Inovance MD380L Quick Start Manual Download

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MD380L Open Loop Elevator Drive Quick Start Manual

MD380L
Open Loop Elevator Drive
Quick Start Manual

V0.5

Data Code：19010299

Inova Automation Co., Limited

Address:Unit B01, 17/FMG Tower, 133 Hoi Bun Road, Kwun Tong, Hong Kong

Tel: (852) 2751 6080

Fax: (852) 2751 6933

Email: [email protected]

Http://www.inovance.cn

Summary of Contents for MD380L

Page 1: ...MD380L Open Loop Elevator Drive Quick Start Manual MD380L Open Loop Elevator Drive Quick Start Manual V0 5 Data Code 19010299 ...

Page 2: ...14 4 3 Setup flowchart 16 4 4 IGBT Enable 21 5 Function code table 23 5 1 Group F0 fundamental 23 5 2 Group F1 motor 1 parameters 24 5 3 Group F2 vector control 25 5 4 Group F3 VF control 26 5 5 Group F4 input terminals 27 5 6 Group F5 output terminals 29 5 7 Group F6 start and stop control 30 5 8 Group F7 product and software version checking 30 5 9 Group F8 auxiliary functions 31 5 10 Group F9 f...

Page 3: ......

Page 4: ...cturer S N code MODEL MD380LT3 7GB INPUT Suzhou Inovance Technology Co Ltd S N 1 2 Designation rule MD380L X X X G B MD380L Open loop elevator drive Mark Build in braking unit B Yes Mark Voltage class 2T Three phase 220 V Mark 2 2 3 7 5 5 15 T Three phase 380 V Applicable motor kW 2 2 3 7 5 5 15 ...

Page 5: ...e 200Vac to 240Vac 15 to 10 170Vac to 264Vac Three phase 380 to 480V 15 to 10 323Vac to 528Vac Rated Input Current A 10 5 14 6 26 35 10 5 14 6 20 5 26 35 Rated input frequency 50 60 Hz 5 47 5 to 63Hz Applicable Motor kW 2 2 3 7 5 5 7 5 3 7 5 5 7 5 11 15 HP 3 5 7 5 10 5 7 5 10 0 15 20 Output Current A 1 9 13 25 32 9 13 17 0 25 32 Power Capacity kVA 5 9 8 9 17 21 5 9 8 9 11 17 21 Overload Capacity 1...

Page 6: ... 24V DI6 DI7 DI8 DI9 Recommended Braking Resistor Voltage class 220VAC 380 400 415VAC Drive Model MD380L 2T2 2GB MD380L 2T3 7GB MD380L 2T5 5GB MD380L 2T7 5GB MD380L T3 7GB MD380L T5 5GB MD380L T7 5GB MD380L T11GB MD380L T15GB Recommended Power W 500 750 1200 1500 750 1200 1500 2500 3000 Recommended Resistance 65 45 22 16 130 90 65 43 32 CME DO1 DO2 CME1 GND AO2 PC PB PA PGND AI3 CANL CANH Analog i...

Page 7: ...AC 380 400 415VAC Drive Model MD380L 2T2 2GB MD380L 2T3 7GB MD380L 2T5 5GB MD380L 2T7 5GB MD380L T3 7GB MD380L T5 5GB MD380L T7 5GB MD380L T11GB MD380L T15GB Recommended Power W 500 750 1200 1500 750 1200 1500 2500 3000 Recommended Resistance 65 45 22 16 130 90 65 43 32 CME DO1 DO2 CME1 GND AO2 PC PB PA PGND AI3 CANL CANH Analog input 10V to 10V Open collector output Analog output Voltage current ...

Page 8: ...the three phase AC power supply Positive and negative terminals of DC bus Common DC bus input point PB Connecting terminals of braking resistor Connect to a braking resistor U V W Output terminals Connect to a three phase motor Grounding terminal Must be grounded Warning Do not use terminal for braking resistor otherwise inverter would be damaged ...

Page 9: ...t range 0 to 10 VDC or 4 to 20 mA Impedance 22 if voltage input 500 if current input DI1 COM Digital input 1 Optical coupling isolation compatible with dual polarity input Input voltage range 9 to 30 VDC DI2 COM Digital input 2 DI3 COM Digital input 3 DI4 COM Digital input 4 DI5 COM High speed pulse input Besides features of DI1 to DI4 it can be used for high speed pulse input Max input frequency ...

Page 10: ...10 need to be driven by the external signal OP1 needs to be connected to the external power supply and be disconnected from 24 VDC AI3 PGND Analog input 3 Optical coupling isolation compatible with differential signal and PT100 PT1000 temperature sensor input 0 to 200 C Input voltage range 10 to 10 VDC Use dial switch S1 to select different input mode Analog or PT1000 or PT100 must not select more...

Page 11: ...onfiguration of jumpers Jumper Description J3 AO2 output mode selection voltage or current J4 CAN terminal resistance selection J7 CME1 connection mode selection connected to COM or not J8 OP1 connection mode selection connected to internal 24V or not S1 AI input mode selection analog input voltage or PT100 or PT1000 input both 0 to 200 C S2 RS485 terminal resistance selection RTU NOTE see below c...

Page 12: ...N running OFF stop LED display for parameters Program key Menu mode selection key Run key Multi function selection key Stop Reset key Shift key Increment key Decrement key Confirm key Parameter unit indicator Other states indicator ON torque control BLINK slowly motor auto tuning BLINK quickly fault state Mounting hole Mounting hole Parameter unit indicator Indicator appearance Meaning RPM A V Hz ...

Page 13: ...itchover of command source or direction according to the setting of F7 01 QUICK Menu mode selection Perform switchover between menu modes according to the setting of FP 03 Relevant parameters for operation panel setting Function code Parameter Name Setting Range Unit Default Commission F7 01 MF K key function selection 0 MF K key disabled 1 Switchover from remote control terminal or communication ...

Page 14: ... FP F1 F0 Parameter arrangement Function code Group Description Remark F0 to FF Standard function code group Standard function parameters A0 to AC Advanced function code group AI AO correction U0 Running state function code group Display of state monitoring parameters ENTER PRG PRG ENTER ENTER PRG PRG ENTER PRG PRG ...

Page 15: ...t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 ta tb tc DC Injection 1 active set time F6 06 0 0 Sec DC Injection 2 Level F6 13 30 Brake Release Frequency Threshold F8 56 0 00 Hz DC Injection 2 frequency threshold F6 11 0 5 Hz MC Contactor Delay OFF Set Time F8 61 0 20 Sec DC Injection 1 Level F6 05 0 Drive Run Permit Delay ON Set Time F8 60 0 20 Sec Brake Release Current Threshold F8 55 5 Brake Release D...

Page 16: ...57 F6 03 F6 04 RUN t6 DC injection 1 disable after the desired set time has elapsed F6 06 RUN t7 Start optimizer profile generator disable after the desired set time has elapse F6 04 RUN t8 Motor ramp up to the desire preset speed reference F6 08 F6 09 F0 17 FC 0x RUN t9 Drive output at speed status FC 0x RUN t10 Change of preset speed reference demand Motor ramp down to the desire preset speed re...

Page 17: ...celeration end Too fast acceleration at this section Increase F6 09 ranging 0 to 95 F6 08 Or increase F0 17 ranging 0 to 20s Overshoot when acceleration ends Too big speed loop PI gains Decrease F2 03 ranging 0 to 100 Or increase F2 04 ranging 0 to 10 Vibration Too small margin between F2 02 and F2 05 Make sure F2 05 F2 02 3Hz usually increase F2 05 ranging from F2 02 to 7Hz Overcurrent stall prev...

Page 18: ...ging 0 to 80 Or increase F0 18 ranging 0 to 20s 2 Use second deceleration time F8 04 First set F8 04 bigger than F0 18 ranging F0 18 to 20s then set F8 26 creeping speed Braking device applies too early Make sure F8 58 0 5Hz then increase F8 59 ranging 0 to 0 5s Too strong DC injection at stop Decrease F6 13 ranging 0 to 100 Slip Too short DC injection active time at stop Increase F6 14 ranging 0 ...

Page 19: ...cannot succeed such as restoring parameters changing command source wirings at the beginning of commissioning Restore parameters FP 01 Parameter operation 0 1 0 No operation 1 Restore default settings except motor parameters 2 Clear records including errors 4 501 Backup parameters NOTE to restore parameters to default at the beginning of commissioning Set motor parameters Motor Nameplate F1 01 Rat...

Page 20: ...e default value 1 Select Control mode F0 01 Control mode selection 2 0 or 2 0 SVC control 2 VF control Select frequency reference source F0 03 Main frequency source X selection 6 2 or 6 0 Digital setting F0 08 pressing or can change F0 08 easily and the changed 1 Digital setting F0 08 pressing or can change F0 08 easily but changed value would be cleared after power off 2 AI1 3 AI2 4 AI3 5 Pulse s...

Page 21: ...al 1 13 Multi reference terminal 2 14 Multi reference terminal 3 Setting range 0 to 59 NOTE this signal comes from elevator controller F4 01 DI2 function selection 2 2 Reverse run Setting range same as DI1 NOTE this signal comes from elevator controller F4 02 DI3 function selection 12 12 Setting range same as DI1 NOTE if analog input is used as frequency reference then DI3 is useless just leave it...

Page 22: ... MC is controlled by elevator controller then F8 60 is useless F8 61 MC contactor delay OFF set time 0 20 0 20 0 00 to 10 00 Sec NOTE if MC is controlled by elevator controller then F8 61 is useless Set brake contactor F8 55 Brake release current threshold 5 5 0 to 200 F8 56 Brake release frequency threshold 0 00 0 0 0 00 to 25 00 Hz F8 57 Brake release delay ON set time 0 0 0 0 0 0 to 5 0 Sec F8 ...

Page 23: ...m frequency F6 12 DC Injection 2 delay ON set time 0 0 0 0 0 0 to 36 0 Sec F6 13 DC injection 2 level 30 30 0 to 100 Hz F6 14 DC injection 2 active set time 0 5 0 5 0 0 to 36 0 Sec Set VF parameters F3 00 V F curve selection 0 0 if it is VF control 0 Linear V F 1 Multi point V F SETTING RANGE 0 to 11 F3 01 Torque boost 0 0 0 0 0 0 to 30 0 NOTE if it is 0 then auto torque boost is activated and it ...

Page 24: ... Contactor MUST always be installed as the final safety power cut off to the motor The IGBT Enable function is NOT a substitute for an Output Contactor it is designed to work together with the Output Contactor Frequency Reference 50Hz 25Hz Time 0 DI1 Forward Run ON OFF DI6 IGBT Enable ON OFF IGBT s active ON OFF Inverter Output Current 100 50 0 T A T B T C Brake Contactor ON OFF PA PB PC Output Co...

Page 25: ...I 3 function selection N A 12 F4 03 DI 4 function selection N A 13 F4 04 DI 5 function selection N A 14 F4 05 DI 6 function selection N A 0 8 F4 06 DI 7 function selection N A 15 F4 07 DI 8 function selection N A 0 F4 08 DI 9 function selection N A 0 F4 09 DI 10 function selection N A 0 F4 38 DI active mode selection Normal low level active 7 segment 0 0 0 0 0 N A 00000 DI5 active mode 0 Normal 1 ...

Page 26: ...N A 1 F0 03 Main frequency source X selection 2 AI 1 3 AI 2 4 AI 3 6 Multi reference N A 6 F0 07 Frequency source selection 0 Main frequency source X N A 0 F0 09 Rotation direction 0 Same direction 1 Reverse direction N A 0 F0 10 Maximum frequency 50 00 to 100 00 Hz 50 00 F0 15 Carrier frequency 0 5 to 11 0 SVC mode 0 5 to 9 VF mode 0 5 to 11 kHz Model dependant F0 17 Acceleration time 1 0 00 to 6...

Page 27: ...nce asynchronous motor 0 001 to 65 535 AC drive power 55 kW 0 0001 to 6 5535 AC drive power 55 kW 0 F1 07 Rotor resistance asynchronous motor 0 001 to 65 535 AC drive power 55 kW 0 0001 to 6 5535 AC drive power 55kW 0 000 F1 08 Leakage inductive reactance asynchronous motor 0 01 to 655 35mH AC drive power 55 kW 0 001 to 65 535 AC drive power 55 kW mH 0 00 F1 09 Mutual inductive reactance asynchron...

Page 28: ... to 100 N A 30 F2 04 Speed loop integral time 2 0 01 to 10 00 Sec 0 5 F2 05 Switchover frequency 2 F2 02 to maximum output frequency Hz 7 00 F2 06 SVC slip gain 50 to 200 100 F2 10 Torque upper limit for SVC 0 0 to 200 0 inverter rated current 150 0 F2 13 Excitation adjustment proportional gain 0 to 20000 N A 2000 F2 14 Excitation adjustment integral gain 0 to 20000 N A 1300 F2 15 Torque adjustmen...

Page 29: ...0 0 20 0 F3 09 V F slip compensation gain 0 to 200 0 0 0 F3 10 V F over excitation gain 0 to 200 0 F3 11 V F oscillation suppression gain 0 to100 30 F3 13 Voltage source for V F separation 0 to 8 N A 0 F3 14 Voltage digital setting for V F separation 0 to rated motor voltage V 0 F3 15 Voltage rise time of V F separation 0 0 to 1000 0 s 0 0 F3 18 Overcurrent stall prevention current limit for VF mo...

Page 30: ...ength count input 28 Length reset 29 Torque control prohibited 30 Pulse input enabled only for DI5 31 Reserved 32 Immediate DC braking 33 Normally closed NC input of external fault 34 Frequency modification forbidden 35 Reverse PID action direction 36 External STOP terminal 1 37 Command source switchover terminal 2 38 PID integral pause 39 Switchover between main frequency source X and preset freq...

Page 31: ...Terminal command mode 0 Two line mode 1 1 Two line mode 2 2 Three line mode 1 3 Three line mode 2 N A 0 F4 12 Terminal UP DOWN rate 0 01 to 65 535 Hz s 1 00 F4 13 AI curve 1 minimum input 0 00 to F4 15 V 0 00 F4 14 Corresponding setting of AI curve 1 minimum input 100 00 to 100 00 0 0 F4 15 AI curve 1 maximum input F4 13 to 10 00V Volt 5 00 F4 16 Corresponding setting of AI curve 1 maximum input 1...

Page 32: ...te output 20 Communication setting 21 22 Reserved 23 Zero speed running 2 having output at stop 24 Cumulative power on time reached 25 Frequency level detection FDT2 output 26 Frequency 1 reached 27 Frequency 2 reached 28 Current 1 reached 29 Current 2 reached 30 Timing reached 31 AI 1 input limit exceeded 32 Load becoming 0 33 Reverse running 34 Zero current state 35 Module temperature reached 36...

Page 33: ... 0 F6 08 80 10 0 F6 10 Stop mode 0 Decelerate to stop 1 Coast to stop N A 0 F6 11 DC injection 2 frequency threshold 0 00 Hz to maximum frequency Hz 0 50 F6 12 DC Injection 2 delay ON set time 0 0 to 36 0 Sec 0 0 F6 13 DC injection 2 level 0 to 150 30 F6 14 DC injection 2 active set time 0 0 to 5 0 Sec 0 5 F6 26 Time proportion of S curve at Decel start 0 0 to Min 100 0 F6 27 80 20 0 F6 27 Time pr...

Page 34: ... Default Commission F9 00 Motor thermal protection enable selection 0 disable motor thermal protection 1 enable motor thermal protection N A 1 F9 01 Motor thermal protection coefficient 0 1 to 10 00 N A 1 00 F9 02 Motor thermal protection pre warning coefficient 50 to 99 80 F9 07 Ground fault detection Enable 0 Disable 1 Enable detection upon power on 2 Enable detection upon power on and upon star...

Page 35: ...nce 6 0 0 to 100 0 14 0 FC 07 Reference 7 0 0 to 100 0 15 0 FC 08 Reference 8 0 0 to 100 0 20 0 Attention F4 02 to F4 04 and F4 06 Multi Reference Preset Reference Selector F4 02 F4 03 F4 04 F4 06 FC 00 Reference 0 0 OFF OFF OFF OFF FC 01 Reference 1 1 ON OFF OFF OFF FC 02 Reference 2 2 OFF ON OFF OFF FC 03 Reference 3 3 ON ON OFF OFF FC 04 Reference 4 4 OFF OFF ON OFF FC 05 Reference 5 5 ON OFF O...

Page 36: ... Parameter name Setting Range Unit Default Commission A5 06 Under voltage threshold 60 0 to 140 0 60 0 100 is 350V A5 09 Overvoltage tripping level 200 0 to 2500 0 V 810 5 15 Group U0 monitoring Function Code Parameter name Setting Range Unit Default Commission U0 00 Running frequency N A Hz N A U0 01 Set frequency N A Hz N A U0 02 Bus voltage N A V N A U0 03 Output voltage N A V N A U0 04 Output ...

Page 37: ... is added during operation 4 The AC drive model is of too small power class 1 Eliminate short circuit 2 Adjust power supply to normal range 3 Remove the added load 4 Select a drive of higher power class Err05 Overvoltage during acceleration 1 The DC bus voltage is too high 2 An external force drives the motor during acceleration 3 The acceleration time is too short 4 The braking resistor is not in...

Page 38: ...motor is running 3 The drive board is faulty 4 The IGBT is faulty 1 Check the cable 2 Check the motor windings 3 to 4 Seek for maintenance Err14 IGBT overheat 1 The ambient temperature is too high 2 The air filter is blocked 3 The cooling fan is damaged 4 The thermal sensor of IGBT is damaged 5 The IGBT is damaged 1 Reduce the ambient temperature 2 Clean the air filter 3 to 5 Seek for maintenance ...

Page 39: ...ad Err31 PID feedback lost during running The PID feedback is lower than FA 26 Check the PID feedback signal or set FA 26 to a proper value Err40 Quick current limit 1 The load is too heavy or the rotor is locked 2 The drive is of too small power class 1 Reduce the load or check the motor or check the machine whether it is locking the rotor 2 Select a drive of higher power class Err41 Motor switch...

Page 40: ...r 2 Eliminate short circuit Err14 is reported frequently 1 The carrier frequency is set too high 2 The cooling fan is damaged or the air filter is blocked 3 Components thermal coupler or others inside the drive are damaged 1 Reduce F0 15 2 Replace the fan and clean the air filter 3 Seek for maintenance The motor does not rotate after the AC drive outputs a non zero reference 1 The motor or motor c...

Page 41: ...h JAN Xiong Fei 1 Related firmware version F7 10 312 03 and F7 11 312 06 2 Revise the ratings of recommended braking resistors 3 Add current loop gain parameters F2 13 to 16 4 Add overcurrent stall prevention parameters F3 19 to 20 5 Add software temporary version parameters F7 15 to 16 6 Add factory parameters FF 00 to 03 7 Revise protection parameters F9 03 F9 04 F9 07 and F9 13 8 Add fault code...

Page 42: ... Elevator Drive Quick Start Manual Inova Automation Co Limited Address Unit B01 17 FMG Tower 133 Hoi Bun Road Kwun Tong Hong Kong Tel 852 2751 6080 Fax 852 2751 6933 Email info inova automation com Http www inovance cn ...

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