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Instruction Manual for VB3 i VB5 series

1. dy O A J00 FWD O O 167 0 180 0 B V5 series 11 55KW 247 9 260 0 VB3 V5 VB5 series inverter Unit mm THINGET 7 mos The details of the dimension Unit mm 13 VB3 V5 V BS series inverter 1 a L 7 4011 BE V54015 Wd V54018 D V542 V5 V 4000 ae V54045 V5 V54055 1 5 Choose fittings gt Braking Resistor 1 5 18 5KW series inverters have braking unit inside not include VB5 21P5 If you have the requirements of power consumption braking choose braking resistor unit according to table 1 1 22KW and above inverters need to connect braking unit The braking resistor connection method is shown as below Brake Resistor Figure 1 1 Wiring of inverter and brake units Each power level inverter is corresponding to the following connection method
2. a Preset freq enabled Run at preset frequence f N Low pnort go y Common operaton f Fig 3 1 Running state of V3 Except Jog running other 4 kinds running modes can be enabled by multi freguency setting method Besides PLC 99 66 99 66 running multi speed running common running can be used as traverse frequency 3 2 Use the keyboard 3 2 1 Keyboard layout Start speed stop brake running parameter setting and control of the peripheral can be performed by inverter s operation 29 V5 series inverter panel and control terminals operation panel is shown in Fig 3 2 VB3 0 4 0 75KW VB5 OPU 01 V5 OPU 03 C 06061 rmn C nnn 0 O0 OQ I JL AL ILI JLILILI saa THINGET n THINGET JOG FWD REV Vt N MENU ENTER ESC DATA gt gt y STOP RESET Fig 3 2 Illustration of operation panel 3 2 2 Keyboard function There are 8 keys and 1 analog potentiometer on operation panel and the functions are shown in the following table Key Name In operate panel control mode press this key to run forward In operate panel control mode press this key to stop running or return to normal state Stop Reset uu when inverter is in error s
3. Frequency setup 0 Multi i G 1 7 1 Frequency is decide by P0 01 Ten s place of LED Operating direction selection 0 Run forward 1 Run reverse 2 Decided by operating instructions Hundred s place of LED Acc Dec time selection With the unit s place ten s place and hundred s place of LED P8 01 P8 14 defined the running frequency direction and Acc Dec time of PLC Unit s place of LED 0 Multi frequency i i 1 7 defined by P3 26 P3 32 1 Frequency is set by P0 01 Ten s place of LED Operating direction selection 84 V5 series inverter 0 Run forward 1 Runreverse 2 Decided by operating instructions Hundred s place of LED Acc Dec time selection 0 Acc Dec time 1 1 Acc Dec time 2 2 Acc Dec time 3 3 Acc Dec time 4 4 Acc Dec time 5 5 Acc Dec time 6 6 Acc Dec time 7 4 2 10 Traverse and measure function parameters Group P9 Traverse operation is widely used in textile and chemical fiber industry The typical application 1s shown in Fig 5 37 Traverse operation process First the drive accelerates to the preset frequency of traverse operation F6 02 within the Acc time and then waits for certain time F6 03 The drive transits to the central frequency within Acc Dec time and at last the drive traverse according to the preset traverse amplitude F6 04 jitter frequency F6 05 traverse cycle F6 06 and rising time of traverse operation F6 07 until it receives a stopping command and stops
4. Table 1 1 Braking resistor selection Braking unit Braking resistor spe No Braking resistor O Braking power CW 300 400 200 500 200 500 Built in 100 500 VB3 V5 VBS5 series inverter EE LIE a L1 mi 5 Dp 9 p 9 BRU 4045 9600 13 6 9600 Operate panel SONS seat me panel Suitable Typ Mounting dimension mm V5 OPU 01 a 62 75 V5 OPU 03 11 55 71 131 Operation panel extension cable The frequency inverter will be attached with 0 3m extension cable when out of factory Besides we also provide 0 5m 1 0m 1 5m extension cable Cable type Length m 15 VB3 V5 VBS5 series inverter 2 Installation and Wiring 2 1 Installation environment 2 1 1 Environment requirement gt Ambient tempeature It is required to be within the range of 10 C 40 C The inverter should be derated when the temperature over 40 C at the same time ventilation and heat dissipation should be enhanced Far away from the location with direct sunlight dust floating fiber or metal powder Mount in the location free of corrosive gas and combustible gas Mount in the location free of condensing dry bulb and the humidity should less then 95 RH Mount in the location where vibration less than 5 9m s 0 6G Far away from electramagnetism interfere source and other electric instruments sensitive with electramagnetism interfere VN V V Vv 2 1 2 Mounting location and space gt Mount the inverter vertical
5. Hz Fi Stopping signal F3 Phase 1 Phase 2 Phase 2 Operating time Remnant time Ay Acc time of stagel A Acc time of stage2 Az Acc time of stage3 d 1 Dec time of stage Fl Freguency of stage F2 Frequency of stage2 F3 Frequency of stage3 Fig 4 44 PLC start mode 1 Ten s place of LED Save at power off 0 Notsaving The inverter does not save the PLC operating status after power off and restart to operate in first stage 1 Save Save the operating parameters of PLC operation after power off including the operating stage operating frequency and operating time The inverter will continue to operate in the mode defined by the ten s place Thousand s placeof LED PLC running time 0 second 1 minute This unit only valid for the definition of PLC running time The unit of Acc Dec time durning PLC is running is set by P0 16 Notes 1 This stage 1s invalid when the PLC running time 1s set as 0 2 You can control pause invalidation run and others for the PLC process via terminals refer to group P4 for details mm swixwm O Rem m x mum Operating ts Ranger 00000 mm swew Remi e U mu Op n nszanl a OA MA esos sugas O TONU mm sugas SSS Rages monn mum Operating tie ofstges Ranger O a mm swssm Rem U e Wo M O o mu swowm TO ON M men Operating tmeofsge6 Rangs 00009 w m m T 0 mu Operating tes Regn 0 M
6. REV 1173 1 111 FWD REY ALM HZ Y A o 5 e 5600 THINGET THINGET THINGET V uL C MENU ENTER FWD REV A l Power on and Stop status display running status FigA initialize display Fig B the stop parameters Fig C display the running the dynamic picture parameters Fig 3 4 Display during initialize STOP and RUN 2 Parameters displayed in running status When the inverter receive the running command it starts to enter running status and operation panel will display running monitor parameters the default parameter is output frequency b 00 monitor parameter as shown in Fig 3 4 B the unit indicator on the top right indicates the unit of this parameter Press cS key can display parameter in running status circularly defined by function code P3 41 and P3 42 While displaying press jkjk key to shift to the default parameter b 00 that 1s output frequency Otherwise the operation panel will display the last monitor parameter constantly 3 Alarm information When then inverter detects a fault signal the panel will display fault code the code will flash to catch your attention as ENTER shown in Fig 3 5 Press key to view the relative fault parameters in stopping status and then press FT to shift to fault code dis
7. Upon unpacking please confirm that Check whether the model and the rated values on the nameplate of the inverter are in accordance with your order Check if there is any damage occurred during transportation pleases contact us or the distributor if you find any missing or damage of the products In order to use this product correctly the user who uses the product for the first time must read this manual carefully and pay close attention to the safety precautions Please keep this manual properly hand it to the terminal user and lay it on the place where the operators can read it easily O Safty Precautions Confirmations Upon Delivery Never install an inverter that is damaged or missing components Doing so can result in injury Installation Always hold the bottom of the inverter when carrying it If the inverter 1s held by the front cover the main body of the inverter may fall possible resulting in injury Attach the inverter to metal or other noncombustible materials Fire can result if the inverter is attached to a combustible material Install a cooling fan or other cooling device when installing more than one inverter in the same enclosure so that the temperature of the air entering the inverters is below 45 C Overheating can result in fires or other accidents Always turn off the input power _ A before wiring Otherwise an electric shock or fire may occur Wiring must be operated by an authorized person qualified
8. AINE VB3 VB5 V gt freguency inverter User manual Xinje Electronic Co Ltd No INV C 01 20081130 204 2 INDE VB3 VB5 V5 Series Inverter User Manual Table of Contents Preface Safty Precautions Product Introductions Installation and Wiring Operation Descriptions Function Parameters Fault Diagnosis and Disposal Maintenance Communication Protocol VB3 VBS5 V5 series inverter This manual includes the basic caution items that you should obey to ensure your personal safety as well as to protect the product and the connected equipments These items are highlighted in the manual by a warning triangle Please comply with the essential electric operation rules that are not indicated in this manual Installing Precautions Please comply with these items incorrect operation may cause the system error working even abnormal More serious would cause possession loss Correct Applications The device and its components can only be used in the applications described in the catalog and the technical manuals can only be connected with devices or components from other manufacturers which gt have been approved or recommended by Xinje The products will run normally in the condition of been transported stored configured and installed correctly been operated and maintained as recommended Xinje Electronic Co Ltd Copyright reserved Without written authority please do not
9. Run forward reverse dead time Highest frequency Basic frequency em A Minm i Factory setting Change unit 1 l 0 01HZ 50 00HZ 0 1s 0 1s X 0 01 Hz 50 00Hz X 0 01 Hz 50 00Hz IV Inverter rated X voltage 2 095 25 00Hz 0 1 1 0 1K 1 oS V5 series inverter leton 1 S curve Ace Dec P0 14 Low speed time of S 10 026 50 0 CAcc Dec time 0 126 20 0 ramp PO 14 PO 15 lt 90 P0 15 Linear time of S 10 0 80 0 CAcc Dec time 0 1 60 0 ramp PO 14 PO 15 lt 90 m e o 1 minute POI Acti 060E O Poig Deetiel 01 6000 01 100 O P0 19 High frequency limit Low frequency limit highest 0 01 Hz 50 00Hz X output frequency P0 06 P0 20 Low frequency limit 0 00Hz high frequency limit 0 01 Hz 0 00Hz X P0 21 Running mode of 0 running at low frequency limit 1 low freguency limit 1 stop P0 22 V F curve setting 0 constant torque curve 1 X 1 torque reducing curve 1 1 2 order 2 torque reducing curve 2 1 7 order 3 torque reducing curve 3 2 0 order 4 multi segment V F curve P0 23 V F frequency value 0 00 P0O 25 0 01 Hz 0 00Hz X P1 P0 24 V F voltage value 0 P0 26 0 0 0 X Vi 2 2 1 P V P0 27 P0 25 P0 07 basic running P3 frequency V3 2 Reference frequency parameter Group P1 X X X Group P1 reference frequency parameter Minmum Factory setting Chan
10. 2 3 1 8 2 format no parity check 1 stop bit 8 data bits 2 stop bits no parity check 4 5 1 8 1 format even 1 stop bit 8 data bits 1 stop bit even 6 1 8 1 format no parity check 1 stop bit 8 data bits 1 stop bit no parity check Hundred s place of LED undefined Notes when choose Modbus RTU communication mode you should select digital format 3 6 P3 10 Local address Ranges 07 248 This parameter is used for identify the inverter s address in serial communication 0 1s the broadcast address If take inverter as a slave 1t will receive the command with 0 as broadcast address and will not answer the PC 248 1s the address with inverter as a host If take inverter as host and set P3 10 as 248 it can send broadcast command to other inverters to realize multi machine Time threshod for judging P3 11 Ranges 0 0 1000 0S 0 0S communication status When serial port failed and the duration over the reference value the inverter will judge it as communication fault When set the value as 0 the inverter will not detect the serial communication port and this function disabled P3 12 Host PC response delay Ranges 0 1000ms It refers to time from inverter s serial port receiving and executing the command of host PC to returning response to it Reference proportion of P3 13 Ranges 0 01 1 00 1 00 communication frequency This parameter 1s used for setting the proportion coefficient according to frequency settin
11. 24 P3 42 Display parameters select 0000 FFFF 0000 Lo 42 V5 series inverter Unit s place b 25 b 28 Ten s place b 29 b 32 Hundred s place b 33 b 36 Thousan s place b 37 b 40 Display parameters 0000 4040 selection 3 Ten s place uni s pladce stop displaved parameter selection Thousan s place hundred s place run displaved parameter selection Display coefficient without unit JOG REV shift control 0 select JOG to start jog mode 1 select REV start reverse 5 Function parameters of terminal Group P4 Group P4 Function Parameters of Teriminal Minmum Factory Change Parameter Name Range setting P4 00 Function selection of 0 Control terminal free input terminal X1 Multi step speed control terminal 1 2 Multi step speed control terminal 2 3 Multi step speed control terminal 3 4 Exteral terminal for forward jog operation 5 Exteral terminal for reverse jog operation Acc Dec time terminal 1 Acc Dec time terminal 2 Acc Dec time terminal 3 3 wire operation control 10 Coast to stop FRS 11 External stop command 12 DC injection braking command DB 13 Inverter running prohibit 14 Frequency ramp up UP 15 Freguency ramp down DOWN 16 Acc Dec prohibit 17 Reset signal clear fault 18 External fault signal normally open input V5 series inverter eee series inverter P4 08 P4 09 UP DN rate 0 01 99 99Hz s P4 10 input term
12. External pulse reference 13 RS485 VI External pulse reference 14 VI c CI Increase Decrease key reference Digital setting P0 02 15 VI CI Increase Decrease key reference Digital setting P0 02 16 MAX VI CD 17 MIN VL CD 18 MAX VI CI PLUSE 19 MIN VI CI PLUSE 20 VI Clis active VI is priority Parameter initialization Range LED unit s place 0 2 locking up LED ten s place 0 2 LED uni s place 0 All the parameters are allowed modifying 1 Only P3 01 can be modified 2 Only P0 02 and P3 01 can be modified LED ten s place 0 Disabled 1 Restore to factory setting 2 Clear fault record Notes 1 The factory setting of P3 01 is 0 and allow all the parameters to be modified After modifying this parameter please set it as 0 if you want to modify other parameters Also you can set protective grade 2 P3 01 will be changed to 0 automatically after restoring to factory setting Parameter copy Range 0 1 2 0 Disabled 1 Parameter up load Up load the parameters from inverter to remote opration panel 2s Parameter download Down load the parameters from remote operation panel to inverter Note This function is still in developing Auto energy saving function Ranges 0 1 0 Disabled 1 Enabled Inverter can regulate output voltage through detecting load current to achieve energy saving when the motor running without load or with light load Auto energy saving 1s suitable for the applicatio
13. Max freguency 20KHz preset counting value P4 23 9999 1 arriving Mid counting value 0 P4 22 1 P4 23 E arriving Overload pre alarm 20 200 1 P4 21 0 1KHz 10 0KHz P4 22 130 P4 24 detection level m un A c un Delay time of over load 0 0 20 0s P4 25 pre alarm 6 Protective function parameters Group P5 Group P5 Protective function parameters Minmum Change Parameter Name Range Factory setting unit P5 00 Motor overload protection 0 Inverter locking output 1 X mode selection 1 Disabled P5 01 Motor s overload 20 120 1 100 x protection coefficient P5 02 Protection of over load at 0 Disabled l 1 X P5 03 Over voltage point at stall 380V 120 150 1 P5 04 Auto current limiting 110 200 1 150 X 46 V5 series inverter Frequeny decrease rate 0 00 99 99 Hz s 0 01 Hz s 10 00Hz s when current limiting Auto current limiting 0 Disabled in constant speed 1 selection 1 Enabled in constant speed Note Enabled at Acc Dec setting of the restart after 0 Disabled 1 power off 1 Enabled M Holding time of restart 0 1s after power off mo Auto reset times of fault 0 10 1 0 No auto reset function Note overload and 0 1s overheat have no recovery function P5 10 Auto reset interval of fault 0 5 20 0s oas CE 7 Fault recording parameter Group P6 Group P6 Fault recording parameter P6 00 Previous fault record Previous faul
14. P4 23 are the additional definition of No 12 13 functions in table 4 6 Preset counting value arriving It defines after X1 receives the relay or OC bi direction open collector output terminal will output a signal For example as shown in Fig 4 28 when the eighth pulse signal 1s received by terminal Xi OC outputs an indicating signal and F7 33 8 at this time Mid counting value arriving When Xi receives the number of pulse F7 34 OC or the relay will output a signal which will last until preset counting value arrives As shown in Fig 4 28 when Xi receives the 5th pulse the realy outputs an indication signal It lasts until X1 receives the 8th pulse At this time P4 23 5 The mid counting value will be disabled if it is bigger than preset counting value X1 Input 1 2 3 4 5 5 T a 9 OC Output i Relay Output Fig 4 28 Preset counting value arriving and Mid counting value arriving Overload pre alarm detection level Range 20 200 130 PADS Overload pre alarm delay time Ranges 0 0 20 0S 55 If output current over the detecting level set by P4 24 continuously Actual detecting current level P4 24 X inverter s rated current Bi direction open collector will output available signal after the delay time set by P4 25 refer to Fig 4 29 and P4 11 for details Output current F4 24 detection level P425 time P425tme Time Overload pre alarm active U i 1 enable
15. Ta i Ts T6 T LJ LI Li LI LI LA LM PLC cycle completion indication So00ms Sea PLC phase completion mdic ation Fig 4 40 Simple PLC diagram In Fig 4 40 a a7 d d are the Acc Dec time of different stages and they are set by Acc Dec time parameters P0 17 P0 18 and P3 14 P3 2 Fj F TT are the running frequency and running time and they are set by P8 01 P8 14 Range LED Unit s place 0 3 Ten s places 0 1 L i lecti Simple PLC operation mode selection Hundred s place 0 1 Thousand s places 0 1 Unit s place of LED PLC operation mode selection 0 Disabled 1 Stop after operating for one cycle As shown in Fig 4 41 If inverter stop after single cycle operation running command should be give once again to start the inverter F6 Simple PLC operation Fi d F2 aj i NFZ ao Fs PN Fi A TR d o T ds as E E tA F f i Fa f i L Ix 123 Ta Ta c Ts T6 17 1 RUN command ODO Fig 4 41 PLC stop mode after single cycle of operation 2 Holding at the final value after single cycle of operation As shown in Fig 4 42 Inverter will keep the running frequency direction of the last setting automatically after single cycle 1s completed then it will stop with the reference Dec time if stop 82 V5 series inverter command is input Fi us aj i r l TR 73 ds Mag i INEJ i i1 Tai 13 T4 i Ts T6 T3 RUN c omman d Fig 4 42 PLC holding mode after
16. You should set PO 05 0 0s P0 200 5Hz PO 17 lt 0 5S PO 183 lt 0 5S P0 20 2 0Hz P2 0122 0Hz This function is usually used in the control process of continuous to and for control If swift turn around is needed reduce the Acc Dec time and increasethe lower limit of frequency start frequency P0 17 lt 0 5S P0 18 lt 0 5S P0 20Z2 0Hz P2 01 22 0Hz PB 02 Inverter type select range 0 1 0 G type normal used in normal situation 1 P type wind machine water pump used in wind machine water pump and other small load situation Under this mode power will improve time if the machine power is 2 2K W under P type mode the power will be 3 7K W Please note P0 22 should be set as 3 0 before power on if the pointis short run theinverter immediately 1 before power on if the pointis short run theinverter after cut off the point and connectit again 4 2 13 Factory setting Group PF OO 00 V5 series inverter This parameter can be protect against unauthorized personnel to view or modify function parameters If user s password don t need you can set 0000 as its value ENTER If usre s password is needed input four figures as password then po IS to confirm the password will be valid immediately MENU Modification Press key to validate password with correct password you can enter parameter editing status After selecting PF 01 PF 01 0000 input new password and press to confirm then the pas
17. 3 12 Procedures of starting the driver for the first time 36 4 Function Parameters V5 series inverter 4 1 Function parameter table O X 66 sk Parameters can be changed while running Parameters can not be changed while running Parameters can only be read user can not changed 1 Basic running parameters Group P0 Group P0 Basic running parameters Parameter P0 00 P0 01 P0 02 P0 03 P0 04 P0 05 P0 06 P0 07 P0 08 P0 09 P0 10 PO 11 PO 12 PO 13 Control mode 0 V F control 1 open loop vector control setting 0 Analog potentiometer 1n the selection Freguency mode panel 1 Increase Decrease key 2 digit setting 1 via keys on the panel 3 digit setting 2 via terminal UP DOWN digit setting 3 via serial port VI analog input VI GND CI analog input CI GND Pulse input PULSE Combined setting mode refer to P3 00 Running frequency PO 19 in digit mode High frequency limit P0 20 low frequency limit command 0 Running Running frequency via selection operation panel control 1 Teminal control 2 Unit s place 0 l jog reverse via panel serial port control Running direction setting jog forward via panel Ten s place 0 permit reverse 1 prohibit reverse voltage for torque boost freguencyPO 07 1 automatical Carrier freguency 1 0K 14 0K Acc Dec direction se 0 linear Acc Dec
18. BITO stop indicate 0 Stop 1 Run 1 Run BIT1 1 low I m 0 normal BIT2 RAM eis eer indicate l forward 0 reverse BIT3 poete rere Ree BIT3 jog indicate 1 jog none 00000 jog 0 none Monitor inverter s BIT4 close ails lop contactor Y eei pene control selection 1 close loop 0 none status BIT5 traverse mode a Gein ka A BITS traverse mode running flag 1 traverse 0 mone 1 traverse 0 none 03H n BIT6 PLC running BIT6 PLC running flag 1 PLC running 0 no 1 PLC running 0 no BIT7 Multi tma sa k EA running flag of terminals 1 Multi speed 0 none BIT8 Common running BIT8 Common running flag 1 common running 0 no 1 common running 0 no BIT9 Main na s Ganda TI from communication interface 1 yes BIT10 BIT10 Analog input from main frequency 1 yess 0 MO input from main frequency 1 yes 0 no BI111 porn P TT command from communication interface 1 yes 0 no BIT12 Password BIT12 Password protection for parameters 1 yes 0 no 00000000 for parameters 1 yes 0 no 2102H Read inverter s reference frequency Read data from function code 03H Write data to Bit3 X4 210CH GGnnH GG Group No of Inverter responses to the data function code nn No CWhen use Modbus address the nn must be turned into hex function code GGnnH GG Group No of Data be wrote in the inverter function code 06H function code nn No When use Modbus address the nn must be tu
19. Feedback corresponds to corresponds to min reference min reference nun max mun max reference reference reference reference 1 Positive regulation feedback 2 Negative regulation feedback Fig 4 36 reference and feedback curve P7 10 Proportional gain KP Ranges 0 000 9 999 P7 11 Integral gain KI Ranges 0 000 9 999 P7 12 Sampling cycle T Range 0 01 10 00S The bigger the proportion gain KP the quicker the response while too bigger of it may lead to surge easily As only with proportiaon gian KP deviation can not be eliminated integral gain KI can be used to to form PI control to eliminate the deviation The bigger of the Ki the quicker the response of changing deviation while too big of the K1 may lead to surge easily sampling cycle T 1s the sampling cycle of feedback value PI regulator calculate once in every sampling clcle the longer the cycle the slower the response ras Ranges 8020006 2006 The max deviation value of close loop reference is shown in Fig 4 37 if the feedback value is within this range PI regulator will stop operation This function 1s useful to improve accuracy and stability of the system V5 series inverter Reference Feedback Value 4 m FEE CENE PO AA A Oa 4 Output frequency Limits of deviation Preset frequency Ime Output frequency i Tine T Time PA ii Holding time of preset frequency Fig 4 37 Limits of deviation Fig 4 38 close loo
20. MEE 15 PAY y D E 16 2 3 Wiring OF main CIFCUIE terminals e 16 Pos MR S I RP m k e 16 223 2 Terminal assienment and description s easi sex Oed eG ad tie aru Ernst 17 2 4 Basic ur M Rl PR 18 2 5 Setting and wiring OF control CIECUIL asiste te t bI VERE poh nka kos KS anka v ka 18 2 5 Position and function of terminals and jumpers on control panel esssessessseseeeene nennen nnne nnne 18 245 2 Description or terminals on control patiel iiseossobsoesat ime d insu gusce oar enixe lob o ad ks is En cu eoa Se use EO NK nn 20 2 5 3 Analog input output terminal WIriNg cccccecccccscccccceccecceecccceeeeeeseseeesseseeeaaeaeeeeeeeeeeeeeeeeeeeeeeeseeeeeeessssseseeeaaeeeeeeeeeeeeeeeeeeeees 22 2 5 4 Connection of communication terminals ccccccccccecceeseseeenseneseeeeeeeeeeeeeeeeeeeeeeeeeeeeseeeeeeeeaeseeeeeeeeeeeeeeeeeeeeeeeeeeseeeeeeeeeesaaas 23 2 6 Mounting guide according with EMC requirement sssssssssssssssosseeccssssssssseecossssssssseecssssssessesecessssssssscccccsssesssseccesssssssseeesss 24 PA ors nre Ge SE o a mE 24 20 2 Local wirmno and SS TOM NEN 23 JOPERATUNGINSINUGTIONOS ciii aditnr EFI EU RES pinu Z RK o nu k SERLO UM I EFIE END IS CES DNE 27 3
21. a slave to communicate with the marter such as PLC and PC which has the same communicatin port and protocol also user can use a inverter as the master to communicate with several inverters produced by our company via RS485 port to realize multi machine linkage Besides you can connect the RS485 port to remote keyboard to realize remote operation This inverter support MODBUS RTU the following 1s the particular instruction for the inverter s communication protocol 7 2 Instruction of communication protocal 7 2 1 Communicating mode Inverter as a slave R5232 232 455 Adapter R5455 R5232 252 455 Adapter Or Master PC ingle master and multi slave ingle master and multi slave Fig 7 1 Networking diagram of inverter Multi device linkage Fig 7 2 Networking diagram of multi device linkage 7 2 2 Communication modes The inverter can be used as both master and slave in RS485 net If 1t 1s used as a master 1t can control other inverters made by our company to realize multi machine linkage If it is used as a slave PC or PLC can be set as a master to control it The concrete communication modes are shown below 1 1 The inverter 1s a slave in the network It communicates in point to point mode The inverter will not response to the command sent by the master via broadcast address 95 V5 series inverter 2 The inverter is a master in the network the slave will not response to the command sent
22. by the inverter via broadcast address 3 Users can set the inverter s current address baud rate and data format by using the inverter s keypad or through the serialcommunication port 4 The drive can report the current fault information when polled by the master 7 2 3 Mode of communication port RS485 asynchronous semi duplex Default Ibit of start bit 8 bits of data bit 1 bit of stop bit 9600bps See Group P3 09 P3 12 for parameter settings 7 3 Modbus RTU communication protocol 7 3 1 Structure 1 5 2 format None t 1 iss St Stop m 1 2 3 4 5 6 i top POE bat bit bit 1 58 1 format Odd t T Stor bit 5 1 format Even sta E i m S 2 mi H o 2 3 d J o i Even top bit bit 1 8 1 format None Start A Stop i 1 P 3 4 6 T oF bit bit 7 3 2 Communication information Star bit 1 1 RTU mode 07 i 00 N 8 bit data N cB Max t bit Keep the time no signal gt 10ms 96 V5 series inverter 2 Communication address 00H broadcast for all the inverters broadcast 01H communicate with the inverter addressed 01 OFH communicate with the inverter addressed 15 10H communicate with the inverter addressed 16 By parity of reasoning max can reach 254 FEH 3 Function code and Data 03H Read data from registers can read several registers with the numbers less than 31 and only can read the data in the same group
23. control panel jumper position 1 5KW VB series single phase inverter jumper position 19 VB3 V5 V BS series inverter Fig 2 4 b control panel jumper position 1 5 3 7KW VB series three phase inverter jumper position Fig 2 4 c control panel jumper position 5 5 7 5KW VBS5 series three phase inverter jumper position Fig 2 4 d control panel jumper position 11 55KW V5 series inverter jumper position Fig 2 4 Ce control panel jumper position The position of terminals and jumpers on control panel are shown in Fig 2 4 the function descriptions of terminals are shown in Table 2 3 and the function descriptions of jumpers and their setting method are shown in Table2 2 Before running the inverter make sure terminals wiring and jumpers setting have been done more than 1 mn cables are recommended to use Table 2 2 Function of jumpers 1 2 connect External power supply Pulse output terminal 2 3 connect Inverter s internal External power supply DO power selection 24V power supply 20 Analog output terminal AO output CI current voltage VB3 V5 VBS5 series inverter 2 connect 4 20mA AO terminal outputs current signal 2 3 connect 0 10V AO terminal outputs voltage signal 1 2 connect V side 0 10V voltage signal input modes selection 2 3 connect I side 4 20mA current signal 2 5 2 Description of terminals on control panel 1 Functio
24. copy transfer or use this document and its content Anyone who disobeys this should take responsibility for the loss Obligation Declare We have checked and confirmed that the contents in this manual were compatible with the hardware and software described Since mistakes are hard to avoid we cannot promise total accordant This manual is subject to change without notices 2010 01 VB3 VBS5 V5 series inverter PREFACE NE naan sact ea cea E E E 1 SAFETY PRECAUTIONS sicace asi ceacuaestanstansascnenensehubustssuswassssasaeatunens deuensdsnpasensauiseuaysesunwasedaateviensansneeus 2 1 PRODUCT INS ERUC NON sta i av nt itnn sralsrn ri tecesneaneussenstwunscuauauucaniectanassncecusdsewecancanaueceticsaunacaseanes 6 1 1 Product OV OR VICW PIT ETE DE 6 1 2 Product technical specilica 100 ssssis ci I 7 1 3 Produ tappe rancs s isi asp s sk si k sok vn K va nn van 9 FA Product dlIMENSIOM si eska da a sa sa sana n ov a ov 11 1 5 Choose DNES k v nok 13 2 INSTALLATION AND VVIRING s s i neb nns cio kn VENEREM xi in i sin fo ik non nn nn CENE ES ES 15 2 1 Installaton environ eT Essenis 15 Zeb o EnIFoBIIC BE TOUT CRIT os ois o Ro A 15 251 2 Mounting location and SPACE ERN RR 15 Zele NO AMT ai ECIHOVIBIP osn o o
25. in Fig 4 5 as 3 where the changing rate of output frequency increases for 0 Linear time of S ramp is shown in Fig 4 5 as 2 where the changing rate of output frequency is constant High speed time of S ramp is shown in Fig 4 5 as D where the changing rate of output frequency increases from 0 High speed time 100 P0 14 P0 15 Notes S ramp Acc Dec mode is suitable for the start stop of elevator conveying belt conveying load and so on P0 16 Acc Dec time unit Ranges 0 1 This function defines Acc Dec time unit 0 second 1 minute Notes 1 This function is active for all the process of Acc Dec except jog running 2 Select second as time unit is recommended Acc time 1s the time taken for the motor to accelerate from 0 Hz to upper limit of frequency as t in Fig 4 6 Dec time 1s the time taken for the motor to decelerate from upper limit of frequency to 0 Hz as t in Fig 4 6 oT V5 series inverter Output frequency Upper imit of frequency 4 lt h t2 Fig 4 6 Acc Dec time Note 1 This series inverter defines seven kinds of Acc Dec time Here only defines Acc Dec time 1 Acc Dec time 2 7 are defined in P3 14 P3 25 2 Minute and second as the time unit of Acc Dec time 1 7 can be selected via P0 09 and the default unit is second Upper limit of frequency Ranges lower limit of frequency max output frequency 50 00Hz Lower limit of frequency Ranges 0 00Hz upper limit of frequency 0 00HZ
26. in electrical work Otherwise an electric shock or fire may occur Make sure to ground the ground terminals Otherwise an electric shock or fire may occur Always check the operation of any emergency stop circuits after they are wired Otherwise possibly result in injury user responsibility for the wiring Never touch the output terminal directly by your hands or let the output terminals to come into contact with the inverter case Never short the output terminals Otherwise an electric short or ground short may occur Never touch the internal circuit or the zero component until power off and the charge indicator is off as there may still be high voltage inside the AC motor dirver VB3 V5 VBS5 series inverter Confirm that the voltage of the main AC power supply satisfies the rated voltage of the Inverter Injury and fire may occur if the voltage is not right Do not perform voltage withstand tests on the Inverter Otherwise semiconductor elements and other devices can be damaged Connect braking resistors Braking Resistor Units and Braking Units as shown in the I O wiring examples Otherwise a fire may occur Tighten all terminal screws to the specified tightening torque Otherwise a fire may occur Do not connect AC power to output terminals U V and W The interior parts of the Inverter will be damaged if voltage is applied to the output terminals Do not connect phase advancing capacitors or LC RC noise filters
27. inverter Derate according to basic frequency setting When the basic frequency 1s lower than the reference frequency please consider duration for the motor so as to avoid motor s damage caused by overheating gt Running at frequency above 50Hz If running at frequency above 50Hz besides the increment of vibration and noise the ranges of running speed of motor shaft and mechanical device have to be guaranteed Be sure to make an enquiry first gt Theelectro thermal protective value of motor If the applicable motor is selected as per requirements the inverter can perform the thermal protection to the motor If the ratings of applied motor are not in compliance with the inverter be sure to adjust the protective value or adopt other protective measures to guarantee the safe running of motor gt Altitude and derate When the altitude 1s higher than 1000m the cooling effect of inverter 1s deteriorated because of the rareness of air deration must be considered shown in Fig 0 2 which indicates the relationship between the altitude and rated current of frequency inverter lo ut 100 tts 1000 2000 3000 4000 mi Fig 0 2 The relationship between the altitude and rated current of freguency inverter VB3 V5 VBS5 series inverter gt Aboutprotection classes The protection class of V5 F5 series inverter IP20 is reached in the case of status display unit or keyboard O Note For Scrap When you scrap the inver
28. inverter You can select the command channels via parameter P0 03 or via multi function input terminal P4 00 P4 07 function 23 24 Warning The user must debug the system after changing the command channel to make sure it can meet the system requirement otherwise device damage and physical injury will happen 3 1 2 Frequency setting channel In common operating mode there are 8 channels to set the frequency keyboard analog potentiometer Uu and 57 keys on the keyboard Operation panel function code Terminals UPIDOWN Serial port Analog VI Analog CI Pulse terminal PULSE Combination oO 1 QN tn RA U LUH 3 1 3 Running state There are two running state stopping and running Stopping state After the inverter is switched on and initialized If no operating command is executed then the inverter enters stopping state Running states The inverter enters running state after it receive the running command 3 1 4 Running modes V5 inverter has 5 kinds of running modes which can be sequenced according to the priority Jog running Close loop running PLC running Multi step speed running Simple running as shown in Fig 3 1 0 Jog running 28 V5 series inverter When the inverter is in the stopping state it will running according to jog frequency refer to P3 06 P3 08 for details after receiving jog running command e g after pressing ELE key 1 Close loop If the close loop running fu
29. min reference Pmax Frequency corresponding to max reference The relationship between PULSE and reference frequency is shown below Arm hone 1 Positive 2 Negative A gt Reference Arun Min reference Pr n Frequency corresponding to of PULSE Amax Max reference min reference Pmax Frequency corresponding to max reference 60 V5 series inverter 4 2 3 Starting and braking parameters Group P2 0 Start from the starting frequency Inverter starts at the starting frequency P2 01 within the holding time of starting frequency P2 02 1 Brake first and then start Brake with DC braking current P2 03 within braking time P2 04 and then start at starting freguency 2 Start on the fly When P2 00 is set to 2 it 1s suitable for repowering after instantaneous power off or restarting after external fault As shown in Fig 4 9 AC supply Off On Motor speed s Inverter output frequency Fig 4 9 Start on the fly Notes 1 Starting mode 0 It is recommended in general application or when the inverter drives synchromous motor 2 Starting mode 1 It 1s suitable for starting the motor that is running in forward or reverse with small inertial load and it 1s not recommended for big inertial load 3 Starting mode 2 It is suitable for starting the motor that is in free stop or for restarting after instantaneous power off P201 Starting frequency Range 0 20 20 00Hz 0 50 Hz me Holding time o
30. parameter group by four figures The parameter values are in hex which should be changed to binary ones according to the sequency of monitor parameters when using The relationship between four figures and parameters are shown in Fig 4 17 b 25 b 28 b 33 b 36 b 37 b 40 Fig 4 17 Display parameters selection 2 Refer to P73 for b 09 b 40 Note A Thousand s place B Hundred s place C Ten s place D Unit s place Display parameters 3 Ranges 0000 4040 0001 Ten s place unit s place used to set stop status Thousand s place hundred s place used to set running status Example When you want to let the inverter display current value in running status and display DC injucetion bus voltage value you can set P3 43 0304 You can also press the key cE view other monitor parameters Display coefficient without unit Ranges 0 1 60 0 1 0 P3 44 It is used to set proportion value between display value and output frequency of monitor parameter b 14 Display value of b 14 Output frequency of inverter X P3 44 mas JOGIREV stitt contror mode Ranges OL P3 45 is used to select the usage of JOG REV key in the panel the references are shown below 0 select to JOG 1 selectto REV 4 2 5 Function parameters of terminal Group P4 P4 00 Function selection of input terminal X1 Ranges 0737 Function selection of input terminal X2 Ranges 0737 RO Function selection of input terminal X3 Ranges 0737 Function sel
31. reference 14 V1 CI Increase Decrease key reference Digital setting 15 VI CI Increase Decrease key reference Digital setting 16 MAX VI CD 17 MIN VI CD 18 MAX VI CI PULSE 19 MIN VI CI PULSE 20 VI CI none zero 1s valid VI priority Group P3 Auxiliary running parameters V5 series inverter P3 01 Parameter initialization Unit s place locking up 0 All parameters are allowed modifying 1 Only P3 01 can be modified 2 Only P0 02 and P3 01 can be modified Ten s place 0 disabled 1 Restore to factory setting 2 Clear fault record P3 02 Parameter copy 0 disabled 1 parameter upload 2 parameter download Note Function is still in developing P3 03 Auto energy saving 0 disabled s P3 04 AVR function 0 disabled 1 enable all the time 2 Disabled in Dec process P3 05 Gain slip 0 15026 P3 06 Jog operating IM 010 5000Hz 10 50 00Hz 00Hz 01Hz 5 500Hz P3 09 Communication LED unit s place baud rate selection 0 1200BPS 1 2400BPS 2 4800BPS 3 9600BPS 4 19200BPS 5 38400BPS config LED ten s place data format 0 1 7 2 foramt no parity check 1 1 7 1 format Odd 1 7 1 format Even 1 8 2 format None 1 8 1 format Even 2 3 4 1 8 1 format Odd 5 6 1 8 1 format None When use Modbus RTU communication mode please select data mode 3 6 LED hundred s place undefined P3 10 Local ad
32. reference of 10V corresponds to the synchronized speed of the motor s max output frequency P7 02 Feedback channel selection Range 0 6 0 VI 0 10V 1 CI 2 VI 4CI 3 VI CI 4 Min VL CI 5 Max VL CI P7 04 Feedback filter Ranges 0 01 50 00S 79 V5 series inverter Both the external reference signal and feedback signal have interferences while these can be filtered by setting the time constant of filter P7 03 and P7 04 the longer the filter time the better the immunity capability but the slower the response on the contrary the shorter the filter time the worse the immunity capability but the quicker the response P7 05 Set reference in digital mode Ranges 0 00 10 00V 0 00V If P7 01 Q the value set by P7 05 will be as the reference of close loop control system Therefore you can modify the value of P7 05 to change if via operation keyboard or serial port Feedback value corresponding to min P7 07 Ranges 0 0 100 0 0 096 reference P7 08 Range min reference 100 0 96 100 0 Feedback value corresponding to max P7 09 Range 0 0 100 0 100 0 reference P7 06 P7 09 define the relationship curve of analog close loop reference and expecting feedback The reference value 1s the percentage of real value of feedback corresponding to benchmark value 10V or 20mA as shown in Fig 4 36 Feedback Feedback corresponds to r corresponds to max reference max reference Feedback
33. too low Select a high power inverter Sudden change of load Check and reduce the change of load Over current during Prolong Acc Dec time constant speed Check the load Check AC supply voltage Select a high power inverter gt duminej TooshorAcetime 0 Prolong Ace time 90 acceleration The rotating motor restarts after stop Set as start on fly function Too short Dec time Prolong Dec time Over voltage durning Oo The load generates energy or the load inertial 1s deceleration Connect suitable braking kit too big Abnormal input voltage Check input voltage Over voltage l Too short Acc Dec time Prolong Acc Dec time Durning constant Abnormal change of input voltage Install input reactor speed operation Too big the load inertial Connect suitable braking kit Inverter s control power supply over Abnormal input voltage Check input power or ask for service voltage Vent obstructed Clean the vent Over temperature Improve condition and decrease carrier freguency Inverter overheat Fan does not work Change the fan Ask for help IGBT module 1s abnormal Inverter overload Too short Acc time Prolong Acc time V5 series inverter Reduce DC injection braking current and prolong braking DC injection braking current is too big time Set start of fly function Adjust V F curve and torque boost value V F curve 1s not suitable Low AC supply voltage Check AC supply voltage Common motor has oper
34. will coast to stop and it is prohibited to restart This function 1s mainly used in application with requirements of safety protection 14 15 Frequency ramp up UP Frequency ramp down DOWN The terminal can be used to increase or decrease the frequency Its function is the same with operating keys on the panel which enables remote control This terminal 1s enabled when P0 01 3 Increase or decrease rate is determined by P4 09 16 Acc Dec prohibit The terminal can make the motor operate at present speed without being influenced by external signal except stopping command Note Disabled in normal dec to stop 17 Reset signal The inverter can be reset via this terminal when the inverter has a fault The function of this terminal 1s the same with that of Cue panel 18 External fault signal normally open input The fault signal of external equipment can be input via the terminal which is convenient for the inverter to monitor the external equipment Once the inverter receives the fault signal 1t will display SE 13 Refer to Fig 4 20 19 21 Frequency selector 1 Different ON OFF combination of terminals 19 20 and 21 can select reference frequency as shown in Table 4 4 The inverter will be active this function and P0 01 later Table 4 4 Frequency selector Frequency selector 3 Frequency selector 2 Frequency selector 1 Frequency selector o Mem ON isting om O r DO in Lo mem or ox p as PULSE Combination settin
35. within Dec time The central frequency is actually the preset frequency of simple operation except PLC traverse operation jog multi step speed operation or PLC operations Traverse operating function is disabled automatically in Jog operation or close loop operation process If PLC operation and traverse operation start at the same time the traverse operation 1s disabled when the drive transits from one PLC operating stage to another stage The drive will accelerate to the preset frequency of PLC operation and then start traverse operation The drive will decelerate to stop within the Dec time set in PLC operating stage Operating freq Hz Traverse operation Upper limit of 4 amplitude Aw Fset P9 04 frequency PH um Fa i 4 dk 07 gt GG a Central Frequency Pset 77 7 NC ius je IN us Ni Lower limit of Aw al 4 4 freguency PL O a y f a 7 TC TT Jitter freq AW P9 05 Waiting time P9 03 i Preset frequency t Decelerate m to Acc tim according Traverse to Dec time Run operating cycle command stop command Fig 4 45 Traverse operation 85 V5 series inverter P9 00 Traverse operation selection Ranges 0 1 HEINE 0 Disabled 1 Enabled P9 01 Traverse operation control mode Ranges 00 11 Unit s place of LED start mode 0 Auto modeThe inverter will running at preset frequency P9 02 for certain time P9 03 and then enter the traverse oper
36. 0 50 00Hz 1 00Hz P4 15 FDT2 Cfrequency level Ranges 0 00 upper limit of frequency 10 00Hz P4 16 FDT2 lag Ranges 0 00 50 00Hz 1 00Hz P4 13 P4 14 1s the additional definition of No 2 function in Fig 4 6 P4 15 P4 16 is the additional definition of No 3 function in Fig 4 6 The both have the same usage and the following take P4 13 P4 14 as an example to introduce When the output frequency over a certain frequency FDT1 level indication signal will be output until the output frequency fall to the value which is lower than the certain frequency FDTI level FDTI lag as shown in Fig 4 27 Output frequency FDTI level 4 Tune Fig 4 27 FDT level P4 17 Analog output selection AO Ranges 0 7 DEBER P4 18 Analog output gain AO Ranges 0 50 2 00 1 00 Table 4 7 Output terminals 0m Fem O O e omme s OOOO O PID feedback 0 10V JR Jj O o o99w V5 series inverter As to the analog output of AO you can adjust the output gain to change the measuring range or calibrate the meter P4 19 AO output mode Ranges 0 1 0 4 20mA 1 0 10V P4 20 DO output terminal Range 0 7 Refer to Table 4 7 for function selection of DO output terminal P4 21 DO max pulse output frequency Range 0 1 20 0 max 20K This parameter defines the max output frequency of DO terminal PA2 Preset counting value arriving Ranges P4 23 9999 foo P423 Mid counting value arriving Ranges 0 P4 22 pO P4 22
37. 0 150 140 220V 110 130 120 0 Prohitit 1 Permit During deceleration the motor s decelerate rate may be lower than that of inverter s output frequency due to the load inertia At this time the motor will feedback the energy to the drive resulting in the voltage rise on the inverter s DC bus If no measures taken the inverter will trip due to over voltage During the deceleration the inverter detects the bus voltage and compares it with the over voltage point at stall defined by P5 03 If the bus voltage exceeds the stall overvoltage point the inverter will stop reducing its output frequency When the bus voltage becomes lower than the point the deceleration continues as shown in Fig 4 31 76 V5 series inverter Over voltaze pomt at stall i or Time Output T 1 frequency E Time Fig 4 31 Over voltage function P504 Auto current limiting threshold Range 110 200 150 P505 Frequeny decrease rate when current limiting Ranges 0 00 99 99Hz S 10 00Hz S P506 Auto current limiting selection Ranges 0 1 Auto current limiting function is used to limit the load current smaller than the value defined by P0 54 in real time Therefore the inverter will not trip due to surge over current This function is especially useful for the applications with big load inertia or big change of load Auto current limiting threshold P5 04 defines the threshold of auto current limiting The
38. 0 Simple PLC Pause running finished 11 PLC is finished after one cycle running 12 Specified counting value arriving 13 Mid counting value arriving 14 Inverter Ready running finished RDY 15 Inverter fault 16 Start frenquence running time 17 Start DC injection braking time 18 Stop braking time 19 High and lower limits of traverse operating frequency 20 set running time arrive 0 01 Hz 5 00Hz 0 00 50 00HZz 0 00 upper limit of of freguency eee CSV SS series inverter series inverter 0 01Hz 10 00Hz UN FDTI lag 0 00 50 00Hz 0 01Hz 1 00Hz LAN FDT2 frequency level 0 00 upper limit of of frequency 0 01Hz 10 00Hz LINE FDT2 lag 0 00 50 00Hz 0 01Hz 1 00Hz oOo Analog output CAO 0 Output frequency 0 1 Output current 0 2 times of rated current 2 Output voltage 0 1 2 1 V5 series inverter nverter s rated voltage Bus voltage 0 800V PID reference PID feedback VI 0 10V CI 0 10V 4 20mA Analog output CAO gain 0 50 2 00 0 01 P4 18 c setup P4 19 AO output mode i P4 20 DO output terminal 0 Output freguency 0 upper limit of of frequency 1 Output current 0 2 times motor rated current 2 Output voltage 0 1 2 inverter s rated voltage Bus voltage 0 800V PID reference PID feedback VI 0 10V CI 0 10V 4 20mA DO max pulse oupt 0 1K 20 0K
39. 1 R n the TINY COCO Nas rr 27 3 1 1 Command channel for inverter TUDDITIS us sosslsio in ch p IR ERES E EUERT OE Rad Fs be Fe o o r noo kn dno 27 VB3 VBS5 V5 seires inverter SOAM Frequency setting INIRE NERONE RR m u 21 Sls RUA Md DID SEC palace skon qM dora dM NUMERI M PIE ADEM tao MB E MSS 27 Eed Runnin IR dS ONU mE 27 3 2 se t ndn ip e M 28 Set Res DOG VOU asto on dis into cute uit in stt vence fra Marcas E eM EM ed sen Son 28 si i SEC TMI E TO Eline cou n nr A A AO non pbi ME 29 3 2 3 Fuention description of LED and indicator oooooooovnvnv n nn nn ene oo o eee en 30 Sud Display of the operation pane h t o r ees oni 30 32225 ale VO et One Procedir snes ko os nt nn s r rn rot o r 32 D 5 SOUT OUND xs aa AE EE E AE E A AEE SE E E N OAO A OAE A EA EE E EA 34 J l Checking belore starine UI DS n nst oo dust oma sn ion tn idol a a a aE ESEE EE EEEE an fra kr s 34 32389 Startup he inverter Tor ihe irst TINE sennen a AAEE OAOE 34 4 FUNCTION PARAMETERS sssssssssssssssssssssssssssssessssesssseesssseeessneeessseessasesssauesssseeseneeseneeerenses 36 4 1 Function parameter CAD Cs sissstsiskss ss il z skok kod koko fa od io v d kan vo ak no Tana Aon Konad anai 36 4 2 Parameter NESCTIJNIOM i iss s n mi ak s ak si ak
40. 2 to set the frequency via serial port 5 VI analog input VI GND The reference frequency 1s set by analog voltage input via terminal VI the input voltage range is DC 0 10V The corresponding relationship between frequency and VI is decided by parameters P1 00 P1 05 6 CI analog input CI GND The reference requency is set by analog voltage current of terminal CI and the input range is DC 0 10V if jumper JP3 is placed on V side DC 4 20mA if jumper JP3 is placed on A side Then corresponding relationship between frequency and CI input is decided by parameter P1 06 P1 10 7 Pulse input PLUSE The referency frequency 1s set by pulse input via pulse terminal can only be input via terminal X6 The corresponding relationship between frequency and PLUSE input 1s decided by parameters P1 11 P1 15 8 Combination Please refer to P3 00 to set the reference frequency via combination of channels Range Upper limit of of frequncy lower limit of Digital frequency setting frequency When the reference frequency is set in digital mode P0 01 1 2 3 4 The setting of P0 02 is the inverter s initial frequency value Methods of inputting operating commands 0 Panel control STOP Input operating commands via panel start or stop the inverter by pressing EE and on the panel 1 Terminal control Input operating commands via externals such as FWD REV X1 X6 to start or stop the inverter 2 Serial port con
41. 5 the inverter will output indicate signals This function is mainly used in pre alarm 5 Inverter under voltage locking CLU While inverter is in running process if the DC injection bus voltage is lower than the limit value E 11 will be displayed in LED and indicate signal will be output 6 External fault stop CEXT An indicate signal will be output if inverter outputs trigging signal caused by external fault 7 Output frequency arrive upper limit FH An indicate signal will be output if reference frequency gt upper limit of frequency and the running frequency arrives the upper limit of frequency 8 Output frequency arrive lower limit CFL An indicate signal will be output if reference frequency lower limit of frequency and the running frequency 1s lower than low limit of frequency 9 Inverter zero speed running The output frequency of inverter is 0 while the terminal will output indicate signal when inverter is in running status 10 Simple PLC Pause running finished An indicate signal single pulse signal 500ms width will be output if the present stage of PLC operation 1s finised 11 PLC is finished after one cycle running An indicate signal single pulse signal 500ms width will be output if one cycle running of simple PLC 1s finished 12 Specified counting value arriving 13 Mid counting value arriving 12 13 refer to P4 22 P4 23 for function instruction 14 Inverter Ready running finished CRDY If RDY signal i
42. AA ENESE ooo osie ch 87 5 FAULT DIAGNOSIS AND COUNTERMEASUREG ssssssssssssssssssssssesesssesesssessssesssaeeseaeeeseaes 88 5 1 Fault diagnosis and couniermeASUTS i i ssisk2ossi c a cozko b d a ad c ocakaval br na 88 5 2 Fault PECOTOS NEN E TT E T UI 90 RM grnlida i e P M 90 O MAINTENANCE saasa EA AEEA 91 0 1 Dira cur c lona 91 O TeT BOUT He THATHUO HOO a sade Bec ca rete caus ET E UL ONDE lyse etu cn DOES Male oa Roo A CUPIT E eed U bU taint sels E dU CU Db E QUE 91 0 2 Periodical care and M mienan e s ss5 iii laku ka oko ko nak NANANA AAN ARE AAA v kov 91 O 2 I Periodical Caf Gore Skin u vnoci A Ta ustne nan nt nn 91 6 2 Per modica Bt ie 91 VB3 VBS5 V5 series inverter 0 3 Warranty of the inverter MRRRR 92 T COMMUNICATION PROTOCOL s siii i is ad sv d ai s svu za ouai a lu isla caos sas ce cu eo uzn 125i ss ivi ulica 93 7 1 Overview of communication protocol ssssssssssssssssooososooossso soon soon 93 7 2 Instruction of communication protocal sssssssosssososssoonooooooo sos sos esee e 93 Jade Lo CC OC AO HOC ecco ght sos ces tU Ui wean ets o En MEER NI 93 7 2 2 Communication MOU6S sles sazacieda RR m 93 75253 Mode ot communicaltOB POLL xasonso cepta scoop ett etin sS xa I GR ERRE
43. ER n Z A ro non ona 94 7 3 Modbus RTU communication protocol c eeeeec ss ooo ooooKe 94 fio S PIS REIP RE r 94 T 2 Communication norma 10M oc eec apad ona lo o kos ls rot don s OA dS TRUE 94 fa s tommuncadidot Doble e AEE A E E o rn 96 iii VB3 VB5 V5 AAAS Mia Preface Essential introduction for this manual Thank you for purchasing Xinje inverter this manual should be read and understood before attempting relevant operations 1 Purpose of this manual This manual offers guidance and introductions about how to use and maintains the inverter correctly including functions usages installation maintenance etc 2 Qualified personnel This manual is intent for the following personnel gt Inverter installation personnel Project technical personnel electric engineer electrician gt Design personnel The above personnel should read and understand this manual carefully before operating and debugging 3 Validity of this manual This manual may only be used for inverters made by Xinje 4 Electronic Documents In addition to our written manuals we offer electronic documentations of our products by the following ways gt User CD There are software user manual and application tip of relevant products gt Website Please visit www xinje com to obtain all variable electronic documents VB3 V5 VBS5 series inverter Safety Precautions Essential introduction about product operation
44. IC SHOCK DUAL SUPPLY DISCONNECT MAINS AND LOADSHARING BEFORE SERVICE OQO O00 O0 QO C 2 C 2 5 LUE A V5 series 11 18 5KW V5 series 22 55KW O O O o o o 0 0 o 6000 0080 5 0 UUU 9 6090 UU U THiNGET Z THINGET A ZA n a V C MENU ENTER de MENU ENTER ESC DATA i D ESC DATA m p gt Fo E gt m Rev A AJ a STOP E a v gm A A Y fr S amp B A ral 000600000000 m 00000000000 6966666666 696696966906 e s S A P 11 VB3 V5 VBS5 series inverter 1 4 Product dimension B VB3 series 0 4 0 75KW CUnit mm rr mi rr E B VB5 series 1 5 3 7KW Unit mm The details of the dimension mu 41 P5 o VBS 2P2 VB5 VBS43P7 B VBS series 5 5 7 5KW
45. It defines the time of a complete traverse operation cycle including rising and falling processes P9 07 Rising time of trangle wave Range 0 098 096 50 096 Running time of traverse rising stage P9 06 X P9 07 s Time of falling stage P9 06X 1 P9 07 s Refer Fig 4 45 for introduction Notes Youcan select S curve Acc Dec mode along with traverse so as to make the traverse operating more smoothly P9 08 Reference length Ranges 0 000 65 535km 0 000 km P9 09 Actual length Range 0 000 65 535km 0 000 km P9 10 Times of length Ranges 0 001 30 000 correction coefficient of P9 11 Ranges 0 001 1 000 length P9 12 Perimeter of shaft Range 0 01 100 00 cm 10 00 cm P9 13 Number of pulses per revolution Range 17 9999 This group of parameters are used for fixed length control The drive inputs counting pulses via terminals X6 defined as function 35 and calculate length according to the number of pulses per revolution P9 13 and perimeter of shaft P9 12 Calculated length Number of pulses number of pulses per revolution X perimeter of shaft 86 V5 series inverter The calculated length can be corrected through times of length P9 10 and correction coefficient of length P9 11 and the corrected length is the actual length Actual length calculated length X correction coefficient of length correcting coefficient of length When actual length P9 09 preset length P9 08 the inverter will send out a S
46. Ranges Lower mimit of frequency mode 0 running with lower limit of frequency NA 1 stop P0 19 and PO 20 define the upper and lower frequency of frequencies respectively as shown in Fig 4 2 as FH and FL When the actual frequency 1s lower than the lower limit of frequency inverter will accelerate with the accelerate time which you have set and then after reaching the lower limit of frequency inverter will running with the lower limit of frequency if the running mode is 0 and it will decelerate output frequency continuously until OHz with the running mode 1s 1 V F curve setting Ranges 0 4 mmo V F frequency value F1 Ranges 0 00 P0 25 00H P924 V F voltage valueV1 Range 0 P0 26 V F frequency value F2 Ranges P0 23 P0 27 0 00Hz V F voltage value V2 Ranges P0 24 P0 28 P0 27 V F frequency value F3 Ranges P0 25 P0 07 basic running frequency 0 00Hz P0 28 V F voltage value V3 Range P0 26 100 096 This group of parameters defines the flexible V F setting modes of this inverter to satisfy the requirement of different loads Four fixed curves and one user defined curve can be selected according to P0 22 PO 22 0 V F curve is constant torque curve as shown in Fig 4 7 as curve 0 PO 22 1 V F cuve is 1 2 order torque reducing curve as shown in Fig 4 7 as curve 1 PO 22 2 V Feuve is 1 7 order torque reducing curve as shown in Fig 4 7 as curve 2 PO 22 3 V Fcuve is 2 0 order torque reducing curve as shown in Fig 4 7
47. TOP command to stop When the inverter restarts it needs to clear the actual length P9 09 or modify actual length P9 09 lt Reference length P9 08 otherwise the inverter will not start Note 1 The actual length terminal Xi 1s defined as function 36 can be cleared by multi function input terminal The actual length can be calculated only after this terminal 1s disconnected 2 Actual length P9 09 will be saved after power off automatically 3 Function of stopping at fixed length 1s disabled if P9 08 I set as 0 but the calculated length 1s still effective 4 2 11 Vector control parameters CGroup PA PA 00 Motor auto turning Ranges 0 1 DE 0 Noturning 1 Static turning Dependent on PA 01 Rated voltage of motor Ranges 0 400V inverter s model Dependent on PA 02 Rated current of motor Ranges 0 01 500 00A inverter s model Dependent on PA 03 Rated frequency of motor Range 1 99Hz inverter s model Dependent on PA 04 Rated speed of motor Range 17 9999 r min inverter s model Dependent on PA 05 Polarity of motor Ranges 27 48 inverter s model Dependent on PA 06 Stator inductance of motor Ranges 0 1 5000 0mH inverter s model Dependent on PA 07 Rotor inductance of motor Ranges 0 1 5000 0mH inverter s model Dependent on PA 08 Exciting inductance of motor Ranges 0 1 5000 0mH inverter s model Dependent on PA 09 Stator resistance of motor Range 0 001 50 000 inverter s model Dependent on PA 10 Ro
48. Time Fig 4 29 Overload pre alarm gs V5 series inverter 4 2 6 Protective function parameters Group P5 P590 Motor overload protection mode selection Ranges 0 1 EE This parameter defines the protection mode when overload or overheat occurs 0 Inverter locking output When overload or overheat occurs inverter will lock output and the motor will coast to stop 1 Disabled Motor will be without overload protection and inverter will do the overload protection for the motor Cautions to using P5 01 Motor s overload protection coefficient Ranges 20 120 100 This parmeter 1s used to set sensitivity of thermal relay protection from inverter to overload When the output current value of load motor can not match the rated current of the inverter correct thermal protection can be realized by setting this parameter as shown in F1g 4 30 Use the following coefficient to calculate Wlotor rated current PS OLE X 100 Inverter s rated output current Time P5 01 50 P5 01 10096 1 minute L XIX Curent 55 110 150 G 105 1207 P Fig 4 30 Thermal relay protection Note When one inverter run with multi motors inverter s thermal relay protection will be disabled Therefore please install thermal relay in the wire end of each motor to protect motor more efficiently Protection Protection of over load at stall over load at stall Range 0 1 Over voltage point at stall Range 380V 12
49. and be grounded by shielding layer Motor cable should use 4 core cable one of the cores should be grounded near the inverter and another point should be connected to the motor s cover Don t put the strong and weak electricity cables in parallel or bundle these cables together Other devices should also be away from the inverter The devices wire should be away from the I O of the inverter The signal cables and power cables should be shielded cables Devices with strong electric field and magnetic field should be away 1 The equipment and the signal cables should be as far away as possible from the inverter The signal cables should be shielded and the shielding layer should be grounded The signal cables should be located far away from the input output cables of the inverter If the signal cables must cross over the power cables they should be placed at right angle to one another 456 2 Install high frequency noise filter ferrite common mode choke at the input and output of the inverter to and orthogonal from the inverter 2 6 2 Local wiring and grounding 1 The cable connected inverter and motor cables from U V W points should not parallel with power supply calbe R S T or L N terminal input wire The distance should be more than 30cm 2 Inverter s output cables from U V W terminals 1s recommend to put in metal tube or slot 3 Control signal cables should be shield and the shield layer should be connected with inve
50. as curve 3 To achieve best energy saving effect you can select 1 2 or 3 V F curves according to the actual loads such as fans and pumps 58 V5 series inverter Output Voltage Vimax eT g R dd RE EGR R TT TEE TT TOT EU RR ST d F V 3 Output Frequency Hz wt i QO Fp Vmax Max output voltage P0 08 Fy Basic running frequency P0 07 Fig 4 7 V F curve Voltage Z 100 f V t V2 d Vil 1 er Output Vb Frequency Hz F1 Vl1 V3 voltage of sections 1 3 Fl F3 frequency of sections 1 3 F2 F3 Fb Fig 4 8 User defined V F curve When P0 22 is set to 4 you can define V F curve via modifying V1 F1 V2 F2 V3 F3 to satisfy the special load requirement as shown in Fig 4 8 Torque boost is suitable for user defined V F curve In Fig 4 8 Vb Torque boost P0 09 X VI 4 2 2 Parameters of reference frequency Group P1 Poo Time constant of analog filter Range 0 01 30 00s It 1s the constant time of the filter that 1s for internal sample picking by inverter when reference frequency is set by external analog channel When the wire is too long or the interference is serious which can lead to reference frequency becomes wavy you can increase filter time to improve the situation The bigger the time constant 1s the higher the immunity level but the response time 1s prolonged with the increase of the time constant That 1s the smaller the time constant is the shorter the response time but the l
51. ated with heavy load Select motor with frequency conversion if it requires to Molorovedoad at low speed for a long time operate for a long time Unsuitable motor s overload protection l l l Set motor s overload protection coefficient correctly coefficient The motor is blocked or the load is too big Check load Too low AC supply voltage Check AC supply voltage Instant over current of inverter Refer to countermeasure of over current Short circuit among 3 phase output or mE Rewiring line to ground short circuit Vent is obstructed or fan is damaged Clean the vent or change the fan Over temperature Reduce environment temperature IGBT protection Wires or connectors of control board are loose Check and rewiring Current waveform distorted due to output phase M i Check wiring OSS Auxiliary power is damaged and inverter Seek factory or agent for service voltage is low Abnormal control board Seek factory or agent for service Emergency stop for peripheral equipment l Peripheral equipment Break external fault terminal after dealing with the terminal close fault external fault Wires or connectors of control board are loose Check and rewiring Current Auxiliary powe is damaged Seek factory or agent for service detection circuit Hall sensor is damaged Seek factory or agent for service has fault Amplifying circuit is abnormal Seek factory or agent for service key to reset or seek service RS485 Serial por
52. ation 1 Manual mode If the multi function terminal Xi 1s set to No 25 function 1s enabled the inverter will enter traverse mode If the terminal 1s disabled the drive will end traverse operation and operate at the pre traverse frequency P9 02 Ten s place of LED Traverse operating amplitude 0 Variable amplitude Traverse operating amplitude AW changes with the central frequency and the change rate is defined by P9 04 1 Fixed amplitude Traverse operating amplitude AW 1s decided by max frequency and P9 04 Pe Pre traverse frequency Ranges 0 00 650 00Hz 0 00Hz Waiting time before pre traverse frequency Ranges 0 0 6000 0s P9 02 is used to set running frequency before inverter enter traverse state If you select auto start mode P9 03 is used to set the holding time with pre traverse frequency before the inverter enter traverse state 1f you select manual start mode P9 03 is disabled Refer to Fig 4 45 for introduction P9 04 Traverse operating amplitude Range 0 050 096 0 096 Variable amplitude Aw Central frequency X P9 04 Fixed amplitude Aw Max operting frequency P0 06 X P9 04 Prompt The traverse frequency will be limit by upper lower limit of frequency and the traverse operation will not work abnormally with unsuitable setup Jitter frequency Range 0 050 096 0 096 As shown in Fig4 45 there 1s no jitter frequency if P9 05 1s set to 0 P9 06 Traverse operating cycle Ranges 0 1 999 9s 10 0s
53. ation Normally lifetime is 93 V5 series inverter Table 6 2 Lifetime of inverter components Cooling fan Electrolytic capacitors 4 5 year Print circuit boare Fuse 10 year The usage conditions of the above components are shown below 1 Environmental temperature 30 C as average 2 Load coefficient below 80 3 Running time below 12 hour per day 6 3 Warranty of the inverter Xinje electronic Co Ltd will offer warranty service in the case of the following situations 1 The warranty clause 1s only confined to the inverter 2 We will take the responsibility of 15 months defects liability period for any faults or damages under the normal operation conditions After15 months maintenance will be charged 3 Even within 15 months maintenance would be charged under the following conditions Inverter is damaged due to incorrect operation which are not in compliance with User Manual Inverter is damaged due to fire flood abnormal voltage and so on Inverter is damaged due to wiring fault Inverter is damaged due to the improper use of drive functions 4 Service fee will be charged according to the actual costs If there are any maintenance contracts the contract prevail 94 V5 series inverter 7 Communication Protocol 7 1 Overview of communication protocol These series inverter supply RS485 communication port and adopt MODBUS startded communication protocol Therefore the inverter can be set as
54. cal inertia 2 Dec to stop DC injection braking After receiving the stopping command the inverter reduces its output frequency according to Dec time and then start to DC injection braking after the output frequency reaching the initial frequency of braking at stop as in P2 06 DC injection braking initial frequency at i Ranges 0 0 15 00Hz stop P2 07 DC injection braking time at stop Range 0 0 60 0S P2 08 injection braking current at stop Range 0 80 P2 08 refers to the set of DC injection braking current at stop which is the percentage value of inverter s rated current There is no DC injection braking when the braking time is 0 0 as shown in Fig 4 12 4 2 4 Auxiliary running parameters CGroup P3 P390 Combination of frequency setting Ranges 07 20 PO When P0 01 Frequency setting mode is set to 8 combination of frequency setting can be set through this parameter 0 VI CI 1 VI CI External pulse reference VI Increase Decrease key reference External pulse reference VI Increase Decrease key reference External pulse reference CI RS485 VI Increase Decrease key reference 2 3 4 5 External pulse reference CI 6 7 RS485 VI Increase Decrease key reference 8 RS485 ClI Increase Decrease key reference V5 series inverter 9 RS485 Cl Increase Decrease key reference 10 RS485 CI External pulse reference 11 RS485 CI External pulse reference 12 RS485 VI
55. called positive characteristic On the contrary if the motor speed is required to decrease when the reference value increases this control characteristic 1s called negative characteristic The two close loop characteristic can be set by P7 14 as shown in Fig4 35 Anticipant feedback Speed Positive CPP ERO ee Pe Pe ee ee i Negative 4m Reference Close loop reference 10V Fig 4 34 Reference and Fig 4 35 Close loop adjustment anticipant feedback characteristic diagram After conforming the system the procedure of setting close loop parameters 1s shown below 1 Confirm the close loop reference and feedback channel P7 01 P7 02 2 The relationship between close loop reference and feedback value P7 06 P 7 09 should be defined for close loop control 3 If reference and required motor s speed is opposite please set close loop characteristic as negative to confirm close loop adjustment characteristic P7 14 1 as shown in Fig4 35 4 Set the function of close loop preset frequency P7 16 P7 17 5 Set close loop filter time sampling cycle T limits of deviation and gain coefficient P7 03 P7 04 P7 12 P7 13 P7 00 Close loop function selection Range 0 1 0 Close loop control is disabled 1 PI close loop control is enabled P7 01 Reference channel selection Range 0 1 2 0 Digit input 1 VI 0 10V 2 CI 0 10V voltage or 4 20mA current reference for speed close loop analog
56. cation 6 VB3 V5 VBS5 series inverter 220V Over loading Ability 150 Rated Current for 1 minutes 180 Rated Current for 1 second Rated Voltage Frequency single phase 220V 50 60Hz AC voltage permit fluctuate range Voltage 20 20 Voltage Unbalance Rate lt 3 Frequency fluctuate Range Frequency 5 380V um ss E pm e pe fff eo em s n output Rated 4 5 ER 0 Es 0 ES ES current A Rated AC 380 voltage V frequency range Hz 0 500 Overload Ability 150 Rated Current for 1 minute 180 Rated Current for 1 second Rated voltage Three phase 380V 50Hz 60Hz Frequency AC voltage fluctuate range Voltage 20 20 Voltage Unbalance Rate lt 3 Frequency fluctuate range Frequency 5 Power Capacity KVA Common characteristics Environment Application environment In door free from direct sunlight dust corrosive gas oil mist steam water drop etc Elevation Lower than 1000m The inverter should be derated when the elevation is higher than 1000m Ambient Temperature 10 C 400 Storage Temperature 20 60 C Structure Protect Configuration IP20 In the state of state display units or keyboard VB3 V5 VBS5 series inverter l Optimized space voltage vector SVPWM modulation Modulation mode SVPWM control dead zone compensation for optimized low frequency MN Digital Setting max frequencyx 0 01 Frequency precision Analog Setting max frequencyx 0 2 Ma
57. cient of 0 001 1 000 0 001 1 000 length P9 12 Perimeter of shaft 0 01 100 00cm 10 00cm lO P9 13 Number of pulses per 1 9999 1 1 revolution 11 Vector control parameters Group PA Group PA Vector Control Parameters PA 00 Motor auto tune 0 No tune mm og op or or PA 01 Rated voltage of motor 0 400V F PA 02 Rated current of motor 0 01 500 00A 0 01 A Dependent PA 03 Rated freguency of motor 99Hz Dependent O PA 04 Rated rotated speed of motor 1 9999 r min 1r min ad PA 05 Polarity of motor 2 48 Dependent PA 06 Stator inductance of motor 0 1 5000 0mH 0 1mH Dependent on PA 07 Rotor inductance of motor 0 1 5000 0mH 0 1mH Dependent s pee r po PA 08 Exciting induction of motor 0 1 5000 0mH 0 1mH ee V5 series inverter PA 09 Stator resistance of motor 0 001 50 000 0 001 a PA 10 Rotor resistance of motor 0 001 50 000 0 001 S PA 11 Over current protection 0 15 ui coefficient of torque ERN PA 12 Percentage adjustment 50 120 uli coefficient of speed deviation mm PA 13 Integral adjustment coefficient 100 500 mur Reva ee emm OH b ema pw Ti ma mea v i 12 Specail Application function parameters Group PB A a 00 N N Group PB Specail Application function parameters PB 00 Jog frequency source 0 4 P3 06 Panel potentiometer P0 02 VI CI PB 01 selection of forward reverse dea
58. ctor output terminal OC Range 07 20 P4 11 Relay output selector Ranges 0720 Bi direction oper collector output terminal OC the options of this parameter are shown in Table 4 6 Table 4 6 Functions of output terminals Setting EA a Fumtons O O Inverter running RUN 11 PLC is finished after one cycle running Frequency arriving signal FAR 12 Specified counting value arriving 3 Mid counting value arriving Frequency detection threshold FDT1 1 HN Frequency detection threshold FDT2 14 Inverter Ready running finished RDY l 2 3 5 T 5 Inverter under voltage locking LU 16 Start frenquence running time 7 External fault stop CEXT 1 Start DC injection braking time V5 series inverter Stop braking time I Output frequency arrive upper limit FH 18 l mE High and lower limits of traverse operating frequency Output frequency arrive lower limit CFL 19 Instructions of the functions shown in Tabel 4 6 0 Inverter running CRUN Inverter is in the running status and the terminal outputs indication signal 1 Frequency arriving signal CFAR Refer to P4 12 for function instruction 2 Frequency detection threshold CFDT1 Refer to P4 11 P4 12 for function instruction 3 Frequency detection threshold CFDT2 Refer to P4 13 P4 14 for function instruction 4 Overload pre alarm COL If the output current is higher than the value defined by P4 24 and the time is longer than the value defined by P4 2
59. d time 0 Dead time 1s enabled Min 0 15 l dead time can be set to 0 P0 05 0 0S P0 20 0 5Hz is needed PB 02 Inverter type select 0 G type normal 1 P type wind machine water pump power increases 1 level Note set as 1 P0 22 must set to 3 PB 03 Short the run point 0 after inverter is power on run before power on set the immediately run mode 1 after inverter is power on cut off the point and connect again to run 13 Factory setting Group PF Group PP Factory Setting Minmum Parameter Name Range v Factory setting Change uni PF 01 User s password 0 With no password protection mE 0001 9999 passwor protection 5 V5 series inverter OE p E CNN PF 03 PF 10 Reversed 14 B Monitor function parameters B Monitor function parameters Minmum Factory Change Code Name Description unit setting v owpuneaueney Prsewoupurnequney foom Po es Retence sede Pennine tauuensy foom P em owpuvotase vaia ae ofpe oupa v lO em ouipatcunen vaid se opreso cum A oo m Bevora mempcewmee O OTO I bos Module temperate ir Temperate otras Joe Deas Motor overload speed Present moror overoaa speed m Ol Pear open me one conti opening tine siene 1mo Dem opa ea suras Dl app ma s O O oo e ro piv Vestmdrmpavi Jow pooo Des kop terase ch fov Po en stra puise input at vor pl fms OTO Dur veno rea on merere da Des ene r vona
60. dress 0 248 0 broadcast address 248 inverter as the host address 41 V5 series inverter ontrol PLC 0 0 Detection disabled P3 12 Delay for responding to 0 1000ms 1 5ms P3 13 Reference proportion of 0 01 1 00 0 01 Ej NNNM P3 26 Multi freguency Lower limit frequency upper limit of 0 01Hz 5 00Hz nandi a nd EN P3 27 Multi frequency 2 Lower limit frequency upper limit of 0 01Hz 10 00Hz ee eee P3 28 Multi freguency 3 Lower limit frequency upper limit of 0 01Hz 20 00Hz P3 29 Multi freguency 4 Lower limit frequency upper limit of 0 01 Hz 30 00Hz P3 30 Multi frequency 5 Lower limit frequency upper limit of 0 01 Hz 40 00Hz E P3 31 Multi frequency 6 Lower limit frequency upper limit of 0 01 Hz 45 00Hz P3 32 Multi freguency 7 Lower limit frequency upper limit of 0 01Hz 50 00Hz P3 33 Jump freguency I 0 00 500 00Hz 0 01 Hz 0 00Hz x P3 34 Range of jump frequency 0 00 30 00Hz 0 01Hz 0 00Hz X 1 P3 35 Jump freguency 2 0 00 500 00Hz 0 01 Hz 0 00Hz X P3 36 Range of jump frequency 0 00 30 00Hz 0 01 Hz 0 00Hz X 2 P3 37 Jump freguency 3 0 00 500 00Hz 0 01Hz 0 00Hz P3 38 Range of jump frequency 0 00 30 00Hz 0 01Hz 0 00Hz 3 P3 39 65 535K hour 0 001K 0 000K ug c P3 40 02205 535K hot 0 001K 0 000K P3 41 Display parameters 0000 FFFF 1 0000 selection 1 Uni s place b 09 b 12 Ten s place b 13 b 16 Hundre s place b 17 b 20 Thousan s place b 21 b
61. e muento display 0 5 select position 4 amp next parameter Fig 3 8 Parameter editing In the third level menu the parameter can t be changed if none digit of the parameter 1s flashing the possible reasons are 1 The setting of this parameter can not be changed such as the actural detected parameters or recorded parameters 2 This parameters can only be changed in stopping state and can not be changed in running state 3 Parameters have been protected If P 3 01 1s set to 1 or 2 the setting of all the parameters can not be changed by wrong operation If you really want to change the setting first set P3 01 to 0 3 Jog When the inverter in stop state press JOG key and holde it the panel will display start output frequency and the frequency will ramp to 5Hz then releasing the JOG key the frequency will drop to OHz and the inverter will stop Dispaly Press Release Ready tatus JoG Hold on JOG Key Operation gt e inem TP Display zlat Display sia Output frequency s 4 Ouiput frequency prset running ramp to 5Hz drop to 0 Hz frequency frequency Fig 3 9 Jog Operation 4 Setting user s password Setting PF 01 as 2345 and let it as user s password The bold digit indicates flashing digit LED 50 00 0000 0 0 0 5 20 05 cB E Dm operation m Parameters User s First the Move the hern displayed in password lowest dizit cursor to the 9 2 stopping valid enter start to flas
62. e 380V Grounding RST Three phase AC 380V input U V W Three phase AC output Generatrix and Three phase 380V PIL PB jBrkigresstr o PE Grounding O V5 series P P U V W P L3 U V W PE R S T U V W Pl PB PE 18 VB3 V5 VBS5 series inverter 2 4 Basic running wiring three phase braker three phase 4 a OR LI 11 i u power supply p A 8 L I La V oO M di gt PEG SEE At eroundmg speeds 11 Te speeds 1 ai braking resistor free stap n Z2 error rese FB I z samy cm error Ls i T error relay outpu 0 X6 ob A forward 1 Tc reverse A 1 FWD D 10V 4 20m cutput Rey so 1 VA KT GND 0 DO o igh speed pulse output open circuit collector OC 0 open circuit collector A oo Rogi communication UROK Note 1 P terminal is only used in 5 5K W and larger inverters 2 L N terminals are suitable for 220V single phase inverters 3 L1 L2 L3 terminals are suitable for VB5 series 1 5 3 7KW three phase types 4 VBS series 1 5 3 7KW three phase has no digital input X5 analog input Vi and digital output DO 5 VB3 VB5 series single phase have no X4 X6 VI AO DO OC P P PB 2 5 Setting and wiring of control circuit 2 5 1 Position and function of terminals and jumpers on control panel 0 4 0 75KW VB3 series inverter jumper position Fig 2 4 a
63. ection of input terminal X4 Ranges 0737 Function selection of input terminal X6 Ranges 0737 P4 06 Function selection of input terminal X7 Ranges 0737 P4 07 Function selection of input terminal X8 Ranges 0737 P4 04 Function selection of input terminal X5 Ranges 0737 Multi function input terminals X1 X8 support various functions which you can select freely to satisfy your requirement You can define the function of X1 X8 by setting the value of P4 00 P4 07 refer to Table 4 1 for details Among these terminals X7 corresponds to FWD and X8 corresponds to REV Table 4 1 Multi function selection Sc 67 V5 series inverter E Control terminal leave unused Multi step speed control terminal 1 Multi step speed control terminal 2 Control mode selector 1 Control mode selector 2 Acc Dec time terminal 3 Close loop disabled 3 Multi step speed control terminal 3 4 Exteral terminal for forward jog operation 5 Exteral terminal for reverse jog operation Acc Dec time terminal 1 10 Coast to stop FRS PLC disabled 11 External stop command Reset PLC stopping status 12 DC injection braking command DB Frequency reference is input via CI 13 Inverter running prohibit Counter s trig signal input 14 Frequency ramp up CUP Counter s zero cleaning signal input 15 Frequency ramp down DOWN External interrupt input 16 Acc Dec prohibit Pulse frequency input only valid for X6 17 Reset signal clear fault Autual length cleari
64. eld layer should be hung in the air and the other terminal should be connected with the inverter s grounding terminal E the cable length should be less than 50m B Before layout operation make sure the power supply of inverter is cut off all the LED on the operate panel is black out and delay for more than 10 minutes B Wiring work can be performed after the voltage between internal electrolesis capacity and is below DC36V Wiring work can only be done by trained and professional personnel B Before power on please check if the power supply voltage 1s consistent with the inverter voltage level otherwise device damage human injuries and deaths may occur 2 3 Wiring of main circuit terminals 2 3 1 Wiring diagram Circuit Breaker V5 AC 1 RCL U Power A A S V f 9 TCN We E lom PB P me Brake Resistor Fig 2 3 Wiring of main circuit 2 3 2 Terminal assignment and description 17 VB3 V5 VBS5 series inverter Bee Fig A PEL NUW Fig B PEE L1 L2 L3 Fig C c Fig D a TS TT Be Fig E Fig F Ld RA RA E S T PlP P U V W PE Fig G The relationship between main circuit terminals and inverter types Main circuit I O terminals are shown in table 2 1 220V Table2 1 main circuit I O terminals Single phase AC 220V input VB3 VBS series Single phase 220V U V W Three phase AC output 000000000 VBS series Three phas
65. elow CI current 3 V5 E t luV TE O A E m T or 4 20m 0 e GND CI voltage ground the proximal PE i point of shield cable j 1 JP3 Fig 2 7 CI terminals wiring 3 Wiring for analog ouput terminal AO Analog output terminal AO can display various physical quantities when connecting external analog meter output voltage 0 10V output current 4 20mA wiring is shown in Fig 2 8 23 VB3 V 5 V BS series inverter analog meter analog voltage current Fig 2 8 Analog output wiring Note 1 When using analog input you can connect filter capacitor or common mode inductor between VI and GND or CI and GND 2 Because analog input signal 1s easily interfered by outside the shield cable is required the cable length must be short and the shield layer must be grounded well 2 5 4 Connection of communication terminals The communication port of this inverter is standard RS485 port With the following wiring methods you can buildup control system of one host with one slave or one host with several slaves Also you can realize the functions such as real time monitor remote control high level automation and others for the inveter with the host PC or PLC software Connection of inverter s RS485 port and the host host RS485 R5232 converter RESSYDEM css terminal terminal Shield i description name i ji JV power PEN i supply 45V receive data RXD HEV 1 F
66. er is used for setting PI threshold and hysteresis of zero frequency operation If you set the frequency as 0 Hz PI threshold of zero frequency operation will be disabled Actual setting frequency 7 E Fb Original setting frequency Fa zero frequency operation Fb Patzero frequency hysteresis Fig 4 39 zero frequency hysteresis As shown in Fig 4 39 Start process 81 V5 series inverter After start command is set out the motor will start and accelerate to the frequency in the Acc time until the setting frequency reach or exceeds the certain value Fb Stop process The inverter will not stop immediatelyif the setting frequency is lower than Fb only when the setting frequency reach Fa the inverter will stop output Fa points to zero frequency threshold which 1s defined by P7 18 the value among Fb Fa point to zero frequency hysteresis which is defined by P7 19 This function can enable the inverter to enter domant state so as to save energy besides the inverter will not start at the threshold of zero frequency operation if the hysteresis 1s set properly 4 2 9 Simple PLC operation parameters Group P8 simple PLC function can enable the inverter to change its operating frequency and directions automatically to satisfy the manufacturing requirements as shown in Fig4 40 Fe Simple PLC operati id F2 maple operation as VE ap EA Fs as Fi HA Nd F ias F 3x43 amp ds Fa 3 Ti T2 Ts
67. er records the codes of latest 6 fault and operating parameters of last 1 fault which can be help for finding the possible reason of faults All of these fault informations are saved in group P6 Please refer operation methord of keyboard to enter group P6 5 3 Fault reset Once the fault occurs select one of the following operations to restart the inverter ST STOP 1 When fault code displayed in the operation panel press Ed key after you confirm the inverter can be reset 2 After setting one terminal among X1 X8 as external RESET input P4 00 P4 07 17 connect it with COM terminal and then disconnect them 3 Cut off the power supply 1 Please make sure you know the reason of the fault and get rid of it before resetting otherwise the inverter may be damaged permanently 2 If the inverter can not be reset or fault reoccurred after resetting please check the reason as the inverter may be damaged by resetting continuously 3 Delay 5 minutes to reset when overload and overheat protection are enabled 92 V5 series inverter 6 Maintenance 6 1 Maintenance Environment effections such as ambient temperature humidity fog internal component aging and other factors will give rise to the occurrence of potential faults Therefore it is necessary to conduct daily check and routine maintenance to the inverters 6 1 1 Routine maintenance Please confirm the following items when start the inverter 1 I
68. every time 06H Write data into the register 08H Diagnosis 10H write several data to register 1 Function code 03H read register For example Read data from address2104H Output current RTU Mode Function code 03H 03H 21H Register address Byte No 02H 04H 00H 00H Register No Dada 01H 00H CRC CHECK Low CRC CHECK Low B8H CRC CHECK High CRC CHECK High 44H 2 Function code 06H Write to register For example 01H write function code P0 02 50 00HZ RTU Mode 00H 00H Register address Register address 02H 02H 13H 13H Data Data 88H 88H CRC CHECK Low 25H CRC CHECK Low 25H CRC CHECK High 5CH CRC CHECK High 5CH 3 Command mode 08H Diagnosis This command is used for testing that if the communication between the client device master and inverter slave 1s normal Inverter will sent the data to control device RTU mode V5 series inverter CRC CHECK Low CRC CHECK Low CRC CHECK High CRC CHECK High 4 function code 10H write several data in the register Note V5 VB5 inverters only support one pack of data write For example write P0 06 50 00Hz in inverter address 01H RTU mode Inquiry information format Reply information format Register address Register address Register quantity Register quantity Byte quantity Data CRC CHECK Low CRC CHECK Low CRC CHECK High CRC CHECK High 5 Verify code RTU mode Double bytes with hex CRC field 1s the binary value has two b
69. f LED Acc Dec time selection 0 Acc Dec time 1 1 Acc Dec time 2 2 Acc Dec time 3 3 Acc Dec time 4 4 Acc Dec time 5 5 Acc Dec time 6 6 Acc Dec time 7 P8 02 Operating time in stage 1 0 1 P8 04 Operating time in stage 2 10 0 P8 06 Operating time in stage 3 i 10 0 P8 08 Operating time in stage 4 10 0 P8 10 Operating time in stage 5 0 1 P8 12 Operating time in stage 6 i P8 14 Operating time in stage 7 0 1 S m gt em 10 Traverse and measure function parameters Group 9 Group P9 Traverse and measure function parameters P9 00 Traverse function selection 0 Disabled mE Enabled X Traverse operation control 00 11 X mode Unit s place of LED Start mode 0 Auto mode 49 V5 series inverter 1 Manual mode Ten s place of LED Amplitude control 0 Variable amplitude 1 Fixed amplitude P9 02 Predtavere negu ney 0 00 500 00Hz 0 01Hz 0 00Hz lO Waiting time before pre P9 03 0 0 3600 0s 0 1s 0 0s traverse frequency P9 04 Traverse operating amplitude 0 0 50 026 01 004 O P9 05 Jitter frequency 0 0 50 0 0 1 0 0 with reference to P9 04 P9 07 Rising time of trangle wave 0 0 98 026 0 126 50 0 with P9 08 Reference length 0 000 65 535 km 0 001km 0 000km lO P9 09 Actual length 0 0 65 535km 0 001km 0 000km Saving at power off P9 10 Times of length 0 001 30 000 0 001 1 000 ET o P9 11 correction coeffi
70. f starting frequency Ranges 0 0 30 0S 00S Starting frequency points to the initial frequency when inverter starts as shown in Fig 4 10 as Fs Holding time of starting frequency points to the holding time while inverter is running at the starting frequency as shown in Fig 4 10 as t Note Starting frequency 1s not stricted by the lower limit of frequency Frequency Hz Fmax Starting Frequency Fs ti Starting Time Fig 4 10 Starting frequency and starting time P8 DC injection braking current at start Range 0 80 0 PAM DC injection braking time at start Ranges 0 0 60 0S ws When P2 00 is setto 1 P2 03 and P2 04 are active as shown in Fig 4 11 61 V5 series inverter DC injection braking current at start is a percentage value of inverter s rated current There is no DC injection braking when the braking time is 0 00s Output Frequency Time Draking energy Output Voltage Effective value i DC injection braking time Runnin g f 5 nou Command Fig 4 11 Starting mode 1 t OITLITL HELL Fig 4 12 Dec to stop DC injection braking 0 Dec to stop After receiving the stopping command the inverter reduces its output frequency within its Dec time and stops when the frequency becomes 0 1 Coast to stop After receiving the stopping command the inverter stops output power immediately and the motor stops according to mechani
71. f there is abnormal noise and vibration with th motor 2 Ifthe inverter and motor heat unusually 3 If the environment temperature is too high 4 If the value of load amperometer is as usual 5 If the fan of inverter can operate normally 6 2 Periodical care and maintenance 6 2 1 Periodical care Before check and maintenance the inverter please make sure that the inverter is power off monitor has no display content and the indication lamp of main circuit power is off The checked contents are shown in Tabel 6 1 Table 6 1 periodical maintenance Main circuit terminals control EN If the screws are loose Tighten the screws with screw drivers circuit terminals Use dry compressed air with 4 6kgcm Heatsink If there 1s dust pressure Use dry compressed air with 4 6kgcm Power component If there 1s dust 2 P pressure Aluminium electrolytic capacitors If 1t has changed color particular smell or bubble Change aluminium electrolytic capacitors TN Use dry compressed air with 4 6kgcm PCB print circuit board If there is dust pressure There is abnormal noise vibration or if it has run for Cooling fan Change cooling fan more than 20 000 hours 6 2 2 Periodical maintenance To make the inverter work normally for long time periodical care and maintenance for inverter s internal electronic component should be done The electronic component s lifetime depends largely on their application environment and preserv
72. g refer to P3 01 22 Terminal control mode is forcibly enabled When this terminal is enabled the running mode will be turn to terminal control 23724 Control mode selection Control mode can be selected via ON OFF combination of terminals The inverter will be active this function and P0 03 later Table 4 5 Control mode Hold the control mode Terminal control mode Serial port control mode 25 Start traverse operation When the traverse operation is as manual the traverse function will be enabled if this terminal 1s enabled see Group P9 for details 26 Reset traverse operation No matter the traverse operation is Manual or Auto close loop this terminal will clear all the memorized information of traverse operation Disconncet this terminal can restart traverse operation Refer to P9 for parameters instruction 27 Close loop disabled The terminal can be used to flexible switching the close loop operation and low level operation 70 V5 series inverter and the setting of start stop control direction Acc Dec time mode in low level operation Notes Switching between close loop operation and low level operation can be realized only when close loop 1s enabled P7 00 1 28 Pause the PLC operation The terminal is used to realize pause control when this terminal is enabled the inverter will run in 0 Hz and PLC will not accumulate time when this terminal 1s disabled inverter will start with auto
73. g 4 19 Wire of multi step Fig 4 20 External device fault input P3 06 P3 08 4 5 External terminals control jog operation JOGP JOGR When choose terminal control P0 03 1 JOGP is used as forward jog operation JOGR is used as reverse jog operation Jog operating frequency and jog Acc Dec time are defined in 65 8 Acc Dec time selection Table 4 3 Acc Dec time selection OFF OFF OFF OFF OFF OFF OFF Acc time 5 Dec time 5 OFF Acc time 7 Dec time 7 Through the ON OFF combination of Dec time terminal you can select dec time 1 7 9 3 wire operation control refer to functional instruction of P4 08 10 Coast to stop CFRS this function has the same meaning as the description in P2 05 while here it is achieved by terminal controlling which is convenient for remote control 11 External stop command this command is valid for all the running channels and it can stop the inverter according to the setting mode in P2 05 69 V5 series inverter 12 DC injection braking command DB the terminal can be used to perform DC injection braking to the motor that is running so as to realize the emergent stop and accurate location of the motor Initial braking frequency braking time and braking current are defined by P2 06 P2 08 Braking time 1s the greater value between P2 07 and the effective continuous time defined by this control terminal 13 Inverter running prohibit When the terminal is enabled the inverter that is operating
74. g command which 1s receiving by inverter through RS485 the actual running frequency equivalent to this parameter multiply the frequency value receiving through RS485 This parameter can also set running frequency proportion of several inverters in multimachine linkage mode Ace Acc tme Dec ime Dec ine 6 koef 7 Dec ine 7 Seven kinds of Acc Dec time can be defined and the inverter s Acc Dec time 1 7 can be selected by different combination of control terminals Please refer to the introductions of P4 00 P4 05 for the definitions of terminals used to select Acc Dec time also you can refer to Acc Dec time defined in P0 17 and P0 18 Dec time 4 Range 0 1 6000 0 w Acc time 5 Ranges 0 1 6000 0 65 V5 series inverter Multi frequency 1 Ranges lower limit of frequency upper limit of frequency 50Hz Multi frequency 2 Ranges lower limit of frequency upper limit of frequency 10 00Hz Ranges lower limit of frequency upper limit of frequency 50 00Hz These frequencies will be used in multi step speed operation and simple PLC operation please refer to the instructions of P4 00 P4 05 and P8 Range of jump frequency 3 Ranges 0 00 30 00Hz 0 00Hz P3 33 P3 38 define the functions that will let output frequency of the inverter avoid resonant point of mechnical load The reference frequency of the inverter can do jump operation in the certain range of some jump frequency point as shown in F
75. ge ener eds dv I b 16 Display present counter Display present counter value value Note s The corresponding relationship of monitor parameter input output terminals and their status display are shown b 17 b 40 below shows disabled lamp off f shows enabled Clamp on Status of X5 input terminal Status of X4 input terminal Status of X6 input terminal Status of X3 input terminal Status of FWD input terminal Status of X2 input terminal Status of REV input nat Status of XI input terminal l Upper half stands for Lower halfeind Ipr mum mmm mm the status of input terminal the status of output terminal 7 Status of OC output s Status of relay output terminal V5 series inverter 53 V5 series inverter 4 2 Parameter description 4 2 1 Basic operating function parameters Group P0 P0 00 Control mode selection Range 0 1 0 V F control 1 Open loop vector control P0 01 Reference fregunce selection Ranges 17 8 EET 0 Panelanalog potentiometer setting 1 Ey M keys on the panel You can set the reference frequency via Ely HA cv on the panel 2 Keyboard digital Initial frequency 1s the value of PO 02 to set the reference frequency via keyboard by modifying the value of PO 02 3 Terminal UP DOWN Initial frequency is the value of P0 02 to set the frequency via terminal UP DOWN 4s Serial port remote control Initial frequency 1s the value of P0 0
76. ge Parameter Name Setting range unit P1 00 Time constant of 0 01 30 00s 0 01s 0 20s analog filter P1 01 VI Gain of reference 0 01 9 99 0 01 1 00 frequency selsector P1 02 m iefremeeotVI G00 Pi4 0 01V 0 00V P1 03 Frequency 0 00 high frequency limit 0 01Hz 0 00Hz corresponding to min reference of VI P1 04 Maxweferenecof VI Pi04esT0300V 0 01V 10 00V 3 P1 05 Frequency 0 00 high frequency limit 0 01Hz 50 00Hz corresponding to max reference of VI P1 06 Gain of reference 0 01 9 99 0 01 1 00 frequency selector of CI 38 V5 series inverter P1 07 Min referenceof CE 0400 P DO 0 01V 0 00V Lx Frequency 0 00 high frequency limit 0 01Hz 0 00Hz corresponding to min reference of CI P1 09 Max reference of P1 07 10 00V 0 01V 10 00V s A ot Freguency 0 00 high frequency limit 0 01Hz 50 00Hz corresponding to max reference of CI wm ts Max input pulse 0 1 20 0K 0 1K 10 0K freguency of Min reference of 0 0 P1 14 0 1K 0 1K PULSE Max reference of PULSE Freguency 0 00 high frequency limit 0 01 Hz 0 00Hz corresponding to min reference PULSE Max reference P1 12 Min reference of PULSE 0 1K 10 0K PULSE P1 11 Max input frequency Freguency 0 00 high frequency limit 0 01Hz 50 00Hz corresponding max reference PULSE P1 16 Input mode of CI 0 4 20mA mI ee 0 c tlt 3 Starting and Braking Prameters Group P2 Group P2 Starting and Braking Prameters Mi
77. h highest digit running or fault user s password and increase to check status a ENTER PM DATA Press the key to Increase to Move to the Increase to Move to the enter the edit status 4 third dieit 3 second digit Fig 3 10 Input user s password 34 V5 series inverter 5 Inquiry fault parameters QE I um E Dipy E03 Paoi Bie poz kae pa eae parameter displed utput frequency Key i operation Poruneter 4 Parameter 15 OTI Pen pa 03 Emon bao temperature a of module ra bus voltage output voltage NUUS 388 EE Fig 3 11 Inquiry operation in fault status preset frequency gt output current Note 1 You can press ce key to inquire P6 function parameter group in the status of parameters displayed in fault the range of the parameters is P6 01 P6 06 when you pressi key parameter No will firstly displayed and the parameter value will be displayed automatically in one second 2 While inquiring You can press EB key to back to fault parameter displayed status 6 Setting freuqnecy via nm and U Suppose that the parameters at stop is displaying P0 01 1 the operation mode is shown below 1 Freguency adjustment adopt integral mode 2 When pressing A digital of ten s place starts to increase as the same when it carries from ten s place to hundred s place the digital of the digital increases from unit place of LED then it ca
78. he bigger the stator 1s the higher the boost voltage P0 09 i Inverter s output current Boost Voltage 100 x Motors Rated Voltage 2 X Inverter s rated current Carrier frequency Range s 1 0K 14 0K Carrier frequency will effects the motor s noise and heat waste The relationship among carier frequency motor noise leak current and dist are shown below Comer frequency Decrease Increase V5 series inverter Notes 1 In order to achieve better performances the ratio of carrierfrequency to the maximum running frequency of the inverter should be less than 36 2 When the carrier frequency is low the current display value may has error 0 LinearAcc Dec mode Output frequency increases or decreases according to a constant rate as shown in Fig 4 4 1 S ramp Acc Dec mode Output frequency increases or decreases according to a S shape curve as shown in Fig 4 5 Frequency Upper limit AREA of frequency Time Fig 4 4 Linear Acc Dec 4 Freguency g Upper limit veter rtt y of frequency D i D e i 11 i 1 i i ae T Fig 4 5 S shape curve P0 14 Low speed time of S ramp Range 10 096 50 096 CAcc Dec time P0 14 P0 15 9096 20 096 P0 15 Linear time of S ramp Range 10 0 80 0 Acc Dec time P0 14 P0 15 lt 90 60 0 P0 14 and P0 15 are only active when Acc Dcc mode is S ramp Acc Eec mode P0 13 1 and P0 14 P0 15 lt 90 Low speed time of S ramp is shown
79. he devices wiring environment safety distance grounding method and other factors The noise contains the following types electrostatic induction circuit transmit space transmit electro magnetic Space induction and so on Circuit Electromagnetic Electrostatic transmission transmission induction induction Path 1 Path d 8 Leakage current Power supply D NS Motor Power Inverter grounding circuit transmission cable cable radiatio RF RF n Path 2 Path 3 2 Essential countermeasure for suppressing noise 25 VB3 V5 VBS5 series inverter Table 2 5 solution for control noise Noise transmit Solution path When the external equipment forms a loop with the inverter the equipment may operate incorrectly caused by leakage current of inverter grounding cable The problem can be solved if the equipment is not grounded If the external equipment shares the same AC supply with the inverter the inverter s noise may be transmitted along its input power supply cables which may cause interference to other external equipments Take the following actions to solve this problem Install noise filter at the input side of the inverter and use an isolation transformer or power filter to prevent the noise from disturbing the external equipment prevent the RF interfere of power lines 3 Motor cables should be placed in a tube thicker than 2mm or buried in a cement slot Power cables should be placed inside a metal tube
80. ig 2 9 RS485 RS485 232 RS232 cable connection gt More than one inverters can be connected through RS485 with the PLC or PC as the host as shown in Fig 2 10 Also you can select one inveter as host and the other inverters as slaves as shown in Fig 2 11 Because with increasing of the inverter s quantities the communication system will be interfered easier the following wiring is recommended Fig 2 10 Connection of PLC and inverters 24 VB3 V5 VBS5 series inverter Inverters and motors are all grounded well Fig 2 11 Connection of several inverters Inverters and motors are all grounded well If the communication 1s still failed with the above connection methods you can adopt the following measures 1 Use separate power supply for PLC or isolate the power supply 2 Use magnetism ring for the cable and reduce the inverter s carrier frequency 2 6 Mounting guide according with EMC requirement As the inverter s output wave is PWM electromagnetic noise will be inevitably generated while it 1s working To reduce the inverter s disturbance for the external devices this chapter introduces the mounting method in the following aspects control the noise local wiring grounding leak current usage of power supply filter 2 6 1 Control the noise 1 Noise type The noise made by inverter may affect the neaby equipments and the effection is related to inveter s control system antinoise and anti jamming ability of t
81. ig 6 15 you can define three ranges of jump frequency at most A Reference Frequency After Regulating 1i a Jump Dette trier brentmh ie brachii Lowa Range of jump frequency 3 Frequency 3 Jemen nd be U VV Jump j 1 A oo ojo oni slaninou mimis aiani seins Range of jump frequency i Frequency 3 ay ie Jump peten Range of jump frequency a Fre guency 3 m vana i at i F i Reference Frequency Fig 4 15 Jump frequency and range Accumulate running time Ranges 0 65 535K hour DEBE Acculate running time to reach the reference time P3 39 the inverter will output signal refer to function instruction of P4 08 P4 09 P3 40 refers to the accumulating running time from factory till now Ba Display parameters selection 1 Ranges 0000 gt FFFF 0000 P3 41 controls that if the monitor parameters b 09 b 24 can be displayed in parameter group by four figures The parameter values are in hex which should be changed to binary ones according to the sequence of monitor parameters when using The relationship between four figures and parameters are shown in Fig 4 16 fal al ele hra framed Fig 4 16 Display parameters selection 1 Note A Thousand s place B Hundred s place V5 series inverter C Ten s place D Unit s place Display parameters Ranges 0000 FFFF 0000 selection 2 P3 42 controls that if b 25 b 40 can be displayed in
82. in Control Digital Setting 0 01Hz Freguency resolution Function Analog Setting max frequencyx0 1 Start freguency 0 40Hz 20 00Hz Auto torque boost manual torque boost 0 1 30 0 Five modes constant torgue V F curve 1 V F curve mode by user and 3 kinds of torgue derating modes 2nd power 1 7th power 1 2nd power Two modes linear Acc Dec S curve Acc Dec seven kinds of Acc Dec time Accelerate Decelerate curve ME Maximum 6000 minutes and unit minute or second 1s selectable Initial frequency of DC braking 0 15 00Hz DC braking Braking time 0 60 0 s Braking current 0 8096 Power consumption braking Power consumption unit inside can be connected with external braking resistor Range of jog freguendy 0 1 Hz 50 00Hz Acc Dec time of jog operation 0 1 og 60 0s Internal PI Be able to form close loop control system easily Multi step Multi step speed running can be realized by internal PLC or control terminals speed running Textile wobble frequency Adjustable preset frequency and center frequency Auto voltage regulation When the power system voltage changes maintain the constant of output voltage AVR Wall mounted or install inside cabinet Installation 2 General Specification VB3 V5 VBS5 series inverter V F curve is optimized automatically according to the load condition to realize Auto energy saving running energy saving operation Auto current limiting running curre
83. inal X2 input terminal X3 input terminal X4 input terminal X5 input terminal X6 input terminal X7 FWD input terminal X8 REV Operation mode selection collector output terminal 19 Frequency selector 1 20 Frequency selector 2 21 Frequency selector 3 22 Terminal control mode is forcibly enabled 23 Control mode selector 1 24 Control mode selector 2 25 Start traverse operation 26 Reset the traverse operation status 27 Close loop disabled 28 Pause the PLC operation 29 PLC disabled 30 Reset PLC stopping status 31 Frequency reference 1s input via CI 32 Counter s trig signal input 33 4 Counter s zero cleaning signal input 34 External interrupt input 35 Pulse frequency input Conly valid for X6 36 Actual length clearing input 2 wire control mode 1 2 wire control mode 2 3 wire control mode 1 3 wire control mode 2 0 Inverter running RUN Frequency arriving signal FAR 0 01 1 00Hz s P4 11 P4 12 P4 13 P4 14 P4 15 P4 16 P4 17 Detecting range of freguency arrive FAR FDTI frequency level 2 Frequency detection threshold CFDTI 3 Frequency detection threshold FDT2 4 Overload pre alarm OL 5 Inverter under voltage locking LU 6 External fault stop CEXT 7 Output frequency arrive upper limit of CFH 8 Output frequency arrive lower limit CFL 9 Inverter zero speed running 1
84. ing parameters Forward running indicator inverter outputs positive phase the t ill f fi i the i motor will run forward after connecting to the inverter If FWD and REV indicators all light on it means that the inverter are under DC Reverse running indicator inverter outputs negative phase The braking status motor will run reverse after connecting to the inverter un o G O o c vm un Bg G un This indicator will light on when the inverter has fault Display function 3 2 4 Display of the operation panel The inverter s operation panel can display four paraters in stopping editing fault alarming and running 1 Parameters displayed in stopping status When the inverter stops operation operation panel displays monitor parameters in stopping status the normally content is setting frequency b 01 monitor parameter As shown in Fig 3 4 the unit indicator on the top right indicates the unit of this parameter Pressing a key can display other monitor parameters in stopping status circularly the first seven monitor parameters in B group are fault displayed value and the other monitor parameters can be defined by function code P3 41 and P3 42 please refer to Chapter 5 for details Press in display status can shift to b 01 which can set frequency otherwise the panel will display the last monitor parameter constantly 3l V5 series inverter Hz Y A o O o FWD REY o A e WD
85. input signal and reference frequency 36 Autual length clearing input If this terminal is enabled the autual length parameter P9 09 will be cleared to zero P4 08 FWD REV operation mode selection Range 073 oo This parameter defineds four operaion modes via which external terminals can control inverter s pepe bl FWD 1 Forward s REV eem em Ip Fig 4 21 2 wire operation mode 1 0 2 wire control mode 1 1 2 wire control mode 2 DE ES s rs 5 FWD INN L Forward i REV Fig 4 22 2 wire operation mode 2 2s 3 wire control mode 1 SB1 Stop button SB2 Forward button SB3 Reverse button 7 V5 series inverter VS SB2 m SBI A SB3 bus COM Fig 4 23 3 wire operation mode 1 X1 1s the multi function input terminal of X1 X6 here you should define its function as No 9 3 wire control mode 3 3 wire control mode 2 SBI Stop button SB2 Running button n o tnt XI K2 EH Reverse 5 COMI Fig 4 24 3 wire control mode 2 X1 is the multi function input terminal of X1 X6 here you should define its function as No 9 3 wire control mode Notes When the inverter stops due to fault it will start immediately if the terminal control mode and terminal FWD REV are enabled and the fault is cleared P4 09 UP DOWN speed rate Ranges 0 01 99 99Hz s 1 00 Hz s This parameter defines the change rate of reference frequency that is changed by UP DOWN P4 10 Bi direction open colle
86. ly under general condition Themounting space and distance are shown in Fig 2 1 gt When several inverters are mounted up and down air diversion plate should be fixed in the middle as shown in Fig 2 2 VS 100 m 4 Air diverting T plate VS Fig 2 1 Mounting Space Fig 2 2 Mounting of Multi Inverters 2 1 3 Mounting and removing Removing Romove the four screws on the cover with phillips screwdriver Mounting Allign the mounting holes and then fix the screws VB3 V5 VBS5 series inverter 2 2 Wiring N B Wiring after power off for at least 10 minutes otherwise an electronic short may occur B Donotconnect AC power to output terminals U V and W B Both the inverter and the motor should be safety grounded as there is leakage current inside the inverter The diameter of grounding copper cable must be more than 3 5mm grounding resistor must be less than 10ohm B Withstand voltage test of the inverter has been done in the factory users would better not do it again B Do not install electromagnetic contactor absorption capacitor or other resistance capacitance absorption devices as shown in Fig2 3 B In order to make the input over current protection and power off maintenance easily the inverters should connect power supply via braker B The connection cable of relay I O circuit X1 X6 FWD REV OC DO should select the twisted pair or shield cable with diameter over 0 75 mm One terminal of the shi
87. n with steady load and speed AVR funciton Ranges 0 1 2 AV R function points to regulating voltage automatically When the input voltage of inverter fluctuates AVR function can keep it steady In Dec to stop process if AVR is disabled the Dec time is short and the running current is big if AVR is enabled the motor decelerates steadily the running current 1s small and the Dec time 1s prolonged 0 Disabled 1 Enabled 2 Disabled in Dec process Gain of slip compensation Range 0 150 0 This function can make suitable regulation for inverter s output frequency according to the load changes and control the 63 V5 series inverter speed at a certain value with dynamic compensation for slip frequency of asynchronism motor If use auto torque boost function in addition better low speed moment characteristic can be get As shown in Fig 4 13 Slip Compensation 100 A Output current 150 5 Ad gt 1 100 EE S ae c Before Shp 3 Slip C 1 Ship Compensation Compensation WE HRLE IARIGASEZHIXGZARARZZAJEZSRXSRIRIERSZARRZHSRARALARIASZIRGGXG IEEE 1 4 i 507 Motor Speed i i A i Fig 4 13 Slip Compensation P306 Jog operating frequency Ranges 0 10 50 00Hz 5 00Hz P3 07 Acc time of jog operation Ranges 0 1 60 0S 5805 P3 08 Dec time of jog operation Ranges 0 1 60 0S 505 Jog operating frequency has the highest priority No matter what status the inverter 1s in o
88. nce there 1s a jog operating command input the inverter will run into jog operating frequency within Acc Dec time of jog operation as shown in Fig 4 14 Acc time of jog operation means the time needed for inverter from 0 Hz to upper limit of frequency Dec time of jog operation means the time needed for inverter from upper limit of frequency to 0 Hz i Dec time of jog operation Jog Operating 55555555 pe Frequency Acc time of d Jog Frequency a 3 Jog J atl Ms Operating en SMS Operating Signal i Signal Fig 4 14 Jog operation Note 1 Jog operation can be controlled by panel terminal and serial port 2 If jog operation command has been canceled the inverter will stop according to Dec to time Communication Ranges 000 155 configuration You can change baud rate digital format and communication mode by setting unit s place ten s place and hundred s place of P3 09 Unit s place of LED Set baud rate the values are shown below 0 1200BPS 1 2400BPS 2 4800BPS 3 9600BPS 4 19200BPS V5 series inverter 5 38400BPS Ten s place of LED Set digital format the values are show below 0 1 7 2 format no parity check 1 stop bit 7 data bits 2 stop bits no parity check 1 7 1 format odd 1 stop bit 7 data bits 1 stop bits odd 1 7 1 format even 1 stop bit 7 data bits 1 stop bit even 1 8 1 format odd 1 stop bit 8 data bits 1 stop bit odd l
89. nction code copy among frequency inverters by remote keyboard Over current protection over voltage protection under voltage protection over Protection Function l heat protection over load protection Optional parts Braking parts operation panel installation seat operation panel extension cable 1 3 Product appearance VB3 series 0 4 0 75KW VB3 V5 V BS series inverter LED ADIIT 5 i n i 4 bits LED display We fle Buttons Control 4 terminals Analog potentiometer El al ssl i Power 4 i terminals ET A al li sl A Ek Mounting hole VBS series 1 5KW 3 7KW VBS series 5 5KW 7 5KW VB3 V5 V BS series inverter O ey 000000 cann JILILILI THINGET C3 ENT JOG STOP DATA REV p ENT JOG DATA REV A WARNING STORED CHARGE DO NOT TOUCH UNTIL 10 MIN AFTER DISCO NNECT ON DO NOT CONNECT AC POWER TO OUTPUT TERMINALS OF U VW RISK OF ELECTR
90. nction is enabled P7 00 1 the inverter will enter the close loop running modes that 1s it will perform PI adjust according to the reference and feedback value refer to parameters in group P7 PI adjuster output 1s the essential command of inverter s output frequency Close loop running can be disabled by multi function terminal No 27 function and the inverter will be in a running mode with lower priority 2 PLC running If PLC function is enabled Uni s place of P8 00 1s set to a non zero value the inverter will enter PLC running mode and running in the pre defined running mode refer to parameter description in group P8 PLC running can be disabled by multi function terminal No 29 funcition and the inverter will select a running mode with low priority 3 Multi speed running Select Multi frequency 1 7 P3 26 P3 32 to realize multi speed running by no zero combination of multi function terminal No 1 2 and 3 functions 4 Common running Common running is actually the open loop running mode so lt 3 gt C High priority Closeloop setting ctive F5 00 gt 0 7 N A b Terminal for disabling N Close loop s close oop operation operation i M M M V enabled PLC setting active N Y p ni for disabling N PLC operation PLC enabled ren MLLLILLILLLILDLLLLILIRLLELLELLLLLLI E M M
91. ng input Introductions of the functions shown in Table4 1 17 3 Multi step speed control terminals Up to 7 speed reference can be set by different ON OFF open close combination of the function terminals at the same time you can select corresponding Acc Dec time Table 4 2 On Off combination of function terminals x x mm Aem O Multi step frequency 4 Acc Dec time 4 Multi step frequency 5 Acc Dec time 5 Multi step frequency 6 Acc Dec time 6 Multi step frequency 7 Acc Dec time 7 The above frequencies can be used in multi step speed running and simple PLC running this manual take multi step speed running as an example 68 The definition of X1 X2 and X3 are shown below V5 series inverter P4 00 1 P4 01 2 P4 03 3 X1 X2 and X3 can be used to achieve multi step speed operation as shown in Fig 4 18 A Output Frequency Speed 7 speed SpeedS i Speed 4 Speed3 Pd Speed 3 Common M Speed operatmz ONE n t0 1 frequency pet i BAR i Dr i speed command Al m a Fig 4 18 Multi step speed operation In Fig 4 19 terminal control is selected the operating direction is controlled by K Kg In Fig 4 18 Common operating frequency or 1 7 multi step frequency can be controlled by different combination of K Ky K3 Circuit Breaker RB KM Power AS V 4 i W STIT PE K V K2 K3 FWD A COM REV COM Fi
92. nmum Factory setting Change Parameter Name Range P2 00 Starting mode 0 Start from the starting frequency 1 Brake first and then start from the starting frequency 2 Start on the aaa P2 01 Starting frequency 020 2000Hz 0 01Hz 0 50Hz EE P2 02 Holding time of starting 0 0 30 0s 0 1s 0 0s ei om mq om P2 03 injection braking 0 0 80 026 0 126 mom om om om P2 04 DC injection braking time 0 0 60 0s 0 Dec to stop P2 05 Stopping mode 1 Coast to stop 1 X 2 Dec to stop DC braking ma ion br ne iat ootd To 39 O 39 V5 series inverter P2 07 DC injection waiting time at stop braking 0 0 60 0s braking 0 0 80 024 P2 08 DC injection current at stop 4 Auxiliary running parameters Group P3 P3 00 40 Name Combination frequency input Range of 0 VI CI 1 VI CI 2 External pulse reference VI Increase Decrease key reference 3 External pulse reference VI Increase Decrease key reference 4 External pulse reference CI 5 External pulse reference CI 6 RS485 VI Increase Decrease key reference 7 RS485 VI Increase Decrease Key reference 8 RS485 CI Inerease Decrease key reference 9 RS485 CI Increase Decrease key reference 10 RS485 CI External pulse reference 11 RS485 CI External pulse reference 12 RS485 VI External pulse reference 13 RS485 VI External pulse
93. ns of CN1 terminal are shown as bel Tabl Termina Name 1 Mark Inverter Relay output TB Multi function terminal relay output terminals 2 Control circuit terminals CN2 VB3 series single phase 0 4 0 75KW VBS series single phase 1 5KW VBS series three phase 1 5 3 7KW VBS series three phase 5 5 7 5KW V5 series 11 55KW ow in Table 2 3 e 2 3 Function of CN1 on control panel Function Description Specification Inverter TA TC normal close Multifunctional relay output TA TB normal open terminals Please refer to Contact Capacity terminal function parameters AC250V 2A COS 1 P4 11 and description of output AC250V 1A COS 0 4 terminals DC30V 1A A B xl x2 AJ FWDREVTIDVLI COM COCOKOOKOOIKOKCOOD COM CITIO0V El x2 AZ FAN REY A B SERE BABA A B kl ke ka 14 AG FWD REY Z4Y COM AU CI 10V GHD SBRERERREBEBB LB A Al ka ko FRO REY IO AJ VI 10Y SISA II B az 14 46 COM OC GHD CI GHD PE x T A x v al d T B COM 2 14 26 COM OC GHD CI GHI PE Fig 2 5 Terminals on control panel 21 VB3 V5 VB5 series inverter 3 CN2 terminals function description are shown as below Table 2 4 CN2 terminals function description Name Terminal Function Description Specification x Positive terminal of RS485 E differential signal standard RS485 port please use Communication RS485 port F Negative terminal of RS485 twisted cable or shielded cable differential signal Mul
94. nt is limited automatically to avoid trip caused by overcurrent Fix length control The frequency inverter will stop running when reaching the fixed length Communication With RS485 port support Modbus RTU protocol Be with master slave multi function devices linkage function Operation panel setting control terminals setting serial port setting three modes Running command channel are exchangeable Keyboard analog potentiometer setting 4 E2 keys setting function code Operating l digital setting serial port setting UP DOWN terminal setting analog voltage Freguency setting channel mE function setting analog current setting pulse setting combination setting different setting modes can be selected 1 Forward Reverse running command 6 channels programmable digital input can Digital input channel set 35 kinds of function X6 support 0 20KHz pulse output Analog input channel 2 channels analog input 4 20mA and 0 10V can be selected 1 channel analog output 0 10V be able to output setting frequency output Analog output channel frequency Digital pulse output 1 channel programmable open collector output 1 channel relay output 1 channel channel 0 20K Hz pulse output LED Display Can display setting frequency output voltage output current and other parameters Display output frequency output current output voltage and other physical External meter Display 7 Operation panel quantities Parameter Copy Fu
95. o P4 08 for details Input resistance R 2KQ terminal SEV Reverse instruction about 2 wire and 3 Highest input frequency 200Hz running wire control function Multifunction X1 input Multifunction X2 input Z Multi function digital input Multifunction mE X3 terminals refer to input terminals Multifunction input input 3 m function description in terminals terminal Multifunction X4 function parameters P4 input 4 l common terminal COM Multifunction X5 input 5 Multifunction X6 l input 6 24V power Offer 24V power supply Power supply 24V supply negative terminal COM 22 C I I O Input voltage range 9 30V Al X4 FWD REV N Close is enabled COM VB3 V5 VBS5 series inverter 10V power Offer 10V power supply 10V Max output current 50mA supply negative terminal GND 10V power supply Reference ground of analog signal GND common and 10V power supply o o COM is isolated with GND inside terminal l inverter 24V power COM supply common Digital signal I O common terminal terminal 2 5 3 Analog input output terminal wiring 1 VI terminal voltage signal input wiring is shown as below V5 10V I preneenom X4 yy 0 HUV o L GND ground the proximal PE point of shield cable Fig 2 6 VI terminal wiring diagram 2 CI terminal analog input jumper select voltage input 0 10V or current input 4 20mA wiring is shown as b
96. ok kava k n n d V 52 4 2 1 Basic operating function parameters Group PO oo oooovnnovnnnnoon noo ne rr 52 4 2 2 Parameters of reference frequency Group P1 nennen nn 57 4 2 3 Starting and braking parameters Group P2 enne nn 59 4 2 4 Auxiliary running parameters Group P3 noo oo nu 61 4 2 5 Function parameters of terminal Group P4 ou cesescesssscessscccesscscesssccessecconssescesseecesseescesssecesscecesseeeceseeecesseecessees ons 66 4 2 6 Protective function parameters Group P3 sesoccerissonsniasatansaveiesewosnastivavsnenddiommssassdcassiacesvunbsliocaimadsatwnssventeamseduscatissenantes 74 4 2 7 Fault recording parameters Group P6 esses RR RR RR sette RR 76 4 2 8 Close loop control parameters Group P oooooooonvnnnnnn n en re ee rr T1 4 2 9 Simple PLC operation parameters Group P8 ieccccecccsccccsscccesscecesseeccsseeccssseecesseecesssecessseeeescecesssecesseeeesseeceseecestseeess 80 4 2 10 Traverse and measure function parameters Group P9 essessssesssesssssressresserrssrresertessressresssrressreesrressresssrrsserresrresseeessres 83 4 2 1 Vector control parameters Group PA sccesccerercseereverscverccvenetsevenconetevstevsnsessssecesascossscsenessenencenenconeneseeseveanevencesens 85 4 2 12 Specail application function parameters Group PB eee eene enne nennen nnne nenne seen nennen nennen ens 86 d 2 13 Factory seting Group PE snanar drano RNa EEEE R E ERE
97. ower the immunity level Gain of reference frequency selector of VI P1 01 P1 02 P1 03 P1 04 Range 0 00 P1 04 0 00V Ranges 0 00 upper limit of frequency 0 00Hz Ranges P1 04 10 00V 10 00V Ranges 0 00 upper limit of frequency 50 00Hz Min reference of VI Frequency corresponding to min reference of VI Max reference of VI Frequency corresponding to max reference of Ranges OOI 999 dm Range 0 00 P1 09 0 00V Gain of reference freguency selector of CI Min reference of CI Freguency according to min reference of CI Range P1 07 10 00V 10 00V Range 0 00 upper limit of frequency 50 00Hz 59 Max frequency of CI Ranges 0 00 upper limit of frequency 0 00Hz Frequency according to max reference of CI V5 series inverter Max input pulse frequency of PULSE Ranges 0 1 20 0K Min reference of PULSE Ranges 0 0 P1 14 Ref Amplify Set selection PL OL P1 06 frequency P n1 curve The relationship between VI and preset frequency is shown below Reference Frequency Arain Amax Arun Amax 1 Positive 2 Negative amp Reference of VI Arum Min reference Prin Frequency corresponding to max Max reference min reference Pmax Frequency corresponding to max reference The relationship between CI and reference frequency is shown below Aun Amax Amm max 1 Positive 2 Negative amp Reference of CI Armin Min reference Proin gt Frequency corresponding to Amax Max reference
98. p preset frequency P7 14 Close loop adjustment characteristic Range 0 1 0 Positive When the reference increases it will be enabled when the motor speed increase Note Define the relationship of reference and speed P7 15 Integral adjustment selection Range 0 1 0 Stop integral adjustment selection when the frequency reaches upper limit or lower limits 1 NegativeWhen the reference increases it will be enabled when the motor speed reduces 1 Continue the integral adjustment selection when the frequency reaches high limit or lower limits For the system need quick response cancel the continuouse integral adjustment is recommended P7 16 Close loop preset frequency Range 0 upper limit of frequency 0 00Hz P7 17 Holding time of close loop preset frequency Ranges 0 0 250 0S MS o This function can make the close loop adjustment enter stable stage quickly When the close loop starts the frequency will accelerate to the preset value set by P7 16 according to Acc time and the inverter will running with this freuquency in the holding time set by P7 17 then running according to close lood character as shown in Fig4 38 Notes If the function of close loop preset frequency is not needed you can set the preset frequency and holding time as 0 P7 18 PI Threshold of zero frequency operation Ranges 0 00 500 0Hz 0 01Hz P7 19 PI hysteresis of zero frequency operation Ranges 0 00 500 0Hz 0 01Hz The two function paramet
99. play If you want to view fault information press to view P6 parameter in editing status After you finding out and solve the default the inverter can be reset by key in operation panel or control terminals or communication command The fault code will not disappear until the fault 1s cleared Notes For some serious default such as over current over voltage etc please do not reset the inverter to rerun before confirming that the default is cleared otherwise the inverter may be damaged Fig 3 5 Alarming display status 4 Editing status This status can be entered by pressing fag key in stopping running or fault alarming status if there is a user s password you should input correct password refer to P0 00 and Fig 3 9 for details This status can be displayed in three level menu they are code gruop gt code No code parameter you can enter the sub menu by pressing Ein code parameter status MENU JN press Em to save parameter and press to exit without saving 32 V5 series inverter First level menu Second level menu Third level rnenu MENUWU ESC ENTER DATA ENTER DATA Oooo000 k MENU ESC MENU ESC Parameters displayed in I stoppinz status parameters displayed in l runninz status or fault alarming displayed Fig 3 6 Editing status 3 2 5 Panel operation procedure The following shows how to do various operation by operation panel 1 Parameter Displa
100. range of it is a percentage of the inverter s rated current Frequency decrease rate when current limiting P5 05 defines the rate of output frequency when the inverter is in auto current limiting status If the decrease rate 1s set too small auto current limiting status may not be switched and overload fault may occur If it 1s set too big the frequency will change too sharply and thus the inverter may be in generating status for long time which may result in overvoltage protection Auto current limiting function is always enabled in Acc or Dec process Whether it 1s enabled in constant speed operating process 1s decided by auto current limiting selection P5 06 P5 06 0 Auto current limiting function 1s disabled in constant speed operating process F5 06 1 Auto current limiting function is enabled in constant speed operating process In auto current limiting process the inverter s output frequency may change therefore when the inverter s output frequency is required to be stable this function is not recommended P5 07 Setting of restart after power off Range 0 1 EE P5 08 Holding time of restart after power off Ranges 0 0 10 0S 95S P5 07 0 Restart after instantaneous power off is disabled P5 07 1 Restart after instanteaneous power off is enabled If instantaneous powe off E 11 displayed in inverter s LED occurs when inverter is in running status after repowering it will detect speed automa
101. re and speed 0 Stop integral adjustment selection when the 1 X frequency reaches high limit or lower limits P7 16 Close loop preset frequency 0 upper limit of of frequency 0 01 Hz 0 00Hz lO o P7 17 Holding time of close loop 0 0 250 0s 0 1s X Threhold of zero freguency 0 00 500 00Hz P7 18 l 0 01 Hz 0 01 Hz X operation Hysteresis of zero frequency P7 19 l 0 00 500 00Hz 0 01 Hz 0 01Hz X operation 9 Simple PLC operation parameters Group P8 P7 15 frequency reaches upper limit or lower limits Integral adjustment selection 1 Continue the integral adjustment selection when the Group P8 Simple PLC operation parameters P8 00 Simple PLC operation 0000 1113 mode selection Uni s place mode selection 0 Disabled 1 Stop after single cycle of operation 2 Holding at the final value after single cycle of operation 3 Operate continuously Ten s place PLC restarting mode after stopping 48 V5 series inverter 0 Run again from stage 1 1 Continue to run from the stopping stage Hundred s place Save at power off 0 Not saving 1 Save the time and frequency at power off Thousand s place Selecting the unit of time 0 second 1 minute P8 01 Stage 1 setup 000 621 Unit s place of LED frequency setup 0 Multii 1 1 7 1 Frequency is decide by P0 01 Ten s place of LED Operating direction selection 0 Run forward 1 Run reverse 2 Decided by operating instructions Hundre s place o
102. rned into hex function code Take the following as examples Read function code P1 02 01H 03H 01H 02H 00H 01H CRC1 CRC2 Read the reference frequency of inverter 01H 03H 21H 02H 00H 01H CRC1 CRC2 Write function code P1 02 the write value is 1 01H 06H 01H 02H 00H 01H CRC1 CRC2 Running command 99 V5 series inverter 01H 06H 20H 00H 00H 01H CRCI CRC2 Definition of fault code Fault code 01H Fault function code Inverter can not find 03H 06H 08H Fault data address Inverter can not find data address 03H Fault data data over the limit Note The parameter address must in hex format as the function codes of parameters are in decimal system so you must let them turn to hex For example the Modbus address of function code P2 11 1s 020BH 100 SLIR E FOSS TH REPA T BES IE JG 1H 88 pal JT c D Gill ser Mr pd 7 c PVR HZ 214072 Hii 86 510 85134136 IE 86 510 85111290 Xinje Electronic Co Ltd 4th Floor Building 7 Orignality Industry park Liyuan Development Zone Wuxi City Jiangsu Province China 214072 Tel 86 510 85134136 Fax 86 510 85111290
103. rries from unit s place to ten s place the hundred s place starts to increase so does the digital of thousand s place If you release A and press it again the digital will restart to increase from the unit s place of LED 3 When pressing 7 the digital decreases from uni s place of LED then it borrow from ten s place the digital of ten s place starts to decrease So does the digital in hundred place and thousand s place If you realse Lv key and press it again it will restart to descrease from the unit s place of LED 7 Lock the panel If the panel is unlocked press key for five seconds can lock the panel 8 Unlock the panel If the panel is locked press EE key for five seconds can unlock the panel 3 3 Start up 3 3 1 Checking before starting up Please wire the inverter according to Wiring in this manual 3 3 2 Start up the inverter for the first time After checking the wiring and AC power switch on the AC power supply to electrify the inverter The inverter s panel will display dynamic screen and then the contactor closes When the LED displays preset frequency the initialization of this inverter is completed The procedure IS shown as Fig 35 V5 series inverter Wing according to section 2 4 Connection is correct Y Input voltaze ds correct Display dynamic Image Y N Contractor closes isplay x ireguency setu Y Start up Start up fails Fig
104. s output it means the drive has no fault its DC bus voltage is normal and it can receive starting command 15 Inverter fault If there is fault with inverter indicate signal will be output 16 Start frenquence running time 17 Start DC injection braking time 18 Stop braking time 19 Upper and lower limits of traverse operating frequency An indicate signal will be output if the traverse operating frequency calculated by central frequency is higher than upper limit of frequency P0 19 or lower than the lower limit of frequency F0 20 as shown in Fig 4 25 Upper limit of frequency 5 n0 coo eee oco oe Lower limit of frequency E Upper and lower frquency of traverse operating Fig 4 25 Upper and lower limits of traverse operating frequency 73 V5 series inverter 20 Set running time arriving When the accumulating time P3 40 arrive the reference time P3 39 an indication signal will be output P4 12 Detecting range of frequency arrive CFAR Range 0 00 50 00Hz 5H This parameter is the additional definition of No 1 function in Table4 6 As shown in Fig 4 26 when the output frequency of inverter is within the detecting range of reference frequency pulse signal will be output Output Reference Prequency Time Fig 4 26 Frequency arriving signal P4 13 FDT1 Cfreqeuncy level Range 0 00 upper limit of frequency 10 00Hz P4 14 FDT1 lag Ranges 0 0
105. should be derated due to the worsening radiating effect If low speed constant torque long term running 1s required then a special variable frequency motor is needed gt Motor insulation When using the V5 F5 series inverter make sure to confirm the insulation of the motor which will be used to avoid device damage Besides do the periodic check for the insulation condition of the motor located in the bad environment to guarantee the system can operate safely gt Negative torque load If in the case of improving load negative torque may occur Braking units should be connected with the inverter or over current and over voltage fault may happen VB3 V5 V BS series inverter gt Mechanical resonance point of load The inverter may encounter the mechanical resonance point of load within certain output frequency range Jump frequencies have to be set to avoid it Capacitor and resistor Because the inverter output pulse wave capacitor and resistors shouldn t be connected with the output terminals of the inverter or the inverter may trip or components may be damaged Besides don t connect switch components such as air switch and contactor with the output terminals 1s recommended as shown in Fig 0 1 If switch components need to be connected with the output terminals make sure output current of the inverter 1s zero when switch 1s acting INVERTER Fig 0 1 Capacitor 1s prohibited to be connected with output terminals of
106. single cycle ra Fe F gt F7 F gt AE 2 f 1 F 3 i P d j 1 j j EL Fs i G R i Fs i DM Fy N F1 i 13 fi ii fi i i EY ifd PLC operation i i i f i i i i h c i lt d anae ees nen nen zan 0 neem au f a AAA A A 4 AA 4 45 O RUN command STOP command Fig 4 43 PLC operate continuously mode 3 Operate continuously As in Fig 4 43 inverter start next cycle automatically after operating for one cycle it will stop until stop command is input Ten s place Restarting mode after stopping 0 Run again for stage 1 1 Continue to run from the stopping stage Hundred s place Save at power off 0 Not saving 1 Save the time and frequency at power off Thousand s place Selecting the unit of time 0 second 1 minute Ten s place of LED PLC restarting mode after stopping 0 Run again from stage 1 Inverter will start to run from stage 1 if the stop is caused by stop command fault or power off 1 Continue to run from the stopping stage For the stop caused by stop command or fault inverter will recorc the time in current phase automatically then restart to enter this stage with the same frequency and run continuously in the rest time as shown in Fig 4 44 83 V5 series inverter Output frequency
107. speed and PLC continue to run Refer to group P for instructions 29 PLC disabled This terminal can be used to flexible switching the PLC operation and low level operation Note The switching between PLC operation and low level operation only when PLC 1s running the unit s place of P8 00 1s not to 0 30 Reset PLC stopping status When PLC is in stopping status the enabled terminal can clear PLC running stage running time running frequency and other informations of PLC stopping memory Refer to P8 for instructions 31 Frequency reference is input via CI Frequency reference is input via CI forcibly when the terminal is enabled and it will involute when the terminal 1s disabled 32 Counter s trig signal input This terminal is used to input pulse signal to the internal counter of the inverter The highest pulse frequency is 200Hz The present counting value can be saved at power off See P4 22 and P4 23 for details 33 Counter s zero cleaning signal input It is used to clear the counter to zero in conjunction with terminal 43 34 Externalinterrupt input A fter receiving external interrupt input signal inverter will lock output and running in 0 Hz once the interrupt input signal release the inverter will start on the fly and continue the PLC operation 35 Pulse frequency input Conly valid for X6 This terminal can receive pulse signal as reference frequency please refer to P1 11 P1 15 for the relationship between pulse frequency of
108. sword will be valid immediately The password for super user 1s 2644 Software version is set by factory and it can not be modified by user V5 series inverter 5 Fault Diagnosis and Countermeasures 5 1 Fault diagnosis and countermeasurs When fault occurs the function code and its contents will be shown in LED display the protection function starts the inverter stops outputting and the fault relay contact point is activated Before seeking services the subscriber may conduct the self check according to the prompt given in this section analyze the fault causes and find out the solutions If the fault belongs to the causes described in the broken line box please seek the service by contacting the inverter agent or directly contacting our corporationl Table 5 1 Fault content and countermeasures Fault Code Fault Type Possible reason of fault countermeasure Too heavy the load and too short the Acc time Prolong the Acc time V F curve 1s not suitable Adjust V F curve Over current fure The rotating motor restarts after stop Set as start on fly function during acceleration Adjust the value of manual torque boost or change it as Too large the value of torque boost auto torque Inverter power is too low Select a high power inverter Too short Dec time Prolong the Dec time Over current during The load generates energy or the load inertial is Connect suitable braking kit deceleration Inverter power is
109. t communication error x Improper setting of alarm parameter Modify the setting of P3 09 P3 12 Host PC does not work Check host PC check the wiring STOP RESET Communication error Press key to reset or install power filter at the input Severe disturbance System disturbance side of the inverter W R error of DSP in main control board Press keys to reset or seek service 91 V5 series inverter E PROM Press W R error of control parameter W R error E DC brake overcurrent Set wrong current Set wrong current of DC brake DC brake Decrease the brake current Main circuit lack Lack of phase when input current momentary OP E key to reset or seek service Check the reason and reset voltage the power off power supply point loose power E 24 l Check the power supply electromagnetic supply voltage fluctuates serious and make the j UN Ask the factory contacter action error main circuit contacter open Input power supply lack of phase momenta Lack of phase when dd uer i A Y ower off power su oint loose power E 30 31 inverter running or A EU i Check the reason then reset supply voltage fluctuates serious and make the stop voltage between phases unbalance SUM Panel communication Operate panel and CPU board connection is not Uninstall the operate panel and install again ask error good the control circuit of inverter is not good the factory for help 5 2 Fault records This series invert
110. t record P6 01 Output frequency of Output frequency of previous fault previous fault record P6 02 Setting frequency of Setting frequency of previous fault previous fault record P6 03 Output current of previous l Output current of previous fault fault P6 04 Output voltage of previous Output voltage of previous fault fault P6 05 DC injectiong bus voltage DC injectiong bus voltage of previous fault previous fault P6 06 Module temperature of Module temperature of previous previous fault fault 8 Close loop control parameters Group P7 Group P7 Close loop control parameters P7 00 Disabled Close loop function selection Enabled P7 01 Reference channel selection Digit input VI 0 10V 47 V5 series inverter P7 02 Feedback channel selection 0 VI 0 10V 1 1 1 Analog reference by CI 2 VICI 3 VI CI 4 Min VI CI 5 Max VI CI ms tn o E o mo Rune ocos m ok o I mas stereo i de om maw Oo mos ine one ms e o I P7 07 Feedback value corresponding 0 0 100 096 0 1926 0 0 to min reference P7 08 Min reference P7 06 100 0 100 o P7 09 Feedback value corresponding 0 0 100 026 0 1926 100 0 to max reference Pu messer 3559 Fr we o Fu meus escas Tim om o P7 13 Limits of deviation 0 0 20 0 a 20 Jo P7 14 Close loop adjustment 0 Forward 1 X characteristic 1 Reverse Note relationship between reference temperatu
111. tate Program Exit Enter or exit programming state P3 45 0 jog running Jog Reverse run P3 45 1 reverse running Increase Increase data or function code Decrease Decrease data or function code T In editing state press this key to select the bit to be changed in other state press this uit key to see the monitor parameters Save switch In program state press this key to enter the next menu or saving the parameters Analog potentiometer When P0 01 0 adjust analog potentiometer to change the inverter s output frequency 30 V5 series inverter 3 2 3 Fucntion description of LED and indicator The operation panel consists of 4 bits 8 segments LED 3 unit indicators and 3 state indicators The three unit indicators have 6 different combinations and each combination corresponds to one type of unit while settting parameters The relationship between the combination of the indicators and the unit are shown in Fig 3 3 Hz r Hz O Hz He rU Hz i AS O 2101 AS O4 As 04 AS oS tho Selo Pele ola fy le fs e no A y Hz m z unit e On O Of Fig 3 3 Unit represted by combination of the indicators 3 state indicators locate above the LED display on the operate panel From left to right are forward indicator FWD reverse indicator REV alarm indicator ALM The functions of these indicators are shown in Table3 1 Table 3 1 Functions of status indicators LED display Display inverter s current status parameters and sett
112. ter please pay attention to Explosion risk of capacitor The capacitors in the main circuits may explode when they are burned Waste gas when plastic parts are burned Poisonous gas may be generated when front panel 1s burned Dispose method Please dispose as industrial rubbish VB3 V 5 V BS series inverter 1 Product Instruction 1 1 Product overview V3 F5 series inverter is produced by Thinget Co Ltd with high performance easy operating and low noise It is a innovative product with a series advanced and practical running and control functions such as practical PI flexible input and output terminals parameter modification online fixed length control traverse operation RS485 control bus mastering It provides OEM customers with high integrated reliable cost effective solution Name Designation Rules 3P7 FT Max Suitable Motor s Capacity 011 11KW 1P5 1 5KW Inverter Series Voltage Level And so on V5 VVVF vector control 2 220V P Stands for radix Point VB5 VVVF vector control 4 380V VB3 VVVF control mini type B means black cover VB3 only has 220V level types V5 VBS5 series frequency inverter has 220V and 380V voltage levels Suitable motor capability is from 0 4KW to 55KW Please note 220V level types have no vector control Rated capacity KVA Rated output current A Suitable motor KW 220V single phase 14 0 Three pahse 1 2 Product technical specification 1 Technical specifi
113. ter s PE terminal then ground the point near the inverter 4 The grounding cable of inverter s PE terminal should be connected to ground directly It can t connect to other devices grounding cables 5 Don t put the signal cables in parallel with the power cables R S T or L N with U V W or bundle these cables together at least 20 60 cm distance shoule be kept related with power current If the signal cables and power cables needed to be intersected they should be vertical to each other as shown in Fig2 12 Power supply or motor cable Signal control cable Fig 2 12 Wiring requirement of system 6 The weak electricity grounding cable such as control signal and sensors should be separated with strong electricity grounding cable 26 VB3 V5 VBS5 series inverter 7 Do not connect other devices to inverter s power input terminals R S T or L N 27 V5 series inverter 3 Operating Instructions 3 1 Run the inverter 3 1 1 Command channel for inverter running We can control the inverter s START STOP JOG and other running actions by three command channels 1 Operation panel Control b Mm and 2 Control terminals Use FWD REV COM to form 2 wire control or use one terminal of X1 X6 and FWD REV to form 3 wire control 3 Serial port JOG KW keys on the operation panel default setting The operations such as START STOP can be controlled by other devices which can communicate with the
114. ti function digital output E optical coupling isolation output Open collector terminal Refer to output terminals Multifunction output l I voltage range 9 30V output terminal function description of terminal terminal max output current 50mA function parameters P4 10 for details usage please refer to P4 10 common terminals COM Multi function digital output terminal Open collector Refer to output terminals function Output frequency range Decided Pulse output terminal pulse output description of terminal function by function code P4 21 highest terminal parameters P4 20 P4 21 for details 20KHz common terminals COM Input voltage range O 10V input Analog input analog voltage input V resistance 47K reference ground GND accuracy 1 1000 Analog current voltage input Input voltage range 0 10V input voltage and current are selected by resistance 47K Analog input CI jumper JP3 and the default is Input current range 4 20mA input current resistance 500 reference ground GND accuracy 1 1000 Analog voltage current ouput Analog input They are selected by jumper JP2 Analog output Voltage output range 0 10V and the default 1s voltage which can AO IN Current output range 4 20mA indicate 7 values reference Analog output ground GND EWD Forward Forware reverse digital command Optical coupling isolation input Running control running Refer t
115. tically and then restart after the reference holding time set by P5 08 During the holding time of restart the inverter will not start even if you input running command while if you input stop command the inverter will stop detecting and restarting P509 Auto reset times of fault Ranges 0 10 0 P510 Autoreset interval of fault Range 0 5 20 0S ses When the inverter is in running process it may occur fault and stop output by accident for overload fluctuating To avoid the pause of the device you can use auto reset times of fault In the reseting process inverter will restart with detecting function If the inverter can not reset to running successfully in the reference times fault protection will be enabled and output will be stopped Note 1 When use this function make sure that it is permissible by device and there is no substantiality fault with inverter TI V5 series inverter 2 This function is disabled with the fault protection caused by overload and overheat 4 2 7 Fault recording parameters CGroup P6 P6 11 6 latest fault record Ranges 0 23 0 no fault 17 17 E 01 E 17 fault referto chapter 5 for fault types PO Setting frequency of previous fault Ranges 0 upper limit of frequency Peas DCinjectiong bus voltage of previous fault Raw OA 4 2 8 Close loop control parameters Group P7 Output frequency of previous fault Ranges 0 upper limit of frequency po Analog feedback con
116. to the output circuits The Inverter may be damaged or internal parts burnt if these devices are connected Do not connect electromagnetism switch electromagnetism contactor to output circuit When the inverter 1s running with load the electromagnetism switch and electromagnetism contactor will generate inrush current which will cause inverter s over current protection Do not disassemble the whole front cover as disassembling the top front while wiring 1s ok Otherwise inverter internal parts may be damaged Maintenance and Inspection Do not touch the inverter terminals as they may carry high voltage Otherwise an electric short may occur Make sure to have protective cover Always have the protective cover in place when power 1s being supplied to the Inverter When attaching the cover please with the power turns off Otherwise an electric short may occur Maintenance inspection must be performed only by authorized personnel Otherwise an electric short may occur A CMOS IC 1s used in the control board Handle the control board and CMOS IC carefully The CMOS IC can be destroyed by static electricity if touched directly 2 Do not change the wiring or remove connectors or the Digital Operator during operation Otherwise The devices may be damaged O Usage Precautions gt Constant torque low speed running When the inverter outputs to a common motor at low speed for a long term the output rated torque
117. tor resistance of motor Ranges 0 001 50 000 Q inverter s model PA 01 PA 10 are set as motor parameters which have default setting dependent on inverter s modle by the factory you can reset these parameters according to the motor parameters of yours PA 01 PA 10 are used for vector control which should be input correctly so as to realize the expecting effect Over current protection coefficient of PA 11 Range 0 15 torque In vector control this parameter is used to control torque current to avoid over current 0 15 correspond to50 200 PA 12 Percentage adjustment coefficient of speed dev Range 507 120 87 V5 series inverter deviation Integral adjustment coefficient of speed PA 13 Ranges 100 500 In vector control PA 12 PA 13 are used for control motor speed Adjust the two parameters can realize better effect for motor speed control PA 14 Vector torque boost Ranges 100 150 In vector control this parameter is used for boosting motor s output torque You can increase this parameter to boost motor s output torque in the place with too heavy load 4 2 12 Specail application function parameters Group PB PB 00 Jog frequency source Ranges 0 4 0 P3 06 1 Panel potentiometer 2 P0 02 3 VI 4 CI PB 01 selection of forward reverse dead time Ranges 0 1 0 Dead time is enabled According to the value set by P0 05 with the minimum value 0 1S 1 Dead time can be set to 0 no dead time
118. trol To start or stop the inverter via RS485 port Notes The control modes can be controlled by modifying P0 03 while please be careful to use this method during operating 54 V5 series inverter The unit s place of this parameter is active with panel control mode to operate jog Unit s place of LED 0 Jog forward in panel control mode 1 Jog reversein panel control mode Ten s place of LED 0 Reverserunning is permissible 1 Reverse running is prohibit The inverter will stop output when reverse command is input P905 Run forward reverse dead time Ranges 0 0 120 0s 94s It is the transition time at zero frequency time when the inverter switching its running direction as shown in Fig 4 1 as t Output Frequency Fig 4 1 Run forward reverse dead time P0 06 Max output frequency Ranges 50 00Hz 500 0Hz 50 00Hz P0 07 Basic running frequency Ranges 1 00Hz 500 00Hz 50 00Hz P0 08 Max output voltage Ranges 1 480V The max output frequency 1s the highest permissible frequency of the inverter as shown in Fig 4 2 Basic running frequency is the lowest frequency when the inverter output the highest voltage and it is usually rated frequency of the motor as shown in Fig4 2 as FB The max output voltage 1s the relevant output voltage when the inverter output basic running frequency and it 1s usually rated voltage of the motor as shown in Fig 4 2 as Vmax Output Voltage may HO P u skoro iii l oa O
119. trol system Reference pressure is input via VI and feedback value 4 20mA of pressure sensor is input to inverter via CI Also there is an internal PI adjustor to form analog close loop control system as shown in Fig4 32 Circuit breaker Vs A S Output R U 7m Power r S V MI 4 Pee Pressure i eh E OT wW g r i sensor i Il E Forward Reverse J TFWD 1 29 command Reference RT 10V 13KY 1 Vi p 9GND Fig 4 32 Analog feedback control system with internal PI Principle diagram of inverter s internal PI is shown below lt i i Reference A aif Close loop Close loop adjustment CAT adjustment i output P7 06 P7 08 characteristie Integral 4 eee HUSA gain KI P7 11 Feedback adjustment P7 07 P7 09 Fig 4 33 PI block diagram Close loop reference feedback limits of deviation proportional and integral parameters which are as same as common PI 78 V5 series inverter adjustment are defined in P7 01 P7 11 The relationship between reference and feedback are shown in Fig4 34 thereinto 10V corresponds to 100 of reference and 20mA corresponds to 100 of feedback The aim of reference adjustment and feedback adjustment is to confirm the corresponding relationship and dimension of unification as shown in Fig 4 33 If the motor s speed is required to increases with the reference speed this kind of control characteristic 1s
120. utput Frequency FL FBFH Fmax Fig 4 2 Characteristic parameter FH FL are defined by P0 19 and P0 20 as upper limit of of frequency and lower limit of frequency T In order to compensate the torgue drop at low freguency the inverter can be boost the output voltage so as to boost the torque the torque boost of constant torque curve and square torque curve are shown in Fig 4 3 as a b 55 V5 series inverter Output Frequency Fz FB Vb Manual torque boost voltage Vmax I Max output voltage Fz Cut off frequency for torque boost FB Basic running frequency a Torque boost of constant torque curve Output Voltage Output Frequency Fz F Vb Manual torque boost voltage Vmax Max output voltage i as Fr Cut off frequency of torque boost FB Basic runninz frequency b Torque boost of square torque curve Fig 4 3 Torque boost Cut off frequency of torque boost Range 0 00Hz Basic running frequency 25 00Hz This function defines the cut off frequency of torque boost as shown in Fig 4 3 as Fz Then cut off frequency 1s suitable for any V F curve defined by P0 02 Torque boost mode Ranges 0 1 0 Manual torque boost Torque boost voltage 1s defined by parameter P0 09 The boost voltage 1s fixed while motor will be easily magnetism saturation with light load 1 Auto torque boost Torque boost voltage will change with the motor stator s current changes T
121. y Press cS key to display monitor parameters in b group First display the parameter No then shift to display parameter value automatically in one second The shift method is shown below in Fig 4 7 ius Set Output Output freguency voltage current Output freguency LU b Button operation ls ls Generatrix Set length voltage E Fig 3 7 Setting the parameters in running status 1 State parameter can only display seven parameters from b 00 to b 06 with factory setting you can view other status parameters by changeing P3 41 and P3 42 ENTER 2 When you want to view status monitor parameter press Rn can shift to default monitor parameter display status The default monitor parameter in stopping states is setting frequency and in running states is output frequency 2 Function parameter Take the following as an example reset function parameter P3 06 from 5 00Hz to 8 50Hz 33 V5 series inverter Display ENTER ENTER ES nn O m EE EB Parameter Enter nelect Confirm Select Confirm Modify key displayed editing function parameter parameter parameter parameter operation in stopping status to parameter group to enter P3 06 enter level 3 select status display P3 level 2 menu menu position level 1 mn 0500 wu ENTER PR XE DATA EMENN 57 Exit Back to saving the Modify Modify Modify level 1 menu modified value parameter parameter parameter back to level 2 value value t valu
122. ytes 16 bits it 1s added to the message after calculating when added the first 1s low byte and the second is high byte therefore the last byte of the sended message is high byte Then the receiving device cauculate CRC which has received message again and compared it with the value in CRC field If the two values are not the same the device will take this message as fault and abandond it without any responses and then receive next frame data Please refer to MODBUS protocol instruction for calculate method of CRC verification 7 3 3 Communication parameter Parameter address Internal reference GGnnH GG stands for parameter group nn stands for parameter No parameters 0001H Running command Forward 0002H Forward command 0003H Reverse command 2000H Command to inverter 06H 0009H og stop command 000AH Fault reset command 98 att 2001H Set ee command via port 21 021000000 Read inverter s fault Readinverter s fault parameter 00000000 2103H Read inverter s output frequency 2104H Read inverter s output current 2105H Read inverter s bus voltage 2106H Read inverter s output voltage 2107H Read motor s speed 2108H Read module temperature 2109H Read analog input via VI 210AH Read analog input via CI 210BH Read inverter s software version I O terminal status Bit0 XI Bitl X2 Bit2 X3 V5 series inverter 0 no RI inverter s status BITO map io indicate 0

Instruction Manual for VB3 i VB5 series

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