Inovance MD210 Series Quick Start Manual
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Inovance MD210 Series Quick Start Manual

Inovance MD210 Series Quick Start Manual

General-purpose ac drive
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Summary of Contents for Inovance MD210 Series

  • Page 1 efesotomasyon.com...

  • Page 2: Table Of Contents

    CHAPTER 1 PRODUCT INFORMATION ........................1 Designation ..............................1 Nameplate ..............................1 General Specifications ........................... 2 CHAPTER 2 WIRING ..............................3 Typical Wiring ..............................3 Terminals ................................ 5 CHAPTER 3 EASY SETUP ............................7 Logic of Control .............................. 7 Step By Step Setup ............................9 CHAPTER 4 TROUBLESHOOTING ..........................

  • Page 3: Chapter 1 Product Information

    CHAPTER 1 PRODUCT INFORMATION 1.1 Designation MD210 X X.X X Mark Built-in Braking Unit MD210 series AC drive Mark Voltage Class Single-phase 220 V Three-phase 220 V Mark Three-phase 380 V Applicable motor, [kW] 0.75 1.2 Nameplate Nameplate MODEL: MD210T0.7B...

  • Page 4: General Specifications

    1.3 General Specifications Single-phase 220 VAC Three-phase 220 VAC Voltage Class Three-phase 380 VAC MD210 MD210 MD210 MD210 MD210 MD210 MD210 MD210 MD210 MD210 MD210 MD210 Drive Model S0.4B S0.7B S1.5B S2.2B 2T0.4B 2T0.7B 2T1.5B 2T2.2B T0.4B T0.7B T1.5B T2.2B Frame Size H [mm] W [mm]...

  • Page 5: Chapter 2 Wiring

    CHAPTER 2 WIRING 2.1 Typical Wiring 9 Wiring of Three-phase 220/380 VAC Power Supply Braking resistor (optional) MCCB ( - ) P(+) Power supply MD210 Three-phase 220V/380V 50/60 Hz +24V OP is connected to +24V in default, please pay attention to jumper J3 +24V FJOG Analog output...
  • Page 6 9 Wiring of Single-phase 220 VAC Power Supply Braking resistor (optional) MCCB ( - ) P(+) Power supply Single-phase 220V MD210 50/60 Hz +24V OP is connected to +24V in default, please pay attention to jumper J3 +24V FJOG Analog output RESET (Running frequency) Multi-reference terminal 1...

  • Page 7: Terminals

    2.2 Terminals 9 Terminals of Main Circuit Table 2-1: Main circuit terminals of the single-phase Terminal Terminal Name Description L1, L2 Single-phase power supply input terminals Connect to the single-phase 220 VAC power supply. P(+), (-) Positive and negative terminals of DC bus Common DC bus input point.
  • Page 8 9 Terminals of Control Circuit Terminal Terminal Name Description Provide +10 VDC power supply to external unit. Usually, it provides power supply to external potentiometer with resistance range of 1kΩ to 5 kΩ. +10V-GND +10 VDC power supply Max.. output current: 10 mA. Provide +24 VDC power supply to external unit.

  • Page 9: Chapter 3 Easy Setup

    CHAPTER 3 EASY SETUP 3.1 Logic of Control 9 Complete Timing Diagram Fr equency F0-08 [x.x Hz] F0-18 F0-17 F6-09 F6-08 [x.x Sec] [x.x Sec] [x.x% ] [x.x% ] Fr equency F6-11 [ x.x Hz]: default 0.0 Hz output DC injection braking 2 frequency threshold command F6-04 [x.x Sec]...
  • Page 10 9 Timing Diagram Description Event Description Function code Status -The AC drive waits for the RUN signal. ----- Inhabit -The AC drive receives the Forward RUN command. ----- -The IGBT becomes active. ----- -DC Injection Braking 1/Pre-excitation is enabled if F6-06 > 0. F6-05 (if F6-00 = 0, it is "DC Injection Braking 1";...

  • Page 11: Step By Step Setup

    3.2 Step By Step Setup 9 Setup Flowchart Refer to Chapter 1 and 2 Check nameplate and wiring Apply main power to AC drive Get familiar with keypad Set motor parameters Set frequency reference Set operation mode Set start mode Set stop mode Set acceleration and deceleration time Set DI and DO if needed...
  • Page 12 9 Step 1: Get Familiar With Keypad ‹ Overview Indicators LED display Increment key Programming key Confirm key Multi-function key Decrement key Shift key RUN key Stop/Reset key ‹ Indicators FWD/REV : It indicates forward or reverse rotation. OFF indicates forward rotation and ON indicates reverse rotation. TUNE/TC : Reserved.
  • Page 13 ‹ Keys On Keypad Key Name Function Programming Enter or exit Level I menu. Confirm Enter the menu interfaces level by level, and confirm the parameter setting. Increment Increase data or function code. Decrement Decrease data or function code. Select the displayed parameters in turn in the stop or running state, and select the digit to be Shift modified when modifying parameters.
  • Page 14 ‹ Keypad Operation F0 27 ENTER ENTER ENTER ENTER F0 02 F0 03 50.00 F0 01 save the value F0 27 F0 02 ‹ Function Codes Arrangement Function Code Description Remark Group F0 to FP Standard function code group Standard function parameters A1 to AC Advanced function code group AI/AO correction...
  • Page 15 9 Step 2: Set Motor Parameters Function Parameter Name Setting Range Unit Default Commission Code F1-00 Motor type selection 0: Common asynchronous motor N.A. 1: Variable-frequency asynchronous motor F1-01 Rated motor power 0.1 to 7.5 Model dependent F1-02 Rated motor voltage 1 to 1000 Model dependent...
  • Page 16 Function Parameter Name Setting Range Unit Default Commission Code F0-07 Frequency source 7-segment N.A. superposition selection 0: X + Y 1: X – Y 2: Max. (X, Y) 3: Min. (X, Y) 0: Main frequency source X 1: X and Y superposition 2: Switchover between X and Y (by DI terminal) 3: Switchover between X and...
  • Page 17 9 Step 4: Select Operation Mode Function Parameter Name Setting Range Unit Default Commission Code F0-02 Command source 0: Keypad control selection 1: Terminal control N.A. 2: Communication control F4-11 Terminal command 0: Two-wire control mode 1 mode 1: Two-wire control mode 2 N.A.
  • Page 18 9 Step 5: Set Start Mode Function Parameter Name Setting Range Unit Default Commission Code F6-00 Start mode 0: Direct startup 1: Reserved N.A. 2: Pre-excited startup (asynchronous motor) 9 Step 6: Set Stop Mode Function Parameter Name Setting Range Unit Default Commission...
  • Page 19 9 Step 8: Set DI And DO If Needed ‹ DI Setting Function Parameter Name Setting Range Unit Default Commission Code F4-00 DI1 function selection 0: No function N.A. 1: Forward RUN (FWD) 2: Reverse RUN (REV) F4-01 DI2 function selection N.A.
  • Page 20 Function Parameter Name Setting Range Unit Default Commission Code F4-10 DI filter time 0.000 to 1.000 0.010 F4-35 DI1 delay time 0.0 to 3600.0 F4-36 DI2 delay time 0.0 to 3600.0 F4-37 DI3 delay time 0.0 to 3600.0 F4-38 DI active mode 7-segment selection 00000...
  • Page 21 ‹ DO Setting Function Parameter Name Setting Range Unit Default Commission Code F5-02 Relay function 0: No output (T/A-T/B-T/C) 1: AC drive running state 2: Fault output 3: Frequency-level detection FDT1 output 4: Frequency reached 5: Zero-speed running (no output at stop) 6: Motor overload pre-warning 7: AC drive overload pre-warning 8: Set count value reached...
  • Page 22 Function Parameter Name Setting Range Unit Default Commission Code 7-segment F5-22 DO active mode N.A. 00000 selection Reserved Reserved Reserved Relay 1 active mode 0: Positive logic 1: Negative logic Reserved : ‘Positive logic’ means that, when power on, the relay output terminal T/A-T/B is normally closed, and T/A-T/C is normally open. ‘Negative logic’...
  • Page 23 9 Step 11: Set DC Injection Braking If Needed Function Parameter Name Setting Range Unit Default Commission Code F6-00 Start mode 0: Direct startup 1: Reserved N.A. 2: Pre-excited startup (asynchronous motor) F6-05 DC Injection Braking 1 0 to 100 level F6-06 DC Injection Braking 1...

  • Page 24: Chapter 4 Troubleshooting

    CHAPTER 4 TROUBLESHOOTING 4.1 Faults And Solutions Display Fault Name Possible Causes Solutions Overcurrent 1. The output circuit is short circuited. 1: Eliminate short circuit. Err02 during 2: The acceleration time is too short. 2: Increase the acceleration time. acceleration 3: Manual torque boost or V/F curve is not 3: Adjust the manual torque boost or V/F curve.
  • Page 25 Display Fault Name Possible Causes Solutions Undervoltage 1: Instantaneous power off. Check the power supply, or seek for maintenance. Err08 for times 2: The DC bus voltage is too low . 3: The rectifier bridge and buffer resistor are faulty. 4: The drive board is faulty.
  • Page 26 Display Fault Name Possible Causes Solutions User-defined 1: The user-defined fault 2 signal is input via DI Reset. Err28 fault 2 2: The user-defined fault 2 signal is input via virtual terminal. Beyond the The accumulative power-on time reaches the setting Clear the record through the parameter initialization Err29 accumulative...

  • Page 27: Common Symptoms And Diagnostics

    4.2 Common Symptoms And Diagnostics Fault Name Possible Causes Solutions There is no display at 1. There is no power supply or the power supply is 1. Check the power supply. power-on. too low. 2 to 5. Seek for maintenance. 2.

  • Page 28: Chapter 5 Function Code Table

    CHAPTER 5 FUNCTION CODE TABLE 5.1 General Function Codes 9 Group F0: Standard Function Parameter Name Setting Range Unit Default Commission Code F0-01 Motor control mode 2: Voltage/Frequency control (V/F) N.A. F0-02 Command source 0 to 2 N.A. selection F0-03 Main frequency source 0 to 9 N.A.
  • Page 29 F0-27 Binding command 0000 to 9999 source to frequency N.A. 0000 source 9 Group F1: Motor Parameters Function Parameter Name Setting Range Unit Default Commission Code F1-00 Motor type selection 0: Common asynchronous motor N.A. 1: Variable frequency asynchronous motor F1-01 Rated motor power 0.1 to 7.5...
  • Page 30 9 Group F4: Input Terminals Function Parameter Name Setting Range Unit Default Commission Code F4-00 DI1 function selection 0 to 59 N.A. F4-01 DI2 function selection 0 to 59 N.A. F4-02 DI3 function selection 0 to 59 N.A. F4-03 DI4 function selection 0 to 59 N.A.
  • Page 31 Function Parameter Name Setting Range Unit Default Commission Code F4-37 DI3 delay time 0.0 to 3600.0 F4-38 DI active mode 00000 to 11111 N.A. 00000 selection 9 Group F5: Output Terminals Function Parameter Name Setting Range Unit Default Commission Code F5-02 Relay function 0 to 41...
  • Page 32 9 Group F7: Keypad Operation And LED Display Function Parameter Name Setting Range Unit Default Commission Code F7-01 MF.K Key function 0 to 5 N.A. selection F7-02 STOP/RESET key 0 to 1 N.A. function F7-03 LED display running 0000 to FFFF N.A.
  • Page 33 9 Group F8: Auxiliary Functions Function Parameter Name Setting Range Unit Default Commission Code F8-00 JOG running 0.00 to Max. frequency 2.00 frequency F8-01 JOG acceleration time 0.0 to 6500.0 20.0 F8-02 JOG deceleration time 0.0 to 6500.0 20.0 F8-03 Acceleration time 2 0.0 to 6500.0 Model...
  • Page 34 Function Parameter Name Setting Range Unit Default Commission Code F8-33 Detection amplitude 2 0.0 to 100.0 (Max. frequency) of any frequency reaching F8-34 Zero current detection 0.0 to 300.0 level (rated motor current as 100%) F8-35 Zero current detection 0.01 to 600.00 0.10 delay F8-36...
  • Page 35 9 Group F9: Fault And Protection Function Parameter Name Setting Range Unit Default Commission Code F9-00 Motor overload 0: Disabled N.A. protection 1: Enabled F9-01 Motor overload 0.20 to 10.00 1.00 N.A. protection gain F9-02 Motor overload 50 to 100 pre-warning coefficient F9-03 Overvoltage stall gain...
  • Page 36 Function Parameter Name Setting Range Unit Default Commission Code F9-39 Frequency upon 1st N.A. N.A. N.A. fault F9-40 Current upon 1st fault N.A. N.A. N.A. F9-41 Bus voltage upon 3rd N.A. N.A. N.A. fault F9-42 Input terminal status N.A. N.A. N.A.
  • Page 37 9 Group FA: Process Control And PID Function Function Parameter Name Setting Range Unit Default Commission Code FA-00 PID reference source 0 to 6 N.A. FA-01 PID digital reference 0.0 to 100.0 50.0 FA-02 PID feedback source 0 to 8 N.A.
  • Page 38 9 Group FB: Wobble, Fixed Length And Count Function Parameter Name Setting Range Unit Default Commission Code FB-00 Wobble setting mode 0: Relative to the central frequency N.A. 1: Relative to the Max. frequency FB-01 Wobble frequency 0.0 to 100.0 amplitude FB-02 Wobble step...
  • Page 39 9 Group FC: Multi-Reference And Simple PLC Function Function Parameter Name Setting Range Unit Default Commission Code FC-00 Reference 0 -100.0 to 100.0 FC-01 Reference 1 -100.0 to 100.0 FC-02 Reference 2 -100.0 to 100.0 FC-03 Reference 3 -100.0 to 100.0 FC-04 Reference 4 -100.0 to 100.0...
  • Page 40 Function Parameter Name Setting Range Unit Default Commission Code FC-31 Acceleration/decelerati 0 to 3 on time of simple PLC N.A. reference 6 FC-32 Running time of simple 0.0 to 6553.5 s or h PLC reference 7 FC-33 Acceleration/decelerati 0 to 3 on time of simple PLC N.A.
  • Page 41 9 Group FD: Communication Function Parameter Name Setting Range Unit Default Commission Code FD-00 Baud rate 0000 to 9999 N.A. 6005 FD-01 Data format symbol 0 to 3 N.A. FD-02 Local address 0: Broadcast address; N.A. 1 to 247 FD-03 Response delay 0 to 20 FD-04...
  • Page 42 9 Group A1: Virtual DI/DO Function Parameter Name Setting Range Unit Default Commission Code A1-00 VDI1 function selection 0 to 59 N.A. A1-01 VDI2 function selection 0 to 59 N.A. A1-02 VDI3 function selection 0 to 59 N.A. A1-03 VDI4 function selection 0 to 59 N.A.
  • Page 43 9 Group A6: AI Curve Setting Function Parameter Name Setting Range Unit Default Commission Code A6-00 AI curve 4 minimum -10.00 to A6-02 0.00 input A6-01 Corresponding setting -100.0 to 100.0 of AI curve 4 minimum input A6-02 AI curve 4 inflexion 1 A6-00 to A6-04 3.00 input...

  • Page 44: Monitoring Function Codes

    5.2 Monitoring Function Codes 9 Group U0: Monitoring Function Parameter Name Setting Range Unit Default Commission Code U0-00 Running frequency N.A. N.A. U0-01 Set frequency N.A. N.A. U0-02 Bus voltage N.A. N.A. U0-03 Output voltage N.A. N.A. U0-04 Output current N.A.
  • Page 45 Function Parameter Name Setting Range Unit Default Commission Code U0-34 Motor temperature N.A. N.A. U0-35 Target torque N.A. N.A. U0-36 Reserved N.A. N.A. N.A. U0-37 Power factor angle N.A. ° N.A. U0-38 Reserved N.A. N.A. N.A. U0-39 Reserved N.A. N.A. N.A.
  • Page 46 Warranty Agreement The warranty period of the product is 18 months from date of manufacturing. During the warranty period, if the product fails or is damaged under the condition of normal use by following the instructions, Inova will be responsible for free maintenance. Within the warranty period, maintenance will be charged for the damages caused by the following reasons: a.
  • Page 47 Product Warranty Card Address: Customer information Contact person: Company name: Postcode: Tel or Email: Product model: Product information Serial No (Attach here): Name of supplier who supplied you the unit: Failure Description (eg. Fault code) Maintenance personnel: efesotomasyon.com...
  • Page 48 efesotomasyon.com...

This manual is also suitable for:

Md210 s0.4bMd210 s0.7bMd210 s1.5bMd210 s2.2bMd210 2t0.4bMd210 2t0.7b ... Show all

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