Hlp a100 инструкция на русском

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Summary of Contents for Holip HLP-A100 Series

  • Page 2
    HLP-A100 Series Operating Manual…
  • Page 4: Table Of Contents

    Chapter 6 Parameter Description 6.1 Parameter Group 00: Operation/Display 6.2 Parameter Group 01: Load and Motor 6.3 Parameter Group 02: Brakes 6.4 Parameter Group 03: Reference/Ramps 6.5 Parameter Group 04: Limits/warnings 6.6 Parameter Group 05: Digital Input/Output HLP-A100 Series Operating Manual…

  • Page 5: Table Of Contents

    10.2 Fault Indication and Trouble Shooting Chapter 11 Maintenance 11.1 Note 11.2 Storage and Transport Chapter 12 Communication protocol 12.1 Format specification 12.2 Coil addressing 12.3 Read Coil Status 12.4 Read Holding Registers 12.5 Force Single Coil HLP-A100 Series Operating Manual…

  • Page 6: Table Of Contents

    HLP-A100 Series 12.6 Preset Single Register 12.7 Force Multiple Coils 12.8 Preset Multiple Regs 12.9 Read/Write array 12.10 Exception code HLP-A100 Series Operating Manual…

  • Page 7
    HLP-A100 Series HLP-A100 Series Operating Manual…
  • Page 8: Introduction

    Introduction Thank you f or purchasing and using the general-pur pose vector inverter of HLP-A100 series. Please read caref ully the operation manual before putting the inverter to use so as to correctly install and operate the inverter, give f ull play to its f unctions and ensure the safety.

  • Page 9
    ● Don’t install the drive in a space with explosive gas, otherwise, they lead to explosion. ● R, S, T terminals are power input terminals, never mixed with U.V.W terminals. Be sure that the wiring of the main circuit is HLP-A100 Series Operating Manual…
  • Page 10: During The Power-Up

    Danger ● Never connect or disconnect the motor set while the inverter is in running. Otherwise it will cause over-current trip and even burn up the main circuit of the inverter. HLP-A100 Series Operating Manual…

  • Page 11: After The Power-Off

    The user must strictly follow the instruction to operate and make wire connection. Otherwise HOLIP will not responsible for the damages due to wrong operation. The user will responsible for the damages themselves.

  • Page 12: Chapter 2 Standards And Specifications

    Control panel with LED display and potentiometer With coating on PCB Reserved Domestic sale Overseas sale 25-27 Reserved 28-3 1 VXXX Indicate sof tware version number, such as V235 means the version number is 2.35 . HLP-A100 Series Operating Manual…

  • Page 13: Particular Specifications

    3×380-440V50/60Hz HLP-A100003743 25.4 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A100004543 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A100005543 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A100007543 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A100009043 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A10001 1043 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A100013243 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A100016043 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A10001 8543 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A100020043 3×440-480V50/60Hz 3×380-440V50/60Hz HLP-A100022043 3×440-480V50/60Hz HLP-A100 Series Operating Manual…

  • Page 14: Technical Specifications

    Wobble Function; Cascade cont roller; Winder; Jogging Application ; Multi-speed Cont rol via Digital input; Multi-speed Functions Control via Ref erence; SLC ( including Order Control 、 Parallel Control ) ; Mechanical Braking;UP/DOW N;Catch up /Slow down; Relative Scaling Reference etc. HLP-A100 Series Operating Manual…

  • Page 15
    Pulse accuracy input Resolution 1 1bit; Scanning 16ms; time Output 2 digital outputs ( DO1 、 DO2 ) number Digital Relay 2 relay outputs ( KA-KB 、 FA-FB- output output FC ) ; Scanning 1ms; time HLP-A100 Series Operating Manual…
  • Page 16
    , analogue output, 1-10 f ault records and accumulated working time etc.; Remote mounting Available when the control panel for external use; Accessory Copy parameters f rom one inverter Copy card to another ; HLP-A100 Series Operating Manual…
  • Page 17
    1000m the ambient temperature or the maximum output current should be decreased. Dcrease the output by 1% per 100m altitude above 1000m or reduce the max. ambient temperature by 1 degree per 200m. HLP-A100 Series Operating Manual…
  • Page 18: Chapter 3 Installation And Wiring

    ● Check if the inverter has got any damage or deformation during the transportation and handling; ● Check if there is one piece of HLP-A100 series inverter and one copy of the instruction manual available when unpacking it; ● Check the information on the label to see if the specifications meet your order (Operating voltage and KW value);…

  • Page 19: Dimensions Of The Inverter

    HLP-A100 Series 3.2.2 Dimensions of the inverter Item Model Frame size and Installation Dimension HLP-A100001 143 HLP-A100001543 HLP-A1001 8D543 HLP-A100002243 HLP-A100003043 HLP-A100003743 HLP-A100004543 HLP-A100005543 HLP-A100007543 HLP-A100009043 HLP-A10001 1043 HLP-A100013243 HLP-A100016043 HLP-A10001 8543 HLP-A100020043 HLP-A100 Series Operating Manual…

  • Page 20: Installation And Wiring

    480V Brake terminals 1 1-22 0. 1 5-0.4 30-75 0. 1 5-0.4 90-220 0. 1 5-0.4 3.3.2 Fuse and Main Circuit Terminals Specifications Model Fuse(Rated current/A) Main Circuit Terminals HLP-A100001 143 HLP-A100001543 HLP-A1001 8D543 HLP-A100002243 HLP-A100003043 HLP-A100 Series Operating Manual…

  • Page 21: Installation And Direction

    3.3.3 Installation and Direction Single Installation Side by Side Installation T he i nver ter must be i nst alled HLP-A100 series inver ter can be vertically with smooth ventilation. mounted side by side, a minimum Enough space must be lef t around…

  • Page 22: Wiring Terminal

    Note: Install the unit and make sure that it is f ree f rom high moisture 、 high temperature 、 heavy dust 、 metal f ragments and high oil mist. 3.3.4 Wiring terminal 3.3.4.1 Main Circuit Terminals Terminals of the main circuit: 11-22kW: -UDC +UDC/ 30-220KW: -UDC +UDC HLP-A100 Series Operating Manual…

  • Page 23
    Connect the brake resistor, make sure to set C02. 1 0 、 -BR 、 +BR C02. 1 1 etc. +UDC 、 -UDC DC bus Ground terminal 3.3.4.2 I/O Control Terminals 30-75kW Control and Relay Terminals: +10V 11-22kW & 90-220kW Control and Relay Terminals: +10V HLP-A100 Series Operating Manual…
  • Page 24
    Analog 、 Isolated f rom internal digital communication communication ground(COM) (GND) ground 1 、 Pulse input: 0.001-100.000KHz; Pulse setting/ Pulse input DI4 2 、 Voltage range: 24V ± 20%; Feedback 3 、 Input duty ratio: 40%-60%; HLP-A100 Series Operating Manual…
  • Page 25
    1 、 Pulse output range: 0.001-5.000KHz Pulse output (range f rom 0.001-100.000KHz is optional); Pulse output 2 、 Voltage range: 0-24V; 3 、 Duty ratio: 40%-60%; 4 、 Resistive load >1kΩ, capacitive load < 10nF; HLP-A100 Series Operating Manual…
  • Page 26: Wiring

    0. 1 A(cosφ= 0.4); RS485 comm- RS+ 、 RS- Max baud rate: 1 15200bit/s; unication 3.3.5 Wiring Basic Connection Diagram of HLP-A100 series inverter: M OtOR p Ow e R R f I IN p u t R f I…

  • Page 27
    PE line, its cross sectional area and the main power cable should be the same, must be separate grounded. ● Make sure reliable ground of the inverter in accordance with IEC 61800-5-1. ● Please refer to 9.2 for the use of RFI SWITCH. HLP-A100 Series Operating Manual…
  • Page 28: Chapter 4 Operation And Display Interface

    C00.04 basic C00.03 Turn clockwise to select C03.00 parameter group C03 Press key to shif t to f ractional C03.00 part Turn clockwise to select C03. 1 0 parameter C03. 1 0 HLP-A100 Series Operating Manual…

  • Page 29: Fwd/Rev Status

    20.5 4.2.2 FWD/REV Status Confirm the direction of the motor according to the set value, as shown in the following table: Reference Running status Indicator Display ≥0 STOP < 0 STOP ≥0 HLP-A100 Series Operating Manual…

  • Page 30: Data Read-Outs

    (C16. 1 3) Frequency interface is 50.0Hz, display accuracy : 0. 1 Show the preset reference (C16.01) is Reference (%) 50%, display accuracy: 0.001 Show the motor current (C16. 1 4) is Motor Current 9.00A, display accuracy: 0.01 HLP-A100 Series Operating Manual…

  • Page 31
    Show value of counter Counter A A is (C16.72) 65535, display accuracy : 1 Show counter B(C16.72) Counter B is 65535, diaplay accuracy : 1 Show analog in VI Analog in VI (C16.62) is 10.00V, display accuracy: 0.01 HLP-A100 Series Operating Manual…
  • Page 32: View Alarm Record

    Key-press LCP Display Action Description Press key to display the first C00.04 basic C00.03. Turn clockwise to select par. C15.00 group No. C15. Press to select parameter C15.00 number. Turn clockwise to select C15.30 C15.30 HLP-A100 Series Operating Manual…

  • Page 33: View State Parameter

    Press to display the first basic C00.03 parameter C00.03. Turn clockwise to select Par. C16.00 group No. C16 C16.00 Press to select parameter No. C16.01 Press select C16.01 Turn clockwise to finish browse value of C16.01. HLP-A100 Series Operating Manual…

  • Page 34: Led Display

    LCP Display Action Description C16.60 Press to select C16.60. Press to view the value in 0000 C16.60, 0100 indicates status of FOR 、 DI1 、 DI2 is 0, and status of REV is 1. 4.2.6 LED Display HLP-A100 Series Operating Manual…

  • Page 35: Chapter 5 Parameter Overview

    ; 2: Copy *C00.51 Set-up Copy f rom set-up2; 9: Copy f rom factory set-up; Menu 0: Disabled; C00.60 Password 1 : Enabled; 0: Speed open loop; Configuration C01.00 3: Process closed loop; Mode 4: Torque Open loop; HLP-A100 Series Operating Manual…

  • Page 36
    (AMA) AMA; Stator *C01.30 Resistance Dep.on motor data Ω (Rs) Stator Leakage *C01.33 Dep.on motor data Ω Reactance (XI) Main *C01.35 Reactance Dep.on motor data Ω (Xh) *C01.39 Motor poles 2~100 Motor Cable *C01.42 0~150 Length HLP-A100 Series Operating Manual…
  • Page 37
    0.005~0.050 0.005 Time Constant C01.71 Start Delay 0.0~10.0 0: DC hold/delay C01.72 Start Function time; 2: Coast/Delay time; 0: Disabled; *C01.73 Flying start 1 : Enabled; Function at C01.80 0: Coast; 1 : DC Hold; Stop HLP-A100 Series Operating Manual…
  • Page 38
    Max current Over-voltage 0: Disabled; C02. 1 7 Control 2: Enabled; Release Brake C02.20 0.00~100.00 0.00 Current Activate C02.22 Brake Speed 0.0~400.0 [Hz] Reference 0: Min-Max; 1 : -Max- C03.00 Range +Max; Minimum C03.02 -4999.000~4999.000 0.000 Reference HLP-A100 Series Operating Manual…
  • Page 39
    1 : Stopsave; 2: Power Value down save; 0: Linear; 2: Sine2 C03.40 Ramp 1 Type ramp; Ramp 1 Ramp C03.41 0.05~3600.00 up Time Ramp 1 Ramp C03.42 0.05~3600.00 Down Time 0: Linear; 2: Sine2 C03.50 Ramp 2 Type ramp; HLP-A100 Series Operating Manual…
  • Page 40
    *C04. 1 2 Low Limit 0.0~400.0 [Hz] Motor Speed *C04. 1 4 High Limit 0.0~400.0 65.0 [Hz] C04. 1 8 Current Limit 0~300 Max. Output *C04. 1 9 0.0~400.0 65.0 Frenquency Max Output C04.21 Frequency 0~21 Resource HLP-A100 Series Operating Manual…
  • Page 41
    50.000 High Warning C04.56 -4999.000~4999.000 0.000 Feedback Low Warning C04.57 Feedback -4999.000~4999.000 50.000 High Missing *C04.58 Motor Phase 0: Off; 1 : On; Function Bypass Speed C04.61 0.0~400.0 From [Hz] Bypass Speed C04.63 0.0~400.0 To [HZ] HLP-A100 Series Operating Manual…
  • Page 42
    62: Reset counterA; 63: CounterB (up); 65: Reset counterB; Terminal DI3 70: Wobble start C05. 1 4 Digital Input command; 71 : Wobble reset; 72: Wobble initialization; 90: Low water level; 91 : High water level; HLP-A100 Series Operating Manual…
  • Page 43
    23: Remote ready, no Terminal thermal warning;24: C05.3 1 DO2 Digital Ready, voltage ok; 25: Output Reverse; 26: Bus ok; 28: Brake, no brake warning; 29: Brake ready, no fault; 30: Brake fault (IGBT); 32: Mech brake control; HLP-A100 Series Operating Manual…
  • Page 44
    100: Start pump1 ; 101 : Start pump2; 102: Below water level, low; 103: Above water level, high; 104: Low water warning; 105: High water warning; 106: Low voltage warning; 107: Over voltage warning; 108: sleep; HLP-A100 Series Operating Manual…
  • Page 45
    AI input; Pulse Output C05.61 0.020~49.999 0.020 Min Freq Pulse Output C05.62 0.021~50.000 KHz 50.000 Max Freq Pulse Output C05.63 0.00~200.00 0.00 Min Scale Pulse Output C05.64 0.00~200.00 100.00 Max Scale Live Zero C06.00 1~99 Timeout Time HLP-A100 Series Operating Manual…
  • Page 46
    0.07 Low Voltage Terminal AI C06.21 0.01~10.00 10.00 High voltage Terminal AI C06.22 0.00~19.99 0. 1 4 Low Current Terminal AI C06.23 0.01~20.00 20.00 High Current Terminal AI C06.24 Low Ref./ -4999.000~4999.000 0.000 Feedb. V alue HLP-A100 Series Operating Manual…
  • Page 47
    Output Max 0.00~200.00 100.00 Scale LCP Potmeter C06.81 -4999.000~4999.000 0.000 Low Ref. LCP Potmeter C06.82 -4999.000~4999.000 50.000 High Ref. Terminal AO 0: 0~20mA; C06.90 Mode 1 : 4~20mA; Terminal C06.91 AO Analog See also C06.71 . output HLP-A100 Series Operating Manual…
  • Page 48
    0.0~10.00 0.01 Gain Process PI C07.34 0. 1 0~9999.00 9999.00 Integral time Process PI C07.38 Feed Forward 0~400 Factor On Reference C07.39 0~200 Bandwidth Process PI C07.41 -100-100 Output Low Process PI C07.42 -100-100 Output High HLP-A100 Series Operating Manual…
  • Page 49
    0: Even Parity, 1 Stop bit; 1 : Odd Parity, 1 stop C08.33 FC Port Parity bit; 2: No Parity, 1 Stop bit; 3: No Parity,2 Stop bits; Minimum C08.35 Response 0.001~0.500 0.010 Delay Max. C08.36 Response 0.010~10.000 5.000 Delay HLP-A100 Series Operating Manual…
  • Page 50
    1 : Reset Sample PLC; Comparator C13. 1 0 0~3 1 1 13 Operand Comparator C13. 1 1 1 13 Operator Comparator C13. 1 2 -9999.0~9999.0 1 14 Value SL Controller C13.20 0.0~3600 1 14 Timer HLP-A100 Series Operating Manual…
  • Page 51
    15; 1 19 12: Automatic reset x 13: Infinite auto reset; Automatic C14.21 0~600 1 19 Restart Time 0: Normal Operation; 2: Initialisation; Operation C14.22 3: Backup user 1 19 Mode settings;4: Recover user settings; HLP-A100 Series Operating Manual…
  • Page 52
    C14.52 Fan Control low temperature; 5-8: Reserved; 0: Off; 1 : Sine-Wave *C14.55 Output Filter Filter; 3: Sine-Wave Filter with feedback; 2~6: 2kHz~6kHz; Min Switch *C14.63 7: 8kHz; 8: 10 kHz; Frequency 9: 12kHz; 10: 16kHz; HLP-A100 Series Operating Manual…
  • Page 53
    NO. View power card Power Card C15.47 ordering No. of the Ordering NO. drive C15.48 LCP ID NO. View LCP ID NO. Sof tware ID View sof tware ID C15.49 Control Card control card HLP-A100 Series Operating Manual…
  • Page 54
    C16. 1 4 0.00~655.35 Current Frequency C16. 1 5 0.0~200.0 Motor C16. 1 8 0~100 Thermal DC Link C16.30 0~65535 Voltage Heat sink C16.34 0~255 ¡ æ Temp. Inverter C16.35 0~255 Thermal Inv. Nom. C16.36 0.00~655.35 Current HLP-A100 Series Operating Manual…
  • Page 55
    Pulse Output C16.69 0.020~50.000 13 1 Relay Output C16.71 0~65535 13 1 [bin] C16.72 Counter A 0~2147483647 13 1 C16.73 Counter B 0~2147483647 13 1 Analog C16.78 0.00~20.00 13 1 Output AO C16.86 FC Port REF -32768~32767 HLP-A100 Series Operating Manual…
  • Page 56
    Cascade High C25.25 0.000~400.000 50.000 Frequency High C25.26 Frequency 0.0~3600.0 20.0 Delay Time Low Pressure C25.30 Warning 0.000~99.999 3.000 Level Low Pressure C25.3 1 Warning 0.0~3600.0 10.0 Delay Time Recovery C25.32 Low Pressure 0.000~99.999 4.000 Level HLP-A100 Series Operating Manual…
  • Page 57
    0~150.0 Level Sleep Pressure C25.52 0.0~300.0 20.0 Delay Time Sleep C25.53 0.0~400.0 20.0 Frequency Sleep C25.54 Frequency 0.0~300.0 20.0 Delay Time C25.57 Awake Level 0.0~150.0 Pump Type 0: Feed pump; C25.60 Selection 1 : Drain pump; HLP-A100 Series Operating Manual…
  • Page 58
    1 ¡ ¢ 2 running; Wobble Start C30.00 0: Auto; 1 : Manual; Mode Dwell C30.01 0.000~200.000 0.000 Frequency C30.02 Dwell Time 0.0~3600.0 Centre C30. 1 0 Frequency 0.000~30.000 0.500 Rate Centre C30. 1 1 Frequency 0.000~200.000 10.000 Low Limit HLP-A100 Series Operating Manual…
  • Page 59
    0.01~600.00 1.00 Meter Setting C30.32 0.000~60.000 Km 10.000 Length Length Reach C30.33 0: No action; 1 : Stop; Mode 0: Operate at centre Wobble C30.38 f requency; 1 : Operate Restore Mode at preset f requency; HLP-A100 Series Operating Manual…
  • Page 60
    Note: Reference signed with “*”in parameter No. column means this parameter can’t be modified when the motor is running. In factory setting column, “*” means the default setting for this parameter is determined by the drive type. HLP-A100 Series Operating Manual…
  • Page 61: Chapter 6 Parameter Description

    Local reference is set to 0. Thus motor will not start running before local reference has been increased. Attention: If LCP with potentiometer is mounted, reference is set according to actual potentiometer value. HLP-A100 Series Operating Manual…

  • Page 62
    Description of choice: HLP-B series inverter contains 2 set-ups: set-up1 and set-up 2, which can be switched via digital inputs or serial communication commands. Binary code of the digital input terminals correspond with set-ups as follows: HLP-A100 Series Operating Manual…
  • Page 63
    Function Description Range Unit Default Setting Custom Readout Min 0~9999.00 0.00 Value Function: This parameter occurs at 0 Speed. Description of the choice: This parameter allows the choice of the min. value of the custom defined readout. HLP-A100 Series Operating Manual…
  • Page 64
    Description of the choice: The frequency converter can operate in the following three mode: HAND OFF/RESET and AUTO. When running in Hand-on mode, the frequency converter is locally operated and does not allow any remote control. By activating hand a start signal is given. HLP-A100 Series Operating Manual…
  • Page 65
    C00.6* Protection C00.60 Function Description Range Unit Default Setting Menu Password Option: [0] Disabled; [1]Enabled, none of parameter can be changed except this; Function: This feature used to prevent non-commissioning person to HLP-A100 Series Operating Manual…
  • Page 66: Parameter Group 01: Load And Motor

    Torque Characteristics Option: [0] Constant torque, used for constant torque load; [1] Variable torque, used for variable torque load, such as fan applications ¡ ¢ centrifugal pump etc; [3]Auto Energy optimization, see C14.41 AEO minimum magnetisation. HLP-A100 Series Operating Manual…

  • Page 67
    Attention: Changing the value of this parameter affects the setting of C01.22-C01.25 and C01.30-C01.35. *C01.22 Function Description Range Unit Default Setting Motor Voltage 50~1000 Function: Select a value that equals the nameplate data on the motor. Description of choice: Default setting depends on the inverter size. HLP-A100 Series Operating Manual…
  • Page 68
    For the best possible adaptation of the frequency converter, it is recommended to run AMA on a cold motor. This function is disabled when the motor is running. HLP-A100 Series Operating Manual…
  • Page 69
    Unit Default Setting Motor Cable Length 0~150 Function: Enter the motor cable length connected between the motor and the frequency converter. Description of the choice: Set correct cable length can suppress noises resulted from the motor. HLP-A100 Series Operating Manual…
  • Page 70
    Description of choice: This parameter is only functional when par. C01.01, Motor Control Principle is set to V/F [0]. Attention: V0 factory setting is set to 0V, and U1-U5 factory setting is set to Un (motor rated voltage) . HLP-A100 Series Operating Manual…
  • Page 71
    Function: Use this parameter to compensate voltage in relation to load when motor runs at low speed. Description of choice: Enter a percentage value to compensate voltage when motor needs running at low speed. Change-over point is automatically calculated based on motor size. HLP-A100 Series Operating Manual…
  • Page 72
    Description of Choice: This function is only active when par. C01.00, Configuration Mode, is set to Speed Open Loop [0], and when par. C01.01, Motor Control Principle, is set to VVC+ [1]. Slip compensation is calculated automatically based on rated motor speed, nM,N. HLP-A100 Series Operating Manual…
  • Page 73
    Start Function Option: [0] DC Hold/delay time; [2] Coast/delay time; Function: Select [0], Motor is energized with DC holding current (par. C02.00) during start delay time; Select [2], Motor is coasted during start delay time (inverter off). HLP-A100 Series Operating Manual…
  • Page 74
    Option: [0] Coast, the inverter is off; [1] DC Hold, the motor is energized with a DC current. See par. C02.00 DC Hold Current for more information. Function: Here it is possible to select the stop function according to different applications. HLP-A100 Series Operating Manual…
  • Page 75
    Function: Running ETR (Electronic Terminal Relay) function, motor temperature is calculated based on frequency, speed and time. Holip recommends performing the ETR function, if a thermistor is not present. *C01.93 Function Description…
  • Page 76: Parameter Group 02: Brakes

    IM, N set in C01.24. Description of Choice: Parameters related to the DC brake current are as follows: DC-brake command, see C05.1* choice (5); DC brake cut in speed, see C02.04; HLP-A100 Series Operating Manual…

  • Page 77
    C02.11 Function Description Range Unit Default Setting Brake Resistor (ohm) 5~65535 Ω Function: Set brake resistor value. C02.16 Function Description Range Unit Default Setting AC Brake, Max Current 0~150 HLP-A100 Series Operating Manual…
  • Page 78
    Function: The mechanical brake is activated when motor speed is less than Activate Brake Speed. Description of Choice: This feature occurs in the following situations: ● A start command is removed; ● A stop command is activated; ● Quick-stop is activated (Q-stop function is used); HLP-A100 Series Operating Manual…
  • Page 79: Parameter Group 03: Reference/Ramps

    Function: Enter value for Maximum Reference. Description of Choice: The sum of all internal and external references is clamped (limited) to the maximum reference value. Attention: The maximum reference can not be less than C03.02 (Minimum Reference). HLP-A100 Series Operating Manual…

  • Page 80
    Selection of preset reference indicates with a four-digital binary code. If the f requency converter detects the corresponding terminals connected, then the bit is “1”, otherwise, the bit is “0”. Digital input terminal binary code and the corresponding relationship between pre-set values as follows: HLP-A100 Series Operating Manual…
  • Page 81
    Description of Choice: The Catch up/Slow down function is activated by a digital input terminal (See C05.1*, choose [28]/ [29] ). If this function is active, the catch up/slow down value will be added HLP-A100 Series Operating Manual…
  • Page 82
    Reference + Actual reference * Relative Scaling Reference Example: Preset Relative Preset Output Relative Scaling Reference/ Reference/ Reference/ Frequency Reference/ Reference C03.02 C03. 1 0 C03.03 (Hz) C03. 1 4 VI/C03. 1 8=1 10+0+10= 20 10+1+8=19 10+2+5=17 10+3+3= 16 10+4+0=14 HLP-A100 Series Operating Manual…
  • Page 83
    C08.9*; [21] LCP potentiometer, select LCP potentiometer as relative scaling ref. source, see par. C06.8*; Function: The Relative Scaling Ref. Resource can be set via Analog input terminals ¡ ¢ Local bus reference and LCP potentiometer. HLP-A100 Series Operating Manual…
  • Page 84
    If the drive detects the corresponding digital input terminals connected, then the bit is”1”, on the contrary is”0”. The corresponding relationship between state of the digital input terminals ¡ ¢ binary code and the selected ramp type are as follows: HLP-A100 Series Operating Manual…
  • Page 85
    C03.50 Function Description Range Unit Default Setting Ramp2 Type Option: [0] Linear: Motor ramp up to the preset f requency with a constant acceleration; [2] S-ramp: Motor ramp to the preset f requency with non-linear acceleration.. HLP-A100 Series Operating Manual…
  • Page 86
    Attention: Choose a ramp-down time such that no over-voltage arises in the inverter due to regenerative operation of motor and such that the generated current does not exceed the current limit set in C04. 1 8. HLP-A100 Series Operating Manual…
  • Page 87
    See C05. 1 , choose [14]. C03.81 Function Description Range Unit Default Setting Quick Stop Ramp Time 0.05~3600.00 Function: Enter the Quick Stop Ramp Time f rom the rated motor speed (C01.25) to 0Hz. HLP-A100 Series Operating Manual…
  • Page 88: Parameter Group 04: Limits/Warnings

    C04.18 Function Description Range Unit Default Setting Current Limit 0~300 Function: Set the output current high limit. Attention: If a setting in C01.20 to C01.25 is changed, this parameter is not automatically reset to default setting. HLP-A100 Series Operating Manual…

  • Page 89
    [1 1] Open loop running; Function: Select which reaction the f requency converter should take if a feedback fault is detected. Attention: When in HAND mode, and Speed-closed loop is selected, options [1] [3] [4] are invalid. HLP-A100 Series Operating Manual…
  • Page 90
    Function: Enter the n value, when the motor speed falls below this limit, the display reads Speed Low. Attention: This setting must be within normal motor f requency range, otherwise, it may trigger an error warning. HLP-A100 Series Operating Manual…
  • Page 91
    *C04.58 Function Description Range Unit Default Setting Missing Motor Phase Function Option: [0] Off, f unctoin is disabled; [1] On, f unction is enabled; Attention: Missing motor phase causes motor torque to decrease. This f unction HLP-A100 Series Operating Manual…
  • Page 92
    HLP-A100 Series may be disabled for special purpose (e.g. small motor running pure U/f mode). However, choosing [0] Off, f unction disabled, may lead to overheating, Holip strongly recommends to make an active setting to avoid motor damage. C04.6* Speed Bypass C04.61…
  • Page 93: Parameter Group 05: Digital Input/Output

    Default Setting Terminal DI3Digital 0~93 Input C05.15 Function Description Range Unit Default Setting Terminal DI4 Digital 0~93 Input Option: [0] No operation, the f requency converter will not to react to signals transmitted to the terminal; HLP-A100 Series Operating Manual…

  • Page 94
    Freeze output. When Speed up is activated for less than 400 ms. the resulting reference will be increased by 0. 1 %. If Speed up is activated for more than 400 ms. the resulting reference will ramp according to ramp 2 ; HLP-A100 Series Operating Manual…
  • Page 95
    Attention: Because the DO1 also can be used as pulse output, so select [0] digital output in C05.60 to make this parameter active; C05.31 Function Description Range Unit Default Setting Terminal DO2 Digital 0~108 output C05.4* Relay C05.40 Function Description Range Unit Default Setting Relay Function 0~108 5, 9 HLP-A100 Series Operating Manual…
  • Page 96
    [23] Remote ready, no Thermal Warning. Frequency converter is ready for operation in remote control, and no over-temperature warning is present; [24] Ready-Voltage OK. Frequency converter is ready for operation, main voltage is within specified voltage range; [25] Reverse. Motor runs in counter clockwise; HLP-A100 Series Operating Manual…
  • Page 97
    [91] Up to Wobble ref., see par. C30*; [100] Start Pump 1, see C25*; [101] Start Pump 2, see C25*; [102] Below water level, low. See par. C25*; [103] Above water level, high. See par. C25*; HLP-A100 Series Operating Manual…
  • Page 98
    HLP-A100 Series [104] Low water warning. See par. C25*; [105] High water warning. See par. C25*; [106] Low voltage warning. See par. C25*; [107] Over-voltage warning. See par. C25*; [108] Sleep, see par. C25*; HLP-A100 Series Operating Manual…
  • Page 99
    Function: Enter the high f requency corresponding to the high motor shaf t speed in C05.58 Terminal DI4 High Ref./feedback Value. Default C05.57 Function Description Range Unit Setting Terminal DI4 Low 4999.000~4999.000 0.000 Ref./feedback Function: Enter low f requency /feedback corresponding to value in C05.55. HLP-A100 Series Operating Manual…
  • Page 100
    C05.55-C05.56 entered via DI4; [22] Values on analog input VI, 0.020-50.000KHz corresponding to references in C06. 1 0 C06. 1 2 and C06. 1 1 C06. 1 3; [23] Values on analog input AI, 0.020-50.000KHz corresponding to HLP-A100 Series Operating Manual…
  • Page 101
    Function: Enter pulse output min. scale, set as a percentage value of max. signal . C05.64 Function Description Range Unit Default Setting Pulse Output Max. Scale 0.00~200.00 100.00 Function: Enter pulse output max. scale, set as a percentage value of max. signal . HLP-A100 Series Operating Manual…
  • Page 102: Parameter Group 06: Analog In/Out

    [1] Freeze output, f rozen at the present value; [2] Stop, overruled to stop; [3] Jogging, overruled to jog speed; [4] Max. speed, overruled to Max.speed; [5] Stop and trip, overruled to stop with subsequent trip. HLP-A100 Series Operating Manual…

  • Page 103
    C06. 1 5. Default C06.14 Function Description Range Unit Setting Terminal VI Low -4999.000~4999.000 0.000 Ref. /Feedb. Function: Enter VI Low Ref./Feedb. Corresponding to Min. voltage or min. current set in C06. 1 0 or C06. 1 2. HLP-A100 Series Operating Manual…
  • Page 104
    0. In order to prevent the set point jitter at zero point due to analog interference, this parameter should be set properly. HLP-A100 Series Operating Manual…
  • Page 105
    Function: This reference signal should correspond to max. reference/feedback value set in C06.25. C06.22 Function Description Range Unit Default Setting Terminal AI Low Current 0.00~19.99 0.14 Function: This ref erence signal should correspond to min. ref erence / feedback value set in C06.24. HLP-A100 Series Operating Manual…
  • Page 106
    This parameter can’t be adjusted while the motor is running. C06.28 Function Description Range Unit Default Setting Terminal AI Zero Dead 0.00~20.00 0.00 Band Function: Set the dead band for terminal AI at zero, see C06. 1 8. HLP-A100 Series Operating Manual…
  • Page 107
    C1.22; [20] Bus control (0-10V) or (0/4-20mA) corresponding to 0.0% — 100.0%, 100% equals to reference in C03.03; [21] Pulse input (0-10V) or (0/4-20mA) corresponding to reference f rom C05.55 to C5.56 transmitted via terminal DI4; HLP-A100 Series Operating Manual…
  • Page 108
    The LCP potmeter can be select either as reference resource or relative reference resource. Default C06.81 Function Description Range Unit Setting LCP Potmeter Low Ref. -4999.000~4999.000 0.000 Function: This reference value corresponding to potentiometer turned f ully counterwise . HLP-A100 Series Operating Manual…
  • Page 109
    Function: Select choices of analog output VO. C06.93 Function Description Range Unit Default Setting Terminal AO Output 0.00~200.00 0.00 Min. Scale Function: Scale minmum output of selected analog signal at terminal AO as percentage of maximum signal value. See fig. below: HLP-A100 Series Operating Manual…
  • Page 110: Parameter Group 07: Controller

    [8] Pulse input DI4 (0.020 – 50.000 KHz); [1 1] Local Bus (0 ~ ± 200%); Function: Select resource of feedback signal. C07.3* Process PI Ctrl. This parameter is active in closed loop process control mode. HLP-A100 Series Operating Manual…

  • Page 111
    Thereaf ter, when the Process PI Start Speed is reached, the f requency converter will change over to Process PI Control. HLP-A100 Series Operating Manual…
  • Page 112
    On reference Band Width f unction is active. C07.41 Function Description Range Unit Default Setting Process PI Output Low -100-100 Function: Process PI controller output low limit, 100% corresponds to C04. 1 9. HLP-A100 Series Operating Manual…
  • Page 113: Parameter Group 08: Comm. And Options

    [1] Freeze output, Freeze output until communication resumes. [2] Stop, Stop with auto restart when communication resumes; [3] Jogging, Run motor at jog f requency until communication resumes; [4] Max. speed, Run motor at max.f requency until communication HLP-A100 Series Operating Manual…

  • Page 114
    RTU range is 1-247. C08.32 Function Description Range Unit Default Setting FC Port Baud Rate bit/s Option: [0] 2400; [1] 4800; [2] 9600; [3] 19200; [4] 38400; [5]Reserved; [6]Reserved; [7]Reserved; [8]Reserved; [9]Reserved; Function: Select baud rate for FC Port. HLP-A100 Series Operating Manual…
  • Page 115
    Function: Select control of coasting f unction via digital input or bus. C08.51 Function Description Range Unit Default Setting Quick Stop Select Option: [0] Digital input, Aciviate via a digital input; [1] Bus, Activate via serial communication port; HLP-A100 Series Operating Manual…
  • Page 116
    Function Description Range Unit Default Setting Set-up Select Option: [0] Digital input, Aciviate via a digital input; [1] Bus, Activate via serial communication port; [2] Logic and, Activate via serial communication port and a digital input; HLP-A100 Series Operating Manual…
  • Page 117: Parameter Group 13: Simple Plc

    Attention: Simple PLC f unction is only valid in auto mode. C13.0* Simple PLC Settings Use the Sample PLC settings to active disable or reset simple PLC. C13.00 Function Description Range Unit Default Setting Sample PLC Mode Option: [0] *Disabled; HLP-A100 Series Operating Manual…

  • Page 118
    [22] Comparator 0, output of comparator 0 is used in logic rules; [23] Comparator 1, output of comparator 1 is used in logic rules; [24] Comparator 2, output of comparator 2 is used in logic rules; HLP-A100 Series Operating Manual…
  • Page 119
    Function Description Range Unit Default Setting Reset simple PLC Option: [0] Do not reset, Simple PLC doesn’t reset; [1] Reset Simple PLC, reset Simple PLC, references in parameter group C13 will all be restored to factory setting; HLP-A100 Series Operating Manual…
  • Page 120
    [1] Approx. Equal, if the variable selected in C13. 1 0 equals the set value in parC13. 1 2, the comparator output is true; [2] Greater than, opposite with option [0]; Function: Select the operator to be used in the comparison. HLP-A100 Series Operating Manual…
  • Page 121
    Function Description Range Unit Default Setting Logic Rule Operator 1 Array: [4] ; Option: [0] Disabled, ignoring C13.40 and C13.42 ; [1] And, evaluates the expression [C13.40] AND [C13.42]; [2] Or, evaluates the expression [C13.40] OR [C13.42]; HLP-A100 Series Operating Manual…
  • Page 122
    Function: Select the second logic operator to be used on the boolean input calculated in C13.40 Logic Rule Boolean 1 ¡ ¢ C13.42 Logic Rule Operator 1 and C13.43 Logic Rule Boolean 2 and the boolean input coming f rom C13.44 Logic Rule Boolean 3. HLP-A100 Series Operating Manual…
  • Page 123
    [19] Select ramp 2; [20] Select ramp 3; [21] Select ramp 4; [22] Run, issues a start command to the f requency converter; [23] Run reverse, issues a start reverse command to the f requency converter; HLP-A100 Series Operating Manual…
  • Page 124
    [66] Start timer 4; [67] Start timer 5; [68] Start timer 6; [69] Start timer 7; Function: Select the action corresponding to the Simple PLC events (C13.51). Actions are executed when the corresponding event is evaluated as true. HLP-A100 Series Operating Manual…
  • Page 125: Parameter Group 14: Special Functions

    Function Description Range Unit Default Setting Damping Gain Factor 0~200 Function: Damping gain factor can help to improve the response speed of the DC link of the f requency converter making the DC loop signal more smooth. HLP-A100 Series Operating Manual…

  • Page 126
    Attention: If the auto reset mode is selected, the f requency converter may possibly restart automatically af ter the alarm disappear. C14.21 Function Description Range Unit Default Setting Automatic Restart Time 0~600 HLP-A100 Series Operating Manual…
  • Page 127
    C14.3* Current Limit Control The driver contains a current limit controller. The controller will be enabled when the current is over C04. 1 8 current limit. HLP-A100 Series Operating Manual…
  • Page 128
    AEO Min. Magnetisation 40~75 Function: Enter the minimum allowable magnetization for AEO, selection of a low value reduces energy loss in the motor, but can also reduce resistance to sudden load changes, and the output power increases. HLP-A100 Series Operating Manual…
  • Page 129
    [4] Run in low temperature, the inverter will not report low temperature alarm in this mode; [5-8] Reserved; *C14.55 Function Description Range Unit Default Setting Output Filter Option: [0] Off; [1] Sine-wave filter; [3] Sine-wave filter with feedback; Function: Select desired output filter. HLP-A100 Series Operating Manual…
  • Page 130: Parameter Group 15: Drive Information

    Function Description Range Unit Default Setting Power Up’s 0~2147483647 Function: View the number of times the drive has been powered up. This parameter can’t be reset. C15.04 Function Description Range Unit Default Setting Over Temperatures 0~65535 HLP-A100 Series Operating Manual…

  • Page 131
    Function: This parameter contains internal f ault reasons, mostly used in combination with alarm 38. C15.4* ¡ ¢ C15.5*Drive Identification This parameter contains read only information about the hardware and sof tware configuration of the f requency converter. HLP-A100 Series Operating Manual…
  • Page 132
    Description of Choice: View ordering number of the power card. C15.48 Function Description Range Unit Default Setting LCP IDNo. Description of Choice: View LCP ID number. C15.49 Function Description Range Unit Default Setting Software ID Control Card HLP-A100 Series Operating Manual…
  • Page 133
    Unit Default Setting Power Card Serial Number Description of Choice: View power card serial number. C15.5* Defined parameters C15.92 Function Description Range Unit Default Setting Parameter List 0~255 Function: View drive parameters that has been defined. HLP-A100 Series Operating Manual…
  • Page 134: Parameter Group 16: Data Readouts

    No Function Reversing Default C16.01 Function Description Range Unit Setting Reference -4999.000~4999.000 Function: View the total remote reference, the total reference is sum of pulse, analog, preset, LCP Potmeter, local bus and f reeze reference. HLP-A100 Series Operating Manual…

  • Page 135
    No terminal warning Terminal warning C16.04 Function Description Range Unit Default Setting Active Set-up Function: View the drive active set-up. Select 0 indicates set-up 1, Select 1 indicates set-up 2, and select 2 indicates multi-set-up. HLP-A100 Series Operating Manual…
  • Page 136
    Motor Voltage 0~65535 Function: View motor phase voltage. C16.13 Function Description Range Unit Default Setting Frequency 0.0~400.0 Function: View output f requency. C16.14 Function Description Range Unit Default Setting Motor Current 0.00~655.35 Function: View motor phase current. HLP-A100 Series Operating Manual…
  • Page 137
    Unit Default Setting Inv.Max. Current 0.00~655.35 Function: View intermittent maximum inverter current. C16.38 Function Description Range Unit Default Setting Simple PLC State 0~255 Function: View the state of the event under execution by the SL Controller. HLP-A100 Series Operating Manual…
  • Page 138
    Term. Term. Binary Binary Binary Term. No. Binary Term. No. bit0 bit4 bit8 bit12 Reserved bit1 bit5 bit9 bit13 Reserved bit2 bit6 bit10 Reserved bit14 Reserved bit3 bit7 bit1 1 Reserved bit15 Reserved HLP-A100 Series Operating Manual…
  • Page 139
    4-bit binary code; If the digital output terminal is active, the corresponding position is set to “1”, otherwise “0”. Corresponding relationship between state of the digital output terminals and the binary code are as below: Binary bit3 bit2 bit1 bit0 Term. No. Reserved HLP-A100 Series Operating Manual…
  • Page 140
    Function Description Range Unit Default Setting Counter B 0~2147483647 Function: View present value of counter B . C16.78 Function Description Range Unit Default Setting Analog Output AO 0.00~20.00 Function: View output current in analog output AO . HLP-A100 Series Operating Manual…
  • Page 141
    DC Under Volt Undefined DC Over Volt Undefined DC Over Volt Undefined External Short Circuit Undefined Undefined Interlock Undefined Undefined Undefined Undefined Mains ph. loss Undefined Mains ph. loss Undefined AMA Error Undefined No motor Undefined HLP-A100 Series Operating Manual…
  • Page 142
    Function: View the Alarm Word sent via serial communication port in hex code. Default C16.92 Function Description Range Unit Setting Warning Word 1 0~0x7FFFFFFFUF Function: View the Warning Word 1 sent via serial communication port in hex code. HLP-A100 Series Operating Manual…
  • Page 143: Parameter Group 25: App. Functions Cascade

    Preset Time 0.00~23.59 0.00 Option: Choose dif ferent pressure reference at dif ferent times in cascade control systems, the active time need to be set. Attention: If the FC powers off, this parameter needs setting again. HLP-A100 Series Operating Manual…

  • Page 144
    “cascade low f requency” and it lasts more than “low f requency delay time”, the corresponding multi-f unction terminals (relay) acts, auxiliary pump is stopped. C25.21 Function Description Range Unit Default Setting Low Frequency Delay 0.0~3600.0 20.0 Time Function: This parameter used together with “Cascade Low Frequency”. HLP-A100 Series Operating Manual…
  • Page 145
    Function Description Range Unit Default Setting Recovery Low 0.000~99.999 4.000 Pressure Level Function: when the actual pressure rise above “Recovery Low Pressure Level” and continue more than “Recovery Low Pressure Delay Time”, Low Pressure Warning is cancelled. HLP-A100 Series Operating Manual…
  • Page 146
    “Recovery High Pressure Delay Time”, then, over pressure warning is cancelled, the inverter starts to run. C25.37 Function Description Range Unit Default Setting Recovery High 0.0~3600.0 10.0 Pressure Delay Time Function: This parameter used in conjunction with “Recovery High Pressure Level”. HLP-A100 Series Operating Manual…
  • Page 147
    Function: If [0] is selected, the inverter can’t enter sleep mode. C25.51 Function Description Range Unit Default Setting Sleep Pressure Level 0~150.0 95.0 Function: Define the sleep pressure level of the main pump. Sleep Pressure = Target Pressure*Sleep Pressure Level. HLP-A100 Series Operating Manual…
  • Page 148
    Function: Set the sleep f requency duration before the main pump go to sleep mode. C25.57 Function Description Range Unit Default Setting Awake Level 0.0~150.0 80.0 Function: Set the pressure level f rom sleep mode to awake mode. Awake pressure=Set point*Sleep mode awake level. HLP-A100 Series Operating Manual…
  • Page 149
    C25.61 Function Description Range Unit Default Setting Water Level Signal Source Option: [0]: Digital input; [1]: VI; [2]: AI; [8]: Pulse input; Function: Define the source of the water level signal. HLP-A100 Series Operating Manual…
  • Page 150
    Function: To prevent the velocity of the inlet pipe is less than the outlet pipe, leaving the pool water level decreases too f ast, and even form under-voltage condition, pressure 2 is an reserved requirement to run. HLP-A100 Series Operating Manual…
  • Page 151
    Default Setting Alarm Handl Selection Option: [0]: Stop all; [1]: Lag pump 1 Running; [2]: Lag pump 2 Running; [3]: Lag pump 1 2 Running; Function: Set action of the auxiliary pump when drive fault occurs. HLP-A100 Series Operating Manual…
  • Page 152: Parameter Group 30: App. Functions Wobble

    (lantched input type can be accepted also), dwell stage will end; If[1] is selected, dwell stage will end when wobble cycle start command issued, and if wobble cycle start command HLP-A100 Series Operating Manual…

  • Page 153
    Default Setting Centre Frequency Mode Option: [0]: Fixed, center f requency is unchangable ; [1]: Auto Decrease, center f requency of auto decrement. Function: If [1] is selected, center f requency will decrease by the “Center HLP-A100 Series Operating Manual…
  • Page 154
    Function Description Range Unit Default Setting Wobble Down Time 1.0~1000.0 10.0 Function: During the wobble cycle, this parameter used to set the time within which the drive ramp down to wobble down reference (fcenter — fdelta). HLP-A100 Series Operating Manual…
  • Page 155
    Function: This parameter is used to select wobble length source. C30.31 Function Description Range Unit Default Setting Count Per Meter 0.01~600.00 1.00 Fu nction: Wobble Lengt h= (Digital input Encoder input or Pulse input)*Count per meter. HLP-A100 Series Operating Manual…
  • Page 156
    Unit Default Setting Wobble Stage Store Option: [0]: Disable; [1]: Power stop save; [2]: Power saves; [3]: Stop saves; Function: This parameter is used to select in which way the wobble f unction saves the information. HLP-A100 Series Operating Manual…
  • Page 157: Chapter 7 Quick Application Guide

    Note: Control panel potentiometer is used as the only source of the f requency conver ter in HAND mode. (For LCP without potentiometer, use ar row key to set the f requency); Set the lower or upper potentiometer limit via C06.81 and C06.82. HLP-A100 Series Operating Manual…

  • Page 158: Using Digital In Terminals To Control The Drive [Auto]

    5. Disconnect the digital input terminal FOR and VDD to stop the f requency converter. 7.4 Set-up selection Select the menu with digital input DI1 : Par. Code Reference Parameter Description C00. 1 0 Multi Set-up C05. 1 3 Set-up select HLP-A100 Series Operating Manual…

  • Page 159: Potentiometer Reference

    Parameter Description C01 .00 Process closed loop C07.20 Select Analog In AI C06.24 Terminal AI Low Ref./Feedb. value C06.25 Terminal AI high Ref. / Feedb. value Note: **indicates this parameter is set according to the actual situation. HLP-A100 Series Operating Manual…

  • Page 160: Reference For Pulse Input

    C05. 1 5 Reference/feedback resource 7.8 Multi-speed Par. Code Reference Parameter Description C05. 1 2 Preset reference bit0 C05. 1 3 Preset reference bit1 C05. 1 4 Preset reference bit2 C05. 1 5 Preset reference bit3 HLP-A100 Series Operating Manual…

  • Page 161: Speed Up/Down

    HLP-A100 Series Correspondence between speed and the binary code as below: bit3 bit2 bit1 bit0 -Speed 7.9 Speed up/down Par. Code Reference Parameter Description C05. 1 2 Ramp bit0 C05. 1 3 Ramp bit1 HLP-A100 Series Operating Manual…

  • Page 162: Pulse Start/Stop

    Corresponding relation between ramp time and the binary code as below: BIT1 BIT0 RAMP 7.10 Pulse start/stop Par. Code Reference Parameter Description C05. 1 0 Lantched start C05. 1 1 Stop inverse 7.11 Digital speed up/down HLP-A100 Series Operating Manual…

  • Page 163: Configuration Mode

    Motor Speed High Limit C07.02 Speed PID Proportional Gain C07.03 Speed PID Integral Time C07.04 Speed PID Differentiation Time C07.05 Speed PID Diff Gain Time C07.06 Speed PID Low Pass Time C07.08 Speed PID Feed forward Factor HLP-A100 Series Operating Manual…

  • Page 164
    Motor Speed Low Limit C04. 1 4 Motor Speed High Limit C07.33 Process Proportional Gain C07.34 Process PI Integral Time C07.38 Process PI Feed forward Factor Note: **indicates this parameter is set according to the actual situation. HLP-A100 Series Operating Manual…
  • Page 165: Simple Plc

    Timer 2 time reference 2 Preset C03. 1 0[3] C13.20[3] Timer 3 time reference 3 Preset C03. 1 0[4] -100 C13.20[4] Timer 4 time reference 4 Preset C03. 1 0[5] C13.20[5] Timer 5 time reference 5 HLP-A100 Series Operating Manual…

  • Page 166
    Select Preset ref 5 out 4 C13.51 [17] C13.52[17] Select Ramp 2 C13.51 [1 8] C13.52[1 8] Start Timer 6 Simple C13.51 [19] PLC Time- C13.52[19] Select Preset ref 6 out 5 C13.51 [20] C13.52[20] Select Ramp 3 HLP-A100 Series Operating Manual…
  • Page 167: Parallel Execution

    ¡ ¢ local bus excites the inverter to stop, action 3 will be executed. 3. Stop Event: If stop event /C13.02 is true, Simple PLC will be disabled, and C16.38 will be reset to 0. HLP-A100 Series Operating Manual…

  • Page 168: Chapter 8 Accessory Specification

    Model Specification Motor(KW) HLP-A100001 143 HLP-A100001543 HLP-A1001 8D543 1 8.5 HLP-A100002243 HLP-A100003043 HLP-A100003743 HLP-A100004543 13.6 HLP-A100005543 HLP-A100007543 13.6 HLP-A100009043 HLP-A10001 1043 1 10 HLP-A100013243 HLP-A100016043 2. 1 HLP-A100018543 2. 1 1 85 HLP-A100020043 1.65 HLP-A100022043 1.65 HLP-A100 Series Operating Manual…

  • Page 169
    Step 4: Install the exter nal LCP Step 3: The LCP is installed in the communication cable, insert into cradle, according to the direction of RJ45 terminal f rom the bottom of the arrow. hole. HLP-A100 Series Operating Manual…
  • Page 170: Chapter 9 Emc

    ● To reduce the noise and the leakage current, use the motor cable as short as possible; ● The entire system need to have a good earthling; ● RFI Switch screw must be tightened up (≤22kW). HLP-A100 Series Operating Manual…

  • Page 171: Chapter 10 Warnings/Alarms And Fault Handling

    “voltage warning low” limit. Inverter More than 100% overload A.09 E.09 Overload for too long time. Motor temperature Motor ETR Over A. 1 0 E. 1 0 calculated by ETR exceeds Temperature upper limit HLP-A100 Series Operating Manual…

  • Page 172
    Motor phase W Motor phase W is E.32* missing missing,check the phase. Contact the local distributor E.38* Internal Fault or Holip Company. Discharge f rom output E.44* Earth Fault phases to ground(22KW or more) HLP-A100 Series Operating Manual…
  • Page 173
    Heat sink low Temperature may be A.66 temperature damaged. Power Card Power card is over A.69 E.69* temperature. temperature. Rectifier Rectifier Temperature A.74 E.74 Temperature Sensor Error Sensor Error Rectifier A.75 E.75 Temperature Rectifier Temperature High High HLP-A100 Series Operating Manual…
  • Page 174
    Parameter value Invalid parameter value to Er.91 is invalid in this write. mode Parameter is f reezed or Unchangbale can’t be changed during running. Note: Trip-lock alarm is with *. HLP-A100 Series Operating Manual…
  • Page 175: Fault Indication And Trouble Shooting

    4. No fault message Suppose control card is overload, and 24V is shorted, or screen display please remove the connection of control terminal; Make sure if any fault message is displayed, and if no, please contact Holip Company; HLP-A100 Series Operating Manual…

  • Page 176
    If operation of the display screen is normal, please without fault make sure connection between motor and the message f requency converter is correct and then operate the drive in hand mode. Please contact Holip Company if motor can’t rotate. HLP-A100 Series Operating Manual…
  • Page 177: Chapter 11 Maintenance

    If it needs to be stored for a long time make sure to power it up one time within a year and the power-up time should be at least above five hours. When powering up, supply voltage must be increased slowly with a voltage regulator to the rated voltage value. HLP-A100 Series Operating Manual…

  • Page 178: Chapter 12 Communication Protocol

    HLP-A100 Series Chapter 12 Communication protocol HLP-A100 series inverter follows the standard Modbus RTU protocol. 12.1 Format specification Address Function code Data 8 bits 8 bits N*8 bits 16 bits 1)Address: 1-247 2)Function: HLP-A100 support following f unction code 01 : Read Coil Status…

  • Page 179
    Frequency converter ready not ready Coasting stop Satety closed No alarm Alarm Reserved Reserved Reserved No warning Warning Not at reference At reference Hand mode Auto mode Out of f req range In f req range Stopped Running HLP-A100 Series Operating Manual…
  • Page 180: Read Coil Status

    Coil address (ADDRH ADDRL).0x0030 convert to decimal 00 30 number is 48. Coil address 49 is f requency converter output f requency. Data bits number is 16. 0x 0010 convert to decimal number is 00 10 3D C9 CRC check HLP-A100 Series Operating Manual…

  • Page 181: Read Holding Registers

    CRC check Receive data Field Description FC address Function The byte number of received data 0x0000EA60 convert to decimal number is 60000.So the 00 00 EA 60 value of C03.03 is 60000*0.001=60.000 B5 7B CRC check HLP-A100 Series Operating Manual…

  • Page 182: Force Single Coil

    FF00- Parameter changes are written to the RAM and EEPROM; 8D EE CRC check 12.6 Preset Single Register Example: set C01 .01 = 1 Transmit: 01 06 03 F1 00 01 19 BD(Hexadecimal) Receive: 01 06 03 F1 00 01 19 BD(Hexadecimal) HLP-A100 Series Operating Manual…

  • Page 183: Force Multiple Coils

    The byte number is 4 Control word. “7C 04”swap high byte and low byte, the value is 0x047C 7C 04 Note: 0x047C convertes to binary is: 0000 0100 01 1 1 1 100 are corresponding to the coil address 0-15 HLP-A100 Series Operating Manual…

  • Page 184: Preset Multiple Regs

    The register address of C03.03 is 303* 10-1=3029(0x0BD5) 00 02 Register number The byte number of data is 4 0x0000EA60 convert to decimal number is 60000. So the 00 00 EA 60 value of C03.03 is 60000*0.001=60.000 02 B4 CRC check HLP-A100 Series Operating Manual…

  • Page 185: Read/Write Array

    The index is 2(0x0002) 89 C9 CRC check Receive data 1 Field Description FC address Function Register address(ADDRH ADDRL),the register address of 00 08 parameter index is 0x0008 00 02 The index is 2(0x0002) 89 C9 CRC check HLP-A100 Series Operating Manual…

  • Page 186: Exception Code

    Parameter number does not exist 0x01 Defined parameters can not be written 0x02 The value exceeds the upper limit of the parameter 0x03 Index does not exist 0x04 The parameter is not array type 0x05 Data type exception HLP-A100 Series Operating Manual…

  • Page 187
    0x12 Other exception 0x40 Invalid data address 0x41 Invalid length 0x42 Invalid length and value 0x43 Invalid parameter 0x82 The parameters has no bus connection 0x83 Factory settings, cannot be changed. HLP-A100 Series Operating Manual…

Серия HLP-A100 — это новое поколение универсальных векторных приводов Holip с высокой надежностью, высокой адаптивностью к окружающей среде, превосходным удобством для пользователя и отличными характеристиками управления. 

Он может широко применяться во многих отраслях промышленности, таких как пластмасса, текстиль, станки, пищевая упаковка, химикаты, полиграфия, строительные материалы, камень, волочение проволоки, стекло, шаровые мельницы, экология, перегрузка вентиляторов и т.д.

Особенности продукта


Высокая надежность

  • Длинный жизненный цикл
  • Скорость вентилятора регулируется
  • Строгая конструкция и тестирование производственной системы

Удобство для пользователя

  • Простота в эксплуатации
  • Настройка платы IO
  • Небольшой размер
  • Режим множественной установки

Высокая экологичность

  • Независимая конструкция ветрового пути
  • Покрытие PCBA 100% 
  • Радиатор с широким шагом зуба
  • Легкая очистка и замена вентилятора
  • Предусматривает опции IP5X
  • Широкий диапазон напряжения
  • Высокая адаптивность, характеристики EMC
  • RFI переключатель
  • ≥37 кВт в модели встроенного дросселя постоянного тока
  • Интеллектуальная система управления отоплением

Технические характеристики

Характеристика  Спецификация
Источник питания Напряжение питания Однофазный / трехфазный 200 ~ 240 В -20% ~ + 10%;
  Трехфазный 380 ~ 480В -20% ~ + 10%;
частота  48-62Hz;
Макс. несбалансированность   3%;
Мощность двигателя Выходное напряжение   Три фазы 0-100% от напряжения питания
Выходная частота   V / F: 0-400 Гц, VVC +: 0-200 Гц;
IO  вход   6 цифровых входов (1 поддерживает импульсный вход, диапазон импульсов: 1 Гц ~ 100 кГц);
Питание   2 аналоговых входа, оба могут принимать сигналы напряжения или тока.
Контроль  
Клеммы  Вывод   2 цифровых выхода (1 поддерживает импульсный выход, диапазон импульсов: 1 Гц ~ 100 кГц);
  2 релейных выхода;
  2 аналоговых входа (1 можно выбрать в качестве выхода тока или напряжения через перемычку).
 Источник питания   1 + 10 В, максимальный выходной ток 10 мА;
  1 24 В, максимальный выходной ток 200 мА;
 связь  RS +, RS-, максимальная скорость передачи 115200 бит / с;
Дисплей 8 сегментов, 5 цифровых дисплеев   Частота отображения, предупреждения, статус и т. Д .;
 Индикатор  Светлые FWD, REV, HZ, A, RPM отображают различные состояния привода; 
 Считывание данных   Настройка частоты, выходной частоты, значения обратной связи, выходного тока, напряжения звена постоянного тока, выходного напряжения, выходной мощности, состояния входных клемм, состояния выходных клемм, аналогового входа, аналогового выхода, 1-10 записей о сбоях и накопленного рабочего времени и т. Д .;
 Окружающая среда    Ограждение  IP20;
 Температура окружающей среды  10 ℃ ~ 50 ℃, снижение использования при превышении 40 ℃;
Влажность  5% -85% (95% без конденсации);
 Вибрационный тест  ≤75 кВт: 1,14 г;
 ≥90 кВт: 0,7 г;
 Максимум. высота над уровнем моря  1000 м, снижение характеристик при использовании более 1000 м;
 Длина кабеля двигателя  Экран кабеля: 50 метров; Откидной кабель: 100 метров;
Другие  Дроссель постоянного тока  ≥37 кВт встроенный
 Тормозной блок  ≤22 кВт встроенный


Функции продукта

Основные функции управления Режим управления V / F, VVC +;
Пусковой момент 0,5 Гц 150%;
Перегрузочная способность 150% 60 с, 200% 1 с;
Частота переключения ШИМ 2k ~ 16 кГц;
Разрешение установки скорости Цифровой: 0,001 Гц;
Аналогия: 0,5 ‰ от макс. рабочая частота ;
Точность контроля скорости без обратной связи 30 ~ 4000 об / мин: допуск ± 8 об / мин;
Источник управляющей команды LCP, цифровой терминал, локальная шина;
Источник настройки частоты LCP, аналоговая, импульсная, локальная шина;
Управление рампой Выбираемые 4-ступенчатые ступени: время увеличения и уменьшения 0,05–3600,00 с;
Основные функции Контроль скорости без обратной связи; Управление процессом с обратной связью; Управление моментом без обратной связи; Функция AMA; Намагничивание двигателя; Компенсация скольжения; Компенсация крутящего момента; Автоматическое регулирование напряжения; Управление V / F, Тормоз постоянного тока; Тормоз переменного тока; Ограничение скорости; Текущий предел; Быстрый старт; Функция сброса; Счетчик; Таймер;  
Функции приложения Функция колебания; Многоскоростное управление через цифровой вход; SLC (включая контроль заказов и параллельное управление); Механическое торможение; ВВЕРХ ВНИЗ ; Относительное масштабирование
Защита Отсутствие защиты фазы двигателя; Низковольтная защита; Защита от перенапряжения; Защита от сверхтока; Защита от потери выходной фазы; Защита от короткого замыкания на выходе; Защита от замыкания на выходе; Тепловая защита двигателя; Функция тайм-аута в реальном времени; AMA Fails; Сбой процессора; Ошибки EEPROM; Кнопка замораживания; Повторяющиеся ошибки; LCP Invalid; LCP несовместимый; Параметр только для чтения; Ссылка вне диапазона; Неверно во время работы и т. д.
Функции

Характеристики по моделям

Модель Входное напряжение Вход. ток Вых. ток Ном. мощность Сила рассеивания Расход воздуха Нетто
(А) (А) (КВт)  (Вт) (М3
/ ч)
(кг)
HLP-A1000D3721 1×200-240V 7 2,5 0,37 17,7 51 1,3
HLP-A1000D7521 1×200-240V 13,9 5  0,75  33,3 51 1,3
HLP-A10001D521 1×200-240V 20,6  7,5 1,5   53,8 51 1,3 
HLP-A10002D221 1×200-240V 30,4 11 2,2 75 51 1,3
HLP-A10003D721 1×200-240V 49,7 17 3,7 115,7 51 2
HLP-A10005D521 1×200-240V 62,4 25 5,5 160 124 5,6
HLP-A10007D521 1×200-240V 84 32 7,5 225 230 7,8
HLP-A1000D3723 3×200-240V 4 2,5 0,37 16,8 51 1,3
HLP-A1000D7523 3×200-240V  8,0 5 0,75 31,5 51 1,3
HLP-A10001D523 3×200-240V 12 7,5 1,5 51 51 1,3
HLP-A10002D223 3×200-240V 17,7  11 2,2 73,7 51 1,3
HLP-A10003D723 3×200-240V 27,2 17 3,7 110,9 51 2,0 
HLP-A10005D523 3×200-240V 35,1   25 5,5  155  124 5,6
HLP-A10007D523 3×200-240V 43,4   32 7,5  210 124  5,6
HLP-A100001123 3×200-240V 61 45 11 323  272  7,8 
HLP-A100001523  3×200-240V  73 61  15  447 300  18,5 
HLP-A1000D7543  3
× 380-440V
 3,7 2,3   0,75   38,5   51   1,3 
3 × 440-480V  3,2 2,1 
HLP-A10001D543  3
× 380-440V
6,4  1,5   49,0   51   1,3  
3 × 440-480V 5,5  3,6 
HLP-A10002D243 3
× 380-440V 
8,9  5,6  2,2   65,2   51   1,3  
3 × 440-480V 7,7  5,1 
HLP-A10004D043  3
× 380-440V 
+15,8  9,9  4,0   122,9   51   2,0  
3 × 440-480V 13,6
HLP-A10005D543  3
× 380-440V  
21,3 13,3  5,5   139,4   51   2,0  
3 × 440-480V 18,4  12,1 
HLP-A10007D543   3
× 380-440V  
28,3  17,7  7,5   211,6   68   2.5  
3 × 440-480V  24,4  16,1 
HLP-A100001143  3
× 380-440V 
35,9  25  11  262,4  124  5,8  
3 × 440-480V  31,4  22,7
HLP-A100001543  3
× 380-440V 
43,4  32  15   339,3   170  5,8  
3 × 440-480V  38,8  29,1 
HLP-A10018D543  3
× 380-440V 
51,5  38  18,5   418,0   230   8  
3 × 440-480V  46,1  34,5
HLP-A100002243   3
× 380-440V  
61,0  45  22   468,2   272    8 
3 × 440-480V   54,5  40,9 
HLP-A100003043   3
× 380-440V 
 73 61  30    676,3   303  19  
3 × 440-480V  64 52
HLP-A100003743  3
× 380-440V  
 72 75  37   795  374   22  
3 × 440-480V   65 68
HLP-A100004543   3
× 380-440V   
86  91 45  974,8   408    26 
3 × 440-480V  80 82
HLP-A100005543   3
× 380-440V 
 110  112 55    1246   476   26 
3 × 440-480V 108  110
HLP-A100007543 3
× 380-440V 
 148  150  75  1635    595   37 
3 × 440-480V  135  140
HLP-A100009043   3
× 380-440V
 175 180 90  2204    646  60  
 3 × 440-480V  154 160
HLP-A100011043  3
× 380-440V
206  215  110   2600   714   60  
3 × 440-480V  183 190
 HLP-A100013243  3
× 380-440V
251 260  132   3178   850   60 
3 × 440-480V 231 240
HLP-A100016043  3
× 380-440V
304 315 160  3689  1029   99  
3 × 440-480V 291 302
HLP-A100018543  3
× 380-440V
 350 365  185  4268   1190   99  
3 × 440-480V 320 335
HLP-A100020043   3
× 380-440V
381 395 200  4627   1292   99  
3 × 440-480V 348 361
HLP-A100022043   3
× 380-440V
420 435 220  4935   1411   99  
 3 × 440-480V 383 398 
HLP-A100025043   3
× 380-440V 
472  480  250  5323  1564   250  
3 × 440-480V  436  443
HLP-A100028043   3
× 380-440V 
525  540  280  6543  1700   250  
3 × 440-480V  475 490 
HLP-A100031543    3
× 380-440V  
590  605  315  7251  1870  250 
3 × 440-480V  531 540 
HLP-A100035543   3
× 380-440V 
647  660  355  7497   2125   250  
3 × 440-480V   580 590 
HLP-A100041543    3
× 380-440V  
718  745  415  8284   2380  250 
3 × 440-480V    653  678 

Размеры установки

Корпус Напряжение и питание Размеры(mm)
  1×200-240V 3×200-240V 3×380-480V W H D W1 H1 W2 d
A0  0.37-1.5kW  0.37-1.5kW  0.75-2.2kW 125 210 152 104 194 4.5
A1  2.2-3.7kW  2.2-3.7kW  4.0-5.5kW 145 250 167 124 230 4.5
A2  —  —  7.5kW 155 263 177 133 243 —  4.5
A3 5.5kW 5.5-7.5kW  11-15kW 192 365 189 150 340 —  6.5
A4 7.5kW 11kW  18.5-22kW 216 420 194 150 395 —  6.5
A5-1 —  15kW  30-37kW  292 517 229 240 492 —  9
A5-2 —  —  45-55kW 292 562 249 240 537 —  9
A6 75kW  292 665 277 240 640 —  9
 A7 —  90-132kW  350  799  375  220  765 280 10.5
 A8 —  —  160-220kW  486  900 390 345  863 410 10.5
 A9 250-415kW  600 1568 509 424  304 15

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IndexIntroduction 1Chapter 1 Safty Precautions 1

1.1 Before power-up 11.2 During the power-up 31.3 During the operation 31.4 After the power-off 4

Chapter 2 Standards and Specifications 52.1 Label Description 52.2 Particular Specifications 62.3 Technical Specifications 7

Chapter 3 Installation and wiring 113.1 Checks before Installation 113.2 Installation Dimensions 11

3.2.1 Dimensions of LCP 113.2.2 Dimensions of the inverter 12

3.3 Installation and Wiring 133.3.1 Electrical Installation in General 133.3.2 Fuse and Main Circuit Terminals Specifications 133.3.3 Installation and Direction 143.3.4 Wiring terminal 153.3.5 Wiring 19

Chapter 4 Operation and Display Interface 214.1 LCP Digital Operator 214.2 Quick to set parameters 21

4.2.1 Preset reference by LCP 214.2.2 FWD/REV Status 224.2.3 Data read-outs 234.2.4 View alarm record 254.2.5 View state parameter 264.2.6 LED Display 27

Chapter 5 Parameter Overview 28Chapter 6 Parameter Description 54

6.1 Parameter Group 00: Operation/Display 546.2 Parameter Group 01: Load and Motor 596.3 Parameter Group 02: Brakes 696.4 Parameter Group 03: Reference/Ramps 726.5 Parameter Group 04: Limits/warnings 816.6 Parameter Group 05: Digital Input/Output 86

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6.7 Parameter Group 06: Analog In/Out 956.8 Parameter Group 07: Controller 1036.9 Parameter Group 08: Comm. and Options 1066.10 Parameter Group 13: Simple PLC 1106.11 Parameter Group 14: Special Functions 1186.12 Parameter Group 15: Drive Information 1236.13 Parameter Group 16: Data Readouts 1276.14 Parameter Group 25: App. Functions Cascade 1366.15 Parameter Group 30: App. Functions Wobble 145

Chapter 7 Quick Application Guide 1507.1 Motor Parameter Adaption 1507.2 Using LCP to control the drive [HAND] 1507.3 Using digital in terminals to control the drive [AUTO] 151 7.4 Set-up selection 1517.5 Potentiometer reference 1527.6 Connect two-wire transductor to terminal AI 1527.7 Reference for pulse input 1537.8 Multi-speed 1537.9 Speed up/down 1547.10 Pulse start/stop 1557.11 Digital speed up/down 1557.12 Configuration Mode 1567.13 Simple PLC 158

7.13.1 Order Execution 1587.13.2 Parallel Execution 160

Chapter 8 Accessory Specification 1618.1 Braking Resistor 1618.2 Remote Mounting Kit 162

Chapter 9 EMC 1639.1 EMC–Correct Installation 163

Chapter 10 Warnings/Alarms and Fault Handling 16410.1 Fault List 16410.2 Fault Indication and Trouble Shooting 168

Chapter 11 Maintenance 17011.1 Note 17011.2 Storage and Transport 170

Chapter 12 Communication protocol 17112.1 Format specification 17112.2 Coil addressing 17112.3 Read Coil Status 17312.4 Read Holding Registers 17412.5 Force Single Coil 175

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12.6 Preset Single Register 17512.7 Force Multiple Coils 17612.8 Preset Multiple Regs 17712.9 Read/Write array 17812.10 Exception code 179

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— 6 —

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Caution

● Check to be sure that the voltage of the main circuit AC power supply matches the input voltage of the inverter.

● Install the inverter in a safe location, avoiding high temperature, direct sunlight, humid air or water.

● The inverter can only be used at the places accredited by our company. Any unauthorized working environment may have the risks of fire, gas explosion, electric shock and other incidents.

● If more than one drive installed on the same control cabinet, make additional cooling fan, so that the inside temperature is lower than 40℃,in order to prevent overheating or fire occurs.

● It will affect the service life of the inverter if a contactor is

IntroductionThank you for purchasing and using the general-purpose vector

inverter of HLP-A100 series.Please read caref ully the operation manual before putting the inverter

to use so as to correctly install and operate the inverter, give f ull play to its f unctions and ensure the safety. Please keep the operation manual handy for f uture reference, maintenance, inspection and repair.

Due to the inverter of a kind of power electronics product it must be installed, tested and adjusted with specialized electrical engineering workers.

The marks of (Danger) 、 (Caution) and other symbols in the manual remind you of the safety and prevention cautions during the handling, installation, running and inspection. Please follow these instructions to make sure the safe use of the inverter. In case of any doubt please contact our local agent for consultation. Our professional persons are willing and ready to serve you.

The manual is subject to change without notice.

Chapter 1 Safety Precautions

1.1 Before power-up

Caution Indicates misuse may damage the inverter or mechanical system .

Danger Misuse may result in casualty.

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— 2 —

Danger

● Be sure to turn off the power supply before wiring.● Mount the drive in the metal and other non-combustible materials

to avoid the risk of fire.● Don’t install the drive in a space with explosive gas, otherwise,

they lead to explosion.● R, S, T terminals are power input terminals, never mixed with

U.V.W terminals. Be sure that the wiring of the main circuit is

installed on the input side to control the start and stop. Generally it is required to control it through terminal commands. Special attention should be paid to its use in the case of the start and stop more frequently places.

● Do not install any switch component like circuit breaker or contactor at the output of the inverter. If any of such components must be installed due process and other needs, it must be ensured that the inverter has no output when the switch acts. In addition, it is forbidden to install any capacitor for improvement of power factor or any varistor against thunder at the output. Otherwise it will cause malfunctions, tripping protection and damages of components of the inverter.

● Please use an independent power supply for the inverter. Do avoid using the common power supply with an electrical welder and other equipment with strong disturbance. Otherwise it will cause the drive to protect or even damage the drive.

● Motor overload protection is not included in the default settings. If this function is desired, set C01.09 (motor thermal protection) to date value ETR trip or date value ETR warning.

● Do not make any high voltage test with any component inside the inverter. These semi-conductor parts are subject to the damage of high voltage.

● The IC board of the inverter are susceptible to the effect and damage of static electricity. Don’t touch the main circuit board.

● Installation, commissioning and maintenance must be performed by qualified professional personnel.

● Don’t carry the front cover of the inverter directly when handling. It should be handled with the base to prevent the front cover off and avoid the dropping of the inverter, which may possibly cause the injuries to people and the damages to the inverter.

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correct. Otherwise it will cause damages of the inverter when the power is applied to it.

● The terminal of must be grounded separately and never connected to N-line. Otherwise it will easily cause the protection or errors of the inverter.

● Do not dissemble or modify any internal connecting cord, wiring or component of the inverter by yourself.

● Never remodel it or exchange control boards and components by yourself. It may expose you to an electrical shock or explosion, etc.

● Keep the inver ter from the reach of children or persons not concerned.

Caution

● Do not measure the signals on circuit boards while the inverter is running to avoid danger.

● The drive has been optimized before sold. Please make proper adjustments according to the desired functions.

● Do consider the vibration, noise and the speed limit of the motor bearings and the mechanical devices.

Danger

● Do not plug the connectors of the inverter during the power up to avoid any surge into the main control board due to plugging, which might cause the damage of the inverter.

● Always have the protective cover in place before the power up to avoid electrical shock injury.

Danger

● Never connect or disconnect the motor set while the inverter is in running. Otherwise it will cause over-current trip and even burn up the main circuit of the inverter.

1.2 During the power-up

1.3 During the operation

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— 4 —

Caution

● Even in the case of the main power, the other voltage inputs and the share load (linkage of DC intermediate circuit) all have been disconnected from the mains, the internal of the drive still have residual energy. Before touching any potentially live parts of the inverter, please wait at least 4 minutes for the drives of less than 22KW (including 22KW), and wait at least 15 minutes for the drives of more than 30kW (including 30kW). Otherwise, it will expose you to a risk of electrical shock.

The user must strictly follow the instruction to operate and make wire connection. Otherwise HOLIP will not responsible for the damages due to wrong operation. The user will responsible for the damages themselves.

● Never remove the front cover of the inverter while the inverter is powered up to avoid any injury of electric shock.

● Do not come close to the machine when the Reset Function is used to avoid anything unexpected. The motor may automatically recover from fault.

1.4 After the power-off

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Chapter 2 Standards and Specifications

2.1 Label Description

Significance of the type code:

1-8 HLP-A100 Indicate Product Series9-12 0075 Indicate 75KW 13-14 21 Indicate 1-Phase AC 220V 23 Indicate 3-Phase AC 220V 43 Indicate 3-Phase AC 380V 15-17 P20 IP rating is 2018 X Without AC choke A With AC choke19 X Without Brake unit B With Brake unit20 X Without DC choke D With DC choke21 1 Control panel with LED display and potentiometer22 C With coating on PCB 23 X Reserved24 0 Domestic sale 1 Overseas sale25-27 XX Reserved 28-31 VXXX Indicate sof tware version number, such as V235 means the version number is 2.35 .

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2.2 Particular Specifications

Model Input voltageInput

current/A

Output current/

A

Rated power/

KW

Suitable motor/

KW

Net weight/

KG

HLP-A1000011433×380-440V50/60Hz 35.9 25

11 11 5.83×440-480V50/60Hz 31.4 22.7

HLP-A1000015433×380-440V50/60Hz 43.4 32

15 15 5.83×440-480V50/60Hz 38.8 29.1

HLP-A10018D5433×380-440V50/60Hz 51.5 38

18.5 18.5 83×440-480V50/60Hz 46.1 34.5

HLP-A1000022433×380-440V50/60Hz 61.0 45

22 22 83×440-480V50/60Hz 54.5 40.9

HLP-A1000030433×380-440V50/60Hz 57 61

30 30 25.43×440-480V50/60Hz 46 52

HLP-A1000037433×380-440V50/60Hz 70 73

37 37 25.43×440-480V50/60Hz 57 65

HLP-A1000045433×380-440V50/60Hz 84 90

45 45 503×440-480V50/60Hz 68 80

HLP-A1000055433×380-440V50/60Hz 103 106

55 55 503×440-480V50/60Hz 83 105

HLP-A1000075433×380-440V50/60Hz 140 147

75 75 503×440-480V50/60Hz 113 130

HLP-A1000090433×380-440V50/60Hz 175 180

90 90 603×440-480V50/60Hz 154 160

HLP-A1000110433×380-440V50/60Hz 206 215

110 110 603×440-480V50/60Hz 183 190

HLP-A1000132433×380-440V50/60Hz 251 260

132 132 603×440-480V50/60Hz 231 240

HLP-A1000160433×380-440V50/60Hz 304 315

160 160 993×440-480V50/60Hz 291 302

HLP-A1000185433×380-440V50/60Hz 350 365

185 185 993×440-480V50/60Hz 320 335

HLP-A1000200433×380-440V50/60Hz 381 395

200 200 993×440-480V50/60Hz 348 361

HLP-A1000220433×380-440V50/60Hz 420 435

220 220 993×440-480V50/60Hz 383 398

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2.3 Technical Specifications

Item Specif ication

Power supply

Supply voltage three phase 380-480V -20%-+10%;Frequency 48-62Hz;

Max. imbalance 3%;

Motor output

Output voltage three phase 0-100% of supply voltage;

Output f requency V/F : 0-400Hz , VVC+: 0-200Hz;

Main control

f unctions

Control mode V/F, VVC+;Start torque 1Hz 150%;

Overload capacity 150% rated output current (60s), 200% rated output current(1s);

PWM switch f requency 2K-16KHz;

Speed setting resolution

Digital: 0.001Hz; analogy: 0.5‰ of the max. operating f requency ;

Speed open-loop control accuracy 30 — 4000 rpm: tolerance±8 rpm;

Speed closed-loop control accuracy 0 — 6000 rpm: tolerance±0.15 rpm;

Control command source LCP , digital terminal, local bus;

Frequency setting source LCP , analog, pulse, local bus;

Ramp control Selectable 4-speed steps ramp up and down times 0.05-3600.00s;

Basic Functions

AMA Function; Motor Magnetisation; Slip Compensation; Torque compensation; Automatic Voltage Regulation; V/F Control, DC Brake; AC brake; Speed Limit; Cur rent Limit; Flying Start; Reset Function; Counter; Timer; PI Controller.

Application Functions

Speed Open-loop Control; Process Closed-loop Control; Wobble Function; Cascade controller; Winder; Jogging ; Multi-speed Cont rol via Digital input; Multi-speed Control via Reference; SLC ( including Order Control 、 Parallel Control ) ; Mechanical Braking;UP/DOWN;Catch up /Slow down; Relative Scaling Reference etc.

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Item Specif ication

Protection Functions

Missing Motor Phase Protection; Low-voltage Protection; Over-voltage Protection; Over-current Protection; Output Phase Loss Protection; Output Short Circuit Protection; Out put Grounding Fault Protection; Motor Ther mal Protection; Live Zero Timeout Function; AMA Fails; CPU Fault; EEPROM Faults; But ton f reeze; Duplicate Fails; LCP Invalid; LCP Incompatible; Parameter Read-only; Reference Out of Range; Invalid While Running; Password Error etc.

Control Terminals

Digital input

Number 6 digital inputs.Scanning

time 1ms;

Analog input

Number of input

2 analog inputs ( VI 、 AI ) , both can receive voltage or current signals.

Input accuracy Max.error: 0.5% of f ull scale

Resolution 11bit; Scanning

time 1ms;

Pulse input

Input number

1 pulse input ( DI4 ) , pulse range:1Hz-100KHz;

Input accuracy Max.error:0.5% of f ull scale;

Resolution 11bit;Scanning

time 16ms;

Digital output

Output number 2 digital outputs ( DO1 、 DO2 )

Relay output

2 relay outputs ( KA-KB 、 FA-FB-FC ) ;

Scanning time 1ms;

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Item Specif ication

Control Terminals

Analog output

Output number

2 analog outputs ( VO 、 AO ) , VO can be selected to the current output or voltage output via jumper switch in the control board. AO can only be selected as current output . Up to 11 dif ferent features can be selected;

Output accuracy Max. error: 4‰ of f ull scale;

Resolution 11bit; Scanning

time 16ms;

Pulse output

Output number

1 pulse output (DO1), range: 1Hz-2KHz (range f rom 1Hz-100KHz is optional);

Output accuracy Max.error: 0.5% of f ull scale;

Resolution 11bit;Scanning

time 16ms;

Power supply

VDD 24VDC power supply;+10V 10VDC power supply;

RS485 serial

commu-nication

Terminal number 1, RS+(TX+,RX+), RS- (TX-, RX-);

Ground for RS485 GND;

Display

8 segments, 5 numeric displays

Display f requency, warnings, status and so on;

IndicatorLight FWD 、 REV 、 HZ 、 A 、 R/MIN display various status of the inverter;

Data read-outs

Frequency setting, output f requency, feedback value, output current, DC link voltage, output voltage, output power, input terminals state, output terminals state, analogue input , analogue output, 1-10 fault records and accumulated working time etc.;

Accessory

Remote mounting kit

Available when the control panel for external use;

Copy card Copy parameters f rom one inverter to another ;

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Item Specif ication

Environment

Enclosure IP20;Ambient

temperature -10℃ — 40℃ ;

Humidity 5%-85% ( 95% without condensation);Vibration test ≤75KW:1.14g;90-220KW:0.7g;

Max. altitude above sea level

1000m, derating use when more than 1000 meters;

Motor cable length Shield cable: 50 meters, unshield cable: 100 meters;

OthersDC Choke ≥30kW with DC choke;Brake Unit ≤22KW with Brake Unit;

Attention: Inverter under special environment (derating) :● Derating for ambient temperature: If the f requency converter is

operated over 40℃ ambient temperature, the continuous output current should be decreased. The f requency converter has been designed for operation at max 50℃ ambient temperation with one motor size smaller than normal. Continuous operation at f ull load at 50℃ ambient temperation will reduce the lifetime of the f requency converter.

● Derating for low air pressure: The cooling capability of air is decreased at low air pressure. Below 1000m altitude no de-rating is necessary but above 1000m the ambient temperature or the maximum output current should be decreased. Dcrease the output by 1% per 100m altitude above 1000m or reduce the max. ambient temperature by 1 degree per 200m.

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Chapter 3 Installation and wiring

3.1 Checks before Installation

3.2 Installation Dimensions

3.2.1 Dimensions of LCP

The inver ter has been st rictly and well packed bef ore sold. In consideration of various factors during the transportation special attention should be paid to the following points before installation. If there is anything abnormal please notif y the dealer or the relevant people of our company.

● Check if the inverter has got any damage or deformation during the transportation and handling;

● Check if there is one piece of HLP-A100 series inverter and one copy of the instruction manual available when unpacking it;

● Check the information on the label to see if the specifications meet your order (Operating voltage and KW value);

● Check if the optional components you ordered are contained;● Check if there is a certificate of qualification and a warranty card.

Dimensions of the LCP are shown below (unit: mm):

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3.2.2 Dimensions of the inverter

Item Model Frame size and Installation Dimension

A3

HLP-A100001143

HLP-A100001543

A4

HLP-A10018D543

HLP-A100002243

A5HLP-A100003043

HLP-A100003743

A6

HLP-A100004543

HLP-A100005543

HLP-A100007543

A7

HLP-A100009043

HLP-A100011043

HLP-A100013243

A8 HLP-A100016043

HLP-A100018543

HLP-A100020043

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Installation dimensions of the inverter:

Details of terminal tightening torques:

3.3 Installation and Wiring

3.3.1 Electrical Installation in General

Caution

● All cabling must comply with national and local regulations on cable cross-sections and ambient temperature. Copper conductors required.

Power (KW) and Voltage levels Torque (Nm)

1×200-240V

3×200-240V

3×380-480V Line Motor DC connection/

BrakeControl

terminals Relay

11-22 1.2 1.2 1.2 0.15-0.4 0.430-75 8 8 8 0.15-0.4 0.4

90-220 16 16 16 0.15-0.4 0.4

ItemDimension(mm)

A(mm) B(mm) C(mm) D(mm) E(mm) F(mm) G(mm)A3 148 192 340 365 189 6.5 -A4 150 214 395 420 194 6.5 -A5 250 292 530 563 216.5 10 200A6 280 330 680 720 308 10.5 215A7 220 350 765 799 375 10.5 280A8 345 486 863 900 390 10.5 410

3.3.2 Fuse and Main Circuit Terminals Specifications

Model Fuse(Rated current/A) Main Circuit Terminals

HLP-A100001143 63 M4

HLP-A100001543 80 M4

HLP-A10018D543 80 M5

HLP-A100002243 100 M5

HLP-A100003043 100 M8

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3.3.3 Installation and Direction

Single InstallationThe inver ter must be installed vertically with smooth ventilation. Enough space must be lef t around the inverter to ensure good cooling, as shown below:

Min:100 mm

Min:100 mm

Side by Side InstallationHLP-A100 series inver ter can be mounted side by side, a minimum space must be reserved above and below the enclosure, as shown below:

Fig.1 Single installation Fig.2 Side by side installation

Model Fuse(Rated current/A) Main Circuit Terminals

HLP-A100003743 125 M8

HLP-A100004543 160 M8

HLP-A100005543 160 M8

HLP-A100007543 224 M8

HLP-A100009043 300 M10

HLP-A100011043 350 M10

HLP-A100013243 400 M10

HLP-A100016043 500 M12*1 (M10*2)

HLP-A100018543 630 M12*1 (M10*2)

HLP-A100020043 630 M12*1 (M10*2)

HLP-A100022043 800 M12*1 (M10*2)

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Fig. 3 Upper and Lower installation

Upper and Lower InstallationIf several inver ters need to be installed together in one cabinet, upper and lower installation can be adopted. Enough space must be reserved to ensure effective cooling, as shown right:

Note: Install the unit and make sure that it is f ree f rom high moisture 、 high temperature 、 heavy dust 、 metal f ragments and high oil mist.

3.3.4 Wiring terminal

Min:100mm

Min:100mm

3.3.4.1 Main Circuit Terminals

Terminals of the main circuit:

11-22kW:

30-220KW:

R S T VU W-UDC +UDC

-UDC +UDC/+BR

TS U-BR R V W

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3.3.4.2 I/O Control Terminals

Description of main circuit terminals:

30-75kW Control and Relay Terminals:

Symbol Function

R 、 S 、 T Power input

U 、 V 、 W Power output, connect to the motor

-BR 、 +BR Connect the brake resistor, make sure to set C02.10 、 C02.11 etc.

+UDC 、 -UDC DC bus Ground terminal

11-22kW & 90-220kW Control and Relay Terminals:

RS+ RS- FORCOM VDDREV VI AI+10V

DI2 DI3 GNDDI4 DO2DO1 VO AODCM

GND

DI1

FA FB KA FC KB

RS+ RS- AIVI REVFOR VDD DO1DI1

AO +10V DI2GND DI4DI3 DCM COMCOM

DO2

VO

KA KB

FB FCFA

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Description of I/O control terminals:

Symbol Description Specification

VDD 24Vpower supply

Max.load 200mA, with over load and short circuit protection f unctions;

+10V 10V power supply

Max.load 10 mA, with over load and short circuit protection f unctions;

Digital input (FOR、 REV、

DI1、 DI2、 DI3、 DI4)

Digital control terminals

1 、 Logic:PNP <DC5V logic ‘0’; >DC10V logic ‘1’;NPN >DC19V logic ‘0’; <DC14V logic ‘1’;2 、 Voltage: DC 0-24V;3 、 Input resistance: 5KΩ;4 、 Input voltage rang: max ±28V; 5 、 Switch PNP and NPN model by Jumper switch.

Analog input (VI、 AI)

Analog setting/Feedback

Set by the related parameter, analog input channel can be configurated to 0-20mA or 0-10V:Voltage input:1 、 Input impedance: about 10 KΩ;2 、 Maximum withstand voltage is 20V, duration of 2 seconds, the maximum reverse voltage is -15V , duration of 2seconds.Current input:1 、 Input impedence≤500Ω;2 、 Maximum withstand current is 29 mA duration of 2 seconds.

Analog、communication

(GND)

Analog、communication

ground

Isolated f rom internal digital ground(COM)

Pulse input DI4 Pulse setting/Feedback

1 、 Pulse input: 0.001-100.000KHz;2 、 Voltage range: 24V ± 20%;3 、 Input duty ratio: 40%-60%;

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Symbol Description Specification

Digital output (DO1 、 DO2) Digital output

1 、 Open collector output;2 、 Output current range: 0-50mA;3 、 Max voltage 30V;4、 Two different way to connect relay:

V D D

D O 1

D O 2

D C M

C O M

R e la y1 R e la y2

Note: DCM and COM must be connected.

V D D

D O 1

D O 2

D C M

C O M

+ +S u p p ly

R e la y1 R e la y2

Digital output common terminal(DCM)

Digital output common terminal

Connect COM as Digital output reference ground while use.

Analog output (VO 、 AO) Analog output

VO can be selected to the current output or voltage output via jumper switch in the control board. AO can only be selected as current output:1 、 Output mode: 0-20mA or 0-10V;2 、 Voltage output: Load larger than 500Ω;3 、 Current output: Load larger than 500Ω;

Pulse output DO1 Pulse output

DO1 can also be configured as pulse output channels:1 、 Pulse output range: 0.001-5.000KHz (range f rom 0.001-100.000KHz is optional);2 、 Voltage range: 0-24V;3 、 Duty ratio: 40%-60%;4 、 Resistive load >1kΩ, capacitive load < 10nF;

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3.3.5 Wiring

Basic Connection Diagram of HLP-A100 series inverter:

Symbol Description SpecificationCOM Digital ground Isolated f rom internal GND;

Relay output (KA-KB, FA-

FB-FC)Relay output

1 、 Resistive load: 250VAC 3A/30VDC 3A;2 、 Inductive load: 250VAC 0.2A/24VDC 0.1A(cosφ=0.4);

RS+、 RS- RS485 comm-unication Max baud rate: 115200bit/s;

10V D C10M a

24V D C200M a

24V +N p N +0V +p N p +

24V +N p N +0V +p N p +

24V +N p N +0V +p N p +

24V +N p N +0V +p N p +

24V +N p N +0V +p N p +

24V +N p N +0V +p N p +

R S 485IN te Rfa Ce

p e

R

t

Sp Ow e RIN p u t

uV

w

p e

+10V

V I

a I

G N D

V D D

f O R

R e V

D I1

D O 2

D I3

D I2

D I4

C O M

+u D C

+u D C ++B R

+B R

f a

f B

f C

K a

K B

R S +

R S +

G N D

0+10V D C+4+20M a

0+10V D C+4+20M a

0+10V D C+4+20M a

D C B u S

B Ra K eR e S IS tOR

R S 485C OM M u N ICa tION

R e la y1

R e la y2

M OtOR

21

3 J u M p e RS w ItCh

R f I

R f IS w ItCh

D C M

V OltaGe O u p u t V O

a O4+20M a

D O 1

D IG Ita lIN p u t

D IG Ita lO u tp u t

t e RM IN a l R e S IS tOR

S w ItCh M OD ep Ow e R S u p p ly

C u RRe N t O u p u t

J u M p e R S w ItCh

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Precautions for the main circuit wiring:● Note: The drives of more than 30kW (including 30kW) do not have +BR

and –BR terminals.● While wiring the sizes and specifications of wires should be selected

and the wiring should be executed according to the electrical engineering regulations to ensure the safety.

● It is better to use shielded wire or wire conduit for power cord and ground the shielded layer or two ends of wire conduit.

● Be sure to install a circuit Breaker between the power supply and the input terminals (R.S.T). (If using RCD, please choose B type)

● Phase-shif ting capacitors, LC, RC noise f ilters etc, can never be connected to the output terminals of the inverter.

● Please lower the inverter switching f requency when there is a longer distance between the inverter and the motor.

● Drive earth leakage current is greater more than 3.5 mA. According to the requirments of IEC 61800-5-1 , must use the following ways to enhance the protection of ground: minimum 10mm2 cross sectional area of copper, or additional PE line, its cross sectional area and the main power cable should be the same, must be separate grounded.

● Make sure reliable ground of the inverter in accordance with IEC 61800-5-1.

● Please refer to 9.2 for the use of RFI SWITCH.

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Key-press LCP Display Action Description

C00.04Press key to display the first

basic C00.03

C03.00Turn clockwise to select

parameter group C03

C03.00Press key to shif t to f ractional

part

C03.10 Turn clockwise to select parameter C03.10

Chapter 4 Operation and Display Interface

4.1 LCP Digital Operator

4.2 Quick to set parameters

4.2.1 Preset reference by LCP

Example: Set C03.10[0] to 20.5:

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Key-press LCP Display Action Description

[0] Press key show the first option of C03.10

0000 Press key to show the value of the first option of parameter C03.10

000.5 Turn clockwise to change the f ractional part to 5

000.5Press key to shif t to integral

part

020.5 Press key to change the integral part to 20

END Press key to accept the change and save it as 20.5

4.2.2 FWD/REV StatusConfirm the direction of the motor according to the set value, as shown

in the following table:

Reference Running status Indicator Display

≥0 STOP

<0 STOP

≥0 FWD

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Reference Running status Indicator Display

≥0 REV

<0 FWD

<0 REV

Note: A flash light denotes the status coming, Light on indicates the current state, and light off means not in this state.

Example 1: The f irst line of the table indicates the drive is stop and the reference is greater than or equal to 0, means the dirve at some time in the f uture will run forward.

Example 2: The fourth line of the table represents the current drive is reverse running, and the reference setting is greater than or equal to 0, it means the drive at some time in the f uture will run forward.

4.2.3 Data Read-outs

Display Items Key-press LCP Display Action Description

Output Frequency

Initial interface

Show the output f requency (C16.13) is 50.0Hz, display accuracy : 0.1

Reference (%)

Show the preset reference (C16.01) is 50%, display accuracy: 0.001

Motor Current

Show the motor current (C16.14) is 9.00A, display accuracy: 0.01

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Display Items Key-press LCP Display Action Description

Motor Voltage

Show the motor voltage (C16.12) is 380.0V, display accuracy: 0.1

Motor SpeedShow the motor speed (C16.05) is 1440rpm, display accuracy:1

DC Voltage

Show the DC voltage(C16.30) is 540.0V, display accuracy: 0.1

Inverter temperature

Show the inverter temperature (parC16.34) is 45℃, display accuracy:1

Feedback Value

Show the feedback value(C16.52) is 28.000, display accuracy: 0.001

Counter AShow value of counter A is (C16.72) 65535, display accuracy : 1

Counter BShow counter B(C16.72) is 65535, diaplay accuracy : 1

Analog in VIShow analog in VI (C16.62) is 10.00V, display accuracy: 0.01

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Key-press LCP Display Action Description

C00.04Press key to display the first

basic C00.03.

C15.00 Turn clockwise to select par. group No. C15.

C15.00Press to select parameter

number.

C15.30 Turn clockwise to select C15.30

Display Items Key-press LCP Display Action Description

Analog in AIShow Analog in AI (C16.63) is 20.00mA, display accuracy: 0.01

Pulse InputShow pulse input (C16.68) is 50000Hz, display accuracy:1

Pulse OutputShow pulse output (C16.69) is 50000Hz, display accuracy: 1

Note: Press key to change the display items on control panel, however,

C00.33 must be activated (see C00.33).

4.2.4 View alarm record

If the drive trips, fault code will be showed to illustrate the reason, all the trip record will be saved.

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Key-press LCP Display Action Description

[0] Press to show the first option of C15.30

** Press to show the first fault record.

[1]Press to show the second fault record, it can display up to ten recent

fault records in turn.

Key-press LCP Display Action Description

C00.03Press to display the first basic

parameter C00.03.

C16.00 Turn clockwise to select Par. group No. C16

C16.00 Press to select parameter No.

C16.01 Press select C16.01

0 Turn clockwise to finish browse value of C16.01.

4.2.5 View state parameter

View the status of input terminal, reference, feedback value, output f requency, output current, output voltage, and the power etc.

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Key-press LCP Display Action Description

C16.60 Press to select C16.60.

0000Press to view the value in C16.60, 0100 indicates status of FOR 、

DI1 、 DI2 is 0, and status of REV is 1.

4.2.6 LED Display

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Chapter 5 Parameter Overview

Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 00: Operation/D

isplay

*C00.03 Regional Settings 0: 50 Hz; 1: 60 Hz; 0 54

C00.04Operating State at Power-up

0: Resume;1: Forced stop reference=old; 2: Forced stop reference=0;

1 54

*C00.06 Grid Type 0-132 * 55

C00.10 Active Set-up 1: Set-up1; 2: Set-up2; 9: Multi set-up; 1 55

C00.11 Edit Set-up 1: Set-up1; 2: Set-up2; 1 56

*C00.12 Link Set-up 0: Not linked; 20: Linked; 20 56

C00.31Custom Readout Min Value

0.00-9999.00 0.00 56

C00.32Custom Readout Max Value

0.00-9999.00 100.00 57

C00.33 LCP Display Option 0-2047 0 57

C00.40 [HAND ON] key on LCP

0: Disabled;1: Enabled; 1 57

C00.41 [OFF/RESET] key on LCP

0: Disable All; 1: Enable All; 2: Enable Reset Only;

1 58

C00.42 [AUTO] key on LCP

0: Disabled; 1: Enabled; 1 58

*C00.51 Set-up Copy

0: No copy; 1: Copy f rom set-up1; 2: Copy f rom set-up2; 9: Copy f rom factory set-up;

0 58

C00.60 Menu Password

0: Disabled; 1: Enabled; 0 58

C01.00 Configuration Mode

0: Speed open loop; 3: Process closed loop;4: Torque Open loop;

0 59

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup01: Load/motor

*C01.01 Motor Control Principle 0: U/F; 1: VCC+; 1 59

*C01.03 Torque Characteristics

0: Constant torque; 1: Mutative; 3: Energy optim;

0 59

*C01.07Application Configuration Mode

0: No Function; 1: Wobble Function; 2: Cascade Control; 3: Winder Function;

0 60

*C01.20 Motor Power [kW][HP] Dep.on motor data kW * 60

*C01.22 Motor Voltage(Um.n) 50~1000 V * 60

*C01.23Motor Frequency(f m.n)

20~400 Hz * 61

*C01.24 Motor Current(Im.n) Dep.on motor data A * 61

*C01.25Motor Nominal Speed(nm.n)

100~9999 rpm * 61

*C01.29

Automatic Motor Adaptation(AMA)

0: Off; 1: Enabled Complete AMA; 2: Enable Reduced AMA;

0 61

*C01.30Stator Resistance(Rs)

Dep.on motor data Ω * 62

*C01.33

Stator Leakage Reactance(XI)

Dep.on motor data Ω * 62

*C01.35Main Reactance(Xh)

Dep.on motor data Ω * 62

*C01.39 Motor poles 2~100 P 4 62

*C01.42 Motor Cable Length 0~150 m 50 62

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup01: Load/motor

C01.50Motor Magnetisation at Zero Speed

0~300 % 100 63

C01.52

Min Speed Normal Magnetising [Hz]

0.0~10.0 Hz 0.0 63

C01.55 U/F Characte-ristic-U 0~999 V 63

C01.56 U/F Characte-ristic-F 0~400 Hz 64

C01.60Low Speed Load Compensation

0~199 % 100 64

C01.61High Speed Load Compensation

0~199 % 100 65

C01.62 Slip Compensation -400~399 % 100 65

C01.63

Slip Compensation Time Constant

0.05~5.00 s 0.10 66

C01.64 Resonance Dampening 0~500 % 50 66

C01.65

Resonance Dampening Time Constant

0.005~0.050 s 0.005 66

C01.71 Start Delay 0.0~10.0 s 0.0 66

C01.72 Start Function0: DC hold/delay time; 2: Coast/Delay time;

2 66

*C01.73 Flying start 0: Disabled; 1: Enabled; 0 67

C01.80 Function at Stop 0: Coast; 1: DC Hold; 0 67

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

C01.82Min Speed for Function at Stop [Hz]

0.0~20.0 Hz 0.0 68

C01.90Motor Thermal Protection

0: No Protection; 1: Thermister Warning; 2: Termister Trip; 3: ETR warning; 4: ETR trip;

0 68

*C01.93 Thermister Resource

0: None; 1: Analog input VI; 6: Digital input DI4;

0 68

Parameter G

roup 02: Brake Function

C02.00 DC Hold Current 0~150 % 50 69

C02.01 DC Brake Current 0~150 % 50 69

C02.02 DC Braking Time 0.0~60.0 s 10.0 70

C02.04 DC Brake Cut In Frequency 0.0~400.0 Hz 0.0 70

C02.08 Demagnatizing Rate 0~100 % 100

C02.10 Brake Function

0: Off; 1: Resistor brake; 2: AC brake; 0 70

C02.11 Brake Resistor (ohm) Dep.on motor data Ω * 70

C02.16 AC Brake, Max current 0~150 % 100 70

C02.17 Over-voltage Control

0: Disabled; 2: Enabled; 0 71

C02.20 Release Brake Current 0.00~100.00 A 0.00 71

C02.22Activate Brake Speed [Hz]

0.0~400.0 Hz 0.0 71

C03.00 Reference Range

0: Min-Max; 1: -Max-+Max; 0 72

C03.02 Minimum Reference -4999.000~4999.000 0.000 72

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 03: Reference/Ram

ps

C03.03 Maximum Reference -4999.000~4999.000 50.000 72

C03.07Main reference calculation

0: Preset reference + Reference source 1,21: Preset reference priority

0

C03.10 Preset Reference -100.00~100.00 % 0.00 73

C03.11 Jog Speed [Hz] 0.0~400.0 Hz 5.0 74

C03.12 Catch up/slow Down Value 0.00~100.00 % 0.00 74

C03.13 SpeedUp/Down Value 0.01~50.00 Hz 0.10 74

C03.14Preset Relative Reference

-100.00~100.00 % 0.00 75

C03.15 Reference Resource 1

0: No f unction; 1: Analog input VI; 2: Analog Input AI; 8: Pulse input; 11: Local bus ref; 21: LCP potentiometer;

1 75

C03.16 Reference Resource 2 2 75

C03.17 Reference Resource 3 11 75

C03.18

Relative Scaling Reference Resource

0 76

C03.19Save Speed Up/Down Value

0: No f unction; 1: Stopsave; 2: Power down save;

0 76

C03.40 Ramp 1 Type 0: Linear; 2: Sine2 ramp; 0 76

C03.41 Ramp 1 Ramp up Time 0.05~3600.00 s * 77

C03.42 Ramp 1 Ramp Down Time 0.05~3600.00 s * 78

C03.50 Ramp 2 Type 0: Linear; 2: Sine2 ramp; 0 78

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 03: Reference/Ram

ps

C03.51 Ramp 2 Ramp up Time 0.05~3600.00 s * 78

C03.52Ramp 2 Ramp down Time

0.05~3600.00 s * 79

C03.60 Ramp 3 Type 0: Linear; 2: Sine2 ramp; 0 79

C03.61 Ramp 3 Ramp up Time 0.05~3600.00 s * 79

C03.62 Ramp 3 Ramp down Time 0.05~3600.00 s * 79

C03.70 Ramp 4 Type 0: Linear; 2: Sine2 ramp; 0 80

C03.71 Ramp 4 Ramp up Time 0.05~3600.00 s * 80

C03.72Ramp 4 Ramp down Time

0.05~3600.00 s * 80

C03.80 Jog Ramp Time 0.05~3600.00 s * 80

C03.81 Quick Stop Ramp Time 0.05~3600.00 s * 80

Parameter G

roup 04: Limits/W

arnings

*C04.10 Motor Speed Direction

0: Clockwise;1: Counterclockwise; 2: Both;

2 81

*C04.12Motor Speed Low Limit [Hz]

0.0~400.0 Hz 0.0 81

*C04.14Motor Speed High Limit [Hz]

0.0~400.0 Hz 65.0 81

C04.18 Current Limit 0~300 % 150 81

*C04.19 Max. Output Frenquency 0.0~400.0 Hz 65.0 82

C04.21Max Output Frequency Resource

0~21 1

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— 34 —

Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 04: Limits/W

arnings

C04.30Motor Feedback Loss f unction

0: No f unction; 1: Freeze output; 3: Jog; 4: Max. Speed; 5: Stop and trip; 11: Switch to open loop;

4 82

C04.31Motor Feedback Speed Error

0~600 rpm 300 82

C04.32Motor Feedback Loss Timeout

0.00~60.00 s 0.05 82

C04.50 Warning Current Low 0.00~Imax A 0.00 83

C04.51 Warning Current High 0.00~Imax A 83

C04.52 Warning Speed Low 0.0~400.0 Hz 0.0 83

C04.53 Warning Speed High 0.1~400.0 Hz 65.0 83

C04.54Warning Reference Low

-4999.000~4999.000 0.000 83

C04.55Warning Reference High

-4999.000~4999.000 50.000 84

C04.56 Warning Feedback Low -4999.000~4999.000 0.000 84

C04.57Warning Feedback High

-4999.000~4999.000 50.000 84

*C04.58Missing Motor Phase Function

0: Off; 1: On; 1 84

C04.61 Bypass Speed From [Hz] 0.0~400.0 Hz 0.0 84

C04.63 Bypass Speed To [HZ] 0.0~400.0 Hz 0.0 85

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

*C05.02 Digital Output DO Mode 0: PNP; 1: NPN; 0 86

C05.10 Terminal FOR Digital Input

0: No operation; 1: Reset; 2: Coast inverse; 3: Coast and reset inverse; 4: Quick stop inverse; 5: DC-brake inverse; 6: Stop inverse; 8: Start; 9: Latched start; 10: Reversing; 11: Start reversing; 12: Enable start forward; 13: Enable start reverse; 14: Jog; 15: Preset ref bit0; 16: Preset ref bit1; 17: Preset ref bit2; 18: Preset ref bit3; 19: Freeze reference; 20: Freeze output; 21: Speed up; 22: Speed down; 23: Set-up select; 28: Catch up; 29: Slow down; 32: Pulse input (only available with terminal DI4 digital input) ; 34: Ramp bit0; 35: Ramp bit1; 60: CounterA (up); 62: Reset counterA; 63: CounterB (up); 65: Reset counterB; 70: Wobble start command; 71: Wobble reset; 72: Wobble initialization; 90: Low water level; 91: High water level;

8 86

C05.11Terminal REV Digital Input

10 86

C05.12 Terminal DI1 Dgital Input 15 86

C05.13 Terminal DI2 Digital Input 16 86

C05.14 Terminal DI3 Digital Input 17 86

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

C05.15Terminal DI4 Digital or Pulse Input

92: Scarcity water level; 93: Over run water level;

18 86

Parameter G

roup 05: Digital In/O

ut

C05.30Terminal DO1 Digital Output

0: No operation; 1: Control ready; 2: Drive ready; 3: Drive ready/Remote control; 4: Enable / No warning; 5: Drive running; 6: Running /No warning; 7: Run in rang/No warning; 8: Run on ref /No warning; 9: Alarm; 10: Alarm or Warning; 12: Out of current rang; 13: Below current, low; 14: Above current,high; 15: Out of f requency rang; 16: Below f requency, low; 17: Above f requency, high; 18: Out of feedback rang; 19: Below feed back, low; 20: Above feedback, high; 21: Thermal warning; 22: Ready, no thermal warning; 23: Remote ready, no thermal warning;24: Ready, voltage ok; 25: Reverse; 26: Bus ok; 28: Brake, no brake warning; 29: Brake ready, no fault; 30: Brake fault (IGBT); 32: Mech brake control;

0 88

C05.31Terminal DO2 Digital Output

0 88

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 05: Digital In/O

utC05.40

Relay Function (KA-KB,FA-FB 、 FB-FC)

36: Control word bit 11; 37: Control word bit12; 40: Out of reference rang; 41: Below ref, low; 42: Above ref, high; 51: Local ref, active; 52: Remote ref, active; 53: No alarm; 54: Start command active; 55: Running reverse; 56: Drive in hand mode; 57: Drive in auto mode; 60-63: Comparator 0-3; 70~73: Logic rule 0-3; 80: SLC digital output 1; 81: SLC digital output2; 82: SLC relay 1; 83: SLC relay 2; 84: SLC digital output 3; 85: SLC digital output 4; 90: Upto wobble limit; 91: Upto wobble ref.; 100: Start pump1; 101: Start pump2; 102: Below water level, low; 103: Above water level, high;104: Low water warning; 105: High water warning; 106: Low voltage warning; 107: Over voltage warning; 108: sleep;

5,9 88

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— 38 —

Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 05: Digital In/O

ut

C05.55Terminal DI4 Low Frequency

0.020~49.999 KHz 0.020 91

C05.56Terminal DI4 High Frequency

0.021~50.000 KHz 50.000 91

C05.57Terminal DI4 Low Ref./Feedb. Value

-4999.000~4999.000 0.000 91

C05.58Terminal DI4 High Ref./Feedb.Value

-4999.000~4999.000 50.000 92

C05.59Terminal DI4 Filter Time Constant

1~1000 ms 100 92

C05.60Terminal DO1 Pulse Output Variable

0: Dgital output; 10: Output f requency; 11: Reference;12: Feedback; 13: Motor current; 16: Power; 17: Speed; 18: Motor voltage; 20: Bus control; 21: Pulse input; 22: Terminal VI input; 23: Terminal AI input;

0 92

C05.61 Pulse Output Min Freq 0.020~49.999 KHz 0.020 93

C05.62 Pulse Output Max Freq 0.021~50.000 KHz 50.000 93

C05.63 Pulse Output Min Scale 0.00~200.00 % 0.00 93

C05.64 Pulse Output Max Scale 0.00~200.00 % 100.00 93

C06.00 Live Zero Timeout Time 1~99 s 10 94

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 05: Digital In/O

ut

C06.01Live Zero Timeout Function

0: Off; 1: Freeze output; 2: Stop; 3: Jogging; 4: Max.speed; 5: Stop and Trip;

0 94

C06.10 Terminal VI Low Voltage 0.00~9.99 V 0.07 95

C06.11 Terminal VI High Voltage 0.10~10.00 V 10.00 95

C06.12 Terminal VI Low Current 0.00~19.99 mA 0.14 95

C06.13 Terminal VI High current 0.01~20.00 mA 20.00 95

C06.14Terminal VI Low Ref./Feedb.Value

-4999.000~4999.000 0.000 95

C06.15Terminal VI High Ref./Feedb.Value

-4999.000~4999.000 50.000 96

C06.16Terminal VI Filter Time Constant

0.01~10.00 s 0.01 96

C06.18Terminal VI Zero dead band

0.00~20.00 V/mA 0.00 96

C06.19 Terminal VI Mode

0: Votage mode; 1: Current mode; 0 97

C06.20 Terminal AI Low Voltage 0.00~9.99 V 0.07 97

C06.21 Terminal AI High voltage 0.01~10.00 V 10.00 97

C06.22 Terminal AI Low Current 0.00~19.99 mA 0.14 97

C06.23 Terminal AI High Current 0.01~20.00 mA 20.00 98

C06.24Terminal AI Low Ref./Feedb.Value

-4999.000~4999.000 0.000 98

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— 40 —

Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 05: Digital In/O

ut

C06.25Terminal AI High Ref./Feedb.Value

-4999.000~4999.000 50.000 98

C06.26Terminal AI Filter Constant

0.01~10.00 s 0.01 98

C06.28Terminal AI Zero dead band

0.00~20.00 V/mA 0.00 98

C06.29 Terminal AI Mode

0: Voltage mode;1: Current mode; 1 99

C06.70 Terminal VO Mode

0: 0-20mA; 1: 4-20mA; 3: 0-10V; 3 99

C06.71Terminal VOAnalog Output

0: No operation; 10: Output f requency; 11: Reference; 12: Feedback;13: Motor current; 16: Power; 17: Speed; 18: Motor voltage; 20: Bus control; 21: Pulse input; 22: Terminal VI; 23: Terminal AI;

0 99

C06.73Terminal VO Output Min Scale

0.00~200.00 % 0.00 100

C06.74Terminal VO Output Max Scale

0.00~200.00 % 100.00 100

C06.81 LCP Potmeter Low Ref. -4999.000~4999.000 0.000 100

C06.82 LCP Potmeter High Ref. -4999.000~4999.000 50.000 101

C06.90 Terminal AO Mode

0: 0~20mA; 1: 4~20mA; 0 101

C06.91Terminal AO Analog output

See also C06.71. 0 101

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

C06.93Terminal AO Output Min Scale

0.00~200.00 % 0.00 101

C06.94 Termianl AO Max Scale 0.00~200.00 % 100.00 102

Parameter G

roup07: Controllers

C07.12Torque PI Proportional Gain

0~500 % 100

C07.13Torque PI Integration Time

0.002~2 S 0.02

C07.20Process CL Feedback Resource

0: No Function; 1: Analog in VI; 2: Analog in AI; 8: Pulse input; 11: Local bus;

0 103

C07.30

Process PI Normal/Inverse Control

0: Normal; 1: Inverse 0 103

C07.31 Process PI Anti Windup

0: Disabled; 1: Enabled; 1 104

C07.32 Process PI Start Speed 0.0~200.0 Hz 0.0 104

C07.33Process PI Proportional Gain

0.0~10.00 0.01 105

C07.34 Process PI Integral time 0.10~9999.00 s 9999.00 105

C07.38Process PI Feed Forward Factor

0~400 % 0 105

C07.39 On Reference Bandwidth 0~200 % 5 105

C07.41 Process PI Output Low -100-100 % 0 105

C07.42 Process PI Output High -100-100 % 100 106

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— 42 —

Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 08: FC Port Settings

C08.01 Control Site

0: Digital and ctrl.word; 1: Digital only; 2: Control Word only;

0 106

C08.02 Control Word Source 0: None; 1: FC RS485; 1 106

C08.03 Control Word Timeout Time 0.1~6500.0 s 1.0 106

C08.04Control Word Timeout Function

0: Off; 1: Freeze output; 2: Stop; 3: Jogging; 4: Max. speed; 5: Stop and trip;

0 106

C08.06Reset Control Word Timeout

0: No Function; 1: Do Reset; 0 107

C08.30 Protocol0: FC; 2: MODBUS RTU; 6: MODBUS ASCII;

0 107

C08.31 Address FC (1~126); MODBUS RTU (1~247); 1 107

C08.32 FC Port Baud Rate

0: 2400; 1: 4800; 2: 9600; 3: 19200; 4: 38400; 5: Reserved; 6: Reserved; 7: Reserved; 8: Reserved; 9: Reserved;

2 107

C08.33 FC Port Parity

0: Even Parity,1Stop bit; 1: Odd Parity,1stop bit; 2: No Parity,1Stop bit; 3: No Parity,2 Stop bits;

0 108

C08.35Minimum Response Delay

0.001~0.500 s 0.010 108

C08.36Max. Response Delay

0.010~10.000 s 5.000 108

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 08: FC Port Settings

C08.50 Coasting Select

0: Digital input; 1: Bus; 2: Logic AND; 3: Logic OR;

3 108

C08.51 Quick Stop Select

0: Digital input; 1: Bus; 2: Logic AND; 3: Logic OR;

3 108

C08.52 DC Brake Select

0: Digital input; 1: Bus; 2: Logic AND; 3: Logic OR;

3 109

C08.53 Start Select0: Digital input; 1: Bus; 2: Logic AND; 3: Logic OR;

3 109

C08.54 Reversing Select

0: Digital input; 1: Bus; 2: Logic AND; 3: Logic OR;

3 109

C08.55 Set-up Select0: Digital input; 1: Bus; 2: Logic AND; 3: Logic OR;

3 109

C08.56Preset Reference Select

0: Digital input; 1: Bus; 2: Logic AND; 3: Logic OR;

3 110

C08.94 Bus Feedback 1 -32768~32767 0 110

Parameter G

roup 13: Simple PLC

C13.00 Sample PLC Mode

0: Off; 1: Order execution; 2: Parallel execution;

0 110

C13.01 Start Event 0~54 39 111C13.02 Stop Event 0~54 40 112

C13.03 Reset Sample PLC

0: Do not reset; 1: Reset Sample PLC; 0 112

C13.10 Comparator Operand 0~31 0 113

C13.11 Comparator Operator 0~2 1 113

C13.12 Comparator Value -9999.0~9999.0 0.0 114

C13.20 SL Controller Timer 0.0~3600 s 0.0 114

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 13: Simple PLC

C13.40 Logic Rule Boolean 1 0~64 0.0 114

C13.41 Logic Rule Operator 1 0~8 0 114

C13.42 Logic Rule Boolean 2 Same to C13.40 0 115

C13.43 Logic Rule Operator 2 0~8 0 115

C13.44 Logic Rule Boolean 3 Same to C13.40 0 116

C13.51 SL Controller Event Same to C13.40 0 116

C13.52 SL Controller Action 0~69 0 116

Parameter G

roup 14: Special Functions

C14.01 Switching Frequency

2~6: 2kHz~6kHz; 7: 8kHz; 8: 10 kHz; 9: 12kHz; 10: 16kHz;

4 118

*C14.03 Over modulation 0: Off; 1: On; 1 118

C14.08 Damping Gain Factor 0~200 % 96 118

C14.12Function at Mains Imbalance

0: Trip; 1: Warning; 2: Disabled; 0 119

C14.16 Low Voltage Mode

0: Disabled; 1: Enable; 0

C14.20 Reset Mode

0: Manual reset; 1~10: Automatic reset x 1~10; 11: Automatic reset x 15; 12: Automatic reset x 20; 13: Infinite auto reset;

0 119

C14.21 Automatic Restart Time 0~600 s 10 119

C14.22 Operation Mode

0: Normal Operation;2: Initialisation;3: Backup user settings;4: Recover user settings;

0 119

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 14: Special Functions

C14.23 Trip Lock

0: Disable, Trip lock fault reset do not need power off; 1: enable, Trip lock fault reset need power off;

1

C14.27 Action At Inverter Fault 0: Trip; 1: Warning; 0 120

C14.30

Current Limit Control, Proportional Gain

0~500 100

C14.31

Current Limit Control, Integration Time

0~2 0.02

C14.32Current Limit Control, Filter Time

1~100 1

*C14.40 VT Level 40-90 % 90 120

*C14.41AEO Minimum Magnetisation

40~75 % 66 120

C14.50 RFI Filter Switch

0: Off 1:On 2:Reserved 1

*C14.51DC-Link Voltage Compensation

0: Off; 1: On; 1 120

C14.52 Fan Control0: Auto; 4:Run in low temperature;5-8: Reserved;

0

*C14.55 Output Filter0: Off; 1: Sine-Wave Filter; 3: Sine-Wave Filter with feedback;

0 121

*C14.63 Min Switch Frequency

2~6: 2kHz~6kHz; 7: 8kHz; 8: 10 kHz; 9: 12kHz; 10: 16kHz;

2 121

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 15: Drive Inform

ation

C15.00 Operating Days 0~9999 d 121

C15.01 Running Hours 0~60000 h 121

C15.02 KWh Counter 0~65535 121C15.03 Power up’s 0~2147483647 122C15.04 Over Temp’s 0~65535 122C15.05 Over Volt’s 0~65535 122

C15.06 Reset KWh Counter

0: Do not reset; 1: Reset Counter; 122

C15.07

Reset Running Hours Counter

0: Do not reset; 1: Reset Counter; 122

C15.30 Fault Log: Error Code 0~255 122

C15.31 Internal Fault Reason -32767~32767 123

C15.40 FC Type View FC type 123

C15.41 Power Section View power size of the drive 123

C15.42 Voltage View Mains Voltage of the drive 123

C15.43 Sof tware Version

View the sof tware version 123

C15.44 Ordered Type Code

View the ordered type code of the drive

123

C15.46Frequency converter ordering NO.

View f requency converter ordering NO.

123

C15.47 Power Card Ordering NO.

View power card ordering No. of the drive

124

C15.48 LCP ID NO. View LCP ID NO. 124

C15.49 Sof tware ID Control Card

View sof tware ID control card 124

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

C15.50 Sof tware ID Power Card

View sof tware ID Power card 124

C15.51

Frequency Converter Serial Number

View f requency converter No. 124

C15.53 Power Card Serial number

View power card serial number 124

C15.92 Parameter List

View parameter list of the drive 124

Parameter G

roup 16: Data Readouts

C16.00 Control Word 0~65535 125

C16.01 Reference [Unit] -4999.000~4999.000 125

C16.02 Reference % -200.0~200.0 % 126C16.03 Status Word 0~65535 126C16.04 Active Set-up 0~2 126

C16.05 Motor Speed [RPM] 0~9999 Hz 127

C16.09 Custom Readout 0.00~9999.00 127

C16.10 Power[KW] 0.000~1000.000 kW 127C16.11 Power[hp] 0.000~1000.000 Hp 127C16.12 Motor Voltage 0.0~65535 V 127C16.13 Frequency 0.0~400.0 Hz 127

C16.14 Motor Current 0.00~655.35 A 127

C16.15 Frequency(%) 0.0~200.0 % 128

C16.18 Motor Thermal 0~100 % 128

C16.30 DC Link Voltage 0~65535 V 128

C16.34 Heat sink Temp. 0~255 ℃ 128

C16.35 Inverter Thermal 0~255 % 128

C16.36 Inv. Nom. Current 0.00~655.35 A 128

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 16: Data Readouts

C16.37 Inv. Max. Current 0.00~655.35 A 128

C16.38SLC Controller State

0~255 128

C16.40 Wobble Length 0.000~60.000 Km 129

C16.50 External Reference -200.0~200.0 % 129

C16.51 Pulse Reference -200.0~200.0 % 129

C16.52 Feedback # [Unit] -4999.000~4999.000 129

C16.60 Digital Input 0~65535 129

C16.61 Terminal VI Setting 0: 0-10V; 1: 0-20mA; 130

C16.62 Analog Input VI 0.000-20.000 V/

mA 130

C16.63 Terminal AI Setting 0: 0-10V; 1: 0-20mA; 130

C16.64 Analog Input AI 0.000~20.000 V/

mA 130

C16.65 Analog Output AO 0.000~20.000 V/

mA 130

C16.66 Digital Output DO 0~255 130

C16.67 Encoder Input -9999.000~9999.000 KHz 131

C16.68 Pulse Input DI4 0.020~50.000 KHz 131

C16.69 Pulse Output DO 0.020~50.000 KHz 131

C16.71 Relay Output [bin] 0~65535 131

C16.72 Counter A 0~2147483647 131C16.73 Counter B 0~2147483647 131

C16.78 Analog Output AO 0.00~20.00 mA 131

C16.86 FC Port REF -32768~32767 132

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

C16.90 Alarm Word 0~0xFFFFFFFFUL 132

C16.91 Alarm Word 2 0~0xFFFFFFFFUL 133

C16.92 Warning Word 0~0x7FFFFFFFUL 133

C16.93 Warning Word 2 0~0x7FFFFFFFUL 134

Parameter G

roup 25: App. functions Cascade

C25.00 Cascade Mode 0: Normal cascade; 1: Water level control; 0 134

C25.03Fixed Speed Pump Number

0~2 0 134

C25.10 Multi Pressure Selection 0: Disable; 1: Enable; 0 134

C25.11 Present Time 0.00~23.59 h 0.00 134

C25.12 Multi Pressure Time 0.00~23.59 h 0.00 135

C25.20 Cascade Low Frequency 0.000~400.000 Hz 20.000 135

C25.21Low Frequency Delay Time

0.0~3600.0 s 20.0 135

C25.25 Cascade High Frequency 0.000~400.000 Hz 50.000 136

C25.26High Frequency Delay Time

0.0~3600.0 s 20.0 136

C25.30Low Pressure Warning Level

0.000~99.999 kg 3.000 136

C25.31Low Pressure Warning Delay Time

0.0~3600.0 s 10.0 136

C25.32Recovery Low Pressure Level

0.000~99.999 kg 4.000 136

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 25: App. functions Cascade

C25.33

Recovery Low Pressure Level Delay Time

0.0~3600.0 s 10.0 137

C25.34Over Pressure Warning Level

0.000~99.999 kg 7.000 137

C25.35

Over Pressure Warning Level Delay Time

0.0~3600.0 s 10.0 137

C25.36Recovery High Pressure Level

0.000~99.999 kg 5.000 137

C25.37

Recovery High Pressure Level Delay Time

0.0~3600.0 s 10.0 137

C25.40Pump Interlock Time

0.0~3600.0 s 5.0 138

C25.41Pump Continuous Run Time

0.0~3600.0 h 12.0 138

C25.50 Sleep Time 0: Disable; 1: Enable; 1 138

C25.51 Sleep Pressure Level 0~150.0 % 95 138

C25.52 Sleep Pressure Delay Time 0.0~300.0 s 20.0 139

C25.53 Sleep Frequency 0.0~400.0 Hz 20.0 139

C25.54Sleep Frequency Delay Time

0.0~300.0 s 20.0 139

C25.57 Awake Level 0.0~150.0 % 80 139

C25.60 Pump Type Selection

0: Feed pump; 1: Drain pump; 0 140

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 25: App. functions Cascade

C25.61 Water Level Signal Source

0: Digital input; 1: Analog input VI; 2: Analog input AI; 8: Pulse input;

0 140

C25.62 Scarcity Water Level 0~100 % 0 141

C25.63 Low Water Level 0~100 % 0 141

C25.64 High Water Level 0~100 % 0 141

C25.65 Overrun Water Level 0~100 % 0 141

C25.66 Standby Pressure 1 0.000~99.999 kg 3.000 141

C25.67 Standby Pressure 2 0.000~99.999 kg 7.000 141

C25.68 Water Level Dead Band 0~100 % 5 142

C25.69Water Level DI Delay Time

0~3600.0 s 20.0 142

C25.80 Alarm Handle Selection

0: Stop all; 1: Lag pump 1 running; 2: Lag pump 2 running; 3: Lag pump 1 、 2 running;

0 142

C30.00 Wobble Start Mode 0: Auto; 1: Manual; 0 143

C30.01 Dwell Frequency 0.000~200.000 Hz 0.000 144

C30.02 Dwell Time 0.0~3600.0 s 0.0 144

C30.10Centre Frequency Rate

0.000~30.000 Hz/ s 0.500 144

C30.11Centre Frequency Low Limit

0.000~200.000 Hz 10.000 144

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Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

Parameter G

roup 30: Wobble Function

C30.12Centre Frequency Mode

0: Fixed; 1: Auto Decrease; 0 144

C30.13Delta Frequency Mode

0: Relative to Speed High; 1: Relative to Centre Frequency;

0 145

C30.14Delta Frequency Percentage

0~100 % 0 145

C30.15Jump Frequency Percentage

0~100 % 0 145

C30.16 Wobble Up Time 1.0~1000.0 s 10 145

C30.17 Wobble Jump Time 1~50 ms 1 145

C30.18 Wobble Down Time 1.0~1000.0 s 10 145

C30.20Random Function Mode

0: Disable; 1: Enable; 0 146

C30.21 Max.Random Ratio -20~20 % 10 146

C30.22 Min Random Ratio -20~20 % -10 146

C30.30Wobble Length Source

0: Digital input; 7: Encoder input;8: Pulse input;

0 146

C30.31 Count Per Meter 0.01~600.00 1.00 146

C30.32 Setting Length 0.000~60.000 Km 10.000 147

C30.33 Length Reach Mode 0: No action; 1: Stop; 0 147

C30.38 Wobble Restore Mode

0: Operate at centre f requency; 1: Operate at preset f requency;

0 147

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Note: Reference signed with “*”in parameter No. column means this parameter can’t be modified when the motor is running. In factory setting column, “*” means the default setting for this parameter is determined by the drive type.

Item Parameter No.

Function Description Setting range Unit Default

settingPage No.

C30.39 Wobble Stage Store

0: No f unction; 1: To store in stop and power off condition; 2:To store in power off condition; 3: To store in stop condition;

0 147

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Chapter 6 Parameter Description

6.1 Parameter Group 00: Operation/Display

C00.0* Basic Settings

*C00.03 Function Description Range Unit Default Setting

Regional Settings 0~1 1

Option: [0] 50Hz, Motor frequency default value is 50 Hz, see C01.23; [1] 60Hz, Motor frequency default value is 60 Hz, see C01.23;

Function: This parameter is used to select motor frequency default value according to different regions;

Attention: This parameter can not be adjusted when motor is running. At the same time changing this parameter may result in changes in the value of the following parameters: C01.23、C01.25、C01.39、C01.56、C01.30、C01.33、C01.35.

C00.04 Functon Description Range Unit Default Setting

Operation State at Power-up(Hand) 0~2 1

Option: [0] Resume, local reference is stored and used after power up;[1] Forced stop, ref=old, local reference is stored and used after power up; [2] Forced stop, ref=0, local reference is set to 0;

Function: This parameter is used to control whether or not the frequency converter should automatic running the motor when powering up after a power down in Hand mode.

Description of choice: When select “[0]”, frequency converter starts in same Hand mode roof state as when powered off; When select“[1]”, frequency converter powers up in off state meaning that motor is stopped af ter power up; When select“[2]”, frequency converter powers up in off state meaning that motor is stopped after power up. Local reference is set to 0. Thus motor will not start running before local reference has been increased.

Attention: If LCP with potentiometer is mounted, reference is set according to actual potentiometer value.

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*C00.06 Function Description Range Unit Default Setting

Grid Type 0~132 *

Option: [0] 200-240V/50Hz/IT-Grid;[1] 200-240V/50Hz/IT-Delta;[2] 200-240V/50Hz;[10] 380-440V/50Hz/IT-Grid;[11] 380-440V/50Hz/IT-Delta;[12] 380-440V/50Hz;[20] 440-480V/50Hz/IT-Grid;[21] 440-480V/50Hz/IT-Delta;[22] 440-480V/50Hz;[30] 525-600V/50Hz/IT-Grid;[31] 525-600V/50Hz/IT-Delta;[32] 525-600V/50Hz;[100] 200-240V/60Hz/IT-Grid;[101] 200-240V/60Hz/IT-Delta;[102] 200-240V/60Hz;[110] 380-440V/60Hz/IT-Grid;[111] 380-440V/60Hz/IT-Delta;[112] 380-440V/60Hz;[120] 440-480V/60Hz/IT-Grid;[121] 440-480V/60Hz/IT-Delta;[122] 440-480V/60Hz;[130] 525-600V/60Hz/IT-Grid;[131] 525-600V/60Hz/IT-Delta;[132] 525-600V/60Hz;

Function:A correct type of Grid can optimize the output voltage/frequency.

C00.10 Function Description Range Unit Default Setting

Active Set-up 1~9 1

Option: [1] Set-up 1;[2] Set –up 2;[9] Multi set-up;

Description of choice: HLP-B series inverter contains 2 set-ups: set-up1 and set-up 2, which can be switched via digital inputs or serial communication commands. Binary code of the digital input terminals correspond with set-ups as follows:

C00.1* Set-up Operations

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Binary bit0 Set-up No.

Terminal State0 11 2

Attention: The set-up can be switched between linked set-ups (See C00.12) or when the motor is stop.

C00.11 Function Description Range Unit Default Setting

Edit Set-up 1~2 1

Option: [1] Set-up 1;[2] Set-up 2;

Function: This parameter can be edited via LCP or serial communication port.

*C00.12 Function Description Range Unit Default Setting

Link Set-ups 1~20 20

Option: [0] not linked, parameters between two set-ups can not change each other while the motor is running;[20] Linked, the link ensures synchronizing of the parameters that can not be changed, while the motor is running. When this is done, it is possible to shift from one set-up to the active set-up selected.

Description of the choice: This parameter should be used in conjunction with the active set-up. When C00.12 = 20, synchronize the “not changeable during operation” parameters of the two set-ups. When C00.10 = 9, the motor is running and switching the active set-up is needed, if C00.12 = 20, switching can be achieved while the motor is running; if C00.12 =0, set-ups can’t be switched until the motor is stopped.

C00.31 Function Description Range Unit Default Setting

Custom Readout Min Value 0~9999.00 0.00

Function: This parameter occurs at 0 Speed.Description of the choice: This parameter allows the choice of the min.

value of the custom defined readout.

C00.3* LCP Readout

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C00.33 Function Description Range Unit Default Setting

LCP Display Option 0~2047 0

Description of the choice: LCP will be f ixed to display the output frequency、reference and motor current. This parameter is used to show 11 basic operating states of the inverter, each parameter corresponds to a binary code: “1” means display the item, “0” means does not display the item. For example, if you want to display the states of the temperature and the terminal VI on LCP. Transform the binary code to decimal digit, C00.33=1×23+1×27=136.

C00.32 Function Description Range Unit Default Setting

Custom Readout Max Value 0~9999.00 100.00

Function: This parameter corresponds to settings in par. C04.14.Description of the choice: This parameter sets the max value to be

shown when the speed of the motor has reached the set value for C04.14.

Attention: C00.31 and C00.32 can adjust display of the custom readout value, such as speed.

C00.40 Function Description Range Unit Default Setting

[HAND ON] Key on LCP 0~1 1

Option: [0] Disabled: Hand-on key has no function;[1] Enabled: Hand-on key is functional;

Description of the choice: The frequency converter can operate in the following three mode: HAND、OFF/RESET and AUTO. When running in Hand-on mode, the frequency converter is locally operated and does not allow any remote control. By activating hand a start signal is given.

C00.4* LCP Keypad

Pulse output

Pulse Input

AI

VI

Counter

Counter

Feedback Value

Temperature

DC-voltage

Motor Speed

Motor Voltage

0 0 0 1 0 0 0 1 0 0 0

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C00.41 Function Description Range Unit Default Setting

[OFF/RESET] Key on LCP 0~2 1

Option: [0] Disabled, OFF/RESET key has no function;[1] Enabled, OFF/RESET key stop signal and reset of any fault;[2] Enabled reset only, reset only (fault), stop (off) function is disabled;

Description of the choice: When OFF/RESET key is chosen, the frequency converter stops with a normal stop ramp; it can only be started by pressing either hand or auto key on the LCP.

C00.42 Function Description Range Unit Default Setting

[AUTO] Key on LCP 0~1 1

Option: [0] Disabled, Auto-on key has no function;[1] Enabled, Auto-on key is functional;

Description of the choice: In auto-mode, the frequency can be remote controlled (bus/digital).

*C00.51 Function Description Range Unit Default Setting

Set-up Copy 1~9 0

Option: [0] No copy;[1] Copy from set-up 1;[2] Copy from set-up 2;[9] Copy from factory setting;

Function: Copy parameters settings from selected set-up to edited set-up (C0.11).

Attention: When selected set-up is same to the edited set-up, copy function doesn’t work; both control panel and parameter database are locked while copying.

C00.5* Copy/Save

C00.60 Function Description Range Unit Default Setting

Menu Password 0~1

Option: [0] Disabled;[1]Enabled, none of parameter can be changed except this;

Function: This feature used to prevent non-commissioning person to

C00.6* Protection

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*C01.00 Function Description Range Unit Default Setting

Configuration Mode 0~3 0

Option: [0] Speed open loop,for general applications;[3] Process closed loop,feedback signal is a process unit, such as: pressure、temperature etc. When process closed loop is selected, the motor can only run clockwise. For detailed parameter settings, please refer to C07.3*.[4] Torque Open loop, this mode is only effective in VVC+. For detailed parameter settings, please refer to C07.1*.

Attention: If configuration mode is changed, C03.00, C03.02, C03.03 will be restored to factory setting.

*C01.01 Function Description Range Unit Default Setting

Control Principle 0~1 1

Option: [0] V/F, used for parallel connected motors or special motors, V/F settings are set in C01.55 and C01.56 separately;[1] VVC+, used on applications that needs torque compensation at low frequency or higher requirements on control performance.

Description of choice: Before V/F or VVC+ control, perform AMA first to get correct motor data.

Attention: When V/F control mode is selected, slip compensation and load compensation are invalid; When VVC+ control mode is selected,it includes slip compensation and load compensation itself.

*C01.03 Function Description Range Unit Default Setting

Torque Characteristics 0~3 0

Option: [0] Constant torque, used for constant torque load;[1] Variable torque, used for variable torque load, such as fan applications、centrifugal pump etc;[3]Auto Energy optimization, see C14.41 AEO minimum magnetisation.

C01.0* General Settings

change the parameter settings.Attention: Main Menu Password function is only valid to LCP, not active

to local bus.

6.2 Parameter Group 01: Load and Motor

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Function: Choose suitable torque characteristics, it is possible to run low energy consuming, as well as high torque applications.

*C01.07 Function Description Range Unit Default Setting

Application configuration Mode 0~3 0

Option: [0] No function;[1] Wobble function,see parameter group C30.*;[2] Cascade control,see parameter group C25.*;[3] Winder function (reserved);

Function: This parameter enables a choice of a configuration setting that fits different applications. Wobble function is only valid under speed open loop, in other control mode, wobble function will be automatically shut down. If wobble function is selected, parameterC03.00 will be set to “0”.

*C01.20 Function Description Range Unit Default Setting

Motor Power Dep. Motor date KW *

Function: Select the KW value that corresponds to the rated power of the motor.

Description of choice: Factory settings depend on the inverter size, there is one or two undersize or one oversize in comparison with factory setting.

Attention: Changing the value of this parameter affects the setting of C01.22-C01.25 and C01.30-C01.35.

*C01.22 Function Description Range Unit Default Setting

Motor Voltage 50~1000 V *

Function: Select a value that equals the nameplate data on the motor.Description of choice: Default setting depends on the inverter size.

In this parameter group, enter correct motor nameplate data (power, voltage, frequency, current and speed). And then run AMA to obtain the best motor data which will be stored in C01.3*.

Attention: Data of Parameter group C01.2* can not be changed when motor is running.

C01.2* Motor Date

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*C01.23 Function Description Range Unit Default Setting

Motor Frequency 20~400 Hz *

Function: Enter the rated motor frequency from the nameplate data.Description of the choice: Default setting depends on the inverter size.Attention: Changing this parameter affects motor nominal speed set in

C01.25.

*C01.24 Function Description Range Unit Default Setting

Motor Current Dep. motor data A *

Function: Enter motor current value from nameplate data. Description of the choice: Factory settings depend on the unit size.

*C01.25 Function Description Range Unit Default Setting

Motor Norminal Speed 100~9999 RPM *

Function: Enter the motor nominal speed value from the nameplate data. Description of the choice: Factory setting depends on the unit size.Attention: If motor frequency has been changed in C01.23, Nominal

Motor Speed will be affected.

*C01.29 Function Description Range Unit Default Setting

Automatic Motor Adaption (AMA) 0~2 0

Option: [0] Disabled;[1] Enable complete AMA, run complete AMA which will take up a longer time;[2] Enable reduced AMA, if LC filter is used between the motor and the frequency converter;

Description of the choice: AMA can be used to obtain accurate motor parameters, optimizing control performance.

Attention: If LC filter is connected between motor and the frequency converter, only reduced AMA can be carried out, and can’t test the symmetry of the motor and whether there are phase losses in the drive. For the best possible adaptation of the frequency converter, it is recommended to run AMA on a cold motor. This function is disabled when the motor is running.

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*C01.35 Function Description Range Unit Default SettingMain Reactance(Hh) Dep.motor data Ω *

*C01.30 Function Description Range Unit Default Setting

Stator resistance(RS) Dep.motor data Ω *

Function: Set stator resistance value. Enter the value from a motor data sheet or perform an AMA on a cold motor.

Description of the choice: Depending on motor data.

*C01.39 Function Description Range Unit Default Setting

Motor Poles 2~100 P 4

Function: Enter the motor poles from the nameplate data. Description of the choice: Depending on motor data.

*C01.42 Function Description Range Unit Default Setting

Motor Cable Length 0~150 m 50

Function: Enter the motor cable length connected between the motor and the frequency converter.

Description of the choice: Set correct cable length can suppress noises resulted from the motor.

*C01.33 Function Description Range Unit Default Setting

Stator leakage reactance Dep.motor data Ω *

Function: Set stator leakage reactance value. Enter the value from a motor data sheet or perform an AMA on a cold motor. The default setting is calculated by the drive from motor nameplate data.

Description of the choice: Depending on motor data.

Function: Set the main reactance value. Enter the value from a motor data sheet or perform an AMA on a cold motor. The default setting is calculated by the drive from motor nameplate data.

Description of the choice: Depending on motor data.

This parameter can not be changed while motor is running.

C01.3* Adv.Motor Data

C01.4* Motor Cable Length

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C01.55 Function Description Range Unit Default Setting

V/F Characteristic-V 0~999.9 V 0/Vn

Function: This parameter is an array parameter [0-5], used for setting voltage [V0-V5] at each frequency point to manually form a V/F characteristic matching motor. Frequency points are defined in par. C01.56, V/F characteristics — F.

Description of choice: This parameter is only functional when par. C01.01, Motor Control Principle is set to V/F [0].

Attention: V0 factory setting is set to 0V, and U1-U5 factory setting is set to Un (motor rated voltage) .

C01.50 Function Description Range Unit Default Setting

Motor Magnetisation at zero speed 0~300 % 100

Function: Enter a percentage value of the rated magnetizing current. Description of the choice: Use this par. with par. 1-52 to obtain a different

thermal load on the motor when running at low speed. Attention: If the setting is too low; the torque on the motor may be

reduced.

C01.52 Function Description Range Unit Default Setting

Min Speed Normal Magnetizing 0.0~10.0 Hz 100

Function: Set the required frequency for normal magnetising current. Use this par. along with par. 1-50.

Attention: If the frequency is set lower than the motor slip frequency, par. C01.50 is inactive.

C01.5* Load Indep.Setting

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C01.56 Function Description Range Unit Default Setting

V/F Characteristic-F 0~400 Hz 0/Fn

Function: This parameter is an array parameter [0-5], used for setting frequency points [F0-F5] to manually form a V/F characteristic matching motor. Voltage at each point is defined in par. C01.55, V/F Characteristic — V.

Description of choice: This parameter is only functional when par. C01.01 Motor Control Principle is set to V/F [0].

Attention: F0 factory setting is set to 0Hz, and F1-F5 factory setting is set to Fn (Motor rated frequency); for par. C01.56 the following applies F0=0 and F1≤F2≤F3≤F4≤F5.

Simplify V/F characteristic by merging 2 or more points (voltages and frequencies), which respectively are set equal.

The slope (ratio of V/F) after point (F5,V5) must be equal to the slope between point (F5, V5) and the previous point.

Fig. 6.1 V/F characteristic diagram

C01.6* Load Depen.Setting

C01.60 Function Description Range Unit Default Setting

Low Speed Load Compensation 0~199 % 100

Function: Use this parameter to compensate voltage in relation to load when motor runs at low speed.

Description of choice: Enter a percentage value to compensate voltage when motor needs running at low speed. Change-over point is automatically calculated based on motor size.

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C01.62 Function Description Range Unit Default Setting

Slip Compensation -400~399 % 100

Function: Dynamically adjust the output frequency of the motor, maintain the motor approaching a constant speed, and doesn’t vary with load changes.

Description of Choice: This function is only active when par. C01.00, Configuration Mode, is set to Speed Open Loop [0], and when par. C01.01, Motor Control Principle, is set to VVC+ [1]. Slip compensation is calculated automatically based on rated motor speed, nM,N.

C01.61 Function Description Range Unit Default Setting

High Speed Load Compensation 0~199 % 100

Function: Use this parameter to compensate voltage in relation to load when motor runs at high speed.

Description of Choice: Enter a percentage value to compensate voltage when motor needs running at low speed. Change-over point is automatically calculated based on motor size.

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C01.63 Function Description Range Unit Default Setting

Slip Compensation Time Constant 0.05~5.00 S 0.10

Function: Enter the slip compensation reaction speed. A high value results in slow reaction, and a low value results in quick reaction. If low-frequency resonance problems arise, use a longer time setting.

C01.64 Function Description Range Unit Default SettingResonance Dampening 0~500 % 50

Function: High-frequency resonance problems between motor and the frequency converter can be eliminated by setting this parameter.

C01.65 Function Description Range Unit Default Setting

Resonance Dampening Time constant 0.005~0.050 S 0.005

Description of choice: Choose a time constant that provides the best dampening.

C01.7* Start Adjustments

C01.71 Function Description Range Unit Default Setting

Start Delay 0.0~10.0 S 0.0

Function: This parameter enables a delay of the starting time. The frequency converter begins with the start function selected in par. 1-72. Set the start delay time until acceleration is to begin.

Attention: Setting start delay to 0.0 sec. disables Start Function, [C01.72], when start command is given.

C01.72 Function Description Range Unit Default Setting

Start Function 0~2 2

Option: [0] DC Hold/delay time;[2] Coast/delay time;

Function: Select [0], Motor is energized with DC holding current (par. C02.00) during start delay time; Select [2], Motor is coasted during start delay time (inverter off).

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C01.8* Stop Adjustments

C01.80 Function Description Range Unit Default Setting

Function at Stop 0~1 0

Option: [0] Coast, the inverter is off;[1] DC Hold, the motor is energized with a DC current. See par. C02.00 DC Hold Current for more information.

Function: Here it is possible to select the stop function according to different applications.

*C01.73 Function Description Range Unit Default Setting

Flying Start 0~1 0

Option: [0] Disabled;[1] Enabled;

Description of Choice: This function applies for the inertia load to restart due to mains drop-out; If Clockwise[0] is selected(C04.10), and no rotating motor is found, It is possible to use DC-brake command to ramp down the motor speed to 0 rpm, and then start the motor in the normal way; If Both directions [2](C04.10) is selected, and no rotating motor is found, the drive will assume the motor is stationary or in low-speed rotation, and then start the motor in the normal way. When Flying start is enabled, C01.71 (Start delay) and C01.72 (Start function) is invalid.

Warning: This function is not suitable for hoisting applications.

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Description of Choice: This f unction is active in the following situations: Stop command is given and output speed is ramped down to Min. Speed for activating Functions at Stop; Start command is removed (standby), and output speed is ramped down to Min. Speed for activating Functions at Stop; DC-brake command is given, and lasts out of DC-brake delay time.

C01.82 Function Description Range Unit Default Setting

Min Speed for Function at Stop [Hz] 0.0~20.0 Hz 0.0

Function: Set the output frequency at which to activate par. C01.80 Function at stop.

C01.90 Function Description Range Unit Default Setting

Motor Thermal Protection 0~4 0

Option: [0] No protection;[1] Thermistor warning, A thermistor connected to either digital or analog input gives a warning if upper limit of motor temperature range is exceeded, (see par. C01.93, Thermistor Resource). [2] Thermistor trip, A thermistor connected to either digital or analog input gives an alarm and makes the frequency converter trip if upper limit of motor temperature range is exceeded, (see par. C01.93, Thermistor Resource).[3] ETR warning, If calculated upper limit of motor temperature range is exceeded, a warning occurs.[4] ETR trip, If calculated upper limit of motor temperature range is exceeded, an alarm occurs and frequency converter trips.

Function: Running ETR (Electronic Terminal Relay) function, motor temperature is calculated based on frequency, speed and time. Holip recommends performing the ETR function, if a thermistor is not present.

C01.9* Motor Temperature

*C01.93 Function Description Range Unit Default Setting

Thermistor Resource 0~6 0

Option: [0] None;[1] Analog input VI, Connect thermistor to analog input terminal

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VI;[6] Digital input DI4, Connect thermistor to digital input terminal DI4;

Function: Select the thermistor input terminal.Attention: Analog input can’t be selected for other purpose when selected

as thermistor resource.

Digital input DI4 can’t be selected for other purpose when selected as thermistor resource.

Thermistor specifications:

Input signal type Voltage Supply Termistor thresholdDigital 10V <0.8kΩ , >2.9kΩAnalog 10V <0.8kΩ , >2.9kΩ

C02.00 Function Description Range Unit Default Setting

DC Hold Current 0~150 % 50

Function: This parameter either holds the motor (holding torque) or preheats the motor. This parameter is active if DC Hold has been selected in either C01.72 start function or C01.80 Function at Stop.

Description of Choice: Enter a value for holding current as a percentage of the rated motor current set in par. C01.24 Motor Current. 100% DC holding current corresponds to IM,N.

Attention: Avoid 100% current too long as it may overheat the motor.

C02.01 Function Description Range Unit Default Setting

DC Brake Current 0~150 % 50

Function: This parameter is used for setting the DC brake currents that is set as a percentage value of the rated motor current IM, N set in C01.24.

Description of Choice: Parameters related to the DC brake current are as follows:DC-brake command, see C05.1* choice (5);DC brake cut in speed, see C02.04;

C02.0* DC -Brake

6.3 Parameter Group 02: Brakes

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C02.02 Function Description Range Unit Default Setting

DC Braking Time 0.0~60.0 S 10.0

Function: This parameter defines DC brake current (C02.01) time during which DC-brake current is applied to the motor.

Function: This parameter is for setting the DC brake cut in speed at which the DC braking current (par.02.01) is to be actived, in connection with a stop command. When set to 0 the function is off.

Function: Set motor demagnatizing rate.

C02.04 Function Description Range Unit Default Setting

DC Brake Cut in Speed 0.0~400.0 Hz 0.0

C02.08 Function Description Range Unit Default Setting

Demagnatizing Rate 0~100 % 100

C02.10 Function Description Range Unit Default Setting

Brake Function 0~2 0

Option: [0] off;[1] Resistor brake, use the resistor brake to consume surplus energy resulting from motor braking, and prevent the frequency converter to trip due to over-voltage in the intermediate circuit; [2] AC brake, dissipate surplus energy in the motor core, and prevent the energy back into frequency converter causing trips. It is important to keep in mind that frequent use of this function will cause a sharp increase in motor temperature.

Attention: Resistor brake is only functional when the frequency converter build-in braking unit or external braking unit must be installed.

C02.11 Function Description Range Unit Default Setting

Brake Resistor (ohm) 5~65535 Ω *

Function: Set brake resistor value.

C02.16 Function Description Range Unit Default Setting

AC Brake, Max Current 0~150 % 100

C02.1* Brake Energy Funct.

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Function: Enter the maximum permissible current when using AC brake to avoid overheating of motor windings. 100% equals motor current set in C01.24.

C02.17 Function Description Range Unit Default Setting

Over-voltage Control 0~2 0

Option: [0] Disabled, The OVC is not active/required; [2] Enabled, OVC is running;

Function: OVC is used to consume surplus energy by increasing the output frequency. Select whether to enable OVC, which reduces the risk of drive trip due to over voltage on the DC link caused by generative power from load.

Attention: The OVC is not active/required if resistor brake has been chosen in C02.01 (Brake Function).

C02.20 Function Description Range Unit Default Setting

Release Brake Current 0.00~100.0 A 0.00

Function: Set motor current at which mechanical brake is released. The relay acts when motor speed is greater than settings in this parameter.

Attention: If start delay time has passed, and motor current is below Release brake current, frequency converter trips.

C02.22 Function Description Range Unit Default Setting

Activate Brake Speed 0.0~400.0 Hz 0.0

Function: The mechanical brake is activated when motor speed is less than Activate Brake Speed.

Description of Choice: This feature occurs in the following situations:● A start command is removed; ● A stop command is activated; ● Quick-stop is activated (Q-stop function is used);

C02.2* Mechanical Brake

For hoisting applications an electro-magnetic brake is required, brake signal can be sent via the relay. The brake activates if f requency converter trips or a coast command is given. Furthermore, it activates when the motor speed is ramped down below the speed set in C02.22, Activate Brake Speed.

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6.4 Parameter Group 03: Reference/Ramps

C03.0* Reference Limits

C03.00 Function Description Range Unit Default Setting

Reference Range 0~1 0

Option: [0] Min-Max, Reference set point ranges can have positive values only.[1] -Max~+Max, Ranges can have both positive and negative values.

Function: Select the range of reference, only positive values are allowed when configuration mode (C01.00) is set to Speed Closed Loop [1] or Process Closed Loop [3].

C03.02 Function Description Range Unit Default Setting

Minmum Reference -4999.000~4999.000 0.000

Function: Enter value for Minimum Reference. Description of Choice: The sum of all internal and external references is

clamped (limited) to the minimum reference value.

C03.03 Function Description Range Unit Default Setting

Maximum Reference -4999.000~4999.000 50.000

Function: Enter value for Maximum Reference. Description of Choice: The sum of all internal and external references is

clamped (limited) to the maximum reference value.Attention: The maximum reference can not be less than C03.02 (Minimum

Reference).

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C03.07 Function Description Range Unit Default Setting

Actual reference calculation 0~1 0

Option: [0] Preset reference + Reference source 1,2,3 [1] Preset reference priority

Description of Choice: [0], Actual reference = Preset reference + Reference source 1,2,3[1], When using preset reference 1-N, actual reference = preset reference [1-N], else actual reference = preset reference [0] + reference source 1,2

C03.10 Function Description Range Unit Default Setting

Preset Reference -100.00~100.00[16] % 0.00

C03.1** References

Function: This parameter is an array-16 to be used for presetting different references.

Description of Choice: When C03.00 select “1”(-Min~Max), 100%= value set in C03.03; When C03.00 select “0”(Min~Max), for example, If C03.02 is set to “20” and C03.03 is set to 50, 0%=0 and 100%=50; If C03.02 is set to “-70”, and C03.03 is set to 50, 0%=0 and 100%=70.

Each parameter set-up contains 16 preset references which are selectable via digital terminals or local bus. See C05.1*.

Selection of preset reference indicates with a four-digital binary code. If the f requency converter detects the corresponding terminals connected, then the bit is “1”, otherwise, the bit is “0”. Digital input terminal、 binary code and the corresponding relationship between pre-set values as follows:

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C03.11 Function Description Range Unit Default Setting

Jog Speed 0.0~400.0 Hz 5.0

Function: Jog frequency is a fixed frequency that the drive supplies to the motor after the jog function is actived. Please refer to C05.1*, select [14].

Description of Choice: The frequency converter with the highest priority will operate at jog speed when a variety of run command activates. Removing the jog signal makes the f requency converter run according to the selected configuration, this parameter is set limited by C04.14.

C03.12 Function Description Range Unit Default Setting

Catch up/Slow down Value 0.00~100.00 % 0.00

Function: This parameter enables the entry of a percentage value (relative) which will to be either added to or deducted from the actual reference.

Description of Choice: The Catch up/Slow down function is activated by a digital input terminal (See C05.1*, choose [28]/ [29] ). If this function is active, the catch up/slow down value will be added

Binary system bit3 bit2 bit1 bit0 Preset Reference

Terminals State

0 0 0 0 00 0 0 1 10 0 1 0 20 0 1 1 30 1 0 0 40 1 0 1 50 1 1 0 60 1 1 1 71 0 0 0 81 0 0 1 91 0 1 0 101 0 1 1 111 1 0 0 121 1 0 1 131 1 1 0 141 1 1 1 15

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C03.13 Function Description Range Unit Default Setting

Speed Up/Down Value 0.01~50.00 Hz 0.10

Function: Enter the Speed Up/Down value.

to the actual reference constituting new setting at which the frequency converter is going to run, calculated as follows:

Total reference= reference ±reference × (Catch up/Slowdown value)

If this function is inactive, the reference returns to its original value (the actual reference).

For example: Set C05.12=28, C05.13=29, C03.12=30, assuming the actual reference value is 20 Hz, when only DI1 is on, the output frequency is 26 Hz, when only DI2 is connected, the output frequency is14Hz, when both DI1 and DI2 are on, the output frequency is 20Hz.

C03.14 Function Description Range Unit Default Setting

Preset Relative Reference -100.00~100.00 % 0.00

Function: Define an adjustable Preset Relative Reference which is to be added to the total reference as a percentage value of the actual reference .

Total Reference=Actual Reference+Actual Reference * Preset Relative Reference + Actual reference * Relative Scaling Reference

Example:

Min Reference/

C03.02

Preset Relative

Reference/C03.14

Relative Scaling

Reference VI/C03.18=1

Preset Reference/

C03.10

Max Reference/

C03.03

Output Frequency

(Hz)

0 0% 10V 20% 50 10+0+10=200 10% 8V 20% 50 10+1+8=190 20% 5V 20% 50 10+2+5=170 30% 3V 20% 50 10+3+3=160 40% 0V 20% 50 10+4+0=14

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C03.15 Function Description Range Unit Default Setting

Reference Resource1 0~21 1

C03.16 Function Description Range Unit Default Setting

Reference Resource2 0~21 2

C03.17 Function Description Range Unit Default Setting

Reference Resource3 0~21 11

Option: [0] No f unction, no reference resource is defined;[1] Analog in VI, use signals f rom Analog input VI as reference resource, see C06.1*; [2] Analog in AI, use signals f rom Analog input AI as reference resource, see C06.2*; [8] Pulse input, use signals f rom Pulse input (DI4) as reference resource, see C05.5*;[11] Local bus reference, use signals f rom Local bus reference as reference resource, see C08.9;[21] LCP potentiometer, use signals f rom LCP potentiometer as reference resource, see C06.8*;

Function: C03.15、 C03.16 and C03.17 def ine up to three dif ferent reference signals, the sum of which defines is the actual reference.

C03.18 Function Description Range Unit Default Setting

Relative Scaling Ref. 0~21 0

Option: [0] No f unction: No relative scaling ref. resource is defined;[1] Analog input VI, select analog input VI as relative scaling ref. source, see C06.1*;[2] Analog input AI, select analog input AI as relative scaling ref. source, see par. C06.2*;[8] Pulse input, select pulse input (DI4) as relative scaling ref. source, see par. C05.5*;[11] Local bus reference, select local bus reference as relative scaling ref. source, see par. C08.9*;[21] LCP potentiometer, select LCP potentiometer as relative scaling ref. source, see par. C06.8*;

Function: The Relative Scaling Ref. Resource can be set via Analog input terminals、 Local bus reference and LCP potentiometer.

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C03.19 Function Description Range Unit Default Setting

Save Speed Up/Down Value 0~2 0

Option: [0] No Function;[1] Stop Save;[2] Power Down Save;

Function: This parameter is used for setting whether to save the data changed in the Up/Down f unction if the f requency stops or af ter it power down.

C03.40 Function Description Range Unit Default Setting

Ramp 1 Type 0~2 0

Option: [0] Linear: Motor ramp up to the preset f requency with constant acceleration.

[2] S ramp: Motor ramp to the preset f requency with non-linear acceleration.

Description of Choice: If Linear [1] is selected, the f requency may exceed the preset setting during the acceleration; If S ramp [2] is selected, due to smoother S curve, it will automatically adjust acceleration when approaching to the preset f requency to avoid exceeding it.

C03.4* Ramp1

Ramp type and Ramp time

Attention: It is possible to switch acceleration and deceleration via digital input terminals, see parameterC05.1* choice. The state of the digital input terminal is shown in binary code; If the drive detects the corresponding digital input terminals connected, then the bit is”1”, on the contrary is”0”. The corresponding relationship between state of the digital input terminals、binary code and the selected ramp type are as follows:

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C03.41 Function Description Range Unit Default Setting

Ramp1Ramp up Time 0.05~3600.00 S *

Function: Enter the ramp-up time f rom 0 Hz to rated Motor speed in C01.25. Attention: Choose a rame-up time such that the output current does not

exceed the current limit in C04.18.

Binary system bit1 bit0 Ramp Group

Terminal State

0 0 10 1 21 0 31 1 4

C03.42 Function Description Range Unit Default SettingRamp1 Ramp Down Time 0.05~3600.00 S *

Function: Enter the deceleration time f rom the rated motor speed in C01.25 to 0Hz.

Attention: Choose a ramp-down time such that no over-voltage arises in the inverter due to regenerative operation of motor and such that the generated current does not exceed the current limit set in C04.18.

C03.50 Function Description Range Unit Default Setting

Ramp2 Type 0~2 0

Option: [0] Linear: Motor ramp up to the preset f requency with a constant acceleration; [2] S-ramp: Motor ramp to the preset f requency with non-linear acceleration..

C03.5* Ramp2

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C03.51 Function Description Range Unit Default Setting

Ramp2 Ramp up Time 0.05~3600.00 S *

Function: Enter the ramp-up time f rom 0Hz to rated Motor speed in C01.25.Attention: Choose a ramp-up time such that the output current does not

exceed the current limit set in C04.18.

C03.62 Function Description Range Unit Default Setting

Ramp3 Ramp Down Time 0.05~3600.00 S *

C03.52 Function Description Range Unit Default Setting

Ramp2 Ramp down Time 0.05~3600.00 S *

Function: Enter the deceleration time f rom the rated motor speed in C01.25 to 0Hz.

Attention: Choose a ramp-down time such that no over-voltage arises in the inverter due to regenerative operation of motor and such that the generated current does not exceed the current limit set in C04.18.

C03.60 Function Description Range Unit Default Setting

Ramp3 Type 0~2 0

Option: [0] Linear: Motor ramp up to the preset f requency with a constant acceleration;

[2] S-ramp: Motor ramp to the preset f requency with non-linear acceleration.

C03.61 Function Description Range Unit Default Setting

Ramp3 Ramp up Time 0.05~3600.00 S *

Function: Enter the acceleration time f rom 0Hz to rated Motor speed in C01.25.

Attention: Choose a ramp-up time such that the output current does not exceed the current limit set in C04.18.

Function: Enter the deceleration time f rom the rated motor speed in C01.25 to 0Hz.

Attention: Choose a ramp-down time such that no over-voltage arises in the inverter due to regenerative operation of motor and such that the generated current does not exceed the current limit set in C04.18.

C03.6* Ramp3

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C03.72 Function Description Range Unit Default Setting

Ramp4 Ramp Down Time 0.05~3600.00 S *

C03.70 Function Description Range Unit Default Setting

Ramp4 Type 0~2 0

Option: [0] Linear: Motor ramp up to the preset f requency with a constant acceleration; [2] S-ramp: Motor ramp to the preset f requency with non-linear acceleration.

C03.71 Function Description Range Unit Default Setting

Ramp4 Ramp up Time 0.05~3600.00 S *

Function: Enter acceleration time f rom 0Hz to rated Motor speed in C01.25.Attention: Choose a ramp-up time such that the output current does not

exceed the current limit set in C04.18.

Function: Enter the deceleration time f rom the rated motor speed in C01.25 to 0Hz.

Attention: Choose a ramp-down time such that no over-voltage arises in the inverter due to regenerative operation of motor and such that the generated current does not exceed the current limit set in C04.18.

C03.7* Ramp4

C03.80 Function Description Range Unit Default Setting

Jog Ramp Time 0.05~3600.00 S *

Function: Enter the time required motor speed f rom 0Hz up to rated motor speed (C01.25) or f rom the rated motor speed (C01.25) down to 0Hz.

Description of Choice: Jog ramp time starts upon activation of a jog signal via a selected digital input or serial communication port. See C05.1, choose [14].

C03.81 Function Description Range Unit Default Setting

Quick Stop Ramp Time 0.05~3600.00 S *

Function: Enter the Quick Stop Ramp Time f rom the rated motor speed (C01.25) to 0Hz.

C03.8* Other Ramps

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Description of Choice: Quick Stop Ramp Down Time is applicable when Quick Stop Ramp Time is activated, see C05.1*, choose [4].

6.5 Parameter Group 04: Limits/warnings

C04.1* Motor Limits

*C04.10 Function Description Range Unit Default Setting

Motor Speed Direction 0~2 2

Option: [0] Clockwise, the motor shaft rotates in clockwise direction; this setting prevents the motor from running in counter clockwise direction. [1] Counter clockwise, motor shaft rotates in counter clockwise direction, this setting prevents the motor from running in clockwise direction. [2] Both Directions, with this setting, the motor can run in both directions.

*C04.12 Function Description Range Unit Default Setting

Motor Speed Low Limit 0.0~400.0 Hz 0.0

Function: Set the minimum limit for Motor Speed, the motor speed low limit can be set to correspond to the minimum output frequency of the motor shaft . The motor speed low limit must not exceed the Motor Speed High Limit in C04.14.

*C04.14 Function Description Range Unit Default Setting

Motor Speed High Limit 0.0~400.0 Hz 65.0

Function: Enter the maximum limit for Motor Speed , the motor speed high limit can be set to correspond to the maximum manufacture’s rated motor speed. The motor speed high limit must exceed the Motor Speed Low Limit in C04.19.

C04.18 Function Description Range Unit Default Setting

Current Limit 0~300 % 150

Function: Set the output current high limit. Attention: If a setting in C01.20 to C01.25 is changed, this parameter is

not automatically reset to default setting.

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C04.30 Function Description Range Unit Default Setting

Motor Feedback Loss Function 0~11 1 4

C04.21 Function Description Range Unit Default Setting

Max Output Frequency Resource 0~21 0 1

*C04.19 Function Description Range Unit Default Setting

Max Output Frequency 0.0~400.0 Hz 65

Function: Enter value of the maximum output frequency.

Option: [0] No operation;[1] Freeze output;[3] Jog;[4] Operating at the max.output f requency;[5] Stop and warning;[11] Open loop running;

Function: Select which reaction the f requency converter should take if a feedback fault is detected.

Attention: When in HAND mode, and Speed-closed loop is selected, options [1]、 [3] 、 [4] are invalid.

Option: [0] No f unction, no reference resource is defined;[1] Analog in VI, use signals f rom Analog input VI as reference resource, see C06.1*; [2] Analog in AI, use signals f rom Analog input AI as reference resource, see C06.2*; [8] Pulse input, use signals f rom Pulse input (DI4) as reference resource, see C05.5*;[11] Local bus reference, use signals f rom Local bus reference as reference resource, see C08.9;[21] LCP potentiometer, use signals f rom LCP potentiometer as reference resource, see C06.8*; Function: Use an analog input to calibrate max output f requency (C04.19) f rom 0 to 100%, like in analog input calibration parameter (C06.1*). This parameter only be enable when C01.00 = 4.

C04.3* Motor Feedback Monitor

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C04.31 Function Description Range Unit Default Setting

Motor Feedback Speed Error 1~600 Rpm 300

Function: Select the max allowed tracking error in speed f rom calculated and the actual mechanical motor shaf t output speed.

C04.32 Function Description Range Unit Default Setting

Motor Feedback Loss Timeout 0.00~60.00 S 0.05

Function: Set the timeout value allowing the speed error set in C04.31 Motor Feedback Speed Error to be exceeded. If the motor feedback signal interrupts within this timeout value, the timer resets.

C04.5* Adj. Warnings

This parameter group is used to adjust warning limits for current、 speed、 reference and feedback . Warnings that are shown on the display can be programmed as an output or sent via serial bus.

C04.50 Function Description Range Unit Default Setting

Warning Current Low 0.00~Imax A 0.00

Function: Enter the Ilow value, when the motor current falls below this limit, the display reads current low. Setting range depends on the motor size.

Attention: This setting must be within normal motor current range, otherwise, it may produce an error warning.

C04.51 Function Description Range Unit Default Setting

Warning Current High 0.00~Imax A

Function: Enter the Ihigh value, when the motor current exceeds this limit, the display reads current high. Setting range and default setting depend on the motor size.

Attention: This setting must be within normal motor current range, otherwise, it may trigger an error warning.

C04.52 Function Description Range Unit Default Setting

Warning Speed Low 0.0~400.0 Hz 0.0

Function: Enter the nlow value, when the motor speed falls below this limit, the display reads Speed Low.

Attention: This setting must be within normal motor f requency range, otherwise, it may trigger an error warning.

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C04.55 Function Description Range Unit Default Setting

Warning Reference High -4999.000~4999.000 50.000

Function: Enter the upper reference limit, when the actual reference exceeds this limit, the display reads Ref High.

C04.56 Function Description Range Unit Default Setting

Warning Feedback Low -4999.000~4999.000 0.000

Function: Enter the lower feedback limit, when the feedback falls below this limit, the display reads Feedb Low.

C04.57 Function Description Range Unit Default Setting

Warning Feedback High -4999.000~4999.000 50.000

Function: Enter the upper feedback limit, when the feedback exceeds this limit, the display reads Feedb High.

Option: [0] Off, f unctoin is disabled;[1] On, f unction is enabled;

Attention: Missing motor phase causes motor torque to decrease. This f unction

*C04.58 Function Description Range Unit Default SettingMissing Motor Phase Function 0~1 1

C04.53 Function Description Range Unit Default Setting

Warning Speed High 0.1~400.0 Hz 65.0

Function: Enter the nhigh value, when the motor speed exceeds this limit, the display reads Speed High.

Attention: This setting must be within normal motor f requency range, otherwise, it may trigger an error warning.

C04.54 Function Description Range Unit Default Setting

Warning Reference Low -4999.000~4999.000 0.000

Function: Enter the lower reference limit, when the actual reference falls below this limit, the display indicates Ref Low.

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C04.6* Speed Bypass

C04.61 Function Description Range Unit Default Setting

Bypass Speed From 0.0~400.0 Hz 0.0

Array: [3]Function: This parameter is a dyadic Array, [0] is used to set the bypass speed

f rom of bypass speed range 1, [1] is used to set the bypass speed f rom of bypass speed range 2,and [2] is used to set that of bypass speed range3.

Description of Choice: Some systems call for avoiding some certain output speed due to resonance problems in system. The drive will pass quickly when it approaching to the Bypass Speed area.

C04.63 Function Description Range Unit Default Setting

Bypass Speed to 0.0~400.0 Hz 0.0

Array: [3];Function: This parameter is a dyadic array, [0] is used to set the bypass speed

to of bypass speed range 1, [1] is used to set the bypass speed to of bypass speed range 2,and [2] is set as that of bypass speed range3.

may be disabled for special purpose (e.g. small motor running pure U/f mode). However, choosing [0] Off, f unction disabled, may lead to overheating, Holip strongly recommends to make an active setting to avoid motor damage.

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C05.10 Function Description Range Unit Default Setting

Terminal FOR Digital Input 0~93 8

*C05.02 Function Description Range Unit Default Setting

Digital Output DO Mode 0~1 0

Option: [0] PNP, action on positive directional pulse;[1] NPN, action on negative directional pulse;

Function: Select the desired digital output mode.

C05.1* Digital Input

C05.11 Function Description Range Unit Default Setting

Terminal REV Digital Input 0~93 10

C05.12 Function Description Range Unit Default Setting

Terminal DI1Digital Input 0~93 15

C05.13 Function Description Range Unit Default Setting

Terminal DI2Digital Input 0~93 16

C05.14 Function Description Range Unit Default Setting

Terminal DI3Digital Input 0~93 17

C05.15 Function Description Range Unit Default Setting

Terminal DI4 Digital Input 0~93 18

Option: [0] No operation, the f requency converter will not to react to signals transmitted to the terminal;

C05.0* Digital I/O Mode

6.6 Parameter Group 05: Digital Input/Output

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[1] Reset, reset the f requency converter af ter a Trip/Alarm;[2] Coast Inverse, no output, leaving the motor coasting to stop;[3] Coast and reset Inverse, the f requency converter resets leaving the motor coasting to stop. [4] Quick stop Inverse, generates a stop in accordance with the quick-stop ramp time set in C03.81;[5] DC-brake Inverse, see C02.01, this f unction is only active when value in C02.02 and C02.04 are different f rom 0.[6] Stop Inverse, the drive is stopped according to selected ramp time;[8] Start, 1=start, 0=stop; [9] Pulse start, motor starts if a pulse signal (pulse with of not less 4ms) is received.[10] Reversing, change direction of motor shaf t rotation, reversing signal only changes direction of rotation, it does not activate start f unction, C04.10 must choose [2] Both directions; [11] Start reversing, used for start/stop and for reversing at the same time;[12] Enable start forward only, the motor can only run clockwise direction; [13] Enable start reverse only, motor can only run counter clockwise direction; [14] Jog, used for activating jog speed, see C03.11; [15] Preset ref. bit0, Preset ref.bit0、 bit1、 bit2、 bit3 is used for the choice of the preset reference, see parC03.10; [16] Preset ref. bit1, same as[15];[17] Preset ref. bit2, same as [15];[18] Preset ref. bit3, same as [15];[19] Freeze reference, the f rozen reference is the start point of up/down when Speed up and Speed down to be used. If Speed up/down is used, speed change always follows ramp 2 in the range par. C03.02 Minimum Reference — par. C03.03 Maximum Reference. If f reezing reference is active, stop the f requency converter via a terminal programmed for to [2] Coast Inverse or [3] Coast and reset , inverse ;[20] Freeze output, the f rozen reference is the start point of up/down when Speed up and Speed down to be used. If Speed up/down is used, the speed change always follows ramp 2 in the range 0 — Motor rated f requency;[21] Speed up, Activate this f unction by selecting either Freeze reference or Freeze output. When Speed up is activated for less than 400 ms. the resulting reference will be increased by 0.1%. If Speed up is activated for more than 400 ms. the resulting reference will ramp according to ramp 2 ;

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C05.30 Function Description Range Unit Default Setting

Terminal DO1 Digital Ouput 0~108 0

C05.3* Digital Output

Attention: Because the DO1 also can be used as pulse output, so select [0]digital output in C05.60 to make this parameter active;

C05.31 Function Description Range Unit Default Setting

Terminal DO2 Digital output 0~108 0

C05.40 Function Description Range Unit Default Setting

Relay Function 0~108 5, 9

C05.4* Relay

[22] Speed down, same as speed up [21] ;[23] Set-up select, see C00.10 (Active Set-up) ;[26] Precise stop inverse ,the f unction is available for C05.15/DI4 only;[27] Start-Precise stop, same as [26], but including start;[28] Catch up, select catch up to increase the resulting reference value by the percentage set in par. C03.12; [29] Slow down, select slow down to reduce the resulting reference value by the percentage set in par. C03.12; [32] Pulse input, Select Pulse input when using a pulse sequence as either reference or feedback. Scaling is done in par. group C05.5*, the f unction is available for C05.15/DI4 only;[34] Ramp bit0、 bit0、 bit1 used for select acceleration or deceleration;[35] Ramp bit1 , same as [34] ;[60] Counter A (up) ;[62] Reset counter A, to clear counter A to “0”;[63] Counter B (up) ;[65] Reset counter B, to clear Counter B to “0”;[70] Wobble start command, see parameter group C30*;[71] Wobble reset, see parameter group C30*;[72] Wobble initialization, see parameter group C30*;[90] Low water level, see parameter group C25*;[91] High water level, see parameter group C25*;[92] Scarcity water level, see parameter group C25*;[93] Over run water level, see parameter group C25*;

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Array: [0]-[1] Array[0] indicates relay1, array[1] indicates relay2.Option: [0] No operation;

[1] Control ready, inverter control card have received supply voltage;[2] Drive ready, Frequency converter is ready for operation and applies supply signal on control card; [3] Drive ready, remote, Frequency converter is ready for operation and is in Auto-on mode; [4] Enable/No warning, Frequency converter is ready for operation. No start or stop command is given. No warning is present;[5] Drive running, Motor is running; [6] Running/No warning, Motor runs and no warnings are present;[7] Run in range/No warning. Motor runs within programmed current ranges, see C04.50 and C04.51. No warnings are present;[8] Run on reference/No warning. Inverter runs at reference speed without warnings;[9] Alarm. Frequency converter alarms;[10] Alarm or warning. An alarm or warning occurs;[12] Out of current range. Output current exceeds the current range set in C04.50 and C04.51;[13] Below current, low. Output current is lower than set in C04.50;[14] Above current, high. Output current is higher than set in C04.51;[15] Beyond f requency range. Output f requency beyond range set in C04.52 and C04.53; [16] Below f requency, low. Output f requency is lower than value set in C04.52;[17] Above f requency,high. Output f requency is higher than value set in C04.53;[18] Beyond the scope of the feedback. The feedback received f rom the inverter exceeds the setting range in C04.56 and C04.57;[19] Below feedback,low. The feedback received f rom inverter is lower than settings in C04.56;[20] Above feedback, high. The feedback received f rom inverter is higher than settings in C04.57;[21] Thermal warning. A thermal warning occurs;[22] Ready, no Thermal warning. Frequency converter is ready for operation and no over-temperature warning is present;[23] Remote ready, no Thermal Warning. Frequency converter is ready for operation in remote control, and no over-temperature warning is present;[24] Ready-Voltage OK. Frequency converter is ready for operation, main voltage is within specified voltage range;[25] Reverse. Motor runs in counter clockwise;

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[26] Bus OK. Local bus communication is normal; [28] Brake-No warning. Brake is active, and no warnings are present;[29] Brake ready/No fault. Brake is ready for operation, and no fault is present; [30] Brake fault (IGBT) . Brake IGBT module fault is present; [32] Mech. Brake Control. Enter mechanical brake control signal, see C02.2*;[36] Control word bit11, bit11 in control word controls relay; [37] Control word bit12, bit12 in control word controls relay;[40] Exceeding reference range. Reference outside the setting range in C04.54 and C04.55 ;[41] Below reference, low. Reference is lower than parameter settings in C04.54; [42] Above reference, high. Reference is higher than the parameter settings in C04.55;[51] Local ref. active; [52] Remote ref. active;[53] No alarm. Frequency converter is running normally, no alarm;[54] Start command active;[55] Running reverse. Drive runs in counter clockwise;[56] Frequency converter in HAND mode;[57] Frequency converter in AUTO mode;[60] Comparator 0. Using a simple PLC, the results of comparator 0; [61] Comparator 1, Using a simple PLC, the results of comparator 1;[62] Comparator 2, Using a simple PLC, the results of comparator 2;[63] Comparator 3, Using a simple PLC, the results of comparator 3;[70] Logic Rule 0, Using a simple PLC, the results of logic rule 0;[71] Logic Rule 1, Using a simple PLC, the results of logic rule 1;[72] Logic Rule 2, Using a simple PLC, the results of logic rule 2;[73] Logic Rule 3, Using a simple PLC, the results of logic rule 3;[80] Sample PLC Digital Output 1. Only active for DO1/C05.30;[81] Sample PLC Digital Output. Only active for DO2/C05.31;[82] Sample PLC Relay 1. Only active for Relay 1/C05.40 [0];[83] Sample PLC Relay 2. Only active for Relay 2/C05.40 [1];[84] Sample PLC Digital Output 3, only active for DO3/C05.32;[85] Sample PLC Digital Output 4, Only active for DO4/C05.33;[90] Up to Wobble Limit, see C30*;[91] Up to Wobble ref., see par. C30*;[100] Start Pump 1, see C25*;[101] Start Pump 2, see C25*;[102] Below water level, low. See par. C25*;[103] Above water level, high. See par. C25*;

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[104] Low water warning. See par. C25*;[105] High water warning. See par. C25*;[106] Low voltage warning. See par. C25*;[107] Over-voltage warning. See par. C25*;[108] Sleep, see par. C25*;

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C05.57 Function Description Range Unit Default Setting

Terminal DI4 Low Ref./feedback 4999.000~4999.000 0.000

C05.55 Function Description Range Unit Default Setting

Terminal DI4 Low Frequency 0.020~49.999 KHz 0.020

C05.5* Pulse Input

Function: Enter low f requency corresponding to low motor shaf t speed in C05.57 Terminal DI4 Low Ref./feedback Value;

C05.56 Function Description Range Unit Default Setting

Terminal DI4 High Frequency 0.021~50.000 KHz 50.000

Function: Enter the high f requency corresponding to the high motor shaf t speed in C05.58 Terminal DI4 High Ref./feedback Value.

Function: Enter low f requency /feedback corresponding to value in C05.55.

Description of Choice: Set C05.15 to 32 (pulse input), digital input terminals DI4 receives the pulse signal. Low f requency corresponds to reference/feedback in C05.57.

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C05.58 Function Description Range Unit Default Setting

Terminal DI4 High Ref. /feedback 4999.000~4999.000 50.000

Function: Enter high ref./feedback corresponding to value in C05.56.

C05.59 Function Description Range Unit Default Setting

Terminal DI4 Filter Time Constant 1~1000 ms 100

Function: Enter the pulse filter time constant, the low pass filter reduces the influence on and dampends the oscillations on the feedback signal f rom the control. This parameter can’t be changed when motor is running.

C05.60 Function Description Range Unit Default Setting

DO1 Pulse Output 0~23 0

Option: [0] Digital Output, see C05.30;[10] Output f requency, 0.020-50.000KHz Corresponding to 0-200Hz;[11] Reference, C03.00 select“0” [Min – Max] , 0% = 0.020KHz, 100% = 50.000KHz; C03.00 select“1” [-Max – Max] , -100% = 0.020KHz, 100% = 50.000KHz;[12] Feedback, 0.020-50.000KHz corresponding to -200% ~ 200%;[13] Motor current, 0.020-50.000KHz corresponding to 0-Max. motor current, see par. C16.37;[16] Power, 0.020-50.000KHz corresponding to 0-Motor current, see C01.20;[17] Speed, 0.020-50.000KHz corresponding to 0-Motor speed, see C01.25;[18] Motor voltage, 0.020-50.000KHz corresponding to 0-Motor voltage, see C01.22;[20] Bus control: 0.020-50.000KHz corresponding to 0.0% — 100.0%, 100% equals to settings in C03.03;[21] Pulse input, 0.020-50.000KHz corresponding to reference in C05.55-C05.56 entered via DI4;[22] Values on analog input VI, 0.020-50.000KHz corresponding to references in C06.10、 C06.12 and C06.11、 C06.13;[23] Values on analog input AI, 0.020-50.000KHz corresponding to

C05.6* Pulse Output

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Function: Define the mnimum possible f requency for pulse output.

C05.61 Function Description Range Unit Default Setting

Pulse Output Min. Freq. 0.020~49.999 KHz 0.020

Function: Enter Max. f requency for pulse output.

C05.62 Function Description Range Unit Default Setting

Pulse Output Max. Freq. 0.021~50.000 KHz 50.000

Function: Enter pulse output min. scale, set as a percentage value of max. signal .

C05.63 Function Description Range Unit Default Setting

Pulse Output Min. Scale 0.00~200.00 % 0.00

Function: Enter pulse output max. scale, set as a percentage value of max. signal .

C05.64 Function Description Range Unit Default Setting

Pulse Output Max. Scale 0.00~200.00 % 100.00

reference in C06.20、 C06.22 and C06.21、 C06.23;Description of Choice: Parameters for conf iguring the scaling and output

f unctions of pulse output. The pulse output corresponding to one reference between Min. f requency(C05.61) to Max. f requency (C05.62). The scaling can be set in C05.6 and C05.64.

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C05.7* Encoder Input

*C05.70 Function Description Range Unit Default Setting

Encoder per Revolution 256~4096 1024

Function: Encoder resolution (pulses for each revolution of the motor shaf t, see C05.70) is determined by the maximum f requency of receiving pulses of the PG card (up to 205KHZ). According to the encoder resolution and speed (rpm), in accordance with the following formula F= C05.70×RPM/60 , the output f requency can be calculated.

*C05.71 Function Description Range Unit Default Setting

Encoder Direction 0~1 0

Function: Select [0] clockwise, or select [1] counter clockwise. Change the detected encoder rotation without changing the wire to the encoder. This parameter can not be changed while the motor is running.

Function: Enter the live Zero Time-out Time period, Live Zero Time-out Time is active for analog inputs. If the analog signal interrupts for the time period longer than the time set in this parameter, the f unction selected in C06.01Live Zero Timeout Function will be activated.

Description of Choice: If the analog input signal is back to normal within the delay time, then, reset the timer.

C06.0* Analog I/O Mode

C06.00 Function Description Range Unit Default Setting

Live Zero Timeout Time 1~99 S 10

Option: [0] Off;[1] Freeze output, f rozen at the present value;[2] Stop, overruled to stop;[3] Jogging, overruled to jog speed;[4] Max. speed, overruled to Max.speed;[5] Stop and trip, overruled to stop with subsequent trip.

C06.01 Function Description Range Unit Default Setting

Live Zero Timeout Func. 1~5 0

6.7 Parameter Group 06: Analog In/Out

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Function: Enter VI Low Voltage corresponding to Min. reference/feedback set in C06.14.

C06.1* Analoge Input 1

C06.10 Function Description Range Unit Default Setting

Terminal VI Low Voltage 0.00~9.99 V 0.07

Function: Enter VI High Voltage corresponding to Max. reference/feedback set in C06.15.

C06.11 Function Description Range Unit Default Setting

Terminal VI High voltage 0.10~10.00 V 10.00

Function: Enter VI Low Current corresponding to Min. reference/feedback set in C06.14.

C06.12 Function Description Range Unit Default Setting

Terminal VI Low Current 0.00~19.99 mA 0.14

Function: Enter VI High Current corresponding to Max. reference/feedback set in C06.15.

C06.13 Function Description Range Unit Default Setting

Terminal VI High Current 0.01~20.00 mA 20.00

Function: Enter VI Low Ref./Feedb. Corresponding to Min. voltage or min. current set in C06.10 or C06.12.

C06.14 Function Description Range Unit Default Setting

Terminal VI Low Ref. /Feedb. -4999.000~4999.000 0.000

Description of Choice: To active the Live Zero Timeout Function, if voltage input is selected, then the low input voltage (C06.10, C06.20) settings must be greater than 1V; if current input is selected, the low input current (C06.12, C06.22) settings must be greater than 2mA or more. If the analog input signal is lower than 50% of the settings of parameters of C06.10, C06.12, C06.20, C06.2, and lasts longer than the settings of the parameters of C06.00, this feature take effect.

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Function: Enter VI High Ref./Feedb. Corresponding to max voltage or max current set in C06.11 or C06.13.

C06.15 Function Description Range Unit Default Setting

Terminal VI High Ref. /Feedb. -4999.000~4999.000 50.000

C06.16 Function Description Range Unit Default Setting

Terminal Filter Time Constant 0.01~10.00 s 0.01

Function: Enter the time constant, this is a first-order digital low pass filter time constant for suppressing electrical noise in analog input VI. A high time constant value improves dampening but also increases the time delay through the filter. This parameter can’t be adjusted while the motor is running.

C06.18 Function Description Range Unit Default Setting

Terminal VI Zero Dead Band 0.00~20.00 V/mA 0.00

Function: Set the dead-band of VI at 0 speed. When analog input VI ref. low and ref. high have opposite signs, there must be a set point that corresponding to an analogue value equals 0. In order to prevent the set point jitter at zero point due to analog interference, this parameter should be set properly.

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Description of Choice: Point A as shown in the figure is the analog value that corresponds to a setpoint that equals 0. It is calculated via analog low、high values and low、 high references. UAB=UAC=C06.18/2

Option: [0] Voltage mode;[1] Current mode;

Function: Select the input to be present on analog input VI.

C06.19 Function Description Range Unit Default Setting

Terminal VI Mode 0~1 0

Function: This reference signal should correspond to minmum reference/feedback value set in C06.24.

C06.2* Analog Input 2

C06.20 Function Description Range Unit Default Setting

Terminal AI Low Voltage 0.00~9.99 V 0.07

Function: This reference signal should correspond to max. reference/feedback value set in C06.25.

C06.21 Function Description Range Unit Default Setting

Terminal AI High Voltage 0.01~10.00 V 10.00

Function: This reference signal should correspond to min. reference /feedback value set in C06.24.

C06.22 Function Description Range Unit Default Setting

Terminal AI Low Current 0.00~19.99 mA 0.14

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C06.26 Function Description Range Unit Default Setting

Terminal AI Filter Time Constant 0.01~10.00 S 0.01

Function: This reference signal should correspond to max. reference/feedback value set in C06.25.

C06.23 Function Description Range Unit Default Setting

Terminal AI High Current 0.01~20.00 mA 20.00

Function: Enter the time constant, this is a first-order digital low pass filter time constant for suppressing electrical noise in analog input AI. A high time constant value improves dampening but also increases the time delay through the filter. This parameter can’t be adjusted while the motor is running.

C06.28 Function Description Range Unit Default Setting

Terminal AI Zero Dead Band 0.00~20.00 0.00

Function: Set the dead band for terminal AI at zero, see C06.18.

Function: Enter the reference or feedback value corresponding to min voltage or min current set in C06.20 or C06.22, see drawing in C06.15.

C06.24 Function Description Range Unit Default Setting

Terminal AI Low Ref. /Feedb. Value -4999.000~4999.000 0.000

Function: Enter the reference or feedback value corresponding to max voltage or max current set in C06.21 or C06.23.

C06.25 Function Description Range Unit Default Setting

Terminal AI High Ref./Feedb. Value -4999.000~4999.000 50.000

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Option: [0] Voltage mode;[1] Current mode;

Function: Select the input to be present on analog input AI.

C06.29 Function Description Range Unit Default Setting

Terminal AI Mode 0~1 0

Option: [0] 0-20mA;[1] 4-20mA;[3] 0-10V;

Function: Select output to be present on analog output VO.Attention: This parameter is in relation with the jumper switch, if voltage

output is selected, leg1、 2 should be asserted on; if current output is selected, leg2、 3 should be asserted on.

C06.7* Analog Output VO

C06.70 Function Description Range Unit Default Setting

Terminal VO Mode 0~3 3

Option: [0] No operation;[10] Output f requency, (0-10V) or (0/4-20mA) corresponding to 0-200Hz;[11] Reference: C03.00 choose“0” [Min. – Max.] , 0% = 0 mA, 100% = 20mA. C03.00 choose [1] [-Max. – Max.] , -100% = 0 mA, 0% = 10mA, +100% = 20 mA;[12] Feedback, (0-10V) or (0/4-20mA) corresponding to -200% ~ 200%;[13] Motor current, (0-10V) or (0/4-20mA) corresponding to 0-Max motor current, see C16.37;[16] Power, (0-10V) or (0/4-20mA) cor responding to 0-motor f requency, see C01.20;[17] Motor speed, (0-10V) or (0/4-20mA) corresponding to 0-motor speed, see C1.25;[18] Output voltage, (0-10V) or (0/4-20mA) corresponding to 0-motor voltage, see C1.22;[20] Bus control (0-10V) or (0/4-20mA) corresponding to 0.0% — 100.0%, 100% equals to reference in C03.03;[21] Pulse input (0-10V) or (0/4-20mA) corresponding to reference f rom C05.55 to C5.56 transmitted via terminal DI4;

C06.71 Function Description Range Unit Default Setting

Terminal VO Analog Output 0~23 0

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C06.81 Function Description Range Unit Default Setting

LCP Potmeter Low Ref. -4999.000~4999.000 0.000

[22] Value on analog input VI, (0-10V) or (0/4-20mA) corresponding to references f rom C06.10、 C06.12 to C06.11、 C06.13;[23] Value on analog input AI, (0-10V) or (0/4-20mA) corresponding to references f rom C06.20、 C06.22 to C06.21、 C06.23;

Function: Select choices of the analog output VO.

C06.73 Function Description Range Unit Default Setting

Terminal VO Output Min Scale 0.00~200.00 % 0.00

Function: Scale minmum output of selected ananlog signal at terminal VO as percentage of maximum signal value. See fig. below:

C06.74 Function Description Range Unit Default Setting

Terminal VO Output Max Scale 0.00~200.00 % 100.00

Function: Scale maximum output of selected analog signal at terminal VO as percentage of maximum signal value.

C06.8* LCP Potmeter

The LCP potmeter can be select either as reference resource or relative reference resource.

Function: This reference value corresponding to potentiometer turned f ully counterwise .

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C06.82 Function Description Range Unit Default Setting

LCP Potmeter High Ref. -4999.000~4999.000 50.000

Function: This reference value corresponding to potentiometer turned f ully clockwise.

Option: [0] 0-20mA;[1] 4-20mA;

Function: Select the current output signal type of analog output terminal AO.

C06.9* Analog Output AO

C06.90 Function Description Range Unit Default Setting

Terminal AO Mode 0~2 0

Option: See C06.71.Function: Select choices of analog output VO.

C06.91 Function Description Range Unit Default SettingTerminal AO Analog Output 0~23 0

Function: Scale minmum output of selected analog signal at terminal AO as percentage of maximum signal value. See fig. below:

C06.93 Function Description Range Unit Default SettingTerminal AO Output Min. Scale 0.00~200.00 0.00

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Function: Scale maximum output of selected analog signal at terminal AO as percentage of maximum signal value.

Function: Torque PI Proportional Gain, choose a higher value causes the controller response more quickly, but too high will cause the controller unstable.

Function: Torque PI Integration Time, the lower the value setting, the more rapid reaction of the torque limit controller, but too low setting will cause the control not stable.

C06.94 Function Description Range Unit Default SettingTerminal AO Output Max. Scale 0.00~200.00 100.00

C07.12 Function Description Range Unit Default SettingTorque PI Proportional Gain 0~500 100

C07.13 Function Description Range Unit Default SettingTorque PI Integration Time 0.002~2 S 0.02

C07.1* Torque PI Control

6.8 Parameter Group 07: Controller

Configure torque open loop control PI parameter.

Option: [0] No Function;[1] Analog in VI(0-10 V、 0-20 mA、 4-20 mA);[2] Analog in AI(0-10 V、 0-20 mA、 4-20 mA);[8] Pulse input DI4 (0.020 – 50.000 KHz);[11] Local Bus (0 ~ ± 200%);

Function: Select resource of feedback signal.

C07.2* Process Ctrl. Feedb

C07.20 Function Description Range Unit Default Setting

Process CL Feedback 1 0~11 0

C07.3* Process PI Ctrl.

This parameter is active in closed loop process control mode.

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C07.30 Function Description Range Unit Default SettingProcess PI Normal/Inverse Control 0~1 0

Option: [0] Normal, f requency converter is to reduce/increase the output f requency if the feedback signal is larger/lower than reference;

[1] Inverse, f requency converter is to reduce/increase the output f requency if the feedback signal is larger/lower than reference;

C07.31 Function Description Range Unit Default SettingProcess PI Anti Windup 0~1 1

Option: [0] Disable, continue regulation of a given error even when the output f requency can’t be increased/decreased.

[1] Enable, ceases regulation of a given error when the output f requency can’t be increased/decreased.

Function: This f unction ensures the output f requency reaches to f requency limit. PI-controller will be initialized to the current f requency when the output f requency can not be changed. This can prevent the integrator continue to integrate on an error when the PI-controller can’t adjust output f requency.

C07.32 Function Description Range Unit Default SettingProcess PI Start Speed 0.0~200.0 Hz 0.0

Function: Enter the motor speed to be at tained as a star t signal for commencement of PID control . When the power is switched on, the f requency converter will commence ramping and then operate under speed open loop control. Thereaf ter, when the Process PI Start Speed is reached, the f requency converter will change over to Process PI Control.

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C07.41 Function Description Range Unit Default SettingProcess PI Output Low -100-100 % 0

Function: The proportional Gain indicates the number of times the error between the set point and the feedback signal is to be applied. Quick control is obtained by a high gain, but if the gain is too high, the process may become unstable.

Attention: This f unction is disabled when it is set to “0”.

C07.33 Function Description Range Unit Default Setting

Process PI Proportional Gain 0.0~10.00 0.01

Function: The integral time is the time needed by the integrator to reach the same gain as the porortional gain. Quick control is obtained at a short integral time, however, this time may become too short, which can make the process unstable.

C07.34 Function Description Range Unit Default Setting

Process PI Integral Time 0.10~9999.00 s 9999.00

Function: Feed Forward Factor acts an antidampening role to the PI action, setting this parameter to optimize the PI controller.

C07.38 Function Description Range Unit Default Setting

Process PI Feed Forward Factor 0~400 % 0

Description of Choice: The PI control error occurs according to the deviation between the setpoint and the feedback , when the deviation is less than set value in this parameter, On reference Band Width f unction is active.

Function: Process PI controller output low limit, 100% corresponds to C04.19.

C07.39 Function Description Range Unit Default Setting

On reference Band Width 0~200 % 5

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C08.03 Function Description Range Unit Default Setting

Control Word Time Out Time 0.1~6500.0 s 1.0

C07.42 Function Description Range Unit Default SettingProcess PI Output High -100-100 % 100

Function: Process PI controller output High limit, 100% corresponds to C04.19.

C08.01 Function Description Range Unit Default SettingControl mode 0~2 0

Option: [0] Digital and control word , use both digital input and control word as control;

[1] Digital only, use digital input as control;[2] Control word only, use control word only as control;

C08.02 Function Description Range Unit Default SettingControl Word Source 0~1 1

Option: [0] None, control word is inactive;[1] FC RS485 , select local bus as control word source.

Function: This f unction is disabled, when the reference is set to 0. If the reference is not set to 0, the control word timeout time is not exceeded, and the serial communication is still innormal, action set in C08.04 will be carried out.

C08.04 Function Description Range Unit Default Setting

Contol Word Time Out Time 0~5 0

Option: [0] Off, No f unction;[1] Freeze output, Freeze output until communication resumes.[2] Stop, Stop with auto restart when communication resumes;[3] Jogging, Run motor at jog f requency until communication resumes;[4] Max. speed, Run motor at max.f requency until communication

C08.0* Comm. General Settings

6.9 Parameter Group 08: Comm. and Options

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C08.06 Function Description Range Unit Default Setting

Reset Control Word Time Out 0~1 0

Option: [0] No f unction Control word timeout is not reset;[1] Do reset Control word timeout is reset;

Function: Resetting control word timeout will remove any timeout f unction;

C08.30 Function Description Range Unit Default SettingProtocol 0~6 0

Option: [0] FC;[2] MODBUS RTU;[6]MODBUS ASCII;

Function: Select the protocol to be used.

C08.31 Function Description Range Unit Default SettingAddress 0~247 1

Function: Select the address for the bus. FC-bus range is 1-126, and MODBUS RTU range is 1-247.

C08.32 Function Description Range Unit Default SettingFC Port Baud Rate 0~9 bit/s 2

Option: [0] 2400;[1] 4800;[2] 9600;[3] 19200;[4] 38400;[5]Reserved;[6]Reserved;[7]Reserved;[8]Reserved;[9]Reserved;

Function: Select baud rate for FC Port.

C08.3* FC Port Setting

resumes;[5] Stop and trip, Stop motor and restart f requency in order to restart via either LCP or Digital input .

Function: Select action to be taken in case of timeout.

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C08.33 Function Description Range Unit Default SettingFC Port Parity 0~3 2

Option: [0] Even parity (1 stop bit);[1] Odd parity (1 stop bit);[2] No parity (1 stop bit);[3] No parity (2 stop bit);

Function: This parameter only ef fective for MODBUS RTU and FC bus always has even parity.

C08.35 Function Description Range Unit Default SettingMin. Response Delay 0.001~0.50 s 0.010

Function: Def ine the minmum delay time f rom receiving a request to transmitting the respond out.

C08.36 Function Description Range Unit Default SettingMax. Response Delay 0.010~10.000 s 5.000

Function: Specif y maximum permissible delay time between transmitting a request and receiving a respond. Exceeding this time delay will cause word timeout.

C08.50 Function Description Range Unit Default SettingCoasting Select 0~3 3

Option: [0] Digital input, Activate via a digital input;[1] Bus, Activate via serial communication port;[2] Logic and, Activate via serial communication port and a digital input;[3] Logic or Activate via serial communication port or a digital input;

Function: Select control of coasting f unction via digital input or bus.

C08.51 Function Description Range Unit Default SettingQuick Stop Select 0~3 3

Option: [0] Digital input, Aciviate via a digital input;[1] Bus, Activate via serial communication port;

C08.5* Digital/Bus

This parameter only active only when C08.01 (control site) is set to (0) digital and control word.

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C08.52 Function Description Range Unit Default SettingDC Brake Select 0~3 3

Option: [0] Digital input, Aciviate via a digital input;[1] Bus, Activate via serial communication port;[2] Logic and, Activate via serial communication port and a digital input;[3] Logic or, Activate via serial communication port or a digital input;

Function: Select control of DC Brake f unction via digital input or bus.

C08.53 Function Description Range Unit Default SettingStart Select 0~3 3

Option: [0] Digital input, Aciviate via a digital input;[1] Bus, Activate via serial communication port;[2] Logic and, Activate via serial communication port and a digital input;[3] Logic or, Activate via serial communication port or a digital input;

Function: Select control of Start Select f unction via digital input or bus.

C08.54 Function Description Range Unit Default SettingReversing Select 0~3 3

Option: [0] Digital input, Activate via a digital input;[1] Bus, Activate via serial communication port;[2] Logic and, Activate via serial communication port and a digital input;[3] Logic or, Activate via serial communication port or a digital input;

Function: Select control of Reversing Select f unction via digital input or bus.

C08.55 Function Description Range Unit Default SettingSet-up Select 0~3 3

Option: [0] Digital input, Aciviate via a digital input;[1] Bus, Activate via serial communication port;[2] Logic and, Activate via serial communication port and a digital input;

[2] Logic and, Activate via serial communication port and a digital input;[3] Logic or, Activate via serial communication port or a digital input;

Function: Select control of quick stop f unction via digital input or bus.

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[3] Logic or, Activate via serial communication port or a digital input;Function: Select control of Set-up Select f unction via digital input or bus.

C08.56 Function Description Range Unit Default SettingPreset Reference Select 0~3 3

Option: [0] Digital input, Aciviate via a digital input;[1] Bus, Activate via serial communication port;[2] Logic and, Activate via serial communication port and a digital input;[3] Logic or, Activate via serial communication port or a digital input;

Function: Select control of Preset Reference Select f unction via digital input or bus.

C08.94 Function Description Range Unit Default SettingBus Feedback 1 -32768~32767 0

Function: Enter the value to be used as bus-feedback. Hex-value 4000H corresponds to 100% feedback/range is +/-200%.

C08.9* Bus Jog/Feedback

C13.00 Function Description Range Unit Default SettingSample PLC Mode 0~2 0

Option: [0] *Disabled;

C13.0* Simple PLC Settings

6.10 Parameter Group 13: Simple PLC

Simple PLC is a user-def ined sequence of operation (C13.52[x]). When the associated user-defined envents (C13.51[x]) is set to true, Sample PLC will perform these operations.

Events and related operations are paired, that is , once an event is “true”, will execute its associated action. You can set up to 30 events and operations.

Start and stop simple PLC: Selected by C13.00 order or parallel control, when start event (par.13.01) is “true”, start simple PLC, when stop event (C13.02) is “true”, Simple PLC will be stopped. In addition, you can also choose off [0] (C13.00) to stop the simple PLC.

Attention: Simple PLC f unction is only valid in auto mode.

Use the Sample PLC settings to active、 disable or reset simple PLC.

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C13.01 Function Description Range Unit Default SettingStart Event 0~54 39

Option: [0] False, Enter “false” in logic rule;[1] True, Enter “true” in logic rule;[2] Running, for detailed information, please refer to C05.4*[5];[3] In range-No warning, for detailed information, please refer to C05.4*[7];[4] On reference-No warning, for detailed information, please refer to C05.4*[8];[7] Out of current range, for detailed information, please refer to C05.4*[12];[8] Below I Low, for detailed information, please refer to C05.4*[13];[9] Above I High, for detailed information, please refer to C05.4*[14];[10] Out of speed range, for detailed information, please refer to C05.4*[15];[11] Below speed low, for detailed information, please refer to C05.4*[16];[12] Above speed high, for detailed information, please refer to C05.4*[17];[13] Out of feedback range, for detailed information, please refer to C05.4*[18];[14] Below feedback low, for detailed information, please refer to C05.4*[19];[15] Above feedback high, for detailed information, please refer to C05.4*[20];[16] Thermal warning, for detailed information, please refer to C05.4*[21];[17] Mains out of range, Main power supply voltage exceed specified voltage range;[18] Reversing, for detailed information, please refer to C05.4*[25];[19] Warning, if the inverter issues a warning, this event is true;[20] Alarm (trip) , if the drive alarms and trip is actived, this event is true;[21] Alarm (trip lock), the drive alarms and trip lock is actived;[22] Comparator 0, output of comparator 0 is used in logic rules;[23] Comparator 1, output of comparator 1 is used in logic rules;[24] Comparator 2, output of comparator 2 is used in logic rules;

[1] Order Execution;[2] Parallel Execution;

Function: Select desired simple PLC control mode.

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[25] Comparator 3, output of comparator 3 is used in logic rules;[26] Logic rule 0, result of logic rule 0 is used in logic rules;[27] Logic rule 1, result of logic rule 1 is used in logic rules;[28] Logic rule 2, result of logic rule 2 is used in logic rules;[29] Logic rule 3, result of logic rule 3 is used in logic rules;[30] Simple PLC Time-out 0, result of timer 0 is used in logic rules;[31] Simple PLC Time-out 1, result of timer 1 is used in logic rules;[32] Simple PLC Time-out 2, result of timer 2 is used in logic rules;[33] Digital input FOR, input value entered via digital input FOR is used in logic rules;[34] Digital input REV, input value entered via digital input REV is used in logic rules;[35] Digital input DI1, input value entered via digital input DI1 is used in logic rules;[36] Digital input DI2, input value entered via digital input DI2 is used in logic rules;[37] Digital input DI3, input value entered via digital input DI3 is used in logic rules;[38] Digital input DI4, input value entered via digital input DI4 is used in logic rules;[39] Start command, if the drive starts in any way, this event is “true”;[40] Drive stopped, if the drive stops in any way, this event is “true”;[50] Simple PLC Time-out 3, result of timer 3 is used in logic rules;[51] Simple PLC Time-out 4, result of timer 4 is used in logic rules;[52] Simple PLC Time-out 5, result of timer 5 is used in logic rules;[53] Simple PLC Time-out 6, result of timer 6 is used in logic rules;[54] Simple PLC Time-out 7, result of timer 7 is used in logic rules;Function: Start Simple PLC.

C13.02 Function Description Range Unit Default SettingStop Event 0~54 40

Option: Same to C13.01.Function: Stop Simple PLC.

C13.03 Function Description Range Unit Default SettingReset simple PLC 0~1 0

Option: [0] Do not reset, Simple PLC doesn’t reset;[1] Reset Simple PLC, reset Simple PLC, references in parameter group C13 will all be restored to factory setting;

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C13.10 Function Description Range Unit Default SettingComparator Operand 0~31 0

Array: [4] ;Option: [0] Disabled;

[1] Reference [Hz] ;[2] Feedback [%], feedback signal (0-10V) or (0/4-20mA) corresponds to -200% ~ 200%;[3] Motor speed [Hz] ;[4] Motor current [A] ;[6] Motor power [kW] ;[7]Motor Voltage [V];[12] Analog in VI [%], 100% corresponds to 10V/20mA (depending on your choice is current input or voltage input);[13] Analog in AI [%], 100% corresponds to 10v/20mA (depending on your choice is current input or voltage input);[20] Alarm number;[30] Counter A;[31] Counter B;

For example: Motor current is 25A, C13.10 [0] =4, C13.12 [0] =23, C13.11 [0] =2, then the output of comparator 0 is true.

C13.11 Function Description Range Unit Default SettingComparator Operator 0~2 1

Array: [4] ;Option: [0] Less than, if the variable selected in C13.10 is less than the set value

in C13.12, the comparator output is true, or, false;[1] Approx. Equal, if the variable selected in C13.10 equals the set value in parC13.12, the comparator output is true;[2] Greater than, opposite with option [0];

Function: Select the operator to be used in the comparison.

C13.1* Comparators

Comparators are used for comparing continuous variables (e.g. output f requency、 output current、 analog input etc.) with f ixed preset values. In addition, there are some constant value in conjunction with the preset value for comparison, please refer to options in C13.10. In each of the scanning integral the comparator will be evaluated once. And directly use the results (true or false). Parameters in this group are all array-type parameter with index 0-4 . Select 0 to programme Comparator 0, select index 1 to programme Comparator 1, and so on.

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C13.12 Function Description Range Unit Default SettingComparator Value -9999.0~9999.0 0.0

C13.20 Function Description Range Unit Default SettingSimple PLC Timer 0.00~3600.00 s 0.00

Array: [8];Function: Enter the value to define the duration of the FALSE output f rom

the programmed timer. A timer is only TRUE if it is started by an action and till the timer value has exceeded the set time.

C13.2* Timers

Use the timer output to define an event (see C13.51) or acts as Boolean inputs of the logic rules (see C13.40、 C13.42 or C13.44).

C13.40 Function Description Range Unit Default SettingLogic Rule Boolean 1 0~64 0

Array: [4];Option: Please refer to C13.01;Function: Select the first boolean(true or false) input for the selected logic

rule.

C13.41 Function Description Range Unit Default SettingLogic Rule Operator 1 0~8 0

Array: [4] ;Option: [0] Disabled, ignoring C13.40 and C13.42 ;

[1] And, evaluates the expression [C13.40] AND [C13.42];[2] Or, evaluates the expression [C13.40] OR [C13.42];

C13.4* Logic Rules

Combine up to three boolean inputs (TRUEor FALSE inputs) f rom timers、 comparators、 digital inputs、 status bits and events using the logical operators AND、 OR and NOT. C13.40、 C13.42 and C13.44 are used to select logic rule Booleans, and C13.41、 C13.43 is for selecting logic rule operators.

Caculation order: First, select three Boolean inputs f rom C13.40、 C13.41 and C13.42 for the selected logic rule, and then the result (“TRUE or FALSE”) as a logic boolean value, together with other two boolean inputs got f rom C13.43 and C13.44 to obtain the f inal result of the calculation (“TRUE or FALSE”).

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C13.42 Function Description Range Unit Default SettingLogic Rule Boolean 2 0~64 0

Array: [4];Option: Please refer to C13.01;Function: Select the second Boolean (“TRUE or FALSE”) input for the

selected logic rule.

C13.43 Function Description Range Unit Default SettingLogic Rule Operator 2 0~8 0

Array: [4];Option: [0] Disabled, ignoring C13.44;

[1] AND, evaluates the expression [C13.40/C13.42] AND [C13.44];[2] OR, evaluates the expression [C13.40/C13.42] OR [C13.44];[3] AND NOT, evaluates the expression [C13.40/C13.42] AND NOT [C13.44];[4] OR NOT, evaluates the expression [C13.40/C13.42] OR NOT [C13.44];[5] NOT AND, evaluates the expression NOT [C13.40/C13.42] AND [C13.44];[6] NOT OR, evaluates the expression NOT [C13.40/C13.42] OR [C13.44];[7] NOT AND NOT, evaluates the expression NOT [C13.40/C13.42]AND NOT [C13.44];[8] NOT OR NOT, evaluates the expression NOT [C13.40/C13.42] OR NOT [C13.44];

Function: Select the second logic operator to be used on the boolean input calculated in C13.40 Logic Rule Boolean 1、 C13.42 Logic Rule Operator 1 and C13.43 Logic Rule Boolean 2 and the boolean input coming f rom C13.44 Logic Rule Boolean 3.

[3] And NOT, evaluates the expression [C13.40] AND NOT[C13.42];[4] OR NOT, evaluates the expression [C13.40] OR NOT [C13.42];[5] NOT AND, evaluates the expression NOT [C13.40] AND [C13.42];[6] NOT OR, evaluates the expression NOT [C13.40] OR [C13.42];[7] NOT AND NOT, evaluates the expressionNOT [C13.40] AND NOT [C13.42];[8] NOT OR NOT, evaluates the expression NOT [C13.40] OR NOT [C13.42];

Function: Select the first logic operator to be used on the boolean inputs f rom C13.40 Logic Rule Boolean 1and C13.42 Logic Rule Boolean 2.

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C13.44 Function Description Range Unit Default SettingLogic Rule Boolean 3 0~64 0

Array: [4];Option: Please refer to C13.01;Function: Select the third boolean (“TRUE or FALSE”) input for the selected

logic rule.

C13.51 Function Description Range Unit Default SettingSimple PLC Event 0~64 0

Array: [30];Option: Please refer to C13.01;Function: Select the boolean input to define the Simple PLC event.

C13.52 Function Description Range Unit Default SettingSimple PLC Action 0~69 0

Array: [30];Option: [0] Disabled, f unction is disabled;

[1] No action, no action is operated;[2] Select set-up 1, select set-up 1- changes the active set-up to “1”;[3] Select set-up 2, select set-up 2 — changes the active set-up to “2”;[10] Select preset ref 0;[11] Select preset ref 1;[12] Select preset ref 2;[13] Select preset ref 3;[14] Select preset ref 4;[15] Select preset ref 5;[16] Select preset ref 6;[17] Select preset ref 7;[18] Select ramp 1;[19] Select ramp 2;[20] Select ramp 3;[21] Select ramp 4;[22] Run, issues a start command to the f requency converter;[23] Run reverse, issues a start reverse command to the f requency converter;

C13.5* States

This group of parameter is used for setting evens or actions for Simple PLC.

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[24] Stop, issues a stop command to the f requency converter;[25] Qstop, issues a quick stop command to the f requency converter;[26] Dcstop, issues a DC stop command to the f requency converter;[27] Coast, the f requency converter coasts immediately, all stop commands including the coast command stop the f requency converter;[28] Freeze output, f reezes the output f requency of the f requency converter;[29] Start timer 0;[30] Start timer 1;[31] Start timer 2;[32] Set digital out DO1 low;[33] Set digital out DO2 low;[34] Set relay 1 low;[35] Set relay 2 low;[36] Set digital out DO3 low;[37] Set digital out DO4 low;[38] Set digital out DO1 high;[39] Set digital out DO2 high; [40] Set relay 1 high; [41] Set relay 2 high; [42] Set digital out DO3 high;[43] Set digital out DO4 high; [50] Select preset ref 8;[51] Select preset ref 9;[52] Select preset ref 10;[53] Select preset ref 11;[54] Select preset ref 12;[55] Select preset ref 13;[56] Select preset ref 14;[57] Select preset ref 15;[60] Reset counter A, reset counter A to “0”;[61] Reset counter B, reset counter B to “0”;[65] Start timer 3;[66] Start timer 4;[67] Start timer 5;[68] Start timer 6;[69] Start timer 7;

Function: Select the action corresponding to the Simple PLC events (C13.51). Actions are executed when the corresponding event is evaluated as true.

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C14.01 Function Description Range Unit Default SettingSwitching Frequency 0~10 4

Option: [2] — [6] 2-6kHz;[7] 8kHz;[8] 10kHz;[9] 12kHz;[10] 16kHz;

Description of choice: Switching f requency of the f requency converter has a signif icant inf luence to the inverter and the motor. Select appropriate switch f requency can help to adjust acoustic noise f rom the motor、 power consumption and the inverter ef ficiency. When switching f requency increases, the consumption and the noise of the motor are reduced, but the drive’s temperature will increase, and motor leakage and the interference to the external device will increase; the contrary the opposite.

*C14.03 Function Description Range Unit Default SettingOvermodulation 0~1 1

Option: [0] Off, Disable the overmodulation f unction to avoid torque ripple on the motor shaf t;

[1] On, Connects the overmodulation f unction to obtain an output voltage up to 15% greater than mains voltage;

Function: This feature allows more accurate speed control near and over normal speed (50/60HZ). Another advantage with overmodulation is the ability of staying at a constant speed even though mains fault occurs.

C14.08 Function Description Range Unit Default SettingDamping Gain Factor 0~200 % 96

Function: Damping gain factor can help to improve the response speed of the DC link of the f requency converter making the DC loop signal more smooth.

6.11 Parameter Group 14: Special Functions

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C14.12 Function Description Range Unit Default SettingFunction at Mains Imbanlance 0~3 0

C14.16 Function Description Range Unit Default SettingLow Voltage Mode 0~1 0

Option: [0] Trip, f requency converter trips;[1] Warning, f requency converter issues a warning (but continues to run);[2] Disabled, no action is taken;

Function: Select actions when a severe mains imbalance is detected.

Option: [0] Disable;[1] Enable;

Function: When the power input voltage is low, enable low voltage mode can improve load capacity. When the voltage is 15% lower, enable low voltage mode can make the inverter long-term f ull load; When the voltage is 20% lower, the inverter needs to drop load work; When the voltage is normal, do not enable the low voltage mode, otherwise it will reduce the machine usef ul life.

C14.1* Mains On/Off

C14.21 Function Description Range Unit Default SettingAutomatic Restart Time 0~600 s 10

C14.20 Function Description Range Unit Default SettingReset Mode 0~13 0

Option: [0] Manual reset, perform reset via [reset]-button or digital inputs; [1] — [10] Auto reset 1-10, can perform 1-10 automatic resets af ter trips;[11] Auto reset11, can perform 15 automatic resets af ter trips;[12] Auto reset12, can perform 20 automatic resets af ter trips;[13] Infinite auto reset, can perform an infinite number of automatic resets af ter tripping;

Function: Select reset f unction af ter tripping. Once auto reset is selected, the f requency converter will be restarted af ter an alarm. If reset have been done and the running signal is active, f requency converter will restart automatically.

Attention: If the auto reset mode is selected, the f requency converter may possibly restart automatically af ter the alarm disappear.

C14.2* Trip Reset

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C14.27 Function Description Range Unit Default SettingAction At Inverter Fault 0~1 0

Option: [0] Trip, inverter trips if it detects an inverter fault;[1] Warning, inverter issues an alarm if it detects an inverter fault;

Function: Select how the inverter should react at inerter fault (output short circuit, over-current, earth fault or over-voltage).

Description of choice: If [0] is selected, the inverter issues an warning and trips immediately if it detects an inverter fault; If [1] is selected, when an inverter fault occurs, the inverter issues an warning and stops the PWM outputs, and repeatlly try to open the normal PWM, if the fault still can’t be removed, the inverter issues an warning and trips.

C14.3* Current Limit Control

Function: Enter time interval f rom trip to start of automatic reset f unction af ter a warning/alarm.

Description of Choice: This parameter is active when C14.20, Auto Reset, is set to Automatic reset [1]-[13].

C14.22 Function Description Range Unit Default SettingOperation Mode 0~4 0

C14.23 Function Description Range Unit Default SettingTrip lock 0~1 0

Option: [0] Normal operation;[2] Initialization, initialise all the parameters except information

about the inverter itself and the recorded parameters.[3] Backup user settings;[4] Recover user settings;

Function: Af ter modif ying the inverter parameters based on the f unctional requirements, OEM manufacturers can set C14.22 = 3 to backup settings. If the end user modif y parameters and can not be self-recovery, it can be recovered by setting C14.22 = 4 or pressing «OFF» key on LCP 5 seconds.

Option: [0] Disable, Trip lock fault reset do not need power off[1] Enable, Trip lock fault reset need power off

The driver contains a current limit controller. The controller will be enabled when the current is over C04.18 current limit.

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*C14.40 Function Description Range Unit Default SettingVT Level 40~90 % 90

Function: Selection of a proper value reduces energy loss in the motor.

*C14.41 Function Description Range Unit Default SettingAEO Min. Magnetisation 40~75 % 66

Function: Enter the minimum allowable magnetization for AEO, selection of a low value reduces energy loss in the motor, but can also reduce resistance to sudden load changes, and the output power increases.

C14.4* Energy Optimising

C14.30 Function Description Range Unit Default SettingCurrent Controller Proportional Gain 0~500 % 100

C14.31 Function Description Range Unit Default SettingCurrent Controller Integration Time 0~2 S 0.02

C14.32 Function Description Range Unit Default SettingCurrent Controller Proportional Gain 0~100 ms 1

Function: Current Controller Proportional Gain, choose a higher value causes the controller response more quickly, but too high will cause the controller unstable.

Function: Current Controller Integration Time, the lower the value setting, the more rapid reaction of the torque limit controller, but too low setting will cause the control not stable.

When the current limit is reached during motor or generator work, the inverter will try to reduce current below limit as soon as possible while not losing the control of the motor.

When the controller is enabled, the inverter can only be stopped by setting a digital input to coast or coast and reset (inverse). Unless the inverter is no longer near the current limit, otherwise any signal on C05.10-C05.15 terminal will be invalid.

When use digital terminal which is set to coast or coast and reset (inverse) f unction, the motor will not stop according to ramp time. so if need quick stop, please use external electro-mechanical braking system.

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*C14.55 Function Description Range Unit Default SettingOutput Filter 0~3 0

Option: [0] Off;[1] Sine-wave filter;[3] Sine-wave filter with feedback;

Function: Select desired output filter.

*C14.50 Function Description Range Unit Default Setting

RFI Filter Switch 0~2 1

*C14.51 Function Description Range Unit Default Setting

DC-LinkVoltage Compensation 0~1 1

*C14.52 Function Description Range Unit Default Setting

Fan Control 0~8 0

Option: [0] Off, Only the power supply is IT mains system can select [0] Off. In this mode, the linkage can be reduced.;[1] On, To ensure the inverter meets EMC standards, select [1] On; [2] Reserved;

Option: [0] Disable;[1] Enable;

Function: This f unction ensures the output voltage is independent of any voltage f luctuations in the DC link . Low torque ripple. In some cases, this dynamic compensation may cause resonance problems in DC link circuit and then this f unction should be disabled.

Option: [0] Auto run. The f an will r un normally when the internal temperature is between 40℃ and 55℃; The fan will run in

low speed below 40℃; The fan will run in f ull speed above 55℃;[4] Run in low temperature, the inverter will not report low

temperature alarm in this mode; [5-8] Reserved;

C14.5* DC Voltage Compensation

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*C14.63 Function Description Range Unit Default SettingMin. Switching Frequency 2~10 KHz 2

Option: [2] — [6] 2-6kHz;[7] 8kHz;[8] 10kHz;[9] 12 kHz;[10] 16 kHz;

Function: Enter the minimum switching f requency.

C14.6* Min. Switching Frequency

C15.00 Function Description Range Unit Default SettingOperating Days 0~9999 d

Function: View how many days the drive has run. The value is saved automatically at power off and can’t be reset.

C15.01 Function Description Range Unit Default SettingRunning Hours 0~60000 h

Function: View how many hours the motor has run. Reset the counter in C15.07 Reset Kwh Counter.

C15.02 Function Description Range Unit Default SettingKWh Counter (kW) 0~65535 KW

Function: View the power consumption f rom mains in Kwh as a mean value over one hour. Reset the counter in C15.06.

C15.0* Operating Data

6.12 Parameter Group 15: Drive Information

C15.03 Function Description Range Unit Default SettingPower Up’s 0~2147483647

Function: View the number of times the drive has been powered up. This parameter can’t be reset.

C15.04 Function Description Range Unit Default SettingOver Temperatures 0~65535

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C15.05 Function Description Range Unit Default SettingOver Voltages 0~65535

Function: view the number of drive overvoltages that have occurred. This parameter can’t be reset.

C15.06 Function Description Range Unit Default SettingReset Kwh Counter 0~1

Option: [0] Do not reset;[1] Reset counter, Counter is reset;

Attention: This parameter can’t be set via local bus.

C15.07 Function Description Range Unit Default Setting

Reset Running Hours Counter 0~1

Option: [0] Do not reset;[1] Reset conuter Counter is reset;

Attention: This parameter can not be set via local bus.

C15.30 Function Description Range Unit Default SettingFault Log:Error Code 0~255

Function: View the error code, and look up its meaning in chapter 10. This parameter group contains a fault log showing reasons for the ten latest trips.

C15.3* Fault Log

C15.31 Function Description Range Unit Default SettingInternal Fault Reason -32767~32767

Function: This parameter contains internal fault reasons, mostly used in combination with alarm 38.

C15.4*、 C15.5*Drive Identification

This parameter contains read only information about the hardware and sof tware configuration of the f requency converter.

Function: View the number of the drive temperature f aults that have occurred. This parameter can’t be reset.

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C15.40 Function Description Range Unit Default SettingFC Type 0~255

Description of Choice: View FC Type.

C15.41 Function Description Range Unit Default SettingPower Section 0~255

Description of Choice: View the power size of the f requency converter.

C15.42 Function Description Range Unit Default SettingVoltage 0~255

Description of Choice: View the voltage level corresponding to different type of drives.

C15.43 Function Description Range Unit Default SettingSoftware version 0~255

Description of Choice: View the sof tware version of the drive.

C15.44 Function Description Range Unit Default SettingOrdered Type Code 0~255

Description of Choice: View the ordered type code of the drive.

C15.46 Function Description Range Unit Default SettingFC ordering No. 0~255

C15.47 Function Description Range Unit Default SettingPower Card Ordering No.

Description of Choice: View ordering number of the power card.

C15.48 Function Description Range Unit Default SettingLCP IDNo.

Description of Choice: View LCP ID number.

C15.49 Function Description Range Unit Default SettingSoftware ID Control Card

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C15.50 Function Description Range Unit Default SettingSoftware ID Power Card

Description of Choice: View the power card ID number.

C15.51 Function Description Range Unit Default SettingFC Serial Number

Description of Choice: View the drives serial number.

C15.53 Function Description Range Unit Default SettingPower Card Serial Number

Description of Choice: View power card serial number.

C15.92 Function Description Range Unit Default SettingParameter List 0~255

Function: View drive parameters that has been defined.

C15.5* Defined parameters

Description of Choice: View the control card ID number.

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C16.01 Function Description Range Unit Default Setting

Reference -4999.000~4999.000 d

C16.00 Function Description Range Unit Default SettingControl Word 0~65535 d

Function: View latest valid control word that sent to f requency converter via local bus. Turn it into 16-bit binary code, the following table shows the meaning of corresponding bits:

Function: View the total remote reference, the total reference is sum of pulse, analog, preset, LCP Potmeter, local bus and f reeze reference.

C16.0* General Status

6.13 Parameter Group 16: Data ReadoutsThis parameter group is read-only.

Communication Control Wordbit 0 1

bit00 Preset Reference bit0 Preset Reference bit0bit01 Preset Reference bit1 Preset Reference bit1bit02 DC Brake Rampbit03 Coasting Not Coastingbit04 Quick-Stop Rampbit05 Freeze Output Rampbit06 Stop Startbit07 No Function Resetbit08 No f unction Joggingbit09 Ramp 0 Ramp 0bit10 Data is invalid Data is validbit11 Relay 01 is on Relay 01 actsbit12 Relay 02 is on Relay 02 actsbit13 Set-up selection bit0 Set-up selection bit0bit14 Undefined Definebit15 No Function Reversing

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C16.02 Function Description Range Unit Default SettingReference (%) -200.0~200.0 %

Function: View total remote reference in percentage, the total reference is sum of pulse, analog, preset, LCP Potmeter, local bus and f reeze reference.

C16.03 Function Description Range Unit Default SettingStatus Word 0~65535 %

Function: View active status word, the following shows the def inition for each bit.

C16.04 Function Description Range Unit Default SettingActive Set-up 0~2 %

Function: View the drive active set-up. Select 0 indicates set-up 1, Select 1 indicates set-up 2, and select 2 indicates multi-set-up.

Communication Status Wordbit 0 1

bit00 Control not ready Control Readybit01 Drive not ready Drive readybit02 Coasting Enabledbit03 No Error Tripbit04 Error Error without tripbit05 Undefined Undefinedbit06 No Error Tripbit07 No Warning Warningbit08 Not on reference On referencebit09 Local Control Remote Controlbit10 Frequency not in range Frequency in rangebit11 Stop Runningbit12 Brake resistor is normal Brake resistor faultbit13 Voltage limit Out of voltage limitbit14 Undefined Undefinedbit15 No terminal warning Terminal warning

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C16.05 Function Description Range Unit Default SettingMotor Speed [RPM] 0~9999 Hz

Function: View motor speed.

C16.09 Function Description Range Unit Default SettingCustom Readout 0.000~9999.00

Function: View the value of user-def ined readout corrected f rom C00.31、C00.32 and C04.14.

For instance: In order to accurately show the motor speed, you need to adjust C00.32 or C04.14 with the following correspondence: C00.32/C04.14=C01.25/C01.20.

C16.10 Function Description Range Unit Default SettingPower(kW) 0.000~1000.000 kW

Function: View output power in KW.

C16.11 Function Description Range Unit Default SettingPower(Hp) 0.000~1000.00 Hp

Function: View output power in HP, 1HP=0.75KW.

C16.12 Function Description Range Unit Default SettingMotor Voltage 0~65535 V

Function: View motor phase voltage.

C16.13 Function Description Range Unit Default SettingFrequency 0.0~400.0 Hz

Function: View output f requency.

C16.14 Function Description Range Unit Default SettingMotor Current 0.00~655.35 A

Function: View motor phase current.

C16.1* Motor Status

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C16.15 Function Description Range Unit Default SettingFrequency(%) 0.0~200.0 %

Function: View actual output f requency that is set in percentage.

C16.18 Function Description Range Unit Default SettingMotor Thermal 0~100 %

Function: View calculated thermal motor load which is set as percentage of estimated thermal motor load.

C16.30 Function Description Range Unit Default SettingDC Link Voltage 0~65535 V

Function: View DC-link voltage.

C16.34 Function Description Range Unit Default SettingInverter Temp. 0~255 ℃

Function: View the temperature of drive’s heatsink.

C16.35 Function Description Range Unit Default SettingInverter Thermal 0~255 %

Function: View calculated inverter thermal load, which is set as a percentage of estimated inverter thermal load.

C16.36 Function Description Range Unit Default SettingInv. Nom. Current 0.00~655.35 A

Function: View the inverter nominal Current.

C16.37 Function Description Range Unit Default SettingInv.Max. Current 0.00~655.35 A

Function: View intermittent maximum inverter current.

C16.38 Function Description Range Unit Default SettingSimple PLC State 0~255

Function: View the state of the event under execution by the SL Controller.

C16.3* Drive Status

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C16.52 Function Description Range Unit Default Setting

Feedback -4999.000~4999.000

Function: View sum of all external references in percent.

C16.40 Function Description Range Unit Default SettingWobble Length 0.000~60.000 Km

C16.4* Application Message

C16.50 Function Description Range Unit Default SettingExternal Reference -200.0~200.0 %

Function: View actual pulse input converted to a reference in percent.

C16.51 Function Description Range Unit Default SettingPulse Reference -200.0~200.0 %

Function: View analog or pulse feedback in HZ.

C16.5* Ref./Feedb.

Function: View signal states f rom active digital inputs, which indicates in a 16-bit binary code. If the drive detects digital input terminals connected, the corresponding position is set to “1”, otherwise “0”. Digital input terminal and the corresponding relationship between the binary code are as below:

C16.60 Function Description Range Unit Default SettingDigital Input 0~65535

C16.6*、 C16.7* Inputs and Outputs

Binary Term. No. Binary Term.

No. Binary Term. No. Binary Term. No.

bit0 FOR bit4 DI3 bit8 DI7 bit12 Reservedbit1 REV bit5 DI4 bit9 DI8 bit13 Reservedbit2 DI1 bit6 DI5 bit10 Reserved bit14 Reservedbit3 DI2 bit7 DI6 bit11 Reserved bit15 Reserved

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Option: [0]: 0-20mA;[1]: 0-10V;

Function: View actual state of analog input VI.

C16.61 Function Description Range Unit Default SettingTerminal VI Setting 0~1

Function: View actual input voltage or current value on analog input VI.

C16.62 Function Description Range Unit Default SettingAnalog Input VI 0.00~20.00 V/mA

Option: [0]: 0-20mA;[1]: 0-10V;

Function: View actual state of analog input AI.

C16.63 Function Description Range Unit Default SettingTerminal AI Setting 0~1

Function: View actual input voltage or current on analog input AI.

C16.64 Function Description Range Unit Default Setting Analog Input AI 0.00~20.00 V/mA

Function: View actual output voltage or current on analog output AO.

C16.65 Function Description Range Unit Default SettingAnalog Output AO 0.00~20.00 V/mA

Function: View actual state of digital output, which indicates in a 4-bit binary code; If the digital output terminal is active, the corresponding position is set to “1”, otherwise “0”. Corresponding relationship between state of the digital output terminals and the binary code are as below:

C16.66 Function Description Range Unit Default SettingDigital Output 0~255 V/mA

Binary bit3 bit2 bit1 bit0Term. No. Reserved DO3 DO2 DO1

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C16.67 Function Description Range Unit Default Setting

Encoder input -9999.000~9999.000 Hz

Function: View input f requency on pulse input terminal DI4

C16.68 Function Description Range Unit Default SettingPulse Input DI4 0.020~50.000 KHz

Function: View output value on pulse output terminal DO1.

C16.69 Function Description Range Unit Default SettingPulse Output DO1 0.020~50.000 KHz

Function: View the output status of the relay, the corresponding bit is set to “1”when the relay output is active, otherwise it will be set to “0”.

C16.71 Function Description Range Unit Default SettingRelay Output 0~65535

Function: View present value of counter A .

C16.72 Function Description Range Unit Default SettingCounter A 0~2147483647

Function: View present value of counter B .

C16.73 Function Description Range Unit Default SettingCounter B 0~2147483647

Function: View output current in analog output AO .

C16.78 Function Description Range Unit Default SettingAnalog Output AO 0.00~20.00 mA

Function: View actual input on Encoder input terminal.

Binary bit1 bit0Item. No. Relay 2 Relay 1

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Function: View the last received reference f rom the FC port.

C16.86 Function Description Range Unit Default SettingFC Port Reference -32768~32767

C16.8* Field bus/FC Port

Function: View the alarm word sent via the serial communication port in hex code. Convert this parameter to a 32-bit binary code, definition of the bits in alarm word showed in the table below, among which that reserved by manufacturers are undefined bits:

C16.90 Function Description Range Unit Default Setting

Alarm Word 0~0xFFFFFFFFUL

C16.9* Diagnosis Readouts

Binary Alarm Word /C16.90

Alarm Word 2/C16.91

Warning Word/C16.92

Warning Word 2/C16.93

0 Brake detect Undefined Undefined Undefined

1 Power Card over Temp. Undefined Power Card

over Temp. Undefined

2 Earth Fault Trip Earth Fault Undefined3 Reserve Option part Undefined Undefined

4 Control Card Temp Undefined Control Card

Temp Undefined

5 Over Current Undefined Over Current Undefined6 Torque Limit Undefined Undefined Undefined

7 Motor Over Thermal Undefined Motor Over

Thermal Undefined

8 Motor Over ETR Damaged part Motor Over

ETR Damaged part

9 Inverter Overload Undefined Inverter

Overload Undefined

10 DC Under Volt Undefined DC Under Volt Undefined11 DC Over Volt Undefined DC Over Volt Undefined

12 Short Circuit External Interlock Undefined Undefined

13 Undefined Undefined Undefined Undefined14 Mains ph. loss Undefined Mains ph. loss Undefined15 AMA Error Undefined No motor Undefined

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C16.91 Function Description Range Unit Default Setting

Alarm Word 2 0~0xFFFFFFFFUF

Function: View the Alarm Word sent via serial communication port in hex code.

C16.92 Function Description Range Unit Default Setting

Warning Word 1 0~0x7FFFFFFFUF

Function: View the Warning Word 1 sent via serial communication port in hex code.

Binary Alarm Word /C16.90

Alarm Word 2/C16.91

Warning Word/C16.92

Warning Word 2/C16.93

16 Live zero error Undefined Live zero error Undefined17 Internal Fault Undefined Undefined Undefined18 Brake overload Fan Fault Brake overload Fan Fault19 U phase loss Undefined Undefined Undefined20 V phase loss Undefined Undefined Undefined21 W phase loss Undefined Undefined Undefined22 Undefined Undefined Undefined Undefined

23 Control Voltage Fault Undefined Undefined Undefined

24 Undefined Undefined VDD Supply Low Undefined

25 VDD Supply Low Undefined Current Limit Undefined

26 Brake resistor error Undefined Undefined Undefined

27 Brake transistor fault Undefined Undefined Undefined

28 Bake transistor open circuit Undefined Undefined Undefined

29 Drive initialize Feedback error Undefined Feedback error30 Undefined Undefined Overload DO1 Undefined

31 Mech. Brake low Undefined Overload DO2 Undefined

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C16.93 Function Description Range Unit Default Setting

Warning Word 2 0~0x7FFFFFFFUF

Function: View Warning Word 2 sent via serial communication port in hex code.

C25.00 Function Description Range Unit Default SettingCascade Mode 0~1 0

Option: [0] Normal Cascade, Applicable for general cascade;[1] Water Level Control, Standby pressure will be carried out to use when pool level exceeds the upper or lower water level limit.

C25.03 Function Description Range Unit Default SettingFixed speed Pump Number 0~2 0

Function: In cascade controller, one inverter can control multiple pumps. Through the output switch signal, the auxiliary pump are assigned to start and stop.

C25.0* Cascade Control Mode

C25.10 Function Description Range Unit Default SettingMulti Pressure Selection 0~1 0

Option: [0]Disable;[1] Multi pressure;

Function: In cascade, the pressure reference can be dif ferently at dif ferent time to meet various application requirments. If this parameter is set to “0”, the target pressure is the pressure setting for T0 period.

C25.11 Function Description Range Unit Default SettingPreset Time 0.00~23.59 h 0.00

Option: Choose dif ferent pressure reference at dif ferent times in cascade control systems, the active time need to be set.

Attention: If the FC powers off, this parameter needs setting again.

C25.1* Pressure Setting

6.14 Parameter Group 25: App. Functions Cascade

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C25.20 Function Description Range Unit Default Setting

Cascade Low Frequency 0.000~400.000 Hz 20.000

Function: In cascade control systems, due to less consumption, the inverter output f requency is low, when output f requency is below the “cascade low f requency” and it lasts more than “low f requency delay time”, the corresponding multi-f unction terminals (relay) acts, auxiliary pump is stopped.

C25.21 Function Description Range Unit Default Setting

Low Frequency Delay Time 0.0~3600.0 s 20.0

Function: This parameter used together with “Cascade Low Frequency”.

C25.2* Cascade Frequency

C25.12 Function Description Range Unit Default SettingMulti Pressure Time 0.00~23.59 h 0.00

Function: This is an array parameter, and it can set up to 6 time-integral.T0 Set range: 0.00 – 23.59 Default setting: 0.00T1- T5 Set range: 0.00 – 23.59 Default setting: 23.59

Up to 6 set points corresponding to the 6 time-integral can be set as follows:

Attention: 1、 This rule must be followed: T0≤ T1 ≤ T2≤ T3 ≤ T4 ≤ T5.2、 If Tx = T(x+1) (x = 1, 2, 3, 4, 5), T(x+1) is invalid.3、 If multi-pressure selection(C25.10) is disabled, use the pressure setting set in C03.10[1] , where the current using pressure can be displayed.

Time Set PointT0-T1 C03.10[1]T1-T2 C03.10[2]T2-T3 C03.10[3]T3-T4 C03.10[4]T4-T5 C03.10[5]T5-T0 C03.10[6]

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C25.25 Function Description Range Unit Default Setting

Cascade High Frequency 0.000~400.000 Hz 50.000

Function: In cascade controller systems, due to larger amount of water consumption, the inverter output f requency is high, when the output f requency is higher than “High Speed Frequency”, and it lasts more than “High Speed Delay Time”, the corresponding multi junction moves, and auxiliary pump running.

C25.26 Function Description Range Unit Default Setting

High Freqency Delay Time 0.0~3600.0 s 20.0

Function: This parameter works together with “Cascade High Frequency”.

C25.30 Function Description Range Unit Default Setting

Low Pressure Warning Level 0.000~99.999 kg 3.000

Function: This parameter used to def ine the low pressure warning level, when the actual pressure is less than “Low Pressure Warning Level” and continues more than “Low Pressure Warning Delay Time”, low pressure occurs, multi-f unction terminals related acts.

C25.31 Function Description Range Unit Default Setting

Low Pressure Warning Delay Time 0.0~3600.0 s 10.0

Function: This parameter used in conjunction with “Low Pressure Warning Level”.

C25.32 Function Description Range Unit Default Setting

Recovery Low Pressure Level 0.000~99.999 kg 4.000

Function: when the actual pressure rise above “Recovery Low Pressure Level” and continue more than “Recovery Low Pressure Delay Time”, Low Pressure Warning is cancelled.

C25.3* Over/Low Pressure Setting

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C25.33 Function Description Range Unit Default SettingRecovery Low Pressure 0.0~3600.0 S 10.0

Function: This parameter used together with “Recovery Low Pressure Level” (C25.32).

C25.34 Function Description Range Unit Default Setting

Over Pressure Warning Level 0.000~99.999 kg 7.000

Function: This parameter used to define over-pressure warning level, when the actual pressure is less than “Over-pressure Warning Level”, and lasts more than “Over Pressure Warning Delay Time”, then, an Over Pressure Warning occurs, multi-f unction conjunction acts, the drive stops.

C25.35 Function Description Range Unit Default Setting

Over Pressure Warning Delay Time 0.0~3600.0 s 10.0

Function: This parameter should be used together with “Over Pressure Warning Level”.

C25.36 Function Description Range Unit Default Setting

Recovery High Pressure Level 0.000~99.999 kg 5.000

Function: When actual pressure rise above” Recovery High Pressure Level”, and it lasts longer than “Recovery High Pressure Delay Time”, then, over pressure warning is cancelled, the inverter starts to run.

C25.37 Function Description Range Unit Default Setting

Recovery High Pressure Delay Time 0.0~3600.0 s 10.0

Function: This parameter used in conjunction with “Recovery High Pressure Level”.

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C25.41 Function Description Range Unit Default Setting

Pump Continous Run Time 0.0~3600.0 h 12.0

Function: When only one of the two auxiliary pump running, in order to balance the two auxiliary pump run time, when one of the two lag pumps continues run time reach to the” Pump Continous Run Time”, the drive will switch to the other lag pump .

C25.40 Function Description Range Unit Default SettingPump Interlock Time 0.0~3600.0 s 5.0

Function: Set the interlock time of the two auxiliary pumps when they switch to each other.

C25.4* Pump InterLock

C25.50 Function Description Range Unit Default SettingSleep Mode 0~1 1

Option: [0]: Disable;[1]: Enable;

Function: If [0] is selected, the inverter can’t enter sleep mode.

C25.51 Function Description Range Unit Default SettingSleep Pressure Level 0~150.0 % 95.0

Function: Define the sleep pressure level of the main pump. Sleep Pressure = Target Pressure*Sleep Pressure Level.

C25.5* Sleep Mode

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C25.52 Function Description Range Unit Default SettingSleep Pressure Delay 0.0~300.0 s 20.0

Function: Def ine the sleep pressure duration before the main pump enter sleep mode.

C25.53 Function Description Range Unit Default SettingSleep Frequency 0.000~400.000 Hz 20.000

Function: Define the low f requency before the main pump go to sleep mode.

C25.57 Function Description Range Unit Default SettingAwake Level 0.0~150.0 % 80.0

Function: Set the pressure level f rom sleep mode to awake mode. Awake pressure=Set point*Sleep mode awake level.

C25.54 Function Description Range Unit Default Setting

Sleep Frequency Delay Time 0.0~300.0 s 20.0

Function: Set the sleep f requency duration before the main pump go to sleep mode.

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C25.60 Function Description Range Unit Default SettingPump Type Selection 0~1 0

Option: [0] Feed pump;[1] Draining pump;

Function: There are two kinds of water level control, one is used for feed pump, and the other is used for draining pump. the set point equals to normal set point setting when the water level between “low water level” and “high water level”; the set point equals to “standby pressure 2” when the water level between “scarcity water level” and “low water level”; the set point equals to “standby pressure 1” when the water level between “high water level” and “overrun water level”; the “overrun water level warning” happens when the water level above the “overrun water level”, and the lead pump will be stopped and all lag pumps will be destaged. The “overrun water level warning” will be recovered when the water level below the “low water level” and the cascade controller will be restated.When draining pump is used, the set point equals to normal set point setting when the water level between “low water level” and “high water level”; the set point equals to “standby pressure 1” when the water level between “scarcity water level” and “low water level”; the set point equals to “standby pressure 2” when the water level between “high water level” and “overrun water level”; the” scarcity water level warning” happens when the water level below the “scarcity water level”, and the lead pump will be stopped and all lag pumps will be destaged. The “scarcity water level warning” will be recovered when the water level above the “high water level” and the cascade controller will be restated

C25.61 Function Description Range Unit Default SettingWater Level Signal Source 0~8 0

Option: [0]: Digital input;[1]: VI;[2]: AI;[8]: Pulse input;

Function: Define the source of the water level signal.

C25.6* Water Level Control

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C25.62 Function Description Range Unit Default SettingScarcity Water Level 0~100 % 0

Function: Set the scarcity water level, the setting rang is f rom 0 to low water level. 100% corresponding to the pool water level at10V voltage.

C25.63 Function Description Range Unit Default SettingLow Water Level 0~100 % 0

Function: Set the low water level, the setting rang is f rom the scarcity water level to low water level. 100% corresponding to the water level at 10V voltage.

C25.64 Function Description Range Unit Default SettingHigh Warter Level 0~100 % 0

Function: Set the high water level, the setting rang is f rom low water level to high water level. 100% corresponding to the water level at 10V voltage.

C25.65 Function Description Range Unit Default SettingOverrun Water Level 0~100 % 0

Function: Set the overrun water level, the setting rang is f rom 0 to 100%, 100% corresponding to the water level at 10V voltage.

C25.66 Function Description Range Unit Default SettingStandby Pressure 1 0.000~99.999 kg 3.000

Function: To prevent the outlet pipe speed faster than the inlet pipe, leaving the water level rose too quickly into the pool, and even form over-voltage condition, so the pressure 1 is an alternative requirement to run.

C25.67 Function Description Range Unit Default SettingStandby Pressure 2 0.000~99.999 kg 7.000

Function: To prevent the velocity of the inlet pipe is less than the outlet pipe, leaving the pool water level decreases too fast, and even form under-voltage condition, pressure 2 is an reserved requirement to run.

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C25.69 Function Description Range Unit Default Setting

Water Level DI Delay Time 0~3600.0 s 20.0

C25.68 Function Description Range Unit Default SettingWater Level Dead Band 0~100 % 5

Function: When the “water level signal source” selects “Analog input” or “Pulse Input”, this parameter is used to prevent set point switch between normal set point and standby pressure too f requently. The deadband must be exit in “low water level” and “high water level”. When water level rises, the actual water level higher than water level(upper level, lower level etc.) plus the water level deadband, switch the running pressure; when the water level falls, the actual water level drops below the set level(upper level, lower level etc.) minus the water level deadband, switch the operating pressure.

Function: When “water level signal source” selects “Digital input”, this parameter is used to prevent set point switch between normal set point and standby pressure too f requently . The set point switches when switch signal lasts water level DI delay time.

C25.80 Function Description Range Unit Default SettingAlarm Handl Selection 0~3 0

Option: [0]: Stop all;[1]: Lag pump 1 Running;[2]: Lag pump 2 Running;[3]: Lag pump 1、 2 Running;

Function: Set action of the auxiliary pump when drive fault occurs.

C25.8* Fault Handle

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Option: [0]Auto;[1]: Manul;

Function: If [0] is selected, dirve must stay at dwell stage for a period of dwell time if no wobble cycle start command, but if wobble cycle start command occurs (lantched input type can be accepted also), dwell stage will end; If [1] is selected, dwell stage will end when wobble cycle start command issued, and if wobble cycle start command

Wobble f unction is generally divided into wobble cycle with f ixed center f requency、 wobble cycle with auto decreased center f requency and wobble random three ways. In any mode, we can set the delta、 jump f requency、 jump time、 wobble start mode、 wobble time、 wobble stage store mode、 dwell f requency and dwell time. In addition, there are two setting modes for delta, one is relative to center f requency, because center f requency can be set to Auto decrease, in this case, the delta is automatically reduced. The other is relative to motor speed high limit.

C30.00 Function Description Range Unit Default SettingWobble Start Mode 0~1 0

C30.0* Wobble Mode

6.15 Parameter Group 30: App. Functions Wobble

Before wobble cycle starts, drive will ramp to center f requency(see C30.12) according to active ramp time if start command issued. During ramping, if dwell f requency (refer to C30.01)reached, ramp up stage will be interrupted and dirve will go to dwell stage. Af ter dwell stage ended, drive will go back to ramp stage and continue to ramp to center f requency. Af ter center f requency reached, drive will go to wobble cycle stage.

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disappeared, drive will ramp to dwell stage and wait for wobble cycle start command to end dwell stage. In auto mode, there are running on center f requency and running on dwell f requency two ways to select for wobble reset. But in manul mode, only running on center f requency can be achieved .

Function: During dwell stage, the drive will run on this f requency, until when wobble cycle start command issued or dwell time has been used up.

C30.01 Function Description Range Unit Default SettingDwell Frequency 0.000-200.000 Hz 0.000

Function: When wobble start mode selecte Auto[0](C30.00=0), the drive runs on dwell f requency(C30.01=0) in the period of the time set in this parameter.

C30.02 Function Description Range Unit Default SettingDwell Time 0.0~3600.0 s 0.0

C30.10 Function Description Range Unit Default SettingCentre Frequency Rate 0.000~30.000 Hz 0.500

Function: When Center Frequency Mode select Auto Dcrease[1](C30.12=1), this parameter used to set the dcrease rate for center f requency. And the center f requency can be defined via analog input、 preset reference or local bus.

C30.12 Function Description Range Unit Default SettingCentre Frequency Mode 0~1 0

Option: [0]: Fixed, center f requency is unchangable ;[1]: Auto Decrease, center f requency of auto decrement.

Function: If [1] is selected, center f requency will decrease by the “Center

C30.11 Function Description Range Unit Default Setting

Centre Frequency Low Limit 0.000~200.000 Hz 10.000

Function: When Center Frequency Mode select Auto Dcrease[1](C30.12=1), this parameter used to set the low limit of the center f requency.

C30.1* Wobble Cycle

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C30.13 Function Description Range Unit Default Setting Delta Frequency Mode 0~1 0

Option: [0]: Relative to speed high; [1]: Relative to center f requency; delta can change with the center f requency. The relative percentage will be set in C30.14.

Function: If [0] is selected, f delta =Delta Frequency Percentage*Motor Speed High Limit/100; If [1] is selected, f delta =Delta Frequency Percentage*Center Frequency/100.

C30.14 Function Description Range Unit Default SettingDelta Frequency Percentage 0~100 % 0

Function: Enter the value of the Delta Frequency Percentage.

C30.15 Function Description Range Unit Default SettingJump Frequency Percentage 0~100 % 0

Function: Enter value of the Jump Frequency Percentage. The jump f requency f jump =fdelta*Jump Frequency Percentage

C30.16 Function Description Range Unit Default SettingWobble Up Time 1.0~1000.0 s 10.0

Function: During the wobble cycle, this parameter used to set the time within which the drive ramp up to the wobble up (fcenter + fdelta) .

C30.17 Function Description Range Unit Default SettingWobble Jump Time 1~50 ms 1

Function: Set the jump time within which the drive ramp down by Jump Frequency .

C30.18 Function Description Range Unit Default SettingWobble Down Time 1.0~1000.0 s 10.0

Function: During the wobble cycle, this parameter used to set the time within which the drive ramp down to wobble down reference (fcenter — fdelta).

Frequency Decreasing Rate”(C30.10) till “Center Frequency Low Limit reached.When decreasing, there is no transition process, the drive runs directly under the new f requency.

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C30.20 Function Description Range Unit Default SettingRandom Function Mode 0~1 0

Option: [0] : Disable;[1] : Enable;

Function: If [0] is selected, wobble up time and wobble down time are not randomized.

If [1] is selected, the actual wobble up time(Tup) and wobble down time(Tdown)will be fluctuated by a random value in the way below:

tup = tup + f random * min(tup, tdown ) / 100.tdown = tdown — f random * min(tup, tdown ) / 100.

Frandom is a random value between maximum randomized wobble ratio and minimum randomized wobble ratio.

C30.21 Function Description Range Unit Default SettingMax. Radom Ratio -20~20 % 10

Function: This parameter determines the maxmum wobble ratio which the random f unction is allowed to choose.

C30.22 Function Description Range Unit Default SettingMin. Radom Ratio -20~20 % -10

Function: This parameter determines the minimum wobble ratio which the random f unction is allowed to choose .

C30.2* Wobble Random

C30.30 Function Description Range Unit Default SettingWobble Length Source 0~8 0

Option: [0]: Digital input, counter A is used as count source;[7]: Encoder input, encoder input is used as count source;[8]: Pulse input, pulse input is used as count source;

Function: This parameter is used to select wobble length source.

C30.31 Function Description Range Unit Default SettingCount Per Meter 0.01~600.00 1.00

Function: Wobble Length= (Digital input、 Encoder input or Pulse input)*Count per meter.

C30.3* Wobble Process Control

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C30.32 Function Description Range Unit Default SettingLength Setting 0.000~60.000 km 10.000

Function: When wobble length reaches to the value set in this parameter, Setting Length Reached Action becomes active.

C30.33 Function Description Range Unit Default SettingLength Reach Mode 0~1 0

Option: [0] : No action;[1]: Stop, the drive stops.

Function: If setting length reached, one of the selection in this parameter will be operated.

C30.38 Function Description Range Unit Default SettingWobble Restore Mode 0~1 0

Option: [0]: Dcenter stage; [1]: Dwell stage;

Function: When Auto is selected as Wobble cycle start mode (C30.00=0), if [0] is selected, drive will ramp to centre f requency according to active ramp time if wobble restore command is active; If [1] is selected, drive will ramp to dwell f requency according to active ramp time if wobble restore command is active; When Manuel is selected as Wobble cycle start mode(C30.00=1), if wobble restore command is active, drive will ramp to centre f requency according to active ramp time.

C30.39 Function Description Range Unit Default SettingWobble Stage Store 0~3 0

Option: [0]: Disable;[1]: Power stop save;[2]: Power saves;[3]: Stop saves;

Function: This parameter is used to select in which way the wobble f unction saves the information.

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Chapter 7 Quick Application Guide

7.1 Motor Parameter Adaption

7.2 Using LCP to control the drive [HAND]

1. Parameter initialization. (C14.22 =2);2. Resboot the drive;3. Enter motor nameplate data to C01.20 to C01.25.4. Choose option [2] of C01.29 to enable AMA.5. Press “HAND” via LCP or apply start signal via “FOR” terminal in

remote control mode to enable AMA, -AT- will be displayed. 6. Wait for the LCP displays “PUSH ENT”, press “ENTER”key, AMA

complet.Description: AMA doesn’t need to rotate motor. Measurements are stored in

C01.30, C01.33, and C01.35.

1. Parameter initialization (C14.22=2);2. Reboot the drive;3. Frequency source: Use potentiometer to set the f requency for LCP

with pot;Use UP/DOWN key ( ) to set the f requency

for LCP without pot;4. Press “HAND” key on LCP to start the f requency converter.5. Press“OFF/RESET”key on LCP to stop the f requency converter;

Note: Control panel potentiometer is used as the only source of the f requency conver ter in HAND mode. (For LCP without potentiometer, use ar row key to set the f requency); Set the lower or upper potentiometer limit via C06.81 and C06.82.

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7.3 Using digital in terminals to control the drive [AUTO]

7.4 Set-up selection

1. Parameter initialization (C14.22=2);2. Press “AUTO” key on LCP (Digital control and communication control

are only active in auto mode);3. Frequency source: Preset C03.10 or select f requency source by C03.15、

C03.16、 C03.17;4. Connect digital input terminal FOR and VDD to operate the f requency

convert;5. Disconnect the digital input terminal FOR and VDD to stop the

f requency converter.

Select the menu with digital input DI1:

Par. Code Reference Parameter DescriptionC00.10 9 Multi Set-upC05.13 23 Set-up select

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7.5 Potentiometer reference

7.6 Connect two-wire transductor to terminal AI

Par. Code Reference Parameter DescriptionC03.15 1 Reference resource 1C06.14 ** Terminal VI Low ReferenceC06.15 ** Terminal VI High Reference

Note: **indicates this parameter is set according to the actual situation.

Note: **indicates this parameter is set according to the actual situation.

Par. Code Reference Parameter DescriptionC01.00 3 Process closed loop C07.20 2 Select Analog In AIC06.24 ** Terminal AI Low Ref./Feedb. valueC06.25 ** Terminal AI high Ref. / Feedb. value

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7.7 Reference for pulse input

7.8 Multi-speed

Par. Code Reference Parameter DescriptionC03.15 8 Select referenceC07.20 8 Select feedback valueC05.15 32 Reference/feedback resource

Par. Code Reference Parameter DescriptionC05.12 15 Preset reference bit0C05.13 16 Preset reference bit1C05.14 17 Preset reference bit2C05.15 18 Preset reference bit3

COM

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Correspondence between speed and the binary code as below:

bit3 bit2 bit1 bit0 -Speed0 0 0 0 10 0 0 1 20 0 1 0 30 0 1 1 40 1 0 0 50 1 0 1 60 1 1 0 70 1 1 1 81 0 0 0 91 0 0 1 101 0 1 0 111 0 1 1 121 1 0 0 131 1 0 1 141 1 1 0 151 1 1 1 16

7.9 Speed up/down

Par. Code Reference Parameter DescriptionC05.12 34 Ramp bit0C05.13 35 Ramp bit1

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Corresponding relation between ramp time and the binary code as below:

7.10 Pulse start/stop

7.11 Digital speed up/down

BIT1 BIT0 RAMP0 0 10 1 21 0 31 1 4

Par. Code Reference Parameter DescriptionC05.10 9 Lantched startC05.11 6 Stop inverse

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Par. Code Reference Parameter DescriptionC05.10 8 StartC05.11 19 Freeze ReferenceC05.12 21 Speed UpC05.13 22 Speed Down

7.12 Configuration Mode

There is a choice of the following configurations:1. Speed control, open loop;2. Process control, closed loop;3. Torque control, open loop;

Par. Code Reference Parameter DescriptionC01.00 1 Configuration ModeC05.70 ** Encoder per RevolutionC04.12 ** Motor Speed Low Limit[HZ]C04.14 ** Motor Speed High LimitC07.02 ** Speed PID Proportional GainC07.03 ** Speed PID Integral TimeC07.04 ** Speed PID Differentiation TimeC07.05 ** Speed PID Diff Gain TimeC07.06 ** Speed PID Low Pass TimeC07.08 ** Speed PID Feed forward Factor

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Parameter Code Reference Parameter DescriptionC01.00 3 ProcessControl, Closed LoopC07.20 Process CL Feedback ResourceC06.22 4mA Terminal AI Low CurrentC06.23 20mA Terminal AI High CurrentC06.24 ** Terminal AI Low Ref./ Feedb. ValueC06.25 ** Terminal AI High Ref./ Feedb. ValueC03.02 ** Minimum ReferenceC03.03 ** Maximum ReferenceC04.12 ** Motor Speed Low LimitC04.14 ** Motor Speed High LimitC07.33 ** Process Proportional GainC07.34 ** Process PI Integral TimeC07.38 ** Process PI Feed forward Factor

Note: **indicates this parameter is set according to the actual situation.

2. Select Process control, closed loop if the feedback signal is process amount such as pressure、 temperature etc. Use the build-in PI controller to keep the system stable state.

Feedback resource of Process closed loop: See C07.20:Example: In a compressor control system, using the potentiometer (0-

10V) to set the desired system pressure. Pressure adjustment range is 0-10KG, and the use of process closed-loop controller to maintain system pressure constant. PI control is positive, the system pressure to raise, the inverter f requency decreases. On the contrary, pressure drops, the drive f requency increases. Use 4-20mA corresponding to 0-10KG Pressure transmitter.

Note: **indicates this parameter is set according to the actual situation.

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7.13 Simple PLC

7.13.1 Order Execution

The following figure shows order execution mode of four events/actions:

Use order execution to achieve Eight-speed Internal Control Function :

Parameter Ref. Function Parameter Ref. Function

C03.10[0] 20 Preset reference 0 C13.20[0] 5 Timer 0 time

C03.10[1] -40 Preset reference 1 C13.20[1] 10 Timer 1 time

C03.10[2] 50 Preset reference 2 C13.20[2] 8 Timer 2 time

C03.10[3] 100 Preset reference 3 C13.20[3] 12 Timer 3 time

C03.10[4] -100 Preset reference 4 C13.20[4] 15 Timer 4 time

C03.10[5] -20 Preset reference 5 C13.20[5] 7 Timer 5 time

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Parameter Ref. Function Parameter Ref. Function

C03.10[6] 10 Preset reference 6 C13.20[6] 3 Timer 6 time

C03.10[7] 80 Preset reference 7 C13.20[7] 6 Timer 7 time

C03.40 0 Ramp 1 Type C03.50 0 Ramp 2 Type

C03.41 0.5Ramp 1

Ramp up Time

C03.51 3 Ramp 2 Ramp up Time

C03.42 0.5Ramp 1 Ramp

down TimeC03.52 3 Ramp 2 Ramp down

Time

C13.00 1 Order Execution C03.00 1 -Max-+Max

C13.51[0]

39

Start Command C13.52[0] 29 Start Timer 0

C13.51[1] Start Command C13.52[1] 10 Select Preset ref 0

C13.51[2] Start Command C13.52[2] 18 Select Ramp 1

C13.51[3]30

Simple PLC Time-

out 0

C13.52[3] 30 Start Timer 1C13.51[4] C13.52[4] 11 Select Preset ref 1C13.51[5] C13.52[5] 19 Select Ramp 2C13.51[6]

31Simple

PLC Time-out 1

C13.52[6] 31 Start Timer 2C13.51[7] C13.52[7] 12 Select Preset ref 2C13.51[8] C13.52[8] 20 Select Ramp 3C13.51[9]

32Simple

PLC Time-out 2

C13.52[9] 65 Start Timer 3C13.51[10] C13.52[10] 13 Select Preset ref 3C13.51[11] C13.52[11] 21 Select Ramp 4C13.51[12]

50Simple

PLC Time-out 3

C13.52[12] 66 Start Timer 4C13.51[13] C13.52[13] 14 Select Preset ref 4C13.51[14] C13.52[14] 18 Select Ramp 1C13.51[15]

51Simple

PLC Time-out 4

C13.52[15] 67 Start Timer 5C13.51[16] C13.52[16] 15 Select Preset ref 5C13.51[17] C13.52[17] 19 Select Ramp 2C13.51[18]

52Simple

PLC Time-out 5

C13.52[18] 68 Start Timer 6C13.51[19] C13.52[19] 16 Select Preset ref 6C13.51[20] C13.52[20] 20 Select Ramp 3

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7.13.2 Parallel ExecutionThe following figure shows parallel execution mode of four events/actions:

Example:1. Start eventC13.01 = [33] Enter the start event via digital input terminal FOR;C13.00) = [2] Simple PLC parallel control mode;C13.02= [20] the inverter issues an alarm and trips to stop.2. Event/Action:Event status 2(C13.51 [2]) = [34], entered via terminal REV;Event status 3 (C13.51 [3]) = [40], the drive stops in any way;Action 2(C13.52 [2]) = [22] If the REV input is true, then, start the drive;Action 3(C13.52 [3]) = [40] If the drive has stopped, reset counter A;Note: If event 2 is true, action 2 will be executed; if event 2 is false, but

considering terminals、 local bus excites the inverter to stop, action 3 will be executed.

3. Stop Event:If stop event /C13.02 is true, Simple PLC will be disabled, and C16.38 will

be reset to 0.

Parameter Ref. Function Parameter Ref. FunctionC13.51[21]

53Simple

PLC Time-out 6

C13.52[21] 69 Start Timer 7C13.51[22] C13.52[22] 17 Select Preset ref 7C13.51[23] C13.52[23] 21 Select Ramp 4

C13.51[24] 54Simple

PLC Time-out 7

C13.52[24] 1 No Action

If C13.52 [24] is set to “stop”, the internal control eight-speed will perform only one week, not cycles.

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Chapter 8 Accessory Specification

8.1 Braking ResistorWhen the motor acts as a generator, the braking resistor consumes surplus

energy resulting f rom motor braking to achieve fast stop. And to prevent the intermediate circuit voltage is too high to trip eventually.

Note: The braking resistor will be very hot, and will have a risk of fire, if the transistor in the braking unit is damaged and shorted. The installation length of the braking resistor should be not less than 5 meters.

Brake resistor (option):

ModelBraking Resistor Specification Suitable

Motor(KW)Model

Braking Resistor Specification

Suitable Motor(KW)

HLP-A100001143 40 1.8 11HLP-A100001543 30 2.8 15HLP-A10018D543 25 3.5 18.5HLP-A100002243 20 4 22HLP-A100003043 20 6 30HLP-A100003743 16 9.6 37HLP-A100004543 13.6 9.6 45HLP-A100005543 20 6 55HLP-A100007543 13.6 9.6 75HLP-A100009043 3.8 22 90HLP-A100011043 3.2 27 110HLP-A100013243 2.6 32 132HLP-A100016043 2.1 39 160HLP-A100018543 2.1 39 185HLP-A100020043 1.65 56 200HLP-A100022043 1.65 56 220

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63

95.7

63

95.7

63

95.7

8.2 LCP Mounting Kit

External LCP Communication Cable is network cable. Length should not exceed 15m. More than five types of shielded cable is recommended for use in the presence of electromagnetic interference environment.

An external LCP mounting kit is provided; users need to open a hole (size as shown below). The installation steps are as follows:

8.2.1 External LCP Communication Cable

8.2.2 Mounting steps

Step1: Open a hole in line with the size of the control panel in the position need to install the LCP, hole size, as shown:

Step 4: Install the external LCP communication cable, insert into RJ45 terminal f rom the bottom of hole.

Step 3: The LCP is installed in the cradle, according to the direction of the arrow.

63

95.7

This cradle is suitable for 1.0-2.0mm thickness sheet metal parts.

Press and hold the snap roots when installation, using buckle deformation install sheet metal.Step2: Install the LCP according tothe direction of the arrow.

Recommended to install vertical mounting position arrow, press with uniform force.

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Chapter 9 EMC

9.1 EMC–Correct InstallationHLP-A100 serials drive implement the latest international standards,

following these guidelines is advised, IEC/EN61800-3: 2004 (Adjustable speed electrical power drive systems part 3: EMC requirements and specif ic test methods). In order to achieve the using requirements of the EMC, must meet the following specifications:

● Using shield motor cables, and connect it to the decoupling device (optional) and the metal motor cabinet;

● To reduce the noise and the leakage current, use the motor cable as short as possible;

● The entire system need to have a good earthling;● RFI Switch screw must be tightened up (≤22kW).

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The HLP-A100 drive has three different fault types: Warning, alarm and error. When a fault happens, the drive shows a specific code to indicate it.

When a warning happens, it means that the drive is close to its design limits for some reason, but the drive still works. If the drive fault disappear, the warning will also disappear.

An alarm means that the drive has exceeded its design limits for some reason. When this happens, the drive will trip. Af ter an alarm the driver must be reset in order to re-run. When some alarms happen, the drive will lock itself. These alarms are called trip-lock alarm. The Trip-lock alarm offers additional protection, the default setting is that the main power should be cut off before resetting the alarm. But by setting parameters C14.23 = 0, the trip-lock alarm can be reset without cutting the main power off. But there is a risk of accident when choosing this f unction. Before using this f unction, it is important to be familiar with the drive and the whole system in order to be safe when dealing with the drive.

Error means the drive is in a state and unable to carry out an operation.

Chapter 10 Warnings/Alarms and Fault Handling

10.1 Fault List

Warning Alarm Error Fault Description Reason analysis

A.03 E.03 Motor Loss Motor cable connection problems

A.04 E.04* Mains Phase Loss

Missing phase on supply side or too high voltage imbalance. The allowed power imbalance of HLP-C100 serials inverter is 3% of the rated voltage.(IEC Standard)

A.07 E.07 Over Voltage Intermediate circuit voltage exceeds limit.

A.08 E.08 Under VoltageIntermediate circuit voltage drops below “voltage warning low” limit.

A.09 E.09 Inverter Overload

More than 100% overload for too long time.

A.10 E.10 Motor ETR Over Temperature

Motor temperature calculated by ETR exceeds upper limit

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E.11 Motor Over Temperature

Thermistor damage, uncorrectly installed or motor cooling equipment failure.

A.12 E.12* Torque Limit Torque exceeds the max. torque limit.

A.13 E.13* Over Current Inverter peak current limit is exceeded.

A.14 E.14* Earth faultDischarge f rom output phases to ground(22KW and below)

E.16* Short Circuit Short circuit in motor or on motor terminals.

A.17 E.17 Control Word Timeout

Drive communication timeout, this alarm occurrs when C08.04 is set to 0 or 5.

A.24 E.24 Fan Fault Too much dust on the fan or the fan is aging.

E.25* Brake resistor short-circuit

Brake resistor is short circuit, leading the brake f unction invalid.

E.27 Brake transisitor short-circuit

Brake transistor is short circuit leading brake f unction invalid.

E.28 Brake Detect Brake resistor is not connected or working.

E.30* Motor phase U missing

Motor phase U is missing, check the phase.

E.31* Motor phase V missing

Motor phase V is missing, check the phase.

E.32* Motor phase W missing

Motor phase W is missing,check the phase.

E.38* Internal Fault Contact the local distributor or Holip Company.

E.44* Earth FaultDischarge f rom output phases to ground(22KW or more)

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E.46* Gate drive voltage fault Power card fault

E.47* 24V Power Card Fault

24V voltage power card failure

E.48* VDD Low Voltage VDD Voltage is too low.

E.51 AMA check Unom and Inom

Motor voltage and motor current error setting.

E.52 AMA Low Inom Motor current is too low,check the settings.

E.53 AMA Motor is too large

Motor configuration is too large to perform AMA.

E.54 AMA Motor is too small

Motor configuration is too small , unable to perform AMA.

E.55 AMA Paremeter Error

Motor parameter is out of the range

E.56 AMA Interrupt Interrupted by the user when running AMA.

E.57 AMA Time-out AMA takes too long to run.

A.58 E.58 AMA Internal Error

Contace Local distributor or Holip Company.

A.59 Current Limit Current exceeds value set in C04.18.

E.63Mechenical

Brake Current Low

Actual motor current can not exceeds Release brake current set in C02.20 within start delay time.

A.66 Heat sink low temperature

Temperature may be damaged.

A.69 E.69* Power Card temperature.

Power card is over temperature.

A.74 E.74Rectifier

Temperature Sensor Error

Rectifier Temperature Sensor Error

A.75 E.75Rectifier

Temperature High

Rectifier Temperature High

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A.76 E.76IGBT

Temperature Sensor Error U

IGBT Temperature Sensor Error U

A.77 E.77IGBT

Temperature Sensor Error V

IGBT Temperature Sensor Error V

A.78 E.78IGBT

Temperature Sensor Error W

IGBT Temperature Sensor Error W

A.79 E.79 Undefined fault Contact local distributor or Holip Company.

E.80 Parameter Initialization Make parameter initialized.

A.83 E.83 Power Board Temp High Power Board Temp High

E.88* 24V Power Card Fault 24V Power Card Fault

Er.84LCP Connection with the inverter

failed

No communication between LCP and the inverter.

Er.85 Button is disabled Refer to parameter group C04*

Er.89 Parameter read-only

Try to write read-only parameter.

Er.90 Feedback faultLCP and RS485 connection try to updata parameter at the same time.

Er.91Parameter value is invalid in this

mode

Invalid parameter value to write.

Err UnchangbaleParameter is f reezed or can’t be changed during running.

Note: Trip-lock alarm is with *.

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10.2 Fault Indication and Trouble ShootingThe inverter of HLP-A100 serials is relatively perfective with protection

f unctions of overload, inter-phase short circuit, earth short circuit, and over-current etc. When a protection f unction occurs, please check reasons of the faults according to the information listed in the table below. The inverter can be restart af ter the disposal. If the fault can’t be disposaled, please contect the distributor or Holip company.

Fault Process Method

1. Motor runs unsteadily

Motor runs unsteadily but no warnings issued, may be motor parameter settings are not correct, please adjust motor parameter settings, if no effect, please contact Holip Company.

2. Motor can’t rotate

Confirm whether the screen display is normal;If screen display is properly, verif y if warning or alarm information displays;If any warning or alarm occurred, please refer to corresponding troubleshooting section;If no warning or alarm occurred, please refer to item 5 below;If there is no screen display, please make sure if the supply voltage is correct;If the supply voltage is correct, please refer to item 4 below.

3. Motor brake f unction can’t be performed.

Please refer to braking f unction section;

4. No fault message or screen display

Confirm whether the input f use meltdown;Verif y whether control card is overload;Suppose control card is overload, and 24V is shorted, please remove the connection of control terminal;Make sure if any fault message is displayed, and if no, please contact Holip Company;

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Fault Process Method

5. Motor can’t rotate and screen display is normal without fault message

Press [Enter] on LCP;Make sure whether the screen is active i.e. the screen display can’t be switched or parameter can’t be edited;Suppose screen is f reeze, please make sure screened cable used and connected correctly;If operation of the display screen is normal, please make sure connection between motor and the f requency converter is correct and then operate the drive in hand mode. Please contact Holip Company if motor can’t rotate.

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Chapter 11 Maintenance

11.1 Note

11.2 Storage and Transport

Conf irm the main circuit power supply has been turned off, and the display has disappeared before carry out inspection and maintenance. Make sure the system is in dynamic state, please pay attention to the following:

● Check whether the power supply voltage matches to the rated voltage of the inverter;

● Check whether the motor makes unexpected noises or abnormal vibration when running;

● Check whether there are abnormal heating;● Check whether the inverter output voltage, output current, output

f requency, and monitor display is greater than the value commonly used.

● Check whether the cooling fan installed at the lower part of the inverter runs normally;

● Check whether the ambient temperature is too high and whether there is dust, iron filings, corrosive fluid in the inverter;

● Check whether the ambient temperature of the inverter is between -10℃~40℃, and whether the humidity is between 5%-85% (95% is without condensation), phenomenon of water droplets is not allowed;

● The inverter should be discarded as industrial waste. It is forbidden to burn it;

The inverter must be kept in its original package box before installation. Pay attention to the followings when keeping it in storage if the inverter is not used for the time being:

● It must be stored in a dry place without rubbish or dust;● The suitable temperature for storage is between -25℃-65℃ ;● The relative humidity required is 5%-95% without condensation;● There is no corrosive gas or liquid in the storage ambience;● It is better to lay the inverter on a rack and keep it in a proper package;● The ambient temperature for transport is between -25℃-70℃ ;● The relative humidity of transport ambience must be less than 95%

(Ambient temperature is 40℃).Attention: It is better not to store the inverter for long time. Long time

storage of the inverter will lead to the deterioration of electrolytic capacity. If it needs to be stored for a long time make sure to power it up one time within a year and the power-up time should be at least above five hours. When powering up, supply voltage must be increased slowly with a voltage regulator to the rated voltage value.

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Chapter 12 Communication protocol

12.1 Format specification

12.2 Coil addressing

1)Address: 1-2472)Function: HLP-A100 support following f unction code

01: Read Coil Status03: Read Holding Registers05: Force Single Coil06: Preset Single Register15: Force Multiple Coils16: Preset Multiple Regs

3)DATA: N×8bits4)CRC: CRC check

HLP-A100 series inverter follows the standard Modbus RTU protocol.

FC control word

Address Function code Data CRC8 bits 8 bits N*8 bits 16 bits

Coil address R/W Description

0-15 R,W Frequency converter control word (see following table)

16-31 R,W Frequency converter speed or setpoint

32-47 R Frequency converter status word(see following table)

48-63 R Frequency converter output f requency

64 W

Parameter write control0000-Parameter changes are written to the RAM;

FF00- Parameter changes are written to the RAM and EEPROM;

65-65535 Reserved

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Status word

Coil address 0 1

00 Preset reference bit0

01 Preset reference bit1

02 DC brake No DC brake

03 Coast stop No coast stop

04 Quick-Stop Ramp

05 Freeze f req No f reeze f req

06 Ramp stop Start

07 No reset Reset

08 No jog Jog

09 Ramp 1 Ramp 2

10 Data invalid Data valid

11 Relay1 off Relay1 on

12 Relay2 off Relay2 on

13 Set-up selection bit0

14 Reserved

15 No reversing Reversing

Coil address 0 1

32 Control not ready Control ready

33 Frequency converter not ready Frequency converter ready

34 Coasting stop Satety closed

35 No alarm Alarm

36 Reserved

37 Reserved

38 Reserved

39 No warning Warning

40 Not at reference At reference

41 Hand mode Auto mode

42 Out of f req range In f req range

43 Stopped Running

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44 Reserved

45 No voltage warning Voltage warning

46 Not in current limit Current limit

47 No thermal warning Thermal warning

Register Description

00000-00006 Reserved

00007 The most recent error code f rom FC data interface

00008 Parameter index

00009-00989 Parameter group 00

00999-01989 Parameter group 01

01999-02989 Parameter group 02

… …

15999-16989 Parameter group 16

Field Description

01 FC address

01 Funtion

00 30Coil address (ADDRH ADDRL).0x0030 convert to decimal number is 48. Coil address 49 is f requency converter output f requency.

00 10 Data bits number is 16. 0x 0010 convert to decimal number is 16

3D C9 CRC check

The relationship between register address and parameter number is: register address = parameter number × 10 -1

Example:Detect inverter output f requency Transmit:01 01 00 30 00 10 3D C9(Hexadecimal) Receive:01 01 02 00 20 B8 24(Hexadecimal)

12.3 Read Coil Status

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Field Description

01 FC address

01 Function

02 The read byte number is 2

00 20Ouput f requency.Swap high and low, the data is 0x2000, so the output f requency is 50% of C03.03. Why does 0x2000 correspond to 50%, please see 12.6.

B8 24 CRC check

Field Description

01 FC address

03 Function

0B D5 Register address(ADDRH ADDRL).The register address of C03.03 is 303*10-1=3029(0x0BD5)

00 02 The number of read registers is 2

D7 D7 CRC check

Field Description

01 FC address

03 Function

04 The byte number of received data

00 00 EA 60 0x0000EA60 convert to decimal number is 60000.So the value of C03.03 is 60000*0.001=60.000

B5 7B CRC check

Receive data

Transmit data

Receive data

Example:Read the value of C03.03 Transmit:01 03 0B D5 00 02 D7 D7 (Hexadecimal) Receive: 01 03 04 00 00 EA 60 B5 7B(Hexadecimal)

12.4 Read Holding Registers

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Field Description

01 FC address

05 Function

00 40 0x0040 convert to decimal number is 64.The register address 64 is parameter write control

FF 000000-Parameter changes are written to the RAM;FF00- Parameter changes are written to the RAM and EEPROM;

8D EE CRC check

Field Description

01 FC address

05 Function

00 40 0x0040 convert to decimal number is 64.The register address 64 is parameter write control

FF 000000-Parameter changes are written to the RAM;FF00- Parameter changes are written to the RAM and EEPROM;

8D EE CRC check

Example:write parameter to RAM and EEPROM Transmit: 01 05 00 40 FF 00 8D EE(Hexadecimal) Receive: 01 05 00 40 FF 00 8D EE(Hexadecimal)

Example: set C01.01 = 1 Transmit: 01 06 03 F1 00 01 19 BD(Hexadecimal) Receive: 01 06 03 F1 00 01 19 BD(Hexadecimal)

Transmit data

Receive data

12.5 Force Single Coil

12.6 Preset Single Register

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Field Description

01 FC address

06 Function

03 F1 The register address of C01.01 is 101*10-1=1009(0x03F1)

00 01 The parameter value is 1

19 BD CRC check

Field Description

01 FC address

06 Function

03 F1 The register address of C01.01 is 101*10-1=1009(0x03F1)

00 01 The parameter value is 1

19 BD CRC check

Field Description

01 FC address

0F Function

00 00 Register address 0 is f requency converter control word.

00 20 The bit number is 32.

04 The byte number is 4

7C 04

Control word. “7C 04”swap high byte and low byte, the value is 0x047CNote: 0x047C convertes to binary is: 0000 0100 0111 1100 are corresponding to the coil address 0-15

Example: the f requency is 40% of C03.03. Transmit: 01 0F 00 00 00 20 04 7C 04 9A 19 37 B3(Hexadecimal) Receive: 01 0F 00 00 00 20 54 13(Hexadecimal)

Transmit data

Receive data

Transmit data

12.7 Force Multiple Coils

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9A 19Frequency reference.“9A 19” swap high byte and low byte, the value is 0x199A.Frequency is 40% of C03.03(see the following f requency conversion specification).

37 B3 CRC check

Frequency conversion specification: If you want to set the f requency as 20Hz, 20Hz is 40% of the maximum f requency (it determined by the C03.03 parameters, the default is 50Hz). Calculation method: 20/50 * 16384 = 6553.6 converted to hexadecimal 0x199A. So if you want to set the f requency as feq, you can calculate: feq / C03.03 × 16384 then converts into hexadecimal. 16384 converts into hexadecimal is 0x4000. The reason to be multiplied 16384 is for a higher accuracy.

Field Description

01 FC address

0F Function

00 00 Register address 0 is f requency converter control word.

00 20 The bit number is 32.

54 13 CRC check

Field Description

01 FC address

10 Function

0B D5 The register address of C03.03 is 303*10-1=3029(0x0BD5)

00 02 Register number

04 The byte number of data is 4

00 00 EA 60 0x0000EA60 convert to decimal number is 60000. So the value of C03.03 is 60000*0.001=60.000

02 B4 CRC check

Receive data

Receive data

Example: Set C03.03 = 60.000 Transmit: 01 10 0B D5 00 02 04 00 00 EA 60 02 B4(Hexadecimal) Receive: 01 10 0B D5 00 02 52 14(Hexadecimal)

12.8 Preset Multiple Regs

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Field Description

01 FC address

06 Function

00 08 Register address(ADDRH ADDRL),the register address of parameter index is 0x0008

00 02 The index is 2(0x0002)

89 C9 CRC check

Field Description

01 FC address

06 Function

00 08 Register address(ADDRH ADDRL),the register address of parameter index is 0x0008

00 02 The index is 2(0x0002)

89 C9 CRC check

Field Description

01 FC address

10 Function

0B D5 The register address of C03.03 is 303*10-1=3029(0x0BD5)

00 02 Register number

52 14 CRC check

Transmit data 1

Receive data 1

Receive data

Example: write parameter 310[2](index=2) Transmit: 01 06 00 08 00 02 89 C9 (Hexadecimal) Receive: 01 06 00 08 00 02 89 C9 (Hexadecimal) Transmit: 01 10 0C 1B 00 01 02 00 00 69 BB (Hexadecimal) Receive: 01 10 0C 1B 00 01 72 9E (Hexadecimal)

12.9 Read/Write array

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Field Description

01 FC address

10 Function

0C 1B The register address of C03.10 is 310*10-1=3099(0x0C1B)

00 01 Register number

02 Byte number

00 00 The value of 310[2] is 0

69 BB CRC check

Field Description

01 FC address

10 Function

0C 1B The register address of C03.10 is 310*10-1=3099(0x0C1B)

00 01 The number of register

72 9E CRC check

Exception code Description

0x00 Parameter number does not exist

0x01 Defined parameters can not be written

0x02 The value exceeds the upper limit of the parameter

0x03 Index does not exist

0x04 The parameter is not array type

0x05 Data type exception

Transmit data 2

Receive data 2

12.10 Exception codeWhen a communication exception is happened, the inverter returns data

format as following:

Address Function Exception code CRC check8 bits 8 bits 8 bits 16 bits

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0x06 Only use for reset

0x07 Cannot be changed

0x0B Not allowed to write

0x11Data cannot be changed in the current mode(some parameter cannot be changed when the inverter is running)

0x12 Other exception

0x40 Invalid data address

0x41 Invalid length

0x42 Invalid length and value

0x43 Invalid parameter

0x82 The parameters has no bus connection

0x83 Factory settings, cannot be changed.

Specifications:

668/668857-hlpa100_series.pdf file (05 Jan 2023)

Accompanying Data:

Holip HLP-A100 Series Inverter PDF Operating Manual (Updated: Thursday 5th of January 2023 05:06:37 PM)

Rating: 4.4 (rated by 44 users)

Compatible devices: HLP-P Series, E5 Series, 3999WD, hlp-c+, DS7000Q, FREQROL-K Series, CPS175SU, HLP-C100 Series.

Recommended Documentation:

Text Version of Operating Manual

(Ocr-Read Summary of Contents of some pages of the Holip HLP-A100 Series Document (Main Content), UPD: 05 January 2023)

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Operating Impressions, Questions and Answers:

#1

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Nikolay79

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  • Из:Москва

Отправлено 27 Май 2015 — 18:09

Уважаемые специалисты.
Имеется частотник HLPC+01D523B.
Он настроен на 400гц, вольт-частотный метод. Мне необходимо его перенастоить на 50гц, для работы с общепромышленным трёхфазником. Но он не запоминает параметры.
Или я что-то не так делаю. Нажимаю PROG 2 раза, на экране С0000, выбираю С0005, далее держу ENTER, он входит в параметр, меняю частоту, держу ENTER. Параметр не запоминается. Причём таких частотников 2. И оба не запоминают.
Подскажите пожалуйста, как запомнить параметры, и если есть назначение программ.
Также, пожалуйста, просвятите по поводу назначения клемм: FA, FB, FC, DRV, SPL, SPM, SPH, AM
IMG_20150527_130717.jpg

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Частотник HLPC+ 01D523B

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T-Rex

T-Rex

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Отправлено 27 Май 2015 — 22:07

Нажимаю PROG 2 раза, на экране С0000, выбираю С0005, далее держу ENTER, он входит в параметр, меняю частоту, держу ENTER. Параметр не запоминается.

А в C0060, случайно, не установлена ли единичка (запрет модификации настроек)?

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Nikolay79

Nikolay79

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Отправлено 28 Май 2015 — 15:51

Огромное Вам спасибо Человичище! Вы съэкономили мне кучу денег и времени.

Методом тыка был найден параметр, запрещающий редактирование. Это С0120. После его выставления в 0, при подтверждении параметра появляется надпись END, и параметр запоминается.

Если можно, ещё 3 вопроса:

-Как установить нижнюю границу напряжения на  вольт-частотный методе, и как включить векторное управление напряжением?

-Можно ли от этого частотника запитать однофазный асинхронник?

-Где может находится документация на частотники этой серии (даже не обязательно на этот, просто, примерно, алгоритм поиска)?

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MiG

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Отправлено 28 Май 2015 — 16:12

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3D-BiG

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Отправлено 28 Май 2015 — 16:55

На Холиб С+ была грамотно переведенная  инструкция от Пурелоджика…

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MiG

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Отправлено 28 Май 2015 — 16:59

Поискал у них ,там вроде бы не на holip ,

а на Tecorp HC1C+  , или все таки и на Holip было?

Сообщение отредактировал MiG: 28 Май 2015 — 17:04

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3D-BiG

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Отправлено 28 Май 2015 — 17:21

Раньше было — покупал у них Пару холибов и скачивал инструкцию, но что-то найти у себя НЕ могу….

Сообщение отредактировал 3D-BiG: 28 Май 2015 — 17:41

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MiG

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Отправлено 28 Май 2015 — 17:28

Понятно , так и не нашел,удалили значит … :(

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Nikolay79

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Отправлено 28 Май 2015 — 17:37

Мда, на HLPC+ пока ничего не найдено. Номера программ, того что есть — другие.

Насчёт однофазного асинхронника — не в курсе? Можно его подключить к этому частотнику?

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MiG

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Отправлено 28 Май 2015 — 18:21

А вот с этим мануалом сравните ваши параметры ,

это Tecorp HC1C (eng) , похоже это аналог Holip-C,

 в английской версии мануала параметры вроде совпадают ,

в отличии от пурелоджиковской русской…

про запитку однофазного движка от трехфазного инвертора   (ближе к концу страницы)

Сообщение отредактировал MiG: 28 Май 2015 — 18:42

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Nikolay79

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Отправлено 28 Май 2015 — 19:51

Большое спасибо.

Здесь все номера программ сходятся.

Однофазник от этого инвертора, увы, не запитать. Это дренажный насос с неразборным корпусом. Третий вывод не доступен.

Тему можно закрывать.

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T-Rex

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Отправлено 28 Май 2015 — 21:57

Однофазник от этого инвертора, увы, не запитать.

Однофазник от трехфазного инвертора лучше вообще не запитывать. Даже если у него выводы обеих обмоток доступны. Как ни изощряйся, все равно включение получится «per anus».

Tecorp HC1C (eng) , похоже это аналог Holip-C

Судя по параметрам — нет, не аналог (120-й параметр у топикстартера запрещает изменение настроек, а в Tecorp — сбрасывает на заводские настройки). 

И на Холиповском сайте, к сожалению, тоже нет мануала на HLP-C+. На HLP-C100 есть, но как выяснилось, назначение параметров у них не совпадает (защита настроек в модели C100 —  параметр под номером 0060, а не 0120). 

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MiG

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Отправлено 28 Май 2015 — 22:10

Судя по параметрам — нет, не аналог (120-й параметр у топикстартера запрещает изменение настроек, а в Tecorp — сбрасывает на заводские настройки).  И на Холиповском сайте, к сожалению, тоже нет мануала на HLP-C+. На HLP-C100 есть, но как выяснилось, назначение параметров у них не совпадает (защита настроек в модели C100 —  параметр под номером 0060, а не 0120). 

перевод описания 120-го параметра  Tecorp  :

«C120 Выбор блокировки параметров .

Диапазон установки 0-1 ,

Значение 1-Заводская настройка , 0 -выкл.

0-откл.

1- вкл (что означает, что другие параметры были заблкированны от изменения)

Эта функция может предотвратить изменение  вашего заданного значения другим персоналом .» 

Это именно блокировка … да и остальные параметры которые вспомнил совпадают(если правильно вспомнил) … 

Сообщение отредактировал MiG: 28 Май 2015 — 22:17

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T-Rex

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Отправлено 28 Май 2015 — 23:02

перевод описания 120-го параметра  Tecorp

Oops, извиняюсь. Правда, вина не полностью моя.

Гляжу в англоязычный мануал (не люблю русские переводы, за исключением, разве что, Дельтовских). В кратком списке параметр C120 назван, как «Factory setting», а в подробном описании параметра — уже как «Parameters lock».

В таком случае:

Как установить нижнюю границу напряжения на  вольт-частотный методе

Параметр C003 = 0, и лепи собственную V/F кривую по трем точкам:

C004 — напряжение, выдаваемое при «базовой» частоте C005 (равной 50..60Гц для обычного мотора или 300..400Гц для шпиндельного). При повышении частоты сверх «базовой» напряжение расти уже не будет.

C008/C009 — начальная точка кривой (минимальное напряжение при минимальной частоте).

C006/C007 — промежуточная точка кривой (позволяет прогнуть кривую «горбом» для повышения крутящего момента на малых/средних частотах, или «седлом» для «насосно-вентиляторной» характеристики). 

как включить векторное управление напряжением?

Этот частотник не поддерживает векторный режим. 

Сообщение отредактировал T-Rex: 28 Май 2015 — 23:03

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MiG

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Отправлено 28 Май 2015 — 23:11

Да, и я тоже сначала 120 увидел в таблице  как заводская настройка

и только в описании усмотрел блокировку, это косяк составителей …

А мануал как раз  английский смотрел ,просто  перевел один параметр  здесь  …

…в русской же версии мануала от пурелоджика ( на которую ссылка в 6-м сообщении)

там вообще совсем другие параметры,даже их обозначение не Cxxx ,а Pxxx.

…он точно не подойдет …

Сообщение отредактировал MiG: 28 Май 2015 — 23:41

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ithitym

Отправлено 01 Июнь 2015 — 19:48

Уважаемые Гуру CНС .Очень прошу вас помочь з частотником ( HLP-A  3PHASE), 220vHOLIP .Дисплей не работает. Обороты на шпинделе регулируются   переменним резистором.Я новичок, и токо не давно блогадаря  вашей помоши, на етом форуме и знаниям ,запустил чпу станок,которий достался без  документации и инструкций.Резал пару моделей. Получается, но есть не удобство, не наешь на каких оборотах работает частотник. Ориентируюсь на стружку (работаю пока з деревом).
Нужен мануал (желательно на русском), дисплейчик на дсп пульте,переставлял в частотник, все ровно не горит.
Станок лет десять стоял без роботы.(вуудпекер RS6590).

Забыл  написать ,частотник 2.2 киловатта.

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MiG

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Отправлено 01 Июнь 2015 — 20:04

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3D-BiG

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Отправлено 01 Июнь 2015 — 21:02

Дисплей не работает. Обороты на шпинделе регулируются переменним резистором.Я новичок, и токо не давно блогадаря вашей помоши, на етом форуме и знаниям ,запустил чпу станок,которий достался без документации и инструкций.Резал пару моделей. Получается, но есть не удобство, не наешь на каких оборотах работает частотник.

В русском мануале обратите на стр.72, на клеммы на схеме АМ АСМ — это выводы для подключения 10вольтового стрелочного прибора, который можно проградуировать в обороты… Точности индикации будет более чем достаточно для работы…

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ithitym

Отправлено 02 Июнь 2015 — 19:09

Огромное спасибо за наданую информацию.Пожалуста  уточните  какой  прибор можно брать.Пример где они стоять ,чтоб знать как они виглядят.

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MiG

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Отправлено 02 Июнь 2015 — 19:39

…например вот такой

стрелочный вольтметр с диапазоном измерения 0-10v

размер 72х72мм

DOC000513939.jpg

или вот такой 

Вольтметр стрелочный SF-40 шкала 0-10V

размер 40х40мм

SF40_10V-150x150.jpg

Сообщение отредактировал MiG: 02 Июнь 2015 — 19:56

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