VITO Vitolux VXI-4 Series Operation Manual Download

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Summary of Contents for Vitolux VXI-4 Series

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Page 2: ...normal Phenomena Solutl on 119 7 Maintenance 121 7 1 Roatine Malntenance 121 7 2 Periodic Maintenance 121 1 Slife Precautionsand Product MOdel 1 1 SafetyPn caution1 t Do not install this equipment in an explosive gas atmosphere or there will be explosionhazards t Only qualified individuals should proceed with wiring or the re will be electric shock hazards Do not conduct any wiring during the syst...

Page 3: ...l Mode V F control advanced V Fcontrol V F separation control electric current vector control Acceleration Frequency Analog Input 0 1 of maximumoutputfrequency Setting and o 1s 3600min continuous setting Stype and lineartype mode for choice Deceleration Resolution Digital Setting 0 01 Hz Time Setting Frequency Analog Input Within 0 2 of maximum outputfrequency Precision Digital Setting Wlthln 0 01...

Page 4: ...hortcircuit hazard 6 Install theterminal cover before power on andensure r offwhen dismantlingthe termlnal cover Electricshock hazard 7 Conduct check and maintenance after s a minutes after power off when internal residual electricity is discharged completely Hazard of residual voltage in electrolytic capacitor 4 CAUTION 1 Check Ifthe voltage of powerInlet wire agrees wltfl rated Input voltage ofV...

Page 5: ...nctions are Multi functional X4 set by parameters F7 00 F7 07 common port Digital Input X5 COM INPUT 0 24V level signal low level effective SmA Tenminal X7 X6 can work as one of the multi functional X6 terminals also as high speed pulse Input terminal with programming see F7 05 Yl Multi functional programmable collector open circuit output channel 2 can be programmed as OUTPUT maximum load Digital...

Page 6: ...ut current signal Alt input voltage signal JP4 AOl outputvoltage signal AOl output currentsignal 8 2 11WirlogNotices Cutoffthe input power ofVFD while dismantlingand changing the motor Switching of motororwork frequency powersupplyshould only be conducted when the VFD stops output To reduce the effect of EMI electromagnetic interference add a surge absorber when electromagneticconnector and relay ...

Page 7: ... frequency displaystatus When the VFD is stopped the keypad displays stopped state moniroring parameters ractory setting is digital setting 10 frequency As is shownin figure 3 2 unit indicator lightreminds thatthe unit ofcurrent displayed parameter is Hz Press key 0 different monitoring parameters in stopped state can be displayed circularly default setting in sequence is main setting frequency bu...

Page 8: ...atically switch to fault alarm display Ss later after stopping operation The fault code displays raDging from D 48 to D 57 the current status and latest 3 times 3 8 Function Code Setting The function parameter system of this inverter includes function code FO FF fault code E group and monitoring code D group Each funetion group is consist ed ofseveral function code which is marked as function grou...

Page 9: ...imum Factory Madllbtlon Code Nam9 Unit Dmult Output Frequency o oo maximum output frequency 0 01Hz 0 00 d 00 F0 15 d 01 Set Frequency 0 00 maximum output frequency 0 01Hz 0 00 F0 15 0 00 maximum output frequency d 02 Estimated Motor F0 15 0 01Hz 0 00 Frequency Note motor running frequency converted from estimated motorspeed 0 00 maximum output frequency 0 01Hz 0 00 d 03 Main Set Frequency F0 15 Au...

Page 10: ...t length 0 000 6S 535 KM O OOlKM 0 000 d 32 Set length 0 000 6S 535 KM O OOlKM 0 000 d 49 The second to last 0 30 1 0 fault type d 33 Radiator o o C 110 o C O l C o o Temperature 1 d 50 Last fault type 0 30 1 0 d Sl Current fault type 0 30 1 0 d 34 Radiator o o C 110 o C O l C 0 0 Temperature 2 d 35 accumulative run 0 6S535H lH 0 time ofVFD hour d 52 Run frequency of O OO F0 16 upper limit of freq...

Page 11: ...HZ 6 east PLC set 7 multistage speed run set 8 PIOcontrol set 9 panel Potentiometer type Note 1 set as P type andthe VFD parameters will refresh Auxiliary frequency 0 digital set 1 keypad t key F0 08 encoder F0 12 1 3 0 source B 1 digital set 2 terminal F0 04 VFDtype automatlcally withoutmodifying 1 0 x UP DOWN adjust F0 13 any parameterthe VFD can be used as inverterof higher grade for applicatio...

Page 12: ...ed current of 0 1 0 0 0 motor F 0 17 Lower limitfrequency O OOHz F0 16 0 01Hz 0 00 x F1 12 DC braketime atstop 0 0 100 0s O ls 0 0 0 0 lowfrequency mode 0 00 300 00Hz F1 13 Acctlme2 0 1 Depending 0 on model F 0 18 Frequencyoutput 1 highfrequency mode O O 1 0 x mode 3000 0Hz Note high frequency mode is only effective toVF control F 0 19 Acceleration time 1 0 1 3600 0s 0 ls Depending on model 0 0 4 ...

Page 13: ...M reserved Note 1 onlyclosed loopvector Fl 00 Motortype control isacceptable by 1 0 synchronous machine at present Note 2 this parametercan not be initialized please modify it manually F2 01 Motor s rated power 0 4 999 9KW O lKW Depending on model F4 03 Switch low point freq O OOHz F4 07 O OlHz 5 00 0 F4 04 Speed loop ASR2 0 000 6 000 0 001 1 500 0 proportional gain F4 05 Speed loop ASR2 0 000 32 ...

Page 14: ...r 120 0 0 detect Invalid F5 04 V FvoltageV2 V1 V3 voltagevalue 0 1 50 0 x 1 keep running after over torque detected duringconstant FS 05 V Ffrequency F3 Freq Value F2 F2 02 rated O OlHz 37 50 frea of motor speed 2 keep runnlng after over F5 06 V FvoltageV3 Voltage valueV2 100 0 0 1 75 0 F2 04 rated voltage of motor torque detected duringrunning 3 cutoffoutput after over torque detected duringconst...

Page 15: ...e thisvoltage represents All upper limit 200 0 200 0 F6 04 corresponding pllysical note range is relevant to P6 00 0 1 100 0 0 quantity setting output voltage ofVFD controller adjustment F6 05 All Input smoothing o oos 10 oos 0 015 0 05 0 time F5 18 cycle of voltage closed 0 01 10 oos O Ols 0 10 0 speed command output loop output freq 100 0 100 0 F5 19 Voltage risingtime 0 1 3600 0s O ls 10 0 0 no...

Page 16: ...t terminal 0 value brakewith 11 reserved 12 freq increase DO multl functlon 4 output current 13 freq decrease F6 23 impulse output 5 outputvoltage 1 11 0 terminal 6 but voltage 14 UP DOWNtenminal freq 7 PIO specified value zero clearlng 8 PIO feedback value 15 multi speed 1 9 All Input X2 function when 16 multi speed 2 10 Al2 11 inputpulsefreq 12 torque current F7 01 FS 21 is non zero 17 multi spe...

Page 17: ... modifying 0 01 50 00Hl 5 O OlHl 5 1 00 0 rate F7 13 reserved 0 F7 14 Yl output delay time 0 0 100 os 0 15 0 0 x F7 15 Y2 output delay time 0 0 100 os 0 15 0 0 x 49 prohibit torque control F7 16 Rl output delay time 0 0 100 os 0 15 0 0 x 50 55 reserved 55 57 reserved F7 17 R2 output delay time 0 0 100 os 0 15 0 0 reserved x 58 start stop o no output 59 running allowed 50 interiockl 61 lnteriock2 5...

Page 18: ... output 29 torque limiting 30 overtorque signal 31 auxiliary motor 1 32 auxiliary motor 2 0 timing starts since power on F7 35 Timing start condition 1 timing starts in operation 1 1 x status and stops in stop status 33 accumulilted operiltion time out 34 49 segment of MSor simple PLCoperation 50 running Indication slgnal F7 36 Timing setting 0 655355 ls 0 0 F7 37 Ylturn off delaytime 0 0 100 os O...

Page 19: ...Fllllld l qthContnll LEDthousand s place reserved F8 0S Proportional gain KP 0 01 100 00 0 01 1 00 0 F8 06 Integral timeTi 0 01 10 oos O Ols 0 10 0 F8 07 Derivative time Td 0 01 10 oos O Ols 0 0 no derivation 0 00 0 0 stop aftersingle cycle 1 retain value aftersingle cycle F9 00 PLC running mode 2 continuous cycle of limited 1 0 times 3 continuouscycle F8 08 Sampling cycle T 0 01 10 oos O Ols 0 10...

Page 20: ... Freq upper limit 0 01Hz 0 00 Freq 0 F9 22 Ace Dec time of stage 0 0 3 1 0 0 F9 23 Run time of segment O 0 0 65535 5 s M 0 15 M 0 0 0 F9 24 Ace Dec time of stage 1 0 3 1 0 0 F9 57 Amplitude control o fixed amplitude 1 varied amplitude 1 0 x Restart method of o start to the state before stop F9 58 traverse mode 1 restart without other 1 0 x requirement F9 25 Run time of stage 1 0 0 65535 5 s M 0 15...

Page 21: ...00 VFD rated on model VF mode cunrent 120 1 alarm and maintain the PlDfeedback operation at the frequency of disconnection moment FA 20 disconnection 1 0 processing 2 protection action and coastto stop 3 alarm and decelerateto zero speed operation according to preset mode Feedback FA 21 disconnection 0 0 100 0 0 1 0 0 0 Current limiting in the 0 llmlted by FA 06 FA 07 field weakening region 1 limi...

Page 22: ... 1 even parity E 8 1 for RTU initialized 2 odd parity O 8 1 for RTU 0 65535 h FB 03 Data format 3 no parity N 8 2 for RTU 1 0 x 4 even parity E 8 2 for RTU FC 11 Limitingtime Note this parametercannot be 1 0 x lnltlallzed S odd parity O 8 2 for RTU ASCII mode is reserved at present Freq decreasing point 220V 180 330V 2SOV Depending FC 12 ofInstantaneous power lV on model x failure 380V 300 550V 45...

Page 23: ... 0 0 onlyfor LCD panel 2 reserved decelerating 0 JOG jog control LED ten s place overmodulatlon 1 FWD REVswitch 0 disabled 1 enabled FE 01 Key M FUNCfunction 2 3 clearfrequency set by f switch between local operation 1 0 FC 19 AVRfunction LED hundred s place dead time 1 0102 and remote control reserved compensation 4 reverse 0 disabled 0 onlyeffective to panel control 1 enabled 1 effective to both...

Page 24: ...t a new password press o ITICJ to confirm and the modifyingwill be donesuccessfully Newpasswordwilltakeinto effectafter 3 minutes l I Note Pleasekeepthepassword carefully and seekhelp from themanufacture oncelostthe password F0 01 Control software version 1 00 99 99 1 00 F0 02 K ewad software wrsion 1 00 99 99 1 00 VFD ratedpower F0 03 0 4 999 9 KW GIP Depending on model The above function codes a...

Page 25: ...erminethe correspondence ofspecified sectionnumberand frequency 8 PID control setting The VFD runs inprocess PID control mode inthis frequency settingmode Function codes ofF8 group are neededto be set such as process PID parameter analog given and impulse given The running frequency of VFD is the value after PID taking effect For details check F8 group function description 9 panel potenti ometer s...

Page 26: ...howed in the fullowing figure the maximum output voltage V is the output voltage when outputbasicrunning frequency usuallyrated voltage ofthe motm as V showed in the following figure fe fL are defined as upper limit frequency and lower limit frequency separately as showed in figure F0 1 OutputVoltage v fL fb flI fmax OutputFieq Figure F0 1 Voltage and Frequency Notice 1 The maximum output frequenc...

Page 27: ...rt Fl 01 0 00 50 00Hz I 1 00 Start holdtime Fl 02 0 0 10 0s I 0 0 Start frequency 1s the mitial frequency when the VFD starts as Iii showed m 1he following figure For some S Stem with relativelybig starting torque a reasonably set start frequency can solve effectively the hard starting problem The retention timeofstart frequency is thetime VFD s1R S in the start frequency value during starting sta...

Page 28: ...4 0 1 3600 0 I I I I I I ShublawnBrakeThne Fig Fl 4 Stop DC Braking IDepending on model IDepending on model IDepending on model IDepending on model 1Depending on model 52 IDeoeleratingtime4 I Fl 18 0 1 3600 0 I There are four kinds ofAce Dec time to be defined make different combination ofcontrol terminals to choose ace dee time 1 4 duringVFD running checkF7 0 F7 07 for definitiOD oface dee timete...

Page 29: ...laredtoFl 35 setting OuqmtFrcq Time ti i _ Fig Fl 7 FWD REVnm deadband time 54 0 over zerofrequency switch 1 over startfrequency switch I Iemergencystop standbydecelerationmm I Fl 36 0 1 3600 0S I 1 0 For details check N0 10 item function description ofdiscrete inputterminal F7 OO F7 07 PlAu dliaryRun Panmeter 0 AC asynchronous motor 1 PMSM permanentmagnet synchronousmotor reserved Asynchronous mo...

Page 30: ... staying at stoppedstatebefore activatingmotorparameter tuning oritWOD tprocess normally 4 in some condition lib that motor can tbe detached from load that complete tming can tbe conducted conveni or no highrequiremelt is um f orthe motor control pcrfuanancc statictuningcan beuacd 5 iftuning can t be canduc ted users can input motor nameplate pirameta a F2 0l F2 l 4 iftheyare acquired preci ely an...

Page 31: ...should set physical quantity of AI2 input as torque command and also AI2 setting corresponding curve andAI2 input filtering time Referto function code F6 06 F6 11 for introduction 3 RS485 communication Torque command is given byRS485 communication ITorque setbykeypad F4 13 200 0 200 0 o rated cum ntofmotor I 0 0 This function code corresponds to torque setting value whentorque command is setto giv...

Page 32: ...lected accordingtothe setting ofF5 00 0 linearcurve Linear curve is suitable for common constanttorque type load output voltage and output frequency are in linearrelation as straightline 0 showedin Fig FS 1 1 decreasing torque curve 1 power of1 3 Decreasing torque curve 1 output voltage value is output frequency value to the power of 1 3 as curve 1 showed in Fig F5 l 2 decreasing torque curve 2 po...

Page 33: ...Output Voltage Output Freq Output Voltage Time LC Filter Output Voltage Time 63 62 ...

Page 34: ...dback disconnection Aftervoltage feedback disconnection the duration time before protection action F5 24 64 This function code defines the maximum output voltage ofVFD When output feedback disconnection happens and voltage increases without control and lost protection this function can limit the output voltage within the allowed range which ensures thesafe ofwork load F6 analogand impi arameten of...

Page 35: ... com spondingphysical quauli ty pen entap Multi function terminal X6 must be defined as impuhe frequency input functim fmpuh1e input filtering time QOllStant me mainly used for filteringproce11 ofi mpul8e signal Theprinciple is the lllllJIC with analog inpia filtering time COll8tant F6 21 AOl multi function analogouitJllt terminal 0 13 I 0 F6 22 A02 multi functionanalogoutmJt terminal 0 13 I 4 F6 ...

Page 36: ...minal and convenient for remote control 7 extema1 reset signal input RS I Ifthe VFD malfunctions it can be reset through this terminal This function is the same with key STOP RESl T and is validinany command channel 8 extema1 fault normally open input 9 extema1 fault normally closed input The fault signal of external device can be input through this terminal so as to facilitate fault monitoring of...

Page 37: ...ifF0 09 frequency QOIDbinational algorithm is set as 7 the frequency setting channelis switchedto frequencysource A K B andback to Aifit is disabled 31 switch from frequency source A to A K B When this terminal function is enabled ifF0 09 frequency QOIDbinational algorithm is set as 8 the frequency setting channelis switchedtofrequency source A K B andbackto Aifit is disabled 32 reserved 33 PID co...

Page 38: ...ock signal will start first Ifinput together startthe one corresponding smallernumber 64 A frequencyswitchBandrun 65 99 reserved This function is usedto set sensitivity ofinput terminal Ifdigital input tennina1 is susceptible to interference so as to cause error action increase this parameter to improve the anti interlerence ability but overlarge value will result in a lower sensitivity 0 0 termin...

Page 39: ... is inreversingrunning 3 fault output The indicatorsignal output whentheVFD fault ocain 41 freqJspeed level detection signal FDTl RefeT to F7 24 F7 26 function description SI freqJspeedlevel detectionsignal FD f2 Refer to F7 27 F7 29 function description 61 freqJspeedarrivalsignal FAR Referto F7 23 functim description 7 indicator during running The indicator signal outputwhenVFD is still in runnin...

Page 40: ...PIO function module 33 total operatingtime arrival This signal is sent whenthe opeming limittime FC 11 arrives 34 49 multi speedor PLC running segment The outputterminal function 34 49 items correspondto 0 15 segments ofmulti speed or simple PLC andthis signal is sentwhenthe correspondingsegment ofoutputterminal settingarrives 50 VFDnmningindicatioo Indication signal outputwhenVFDis inin forward r...

Page 41: ...g continues and exceeds the preset value ofF7 32 1his output signal will be revokedwhenthecounteris cleared As showedinthe following figure the programmablerelayoutput is set asreset signal ou1put open collectoroutput Yl is set as counter detection output F7 32 is set as 8 F7 33 is set as 5 When the detection vallle is 5 Yl output valid signal and maintain it when detection value arriving at reset...

Page 42: ...tion for systemrequiring quickresponse LED thousand splace reserved F8 05 Prooortional ORin KP 0 01 100 oos F8 06 Inteeral timeTi 0 01 10 00s F8 07 Derivativetime Td 0 01 10 00s 0 00 no derivativeregulation Proportional gain Kp I 1 00 I 0 10 I 0 00 It determinesthe adjusting strength ofPID regulator The larger ofP the larger ofadjusting strength But excessive adjusting strength willresult influctu...

Page 43: ...c is emercd afterdelaytime FS 17 2 iffeedback value inaeasc s toabove mmmcevalue the sleep mode is entered afterdelaytime F8 17 otherwise iftbe feedback value deaeases tollllderwake updn shold FS 16 it will wakeup immediately IStop method ofsleep mode 0 0 dccelc ratcto stop 82 Ir coaatto Deviation limit of feedback when entering sleep state FS 14 withsc t 0 0 20 0 S 0 This tlmctionparameteris only...

Page 44: ... Fig F9 2 MaintainLast Stage after Single C cle 2 continUOll8cycle oflimited times The driverruns with cycle times setbyF9 04 and stops aftc r reaching ofcycle times IfF9 04 0 the driver won trun 3 continuous cycle The driver continuesrunning cycle aftercycle until stop connnandis received as showed inthefollowing figure fl5 fl5 fl al5 dl f2 a15 dl a2 fl4 a2 fl4 fl d3 fl d3 fl al al4 a14 a3 t3 I a...

Page 45: ... mode 1 andmode2 is thatinmode 2 the driver canrecordthe operating frequency when the driver stops andcontinue to operate at therecorded frequency afterrestart 86 0 s 1 m F9 06 F9 07 F9 08 F9 09 F9 10 F9 11 F9 12 F9 13 F9 14 F9 15 F9 16 F9 17 F9 18 F9 19 F9 20 F9 21 ILimitedtimes ofcontinUOU8cycle IUnit ofPLC operatingtime Multi omeedfrea 0 uooerlimit UDOer limit Multi eedfrea 1 upperlimit upper l...

Page 46: ...edto setAWDec time ndrun time ofmulti speedoperation Ace Dec timesettingat 0 s1aDds far Aa Dec time 1 F0 19 F0 20 AWDectimesettingat1 2 3 stand farrespectively Ace Dec time 2 Fl 13 Fl 14 3 Fl 15 Fl 16 4 Fl 17 Fl 18 Runtimeofofthese 16 stages arc setbyruntime ofstage X respectively x il 15 DJNotice 1 A stage is ineffective ifits runtimeis setto 0 2 The amtrol ofPLC process including input pause ndr...

Page 47: ...d traverse are enabled the travene is invalid when trllllllferring to another PLC stage The output frequency begins totraverse after axrivingatthe PLC presetfrequency within At clDec time When receiving stop command the driver will stop accordingto PLC Dec time 90 F9 66 1 0 F9 67 ILengthcontrol 0 1 0 0 disabled 1 enabled F9 68 Presetlenorth 0 000 65 535 KM I 0 000 F9 69 Actual leruzt h 0 000 65 S3...

Page 48: ...ctor is calculatedby the formula below Motor ove oad Protectoon coefficient allowed max loadcurrent x 100 inverter s rated output current Generally the max load current is the motors rated current FA02 IUndervoltage protection action 0 1 0 disabled 1 allowed under voltage is seen as fault FA03 220V 180 280V 200V 380V 330 480V 350V 0 Depending on model This function code specifies the lowerlimit of...

Page 49: ...rloadpre alarmsignal is sent 94 Notice With the setting ofparameter FA 12 and FA13 whenthe output cuamofthe dri is higherthan cm rloadpre t arm level FA 12 the driverwill sendpre alarmsignal after delaytime FA 13 i e theQOl1trol panel willdisplay A 09 For details seefunctiOD desaiptionNO SJ ofF7 18 F7 21 IPhase loss protection ofinput output FA JS 0 3 Depending on model 0I both invalid l invalid f...

Page 50: ...I o 0 invalid 1 valid FA30 Over speedprotection action reserved 0 2 0 protection actionandcoast to stop 1 Blann and decelerateto stop 2 alarm andkeep onrwming FA31 Overspeeddetection value o o 50 0 Fo 1s1 max freq 2 0 0 96 FAJJ IAction ofbig speeddeviation reserved 0 2 0 protection actionandooast to stop 1 alarm anddecelerate tostop 2 alarm andkeep onrwming 0 FA34 Detection value oftoo large speed...

Page 51: ... value brake backlash the internalbrabunitwill close 98 Bus Voltage Initial Voltage Brake Signal FC 04 IRestart afterpower failure 0 disabled The driverwill not autorestart afterpower on 1 start at start frequency ON OFF PC 03 ta 100 Fig FC 1 DynamicBraking 0 Brake Backlash Time Time After power on ifstart condition is met the driver will auto start at start frequency after a period oftime specifi...

Page 52: ...ts this parameter is used to determine the speed oftracking The smaller ofthe value the faster ofthetracldng Buttoo fast ofthe tracking maycause itunreliable FC 18 I 100 Depending on model LED one s place PWM synthesize method 0 seven segments offull band Current output is stable power tube offull bandproduces a largeamount ofheat 1 switch form 7 segments to five segments Current outputis stable h...

Page 53: ...mingstatus andis disabled in stop status This switclringis onlyeffectiveto commandgiving methodofkC p d 2 clear frequencysetby A fY l FE 02 IKey S I OP RST function 0 3 3 0 onlyeffective topanel control Onlywhen F0 06 0 thiskeycan control the driverto stop 1 effective to bothpanel and terminal conttol Onlywhen F0 06 0 or 1 canthis key control the driver to stop In the communication control mode th...

Page 54: ...ercopyfunction 0 3 0 0 disabled 1 parameters uploadto operation panel Ifit is set at 1 and confirmed the driver will display CP 1 and upload all function code parameters from control panel to EEPROMinopemtion panel for storage 2 all function code parameters downloadto the driver Ifit is set at 2 and confirmed the driver will displayCP 2 and download all function code parameters from operation pane...

Page 55: ... 0 0 0 0 0 000 106 cl 32 ISet length 0 000 6S 53S KM 0 000 cl 33 radiator IGBT temperature l o o C 110 o C I 0 0 d 34 radiator IGBT temperature 2 O O C 110 0 C I 0 0 d 3S accumulative nmtime ofVFD hour cl 36 accumulativepower ontime ofVFD hour 0 6SS3SH I 0 d 37 accumulative nmtime offan hour 0 6SS3SH I 0 Accumulative electricityconsumption low d 38 order digit 0 9999KWH I 0 Accumulative electricit...

Page 56: ...S Control command mm1t Ox2000 Readmonitornarametcr OxDOOO OxlDOO OxD039 0xlD39 108 MODBUS settin2 MODBUS tarmre settino MODBUSPID Riven MODBUS PID feedback settin2 Parameter setting 3 03Hreed multiple parameters 8 items continuouslyatmost Inquiryinformation frame format send frame AddreAS Function Starting dataaddress NumberofData Byte CRC CHK Hiidi CRCCHKLow Anal SiS ofthis segmentdata 01H is the...

Page 57: ... 83C9H 2000H 0004H 83C9H 2000H OOlOH 43CAH Return frame OlH Sendframe OIH Forwardjog Return frame OlH Sendframe OIH Reversejog Return frame OIH Sendframe OlH SetF8 00 parameter at 1 Return frame OlH Sendframe OlH MODBUS reference frequency 40HZ Return frame OlH Sendframe OlH MODBUS PID reference 5V Return frame OlH MODBUS PID feedback 4V Sendframe OlH Return frame OlH Sendframe OIH MODBUS torque s...

Page 58: ...me format return frame Address OlH Function 13H Starting data address OOH 12H Data1 2Byte 13H 88H Data2 2Byte 03H 22H Data3 2Byte OOH OOH Data4 2Bvte 13H 112 OOOlH OOOlH OOOIH 0002H 2E3EH 1388H 36F8H 77SOH Analysis ofthis segmentdata CRC CHK High CRCCHK Low address ofthedriver writefunction code 88H 28H 31H OlH 13H OOOCH 1388H 0322H OOOOH 1388H 2831H start address equivalent to F0 12 ofcontrol pan...

Page 59: ...o much OOlEH E 30 Over speedfault ReadVFD Address EOOlH and lEOlH intm bangeable refi r to example of pre alarm fault pre alarm EOOlH lEOlH code readfunction code 03H code 5 5 Pre alarm Code ofthe Driver Alarm code di81Jia Cd Faultinformation Userpassword ADOOH lCOOH AddressADOOH and lCOOHinterchangeable refer to example ofwrite function clieck code06H OOOOH No fault 0009H A 09 Driveroverload alar...

Page 60: ...rn et 2 Initial address ofmonitor item is DOOO each item offset corresponding bexadecimal value based onthis address then plus it with the initial address For example the monitor initial item is d 00 the corresponding initial address is DOOOH lDOOH now read monitor item d 18 18 00 18 the corresponding bexadecimal of 18 is 1211 then the read address of d 18 is DOOOH 12H DOl2H 1DOOH 12H 1D12H Addres...

Page 61: ...r Check supply voltage or seek help from disconnecting ofoontactor relay manufilcturer E 21 Motor tuning fault Mismatching ofpower specification between driver and Seek help from manufacturer Improper setting of VfF curve or Adjust VIF curve and torque boost value torque boost motor Tuning timeout Check motor wiring Low network voltage Check network voltage E 22 EEPROM R W fault EEPROM fault Seek ...

Page 62: ...uency setting potentiometer is in bad connect or the frequency setting signal is in fluctuation Switchto digit settingmode or in ease filter time eonstant ofanalog inl ut si1mal Adjustphase sequence ofoutput terminal U V W Setthe running direction as reverse F0 21 1 Causedbyphase loss ofoutput Checkthe motor wiringimmediately 7 1 RoutlneMalntenuee Many filctors such as ambient temperature humidity...

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VITO Vitolux VXI-4 Series, Operation Manual

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