Nidec NE200 User Manual
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Nidec NE200 User Manual

High performance vector control drive
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NE200/NE300
High performance
vector control drive
User Manual
Serial No -3101A003
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Summary of Contents for Nidec NE200

  • Page 1 NE200/NE300 High performance vector control drive User Manual Serial No -3101A003 Scan QR to follow us...

  • Page 2: Table Of Contents

    Contents Chapter 1 NE200/300 Product Introduction ................1 1.1 Model Description ............................1 1.3 Product Series ..............................2 1.4 Specifications ..............................6 1.5 Product Outline, Mounting Dimension ......................9 1.6 Operating keypad panel outline and mounting dimensions ..............18 1.7 Keypad holder outline and mounting dimensions ..................19 1.8 Braking resistor applying guide ........................
  • Page 3 4.2 Function code viewing and modification ....................53 4.3 Display status of keypad ..........................54 4.4 Password Setting ............................55 Chapter 5 Parameters Brief ......................56 Chapter 6 Parameter description ....................99 6.1 Group 0 Basic Function ..........................99 6.2 Start and stop group (F1) ........................... 108 6.3 Auxiliary running function group (F2) .....................
  • Page 4 Chapter 8 Routine Repair and Maintenance ..............194 8.1 Routine Maintenance ..........................194 8.2 Periodic Maintenance ..........................196 8.3 Component Replacement ......................... 196 8.4 Warranty ..............................197 Appendix A NE300 Closed-loop Control ................198 Parameter Brief ..............................198 Fault code of encoder ............................203 Appendix B: Modbus Communication Protocol ..............204 Appendix C: Adapted encoder instruction ................214 Appendix D NE300 advanced control PCBA(Option)...
  • Page 5 Revision History Date Version Description 2020/4/2 Issued for the first time 2020/5/19 Add “Modbus Address” column in parameter brief list...
  • Page 6 Safety Information Description of safety marks: Warning: A Warning contains information which is essential for avoiding a safety hazard. Caution: A Caution contains information which is necessary for avoiding a risk of damage to the product or other equipment.  Warning ...
  • Page 7 cabinet shall be equipped with fan and ventilation port. And ducts for radiation shall be constructed in the cabinet.  Wiring Warning  The wiring must be conducted by qualified electricians. Otherwise, there exists the risk of electric shock or drive damage. ...
  • Page 8 drive failure caused by the over-current of the distribution capacitor.  The drive which equipped with DC reactor must connect with DC reactor between the terminal of P1、(+) otherwise the drive will not display after power on.  Operation Warning ...
  • Page 9  In the applications with mains frequency and variable frequency switching, the two contactors for controlling the mains frequency and variable frequency switching shall be interlocked.  Maintenance & Inspection Warning  In the power-on state, please do not touch the drive terminals; otherwise, there exists the risk of electric shock.

  • Page 10: Chapter 1 Ne200/300 Product Introduction

    G Heavy Duty 9000 (900kW) P Normal Duty Fig.1-1 Product Model Description Note: NE300-4T0300G/0370P means this model can be used as 30kW heavy duty and 37kW normal duty. 1.2 Product Nameplate Description Fig.1-2 Nameplate Chapter 1 Introduction to NE200/300 Series Drive...

  • Page 11: Product Series

    Rated Volt/ Freq 3phase 380V/440V; 50Hz/60Hz 304V~456V; voltage imbalance ≤3%; Allowable Input Voltage range frequency fluctuation ±5% Rated current (A) 10.7 15.5 Braking unit Standard (Built-in) IP rating IP20 Cooling Forced air cooling Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 12 150% 1min; 180% 20sec. Rated Volt/Freq 1phase 200V/240V; 50Hz/60Hz 176V~264V; voltage imbalance ≤3%; Allowable Input Voltage range frequency fluctuation ±5% Rated current (A) Braking unit Standard (Built-in) IP rating IP20 Cooling Forced air cooling Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 13 670* 740* 850* 910* 960* 1170* 1310* 1470* Current (A) Brake Unit Built-out IP Rating IP20 Cooling Forced air cooling * NE300−4T1600G-F and above products are equipped with in-built DC reactor as standard. Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 14 385* 430* 480* 548* 610* 670* 740* 850* 910* 960* 1170* 1310* 1470* 1650* Current ( A) Brake Unit Built-out IP Rating IP20 Cooling Forced air cooling * NE300−4T1850P and above products are equipped with external DC reactor as standard. Chapter 1 Introduction to NE200/300 Series Drive...

  • Page 15: Specifications

    Keypad, terminal up/down, communication (host), analog input AI1 AI2 Output Freq. 0.0~550.0Hz Starting frequency 0.0~60.00Hz Acc./Dec. time 0.01~3600s 0.1~3600s 400V Braking unit action voltage 650~750V Dynamic braking 200V Braking unit action voltage 360~390V Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 16 Output phase lost, Power supply under/over-voltage, External devices faults, Analog input/output abnormal, Temperature sampling offline Drives/motor overload Abnormal power failure in running Over-current, Under/over voltage, Relay contact error Encoder off-line, Heat sink over-heat, EEPROM abnormal Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 17 1% for every temperature rise of 1ºC Humidity 5~95%,no condensing Environment Vibration 3.5mm, 2~9Hz; 10 m/s , 9~200Hz; 15 m/s , 200~500Hz 0~2000m; Derating use above 1000m; Derate 1% every 100m Altitude higher. Storage temperature −40~ +70ºC Chapter 1 Introduction to NE200/300 Series Drive...

  • Page 18: Product Outline, Mounting Dimension

    NE200/300 Series Drive User Manual 1.5 Product Outline, Mounting Dimension (Unit:mm) Note: NE200 series support 35mm DIN-rail mounting. Model Dimensions NE200-2S0004GB NE200-2S0007GB NE200-2S0015GB See Fig. A NE200-4T0007G/0015PB NE200-4T0015G/0022PB NE200-4T0022GB-M NE200-2S0022GB NE200-4T0022G/0040PB See Fig. B NE200-4T0040G/0055PB NE200-2S0004GB Note -M means mini model Fig.
  • Page 19 NE300-4T0022G/0040PB See Fig. C NE300-4T0040G/0055PB NE300-4T0055G/0075PB NE300-4T0075G/0110PB See Fig. D NE300-4T0110G/0150PB NE300-4T0150G/0185PB NE300-4T0185G/0220PB See Fig. E NE300-4T0220G/0300PB NE300-4T0300G/0370P See Fig. F NE300-4T0370G/0450P NE300-4T0450G/0550P See Fig. G NE300-4T0550G/0750P NE300-4T0750G/0900P See Fig. H NE300-4T0900G/1100P NE300-4T1100G/1320P Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 20 See Fig. P Note: -U means input lines come from upside and output lines come out downside. -D means input lines come from downside and output lines come out downside. -F means freestanding models Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 21 NE200/300 Series Drive User Manual Fig. C Fig. D Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 22 NE200/300 Series Drive User Manual Fig. E Fig. F Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 23 NE200/300 Series Drive User Manual Fig. G Fig. H Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 24 NE200/300 Series Drive User Manual Fig. I Fig. J Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 25 NE200/300 Series Drive User Manual Fig. K Fig. L Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 26 NE200/300 Series Drive User Manual Fig. M Fig. N Chapter 1 Introduction to NE200/300 Series Drive...

  • Page 27: Operating Keypad Panel Outline And Mounting Dimensions

    NE200/300 Series Drive User Manual Fig. P 1.6 Operating keypad panel outline and mounting dimensions (Unit:mm) Fig.1-3 LED Operating Panel Outline and Mounting Dimension Chapter 1 Introduction to NE200/300 Series Drive...

  • Page 28: Keypad Holder Outline And Mounting Dimensions

    NEF-KB01 is the mounting tray when the keypad is to install on the electric control cabinet. The outline and dimensions are as follows:(Unit: mm): Keypad tray dimensions Hole size of cut Fig.1-6 Operating Panel Outline and Mounting Dimension Chapter 1 Introduction to NE200/300 Series Drive...

  • Page 29: Braking Resistor Applying Guide

    NE300-4T0750G/0900P 13.6Ω 9000W NE300-4T0900G/1100P 20Ω 6000W NE300-4T1100G/1320P 20Ω 6000W NE300-4T1320G/1600P-U 20Ω 6000W NE300-4T1320G/1600P-D 20Ω 6000W NE300-4T1600G/1850P-U 13.6Ω 9000W NE300-4T1600G/1850P-D 13.6Ω 9000W NE300-4T1600G/1850P-F 13.6Ω 9000W NE300-4T1850G/2000P-U 13.6Ω 9000W NE300-4T1850G/2000P-D 13.6Ω 9000W NE300-4T1850G/2000P-F 13.6Ω 9000W Chapter 1 Introduction to NE200/300 Series Drive...
  • Page 30 NE300-4T4500G/5000P-F 2Ω 60000W NE300-4T5000G/5600P-F 2Ω 60000W NE300-4T5600G/6300P-F 2Ω 60000W NE300-4T6300G/7100P-F 2Ω 60000W NE300-4T7100G/8000P-F 2Ω 60000W NE300-4T8000G/9000P-F 2Ω 80000W NE300-4T9000G-F 2Ω 80000W Note: The resistors should be paralleled while QTY. is 2 or above. Chapter 1 Introduction to NE200/300 Series Drive...

  • Page 31: Chapter 2 Installation

    NE200/300 Series Drive User Manual Chapter 2 Installation 2.1 Environment  Avoid installing the product in the sites with oil mist, metal powder and dust.  Avoid installing the product in the sites with hazardous gas and liquid, and corrosive, combustible and explosive gas.

  • Page 32: Mounting Direction And Space

    NE200/300 Series Drive User Manual 2.2 Mounting Direction and Space In order not to reduce the drive cooling effect, the drive must be mounted vertically, and certain space must be maintained, as shown in Fig. 2-1 Fig.2−1 Mounting direction and Space Fig.2−2 Installation diagram...
  • Page 33 NE200/300 Series Drive User Manual Fig.2-3 Removal of keypad Fig.2-4 Mounting of keypad 2.3.2 Removal and mounting of drive plastic enclosure Removal of cover  Forcefully press the 2 snap joints on the left and right sides as shown direction1 until the upper side of cover comes out. Lift the cover in direction 2, as in Fig.

  • Page 34: Chapter 3 Wiring

    NE200/300 Series Drive User Manual Chapter 3 Wiring 3.1 Connection of the Product and Peripheral Devices Power supply Circuit breaker or leakage circuit breaker Contactor Input AC reactor DC reactor Input noise filter Drive Grounding Output noise filter Braking resistor...

  • Page 35: Description Of Peripheral Devices For Main Circuit

    NE200/300 Series Drive User Manual 3.2 Description of Peripheral Devices for Main Circuit The capacity of the circuit breaker shall be 1.5 ~ 2 time of the rated current of Circuit breaker the drive. The time features of the circuit breaker shall fully consider the time features of the drive overload protection.

  • Page 36: Main Circuit Peripheral Devices Guide

    NE200/300 Series Drive User Manual When the cable connecting the drive and the motor is longer than 100m, it is Output AC suggested to install AC output reactor to suppress the high-frequency reactor oscillation to avoid the damage to motor insulation, large leakage current and frequent drive protective actions.
  • Page 37 NE200/300 Series Drive User Manual M4 1.2 ~ 1.5 1.2 ~ 1.5 NE300-4T0040G/0055PB M4 1.2 ~ 1.5 1.2 ~ 1.5 NE300-4T0055G/0075PB M4 1.2 ~ 1.5 1.2 ~ 1.5 NE300-4T0075G/0110PB M4 1.2 ~ 1.5 1.2 ~ 1.5 NE300-4T0110G/0150PB 4 ~ 6 4 ~...

  • Page 38: Terminal Configuration Of Main Circuit

    NE200/300 Series Drive User Manual NE300-4T2200G/2500P-D 40~45 150×2 M10 20~25 75×2 NE300-4T2200G/2500P-F 40~45 150×2 M10 20~25 75×2 NE300-4T2500G/2800P-U 1000 40~45 150×2 M10 20~25 100×2 Grounding terminal 、S、T、P1、(+)、PB、(-)、 U、V、W Drive Mode NE300-4T2500G/2800P-D 1000 40~45 150×2 M10 20~25 100×2 NE300-4T2500G/2800P-F 1000 40~45 150×2...
  • Page 39 NE200/300 Series Drive User Manual Terminal symbol Terminal description Grounding terminal PE R, S Single-phase AC input terminals R, S, T Three-phase AC input terminals (+)、PB Terminals reserved for braking resistor U、V、W Three-phase AC output terminals 3.4.2 NE200-0022GB~0040GB  Fig.3-3 3 phase 400V main circuit wiring terminals...
  • Page 40 NE200/300 Series Drive User Manual (0015G/0022PB~0220G/0300PB) Terminal symbol Terminal description Grounding terminal PE R、S、T Three-phase AC input terminals DC bus - + terminals for common bus DC (-)、 (+) input (+)、PB Terminals reserved for braking resistor U、V、W Three-phase AC output terminals 3.4.4 NE300-4T0300G/0370P~NE300-4T1100G/1320P...
  • Page 41 NE200/300 Series Drive User Manual Fig.3-6 3 phase 400V main circuit wiring terminals (1320G/1600P-U~2500G/2800P-U) 3.4.6 NE300-4T1320G/1600P-D~NE300-4T2500G/2800P-D  Fig.3-7 3 phase 400V main circuit wiring terminals (1320G/1600P-D~2500G/2800P-D) 3.4.7 NE300-4T1600G/1850P-F~NE300-4T8000G/9000P-F  Fig.3-8 3 phase 400V main circuit wiring terminals (1600G/1850P-F~8000G/9000P-F) Chapter 3 Wiring of Drive...

  • Page 42: Attention For Main Circuit Wiring

    NE200/300 Series Drive User Manual Terminal Terminal description Grounding terminal PE R、S、T Three-phase AC input terminals DC bus - + terminals for common bus DC (-)、 (+) input Reserved for DC reactor connecting terminal; P1、(+) Short circuited with copper plate as factor...
  • Page 43 NE200/300 Series Drive User Manual forbidden to switch on/off the output contactor during the running of the drive; otherwise, there will be large current flowing into the drive, triggering the drive protection action. Length of cable between the drive and motor ...
  • Page 44 NE200/300 Series Drive User Manual Correct Wrong Fig.3-9 Grounding Wiring 3.5.4 Countermeasures against conduction and radiation interference Fig.3-10 Countermeasures for Conduction and Radiation Interference When the input noise filter is installed, the wire connecting the filter to the  drive power input terminal shall be as short as possible.
  • Page 45 NE200/300 Series Drive User Manual The equipment and signal cables vulnerable to interference shall be kept  far away from the drive. Key signal cables shall adopt shielding cable. It is suggested that the  shielding layer shall be grounded with 360-degree grounding method and sleeved into the metal tube.

  • Page 46: Control Terminal Wiring

    NE200/300 Series Drive User Manual 3.6 Control Terminal Wiring 3.6.1 Control Terminal Wiring of NE200 Fig.3-11 Control Terminal Wiring of NE200 Chapter 3 Wiring of Drive...
  • Page 47 NE200/300 Series Drive User Manual 3.6.2 Control Terminal Wiring of NE300 Fig 3-12 Control Terminal Wiring of NE300 Chapter 3 Wiring of Drive...

  • Page 48: Functions Of Control Circuit Terminals

    NE200/300 Series Drive User Manual 3.7 Functions of Control Circuit Terminals 3.7.1 NE200 Standard configuration of control circuit terminals Termina Type Terminal function Technical specification Optical-isolator input Multi-functional input X1~X5 Frequency range::0~200Hz terminals 1~5 Voltage range: 0~12V Optical-isolator output Digital...
  • Page 49 NE200/300 Series Drive User Manual Termina Type Terminal function Technical specification Analog grounding TA - TB : NC; TA - TC : NO Relay TA/TB/ Contact capacity : 250VAC/1A , Relay output 1 output 30VDC/1A 485+ 485 differential positive Rate: 1200/2400/4800/9600/19200/384 00bps;...
  • Page 50 NE200/300 Series Drive User Manual 3.7.1.1 NE200 Control Circuit Connection  External controller Dry contacts wiring mode is as below. (for X1-X5 multifunction input) User Controller Inside of Drive Fig.3-14 Control circuit wiring instruction  External controller PNP/NPN with common emitter wiring mode is as below.
  • Page 51 NE200/300 Series Drive User Manual Fig.3-16 Y1 wiring mode of external power supply  Analog input wiring mode Fig.3-17 Wiring mode of analog input terminal  Keypad Interface Table 3-3 T568B Standard Pin No. Color Pin No. Color Orange/White Brown...
  • Page 52 NE200/300 Series Drive User Manual Fig.3-18 T568B standard The cables connecting keypad and control board use standard RJ-45 Interface, namely both sides are connected according to EIA/TIA568B standard. Users can make the cable by themselves or purchase general internet cable from market as keypad cable.
  • Page 53 NE200/300 Series Drive User Manual Termina Type Terminal function Technical specification Output frequency: 0 ~ 50kHz Open collector or high Can be used as the normal open speed pulse output collector. Open collector output Internal isolated with GND common end Open circuit voltage up to 11V;...
  • Page 54 NE200/300 Series Drive User Manual Termina Type Terminal function Technical specification 1200/2400/4800/9600/19200/384 00bps; Max. parallel 127 No.s; SW3 485- 485 differential negative select adapted resistor; Max. Length 500m. (twisted shielding cable) 486 shielding grounding Internal isolated with COM Fig.3-19 Arrangement of Control Circuit Terminals 3.7.2.1 NE300 Control Circuit Connection...
  • Page 55 NE200/300 Series Drive User Manual  External controller PNP/NPN with common emitter wiring mode is as below. (for X1-X5 multifunction input) NPN Type PNP Type Inside of Drive Inside of Drive User Controller User Controller Fig.3-21 PNP/NPN common emitter wiring mode ...
  • Page 56 NE200/300 Series Drive User Manual Fig.3-23 External power supply wiring mode  Analog input wiring mode Fig.3-24 Wiring mode of analog input terminal  Keypad Interface Pin No. Color White/Orange Orange Green/White Blue Blue/ White Green Brown/White Brown Fig.3-25 T568B standard...

  • Page 57: Control Board Schematic Drawing

    Users can make the cable by themselves or purchase general internet cable from market as keypad cable. 3.8 Control board schematic drawing 3.8.1 NE200 Control board schematic drawing Fig.3-26 Control board schematic drawing 3.8.1.1 NE200 DIP switch setting instruction Fig.3-27 NE200 DIP switch setting...
  • Page 58 NE200/300 Series Drive User Manual 3.8.2 NE300 Control board schematic drawing Fig.3-28 Control board schematic drawing Note: X, Y and Z indicates the terminal, there are no the printing symbols. There are no printing symbols on 303PU01. X: Terminal for keypad Y: Terminal for writing the software.
  • Page 59 NE200/300 Series Drive User Manual Twisted pair 10V, AI1, AI2, AO1, GND 0.5 ~ 0.6 0.75 Shielded 485+, 485- cable 24V, X1, X2, X3, X4, X5, 0.5 ~ 0.6 COM, Y1, DO, COM, TA, 0.75 Shielded cable TB, TC 3.8.2.2 NE300 DIP switch setting instruction Fig.3-29 NE300 DIP switch setting...

  • Page 60: Chapter 4 Operation And Display

    NE200/300 Series Drive User Manual Chapter 4 Operation and Display 4.1 Keypad The keypad of NE200/300 series drives is the main unit of accepting command, displaying and modifying parameters. This series has 2 types of LED/LCD(Optional) keypads. LED keypad is with potentiometer and the LCD is MFK key without potentiometer.
  • Page 61 NE200/300 Series Drive User Manual 4.1.1 Keypad button description Table 4-1 Button description Keys Name Function Programming key Entry and exit of primary menu Enter the next level menu or confirm the data ENTER Confirmation key setting ∧ Increase key Increase of the value or function code ∨...

  • Page 62: Function Code Viewing And Modification

    4.2 Function code viewing and modification The keypad of the NE200/300 drive adopts three levels menu structure to carry out operations such as parameter setting. The three levels are: Groups of function code (level-1 menu)

  • Page 63: Display Status Of Keypad

    NE200/300 Series Drive User Manual without saving the parameter, and stay at current function code. Below is the example of modifying the function code F9.01 from 10.00Hz to 20.00Hz. (The number of bigger font size refers to the blinking digit), Fig.4-2 Example of 3 levels menu operating...

  • Page 64: Password Setting

    NE200/300 Series Drive User Manual 2) The running state parameter display The drive is running and the LED displays the running state parameters. You can press “>>” to display by turns the different running state parameters. (User can set which parameters are to be displayed at running state in FE group function codes.)

  • Page 65: Chapter 5 Parameters Brief

    “*” means the parameter is detected value or fixed value and not changeable. “-” means manufacturer parameter and the users have no access to it. ② “ ” indicates this parameter is only for NE200 ③ “ ”indicates this parameter is only for NE300 F0: Basic function group...
  • Page 66 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address control mode 2: Communication control 0: Digital reference (keypad, terminal up/down) 1: Al1 2: Al2 Frequency 3: PULSE setup F0.03 reference1 ○ 0103H (Freq. ref.1) 4: Communication...
  • Page 67 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address function 1: Keypad source select 2: Terminal 0: Be saved in power failure UP/DOWN 1: Be saved in power F0.09 data saving ○ 0109H failure selection 2: Be cleared to 0 after...
  • Page 68 NE200/300 Series Drive User Manual Group F1: Start and stop control Modbus Code Description Setting range Default Modify Address 0: Start directly ② Start mode ○ 0200H 1: DC injection brake first and then start at start freq. F1.00 0: Start directly ③...
  • Page 69 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address DC brake 0.00 ~ 10.00s F1.10 waiting time at 0.00s ○ 020AH stop ② DC brake 0.0~100% rated current 0.00% ○ 020BH current at stop Type G: 0.0~100.0% rated ③...
  • Page 70 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address speed tracking direction inspection time Group F2: Auxiliary running function Modbus Code Description Setting range Default Modify Address F2.00 Jog running freq. 0.0 ~ 50.00Hz 5.00Hz ○...
  • Page 71 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address dead-zone time 0: Run with frequency lower limit Freq. lower-limit F2.14 × 030EH treatment 1: Zero frequency operation F2.15 Reserved Reserved × ③ 0: Disable F2.16 Energy-saving ○...
  • Page 72 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address Enter for reverse; STOP for stop 3: Jog running F2.27 Freq. resolution 0: 0.01Hz 1: 0.1Hz × 031BH ② Acc./Dec. time ③ F2.28 0: 0.1s 1: 0.01s ×...
  • Page 73 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address Speed loop F3.00 1~3000 1000 ○ 0400H proportional gain 1 Speed loop integral F3.01 1~3000 ○ 0401H time 1 Switching 0.0 ~ 60.00Hz F3.02 5.00Hz ○ 0402H...
  • Page 74 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 4:Pulse 5:communication 6:keypad potentiometer Torque digital 0.0 ~ 200.0% F3.11 50.00% ○ 040BH setting 0: digital setting(F3.13) 1: AI1 2: AI2 Torque control 040CH F3.12 ○ PULSE...
  • Page 75 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address constant power output Reserve F3.23 Reserved Reserved Reserved Torque ref. terminal F3.24 0.0~10% 0.00% ○ 0418H single modulation Torque ref. terminal F3.25 0.0~100% ○ 0419H total modulation Torque limit in F3.26...
  • Page 76 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 1 : Flux weaken mode is valid Max flux weaken F3.37 0~100.0% ○ 0425H current Flux weaken regulation F3.38 0~3000 1500 ○ 0426H proportional coefficient Flux weaken regulation F3.39...
  • Page 77 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 0: Constant torque load 1: 2.0 power decreasing torque V/F curve F4.00 2: 1.5 power decreasing × 0500H setting torque 3: 1.2 power decreasing torque 4: Multiple dots V/F 0.0 ~...
  • Page 78 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 0: disabled 1: Digital setting (F4.12) separation 2: AI1 F4.11 control × 050BH 3: AI2 voltage 4: Pulse source 5: communication separation 0V ~ max output voltage F4.12...
  • Page 79 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address ② Depends 0.01 ~ 655.35A ③ F5.03 rated current ○ 0603H 0.1~999.9A model ② Depends 0 ~ 65535RPM ③ F5.04 rated speed ○ 0604H 0 ~ 24000 RPM model ②...
  • Page 80 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address ③ 0.1 ~ 6553.5mH(Drive Mutual Depends Inductive rated power≤22kW) ○ 0609H 0.01 ~ 655.35mH(Drive reactance model rated power>22kW) 0: No operation F5.10 Auto tune 1: Static tuning ×...
  • Page 81 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address Synchronous motor F5.14 0.0~6553.5v 300.0v ○ 060EH counter EMF constant Group F6: Input terminals Modbus Code Description Setting range Default Modify Address 0: Two-wire mode 1 Terminal 1: Two-wire mode 2 F6.00...
  • Page 82 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 17: Multi-step terminal selection ③ 18: Multi-step terminal terminal Function 19: Multi-step terminal selection ② F6.07 × 0707H 20: Multi-step terminal terminal function 21: torque control selection disable ②...
  • Page 83 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 35: PID pause 36: PID parameters switching 37: PID direction reversion; Active this terminal to reverse PID direction set by F8.04. 38: Timing drive input 39: Counter signal...
  • Page 84 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address F6.11 ~ 10.00V F6.13 AI1 Max. input 10.00V ○ 070DH AI1 Max. input -200.0 ~ 200.0% F6.14 corresponding 100.00% ○ 070EH setup AI1 input filter 0.01 ~ 50.00s F6.15...
  • Page 85 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address Delay F6.28 duration of X1 0.0~100.0s 0.0s ○ 071CH terminal close Delay F6.29 duration of X1 0.0~100.0s 0.0s ○ 071DH terminal open Delay F6.30 duration of X2 0.0~100.0s...
  • Page 86 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address Note: Terminal 24、 25、 26、 27、 42、43、44 and 49 are not impacted by this parameter. Units: Logic of X5 terminal Tens: Logic of X6 terminal Hundreds: Logic of X7 ③...
  • Page 87 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 8: Zero-speed Relay 1 9: PLC circulation F7.03 (TA/TB/TC) ○ 0803H completion output selection 10: Reserved 11: Ready for ② F7.04 Reserve running (RDY) Reserve Reserve 0804H...
  • Page 88 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address Freq. arrival 0.00 ~ 10.00Hz F7.05 (FAR) detection 2.50Hz ○ 0805H width Frequency 0.00 ~ 600.0Hz F7.06 detection value 5.00Hz ○ 0806H 1 (FDT1 level) Freq. detection 0.00 ~...
  • Page 89 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address ② 0: NULL AO function 1: Running freq. definition ③ F7.19 ○ 0813H (0~max frequency) AO1 output 2: Setting freq. selection (0~max frequency) ② 3: Output Reserve...
  • Page 90 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address ② Reserve Reserve Reserve 0817H Reserve ③ F7.23 0: 0 ~ 10V/0 ~ 20mA AO2 output ○ 0817H 1: 2 ~ 10V/4 ~ 20mA range selection ②...
  • Page 91 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address selection Ao1 4mA/2.00v F7.34 adjustable 0.0~100.0% ○ 0822H datum ② Reserve Reserve Reserve Reserve 0823H ③ F7.35 4mA/2.00v 0.0~100.0% ○ 0823H adjustable datum Units: Logic of Y1 terminal ②...
  • Page 92 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address selection 2: Pulse input 3: serial communication 4: AI1-AI2 5: AI1+AI2 6: MAX(AI1, AI2) 7: MIN(AI1, AI2) Analog PID 0.0 ~ 999.9 F8.02 ○ 0902H digital setup Analog closed 1.0 ~...
  • Page 93 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address Deviation 1 PID parameter 0.0 ~ 999.9 F8.13 switching ○ 090DH Deviation 2 PID delay time 0.0 ~ 100.0s F8.14 0.0s ○ 090EH constant 0.0 ~ 999.9 F8.15...
  • Page 94 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Addres 0.00 ~ Max frequency F9.00 Multi-step freq.1 5.00 Hz ○ 0A00H 0.00 ~ Max frequency F9.01 Multi-step freq.2 10.00 Hz ○ 0A01H 0.00 ~ Max frequency F9.02 Multi-step freq.3 15.00 Hz...
  • Page 95 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Addres duration (T6) PLC step7 0.1 ~ 3600 F9.17 ○ 0A11H duration (T7) Step T1 program 1 F/r ~ 4 F/r F9.18 ○ 0A12H running setting Step T2 program 1 F/r ~...
  • Page 96 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Addres 0.00 ~ Max frequency F9.34 Multi-step freq.15 50.00 Hz ○ 0A22H 0:Multi-step digital PLC Multi-step setting F9.35 ○ 0A23H Freq.1 selection 1: AI1 2: AI2 3: keypad 0A24H...
  • Page 97 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 0: Disabled 1: Common motor (with low speed Motor overload compensation) FC.00 × 0D00H protection mode 2: Variable frequency motor (without low speed compensation) Electro thermal 20 ~ 110% FC.01...
  • Page 98 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 120% 1 ~ 100% Input phase loss FC.08 (100% correspond × 0D08H detection to 800V) Input phase loss 2 ~ 255s FC.09 detection delay × 0D09H time Output phase loss FC.10...
  • Page 99 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address overvoltage 2: method 3 methods 0: Warning and Treatment select running still FC.19 while overvoltage ○ 0D13H 1: Fault cause forewarning stopping Reminding or not 0: Yes FC.20...
  • Page 100 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 0: Time interval between 2 packets Communication receiving. Fd.07 interrupt ○ 0E07H 1: Time interval of detection mode 0005H Add. data writing Feedback or not (Y or N) 0 :...
  • Page 101 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address control mode 2: Valid in Fault state of terminal/ communication control mode 3: Valid in both stop & fault state of terminal/ communication control mode 0: No display...
  • Page 102 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 0: No display 1: Display at stop Output torque FE.09 ○ 0F09H 2: Display at running 3: Display at stop & running 0: No display 1: Display at stop Reference FE.10...
  • Page 103 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 2: Display at running 3: Display at stop & running 0: No display 1: Display at stop Analog PID FE.17 ○ 0F11H 2: Display at running setup 3: Display at stop &...
  • Page 104 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 0: NULL 1: Uu1 bus undervoltage 2: OC1 Acc. overcurrent 3: OC2 Dec. overcurrent 4: OC3 Constant speed overcurrent 5: Ou1 Acc. overvoltage 6: Ou2 Dec. overvoltage...
  • Page 105 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 21: IDE Hall current detection fault 22: ECE PG fault 23: LC fast current limit fault 24: EF2 terminal close fault 25: PIDE: PID feedback offline 26: OLP2 Forewarning...
  • Page 106 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address FF.10 Reserved Reserved Reserved 100AH Software version FF.11 1.00~10.00 100BH number of control board Non-standard version FF.12 0~255 100CH number of software ② Heat sink -30.0 ~ 120.0°C 0.0°C...
  • Page 107 NE200/300 Series Drive User Manual Modbus Code Description Setting range Default Modify Address 2: All parameters aren’t allowed read 0: No operation Parameter FP.02 1: Clear fault history × initialization 2: Restore to defaults 0: No action 1: Parameters download...

  • Page 108: Chapter 6 Parameter Description

    ② F0.00 Reserved ③ 0~1【0】 Drive type display This parameter of NE200 is reserved, show the type of drive of NE300. 0: Type G (Heavy duty) 1: Type P (Normal duty) Range: 0~2 【0】 F0.01 Control mode 0: No vector Sensor vector control-1 This mode offers excellent vector control performance while insensitive to motor parameters.
  • Page 109 NE200/300 Series Drive User Manual Range: 0~2 【0】 F0.02 Run command control mode 0: Operation keypad control (“LOCAL/REMOT” indicator OFF) Running commands are controlled by RUN and STOP keys on operation keypad. 1: Terminal control (“LOCAL/REMOT” indicator ON) Running commands are controlled by the multifunctional input terminals such as FWD, REV, JOGF, JOGR, etc.
  • Page 110 NE200/300 Series Drive User Manual ② ③ selected by the SW1/ SW2 DIP switch on the control board. 3: PULSE setup ② The reference frequency is given by the terminal pulse. Pulse signal reference specification: voltage 9V ~12V and frequency range 0Hz ~200Hz.
  • Page 111 NE200/300 Series Drive User Manual options. If the terminal has selected multi-speed and active, the Freq. ref. 1 is determined by multi-speed no matter what value has F0.03 setup.  In option of Freq. ref. 1+ the Freq. ref. 2, the UP/DOWN digital setting of Freq.
  • Page 112 NE200/300 Series Drive User Manual source switching” setting is invalid or the terminal has no setting of “Freq. source switching”, the frequency reference is determined by frequency ref.-1. 4: Terminal switching between (Freq. ref.1+ Freq. ref.2) & Freq. ref.1 When the “Freq. source switching” terminal is invalid, the frequency reference is determined by Freq.
  • Page 113 NE200/300 Series Drive User Manual F0.09 UP/DOWN data saving selection Range: 0~2【0】 0: Setting data saved in power failure This option means the frequency upon power recovery is the frequency after Up/Down setting before power failure. 1: Setting not saved in power failure This option means that the frequency upon power recovery is the preset Up/Down frequency value in F0.06.
  • Page 114 NE200/300 Series Drive User Manual The frequency upper limit (F ) and frequency lower limit (F ) are the maximum and minimum operating frequency of the motor set according to the production process technique requirements. The maximum output voltage Vmax is the output voltage when the drive is in basic operating frequency.
  • Page 115 NE200/300 Series Drive User Manual Type P: 18.5~30kW Type G: 30~45kW 1.0~10.0kHz 4.0kHz Type P: 37~55kW Type G: 55~75kW 1.0~6.0kHz 3.0kHz Type P: 75~90kW Type G: ≥90kW 1.0~3.0kHz 2.0kHz Type P: ≥110kW Table 6-2 the temperature influences of carrier frequency Carrier frequency Low →...
  • Page 116 NE200/300 Series Drive User Manual F0.17 Keypad direction Range: 0~1【0】 This parameter is used to select the motor rotation direction when the drive running command channel is keypad. 0: Forward rotation 1: Reverse rotation F0.18 Motor wiring direction Range: 0~1【0】...

  • Page 117: Start And Stop Group (F1)

    NE200/300 Series Drive User Manual Fig.6-2 Schematic diagram for acceleration/deceleration time Note: The default value of acceleration and deceleration time: 7.5kW and below: 6.0 seconds 11kW~22kW: 20.0 seconds 30kW~110kW: 60.0 seconds 132kW and above: 90.0 seconds 6.2 Start and stop group (F1) Range: 0~1【0】...
  • Page 118 NE200/300 Series Drive User Manual likely to occur. ③ 2: Speed tracking and start The inverter detects the motor rotation speed firstly and then starts from the detected speed and Acc./Dec. to preset frequency. This realizes the smooth starting without impact.
  • Page 119 0: Linear The output frequency increases or decreases linearly. The speed changes according to preset acceleration/ deceleration time. NE200/300 series has 4 types of Acc./Dec. time which can be selected via multifunctional input terminals. 1: S-curve The output frequency increases or decreases along the S curve. S curve is generally used in the applications where smooth start and stop is required such as elevator and conveyor belt.
  • Page 120 NE200/300 Series Drive User Manual Rising stage of S-curve is shown in Fig.6-4 as “②”, where the changing rate of output frequency is constant; Ending stage of S-curve is shown in Fig.6-4 as “③”, where the changing rate of output frequency decreases to zero.
  • Page 121 NE200/300 Series Drive User Manual F1.09 DC brake trigger frequency Range: 0.00~max frequency 【0.00Hz】 at stop F1.10 DC brake waiting time at Range: 0.00~10.00s【0.00s】 stop F1.11 DC brake current at stop Range:0.0~100.0%Drive rated current【0.0%】 Range: 【0.0%】 F1.11 DC brake current at stop (Rated current) G Type: 0.0~100.0%...
  • Page 122 NE200/300 Series Drive User Manual For large rotary inertia applications where rapid stop is required, the drive can be equipped with matched braking unit and braking resistors and proper braking parameters setting to realize fast braking and stop. Note: For NE300, is only valid for 22kW and above.

  • Page 123: Auxiliary Running Function Group (F2)

    NE200/300 Series Drive User Manual This parameter defines the waiting time before restart and over-voltage reset delay time. 0~1【0】 ③ F1.18 Rotational speed tracking direction inspection 【50ms】 10~1000ms ③ F1.19 Rotational speed tracking direction inspection time F1.18 and F1.19 only for NE300.
  • Page 124 NE200/300 Series Drive User Manual takes to accelerate form 0Hz to Max. output frequency F0.11; the jog deceleration time refers to the time the drive takes to decelerate from Max. output frequency F0.11 to 0Hz. Note: When the jog Acc./Dec. time is set to 0, the drive jog deceleration mode is “coast to stop”.
  • Page 125 NE300 drives can set two skip frequency points, and the skip frequency amplitude can overlap or nesting. If overlapped, the range broadens. When all, skip-freq. points value, are set to 0.00 Hz, the jump function will be disabled. Only one, skip frequency1, point for NE200. Fig.6-5 Skip Frequency F2.12 Anti-reverse control Range: 0~1【0】...
  • Page 126 NE200/300 Series Drive User Manual Fig.6-6 FWD/REV switching F2.14 Freq. lower-limit treatment Range: 0~1【0】 This parameter is used to select the running status of the drive when the setup frequency is lower than the frequency lower limit. 0: Run with frequency lower limit 1: Zero frequency operation F2.15 Reserved...
  • Page 127 NE200/300 Series Drive User Manual 1: Enabled 2: Disabled only at speed-down AVR means automatic output voltage regulation. When the input voltage deviates from rated value, AVR function can maintain constant voltage output. Normally AVR function is recommended to be active. At process of “deceleration to stop”...
  • Page 128 NE200/300 Series Drive User Manual 1: Always Running The fan always runs when the drive is power on. F2.21Instant-power-failure Range:0~2【0】 treatment 0: Disabled ② 1: Drop frequency (Reserved) ③ 1: Drop frequency 2: Stop directly When the bus voltage is lower than the instant power failure frequency drop point, the drive stops according to stop mode (F1.08).
  • Page 129 NE200/300 Series Drive User Manual frequency 0: Enabled 1: Disable F2.26 ENTER key function Range:0~3【0】 0: No special action 1: Fwd/Rev switching: When the keypad control the start and stop, press ENTER key under monitoring status will switch the rotation direction.
  • Page 130 NE200/300 Series Drive User Manual F2.29=1, the carrier frequency will be modulated according to present running frequency. F2.31 IO output Freq. baseline Range:0~1【0】 select while vector control 0: Baseline is the frequency after Acc./Dec. speed. 1: Baseline is the real output frequency.

  • Page 131: Vector Control Parameters (F3)

    NE200/300 Series Drive User Manual not be stopped instantly while the CCI current is Ib. Note: fa is defined as ‘Threshold value of Zero Freq. running’ (F2.33), fb-fa is defined as ‘Range between start Freq. and threshold value of Zero Freq’ (F2.34).
  • Page 132 NE200/300 Series Drive User Manual F3.04 Speed loop integral time 2 Range: 1~3000【200】 F3.05 Switching frequency 2 Range: 0.0~60.00Hz【10.00Hz】 F3.00 and F3.01 are PI adjustment parameters when the running frequency is lower than switching frequency 1 (F3.02). F3.03 and F3.04 are PI adjustment parameters when the running frequency is higher than switching frequency 2.
  • Page 133 NE200/300 Series Drive User Manual coefficient F3.08 Current loop integral Range: 0~6000【1500】 coefficient These function codes define the current loop PID parameters; they influence directly the control precision and speed dynamic response and needs no adjustment generally. F3.09 VC Slip compensation Range: 0.0~200.0%【100.0%】...
  • Page 134 NE200/300 Series Drive User Manual 1~5: Torque control is active When the drive is in torque control, the drive output the torque according to the torque command which is defined in this parameter. And the output frequency will automatically matche to the load speed. But the output frequency is limited F3.12.
  • Page 135 NE200/300 Series Drive User Manual Setting the pulse quantity per circle of Encoder. Note: The operation status of motor will be abnormal if the pulse quantity of encoder set is not correct while controlled by the vector sensor. Please exchange the wiring of the A,B phases or adjust the value of F3.16 if the operation status of motor is abnormal still while the pulse quantity set is right.
  • Page 136 NE200/300 Series Drive User Manual F3.20 SVC mode2 flux weaken Range: 20~500% 【100%】 coefficient F3.21 Field-weakening function Range: 0~1【0】 0: Disabled 1: Enabled F3.22 Torque limit compensation coefficient while constant power Range: 60.0~300.0%【200%】 output This parameter is used to compensate the torque limit in constant power zone.
  • Page 137 NE200/300 Series Drive User Manual F3.27 Torque boost cut-off Range: 0.00~15.00Hz【12.00Hz】 frequency in torque control mode F3.28 Torque boost amount in Range: 0.0~20.0%【15.0%】 torque control mode This parameter is valid when vector torque control mode (F3.10 ≠0). It is used to boost the given torque volume at low speed, i.e. the final given torque value is calculated on given torque value, F3.27, and F3.28.
  • Page 138 NE200/300 Series Drive User Manual F3.35 Synchronous motor braking Range:0.0~300.0%【150.0%】 torque limit This parameter is to set the synchronous motor braking torque limitation. If the motor gets over-voltage fault during running, try to reduce this parameter setting value. F3.36 Synchronous motor flux Range:0~1【0】...

  • Page 139: V/F Control Parameters (F4)

    When the operating frequency is lower than F3.43, the converter runs constant current VF, and the current value is subject to F3.40. When the running frequency is higher than F3.43, the converter runs vector. This parameter is only available for NE200, but not for NE300 F3.44 Synchronous motor position Range:2~100【40】...
  • Page 140 NE200/300 Series Drive User Manual Fig.6-8 Torque-reducing curve Fig.6-9 Multi-points V/F curve F4.01 V/F freq. F1 Range: 0.0~F4.03【10.00Hz】 F4.02 V/F voltage V1 Range: 0~100.0%【20.0%】 F4.03 V/F freq. F2 Range: F4.01~F4.05【25.00Hz】 F4.04 V/F voltage V2 Range: 0~100.0%【50.0%】 F4.05 V/F freq. F3 Range: F4.03~F0.10【40.00Hz】...
  • Page 141 NE200/300 Series Drive User Manual characteristics of the motor. F4.07 Torque boost Range: 0.0~30.0%【0.0%】 F4.08 Manual torque boost cutoff Range: 0.00~60.00Hz【50.00Hz】 point To compensate the low frequency torque characteristics of V/F control, it can boost the output voltage when the drive is running at low frequency.
  • Page 142 NE200/300 Series Drive User Manual F4.09 Slip compensation coefficient Range: 0.0~200.0%【0.0%】 F4.10 Slip compensation filtering Range: 0.01~2.55s【0.20s】 time Setting the parameters can compensate the motor rotation slip due to change of load torque in the V/F control. With this compensation, the drive regulates the output frequency according to the change of load torque and thus increases the motor mechanical performance.
  • Page 143 NE200/300 Series Drive User Manual source 0: Disabled V/F separation control is disabled. The drive adopts common V/F control. 1~4: The output voltage and frequency are controlled separately. The drive outputs frequency according to the frequency setup and runs according to Acc./Dec time. But the voltage is regulated independently by the voltage reference source defined in this parameter and Acc./Dec...

  • Page 144: Motor Parameters Group (F5)

    NE200/300 Series Drive User Manual setting value of 100~300 will take suppression effect. 6.6 Motor parameters group (F5) F5.00 Motor type Range: 0~2【0】 F5.01 Motor polarity Range: 2~56【4】 number 【Depends on model】Range: F5.02 Rated power ② 0.1~6553.5kW ③ 0.4~999.9kW 【Depends on model】Range: F5.03 Rated current...
  • Page 145 NE200/300 Series Drive User Manual 【Depends on model】Range: ② F5.05 No-load current I0 0.01~655.35A ③ 0.1~999.9A 【Depends on model】Range: F5.06 Stator resistance ② 1~65535 mΩ ③ 1~65535 mΩ (Drive rated power ≤22kW) ③ 0.1~6553.5mΩ(Drive rated power>22kW) 【Depends on model】Range: F5.07 Leakage Inductive ②...
  • Page 146 NE200/300 Series Drive User Manual the sum of leakage inductance of stator and leakage inductance of rotor. After motor rated power (F5.02) is changed, the drive will automatically change F5.03~F5.09 to adapt to the rated motor power. F5.10 Auto tune Range: 0~2【0】...

  • Page 147: Input Terminals Group (F6)

    NE200/300 Series Drive User Manual ③ 0.001~65.535mH(for drive>22kW) F5.14 Synchronous motor counter Range:0.1~6553.5V【300.0V】 EMF constant Synchronous motor stator resistance is defined as half of the resistance of any two lines among U V W. Synchronous motor counter EMF constant is defined as voltage of any two lines among UVW when the motor is driven to rated frequency (F0.10).
  • Page 148 NE200/300 Series Drive User Manual enabled, the drive will run reverse. When F/R is not selected, the running direction is defined by function code (F0.17) Terminals wiring is show in Fig.6-14. Fig.6-14 Two-wire mode 2 2: Three-wire mode 1 In this mode, FWD and REV terminal control the forward and reverse direction of the motor;...
  • Page 149 NE200/300 Series Drive User Manual Fig.6-16 Three-wire mode 2 F6.01 X1 terminal function selection Range: 0~60【1】 F6.02 X2 terminal function selection Range: 0~60【2】 F6.03 X3 terminal function selection Range: 0~60【8】 F6.04 X4 terminal function selection Range: 0~60【17】 F6.05 X5 terminal function selection Range: 0~60【18】...
  • Page 150 NE200/300 Series Drive User Manual Value Function Description This is to define invalidity of the terminal. The drive shall have no action even there is pulse NULL input. The undefined terminals can be set into NULL to avoid mistaken action.
  • Page 151 NE200/300 Series Drive User Manual Value Function Description frequency reference, this terminal can be used to clear the frequency value modified by UP/DOWN and thus restore the reference frequency to the setup value of F0.06. The drive locks the output, and the motor stop process is beyond the drive control.
  • Page 152 NE200/300 Series Drive User Manual Value Function Description External fault normally open After the external fault signal is sent to the drive, the drive reports fault and stops. External fault normally closed When Run command (F0.02) is 0 or 2, this...
  • Page 153 NE200/300 Series Drive User Manual Value Function Description F6.00 terminal command modes setup. Torque increase When the torque reference is given by discrete signal, this function realizes the Torque increase clear torque increasing, decreasing, and increment clearing. Refer to F3.24 and F3.25 for torque Torque decrease increment and adjustment range.
  • Page 154 NE200/300 Series Drive User Manual Multi-step freq.8 F9.27 Multi-step freq.9 F9.28 Multi-step freq.10 F9.29 Multi-step freq.11 F9.30 Multi-step freq.12 F9.31 Multi-step freq.13 F9.32 Multi-step freq.14 F9.33 Multi-step freq.15 F9.34 Table 6-5 Acc/Dec time selection table Terminal 2 Terminal 1 Acc/Dec time selection...
  • Page 155 NE200/300 Series Drive User Manual 2: AI2 All the parameters from F6.11 to F6.25 are nonlinear setting points for the AI2 channel, as shown in Fig.6-17. The AI2 filter time F6.20 is taken. And AI1 setting points F6.16~6.20 are taken as 0.00~10.00V input and its corresponding 0.00~100.00%.setup value.
  • Page 156 NE200/300 Series Drive User Manual corresponding setup F6.13 AI1 Max. input Range:F6.11~10.00V【10.00V】 F6.14 AI1 Max. Input Range: -200%~ 200.0%【100.0%】 corresponding setup F6.15 AI1 input filter time Range: 0.01~50.00s【0.05s】 F6.16 AI2 Min. input Range: 0.00~F6.18【0.00V】 F6.17 AI2 Min. Input Range: -200%~ 200.0%【0.0%】...
  • Page 157 NE200/300 Series Drive User Manual Fig.6-18 Analog input linear curve Chapter 6 Parameter description...
  • Page 158 0: Maximum frequency 1: Frequency reference 1 Note: For NE200, select the frequency at 10V point as datum while this function code is the analog. For NE300, select the frequency datum while this function code is the analog and pulse.

  • Page 159: Output Terminals Group (F7)

    NE200/300 Series Drive User Manual Range: 【0000】 Units: Logic of X1 terminal Tens: Logic of X2 terminal F6.32 Pos. and Neg. logic terminal X 1 Hundreds: Logic of X3 terminal Thousands: Logic of X4 terminal Range: 【0000】 Units: Logic of X5 terminal F6.33...
  • Page 160 NE200/300 Series Drive User Manual ③ F7.02 Y2 terminal output Range:0~31【0】 selection F7.03 Relay 1 (TA/TB/TC) output Range: 0~31【16】 selection Range: ② F7.04 Reserved ③ F7.04 Relay 2 (BRA/BRB/BRC) Range:0~31【0】 output selection Multifunctional output terminal function selection details are shown in Table 6-6.
  • Page 161 NE200/300 Series Drive User Manual Value Function Description ② Reserved Reserved ③ Indicate the running step It indicates the present running step. Refer to (Co-setting in table 6-7 for details. DO\Y1\Y2) When the main circuit and control circuit is Ready for running...
  • Page 162 NE200/300 Series Drive User Manual Value Function Description signal. Frequency lower limit When the running frequency reaches frequency arrival lower limit, terminal outputs ON signal. Multi-pumps system Auxiliary pump control signal for constant auxiliary pump pressure water supply, refer to the parameter control signal F7.28&F7.29 instruction for details.
  • Page 163 NE200/300 Series Drive User Manual Fig.6-20 FAR detection diagram F7.06 Frequency detection value 1 Range: 0.00~600.0Hz【5.00Hz】 (FDT1 level) F7.07 Frequency detection lag Range: 0.00~10.0Hz【1.00Hz】 1(FDT1-lag) F7.08 Frequency detection value 2 Range:0.00~300.0Hz ② ③ 【 5Hz/ 25.00Hz】 (FDT2 level) F7.09 Frequency detection lag Range: 0.00~10.0Hz【1.00Hz】...
  • Page 164 NE200/300 Series Drive User Manual Fig.6-21 FDT level and lag diagram F7.10 Up detection frequency Range: 0.00~550.0Hz【50.00Hz】 F7.11 Down detection frequency Range: 0.00~550.0Hz【0.00Hz】 These two parameters define the detection trigger frequency value for increasing stage and decreasing stage respectively. F7.12 Torque detection reference Range: 0.0~200.0%【100.0%】...
  • Page 165 F7.21 DO output selection Range: 0~16【0】 For NE200, AO analog output is 0-10V or 0-20mA, customer can exchange between them by switch on board. See fig. 6-8. For NE300, AO1 can output either 0~10V or 0/4~20mA, which can be selected by the jumper on the control board.These output selection details...
  • Page 166 NE200/300 Series Drive User Manual Pulse input 0.1~50.0KHz Communication See Communication setup appendix Reserved Output current 0~2 time rated current ② F7.22 AO output range Range: 0~1【0】 selection ③ F7.22 AO1 output range Range: 0~1【0】 selection ② F7.23 Reserved ③...
  • Page 167 NE200/300 Series Drive User Manual The above parameters define output pulse frequency range. F7.28 Auxiliary pump start lag time Range: 0~9999【0s】 F7.29 Auxiliary pump stop lag time Range: 0~9999【0s】 The above parameters define the delay time for auxiliary pump start and stop.

  • Page 168: Pid Parameters (F8)

    NE200/300 Series Drive User Manual clearance to the counting. F7.33 Running time arrival stop Range: 0~1【0】 selection 0: Do not stop 1: Stop When the internal counter value ≥F7.32, the drive can be set to stop or not by this parameter.
  • Page 169 NE200/300 Series Drive User Manual 2: AI2 terminal Taken as 0 ~ 10V analog voltage or 0 ~ 20mA current input, which can be selected by DIP switch setting. 3: Pulse input 4: Serial communication The input value should in 0~100.00% (0~10000). 100.00% corresponds to the full scale of PID.
  • Page 170 NE200/300 Series Drive User Manual physical quantities (100%) the PID feedback quantity is the 100% full range. 6: MAX (AI1, AI2) Take the larger one between AI1 and AI2 as the PID feedback. 7: MIN (AI1, AI2) Take the smaller one between AI1 and AI2 as the PID feedback.
  • Page 171 Only the right differential time can reduce regulation time.  Note: NE200/300 drive has two sets of PID parameters, determined by F8.11. The first group PID parameters are taken as default. Chapter 6 Parameter description...
  • Page 172 NE200/300 Series Drive User Manual F8.11 PID parameters switching Range: 0~2【0】 0: No switching, use the first group parameters 1: Switching by terminal,to defined the multi-function terminals to switch two groups of PID parameters. 2: Auto-switching by deviation,Refer to the F8.12, F8.13 instructions.
  • Page 173 NE200/300 Series Drive User Manual this function can reach a balance between system output accuracy and stability. ② F8.16 PID output positive limit Range: 0.00~320.0Hz【50.00Hz】 ③ F8.16 PID output positive limit Range: 0.00~600.0Hz【50.00Hz】 F8.17 PID output negative limit Range: 0.00~600.0Hz【0.00Hz】...
  • Page 174 NE200/300 Series Drive User Manual Fig. 6-24 PID preset frequency and holding time  Note: If you do not need the preset frequency function, set the preset frequency =0. F8.20 Enable dormancy Range: 0~1【0】 0: Disabled 1: Enabled F8.21 Dormancy delay Range: 0~999s【120s】...

  • Page 175: Plc And Multi-Steps Group (F9)

    NE200/300 Series Drive User Manual F8.25 PID feedback offline Range: 0.0~50.0s【2.0s】 detection time F8.26 PID feedback offline Range: 0.00~50.00Hz【10.00Hz】 detection Min. Frequency When the running frequency is higher than F2.26 and feedback signal is lower than F8.24 for a period of time defined by F8.25, the drive will give alarm (PID offline).
  • Page 176 NE200/300 Series Drive User Manual 2: Continuous operation The drive will start next cycle of operation automatically after completing one cycle of PLC operation until receiving STOP command. F9.08 PLC restarting mode after Range: 0~1【0】 interrupt 0: Restart from first step...
  • Page 177 NE200/300 Series Drive User Manual F9.12 PLC step2 duration (T2) Range: 0.0~3600【20.0】 F9.13 PLC step3 duration (T3) Range: 0.0~3600【20.0】 F9.14 PLC step4 duration (T4) Range: 0.0~3600【20.0】 F9.15 PLC step5 duration (T5) Range: 0.0~3600【20.0】 F9.16 PLC step6 duration (T6) Range: 0.0~3600【20.0】...
  • Page 178 NE200/300 Series Drive User Manual Combination Acc/Dec time Direction r:Reverse Fig.6-25 Simple PLC running Note: In Fig.6-25, f1~f7, a1~a7, d1~d7 and T1~T7 respectively correspond to step frequency, Acc Time, Dec Time and running time. ② F9.25 Current step running Range: 0.0~3600【0】...
  • Page 179 NE200/300 Series Drive User Manual 【50.00Hz】 0.00 ~ Max F9.28 Multi-step freq. 9 Range: frequency 【50.00Hz】 0.00 ~ Max F9.29 Multi-step freq. 10 Range: frequency 【50.00Hz】 0.00 ~ Max F9.30 Multi-step freq. 11 Range: frequency 【50.00Hz】 0.00 ~ Max F9.31 Multi-step freq. 12...

  • Page 180: Wobble Frequency Running Group (Fa)

    NE200/300 Series Drive User Manual 4: Pulse input 6.11 Wobble frequency running group (FA) The wobble frequency running function is to make the drive output frequency wobbling up and down with the setup frequency as the center. The trace of running frequency at the time axis is shown in Figure 6-26, of which the swing amplitude is set by FA-00.When FA-00 is set to 0, indicating...

  • Page 181: Fixed-Length Control Group (Fb)

    NE200/300 Series Drive User Manual FA.02 Jitter Time Range: 5~50ms【5ms】 FA.03 Wobble freq. rising time Range: 0.1~999.9s【5.0s】 FA.04 Wobble freq. dropping time Range: 0.1~999.9s【5.0s】 Wobble frequency amplitude: The running amplitude around setup frequency. Wobble frequency rising time: The time takes from the peak base (lowest frequency in the swing) to the peak height (highest frequency in the swing).

  • Page 182: Protection And Fault Parameters Group (Fc)

    NE200/300 Series Drive User Manual needs to set the corresponding input terminal to length count input terminal. And input terminal X4 or X5 is usually used when the pulse frequency is relatively high. Actual length = counted terminal input pulse number ÷ number of pulse per unit.
  • Page 183 NE200/300 Series Drive User Manual Time Motor overload protective 100% coefficient 1 min Output current 100% 200% Fig 6-27 Motor overload protection curve Motor overload protection coefficient calculates: Motor overload protection coefficient = (the max allowed current of load ÷ rated output current of drive) × 100% Generally, the Max load current is the motor rated current.
  • Page 184 NE200/300 Series Drive User Manual speed status. 0: Invalid 1: Acc./Dec. valid; Constant speed invalid 2: Valid all the time Range: FC.05 Current amplitude limit level Type G: 80.0~200.0%【160.0%】 Type P: 60.0~150.0%【120.0%】 This parameter is used to define the current limiting level.
  • Page 185 NE200/300 Series Drive User Manual serious imbalance in the three-phase input, in order to protect drive. If the input phase loss detection is too sensitive, you can appropriately increase the detection level (FC.08) and detection delay time (FC.09) and vice versa.

  • Page 186: Communication Parameters Group (Fd)

    NE200/300 Series Drive User Manual Note:Only OC, OU has auto reset function. FC.14 Under-voltage fault treatment Range:0~2【0】 0: No treatment 1: Auto reset after power recovery (reset the UU fault only, do not run after fault reset.) 2: Auto run after power recovery (Auto run time interval is F1.16) FC.15 Fast current limit...
  • Page 187 NE200/300 Series Drive User Manual 0: RS485 Disabled 1: RS485 Enabled Fd.01 Local address Range:1~247【1】 Define the drive’s communicating address. The address set to 0 is for the broadcast address to realize the PC broadcasting; when the drive address is 247, it will serve as the host on the network to broadcast to other slave machines to achieve synchronization function.
  • Page 188 NE200/300 Series Drive User Manual Choose the way of parity check. The master and the slave must keep the same parity check setting. Otherwise, they cannot communicate normally. 0: Even parity check 1: Odd parity check 2: No parity check Fd.04 Communication Timeout time...

  • Page 189: Operation Interface & Display Group (Fe)

    NE200/300 Series Drive User Manual 6.15 Operation interface & display group (FE) FE.00 Parameter display Range: 0~1【0】 0: Normal 3-levels menu display 1: Only display modified parameters Note: In normal status, menu show as 3 levels. The parameters without modification will be not shown while only showing the parameters modified, the customer can be easy to look at them.
  • Page 190 NE200/300 Series Drive User Manual This parameter is used to define the STOP key functions, including stop and fault reset. 0: Active only in the keypad control mode 1: STOP key stop function active in the terminal/communication control mode 2: STOP key fault reset function active in the terminal/ communication...

  • Page 191: Running History Record Group (Ff)

    NE200/300 Series Drive User Manual FE.22 External counting value (no unit) Range: 0~3【0】 These parameters define the display in stop and running monitoring condition. 0: No display 1: Display only in stop process 2: Display only during running 3: Display in stop and running ...
  • Page 192 NE200/300 Series Drive User Manual upper limit【0.00Hz】 FF.02 Reference frequency at latest Setting range: 0~Frequency fault upper limit【0.00Hz】 Setting range: 0~2* drive rated FF.03 Output current at latest fault current【0.0A】 FF.04 Bus voltage frequency at Setting range: 0~1000V【0V】 latest fault FF.05 Running status at latest fault...

  • Page 193: Protection Parameters (Fp)

    NE200/300 Series Drive User Manual Record the real time temperature of the heat sink/IGBT. ② FF.14 Flux current Range: -200.0~200.0°C ③ FF.15 Torque current Range: -200.0~200.0°C FF.17 Accumulated kilowatt-hours Range: -200.0~200.0°C (Upper 16 bits) FF.18 Accumulated kilowatt-hours Range: -200.0~200.0°C (Low 16 bits) 6.17 Protection Parameters (FP)
  • Page 194 NE200/300 Series Drive User Manual FP.02 Parameter initialization Range: 0~2【0】 0: No operation 1: Clear fault history When FP.02 is set to 1, the fault records of FF.00~FF.07 will be cleared. 2: Restore to default setting When FP.02 is set to 2, the parameters (except running history and user password) are restored to defaults.
  • Page 195 NE200/300 Series Drive User Manual FP.05 G/P model selection Range: 0~1【0】 0: Type G 1: Type P FP.07 User parameters backup Range: 0~1【0】 0: Invalid 1: Valid With this function, the operator can make backup for the parameters after setup.

  • Page 196: Chapter 7 Fault Information And Trouble Shooting

    Chapter 7 Fault information and trouble shooting 7.1 Fault information and solutions. Once a fault is detected, the NE200/300 series of frequency converter would immediately block PWM output and enter the fault protection state; meanwhile TRIP on the keypad would spark and the digital control area display the fault code.
  • Page 197 NE200/300 Series Drive User Manual Trip Trip Type Possible causes Solutions code 1. Abnormal load 1. Check the load mutation 2. Power grid low 2. Check the input power Over voltage source. current at 3. Drive power rating 3. Choose higher capacity...
  • Page 198 NE200/300 Series Drive User Manual Trip Trip Type Possible causes Solutions code 1. Ambient 1. Lower the ambient temperature too high temperature. Heat-sink 2. Fan is damaged 2. Change the fan over heat 3. Fan air duct is 3. Clear the air duct.
  • Page 199 NE200/300 Series Drive User Manual Trip Trip Type Possible causes Solutions code External 1. Faults comes from 1. Check the external input terminal external control fault circuit 1. Input RST have 1. Check input voltage Input phase phase loss or...
  • Page 200 NE200/300 Series Drive User Manual Trip Trip Type Possible causes Solutions code parameters in the drive. IDE Hall 1. The current 1. Ask for service from current sensoring or hall supplier detection device get damaged. fault 1. Encoder signal 1. Check whether the...

  • Page 201: Warning Information

    3. Increase pre-alarm detection time(FC.03) 7.2 Warning information Once warning information is detected, the NE200/300 series of frequency converter would immediately enter the warning indicating state and giving out warning codes on LED display. During warning the drive keeps running and returns to previous normal status once the warning is gone.
  • Page 202 NE200/300 Series Drive User Manual make simple analysis according to the instructions as below. Abnormity Possible causes Countermeasure 1. Drive power supply 1. Check the input power absent supply 2. The keypad or the 2. Change connecting Keypad LED connecting cable between...

  • Page 203: Chapter 8 Routine Repair And Maintenance

    NE200/300 Series Drive User Manual Chapter 8 Routine Repair and Maintenance The application environment (such as temperature, humidity, dust and powder, wool, smoke and oscillation), burning and wearing of internal devices and other factors may increase the possibilities of drive failure. To reduce the failures and prolong the service life of the drive, it needs to conduct routine repair and periodic maintenance.
  • Page 204 NE200/300 Series Drive User Manual Inspection Inspection Item Inspection Criteria contents method water drop water drops. 3.5mm , 2 ~ 9Hz ; Special test 10m/s2 , 9 ~ 200Hz; Vibration instrument 15m/s2 , 200 ~ 500Hz Special test 3.5mm, 2~ 9Hz; 10m/s2,9~ instrument, smell 200Hz;...

  • Page 205: Periodic Maintenance

    NE200/300 Series Drive User Manual 8.2 Periodic Maintenance It needs to perform periodic inspection on the drive once every three to six months according to the application environment and work conditions. Inspection Inspection Item Inspection criteria content method Main circuit...

  • Page 206: Warranty

    NE200/300 Series Drive User Manual Vulnerable Damage Solutions Items for Routine Inspection parts Causes The fan blade has no cracks and Bearing wear, Change rotates normally. The screws are blade aging tightened. There are no electrolyte leakage, Ambient color change, crack and shell...

  • Page 207: Appendix A Ne300 Closed-Loop Control

    NE200/300 Series Drive User Manual Appendix A NE300 Closed-loop Control Attention: “○”means the parameter can be changed during running. “×”means the parameter cannot be changed during running; “*” means the parameter is detected value or fixed value and not changeable.
  • Page 208 NE200/300 Series Drive User Manual F3 Vector Control 0:none 1:ABZ incremental encoder F3.46 Encoder Type 2: UVW incremental encoder 042EH (Reserved) 3:Resolver Encoder Resolver F3.47 2~80 042FH polarity number 0:10bit Resolver 1:12 bit F3.48 0430H decoding resolution 2:14 bit 3:16 bit 0:10 bit...
  • Page 209 NE200/300 Series Drive User Manual Current Electrical F3.60 0.0~359.9° 0.0° 043CH angle of motor Status F3.61 043DH encoder(Reserved) Running direction of 0:Same direction F3.62 043EH encoder and motor 1:Not be same direction F3.63 Count of Z signal 0~0xFFFF 043FH Count of ABZ encoder F3.64...
  • Page 210 NE200/300 Series Drive User Manual Delay duration of X2 F6.31 0.0~100.0s 0.0s 071FH terminal open Pos. and Neg. logic of Xi terminal: Pos. logic : Be valid while connecting Xi and COM. Neg. logic:Be valid Pos. and Neg. logic while disconnecting Xi and F6.32...
  • Page 211 NE200/300 Series Drive User Manual Fb.07 Gain of location loop 0.001~10.00 1.000 0C07H FC Protection and Fault 0:Yes 1:No Note: Reminding or not while FC.20 Include digital output, 0D14H undervoltage reading the communication fault code. 0 means that it is same with before.

  • Page 212: Fault Code Of Encoder

    NE200/300 Series Drive User Manual ID2 data transmitting 2:Output current Fd.22 0E16H 3:Output power 4:Bus voltage ID2 data transmitting Fd.23 0E17H 5:Output voltage 6:Torque 7:Rotary speed 8:AI1 9:AI2 10:Input pulse ID2 data transmitting 11:Input the Xi terminal Fd.24 0E18H status 12:Fault code...

  • Page 213: Appendix B: Modbus Communication Protocol

    NE200/300 Series Drive User Manual Appendix B: Modbus Communication Protocol The drive support Modbus protocol, RTU format, Broadcast address 0, slave address “1-247”. Interface mode: RS485: Asynchronous, half duplex. ③ Note: means only for NE300. 1. Protocol Format The initial space of frame is 3.5...
  • Page 214 NE200/300 Series Drive User Manual Register address Lo Number of registers Hi Number of registers Lo CRC Hi CRC Lo The Slave Response Slave address Function code Byte Count Data Hi Data Lo CRC Hi CRC Lo Function Code 06H: Write parameters and status words of one parameters of the drive.
  • Page 215 NE200/300 Series Drive User Manual Data Lo CRC Hi CRC Lo Function Code 10H: Write parameters and status words of one parameters of the drive. Example: Write parameter (F0.19 register address: 0113H) to the slave 1, the format is as follows:...
  • Page 216 NE200/300 Series Drive User Manual communication between master and slave. The format is as follows: The Master Request Slave address Function code Register address Hi Register address Lo Data Hi Data Lo CRC Hi CRC Lo The Slave Response Slave address...
  • Page 217 NE200/300 Series Drive User Manual Examples for abnormal codes: Error Code Definition Illegal function code: is not 03H,06H,10H,08H Register address error Register number error Data error: beyond data limit Error when data is written: The register is not written when the drive is running, or writing data to the only read-out register address.
  • Page 218 NE200/300 Series Drive User Manual Function Register Data definition and instruction description Address Reserved 0000H Reserved Reserved 0001H: Forward rotation 0002H: Reverse rotation Communicatio n Run 0001H 0003H: Stop Command 0004H: Coast to stop 0005H: Fault reset Range(-10000 ~ 10000) Note: Communication Setting is percentage.
  • Page 219 NE200/300 Series Drive User Manual Function Register Data definition and instruction description Address 10: OH1 Radiator over heat 11: OL1 Motor overload 12: OL2 Drive overload 13: EF0 communication fault 14: EF1 external terminal fault 15: SP1 Input phase failure or...
  • Page 220 X5 terminal status 0: Invalid 0039H parameters Valid X6 terminal status 0: Invalid 003AH Valid X7 terminal status 0: Invalid 003BH Valid X8 terminal status 0: Invalid 003CH Valid 003DH Reserved 3) NE200 Terminals status (0030H) definition. Appendix A Modbus Communication Protocol...
  • Page 221 NE200/300 Series Drive User Manual 4) NE300 Terminals status (0030H) definition. 4. CRC16 calculation method unsigned int CRC16 ( unsigned char *data , unsigned char length ) int i , crc_result=0xffff ; while ( length-- ) crc_result^=*data++ ; for ( i=0 ; i<8 ; i++ )...
  • Page 222 NE200/300 Series Drive User Manual return ( crc_result= ( ( crc_result&0xff ) <<8 ) | ( crc_result>>8 Appendix A Modbus Communication Protocol...

  • Page 223: Appendix C: Adapted Encoder Instruction

    NE200/300 Series Drive User Manual Appendix C: Adapted encoder instruction Fig B-1 Fig B-1 is the wiring method of the collector of encoder. The encoder power supply may be the 24V of drive while the encoder Vcc is 24V, may use the 5~24V power supply while using the external encoder.

  • Page 224: Appendix D Ne300 Advanced Control Pcba(Option

    NE200/300 Series Drive User Manual The above instruction is for standard inbuilt PG card, the highest pulse frequency NE300 series can take is 50kHz. If higher requirement closed-loop control is needed, please order extra professional PG card and its matched control board for NE300 series.

  • Page 225: Wiring Of Control Circuit

    NE200/300 Series Drive User Manual X: Terminal for keypad Y: Terminal for writing the software (2 pins) Z: DIP switches CN3: Terminal for option 1 CN4: Terminal for option 3 CN5: Terminal for drive PCBA CN6:Terminal for option 2 CN8:Terminal for option 4...
  • Page 226 NE200/300 Series Drive User Manual Fig. D-2 Drain connection wiring diagram (Using external +24V)  Drain connection wiring (Using internal +24V) Note: Short-connect PLC and +24V Appendix B: Adapted Encoder Instruction...

  • Page 227: Can Non-Standard Protocol Instruction

    NE200/300 Series Drive User Manual Fig. D-3 Drain connection wiring diagram (Using internal +24V)  NPN common-emitter connection wiring (Using internal +24V) Note: Short-connect PLC and +24V Fig. D-4 NPN common-emitter connection wiring (Using internal +24V) non-standard protocol instruction CAN ID1 transmitting and receiving data format is constant as Table D-1.
  • Page 228 NE200/300 Series Drive User Manual Table D-1 CAN ID1 Transmitting and Receiving Format Bit0:Running signal 1:Running 0:Stopped Bit1:Direction signal 1:REV 0:FWD Byte0 Bit2:Fault signal 1:Fault 0:Normal Bit3~Bit7:Reserved Byte1 Freq. Signal:Range:~20000~20000 Max. Freq. : 20000/Min. minus Freq. : -20000 Byte2 Note: Byte1 high 8 byte,Byte2 low 8 byte Byte3 Real feedback rotary speed:...

  • Page 229: Appendix C: Ne300 Option Cards Instruction

    NE200/300 Series Drive User Manual Appendix E: NE300 Option cards instruction Function brief of option cards Model Option card Terminals Function Models Range Multi-function input terminal 6 (to PLC) Multi-functions input terminal NE30-I/O 7 (to PLC) Lite Multi-functions input terminal...
  • Page 230 NE200/300 Series Drive User Manual Option card Model No. Terminals Function Models Range R1,R2 Base time signal S1,S3 SIN+ and SIN- input signal COS+ and COS- input S2,S4 signal Ref. GND of the Resolver PG B602PG03A differential signal, can encoder...

  • Page 231: Mounting Instruction Of Option Card (Pcba)

    Mounting instruction of option card (PCBA) Option Name Terminal on control Option card diagram PCBA Injection molding option ±10V extension option...
  • Page 232 Option Name Terminal on control Option card diagram PCBA Speed tracking option Resolver PG CN4+CN8 encoder option 5V differential signal PG CN4+CN8 encoder option...
  • Page 233 differential CN4+CN8 signal PG encoder option...

  • Page 234: Resolver Pg Encoder Option Instruction

    Resolver PG encoder option instruction Resolver PG encoder option is an adapter between drive and Resolver PG encoder, can be for the closed-loop control application of synchronous and induction motor. Caution: Encoder’s work voltage is 7V Specification Terminal instruction: Terminal Response Max.
  • Page 235 Terminal correspondence Table: Resolver option Resolver PG Resolver option Resolver PG terminal encoder terminal encoder terminal terminal EXC+ SIN- EXC- COS+ SIN+ COS- Note: Toggle-switch on the option is at “ON’ location See Fig. C-1 while the output signal of terminal AO+ 、 AO- 、 BO+ 、 BO- 、 ZO+ 、 ZO- is the differential signal which can drive the 5V differential encoder.

  • Page 236: Differential Signal Pg Encoder Option

    5V differential signal PG encoder option 5V differential signal encoder is the adapter between drive and the differential encoder, can be for the closed-loop control application of synchronous and induction motor. For the closed-loop control application of synchronous motor, in the meantime, the UVW encoder with the magnetic polarity detection can be used while the magnetic polarity quantity is same with the synchronous motor’s magnetic polarity quantity.
  • Page 237 Fig. C-4 Push-pull encoder wiring diagram(5V) Fig.C-2 Differential signal output encoder wiring diagram(5V)
  • Page 238 Fig. C-3 Open collector output encoder wiring diagram(5V)
  • Page 239 Fig. C-4 Push-pull encoder wiring diagram(5V)

  • Page 240: Differential Signal Pg Encoder Option

    24V differential signal PG encoder option 24V differential signal PG encoder option is the adapter between drive and the differential encoder, can be for the closed-loop control application of synchronous and induction motor. Caution: Encoder’s work voltage is 24V Specification: Terminal instruction: Terminal Response...
  • Page 241 Fig. C-5 Differential signal output encoder wiring diagram(24V)...
  • Page 242 Fig. C-6 Open collector output encoder wiring diagram(24V)...
  • Page 243 Fig. C-7 Push-pull encoder wiring diagram(24V)...
  • Page 244 Hazardous substance limit table for electrical and electronic products Hazardous substances Polybromin Polybromin Hexavalent ated Part Name Lead Mercur Cadmium ated Chromium diphenyl (Pb) y (Hg) (Cd) biphenyls (Cr +6) ethers (PBB) (PBDE) Electronics assembly Housing assembly Keypad Battery This table is in accordance with the provision of SJ/T11364 O: Indicates that said hazardous substance in all of the homogeneous materials for this part is below the limit requirement of GB/T 26572...

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