Archive Date: 2015/09/22 BOM Code: R33010233 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.
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Foreword MV600L is a special drive for lifting industry developed by Shenzhen Megmeet Drive Technology Co., Ltd. For lifting industry security is the top priority, as a key component of lifting industry drive, MV600L drive performs full design and verification for security in device selection, margin design, logic design, fault protection and other aspects.
Chapter 1 Introduction of MV600L Series Drive 1.1 Product model The description of the drive model on the nameplate indicates the information of the product, such as product series, voltage class of power supply, power class, the software/hardware code of customized product, etc.
Function code [P00.05] built-in classic parameters of mainstream motor of lifting Motor parameter called industry When the user has set all function codes, you can store all the changes of A key recovery function codes, then use a key to recover all the changed function code. Protection function of Over-current ;...
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Fig. 1-2 Outline, mounting dimensions for products of 315kW-400kW Table 1-3 Outline, mounting dimensions and gross weight Diameter Gross Enclosure weight Drive model A(mm) B(mm) H(mm) W(mm) D(mm) mounting model ±0.5 aperture (kg) (mm) MV600L-4T2.2 MV600L-4T3.7 MV600L-4T5.5 MV600L-4T7.5 MV600L-4T11 MV600L-4T15 314.5 MV600L-4T18.5 MV600L-4T22...
Chapter 2 Wiring of Drive 2.1 Wiring and configuration of main circuit terminals Terminal type 1 Applicable models: MV600L-4T2.2~ MV600L-4T18.5 Terminal type 2 Applicable models: MV600L-4T22~ MV600L-4T37 Terminal type 3 Applicable models: MV600L-4T45 Terminal type 4 Applicable models: MV600L-4T55~ MV600L-4T75 R/L1 S/L2 T/L3 BOTTOM...
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Terminal Function R/L1, S/L2, T/L3 Three-phase AC 380V input terminals P, +DC Reserved for external DC reactor, connected with copper bus upon delivery DC negative bus output terminals P, -DC Reserved for external braking unit U/T1, V/T2, W/T3 Three-phase AC output terminals Terminal type 6 Applicable models: MV600L-4T315 ~ MV600L-4T400 Terminal...
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MV600L-4T132 MV600L-4T160 MV600L-4T200 MV600L-4T220 150×2 150×2 MV600L-4T280 185×2 185×2 MV600L-4T315 150×2 150×2 MV600L-4T355 150×2 150×2 MV600L-4T400 1000 150×2 150×2 Note: The parameters listed in this table are recommended values. 2.1.2 Wiring for basic operation Fig. 2-1 Basic wiring diagram for products of 75kW and below...
Braking unit and resistor DCL DC reactor (External, optional part) (External, default configuration) R/L1 Three-phase S/L2 380V 50/60Hz T/L3 MV600L Multi-function input 1 AO1 AO2 DC voltage/current meter Multi-function input 2 0~20mA Voltage/current signal Multi-function input 3 0~10V Multi-function input 4 Multi-function input 5 Multi-function input 6 Frequency meter...
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2.2.2 Wiring of control circuit terminals Type Terminal Name Function Specification Used for the grounding of the shielded layer of the wire. The shielded layer of Shield Connected to the main circuit wiring Shield the analog signal wire, 485 grounding terminal internally communication wire and PG cable...
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Encoder phase Differential input signal of encoder A+,A- A signal phase A Maximum input frequendy≤100kHz Encoder phase Differential input signal of encoder B+,B- Encoder B signal phase B Encoder power To provide power supply for external Output voltage: +12V supply (special encoder (reference grounding: COM) Maximum output current: 250mA for lifting)
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It can be set as the digital output terminal with multiple functions and also Opto-isolated output can be reused as DO pulse output Open collector Maximum operating voltage: 30V terminal, which is selected by the output terminal Maximum output current: 50mA function code P09.17.
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Notes on encoder wiring The encoder (PG) signal cable should be kept away from the cables of main circuits and power cables and parallel cabling with narrow clearance shall not be adopted for such cables. The PG cable shall adopt shielded cable, and the shielding layer shall be connected to the PE terminal at the location close to the drive side.
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Shield cable MV600L +3.3V The same as A Shield single-end grounded near drive Fig. 2-6 Schematic diagram for wiring of PG with differential signal...
Chapter 3 Parameter List Menu Function Minimum Default mode Name LCD display Setting range code unit value Group P00: System management 0: Simple menu mode Menu Menu mode P00.00 mode 1: Full menu mode √ √ ○ selection selection 2: Proofreading menu mode 0: No password User User...
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accelerati decelerati Output Output P01.05 -3000.00~3000.00Hz 0.01Hz 0.00 × √ frequency frequency Output Output P01.06 0~480V × √ voltage voltage Output Output P01.07 0.0~3Ie 0.1A × √ current current Torque Torque P01.08 -300.0~+300.0% 0.1% 0.0% × √ current current Flux P01.09 Flux current 0~+100.0%...
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mode mode 1: Vector control with PG selection selection 2: V/F control without PG Running 0: Keyboard control Command command P02.02 channel 1: Terminal control √ √ ○ channel selection 2: Communication control selection Running Running 0: Forward running; 1: Reverse P02.03 direction direction...
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motor model Rated Dependin Rated P03.03 current of 0.1~999.9A 0.1A g on √ √ × current motor model Dependin Rated Rated P03.04 frequency 1.00~3000.0Hz 0.01Hz g on √ √ × frequency of motor model Rated Rated rotating P03.05 rotating 0~60000rpm 1rpm 1440rpm √...
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Filtering Unit place: High-speed filtering of coefficient PG signal local PG: 0~9 P04.03 of local filtering √ √ ○ Tens place: Low-speed filtering of differential coefficient 1 local PG: 0~9 encoder Encoder wire-brea 0.0: Disabled wire-break P04.15 × √ × detection 0.1~10.0s detection...
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o function function 1: Always enabled selection 2: Enabled under conditions (terminal enabled) Zero Zero servo P05.18 0~6.000 0.001 0.400 × √ ○ servo gain gain Zero Zero servo servo P05.19 initial 0.00~10.00Hz 0.01 0.10 × √ ○ initial frequency frequency Action selection...
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frequency frequency retention retention time time Startup Startup DC 0.0% ~ 100.0% of the rated P08.04 braking 0.1% 0.0% × √ ○ braking current of the drive current current Startup 0.00 (Disabled) Startup DC P08.05 0.01s 0.00s × √ ○ braking braking time 0.01~30.00s...
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time 0: Reverse operation is allowed Anti-rever Anti-reverse 1: Reverse operation is prohibited P08.18 × √ × selection (run at zero frequency upon selection reverse running command) FWD/REV FWD/REV P08.19 dead- 0.00~360.00s 0.01s 0.00s × √ ○ dead- time time 0: Switch once over the zero FWD/REV FWD/REV...
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function 8: Frequency upper limit (FHL) selection 9: Frequency lower limit (FLL) 10: Drive running at zero-speed 15: Drive ready for running (RDY) 16: Drive fault Relay 18: Brake control signal BRA/BRC BRA/BRC 19: Limiting torque P09.20 output function √ √...
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5: Output torque (0~3 * T 6: Output torque current (0~3*I 7: Motor rotating speed (0~Maximum output frequency) 8: Output voltage (0~1.5 * V 12: Output power (0~2*P 13: Electric torque limit value (0~3T 14: Braking torque limit value (0~3T 15: Torque offset (0~3T 16: Torque reference (0~3T Zero-spee...
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E: Reserved (command rate numerator) Tens place of LED: AI2 function selection is the same as above Hundreds place of LED: AI3 function selection is the same as above Group P11: Auxiliary function parameters Accelerati Acceleration 0: Linear acceleration/deceleration P11.00 decelerati deceleration ×...
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running running Upper limit of skip Skip P11.19 P11.20~3000.00Hz 0.01Hz 0.00 × √ × frequency frequency 1 Lower limit of skip Skip P11.20 0.00~ P11.19 0.01Hz 0.00 × √ × frequency frequency 1 Upper limit of skip Skip P11.21 P11.22~3000.00Hz 0.01Hz 0.00 ×...
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Flux-weak ening Flux-weakeni adjustmen P12.12 0~10000 3000 × √ ○ adjustment coefficient coefficient 2 Flux-weak Flux-weakeni ening P12.13 ng control × √ ○ control mode mode 0: Operate automatically 1: Fan operates continually during power-up Cooling P12.14 Fan control × √...
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module module temperatu temperature Rectifier Rectifier module P16.07 module 0.0~150.0℃ 0.1℃ × √ temperatu temperature Motor Motor temperatu P16.08 temperature 0℃~200℃ 1℃ × √ measured measured Accumula Accumulated P16.09 power-on 0 ~ maximum 65535 hours 1hour × √ power-on hours hours Accumula Accumulated...
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shutdown dead time dead time With voltage With voltage 0: Disable with with speed P26.05 × √ ○ 1: Enable speed enabled enabled Open loop Open loop downlink downlink breaking P26.06 0.00~5.00Hz 0.01 1.00 × √ ○ breaking superposit superpositio n frequency frequency Open loop...
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speed torque time torque time Maximum Maximum frequency frequency of P60.17 of open open loop 0.00~ P02.16 00.01Hz 10.00Hz × √ ○ loop brake brake closed closed Brake Brake 0.00~10.00s feedback feedback P60.18 0.01s 0.0s × √ ○ detection detection (Zero is disable) delay delay...
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Unit place of LED: Overload compensation mode 0: No action 1: Common motor (with low-speed compensation) 2: Variable-frequency motor (without low-speed compensation) Tens place of LED: Overload pre-alarm detection selection Overload 0: Always detect Overload protection P97.03 protection 0001 × √...
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current limiting level limiting level Frequenc Frequency 10.00 reduction P97.11 reduction 0.00~99.99Hz/s 0.01Hz/s × √ ○ rate upon Hz/s rate current limiting Groundin Grounding g short 0: Disable short circuit circuit P97.12 detection × √ ○ 1: Enable (enabled for small detection upon power)
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19: Abnormal current detection circuit (Er.CUr), Hall or amplifying circuit 22: External reference command lost (Er. EGL) 23: Keyboard parameter copy error (Er.CoP) 24: Poor auto-tuning (Er.TUn) 25: Local PG fault (Er.PG1) 26: Safety terminal failure (Er.SAF) 27: Stall fault (Er.SoC) 28: Parameter setting error (Er.PST) 29: Control board 24V power...
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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 protection action, and displays AL.xxx if continuing running with alarm) The second P97.16 second...
Chapter 4 Parameter Description The parameter format is as follows: Menu No. Menu name Value range (default value) 4.1 System management parameters (Group P00) Parameter initialization 0~3 (0) P00.05 0: Parameter changing status: After this parameter change is completed, this function code will automatically return to zero.
00:Slewing: It is suitable for the slewing mechanism motor drive application for the construction machines in hoisting industry; 01: Luffing(trolley): It is suitable for the luffing mechanism motor drive application (or trolley walking) for the construction machines in hoisting industry; 02: Closed loop lifting: It is suitable for the closed loop lifting application in the hoisting industry, such as tower crane closed loop lifting application (with encoder feedback);...
2: Enabled (motor in rotate status) Before the auto-tuning, be sure to enter the correct nameplate parameters of the controlled motor. During the rotation setting, the asynchronous motor is in static state first. P03.07, P03.08, P03.09 parameter of the asynchronous motor will be automatically measured. And then the asynchronous motor will turn into the rotation state, and the mutual inductive reactance P03.10 and no-load current (I ) P03.11 of the motor will be automatically measured.
Zero servo initial frequency 0.00~10.00Hz (0.20Hz) P05.19 Upon closed loop vector control, when the motor speed is less than the rotating speed corresponding to the zero servo initial frequency P05.19, if the zero servo enabled is always enabled or the conditions are enabled and the terminal is enabled, it enters into the zero servo locking status.
(P02.15). The deceleration time means the time needed for the drive to decelerate from the maximum output frequency (P02.15) to 0Hz. MV600L series drive has four acceleration/deceleration time settings in total. The acceleration/ deceleration time (1~4) of the drive in the operation can be selected by different combinations of control terminals.
As shown in Fig. 4-1, t1 is the jog acceleration and deceleration time (P11.16) of actual running. t2 is the jog time and t3 is the jog interval time (P11.17). f is the jog running frequency (P11.18). The jog acceleration and deceleration time t of actual running is determined by the following equation: ×...
Frequency setting P02.05 P13.01 P13.03 P13.07 P13.15 4.7 Slewing control parameters (Group P13) 0~1(0) P25.02 Y1 vortex control selection 0.0~200.0%(80.0%) P25.03 Vortex control coefficient 0.0~10.00s (6.50s) P25.04 Stop vortex retention time Slewing control vortex parameter values: P25.02 choose that whether Y1 is needed to carry out vortex control;...
4.9 Brake control parameter(Group P60) 0.0~100.0% (00.0%) P60.00 Forward torque lower limit for closed loop brake 0.0~100.0% (00.0%) P60.01 Reverse torque lower limit for closed loop brake P60.02 Brake release delay 0.00~10.00s(0.00s) The closed loop control is enabled, while the breaking operation of the brake depends on the conditions. When the forward operation output torque is larger than the setting of P60.00 (relative to motor rated torque), and the time delay of P60.02 elapses, the breaking command will be output.
P60.12+P26.06 as the set frequency to start running, and then determine whether the output torque reaches P60.14 and the output frequency reaches P60.11. If these two conditions are met, the breaking command will be output after the time delay of P60.02. Otherwise, enter the stage of the [P60.17]. 0.00~ P02.16(25.00Hz) P60.15 Low-speed signal frequency...
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Overspeed detection action selection: 0: Decelerate to stop The drive decelerates to stop according to the deceleration time, and the failure of Er.oSP is reported. 1: Coast to stop The drive is subject to coast to stop, and the failure of Er.oSP is reported. 2: Continue to run The drive reports the alarm of AL.oSP and keeps running.
MV600L typical application wiring and function code setting. MV600L is a special drive for lifting industry developed by Shenzhen Megmeet Drive Technology Co., Ltd. It can be divided into four operating modes according to the working station: Slewing mode, luffing mode, closed loop lifting mode, open loop lifting mode.
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Default function code settings for typical wiring under different working modes: Slewing mode Luffing mode Closed loop lifting Open loop lifting Functio Terminal Value Meaning Value Meaning Value Meaning Value Meaning n code Slewing Luffing Closed Open loop P00.07 mode mode loop mode mode...
Chapter 6 Troubleshooting 6.1 Displaying exception and solutions All possible fault types for MV600L are summarized as shown in table 6-1. 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.
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Fault Fault type Possible fault cause Solutions code the drive When instantaneous stop happens, Set the start mode P08.00 as the speed tracking restart the rotating motor restart function The deceleration time is too short Lengthen the deceleration time Deceleration (compared with regeneration energy).
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Fault Fault type Possible fault cause Solutions code The ambient temperature is too high. Lower the ambient temperature Inverter module The duct is blocked. Clean the duct Er.oH1 heatsink The fan is damaged. Replace the fan over-temperature The inverter module is abnormal. Seek for service support The ambient temperature is too high.
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Fault Fault type Possible fault cause Solutions code The baud rate is set improperly. Set the baud rate properly. Reset by pressing the STOP/RESET key, seek for Serial port communication error service support Abnormal remote Er.SC1 serial port The fault alarm parameters are set Modify the P15.03 and P97.00 settings communication improperly.
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Fault Fault type Possible fault cause Solutions code When reverse running is prohibited, reverse rotating auto-tuning is Cancel the reverse running prohibition performed. Check motor wiring Check the P02.16 (upper limit frequency) and see Auto-tuning overtime whether the P02.17 set value is lower than rated frequency.
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Fault Fault type Possible fault cause Solutions code The motor fan is damaged. Replace the motor fan The motor operates at low frequency Add a large fan for the motor to dissipate heat and large load for a long time. Abnormal control circuit Seek for service support Abnormal AI...
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Fault Fault type Possible fault cause Solutions code Check the brake reliability of Brake performance of brake Er. FbL Check the mechanical spring, change brake pads brake mechanical decline mechanical Encoder disconnection Check encoder wiring The encoder parameters are set Set parameters correctly Er.oSP Overspeed fault...
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Alarm Alarm type Possible alarm causes Solutions code The motor overload protection factor Set the overload protection factor of motor correctly. setting is incorrect. The motor is blocked or the sudden Check the load change of load is too large. AL.oL2 Motor overload The universal motor runs at low speed...
Please carefully choose the fault alarm function; otherwise, the accident range extension, the human injury and the property damage may be caused. 6.2 Operation exception and solutions Table 6-3 Operation exception and solutions Symptoms Conditions Possible causes Solutions In stop or running status, press the M key and retain pressure on it, then press the V key successively for three times, after that, you can The locking function of the...
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Symptoms Conditions Possible causes Solutions operation. run LED is off. Running command channel Check the relevant function code setting of the switches operation and running command channel Too large DEV Modify the DEV detection value setting The positive/negative logic of the Check if the P09.15 setting corresponds with control terminals changes.
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Symptoms Conditions Possible causes Solutions Under the three-wire control mode, the terminal with the three-wire Set and close the three-wire operation control operation control function is not terminal closed. Fault alarm occurs. Troubleshoot Cancel the virtual terminal function of the host The virtual terminal function of the device or set the function properly through the host device is set improperly.
The specifications of drive, braking unit and braking resistor are shown as the following table, for other specifications please contact megmeet engineer. The following table is only our recommended values, specific configuration need engineer to calculate according to the system requirements.
(such as unsatisfactory performance and function), please contact your product agent or Shenzhen Megmeet Drive Technology Co., Ltd.. 2. In case of any abnormality, please timely contact your product provider or Shenzhen Megmeet Drive Technology Co., Ltd. for help.
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