E5-H PID closed loop control frequency inverter manual
Contents
1. Function code Function code name Facto ry Setting range Unit Property Function code selection User er setting setting 0 Only enabled when main input is P0 05 open loop digital frequency input 1 Adjustment is valid 2 Adjustment is invalid Thousands place 0 With integral function 1 Without integral function Pb og OPerationpanel AV 20o o1 500 s o 0 1 50 0s integral rate Ones place Action upon power off 0 Save upon power off 1 Clear upon power off Tens place Action upon stopping 0 Hold upon stopping 1 Clear upon stop 2 Clear upon standby Terminal UP DN digital Hundreds place Terminal UP DN Pb 10 regulating frequency 0001 0000 1221 o adjustment setting control 0 Only enabled when main input is P0 05 open loop digital frequency input 1 Adjustment is valid 2 Adjustment is invalid Thousands place 0 With integral function 1 Without integral function Po 11 Terminal UP DN integral 20 o1 500 s o 0 1 50 0s Ones place Arrive continuous running Acti ngak time time jais place Arrive summation running ime 0 Continue running 1 Stop and alarm Pb 13 Continuous runningtime 9 9 0 0 6553 5 min o 0 6553 5min Pp 14 Summation runningtime 99 0 0 6553 5 min o 0 6553 5min reference Restart automatically 0 No action Pb 15 after power resumes 0 O 1 x 1 Action narmal Pb 16 Waiting time for restart 0 5 0 0 20 0 s o 02. Select open loop main reference mode P0 04 For details refer to the function description of P0 04 in Chapter 6 Multi frequency reference function of terminal X For details refer to the Setting correct function description of P5 00 to P5 06 in P4 22 P4 36 Chapter 6 Multi voltage reference function of terminal X For details refer to the Setting correct function description of P5 00 to P5 06 in P4 15 P4 21 Chapter 6 pee Setting P6 00 P6 20 For details refer to the function lt Select analog channel description of P6 00 to P6 20 in Chapter 6 en loop auxiliary reference Select open loop auxiliary reference mode P1 00 For details refer to the function description of P1 00 in Chapter 6 Bee y Setting P6 00 P6 20 For details refer to the function gt lt Select analog channel gt description of P6 00 to P6 20 ae ee in Chapter 6 NY y Select open loop main and auxiliary relation calculation P1 01 For details refer to the function description of P1 01 in Chapter 6 Running command Terminal control Setting P0 0 according to Setting P0 06 0 gt running direction 0 Forward 1 Reverse Select function of X control terminal For details refer to the function description of P5 00 to P5 06 in Chapter 6 Setting P0 06
3. Function setup Meaning Function setup Meaning 0 ai eedi that the inverter Ie 1 Frequency arrival signal FAR 2 Frequency level detection signal 3 Frequency level detection signal 1 FDT1 2 FDT2 Pre warning signal indicating inverter Stop and lock due to under voltage 4 5 or motor overload OL LU 6 Stop due to external failure EXT 7 Frequency upper limit FHL 8 Frequency lower limit FLL 9 Inverter is running at zero speed 10 Preset counting value action 1 Counting value arrival action 42 Reserved 13 i Inverter ready for operation 14 Inverter failure 15 Inverter reports alarm 16 Reserved 17 Arrive summation running time 18 Arrive continuous running time 19 Output X1 Chapter 6 Parameter Description 79 V amp T Technologies Co Ltd http www EcoDriveCN com Function setup Meaning Function setup Meaning 20 Output X2 21 Reserved Zero current detection arrival relative ae 22 K 23 Stop command indication to motor 24 31 Reserved 32 Sleeping state indication 33 47 Reserved 0 Signal indicating that the inverter is running RUN The signal is enabled when the inverter is running 1 Frequency arrival signal FAR When the deviation between the output frequency and the setup frequency of the inverter is in the setup range of the frequency arrival detection width the signal is enabled Refer to P7 19 for details 2 Frequency level detection signal FDT1
4. X1 X2 signal after delay X1 X2 terminal delay time t X1 X2 signal pulse width tw2 Fig 6 13 X1 X2 terminal delay Time Note The signal can be identified only when the X1 X2 signal pulse width larger than X1 X2 terminal delay time See Fig 6 13 ty can be identified and tye will be ignored Startup stop mode Selection 0 3 0 P5 11 is used to set the mode of controlling the startup and stop of the inverter with FWD and REV terminals in the terminal running command reference mode 0 Two line 1 Fwo FWD REV Start up and stop command Inverter REV Stop COM Reverse rotation Forward rotation Fig 6 14 Two line running mode 1 Stop 1 Two line 2 FWD REV Start up and Stop FWD Stop Inverter REV Stop COM Forward rotation Reverse rotation Fig 6 15 Two line running mode 2 Chapter 6 Parameter Descript ion 74 V amp T Technologies Co Ltd http Awww EcoDriveCN com 2 Three line 1 K1 a FWD K2 a a Inverter ai Ss Xi i COM Fig 6 16 Three line running mode 1 The terminal Xi i 1 4 has set 4 Three line mode rotation control function Fig 6 16 when K3 is closed FWD and REV controls are enabled when K3 is disconnected FWD and REV controls are disabled and the inverter stop The rising edge
5. Fig 8 2 Main Circuit Insulation Test for E5 H 4T18 5G to E5 H 4T500G Megameter voltage can only be imposed between the public conducting wire of the main circuit and the PE terminal The normal indication value of the megameter is 200M Q or above Chapter 8 Routine Repair and Maintenance 115 V amp T Technologies Co Ltd Appendix A Modbus Communication Protocol 1 Support Protocol Support Modbus protocol RTU format Broadcast address 0 slave address 1 247 248 255 for reservation 2 Interface mode RS485 Asynchronous half duplex LSB sending priority Low byte is after the high byte Inverter communication port A RJ45 default data format 8 N 1 38400 bps http www EcoDriveCN com It is recommended to adopt EIA TIA T568B the lead of port A is defined as 8 Attached Fig 1 RJ45 interface Lead of communication 1 2 3 4 5 6 7 8 portA Signal of 485 communication 5V GND 485 an 485 485 GND 5V portA White White Blu Whit Oran Whit Brow EIA TIA T568A Green 7 e green orange e e blue e brown n White Oran White Blu Whit Whit Brow EIA TIA T568B 9 Green e orange e green e e blue brown n 3 Protocol Format lt ADU aaoo Teens space A of the frame is RUCE Slave address Function code Data Check sun 4 characters or above lt PDU gt through exchange of high low bytes If
6. ecceeeceeeeeeeeeeneeeeeeeeeeseneeeseaeeseeneeeeeneeeeeneeeeeeneeeees 15 3 4 Product Terminal Configurations masisisi erer ue thesnaseaecenedecinecnee nce el 16 3 5 Functions of Main Circuit Terminal i 0 cccccccccaseccsacscscscsssecesecentescecuacceeeseseecpcaceeeesecesasesecaadcnetevadensees 16 3 6 Attention for Main Circuit Wiring 9 7 lemina WANING sae ivecevetestaxasudate seatbobe daseaubt aeiaai aae 3 8 Functions of Control Circuit Terminals ccc ececcceeeeeseceeseeeeeeceseceeeseesseesaeseseesseeseeseeeseeseaeeateaes 21 3 9 Schematic Diagram of Control BOard ccccccsscccsssecesseeccsseeeeseeeecsaeeecsseeeeesseeeesseeeeesaeeeeseeeeesaeeeess 24 3 10 Lectotype of Control Circuit Peripheral Devices 0 cc eccccccccseceesseeecssseeeesseeccsseeecesaeeeeseeeesseeeeens 24 3 11 Description of Jumper FUNCTION c cc ccccecccsseccessseeeesaeeecsseeecsseeeeeseeeccueecesseeceseeeeesaseeeesseeeesaeeeens 24 Chapter 4 Using Instructions of Operation Panel cc cccssseessseeeesseeeesseeeensseeeesseesenssaeenseeeeeees 25 4 1 Introduction to Operation Panel cccccccscccsssccessseecesseeecsseeeeseeeeeseeecesaeeceseeeeseeeeessseeeeseeeesseeeess 25 4 2 Descriptions Of INGICALOMS issvetesscisersieayratiacmianedemieiietenie ce AAA ae 25 4 3 Description of Keys on Operation Panel ccccccssccccssscecsseeecssseeeesseeecsseeecesseeeeseeeeesseesesseeeesseeeess 26 4 4 Menu Style 4 5 Password Operation 4 6 Lock
7. 0x03 Read bytes 1 2 Number of registers Read contents 2 Number of registers Function 0x06 0x41 rewrites single function code or control parameter of the inverter and save it upon power failure not save PDU Part Contents Data Length Byte Range Request Function code 1 0x06 0x41 Register address 2 0x0000 OxFFFF Register data 2 0x0000 OxFFFF Response Function code 1 0x06 0x41 Register address 2 0x0000 OxFFFF Register data 2 0x0000 OxFFFF Appendix A Modbus Communication Protocol 117 V amp T Technologies Co Ltd http www EcoDriveCN com Note if change function code frequently such as change setting frequency repeat suggest use 0x41 command is better than 0x16 prevent from damage inner EEPROM Function 0x10 0x42 rewrites multiple function codes or control parameters of the inverter and save them upon power failure not save PDU Part Contents Data Length Byte Range Request Function code 1 0x10 0x42 Initial address of register 0x0000 0xFFFF Number of register 0x0001 0x0010 Bytes of register contents 2 Number of operating registers Register contents 2 Number of operating registers Response Function code 0x10 0x42 Initial address of register 0x0000 0xFFFF Number of register 0x0001 0x00100 Note 1 In case continuous storage
8. 0 Basic menu mode 1 Fast menu mode 2 Menu mode of non leave factory setting value function codes 3 Menu mode of last changed 10 function codes P0 03 Control operation mode 0 0 Process open loop control 1 Analog value feedback process close loop control P0 04 Open loop main reference mode 0 Open loop digital frequency reference P0 05 1 Al1 analog value reference 2 Al2 analog value reference Chapter 5 List of Parameters 38 V amp T Technologies Co Ltd http Awww EcoDriveCN com Function code Function code name Facto ry Setting range Unit Property Function code selection eae number setting setting Open loop digital te Upper lower frequency limit P0 13 P0 05 frequency reference 50 00 0 00 300 00 Hz o P0 14 Running command 0 Operation panel P0 06 0 0 2 o 1 Terminal reference mode 2 Host computer P0 07 Running direction 0 0 1 o 0 Run forward 1 Run reverse command P0 08 Acceleration time 0 6 0 0 1 3600 0 7 15kW and below 0 1 P0 09 Deceleration time 0 20 0 18 5kW and above 3600 0s P0 10 S curve time 0 0 0 0 3600 0 s o 0 0 3600 0s Maximum output n Upper frequency limit P0 13 P0 11 frequency 50 00 0 01 300 00 Hz x 300 00Hz Maximum output 9 a P0 12 voltage 380 1 480 V x 1 480V n Lower frequency limit P0 14 P0 13 Frequency upper limit 50 00 0 00 300 00 Hz
9. 343 715 151 5 3 0 12 55 E5 H 4T110G E5 H 4T132G E5 H 4T160G 540 890 385 370 855 205 5 4 0 14 85 E5 H 4T185G E5 H 4T200G E5 H 4T220G E5 H 4T250G 700 1010 385 520 977 210 4 0 14 125 E5 H 4T280G E5 H 4T315G 810 1358 425 520 1300 210 4 0 14 215 E5 H 4T355G E5 H 4T400G E5 H 4T450G 810 1358 425 520 1300 210 4 0 14 215 E5 H 4T500G Chapter 1 Introduction to E5 H Series Inverter V amp T Technologies Co Ltd http Awww EcoDriveCN com 1 7 Operation Panel Outline and Mounting Dimension Shuttle type operation panel Button type operation panel Rear view of operation panel V6 DP01 V6 DP02 Fig 1 3 Operation panel outline and mounting dimension Note E5 H 4T7 5G and below power class are equipped with shuttle type operation panel V6 DP01 as standard E5 H 4T11G and above power class are equipped with button type operation panel V6 DP02 as standard 1 8 Pallet Outline and Mounting Dimension V6 DP05 is the mounting pallet when the operation panel is to install on the electric control cabinet The outline and dimension are as follows 80 93 ia ia 2 E ll 1 Pallet V6 DP05 Open pore dimension of pallet Fig 1 4 Pallet outline and mounting dimension Chapter 1 Introduction to E5 H Series
10. 0 Level signal 1 Pulse signal P7 12 Y1 terminal delay time 0 0 0 0 999 9 s o 0 0 999 9s P7 13 Y1 terminal pulse width 0 0 0 0 999 9 s o 0 0 999 9s P7 16 tee terminal delay 0 0 0 0 9999 s o 0 0 999 95 P7 17 red terminal pulse 0 0 o0 9999 s o 0 0 999 9s p7 18 Zero current detection oo go s500 o 0 0 50 0 width P7 1g Frequency arrival 2 50 0 00 300 00 Hz o 0 00 300 00Hz detection width P7 20 FDT1 level upper limit 50 00 0 00 300 00 Hz o 0 00 300 00Hz P7 21 FDT1 level lower limit 49 00 0 00 300 00 Hz o 0 00 300 00Hz P7 22 FDT2 level upper limit 25 00 0 00 300 00 Hz 0 00 300 00Hz P7 23 FDT2 level lower limit 24 00 0 00 300 00 Hz o 0 00 300 00Hz LED ones place Multi function input terminal Xi Virtual terminal effective 0 Real terminal is enabled P7 24 selection 000 os i 1 Virtual terminal is enabled LED tens place Reserved LED hundreds place Y1 Relay Chapter 5 List of Parameters 44 V amp T Technologies Co Ltd http www EcoDriveCN com Function code Function code name pacto ry Setting range Unit Property Function code selection peer setting setting number erminal 0 Real terminal is enabled 1 Virtual terminal is enabled Ones place Multi function input erminal Xi 0 Current through Xi is valid 1 No current through Xi is valid Terminal etfie
11. 0 20mA Chapter 3 Wiring of Inverter 24 V amp T Technologies Co Ltd http www EcoDriveCN com Chapter 4 Using Instructions of Operation Panel 4 1 Introduction to Operation Panel Shuttle type operation panel V6 DP01 4 2 Descriptions of Indicators DIGITAL PANEL Fig 4 1 Display unit of operation panel Key type operation panel V6 DP02 Symbol of i Name Meanings Color Indicator 4 i ris running f n Hz Frequency indicator On Current disp ay parameter is ru i g requency Grean Flash Current display parameter is setting frequency A Current indicator On Current display parameter is current Green Vv Voltage indicator On Current display parameter is voltage Green g Hz A Rotating speed On Current display parameter is rotating speed Green g indicator Flash Current display parameter is setting rotating speed Hz V indicator On Current display parameter is Green Self definable On Flash Current display parameter is self defined see A V ae fai Green indicator description of P2 group Time indicator On Current display parameter is time Green Hz A V a 7 z No unit indicator Off Current display parameter is no unit Multi function key Refer to table 4 1 for using method of multi function keys and MULTI Pree eae Red indicator the meanings of MULTI indicator Running command On Running command is given via operation panel 5 MON reference mod
12. 4 P SEt PRG le 000 3 Assume that the function codes after P0 00 are protected by password and the password is 3 If the password protection is not enabled you can press ESC PRG A to enable the password in last example of P0 00 You can perform the password verification according to the following process Note If you use RS 485 communication mode to perform password verification please refer to the Appendix A The description of register OxFO00 in Modbus communication protocol A ESC 25 00 ERGS Pooo ERGS 0 0 0 0 gt 0 0 0 3 PRGS Po 0o1 gt 25 00 3 Tim 4 8 5 Clear Password For example clear the user password P0 00 PRG PRG PRG al PRG PRG 25 00 gt Pooo gt 0000 gt Pool Fm PO 00 gt 0000 gt P CLr ESC 25 00 kt P0 01 Chapter 4 Using Instructions of Operation Panel 36 V amp T Technologies Co Ltd 4 9 Running for the First Time http www EcoDriveCN com Please follow the procedures to run the inverter for the first time sat Before power up confirm the wiring is correct Yv Setting P0 01 5 restore the factory setting y Setting max output voltage P0 12 and motor basic frequency P0 15 according to motor nameplate AA Setting motor parameter P9 00 to P9 04 according to motor nameplate y Press M key for jog operation v If
13. Al2 The analog feedback close loop control auxiliary feedback mode P1 06 may be selected as follows 0 none 1 Al1 2 Al2 The analog feedback close loop control main feedback and auxiliary feedback calculation P1 07 may be selected as follows 0 Main auxiliary 1 Main auxiliary 2 Auxiliary 50 3 Main auxiliary 50 4 Max 5 Min Note Under the analog feedback close loop control mode the analog main reference analog auxiliary reference analog main feedback and analog auxiliary feedback cannot be set at the same channel 6 3 Key and Display Parameters Group P2 Key lock function selection 0 3 0 It is to realize the locking function of the keys on the operation panel so as to avoid mis operation 0 The keys on the operation panel are not locked and all the keys are usable 1 The keys on the operation panel are locked and all the keys are unusable 2 All the keys except for the multi functional key are unusable 3 All the keys except for the RUN AND STOP RST keys are unusable Note For the effective methods of key locking refer to 4 6 description on key locking and unlocking P2 01 Multi functional key definition 0 8 1 To facilitate the operation the frequent operation can be set on the multi functional key of the operation panel 0 No function 1 Jog function For the jog frequency and jog acceleration deceleration time refer to P3 11 P3 13 2 Emergency shutdown 1 Applicable to the situation that
14. Control features Speed adjustment range 1 100 Speed stabilization o Undervoltage adjustment switching of AC operation grounding protective grounding and DC operation grounding rotation speed tracing torque Key functions limitation multi speed operation up to 16 speeds auto tuning S curve acceleration deceleration slip compensation PID adjustment current limiting control manual auto torque increase current limiting Fieguencyseting moda Operation panel setting terminal UP DN setting host computer quency 9 communication setting analog setting Al1 and Al2 Frequency range 0 00 300 00Hz Startup frequenc 0 00 60 00Hz Product p Tea i functions Acceleration deceleration 0 1 36000s time Powered braking g i E capability Braking unit action voltage 650 750V DC braking initial frequency 0 00 300 0Hz DC braking current Constant torque 0 0 120 0 Variable torque 0 0 90 0 DC braking time 0 0 30 0s there is no initial waiting time for the DC braking to realize quick braking Magnetic flux braking Ongoing action and no action upon deceleration as option no action upon function deceleration at default The unique multifunctional key is used to set the frequently used operations Multifunctional M key JOG emergency shutdown running command reference mode switch menu switching Multible menu modes Basic menu mode fast menu mode Menu mode of non leave factory value UR u function codes Menu mode of
15. END D J Appendix B Control Mode Setting Process 127 V amp T Technologies Co Ltd a START Parameter identification for details refer to setting process for parameter auto tuning under V F control in appendix B e feedbac 3 Setting Process for Closed Loop http www EcoDriveCN com Multi voltage reference function of terminal X For details refer to the function description of P5 00 to P5 06 in Chapter 6 Setting correct P4 15 P4 21 gt Select process close loop main reference mode P1 02 For details refer to the function description of P1 02 in Chapter 6 Select A 2 channel Fo nalog Setting P6 00 P6 20 For details refer to the function description of P6 00 to P6 20 in Chapter 6 uxiliary reference Y Select process close loop auxiliary reference mode P1 03 For details refer to the function description of P1 03 in Chapter 6 Setting P6 00 P6 20 For details refer to the function description of P6 00 to P6 20 in Chapter 6 v Select process close loop reference main and auxiliary relation calculation P1 04 For details refer to the function description of P1 04 in Chapter 6 Select process close loop main feedback mode P1 05 For details refer to the function description of P1 05 i
16. Input filter Filtering cable ome M M N ae Fo Fig 3 4 Noise current illustration When the input noise filter is installed the wire connecting the filter to the inverter input power end shall be as short as possible The filter enclosure and mounting cabinet shall be reliably connected in large area to reduce the back flow impedance of the noise current lg The wire connecting the inverter and the motor shall be as short as possible The motor cable adopts 4 core cable with the grounding end grounded at the inverter side the other end connected to the motor enclosure The motor cable shall be sleeved into the metal tube The input power wire and output motor wire shall be kept away from each other as long as possible The equipment and signal cables vulnerable to influence shall be kept far away from the inverter Key signal cables shall adopt shielding cable It is suggested that the shielding layer shall be grounded with 360 degree grounding method and sleeved into the metal tube The signal cable shall be kept far away from the inverter input wire and output motor wire If the signal cable must cross the input wire and output motor wire they shall be kept orthogonal When analog voltage and current signals are adopted for remote frequency setting twinning shielding cable shall be used The shielding layer shall be connected to the grounding terminal PE of the inverter and the signal ca
17. The larger forced saving rate settings the lower inverter automatically determines the frequency upper limit Pb 23 Parameters copy 0 5 0 Parameters copy function can be realized through operation panel 0 No operation When upload or download completed the parameter restores automatically to 0 1 Upload parameters Press PRG button to upload parameters to the operation panel after setting and will display percentage of copy process when indicating LoAd 2 Download parameters without motor s parameters Press PRG button to download parameters to the inverter after setting and will display percentage of copy process when indicating LoAd Parameters of motor P9 Group will not be downloaded to the inverter with this operation 3 Download parameters all users parameters Press PRG button to download parameters to the inverter after setting and will prompt percentage of copy process when indicating CoPy 4 Parameters blocking enabled upload not allowed Avoiding deleting parameters that have been copied to the operation panel if you upload data unconsciously again After setting this function HoLd will be displayed on the operation panel when conducting parameters upload if you do not carry out unblocking parameters blocking function upload allowed 5 Unblocking parameters blocking upload allowed allowing uploading parameters to the operation panel after setting Note After completing the above se
18. and Write W Relative address of the OxFO80 function code See Attached Table 1 R W OxF081 Current value 0 65535 R W 0xF082 Upper Limit 0 65535 R 0xF083 Lower Limit 0 65535 R Factory default value of the 0xF084 function code 0063393 It can write the function code No into 0xF080 by reading and writing multiple register commands 0x17 firstly and then read several attributes of this function code 6 CRC16 Function unsigned int crc16 unsigned char data unsigned char length int i crc_result Oxtfff while length crc_result data for i 0 i lt 8 i if cre_result amp 0x01 crc_result crc_result gt gt 1 Oxa001 else crc_result crc_result gt gt 1 return crc_result crc_result amp Oxff lt lt 8 crc_result gt gt 8 Exchange CRC16 check sum and bytes at higher and lower orders Appendix A Modbus Communication Protocol 122 V amp T Technologies Co Ltd 7 Case Study of Modbus Communication Control http www EcoDriveCN com Start No 1 inverter to perform forward rotation and set the rotation velocity to 50 00Hz indicating 5 000 internally as per the following commands Address Function Register Number Bytes Register Check Sum code Address Contents Request 0x01 0x10 0x8000 0x0002 0x04 0x0001 0x1388 OxCEFF Response 0x01 0x10 0x8000 0x0004 None None OxE80A Read the operating frequency of No 1 inverter and the res
19. regenerative braking happens for load abrupt changes when the motor operates DC bus voltage of inverter will rise thus may result over voltage protective motion The function of voltage adjustment is in this case decrease the braking torque to control the DC bus voltage to prenvent over voltage alarm through adjust output frequency and auto prolong deceleration time Note If energy consumption braking is applied and braking unit PA 09 1 has been set and applied the function becomes invalid Tens place Under voltage adjustment When power supply voltage decreases or instantaneous power off DC bus voltage will also decrease The function of under voltage adjustment is decrease the motor rotating speed through decrease the output frequency the load inertial energy feedback to DC side to keep DC voltage higher than the under valtage value avoid stop by under voltage Under voltage function is very effective in applications such as centrifugal pump and fan Hundreds place Overmodulation This function is used to increase output voltage of inverter and ensure the output capability of the inverter under low grid voltage or under heavy load Display of operation panel Over voltage adjustment 0 No action 1 Action Under voltage adjustment 0 No action 1 Action Overmodulation 0 No action 1 Action PA 07 Energy saving coefficient 0 50 0 By setting PA07 ensure that output voltage will decrease automatically as the loads de
20. selected in different terminal status by defining the multi functional terminal X acceleration deceleration time selection function 13 14 The meaning of the three groups of acceleration deceleration time is the same as P0 08 and P0 09 az D P4 17 P4 20 pe It can be used as the process open loop frequency reference or analog feedback close loop digital reference Multi section digital voltage reference 1 Multi section digital voltage reference2 Multi section digital voltage reference3 Multi section digital voltage reference4 Multi section digital voltage reference5 Multi section digital voltage reference6 Multi section digital voltage reference7 0 0 0 00 10 00 V 1 00V 0 10 00 V 2 00V 0 00 10 00 V 3 00V 0 00 10 00 V 5 00V 0 00 10 00 V 6 00V 0 00 10 00 V 8 00V 0 00 10 00 V 10 00V Different digital voltage reference is selected in different terminal status by defining the multi functional terminal X multi section analog input terminals 1 3 ON means that the terminal is enabled OFF means that the terminal is disabled Multi stage Multi stage Multi stage Setting frequency digital voltage digital voltage digital voltage Process open loop Process PID close input terminal 3 input terminal 2 input terminal 1 control loop control OFF OFF OFF Open loop frequency Close loop digital P0 05 voltage reference OFF OFF ON Multi section
21. 0 20 0s Pb 17 Preset frequency 0 00 0 00 300 00 Hz x 0 00 300 00Hz Pp 18 Preset frequency 0 0 0 0 3600 0 s x 0 0 3600 0s operating time Bese Upper limit of zero 0 00 0 00 300 00 Hz x 0 00 300 00Hz frequency operation Lower limit of zero Pb 20 frequency operation 0 00 0 00 300 00 Hz x 0 00 300 00Hz 0 Basic running mode 1 Pre overload decelerate frequency Pb 21 Control mode selection 0 0 3 j x Sa energy saving mode for fan and pump 1 square type load 3 Force energy saving mode 2 cube type load Pb 22 Forced energy saving 0 0 0 50 0 x Only valid when Pb 21 2 or Pb 21 3 rate reference Chapter 5 List of Parameters 48 V amp T Technologies Co Ltd http www EcoDriveCN com oncion Facto User code Function code name ory Setting range Unit Property Function code selection gt setting setting number 0 No function 1 Parameter uploading 2 Parameter downloading without motor parameters 2 3 Parameter downloading with motor Pb 23 Parameter copy 0 0 5 x parameters 4 Parameter storage enable upload is prohibited 5 Parameter storage disable upload is allowed Group PC Communication Parameters Fgh 4 4800 bps 5 9600 bps PC 00 es baud 6 4 8 bps o 6 19200 bps 7 38400 bps 8 57600 bps 0 1 8 1 format no parity PC 01 Data format 0 0 2
22. 0 1 60 0s detection time A LED ones place Output ground short paie faut shield and alarm 0020 o000 2222 x circuit 9 LED tens place Power failure during Chapter 5 List of Parameters 46 V amp T Technologies Co Ltd http www EcoDriveCN com Function code Function code name Facto ry Setting range Unit Property Function code selection User setting setting number running process LED hundreds place Input power error LED thousands place Output phase ailure 0 Fault is not shileded stopped upon ault 1 Fault is not shielded non stop upon ault 2 Fault is shielded no alarm and no stop LED ones place EEPROM error LED tens place Relay contact Fault shield and alarm open close failure Ele attribute setting 2 pooo 000017 eee i LED hundreds place Temperature sampling disconnection LED thousands place Reserved LED ones place 10V output error LED tens place Analog input error LED hundreds place Motor over emperature PTC LED thousands place Communication Fault shield and alarm ailure 1 operation panel 485 PAIS attribute setting 3 2000 0000 2222 l 0 Fault is not shileded stopped upon ault 1 Fault is not shielded non stop upon ault 2 Fault is shielded no alarm and no stop Fault locking function 0 Fault is not locked PA 20 selection ia 1 Fault i
23. 09 Acceleration time and Mi ae deceleration H0 12 deceleration time auto 1 0 3 s o y 61 Pa san 10 switch selection 2 Acceleration time and deceleration time 2 P4 11 and P4 12 3 Acceleration time and deceleration time 3 P4 13 and P4 14 0 Sleeping and wake up mode according H0 00 setting H0 30 a N up 0 O 1 o 1 Sleeping and wake up mode according function code of H0 31 to H0 34 setting Wake up pressure 2 H0 31 referenca 0 00 0 0 10 00 Vv o 0 00 10 00V Sleeping pressure 5 H0 32 referenco 0 00 0 0 10 00 vV o 0 00 10 00V H0 33 Wake up delay time 0 0 0 0 3600 0 s o 0 0 0 0 3600 0s H0 34 Sleeping delay time 0 0 0 0 3600 0 s o 0 0 0 0 3600 0s Group A0 User defined Function Code Displayed hidden Zone Parameters Password of displayed hidden zone 2 o 20 09 of user defined function 1 DsiEEE Oe batle code Displayed hidden A0 01 function 1 of user FFFF 0 FFFF o 0 FFFF defined function code Displayed hidden A0 02 function 2 of user FFFF 0 FFFF o 0 FFFF defined function code Chapter 5 List of Parameters 51 V amp T Technologies Co Ltd 5 3 User s Connection Diagram http www EcoDriveCN com 1 2 B1 B2 R L1 U T1 S L2 V T2 T L3 W T3 Main circuit oS 59 24V PLC x1 AQ1 Control circuit X2 SL x3 AOQ2 xa GND COM Do 10V eRe RB All RA GND Al1 Al2 AO1A02 T t ot od one Al2 Y1 D vvvyv COM gt Chapter 5 List o
24. 1 m Running command communicate control set P0 06 2 4 ee J yr NEXT PAGE NO O O J Appendix B Control Mode Setting Process 126 V amp T Technologies Co Ltd http www EcoDriveCN com Open loop setting process continued p JOIN THE PAGE 3 a Select multi acceleration deceleration time _ Select function of X terminal acceleration deceleration time For details refer to the function description of P5 00 to P5 06 in Chapter 6 Setting correct P4 09 P4 14 Setting P0 08 and P0 09 eae ae y lt lt Begin to run from the startup fa fequeney Setting P3 00 0 e _ Y First DC braking after egin to run from the startup gt gt frequency lt Setting P3 00 1 DC braking current P3 01 and retention P3 03 and startup frequency time of braking keep Setting startup frequency retention time P3 04 NY Rotation speed tracing startup setting P3 00 2 Setting P3 05 0 Setting P3 05 1 DC braking stop setting P3 05 2 setting P3 06 P3 07 and P3 08 properly For the meaning refer to Chapter 6 Parameter Description 4 Setting P3 09 1 Setting PA 09 1 e Ny z
25. Factory 0 65535 0 65535 Chapter 5 List of Parameters 49 V amp T Technologies Co Ltd http www EcoDriveCN com Function code Function code name Facto ry Setting range Unit Property Function code selection user setting setting number d1 11 Reserved Factory 0 65535 id 0 65535 Group d2 Use of Display Parameters d2 oo Temperature of heatsink oo o 0 100 0 2c 0 0 100 0 C d2 01 Terminal count value 0 0 65535 i 0 65535 Al1 percentage after d2 02 curvilinear 0 0 0 0 100 0 7 0 0 100 0 transformation Al2 percentage after 2 03 curvilinear 0 0 0 0 100 0 0 0 100 0 transformation Operation panel A V z o d2 06 digital adjustment value 3 005595 069395 Terminal UP DN digital 7 d2 07 adjustment volume 0 0 65535 0 65535 User continuous s d2 08 running time 0 0 65535 min 0 65535 User summation A 7 3 d2 09 running time 0 0 65535 min 0 65535 Reference voltage 1 k A 7 6 d2 10 oarcentage Factory 0 0 100 0 A 0 0 100 0 Reference voltage 2 a m A 6 d2 11 pe centage Factory 0 0 100 0 A 0 0 100 0 1 Al1 exceeding limit d2 12 Al failure source display Factory 0 5 i 2 Al2 exceeding limit 3 5 Reserved C rrent detection talura 2 Phase W abnormal d2 13 i ea i A lom tary Factory 0 6 4 Phase V abnormal u Play 6 Phase U abnorma Frequency corresping x R 2 14 to mo
26. Heatsink fan ventilation Visual check block the air duct In the allowable operating range Input current Amperemeter Refer to the nameplate In the allowable operating range Input voltage Voltmeter Refer to the nameplate In the rated value range It can be Output current Amperemeter overloaded for a short while Output voltage Voltmeter In the rated value range Special test instrument There are no overheat fault and Overheat Mot and smell burning smell oror Sound Listen There is no abnormal sound Vibration Special test instrument There is no abnormal oscillation Chapter 8 Routine Repair and Maintenance 113 V amp T Technologies Co Ltd 8 2 Periodic Maintenance http www EcoDriveCN com It needs to perform periodic inspection on the inverter once every three to six months according to the application environment and work conditions Item Inspection Contents Inspection Means Criteria idi The screws are tightened and the Main circuit terminal Screwdriver sleeve cables are kept well i The screws are tightened and the PE terminal Screwdriver sleeve cables are kept well ar n F The screws are tightened and the Control circuit terminal Screwdriver cables are kept well Reliability of internal connections and ae and Connection is firm and reliable Inverter connectors anes Expansion card Screwanverand Connection is firm and reliable connector hands Mounting screws Sc
27. Inverter 7 V amp T Technologies Co Ltd http Awww EcoDriveCN com 1 9 Braking Resistor Lectotype Braking resistor unit Inverter model Braking unit Mini Braking Power Resistor Fae Qty torque limit resistor E5 H 4T0 75G 110W 7500 1250 1 130 E5 H 4T1 5G 260W 400Q 1000 25 E5 H 4T2 2G 320W 2500 1000 35 E5 H 4T3 7G Built in 550W 1500 66 70 35 as E5 H 4T5 5G standard 800W 1000 66 70 35 E5 H 4T7 5G 1070W 75Q 66 70 1 130 E5 H 4T11G 1600W 50Q 250 35 E5 H 4T15G 2000W 400 250 1 125 Chapter 1 Introduction to E5 H Series Inverter V amp T Technologies Co Ltd http Awww EcoDriveCN com Chapter 2 Inverter Installation 2 1 Environment for Product Installation Avoid installing the product in the sites with oil mist metal powder and dust Avoid installing the product in the sites with hazardous gas and liquid and corrosive combustible and explosive gas Avoid installing the products in salty sites Do not install the product in the sites with direct sunlight Do not mount the product on the combustible materials such as wood Keep the drilling scraps from falling into the inside of inverter during the installation Mount the product vertically in the electric control cabinet mount the cooling fan or air conditioner to prevent the ambient temperature from rising to above 45 C For the sites with adverse environment it is recommended to mount the
28. Unlock Keys 4 7 Operation Panel Display and Key Operation cccccccccccsseccessseeecseeecsseeeecsseeeeseeeeeseeeesseeeesseeeeens 34 4 8 Operation EXAM ple tis seccessscessceccsescveccesecca coleacesciavecesvedcsen cca sucanisunscvecceedeoscitnsecvedaseivesduccescciacrusareeass 35 4 9 Running for the First Time 0 ccccccccsscccssececsseeecesseeecaeecesseeecesaeeeessseeesseeeeesseeeeesseesesseeeeesseeeeseeeees 37 Chapter 5 List of Parameters jo iiieisississsssoiciessisassacccicsscavsaccavsacecavacccescuacatscascssascdascaascatasccavacacarwnacanacts 38 5 1 List of Basic Menu Function COdeS ccccccccssceessseeecseeecseeeesaeeseaeeecesaeecesseeeeseeeeesaeeeeesseeeesseeeens 38 V amp T Technologies Co Ltd http www EcoDriveCN com 5 3 User s Connection Diagrams a aa A a AAA EEEE REEE EEE a 52 Chapter 6 Parameters DeSCription ccccssscessseeessseeeesseecesssesensseeeessseeeessaeeeeeeeeeseaeeeesneseeenanenens 53 6 1 Basic Function Parameter Group PO eiaa dadada ariaa teia iei 53 6 2 Main and Auxiliary Reference Parameter Group P1 eccceseeeeeseeeeeeeeeeeeseneeeeeeaeeeseneeeseeeneeeeeneeeees 57 6 3 Key and Display Parameters Group P2 cecsceeeeeeeeeeneeeeeeereeeeeeeeeeeaeeeseaeeeseeaeeeeeneeseeaeeeeeaneeeeeneeeess 6 4 Startup stop Parameter GroulpPS ccessccdecsesevsceavenssanaecversivenserenctarevacciibestuenh deters domientendeed 6 5 Multi section Parameter Group P4 csccccececececa
29. be executed and whether the motor overload protection employs current mode or sensor mode 0 Motor current mode Overload is calculated in accordance with motor current running frequency and running time and compared with the allowable motor overload time determined by P9 18 Once the accumulated overload time is reached the inverter will report E oL2 motor overload failure When the load type is constant torque P9 00 0 the motor overload protection time P9 18 corresponds to the overload protection time under 150 rated load current and is 10 minutes by factory default when the load type is variable torque P9 00 1 the motor overload protection time P9 18 corresponds to the overload protection time under 115 of rated load current and is 10 minutes by factory default Note The calculation of motor overload protection continues during the inverter running and stopping process while the accumulated overload value will be reset when the inverter is power off Chapter 6 Parameter Description 89 V amp T Technologies Co Ltd http Awww EcoDriveCN com Action time A 10 eo N P9 18 10 0 Minutes O15 pao aca ac ec eae Soar 1 75 pr N a nT i A a SE eee aN P9 18 5 0 Minutes 0 35 Moo tie a eesin te eee P9 18 1 0 Minutes z 0 100 150 200 Motor current Fig 6 32 Motor Overload Protection Characteristics Curve Constant Torque 1 Sensor mode Compare the analog feedback value of the thermal sensor installed
30. below function code should be set H0 11 10 00Hz HO 12 1 using acceleration and deceleration time 1 P0 08 6 0s P0 09 6 0s P4 09 20 0s P4 10 20 0s H0 30 Sleeping and wake up mode selection O 1 0 When setting H0 30 to 0 Sleeping and wake up mode acoording the function code of H0 00 When setting H0 30 to 1 Sleeping and wake up mode acoording the function code of H0 31 to H0 34 The function code realized energy saving for fan or pump When PID is set to positive function setting P8 09 to 0 when inverter receive the actual pressure feedback value higher than sleeping pressure setting reference H0 32 and lasting time is longer than sleeping delay time H0 34 the inverter will decelerate to 0 frequency this time motor stops When inverter receive the actual pressure feedback lower than wake up pressure reference value H0 31 and lasting time is longer than wake up delay time H0 33 The inverter re enter the PID regulator and motor start running Chapter 6 Parameter Description 105 V amp T Technologies Co Ltd http Awww EcoDriveCN com Pressure 0 10V Frequency Unloading s waue te AN LS oe Frequency Actual pressure feeda A N T N upper limit H0 31 n i i mde i i Frequency i Output frequency lower limit 1 i i 1 l Doea Time H0 33 H0 34 Fig 6 37 Pressure control sleeping start and stop maintain time When PID is set to negetive function setting P8 09
31. command reference modes can be selected for the inverter 0 Operation panel mode Perform the Run Stop Forward reverse operation of the inverter through the RUN STOP RST FWD REV buttons of the operation panel 1 Terminal mode Perform the Run Stop Forward reverse operation of the inverter by defining the multi functional terminals X1 X4 Refer to the description of P5 00 P5 06 and P5 11 2 Host computer mode Perform the Run Stop Forward reverse operation of the inverter through communication Refer to the appendix A Modbus communication protocol P0 07 Running direction command 0 1 0 This parameter is used to change the rotation direction of the motor under operation panel running command reference mode P0 06 0 0 Forward 1 Reverse Note This function code is invalid under terminal running command reference mode and the running direction is controlled by terminal command P0 08 Acceleration time 0 0 1 3600 0 s 6 0s or 20 0s P0 09 Deceleration time 0 0 1 3600 0 s 6 0s or 20 0s This function can set the speed and stability in the duration from acceleration to constant speed after the startup of the inverter or from constant deceleration to stop Acceleration time 0 The time that the inverter accelerate from 0 frequency to maximum frequency Deceleration time 0 The time that the inverter accelerate from maximum frequency to 0 frequency S curve time The time for adding curve segment to improve the smoothness of the star
32. detect the failure this mode can be used After the inverter commissioning is completed to conveniently record and inquire the modified parameters this mode can be set 8 Menu mode of last changed 10 function codes When the inverter has abnormal operation or it is necessary to inquire the commissioning parameters the last changed 10 parameters can be inquired by setting this menu mode When the leave factory parameters are recovered the record of the last changed 10 function codes will also be cleared Note Both P0 00 and P0 02 are visible in all the menu display modes for the convenience of menu mode switching Press ESC key and hold for over 5 seconds it will restore to basic menu mode and P0 02 is automatically restored to 0 In non basic menu mode the gt gt key cannot be used to switch the function zone code and group number The current menu mode will be displayed after pressing the gt gt key for several times P0 03 Control operation mode 0 1 0 This function is used to set the control operation mode of the inverter 0 Process open loop control It is applicable to most applications including the application of one inverter driving one motor and the application of one inverter driving multiple motors the motors are in the same work conditions 1 Analog value feedback process close loop control It is applicable to applications with general requirement of speed control precision The feedback analog can represen
33. digital Multi section digital voltage reference 1 voltage reference 1 OFF ON OFF Multi section digital Multi section digital voltage reference 2 voltage reference 2 Multi section digi aana OFF ON ON ulti section digital Multi section digital voltage reference 3 voltage reference 3 ON OFF OFF Multi section digital Multi section digital voltage reference 4 voltage reference 4 ON OFF ON Multi section digital Multi section digital voltage reference 5 voltage reference 5 ON ON OFF Multi section digital Multi section digital voltage reference 6 voltage reference 6 ON ON ON Multi section digital Multi section digital voltage reference 7 voltage reference 7 Note Upon process open loop operation if the input termi voltage and multi section frequency simultaneously the multi nal function sets the multi section digital section frequency will have priority Upon analog feedback operation the multi section digital voltage reference is in priority to other reference modes Chapter 6 Parameter Description 67 V amp T Technologies Co Ltd http Awww EcoDriveCN com Multi section frequency 1 0 00 300 00 Hz 5 00Hz P4 23 Multi section frequency 2 0 00 300 00 Hz 8 00Hz Multi section frequency 3 0 00 300 00 Hz 10 00Hz It can be used as process open loop frequency reference Different multi section frequency reference can be selected in different terminal status by defining the multi functional terminal X multi section f
34. forced to be 0 Under process closed loop control when the terminal is valid the output frequency of the inverter process closed loop adjustment is forced to set as 0 68 PID positive or negative function PID is positeve function at default It should enable negative function when feedback value is greater than reference value and the frequency needed increase This function can realized through setting P8 09 1 or multi function terminal function setting as 68 Note P8 09 0 Terminal function is invalid Positive P8 09 1 Terminal function is valid Positive P8 09 1 Terminal function is invalid Negative P8 09 0 Terminal function is valid Negative 69 98 Reserved P5 07 X1 to X4 terminal filtering time 0 000 1 000 s 0 001s It can properly enlarge the setup value of P5 07 to improve the anti interference capability of the terminal The longer the terminal filter time is the longer the delay time of the terminal action is P5 10 X1 terminal delay time 0 0 999 9 s 0 0s P5 10 X2 terminal delay time 0 0 999 9 s 0 0s The X1 and X2 terminal with delay input signal function once receive valid signal change When the inverter need delay a certain time after receive input terminal signal this functional code can realized Chapter 6 Parameter Description 73 V amp T Technologies Co Ltd http Awww EcoDriveCN com X1 X2 Signal 1X1 X2 signal pulse width tw X1 X2 signal before delay
35. function setting as 68 P8 09 0 Terminal function is invalid Positive P8 09 1 Terminal function is valid Positive P8 09 1 Terminal function is invalid Negative P8 09 0 Terminal function is valid Negative 0 655550 6 10 Motor Parameter Group P9 P9 00 Load Type 0 1 0 This function is used to determine the motor load type driven by the inverter 0 G type constant torque heavy duty application 1 L type variable torque light duty application P9 01 P9 04 are used to set the motor parameters driven by the setup inverter and shall be set properly in accordance with the motor nameplate prior to the use Note The power level of the inverter shall match the motor P9 05 Motor no load current 10 0 1 999 9 A Factory P9 15 Parameter auto tuning 0 1 0 It determines the key motor parameters affecting the running control of the inverter through perform the parameter auto tuning These motor parameters will be stored in the inverter automatically upon completion of parameter auto tuning process till next parameter input or another parameter auto tuning The process of parameter auto tuning is described as follows Input P9 00 to P9 04 properly in accordance with the motor nameplate set the basic running frequency P0 15 maximum output frequency P0 11 and maximum output voltage P0 12 set the Chapter 6 Parameter Description 88 V amp T Technologies Co Ltd http www EcoDriveCN com acceleration time and decelera
36. inverter and motor If the cable between the inverter and the motor is too long the higher harmonic leakage current of the output end will cause adverse impact on the inverter and the peripheral devices It is suggested that when the motor cable is longer than 100m output AC reactor be installed Refer to the following table for the carrier frequency setting Length of cable between the f Less than 50m Less than 100 m More than 100m inverter and motor Carrier frequency PA 00 Less than 15kHz Less than 10kHz Less than 5kHz 3 6 3 Grounding Wiring The inverter will produce leakage current The higher the carrier frequency is the larger the leakage current will be The leakage current of the inverter system is more than 3 5mA and the specific value of the leakage current is determined by the use conditions To ensure the safety the inverter and the motor must be grounded The grounding resistance shall be less than 10ohm For the grounding wire diameter requirement refer to 3 3 lectotype of main circuit peripheral devices Do not share grounding wire with the welding machine and other power equipment In the applications with more than 2 inverters keep the grounding wire from forming a loop Correct Wrong g Fig 3 3 Grounding wiring Chapter 3 Wiring of Inverter 18 V amp T Technologies Co Ltd http Awww EcoDriveCN com 3 6 4 Countermeasures for Conduction and Radiation Interference Inverter
37. is required the inverter will store function codes in the register at the address from the lowest to highest with maximum of 16 function codes being stored at the same time 2 lf change function code frequently such as change setting frequency repeat suggest use 0x42 command is better than 0x10 prevent from damage inner EEPROM 3 The life of EEPROM is about 100000 times if change setting frequency frequently several days or several weeks may damage EEPROM adopt write RAM it can avoid to damage EEPROM Function0x17 reads and writes multiple function codes or control parameters of the inverter PDU Part Contents Data Length Byte Range Request Response Function code 1 0x17 The initial address of writing register l s 2 0x0000 0xFFFF reading register he number of 2 0x01 0x10 reading register he initial address of 2 0x0000 0xFFFF writing register The number of 2 0x01 0x10 The number of bytes in the writing register 2 Number of operating registers The writing register 2 Number of operating registers bytes in the register contents Response Function code 1 0x17 Read the number of 1 0x02 0x20 Appendix A Modbus Communication Protocol 118 V amp T Technologies Co Ltd http Awww EcoDriveCN com PDU Part Contents Data Length Byte Range Read data contents 2 Read bytes 0x0000 0xFFFF Operating sequence Read f
38. last changed 10 function codes The standard operation panel can realize the parameter upload download Parameter copy and display the copy progress The user can select to forbid the overwriting of the uploaded parameters Displayed hidden The customer can select to display or hide the function codes by themselves function code fe a 485 communication ports support Modbus protocol RTU The standard functions Dual4g5 oe operation panel can realize remote control box function with a maximum pors distance of 500m F Button type or shuttle type operation panel optional protection class IP20 as Operation panel standard IP54 as option Common DC bus The full series can realize common DC bus supply for several inverters The full series adopts independent duct design and supports the installation Independent duct of heatsink outside the cabinet Realizing the power up auto detection of internal and peripheral circuits including motor grounding abnormal 10V power supply output abnormal analog input and disconnection DC braking capability Unique Power up auto detection Chapter 1 Introduction to E5 H Series Inverter 3 V amp T Technologies Co Ltd http Awww EcoDriveCN com Protection function Efficiency Environment Power supply undervoltage overcurrent protection overvoltage protection interference protection abnormal comparison reference input auto tuning failure module protection heatsink ov
39. may cause human danger The motor will be stopped with the shortest deceleration time 3 Emergency shutdown 2 Applicable to the situation that may cause electric equipment damage The motor will be stopped freely 4 Realize the circular switching of the operating command reference modes operation panel reference Chapter 6 Parameter Description 61 V amp T Technologies Co Ltd http Awww EcoDriveCN com terminal reference host computer reference The MON status LED on the operation panel will indicate the corresponding status It is effective only when the PRG key is pressed within 5 seconds otherwise the switching will be invalid and the MON LED will restore to the former indication state 5 Realize the circular switching of the display modes of fast function codes and all the function codes 6 Realize the circular switching of the display modes of function codes different from leave factory values and all the function codes 7 Realize the circular switching of the display modes of last changed 10 function codes and all the function codes 8 Realize the circular switching of different function code display modes basic menu mode fast menu mode menu mode of non leave factory value function code Menu mode of last changed 0 function codes refer to description of P0 02 for the menu modes Display parameter selection at running status O FFFF 1CBO Up to 4 parameters can be set and display at running status and vie
40. motor 21 7 0 1 999 9 A x 0 1 999 9A P9 05 Zero load current 10 8 4 0 1 999 9 A x 0 1 999 9A P9 15 Parameter auto tuning 0 O 1 x 0 No action 1 Static auto tuning Ones place Protection mode 0 Motor current mode 1 Sensor mode Motor overload 2 No action P9 16 protection o0 geg Tens place Low speed derating 0 Action suitable for common motor 1 No action suitable for variable frequency motor Sensor protection 7 T P9 17 threshold of motor 10 00 0 00 10 00 V o 0 00 10 00V Chapter 5 List of Parameters 45 V amp T Technologies Co Ltd http Awww EcoDriveCN com Function code Function code name Facto ry Setting range Unit Property Function code selection User setting setting number Motor overload i P9 18 rotection time 10 0 0 5 30 0 min o 0 5 30 0min Group PA Control Parameter 8 0 15kW or below 0 7kHz 16 0kHz gt 4 0 18 5kW 45kW 0 7kHz 10 0kHz PA 00 Carrier frequency 3 0 0 7 16 0 kHz o 55KW 75KW 0 7kHz 8 0kHz 2 0 90kW or above 0 7KHz 3 0kKHz Carrier frequency bebe aes K 0 No auto adjustment PA 01 automatic adjustment 1 O 1 o 1 Auto adjustment selection V F control slip is p 5 PA 02 compensation gain 100 0 0 0 300 0 Fo o 0 0 300 0 Current limit action 0 Disabled PA 04 selection 1 ora g 1 Enabled PE y 5 Constant torque 20 0 200 0 rated PA 05 Current limit value 160 0 20 0 200 0 o x
41. o 1 1 8 1 format even parity 2 1 8 1 format odd parity PC 02 Local address 1 1 247 o 1 247 0 is broadcasting address Group d0 Fault Record Parameters d0 00 Fault type record 2 0 0 62 s d0 01 Fault type record 1 0 0 62 neret to a fault and alarm Latest fault type information list d0 02 record 0 0 0 62 doida ee er latest 0 0 999 v o g99Vv do o4 Actual current oflatest oo o 0 999 9 A 0 0 999 9V Operation frequency of y a 0 05 he latest fault 0 00 0 00 300 00 Hz 0 00 300 00Hz do 06 Total Power up time on 0 000 0 000 65 535 kh 0 000 65 535kh do o7 Total operation time of 9 900 0 000 65 535 kh 0 000 65 535kh e inverter Record of maximum 5 5 A d0 08 emperature of heatsink 0 0 0 0 100 0 Cc 0 0 100 0 C Record of maximum d0 09 bus voltage fluctuation 0 Cee M 010004 d0 10 Reserved 0 00 0 00 300 00 Hz 3 0 00 300 00Hz do 11 Reserved 0 0 5 0 5 Group di Product Identity Parameters d1 00 Serial number Factory 0 0 FFF F i 0 FFF F Software version z z d1 01 number of control board Factory 0 00 99 99 0 0 99 99 Software version d1 03 number of operation Factory 0 000 F FFF i 0 000 F FFF panel d1 05 ee Sbar code Factory 0 9999 10 9999 atog Manufacture s barcode Factory o 9999 o 9999 d1 07 See Sbar code Factory 0 9999 0 9999 dt og Manufacture s barcode Factory o 9999 10 9999 Control board software d1 10 identification code
42. of FWD terminal means forward rotation command while the rising edge of REV terminal means reverse rotation command 3 Three line 2 K1 l FWD K2 oi Inverter REV K3 Xi o COM Fig 6 17 Three line running mode 2 The terminal Xi i 1 4 has set 4 Three line mode rotation control function Fig 6 17 when K3 is closed FWD and REV controls are enabled when K3 is disconnected FWD and REV controls are disabled and the inverter stops The rising edge of FWD terminal means rotation command the disconnection of REV terminal means forward rotation command while the connection of REV terminal means reverse rotation command P5 12 Preset counting value reference 0 9999 0 P5 13 Reached counting value reference 0 9999 0 When the pulse signal counting of the terminal input complies with the preset condition the terminal Yi will output corresponding instructions The setting procedures are as follows 1 Set Xi i 1 to 4 terminal to 28 Counter trigger input and meanwhile set P5 12 and P5 13 suck as P5 12 4 and P5 13 8 2 The terminal Y1 is set to 10 Preset counting value action and the action sequence is shown as Outi in Fig 6 18 Effective level will be output when the counting value is between the values of P5 12 and P5 13 Chapter 6 Parameter Description 75 V amp T Technologies Co Ltd http www EcoDriveCN com The terminal Y1 is set to 11 Reaching counting value action and the act
43. on the motor with the present sensor protection threshold P9 17 If the feedback value is higher than that protection threshold the inverter will report E Ptc motor overheat failure immediately without inverse time lag characteristics Note When this protection mode is employed it needs to select the input channel for the analog feedback value of the thermal sensor and confirm that the input function of this analog channel is selected as 5 Motor Temperature Feedback 2 No motor protection action indicating that the inverter will not protect the overload status of the motor It must be used with care Tens place of P9 16 0 Action The heat sink effect will become poorer when the motor is running at low speed and the motor is derated according to the motor overload protection time as determined in P9 18 1 No action For some special motors such as variable frequency motor no action can be selected when derating at low speed It must be used with care Chapter 6 Parameter Description 90 V amp T Technologies Co Ltd http Awww EcoDriveCN com 6 11 Control Parameter Group PA Carrier frequency 0 7 16 0 kHz Factory Carrier frequency automatic adjustment selection 0 1 1 Carrier frequency has an important impact on operations of inverter and motor When carrier frequency increases the loss temperature rise and noise of motor will decrease If carrier frequency decreases the temperature rise of inverter i
44. panel should prompt as FASt and bASE On Press M Off M key has been released for more than 5s or PRG key has been used to confirm the changing of the method of giving running command Switch the reference method of running command On FASt fast menu mode Off BASE basic menu mode Switching between FASt base menus 4 4 Menu Style The menu style is 2 level menu 4 4 1 Format of First Level Menu P X x Y Z Ld Function code area Group number Separation sign Index in group Fig 4 2 Format of first level menu Chapter 4 Using Instructions of Operation Panel 27 V amp T Technologies Co Ltd Dividing the first level menu http www EcoDriveCN com Password action area Function code area Group number Function code range in area PO group P0 00 P0 16 P1 group P1 00 P1 08 P2 group P2 00 P2 07 P3 group P3 00 P3 13 P4 group P4 00 P4 36 P5 group P5 00 P5 13 P6 group P6 00 P6 24 User operation area P area P7 group P7 00 P7 25 Protection area of user P8 group P8 00 P8 10 password P0 00 P9 group P9 00 P9 18 PA group PA 00 PA 22 Pb group Pb 00 Pb 23 PC group PC 00 PC 06 Pd group Pd 00 Pd 35 PE group Reserved Equipment status area d area do group ee d1 group d1 00 d1 11 d2 group d2 00 d2 24 A0 00 protection area ARERR OE ae AO group A0 00 A0 02 Reserved C0 00 re
45. second level menu decrease the function code data In stop run status decrease the input frequency or close loop input In first level menu use gt gt key to move edit bit of PX YZ menu In second level menu use gt gt key to move the edit bit of data In stop run status switch the panel display parameters such as frequency current and voltage In fault status change from fault display to stop run display When running command is given via operation panel the key is used to control the start of inverter After setting the parameter auto tuning start parameter auto tuning for inverter startup When running command is given via operation panel the key is used to control the stop of inverter Stop Reset Key This key is used as a stop key when inverter only has fault alarm STOP RST but does not stop When the inverter has fault and has stopped this key is used as RESET key to clear the fault alarm Multi function Key See table 4 1 for the using method of multi function key and the M meanings of MULTI indicator i i When running command is given via operation panel this key is used to FWD REV confirm the output direction of inverter Symbol of g Name Meanings Color Indicator On In stop status inverter has run reverse command Run reverse i i REV indicator In running status inverter is running reverse Red Flash Changing from running reverse to running forward 4 3 Description of Keys on Ope
46. set and display at stopping status and viewed circularly by pressing gt gt key Display of operation pane 0 Reference frequency Hz 1 Bus voltage V 2 Alt V 3 Al2 V 4 Reserved 5 Reserved 6 External counts 7 Motor rotation speed rpm Unit place 8 Close loop reference 9 Close loop feedback A Reserved B Reserved C Reserved D Reserved E Reserved F Reserved Tens place Same as above Hundreds place Same as above Thousands place Same as above Stop proportion display benchmark 0 F 0 Stop proportion display coefficient 0 0 1000 0 0 00 If the parameter to be displayed has proportion relation with a physical value in the stopping display parameter defined by P2 03 P2 06 can be used to designate the physical value as the display benchmark and P2 07 can be used to set the coefficient of the display benchmark When the proportion display parameter is set i e P2 6 the physical value will be automatically added into the stop display parameter group and can be viewed by pressing gt gt key At this time there are 5 display parameters The LEDs for the newly added parameter are LED A and LED V both of which shall be on 6 4 Startup stop Parameter Group P3 Pao 2 Different startup modes can be adopted for different applications 0 The inverter begins to run from the startup frequency P3 03 and accelerates to the setting frequency after the
47. starting and stopping frequently If the inverter is often used for work situations such as air condition and fan change the analog signal of temperature sensor to setting frequency to control automatic starting or stopping of inverter Fan and pump control mode selection 0 3 0 Forced energy saving rate reference 0 50 0 This function code realized open loop control mode selection for fan and pump 0 Basic running mode 1 Pre overload decelerate frequency model If this mode is selected before overload through real time monitoring the load to achieve the inverter automatically reduces the runnuing frequency in order to ensure automatically out of overload running That may exist automatically reduces the running frequency when using this mode 2 Forced energy saving mode 1 square type load If this mode is selected according to Pb 22 setting the inverter automatically determines the frequency upper limit to work in order to meet the square type load forced energy saving rate requirements setting in Pb 22 3 Forced energy saving mode 2 cube type load If this mode is selected according to Pb 22 setting the inverter automatically determines the frequency upper limit to work in order to meet the cube type load forced energy saving rate requirements setting in Pb 22 Chapter 6 Parameter Description 100 V amp T Technologies Co Ltd http Awww EcoDriveCN com Note This function is only valid when setting P0 03 to 0
48. startup frequency retention time P3 04 If the motor is still rotating upon the startup of the inverter the motor will be automatically decelerated to low speed before the acceleration 1 DC current is injected first to perform DC magnetizing and DC braking on the motor The volume and time for the DC injection are set by P3 01 and P3 02 After the DC injection time expires the inverter begins to run from the startup frequency P3 03 and accelerates to the setting frequency after the startup Chapter 6 Parameter Description 63 V amp T Technologies Co Ltd http Awww EcoDriveCN com frequency retention time P3 04 2 Flying startup The inverter will automatically identify the speed of the motor and directly start from the identified frequency The current and voltage are smooth without any impact during the startup Note During the DC current supply the operation panel displays dc P3 01 DC injection current 0 0 120 0 0 0 P3 02 DC injection time 0 00 30 00 s 0 00s P3 01 sets the volume of the DC injection current which is indicated in a percentage of the rated current of the inverter P3 02 sets the action time of the DC injection P3 03 Startup frequency 0 00 60 00Hz 0 00 or 0 50Hz P3 04 Startup frequency retention time 0 0 3600 0 s 0 0s The inverter begins to run from the startup frequency P3 03 and accelerates according to acceleration time after the startup frequency retention time P3 04 Note For the hea
49. the operation panel will have poor contact 2 3 4 Open and Close of Doors of E5 H 4T90G and Above Power Class Inverter with Sheet metal Enclosure Opening of the door Press the latch following direction 1 in Fig 2 11 and open the door following direction 2 Removal of operation panel The operation panel is connected to the control board through the standard network cable and will not interfere with the open close of the door To remove the operation panel refer to section 2 3 1 Removal and Mounting of Operation Panel Mounting of cover After the wiring operation of main circuit terminals and control circuit terminals is completed close the door following direction 1 in Fig 2 12 and then press down the latch following direction 2 to lock the door Fig 2 11 Opening the door Fig 2 12 Closing the door Chapter 2 Inverter Installation 13 V amp T Technologies Co Ltd http Awww EcoDriveCN com Chapter 3 Wiring of Inverter 3 1 Connection of the Product and Peripheral Devices Power supply Circuit breaker or leakage circuit breaker i Contactor cai errs 3 Input AC reactor Fas DC reactor Braking resistor Grounding Fig 3 1 Connection diagram of the product and peripheral devices Chapter 3 Wiring of Inverter 14 V amp T Technologies Co Ltd http www EcoDriveCN com 3 2 Description of Peripheral Devices for Main Circuit Circuit breaker Leakag
50. the operation request is rejected the feedback of PDU Protocol Data Unit will be error code or abnormal code Error code equals to function code 0x80 abnormal code shows the error cause in detail Attached Fig 2 Protocol Format ADU Application Data Unit check is the CRC16 check of the first three parts of ADU and obtained Appendix A Modbus Communication Protocol V amp T Technologies Co Ltd http www EcoDriveCN com Examples for abnormal codes eo Definition clas ke Definition code code 0x01 Illegal function code 0x20 Frame ertor frams lsngth EDT check error 0x02 Illegal data address 0x21 Parameters are unchangeable 0x03 Illegal data data beyond 0x22 Unchangeable upon operation upper lower limits of parameters Slave operation failure the 0x04 data is within the range of 0x23 Password protected for upper lower limits but it is parameters invalid Order valid in process mainly Non host computer equipment 0x05 occurs upon storing data into 0x24 control invalid host computer EEPROM command Slave busy mainly occurs 0x06 upon storing data into EEPROM 4 Function Interpretation Function 0x03 reads parameters and status words of multiple function code parameters of the inverter PDU Part Contents Data Length Byte Range Request Function code 1 0x03 na address of 2 0x0000 OxFFFF Number of registers 2 0x0001 0x0010 Response Function code 1
51. the register address of the PLC is converted to hexadecimal format 5 Check if the 485 wires are properly connected A A A IX Why did there exist abnormality upon parameter copying A 1 The parameters for E5 inverter V5 inverter and V6 inverter cannot be copied between each other A 2 The copy function can be completed only when the inverter is completely powered down and then powered up after the download of the parameters for copy is completed X Why did the keyboard will have 8 8 8 8 display or have no display sometimes A 1 Check if the connectors are properly connected when the operation panel is directly connected to the inverter control board A 2 Check if the connection wire signals are in one to one correspondence when the keyboard is connected to the operation panel and inverter control board through customized extension wires A 3 Check if the network cable connectors of the operation panel and inverter control board are properly connected when standard network cable is used to connect the operation panel and inverter control board XI Why couldn t display or modify the function codes of the operation panel A 1 When the modification could not be performed check if P0 01 is set as 1 If not change it to 0 A 2 When the modification could not be performed check if the function code has been set as modification disabled A 3 When the modification could not be performed upon
52. will not be Chapter 6 Parameter Description 70 V amp T Technologies Co Ltd http Awww EcoDriveCN com executed in the running status and the running command will not be executed in the jog status 4 Three line running control It is only enabled in the terminal running command reference mode P0 06 1 Refer to P5 11 for the instructions about its application 5 Reserved 6 Multi section digital voltage terminal 1 7 Multi section digital voltage terminal 2 8 Multi section digital voltage terminal 3 Refer to P4 15 P4 21 for the instructions about its application 9 Multi section frequency terminal 1 10 Multi section nt frequency terminal 2 11 Multi section frequency terminal 3 12 Multi section frequency terminal 4 Refer to P4 22 P4 36 for the instructions about its application 13 Acceleration deceleration time terminal 1 14 Acceleration deceleration time terminal 2 Refer to the table below for the instructions about its application Acceleration deceleration Acceleration deceleration Acceleration deceleration time terminal 2 terminal 1 selection OFF OFF ee age end POOO time 0 OFF ON dase renter time 1 ON OFF a ea tienes time 2 ON ON nee ara PA ia time 3 15 Digital regulating frequency reset It is used to reset the change values of the setup frequency regulated by the operation panel A V and terminal UP DN When this terminal is enabled the operation panel A V and ter
53. x Maximum output frequency P0 11 P0 14 Frequency lower limit 0 00 0 00 300 00 Hz x 0 00Hz Upper frequency limit P0 13 Basic operating pA 0 00Hz Maximum output frequency P0 15 frequency 50 00 0 00 300 00 Hz x P0 11 5 0 0 Auto torque boost P0 16 Torque boost 0 0 0 0 30 0 o x 01 30 0 Group P1 Main and Auxiliary Reference Parameter p1 oo OPen loop auxiliary 0 0 2 3 None 1 Al1 2 Al2 reference mode Main Auxiliary Main Auxiliary Auxiliary 50 0 0 Open loop reference a 3 Main Auxiliary 50 5 0 ie P1 01 main and auxiliary 0 0 5 x relation calculation Take maximum value Take minimum value Analog feedback close P1 02 loop control main 0 0 2 x reference mode Analog feedback close Digital voltage reference P8 00 Alt 2 Al2 P1 03 loop control auxiliary 0 0 2 x o None 1 Al1 2 Al2 reference mode 0 Main Auxiliary Analog feedback close 1 Main Auxiliary loop control reference 7 2 Auxiliary 50 P1 04 main and auxiliary 0 oaa j 3 Main Auxiliary 50 calculation 4 Take maximum value 5 Take minimum value Analog feedback close P1 05 loop control main 1 1 2 x 1 Al1 2 Al2 feedback mode Analog feedback close P1 06 loop control auxiliary 0 0 2 x if None 1 Al1 2 Al2 feedback mode 0 Main Auxiliary Analog feedback close 1 Main Auxiliary loop control feedback 7 2 Auxiliary 50 P1 07 main and a
54. 0 per unit value AO1 gain 0 Positive AO1 bias 0 Negative Fig 6 25 AO1 Characteristics Curve Kx b Set P7 05 to 100 0 and P7 06 to 120 0 namely K 1 and b 12V and the AO1 characteristics curve is as shown in Fig 6 26 Set P7 05 to 100 0 and P7 06 to 80 0 namely K 1 and b 8V and the AO1 characteristics curve is as shown in Fig 6 27 Chapter 6 Parameter Description 82 V amp T Technologies Co Ltd AO1 terminal output voltage 10V RG Before calibration 2V eaS After calibration Output value per unit value 0 20 100 AO1 gain 1 Negative AOtbias 0 Positive Fig 6 26 AO1 Characteristics Curve Kx b http www EcoDriveCN com AO1 terminal output voltage AQ Sea Before calibration BV Rea a east After calibration Output value per unit value 0 80 100 AO1 gain 1 Negative AO1 bias 0 Positive Fig 6 27 AO1 Characteristics Curve Kx b Note When the analog output gain is set to negative value and the bias is also negative the AO output will be limited to OV automatically P7 11 Output signal type This function code determines Y1 and relay output signal type selection level or pulse Note The life of relay is about 10 million times frequent open and close will be shortened use of time 000 101 000 Display of operation panel Unit place Y1 terminal O Level signal 1 Pulse signal Tens place Reserved Hundreds place Terminal delay t
55. 0 0 120 0 inverte P3 01 DC injection current 0 0 0 0 120 0 o x rated current P3 02 DC injection time 0 00 0 00 30 00 s x 0 00 30 00s 2 0 00 frequency upper limit the lower P3 03 Startup frequency 0 50 0 00 60 00 Hz x of P0 13 and 60 00Hz Startup frequency g 7 P3 04 retention time 0 0 0 0 3600 0 x 0 0 3600 0s 0 Deceleration to stop P3 05 Stop mode 0 0 2 x 1 Coast to stop 2 Deceleration to stop DC braking DC braking initial 7 Z P3 06 frequency 0 00 0 00 300 00 Hz x 0 00 300 00Hz Constant torque 0 0 120 0 inverte rated current P3 07 DC braking current 0 0 0 0 120 0 o x Variable torque 0 0 90 0 inverter rated current P3 08 DC braking time 0 00 0 0 0 30 00 s x 0 00 30 00s A i 0 Run reverse enabled P3 09 Anti reverse selection 1 0 1 x 1 Run reverse disabled p3 10 Forward reverse dead oo go 36000 s x 0 0 3600 0s zone time P3 11 Jog frequency 5 00 0 10 300 00 Hz x 0 10 300 00Hz P3 12 Jog acceleration time 6 0 0 1 60 0 s x 0 1 60 0s P3 13 Jog deceleration time 6 0 0 1 60 0 s x 0 1 60 0s Group P4 Multi section Parameter 0 Direct line 1 Multi section P4 01 P4 08 2 Power of 1 2 P4 00 V F curve reference 0 0 6 x 3 Power of 1 4 4 Power of 1 6 5 Power of 1 8 6 Power of 2 P4 01 V F frequency value FO 0 00 0 00 300 00 Hz x FO lt F1 P4 02 V F voltage value VO 0 0 0 0 100 0 A x 0 0 100 0 P4 03 V F frequency value F1 0 00 0 00 300 00 Hz x F1 lt F2 P
56. 0 330 M12 31 4 39 2 150 M12 17 6 22 5 75 E5 H 4T160G 500 400 M12 31 4 39 2 185 M12 17 6 22 5 50x2 E5 H 4T185G 630 500 M12 48 6 59 4 240 M12 31 4 39 2 60x2 E5 H 4T200G 630 500 M12 48 6 59 4 240 M12 31 4 39 2 60x2 E5 H 4T220G 800 630 M12 48 6 59 4 150x2 M12 31 4 39 2 75x2 E5 H 4T250G 1000 630 M12 48 6 59 4 185x2 M12 31 4 39 2 100x2 E5 H 4T280G 1000 630 M12 48 6 59 4 185x2 M12 31 4 39 2 100x2 E5 H 4T315G 1000 800 M14 48 6 59 4 2502 M14 31 4 39 2 125x2 E5 H 4T355G 1200 800 M14 48 6 59 4 325x2 M14 31 4 39 2 150x2 E5 H 4T400G 1500 1000 M14 48 6 59 4 325x2 M14 31 4 39 2 150x2 E5 H 4T450G 2000 1500 M14 48 6 59 4 350x2 M14 31 4 39 2 175x2 E5 H 4T500G 2000 1500 M14 48 6 59 4 350x2 M14 31 4 39 2 175x2 3 4 Product Terminal Configuration f a eo edeoooo ix i As F i z m pa va Oi eee o ft a a e l Control circ 5 terminal l E Main circuit i J terminal Grounding terminal E5 H 4T7 5G and below power class 3 5 Functions of Main Circuit Terminal 3 5 1 E5 H 4T0 75G E5 H 4T15G R L1 s i2 1 13 1 2 B1 B2 u tt w T2 w T3 gt _ Control circuit terminal Main circuit terminal Grounding terminal E5 H 4T11G and above power class Fig 3 2 Product terminal configuration Chapter 3 Wiring of Inverter V amp T Technologies Co Ltd http Awww EcoDriveCN com Termi
57. 00 300 00Hz input point AO P6 07 Curve2 input point A1 100 0 0 0 110 0 o 0 0 110 0 Reference frequency f1 P6 08 corresponding to curve2 50 00 0 00 300 00 Hz o 0 00 300 00Hz input point A1 P6 09 Curve3 input point AO 0 0 0 0 110 0 o 0 0 110 0 Per unit value BO P6 10 corresponding to curve3 0 0 0 0 110 0 o 0 0 110 0 input point AO P6 11 Curve3 input point A1 100 0 0 0 110 0 o 0 0 110 0 Per unit value B1 P6 12 corresponding to curve3 100 0 0 0 110 0 o 0 0 110 0 input point A1 P6 13 Curve4 input point AO 0 0 0 0 110 0 o 0 0 110 0 Per unit value BO P6 14 corresponding to curve4 0 0 0 0 110 0 o 0 0 110 0 input point AO P6 15 Curve4 input point A1 25 0 0 0 110 0 o 0 0 110 0 Per unit value B1 P6 16 corresponding to curve4 25 0 0 0 110 0 o 0 0 110 0 input point A1 P6 17 Curve4 input point A2 50 0 0 0 110 0 o 0 0 110 0 Per unit value B2 P6 18 corresponding to curve4 50 0 0 0 110 0 o 0 0 110 0 input point A2 P6 19 Curve4 input point A3 100 0 0 0 110 0 o 0 0 110 0 Per unit value P6 20 B23corresponding to 100 0 0 0 110 0 o 0 0 110 0 curve4 input point A3 Chapter 5 List of Parameters 43 V amp T Technologies Co Ltd http www EcoDriveCN com Function code Function code name Facto ry Setting range Unit Property Function code selection User setting setting n
58. 3 allowable frequency fluctuation 5 Rated current A 3 5 6 2 9 2 149 21 5 27 9 39 503 60 693 86 104 124 150 201 Braking unit Built in as standard Built in as option Protection class IP20 Cooling mode Self cooling Forced air convection cooling Power kW 90 110 132 160 185 200 220 250 280 315 355 400 450 500 Motor 90 110 132 160 185 200 220 250 280 315 355 400 450 500 ower kW Voltage V Three phase 0 to rated input voltage Output Rated current A 176 210 253 304 350 380 426 470 520 600 650 690 775 860 Overload 150 1 minute 180 10 seconds 200 0 5 second interval 10 minutes inverse time capability lag feature Rated S voltage frequency Three phase 380V 480V 50Hz 60Hz Input ean 323V 528V Voltage unbalancedness lt 3 allowable frequency fluctuation 5 Rated current A 160 196 232 282 326 352 385 437 491 580 624 670 755 840 Braking unit External braking unit needed Protection class IP20 Cooling mode Forced air convection cooling E5 H 4T90G and above products are equipped with external DC reactor as standard Chapter 1 Introduction to E5 H Series Inverter V amp T Technologies Co Ltd http Awww EcoDriveCN com 1 4 Technical Specifications of Product Control mode process open loop control PID closed loop control vector control 1 Startup torque 0 50Hz 180
59. 3 If there is no key operation within 5 minutes after setting the function code the operation panel is locked automatically m Unlock Keys Press ESC gt gt V keys at the same time for shuttle type turning anti close wise is equivalent to V key to unlock Chapter 4 Using Instructions of Operation Panel 33 V amp T Technologies Co Ltd http www EcoDriveCN com 4 7 Operation Panel Display and Key Operation 4 7 1 Classification of Display Status There are 8 types of display status of operation panel SN Status Meaning Display status of stopping parameters Press gt gt key to switch the displayed parameters P2 03 can be used to set the displayed parameters Display status of running parameters Press gt gt key to switch the displayed parameters P2 02 can be used to set the displayed parameters Display status of fault and alarm In other 7 kinds of display status if there is any fault happens directly enter this status Display status of first level menu When the keys are not locked in status of SN1 SN2 SN3 and SN7 press PRG to enter Display status of second level menu In the display status of first level menu press PRG to enter Password verification status If password protection is enabled press PRG to enter in the display status of first level menu Password modification status In the display status of stopping and running parameters press A
60. 4 04 V F voltage value V1 0 0 0 0 100 0 Y x 0 0 100 0 P4 05 V F frequency value F2 0 00 0 00 300 00 Hz x F2 lt F3 P4 06 V F voltage value V2 0 0 0 0 100 0 x 0 0 100 0 P4 07 V F frequency value F3 0 00 0 00 300 00 Hz x F3 lt Motor basic frequency P0 15 P4 08 V F voltage value V3 0 0 0 0 100 0 x 0 0 100 0 P4 09 Acceleration time 1 20 0 0 1 3600 0 s x 0 1 3600 0s P4 10 Deceleration time 1 20 0 0 1 3600 0 s x 0 1 3600 0s P4 11 Acceleration time 2 20 0 0 1 3600 0 s x 0 1 3600 0s P4 12 Deceleration time 2 20 0 0 1 3600 0 s x 0 1 3600 0s P4 13 Acceleration time 3 20 0 0 1 3600 0 s x 0 1 3600 0s P4 14 Deceleration time 3 20 0 0 1 3600 0 s x 0 1 3600 0s p45 Multi section digital 1 00 0 00 10 00 v o 0 00 10 00V voltage reference 1 p416 Multi section digital 2 00 0 00 10 00 V o 0 00 10 00V voltage reference 2 pay Multi section digital 3 00 0 00 10 00 v o 0 00 10 00v voltage reference 3 Chapter 5 List of Parameters 41 V amp T Technologies Co Ltd http www EcoDriveCN com ee Function code name Factory Setting range Unit Property Function code selection User namber setting setting P4 18 H OR 5 00 0 00 10 00 v o 0 00 10 00V paig MU pape 6 00 0 00 10 00 v o 0 00 10 00v pazo Mu bape 8 00 0 00 10 00 v
61. 9 External failure input 60 Auxiliary frequency source switching to Al1 20 Terminal failure reset input 61 Auxiliary frequency source switching to Al2 21 External interrupt contact input 62 66 Reserved 22 Inverter running disabled 67 Closed loop output forced to be 0 23 Shutdown via terminal 68 PID positive or negative function 24 Free shutdown via terminal 69 98 Reserved Relevant term explanation Terminal Xi Refers to any of terminal X1 X2 X3 X4 also called terminal X Terminal Yi Refers to terminal Y1or relay also called terminal Y Terminal function enabled Means that terminal Xi has set the function under description And P7 25 adopts the leave factory value the terminal is closed when the P7 25 adopts the non leave factory value the terminal is open Terminal function disabled Means that terminal Xi has not set the function under description or it has set the function but when P7 25 adopts the leave factory value the terminal is open or when the P7 25 adopts the non leave factory value the terminal is closed The leave factory setting of terminal Xi i 1 4 is no function function code set as 99 0 Terminal jog forward input 1 Terminal jog reverse input 2 Terminal forward run input FWD 3 Terminal reverse run input REV The functions of above items 0 to 3 are only enabled in the terminal running command reference mode P0 06 1 Interlocking of running command and jog command means that the jog command
62. AX 22 2n2nceeeeneecec eens nnn nnn nant nen mmmn 1 2 power 1 4 power Vt O 1 6 power 1 8 power V2 ey 2 power V1 i 2y 4 vo fi l i i i Output frequenc Output frequency Fo H E F 7 utput frequency Fig 6 11 V F curve Fig 6 12 Multi section V F curve P4 00 0 Applicable to the constant torque load situation refer to the straight line in Fig 6 11 P4 00 1 Self defined curve of the user applicable to sectional constant torque load refer to Fig 6 12 In Fig 6 12 FO lt F1 lt F2 lt F3 lt f fy is the motor basic operating frequency P0 15 VOsV1sV2sV3s100 VO V1 V2 V3 are indicated in the percentage of the maximum output frequency P0 12 P4 00 2 6 Applicable to the variable torque loads such as fan and pump When P4 00 is set to 2 6 it corresponds to 1 2 power 1 4 power 1 6 power 1 8 power and second power as shown in Fig 6 11 The second power curve is for water supply and the 1 2 power to 1 8 power curves are for the liquid loads of other media Proper curve can be selected according to the actual situation Chapter 6 Parameter Description 66 V amp T Technologies Co Ltd http www EcoDriveCN com In addition to the above acceleration time 0 P0 08 and deceleration time 0 P0 09 three groups of acceleration deceleration time acceleration deceleration time 1 acceleration deceleration time 2 acceleration deceleration time 3 can be defined Different acceleration deceleration time can be
63. CN com Multi functional input terminal definition table SN Function definition SN Function definition 0 Jog forward 25 Shutdown via terminal with DC braking 1 1 Jog reverse 26 Emergency shutdown 1 fastest shutdown 2 Forward FWD 27 Shutdown via terminal with DC braking 2 3 Reverse REV 28 Counter trigger input 4 Three wire operation control 29 Counter trigger reset 5 Reserved 30 31 Reserved 6 Multi section digital voltage terminal 1 32 Forced wake up input 7 Multi section digital voltage terminal 2 33 47 Reserved 8 Multi section digital voltage terminal 3 48 Command switching to operation panel 9 Multi section frequency terminal 1 49 Command switching to terminal 10 Multi section frequency terminal 2 50 Command switching to host computer 11 Multi section frequency terminal 3 51 Main frequency ource los logp and open loop switching input 12 Multi section frequency terminal 4 52 Main frequency source switching to digital 13 Acceleration deceleration terminal 1 53 Reserved 14 Acceleration deceleration terminal 2 54 Main frequency source switching to Al1 15 Digital regulating frequency reset 55 Main frequency source switching to Al2 16 Frequency increase instruction 56 57 Reserved 17 Frequency decrease instruction 58 Auxiliary frequency source switching to disabled 18 Acceleration and deceleration disable 59 Reserved instruction 1
64. Chapter 4 Using Instructions of Operation Panel 31 V amp T Technologies Co Ltd http Awww EcoDriveCN com 4 4 5 Identify Symbols Displayed Via LED The relationship between characters displayed by LED and characters numbers are as follows LED display Meanings of LED display Meanings of LED display Meanings of LED display Meanings of characters characters characters characters Ii JE I I II 0 IiI A I im S 1 1 l Ea l 1 I 7 I J I T I I I I 2 Cc L t rm ii a i imi i ii LI 9 J l I i Ii q Ti n Ii y S i i_ rt i l j 5 I E E O j y Fm F ia 6 I j iZi o a 1 7 i A ii B it R 1 i I i it Il i Ii ii H 1 q i rt 1 9 h r io ml T 4 5 Password Operation Set Password Enter password function code and set to the identical parameters for two times continuously After P Set is displayed the password setting is successful See 4 8 3 for password setting Password Verification Enter password function code enter password correctly and you can see the parameters protected by password See 4 8 4 descriptions of password verification Clear Password After passing password verification enter password function code set 0000 continuously for two times P CLr is displayed this means the password is successfully cleared From now on you need not enter password for access the password
65. If P1 02 is non zero value it determine the reference value of the close loop by the analog value selected in P1 02 Proportional gain Kp Integral gain Ki Differential gain Kd 0 000 10 000 0 200 0 000 10 000 0 500 0 000 10 000 0 000 As shown in Fig 6 31 PID Schematic Diagram the higher the Kp value is the faster the response is but if the Kp value is too high it may easily generate oscillation and the deviation cannot be eliminated Chapter6 Parameter Description 86 V amp T Technologies Co Ltd http Awww EcoDriveCN com completely It can use Ki to eliminate the residual deviation The higher the Ki value is the faster the response of the inverter to the deviation change but it may easily generate oscillation if the Ki value is too high If the system has frequent feedback to the jump it needs to use Kd because Kd can respond to the deviation change between the system feedback and the reference quickly The higher the Kd value is the faster the response is but it may easily generate oscillation if the value is too high P8 06 Sampling cycle 0 001 30 000 s 0 002s This function is used to set the sampling cycle of the feedback signal The lower this parameter value is the faster the response of the system to the deviation between the reference and the feedback but if the sampling cycle is too fast the associate requirement for the system PID gain adjustment will be higher which may result in sy
66. Output frequency indicate the output frequency of inverter Output frequency 2 indicate the frequency calculate by motor rotate speed Chapter 6 Parameter Description 81 V amp T Technologies Co Ltd http Awww EcoDriveCN com To adjust the analog outputs as defined in the above table it can use this function The adjusted analog value is the actual output of AO terminal 0 0 200 0 100 0 0 0 200 0 0 0 0 0 200 0 100 0 P7 09 is used to determine the positive and negative polarity of the gain or bias Display of operation panel Unit place AO1 gain 0 Positive 1 Negative Tens place AO1 bias 0 Positive 1 Negative Hundreds AO2 gain 0 Positive 1 Negative place Thousands AO2 bias 0 Positive 1 Negative place Since function codes P7 05 P7 09 are different from other function codes adjustment will affect the AO output timely Both AO1 and AO2 have the same calibration way Take AO1 as an example Set P7 05 to 100 0 and P7 06 to 20 0 namely K 1 and b 2V and the AO1 characteristics curve is as shown in Fig 6 24 and Fig 6 25 AO1 terminal output voltage AO1 terminal output voltage After calibration Before calibration MOMI ee ra Before calibration 10V pron I i ae After calibration 2V Output value per unit value 0 80 100 AO1 gain 0 Positive AO1 bias 0 Positive Fig 6 24 AO1 Characteristics Curve Kx b i Output value 0 20 10
67. V amp T Technologies Co Ltd http Awww EcoDriveCN com Safety Precautions Description of safety marks 5 Danger The misuse may cause fire severe injury even death i Note The misuse may cause medium or minor injury and equipment damage m Use AN L 4 Danger J This series of inverter is used to control the variable speed operation of three phase motor and cannot be used for single phase motor or other applications Otherwise inverter failure or fire may be caused e This series of inverter cannot be simply used in the applications directly related to the human safety such as the medical equipment J This series of inverter is produced under strict quality management system If the inverter failure may cause severe accident or loss safety measures such as redundancy or bypass shall be taken m Goods Arrival Inspection l Note e If the inverter is found to be damaged or lack parts the inverter cannot be installed Otherwise accident may be caused E Installation AN Z1 Note e When handling and installing the product please hold the product bottom Do not hold the enclosure only Otherwise your feet may be injured and the inverter may be damaged because of dropping e The inverter shall be mounted on the fire retardant surface such as metal and kept far away from the inflammables and heat source Keep the drilling scraps from falling into the inside of
68. When the output frequency is higher than FDT1 level upper limit the signal is enabled When the output frequency less than FDT1 level lower limit the signal is disabled Refer to P7 20 P7 21 for details 3 Frequency level detection signal FDT2 When the output frequency is higher than FDT2 level upper limit the signal is enabled When the output frequency less than FDT2 level lower limit the signal is disabled Refer to P7 22 P7 23 for details 4 Pre warning signal indicating inverter overload or motor overload OL When the output current is higher than the overload pre warning detection level and the retention time is higher than the overload pre warning detection time the signal is enabled When the current is lower than the detection level the signal is disabled Refer to PA13 PA 15 for details 5 Stop and lock due to under voltage LU When the inverter bus voltage is lower than the under voltage action value the signal is enabled 6 Stop due to external failure EXT When the inverter is in the protection status due to failure of peripherals E oUt appears on the operation panel the signal is enabled 7 Frequency upper limit FHL When the output frequency of the inverter reaches setup frequency upper limit the signal is enabled 8 Frequency lower limit FLL When the output frequency of the inverter reaches setup frequency lower limit the signal is enabled 9 Inverter is running at zero speed When the outp
69. ameter setting Menu of last changed 10 function codes LASt If this menu mode is set it enters password protection status Only P0 00 and C0 00 can be viewed The recently changed function codes P0 00 and P0 02 can be viewed only when correct password is entered into P0 00 Method of back to basic menu 1 By editing the function code Set P0 02 0 then the menu returns to basic menu mode after bASE is displayed 2 By using M key Define the function of multi function key M as menu switching function then press this key to switch the menu mode Refer to table 4 1 for the using method of multi function key and the meanings of MULTI indicator 3 By pressing ESC for a long time Press ESC and do not release it for more than 5s then the menu returns to basic menu mode after bASE is displayed If DASE is not displayed this means the menu is already in basic menu mode Chapter 4 Using Instructions of Operation Panel 30 V amp T Technologies Co Ltd http Awww EcoDriveCN com 4 4 4 Common Characters Displayed by LED Except the function codes in first and second level menus the operation panel will also display the following characters as shown in the following table Prompt 3 Prompt p M Meanin symbol ERS symbol g Inverter parameters are being copied and 8 8 8 8 Instantaneous display of inverter when inverter LoAd this symbol will be displayed when is powered on parameters are u
70. and V to enter 8 Information prompt status See 4 4 5 for identifying the LED display characters 4 7 2 Display Status and Operation Process gt gt key In the display status of first level menu press gt gt key to select the edit bit of function code PX YZ In second level menu or password verification status press gt gt key to select the data edit bit Auto switch between status If no key is operated for 30s the screen automatically returns to the display status of stopping parameters or the display status of running parameters If no key is operated for 1 minute clear menu edit status of PX YZ to return to P0 00 If there is password setting or key locking setting if no key is operated for 5 minutes enter password protection or operation panel locking status automatically Display Status and Operation Procedure Chapter 4 Using Instructions of Operation Panel 34 V amp T Technologies Co Ltd http www EcoDriveCN com Power on fr N P R Display parameters at stopping status i Time out and AIN stop modifying STOP Modify frequency GUS een directly _ Fault occurs _ Esc PRG AV Time out and Vv 5 __ stop modifying Fault alarm i display Display parameters at running status Fault reset PRG Display first menu Press PRG Prompt information key to Press PRG Pa increase ESC key if there function is pa
71. and the lasting time is longer than overload prealarm detection time PA 15 If tens place is selected with overload failure display and stop it will display E oL2 when the unit place is 0 it will display E oL1 when the unit place is 1 Hundreds place Determine under which run status the overload prealarm function will be enabled Note Y terminal with multiple function can be set to 4 Overload detection signal OL to display overload prealarm signal Output current A PA 14 gt Time Overload a prealarm l _ Valid gt Time detection signal Fig 6 34 Overload prealarm detection signal Chapter 6 Parameter Description 94 V amp T Technologies Co Ltd http Awww EcoDriveCN com Fault shielded and alarm attribute setup 1 0 2222 0020 Fault shielded and alarm attribute setup 2 0 2222 0000 Fault shielded and alarm attribute setup 3 0 2222 2000 The function can be used to manage various actions when some failures occur When these failures occur under some special circumstances inverter shall alarm immediately but not stop Alarm information is displayed on the operational panel and even the failure is to be shielded Unit place tens place hundreds place and thousands place displayed on operational panels from PA 16 to PA 18 can be set 0 Failure not shielded and alarm and stop during failure 1 Failure not shielded and alarm but not stop during failure 2 Failure shielded neithe
72. anel in direction 1 and then press down the operation panel in direction 2 until the crack sound is heard Do not mount the operation panel in any other direction otherwise the operation panel will have poor contact Chapter 2 Inverter Installation 10 V amp T Technologies Co Ltd http Awww EcoDriveCN com Fig 2 3 Removal of operation panel Fig 2 4 Mounting of operation panel 2 3 2 Removal and Mounting of Covers of Inverter with Plastic Enclosure Removal of operation panel Please refer to 2 3 1 removal and mounting of operation panel Removal of lower cover After removing the mounting screws of the cover press the left and right sides of the cover forcefully in direction 1 and at the same time lift the cover in direction 2 as shown in Fig 2 5 Removal of upper cover As shown in Fig 2 6 press the left and right sides of the cover forcefully in direction 1 and at the same time lift the cover in direction 2 Fig 2 5 Removal of lower cover Fig 2 6 Removal of upper cover Mounting of upper cover After the wiring of main circuit terminals and control circuit terminals insert the upper claw grab of the upper cover into the groove of the inverter body as shown in position 1 in Fig 2 7 and then Chapter 2 Inverter Installation 11 V amp T Technologies Co Ltd http Awww EcoDriveCN com press the lower part of the upper cover in direction 2 a
73. arameters corresponding to P2 03 The inverter of 3 7kw and below the output current display precision is 0 01A 5 5kw and above output current display precision is 0 1A Appendix A Modbus Communication Protocol 120 V amp T Technologies Co Ltd http Awww EcoDriveCN com The bits for the control command word 0x8000 of the inverter are defined as follows Bit Meaning Bit Meaning o 0 Stop 1 Running 3 0 Jog command 1 Jog command command enable command enable disable enable 1 0 Forward 1 Reverse 14 0 Emergency stop 1 Emergency stop rotation rotation disable enable 2 0 Reset 1 Reset 15 0 Coast to stop 1 Coast to stop command disable command enable disable enable Note Bits 4 13 are reserved The bits for the status word1 0x810B of the inverter are defined as follows Bit Meaning Bit Meaning 0 0 Inverter stop 1 Inverter running Running command reference mode selection 56 0 Operation panel reference 3 0 Forward rotation 1 Reverse rotation 1 Terminal reference 2 host computer reference 4 0 Button unlocked 1 Button locked 8to 15 0 Normal others Failure code Note Bits 1 2 and 7 are reserved The bits for the status word 4 0x810E of the inverter are defined as follows a Meaning Bit Meaning 0 Non open loop 1 Open loop 0 0 Non jog running 1 Jog running 5 multi section voltage multi section voltage op
74. ble shall be no longer than 50m The wires of the control circuit terminals RA RB RC and other control circuit terminals shall be separately routed It is forbidden to short circuit the shielding layer and other signal cables or equipment When the inverter is connected to the inductive load equipment e g electromagnetic contactor relay and solenoid valve surge suppressor must be installed on the load equipment coil as shown in Fig 3 5 o m oO mro 5 oS k i O B i Inductive uN DC 24V Inductive 2 AC 220V Inductive AC 220V load load o l load i 3 O O O Fig 3 5 Application of inductive load surge suppressor Chapter 3 Wiring of Inverter 19 V amp T Technologies Co Ltd http Awww EcoDriveCN com 3 7 Terminal Wiring DC reactor Braking resistor Multi function input 4 Mult function input 2 Muli function input3 M function input 4 i i Y Be0 20n A010 oo t DC 0 10V Ao2 2c 0 20mMA Al1 Al2 AO1A02 Pt t vvv vV F Shielding Tip Twisted shielding it cable Aue cable Fig 3 6 Terminal wiring diagram Take E5 H 4T5 5G as an example Chapter 3 Wiring of Inverter 20 V amp T Technologies Co Ltd http Awww EcoDriveCN com 3 8 Functions of Control Circuit Terminals Terminal Terminal function r ii description Technical specification Rate 38400bps Up to 32 set
75. command 2 After shutdown adjustment volume ofA V on operational panel is cleared under the stop status Frequency cannot set by A V under the stop status Hundreds place Setting of A V on operational panel 0 Only valid when the main reference is P0 05 open loop digital frequency setting P0 04 0 1 Valid under all frequency reference modes P0 04 not specified 2 Operational panel adjustment A V disabled Thousands place Setting of A V on operational panel 0 With integral function When the operation panelA V adjustment is used to set the frequency the consistent adjustment in one direction has integral effect The step length of adjustment starts from 0 01Hz after every 10 times of adjustment the step length will be increased by 10 times and the maximum step length of adjustment is 1 00Hz 1 Without integral function When the operation panel A V adjugment is used to set the frequency the step length of the adjustment is fixed to 0 1Hz Note When operating under process closed loop PID the closed loop reference also can be adjusted with operational panel A V Then adjustment volume of A V is regarded as analog superimposed upon closed loop reference The minimum step size is 1mV Terminal UP DN digital regulating frequency control 0 1221 0001 Terminal UP DN integral rate 0 1 50 0 s 2 0s Display of operational panel Action when power failure Unit place 0 Mains loss save 1 Zero clearing upon mains loss Act
76. convert the externally input analog value into analog values inside the inverter The analog value selection is determined by P6 21 Note The running and stop display parameters Al1 and Al2 determined by P2 02 and P2 03 all refer to the analog values inside the inverter When current analog value input is selected please refer to Fig 6 20 When Calibration by curve is not necessary is selected the maximum analog input or maximum input pulse frequency corresponds to the maximum output frequency P0 11 or Chapter 6 Parameter Description 76 V amp T Technologies Co Ltd http Awww EcoDriveCN com 100 per unit value of the inverter Since the using methods of curve 1 and curve 2 are identical Curve 1 is described as an example here Both curve 1 and curve 2 can be used in process open loop analog frequency reference and the running frequency of the inverter can be determined by the analog values Ali and Al2 The conversion relationship between analog value and setup frequency is as shown in the figures below Input percentage Input percentage Aln 0 10V 0 Input analog 10V or DI 0 P5 10 o Input analog 20mA value P5 10 value Aln 0 20mA 0 Fig 6 19 Corresponding percentage of input analog Fig 6 20 Corresponding percentage of input analog value voltage frequency value current Setup frequency f Setup frequency f f1 P6 04 f0 P6 02 f0 P6 02 fi Ped ee N gt Ai
77. crease under Unit place Tens place Hundreds place proper operation The inverter maximally decreases reactive power to offer further energy savings Adjust the parameter according to real load conditions The larger the parameter is more visible the energy saving effect achieves and the longer the response time lasts for the inverter converting from energy saving condition to proper operation status Chapter 6 Parameter Description 92 V amp T Technologies Co Ltd http Awww EcoDriveCN com Note This function is disabled during acceleration deceleration process PA 08 Magnetic flux braking selection 0 1 1 0 Magnetic flux braking disable 1 Magnetic flux braking enable When the motor decreases the inverter can rapidly slow down if magnetic flux braking action is selected Then the electric energy can be transformed to heat energy during the braking process Rapid deceleration can be realized by selecting magnetic flux braking action but the output current will be larger Selecting no action the deceleration will last longer but the output current will be smaller PA 09 Energy consumption braking selection 0 1 0 Determine whether to use energy consumption braking using braking unit selection PA 09 0 Energy consumption braking disable 1 Energy consumption braking enable For large rotating inertia applications and when rapid stop by braking is required select matched braking unit and brakin
78. ctive Tens place Multi function output P7 25 status selection 000 O 1111 o erminal Y1 0 Current through Y1 is valid 1 No current through Y1 is valid Hundreds place relay terminal 0 Enabled in magnetizing status 1 Enabled if not in magnetizing status Group P8 Process PID Close Loop Control Analog feedback process close loop A 3 P8 00 control digital voltage 0 00 0 00 10 00 Vv o 0 00 10 00V reference P8 03 Proportional gain KP 0 200 0 000 10 000 o 0 000 10 000 P8 04 Integral gain Ki 0 500 0 000 10 000 o 0 000 10 000 P8 05 Differential gain Kd 0 000 0 000 10 000 o 0 000 10 000 P8 06 Sampling cycle 0 002 0 001 30 000 s o 0 001 30 000s P8 07 Deviation limit 5 0 0 0 20 0 o 0 0 20 0 Ones place Integral mode 0 Frequency reaches upper lower limit stop integral regulation PID adjustment 1 Frequency reaches upper lower P8 08 selection 10 On z limit continue integral regulation Tens place output frequency 0 Be consistent with preset direction 1 Reverse to preset direction PID positive or negative a P8 09 function 0 0 1 i o 0 1 Group P9 Motor Parameter 0 G type constant torque heavy duty application P9 00 Load type 0 Qed j 1 Ltype variable torque light duty application P9 01 Number of motor poles 4 2 24 x 2 24 Rated rotating velocity 7 E P9 02 of motor 1500 0 30000 rpm x 0 30000rpm P9 03 Rated power of motor 11 0 0 4 999 9 kW x 0 4 999 9kW P9 04 Rated current of
79. curent ofinverter Ones place Over voltage regulation 0 Disabled 1 Enabled Voltage adjustment Tens place Under voltage regulation PA 06 function 101 Ooo l 0 Disabled 1 Enabled Hundreds place Over modulation 0 Disabled 1 Enabled Pa o7 Energy saving 0 0 50 o 0 50 coefficient Magnetic flux braking 0 Disabled PA 08 selection Oe 1 Enabled Energy sonsumption M 0 Disabled PAOS braking selection o oe 1 Enabled Braking unit operating 100 0s Total cycle working time and PA 10 time 100 0 100 0 s x interval is 100s Paci Braking unit action 750 650 750 V x 650 750v voltage LED ones place Under volt fault Relay action indication 0 Disabled 1 Enabled i i z LED tens place Auto reset interval PA 12 re the inverter is 100 000 111 x 0 Disabled 1 Enabled y LED hundreds place Fault locking 0 Disabled 1 Enabled LED ones place Selection of detected value 0 Motor overload pre alarm relative o motor rated current 1 Inverter overload pre alarm relativel o inverter rated current Inverter or motor z LED tens place Action selection after PA 13 overload prealarm 900 O00 ett overload pre alarm 0 Continue running 1 Report overload fault and stop LED hundreds place Detecting condition selection 0 Detect all the time 1 Only detect at constant speed pa 14 Overload pre alarm 130 0 20 0 200 0 x 20 0 200 0 detection level BAAS Overloadipre alarm 50 o1 600 s x
80. cy ms s min h kh Time kW Power Mpa Pressure No unit o This function code can be changed during operation x This function code can only be Property changed during stopping status The setting of this function code is read only and cannot be changed Function code selection User setting Function code parameter setting list Used for recording parameters by user Note E5 series inverter built in multi fan and pump control mode to realize customsized energy saving requirement For details refer to function code of Pb 21 and Pb 22 E5 series inverter built in constant pressure close loop control and sleeping function For details refer to function code of group HO 5 1 List of Basic Menu Function Codes Function code number Function code name User setting Factory setting gon Setting range Property Function code selection Group PO Basic Function Parameter P0 00 User password 0000 No password 9000 OSEREE Gi Other Password protection Function code P0 01 protection 0 All the parameters can be modified 1 All the parameters cannot be modified 2 Restore parameters in zone P to factory settings 3 Restore parameters in zone P to factory settings except for P9 group 4 Recover the parameters in zone P and zone A to factory settings 5 Recover all the parameters to factory settings except for d group P0 02 Function code display 0
81. de for identification of product and determining product information 6 17 Use of Display Parameters Group d2 Frequency corresponding to the current rotation speed of 0 00 655 35Hz 0 00Hz the motor Parameters in d2 group are read only parameters d2 09 indicates the input status of X terminal 0 indicates Open while 1 indicates Close Hexadecimal combination is adopted and the lowest bit indicates X1 d2 12 indicates the failure source of analog input 1 indicates Al1 exceeding limit 2 indicates Al2 exceeding limit 3 5 reserved d2 13 indicates the current detection failure source display 2 indicates phase W abnormal 4 indicates phase V abnormal and 6 indicates phase U abnormal Chapter 6 Parameter Description 103 V amp T Technologies Co Ltd http Awww EcoDriveCN com 6 18 Special Parameters for Constant Pressure Control Group HO H0 00 Close loop function slection for constant pressure control O 1 0 P0 03 Control operation mode O 1 0 Through pressure sensor send actual pressure signal to inverter to perform close loop control realized constant pressure for fan or pump Note If setting H0 00 to 0 the function of HO 01 H0 09 is invalid If setting H0 00 to 1 P0 03 must be set to 1 to realized close loop constant pressure control If setting HO 00 to 1 close loop reference and close loop feedback percentage display of the operation is pressure reference value and pressure feedback value H0 01 The pre
82. e Off Running command is given via terminals Red 2 indicator Flash Running command is given via host computer B nhinaetatus On Inverter is running no 2 RUN ng Off Inverter has stopped Red x indicator i i a Flash Inverter is stopping On In stop status inverter has run forward command Run forward A i FWD ar In running status inverter is running forward Red indicator j i Flash Changing from running forward to running reverse Chapter 3 Wiring of Inverter 25 V amp T Technologies Co Ltd http Awww EcoDriveCN com Shuttle typ Key type Enter each level of menu i Confirm data storage Check function code in sequence Confirm the running command reference mode with M key Back to first level menu from second level menu Back from first level menu to standby status running status and fault status Give up data storage after modifying data Back to basic menu mode after pressing this key for more than 5s Refer to 4 4 3 When LCD cannot display all the function codes use this method to re display all the function codes After using gt gt key to switch from fault display to Stop Run parameter display press ESC to back to fault display status In first level menu increase function code according to edit bit In second level menu increase the function code data In stop run status increase the input frequency or close loop input In first level menu decrease function code according to edit bit In
83. e ambient Temperature Ambient under temperature temperature complies with the 26 E dL2 sampling requirements disconnection The temperature sampling circuit inside the Seek for technical support inverter is faulty 27 E dL1 Reserved Reserved Reserved Increase 10V power load impedance 28 EP10 10V power 10y power overload Utilize externally independent i output abnormal power supply 10V power supply and GND is short circuited Eliminate the short circuit failure 10V power terminal circuit failure Seek for technical support Check whether the analog input Analog input voltage is too high voltage complies with the 29 EAE Analog input i requirements abnormal Analog input circuit failure Seek for technical support Analog input circuit signal interfered Increase the ee ae filtering time The motor temperature signal reaches the Strengthen ventilation and Nitor over alarm setting value radiation 30 E Ptc temperature PTC Thermistor resistance failure Check the thermistor The sensor protection threshold of the motor is Adjust the sensor protection set improperly threshold of the motor The communication of operation panel 485 is Check the connection of the disconnected equipment communications Check whether the data Communication receiving and transmission abnormal 1 a og d complies with the protocol 31 poet Operation panel i saa of operation panel 485 is whether the check sum is correct 485 and whether the receiving and transmission interval co
84. e circuit The capacity of the circuit breaker shall be 1 5 2 time of the rated current of the inverter The time features of the circuit breaker shall fully consider the time features of the inverter overload protection Because the inverter output is the high frequency pulse there will be high frequency leakage current Special leakage circuit breaker shall be used when installing leakage circuit breaker at the input end of the inverter breaker It is suggested that B type leakage circuit breaker be used and the leakage current value shall be set as 300mA Frequent open and close of contactor will cause inverter failure so the highest frequency for the open and close of contactor shall not exceed 10 times min Contactor When braking resistor is used to void the overtemperature damage of the braking resistor thermal protection relay with braking resistor overtemperature detection shall be installed to disconnect the contactor at the contact control power side of the thermal protection relay Input AC reactor or DC reactor 1 The inverter power supply capacity is more than 600kVA or 10 times of the inverter capacity 2 If there is switch type reactive load compensation capacitor or load with silicon control at the same power node there will be high peak current flowing into input power circuit causing the damage of the rectifier components 3 When the voltage unbalancedness of the three phase power supply of the inverter exce
85. e of Parameters Precision Register Name of Parameters Precision According to Display parameters of k 0x810B Equipment status word 1 0x8114 currently stopping stopping status display According to Display parameters of 0x810E Equipment status word 4 0x8116 currently running running status N display 0x8120 Reference frequency Hz 0 01Hz 0x8180 Reference frequency Hz 0 01Hz 0x8122 Bus voltage V 1V 0x8182 Bus voltage V 1V 0x8124 Al V 0 01V 0x8184 Ali V 0 01V 0x8126 Al2 V 0 01V 0x8186 Al2 V 0 01V 0x8128 Reserved 0x8188 Reserved 0x812A Reserved 0x818A Reserved 0x812C External counts 1 0x818C External counts 1 0x812E Rotate speed of motor 1 0x818E Rotate speed of motor 1 0x8130 Close loop reference 0 1 0x8190 Close loop reference 0 1 0x8132 Close loop feedback 0 1 0x8192 Close loop feedback 0 1 0x8134 Reserved 0 1 0x8194 Reserved 0 1 0x8136 Operating frequency Hz 0 01Hz 0x8196 Reserved 0 1A or 0x8138 Output current A 0x8198 Reserved 0 01A 0x813A Output torque 0 1 0x819A Reserved 0x813C Output power kW 0 1kW 0x819C Reserved 0x813E Output voltage V 1V 0x819E Reserved Note 0x8121 0x819Fodd numbers are display attribute word from LSB to MSB are Hex Dec for 1bit precision for 2bit modification for 2bit and unit for 3Bit The register addresses 0x8120 0x813F refer to the display parameters corresponding to P2 02 while the register addresses 0x8180 0x8193 refer to the display p
86. e real terminal is enabled 1 The virtual terminal is enabled Hundreds place When Xi terminal signal source is input as virtual terminal whether the corresponding function of this terminal is effective depends on the control of the host computer and has nothing to do with the real status of the current Xi terminal When Yi and relay terminals are output as virtual terminals the real outputs of these terminals depend on the control of the host computer and have nothing to do with whether the output terminal function set is effective P7 25 Terminal effective status selection 000 111 000 It defines the validity of the input and output status of the multifunctional digital terminals Chapter6 Parameter Description 85 V amp T Technologies Co Ltd Display of operation panel Unit place Multifunctional input terminal Xi 0 Current through Xi is valid 1 No current through Xi is invalid Tens place Multifunctional output terminal Y1 0 Current through Y1 is valid 1 No current through Y1 is invalid Hundreds place Relay output terminal 0 Enable in magnetizing status 1 Enable in no magnetizing status http www EcoDriveCN com When the digital input Xi terminal and COM terminal are short circuited it may judge whether the input status is valid by whether there is current flowing in the terminals When the digital output Y1 terminal acts as open collector output i
87. e the analog output curve according to function codes P7 05 to P7 09 For details refer to the description of P7 group in Chapter 6 Parameter Description VI Why did the inverter report E AIF analog input abnormal error A 1 Check if the jumpers of analog input type and control board are properly set For the analog voltage input toggle the corresponding channel to the V end of the jumper for the analog current input toggle the corresponding channel to the end of the jumper A 2 Check if the analog input exceeds 11V A 3 When using the 10V power supply of the inverter control board check if the voltage of 10V is lower than 9V or higher than 11V If yes check if the resistance value between the 10V and the GND is less than Appendix C FAQ 130 V amp T Technologies Co Ltd http Awww EcoDriveCN com 1KQ after the inverter is powered off completely Vil Why did the inverter report E P10 abnormal error A Check if the voltage of 10V on the inverter control board is lower than 9V or higher than 11V If yes check if the resistance value between the 10V and the GND is less than 1KQ after the inverter is powered off completely VIII Why did the PLC and inverter have abnormal 485 based communication A 1 Check if the data format address and baud rate of the inverter are consistent with that of the PLC A 2 Check if the PLC address needs Add 1 operation 3 Check if the PLC adopts Modbus RTU format 4 Check if
88. eCN com 6 19 User defined Function Code Displayed hidden Zone Parameters Group AO A0 00 Password of displayed hidden zone of user defined function code O FFFF Factory A0 01 Displayed hidden function 1 of user defined function code 0 FFFF FFFF A0 02 Displayed hidden function 2 of user defined function code 0 FFFF FFFF Customize function code menu by function code of group AO Protect the customized menu with password A0 00 Only function code groups with corresponding Bit set as 1 by A0 01 or A0 02 can be shown Note Factory default for password of displayed hidden zone of user defined function code is 1 LSB the least significant bit to MSB the most significant bit of AO 01 correspond to PO P1 P2 P3 P4 P5 P6 P7 P8 P9 PA Pb PC Pd PE and dO in turn LSB to MSB of A0 02 correspond to d1 d2 and reserved 14 bits in total Zones of PE C UO and U1 are reserved for parameters by manufacturer When recovery practices of function code P0 01 4 or 5 the displayed hidden function can be reset back to factory default Chapter 6 Parameter Description 107 V amp T Technologies Co Ltd Chapter 7 Fault Diagnosis 7 1 List of Fault and Alarm Information http www EcoDriveCN com E5 H serial inverter is equipped with complete protection functions to provide efficient protection while utilizing its performance sufficiently Some failure instructions may be displayed during operation Compare the instructions with
89. eds 3 the rectifier component will be damaged 4 Itis required that the input power factor of the inverter shall be higher than 90 When the above situations occur install the AC reactor at the input end of the inverter or DC reactor to the DC reactor terminal Input noise filter The noise input from the power end to the inverter and output from the inverter to the power end can be reduced Thermal protection relay Although the inverter has motor overload protection function when one inverter drives two or more motors or multi pole motors to prevent the motor overtemperature failure thermal protection relay shall be installed between the inverter and each motor and the motor overload protection parameter P9 16 shall be set as 2 motor protection disabled Output noise filter When the output end of the inverter is connected with noise filter the conduction and radiation interference can be reduced Output AC reactor When the cable connecting the inverter and the motor is longer than 100m it is suggested to install AC output reactor to suppress the high frequency oscillation to avoid the damage to motor insulation large leakage current and frequent inverter protective action 3 3 Lectotype of Main Circuit Peripheral Devices R L1 S L2 T L3 1 2 B1 B2 Grounding terminal PE Circuit U T1 V T2 W T3 Inverter model Breaker Gontacto Tighte
90. ee 3 1 5 Product Component Name wiesccccccussscdessceetarsgecedcbtessareiae bisthdvabdeveeaivees neid rE ip oi aik Ea aE 5 1 6 Product Outline Mounting Dimension and Weight cceceeeeeeeeeeeneeeeeeeeeteneeeeseneeeteeaeeeeeeneeeeeneeeees 5 1 7 Operation Panel Outline and Mounting DiMeNsion ceeeeeeeeeeeeeeeneeeeeneeeeeneeeeeeaeeeteeaeeeseneeeseeneeeees 7 1 8 Pallet Outline and Mounting Dimension 0 ce eecceeecceeeeceeeeeeseeeseneeeeesaeeeeeaeeesesaneeeeeeesesaeesseaeeeeeeaeeeees T 1 9 Braking Resistor Lectotype Chapter 2 Inverter Installation ccccssccssceseseesesseessseesseessoeseeeeseessaessaeessaessaeseaeeseaeesneessauesaneennenans 9 2 1 Environment for Product Installation ccccecccceeeeeeeeeeeeeeeeeneeeeeneeeeeaeeeseeneesesaeeeeseneesseneeseeeneesseneeeseaee 9 2 2 Mounting Direction and Sp G essasi r ea Aeeaetansee seen cients Sine 9 2 3 Removal and Mounting of Operation Panel and Covel cccceeescceeesceeeseeeeeeeneeeeeneeeseneeeseeneeesenneeeees 10 Chapter 3 Wiring of Inverter c ccssscssceseseeeseesseeesseesseeseaeseseessaesseessaessaeseseeusoessaeeesaeenansueneneaeneaees 14 3 1 Connection of the Product and Peripheral Devices ecceseseeeeeeeeeeeeeeeeeeneeeeeeaeeeteneeeeeeeeeeeenneeeees 14 3 2 Description of Peripheral Devices for Main CirCuit eecceseseeeeeeeeeeeeneeeeeneeeeeeeeeseeneeeesneeesenneeeees 15 3 3 Lectotype of Main Circuit Peripheral Devices
91. en the motor rotation direction is opposite to the required direction of the equipment the wire connection of any two terminals at the output side the inverter can be interchanged so that the forward rotation direction of the equipment is consistent with the forward rotation direction defined by the inverter Set P3 10 to realize the waiting time for the zero crossing of rotation speed when the inverter switches from forward rotation to reverse rotation or from reverse rotation to forward rotation Output frequency P3 10 Time Fig 6 10 Forward reverse dead zone time P3 11 Jog frequency 0 10 300 00 Hz 5 00Hz P3 12 Jog acceleration time 0 1 60 0 s 6 0s P3 13 Jog deceleration time 0 1 60 0 s 6 0s P3 11 is the frequency set for jog operation Jog acceleration time P3 12 The time from zero to maximum frequency Jog deceleration time P3 13 The time from maximum frequency to zero When the inverter is in standby status it can adopt jog operation The jog operation command may come from the operation panel multi functional terminal or host computer Chapter 6 Parameter Description 65 V amp T Technologies Co Ltd http Awww EcoDriveCN com 6 5 Multi section Parameter Group P4 V F voltage value V2 0 0 100 0 0 0 P4 07 V F frequency value F3 0 00 300 00 Hz 0 00Hz P4 08 V F voltage value V3 0 0 100 0 0 0 It is to determine the different V F curves Output voltage Output voltage Vmax VM
92. ence calculation 4 Chapter 6 Parameter Description 59 V amp T Technologies Co Ltd http Awww EcoDriveCN com Open loop combination reference fcom Max main reference fm auxiliary reference fa 5 Min Get the minimum value of the main reference fm and the auxiliary reference fa Frequency A fa foom gt Time Fig 6 9 Process open loop main and auxiliary reference calculation 5 Open loop combination reference fcom Min main reference fm auxiliary reference fa Note When the corresponding frequency of the combination value feom exceeds the upper or lower limit of the frequency the output frequency will be restricted to the upper or lower limit P1 02 Analog feedback close loop control main reference mode 0 2 0 P1 03 Analog feedback close loop control auxiliary reference mode 0 2 0 P1 04 Analog feedback close loop control reference main and auxiliary 0 5 0 calculation In the analog feedback close loop system if there are main reference and auxiliary reference the main reference value can be digital voltage analog and pulse the auxiliary reference value can be analog and pulse The analog feedback close loop control main reference mode P1 02 may be selected as follows 0 Digital voltage reference P8 00 1 Al1 2 Al2 Digital voltage definition 0 10V is indicated in digits in parameter P8 00 The analog feedback close loop control auxiliary reference mode P1 03 may be selected as follows 0 No
93. ence fcom main reference fn auxiliary reference fa 1 Main reference auxiliary reference The auxiliary frequency reference value is superimposed on the main reference the function is subtract Frequency Time feom Fig 6 5 Process open loop main and auxiliary reference calculation 1 Open loop combination reference feom Main reference fm auxiliary reference fa 2 Auxiliary reference 50 The auxiliary reference value subtracts the bias equal to 50 of the auxiliary reference full range value The main reference value is invalid at this time Chapter 6 Parameter Description 58 V amp T Technologies Co Ltd http Awww EcoDriveCN com Frequency A 100 gt Time Fig 6 6 Process open loop main and auxiliary reference calculation 2 Open loop combination reference fcom auxiliary reference fa 50 bias 3 Main reference auxiliary reference 50 The auxiliary reference value subtracts the bias equal to 50 of the auxiliary reference full range value and then superimposes on the main reference Frequency A 100 aay fa 50 gt Time Fig 6 7 Process open loop main and auxiliary reference calculation 3 Open loop combination reference fcom main reference f auxiliary reference fa 50 bias 4 Max Get the maximum value of the main reference fm and the auxiliary reference fa Frequency A foom gt Time Fig 6 8 Process open loop main and auxiliary refer
94. eration operation Non cl I 1 Cl I 1 9 on oie oP Glog eee 6 0 Normal voltage 1 Under voltage operation operation 0 Non open loop multi section frequency 2 operation 7 Reserved Reserved 1 open loop multi section frequency operation 0 Non close loop multi section frequency 3 operation 14 0 Speed control 1 Reserved 1 Close loop multi section frequency operation f a e ith 4 0 Non common 1 Common 15 0 without vector Reserved operation operation control Note Bits 8 13 are reserved Special register for input password authentication Attached Table 4 Sub function Meanin code of PDU g OxF000 Inverter user password P0 00 authentication and it will be closed automatically if no operation 7 is performed within five minutes PE 00 password authentication for the display and hidden areas of the specially authenticated OxF001 function codes of the inverter and it will be closed automatically if no operation is performed within five minutes Appendix A Modbus Communication Protocol 121 V amp T Technologies Co Ltd http Awww EcoDriveCN com A0 00 password authentication for the display and hidden attributes customized areas of the OxF002 function codes of the inverter and it will be closed automatically if no operation is performed within five minutes Register for function code characteristics of the inverter Attached Table 5 Register r P address Meaning Range Read R
95. ere exists the risk of electric shock When auto failure reset function or restart function is set isolation measures shall be taken for the mechanical equipment otherwise personal injury may be caused When the inverter is powered on even when it is in the stop state the terminals of the inverter are still live Do not touch the inverter terminals otherwise electric shock may be caused The failure and alarm signal can only be reset after the running command has been cut off Otherwise personal injury may be caused 7x M Note Do not start or shut down the inverter by switching on or off the power supply otherwise the inverter may be damaged Before operation please confirm if the motor and equipment are in the allowable use range otherwise the equipment may be damaged The heatsink and the braking resistor have high temperature Please do not touch such device otherwise you may be burnt When it is used on lifting equipment mechanical contracting brake shall also be equipped Please do not change the inverter parameter randomly Most of the factory set parameters of the inverter can meet the operating requirement and the user only needs to set some necessary parameters Any random change of the parameter may cause the damage of the mechanical equipment In the applications with industrial frequency and variable frequency switching the two contactors for controlling the industrial frequency and variable frequency s
96. erminal or relay terminal and the Y1 terminal function number P7 00 or relay terminal function number P7 02 set to 18 arrive continuous running time From the inverter power on running time reach summation running time reference Pb 14 can output this signal through Y1 terminal or relay terminal and the Y1 function number P7 00 or relay terminal function number P7 02 set to 17 arrive summation running time Note Summation running time and continuous running time will be reset to 0 if power off Continuous running time will be reset to 0 in stopping status even power on If continuous running time output signal is valid will become invalid in stopping status and be reset to 0 Summation running time will not be reset to 0 in stopping status If summation running time output signal is valid will become invalid in stopping status and be reset to 0 Pb 15 Restart automatically after power resumes normal 0 1 0 Pb 16 Waiting time for restart 0 0 20 0 s 05 s 0 No action after power resumes normal 1 Action after power resumes normal The function supports automatic operation of the inverter upon power resume normal after power failure Be careful in using this function When restart after power failure is selected the inverter will operate automatically after power on under any operating command reference mode such as operation panel operating command reference terminal operating command reference or host compu
97. ertemperature protection inverter overload protection motor overload protection peripheral protection abnormal current detection output to ground short circuit abnormal power failure during operation abnormal input power output phase failure abnormal EEPROM abnormal relay contact temperature sampling disconnection abnormal 10V power supply output abnormal analog input motor overtemperature PTC abnormal communication abnormal version compatibility abnormal copying terminal mutual exclusion detection failure hardware overload protection At rated power 7 5kW and below power class 293 45kW and below power class 295 55kW and above power class 298 The product shall be mounted vertically in the electric control cabinet with good ventilation Horizontal or other installation modes are not allowed The Operating site cooling media is the air The product shall be installed in the environment free from direct sunlight dust corrosive gas combustible gas oil mist steam and drip 10 40 C derated at 40 50 C the rated output current shall be Ambient temperature i g decreased by 1 for every temperature rise of 1 C Humidity 5 95 no condensing Altitude 0 2000m derated above 1000m the rated output current shall be decreased by 1 for every rise of 100m 3 5mm 2 9Hz 10 m s 9 200Hz 15 m s 200 500Hz Storage temperature 40 70 C Chapter 1 Introduction to E5 H Series Inverter 4 V amp T Techn
98. etails refer to the function description gt P4 09 P4 14 Te a of P5 00 to P5 006 in Chapter 6 ny Setting P0 08 and P0 09 A ae Y oe to run from the gt Setting P3 00 0 a startup frequency pe Setting P3 00 1 ae i DC braking ji _ First DC braking after Fo Y Setting startup frequency lt begin to run from the startup gt gt current PO Q liane P3 03 and startup froquenoy S quency re braking keep retention time P3 04 a a P3 02 Ny Rotation speed tracing startup setting Setting P3 05 0 Setting P3 05 1 DC braking stop setting P3 05 2 setting P3 06 P3 07 and P3 08 properly For the meaning refer to Chapter 6 Parameter Description lt Setting P3 09 1 Setting PA 09 1 Setting PA 09 0 ict END Appendix B Control Mode Setting Process 129 V amp T Technologies Co Ltd http Awww EcoDriveCN com Appendix C FAQ I In the case of V F control why did the inverter have abnormal operation A 1 Check if parameter auto tuning has been performed under V F control For details refer to the setting process for parameter auto tuning in Appendix B A 2 Check if the control lines for the E5 H 4T18 5G or current sensor of above power class are loose or dislocated Il Why was the
99. ezeavees oe eae ae a eraen deraan eieuta der aaisa iiaia 6 6 Multi functional Input Parameter Group P5 6 7 Analog Reference Parameter Group P6 cccccccsscccsssececsseeeeesseeeesseeccsseeeeesaeeeesseeesesseesesseeeesseeeeens 6 8 Multi function Output Parameter Group P7 ccccccccssececssececessececsseeeesseeeessseeceseeeeesseesesseeeesseeeeens 6 9 Process PID Close Loop Parameters Group P8 cccccccsscccsseecesseeeesseeeessseecesaeeecseateseseeeesseeesens 86 6 10 Motor Parameter Group P9 snide cevsaesevsveucvecet vee wer vvcsutevevessvesveceearcevemeaseed 88 6 11 Control Parameter Group PA ssania a pa aa A aE a aE aeaa aaa daare 91 6 12 Enhanced Function Parameter Group Pb cccccccsscccssseeeesseeecsseeecseeeessaeeceseeesesseeeeseeeesseeeeens 96 6 13 Communication Parameters Group PC a eTa e E ETT A T E E T E E TE 6 15 Failure Record Parameters Group dO cccccccsscccsssecccsseeceesseeecseeecsseeeeesseeeeseeecesseeeesseeeessaeees 6 16 Product Identity Parameters Group d1 cccecccscccsssecccsseeeessseeeceeceessseeeessseeesseecesseeeesseeeessaeees 6 17 Use of Display Parameters Group d2 6 18 Special Parameters for Constant Pressure Control Group HO c ccccsccccsssececsseeeeesseeeesseeeesseeees 104 Chapter 7 Fault DiaQnOsSiSiiiscisscescccsscesccsascsavectcssazeanysasscassdenseaesevadenssdbedastedvedcsbedcedsaiiasdseabedasdeabedideaea 108 ZVEistof Faulta
100. f Parameters 52 V amp T Technologies Co Ltd http Awww EcoDriveCN com Chapter6 Parameters Description 6 1 Basic Function Parameter Group PO Poo SEO This function is used to prevent the irrelevant personnel from inquiring and changing the parameters so as to protect the safety of the inverter parameters 0000 No password protection All the parameters in Zone P can be inquired and changed If P0 01 1 the change to parameters is disabled and no password is set upon inverter delivery Set password Input four digits as user password and press PRG key for confirmation Repeat this operation once Change password Press PRG key to enter the password verification status and 0 0 0 0 is displayed Input correct password and it enters parameter editing status Select P0 00 parameter P0 00 displayed as 0000 Input new password and press PRG key for confirmation Set the same password for P0 00 twice When P Set is displayed the new password is successfully set Cancel password Press PRG key to enter the password verification status and 0 0 0 0 is displayed Input correct user password to enter the parameter editing status check if P0 00 is 0000 Press PRG key for confirmation and set P0 00 0000 again and then P Clr is displayed and the password is cancelled Note For the method for activating the password refer to 4 5 password operation Function code protection 0 5 0 This function is used to set the m
101. g resistance and set braking parameter for the motor stop rapidly by braking PA 10 Braking unit operating time 100 0 s 100 0s PA 11 Braking unit action voltage 650 750 V 750V Braking unit operating time PA 10 and braking unit action voltage PA 11 are only applied to inverter with built in braking unit Braking unit action cycle is fixed to be 100s If PA 09 is set as 1 the use rate of the braking unit is fixed to 100 That is the use time of the braking unit is fixed to 100 0s Action voltage of braking unit can be selected by adjusting PA 11 The motor can be stopped rapidly by energy braking with the appropriate action voltage Note Set PA 09 to 1 when using braking unit For model selection of braking unit parts and connection refer to 1 9 braking unit model selection PA 12 Relay action indication when the inverter is faulty 0 111 000 Generally when inverter produces a failure alarm the relay will make corresponding indication action With this function the action of error relay terminal can be set under some special conditions Display of operation panel Under voltage failure 0 Disable 1 Enable Auto reset interval period 0 Disable 1 Enable Failure locked 0 Disable 1 Enable Unit place Under low voltage status such as power up or power failure choose whether the failure Unit place Tens place Hundreds place indication to act or not Tens place When the real failure is no
102. gthen ventilation and radiation Blockage of air duct Clean the dusts wools and other Heatsink 2 over foreign objects in the air duct 12 E oH2 temperature Check whether fan wirings are protection Fan failure well connected Replace a new fan of the same model Rectifier module failure Seek for technical support Temperature detection circuit failure Seek for technical support Input power under voltage Check input power supply Fast start up when motor operates with high Start again after the motor stop speed rotating A Shorten the overloading time and Keep overloading for a long period of time reduce load 13 E oL1 Da overtag Accelerati 1d dedal rationitime isit e short Prolong the protection cceleration and deceleration time is too sho acceleration d celaration tine V F curve ratio is set too large Adjust V F curve setting and torque boost Power level of inverter is small He to inverter with proper Chapter 7 Fault Diagnosis 109 V amp T Technologies Co Ltd http www EcoDriveCN com pue retin panu Potential causes Solutions No code description Input power under voltage Check input power supply KE j Prevent the motor rotation from W is blocked or load mutation blocking and reduce the load i mutation or Replace the common motor with Motor overload Common motor maintains running under heavy variable frequency motor or 14 E oL2 protection load f
103. higher power class is controlled by the heatsink temperature When the inverter is powered up under low temperature condition the fans will not run XIV What will happen if the CN1 busbar of the control board is loose or damaged A If the CN1 busbar of the control board is loose or damaged the inverter cannot run or will report several errors For instance the inverter may display LU or relay contactor could not pull on or report such errors as E oc1 E FAL E oH1 E oH2 and E Cur ect Appendix C FAQ 132
104. ible resistance Attached Fig 4 Connecting Multiple Inverters to the Computer Appendix A Modbus Communication Protocol 124 V amp T Technologies Co Ltd http Awww EcoDriveCN com Appendix B Control Mode Setting Process 1 Setting Process for Auto tuning Parameter auto tuning under vector control 1 C START gt a y Setting P0 01 5 AA Setting rated voltage of motor P0 12 y Setting rated frequency of motor P0 15 AA Setting upper frequency limit of motor P0 13 y Setting max frequency of motor P0 11 Setting P4 00 1 Y auto torque boost oe gt invalid please Setting correct setting about P4 01 P4 08 Motor with multi V F P0 16 3 manual torque boost Please select correct P4 00to 2 6 according to upon Motor with multi power V F variable torque load N Setting motor parameter P9 00 P9 04 y Setting P9 15 1 AA Press RUN key to perform parameter tuning y 5 END N A Appendix B Control Mode Setting Process 125 V amp T Technologies Co Ltd http www EcoDriveCN com 2 Setting Process for Open Loop ra s START Ke Fi Parameter identification For details refer to setting process for parameter auto tuning under V F control in appendix B v P0 03 0 Process open loop V F control
105. ime on the level or the pulse output signals are valid terminal pulse width defines pulse signal the effective pulse hold time Figure 6 27 in the Yi on behalf of Y1 relay terminal in order to keep the waveform consistent before Relay terminal 0 Level signal 1 Pulse signal 0 0 999 9s 0 0s 0 0 999 9s 0 0s 0 0 999 9s 0 0s 0 0 999 9s 0 0s delay and after delay need to ensure that the output signal width gt Yi terminal delay setting if the output signal width lt Yi terminal delay setting the signal will be ignored Chapter 6 Parameter Description 83 V amp T Technologies Co Ltd http Awww EcoDriveCN com Yi terminal Yi signal pulse width tw Yi signal before delay Yi signal after delay oe Yi signal pulse width two Yi terminal delay time t Time Fig 6 28 Delay of output terminal Yi P7 18 Zero current detection width 0 0 50 0 0 0 This function can be used for load change detection Once the output terminal is set to 22 Zero Current Detection Arrival indication signal will be output upon the inverter output current is lower than the zero current detection width P7 18 Note This function parameter is percentage of the inverter output current to rated current of the motor P7 19 Frequency arrival detection width 0 00 300 00 Hz 2 5Hz This function is used for detecting the deviatio
106. ing state 33 47 Reserved 48 Command switching to operation panel 49 Command switching to terminal 50 Command switching to host computer The above three functions are set to facilitate the switching of running command reference mode When the terminal is switching from disabled status to enabled status the edge trigger is valid 51 Main frequency source close loop and open loop switching input Chapter 6 Parameter Description 72 V amp T Technologies Co Ltd http www EcoDriveCN com It is the process open loop operation and process close loop operation switching terminal When this terminal is enabled it means process close loop operation and when the terminal is disable it means process open loop operation 52 Main frequency source switching to digital voltage reference 53 Reserved 54 Main frequency source switching to Al1 55 Main frequency source switching to Al2 56 57 Reserved The above three functions are set to facilitate the switching of main frequency source When the terminal is switching from disabled status to enabled status The edge trigger is valid When this terminal is enabled it will switch from the current main frequency source mode to the main frequency source mode corresponding to this terminal function 58 Auxiliary frequency source switching to disabled 59 Reserved 60 Auxiliary frequency source switching to Al1 61 Auxiliary frequency source switching to Al2 62 66 Reserved 67 Closed loop output
107. injection braking stop 1 via terminal When the inverter is in the running status this terminal can be used to stop the inverter When the running frequency is lower than the DC braking frequency P3 06 the inverter will start DC braking The braking current is set by P3 07 and the braking time is the longer one between the function retention time of this terminal and the DC braking time P3 08 26 Emergency shutdown 1 fastest stop When this terminal is enabled the inverter will stop in the fastest way The inverter will automatically determine the deceleration time according to the load torque and stop as fast as possible 27 DC injection braking stop 2 via terminal Once the stop command is executed on the inverter when the running frequency is lower than the DC braking frequency P3 06 the inverter will start DC braking The brakeing current is set by P3 07 and the brakeing time is the longer one between the function retention time of this terminal and the DC braking time at stop P3 08 28 Counter trigger input It can input pulses with frequency of below 200Hz such as work counting and other slow speed pulse signals For details refer to P5 12 and P5 13 29 Counter trigger reset It is used to reset the counting value of the counter trigger input X terminal 30 to 31 Reserved 32 Forced wake up input When the inverter is in sleeping status close this terminal the inverter will out of sleeping and re enter PID regulate runn
108. inverter components 2 Prior to inspection and maintenance please make sure that the power supply to the inverter has been shut down for at least ten minutes or the CHARGER indictor is OFF or there may be risks of electric shock the inverter with power level of E5 H 4T11G or above has CHARGER indicator 3 Do not leave metal components and parts in the inverter or it may damage the equipment 8 1 Routine Maintenance The inverter shall be used under the allowable conditions as recommended in this manual and its routine maintenance shal be conducted as per the table below Item Inspection Contents Inspection Means Criteria 10 40 C Derated at 40 to 50 C and the rated Temperature Thermometer output current shall be decreased by 1 for every temperature rise of 1 C Humidity Humidiometer 5 95 no condensing Operating Dust oil water and drop Visual check i are No uUst oll water ane Environment 3 5mm 2 9Hz Vibration Special test instrument 10m s 9 200Hz 15m s 200 500Hz Special test instrument Gas smoli check and visual There are no abnormal smell and smoke check Overheat Special test instrument Exhaust normal Sound Listen There is no abnormal sound Gas Smell and visual check There are no abnormal smell and smoke The physical appearance is kept Physical appearance Visual check intact n iiaii i There are no fouling and wool that inverter
109. inverter heatsink outside the cabinet 2 2 Mounting Direction and Space In order not to reduce the inverter cooling effect the inverter must be mounted vertically and certain space must be maintained as shown in Fig 2 1 and Fig 2 2 8 Above 120mm Air circulation position i p Air circulation position Above 120mm 4 Above 30mm Above 30mm Fig 2 1 Mounting direction and space E5 H 4T7 5G and below power class Chapter 2 Inverter Installation 9 V amp T Technologies Co Ltd http Awww EcoDriveCN com c Note When the E5 H 4T7 5G and below power class inverters are mounted side by side in the cabinet please remove the upper dust guard and the lower leading board h Above 200mm Air circulation position la a i m cr a S om rat al aw n Pik 1 Air circulation position Above 200mm Above 100mm Above 100mm Fig 2 2 Mounting direction and space for E5 H 4T11G and above power class 2 3 Removal and Mounting of Operation Panel and Cover 2 3 1 Removal and Mounting of Operation Panel Removal of operation panel As shown in Fig 2 3 the grab on the operation panel forcefully in direction 1 and then lift the panel body in direction 2 Mounting of operation panel As shown in Fig 2 4 align with the lower clamping position of the operation p
110. ion sequence is shown as Out2 in Fig 6 18 Effective level will be output and kept till the counting value changes when the counting value reaches the value of P5 13 Note P5 12 cannot be set to a value of higher than P5 13 and the counter pulse signal frequency range is OHz to 200Hz The voltage range is 24V 20 Set Xi ii 1 to 4 terminal to 29 Counter trigger reset and reset the counting value when the terminal Xi is enabled P5 12 P5 13 Xi Counting 0 4l 2 3 4 5 6 7 8 9 Out 1 Out 2 Fig 6 18 Schematic diagram for the preset and reaching counting value reference 6 7 Analog Reference Parameter Group P6 P6 00 Al1 to Al2 analog value input curve selection O 44 44 This function is used to perform calibration on the signals that are input via different input channels with different analog input curves Display of operation panel Alt 0 Determine the reference frequency P6 01 P6 04 by Curve 1 1 Determine the reference frequency P6 05 P6 08 by Curve 2 2 Per unit value determined by curve 3 P6 09 to P6 12 3 Per unit value determined by curve 4 P6 13 to P6 20 4 Calibration by curve is not necessary Tens place Al2 The same as above Unit s digit Curve 1 and curve 2 can be used to directly realize the corresponding relationship between analog value and setup frequency while curve 3 and curve 4 can be used to
111. ion when shutdown 0 Maintained when shutdown Tens place 1 Reset when deceleration shutdown 2 Reset when standby Terminal UP DN regulation setting 0 Only valid when main reference is P0 05 Hundreds a place open loop digital frequency setting 1 Valid during adjustment 2 Invalid during adjustment Thousands 0 With integral function place 1 Without integral function Pb 10 and Pb 11 are the same as the usage of operational panel A V For functions of terminal UP DN refer to instructions of P5 00 P5 06 Action setting after arrive fererence running time 00 11 00 _1 ______ Continuous C emmim O time reference 0 0 6553 5min 0 omin Pois 14 Summation CO i amema time reference 0 0 6553 5min o omin 0 6553 0 0 6553 5min o omin Omin Chapter 6 Parameter Description 98 V amp T Technologies Co Ltd http Awww EcoDriveCN com Display of operational panel Unit place Arrive continuous running time 0 Continue running 1 Stop and alarm Tens place Arrive summation running time 0 Continue running 1 Stop and alarm This function code use for inverter automatic stop and alarm or continue running once running time reach the user preset time The function code Pb 13 Pb 14 defaults to 0 not timing From the inverter to respond the running command continuous running time reach continuous running time reference Pb 13 can output this signal through Y1 t
112. irstly and rewrite secondly but the register OxFO80 is an exception which shall be written firstly and read secondly so as to facilitate the management of the operation panel 5 Inverter Register Address Distribution Attached Table 1 Address Space Meaning The corresponding relationship between the function codes of the inverter and the Modbus protocol register address The bytes at higher orders refer to function code groupnumber The bytes at lower orders refer to groupnumber express with HEX 0x0000 0x1A00 adecimal PO to PE d0 d1 d2 HO H1 H2 AO CO UO U1 corresponds to the bytes at higher orders such as 0x00 to OxOE OxOF 0x10 0x11 0x12 0x13 0x14 0x15 0x16 0x17 0x18 for example the Modbus address of function code Pb 23 is Ox0b lt lt 8 23 0x0b17 The corresponding relationship between the function code attribute word of the inverter and the Modbus protocol register address The bytes at higher orders refer to the function code group No plus 0x40 while the bytes at lower orders refer to serial No in 0x4000 0x5A00 the group for example 0x4b17 corresponds to the attribute word of the function code Pb 23 The attribute words are defined in the following order BitO Bit2 for unit Bit3 Bit4 for modifying attribute Bit5 Bit6 for precision and Bit7 Bit15 for reserved purpose 0x8000 0x800D The register for control word of the inverter Refer to Attached Table 2 for details 0x810B 0x8193 The register for statu
113. l regulations connection or disconnection at the power and eliminate the errors of terminal of the inverter missing connection and Input power disconnection 22 E ILF 5 i Check whether the unbalance of failure he unbalance of input power at three input power at three phases P comply with the requirements Burning of capacitor of the inverter Seek for technical support The power on buffer circuit of the inverter is Seek for technical support faulty Check the power connections at Abhormakoutbut There is abnormal connection missing Ta PE Sa EA E E 23 E oLF MOA sie connection or disconnection at the output side p gt Op 9 phase loss of the inverter and eliminate the errors of missing connection and disconnection Chapter 7 Fault Diagnosis 110 V amp T Technologies Co Ltd http www EcoDriveCN com pue retin panus Potential causes Solutions No code description Check whether motor is kept well Shut down the power supply to Unbalance of output three phases check whether the terminal characteristics both at the output side and DC side of the inverter are consistent 24 E EEP EEPROM failure EEPROM reading and writing failure Seek for technical support Relay contact Loose connection of connectors inside the Ask professional technicians to 25 E dL3 failure inverter maintain The power on buffer circuit is faulty Seek for technical support Check whether th
114. locked upon next time power up of the inverter as failure PA 21 Automatic reset times 0 20 0 PA 22 Automatic reset interval 2 0 20 0 s 2 0s The function can be used to auto reset from ordinary failures The inverter will start to run automatically again after auto reset interval period PA 22 If the failure still exists as the inverter starts again after auto reset times PA 21 it will alarm then stop For defaults such as overcurrent or overvoltage occurred occasionally from beginning or during running the function can be used if you want the equipment keep running without manual interfere Note For fault E PCU E rEF E AUt E FAL E oUt E ot1 E ot2 E Cur E GdF E LV1 E CPy E loF and E oL3 there has no auto reset function The inverter will not check fault 6 12 Enhanced Function Parameter Group Pb Pb 04 0 00 300 00 Hz 0 00Hz e cn rs Set hopping frequency range of inverter to avoid mechanical resonance When the setting frequency of inverter is less than the hopping frequency the inverter will run automatically at the upper limit or lower limit of the hopping frequency change to run at lower limit of the hopping frequency when acceleration for deceleration change to run at upper limit of the hopping frequency as shown in Fig 6 34 Adjusted setting frequency Pb 05 pron Hopping Pb 04 eee frequency3 Pb 03 j F Hopping P02 pee frequency2 Pb 01 f Hopping frequency1 Pb 00 7 Setting f
115. lower than the minimum Chack input power s ppi 63 LU Power under operating voltage of the equipment pure PPY voltage Abnormal internal switching power supply Seek for technical support 7 2 Troubleshooting Procedures START Please shut down the power supply immediately to avoid Serious fault occurs such as abnormal sound further expansion of the fault upon power up and no display No Identify the fault code per 4 4 4 Common NO Seek for technical help Characters Displayed by LED AND whether the fault code can be Identified YES Find out the possible reasons and countermeasures for the failure as per the NO Seek for technical help above table and whether this failure is removed YES Fault reset END Seek for technical help Chapter 7 Fault Diagnosis 112 V amp T Technologies Co Ltd http www EcoDriveCN com Chapter 8 Routine Repair and Maintenance The application environment such as temperature humidity dust and powder wool smoke and oscillation burning and wearing of internal devices and other factors may increase the possibilities of inverter failure To reduce the failures and prolong the service life the inverter it needs to conduct routine repair and periodic maintenance A N Note 1 Only the personnel receiving professional training can dismantle and replace the
116. ls Since the using methods of Aliand Al2 are Chapter 6 Parameter Description 78 V amp T Technologies Co Ltd http Awww EcoDriveCN com identical Al1 is described as an example here 0 Open loop frequency or analog close loop rotation velocity reference Al1 analog input is converted into setup frequency via the analog curve 1 4 Reserved 5 Motor temperature feedback It is used together with P9 17 sensor protection threshold to report motorthermal protection alarm 6 Reserved Note If the analog channel function is set to non zero value please make sure that different analog channels have different functions All filtering time 0 000 1 000 s 0 004s Pe23 Al2 filtering time 0 000 1 000 s 0 004s In field applications the analog values input via Al1 Al2 usually have certain interference signals It can enlarge the setup value of Al filter time properly to improve the anti interference capability of the terminal input However the longer the filtering time of the terminal is the longer the delay for the response to the action of the terminal is 6 8 Multi function Output Parameter Group P7 Y1 and relay terminals can be defined as multifunctional digital signal output AO1 and AO2 terminals can be defined as multifunctional analog value output and the analog value type 0 10V 0 20mA can be selected via the jumper The definition table of multifunctional digital signal output is as follows
117. minal UP DN are disabled 16 Frequency increase command 17 Frequency decrease command The two terminals are used to modify the setup frequency with UP DN key 18 Acceleration deceleration disable command If this terminal is enabled the running frequency will remain unchanged unless stop command is executed 19 External failure input When this terminal is enabled inverter will stop running and display E oUt failure 20 Terminal failure reset input This terminal is used to implement failure reset which can also be done with the STOP RST key on the operation panel and the host computer command Chapter 6 Parameter Description 71 V amp T Technologies Co Ltd http Awww EcoDriveCN com 21 External interrupt contact input It is used to interrupt the inverter for a short while At this time the inverter output frequency will be zero but the inverter is still in the running status and the RUN indictor is ON The inverter will continue running after cancel interrupt signal 22 Inverter running disabled Once this terminal is enabled the inverter will coast to stop immediately Once this terminal is disabled the inverter will start normally 23 Shutdown via terminal When the inverter is in the running status the inverter will stop running once this terminal is enabled 24 Coast to stop via terminal When the inverter is in running status the inverter will coast to stop immediately once terminal is enabled 25 DC
118. motor running direction is wrong swap any two phase wires of motor and then power up Vv Static tuning or rotating tuning Setting P9 15 1 to perform static auto tuning Yy Press RUN key to start auto tuning after tuning stop auto Setting running frequency P0 05 v Setting P0 03 to V F control Vv Setting V F curve input P4 00 Vv Setting torque boost P0 16 Vv Press RUN key torun the inverter AA Press STOP RST key to stop the inverter END Notel 1 If fault happens please judge the fault causes and clear the fault according to 7 1 Fault and alarm information list Chapter 4 Using Instructions of Operation Panel 37 V amp T Technologies Co Ltd http www EcoDriveCN com Chapter 5 List of Parameters Meanings of Each Item in Function Code Parameter Table Item Meanings Function code number Function code name The number of function code such as P0 00 The name of function code which explains the function code s meanings Factory setting Restore the settings of the function code after the product is delivered see P0 01 Setting range The value from minimum value to maximum value that can be set to this function code V Voltage A Current C Celsius degree Q Ohm mH Milli henry rpm Rotating speed Unit Percentage bps baud rate Hz kHz Frequen
119. mplies with the requirements The inverter is set to master mode Set the inverter to slave mode Version i 33 E VEr compatibility The software version of the operation panel is Seek for technical support incompatible abnormal The data error appears when copying the Check the connections of the inverter parameters to the operation panel operation panel The data error appears when copying the i parameters aa operation le the Check the connections of the operation panel 34 E CPy Copy failure inverter The parameters are directly downloaded Perform download before without undergoing copy and upload uploading the parameters operations Control board software version incompatible Check if d1 09 is consistent Chapter 7 Fault Diagnosis 111 V amp T Technologies Co Ltd http Awww EcoDriveCN com jellies Rell panus Potential causes Solutions No code description 36 E dl4 Reserved Reserved Reserved Terminal mutual The functions of X1 to X4 Al1 Al2 terminals are Modify the settings of X1 to X4 Al1 Al2 terminals and ensure 37 E loF exclusion check set in a repeated manner the setting functions are not failed repeated excluding null function Check whether motor is blocked Load failure Replace inverter with proper Hardware model 38 E oL3 overload i Check whether there is phase Input failure protection loss Output failure Check whether there are phase loss or short circuit The power voltage is
120. n DI gt Aln DI AO P6 01 A1 P6 03 AO P6 01 A1 P6 03 Fig 6 21 Setup frequency characteristics curve Fig 6 22 Setup frequency characteristics curve positive effect negative effect Chapter 6 Parameter Description 77 V amp T Technologies Co Ltd http Awww EcoDriveCN com P6 09 Curve 3 input point AO 0 0 110 0 0 0 Per unit value BO corresponding to curve 3 input point AO 0 0 110 0 0 0 Curve 3 and curve 4 are basically the same but that curve 4 has two more setting points than curve 3 The input analog characteristics curve as shown in Fig 6 23 Curve 4 is described as an example here Curves 3 and 4 convert the externally input analog into the equipment analog All the Al inputs will be reduced according to the relationship according to 10V correspondence to100 per unit value The function of per unit value is determined by the analog channel function selection P6 21 Per unit value A 100 B3 B2 B1 BO i i gt Aln DI Input AO At A2 A3 Fig 6 23 Input analog characteristics curve Al1 and Al2 analog channel function selection 00 66 00 Display of operation panel All function selection 0 Open loop frequency or close loop rotation speed reference Unit s digit 1 4 Reserved 5 Motor temperature feedback overload protection sensor mode 6 Reserved Tens place Al function selection the same as above P6 21 is used to select functions of Ali Al2 termina
121. n Chapter 6 NY lect Analog chann Setting P6 00 P6 20 For details refer to the function description of P6 00 to P6 20 in Chapter 6 ve Yy function description of P1 06 and P6 00 to P6 20 in Chapter 6 Close loop auxiliary feedback N Yy Select process close auxiliary feedback Select process close loop main and mode P1 06 For details refer to the auxiliary relation calculation p1 07 For gt details refer to the function description gt of P1 07 in Chapter 6 function description of GROUP P8 in Chapter 6 Process close loop relative function code setting For details refer to the running direc Setting P0 07 according to tion 0 Forward 1 Reverse Setting PO 06 0 Select function of X control terminal For details refer to the function description of P5 00 to P5 06 in Chapter 6 Setting PO 06 1 control setting PO 06 2 Running command communicate lt 7 NEXT PAGE Appendix B Control Mode Setting Process 128 V amp T Technologies Co Ltd http Awww EcoDriveCN com Closed loop setting process continued JOIN THE PAGE S ei 4 s y Select function of X terminal acceleration elect multi acceleration deceleration time Setting correct deceleration time gt For d
122. n between output frequency and setup frequency Once the output terminal function is set to 1 Frequency Arrival Signal the deviation between the output frequency and the setup frequency of the inverter is in the setup range of this function code and indication signal is output as shown in Fig 6 28 Frequency Arrival Signal FAR Yi represents Y1 terminal Y2 terminal or relay terminal Output Frequency Detection Width Setup Frequency Time Yi Terminal Time Fig 6 29 Frequency arrival signal FAR Chapter 6 Parameter Description 84 V amp T Technologies Co Ltd http www EcoDriveCN com This function is used for detecting whether the output frequency in within the setup FDT The output terminal function is set to 2 Frequency level detection signal 1 or 3 Frequency level detection signal 2 the output frequency is in the corresponding FDT setup range and indication signal is output Output frequency A FDT level upper limit FDT level lower limit f SR i Yi terminal Time Fig 6 30 Frequency level detection signal FDT P7 24 Virtual terminal effective selection 000 111 000 It controls the action of the multifunctional input terminal or output terminal by the host computer Display of operation panel Multifunctional input terminal Xi Unit place 0 The real terminal is enabled 1 The virtual terminal is enabled Tens place reserved Y1 and relay terminals 0 Th
123. nal symbol Terminal name and function description Three phase AC input terminal R L1 S L2 T L3 1 2 B1 DC reactor connecting terminal short circuited with copper bus upon delivery 2 B1 B2 Connecting terminal of braking resistor 281 90 DC power input terminal DC input terminal of external braking unit U T1 V T2 W T3 Three phase AC output terminal Grounding terminal PE 3 5 2 E5 H 4T18 5G E5 H 4T75G R L1 S L2 T L3 1 O2 U T1 V T2 W T3 POWER OPTION MOTOR Terminal symbol Terminal name and function description R L1 S L2 T L3 Three phase AC input terminal DC reactor connecting terminal short circuited with copper bus upon delivery 1 2 2 0 DC power input terminal DC input terminal of external braking unit U T1 V T2 W T3 Three phase AC output terminal Grounding terminal PE 3 5 3 E5 H 4T90G E5 H 4T500G The inverters of E5 H 4T90G E5 H 4T500G adopt the top in bottom out wiring mode POWER U T1 V T2 W T3 MOTOR R L1 T L3 Terminal name and function description 1 2 Three phase AC input terminal OPTION DC reactor connecting terminal if don t connect DC reactor the inverter Terminal symbol R L1 S L2 T L3 1 G2 will don t display after power on 2 9 DC power input terminal DC output terminal of external braking unit U T1 V T2 W T3 Three phase AC
124. nce the inverter has undergone insulation test upon its ex factory the user shall not perform such test Chapter 8 Routine Repair and Maintenance 114 V amp T Technologies Co Ltd http Awww EcoDriveCN com as much as possible under general condition If the test is unavoidable please perform the test strictly according to the following procedures or it may damage the inverter It shall perform dielectric test strictly or it may damage the inverter If the dielectric test is unavoidable please contact our company Main Circuit Insulation Test Utilize 500VDC megameter to perform test under condition of main power shutdown Disconnect all the control board circuits to prevent the control circuits from connecting with the test voltage For the inverter with power level of E5 H 4T11G and E5 H 4T15G it must disconnect the terminal J1 on the drive board and the PE For the inverter with power level of E5 H 4T18 5G or above it must disconnect three pieces of cables entry to the surge absorption circuit Pack the disconnected cable heads with insulating tapes properly The main circuit terminal shall be connected with public conducting wires Inverter C Pe RILI Si2 TL3 61 2 B1 UTI VIT2 WITS 500 VDC BB9 9 9 0 9 99 99 9 Fig 8 1 Main Circuit Insulation Test for E5 H 4T0 75G to E5 H 4T15G D PE Inverter RILI Si2 TL3 1 G2 UTI VT2 WITS 500 VDC Megameter 4 l
125. nd Alarm Infonmation ariii eiea rE Eara 108 7 2 Troubleshooting ProceQures vzshs cscs cswealewcivsieecunsseeceiesieeserccne i beseavcsaveta qtealccacsasdshaetinsdvecsinnceniaen seat 112 Chapter 8 Routine Repair and Maintenance ccccesesscessseessesscessneeeseesseessseesseessaesseeesseensaeeeaes 113 8 4 Routine Maintenance 6 o rccite cca eee aa oneb la ieele i clans 113 8 2 Periodic Maintenance 114 8 3 Component REplaceMent teas vecevecs sacs vecsenevensitve vavececesvesevescvec sats avcharchavesaadsaucsecsescllsadsnadvecdiaaetens ee aenes 114 8 4 Insulation TOS 2s 223 erie Seed teases es REECE EEANN enereeene rant ae aet 114 Appendix A Modbus Communication Protocol ccccsssccessseeessseeeesseeesesseeeesseeeeessaeeesseenessaeens 116 Appendix B Control Mode Setting Process csssscssssceessseeessseeeesseeeesseeeseeseeeesseeeesseeeeesanens 125 1 Setting Process for AULO tUMIING sasien a e aeda aaa daa pikaa aaide 125 2 Setting Process for Open LO pinsi inie aiaa ssacceesetcevancvadssaiavasaizessaeveveseecewscaen esceuadelavsaeeeves 126 3 Setting Process for Closed Loop saasaa a e aneda Eiaeia d chan hacdveiciaewclaceed 128 Appendix a e EETL E E E E EE E 130 V amp T Technologies Co Ltd http Awww EcoDriveCN com Chapter 1 Introduction to E5 H Series Inverter 1 1 Product Model Description The digits and letters in the inverter model field on the nameplate indicate such information as the produc
126. ne 1 Al1 2 Al2 The analog feedback close loop control main reference and auxiliary reference calculation P1 03 can be selected as follows 0 Main auxiliary 1 Main auxiliary 2 Auxiliary 50 3 Main auxiliary 50 4 Max 5 Min The main reference and auxiliary reference calculation function for close loop reference is the same as the main reference and auxiliary reference calculation function for open loop reference For details refer to the description of P1 01 Note Under the analog feedback close loop control mode the analog main reference analog auxiliary reference analog main feedback and analog auxiliary feedback cannot be set at the same channel Chapter 6 Parameter Description 60 V amp T Technologies Co Ltd http Awww EcoDriveCN com P1 05 Analog feedback close loop control main feedback mode 1 2 1 Analog feedback close loop control auxiliary feedback mode 0 2 0 P1 07 Analog feedback close loop control feedback main and auxiliary 0 5 0 calculation In the analog feedback close loop system the main feedback and auxiliary feedback can be analog or pulse The main feedback and auxiliary feedback calculation function for process close loop feedback is the same as the main reference and auxiliary reference calculation function for process close loop reference For details refer to the description of P1 01 The analog feedback close loop control main feedback mode P1 05 may be selected as follows 1 Al1 2
127. nin Wire 7 Tightening Wire A Terminal wee Terminal mae A STEN g torque specificatio screw torque specification N m n mm N m mm E5 H 4T0 75G 10 10 M4 1 2 1 5 2 5 M4 1 2 1 5 2 5 E5 H 4T1 5G 16 10 M4 1 2 1 5 2 5 M4 1 2 1 5 2 5 E5 H 4T2 2G 16 10 M4 1 2 1 5 2 5 M4 1 2 1 5 2 5 E5 H 4T3 7G 25 16 M4 1 2 1 5 4 M4 1 2 1 5 4 E5 H 4T5 5G 32 25 M4 1 2 1 5 6 M4 1 2 1 5 6 E5 H 4T7 5G 40 32 M4 1 2 1 5 6 M4 1 2 1 5 6 E5 H 4T11G 63 40 M5 2 5 3 0 6 M5 2 5 3 0 6 E5 H 4T15G 63 63 M5 2 53 0 6 M5 2 5 3 0 6 E5 H 4T18 5G 100 63 M6 4 0 5 0 10 M6 4 0 5 0 10 E5 H 4T22G 100 100 M6 4 0 5 0 16 M6 4 0 5 0 16 Chapter 3 Wiring of Inverter V amp T Technologies Co Ltd http www EcoDriveCN com R L1 S L2 T L3 1 2 B1 B2 Grounding terminal PE Circuit U T1 V T2 W T3 Inverter model Breaker Gontactoi Tightenin Wire n Tightening Wire A Terminal vera Terminal ae A Sarei g torque specificatio strew torque specification N m n mm N m mm E5 H 4T30G 125 100 M6 4 0 5 0 25 M6 4 0 5 0 16 E5 H 4T37G 160 100 M8 9 0 10 0 25 M8 9 0 10 0 16 E5 H 4T45G 200 125 M8 9 0 10 0 35 M8 9 0 10 0 16 E5 H 4T55G 315 250 M10 17 6 22 5 50 M10 14 0 15 0 25 E5 H 4T75G 350 330 M10 17 6 22 5 60 M10 14 0 15 0 35 E5 H 4T90G 315 250 M10 17 6 22 5 70 M10 14 0 15 0 35 E5 H 4T110G 350 330 M10 17 6 22 5 100 M10 14 0 15 0 50 E5 H 4T132G 40
128. nt Sudden change of load during operation frequency change and amplitude protection when 3 E oc3 operation with Improper setting of motor parameters Set motor parameters properly constant speed Power level of inverter is small ie to inverter with proper Over voltage Motor short to ground Check motor wiring 4 E oV1 protection when Abnormal input power supply voltage Check input power supply acceleration Fast start up again when motor operates with Start again after the motor stop operation high speed rotating Over voltage Motor short to ground Check motor wiring 5 E oV2 protection when Rotating inertial of load is too large Choose appropriate energy deceleration braking components operation Deceleration time is too short Lengthen deceleration time Over voltage Motor short to ground Check motor wiring 6 E 0V3 protection when Abnormal input power supply Check input power supply i operation with Rotating inerial ofloadiis too large Choose appropriate energy constant speed 9 9 braking components Interference ss a Ask professional technicians to 1 E PCU protection Severely Interfered by exterior signal maintain Loose connection of connectors inside the Ask professional technicians to Abnormal inverter maintain 8 E rEF comparison Abnormal internal switching power supply Seek for technical support benchmark i i i F es signal sampling and comparison Seek for technical support Chapter 7 Fault Diagnosis 108 V amp T Technologies Co Ltd ht
129. o 0 00 10 00v poi Mu Tee 10 00 0 00 10 00 v o 0 00 10 00V P4 22 haa 5 00 0 00 300 00 Hz 5 Sa lower frequency limit P0 13 P4 23 SA 8 00 0 00 300 00 Hz m ay lower frequency limit P0 13 P4 24 a 10 00 0 00 300 00 Hz 4 ay lower frequency limit P0 13 P4 25 Mi oe 15 00 0 00 300 00 Hz a p eT lower frequency limit P0 13 P4 26 S 18 00 0 00 300 00 Hz aa lower frequency limit P0 13 P4 27 ee 20 00 0 00 300 00 Hz amp er lower frequency limit P0 13 P4 28 ai 25 00 0 00 300 00 Hz 5 SPP lower frequency limit P0 13 P4 29 ee 28 00 0 00 300 00 Hz 5 eo lower frequency limit P0 13 P4 30 eens 30 00 0 00 300 00 Hz 4 Poa lower frequency limit P0 13 P4 31 NT 35 00 0 00 300 00 Hz 4 Say lower frequency limit P0 13 P4 32 eee 38 00 0 00 300 00 Hz Baa lower frequency limit P0 13 P4 33 age 40 00 0 00 300 00 Hz 3 Hr lower frequency limit P0 13 P4 34 qa 45 00 0 00 300 00 Hz 5 a lower frequency limit P0 13 P4 35 iA 48 00 0 00 300 00 Hz a Sri lower frequency limit P0 13 P4 36 feeds 50 00 0 00 300 00 Hz 5 H lower frequency limit P0 13 Group P5 Multi functional Input Parameter ea E e ma ermano a w a psoe Deemed e o paoa Areon a o o P5 07 flenna dme 0 001 0 000 1 000 s x 0 000 1 000s P5 08 X1 terminal delay time 0 0 0 0 999 9 s x 0 0 999 9s P5 09 X2 terminal delay time 0 0 0 0 999 9 s x 0 0 999 9s L selection 0 o
130. odification authority and initialization level of the parameters 0 All the parameters are allowed for modification 1 All the parameters are disallowed for modification 2 Restore all the parameters in zone P to leave factory setting 3 Restore all the parameters in zone P except for the motor parameters group P9 to leave factory setting 4 Restore all the P zone parameters and A zone parameters user s customized function code display hide zone to leave factory values 5 Restore all the user parameters except for d group to leave factory values Note After the parameters are initialized the password set by the user will be automatically reset Function code display 0 3 0 Set this function and the operation panel will display the function code parameters according to the actual need of the user to improve the work efficiency 0 Basic menu mode The operation panel can display all the parameters 1 Fast menu mode The operation panel only displays the fast parameters defined by the manufacturer When the basic functions of the inverter are used this menu mode shall be set Chapter 6 Parameter Description 53 V amp T Technologies Co Ltd http www EcoDriveCN com 2 Menu mode of non leave factory value function code The operation panel only displays the parameters different from the leave factory values When the technical personnel perform onsite maintenance to quickly view the parameters set by the user and
131. ologies Co Ltd http Awww EcoDriveCN com 1 5 Product Component Name Dust guard Mounting hole Heatsink Upper cover Operation panel Nameplate Lower cover hn LA ____ Leading board E5 H 4T7 5G and below power class Operation panel Mounting hole Cooling fan 1 Enclosure Cover Nameplate E5 H 4T11G and above power class Fig 1 1 Product component name 1 6 Product Outline Mounting Dimension and Weight Fai Fi S T L Ut E5 H 4T11G and above power class Fig 1 2 Product outline and mounting dimension Chapter 1 Introduction to E5 H Series Inverter V amp T Technologies Co Ltd http www EcoDriveCN com Product outline mounting dimension and weight Outline and mounting dimension mm g Voltage Approximate Inverter model Mounting weight class w H D w1 H1 D1 T1 hole kg diameter E5 H 4T0 75G 118 190 155 105 173 40 8 3 5 5 1 5 E5 H 4T1 5G E5 H 4T2 2G 118 190 175 105 173 60 5 4 5 5 2 6 E5 H 4T3 7G E5 H 4T5 5G 155 249 185 136 232 69 8 5 5 4 5 E5 H 4T7 5G E5 H 4T11G 210 337 200 150 324 88 2 7 8 5 E5 H 4T15G E5 H 4T18 5G E5 H 4T22G 289 440 220 200 425 88 2 5 7 17 E5 H 4T30G E5 H 4T37G 319 575 218 220 553 90 5 2 5 10 25 E5 H 4T45G E5 H 4T55G 404 615 255 270 590 86 5 3 0 10 35 400V E5 H 4T75G E5 H 4T90G 465 745 325
132. omatic torque boost is enable when P4 00 is set to a non zero value the automatic torque boost is disabled 6 2 Main and Auxiliary Reference Parameter Group P1 P1 01 Open loop reference pawang auxiliary relation 0 5 0 calculation In process open loop control mode P0 03 0 the main reference value fm will be added with an auxiliary reference value fa and it results in process open loop combination frequency reference feom p f al Piet gt f m com f a Fig 6 3 Open loop main and auxiliary reference combination Chapter6 Parameter Description 57 V amp T Technologies Co Ltd http Awww EcoDriveCN com The process open loop auxiliary reference mode P1 00 is selected as follows 0 none 1 Al1 2 Al2 Such calculations as add subtract bias max and min are available for main reference value fm and auxiliary reference value fa Through the setting of parameters in group P6 the frequency change range of the auxiliary reference can be reduced to realize the fine tuning function The process open loop reference main and auxiliary relation calculation parameter P1 01 is defined as follows 0 Main reference auxiliary reference The auxiliary frequency reference value is superimposed on the main reference the function is add Frequency MARK Soe foom Time Fig 6 4 Process open loop main and auxiliary reference calculation 0 Open loop combination refer
133. onal output terminals when the internal 24V power supply of the inverter and external power supply are used 24V 24V 24 Hh s 5 i 1 5 1s mm l A n l l vii 20 28Vv 7h J i Relay rk J Relay 7 COM comi o Inside of inverter Inside of inverter Note When this wiring mode is adopted if Y1 terminal is damaged the polarity of the external diode must be checked to ensure the correctness Chapter 3 Wiring of Inverter 23 V amp T Technologies Co Ltd http Awww EcoDriveCN com 3 9 Schematic Diagram of Control Board e 3 Drive board port Jumper selection switch Control circuit terminal i oO O Control board grounding Fig 3 7 Schematic diagram of control board 3 10 Lectotype of Control Circuit Peripheral Devices A Tightening Wire Terminal number Terminal torque specification Wire type screw 2 N m mm 10V Alt Al2 AO1 AO2 GND M3 0 5 0 6 0 75 Kiaan eae 24V PLC X1 X2 X3 X4 COM Y1 z iii COM RA RB RC M3 0 5 0 6 0 75 Shielding cable 3 11 Description of Jumper Function Jumper selecting switch in Fig 3 7 Alt Al2 AO1 AO2 V V V V V lis the current input 0 20mA V is the voltage input 0 10V 0 10V lis the current input 0 20mA V is the voltage input 0 10V 0 20MA is the current output 0 20mA V is the voltage output 0 10V 0 10V lis the current output 0 20mA V is the voltage output 0 10V
134. operating frequency of the inverter kept at OHz upon reverse operation A 1 Check if the frequency is set as 0 A 2 Check if the inverter function code parameter P3 09 is set as 0 If not change it to 0 Ill The inverter had been connected with braking resistor featuring dynamic braking why didn t it work A 1 Check if the braking resistor is connected between the main circuit terminals B1 and B2 A 2 Check if the inverter function code parameter PA 09 is set as 1 If not change it to 1 IV Why was there large deviation on the correspondence relation between the analog input and the set frequency A 1 Check if the jumpers of analog input type and control board are properly set For the analog voltage input toggle the corresponding channel to the V end of the jumper for the analog current input toggle the corresponding channel to the end of the jumper A 2 Calibrate the analog input curve according to function codes P6 00 to P6 2 For details refer to the description of P6 group in Chapter 6 Parameter Description V Why was there large deviation on the correspondence relation between the analog output and the relevant function output A 1 Check if the jumpers of analog output type and control board are properly set For the analog voltage output toggle the corresponding channel to the V end of the jumper for the analog current output toggle the corresponding channel to the end of the jumper A 2 Calibrat
135. or a long period of time improve the running frequency Motor overload protection time is set too small Increase the proton overload protection time ig Adjust V F curve setting and V F curve ratio is set too large torque increment DC braking current is set too high Reduce the DC brake current i a Check the external failure j External failure terminal enable i 15 E oUt Peripheral terminal status i protection Stall over voltage or over current and the time Check whether the external load lasts for more than one minute is normal Arve USET setting The inverter running time exceed user setting Find the technician who setting 16 E ot1 continuous i i M ai continuous running time this papameter running time Arrive User The inverter running time exceed user setting Find the technician who setting 17 E ot2 summation k pied g i summation running time this papameter running time 19 E CUr le kdl Current detection circuit failure Seek for technical support Wrong connection Correct the connection error as per the user s manual i Replace the motor after 20 E GdF E Motor failure performing ground insulation test Invert module failure Seek for technical support Ground leakage current at the output side of the Seek for technical support inverter is too high Abnormal power i p 21 E LV1 failure during man power fluctuation orimomentary power Check the local mains power running Check the power connections as There is abnormal connection missing per the operationa
136. output terminal Grounding terminal PE 3 6 Attention for Main Circuit Wiring 3 6 1 Power Supply Wiring It is forbidden to connect the power cable to the inverter output terminal otherwise the internal components of the inverter will be damaged To facilitate the input side overcurrent protection and power failure maintenance the inverter shall Chapter 3 Wiring of Inverter 17 V amp T Technologies Co Ltd http www EcoDriveCN com connect to the power supply through the circuit breaker or leakage circuit breaker and contactor Please confirm that the power supply phases rated voltage are consistent with that of the nameplate otherwise the inverter may be damaged 3 6 2 Motor Wiring It is forbidden to short circuit or ground the inverter output terminal otherwise the internal components of the inverter will be damaged Avoid short circuit the output cable and the inverter enclosure otherwise there exists the danger of electric shock It is forbidden to connect the output terminal of the inverter to the capacitor or LC RC noise filter with phase lead otherwise the internal components of the inverter may be damaged When contactor is installed between the inverter and the motor it is forbidden to switch on off the contactor during the running of the inverter otherwise there will be large current flowing into the inverter triggering the inverter protection action Length of cable between the
137. ploaded to operation panel For example set Pb 23 1 LU Inverter power off under voltage Loc1 Operation p nels locked and the keys are disabled adgs Inverter is in DC braking status Loc2 Except M key other keys are locked nae Except RUN and STOP RST keys other At Inverter is in auto tuning Loc3 keys are locked A Non factory setting of function code bASE Basic menu P0 02 0 ndFt P0 02 2 Inverter parameters are being downloaded and CoP this symbol will be displayed when parameters PCLr Password is cleared see 4 5 for password y are downloaded to inverter For example set operation Pb 23 2 or 3 P i fully 4 5 f dEFt Restore to factory settings P0 01 2 to 5 P SEt assword e set pup essIU I Ree ee Tar password operation z faul h Analysis th aha Fomeans taultor al appens Analysis t if Password protection is enabled see 4 6 for E XXX fault or alarm according to the fault or alarm list Prot h in 71 key locking and unlocking I FASt Fast menu P0 02 1 SLId Operation panel is identified as shuttle type The parameter copy or upload function of Press ESC gt gt V together to unlock the HoLd f ae ULoc operation panel is disabled panel LASt 10 function codes modified recently PO0 02 3 UpDn Operation panel is identified as key type LInE Communication of operation panel fails S The inverter in sleeping status If the symbol is not listed in the table please contact the local distributor or our company directly
138. ponse operating frequency of the inverter is 50 00Hz Function Register Register Agdross code Aadress Number Bytes Contents Request 0x01 0x03 0x8136 0x0001 None 0x4C38 Response 0x01 0x03 None 0x02 0x1388 0xB512 No 1 inverter stops in the default mode Address eupeten oad Register Contents Check Sum code Address Request 0x01 0x06 0x8000 0x0000 OxA00A Response 0x01 0x06 0x8000 0x0000 OxA00A c Note It needs to set P0 06 to 2 firstly 8 Communication Network Construction Connecting one inverter to the computer Twisted pair with shielded GND 485 485 Converter RS232 485 RS232 cable Maximum 15 GND meters Computer 485 ON OFF Site No 1 Attached Fig 3 Connecting One Inverter to the Computer Appendix A Modbus Communication Protocol 123 Connecting multiple inverters to the computer V amp T Technologies Co Ltd http www EcoDriveCN com With shield im RS232 converter RS232 485 cable Maximum 15 meters Computer GND 485 485 GND 485 485 485 485 ON ON OFF OFF Site No 1 Site No 2 GND 485 485 485 ON q OFF Site No n The switch of terminal resistor of the inverter at the most distant place id turn to ON start the internal 1002 terminal compat
139. protection area See 4 8 5 descriptions of clearing password Method of Enabling Password One of following three modes can be selected 1 Press ESC PRG A at the same time for shuttle type turning close wise is equivalent to the A key to display Prot If key locking function is enabled Loc1 P2 00 1 or Chapter 4 Using Instructions of Operation Panel 32 V amp T Technologies Co Ltd http www EcoDriveCN com Loc2 P2 00 2 or Loc3 P2 00 3 is displayed 2 No key operation for continuous 5 minutes 3 Power on again 4 6 Lock Unlock Keys m Lock Keys Set the function of locking keys Select the P2 00 key locking functions 0 Do not lock the keys on the operation panel and all the keys can be used 1 Lock the keys on the operation panel and all the keys cannot be used 2 Except multi function key M all the keys cannot be used 3 Except RUN and STOP RST keys all the keys cannot be used Key Locking Function is Enabled One of following three modes can be selected 1 Press ESC PRG A at the same time for shuttle type turning close wise is equivalent to the A key to display Loci P2 00 1 or Loc2 P2 00 2 or Loc3 P2 00 3 the operation panel is locked according to the setting method of P2 00 When P2 00 0 Prot is displayed and the operation panel is not locked and only the password protection is enabled 2 Power on the inverter again to lock the operation panel
140. put are P0 00 PE 00 A0 00 C0 00 U0 00 and U1 00 PE area C area UO area and U1 area are factory reserved parameter area Chapter 4 Using Instructions of Operation Panel 29 V amp T Technologies Co Ltd http Awww EcoDriveCN com 4 4 3 Menu Mode Menu mode Operation panel setting Menu mode name Visible function code range P z P0 02 display h le of basi 0 Basement See 5 1 for the table of basic menu bASE function code parameter Quickly display the menu function 1 Fastmenu codes in common use ea ly displ he functi Non leave factory value ony gigpiay tie function codes 2 i different from the leave factory ndFt function code menu values 3 Menu of last changed 10 Display the last changed 10 LASt function codes function codes and P0 02 Basic menu bASE Basic menu includes all the function codes mentioned in this user manual Except for the special descriptions all the descriptions of this manual are in this menu mode See 5 1 for the table of basic menu function code parameter Fast menu FASt Fast menu includes some common function codes and you can start the inverter by setting only a few function codes so as to realize the fast application See 5 2 for the table of fast menu function code parameter Non leave factory value function code menu ndFt This menu mode is used to search for the function codes different from the leave factory values for the convenience of understanding the par
141. r alarm nor stop Note To change factory setting please contact with distributor or manufacturer PA 16 failure shield and alarm attribute setting 1 Display of operation panel Unit place Output short circuit to ground abnormality Tens place Power failure abnormality during running Hundreds place Input power abnormality Thousands place Output phase loss EEPROM abnormality PA 17 failure shield and alarm attribute setting 2 Display of operational panel Unit place EEPROM abnormality Tens place Relay contact abnormality Hundreds place Temperature sampling disconnection Thousands place Reserved PA 18 Failure shield and alarm attribute setting 3 Display of operational panel Unit place Abnormal 10V power supply output Tens place Abnormal analog input Hundreds place Motor over temperature PTC Thousands place Abnormal communication operational panel 485 PA 20 Fault locking function selection 0 1 0 0 Failure lock disabled 1 Failure lock enabled Allowing re display defaults occurred upon last power failure after power on properly run only after resetting failure Note Whether to output failure indication at the same time is decided by action indication of fault relay of inverter Refer to PA 12 instruction Chapter 6 Parameter Description 95 V amp T Technologies Co Ltd http Awww EcoDriveCN com LU under voltage cannot be
142. ration Panel Chapter 4 Using Instructions of Operation Panel 26 V amp T Technologies Co Ltd http Awww EcoDriveCN com Note The ENTER key of shuttle type operation panel is equivalent to PRG Key Using PRG key continuously can realize fast browse of all function codes Table 4 1 Method of using multi function key and meanings of MULTI indicator Definition of M key Meanings of function P2 01 o Nofunction Multi function key is defined as no function Normally Off No function Used as JOG operation key and is only enabled when running command is given via On Press M 1 JOG operation panel In stop status press M key to Off Release M to finish the enter jog operation status and release this jog operation key to stop Emergent stop 1 On Press M Stop ie Press M key inverter will stop in shortest time Off Release M Meanings of MULTI indicator Emergent stop 2 A On Press M Pi Mk ll Coast to stop ress ey inverter will coast to stop Off Release M Press M key to switch the reference method of giving running command Via operation panebVia terminal Via host computer Via operation panel During switching time there is a 5 second response time limit and the change is cancelled automatically after 5 second time is exceeded Within 5s press PRG key to confirm the change MON indicator indicates the method of giving the running command Press M key to switch between FASt and bASE menus operation
143. requency Fig 6 35 Upper and lower limit of hopping frequency Pb 06 Single step without integral function 0 00 10 00Hz 0 1Hz When Pb 08 and Pb 10 setting without integral function UP DN single step increase or decrease frequency define by Pb 06 Chapter 6 Parameter Description 96 V amp T Technologies Co Ltd http Awww EcoDriveCN com Pb 07 Magnification selection 0 01 00 Display of operation panel Unit place Acceleration deceleration time P 0 x1 1 x10 Tens place Reserved For some special applications that longer acceleration deceleration time is required the function can be used to determine magnification of acceleration deceleration time that has been set For example if the current acceleration deceleration time 0 P0 08 P0 09 is valid the real applied acceleration deceleration time is 10 times as long as acceleration deceleration time 0 when x10 is selected Pb 08 Operational panel A V digital regulating frequency control 0 1221 0001 Operational panel A V integral rate 0 1 50 0 s 2 0s Setting with operational panel A V regulating frequency can be realized by the function When the operational panel is in the parameter display state of operation or stop through operational panel A V to regulate frequency is the most direct and covenient way Frequency value will save in the inverter and superimposed on other frequency as final frequency Operational panel A V digital regulating frequenc
144. requency terminals 1 4 ON means that the terminal is enabled OFF means that the terminal is disabled Note Upon open loop operation if the input terminal function sets the multi section digital voltage and multi section frequency simultaneously the multi section frequency has the highest priority Chapter 6 Parameter Description 68 V amp T Technologies Co Ltd http Awww EcoDriveCN com Multi section Multi section Multi section Multi section frequency frequency frequency frequency Setting frequency terminal 1 terminal 3 terminal 2 terminal 1 Open loop frequency OFF OFF OFF OFF P0 05 Multi section OFF OFF OFF ON frequency 1 OFF OFF ON OFF Multi section frequency 2 OFF OFF ON ON Male Secon frequency 3 OFF ON OFF OFF Muli seeton frequency 4 OFF ON OFF ON Multi section frequency 5 OFF ON ON OFF Multi section frequency 6 OFF ON ON ON Multi section frequency 7 ON OFF OFF OFF Multi section frequency 8 ON OFF OFF ON Mui section frequency 9 ON OFF ON OFF Multi section requency 10 ON OFF ON ON Multi section requency 11 ON ON OFF OFF Multi section requency 12 ON ON OFF ON Multi section requency 13 ON ON ON OFF Multi section requency 14 ON ON ON ON Multi section requency 15 6 6 Multi functional Input Parameter Group P5 so Js wratinansonsin Jos Chapter 6 Parameter Description V amp T Technologies Co Ltd http Awww EcoDrive
145. rewdriver sleeve The screws are tightened Geauga iduels Cleaner There are no dusts and wools and powders Internal foreign Visual check There are no foreign objects objects Motor Insulation test 500VDC megameter Normal 8 3 Component Replacement Different types of components have different service lives The service lives of the components are subject to the environment and application conditions Better working environment may prolong the service lives of the components The cooling fan and electrolytic capacitor are vulnerable components and shall be conducted routine inspection as per the table below If any fault occurs please conduct immediate replacement Vulnerable F i Components Damage Causes Solutions Items for Routine Inspection Bearing wear blade The fan blade has no cracks and rotates kan aging Change normally The screws are tightened There are no electrolyte leakage color Electrolytic Ambient temperature change crack and shell inflation The cal es is relatively high and Change safety valve is normal P electrolyte volatilizes Static capacity is equal to or higher than the initial value times 0 85 Note When the inverter is stored for a long period of time power connection test shall be conducted once within two years and last at least five hours It can use voltage regulator to gradually increase the value to the rated value when power connection is performed 8 4 Insulation Test Si
146. rocesses of constant speed and acceleration deceleration Generally when setting speed or motor load varies sharply output current of inverter may reach beyond over current protection value point resulting over current error Current limit function reduces effectively occurrences of over current errors as inverter controls instantaneous output current and keep the sharply Chapter 6 Parameter Description 91 V amp T Technologies Co Ltd http Awww EcoDriveCN com changed output current below protective motion value thus ensuring continuous and reliable operation of system When current exceeds a certain value PA 05 the inverter will turn into current limit status When operating under constant speed maintain stable load capability without producing over current error by current limit When loads mitigate exit the current limit status automatically and return to work properly The function is especially applied to applications of suddenly changed speed or load Note Current limit current PA 05 is proportion of rated current of inverter When torque load varies 20 0 150 0 Under the current limit status the speed of motor will decrease The current limit function is not appropriate for systems that will not permit reduce speed for example lifter otherwise will loss of control PA 06 Voltage adjustment function 0 111 101 Unit place Over voltage adjustment When motor with large inertial load stops rapidly or a short time
147. running check if the function code could not modification upon running A 4 When display is not available check if the inverter function code has been encrypted A 5 When display is not available check if the inverter operation panel has been locked XII How to change the direction that the inverter drives the motor to rotate A 1 In the case of operation panel control the direction is determined by P0 07 However the FWD REV key on the operation panel can real time change the direction A 2 In the case of operation panel control the direction is determined by P0 07 However the UP DN key Appendix C FAQ 131 V amp T Technologies Co Ltd http Awww EcoDriveCN com on the operation panel or the FWD REV knob of the shuttle operation panel can real time change the direction A 3 In the case of operation panel control the positive negative frequency value resulting from the final frequency calculation for composite control can also change the direction in real time A 4 In the case of terminal control check if the forward reverse terminal is in one to one correspondence with that of the control equipment e g PLC XIII Why did the fans of inverters of certain power classes will rotate upon power up while others could not A The fans of the 15kW inverters and inverters of lower power class are under no control and they will run when powered up The operation of the fans of 18 5kW inverters and inverters of
148. s locked PA 21 Automatic reset times 0 20 x 0 20 PA 22 Automatic reset interval 2 0 2 0 20 0 S x 2 0 20 0s Group Pb Enhanced Function Parameter Hopping frequency 1 E Upper lower frequency limit P0 13 Pb 00 lower limit 0 00 0 00 300 00 Hz x P0 14 Hopping frequency 1 z Upper lower frequency limit P0 13 Pb 01 upper limit 0 00 0 00 300 00 Hz x P0 14 Hopping frequency 2 Upper lower frequency limit P0 13 Pb 02 lower limit 0 00 0 00 300 00 Hz x P0 14 Hopping frequency 2 M Upper lower frequency limit P0 13 Pb 03 upper limit 0 00 0 00 300 00 Hz x P0 14 Hopping frequency 3 Upper lower frequency limit P0 13 Pb 04 lower limit 0 00 0 00 300 00 Hz x P0 14 Hopping frequency 3 m Upper lower frequency limit P0 13 Pb 05 upper limit 0 00 0 00 300 00 Hz x P0 14 Single step under z 7 Pb 06 without integral function 0 1 0 1 10 00 Hz o 0 1 10 00 Hz Ones place Acceleration Nakai i deceleration time Pb 07 Magnification selection 00 00 11 x 0 X1 1 X10 Tens place Reserved Ones place Action upon power off 0 Save upon power off 1 Clear upon power off Operation panel A V Tens place Action upon stopping Pb 08 digital regulating 0001 0000 1221 o 0 Hold upon stopping frequency control 1 Clear upon stop 2 Clear upon standby Hundreds place A V setting via operation panel Chapter 5 List of Parameters 47 V amp T Technologies Co Ltd http www EcoDriveCN com
149. s of equipment can be paralleled Relay Operation g shall be used if the number exceeds 32 The maximum distance is 15m for the communication connection of operation panel adopt standard twisted non shielding network cable panel 485 485 port of operation panel Common end of Short circuited with 24V upon delivery 3 F multi functional input terminal Short circuited with 24V upon Short circuited with 24V upon delivery Input specification 24VDC 5mA Frequency range 0 200Hz Voltage range 24V 20 ES 24V grounding Internal isolated with GND Ee ee Open collector output Voltage range 24V 20 maximum input current 50mA Multi functional input ce x4 terminals 1 4 24V 10 internal isolated with GND 24V 24V Maximum load 200mA with overload and short circuit protection Digital input Pre Digital output Open collector output i COM common ead Internal isolated with GND Analog iinout reterenca 10V 3 internal isolated with COM 10V g inp Maximum output current 10mA with short circuit and oltage A varag overload protection 0 20mA Input impedance 00 maximum input current 30mA 0 10V Input impedance Okmaximum input Analog input Ali Analog input channel 1 voltage 15V Resolution 12 bits 0 025 0 20mA or 0 10V analog input can be selected through jumper Al2 Analog input channel 2 Same as Al1 GND Analog grounding Internal isolated with COM 0 20mA allowable ou
150. s shown in Fig 2 7 until the crack sound is heard Mounting of lower cover Insert the upper claw grab on the lower cover into the groove of the upper cover as shown in position 1 of Fig 2 8 and then press the lower part of the lower cover in direction 2 of Fig 2 8 until the crack sound is heard Now tighten the cover screws Fig 2 7 Mounting of upper cover Fig 2 8 Mounting of lower cover Mounting of operation panel Please refer to 2 3 1 Removal and mounting of operation panel 2 3 3 Removal and Mounting of Covers of E5 H 4T11G E5 H 4T75G and Above Power Class Inverter with Sheet metal Enclosure Removal of operation panel Please refer to 2 3 1 Removal and mounting of operation panel Removal of cover Remove the mounting screws on the lower part of the cover lift the cover in direction 1 as shown in Fig 2 9 and then take out the cover in direction 2 Mounting of cover After the wiring of the main circuit terminals and control circuit terminals cramp the cover in direction 1 as shown in Fig 2 10 press down the cover in direction 2 and then tighten the cover Screws Chapter 2 Inverter Installation 12 V amp T Technologies Co Ltd http Awww EcoDriveCN com Fig 2 9 Removal of cover Fig 2 10 Mounting of cover Mounting of operation panel Please refer to 2 3 1 Removal and mounting of operation panel c Note Do not directly mount the cover with operation panel on the inverter otherwise
151. s word of the inverter Refer to Attached Table 3 for details OxF000 0xF002 Special register for input password authentication Refer to Attached Table 4 for details Read the current value upper limit lower limit and factory default value of the function code and rewrite the function code Refer to Attached Table 5for details OxF080 OxF084 Register for control word of the inverter Attached Table 2 peosier Name of Parameters pegister Name of Parameters address address AO2 h 0x8000 Control command word 0x8007 02 output host computer percentage en loop digital frequen 0x8001 Open leap digital frequency 0x8008 Reserved reference l ing f 0x8002 Running command reference mode 0x8009 os oe Nei ee coefficient 0x8003 Open loop main reference mode 0x800A Virtual terminal 0x8004 Close loop digital voltage reference 0x800B Y1 terminal output function 0x8005 Close loop digital rotation velocity 0x800C Acceleration time 0 reference 0x8006 AQ output host computer 0x800D Deceleration time 0 percentage Note The virtual terminals from LSB to MSB are X1 X2 X3 X4 Al1 Al2 Y1 and relay bit13 bit15 are reserved Appendix A Modbus Communication Protocol 119 V amp T Technologies Co Ltd Register for status word of the inverter http www EcoDriveCN com Attached Table 3 Register Nam
152. sa 1 2 3 wire ype 113 3 wire ype 2 P5 12 oe valle 0 0 9999 x o 9999 P5 13 ao value i 0 9999 x 0 9999 Chapter 5 List of Parameters 42 V amp T Technologies Co Ltd http www EcoDriveCN com Function code Function code name Factory Setting range Unit Property Function code selection User setting setting number Group P6 Analog Reference Parameter LED ones place Al1 0 Determine the reference frequency according to curve 1 P6 01 P6 04 1 Determine the reference frequency according to curve 1 P6 05 P6 08 Alt to Al2 analog value 2 Determine the per unit value P6 00 input curve selection 44 0 44 o determined according to curve 3 P6 09 to P6 12 3 Determine the per unit value determined according to curve 4 P6 13 to P6 20 4 No need of curve correction LED tens place Al2 same with above P6 01 Curve 1 input point AO 0 0 0 0 110 0 o 0 0 110 0 Reference frequency f0 P6 02 corresponding to curve1 0 00 0 00 300 00 Hz o 0 00 300 00Hz input point AO P6 03 Curve 1 input point A1 100 0 0 0 110 0 o 0 0 110 0 Reference frequency f1 P6 04 corresponding to curve1 50 00 0 00 300 00 Hz o 0 00 300 00Hz input point A1 P6 05 Curve2 input point AO 0 0 0 0 110 0 o 0 0 110 0 Reference frequency f0 P6 06 corresponding to curve2 0 00 0 00 300 00 Hz o 0
153. served area Reserved C area parameter Reserved area Reserved U0 00 reserved area Reserved U0 area parameter Reserved area Reserved U1 00 reserved area Reserved U1 area parameter Reserved area Chapter 4 Using Instructions of Operation Panel V amp T Technologies Co Ltd http Awww EcoDriveCN com Structure of first level menu UL siti PO 00 o0 PO ia Poe Jass 00 Fig 4 3 Structure of first level menu 4 4 2 Format of Second Level Menu 5 0 0 0 Data bit 1 Data bit 2 Decimal point Data bit 3 Data bit 4 Fig 4 4 Format of second level menu Format of display set for second level menu Display set decimal From data bit 1 to 4 the characters of 0 1 9 can be displayed or set When displayed data gt 9999 the last bit will be omitted For example When data is 12345 operation panel displays 1234 When data is 1234 5 operation panel displays 1234 When data is 123 45 operation panel displays 123 4 When data is 12 345 operation panel displays 12 34 Display set hex code From data bit 1 to 4 the characters of 0 1 9 A B C D E and F can be displayed or set Meanings of 0 0 0 0 displayed in second level menu After entering second level menu besides the displayed data there are also 4 dots this means the password protection and you need to enter the password The function codes that needs password in
154. ssure value corresponding to maximum analog 0 00 655 35Mpa 1 00Mpa H0 04 Pressure reference channel selection 0 2 0 H0 05 Pressure digital reference 0 00 655 35Mpa 0 04Mpa The function code H0 04 dertermine the pressure target reference channel When H0 04 0 the pressure target value determinate by function code H0 05 When H0 04 1 the pressure target value determinate by analog input terminal Al1 the pressure target value 0 to 10V corresponding to 0 to H0 01 setting value When H0 04 2 the pressure target value determinate by analog input terminal Al2 the pressure target value 0 to 20mA corresponding to 0 to H0 01 setting value Note The input analog through the jumper select 0 10V or 0 20mA P1 05 Analog feedback close loop control main feedback mode S251 Through P1 05 choose the actual pressure feedback channel When P1 05 1 the actual pressure feedback determinate by analog input terminal Al1 the pressure target value 0 to 10V corresponding to 0 to H0 01 setting value When P1 05 2 the actual pressure feedback determinate by analog input terminal Al2 the pressure target value 0 to 20mA corresponding to 0 to H0 01 setting value Note The input analog through the jumper select 0 10V or 0 20mA The value of P1 05 and H0 04 can not be set the same value H0 02 Upper limit of pressure reference 0 00 655 35Mpa 1 00Mpa H0 03 Lower limit of pressure reference 0 00 655 35Mpa 0 00Mpa The two function code may limit
155. ssword Display prompt code by 1 Z information ESG Password verification status Time out prompt Press PRG key if PressPRG no password or key to increase verification is function code valid by 1 Display second menu status J a a Fig 4 5 Display status and operation procedure 4 8 Operation Example In following example the displayed parameters at stopping status is reference frequency the factory setting is 50 00Hz The underscored line in the figure means the bit that is being edited 4 8 1 Restore Factory Setting For example setting P0 01 3 Restore all the parameters in P area to factory settings except the motor parameters F9 group PRG 5000 gt P0 00 Fm P0041 PRG o Bme 2 PRG aert H 50 00 ime Chapter 4 Using Instructions of Operation Panel 35 V amp T Technologies Co Ltd 4 8 2 Setting Frequency For example setting PO 05 25 00Hz http www EcoDriveCN com PRG PRG gt gt Y 50 00 Pooo Poos gt 50 00 50 00 I 3000 30 00 5 time 1 time 2 time 1 time V 5 time ESC PRG 25 00 P0 06 e 25 00 4 8 3 Setting Password For example setting user password P0 00 to 0003 v 25 00 ERGS Pooo ERGS ooo hime 0003 PRGA Poot htime Pooo PRG 0000 ime 4 8 4 Password Verification A 3 time 25 00 P0 01
156. stem oscillation P8 07 Deviation limit 0 0 20 0 5 0 When this function determines the certain level of the deviation between the feedback signal and the reference signal it will stop the internal PID adjustment and maintain stable output Only when the deviation between the feedback value and the reference value of the close loop exceeds the deviation limit of P8 07 will the output be updated Setting the deviation limit needs to take the system control precision and stability into consideration P8 08 PID adjustment selection 0 11 10 This function determines the specific running mode during the process close loop adjustment Display of operation panel Integration mode Unit 0 Frequency reaches its upper limit and lower limit the place integration adjustment is stopped E 1 Frequency reaches its upper limit and lower limit and the integration adjustment continues Tens Output power o place 0 It must be consistent with the setup running direction 1 It can be against the setup running direction If the output value of the close loop adjustment reaches frequency upper limit or lower limit P0 13 or P0 14 there are two actions for selection in the integration section 0 Stop integration adjustment the integration value remains unchanged When there is change occurring to the deviation between the reference value and the feedback value the integration value will follow that change trend 1 Continue integra
157. t and ending section during the acceleration and deceleration P0 10 S curve time is applicable to the belt conveyer that carries fragile materials or applications requiring smooth speed adjustment Chapter 6 Parameter Description 55 V amp T Technologies Co Ltd http Awww EcoDriveCN com Output frequency A Maximum frequency Setting frequency gt Time Acceleration action time Fig 6 1 Acceleration deceleration time and S curve When P0 10 is set as 0 it indicates that there is no S curve time and the acceleration and deceleration is in linear mode Acceleration time P0 08xset frequency P0 11 deceleration time P0 09xset frequency P0 11 When P0 10 is set as a non zero value it indicates that there is S curve time and the acceleration and deceleration adopts S curve mode S curve acceleration deceleration time acceleration deceleration time S curve time As shown in Fig 6 1 curve 1 is the curve representing the acceleration deceleration in linear mode curve 2 is the curve representing the acceleration deceleration in S curve mode Curves 1 and 2 corresponding to the same setting frequency The actual acceleration deceleration time of curve 2 is longer than that of curve 1 by the time set by P0 10 Note The S curve acceleration deceleration setting is also available for acceleration times 1 2 and 3 P4 09 P4 14 with the principle same as above It is appropriate when the ratio between the S cur
158. t current and operation frequency during failures recently occurred for the ease of Trouble Shooting and repair Note Upon the under voltage display LU the parameters of fault type and failure time will not be saved The inverter can record automatically the following information Total power up time of inverter total operation time of inverter record of maximum temperature of heat sink record of maximum bus voltage fluctuation 6 16 Product Identity Parameters Group d1 aro J Software version number of control panel Software version number of control Software version number of control panel 0 00 99 0 00 99 99 Factory aos 03 Software version number of operating panel version number of operating Software version number of operating panel 0 000 0 000 F FFF Factory FFF 0 000 F FFF Factory Chapter 6 Parameter Description 102 V amp T Technologies Co Ltd http Awww EcoDriveCN com d1 05 Manufacturer s bar code 1 Cee m Manufacturer s bar code 2 0 9999 ee Manufacturer s barcodes s bar code 3 0 9999 o g999 Factory aos 08 Manufacturer s barcode4 bar code 4 o 9999 Factoy 9999 _0 9999 Factory a10 J Control board software identification code Control board software identification code o 65535 Factory o 65535 Factory Software version number and non standard version number of product represent the software type Each inverter has a unique bar co
159. t displayed during auto reset period choose whether the failure indication to act or not Refer to PA 21 and PA 22 instructions Chapter 6 Parameter Description 93 V amp T Technologies Co Ltd http Awww EcoDriveCN com Hundreds place If failures lock function enabled when locked failures during last power failure are displayed after power on again choose whether the failure indication to act or not Refer to PA 20 instruction Inverter or motor overload prealarm 0 111 000 PA 14 Overload prealarm detection level 20 0 200 0 130 0 PA 15 Overload prealarm detection time 0 1 60 0 s 5 0s Overload prealarm function can realize indication of pre setting overload status or alarm stop PA 13 determines overload prealarm detection volume and conditions Display of operation panel Detection volume selection 0 Motor overload prealarm relative motor rated current Unitplace 1 Inverter overload prealarm relative inverter rated current Action selection after overload prealarm Tens place 0 Continue to run 1 Report overload failure and stop Detection conditions selection Hundreds place 0 Detection all the time 1 Detection only at constant speed Unit place Determine overload detection is motor overload prealarm or inverter overload prealarm Tens place Determine inverter continues to run or alarms then stops when the output current exceeds continuously overload prealarm detection level PA 14
160. t is forbidden to connect the output terminal of the inverter to the capacitor or LC RC noise filter with phase lead otherwise the internal components of the inverter may be damaged Please confirm that the power supply phases rated voltage are consistent with that of the nameplate otherwise the inverter may be damaged Do not perform dielectric strength test on the inverter otherwise the inverter may be damaged The wires of the main circuit terminals and the wires of the control circuit terminals shall be laid separately or in a square crossing mode otherwise the control signal may be interfered The wires of the main circuit terminals shall adopt lugs with insulating sleeves The inverter input and output cables with proper sectional area shall be selected according to the inverter power When the length of the cables between the inverter and the motor is more than 100m it is suggested to use output reactor to avoid the inverter failure caused by the overcurrent of the distribution capacitor The inverter which equipped with DC reactor must connect with DC reactor between the terminal of 1 2 otherwise the inverter will not display after power on Safety Precautions V amp T Technologies Co Ltd http Awww EcoDriveCN com m Operation N 4 Danger Power supply can only be connected after the wiring is completed and the cover is installed It is forbidden to remove the cover in live condition otherwise th
161. t may judge whether the output status is valid by whether there is current flowing in the terminal It may judge whether the output status is valid by whether the relay terminal is in the magnetizing status 6 9 Process PID Close Loop Parameters Group P8 Set P1 02 P1 04 Proportional Gain P8 00 P8 03 Kpx ay a Deviation Limit PID Adjustment 7 ae Close Analog PAIS PERI a eel P8 07 H Selection P Integral Gain P8 04 gt j gt Loop feedback Al ka P8 08 Kix Ly output close Loop Al2 Differential Gain AIB L gt i ee Single DI Kdx phase pulse Set P1 05 P1 07 feedback z Close P8 01 Close Loop Sampling Cycle Al close loop Feedback Value f Pao f4 Analog Da Loop Feedback Al2 Feedback close Loop Al3 DI g refers to the previous deviation Single Pulse Sot P8 02 refers to the deviation this time sine andP5 06 47 Fig 6 31 Schematic diagram for PID P8 00 Analog feedback process close loop control digital voltage 0 00 10 00 V 0 00V reference The current control operation mode P0 03 shall be determined before determining the process close loop reference value When the current control operation mode is analog feedback process close loop P0 03 1 if P1 02 is set to 0 it may determine the reference value of the close loop by P8 00
162. t series power supply class power class and software versions E5 H 4T11G V F control technology platform with vector control Ma Ea an torque heavy duty x T Three pr H Universal series ee prase 4 400V 1 2 Product Nameplate Description Product model Power class Input specification see 2 E6 HATHG Output specification E 41k AC3PH 380 480V 50 60Hz 39A Product barcode AC3PH 0 480V 0 300Hz 24A Manufacture Chapter 1 Introduction to E5 H Series Inverter 1 V amp T Technologies Co Ltd 1 3 Product Series http www EcoDriveCN com m E5 H 4TOOOG Three phase 400V Constant torque heavy duty application Power kW 0 75 1 5 2 2 3 7 55 7 5 11 15 185 22 30 37 45 55 75 Motor power kW 075 15 2 2 3 7 55 7 5 11 15 185 22 30 37 45 55 75 Voltage V Three phase 0 to rated input voltage Output Rated current A 2 5 3 8 55 9 13 17 24 30 39 45 60 75 91 112 150 Overload 150 1 minute 180 10 seconds 200 0 5 second interval 10 minutes inverse time capability lag feature Rated voltage frequency Three phase 380V 480V 50Hz 60Hz Input east vortaga 323V 528V Voltage unbalancedness lt
163. t such parameters as temperature pressure and humidity For the reference and feedback setting of the analog feedback process close loop control refer to P1 02 P1 07 function description For the setting of the process PID close loop parameters refer to Group P8 function code description Ali and Al2 terminal input specification 0 10V or 0 20mA P0 04 Open loop main reference mode 0 2 0 P0 05 Open loop digital frequency reference 0 00 300 00 Hz 50 00Hz This function is applicable to the frequency reference of open loop control mode For the speed reference of process close loop control mode refer to function code of Group P1 0 Set frequency reference via P0 05 Note If multi section digital voltage terminals 1 3 are valid the frequency is determined by the terminal combination Refer to P4 15 P4 21 If multi section frequency terminals 1 4 are valid the frequency is determined by the terminal combination Refer to P4 22 P4 36 1 Set frequency reference via Al1 port 2 Set frequency reference via Al2 port Input specification of Al1 and Al2 terminals 0 10V or 0 20mA The correspondence relation between Chapter 6 Parameter Description 54 V amp T Technologies Co Ltd http Awww EcoDriveCN com the analog and the reference frequency is defined by group P6 Note When adopting the current input of 0 20mA refer to the description of P6 01 P6 08 P0 06 Running command reference mode 0 2 0 Three different operating
164. ter operating command reference When restart after power failure is selected if PO 06 1 and the running terninal is enable when power on the inverter will be run after power resumes normal Note To ensure this function is valid under terminal operating command reference mode please do not change the status of operating command terminal during shutdown Pre set frequency 0 00 300 00 Hz 0 00Hz b Pre set frequency operating time 0 0 3600 0 s 0 0s When the inverter operates the function can response the setting of reference channel for other frequencies after using the pre set frequency as the setting frequency and keeping the time as pre set frequency operating time Pb 18 U U o o N Chapter 6 Parameter Description 99 V amp T Technologies Co Ltd http Awww EcoDriveCN com Pb 19 Upper limit of zero frequency operation 0 00 300 00 Hz 0 00Hz Pb 20 Lower limit of zero frequency operation 0 00 300 00 Hz 0 00Hz Output frequency Setting Temperature sensor frequency or analog signal 10V or 20mA 0 i i i Low tempePatsretcriseratre High Temperature Fig 6 36 Upper and lower limit of zero frequency operation This function supports sleeping function and energy saving operation After running the inverter will start when the setting frequency2Pb 19 During operation the inverter operates at zero frequency when the setting frequencysPb 20 Proper setting of limit value of zero operation can avoid the inverter
165. the following table and analyze decide the causes and solve failures For damages on units or questions that can t be resolved please contact with local distributors agents service centers or manufacturer for solutions ELC TREES ee Potential causes Solutions No code description Low grid voltage Check input power supply Startup too fast during motor operation noaa rt after the motor stops rotating Rotating inertial of load is very large and shock Increase A i i Overture load is very heavy and reduce the occurrences o rotection when sudden change of load 1 E oc1 P n Improper setting of motor parameters Set motor parameters properly Set start up frequency too high Decrease start up frequency operation po a i A Acceleration time is too short Lengthen acceleration time z Adjust V F curve setting and Set V F curve ratio too large torque boost Power level of inverter is small Replace with inverter with proper model Low grid voltage Check input power supply es ak as i Choose appropriate energy Over current Rotating inertial of load is too large braking components protection when 2 E oc2 deceleration Improper setting of motor parameters Set motor parameters properly operation Deceleration time is too short Lengthen deceleration time Power level of inverter is small Replace to inverter with proper model i Decrease load s abrupt Over curre
166. the inverter during the installation otherwise inverter failure may be caused e When the inverter is installed inside the cabinet the electricity control cabinet shall be equipped with fan and ventilation port And ducts for radiation shall be constructed in the cabinet Safety Precautions V amp T Technologies Co Ltd http Awww EcoDriveCN com m Wiring N 4 Danger The wiring must be conducted by qualified electricians Otherwise there exists the risk of electric shock or inverter damage Before wiring confirm that the power supply is disconnected Otherwise there exists the risk of electric shock or fire The grounding terminal PE must be reliably grounded otherwise the inverter enclosure may become live Please do not touch the main circuit terminal The wires of the inverter main circuit terminals must not contact the enclosure Otherwise there exists the risk of electric shock The connecting terminals for the braking resistor ar 2 B1 and B2 Please do not connect terminals other than these two Otherwise fire may be caused The leakage current of the inverter system is more than 3 5mA and the specific value of the leakage current is determined by the use conditions To ensure the safety the inverter and the motor must be grounded m Wiring L 1 Note The three phase power supply cannot connect to output terminals U T1 V T2 and W TS otherwise the inverter will be damaged I
167. the output current of the inverter is lower than the zero current detection width during operation the signal is enabled Refer to P7 18 for details 23 Stop command instruction When the inverter is in the stop or standby status the signal is enabled 32 Sleeping state indication When the inverter is in sleeping status the signal is enabled 12 16 21 24 31 and 33 47 Reserved The definition table of multifunctional analog outpu is as follows Function setup Output signal selection Definition of analog output range 48 Output frequency Maximum frequency P0 11 corresponds to 10V 20mA 49 Setup frequency Maximum frequency P0 11 corresponds to 10V 20mA 50 Output current Two times rated current of inverter corresponds to 10V 20mA 51 Motor current Two times rated current of motor corresponds to10V 20mA 52 Output torque Two times rated torque of motor corresponds to 10V 20mA 53 Output voltage Two times maximum output voltage P0 12 corresponds to 10V 20mA 54 Bus voltage 1000V corresponds to 10V 20mA 55 All 10V corresponds to 10V 20mA 20mA corresponds to 5V 10mA 56 Al2 The same as Al1 57 58 Reserved 59 Output power 2 times rated output power of motor corresponds to 10V 20mA 60 Host computer percentage 10000 corresponds to10V 20mA 61 Heatsink temperature 0 to 100 C corresponds to 0 to 10V20mA 62 Output frequency 2 Maximum frequency P0 11 corresponds to 10V 20mA Note
168. the pressure to set upper and lower limits When the setting value excess the value of H0 02 to H0 03 actual pressure target value take the the limit value of HO 02 or HO 03 Chapter 6 Parameter Description 104 V amp T Technologies Co Ltd http www EcoDriveCN com This function realized energy saving control for fan or pump When the actual running frequency lower than the sleeping frequency reference H0 06 and continued to maintain the delay time defined by H0 07 the inverter slow down to 0 frequency this time motor stops When the actual pressure feedback lower than wake up pressure percentage reference H0 08 and continued to maintain the delay time defined by H0 09 the inverter re enter the PID regulator the motor start running Note In the sleeping status the operation panel of inverter display SL H0 11 The frequency of auto Switch aooaa time and 0 00 300 00 Hz 0 00Hz deceleration time H0 12 Acceleration time and deceleration time auto switch 0 3 1 selection The function realized auto switch acceleration time and deceleration time during acceleration and deceleration When the frequency reference lower than H0 11 the inverter will automatically switch to acceleration and deceleration time define by H0 12 For example if setting frequency is 0 to 10Hz the acceleration and deceleration time is 20 0s if setting frequency is 10 00Hz to maximum frequency acceleration and deceleration time is 6 0s the
169. tion adjustment The integration value will give immediate response to the change between the reference value and the feedback value unless this value reaches the internal integration limit When there is change occurring to the deviation between the reference value and the feedback value changes it needs to take longer time to offset the impact brought by the continuous integration so that the integration value can catch up that change trend If the output value of the close loop adjustment is inconsistent with the current setup running direction the close loop output value has two actions for selection 0 It must be consistent with the setup running direction When the output value of the close loop Chapter 6 Parameter Description 87 V amp T Technologies Co Ltd http Awww EcoDriveCN com adjustment is inconsistent with the current setup running direction the current output value will be forced to be 0 internally 1 It can be against the setup running direction When the output value of the close loop adjustment is inconsistent with the current setup running direction the close loop adjustment opposite to the current setup running direction will be executed P8 09 PID positive or negative function 0 1 0 PID is positeve function at default It needed negative function when feedback value is greater than reference value and the frequency needed increase This function can realized through setting P8 09 1 or multi function terminal
170. tion time P0 08 and P0 09 properly Setting P9 15 to 1 perform auto tuning Press the run key to start the parameter auto tuning and P9 15 will be restored to 0 automatically upon completion of auto tuning process Note Make sure that the motor is in the static status when starting the parameter auto tuning If there is over current or over voltage failure during the auto tuning process it can prolong the acceleration deceleration time P0 08 and P0 09 properly Ifthe inverter power does not match the motor power select static auto tuning After the tuning manually change the no load current P9 05 to about 40 of the motor rated current P9 04 Ifthe motor parameters are given please enter the parameters to P9 05 directly During the process of parameter auto tuning At will appear on the operation panel a Motor overload Motor overload protection 00 __ Poaz Sensor Sensor protection threshold of motor threshold of motor 0 00 10 00 V 0 00 10 00 v 10 00v P9 18 Motor overload protection time 0 5 30 0 min 10 0min This function can be used to protect the motor Display of operation panel Protection mode 0 Motor current mode Unit place 1 Sensor mode 2 No action Low speed derating 0 Action applicable to common motor Tens place 1 No action applicable to variable frequency motor The units place of P9 16 determines whether the motor overload protection is to
171. to 1 when inverter receive the actual pressure feedback lower than sleeping pressure reference value H0 32 and lasting time is longer than sleeping delay time H0 34 the inverter will decelerate to 0 frequency this time motor stops when inverter receive the actual pressure feedback higher than wake up pressure reference value H0 31 and lasting time is longer than wake up delay time H0 33 The inverter re enter the PID regulator and motor start running Pressure 0 10V frequency Unloading r pressure Actual pressure feedback Frequency upper limit H0 32 H0 31 Frequency lower limit Time H0 33 H0 34 Fig 6 38 Pressure control sleeping start and stop maintain time 0 99 99 0 47 0 0 47 14 If the input terminal function is set to 32 forced wake up input function When the inverter is in sleeping status if close the terminal terminal function be set to 32 the inverter will out of sleeping and enter PID regulater If the output terminal function is set to 32 sleeping instruction When the inverter is in sleeping status the terminal which function number be set to 32 is enable If need to use terminal to switch close loop control and open loop control the input terminal function number should be set to 51 Setting other PID parameters in P8 group for details refer to group P8 parameters discription Chapter 6 Parameter Description 106 V amp T Technologies Co Ltd http Awww EcoDriv
172. tor current speed 0 00Hz 0 655 35 Hz 0 655 35Hz Group HO Special Parameters for Constant Pressure Control Closed loop function H0 00 selection for constant 0 O 1 J i 0 Invalid 1 Valid pressure control The pressure value H0 01 corresponding to 1 00 0 00 655 35 Mpa s 0 00 655 35 Mpa maximum analog Upper limit of 2 a H0 02 pressure reference 1 00 0 00 655 35 Mpa 0 00 655 35 Mpa Lowr limit of m H0 03 pressure reference 0 00 0 00 655 35 Mpa 0 00 655 35 Mpa Preseureroferonce 0 Digital reference H0 05 H0 04 andl Baca 0 0 2 o 4 Al1 analog reference 2 Al2 analog reference Pressure digital _ H0 05 reference 0 04 0 00 655 35 Mpa o 0 00 655 35Mpa when H0 04 0 Sleeping frequency M H0 06 reference 30 00 0 0 300 00 Hz o 0 0 300 00Hz H0 07 ikea sleeping delay 60 0 0 0 3600 0 s o 0 0 3600 0s Wake up pressure z m F 6 H0 08 percentage reference 50 0 0 0 200 0 o o 0 0 200 0 H0 09 Wake up delay time 30 0 0 0 3600 0 s o 0 0 3600 0s The frequency of auto HO 11 switch acceleration time 0 00 0 00 300 00 Hz o 0 00 300 00Hz and deceleration time Chapter 5 List of Parameters 50 V amp T Technologies Co Ltd http www EcoDriveCN com Function Facto User code Function code name ory Setting range Unit Property Function code selection se aer setting setting 0 Acceleration time and deceleration time 0 P0 08 and P0
173. tp www EcoDriveCN com ellletes retin panus Potential causes Solutions No code description Enable auto tuning function during motor Perform auto tuning after the spining motor stops to rotate Check whether motor wirings are a i well connected 9 E AUt aa Auto tuning overtime Length of motor wiring within 100m Incorrect setting of motor parameters in group ie reset the parameters Pg according to the nameplate parameters on the motor Check whether the motor the output connection are short Output over current circuited whether the ground is short circuited and whether the load is too heavy Check the mains power suppl 7 ERAL Module protection and whether the ee inona DC terminal overvoltage load has no function of quick stop at energy consumption brake Loose connection of connectors inside the Ask professional technicians to inverter maintain Lower the ambient temperature Ambient over temperature and strengthen ventilation and radiation z Clean the dusts wools and other Heatsink 1 over Blockage of air duct foreign objects in the air duct 11 E oH1 temperature Check whether fan wirings are protection well connected pani railure Replace a new fan of the same model Inverter module failure Seek for technical support Temperature detection circuit failure Seek for technical support Lower the ambient temperature Ambient over temperature and stren
174. tput impedance 200 500Q 0 10V allowable output impedance 210kQ Output precision 2 resolution 10 bits 0 1 with short circuit protection function 0 20mA or 0 10V analog output can be selected through jumper a Analog output 2 Same as AO1 Analog grounding Internal isolated with COM AO1 Analog output 1 Analog output RA RB Normally closed Relay output RA RB RC Relay output RA RC Normally open Contact capacity 250VAC 1A 30VDC 1A Note Ifthe user connects adjustable potentiometer between 10V and GND the resistance of the potentiometer shall be no less than 5kQ Chapter 3 Wiring of Inverter 21 V amp T Technologies Co Ltd Note http www EcoDriveCN com 1 The arrangement sequence of the control circuit terminals is as follows 1iov an A GND ao1 a02 2 COM X1 24V PLC x2 x3 x 2 Wiring mode of the multi functional input output terminals m When using the internal 24V power supply of the inverter the external controller adopts NPN sink current wiring mode RA RB RC Y1 COM User f i com controller ti r 1 gp t24V 4 PLC E x 14 4 X1 4 gt h 4 x x ry T g Paad y K l D l The near end of the Inside of inverter shielding cable is 1 grounded m When using the internal 24V power supply of the inverter the external controller adopts PNP draw off c
175. tput torque Output power kW Output voltage V LED tens hundreds thousands place Same with above MaMOOIDSPOODNOARNTO P2 03 Display parameter selection at stopping 3210 0 FFFF o LED ones place Reference frequency Hz Bus voltage V Al1 V 3 Al2 V Reserved 5 Reserved External counting Motor rotation speed rpm Close loop reference Close loop feedback Reserved Reserved Reserved Reserved Reserved Reserved LED tens hundreds thousands place Same with above TINOOWDSODADOARNTO P2 04 Running proportion display benckmark 0 O F o 0 F P2 05 Running proportion display coefficient 0 00 0 00 655 35 o 0 00 655 35 P2 06 Stopping proportion display benckmark 0 0 F o 0 F P2 07 Stopping proportion display coefficient 0 00 0 00 655 35 o 0 00 655 35 Chapter 5 List of Parameters 40 V amp T Technologies Co Ltd http www EcoDriveCN com Function code Function code name Facto ry Setting range Unit Property Function code selection User setting setting number Group P3 Start stop Parameter 0 Normal startup P3 00 Startup mode 0 0 2 x 1 Start after DC injection 2 Flying startup aa 5 Constant torque
176. tself as well as the leakage current of motor and its interference with external radiation will decrease PA 01 can be able to determine automatically the most suitable carrier frequency according to the temperature of inverter 0 Non auto adjustment carrier frequency will not be adjusted automatically according to the temperature of inverter Under favorable circumstances as regards ventilation and heat sink all loads shall operate with low noise Set PA 00 with higher carrier frequency and set PA 01 to 0 1 Auto adjustment inverter can adjust automatically carrier frequency through temperature check according to the weight of load Maintain continuously reliable operation by keeping operating with low noise at low loads and controlling the temperature of inverter at heavy load PA 02 V F control slip compensation gain 0 0 300 0 100 0 The function will be enabled when operating under V F control when P0 03 0 1 The function will help the inverter to keep the motor rotational speed constant if loads vary or under heavy loads Motor slip 100 PAO2 100 50 gt lt PA 02 50 Inverter load 0 100 Fig 6 33 V F control slip compensation gain Current limit action selection O PA 05 CUnrenElititivalte 20 0 200 0 160 0 PA 04 current limit motion selection 0 Invalid Invalid for both processes of constant speed and acceleration deceleration 1 Valid Valid for both p
177. ttings Pb 23 will be automatically returned to 0 no action E CPy will display if error occur during copies The parameters for E5 inverter V5 inverter and V6 inverter cannot be copied each other The copy operation can be performed only when the operation panel copy identification codes of the two inverters for upload and download d1 09 are consistent The copy function can be completed only when the inverter is completely powered off and then powered up after the download of the parameters for copy is completed 6 13 Communication Parameters Group PC PC 00 Communication baud rate 4 8 6 PC 01 Data format 0 2 0 PC 02 Local address 1 247 1 The inverter supports international Modbus RTU protocol Refer to the appendix A PC 00 determines communication baud rate ranging from 4800 57600bps 4 4800bps 5 9600bps 6 19200bps Chapter 6 Parameter Description 101 V amp T Technologies Co Ltd http Awww EcoDriveCN com 7 38400bps 8 57600bps PC 01 sets communication format odd even check 0 1 8 1 format without check 1 1 8 1 format even check 2 1 8 1 format odd check PC 02 sets the local address 0 is the broadcast address available address 1 247 248 255 for reservation 6 14 Reserved 6 15 Failure Record Parameters Group d0 The inverter can record the latest three fault code serial number see 7 1 list of failure and alarm information and bus voltage outpu
178. umber LED ones place Al1 function selection 0 Open loop frequency or close loop analog input i 1 4 Reserved P6 21 rara cranna function 00 0 66 x 5 Motor temperature feedback overload protective sensor 6 Reserved LED tens place Al2 function selection same with above P6 22 Alt filtering time 0 004 0 000 1 000 s x 0 000 1 000s P6 23 Al2 filtering time 0 004 0 000 1 000 s x 0 000 1 000s Group P7 Multi function Output Parameter Y1 terminal output z Refer to the definitions of multi P7 00 function selection 2 ooa i function digital outputs of P7 group Relay terminal output N and the definitions of multi function Peo function selection 14 oaar 2 analog values and pulse output in P7 03 AO1 terminal output 48 48 71 z Chapter 6 function selection AO2 terminal output a P7 04 function selection S HA 7 P7 05 AO1 gain 100 0 0 0 200 0 o 0 0 200 0 P7 06 AO1 bias 0 0 0 0 200 0 o 0 0 200 0 P7 07 AO2 gain 100 0 0 0 200 0 o 0 0 200 0 P7 08 AO2 bias 0 0 0 0 200 0 o 0 0 200 0 Ones place AO1 gain 0 Positive 1 Negative Selection of positive Tens place wor bias P7 09 and negative gain and 0000 O 1111 o 0 Positive 1 Negative gt bias Hundreds place AO2 gain 0 Positive 1 Negative Thousands place AO2 bias 0 Positive 1 Negative Ones place Y1 terminal 0 Level signal 1 Pulse signal P7 11 Output signal type 000 000 101 x Tens place Reserved Hundreds place Relay terminal
179. urrent wiring mode ______ The near end of the shielding cable L User controller li piaua O of 14 of syi is grounded 4 24V 4 COM D oNN Pic SSS J tT b X4 Inside of inverter Note The short circuit plate between terminal 24V and terminal PLC must be removed and short circuit plate shall be connected between PLC and COM terminals Chapter 3 Wiring of Inverter 22 V amp T Technologies Co Ltd http www EcoDriveCN com m When using the external power supply the external controller adopts NPN sink current wiring mode is grounded User i f nl COM controller if d 4 24V r T 20 28V 4PLc A we T ax IA oo 4 x1 t y t aq an N d xe j 4 7 y 4 X4 y yet ok U4 ce The near end of Inside of inverter the shielding cable 3 3 Note The short circuit plate between terminal 24V and terminal PLC must be removed m When using the external power supply the external controller adopts PNP draw off current wiring mode User 20 28V N controller i 2N q A CoM LI jpic 33 N a of x t Ral 4x1 fry m GND 43 3 XK of 4 y r 1 GND The nearendof D Inside of inverter the shielding cable is grounded Note The short circuit plate between terminal 24V and terminal PLC must be removed m The wiring modes of the multi functi
180. ut frequency of the inverter is 0 the single is enable 10 Preset counting value action 11 Counting value arrival action When the counting value of inverter input terminal complies with action the signal is enabled Refer to P5 12 and P5 13 for details 13 Inverter ready for operation RDY When the auto test of the inverter is normal after power on and the inverter operation disable function is invalid or disable the signal is enabled 14 Inverter fault When the inverter is in the stop status due to failure the signal is enabled Chapter 6 Parameter Description 80 V amp T Technologies Co Ltd 15 Inverter reports alarm http www EcoDriveCN com When the inverter is in the alarm status due to fault but does not stop the signal is enabled 17 Arrive summation running time The signal is enable when the inverter running repeatedly and running time reach the setting and the signal will be reset if power off For details refer to Pb 14 18 Arrive continuous running time When the inverter running one time the signal is enable when running time reach the setting and the signal will be reset if in stopping status For details refer to Pb 13 19 Output X1 The status of X1 terminal is output via the terminal Y when X1 is enabled the signal is enabled 20 Output X2 The status of X2 terminal is output via the terminal Y when X2 is enabled the signal is enabled 22 Zero current detection arrival When
181. uxiliary g ia 3 Main Auxiliary 50 calculation 4 Take maximum value 5 Take minimum value Group P2 Key and Display Parameters 0 No locking P2 00 Key lock function 0 0 3 5 1 Locking all keys selection 2 Locking all keys except MULTI key 3 Locking all keys except RUN and Chapter 5 List of Parameters 39 V amp T Technologies Co Ltd http www EcoDriveCN com Function code number Function code name Factory setting Uti Setting range Property Function code selection User setting STOP RST keys P2 01 Multi function key definition 0 No function 1 Jog function 2 Emergent shutdown 1 Stop in shortest time 3 Emergent shutdown 2 Coast to stop 4 Switch of input method of running command Operation panel Terminal Host computer 5 Function code display switch fast all 6 Function code display switching different from leave factory all 7 Function code display switching the last changed 10 function codes all 8 Function code display switching P0 02 menu mode switching P2 02 Display parameter selection at running 1CBO 0 FFFF o LED ones place Reference frequency Hz Bus voltage V Al1 V 3 Al2 V Reserved 5 Reserved External counting Motor rotation speed rpm Close loop reference Close loop feedback Reserved Running frequency Hz Output current A Ou
182. ve time and the acceleration deceleration time is 1 5 The maximum output frequency fmax is the allowable maximum output frequency of the inverter The maximum output voltage Vmax is the output voltage when the inverter is in basic operating frequency Chapter 6 Parameter Description 56 V amp T Technologies Co Ltd http Awww EcoDriveCN com When standard AC motor is used it corresponds to the motor rated voltage Refer to motor nameplate The frequency upper limit f4 and frequency lower limit f are the maximum and minimum operating frequency of the motor set according to the production process requirement by the user during the use The basic operating frequency f is the minimum frequency corresponding to the maximum output voltage of the inverter When standard AC motor is used it corresponds to the rated frequency of the motor Refer to the motor nameplate Output voltage v max i gt fl fy fy fas Output frequency Fig 6 2 Characteristic parameter definition Effect of the torque boost function when the inverter operation at low frequency increase the output voltage and offset the stator voltage drop to product enough torque so as to ensure the normal operation of the motor Note The torque boost amplitude should be set according to the load situation Excessive boost will cause large current impact during the startup process When P0 16 is set to 0 0 and P4 00 is set to 0 linear V F curve the aut
183. vy load startup applications it will facilitate the startup if the startup frequency and retention time are properly set Different stop modes can be adopted for different applications 0 Decelerate to stop according to the deceleration time 1 The inverter locks the output and the motor coast to stop 2 Decelerate to stop according to the deceleration time When the frequency is lower than the DC braking initial frequency P3 06 inject the DC braking current P3 07 and the DC braking time is determined by P3 08 Note During the DC braking the operation panel displays dc P3 06 DC braking initial frequency 0 00 300 00 Hz 0 00Hz P3 07 DC braking current 0 0 120 0 0 0 P3 08 DC braking time 0 00 30 00 s 0 00s P3 06 sets the initial frequency at the beginning of DC braking current injection during the shutdown P3 07 sets the DC braking current value This value is presented as the percentage of the rated current of the inverter It ranges from 0 0 90 0 upon variable torque load P3 08 sets the action time of the DC braking current P3 09 Anti reverse selection 0 1 0 P3 10 Forward reverse dead zone time 0 0 3600 0 s 0 0s For some production equipment reverse operation may cause equipment damage This function can be used to prevent reverse operation P3 09 is set to forbid reverse operation by default upon delivery Chapter 6 Parameter Description 64 V amp T Technologies Co Ltd http www EcoDriveCN com Wh
184. wed circularly by pressing gt gt key Display of operation pane 0 Reference frequency Hz 1 Bus voltage V 2 Alt V 3 Al2 V 4 Reserved 5 Reserved 6 External counts 7 Motor rotation speed rpm Unit place 8 Close loop reference 9 Close loop feedback A Reserved B Operating frequency Hz C Output current A D Output torque E Output power kW F Output voltage V Tens place Same as above Hundreds place Same as above Thousands place Same as above P2 04 Running proportion display benchmark 0 F 0 P2 05 Running proportion display coefficient 0 0 1000 0 0 00 If the parameter to be displayed has proportion relation with a physical value in the operation display parameter defined by P2 02 P2 04 can be used to designate the physical value as the display benchmark and P2 05 can be used to set the coefficient of the display benchmark When the proportion display parameter is set i e P2 0 0 the physical value will be automatically added into the operation display parameter group and can be viewed by pressing gt gt key At this time there are 5 display parameters The LEDs for the newly added parameter are LED A and LED V both of which shall be on Chapter 6 Parameter Description 62 V amp T Technologies Co Ltd http Awww EcoDriveCN com P2 03 Display parameter selection at stopping status O FFFF 3210 Up to 4 parameters can be
185. witching shall be interlocked m Maintenance Inspection AN Danger In the power on state please do not touch the inverter terminals otherwise there exists the risk of electric shock If cover is to be removed the power supply must be disconnected first Wait for at least 10 minutes after power off or confirm that the CHARGE LED is off before maintenance and inspection to prevent the harm caused by the residual voltage of the main circuit electrolytic capacitor to persons The components shall be maintained inspected or replaced by qualified electricians Safety Precautions V amp T Technologies Co Ltd http Awww EcoDriveCN com Note The circuit boards have large scale CMOS IC Please do not touch the board to avoid the circuit board damage caused by electro static E Others 7 N Danger e It is forbidden to modify the inverter unauthorizedly otherwise personal injury may be caused Safety Precautions V amp T Technologies Co Ltd http www EcoDriveCN com Contents Chapter 1 Introduction to E5 H Series Inverter cccccssscsssesesesseessseesseesseessoeseseeesaessseeseneneaeneaes 1 1 1 Product Model Description j cc ccseccseen iiss iarsira raian e auto da aaar Ea aTi 1 1 2 Product Nameplate Description 1 TiBPrOduct Seine iwwicissscicvs cia dans eesiesasereensses E ETT 2 1 4 Technical Specifications of ProduGtsisss nissens aaaea nea ar a aces e
186. y control Pb 08 determines the function of operation panel A V adjustment volume Operational panel A V integral rate Pb 09 determines the time it will take to refresh increment decrement for one time when adjusting with A V Display of operational panel Action when power failure Unit place 0 mains loss save 1 reset upon mains loss Action when stop 0 Maintain when stop Tens plage 1 Reset clear when deceleration or stop 3 Reset during standby Operational panel A V regulation setting 0 Only valid when main reference is P0 05 Hundreds open loop digital frequency setting place 1 Valid during adjustment 2 Invalid during adjustment Thousands 0 With integral function place 1 Without integral function Unit place Action upon mains loss 0 After setting frequency by operational pane V adjustment operational panel A V adjustment volume will be recorded automatically after power to the inverter is cut off 1 After setting frequency by operational pane V adjustment operational panel A V adjustment volume will be cleared automatically after power to the inverter is cut off Tens place Action during shutdown 0 After shutdown adjustment volume of AV on operational panel keeps unchanged Chapter 6 Parameter Description 97 V amp T Technologies Co Ltd http Awww EcoDriveCN com 1 After shutdown adjustment volume of AV on operational panel will be cleared after carrying out stop
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