INTLK.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P19.6 495 Interval 2 On Time See P19.1. 2, 3, 4 RW P19.7 497 Interval 2 Off Time See P19.2. 2, 3, 4 RW P19.8 520 Interval 2 From Day See P19.3. 2, 3, 4 RW P19.9 521 Interval 2 To Day See P19.4. 2, 3, 4 RW P19.10 522 Interval 2 Channel See P19.5. 2, 3, 4 RW P19.11 499 Interval 3 On Time See P19.1. 2, 3, 4 RW P19.12 501 Interval 3 Off Time See P19.2. 2, 3, 4 RW P19.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P19.26 511 Timer 1 Duration The timer will run when activated by DI). 2, 3, 4 RW P19.27 532 Timer 1 Channel Select affected time channel. 2, 3, 4 RW 0 Not used 1 Time channel 1 2 Time channel 2 3 Time channel 3 P19.28 513 Timer 2 Duration See P19.26. 2, 3, 4 RW P19.29 533 Timer 2 Channel SeeP19.27. 2, 3, 4 RW P19.30 515 Timer 3 Duration See P19.26. 2, 3, 4 RW P19.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P20.2.5 588 Protocol Status This parameter shows the protocol status for RS-485 communication. 1, 2, 3, 4 RO 0 Initial 1 Stopped 2 Operational 3 Faulted P20.2.6 589 Slave Busy Shows the status of the Slave device on the network. 1, 2, 3, 4 RO P20.2.7 590 Parity Error Counts the amount of Parity Errors seen on the RS-485 network. 1, 2, 3, 4 RO P20.2.
Appendix A—Description of Parameters Code Modbus ID Parameter P20.3.7 1503 Static Subnet Mask 1, 2, 3, 4 The static IP address. This parameter is used for user to configure the subnet mask, when P20.3.1 is set to be 1. RW P20.3.8 1505 Static Default Gateway The static IP address. This parameter is used for user to configure the default gateway, when P20.3.1 is set to be 1. 1, 2, 3, 4 RW P20.3.9 608 EtherNet/IP Protocol Status Indicates if Ethernet Protocol is active or not.
Appendix A—Description of Parameters Code Modbus ID Parameter P21.1.5 621 Down From Keypad 1, 2, 3, 4 This function downloads one or all parameter groups from the keypad to the drive. P21.1.6 623 0 No 1 Yes (All parameters) Application RO/RW Param Comparison With the Parameter Comparison function, you can compare the actual parameter values to the values of your customized parameter sets and those loaded to the control keypad.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P21.1.14 632 Fan Control 1, 2, 3, 4 This function allows you to control the PowerXL DG1’s cooling fan. You can set the fan to run: 1 Continuous fan runs continuously 2 Temperature—based on the temperature of the unit. The fan is switched on automatically when the heat sink temperature reaches 60°C. The fan receives a stop command when the heat sink temperature falls to 55°C.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW P21.4.3 601 Total MWh Count Megawatt hours total operation time counter. 1, 2, 3, 4 RO P21.4.4 603 Total Power Day Count Number of days the GMAX has been supplied with power. 1, 2, 3, 4 RO P21.4.5 606 Total Power Hr Count Number of hours the GMAX has been supplied with power. 1, 2, 3, 4 RO P21.4.6 604 Trip MWh Count Megawatts hours since last reset. 1, 2, 3, 4 RW P21.4.
Appendix A—Description of Parameters Code Modbus ID Parameter M14 25 Analog Output 1 1, 2, 3, 4 Analog output 1 measured value supplied from the drive. Can be a current or voltage output signal. RO M15 575 Analog Output 2 1, 2, 3, 4 Analog output 2 measured value supplied from the drive. Can be a current or voltage output signal. RO M16 12 DI1, DI2, DI3 Digital input status. 1, 2, 3, 4 RO M17 13 DI4, DI5, DI6 Digital input status. 1, 2, 3, 4 RO M18 576 DI7, DI8 Digital input status.
Appendix A—Description of Parameters Code Modbus ID Parameter Application RO/RW M36 34 PID2 Feedback PID2 actual value feedback level. 3, 4 RO M37 36 PID2 Error Value PID2 difference between set point and feedback value levels. 3, 4 RO M38 38 PID2 Output PID2 output percentage to the motor. 3, 4 RO M39 39 PID2 Status PID2 status indication. Indicates if drive is stopped, running in PID mode, or in PID sleep mode.
Appendix B—Faults and Warning Codes Appendix B—Faults and Warning Codes Under this menu, you can find Active faults, History faults and Fault codes. Table 120. Active Faults Menu Function Note Active Faults When a fault/faults appear(s), the display with the name and fault time of the fault will be pop. Press DETAIL to see the fault data. The Active Faults submenu shows the list of faults. Select the fault and push DETAIL to see the fault data.
Appendix B—Faults and Warning Codes Fault Code Fault Name Fault Type Default Fault Type Possible Cause Remedy 8 UnderVoltage Configurable 1 Fault DC link voltage is under the voltage limits defined: • Most probable cause: Too low a supply voltage • AC drive internal fault • Defect input fuse • External charge switch not closed Note: This fault is activated only if the drive is in Run state.
Appendix B—Faults and Warning Codes Fault Code Fault Name Fault Type Default Fault Type Possible Cause Remedy 28 Device Removed Fault Optional board removed from slot, or power board removed from control board Device no longer available 29 Device Unknown Fault Unknown device connected (power board/option board Device no longer available 30 IGBT OverTemp Fault IGBT temperature is too high • Check loading • Check motor size • Decrease switching frequency 31 Encoder Fault Fault • • • •
Appendix B—Faults and Warning Codes 194 PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Appendix B—Faults and Warning Codes PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
Appendix B—Faults and Warning Codes 196 PowerXL DG1 Series Adjustable Frequency Drives MN040004EN—March 2014 www.eaton.
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