Motors I Automation I Energy I Transmission & Distribution I CoatingsFrequency InverterMW500 V1.5XProgramming Manual
0Quick Reference of Parameters, Alarms and Faults0-2 | MW500Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP002
Common Functions to All the Control Modes11-2 | MW50011P0102 – Acceleration Time 2nd RampAdjustable Range:0.1 to 999.0 s FactorySetting:10.0 sProperti
Common Functions to All the Control ModesMW500 | 11-3 11P0105 – 1st / 2nd Ramp SelectionAdjustable Range:0 = First Ramp1 = Second Ramp2 = DIx3 = Seria
Common Functions to All the Control Modes11-4 | MW50011NOTE!The inverter protection functions use the 3rd Ramp defined by P0106 for both acceleration
Common Functions to All the Control ModesMW500 | 11-5 11Description:Voltage level to activate the DC Link Voltage regulation.P0152 – Gain Proportional
Common Functions to All the Control Modes11-6 | MW50011RampReference Output frequencyError+++-P0001P0004P0151P0152P0152 x errorP0002P0100-P0104Figure
Common Functions to All the Control ModesMW500 | 11-7 11P0135 – Maximum Output CurrentAdjustable Range:0.0 to 200.0 A FactorySetting:1.5 x InomPropert
Common Functions to All the Control Modes11-8 | MW50011DANGER!When in the Sleep mode, the motor can spin at any time considering the process condition
Common Functions to All the Control ModesMW500 | 11-9 11P0320 – Flying Start (FS) / Ride-Through (RT)Adjustable Range:0 = OFF1 = Flying Start2 = Flyin
Common Functions to All the Control Modes11-10 | MW50011DC link voltageF0021 levelOutput pulsestdis > tdeadEnabledDisabledReturn lineOutput voltage
Common Functions to All the Control ModesMW500 | 11-11 11P0300 – DC Braking Time at StopAdjustable Range:0.0 to 15.0 s FactorySetting:0.0 sProperties:
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-3 Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP00
Common Functions to All the Control Modes11-12 | MW50011P0302 – Voltage Applied to the DC BrakingAdjustable Range:0.0 to 100.0 % FactorySetting:20.0 %
Common Functions to All the Control ModesMW500 | 11-13 11Output frequencyReferenceP0304P0304P0303P03032 x P03062 x P0306Figure 11.10: Actuation of the
Common Functions to All the Control Modes11-14 | MW50011
Digital and Analog Inputs and OutputsMW500 | 12-1 1212 DIGITAL AND ANALOG INPUTS AND OUTPUTSThis section presents the parameters to configure the MW50
Digital and Analog Inputs and Outputs12-2 | MW50012Description:This parameter acts just for the analog inputs (AIx) programmed as frequency reference,
Digital and Analog Inputs and OutputsMW500 | 12-3 12P0231 – AI1 Signal FunctionP0236 – AI2 Signal FunctionP0241 – AI3 Signal FunctionAdjustable Range:
Digital and Analog Inputs and Outputs12-4 | MW50012P0234 – AI1 Input OffsetP0239 – AI2 Input OffsetP0244 – AI3 Input OffsetAdjustable Range:-100.0 to
Digital and Analog Inputs and OutputsMW500 | 12-5 12P0243 – AI3 Input SignalAdjustable Range:0 = 0 to 10 V / 20 mA1 = 4 to 20 mA2 = 10 V / 20 mA to 03
Digital and Analog Inputs and Outputs12-6 | MW5001212.2 ANALOG OUTPUTSThe analog outputs (AOx) are configured by means of three types of parameters: f
Digital and Analog Inputs and OutputsMW500 | 12-7 12P0251 – AO1 Output Function P0254 – AO2 Output Function Adjustable Range:0 = Speed Reference1
0Quick Reference of Parameters, Alarms and Faults0-4 | MW500Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP015
Digital and Analog Inputs and Outputs12-8 | MW50012P0252 – AO1 Output Gain P0255 – AO2 Output GainAdjustable Range:0.000 to 9.999 FactorySetting:1.000
Digital and Analog Inputs and OutputsMW500 | 12-9 1212.3 FREQUENCY INPUTA frequency input consists of a fast digital input able to convert the frequen
Digital and Analog Inputs and Outputs12-10 | MW50012P0022 – Value of Frequency Input in HzAdjustable Range:0 to 20000 Hz FactorySetting:Properties: ro
Digital and Analog Inputs and OutputsMW500 | 12-11 12Description:Those parameters define the behavior of the frequency input according to the equation
Digital and Analog Inputs and Outputs12-12 | MW50012P0016 – Frequency Output Value FO in %Adjustable Range:0.0 to 100.0 % FactorySetting:Properties: r
Digital and Analog Inputs and OutputsMW500 | 12-13 12P0257 – Frequency Output Function FOAdjustable Range:0 = Speed Reference1 = Not Used2 = Real Spee
Digital and Analog Inputs and Outputs12-14 | MW50012P0258 – Frequency Output Gain FOAdjustable Range:0.000 to 9.999 FactorySetting:1.000P0259 – Minimu
Digital and Analog Inputs and OutputsMW500 | 12-15 12P0012 – Status of Digital Inputs DI8 to DI1Adjustable Range:Bit 0 = DI1Bit 1 = DI2Bit 2 = DI3Bit
Digital and Analog Inputs and Outputs12-16 | MW50012P0270 – Function of Digital Input DI8Adjustable Range:0 to 46 FactorySetting:P0263 = 1P0264 = 8P02
Digital and Analog Inputs and OutputsMW500 | 12-17 12Value Description Dependence38 Decelerate E.P./Turn OFF P0224 = 1 or P0227 = 1P0221 = 7 or P0222
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-5 Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP02
Digital and Analog Inputs and Outputs12-18 | MW50012d) FORWARD RUN/REVERSE RUNThis command is the combination of Run/Stop with Direction of Rotation.
Digital and Analog Inputs and OutputsMW500 | 12-19 12DIxTimeTimeInactiveClockwiseCounterclockwiseActiveOutput frequencyFigure 12.11: Example of the Di
Digital and Analog Inputs and Outputs12-20 | MW50012DIx - Run/StopDIx - DecelerateDIx - DecelerateTimeTimeResetP0133&ReferenceTimeInactiveInactive
Digital and Analog Inputs and OutputsMW500 | 12-21 12m) NO EXTERNAL FAULTIf DIx is inactive, the inverter will activate the external fault F0091. In t
Digital and Analog Inputs and Outputs12-22 | MW50012The PTC thermistor can be used in any DIx, except in the DI2, which has a different input circuit
Digital and Analog Inputs and OutputsMW500 | 12-23 12Description:By using this parameter, it is possible to view the MW500 digital output status.The v
Digital and Analog Inputs and Outputs12-24 | MW50012Table 12.8: Digital output functionsValue Function Description0 Not Used Digital output inactive
Digital and Analog Inputs and OutputsMW500 | 12-25 12P0290 – Ix CurrentAdjustable Range:0.0 to 200.0 A FactorySetting:1.0xInomProperties:Access Groups
Digital and Analog Inputs and Outputs12-26 | MW50012
PID Controller MW500 | 13-1 1313 PID CONTROLLER 13.1 DESCRIPTIONS AND DEFINITIONS The MW500 features the PID controller function, which can be used to
0Quick Reference of Parameters, Alarms and Faults0-6 | MW500Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP023
PID Controller 13-2 | MW50013but if it is inactive, the PID will operate in the Manual mode. In this last case, the PID controller is disconnected and
PID Controller MW500 | 13-3 13EnableNonePID via AI1PID via AI3PID via FISelection of PID function and feedbackSetpoint definition(Process variable ref
PID Controller 13-4 | MW5001313.2 START-UP Before describing in details the parameters related to this function, below we present the directions to pe
PID Controller MW500 | 13-5 135. Define digital input for the Manual/Automatic command: In order to execute the Manual/Automatic command in the PID
PID Controller 13-6 | MW50013and P0525 when PID in Automatic. 1. Manual operation (Manual/Automatic DIx inactive): Keeping the DIx inactive (Manual
PID Controller MW500 | 13-7 13Table 13.1: Setting of parameters for the example presentedParameter DescriptionP0203 = 1 Enables the PID regulator via
PID Controller 13-8 | MW50013On the screen of Figure 13.3 on page 13-8 is observed a Setpoint of 20.0 bars on the secondary display, the process varia
PID Controller MW500 | 13-9 13P0520 – PID Proportional GainP0521 – PID Integral GainP0522 – PID Differential Gain Adjustable Range:0.000 to 9.999 Fact
PID Controller 13-10 | MW50013In case the operation is in the Manual mode, the reference via HMI is set in parameter P0121.The value of P0525 is kept
PID Controller MW500 | 13-11 13Example: the pressure transducer operates at 4-20 mA for a band of 0 to 25 bars; setting of parameter P0528 at 250 and
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-7 Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP02
PID Controller 13-12 | MW50013SetpointP0535P0535VP-reverseVP-directTimet10VP(%)Figure 13.4: OK Setpoint band defined by P0535 According to Figure 13.4
PID Controller MW500 | 13-13 13y(k-1): PID previous output.Kp (Proportional gain): Kp = P0520.Ki (Integral gain): Ki = P0521 x 100 = [1/Ti x 100].Kd (
PID Controller 13-14 | MW50013
Rheostatic BrakingMW500 | 14-1 1414 RHEOSTATIC BRAKINGThe braking torque that may be obtained by the application of frequency inverters, without rheos
Rheostatic Braking14-2 | MW50014Ud ratedDC link voltage (Ud)(P0004)F0022 - OvervoltageRheostatic braking actuationTimeTimeUdUdP0153Braking resistor vo
Faults and AlarmsMW500 | 15-1 1515 FAULTS AND ALARMSThe problem detection structure in the inverter is based on the fault and alarm indication. In cas
Faults and Alarms15-2 | MW50015It is recommended that parameter P0156 (motor overload current at rated speed) be set at a value 10 % above the used mo
Faults and AlarmsMW500 | 15-3 150 60 120 180 240 30032.521.510.50 Output current / Overload currentRegion of overloadTime(s)Figure 15.1: Actuation o
Faults and Alarms15-4 | MW50015P0343 – Fault MaskAdjustable Range:0000h to FFFFh FactorySetting:0007hProperties: cfgAccess Groups via HMI: Description
Faults and AlarmsMW500 | 15-5 15NOTE!The DI2 is the only one that cannot be used as PTC input, because it has input circuit dedicated to frequency inp
0Quick Reference of Parameters, Alarms and Faults0-8 | MW500Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP025
Faults and Alarms15-6 | MW50015ATTENTION!An improper change of P0397 may damage the inverter. Only do that under WEG technical directions. 15.5 OVERC
Faults and AlarmsMW500 | 15-7 15NOTE!When this fault occurs, contact WEG.15.12 FAN SPEED FAULT (F0179)This fault occurs when the inverter internal tem
Faults and Alarms15-8 | MW50015P0048 – Present AlarmP0049 – Present FaultAdjustable Range:0 to 999 FactorySetting:Properties: roAccess Groups via HMI:
Faults and AlarmsMW500 | 15-9 15P0052 – DC Link at Last FaultP0062 – DC Link at 2nd FaultP0072 – DC Link 3rd FaultAdjustable Range:0 to 2000 V Factory
Faults and Alarms15-10 | MW50015P0055 – Logical State Last Fault P0065 – Logical State 2nd FaultP0075 – Logical State 3rd FaultAdjustable Range:0000h
Reading Parameters MW500 | 16-1 1616 READING PARAMETERS In order to simplify the view of the main inverter reading variables, you may directly access
Reading Parameters 16-2 | MW50016Description:This parameter indicates the DC link direct current voltage in Volts (V).P0005 – Motor FrequencyAdjustabl
Reading Parameters MW500 | 16-3 16Table 16.1: Inverter status - P0006P0006 Status HMI Description0 Ready Indicates the inverter is ready to be enabled
Reading Parameters 16-4 | MW50016P0009 – Motor TorqueAdjustable Range:-1000.0 to 1000.0 % FactorySetting:Properties: ro, V V WAccess Groups via HMI: R
Reading Parameters MW500 | 16-5 16P0014 – Analog Output Value AO1P0015 – Analog Output Value AO2Refer to section 12.2 ANALOG OUTPUTS on page 12-6.P001
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-9 Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP02
Reading Parameters 16-6 | MW50016P0040 – PID Process VariableP0041 – PID Setpoint Value Refer to section 13.5 PID PARAMETERS on page 13-8.P0047 – CONF
Communication MW500 | 17-1 1717 COMMUNICATIONIn order to exchange information via communication network, the MW500 features several standardized commu
Communication 17-2 | MW50017NOTE!The CFW500-CRS232 plug-in module has Serial (1) interface through RS-485 port at terminals 10(A-) and 12(B+), as wel
Communication MW500 | 17-3 17P0312 – Serial Interface Protocol (1)(2)Adjustable Range:0 = HMIR (1)1 = Reserved2 = Modbus RTU (1)3 = Reserved4 = Reserv
Communication 17-4 | MW50017P0707 – Counter of Transmitted CAN Telegrams P0708 – Counter of Bus Off ErrorsP0709 – Counter of Lost CAN MessagesP0710 –
Communication MW500 | 17-5 17P0746 - Profibus Reading #7 P0747 - Profibus Reading #8 P0750 - Profibus Writing #3 P0751 - Profibus Writing #4 P0752 -
Communication 17-6 | MW50017
SoftPLC 18MW500 | 18-1 18 SOFTPLCThe SoftPLC function allows the inverter to assume PLC (Programmable Logical Controller). For further details regardi
18SoftPLC 18-2 | MW500P1010 to P1059 – SoftPLC ParametersAdjustable Range:-32768 to 32767 FactorySetting:0Properties:Access Groups via HMI: SPLCDescri
0Quick Reference of Parameters, Alarms and Faults0-10 | MW500Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP03
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-11 Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP0
0Quick Reference of Parameters, Alarms and Faults0-12 | MW500Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP05
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-13 Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP0
0Quick Reference of Parameters, Alarms and Faults0-14 | MW500Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP07
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-15 Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP1
0Quick Reference of Parameters, Alarms and Faults0-16 | MW500Parameter DescriptionAdjustable RangeFactory SettingUser SettingProperties Groups PageP10
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-17 Fault / Alarm Description Possible CausesA0046 Motor OverloadMotor overload alarm. Ov
0Quick Reference of Parameters, Alarms and Faults0-18 | MW500Fault / Alarm Description Possible CausesA0702 Inverter DisabledThis failure occurs when
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-19 Fault / Alarm Description Possible CausesF0079 Motor Overtemperature (dedicated input)
0Quick Reference of Parameters, Alarms and Faults0-20 | MW500Fault / Alarm Description Possible CausesF0240 Profibus DP Module Access FaultIt indicates
1Safety InstructionsMW500 | 1-1 1 SAFETY INSTRUCTIONSThis manual contains the information necessary for the correct setting of the frequency inverter
Programming ManualSeries: MW500Language: EnglishDocument: 10002170331 / 01Software Version: 1.5XPublication Date: 01/2014
1Safety Instructions1-2 | MW5001.3 PRELIMINARY RECOMMENDATIONSDANGER!Only qualified personnel, familiar with the MW500 inverter and related equipment
1Safety InstructionsMW500 | 1-3 NOTE!Frequency inverters may interfere in other electronic equipments. Observe the recommendations of chapter 3 Instal
1Safety Instructions1-4 | MW500
General InformationMW500 | 2-1 2 GENERAL INFORMATION2.1 ABOUT THE MANUALThis manual presents information necessary for the configuration of all the fu
General Information2-2 | MW500°C: celsius degrees. °F: fahrenheit degrees.CA: alternate current.DC: direct current.CV: cavalo-vapor = 736 watts (Brazi
General InformationMW500 | 2-3 2.2.2 Numerical RepresentationThe decimal numbers are represented by means of digits without suffix. Hexadecimal number
General Information2-4 | MW500
3About the MW500MW500 | 3-1 33 ABOUT THE MW500The frequency inverter MW500 is a high performance product which enables speed and torque control of thr
About the MW5003-2 | MW5003An a lo g in pu t (AI1) (*)Digital Inputs(DI1 to DI4) (*)Power supplies for electronics and interfaces between power and
3About the MW500MW500 | 3-3 32311 – Fixing support (for surface mounting).2 – Plug-in module.3 – Front cover.Figure 3.2: Main components of the MW500
About the MW5003-4 | MW5003
HMI and Basic ProgrammingMW500 | 4-1 44 HMI AND BASIC PROGRAMMING4.1 USE OF THE HMI TO OPERATE THE INVERTERThe HMI is not included in the standard MW5
HMI and Basic Programming4-2 | MW5004parameterization mode, respectively.Inverter statusSecondary displayUnit of measurement (it refers to the value o
HMI and Basic ProgrammingMW500 | 4-3 4Monitoring Mode It is the initial status of the HMI after the powering up and of the initialization screen, wi
HMI and Basic Programming4-4 | MW5004
Programming Basic InstructionsMW500 | 5-1 55 PROGRAMMING BASIC INSTRUCTIONS5.1 PARAMETER STRUCTUREAiming at simplifying the parameterization process,
Programming Basic Instructions5-2 | MW50055.3 HMIIn the HMI group, you find parameters related to the showing of information on the display, backlight
Programming Basic InstructionsMW500 | 5-3 5P0205 – Main Display Parameter SelectionP0206 – Secondary Display Parameter SelectionP0207 – Bar Graph Para
Programming Basic Instructions5-4 | MW5005P0209 – Reference Engineering UnitAdjustable Range:0 = None1 = V2 = A3 = rpm4 = s5 = ms6 = N7 = m8 = N.m9 =
Programming Basic InstructionsMW500 | 5-5 5NOTE!The bar graph normally indicates the value defined by P0207 and P0210; however, in some special situat
Contents QUICK REFERENCE OF PARAMETERS, ALARMS AND FAULTS ...0-11 SAFETY INSTRUCTIONS ...
Programming Basic Instructions5-6 | MW5005In order to load the parameters of user 1 and/or user 2 to the MW500 operating area (P0204 = 7 or 8), it is
Programming Basic InstructionsMW500 | 5-7 5Table 5.4: Situations for CONFIG statusP0047 Origin Situation of CONFIG Status0 Out of CONFIG status, HMI,
Programming Basic Instructions5-8 | MW5005P0510 – SoftPLC Engineering Unit 1Adjustable Range:0 = None1 = V2 = A3 = rpm4 = s5 = ms6 = N7 = m8 = N.m9 =
Programming Basic InstructionsMW500 | 5-9 5P0512 – Unit SoftPLC Engineering 2Adjustable Range:0 = None
Programming Basic Instructions5-10 | MW5005P0263 – 1 (Run/Stop) P0264 – 8 (FWD/REW)P0265 – 20 (Reset) P0266 – 9 (LOC/REM)The standard settings for the
Programming Basic InstructionsMW500 | 5-11 5F0179. In the same way, the enabled time can be monitored by P0045, if it is greater then 50000 hours the
Programming Basic Instructions5-12 | MW5005
Inverter Model and Accessories IdentificationMW500 | 6-1 66 INVERTER MODEL AND ACCESSORIES IDENTIFICATIONTo verify the inverter model, check the code
Inverter Model and Accessories Identification6-2 | MW5006P0029 – Power Hardware ConfigurationAdjustable Range:0 to 38 FactorySetting:According to inve
Inverter Model and Accessories IdentificationMW500 | 6-3 6P0295 – VFD Rated CurrentAdjustable Range:0.0 to 200.0 A FactorySetting:According to inverte
Contents 10 V V W VECTOR CONTROL ...10-110.1 V VW VECTOR CONTROL PARAMETERIZATION ...
Inverter Model and Accessories Identification6-4 | MW5006
Logical Command and Speed ReferenceMW500 | 7-1 77 LOGICAL COMMAND AND SPEED REFERENCEThe drive of the electric motor connected to the inverter depends
Logical Command and Speed Reference7-2 | MW5007Control wordSpeed referenceSpeedSpeedreferencereference2ª RampLOC/REMJOGJOGRun /Run /StopStopDirection
Logical Command and Speed ReferenceMW500 | 7-3 7Command selectionP0105 and P0223 to P0228HMI keysDlxSerial/USBSoftPLCSoftPLCCO/DN/DPProfibus DPCANopen
Logical Command and Speed Reference7-4 | MW5007Selection of frequency reference P0221 or P0222ReferenceKey (P0121)FIFrequency input0 – HMI Keys4 - FI
Logical Command and Speed ReferenceMW500 | 7-5 7P0220 – Local/Remote Selection SourceAdjustable Range:0 = Always Local1 = Always Remote2 = HMI Key (LO
Logical Command and Speed Reference7-6 | MW5007Description:These parameters define the origin source for the speed reference in the Local situation an
Logical Command and Speed ReferenceMW500 | 7-7 7P0224 – Run/Stop Selection – LOCAL SituationP0227 – Run/Stop Selection – REMOTE SituationAdjustable Ra
Logical Command and Speed Reference7-8 | MW5007In digital inputs (DIx), the reference is defined according to the function predefined for P0263 to P02
Logical Command and Speed ReferenceMW500 | 7-9 7Description:This parameter defines the operation of the speed reference backup function between the op
Contents 16 READING PARAMETERS ...16-117 COMMUNICATION ...
Logical Command and Speed Reference7-10 | MW5007P0124 – Multispeed Reference 1 Adjustable Range:-500.0 to 500.0 Hz FactorySetting:3.0 HzP0125 – Multis
Logical Command and Speed ReferenceMW500 | 7-11 7Figure 7.4 on page 7-11 and Table 7.3 on page 7-11 show the operation of the Multispeed, considering
Logical Command and Speed Reference7-12 | MW5007DIx - AccelerateDIx - AccelerateEnabling (RUN)ResetResetRAMP&ReferenceDIx - DecelerateDIx - Decele
Logical Command and Speed ReferenceMW500 | 7-13 7P0680 – Logical StatusAdjustable Range:Bit 0 = Reserved Bit 1 = Run Command Bit 2 and 3 = Reserved
Logical Command and Speed Reference7-14 | MW5007P0690 – Logical Status 2Adjustable Range:0000h to FFFFh FactorySetting:Properties: ro Access Groups vi
Logical Command and Speed ReferenceMW500 | 7-15 7Table 7.6: Control wordBit Function Description0 Ramp Enable0: Stops the motor by deceleration ramp1:
Logical Command and Speed Reference7-16 | MW50077.3.2 Control via Digital Inputs Contrary to the network interfaces and SoftPLC, the digital inputs
Available Motor Control TypesMW500 | 8-1 88 AVAILABLE MOTOR CONTROL TYPES The inverter feeds the motor with variable voltage, current and frequency, p
Available Motor Control Types8-2 | MW5008P0140 – Slip Compensation FilterAdjustable Range:0 to 9999 ms FactorySetting:500 msProperties: VVWAccess Grou
Available Motor Control TypesMW500 | 8-3 8 Enable Fan (Bit 4)Turn-on the internal FAN. If this bit is cleared the FAN will be turned-off anyway. C
Contents
Available Motor Control Types8-4 | MW5008
V/f Scalar ControlMW500 | 9-1 99 V/f SCALAR CONTROLThis is the classical control method for three-phase induction motors, based on a curve that relate
V/f Scalar Control9-2 | MW5009Output current limitationPower supplyf*frfslipmlxRfo P0002m P0007fUdfUdUdUdUdUdfVV/f curve ftmAngle, sextantPWMspace vec
V/f Scalar ControlMW500 | 9-3 99.1 PARAMETERIZATION OF THE V/f SCALAR CONTROLThe scalar control is the inverter factory default control mode for its p
V/f Scalar Control9-4 | MW5009P0136 – Manual Torque BoostAdjustable Range:0.0 to 30.0 % FactorySetting:According to inverter modelProperties: V/f Acce
V/f Scalar ControlMW500 | 9-5 9P0145 – Field Weakening Start FrequencyP0146 – Intermediate Output FrequencyP0147 – Low Output FrequencyAdjustable Rang
V/f Scalar Control9-6 | MW5009Voltage applied on the motor Output active currentSpeed referenceP0139I x R P0136I x R Automatic P0137P0007Figure 9.4: B
V/f Scalar ControlMW500 | 9-7 99.2 START-UP IN V/f MODE NOTE!Read chapter 3 Installation and Connection of the user’s manual before installing, poweri
V/f Scalar Control9-8 | MW5009
VVW Vector ControlMW500 | 10-1 1010 V VW VECTOR CONTROLThe V VW vector control mode (Voltage Vector WEG) uses a control method with a much higher perf
0Quick Reference of Parameters, Alarms and FaultsMW500 | 0-1 QUICK REFERENCE OF PARAMETERS, ALARMS AND FAULTSParameter DescriptionAdjustable RangeFact
VVW Vector Control10-2 | MW50010Current limitation controlerPower supplyf*frfoTL/TR, SRfofslipfo P0002m P0007fUdfUdUdUdUdUdUdUdttmAngle, sextantPWM sp
VVW Vector ControlMW500 | 10-3 1010.1 V VW VECTOR CONTROL PARAMETERIZATION The V VW control mode is selected by parameter P0202, control mode selectio
VVW Vector Control10-4 | MW50010Power [P0404]FrameVoltage [P0400](V)Current [P0401] (A)Frequency[P0403](Hz)Speed [P0402] (rpm)Efficiency[P0399](%)Pow
VVW Vector ControlMW500 | 10-5 10Description:This parameter is important for the precise operation of the V VW control. A misconfiguration will cause
VVW Vector Control10-6 | MW50010P0403 – Motor Rated FrequencyAdjustable Range:0 to 500 Hz FactorySetting:60 Hz (50 Hz)Properties: cfgAccess Groups via
VVW Vector ControlMW500 | 10-7 10P0407 – Motor Rated Power FactorAdjustable Range:0.50 to 0.99 FactorySetting:0.80Properties: cfg, VVW Access Groups v
VVW Vector Control10-8 | MW5001010.2 START-UP IN VVW MODE NOTE!Read chapter 3 Installation and Connection of the user’s manual before installing, powe
VVW Vector ControlMW500 | 10-9 10Seq Action/Indication on the Display Seq Action/Indication on the Display12 Monitoring mode. Press the ENTER/MENU
VVW Vector Control10-10 | MW50010Seq Action/Indication on the Display Seq Action/Indication on the Display17 18 The result of the Self-tuning is the
Common Functions to All the Control ModesMW500 | 11-1 1111 COMMON FUNCTIONS TO ALL THE CONTROL MODESThis chapter describes the functions common to the
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