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Shihlin electric SE3 Series User Manual

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Shihlin Electric General Inverters

SE3 Series

User Manual

High Functioning & High Performance

SE3-021-0.4K～2.2K SE3-023-0.4K～15K

SE3-043-0.4K～22K

Inverter Introduction

Basic Operation

Parameter Description

Inspection And Maintenance

1

2

3

4

5

6

APPENDIX

7

Table of Contents

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Page 1 Shihlin Electric General Inverters SE3 Series User Manual High Functioning & High Performance SE3-021-0.4K～2.2K SE3-023-0.4K～15K SE3-043-0.4K～22K MANUAL GUIDE DELIVERY CHECK INVERTER INTRODUCTION BASIC OPERATION PARAMETER DESCRIPTION INSPECTION AND MAINTENANCE APPENDIX...
Page 3 1. MANUAL GUIDE 1.1 Safety instructions Thank you for choosing Shihlin inverters SE3 series. This user manual introduces how to use the product correctly. Please read the user manual carefully before using the product. In addition, please use the product after understanding the safety instructions.
Page 4 Contents 1.2 Contents User Manual ..................................- 1 - 1. MANUAL GUIDE ................................1 1.1 Safety instructions ..............................1 1.2 Contents ..................................2 1.3 Definitions of terminologies ........................... 14 2. DELIVERY CHECK ................................15 2.1 Nameplate instruction ............................15 2.2 Type instruction ..............................15 2.3 Order code description ............................
Page 5 Contents 3.4.2 Protection level and operation temperature .................... 25 3.5 Installation and wiring ............................26 3.5.1 Transportation ............................. 26 3.5.2 Stockpile ............................... 26 3.5.3 Installation notice ............................26 3.5.4 EMC installation instructions ........................28 3.5.5 Removing front cover ..........................29 3.6 Peripheral devices ..............................
Page 6 Contents 4.2 Operation modes of inverter ..........................48 4.2.1 Flow chart for switching operation mode ....................49 4.2.2 Flow chart for switching working mode with PU302 keypad ..............49 4.2.3 Operation flow charts for monitoring mode with PU302 keypad ............49 4.2.4 Operation flow charts for frequency setting mode with PU302 ............
Page 7 Contents 5.1.2 Parameter restoration..........................62 5.1.3 Parameter protection ..........................64 5.1.4 Monitoring function ............................. 68 5.1.5 Speed display .............................. 69 5.1.6 PWM carrier frequency ..........................69 5.1.7 Stop operation selection ..........................70 5.1.8 Forward/reverse rotate prevent function ....................71 5.1.9 Operation mode selection .......................... 71 5.1.10 Control mode selection ..........................
Page 8 Contents 5.2.9 Frequency jump............................87 5.2.10 Second function ............................88 5.2.11 Middle frequency, output voltage of middle frequency F ..............88 5.2.12 S pattern time ............................89 5.3 Analog input and output parameter group 02 ....................91 5.3.1 Analog input terminals and M2 terminal function selection ..............96 5.3.2 Analog output terminals AM function selection ..................
Page 9 Contents 5.4.5 Digital input signal filter ..........................125 5.4.6 Digital input terminal enable when power on ..................125 5.4.7 Output frequency detection ........................126 5.4.8 Zero current detection ..........................127 5.4.9 Expanded digital input terminals function selection ................127 5.4.10 Expanded digital input terminal logic selection .................. 128 5.4.11 Expanded digital output terminal function selection ................
Page 10 Contents 5.7.8 Input phase loss protection ........................157 5.7.9 Output short circuit protection function ....................157 5.7.10 PTC protection selection ........................157 5.7.11 Maintenance alarm function ........................158 5.7.12 Short circuit to ground protection ......................158 5.7.13 Output phase loss protection ........................ 159 5.7.14 Low voltage protection ...........................
Page 11 Contents 5.9.2 PID parameter group 1 ..........................189 5.9.3 PID parameter group 2 ..........................194 5.9.4 PID filter setting ............................195 5.9.5 PID deviation control limit ........................195 5.9.6 PID integral property ..........................195 5.9.7 PID differential limit ........................... 196 5.9.8 PID output deviation limit .........................
Page 12 Contents 5.11.2 Zero-speed/zero-servo control......................212 5.11.3 DC injection brake before start ......................213 5.11.4 Restart mode selection .......................... 214 5.11.5 Remote setting function selection ......................216 5.11.6 Auto reset function ..........................218 5.11.7 Forward and reverse rotation dead time ..................... 219 5.11.8 Energy-saving function V/F ........................
Page 13 Contents 5.12.8 PM motor speed estimation observer parameters ................240 5.12.9 PM Motor current loop controller parameters ..................241 5.12.10 Velocity loop output low-pass filter time constant ................241 5.13 Position control parameter 12 .......................... 242 5.13.1 Homing mode ............................244 5.13.2 Position control parameter ........................
Page 14 Contents 5.16.1 User registered parameter ........................269 6. INSPECTION AND MAINTENANCE ........................... 271 6.1 Inspection item ..............................271 6.1.1 Daily inspection item ..........................271 6.1.2 Periodical inspection items ........................271 6.1.3 Diodes and IGBT check ........................... 272 6.1.4 Cleaning ..............................272 6.1.5 Replacement parts ............................
Page 15 Contents 7.5.1 Communication card ..........................355 7.5.2 I/O card ............................... 359 7.5.3 PG card ..............................361 7.5.4 Keypad................................ 364 7.5.5 Data transmission line ..........................365 7.5.6 BKU Brake unit ............................366 7.5.7 Expansion card mounting base ......................367 7.6 Appendix 6 European Specification Compatibility Description..............368 7.7 Appendix 7 WEEE LOGO ...........................
Page 16 Definitions of terminologies 1.3 Definitions of terminologies  Output frequency, target frequency, steady output frequency The actual output current frequency of inverter is called “output frequency.”  The frequency set by user (via keypad, multi-speed terminals, voltage signal, and current signal or ...
Page 17 2.7A/3.0A 0-599Hz Serial NO. S/N : Degree of protection IP20 O/N : SE31502010 Suzhou Shihlin Electric & Engineering Co.,Ltd MFG NO. 2.2 Type instruction SE3-043-0.75K - None ： General model - XY ： Customer motor or dedicated motor or region difference ..
Page 18 Electric specification 3. INVERTER INTRODUCTION 3.1 Electric specification 3.1.1 440V series three-phase frame 18.5K Model SE3-043-【】-xy 0.4K 0.75K 1.5K 2.2K 3.7 K 5.5 K 7.5 K 11 K Rated output capacity (kVA) Rated output current Applicable motor capacity (HP) Applicable motor 18.5 0.75 capacity (kW)
Page 19 General specification 3.1.2 220V series one-phase Frame Model SE3-021-【】- xy 0.4K 0.75K 1.5K 2.2K Rated output capacity (kVA) Rated output current Applicable motor capacity (HP) Applicable motor 0.75 capacity (kW) Overload current 150% 60 seconds, 200% 3 seconds (inverse-time characteristics) rating Carrier frequency 1~15KHz...
Page 20 Electric specification 3.1.3 220V series three-phase Frame Model SE3-023-【】-xy 0.4K 0.75K 1.5K 2.2K 3.7 K 5.5 K 7.5K Rated output capacity 12.5 18.3 24.7 (kVA) Rated output current (A) 17.5 Applicable motor capacity (HP) Applicable motor 0.75 capacity (kW) Overload current rating 150% 60 seconds, 200% 3 seconds (inverse-time characteristics) Carrier frequency (kHz) 1~15kHz...
Page 21 General specification 3.2 General specification SVPWM control, V/F control, close-loop V/F control (VF+PG), general flux vector control, Control method sensorless vector control (SVC), close-loop vector control (FOC+PG), torque control (TQC+PG). Output frequency range 0~599.00Hz Digital setting The resolution is 0.01Hz. 0.01Hz/60Hz(terminal 2: -10～+10V／13bit) Frequency 0.15Hz/60Hz(terminal 2: 0～±10V／12bit)
Page 22 General specification Storage -20 ~ +65℃. temperature Surrounding Indoor, no corrosive gas, no flammable gas, no flammable powder. environment Altitude below 2000 meters, when altitude is above 1,000 m, derate the rated current 2% per Altitude 100 m Vibration Vibration below 5.9m/s (0.6G).
Page 23 Appearance and dimensions 3.3 Appearance and dimensions 3.3.1 Frame A Unit: mm Model SE3-043-0.4~1.5K SE3-023-0.4~1.5K 74.0 62.0 167.0 155.0 144.0 SE3-021-0.4~0.75K INVERTER INTRODUCTION 21...
Page 24 Appearance and dimensions 3.3.2 Frame B SERIES Unit: mm Model SE3-043-2.2~3.7K SE3-023-2.2~3.7K 105.0 93.0 178.0 166.0 146.0 SE3-021-1.5~2.2K INVERTER INTRODUCTION 22...
Page 25 Appearance and dimensions 3.3.3 Frame C SERIES Unit: mm Model SE3-043-5.5~11K 141.0 123.6 270.0 252.6 185.0 SE3-023-5.5~7.5K INVERTER INTRODUCTION 23...
Page 26 Appearance and dimensions 3.3.4 Frame D SERIES Unit: mm Model SE3-043-15~22K 175.0 156.4 300.0 281.4 191.8 SE3-023-11~15K INVERTER INTRODUCTION 24...
Page 27 Name of each component 3.4 Name of each component 3.4.1 Frame A/B/C/D Fan cover Mounting holes Nameplate label Parameter unit Connector of the parameter unit POWER light ALARM light Shell hook Expansion card connector Control-circuit terminal block Top cover Main-circuit terminal block Main-circuit terminal block...
Page 28 Filter 3.5 Installation and wiring 3.5.1 Transportation Hold the body when carrying and don’t only hold the cover or any part of the inverter, otherwise it may drop down. 3.5.2 Stockpile The product must be placed in the packaging box before installation. In order to make the product conform to the scope of warranty of the company and facilitate maintenance in the future, please pay attention to the following matters when storing if the inverter will not be used temporarily: 1.
Page 29 Reactor (a) Vertical installation (b) Horizontal installation (c) Transverse installation  Please follow the installation restrictions shown below to ensure enough ventilation space for inverter cooling and wiring space: Arrangement of single or paralleling inverter:  Unit: mm Size Frame A~B FrameC~D Ventilation direction Arrangement of multiple inverters:...
Page 30 Filter 3.5.4 EMC installation instructions Just as other electrical and electronic equipments, an inverter is the source of electromagnetic interference and an electromagnetic receiver when working with a power system. The amount of electromagnetic interference and noise is determined by the working principles of an inverter. In order to guarantee the inverter working reliably in the electromagnetic environment, it must have a certain ability of anti-electromagnetic interference in design.
Page 31 Reactor 3.5.5 Removing front cover  Frame A/B * 1. Frame A: SE3-043-0.4 ~ 1.5K, SE3-023-0.4 ~ 1.5K, SE3-021-0.4 ~ 0.75K * 2. Frame B: SE3-043-2.2 ~ 3.7K, SE3-023-2.2 ~ 3.7K, SE3-021-1.5 ~ 2.2K (a) Loosen the screws on the wiring front cover. (b) While holding the areas around the installation hooks on the sides of the wiring front cover, pull out the wiring front cover using its upper side as a support.
Page 32 Filter 3.6 Peripheral devices 3.6.1 System Wire Arrangement Please follow the specific Power power supply requirement supply shown in this manual. FUSE/ NFB There may be an inrush current during power up. Fuse/NFB Please refer to 3.7.1 and Magnetic contactor select the correct fuse /NFB.
Page 33 Reactor 3.6.2 No-fuse breaker and magnetic contactor Applicable no-fuse switch Applicable electromagnetic Inverter model Motor capacity Power source capacity (NFB/MCCB) type contactor (MC) type (Shihlin Electric) (Shihlin Electric) SE3-043-0.4K 440V 0.5HP 1 kVA BM30SN3P3A S-P11 SE3-043-0.75K 440V 1HP 2.5 kVA...
Page 34 Filter 370W 162.2Ω 550W 109.1Ω 750W 80Ω 10.4 1100W 54.6Ω 13.0 1500W 40Ω 16.2 18.5 1850W 32.4Ω 27.2 19.1 2200W 27.3Ω Note: 1.The resistance of brake resistors for built in braking unit is based on 10% regenerative brake duty (when used for 5 seconds, the machine has to be stopped for another 45 seconds for heat dissipation).
Page 35 Reactor AC output reactor  Recommended reactor Inverter model Shihlin Type Rated current (A) Inductance(mH) SH-OCL-0005-02800 SE3-043-0.4K SH-OCL-0005-02800 SE3-043-0.75K SH-OCL-0005-02800 SE3-043-1.5K SE3-043-2.2K SH-OCL-0005-02800 SE3-043-3.7K SH-OCL-0007-01900 SE3-043-5.5K SH-OCL-0010-01400 SE3-043-7.5K SH-OCL-0015-00930 0.93 SE3-043-11K SH-OCL-0020-00700 0.70 SE3-043-15K SH-OCL-0030-00460 0.46 SE3-043-18.5K SH-OCL-0040-00350 0.35 SE3-043-22K SH-OCL-0050-00280 0.28 SE3-023-0.4K...
Page 36 Filter 3.6.5 Filter Inverter model Rated Amps of reactor Types of filter SE3-043-0.4K 0.75 NF311A5/01 SE3-043-0.75K 0.75 NF311A5/01 SE3-043-1.5K NF311A10/01 SE3-043-2.2K NF311A10/01 SE3-043-3.7K NF311A20/05 SE3-043-5.5K NF311A20/05 SE3-043-7.5K NF311A30/05 SE3-043-11K NF311A50/05 SE3-043-15K NF311A50/05 SE3-043-18.5K 18.5 NF311A50/05 SE3-043-22K NF311A80/05 SE3-023-0.4K 0.75 NF311A10/01 SE3-023-0.75K 0.75 NF311A10/01...
Page 37 Arrangement of control terminal 3.7 Terminal wire arrangement SIN K SO URC E SW 1 0-10V 4~20m A SW 3 0-10V 0-20m A SW 2 Note: 1: All series includes built-in braking units, please connect braking resistor between + / P, PR. 2: All series inclides built-in RFI filters to suppress electromagnetic interference, but if you need to comply with CE regulations, please refer to the relevant instructions in the manual for installation.
Page 38 (+/P)-(-/N) Connect to brake unit or input DC voltage(AB frame without N terminal) Note: 1. For SE3 series inverters, brake resistor is not included. For information related to braking resistor, please refer to Section 3.6.3 and 3.7.1. 2. For information related to regenerative voltage, please refer to 06-05 and 06-06 in Section 5.7.3.
Page 39 Arrangement of control terminal Frame D  SE3-043-15~22K、SE3-023-11~15K  DC reactor connection remove DC reactor  Brake unit connection Brake Break uint resistance Note: BKU brake unit and brake resistance are optional for frame C and D. See details in 7.5.6. Refer to section 3.3 for a description of the framework.
Page 40 Arrangement of control terminal 3.7.2 Main circuit wiring and terminal specification Recommended wiring specification Recommended wiring specification Terminal Tightening (mm2) (AWG) Inverter model screw torque +/P, Grounding Grounding specifications (Kgf.cm) R,S,T U,V,W R,S,T U,V,W Cable Cable SE3-021-0.4k SE3-021-0.75k SE3-023-0.4k SE3-023-0.75k SE3-023-1.5k SE3-043-0.4K SE3-043-0.75K...
Page 41 Best Poor 3.7.4 RFI filter SE3 series inverters are equipped with built-in RFI filters. These filters are effective in reducing electromagnetic interference, but to meet CE standard, please refer to section 3.5.4 for installation and wiring.  Frame A/B A：...
Page 42 Arrangement of control terminal  Frame C/D *1. Frame C：SE3-043-5.5~11K、SE3-023-5.5~7.5K  *2. Frame D：SE3-043-15~22K、SE3-023-11~15K  Frame C/D RFI filter ON: screw is fastened (default status) RFI filter OFF: screw is loosened Note: 1. When the main power supply is switched on, DO NOT switch the status of the RFI filter. Confirm that the main power supply has been switched off before switching status of the RFI filter.
Page 43 Maximum current: 200mA terminal COM terminal for 10、2、4、AM Control logic (SINK/SOURCE) change  The multi-function digital input terminals on SE3 series inverter can be switched between sink and source by the toggle switch SW1. The diagram is as follows: SINK 0-10V 0-10V...
Page 44 Arrangement of control terminal Inverter Inverter Inverter Sink Input: the multi-function control Sink Input: the multi-function control terminal Sink Input: the multi-function control terminal is connected terminal is shorted directly with SD is connected directly with open-collector PLC with open-collector PLC and external power supply If "Source Input”...
Page 45 Arrangement of control terminal (2) Crimp the blade terminal. Insert wires to a blade terminal, and check that the wires come out for about 0 to 0.5 mm from a sleeve. Check the condition of the blade terminal after crimping. Do not use a blade terminal of which the crimping is inappropriate, or the face is damaged.
Page 46 Arrangement of control terminal Note: 1. Screwdriver, use small slotted screwdriver (the tip thickness: 0.4mm/tip width: 2.5mm). 2. If the screwdriver tip width is too narrow, it may cause terminal damage. 3. Please alignment terminals by pressing down with the slotted screwdriver, head sliding may cause damage or injury accident inverter.
Page 47 Replacement procedure of fan 3.8 Replacement procedure of fan 3.8.1 Frame A/B Frame A： SE3-043-0.4~1.5K、SE3-023-0.4~1.5K、SE3-021-0.4~0.75K Frame B : SE3-043-2.2~3.7K、SE3-023-2.2~3.7K、SE3-021-1.5~2.2K 1. Press the hooks on both side of the fan to remove the 2. Disconnect the power connector, and then remove the fan.
Page 48 Component name of keypad (PU302) 4. BASIC OPERATION 4.1 Component name of keypad (PU302) (a ) (b ) (d ) (e ) (g ) (h ) Operation parts Name Content PU: On when in PU operation mode, flickers in H1~H5 Operation mode indicator operation mode.
Page 49 Component name of keypad (PU302) Note: The HELP mode menu enter by pressing MODE button is shown as the table below: Menu Name Press SET button to enter into next function description 0: Off Parameter copy 1: Copy the inverter parameter values into the keypad. 0: Off 1: Paste the copied parameter values in keypad into the inverter (Please first set the Parameter paste...
Page 50 Operation modes of inverter 4.2 Operation modes of inverter Operation modes are related to signal source for the target frequency and signal source for motor starting. In  Shihlin SE3 inverter there are ten kinds of operation modes, “PU mode ”, “JOG mode ”, “external mode ”, ”communication mode...
Page 51 Operation modes of inverter When 00-16(P.79)＝0, the external mode ( ) is the default mode after inverter is turned on. Use 00-16(P.79)  to switch the operation mode. 4.2.1 Flow chart for switching operation mode O P N D light up STOP RESET MODE...
Page 52 Operation modes of inverter 4.2.4 Operation flow charts for frequency setting mode with PU302 glitter 0 01 light up light up light up light up light up light up Note: 1. Use to change the frequency when the inverter is running. 2.
Page 53 Basic operation steps for different modes 4.3 Basic operation steps for different modes 4.3.1 Basic operation steps for PU mode (00-16(P.79)＝0 or 1) Step Description • Switch operation mode to PU mode, and indicator in will light up. Note: 1. When 00-16(P.79) =0, the inverter will first be in external mode after power on or reset. 2.
Page 54 Basic operation steps for different modes 4.3.3 Basic operation steps for JOG mode (00-16(P.79)＝0 or 1) Step Description •Switch operation mode to JOG mode and indicator in will light up, the display shows Note: 1. For detailed operating procedures for the monitor mode, please refer to section 4.2. •...
Page 55 Basic operation steps for different modes 4.3.6 Basic operation steps for combined mode 2 (00-16(P.79)＝5) Step Description • In Combined Mode 2, indicating lamp will light up. Note: For selecting and switching the operation mode, please refer to Section 4.2. •...
Page 56 Basic operation steps for different modes 4.3.8 Basic operation steps for combined mode 4(00-16(P.79)＝7) Step Description • In Combined Mode 4, indicator in will flash. Note: 1. For detailed operation procedures for monitor mode, please refer to Section 4.2. •Target frequency of the inverter is determined by the external terminals “external voltage signal”, “external current signal”, or “combination of multi-speed stage levels”.
Page 57 Operation 4.4 Operation 4.4.1 Check and preparation before running Before running, the following shall be checked: 1. Check if the wiring is correct. Inverter output terminals (U/T1, V/T2, W/T3) cannot be connected to the power. Confirm that grounding terminal ( ) is well grounded.
Page 58 Operation 4.4.3 Test run Check cables and abnormalities before the test run. After power on, the inverter is in external mode.  1. After power on, no alarm on PU302 keypad, make sure power indicator and is on. 2. Connect a switch between STF and SD or STR and SD. 3.
Page 59 System parameter group00 5. PARAMETER DESCRIPTION 5.1 System parameter group 00 Parameter Group Name Setting Range Default Page Number 00-00 P.90 Inverter model Read only Read only 00-01 P.188 Firmware version Read only Read only 0: Off 1: Clear alarm history (P.996=1) 2: Reset inverter (P.997=1) 3: Restore all parameters to default (P.998=1) 4: Restore some parameters to default 1...
Page 60 System parameter group00 Parameter Group Name Setting Range Default Page Number 5: Running frequency (Hz) 6: Electronic thermal accumulation rate (%) 7: Signal value (V) of 2-5 input terminals. 8: Signal value (mA) of 4-5 input terminals (mA/V). 9: Output power (kW). 10: PG card feedback rotation speed.
Page 61 System parameter group00 Parameter Group Name Setting Range Default Page Number 0: Press STOP button and inverter stop running in PU and H2 mode 00-14 P.75 Stop function selection 1: Press STOP button and inverter stop running in all mode. 0: Forward/reverse rotation are both permitted.
Page 62 System parameter group00 Parameter Group Name Setting Range Default Page Number 0: Induction motor V/F control 1: Induction motor close-loop V/F control (VF+PG) 2: Induction motor simple vector control Second motor control 3: Induction motor sensorless vector control 00-22 P.370 99999 mode selection 4: Induction motor PG vector control...
Page 63 System parameter group00 5.1.1 Inverter information For checking inverter model, control board firmware version, and the connected expansion card, etc.  Parameter Name Default Setting Range Content 00-00 Read Inverter model Read only P.90 only 00-01 Read Firmware version Read only Inverter control board firmware version P.188 only...
Page 64 System parameter group00 5.1.2 Parameter restoration Set parameters back to default.  Parameter Name Default Setting Range Content Clear alarm history (P.996=1) Reset inverter (P.997=1) 00-02(P.99 Parameter restoration Restore all parameters to default (P.998=1) 6~P.999) Restore some parameters to default 1 (P.999=1) Restore some parameters to default 2 (P.999=2) Restore some parameters to default 3 (P.999=3) Parameter restoration...
Page 65 System parameter group00 Group Name Group Name 06-71 P.767 E2 alarm output current 06-77 P.773 E2 alarm (years/months) 06-72 P.768 E2 alarm output voltage 06-78 P.774 E2 alarm (days/hours) E2 alarm the temperature rising 06-79 P.775 E2 alarm (minutes/seconds) 06-73 P.769 accumulation rate 09-13...
Page 66 System parameter group00 and the parameters in table 1 above will not be restored to default values. After parameters are restored, 00-02 is reset to 0. (P.996~P.999) 6: User registered parameter 15-00~15-19 and the parameters set in 15-00(P.900)~15-19(P.919) and the ...
Page 67 System parameter group00 Group Name Group Name 04-23 P.135 Programmed operation mode speed 5 The percentage corresponding to HDI input 02-42 P.523 maximum frequency 04-24 P.136 Programmed operation mode speed 6 02-44 P.543 FM output function selection 04-25 P.137 Programmed operation mode speed 7 02-45 P.64 AM output signal selection...
Page 68 System parameter group00 Group Name Group Name 00-26 P.125 Expansion card type 06-56 P.752 E1 alarm output frequency 06-57 P.753 E1 alarm output current 03-59 P.585 Monitor inverter digital input terminal state 06-58 P.754 E1 alarm output voltage Monitor inverter and expanded digital E1 alarm the temperature rising 03-60 P.586...
Page 69 System parameter group00 Group Name Group Name 06-61 P.757 E1 alarm the time of inverter has run Monitor inverter and expanded digital 03-60 P.586 output terminal state 06-62 P.758 E1 alarm inverter operation status code 03-61 Monitor expanded digital input terminal 06-63 P.759 E1 alarm(years/months)
Page 70 System parameter group00 5.1.4 Monitoring function The item to be displayed on the parameter unit can be selected.  Parameter Name Default Setting Range Content X0: When inverter starts, keypad enters monitor mode automatically, screen displays output frequency. (Note 1) When inverter starts, screen displays steady state frequency.
Page 71 System parameter group00 Keypad monitoring selection Display Display the target pressure percentage and feedback pressure percentage of the current constant pressure  system (00-06= "X2"). The screen shows two sections. A decimal point is used to separate the boundaries, on the left is the target pressure of the constant pressure system and on the right is the feedback pressure of the constant pressure system.
Page 72 System parameter group00 control ) Carrier frequency Setting The higher the carrier frequency, the lower the motor acoustic noise, but will result in greater leakage current and  larger noise generated by the inverter. The higher the carrier frequency, the more energy inverter will consume, and temperature will also be higher. ...
Page 73 System parameter group00 button function selection Setting STOP RESET Press button to stop during operation (00-14 (P.75) =“1”  STOP RESET Note: When running in non-PU and H2 modes, pressing the button will display E0 and lock all STOP RESET functions on the keypad.
Page 74 System parameter group00 Parameter Name Default Setting Range Content Frequency set by keypad Frequency set by RS485 communication Frequency set by analog input 00-17 Second target P.97 frequency selection Frequency set by communication expansion card Frequency set by PG card A2 B2 Frequency set by HDI pulse Start signal set by keypad 00-18...
Page 75 System parameter group00 5.1.11 Motor control mode selection Choose control mode for the AC motor  Parameter Name Default Setting Range Content Induction motor V/F control Induction motor closed-loop V/F control (VF + PG) Induction motor simple vector control 00-21 Motor control mode Induction motor sensorless vector control P.300...
Page 76 System parameter group00 5.1.12 Motor types selection Modify the applicable load type of the inverter.  Parameter Name Default Setting Range Content 00-23 Normal Duty (ND), on fan and pump duty type. Motor types selection P.186 Heavy Duty (HD), apply to other duties. Motor types selection Setting In order to switch to heavy duty setting ( 00-23(P.186)= 1), be sure to perform the following steps.
Page 77 System parameter group00 5.1.14 Parameter mode setting Select “Sequence P mode” or “group mode” to display parameters.  Parameter Name Default Setting Range Content Parameter is displayed in “group mode” 00-25 Parameter display P.990 mode setting Parameter is displayed in “sequence P mode” Parameter mode setting Display “Sequence P mode”...
Page 78 System parameter group00 The values for all kinds of expansion cards are as the following table：  Expansion card type Model Bit value PD302 DN301 Communication Expansion card CP301 EP301 EB362R I/O Expansion card EB308R PG301C PG Expansion card PG301L PG302L For example: Insert EP301, the read-out value of 00-26(P.125) is as follows: 0×...
Page 79 Basic parameter group 01 5.2 Basic parameter group 01 Parameter Group Name Setting Range Default Page Number 01-00 Maximum frequency 0.00~01-02(P.18)Hz 120.00Hz 01-01 Minimum frequency 0～120.00Hz 0.00Hz High-speed maximum 01-02 P.18 01-00(P.1)～650.00Hz 120.00Hz frequency 50Hz system setting: 0～650.00Hz 50.00Hz 01-03 Base frequency 60Hz system setting: 0～650.00Hz 60.00Hz...
Page 80 Basic parameter group 01 Parameter Group Name Setting Range Default Page Number 0～650.00Hz 01-17 P.92 Frequency jump 1B 99999 99999: Off 0～650.00Hz 01-18 P.93 Frequency jump 2A 99999 99999: Off 0～650.00Hz 01-19 P.94 Frequency jump 2B 99999 99999: Off 0～650.00Hz 01-20 P.95 Frequency jump 3A...
Page 81 Basic parameter group 01 5.2.1 Limiting the output frequency Output frequency can be limited. Fix the output frequency at the upper and lower limits.  Parameter Name Default Setting Range Content 01-00 0.00～ Maximum frequency 22K and below 120.00Hz 01-02(P.18)Hz 01-01 Minimum frequency Output minimum frequency...
Page 82 Basic parameter group 01 Base frequency Setting Generally, 01-03(P.3) is set as the rated frequency of motor.  When the rated frequency on the motor nameplate is "50 Hz", make sure to set it to "50 Hz". If set it to "60 Hz" the voltage will drop too much, causing torque to drop.
Page 83 Basic parameter group 01 Acceleration/deceleration curve selection Setting Linear acceleration /deceleration curve(01-05(P.29)=“0”)  An acceleration slope is formed by the combination of 01-06(P.7) and 01-09(P.20). A deceleration slope is formed by the combination of 01-07(P.8) and 01-09(P.20). When the target frequency varies, it increases according to the “acceleration slope” or decreases according to the “deceleration slope”...
Page 84 Basic parameter group 01 Setting Acceleration/deceleration time increments  When 01-08(P.21)=0, minimum acceleration / deceleration time (01-06(P.7)、 01-07(P.8)、 01-14(P.16)、 01-22(P.44)、 01-23(P.45)、04-35(P.111)~04-42(P.118)) increment is 0.01s.  When 01-08(P.21)=1, minimum acceleration / deceleration time(01-06(P.7)、 01-07(P.8)、 01-14(P.16)、 01-22(P.44)、 01-23(P.45)、04-35(P.111)~04-42(P.118))increment is 0.1s. Acceleration / deceleration reference frequency Setting When the output frequency of the inverter is accelerated from 0Hz to01-09(P.20), the required time is defined as ...
Page 85 Basic parameter group 01 5.2.5 Starting frequency When the motor starts up, the instantaneous output frequency of the inverter is called “starting frequency”.  Parameter Name Default Setting Range Content 01-11 Starting frequency 0.50Hz 0～60.00Hz P.13 Starting frequency Setting If target frequency of inverter is lower than 01-11(P.13) value, the motor will not run. When given the start signal to ...
Page 86 Basic parameter group 01 01-12(P.14)＝0 01-12(P.14)＝1 100% 100% 01-10 01-10 (P.0) (P.0) (P.3) 01-03 Output frequency (P.3) 01-03 Output frequency Applicable to constant torque loads Applicable to variable torque loads (convey belt, etc.,) (Fans and pumps, etc.) Curve equation of output voltage and output frequency is: （Base voltage-Base voltage*P.0）* Output frequency + Base voltage * P.0 Base frequency...
Page 87 Basic parameter group 01 01-12(P.14)＝6, 7, 8 01-12(P.14)＝9, 10 100% . 100% . 01-10 01-10 (P.0) (P.0) Output frequency Output frequency 01-03(P.3) 01-03(P.3) When 01-12(P.14)=6, the value of A is 8.7%. When 01-12(P.14)=7, the When 01-12(P.14)=9, the value of A is 20.0%. When 01-12(P.14)=10, value of A is 10.4%.
Page 88 Basic parameter group 01 5.2.7 JOG run The frequency and acceleration/deceleration time for JOG running can be set. JOG can be used for conveyor  positioning, test run, etc. Parameter Name Default Setting Range Content 01-13 JOG frequency 5.00Hz 0～650.00Hz P.15 01-14 JOG acceleration/...
Page 89 Basic parameter group 01 5.2.9 Frequency jump To avoid resonance from a mechanical system, these parameters allow jumping through resonant frequencies.  Parameter Name Default Setting Range Content 01-16 0～650.00Hz Frequency jump 1A 99999 P.91 99999 Invalid. 0～650.00Hz 01-17 Frequency jump 1B 99999 P.92 99999...
Page 90 Basic parameter group 01 5.2.10 Second function When given RT signal, these parameters will work.  Parameter Name Default Setting Range Content 0～360.00s/ 01-08=0/ 01-22 Second acceleration 99999 0～3600.0s 01-08=1 P.44 time 99999 0～360.00s/ 01-08(P.21)=0/ 01-23 Second deceleration 99999 0～3600.0s 01-08(P.21)=1 P.45 time...
Page 91 Basic parameter group 01 Parameter Name Default Setting Range Content 01-29 Output voltage 2 of 0.0% 0～100.0% P.163 middle frequency 01-30 0～650.00Hz 99999 Middle frequency 3 P.164 99999 01-31 Output voltage 3 of 0.0% 0～100.0% P.165 middle frequency 0～650.00Hz 01-32 99999 Middle frequency 4 P.166...
Page 92 Basic parameter group 01 S pattern time Setting When 01-05(P.29) = 3, “S pattern acceleration /deceleration curve 3”.  Output frequency 01-37(P.256) 01-38(P.257) 01-39(P.258) 01-36(P.255) Time Starting signal Parameters 01-36 , 01-37 , 01-38 and 01-39 are used to start inverter gradually without (P.255) (P.256) (P.257)
Page 93 Analog input and output parameter group 02 5.3 Analog input and output parameter group 02 Parameter Group Name Setting Range Default Page Number 0: Off 1: Frequency command 2: Torque command 3: PID target value 4: PID feedback signal 5: Tension target value 6: Line speed 7: Line speed feedback 8: Real-time roll diameter...
Page 94 Analog input and output parameter group02 Parameter Group Name Setting Range Default Page Number 9: Output torque, use two times motor rated torque as 100%.(Valid only when 00-21 (P.300) or 00-22 (P.370) is set to 3~6) 10: Output power, use two times motor rated power as 100%.
Page 95 Analog input and output parameter group 02 Parameter Group Name Setting Range Default Page Number -100.0%～100.0% Percentage corresponds to 02-15 P.195 terminal 2-5 maximum 100.0% positive voltage -400.0%～400.0%(02-00(P.500)= 2/14/15/16/17) Terminal 2-5 minimum input 02-16 P.512 0～10.00V 0.00V negative voltage Terminal 2-5 maximum input 02-17 P.513 0～10.00V...
Page 96 Analog input and output parameter group02 Parameter Group Name Setting Range Default Page Number -100.0%～100.0% Percentage corresponds to 02-28 P.197 terminal 4-5 maximum input 100.0% current/ voltage -400.0%～400.0%(02-00(P.500)= 2/14/15/16/17) 02-38 P.526 Terminal HDI filter time 0～2000ms 10ms Terminal HDI minimum input 02-39 P.524 0～100.00kHz...
Page 97 Analog input and output parameter group 02 Parameter Group Name Setting Range Default Page Number 10: Output power, use two times motor rated power as 100%. Terminal FM output function 02-44 P.543 11: High-speed pulse input, use 100KHz as selection 100%.
Page 98 Analog input and output parameter group02 5.3.1 Analog input terminals and M2 terminal function selection Input function selection of terminal 2,4 and M2  Parameter Name Default Setting Range Content Frequency command Torque command PID target value PID feedback signal Tension target value Line speed Line speed feedback...
Page 99 Analog input and output parameter group 02 5.3.2 Analog output terminals AM function selection Selects the monitor item for analog output terminal AM.  Parameter Name Default Setting Range Content Output frequency, use 02-51 (P.55) value as 100%. Output current, use 02-52 (P.56) value as 100%. Output DC bus voltage, use the OV trigger voltage as 100%.
Page 100 Analog input and output parameter group02 5.3.3 Proportional linkage gain This function is used to multiply frequency command from external analog input terminal. When multiple inverters  are running in proportion, it is effective to use this function to fine-tune the frequency command from master inverter to slave inverter.
Page 101 Analog input and output parameter group 02 5.3.4 Auxiliary frequency Frequency can be adjusted and synthesized flexibly to meet the different control requirements in different  scenarios. Parameter Name Default Setting Range Content Output frequency = basic frequency + auxiliary frequency (given by terminal 2-5) Output frequency = basic frequency + auxiliary frequency (given by terminal 4-5)
Page 102 Analog input and output parameter group02 Parameter Name Default Setting Range Content 50.00Hz 50Hz system(00-24(P.189)=1) 02-09 Terminal 2-5 maximum 1.00～650.00Hz P.38 running frequency 60.00Hz 60Hz system(00-24(P.189)=0) 02-10 Terminal 2-5 filter time 30ms 0～2000ms P.60 02-11 Terminal 2-5 voltage -100.0%~ 0.0% P.139 signal bias rate 100.0%...
Page 103 Analog input and output parameter group 02 Terminal 2-5 can be connected to a negative voltage, but 02-08 value needs to be changed. The frequency  (P.73) algorithm is same as positive voltage, and its running direction is unchanged. Note: 1. In “External mode", “combined mode 2” or “combined mode 4”, the inverter target frequency will be determined by signal between /2-5/4-5 terminal if RH, RM, RL and REX are all “off.”...
Page 104 Analog input and output parameter group02 02-15 （P.195） 02-14 （P.194） The signal magnitude of terminal 2-5 The value The value of A of B Example 1.2: Set 02-14 and 02-15 value, then set 02-12 and 02-13 . Figure is shown as (P.194) (P.195) (P.192)
Page 105 Analog input and output parameter group 02 02-09（ P.38）=60Hz Max operation frequency 60Hz 02-12（ 02-13（ P.192）=0V, P.193）=8.33V The minimum/maximum input positive voltage of terminal 2-5 02-14（ 02-15（ P.194）=16.7%, P.195）=100% The setting corresponding to the minimum/maximum positive voltage of terminal 2-5 02-18( 02-19（...
Page 106 Analog input and output parameter group02 02-09（P.38）=60Hz Max operation frequency 60Hz 02-12（P.192）=1V,02-13（ P.193）=10V The minimum/maximum input positive voltage of terminal 2-5 02-14（P.1940=0%,02-15( P.195)=100% The setting 54Hz corresponding to the minimum/maximum positive voltage of terminal 2-5 02-18(P.510)=0%,02-19( P.511)=100% The setting corresponding to the minimum/maximum negative voltage of terminal 2-5 02-16(P.512)=1V, 02-17(P.513）=10V The minimum/maximum input negative voltage of terminal 2-5...
Page 107 Analog input and output parameter group 02 02-09（P.38)=60Hz Max operation frequency 60Hz 02-12(P.192)=0V, 02-13(P.193)=10V The minimum/maximum input positive voltage of terminal 2-5 02-14(P.194)=-100%,02-15( P.195)=100% The setting Forward corresponding to the minimum/maximum positive voltage rotation area of terminal 2-5 02-18(P.510)=-100%, 02-19(P.511)=100% The setting corresponding to the minimum/maximum negative voltage of terminal 2-5 02-16(P.512)=0V,02-17( P.513)=10V The...
Page 108 Analog input and output parameter group02 02-23 Terminal 4-5 current/ -100.0%～ 0.0% P.505 voltage signal bias rate 100.0% 0: Off Inverter decelerates to 0Hz, muti-function digital output terminal set off alarm 02-24 Terminal 4-5 Inverter stops immediately, and keypad displays “AEr” alarm P.184 disconnect selection Inverter runs continuously according to the frequency...
Page 109 Analog input and output parameter group 02 Terminal 4-5 disconnect function  If 02-24 =0, after disconnection, inverter will slow down to 0Hz, and after reconnection, the inverter will (P.184) accelerate to current given frequency. If 02-24 =1, after disconnection, inverter will slow down to 0Hz and at the same time multi-function digital (P.184) output terminal will set off an alarm;...
Page 110 Analog input and output parameter group02 Terminal HDI selection and processing Setting “HDI filter time” 02-38 is used to filter out the vibration of operation frequency caused by factors such as  (P.526) component precision or noise. The larger the set value of 02-38 , the better the filtering ability, but in the (P.526) meantime it will also cause response to be slower...
Page 111 Analog input and output parameter group 02 5.3.9 Terminal FM analog output function selection Selects monitor item output by terminal FM, when terminal HDO output function is FM.  Parameter Name Default Setting Range Content Output frequency, use 02-51 (P.55) value as 100%. Output current, use 02-52 (P.56) value as 100%.
Page 112 Analog input and output parameter group02 Terminal AM output can be shown as follows::  Corresponding to 100% of Corresponding to 100% of the function set by (02- the function set by (02- 04)P.54 04)P.54 20mA Figure 1. AM-5 output 0~10V voltage Figure 2.
Page 113 Analog input and output parameter group 02 5.3.11 Maximum analog output reference Set display reference for terminal AM/FM when output frequency or current.  Parameter Name Default Setting Range Content 50.00Hz 50Hz system(when 00-24(P.189)=1) 02-51 Maximum analog output 1～650.00Hz P.55 frequency reference 60.00Hz 60Hz system(when 00-24(P.189)=0)
Page 114 Analog input and output parameter group02 PT100 is input through analog voltage, and the voltage input range of 2-5/4-5 is set to 0-10V (02-08  (P.73) 02-20 =1; please note that the voltage/current switch on the keypad is set to the voltage input position). Set (P.17) analog voltage input for PT100 function (02-00 ,02-01...
Page 115 Digital input/ output parameter group03 5.4 Digital input/ output parameter group 03 Parameter Group Name Setting Range Default Page Number 0: STF(Inverter runs forward) 1: STR(Inverter runs reverse) 2: RL(Multi-speed low speed) 3: RM(Multi-speed medium speed) 4: RH(Multi-speed high speed) 5:AU( Analog terminal 4-5 high priority) 6: External thermal relay actuate 7: MRS(Stops inverter output immediately)
Page 116 Digital input/ output parameter group03 Parameter Group Name Setting Range Default Page Number 35: MPO (In “external mode” run manual cycle operation.) 36: TRI(Triangle wave function) 37: GP_BP (Automatic switch between inverter and commercial power-supply.) 38: CS(Manual switch to commercial power supply) 39: STF/STR +STOP (Use with RUN signal, when ON, motor runs reverse,...
Page 117 Digital input/ output parameter group03 Parameter Group Name Setting Range Default Page Number 0: RUN(Output when inverter running) 1: SU(Output when reach target frequency) 2: FU(Output when reach 03-21 03-22 value ) 3: OL(Output when overload) 4: OMD(Output when output current is zero) 5: ALARM(Output when alarm) 6: PO1(Output when in program operation step) 7: PO2(Output when in program operation cycle)
Page 118 Digital input/ output parameter group03 Parameter Group Name Setting Range Default Page Number Expanded digital input 03-26 P.552 Same as 03-00(P.83) 99999 terminal M11 Expanded digital input 03-27 P.553 Same as 03-00(P.83) 99999 terminal M12 Expanded digital input 03-28 P.554 Same as 03-00(P.83) 99999 terminal M13...
Page 119 Digital input/ output parameter group03 5.4.1 Digital input terminals function selection Use the following parameters to change the digital input terminal functions. Each terminal may choose any  function between 0~71 (Note 1) Parameter Name Default Setting Range Content STF(Inverter runs forward) STR(Inverter runs reverse) RL(Multi-speed low speed) RM(Multi-speed medium speed)
Page 120 Digital input/ output parameter group03 Parameter Name Default Setting Range Content RES_E (External reset, valid only when alarm.) MPO (In “external mode” run manual cycle operation.) TRI(Triangle wave function) GP_BP (Automatic switch between inverter and commercial power-supply.) CS(Manual switch to commercial power supply) STF/STR +STOP (Use with RUN signal, when ON, motor runs reverse,when OFF, motor stops then runs forward.) P_MRS (Stops inverter output immediately by pulse signal...
Page 121 Digital input/ output parameter group03 Parameter Name Default Setting Range Content 03-03 Terminal input Same as 03-00 Same as 03-00(P.83) P.80 function 03-04 Terminal input Same as 03-00 Same as 03-00(P.83) P.81 function 03-05 Terminal input Same as 03-00 Same as 03-00(P.83) P.82 function Setting...
Page 122 Digital input/ output parameter group03 STF(P.8X=0) STR(P.8X=1) STOP(P.8X=31) Three-wire control mode 2 (with seal-in function): K1 is STOP, normal close. When trigger inverter will stop. K2 is  RUN, normal open. K1 K2 are edge trigger buttons. Change direction by STF/STR terminal, set value: 39. When changing the direction, stop the inverter first, then switch K0 state and start inverter again.
Page 123 Digital input/ output parameter group03 Set value : 54 Revs counting signal  This function is used to calculate the number of rotations when roll diameter is calculated by thickness calculation method in tension control mode. Set value : 55 Speed/Torque control ...
Page 124 Digital input/ output parameter group03 When this terminal is on, and parameter 00-16(P.79)=99999, start stop signal is set by 00-18(P.109), target frequency is set by 00-17(P.97) Set value : 65 External accelerate/decelerate pause  When executing the external accelerate/decelerate pause function, inverter will stop accelerating or decelerating immediately.
Page 125 Digital input/ output parameter group03 5.4.2 Digital output terminals function selection Detect information generated and send digital signal output during inverter operation.  Parameter Name Default Setting Range Content RUN(Output when inverter running) SU(Output when reach target frequency) FU(Output when reach 03-21(P.62) 03-22 (P.63)value ) OL(Output when overload) OMD(When the percentage of the output current is lower than 03-23 (P.62) and afte (03-24 (P.63))of time, OMD will...
Page 126 Digital input/ output parameter group03 5.4.3 Terminal logic selection The function is bits-setting, if the bit shows 1, it means that the action of multi-function digital input terminal is  negative logic; otherwise, it means that the action is positive logic. Parameter Name Default...
Page 127 Digital input/ output parameter group03 5.4.4 Digital output signal delay This parameter is used to delay and confirm the digital output signal. Delay time acts like confirmation time, which  can prevent some unknown interference Parameter Name Default Setting Range Content 03-16 Output signal delay...
Page 128 Digital input/ output parameter group03 5.4.7 Output frequency detection Detects the inverter output frequency and output signal.  Parameter Name Default Setting Range Content 03-20 Output frequency 10.0% 0～100.0% P.41 detection sensitivity Output frequency 03-21 detection for forward 6.00Hz 0～650.00Hz P.42 rotation Output frequency...
Page 129 Digital input/ output parameter group03 5.4.8 Zero current detection Detects output current level and send signal to digital output terminal  Parameter Name Default Setting Range Content 03-23 Zero current detection 0～200.0% 5.0% P.62 level 99999 Invalid. 0～100.00s 03-24 Zero current detection 0.50s P.63 time...
Page 130 Digital input/ output parameter group03 5.4.10 Expanded digital input terminal logic selection This function is set in bits, if bit shows 1, it means the correspond terminal is negative logic; if bit shows 0, it means  the correspond terminal is positive logic. Parameter Name Default...
Page 131 Digital input/ output parameter group03 5.4.12 Digital input / output terminal monitor Used to monitor the status of digital input / output terminal.  Parameter Name Default Setting Range Content 03-59 Monitor inverter input Read Read only P.585 terminal state Monitor inverter and 03-60 expanded output...
Page 132 Digital input/ output parameter group03 03-60 =1×2 + 0×2 + 0×2 + 0×2 + 0×2 + 0×2 + 0×2 + 1×2 + 0×2 + 0×2 + 0×2 + 0×2 = 2064 (P.586) PARAMETER DESCRIPTION 130...
Page 133 Multi-speed parameter group 04 5.5 Multi-speed parameter group 04 Parameter Group Name Setting Range Default Page Number 04-00 Speed1(high speed) 0～650.00Hz 60.00Hz 04-01 Speed2(mediumspeed) 0～650.00Hz 30.00Hz 04-02 Speed3(low speed) 0～650.00Hz 10.00Hz 0～650.00Hz 04-03 P.24 Speed4 99999 99999: Function invalid 04-04 P.25 Speed5 Same as 04-03...
Page 134 Multi-speed parameter group04 Parameter Group Name Setting Range Default Page Number Programmed operation mode 04-27 P.101 0～6000.0s 0.0s speed 1 operating time Programmed operation mode 04-28 P.102 0～6000.0s 0.0s speed 2 operating time Programmed operation mode 04-29 P.103 0～6000.0s 0.0s speed 3 operating time Programmed operation mode 04-30...
Page 135 Multi-speed parameter group 04 5.5.1 16 steps speed With the combination of digital input terminal RL, RM, RH and REX, 16 steps speed can be selected (up to 16  speeds) Parameter Name Default Setting Range Content 04-00 Speed1(high speed) 60.00Hz 0～650.00Hz 04-01...
Page 136 Multi-speed parameter group04 Speed Speed Speed (High speed) speed1 Speed Speed Speed Speed speed (Medium Speed speed) Speed 2 Speed Speed (Low speed) Speed 3 Speed Speed When one of parameters 04-03 ~04-06 and 04-07 ~04-14 value is 99999, the target ...
Page 137 Multi-speed parameter group 04 Parameter Name Default Setting Range Content 04-17 Programmed operation P.122 cycle selection 1～8 Start cycle from the set section. Acceleration time is 01-06(P.7), deceleration time is 01-07 Programmed operation (P.8). 04-18 acceleration / P.123 deceleration time setting Acceleration and deceleration time is set by 04-35 selection (P.111)～04-42 (P.118).
Page 138 Multi-speed parameter group04 Parameter Name Default Setting Range Content 04-34 Programmed operation mode 0.0s 0～6000.0s P.108 speed 8 operating time 04-35 Programmed operation mode 0～600.00s/ 0.00s P.111 speed 1 Acc/Dec time 0～6000.0s 04-36 Programmed operation mode 0～600.00s/ 0.00s P.112 speed 2 Acc/Dec time 0～6000.0s 04-37 Programmed operation mode...
Page 139 Multi-speed parameter group 04 For example: When 04-17 =3, the cycle operation will start from speed 3 after the speed 1 to speed 8 (P.122) operations have been completed. When 04-18 is set to 0, the acceleration time is 01-06, and the deceleration time is 01-07. (P.123) When 04-18 is set to 1, the acceleration time and deceleration time are both determined by...
Page 140 Motor parameter group 05 5.6 Motor parameter group 05 Parameter Group Name Setting Range Default Page Number 0: Off 1: Induction motor specifications automatic measurement 1 (Run motor to measure) 2: Induction motor specifications automatic measurement 2 (Don’t run motor to measure) 3: Induction motor specifications automatic measurement (Measure when operating) Motor specifications...
Page 141 Motor parameter group 05 Parameter Group Name Setting Range Default Page Number According 05-15 P.316 PM motor Back-EMF coefficient 0～6500.0V/krpm to kW PM motor Phase Z origin pulse 05-16 P.317 0～359.9° 0.0° compensation 0～6500.0kg. cm2: 5.5K and below According 05-17 P.318 Motor inertia to kW...
Page 142 Motor parameter group 05 Parameter Group Name Setting Range Default Page Number 0 ~ 6500.0kg. cm2: 5.5k and below 0 ~ 65000kg. cm2: 7.5k ~ 22K model 05-38 P.394 Second motor inertia 99999 9999 0~600.0 Second motor load inertia ratio 05-39 P.395 99999...
Page 143 Motor parameter group 05 Confirm the wiring （Please refer to 3.7 Terminal wirearrangement) Set motor parameter （05-01(P.302) ~ 05- 06(P.307)） 05-00(P.301) 1，2， Press the forward/reverse rotation key Restore display and start to measure,the operation after 3s Panel will display “TUN”. If failed,the Measuring operationpaneldisplay...
Page 144 Motor parameter group 05 Confirm the wiring （Please refer to 3.7 Terminal wire arrangement) Set motor parameter Set motor parameter （05-01（ ~ 05-06 P.302）（05-01~05-06）（） P.307） 05-00 （ P.301） Press the forward/reverse rotation key Restore display and start to measure, the operation after panel will display “TUN”.
Page 145 Motor parameter group 05 5.6.2 Motor parameter Inverter has built-in standard parameters for motor. Modify the default values according to the actual situation to  conform to the actual values as much as possible. Parameter Name Default Setting Range Content 05-01 Motor rated power 0.00kW...
Page 146 Motor parameter group 05 Motor parameter Setting If induction motor can be completely disconnected from the load, select 05-00 =1, then press  (P.301) on keypad, and inverter will automatically calculate following parameters: 05-07 ~05-11 (P.308) (P.312) If induction motor cannot be completely separated from the load, select 05-00 =2, then press ...
Page 147 Motor parameter group 05 5.6.3 Automatic measurement of motor inertia Tune the load inertia under IM/PM PG vector control.  Parameter Name Default Setting Range Content 05-17 According 5.5K and under 0～6500.0kg. cm2: Motor inertia P.318 to kW 7.5K~22K 0～65000kg.cm2: 05-18 Load inertia ratio 0~600.0...
Page 148 Motor parameter group 05 Note: 1. Before executing the IM motor inertia automatic measurement function, please follow 5.6.1 to perform the IM motor parameter automatic measurement function first, please set 00-21(P.300) = 4. 2. Before executing the PM motor inertia automatic measurement function, please perform the PM motor parameter automatic measurement function and Z-phase position automatic measurement function according to 5.6.1.
Page 149 Motor parameter group 05 Parameter Name Default Setting Range Content 0～ 05-36 Second motor (PM) According to kW 99999 6500.0V/krpm P.346 Back-EMF coefficient 99999 Off. Second motor (PM) 0～359.9° 05-37 Phase Z origin pulse 99999 P.347 99999 Off. compensation 0 ~ 6500.0kg. 5.5k and below 05-38 Second motor inertia...
Page 150 Protection parameter group06 5.7 Protection parameter group 06 Parameter Group Name Setting Range Default Page Number Electronic thermal relay 06-00 0~500.00A 0.00A capacity Stall prevention operation 06-01 P.22 0～250.0% 150.0% level 0～150.0% Stall prevention operation 06-02 P.23 99999 99999: Stall prevention operation level is the level correction factor setting value of 06-01(P.22).
Page 151 Protection parameter group06 Parameter Group Name Setting Range Default Page Number 0: Off 06-13 P.281 Input phase loss protection 1: When input phase loss, inverter stops and alarms IPF.(For Frame C/D only) 0: Off SCP Short circuit protection 06-14 P.287 1: When output side is short, inverter stops and function alarms SCP.
Page 152 Protection parameter group06 Parameter Group Name Setting Range Default Page Number 06-32 P.299 Output power(higher 16 bit) Read only Read 06-40 P.288 Alarm record code query 0～12 06-41 P.289 Alarm record code display Read only Read 06-42 P.290 Alarm record message query 0～10 06-43 P.291...
Page 153 Protection parameter group06 5.7.1 Electronic thermal relay capacity “Electronic thermal relay” uses inverter computing power to simulate a thermal relay for preventing motor from  overheating. Parameter Name Default Setting Range Content 06-00 Electronic thermal 0.00A 0~500.00A relay capacity Electronic thermal relay capacity Setting Please set the value of 06-00 as the rated current value of the motor at the rated frequency.
Page 154 Protection parameter group06 Current stalling protection Setting When heavy load and motor starts or target frequency changes (increases), the rotating speed of motor often  cannot keep up with the speed of output frequency change. When the rotation speed of motor is lower than output frequency, output current will increase to enhance output torque.
Page 155 Protection parameter group06 5.7.3 Regenerative brake When performing frequent start and stop operation, regenerative brake usage rate can be increased by using the  brake resistor or the brake unit. Parameter Name Default Setting Range Content 06-05 Regenerative brake Brake duty is fixed at 3%, parameter 06-06(P.70) will be off. P.30 selection Brake duty is 06-06(P.70) value.
Page 156 Protection parameter group06 440V type heavy duty (HD) Applicable frame below： Load (%) ：0.4K~22K Carrier (KHz) 10 11 12 13 14 15 440V type normal duty (ND) Applicable frame below： Load (%) ：0.4K~22K Carrier (KHz) 10 11 12 13 14 15 220V type heavy duty (HD) Applicable frame below：...
Page 157 Protection parameter group06 220V type normal duty (ND) Applicable frame below： Load (%) ：0.4K~15K Carrier (KHz) 10 11 12 13 14 15 06-07(P.263)=1, fixed rated current, inverter will automatically reduce operating carrier frequency according to  IGBT module temperature to avoid overheating of IGBT module. Rules are as follows: when IGBT module temperature is over 80℃, automatically decrease carrier frequency to the carrier value when the duty is 100% shown as the figure above;...
Page 158 Protection parameter group06 full load current level 100% Output current (%) P.155 Invertor display the OL2 alarm,and the output stopped,the motor stopped too. time P.156 output (Overload alarm) Reset signal 5.7.6 Stall level when restart It can set stall prevention level when inverter restart through 06-11(P.160). ...
Page 159 Protection parameter group06 5.7.8 Input phase loss protection Turn on input phase failure protection.  Parameter Name Default Setting Range Content 06-13 Input phase loss When input phase loss, inverter stops and alarms IPF(for P.281 protection frame C/D only) Input phase loss protection Setting When 06-13(P.281)=1, input phase loss protection is on;...
Page 160 Protection parameter group06 R=2kΩ 10kΩ PTC Electronic input wiring diagram 5.7.11 Maintenance alarm function Inverter counts operation time and trigger maintenance alarm output signal after time set.  Parameter Name Default Setting Range Content 06-17 Maintenance alarm P.261 function 1～9998day Used to set the time for maintenance alarm output signal Maintenance alarm function Setting...
Page 161 Protection parameter group06 5.7.13 Output phase loss protection Turn on output phase loss protection function..  Parameter Name Default Setting Range Content 06-20 Output phase loss P.262 protection When output phase loss, inverter stops and alarms LF. Output phase loss protection Setting ...
Page 162 Protection parameter group06 5.7.17 Capacitor lifetime detection Capacitors on main circuit may age and its capacity may reduce. This function is to detect capacitor service life in  main circuit and serve as a replacement standard. Parameter Name Default Setting Range Content 0: Off 06-24...
Page 163 Protection parameter group06 Note: 1. Considering capacitor temperature will affects capacity; please wait three hours or longer after power OFF before testing. 2. Capacitor lifetime detection can only be operated under V/F mode. 3. Frame A /B are not equipped with capacitor lifetime detection function. 5.7.18 Time record function It is used to record the inverter accumulative operation time.
Page 164 Protection parameter group06 Parameter Name Default Setting Range Content 06-42 (P.290) =1, 06-43 (P.291) displays 06-42 Alarm record 0～10 P.290 message query frequency when 06-40 (P.288) alarm. 06-42 (P.290) =2, 06-43 (P.291) displays current when 06-40 (P.288) alarm. 06-42 (P.290) =3, 06-43 (P.291) displays output voltage when 06-40 (P.288) alarm.
Page 165 Protection parameter group06 Note: If PU302 is used, these functions will not work: 06-42(P.290) =8, 9, 10. Select 06-43 (P.291) to display years/months, days/hours, minutes/seconds when alarm occurs. 5.7.21 Alarm code query Used to monitor latest 12 alarm codes.  Parameter Name Default...
Page 166 Protection parameter group06 Parameter Name Default Setting Range Content 06-59 Temperature rising accumulation Read only Read only P.755 rate during E1 alarm 06-60 PN voltage during E1 alarm Read only Read only P.756 06-61 Total inverter operation time during Read only Read only P.757 E1 alarm...
Page 167 Communication parameter group07 5.8 Communication parameter group 07 Parameter Group Name Setting Range Default Page Number 0: Modbus protocol COM1 07-00 P.33 Communication 1: Shihlin protocol protocol selection 2：PLC protocol（Effective when using Shihlin built-in PLC） COM1 inverter 07-01 P.36 0～254 communication station number 0: Baud rate:4800bps...
Page 168 Communication parameter group07 Parameter Group Name Setting Range Default Page Number 3: 125Kbps 07-16 P.801 CANopen rate 4: 100Kbps 5: 50 Kbps 0: Node retry status 1: Communication retry status CANopen 2: Retry completion status 07-17 P.802 communication 4: stop state status 5: operation status 127: pre-operational status...
Page 169 Communication parameter group07 Parameter Group Name Setting Range Default Page Number Number 07-33 P.818 communication 0～10 retries PU communication 0~999.8s: Check communication timeout with the set value interval allowed 07-34 P.819 99999 99999: Off time 0: Alarm and stop freely. PU communication 07-35 P.820...
Page 170 Communication parameter group07 5.8.1 Shihlin protocol and Modbus protocol These protocols can link and communicate with upper controller through RS-485 communication port of inverter  for parameter setting, monitoring, etc.. Parameter Name Default Setting Range Content Modbus protocol 07-00 COM1 Communication Shihlin protocol P.33 protocol selection...
Page 171 Shihlin protocol and Modbus protocol Setting If any communication parameter is changed, please power off and restart inverter.  SE3 series inverters offer two protocols to choose from: Shihlin protocol and Modbus protocol. Parameters  07-02 , 07-01 , 07-08...
Page 172 Communication between upper controller and a single inverter (take PLC as an example). Communication between upper controller and multiple inverters (take PLC as an example). SE3 series inverter support Shihlin communication protocol and MODBUS communication protocol. Shihlin communication protocol ...
Page 173 Communication parameter group07 Frequency Parameter Inverter Parameter Action content Monitoring command write write reset readout Upper controller user program sends a ① communication request to inverter ② Inverter data processing time No error (accept ③ Inverter return request) ③ information (check Error (request data ①...
Page 174 Communication parameter group07 *2) Waiting time set from 0 to 15 with 10ms unit. Example: set value 5 --->50ms. *3) End symbol (CR, LF codes) When performing data communication from upper controller to inverter, CR and LF codes at the end of message will be automatically set according to upper controller mode.
Page 175 Communication parameter group07 Example 3. Upper controller reads the value of 02-15(P.195): Step1: Upper controller sends write and page change command, using Format A: Inverter station Command Waiting Data Check code number 0 code HFF time H0001 Sum Check H30 H30 H46 H46 H30 H30 H30 H31 H44 H44...
Page 176 Communication parameter group07 Inverter station number Error code H30 H30 Note: In above examples, parameters 02-15 (P.195) reading and writing are all using P parameter mode. To use parameter group mode, please note the difference between page number and parameter number. Please refer to the communication command list for relevant contents.
Page 177 Communication parameter group07 Message Content At present, there are four functions. Slave device acts according to the request of Master device. If Master device sets a function code other than the table below, Slave device will return an error response. Normal function code will be returned when response is normal, and H80+ function code will be returned when response is wrong.
Page 178 Communication parameter group07 Normal response Readout data Mode Start Address*1) Function*2) Readout data*6) Check Stop number *5) ASCII 2char 2char 2char 4char …2N×8bit 2char 0D 0A >=10ms 8bit 8bit 1byte 2byte …N×8bit 2byte >=10ms Message Content *1)Address Set the address for sending information, 0 is invalid *2)Function code *3)Start address Set the address of the register to be read...
Page 179 Communication parameter group07 *4) Number of registers Sets the number of registers written. The maximum number is 20. *5) Number of data Setting range is 2~24. Set 2 times the value specified in *4). Set data division specified in *4). Write data is set in the order of high byte to low byte. Setting is *6) Write data performed in the order of starting address data, starting address +1 data, starting address +2 data ...
Page 180 Communication parameter group07 Source Code Meaning Remarks In query information sent by Master, the address cannot be processed by Slave illegal data address (outside the addresses listed in the table, the reserved parameters, the Slave reply parameters not allowed to be read, the parameters not allowed to be written). In query information sent by Master, the data cannot be processed by the Slave illegal data value (outside parameter writing range, required specified mode, other error, etc.).
Page 181 Communication parameter group07 Step 2: After receive and processing the data without error, inverter will send a reply to upper controller: Mode Start Address Function Start address Write data Check Stop ASCII H30 H31 H30 H36 H30H30 H43 H33 H31 H33 H38 H38 H39 H42 0D 0A...
Page 182 Communication parameter group07 Communication command list  Set the following command codes and data to perform various operation control, monitoring, etc. Shihlin protocol Modbus Modbus Item Data content and function description command code command code address H0000: Communication mode; Operation mode H0001: External mode;...
Page 183 Communication parameter group07 Shihlin protocol Modbus Modbus Item Data content and function description command code command code address H5A5A H1104 H5566 H5959 H1103 H9966 H06/ Please refer to parameter Parameter clear H9696 recovery table for details. H1106 H99AA H9A9A H1105 H55AA H1102 HA5A5...
Page 184 Communication parameter group07 Shihlin protocol Modbus Modbus Item Data content and function description command code command address code Modbus address is as follows: H1014: digital input terminal state. H1015: digital output terminal state. H1016: terminal 2-5 analog input voltage H1017: terminal 4-5 analog input current/voltage H1018: AM-5 terminal output voltage/current H1019: DC bus voltage H101A: inverter electronic thermal accumulation rate...
Page 185 Communication parameter group07 Shihlin Modbus protocol Modbus Item Data content and function description command command address code code EEPROM H1009 H0000~HFDE8(two decimal points when 00-08=0; Frequency setup H1002 one decimal point when non-zero) Output frequency H1003 H0000~H9C40(same as above) Output current H1004 H0000~HFFFF(two decimal points) Output voltage...
Page 186 Communication parameter group07 Data Content Unit H0008 Inverter output power 0.01kW H0009 Inverter NTC temperature accumulation 0.01 H000A Motor electronic thermal accumulation rate H000B PID control target pressure 0.1% H000C PID control feedback pressure 0.1% H000D Motor speed (Hz) 0.01Hz H000E Terminal HDI input frequency 0.01kHz...
Page 187 Communication parameter group07 5.8.3 Canopen protocol Setting for using Canopen communication card (optional)  Parameter Name Default Setting Range Content 07-15 CANopen slave 0～127 P.800 address 1Mbps 500Kbps 07-16 250K/280Kbps CANopen speed P.801 125Kbps 100Kbps 50Kbps Node retry status Communication retry status Retry completion status 07-17 CANopen...
Page 188 Communication parameter group07 5.8.5 Ethernet communication Using EP301 communication expansion card related Settings  Parameter Name Default Setting Range Content 07-45 Static IP IP configuration P.830 Dynamic IP 07-46 IP address 1 0~255 P.831 07-47 IP address 2 0~255 P.832 07-48 IPad dress 3 0~255...
Page 189 PG feedback parameter group 09 5.9 PID parameter group 08 Parameter Group Name Setting Range Default Page Number 0: Off 0X: Parameter 08-03(P.225) as target value. 1X: Terminal 2-5 input as target source 2X: Terminal 4-5 input as target source 08-00 P.170 PID function selection...
Page 190 PG feedback parameter group 09 Parameter Group Name Setting Range Default Page Number 0:Adjust according to the feedback deviation value Auto adjustment for PID 1: Adjust according to the curling radius. 08-23 P.644 parameters 2: Adjust according to the operation frequency 3: Adjust according to the line speed 08-24 P.711...
Page 191 PG feedback parameter group 09 5.9.1 PID function selection Inverter can control flow, volume or pressure by PID control. By using analog signal or parameter setting as target  source, and with analog signal as feedback source, it forms a closed loop control system. Parameter Name Default...
Page 192 PG feedback parameter group 09 Parameter Name Default Setting Range Content This gain determines deviation controller’s response to deviation change rate. Appropriate deviation time can 08-06 Differential time 0～10000ms reduce overshooting and vibrating between proportion P.174 controller and integral controller. Deviation time set too long will cause system vibration.
Page 193 PG feedback parameter group 09 Setting PID parameter group 1 Calibrating analog feedback signal:  Please refer to 5.3.5~5.3.8 for analog input details. Without feedback signal Example 1: the user use 0~7V for feedback signal on terminal 2-5 First set proportional parameter 02-14(P.194) =0%, 02-15(P.195) =100%; Then set voltage parameter 02-12(P.192) =0, 02-13(P.193) =7.
Page 194 PG feedback parameter group 09 =P.172 contravariance U/T1 R/L1 e(t) V/T2 limit filter =P.173 P.182 S/L2 W/T3 T/L3 =P.174 Output Target PID module frequency value Feedback value feedback quantity convertor If output frequency reaches 01-03(P.3) * 08-14 and feedback value < target value * 08-07 , and the ...
Page 195 PG feedback parameter group 09 the target feel-back value Revival level 08-11 feedback below actually 08-11 P.179 P.179 Minishing the Output output frequency frequency gradually Outage level Revival Outage process proccess PID gain simple setting:  After changing target, response is slow ---Increase P-gain (K =08-04) response is quick but unstable...
Page 196 PG feedback parameter group 09 5.9.3 PID parameter group 2 This group of parameters is only related to close loop tension mode.  Parameter Name Default Setting Range Content This gain determines the proportion controller’s response on 08-20 0.1%～1000.0% Proportional gain P2 feedback deviation.
Page 197 PG feedback parameter group 09 5.9.4 PID filter setting Filter can reduce interference in system, but will reduce response performance.  Parameter Name Default Setting Range Content 08-24 PID target signal filter 0.00s 0～650.00s Set PID target signal low-pass filter time constant P.711 time 08-25...
Page 198 PG feedback parameter group 09 integral separated function Setting When set 08-28(P.715) to 1, integral separation is on. If deviation between target and feedback is greater than 08-29(P.716)  value, PID will only perform proportional and differential controller, which can reduce the overshoot of PID. 5.9.7 PID differential limit In PID control, differential controller can cause system to oscillate, so generally differential needs to be limited to a ...
Page 199 PG feedback parameter group 09 5.9.9 PID parameter switchover If one group of PID parameters cannot meet the requirements of the whole process control, two groups of PID can  effectively solve the problem. Parameter Name Default Setting Range Content PID parameter 08-33 switchover operation...
Page 200 PG feedback parameter group 09 Setting PID action when error occurs 08-36(P.723) is used to set PID signal loss action. Once detected PID signal loss, inverter will output alarm.  08-39(P.726) is used to set PID action when inverter stops. Nornally PID stops when inverter stops. ...
Page 201 PG feedback parameter group 09 5.10 PG feedback parameter group 09 Parameter Group Name Setting Range Default Page Number 0：ABZ 1：ABZ (For synchronous motor) 2：Resolver 1x synchronous motor standard 09-00 P.349 Encoder type encoder 3：ABZ/UVW synchronous motor standard encoder 09-01 P.350 Encoder pulse 1 0～20000...
Page 202 PG feedback parameter group 09 Parameter Group Name Setting Range Default Page Number 09-11 P.360 Anti-reversal detection pulse 0～65535 09-12 P.361 Reversal detection frequency 0～65535 09-13 P.124 Expansion card version Read only Read 0.0°：Off 09-14 P.363 Z phase correction allowance 15.0°...
Page 203 PG feedback parameter group 09 5.10.2 PG1 parameter For selecting input type of PG1 encoder.  Parameter Name Default Setting Range Content 09-01 Encoder pulse 1 1024 0～20000 P.350 A/Phase B pulse wave, forward spin if Phase A is over Phase B for 90 degrees A/Phase B pulse wave, forward spin if Phase B is over 09-02...
Page 204 PG feedback parameter group 09 Forward Reverse 4: Phase A is a pulse train. Phase B is a direction sign. L is forward rotation and H is reverse rotation. Reverse Forward Note：1. If closed loop control is selected，but 09-02 =0，alarm will be displayed and PG1 ends operation。 (P.351) 2.
Page 205 PG feedback parameter group 09 PG302Lhardware disconnection detection function （09-16 one-digit）effective to PM/IM motors，A1/B1 (P.386)  phase sequence detection function（09-16 two digits）only effective to IM motor (P.386) 5.10.4 PG2 parameter It is used to select the input mode of PG2 encoder. ...
Page 206 PG feedback parameter group 09 5.10.5 Dividing frequency output function Multiplier setting of PG card feedback output.  Parameter Name Default Setting Range Content 09-08 Frequency division 1～255 Multiplier setting of PG card foutput and feedback P.357 output setting Frequency division 09-09 filter coefficiency 0～255...
Page 207 PG feedback parameter group 09 5.10.8 Expansion card version information For displaying the current firmware version of the expansion card..  Parameter Name Default Setting Range Content 09-13 Expansion card Read Used to display the current firmware of the expansion card, Read only P.124 version...
Page 208 Application parameter group 10 5.11 Application parameter group 10 Parameter Group Name Setting Range Default Page Number DC brake operating 10-00 P.10 0～120.00Hz 3.00Hz frequency 10-01 P.11 0～60.0s 0.5s DC brake operating time 0～30.0%: 7.5K and below 4.0% 10-02 P.12 DC brake operating voltage 0～30.0%: 11K～22K 2.0%...
Page 209 Application parameter group 10 Parameter Group Name Setting Range Default Page Number 0: Off. 1: When over-voltage, inverter will reset. 2: When over-current, inverter will reset. 10-12 P.65 Auto reset function 3: When either over-voltage or over-current, inverter will reset. 4: When any alarm occur, inverter will reset.
Page 210 Application parameter group 10 Parameter Group Name Setting Range Default Page Number From inverter to 0～60.00Hz 10-31 P.249 commercial power supply 99999 99999: Off. switchover frequency 0~10.00Hz: After switching from inverter operation to commercial power supply operation, after inverter start command (STF/STR) is OFF, switch to inverter operation.
Page 211 Application parameter group 10 Parameter Group Name Setting Range Default Page Number VF separated voltage Acc 10-42 P.702 0～1000.0s 0.0s time VF separated voltage Dec 10-43 P.703 0～1000.0s 0.0s time 0: Frequency/voltage independently decreases to 0. VF separated stop 10-44 P.704 1: After the voltage decreases to 0, frequency selection...
Page 212 Application parameter group 10 Parameter Group Name Setting Range Default Page Number 0: Off 1: PLC RUN signal from digital input terminal 10-55 P.780 PLC function selection function 60 or 10-56 (P.781)。 2 ： PLC RUN signal from digital input terminal function 60 0: Off 10-56...
Page 213 Application parameter group 10 5.11.1 DC injection brake When stopping the motor, apply DC voltage on motor to stop motor shaft from rotating, users can adjust the motor  stop time and braking torque. Parameter Name Default Setting Range Content 10-00 DC brake operating 3.00Hz...
Page 214 Application parameter group 10 5.11.2 Zero-speed/zero-servo control Zero-speed/ zero-servo function selection  Parameter Name Default Setting Range Content Off. In close-loop vector control (00-21 /00-22 (P.300) (P. 370) 10-03 Zero-speed control mode do zero-speed; In V/F close-loop control (00-21 (P.300) P.151 function selection /00-22...
Page 215 Application parameter group 10 5.11.3 DC injection brake before start Before operation, motor may be in rotating state due to external force or inertia. If inverter suddenly start operation,  the output current may be too large, causing motor damage or trigger driver protection. Parameter Name Default...
Page 216 Application parameter group 10 5.11.4 Restart mode selection Select suitable start mode according to different load conditions.  Parameter Name Default Setting Range Content No frequency search. Direct frequency search Decrease voltage mode Power on once. 10-08 Start each time. Restart mode selection P.150 Only instantaneous stop and restart...
Page 217 Application parameter group 10 No frequency search restart operation  Restart operation will not care the free running speed of motor, but act according to the target frequency before the instantaneous stop, and slowly increasing the voltage. Instantaneous (power failure) time Power supply (R/L1，S/L2，T/L3) Motor speed N...
Page 218 Application parameter group 10 5.11.5 Remote setting function selection If operation box is located away from control cabinet, without analog signal, variable speed can still be realized  through digital input Parameter Name Default Setting Range Content Remote control function, frequency save in memory 10-11 Remote control Remote control function, frequency won’t save...
Page 219 Application parameter group 10 <Frequency save condition> Will save the frequency when start signal (STF/STR) is Off for one minute. When RH (accelerate) and RM (decelerate) are both Off or On, the frequency will be save every minute. (Current frequency value and last minute frequency value are compared ever minute. If they are different, then save current frequency value in memory.
Page 220 Application parameter group 10 5.11.6 Auto reset function This function allows inverter to reset itself and restart when alarm occurs. Choose which alarm to reset.  Parameter Name Default Setting Range Content Off. When over-voltage, inverter will reset. 10-12 Auto reset function When over-current, inverter will reset.
Page 221 Application parameter group 10 5.11.7 Forward and reverse rotation dead time During the process of inverter output forward -reverse transition, set the transition time at 0Hz.  Parameter Name Default Setting Range Content Off. 10-16 Forward and reverse 0.0s P.119 rotation dead time Waiting and holding time during forward -reverse switch, 0.1~3000.0s...
Page 222 Application parameter group 10 5.11.9 Dwell function During acceleration /deceleration, this function can solve the backlash problem caused by stopping acceleration  /deceleration, through frequency and time set by this parameters. Parameter Name Default Setting Range Content None. 10-18 Dwell function Backlash compensation function.
Page 223 Application parameter group 10 Target frequency Acc/Dec stopping function 10-22（P.233） 10-20（P.231） 10-21（P.232） 10-19（P.230） Start Three-wire control mode Stop Note: After setting backlash compensation, only the interruption time in acceleration and deceleration time will become longer. 5.11.10 Triangular wave function According to a certain period, through triangular wave makes output frequency oscillate. ...
Page 224 Application parameter group 10 triangular wave operation Output f0﹕ Setting value of frequency frequency f1﹕ Generated amplitude for setting frequency （f0×（10-24（P.235)) f2﹕Compensation from acceleration to （f1×（10-25（P.236)) deceleration f3﹕ Compensation from deceleration to （f1×（10-26（P.237)) acceleration 01-06 (p.7) 01-07 (p.8) 10-27 01-06 10-28 (P.238) (p.7)
Page 225 Application parameter group 10 automatically switch to inverter operation and operate at the frequency of the frequency command. If the inverter start command (STF/STR) is set to OFF, it will also switch to inverter operation. If 10-32(P.250)=99999, 10-31(P.249)≠99999 will be valid at automatic switching operation. After switching from ...
Page 226 Application parameter group 10 Power supply MC 2 MC 1 10-30 10-10 （P.248） (p.58) 10-29 10-09 10-29 （P.247）（P.57）（P.247） the commercial power-supply operation The motor speed Inverter Free Inverter Free stop operation operation operation operation With action sequence for the automatic switchover sequence(10-31(P.249) ≠ 99999, 10-32(P.250) = 99999). Output frequency Setting...
Page 227 Application parameter group 10 Note: 1. When the motor runs at 50Hz (or 60Hz), the commercial power supply will offer a more efficient operation than the inverter will. Moreover, during the inverter maintenance/inspection period, the commercial power supply circuit should be installed to prevent the motor from being stopped for too long. 2.
Page 228 Application parameter group 10 Power failure stop function Setting When 10-33 is set to 1 or 11, (and 10-09=99999), inverter decelerates to a stop when input power fail; When  (P.273) 10-33 is set to 2 or 12, inverter decelerates to a stop when input power fail, and if during deceleration power (P.273) comes back ON, inverter accelerates again.
Page 229 Application parameter group 10 5.11.13 VF complete separation Voltage command given mode, voltage acceleration/deceleration time and voltage deceleration mode in VF  complete separation. Parameter Name Default Setting Range Content 10-40 VF separated voltage Given by digital 10-41(P.701). P.700 source Given by analog or HDI pulse.
Page 230 Application parameter group 10 Parameter Name Default Setting Range Content Off. Regeneration avoid function is always on. (Automatic calculate Acc/Dec speed ) Regeneration avoid function is on only during constant 10-45 Regeneration avoid speed operation (Automatic calculate Acc/Dec speed ) P.267 function selection Regeneration avoid function is always on.
Page 231 Application parameter group 10 5.11.15 Over excitation deceleration function Over excitation deceleration function increases the energy consumption of motor by increasing the magnetic flux  at deceleration and stop, which can shorten the deceleration time without braking resistor. Parameter Name Default Setting Range Content...
Page 232 Application parameter group 10 5.11.17 Built-in PLC Setting of the parameters for the built-in PLC functions  Parameter Name Default Setting Range Content 10-55 PLC RUN signal from digital input terminal function 60 or PLC function selection P.780 10-56 (P.781)。 PLC RUN signal from digital input terminal function 60 10-56 PLC run...
Page 233 Application parameter group 10 10-58(P.783) 10-59(P.784) 10-58(P.783) 10-59(P.784) M16~M31 M8048~M8063 M32~M47 M8064~M8079 M48~M63 27~52 keep M64~M79 53~60 T0~T7 Set value (word) M80~M95 61~68 keep M96~M111 69~76 C0~C7 Set value M112~M127 77~84 keep M128~M143 85~92 T0~T7 Set value (word) M144~M159 93~100 keep M160~M175 101~108...
Page 234 Speed and torque control parameter group11 5.12 Speed and torque control parameter group 11 Parameter Group Name Setting Range Default Page Number Speed control proportional 11-00 P.320 0～200.0 coefficient 1 11-01 P.321 0～20.000s 0.50s Speed control integral time 1 PI coefficient switchover 11-02 P.322 11-25（P.414）～11-05（P.325）Hz...
Page 235 Speed and torque control parameter group11 Parameter Group Name Setting Range Default Page Number 0～2000 Second motor speed control 11-30 P.371 10.0 proportional coefficient 1 99999 0～20.00s Second motor speed control 11-31 P.372 0.50s integral time 1 99999 0～11-35 (P.376)Hz Second motor PI coefficient 11-32 P.373...
Page 236 Speed and torque control parameter group11 5.12.1 Control parameter When inverter runs in different frequencies, select and set different velocity loop PI parameters.  Parameter Name Default Setting Range Content 11-00 Speed control 10.0 0～200.0 P.320 proportional coefficient 1 11-01 Speed control integral 0.50s 0～20.000s...
Page 237 Speed and torque control parameter group11 Note: 1. Increase 11-00 / 11-03 / 11-23 speed control gain can elevate response. But set too high can (P.320) (P.323) (P.412) generate vibration and noises. 2. Reduce 11-01 / 11-04 / 11-24 speed control integral coefficient can shorten the time required (P.321) (P.324) (P.413)
Page 238 Speed and torque control parameter group11 current during acceleration. 11-10 is used to make the direction positioning for PM motor pole more effective during operation, the  (P.330) current for pulling in, 05-05 (the motor rated current) is set to 100%, set the d-axis current during operation at (P.306) a constant speed.
Page 239 Speed and torque control parameter group11 Torque command Run command Item Motor run direction Forward Reverse Has nothing to do with run command Has nothing to do with torque command Run LED on keypad FWD LED on REV LED on direction and motor run direction 11-15 is torque filter coefficient.
Page 240 Speed and torque control parameter group11 5.12.5 Torque limit Set the torque limit values of the four quadrants via parameters.  Parameter Name Default Setting Range Content 11-19 Forward-rotation 200.0% 0～400.0% Set torque limit in first quadrant. electronic torque limit P.408 Reverse-rotation 11-20...
Page 241 Speed and torque control parameter group11 5.12.6 Second motor control parameter Realize second motor function by setting second motor control parameter and digital input terminal.  Parameter Name Default Setting Range Content Second motor speed 0～2000.0 11-30 control proportional 100.0 P.371 coefficient 1 99999...
Page 242 Speed and torque control parameter group11 5.12.7 Second PM motor setting Realize second motor function by setting second motor control parameter and digital input terminal.  Parameter Name Default Setting Range Content 11-37 Second PM motor type P.378 99999 Pull in. 11-38 Second PM motor initial High frequency pulse...
Page 243 Speed and torque control parameter group11 5.12.9 PM Motor current loop controller parameters Adjust current loop responsiveness by setting PM current loop controller parameters.  Parameter Name Default Setting Range Content 11-48 Speed loop zero speed 5.0Hz 0~100.0Hz P.387 bandwidth 11-49 Speed loop low speed 5.0Hz...
Page 244 Position control parameter12 5.13 Position control parameter 12 Parameter Group Name Setting Range Default Page Number 12-00 P.420 Homing mode 0～2123 Homing,first high speed 12-01 P.421 0～650.00Hz 10.00Hz Homing,second high speed 12-02 P.422 0～650.00Hz 2.00Hz Pulse deviation of -30000~30000 12-03 P.423 original point 0: External pulse.
Page 245 Position control parameter12 Parameter Group Name Setting Range Default Page Number Pulse number of position 12-31 P.461 -30000~30000 command 6 Cycle number of position 12-32 P.462 -30000~30000 command 7 Pulse number of position 12-33 P.463 -30000~30000 command 7 Cycle number of position 12-34 P.464 -30000~30000...
Page 246 Position control parameter12 5.13.1 Homing mode Set original position of position control with homing function.  Parameter Name Default Setting Range Content Homing mode setting: 0：Turn off homing mode 1：Execute homing mode automatically when power is on 2：Set terminal to SHOM function to initiate homing mode 0：After check，motor decelerates and returns to original point.
Page 247 Position control parameter12 y=0、z=0 Speed Position Z pulse ORGP SHOM y=0、z=1 Speed Position Z pulse ORGP SHOM y=1、z=0 Speed Position Z pulse ORGP SHOM y=1、z=1 Speed Position Z pulse ORGP SHOM PARAMETER DESCRIPTION 245...
Page 248 Position control parameter12 y=2、z=0 Speed Position ORGP SHOM y=2、z=1 Speed Position ORGP SHOM y=2、z=2 Speed Position Z pulse SHOM y=2、z=3 Speed Position Z pulse SHOM Original point pulse offset：Set original point offset value according to forward spin direction of motor ...
Page 249 Position control parameter12 5.13.2 Position control parameter Achieve accurate control function by setting with inverter via PG vector control mode.  Setting Parameter Name Default Content Range Position instruction source comes from external pulse. Position instruction source comes from the parameter 12-04 Position command (relative position).
Page 250 Position control parameter12 output. Zero speed threshold： When the actual revolution speed is slower than 12-13 （P.433）， multi-function input terminal  （position/speed switch）is valid. motor speed Switching action effectively in the area Zero velocity threshold Position command response  Pr position mode, the position command response The relative position 12-04 (P.
Page 251 Position control parameter12 5.13.3 Zero servo Adjust the responsiveness of inverter zero servo by setting zero servo gain.  Parameter Name Default Setting Range Content 12-10 Zero servo gain 0～100 P.430 Zero servo Setting Refer to 12-10 for settings for responsiveness of zero servo.Increase value when irresponsive, load is ...
Page 252 Position control parameter12 Under closed-loop speed mode，set external terminal function to single point positioning(03-03(P.80)=68 for instance).When terminal M0 is OFF，it is under pure speed mode，when terminal M0 is ON，Inverter goes from current functioning frequency to accelerate/decelerate curve,runs to positioning frequency(parameter 12-12 ),operates under said positioning frequency until Z phase is detected,switch to the position control (P.432)
Page 253 Position control parameter12 Parameter Name Default Setting Range Content 12-30 Number of cycle -30000~30000 P.460 position command 6 12-31 Number of pulse -30000~30000 P.461 of position command 6 12-32 Number of cycle -30000~30000 P.462 position command 7 12-33 Number of pulse -30000~30000 P.463 of position command 7...
Page 254 Position control parameter12 Position command Setting When 12-04 is 1,2,set terminal function to REX,RH,RM,RL.Position command is determined by both  (P.424) parameter and input terminal. Position command accelerate/decelerate time is determined by 01-06P.7)、01-07P.8).  Position command is determined by the position control of the parameter.The spinning direction of the motor is ...
Page 255 Special adjustment parameter group 13 5.14 Special adjustment parameter group 13 Parameter Group Name Setting Range Default Page Number 13-00 P.89 Slip compensation coefficient 0～10 13-01 P.246 Modulation coefficient 0.90～1.20 1.00 Low frequency vibration 13-02 P.285 0～8 suppression factor High frequency vibration XX00～XX15 13-03 P.286...
Page 256 Special adjustment parameter group13 5.14.3 Vibration inhibition It is used to suppress the large fluctuation of inverter output current, large fluctuation of motor speed and motor  vibration. Parameter Name Default Setting Range Content Low frequency 13-02 If the motor vibrates at a lower frequency, adjust the set vibration inhibition 0～8 value of 13-02...
Page 257 Tension control parameter group 14 5.15 Tension control parameter group 14 Parameter Group Name Setting Range Default Page Number 0：Off 1：Open loop torque control mode（under closed loop vector control mode） 14-00 P.600 Tension control parameter 2：Closed loop speed control mode 3 ：...
Page 258 Tension control parameter group 14 Parameter Group Name Setting Range Default Page Number 14-14 P.612 Winding diameter 0～10000mm 100mm 0：Initial winding radius is determined by parameter 14-16(P.614)～14-18(P.616) Initial winding radius 14-15 P.613 source 1：Initial winding radius is determined by analog value 14-16 P.614...
Page 259 Tension control parameter group 14 Parameter Group Name Setting Range Default Page Number 14-40 P.640 Delay detection 0.1～60.0s 2.0s 14-41 P.645 Pre-drive speed gain -50.0%～50.0% 0.0% 14-42 P.646 Pre-drive torque increase -50.0%～50.0% 0.0% 14-43 P.647 Pre-drive delay 0～65535ms 0：Off 1：Obtain linear speed via analog value or pulse 14-44 P.656 Linear speed setting source...
Page 260 Tension control parameter group 14 5.15.1 Tension control mode selection Tension control mode selection  Parameter Name Default Setting Range Content Off. Open-loop torque control mode（Under closed-loop vector control） 14-00 Tention control mode Closed-loop speed control mode P.600 selection Closed-loop torque control mode（Under closed-loop vector control mode）...
Page 261 Tension control parameter group 14 14-01 is for selecting winding mode,which can be used together with wind/release terminal.When the  (P.601) switching terminal of the wind/release is invalid，the actual winding mode is the same as the function mode. When the switching terminal of the wind/release is valid,the actual setting of the winding mode is the same as the setting of the switching terminal of wind/release.
Page 262 Tension control parameter group 14 When 14-04 is 2，tension is set via communication.When controlling using upstream model,tension can be  (P.604) set by communication.There are two ways to set tension by communication,one is to alter the value of 14-05 (P.605) (14-04 should be set to 0),the other is to set via modbus address H100C (14-04 should be set to...
Page 263 Tension control parameter group 14 Parameter Name Default Setting Range Content Initial winding radius is determined by parameter 14-16 14-15 Initial winding radius （P.614）～14-18（P.616） P.613 source Initial winding radius is determined by analog value 14-16 Initial winding radius 100mm 1～10000mm P.614 source1 14-17...
Page 264 Tension control parameter group 14 Setting Winding radius calculation The winding radius needs to be calculated in every tension control method.The winding radius can be obtained  through the in winding radius calculation module integrated in the inverter or the external winding radius sensor. When parameter 14-11 is 0，the winding radius is calculated by the system current linear speed and the ...
Page 265 Tension control parameter group 14 shaft(14-14 ).The default radius when releasing is the maximum winding radius(14-13 (P.612) (P.611) Parameter 14-19 is for setting the winding radius filtering coefficiency.This parameter is used to avoid fast  (P.617) change of winding radius calculation (or input) result. Parameter 14-20 is used for displaying the current winding radius.
Page 266 Tension control parameter group 14 14-29 is used for selecting the method or channel for obtaining linear speed.  When 14-29 =0，there is no linear speed input. (P.627) When 14-29 =1，linear speed is obtained through analog value or pulse input.The correct maximum (P.627) speed 14-30 , analog value or pulse input`s setting corresponding to maximum linear speed is required.
Page 267 Tension control parameter group 14 14-36 is for setting the friction compensation coefficiency.Take wind-up for instance, Material tension  (P.636) decreases because of friction, especially with small rolls.Also,it makes tension nonlinear.It can be improved by setting this parameter. 5.15.6 Material outage detection Supplementary function,not effective in all situations..
Page 268 Tension control parameter group 14 5.15.7 Pre-drive control Changing roll during operation can prevent large impact.  Parameter Name Default Setting Range Content 14-41 Pre-drive speed gain 0.0% -50.0%～50.0% P.645 14-42 Pre-drive torque 0.0% -50.0%～50.0% Pre-drive torque gain percentage P.646 increase 14-43 Pre-drive delay...
Page 269 Tension control parameter group 14 Torque memory enable When the upper roll to be changed has contacted with the material and the lower roll hasn`t been changed,no matter which torque control mode is selected,the lower roll inverter will be switched to torque control mode by the torque memory signal.The given torque command is the torque memorized by the previous inverter memory.
Page 270 Tension control parameter group 14 5.15.8 Constant linear speed mode Constant linear speed mode(14-00 =”4”)，used to select the method of acquiring the target constant linear  (P.600) speed.. Parameter Name Default Setting Range Content Parameter 14-45（P.657）setting 14-44 Line speed setting Obtain linear speed via analog value or pulse input P.656 source...
Page 271 User parameter group15 5.16 User parameter group 15 Parameter Group Name Setting Range Default Page Number 15-00 P.900 User registered parameter 1 99999 15-01 P.901 User registered parameter 2 99999 15-02 P.902 User registered parameter 3 99999 15-03 P.903 User registered parameter 4 99999 15-04 P.904...
Page 272 User parameter group15 Parameter Name Default Setting Range Content 15-07 User registered 99999 parameter 8 P.907 15-08 User registered 99999 P.908 parameter 9 15-09 User registered 99999 P.909 parameter 10 15-10 User registered 99999 parameter 11 P.910 15-11 User registered 99999 parameter 12 P.911...
Page 273 Inspection item 6. INSPECTION AND MAINTENANCE 6.1 Inspection item 6.1.1 Daily inspection item Inverter is mainly composed of semiconductor components. In order to prevent faults caused by influence of  environment such as temperature, humidity, dust and vibration, or aging and service life of used parts, users must do daily inspections 1.
Page 274 Inspection item 6.1.3 Diodes and IGBT check Before checking, first remove the external wiring on main circuit terminals (R/L1、S/L2、T/L3、U/T1、V/T2、W/T3).  Then set the meter to ohm-testing position. Positive probe Negative probe Normal result Positive probe Negative probe Normal result R/L1 Conductive U/T1 Conductive...
Page 275 Inspection item 6.1.5 Replacement parts Inverter is composed of many electronic components such as semiconductor components.  Due to the composition or physical characteristics, the following components will age within a certain period of time,  thus reducing the inverter performance and even causing faults. Therefore, it is necessary to replace them on a regular basis.
Page 276 Ways to measure voltage, current, power on main circuit 6.2 Ways to measure voltage, current, power on main circuit 6.2.1 Measurement instruments choosing Since inverter voltage and current on input side and output side includes harmonics, measurement data result may ...
Page 277 Ways to measure voltage, current, power on main circuit 6.2.4 Measurement of power Use digital power meters at the input and output terminals of inverter simultaneously, or use electrodynamic  meters at the input and output terminals of inverter simultaneously. Then, measure the power by the 2-power measurement method or the 3-power measurement method.
Page 278 Appendix 1 7. APPENDIX 7.1 Appendix 1 Parameter table 7.1.1 P parameter number sequence Parameter Group Name Setting Range Default Page Number 0.75K: 0～30.0% 6.0% 1.5K～3.7K: 0～30.0% 4.0% 01-10 Torque boost 5.5K～7.5K: 0～30.0% 3.0% 11K～22K: 0～30.0% 2.0% 01-00 Maximum frequency 22K and below: 0.00～01-02(P.18)Hz 120HZ 01-01...
Page 279 Appendix 1 Parameter Group Name Setting Range Default Page Number High-speed maximum P.18 01-02 01-00(P.1)～650.00Hz 120.00Hz frequency 0～1000.0V P.19 01-04 Base voltage 99999 99999: Change according to the input voltage 50Hz system setting: 50.00Hz Acceleration/deceleration 1.00～650.00Hz P.20 01-09 reference frequency 60Hz system setting: 60.00Hz 1.00～650.00Hz...
Page 280 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: In communication mode, run signal and Communication mode frequency is given by communication. P.35 00-19 selection 1: In communication mode, run signal and frequency is given by external signal. COM1 inverter P.36 07-01...
Page 281 Appendix 1 Parameter Group Name Setting Range Default Page Number 0～650.00Hz Output frequency detection P.43 03-22 99999 for reverse rotation 99999: Same as the setting of 03-21(P.42) 0～360.00s/0～3600.0s P.44 01-22 Second acceleration time 99999 99999: Off 0～360.00s/0～3600.0s P.45 01-23 Second deceleration time 99999 99999: Off 0～30.0%...
Page 282 Appendix 1 Parameter Group Name Setting Range Default Page Number 9: Output torque, use two times motor rated torque as 100%.(Valid only when 00-21 (P.300) or 00-22 (P.370) is set to 3~6) 10: Output power, use two times motor rated power as 100%.
Page 283 Appendix 1 Parameter Group Name Setting Range Default Page Number P.69 10-15 Auto reset times count Read Special regenerative brake P.70 06-06 0～100.0% 0.0% duty 0: Idling brake P.71 00-13 Idling brake / DC brake 1: DC brake P.72 00-11 Carrier frequency 1~15 kHz 5 kHz...
Page 284 Appendix 1 Parameter Group Name Setting Range Default Page Number 99999: Second operation mode, run command is P.79 00-16 Operation mode selection set by 00-18(P.109), target frequency is set by 00-17(P.97) P.80 03-03 Terminal M0 input function Same as 03-00 P.81 03-04 Terminal M1 input function...
Page 285 Appendix 1 Parameter Group Name Setting Range Default Page Number 33: PO(In “external mode", run programmed operation) 34: RES_E (External reset, valid only when alarm.) 35: MPO (In “external mode” run manual cycle operation.) 36: TRI(Triangle wave function) 37: GP_BP (Automatic switch between inverter and commercial power-supply.) 38: CS(Manual switch to commercial power supply)
Page 286 Appendix 1 Parameter Group Name Setting Range Default Page Number Terminal RES input Same as 03-00 P.86 03-02 function P.87 03-14 Digital input logic 0～1023 Digital output logic (with P.88 03-15 0～4095 expansion card) Slip compensation 0～10 P.89 13-00 coefficient P.90 00-00 Inverter model...
Page 287 Appendix 1 Parameter Group Name Setting Range Default Page Number Programmed operation P.105 04-31 mode speed 5 operating 0～6000.0s 0.0s time Programmed operation mode P.106 04-32 0～6000.0s 0.0s speed 6 operating time Programmed operation P.107 04-33 mode speed 7 operating 0～6000.0s 0.0s time...
Page 288 Appendix 1 Parameter Group Name Setting Range Default Page Number Programmed operation P.118 04-42 mode speed 8 Acc/Dec 0～600.00s/0～6000.0s 0.00s time Forward and reverse P.119 10-16 0～3000.0s 0.0s rotation dead time P.120 03-16 Output signal delay time 0～3600.0s 0.0s direction each P.121 04-16...
Page 289 Appendix 1 Parameter Group Name Setting Range Default Page Number XX0: No frequency search. XX1: Direct frequency search XX2: Decrease voltage mode X0X: Power on once. X1X: Start each time. P.150 10-08 Restart mode selection X2X: Only instantaneous stop and restart 0XX: No rotation direction detection.
Page 290 Appendix 1 Parameter Group Name Setting Range Default Page Number 6: Electronic thermal accumulation rate (%) 7: Signal value (V) of 2-5 input terminals. 8: Signal value (mA) of 4-5 input terminals (mA/V). 9: Output power (kW). 10: PG card feedback rotation speed. (Hz) 11: Forward reverse rotation signal.
Page 291 Appendix 1 Parameter Group Name Setting Range Default Page Number 0～650.00Hz P.168 01-34 Middle frequency 5 99999 99999: Off Output voltage 5 of P.169 01-35 0～100.0% 0.0% middle frequency 0: Off 0X: Parameter 08-03(P.225) as target value. 1X: Terminal 2-5 input as target source P.170 08-00 PID function selection...
Page 292 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Frequency related parameter default value is 60Hz. P.189 00-24 50Hz/60Hz switch selection 1: Frequency related parameter default valueis 50Hz. P.190 02-47 Terminal AM output bias 0～1024 P.191 02-46 Terminal AM output gain 0～1024 Terminal 2-5 minimum P.192...
Page 293 Appendix 1 Parameter Group Name Setting Range Default Page Number Dwell frequency at P.232 10-21 0～650.00Hz 1.00Hz deceleration P.233 10-22 Dwell time at deceleration 0～3600.00s P.50 0: Off. Triangular wave function 1: If terminal function TRI is triggered, triangular P.234 10-23 selection wave function will on.
Page 294 Appendix 1 Parameter Group Name Setting Range Default Page Number P.246 13-01 Modulation coefficient 0.90～1.20 1.00 Switch to commercial P.247 10-29 supply MC switchover 0.1～100.0s 1.0s interlock time Switch commercial P.248 10-30 0.1～100.0s P.50 supply waiting time From inverter to 0～60.00Hz P.249 10-31...
Page 295 Appendix 1 Parameter Group Name Setting Range Default Page Number Over excitation 0: Off. P.264 10-51 deceleration 1: Over excitation deceleration is valid. Over excitation current P.265 10-52 0～150.0% 100.0% level P.266 10-53 Over excitation gain 1.00～1.40 1.10 0: Off. 1: Regeneration avoid function is always on.
Page 296 Appendix 1 Parameter Group Name Setting Range Default Page Number When input power fail P.274 10-34 subtracted frequency at 0～20.00Hz 3.00Hz deceleration start 0～120.00Hz: When output frequency≥10-35 (P.275), Motor decelerates from “output frequency When input power fail - 10-34(P.274)”；When output frequency＜10-35 P.275 10-35 subtraction starting...
Page 297 Appendix 1 Parameter Group Name Setting Range Default Page Number Total inverter power on P.296 06-29 0～1439 min 0min time (minutes) Total inverter power on P.297 06-30 0～9999 day 0day time (days) P.298 06-31 Output power(lower 16 bit) Read only Read P.299 06-32...
Page 298 Appendix 1 Parameter Group Name Setting Range Default Page Number IM motor leakage According to P.311 05-10 0～6500.0mH inductance IM motor mutual According to P.312 05-11 0～6500.0mH inductance According to P.313 05-12 PM motor stator resistance 0～65000mΩ PM motor d-axis According to P.314 05-13...
Page 299 Appendix 1 Parameter Group Name Setting Range Default Page Number Second motor rated 0～650.00Hz P.335 05-25 99999 frequency 99999 0~500.00A: Below Frame D Second motor rated P.336 05-26 99999 frequency 99999 0～65000r/min P.337 05-27 Second motor rated current 99999 99999 Second motor excitation 0~500.00A P.338...
Page 300 Appendix 1 Parameter Group Name Setting Range Default Page Number P.352 09-03 PG error detection time 0～100.0s 1.0s Overspeed detection P.353 09-04 0～30.00Hz 4.00Hz frequency P.354 09-05 Overspeed detection time 0～100.0s 1.0s P.355 09-06 Encoder pulse 2 0～20000 2500 0：Off 1：A/Phase B pulse wave, forward spin if Phase A is over Phase B for 90 degrees 2：A/Phase B pulse wave，forward spin if Phase B...
Page 301 Appendix 1 Parameter Group Name Setting Range Default Page Number Second motor speed 0～2000.0 P.371 11-30 control proportional 100.0 99999 coefficient 1 0～20.00s Second motor speed P.372 11-31 0.30s control integral time 1 99999 0～11-35 (P.376)Hz Second motor PI coefficient P.373 11-32 5.00Hz...
Page 302 Appendix 1 Parameter Group Name Setting Range Default Page Number Inertia identification speed limit 0~100% P.391 05-19 Acceleration and deceleration 0～20.0s 2.0s P.392 05-20 time of inertia identification 0: one direction rotation Operation mode inertia P.393 05-21 identification 1: both direction rotation 0 ~ 6500.0kg.
Page 303 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: External pulse. P.424 12-04 Position instruction source 1: Relative position. 2: Absolute position. P.425 12-05 Position control proportional gain 0～65535 Position control feed-forward gain coefficiency P.426 12-06 0～65535 P.427 12-07 Position control feed forward low pass filter time 0～65535ms...
Page 304 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Off 1: Frequency command 2: Torque command 3: PID target value 4: PID feedback signal 5: Tension target value 6: Line speed 7: Line speed feedback 8: Real-time roll diameter P.500 02-00 Function selection of terminal 2-5...
Page 305 Appendix 1 Parameter Group Name Setting Range Default Page Number Terminal HDI maximum input P.525 02-40 0～100.00kHz 100.00kHz frequency P.526 02-38 Terminal HDI filter time 0～2000ms 10ms P.528 02-22 Terminal 4-5 filter time 0～2000ms 30ms 0: Alarm and continue to run 1: Alarm and decelerate to stop P.533 06-15...
Page 306 Appendix 1 Parameter Group Name Setting Range Default Page Number Expanded digital input P.553 03-27 Same as 03-00 99999 terminal M12 Expanded digital input P.554 03-28 Same as 03-00 99999 terminal M13 Expanded digital input P.555 03-29 Same as 03-00 99999 terminal M14 Expanded digital input...
Page 307 Appendix 1 Parameter Group Name Setting Range Default Page Number 2：Closed loop speed control mode 3 ： Closed loop torque control mode （ under closed P.600 14-00 Tension control parameter loop vector control mode） 4：Constant linear speed control mode 0：Wind roll P.601 14-01 Rollling mode...
Page 308 Appendix 1 Parameter Group Name Setting Range Default Page Number Material thickness 3 0.01～100.00mm P.625 14-27 0.01mm Maximum thickness 0.01～100.00mm P.626 14-28 1.00mm 0：Off Linear speed input source P.627 14-29 1：Analog value or pulse input 2：Communication setting 1000.0m/m Maximum linear speed 0.1～6500.0m/min P.628 14-30...
Page 309 Appendix 1 Parameter Group Name Setting Range Default Page Number 0：Off 1：Obtain linear speed via analog value or pulse P.656 14-44 Linear speed setting source input 2：Obtain linear speed via communication P.657 14-45 Linear speed setting 0.0m/min 0～6500.0m/min 0：Use rated frequency of motor as standard of Closed-loop tension limit limitation P.658...
Page 310 Appendix 1 Parameter Group Name Setting Range Default Page Number P.717 08-30 PID differential limit 0～100.00% 0.10% P.718 08-31 PID output positive deviation limit 0～100.00% 100.00% P.719 08-32 PID output negative deviation limit 0～100.00% 100.00% 0: No PID parameter switchover. PID parameter switchover operation P.720 08-33...
Page 311 Appendix 1 Parameter Group Name Setting Range Default Page Number P.760 06-64 E1 alarm date (days/hours) Read only Read P.761 06-65 E1 alarm date (minutes / seconds) Read only Read P.766 06-70 Output frequency during E2 alarm Read only Read P.767 06-71 Output current during E2 alarm...
Page 312 Appendix 1 Parameter Group Name Setting Range Default Page Number PU inverter communication station P.811 07-26 0～254 number 0：Baud rate 4800bps 1：Baud rate 9600bps 2：Baud rate 19200bps P.812 07-27 PU Serial communication baud rate 3：Baud rate 38400bps 4：Baud rate 57600bps 5：Baud rate 115200bps 0：8bit P.813...
Page 313 Appendix 1 Parameter Group Name Setting Range Default Page Number P.839 07-54 Default gateway 1 0~255 P.840 07-55 Default gateway 2 0~255 P.841 07-56 Default gateway 3 0~255 P.842 07-57 Default gateway 4 0~255 P.900 15-00 User registered parameter1 99999 P.901 15-01 User registered parameter2...
Page 314 Appendix 1 7.1.2 Arrange by function group Parameter Group Name Setting Range Default Page Number 00-00 P.90 Inverter model Read only Read only 00-01 P.188 Firmware version Read only Read only 0: Off 1: Clear alarm history (P.996=1) 2: Reset inverter (P.997=1) 3: Restore all parameters to default (P.998=1) 4: Restore some parameters to default 1 00-02...
Page 315 Appendix 1 Parameter Group Name Setting Range Default Page Number 5: Running frequency (Hz) 6: Electronic thermal accumulation rate (%) 7: Signal value (V) of 2-5 input terminals. 8: Signal value (mA) of 4-5 input terminals (mA/V). 9: Output power (kW). 10: PG card feedback rotation speed.
Page 316 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Press STOP button and inverter stop running in PU and H2 mode 00-14 P.75 Stop function selection 1: Press STOP button and inverter stop running in all mode. 0: Forward/reverse rotation are both permitted. 1: Prevent reverse rotation (Giving reverse signal Prevent forward/reverse 00-15...
Page 317 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Induction motor V/F control 1: Induction motor close-loop V/F control (VF+PG) 2: Induction motor simple vector control 3: Induction motor sensorless vector control Second motor control 00-22 P.370 99999 mode selection 4: Induction motor PG vector control 5: Synchronous motor PG vector control...
Page 318 Appendix 1 Parameter Group Name Setting Range Default Page Number 01-11 P.13 Starting frequency 0～60.00Hz 0.50Hz 0: For constant torque loads (conveyor belt,etc.) 1: For variable torque loads (fans and pumps, etc.) 2、3: For Lifting loads 01-12 P.14 Load pattern selection 4: Multipoint V/F curve 5~13: Special two-point V/F curve 14: V/F complete detached mode...
Page 319 Appendix 1 Parameter Group Name Setting Range Default Page Number Output voltage 5 of middle 01-35 P.169 0～100.0% 0.0% frequency S curve time at the 01-36 P.255 0～25.00s/0～250.0s 0.20s beginning of acceleration S curve time at the end of 0～25.00s/0～250.0s 01-37 P.256 99999...
Page 320 Appendix 1 Parameter Group Name Setting Range Default Page Number 9: Output torque, use two times motor rated torque as 100%.(Valid only when 00-21 (P.300) or 00-22 (P.370) is set to 3~6) 10: Output power, use two times motor rated power as Terminal AM output 100%.
Page 321 Appendix 1 Parameter Group Name Setting Range Default Page Number -100.0%～100.0% Percentage corresponds to 02-15 P.195 terminal 2-5 maximum positive 100.0% voltage -400.0%～400.0%(02-00(P.500)= 2/14/15/16/17) Terminal 2-5 minimum input 02-16 P.512 0～10.00V 0.00V negative voltage Terminal 2-5 maximum input 02-17 P.513 0～10.00V 0.00V negative voltage...
Page 322 Appendix 1 Parameter Group Name Setting Range Default Page Number -100.0%～100.0% Percentage corresponds to 02-28 P.197 terminal 4-5 maximum input 100.0% current/ voltage -400.0%～400.0%(02-00(P.500)= 2/14/15/16/17) 02-38 P.526 Terminal HDI filter time 0～2000ms 10ms Terminal HDI minimum input 02-39 P.524 0～100.00kHz 0.00kHz frequency Terminal HDI maximum input...
Page 323 Appendix 1 Parameter Group Name Setting Range Default Page Number 10: Output power, use two times motor rated power as 100%. Terminal FM output function 11: High-speed pulse input, use 100KHz as 02-44 P.543 selection 100%. 12: Motor speed, use 02-51 (P.55) as 100% 0: Output 0~10V across terminal AM-5.
Page 324 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: STF(Inverter runs forward) 1: STR(Inverter runs reverse) 2: RL(Multi-speed low speed) 3: RM(Multi-speed medium speed) 4: RH(Multi-speed high speed) 5:AU( Analog terminal 4-5 high priority) 6: External thermal relay actuate 7: MRS(Stops inverter output immediately) 8: RT(Inverter second function) 9: EXT(External JOG)
Page 325 Appendix 1 Parameter Group Name Setting Range Default Page Number 35: MPO (In “external mode” run manual cycle operation.) 36: TRI(Triangle wave function) 37: GP_BP (Automatic switch between inverter and commercial power-supply.) 38: CS(Manual switch to commercial power supply) 39: STF/STR +STOP (Use with RUN signal, when ON, motor runs reverse, when OFF, motor stops then runs forward.) 40: P_MRS (Stops inverter output immediately...
Page 326 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: RUN(Output when inverter running) 1: SU(Output when reach target frequency) 2: FU(Output when reach 03-21 03-22 value ) 3: OL(Output when overload) 4: OMD(Output when output current is zero) 5: ALARM(Output when alarm) 6: PO1(Output when in program operation step) 7: PO2(Output when in program operation cycle)
Page 327 Appendix 1 Parameter Group Name Setting Range Default Page Number Expanded digital input 03-26 P.552 Same as 03-00(P.83) 99999 terminal M11 Expanded digital input 03-27 P.553 Same as 03-00(P.83) 99999 terminal M12 Expanded digital input 03-28 P.554 Same as 03-00(P.83) 99999 terminal M13 Expanded digital input...
Page 328 Appendix 1 Parameter Group Name Setting Range Default Page Number 04-00 Speed1(high speed) 0～650.00Hz 60.00Hz 04-01 Speed2(mediumspeed) 0～650.00Hz 30.00Hz 04-02 Speed3(low speed) 0～650.00Hz 10.00Hz 0～650.00Hz 04-03 P.24 Speed4 99999 99999: Function invalid 04-04 P.25 Speed5 Same as 04-03 99999 04-05 P.26 Speed6 Same as 04-03...
Page 329 Appendix 1 Parameter Group Name Setting Range Default Page Number Programmed operation mode 04-27 P.101 0～6000.0s 0.0s speed 1 operating time Programmed operation mode 04-28 P.102 0～6000.0s 0.0s speed 2 operating time Programmed operation mode 04-29 P.103 0～6000.0s 0.0s speed 3 operating time Programmed operation mode 04-30 P.104...
Page 330 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Off 1: Induction motor specifications automatic measurement 1 (Run motor to measure) 2: Induction motor specifications automatic measurement 2 (Don’t run motor to measure) 3: Induction motor specifications automatic measurement (Measure when operating) Motor specifications 05-00...
Page 331 Appendix 1 Parameter Group Name Setting Range Default Page Number According 05-15 P.316 PM motor Back-EMF coefficient 0～6500.0V/krpm to kW PM motor Phase Z origin pulse 05-16 P.317 0～359.9° 0.0° compensation 0～6500.0kg. cm2: 5.5K and below According 05-17 P.318 Motor inertia to kW 0～65000kg.cm2: 7.5K~ 22kW Load inertia ratio...
Page 332 Appendix 1 Parameter Group Name Setting Range Default Page Number 0 ~ 6500.0kg. cm2: 5.5k and below 0 ~ 65000kg. cm2: 7.5k ~ 22K model 05-38 P.394 Second motor inertia 99999 9999 0~600.0 Second motor load inertia ratio 05-39 P.395 99999 9999 Electronic thermal relay...
Page 333 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Off 06-13 P.281 Input phase loss protection 1: When input phase loss, inverter stops and alarms IPF.(For Frame C/D only) 0: Off SCP Short circuit protection 06-14 P.287 1: When output side is short, inverter stops and function alarms SCP.
Page 334 Appendix 1 Parameter Group Name Setting Range Default Page Number 06-32 P.299 Output power(higher 16 bit) Read only Read 06-40 P.288 Alarm record code query 0～12 06-41 P.289 Alarm record code display Read only Read 06-42 P.290 Alarm record message query 0～10 06-43 P.291...
Page 335 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Modbus protocol COM1 07-00 P.33 Communication 1: Shihlin protocol protocol selection 2：PLC protocol（Effective when using Shihlin built-in PLC） COM1 inverter 07-01 P.36 0～254 communication station number 0: Baud rate:4800bps 1: Baud rate:9600bps COM1 Serial 2: Baud rate:19200bps...
Page 336 Appendix 1 Parameter Group Name Setting Range Default Page Number 3: 125Kbps 07-16 P.801 CANopen rate 4: 100Kbps 5: 50 Kbps 0: Node retry status 1: Communication retry status CANopen 2: Retry completion status 07-17 P.802 communication 4: stop state status 5: operation status 127: pre-operational status...
Page 337 Appendix 1 Parameter Group Name Setting Range Default Page Number Number 07-33 P.818 communication 0～10 retries 0~999.8s: Check communication timeout with the set value communication 07-34 P.819 99999 interval allowed 99999: Off time 0: Alarm and stop freely. communication 07-35 P.820 1: No alarm and continue running error handling...
Page 338 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Negative feedback control. 08-01 P.171 PID feedback control method 1: Positive feedback control. 08-02 P.241 PID sampling period 0～60000 ms 20ms 08-03 P.225 PID target value 0～100.0% 20.0% 08-04 P.172 Proportional gain 0.1%～1000.0%...
Page 339 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Select no need to run to the upper limit when PID disconnection operation PID is disconnected 08-36 P.723 option 1 1: Select need to run to the upper limit when PID is disconnected PID counting when inverter 0: PID stop counting when inverter stop...
Page 340 Appendix 1 Parameter Group Name Setting Range Default Page Number Frequency division output 09-08 P.357 1～255 setting Frequency division filter 09-09 P.358 0～255 coefficiency setting 09-10 P.359 Electronic gear ratio 0～300.00 1.00 09-11 P.360 Anti-reversal detection pulse 0～65535 09-12 P.361 Reversal detection frequency 0～65535 09-13...
Page 341 Appendix 1 0～30.0s 10-09 P.57 Restart idling time 99999 99999: Off. 0～60.0s: 7.5K (included)and below. 5.0s 10-10 P.58 Restart rising time 0～60.0s: 11K～22K 10.0s 0: Off 1: Remote control function, frequency save in memory 2: Remote control function, frequency won’t save 10-11 P.61 Remote control function...
Page 342 Appendix 1 Parameter Group Name Setting Range Default Page Number Amplitude compensation at 10-26 P.237 0～50.0% 10.0% acceleration Amplitude acceleration 10-27 P.238 0～360.00s/0～3600.0s 10.00s time Amplitude deceleration 10-28 P.239 0～360.00s/0～3600.0s 10.00s time Switch to commercial 10-29 P.247 supply MC switchover 0.1～100.0s 1.0s interlock time...
Page 343 Appendix 1 Parameter Group Name Setting Range Default Page Number Deceleration time during 0~360.00s/0~3600.0s 10-36 P.276 5.00s input power failure 1 0~360.00s//0~3600.0s: Set deceleration time below the set frequency of 10-38 (P.278) Deceleration time during 10-37 P.277 99999 99999: Set deceleration time to the set frequency of input power failure 2 10-38 (P.278) When input power fail...
Page 344 Appendix 1 Parameter Group Name Setting Range Default Page Number Regeneration avoid frequency 10-50 P.272 0～400.0%/0～40.0% 100.0% gain coefficient 0: Off. 10-51 P.264 Over excitation deceleration 1: Over excitation deceleration is valid. 10-52 P.265 Over excitation current level 0～200.0% 150.0% 10-53 P.266 Over excitation gain...
Page 345 Appendix 1 Parameter Group Name Setting Range Default Page Number 0: Given by 11-12(P.401). 1: Given by analog or pulse input. 11-16 P.405 Torque command source 2: Given by communication mode. 0: Speed is limited according to 11-13 (P.402) and 11-14 (P.403) 11-17 P.406 Speed limit selection...
Page 346 Appendix 1 Parameter Group Name Setting Range Default Page Number 0～200% 11-39 P.380 Second PM motor acceleration id 99999 0～200% 11-40 P.381 Second PM motor constant speed id 99999 0～1000ms Second PM motor estimated speed 11-41 P.382 filtering time 99999 PM motor speed estimation observer 11-43 P.366...
Page 347 Appendix 1 Parameter Group Name Setting Range Default Page Number 12-26 P.456 Cycle number of position command 4 -30000~30000 Pulse number of position command 4 12-27 P.457 -30000~30000 12-28 P.458 Cycle number of position command 5 -30000~30000 12-29 P.459 Pulse number of position command 5 -30000~30000 Cycle number of position command 6 12-30...
Page 348 Appendix 1 Parameter Group Name Setting Range Default Page Number Tightening roll option 0：Forbid tightening material during startup 14-02 P.602 when releasing 1：Allow tightening material during startup Mechanical transmission 14-03 P.603 0～300.00 1.00 ratio 0：Parameter 14-05（P.605）setting 14-04 P.604 Tension setting source 1：Analog value or PULSE input setting 2：Communication setting 14-05...
Page 349 Appendix 1 Parameter Group Name Setting Range Default Page Number 14-24 P.622 Material thickness 0 0.01～100.00mm 0.01mm 14-25 P.623 Material thickness 1 0.01～100.00mm 0.01mm 14-26 P.624 Material thickness 2 0.01～100.00mm 0.01mm 14-27 P.625 Material thickness 3 0.01～100.00mm 0.01mm 14-28 P.626 Maximum thickness 0.01～100.00mm 1.00mm...
Page 350 Appendix 1 Parameter Group Name Setting Range Default Page Number 15-00 P.900 User registered parameter 1 99999 15-01 P.901 User registered parameter 2 99999 15-02 P.902 User registered parameter 3 99999 15-03 P.903 User registered parameter 4 99999 15-04 P.904 User registered parameter 5 99999 15-05...
Page 351 Appendix 3 Appendix 2 Alarm code list Code Screen display Cause Troubleshooting 1.Low input voltage 1.Use a better power supply 2.The reset function “RES” is on 2.Shut off “RES” 3.Bad connection between the 3.Ensure the keypad is connected firmly control panel and main body ERROR 4.Replace the inverter.
Page 352 Appendix 2 Code Screen display Cause Troubleshooting 1. IGBT module thermal relay 1. Avoid overloading the inverter in long actuate (overload warning) term. 2. 01-03 (P.3) setting does not 2. Recheck 01-03 (P.3) and motor rated match the rated frequency of the frequency setting motor 3.
Page 353 Appendix 3 Code Screen display Cause Troubleshooting 1.Check if the output circuit is short and check the wiring 1.Short circuit at output-end 2. Inverter may be interfered by external Short circuit 2. Inverter false alarm SCP electromagnetic noise, please improve the over-current wiring (Note 1)
Page 354 Appendix 2 Code Screen display Cause Troubleshooting 1.PG card wrong wiring or noise 1.Keep wires away from noise interfere 2. Fix the PG card wiring, make sure it is Noise in Z pulse grounded and protected 2.Encoder or PG card damaged signal Reverse rotation 1.Z pulse signal error...
Page 355 Appendix 3 7.3 Appendix 3 Warning Code List Code Screen Display Cause Troubleshooting Check if the values of P.22, P.23, and P.66 are proper. Check if the values of P.7 and When the output current is larger P.8 are too small. than Stall prevention operation If there is rapid acceleration or level, the three lights on the left...
Page 356 Appendix 4 7.4 Appendix 4 Troubles and solutions Troubles Check points •Is the voltage between terminals R/L1-S/L2-T/L3 normal? Main circuit • Is the POWER light on? •Is the wiring between the inverter and the motor correct? •Is the load too heavy? Load •Is the motor rotor locked? •Is the startup frequency (01-11(P.13)) set too high?
Page 357 REVISION RECORD 7.5 Appendix 5 Optional equipment 7.5.1 Communication card PD302: Profibus communication card  Terminal form Terminal name Function name Description Rxd/Txd-P Receive/transmit data-P Control-P CNTR-P DGND Data ground Positive voltage Rxd/Txd-N Receive/transmit data-N 1) The signal is only needed in bus cable endpoint station. 2) The signal is alternative.
Page 358 Appendix 7 CP301: Canopen communication card   RJ-45 Pin Definition Symbol Description CAN_H CAN_Hbus line (dominant high) CAN_L CAN_L bus line (dominant low) CAN_GND Ground /0V/V- CAN_GND Ground /0V/V- Socket  Function and specification Connector RJ-45 Port 2 Port Transmission mode Transmission...
Page 359 REVISION RECORD EP301：Ethernet (Modbus TCP) card  Electric specification  Terminal form Terminal name Function name Description transmit data transmit data Receive data RJ45 Receive data CAN open communication wiring  Type：SNKCBLxxGTN2 (xx stands 1R5,3,5,10) Item No. Part No. L(mm) SNKCBL1R5GTN2 1500 SNKCBL3GTN2...
Page 360 Appendix 7 EC301：EtherCAT card Electric specification  Terminal form Terminal name Function name Description transmit data transmit data Receive data RJ45 Receive data  Ordering code: Type Name Ordering Code EC301 EC301 card SNKEC301 Note: For EC301 to run normally, the software version of the inverter control board must be higher than V0.110. REVISION RECORD 358...
Page 361 REVISION RECORD 7.5.2 I/O card EB362R  Terminal Terminal form Function instructions Terminal specification name Input impedance: 4.7 kΩ There are totally 6 multi-function expanded Switch signal Action current: 5mA control terminals. (Sink/Source can be input Voltage range: 10~28VDC switched) Maximum frequency: 1kHz Maximum voltage: 30VDC or 250VAC A10, C10...
Page 362 Appendix 7 EB308R  Terminal Terminal form Function instructions Terminal specification name A10, C1 A11, C1 A12, C2 Maximum voltage: 30VDC or 250VAC A13, C2 Multi-function relay outputs 8 groups; Maximum current: Resistive load:5A NO Relay outputs A-C is the normally open contact. Inductive load: 2A NO A14, C3 (cosΦ=0.4)
Page 363 REVISION RECORD 7.5.3 PG card PG301C  Terminal Terminal Function instruction Terminal specification Symbols A1、B1、Z1 The input of the encoder signal supports open collector, voltage, line drive and push-pull input Maximum frequency: 500KP/Sec —— —— —— 、B1 、Z1 type. Input A2、B2 The input of pulse signal connects to the upper controller and supports open collector, voltage,...
Page 364 Appendix 7 PG301L  Terminal Terminal Function instruction Terminal specification Symbols A1、B1、Z1 The input of the encoder signal supports open collector, voltage, line drive and push-pull input Maximum frequency: 500KP/Sec —— —— —— 、B1 、Z1 type. Input A2、B2 The input of pulse signal connects to the upper controller and supports open collector, voltage, Maximum frequency: 500KP/Sec ——...
Page 365 REVISION RECORD PG302L  Terminal Name Function instruction Terminal specification S1、S2 Resolver signal input 3.5±0.175Vrms，10kHz —— —— 、S4 A2、B2 The input of pulse signal connects to the upper Input controller and supports open collector, voltage, Maximum frequency: 500KP/Sec —— —— line drive and push-pull input type, the maximum 、B2 is 500K.
Page 366 18.0 Appendix 7 42.7 26.3 7.5.4 Keypad 18.0 PU302 appearance   Ordering code: Type Name Ordering Code PU302 LED keypad SNKPU302  Appearance and dimensions 27.9 52.6 42.7 26.3 2-M3 18.0  Recommended screw installation size <螺丝安装面板开孔尺寸图> 33.7 19.3 open hole 52.4...
Page 367 REVISION RECORD  Snap mounting pan head screw M3×5 steel plate *Allowable error:±0.15mm *If customer cutout accuracy cannot meet the allowable error, please purchase SMK301 (Snap Mounting Kit) for installation. 7.5.5 Data transmission line Ordering code:  Type Name Ordering Code CBL1R5GTN2 The data transmission line (1.5 m) SNKCBL1R5GTN2...
Page 368 Appendix 7 7.5.6 BKU Brake unit  Function Terminal Terminal Name instruction specification BKU-020-37K 189.5 BKU-040-45K BKU-020-110K 233.5 193.5 BKU-020-160K Ordering code:  Type Name Ordering Code BKU-020-37K 200V 37KW Brake unit SNKBKU-020-37K BKU-020-110K 200V 110KW Brake unit SNKBKU-020-110K BKU-020-160K 200V 160KW Brake unit SNKBKU-020-160K BKU-040-45K...
Page 369 REVISION RECORD 7.5.7 Expansion card mounting base Ordering code:  Type Name Ordering Code CMK301 Expansion card mounting base SNKCMK301 APPENDIX 367...
Page 370 Appendix 7 7.6 Appendix 6 European Specification Compatibility Description This inverter qualifies the CE label. Specifications: Low Voltage Directive 0014/35/EC & Electromagnetic Compatibility Directive 2014/301/EC. 1. Electromagnetic compatibility command (EMC): (1). EMC compatibility description: For system integration, inverter is not a functionally independent device unit. It is usually a unit in the control box. It is combined with other devices to control a machine or equipment.
Page 371 REVISION RECORD APPENDIX 369...
Page 372 Appendix 7 REVISION RECORD 370...
Page 373 REVISION RECORD 7.7 Appendix 7 WEEE LOGO The crossed-out wheeled bin symbol indicates that waste electrical and electronic equipment should not be discarded together with unseparated household waste, but must be collected separately. The product should be handed in for recycling in accordance with the local environmental regulations for waste disposal.
Page 374 Appendix 7 8. REVISION RECORD Published Date Edition of the Manual Revision Content 2017.10 V1.00 First Edition Modification： 2018.1 V1.01 1. 2.1 Nameplate instruction 2. Partial parameters of the factory Add： CE declare 2018.2 V1.02  Modification：Frame A size Modification： 1.6.3 Retrograde Brake Resistor 2018.7...

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