MV100 Series Compact Vector Control Drive Quick Start and
Contents
1. Function Default Function Default Name Setting range Name Setting range code value code value Pre magnetizi Multi stage P12 07 0 0 10 0s 0 1 P13 06 50 0 ng time frequency 7 Minimum flux Multi stage P13 07 5 0 P12 08 reference 10 150 10 frequency 8 value Multi stage P13 08 10 0 Flux weakeni frequency 9 P12 09 ng adjustment 0 10000 1000 Multi stage P13 09 20 0 coefficient 1 frequency 10 Flux weakeni Multi stage i P13 10 30 0 P12 10 ng adjustment 0 10000 1000 frequency 11 coefficient 2 Multi stage P13 11 40 0 Flux weakeni frequency 12 P12 11 ng control 0 1 1 Multi stage P13 12 45 0 mode frequency 13 P12 12 Multi stage Reserved P13 13 3 50 0 P12 14 frequency 14 Group P13 Multi stage speed parameters Multi stage p SERRER P13 14 i 50 0 Multi stage frequency 15 P13 00 5 0 frequency 1 Group P14 Process PID parameters Multi stage Digi P13 01 fe 10 0 0 Digital reference frequency 2 Reference 1 AI1 analog reference Multi stage P14 00 channel 2 Al2 analog reference 0 P13 02 20 0 frequency 3 selection 3 Terminal PULSE reference P02 14 P02 13 Multi stage 4 Serial port communication reference P13 03 30 0 frequency 4 0 AI1 analog reference Multi stage Feedback 1 Al2 analog reference P13 04 40 0 frequency 5 P14 01 channel 2 A11 Al2 0 Multi stage selection 3 Al1 Al2 P13 05 45 0 frequency 6 4 MIN AI1 AI22. Fault Fault type Possible fault cause Solutions code The acceleration time is too short Lengthen the acceleration time The motor parameters are incorrect Perform the parameter auto tuning of the motor Acceleration When instantaneous stop happens Set the start mode P08 00 as the speed tracking Er oC1 over current of the restart the rotating motor restart function drive The drive power is too low Adopt the drive with high power class Adjust the V F curve setting and the manual torque V F curve is improper increase The deceleration time is too short Lengthen the deceleration time Deceleration There is potential energy load or the Use additionally appropriate dynamic braking EroC2 over current of the i load inertial torque is large components drive The drive power is low Adopt the drive with high power class The acceleration deceleration time is Lengthen the acceleration deceleration time too short appropriately Constant speed Sudden load change or abnormal Er oC3 over current of the Check the load load drive n Low grid voltage Check the input power supply The drive power is low Adopt the drive with high power class Abnormal input voltage Check the input power supply Acceleration Acceleration time is too short Lengthen the acceleration time appropriately Er oU1 over voltage of the drive When instantaneous stop happens Set the start mode P08 00 as the speed tracking restart the rotating motor restart
3. I pl 4 50 60Hz Xo ws Multi function input Tr Multi function input 2 Multi function input 3 Multi function input 4 Multi function input 5 7 n Analog input H H O men P24 PLC RXBWA COM 10 AIT AI2 GND PE C DC PB DC E s du EDO N am Ww PE MV100 ooo ooo FE GND AO1AC2 020mA AQ2 Aw DC voltage current meter Voltage current signal AO1 ANT 00V S P246 y1 Frequency meter open collector output COM XN 0 24V pulse signal output Y2 Output 2 Bidirectional open collector output CME All Al2 0 20mA mO TA 0 10V 9 TB Programmable relay output o TC RS485 standard RS485 RS485 commmunication port Fig 2 1 Basic wiring diagram 1 Fig 2 1 applicable models Three phase 380V or 220V series 13 Braking resistor single phase 220V 50 60Hz PLC Multi function input 1 D xa Multi function input 27 x2 Multi function input 3 7 _ 3 Multifunction input4 x4 Multi function input 57 SE COM mO 10 Analog input i AlvaAl2 a 7 GND PE HARE oog GND A01A02 0 20mA A02e AO1 0 10 P24 Y1 COM Y2 amp Output 2 CME
4. 2000 0 2000 0Hz 0 0 State of digital 0 FH 0 open 1 close Output P01 12 output The high speed pulse output will not be 0 P01 04 2000 0 2000 0Hz 0 0 terminal refreshed synchronously frequency Ud Al1 input 600 utpu x P01 05 p 0 480V 0 POS voltage 9 00 9 00V voltage AI2 input P01 06 Output current 0 0 3le 0 0 P01 14 0 00 10 00V 0 00 voltage P01 07 Output torque 300 0 300 0 0 0 0 0 100 0 P01 15 AO1 output nd 0 0 P01 08 Motor power M Pe to the rated 0 0 percentage relative to the full range power of the motor T P01 16 AO2 output 0 07100 0 0 0 P01 09 Bus voltage 0 800V 0 percentage relative to the full range O 7FFFH 85747 Torque 300 0 300 0 relative to the rated 0 0 Bit 0 RUN STOP i reference torque of the motor l Bit 1 REV FWD X1 terminal Operation Bit 2 Running at zero speed pulse P01 10 state of the iA 0 P01 18 0 0 100 0kHz 0 0 Bit 3 Accelerating frequency drive Bit 4 Decelerating reference Bit 5 Running at constant speed Radiator 1 Bit 6 Reserved P01 19 ibmpers ure 40 0 100 0 C 0 0 19 Function L Default Function Default Name Setting range Name Setting range code value code value Accumulated frequency P01 20 PONER 0 maximum 65535 hours 9 Unit place of LED Main digital frequency hours saving control Accumulated 0S h d P01 21 0 maximum 65535 hours 0 Save wnen power Gown running hours 1 Do not save wh
5. protection action and displays AL xxx if continuing running with alarm 40
6. 2 Set frequency 0 Maximum output 6 Lockout for under voltage LU frequency 7 External fault stop EXT 3 Output current lei 0 2 lei 8 Frequency upper limit FHL 4 Output current lem 0 2 lem 9 Frequency lower limit FLL 5 Output torque 0 3 Tem Relay R1 4 10 Drive running at zero speed DO terminal 6 Reserved output P09 22 0 P09 16 cii 11 14 Reserved 15 output 7 Motor rotating speed 0 Maximum unction 115 Drive ready for running RDY output frequency selection 16 Drive fault 8 Output voltage 0 1 5 Ve 17 Host device switch signal 9 Adjusted Al1 0 10V 4 20mA 18 19 Reserved 10 Adjusted AI2 0 10V 4 20mA 20 Drive FWD REV indication terminal 11 Reserved 21 24 Reserved 12 Output power 0 2 Pe P09 17 Output Binary setting 0 13 15 Reserved 26 Function Default Function Default Name Setting range Name Setting range code value code value 16 Torque reference 0 3Tem 8 Torque command reference 17 Percentage of host device 0 65535 Tens place of LED AI2 function selection 18 19 Reserved is the same as Al1 Maximum P10 02 Al1 zero offset 100 0 100 0 0 0 P09 23 output pulse 0 1 50 0 10 0 P10 03 Alt gain 0 00 10 00 1 00 frequency 0 Without central point P10 04 Al filtering 0 000 10 000s 0 010 1 With central point 0 Bias asia contor It is P09 23 2 It is positive when the Kran dead 1 Lower than the bias
7. 30 Function Default Function Default Name Setting range Name Setting range code value code value 5 MAX AI1 AI2 PID pre set P14 13 0 2000 0Hz 0 0 6 Terminal PULSE reference frequency Reference Pre set P14 02 channel 0 01 50 00s 0 50 P14 14 frequency 0 0 3600 0s 0 0 filtering retention time Feedback 0 PID output is negative 0 frequency P14 03 channel 0 01 50 00s 0 50 PID output operation filtering P14 15 reverse 1 PID output is negative reverse 0 PID digital selection Note When PID output as auxiliary P14 04 100 0 100 0 0 0 reference frequency always 1 Proportional 0 PID lost no action P14 05 0 000 10 000 2 000 gain KP 1 When the action continues to run at PID feedback in Men NEUES Integral gain e current set frequency no fault signal P14 06 eg 0 000 10 000 0 100 P14 16 loss action 0 Ki output display alarm selection P14 07 Reserved 2 When the action coast to stop a fault Sampling signal output P14 08 0 01 50 00s 0 50 PID feedback cycle 0 0 100 0 Output P14 17 lost detection m pak iS 4009 0 0 P14 09 0 01 10 00s 0 05 le e maximum output frequency is b filtering time men 0 0 20 0 Corresponds to PID PIDdeedbaek P14 10 Deviation limit 2 0 P14 18 lost detection 0 0 25 0s 1 0 reference E time 0 Positive interaction A n 1 Reverse interaction i Group P15 Communication parameters 14 1 adjustment d Note Adjust the relationship
8. 4 Command channel switching 2 valid i protection can be changed both in stop amp running status 2 Only this function code can be 5 Panel locking function changed Thousands place Panel locking function 17 Function Default Function Default Name Setting range Name Setting range code value code value 0 Lock all the keys BIT1 Analog closed loop reference 1 Lock all the keys except the STOP key flashing 2 Lock all the keys except the gt gt key BIT2 Terminal status without unit 3 Lock all the keys except the RUN amp BIT3 DC bus voltage STOP key Binary setting Binary setting 0 No display 1 Display 0 No display 1 Display Unit place of LED Unit place of LED BITO Preset frequency Hz BITO Output frequency Hz BIT1 Running speed r min BIT1 Preset frequency Hz flashing BIT2 Preset speed r min BIT2 Output current A BIT3 DC bus voltage V LED display Tens place of LED Tens place of LED LED display 50008 parameter BITO Running rotating speed r min ET fafamei t BITO Running line speed m s selection 1 BIT1 Set rotating speed r min flashing P00 07 BIT1 Preset line speed m s 009H when running BIT2 Running line speed m s spleciion BIT2 Analog closed loop feedback BIT3 Preset line speed m s flashing when siop BIT3 Analog closed reference Hundreds place of LED Hundreds place of LED BITO Output power BITO AI1
9. 27 Reserved P97 16 voltage atthe 0 999V ov 28 Parameter setting error Er PST 3rd fault 29 Control board 24V power short circuit P97 17 Actual current 0 0 999 9A 0 0 34 Function Default Name Setting range code value at the 3rd fault Running P97 18 frequency at 0 0 2000 0Hz 0 0 the 3rd fault Drive running P97 19 status at the O0 FFFFH 0000 3rd fault Group P98 Drive parameters Manufactur P98 00 Serial No 0 FFFFH er setting MCU software Manufactur P98 01 0 00 99 99 version No er setting User customiz Manufactur P98 02 0 9999 ed version No er setting DSP software Manufactur P98 03 0 00 99 99 version No er setting ERA Rated Output power 0 999 9kVA Depending Manufactur i capacity on model er setting Manufactur P98 05 Rated voltage 0 999V Depending on model A er setting Manufactur P98 06 Rated current 0 999 9A Depending on model er setting Drive series 0 220V Manufactur P98 07 selection 1 380V er setting 35 Chapter 5 Troubleshooting Displaying exception and solutions All possible fault types for MV100 are summarized as shown in table 5 1 Before consulting the service department the user can perform self check according to the hints of the table and record the fault symptoms in detail To seek for service support please contact the sales person Table 5 1 Fault record table
10. Auxiliary reference frequency pulse F05 14 upon power 0 0 3600 05 n input valid only for X1 fault 14 Frequency increase command UP 0 Reverse operation is allowed 15 Frequency decrease command DN e Anti reverse 1 Reverse operation is prohibited run at 16 External fault normally open input 15 selection zero frequency upon reverse running 17 External fault normally closed input command 18 External interrupt normally open Use ratio of contact input P08 16 dynamic 0 0 100 0 0 0 19 External interrupt normally closed braking contact input Braking 380V Model 700 780V 750 20721 Reserved P08 17 startup 22 External reset RESET input voltage 220V Model 330 370V 350 anton 23 Coast to stop input FRS 24 Acceleration deceleration disable Group P09 Digital input output parameters SOS DR ond of NEP s Pune 0 No function LG SE 25 Stop DC braking input command P09 00 eas of 1 Forward running FWD 1 26 28 Reserved me 2 Reverse running REV 29 Closed loop disabled terminals X1 3 External jog forward running control 30 33 Reserved Function input 34 Main reference frequency source 0501 selection of 4 External jog reverse running control 2 selection 1 input input 35 Main reference frequency source terminals X2 5 Three wire operation control selection 2 Function 6 Multi frequency terminals 1 36 Main reference frequency source P6802 selection of 7 Multi frequency terminals 2 selection 3 input 8 Multi frequency terminals 3 3
11. P02 13 50 0 selection communication reference reference 4 Al analog reference 20 5 Terminal PULSE reference Function 2 Default Function Default Name Setting range Name Setting range code value code value 6 Panel potentiometer reference Ideceleration 7 Process closed loop PID time Digital setting P02 18 Jog interval 0 0 100 0s 0 0 P02 07 of auxiliary 0 0 2000 0Hz 0 0 Frequency of 25 reference P02 19 jog running 0 1 50 0Hz Main auxiliary 0 Group P03 Motor parameters P02 08 reference 0 2 1 Rated power Depending calculation P03 00 0 1 999 9kW of motor on model Acceleration P02 09 0 0 3600 0 6 0 Rated voltage Depending time P03 01 O rated voltage of drive P98 05 of motor on model Deceleration P02 10 4 0 0 3600 0 6 0 Rated current Depending time P03 02 0 1 999 9A of motor on model Unit of Rated 0 0 1 ate A acceleration d Depending P02 11 tis 1 P03 03 frequency of 1 0 2000 0Hz eceleration on model 2 min motor time Rated rotating Maximum dot Depending imi P03 04 speed o 0 600001 E0242 output MAX 50 0 upper limit frequency 50 0 rpm on model P02 13 2000 00Hz motor frequency 0 001 1 000 Upper limit Power factor Depending P02 13 P02 14 P02 12 50 0 P03 05 It shall be used when calculating the frequency of motor on model aa motor parameters with the nameplates Lower limit P02 14 0 0 P02 13 0 0 St
12. between the Protocol 0 MODBUS feature P15 00 i 0 reference and the speed selection 1 Reserved 0 Frequency reaches the upper and Unit place of LED Baud rate selection Integral Communicatio lower limit stop integral adjustment 0 4800bps P14 12 adjustment 0 P15 01 n 001H 1 Frequency reaches the upper and 3 1 9600 bps selection configuration lower limit continue the integral regulator 2 19200 bps 31 Function Default Function Default Name Setting range Name Setting range code value code value 3 38400 bps 0 Activate protection and coast to stop Tens place of LED Data format 1 Alarm and keep running 0 1 8 2 N format RTU Hundreds place of LED Action upon 1 1 8 1 E format RTU EEPROM abnormality 2 1 8 1 O format RTU 0 Activate protection and coast to stop 3 1 7 2 N format ASCII 1 Alarm and keep running 4 1 7 1 E format ASCII Thousands place of LED Action upon 5 1 7 1 O format ASCII 24V 10V short circuit Hundreds place of LED Wiring mode 0 Activate protection and coast to stop 0 Direct cabling 232 485 1 Alarm and keep running 1 MODEM 232 Unit place of LED Action upon phase P15 02 Local address 0 247 0 is the broadcast address 5 loss Communicatio 0 Activate protection upon input and P15 03 n timeout 0 0 1000 0s 0 0 output phase loss detection time 1 No protection upon input phase loss Response Protection 2 No protection upon output phase loss P15 04 dela
13. for X1 Input terminal 1 Inverted logical enabled upon FWD REV 0 Two wire control mode 1 P09 11 enabled disconnection 00H Bod 08 ranningmed 1 Two wire control mode 2 0 status setting Unit place of LED setting 2 Three wire running control 1 BITO BIT3 X1 X4 3 Three wire running control 2 Tens place of LED Terminal BITO BIT3 X5 P09 06 UP DN 0 01 99 99Hz s 1 00 Virtual input Binary setting 00H acceleration d P09 12 Dj terminal 0 Disabled 25 Function Default Function Default Name Setting range Name Setting range code value code value setting 1 Enabled terminal 0 Enabled upon connection Unit place of LED enabled 1 Enabled upon disconnection BITO BIT3 X1 X4 status setting Unit place of LED Tens place of LED BITO BIT3 Y1 Y2 R1 BITO BIT3 X5 Relay R P09 18 0 1 10 0s 0 1 Output output delay selection of Frequency d 0 Open collector output terminal Y1 P09 13 Multi function 0 arrival FAR 1 DO terminal output P09 19 0 0 P02 13 2 5 al output detection terminal Y1 width Open collector 0 Drive in running state signal RUN FDT level P09 20 P09 21 P02 13 50 0 P09 14 output 1 Frequency arrival signal FAR 0 upper limit terminal Y1 2 Reserved FDT level ts P09 21 0 0 P09 20 49 0 Open collector 3 Frequency level detection signal lower limit P09 15 output FDT 1 0 No function terminal Y2 4 Reserved 1 Output frequency 5 Overload detection signal OL
14. function The deceleration time is too short D celeration compared with regeneration Lengthen the deceleration time Er oU2 over voltage of the energy drive There is potential energy load or the Select appropriate dynamic braking components load inertial torque is large Constant speed When the vector control functions EroU3 over voltage of the the ASR parameter setting is See the ASR parameter setting of Group P05 drive improper 36 Fault Fault type Possible fault cause Solutions code The acceleration deceleration time is Lengthen the acceleration deceleration time too short appropriately Abnormal input voltage Check the input power supply The input voltage fluctuates Install the input reactor abnormally Large load inertia Adopt dynamic braking components Check the installation wiring Er IrF Input side phase loss There is phase loss in input R S T Check the input voltage Check the output wiring Er odF Output side phase loss There is phase loss in output U V W Check the motor and the cables There is interphase short circuit or grounding short circuit in output Rewiring and check if the motor insulation is good three phases Instantaneous over current of the See the over current solutions drive The duct is blocked or the fan is Unblock the duct or replace the fan damaged The ambient temperature is too high Lower the ambient temperature Power module T
15. of the function code explaining it Parameter tercii parentes code name P00 03 copy 3 Downloading parameters except the 0 Leave factory A motor parameters The value of the function code after restoring the leave factory settings value Note The drive parameters will not be Set range The minimum and maximum values of the function code allowed to set uploaded downloaded V voltage A current C temperature Q resistance mH inductance Unit place Manufacturer commissioning Unit rpm rotate speed percentage bps baud rate Hz kHz frequency Tens place Function selection of the ms s min h kh time kW power STOP RESET key o Means the function code can be changed during running x Means the 0 The STOP key is valid only in the Property function code can be changed in the stop state Means the function panel control mode code can be read only can not be changed 1 The STOP key is valid in all control modes Basic menu function code parameter table Note The RESET key is valid in any control mode Function Default i Selection of Hundreds place Function selection of M d Name Setting range HS P00 04 0100H key functions key Group P00 System management 0 No function User 0 No password 1 JOG P00 00 0 password Other Password protection 2 FWD REV 0 All the data can be changed 3 Command channel switching 1 valid 1 Only the main set frequency digital only in stop status Boo Oi Parameter setting P02 04 and this function code
16. 0 of to the Actual value P10 18 The same as P10 12 0 0 Fmax minimum corresponds i Torque 0 0 300 0 of Te reference of to the P10 12 Process closed loop reference 100 0 curve 2 maximum synchronous speed of 0 0 100 0 Unit place of LED AO1 selection reference of maximum frequency ie the 0 0 10V 0 20mA curve 1 X corresponding analog input of 0 10V Types of 1 2 10V 4 20mA mM P10 19 h 00H Minimum analog output Tens place of LED AO2 selection P10 13 reference of 0 0 P10 11 0 0 0 0 10V 0 20mA curve 1 1 2 10V 4 20mA Actual value 0 Output frequency 0 maximum corresponds frequency to the i P10 14 B The same as P10 12 0 0 1 Set frequency 0 maximum minimum frequency reference of 2 Set frequency after curve 1 acceleration deceleration 0 maximum Maximum frequency P10 15 reference of P10 17 100 0 100 0 Analog output 3 Motor rotating speed 0 maximum curve 2 P10 20 terminal AO1 rotating speed 0 Actual value functions 4 Output current 0 2 le corresponds 5 Output current 0 2 lem to the 6 Output torque 0 3 Tem P10 16 The same as P10 12 100 0 maximum T Reserved reference of 8 Output voltage 0 1 2 Ve curve 2 9 Bus voltage 0 800V Minimum 10 AI1 after adjustment P10 17 0 0 P10 15 0 0 reference of 11 Al2 after adjustment 28 Function Default Function Default Name Setting range Name Setting r
17. 0Hz for vector control Speed adjusting range 1 200 vector control without PG Operation Speed control precision 0 2 vector control without PG control Speed fluctuation 0 3 vector control without PG features Torque response 10ms vector control without PG Torque control The torque control precision is 7 5 when vector control without PG Startup torque 150 OHz vector control without PG Fast tracking torque limit multi stage speed operation auto tuning skip frequency operation PID adjustment non stop upon instantaneous Key functions power interruption switching of multi command MODBUS communication torque control torque and speed control mode switching automatic restart DC braking dynamic braking dwell function Product Basic frequency 0 1Hz 2000 0Hz functions Startup frequency 0 0Hz 60 0Hz Digital panel setting terminal UP DN setting host device communication Frequency setting mode setting analog setting Al1 AI2 terminal pulse setting Acceleration deceleration 0 1 3600 0 unit can be selected among 0 1s s and min time Dynamic braking capacity Built in braking unit braking rate 0 0 100 0 Initial frequency 0 00Hz 60 00Hz DC braking capacity Braking time 0 1s 30 0s Braking current 0 100 Protection i Overcurrent overvoltage undervoltage overheat overload protection etc function Others Efficiency 293 Installation Wall moun
18. 7 Switching main reference frequency terminals X3 9 Multi frequency terminals 4 toAl P09 03 Function 10 11 Reserved 0 38 Command source selection 1 24 Function L Default Function Default Name Setting range Name Setting range code value code value 39 Command source selection 2 eceleration 40 Switching command to terminal rate 41 FWD disabled Terminal i P09 07 HOS 0 500ms 10 42 REV disabled filtering time 43 Drive running disabled Maximum 44 External stop command it is valid for P09 08 input pulse 0 1 100 0kHz 10 0 all the control modes the device will be frequency stopped in accordance with the current 0 Without central point stop mode 1 With central point it is 45 Auxiliary reference frequency reset P09 08 2 It is positive when the Pulse 46 Reserved frequency is less than the central point reference 47 Speed control and torque control P09 09 frequency 0 x central point switching terminal i 2 With central point it is selection 48 52 Reserved P09 08 2 It is positive when the 53 Torque reference pulse input frequency is larger than the central point terminal valid only for X1 frequency 54 59 Reserved Pulse 60 Emergency stop P09 10 reference 0 00 10 00s 0 05 61 73 Reserved filtering time 74 PID reference frequency pulse input Binary setting valid only for X1 0 Normal logical enabled upon 75 PID feedback frequency pulse input connection valid only
19. AH Al2 020mA 0 10v 0 6 RS48549 RS485 Fig 2 2 Basic wiring diagram 2 Note O in the figure is main circuit terminal and e Fig 2 2 applicable models single phase 220V series 2 2 Wiring and configuration of control circuit The arrangement sequence diagram of the control circuit terminals DC voltage current meter Voltage current signal Frequency meter open collector output 0 24V pulse signal output AK Bidirectional open collector output amp TB Programmable relay output Standard RS485 commmunication port in the figure is control circuit terminal Wiring of control circuit terminals 14 It is suggested to use the wire with cross section area over 1mm as the connecting wire of the control circuit terminals Control terminal function Table 2 3 Control terminal function Terminal Function Specifications and others The reference ground for 10 V power analog GND Internal isolated with COM signals and communication signals To provide 10V reference power for external 10 Allowable maximum output current 10mA load reference grounding GND Alt Analog input voltage current is selected via the Input voltage range 0 10V input resistance 20kQ Al2 jumper reference grounding GND Input current range 0 20mA input resistance 2460 AO1 A
20. G 4T1 5 MV100G 4T2 2 MV100G 4T3 7 Drive model MV100A 4T0 4 MV100A 4T0 75 MV100A 4T1 5 MV100A 4T2 2 Applicable motor 0 4kW 0 75kW 1 5kW 2 2kW 3 7kW power Applicable motor 0 5HP 1HP 2HP 3HP 5HP power Input 1 9A 3 2A 4 3A 7 1A 11 2A current Rated Three phase 380 480V voltage Voltage Input fluctuation 10 342 528V Power range Rated 50Hz 60Hz frequency Frequency fluctuation 5 47 63Hz range Rated 1 2KVA 2KVA 3 3KVA 4 4KVA 6 8KVA capacity Rated 1 5A 2 5A 4 2A 5 5A 8 5A current Output 0 the corresponding three phase input voltage the error is less than 3 voltage Output Output V F 0 00 2000 0Hz unit 0 1Hz vector control 0 650 00Hz frequency Carrier 0 7 15KHz frequency Overload 1 min for 15096 rated current 0 5 s for 20096 rated current capacity Cooling mode Forced air cooling Table 1 2 Single phase 220V series power specifications Single phase 220V series Drive model MV100G 2S0 4 MV100G 2S0 75 MV100G 281 5 MV100G 282 2 Applicable motor power 0 4kW 0 75kW 1 5kW 2 2kW Applicable motor power 0 5HP 1HP 2HP 3HP Input current 6 5A 9 7A 15 4A 24A Rated voltage Single phase 200 240V Voltage fluctuation 10 180 264V Input range Power Rated 50Hz 60Hz frequency Frequency fluctuation 5 47 63Hz range Rated capacity 1KVA 1 6KVA 2 9KVA 4 2KVA Rated current 2 5A 4 2A 7 5A 11A Output voltage 0 the corresponding
21. MV100 Series Compact Vector Control Drive Quick Start and Installation Manual Document Version V1 0 Archive Date 2014 05 09 BOM Code R33010105 Shenzhen Megmeet Drive Technology Co Ltd provides full technical support for our customers customers can contact local Megmeet offices or customer service centers or directly contact Megmeet headquarters Shenzhen Megmeet Drive Technology Co Ltd All rights reserved The contents in this document are subject to change without notice Shenzhen Megmeet Drive Technology Co Ltd Address 5th Floor Block B Unisplendor Information Harbor Langshan Rd Science amp Technology Park Nanshan District Shenzhen 518057 China Website www megmeet drivetech com Tel 86 755 86600500 Fax 86 755 86600562 Service email driveservice megmeet com Foreword Thank you for choosing the MV100 series compact vector control variable speed drive of Shenzhen Megmeet Drive Technology Co Ltd MV100 drive with a new hardware design platform that integrates V F and no PG vector control mode provide excellent motor driving performance this series of drive with excellent performance perfect functions compact structure convenient installation simple debugging easy maintenance is the cost effective products for drive generic and OEM markets The relevant precautions during the installation wiring parameter setting and troubleshooting will be detailed in this manual To ensure the c
22. T2 2 MV100A 4T2 2 16 1 5 1 5 1 5 25 1 MV100G 4T3 7 25 2 5 1 5 2 5 2 5 1 MV100G 2S0 4 16 1 5 1 0 1 0 2 5 1 Single phase MV100G 2S0 75 20 2 5 1 0 1 0 2 5 1 220V MV100G 281 5 32 4 1 5 2 5 4 1 MV100G 282 2 50 6 1 5 2 5 6 1 MV100G 2T0 4 16 4 1 0 1 0 2 5 1 Three phase MV100G 2T0 75 16 1 5 1 0 1 0 2 5 1 220V MV100G 2T1 5 20 2 5 1 5 2 5 2 5 1 MV100G 2T2 2 20 4 1 5 2 5 4 1 Note 1 means being developed Recommended braking resistor specifications Braking resistor connected between PB and DC the selection is as shown in the following table Table 2 2 Recommended braking resistor specifications and configura ion Utilization Braking torque Maximum continuous Series Drive model Specification 960 96 use time s MV100A 4T0 4 400Q 300W 10 100 10 MV100G 4T0 75 MV100A 4T0 75 4000 300W 10 100 10 Three phase 380V MV100G 4T1 5 MV100A 4T1 5 3000 500W 10 100 10 MV100G 4T2 2 MV100A 4T2 2 200Q 650W 10 100 10 MV100G 4T3 7 1250 1000W 10 100 10 MV100G 2S0 4 1500 180W 10 100 10 Single phase MV100G 2S0 75 1000 250W 10 100 10 220V MV100G 281 5 70Q 400W 10 100 10 MV100G 282 2 50Q 600W 10 100 10 MV100G 2T0 4 1500 180W 10 100 10 Three phase MV100G 2T0 75 1000 250W 10 100 10 220V MV100G 2T1 5 70Q 400W 10 100 10 MV100G 2T2 2 50Q 600W 10 100 10 Note 1 means being developed 12 Wiring for basic operation Braking resistor R L1 3 phase Sg 380Vor220V
23. V BIT1 Output toque BIT1 AI2 V Note the default display shall be output BIT2 Reserved frequency when all the parameters are 0 BIT3 Terminal status without unit Binary setting Note The default display shall be set 0 No display 1 Display frequency when all the parameters are 0 LED display Meg ud SR Group ee display parameters parameter s P00 06 selection 2 BIT1 AM V 00H Main 1 Digital reference 1 Keyboard AV when running BIT2 AI2 V B reference reference 7 BIT3 Reserved frequency 2 Digital reference 2 Terminal UP DN Tens place of LED channel reference BITO Analog closed loop feedback 18 3 Digital reference 3 Serial port Function l Default Function Default Name Setting range Name Setting range code value code value communication reference BIET Tuning 4 Al analog reference Bit 8 Over current limiting 5 Terminal PULSE reference Bit 9 DC over voltage limiting 6 Panel potentiometer reference Bit 10 Torque limiting 7 Process closed loop PID Bit 11 Speed limiting z Bit 12 Drive in fault Main P01 01 reference set 2000 0 2000 0Hz 0 0 Bit 13 Speed control Bit 14 Torque control frequency m O FFH 0 off 1 Auxiliary State of digital DIG A P01 02 reference set 2000 0 2000 0Hz 0 0 P01 11 input terminal The high speed pulse reference will not frequency be refreshed synchronously P01 03 Set frequency
24. alified personal can replace the components Do not leave any wire or metal parts inside the drive otherwise fire may be caused After changing the control board the parameters must be properly set before operating the drive otherwise property damage may be caused WARNING may suffer the property loss human injury may be caused caused caused caused Do not install the drive in the environment with water splash e g near the water pipe otherwise you Do not install and operate the drive if it is damaged or its components are not complete otherwise fire and Do not install the product in the place exposed to direct sunlight otherwise property damage may be Do not short circuit terminal PB and terminal DC or DC otherwise fire and property damage may be Cable lugs must be firmly connected to the terminals of main circuit otherwise property damage may be Do not connect AC 220V input to the control terminals other than terminal TA TB TC otherwise property damage may be caused Contents MV100 Series Compact Vector Control Drive nennen 1 Chapter 1 Introduction of MV100 Drive enne 5 1 1 Product model and nameplate ssssssssssssessseseeeeenn eene enne nnne nnn nnne nnne 5 1 2 Technical specifications of product u ssssssneseuuen ennen ennen eene eene nnne 6 1 3 Outline mounting dimensions and gross weight of drive 1 4 Ou
25. ange code value code value 12 Reserved Carrier wave P12 01 0 7 15 0kHz 8 0 13 Output power 0 2 Pe frequency 14 Percentage of host device 0 4095 Unit place enable the over modulation 15 17 Reserved 0 Disabled 18 Torque command 10V 300 1 Enabled 19 20 Reserved Tens place automatic adjustment 21 Output torque 300 0 300 0 selection for carrier wave frequency 22 23 Reserved 0 No automatic adjustment 24 Motor rotating speed bipolar output PWM mode 1 Automatic adjustment i P12 02 1001H frequency during V F slip optimization Hundreds place modulation mode compensation 0 Two phase three phase switching 25 26 Reserved 1 Three phase modulation P10 21 AO1 filtering 0 000 20 000s 0 010 Thousands place low frequency carrier P10 22 AO1 gain 0 0 200 0 100 0 limit 0 Disable AO1 zero 1 Enable P10 23 offset 100 0 100 096 0 0 x Current loop correction P12 03 proportional 1 5000 600 Analog output gain ACR P P10 24 terminal AO2 The same as P10 20 0 i Current loop functions P12 04 integral time 0 5 100 0ms 8 0 P10 25 AO2 filtering 0 000 20 000s 0 010 ACR I P10 26 AO2 gain 0 095 200 096 100 0 Anti trip AO2 zero P12 05 function 0 1 0 P10 27 offset 100 0 100 0 0 0 enabling correction Frequency Group P12 Advanced function parameters reduction rate P12 06 0 00 99 99Hz s 10 00 Energy saving 0 Disabled upon voltage P12 00 0 running 1 Enabled compensation 29
26. ator frequency Depending 3 P03 06 resistance of 0 00 50 00 Upper limit of on model P02 15 P02 16 2000 0 0 0 motor R1 skip frequency Leakage i Lower limit of X Depending P02 16 i 0 0 P02 15 0 0 P03 07 inductance of 0 00 50 00 skip frequency on model motor X Jo P02 17 s 0 1 60 0s 6 0 Rotator Depending acceleration P03 08 resistance 0 00 50 00 on model 21 Function l Default Function Default Name Setting range Name Setting range code value code value of motor R2 ASR switching P05 05 0 0 100 0 20 0 Mutual frequency 2 Dependin P03 09 inductance of 0 0 2000 0 P g Speed torque 0 Speed control mode on model P05 06 0 motor Xm control mode 1 Torque control mode No load 0 Al reference D dii P03 10 current l of 0 1 999 9A SP ng Torque 1 Terminal PULSE reference d on model Oe motor P05 07 reference 2 Communication reference 0 20 0 110 0 selection 3 Closed loop output Set action level motor rated 4 Digital reference current drive rated current x 100 Digital Overload Low speed compensation actual action P05 08 reference of 300 0 300 0 0 0 P03 11 protection level set action level x output 100 0 torque factor of motor Electric torque frequency 30HZ x 45 55 P05 09 ps q 0 0 300 0 180 0 Actual converted current of overload limit value protection sampling current overload Braking protection action level P05 10
27. ection factor of motor correctly setting is incorrect The motor is blocked or the sudden Check the load change of load is too large Er oL2 Motor overload The universal motor runs at low If long term low speed running is required special speed for a long time with heavy motor should be used load The grid voltage is too low Check the grid voltage V F curve is improper Set V F curve and torque increase correctly Stop suddenly by pressing the STOP See the function definition of the STOP key in key P00 04 Emergency sto Er EFT D or external device fault External fault emergency stop After the external fault is revoked release the terminal is enabled external fault terminal EEPROM read write The read write error of the control Reset by pressing the STOP RESET key seek for Er EEP fault parameters occurs service support The baud rate is set improperly Set the baud rate properly Abnormal remote serial Reset by pressing the STOP RESET key seek for Er SC1 Serial port communication error port communication service support The fault alarm parameters are set Modify the P15 03 and P97 00 settings 38 Fault Fault type Possible fault cause Solutions code improperly Check if the host device is working and if the wiring The host device does not work is correct The grid voltage is too low Check the grid voltage Replace the contactor of the main circu
28. en power down Group P02 Basic parameters Tens place of LED Main digital Induction motor control mode selection frequency control when stop Control mode P02 00 SER 0 Vector control without PG 1 0 Maintained when stop 1 VIF control without PG Main amp 1 Reset P02 04 when stop Running auxiliary Hundreds place of LED Auxiliary digital command 0 Keyboard control 0 P0208 reference frequency saving control 0000H 1 Terminal control n FO channel Rudd digital 0 Save when power down selection 2 Communication control frequency 1 Do not save when power down Running control Thousands place of LED Auxiliary digital P02 02 direction 0 Forward running 1 Reverse running 0 frequency control when stop setting 0 Maintained when stop 0 Digital reference 1 Keyboard AV 1 Reset when stop reference Note The unit and tens places are only Md 1 Digital reference 2 Terminal UP DN applicable for P02 03 0 1 2 reference hundreds and thousands place are only reference 2 Digital reference 3 Serial port applicable for P02 06 1 2 3 P02 03 frequency 0 7 m Souta communication reference 0 No auxiliary reference 3 Al analog reference 1 Digital reference 1 Keyboard AV selection 2 Auxili 4 Terminal PULSE reference ary reference 5 Panel potentiometer reference reference 2 Digital reference 2 Terminal UP DN 6 Process closed loop PID P02 06 frequency reference 0 Digital setting source 3 Digital reference 3 Serial port P02 04 of main P02 14
29. etting range acceleration Er oU1 Er 24v 5 Over voltage during the drive 30 40 Reserved deceleration Er oU2 41 Abnormal Al analog input fault 6 Over voltage when the drive is running Er AIF with constant speed Er oU3 42 Inverter module temperature 7 Reserved sampling disconnection protection 8 Input side phase loss Er IrF Er THI 9 Output side phase loss Er odF 43 Reserved 10 Power module protection Er drv 44 Short circuit of 10V power Er 10v 11 Inverter bridge over temperature Others Reserved Er oH1 Note 12 Reserved 1 Er drv fault can not be reset until 10s 13 Drive overload Er oL1 later 14 Motor overload Er oL2 2 For continuous over current less than 15 External fault Er EFT 3 times including 3 times it can not be 16 EEPROM read write error Er EEP reset until 6s later if it is more than 3 17 Abnormal serial port communication times it can not be reset until 200s later Er SC1 3 The keyboard displays AL xxx in case 18 Abnormal contactor Er rLy1 of any fault e g in case of the contactor 19 Abnormal current detection circuit fault keyboard displays Er xxx if there is Er CUr protection action and displays AL xxx if 20 Reserved continuing running with alarm 21 PID feedback lost Er FbL The second 59 Reserved P97 14 fault type The same as P97 13 0 23 Keyboard parameter copy error The third fault Er CoP P97 15 ipe The same as P97 13 0 24 Poor auto tuning Er TUn DC bus 25
30. f LED Overload Over voltage compensation mode P97 07 2 120 0 150 0 Udce 140 0 1 point at stall 0 No action 1 Common motor with low speed Auto current 0 Disabled at constant speed 1 Enabled at constant speed compensation P97 08 limiting action 1 Kg i Note Always enabled for 2 Variable frequency motor without selection acceleration deceleration low speed compensation Tens place of LED Overload pre alarm P97 09 Aiuto curent 20 0 200 0 le 150 0 1 limiting level anasa detection selection verloa ioni 0 Always detect Frequency rotection i P97 03 P T 1 Detect only at constant speed 0001H P97 10 reduction rate 0 0 99 99Hz s 10 00 setting for i 3 Hundreds place of LED Overload upon current motor k limiting pre alarm action selection 0 Alarm and keep running P97 11 Reserved 1 Activate protection and coast to stop P97 12 Reserved Thousands place of LED Overload 0 No abnormal record detection level selection 1 Over current during the drive 0 Relative to rated current of the motor acceleration Er oC1 Er OL2 The first fault 2 Over current during the drive 1 Relative to rated current of the drive P97 13 type deceleration Er oC2 0 Er oL1 3 Over current when the drive is running Overload i P97 04 20 0 200 0 130 0 with constant speed Er oC3 pre alarm 4 Over voltage during the drive 33 Function Default Function Default T Name Setting range NG Mens Name S
31. he wirings or the plug in units of the Er drv Check them and rewiring i protection control board loosens Abnormal current waveform caused Check the wiring by output phase loss and so on The auxiliary power supply is damaged the drive voltage is Seek for service support insufficient Inverter module bridging conduction Seek for service support Abnormal control board Seek for service support Braking pipe damaged Seek for service support Inverter module The ambient temperature is too high Lower the ambient temperature Er oH1 heatsink over temperature The duct is blocked Clean the duct 37 Fault Fault type Possible fault cause Solutions code The fan is damaged Replace the fan The inverter module is abnormal Seek for service support The motor parameters are incorrect Perform the parameter auto tuning of the motor The load is too large Adopt the drive with higher power Reduce the DC braking current and lengthen the The DC braking amount is too large braking time Er oL1 Drive overload When instantaneous stop happens Set the start mode P08 00 as the speed tracking restart the rotating motor restart function The acceleration time is too short Lengthen the acceleration time The grid voltage is too low Check the grid voltage V F curve is improper Adjust V F curve and torque increase The motor overload protection factor Set the overload prot
32. is equal to the bias Pulse output frequency is less than the central point P10 05 correction A Higher than the bias is equalito the 0 P09 24 central point frequency 0 mode bias s lection 2 With central point 3 Bias as a center and get the absolute It is P09 23 2 It is positive when the Value frequency is larger than the central point P10 06 Al2 zero offset 100 0 100 0 0 0 frequency P10 07 Al2 gain 0 00 10 00 1 00 509 35 Pulse output iba San ope 005 P10 08 AI2 filtering 0 000 10 000s 0 010 filtering time AI2 zero offset Group P10 Analog input output terminal parameters P10 09 correction The same as P10 05 0 Unit place AI1 mode 0 Voltage input Unit place of LED Al curve selection P4060 Analog input 1 Current input ENE 0 Curve 1 properties Tens place Al2 1 Curve 2 0 Voltage input Tens place of LED Al2 curve selection 1 Current input Curve 0 Curve 1 Unit place of LED AI1 function selection F9410 selection 1 Curve 2 PE Analog Al 0 No function Hundreds place of LED Pulse input P10 01 function 1 Main reference frequency setting 00H curve selection selection 2 Auxiliary reference frequency setting 0 Curve 1 3 7 Reserved 1 Curve 2 27 Function Default Function h Default Name Setting range Name Setting range code value code value Maximum curve 2 P10 11 reference of P10 13 100 0 100 0 Actual value curve 1 corresponds Frequency reference 0 0 100
33. it seek for The contactor is damaged service support Er rLy Abnormal contactor The power up buffer resistance is Replace the buffer resistance seek for service damaged support The control circuit is damaged Seek for service support Input phase loss Check the input R S T wiring Current detection Current detection device damage Seek for service support Er CUr UA circuit abnormal The amplifying circuit is abnormal Seek for service support The parameters for feedback loss Modify the P14 17 setting are set improperly Closed loop feedback Er FbL Feedback wire break Rewiring loss The reference of closed loop See the P14 01 setting and increase the feedback feedback value is too low reference The operation panel parameters are Refresh the operation panel data and version use incomplete or the operation panel P00 03 1 for uploading the parameters first and Operation panel version is inconsistent with main i then use P00 03 2 or 3 for downloading Er CoP parameter copying control panel version error The operation panel EEPROM is Seek for service support damaged The nameplate parameters of the Set the parameters properly according to the motor motor are incorrect nameplate When reverse running is prohibited reverse rotating auto tuning is Cancel the reverse running prohibition Er TUn Poor auto tuning performed Auto tuning overtime Check motor wiring Check the P02 13 upper limit frequency and see whethe
34. l CME Maximum output current 50mA TA TA TB normally closed TA TC normally open Contact capacity TB Relay output AC 250V 2A COS6 1 AC 250V 1A COS6 0 4 TC DC 30V 1A 15 Chapter 3 Operation Panel Panel appearance Fig 3 1 Panel appearance Panel function description Table 3 1 Panel function description Panel structure Panel function name and description of each part MENU ESC Program exit key Increase key ENTER DATA Function data key Keys M Multi functional key V Decrease key Shiftkey RUN Run key STOP RESET Stop reset key Digital tube Display the function code number and content or other parameters Potentiometer Run frequency setting Status lights FWD forward indicator REV Reverse Indicator Unit lights Hz Frequency Indicator A Current indicators V Voltage Indicator Panel operation example MENU Fig 3 2 Operation example for setting the set frequency 16 Function Default Chapter 4 Parameter List Name Setting range code value Explanation to the terms in the function code parameter table Paraistri 0 Parameter changing status P00 02 1 Clear fault memory information 0 5 t initialization Table field Explanation 2 Restore to leave factory value Function Di Representing the number of the function code e g P00 00 gees code number 1 Uploading parameter Function 2 Downloadi t Name
35. nalog output voltage current is selected via the Voltage output range 0 2 10V AO2 jumper reference grounding GND Current output range 0 4 20mA HS AS RS485 communication interface differential signal Indicates the positive end indicates the negative reference grounding GND end use twisted pair wire or shielded wire The reference ground for 24V power COM nternal isolated with GND CME multi function input To provide 24V power for external P24 Maximum output current 200mA load reference grounding GND nput resistance R 2kQ High speed pulse multi function inputs x1 K i Maximum input frequendy 100kHz opto isolated inputs common terminal PLC nput voltage range 20V 30V x2 nput resistance R 3 1kQ X3 Common signal multi function input opto isolated X4 inputs common terminal PLC or COM Maximum input Irequendy 200KH X5 nput voltage range 10V 30V Short with P24 upon delivery PLC Multi function input terminal common terminal Common terminal for X1 X5 internal isolated with P24 CME Multi function output common terminal internal isolated with COM PLC GND Opto isolated output Maximum operating voltage 30V Open collector output terminal 1 DO pulse output Y1 Maximum output current 50mA terminal common terminal COM The DO pulse output frequency range depends on P09 23 and the maximum value is 50kHz Opto isolated output Open collector output terminal 2 common Y2 Maximum operating voltage 30V termina
36. of the product corresponding enclosure model G1R2 Note 1 means being developed 1 4 Outline and mounting dimensions of operation panel Fig 1 2 Outline and mounting dimensions of operation panel 10 2M3 Chapter 2 Wiring of Drive 2 1 Wiring and configuration of main circuit terminals Terminal type 1 Applicable models Three phase 380V or 220V Series Sapa Pepe pe Terminal type 2 Applicable models Single phase 220V Series OCT PPE rr Terminal Function R L1 S L2 T L3 Three phase AC 380Vor 220V input terminals LN Single phase AC 220V input terminals DC DC positive bus output terminal 4DC PB Reserved terminals for an external braking resistor configuration information of built in braking unit refer to Table 1 6 DC DC negative bus output terminals U T1 V T2 W T3 Three phase AC output terminals Safety grounding terminal 11 Recommended fuse capacity and cross section area of the copper cored insulation wire Table 2 1 Recommended fuse capacity and cross section area of the copper cored insulation wire MCCB Main circuit va mine Control circuit Series Drive model Input circuit breaker Brake Output Ground r A wire wire wire wire Gann MV100A 4T0 4 10 1 0 1 0 1 0 25 1 MV100G 4T0 75 MV100A 4T0 75 10 1 0 1 0 1 0 2 5 1 ue eee MV100G 4T1 5 MV100A 411 5 16 T5 19 18 25 1 MV100G 4
37. orrect installation and operation of the MV100 series drive as well as its high performance please read carefully this user manual before installing the equipment This manual shall be kept properly and delivered to the actual users of the drive Safety Precautions DANGER Operation without following instructions can cause death or severe personal injury Operation without following instructions can cause medium or slight personal injury or WARNING damage to the product and other equipment DANGER Please install the product on the incombustible materials e g metal do not place any combustible material near the product otherwise fire may be caused Do not install the product in the environment with explosive gas otherwise explosion may be caused Only qualified personal can wire the drive Never wire the drive unless the input AC supply is completely disconnected The grounding terminal of the drive must be reliably grounded do not operate the drive with wet hands maintaince operation can not be conducted until 10 minutes has passed after disconnecting the power supply the bare parts of the terminal lugs in the main circuit must be wrapped with insulation tape otherwise electric shock may be caused When powering up the drive that has been stored for over 2 years the input voltage must be gradually increased with the voltage regulator otherwise electric shock and explosion may be caused Only qu
38. p frequency cutoff pomt P08 07 uus 0 00 10 00s 0 00 Motor stable Segen P07 07 S 0 255 10 retention time 0 Disabled Stop speed 0 Speed set value the only one P07 08 AVR function 1 Always enabled 2 P08 08 detection detection mode under the V F mode 1 2 Disabled only in deceleration situation mode 1 Speed detection value Initial Group P08 Start and stop control parameters frequency for 0 Start from the startup frequency P08 09 stop DC 0 0 MIN P02 13 60 0 0 0 1 Start from the startup frequency after braking P08 00 Startup mode braking 0 TIARE Waiting time 2 Start aft d tracking includi art after speed tracking including POS for stop DC 0010 OUS 0 00 the judgment of direction braking Startup P08 01 0 0 MIN P02 13 60 0 0 0 Stop DC frequency 50844 braking 0 0 100 0 of the rated current of the 0 0 Startup d curent drive P08 02 frequency 0 00 10 00s 0 00 Stop DC 0 0 Disabled retention time P08 12 X Me 0 00 Startup DC braking time 0 01 30 00s 0 0 100 0 of the rated current of the Selecting P08 03 braking 0 0 0 Disabled drive P08 13 restart 0 current 1 Enabled 23 function upon Function Default Function Default Name Setting range Name Setting range code value code value power fault selection of 12 Main reference frequency pulse input Waiting time input valid only for X1 for restart terminals X4 13
39. r the P03 03 set value is lower than rated frequency 39 Fault Fault type Possible fault cause Solutions code Wrong analog Al function selection The same function shall not be selected for different Er PST Parameter setting error setting analogs simultaneously bi Control board 24V Short circuit of P24 and terminal Confirm whether the wiring of P24 and COM is r 24v power short circuit COM correct Abnormal control circuit Seek for service support Abnormal Al analog The input analog is out of the range ErAIF input and the absolute value is greater Check the analog input than 11V Abnormal temperature sampling invert dul Seek for service support nverter module circuit Er THI temperature sampling disconnection The inverter module temperature Check the inverter module temperature sampling sampling wire is poorly connected wire connection 10V grounding Confirm whether the 10V wiring is correct Control board 10V Er 10v power short circuit The interface board circuit is Replace the interface board seek for service damaged support Note 1 Er drv fault can not be reset until 10s later 2 For continuous over current less than 3 times including 3 times it can not be reset until 6s later if it is more than 3 times it can not be reset until 200s later 3 The keyboard displays AL xxx in case of any fault e g in case of the contactor fault keyboard displays Er xxx if there is
40. ted method Protection IP20 degree Cooling Air cooling mode Operating Indoor away from direct sunlight free from corrosive gas combustible gas oil mist site water vapor water dripping or salt Als Used at the place lower than 1000m derated at the place above 1000m derated 196 for itude every increase of 100m Ambient Environment 10 C 40 C derated when used in the ambient temperature of 40 C 50 C temperature Humidity 5 95 RH non condensing Vibration less than 5 9m s2 0 6g Storage 40 C 70 C temperature 1 3 Outline mounting dimensions and gross weight of drive Fig 1 1 Outline mounting dimensions for products Table 1 5 Outline mounting dimensions and gross weight Three phase 380V Diameter of Enclosure Gross weight A mm B mm H mm Wimm 2 D mm mounting aperture model 10 5 kg mm G1R1 78 137 147 88 163 4 5 13 G1R2 107 171 183 119 163 55 2 Table 1 6 Model list Series 0 4kW 0 75kW 1 5kW 2 2kW 3 7kW MV100G 4T0 75 MV100G 4T1 5 MV100G 4T2 2 MV100G 4T3 7 MV100A 4T0 4 MV100A 4T0 75 MV100A 4T1 5 MV100A 4T2 2 Single phase 220V MV100G 2S0 4 MV100G 2S0 75 MV100G 28 1 5 MV100G 282 2 Three phase 220V MV100G 2T0 4 MV100G 2T0 75 MV100G 2T1 5 MV100G 2T2 2 Note In the table 1 6 without shading part of the product corresponding enclosure model G1R1 with shading part
41. three phase input voltage the error is less than 3 Output VIF 0 00 2000 0Hz unit 0 1Hz vector control 0 650 00Hz Output frequency Carrier 0 7 15KHz frequency Overload 1 min for 150 rated current 0 5 s for 20096 rated current capacity Cooling mode Forced air cooling Note 1 means being developed Table 1 3 Three phase 220V series power specifications Three phase 380V series Drive model MV100G 2T0 4 MV100G 2T0 75 MV100G 2T1 5 MV100G 2T2 2 Applicable motor power 0 4kW 0 75kW 1 5kW 2 2kW Applicable motor power 0 5HP 1HP 2HP 3HP Input current 2 7A 5 1A 9A 15A Rated voltage Three phase 200 240V Voltage fluctuation finer Power range 10 180 264V Rated frequency 50Hz 60Hz Frequency fluctuation ere range Rated capacity 1KVA 1 6KVA 2 9KVA 4 2KVA Rated current 2 5A 4 2A 7 5A 11A Output voltage 0 the corresponding three phase input voltage the error is less than 3 pond Output frequency V F 0 00 2000 0Hz unit 0 1Hz vector control 0 650 00Hz Carrier frequency 0 7 15KHz Overload capacity 1 min for 150 rated current 0 5 s for 200 rated current Cooling mode Forced air cooling Note 1 means being developed Control Specifications Table 1 4 Control Specifications Control mode Vector control without PG V F control without PG Maximum output frequency 2000 0Hz for V F control 650
42. tline and mounting dimensions of operation panel Chapter 2 Wiring Of Drives iecit Ee p Rb etes e Pete Er p Dp Beer 11 2 1 Wiring and configuration of main circuit terminals s 11 2 2 Wiring and configuration of control circuit 14 Chapter 3 Operation Panel oreet See ta tote ea ee E ose e E ea epe e eo dy TERR SWORD 16 Chapter 4 Parameter Sir reor a a A e ee i In EET eC EFE RR TER AER REF TERR LINER 17 Chapter 5 Troubleshooting i mec cete ci t e t tt nre rime ged 36 Chapter 1 Introduction of MV100 Drive 1 1 Product model and nameplate Product model MV100 G 4 T 0 4 XX XX 00 ZZ Software code for customized product 00 ZZ Hardware code for customized product Product Series 0 4kW 3 7kW Rated output power G General application S Single phase A Application of metal dust MISR T Three phase 2 220V 4 380V Product nameplate Pa MEGMEET MODEL MV100G 4T1 5 POWER 1 5kw INPUT AC 3PH 380 480V 50 60Hz 4 3A OUTPUT AC 3PH O 480V O 2000Hz 4 2A 0000 0000 0000 0000 syn LTEM HT E6101029220137000001 Shenzhen Megmeet Drive Technology Co Ltd 1 2 Technical specifications of product Various series power specifications Table 1 1 Three phase 380V series power specifications Three phase 380V series MV100G 4T0 75 MV100
43. torque limit 0 0 300 0 180 0 0 Disabled value i i FWD speed Parameter 1 Enabled motor in static status P05 11 x 0 0 100 0 100 0 P03 12 2 2 Enabled motor in rotate status 0 limit value auto tuning 3 Reserved according to the nameplate REV speed P05 12 M 0 0 100 0 100 0 setting limit value Group P05 Vector and torque control parameters Group P07 VF control parameters P05 00 ASR1 P 0 1 200 0 20 0 0 User customized V F curve Motor V F 2ti P05 01 ASR1 I 0 000 10 000s 0 200 P7 0 1 2 times power curve 0 curve settin i ASR switching g 2 1 7 times power curve P05 02 0 0 50 0 10 0 3 1 2 times power curve frequency 1 Motor V F ASR2 P 20 03 P02 0 P05 03 0 1 200 0 0 P07 01 frequency 2 P07 03 P02 12 ASR2 I i P05 04 0 000 10 000s 0 600 P07 02 Motor V F P07 04 100 0 0 0 22 Function i Default Function Default Name Setting range Name Setting range code value code value voltage 2 exu Startup DC 0 00 Disabled 500 Motor V F i braking time 0 01 30 00s i 0 0 P07 03 frequency 1 0 0 P07 01 0 Decelerate to stop Motor V F P08 05 Stop mode 1 Coast to stop 0 P07 04 voltage 1 0 0 P07 02 9 0 2 Decelerate to stop DC braking Motor torque Sa Stop 30 09 P07 05 incrdaso 0 0 30 0 P08 06 frequency 0 0 150 0Hz 0 5 Motor torque detection P07 06 increase 0 0 50 0 corresponds to P03 03 10 0 Sto
44. y of the 0 1000ms 5 P97 01 action 3 No protection upon input and output 00H drive selection 2 phase loss 3 Tens place of LED Action upon analog Group P97 Protection and fault parameters input Al1 Al2 fault Unit pl f LED Acti MN aad EUST 0 Activate protection and decelerate communication fault 1 Activate protection and coast to stop 0 Activate protection and coast to stop 2 Alarm and keep running 1 Alarm and keep running Protection Unit place of LED Action upon 2 Alarm and stop in the stop mode only o P97 00 action 0000H under voltage fault indication in serial port control mode selection 1 Fault 0 No action 3 Alarm and stop in the stop mode in all P97 02 indication 1 Action under voltage is regarded as 000H control modes selection A a kind of fault Tens place of LED Action upon contactor abnormality 32 Tens place of LED Action upon auto reset interval fault indication Function 2 Default Function h Default Name Setting range Name Setting range code value code value 0 Noaction detection level 1 Action Overload Hundreds place of LED Fault lockup function selection P97 05 pre alarm 0 0 60 0s 5 0 0 Prohibited detection time 1 Open without fault output Overvollage 0 Disabled when the braking resistor is 2 Open with fault output P97 06 stal selection installed 1 1 Enabled Unit place o
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