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2

SAFETY INSTRUCTIONS

Connection of the shield to the ground.

2.3 IDENTIFICATION LABEL OF THE MVW3000

The identification label of the MVW3000 is located inside the product Control Panel. The label contains important
information on the inverter.

AUTOMATION UNIT

SWITCHGEAR AND CONTROLGEAR

TYPE: MVW3000
MANUFACTURING YEAR:
 
DOCUMENT : 10004545394
SERIAL No:
MATERIAL: 13777913
WEIGHT: 1560 kg
 
IP: 41

Ur: 7.2 kV
fr: 50 Hz
Up: 45 kV
Ud: 15 kV
COMMAND Ua: 220 Vca
 
Ir (GENERAL BUSBAR): 200 A
Ik: 15.7 kA
 
Ip: 40.8 kA

INSTRUCTION MANUAL

Figure 2.1:

MVW3000 identification label (example)

2.4 PRELIMINARY RECOMMENDATIONS

DANGER!

Only qualified personnel, familiar with the MVW3000 inverter and related equipment must plan or
perform the installation, commissioning, operation and maintenance of this equipment.
Such personnel must follow the safety instructions described in this manual and/or defined by local
standards.
Failure to comply with the safety instructions may cause risk of death and/or equipment damage.

NOTE!

For the purposes of this manual, qualified personnel are those trained in order to be able to:
1. Install, ground, power up and operate the MVW3000 in accordance with this manual and the
safety legal procedures in force.
2. Wear/use protective equipment according to the standards in force.
3. Give first aid.

MVW3000 | 2-2

Summary of Contents for MVW3000 Series

Page 1: ...Motors Automation Energy Transmission Distribution Coatings Medium Voltage Frequency Inverter MVW3000 Programming Manual...

Page 2: ......

Page 3: ...Programming Manual Series MVW3000 Software version 1 3X Language English Document Number 10004771632 02 Build 1633 Publication Date 10 2019...

Page 4: ...s New voltage and current models 02 Addition of the Ride through function for scalar control mode 1 2X 03 Cell parallelism support Redundant cell support 1 3X 04 Monitoring and protection of multiple...

Page 5: ...4 2 STARTING THE USE OF THE HMI 4 2 4 2 1 HMI Basic Visualization Modes 4 3 4 2 2 Structure of the menu 4 5 4 3 PARAMETER EDITION 4 6 4 3 1 Numerical edition 4 6 4 3 2 Alphanumerical edition 4 7 4 4...

Page 6: ...TING TECHNICAL SUPPORT 7 66 7 3 PREVENTIVE MAINTENANCE 7 66 7 3 1 Preventive Maintenance During Operation 7 66 7 3 2 Preventive Maintenance with Complete Stop De energization 7 68 7 4 SAFE DE ENERGIZA...

Page 7: ...ngle pole MVC4 board Read only parameter 5 6 P0019 Value of analog input AI2 two pole MVC4 board Read only parameter 5 6 P0020 Value of analog input AI3 two pole EBB board Read only parameter 5 6 P002...

Page 8: ...I2 DI16 5 9 P0071 Status of MVC3 board relay digital out puts RL1 to RL8 5 10 P0076 i x t Overload Read only parameter 5 10 P0077 Motor eld current Read only parameter A 5 10 P0079 Synchronous motor s...

Page 9: ...0 100 0 5 22 P0143 1 Intermediate output voltage 0 0 to 100 0 50 0 5 22 P0144 1 Output voltage at 3 Hz 0 0 to 100 0 8 0 5 22 P0145 1 2 Field weakening speed 0 to 7200 rpm 1800 rpm 5 22 P0146 1 2 Inter...

Page 10: ...P0202 2 7 Control Type 0 V F 60 Hz 1 V F 50 Hz 2 Adjustable V F refer to P0142 to P0146 3 Sensorless Vector 4 Vector with Encoder 0 5 30 P0203 1 Special function selection 0 None 1 PID regulator 0 5 3...

Page 11: ...ldbus 11 Analog Input AI5 P0721 to P0724 12 PLC 13 Graphic HMI and key 13 5 36 P0222 1 Speed reference selection REMOTE sit uation 0 Key and of service HMI 1 Analog Input AI1 P0234 to P0236 2 Analog I...

Page 12: ...ey 0 5 38 P0228 1 JOG Selection REMOTE Situation 0 Disable 1 HMI JOG key 2 Digital inputs DI3 to DI10 P0265 to P0272 3 Serial 4 Fieldbus 5 PLC 6 Graphic HMI JOG key 1 5 39 P0231 Actuation in the trans...

Page 13: ...0 0 to 10 V 0 to 20 mA 1 4 to 20 mA 2 10 to 0 V 20 to 0 mA 3 20 to 4 mA 4 10 to 10 V 0 5 49 P0247 Analog input AI4 offset bipolar EBA board 100 0 to 100 0 0 0 5 49 P0248 Analog input AI2 lter bipolar...

Page 14: ...iable PID 7 Output Active Current 8 Inverter output power 9 PID Reference 10 Reserved 11 Trace function channel 1 12 Trace function channel 2 13 Trace function channel 3 14 Trace function channel 4 15...

Page 15: ...output AO5 gain unipolar iso lated MVC4 board 0 000 to 9 999 1 000 5 52 P0261 AO6 Function 0 Motor speed reference 1 Total Reference 2 Motor speed 3 Reserved 4 Reserved 5 Motor Current 6 Value of pro...

Page 16: ...n the Redundant Ventilation Set A 24 No Alarm in the Redundant Ventilation Set B 25 Initiates Synchronous Transfer 26 Ventilation OK 0 5 54 P0266 1 DI4 Function 0 Not Used 1 Local Remote 2 General Ena...

Page 17: ...in the Redundant Ventilation Set A 24 No Alarm in the Redundant Ventilation Set B 25 Initiates Synchronous Transfer 26 Ventilation OK 3 5 54 P0268 1 DI6 Function 0 Not Used 1 Local Remote 2 General En...

Page 18: ...18 Reserved 19 Parameterization Disabling 20 Reserved 21 RL2 Timer 22 RL3 Timer 23 Initiates Synchronous Transfer 24 Ventilation OK 0 5 54 P0270 1 DI8 Function 0 Not Used 1 Local Remote 2 General Ena...

Page 19: ...m in the Redundant Ventilation Set A 22 No Alarm in the Redundant Ventilation Set B 23 Initiates Synchronous Transfer 24 Ventilation OK 0 5 54 P0272 1 DI10 Function 0 Not Used 1 Local Remote 2 General...

Page 20: ...served 30 Redundant ventilation 31 Reserved 32 Circuit break ON Input Circuit Breaker ON 33 Transference OK 34 Synchronism OK 35 Serial 0 5 60 P0276 1 DO2 Function 0 Not Used 1 N Nx 2 N Nx 3 N Ny 4 N...

Page 21: ...29 Reserved 30 Redundant ventilation 31 PLC 32 Circuit Break ON Input Circuit Breaker ON 33 Transference OK 34 Synchronism OK 35 Serial 13 5 60 P0279 1 RL2 Function 0 Not Used 1 N Nx 2 N Nx 3 N Ny 4...

Page 22: ...9 Timer 30 Redundant ventilation 31 PLC 32 Circuit Break ON Input Circuit Breaker ON 33 Transference OK 34 Synchronism OK 35 Serial 1 5 60 P0281 1 RL4 Function 0 Not Used 1 N Nx 2 N Nx 3 N Ny 4 N N 5...

Page 23: ...Fault 26 N Nx and Nt Nx 27 Without error with delay 28 No Alarm 29 Reserved 30 Redundant ventilation 31 Reserved 32 Circuit break ON Input Circuit Breaker ON 33 Transference OK 34 Synchronism OK 35 S...

Page 24: ...V 4 5500 V 5 6300 V 6 6900 V 7 7200 V 8 8000 V 9 9000 V 10 10000 V 11 11000 V 12 12000 V 13 13200 V 14 13800 V 14 5 66 P0303 Skipped Speed 1 0 to 4095 rpm 600 rpm 5 66 P0304 Skipped Speed 2 0 to 4095...

Page 25: ...50 0 s 8 0 s 5 70 P0332 Dead time 1 0 to 40 0 s 10 0 s 5 70 P0333 Ride through time 0 0 to 20 0 s 10 0 s 5 70 P0400 1 4 Motor rated voltage 1 to 19999 V 6600 V 5 71 P0401 1 Motor rated current 0 1 to...

Page 26: ...ent A1 of the Polynomial of the magnetic saturation curve 0 000 to 9 999 0 000 5 81 P0455 Coef cient B1 of the Polynomial of the magnetic saturation curve 0 000 to 9 999 0 174 5 81 P0456 Coef cient C1...

Page 27: ...ent 4 Reserved 5 Motor Frequency 6 Output voltage 7 Motor Torque 8 Inverter output power 9 Value of process variable PID 0 5 83 P0505 Read only parameter 6 selection 0 Inactive 1 Motor speed reference...

Page 28: ...85 P0521 PID integral gain 0 000 to 9 999 1 000 5 85 P0522 PID differential gain 0 000 to 9 999 0 000 5 85 P0523 PID ramp time 0 0 to 999 0 s 3 0 s 5 85 P0524 1 PID feedback selection 0 P0237 AI2 sign...

Page 29: ...V 20mA 0 3 20 4 mA 0 5 95 P0724 Analog input AI5 offset bipolar isolated MVC4 board 0 0 to 100 0 0 0 5 95 P0725 Minimum coasting time 0 to 300 s 0 s 5 96 P0740 Function of analog input AI1 MVC3 0 Not...

Page 30: ...ly parameter V 5 98 P1021 DC link voltage of cell V10 Read only parameter V 5 98 P1022 DC link voltage of cell V11 Read only parameter V 5 98 P1023 DC link voltage of cell V12 Read only parameter V 5...

Page 31: ...Read only parameter C 5 99 P1065 Temperature on the power module of cell V4 Read only parameter C 5 99 P1066 Temperature on the power module of cell V5 Read only parameter C 5 99 P1067 Temperature on...

Page 32: ...44 Voltage between the virtual neutral of the motor and the ground of the system Read only parameter 5 102 P1155 Phase U cell status U1 Un 5 102 P1156 Phase V cell status V1 Vn 5 102 P1157 Phase W cel...

Page 33: ...n the board of cell W7 Read only parameter C 5 103 P1381 Temperature on the board of cell W8 Read only parameter C 5 103 P1382 Temperature on the board of cell W9 Read only parameter C 5 103 P1383 Tem...

Page 34: ...ss relay 3 Automatic bypass after a manageable fault 4 Automatic bypass by parallel association 0 5 109 P1705 7 Bypass of the cell U6 0 Disable 1 Mechanical bypass cell 2 Manual activation of the bypa...

Page 35: ...ss cell 2 Manual activation of the bypass relay 3 Automatic bypass after a manageable fault 4 Automatic bypass by parallel association 0 5 110 P1717 7 Bypass of the cell V6 0 Disable 1 Mechanical bypa...

Page 36: ...ss cell 2 Manual activation of the bypass relay 3 Automatic bypass after a manageable fault 4 Automatic bypass by parallel association 0 5 111 P1729 7 Bypass of the cell W6 0 Disable 1 Mechanical bypa...

Page 37: ...llelism 1 2 cells in parallel 2 3 cells in parallel 0 5 112 P1893 7 Transformer at the input 0 1 transformer 1 2 transformers 2 3 transformers 2 5 112 NOTE Quick parameter reference notes 1 Parameter...

Page 38: ...bicle protection 7 2 F0017 Inverter not ready to energize 7 2 A0018 Inverter main transformer alarm 7 2 F0019 Inverter main transformer fault 7 2 F0020 Pre charge fault 7 2 F0025 Inverter door locking...

Page 39: ...m set B 7 5 A0123 Programming alarm 7 6 A0124 Parameter alteration with enabled inverter 7 6 A0125 Reading writing in inexistent parameter 7 6 A0126 Parameter Value Out of Range 7 6 A0127 Function not...

Page 40: ...emperature sensor of the thermal protection relay CH7 7 10 A0367 Fault in the temperature sensor of the thermal protection relay CH8 7 10 F0368 1 Overtemperature detected by the thermal protection rel...

Page 41: ...or PLD cell U1 7 13 F0425 Cell U2 DC link overvoltage 7 13 F0426 Cell U2 DC link undervoltage 7 13 A0427 Overtemperature on cell U2 IGBT module 7 13 F0428 Overtemperature on cell U2 IGBT module 7 13...

Page 42: ...odule 7 16 F0478 Overtemperature on cell U4 IGBT module 7 16 F0479 Defective temperature sensor or undertemperature on cell U4 IGBT 7 16 F0480 Cell U4 phase IGBT 7 17 F0481 Cell U4 neutral IGBT 7 17 F...

Page 43: ...7 19 F0530 Cell U6 phase IGBT 7 20 F0531 Cell U6 neutral IGBT 7 20 F0533 Cell U6 phase pulse feedback 7 20 F0535 Cell U6 neutral pulse feedback 7 20 F0536 Cell U6 electronics power supply 7 20 F0541 C...

Page 44: ...neutral pulse feedback 7 23 F0586 Cell U8 electronics power supply 7 23 F0591 Cell U8 modulation synchronism 7 23 F0592 Cell U8 bypass system 7 23 F0593 Communication with cell U8 7 23 F0595 Incompat...

Page 45: ...F0642 Cell V2 bypass system 7 26 F0643 Communication with cell V2 7 26 F0645 Incompatible cell V2 rmware 7 26 F0646 Incompatible cell V2 model 7 26 F0647 Cell V2 insulation defective 7 26 F0648 Firmwa...

Page 46: ...ompatible cell V4 model 7 29 F0697 Cell V4 insulation defective 7 29 F0698 Firmware update or PLD cell V4 7 29 F0700 Cell V5 DC link overvoltage 7 30 F0701 Cell V5 DC link undervoltage 7 30 A0702 Over...

Page 47: ...3 F0751 Cell V7 DC link undervoltage 7 33 A0752 Overtemperature on cell V7 IGBT module 7 33 F0753 Overtemperature on cell V7 IGBT module 7 33 F0754 Defective temperature sensor or undertemperature on...

Page 48: ...36 F0804 Defective temperature sensor or undertemperature on cell W1 IGBT 7 36 F0805 Cell W1 phase IGBT 7 36 F0806 Cell W1 neutral IGBT 7 36 F0808 Cell W1 phase pulse feedback 7 36 F0810 Cell W1 neutr...

Page 49: ...Cell W3 neutral IGBT 7 39 F0858 Cell W3 phase pulse feedback 7 39 F0860 Cell W3 neutral pulse feedback 7 39 F0861 Cell W3 electronics power supply 7 40 F0866 Cell W3 modulation synchronism 7 40 F0867...

Page 50: ...W5 electronics power supply 7 43 F0916 Cell W5 modulation synchronism 7 43 F0917 Cell W5 bypass system 7 43 F0918 Communication with cell W5 7 43 F0920 Incompatible cell W5 rmware 7 43 F0921 Incompati...

Page 51: ...ommunication with cell W7 7 46 F0970 Incompatible cell W7 rmware 7 46 F0971 Incompatible cell W7 model 7 46 F0972 Cell W7 insulation defective 7 46 F0973 Firmware update or PLD cell W7 7 46 F0975 Cell...

Page 52: ...fective 7 49 F1023 Firmware update or PLD cell U9 7 49 F1025 Cell U10 DC link overvoltage 7 49 F1026 Cell U10 DC link undervoltage 7 49 A1027 Overtemperature on cell U10 IGBT module 7 49 F1028 Overtem...

Page 53: ...2 A1077 Overtemperature on cell U12 IGBT module 7 52 F1078 Overtemperature on cell U12 IGBT module 7 52 F1079 Defective temperature sensor or undertemperature on cell U12 IGBT 7 52 F1080 Cell U12 phas...

Page 54: ...rtemperature on cell V10 IGBT 7 55 F1130 Cell V10 phase IGBT 7 56 F1131 Cell V10 neutral IGBT 7 56 F1133 Cell V10 phase pulse feedback 7 56 F1135 Cell V10 neutral pulse feedback 7 56 F1136 Cell V10 el...

Page 55: ...l V12 phase pulse feedback 7 59 F1185 Cell V12 neutral pulse feedback 7 59 F1186 Cell V12 electronics power supply 7 59 F1191 Cell V12 modulation synchronism 7 59 F1192 Cell V12 bypass system 7 59 F11...

Page 56: ...l W10 modulation synchronism 7 62 F1242 Cell W10 bypass system 7 62 F1243 Communication with cell W10 7 62 F1245 Incompatible cell W10 rmware 7 62 F1246 Incompatible cell W10 model 7 62 F1247 Cell W10...

Page 57: ...cell W12 IGBT 7 64 F1280 Cell W12 phase IGBT 7 65 F1281 Cell W12 neutral IGBT 7 65 F1283 Cell W12 phase pulse feedback 7 65 F1285 Cell W12 neutral pulse feedback 7 65 F1286 Cell W12 electronics power...

Page 58: ...1 QUICK REFERENCE OF PARAMETERS AND FAULTS MVW3000 1 52...

Page 59: ...f risk to the physical integrity and or life of people The designer who applies the MVW3000 must provide ways to ensure the safety of the installation even in case of a failure of the servo drive 2 1...

Page 60: ...l example 2 4 PRELIMINARY RECOMMENDATIONS DANGER Only quali ed personnel familiar with the MVW3000 inverter and related equipment must plan or perform the installation commissioning operation and main...

Page 61: ...ipment frame to the protective earth PE at the proper terminal WARNING Electronic boards have components sensitive to electrostatic discharges Do not touch directly the component parts or connectors I...

Page 62: ...2 SAFETY INSTRUCTIONS MVW3000 2 4...

Page 63: ...neered to meet the needs and technical speci cations of our customers Sizes techni cal recommendations performance data and optional items can be changed in relation to the information contained in th...

Page 64: ...pages 4 3 and 4 4 For models with rated voltage above 8000 V contact WEG Figure 3 1 General illustration of the MVW3000 panel Frame B6 WARNING It is very important to check that the inverter software...

Page 65: ...ctions present operation navigation and programming similar with WEG product line O JOG LOC REM Trend 13 38 Menu In Ref LOC 900rpm 900 rpm Motor Speed P0002 Motor speed Local Remote Softkey 2 function...

Page 66: ...to the control rack 4 2 STARTING THE USE OF THE HMI The HMI works as the communication master When the panel is energized the HMI performs a parameter initialization with the MVC4 board During this pr...

Page 67: ...ialization failure and releases the keypad use however any modi cation in the parameter programming becomes useless because data will not be sent to the MVC4 board If the HMI is disconnected while the...

Page 68: ...be programmed through the read only and selection parameters Menu Con gurations HMI Main screen and the font size varies according to the number of parameters programmed for monitoring according to Fi...

Page 69: ...2 Hours control C Con gurations C1 HMI C1 1 Language C1 2 Password C1 3 Main screen C1 4 Graphic C1 5 Settings C2 Ramps C3 Control C4 Nominal data C4 1 Inverter C4 2 Motor C5 LOC REM Selection C5 1 Lo...

Page 70: ...ars at the HMI left side with the purpose of helping the navigation by signalizing the relative position of the cursor regarding the total of possible groups parameters 4 3 PARAMETER EDITION The activ...

Page 71: ...rtain climatic conditions temperature humidity contrast stabilization times longer than 60 may occur 4 4 2 Con guring the HMI Commands For the HMI commands to work properly it is necessary to program...

Page 72: ...Scale Motor speed reference P0208 Motor speed P0208 Motor Current P0295 Motor Frequency P0403 Output voltage P0296 Motor Torque P0295 P0401 100 Inverter output power 1 732 P0295 P0296 Value of proces...

Page 73: ...eters that can be programmed for both monitoring and graphic function 4 5 ALARMS AND FAULTS 4 5 1 Alarms Faults Screen When fault or alarm occurs in the MVW3000 HMI enters the error warning mode refer...

Page 74: ...0270 equal to 14 and P0265 and P0267 and P0269 different from 14 without Start with Stop 9 P0220 1 and P0224 P0227 1 and without DIx Start Stop or DIx Fast Stop and without DIx General Enable 10 P0220...

Page 75: ...8 18 08 2015 13 38 02 A0110 17 08 2015 07 43 03 F0090 16 08 2015 06 33 04 F0025 15 08 2015 05 23 05 F0090 14 08 2015 04 13 06 F0013 13 08 2015 03 13 Figure 4 11 Error log P0067 In order to visualize m...

Page 76: ...4 1 on page 4 1 By means of the help key the user gets access to the explanatory text of the corresponding parameter or function as shown in the Figure 4 13 on page 4 12 Exit 13 38 Sub LOC 0rpm P1550...

Page 77: ...D Diagnostics D1 Alarms and faults D2 Hours control C Con gurations C1 HMI C1 1 Language C1 2 Password C1 3 Main screen C1 4 Graphic C1 5 Settings C2 Ramps C3 Control C4 Nominal data C4 1 Inverter C4...

Page 78: ...lter with time constant of 0 5 s The indication scale can be changed via P0208 Reference scale factor P0003 Motor Current Acesso Menu Status Measurements Current Description It indicates the motor cur...

Page 79: ...peed 12 Test Mode indicates that the inverter is in a transitory state to test mode or to self tuning 13 Inv Test indicates that the inverter is in a general test state 14 Not implanted in this softwa...

Page 80: ...In ref Hold Ride 2 Sync Run Sync OK Fast disab Current fast limit 25 26 23 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 18 19 20 21 22 24 27 28 DI 1 1 Figure 5 1 State machine P0009 Motor Torque Acesso Menu...

Page 81: ...ters A Active and I Inactive in the following order DI1 DI2 DI7 DI8 DI9 DI10 Table 5 2 Digital inputs DI1 to DI10 status Description Bit DI8 Bit 0 DI7 Bit 1 DI6 Bit 2 DI5 Bit 3 DI4 Bit 4 DI3 Bit 5 DI2...

Page 82: ...hers see P0248 Analog input AI2 lter bipolar MVC4 board P0022 Temperature on MVC3 board Acesso Menu Status Measurements Temperature Description It indicates the temperature value on the MVC3 control b...

Page 83: ...o its manual The module serial con guration must be set as follows Baudrate 2400 bps Slave address 1 Parity even Stop bit 1 NOTE This parameter is only visible on the HMI when the Temperature Register...

Page 84: ...test 7 Set B automatic test NOTE This parameter is only visible on the HMI when the redundant ventilation function is actived P0140 0 P0042 Time powered counter Acesso Menu Diagnostics Hours control D...

Page 85: ...igital Description It indicates on the Graphic HMI the status of 16 digital inputs of the MVC3 control board DI1 to DI16 by means of the letters A Active and I Inactive in the following order DI1 DI2...

Page 86: ...pre charge Bit 6 RL1 Inverter Ready Bit 7 P0076 i x t Overload Acesso Menu Status Inverter Status Description It indicates the overload percentage value given by parameters P0156 P0157 and P0158 The...

Page 87: ...Deceleration time 2nd ramp Adjustable range 0 0 to 999 0 s Factory setting P0100 100 0 s P0101 180 0 s P0102 100 0 s P0103 180 0 s Acesso Menu Con gurations Ramps Description Setting 0 0 means without...

Page 88: ...r tdecel in the decelerations Being tacel acceleration time de ned by P0100 or P0102 tdecel deceleration time de ned by P0101 or P0103 tramps S ramp time tlinear linear ramp time Setting 0 0 means ina...

Page 89: ...ve the reference value when it is disabled i e when the inverter is enabled again the speed reference will be the minimum speed This backup function is applied only to the reference via HMI Table 5 7...

Page 90: ...to P0272 JOG Activation of JOG function Table 5 10 Selection of JOG command Digital Inputs Parameters DI3 to DI10 P0265 to P0272 JOG When activating the JOG JOG function the speed reference in P0122...

Page 91: ...lating the values de ned by parameters P0124 to P0131 through the logical combination of digital inputs DIx Table 5 11 Selection of the Multispeed function via digital inputs DIx enabled Programming 4...

Page 92: ...rameter is only visible on the HMI when the control type is vector P0202 3 Sensorless Vector or P0202 4 Vector with Encoder P0133 Minimum speed reference P0134 Maximum speed reference Adjustable range...

Page 93: ...sates the voltage drop in the motor stator resistance It actuates at low speeds increasing the inverter output voltage in order to keep the torque constant at V F operation The optimal setting is the...

Page 94: ...ated 100 P0136 0 Figure 5 8 P0202 1 V F curve 50 Hz Output voltage Frequency P0136 100 0 3 Hz P0146 P0145 P0134 P0136 0 P0143 P0144 P0142 100 20 Rated 100 Figure 5 9 P0202 2 V F adjustable curve NOTE...

Page 95: ...ontrol type is scalar P0202 0 V F 60 Hz or P0202 1 V F 50 Hz P0138 Rated slip Adjustable range 10 00 to 10 00 Factory setting 0 00 Acesso Menu Con gurations Control Description Scalar mode Parameter P...

Page 96: ...ution on motors driven in parallel Vector Mode Droop Control Torque Total reference Speed regulator P0138 Figure 5 14 Block diagram P0138 vector In the vector mode encoder or sensorless parameter P013...

Page 97: ...two sets according to the time programmed in P0141 The current status of the redundant ventilation function can be viewed in P0041 For redundant ventilation function operates properly it is necessary...

Page 98: ...t from the standards Function activated with P0202 2 Adjustable V F refer to P0142 to P0146 The standard value of P0144 8 0 is de ned for standard motors 60 Hz In case the motor rated frequency set in...

Page 99: ...P0151 DC link rated voltage Output speed Time Overvoltage DC link regulation level Time Figure 5 16 Deceleration with ramp holding With this function an optimized minimum deceleration time is obtained...

Page 100: ...rent at 5 Adjustable range 0 0 to 3420 0 A Factory setting P0156 154 0 A P0157 126 0 A P0158 70 0 A Acesso Menu Con gurations Protections Description It is for the motor and inverter overload protecti...

Page 101: ...Rated speed P0401 Motor rated current P0157 P0158 P0158 P0156 P0157 Figure 5 19 Overload protection levels NOTE When P0295 or P0401 are changed the values of P0156 to P0158 are changed according to th...

Page 102: ...ctory setting 0 Acesso Menu Con gurations Control Description When the speed reference comes through the analog inputs AI1 to AI4 P0163 or P0164 can be used to compensate undesired offsets in these si...

Page 103: ...he motor speed will be reduced following the deceleration ramp until the current is below the value set in P0169 When the overload disappears the speed goes back to the normal value P0169 Acceleration...

Page 104: ...ional gain on the motor P0176 Integration constant of the ux regulator on the motor Adjustable range P0175 0 0 to 999 9 P0176 1 to 9999 Factory setting P0175 50 0 P0176 900 Acesso Menu Con gurations C...

Page 105: ...is parameter can be changed only with the motor stopped P0200 Password Adjustable range 0 to 1 Factory setting 1 Acesso Menu Con gurations HMI Password Description With the factory settings the passwo...

Page 106: ...vector P0202 3 or vector with encoder P0202 4 the inverter enters the guided start up routine refer to Figure 5 21 on page 5 30 In this mode the user must adjust a series of motor parameters so that...

Page 107: ...otor nameplate data The values programmed at P0409 to P0413 must be different from zero otherwise the inverter will not leave the guided start up routine The con guration of this parameter must be don...

Page 108: ...eset all the parameters to the 60 Hz factory default values NOTE This parameter can be changed only with the motor stopped P0206 Auto reset time after fault Adjustable range 0 to 255 s Factory setting...

Page 109: ...peed Where Speed present speed in rpm Sync speed 120 x P0403 poles Poles 120 x P0403 P0402 it may be equal to 2 4 6 8 or 10 Reference speed reference in rpm P0209 Motor phase loss detection Adjustable...

Page 110: ...setpoint and the process variable be more than the value programmed in P0535 so that the inverter will be able to leave the zero speed disable Table 5 24 Condition for disabable output by zero speed...

Page 111: ...CAL REMOTE selection source Adjustable range 0 to 12 Factory setting 11 Acesso Menu Con gurations Commands Local Description It de nes the origin of the command that will select between the Local situ...

Page 112: ...7 P E set P0265 or P0267 to 5 and P0266 or P0268 to 5 When selecting option 8 set P0266 and or P0267 and or P0268 to 7 Table 5 27 Speed reference selection REMOTE situation P0222 Function 0 Key and of...

Page 113: ...o 5 Factory setting 5 Acesso Menu Con gurations Commands Local Description It de nes the origin of the Start Stop command in the LOCAL situation When the DIx inputs have the FORWARD REVERSE function t...

Page 114: ...emote Description It de nes the origin of the forward reverse command and the direction used in REMOTE situation Table 5 31 Selection of Direction of ROTATION REMOTE Situation P0226 Function 0 Always...

Page 115: ...only with the motor stopped P0228 JOG Selection REMOTE Situation Adjustable range 0 to 6 Factory setting 1 Acesso Menu Con gurations Commands Remote Description It de nes the origin of the JOG comman...

Page 116: ...parameters P0002 P0005 scalar vector control P0163 P0164 P0134 P0133 P0133 P0134 JOG JOG P0122 1 P0123 P0122 JOG JOG Commands and reference Run Stop Reference Direction of rotation P0134 Maximum ref...

Page 117: ...0 or 1 V F Total reference Automatic torque boost V V V F Speed Speed Speed Speed P0142 P0143 P0144 P0146 P0145 P0137 P0138 P0139 Reference Slip compensation Is Output current Iactive V V V P0202 2 V...

Page 118: ...eference n1 with encoder n2 sensorless P0202 P0178 P0178 P0177 P0177 Gp P0161 Ti P0162 Gp P0167 Ti P0168 MaxtH P0169 MaxtAH P0170 Gp P0175 Ti P0176 Gp P0182 Ti P0183 Modulation index P0180 Is Us ia ib...

Page 119: ...HMI and O key In case the motor stops it occurs according to the programming of P0232 Stop Selection Table 5 34 Actuation in the transition between Local and Remote for the HMIG P0231 Function 0 It k...

Page 120: ...uts has a dead zone where the Speed Reference remains at the value of the Minimum Value P0133 even with the variation of the input signal 0 10 V 0 20 mA 4 mA 20 mA 10 V 0 20 mA 0 20 mA 4 mA P0134 P013...

Page 121: ...on with a reference in module equal to 2 V GAIN AI5 P0028 AI4 P0021 AI3 P0020 AI1 P0018 AIx Reading AIX AI1 P0235 AI3 P0243 AI4 P0246 AI5 P0723 OFFSET P0236 P0244 P0247 P0724 P0234 P0242 P0245 P0722 F...

Page 122: ...lator feedback signal e g pressure or tem perature sensor etc provided that P0524 0 Table 5 38 AI2 signal function P0237 Function 0 P0221 P0222 1 Not Used 2 Maximum torque current 3 PID process variab...

Page 123: ...n When current signals are used at AI2 input put S2 B on the MVC4 control card in ON position For options 2 and 3 inverse reference is attained that is maximum speed is obtained with minimum reference...

Page 124: ...d 2 Maximum torque current 3 PID process variable NOTE This parameter can be changed only with the motor stopped P0242 Analog input AI3 gain bipolar EBB board Adjustable range 0 000 to 9 999 Factory s...

Page 125: ...AI4 Signal Type Adjustable range 0 to 4 Factory setting 0 Acesso Menu Con gurations I O Analog inputs Description Set the S2 1 switch on the EBB optional board to ON position when a current signal is...

Page 126: ...Factory setting 1 000 Acesso Menu Con gurations I O Analog outputs Description It sets the gain of analog output AO1 For P0252 1 000 the output value of AO1 is set according to the description analog...

Page 127: ...1 Factory setting 5 Acesso Menu Con gurations I O Analog outputs Description For values in the factory default P0257 5 and P0258 1 000 AO1 10 V when Motor Current 1 5 x P0295 See Table 5 43 on page 5...

Page 128: ...00 Acesso Menu Con gurations I O Analog outputs Description It sets the gain of analog output AO6 For P0262 1 000 the output value of AO6 is set according to the description analog output indication s...

Page 129: ...indication scale Full scale 10 V for outputs AO1 AO2 located on the MVC4 control board and AO3 and AO4 on the EBA optional board Full scale 20 mA for outputs AO1 and AO2 located on the optional EBB b...

Page 130: ...to be adjusted through 2 digital inputs one to increment it and the other to decrease it To enable this function you must rst con gure the speed reference for E P setting P0221 7 and or P0222 7 After...

Page 131: ...nditioned to P0000 and P0200 settings RL2 and RL3 Timer this function acts as a timer to activate and deactivate the relays 2 and 3 RL2 and RL3 When the timer function for the relay 2 or 3 is programm...

Page 132: ...4 4 4 4 4 4 4 4 Increase E P 5 5 Decrease E P 5 5 2nd ramp 6 6 6 6 6 6 6 6 Multispeed MSx 7 7 7 Forward run 8 Reverse run 8 Sinusoidal lter circuit breaker 9 9 9 9 JOG 10 10 10 10 10 10 10 10 JOG 11 1...

Page 133: ...detection as they are functions with low assets That is if the electronics are energized with the DI at low level no alarm occurs a START STOP b GENERAL ENABLE Acceleration ramp Deceleration ramp Moto...

Page 134: ...5 DETAILED PARAMETER DESCRIPTION g JOG Motor speed Run Stop DIx JOG Acceleration ramp Speed JOG P0122 Deceleration ramp Time Time Time Time Open Open Open 24 V 24 V 24 V General enable MVW3000 5 58...

Page 135: ...ble i RESET 24 V 24 V The condition that generated the error is still present Time Time Time With fault Inverter status Without fault DIx Reset Open Reset j 3 WIRE START STOP Time Time Time Open Open...

Page 136: ...5 Function Adjustable range 0 to 35 Factory setting P0275 0 P0276 0 P0277 13 P0279 2 P0280 1 P0281 0 P0282 0 Acesso Menu Con gurations I O Digital outputs Description The digital and relay output stat...

Page 137: ...direction the DOx open transistor and or RLx relay with the coil not energized Pre charge OK it means that the DC Link voltage is above the pre charge voltage level Fault it means that the inverter i...

Page 138: ...20 mA OK 18 18 18 18 18 18 18 Fieldbus 19 19 19 19 19 19 19 Forward 20 20 20 20 20 20 20 Process variable VPx 21 21 21 21 21 21 21 Process variable VPy 22 22 22 22 22 22 22 Pre charge OK 24 24 24 24 2...

Page 139: ...88 Nt N Relay Transistor Time Time OFF ON Relay Transistor Time Time Without fault With fault i 4 to 20 mA reference j N 0 OFF ON ON Relay Transistor Time Time Ref 2 mA ON OFF OFF Relay Transistor Tim...

Page 140: ...ions I O Digital outputs Description Used in the relay output functions Timers of relays 2 and 3 P0288 Nx Speed P0289 Ny Speed Adjustable range 0 to 4095 rpm Factory setting P0288 120 rpm P0289 1800 r...

Page 141: ...Adjustable range 0 to 28 Factory setting 10 Acesso Menu Con gurations Nominal data Inverter Description It de nes the inverter rated current according to the available models Table 5 46 Inverter rated...

Page 142: ...is parameter can be changed only with the motor stopped P0303 Skipped Speed 1 P0304 Skipped Speed 2 P0305 Skipped Speed 3 P0306 Skipped Range Adjustable range P0303 0 to 4095 rpm P0304 0 to 4095 rpm P...

Page 143: ...r to Section 9 2 SERIAL WEGBUS on page 9 12 of the User s Manual NOTE This parameter can be changed only with the motor stopped P0309 Fieldbus Adjustable range 0 to 13 Factory setting 0 Acesso Menu Co...

Page 144: ...ed 1 Modbus RTU 9600 bps no parity 2 Modbus RTU 9600 bps odd parity 3 Modbus RTU 9600 bps even parity 4 Modbus RTU 19200 bps no parity 5 Modbus RTU 19200 bps odd parity 6 Modbus RTU 19200 bps even par...

Page 145: ...inverter to be able to execute that action it is necessary that the commands be programmed for the Serial option in parameters P0220 to P0228 Table 5 51 Time for serial watchdog action P0314 Function...

Page 146: ...in P0331 The parameter P0332 sets the minimum time the inverter waits before restarting the motor after the line recovery in Ride Through This time is counted from the line voltage drop and it is nece...

Page 147: ...tuation of the Ride Through in V F mode P0400 Motor rated voltage Adjustable range 1 to 19999 V Factory setting 6600 V Acesso Menu Con gurations Nominal data Motor Description Set according to the mot...

Page 148: ...this parameter according to the motor nameplate data The range for V F is from 0 to 7200 rpm NOTE This parameter can be changed only with the motor stopped P0403 Motor Rated Freq Adjustable range 1 t...

Page 149: ...able range 0 to 1 Factory setting 1 Acesso Menu Con gurations Nominal data Motor Description With P0408 1 autogain the gains of the vector control regulators are automatically recalculated when the mo...

Page 150: ...9 mH Factory setting 0 00 mH Acesso Menu Con gurations Nominal data Motor Description It is the value of the motor ux leakage inductance NOTE This parameter is only visible on the HMI when the control...

Page 151: ...actory setting 4 85 mH Acesso Menu Con gurations Nominal data Motor Description Motor parameter used on the stator ux observer P0427 P0428 P0429 P0430 P0431 P0433 P0434 P0436 e P0437 id iq d q Stator...

Page 152: ...tator ux model NOTE This parameter is only visible on the HMI when P0950 1 Synchronous motor with brushes This parameter is only visible on the HMI when the control type is vector P0202 3 Sensorless V...

Page 153: ...ector or P0202 4 Vector with Encoder P0437 Resistence Rf Adjustable range 0 000 to 9 999 Factory setting 0 047 Acesso Menu Con gurations Nominal data Motor Description Field resistance of the synchron...

Page 154: ...coder P0440 Proportional gain of the current regulator ID Adjustable range 0 000 to 9 999 Factory setting 0 074 Acesso Menu Con gurations Control Description Parameter used by the regulator to control...

Page 155: ...load on the inverter exciter NOTE This parameter is only visible on HMI when P0950 1 Synchronous motor with brushes or P0950 2 Brushless synchronous motor P0450 Minimum eld current Brushless Adjustabl...

Page 156: ...mode without encoder the motor must match the inverter and it is not possible to start motors with currents higher than the inverter current When encoder is used this parameter must be set to 0 Hz dis...

Page 157: ...t in which the linear curve follows the saturation curve from this point the machine ux follows a mathematical model obtained from the data of the motor manufacturer Magnetic saturation curve 0 5 10 1...

Page 158: ...rve NOTE This parameter is only visible on the HMI when P0950 1 Synchronous motor with brushes This parameter is only visible on the HMI when the control type is vector P0202 3 Sensorless Vector or P0...

Page 159: ...ble 5 56 HMI commands con guration P0491 Function 0 Inactive 1 Local HMI 2 Remote HMI NOTE This parameter can be changed only with the motor stopped P0493 Sampling time of the online graphic Adjustabl...

Page 160: ...3 Selection P0515 On line Graphic Function Parameter 4 Selection Adjustable range 0 to 9 Factory setting P0512 2 P0513 3 P0514 0 P0515 0 Acesso Menu Con gurations HMI Graphic Description It selects on...

Page 161: ...1 PID REGULATOR on page 6 1 are shown in Table 5 59 on page 5 85 Table 5 60 PID initial gain setting suggestions Gains Time Type Proportional Integral Differential PID Ramp of action Process Variable...

Page 162: ...dback type The PID action type described above considers that the process variable feedback signal increases when the process variable also increases direct feedback This is the most used feedback typ...

Page 163: ...h noise In such case increase the value gradually observing the result NOTE This parameter is only visible on the HMI when the PID function is active P0203 1 PID regulator P0527 Error Value Inv Adjust...

Page 164: ...le full scale value corresponding to 10 V 20 mA at the Analog Input AI2 or AI3 used as feedback Example 1 Bar Pressure Transducer 0 to 25 bar output 4 to 20 mA Desired indication 0 to 25 bar Process F...

Page 165: ...ations Functions PID Description When PID regulator setpoint is via HMI P0221 P0222 13 and P0536 is set to 1 Active when switching from manual to automatic the process variable value P0040 will be loa...

Page 166: ...cated P0631 DI13 delay Adjustable range 0 to 3000 ms Factory setting 170 ms Acesso Menu Con gurations Control Description Delay of DI13 of the MVC3 board used to disable the inverter after the transfe...

Page 167: ...ent for Synchronous Machine 10 V P0462 A 10 V P0463 V 18 Position Adjustment of the Absolute Encoder 10 V 180 34 Value xe at 0 V 35 Value xe at 10 V 36 Value xe at 10 V 37 Voltage between Phase A and...

Page 168: ...V 35 Value xe at 10 V 36 Value xe at 10 V 37 Voltage between Phase A and B Measured on the Line ISOX Board 5 V VAB Rated 38 Voltage between Phase B and C Measured on the Line ISOX Board 5 V VBC Rated...

Page 169: ...Line ISOX Board 5 V VAB Rated 38 Voltage between Phase B and C Measured on the Line ISOX Board 5 V VBC Rated 66 Inverter Status 86 Indication of A0073 0 V without A0073 10 V with A0073 187 Value of A...

Page 170: ...Measured on the Line ISOX Board 5 V VBC Rated 66 Inverter Status 86 Indication of A0073 0 V without A0073 10 V with A0073 187 Value of Analog Input AI1 MVC3 188 Torque Reference of the Inverter 10 20...

Page 171: ...setting 1 000 Acesso Menu Con gurations I O Analog inputs Description Refer to P0234 Analog input AI1 gain unipolar MVC4 board P0723 Analog input AI5 signal type Adjustable range 0 to 3 Factory setti...

Page 172: ...the AI1 analog input of the MVC3 board Table 5 71 Function of analog input AI1 MVC3 P0740 Function 0 Not Used 1 Torque reference 2 Limit current P0741 Analog input AI1 gain bipolar MVC3 board Adjustab...

Page 173: ...ge 100 0 to 100 0 Factory setting 0 0 Acesso Menu Con gurations I O Analog inputs Description It sets the offset of analog input AI2 of the MVC3 board Refer to P0234 Analog input AI1 gain unipolar MVC...

Page 174: ...l U5 P1005 DC link voltage of cell U6 P1006 DC link voltage of cell U7 P1007 DC link voltage of cell U8 P1008 DC link voltage of cell U9 P1009 DC link voltage of cell U10 P1010 DC link voltage of cell...

Page 175: ...power module of cell U7 P1057 Temperature on the power module of cell U8 P1058 Temperature on the power module of cell U9 P1059 Temperature on the power module of cell U10 P1060 Temperature on the pow...

Page 176: ...84 Temperature on the power module of cell W11 P1085 Temperature on the power module of cell W12 Acesso Menu Status Measurements Temperature Description It indicates the temperature of the IGBT module...

Page 177: ...e numbers indicate that the inverter is consuming power from the power grid Negative numbers indicate that the inverter is regenerating power to the power grid The real power in the input is calculate...

Page 178: ...ve and B Bypass It indicates the state in the following order U1 U2 Un V1 V2 Vn W1 W2 Wn The number of cells is variable and depends of P0296 Inverter rated voltage P1565 Number of redundant cells per...

Page 179: ...W8 P1382 Temperature on the board of cell W9 P1383 Temperature on the board of cell W10 P1384 Temperature on the board of cell W11 P1385 Temperature on the board of cell W12 Acesso Menu Status Measur...

Page 180: ...ethod of the line voltages when the inverter is operating with an uneven number of cells between phases Option 0 makes the inverter keep the phase voltages always balanced with the same amplitude and...

Page 181: ...ange programming error will occur NOTE This parameter can be changed only with the motor stopped P1551 Ratio between the voltage of the primary and the auxiliary output of the transformer 1 Adjustable...

Page 182: ...nsformer used NOTE This parameter can be changed only with the motor stopped P1555 Transformers rated frequency Adjustable range 0 to 100 Hz Factory setting 60 Hz Acesso Menu Con gurations Nominal dat...

Page 183: ...tap connections NOTE This parameter can be changed only with the motor stopped This parameter is only visible on the HMI when P1893 Transformer at the input 2 or 3 trans formers P1558 Transformer 2 r...

Page 184: ...o 5 00 Factory setting 0 00 Acesso Menu Con gurations Nominal data Inverter Description It sets the modi cation occurred on the voltage supplied for the inverter cells Set it according to the input tr...

Page 185: ...tem option 0 The option 1 should be used when the corresponding cell is replaced by a mechanical bypass cell Option 2 must be used to manually actuate the automatic bypass relay of the cell Option 3 i...

Page 186: ...uate the automatic bypass relay of the cell Option 3 is read only Indicates that the respective cell was automatically removed from operation due to a manageable fault Option 4 is read only Indicates...

Page 187: ...oved from operation due to a manageable fault Option 4 is read only Indicates that the respective cell was automatically removed from operation because it was linked in parallel P1892 with another cel...

Page 188: ...ange 0 to 2 Factory setting 0 Acesso Menu Con gurations Nominal data Inverter Description Sets the number of cells operating in parallel Table 5 81 Cells in parallel P1892 Function 0 No parallelism 1...

Page 189: ...emic PID Regulator transference function in the frequency domain is y s Kp e s 1 1 sTi sTd Replacing the integrator by a sum and the derivative by the incremental quotient we will obtain an approximat...

Page 190: ...k can be done changing the gain of the analog input selected as feedback P0238 for AI2 or P0242 for AI3 The Process variable can also be visualized at the outputs AO1 to AO6 provided that programmed a...

Page 191: ...able Enable P0520 P0521 P0522 Academic PID P0040 Con guration P0524 AI2 AI3 P0526 P0133 P0134 1 Reverse 0 Forward Action type of the PID regulator P0527 Inverter speed reference Manual Inverter speed...

Page 192: ...6 SPECIAL FUNCTIONS MVW3000 6 4...

Page 193: ...ally be performed in the following manners By pressing the key O Manual Reset Automatically through P0206 Auto reset Via digital input DI3 P0265 12 or DI4 P0266 12 or DI5 P0267 12 or DI6 P0268 12 or D...

Page 194: ...f 24 V F0017 Inverter not ready to energize Power on Manual O RESET key Auto reset DIx Networks Input circuit breaker not ready when commanded to close Defective circuit breaker Attempt to turn on the...

Page 195: ...se F0070 Overcurrent short circuit Power on Manual O RESET key Auto reset DIx Networks Inverter output instant current higher than twice the rated current detection by Hardware Short circuit between t...

Page 196: ...orrect programming of inverter model Incompatibility between the inverter current P0295 and voltage P0296 parameters see values in the product manual F0085 Electronic power supply fault Power on Manua...

Page 197: ...uto diagnosis fault on the EEPROM F0106 MVC4 fatal fault Contact WEG Service Center Invalid CPU addressing A0108 Inverter Not Initialized It resets automatically after the cause is eliminated Waiting...

Page 198: ...the inverter input exceeds 75 5 Voltage on the input transformer secondary is be low 75 5 Undervoltge on the supply line Wrong setting of the transformer primary taps A0302 Input overvoltage Eliminat...

Page 199: ...und of the con necting cables or of the load driven by the inverter with the presence of current leak The sum of the three output currents is above 12 5 of the inverter rated current Sensors measuring...

Page 200: ...ected inverted or de fective Refer to the parameter P1893 description F0343 Curto circuito no secund rio do transformador 2 Power on Manual O RESET key Auto reset DIx Networks Short circuit on the cab...

Page 201: ...eliminated DIx Networks Temperature sensor broken wire PT100 accessory connectors disconnected Temperature channel active without a sensor connected to the PT100 accessory A0362 Fault in the temperatu...

Page 202: ...el set on the ther mal protection relay and P0315 0 F0370 Overtemperature detected by the thermal protection relay CH3 Power on Manual O RESET key Auto reset DIx Networks Temperature above the fault l...

Page 203: ...ly after the cause is eliminated DIx Networks Temperature above the alarm level set on the thermal protection relay and P0315 0 A0380 Overtemperature detected by the thermal protection relay CH5 Power...

Page 204: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0405 Cell U1 phase IGBT Contact WEG Service Center Short circuit at...

Page 205: ...23 Firmware update or PLD cell U1 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0425 Cell U2 DC link overvoltage Power on Man...

Page 206: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0436 Cell U2 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 207: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0455 Cell U3 phase IGBT Contact WEG Service Center Short circuit at...

Page 208: ...73 Firmware update or PLD cell U3 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0475 Cell U4 DC link overvoltage Power on Man...

Page 209: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0486 Cell U4 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 210: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0505 Cell U5 phase IGBT Contact WEG Service Center Short circuit at...

Page 211: ...23 Firmware update or PLD cell U5 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0525 Cell U6 DC link overvoltage Power on Man...

Page 212: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0536 Cell U6 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 213: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0555 Cell U7 phase IGBT Contact WEG Service Center Short circuit at...

Page 214: ...73 Firmware update or PLD cell U7 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0575 Cell U8 DC link overvoltage Power on Man...

Page 215: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0586 Cell U8 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 216: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0605 Cell V1 phase IGBT Contact WEG Service Center Short circuit at...

Page 217: ...23 Firmware update or PLD cell V1 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0625 Cell V2 DC link overvoltage Power on Man...

Page 218: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0636 Cell V2 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 219: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0655 Cell V3 phase IGBT Contact WEG Service Center Short circuit at...

Page 220: ...73 Firmware update or PLD cell V3 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0675 Cell V4 DC link overvoltage Power on Man...

Page 221: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0686 Cell V4 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 222: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0705 Cell V5 phase IGBT Contact WEG Service Center Short circuit at...

Page 223: ...23 Firmware update or PLD cell V5 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0725 Cell V6 DC link overvoltage Power on Man...

Page 224: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0736 Cell V6 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 225: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0755 Cell V7 phase IGBT Contact WEG Service Center Short circuit at...

Page 226: ...73 Firmware update or PLD cell V7 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0775 Cell V8 DC link overvoltage Power on Man...

Page 227: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0786 Cell V8 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 228: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0805 Cell W1 phase IGBT Contact WEG Service Center Short circuit at...

Page 229: ...23 Firmware update or PLD cell W1 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0825 Cell W2 DC link overvoltage Power on Man...

Page 230: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0836 Cell W2 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 231: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0855 Cell W3 phase IGBT Contact WEG Service Center Short circuit at...

Page 232: ...73 Firmware update or PLD cell W3 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0875 Cell W4 DC link overvoltage Power on Man...

Page 233: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0886 Cell W4 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 234: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0905 Cell W5 phase IGBT Contact WEG Service Center Short circuit at...

Page 235: ...23 Firmware update or PLD cell W5 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0925 Cell W6 DC link overvoltage Power on Man...

Page 236: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0936 Cell W6 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 237: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F0955 Cell W7 phase IGBT Contact WEG Service Center Short circuit at...

Page 238: ...73 Firmware update or PLD cell W7 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F0975 Cell W8 DC link overvoltage Power on Man...

Page 239: ...e neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F0986 Cell W8 electronics power supply Contact WEG Service Center Voltages of the internal electronic...

Page 240: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F1005 Cell U9 phase IGBT Contact WEG Service Center Short circuit at...

Page 241: ...Firmware update or PLD cell U9 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F1025 Cell U10 DC link overvoltage Power on Manua...

Page 242: ...neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F1036 Cell U10 electronics power supply Contact WEG Service Center Voltages of the internal electronic c...

Page 243: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F1055 Cell U11 phase IGBT Contact WEG Service Center Short circuit a...

Page 244: ...73 Firmware update or PLD cell U11 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F1075 Cell U12 DC link overvoltage Power on M...

Page 245: ...neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F1086 Cell U12 electronics power supply Contact WEG Service Center Voltages of the internal electronic c...

Page 246: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F1105 Cell V9 phase IGBT Contact WEG Service Center Short circuit at...

Page 247: ...Firmware update or PLD cell V9 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F1125 Cell V10 DC link overvoltage Power on Manua...

Page 248: ...neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F1136 Cell V10 electronics power supply Contact WEG Service Center Voltages of the internal electronic c...

Page 249: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F1155 Cell V11 phase IGBT Contact WEG Service Center Short circuit a...

Page 250: ...73 Firmware update or PLD cell V11 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F1175 Cell V12 DC link overvoltage Power on M...

Page 251: ...neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F1186 Cell V12 electronics power supply Contact WEG Service Center Voltages of the internal electronic c...

Page 252: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F1205 Cell W9 phase IGBT Contact WEG Service Center Short circuit at...

Page 253: ...Firmware update or PLD cell W9 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F1225 Cell W10 DC link overvoltage Power on Manua...

Page 254: ...neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F1236 Cell W10 electronics power supply Contact WEG Service Center Voltages of the internal electronic c...

Page 255: ...nter Cell temperature measurement sensor defective Cell temperature sensor disconnected Temperature on the cell heatsink below 10 C F1255 Cell W11 phase IGBT Contact WEG Service Center Short circuit a...

Page 256: ...73 Firmware update or PLD cell W11 Contact WEG Service Center Fault in the update process of the processor rmware or in the recon guration of the cell PLD F1275 Cell W12 DC link overvoltage Power on M...

Page 257: ...neutral arm disconnected or defective IGBTs or trigger board of the cell neutral arm de fective F1286 Cell W12 electronics power supply Contact WEG Service Center Voltages of the internal electronic c...

Page 258: ...increas ing the mean time between failures and reducing the equipment downtime It also helps identifying whether the equipment is being used within its mechanical electrical and environmental limits T...

Page 259: ...interval between preventing maintenances Reinstall the lters and bolt the protection grids again 3 Open the control cabinet and visually inspect the components inside it verifying them to identify fau...

Page 260: ...7 4 SAFE DE ENERGIZATION INSTRUCTIONS 1 Decelerate the motor to a complete stop 2 Check the DC link voltage values of the installed power cells at parameters P1000 to P1035 da HMI 3 Press the POWER O...

Page 261: ...air If necessary remove the boards from the inverter WARNING Electronic boards have components sensitive to electrostatic discharges Do not touch the compo nents or connectors directly If necessary rs...

Page 262: ...7 DIAGNOSTICS AND TROUBLESHOOTING MVW3000 7 70...

Page 263: ......

Page 264: ...WEG Drives Controls Automa o LTDA Jaragu do Sul SC Brazil Phone 55 47 3276 4000 Fax 55 47 3276 4020 S o Paulo SP Brazil Phone 55 11 5053 2300 Fax 55 11 5052 4212 automacao weg net www weg net 13912156...

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